pax_global_header00006660000000000000000000000064133723554540014525gustar00rootroot0000000000000052 comment=f438b98e552010613cff8684a7d84191ed785148 rocksdb-5.17.2/000077500000000000000000000000001337235545400132505ustar00rootroot00000000000000rocksdb-5.17.2/.clang-format000066400000000000000000000002121337235545400156160ustar00rootroot00000000000000# Complete list of style options can be found at: # http://clang.llvm.org/docs/ClangFormatStyleOptions.html --- BasedOnStyle: Google ... rocksdb-5.17.2/.gitignore000066400000000000000000000013441337235545400152420ustar00rootroot00000000000000make_config.mk *.a *.arc *.d *.dylib* *.gcda *.gcno *.o *.so *.so.* *_test *_bench *_stress *.out *.class *.jar *.*jnilib* *.d-e *.o-* *.swp *~ *.vcxproj *.vcxproj.filters *.sln *.cmake CMakeCache.txt CMakeFiles/ build/ ldb manifest_dump sst_dump blob_dump column_aware_encoding_exp util/build_version.cc build_tools/VALGRIND_LOGS/ coverage/COVERAGE_REPORT .gdbhistory .gdb_history package/ unity.a tags etags rocksdb_dump rocksdb_undump db_test2 trace_analyzer trace_analyzer_test java/out java/target java/test-libs java/*.log java/include/org_rocksdb_*.h .idea/ *.iml rocksdb.cc rocksdb.h unity.cc java/crossbuild/.vagrant .vagrant/ java/**/*.asc java/javadoc scan_build_report/ t LOG db_logs/ tp2/ fbcode/ fbcode buckifier/*.pyc rocksdb-5.17.2/.lgtm.yml000066400000000000000000000001031337235545400150060ustar00rootroot00000000000000extraction: cpp: index: build_command: make static_lib rocksdb-5.17.2/.travis.yml000066400000000000000000000065231337235545400153670ustar00rootroot00000000000000sudo: false dist: trusty language: cpp os: - linux - osx compiler: - clang - gcc osx_image: xcode8.3 jdk: - oraclejdk7 cache: - ccache - apt addons: apt: sources: - ubuntu-toolchain-r-test packages: - curl - g++-8 - libbz2-dev - libgflags-dev - libsnappy-dev - mingw-w64 - zlib1g-dev env: - TEST_GROUP=platform_dependent # 16-18 minutes - TEST_GROUP=1 # 33-35 minutes - TEST_GROUP=2 # 18-20 minutes - TEST_GROUP=3 # 20-22 minutes - TEST_GROUP=4 # 12-14 minutes # Run java tests - JOB_NAME=java_test # 4-11 minutes # Build ROCKSDB_LITE - JOB_NAME=lite_build # 3-4 minutes # Build examples - JOB_NAME=examples # 5-7 minutes - JOB_NAME=cmake # 3-5 minutes - JOB_NAME=cmake-gcc8 # 3-5 minutes - JOB_NAME=cmake-mingw # 3 minutes matrix: exclude: - os: osx env: TEST_GROUP=1 - os: osx env: TEST_GROUP=2 - os: osx env: TEST_GROUP=3 - os: osx env: TEST_GROUP=4 - os: osx env: JOB_NAME=cmake-gcc8 - os : osx env: JOB_NAME=cmake-mingw - os : linux compiler: clang - os : osx compiler: gcc # https://docs.travis-ci.com/user/caching/#ccache-cache install: - if [ "${TRAVIS_OS_NAME}" == osx ]; then brew install ccache zstd lz4 snappy xz; PATH=$PATH:/usr/local/opt/ccache/libexec; fi - if [ "${JOB_NAME}" == cmake-gcc8 ]; then CC=gcc-8 && CXX=g++-8; fi - if [[ "${JOB_NAME}" == cmake* ]] && [ "${TRAVIS_OS_NAME}" == linux ]; then mkdir cmake-dist && curl -sfSL https://cmake.org/files/v3.8/cmake-3.8.1-Linux-x86_64.tar.gz | tar --strip-components=1 -C cmake-dist -xz && export PATH=$PWD/cmake-dist/bin:$PATH; fi before_script: # Increase the maximum number of open file descriptors, since some tests use # more FDs than the default limit. - ulimit -n 8192 script: - ${CXX} --version - if [ `command -v ccache` ]; then ccache -C; fi - case $TEST_GROUP in platform_dependent) OPT=-DTRAVIS V=1 ROCKSDBTESTS_END=db_block_cache_test make -j4 all_but_some_tests check_some ;; 1) OPT=-DTRAVIS V=1 ROCKSDBTESTS_START=db_block_cache_test ROCKSDBTESTS_END=full_filter_block_test make -j4 check_some ;; 2) OPT=-DTRAVIS V=1 ROCKSDBTESTS_START=full_filter_block_test ROCKSDBTESTS_END=write_batch_with_index_test make -j4 check_some ;; 3) OPT=-DTRAVIS V=1 ROCKSDBTESTS_START=write_batch_with_index_test ROCKSDBTESTS_END=write_prepared_transaction_test make -j4 check_some ;; 4) OPT=-DTRAVIS V=1 ROCKSDBTESTS_START=write_prepared_transaction_test make -j4 check_some ;; esac - case $JOB_NAME in java_test) OPT=-DTRAVIS V=1 make clean jclean && make rocksdbjava jtest ;; lite_build) OPT='-DTRAVIS -DROCKSDB_LITE' V=1 make -j4 static_lib tools ;; examples) OPT=-DTRAVIS V=1 make -j4 static_lib && cd examples && make -j4 ;; cmake-mingw) mkdir build && cd build && cmake -DJNI=1 .. -DCMAKE_C_COMPILER=x86_64-w64-mingw32-gcc -DCMAKE_CXX_COMPILER=x86_64-w64-mingw32-g++ -DCMAKE_SYSTEM_NAME=Windows && make -j4 rocksdb rocksdbjni ;; cmake*) mkdir build && cd build && cmake -DJNI=1 .. -DCMAKE_BUILD_TYPE=Release && make -j4 rocksdb rocksdbjni ;; esac notifications: email: - leveldb@fb.com webhooks: - https://buildtimetrend.herokuapp.com/travis rocksdb-5.17.2/AUTHORS000066400000000000000000000005021337235545400143150ustar00rootroot00000000000000Facebook Inc. Facebook Engineering Team Google Inc. # Initial version authors: Jeffrey Dean Sanjay Ghemawat # Partial list of contributors: Kevin Regan Johan Bilien Matthew Von-Maszewski (Basho Technologies) rocksdb-5.17.2/CMakeLists.txt000066400000000000000000001101241337235545400160070ustar00rootroot00000000000000# Prerequisites for Windows: # This cmake build is for Windows 64-bit only. # # Prerequisites: # You must have at least Visual Studio 2015 Update 3. Start the Developer Command Prompt window that is a part of Visual Studio installation. # Run the build commands from within the Developer Command Prompt window to have paths to the compiler and runtime libraries set. # You must have git.exe in your %PATH% environment variable. # # To build Rocksdb for Windows is as easy as 1-2-3-4-5: # # 1. Update paths to third-party libraries in thirdparty.inc file # 2. Create a new directory for build artifacts # mkdir build # cd build # 3. Run cmake to generate project files for Windows, add more options to enable required third-party libraries. # See thirdparty.inc for more information. # sample command: cmake -G "Visual Studio 15 Win64" -DWITH_GFLAGS=1 -DWITH_SNAPPY=1 -DWITH_JEMALLOC=1 -DWITH_JNI=1 .. # 4. Then build the project in debug mode (you may want to add /m[:] flag to run msbuild in parallel threads # or simply /m to use all avail cores) # msbuild rocksdb.sln # # rocksdb.sln build features exclusions of test only code in Release. If you build ALL_BUILD then everything # will be attempted but test only code does not build in Release mode. # # 5. And release mode (/m[:] is also supported) # msbuild rocksdb.sln /p:Configuration=Release # # Linux: # # 1. Install a recent toolchain such as devtoolset-3 if you're on a older distro. C++11 required. # 2. mkdir build; cd build # 3. cmake .. # 4. make -j cmake_minimum_required(VERSION 2.8.12) project(rocksdb) enable_language(CXX) enable_language(C) enable_language(ASM) if(POLICY CMP0042) cmake_policy(SET CMP0042 NEW) endif() list(APPEND CMAKE_MODULE_PATH "${CMAKE_CURRENT_LIST_DIR}/cmake/modules/") option(WITH_JEMALLOC "build with JeMalloc" OFF) option(WITH_SNAPPY "build with SNAPPY" OFF) option(WITH_LZ4 "build with lz4" OFF) option(WITH_ZLIB "build with zlib" OFF) option(WITH_ZSTD "build with zstd" OFF) if(MSVC) # Defaults currently different for GFLAGS. # We will address find_package work a little later option(WITH_GFLAGS "build with GFlags" OFF) option(WITH_XPRESS "build with windows built in compression" OFF) include(${CMAKE_CURRENT_SOURCE_DIR}/thirdparty.inc) else() if(CMAKE_SYSTEM_NAME MATCHES "FreeBSD") # FreeBSD has jemalloc as default malloc # but it does not have all the jemalloc files in include/... set(WITH_JEMALLOC ON) else() if(WITH_JEMALLOC) find_package(JeMalloc REQUIRED) add_definitions(-DROCKSDB_JEMALLOC -DJEMALLOC_NO_DEMANGLE) include_directories(${JEMALLOC_INCLUDE_DIR}) list(APPEND THIRDPARTY_LIBS ${JEMALLOC_LIBRARIES}) endif() endif() # No config file for this option(WITH_GFLAGS "build with GFlags" ON) if(WITH_GFLAGS) find_package(gflags) if(gflags_FOUND) add_definitions(-DGFLAGS=1) include_directories(${gflags_INCLUDE_DIR}) list(APPEND THIRDPARTY_LIBS ${gflags_LIBRARIES}) endif() endif() if(WITH_SNAPPY) find_package(snappy REQUIRED) add_definitions(-DSNAPPY) include_directories(${SNAPPY_INCLUDE_DIR}) list(APPEND THIRDPARTY_LIBS ${SNAPPY_LIBRARIES}) endif() if(WITH_ZLIB) find_package(zlib REQUIRED) add_definitions(-DZLIB) include_directories(${ZLIB_INCLUDE_DIR}) list(APPEND THIRDPARTY_LIBS ${ZLIB_LIBRARIES}) endif() option(WITH_BZ2 "build with bzip2" OFF) if(WITH_BZ2) find_package(bzip2 REQUIRED) add_definitions(-DBZIP2) include_directories(${BZIP2_INCLUDE_DIR}) list(APPEND THIRDPARTY_LIBS ${BZIP2_LIBRARIES}) endif() if(WITH_LZ4) find_package(lz4 REQUIRED) add_definitions(-DLZ4) include_directories(${LZ4_INCLUDE_DIR}) list(APPEND THIRDPARTY_LIBS ${LZ4_LIBRARIES}) endif() if(WITH_ZSTD) find_package(zstd REQUIRED) add_definitions(-DZSTD) include_directories(${ZSTD_INCLUDE_DIR}) list(APPEND THIRDPARTY_LIBS ${ZSTD_LIBRARIES}) endif() endif() string(TIMESTAMP GIT_DATE_TIME "%Y/%m/%d %H:%M:%S" UTC) find_package(Git) if(GIT_FOUND AND EXISTS "${CMAKE_CURRENT_SOURCE_DIR}/.git") if(WIN32) execute_process(COMMAND $ENV{COMSPEC} /C ${GIT_EXECUTABLE} -C ${CMAKE_CURRENT_SOURCE_DIR} rev-parse HEAD OUTPUT_VARIABLE GIT_SHA) else() execute_process(COMMAND ${GIT_EXECUTABLE} -C ${CMAKE_CURRENT_SOURCE_DIR} rev-parse HEAD OUTPUT_VARIABLE GIT_SHA) endif() else() set(GIT_SHA 0) endif() string(REGEX REPLACE "[^0-9a-f]+" "" GIT_SHA "${GIT_SHA}") # Read rocksdb version from version.h header file. file(READ include/rocksdb/version.h version_header_file) string(REGEX MATCH "#define ROCKSDB_MAJOR ([0-9]+)" _ ${version_header_file}) set(ROCKSDB_VERSION_MAJOR ${CMAKE_MATCH_1}) string(REGEX MATCH "#define ROCKSDB_MINOR ([0-9]+)" _ ${version_header_file}) set(ROCKSDB_VERSION_MINOR ${CMAKE_MATCH_1}) string(REGEX MATCH "#define ROCKSDB_PATCH ([0-9]+)" _ ${version_header_file}) set(ROCKSDB_VERSION_PATCH ${CMAKE_MATCH_1}) set(ROCKSDB_VERSION ${ROCKSDB_VERSION_MAJOR}.${ROCKSDB_VERSION_MINOR}.${ROCKSDB_VERSION_PATCH}) option(WITH_MD_LIBRARY "build with MD" ON) if(WIN32 AND MSVC) if(WITH_MD_LIBRARY) set(RUNTIME_LIBRARY "MD") else() set(RUNTIME_LIBRARY "MT") endif() endif() set(BUILD_VERSION_CC ${CMAKE_BINARY_DIR}/build_version.cc) configure_file(util/build_version.cc.in ${BUILD_VERSION_CC} @ONLY) add_library(build_version OBJECT ${BUILD_VERSION_CC}) target_include_directories(build_version PRIVATE ${CMAKE_CURRENT_SOURCE_DIR}/util) if(MSVC) set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} /Zi /nologo /EHsc /GS /Gd /GR /GF /fp:precise /Zc:wchar_t /Zc:forScope /errorReport:queue") set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} /FC /d2Zi+ /W4 /wd4127 /wd4800 /wd4996 /wd4351 /wd4100 /wd4204 /wd4324") else() set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -W -Wextra -Wall") set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -Wsign-compare -Wshadow -Wno-unused-parameter -Wno-unused-variable -Woverloaded-virtual -Wnon-virtual-dtor -Wno-missing-field-initializers -Wno-strict-aliasing") if(MINGW) set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -Wno-format") endif() set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -std=c++11") if(NOT CMAKE_BUILD_TYPE STREQUAL "Debug") set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -fno-omit-frame-pointer") include(CheckCXXCompilerFlag) CHECK_CXX_COMPILER_FLAG("-momit-leaf-frame-pointer" HAVE_OMIT_LEAF_FRAME_POINTER) if(HAVE_OMIT_LEAF_FRAME_POINTER) set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -momit-leaf-frame-pointer") endif() endif() endif() include(CheckCCompilerFlag) if(CMAKE_SYSTEM_PROCESSOR MATCHES "ppc64le") CHECK_C_COMPILER_FLAG("-maltivec" HAS_ALTIVEC) if(HAS_ALTIVEC) message(STATUS " HAS_ALTIVEC yes") set(CMAKE_C_FLAGS "${CMAKE_C_FLAGS} -maltivec") set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -maltivec") set(CMAKE_C_FLAGS "${CMAKE_C_FLAGS} -mcpu=power8") set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -mcpu=power8") endif(HAS_ALTIVEC) endif(CMAKE_SYSTEM_PROCESSOR MATCHES "ppc64le") option(PORTABLE "build a portable binary" OFF) option(FORCE_SSE42 "force building with SSE4.2, even when PORTABLE=ON" OFF) if(PORTABLE) # MSVC does not need a separate compiler flag to enable SSE4.2; if nmmintrin.h # is available, it is available by default. if(FORCE_SSE42 AND NOT MSVC) set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -msse4.2 -mpclmul") endif() else() if(MSVC) set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} /arch:AVX2") else() if(NOT HAVE_POWER8) set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -march=native") endif() endif() endif() include(CheckCXXSourceCompiles) if(NOT MSVC) set(CMAKE_REQUIRED_FLAGS "-msse4.2 -mpclmul") endif() CHECK_CXX_SOURCE_COMPILES(" #include #include #include int main() { volatile uint32_t x = _mm_crc32_u32(0, 0); const auto a = _mm_set_epi64x(0, 0); const auto b = _mm_set_epi64x(0, 0); const auto c = _mm_clmulepi64_si128(a, b, 0x00); auto d = _mm_cvtsi128_si64(c); } " HAVE_SSE42) unset(CMAKE_REQUIRED_FLAGS) if(HAVE_SSE42) add_definitions(-DHAVE_SSE42) add_definitions(-DHAVE_PCLMUL) elseif(FORCE_SSE42) message(FATAL_ERROR "FORCE_SSE42=ON but unable to compile with SSE4.2 enabled") endif() CHECK_CXX_SOURCE_COMPILES(" #if defined(_MSC_VER) && !defined(__thread) #define __thread __declspec(thread) #endif int main() { static __thread int tls; } " HAVE_THREAD_LOCAL) if(HAVE_THREAD_LOCAL) add_definitions(-DROCKSDB_SUPPORT_THREAD_LOCAL) endif() option(FAIL_ON_WARNINGS "Treat compile warnings as errors" ON) if(FAIL_ON_WARNINGS) if(MSVC) set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} /WX") else() # assume GCC set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -Werror") endif() endif() option(WITH_ASAN "build with ASAN" OFF) if(WITH_ASAN) set(CMAKE_EXE_LINKER_FLAGS "${CMAKE_EXE_LINKER_FLAGS} -fsanitize=address") set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -fsanitize=address") set(CMAKE_C_FLAGS "${CMAKE_C_FLAGS} -fsanitize=address") if(WITH_JEMALLOC) message(FATAL "ASAN does not work well with JeMalloc") endif() endif() option(WITH_TSAN "build with TSAN" OFF) if(WITH_TSAN) set(CMAKE_EXE_LINKER_FLAGS "${CMAKE_EXE_LINKER_FLAGS} -fsanitize=thread -pie") set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -fsanitize=thread -fPIC") set(CMAKE_C_FLAGS "${CMAKE_C_FLAGS} -fsanitize=thread -fPIC") if(WITH_JEMALLOC) message(FATAL "TSAN does not work well with JeMalloc") endif() endif() option(WITH_UBSAN "build with UBSAN" OFF) if(WITH_UBSAN) add_definitions(-DROCKSDB_UBSAN_RUN) set(CMAKE_EXE_LINKER_FLAGS "${CMAKE_EXE_LINKER_FLAGS} -fsanitize=undefined") set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -fsanitize=undefined") set(CMAKE_C_FLAGS "${CMAKE_C_FLAGS} -fsanitize=undefined") if(WITH_JEMALLOC) message(FATAL "UBSAN does not work well with JeMalloc") endif() endif() option(WITH_NUMA "build with NUMA policy support" OFF) if(WITH_NUMA) find_package(NUMA REQUIRED) add_definitions(-DNUMA) include_directories(${NUMA_INCLUDE_DIR}) list(APPEND THIRDPARTY_LIBS ${NUMA_LIBRARIES}) endif() option(WITH_TBB "build with Threading Building Blocks (TBB)" OFF) if(WITH_TBB) find_package(TBB REQUIRED) add_definitions(-DTBB) include_directories(${TBB_INCLUDE_DIR}) list(APPEND THIRDPARTY_LIBS ${TBB_LIBRARIES}) endif() # Stall notifications eat some performance from inserts option(DISABLE_STALL_NOTIF "Build with stall notifications" OFF) if(DISABLE_STALL_NOTIF) add_definitions(-DROCKSDB_DISABLE_STALL_NOTIFICATION) endif() if(DEFINED USE_RTTI) if(USE_RTTI) message(STATUS "Enabling RTTI") set(CMAKE_CXX_FLAGS_DEBUG "${CMAKE_CXX_FLAGS_DEBUG} -DROCKSDB_USE_RTTI") set(CMAKE_CXX_FLAGS_RELEASE "${CMAKE_CXX_FLAGS_RELEASE} -DROCKSDB_USE_RTTI") else() if(MSVC) message(STATUS "Disabling RTTI in Release builds. Always on in Debug.") set(CMAKE_CXX_FLAGS_DEBUG "${CMAKE_CXX_FLAGS_DEBUG} -DROCKSDB_USE_RTTI") set(CMAKE_CXX_FLAGS_RELEASE "${CMAKE_CXX_FLAGS_RELEASE} /GR-") else() message(STATUS "Disabling RTTI in Release builds") set(CMAKE_CXX_FLAGS_DEBUG "${CMAKE_CXX_FLAGS_DEBUG} -fno-rtti") set(CMAKE_CXX_FLAGS_RELEASE "${CMAKE_CXX_FLAGS_RELEASE} -fno-rtti") endif() endif() else() message(STATUS "Enabling RTTI in Debug builds only (default)") set(CMAKE_CXX_FLAGS_DEBUG "${CMAKE_CXX_FLAGS_DEBUG} -DROCKSDB_USE_RTTI") if(MSVC) set(CMAKE_CXX_FLAGS_RELEASE "${CMAKE_CXX_FLAGS_RELEASE} /GR-") else() set(CMAKE_CXX_FLAGS_RELEASE "${CMAKE_CXX_FLAGS_RELEASE} -fno-rtti") endif() endif() # Used to run CI build and tests so we can run faster option(OPTDBG "Build optimized debug build with MSVC" OFF) option(WITH_RUNTIME_DEBUG "build with debug version of runtime library" ON) if(MSVC) if(OPTDBG) message(STATUS "Debug optimization is enabled") set(CMAKE_CXX_FLAGS_DEBUG "/Oxt") else() set(CMAKE_CXX_FLAGS_DEBUG "${CMAKE_CXX_FLAGS_DEBUG} /Od /RTC1 /Gm") endif() if(WITH_RUNTIME_DEBUG) set(CMAKE_CXX_FLAGS_DEBUG "${CMAKE_CXX_FLAGS_DEBUG} /${RUNTIME_LIBRARY}d") else() set(CMAKE_CXX_FLAGS_DEBUG "${CMAKE_CXX_FLAGS_DEBUG} /${RUNTIME_LIBRARY}") endif() set(CMAKE_CXX_FLAGS_RELEASE "${CMAKE_CXX_FLAGS_RELEASE} /Oxt /Zp8 /Gm- /Gy /${RUNTIME_LIBRARY}") set(CMAKE_SHARED_LINKER_FLAGS "${CMAKE_SHARED_LINKER_FLAGS} /DEBUG") set(CMAKE_EXE_LINKER_FLAGS "${CMAKE_EXE_LINKER_FLAGS} /DEBUG") endif() if(CMAKE_COMPILER_IS_GNUCXX) set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -fno-builtin-memcmp") endif() option(ROCKSDB_LITE "Build RocksDBLite version" OFF) if(ROCKSDB_LITE) add_definitions(-DROCKSDB_LITE) set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -fno-exceptions") endif() if(CMAKE_SYSTEM_NAME MATCHES "Cygwin") add_definitions(-fno-builtin-memcmp -DCYGWIN) elseif(CMAKE_SYSTEM_NAME MATCHES "Darwin") add_definitions(-DOS_MACOSX) if(CMAKE_SYSTEM_PROCESSOR MATCHES arm) add_definitions(-DIOS_CROSS_COMPILE -DROCKSDB_LITE) # no debug info for IOS, that will make our library big add_definitions(-DNDEBUG) endif() elseif(CMAKE_SYSTEM_NAME MATCHES "Linux") add_definitions(-DOS_LINUX) elseif(CMAKE_SYSTEM_NAME MATCHES "SunOS") add_definitions(-DOS_SOLARIS) elseif(CMAKE_SYSTEM_NAME MATCHES "FreeBSD") add_definitions(-DOS_FREEBSD) elseif(CMAKE_SYSTEM_NAME MATCHES "NetBSD") add_definitions(-DOS_NETBSD) elseif(CMAKE_SYSTEM_NAME MATCHES "OpenBSD") add_definitions(-DOS_OPENBSD) elseif(CMAKE_SYSTEM_NAME MATCHES "DragonFly") add_definitions(-DOS_DRAGONFLYBSD) elseif(CMAKE_SYSTEM_NAME MATCHES "Android") add_definitions(-DOS_ANDROID) elseif(CMAKE_SYSTEM_NAME MATCHES "Windows") add_definitions(-DWIN32 -DOS_WIN -D_MBCS -DWIN64 -DNOMINMAX) if(MINGW) add_definitions(-D_WIN32_WINNT=_WIN32_WINNT_VISTA) endif() endif() if(NOT WIN32) add_definitions(-DROCKSDB_PLATFORM_POSIX -DROCKSDB_LIB_IO_POSIX) endif() option(WITH_FALLOCATE "build with fallocate" ON) if(WITH_FALLOCATE) CHECK_CXX_SOURCE_COMPILES(" #include #include int main() { int fd = open(\"/dev/null\", 0); fallocate(fd, FALLOC_FL_KEEP_SIZE | FALLOC_FL_PUNCH_HOLE, 0, 1024); } " HAVE_FALLOCATE) if(HAVE_FALLOCATE) add_definitions(-DROCKSDB_FALLOCATE_PRESENT) endif() endif() CHECK_CXX_SOURCE_COMPILES(" #include int main() { int fd = open(\"/dev/null\", 0); sync_file_range(fd, 0, 1024, SYNC_FILE_RANGE_WRITE); } " HAVE_SYNC_FILE_RANGE_WRITE) if(HAVE_SYNC_FILE_RANGE_WRITE) add_definitions(-DROCKSDB_RANGESYNC_PRESENT) endif() CHECK_CXX_SOURCE_COMPILES(" #include int main() { (void) PTHREAD_MUTEX_ADAPTIVE_NP; } " HAVE_PTHREAD_MUTEX_ADAPTIVE_NP) if(HAVE_PTHREAD_MUTEX_ADAPTIVE_NP) add_definitions(-DROCKSDB_PTHREAD_ADAPTIVE_MUTEX) endif() include(CheckCXXSymbolExists) check_cxx_symbol_exists(malloc_usable_size malloc.h HAVE_MALLOC_USABLE_SIZE) if(HAVE_MALLOC_USABLE_SIZE) add_definitions(-DROCKSDB_MALLOC_USABLE_SIZE) endif() check_cxx_symbol_exists(sched_getcpu sched.h HAVE_SCHED_GETCPU) if(HAVE_SCHED_GETCPU) add_definitions(-DROCKSDB_SCHED_GETCPU_PRESENT) endif() include_directories(${PROJECT_SOURCE_DIR}) include_directories(${PROJECT_SOURCE_DIR}/include) include_directories(SYSTEM ${PROJECT_SOURCE_DIR}/third-party/gtest-1.7.0/fused-src) find_package(Threads REQUIRED) add_subdirectory(third-party/gtest-1.7.0/fused-src/gtest) # Main library source code set(SOURCES cache/clock_cache.cc cache/lru_cache.cc cache/sharded_cache.cc db/builder.cc db/c.cc db/column_family.cc db/compacted_db_impl.cc db/compaction.cc db/compaction_iterator.cc db/compaction_job.cc db/compaction_picker.cc db/compaction_picker_universal.cc db/convenience.cc db/db_filesnapshot.cc db/db_impl.cc db/db_impl_write.cc db/db_impl_compaction_flush.cc db/db_impl_files.cc db/db_impl_open.cc db/db_impl_debug.cc db/db_impl_experimental.cc db/db_impl_readonly.cc db/db_info_dumper.cc db/db_iter.cc db/dbformat.cc db/error_handler.cc db/event_helpers.cc db/experimental.cc db/external_sst_file_ingestion_job.cc db/file_indexer.cc db/flush_job.cc db/flush_scheduler.cc db/forward_iterator.cc db/internal_stats.cc db/logs_with_prep_tracker.cc db/log_reader.cc db/log_writer.cc db/malloc_stats.cc db/memtable.cc db/memtable_list.cc db/merge_helper.cc db/merge_operator.cc db/range_del_aggregator.cc db/repair.cc db/snapshot_impl.cc db/table_cache.cc db/table_properties_collector.cc db/transaction_log_impl.cc db/version_builder.cc db/version_edit.cc db/version_set.cc db/wal_manager.cc db/write_batch.cc db/write_batch_base.cc db/write_controller.cc db/write_thread.cc env/env.cc env/env_chroot.cc env/env_encryption.cc env/env_hdfs.cc env/mock_env.cc memtable/alloc_tracker.cc memtable/hash_cuckoo_rep.cc memtable/hash_linklist_rep.cc memtable/hash_skiplist_rep.cc memtable/skiplistrep.cc memtable/vectorrep.cc memtable/write_buffer_manager.cc monitoring/histogram.cc monitoring/histogram_windowing.cc monitoring/instrumented_mutex.cc monitoring/iostats_context.cc monitoring/perf_context.cc monitoring/perf_level.cc monitoring/statistics.cc monitoring/thread_status_impl.cc monitoring/thread_status_updater.cc monitoring/thread_status_util.cc monitoring/thread_status_util_debug.cc options/cf_options.cc options/db_options.cc options/options.cc options/options_helper.cc options/options_parser.cc options/options_sanity_check.cc port/stack_trace.cc table/adaptive_table_factory.cc table/block.cc table/block_based_filter_block.cc table/block_based_table_builder.cc table/block_based_table_factory.cc table/block_based_table_reader.cc table/block_builder.cc table/block_fetcher.cc table/block_prefix_index.cc table/bloom_block.cc table/cuckoo_table_builder.cc table/cuckoo_table_factory.cc table/cuckoo_table_reader.cc table/data_block_hash_index.cc table/data_block_footer.cc table/flush_block_policy.cc table/format.cc table/full_filter_block.cc table/get_context.cc table/index_builder.cc table/iterator.cc table/merging_iterator.cc table/meta_blocks.cc table/partitioned_filter_block.cc table/persistent_cache_helper.cc table/plain_table_builder.cc table/plain_table_factory.cc table/plain_table_index.cc table/plain_table_key_coding.cc table/plain_table_reader.cc table/sst_file_writer.cc table/table_properties.cc table/two_level_iterator.cc tools/db_bench_tool.cc tools/dump/db_dump_tool.cc tools/ldb_cmd.cc tools/ldb_tool.cc tools/sst_dump_tool.cc tools/trace_analyzer_tool.cc util/arena.cc util/auto_roll_logger.cc util/bloom.cc util/coding.cc util/compaction_job_stats_impl.cc util/comparator.cc util/compression_context_cache.cc util/concurrent_arena.cc util/crc32c.cc util/delete_scheduler.cc util/dynamic_bloom.cc util/event_logger.cc util/file_reader_writer.cc util/file_util.cc util/filename.cc util/filter_policy.cc util/hash.cc util/log_buffer.cc util/murmurhash.cc util/random.cc util/rate_limiter.cc util/slice.cc util/sst_file_manager_impl.cc util/status.cc util/string_util.cc util/sync_point.cc util/sync_point_impl.cc util/testutil.cc util/thread_local.cc util/threadpool_imp.cc util/trace_replay.cc util/transaction_test_util.cc util/xxhash.cc utilities/backupable/backupable_db.cc utilities/blob_db/blob_compaction_filter.cc utilities/blob_db/blob_db.cc utilities/blob_db/blob_db_impl.cc utilities/blob_db/blob_db_impl_filesnapshot.cc utilities/blob_db/blob_dump_tool.cc utilities/blob_db/blob_file.cc utilities/blob_db/blob_log_reader.cc utilities/blob_db/blob_log_writer.cc utilities/blob_db/blob_log_format.cc utilities/cassandra/cassandra_compaction_filter.cc utilities/cassandra/format.cc utilities/cassandra/merge_operator.cc utilities/checkpoint/checkpoint_impl.cc utilities/col_buf_decoder.cc utilities/col_buf_encoder.cc utilities/column_aware_encoding_util.cc utilities/compaction_filters/remove_emptyvalue_compactionfilter.cc utilities/date_tiered/date_tiered_db_impl.cc utilities/debug.cc utilities/document/document_db.cc utilities/document/json_document.cc utilities/document/json_document_builder.cc utilities/env_mirror.cc utilities/env_timed.cc utilities/geodb/geodb_impl.cc utilities/leveldb_options/leveldb_options.cc utilities/lua/rocks_lua_compaction_filter.cc utilities/memory/memory_util.cc utilities/merge_operators/bytesxor.cc utilities/merge_operators/max.cc utilities/merge_operators/put.cc utilities/merge_operators/string_append/stringappend.cc utilities/merge_operators/string_append/stringappend2.cc utilities/merge_operators/uint64add.cc utilities/option_change_migration/option_change_migration.cc utilities/options/options_util.cc utilities/persistent_cache/block_cache_tier.cc utilities/persistent_cache/block_cache_tier_file.cc utilities/persistent_cache/block_cache_tier_metadata.cc utilities/persistent_cache/persistent_cache_tier.cc utilities/persistent_cache/volatile_tier_impl.cc utilities/redis/redis_lists.cc utilities/simulator_cache/sim_cache.cc utilities/spatialdb/spatial_db.cc utilities/table_properties_collectors/compact_on_deletion_collector.cc utilities/trace/file_trace_reader_writer.cc utilities/transactions/optimistic_transaction_db_impl.cc utilities/transactions/optimistic_transaction.cc utilities/transactions/pessimistic_transaction.cc utilities/transactions/pessimistic_transaction_db.cc utilities/transactions/snapshot_checker.cc utilities/transactions/transaction_base.cc utilities/transactions/transaction_db_mutex_impl.cc utilities/transactions/transaction_lock_mgr.cc utilities/transactions/transaction_util.cc utilities/transactions/write_prepared_txn.cc utilities/transactions/write_prepared_txn_db.cc utilities/transactions/write_unprepared_txn.cc utilities/transactions/write_unprepared_txn_db.cc utilities/ttl/db_ttl_impl.cc utilities/write_batch_with_index/write_batch_with_index.cc utilities/write_batch_with_index/write_batch_with_index_internal.cc $) if(HAVE_SSE42 AND NOT FORCE_SSE42) if(NOT MSVC) set_source_files_properties( util/crc32c.cc PROPERTIES COMPILE_FLAGS "-msse4.2 -mpclmul") endif() endif() if(HAVE_POWER8) list(APPEND SOURCES util/crc32c_ppc.c util/crc32c_ppc_asm.S) endif(HAVE_POWER8) if(WIN32) list(APPEND SOURCES port/win/io_win.cc port/win/env_win.cc port/win/env_default.cc port/win/port_win.cc port/win/win_logger.cc port/win/win_thread.cc) if(WITH_XPRESS) list(APPEND SOURCES port/win/xpress_win.cc) endif() if(WITH_JEMALLOC) list(APPEND SOURCES port/win/win_jemalloc.cc) endif() else() list(APPEND SOURCES port/port_posix.cc env/env_posix.cc env/io_posix.cc) endif() set(ROCKSDB_STATIC_LIB rocksdb${ARTIFACT_SUFFIX}) set(ROCKSDB_SHARED_LIB rocksdb-shared${ARTIFACT_SUFFIX}) set(ROCKSDB_IMPORT_LIB ${ROCKSDB_SHARED_LIB}) option(WITH_LIBRADOS "Build with librados" OFF) if(WITH_LIBRADOS) list(APPEND SOURCES utilities/env_librados.cc) list(APPEND THIRDPARTY_LIBS rados) endif() if(WIN32) set(SYSTEM_LIBS ${SYSTEM_LIBS} Shlwapi.lib Rpcrt4.lib) set(LIBS ${ROCKSDB_STATIC_LIB} ${THIRDPARTY_LIBS} ${SYSTEM_LIBS}) else() set(SYSTEM_LIBS ${CMAKE_THREAD_LIBS_INIT}) set(LIBS ${ROCKSDB_SHARED_LIB} ${THIRDPARTY_LIBS} ${SYSTEM_LIBS}) add_library(${ROCKSDB_SHARED_LIB} SHARED ${SOURCES}) target_link_libraries(${ROCKSDB_SHARED_LIB} ${THIRDPARTY_LIBS} ${SYSTEM_LIBS}) set_target_properties(${ROCKSDB_SHARED_LIB} PROPERTIES LINKER_LANGUAGE CXX VERSION ${ROCKSDB_VERSION} SOVERSION ${ROCKSDB_VERSION_MAJOR} CXX_STANDARD 11 OUTPUT_NAME "rocksdb") endif() add_library(${ROCKSDB_STATIC_LIB} STATIC ${SOURCES}) target_link_libraries(${ROCKSDB_STATIC_LIB} ${THIRDPARTY_LIBS} ${SYSTEM_LIBS}) if(WIN32) add_library(${ROCKSDB_IMPORT_LIB} SHARED ${SOURCES}) target_link_libraries(${ROCKSDB_IMPORT_LIB} ${THIRDPARTY_LIBS} ${SYSTEM_LIBS}) set_target_properties(${ROCKSDB_IMPORT_LIB} PROPERTIES COMPILE_DEFINITIONS "ROCKSDB_DLL;ROCKSDB_LIBRARY_EXPORTS") if(MSVC) set_target_properties(${ROCKSDB_STATIC_LIB} PROPERTIES COMPILE_FLAGS "/Fd${CMAKE_CFG_INTDIR}/${ROCKSDB_STATIC_LIB}.pdb") set_target_properties(${ROCKSDB_IMPORT_LIB} PROPERTIES COMPILE_FLAGS "/Fd${CMAKE_CFG_INTDIR}/${ROCKSDB_IMPORT_LIB}.pdb") endif() endif() option(WITH_JNI "build with JNI" OFF) if(WITH_JNI OR JNI) message(STATUS "JNI library is enabled") add_subdirectory(${CMAKE_CURRENT_SOURCE_DIR}/java) else() message(STATUS "JNI library is disabled") endif() # Installation and packaging if(WIN32) option(ROCKSDB_INSTALL_ON_WINDOWS "Enable install target on Windows" OFF) endif() if(NOT WIN32 OR ROCKSDB_INSTALL_ON_WINDOWS) if(CMAKE_INSTALL_PREFIX_INITIALIZED_TO_DEFAULT) if(${CMAKE_SYSTEM_NAME} STREQUAL "Linux") # Change default installation prefix on Linux to /usr set(CMAKE_INSTALL_PREFIX /usr CACHE PATH "Install path prefix, prepended onto install directories." FORCE) endif() endif() include(GNUInstallDirs) include(CMakePackageConfigHelpers) set(package_config_destination ${CMAKE_INSTALL_LIBDIR}/cmake/rocksdb) configure_package_config_file( ${CMAKE_CURRENT_LIST_DIR}/cmake/RocksDBConfig.cmake.in RocksDBConfig.cmake INSTALL_DESTINATION ${package_config_destination} ) write_basic_package_version_file( RocksDBConfigVersion.cmake VERSION ${ROCKSDB_VERSION} COMPATIBILITY SameMajorVersion ) install(DIRECTORY include/rocksdb COMPONENT devel DESTINATION "${CMAKE_INSTALL_INCLUDEDIR}") install( TARGETS ${ROCKSDB_STATIC_LIB} EXPORT RocksDBTargets COMPONENT devel ARCHIVE DESTINATION "${CMAKE_INSTALL_LIBDIR}" INCLUDES DESTINATION "${CMAKE_INSTALL_INCLUDEDIR}" ) install( TARGETS ${ROCKSDB_SHARED_LIB} EXPORT RocksDBTargets COMPONENT runtime RUNTIME DESTINATION "${CMAKE_INSTALL_BINDIR}" LIBRARY DESTINATION "${CMAKE_INSTALL_LIBDIR}" INCLUDES DESTINATION "${CMAKE_INSTALL_INCLUDEDIR}" ) install( EXPORT RocksDBTargets COMPONENT devel DESTINATION ${package_config_destination} NAMESPACE RocksDB:: ) install( FILES ${CMAKE_CURRENT_BINARY_DIR}/RocksDBConfig.cmake ${CMAKE_CURRENT_BINARY_DIR}/RocksDBConfigVersion.cmake COMPONENT devel DESTINATION ${package_config_destination} ) endif() option(WITH_TESTS "build with tests" ON) if(WITH_TESTS) set(TESTS cache/cache_test.cc cache/lru_cache_test.cc db/column_family_test.cc db/compact_files_test.cc db/compaction_iterator_test.cc db/compaction_job_stats_test.cc db/compaction_job_test.cc db/compaction_picker_test.cc db/comparator_db_test.cc db/corruption_test.cc db/cuckoo_table_db_test.cc db/db_basic_test.cc db/db_blob_index_test.cc db/db_block_cache_test.cc db/db_bloom_filter_test.cc db/db_compaction_filter_test.cc db/db_compaction_test.cc db/db_dynamic_level_test.cc db/db_flush_test.cc db/db_inplace_update_test.cc db/db_io_failure_test.cc db/db_iter_test.cc db/db_iter_stress_test.cc db/db_iterator_test.cc db/db_log_iter_test.cc db/db_memtable_test.cc db/db_merge_operator_test.cc db/db_options_test.cc db/db_properties_test.cc db/db_range_del_test.cc db/db_sst_test.cc db/db_statistics_test.cc db/db_table_properties_test.cc db/db_tailing_iter_test.cc db/db_test.cc db/db_test2.cc db/db_universal_compaction_test.cc db/db_wal_test.cc db/db_write_test.cc db/dbformat_test.cc db/deletefile_test.cc db/error_handler_test.cc db/obsolete_files_test.cc db/external_sst_file_basic_test.cc db/external_sst_file_test.cc db/fault_injection_test.cc db/file_indexer_test.cc db/filename_test.cc db/flush_job_test.cc db/listener_test.cc db/log_test.cc db/manual_compaction_test.cc db/memtable_list_test.cc db/merge_helper_test.cc db/merge_test.cc db/options_file_test.cc db/perf_context_test.cc db/plain_table_db_test.cc db/prefix_test.cc db/repair_test.cc db/table_properties_collector_test.cc db/version_builder_test.cc db/version_edit_test.cc db/version_set_test.cc db/wal_manager_test.cc db/write_batch_test.cc db/write_callback_test.cc db/write_controller_test.cc env/env_basic_test.cc env/env_test.cc env/mock_env_test.cc memtable/inlineskiplist_test.cc memtable/skiplist_test.cc memtable/write_buffer_manager_test.cc monitoring/histogram_test.cc monitoring/iostats_context_test.cc monitoring/statistics_test.cc options/options_settable_test.cc options/options_test.cc table/block_based_filter_block_test.cc table/block_test.cc table/cleanable_test.cc table/cuckoo_table_builder_test.cc table/cuckoo_table_reader_test.cc table/data_block_hash_index_test.cc table/full_filter_block_test.cc table/merger_test.cc table/table_test.cc tools/ldb_cmd_test.cc tools/reduce_levels_test.cc tools/sst_dump_test.cc tools/trace_analyzer_test.cc util/arena_test.cc util/auto_roll_logger_test.cc util/autovector_test.cc util/bloom_test.cc util/coding_test.cc util/crc32c_test.cc util/delete_scheduler_test.cc util/dynamic_bloom_test.cc util/event_logger_test.cc util/file_reader_writer_test.cc util/filelock_test.cc util/hash_test.cc util/heap_test.cc util/rate_limiter_test.cc util/repeatable_thread_test.cc util/slice_transform_test.cc util/timer_queue_test.cc util/thread_list_test.cc util/thread_local_test.cc utilities/backupable/backupable_db_test.cc utilities/blob_db/blob_db_test.cc utilities/cassandra/cassandra_functional_test.cc utilities/cassandra/cassandra_format_test.cc utilities/cassandra/cassandra_row_merge_test.cc utilities/cassandra/cassandra_serialize_test.cc utilities/checkpoint/checkpoint_test.cc utilities/column_aware_encoding_test.cc utilities/date_tiered/date_tiered_test.cc utilities/document/document_db_test.cc utilities/document/json_document_test.cc utilities/geodb/geodb_test.cc utilities/lua/rocks_lua_test.cc utilities/memory/memory_test.cc utilities/merge_operators/string_append/stringappend_test.cc utilities/object_registry_test.cc utilities/option_change_migration/option_change_migration_test.cc utilities/options/options_util_test.cc utilities/persistent_cache/hash_table_test.cc utilities/persistent_cache/persistent_cache_test.cc utilities/redis/redis_lists_test.cc utilities/spatialdb/spatial_db_test.cc utilities/simulator_cache/sim_cache_test.cc utilities/table_properties_collectors/compact_on_deletion_collector_test.cc utilities/transactions/optimistic_transaction_test.cc utilities/transactions/transaction_test.cc utilities/transactions/write_prepared_transaction_test.cc utilities/transactions/write_unprepared_transaction_test.cc utilities/ttl/ttl_test.cc utilities/write_batch_with_index/write_batch_with_index_test.cc ) if(WITH_LIBRADOS) list(APPEND TESTS utilities/env_librados_test.cc) endif() set(BENCHMARKS cache/cache_bench.cc memtable/memtablerep_bench.cc db/range_del_aggregator_bench.cc tools/db_bench.cc table/table_reader_bench.cc utilities/column_aware_encoding_exp.cc utilities/persistent_cache/hash_table_bench.cc) add_library(testharness OBJECT util/testharness.cc) foreach(sourcefile ${BENCHMARKS}) get_filename_component(exename ${sourcefile} NAME_WE) add_executable(${exename}${ARTIFACT_SUFFIX} ${sourcefile} $) target_link_libraries(${exename}${ARTIFACT_SUFFIX} gtest ${LIBS}) endforeach(sourcefile ${BENCHMARKS}) # For test util library that is build only in DEBUG mode # and linked to tests. Add test only code that is not #ifdefed for Release here. set(TESTUTIL_SOURCE db/db_test_util.cc monitoring/thread_status_updater_debug.cc table/mock_table.cc util/fault_injection_test_env.cc utilities/cassandra/test_utils.cc ) # test utilities are only build in debug enable_testing() add_custom_target(check COMMAND ${CMAKE_CTEST_COMMAND}) set(TESTUTILLIB testutillib${ARTIFACT_SUFFIX}) add_library(${TESTUTILLIB} STATIC ${TESTUTIL_SOURCE}) if(MSVC) set_target_properties(${TESTUTILLIB} PROPERTIES COMPILE_FLAGS "/Fd${CMAKE_CFG_INTDIR}/testutillib${ARTIFACT_SUFFIX}.pdb") endif() set_target_properties(${TESTUTILLIB} PROPERTIES EXCLUDE_FROM_DEFAULT_BUILD_RELEASE 1 EXCLUDE_FROM_DEFAULT_BUILD_MINRELEASE 1 EXCLUDE_FROM_DEFAULT_BUILD_RELWITHDEBINFO 1 ) # Tests are excluded from Release builds set(TEST_EXES ${TESTS}) foreach(sourcefile ${TEST_EXES}) get_filename_component(exename ${sourcefile} NAME_WE) add_executable(${CMAKE_PROJECT_NAME}_${exename}${ARTIFACT_SUFFIX} ${sourcefile} $) set_target_properties(${CMAKE_PROJECT_NAME}_${exename}${ARTIFACT_SUFFIX} PROPERTIES EXCLUDE_FROM_DEFAULT_BUILD_RELEASE 1 EXCLUDE_FROM_DEFAULT_BUILD_MINRELEASE 1 EXCLUDE_FROM_DEFAULT_BUILD_RELWITHDEBINFO 1 OUTPUT_NAME ${exename}${ARTIFACT_SUFFIX} ) target_link_libraries(${CMAKE_PROJECT_NAME}_${exename}${ARTIFACT_SUFFIX} testutillib${ARTIFACT_SUFFIX} gtest ${LIBS}) if(NOT "${exename}" MATCHES "db_sanity_test") add_test(NAME ${exename} COMMAND ${exename}${ARTIFACT_SUFFIX}) add_dependencies(check ${CMAKE_PROJECT_NAME}_${exename}${ARTIFACT_SUFFIX}) endif() endforeach(sourcefile ${TEST_EXES}) # C executables must link to a shared object set(C_TESTS db/c_test.c) set(C_TEST_EXES ${C_TESTS}) foreach(sourcefile ${C_TEST_EXES}) string(REPLACE ".c" "" exename ${sourcefile}) string(REGEX REPLACE "^((.+)/)+" "" exename ${exename}) add_executable(${exename}${ARTIFACT_SUFFIX} ${sourcefile}) set_target_properties(${exename}${ARTIFACT_SUFFIX} PROPERTIES EXCLUDE_FROM_DEFAULT_BUILD_RELEASE 1 EXCLUDE_FROM_DEFAULT_BUILD_MINRELEASE 1 EXCLUDE_FROM_DEFAULT_BUILD_RELWITHDEBINFO 1 ) target_link_libraries(${exename}${ARTIFACT_SUFFIX} ${ROCKSDB_IMPORT_LIB} testutillib${ARTIFACT_SUFFIX}) add_test(NAME ${exename} COMMAND ${exename}${ARTIFACT_SUFFIX}) add_dependencies(check ${exename}${ARTIFACT_SUFFIX}) endforeach(sourcefile ${C_TEST_EXES}) endif() option(WITH_TOOLS "build with tools" ON) if(WITH_TOOLS) add_subdirectory(tools) endif() rocksdb-5.17.2/CODE_OF_CONDUCT.md000066400000000000000000000003711337235545400160500ustar00rootroot00000000000000# Code of Conduct Facebook has adopted a Code of Conduct that we expect project participants to adhere to. Please [read the full text](https://code.facebook.com/codeofconduct) so that you can understand what actions will and will not be tolerated. rocksdb-5.17.2/CONTRIBUTING.md000066400000000000000000000013021337235545400154750ustar00rootroot00000000000000# Contributing to RocksDB ## Code of Conduct The code of conduct is described in [`CODE_OF_CONDUCT.md`](CODE_OF_CONDUCT.md) ## Contributor License Agreement ("CLA") In order to accept your pull request, we need you to submit a CLA. You only need to do this once, so if you've done this for another Facebook open source project, you're good to go. If you are submitting a pull request for the first time, just let us know that you have completed the CLA and we can cross-check with your GitHub username. Complete your CLA here: If you prefer to sign a paper copy, we can send you a PDF. Send us an e-mail or create a new github issue to request the CLA in PDF format. rocksdb-5.17.2/COPYING000066400000000000000000000432541337235545400143130ustar00rootroot00000000000000 GNU GENERAL PUBLIC LICENSE Version 2, June 1991 Copyright (C) 1989, 1991 Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA Everyone is permitted to copy and distribute verbatim copies of this license document, but changing it is not allowed. Preamble The licenses for most software are designed to take away your freedom to share and change it. By contrast, the GNU General Public License is intended to guarantee your freedom to share and change free software--to make sure the software is free for all its users. This General Public License applies to most of the Free Software Foundation's software and to any other program whose authors commit to using it. (Some other Free Software Foundation software is covered by the GNU Lesser General Public License instead.) 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We protect your rights with two steps: (1) copyright the software, and (2) offer you this license which gives you legal permission to copy, distribute and/or modify the software. Also, for each author's protection and ours, we want to make certain that everyone understands that there is no warranty for this free software. If the software is modified by someone else and passed on, we want its recipients to know that what they have is not the original, so that any problems introduced by others will not reflect on the original authors' reputations. Finally, any free program is threatened constantly by software patents. We wish to avoid the danger that redistributors of a free program will individually obtain patent licenses, in effect making the program proprietary. To prevent this, we have made it clear that any patent must be licensed for everyone's free use or not licensed at all. The precise terms and conditions for copying, distribution and modification follow. 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If the distribution and/or use of the Program is restricted in certain countries either by patents or by copyrighted interfaces, the original copyright holder who places the Program under this License may add an explicit geographical distribution limitation excluding those countries, so that distribution is permitted only in or among countries not thus excluded. In such case, this License incorporates the limitation as if written in the body of this License. 9. The Free Software Foundation may publish revised and/or new versions of the General Public License from time to time. Such new versions will be similar in spirit to the present version, but may differ in detail to address new problems or concerns. Each version is given a distinguishing version number. If the Program specifies a version number of this License which applies to it and "any later version", you have the option of following the terms and conditions either of that version or of any later version published by the Free Software Foundation. If the Program does not specify a version number of this License, you may choose any version ever published by the Free Software Foundation. 10. If you wish to incorporate parts of the Program into other free programs whose distribution conditions are different, write to the author to ask for permission. For software which is copyrighted by the Free Software Foundation, write to the Free Software Foundation; we sometimes make exceptions for this. Our decision will be guided by the two goals of preserving the free status of all derivatives of our free software and of promoting the sharing and reuse of software generally. NO WARRANTY 11. BECAUSE THE PROGRAM IS LICENSED FREE OF CHARGE, THERE IS NO WARRANTY FOR THE PROGRAM, TO THE EXTENT PERMITTED BY APPLICABLE LAW. EXCEPT WHEN OTHERWISE STATED IN WRITING THE COPYRIGHT HOLDERS AND/OR OTHER PARTIES PROVIDE THE PROGRAM "AS IS" WITHOUT WARRANTY OF ANY KIND, EITHER EXPRESSED OR IMPLIED, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. THE ENTIRE RISK AS TO THE QUALITY AND PERFORMANCE OF THE PROGRAM IS WITH YOU. SHOULD THE PROGRAM PROVE DEFECTIVE, YOU ASSUME THE COST OF ALL NECESSARY SERVICING, REPAIR OR CORRECTION. 12. IN NO EVENT UNLESS REQUIRED BY APPLICABLE LAW OR AGREED TO IN WRITING WILL ANY COPYRIGHT HOLDER, OR ANY OTHER PARTY WHO MAY MODIFY AND/OR REDISTRIBUTE THE PROGRAM AS PERMITTED ABOVE, BE LIABLE TO YOU FOR DAMAGES, INCLUDING ANY GENERAL, SPECIAL, INCIDENTAL OR CONSEQUENTIAL DAMAGES ARISING OUT OF THE USE OR INABILITY TO USE THE PROGRAM (INCLUDING BUT NOT LIMITED TO LOSS OF DATA OR DATA BEING RENDERED INACCURATE OR LOSSES SUSTAINED BY YOU OR THIRD PARTIES OR A FAILURE OF THE PROGRAM TO OPERATE WITH ANY OTHER PROGRAMS), EVEN IF SUCH HOLDER OR OTHER PARTY HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. END OF TERMS AND CONDITIONS How to Apply These Terms to Your New Programs If you develop a new program, and you want it to be of the greatest possible use to the public, the best way to achieve this is to make it free software which everyone can redistribute and change under these terms. To do so, attach the following notices to the program. It is safest to attach them to the start of each source file to most effectively convey the exclusion of warranty; and each file should have at least the "copyright" line and a pointer to where the full notice is found. Copyright (C) This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. Also add information on how to contact you by electronic and paper mail. If the program is interactive, make it output a short notice like this when it starts in an interactive mode: Gnomovision version 69, Copyright (C) year name of author Gnomovision comes with ABSOLUTELY NO WARRANTY; for details type `show w'. This is free software, and you are welcome to redistribute it under certain conditions; type `show c' for details. The hypothetical commands `show w' and `show c' should show the appropriate parts of the General Public License. Of course, the commands you use may be called something other than `show w' and `show c'; they could even be mouse-clicks or menu items--whatever suits your program. You should also get your employer (if you work as a programmer) or your school, if any, to sign a "copyright disclaimer" for the program, if necessary. Here is a sample; alter the names: Yoyodyne, Inc., hereby disclaims all copyright interest in the program `Gnomovision' (which makes passes at compilers) written by James Hacker. , 1 April 1989 Ty Coon, President of Vice This General Public License does not permit incorporating your program into proprietary programs. If your program is a subroutine library, you may consider it more useful to permit linking proprietary applications with the library. If this is what you want to do, use the GNU Lesser General Public License instead of this License. rocksdb-5.17.2/DEFAULT_OPTIONS_HISTORY.md000066400000000000000000000027721337235545400173220ustar00rootroot00000000000000# RocksDB default options change log ## Unreleased * delayed_write_rate takes the rate given by rate_limiter if not specified. ## 5.2 * Change the default of delayed slowdown value to 16MB/s and further increase the L0 stop condition to 36 files. ## 5.0 (11/17/2016) * Options::allow_concurrent_memtable_write and Options::enable_write_thread_adaptive_yield are now true by default * Options.level0_stop_writes_trigger default value changes from 24 to 32. ## 4.8.0 (5/2/2016) * options.max_open_files changes from 5000 to -1. It improves performance, but users need to set file descriptor limit to be large enough and watch memory usage for index and bloom filters. * options.base_background_compactions changes from max_background_compactions to 1. When users set higher max_background_compactions but the write throughput is not high, the writes are less spiky to disks. * options.wal_recovery_mode changes from kTolerateCorruptedTailRecords to kPointInTimeRecovery. Avoid some false positive when file system or hardware reorder the writes for file data and metadata. ## 4.7.0 (4/8/2016) * options.write_buffer_size changes from 4MB to 64MB. * options.target_file_size_base changes from 2MB to 64MB. * options.max_bytes_for_level_base changes from 10MB to 256MB. * options.soft_pending_compaction_bytes_limit changes from 0 (disabled) to 64GB. * options.hard_pending_compaction_bytes_limit changes from 0 (disabled) to 256GB. * table_cache_numshardbits changes from 4 to 6. * max_file_opening_threads changes from 1 to 16. rocksdb-5.17.2/DUMP_FORMAT.md000066400000000000000000000013731337235545400154130ustar00rootroot00000000000000## RocksDB dump format The version 1 RocksDB dump format is fairly simple: 1) The dump starts with the magic 8 byte identifier "ROCKDUMP" 2) The magic is followed by an 8 byte big-endian version which is 0x00000001. 3) Next are arbitrarily sized chunks of bytes prepended by 4 byte little endian number indicating how large each chunk is. 4) The first chunk is special and is a json string indicating some things about the creation of this dump. It contains the following keys: * database-path: The path of the database this dump was created from. * hostname: The hostname of the machine where the dump was created. * creation-time: Unix seconds since epoc when this dump was created. 5) Following the info dump the slices paired into are key/value pairs. rocksdb-5.17.2/HISTORY.md000066400000000000000000002065451337235545400147470ustar00rootroot00000000000000# Rocksdb Change Log # 5.17.2 (10/24/2018) ### Bug Fixes * Fix the bug that WriteBatchWithIndex's SeekForPrev() doesn't see the entries with the same key. # 5.17.1 (10/16/2018) ### Bug Fixes * Fix slow flush/compaction when DB contains many snapshots. The problem became noticeable to us in DBs with 100,000+ snapshots, though it will affect others at different thresholds. * Properly set the stop key for a truncated manual CompactRange * Fix corner case where a write group leader blocked due to write stall blocks other writers in queue with WriteOptions::no_slowdown set. ### New Features * Introduced CacheAllocator, which lets the user specify custom allocator for memory in block cache. ## 5.17.0 (10/05/2018) ### Public API Change * `OnTableFileCreated` will now be called for empty files generated during compaction. In that case, `TableFileCreationInfo::file_path` will be "(nil)" and `TableFileCreationInfo::file_size` will be zero. * Add `FlushOptions::allow_write_stall`, which controls whether Flush calls start working immediately, even if it causes user writes to stall, or will wait until flush can be performed without causing write stall (similar to `CompactRangeOptions::allow_write_stall`). Note that the default value is false, meaning we add delay to Flush calls until stalling can be avoided when possible. This is behavior change compared to previous RocksDB versions, where Flush calls didn't check if they might cause stall or not. * Application using PessimisticTransactionDB is expected to rollback/commit recovered transactions before starting new ones. This assumption is used to skip concurrency control during recovery. ### New Features * TransactionOptions::skip_concurrency_control allows pessimistic transactions to skip the overhead of concurrency control. Could be used for optimizing certain transactions or during recovery. ### Bug Fixes * Avoid creating empty SSTs and subsequently deleting them in certain cases during compaction. * Sync CURRENT file contents during checkpoint. ## 5.16.3 (10/1/2018) ### Bug Fixes * Fix crash caused when `CompactFiles` run with `CompactionOptions::compression == CompressionType::kDisableCompressionOption`. Now that setting causes the compression type to be chosen according to the column family-wide compression options. ## 5.16.2 (9/21/2018) ### Bug Fixes * Fix bug in partition filters with format_version=4. ## 5.16.1 (9/17/2018) ### Bug Fixes * Remove trace_analyzer_tool from rocksdb_lib target in TARGETS file. * Fix RocksDB Java build and tests. * Remove sync point in Block destructor. ## 5.16.0 (8/21/2018) ### Public API Change * The merge operands are passed to `MergeOperator::ShouldMerge` in the reversed order relative to how they were merged (passed to FullMerge or FullMergeV2) for performance reasons * GetAllKeyVersions() to take an extra argument of `max_num_ikeys`. * Using ZSTD dictionary trainer (i.e., setting `CompressionOptions::zstd_max_train_bytes` to a nonzero value) now requires ZSTD version 1.1.3 or later. ### New Features * Changes the format of index blocks by delta encoding the index values, which are the block handles. This saves the encoding of BlockHandle::offset of the non-head index entries in each restart interval. The feature is backward compatible but not forward compatible. It is disabled by default unless format_version 4 or above is used. * Add a new tool: trace_analyzer. Trace_analyzer analyzes the trace file generated by using trace_replay API. It can convert the binary format trace file to a human readable txt file, output the statistics of the analyzed query types such as access statistics and size statistics, combining the dumped whole key space file to analyze, support query correlation analyzing, and etc. Current supported query types are: Get, Put, Delete, SingleDelete, DeleteRange, Merge, Iterator (Seek, SeekForPrev only). * Add hash index support to data blocks, which helps reducing the cpu utilization of point-lookup operations. This feature is backward compatible with the data block created without the hash index. It is disabled by default unless BlockBasedTableOptions::data_block_index_type is set to data_block_index_type = kDataBlockBinaryAndHash. ### Bug Fixes * Fix a bug in misreporting the estimated partition index size in properties block. ## 5.15.0 (7/17/2018) ### Public API Change * Remove managed iterator. ReadOptions.managed is not effective anymore. * For bottommost_compression, a compatible CompressionOptions is added via `bottommost_compression_opts`. To keep backward compatible, a new boolean `enabled` is added to CompressionOptions. For compression_opts, it will be always used no matter what value of `enabled` is. For bottommost_compression_opts, it will only be used when user set `enabled=true`, otherwise, compression_opts will be used for bottommost_compression as default. * With LRUCache, when high_pri_pool_ratio > 0, midpoint insertion strategy will be enabled to put low-pri items to the tail of low-pri list (the midpoint) when they first inserted into the cache. This is to make cache entries never get hit age out faster, improving cache efficiency when large background scan presents. * For users of `Statistics` objects created via `CreateDBStatistics()`, the format of the string returned by its `ToString()` method has changed. * The "rocksdb.num.entries" table property no longer counts range deletion tombstones as entries. ### New Features * Changes the format of index blocks by storing the key in their raw form rather than converting them to InternalKey. This saves 8 bytes per index key. The feature is backward compatible but not forward compatible. It is disabled by default unless format_version 3 or above is used. * Avoid memcpy when reading mmap files with OpenReadOnly and max_open_files==-1. * Support dynamically changing `ColumnFamilyOptions::ttl` via `SetOptions()`. * Add a new table property, "rocksdb.num.range-deletions", which counts the number of range deletion tombstones in the table. * Improve the performance of iterators doing long range scans by using readahead, when using direct IO. * pin_top_level_index_and_filter (default true) in BlockBasedTableOptions can be used in combination with cache_index_and_filter_blocks to prefetch and pin the top-level index of partitioned index and filter blocks in cache. It has no impact when cache_index_and_filter_blocks is false. * Write properties meta-block at the end of block-based table to save read-ahead IO. ### Bug Fixes * Fix deadlock with enable_pipelined_write=true and max_successive_merges > 0 * Check conflict at output level in CompactFiles. * Fix corruption in non-iterator reads when mmap is used for file reads * Fix bug with prefix search in partition filters where a shared prefix would be ignored from the later partitions. The bug could report an eixstent key as missing. The bug could be triggered if prefix_extractor is set and partition filters is enabled. * Change default value of `bytes_max_delete_chunk` to 0 in NewSstFileManager() as it doesn't work well with checkpoints. * Fix a bug caused by not copying the block trailer with compressed SST file, direct IO, prefetcher and no compressed block cache. * Fix write can stuck indefinitely if enable_pipelined_write=true. The issue exists since pipelined write was introduced in 5.5.0. ## 5.14.0 (5/16/2018) ### Public API Change * Add a BlockBasedTableOption to align uncompressed data blocks on the smaller of block size or page size boundary, to reduce flash reads by avoiding reads spanning 4K pages. * The background thread naming convention changed (on supporting platforms) to "rocksdb:", e.g., "rocksdb:low0". * Add a new ticker stat rocksdb.number.multiget.keys.found to count number of keys successfully read in MultiGet calls * Touch-up to write-related counters in PerfContext. New counters added: write_scheduling_flushes_compactions_time, write_thread_wait_nanos. Counters whose behavior was fixed or modified: write_memtable_time, write_pre_and_post_process_time, write_delay_time. * Posix Env's NewRandomRWFile() will fail if the file doesn't exist. * Now, `DBOptions::use_direct_io_for_flush_and_compaction` only applies to background writes, and `DBOptions::use_direct_reads` applies to both user reads and background reads. This conforms with Linux's `open(2)` manpage, which advises against simultaneously reading a file in buffered and direct modes, due to possibly undefined behavior and degraded performance. * Iterator::Valid() always returns false if !status().ok(). So, now when doing a Seek() followed by some Next()s, there's no need to check status() after every operation. * Iterator::Seek()/SeekForPrev()/SeekToFirst()/SeekToLast() always resets status(). * Introduced `CompressionOptions::kDefaultCompressionLevel`, which is a generic way to tell RocksDB to use the compression library's default level. It is now the default value for `CompressionOptions::level`. Previously the level defaulted to -1, which gave poor compression ratios in ZSTD. ### New Features * Introduce TTL for level compaction so that all files older than ttl go through the compaction process to get rid of old data. * TransactionDBOptions::write_policy can be configured to enable WritePrepared 2PC transactions. Read more about them in the wiki. * Add DB properties "rocksdb.block-cache-capacity", "rocksdb.block-cache-usage", "rocksdb.block-cache-pinned-usage" to show block cache usage. * Add `Env::LowerThreadPoolCPUPriority(Priority)` method, which lowers the CPU priority of background (esp. compaction) threads to minimize interference with foreground tasks. * Fsync parent directory after deleting a file in delete scheduler. * In level-based compaction, if bottom-pri thread pool was setup via `Env::SetBackgroundThreads()`, compactions to the bottom level will be delegated to that thread pool. * `prefix_extractor` has been moved from ImmutableCFOptions to MutableCFOptions, meaning it can be dynamically changed without a DB restart. ### Bug Fixes * Fsync after writing global seq number to the ingestion file in ExternalSstFileIngestionJob. * Fix WAL corruption caused by race condition between user write thread and FlushWAL when two_write_queue is not set. * Fix `BackupableDBOptions::max_valid_backups_to_open` to not delete backup files when refcount cannot be accurately determined. * Fix memory leak when pin_l0_filter_and_index_blocks_in_cache is used with partitioned filters * Disable rollback of merge operands in WritePrepared transactions to work around an issue in MyRocks. It can be enabled back by setting TransactionDBOptions::rollback_merge_operands to true. * Fix wrong results by ReverseBytewiseComparator::FindShortSuccessor() ### Java API Changes * Add `BlockBasedTableConfig.setBlockCache` to allow sharing a block cache across DB instances. * Added SstFileManager to the Java API to allow managing SST files across DB instances. ## 5.13.0 (3/20/2018) ### Public API Change * RocksDBOptionsParser::Parse()'s `ignore_unknown_options` argument will only be effective if the option file shows it is generated using a higher version of RocksDB than the current version. * Remove CompactionEventListener. ### New Features * SstFileManager now can cancel compactions if they will result in max space errors. SstFileManager users can also use SetCompactionBufferSize to specify how much space must be leftover during a compaction for auxiliary file functions such as logging and flushing. * Avoid unnecessarily flushing in `CompactRange()` when the range specified by the user does not overlap unflushed memtables. * If `ColumnFamilyOptions::max_subcompactions` is set greater than one, we now parallelize large manual level-based compactions. * Add "rocksdb.live-sst-files-size" DB property to return total bytes of all SST files belong to the latest LSM tree. * NewSstFileManager to add an argument bytes_max_delete_chunk with default 64MB. With this argument, a file larger than 64MB will be ftruncated multiple times based on this size. ### Bug Fixes * Fix a leak in prepared_section_completed_ where the zeroed entries would not removed from the map. * Fix WAL corruption caused by race condition between user write thread and backup/checkpoint thread. ## 5.12.0 (2/14/2018) ### Public API Change * Iterator::SeekForPrev is now a pure virtual method. This is to prevent user who implement the Iterator interface fail to implement SeekForPrev by mistake. * Add `include_end` option to make the range end exclusive when `include_end == false` in `DeleteFilesInRange()`. * Add `CompactRangeOptions::allow_write_stall`, which makes `CompactRange` start working immediately, even if it causes user writes to stall. The default value is false, meaning we add delay to `CompactRange` calls until stalling can be avoided when possible. Note this delay is not present in previous RocksDB versions. * Creating checkpoint with empty directory now returns `Status::InvalidArgument`; previously, it returned `Status::IOError`. * Adds a BlockBasedTableOption to turn off index block compression. * Close() method now returns a status when closing a db. ### New Features * Improve the performance of iterators doing long range scans by using readahead. * Add new function `DeleteFilesInRanges()` to delete files in multiple ranges at once for better performance. * FreeBSD build support for RocksDB and RocksJava. * Improved performance of long range scans with readahead. * Updated to and now continuously tested in Visual Studio 2017. ### Bug Fixes * Fix `DisableFileDeletions()` followed by `GetSortedWalFiles()` to not return obsolete WAL files that `PurgeObsoleteFiles()` is going to delete. * Fix Handle error return from WriteBuffer() during WAL file close and DB close. * Fix advance reservation of arena block addresses. * Fix handling of empty string as checkpoint directory. ## 5.11.0 (01/08/2018) ### Public API Change * Add `autoTune` and `getBytesPerSecond()` to RocksJava RateLimiter ### New Features * Add a new histogram stat called rocksdb.db.flush.micros for memtable flush. * Add "--use_txn" option to use transactional API in db_stress. * Disable onboard cache for compaction output in Windows platform. * Improve the performance of iterators doing long range scans by using readahead. ### Bug Fixes * Fix a stack-use-after-scope bug in ForwardIterator. * Fix builds on platforms including Linux, Windows, and PowerPC. * Fix buffer overrun in backup engine for DBs with huge number of files. * Fix a mislabel bug for bottom-pri compaction threads. * Fix DB::Flush() keep waiting after flush finish under certain condition. ## 5.10.0 (12/11/2017) ### Public API Change * When running `make` with environment variable `USE_SSE` set and `PORTABLE` unset, will use all machine features available locally. Previously this combination only compiled SSE-related features. ### New Features * Provide lifetime hints when writing files on Linux. This reduces hardware write-amp on storage devices supporting multiple streams. * Add a DB stat, `NUMBER_ITER_SKIP`, which returns how many internal keys were skipped during iterations (e.g., due to being tombstones or duplicate versions of a key). * Add PerfContext counters, `key_lock_wait_count` and `key_lock_wait_time`, which measure the number of times transactions wait on key locks and total amount of time waiting. ### Bug Fixes * Fix IOError on WAL write doesn't propagate to write group follower * Make iterator invalid on merge error. * Fix performance issue in `IngestExternalFile()` affecting databases with large number of SST files. * Fix possible corruption to LSM structure when `DeleteFilesInRange()` deletes a subset of files spanned by a `DeleteRange()` marker. ## 5.9.0 (11/1/2017) ### Public API Change * `BackupableDBOptions::max_valid_backups_to_open == 0` now means no backups will be opened during BackupEngine initialization. Previously this condition disabled limiting backups opened. * `DBOptions::preserve_deletes` is a new option that allows one to specify that DB should not drop tombstones for regular deletes if they have sequence number larger than what was set by the new API call `DB::SetPreserveDeletesSequenceNumber(SequenceNumber seqnum)`. Disabled by default. * API call `DB::SetPreserveDeletesSequenceNumber(SequenceNumber seqnum)` was added, users who wish to preserve deletes are expected to periodically call this function to advance the cutoff seqnum (all deletes made before this seqnum can be dropped by DB). It's user responsibility to figure out how to advance the seqnum in the way so the tombstones are kept for the desired period of time, yet are eventually processed in time and don't eat up too much space. * `ReadOptions::iter_start_seqnum` was added; if set to something > 0 user will see 2 changes in iterators behavior 1) only keys written with sequence larger than this parameter would be returned and 2) the `Slice` returned by iter->key() now points to the memory that keep User-oriented representation of the internal key, rather than user key. New struct `FullKey` was added to represent internal keys, along with a new helper function `ParseFullKey(const Slice& internal_key, FullKey* result);`. * Deprecate trash_dir param in NewSstFileManager, right now we will rename deleted files to .trash instead of moving them to trash directory * Allow setting a custom trash/DB size ratio limit in the SstFileManager, after which files that are to be scheduled for deletion are deleted immediately, regardless of any delete ratelimit. * Return an error on write if write_options.sync = true and write_options.disableWAL = true to warn user of inconsistent options. Previously we will not write to WAL and not respecting the sync options in this case. ### New Features * CRC32C is now using the 3-way pipelined SSE algorithm `crc32c_3way` on supported platforms to improve performance. The system will choose to use this algorithm on supported platforms automatically whenever possible. If PCLMULQDQ is not supported it will fall back to the old Fast_CRC32 algorithm. * `DBOptions::writable_file_max_buffer_size` can now be changed dynamically. * `DBOptions::bytes_per_sync`, `DBOptions::compaction_readahead_size`, and `DBOptions::wal_bytes_per_sync` can now be changed dynamically, `DBOptions::wal_bytes_per_sync` will flush all memtables and switch to a new WAL file. * Support dynamic adjustment of rate limit according to demand for background I/O. It can be enabled by passing `true` to the `auto_tuned` parameter in `NewGenericRateLimiter()`. The value passed as `rate_bytes_per_sec` will still be respected as an upper-bound. * Support dynamically changing `ColumnFamilyOptions::compaction_options_fifo`. * Introduce `EventListener::OnStallConditionsChanged()` callback. Users can implement it to be notified when user writes are stalled, stopped, or resumed. * Add a new db property "rocksdb.estimate-oldest-key-time" to return oldest data timestamp. The property is available only for FIFO compaction with compaction_options_fifo.allow_compaction = false. * Upon snapshot release, recompact bottommost files containing deleted/overwritten keys that previously could not be dropped due to the snapshot. This alleviates space-amp caused by long-held snapshots. * Support lower bound on iterators specified via `ReadOptions::iterate_lower_bound`. * Support for differential snapshots (via iterator emitting the sequence of key-values representing the difference between DB state at two different sequence numbers). Supports preserving and emitting puts and regular deletes, doesn't support SingleDeletes, MergeOperator, Blobs and Range Deletes. ### Bug Fixes * Fix a potential data inconsistency issue during point-in-time recovery. `DB:Open()` will abort if column family inconsistency is found during PIT recovery. * Fix possible metadata corruption in databases using `DeleteRange()`. ## 5.8.0 (08/30/2017) ### Public API Change * Users of `Statistics::getHistogramString()` will see fewer histogram buckets and different bucket endpoints. * `Slice::compare` and BytewiseComparator `Compare` no longer accept `Slice`s containing nullptr. * `Transaction::Get` and `Transaction::GetForUpdate` variants with `PinnableSlice` added. ### New Features * Add Iterator::Refresh(), which allows users to update the iterator state so that they can avoid some initialization costs of recreating iterators. * Replace dynamic_cast<> (except unit test) so people can choose to build with RTTI off. With make, release mode is by default built with -fno-rtti and debug mode is built without it. Users can override it by setting USE_RTTI=0 or 1. * Universal compactions including the bottom level can be executed in a dedicated thread pool. This alleviates head-of-line blocking in the compaction queue, which cause write stalling, particularly in multi-instance use cases. Users can enable this feature via `Env::SetBackgroundThreads(N, Env::Priority::BOTTOM)`, where `N > 0`. * Allow merge operator to be called even with a single merge operand during compactions, by appropriately overriding `MergeOperator::AllowSingleOperand`. * Add `DB::VerifyChecksum()`, which verifies the checksums in all SST files in a running DB. * Block-based table support for disabling checksums by setting `BlockBasedTableOptions::checksum = kNoChecksum`. ### Bug Fixes * Fix wrong latencies in `rocksdb.db.get.micros`, `rocksdb.db.write.micros`, and `rocksdb.sst.read.micros`. * Fix incorrect dropping of deletions during intra-L0 compaction. * Fix transient reappearance of keys covered by range deletions when memtable prefix bloom filter is enabled. * Fix potentially wrong file smallest key when range deletions separated by snapshot are written together. ## 5.7.0 (07/13/2017) ### Public API Change * DB property "rocksdb.sstables" now prints keys in hex form. ### New Features * Measure estimated number of reads per file. The information can be accessed through DB::GetColumnFamilyMetaData or "rocksdb.sstables" DB property. * RateLimiter support for throttling background reads, or throttling the sum of background reads and writes. This can give more predictable I/O usage when compaction reads more data than it writes, e.g., due to lots of deletions. * [Experimental] FIFO compaction with TTL support. It can be enabled by setting CompactionOptionsFIFO.ttl > 0. * Introduce `EventListener::OnBackgroundError()` callback. Users can implement it to be notified of errors causing the DB to enter read-only mode, and optionally override them. * Partitioned Index/Filters exiting the experimental mode. To enable partitioned indexes set index_type to kTwoLevelIndexSearch and to further enable partitioned filters set partition_filters to true. To configure the partition size set metadata_block_size. ### Bug Fixes * Fix discarding empty compaction output files when `DeleteRange()` is used together with subcompactions. ## 5.6.0 (06/06/2017) ### Public API Change * Scheduling flushes and compactions in the same thread pool is no longer supported by setting `max_background_flushes=0`. Instead, users can achieve this by configuring their high-pri thread pool to have zero threads. * Replace `Options::max_background_flushes`, `Options::max_background_compactions`, and `Options::base_background_compactions` all with `Options::max_background_jobs`, which automatically decides how many threads to allocate towards flush/compaction. * options.delayed_write_rate by default take the value of options.rate_limiter rate. * Replace global variable `IOStatsContext iostats_context` with `IOStatsContext* get_iostats_context()`; replace global variable `PerfContext perf_context` with `PerfContext* get_perf_context()`. ### New Features * Change ticker/histogram statistics implementations to use core-local storage. This improves aggregation speed compared to our previous thread-local approach, particularly for applications with many threads. * Users can pass a cache object to write buffer manager, so that they can cap memory usage for memtable and block cache using one single limit. * Flush will be triggered when 7/8 of the limit introduced by write_buffer_manager or db_write_buffer_size is triggered, so that the hard threshold is hard to hit. * Introduce WriteOptions.low_pri. If it is true, low priority writes will be throttled if the compaction is behind. * `DB::IngestExternalFile()` now supports ingesting files into a database containing range deletions. ### Bug Fixes * Shouldn't ignore return value of fsync() in flush. ## 5.5.0 (05/17/2017) ### New Features * FIFO compaction to support Intra L0 compaction too with CompactionOptionsFIFO.allow_compaction=true. * DB::ResetStats() to reset internal stats. * Statistics::Reset() to reset user stats. * ldb add option --try_load_options, which will open DB with its own option file. * Introduce WriteBatch::PopSavePoint to pop the most recent save point explicitly. * Support dynamically change `max_open_files` option via SetDBOptions() * Added DB::CreateColumnFamilie() and DB::DropColumnFamilies() to bulk create/drop column families. * Add debugging function `GetAllKeyVersions` to see internal versions of a range of keys. * Support file ingestion with universal compaction style * Support file ingestion behind with option `allow_ingest_behind` * New option enable_pipelined_write which may improve write throughput in case writing from multiple threads and WAL enabled. ### Bug Fixes * Fix the bug that Direct I/O uses direct reads for non-SST file ## 5.4.0 (04/11/2017) ### Public API Change * random_access_max_buffer_size no longer has any effect * Removed Env::EnableReadAhead(), Env::ShouldForwardRawRequest() * Support dynamically change `stats_dump_period_sec` option via SetDBOptions(). * Added ReadOptions::max_skippable_internal_keys to set a threshold to fail a request as incomplete when too many keys are being skipped when using iterators. * DB::Get in place of std::string accepts PinnableSlice, which avoids the extra memcpy of value to std::string in most of cases. * PinnableSlice releases the pinned resources that contain the value when it is destructed or when ::Reset() is called on it. * The old API that accepts std::string, although discouraged, is still supported. * Replace Options::use_direct_writes with Options::use_direct_io_for_flush_and_compaction. Read Direct IO wiki for details. * Added CompactionEventListener and EventListener::OnFlushBegin interfaces. ### New Features * Memtable flush can be avoided during checkpoint creation if total log file size is smaller than a threshold specified by the user. * Introduce level-based L0->L0 compactions to reduce file count, so write delays are incurred less often. * (Experimental) Partitioning filters which creates an index on the partitions. The feature can be enabled by setting partition_filters when using kFullFilter. Currently the feature also requires two-level indexing to be enabled. Number of partitions is the same as the number of partitions for indexes, which is controlled by metadata_block_size. ## 5.3.0 (03/08/2017) ### Public API Change * Remove disableDataSync option. * Remove timeout_hint_us option from WriteOptions. The option has been deprecated and has no effect since 3.13.0. * Remove option min_partial_merge_operands. Partial merge operands will always be merged in flush or compaction if there are more than one. * Remove option verify_checksums_in_compaction. Compaction will always verify checksum. ### Bug Fixes * Fix the bug that iterator may skip keys ## 5.2.0 (02/08/2017) ### Public API Change * NewLRUCache() will determine number of shard bits automatically based on capacity, if the user doesn't pass one. This also impacts the default block cache when the user doesn't explict provide one. * Change the default of delayed slowdown value to 16MB/s and further increase the L0 stop condition to 36 files. * Options::use_direct_writes and Options::use_direct_reads are now ready to use. * (Experimental) Two-level indexing that partition the index and creates a 2nd level index on the partitions. The feature can be enabled by setting kTwoLevelIndexSearch as IndexType and configuring index_per_partition. ### New Features * Added new overloaded function GetApproximateSizes that allows to specify if memtable stats should be computed only without computing SST files' stats approximations. * Added new function GetApproximateMemTableStats that approximates both number of records and size of memtables. * Add Direct I/O mode for SST file I/O ### Bug Fixes * RangeSync() should work if ROCKSDB_FALLOCATE_PRESENT is not set * Fix wrong results in a data race case in Get() * Some fixes related to 2PC. * Fix bugs of data corruption in direct I/O ## 5.1.0 (01/13/2017) * Support dynamically change `delete_obsolete_files_period_micros` option via SetDBOptions(). * Added EventListener::OnExternalFileIngested which will be called when IngestExternalFile() add a file successfully. * BackupEngine::Open and BackupEngineReadOnly::Open now always return error statuses matching those of the backup Env. ### Bug Fixes * Fix the bug that if 2PC is enabled, checkpoints may loss some recent transactions. * When file copying is needed when creating checkpoints or bulk loading files, fsync the file after the file copying. ## 5.0.0 (11/17/2016) ### Public API Change * Options::max_bytes_for_level_multiplier is now a double along with all getters and setters. * Support dynamically change `delayed_write_rate` and `max_total_wal_size` options via SetDBOptions(). * Introduce DB::DeleteRange for optimized deletion of large ranges of contiguous keys. * Support dynamically change `delayed_write_rate` option via SetDBOptions(). * Options::allow_concurrent_memtable_write and Options::enable_write_thread_adaptive_yield are now true by default. * Remove Tickers::SEQUENCE_NUMBER to avoid confusion if statistics object is shared among RocksDB instance. Alternatively DB::GetLatestSequenceNumber() can be used to get the same value. * Options.level0_stop_writes_trigger default value changes from 24 to 32. * New compaction filter API: CompactionFilter::FilterV2(). Allows to drop ranges of keys. * Removed flashcache support. * DB::AddFile() is deprecated and is replaced with DB::IngestExternalFile(). DB::IngestExternalFile() remove all the restrictions that existed for DB::AddFile. ### New Features * Add avoid_flush_during_shutdown option, which speeds up DB shutdown by not flushing unpersisted data (i.e. with disableWAL = true). Unpersisted data will be lost. The options is dynamically changeable via SetDBOptions(). * Add memtable_insert_with_hint_prefix_extractor option. The option is mean to reduce CPU usage for inserting keys into memtable, if keys can be group by prefix and insert for each prefix are sequential or almost sequential. See include/rocksdb/options.h for more details. * Add LuaCompactionFilter in utilities. This allows developers to write compaction filters in Lua. To use this feature, LUA_PATH needs to be set to the root directory of Lua. * No longer populate "LATEST_BACKUP" file in backup directory, which formerly contained the number of the latest backup. The latest backup can be determined by finding the highest numbered file in the "meta/" subdirectory. ## 4.13.0 (10/18/2016) ### Public API Change * DB::GetOptions() reflect dynamic changed options (i.e. through DB::SetOptions()) and return copy of options instead of reference. * Added Statistics::getAndResetTickerCount(). ### New Features * Add DB::SetDBOptions() to dynamic change base_background_compactions and max_background_compactions. * Added Iterator::SeekForPrev(). This new API will seek to the last key that less than or equal to the target key. ## 4.12.0 (9/12/2016) ### Public API Change * CancelAllBackgroundWork() flushes all memtables for databases containing writes that have bypassed the WAL (writes issued with WriteOptions::disableWAL=true) before shutting down background threads. * Merge options source_compaction_factor, max_grandparent_overlap_bytes and expanded_compaction_factor into max_compaction_bytes. * Remove ImmutableCFOptions. * Add a compression type ZSTD, which can work with ZSTD 0.8.0 or up. Still keep ZSTDNotFinal for compatibility reasons. ### New Features * Introduce NewClockCache, which is based on CLOCK algorithm with better concurrent performance in some cases. It can be used to replace the default LRU-based block cache and table cache. To use it, RocksDB need to be linked with TBB lib. * Change ticker/histogram statistics implementations to accumulate data in thread-local storage, which improves CPU performance by reducing cache coherency costs. Callers of CreateDBStatistics do not need to change anything to use this feature. * Block cache mid-point insertion, where index and filter block are inserted into LRU block cache with higher priority. The feature can be enabled by setting BlockBasedTableOptions::cache_index_and_filter_blocks_with_high_priority to true and high_pri_pool_ratio > 0 when creating NewLRUCache. ## 4.11.0 (8/1/2016) ### Public API Change * options.memtable_prefix_bloom_huge_page_tlb_size => memtable_huge_page_size. When it is set, RocksDB will try to allocate memory from huge page for memtable too, rather than just memtable bloom filter. ### New Features * A tool to migrate DB after options change. See include/rocksdb/utilities/option_change_migration.h. * Add ReadOptions.background_purge_on_iterator_cleanup. If true, we avoid file deletion when destorying iterators. ## 4.10.0 (7/5/2016) ### Public API Change * options.memtable_prefix_bloom_bits changes to options.memtable_prefix_bloom_bits_ratio and deprecate options.memtable_prefix_bloom_probes * enum type CompressionType and PerfLevel changes from char to unsigned char. Value of all PerfLevel shift by one. * Deprecate options.filter_deletes. ### New Features * Add avoid_flush_during_recovery option. * Add a read option background_purge_on_iterator_cleanup to avoid deleting files in foreground when destroying iterators. Instead, a job is scheduled in high priority queue and would be executed in a separate background thread. * RepairDB support for column families. RepairDB now associates data with non-default column families using information embedded in the SST/WAL files (4.7 or later). For data written by 4.6 or earlier, RepairDB associates it with the default column family. * Add options.write_buffer_manager which allows users to control total memtable sizes across multiple DB instances. ## 4.9.0 (6/9/2016) ### Public API changes * Add bottommost_compression option, This option can be used to set a specific compression algorithm for the bottommost level (Last level containing files in the DB). * Introduce CompactionJobInfo::compression, This field state the compression algorithm used to generate the output files of the compaction. * Deprecate BlockBaseTableOptions.hash_index_allow_collision=false * Deprecate options builder (GetOptions()). ### New Features * Introduce NewSimCache() in rocksdb/utilities/sim_cache.h. This function creates a block cache that is able to give simulation results (mainly hit rate) of simulating block behavior with a configurable cache size. ## 4.8.0 (5/2/2016) ### Public API Change * Allow preset compression dictionary for improved compression of block-based tables. This is supported for zlib, zstd, and lz4. The compression dictionary's size is configurable via CompressionOptions::max_dict_bytes. * Delete deprecated classes for creating backups (BackupableDB) and restoring from backups (RestoreBackupableDB). Now, BackupEngine should be used for creating backups, and BackupEngineReadOnly should be used for restorations. For more details, see https://github.com/facebook/rocksdb/wiki/How-to-backup-RocksDB%3F * Expose estimate of per-level compression ratio via DB property: "rocksdb.compression-ratio-at-levelN". * Added EventListener::OnTableFileCreationStarted. EventListener::OnTableFileCreated will be called on failure case. User can check creation status via TableFileCreationInfo::status. ### New Features * Add ReadOptions::readahead_size. If non-zero, NewIterator will create a new table reader which performs reads of the given size. ## 4.7.0 (4/8/2016) ### Public API Change * rename options compaction_measure_io_stats to report_bg_io_stats and include flush too. * Change some default options. Now default options will optimize for server-workloads. Also enable slowdown and full stop triggers for pending compaction bytes. These changes may cause sub-optimal performance or significant increase of resource usage. To avoid these risks, users can open existing RocksDB with options extracted from RocksDB option files. See https://github.com/facebook/rocksdb/wiki/RocksDB-Options-File for how to use RocksDB option files. Or you can call Options.OldDefaults() to recover old defaults. DEFAULT_OPTIONS_HISTORY.md will track change history of default options. ## 4.6.0 (3/10/2016) ### Public API Changes * Change default of BlockBasedTableOptions.format_version to 2. It means default DB created by 4.6 or up cannot be opened by RocksDB version 3.9 or earlier. * Added strict_capacity_limit option to NewLRUCache. If the flag is set to true, insert to cache will fail if no enough capacity can be free. Signature of Cache::Insert() is updated accordingly. * Tickers [NUMBER_DB_NEXT, NUMBER_DB_PREV, NUMBER_DB_NEXT_FOUND, NUMBER_DB_PREV_FOUND, ITER_BYTES_READ] are not updated immediately. The are updated when the Iterator is deleted. * Add monotonically increasing counter (DB property "rocksdb.current-super-version-number") that increments upon any change to the LSM tree. ### New Features * Add CompactionPri::kMinOverlappingRatio, a compaction picking mode friendly to write amplification. * Deprecate Iterator::IsKeyPinned() and replace it with Iterator::GetProperty() with prop_name="rocksdb.iterator.is.key.pinned" ## 4.5.0 (2/5/2016) ### Public API Changes * Add a new perf context level between kEnableCount and kEnableTime. Level 2 now does not include timers for mutexes. * Statistics of mutex operation durations will not be measured by default. If you want to have them enabled, you need to set Statistics::stats_level_ to kAll. * DBOptions::delete_scheduler and NewDeleteScheduler() are removed, please use DBOptions::sst_file_manager and NewSstFileManager() instead ### New Features * ldb tool now supports operations to non-default column families. * Add kPersistedTier to ReadTier. This option allows Get and MultiGet to read only the persited data and skip mem-tables if writes were done with disableWAL = true. * Add DBOptions::sst_file_manager. Use NewSstFileManager() in include/rocksdb/sst_file_manager.h to create a SstFileManager that can be used to track the total size of SST files and control the SST files deletion rate. ## 4.4.0 (1/14/2016) ### Public API Changes * Change names in CompactionPri and add a new one. * Deprecate options.soft_rate_limit and add options.soft_pending_compaction_bytes_limit. * If options.max_write_buffer_number > 3, writes will be slowed down when writing to the last write buffer to delay a full stop. * Introduce CompactionJobInfo::compaction_reason, this field include the reason to trigger the compaction. * After slow down is triggered, if estimated pending compaction bytes keep increasing, slowdown more. * Increase default options.delayed_write_rate to 2MB/s. * Added a new parameter --path to ldb tool. --path accepts the name of either MANIFEST, SST or a WAL file. Either --db or --path can be used when calling ldb. ## 4.3.0 (12/8/2015) ### New Features * CompactionFilter has new member function called IgnoreSnapshots which allows CompactionFilter to be called even if there are snapshots later than the key. * RocksDB will now persist options under the same directory as the RocksDB database on successful DB::Open, CreateColumnFamily, DropColumnFamily, and SetOptions. * Introduce LoadLatestOptions() in rocksdb/utilities/options_util.h. This function can construct the latest DBOptions / ColumnFamilyOptions used by the specified RocksDB intance. * Introduce CheckOptionsCompatibility() in rocksdb/utilities/options_util.h. This function checks whether the input set of options is able to open the specified DB successfully. ### Public API Changes * When options.db_write_buffer_size triggers, only the column family with the largest column family size will be flushed, not all the column families. ## 4.2.0 (11/9/2015) ### New Features * Introduce CreateLoggerFromOptions(), this function create a Logger for provided DBOptions. * Add GetAggregatedIntProperty(), which returns the sum of the GetIntProperty of all the column families. * Add MemoryUtil in rocksdb/utilities/memory.h. It currently offers a way to get the memory usage by type from a list rocksdb instances. ### Public API Changes * CompactionFilter::Context includes information of Column Family ID * The need-compaction hint given by TablePropertiesCollector::NeedCompact() will be persistent and recoverable after DB recovery. This introduces a breaking format change. If you use this experimental feature, including NewCompactOnDeletionCollectorFactory() in the new version, you may not be able to directly downgrade the DB back to version 4.0 or lower. * TablePropertiesCollectorFactory::CreateTablePropertiesCollector() now takes an option Context, containing the information of column family ID for the file being written. * Remove DefaultCompactionFilterFactory. ## 4.1.0 (10/8/2015) ### New Features * Added single delete operation as a more efficient way to delete keys that have not been overwritten. * Added experimental AddFile() to DB interface that allow users to add files created by SstFileWriter into an empty Database, see include/rocksdb/sst_file_writer.h and DB::AddFile() for more info. * Added support for opening SST files with .ldb suffix which enables opening LevelDB databases. * CompactionFilter now supports filtering of merge operands and merge results. ### Public API Changes * Added SingleDelete() to the DB interface. * Added AddFile() to DB interface. * Added SstFileWriter class. * CompactionFilter has a new method FilterMergeOperand() that RocksDB applies to every merge operand during compaction to decide whether to filter the operand. * We removed CompactionFilterV2 interfaces from include/rocksdb/compaction_filter.h. The functionality was deprecated already in version 3.13. ## 4.0.0 (9/9/2015) ### New Features * Added support for transactions. See include/rocksdb/utilities/transaction.h for more info. * DB::GetProperty() now accepts "rocksdb.aggregated-table-properties" and "rocksdb.aggregated-table-properties-at-levelN", in which case it returns aggregated table properties of the target column family, or the aggregated table properties of the specified level N if the "at-level" version is used. * Add compression option kZSTDNotFinalCompression for people to experiment ZSTD although its format is not finalized. * We removed the need for LATEST_BACKUP file in BackupEngine. We still keep writing it when we create new backups (because of backward compatibility), but we don't read it anymore. ### Public API Changes * Removed class Env::RandomRWFile and Env::NewRandomRWFile(). * Renamed DBOptions.num_subcompactions to DBOptions.max_subcompactions to make the name better match the actual functionality of the option. * Added Equal() method to the Comparator interface that can optionally be overwritten in cases where equality comparisons can be done more efficiently than three-way comparisons. * Previous 'experimental' OptimisticTransaction class has been replaced by Transaction class. ## 3.13.0 (8/6/2015) ### New Features * RollbackToSavePoint() in WriteBatch/WriteBatchWithIndex * Add NewCompactOnDeletionCollectorFactory() in utilities/table_properties_collectors, which allows rocksdb to mark a SST file as need-compaction when it observes at least D deletion entries in any N consecutive entries in that SST file. Note that this feature depends on an experimental NeedCompact() API --- the result of this API will not persist after DB restart. * Add DBOptions::delete_scheduler. Use NewDeleteScheduler() in include/rocksdb/delete_scheduler.h to create a DeleteScheduler that can be shared among multiple RocksDB instances to control the file deletion rate of SST files that exist in the first db_path. ### Public API Changes * Deprecated WriteOptions::timeout_hint_us. We no longer support write timeout. If you really need this option, talk to us and we might consider returning it. * Deprecated purge_redundant_kvs_while_flush option. * Removed BackupEngine::NewBackupEngine() and NewReadOnlyBackupEngine() that were deprecated in RocksDB 3.8. Please use BackupEngine::Open() instead. * Deprecated Compaction Filter V2. We are not aware of any existing use-cases. If you use this filter, your compile will break with RocksDB 3.13. Please let us know if you use it and we'll put it back in RocksDB 3.14. * Env::FileExists now returns a Status instead of a boolean * Add statistics::getHistogramString() to print detailed distribution of a histogram metric. * Add DBOptions::skip_stats_update_on_db_open. When it is on, DB::Open() will run faster as it skips the random reads required for loading necessary stats from SST files to optimize compaction. ## 3.12.0 (7/2/2015) ### New Features * Added experimental support for optimistic transactions. See include/rocksdb/utilities/optimistic_transaction.h for more info. * Added a new way to report QPS from db_bench (check out --report_file and --report_interval_seconds) * Added a cache for individual rows. See DBOptions::row_cache for more info. * Several new features on EventListener (see include/rocksdb/listener.h): - OnCompationCompleted() now returns per-compaction job statistics, defined in include/rocksdb/compaction_job_stats.h. - Added OnTableFileCreated() and OnTableFileDeleted(). * Add compaction_options_universal.enable_trivial_move to true, to allow trivial move while performing universal compaction. Trivial move will happen only when all the input files are non overlapping. ### Public API changes * EventListener::OnFlushCompleted() now passes FlushJobInfo instead of a list of parameters. * DB::GetDbIdentity() is now a const function. If this function is overridden in your application, be sure to also make GetDbIdentity() const to avoid compile error. * Move listeners from ColumnFamilyOptions to DBOptions. * Add max_write_buffer_number_to_maintain option * DB::CompactRange()'s parameter reduce_level is changed to change_level, to allow users to move levels to lower levels if allowed. It can be used to migrate a DB from options.level_compaction_dynamic_level_bytes=false to options.level_compaction_dynamic_level_bytes.true. * Change default value for options.compaction_filter_factory and options.compaction_filter_factory_v2 to nullptr instead of DefaultCompactionFilterFactory and DefaultCompactionFilterFactoryV2. * If CancelAllBackgroundWork is called without doing a flush after doing loads with WAL disabled, the changes which haven't been flushed before the call to CancelAllBackgroundWork will be lost. * WBWIIterator::Entry() now returns WriteEntry instead of `const WriteEntry&` * options.hard_rate_limit is deprecated. * When options.soft_rate_limit or options.level0_slowdown_writes_trigger is triggered, the way to slow down writes is changed to: write rate to DB is limited to to options.delayed_write_rate. * DB::GetApproximateSizes() adds a parameter to allow the estimation to include data in mem table, with default to be not to include. It is now only supported in skip list mem table. * DB::CompactRange() now accept CompactRangeOptions instead of multiple parameters. CompactRangeOptions is defined in include/rocksdb/options.h. * CompactRange() will now skip bottommost level compaction for level based compaction if there is no compaction filter, bottommost_level_compaction is introduced in CompactRangeOptions to control when it's possible to skip bottommost level compaction. This mean that if you want the compaction to produce a single file you need to set bottommost_level_compaction to BottommostLevelCompaction::kForce. * Add Cache.GetPinnedUsage() to get the size of memory occupied by entries that are in use by the system. * DB:Open() will fail if the compression specified in Options is not linked with the binary. If you see this failure, recompile RocksDB with compression libraries present on your system. Also, previously our default compression was snappy. This behavior is now changed. Now, the default compression is snappy only if it's available on the system. If it isn't we change the default to kNoCompression. * We changed how we account for memory used in block cache. Previously, we only counted the sum of block sizes currently present in block cache. Now, we count the actual memory usage of the blocks. For example, a block of size 4.5KB will use 8KB memory with jemalloc. This might decrease your memory usage and possibly decrease performance. Increase block cache size if you see this happening after an upgrade. * Add BackupEngineImpl.options_.max_background_operations to specify the maximum number of operations that may be performed in parallel. Add support for parallelized backup and restore. * Add DB::SyncWAL() that does a WAL sync without blocking writers. ## 3.11.0 (5/19/2015) ### New Features * Added a new API Cache::SetCapacity(size_t capacity) to dynamically change the maximum configured capacity of the cache. If the new capacity is less than the existing cache usage, the implementation will try to lower the usage by evicting the necessary number of elements following a strict LRU policy. * Added an experimental API for handling flashcache devices (blacklists background threads from caching their reads) -- NewFlashcacheAwareEnv * If universal compaction is used and options.num_levels > 1, compact files are tried to be stored in none-L0 with smaller files based on options.target_file_size_base. The limitation of DB size when using universal compaction is greatly mitigated by using more levels. You can set num_levels = 1 to make universal compaction behave as before. If you set num_levels > 1 and want to roll back to a previous version, you need to compact all files to a big file in level 0 (by setting target_file_size_base to be large and CompactRange(, nullptr, nullptr, true, 0) and reopen the DB with the same version to rewrite the manifest, and then you can open it using previous releases. * More information about rocksdb background threads are available in Env::GetThreadList(), including the number of bytes read / written by a compaction job, mem-table size and current number of bytes written by a flush job and many more. Check include/rocksdb/thread_status.h for more detail. ### Public API changes * TablePropertiesCollector::AddUserKey() is added to replace TablePropertiesCollector::Add(). AddUserKey() exposes key type, sequence number and file size up to now to users. * DBOptions::bytes_per_sync used to apply to both WAL and table files. As of 3.11 it applies only to table files. If you want to use this option to sync WAL in the background, please use wal_bytes_per_sync ## 3.10.0 (3/24/2015) ### New Features * GetThreadStatus() is now able to report detailed thread status, including: - Thread Operation including flush and compaction. - The stage of the current thread operation. - The elapsed time in micros since the current thread operation started. More information can be found in include/rocksdb/thread_status.h. In addition, when running db_bench with --thread_status_per_interval, db_bench will also report thread status periodically. * Changed the LRU caching algorithm so that referenced blocks (by iterators) are never evicted. This change made parameter removeScanCountLimit obsolete. Because of that NewLRUCache doesn't take three arguments anymore. table_cache_remove_scan_limit option is also removed * By default we now optimize the compilation for the compilation platform (using -march=native). If you want to build portable binary, use 'PORTABLE=1' before the make command. * We now allow level-compaction to place files in different paths by specifying them in db_paths along with the target_size. Lower numbered levels will be placed earlier in the db_paths and higher numbered levels will be placed later in the db_paths vector. * Potentially big performance improvements if you're using RocksDB with lots of column families (100-1000) * Added BlockBasedTableOptions.format_version option, which allows user to specify which version of block based table he wants. As a general guideline, newer versions have more features, but might not be readable by older versions of RocksDB. * Added new block based table format (version 2), which you can enable by setting BlockBasedTableOptions.format_version = 2. This format changes how we encode size information in compressed blocks and should help with memory allocations if you're using Zlib or BZip2 compressions. * MemEnv (env that stores data in memory) is now available in default library build. You can create it by calling NewMemEnv(). * Add SliceTransform.SameResultWhenAppended() to help users determine it is safe to apply prefix bloom/hash. * Block based table now makes use of prefix bloom filter if it is a full fulter. * Block based table remembers whether a whole key or prefix based bloom filter is supported in SST files. Do a sanity check when reading the file with users' configuration. * Fixed a bug in ReadOnlyBackupEngine that deleted corrupted backups in some cases, even though the engine was ReadOnly * options.level_compaction_dynamic_level_bytes, a feature to allow RocksDB to pick dynamic base of bytes for levels. With this feature turned on, we will automatically adjust max bytes for each level. The goal of this feature is to have lower bound on size amplification. For more details, see comments in options.h. * Added an abstract base class WriteBatchBase for write batches * Fixed a bug where we start deleting files of a dropped column families even if there are still live references to it ### Public API changes * Deprecated skip_log_error_on_recovery and table_cache_remove_scan_count_limit options. * Logger method logv with log level parameter is now virtual ### RocksJava * Added compression per level API. * MemEnv is now available in RocksJava via RocksMemEnv class. * lz4 compression is now included in rocksjava static library when running `make rocksdbjavastatic`. * Overflowing a size_t when setting rocksdb options now throws an IllegalArgumentException, which removes the necessity for a developer to catch these Exceptions explicitly. ## 3.9.0 (12/8/2014) ### New Features * Add rocksdb::GetThreadList(), which in the future will return the current status of all rocksdb-related threads. We will have more code instruments in the following RocksDB releases. * Change convert function in rocksdb/utilities/convenience.h to return Status instead of boolean. Also add support for nested options in convert function ### Public API changes * New API to create a checkpoint added. Given a directory name, creates a new database which is an image of the existing database. * New API LinkFile added to Env. If you implement your own Env class, an implementation of the API LinkFile will have to be provided. * MemTableRep takes MemTableAllocator instead of Arena ### Improvements * RocksDBLite library now becomes smaller and will be compiled with -fno-exceptions flag. ## 3.8.0 (11/14/2014) ### Public API changes * BackupEngine::NewBackupEngine() was deprecated; please use BackupEngine::Open() from now on. * BackupableDB/RestoreBackupableDB have new GarbageCollect() methods, which will clean up files from corrupt and obsolete backups. * BackupableDB/RestoreBackupableDB have new GetCorruptedBackups() methods which list corrupt backups. ### Cleanup * Bunch of code cleanup, some extra warnings turned on (-Wshadow, -Wshorten-64-to-32, -Wnon-virtual-dtor) ### New features * CompactFiles and EventListener, although they are still in experimental state * Full ColumnFamily support in RocksJava. ## 3.7.0 (11/6/2014) ### Public API changes * Introduce SetOptions() API to allow adjusting a subset of options dynamically online * Introduce 4 new convenient functions for converting Options from string: GetColumnFamilyOptionsFromMap(), GetColumnFamilyOptionsFromString(), GetDBOptionsFromMap(), GetDBOptionsFromString() * Remove WriteBatchWithIndex.Delete() overloads using SliceParts * When opening a DB, if options.max_background_compactions is larger than the existing low pri pool of options.env, it will enlarge it. Similarly, options.max_background_flushes is larger than the existing high pri pool of options.env, it will enlarge it. ## 3.6.0 (10/7/2014) ### Disk format changes * If you're using RocksDB on ARM platforms and you're using default bloom filter, there is a disk format change you need to be aware of. There are three steps you need to do when you convert to new release: 1. turn off filter policy, 2. compact the whole database, 3. turn on filter policy ### Behavior changes * We have refactored our system of stalling writes. Any stall-related statistics' meanings are changed. Instead of per-write stall counts, we now count stalls per-epoch, where epochs are periods between flushes and compactions. You'll find more information in our Tuning Perf Guide once we release RocksDB 3.6. * When disableDataSync=true, we no longer sync the MANIFEST file. * Add identity_as_first_hash property to CuckooTable. SST file needs to be rebuilt to be opened by reader properly. ### Public API changes * Change target_file_size_base type to uint64_t from int. * Remove allow_thread_local. This feature was proved to be stable, so we are turning it always-on. ## 3.5.0 (9/3/2014) ### New Features * Add include/utilities/write_batch_with_index.h, providing a utility class to query data out of WriteBatch when building it. * Move BlockBasedTable related options to BlockBasedTableOptions from Options. Change corresponding JNI interface. Options affected include: no_block_cache, block_cache, block_cache_compressed, block_size, block_size_deviation, block_restart_interval, filter_policy, whole_key_filtering. filter_policy is changed to shared_ptr from a raw pointer. * Remove deprecated options: disable_seek_compaction and db_stats_log_interval * OptimizeForPointLookup() takes one parameter for block cache size. It now builds hash index, bloom filter, and block cache. ### Public API changes * The Prefix Extractor used with V2 compaction filters is now passed user key to SliceTransform::Transform instead of unparsed RocksDB key. ## 3.4.0 (8/18/2014) ### New Features * Support Multiple DB paths in universal style compactions * Add feature of storing plain table index and bloom filter in SST file. * CompactRange() will never output compacted files to level 0. This used to be the case when all the compaction input files were at level 0. * Added iterate_upper_bound to define the extent upto which the forward iterator will return entries. This will prevent iterating over delete markers and overwritten entries for edge cases where you want to break out the iterator anyways. This may improve performance in case there are a large number of delete markers or overwritten entries. ### Public API changes * DBOptions.db_paths now is a vector of a DBPath structure which indicates both of path and target size * NewPlainTableFactory instead of bunch of parameters now accepts PlainTableOptions, which is defined in include/rocksdb/table.h * Moved include/utilities/*.h to include/rocksdb/utilities/*.h * Statistics APIs now take uint32_t as type instead of Tickers. Also make two access functions getTickerCount and histogramData const * Add DB property rocksdb.estimate-num-keys, estimated number of live keys in DB. * Add DB::GetIntProperty(), which returns DB properties that are integer as uint64_t. * The Prefix Extractor used with V2 compaction filters is now passed user key to SliceTransform::Transform instead of unparsed RocksDB key. ## 3.3.0 (7/10/2014) ### New Features * Added JSON API prototype. * HashLinklist reduces performance outlier caused by skewed bucket by switching data in the bucket from linked list to skip list. Add parameter threshold_use_skiplist in NewHashLinkListRepFactory(). * RocksDB is now able to reclaim storage space more effectively during the compaction process. This is done by compensating the size of each deletion entry by the 2X average value size, which makes compaction to be triggered by deletion entries more easily. * Add TimeOut API to write. Now WriteOptions have a variable called timeout_hint_us. With timeout_hint_us set to non-zero, any write associated with this timeout_hint_us may be aborted when it runs longer than the specified timeout_hint_us, and it is guaranteed that any write completes earlier than the specified time-out will not be aborted due to the time-out condition. * Add a rate_limiter option, which controls total throughput of flush and compaction. The throughput is specified in bytes/sec. Flush always has precedence over compaction when available bandwidth is constrained. ### Public API changes * Removed NewTotalOrderPlainTableFactory because it is not used and implemented semantically incorrect. ## 3.2.0 (06/20/2014) ### Public API changes * We removed seek compaction as a concept from RocksDB because: 1) It makes more sense for spinning disk workloads, while RocksDB is primarily designed for flash and memory, 2) It added some complexity to the important code-paths, 3) None of our internal customers were really using it. Because of that, Options::disable_seek_compaction is now obsolete. It is still a parameter in Options, so it does not break the build, but it does not have any effect. We plan to completely remove it at some point, so we ask users to please remove this option from your code base. * Add two parameters to NewHashLinkListRepFactory() for logging on too many entries in a hash bucket when flushing. * Added new option BlockBasedTableOptions::hash_index_allow_collision. When enabled, prefix hash index for block-based table will not store prefix and allow hash collision, reducing memory consumption. ### New Features * PlainTable now supports a new key encoding: for keys of the same prefix, the prefix is only written once. It can be enabled through encoding_type parameter of NewPlainTableFactory() * Add AdaptiveTableFactory, which is used to convert from a DB of PlainTable to BlockBasedTabe, or vise versa. It can be created using NewAdaptiveTableFactory() ### Performance Improvements * Tailing Iterator re-implemeted with ForwardIterator + Cascading Search Hint , see ~20% throughput improvement. ## 3.1.0 (05/21/2014) ### Public API changes * Replaced ColumnFamilyOptions::table_properties_collectors with ColumnFamilyOptions::table_properties_collector_factories ### New Features * Hash index for block-based table will be materialized and reconstructed more efficiently. Previously hash index is constructed by scanning the whole table during every table open. * FIFO compaction style ## 3.0.0 (05/05/2014) ### Public API changes * Added _LEVEL to all InfoLogLevel enums * Deprecated ReadOptions.prefix and ReadOptions.prefix_seek. Seek() defaults to prefix-based seek when Options.prefix_extractor is supplied. More detail is documented in https://github.com/facebook/rocksdb/wiki/Prefix-Seek-API-Changes * MemTableRepFactory::CreateMemTableRep() takes info logger as an extra parameter. ### New Features * Column family support * Added an option to use different checksum functions in BlockBasedTableOptions * Added ApplyToAllCacheEntries() function to Cache ## 2.8.0 (04/04/2014) * Removed arena.h from public header files. * By default, checksums are verified on every read from database * Change default value of several options, including: paranoid_checks=true, max_open_files=5000, level0_slowdown_writes_trigger=20, level0_stop_writes_trigger=24, disable_seek_compaction=true, max_background_flushes=1 and allow_mmap_writes=false * Added is_manual_compaction to CompactionFilter::Context * Added "virtual void WaitForJoin()" in class Env. Default operation is no-op. * Removed BackupEngine::DeleteBackupsNewerThan() function * Added new option -- verify_checksums_in_compaction * Changed Options.prefix_extractor from raw pointer to shared_ptr (take ownership) Changed HashSkipListRepFactory and HashLinkListRepFactory constructor to not take SliceTransform object (use Options.prefix_extractor implicitly) * Added Env::GetThreadPoolQueueLen(), which returns the waiting queue length of thread pools * Added a command "checkconsistency" in ldb tool, which checks if file system state matches DB state (file existence and file sizes) * Separate options related to block based table to a new struct BlockBasedTableOptions. * WriteBatch has a new function Count() to return total size in the batch, and Data() now returns a reference instead of a copy * Add more counters to perf context. * Supports several more DB properties: compaction-pending, background-errors and cur-size-active-mem-table. ### New Features * If we find one truncated record at the end of the MANIFEST or WAL files, we will ignore it. We assume that writers of these records were interrupted and that we can safely ignore it. * A new SST format "PlainTable" is added, which is optimized for memory-only workloads. It can be created through NewPlainTableFactory() or NewTotalOrderPlainTableFactory(). * A new mem table implementation hash linked list optimizing for the case that there are only few keys for each prefix, which can be created through NewHashLinkListRepFactory(). * Merge operator supports a new function PartialMergeMulti() to allow users to do partial merges against multiple operands. * Now compaction filter has a V2 interface. It buffers the kv-pairs sharing the same key prefix, process them in batches, and return the batched results back to DB. The new interface uses a new structure CompactionFilterContext for the same purpose as CompactionFilter::Context in V1. * Geo-spatial support for locations and radial-search. ## 2.7.0 (01/28/2014) ### Public API changes * Renamed `StackableDB::GetRawDB()` to `StackableDB::GetBaseDB()`. * Renamed `WriteBatch::Data()` `const std::string& Data() const`. * Renamed class `TableStats` to `TableProperties`. * Deleted class `PrefixHashRepFactory`. Please use `NewHashSkipListRepFactory()` instead. * Supported multi-threaded `EnableFileDeletions()` and `DisableFileDeletions()`. * Added `DB::GetOptions()`. * Added `DB::GetDbIdentity()`. ### New Features * Added [BackupableDB](https://github.com/facebook/rocksdb/wiki/How-to-backup-RocksDB%3F) * Implemented [TailingIterator](https://github.com/facebook/rocksdb/wiki/Tailing-Iterator), a special type of iterator that doesn't create a snapshot (can be used to read newly inserted data) and is optimized for doing sequential reads. * Added property block for table, which allows (1) a table to store its metadata and (2) end user to collect and store properties they are interested in. * Enabled caching index and filter block in block cache (turned off by default). * Supported error report when doing manual compaction. * Supported additional Linux platform flavors and Mac OS. * Put with `SliceParts` - Variant of `Put()` that gathers output like `writev(2)` * Bug fixes and code refactor for compatibility with upcoming Column Family feature. ### Performance Improvements * Huge benchmark performance improvements by multiple efforts. For example, increase in readonly QPS from about 530k in 2.6 release to 1.1 million in 2.7 [1] * Speeding up a way RocksDB deleted obsolete files - no longer listing the whole directory under a lock -- decrease in p99 * Use raw pointer instead of shared pointer for statistics: [5b825d](https://github.com/facebook/rocksdb/commit/5b825d6964e26ec3b4bb6faa708ebb1787f1d7bd) -- huge increase in performance -- shared pointers are slow * Optimized locking for `Get()` -- [1fdb3f](https://github.com/facebook/rocksdb/commit/1fdb3f7dc60e96394e3e5b69a46ede5d67fb976c) -- 1.5x QPS increase for some workloads * Cache speedup - [e8d40c3](https://github.com/facebook/rocksdb/commit/e8d40c31b3cca0c3e1ae9abe9b9003b1288026a9) * Implemented autovector, which allocates first N elements on stack. Most of vectors in RocksDB are small. Also, we never want to allocate heap objects while holding a mutex. -- [c01676e4](https://github.com/facebook/rocksdb/commit/c01676e46d3be08c3c140361ef1f5884f47d3b3c) * Lots of efforts to move malloc, memcpy and IO outside of locks rocksdb-5.17.2/INSTALL.md000066400000000000000000000166601337235545400147110ustar00rootroot00000000000000## Compilation **Important**: If you plan to run RocksDB in production, don't compile using default `make` or `make all`. That will compile RocksDB in debug mode, which is much slower than release mode. RocksDB's library should be able to compile without any dependency installed, although we recommend installing some compression libraries (see below). We do depend on newer gcc/clang with C++11 support. There are few options when compiling RocksDB: * [recommended] `make static_lib` will compile librocksdb.a, RocksDB static library. Compiles static library in release mode. * `make shared_lib` will compile librocksdb.so, RocksDB shared library. Compiles shared library in release mode. * `make check` will compile and run all the unit tests. `make check` will compile RocksDB in debug mode. * `make all` will compile our static library, and all our tools and unit tests. Our tools depend on gflags. You will need to have gflags installed to run `make all`. This will compile RocksDB in debug mode. Don't use binaries compiled by `make all` in production. * By default the binary we produce is optimized for the platform you're compiling on (`-march=native` or the equivalent). SSE4.2 will thus be enabled automatically if your CPU supports it. To print a warning if your CPU does not support SSE4.2, build with `USE_SSE=1 make static_lib` or, if using CMake, `cmake -DFORCE_SSE42=ON`. If you want to build a portable binary, add `PORTABLE=1` before your make commands, like this: `PORTABLE=1 make static_lib`. ## Dependencies * You can link RocksDB with following compression libraries: - [zlib](http://www.zlib.net/) - a library for data compression. - [bzip2](http://www.bzip.org/) - a library for data compression. - [lz4](https://github.com/lz4/lz4) - a library for extremely fast data compression. - [snappy](http://google.github.io/snappy/) - a library for fast data compression. - [zstandard](http://www.zstd.net) - Fast real-time compression algorithm. * All our tools depend on: - [gflags](https://gflags.github.io/gflags/) - a library that handles command line flags processing. You can compile rocksdb library even if you don't have gflags installed. ## Supported platforms * **Linux - Ubuntu** * Upgrade your gcc to version at least 4.8 to get C++11 support. * Install gflags. First, try: `sudo apt-get install libgflags-dev` If this doesn't work and you're using Ubuntu, here's a nice tutorial: (http://askubuntu.com/questions/312173/installing-gflags-12-04) * Install snappy. This is usually as easy as: `sudo apt-get install libsnappy-dev`. * Install zlib. Try: `sudo apt-get install zlib1g-dev`. * Install bzip2: `sudo apt-get install libbz2-dev`. * Install lz4: `sudo apt-get install liblz4-dev`. * Install zstandard: `sudo apt-get install libzstd-dev`. * **Linux - CentOS / RHEL** * Upgrade your gcc to version at least 4.8 to get C++11 support: `yum install gcc48-c++` * Install gflags: git clone https://github.com/gflags/gflags.git cd gflags git checkout v2.0 ./configure && make && sudo make install **Notice**: Once installed, please add the include path for gflags to your `CPATH` environment variable and the lib path to `LIBRARY_PATH`. If installed with default settings, the include path will be `/usr/local/include` and the lib path will be `/usr/local/lib`. * Install snappy: sudo yum install snappy snappy-devel * Install zlib: sudo yum install zlib zlib-devel * Install bzip2: sudo yum install bzip2 bzip2-devel * Install lz4: sudo yum install lz4-devel * Install ASAN (optional for debugging): sudo yum install libasan * Install zstandard: wget https://github.com/facebook/zstd/archive/v1.1.3.tar.gz mv v1.1.3.tar.gz zstd-1.1.3.tar.gz tar zxvf zstd-1.1.3.tar.gz cd zstd-1.1.3 make && sudo make install * **OS X**: * Install latest C++ compiler that supports C++ 11: * Update XCode: run `xcode-select --install` (or install it from XCode App's settting). * Install via [homebrew](http://brew.sh/). * If you're first time developer in MacOS, you still need to run: `xcode-select --install` in your command line. * run `brew tap homebrew/versions; brew install gcc48 --use-llvm` to install gcc 4.8 (or higher). * run `brew install rocksdb` * **FreeBSD** (11.01): * You can either install RocksDB from the Ports system using `cd /usr/ports/databases/rocksdb && make install`, or you can follow the details below to install dependencies and compile from source code: * Install the dependencies for RocksDB: export BATCH=YES cd /usr/ports/devel/gmake && make install cd /usr/ports/devel/gflags && make install cd /usr/ports/archivers/snappy && make install cd /usr/ports/archivers/bzip2 && make install cd /usr/ports/archivers/liblz4 && make install cd /usr/ports/archivesrs/zstd && make install cd /usr/ports/devel/git && make install * Install the dependencies for RocksJava (optional): export BATCH=yes cd /usr/ports/java/openjdk7 && make install * Build RocksDB from source: cd ~ git clone https://github.com/facebook/rocksdb.git cd rocksdb gmake static_lib * Build RocksJava from source (optional): cd rocksdb export JAVA_HOME=/usr/local/openjdk7 gmake rocksdbjava * **OpenBSD** (6.3/-current): * As RocksDB is not available in the ports yet you have to build it on your own: * Install the dependencies for RocksDB: pkg_add gmake gflags snappy bzip2 lz4 zstd git jdk bash findutils gnuwatch * Build RocksDB from source: cd ~ git clone https://github.com/facebook/rocksdb.git cd rocksdb gmake static_lib * Build RocksJava from source (optional): cd rocksdb export JAVA_HOME=/usr/local/jdk-1.8.0 export PATH=$PATH:/usr/local/jdk-1.8.0/bin gmake rocksdbjava * **iOS**: * Run: `TARGET_OS=IOS make static_lib`. When building the project which uses rocksdb iOS library, make sure to define two important pre-processing macros: `ROCKSDB_LITE` and `IOS_CROSS_COMPILE`. * **Windows**: * For building with MS Visual Studio 13 you will need Update 4 installed. * Read and follow the instructions at CMakeLists.txt * Or install via [vcpkg](https://github.com/microsoft/vcpkg) * run `vcpkg install rocksdb:x64-windows` * **AIX 6.1** * Install AIX Toolbox rpms with gcc * Use these environment variables: export PORTABLE=1 export CC=gcc export AR="ar -X64" export EXTRA_ARFLAGS=-X64 export EXTRA_CFLAGS=-maix64 export EXTRA_CXXFLAGS=-maix64 export PLATFORM_LDFLAGS="-static-libstdc++ -static-libgcc" export LIBPATH=/opt/freeware/lib export JAVA_HOME=/usr/java8_64 export PATH=/opt/freeware/bin:$PATH * **Solaris Sparc** * Install GCC 4.8.2 and higher. * Use these environment variables: export CC=gcc export EXTRA_CFLAGS=-m64 export EXTRA_CXXFLAGS=-m64 export EXTRA_LDFLAGS=-m64 export PORTABLE=1 export PLATFORM_LDFLAGS="-static-libstdc++ -static-libgcc" rocksdb-5.17.2/LANGUAGE-BINDINGS.md000066400000000000000000000021141337235545400161460ustar00rootroot00000000000000This is the list of all known third-party language bindings for RocksDB. If something is missing, please open a pull request to add it. * Java - https://github.com/facebook/rocksdb/tree/master/java * Python - http://pyrocksdb.readthedocs.org/en/latest/ * Perl - https://metacpan.org/pod/RocksDB * Node.js - https://npmjs.org/package/rocksdb * Go - https://github.com/tecbot/gorocksdb * Ruby - http://rubygems.org/gems/rocksdb-ruby * Haskell - https://hackage.haskell.org/package/rocksdb-haskell * PHP - https://github.com/Photonios/rocksdb-php * C# - https://github.com/warrenfalk/rocksdb-sharp * Rust * https://github.com/pingcap/rust-rocksdb (used in production fork of https://github.com/spacejam/rust-rocksdb) * https://github.com/spacejam/rust-rocksdb * https://github.com/bh1xuw/rust-rocks * D programming language - https://github.com/b1naryth1ef/rocksdb * Erlang - https://gitlab.com/barrel-db/erlang-rocksdb * Elixir - https://github.com/urbint/rox * Nim - https://github.com/status-im/nim-rocksdb * Swift and Objective-C (iOS/OSX) - https://github.com/iabudiab/ObjectiveRocks rocksdb-5.17.2/LICENSE.Apache000066400000000000000000000261361337235545400154450ustar00rootroot00000000000000 Apache License Version 2.0, January 2004 http://www.apache.org/licenses/ TERMS AND CONDITIONS FOR USE, REPRODUCTION, AND DISTRIBUTION 1. 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While redistributing the Work or Derivative Works thereof, You may choose to offer, and charge a fee for, acceptance of support, warranty, indemnity, or other liability obligations and/or rights consistent with this License. However, in accepting such obligations, You may act only on Your own behalf and on Your sole responsibility, not on behalf of any other Contributor, and only if You agree to indemnify, defend, and hold each Contributor harmless for any liability incurred by, or claims asserted against, such Contributor by reason of your accepting any such warranty or additional liability. END OF TERMS AND CONDITIONS APPENDIX: How to apply the Apache License to your work. To apply the Apache License to your work, attach the following boilerplate notice, with the fields enclosed by brackets "[]" replaced with your own identifying information. (Don't include the brackets!) The text should be enclosed in the appropriate comment syntax for the file format. We also recommend that a file or class name and description of purpose be included on the same "printed page" as the copyright notice for easier identification within third-party archives. Copyright [yyyy] [name of copyright owner] Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. rocksdb-5.17.2/LICENSE.leveldb000066400000000000000000000030441337235545400156720ustar00rootroot00000000000000This contains code that is from LevelDB, and that code is under the following license: Copyright (c) 2011 The LevelDB Authors. All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: * Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. * Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. * Neither the name of Google Inc. nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. rocksdb-5.17.2/Makefile000066400000000000000000002036231337235545400147160ustar00rootroot00000000000000# Copyright (c) 2011 The LevelDB Authors. All rights reserved. # Use of this source code is governed by a BSD-style license that can be # found in the LICENSE file. See the AUTHORS file for names of contributors. # Inherit some settings from environment variables, if available #----------------------------------------------- BASH_EXISTS := $(shell which bash) SHELL := $(shell which bash) CLEAN_FILES = # deliberately empty, so we can append below. CFLAGS += ${EXTRA_CFLAGS} CXXFLAGS += ${EXTRA_CXXFLAGS} LDFLAGS += $(EXTRA_LDFLAGS) MACHINE ?= $(shell uname -m) ARFLAGS = ${EXTRA_ARFLAGS} rs STRIPFLAGS = -S -x # Transform parallel LOG output into something more readable. perl_command = perl -n \ -e '@a=split("\t",$$_,-1); $$t=$$a[8];' \ -e '$$t =~ /.*if\s\[\[\s"(.*?\.[\w\/]+)/ and $$t=$$1;' \ -e '$$t =~ s,^\./,,;' \ -e '$$t =~ s, >.*,,; chomp $$t;' \ -e '$$t =~ /.*--gtest_filter=(.*?\.[\w\/]+)/ and $$t=$$1;' \ -e 'printf "%7.3f %s %s\n", $$a[3], $$a[6] == 0 ? "PASS" : "FAIL", $$t' quoted_perl_command = $(subst ','\'',$(perl_command)) # DEBUG_LEVEL can have three values: # * DEBUG_LEVEL=2; this is the ultimate debug mode. It will compile rocksdb # without any optimizations. To compile with level 2, issue `make dbg` # * DEBUG_LEVEL=1; debug level 1 enables all assertions and debug code, but # compiles rocksdb with -O2 optimizations. this is the default debug level. # `make all` or `make ` compile RocksDB with debug level 1. # We use this debug level when developing RocksDB. # * DEBUG_LEVEL=0; this is the debug level we use for release. If you're # running rocksdb in production you most definitely want to compile RocksDB # with debug level 0. To compile with level 0, run `make shared_lib`, # `make install-shared`, `make static_lib`, `make install-static` or # `make install` # Set the default DEBUG_LEVEL to 1 DEBUG_LEVEL?=1 ifeq ($(MAKECMDGOALS),dbg) DEBUG_LEVEL=2 endif ifeq ($(MAKECMDGOALS),clean) DEBUG_LEVEL=0 endif ifeq ($(MAKECMDGOALS),release) DEBUG_LEVEL=0 endif ifeq ($(MAKECMDGOALS),shared_lib) DEBUG_LEVEL=0 endif ifeq ($(MAKECMDGOALS),install-shared) DEBUG_LEVEL=0 endif ifeq ($(MAKECMDGOALS),static_lib) DEBUG_LEVEL=0 endif ifeq ($(MAKECMDGOALS),install-static) DEBUG_LEVEL=0 endif ifeq ($(MAKECMDGOALS),install) DEBUG_LEVEL=0 endif ifeq ($(MAKECMDGOALS),rocksdbjavastatic) ifneq ($(DEBUG_LEVEL),2) DEBUG_LEVEL=0 endif endif ifeq ($(MAKECMDGOALS),rocksdbjavastaticrelease) DEBUG_LEVEL=0 endif ifeq ($(MAKECMDGOALS),rocksdbjavastaticreleasedocker) DEBUG_LEVEL=0 endif ifeq ($(MAKECMDGOALS),rocksdbjavastaticpublish) DEBUG_LEVEL=0 endif # compile with -O2 if debug level is not 2 ifneq ($(DEBUG_LEVEL), 2) OPT += -O2 -fno-omit-frame-pointer # Skip for archs that don't support -momit-leaf-frame-pointer ifeq (,$(shell $(CXX) -fsyntax-only -momit-leaf-frame-pointer -xc /dev/null 2>&1)) OPT += -momit-leaf-frame-pointer endif endif ifeq (,$(shell $(CXX) -fsyntax-only -faligned-new -xc++ /dev/null 2>&1)) CXXFLAGS += -faligned-new -DHAVE_ALIGNED_NEW endif ifeq (,$(shell $(CXX) -fsyntax-only -maltivec -xc /dev/null 2>&1)) CXXFLAGS += -DHAS_ALTIVEC CFLAGS += -DHAS_ALTIVEC HAS_ALTIVEC=1 endif ifeq (,$(shell $(CXX) -fsyntax-only -mcpu=power8 -xc /dev/null 2>&1)) CXXFLAGS += -DHAVE_POWER8 CFLAGS += -DHAVE_POWER8 HAVE_POWER8=1 endif # if we're compiling for release, compile without debug code (-DNDEBUG) ifeq ($(DEBUG_LEVEL),0) OPT += -DNDEBUG ifneq ($(USE_RTTI), 1) CXXFLAGS += -fno-rtti else CXXFLAGS += -DROCKSDB_USE_RTTI endif else ifneq ($(USE_RTTI), 0) CXXFLAGS += -DROCKSDB_USE_RTTI else CXXFLAGS += -fno-rtti endif $(warning Warning: Compiling in debug mode. Don't use the resulting binary in production) endif #----------------------------------------------- include src.mk AM_DEFAULT_VERBOSITY = 0 AM_V_GEN = $(am__v_GEN_$(V)) am__v_GEN_ = $(am__v_GEN_$(AM_DEFAULT_VERBOSITY)) am__v_GEN_0 = @echo " GEN " $@; am__v_GEN_1 = AM_V_at = $(am__v_at_$(V)) am__v_at_ = $(am__v_at_$(AM_DEFAULT_VERBOSITY)) am__v_at_0 = @ am__v_at_1 = AM_V_CC = $(am__v_CC_$(V)) am__v_CC_ = $(am__v_CC_$(AM_DEFAULT_VERBOSITY)) am__v_CC_0 = @echo " CC " $@; am__v_CC_1 = CCLD = $(CC) LINK = $(CCLD) $(AM_CFLAGS) $(CFLAGS) $(AM_LDFLAGS) $(LDFLAGS) -o $@ AM_V_CCLD = $(am__v_CCLD_$(V)) am__v_CCLD_ = $(am__v_CCLD_$(AM_DEFAULT_VERBOSITY)) am__v_CCLD_0 = @echo " CCLD " $@; am__v_CCLD_1 = AM_V_AR = $(am__v_AR_$(V)) am__v_AR_ = $(am__v_AR_$(AM_DEFAULT_VERBOSITY)) am__v_AR_0 = @echo " AR " $@; am__v_AR_1 = ifdef ROCKSDB_USE_LIBRADOS LIB_SOURCES += utilities/env_librados.cc LDFLAGS += -lrados endif AM_LINK = $(AM_V_CCLD)$(CXX) $^ $(EXEC_LDFLAGS) -o $@ $(LDFLAGS) $(COVERAGEFLAGS) # detect what platform we're building on dummy := $(shell (export ROCKSDB_ROOT="$(CURDIR)"; export PORTABLE="$(PORTABLE)"; "$(CURDIR)/build_tools/build_detect_platform" "$(CURDIR)/make_config.mk")) # this file is generated by the previous line to set build flags and sources include make_config.mk CLEAN_FILES += make_config.mk missing_make_config_paths := $(shell \ grep "\/\S*" -o $(CURDIR)/make_config.mk | \ while read path; \ do [ -e $$path ] || echo $$path; \ done | sort | uniq) $(foreach path, $(missing_make_config_paths), \ $(warning Warning: $(path) dont exist)) ifeq ($(PLATFORM), OS_AIX) # no debug info else ifneq ($(PLATFORM), IOS) CFLAGS += -g CXXFLAGS += -g else # no debug info for IOS, that will make our library big OPT += -DNDEBUG endif ifeq ($(PLATFORM), OS_AIX) ARFLAGS = -X64 rs STRIPFLAGS = -X64 -x endif ifeq ($(PLATFORM), OS_SOLARIS) PLATFORM_CXXFLAGS += -D _GLIBCXX_USE_C99 endif ifneq ($(filter -DROCKSDB_LITE,$(OPT)),) # found CFLAGS += -fno-exceptions CXXFLAGS += -fno-exceptions # LUA is not supported under ROCKSDB_LITE LUA_PATH = endif # ASAN doesn't work well with jemalloc. If we're compiling with ASAN, we should use regular malloc. ifdef COMPILE_WITH_ASAN DISABLE_JEMALLOC=1 EXEC_LDFLAGS += -fsanitize=address PLATFORM_CCFLAGS += -fsanitize=address PLATFORM_CXXFLAGS += -fsanitize=address endif # TSAN doesn't work well with jemalloc. If we're compiling with TSAN, we should use regular malloc. ifdef COMPILE_WITH_TSAN DISABLE_JEMALLOC=1 EXEC_LDFLAGS += -fsanitize=thread PLATFORM_CCFLAGS += -fsanitize=thread -fPIC PLATFORM_CXXFLAGS += -fsanitize=thread -fPIC # Turn off -pg when enabling TSAN testing, because that induces # a link failure. TODO: find the root cause PROFILING_FLAGS = # LUA is not supported under TSAN LUA_PATH = # Limit keys for crash test under TSAN to avoid error: # "ThreadSanitizer: DenseSlabAllocator overflow. Dying." CRASH_TEST_EXT_ARGS += --max_key=1000000 endif # AIX doesn't work with -pg ifeq ($(PLATFORM), OS_AIX) PROFILING_FLAGS = endif # USAN doesn't work well with jemalloc. If we're compiling with USAN, we should use regular malloc. ifdef COMPILE_WITH_UBSAN DISABLE_JEMALLOC=1 # Suppress alignment warning because murmurhash relies on casting unaligned # memory to integer. Fixing it may cause performance regression. 3-way crc32 # relies on it too, although it can be rewritten to eliminate with minimal # performance regression. EXEC_LDFLAGS += -fsanitize=undefined -fno-sanitize-recover=all PLATFORM_CCFLAGS += -fsanitize=undefined -fno-sanitize-recover=all -DROCKSDB_UBSAN_RUN PLATFORM_CXXFLAGS += -fsanitize=undefined -fno-sanitize-recover=all -DROCKSDB_UBSAN_RUN endif ifdef ROCKSDB_VALGRIND_RUN PLATFORM_CCFLAGS += -DROCKSDB_VALGRIND_RUN PLATFORM_CXXFLAGS += -DROCKSDB_VALGRIND_RUN endif ifndef DISABLE_JEMALLOC ifdef JEMALLOC PLATFORM_CXXFLAGS += -DROCKSDB_JEMALLOC -DJEMALLOC_NO_DEMANGLE PLATFORM_CCFLAGS += -DROCKSDB_JEMALLOC -DJEMALLOC_NO_DEMANGLE endif ifdef WITH_JEMALLOC_FLAG PLATFORM_LDFLAGS += -ljemalloc JAVA_LDFLAGS += -ljemalloc endif EXEC_LDFLAGS := $(JEMALLOC_LIB) $(EXEC_LDFLAGS) PLATFORM_CXXFLAGS += $(JEMALLOC_INCLUDE) PLATFORM_CCFLAGS += $(JEMALLOC_INCLUDE) endif export GTEST_THROW_ON_FAILURE=1 export GTEST_HAS_EXCEPTIONS=1 GTEST_DIR = ./third-party/gtest-1.7.0/fused-src # AIX: pre-defined system headers are surrounded by an extern "C" block ifeq ($(PLATFORM), OS_AIX) PLATFORM_CCFLAGS += -I$(GTEST_DIR) PLATFORM_CXXFLAGS += -I$(GTEST_DIR) else PLATFORM_CCFLAGS += -isystem $(GTEST_DIR) PLATFORM_CXXFLAGS += -isystem $(GTEST_DIR) endif # This (the first rule) must depend on "all". default: all WARNING_FLAGS = -W -Wextra -Wall -Wsign-compare -Wshadow \ -Wunused-parameter ifeq ($(PLATFORM), OS_OPENBSD) WARNING_FLAGS += -Wno-unused-lambda-capture endif ifndef DISABLE_WARNING_AS_ERROR WARNING_FLAGS += -Werror endif ifdef LUA_PATH ifndef LUA_INCLUDE LUA_INCLUDE=$(LUA_PATH)/include endif LUA_INCLUDE_FILE=$(LUA_INCLUDE)/lualib.h ifeq ("$(wildcard $(LUA_INCLUDE_FILE))", "") # LUA_INCLUDE_FILE does not exist $(error Cannot find lualib.h under $(LUA_INCLUDE). Try to specify both LUA_PATH and LUA_INCLUDE manually) endif LUA_FLAGS = -I$(LUA_INCLUDE) -DLUA -DLUA_COMPAT_ALL CFLAGS += $(LUA_FLAGS) CXXFLAGS += $(LUA_FLAGS) ifndef LUA_LIB LUA_LIB = $(LUA_PATH)/lib/liblua.a endif ifeq ("$(wildcard $(LUA_LIB))", "") # LUA_LIB does not exist $(error $(LUA_LIB) does not exist. Try to specify both LUA_PATH and LUA_LIB manually) endif LDFLAGS += $(LUA_LIB) endif ifeq ($(NO_THREEWAY_CRC32C), 1) CXXFLAGS += -DNO_THREEWAY_CRC32C endif CFLAGS += $(WARNING_FLAGS) -I. -I./include $(PLATFORM_CCFLAGS) $(OPT) CXXFLAGS += $(WARNING_FLAGS) -I. -I./include $(PLATFORM_CXXFLAGS) $(OPT) -Woverloaded-virtual -Wnon-virtual-dtor -Wno-missing-field-initializers LDFLAGS += $(PLATFORM_LDFLAGS) # If NO_UPDATE_BUILD_VERSION is set we don't update util/build_version.cc, but # the file needs to already exist or else the build will fail ifndef NO_UPDATE_BUILD_VERSION date := $(shell date +%F) ifdef FORCE_GIT_SHA git_sha := $(FORCE_GIT_SHA) else git_sha := $(shell git rev-parse HEAD 2>/dev/null) endif gen_build_version = sed -e s/@@GIT_SHA@@/$(git_sha)/ -e s/@@GIT_DATE_TIME@@/$(date)/ util/build_version.cc.in # Record the version of the source that we are compiling. # We keep a record of the git revision in this file. It is then built # as a regular source file as part of the compilation process. # One can run "strings executable_filename | grep _build_" to find # the version of the source that we used to build the executable file. FORCE: util/build_version.cc: FORCE $(AM_V_GEN)rm -f $@-t $(AM_V_at)$(gen_build_version) > $@-t $(AM_V_at)if test -f $@; then \ cmp -s $@-t $@ && rm -f $@-t || mv -f $@-t $@; \ else mv -f $@-t $@; fi endif LIBOBJECTS = $(LIB_SOURCES:.cc=.o) ifeq ($(HAVE_POWER8),1) LIB_CC_OBJECTS = $(LIB_SOURCES:.cc=.o) LIBOBJECTS += $(LIB_SOURCES_C:.c=.o) LIBOBJECTS += $(LIB_SOURCES_ASM:.S=.o) else LIB_CC_OBJECTS = $(LIB_SOURCES:.cc=.o) endif LIBOBJECTS += $(TOOL_LIB_SOURCES:.cc=.o) MOCKOBJECTS = $(MOCK_LIB_SOURCES:.cc=.o) GTEST = $(GTEST_DIR)/gtest/gtest-all.o TESTUTIL = ./util/testutil.o TESTHARNESS = ./util/testharness.o $(TESTUTIL) $(MOCKOBJECTS) $(GTEST) VALGRIND_ERROR = 2 VALGRIND_VER := $(join $(VALGRIND_VER),valgrind) VALGRIND_OPTS = --error-exitcode=$(VALGRIND_ERROR) --leak-check=full BENCHTOOLOBJECTS = $(BENCH_LIB_SOURCES:.cc=.o) $(LIBOBJECTS) $(TESTUTIL) ANALYZETOOLOBJECTS = $(ANALYZER_LIB_SOURCES:.cc=.o) EXPOBJECTS = $(EXP_LIB_SOURCES:.cc=.o) $(LIBOBJECTS) $(TESTUTIL) TESTS = \ db_basic_test \ db_encryption_test \ db_test2 \ external_sst_file_basic_test \ auto_roll_logger_test \ bloom_test \ dynamic_bloom_test \ c_test \ checkpoint_test \ crc32c_test \ coding_test \ inlineskiplist_test \ env_basic_test \ env_test \ hash_test \ thread_local_test \ rate_limiter_test \ perf_context_test \ iostats_context_test \ db_wal_test \ db_block_cache_test \ db_test \ db_blob_index_test \ db_bloom_filter_test \ db_iter_test \ db_iter_stress_test \ db_log_iter_test \ db_compaction_filter_test \ db_compaction_test \ db_dynamic_level_test \ db_flush_test \ db_inplace_update_test \ db_iterator_test \ db_memtable_test \ db_merge_operator_test \ db_options_test \ db_range_del_test \ db_sst_test \ db_tailing_iter_test \ db_io_failure_test \ db_properties_test \ db_table_properties_test \ db_statistics_test \ db_write_test \ error_handler_test \ autovector_test \ blob_db_test \ cleanable_test \ column_family_test \ table_properties_collector_test \ arena_test \ block_test \ data_block_hash_index_test \ cache_test \ corruption_test \ slice_transform_test \ dbformat_test \ fault_injection_test \ filelock_test \ filename_test \ file_reader_writer_test \ block_based_filter_block_test \ full_filter_block_test \ partitioned_filter_block_test \ hash_table_test \ histogram_test \ log_test \ manual_compaction_test \ mock_env_test \ memtable_list_test \ merge_helper_test \ memory_test \ merge_test \ merger_test \ util_merge_operators_test \ options_file_test \ redis_test \ reduce_levels_test \ plain_table_db_test \ comparator_db_test \ external_sst_file_test \ prefix_test \ skiplist_test \ write_buffer_manager_test \ stringappend_test \ cassandra_format_test \ cassandra_functional_test \ cassandra_row_merge_test \ cassandra_serialize_test \ ttl_test \ date_tiered_test \ backupable_db_test \ document_db_test \ json_document_test \ sim_cache_test \ spatial_db_test \ version_edit_test \ version_set_test \ compaction_picker_test \ version_builder_test \ file_indexer_test \ write_batch_test \ write_batch_with_index_test \ write_controller_test\ deletefile_test \ obsolete_files_test \ table_test \ geodb_test \ delete_scheduler_test \ options_test \ options_settable_test \ options_util_test \ event_logger_test \ timer_queue_test \ cuckoo_table_builder_test \ cuckoo_table_reader_test \ cuckoo_table_db_test \ flush_job_test \ wal_manager_test \ listener_test \ compaction_iterator_test \ compaction_job_test \ thread_list_test \ sst_dump_test \ column_aware_encoding_test \ compact_files_test \ optimistic_transaction_test \ write_callback_test \ heap_test \ compact_on_deletion_collector_test \ compaction_job_stats_test \ option_change_migration_test \ transaction_test \ ldb_cmd_test \ persistent_cache_test \ statistics_test \ lua_test \ range_del_aggregator_test \ lru_cache_test \ object_registry_test \ repair_test \ env_timed_test \ write_prepared_transaction_test \ write_unprepared_transaction_test \ db_universal_compaction_test \ trace_analyzer_test \ repeatable_thread_test \ PARALLEL_TEST = \ backupable_db_test \ db_compaction_filter_test \ db_compaction_test \ db_merge_operator_test \ db_sst_test \ db_test \ db_universal_compaction_test \ db_wal_test \ external_sst_file_test \ fault_injection_test \ inlineskiplist_test \ manual_compaction_test \ persistent_cache_test \ table_test \ transaction_test \ write_prepared_transaction_test \ write_unprepared_transaction_test \ # options_settable_test doesn't pass with UBSAN as we use hack in the test ifdef COMPILE_WITH_UBSAN TESTS := $(shell echo $(TESTS) | sed 's/\boptions_settable_test\b//g') endif SUBSET := $(TESTS) ifdef ROCKSDBTESTS_START SUBSET := $(shell echo $(SUBSET) | sed 's/^.*$(ROCKSDBTESTS_START)/$(ROCKSDBTESTS_START)/') endif ifdef ROCKSDBTESTS_END SUBSET := $(shell echo $(SUBSET) | sed 's/$(ROCKSDBTESTS_END).*//') endif TOOLS = \ sst_dump \ db_sanity_test \ db_stress \ write_stress \ ldb \ db_repl_stress \ rocksdb_dump \ rocksdb_undump \ blob_dump \ trace_analyzer \ TEST_LIBS = \ librocksdb_env_basic_test.a # TODO: add back forward_iterator_bench, after making it build in all environemnts. BENCHMARKS = db_bench table_reader_bench cache_bench memtablerep_bench column_aware_encoding_exp persistent_cache_bench range_del_aggregator_bench # if user didn't config LIBNAME, set the default ifeq ($(LIBNAME),) # we should only run rocksdb in production with DEBUG_LEVEL 0 ifeq ($(DEBUG_LEVEL),0) LIBNAME=librocksdb else LIBNAME=librocksdb_debug endif endif LIBRARY = ${LIBNAME}.a TOOLS_LIBRARY = ${LIBNAME}_tools.a ROCKSDB_MAJOR = $(shell egrep "ROCKSDB_MAJOR.[0-9]" include/rocksdb/version.h | cut -d ' ' -f 3) ROCKSDB_MINOR = $(shell egrep "ROCKSDB_MINOR.[0-9]" include/rocksdb/version.h | cut -d ' ' -f 3) ROCKSDB_PATCH = $(shell egrep "ROCKSDB_PATCH.[0-9]" include/rocksdb/version.h | cut -d ' ' -f 3) default: all #----------------------------------------------- # Create platform independent shared libraries. #----------------------------------------------- ifneq ($(PLATFORM_SHARED_EXT),) ifneq ($(PLATFORM_SHARED_VERSIONED),true) SHARED1 = ${LIBNAME}.$(PLATFORM_SHARED_EXT) SHARED2 = $(SHARED1) SHARED3 = $(SHARED1) SHARED4 = $(SHARED1) SHARED = $(SHARED1) else SHARED_MAJOR = $(ROCKSDB_MAJOR) SHARED_MINOR = $(ROCKSDB_MINOR) SHARED_PATCH = $(ROCKSDB_PATCH) SHARED1 = ${LIBNAME}.$(PLATFORM_SHARED_EXT) ifeq ($(PLATFORM), OS_MACOSX) SHARED_OSX = $(LIBNAME).$(SHARED_MAJOR) SHARED2 = $(SHARED_OSX).$(PLATFORM_SHARED_EXT) SHARED3 = $(SHARED_OSX).$(SHARED_MINOR).$(PLATFORM_SHARED_EXT) SHARED4 = $(SHARED_OSX).$(SHARED_MINOR).$(SHARED_PATCH).$(PLATFORM_SHARED_EXT) else SHARED2 = $(SHARED1).$(SHARED_MAJOR) SHARED3 = $(SHARED1).$(SHARED_MAJOR).$(SHARED_MINOR) SHARED4 = $(SHARED1).$(SHARED_MAJOR).$(SHARED_MINOR).$(SHARED_PATCH) endif SHARED = $(SHARED1) $(SHARED2) $(SHARED3) $(SHARED4) $(SHARED1): $(SHARED4) ln -fs $(SHARED4) $(SHARED1) $(SHARED2): $(SHARED4) ln -fs $(SHARED4) $(SHARED2) $(SHARED3): $(SHARED4) ln -fs $(SHARED4) $(SHARED3) endif ifeq ($(HAVE_POWER8),1) SHARED_C_OBJECTS = $(LIB_SOURCES_C:.c=.o) SHARED_ASM_OBJECTS = $(LIB_SOURCES_ASM:.S=.o) SHARED_C_LIBOBJECTS = $(patsubst %.o,shared-objects/%.o,$(SHARED_C_OBJECTS)) SHARED_ASM_LIBOBJECTS = $(patsubst %.o,shared-objects/%.o,$(SHARED_ASM_OBJECTS)) shared_libobjects = $(patsubst %,shared-objects/%,$(LIB_CC_OBJECTS)) else shared_libobjects = $(patsubst %,shared-objects/%,$(LIBOBJECTS)) endif CLEAN_FILES += shared-objects shared_all_libobjects = $(shared_libobjects) ifeq ($(HAVE_POWER8),1) shared-ppc-objects = $(SHARED_C_LIBOBJECTS) $(SHARED_ASM_LIBOBJECTS) shared-objects/util/crc32c_ppc.o: util/crc32c_ppc.c $(AM_V_CC)$(CC) $(CFLAGS) -c $< -o $@ shared-objects/util/crc32c_ppc_asm.o: util/crc32c_ppc_asm.S $(AM_V_CC)$(CC) $(CFLAGS) -c $< -o $@ endif $(shared_libobjects): shared-objects/%.o: %.cc $(AM_V_CC)mkdir -p $(@D) && $(CXX) $(CXXFLAGS) $(PLATFORM_SHARED_CFLAGS) -c $< -o $@ ifeq ($(HAVE_POWER8),1) shared_all_libobjects = $(shared_libobjects) $(shared-ppc-objects) endif $(SHARED4): $(shared_all_libobjects) $(CXX) $(PLATFORM_SHARED_LDFLAGS)$(SHARED3) $(CXXFLAGS) $(PLATFORM_SHARED_CFLAGS) $(shared_all_libobjects) $(LDFLAGS) -o $@ endif # PLATFORM_SHARED_EXT .PHONY: blackbox_crash_test check clean coverage crash_test ldb_tests package \ release tags tags0 valgrind_check whitebox_crash_test format static_lib shared_lib all \ dbg rocksdbjavastatic rocksdbjava install install-static install-shared uninstall \ analyze tools tools_lib all: $(LIBRARY) $(BENCHMARKS) tools tools_lib test_libs $(TESTS) all_but_some_tests: $(LIBRARY) $(BENCHMARKS) tools tools_lib test_libs $(SUBSET) static_lib: $(LIBRARY) shared_lib: $(SHARED) tools: $(TOOLS) tools_lib: $(TOOLS_LIBRARY) test_libs: $(TEST_LIBS) dbg: $(LIBRARY) $(BENCHMARKS) tools $(TESTS) # creates static library and programs release: $(MAKE) clean DEBUG_LEVEL=0 $(MAKE) static_lib tools db_bench coverage: $(MAKE) clean COVERAGEFLAGS="-fprofile-arcs -ftest-coverage" LDFLAGS+="-lgcov" $(MAKE) J=1 all check cd coverage && ./coverage_test.sh # Delete intermediate files $(FIND) . -type f -regex ".*\.\(\(gcda\)\|\(gcno\)\)" -exec rm {} \; ifneq (,$(filter check parallel_check,$(MAKECMDGOALS)),) # Use /dev/shm if it has the sticky bit set (otherwise, /tmp), # and create a randomly-named rocksdb.XXXX directory therein. # We'll use that directory in the "make check" rules. ifeq ($(TMPD),) TMPDIR := $(shell echo $${TMPDIR:-/tmp}) TMPD := $(shell f=/dev/shm; test -k $$f || f=$(TMPDIR); \ perl -le 'use File::Temp "tempdir";' \ -e 'print tempdir("'$$f'/rocksdb.XXXX", CLEANUP => 0)') endif endif # Run all tests in parallel, accumulating per-test logs in t/log-*. # # Each t/run-* file is a tiny generated bourne shell script that invokes one of # sub-tests. Why use a file for this? Because that makes the invocation of # parallel below simpler, which in turn makes the parsing of parallel's # LOG simpler (the latter is for live monitoring as parallel # tests run). # # Test names are extracted by running tests with --gtest_list_tests. # This filter removes the "#"-introduced comments, and expands to # fully-qualified names by changing input like this: # # DBTest. # Empty # WriteEmptyBatch # MultiThreaded/MultiThreadedDBTest. # MultiThreaded/0 # GetParam() = 0 # MultiThreaded/1 # GetParam() = 1 # # into this: # # DBTest.Empty # DBTest.WriteEmptyBatch # MultiThreaded/MultiThreadedDBTest.MultiThreaded/0 # MultiThreaded/MultiThreadedDBTest.MultiThreaded/1 # parallel_tests = $(patsubst %,parallel_%,$(PARALLEL_TEST)) .PHONY: gen_parallel_tests $(parallel_tests) $(parallel_tests): $(PARALLEL_TEST) $(AM_V_at)TEST_BINARY=$(patsubst parallel_%,%,$@); \ TEST_NAMES=` \ ./$$TEST_BINARY --gtest_list_tests \ | perl -n \ -e 's/ *\#.*//;' \ -e '/^(\s*)(\S+)/; !$$1 and do {$$p=$$2; break};' \ -e 'print qq! $$p$$2!'`; \ for TEST_NAME in $$TEST_NAMES; do \ TEST_SCRIPT=t/run-$$TEST_BINARY-$${TEST_NAME//\//-}; \ echo " GEN " $$TEST_SCRIPT; \ printf '%s\n' \ '#!/bin/sh' \ "d=\$(TMPD)$$TEST_SCRIPT" \ 'mkdir -p $$d' \ "TEST_TMPDIR=\$$d $(DRIVER) ./$$TEST_BINARY --gtest_filter=$$TEST_NAME" \ > $$TEST_SCRIPT; \ chmod a=rx $$TEST_SCRIPT; \ done gen_parallel_tests: $(AM_V_at)mkdir -p t $(AM_V_at)rm -f t/run-* $(MAKE) $(parallel_tests) # Reorder input lines (which are one per test) so that the # longest-running tests appear first in the output. # Do this by prefixing each selected name with its duration, # sort the resulting names, and remove the leading numbers. # FIXME: the "100" we prepend is a fake time, for now. # FIXME: squirrel away timings from each run and use them # (when present) on subsequent runs to order these tests. # # Without this reordering, these two tests would happen to start only # after almost all other tests had completed, thus adding 100 seconds # to the duration of parallel "make check". That's the difference # between 4 minutes (old) and 2m20s (new). # # 152.120 PASS t/DBTest.FileCreationRandomFailure # 107.816 PASS t/DBTest.EncodeDecompressedBlockSizeTest # slow_test_regexp = \ ^.*SnapshotConcurrentAccessTest.*$$|^t/run-table_test-HarnessTest.Randomized$$|^t/run-db_test-.*(?:FileCreationRandomFailure|EncodeDecompressedBlockSizeTest)$$|^.*RecoverFromCorruptedWALWithoutFlush$$ prioritize_long_running_tests = \ perl -pe 's,($(slow_test_regexp)),100 $$1,' \ | sort -k1,1gr \ | sed 's/^[.0-9]* //' # "make check" uses # Run with "make J=1 check" to disable parallelism in "make check". # Run with "make J=200% check" to run two parallel jobs per core. # The default is to run one job per core (J=100%). # See "man parallel" for its "-j ..." option. J ?= 100% # Use this regexp to select the subset of tests whose names match. tests-regexp = . t_run = $(wildcard t/run-*) .PHONY: check_0 check_0: $(AM_V_GEN)export TEST_TMPDIR=$(TMPD); \ printf '%s\n' '' \ 'To monitor subtest ,' \ ' run "make watch-log" in a separate window' ''; \ test -t 1 && eta=--eta || eta=; \ { \ printf './%s\n' $(filter-out $(PARALLEL_TEST),$(TESTS)); \ printf '%s\n' $(t_run); \ } \ | $(prioritize_long_running_tests) \ | grep -E '$(tests-regexp)' \ | build_tools/gnu_parallel -j$(J) --plain --joblog=LOG $$eta --gnu '{} >& t/log-{/}' valgrind-blacklist-regexp = InlineSkipTest.ConcurrentInsert|TransactionStressTest.DeadlockStress|DBCompactionTest.SuggestCompactRangeNoTwoLevel0Compactions|BackupableDBTest.RateLimiting|DBTest.CloseSpeedup|DBTest.ThreadStatusFlush|DBTest.RateLimitingTest|DBTest.EncodeDecompressedBlockSizeTest|FaultInjectionTest.UninstalledCompaction|HarnessTest.Randomized|ExternalSSTFileTest.CompactDuringAddFileRandom|ExternalSSTFileTest.IngestFileWithGlobalSeqnoRandomized|MySQLStyleTransactionTest.TransactionStressTest .PHONY: valgrind_check_0 valgrind_check_0: $(AM_V_GEN)export TEST_TMPDIR=$(TMPD); \ printf '%s\n' '' \ 'To monitor subtest ,' \ ' run "make watch-log" in a separate window' ''; \ test -t 1 && eta=--eta || eta=; \ { \ printf './%s\n' $(filter-out $(PARALLEL_TEST) %skiplist_test options_settable_test, $(TESTS)); \ printf '%s\n' $(t_run); \ } \ | $(prioritize_long_running_tests) \ | grep -E '$(tests-regexp)' \ | grep -E -v '$(valgrind-blacklist-regexp)' \ | build_tools/gnu_parallel -j$(J) --plain --joblog=LOG $$eta --gnu \ '(if [[ "{}" == "./"* ]] ; then $(DRIVER) {}; else {}; fi) ' \ '>& t/valgrind_log-{/}' CLEAN_FILES += t LOG $(TMPD) # When running parallel "make check", you can monitor its progress # from another window. # Run "make watch_LOG" to show the duration,PASS/FAIL,name of parallel # tests as they are being run. We sort them so that longer-running ones # appear at the top of the list and any failing tests remain at the top # regardless of their duration. As with any use of "watch", hit ^C to # interrupt. watch-log: $(WATCH) --interval=0 'sort -k7,7nr -k4,4gr LOG|$(quoted_perl_command)' # If J != 1 and GNU parallel is installed, run the tests in parallel, # via the check_0 rule above. Otherwise, run them sequentially. check: all $(MAKE) gen_parallel_tests $(AM_V_GEN)if test "$(J)" != 1 \ && (build_tools/gnu_parallel --gnu --help 2>/dev/null) | \ grep -q 'GNU Parallel'; \ then \ $(MAKE) T="$$t" TMPD=$(TMPD) check_0; \ else \ for t in $(TESTS); do \ echo "===== Running $$t"; ./$$t || exit 1; done; \ fi rm -rf $(TMPD) ifneq ($(PLATFORM), OS_AIX) ifeq ($(filter -DROCKSDB_LITE,$(OPT)),) python tools/ldb_test.py sh tools/rocksdb_dump_test.sh endif endif # TODO add ldb_tests check_some: $(SUBSET) for t in $(SUBSET); do echo "===== Running $$t"; ./$$t || exit 1; done .PHONY: ldb_tests ldb_tests: ldb python tools/ldb_test.py crash_test: whitebox_crash_test blackbox_crash_test blackbox_crash_test: db_stress python -u tools/db_crashtest.py --simple blackbox $(CRASH_TEST_EXT_ARGS) python -u tools/db_crashtest.py blackbox $(CRASH_TEST_EXT_ARGS) ifeq ($(CRASH_TEST_KILL_ODD),) CRASH_TEST_KILL_ODD=888887 endif whitebox_crash_test: db_stress python -u tools/db_crashtest.py --simple whitebox --random_kill_odd \ $(CRASH_TEST_KILL_ODD) $(CRASH_TEST_EXT_ARGS) python -u tools/db_crashtest.py whitebox --random_kill_odd \ $(CRASH_TEST_KILL_ODD) $(CRASH_TEST_EXT_ARGS) asan_check: $(MAKE) clean COMPILE_WITH_ASAN=1 $(MAKE) check -j32 $(MAKE) clean asan_crash_test: $(MAKE) clean COMPILE_WITH_ASAN=1 $(MAKE) crash_test $(MAKE) clean ubsan_check: $(MAKE) clean COMPILE_WITH_UBSAN=1 $(MAKE) check -j32 $(MAKE) clean ubsan_crash_test: $(MAKE) clean COMPILE_WITH_UBSAN=1 $(MAKE) crash_test $(MAKE) clean valgrind_test: ROCKSDB_VALGRIND_RUN=1 DISABLE_JEMALLOC=1 $(MAKE) valgrind_check valgrind_check: $(TESTS) $(MAKE) DRIVER="$(VALGRIND_VER) $(VALGRIND_OPTS)" gen_parallel_tests $(AM_V_GEN)if test "$(J)" != 1 \ && (build_tools/gnu_parallel --gnu --help 2>/dev/null) | \ grep -q 'GNU Parallel'; \ then \ $(MAKE) TMPD=$(TMPD) \ DRIVER="$(VALGRIND_VER) $(VALGRIND_OPTS)" valgrind_check_0; \ else \ for t in $(filter-out %skiplist_test options_settable_test,$(TESTS)); do \ $(VALGRIND_VER) $(VALGRIND_OPTS) ./$$t; \ ret_code=$$?; \ if [ $$ret_code -ne 0 ]; then \ exit $$ret_code; \ fi; \ done; \ fi ifneq ($(PAR_TEST),) parloop: ret_bad=0; \ for t in $(PAR_TEST); do \ echo "===== Running $$t in parallel $(NUM_PAR)";\ if [ $(db_test) -eq 1 ]; then \ seq $(J) | v="$$t" build_tools/gnu_parallel --gnu --plain 's=$(TMPD)/rdb-{}; export TEST_TMPDIR=$$s;' \ 'timeout 2m ./db_test --gtest_filter=$$v >> $$s/log-{} 2>1'; \ else\ seq $(J) | v="./$$t" build_tools/gnu_parallel --gnu --plain 's=$(TMPD)/rdb-{};' \ 'export TEST_TMPDIR=$$s; timeout 10m $$v >> $$s/log-{} 2>1'; \ fi; \ ret_code=$$?; \ if [ $$ret_code -ne 0 ]; then \ ret_bad=$$ret_code; \ echo $$t exited with $$ret_code; \ fi; \ done; \ exit $$ret_bad; endif test_names = \ ./db_test --gtest_list_tests \ | perl -n \ -e 's/ *\#.*//;' \ -e '/^(\s*)(\S+)/; !$$1 and do {$$p=$$2; break};' \ -e 'print qq! $$p$$2!' parallel_check: $(TESTS) $(AM_V_GEN)if test "$(J)" > 1 \ && (build_tools/gnu_parallel --gnu --help 2>/dev/null) | \ grep -q 'GNU Parallel'; \ then \ echo Running in parallel $(J); \ else \ echo "Need to have GNU Parallel and J > 1"; exit 1; \ fi; \ ret_bad=0; \ echo $(J);\ echo Test Dir: $(TMPD); \ seq $(J) | build_tools/gnu_parallel --gnu --plain 's=$(TMPD)/rdb-{}; rm -rf $$s; mkdir $$s'; \ $(MAKE) PAR_TEST="$(shell $(test_names))" TMPD=$(TMPD) \ J=$(J) db_test=1 parloop; \ $(MAKE) PAR_TEST="$(filter-out db_test, $(TESTS))" \ TMPD=$(TMPD) J=$(J) db_test=0 parloop; analyze: clean $(CLANG_SCAN_BUILD) --use-analyzer=$(CLANG_ANALYZER) \ --use-c++=$(CXX) --use-cc=$(CC) --status-bugs \ -o $(CURDIR)/scan_build_report \ $(MAKE) dbg CLEAN_FILES += unity.cc unity.cc: Makefile rm -f $@ $@-t for source_file in $(LIB_SOURCES); do \ echo "#include \"$$source_file\"" >> $@-t; \ done chmod a=r $@-t mv $@-t $@ unity.a: unity.o $(AM_V_AR)rm -f $@ $(AM_V_at)$(AR) $(ARFLAGS) $@ unity.o TOOLLIBOBJECTS = $(TOOL_LIB_SOURCES:.cc=.o) # try compiling db_test with unity unity_test: db/db_test.o db/db_test_util.o $(TESTHARNESS) $(TOOLLIBOBJECTS) unity.a $(AM_LINK) ./unity_test rocksdb.h rocksdb.cc: build_tools/amalgamate.py Makefile $(LIB_SOURCES) unity.cc build_tools/amalgamate.py -I. -i./include unity.cc -x include/rocksdb/c.h -H rocksdb.h -o rocksdb.cc clean: rm -f $(BENCHMARKS) $(TOOLS) $(TESTS) $(LIBRARY) $(SHARED) rm -rf $(CLEAN_FILES) ios-x86 ios-arm scan_build_report $(FIND) . -name "*.[oda]" -exec rm -f {} \; $(FIND) . -type f -regex ".*\.\(\(gcda\)\|\(gcno\)\)" -exec rm {} \; rm -rf bzip2* snappy* zlib* lz4* zstd* cd java; $(MAKE) clean tags: ctags -R . cscope -b `$(FIND) . -name '*.cc'` `$(FIND) . -name '*.h'` `$(FIND) . -name '*.c'` ctags -e -R -o etags * tags0: ctags -R . cscope -b `$(FIND) . -name '*.cc' -and ! -name '*_test.cc'` \ `$(FIND) . -name '*.c' -and ! -name '*_test.c'` \ `$(FIND) . -name '*.h' -and ! -name '*_test.h'` ctags -e -R -o etags * format: build_tools/format-diff.sh package: bash build_tools/make_package.sh $(SHARED_MAJOR).$(SHARED_MINOR) # --------------------------------------------------------------------------- # Unit tests and tools # --------------------------------------------------------------------------- $(LIBRARY): $(LIBOBJECTS) $(AM_V_AR)rm -f $@ $(AM_V_at)$(AR) $(ARFLAGS) $@ $(LIBOBJECTS) $(TOOLS_LIBRARY): $(BENCH_LIB_SOURCES:.cc=.o) $(TOOL_LIB_SOURCES:.cc=.o) $(LIB_SOURCES:.cc=.o) $(TESTUTIL) $(ANALYZER_LIB_SOURCES:.cc=.o) $(AM_V_AR)rm -f $@ $(AM_V_at)$(AR) $(ARFLAGS) $@ $^ librocksdb_env_basic_test.a: env/env_basic_test.o $(LIBOBJECTS) $(TESTHARNESS) $(AM_V_AR)rm -f $@ $(AM_V_at)$(AR) $(ARFLAGS) $@ $^ db_bench: tools/db_bench.o $(BENCHTOOLOBJECTS) $(AM_LINK) trace_analyzer: tools/trace_analyzer.o $(ANALYZETOOLOBJECTS) $(LIBOBJECTS) $(AM_LINK) cache_bench: cache/cache_bench.o $(LIBOBJECTS) $(TESTUTIL) $(AM_LINK) persistent_cache_bench: utilities/persistent_cache/persistent_cache_bench.o $(LIBOBJECTS) $(TESTUTIL) $(AM_LINK) memtablerep_bench: memtable/memtablerep_bench.o $(LIBOBJECTS) $(TESTUTIL) $(AM_LINK) db_stress: tools/db_stress.o $(LIBOBJECTS) $(TESTUTIL) $(AM_LINK) write_stress: tools/write_stress.o $(LIBOBJECTS) $(TESTUTIL) $(AM_LINK) db_sanity_test: tools/db_sanity_test.o $(LIBOBJECTS) $(TESTUTIL) $(AM_LINK) db_repl_stress: tools/db_repl_stress.o $(LIBOBJECTS) $(TESTUTIL) $(AM_LINK) arena_test: util/arena_test.o $(LIBOBJECTS) $(TESTHARNESS) $(AM_LINK) autovector_test: util/autovector_test.o $(LIBOBJECTS) $(TESTHARNESS) $(AM_LINK) column_family_test: db/column_family_test.o db/db_test_util.o $(LIBOBJECTS) $(TESTHARNESS) $(AM_LINK) table_properties_collector_test: db/table_properties_collector_test.o $(LIBOBJECTS) $(TESTHARNESS) $(AM_LINK) bloom_test: util/bloom_test.o $(LIBOBJECTS) $(TESTHARNESS) $(AM_LINK) dynamic_bloom_test: util/dynamic_bloom_test.o $(LIBOBJECTS) $(TESTHARNESS) $(AM_LINK) c_test: db/c_test.o $(LIBOBJECTS) $(TESTHARNESS) $(AM_LINK) cache_test: cache/cache_test.o $(LIBOBJECTS) $(TESTHARNESS) $(AM_LINK) coding_test: util/coding_test.o $(LIBOBJECTS) $(TESTHARNESS) $(AM_LINK) hash_test: util/hash_test.o $(LIBOBJECTS) $(TESTHARNESS) $(AM_LINK) option_change_migration_test: utilities/option_change_migration/option_change_migration_test.o db/db_test_util.o $(LIBOBJECTS) $(TESTHARNESS) $(AM_LINK) stringappend_test: utilities/merge_operators/string_append/stringappend_test.o $(LIBOBJECTS) $(TESTHARNESS) $(AM_LINK) cassandra_format_test: utilities/cassandra/cassandra_format_test.o utilities/cassandra/test_utils.o $(LIBOBJECTS) $(TESTHARNESS) $(AM_LINK) cassandra_functional_test: utilities/cassandra/cassandra_functional_test.o utilities/cassandra/test_utils.o $(LIBOBJECTS) $(TESTHARNESS) $(AM_LINK) cassandra_row_merge_test: utilities/cassandra/cassandra_row_merge_test.o utilities/cassandra/test_utils.o $(LIBOBJECTS) $(TESTHARNESS) $(AM_LINK) cassandra_serialize_test: utilities/cassandra/cassandra_serialize_test.o $(LIBOBJECTS) $(TESTHARNESS) $(AM_LINK) redis_test: utilities/redis/redis_lists_test.o $(LIBOBJECTS) $(TESTHARNESS) $(AM_LINK) hash_table_test: utilities/persistent_cache/hash_table_test.o $(LIBOBJECTS) $(TESTHARNESS) $(AM_LINK) histogram_test: monitoring/histogram_test.o $(LIBOBJECTS) $(TESTHARNESS) $(AM_LINK) thread_local_test: util/thread_local_test.o $(LIBOBJECTS) $(TESTHARNESS) $(AM_LINK) corruption_test: db/corruption_test.o $(LIBOBJECTS) $(TESTHARNESS) $(AM_LINK) crc32c_test: util/crc32c_test.o $(LIBOBJECTS) $(TESTHARNESS) $(AM_LINK) slice_transform_test: util/slice_transform_test.o $(LIBOBJECTS) $(TESTHARNESS) $(AM_LINK) db_basic_test: db/db_basic_test.o db/db_test_util.o $(LIBOBJECTS) $(TESTHARNESS) $(AM_LINK) db_encryption_test: db/db_encryption_test.o db/db_test_util.o $(LIBOBJECTS) $(TESTHARNESS) $(AM_LINK) db_test: db/db_test.o db/db_test_util.o $(LIBOBJECTS) $(TESTHARNESS) $(AM_LINK) db_test2: db/db_test2.o db/db_test_util.o $(LIBOBJECTS) $(TESTHARNESS) $(AM_LINK) db_blob_index_test: db/db_blob_index_test.o db/db_test_util.o $(LIBOBJECTS) $(TESTHARNESS) $(AM_LINK) db_block_cache_test: 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install-headers $(SHARED4) install -C -m 755 $(SHARED4) $(INSTALL_PATH)/lib && \ ln -fs $(SHARED4) $(INSTALL_PATH)/lib/$(SHARED3) && \ ln -fs $(SHARED4) $(INSTALL_PATH)/lib/$(SHARED2) && \ ln -fs $(SHARED4) $(INSTALL_PATH)/lib/$(SHARED1) # install static by default + install shared if it exists install: install-static [ -e $(SHARED4) ] && $(MAKE) install-shared || : #------------------------------------------------- # --------------------------------------------------------------------------- # Jni stuff # --------------------------------------------------------------------------- JAVA_INCLUDE = -I$(JAVA_HOME)/include/ -I$(JAVA_HOME)/include/linux ifeq ($(PLATFORM), OS_SOLARIS) ARCH := $(shell isainfo -b) else ifeq ($(PLATFORM), OS_OPENBSD) ifneq (,$(filter $(MACHINE), amd64 arm64 sparc64)) ARCH := 64 else ARCH := 32 endif else ARCH := $(shell getconf LONG_BIT) endif ifeq (,$(findstring ppc,$(MACHINE))) ROCKSDBJNILIB = librocksdbjni-linux$(ARCH).so else ROCKSDBJNILIB = librocksdbjni-linux-$(MACHINE).so endif ROCKSDB_JAR = rocksdbjni-$(ROCKSDB_MAJOR).$(ROCKSDB_MINOR).$(ROCKSDB_PATCH)-linux$(ARCH).jar ROCKSDB_JAR_ALL = rocksdbjni-$(ROCKSDB_MAJOR).$(ROCKSDB_MINOR).$(ROCKSDB_PATCH).jar ROCKSDB_JAVADOCS_JAR = rocksdbjni-$(ROCKSDB_MAJOR).$(ROCKSDB_MINOR).$(ROCKSDB_PATCH)-javadoc.jar ROCKSDB_SOURCES_JAR = rocksdbjni-$(ROCKSDB_MAJOR).$(ROCKSDB_MINOR).$(ROCKSDB_PATCH)-sources.jar SHA256_CMD = sha256sum ZLIB_VER ?= 1.2.11 ZLIB_SHA256 ?= c3e5e9fdd5004dcb542feda5ee4f0ff0744628baf8ed2dd5d66f8ca1197cb1a1 ZLIB_DOWNLOAD_BASE ?= http://zlib.net BZIP2_VER ?= 1.0.6 BZIP2_SHA256 ?= a2848f34fcd5d6cf47def00461fcb528a0484d8edef8208d6d2e2909dc61d9cd BZIP2_DOWNLOAD_BASE ?= https://web.archive.org/web/20180624184835/http://www.bzip.org SNAPPY_VER ?= 1.1.4 SNAPPY_SHA256 ?= 134bfe122fd25599bb807bb8130e7ba6d9bdb851e0b16efcb83ac4f5d0b70057 SNAPPY_DOWNLOAD_BASE ?= https://github.com/google/snappy/releases/download LZ4_VER ?= 1.8.0 LZ4_SHA256 ?= 2ca482ea7a9bb103603108b5a7510b7592b90158c151ff50a28f1ca8389fccf6 LZ4_DOWNLOAD_BASE ?= https://github.com/lz4/lz4/archive ZSTD_VER ?= 1.3.3 ZSTD_SHA256 ?= a77c47153ee7de02626c5b2a097005786b71688be61e9fb81806a011f90b297b ZSTD_DOWNLOAD_BASE ?= https://github.com/facebook/zstd/archive CURL_SSL_OPTS ?= --tlsv1 ifeq ($(PLATFORM), OS_MACOSX) ROCKSDBJNILIB = librocksdbjni-osx.jnilib ROCKSDB_JAR = rocksdbjni-$(ROCKSDB_MAJOR).$(ROCKSDB_MINOR).$(ROCKSDB_PATCH)-osx.jar SHA256_CMD = openssl sha256 -r ifneq ("$(wildcard $(JAVA_HOME)/include/darwin)","") JAVA_INCLUDE = -I$(JAVA_HOME)/include -I $(JAVA_HOME)/include/darwin else JAVA_INCLUDE = -I/System/Library/Frameworks/JavaVM.framework/Headers/ endif endif ifeq ($(PLATFORM), OS_FREEBSD) JAVA_INCLUDE = -I$(JAVA_HOME)/include -I$(JAVA_HOME)/include/freebsd ROCKSDBJNILIB = librocksdbjni-freebsd$(ARCH).so ROCKSDB_JAR = rocksdbjni-$(ROCKSDB_MAJOR).$(ROCKSDB_MINOR).$(ROCKSDB_PATCH)-freebsd$(ARCH).jar endif ifeq ($(PLATFORM), OS_SOLARIS) ROCKSDBJNILIB = librocksdbjni-solaris$(ARCH).so ROCKSDB_JAR = rocksdbjni-$(ROCKSDB_MAJOR).$(ROCKSDB_MINOR).$(ROCKSDB_PATCH)-solaris$(ARCH).jar JAVA_INCLUDE = -I$(JAVA_HOME)/include/ -I$(JAVA_HOME)/include/solaris SHA256_CMD = digest -a sha256 endif ifeq ($(PLATFORM), OS_AIX) JAVA_INCLUDE = -I$(JAVA_HOME)/include/ -I$(JAVA_HOME)/include/aix ROCKSDBJNILIB = librocksdbjni-aix.so EXTRACT_SOURCES = gunzip < TAR_GZ | tar xvf - SNAPPY_MAKE_TARGET = libsnappy.la endif ifeq ($(PLATFORM), OS_OPENBSD) JAVA_INCLUDE = -I$(JAVA_HOME)/include -I$(JAVA_HOME)/include/openbsd ROCKSDBJNILIB = librocksdbjni-openbsd$(ARCH).so ROCKSDB_JAR = rocksdbjni-$(ROCKSDB_MAJOR).$(ROCKSDB_MINOR).$(ROCKSDB_PATCH)-openbsd$(ARCH).jar endif libz.a: -rm -rf zlib-$(ZLIB_VER) curl -O -L ${ZLIB_DOWNLOAD_BASE}/zlib-$(ZLIB_VER).tar.gz ZLIB_SHA256_ACTUAL=`$(SHA256_CMD) zlib-$(ZLIB_VER).tar.gz | cut -d ' ' -f 1`; \ if [ "$(ZLIB_SHA256)" != "$$ZLIB_SHA256_ACTUAL" ]; then \ echo zlib-$(ZLIB_VER).tar.gz checksum mismatch, expected=\"$(ZLIB_SHA256)\" actual=\"$$ZLIB_SHA256_ACTUAL\"; \ exit 1; \ fi tar xvzf zlib-$(ZLIB_VER).tar.gz cd zlib-$(ZLIB_VER) && CFLAGS='-fPIC ${EXTRA_CFLAGS}' LDFLAGS='${EXTRA_LDFLAGS}' ./configure --static && $(MAKE) cp zlib-$(ZLIB_VER)/libz.a . libbz2.a: -rm -rf bzip2-$(BZIP2_VER) curl -O -L ${BZIP2_DOWNLOAD_BASE}/$(BZIP2_VER)/bzip2-$(BZIP2_VER).tar.gz BZIP2_SHA256_ACTUAL=`$(SHA256_CMD) bzip2-$(BZIP2_VER).tar.gz | cut -d ' ' -f 1`; \ if [ "$(BZIP2_SHA256)" != "$$BZIP2_SHA256_ACTUAL" ]; then \ echo bzip2-$(BZIP2_VER).tar.gz checksum mismatch, expected=\"$(BZIP2_SHA256)\" actual=\"$$BZIP2_SHA256_ACTUAL\"; \ exit 1; \ fi tar xvzf bzip2-$(BZIP2_VER).tar.gz cd bzip2-$(BZIP2_VER) && $(MAKE) CFLAGS='-fPIC -O2 -g -D_FILE_OFFSET_BITS=64 ${EXTRA_CFLAGS}' AR='ar ${EXTRA_ARFLAGS}' cp bzip2-$(BZIP2_VER)/libbz2.a . libsnappy.a: -rm -rf snappy-$(SNAPPY_VER) curl -O -L ${CURL_SSL_OPTS} ${SNAPPY_DOWNLOAD_BASE}/$(SNAPPY_VER)/snappy-$(SNAPPY_VER).tar.gz SNAPPY_SHA256_ACTUAL=`$(SHA256_CMD) snappy-$(SNAPPY_VER).tar.gz | cut -d ' ' -f 1`; \ if [ "$(SNAPPY_SHA256)" != "$$SNAPPY_SHA256_ACTUAL" ]; then \ echo snappy-$(SNAPPY_VER).tar.gz checksum mismatch, expected=\"$(SNAPPY_SHA256)\" actual=\"$$SNAPPY_SHA256_ACTUAL\"; \ exit 1; \ fi tar xvzf snappy-$(SNAPPY_VER).tar.gz cd snappy-$(SNAPPY_VER) && CFLAGS='${EXTRA_CFLAGS}' CXXFLAGS='${EXTRA_CXXFLAGS}' LDFLAGS='${EXTRA_LDFLAGS}' ./configure --with-pic --enable-static --disable-shared cd snappy-$(SNAPPY_VER) && $(MAKE) ${SNAPPY_MAKE_TARGET} cp snappy-$(SNAPPY_VER)/.libs/libsnappy.a . liblz4.a: -rm -rf lz4-$(LZ4_VER) curl -O -L ${CURL_SSL_OPTS} ${LZ4_DOWNLOAD_BASE}/v$(LZ4_VER).tar.gz mv v$(LZ4_VER).tar.gz lz4-$(LZ4_VER).tar.gz LZ4_SHA256_ACTUAL=`$(SHA256_CMD) lz4-$(LZ4_VER).tar.gz | cut -d ' ' -f 1`; \ if [ "$(LZ4_SHA256)" != "$$LZ4_SHA256_ACTUAL" ]; then \ echo lz4-$(LZ4_VER).tar.gz checksum mismatch, expected=\"$(LZ4_SHA256)\" actual=\"$$LZ4_SHA256_ACTUAL\"; \ exit 1; \ fi tar xvzf lz4-$(LZ4_VER).tar.gz cd lz4-$(LZ4_VER)/lib && $(MAKE) CFLAGS='-fPIC -O2 ${EXTRA_CFLAGS}' all cp lz4-$(LZ4_VER)/lib/liblz4.a . libzstd.a: -rm -rf zstd-$(ZSTD_VER) curl -O -L ${CURL_SSL_OPTS} ${ZSTD_DOWNLOAD_BASE}/v$(ZSTD_VER).tar.gz mv v$(ZSTD_VER).tar.gz zstd-$(ZSTD_VER).tar.gz ZSTD_SHA256_ACTUAL=`$(SHA256_CMD) zstd-$(ZSTD_VER).tar.gz | cut -d ' ' -f 1`; \ if [ "$(ZSTD_SHA256)" != "$$ZSTD_SHA256_ACTUAL" ]; then \ echo zstd-$(ZSTD_VER).tar.gz checksum mismatch, expected=\"$(ZSTD_SHA256)\" actual=\"$$ZSTD_SHA256_ACTUAL\"; \ exit 1; \ fi tar xvzf zstd-$(ZSTD_VER).tar.gz cd zstd-$(ZSTD_VER)/lib && DESTDIR=. PREFIX= $(MAKE) CFLAGS='-fPIC -O2 ${EXTRA_CFLAGS}' install cp zstd-$(ZSTD_VER)/lib/libzstd.a . # A version of each $(LIBOBJECTS) compiled with -fPIC and a fixed set of static compression libraries java_static_libobjects = $(patsubst %,jls/%,$(LIB_CC_OBJECTS)) CLEAN_FILES += jls java_static_all_libobjects = $(java_static_libobjects) ifneq ($(ROCKSDB_JAVA_NO_COMPRESSION), 1) JAVA_COMPRESSIONS = libz.a libbz2.a libsnappy.a liblz4.a libzstd.a endif JAVA_STATIC_FLAGS = -DZLIB -DBZIP2 -DSNAPPY -DLZ4 -DZSTD JAVA_STATIC_INCLUDES = -I./zlib-$(ZLIB_VER) -I./bzip2-$(BZIP2_VER) -I./snappy-$(SNAPPY_VER) -I./lz4-$(LZ4_VER)/lib -I./zstd-$(ZSTD_VER)/lib/include ifeq ($(HAVE_POWER8),1) JAVA_STATIC_C_LIBOBJECTS = $(patsubst %.c.o,jls/%.c.o,$(LIB_SOURCES_C:.c=.o)) JAVA_STATIC_ASM_LIBOBJECTS = $(patsubst %.S.o,jls/%.S.o,$(LIB_SOURCES_ASM:.S=.o)) java_static_ppc_libobjects = $(JAVA_STATIC_C_LIBOBJECTS) $(JAVA_STATIC_ASM_LIBOBJECTS) jls/util/crc32c_ppc.o: util/crc32c_ppc.c $(AM_V_CC)$(CC) $(CFLAGS) $(JAVA_STATIC_FLAGS) $(JAVA_STATIC_INCLUDES) -c $< -o $@ jls/util/crc32c_ppc_asm.o: util/crc32c_ppc_asm.S $(AM_V_CC)$(CC) $(CFLAGS) $(JAVA_STATIC_FLAGS) $(JAVA_STATIC_INCLUDES) -c $< -o $@ java_static_all_libobjects += $(java_static_ppc_libobjects) endif $(java_static_libobjects): jls/%.o: %.cc $(JAVA_COMPRESSIONS) $(AM_V_CC)mkdir -p $(@D) && $(CXX) $(CXXFLAGS) $(JAVA_STATIC_FLAGS) $(JAVA_STATIC_INCLUDES) -fPIC -c $< -o $@ $(COVERAGEFLAGS) rocksdbjavastatic: $(java_static_all_libobjects) cd java;$(MAKE) javalib; rm -f ./java/target/$(ROCKSDBJNILIB) $(CXX) $(CXXFLAGS) -I./java/. $(JAVA_INCLUDE) -shared -fPIC \ -o ./java/target/$(ROCKSDBJNILIB) $(JNI_NATIVE_SOURCES) \ $(java_static_all_libobjects) $(COVERAGEFLAGS) \ $(JAVA_COMPRESSIONS) $(JAVA_STATIC_LDFLAGS) cd java/target;if [ "$(DEBUG_LEVEL)" == "0" ]; then \ strip $(STRIPFLAGS) $(ROCKSDBJNILIB); \ fi cd java;jar -cf target/$(ROCKSDB_JAR) HISTORY*.md cd java/target;jar -uf $(ROCKSDB_JAR) $(ROCKSDBJNILIB) cd java/target/classes;jar -uf ../$(ROCKSDB_JAR) org/rocksdb/*.class org/rocksdb/util/*.class cd java/target/apidocs;jar -cf ../$(ROCKSDB_JAVADOCS_JAR) * cd java/src/main/java;jar -cf ../../../target/$(ROCKSDB_SOURCES_JAR) org rocksdbjavastaticrelease: rocksdbjavastatic cd java/crossbuild && vagrant destroy -f && vagrant up linux32 && vagrant halt linux32 && vagrant up linux64 && vagrant halt linux64 cd java;jar -cf target/$(ROCKSDB_JAR_ALL) HISTORY*.md cd java/target;jar -uf $(ROCKSDB_JAR_ALL) librocksdbjni-*.so librocksdbjni-*.jnilib cd java/target/classes;jar -uf ../$(ROCKSDB_JAR_ALL) org/rocksdb/*.class org/rocksdb/util/*.class rocksdbjavastaticreleasedocker: rocksdbjavastatic rocksdbjavastaticdockerx86 rocksdbjavastaticdockerx86_64 cd java;jar -cf target/$(ROCKSDB_JAR_ALL) HISTORY*.md cd java/target;jar -uf $(ROCKSDB_JAR_ALL) librocksdbjni-*.so librocksdbjni-*.jnilib cd java/target/classes;jar -uf ../$(ROCKSDB_JAR_ALL) org/rocksdb/*.class org/rocksdb/util/*.class rocksdbjavastaticdockerx86: mkdir -p java/target DOCKER_LINUX_X86_CONTAINER=`docker ps -aqf name=rocksdb_linux_x86-be`; \ if [ -z "$$DOCKER_LINUX_X86_CONTAINER" ]; then \ docker container create --attach stdin --attach stdout --attach stderr --volume `pwd`:/rocksdb-host --name rocksdb_linux_x86-be evolvedbinary/rocksjava:centos6_x86-be /rocksdb-host/java/crossbuild/docker-build-linux-centos.sh; \ fi docker start -a rocksdb_linux_x86-be rocksdbjavastaticdockerx86_64: mkdir -p java/target DOCKER_LINUX_X64_CONTAINER=`docker ps -aqf name=rocksdb_linux_x64-be`; \ if [ -z "$$DOCKER_LINUX_X64_CONTAINER" ]; then \ docker container create --attach stdin --attach stdout --attach stderr --volume `pwd`:/rocksdb-host --name rocksdb_linux_x64-be evolvedbinary/rocksjava:centos6_x64-be /rocksdb-host/java/crossbuild/docker-build-linux-centos.sh; \ fi docker start -a rocksdb_linux_x64-be rocksdbjavastaticdockerppc64le: mkdir -p java/target DOCKER_LINUX_PPC64LE_CONTAINER=`docker ps -aqf name=rocksdb_linux_ppc64le-be`; \ if [ -z "$$DOCKER_LINUX_PPC64LE_CONTAINER" ]; then \ docker container create --attach stdin --attach stdout --attach stderr --volume `pwd`:/rocksdb-host --name rocksdb_linux_ppc64le-be evolvedbinary/rocksjava:centos7_ppc64le-be /rocksdb-host/java/crossbuild/docker-build-linux-centos.sh; \ fi docker start -a rocksdb_linux_ppc64le-be rocksdbjavastaticpublish: rocksdbjavastaticrelease rocksdbjavastaticpublishcentral rocksdbjavastaticpublishdocker: rocksdbjavastaticreleasedocker rocksdbjavastaticpublishcentral rocksdbjavastaticpublishcentral: mvn gpg:sign-and-deploy-file -Durl=https://oss.sonatype.org/service/local/staging/deploy/maven2/ -DrepositoryId=sonatype-nexus-staging -DpomFile=java/rocksjni.pom -Dfile=java/target/rocksdbjni-$(ROCKSDB_MAJOR).$(ROCKSDB_MINOR).$(ROCKSDB_PATCH)-javadoc.jar -Dclassifier=javadoc mvn gpg:sign-and-deploy-file -Durl=https://oss.sonatype.org/service/local/staging/deploy/maven2/ -DrepositoryId=sonatype-nexus-staging -DpomFile=java/rocksjni.pom -Dfile=java/target/rocksdbjni-$(ROCKSDB_MAJOR).$(ROCKSDB_MINOR).$(ROCKSDB_PATCH)-sources.jar -Dclassifier=sources mvn gpg:sign-and-deploy-file -Durl=https://oss.sonatype.org/service/local/staging/deploy/maven2/ -DrepositoryId=sonatype-nexus-staging -DpomFile=java/rocksjni.pom -Dfile=java/target/rocksdbjni-$(ROCKSDB_MAJOR).$(ROCKSDB_MINOR).$(ROCKSDB_PATCH)-linux64.jar -Dclassifier=linux64 mvn gpg:sign-and-deploy-file -Durl=https://oss.sonatype.org/service/local/staging/deploy/maven2/ -DrepositoryId=sonatype-nexus-staging -DpomFile=java/rocksjni.pom -Dfile=java/target/rocksdbjni-$(ROCKSDB_MAJOR).$(ROCKSDB_MINOR).$(ROCKSDB_PATCH)-linux32.jar -Dclassifier=linux32 mvn gpg:sign-and-deploy-file -Durl=https://oss.sonatype.org/service/local/staging/deploy/maven2/ -DrepositoryId=sonatype-nexus-staging -DpomFile=java/rocksjni.pom -Dfile=java/target/rocksdbjni-$(ROCKSDB_MAJOR).$(ROCKSDB_MINOR).$(ROCKSDB_PATCH)-osx.jar -Dclassifier=osx mvn gpg:sign-and-deploy-file -Durl=https://oss.sonatype.org/service/local/staging/deploy/maven2/ -DrepositoryId=sonatype-nexus-staging -DpomFile=java/rocksjni.pom -Dfile=java/target/rocksdbjni-$(ROCKSDB_MAJOR).$(ROCKSDB_MINOR).$(ROCKSDB_PATCH)-win64.jar -Dclassifier=win64 mvn gpg:sign-and-deploy-file -Durl=https://oss.sonatype.org/service/local/staging/deploy/maven2/ -DrepositoryId=sonatype-nexus-staging -DpomFile=java/rocksjni.pom -Dfile=java/target/rocksdbjni-$(ROCKSDB_MAJOR).$(ROCKSDB_MINOR).$(ROCKSDB_PATCH).jar # A version of each $(LIBOBJECTS) compiled with -fPIC ifeq ($(HAVE_POWER8),1) JAVA_CC_OBJECTS = $(SHARED_CC_OBJECTS) JAVA_C_OBJECTS = $(SHARED_C_OBJECTS) JAVA_ASM_OBJECTS = $(SHARED_ASM_OBJECTS) JAVA_C_LIBOBJECTS = $(patsubst %.c.o,jl/%.c.o,$(JAVA_C_OBJECTS)) JAVA_ASM_LIBOBJECTS = $(patsubst %.S.o,jl/%.S.o,$(JAVA_ASM_OBJECTS)) endif java_libobjects = $(patsubst %,jl/%,$(LIB_CC_OBJECTS)) CLEAN_FILES += jl java_all_libobjects = $(java_libobjects) ifeq ($(HAVE_POWER8),1) java_ppc_libobjects = $(JAVA_C_LIBOBJECTS) $(JAVA_ASM_LIBOBJECTS) jl/crc32c_ppc.o: util/crc32c_ppc.c $(AM_V_CC)$(CC) $(CFLAGS) -c $< -o $@ jl/crc32c_ppc_asm.o: util/crc32c_ppc_asm.S $(AM_V_CC)$(CC) $(CFLAGS) -c $< -o $@ java_all_libobjects += $(java_ppc_libobjects) endif $(java_libobjects): jl/%.o: %.cc $(AM_V_CC)mkdir -p $(@D) && $(CXX) $(CXXFLAGS) -fPIC -c $< -o $@ $(COVERAGEFLAGS) rocksdbjava: $(java_all_libobjects) $(AM_V_GEN)cd java;$(MAKE) javalib; $(AM_V_at)rm -f ./java/target/$(ROCKSDBJNILIB) $(AM_V_at)$(CXX) $(CXXFLAGS) -I./java/. $(JAVA_INCLUDE) -shared -fPIC -o ./java/target/$(ROCKSDBJNILIB) $(JNI_NATIVE_SOURCES) $(java_all_libobjects) $(JAVA_LDFLAGS) $(COVERAGEFLAGS) $(AM_V_at)cd java;jar -cf target/$(ROCKSDB_JAR) HISTORY*.md $(AM_V_at)cd java/target;jar -uf $(ROCKSDB_JAR) $(ROCKSDBJNILIB) $(AM_V_at)cd java/target/classes;jar -uf ../$(ROCKSDB_JAR) org/rocksdb/*.class org/rocksdb/util/*.class jclean: cd java;$(MAKE) clean; jtest_compile: rocksdbjava cd java;$(MAKE) java_test jtest_run: cd java;$(MAKE) run_test jtest: rocksdbjava cd java;$(MAKE) sample;$(MAKE) test; jdb_bench: cd java;$(MAKE) db_bench; commit_prereq: build_tools/rocksdb-lego-determinator \ build_tools/precommit_checker.py J=$(J) build_tools/precommit_checker.py unit unit_481 clang_unit release release_481 clang_release tsan asan ubsan lite unit_non_shm $(MAKE) clean && $(MAKE) jclean && $(MAKE) rocksdbjava; # --------------------------------------------------------------------------- # Platform-specific compilation # --------------------------------------------------------------------------- ifeq ($(PLATFORM), IOS) # For iOS, create universal object files to be used on both the simulator and # a device. PLATFORMSROOT=/Applications/Xcode.app/Contents/Developer/Platforms SIMULATORROOT=$(PLATFORMSROOT)/iPhoneSimulator.platform/Developer DEVICEROOT=$(PLATFORMSROOT)/iPhoneOS.platform/Developer IOSVERSION=$(shell defaults read $(PLATFORMSROOT)/iPhoneOS.platform/version CFBundleShortVersionString) .cc.o: mkdir -p ios-x86/$(dir $@) $(CXX) $(CXXFLAGS) -isysroot $(SIMULATORROOT)/SDKs/iPhoneSimulator$(IOSVERSION).sdk -arch i686 -arch x86_64 -c $< -o ios-x86/$@ mkdir -p ios-arm/$(dir $@) xcrun -sdk iphoneos $(CXX) $(CXXFLAGS) -isysroot $(DEVICEROOT)/SDKs/iPhoneOS$(IOSVERSION).sdk -arch armv6 -arch armv7 -arch armv7s -arch arm64 -c $< -o ios-arm/$@ lipo ios-x86/$@ ios-arm/$@ -create -output $@ .c.o: mkdir -p ios-x86/$(dir $@) $(CC) $(CFLAGS) -isysroot $(SIMULATORROOT)/SDKs/iPhoneSimulator$(IOSVERSION).sdk -arch i686 -arch x86_64 -c $< -o ios-x86/$@ mkdir -p ios-arm/$(dir $@) xcrun -sdk iphoneos $(CC) $(CFLAGS) -isysroot $(DEVICEROOT)/SDKs/iPhoneOS$(IOSVERSION).sdk -arch armv6 -arch armv7 -arch armv7s -arch arm64 -c $< -o ios-arm/$@ lipo ios-x86/$@ ios-arm/$@ -create -output $@ else ifeq ($(HAVE_POWER8),1) util/crc32c_ppc.o: util/crc32c_ppc.c $(AM_V_CC)$(CC) $(CFLAGS) -c $< -o $@ util/crc32c_ppc_asm.o: util/crc32c_ppc_asm.S $(AM_V_CC)$(CC) $(CFLAGS) -c $< -o $@ endif .cc.o: $(AM_V_CC)$(CXX) $(CXXFLAGS) -c $< -o $@ $(COVERAGEFLAGS) .c.o: $(AM_V_CC)$(CC) $(CFLAGS) -c $< -o $@ endif # --------------------------------------------------------------------------- # Source files dependencies detection # --------------------------------------------------------------------------- all_sources = $(LIB_SOURCES) $(MAIN_SOURCES) $(MOCK_LIB_SOURCES) $(TOOL_LIB_SOURCES) $(BENCH_LIB_SOURCES) $(TEST_LIB_SOURCES) $(EXP_LIB_SOURCES) $(ANALYZER_LIB_SOURCES) DEPFILES = $(all_sources:.cc=.cc.d) # Add proper dependency support so changing a .h file forces a .cc file to # rebuild. # The .d file indicates .cc file's dependencies on .h files. We generate such # dependency by g++'s -MM option, whose output is a make dependency rule. %.cc.d: %.cc @$(CXX) $(CXXFLAGS) $(PLATFORM_SHARED_CFLAGS) \ -MM -MT'$@' -MT'$(<:.cc=.o)' "$<" -o '$@' ifeq ($(HAVE_POWER8),1) DEPFILES_C = $(LIB_SOURCES_C:.c=.c.d) DEPFILES_ASM = $(LIB_SOURCES_ASM:.S=.S.d) %.c.d: %.c @$(CXX) $(CXXFLAGS) $(PLATFORM_SHARED_CFLAGS) \ -MM -MT'$@' -MT'$(<:.c=.o)' "$<" -o '$@' %.S.d: %.S @$(CXX) $(CXXFLAGS) $(PLATFORM_SHARED_CFLAGS) \ -MM -MT'$@' -MT'$(<:.S=.o)' "$<" -o '$@' $(DEPFILES_C): %.c.d $(DEPFILES_ASM): %.S.d depend: $(DEPFILES) $(DEPFILES_C) $(DEPFILES_ASM) else depend: $(DEPFILES) endif # if the make goal is either "clean" or "format", we shouldn't # try to import the *.d files. # TODO(kailiu) The unfamiliarity of Make's conditions leads to the ugly # working solution. ifneq ($(MAKECMDGOALS),clean) ifneq ($(MAKECMDGOALS),format) ifneq ($(MAKECMDGOALS),jclean) ifneq ($(MAKECMDGOALS),jtest) ifneq ($(MAKECMDGOALS),package) ifneq ($(MAKECMDGOALS),analyze) -include $(DEPFILES) endif endif endif endif endif endif rocksdb-5.17.2/README.md000066400000000000000000000034511337235545400145320ustar00rootroot00000000000000## RocksDB: A Persistent Key-Value Store for Flash and RAM Storage [![Linux/Mac Build Status](https://travis-ci.org/facebook/rocksdb.svg?branch=master)](https://travis-ci.org/facebook/rocksdb) [![Windows Build status](https://ci.appveyor.com/api/projects/status/fbgfu0so3afcno78/branch/master?svg=true)](https://ci.appveyor.com/project/Facebook/rocksdb/branch/master) [![PPC64le Build Status](http://140.211.168.68:8080/buildStatus/icon?job=Rocksdb)](http://140.211.168.68:8080/job/Rocksdb) RocksDB is developed and maintained by Facebook Database Engineering Team. It is built on earlier work on LevelDB by Sanjay Ghemawat (sanjay@google.com) and Jeff Dean (jeff@google.com) This code is a library that forms the core building block for a fast key value server, especially suited for storing data on flash drives. It has a Log-Structured-Merge-Database (LSM) design with flexible tradeoffs between Write-Amplification-Factor (WAF), Read-Amplification-Factor (RAF) and Space-Amplification-Factor (SAF). It has multi-threaded compactions, making it specially suitable for storing multiple terabytes of data in a single database. Start with example usage here: https://github.com/facebook/rocksdb/tree/master/examples See the [github wiki](https://github.com/facebook/rocksdb/wiki) for more explanation. The public interface is in `include/`. Callers should not include or rely on the details of any other header files in this package. Those internal APIs may be changed without warning. Design discussions are conducted in https://www.facebook.com/groups/rocksdb.dev/ ## License RocksDB is dual-licensed under both the GPLv2 (found in the COPYING file in the root directory) and Apache 2.0 License (found in the LICENSE.Apache file in the root directory). You may select, at your option, one of the above-listed licenses. rocksdb-5.17.2/ROCKSDB_LITE.md000066400000000000000000000020171337235545400154760ustar00rootroot00000000000000# RocksDBLite RocksDBLite is a project focused on mobile use cases, which don't need a lot of fancy things we've built for server workloads and they are very sensitive to binary size. For that reason, we added a compile flag ROCKSDB_LITE that comments out a lot of the nonessential code and keeps the binary lean. Some examples of the features disabled by ROCKSDB_LITE: * compiled-in support for LDB tool * No backupable DB * No support for replication (which we provide in form of TransactionalIterator) * No advanced monitoring tools * No special-purpose memtables that are highly optimized for specific use cases * No Transactions When adding a new big feature to RocksDB, please add ROCKSDB_LITE compile guard if: * Nobody from mobile really needs your feature, * Your feature is adding a lot of weight to the binary. Don't add ROCKSDB_LITE compile guard if: * It would introduce a lot of code complexity. Compile guards make code harder to read. It's a trade-off. * Your feature is not adding a lot of weight. If unsure, ask. :) rocksdb-5.17.2/TARGETS000066400000000000000000000665501337235545400143200ustar00rootroot00000000000000load("@fbcode_macros//build_defs:auto_headers.bzl", "AutoHeaders") REPO_PATH = package_name() + "/" BUCK_BINS = "buck-out/gen/" + REPO_PATH TEST_RUNNER = REPO_PATH + "buckifier/rocks_test_runner.sh" rocksdb_compiler_flags = [ "-fno-builtin-memcmp", "-DROCKSDB_PLATFORM_POSIX", "-DROCKSDB_LIB_IO_POSIX", "-DROCKSDB_FALLOCATE_PRESENT", "-DROCKSDB_MALLOC_USABLE_SIZE", "-DROCKSDB_RANGESYNC_PRESENT", "-DROCKSDB_SCHED_GETCPU_PRESENT", "-DROCKSDB_SUPPORT_THREAD_LOCAL", "-DOS_LINUX", # Flags to enable libs we include "-DSNAPPY", "-DZLIB", "-DBZIP2", "-DLZ4", "-DZSTD", "-DGFLAGS=gflags", "-DNUMA", "-DTBB", # Needed to compile in fbcode "-Wno-expansion-to-defined", # Added missing flags from output of build_detect_platform "-DROCKSDB_PTHREAD_ADAPTIVE_MUTEX", "-DROCKSDB_BACKTRACE", "-Wnarrowing", ] rocksdb_external_deps = [ ("bzip2", None, "bz2"), ("snappy", None, "snappy"), ("zlib", None, "z"), ("gflags", None, "gflags"), ("lz4", None, "lz4"), ("zstd", None), ("tbb", None), ("numa", None, "numa"), ("googletest", None, "gtest"), ] rocksdb_preprocessor_flags = [ # Directories with files for #include "-I" + REPO_PATH + "include/", "-I" + REPO_PATH, ] rocksdb_arch_preprocessor_flags = { "x86_64": [ "-DHAVE_SSE42", "-DHAVE_PCLMUL", ], } build_mode = read_config("fbcode", "build_mode") is_opt_mode = build_mode.startswith("opt") # -DNDEBUG is added by default in opt mode in fbcode. But adding it twice # doesn't harm and avoid forgetting to add it. if is_opt_mode: rocksdb_compiler_flags.append("-DNDEBUG") cpp_library( name = "rocksdb_lib", srcs = [ "cache/clock_cache.cc", "cache/lru_cache.cc", "cache/sharded_cache.cc", "db/builder.cc", "db/c.cc", "db/column_family.cc", "db/compacted_db_impl.cc", "db/compaction.cc", "db/compaction_iterator.cc", "db/compaction_job.cc", "db/compaction_picker.cc", "db/compaction_picker_universal.cc", "db/convenience.cc", "db/db_filesnapshot.cc", "db/db_impl.cc", "db/db_impl_compaction_flush.cc", "db/db_impl_debug.cc", "db/db_impl_experimental.cc", "db/db_impl_files.cc", "db/db_impl_open.cc", "db/db_impl_readonly.cc", "db/db_impl_write.cc", "db/db_info_dumper.cc", "db/db_iter.cc", "db/dbformat.cc", "db/error_handler.cc", "db/event_helpers.cc", "db/experimental.cc", "db/external_sst_file_ingestion_job.cc", "db/file_indexer.cc", "db/flush_job.cc", "db/flush_scheduler.cc", "db/forward_iterator.cc", "db/internal_stats.cc", "db/log_reader.cc", "db/log_writer.cc", "db/logs_with_prep_tracker.cc", "db/malloc_stats.cc", "db/memtable.cc", "db/memtable_list.cc", "db/merge_helper.cc", "db/merge_operator.cc", "db/range_del_aggregator.cc", "db/repair.cc", "db/snapshot_impl.cc", "db/table_cache.cc", "db/table_properties_collector.cc", "db/transaction_log_impl.cc", "db/version_builder.cc", "db/version_edit.cc", "db/version_set.cc", "db/wal_manager.cc", "db/write_batch.cc", "db/write_batch_base.cc", "db/write_controller.cc", "db/write_thread.cc", "env/env.cc", "env/env_chroot.cc", "env/env_encryption.cc", "env/env_hdfs.cc", "env/env_posix.cc", "env/io_posix.cc", "env/mock_env.cc", "memtable/alloc_tracker.cc", "memtable/hash_cuckoo_rep.cc", "memtable/hash_linklist_rep.cc", "memtable/hash_skiplist_rep.cc", "memtable/skiplistrep.cc", "memtable/vectorrep.cc", "memtable/write_buffer_manager.cc", "monitoring/histogram.cc", "monitoring/histogram_windowing.cc", "monitoring/instrumented_mutex.cc", "monitoring/iostats_context.cc", "monitoring/perf_context.cc", "monitoring/perf_level.cc", "monitoring/statistics.cc", "monitoring/thread_status_impl.cc", "monitoring/thread_status_updater.cc", "monitoring/thread_status_updater_debug.cc", "monitoring/thread_status_util.cc", "monitoring/thread_status_util_debug.cc", "options/cf_options.cc", "options/db_options.cc", "options/options.cc", "options/options_helper.cc", "options/options_parser.cc", "options/options_sanity_check.cc", "port/port_posix.cc", "port/stack_trace.cc", "table/adaptive_table_factory.cc", "table/block.cc", "table/block_based_filter_block.cc", "table/block_based_table_builder.cc", "table/block_based_table_factory.cc", "table/block_based_table_reader.cc", "table/block_builder.cc", "table/block_fetcher.cc", "table/block_prefix_index.cc", "table/bloom_block.cc", "table/cuckoo_table_builder.cc", "table/cuckoo_table_factory.cc", "table/cuckoo_table_reader.cc", "table/data_block_footer.cc", "table/data_block_hash_index.cc", "table/flush_block_policy.cc", "table/format.cc", "table/full_filter_block.cc", "table/get_context.cc", "table/index_builder.cc", "table/iterator.cc", "table/merging_iterator.cc", "table/meta_blocks.cc", "table/partitioned_filter_block.cc", "table/persistent_cache_helper.cc", "table/plain_table_builder.cc", "table/plain_table_factory.cc", "table/plain_table_index.cc", "table/plain_table_key_coding.cc", "table/plain_table_reader.cc", "table/sst_file_writer.cc", "table/table_properties.cc", "table/two_level_iterator.cc", "tools/dump/db_dump_tool.cc", "tools/ldb_cmd.cc", "tools/ldb_tool.cc", "tools/sst_dump_tool.cc", "util/arena.cc", "util/auto_roll_logger.cc", "util/bloom.cc", "util/build_version.cc", "util/coding.cc", "util/compaction_job_stats_impl.cc", "util/comparator.cc", "util/compression_context_cache.cc", "util/concurrent_arena.cc", "util/crc32c.cc", "util/delete_scheduler.cc", "util/dynamic_bloom.cc", "util/event_logger.cc", "util/file_reader_writer.cc", "util/file_util.cc", "util/filename.cc", "util/filter_policy.cc", "util/hash.cc", "util/log_buffer.cc", "util/murmurhash.cc", "util/random.cc", "util/rate_limiter.cc", "util/slice.cc", "util/sst_file_manager_impl.cc", "util/status.cc", "util/string_util.cc", "util/sync_point.cc", "util/sync_point_impl.cc", "util/thread_local.cc", "util/threadpool_imp.cc", "util/trace_replay.cc", "util/transaction_test_util.cc", "util/xxhash.cc", "utilities/backupable/backupable_db.cc", "utilities/blob_db/blob_compaction_filter.cc", "utilities/blob_db/blob_db.cc", "utilities/blob_db/blob_db_impl.cc", "utilities/blob_db/blob_db_impl_filesnapshot.cc", "utilities/blob_db/blob_dump_tool.cc", "utilities/blob_db/blob_file.cc", "utilities/blob_db/blob_log_format.cc", "utilities/blob_db/blob_log_reader.cc", "utilities/blob_db/blob_log_writer.cc", "utilities/cassandra/cassandra_compaction_filter.cc", "utilities/cassandra/format.cc", "utilities/cassandra/merge_operator.cc", "utilities/checkpoint/checkpoint_impl.cc", "utilities/compaction_filters/remove_emptyvalue_compactionfilter.cc", "utilities/convenience/info_log_finder.cc", "utilities/date_tiered/date_tiered_db_impl.cc", "utilities/debug.cc", "utilities/document/document_db.cc", "utilities/document/json_document.cc", "utilities/document/json_document_builder.cc", "utilities/env_mirror.cc", "utilities/env_timed.cc", "utilities/geodb/geodb_impl.cc", "utilities/leveldb_options/leveldb_options.cc", "utilities/lua/rocks_lua_compaction_filter.cc", "utilities/memory/memory_util.cc", "utilities/merge_operators/bytesxor.cc", "utilities/merge_operators/max.cc", "utilities/merge_operators/put.cc", "utilities/merge_operators/string_append/stringappend.cc", "utilities/merge_operators/string_append/stringappend2.cc", "utilities/merge_operators/uint64add.cc", "utilities/option_change_migration/option_change_migration.cc", "utilities/options/options_util.cc", "utilities/persistent_cache/block_cache_tier.cc", "utilities/persistent_cache/block_cache_tier_file.cc", "utilities/persistent_cache/block_cache_tier_metadata.cc", "utilities/persistent_cache/persistent_cache_tier.cc", "utilities/persistent_cache/volatile_tier_impl.cc", "utilities/redis/redis_lists.cc", "utilities/simulator_cache/sim_cache.cc", "utilities/spatialdb/spatial_db.cc", "utilities/table_properties_collectors/compact_on_deletion_collector.cc", "utilities/trace/file_trace_reader_writer.cc", "utilities/transactions/optimistic_transaction.cc", "utilities/transactions/optimistic_transaction_db_impl.cc", "utilities/transactions/pessimistic_transaction.cc", "utilities/transactions/pessimistic_transaction_db.cc", "utilities/transactions/snapshot_checker.cc", "utilities/transactions/transaction_base.cc", "utilities/transactions/transaction_db_mutex_impl.cc", "utilities/transactions/transaction_lock_mgr.cc", "utilities/transactions/transaction_util.cc", "utilities/transactions/write_prepared_txn.cc", "utilities/transactions/write_prepared_txn_db.cc", "utilities/transactions/write_unprepared_txn.cc", "utilities/transactions/write_unprepared_txn_db.cc", "utilities/ttl/db_ttl_impl.cc", "utilities/write_batch_with_index/write_batch_with_index.cc", "utilities/write_batch_with_index/write_batch_with_index_internal.cc", ], auto_headers = AutoHeaders.RECURSIVE_GLOB, arch_preprocessor_flags = rocksdb_arch_preprocessor_flags, compiler_flags = rocksdb_compiler_flags, preprocessor_flags = rocksdb_preprocessor_flags, deps = [], external_deps = rocksdb_external_deps, ) cpp_library( name = "rocksdb_test_lib", srcs = [ "db/db_test_util.cc", "table/mock_table.cc", "tools/trace_analyzer_tool.cc", "util/fault_injection_test_env.cc", "util/testharness.cc", "util/testutil.cc", "utilities/cassandra/test_utils.cc", "utilities/col_buf_decoder.cc", "utilities/col_buf_encoder.cc", "utilities/column_aware_encoding_util.cc", ], auto_headers = AutoHeaders.RECURSIVE_GLOB, arch_preprocessor_flags = rocksdb_arch_preprocessor_flags, compiler_flags = rocksdb_compiler_flags, preprocessor_flags = rocksdb_preprocessor_flags, deps = [":rocksdb_lib"], external_deps = rocksdb_external_deps, ) cpp_library( name = "rocksdb_tools_lib", srcs = [ "tools/db_bench_tool.cc", "tools/trace_analyzer_tool.cc", "util/testutil.cc", ], auto_headers = AutoHeaders.RECURSIVE_GLOB, arch_preprocessor_flags = rocksdb_arch_preprocessor_flags, compiler_flags = rocksdb_compiler_flags, preprocessor_flags = rocksdb_preprocessor_flags, deps = [":rocksdb_lib"], external_deps = rocksdb_external_deps, ) cpp_library( name = "env_basic_test_lib", srcs = ["env/env_basic_test.cc"], auto_headers = AutoHeaders.RECURSIVE_GLOB, arch_preprocessor_flags = rocksdb_arch_preprocessor_flags, compiler_flags = rocksdb_compiler_flags, preprocessor_flags = rocksdb_preprocessor_flags, deps = [":rocksdb_test_lib"], external_deps = rocksdb_external_deps, ) # [test_name, test_src, test_type] ROCKS_TESTS = [ [ "arena_test", "util/arena_test.cc", "serial", ], [ "auto_roll_logger_test", "util/auto_roll_logger_test.cc", "serial", ], [ "autovector_test", "util/autovector_test.cc", "serial", ], [ "backupable_db_test", "utilities/backupable/backupable_db_test.cc", "parallel", ], [ "blob_db_test", "utilities/blob_db/blob_db_test.cc", "serial", ], [ "block_based_filter_block_test", "table/block_based_filter_block_test.cc", "serial", ], [ "block_test", "table/block_test.cc", "serial", ], [ "bloom_test", "util/bloom_test.cc", "serial", ], [ "c_test", "db/c_test.c", "serial", ], [ "cache_test", "cache/cache_test.cc", "serial", ], [ "cassandra_format_test", "utilities/cassandra/cassandra_format_test.cc", "serial", ], [ "cassandra_functional_test", "utilities/cassandra/cassandra_functional_test.cc", "serial", ], [ "cassandra_row_merge_test", "utilities/cassandra/cassandra_row_merge_test.cc", "serial", ], [ "cassandra_serialize_test", "utilities/cassandra/cassandra_serialize_test.cc", "serial", ], [ "checkpoint_test", "utilities/checkpoint/checkpoint_test.cc", "serial", ], [ "cleanable_test", "table/cleanable_test.cc", "serial", ], [ "coding_test", "util/coding_test.cc", "serial", ], [ "column_aware_encoding_test", "utilities/column_aware_encoding_test.cc", "serial", ], [ "column_family_test", "db/column_family_test.cc", "serial", ], [ "compact_files_test", "db/compact_files_test.cc", "serial", ], [ "compact_on_deletion_collector_test", "utilities/table_properties_collectors/compact_on_deletion_collector_test.cc", "serial", ], [ "compaction_iterator_test", "db/compaction_iterator_test.cc", "serial", ], [ "compaction_job_stats_test", "db/compaction_job_stats_test.cc", "serial", ], [ "compaction_job_test", "db/compaction_job_test.cc", "serial", ], [ "compaction_picker_test", "db/compaction_picker_test.cc", "serial", ], [ "comparator_db_test", "db/comparator_db_test.cc", "serial", ], [ "corruption_test", "db/corruption_test.cc", "serial", ], [ "crc32c_test", "util/crc32c_test.cc", "serial", ], [ "cuckoo_table_builder_test", "table/cuckoo_table_builder_test.cc", "serial", ], [ "cuckoo_table_db_test", "db/cuckoo_table_db_test.cc", "serial", ], [ "cuckoo_table_reader_test", "table/cuckoo_table_reader_test.cc", "serial", ], [ "data_block_hash_index_test", "table/data_block_hash_index_test.cc", "serial", ], [ "date_tiered_test", "utilities/date_tiered/date_tiered_test.cc", "serial", ], [ "db_basic_test", "db/db_basic_test.cc", "serial", ], [ "db_blob_index_test", "db/db_blob_index_test.cc", "serial", ], [ "db_block_cache_test", "db/db_block_cache_test.cc", "serial", ], [ "db_bloom_filter_test", "db/db_bloom_filter_test.cc", "serial", ], [ "db_compaction_filter_test", "db/db_compaction_filter_test.cc", "parallel", ], [ "db_compaction_test", "db/db_compaction_test.cc", "parallel", ], [ "db_dynamic_level_test", "db/db_dynamic_level_test.cc", "serial", ], [ "db_encryption_test", "db/db_encryption_test.cc", "serial", ], [ "db_flush_test", "db/db_flush_test.cc", "serial", ], [ "db_inplace_update_test", "db/db_inplace_update_test.cc", "serial", ], [ "db_io_failure_test", "db/db_io_failure_test.cc", "serial", ], [ "db_iter_stress_test", "db/db_iter_stress_test.cc", "serial", ], [ "db_iter_test", "db/db_iter_test.cc", "serial", ], [ "db_iterator_test", "db/db_iterator_test.cc", "serial", ], [ "db_log_iter_test", "db/db_log_iter_test.cc", "serial", ], [ "db_memtable_test", "db/db_memtable_test.cc", "serial", ], [ "db_merge_operator_test", "db/db_merge_operator_test.cc", "parallel", ], [ "db_options_test", "db/db_options_test.cc", "serial", ], [ "db_properties_test", "db/db_properties_test.cc", "serial", ], [ "db_range_del_test", "db/db_range_del_test.cc", "serial", ], [ "db_sst_test", "db/db_sst_test.cc", "parallel", ], [ "db_statistics_test", "db/db_statistics_test.cc", "serial", ], [ "db_table_properties_test", "db/db_table_properties_test.cc", "serial", ], [ "db_tailing_iter_test", "db/db_tailing_iter_test.cc", "serial", ], [ "db_test", "db/db_test.cc", "parallel", ], [ "db_test2", "db/db_test2.cc", "serial", ], [ "db_universal_compaction_test", "db/db_universal_compaction_test.cc", "parallel", ], [ "db_wal_test", "db/db_wal_test.cc", "parallel", ], [ "db_write_test", "db/db_write_test.cc", "serial", ], [ "dbformat_test", "db/dbformat_test.cc", "serial", ], [ "delete_scheduler_test", "util/delete_scheduler_test.cc", "serial", ], [ "deletefile_test", "db/deletefile_test.cc", "serial", ], [ "document_db_test", "utilities/document/document_db_test.cc", "serial", ], [ "dynamic_bloom_test", "util/dynamic_bloom_test.cc", "serial", ], [ "env_basic_test", "env/env_basic_test.cc", "serial", ], [ "env_test", "env/env_test.cc", "serial", ], [ "env_timed_test", "utilities/env_timed_test.cc", "serial", ], [ "error_handler_test", "db/error_handler_test.cc", "serial", ], [ "event_logger_test", "util/event_logger_test.cc", "serial", ], [ "external_sst_file_basic_test", "db/external_sst_file_basic_test.cc", "serial", ], [ "external_sst_file_test", "db/external_sst_file_test.cc", "parallel", ], [ "fault_injection_test", "db/fault_injection_test.cc", "parallel", ], [ "file_indexer_test", "db/file_indexer_test.cc", "serial", ], [ "file_reader_writer_test", "util/file_reader_writer_test.cc", "serial", ], [ "filelock_test", "util/filelock_test.cc", "serial", ], [ "filename_test", "db/filename_test.cc", "serial", ], [ "flush_job_test", "db/flush_job_test.cc", "serial", ], [ "full_filter_block_test", "table/full_filter_block_test.cc", "serial", ], [ "geodb_test", "utilities/geodb/geodb_test.cc", "serial", ], [ "hash_table_test", "utilities/persistent_cache/hash_table_test.cc", "serial", ], [ "hash_test", "util/hash_test.cc", "serial", ], [ "heap_test", "util/heap_test.cc", "serial", ], [ "histogram_test", "monitoring/histogram_test.cc", "serial", ], [ "inlineskiplist_test", "memtable/inlineskiplist_test.cc", "parallel", ], [ "iostats_context_test", "monitoring/iostats_context_test.cc", "serial", ], [ "json_document_test", "utilities/document/json_document_test.cc", "serial", ], [ "ldb_cmd_test", "tools/ldb_cmd_test.cc", "serial", ], [ "listener_test", "db/listener_test.cc", "serial", ], [ "log_test", "db/log_test.cc", "serial", ], [ "lru_cache_test", "cache/lru_cache_test.cc", "serial", ], [ "manual_compaction_test", "db/manual_compaction_test.cc", "parallel", ], [ "memory_test", "utilities/memory/memory_test.cc", "serial", ], [ "memtable_list_test", "db/memtable_list_test.cc", "serial", ], [ "merge_helper_test", "db/merge_helper_test.cc", "serial", ], [ "merge_test", "db/merge_test.cc", "serial", ], [ "merger_test", "table/merger_test.cc", "serial", ], [ "mock_env_test", "env/mock_env_test.cc", "serial", ], [ "object_registry_test", "utilities/object_registry_test.cc", "serial", ], [ "obsolete_files_test", "db/obsolete_files_test.cc", "serial", ], [ "optimistic_transaction_test", "utilities/transactions/optimistic_transaction_test.cc", "serial", ], [ "option_change_migration_test", "utilities/option_change_migration/option_change_migration_test.cc", "serial", ], [ "options_file_test", "db/options_file_test.cc", "serial", ], [ "options_settable_test", "options/options_settable_test.cc", "serial", ], [ "options_test", "options/options_test.cc", "serial", ], [ "options_util_test", "utilities/options/options_util_test.cc", "serial", ], [ "partitioned_filter_block_test", "table/partitioned_filter_block_test.cc", "serial", ], [ "perf_context_test", "db/perf_context_test.cc", "serial", ], [ "persistent_cache_test", "utilities/persistent_cache/persistent_cache_test.cc", "parallel", ], [ "plain_table_db_test", "db/plain_table_db_test.cc", "serial", ], [ "prefix_test", "db/prefix_test.cc", "serial", ], [ "range_del_aggregator_test", "db/range_del_aggregator_test.cc", "serial", ], [ "rate_limiter_test", "util/rate_limiter_test.cc", "serial", ], [ "reduce_levels_test", "tools/reduce_levels_test.cc", "serial", ], [ "repair_test", "db/repair_test.cc", "serial", ], [ "repeatable_thread_test", "util/repeatable_thread_test.cc", "serial", ], [ "sim_cache_test", "utilities/simulator_cache/sim_cache_test.cc", "serial", ], [ "skiplist_test", "memtable/skiplist_test.cc", "serial", ], [ "slice_transform_test", "util/slice_transform_test.cc", "serial", ], [ "spatial_db_test", "utilities/spatialdb/spatial_db_test.cc", "serial", ], [ "sst_dump_test", "tools/sst_dump_test.cc", "serial", ], [ "statistics_test", "monitoring/statistics_test.cc", "serial", ], [ "stringappend_test", "utilities/merge_operators/string_append/stringappend_test.cc", "serial", ], [ "table_properties_collector_test", "db/table_properties_collector_test.cc", "serial", ], [ "table_test", "table/table_test.cc", "parallel", ], [ "thread_list_test", "util/thread_list_test.cc", "serial", ], [ "thread_local_test", "util/thread_local_test.cc", "serial", ], [ "timer_queue_test", "util/timer_queue_test.cc", "serial", ], [ "trace_analyzer_test", "tools/trace_analyzer_test.cc", "serial", ], [ "transaction_test", "utilities/transactions/transaction_test.cc", "parallel", ], [ "ttl_test", "utilities/ttl/ttl_test.cc", "serial", ], [ "util_merge_operators_test", "utilities/util_merge_operators_test.cc", "serial", ], [ "version_builder_test", "db/version_builder_test.cc", "serial", ], [ "version_edit_test", "db/version_edit_test.cc", "serial", ], [ "version_set_test", "db/version_set_test.cc", "serial", ], [ "wal_manager_test", "db/wal_manager_test.cc", "serial", ], [ "write_batch_test", "db/write_batch_test.cc", "serial", ], [ "write_batch_with_index_test", "utilities/write_batch_with_index/write_batch_with_index_test.cc", "serial", ], [ "write_buffer_manager_test", "memtable/write_buffer_manager_test.cc", "serial", ], [ "write_callback_test", "db/write_callback_test.cc", "serial", ], [ "write_controller_test", "db/write_controller_test.cc", "serial", ], [ "write_prepared_transaction_test", "utilities/transactions/write_prepared_transaction_test.cc", "parallel", ], [ "write_unprepared_transaction_test", "utilities/transactions/write_unprepared_transaction_test.cc", "parallel", ], ] # Generate a test rule for each entry in ROCKS_TESTS # Do not build the tests in opt mode, since SyncPoint and other test code # will not be included. if not is_opt_mode: for test_cfg in ROCKS_TESTS: test_name = test_cfg[0] test_cc = test_cfg[1] ttype = "gtest" if test_cfg[2] == "parallel" else "simple" test_bin = test_name + "_bin" cpp_binary( name = test_bin, srcs = [test_cc], arch_preprocessor_flags = rocksdb_arch_preprocessor_flags, compiler_flags = rocksdb_compiler_flags, preprocessor_flags = rocksdb_preprocessor_flags, deps = [":rocksdb_test_lib"], external_deps = rocksdb_external_deps, ) custom_unittest( name = test_name, command = [TEST_RUNNER, BUCK_BINS + test_bin], type = ttype, deps = [":" + test_bin], ) rocksdb-5.17.2/USERS.md000066400000000000000000000131711337235545400144760ustar00rootroot00000000000000This document lists users of RocksDB and their use cases. If you are using RocksDB, please open a pull request and add yourself to the list. ## Facebook At Facebook, we use RocksDB as storage engines in multiple data management services and a backend for many different stateful services, including: 1. MyRocks -- https://github.com/MySQLOnRocksDB/mysql-5.6 2. MongoRocks -- https://github.com/mongodb-partners/mongo-rocks 3. ZippyDB -- Facebook's distributed key-value store with Paxos-style replication, built on top of RocksDB.[1] https://www.youtube.com/watch?v=DfiN7pG0D0khtt 4. Laser -- Laser is a high query throughput, low (millisecond) latency, key-value storage service built on top of RocksDB.[1] 4. Dragon -- a distributed graph query engine. https://code.facebook.com/posts/1737605303120405/dragon-a-distributed-graph-query-engine/ 5. Stylus -- a low-level stream processing framework writtenin C++.[1] 6. LogDevice -- a distributed data store for logs [2] [1] https://research.facebook.com/publications/realtime-data-processing-at-facebook/ [2] https://code.facebook.com/posts/357056558062811/logdevice-a-distributed-data-store-for-logs/ ## LinkedIn Two different use cases at Linkedin are using RocksDB as a storage engine: 1. LinkedIn's follow feed for storing user's activities. Check out the blog post: https://engineering.linkedin.com/blog/2016/03/followfeed--linkedin-s-feed-made-faster-and-smarter 2. Apache Samza, open source framework for stream processing Learn more about those use cases in a Tech Talk by Ankit Gupta and Naveen Somasundaram: http://www.youtube.com/watch?v=plqVp_OnSzg ## Yahoo Yahoo is using RocksDB as a storage engine for their biggest distributed data store Sherpa. Learn more about it here: http://yahooeng.tumblr.com/post/120730204806/sherpa-scales-new-heights ## CockroachDB CockroachDB is an open-source geo-replicated transactional database. They are using RocksDB as their storage engine. Check out their github: https://github.com/cockroachdb/cockroach ## DNANexus DNANexus is using RocksDB to speed up processing of genomics data. You can learn more from this great blog post by Mike Lin: http://devblog.dnanexus.com/faster-bam-sorting-with-samtools-and-rocksdb/ ## Iron.io Iron.io is using RocksDB as a storage engine for their distributed queueing system. Learn more from Tech Talk by Reed Allman: http://www.youtube.com/watch?v=HTjt6oj-RL4 ## Tango Me Tango is using RocksDB as a graph storage to store all users' connection data and other social activity data. ## Turn Turn is using RocksDB as a storage layer for their key/value store, serving at peak 2.4MM QPS out of different datacenters. Check out our RocksDB Protobuf merge operator at: https://github.com/vladb38/rocksdb_protobuf ## Santanader UK/Cloudera Profession Services Check out their blog post: http://blog.cloudera.com/blog/2015/08/inside-santanders-near-real-time-data-ingest-architecture/ ## Airbnb Airbnb is using RocksDB as a storage engine for their personalized search service. You can learn more about it here: https://www.youtube.com/watch?v=ASQ6XMtogMs ## Pinterest Pinterest's Object Retrieval System uses RocksDB for storage: https://www.youtube.com/watch?v=MtFEVEs_2Vo ## Smyte [Smyte](https://www.smyte.com/) uses RocksDB as the storage layer for their core key-value storage, high-performance counters and time-windowed HyperLogLog services. ## Rakuten Marketing [Rakuten Marketing](https://marketing.rakuten.com/) uses RocksDB as the disk cache layer for the real-time bidding service in their Performance DSP. ## VWO, Wingify [VWO's](https://vwo.com/) Smart Code checker and URL helper uses RocksDB to store all the URLs where VWO's Smart Code is installed. ## quasardb [quasardb](https://www.quasardb.net) is a high-performance, distributed, transactional key-value database that integrates well with in-memory analytics engines such as Apache Spark. quasardb uses a heavily tuned RocksDB as its persistence layer. ## Netflix [Netflix](http://techblog.netflix.com/2016/05/application-data-caching-using-ssds.html) Netflix uses RocksDB on AWS EC2 instances with local SSD drives to cache application data. ## TiKV [TiKV](https://github.com/pingcap/tikv) is a GEO-replicated, high-performance, distributed, transactional key-value database. TiKV is powered by Rust and Raft. TiKV uses RocksDB as its persistence layer. ## Apache Flink [Apache Flink](https://flink.apache.org/news/2016/03/08/release-1.0.0.html) uses RocksDB to store state locally on a machine. ## Dgraph [Dgraph](https://github.com/dgraph-io/dgraph) is an open-source, scalable, distributed, low latency, high throughput Graph database .They use RocksDB to store state locally on a machine. ## Uber [Uber](http://eng.uber.com/cherami/) uses RocksDB as a durable and scalable task queue. ## 360 Pika [360](http://www.360.cn/) [Pika](https://github.com/Qihoo360/pika) is a nosql compatible with redis. With the huge amount of data stored, redis may suffer for a capacity bottleneck, and pika was born for solving it. It has widely been widely used in many company ## LzLabs LzLabs is using RocksDB as a storage engine in their multi-database distributed framework to store application configuration and user data. ## ProfaneDB [ProfaneDB](https://profanedb.gitlab.io/) is a database for Protocol Buffers, and uses RocksDB for storage. It is accessible via gRPC, and the schema is defined using directly `.proto` files. ## IOTA Foundation [IOTA Foundation](https://www.iota.org/) is using RocksDB in the [IOTA Reference Implementation (IRI)](https://github.com/iotaledger/iri) to store the local state of the Tangle. The Tangle is the first open-source distributed ledger powering the future of the Internet of Things.rocksdb-5.17.2/Vagrantfile000066400000000000000000000017711337235545400154430ustar00rootroot00000000000000# Vagrant file Vagrant.configure("2") do |config| config.vm.provider "virtualbox" do |v| v.memory = 4096 v.cpus = 2 end config.vm.define "ubuntu14" do |box| box.vm.box = "ubuntu/trusty64" end config.vm.define "centos65" do |box| box.vm.box = "chef/centos-6.5" end config.vm.define "centos7" do |box| box.vm.box = "centos/7" box.vm.provision "shell", path: "build_tools/setup_centos7.sh" end config.vm.define "FreeBSD10" do |box| box.vm.guest = :freebsd box.vm.box = "robin/freebsd-10" # FreeBSD does not support 'mount_virtualbox_shared_folder', use NFS box.vm.synced_folder ".", "/vagrant", :nfs => true, id: "vagrant-root" box.vm.network "private_network", ip: "10.0.1.10" # build everything after creating VM, skip using --no-provision box.vm.provision "shell", inline: <<-SCRIPT pkg install -y gmake clang35 export CXX=/usr/local/bin/clang++35 cd /vagrant gmake clean gmake all OPT=-g SCRIPT end end rocksdb-5.17.2/WINDOWS_PORT.md000066400000000000000000000310451337235545400155730ustar00rootroot00000000000000# Microsoft Contribution Notes ## Contributors * Alexander Zinoviev https://github.com/zinoale * Dmitri Smirnov https://github.com/yuslepukhin * Praveen Rao https://github.com/PraveenSinghRao * Sherlock Huang https://github.com/SherlockNoMad ## Introduction RocksDB is a well proven open source key-value persistent store, optimized for fast storage. It provides scalability with number of CPUs and storage IOPS, to support IO-bound, in-memory and write-once workloads, most importantly, to be flexible to allow for innovation. As Microsoft Bing team we have been continuously pushing hard to improve the scalability, efficiency of platform and eventually benefit Bing end-user satisfaction. We would like to explore the opportunity to embrace open source, RocksDB here, to use, enhance and customize for our usage, and also contribute back to the RocksDB community. Herein, we are pleased to offer this RocksDB port for Windows platform. These notes describe some decisions and changes we had to make with regards to porting RocksDB on Windows. We hope this will help both reviewers and users of the Windows port. We are open for comments and improvements. ## OS specifics All of the porting, testing and benchmarking was done on Windows Server 2012 R2 Datacenter 64-bit but to the best of our knowledge there is not a specific API we used during porting that is unsupported on other Windows OS after Vista. ## Porting goals We strive to achieve the following goals: * make use of the existing porting interface of RocksDB * make minimum [WY2]modifications within platform independent code. * make all unit test pass both in debug and release builds. * Note: latest introduction of SyncPoint seems to disable running db_test in Release. * make performance on par with published benchmarks accounting for HW differences * we would like to keep the port code inline with the master branch with no forking ## Build system We have chosen CMake as a widely accepted build system to build the Windows port. It is very fast and convenient. At the same time it generates Visual Studio projects that are both usable from a command line and IDE. The top-level CMakeLists.txt file contains description of all targets and build rules. It also provides brief instructions on how to build the software for Windows. One more build related file is thirdparty.inc that also resides on the top level. This file must be edited to point to actual third party libraries location. We think that it would be beneficial to merge the existing make-based build system and the new cmake-based build system into a single one to use on all platforms. All building and testing was done for 64-bit. We have not conducted any testing for 32-bit and early reports indicate that it will not run on 32-bit. ## C++ and STL notes We had to make some minimum changes within the portable files that either account for OS differences or the shortcomings of C++11 support in the current version of the MS compiler. Most or all of them are expected to be fixed in the upcoming compiler releases. We plan to use this port for our business purposes here at Bing and this provided business justification for this port. This also means, we do not have at present to choose the compiler version at will. * Certain headers that are not present and not necessary on Windows were simply `#ifndef OS_WIN` in a few places (`unistd.h`) * All posix specific headers were replaced to port/port.h which worked well * Replaced `dirent.h` for `port/dirent.h` (very few places) with the implementation of the relevant interfaces within `rocksdb::port` namespace * Replaced `sys/time.h` to `port/sys_time.h` (few places) implemented equivalents within `rocksdb::port` * `printf %z` specification is not supported on Windows. To imitate existing standards we came up with a string macro `ROCKSDB_PRIszt` which expands to `zu` on posix systems and to `Iu` on windows. * in class member initialization were moved to a __ctors in some cases * `constexpr` is not supported. We had to replace `std::numeric_limits<>::max/min()` to its C macros for constants. Sometimes we had to make class members `static const` and place a definition within a .cc file. * `constexpr` for functions was replaced to a template specialization (1 place) * Union members that have non-trivial constructors were replaced to `char[]` in one place along with bug fixes (spatial experimental feature) * Zero-sized arrays are deemed a non-standard extension which we converted to 1 size array and that should work well for the purposes of these classes. * `std::chrono` lacks nanoseconds support (fixed in the upcoming release of the STL) and we had to use `QueryPerfCounter()` within env_win.cc * Function local statics initialization is still not safe. Used `std::once` to mitigate within WinEnv. ## Windows Environments notes We endeavored to make it functionally on par with posix_env. This means we replicated the functionality of the thread pool and other things as precise as possible, including: * Replicate posix logic using std:thread primitives. * Implement all posix_env disk access functionality. * Set `use_os_buffer=false` to disable OS disk buffering for WinWritableFile and WinRandomAccessFile. * Replace `pread/pwrite` with `WriteFile/ReadFile` with `OVERLAPPED` structure. * Use `SetFileInformationByHandle` to compensate absence of `fallocate`. ### In detail Even though Windows provides its own efficient thread-pool implementation we chose to replicate posix logic using `std::thread` primitives. This allows anyone to quickly detect any changes within the posix source code and replicate them within windows env. This has proven to work very well. At the same time for anyone who wishes to replace the built-in thread-pool can do so using RocksDB stackable environments. For disk access we implemented all of the functionality present within the posix_env which includes memory mapped files, random access, rate-limiter support etc. The `use_os_buffer` flag on Posix platforms currently denotes disabling read-ahead log via `fadvise` mechanism. Windows does not have `fadvise` system call. What is more, it implements disk cache in a way that differs from Linux greatly. It’s not an uncommon practice on Windows to perform un-buffered disk access to gain control of the memory consumption. We think that in our use case this may also be a good configuration option at the expense of disk throughput. To compensate one may increase the configured in-memory cache size instead. Thus we have chosen `use_os_buffer=false` to disable OS disk buffering for `WinWritableFile` and `WinRandomAccessFile`. The OS imposes restrictions on the alignment of the disk offsets, buffers used and the amount of data that is read/written when accessing files in un-buffered mode. When the option is true, the classes behave in a standard way. This allows to perform writes and reads in cases when un-buffered access does not make sense such as WAL and MANIFEST. We have replaced `pread/pwrite` with `WriteFile/ReadFile` with `OVERLAPPED` structure so we can atomically seek to the position of the disk operation but still perform the operation synchronously. Thus we able to emulate that functionality of `pread/pwrite` reasonably well. The only difference is that the file pointer is not returned to its original position but that hardly matters given the random nature of access. We used `SetFileInformationByHandle` both to truncate files after writing a full final page to disk and to pre-allocate disk space for faster I/O thus compensating for the absence of `fallocate` although some differences remain. For example, the pre-allocated space is not filled with zeros like on Linux, however, on a positive note, the end of file position is also not modified after pre-allocation. RocksDB renames, copies and deletes files at will even though they may be opened with another handle at the same time. We had to relax and allow nearly all the concurrent access permissions possible. ## Thread-Local Storage Thread-Local storage plays a significant role for RocksDB performance. Rather than creating a separate implementation we chose to create inline wrappers that forward `pthread_specific` calls to Windows `Tls` interfaces within `rocksdb::port` namespace. This leaves the existing meat of the logic in tact and unchanged and just as maintainable. To mitigate the lack of thread local storage cleanup on thread-exit we added a limited amount of windows specific code within the same thread_local.cc file that injects a cleanup callback into a `"__tls"` structure within `".CRT$XLB"` data segment. This approach guarantees that the callback is invoked regardless of whether RocksDB used within an executable, standalone DLL or within another DLL. ## Jemalloc usage When RocksDB is used with Jemalloc the latter needs to be initialized before any of the C++ globals or statics. To accomplish that we injected an initialization routine into `".CRT$XCT"` that is automatically invoked by the runtime before initializing static objects. je-uninit is queued to `atexit()`. The jemalloc redirecting `new/delete` global operators are used by the linker providing certain conditions are met. See build section in these notes. ## Stack Trace and Unhandled Exception Handler We decided not to implement these two features because the hosting program as a rule has these two things in it. We experienced no inconveniences debugging issues in the debugger or analyzing process dumps if need be and thus we did not see this as a priority. ## Performance results ### Setup All of the benchmarks are run on the same set of machines. Here are the details of the test setup: * 2 Intel(R) Xeon(R) E5 2450 0 @ 2.10 GHz (total 16 cores) * 2 XK0480GDQPH SSD Device, total 894GB free disk * Machine has 128 GB of RAM * Operating System: Windows Server 2012 R2 Datacenter * 100 Million keys; each key is of size 10 bytes, each value is of size 800 bytes * total database size is ~76GB * The performance result is based on RocksDB 3.11. * The parameters used, unless specified, were exactly the same as published in the GitHub Wiki page. ### RocksDB on flash storage #### Test 1. Bulk Load of keys in Random Order Version 3.11 * Total Run Time: 17.6 min * Fillrandom: 5.480 micros/op 182465 ops/sec; 142.0 MB/s * Compact: 486056544.000 micros/op 0 ops/sec Version 3.10 * Total Run Time: 16.2 min * Fillrandom: 5.018 micros/op 199269 ops/sec; 155.1 MB/s * Compact: 441313173.000 micros/op 0 ops/sec; #### Test 2. Bulk Load of keys in Sequential Order Version 3.11 * Fillseq: 4.944 micros/op 202k ops/sec; 157.4 MB/s Version 3.10 * Fillseq: 4.105 micros/op 243.6k ops/sec; 189.6 MB/s #### Test 3. Random Write Version 3.11 * Unbuffered I/O enabled * Overwrite: 52.661 micros/op 18.9k ops/sec; 14.8 MB/s Version 3.10 * Unbuffered I/O enabled * Overwrite: 52.661 micros/op 18.9k ops/sec; #### Test 4. Random Read Version 3.11 * Unbuffered I/O enabled * Readrandom: 15.716 micros/op 63.6k ops/sec; 49.5 MB/s Version 3.10 * Unbuffered I/O enabled * Readrandom: 15.548 micros/op 64.3k ops/sec; #### Test 5. Multi-threaded read and single-threaded write Version 3.11 * Unbuffered I/O enabled * Readwhilewriting: 25.128 micros/op 39.7k ops/sec; Version 3.10 * Unbuffered I/O enabled * Readwhilewriting: 24.854 micros/op 40.2k ops/sec; ### RocksDB In Memory #### Test 1. Point Lookup Version 3.11 80K writes/sec * Write Rate Achieved: 40.5k write/sec; * Readwhilewriting: 0.314 micros/op 3187455 ops/sec; 364.8 MB/s (715454999 of 715454999 found) Version 3.10 * Write Rate Achieved: 50.6k write/sec * Readwhilewriting: 0.316 micros/op 3162028 ops/sec; (719576999 of 719576999 found) *10K writes/sec* Version 3.11 * Write Rate Achieved: 5.8k/s write/sec * Readwhilewriting: 0.246 micros/op 4062669 ops/sec; 464.9 MB/s (915481999 of 915481999 found) Version 3.10 * Write Rate Achieved: 5.8k/s write/sec * Readwhilewriting: 0.244 micros/op 4106253 ops/sec; (927986999 of 927986999 found) #### Test 2. Prefix Range Query Version 3.11 80K writes/sec * Write Rate Achieved: 46.3k/s write/sec * Readwhilewriting: 0.362 micros/op 2765052 ops/sec; 316.4 MB/s (611549999 of 611549999 found) Version 3.10 * Write Rate Achieved: 45.8k/s write/sec * Readwhilewriting: 0.317 micros/op 3154941 ops/sec; (708158999 of 708158999 found) Version 3.11 10K writes/sec * Write Rate Achieved: 5.78k write/sec * Readwhilewriting: 0.269 micros/op 3716692 ops/sec; 425.3 MB/s (837401999 of 837401999 found) Version 3.10 * Write Rate Achieved: 5.7k write/sec * Readwhilewriting: 0.261 micros/op 3830152 ops/sec; (863482999 of 863482999 found) We think that there is still big room to improve the performance, which will be an ongoing effort for us. rocksdb-5.17.2/appveyor.yml000066400000000000000000000006541337235545400156450ustar00rootroot00000000000000version: 1.0.{build} image: Visual Studio 2017 before_build: - md %APPVEYOR_BUILD_FOLDER%\build - cd %APPVEYOR_BUILD_FOLDER%\build - cmake -G "Visual Studio 15 Win64" -DOPTDBG=1 -DWITH_XPRESS=1 -DPORTABLE=1 .. - cd .. build: project: build\rocksdb.sln parallel: true verbosity: normal test: test_script: - ps: build_tools\run_ci_db_test.ps1 -SuiteRun db_basic_test,db_test2,db_test,env_basic_test,env_test -Concurrency 8 rocksdb-5.17.2/buckifier/000077500000000000000000000000001337235545400152135ustar00rootroot00000000000000rocksdb-5.17.2/buckifier/buckify_rocksdb.py000066400000000000000000000121561337235545400207350ustar00rootroot00000000000000from __future__ import absolute_import from __future__ import division from __future__ import print_function from __future__ import unicode_literals from targets_builder import TARGETSBuilder import os import fnmatch import sys from util import ColorString # tests to export as libraries for inclusion in other projects _EXPORTED_TEST_LIBS = ["env_basic_test"] # Parse src.mk files as a Dictionary of # VAR_NAME => list of files def parse_src_mk(repo_path): src_mk = repo_path + "/src.mk" src_files = {} for line in open(src_mk): line = line.strip() if len(line) == 0 or line[0] == '#': continue if '=' in line: current_src = line.split('=')[0].strip() src_files[current_src] = [] elif '.cc' in line: src_path = line.split('.cc')[0].strip() + '.cc' src_files[current_src].append(src_path) return src_files # get all .cc / .c files def get_cc_files(repo_path): cc_files = [] for root, dirnames, filenames in os.walk(repo_path): # noqa: B007 T25377293 Grandfathered in root = root[(len(repo_path) + 1):] if "java" in root: # Skip java continue for filename in fnmatch.filter(filenames, '*.cc'): cc_files.append(os.path.join(root, filename)) for filename in fnmatch.filter(filenames, '*.c'): cc_files.append(os.path.join(root, filename)) return cc_files # Get tests from Makefile def get_tests(repo_path): Makefile = repo_path + "/Makefile" # Dictionary TEST_NAME => IS_PARALLEL tests = {} found_tests = False for line in open(Makefile): line = line.strip() if line.startswith("TESTS ="): found_tests = True elif found_tests: if line.endswith("\\"): # remove the trailing \ line = line[:-1] line = line.strip() tests[line] = False else: # we consumed all the tests break found_parallel_tests = False for line in open(Makefile): line = line.strip() if line.startswith("PARALLEL_TEST ="): found_parallel_tests = True elif found_parallel_tests: if line.endswith("\\"): # remove the trailing \ line = line[:-1] line = line.strip() tests[line] = True else: # we consumed all the parallel tests break return tests # Prepare TARGETS file for buck def generate_targets(repo_path): print(ColorString.info("Generating TARGETS")) # parsed src.mk file src_mk = parse_src_mk(repo_path) # get all .cc files cc_files = get_cc_files(repo_path) # get tests from Makefile tests = get_tests(repo_path) if src_mk is None or cc_files is None or tests is None: return False TARGETS = TARGETSBuilder("%s/TARGETS" % repo_path) # rocksdb_lib TARGETS.add_library( "rocksdb_lib", src_mk["LIB_SOURCES"] + src_mk["TOOL_LIB_SOURCES"]) # rocksdb_test_lib TARGETS.add_library( "rocksdb_test_lib", src_mk.get("MOCK_LIB_SOURCES", []) + src_mk.get("TEST_LIB_SOURCES", []) + src_mk.get("EXP_LIB_SOURCES", []) + src_mk.get("ANALYZER_LIB_SOURCES", []), [":rocksdb_lib"]) # rocksdb_tools_lib TARGETS.add_library( "rocksdb_tools_lib", src_mk.get("BENCH_LIB_SOURCES", []) + src_mk.get("ANALYZER_LIB_SOURCES", []) + ["util/testutil.cc"], [":rocksdb_lib"]) # test for every test we found in the Makefile for test in sorted(tests): match_src = [src for src in cc_files if ("/%s.c" % test) in src] if len(match_src) == 0: print(ColorString.warning("Cannot find .cc file for %s" % test)) continue elif len(match_src) > 1: print(ColorString.warning("Found more than one .cc for %s" % test)) print(match_src) continue assert(len(match_src) == 1) is_parallel = tests[test] TARGETS.register_test(test, match_src[0], is_parallel) if test in _EXPORTED_TEST_LIBS: test_library = "%s_lib" % test TARGETS.add_library(test_library, match_src, [":rocksdb_test_lib"]) TARGETS.flush_tests() print(ColorString.info("Generated TARGETS Summary:")) print(ColorString.info("- %d libs" % TARGETS.total_lib)) print(ColorString.info("- %d binarys" % TARGETS.total_bin)) print(ColorString.info("- %d tests" % TARGETS.total_test)) return True def get_rocksdb_path(): # rocksdb = {script_dir}/.. script_dir = os.path.dirname(sys.argv[0]) script_dir = os.path.abspath(script_dir) rocksdb_path = os.path.abspath( os.path.join(script_dir, "../")) return rocksdb_path def exit_with_error(msg): print(ColorString.error(msg)) sys.exit(1) def main(): # Generate TARGETS file for buck ok = generate_targets(get_rocksdb_path()) if not ok: exit_with_error("Failed to generate TARGETS files") if __name__ == "__main__": main() rocksdb-5.17.2/buckifier/rocks_test_runner.sh000077500000000000000000000003041337235545400213200ustar00rootroot00000000000000#!/usr/bin/env bash # Create a tmp directory for the test to use TEST_DIR=$(mktemp -d /dev/shm/fbcode_rocksdb_XXXXXXX) # shellcheck disable=SC2068 TEST_TMPDIR="$TEST_DIR" $@ && rm -rf "$TEST_DIR" rocksdb-5.17.2/buckifier/targets_builder.py000066400000000000000000000040141337235545400207430ustar00rootroot00000000000000from __future__ import absolute_import from __future__ import division from __future__ import print_function from __future__ import unicode_literals import targets_cfg def pretty_list(lst, indent=8): if lst is None or len(lst) == 0: return "" if len(lst) == 1: return "\"%s\"" % lst[0] separator = "\",\n%s\"" % (" " * indent) res = separator.join(sorted(lst)) res = "\n" + (" " * indent) + "\"" + res + "\",\n" + (" " * (indent - 4)) return res class TARGETSBuilder: def __init__(self, path): self.path = path self.targets_file = open(path, 'w') self.targets_file.write(targets_cfg.rocksdb_target_header) self.total_lib = 0 self.total_bin = 0 self.total_test = 0 self.tests_cfg = "" def __del__(self): self.targets_file.close() def add_library(self, name, srcs, deps=None, headers=None): headers_attr_prefix = "" if headers is None: headers_attr_prefix = "auto_" headers = "AutoHeaders.RECURSIVE_GLOB" self.targets_file.write(targets_cfg.library_template.format( name=name, srcs=pretty_list(srcs), headers_attr_prefix=headers_attr_prefix, headers=headers, deps=pretty_list(deps))) self.total_lib = self.total_lib + 1 def add_binary(self, name, srcs, deps=None): self.targets_file.write(targets_cfg.binary_template % ( name, pretty_list(srcs), pretty_list(deps))) self.total_bin = self.total_bin + 1 def register_test(self, test_name, src, is_parallel): exec_mode = "serial" if is_parallel: exec_mode = "parallel" self.tests_cfg += targets_cfg.test_cfg_template % ( test_name, str(src), str(exec_mode)) self.total_test = self.total_test + 1 def flush_tests(self): self.targets_file.write(targets_cfg.unittests_template % self.tests_cfg) self.tests_cfg = "" rocksdb-5.17.2/buckifier/targets_cfg.py000066400000000000000000000070461337235545400200640ustar00rootroot00000000000000from __future__ import absolute_import from __future__ import division from __future__ import print_function from __future__ import unicode_literals rocksdb_target_header = """load("@fbcode_macros//build_defs:auto_headers.bzl", "AutoHeaders") REPO_PATH = package_name() + "/" BUCK_BINS = "buck-out/gen/" + REPO_PATH TEST_RUNNER = REPO_PATH + "buckifier/rocks_test_runner.sh" rocksdb_compiler_flags = [ "-fno-builtin-memcmp", "-DROCKSDB_PLATFORM_POSIX", "-DROCKSDB_LIB_IO_POSIX", "-DROCKSDB_FALLOCATE_PRESENT", "-DROCKSDB_MALLOC_USABLE_SIZE", "-DROCKSDB_RANGESYNC_PRESENT", "-DROCKSDB_SCHED_GETCPU_PRESENT", "-DROCKSDB_SUPPORT_THREAD_LOCAL", "-DOS_LINUX", # Flags to enable libs we include "-DSNAPPY", "-DZLIB", "-DBZIP2", "-DLZ4", "-DZSTD", "-DGFLAGS=gflags", "-DNUMA", "-DTBB", # Needed to compile in fbcode "-Wno-expansion-to-defined", # Added missing flags from output of build_detect_platform "-DROCKSDB_PTHREAD_ADAPTIVE_MUTEX", "-DROCKSDB_BACKTRACE", "-Wnarrowing", ] rocksdb_external_deps = [ ("bzip2", None, "bz2"), ("snappy", None, "snappy"), ("zlib", None, "z"), ("gflags", None, "gflags"), ("lz4", None, "lz4"), ("zstd", None), ("tbb", None), ("numa", None, "numa"), ("googletest", None, "gtest"), ] rocksdb_preprocessor_flags = [ # Directories with files for #include "-I" + REPO_PATH + "include/", "-I" + REPO_PATH, ] rocksdb_arch_preprocessor_flags = { "x86_64": [ "-DHAVE_SSE42", "-DHAVE_PCLMUL", ], } build_mode = read_config("fbcode", "build_mode") is_opt_mode = build_mode.startswith("opt") # -DNDEBUG is added by default in opt mode in fbcode. But adding it twice # doesn't harm and avoid forgetting to add it. if is_opt_mode: rocksdb_compiler_flags.append("-DNDEBUG") """ library_template = """ cpp_library( name = "{name}", srcs = [{srcs}], {headers_attr_prefix}headers = {headers}, arch_preprocessor_flags = rocksdb_arch_preprocessor_flags, compiler_flags = rocksdb_compiler_flags, preprocessor_flags = rocksdb_preprocessor_flags, deps = [{deps}], external_deps = rocksdb_external_deps, ) """ binary_template = """ cpp_binary( name = "%s", srcs = [%s], arch_preprocessor_flags = rocksdb_arch_preprocessor_flags, compiler_flags = rocksdb_compiler_flags, preprocessor_flags = rocksdb_preprocessor_flags, deps = [%s], external_deps = rocksdb_external_deps, ) """ test_cfg_template = """ [ "%s", "%s", "%s", ], """ unittests_template = """ # [test_name, test_src, test_type] ROCKS_TESTS = [ %s] # Generate a test rule for each entry in ROCKS_TESTS # Do not build the tests in opt mode, since SyncPoint and other test code # will not be included. if not is_opt_mode: for test_cfg in ROCKS_TESTS: test_name = test_cfg[0] test_cc = test_cfg[1] ttype = "gtest" if test_cfg[2] == "parallel" else "simple" test_bin = test_name + "_bin" cpp_binary( name = test_bin, srcs = [test_cc], arch_preprocessor_flags = rocksdb_arch_preprocessor_flags, compiler_flags = rocksdb_compiler_flags, preprocessor_flags = rocksdb_preprocessor_flags, deps = [":rocksdb_test_lib"], external_deps = rocksdb_external_deps, ) custom_unittest( name = test_name, command = [TEST_RUNNER, BUCK_BINS + test_bin], type = ttype, deps = [":" + test_bin], ) """ rocksdb-5.17.2/buckifier/util.py000066400000000000000000000061741337235545400165520ustar00rootroot00000000000000""" This module keeps commonly used components. """ from __future__ import absolute_import from __future__ import division from __future__ import print_function from __future__ import unicode_literals import subprocess import os import time class ColorString: """ Generate colorful strings on terminal """ HEADER = '\033[95m' BLUE = '\033[94m' GREEN = '\033[92m' WARNING = '\033[93m' FAIL = '\033[91m' ENDC = '\033[0m' @staticmethod def _make_color_str(text, color): return "".join([color, text.encode('utf-8'), ColorString.ENDC]) @staticmethod def ok(text): if ColorString.is_disabled: return text return ColorString._make_color_str(text, ColorString.GREEN) @staticmethod def info(text): if ColorString.is_disabled: return text return ColorString._make_color_str(text, ColorString.BLUE) @staticmethod def header(text): if ColorString.is_disabled: return text return ColorString._make_color_str(text, ColorString.HEADER) @staticmethod def error(text): if ColorString.is_disabled: return text return ColorString._make_color_str(text, ColorString.FAIL) @staticmethod def warning(text): if ColorString.is_disabled: return text return ColorString._make_color_str(text, ColorString.WARNING) is_disabled = False def run_shell_command(shell_cmd, cmd_dir=None): """ Run a single shell command. @returns a tuple of shell command return code, stdout, stderr """ if cmd_dir is not None and not os.path.exists(cmd_dir): run_shell_command("mkdir -p %s" % cmd_dir) start = time.time() print("\t>>> Running: " + shell_cmd) p = subprocess.Popen(shell_cmd, shell=True, stdout=subprocess.PIPE, stderr=subprocess.PIPE, cwd=cmd_dir) stdout, stderr = p.communicate() end = time.time() # Report time if we spent more than 5 minutes executing a command execution_time = end - start if execution_time > (60 * 5): mins = (execution_time / 60) secs = (execution_time % 60) print("\t>time spent: %d minutes %d seconds" % (mins, secs)) return p.returncode, stdout, stderr def run_shell_commands(shell_cmds, cmd_dir=None, verbose=False): """ Execute a sequence of shell commands, which is equivalent to running `cmd1 && cmd2 && cmd3` @returns boolean indication if all commands succeeds. """ if cmd_dir: print("\t=== Set current working directory => %s" % cmd_dir) for shell_cmd in shell_cmds: ret_code, stdout, stderr = run_shell_command(shell_cmd, cmd_dir) if stdout: if verbose or ret_code != 0: print(ColorString.info("stdout: \n"), stdout) if stderr: # contents in stderr is not necessarily to be error messages. if verbose or ret_code != 0: print(ColorString.error("stderr: \n"), stderr) if ret_code != 0: return False return True rocksdb-5.17.2/build_tools/000077500000000000000000000000001337235545400155675ustar00rootroot00000000000000rocksdb-5.17.2/build_tools/RocksDBCommonHelper.php000066400000000000000000000274631337235545400221140ustar00rootroot00000000000000 0); assert(is_numeric($diffID)); assert(strlen($url) > 0); $cmd_args = array( 'diff_id' => (int)$diffID, 'name' => sprintf( 'click here for sandcastle tests for D%d', (int)$diffID ), 'link' => $url ); $cmd = 'echo ' . escapeshellarg(json_encode($cmd_args)) . ' | arc call-conduit differential.updateunitresults'; shell_exec($cmd); } function buildUpdateTestStatusCmd($diffID, $test, $status) { assert(strlen($diffID) > 0); assert(is_numeric($diffID)); assert(strlen($test) > 0); assert(strlen($status) > 0); $cmd_args = array( 'diff_id' => (int)$diffID, 'name' => $test, 'result' => $status ); $cmd = 'echo ' . escapeshellarg(json_encode($cmd_args)) . ' | arc call-conduit differential.updateunitresults'; return $cmd; } function updateTestStatus($diffID, $test) { assert(strlen($diffID) > 0); assert(is_numeric($diffID)); assert(strlen($test) > 0); shell_exec(buildUpdateTestStatusCmd($diffID, $test, "waiting")); } function getSteps($applyDiff, $diffID, $username, $test) { assert(strlen($username) > 0); assert(strlen($test) > 0); if ($applyDiff) { assert(strlen($diffID) > 0); assert(is_numeric($diffID)); $arcrc_content = (PHP_OS == "Darwin" ? exec("cat ~/.arcrc | gzip -f | base64") : exec("cat ~/.arcrc | gzip -f | base64 -w0")); assert(strlen($arcrc_content) > 0); // Sandcastle machines don't have arc setup. We copy the user certificate // and authenticate using that in Sandcastle. $setup = array( "name" => "Setup arcrc", "shell" => "echo " . escapeshellarg($arcrc_content) . " | base64 --decode" . " | gzip -d > ~/.arcrc", "user" => "root" ); // arc demands certain permission on its config. // also fix the sticky bit issue in sandcastle $fix_permission = array( "name" => "Fix environment", "shell" => "chmod 600 ~/.arcrc && chmod +t /dev/shm", "user" => "root" ); // Construct the steps in the order of execution. $steps[] = $setup; $steps[] = $fix_permission; } // fbcode is a sub-repo. We cannot patch until we add it to ignore otherwise // Git thinks it is an uncommited change. $fix_git_ignore = array( "name" => "Fix git ignore", "shell" => "echo fbcode >> .git/info/exclude", "user" => "root" ); // This fixes "FATAL: ThreadSanitizer can not mmap the shadow memory" // Source: // https://github.com/google/sanitizers/wiki/ThreadSanitizerCppManual#FAQ $fix_kernel_issue = array( "name" => "Fix kernel issue with tsan", "shell" => "echo 2 >/proc/sys/kernel/randomize_va_space", "user" => "root" ); $steps[] = $fix_git_ignore; $steps[] = $fix_kernel_issue; // This will be the command used to execute particular type of tests. $cmd = ""; if ($applyDiff) { // Patch the code (keep your fingures crossed). $patch = array( "name" => "Patch " . $diffID, "shell" => "arc --arcrc-file ~/.arcrc " . "patch --nocommit --diff " . escapeshellarg($diffID), "user" => "root" ); $steps[] = $patch; updateTestStatus($diffID, $test); $cmd = buildUpdateTestStatusCmd($diffID, $test, "running") . "; "; } // Run the actual command. $cmd = $cmd . "J=$(nproc) ./build_tools/precommit_checker.py " . escapeshellarg($test) . "; exit_code=$?; "; if ($applyDiff) { $cmd = $cmd . "([[ \$exit_code -eq 0 ]] &&" . buildUpdateTestStatusCmd($diffID, $test, "pass") . ")" . "||" . buildUpdateTestStatusCmd($diffID, $test, "fail") . "; "; } // shell command to sort the tests based on exit code and print // the output of the log files. $cat_sorted_logs = " while read code log_file; do echo \"################ cat \$log_file [exit_code : \$code] ################\"; cat \$log_file; done < <(tail -n +2 LOG | sort -k7,7n -k4,4gr | awk '{print \$7,\$NF}')"; // Shell command to cat all log files $cat_all_logs = "for f in `ls t/!(run-*)`; do echo \$f;cat \$f; done"; // If LOG file exist use it to cat log files sorted by exit code, otherwise // cat everything $logs_cmd = "if [ -f LOG ]; then {$cat_sorted_logs}; else {$cat_all_logs}; fi"; $cmd = $cmd . " cat /tmp/precommit-check.log" . "; shopt -s extglob; {$logs_cmd}" . "; shopt -u extglob; [[ \$exit_code -eq 0 ]]"; assert(strlen($cmd) > 0); $run_test = array( "name" => "Run " . $test, "shell" => $cmd, "user" => "root", "parser" => "python build_tools/error_filter.py " . escapeshellarg($test), ); $steps[] = $run_test; if ($applyDiff) { // Clean up the user arc config we are using. $cleanup = array( "name" => "Arc cleanup", "shell" => "rm -f ~/.arcrc", "user" => "root" ); $steps[] = $cleanup; } assert(count($steps) > 0); return $steps; } function getSandcastleConfig() { $sandcastle_config = array(); $cwd = getcwd(); $cwd_token_file = "{$cwd}/.sandcastle"; // This is a case when we're executed from a continuous run. Fetch the values // from the environment. if (getenv(ENV_POST_RECEIVE_HOOK)) { $sandcastle_config[0] = getenv(ENV_HTTPS_APP_VALUE); $sandcastle_config[1] = getenv(ENV_HTTPS_TOKEN_VALUE); } else { // This is a typical `[p]arc diff` case. Fetch the values from the specific // configuration files. for ($i = 0; $i < 50; $i++) { if (file_exists(PRIMARY_TOKEN_FILE) || file_exists($cwd_token_file)) { break; } // If we failed to fetch the tokens, sleep for 0.2 second and try again usleep(200000); } assert(file_exists(PRIMARY_TOKEN_FILE) || file_exists($cwd_token_file)); // Try the primary location first, followed by a secondary. if (file_exists(PRIMARY_TOKEN_FILE)) { $cmd = 'cat ' . PRIMARY_TOKEN_FILE; } else { $cmd = 'cat ' . escapeshellarg($cwd_token_file); } assert(strlen($cmd) > 0); $sandcastle_config = explode(':', rtrim(shell_exec($cmd))); } // In this case be very explicit about the implications. if (count($sandcastle_config) != 2) { echo "Sandcastle configuration files don't contain valid information " . "or the necessary environment variables aren't defined. Unable " . "to validate the code changes."; exit(1); } assert(strlen($sandcastle_config[0]) > 0); assert(strlen($sandcastle_config[1]) > 0); assert(count($sandcastle_config) > 0); return $sandcastle_config; } // This function can be called either from `[p]arc diff` command or during // the Git post-receive hook. function startTestsInSandcastle($applyDiff, $workflow, $diffID) { // Default options don't terminate on failure, but that's what we want. In // the current case we use assertions intentionally as "terminate on failure // invariants". assert_options(ASSERT_BAIL, true); // In case of a diff we'll send notificatios to the author. Else it'll go to // the entire team because failures indicate that build quality has regressed. $username = $applyDiff ? exec("whoami") : CONT_RUN_ALIAS; assert(strlen($username) > 0); if ($applyDiff) { assert($workflow); assert(strlen($diffID) > 0); assert(is_numeric($diffID)); } // List of tests we want to run in Sandcastle. $tests = array("unit", "unit_non_shm", "unit_481", "clang_unit", "tsan", "asan", "lite_test", "valgrind", "release", "release_481", "clang_release", "clang_analyze", "code_cov", "java_build", "no_compression", "unity", "ubsan"); $send_email_template = array( 'type' => 'email', 'triggers' => array('fail'), 'emails' => array($username . '@fb.com'), ); // Construct a job definition for each test and add it to the master plan. foreach ($tests as $test) { $stepName = "RocksDB diff " . $diffID . " test " . $test; if (!$applyDiff) { $stepName = "RocksDB continuous integration test " . $test; } $arg[] = array( "name" => $stepName, "report" => array($send_email_template), "steps" => getSteps($applyDiff, $diffID, $username, $test) ); } // We cannot submit the parallel execution master plan to Sandcastle and // need supply the job plan as a determinator. So we construct a small job // that will spit out the master job plan which Sandcastle will parse and // execute. Why compress the job definitions? Otherwise we run over the max // string size. $cmd = "echo " . base64_encode(json_encode($arg)) . (PHP_OS == "Darwin" ? " | gzip -f | base64" : " | gzip -f | base64 -w0"); assert(strlen($cmd) > 0); $arg_encoded = shell_exec($cmd); assert(strlen($arg_encoded) > 0); $runName = "Run diff " . $diffID . "for user " . $username; if (!$applyDiff) { $runName = "RocksDB continuous integration build and test run"; } $command = array( "name" => $runName, "steps" => array() ); $command["steps"][] = array( "name" => "Generate determinator", "shell" => "echo " . $arg_encoded . " | base64 --decode | gzip -d" . " | base64 --decode", "determinator" => true, "user" => "root" ); // Submit to Sandcastle. $url = 'https://interngraph.intern.facebook.com/sandcastle/create'; $job = array( 'command' => 'SandcastleUniversalCommand', 'args' => $command, 'capabilities' => array( 'vcs' => 'rocksdb-int-git', 'type' => 'lego', ), 'hash' => 'origin/master', 'user' => $username, 'alias' => 'rocksdb-precommit', 'tags' => array('rocksdb'), 'description' => 'Rocksdb precommit job', ); // Fetch the configuration necessary to submit a successful HTTPS request. $sandcastle_config = getSandcastleConfig(); $app = $sandcastle_config[0]; $token = $sandcastle_config[1]; $cmd = 'curl -s -k ' . ' -F app=' . escapeshellarg($app) . ' -F token=' . escapeshellarg($token) . ' -F job=' . escapeshellarg(json_encode($job)) .' ' . escapeshellarg($url); $output = shell_exec($cmd); assert(strlen($output) > 0); // Extract Sandcastle URL from the response. preg_match('/url": "(.+)"/', $output, $sandcastle_url); assert(count($sandcastle_url) > 0, "Unable to submit Sandcastle request."); assert(strlen($sandcastle_url[1]) > 0, "Unable to extract Sandcastle URL."); if ($applyDiff) { echo "\nSandcastle URL: " . $sandcastle_url[1] . "\n"; // Ask Phabricator to display it on the diff UI. postURL($diffID, $sandcastle_url[1]); } else { echo "Continuous integration started Sandcastle tests. You can look at "; echo "the progress at:\n" . $sandcastle_url[1] . "\n"; } } // Continuous run cript will set the environment variable and based on that // we'll trigger the execution of tests in Sandcastle. In that case we don't // need to apply any diffs and there's no associated workflow either. if (getenv(ENV_POST_RECEIVE_HOOK)) { startTestsInSandcastle( false /* $applyDiff */, NULL /* $workflow */, NULL /* $diffID */); } rocksdb-5.17.2/build_tools/amalgamate.py000077500000000000000000000111341337235545400202350ustar00rootroot00000000000000#!/usr/bin/python # amalgamate.py creates an amalgamation from a unity build. # It can be run with either Python 2 or 3. # An amalgamation consists of a header that includes the contents of all public # headers and a source file that includes the contents of all source files and # private headers. # # This script works by starting with the unity build file and recursively expanding # #include directives. If the #include is found in a public include directory, # that header is expanded into the amalgamation header. # # A particular header is only expanded once, so this script will # break if there are multiple inclusions of the same header that are expected to # expand differently. Similarly, this type of code causes issues: # # #ifdef FOO # #include "bar.h" # // code here # #else # #include "bar.h" // oops, doesn't get expanded # // different code here # #endif # # The solution is to move the include out of the #ifdef. from __future__ import print_function import argparse from os import path import re import sys include_re = re.compile('^[ \t]*#include[ \t]+"(.*)"[ \t]*$') included = set() excluded = set() def find_header(name, abs_path, include_paths): samedir = path.join(path.dirname(abs_path), name) if path.exists(samedir): return samedir for include_path in include_paths: include_path = path.join(include_path, name) if path.exists(include_path): return include_path return None def expand_include(include_path, f, abs_path, source_out, header_out, include_paths, public_include_paths): if include_path in included: return False included.add(include_path) with open(include_path) as f: print('#line 1 "{}"'.format(include_path), file=source_out) process_file(f, include_path, source_out, header_out, include_paths, public_include_paths) return True def process_file(f, abs_path, source_out, header_out, include_paths, public_include_paths): for (line, text) in enumerate(f): m = include_re.match(text) if m: filename = m.groups()[0] # first check private headers include_path = find_header(filename, abs_path, include_paths) if include_path: if include_path in excluded: source_out.write(text) expanded = False else: expanded = expand_include(include_path, f, abs_path, source_out, header_out, include_paths, public_include_paths) else: # now try public headers include_path = find_header(filename, abs_path, public_include_paths) if include_path: # found public header expanded = False if include_path in excluded: source_out.write(text) else: expand_include(include_path, f, abs_path, header_out, None, public_include_paths, []) else: sys.exit("unable to find {}, included in {} on line {}".format(filename, abs_path, line)) if expanded: print('#line {} "{}"'.format(line+1, abs_path), file=source_out) elif text != "#pragma once\n": source_out.write(text) def main(): parser = argparse.ArgumentParser(description="Transform a unity build into an amalgamation") parser.add_argument("source", help="source file") parser.add_argument("-I", action="append", dest="include_paths", help="include paths for private headers") parser.add_argument("-i", action="append", dest="public_include_paths", help="include paths for public headers") parser.add_argument("-x", action="append", dest="excluded", help="excluded header files") parser.add_argument("-o", dest="source_out", help="output C++ file", required=True) parser.add_argument("-H", dest="header_out", help="output C++ header file", required=True) args = parser.parse_args() include_paths = list(map(path.abspath, args.include_paths or [])) public_include_paths = list(map(path.abspath, args.public_include_paths or [])) excluded.update(map(path.abspath, args.excluded or [])) filename = args.source abs_path = path.abspath(filename) with open(filename) as f, open(args.source_out, 'w') as source_out, open(args.header_out, 'w') as header_out: print('#line 1 "{}"'.format(filename), file=source_out) print('#include "{}"'.format(header_out.name), file=source_out) process_file(f, abs_path, source_out, header_out, include_paths, public_include_paths) if __name__ == "__main__": main() rocksdb-5.17.2/build_tools/build_detect_platform000077500000000000000000000517151337235545400220610ustar00rootroot00000000000000#!/usr/bin/env bash # # Detects OS we're compiling on and outputs a file specified by the first # argument, which in turn gets read while processing Makefile. # # The output will set the following variables: # CC C Compiler path # CXX C++ Compiler path # PLATFORM_LDFLAGS Linker flags # JAVA_LDFLAGS Linker flags for RocksDBJava # JAVA_STATIC_LDFLAGS Linker flags for RocksDBJava static build # PLATFORM_SHARED_EXT Extension for shared libraries # PLATFORM_SHARED_LDFLAGS Flags for building shared library # PLATFORM_SHARED_CFLAGS Flags for compiling objects for shared library # PLATFORM_CCFLAGS C compiler flags # PLATFORM_CXXFLAGS C++ compiler flags. Will contain: # PLATFORM_SHARED_VERSIONED Set to 'true' if platform supports versioned # shared libraries, empty otherwise. # FIND Command for the find utility # WATCH Command for the watch utility # # The PLATFORM_CCFLAGS and PLATFORM_CXXFLAGS might include the following: # # -DROCKSDB_PLATFORM_POSIX if posix-platform based # -DSNAPPY if the Snappy library is present # -DLZ4 if the LZ4 library is present # -DZSTD if the ZSTD library is present # -DNUMA if the NUMA library is present # -DTBB if the TBB library is present # # Using gflags in rocksdb: # Our project depends on gflags, which requires users to take some extra steps # before they can compile the whole repository: # 1. Install gflags. You may download it from here: # https://gflags.github.io/gflags/ (Mac users can `brew install gflags`) # 2. Once installed, add the include path for gflags to your CPATH env var and # the lib path to LIBRARY_PATH. If installed with default settings, the lib # will be /usr/local/lib and the include path will be /usr/local/include OUTPUT=$1 if test -z "$OUTPUT"; then echo "usage: $0 " >&2 exit 1 fi # we depend on C++11 PLATFORM_CXXFLAGS="-std=c++11" # we currently depend on POSIX platform COMMON_FLAGS="-DROCKSDB_PLATFORM_POSIX -DROCKSDB_LIB_IO_POSIX" # Default to fbcode gcc on internal fb machines if [ -z "$ROCKSDB_NO_FBCODE" -a -d /mnt/gvfs/third-party ]; then FBCODE_BUILD="true" # If we're compiling with TSAN we need pic build PIC_BUILD=$COMPILE_WITH_TSAN if [ -z "$ROCKSDB_FBCODE_BUILD_WITH_481" ]; then source "$PWD/build_tools/fbcode_config.sh" else # we need this to build with MySQL. Don't use for other purposes. source "$PWD/build_tools/fbcode_config4.8.1.sh" fi fi # Delete existing output, if it exists rm -f "$OUTPUT" touch "$OUTPUT" if test -z "$CC"; then if [ -x "$(command -v cc)" ]; then CC=cc elif [ -x "$(command -v clang)" ]; then CC=clang else CC=cc fi fi if test -z "$CXX"; then if [ -x "$(command -v g++)" ]; then CXX=g++ elif [ -x "$(command -v clang++)" ]; then CXX=clang++ else CXX=g++ fi fi # Detect OS if test -z "$TARGET_OS"; then TARGET_OS=`uname -s` fi if test -z "$TARGET_ARCHITECTURE"; then TARGET_ARCHITECTURE=`uname -m` fi if test -z "$CLANG_SCAN_BUILD"; then CLANG_SCAN_BUILD=scan-build fi if test -z "$CLANG_ANALYZER"; then CLANG_ANALYZER=$(command -v clang++ 2> /dev/null) fi if test -z "$FIND"; then FIND=find fi if test -z "$WATCH"; then WATCH=watch fi COMMON_FLAGS="$COMMON_FLAGS ${CFLAGS}" CROSS_COMPILE= PLATFORM_CCFLAGS= PLATFORM_LDFLAGS="$PLATFORM_LDFLAGS" PLATFORM_SHARED_EXT="so" PLATFORM_SHARED_LDFLAGS="-Wl,--no-as-needed -shared -Wl,-soname -Wl," PLATFORM_SHARED_CFLAGS="-fPIC" PLATFORM_SHARED_VERSIONED=true # generic port files (working on all platform by #ifdef) go directly in /port GENERIC_PORT_FILES=`cd "$ROCKSDB_ROOT"; find port -name '*.cc' | tr "\n" " "` # On GCC, we pick libc's memcmp over GCC's memcmp via -fno-builtin-memcmp case "$TARGET_OS" in Darwin) PLATFORM=OS_MACOSX COMMON_FLAGS="$COMMON_FLAGS -DOS_MACOSX" PLATFORM_SHARED_EXT=dylib PLATFORM_SHARED_LDFLAGS="-dynamiclib -install_name " # PORT_FILES=port/darwin/darwin_specific.cc ;; IOS) PLATFORM=IOS COMMON_FLAGS="$COMMON_FLAGS -DOS_MACOSX -DIOS_CROSS_COMPILE -DROCKSDB_LITE" PLATFORM_SHARED_EXT=dylib PLATFORM_SHARED_LDFLAGS="-dynamiclib -install_name " CROSS_COMPILE=true PLATFORM_SHARED_VERSIONED= ;; Linux) PLATFORM=OS_LINUX COMMON_FLAGS="$COMMON_FLAGS -DOS_LINUX" if [ -z "$USE_CLANG" ]; then COMMON_FLAGS="$COMMON_FLAGS -fno-builtin-memcmp" else PLATFORM_LDFLAGS="$PLATFORM_LDFLAGS -latomic" fi PLATFORM_LDFLAGS="$PLATFORM_LDFLAGS -lpthread -lrt" # PORT_FILES=port/linux/linux_specific.cc ;; SunOS) PLATFORM=OS_SOLARIS COMMON_FLAGS="$COMMON_FLAGS -fno-builtin-memcmp -D_REENTRANT -DOS_SOLARIS -m64" PLATFORM_LDFLAGS="$PLATFORM_LDFLAGS -lpthread -lrt -static-libstdc++ -static-libgcc -m64" # PORT_FILES=port/sunos/sunos_specific.cc ;; AIX) PLATFORM=OS_AIX CC=gcc COMMON_FLAGS="$COMMON_FLAGS -maix64 -pthread -fno-builtin-memcmp -D_REENTRANT -DOS_AIX -D__STDC_FORMAT_MACROS" PLATFORM_LDFLAGS="$PLATFORM_LDFLAGS -pthread -lpthread -lrt -maix64 -static-libstdc++ -static-libgcc" # PORT_FILES=port/aix/aix_specific.cc ;; FreeBSD) PLATFORM=OS_FREEBSD CXX=clang++ COMMON_FLAGS="$COMMON_FLAGS -fno-builtin-memcmp -D_REENTRANT -DOS_FREEBSD" PLATFORM_LDFLAGS="$PLATFORM_LDFLAGS -lpthread" # PORT_FILES=port/freebsd/freebsd_specific.cc ;; NetBSD) PLATFORM=OS_NETBSD COMMON_FLAGS="$COMMON_FLAGS -fno-builtin-memcmp -D_REENTRANT -DOS_NETBSD" PLATFORM_LDFLAGS="$PLATFORM_LDFLAGS -lpthread -lgcc_s" # PORT_FILES=port/netbsd/netbsd_specific.cc ;; OpenBSD) PLATFORM=OS_OPENBSD CXX=clang++ COMMON_FLAGS="$COMMON_FLAGS -fno-builtin-memcmp -D_REENTRANT -DOS_OPENBSD" PLATFORM_LDFLAGS="$PLATFORM_LDFLAGS -pthread" # PORT_FILES=port/openbsd/openbsd_specific.cc FIND=gfind WATCH=gnuwatch ;; DragonFly) PLATFORM=OS_DRAGONFLYBSD COMMON_FLAGS="$COMMON_FLAGS -fno-builtin-memcmp -D_REENTRANT -DOS_DRAGONFLYBSD" PLATFORM_LDFLAGS="$PLATFORM_LDFLAGS -lpthread" # PORT_FILES=port/dragonfly/dragonfly_specific.cc ;; Cygwin) PLATFORM=CYGWIN PLATFORM_SHARED_CFLAGS="" PLATFORM_CXXFLAGS="-std=gnu++11" COMMON_FLAGS="$COMMON_FLAGS -DCYGWIN" if [ -z "$USE_CLANG" ]; then COMMON_FLAGS="$COMMON_FLAGS -fno-builtin-memcmp" else PLATFORM_LDFLAGS="$PLATFORM_LDFLAGS -latomic" fi PLATFORM_LDFLAGS="$PLATFORM_LDFLAGS -lpthread -lrt" # PORT_FILES=port/linux/linux_specific.cc ;; OS_ANDROID_CROSSCOMPILE) PLATFORM=OS_ANDROID COMMON_FLAGS="$COMMON_FLAGS -fno-builtin-memcmp -D_REENTRANT -DOS_ANDROID -DROCKSDB_PLATFORM_POSIX" PLATFORM_LDFLAGS="$PLATFORM_LDFLAGS " # All pthread features are in the Android C library # PORT_FILES=port/android/android.cc CROSS_COMPILE=true ;; *) echo "Unknown platform!" >&2 exit 1 esac PLATFORM_CXXFLAGS="$PLATFORM_CXXFLAGS ${CXXFLAGS}" JAVA_LDFLAGS="$PLATFORM_LDFLAGS" JAVA_STATIC_LDFLAGS="$PLATFORM_LDFLAGS" if [ "$CROSS_COMPILE" = "true" -o "$FBCODE_BUILD" = "true" ]; then # Cross-compiling; do not try any compilation tests. # Also don't need any compilation tests if compiling on fbcode true else if ! test $ROCKSDB_DISABLE_FALLOCATE; then # Test whether fallocate is available $CXX $CFLAGS -x c++ - -o /dev/null 2>/dev/null < #include int main() { int fd = open("/dev/null", 0); fallocate(fd, FALLOC_FL_KEEP_SIZE | FALLOC_FL_PUNCH_HOLE, 0, 1024); } EOF if [ "$?" = 0 ]; then COMMON_FLAGS="$COMMON_FLAGS -DROCKSDB_FALLOCATE_PRESENT" fi fi if ! test $ROCKSDB_DISABLE_SNAPPY; then # Test whether Snappy library is installed # http://code.google.com/p/snappy/ $CXX $CFLAGS -x c++ - -o /dev/null 2>/dev/null < int main() {} EOF if [ "$?" = 0 ]; then COMMON_FLAGS="$COMMON_FLAGS -DSNAPPY" PLATFORM_LDFLAGS="$PLATFORM_LDFLAGS -lsnappy" JAVA_LDFLAGS="$JAVA_LDFLAGS -lsnappy" fi fi if ! test $ROCKSDB_DISABLE_GFLAGS; then # Test whether gflags library is installed # http://gflags.github.io/gflags/ # check if the namespace is gflags $CXX $CFLAGS -x c++ - -o /dev/null 2>/dev/null << EOF #include int main() {} EOF if [ "$?" = 0 ]; then COMMON_FLAGS="$COMMON_FLAGS -DGFLAGS=1" PLATFORM_LDFLAGS="$PLATFORM_LDFLAGS -lgflags" else # check if namespace is google $CXX $CFLAGS -x c++ - -o /dev/null 2>/dev/null << EOF #include using namespace google; int main() {} EOF if [ "$?" = 0 ]; then COMMON_FLAGS="$COMMON_FLAGS -DGFLAGS=google" PLATFORM_LDFLAGS="$PLATFORM_LDFLAGS -lgflags" fi fi fi if ! test $ROCKSDB_DISABLE_ZLIB; then # Test whether zlib library is installed $CXX $CFLAGS $COMMON_FLAGS -x c++ - -o /dev/null 2>/dev/null < int main() {} EOF if [ "$?" = 0 ]; then COMMON_FLAGS="$COMMON_FLAGS -DZLIB" PLATFORM_LDFLAGS="$PLATFORM_LDFLAGS -lz" JAVA_LDFLAGS="$JAVA_LDFLAGS -lz" fi fi if ! test $ROCKSDB_DISABLE_BZIP; then # Test whether bzip library is installed $CXX $CFLAGS $COMMON_FLAGS -x c++ - -o /dev/null 2>/dev/null < int main() {} EOF if [ "$?" = 0 ]; then COMMON_FLAGS="$COMMON_FLAGS -DBZIP2" PLATFORM_LDFLAGS="$PLATFORM_LDFLAGS -lbz2" JAVA_LDFLAGS="$JAVA_LDFLAGS -lbz2" fi fi if ! test $ROCKSDB_DISABLE_LZ4; then # Test whether lz4 library is installed $CXX $CFLAGS $COMMON_FLAGS -x c++ - -o /dev/null 2>/dev/null < #include int main() {} EOF if [ "$?" = 0 ]; then COMMON_FLAGS="$COMMON_FLAGS -DLZ4" PLATFORM_LDFLAGS="$PLATFORM_LDFLAGS -llz4" JAVA_LDFLAGS="$JAVA_LDFLAGS -llz4" fi fi if ! test $ROCKSDB_DISABLE_ZSTD; then # Test whether zstd library is installed $CXX $CFLAGS $COMMON_FLAGS -x c++ - -o /dev/null 2>/dev/null < int main() {} EOF if [ "$?" = 0 ]; then COMMON_FLAGS="$COMMON_FLAGS -DZSTD" PLATFORM_LDFLAGS="$PLATFORM_LDFLAGS -lzstd" JAVA_LDFLAGS="$JAVA_LDFLAGS -lzstd" fi fi if ! test $ROCKSDB_DISABLE_NUMA; then # Test whether numa is available $CXX $CFLAGS -x c++ - -o /dev/null -lnuma 2>/dev/null < #include int main() {} EOF if [ "$?" = 0 ]; then COMMON_FLAGS="$COMMON_FLAGS -DNUMA" PLATFORM_LDFLAGS="$PLATFORM_LDFLAGS -lnuma" JAVA_LDFLAGS="$JAVA_LDFLAGS -lnuma" fi fi if ! test $ROCKSDB_DISABLE_TBB; then # Test whether tbb is available $CXX $CFLAGS $LDFLAGS -x c++ - -o /dev/null -ltbb 2>/dev/null < int main() {} EOF if [ "$?" = 0 ]; then COMMON_FLAGS="$COMMON_FLAGS -DTBB" PLATFORM_LDFLAGS="$PLATFORM_LDFLAGS -ltbb" JAVA_LDFLAGS="$JAVA_LDFLAGS -ltbb" fi fi if ! test $ROCKSDB_DISABLE_JEMALLOC; then # Test whether jemalloc is available if echo 'int main() {}' | $CXX $CFLAGS -x c++ - -o /dev/null -ljemalloc \ 2>/dev/null; then # This will enable some preprocessor identifiers in the Makefile JEMALLOC=1 # JEMALLOC can be enabled either using the flag (like here) or by # providing direct link to the jemalloc library WITH_JEMALLOC_FLAG=1 fi fi if ! test $JEMALLOC && ! test $ROCKSDB_DISABLE_TCMALLOC; then # jemalloc is not available. Let's try tcmalloc if echo 'int main() {}' | $CXX $CFLAGS -x c++ - -o /dev/null \ -ltcmalloc 2>/dev/null; then PLATFORM_LDFLAGS="$PLATFORM_LDFLAGS -ltcmalloc" JAVA_LDFLAGS="$JAVA_LDFLAGS -ltcmalloc" fi fi if ! test $ROCKSDB_DISABLE_MALLOC_USABLE_SIZE; then # Test whether malloc_usable_size is available $CXX $CFLAGS -x c++ - -o /dev/null 2>/dev/null < int main() { size_t res = malloc_usable_size(0); return 0; } EOF if [ "$?" = 0 ]; then COMMON_FLAGS="$COMMON_FLAGS -DROCKSDB_MALLOC_USABLE_SIZE" fi fi if ! test $ROCKSDB_DISABLE_PTHREAD_MUTEX_ADAPTIVE_NP; then # Test whether PTHREAD_MUTEX_ADAPTIVE_NP mutex type is available $CXX $CFLAGS -x c++ - -o /dev/null 2>/dev/null < int main() { int x = PTHREAD_MUTEX_ADAPTIVE_NP; return 0; } EOF if [ "$?" = 0 ]; then COMMON_FLAGS="$COMMON_FLAGS -DROCKSDB_PTHREAD_ADAPTIVE_MUTEX" fi fi if ! test $ROCKSDB_DISABLE_BACKTRACE; then # Test whether backtrace is available $CXX $CFLAGS -x c++ - -o /dev/null 2>/dev/null <> int main() { void* frames[1]; backtrace_symbols(frames, backtrace(frames, 1)); return 0; } EOF if [ "$?" = 0 ]; then COMMON_FLAGS="$COMMON_FLAGS -DROCKSDB_BACKTRACE" else # Test whether execinfo library is installed $CXX $CFLAGS -lexecinfo -x c++ - -o /dev/null 2>/dev/null < int main() { void* frames[1]; backtrace_symbols(frames, backtrace(frames, 1)); } EOF if [ "$?" = 0 ]; then COMMON_FLAGS="$COMMON_FLAGS -DROCKSDB_BACKTRACE" PLATFORM_LDFLAGS="$PLATFORM_LDFLAGS -lexecinfo" JAVA_LDFLAGS="$JAVA_LDFLAGS -lexecinfo" fi fi fi if ! test $ROCKSDB_DISABLE_PG; then # Test if -pg is supported $CXX $CFLAGS -pg -x c++ - -o /dev/null 2>/dev/null </dev/null < int main() { int fd = open("/dev/null", 0); sync_file_range(fd, 0, 1024, SYNC_FILE_RANGE_WRITE); } EOF if [ "$?" = 0 ]; then COMMON_FLAGS="$COMMON_FLAGS -DROCKSDB_RANGESYNC_PRESENT" fi fi if ! test $ROCKSDB_DISABLE_SCHED_GETCPU; then # Test whether sched_getcpu is supported $CXX $CFLAGS -x c++ - -o /dev/null 2>/dev/null < int main() { int cpuid = sched_getcpu(); } EOF if [ "$?" = 0 ]; then COMMON_FLAGS="$COMMON_FLAGS -DROCKSDB_SCHED_GETCPU_PRESENT" fi fi fi # TODO(tec): Fix -Wshorten-64-to-32 errors on FreeBSD and enable the warning. # -Wshorten-64-to-32 breaks compilation on FreeBSD i386 if ! [ "$TARGET_OS" = FreeBSD -a "$TARGET_ARCHITECTURE" = i386 ]; then # Test whether -Wshorten-64-to-32 is available $CXX $CFLAGS -x c++ - -o /dev/null -Wshorten-64-to-32 2>/dev/null </dev/null < #include int main() { volatile uint32_t x = _mm_crc32_u32(0, 0); } EOF if [ "$?" = 0 ]; then COMMON_FLAGS="$COMMON_FLAGS -DHAVE_SSE42" elif test "$USE_SSE"; then echo "warning: USE_SSE specified but compiler could not use SSE intrinsics, disabling" exit 1 fi $CXX $PLATFORM_CXXFLAGS $COMMON_FLAGS -x c++ - -o /dev/null 2>/dev/null < #include int main() { const auto a = _mm_set_epi64x(0, 0); const auto b = _mm_set_epi64x(0, 0); const auto c = _mm_clmulepi64_si128(a, b, 0x00); auto d = _mm_cvtsi128_si64(c); } EOF if [ "$?" = 0 ]; then COMMON_FLAGS="$COMMON_FLAGS -DHAVE_PCLMUL" elif test "$USE_SSE"; then echo "warning: USE_SSE specified but compiler could not use PCLMUL intrinsics, disabling" exit 1 fi # iOS doesn't support thread-local storage, but this check would erroneously # succeed because the cross-compiler flags are added by the Makefile, not this # script. if [ "$PLATFORM" != IOS ]; then $CXX $COMMON_FLAGS -x c++ - -o /dev/null 2>/dev/null <> "$OUTPUT" echo "CXX=$CXX" >> "$OUTPUT" echo "PLATFORM=$PLATFORM" >> "$OUTPUT" echo "PLATFORM_LDFLAGS=$PLATFORM_LDFLAGS" >> "$OUTPUT" echo "JAVA_LDFLAGS=$JAVA_LDFLAGS" >> "$OUTPUT" echo "JAVA_STATIC_LDFLAGS=$JAVA_STATIC_LDFLAGS" >> "$OUTPUT" echo "VALGRIND_VER=$VALGRIND_VER" >> "$OUTPUT" echo "PLATFORM_CCFLAGS=$PLATFORM_CCFLAGS" >> "$OUTPUT" echo "PLATFORM_CXXFLAGS=$PLATFORM_CXXFLAGS" >> "$OUTPUT" echo "PLATFORM_SHARED_CFLAGS=$PLATFORM_SHARED_CFLAGS" >> "$OUTPUT" echo "PLATFORM_SHARED_EXT=$PLATFORM_SHARED_EXT" >> "$OUTPUT" echo "PLATFORM_SHARED_LDFLAGS=$PLATFORM_SHARED_LDFLAGS" >> "$OUTPUT" echo "PLATFORM_SHARED_VERSIONED=$PLATFORM_SHARED_VERSIONED" >> "$OUTPUT" echo "EXEC_LDFLAGS=$EXEC_LDFLAGS" >> "$OUTPUT" echo "JEMALLOC_INCLUDE=$JEMALLOC_INCLUDE" >> "$OUTPUT" echo "JEMALLOC_LIB=$JEMALLOC_LIB" >> "$OUTPUT" echo "ROCKSDB_MAJOR=$ROCKSDB_MAJOR" >> "$OUTPUT" echo "ROCKSDB_MINOR=$ROCKSDB_MINOR" >> "$OUTPUT" echo "ROCKSDB_PATCH=$ROCKSDB_PATCH" >> "$OUTPUT" echo "CLANG_SCAN_BUILD=$CLANG_SCAN_BUILD" >> "$OUTPUT" echo "CLANG_ANALYZER=$CLANG_ANALYZER" >> "$OUTPUT" echo "PROFILING_FLAGS=$PROFILING_FLAGS" >> "$OUTPUT" echo "FIND=$FIND" >> "$OUTPUT" echo "WATCH=$WATCH" >> "$OUTPUT" # This will enable some related identifiers for the preprocessor if test -n "$JEMALLOC"; then echo "JEMALLOC=1" >> "$OUTPUT" fi # Indicates that jemalloc should be enabled using -ljemalloc flag # The alternative is to porvide a direct link to the library via JEMALLOC_LIB # and JEMALLOC_INCLUDE if test -n "$WITH_JEMALLOC_FLAG"; then echo "WITH_JEMALLOC_FLAG=$WITH_JEMALLOC_FLAG" >> "$OUTPUT" fi echo "LUA_PATH=$LUA_PATH" >> "$OUTPUT" rocksdb-5.17.2/build_tools/cont_integration.sh000077500000000000000000000066621337235545400215060ustar00rootroot00000000000000#!/usr/bin/env bash # # Copyright (c) 2016, Facebook. All rights reserved. # # Overall wrapper script for RocksDB continuous builds. The implementation is a # trivial pulling scheme. We loop infinitely, check if any new changes have been # committed, if yes then trigger a Sandcastle run, and finally go to sleep again # for a certain interval. # SRC_GIT_REPO=/data/git/rocksdb-public error=0 function log { DATE=`date +%Y-%m-%d:%H:%M:%S` # shellcheck disable=SC2068 echo $DATE $@ } function log_err { # shellcheck disable=SC2145 log "ERROR: $@ Error code: $error." } function update_repo_status { # Update the parent first. pushd $SRC_GIT_REPO # This is a fatal error. Something in the environment isn't right and we will # terminate the execution. error=$? if [ ! $error -eq 0 ]; then log_err "Where is $SRC_GIT_REPO?" exit $error fi HTTPS_PROXY=fwdproxy:8080 git fetch -f error=$? if [ ! $error -eq 0 ]; then log_err "git fetch -f failed." popd return $error fi git update-ref refs/heads/master refs/remotes/origin/master error=$? if [ ! $error -eq 0 ]; then log_err "git update-ref failed." popd return $error fi popd # We're back in an instance-specific directory. Get the latest changes. git pull --rebase error=$? if [ ! $error -eq 0 ]; then log_err "git pull --rebase failed." return $error fi } # # Execution starts here. # # Path to the determinator from the root of the RocksDB repo. CONTRUN_DETERMINATOR=./build_tools/RocksDBCommonHelper.php # Value of the previous commit. PREV_COMMIT= log "Starting to monitor for new RocksDB changes ..." log "Running under `pwd` as `whoami`." # Paranoia. Make sure that we're using the right branch. git checkout master error=$? if [ ! $error -eq 0 ]; then log_err "This is not good. Can't checkout master. Bye-bye!" exit 1 fi # We'll run forever and let the execution environment terminate us if we'll # exceed whatever timeout is set for the job. while true; do # Get the latest changes committed. update_repo_status error=$? if [ $error -eq 0 ]; then LAST_COMMIT=`git log -1 | head -1 | grep commit | awk '{ print $2; }'` log "Last commit is '$LAST_COMMIT', previous commit is '$PREV_COMMIT'." if [ "$PREV_COMMIT" == "$LAST_COMMIT" ]; then log "There were no changes since the last time I checked. Going to sleep." else if [ ! -z "$LAST_COMMIT" ]; then log "New code has been committed or previous commit not known. " \ "Will trigger the tests." PREV_COMMIT=$LAST_COMMIT log "Updated previous commit to '$PREV_COMMIT'." # # This is where we'll trigger the Sandcastle run. The values for # HTTPS_APP_VALUE and HTTPS_APP_VALUE will be set in the container we're # running in. # POST_RECEIVE_HOOK=1 php $CONTRUN_DETERMINATOR error=$? if [ $error -eq 0 ]; then log "Sandcastle run successfully triggered." else log_err "Failed to trigger Sandcastle run." fi else log_err "Previous commit not updated. Don't know what the last one is." fi fi else log_err "Getting latest changes failed. Will skip running tests for now." fi # Always sleep, even if errors happens while trying to determine the latest # commit. This will prevent us terminating in case of transient errors. log "Will go to sleep for 5 minutes." sleep 5m done rocksdb-5.17.2/build_tools/dependencies.sh000066400000000000000000000040151337235545400205510ustar00rootroot00000000000000GCC_BASE=/mnt/gvfs/third-party2/gcc/112ec378fec7002ad3e09afde022e656049f7191/5.x/centos7-native/c447969 CLANG_BASE=/mnt/gvfs/third-party2/llvm-fb/04999bdb3ce81a11073535dcb00b5e13dc1cbaf5/stable/centos7-native/c9f9104 LIBGCC_BASE=/mnt/gvfs/third-party2/libgcc/92b0c8e5c8eecc71eb042594ce1ab3413799b385/5.x/gcc-5-glibc-2.23/339d858 GLIBC_BASE=/mnt/gvfs/third-party2/glibc/3d8698d5973ba94f41620a80a67e4457fdf01e90/2.23/gcc-5-glibc-2.23/ca1d1c0 SNAPPY_BASE=/mnt/gvfs/third-party2/snappy/7f9bdaada18f59bc27ec2b0871eb8a6144343aef/1.1.3/gcc-5-glibc-2.23/9bc6787 ZLIB_BASE=/mnt/gvfs/third-party2/zlib/22c2d65676fb7c23cfa797c4f6937f38b026f3cf/1.2.8/gcc-5-glibc-2.23/9bc6787 BZIP2_BASE=/mnt/gvfs/third-party2/bzip2/dc49a21c5fceec6456a7a28a94dcd16690af1337/1.0.6/gcc-5-glibc-2.23/9bc6787 LZ4_BASE=/mnt/gvfs/third-party2/lz4/907b498203d297947f3bb70b9466f47e100f1873/r131/gcc-5-glibc-2.23/9bc6787 ZSTD_BASE=/mnt/gvfs/third-party2/zstd/af6628a46758f1a15484a1760cd7294164bc5ba1/1.3.5/gcc-5-glibc-2.23/03859b5 GFLAGS_BASE=/mnt/gvfs/third-party2/gflags/0b9929d2588991c65a57168bf88aff2db87c5d48/2.2.0/gcc-5-glibc-2.23/9bc6787 JEMALLOC_BASE=/mnt/gvfs/third-party2/jemalloc/b1a0e56c1e3e6929813a4331ade3a58ff083afbb/master/gcc-5-glibc-2.23/aa64d6b NUMA_BASE=/mnt/gvfs/third-party2/numa/9cbf2460284c669ed19c3ccb200a71f7dd7e53c7/2.0.11/gcc-5-glibc-2.23/9bc6787 LIBUNWIND_BASE=/mnt/gvfs/third-party2/libunwind/bf3d7497fe4e6d007354f0adffa16ce3003f8338/1.3/gcc-5-glibc-2.23/b443de1 TBB_BASE=/mnt/gvfs/third-party2/tbb/ff4e0b093534704d8abab678a4fd7f5ea7b094c7/2018_U5/gcc-5-glibc-2.23/9bc6787 KERNEL_HEADERS_BASE=/mnt/gvfs/third-party2/kernel-headers/b5c4a61a5c483ba24722005ae07895971a2ac707/4.0.9-36_fbk5_2933_gd092e3f/gcc-5-glibc-2.23/da39a3e BINUTILS_BASE=/mnt/gvfs/third-party2/binutils/55031de95a2b46c82948743419a603b3d6aefe28/2.29.1/centos7-native/da39a3e VALGRIND_BASE=/mnt/gvfs/third-party2/valgrind/f3f697a28122e6bcd513273dd9c1ff23852fc59f/3.13.0/gcc-5-glibc-2.23/9bc6787 LUA_BASE=/mnt/gvfs/third-party2/lua/f0cd714433206d5139df61659eb7b28b1dea6683/5.2.3/gcc-5-glibc-2.23/65372bd rocksdb-5.17.2/build_tools/dependencies_4.8.1.sh000066400000000000000000000041451337235545400213050ustar00rootroot00000000000000# shellcheck disable=SC2148 GCC_BASE=/mnt/gvfs/third-party2/gcc/cf7d14c625ce30bae1a4661c2319c5a283e4dd22/4.8.1/centos6-native/cc6c9dc CLANG_BASE=/mnt/gvfs/third-party2/llvm-fb/8598c375b0e94e1448182eb3df034704144a838d/stable/centos6-native/3f16ddd LIBGCC_BASE=/mnt/gvfs/third-party2/libgcc/d6e0a7da6faba45f5e5b1638f9edd7afc2f34e7d/4.8.1/gcc-4.8.1-glibc-2.17/8aac7fc GLIBC_BASE=/mnt/gvfs/third-party2/glibc/d282e6e8f3d20f4e40a516834847bdc038e07973/2.17/gcc-4.8.1-glibc-2.17/99df8fc SNAPPY_BASE=/mnt/gvfs/third-party2/snappy/8c38a4c1e52b4c2cc8a9cdc31b9c947ed7dbfcb4/1.1.3/gcc-4.8.1-glibc-2.17/c3f970a ZLIB_BASE=/mnt/gvfs/third-party2/zlib/0882df3713c7a84f15abe368dc004581f20b39d7/1.2.8/gcc-4.8.1-glibc-2.17/c3f970a BZIP2_BASE=/mnt/gvfs/third-party2/bzip2/740325875f6729f42d28deaa2147b0854f3a347e/1.0.6/gcc-4.8.1-glibc-2.17/c3f970a LZ4_BASE=/mnt/gvfs/third-party2/lz4/0e790b441e2d9acd68d51e1d2e028f88c6a79ddf/r131/gcc-4.8.1-glibc-2.17/c3f970a ZSTD_BASE=/mnt/gvfs/third-party2/zstd/9455f75ff7f4831dc9fda02a6a0f8c68922fad8f/1.0.0/gcc-4.8.1-glibc-2.17/c3f970a GFLAGS_BASE=/mnt/gvfs/third-party2/gflags/f001a51b2854957676d07306ef3abf67186b5c8b/2.1.1/gcc-4.8.1-glibc-2.17/c3f970a JEMALLOC_BASE=/mnt/gvfs/third-party2/jemalloc/fc8a13ca1fffa4d0765c716c5a0b49f0c107518f/master/gcc-4.8.1-glibc-2.17/8d31e51 NUMA_BASE=/mnt/gvfs/third-party2/numa/17c514c4d102a25ca15f4558be564eeed76f4b6a/2.0.8/gcc-4.8.1-glibc-2.17/c3f970a LIBUNWIND_BASE=/mnt/gvfs/third-party2/libunwind/ad576de2a1ea560c4d3434304f0fc4e079bede42/trunk/gcc-4.8.1-glibc-2.17/675d945 TBB_BASE=/mnt/gvfs/third-party2/tbb/9d9a554877d0c5bef330fe818ab7178806dd316a/4.0_update2/gcc-4.8.1-glibc-2.17/c3f970a KERNEL_HEADERS_BASE=/mnt/gvfs/third-party2/kernel-headers/7c111ff27e0c466235163f00f280a9d617c3d2ec/4.0.9-36_fbk5_2933_gd092e3f/gcc-4.8.1-glibc-2.17/da39a3e BINUTILS_BASE=/mnt/gvfs/third-party2/binutils/b7fd454c4b10c6a81015d4524ed06cdeab558490/2.26/centos6-native/da39a3e VALGRIND_BASE=/mnt/gvfs/third-party2/valgrind/d7f4d4d86674a57668e3a96f76f0e17dd0eb8765/3.8.1/gcc-4.8.1-glibc-2.17/c3f970a LUA_BASE=/mnt/gvfs/third-party2/lua/61e4abf5813bbc39bc4f548757ccfcadde175a48/5.2.3/centos6-native/730f94e rocksdb-5.17.2/build_tools/dockerbuild.sh000077500000000000000000000001141337235545400204110ustar00rootroot00000000000000#!/usr/bin/env bash docker run -v $PWD:/rocks -w /rocks buildpack-deps make rocksdb-5.17.2/build_tools/error_filter.py000066400000000000000000000141321337235545400206400ustar00rootroot00000000000000# Copyright (c) 2011-present, Facebook, Inc. All rights reserved. # This source code is licensed under both the GPLv2 (found in the # COPYING file in the root directory) and Apache 2.0 License # (found in the LICENSE.Apache file in the root directory). '''Filter for error messages in test output: - Receives merged stdout/stderr from test on stdin - Finds patterns of known error messages for test name (first argument) - Prints those error messages to stdout ''' from __future__ import absolute_import from __future__ import division from __future__ import print_function from __future__ import unicode_literals import re import sys class ErrorParserBase(object): def parse_error(self, line): '''Parses a line of test output. If it contains an error, returns a formatted message describing the error; otherwise, returns None. Subclasses must override this method. ''' raise NotImplementedError class GTestErrorParser(ErrorParserBase): '''A parser that remembers the last test that began running so it can print that test's name upon detecting failure. ''' _GTEST_NAME_PATTERN = re.compile(r'\[ RUN \] (\S+)$') # format: ':: Failure' _GTEST_FAIL_PATTERN = re.compile(r'(unknown file|\S+:\d+): Failure$') def __init__(self): self._last_gtest_name = 'Unknown test' def parse_error(self, line): gtest_name_match = self._GTEST_NAME_PATTERN.match(line) if gtest_name_match: self._last_gtest_name = gtest_name_match.group(1) return None gtest_fail_match = self._GTEST_FAIL_PATTERN.match(line) if gtest_fail_match: return '%s failed: %s' % ( self._last_gtest_name, gtest_fail_match.group(1)) return None class MatchErrorParser(ErrorParserBase): '''A simple parser that returns the whole line if it matches the pattern. ''' def __init__(self, pattern): self._pattern = re.compile(pattern) def parse_error(self, line): if self._pattern.match(line): return line return None class CompilerErrorParser(MatchErrorParser): def __init__(self): # format (compile error): # '::: error: ' # format (link error): # ':: error: ' # The below regex catches both super(CompilerErrorParser, self).__init__(r'\S+:\d+: error:') class ScanBuildErrorParser(MatchErrorParser): def __init__(self): super(ScanBuildErrorParser, self).__init__( r'scan-build: \d+ bugs found.$') class DbCrashErrorParser(MatchErrorParser): def __init__(self): super(DbCrashErrorParser, self).__init__(r'\*\*\*.*\^$|TEST FAILED.') class WriteStressErrorParser(MatchErrorParser): def __init__(self): super(WriteStressErrorParser, self).__init__( r'ERROR: write_stress died with exitcode=\d+') class AsanErrorParser(MatchErrorParser): def __init__(self): super(AsanErrorParser, self).__init__( r'==\d+==ERROR: AddressSanitizer:') class UbsanErrorParser(MatchErrorParser): def __init__(self): # format: '::: runtime error: ' super(UbsanErrorParser, self).__init__(r'\S+:\d+:\d+: runtime error:') class ValgrindErrorParser(MatchErrorParser): def __init__(self): # just grab the summary, valgrind doesn't clearly distinguish errors # from other log messages. super(ValgrindErrorParser, self).__init__(r'==\d+== ERROR SUMMARY:') class CompatErrorParser(MatchErrorParser): def __init__(self): super(CompatErrorParser, self).__init__(r'==== .*[Ee]rror.* ====$') class TsanErrorParser(MatchErrorParser): def __init__(self): super(TsanErrorParser, self).__init__(r'WARNING: ThreadSanitizer:') _TEST_NAME_TO_PARSERS = { 'punit': [CompilerErrorParser, GTestErrorParser], 'unit': [CompilerErrorParser, GTestErrorParser], 'release': [CompilerErrorParser, GTestErrorParser], 'unit_481': [CompilerErrorParser, GTestErrorParser], 'release_481': [CompilerErrorParser, GTestErrorParser], 'clang_unit': [CompilerErrorParser, GTestErrorParser], 'clang_release': [CompilerErrorParser, GTestErrorParser], 'clang_analyze': [CompilerErrorParser, ScanBuildErrorParser], 'code_cov': [CompilerErrorParser, GTestErrorParser], 'unity': [CompilerErrorParser, GTestErrorParser], 'lite': [CompilerErrorParser], 'lite_test': [CompilerErrorParser, GTestErrorParser], 'stress_crash': [CompilerErrorParser, DbCrashErrorParser], 'write_stress': [CompilerErrorParser, WriteStressErrorParser], 'asan': [CompilerErrorParser, GTestErrorParser, AsanErrorParser], 'asan_crash': [CompilerErrorParser, AsanErrorParser, DbCrashErrorParser], 'ubsan': [CompilerErrorParser, GTestErrorParser, UbsanErrorParser], 'ubsan_crash': [CompilerErrorParser, UbsanErrorParser, DbCrashErrorParser], 'valgrind': [CompilerErrorParser, GTestErrorParser, ValgrindErrorParser], 'tsan': [CompilerErrorParser, GTestErrorParser, TsanErrorParser], 'format_compatible': [CompilerErrorParser, CompatErrorParser], 'run_format_compatible': [CompilerErrorParser, CompatErrorParser], 'no_compression': [CompilerErrorParser, GTestErrorParser], 'run_no_compression': [CompilerErrorParser, GTestErrorParser], 'regression': [CompilerErrorParser], 'run_regression': [CompilerErrorParser], } def main(): if len(sys.argv) != 2: return 'Usage: %s ' % sys.argv[0] test_name = sys.argv[1] if test_name not in _TEST_NAME_TO_PARSERS: return 'Unknown test name: %s' % test_name error_parsers = [] for parser_cls in _TEST_NAME_TO_PARSERS[test_name]: error_parsers.append(parser_cls()) for line in sys.stdin: line = line.strip() for error_parser in error_parsers: error_msg = error_parser.parse_error(line) if error_msg is not None: print(error_msg) if __name__ == '__main__': sys.exit(main()) rocksdb-5.17.2/build_tools/fb_compile_mongo.sh000077500000000000000000000026661337235545400214360ustar00rootroot00000000000000#!/bin/sh # fail early set -e if test -z $ROCKSDB_PATH; then ROCKSDB_PATH=~/rocksdb fi source $ROCKSDB_PATH/build_tools/fbcode_config4.8.1.sh EXTRA_LDFLAGS="" if test -z $ALLOC; then # default ALLOC=tcmalloc elif [[ $ALLOC == "jemalloc" ]]; then ALLOC=system EXTRA_LDFLAGS+=" -Wl,--whole-archive $JEMALLOC_LIB -Wl,--no-whole-archive" fi # we need to force mongo to use static library, not shared STATIC_LIB_DEP_DIR='build/static_library_dependencies' test -d $STATIC_LIB_DEP_DIR || mkdir $STATIC_LIB_DEP_DIR test -h $STATIC_LIB_DEP_DIR/`basename $SNAPPY_LIBS` || ln -s $SNAPPY_LIBS $STATIC_LIB_DEP_DIR test -h $STATIC_LIB_DEP_DIR/`basename $LZ4_LIBS` || ln -s $LZ4_LIBS $STATIC_LIB_DEP_DIR EXTRA_LDFLAGS+=" -L $STATIC_LIB_DEP_DIR" set -x EXTRA_CMD="" if ! test -e version.json; then # this is Mongo 3.0 EXTRA_CMD="--rocksdb \ --variant-dir=linux2/norm --cxx=${CXX} \ --cc=${CC} \ --use-system-zlib" # add this line back to normal code path # when https://jira.mongodb.org/browse/SERVER-19123 is resolved fi scons \ LINKFLAGS="$EXTRA_LDFLAGS $EXEC_LDFLAGS $PLATFORM_LDFLAGS" \ CCFLAGS="$CXXFLAGS -L $STATIC_LIB_DEP_DIR" \ LIBS="lz4 gcc stdc++" \ LIBPATH="$ROCKSDB_PATH" \ CPPPATH="$ROCKSDB_PATH/include" \ -j32 \ --allocator=$ALLOC \ --nostrip \ --opt=on \ --disable-minimum-compiler-version-enforcement \ --use-system-snappy \ --disable-warnings-as-errors \ $EXTRA_CMD $* rocksdb-5.17.2/build_tools/fbcode_config.sh000066400000000000000000000110631337235545400206730ustar00rootroot00000000000000#!/bin/sh # # Set environment variables so that we can compile rocksdb using # fbcode settings. It uses the latest g++ and clang compilers and also # uses jemalloc # Environment variables that change the behavior of this script: # PIC_BUILD -- if true, it will only take pic versions of libraries from fbcode. libraries that don't have pic variant will not be included BASEDIR=`dirname $BASH_SOURCE` source "$BASEDIR/dependencies.sh" CFLAGS="" # libgcc LIBGCC_INCLUDE="$LIBGCC_BASE/include" LIBGCC_LIBS=" -L $LIBGCC_BASE/lib" # glibc GLIBC_INCLUDE="$GLIBC_BASE/include" GLIBC_LIBS=" -L $GLIBC_BASE/lib" # snappy SNAPPY_INCLUDE=" -I $SNAPPY_BASE/include/" if test -z $PIC_BUILD; then SNAPPY_LIBS=" $SNAPPY_BASE/lib/libsnappy.a" else SNAPPY_LIBS=" $SNAPPY_BASE/lib/libsnappy_pic.a" fi CFLAGS+=" -DSNAPPY" if test -z $PIC_BUILD; then # location of zlib headers and libraries ZLIB_INCLUDE=" -I $ZLIB_BASE/include/" ZLIB_LIBS=" $ZLIB_BASE/lib/libz.a" CFLAGS+=" -DZLIB" # location of bzip headers and libraries BZIP_INCLUDE=" -I $BZIP2_BASE/include/" BZIP_LIBS=" $BZIP2_BASE/lib/libbz2.a" CFLAGS+=" -DBZIP2" LZ4_INCLUDE=" -I $LZ4_BASE/include/" LZ4_LIBS=" $LZ4_BASE/lib/liblz4.a" CFLAGS+=" -DLZ4" fi ZSTD_INCLUDE=" -I $ZSTD_BASE/include/" if test -z $PIC_BUILD; then ZSTD_LIBS=" $ZSTD_BASE/lib/libzstd.a" else ZSTD_LIBS=" $ZSTD_BASE/lib/libzstd_pic.a" fi CFLAGS+=" -DZSTD" # location of gflags headers and libraries GFLAGS_INCLUDE=" -I $GFLAGS_BASE/include/" if test -z $PIC_BUILD; then GFLAGS_LIBS=" $GFLAGS_BASE/lib/libgflags.a" else GFLAGS_LIBS=" $GFLAGS_BASE/lib/libgflags_pic.a" fi CFLAGS+=" -DGFLAGS=gflags" # location of jemalloc JEMALLOC_INCLUDE=" -I $JEMALLOC_BASE/include/" JEMALLOC_LIB=" $JEMALLOC_BASE/lib/libjemalloc.a" if test -z $PIC_BUILD; then # location of numa NUMA_INCLUDE=" -I $NUMA_BASE/include/" NUMA_LIB=" $NUMA_BASE/lib/libnuma.a" CFLAGS+=" -DNUMA" # location of libunwind LIBUNWIND="$LIBUNWIND_BASE/lib/libunwind.a" fi # location of TBB TBB_INCLUDE=" -isystem $TBB_BASE/include/" if test -z $PIC_BUILD; then TBB_LIBS="$TBB_BASE/lib/libtbb.a" else TBB_LIBS="$TBB_BASE/lib/libtbb_pic.a" fi CFLAGS+=" -DTBB" # use Intel SSE support for checksum calculations export USE_SSE=1 export PORTABLE=1 BINUTILS="$BINUTILS_BASE/bin" AR="$BINUTILS/ar" DEPS_INCLUDE="$SNAPPY_INCLUDE $ZLIB_INCLUDE $BZIP_INCLUDE $LZ4_INCLUDE $ZSTD_INCLUDE $GFLAGS_INCLUDE $NUMA_INCLUDE $TBB_INCLUDE" STDLIBS="-L $GCC_BASE/lib64" CLANG_BIN="$CLANG_BASE/bin" CLANG_LIB="$CLANG_BASE/lib" CLANG_SRC="$CLANG_BASE/../../src" CLANG_ANALYZER="$CLANG_BIN/clang++" CLANG_SCAN_BUILD="$CLANG_SRC/llvm/tools/clang/tools/scan-build/bin/scan-build" if [ -z "$USE_CLANG" ]; then # gcc CC="$GCC_BASE/bin/gcc" CXX="$GCC_BASE/bin/g++" CFLAGS+=" -B$BINUTILS/gold" CFLAGS+=" -isystem $GLIBC_INCLUDE" CFLAGS+=" -isystem $LIBGCC_INCLUDE" JEMALLOC=1 else # clang CLANG_INCLUDE="$CLANG_LIB/clang/stable/include" CC="$CLANG_BIN/clang" CXX="$CLANG_BIN/clang++" KERNEL_HEADERS_INCLUDE="$KERNEL_HEADERS_BASE/include" CFLAGS+=" -B$BINUTILS/gold -nostdinc -nostdlib" CFLAGS+=" -isystem $LIBGCC_BASE/include/c++/5.x " CFLAGS+=" -isystem $LIBGCC_BASE/include/c++/5.x/x86_64-facebook-linux " CFLAGS+=" -isystem $GLIBC_INCLUDE" CFLAGS+=" -isystem $LIBGCC_INCLUDE" CFLAGS+=" -isystem $CLANG_INCLUDE" CFLAGS+=" -isystem $KERNEL_HEADERS_INCLUDE/linux " CFLAGS+=" -isystem $KERNEL_HEADERS_INCLUDE " CFLAGS+=" -Wno-expansion-to-defined " CXXFLAGS="-nostdinc++" fi CFLAGS+=" $DEPS_INCLUDE" CFLAGS+=" -DROCKSDB_PLATFORM_POSIX -DROCKSDB_LIB_IO_POSIX -DROCKSDB_FALLOCATE_PRESENT -DROCKSDB_MALLOC_USABLE_SIZE -DROCKSDB_RANGESYNC_PRESENT -DROCKSDB_SCHED_GETCPU_PRESENT -DROCKSDB_SUPPORT_THREAD_LOCAL -DHAVE_SSE42" CXXFLAGS+=" $CFLAGS" EXEC_LDFLAGS=" $SNAPPY_LIBS $ZLIB_LIBS $BZIP_LIBS $LZ4_LIBS $ZSTD_LIBS $GFLAGS_LIBS $NUMA_LIB $TBB_LIBS" EXEC_LDFLAGS+=" -B$BINUTILS/gold" EXEC_LDFLAGS+=" -Wl,--dynamic-linker,/usr/local/fbcode/gcc-5-glibc-2.23/lib/ld.so" EXEC_LDFLAGS+=" $LIBUNWIND" EXEC_LDFLAGS+=" -Wl,-rpath=/usr/local/fbcode/gcc-5-glibc-2.23/lib" # required by libtbb EXEC_LDFLAGS+=" -ldl" PLATFORM_LDFLAGS="$LIBGCC_LIBS $GLIBC_LIBS $STDLIBS -lgcc -lstdc++" EXEC_LDFLAGS_SHARED="$SNAPPY_LIBS $ZLIB_LIBS $BZIP_LIBS $LZ4_LIBS $ZSTD_LIBS $GFLAGS_LIBS $TBB_LIBS" VALGRIND_VER="$VALGRIND_BASE/bin/" LUA_PATH="$LUA_BASE" if test -z $PIC_BUILD; then LUA_LIB=" $LUA_PATH/lib/liblua.a" else LUA_LIB=" $LUA_PATH/lib/liblua_pic.a" fi export CC CXX AR CFLAGS CXXFLAGS EXEC_LDFLAGS EXEC_LDFLAGS_SHARED VALGRIND_VER JEMALLOC_LIB JEMALLOC_INCLUDE CLANG_ANALYZER CLANG_SCAN_BUILD LUA_PATH LUA_LIB rocksdb-5.17.2/build_tools/fbcode_config4.8.1.sh000066400000000000000000000070511337235545400212660ustar00rootroot00000000000000#!/bin/sh # # Set environment variables so that we can compile rocksdb using # fbcode settings. It uses the latest g++ compiler and also # uses jemalloc BASEDIR=`dirname $BASH_SOURCE` source "$BASEDIR/dependencies_4.8.1.sh" # location of libgcc LIBGCC_INCLUDE="$LIBGCC_BASE/include" LIBGCC_LIBS=" -L $LIBGCC_BASE/lib" # location of glibc GLIBC_INCLUDE="$GLIBC_BASE/include" GLIBC_LIBS=" -L $GLIBC_BASE/lib" # location of snappy headers and libraries SNAPPY_INCLUDE=" -I $SNAPPY_BASE/include" SNAPPY_LIBS=" $SNAPPY_BASE/lib/libsnappy.a" # location of zlib headers and libraries ZLIB_INCLUDE=" -I $ZLIB_BASE/include" ZLIB_LIBS=" $ZLIB_BASE/lib/libz.a" # location of bzip headers and libraries BZIP2_INCLUDE=" -I $BZIP2_BASE/include/" BZIP2_LIBS=" $BZIP2_BASE/lib/libbz2.a" LZ4_INCLUDE=" -I $LZ4_BASE/include" LZ4_LIBS=" $LZ4_BASE/lib/liblz4.a" ZSTD_INCLUDE=" -I $ZSTD_BASE/include" ZSTD_LIBS=" $ZSTD_BASE/lib/libzstd.a" # location of gflags headers and libraries GFLAGS_INCLUDE=" -I $GFLAGS_BASE/include/" GFLAGS_LIBS=" $GFLAGS_BASE/lib/libgflags.a" # location of jemalloc JEMALLOC_INCLUDE=" -I $JEMALLOC_BASE/include" JEMALLOC_LIB="$JEMALLOC_BASE/lib/libjemalloc.a" # location of numa NUMA_INCLUDE=" -I $NUMA_BASE/include/" NUMA_LIB=" $NUMA_BASE/lib/libnuma.a" # location of libunwind LIBUNWIND="$LIBUNWIND_BASE/lib/libunwind.a" # location of tbb TBB_INCLUDE=" -isystem $TBB_BASE/include/" TBB_LIBS="$TBB_BASE/lib/libtbb.a" # use Intel SSE support for checksum calculations export USE_SSE=1 export PORTABLE=1 BINUTILS="$BINUTILS_BASE/bin" AR="$BINUTILS/ar" DEPS_INCLUDE="$SNAPPY_INCLUDE $ZLIB_INCLUDE $BZIP2_INCLUDE $LZ4_INCLUDE $ZSTD_INCLUDE $GFLAGS_INCLUDE $NUMA_INCLUDE $TBB_INCLUDE" STDLIBS="-L $GCC_BASE/lib64" if [ -z "$USE_CLANG" ]; then # gcc CC="$GCC_BASE/bin/gcc" CXX="$GCC_BASE/bin/g++" CFLAGS="-B$BINUTILS/gold -m64 -mtune=generic" CFLAGS+=" -isystem $GLIBC_INCLUDE" CFLAGS+=" -isystem $LIBGCC_INCLUDE" JEMALLOC=1 else # clang CLANG_BIN="$CLANG_BASE/bin" CLANG_LIB="$CLANG_BASE/lib" CLANG_INCLUDE="$CLANG_LIB/clang/*/include" CC="$CLANG_BIN/clang" CXX="$CLANG_BIN/clang++" KERNEL_HEADERS_INCLUDE="$KERNEL_HEADERS_BASE/include/" CFLAGS="-B$BINUTILS/gold -nostdinc -nostdlib" CFLAGS+=" -isystem $LIBGCC_BASE/include/c++/4.8.1 " CFLAGS+=" -isystem $LIBGCC_BASE/include/c++/4.8.1/x86_64-facebook-linux " CFLAGS+=" -isystem $GLIBC_INCLUDE" CFLAGS+=" -isystem $LIBGCC_INCLUDE" CFLAGS+=" -isystem $CLANG_INCLUDE" CFLAGS+=" -isystem $KERNEL_HEADERS_INCLUDE/linux " CFLAGS+=" -isystem $KERNEL_HEADERS_INCLUDE " CXXFLAGS="-nostdinc++" fi CFLAGS+=" $DEPS_INCLUDE" CFLAGS+=" -DROCKSDB_PLATFORM_POSIX -DROCKSDB_LIB_IO_POSIX -DROCKSDB_FALLOCATE_PRESENT -DROCKSDB_MALLOC_USABLE_SIZE -DROCKSDB_RANGESYNC_PRESENT -DROCKSDB_SCHED_GETCPU_PRESENT -DROCKSDB_SUPPORT_THREAD_LOCAL -DHAVE_SSE42" CFLAGS+=" -DSNAPPY -DGFLAGS=google -DZLIB -DBZIP2 -DLZ4 -DZSTD -DNUMA -DTBB" CXXFLAGS+=" $CFLAGS" EXEC_LDFLAGS=" $SNAPPY_LIBS $ZLIB_LIBS $BZIP2_LIBS $LZ4_LIBS $ZSTD_LIBS $GFLAGS_LIBS $NUMA_LIB $TBB_LIBS" EXEC_LDFLAGS+=" -Wl,--dynamic-linker,/usr/local/fbcode/gcc-4.8.1-glibc-2.17/lib/ld.so" EXEC_LDFLAGS+=" $LIBUNWIND" EXEC_LDFLAGS+=" -Wl,-rpath=/usr/local/fbcode/gcc-4.8.1-glibc-2.17/lib" # required by libtbb EXEC_LDFLAGS+=" -ldl" PLATFORM_LDFLAGS="$LIBGCC_LIBS $GLIBC_LIBS $STDLIBS -lgcc -lstdc++" EXEC_LDFLAGS_SHARED="$SNAPPY_LIBS $ZLIB_LIBS $BZIP2_LIBS $LZ4_LIBS $ZSTD_LIBS $GFLAGS_LIBS" VALGRIND_VER="$VALGRIND_BASE/bin/" LUA_PATH="$LUA_BASE" export CC CXX AR CFLAGS CXXFLAGS EXEC_LDFLAGS EXEC_LDFLAGS_SHARED VALGRIND_VER JEMALLOC_LIB JEMALLOC_INCLUDE LUA_PATH rocksdb-5.17.2/build_tools/format-diff.sh000077500000000000000000000074551337235545400203370ustar00rootroot00000000000000#!/usr/bin/env bash # If clang_format_diff.py command is not specfied, we assume we are able to # access directly without any path. if [ -z $CLANG_FORMAT_DIFF ] then CLANG_FORMAT_DIFF="clang-format-diff.py" fi # Check clang-format-diff.py if ! which $CLANG_FORMAT_DIFF &> /dev/null then echo "You didn't have clang-format-diff.py and/or clang-format available in your computer!" echo "You can download clang-format-diff.py by running: " echo " curl --location http://goo.gl/iUW1u2 -o ${CLANG_FORMAT_DIFF}" echo "You can download clang-format by running: " echo " brew install clang-format" echo "Then, move both files (i.e. ${CLANG_FORMAT_DIFF} and clang-format) to some directory within PATH=${PATH}" exit 128 fi # Check argparse, a library that clang-format-diff.py requires. python 2>/dev/null << EOF import argparse EOF if [ "$?" != 0 ] then echo "To run clang-format-diff.py, we'll need the library "argparse" to be" echo "installed. You can try either of the follow ways to install it:" echo " 1. Manually download argparse: https://pypi.python.org/pypi/argparse" echo " 2. easy_install argparse (if you have easy_install)" echo " 3. pip install argparse (if you have pip)" exit 129 fi # TODO(kailiu) following work is not complete since we still need to figure # out how to add the modified files done pre-commit hook to git's commit index. # # Check if this script has already been added to pre-commit hook. # Will suggest user to add this script to pre-commit hook if their pre-commit # is empty. # PRE_COMMIT_SCRIPT_PATH="`git rev-parse --show-toplevel`/.git/hooks/pre-commit" # if ! ls $PRE_COMMIT_SCRIPT_PATH &> /dev/null # then # echo "Would you like to add this script to pre-commit hook, which will do " # echo -n "the format check for all the affected lines before you check in (y/n):" # read add_to_hook # if [ "$add_to_hook" == "y" ] # then # ln -s `git rev-parse --show-toplevel`/build_tools/format-diff.sh $PRE_COMMIT_SCRIPT_PATH # fi # fi set -e uncommitted_code=`git diff HEAD` LAST_MASTER=`git merge-base master HEAD` # If there's no uncommitted changes, we assume user are doing post-commit # format check, in which case we'll check the modified lines since last commit # from master. Otherwise, we'll check format of the uncommitted code only. if [ -z "$uncommitted_code" ] then # Check the format of last commit diffs=$(git diff -U0 $LAST_MASTER^ | $CLANG_FORMAT_DIFF -p 1) else # Check the format of uncommitted lines, diffs=$(git diff -U0 HEAD | $CLANG_FORMAT_DIFF -p 1) fi if [ -z "$diffs" ] then echo "Nothing needs to be reformatted!" exit 0 fi # Highlight the insertion/deletion from the clang-format-diff.py's output COLOR_END="\033[0m" COLOR_RED="\033[0;31m" COLOR_GREEN="\033[0;32m" echo -e "Detect lines that doesn't follow the format rules:\r" # Add the color to the diff. lines added will be green; lines removed will be red. echo "$diffs" | sed -e "s/\(^-.*$\)/`echo -e \"$COLOR_RED\1$COLOR_END\"`/" | sed -e "s/\(^+.*$\)/`echo -e \"$COLOR_GREEN\1$COLOR_END\"`/" if [[ "$OPT" == *"-DTRAVIS"* ]] then exit 1 fi echo -e "Would you like to fix the format automatically (y/n): \c" # Make sure under any mode, we can read user input. exec < /dev/tty read to_fix if [ "$to_fix" != "y" ] then exit 1 fi # Do in-place format adjustment. if [ -z "$uncommitted_code" ] then git diff -U0 $LAST_MASTER^ | $CLANG_FORMAT_DIFF -i -p 1 else git diff -U0 HEAD^ | $CLANG_FORMAT_DIFF -i -p 1 fi echo "Files reformatted!" # Amend to last commit if user do the post-commit format check if [ -z "$uncommitted_code" ]; then echo -e "Would you like to amend the changes to last commit (`git log HEAD --oneline | head -1`)? (y/n): \c" read to_amend if [ "$to_amend" == "y" ] then git commit -a --amend --reuse-message HEAD echo "Amended to last commit" fi fi rocksdb-5.17.2/build_tools/gnu_parallel000077500000000000000000007351131337235545400201740ustar00rootroot00000000000000#!/usr/bin/env perl # Copyright (C) 2007,2008,2009,2010,2011,2012,2013,2014 Ole Tange and # Free Software Foundation, Inc. # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, but # WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU # General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program; if not, see # or write to the Free Software Foundation, Inc., 51 Franklin St, # Fifth Floor, Boston, MA 02110-1301 USA # open3 used in Job::start use IPC::Open3; # &WNOHANG used in reaper use POSIX qw(:sys_wait_h setsid ceil :errno_h); # gensym used in Job::start use Symbol qw(gensym); # tempfile used in Job::start use File::Temp qw(tempfile tempdir); # mkpath used in openresultsfile use File::Path; # GetOptions used in get_options_from_array use Getopt::Long; # Used to ensure code quality use strict; use File::Basename; if(not $ENV{HOME}) { # $ENV{HOME} is sometimes not set if called from PHP ::warning("\$HOME not set. Using /tmp\n"); $ENV{HOME} = "/tmp"; } save_stdin_stdout_stderr(); save_original_signal_handler(); parse_options(); ::debug("init", "Open file descriptors: ", join(" ",keys %Global::fd), "\n"); my $number_of_args; if($Global::max_number_of_args) { $number_of_args=$Global::max_number_of_args; } elsif ($opt::X or $opt::m or $opt::xargs) { $number_of_args = undef; } else { $number_of_args = 1; } my @command; @command = @ARGV; my @fhlist; if($opt::pipepart) { @fhlist = map { open_or_exit($_) } "/dev/null"; } else { @fhlist = map { open_or_exit($_) } @opt::a; if(not @fhlist and not $opt::pipe) { @fhlist = (*STDIN); } } if($opt::skip_first_line) { # Skip the first line for the first file handle my $fh = $fhlist[0]; <$fh>; } if($opt::header and not $opt::pipe) { my $fh = $fhlist[0]; # split with colsep or \t # $header force $colsep = \t if undef? my $delimiter = $opt::colsep; $delimiter ||= "\$"; my $id = 1; for my $fh (@fhlist) { my $line = <$fh>; chomp($line); ::debug("init", "Delimiter: '$delimiter'"); for my $s (split /$delimiter/o, $line) { ::debug("init", "Colname: '$s'"); # Replace {colname} with {2} # TODO accept configurable short hands # TODO how to deal with headers in {=...=} for(@command) { s:\{$s(|/|//|\.|/\.)\}:\{$id$1\}:g; } $Global::input_source_header{$id} = $s; $id++; } } } else { my $id = 1; for my $fh (@fhlist) { $Global::input_source_header{$id} = $id; $id++; } } if($opt::filter_hosts and (@opt::sshlogin or @opt::sshloginfile)) { # Parallel check all hosts are up. Remove hosts that are down filter_hosts(); } if($opt::nonall or $opt::onall) { onall(@command); wait_and_exit(min(undef_as_zero($Global::exitstatus),254)); } # TODO --transfer foo/./bar --cleanup # multiple --transfer and --basefile with different /./ $Global::JobQueue = JobQueue->new( \@command,\@fhlist,$Global::ContextReplace,$number_of_args,\@Global::ret_files); if($opt::eta or $opt::bar) { # Count the number of jobs before starting any $Global::JobQueue->total_jobs(); } if($opt::pipepart) { @Global::cat_partials = map { pipe_part_files($_) } @opt::a; # Unget the command as many times as there are parts $Global::JobQueue->{'commandlinequeue'}->unget( map { $Global::JobQueue->{'commandlinequeue'}->get() } @Global::cat_partials ); } for my $sshlogin (values %Global::host) { $sshlogin->max_jobs_running(); } init_run_jobs(); my $sem; if($Global::semaphore) { $sem = acquire_semaphore(); } $SIG{TERM} = \&start_no_new_jobs; start_more_jobs(); if(not $opt::pipepart) { if($opt::pipe) { spreadstdin(); } } ::debug("init", "Start draining\n"); drain_job_queue(); ::debug("init", "Done draining\n"); reaper(); ::debug("init", "Done reaping\n"); if($opt::pipe and @opt::a) { for my $job (@Global::tee_jobs) { unlink $job->fh(2,"name"); $job->set_fh(2,"name",""); $job->print(); unlink $job->fh(1,"name"); } } ::debug("init", "Cleaning\n"); cleanup(); if($Global::semaphore) { $sem->release(); } for(keys %Global::sshmaster) { kill "TERM", $_; } ::debug("init", "Halt\n"); if($opt::halt_on_error) { wait_and_exit($Global::halt_on_error_exitstatus); } else { wait_and_exit(min(undef_as_zero($Global::exitstatus),254)); } sub __PIPE_MODE__ {} sub pipe_part_files { # Input: # $file = the file to read # Returns: # @commands that will cat_partial each part my ($file) = @_; my $buf = ""; my $header = find_header(\$buf,open_or_exit($file)); # find positions my @pos = find_split_positions($file,$opt::blocksize,length $header); # Make @cat_partials my @cat_partials = (); for(my $i=0; $i<$#pos; $i++) { push @cat_partials, cat_partial($file, 0, length($header), $pos[$i], $pos[$i+1]); } # Remote exec should look like: # ssh -oLogLevel=quiet lo 'eval `echo $SHELL | grep "/t\{0,1\}csh" > /dev/null && echo setenv PARALLEL_SEQ '$PARALLEL_SEQ'\; setenv PARALLEL_PID '$PARALLEL_PID' || echo PARALLEL_SEQ='$PARALLEL_SEQ'\;export PARALLEL_SEQ\; PARALLEL_PID='$PARALLEL_PID'\;export PARALLEL_PID` ;' tty\ \>/dev/null\ \&\&\ stty\ isig\ -onlcr\ -echo\;echo\ \$SHELL\ \|\ grep\ \"/t\\\{0,1\\\}csh\"\ \>\ /dev/null\ \&\&\ setenv\ FOO\ /tmp/foo\ \|\|\ export\ FOO=/tmp/foo\; \(wc\ -\ \$FOO\) # ssh -tt not allowed. Remote will die due to broken pipe anyway. # TODO test remote with --fifo / --cat return @cat_partials; } sub find_header { # Input: # $buf_ref = reference to read-in buffer # $fh = filehandle to read from # Uses: # $opt::header # $opt::blocksize # Returns: # $header string my ($buf_ref, $fh) = @_; my $header = ""; if($opt::header) { if($opt::header eq ":") { $opt::header = "(.*\n)"; } # Number = number of lines $opt::header =~ s/^(\d+)$/"(.*\n)"x$1/e; while(read($fh,substr($$buf_ref,length $$buf_ref,0),$opt::blocksize)) { if($$buf_ref=~s/^($opt::header)//) { $header = $1; last; } } } return $header; } sub find_split_positions { # Input: # $file = the file to read # $block = (minimal) --block-size of each chunk # $headerlen = length of header to be skipped # Uses: # $opt::recstart # $opt::recend # Returns: # @positions of block start/end my($file, $block, $headerlen) = @_; my $size = -s $file; $block = int $block; # The optimal dd blocksize for mint, redhat, solaris, openbsd = 2^17..2^20 # The optimal dd blocksize for freebsd = 2^15..2^17 my $dd_block_size = 131072; # 2^17 my @pos; my ($recstart,$recend) = recstartrecend(); my $recendrecstart = $recend.$recstart; my $fh = ::open_or_exit($file); push(@pos,$headerlen); for(my $pos = $block+$headerlen; $pos < $size; $pos += $block) { my $buf; seek($fh, $pos, 0) || die; while(read($fh,substr($buf,length $buf,0),$dd_block_size)) { if($opt::regexp) { # If match /$recend$recstart/ => Record position if($buf =~ /(.*$recend)$recstart/os) { my $i = length($1); push(@pos,$pos+$i); # Start looking for next record _after_ this match $pos += $i; last; } } else { # If match $recend$recstart => Record position my $i = index($buf,$recendrecstart); if($i != -1) { push(@pos,$pos+$i); # Start looking for next record _after_ this match $pos += $i; last; } } } } push(@pos,$size); close $fh; return @pos; } sub cat_partial { # Input: # $file = the file to read # ($start, $end, [$start2, $end2, ...]) = start byte, end byte # Returns: # Efficient perl command to copy $start..$end, $start2..$end2, ... to stdout my($file, @start_end) = @_; my($start, $i); # Convert start_end to start_len my @start_len = map { if(++$i % 2) { $start = $_; } else { $_-$start } } @start_end; return "<". shell_quote_scalar($file) . q{ perl -e 'while(@ARGV) { sysseek(STDIN,shift,0) || die; $left = shift; while($read = sysread(STDIN,$buf, ($left > 32768 ? 32768 : $left))){ $left -= $read; syswrite(STDOUT,$buf); } }' } . " @start_len"; } sub spreadstdin { # read a record # Spawn a job and print the record to it. # Uses: # $opt::blocksize # STDIN # $opr::r # $Global::max_lines # $Global::max_number_of_args # $opt::regexp # $Global::start_no_new_jobs # $opt::roundrobin # %Global::running my $buf = ""; my ($recstart,$recend) = recstartrecend(); my $recendrecstart = $recend.$recstart; my $chunk_number = 1; my $one_time_through; my $blocksize = $opt::blocksize; my $in = *STDIN; my $header = find_header(\$buf,$in); while(1) { my $anything_written = 0; if(not read($in,substr($buf,length $buf,0),$blocksize)) { # End-of-file $chunk_number != 1 and last; # Force the while-loop once if everything was read by header reading $one_time_through++ and last; } if($opt::r) { # Remove empty lines $buf =~ s/^\s*\n//gm; if(length $buf == 0) { next; } } if($Global::max_lines and not $Global::max_number_of_args) { # Read n-line records my $n_lines = $buf =~ tr/\n/\n/; my $last_newline_pos = rindex($buf,"\n"); while($n_lines % $Global::max_lines) { $n_lines--; $last_newline_pos = rindex($buf,"\n",$last_newline_pos-1); } # Chop at $last_newline_pos as that is where n-line record ends $anything_written += write_record_to_pipe($chunk_number++,\$header,\$buf, $recstart,$recend,$last_newline_pos+1); substr($buf,0,$last_newline_pos+1) = ""; } elsif($opt::regexp) { if($Global::max_number_of_args) { # -N => (start..*?end){n} # -L -N => (start..*?end){n*l} my $read_n_lines = $Global::max_number_of_args * ($Global::max_lines || 1); while($buf =~ s/((?:$recstart.*?$recend){$read_n_lines})($recstart.*)$/$2/os) { # Copy to modifiable variable my $b = $1; $anything_written += write_record_to_pipe($chunk_number++,\$header,\$b, $recstart,$recend,length $1); } } else { # Find the last recend-recstart in $buf if($buf =~ s/(.*$recend)($recstart.*?)$/$2/os) { # Copy to modifiable variable my $b = $1; $anything_written += write_record_to_pipe($chunk_number++,\$header,\$b, $recstart,$recend,length $1); } } } else { if($Global::max_number_of_args) { # -N => (start..*?end){n} my $i = 0; my $read_n_lines = $Global::max_number_of_args * ($Global::max_lines || 1); while(($i = nindex(\$buf,$recendrecstart,$read_n_lines)) != -1) { $i += length $recend; # find the actual splitting location $anything_written += write_record_to_pipe($chunk_number++,\$header,\$buf, $recstart,$recend,$i); substr($buf,0,$i) = ""; } } else { # Find the last recend-recstart in $buf my $i = rindex($buf,$recendrecstart); if($i != -1) { $i += length $recend; # find the actual splitting location $anything_written += write_record_to_pipe($chunk_number++,\$header,\$buf, $recstart,$recend,$i); substr($buf,0,$i) = ""; } } } if(not $anything_written and not eof($in)) { # Nothing was written - maybe the block size < record size? # Increase blocksize exponentially my $old_blocksize = $blocksize; $blocksize = ceil($blocksize * 1.3 + 1); ::warning("A record was longer than $old_blocksize. " . "Increasing to --blocksize $blocksize\n"); } } ::debug("init", "Done reading input\n"); # If there is anything left in the buffer write it substr($buf,0,0) = ""; write_record_to_pipe($chunk_number++,\$header,\$buf,$recstart,$recend,length $buf); $Global::start_no_new_jobs ||= 1; if($opt::roundrobin) { for my $job (values %Global::running) { close $job->fh(0,"w"); } my %incomplete_jobs = %Global::running; my $sleep = 1; while(keys %incomplete_jobs) { my $something_written = 0; for my $pid (keys %incomplete_jobs) { my $job = $incomplete_jobs{$pid}; if($job->stdin_buffer_length()) { $something_written += $job->non_block_write(); } else { delete $incomplete_jobs{$pid} } } if($something_written) { $sleep = $sleep/2+0.001; } $sleep = ::reap_usleep($sleep); } } } sub recstartrecend { # Uses: # $opt::recstart # $opt::recend # Returns: # $recstart,$recend with default values and regexp conversion my($recstart,$recend); if(defined($opt::recstart) and defined($opt::recend)) { # If both --recstart and --recend is given then both must match $recstart = $opt::recstart; $recend = $opt::recend; } elsif(defined($opt::recstart)) { # If --recstart is given it must match start of record $recstart = $opt::recstart; $recend = ""; } elsif(defined($opt::recend)) { # If --recend is given then it must match end of record $recstart = ""; $recend = $opt::recend; } if($opt::regexp) { # If $recstart/$recend contains '|' this should only apply to the regexp $recstart = "(?:".$recstart.")"; $recend = "(?:".$recend.")"; } else { # $recstart/$recend = printf strings (\n) $recstart =~ s/\\([0rnt\'\"\\])/"qq|\\$1|"/gee; $recend =~ s/\\([0rnt\'\"\\])/"qq|\\$1|"/gee; } return ($recstart,$recend); } sub nindex { # See if string is in buffer N times # Returns: # the position where the Nth copy is found my ($buf_ref, $str, $n) = @_; my $i = 0; for(1..$n) { $i = index($$buf_ref,$str,$i+1); if($i == -1) { last } } return $i; } { my @robin_queue; sub round_robin_write { # Input: # $header_ref = ref to $header string # $block_ref = ref to $block to be written # $recstart = record start string # $recend = record end string # $endpos = end position of $block # Uses: # %Global::running my ($header_ref,$block_ref,$recstart,$recend,$endpos) = @_; my $something_written = 0; my $block_passed = 0; my $sleep = 1; while(not $block_passed) { # Continue flushing existing buffers # until one is empty and a new block is passed # Make a queue to spread the blocks evenly if(not @robin_queue) { push @robin_queue, values %Global::running; } while(my $job = shift @robin_queue) { if($job->stdin_buffer_length() > 0) { $something_written += $job->non_block_write(); } else { $job->set_stdin_buffer($header_ref,$block_ref,$endpos,$recstart,$recend); $block_passed = 1; $job->set_virgin(0); $something_written += $job->non_block_write(); last; } } $sleep = ::reap_usleep($sleep); } return $something_written; } } sub write_record_to_pipe { # Fork then # Write record from pos 0 .. $endpos to pipe # Input: # $chunk_number = sequence number - to see if already run # $header_ref = reference to header string to prepend # $record_ref = reference to record to write # $recstart = start string of record # $recend = end string of record # $endpos = position in $record_ref where record ends # Uses: # $Global::job_already_run # $opt::roundrobin # @Global::virgin_jobs # Returns: # Number of chunks written (0 or 1) my ($chunk_number,$header_ref,$record_ref,$recstart,$recend,$endpos) = @_; if($endpos == 0) { return 0; } if(vec($Global::job_already_run,$chunk_number,1)) { return 1; } if($opt::roundrobin) { return round_robin_write($header_ref,$record_ref,$recstart,$recend,$endpos); } # If no virgin found, backoff my $sleep = 0.0001; # 0.01 ms - better performance on highend while(not @Global::virgin_jobs) { ::debug("pipe", "No virgin jobs"); $sleep = ::reap_usleep($sleep); # Jobs may not be started because of loadavg # or too little time between each ssh login. start_more_jobs(); } my $job = shift @Global::virgin_jobs; # Job is no longer virgin $job->set_virgin(0); if(fork()) { # Skip } else { # Chop of at $endpos as we do not know how many rec_sep will # be removed. substr($$record_ref,$endpos,length $$record_ref) = ""; # Remove rec_sep if($opt::remove_rec_sep) { Job::remove_rec_sep($record_ref,$recstart,$recend); } $job->write($header_ref); $job->write($record_ref); close $job->fh(0,"w"); exit(0); } close $job->fh(0,"w"); return 1; } sub __SEM_MODE__ {} sub acquire_semaphore { # Acquires semaphore. If needed: spawns to the background # Uses: # @Global::host # Returns: # The semaphore to be released when jobs is complete $Global::host{':'} = SSHLogin->new(":"); my $sem = Semaphore->new($Semaphore::name,$Global::host{':'}->max_jobs_running()); $sem->acquire(); if($Semaphore::fg) { # skip } else { # If run in the background, the PID will change # therefore release and re-acquire the semaphore $sem->release(); if(fork()) { exit(0); } else { # child # Get a semaphore for this pid ::die_bug("Can't start a new session: $!") if setsid() == -1; $sem = Semaphore->new($Semaphore::name,$Global::host{':'}->max_jobs_running()); $sem->acquire(); } } return $sem; } sub __PARSE_OPTIONS__ {} sub options_hash { # Returns: # %hash = the GetOptions config return ("debug|D=s" => \$opt::D, "xargs" => \$opt::xargs, "m" => \$opt::m, "X" => \$opt::X, "v" => \@opt::v, "joblog=s" => \$opt::joblog, "results|result|res=s" => \$opt::results, "resume" => \$opt::resume, "resume-failed|resumefailed" => \$opt::resume_failed, "silent" => \$opt::silent, #"silent-error|silenterror" => \$opt::silent_error, "keep-order|keeporder|k" => \$opt::keeporder, "group" => \$opt::group, "g" => \$opt::retired, "ungroup|u" => \$opt::ungroup, "linebuffer|linebuffered|line-buffer|line-buffered" => \$opt::linebuffer, "tmux" => \$opt::tmux, "null|0" => \$opt::0, "quote|q" => \$opt::q, # Replacement strings "parens=s" => \$opt::parens, "rpl=s" => \@opt::rpl, "plus" => \$opt::plus, "I=s" => \$opt::I, "extensionreplace|er=s" => \$opt::U, "U=s" => \$opt::retired, "basenamereplace|bnr=s" => \$opt::basenamereplace, "dirnamereplace|dnr=s" => \$opt::dirnamereplace, "basenameextensionreplace|bner=s" => \$opt::basenameextensionreplace, "seqreplace=s" => \$opt::seqreplace, "slotreplace=s" => \$opt::slotreplace, "jobs|j=s" => \$opt::jobs, "delay=f" => \$opt::delay, "sshdelay=f" => \$opt::sshdelay, "load=s" => \$opt::load, "noswap" => \$opt::noswap, "max-line-length-allowed" => \$opt::max_line_length_allowed, "number-of-cpus" => \$opt::number_of_cpus, "number-of-cores" => \$opt::number_of_cores, "use-cpus-instead-of-cores" => \$opt::use_cpus_instead_of_cores, "shellquote|shell_quote|shell-quote" => \$opt::shellquote, "nice=i" => \$opt::nice, "timeout=s" => \$opt::timeout, "tag" => \$opt::tag, "tagstring|tag-string=s" => \$opt::tagstring, "onall" => \$opt::onall, "nonall" => \$opt::nonall, "filter-hosts|filterhosts|filter-host" => \$opt::filter_hosts, "sshlogin|S=s" => \@opt::sshlogin, "sshloginfile|slf=s" => \@opt::sshloginfile, "controlmaster|M" => \$opt::controlmaster, "return=s" => \@opt::return, "trc=s" => \@opt::trc, "transfer" => \$opt::transfer, "cleanup" => \$opt::cleanup, "basefile|bf=s" => \@opt::basefile, "B=s" => \$opt::retired, "ctrlc|ctrl-c" => \$opt::ctrlc, "noctrlc|no-ctrlc|no-ctrl-c" => \$opt::noctrlc, "workdir|work-dir|wd=s" => \$opt::workdir, "W=s" => \$opt::retired, "tmpdir=s" => \$opt::tmpdir, "tempdir=s" => \$opt::tmpdir, "use-compress-program|compress-program=s" => \$opt::compress_program, "use-decompress-program|decompress-program=s" => \$opt::decompress_program, "compress" => \$opt::compress, "tty" => \$opt::tty, "T" => \$opt::retired, "halt-on-error|halt=s" => \$opt::halt_on_error, "H=i" => \$opt::retired, "retries=i" => \$opt::retries, "dry-run|dryrun" => \$opt::dryrun, "progress" => \$opt::progress, "eta" => \$opt::eta, "bar" => \$opt::bar, "arg-sep|argsep=s" => \$opt::arg_sep, "arg-file-sep|argfilesep=s" => \$opt::arg_file_sep, "trim=s" => \$opt::trim, "env=s" => \@opt::env, "recordenv|record-env" => \$opt::record_env, "plain" => \$opt::plain, "profile|J=s" => \@opt::profile, "pipe|spreadstdin" => \$opt::pipe, "robin|round-robin|roundrobin" => \$opt::roundrobin, "recstart=s" => \$opt::recstart, "recend=s" => \$opt::recend, "regexp|regex" => \$opt::regexp, "remove-rec-sep|removerecsep|rrs" => \$opt::remove_rec_sep, "files|output-as-files|outputasfiles" => \$opt::files, "block|block-size|blocksize=s" => \$opt::blocksize, "tollef" => \$opt::retired, "gnu" => \$opt::gnu, "xapply" => \$opt::xapply, "bibtex" => \$opt::bibtex, "nn|nonotice|no-notice" => \$opt::no_notice, # xargs-compatibility - implemented, man, testsuite "max-procs|P=s" => \$opt::jobs, "delimiter|d=s" => \$opt::d, "max-chars|s=i" => \$opt::max_chars, "arg-file|a=s" => \@opt::a, "no-run-if-empty|r" => \$opt::r, "replace|i:s" => \$opt::i, "E=s" => \$opt::eof, "eof|e:s" => \$opt::eof, "max-args|n=i" => \$opt::max_args, "max-replace-args|N=i" => \$opt::max_replace_args, "colsep|col-sep|C=s" => \$opt::colsep, "help|h" => \$opt::help, "L=f" => \$opt::L, "max-lines|l:f" => \$opt::max_lines, "interactive|p" => \$opt::p, "verbose|t" => \$opt::verbose, "version|V" => \$opt::version, "minversion|min-version=i" => \$opt::minversion, "show-limits|showlimits" => \$opt::show_limits, "exit|x" => \$opt::x, # Semaphore "semaphore" => \$opt::semaphore, "semaphoretimeout=i" => \$opt::semaphoretimeout, "semaphorename|id=s" => \$opt::semaphorename, "fg" => \$opt::fg, "bg" => \$opt::bg, "wait" => \$opt::wait, # Shebang #!/usr/bin/parallel --shebang "shebang|hashbang" => \$opt::shebang, "internal-pipe-means-argfiles" => \$opt::internal_pipe_means_argfiles, "Y" => \$opt::retired, "skip-first-line" => \$opt::skip_first_line, "header=s" => \$opt::header, "cat" => \$opt::cat, "fifo" => \$opt::fifo, "pipepart|pipe-part" => \$opt::pipepart, "hgrp|hostgroup|hostgroups" => \$opt::hostgroups, ); } sub get_options_from_array { # Run GetOptions on @array # Input: # $array_ref = ref to @ARGV to parse # @keep_only = Keep only these options # Uses: # @ARGV # Returns: # true if parsing worked # false if parsing failed # @$array_ref is changed my ($array_ref, @keep_only) = @_; if(not @$array_ref) { # Empty array: No need to look more at that return 1; } # A bit of shuffling of @ARGV needed as GetOptionsFromArray is not # supported everywhere my @save_argv; my $this_is_ARGV = (\@::ARGV == $array_ref); if(not $this_is_ARGV) { @save_argv = @::ARGV; @::ARGV = @{$array_ref}; } # If @keep_only set: Ignore all values except @keep_only my %options = options_hash(); if(@keep_only) { my (%keep,@dummy); @keep{@keep_only} = @keep_only; for my $k (grep { not $keep{$_} } keys %options) { # Store the value of the option in @dummy $options{$k} = \@dummy; } } my $retval = GetOptions(%options); if(not $this_is_ARGV) { @{$array_ref} = @::ARGV; @::ARGV = @save_argv; } return $retval; } sub parse_options { # Returns: N/A # Defaults: $Global::version = 20141122; $Global::progname = 'parallel'; $Global::infinity = 2**31; $Global::debug = 0; $Global::verbose = 0; $Global::quoting = 0; # Read only table with default --rpl values %Global::replace = ( '{}' => '', '{#}' => '1 $_=$job->seq()', '{%}' => '1 $_=$job->slot()', '{/}' => 's:.*/::', '{//}' => '$Global::use{"File::Basename"} ||= eval "use File::Basename; 1;"; $_ = dirname($_);', '{/.}' => 's:.*/::; s:\.[^/.]+$::;', '{.}' => 's:\.[^/.]+$::', ); %Global::plus = ( # {} = {+/}/{/} # = {.}.{+.} = {+/}/{/.}.{+.} # = {..}.{+..} = {+/}/{/..}.{+..} # = {...}.{+...} = {+/}/{/...}.{+...} '{+/}' => 's:/[^/]*$::', '{+.}' => 's:.*\.::', '{+..}' => 's:.*\.([^.]*\.):$1:', '{+...}' => 's:.*\.([^.]*\.[^.]*\.):$1:', '{..}' => 's:\.[^/.]+$::; s:\.[^/.]+$::', '{...}' => 's:\.[^/.]+$::; s:\.[^/.]+$::; s:\.[^/.]+$::', '{/..}' => 's:.*/::; s:\.[^/.]+$::; s:\.[^/.]+$::', '{/...}' => 's:.*/::; s:\.[^/.]+$::; s:\.[^/.]+$::; s:\.[^/.]+$::', ); # Modifiable copy of %Global::replace %Global::rpl = %Global::replace; $Global::parens = "{==}"; $/="\n"; $Global::ignore_empty = 0; $Global::interactive = 0; $Global::stderr_verbose = 0; $Global::default_simultaneous_sshlogins = 9; $Global::exitstatus = 0; $Global::halt_on_error_exitstatus = 0; $Global::arg_sep = ":::"; $Global::arg_file_sep = "::::"; $Global::trim = 'n'; $Global::max_jobs_running = 0; $Global::job_already_run = ''; $ENV{'TMPDIR'} ||= "/tmp"; @ARGV=read_options(); if(@opt::v) { $Global::verbose = $#opt::v+1; } # Convert -v -v to v=2 $Global::debug = $opt::D; $Global::shell = $ENV{'PARALLEL_SHELL'} || parent_shell($$) || $ENV{'SHELL'} || "/bin/sh"; if(defined $opt::X) { $Global::ContextReplace = 1; } if(defined $opt::silent) { $Global::verbose = 0; } if(defined $opt::0) { $/ = "\0"; } if(defined $opt::d) { my $e="sprintf \"$opt::d\""; $/ = eval $e; } if(defined $opt::p) { $Global::interactive = $opt::p; } if(defined $opt::q) { $Global::quoting = 1; } if(defined $opt::r) { $Global::ignore_empty = 1; } if(defined $opt::verbose) { $Global::stderr_verbose = 1; } # Deal with --rpl sub rpl { # Modify %Global::rpl # Replace $old with $new my ($old,$new) = @_; if($old ne $new) { $Global::rpl{$new} = $Global::rpl{$old}; delete $Global::rpl{$old}; } } if(defined $opt::parens) { $Global::parens = $opt::parens; } my $parenslen = 0.5*length $Global::parens; $Global::parensleft = substr($Global::parens,0,$parenslen); $Global::parensright = substr($Global::parens,$parenslen); if(defined $opt::plus) { %Global::rpl = (%Global::plus,%Global::rpl); } if(defined $opt::I) { rpl('{}',$opt::I); } if(defined $opt::U) { rpl('{.}',$opt::U); } if(defined $opt::i and $opt::i) { rpl('{}',$opt::i); } if(defined $opt::basenamereplace) { rpl('{/}',$opt::basenamereplace); } if(defined $opt::dirnamereplace) { rpl('{//}',$opt::dirnamereplace); } if(defined $opt::seqreplace) { rpl('{#}',$opt::seqreplace); } if(defined $opt::slotreplace) { rpl('{%}',$opt::slotreplace); } if(defined $opt::basenameextensionreplace) { rpl('{/.}',$opt::basenameextensionreplace); } for(@opt::rpl) { # Create $Global::rpl entries for --rpl options # E.g: "{..} s:\.[^.]+$:;s:\.[^.]+$:;" my ($shorthand,$long) = split/ /,$_,2; $Global::rpl{$shorthand} = $long; } if(defined $opt::eof) { $Global::end_of_file_string = $opt::eof; } if(defined $opt::max_args) { $Global::max_number_of_args = $opt::max_args; } if(defined $opt::timeout) { $Global::timeoutq = TimeoutQueue->new($opt::timeout); } if(defined $opt::tmpdir) { $ENV{'TMPDIR'} = $opt::tmpdir; } if(defined $opt::help) { die_usage(); } if(defined $opt::colsep) { $Global::trim = 'lr'; } if(defined $opt::header) { $opt::colsep = defined $opt::colsep ? $opt::colsep : "\t"; } if(defined $opt::trim) { $Global::trim = $opt::trim; } if(defined $opt::arg_sep) { $Global::arg_sep = $opt::arg_sep; } if(defined $opt::arg_file_sep) { $Global::arg_file_sep = $opt::arg_file_sep; } if(defined $opt::number_of_cpus) { print SSHLogin::no_of_cpus(),"\n"; wait_and_exit(0); } if(defined $opt::number_of_cores) { print SSHLogin::no_of_cores(),"\n"; wait_and_exit(0); } if(defined $opt::max_line_length_allowed) { print Limits::Command::real_max_length(),"\n"; wait_and_exit(0); } if(defined $opt::version) { version(); wait_and_exit(0); } if(defined $opt::bibtex) { bibtex(); wait_and_exit(0); } if(defined $opt::record_env) { record_env(); wait_and_exit(0); } if(defined $opt::show_limits) { show_limits(); } if(@opt::sshlogin) { @Global::sshlogin = @opt::sshlogin; } if(@opt::sshloginfile) { read_sshloginfiles(@opt::sshloginfile); } if(@opt::return) { push @Global::ret_files, @opt::return; } if(not defined $opt::recstart and not defined $opt::recend) { $opt::recend = "\n"; } if(not defined $opt::blocksize) { $opt::blocksize = "1M"; } $opt::blocksize = multiply_binary_prefix($opt::blocksize); if(defined $opt::controlmaster) { $opt::noctrlc = 1; } if(defined $opt::semaphore) { $Global::semaphore = 1; } if(defined $opt::semaphoretimeout) { $Global::semaphore = 1; } if(defined $opt::semaphorename) { $Global::semaphore = 1; } if(defined $opt::fg) { $Global::semaphore = 1; } if(defined $opt::bg) { $Global::semaphore = 1; } if(defined $opt::wait) { $Global::semaphore = 1; } if(defined $opt::halt_on_error and $opt::halt_on_error=~/%/) { $opt::halt_on_error /= 100; } if(defined $opt::timeout and $opt::timeout !~ /^\d+(\.\d+)?%?$/) { ::error("--timeout must be seconds or percentage\n"); wait_and_exit(255); } if(defined $opt::minversion) { print $Global::version,"\n"; if($Global::version < $opt::minversion) { wait_and_exit(255); } else { wait_and_exit(0); } } if(not defined $opt::delay) { # Set --delay to --sshdelay if not set $opt::delay = $opt::sshdelay; } if($opt::compress_program) { $opt::compress = 1; $opt::decompress_program ||= $opt::compress_program." -dc"; } if($opt::compress) { my ($compress, $decompress) = find_compression_program(); $opt::compress_program ||= $compress; $opt::decompress_program ||= $decompress; } if(defined $opt::nonall) { # Append a dummy empty argument push @ARGV, $Global::arg_sep, ""; } if(defined $opt::tty) { # Defaults for --tty: -j1 -u # Can be overridden with -jXXX -g if(not defined $opt::jobs) { $opt::jobs = 1; } if(not defined $opt::group) { $opt::ungroup = 0; } } if(@opt::trc) { push @Global::ret_files, @opt::trc; $opt::transfer = 1; $opt::cleanup = 1; } if(defined $opt::max_lines) { if($opt::max_lines eq "-0") { # -l -0 (swallowed -0) $opt::max_lines = 1; $opt::0 = 1; $/ = "\0"; } elsif ($opt::max_lines == 0) { # If not given (or if 0 is given) => 1 $opt::max_lines = 1; } $Global::max_lines = $opt::max_lines; if(not $opt::pipe) { # --pipe -L means length of record - not max_number_of_args $Global::max_number_of_args ||= $Global::max_lines; } } # Read more than one arg at a time (-L, -N) if(defined $opt::L) { $Global::max_lines = $opt::L; if(not $opt::pipe) { # --pipe -L means length of record - not max_number_of_args $Global::max_number_of_args ||= $Global::max_lines; } } if(defined $opt::max_replace_args) { $Global::max_number_of_args = $opt::max_replace_args; $Global::ContextReplace = 1; } if((defined $opt::L or defined $opt::max_replace_args) and not ($opt::xargs or $opt::m)) { $Global::ContextReplace = 1; } if(defined $opt::tag and not defined $opt::tagstring) { $opt::tagstring = "\257<\257>"; # Default = {} } if(defined $opt::pipepart and (defined $opt::L or defined $opt::max_lines or defined $opt::max_replace_args)) { ::error("--pipepart is incompatible with --max-replace-args, ", "--max-lines, and -L.\n"); wait_and_exit(255); } if(grep /^$Global::arg_sep$|^$Global::arg_file_sep$/o, @ARGV) { # Deal with ::: and :::: @ARGV=read_args_from_command_line(); } # Semaphore defaults # Must be done before computing number of processes and max_line_length # because when running as a semaphore GNU Parallel does not read args $Global::semaphore ||= ($0 =~ m:(^|/)sem$:); # called as 'sem' if($Global::semaphore) { # A semaphore does not take input from neither stdin nor file @opt::a = ("/dev/null"); push(@Global::unget_argv, [Arg->new("")]); $Semaphore::timeout = $opt::semaphoretimeout || 0; if(defined $opt::semaphorename) { $Semaphore::name = $opt::semaphorename; } else { $Semaphore::name = `tty`; chomp $Semaphore::name; } $Semaphore::fg = $opt::fg; $Semaphore::wait = $opt::wait; $Global::default_simultaneous_sshlogins = 1; if(not defined $opt::jobs) { $opt::jobs = 1; } if($Global::interactive and $opt::bg) { ::error("Jobs running in the ". "background cannot be interactive.\n"); ::wait_and_exit(255); } } if(defined $opt::eta) { $opt::progress = $opt::eta; } if(defined $opt::bar) { $opt::progress = $opt::bar; } if(defined $opt::retired) { ::error("-g has been retired. Use --group.\n"); ::error("-B has been retired. Use --bf.\n"); ::error("-T has been retired. Use --tty.\n"); ::error("-U has been retired. Use --er.\n"); ::error("-W has been retired. Use --wd.\n"); ::error("-Y has been retired. Use --shebang.\n"); ::error("-H has been retired. Use --halt.\n"); ::error("--tollef has been retired. Use -u -q --arg-sep -- and --load for -l.\n"); ::wait_and_exit(255); } citation_notice(); parse_sshlogin(); parse_env_var(); if(remote_hosts() and ($opt::X or $opt::m or $opt::xargs)) { # As we do not know the max line length on the remote machine # long commands generated by xargs may fail # If opt_N is set, it is probably safe ::warning("Using -X or -m with --sshlogin may fail.\n"); } if(not defined $opt::jobs) { $opt::jobs = "100%"; } open_joblog(); } sub env_quote { # Input: # $v = value to quote # Returns: # $v = value quoted as environment variable my $v = $_[0]; $v =~ s/([\\])/\\$1/g; $v =~ s/([\[\] \#\'\&\<\>\(\)\;\{\}\t\"\$\`\*\174\!\?\~])/\\$1/g; $v =~ s/\n/"\n"/g; return $v; } sub record_env { # Record current %ENV-keys in ~/.parallel/ignored_vars # Returns: N/A my $ignore_filename = $ENV{'HOME'} . "/.parallel/ignored_vars"; if(open(my $vars_fh, ">", $ignore_filename)) { print $vars_fh map { $_,"\n" } keys %ENV; } else { ::error("Cannot write to $ignore_filename\n"); ::wait_and_exit(255); } } sub parse_env_var { # Parse --env and set $Global::envvar, $Global::envwarn and $Global::envvarlen # # Bash functions must be parsed to export them remotely # Pre-shellshock style bash function: # myfunc=() {... # Post-shellshock style bash function: # BASH_FUNC_myfunc()=() {... # # Uses: # $Global::envvar = eval string that will set variables in both bash and csh # $Global::envwarn = If functions are used: Give warning in csh # $Global::envvarlen = length of $Global::envvar # @opt::env # $Global::shell # %ENV # Returns: N/A $Global::envvar = ""; $Global::envwarn = ""; my @vars = ('parallel_bash_environment'); for my $varstring (@opt::env) { # Split up --env VAR1,VAR2 push @vars, split /,/, $varstring; } if(grep { /^_$/ } @vars) { # --env _ # Include all vars that are not in a clean environment if(open(my $vars_fh, "<", $ENV{'HOME'} . "/.parallel/ignored_vars")) { my @ignore = <$vars_fh>; chomp @ignore; my %ignore; @ignore{@ignore} = @ignore; close $vars_fh; push @vars, grep { not defined $ignore{$_} } keys %ENV; @vars = grep { not /^_$/ } @vars; } else { ::error("Run '$Global::progname --record-env' in a clean environment first.\n"); ::wait_and_exit(255); } } # Duplicate vars as BASH functions to include post-shellshock functions. # So --env myfunc should also look for BASH_FUNC_myfunc() @vars = map { $_, "BASH_FUNC_$_()" } @vars; # Keep only defined variables @vars = grep { defined($ENV{$_}) } @vars; # Pre-shellshock style bash function: # myfunc=() { echo myfunc # } # Post-shellshock style bash function: # BASH_FUNC_myfunc()=() { echo myfunc # } my @bash_functions = grep { substr($ENV{$_},0,4) eq "() {" } @vars; my @non_functions = grep { substr($ENV{$_},0,4) ne "() {" } @vars; if(@bash_functions) { # Functions are not supported for all shells if($Global::shell !~ m:/(bash|rbash|zsh|rzsh|dash|ksh):) { ::warning("Shell functions may not be supported in $Global::shell\n"); } } # Pre-shellschock names are without () my @bash_pre_shellshock = grep { not /\(\)/ } @bash_functions; # Post-shellschock names are with () my @bash_post_shellshock = grep { /\(\)/ } @bash_functions; my @qcsh = (map { my $a=$_; "setenv $a " . env_quote($ENV{$a}) } grep { not /^parallel_bash_environment$/ } @non_functions); my @qbash = (map { my $a=$_; "export $a=" . env_quote($ENV{$a}) } @non_functions, @bash_pre_shellshock); push @qbash, map { my $a=$_; "eval $a\"\$$a\"" } @bash_pre_shellshock; push @qbash, map { /BASH_FUNC_(.*)\(\)/; "$1 $ENV{$_}" } @bash_post_shellshock; #ssh -tt -oLogLevel=quiet lo 'eval `echo PARALLEL_SEQ='$PARALLEL_SEQ'\;export PARALLEL_SEQ\; PARALLEL_PID='$PARALLEL_PID'\;export PARALLEL_PID` ;' tty\ \>/dev/null\ \&\&\ stty\ isig\ -onlcr\ -echo\;echo\ \$SHELL\ \|\ grep\ \"/t\\\{0,1\\\}csh\"\ \>\ /dev/null\ \&\&\ setenv\ BASH_FUNC_myfunc\ \\\(\\\)\\\ \\\{\\\ \\\ echo\\\ a\"' #'\"\\\}\ \|\|\ myfunc\(\)\ \{\ \ echo\ a' #'\}\ \;myfunc\ 1; # Check if any variables contain \n if(my @v = map { s/BASH_FUNC_(.*)\(\)/$1/; $_ } grep { $ENV{$_}=~/\n/ } @vars) { # \n is bad for csh and will cause it to fail. $Global::envwarn = ::shell_quote_scalar(q{echo $SHELL | egrep "/t?csh" > /dev/null && echo CSH/TCSH DO NOT SUPPORT newlines IN VARIABLES/FUNCTIONS. Unset }."@v".q{ && exec false;}."\n\n") . $Global::envwarn; } if(not @qcsh) { push @qcsh, "true"; } if(not @qbash) { push @qbash, "true"; } # Create lines like: # echo $SHELL | grep "/t\\{0,1\\}csh" >/dev/null && setenv V1 val1 && setenv V2 val2 || export V1=val1 && export V2=val2 ; echo "$V1$V2" if(@vars) { $Global::envvar .= join"", (q{echo $SHELL | grep "/t\\{0,1\\}csh" > /dev/null && } . join(" && ", @qcsh) . q{ || } . join(" && ", @qbash) .q{;}); if($ENV{'parallel_bash_environment'}) { $Global::envvar .= 'eval "$parallel_bash_environment";'."\n"; } } $Global::envvarlen = length $Global::envvar; } sub open_joblog { # Open joblog as specified by --joblog # Uses: # $opt::resume # $opt::resume_failed # $opt::joblog # $opt::results # $Global::job_already_run # %Global::fd my $append = 0; if(($opt::resume or $opt::resume_failed) and not ($opt::joblog or $opt::results)) { ::error("--resume and --resume-failed require --joblog or --results.\n"); ::wait_and_exit(255); } if($opt::joblog) { if($opt::resume || $opt::resume_failed) { if(open(my $joblog_fh, "<", $opt::joblog)) { # Read the joblog $append = <$joblog_fh>; # If there is a header: Open as append later my $joblog_regexp; if($opt::resume_failed) { # Make a regexp that only matches commands with exit+signal=0 # 4 host 1360490623.067 3.445 1023 1222 0 0 command $joblog_regexp='^(\d+)(?:\t[^\t]+){5}\t0\t0\t'; } else { # Just match the job number $joblog_regexp='^(\d+)'; } while(<$joblog_fh>) { if(/$joblog_regexp/o) { # This is 30% faster than set_job_already_run($1); vec($Global::job_already_run,($1||0),1) = 1; } elsif(not /\d+\s+[^\s]+\s+([0-9.]+\s+){6}/) { ::error("Format of '$opt::joblog' is wrong: $_"); ::wait_and_exit(255); } } close $joblog_fh; } } if($append) { # Append to joblog if(not open($Global::joblog, ">>", $opt::joblog)) { ::error("Cannot append to --joblog $opt::joblog.\n"); ::wait_and_exit(255); } } else { if($opt::joblog eq "-") { # Use STDOUT as joblog $Global::joblog = $Global::fd{1}; } elsif(not open($Global::joblog, ">", $opt::joblog)) { # Overwrite the joblog ::error("Cannot write to --joblog $opt::joblog.\n"); ::wait_and_exit(255); } print $Global::joblog join("\t", "Seq", "Host", "Starttime", "JobRuntime", "Send", "Receive", "Exitval", "Signal", "Command" ). "\n"; } } } sub find_compression_program { # Find a fast compression program # Returns: # $compress_program = compress program with options # $decompress_program = decompress program with options # Search for these. Sorted by speed my @prg = qw(lzop pigz pxz gzip plzip pbzip2 lzma xz lzip bzip2); for my $p (@prg) { if(which($p)) { return ("$p -c -1","$p -dc"); } } # Fall back to cat return ("cat","cat"); } sub read_options { # Read options from command line, profile and $PARALLEL # Uses: # $opt::shebang_wrap # $opt::shebang # @ARGV # $opt::plain # @opt::profile # $ENV{'HOME'} # $ENV{'PARALLEL'} # Returns: # @ARGV_no_opt = @ARGV without --options # This must be done first as this may exec myself if(defined $ARGV[0] and ($ARGV[0] =~ /^--shebang/ or $ARGV[0] =~ /^--shebang-?wrap/ or $ARGV[0] =~ /^--hashbang/)) { # Program is called from #! line in script # remove --shebang-wrap if it is set $opt::shebang_wrap = ($ARGV[0] =~ s/^--shebang-?wrap *//); # remove --shebang if it is set $opt::shebang = ($ARGV[0] =~ s/^--shebang *//); # remove --hashbang if it is set $opt::shebang .= ($ARGV[0] =~ s/^--hashbang *//); if($opt::shebang) { my $argfile = shell_quote_scalar(pop @ARGV); # exec myself to split $ARGV[0] into separate fields exec "$0 --skip-first-line -a $argfile @ARGV"; } if($opt::shebang_wrap) { my @options; my @parser; if ($^O eq 'freebsd') { # FreeBSD's #! puts different values in @ARGV than Linux' does. my @nooptions = @ARGV; get_options_from_array(\@nooptions); while($#ARGV > $#nooptions) { push @options, shift @ARGV; } while(@ARGV and $ARGV[0] ne ":::") { push @parser, shift @ARGV; } if(@ARGV and $ARGV[0] eq ":::") { shift @ARGV; } } else { @options = shift @ARGV; } my $script = shell_quote_scalar(shift @ARGV); # exec myself to split $ARGV[0] into separate fields exec "$0 --internal-pipe-means-argfiles @options @parser $script ::: @ARGV"; } } Getopt::Long::Configure("bundling","require_order"); my @ARGV_copy = @ARGV; # Check if there is a --profile to set @opt::profile get_options_from_array(\@ARGV_copy,"profile|J=s","plain") || die_usage(); my @ARGV_profile = (); my @ARGV_env = (); if(not $opt::plain) { # Add options from .parallel/config and other profiles my @config_profiles = ( "/etc/parallel/config", $ENV{'HOME'}."/.parallel/config", $ENV{'HOME'}."/.parallelrc"); my @profiles = @config_profiles; if(@opt::profile) { # --profile overrides default profiles @profiles = (); for my $profile (@opt::profile) { if(-r $profile) { push @profiles, $profile; } else { push @profiles, $ENV{'HOME'}."/.parallel/".$profile; } } } for my $profile (@profiles) { if(-r $profile) { open (my $in_fh, "<", $profile) || ::die_bug("read-profile: $profile"); while(<$in_fh>) { /^\s*\#/ and next; chomp; push @ARGV_profile, shellwords($_); } close $in_fh; } else { if(grep /^$profile$/, @config_profiles) { # config file is not required to exist } else { ::error("$profile not readable.\n"); wait_and_exit(255); } } } # Add options from shell variable $PARALLEL if($ENV{'PARALLEL'}) { @ARGV_env = shellwords($ENV{'PARALLEL'}); } } Getopt::Long::Configure("bundling","require_order"); get_options_from_array(\@ARGV_profile) || die_usage(); get_options_from_array(\@ARGV_env) || die_usage(); get_options_from_array(\@ARGV) || die_usage(); # Prepend non-options to @ARGV (such as commands like 'nice') unshift @ARGV, @ARGV_profile, @ARGV_env; return @ARGV; } sub read_args_from_command_line { # Arguments given on the command line after: # ::: ($Global::arg_sep) # :::: ($Global::arg_file_sep) # Removes the arguments from @ARGV and: # - puts filenames into -a # - puts arguments into files and add the files to -a # Input: # @::ARGV = command option ::: arg arg arg :::: argfiles # Uses: # $Global::arg_sep # $Global::arg_file_sep # $opt::internal_pipe_means_argfiles # $opt::pipe # @opt::a # Returns: # @argv_no_argsep = @::ARGV without ::: and :::: and following args my @new_argv = (); for(my $arg = shift @ARGV; @ARGV; $arg = shift @ARGV) { if($arg eq $Global::arg_sep or $arg eq $Global::arg_file_sep) { my $group = $arg; # This group of arguments is args or argfiles my @group; while(defined ($arg = shift @ARGV)) { if($arg eq $Global::arg_sep or $arg eq $Global::arg_file_sep) { # exit while loop if finding new separator last; } else { # If not hitting ::: or :::: # Append it to the group push @group, $arg; } } if($group eq $Global::arg_file_sep or ($opt::internal_pipe_means_argfiles and $opt::pipe) ) { # Group of file names on the command line. # Append args into -a push @opt::a, @group; } elsif($group eq $Global::arg_sep) { # Group of arguments on the command line. # Put them into a file. # Create argfile my ($outfh,$name) = ::tmpfile(SUFFIX => ".arg"); unlink($name); # Put args into argfile print $outfh map { $_,$/ } @group; seek $outfh, 0, 0; # Append filehandle to -a push @opt::a, $outfh; } else { ::die_bug("Unknown command line group: $group"); } if(defined($arg)) { # $arg is ::: or :::: redo; } else { # $arg is undef -> @ARGV empty last; } } push @new_argv, $arg; } # Output: @ARGV = command to run with options return @new_argv; } sub cleanup { # Returns: N/A if(@opt::basefile) { cleanup_basefile(); } } sub __QUOTING_ARGUMENTS_FOR_SHELL__ {} sub shell_quote { # Input: # @strings = strings to be quoted # Output: # @shell_quoted_strings = string quoted with \ as needed by the shell my @strings = (@_); for my $a (@strings) { $a =~ s/([\002-\011\013-\032\\\#\?\`\(\)\{\}\[\]\*\>\<\~\|\; \"\!\$\&\'\202-\377])/\\$1/g; $a =~ s/[\n]/'\n'/g; # filenames with '\n' is quoted using \' } return wantarray ? @strings : "@strings"; } sub shell_quote_empty { # Inputs: # @strings = strings to be quoted # Returns: # @quoted_strings = empty strings quoted as ''. my @strings = shell_quote(@_); for my $a (@strings) { if($a eq "") { $a = "''"; } } return wantarray ? @strings : "@strings"; } sub shell_quote_scalar { # Quote the string so shell will not expand any special chars # Inputs: # $string = string to be quoted # Returns: # $shell_quoted = string quoted with \ as needed by the shell my $a = $_[0]; if(defined $a) { # $a =~ s/([\002-\011\013-\032\\\#\?\`\(\)\{\}\[\]\*\>\<\~\|\; \"\!\$\&\'\202-\377])/\\$1/g; # This is 1% faster than the above $a =~ s/[\002-\011\013-\032\\\#\?\`\(\)\{\}\[\]\*\>\<\~\|\; \"\!\$\&\'\202-\377]/\\$&/go; $a =~ s/[\n]/'\n'/go; # filenames with '\n' is quoted using \' } return $a; } sub shell_quote_file { # Quote the string so shell will not expand any special chars and prepend ./ if needed # Input: # $filename = filename to be shell quoted # Returns: # $quoted_filename = filename quoted with \ as needed by the shell and ./ if needed my $a = shell_quote_scalar(shift); if(defined $a) { if($a =~ m:^/: or $a =~ m:^\./:) { # /abs/path or ./rel/path => skip } else { # rel/path => ./rel/path $a = "./".$a; } } return $a; } sub shellwords { # Input: # $string = shell line # Returns: # @shell_words = $string split into words as shell would do $Global::use{"Text::ParseWords"} ||= eval "use Text::ParseWords; 1;"; return Text::ParseWords::shellwords(@_); } sub __FILEHANDLES__ {} sub save_stdin_stdout_stderr { # Remember the original STDIN, STDOUT and STDERR # and file descriptors opened by the shell (e.g. 3>/tmp/foo) # Uses: # %Global::fd # $Global::original_stderr # $Global::original_stdin # Returns: N/A # Find file descriptors that are already opened (by the shell) for my $fdno (1..61) { # /dev/fd/62 and above are used by bash for <(cmd) my $fh; # 2-argument-open is used to be compatible with old perl 5.8.0 # bug #43570: Perl 5.8.0 creates 61 files if(open($fh,">&=$fdno")) { $Global::fd{$fdno}=$fh; } } open $Global::original_stderr, ">&", "STDERR" or ::die_bug("Can't dup STDERR: $!"); open $Global::original_stdin, "<&", "STDIN" or ::die_bug("Can't dup STDIN: $!"); } sub enough_file_handles { # Check that we have enough filehandles available for starting # another job # Uses: # $opt::ungroup # %Global::fd # Returns: # 1 if ungrouped (thus not needing extra filehandles) # 0 if too few filehandles # 1 if enough filehandles if(not $opt::ungroup) { my %fh; my $enough_filehandles = 1; # perl uses 7 filehandles for something? # open3 uses 2 extra filehandles temporarily # We need a filehandle for each redirected file descriptor # (normally just STDOUT and STDERR) for my $i (1..(7+2+keys %Global::fd)) { $enough_filehandles &&= open($fh{$i}, "<", "/dev/null"); } for (values %fh) { close $_; } return $enough_filehandles; } else { # Ungrouped does not need extra file handles return 1; } } sub open_or_exit { # Open a file name or exit if the file cannot be opened # Inputs: # $file = filehandle or filename to open # Uses: # $Global::stdin_in_opt_a # $Global::original_stdin # Returns: # $fh = file handle to read-opened file my $file = shift; if($file eq "-") { $Global::stdin_in_opt_a = 1; return ($Global::original_stdin || *STDIN); } if(ref $file eq "GLOB") { # This is an open filehandle return $file; } my $fh = gensym; if(not open($fh, "<", $file)) { ::error("Cannot open input file `$file': No such file or directory.\n"); wait_and_exit(255); } return $fh; } sub __RUNNING_THE_JOBS_AND_PRINTING_PROGRESS__ {} # Variable structure: # # $Global::running{$pid} = Pointer to Job-object # @Global::virgin_jobs = Pointer to Job-object that have received no input # $Global::host{$sshlogin} = Pointer to SSHLogin-object # $Global::total_running = total number of running jobs # $Global::total_started = total jobs started sub init_run_jobs { $Global::total_running = 0; $Global::total_started = 0; $Global::tty_taken = 0; $SIG{USR1} = \&list_running_jobs; $SIG{USR2} = \&toggle_progress; if(@opt::basefile) { setup_basefile(); } } { my $last_time; my %last_mtime; sub start_more_jobs { # Run start_another_job() but only if: # * not $Global::start_no_new_jobs set # * not JobQueue is empty # * not load on server is too high # * not server swapping # * not too short time since last remote login # Uses: # $Global::max_procs_file # $Global::max_procs_file_last_mod # %Global::host # @opt::sshloginfile # $Global::start_no_new_jobs # $opt::filter_hosts # $Global::JobQueue # $opt::pipe # $opt::load # $opt::noswap # $opt::delay # $Global::newest_starttime # Returns: # $jobs_started = number of jobs started my $jobs_started = 0; my $jobs_started_this_round = 0; if($Global::start_no_new_jobs) { return $jobs_started; } if(time - ($last_time||0) > 1) { # At most do this every second $last_time = time; if($Global::max_procs_file) { # --jobs filename my $mtime = (stat($Global::max_procs_file))[9]; if($mtime > $Global::max_procs_file_last_mod) { # file changed: Force re-computing max_jobs_running $Global::max_procs_file_last_mod = $mtime; for my $sshlogin (values %Global::host) { $sshlogin->set_max_jobs_running(undef); } } } if(@opt::sshloginfile) { # Is --sshloginfile changed? for my $slf (@opt::sshloginfile) { my $actual_file = expand_slf_shorthand($slf); my $mtime = (stat($actual_file))[9]; $last_mtime{$actual_file} ||= $mtime; if($mtime - $last_mtime{$actual_file} > 1) { ::debug("run","--sshloginfile $actual_file changed. reload\n"); $last_mtime{$actual_file} = $mtime; # Reload $slf # Empty sshlogins @Global::sshlogin = (); for (values %Global::host) { # Don't start new jobs on any host # except the ones added back later $_->set_max_jobs_running(0); } # This will set max_jobs_running on the SSHlogins read_sshloginfile($actual_file); parse_sshlogin(); $opt::filter_hosts and filter_hosts(); setup_basefile(); } } } } do { $jobs_started_this_round = 0; # This will start 1 job on each --sshlogin (if possible) # thus distribute the jobs on the --sshlogins round robin for my $sshlogin (values %Global::host) { if($Global::JobQueue->empty() and not $opt::pipe) { # No more jobs in the queue last; } debug("run", "Running jobs before on ", $sshlogin->string(), ": ", $sshlogin->jobs_running(), "\n"); if ($sshlogin->jobs_running() < $sshlogin->max_jobs_running()) { if($opt::load and $sshlogin->loadavg_too_high()) { # The load is too high or unknown next; } if($opt::noswap and $sshlogin->swapping()) { # The server is swapping next; } if($sshlogin->too_fast_remote_login()) { # It has been too short since next; } if($opt::delay and $opt::delay > ::now() - $Global::newest_starttime) { # It has been too short since last start next; } debug("run", $sshlogin->string(), " has ", $sshlogin->jobs_running(), " out of ", $sshlogin->max_jobs_running(), " jobs running. Start another.\n"); if(start_another_job($sshlogin) == 0) { # No more jobs to start on this $sshlogin debug("run","No jobs started on ", $sshlogin->string(), "\n"); next; } $sshlogin->inc_jobs_running(); $sshlogin->set_last_login_at(::now()); $jobs_started++; $jobs_started_this_round++; } debug("run","Running jobs after on ", $sshlogin->string(), ": ", $sshlogin->jobs_running(), " of ", $sshlogin->max_jobs_running(), "\n"); } } while($jobs_started_this_round); return $jobs_started; } } { my $no_more_file_handles_warned; sub start_another_job { # If there are enough filehandles # and JobQueue not empty # and not $job is in joblog # Then grab a job from Global::JobQueue, # start it at sshlogin # mark it as virgin_job # Inputs: # $sshlogin = the SSHLogin to start the job on # Uses: # $Global::JobQueue # $opt::pipe # $opt::results # $opt::resume # @Global::virgin_jobs # Returns: # 1 if another jobs was started # 0 otherwise my $sshlogin = shift; # Do we have enough file handles to start another job? if(enough_file_handles()) { if($Global::JobQueue->empty() and not $opt::pipe) { # No more commands to run debug("start", "Not starting: JobQueue empty\n"); return 0; } else { my $job; # Skip jobs already in job log # Skip jobs already in results do { $job = get_job_with_sshlogin($sshlogin); if(not defined $job) { # No command available for that sshlogin debug("start", "Not starting: no jobs available for ", $sshlogin->string(), "\n"); return 0; } } while ($job->is_already_in_joblog() or ($opt::results and $opt::resume and $job->is_already_in_results())); debug("start", "Command to run on '", $job->sshlogin()->string(), "': '", $job->replaced(),"'\n"); if($job->start()) { if($opt::pipe) { push(@Global::virgin_jobs,$job); } debug("start", "Started as seq ", $job->seq(), " pid:", $job->pid(), "\n"); return 1; } else { # Not enough processes to run the job. # Put it back on the queue. $Global::JobQueue->unget($job); # Count down the number of jobs to run for this SSHLogin. my $max = $sshlogin->max_jobs_running(); if($max > 1) { $max--; } else { ::error("No more processes: cannot run a single job. Something is wrong.\n"); ::wait_and_exit(255); } $sshlogin->set_max_jobs_running($max); # Sleep up to 300 ms to give other processes time to die ::usleep(rand()*300); ::warning("No more processes: ", "Decreasing number of running jobs to $max. ", "Raising ulimit -u or /etc/security/limits.conf may help.\n"); return 0; } } } else { # No more file handles $no_more_file_handles_warned++ or ::warning("No more file handles. ", "Raising ulimit -n or /etc/security/limits.conf may help.\n"); return 0; } } } sub init_progress { # Uses: # $opt::bar # Returns: # list of computers for progress output $|=1; if($opt::bar) { return("",""); } my %progress = progress(); return ("\nComputers / CPU cores / Max jobs to run\n", $progress{'workerlist'}); } sub drain_job_queue { # Uses: # $opt::progress # $Global::original_stderr # $Global::total_running # $Global::max_jobs_running # %Global::running # $Global::JobQueue # %Global::host # $Global::start_no_new_jobs # Returns: N/A if($opt::progress) { print $Global::original_stderr init_progress(); } my $last_header=""; my $sleep = 0.2; do { while($Global::total_running > 0) { debug($Global::total_running, "==", scalar keys %Global::running," slots: ", $Global::max_jobs_running); if($opt::pipe) { # When using --pipe sometimes file handles are not closed properly for my $job (values %Global::running) { close $job->fh(0,"w"); } } if($opt::progress) { my %progress = progress(); if($last_header ne $progress{'header'}) { print $Global::original_stderr "\n", $progress{'header'}, "\n"; $last_header = $progress{'header'}; } print $Global::original_stderr "\r",$progress{'status'}; flush $Global::original_stderr; } if($Global::total_running < $Global::max_jobs_running and not $Global::JobQueue->empty()) { # These jobs may not be started because of loadavg # or too little time between each ssh login. if(start_more_jobs() > 0) { # Exponential back-on if jobs were started $sleep = $sleep/2+0.001; } } # Sometimes SIGCHLD is not registered, so force reaper $sleep = ::reap_usleep($sleep); } if(not $Global::JobQueue->empty()) { # These jobs may not be started: # * because there the --filter-hosts has removed all if(not %Global::host) { ::error("There are no hosts left to run on.\n"); ::wait_and_exit(255); } # * because of loadavg # * because of too little time between each ssh login. start_more_jobs(); $sleep = ::reap_usleep($sleep); if($Global::max_jobs_running == 0) { ::warning("There are no job slots available. Increase --jobs.\n"); } } } while ($Global::total_running > 0 or not $Global::start_no_new_jobs and not $Global::JobQueue->empty()); if($opt::progress) { my %progress = progress(); print $Global::original_stderr "\r", $progress{'status'}, "\n"; flush $Global::original_stderr; } } sub toggle_progress { # Turn on/off progress view # Uses: # $opt::progress # $Global::original_stderr # Returns: N/A $opt::progress = not $opt::progress; if($opt::progress) { print $Global::original_stderr init_progress(); } } sub progress { # Uses: # $opt::bar # $opt::eta # %Global::host # $Global::total_started # Returns: # $workerlist = list of workers # $header = that will fit on the screen # $status = message that will fit on the screen if($opt::bar) { return ("workerlist" => "", "header" => "", "status" => bar()); } my $eta = ""; my ($status,$header)=("",""); if($opt::eta) { my($total, $completed, $left, $pctcomplete, $avgtime, $this_eta) = compute_eta(); $eta = sprintf("ETA: %ds Left: %d AVG: %.2fs ", $this_eta, $left, $avgtime); } my $termcols = terminal_columns(); my @workers = sort keys %Global::host; my %sshlogin = map { $_ eq ":" ? ($_=>"local") : ($_=>$_) } @workers; my $workerno = 1; my %workerno = map { ($_=>$workerno++) } @workers; my $workerlist = ""; for my $w (@workers) { $workerlist .= $workerno{$w}.":".$sshlogin{$w} ." / ". ($Global::host{$w}->ncpus() || "-")." / ". $Global::host{$w}->max_jobs_running()."\n"; } $status = "x"x($termcols+1); if(length $status > $termcols) { # sshlogin1:XX/XX/XX%/XX.Xs sshlogin2:XX/XX/XX%/XX.Xs sshlogin3:XX/XX/XX%/XX.Xs $header = "Computer:jobs running/jobs completed/%of started jobs/Average seconds to complete"; $status = $eta . join(" ",map { if($Global::total_started) { my $completed = ($Global::host{$_}->jobs_completed()||0); my $running = $Global::host{$_}->jobs_running(); my $time = $completed ? (time-$^T)/($completed) : "0"; sprintf("%s:%d/%d/%d%%/%.1fs ", $sshlogin{$_}, $running, $completed, ($running+$completed)*100 / $Global::total_started, $time); } } @workers); } if(length $status > $termcols) { # 1:XX/XX/XX%/XX.Xs 2:XX/XX/XX%/XX.Xs 3:XX/XX/XX%/XX.Xs 4:XX/XX/XX%/XX.Xs $header = "Computer:jobs running/jobs completed/%of started jobs"; $status = $eta . join(" ",map { my $completed = ($Global::host{$_}->jobs_completed()||0); my $running = $Global::host{$_}->jobs_running(); my $time = $completed ? (time-$^T)/($completed) : "0"; sprintf("%s:%d/%d/%d%%/%.1fs ", $workerno{$_}, $running, $completed, ($running+$completed)*100 / $Global::total_started, $time); } @workers); } if(length $status > $termcols) { # sshlogin1:XX/XX/XX% sshlogin2:XX/XX/XX% sshlogin3:XX/XX/XX% $header = "Computer:jobs running/jobs completed/%of started jobs"; $status = $eta . join(" ",map { sprintf("%s:%d/%d/%d%%", $sshlogin{$_}, $Global::host{$_}->jobs_running(), ($Global::host{$_}->jobs_completed()||0), ($Global::host{$_}->jobs_running()+ ($Global::host{$_}->jobs_completed()||0))*100 / $Global::total_started) } @workers); } if(length $status > $termcols) { # 1:XX/XX/XX% 2:XX/XX/XX% 3:XX/XX/XX% 4:XX/XX/XX% 5:XX/XX/XX% 6:XX/XX/XX% $header = "Computer:jobs running/jobs completed/%of started jobs"; $status = $eta . join(" ",map { sprintf("%s:%d/%d/%d%%", $workerno{$_}, $Global::host{$_}->jobs_running(), ($Global::host{$_}->jobs_completed()||0), ($Global::host{$_}->jobs_running()+ ($Global::host{$_}->jobs_completed()||0))*100 / $Global::total_started) } @workers); } if(length $status > $termcols) { # sshlogin1:XX/XX/XX% sshlogin2:XX/XX/XX% sshlogin3:XX/XX sshlogin4:XX/XX $header = "Computer:jobs running/jobs completed"; $status = $eta . join(" ",map { sprintf("%s:%d/%d", $sshlogin{$_}, $Global::host{$_}->jobs_running(), ($Global::host{$_}->jobs_completed()||0)) } @workers); } if(length $status > $termcols) { # sshlogin1:XX/XX sshlogin2:XX/XX sshlogin3:XX/XX sshlogin4:XX/XX $header = "Computer:jobs running/jobs completed"; $status = $eta . join(" ",map { sprintf("%s:%d/%d", $sshlogin{$_}, $Global::host{$_}->jobs_running(), ($Global::host{$_}->jobs_completed()||0)) } @workers); } if(length $status > $termcols) { # 1:XX/XX 2:XX/XX 3:XX/XX 4:XX/XX 5:XX/XX 6:XX/XX $header = "Computer:jobs running/jobs completed"; $status = $eta . join(" ",map { sprintf("%s:%d/%d", $workerno{$_}, $Global::host{$_}->jobs_running(), ($Global::host{$_}->jobs_completed()||0)) } @workers); } if(length $status > $termcols) { # sshlogin1:XX sshlogin2:XX sshlogin3:XX sshlogin4:XX sshlogin5:XX $header = "Computer:jobs completed"; $status = $eta . join(" ",map { sprintf("%s:%d", $sshlogin{$_}, ($Global::host{$_}->jobs_completed()||0)) } @workers); } if(length $status > $termcols) { # 1:XX 2:XX 3:XX 4:XX 5:XX 6:XX $header = "Computer:jobs completed"; $status = $eta . join(" ",map { sprintf("%s:%d", $workerno{$_}, ($Global::host{$_}->jobs_completed()||0)) } @workers); } return ("workerlist" => $workerlist, "header" => $header, "status" => $status); } { my ($total, $first_completed, $smoothed_avg_time); sub compute_eta { # Calculate important numbers for ETA # Returns: # $total = number of jobs in total # $completed = number of jobs completed # $left = number of jobs left # $pctcomplete = percent of jobs completed # $avgtime = averaged time # $eta = smoothed eta $total ||= $Global::JobQueue->total_jobs(); my $completed = 0; for(values %Global::host) { $completed += $_->jobs_completed() } my $left = $total - $completed; if(not $completed) { return($total, $completed, $left, 0, 0, 0); } my $pctcomplete = $completed / $total; $first_completed ||= time; my $timepassed = (time - $first_completed); my $avgtime = $timepassed / $completed; $smoothed_avg_time ||= $avgtime; # Smooth the eta so it does not jump wildly $smoothed_avg_time = (1 - $pctcomplete) * $smoothed_avg_time + $pctcomplete * $avgtime; my $eta = int($left * $smoothed_avg_time); return($total, $completed, $left, $pctcomplete, $avgtime, $eta); } } { my ($rev,$reset); sub bar { # Return: # $status = bar with eta, completed jobs, arg and pct $rev ||= "\033[7m"; $reset ||= "\033[0m"; my($total, $completed, $left, $pctcomplete, $avgtime, $eta) = compute_eta(); my $arg = $Global::newest_job ? $Global::newest_job->{'commandline'}->replace_placeholders(["\257<\257>"],0,0) : ""; # These chars mess up display in the terminal $arg =~ tr/[\011-\016\033\302-\365]//d; my $bar_text = sprintf("%d%% %d:%d=%ds %s", $pctcomplete*100, $completed, $left, $eta, $arg); my $terminal_width = terminal_columns(); my $s = sprintf("%-${terminal_width}s", substr($bar_text." "x$terminal_width, 0,$terminal_width)); my $width = int($terminal_width * $pctcomplete); substr($s,$width,0) = $reset; my $zenity = sprintf("%-${terminal_width}s", substr("# $eta sec $arg", 0,$terminal_width)); $s = "\r" . $zenity . "\r" . $pctcomplete*100 . # Prefix with zenity header "\r" . $rev . $s . $reset; return $s; } } { my ($columns,$last_column_time); sub terminal_columns { # Get the number of columns of the display # Returns: # number of columns of the screen if(not $columns or $last_column_time < time) { $last_column_time = time; $columns = $ENV{'COLUMNS'}; if(not $columns) { my $resize = qx{ resize 2>/dev/null }; $resize =~ /COLUMNS=(\d+);/ and do { $columns = $1; }; } $columns ||= 80; } return $columns; } } sub get_job_with_sshlogin { # Returns: # next job object for $sshlogin if any available my $sshlogin = shift; my $job = undef; if ($opt::hostgroups) { my @other_hostgroup_jobs = (); while($job = $Global::JobQueue->get()) { if($sshlogin->in_hostgroups($job->hostgroups())) { # Found a job for this hostgroup last; } else { # This job was not in the hostgroups of $sshlogin push @other_hostgroup_jobs, $job; } } $Global::JobQueue->unget(@other_hostgroup_jobs); if(not defined $job) { # No more jobs return undef; } } else { $job = $Global::JobQueue->get(); if(not defined $job) { # No more jobs ::debug("start", "No more jobs: JobQueue empty\n"); return undef; } } my $clean_command = $job->replaced(); if($clean_command =~ /^\s*$/) { # Do not run empty lines if(not $Global::JobQueue->empty()) { return get_job_with_sshlogin($sshlogin); } else { return undef; } } $job->set_sshlogin($sshlogin); if($opt::retries and $clean_command and $job->failed_here()) { # This command with these args failed for this sshlogin my ($no_of_failed_sshlogins,$min_failures) = $job->min_failed(); # Only look at the Global::host that have > 0 jobslots if($no_of_failed_sshlogins == grep { $_->max_jobs_running() > 0 } values %Global::host and $job->failed_here() == $min_failures) { # It failed the same or more times on another host: # run it on this host } else { # If it failed fewer times on another host: # Find another job to run my $nextjob; if(not $Global::JobQueue->empty()) { # This can potentially recurse for all args no warnings 'recursion'; $nextjob = get_job_with_sshlogin($sshlogin); } # Push the command back on the queue $Global::JobQueue->unget($job); return $nextjob; } } return $job; } sub __REMOTE_SSH__ {} sub read_sshloginfiles { # Returns: N/A for my $s (@_) { read_sshloginfile(expand_slf_shorthand($s)); } } sub expand_slf_shorthand { my $file = shift; if($file eq "-") { # skip: It is stdin } elsif($file eq "..") { $file = $ENV{'HOME'}."/.parallel/sshloginfile"; } elsif($file eq ".") { $file = "/etc/parallel/sshloginfile"; } elsif(not -r $file) { if(not -r $ENV{'HOME'}."/.parallel/".$file) { # Try prepending ~/.parallel ::error("Cannot open $file.\n"); ::wait_and_exit(255); } else { $file = $ENV{'HOME'}."/.parallel/".$file; } } return $file; } sub read_sshloginfile { # Returns: N/A my $file = shift; my $close = 1; my $in_fh; ::debug("init","--slf ",$file); if($file eq "-") { $in_fh = *STDIN; $close = 0; } else { if(not open($in_fh, "<", $file)) { # Try the filename ::error("Cannot open $file.\n"); ::wait_and_exit(255); } } while(<$in_fh>) { chomp; /^\s*#/ and next; /^\s*$/ and next; push @Global::sshlogin, $_; } if($close) { close $in_fh; } } sub parse_sshlogin { # Returns: N/A my @login; if(not @Global::sshlogin) { @Global::sshlogin = (":"); } for my $sshlogin (@Global::sshlogin) { # Split up -S sshlogin,sshlogin for my $s (split /,/, $sshlogin) { if ($s eq ".." or $s eq "-") { # This may add to @Global::sshlogin - possibly bug read_sshloginfile(expand_slf_shorthand($s)); } else { push (@login, $s); } } } $Global::minimal_command_line_length = 8_000_000; my @allowed_hostgroups; for my $ncpu_sshlogin_string (::uniq(@login)) { my $sshlogin = SSHLogin->new($ncpu_sshlogin_string); my $sshlogin_string = $sshlogin->string(); if($sshlogin_string eq "") { # This is an ssh group: -S @webservers push @allowed_hostgroups, $sshlogin->hostgroups(); next; } if($Global::host{$sshlogin_string}) { # This sshlogin has already been added: # It is probably a host that has come back # Set the max_jobs_running back to the original debug("run","Already seen $sshlogin_string\n"); if($sshlogin->{'ncpus'}) { # If ncpus set by '#/' of the sshlogin, overwrite it: $Global::host{$sshlogin_string}->set_ncpus($sshlogin->ncpus()); } $Global::host{$sshlogin_string}->set_max_jobs_running(undef); next; } if($sshlogin_string eq ":") { $sshlogin->set_maxlength(Limits::Command::max_length()); } else { # If all chars needs to be quoted, every other character will be \ $sshlogin->set_maxlength(int(Limits::Command::max_length()/2)); } $Global::minimal_command_line_length = ::min($Global::minimal_command_line_length, $sshlogin->maxlength()); $Global::host{$sshlogin_string} = $sshlogin; } if(@allowed_hostgroups) { # Remove hosts that are not in these groups while (my ($string, $sshlogin) = each %Global::host) { if(not $sshlogin->in_hostgroups(@allowed_hostgroups)) { delete $Global::host{$string}; } } } # debug("start", "sshlogin: ", my_dump(%Global::host),"\n"); if($opt::transfer or @opt::return or $opt::cleanup or @opt::basefile) { if(not remote_hosts()) { # There are no remote hosts if(@opt::trc) { ::warning("--trc ignored as there are no remote --sshlogin.\n"); } elsif (defined $opt::transfer) { ::warning("--transfer ignored as there are no remote --sshlogin.\n"); } elsif (@opt::return) { ::warning("--return ignored as there are no remote --sshlogin.\n"); } elsif (defined $opt::cleanup) { ::warning("--cleanup ignored as there are no remote --sshlogin.\n"); } elsif (@opt::basefile) { ::warning("--basefile ignored as there are no remote --sshlogin.\n"); } } } } sub remote_hosts { # Return sshlogins that are not ':' # Returns: # list of sshlogins with ':' removed return grep !/^:$/, keys %Global::host; } sub setup_basefile { # Transfer basefiles to each $sshlogin # This needs to be done before first jobs on $sshlogin is run # Returns: N/A my $cmd = ""; my $rsync_destdir; my $workdir; for my $sshlogin (values %Global::host) { if($sshlogin->string() eq ":") { next } for my $file (@opt::basefile) { if($file !~ m:^/: and $opt::workdir eq "...") { ::error("Work dir '...' will not work with relative basefiles\n"); ::wait_and_exit(255); } $workdir ||= Job->new("")->workdir(); $cmd .= $sshlogin->rsync_transfer_cmd($file,$workdir) . "&"; } } $cmd .= "wait;"; debug("init", "basesetup: $cmd\n"); print `$cmd`; } sub cleanup_basefile { # Remove the basefiles transferred # Returns: N/A my $cmd=""; my $workdir = Job->new("")->workdir(); for my $sshlogin (values %Global::host) { if($sshlogin->string() eq ":") { next } for my $file (@opt::basefile) { $cmd .= $sshlogin->cleanup_cmd($file,$workdir)."&"; } } $cmd .= "wait;"; debug("init", "basecleanup: $cmd\n"); print `$cmd`; } sub filter_hosts { my(@cores, @cpus, @maxline, @echo); my $envvar = ::shell_quote_scalar($Global::envvar); while (my ($host, $sshlogin) = each %Global::host) { if($host eq ":") { next } # The 'true' is used to get the $host out later my $sshcmd = "true $host;" . $sshlogin->sshcommand()." ".$sshlogin->serverlogin(); push(@cores, $host."\t".$sshcmd." ".$envvar." parallel --number-of-cores\n\0"); push(@cpus, $host."\t".$sshcmd." ".$envvar." parallel --number-of-cpus\n\0"); push(@maxline, $host."\t".$sshcmd." ".$envvar." parallel --max-line-length-allowed\n\0"); # 'echo' is used to get the best possible value for an ssh login time push(@echo, $host."\t".$sshcmd." echo\n\0"); } my ($fh, $tmpfile) = ::tmpfile(SUFFIX => ".ssh"); print $fh @cores, @cpus, @maxline, @echo; close $fh; # --timeout 5: Setting up an SSH connection and running a simple # command should never take > 5 sec. # --delay 0.1: If multiple sshlogins use the same proxy the delay # will make it less likely to overload the ssh daemon. # --retries 3: If the ssh daemon it overloaded, try 3 times # -s 16000: Half of the max line on UnixWare my $cmd = "cat $tmpfile | $0 -j0 --timeout 5 -s 16000 --joblog - --plain --delay 0.1 --retries 3 --tag --tagstring {1} -0 --colsep '\t' -k eval {2} 2>/dev/null"; ::debug("init", $cmd, "\n"); open(my $host_fh, "-|", $cmd) || ::die_bug("parallel host check: $cmd"); my (%ncores, %ncpus, %time_to_login, %maxlen, %echo, @down_hosts); my $prepend = ""; while(<$host_fh>) { if(/\'$/) { # if last char = ' then append next line # This may be due to quoting of $Global::envvar $prepend .= $_; next; } $_ = $prepend . $_; $prepend = ""; chomp; my @col = split /\t/, $_; if(defined $col[6]) { # This is a line from --joblog # seq host time spent sent received exit signal command # 2 : 1372607672.654 0.675 0 0 0 0 eval true\ m\;ssh\ m\ parallel\ --number-of-cores if($col[0] eq "Seq" and $col[1] eq "Host" and $col[2] eq "Starttime") { # Header => skip next; } # Get server from: eval true server\; $col[8] =~ /eval true..([^;]+).;/ or ::die_bug("col8 does not contain host: $col[8]"); my $host = $1; $host =~ tr/\\//d; $Global::host{$host} or next; if($col[6] eq "255" or $col[7] eq "15") { # exit == 255 or signal == 15: ssh failed # Remove sshlogin ::debug("init", "--filtered $host\n"); push(@down_hosts, $host); @down_hosts = uniq(@down_hosts); } elsif($col[6] eq "127") { # signal == 127: parallel not installed remote # Set ncpus and ncores = 1 ::warning("Could not figure out ", "number of cpus on $host. Using 1.\n"); $ncores{$host} = 1; $ncpus{$host} = 1; $maxlen{$host} = Limits::Command::max_length(); } elsif($col[0] =~ /^\d+$/ and $Global::host{$host}) { # Remember how log it took to log in # 2 : 1372607672.654 0.675 0 0 0 0 eval true\ m\;ssh\ m\ echo $time_to_login{$host} = ::min($time_to_login{$host},$col[3]); } else { ::die_bug("host check unmatched long jobline: $_"); } } elsif($Global::host{$col[0]}) { # This output from --number-of-cores, --number-of-cpus, # --max-line-length-allowed # ncores: server 8 # ncpus: server 2 # maxlen: server 131071 if(not $ncores{$col[0]}) { $ncores{$col[0]} = $col[1]; } elsif(not $ncpus{$col[0]}) { $ncpus{$col[0]} = $col[1]; } elsif(not $maxlen{$col[0]}) { $maxlen{$col[0]} = $col[1]; } elsif(not $echo{$col[0]}) { $echo{$col[0]} = $col[1]; } elsif(m/perl: warning:|LANGUAGE =|LC_ALL =|LANG =|are supported and installed/) { # Skip these: # perl: warning: Setting locale failed. # perl: warning: Please check that your locale settings: # LANGUAGE = (unset), # LC_ALL = (unset), # LANG = "en_US.UTF-8" # are supported and installed on your system. # perl: warning: Falling back to the standard locale ("C"). } else { ::die_bug("host check too many col0: $_"); } } else { ::die_bug("host check unmatched short jobline ($col[0]): $_"); } } close $host_fh; $Global::debug or unlink $tmpfile; delete @Global::host{@down_hosts}; @down_hosts and ::warning("Removed @down_hosts\n"); $Global::minimal_command_line_length = 8_000_000; while (my ($sshlogin, $obj) = each %Global::host) { if($sshlogin eq ":") { next } $ncpus{$sshlogin} or ::die_bug("ncpus missing: ".$obj->serverlogin()); $ncores{$sshlogin} or ::die_bug("ncores missing: ".$obj->serverlogin()); $time_to_login{$sshlogin} or ::die_bug("time_to_login missing: ".$obj->serverlogin()); $maxlen{$sshlogin} or ::die_bug("maxlen missing: ".$obj->serverlogin()); if($opt::use_cpus_instead_of_cores) { $obj->set_ncpus($ncpus{$sshlogin}); } else { $obj->set_ncpus($ncores{$sshlogin}); } $obj->set_time_to_login($time_to_login{$sshlogin}); $obj->set_maxlength($maxlen{$sshlogin}); $Global::minimal_command_line_length = ::min($Global::minimal_command_line_length, int($maxlen{$sshlogin}/2)); ::debug("init", "Timing from -S:$sshlogin ncpus:",$ncpus{$sshlogin}, " ncores:", $ncores{$sshlogin}, " time_to_login:", $time_to_login{$sshlogin}, " maxlen:", $maxlen{$sshlogin}, " min_max_len:", $Global::minimal_command_line_length,"\n"); } } sub onall { sub tmp_joblog { my $joblog = shift; if(not defined $joblog) { return undef; } my ($fh, $tmpfile) = ::tmpfile(SUFFIX => ".log"); close $fh; return $tmpfile; } my @command = @_; if($Global::quoting) { @command = shell_quote_empty(@command); } # Copy all @fhlist into tempfiles my @argfiles = (); for my $fh (@fhlist) { my ($outfh, $name) = ::tmpfile(SUFFIX => ".all", UNLINK => 1); print $outfh (<$fh>); close $outfh; push @argfiles, $name; } if(@opt::basefile) { setup_basefile(); } # for each sshlogin do: # parallel -S $sshlogin $command :::: @argfiles # # Pass some of the options to the sub-parallels, not all of them as # -P should only go to the first, and -S should not be copied at all. my $options = join(" ", ((defined $opt::jobs) ? "-P $opt::jobs" : ""), ((defined $opt::linebuffer) ? "--linebuffer" : ""), ((defined $opt::ungroup) ? "-u" : ""), ((defined $opt::group) ? "-g" : ""), ((defined $opt::keeporder) ? "--keeporder" : ""), ((defined $opt::D) ? "-D $opt::D" : ""), ((defined $opt::plain) ? "--plain" : ""), ((defined $opt::max_chars) ? "--max-chars ".$opt::max_chars : ""), ); my $suboptions = join(" ", ((defined $opt::ungroup) ? "-u" : ""), ((defined $opt::linebuffer) ? "--linebuffer" : ""), ((defined $opt::group) ? "-g" : ""), ((defined $opt::files) ? "--files" : ""), ((defined $opt::keeporder) ? "--keeporder" : ""), ((defined $opt::colsep) ? "--colsep ".shell_quote($opt::colsep) : ""), ((@opt::v) ? "-vv" : ""), ((defined $opt::D) ? "-D $opt::D" : ""), ((defined $opt::timeout) ? "--timeout ".$opt::timeout : ""), ((defined $opt::plain) ? "--plain" : ""), ((defined $opt::retries) ? "--retries ".$opt::retries : ""), ((defined $opt::max_chars) ? "--max-chars ".$opt::max_chars : ""), ((defined $opt::arg_sep) ? "--arg-sep ".$opt::arg_sep : ""), ((defined $opt::arg_file_sep) ? "--arg-file-sep ".$opt::arg_file_sep : ""), (@opt::env ? map { "--env ".::shell_quote_scalar($_) } @opt::env : ""), ); ::debug("init", "| $0 $options\n"); open(my $parallel_fh, "|-", "$0 --no-notice -j0 $options") || ::die_bug("This does not run GNU Parallel: $0 $options"); my @joblogs; for my $host (sort keys %Global::host) { my $sshlogin = $Global::host{$host}; my $joblog = tmp_joblog($opt::joblog); if($joblog) { push @joblogs, $joblog; $joblog = "--joblog $joblog"; } my $quad = $opt::arg_file_sep || "::::"; ::debug("init", "$0 $suboptions -j1 $joblog ", ((defined $opt::tag) ? "--tagstring ".shell_quote_scalar($sshlogin->string()) : ""), " -S ", shell_quote_scalar($sshlogin->string())," ", join(" ",shell_quote(@command))," $quad @argfiles\n"); print $parallel_fh "$0 $suboptions -j1 $joblog ", ((defined $opt::tag) ? "--tagstring ".shell_quote_scalar($sshlogin->string()) : ""), " -S ", shell_quote_scalar($sshlogin->string())," ", join(" ",shell_quote(@command))," $quad @argfiles\n"; } close $parallel_fh; $Global::exitstatus = $? >> 8; debug("init", "--onall exitvalue ", $?); if(@opt::basefile) { cleanup_basefile(); } $Global::debug or unlink(@argfiles); my %seen; for my $joblog (@joblogs) { # Append to $joblog open(my $fh, "<", $joblog) || ::die_bug("Cannot open tmp joblog $joblog"); # Skip first line (header); <$fh>; print $Global::joblog (<$fh>); close $fh; unlink($joblog); } } sub __SIGNAL_HANDLING__ {} sub save_original_signal_handler { # Remember the original signal handler # Returns: N/A $SIG{TERM} ||= sub { exit 0; }; # $SIG{TERM} is not set on Mac OS X $SIG{INT} = sub { if($opt::tmux) { qx { tmux kill-session -t p$$ }; } unlink keys %Global::unlink; exit -1 }; $SIG{TERM} = sub { if($opt::tmux) { qx { tmux kill-session -t p$$ }; } unlink keys %Global::unlink; exit -1 }; %Global::original_sig = %SIG; $SIG{TERM} = sub {}; # Dummy until jobs really start } sub list_running_jobs { # Returns: N/A for my $v (values %Global::running) { print $Global::original_stderr "$Global::progname: ",$v->replaced(),"\n"; } } sub start_no_new_jobs { # Returns: N/A $SIG{TERM} = $Global::original_sig{TERM}; print $Global::original_stderr ("$Global::progname: SIGTERM received. No new jobs will be started.\n", "$Global::progname: Waiting for these ", scalar(keys %Global::running), " jobs to finish. Send SIGTERM again to stop now.\n"); list_running_jobs(); $Global::start_no_new_jobs ||= 1; } sub reaper { # A job finished. # Print the output. # Start another job # Returns: N/A my $stiff; my $children_reaped = 0; debug("run", "Reaper "); while (($stiff = waitpid(-1, &WNOHANG)) > 0) { $children_reaped++; if($Global::sshmaster{$stiff}) { # This is one of the ssh -M: ignore next; } my $job = $Global::running{$stiff}; # '-a <(seq 10)' will give us a pid not in %Global::running $job or next; $job->set_exitstatus($? >> 8); $job->set_exitsignal($? & 127); debug("run", "died (", $job->exitstatus(), "): ", $job->seq()); $job->set_endtime(::now()); if($stiff == $Global::tty_taken) { # The process that died had the tty => release it $Global::tty_taken = 0; } if(not $job->should_be_retried()) { # The job is done # Free the jobslot push @Global::slots, $job->slot(); if($opt::timeout) { # Update average runtime for timeout $Global::timeoutq->update_delta_time($job->runtime()); } # Force printing now if the job failed and we are going to exit my $print_now = ($opt::halt_on_error and $opt::halt_on_error == 2 and $job->exitstatus()); if($opt::keeporder and not $print_now) { print_earlier_jobs($job); } else { $job->print(); } if($job->exitstatus()) { process_failed_job($job); } } my $sshlogin = $job->sshlogin(); $sshlogin->dec_jobs_running(); $sshlogin->inc_jobs_completed(); $Global::total_running--; delete $Global::running{$stiff}; start_more_jobs(); } debug("run", "done "); return $children_reaped; } sub process_failed_job { # The jobs had a exit status <> 0, so error # Returns: N/A my $job = shift; $Global::exitstatus++; $Global::total_failed++; if($opt::halt_on_error) { if($opt::halt_on_error == 1 or ($opt::halt_on_error < 1 and $Global::total_failed > 3 and $Global::total_failed / $Global::total_started > $opt::halt_on_error)) { # If halt on error == 1 or --halt 10% # we should gracefully exit print $Global::original_stderr ("$Global::progname: Starting no more jobs. ", "Waiting for ", scalar(keys %Global::running), " jobs to finish. This job failed:\n", $job->replaced(),"\n"); $Global::start_no_new_jobs ||= 1; $Global::halt_on_error_exitstatus = $job->exitstatus(); } elsif($opt::halt_on_error == 2) { # If halt on error == 2 we should exit immediately print $Global::original_stderr ("$Global::progname: This job failed:\n", $job->replaced(),"\n"); exit ($job->exitstatus()); } } } { my (%print_later,$job_end_sequence); sub print_earlier_jobs { # Print jobs completed earlier # Returns: N/A my $job = shift; $print_later{$job->seq()} = $job; $job_end_sequence ||= 1; debug("run", "Looking for: $job_end_sequence ", "Current: ", $job->seq(), "\n"); for(my $j = $print_later{$job_end_sequence}; $j or vec($Global::job_already_run,$job_end_sequence,1); $job_end_sequence++, $j = $print_later{$job_end_sequence}) { debug("run", "Found job end $job_end_sequence"); if($j) { $j->print(); delete $print_later{$job_end_sequence}; } } } } sub __USAGE__ {} sub wait_and_exit { # If we do not wait, we sometimes get segfault # Returns: N/A my $error = shift; if($error) { # Kill all without printing for my $job (values %Global::running) { $job->kill("TERM"); $job->kill("TERM"); } } for (keys %Global::unkilled_children) { kill 9, $_; waitpid($_,0); delete $Global::unkilled_children{$_}; } wait(); exit($error); } sub die_usage { # Returns: N/A usage(); wait_and_exit(255); } sub usage { # Returns: N/A print join ("\n", "Usage:", "", "$Global::progname [options] [command [arguments]] < list_of_arguments", "$Global::progname [options] [command [arguments]] (::: arguments|:::: argfile(s))...", "cat ... | $Global::progname --pipe [options] [command [arguments]]", "", "-j n Run n jobs in parallel", "-k Keep same order", "-X Multiple arguments with context replace", "--colsep regexp Split input on regexp for positional replacements", "{} {.} {/} {/.} {#} {%} {= perl code =} Replacement strings", "{3} {3.} {3/} {3/.} {=3 perl code =} Positional replacement strings", "With --plus: {} = {+/}/{/} = {.}.{+.} = {+/}/{/.}.{+.} = {..}.{+..} =", " {+/}/{/..}.{+..} = {...}.{+...} = {+/}/{/...}.{+...}", "", "-S sshlogin Example: foo\@server.example.com", "--slf .. Use ~/.parallel/sshloginfile as the list of sshlogins", "--trc {}.bar Shorthand for --transfer --return {}.bar --cleanup", "--onall Run the given command with argument on all sshlogins", "--nonall Run the given command with no arguments on all sshlogins", "", "--pipe Split stdin (standard input) to multiple jobs.", "--recend str Record end separator for --pipe.", "--recstart str Record start separator for --pipe.", "", "See 'man $Global::progname' for details", "", "When using programs that use GNU Parallel to process data for publication please cite:", "", "O. Tange (2011): GNU Parallel - The Command-Line Power Tool,", ";login: The USENIX Magazine, February 2011:42-47.", "", "Or you can get GNU Parallel without this requirement by paying 10000 EUR.", ""); } sub citation_notice { # if --no-notice or --plain: do nothing # if stderr redirected: do nothing # if ~/.parallel/will-cite: do nothing # else: print citation notice to stderr if($opt::no_notice or $opt::plain or not -t $Global::original_stderr or -e $ENV{'HOME'}."/.parallel/will-cite") { # skip } else { print $Global::original_stderr ("When using programs that use GNU Parallel to process data for publication please cite:\n", "\n", " O. Tange (2011): GNU Parallel - The Command-Line Power Tool,\n", " ;login: The USENIX Magazine, February 2011:42-47.\n", "\n", "This helps funding further development; and it won't cost you a cent.\n", "Or you can get GNU Parallel without this requirement by paying 10000 EUR.\n", "\n", "To silence this citation notice run 'parallel --bibtex' once or use '--no-notice'.\n\n", ); flush $Global::original_stderr; } } sub warning { my @w = @_; my $fh = $Global::original_stderr || *STDERR; my $prog = $Global::progname || "parallel"; print $fh $prog, ": Warning: ", @w; } sub error { my @w = @_; my $fh = $Global::original_stderr || *STDERR; my $prog = $Global::progname || "parallel"; print $fh $prog, ": Error: ", @w; } sub die_bug { my $bugid = shift; print STDERR ("$Global::progname: This should not happen. You have found a bug.\n", "Please contact and include:\n", "* The version number: $Global::version\n", "* The bugid: $bugid\n", "* The command line being run\n", "* The files being read (put the files on a webserver if they are big)\n", "\n", "If you get the error on smaller/fewer files, please include those instead.\n"); ::wait_and_exit(255); } sub version { # Returns: N/A if($opt::tollef and not $opt::gnu) { print "WARNING: YOU ARE USING --tollef. IF THINGS ARE ACTING WEIRD USE --gnu.\n"; } print join("\n", "GNU $Global::progname $Global::version", "Copyright (C) 2007,2008,2009,2010,2011,2012,2013,2014 Ole Tange and Free Software Foundation, Inc.", "License GPLv3+: GNU GPL version 3 or later ", "This is free software: you are free to change and redistribute it.", "GNU $Global::progname comes with no warranty.", "", "Web site: http://www.gnu.org/software/${Global::progname}\n", "When using programs that use GNU Parallel to process data for publication please cite:\n", "O. Tange (2011): GNU Parallel - The Command-Line Power Tool, ", ";login: The USENIX Magazine, February 2011:42-47.\n", "Or you can get GNU Parallel without this requirement by paying 10000 EUR.\n", ); } sub bibtex { # Returns: N/A if($opt::tollef and not $opt::gnu) { print "WARNING: YOU ARE USING --tollef. IF THINGS ARE ACTING WEIRD USE --gnu.\n"; } print join("\n", "When using programs that use GNU Parallel to process data for publication please cite:", "", "\@article{Tange2011a,", " title = {GNU Parallel - The Command-Line Power Tool},", " author = {O. Tange},", " address = {Frederiksberg, Denmark},", " journal = {;login: The USENIX Magazine},", " month = {Feb},", " number = {1},", " volume = {36},", " url = {http://www.gnu.org/s/parallel},", " year = {2011},", " pages = {42-47}", "}", "", "(Feel free to use \\nocite{Tange2011a})", "", "This helps funding further development.", "", "Or you can get GNU Parallel without this requirement by paying 10000 EUR.", "" ); while(not -e $ENV{'HOME'}."/.parallel/will-cite") { print "\nType: 'will cite' and press enter.\n> "; my $input = ; if($input =~ /will cite/i) { mkdir $ENV{'HOME'}."/.parallel"; open (my $fh, ">", $ENV{'HOME'}."/.parallel/will-cite") || ::die_bug("Cannot write: ".$ENV{'HOME'}."/.parallel/will-cite"); close $fh; print "\nThank you for your support. It is much appreciated. The citation\n", "notice is now silenced.\n"; } } } sub show_limits { # Returns: N/A print("Maximal size of command: ",Limits::Command::real_max_length(),"\n", "Maximal used size of command: ",Limits::Command::max_length(),"\n", "\n", "Execution of will continue now, and it will try to read its input\n", "and run commands; if this is not what you wanted to happen, please\n", "press CTRL-D or CTRL-C\n"); } sub __GENERIC_COMMON_FUNCTION__ {} sub uniq { # Remove duplicates and return unique values return keys %{{ map { $_ => 1 } @_ }}; } sub min { # Returns: # Minimum value of array my $min; for (@_) { # Skip undefs defined $_ or next; defined $min or do { $min = $_; next; }; # Set $_ to the first non-undef $min = ($min < $_) ? $min : $_; } return $min; } sub max { # Returns: # Maximum value of array my $max; for (@_) { # Skip undefs defined $_ or next; defined $max or do { $max = $_; next; }; # Set $_ to the first non-undef $max = ($max > $_) ? $max : $_; } return $max; } sub sum { # Returns: # Sum of values of array my @args = @_; my $sum = 0; for (@args) { # Skip undefs $_ and do { $sum += $_; } } return $sum; } sub undef_as_zero { my $a = shift; return $a ? $a : 0; } sub undef_as_empty { my $a = shift; return $a ? $a : ""; } { my $hostname; sub hostname { if(not $hostname) { $hostname = `hostname`; chomp($hostname); $hostname ||= "nohostname"; } return $hostname; } } sub which { # Input: # @programs = programs to find the path to # Returns: # @full_path = full paths to @programs. Nothing if not found my @which; for my $prg (@_) { push @which, map { $_."/".$prg } grep { -x $_."/".$prg } split(":",$ENV{'PATH'}); } return @which; } { my ($regexp,%fakename); sub parent_shell { # Input: # $pid = pid to see if (grand)*parent is a shell # Returns: # $shellpath = path to shell - undef if no shell found my $pid = shift; if(not $regexp) { # All shells known to mankind # # ash bash csh dash fdsh fish fizsh ksh ksh93 mksh pdksh # posh rbash rush rzsh sash sh static-sh tcsh yash zsh my @shells = qw(ash bash csh dash fdsh fish fizsh ksh ksh93 mksh pdksh posh rbash rush rzsh sash sh static-sh tcsh yash zsh -sh -csh); # Can be formatted as: # [sh] -sh sh busybox sh # /bin/sh /sbin/sh /opt/csw/sh # NOT: foo.sh sshd crash flush pdflush scosh fsflush ssh my $shell = "(?:".join("|",@shells).")"; $regexp = '^((\[)('. $shell. ')(\])|(|\S+/|busybox )('. $shell. '))($| )'; %fakename = ( # csh and tcsh disguise themselves as -sh/-csh "-sh" => ["csh", "tcsh"], "-csh" => ["tcsh", "csh"], ); } my ($children_of_ref, $parent_of_ref, $name_of_ref) = pid_table(); my $shellpath; my $testpid = $pid; while($testpid) { ::debug("init", "shell? ". $name_of_ref->{$testpid}."\n"); if($name_of_ref->{$testpid} =~ /$regexp/o) { ::debug("init", "which ".($3||$6)." => "); $shellpath = (which($3 || $6,@{$fakename{$3 || $6}}))[0]; ::debug("init", "shell path $shellpath\n"); $shellpath and last; } $testpid = $parent_of_ref->{$testpid}; } return $shellpath; } } { my %pid_parentpid_cmd; sub pid_table { # Returns: # %children_of = { pid -> children of pid } # %parent_of = { pid -> pid of parent } # %name_of = { pid -> commandname } if(not %pid_parentpid_cmd) { # Filter for SysV-style `ps` my $sysv = q( ps -ef | perl -ane '1..1 and /^(.*)CO?MM?A?N?D/ and $s=length $1;). q(s/^.{$s}//; print "@F[1,2] $_"' ); # BSD-style `ps` my $bsd = q(ps -o pid,ppid,command -ax); %pid_parentpid_cmd = ( 'aix' => $sysv, 'cygwin' => $sysv, 'msys' => $sysv, 'dec_osf' => $sysv, 'darwin' => $bsd, 'dragonfly' => $bsd, 'freebsd' => $bsd, 'gnu' => $sysv, 'hpux' => $sysv, 'linux' => $sysv, 'mirbsd' => $bsd, 'netbsd' => $bsd, 'nto' => $sysv, 'openbsd' => $bsd, 'solaris' => $sysv, 'svr5' => $sysv, ); } $pid_parentpid_cmd{$^O} or ::die_bug("pid_parentpid_cmd for $^O missing"); my (@pidtable,%parent_of,%children_of,%name_of); # Table with pid -> children of pid @pidtable = `$pid_parentpid_cmd{$^O}`; my $p=$$; for (@pidtable) { # must match: 24436 21224 busybox ash /(\S+)\s+(\S+)\s+(\S+.*)/ or ::die_bug("pidtable format: $_"); $parent_of{$1} = $2; push @{$children_of{$2}}, $1; $name_of{$1} = $3; } return(\%children_of, \%parent_of, \%name_of); } } sub reap_usleep { # Reap dead children. # If no dead children: Sleep specified amount with exponential backoff # Input: # $ms = milliseconds to sleep # Returns: # $ms/2+0.001 if children reaped # $ms*1.1 if no children reaped my $ms = shift; if(reaper()) { # Sleep exponentially shorter (1/2^n) if a job finished return $ms/2+0.001; } else { if($opt::timeout) { $Global::timeoutq->process_timeouts(); } usleep($ms); Job::exit_if_disk_full(); if($opt::linebuffer) { for my $job (values %Global::running) { $job->print(); } } # Sleep exponentially longer (1.1^n) if a job did not finish # though at most 1000 ms. return (($ms < 1000) ? ($ms * 1.1) : ($ms)); } } sub usleep { # Sleep this many milliseconds. # Input: # $ms = milliseconds to sleep my $ms = shift; ::debug(int($ms),"ms "); select(undef, undef, undef, $ms/1000); } sub now { # Returns time since epoch as in seconds with 3 decimals # Uses: # @Global::use # Returns: # $time = time now with millisecond accuracy if(not $Global::use{"Time::HiRes"}) { if(eval "use Time::HiRes qw ( time );") { eval "sub TimeHiRestime { return Time::HiRes::time };"; } else { eval "sub TimeHiRestime { return time() };"; } $Global::use{"Time::HiRes"} = 1; } return (int(TimeHiRestime()*1000))/1000; } sub multiply_binary_prefix { # Evalualte numbers with binary prefix # Ki=2^10, Mi=2^20, Gi=2^30, Ti=2^40, Pi=2^50, Ei=2^70, Zi=2^80, Yi=2^80 # ki=2^10, mi=2^20, gi=2^30, ti=2^40, pi=2^50, ei=2^70, zi=2^80, yi=2^80 # K =2^10, M =2^20, G =2^30, T =2^40, P =2^50, E =2^70, Z =2^80, Y =2^80 # k =10^3, m =10^6, g =10^9, t=10^12, p=10^15, e=10^18, z=10^21, y=10^24 # 13G = 13*1024*1024*1024 = 13958643712 # Input: # $s = string with prefixes # Returns: # $value = int with prefixes multiplied my $s = shift; $s =~ s/ki/*1024/gi; $s =~ s/mi/*1024*1024/gi; $s =~ s/gi/*1024*1024*1024/gi; $s =~ s/ti/*1024*1024*1024*1024/gi; $s =~ s/pi/*1024*1024*1024*1024*1024/gi; $s =~ s/ei/*1024*1024*1024*1024*1024*1024/gi; $s =~ s/zi/*1024*1024*1024*1024*1024*1024*1024/gi; $s =~ s/yi/*1024*1024*1024*1024*1024*1024*1024*1024/gi; $s =~ s/xi/*1024*1024*1024*1024*1024*1024*1024*1024*1024/gi; $s =~ s/K/*1024/g; $s =~ s/M/*1024*1024/g; $s =~ s/G/*1024*1024*1024/g; $s =~ s/T/*1024*1024*1024*1024/g; $s =~ s/P/*1024*1024*1024*1024*1024/g; $s =~ s/E/*1024*1024*1024*1024*1024*1024/g; $s =~ s/Z/*1024*1024*1024*1024*1024*1024*1024/g; $s =~ s/Y/*1024*1024*1024*1024*1024*1024*1024*1024/g; $s =~ s/X/*1024*1024*1024*1024*1024*1024*1024*1024*1024/g; $s =~ s/k/*1000/g; $s =~ s/m/*1000*1000/g; $s =~ s/g/*1000*1000*1000/g; $s =~ s/t/*1000*1000*1000*1000/g; $s =~ s/p/*1000*1000*1000*1000*1000/g; $s =~ s/e/*1000*1000*1000*1000*1000*1000/g; $s =~ s/z/*1000*1000*1000*1000*1000*1000*1000/g; $s =~ s/y/*1000*1000*1000*1000*1000*1000*1000*1000/g; $s =~ s/x/*1000*1000*1000*1000*1000*1000*1000*1000*1000/g; $s = eval $s; ::debug($s); return $s; } sub tmpfile { # Create tempfile as $TMPDIR/parXXXXX # Returns: # $filename = file name created return ::tempfile(DIR=>$ENV{'TMPDIR'}, TEMPLATE => 'parXXXXX', @_); } sub __DEBUGGING__ {} sub debug { # Uses: # $Global::debug # %Global::fd # Returns: N/A $Global::debug or return; @_ = grep { defined $_ ? $_ : "" } @_; if($Global::debug eq "all" or $Global::debug eq $_[0]) { if($Global::fd{1}) { # Original stdout was saved my $stdout = $Global::fd{1}; print $stdout @_[1..$#_]; } else { print @_[1..$#_]; } } } sub my_memory_usage { # Returns: # memory usage if found # 0 otherwise use strict; use FileHandle; my $pid = $$; if(-e "/proc/$pid/stat") { my $fh = FileHandle->new("; chomp $data; $fh->close; my @procinfo = split(/\s+/,$data); return undef_as_zero($procinfo[22]); } else { return 0; } } sub my_size { # Returns: # $size = size of object if Devel::Size is installed # -1 otherwise my @size_this = (@_); eval "use Devel::Size qw(size total_size)"; if ($@) { return -1; } else { return total_size(@_); } } sub my_dump { # Returns: # ascii expression of object if Data::Dump(er) is installed # error code otherwise my @dump_this = (@_); eval "use Data::Dump qw(dump);"; if ($@) { # Data::Dump not installed eval "use Data::Dumper;"; if ($@) { my $err = "Neither Data::Dump nor Data::Dumper is installed\n". "Not dumping output\n"; print $Global::original_stderr $err; return $err; } else { return Dumper(@dump_this); } } else { # Create a dummy Data::Dump:dump as Hans Schou sometimes has # it undefined eval "sub Data::Dump:dump {}"; eval "use Data::Dump qw(dump);"; return (Data::Dump::dump(@dump_this)); } } sub my_croak { eval "use Carp; 1"; $Carp::Verbose = 1; croak(@_); } sub my_carp { eval "use Carp; 1"; $Carp::Verbose = 1; carp(@_); } sub __OBJECT_ORIENTED_PARTS__ {} package SSHLogin; sub new { my $class = shift; my $sshlogin_string = shift; my $ncpus; my %hostgroups; # SSHLogins can have these formats: # @grp+grp/ncpu//usr/bin/ssh user@server # ncpu//usr/bin/ssh user@server # /usr/bin/ssh user@server # user@server # ncpu/user@server # @grp+grp/user@server if($sshlogin_string =~ s:^\@([^/]+)/?::) { # Look for SSHLogin hostgroups %hostgroups = map { $_ => 1 } split(/\+/, $1); } if ($sshlogin_string =~ s:^(\d+)/::) { # Override default autodetected ncpus unless missing $ncpus = $1; } my $string = $sshlogin_string; # An SSHLogin is always in the hostgroup of its $string-name $hostgroups{$string} = 1; @Global::hostgroups{keys %hostgroups} = values %hostgroups; my @unget = (); my $no_slash_string = $string; $no_slash_string =~ s/[^-a-z0-9:]/_/gi; return bless { 'string' => $string, 'jobs_running' => 0, 'jobs_completed' => 0, 'maxlength' => undef, 'max_jobs_running' => undef, 'orig_max_jobs_running' => undef, 'ncpus' => $ncpus, 'hostgroups' => \%hostgroups, 'sshcommand' => undef, 'serverlogin' => undef, 'control_path_dir' => undef, 'control_path' => undef, 'time_to_login' => undef, 'last_login_at' => undef, 'loadavg_file' => $ENV{'HOME'} . "/.parallel/tmp/loadavg-" . $no_slash_string, 'loadavg' => undef, 'last_loadavg_update' => 0, 'swap_activity_file' => $ENV{'HOME'} . "/.parallel/tmp/swap_activity-" . $no_slash_string, 'swap_activity' => undef, }, ref($class) || $class; } sub DESTROY { my $self = shift; # Remove temporary files if they are created. unlink $self->{'loadavg_file'}; unlink $self->{'swap_activity_file'}; } sub string { my $self = shift; return $self->{'string'}; } sub jobs_running { my $self = shift; return ($self->{'jobs_running'} || "0"); } sub inc_jobs_running { my $self = shift; $self->{'jobs_running'}++; } sub dec_jobs_running { my $self = shift; $self->{'jobs_running'}--; } sub set_maxlength { my $self = shift; $self->{'maxlength'} = shift; } sub maxlength { my $self = shift; return $self->{'maxlength'}; } sub jobs_completed { my $self = shift; return $self->{'jobs_completed'}; } sub in_hostgroups { # Input: # @hostgroups = the hostgroups to look for # Returns: # true if intersection of @hostgroups and the hostgroups of this # SSHLogin is non-empty my $self = shift; return grep { defined $self->{'hostgroups'}{$_} } @_; } sub hostgroups { my $self = shift; return keys %{$self->{'hostgroups'}}; } sub inc_jobs_completed { my $self = shift; $self->{'jobs_completed'}++; } sub set_max_jobs_running { my $self = shift; if(defined $self->{'max_jobs_running'}) { $Global::max_jobs_running -= $self->{'max_jobs_running'}; } $self->{'max_jobs_running'} = shift; if(defined $self->{'max_jobs_running'}) { # max_jobs_running could be resat if -j is a changed file $Global::max_jobs_running += $self->{'max_jobs_running'}; } # Initialize orig to the first non-zero value that comes around $self->{'orig_max_jobs_running'} ||= $self->{'max_jobs_running'}; } sub swapping { my $self = shift; my $swapping = $self->swap_activity(); return (not defined $swapping or $swapping) } sub swap_activity { # If the currently known swap activity is too old: # Recompute a new one in the background # Returns: # last swap activity computed my $self = shift; # Should we update the swap_activity file? my $update_swap_activity_file = 0; if(-r $self->{'swap_activity_file'}) { open(my $swap_fh, "<", $self->{'swap_activity_file'}) || ::die_bug("swap_activity_file-r"); my $swap_out = <$swap_fh>; close $swap_fh; if($swap_out =~ /^(\d+)$/) { $self->{'swap_activity'} = $1; ::debug("swap", "New swap_activity: ", $self->{'swap_activity'}); } ::debug("swap", "Last update: ", $self->{'last_swap_activity_update'}); if(time - $self->{'last_swap_activity_update'} > 10) { # last swap activity update was started 10 seconds ago ::debug("swap", "Older than 10 sec: ", $self->{'swap_activity_file'}); $update_swap_activity_file = 1; } } else { ::debug("swap", "No swap_activity file: ", $self->{'swap_activity_file'}); $self->{'swap_activity'} = undef; $update_swap_activity_file = 1; } if($update_swap_activity_file) { ::debug("swap", "Updating swap_activity file ", $self->{'swap_activity_file'}); $self->{'last_swap_activity_update'} = time; -e $ENV{'HOME'}."/.parallel" or mkdir $ENV{'HOME'}."/.parallel"; -e $ENV{'HOME'}."/.parallel/tmp" or mkdir $ENV{'HOME'}."/.parallel/tmp"; my $swap_activity; $swap_activity = swapactivityscript(); if($self->{'string'} ne ":") { $swap_activity = $self->sshcommand() . " " . $self->serverlogin() . " " . ::shell_quote_scalar($swap_activity); } # Run swap_activity measuring. # As the command can take long to run if run remote # save it to a tmp file before moving it to the correct file my $file = $self->{'swap_activity_file'}; my ($dummy_fh, $tmpfile) = ::tmpfile(SUFFIX => ".swp"); ::debug("swap", "\n", $swap_activity, "\n"); qx{ ($swap_activity > $tmpfile && mv $tmpfile $file || rm $tmpfile) & }; } return $self->{'swap_activity'}; } { my $script; sub swapactivityscript { # Returns: # shellscript for detecting swap activity # # arguments for vmstat are OS dependant # swap_in and swap_out are in different columns depending on OS # if(not $script) { my %vmstat = ( # linux: $7*$8 # $ vmstat 1 2 # procs -----------memory---------- ---swap-- -----io---- -system-- ----cpu---- # r b swpd free buff cache si so bi bo in cs us sy id wa # 5 0 51208 1701096 198012 18857888 0 0 37 153 28 19 56 11 33 1 # 3 0 51208 1701288 198012 18857972 0 0 0 0 3638 10412 15 3 82 0 'linux' => ['vmstat 1 2 | tail -n1', '$7*$8'], # solaris: $6*$7 # $ vmstat -S 1 2 # kthr memory page disk faults cpu # r b w swap free si so pi po fr de sr s3 s4 -- -- in sy cs us sy id # 0 0 0 4628952 3208408 0 0 3 1 1 0 0 -0 2 0 0 263 613 246 1 2 97 # 0 0 0 4552504 3166360 0 0 0 0 0 0 0 0 0 0 0 246 213 240 1 1 98 'solaris' => ['vmstat -S 1 2 | tail -1', '$6*$7'], # darwin (macosx): $21*$22 # $ vm_stat -c 2 1 # Mach Virtual Memory Statistics: (page size of 4096 bytes) # free active specul inactive throttle wired prgable faults copy 0fill reactive purged file-backed anonymous cmprssed cmprssor dcomprs comprs pageins pageout swapins swapouts # 346306 829050 74871 606027 0 240231 90367 544858K 62343596 270837K 14178 415070 570102 939846 356 370 116 922 4019813 4 0 0 # 345740 830383 74875 606031 0 239234 90369 2696 359 553 0 0 570110 941179 356 370 0 0 0 0 0 0 'darwin' => ['vm_stat -c 2 1 | tail -n1', '$21*$22'], # ultrix: $12*$13 # $ vmstat -S 1 2 # procs faults cpu memory page disk # r b w in sy cs us sy id avm fre si so pi po fr de sr s0 # 1 0 0 4 23 2 3 0 97 7743 217k 0 0 0 0 0 0 0 0 # 1 0 0 6 40 8 0 1 99 7743 217k 0 0 3 0 0 0 0 0 'ultrix' => ['vmstat -S 1 2 | tail -1', '$12*$13'], # aix: $6*$7 # $ vmstat 1 2 # System configuration: lcpu=1 mem=2048MB # # kthr memory page faults cpu # ----- ----------- ------------------------ ------------ ----------- # r b avm fre re pi po fr sr cy in sy cs us sy id wa # 0 0 333933 241803 0 0 0 0 0 0 10 143 90 0 0 99 0 # 0 0 334125 241569 0 0 0 0 0 0 37 5368 184 0 9 86 5 'aix' => ['vmstat 1 2 | tail -n1', '$6*$7'], # freebsd: $8*$9 # $ vmstat -H 1 2 # procs memory page disks faults cpu # r b w avm fre flt re pi po fr sr ad0 ad1 in sy cs us sy id # 1 0 0 596716 19560 32 0 0 0 33 8 0 0 11 220 277 0 0 99 # 0 0 0 596716 19560 2 0 0 0 0 0 0 0 11 144 263 0 1 99 'freebsd' => ['vmstat -H 1 2 | tail -n1', '$8*$9'], # mirbsd: $8*$9 # $ vmstat 1 2 # procs memory page disks traps cpu # r b w avm fre flt re pi po fr sr wd0 cd0 int sys cs us sy id # 0 0 0 25776 164968 34 0 0 0 0 0 0 0 230 259 38 4 0 96 # 0 0 0 25776 164968 24 0 0 0 0 0 0 0 237 275 37 0 0 100 'mirbsd' => ['vmstat 1 2 | tail -n1', '$8*$9'], # netbsd: $7*$8 # $ vmstat 1 2 # procs memory page disks faults cpu # r b avm fre flt re pi po fr sr w0 w1 in sy cs us sy id # 0 0 138452 6012 54 0 0 0 1 2 3 0 4 100 23 0 0 100 # 0 0 138456 6008 1 0 0 0 0 0 0 0 7 26 19 0 0 100 'netbsd' => ['vmstat 1 2 | tail -n1', '$7*$8'], # openbsd: $8*$9 # $ vmstat 1 2 # procs memory page disks traps cpu # r b w avm fre flt re pi po fr sr wd0 wd1 int sys cs us sy id # 0 0 0 76596 109944 73 0 0 0 0 0 0 1 5 259 22 0 1 99 # 0 0 0 76604 109936 24 0 0 0 0 0 0 0 7 114 20 0 1 99 'openbsd' => ['vmstat 1 2 | tail -n1', '$8*$9'], # hpux: $8*$9 # $ vmstat 1 2 # procs memory page faults cpu # r b w avm free re at pi po fr de sr in sy cs us sy id # 1 0 0 247211 216476 4 1 0 0 0 0 0 102 73005 54 6 11 83 # 1 0 0 247211 216421 43 9 0 0 0 0 0 144 1675 96 25269512791222387000 25269512791222387000 105 'hpux' => ['vmstat 1 2 | tail -n1', '$8*$9'], # dec_osf (tru64): $11*$12 # $ vmstat 1 2 # Virtual Memory Statistics: (pagesize = 8192) # procs memory pages intr cpu # r w u act free wire fault cow zero react pin pout in sy cs us sy id # 3 181 36 51K 1895 8696 348M 59M 122M 259 79M 0 5 218 302 4 1 94 # 3 181 36 51K 1893 8696 3 15 21 0 28 0 4 81 321 1 1 98 'dec_osf' => ['vmstat 1 2 | tail -n1', '$11*$12'], # gnu (hurd): $7*$8 # $ vmstat -k 1 2 # (pagesize: 4, size: 512288, swap size: 894972) # free actv inact wired zeroed react pgins pgouts pfaults cowpfs hrat caobj cache swfree # 371940 30844 89228 20276 298348 0 48192 19016 756105 99808 98% 876 20628 894972 # 371940 30844 89228 20276 +0 +0 +0 +0 +42 +2 98% 876 20628 894972 'gnu' => ['vmstat -k 1 2 | tail -n1', '$7*$8'], # -nto (qnx has no swap) #-irix #-svr5 (scosysv) ); my $perlscript = ""; for my $os (keys %vmstat) { #q[ { vmstat 1 2 2> /dev/null || vmstat -c 1 2; } | ]. # q[ awk 'NR!=4{next} NF==17||NF==16{print $7*$8} NF==22{print $21*$22} {exit}' ]; $vmstat{$os}[1] =~ s/\$/\\\\\\\$/g; # $ => \\\$ $perlscript .= 'if($^O eq "'.$os.'") { print `'.$vmstat{$os}[0].' | awk "{print ' . $vmstat{$os}[1] . '}"` }'; } $perlscript = "perl -e " . ::shell_quote_scalar($perlscript); $script = $Global::envvar. " " .$perlscript; } return $script; } } sub too_fast_remote_login { my $self = shift; if($self->{'last_login_at'} and $self->{'time_to_login'}) { # sshd normally allows 10 simultaneous logins # A login takes time_to_login # So time_to_login/5 should be safe # If now <= last_login + time_to_login/5: Then it is too soon. my $too_fast = (::now() <= $self->{'last_login_at'} + $self->{'time_to_login'}/5); ::debug("run", "Too fast? $too_fast "); return $too_fast; } else { # No logins so far (or time_to_login not computed): it is not too fast return 0; } } sub last_login_at { my $self = shift; return $self->{'last_login_at'}; } sub set_last_login_at { my $self = shift; $self->{'last_login_at'} = shift; } sub loadavg_too_high { my $self = shift; my $loadavg = $self->loadavg(); return (not defined $loadavg or $loadavg > $self->max_loadavg()); } sub loadavg { # If the currently know loadavg is too old: # Recompute a new one in the background # The load average is computed as the number of processes waiting for disk # or CPU right now. So it is the server load this instant and not averaged over # several minutes. This is needed so GNU Parallel will at most start one job # that will push the load over the limit. # # Returns: # $last_loadavg = last load average computed (undef if none) my $self = shift; # Should we update the loadavg file? my $update_loadavg_file = 0; if(open(my $load_fh, "<", $self->{'loadavg_file'})) { local $/ = undef; my $load_out = <$load_fh>; close $load_fh; my $load =()= ($load_out=~/(^[DR]....[^\[])/gm); if($load > 0) { # load is overestimated by 1 $self->{'loadavg'} = $load - 1; ::debug("load", "New loadavg: ", $self->{'loadavg'}); } else { ::die_bug("loadavg_invalid_content: $load_out"); } ::debug("load", "Last update: ", $self->{'last_loadavg_update'}); if(time - $self->{'last_loadavg_update'} > 10) { # last loadavg was started 10 seconds ago ::debug("load", time - $self->{'last_loadavg_update'}, " secs old: ", $self->{'loadavg_file'}); $update_loadavg_file = 1; } } else { ::debug("load", "No loadavg file: ", $self->{'loadavg_file'}); $self->{'loadavg'} = undef; $update_loadavg_file = 1; } if($update_loadavg_file) { ::debug("load", "Updating loadavg file", $self->{'loadavg_file'}, "\n"); $self->{'last_loadavg_update'} = time; -e $ENV{'HOME'}."/.parallel" or mkdir $ENV{'HOME'}."/.parallel"; -e $ENV{'HOME'}."/.parallel/tmp" or mkdir $ENV{'HOME'}."/.parallel/tmp"; my $cmd = ""; if($self->{'string'} ne ":") { $cmd = $self->sshcommand() . " " . $self->serverlogin() . " "; } # TODO Is is called 'ps ax -o state,command' on other platforms? $cmd .= "ps ax -o state,command"; # As the command can take long to run if run remote # save it to a tmp file before moving it to the correct file my $file = $self->{'loadavg_file'}; my ($dummy_fh, $tmpfile) = ::tmpfile(SUFFIX => ".loa"); qx{ ($cmd > $tmpfile && mv $tmpfile $file || rm $tmpfile) & }; } return $self->{'loadavg'}; } sub max_loadavg { my $self = shift; # If --load is a file it might be changed if($Global::max_load_file) { my $mtime = (stat($Global::max_load_file))[9]; if($mtime > $Global::max_load_file_last_mod) { $Global::max_load_file_last_mod = $mtime; for my $sshlogin (values %Global::host) { $sshlogin->set_max_loadavg(undef); } } } if(not defined $self->{'max_loadavg'}) { $self->{'max_loadavg'} = $self->compute_max_loadavg($opt::load); } ::debug("load", "max_loadavg: ", $self->string(), " ", $self->{'max_loadavg'}); return $self->{'max_loadavg'}; } sub set_max_loadavg { my $self = shift; $self->{'max_loadavg'} = shift; } sub compute_max_loadavg { # Parse the max loadaverage that the user asked for using --load # Returns: # max loadaverage my $self = shift; my $loadspec = shift; my $load; if(defined $loadspec) { if($loadspec =~ /^\+(\d+)$/) { # E.g. --load +2 my $j = $1; $load = $self->ncpus() + $j; } elsif ($loadspec =~ /^-(\d+)$/) { # E.g. --load -2 my $j = $1; $load = $self->ncpus() - $j; } elsif ($loadspec =~ /^(\d+)\%$/) { my $j = $1; $load = $self->ncpus() * $j / 100; } elsif ($loadspec =~ /^(\d+(\.\d+)?)$/) { $load = $1; } elsif (-f $loadspec) { $Global::max_load_file = $loadspec; $Global::max_load_file_last_mod = (stat($Global::max_load_file))[9]; if(open(my $in_fh, "<", $Global::max_load_file)) { my $opt_load_file = join("",<$in_fh>); close $in_fh; $load = $self->compute_max_loadavg($opt_load_file); } else { print $Global::original_stderr "Cannot open $loadspec\n"; ::wait_and_exit(255); } } else { print $Global::original_stderr "Parsing of --load failed\n"; ::die_usage(); } if($load < 0.01) { $load = 0.01; } } return $load; } sub time_to_login { my $self = shift; return $self->{'time_to_login'}; } sub set_time_to_login { my $self = shift; $self->{'time_to_login'} = shift; } sub max_jobs_running { my $self = shift; if(not defined $self->{'max_jobs_running'}) { my $nproc = $self->compute_number_of_processes($opt::jobs); $self->set_max_jobs_running($nproc); } return $self->{'max_jobs_running'}; } sub orig_max_jobs_running { my $self = shift; return $self->{'orig_max_jobs_running'}; } sub compute_number_of_processes { # Number of processes wanted and limited by system resources # Returns: # Number of processes my $self = shift; my $opt_P = shift; my $wanted_processes = $self->user_requested_processes($opt_P); if(not defined $wanted_processes) { $wanted_processes = $Global::default_simultaneous_sshlogins; } ::debug("load", "Wanted procs: $wanted_processes\n"); my $system_limit = $self->processes_available_by_system_limit($wanted_processes); ::debug("load", "Limited to procs: $system_limit\n"); return $system_limit; } sub processes_available_by_system_limit { # If the wanted number of processes is bigger than the system limits: # Limit them to the system limits # Limits are: File handles, number of input lines, processes, # and taking > 1 second to spawn 10 extra processes # Returns: # Number of processes my $self = shift; my $wanted_processes = shift; my $system_limit = 0; my @jobs = (); my $job; my @args = (); my $arg; my $more_filehandles = 1; my $max_system_proc_reached = 0; my $slow_spawining_warning_printed = 0; my $time = time; my %fh; my @children; # Reserve filehandles # perl uses 7 filehandles for something? # parallel uses 1 for memory_usage # parallel uses 4 for ? for my $i (1..12) { open($fh{"init-$i"}, "<", "/dev/null"); } for(1..2) { # System process limit my $child; if($child = fork()) { push (@children,$child); $Global::unkilled_children{$child} = 1; } elsif(defined $child) { # The child takes one process slot # It will be killed later $SIG{TERM} = $Global::original_sig{TERM}; sleep 10000000; exit(0); } else { $max_system_proc_reached = 1; } } my $count_jobs_already_read = $Global::JobQueue->next_seq(); my $wait_time_for_getting_args = 0; my $start_time = time; while(1) { $system_limit >= $wanted_processes and last; not $more_filehandles and last; $max_system_proc_reached and last; my $before_getting_arg = time; if($Global::semaphore or $opt::pipe) { # Skip: No need to get args } elsif(defined $opt::retries and $count_jobs_already_read) { # For retries we may need to run all jobs on this sshlogin # so include the already read jobs for this sshlogin $count_jobs_already_read--; } else { if($opt::X or $opt::m) { # The arguments may have to be re-spread over several jobslots # So pessimistically only read one arg per jobslot # instead of a full commandline if($Global::JobQueue->{'commandlinequeue'}->{'arg_queue'}->empty()) { if($Global::JobQueue->empty()) { last; } else { ($job) = $Global::JobQueue->get(); push(@jobs, $job); } } else { ($arg) = $Global::JobQueue->{'commandlinequeue'}->{'arg_queue'}->get(); push(@args, $arg); } } else { # If there are no more command lines, then we have a process # per command line, so no need to go further $Global::JobQueue->empty() and last; ($job) = $Global::JobQueue->get(); push(@jobs, $job); } } $wait_time_for_getting_args += time - $before_getting_arg; $system_limit++; # Every simultaneous process uses 2 filehandles when grouping # Every simultaneous process uses 2 filehandles when compressing $more_filehandles = open($fh{$system_limit*10}, "<", "/dev/null") && open($fh{$system_limit*10+2}, "<", "/dev/null") && open($fh{$system_limit*10+3}, "<", "/dev/null") && open($fh{$system_limit*10+4}, "<", "/dev/null"); # System process limit my $child; if($child = fork()) { push (@children,$child); $Global::unkilled_children{$child} = 1; } elsif(defined $child) { # The child takes one process slot # It will be killed later $SIG{TERM} = $Global::original_sig{TERM}; sleep 10000000; exit(0); } else { $max_system_proc_reached = 1; } my $forktime = time - $time - $wait_time_for_getting_args; ::debug("run", "Time to fork $system_limit procs: $wait_time_for_getting_args ", $forktime, " (processes so far: ", $system_limit,")\n"); if($system_limit > 10 and $forktime > 1 and $forktime > $system_limit * 0.01 and not $slow_spawining_warning_printed) { # It took more than 0.01 second to fork a processes on avg. # Give the user a warning. He can press Ctrl-C if this # sucks. print $Global::original_stderr ("parallel: Warning: Starting $system_limit processes took > $forktime sec.\n", "Consider adjusting -j. Press CTRL-C to stop.\n"); $slow_spawining_warning_printed = 1; } } # Cleanup: Close the files for (values %fh) { close $_ } # Cleanup: Kill the children for my $pid (@children) { kill 9, $pid; waitpid($pid,0); delete $Global::unkilled_children{$pid}; } # Cleanup: Unget the command_lines or the @args $Global::JobQueue->{'commandlinequeue'}->{'arg_queue'}->unget(@args); $Global::JobQueue->unget(@jobs); if($system_limit < $wanted_processes) { # The system_limit is less than the wanted_processes if($system_limit < 1 and not $Global::JobQueue->empty()) { ::warning("Cannot spawn any jobs. Raising ulimit -u or /etc/security/limits.conf\n", "or /proc/sys/kernel/pid_max may help.\n"); ::wait_and_exit(255); } if(not $more_filehandles) { ::warning("Only enough file handles to run ", $system_limit, " jobs in parallel.\n", "Running 'parallel -j0 -N", $system_limit, " --pipe parallel -j0' or ", "raising ulimit -n or /etc/security/limits.conf may help.\n"); } if($max_system_proc_reached) { ::warning("Only enough available processes to run ", $system_limit, " jobs in parallel. Raising ulimit -u or /etc/security/limits.conf\n", "or /proc/sys/kernel/pid_max may help.\n"); } } if($] == 5.008008 and $system_limit > 1000) { # https://savannah.gnu.org/bugs/?36942 $system_limit = 1000; } if($Global::JobQueue->empty()) { $system_limit ||= 1; } if($self->string() ne ":" and $system_limit > $Global::default_simultaneous_sshlogins) { $system_limit = $self->simultaneous_sshlogin_limit($system_limit); } return $system_limit; } sub simultaneous_sshlogin_limit { # Test by logging in wanted number of times simultaneously # Returns: # min($wanted_processes,$working_simultaneous_ssh_logins-1) my $self = shift; my $wanted_processes = shift; if($self->{'time_to_login'}) { return $wanted_processes; } # Try twice because it guesses wrong sometimes # Choose the minimal my $ssh_limit = ::min($self->simultaneous_sshlogin($wanted_processes), $self->simultaneous_sshlogin($wanted_processes)); if($ssh_limit < $wanted_processes) { my $serverlogin = $self->serverlogin(); ::warning("ssh to $serverlogin only allows ", "for $ssh_limit simultaneous logins.\n", "You may raise this by changing ", "/etc/ssh/sshd_config:MaxStartups and MaxSessions on $serverlogin.\n", "Using only ",$ssh_limit-1," connections ", "to avoid race conditions.\n"); } # Race condition can cause problem if using all sshs. if($ssh_limit > 1) { $ssh_limit -= 1; } return $ssh_limit; } sub simultaneous_sshlogin { # Using $sshlogin try to see if we can do $wanted_processes # simultaneous logins # (ssh host echo simultaneouslogin & ssh host echo simultaneouslogin & ...)|grep simul|wc -l # Returns: # Number of succesful logins my $self = shift; my $wanted_processes = shift; my $sshcmd = $self->sshcommand(); my $serverlogin = $self->serverlogin(); my $sshdelay = $opt::sshdelay ? "sleep $opt::sshdelay;" : ""; my $cmd = "$sshdelay$sshcmd $serverlogin echo simultaneouslogin &1 &"x$wanted_processes; ::debug("init", "Trying $wanted_processes logins at $serverlogin\n"); open (my $simul_fh, "-|", "($cmd)|grep simultaneouslogin | wc -l") or ::die_bug("simultaneouslogin"); my $ssh_limit = <$simul_fh>; close $simul_fh; chomp $ssh_limit; return $ssh_limit; } sub set_ncpus { my $self = shift; $self->{'ncpus'} = shift; } sub user_requested_processes { # Parse the number of processes that the user asked for using -j # Returns: # the number of processes to run on this sshlogin my $self = shift; my $opt_P = shift; my $processes; if(defined $opt_P) { if($opt_P =~ /^\+(\d+)$/) { # E.g. -P +2 my $j = $1; $processes = $self->ncpus() + $j; } elsif ($opt_P =~ /^-(\d+)$/) { # E.g. -P -2 my $j = $1; $processes = $self->ncpus() - $j; } elsif ($opt_P =~ /^(\d+(\.\d+)?)\%$/) { # E.g. -P 10.5% my $j = $1; $processes = $self->ncpus() * $j / 100; } elsif ($opt_P =~ /^(\d+)$/) { $processes = $1; if($processes == 0) { # -P 0 = infinity (or at least close) $processes = $Global::infinity; } } elsif (-f $opt_P) { $Global::max_procs_file = $opt_P; $Global::max_procs_file_last_mod = (stat($Global::max_procs_file))[9]; if(open(my $in_fh, "<", $Global::max_procs_file)) { my $opt_P_file = join("",<$in_fh>); close $in_fh; $processes = $self->user_requested_processes($opt_P_file); } else { ::error("Cannot open $opt_P.\n"); ::wait_and_exit(255); } } else { ::error("Parsing of --jobs/-j/--max-procs/-P failed.\n"); ::die_usage(); } $processes = ::ceil($processes); } return $processes; } sub ncpus { my $self = shift; if(not defined $self->{'ncpus'}) { my $sshcmd = $self->sshcommand(); my $serverlogin = $self->serverlogin(); if($serverlogin eq ":") { if($opt::use_cpus_instead_of_cores) { $self->{'ncpus'} = no_of_cpus(); } else { $self->{'ncpus'} = no_of_cores(); } } else { my $ncpu; my $sqe = ::shell_quote_scalar($Global::envvar); if($opt::use_cpus_instead_of_cores) { $ncpu = qx(echo|$sshcmd $serverlogin $sqe parallel --number-of-cpus); } else { ::debug("init",qq(echo|$sshcmd $serverlogin $sqe parallel --number-of-cores\n)); $ncpu = qx(echo|$sshcmd $serverlogin $sqe parallel --number-of-cores); } chomp $ncpu; if($ncpu =~ /^\s*[0-9]+\s*$/s) { $self->{'ncpus'} = $ncpu; } else { ::warning("Could not figure out ", "number of cpus on $serverlogin ($ncpu). Using 1.\n"); $self->{'ncpus'} = 1; } } } return $self->{'ncpus'}; } sub no_of_cpus { # Returns: # Number of physical CPUs local $/="\n"; # If delimiter is set, then $/ will be wrong my $no_of_cpus; if ($^O eq 'linux') { $no_of_cpus = no_of_cpus_gnu_linux() || no_of_cores_gnu_linux(); } elsif ($^O eq 'freebsd') { $no_of_cpus = no_of_cpus_freebsd(); } elsif ($^O eq 'netbsd') { $no_of_cpus = no_of_cpus_netbsd(); } elsif ($^O eq 'openbsd') { $no_of_cpus = no_of_cpus_openbsd(); } elsif ($^O eq 'gnu') { $no_of_cpus = no_of_cpus_hurd(); } elsif ($^O eq 'darwin') { $no_of_cpus = no_of_cpus_darwin(); } elsif ($^O eq 'solaris') { $no_of_cpus = no_of_cpus_solaris(); } elsif ($^O eq 'aix') { $no_of_cpus = no_of_cpus_aix(); } elsif ($^O eq 'hpux') { $no_of_cpus = no_of_cpus_hpux(); } elsif ($^O eq 'nto') { $no_of_cpus = no_of_cpus_qnx(); } elsif ($^O eq 'svr5') { $no_of_cpus = no_of_cpus_openserver(); } elsif ($^O eq 'irix') { $no_of_cpus = no_of_cpus_irix(); } elsif ($^O eq 'dec_osf') { $no_of_cpus = no_of_cpus_tru64(); } else { $no_of_cpus = (no_of_cpus_gnu_linux() || no_of_cpus_freebsd() || no_of_cpus_netbsd() || no_of_cpus_openbsd() || no_of_cpus_hurd() || no_of_cpus_darwin() || no_of_cpus_solaris() || no_of_cpus_aix() || no_of_cpus_hpux() || no_of_cpus_qnx() || no_of_cpus_openserver() || no_of_cpus_irix() || no_of_cpus_tru64() # Number of cores is better than no guess for #CPUs || nproc() ); } if($no_of_cpus) { chomp $no_of_cpus; return $no_of_cpus; } else { ::warning("Cannot figure out number of cpus. Using 1.\n"); return 1; } } sub no_of_cores { # Returns: # Number of CPU cores local $/="\n"; # If delimiter is set, then $/ will be wrong my $no_of_cores; if ($^O eq 'linux') { $no_of_cores = no_of_cores_gnu_linux(); } elsif ($^O eq 'freebsd') { $no_of_cores = no_of_cores_freebsd(); } elsif ($^O eq 'netbsd') { $no_of_cores = no_of_cores_netbsd(); } elsif ($^O eq 'openbsd') { $no_of_cores = no_of_cores_openbsd(); } elsif ($^O eq 'gnu') { $no_of_cores = no_of_cores_hurd(); } elsif ($^O eq 'darwin') { $no_of_cores = no_of_cores_darwin(); } elsif ($^O eq 'solaris') { $no_of_cores = no_of_cores_solaris(); } elsif ($^O eq 'aix') { $no_of_cores = no_of_cores_aix(); } elsif ($^O eq 'hpux') { $no_of_cores = no_of_cores_hpux(); } elsif ($^O eq 'nto') { $no_of_cores = no_of_cores_qnx(); } elsif ($^O eq 'svr5') { $no_of_cores = no_of_cores_openserver(); } elsif ($^O eq 'irix') { $no_of_cores = no_of_cores_irix(); } elsif ($^O eq 'dec_osf') { $no_of_cores = no_of_cores_tru64(); } else { $no_of_cores = (no_of_cores_gnu_linux() || no_of_cores_freebsd() || no_of_cores_netbsd() || no_of_cores_openbsd() || no_of_cores_hurd() || no_of_cores_darwin() || no_of_cores_solaris() || no_of_cores_aix() || no_of_cores_hpux() || no_of_cores_qnx() || no_of_cores_openserver() || no_of_cores_irix() || no_of_cores_tru64() || nproc() ); } if($no_of_cores) { chomp $no_of_cores; return $no_of_cores; } else { ::warning("Cannot figure out number of CPU cores. Using 1.\n"); return 1; } } sub nproc { # Returns: # Number of cores using `nproc` my $no_of_cores = `nproc 2>/dev/null`; return $no_of_cores; } sub no_of_cpus_gnu_linux { # Returns: # Number of physical CPUs on GNU/Linux # undef if not GNU/Linux my $no_of_cpus; my $no_of_cores; if(-e "/proc/cpuinfo") { $no_of_cpus = 0; $no_of_cores = 0; my %seen; open(my $in_fh, "<", "/proc/cpuinfo") || return undef; while(<$in_fh>) { if(/^physical id.*[:](.*)/ and not $seen{$1}++) { $no_of_cpus++; } /^processor.*[:]/i and $no_of_cores++; } close $in_fh; } return ($no_of_cpus||$no_of_cores); } sub no_of_cores_gnu_linux { # Returns: # Number of CPU cores on GNU/Linux # undef if not GNU/Linux my $no_of_cores; if(-e "/proc/cpuinfo") { $no_of_cores = 0; open(my $in_fh, "<", "/proc/cpuinfo") || return undef; while(<$in_fh>) { /^processor.*[:]/i and $no_of_cores++; } close $in_fh; } return $no_of_cores; } sub no_of_cpus_freebsd { # Returns: # Number of physical CPUs on FreeBSD # undef if not FreeBSD my $no_of_cpus = (`sysctl -a dev.cpu 2>/dev/null | grep \%parent | awk '{ print \$2 }' | uniq | wc -l | awk '{ print \$1 }'` or `sysctl hw.ncpu 2>/dev/null | awk '{ print \$2 }'`); chomp $no_of_cpus; return $no_of_cpus; } sub no_of_cores_freebsd { # Returns: # Number of CPU cores on FreeBSD # undef if not FreeBSD my $no_of_cores = (`sysctl hw.ncpu 2>/dev/null | awk '{ print \$2 }'` or `sysctl -a hw 2>/dev/null | grep [^a-z]logicalcpu[^a-z] | awk '{ print \$2 }'`); chomp $no_of_cores; return $no_of_cores; } sub no_of_cpus_netbsd { # Returns: # Number of physical CPUs on NetBSD # undef if not NetBSD my $no_of_cpus = `sysctl -n hw.ncpu 2>/dev/null`; chomp $no_of_cpus; return $no_of_cpus; } sub no_of_cores_netbsd { # Returns: # Number of CPU cores on NetBSD # undef if not NetBSD my $no_of_cores = `sysctl -n hw.ncpu 2>/dev/null`; chomp $no_of_cores; return $no_of_cores; } sub no_of_cpus_openbsd { # Returns: # Number of physical CPUs on OpenBSD # undef if not OpenBSD my $no_of_cpus = `sysctl -n hw.ncpu 2>/dev/null`; chomp $no_of_cpus; return $no_of_cpus; } sub no_of_cores_openbsd { # Returns: # Number of CPU cores on OpenBSD # undef if not OpenBSD my $no_of_cores = `sysctl -n hw.ncpu 2>/dev/null`; chomp $no_of_cores; return $no_of_cores; } sub no_of_cpus_hurd { # Returns: # Number of physical CPUs on HURD # undef if not HURD my $no_of_cpus = `nproc`; chomp $no_of_cpus; return $no_of_cpus; } sub no_of_cores_hurd { # Returns: # Number of physical CPUs on HURD # undef if not HURD my $no_of_cores = `nproc`; chomp $no_of_cores; return $no_of_cores; } sub no_of_cpus_darwin { # Returns: # Number of physical CPUs on Mac Darwin # undef if not Mac Darwin my $no_of_cpus = (`sysctl -n hw.physicalcpu 2>/dev/null` or `sysctl -a hw 2>/dev/null | grep [^a-z]physicalcpu[^a-z] | awk '{ print \$2 }'`); return $no_of_cpus; } sub no_of_cores_darwin { # Returns: # Number of CPU cores on Mac Darwin # undef if not Mac Darwin my $no_of_cores = (`sysctl -n hw.logicalcpu 2>/dev/null` or `sysctl -a hw 2>/dev/null | grep [^a-z]logicalcpu[^a-z] | awk '{ print \$2 }'`); return $no_of_cores; } sub no_of_cpus_solaris { # Returns: # Number of physical CPUs on Solaris # undef if not Solaris if(-x "/usr/sbin/psrinfo") { my @psrinfo = `/usr/sbin/psrinfo`; if($#psrinfo >= 0) { return $#psrinfo +1; } } if(-x "/usr/sbin/prtconf") { my @prtconf = `/usr/sbin/prtconf | grep cpu..instance`; if($#prtconf >= 0) { return $#prtconf +1; } } return undef; } sub no_of_cores_solaris { # Returns: # Number of CPU cores on Solaris # undef if not Solaris if(-x "/usr/sbin/psrinfo") { my @psrinfo = `/usr/sbin/psrinfo`; if($#psrinfo >= 0) { return $#psrinfo +1; } } if(-x "/usr/sbin/prtconf") { my @prtconf = `/usr/sbin/prtconf | grep cpu..instance`; if($#prtconf >= 0) { return $#prtconf +1; } } return undef; } sub no_of_cpus_aix { # Returns: # Number of physical CPUs on AIX # undef if not AIX my $no_of_cpus = 0; if(-x "/usr/sbin/lscfg") { open(my $in_fh, "-|", "/usr/sbin/lscfg -vs |grep proc | wc -l|tr -d ' '") || return undef; $no_of_cpus = <$in_fh>; chomp ($no_of_cpus); close $in_fh; } return $no_of_cpus; } sub no_of_cores_aix { # Returns: # Number of CPU cores on AIX # undef if not AIX my $no_of_cores; if(-x "/usr/bin/vmstat") { open(my $in_fh, "-|", "/usr/bin/vmstat 1 1") || return undef; while(<$in_fh>) { /lcpu=([0-9]*) / and $no_of_cores = $1; } close $in_fh; } return $no_of_cores; } sub no_of_cpus_hpux { # Returns: # Number of physical CPUs on HP-UX # undef if not HP-UX my $no_of_cpus = (`/usr/bin/mpsched -s 2>&1 | grep 'Locality Domain Count' | awk '{ print \$4 }'`); return $no_of_cpus; } sub no_of_cores_hpux { # Returns: # Number of CPU cores on HP-UX # undef if not HP-UX my $no_of_cores = (`/usr/bin/mpsched -s 2>&1 | grep 'Processor Count' | awk '{ print \$3 }'`); return $no_of_cores; } sub no_of_cpus_qnx { # Returns: # Number of physical CPUs on QNX # undef if not QNX # BUG: It is now known how to calculate this. my $no_of_cpus = 0; return $no_of_cpus; } sub no_of_cores_qnx { # Returns: # Number of CPU cores on QNX # undef if not QNX # BUG: It is now known how to calculate this. my $no_of_cores = 0; return $no_of_cores; } sub no_of_cpus_openserver { # Returns: # Number of physical CPUs on SCO OpenServer # undef if not SCO OpenServer my $no_of_cpus = 0; if(-x "/usr/sbin/psrinfo") { my @psrinfo = `/usr/sbin/psrinfo`; if($#psrinfo >= 0) { return $#psrinfo +1; } } return $no_of_cpus; } sub no_of_cores_openserver { # Returns: # Number of CPU cores on SCO OpenServer # undef if not SCO OpenServer my $no_of_cores = 0; if(-x "/usr/sbin/psrinfo") { my @psrinfo = `/usr/sbin/psrinfo`; if($#psrinfo >= 0) { return $#psrinfo +1; } } return $no_of_cores; } sub no_of_cpus_irix { # Returns: # Number of physical CPUs on IRIX # undef if not IRIX my $no_of_cpus = `hinv | grep HZ | grep Processor | awk '{print \$1}'`; return $no_of_cpus; } sub no_of_cores_irix { # Returns: # Number of CPU cores on IRIX # undef if not IRIX my $no_of_cores = `hinv | grep HZ | grep Processor | awk '{print \$1}'`; return $no_of_cores; } sub no_of_cpus_tru64 { # Returns: # Number of physical CPUs on Tru64 # undef if not Tru64 my $no_of_cpus = `sizer -pr`; return $no_of_cpus; } sub no_of_cores_tru64 { # Returns: # Number of CPU cores on Tru64 # undef if not Tru64 my $no_of_cores = `sizer -pr`; return $no_of_cores; } sub sshcommand { my $self = shift; if (not defined $self->{'sshcommand'}) { $self->sshcommand_of_sshlogin(); } return $self->{'sshcommand'}; } sub serverlogin { my $self = shift; if (not defined $self->{'serverlogin'}) { $self->sshcommand_of_sshlogin(); } return $self->{'serverlogin'}; } sub sshcommand_of_sshlogin { # 'server' -> ('ssh -S /tmp/parallel-ssh-RANDOM/host-','server') # 'user@server' -> ('ssh','user@server') # 'myssh user@server' -> ('myssh','user@server') # 'myssh -l user server' -> ('myssh -l user','server') # '/usr/bin/myssh -l user server' -> ('/usr/bin/myssh -l user','server') # Returns: # sshcommand - defaults to 'ssh' # login@host my $self = shift; my ($sshcmd, $serverlogin); if($self->{'string'} =~ /(.+) (\S+)$/) { # Own ssh command $sshcmd = $1; $serverlogin = $2; } else { # Normal ssh if($opt::controlmaster) { # Use control_path to make ssh faster my $control_path = $self->control_path_dir()."/ssh-%r@%h:%p"; $sshcmd = "ssh -S ".$control_path; $serverlogin = $self->{'string'}; if(not $self->{'control_path'}{$control_path}++) { # Master is not running for this control_path # Start it my $pid = fork(); if($pid) { $Global::sshmaster{$pid} ||= 1; } else { $SIG{'TERM'} = undef; # Ignore the 'foo' being printed open(STDOUT,">","/dev/null"); # OpenSSH_3.6.1p2 gives 'tcgetattr: Invalid argument' with -tt # STDERR >/dev/null to ignore "process_mux_new_session: tcgetattr: Invalid argument" open(STDERR,">","/dev/null"); open(STDIN,"<","/dev/null"); # Run a sleep that outputs data, so it will discover if the ssh connection closes. my $sleep = ::shell_quote_scalar('$|=1;while(1){sleep 1;print "foo\n"}'); my @master = ("ssh", "-tt", "-MTS", $control_path, $serverlogin, "perl", "-e", $sleep); exec(@master); } } } else { $sshcmd = "ssh"; $serverlogin = $self->{'string'}; } } $self->{'sshcommand'} = $sshcmd; $self->{'serverlogin'} = $serverlogin; } sub control_path_dir { # Returns: # path to directory my $self = shift; if(not defined $self->{'control_path_dir'}) { -e $ENV{'HOME'}."/.parallel" or mkdir $ENV{'HOME'}."/.parallel"; -e $ENV{'HOME'}."/.parallel/tmp" or mkdir $ENV{'HOME'}."/.parallel/tmp"; $self->{'control_path_dir'} = File::Temp::tempdir($ENV{'HOME'} . "/.parallel/tmp/control_path_dir-XXXX", CLEANUP => 1); } return $self->{'control_path_dir'}; } sub rsync_transfer_cmd { # Command to run to transfer a file # Input: # $file = filename of file to transfer # $workdir = destination dir # Returns: # $cmd = rsync command to run to transfer $file ("" if unreadable) my $self = shift; my $file = shift; my $workdir = shift; if(not -r $file) { ::warning($file, " is not readable and will not be transferred.\n"); return "true"; } my $rsync_destdir; if($file =~ m:^/:) { # rsync /foo/bar / $rsync_destdir = "/"; } else { $rsync_destdir = ::shell_quote_file($workdir); } $file = ::shell_quote_file($file); my $sshcmd = $self->sshcommand(); my $rsync_opt = "-rlDzR -e" . ::shell_quote_scalar($sshcmd); my $serverlogin = $self->serverlogin(); # Make dir if it does not exist return "( $sshcmd $serverlogin mkdir -p $rsync_destdir;" . rsync()." $rsync_opt $file $serverlogin:$rsync_destdir )"; } sub cleanup_cmd { # Command to run to remove the remote file # Input: # $file = filename to remove # $workdir = destination dir # Returns: # $cmd = ssh command to run to remove $file and empty parent dirs my $self = shift; my $file = shift; my $workdir = shift; my $f = $file; if($f =~ m:/\./:) { # foo/bar/./baz/quux => workdir/baz/quux # /foo/bar/./baz/quux => workdir/baz/quux $f =~ s:.*/\./:$workdir/:; } elsif($f =~ m:^[^/]:) { # foo/bar => workdir/foo/bar $f = $workdir."/".$f; } my @subdirs = split m:/:, ::dirname($f); my @rmdir; my $dir = ""; for(@subdirs) { $dir .= $_."/"; unshift @rmdir, ::shell_quote_file($dir); } my $rmdir = @rmdir ? "rmdir @rmdir 2>/dev/null;" : ""; if(defined $opt::workdir and $opt::workdir eq "...") { $rmdir .= "rm -rf " . ::shell_quote_file($workdir).';'; } $f = ::shell_quote_file($f); my $sshcmd = $self->sshcommand(); my $serverlogin = $self->serverlogin(); return "$sshcmd $serverlogin ".::shell_quote_scalar("(rm -f $f; $rmdir)"); } { my $rsync; sub rsync { # rsync 3.1.x uses protocol 31 which is unsupported by 2.5.7. # If the version >= 3.1.0: downgrade to protocol 30 if(not $rsync) { my @out = `rsync --version`; for (@out) { if(/version (\d+.\d+)(.\d+)?/) { if($1 >= 3.1) { # Version 3.1.0 or later: Downgrade to protocol 30 $rsync = "rsync --protocol 30"; } else { $rsync = "rsync"; } } } $rsync or ::die_bug("Cannot figure out version of rsync: @out"); } return $rsync; } } package JobQueue; sub new { my $class = shift; my $commandref = shift; my $read_from = shift; my $context_replace = shift; my $max_number_of_args = shift; my $return_files = shift; my $commandlinequeue = CommandLineQueue->new ($commandref, $read_from, $context_replace, $max_number_of_args, $return_files); my @unget = (); return bless { 'unget' => \@unget, 'commandlinequeue' => $commandlinequeue, 'total_jobs' => undef, }, ref($class) || $class; } sub get { my $self = shift; if(@{$self->{'unget'}}) { my $job = shift @{$self->{'unget'}}; return ($job); } else { my $commandline = $self->{'commandlinequeue'}->get(); if(defined $commandline) { my $job = Job->new($commandline); return $job; } else { return undef; } } } sub unget { my $self = shift; unshift @{$self->{'unget'}}, @_; } sub empty { my $self = shift; my $empty = (not @{$self->{'unget'}}) && $self->{'commandlinequeue'}->empty(); ::debug("run", "JobQueue->empty $empty "); return $empty; } sub total_jobs { my $self = shift; if(not defined $self->{'total_jobs'}) { my $job; my @queue; my $start = time; while($job = $self->get()) { if(time - $start > 10) { ::warning("Reading all arguments takes longer than 10 seconds.\n"); $opt::eta && ::warning("Consider removing --eta.\n"); $opt::bar && ::warning("Consider removing --bar.\n"); last; } push @queue, $job; } while($job = $self->get()) { push @queue, $job; } $self->unget(@queue); $self->{'total_jobs'} = $#queue+1; } return $self->{'total_jobs'}; } sub next_seq { my $self = shift; return $self->{'commandlinequeue'}->seq(); } sub quote_args { my $self = shift; return $self->{'commandlinequeue'}->quote_args(); } package Job; sub new { my $class = shift; my $commandlineref = shift; return bless { 'commandline' => $commandlineref, # CommandLine object 'workdir' => undef, # --workdir 'stdin' => undef, # filehandle for stdin (used for --pipe) # filename for writing stdout to (used for --files) 'remaining' => "", # remaining data not sent to stdin (used for --pipe) 'datawritten' => 0, # amount of data sent via stdin (used for --pipe) 'transfersize' => 0, # size of files using --transfer 'returnsize' => 0, # size of files using --return 'pid' => undef, # hash of { SSHLogins => number of times the command failed there } 'failed' => undef, 'sshlogin' => undef, # The commandline wrapped with rsync and ssh 'sshlogin_wrap' => undef, 'exitstatus' => undef, 'exitsignal' => undef, # Timestamp for timeout if any 'timeout' => undef, 'virgin' => 1, }, ref($class) || $class; } sub replaced { my $self = shift; $self->{'commandline'} or ::die_bug("commandline empty"); return $self->{'commandline'}->replaced(); } sub seq { my $self = shift; return $self->{'commandline'}->seq(); } sub slot { my $self = shift; return $self->{'commandline'}->slot(); } { my($cattail); sub cattail { # Returns: # $cattail = perl program for: cattail "decompress program" writerpid [file_to_decompress or stdin] [file_to_unlink] if(not $cattail) { $cattail = q{ # cat followed by tail. # If $writerpid dead: finish after this round use Fcntl; $|=1; my ($cmd, $writerpid, $read_file, $unlink_file) = @ARGV; if($read_file) { open(IN,"<",$read_file) || die("cattail: Cannot open $read_file"); } else { *IN = *STDIN; } my $flags; fcntl(IN, F_GETFL, $flags) || die $!; # Get the current flags on the filehandle $flags |= O_NONBLOCK; # Add non-blocking to the flags fcntl(IN, F_SETFL, $flags) || die $!; # Set the flags on the filehandle open(OUT,"|-",$cmd) || die("cattail: Cannot run $cmd"); while(1) { # clear EOF seek(IN,0,1); my $writer_running = kill 0, $writerpid; $read = sysread(IN,$buf,32768); if($read) { # We can unlink the file now: The writer has written something -e $unlink_file and unlink $unlink_file; # Blocking print while($buf) { my $bytes_written = syswrite(OUT,$buf); # syswrite may be interrupted by SIGHUP substr($buf,0,$bytes_written) = ""; } # Something printed: Wait less next time $sleep /= 2; } else { if(eof(IN) and not $writer_running) { # Writer dead: There will never be more to read => exit exit; } # TODO This could probably be done more efficiently using select(2) # Nothing read: Wait longer before next read # Up to 30 milliseconds $sleep = ($sleep < 30) ? ($sleep * 1.001 + 0.01) : ($sleep); usleep($sleep); } } sub usleep { # Sleep this many milliseconds. my $secs = shift; select(undef, undef, undef, $secs/1000); } }; $cattail =~ s/#.*//mg; $cattail =~ s/\s+/ /g; } return $cattail; } } sub openoutputfiles { # Open files for STDOUT and STDERR # Set file handles in $self->fh my $self = shift; my ($outfhw, $errfhw, $outname, $errname); if($opt::results) { my $args_as_dirname = $self->{'commandline'}->args_as_dirname(); # Output in: prefix/name1/val1/name2/val2/stdout my $dir = $opt::results."/".$args_as_dirname; if(eval{ File::Path::mkpath($dir); }) { # OK } else { # mkpath failed: Argument probably too long. # Set $Global::max_file_length, which will keep the individual # dir names shorter than the max length max_file_name_length($opt::results); $args_as_dirname = $self->{'commandline'}->args_as_dirname(); # prefix/name1/val1/name2/val2/ $dir = $opt::results."/".$args_as_dirname; File::Path::mkpath($dir); } # prefix/name1/val1/name2/val2/stdout $outname = "$dir/stdout"; if(not open($outfhw, "+>", $outname)) { ::error("Cannot write to `$outname'.\n"); ::wait_and_exit(255); } # prefix/name1/val1/name2/val2/stderr $errname = "$dir/stderr"; if(not open($errfhw, "+>", $errname)) { ::error("Cannot write to `$errname'.\n"); ::wait_and_exit(255); } $self->set_fh(1,"unlink",""); $self->set_fh(2,"unlink",""); } elsif(not $opt::ungroup) { # To group we create temporary files for STDOUT and STDERR # To avoid the cleanup unlink the files immediately (but keep them open) if(@Global::tee_jobs) { # files must be removed when the tee is done } elsif($opt::files) { ($outfhw, $outname) = ::tmpfile(SUFFIX => ".par"); ($errfhw, $errname) = ::tmpfile(SUFFIX => ".par"); # --files => only remove stderr $self->set_fh(1,"unlink",""); $self->set_fh(2,"unlink",$errname); } else { ($outfhw, $outname) = ::tmpfile(SUFFIX => ".par"); ($errfhw, $errname) = ::tmpfile(SUFFIX => ".par"); $self->set_fh(1,"unlink",$outname); $self->set_fh(2,"unlink",$errname); } } else { # --ungroup open($outfhw,">&",$Global::fd{1}) || die; open($errfhw,">&",$Global::fd{2}) || die; # File name must be empty as it will otherwise be printed $outname = ""; $errname = ""; $self->set_fh(1,"unlink",$outname); $self->set_fh(2,"unlink",$errname); } # Set writing FD $self->set_fh(1,'w',$outfhw); $self->set_fh(2,'w',$errfhw); $self->set_fh(1,'name',$outname); $self->set_fh(2,'name',$errname); if($opt::compress) { # Send stdout to stdin for $opt::compress_program(1) # Send stderr to stdin for $opt::compress_program(2) # cattail get pid: $pid = $self->fh($fdno,'rpid'); my $cattail = cattail(); for my $fdno (1,2) { my $wpid = open(my $fdw,"|-","$opt::compress_program >>". $self->fh($fdno,'name')) || die $?; $self->set_fh($fdno,'w',$fdw); $self->set_fh($fdno,'wpid',$wpid); my $rpid = open(my $fdr, "-|", "perl", "-e", $cattail, $opt::decompress_program, $wpid, $self->fh($fdno,'name'),$self->fh($fdno,'unlink')) || die $?; $self->set_fh($fdno,'r',$fdr); $self->set_fh($fdno,'rpid',$rpid); } } elsif(not $opt::ungroup) { # Set reading FD if using --group (--ungroup does not need) for my $fdno (1,2) { # Re-open the file for reading # so fdw can be closed seperately # and fdr can be seeked seperately (for --line-buffer) open(my $fdr,"<", $self->fh($fdno,'name')) || ::die_bug("fdr: Cannot open ".$self->fh($fdno,'name')); $self->set_fh($fdno,'r',$fdr); # Unlink if required $Global::debug or unlink $self->fh($fdno,"unlink"); } } if($opt::linebuffer) { # Set non-blocking when using --linebuffer $Global::use{"Fcntl"} ||= eval "use Fcntl qw(:DEFAULT :flock); 1;"; for my $fdno (1,2) { my $fdr = $self->fh($fdno,'r'); my $flags; fcntl($fdr, &F_GETFL, $flags) || die $!; # Get the current flags on the filehandle $flags |= &O_NONBLOCK; # Add non-blocking to the flags fcntl($fdr, &F_SETFL, $flags) || die $!; # Set the flags on the filehandle } } } sub max_file_name_length { # Figure out the max length of a subdir # TODO and the max total length # Ext4 = 255,130816 my $testdir = shift; my $upper = 8_000_000; my $len = 8; my $dir="x"x$len; do { rmdir($testdir."/".$dir); $len *= 16; $dir="x"x$len; } while (mkdir $testdir."/".$dir); # Then search for the actual max length between $len/16 and $len my $min = $len/16; my $max = $len; while($max-$min > 5) { # If we are within 5 chars of the exact value: # it is not worth the extra time to find the exact value my $test = int(($min+$max)/2); $dir="x"x$test; if(mkdir $testdir."/".$dir) { rmdir($testdir."/".$dir); $min = $test; } else { $max = $test; } } $Global::max_file_length = $min; return $min; } sub set_fh { # Set file handle my ($self, $fd_no, $key, $fh) = @_; $self->{'fd'}{$fd_no,$key} = $fh; } sub fh { # Get file handle my ($self, $fd_no, $key) = @_; return $self->{'fd'}{$fd_no,$key}; } sub write { my $self = shift; my $remaining_ref = shift; my $stdin_fh = $self->fh(0,"w"); syswrite($stdin_fh,$$remaining_ref); } sub set_stdin_buffer { # Copy stdin buffer from $block_ref up to $endpos # Prepend with $header_ref # Remove $recstart and $recend if needed # Input: # $header_ref = ref to $header to prepend # $block_ref = ref to $block to pass on # $endpos = length of $block to pass on # $recstart = --recstart regexp # $recend = --recend regexp # Returns: # N/A my $self = shift; my ($header_ref,$block_ref,$endpos,$recstart,$recend) = @_; $self->{'stdin_buffer'} = ($self->virgin() ? $$header_ref : "").substr($$block_ref,0,$endpos); if($opt::remove_rec_sep) { remove_rec_sep(\$self->{'stdin_buffer'},$recstart,$recend); } $self->{'stdin_buffer_length'} = length $self->{'stdin_buffer'}; $self->{'stdin_buffer_pos'} = 0; } sub stdin_buffer_length { my $self = shift; return $self->{'stdin_buffer_length'}; } sub remove_rec_sep { my ($block_ref,$recstart,$recend) = @_; # Remove record separator $$block_ref =~ s/$recend$recstart//gos; $$block_ref =~ s/^$recstart//os; $$block_ref =~ s/$recend$//os; } sub non_block_write { my $self = shift; my $something_written = 0; use POSIX qw(:errno_h); # use Fcntl; # my $flags = ''; for my $buf (substr($self->{'stdin_buffer'},$self->{'stdin_buffer_pos'})) { my $in = $self->fh(0,"w"); # fcntl($in, F_GETFL, $flags) # or die "Couldn't get flags for HANDLE : $!\n"; # $flags |= O_NONBLOCK; # fcntl($in, F_SETFL, $flags) # or die "Couldn't set flags for HANDLE: $!\n"; my $rv = syswrite($in, $buf); if (!defined($rv) && $! == EAGAIN) { # would block $something_written = 0; } elsif ($self->{'stdin_buffer_pos'}+$rv != $self->{'stdin_buffer_length'}) { # incomplete write # Remove the written part $self->{'stdin_buffer_pos'} += $rv; $something_written = $rv; } else { # successfully wrote everything my $a=""; $self->set_stdin_buffer(\$a,\$a,"",""); $something_written = $rv; } } ::debug("pipe", "Non-block: ", $something_written); return $something_written; } sub virgin { my $self = shift; return $self->{'virgin'}; } sub set_virgin { my $self = shift; $self->{'virgin'} = shift; } sub pid { my $self = shift; return $self->{'pid'}; } sub set_pid { my $self = shift; $self->{'pid'} = shift; } sub starttime { # Returns: # UNIX-timestamp this job started my $self = shift; return sprintf("%.3f",$self->{'starttime'}); } sub set_starttime { my $self = shift; my $starttime = shift || ::now(); $self->{'starttime'} = $starttime; } sub runtime { # Returns: # Run time in seconds my $self = shift; return sprintf("%.3f",int(($self->endtime() - $self->starttime())*1000)/1000); } sub endtime { # Returns: # UNIX-timestamp this job ended # 0 if not ended yet my $self = shift; return ($self->{'endtime'} || 0); } sub set_endtime { my $self = shift; my $endtime = shift; $self->{'endtime'} = $endtime; } sub timedout { # Is the job timedout? # Input: # $delta_time = time that the job may run # Returns: # True or false my $self = shift; my $delta_time = shift; return time > $self->{'starttime'} + $delta_time; } sub kill { # Kill the job. # Send the signals to (grand)*children and pid. # If no signals: TERM TERM KILL # Wait 200 ms after each TERM. # Input: # @signals = signals to send my $self = shift; my @signals = @_; my @family_pids = $self->family_pids(); # Record this jobs as failed $self->set_exitstatus(-1); # Send two TERMs to give time to clean up ::debug("run", "Kill seq ", $self->seq(), "\n"); my @send_signals = @signals || ("TERM", "TERM", "KILL"); for my $signal (@send_signals) { my $alive = 0; for my $pid (@family_pids) { if(kill 0, $pid) { # The job still running kill $signal, $pid; $alive = 1; } } # If a signal was given as input, do not do the sleep below @signals and next; if($signal eq "TERM" and $alive) { # Wait up to 200 ms between TERMs - but only if any pids are alive my $sleep = 1; for (my $sleepsum = 0; kill 0, $family_pids[0] and $sleepsum < 200; $sleepsum += $sleep) { $sleep = ::reap_usleep($sleep); } } } } sub family_pids { # Find the pids with this->pid as (grand)*parent # Returns: # @pids = pids of (grand)*children my $self = shift; my $pid = $self->pid(); my @pids; my ($children_of_ref, $parent_of_ref, $name_of_ref) = ::pid_table(); my @more = ($pid); # While more (grand)*children while(@more) { my @m; push @pids, @more; for my $parent (@more) { if($children_of_ref->{$parent}) { # add the children of this parent push @m, @{$children_of_ref->{$parent}}; } } @more = @m; } return (@pids); } sub failed { # return number of times failed for this $sshlogin # Input: # $sshlogin # Returns: # Number of times failed for $sshlogin my $self = shift; my $sshlogin = shift; return $self->{'failed'}{$sshlogin}; } sub failed_here { # return number of times failed for the current $sshlogin # Returns: # Number of times failed for this sshlogin my $self = shift; return $self->{'failed'}{$self->sshlogin()}; } sub add_failed { # increase the number of times failed for this $sshlogin my $self = shift; my $sshlogin = shift; $self->{'failed'}{$sshlogin}++; } sub add_failed_here { # increase the number of times failed for the current $sshlogin my $self = shift; $self->{'failed'}{$self->sshlogin()}++; } sub reset_failed { # increase the number of times failed for this $sshlogin my $self = shift; my $sshlogin = shift; delete $self->{'failed'}{$sshlogin}; } sub reset_failed_here { # increase the number of times failed for this $sshlogin my $self = shift; delete $self->{'failed'}{$self->sshlogin()}; } sub min_failed { # Returns: # the number of sshlogins this command has failed on # the minimal number of times this command has failed my $self = shift; my $min_failures = ::min(map { $self->{'failed'}{$_} } keys %{$self->{'failed'}}); my $number_of_sshlogins_failed_on = scalar keys %{$self->{'failed'}}; return ($number_of_sshlogins_failed_on,$min_failures); } sub total_failed { # Returns: # $total_failures = the number of times this command has failed my $self = shift; my $total_failures = 0; for (values %{$self->{'failed'}}) { $total_failures += $_; } return $total_failures; } sub wrapped { # Wrap command with: # * --shellquote # * --nice # * --cat # * --fifo # * --sshlogin # * --pipepart (@Global::cat_partials) # * --pipe # * --tmux # The ordering of the wrapping is important: # * --nice/--cat/--fifo should be done on the remote machine # * --pipepart/--pipe should be done on the local machine inside --tmux # Uses: # $Global::envvar # $opt::shellquote # $opt::nice # $Global::shell # $opt::cat # $opt::fifo # @Global::cat_partials # $opt::pipe # $opt::tmux # Returns: # $self->{'wrapped'} = the command wrapped with the above my $self = shift; if(not defined $self->{'wrapped'}) { my $command = $Global::envvar.$self->replaced(); if($opt::shellquote) { # Prepend echo # and quote twice $command = "echo " . ::shell_quote_scalar(::shell_quote_scalar($command)); } if($opt::nice) { # Prepend \nice -n19 $SHELL -c # and quote. # The '\' before nice is needed to avoid tcsh's built-in $command = '\nice'. " -n". $opt::nice. " ". $Global::shell. " -c ". ::shell_quote_scalar($command); } if($opt::cat) { # Prepend 'cat > {};' # Append '_EXIT=$?;(rm {};exit $_EXIT)' $command = $self->{'commandline'}->replace_placeholders(["cat > \257<\257>; "], 0, 0). $command. $self->{'commandline'}->replace_placeholders( ["; _EXIT=\$?; rm \257<\257>; exit \$_EXIT"], 0, 0); } elsif($opt::fifo) { # Prepend 'mkfifo {}; (' # Append ') & _PID=$!; cat > {}; wait $_PID; _EXIT=$?;(rm {};exit $_EXIT)' $command = $self->{'commandline'}->replace_placeholders(["mkfifo \257<\257>; ("], 0, 0). $command. $self->{'commandline'}->replace_placeholders([") & _PID=\$!; cat > \257<\257>; ", "wait \$_PID; _EXIT=\$?; ", "rm \257<\257>; exit \$_EXIT"], 0,0); } # Wrap with ssh + tranferring of files $command = $self->sshlogin_wrap($command); if(@Global::cat_partials) { # Prepend: # < /tmp/foo perl -e 'while(@ARGV) { sysseek(STDIN,shift,0) || die; $left = shift; while($read = sysread(STDIN,$buf, ($left > 32768 ? 32768 : $left))){ $left -= $read; syswrite(STDOUT,$buf); } }' 0 0 0 11 | $command = (shift @Global::cat_partials). "|". "(". $command. ")"; } elsif($opt::pipe) { # Prepend EOF-detector to avoid starting $command if EOF. # The $tmpfile might exist if run on a remote system - we accept that risk my ($dummy_fh, $tmpfile) = ::tmpfile(SUFFIX => ".chr"); # Unlink to avoid leaving files if --dry-run or --sshlogin unlink $tmpfile; $command = # Exit value: # empty input = true # some input = exit val from command qq{ sh -c 'dd bs=1 count=1 of=$tmpfile 2>/dev/null'; }. qq{ test \! -s "$tmpfile" && rm -f "$tmpfile" && exec true; }. qq{ (cat $tmpfile; rm $tmpfile; cat - ) | }. "($command);"; } if($opt::tmux) { # Wrap command with 'tmux' $command = $self->tmux_wrap($command); } $self->{'wrapped'} = $command; } return $self->{'wrapped'}; } sub set_sshlogin { my $self = shift; my $sshlogin = shift; $self->{'sshlogin'} = $sshlogin; delete $self->{'sshlogin_wrap'}; # If sshlogin is changed the wrap is wrong delete $self->{'wrapped'}; } sub sshlogin { my $self = shift; return $self->{'sshlogin'}; } sub sshlogin_wrap { # Wrap the command with the commands needed to run remotely # Returns: # $self->{'sshlogin_wrap'} = command wrapped with ssh+transfer commands my $self = shift; my $command = shift; if(not defined $self->{'sshlogin_wrap'}) { my $sshlogin = $self->sshlogin(); my $sshcmd = $sshlogin->sshcommand(); my $serverlogin = $sshlogin->serverlogin(); my ($pre,$post,$cleanup)=("","",""); if($serverlogin eq ":") { # No transfer neeeded $self->{'sshlogin_wrap'} = $command; } else { # --transfer $pre .= $self->sshtransfer(); # --return $post .= $self->sshreturn(); # --cleanup $post .= $self->sshcleanup(); if($post) { # We need to save the exit status of the job $post = '_EXIT_status=$?; ' . $post . ' exit $_EXIT_status;'; } # If the remote login shell is (t)csh then use 'setenv' # otherwise use 'export' # We cannot use parse_env_var(), as PARALLEL_SEQ changes # for each command my $parallel_env = ($Global::envwarn . q{ 'eval `echo $SHELL | grep "/t\\{0,1\\}csh" > /dev/null } . q{ && echo setenv PARALLEL_SEQ '$PARALLEL_SEQ'\; } . q{ setenv PARALLEL_PID '$PARALLEL_PID' } . q{ || echo PARALLEL_SEQ='$PARALLEL_SEQ'\;export PARALLEL_SEQ\; } . q{ PARALLEL_PID='$PARALLEL_PID'\;export PARALLEL_PID` ;' }); my $remote_pre = ""; my $ssh_options = ""; if(($opt::pipe or $opt::pipepart) and $opt::ctrlc or not ($opt::pipe or $opt::pipepart) and not $opt::noctrlc) { # TODO Determine if this is needed # Propagating CTRL-C to kill remote jobs requires # remote jobs to be run with a terminal. $ssh_options = "-tt -oLogLevel=quiet"; # $ssh_options = ""; # tty - check if we have a tty. # stty: # -onlcr - make output 8-bit clean # isig - pass CTRL-C as signal # -echo - do not echo input $remote_pre .= ::shell_quote_scalar('tty >/dev/null && stty isig -onlcr -echo;'); } if($opt::workdir) { my $wd = ::shell_quote_file($self->workdir()); $remote_pre .= ::shell_quote_scalar("mkdir -p ") . $wd . ::shell_quote_scalar("; cd ") . $wd . # exit 255 (instead of exec false) would be the correct thing, # but that fails on tcsh ::shell_quote_scalar(qq{ || exec false;}); } # This script is to solve the problem of # * not mixing STDERR and STDOUT # * terminating with ctrl-c # It works on Linux but not Solaris # Finishes on Solaris, but wrong exit code: # $SIG{CHLD} = sub {exit ($?&127 ? 128+($?&127) : 1+$?>>8)}; # Hangs on Solaris, but correct exit code on Linux: # $SIG{CHLD} = sub { $done = 1 }; # $p->poll; my $signal_script = "perl -e '". q{ use IO::Poll; $SIG{CHLD} = sub { $done = 1 }; $p = IO::Poll->new; $p->mask(STDOUT, POLLHUP); $pid=fork; unless($pid) {setpgrp; exec $ENV{SHELL}, "-c", @ARGV; die "exec: $!\n"} $p->poll; kill SIGHUP, -${pid} unless $done; wait; exit ($?&127 ? 128+($?&127) : 1+$?>>8) } . "' "; $signal_script =~ s/\s+/ /g; $self->{'sshlogin_wrap'} = ($pre . "$sshcmd $ssh_options $serverlogin $parallel_env " . $remote_pre # . ::shell_quote_scalar($signal_script . ::shell_quote_scalar($command)) . ::shell_quote_scalar($command) . ";" . $post); } } return $self->{'sshlogin_wrap'}; } sub transfer { # Files to transfer # Returns: # @transfer - File names of files to transfer my $self = shift; my @transfer = (); $self->{'transfersize'} = 0; if($opt::transfer) { for my $record (@{$self->{'commandline'}{'arg_list'}}) { # Merge arguments from records into args for my $arg (@$record) { CORE::push @transfer, $arg->orig(); # filesize if(-e $arg->orig()) { $self->{'transfersize'} += (stat($arg->orig()))[7]; } } } } return @transfer; } sub transfersize { my $self = shift; return $self->{'transfersize'}; } sub sshtransfer { # Returns for each transfer file: # rsync $file remote:$workdir my $self = shift; my @pre; my $sshlogin = $self->sshlogin(); my $workdir = $self->workdir(); for my $file ($self->transfer()) { push @pre, $sshlogin->rsync_transfer_cmd($file,$workdir).";"; } return join("",@pre); } sub return { # Files to return # Non-quoted and with {...} substituted # Returns: # @non_quoted_filenames my $self = shift; return $self->{'commandline'}-> replace_placeholders($self->{'commandline'}{'return_files'},0,0); } sub returnsize { # This is called after the job has finished # Returns: # $number_of_bytes transferred in return my $self = shift; for my $file ($self->return()) { if(-e $file) { $self->{'returnsize'} += (stat($file))[7]; } } return $self->{'returnsize'}; } sub sshreturn { # Returns for each return-file: # rsync remote:$workdir/$file . my $self = shift; my $sshlogin = $self->sshlogin(); my $sshcmd = $sshlogin->sshcommand(); my $serverlogin = $sshlogin->serverlogin(); my $rsync_opt = "-rlDzR -e".::shell_quote_scalar($sshcmd); my $pre = ""; for my $file ($self->return()) { $file =~ s:^\./::g; # Remove ./ if any my $relpath = ($file !~ m:^/:); # Is the path relative? my $cd = ""; my $wd = ""; if($relpath) { # rsync -avR /foo/./bar/baz.c remote:/tmp/ # == (on old systems) # rsync -avR --rsync-path="cd /foo; rsync" remote:bar/baz.c /tmp/ $wd = ::shell_quote_file($self->workdir()."/"); } # Only load File::Basename if actually needed $Global::use{"File::Basename"} ||= eval "use File::Basename; 1;"; # dir/./file means relative to dir, so remove dir on remote $file =~ m:(.*)/\./:; my $basedir = $1 ? ::shell_quote_file($1."/") : ""; my $nobasedir = $file; $nobasedir =~ s:.*/\./::; $cd = ::shell_quote_file(::dirname($nobasedir)); my $rsync_cd = '--rsync-path='.::shell_quote_scalar("cd $wd$cd; rsync"); my $basename = ::shell_quote_scalar(::shell_quote_file(basename($file))); # --return # mkdir -p /home/tange/dir/subdir/; # rsync (--protocol 30) -rlDzR --rsync-path="cd /home/tange/dir/subdir/; rsync" # server:file.gz /home/tange/dir/subdir/ $pre .= "mkdir -p $basedir$cd; ".$sshlogin->rsync()." $rsync_cd $rsync_opt $serverlogin:". $basename . " ".$basedir.$cd.";"; } return $pre; } sub sshcleanup { # Return the sshcommand needed to remove the file # Returns: # ssh command needed to remove files from sshlogin my $self = shift; my $sshlogin = $self->sshlogin(); my $sshcmd = $sshlogin->sshcommand(); my $serverlogin = $sshlogin->serverlogin(); my $workdir = $self->workdir(); my $cleancmd = ""; for my $file ($self->cleanup()) { my @subworkdirs = parentdirs_of($file); $cleancmd .= $sshlogin->cleanup_cmd($file,$workdir).";"; } if(defined $opt::workdir and $opt::workdir eq "...") { $cleancmd .= "$sshcmd $serverlogin rm -rf " . ::shell_quote_scalar($workdir).';'; } return $cleancmd; } sub cleanup { # Returns: # Files to remove at cleanup my $self = shift; if($opt::cleanup) { my @transfer = $self->transfer(); my @return = $self->return(); return (@transfer,@return); } else { return (); } } sub workdir { # Returns: # the workdir on a remote machine my $self = shift; if(not defined $self->{'workdir'}) { my $workdir; if(defined $opt::workdir) { if($opt::workdir eq ".") { # . means current dir my $home = $ENV{'HOME'}; eval 'use Cwd'; my $cwd = cwd(); $workdir = $cwd; if($home) { # If homedir exists: remove the homedir from # workdir if cwd starts with homedir # E.g. /home/foo/my/dir => my/dir # E.g. /tmp/my/dir => /tmp/my/dir my ($home_dev, $home_ino) = (stat($home))[0,1]; my $parent = ""; my @dir_parts = split(m:/:,$cwd); my $part; while(defined ($part = shift @dir_parts)) { $part eq "" and next; $parent .= "/".$part; my ($parent_dev, $parent_ino) = (stat($parent))[0,1]; if($parent_dev == $home_dev and $parent_ino == $home_ino) { # dev and ino is the same: We found the homedir. $workdir = join("/",@dir_parts); last; } } } if($workdir eq "") { $workdir = "."; } } elsif($opt::workdir eq "...") { $workdir = ".parallel/tmp/" . ::hostname() . "-" . $$ . "-" . $self->seq(); } else { $workdir = $opt::workdir; # Rsync treats /./ special. We dont want that $workdir =~ s:/\./:/:g; # Remove /./ $workdir =~ s:/+$::; # Remove ending / if any $workdir =~ s:^\./::g; # Remove starting ./ if any } } else { $workdir = "."; } $self->{'workdir'} = ::shell_quote_scalar($workdir); } return $self->{'workdir'}; } sub parentdirs_of { # Return: # all parentdirs except . of this dir or file - sorted desc by length my $d = shift; my @parents = (); while($d =~ s:/[^/]+$::) { if($d ne ".") { push @parents, $d; } } return @parents; } sub start { # Setup STDOUT and STDERR for a job and start it. # Returns: # job-object or undef if job not to run my $job = shift; # Get the shell command to be executed (possibly with ssh infront). my $command = $job->wrapped(); if($Global::interactive or $Global::stderr_verbose) { if($Global::interactive) { print $Global::original_stderr "$command ?..."; open(my $tty_fh, "<", "/dev/tty") || ::die_bug("interactive-tty"); my $answer = <$tty_fh>; close $tty_fh; my $run_yes = ($answer =~ /^\s*y/i); if (not $run_yes) { $command = "true"; # Run the command 'true' } } else { print $Global::original_stderr "$command\n"; } } my $pid; $job->openoutputfiles(); my($stdout_fh,$stderr_fh) = ($job->fh(1,"w"),$job->fh(2,"w")); local (*IN,*OUT,*ERR); open OUT, '>&', $stdout_fh or ::die_bug("Can't redirect STDOUT: $!"); open ERR, '>&', $stderr_fh or ::die_bug("Can't dup STDOUT: $!"); if(($opt::dryrun or $Global::verbose) and $opt::ungroup) { if($Global::verbose <= 1) { print $stdout_fh $job->replaced(),"\n"; } else { # Verbose level > 1: Print the rsync and stuff print $stdout_fh $command,"\n"; } } if($opt::dryrun) { $command = "true"; } $ENV{'PARALLEL_SEQ'} = $job->seq(); $ENV{'PARALLEL_PID'} = $$; ::debug("run", $Global::total_running, " processes . Starting (", $job->seq(), "): $command\n"); if($opt::pipe) { my ($stdin_fh); # The eval is needed to catch exception from open3 eval { $pid = ::open3($stdin_fh, ">&OUT", ">&ERR", $Global::shell, "-c", $command) || ::die_bug("open3-pipe"); 1; }; $job->set_fh(0,"w",$stdin_fh); } elsif(@opt::a and not $Global::stdin_in_opt_a and $job->seq() == 1 and $job->sshlogin()->string() eq ":") { # Give STDIN to the first job if using -a (but only if running # locally - otherwise CTRL-C does not work for other jobs Bug#36585) *IN = *STDIN; # The eval is needed to catch exception from open3 eval { $pid = ::open3("<&IN", ">&OUT", ">&ERR", $Global::shell, "-c", $command) || ::die_bug("open3-a"); 1; }; # Re-open to avoid complaining open(STDIN, "<&", $Global::original_stdin) or ::die_bug("dup-\$Global::original_stdin: $!"); } elsif ($opt::tty and not $Global::tty_taken and -c "/dev/tty" and open(my $devtty_fh, "<", "/dev/tty")) { # Give /dev/tty to the command if no one else is using it *IN = $devtty_fh; # The eval is needed to catch exception from open3 eval { $pid = ::open3("<&IN", ">&OUT", ">&ERR", $Global::shell, "-c", $command) || ::die_bug("open3-/dev/tty"); $Global::tty_taken = $pid; close $devtty_fh; 1; }; } else { # The eval is needed to catch exception from open3 eval { $pid = ::open3(::gensym, ">&OUT", ">&ERR", $Global::shell, "-c", $command) || ::die_bug("open3-gensym"); 1; }; } if($pid) { # A job was started $Global::total_running++; $Global::total_started++; $job->set_pid($pid); $job->set_starttime(); $Global::running{$job->pid()} = $job; if($opt::timeout) { $Global::timeoutq->insert($job); } $Global::newest_job = $job; $Global::newest_starttime = ::now(); return $job; } else { # No more processes ::debug("run", "Cannot spawn more jobs.\n"); return undef; } } sub tmux_wrap { # Wrap command with tmux for session pPID # Input: # $actual_command = the actual command being run (incl ssh wrap) my $self = shift; my $actual_command = shift; # Temporary file name. Used for fifo to communicate exit val my ($fh, $tmpfile) = ::tmpfile(SUFFIX => ".tmx"); $Global::unlink{$tmpfile}=1; close $fh; unlink $tmpfile; my $visual_command = $self->replaced(); my $title = $visual_command; # ; causes problems # ascii 194-245 annoys tmux $title =~ tr/[\011-\016;\302-\365]//d; my $tmux; if($Global::total_running == 0) { $tmux = "tmux new-session -s p$$ -d -n ". ::shell_quote_scalar($title); print $Global::original_stderr "See output with: tmux attach -t p$$\n"; } else { $tmux = "tmux new-window -t p$$ -n ".::shell_quote_scalar($title); } return "mkfifo $tmpfile; $tmux ". # Run in tmux ::shell_quote_scalar( "(".$actual_command.');(echo $?$status;echo 255) >'.$tmpfile."&". "echo ".::shell_quote_scalar($visual_command).";". "echo \007Job finished at: `date`;sleep 10"). # Run outside tmux # Read the first line from the fifo and use that as status code "; exit `perl -ne 'unlink \$ARGV; 1..1 and print' $tmpfile` "; } sub is_already_in_results { # Do we already have results for this job? # Returns: # $job_already_run = bool whether there is output for this or not my $job = $_[0]; my $args_as_dirname = $job->{'commandline'}->args_as_dirname(); # prefix/name1/val1/name2/val2/ my $dir = $opt::results."/".$args_as_dirname; ::debug("run", "Test $dir/stdout", -e "$dir/stdout", "\n"); return -e "$dir/stdout"; } sub is_already_in_joblog { my $job = shift; return vec($Global::job_already_run,$job->seq(),1); } sub set_job_in_joblog { my $job = shift; vec($Global::job_already_run,$job->seq(),1) = 1; } sub should_be_retried { # Should this job be retried? # Returns # 0 - do not retry # 1 - job queued for retry my $self = shift; if (not $opt::retries) { return 0; } if(not $self->exitstatus()) { # Completed with success. If there is a recorded failure: forget it $self->reset_failed_here(); return 0 } else { # The job failed. Should it be retried? $self->add_failed_here(); if($self->total_failed() == $opt::retries) { # This has been retried enough return 0; } else { # This command should be retried $self->set_endtime(undef); $Global::JobQueue->unget($self); ::debug("run", "Retry ", $self->seq(), "\n"); return 1; } } } sub print { # Print the output of the jobs # Returns: N/A my $self = shift; ::debug("print", ">>joboutput ", $self->replaced(), "\n"); if($opt::dryrun) { # Nothing was printed to this job: # cleanup tmp files if --files was set unlink $self->fh(1,"name"); } if($opt::pipe and $self->virgin()) { # Skip --joblog, --dryrun, --verbose } else { if($Global::joblog and defined $self->{'exitstatus'}) { # Add to joblog when finished $self->print_joblog(); } # Printing is only relevant for grouped/--line-buffer output. $opt::ungroup and return; # Check for disk full exit_if_disk_full(); if(($opt::dryrun or $Global::verbose) and not $self->{'verbose_printed'}) { $self->{'verbose_printed'}++; if($Global::verbose <= 1) { print STDOUT $self->replaced(),"\n"; } else { # Verbose level > 1: Print the rsync and stuff print STDOUT $self->wrapped(),"\n"; } # If STDOUT and STDERR are merged, # we want the command to be printed first # so flush to avoid STDOUT being buffered flush STDOUT; } } for my $fdno (sort { $a <=> $b } keys %Global::fd) { # Sort by file descriptor numerically: 1,2,3,..,9,10,11 $fdno == 0 and next; my $out_fd = $Global::fd{$fdno}; my $in_fh = $self->fh($fdno,"r"); if(not $in_fh) { if(not $Job::file_descriptor_warning_printed{$fdno}++) { # ::warning("File descriptor $fdno not defined\n"); } next; } ::debug("print", "File descriptor $fdno (", $self->fh($fdno,"name"), "):"); if($opt::files) { # If --compress: $in_fh must be closed first. close $self->fh($fdno,"w"); close $in_fh; if($opt::pipe and $self->virgin()) { # Nothing was printed to this job: # cleanup unused tmp files if --files was set for my $fdno (1,2) { unlink $self->fh($fdno,"name"); unlink $self->fh($fdno,"unlink"); } } elsif($fdno == 1 and $self->fh($fdno,"name")) { print $out_fd $self->fh($fdno,"name"),"\n"; } } elsif($opt::linebuffer) { # Line buffered print out $self->linebuffer_print($fdno,$in_fh,$out_fd); } else { my $buf; close $self->fh($fdno,"w"); seek $in_fh, 0, 0; # $in_fh is now ready for reading at position 0 if($opt::tag or defined $opt::tagstring) { my $tag = $self->tag(); if($fdno == 2) { # OpenSSH_3.6.1p2 gives 'tcgetattr: Invalid argument' with -tt # This is a crappy way of ignoring it. while(<$in_fh>) { if(/^(client_process_control: )?tcgetattr: Invalid argument\n/) { # Skip } else { print $out_fd $tag,$_; } # At most run the loop once last; } } while(<$in_fh>) { print $out_fd $tag,$_; } } else { my $buf; if($fdno == 2) { # OpenSSH_3.6.1p2 gives 'tcgetattr: Invalid argument' with -tt # This is a crappy way of ignoring it. sysread($in_fh,$buf,1_000); $buf =~ s/^(client_process_control: )?tcgetattr: Invalid argument\n//; print $out_fd $buf; } while(sysread($in_fh,$buf,32768)) { print $out_fd $buf; } } close $in_fh; } flush $out_fd; } ::debug("print", "<{'partial_line',$fdno}; if(defined $self->{'exitstatus'}) { # If the job is dead: close printing fh. Needed for --compress close $self->fh($fdno,"w"); if($opt::compress) { # Blocked reading in final round $Global::use{"Fcntl"} ||= eval "use Fcntl qw(:DEFAULT :flock); 1;"; for my $fdno (1,2) { my $fdr = $self->fh($fdno,'r'); my $flags; fcntl($fdr, &F_GETFL, $flags) || die $!; # Get the current flags on the filehandle $flags &= ~&O_NONBLOCK; # Remove non-blocking to the flags fcntl($fdr, &F_SETFL, $flags) || die $!; # Set the flags on the filehandle } } } # This seek will clear EOF seek $in_fh, tell($in_fh), 0; # The read is non-blocking: The $in_fh is set to non-blocking. # 32768 --tag = 5.1s # 327680 --tag = 4.4s # 1024000 --tag = 4.4s # 3276800 --tag = 4.3s # 32768000 --tag = 4.7s # 10240000 --tag = 4.3s while(read($in_fh,substr($$partial,length $$partial),3276800)) { # Append to $$partial # Find the last \n my $i = rindex($$partial,"\n"); if($i != -1) { # One or more complete lines were found if($fdno == 2 and not $self->{'printed_first_line',$fdno}++) { # OpenSSH_3.6.1p2 gives 'tcgetattr: Invalid argument' with -tt # This is a crappy way of ignoring it. $$partial =~ s/^(client_process_control: )?tcgetattr: Invalid argument\n//; # Length of partial line has changed: Find the last \n again $i = rindex($$partial,"\n"); } if($opt::tag or defined $opt::tagstring) { # Replace ^ with $tag within the full line my $tag = $self->tag(); substr($$partial,0,$i+1) =~ s/^/$tag/gm; # Length of partial line has changed: Find the last \n again $i = rindex($$partial,"\n"); } # Print up to and including the last \n print $out_fd substr($$partial,0,$i+1); # Remove the printed part substr($$partial,0,$i+1)=""; } } if(defined $self->{'exitstatus'}) { # If the job is dead: print the remaining partial line # read remaining if($$partial and ($opt::tag or defined $opt::tagstring)) { my $tag = $self->tag(); $$partial =~ s/^/$tag/gm; } print $out_fd $$partial; # Release the memory $$partial = undef; if($self->fh($fdno,"rpid") and CORE::kill 0, $self->fh($fdno,"rpid")) { # decompress still running } else { # decompress done: close fh close $in_fh; } } } sub print_joblog { my $self = shift; my $cmd; if($Global::verbose <= 1) { $cmd = $self->replaced(); } else { # Verbose level > 1: Print the rsync and stuff $cmd = "@command"; } print $Global::joblog join("\t", $self->seq(), $self->sshlogin()->string(), $self->starttime(), sprintf("%10.3f",$self->runtime()), $self->transfersize(), $self->returnsize(), $self->exitstatus(), $self->exitsignal(), $cmd ). "\n"; flush $Global::joblog; $self->set_job_in_joblog(); } sub tag { my $self = shift; if(not defined $self->{'tag'}) { $self->{'tag'} = $self->{'commandline'}-> replace_placeholders([$opt::tagstring],0,0)."\t"; } return $self->{'tag'}; } sub hostgroups { my $self = shift; if(not defined $self->{'hostgroups'}) { $self->{'hostgroups'} = $self->{'commandline'}->{'arg_list'}[0][0]->{'hostgroups'}; } return @{$self->{'hostgroups'}}; } sub exitstatus { my $self = shift; return $self->{'exitstatus'}; } sub set_exitstatus { my $self = shift; my $exitstatus = shift; if($exitstatus) { # Overwrite status if non-zero $self->{'exitstatus'} = $exitstatus; } else { # Set status but do not overwrite # Status may have been set by --timeout $self->{'exitstatus'} ||= $exitstatus; } } sub exitsignal { my $self = shift; return $self->{'exitsignal'}; } sub set_exitsignal { my $self = shift; my $exitsignal = shift; $self->{'exitsignal'} = $exitsignal; } { my ($disk_full_fh, $b8193, $name); sub exit_if_disk_full { # Checks if $TMPDIR is full by writing 8kb to a tmpfile # If the disk is full: Exit immediately. # Returns: # N/A if(not $disk_full_fh) { ($disk_full_fh, $name) = ::tmpfile(SUFFIX => ".df"); unlink $name; $b8193 = "x"x8193; } # Linux does not discover if a disk is full if writing <= 8192 # Tested on: # bfs btrfs cramfs ext2 ext3 ext4 ext4dev jffs2 jfs minix msdos # ntfs reiserfs tmpfs ubifs vfat xfs # TODO this should be tested on different OS similar to this: # # doit() { # sudo mount /dev/ram0 /mnt/loop; sudo chmod 1777 /mnt/loop # seq 100000 | parallel --tmpdir /mnt/loop/ true & # seq 6900000 > /mnt/loop/i && echo seq OK # seq 6980868 > /mnt/loop/i # seq 10000 > /mnt/loop/ii # sleep 3 # sudo umount /mnt/loop/ || sudo umount -l /mnt/loop/ # echo >&2 # } print $disk_full_fh $b8193; if(not $disk_full_fh or tell $disk_full_fh == 0) { ::error("Output is incomplete. Cannot append to buffer file in $ENV{'TMPDIR'}. Is the disk full?\n"); ::error("Change \$TMPDIR with --tmpdir or use --compress.\n"); ::wait_and_exit(255); } truncate $disk_full_fh, 0; seek($disk_full_fh, 0, 0) || die; } } package CommandLine; sub new { my $class = shift; my $seq = shift; my $commandref = shift; $commandref || die; my $arg_queue = shift; my $context_replace = shift; my $max_number_of_args = shift; # for -N and normal (-n1) my $return_files = shift; my $replacecount_ref = shift; my $len_ref = shift; my %replacecount = %$replacecount_ref; my %len = %$len_ref; for (keys %$replacecount_ref) { # Total length of this replacement string {} replaced with all args $len{$_} = 0; } return bless { 'command' => $commandref, 'seq' => $seq, 'len' => \%len, 'arg_list' => [], 'arg_queue' => $arg_queue, 'max_number_of_args' => $max_number_of_args, 'replacecount' => \%replacecount, 'context_replace' => $context_replace, 'return_files' => $return_files, 'replaced' => undef, }, ref($class) || $class; } sub seq { my $self = shift; return $self->{'seq'}; } { my $max_slot_number; sub slot { # Find the number of a free job slot and return it # Uses: # @Global::slots # Returns: # $jobslot = number of jobslot my $self = shift; if(not $self->{'slot'}) { if(not @Global::slots) { # $Global::max_slot_number will typically be $Global::max_jobs_running push @Global::slots, ++$max_slot_number; } $self->{'slot'} = shift @Global::slots; } return $self->{'slot'}; } } sub populate { # Add arguments from arg_queue until the number of arguments or # max line length is reached # Uses: # $Global::minimal_command_line_length # $opt::cat # $opt::fifo # $Global::JobQueue # $opt::m # $opt::X # $CommandLine::already_spread # $Global::max_jobs_running # Returns: N/A my $self = shift; my $next_arg; my $max_len = $Global::minimal_command_line_length || Limits::Command::max_length(); if($opt::cat or $opt::fifo) { # Generate a tempfile name that will be used as {} my($outfh,$name) = ::tmpfile(SUFFIX => ".pip"); close $outfh; # Unlink is needed if: ssh otheruser@localhost unlink $name; $Global::JobQueue->{'commandlinequeue'}->{'arg_queue'}->unget([Arg->new($name)]); } while (not $self->{'arg_queue'}->empty()) { $next_arg = $self->{'arg_queue'}->get(); if(not defined $next_arg) { next; } $self->push($next_arg); if($self->len() >= $max_len) { # Command length is now > max_length # If there are arguments: remove the last # If there are no arguments: Error # TODO stuff about -x opt_x if($self->number_of_args() > 1) { # There is something to work on $self->{'arg_queue'}->unget($self->pop()); last; } else { my $args = join(" ", map { $_->orig() } @$next_arg); ::error("Command line too long (", $self->len(), " >= ", $max_len, ") at number ", $self->{'arg_queue'}->arg_number(), ": ". (substr($args,0,50))."...\n"); $self->{'arg_queue'}->unget($self->pop()); ::wait_and_exit(255); } } if(defined $self->{'max_number_of_args'}) { if($self->number_of_args() >= $self->{'max_number_of_args'}) { last; } } } if(($opt::m or $opt::X) and not $CommandLine::already_spread and $self->{'arg_queue'}->empty() and $Global::max_jobs_running) { # -m or -X and EOF => Spread the arguments over all jobslots # (unless they are already spread) $CommandLine::already_spread ||= 1; if($self->number_of_args() > 1) { $self->{'max_number_of_args'} = ::ceil($self->number_of_args()/$Global::max_jobs_running); $Global::JobQueue->{'commandlinequeue'}->{'max_number_of_args'} = $self->{'max_number_of_args'}; $self->{'arg_queue'}->unget($self->pop_all()); while($self->number_of_args() < $self->{'max_number_of_args'}) { $self->push($self->{'arg_queue'}->get()); } } } } sub push { # Add one or more records as arguments # Returns: N/A my $self = shift; my $record = shift; push @{$self->{'arg_list'}}, $record; my $quote_arg = $Global::noquote ? 0 : not $Global::quoting; my $rep; for my $arg (@$record) { if(defined $arg) { for my $perlexpr (keys %{$self->{'replacecount'}}) { # 50% faster than below $self->{'len'}{$perlexpr} += length $arg->replace($perlexpr,$quote_arg,$self); # $rep = $arg->replace($perlexpr,$quote_arg,$self); # $self->{'len'}{$perlexpr} += length $rep; # ::debug("length", "Length: ", length $rep, # "(", $perlexpr, "=>", $rep, ")\n"); } } } } sub pop { # Remove last argument # Returns: # the last record my $self = shift; my $record = pop @{$self->{'arg_list'}}; my $quote_arg = $Global::noquote ? 0 : not $Global::quoting; for my $arg (@$record) { if(defined $arg) { for my $perlexpr (keys %{$self->{'replacecount'}}) { $self->{'len'}{$perlexpr} -= length $arg->replace($perlexpr,$quote_arg,$self); } } } return $record; } sub pop_all { # Remove all arguments and zeros the length of replacement strings # Returns: # all records my $self = shift; my @popped = @{$self->{'arg_list'}}; for my $replacement_string (keys %{$self->{'replacecount'}}) { $self->{'len'}{$replacement_string} = 0; } $self->{'arg_list'} = []; return @popped; } sub number_of_args { # The number of records # Returns: # number of records my $self = shift; # Ftq rudef oaawuq ime dqxqmeqp az 2011-01-24 mzp ime iaz nk MQhmd # Mdzrvadp Nvmdymeaz az 2011-04-10. Ftue oaawuq dqxqmeqp az # 2013-08-18 ue m nuf tmdpqd me kag tmhq fa geq daf14. Bxqmeq # qymux oaawuq@fmzsq.pw itqz kag dqmp ftue. # # U my ftq ymuzfmuzqd ar m buqoq ar rdqq earfimdq omxxqp SZG # Bmdmxxqx. Rdqq earfimdq sgmdmzfqqe kag mooqee fa ftq eagdoq # oapq, ngf U tmhq nqqz iazpqduzs tai ymzk mofgmxxk _dqmp_ ftq # eagdoq oapq. # # Fa fqef ftue U bgf uz m oayyqzf fqxxuzs bqabxq fa qymux yq itqz # ftqk dqmp ftue. Ftq oayyqzf ime bgf uz m eqofuaz ar ftq oapq # ftmf za azq iagxp xaaw fa ruj ad uybdahq ftq earfimdq - ea ftq # eagdoq oapq qcguhmxqzf fa m pgefk oadzqd. Fa ymwq egdq ftq # oayyqzf iagxp zaf etai gb ur eayq azq vgef sdqbbqp ftdagst ftq # eagdoq oapq U daf13'qp ftq eagdoq oapq # tffb://qz.iuwubqpum.ads/iuwu/DAF13 # # 2.5 yazfte xmfqd U dqoquhqp mz qymux rday eayqazq ita zaf azxk # ymzmsqp fa ruzp ftq oayyqzf, ngf mxea ymzmsqp fa sgqee ftq oapq # tmp fa nq daf13'qp. # # Ftue nduzse yq fa ftq oazoxgeuaz ftmf ftqdq _mdq_ bqabxq, ita # mdq zaf mrruxumfqp iuft ftq bdavqof, ftmf iuxx dqmp ftq eagdoq # oapq - ftagst uf ymk zaf tmbbqz hqdk arfqz. # # This is really the number of records return $#{$self->{'arg_list'}}+1; } sub number_of_recargs { # The number of args in records # Returns: # number of args records my $self = shift; my $sum = 0; my $nrec = scalar @{$self->{'arg_list'}}; if($nrec) { $sum = $nrec * (scalar @{$self->{'arg_list'}[0]}); } return $sum; } sub args_as_string { # Returns: # all unmodified arguments joined with ' ' (similar to {}) my $self = shift; return (join " ", map { $_->orig() } map { @$_ } @{$self->{'arg_list'}}); } sub args_as_dirname { # Returns: # all unmodified arguments joined with '/' (similar to {}) # \t \0 \\ and / are quoted as: \t \0 \\ \_ # If $Global::max_file_length: Keep subdirs < $Global::max_file_length my $self = shift; my @res = (); for my $rec_ref (@{$self->{'arg_list'}}) { # If headers are used, sort by them. # Otherwise keep the order from the command line. my @header_indexes_sorted = header_indexes_sorted($#$rec_ref+1); for my $n (@header_indexes_sorted) { CORE::push(@res, $Global::input_source_header{$n}, map { my $s = $_; # \t \0 \\ and / are quoted as: \t \0 \\ \_ $s =~ s/\\/\\\\/g; $s =~ s/\t/\\t/g; $s =~ s/\0/\\0/g; $s =~ s:/:\\_:g; if($Global::max_file_length) { # Keep each subdir shorter than the longest # allowed file name $s = substr($s,0,$Global::max_file_length); } $s; } $rec_ref->[$n-1]->orig()); } } return join "/", @res; } sub header_indexes_sorted { # Sort headers first by number then by name. # E.g.: 1a 1b 11a 11b # Returns: # Indexes of %Global::input_source_header sorted my $max_col = shift; no warnings 'numeric'; for my $col (1 .. $max_col) { # Make sure the header is defined. If it is not: use column number if(not defined $Global::input_source_header{$col}) { $Global::input_source_header{$col} = $col; } } my @header_indexes_sorted = sort { # Sort headers numerically then asciibetically $Global::input_source_header{$a} <=> $Global::input_source_header{$b} or $Global::input_source_header{$a} cmp $Global::input_source_header{$b} } 1 .. $max_col; return @header_indexes_sorted; } sub len { # Uses: # $opt::shellquote # The length of the command line with args substituted my $self = shift; my $len = 0; # Add length of the original command with no args # Length of command w/ all replacement args removed $len += $self->{'len'}{'noncontext'} + @{$self->{'command'}} -1; ::debug("length", "noncontext + command: $len\n"); my $recargs = $self->number_of_recargs(); if($self->{'context_replace'}) { # Context is duplicated for each arg $len += $recargs * $self->{'len'}{'context'}; for my $replstring (keys %{$self->{'replacecount'}}) { # If the replacements string is more than once: mulitply its length $len += $self->{'len'}{$replstring} * $self->{'replacecount'}{$replstring}; ::debug("length", $replstring, " ", $self->{'len'}{$replstring}, "*", $self->{'replacecount'}{$replstring}, "\n"); } # echo 11 22 33 44 55 66 77 88 99 1010 # echo 1 2 3 4 5 6 7 8 9 10 1 2 3 4 5 6 7 8 9 10 # 5 + ctxgrp*arg ::debug("length", "Ctxgrp: ", $self->{'len'}{'contextgroups'}, " Groups: ", $self->{'len'}{'noncontextgroups'}, "\n"); # Add space between context groups $len += ($recargs-1) * ($self->{'len'}{'contextgroups'}); } else { # Each replacement string may occur several times # Add the length for each time $len += 1*$self->{'len'}{'context'}; ::debug("length", "context+noncontext + command: $len\n"); for my $replstring (keys %{$self->{'replacecount'}}) { # (space between regargs + length of replacement) # * number this replacement is used $len += ($recargs -1 + $self->{'len'}{$replstring}) * $self->{'replacecount'}{$replstring}; } } if($opt::nice) { # Pessimistic length if --nice is set # Worse than worst case: every char needs to be quoted with \ $len *= 2; } if($Global::quoting) { # Pessimistic length if -q is set # Worse than worst case: every char needs to be quoted with \ $len *= 2; } if($opt::shellquote) { # Pessimistic length if --shellquote is set # Worse than worst case: every char needs to be quoted with \ twice $len *= 4; } # If we are using --env, add the prefix for that, too. $len += $Global::envvarlen; return $len; } sub replaced { # Uses: # $Global::noquote # $Global::quoting # Returns: # $replaced = command with place holders replaced and prepended my $self = shift; if(not defined $self->{'replaced'}) { # Don't quote arguments if the input is the full command line my $quote_arg = $Global::noquote ? 0 : not $Global::quoting; $self->{'replaced'} = $self->replace_placeholders($self->{'command'},$Global::quoting,$quote_arg); my $len = length $self->{'replaced'}; if ($len != $self->len()) { ::debug("length", $len, " != ", $self->len(), " ", $self->{'replaced'}, "\n"); } else { ::debug("length", $len, " == ", $self->len(), " ", $self->{'replaced'}, "\n"); } } return $self->{'replaced'}; } sub replace_placeholders { # Replace foo{}bar with fooargbar # Input: # $targetref = command as shell words # $quote = should everything be quoted? # $quote_arg = should replaced arguments be quoted? # Returns: # @target with placeholders replaced my $self = shift; my $targetref = shift; my $quote = shift; my $quote_arg = shift; my $context_replace = $self->{'context_replace'}; my @target = @$targetref; ::debug("replace", "Replace @target\n"); # -X = context replace # maybe multiple input sources # maybe --xapply if(not @target) { # @target is empty: Return empty array return @target; } # Fish out the words that have replacement strings in them my %word; for (@target) { my $tt = $_; ::debug("replace", "Target: $tt"); # a{1}b{}c{}d # a{=1 $_=$_ =}b{= $_=$_ =}c{= $_=$_ =}d # a\257<1 $_=$_ \257>b\257< $_=$_ \257>c\257< $_=$_ \257>d # A B C => aAbA B CcA B Cd # -X A B C => aAbAcAd aAbBcBd aAbCcCd if($context_replace) { while($tt =~ s/([^\s\257]* # before {= (?: \257< # {= [^\257]*? # The perl expression \257> # =} [^\s\257]* # after =} )+)/ /x) { # $1 = pre \257 perlexpr \257 post $word{"$1"} ||= 1; } } else { while($tt =~ s/( (?: \257<([^\257]*?)\257>) )//x) { # $f = \257 perlexpr \257 $word{$1} ||= 1; } } } my @word = keys %word; my %replace; my @arg; for my $record (@{$self->{'arg_list'}}) { # $self->{'arg_list'} = [ [Arg11, Arg12], [Arg21, Arg22], [Arg31, Arg32] ] # Merge arg-objects from records into @arg for easy access CORE::push @arg, @$record; } # Add one arg if empty to allow {#} and {%} to be computed only once if(not @arg) { @arg = (Arg->new("")); } # Number of arguments - used for positional arguments my $n = $#_+1; # This is actually a CommandLine-object, # but it looks nice to be able to say {= $job->slot() =} my $job = $self; for my $word (@word) { # word = AB \257< perlexpr \257> CD \257< perlexpr \257> EF my $w = $word; ::debug("replace", "Replacing in $w\n"); # Replace positional arguments $w =~ s< ([^\s\257]*) # before {= \257< # {= (-?\d+) # Position (eg. -2 or 3) ([^\257]*?) # The perl expression \257> # =} ([^\s\257]*) # after =} > { $1. # Context (pre) ( $arg[$2 > 0 ? $2-1 : $n+$2] ? # If defined: replace $arg[$2 > 0 ? $2-1 : $n+$2]->replace($3,$quote_arg,$self) : "") .$4 }egx;# Context (post) ::debug("replace", "Positional replaced $word with: $w\n"); if($w !~ /\257/) { # No more replacement strings in $w: No need to do more if($quote) { CORE::push(@{$replace{::shell_quote($word)}}, $w); } else { CORE::push(@{$replace{$word}}, $w); } next; } # for each arg: # compute replacement for each string # replace replacement strings with replacement in the word value # push to replace word value ::debug("replace", "Positional done: $w\n"); for my $arg (@arg) { my $val = $w; my $number_of_replacements = 0; for my $perlexpr (keys %{$self->{'replacecount'}}) { # Replace {= perl expr =} with value for each arg $number_of_replacements += $val =~ s{\257<\Q$perlexpr\E\257>} {$arg ? $arg->replace($perlexpr,$quote_arg,$self) : ""}eg; } my $ww = $word; if($quote) { $ww = ::shell_quote_scalar($word); $val = ::shell_quote_scalar($val); } if($number_of_replacements) { CORE::push(@{$replace{$ww}}, $val); } } } if($quote) { @target = ::shell_quote(@target); } # ::debug("replace", "%replace=",::my_dump(%replace),"\n"); if(%replace) { # Substitute the replace strings with the replacement values # Must be sorted by length if a short word is a substring of a long word my $regexp = join('|', map { my $s = $_; $s =~ s/(\W)/\\$1/g; $s } sort { length $b <=> length $a } keys %replace); for(@target) { s/($regexp)/join(" ",@{$replace{$1}})/ge; } } ::debug("replace", "Return @target\n"); return wantarray ? @target : "@target"; } package CommandLineQueue; sub new { my $class = shift; my $commandref = shift; my $read_from = shift; my $context_replace = shift; my $max_number_of_args = shift; my $return_files = shift; my @unget = (); my ($count,%replacecount,$posrpl,$perlexpr,%len); my @command = @$commandref; # If the first command start with '-' it is probably an option if($command[0] =~ /^\s*(-\S+)/) { # Is this really a command in $PATH starting with '-'? my $cmd = $1; if(not ::which($cmd)) { ::error("Command ($cmd) starts with '-'. Is this a wrong option?\n"); ::wait_and_exit(255); } } # Replace replacement strings with {= perl expr =} # Protect matching inside {= perl expr =} # by replacing {= and =} with \257< and \257> for(@command) { if(/\257/) { ::error("Command cannot contain the character \257. Use a function for that.\n"); ::wait_and_exit(255); } s/\Q$Global::parensleft\E(.*?)\Q$Global::parensright\E/\257<$1\257>/gx; } for my $rpl (keys %Global::rpl) { # Replace the short hand string with the {= perl expr =} in $command and $opt::tagstring # Avoid replacing inside existing {= perl expr =} for(@command,@Global::ret_files) { while(s/((^|\257>)[^\257]*?) # Don't replace after \257 unless \257> \Q$rpl\E/$1\257<$Global::rpl{$rpl}\257>/xg) { } } if(defined $opt::tagstring) { for($opt::tagstring) { while(s/((^|\257>)[^\257]*?) # Don't replace after \257 unless \257> \Q$rpl\E/$1\257<$Global::rpl{$rpl}\257>/x) {} } } # Do the same for the positional replacement strings # A bit harder as we have to put in the position number $posrpl = $rpl; if($posrpl =~ s/^\{//) { # Only do this if the shorthand start with { for(@command,@Global::ret_files) { s/\{(-?\d+)\Q$posrpl\E/\257<$1 $Global::rpl{$rpl}\257>/g; } if(defined $opt::tagstring) { $opt::tagstring =~ s/\{(-?\d+)\Q$posrpl\E/\257<$1 $perlexpr\257>/g; } } } my $sum = 0; while($sum == 0) { # Count how many times each replacement string is used my @cmd = @command; my $contextlen = 0; my $noncontextlen = 0; my $contextgroups = 0; for my $c (@cmd) { while($c =~ s/ \257<([^\257]*?)\257> /\000/x) { # %replacecount = { "perlexpr" => number of times seen } # e.g { "$_++" => 2 } $replacecount{$1} ++; $sum++; } # Measure the length of the context around the {= perl expr =} # Use that {=...=} has been replaced with \000 above # So there is no need to deal with \257< while($c =~ s/ (\S*\000\S*) //x) { my $w = $1; $w =~ tr/\000//d; # Remove all \000's $contextlen += length($w); $contextgroups++; } # All {= perl expr =} have been removed: The rest is non-context $noncontextlen += length $c; } if($opt::tagstring) { my $t = $opt::tagstring; while($t =~ s/ \257<([^\257]*)\257> //x) { # %replacecount = { "perlexpr" => number of times seen } # e.g { "$_++" => 2 } # But for tagstring we just need to mark it as seen $replacecount{$1}||=1; } } $len{'context'} = 0+$contextlen; $len{'noncontext'} = $noncontextlen; $len{'contextgroups'} = $contextgroups; $len{'noncontextgroups'} = @cmd-$contextgroups; ::debug("length", "@command Context: ", $len{'context'}, " Non: ", $len{'noncontext'}, " Ctxgrp: ", $len{'contextgroups'}, " NonCtxGrp: ", $len{'noncontextgroups'}, "\n"); if($sum == 0) { # Default command = {} # If not replacement string: append {} if(not @command) { @command = ("\257<\257>"); $Global::noquote = 1; } elsif(($opt::pipe or $opt::pipepart) and not $opt::fifo and not $opt::cat) { # With --pipe / --pipe-part you can have no replacement last; } else { # Append {} to the command if there are no {...}'s and no {=...=} push @command, ("\257<\257>"); } } } return bless { 'unget' => \@unget, 'command' => \@command, 'replacecount' => \%replacecount, 'arg_queue' => RecordQueue->new($read_from,$opt::colsep), 'context_replace' => $context_replace, 'len' => \%len, 'max_number_of_args' => $max_number_of_args, 'size' => undef, 'return_files' => $return_files, 'seq' => 1, }, ref($class) || $class; } sub get { my $self = shift; if(@{$self->{'unget'}}) { my $cmd_line = shift @{$self->{'unget'}}; return ($cmd_line); } else { my $cmd_line; $cmd_line = CommandLine->new($self->seq(), $self->{'command'}, $self->{'arg_queue'}, $self->{'context_replace'}, $self->{'max_number_of_args'}, $self->{'return_files'}, $self->{'replacecount'}, $self->{'len'}, ); $cmd_line->populate(); ::debug("init","cmd_line->number_of_args ", $cmd_line->number_of_args(), "\n"); if($opt::pipe or $opt::pipepart) { if($cmd_line->replaced() eq "") { # Empty command - pipe requires a command ::error("--pipe must have a command to pipe into (e.g. 'cat').\n"); ::wait_and_exit(255); } } else { if($cmd_line->number_of_args() == 0) { # We did not get more args - maybe at EOF string? return undef; } elsif($cmd_line->replaced() eq "") { # Empty command - get the next instead return $self->get(); } } $self->set_seq($self->seq()+1); return $cmd_line; } } sub unget { my $self = shift; unshift @{$self->{'unget'}}, @_; } sub empty { my $self = shift; my $empty = (not @{$self->{'unget'}}) && $self->{'arg_queue'}->empty(); ::debug("run", "CommandLineQueue->empty $empty"); return $empty; } sub seq { my $self = shift; return $self->{'seq'}; } sub set_seq { my $self = shift; $self->{'seq'} = shift; } sub quote_args { my $self = shift; # If there is not command emulate |bash return $self->{'command'}; } sub size { my $self = shift; if(not $self->{'size'}) { my @all_lines = (); while(not $self->{'arg_queue'}->empty()) { push @all_lines, CommandLine->new($self->{'command'}, $self->{'arg_queue'}, $self->{'context_replace'}, $self->{'max_number_of_args'}); } $self->{'size'} = @all_lines; $self->unget(@all_lines); } return $self->{'size'}; } package Limits::Command; # Maximal command line length (for -m and -X) sub max_length { # Find the max_length of a command line and cache it # Returns: # number of chars on the longest command line allowed if(not $Limits::Command::line_max_len) { # Disk cache of max command line length my $len_cache = $ENV{'HOME'} . "/.parallel/tmp/linelen-" . ::hostname(); my $cached_limit; if(-e $len_cache) { open(my $fh, "<", $len_cache) || ::die_bug("Cannot read $len_cache"); $cached_limit = <$fh>; close $fh; } else { $cached_limit = real_max_length(); # If $HOME is write protected: Do not fail mkdir($ENV{'HOME'} . "/.parallel"); mkdir($ENV{'HOME'} . "/.parallel/tmp"); open(my $fh, ">", $len_cache); print $fh $cached_limit; close $fh; } $Limits::Command::line_max_len = $cached_limit; if($opt::max_chars) { if($opt::max_chars <= $cached_limit) { $Limits::Command::line_max_len = $opt::max_chars; } else { ::warning("Value for -s option ", "should be < $cached_limit.\n"); } } } return $Limits::Command::line_max_len; } sub real_max_length { # Find the max_length of a command line # Returns: # The maximal command line length # Use an upper bound of 8 MB if the shell allows for for infinite long lengths my $upper = 8_000_000; my $len = 8; do { if($len > $upper) { return $len }; $len *= 16; } while (is_acceptable_command_line_length($len)); # Then search for the actual max length between 0 and upper bound return binary_find_max_length(int($len/16),$len); } sub binary_find_max_length { # Given a lower and upper bound find the max_length of a command line # Returns: # number of chars on the longest command line allowed my ($lower, $upper) = (@_); if($lower == $upper or $lower == $upper-1) { return $lower; } my $middle = int (($upper-$lower)/2 + $lower); ::debug("init", "Maxlen: $lower,$upper,$middle : "); if (is_acceptable_command_line_length($middle)) { return binary_find_max_length($middle,$upper); } else { return binary_find_max_length($lower,$middle); } } sub is_acceptable_command_line_length { # Test if a command line of this length can run # Returns: # 0 if the command line length is too long # 1 otherwise my $len = shift; local *STDERR; open (STDERR, ">", "/dev/null"); system "true "."x"x$len; close STDERR; ::debug("init", "$len=$? "); return not $?; } package RecordQueue; sub new { my $class = shift; my $fhs = shift; my $colsep = shift; my @unget = (); my $arg_sub_queue; if($colsep) { # Open one file with colsep $arg_sub_queue = RecordColQueue->new($fhs); } else { # Open one or more files if multiple -a $arg_sub_queue = MultifileQueue->new($fhs); } return bless { 'unget' => \@unget, 'arg_number' => 0, 'arg_sub_queue' => $arg_sub_queue, }, ref($class) || $class; } sub get { # Returns: # reference to array of Arg-objects my $self = shift; if(@{$self->{'unget'}}) { $self->{'arg_number'}++; return shift @{$self->{'unget'}}; } my $ret = $self->{'arg_sub_queue'}->get(); if(defined $Global::max_number_of_args and $Global::max_number_of_args == 0) { ::debug("run", "Read 1 but return 0 args\n"); return [Arg->new("")]; } else { return $ret; } } sub unget { my $self = shift; ::debug("run", "RecordQueue-unget '@_'\n"); $self->{'arg_number'} -= @_; unshift @{$self->{'unget'}}, @_; } sub empty { my $self = shift; my $empty = not @{$self->{'unget'}}; $empty &&= $self->{'arg_sub_queue'}->empty(); ::debug("run", "RecordQueue->empty $empty"); return $empty; } sub arg_number { my $self = shift; return $self->{'arg_number'}; } package RecordColQueue; sub new { my $class = shift; my $fhs = shift; my @unget = (); my $arg_sub_queue = MultifileQueue->new($fhs); return bless { 'unget' => \@unget, 'arg_sub_queue' => $arg_sub_queue, }, ref($class) || $class; } sub get { # Returns: # reference to array of Arg-objects my $self = shift; if(@{$self->{'unget'}}) { return shift @{$self->{'unget'}}; } my $unget_ref=$self->{'unget'}; if($self->{'arg_sub_queue'}->empty()) { return undef; } my $in_record = $self->{'arg_sub_queue'}->get(); if(defined $in_record) { my @out_record = (); for my $arg (@$in_record) { ::debug("run", "RecordColQueue::arg $arg\n"); my $line = $arg->orig(); ::debug("run", "line='$line'\n"); if($line ne "") { for my $s (split /$opt::colsep/o, $line, -1) { push @out_record, Arg->new($s); } } else { push @out_record, Arg->new(""); } } return \@out_record; } else { return undef; } } sub unget { my $self = shift; ::debug("run", "RecordColQueue-unget '@_'\n"); unshift @{$self->{'unget'}}, @_; } sub empty { my $self = shift; my $empty = (not @{$self->{'unget'}} and $self->{'arg_sub_queue'}->empty()); ::debug("run", "RecordColQueue->empty $empty"); return $empty; } package MultifileQueue; @Global::unget_argv=(); sub new { my $class = shift; my $fhs = shift; for my $fh (@$fhs) { if(-t $fh) { ::warning("Input is read from the terminal. ". "Only experts do this on purpose. ". "Press CTRL-D to exit.\n"); } } return bless { 'unget' => \@Global::unget_argv, 'fhs' => $fhs, 'arg_matrix' => undef, }, ref($class) || $class; } sub get { my $self = shift; if($opt::xapply) { return $self->xapply_get(); } else { return $self->nest_get(); } } sub unget { my $self = shift; ::debug("run", "MultifileQueue-unget '@_'\n"); unshift @{$self->{'unget'}}, @_; } sub empty { my $self = shift; my $empty = (not @Global::unget_argv and not @{$self->{'unget'}}); for my $fh (@{$self->{'fhs'}}) { $empty &&= eof($fh); } ::debug("run", "MultifileQueue->empty $empty "); return $empty; } sub xapply_get { my $self = shift; if(@{$self->{'unget'}}) { return shift @{$self->{'unget'}}; } my @record = (); my $prepend = undef; my $empty = 1; for my $fh (@{$self->{'fhs'}}) { my $arg = read_arg_from_fh($fh); if(defined $arg) { # Record $arg for recycling at end of file push @{$self->{'arg_matrix'}{$fh}}, $arg; push @record, $arg; $empty = 0; } else { ::debug("run", "EOA "); # End of file: Recycle arguments push @{$self->{'arg_matrix'}{$fh}}, shift @{$self->{'arg_matrix'}{$fh}}; # return last @{$args->{'args'}{$fh}}; push @record, @{$self->{'arg_matrix'}{$fh}}[-1]; } } if($empty) { return undef; } else { return \@record; } } sub nest_get { my $self = shift; if(@{$self->{'unget'}}) { return shift @{$self->{'unget'}}; } my @record = (); my $prepend = undef; my $empty = 1; my $no_of_inputsources = $#{$self->{'fhs'}} + 1; if(not $self->{'arg_matrix'}) { # Initialize @arg_matrix with one arg from each file # read one line from each file my @first_arg_set; my $all_empty = 1; for (my $fhno = 0; $fhno < $no_of_inputsources ; $fhno++) { my $arg = read_arg_from_fh($self->{'fhs'}[$fhno]); if(defined $arg) { $all_empty = 0; } $self->{'arg_matrix'}[$fhno][0] = $arg || Arg->new(""); push @first_arg_set, $self->{'arg_matrix'}[$fhno][0]; } if($all_empty) { # All filehandles were at eof or eof-string return undef; } return [@first_arg_set]; } # Treat the case with one input source special. For multiple # input sources we need to remember all previously read values to # generate all combinations. But for one input source we can # forget the value after first use. if($no_of_inputsources == 1) { my $arg = read_arg_from_fh($self->{'fhs'}[0]); if(defined($arg)) { return [$arg]; } return undef; } for (my $fhno = $no_of_inputsources - 1; $fhno >= 0; $fhno--) { if(eof($self->{'fhs'}[$fhno])) { next; } else { # read one my $arg = read_arg_from_fh($self->{'fhs'}[$fhno]); defined($arg) || next; # If we just read an EOF string: Treat this as EOF my $len = $#{$self->{'arg_matrix'}[$fhno]} + 1; $self->{'arg_matrix'}[$fhno][$len] = $arg; # make all new combinations my @combarg = (); for (my $fhn = 0; $fhn < $no_of_inputsources; $fhn++) { push @combarg, [0, $#{$self->{'arg_matrix'}[$fhn]}]; } $combarg[$fhno] = [$len,$len]; # Find only combinations with this new entry # map combinations # [ 1, 3, 7 ], [ 2, 4, 1 ] # => # [ m[0][1], m[1][3], m[3][7] ], [ m[0][2], m[1][4], m[2][1] ] my @mapped; for my $c (expand_combinations(@combarg)) { my @a; for my $n (0 .. $no_of_inputsources - 1 ) { push @a, $self->{'arg_matrix'}[$n][$$c[$n]]; } push @mapped, \@a; } # append the mapped to the ungotten arguments push @{$self->{'unget'}}, @mapped; # get the first return shift @{$self->{'unget'}}; } } # all are eof or at EOF string; return from the unget queue return shift @{$self->{'unget'}}; } sub read_arg_from_fh { # Read one Arg from filehandle # Returns: # Arg-object with one read line # undef if end of file my $fh = shift; my $prepend = undef; my $arg; do {{ # This makes 10% faster if(not ($arg = <$fh>)) { if(defined $prepend) { return Arg->new($prepend); } else { return undef; } } # ::debug("run", "read $arg\n"); # Remove delimiter $arg =~ s:$/$::; if($Global::end_of_file_string and $arg eq $Global::end_of_file_string) { # Ignore the rest of input file close $fh; ::debug("run", "EOF-string ($arg) met\n"); if(defined $prepend) { return Arg->new($prepend); } else { return undef; } } if(defined $prepend) { $arg = $prepend.$arg; # For line continuation $prepend = undef; #undef; } if($Global::ignore_empty) { if($arg =~ /^\s*$/) { redo; # Try the next line } } if($Global::max_lines) { if($arg =~ /\s$/) { # Trailing space => continued on next line $prepend = $arg; redo; } } }} while (1 == 0); # Dummy loop {{}} for redo if(defined $arg) { return Arg->new($arg); } else { ::die_bug("multiread arg undefined"); } } sub expand_combinations { # Input: # ([xmin,xmax], [ymin,ymax], ...) # Returns: ([x,y,...],[x,y,...]) # where xmin <= x <= xmax and ymin <= y <= ymax my $minmax_ref = shift; my $xmin = $$minmax_ref[0]; my $xmax = $$minmax_ref[1]; my @p; if(@_) { # If there are more columns: Compute those recursively my @rest = expand_combinations(@_); for(my $x = $xmin; $x <= $xmax; $x++) { push @p, map { [$x, @$_] } @rest; } } else { for(my $x = $xmin; $x <= $xmax; $x++) { push @p, [$x]; } } return @p; } package Arg; sub new { my $class = shift; my $orig = shift; my @hostgroups; if($opt::hostgroups) { if($orig =~ s:@(.+)::) { # We found hostgroups on the arg @hostgroups = split(/\+/, $1); if(not grep { defined $Global::hostgroups{$_} } @hostgroups) { ::warning("No such hostgroup (@hostgroups)\n"); @hostgroups = (keys %Global::hostgroups); } } else { @hostgroups = (keys %Global::hostgroups); } } return bless { 'orig' => $orig, 'hostgroups' => \@hostgroups, }, ref($class) || $class; } sub replace { # Calculates the corresponding value for a given perl expression # Returns: # The calculated string (quoted if asked for) my $self = shift; my $perlexpr = shift; # E.g. $_=$_ or s/.gz// my $quote = (shift) ? 1 : 0; # should the string be quoted? # This is actually a CommandLine-object, # but it looks nice to be able to say {= $job->slot() =} my $job = shift; $perlexpr =~ s/^-?\d+ //; # Positional replace treated as normal replace if(not defined $self->{"rpl",0,$perlexpr}) { local $_; if($Global::trim eq "n") { $_ = $self->{'orig'}; } else { $_ = trim_of($self->{'orig'}); } ::debug("replace", "eval ", $perlexpr, " ", $_, "\n"); if(not $Global::perleval{$perlexpr}) { # Make an anonymous function of the $perlexpr # And more importantly: Compile it only once if($Global::perleval{$perlexpr} = eval('sub { no strict; no warnings; my $job = shift; '. $perlexpr.' }')) { # All is good } else { # The eval failed. Maybe $perlexpr is invalid perl? ::error("Cannot use $perlexpr: $@\n"); ::wait_and_exit(255); } } # Execute the function $Global::perleval{$perlexpr}->($job); $self->{"rpl",0,$perlexpr} = $_; } if(not defined $self->{"rpl",$quote,$perlexpr}) { $self->{"rpl",1,$perlexpr} = ::shell_quote_scalar($self->{"rpl",0,$perlexpr}); } return $self->{"rpl",$quote,$perlexpr}; } sub orig { my $self = shift; return $self->{'orig'}; } sub trim_of { # Removes white space as specifed by --trim: # n = nothing # l = start # r = end # lr|rl = both # Returns: # string with white space removed as needed my @strings = map { defined $_ ? $_ : "" } (@_); my $arg; if($Global::trim eq "n") { # skip } elsif($Global::trim eq "l") { for my $arg (@strings) { $arg =~ s/^\s+//; } } elsif($Global::trim eq "r") { for my $arg (@strings) { $arg =~ s/\s+$//; } } elsif($Global::trim eq "rl" or $Global::trim eq "lr") { for my $arg (@strings) { $arg =~ s/^\s+//; $arg =~ s/\s+$//; } } else { ::error("--trim must be one of: r l rl lr.\n"); ::wait_and_exit(255); } return wantarray ? @strings : "@strings"; } package TimeoutQueue; sub new { my $class = shift; my $delta_time = shift; my ($pct); if($delta_time =~ /(\d+(\.\d+)?)%/) { # Timeout in percent $pct = $1/100; $delta_time = 1_000_000; } return bless { 'queue' => [], 'delta_time' => $delta_time, 'pct' => $pct, 'remedian_idx' => 0, 'remedian_arr' => [], 'remedian' => undef, }, ref($class) || $class; } sub delta_time { my $self = shift; return $self->{'delta_time'}; } sub set_delta_time { my $self = shift; $self->{'delta_time'} = shift; } sub remedian { my $self = shift; return $self->{'remedian'}; } sub set_remedian { # Set median of the last 999^3 (=997002999) values using Remedian # # Rousseeuw, Peter J., and Gilbert W. Bassett Jr. "The remedian: A # robust averaging method for large data sets." Journal of the # American Statistical Association 85.409 (1990): 97-104. my $self = shift; my $val = shift; my $i = $self->{'remedian_idx'}++; my $rref = $self->{'remedian_arr'}; $rref->[0][$i%999] = $val; $rref->[1][$i/999%999] = (sort @{$rref->[0]})[$#{$rref->[0]}/2]; $rref->[2][$i/999/999%999] = (sort @{$rref->[1]})[$#{$rref->[1]}/2]; $self->{'remedian'} = (sort @{$rref->[2]})[$#{$rref->[2]}/2]; } sub update_delta_time { # Update delta_time based on runtime of finished job if timeout is # a percentage my $self = shift; my $runtime = shift; if($self->{'pct'}) { $self->set_remedian($runtime); $self->{'delta_time'} = $self->{'pct'} * $self->remedian(); ::debug("run", "Timeout: $self->{'delta_time'}s "); } } sub process_timeouts { # Check if there was a timeout my $self = shift; # $self->{'queue'} is sorted by start time while (@{$self->{'queue'}}) { my $job = $self->{'queue'}[0]; if($job->endtime()) { # Job already finished. No need to timeout the job # This could be because of --keep-order shift @{$self->{'queue'}}; } elsif($job->timedout($self->{'delta_time'})) { # Need to shift off queue before kill # because kill calls usleep that calls process_timeouts shift @{$self->{'queue'}}; $job->kill(); } else { # Because they are sorted by start time the rest are later last; } } } sub insert { my $self = shift; my $in = shift; push @{$self->{'queue'}}, $in; } package Semaphore; # This package provides a counting semaphore # # If a process dies without releasing the semaphore the next process # that needs that entry will clean up dead semaphores # # The semaphores are stored in ~/.parallel/semaphores/id- Each # file in ~/.parallel/semaphores/id-/ is the process ID of the # process holding the entry. If the process dies, the entry can be # taken by another process. sub new { my $class = shift; my $id = shift; my $count = shift; $id=~s/([^-_a-z0-9])/unpack("H*",$1)/ige; # Convert non-word chars to hex $id="id-".$id; # To distinguish it from a process id my $parallel_dir = $ENV{'HOME'}."/.parallel"; -d $parallel_dir or mkdir_or_die($parallel_dir); my $parallel_locks = $parallel_dir."/semaphores"; -d $parallel_locks or mkdir_or_die($parallel_locks); my $lockdir = "$parallel_locks/$id"; my $lockfile = $lockdir.".lock"; if($count < 1) { ::die_bug("semaphore-count: $count"); } return bless { 'lockfile' => $lockfile, 'lockfh' => Symbol::gensym(), 'lockdir' => $lockdir, 'id' => $id, 'idfile' => $lockdir."/".$id, 'pid' => $$, 'pidfile' => $lockdir."/".$$.'@'.::hostname(), 'count' => $count + 1 # nlinks returns a link for the 'id-' as well }, ref($class) || $class; } sub acquire { my $self = shift; my $sleep = 1; # 1 ms my $start_time = time; while(1) { $self->atomic_link_if_count_less_than() and last; ::debug("sem", "Remove dead locks"); my $lockdir = $self->{'lockdir'}; for my $d (glob "$lockdir/*") { ::debug("sem", "Lock $d $lockdir\n"); $d =~ m:$lockdir/([0-9]+)\@([-\._a-z0-9]+)$:o or next; my ($pid, $host) = ($1, $2); if($host eq ::hostname()) { if(not kill 0, $1) { ::debug("sem", "Dead: $d"); unlink $d; } else { ::debug("sem", "Alive: $d"); } } } # try again $self->atomic_link_if_count_less_than() and last; # Retry slower and slower up to 1 second $sleep = ($sleep < 1000) ? ($sleep * 1.1) : ($sleep); # Random to avoid every sleeping job waking up at the same time ::usleep(rand()*$sleep); if(defined($opt::timeout) and $start_time + $opt::timeout > time) { # Acquire the lock anyway if(not -e $self->{'idfile'}) { open (my $fh, ">", $self->{'idfile'}) or ::die_bug("timeout_write_idfile: $self->{'idfile'}"); close $fh; } link $self->{'idfile'}, $self->{'pidfile'}; last; } } ::debug("sem", "acquired $self->{'pid'}\n"); } sub release { my $self = shift; unlink $self->{'pidfile'}; if($self->nlinks() == 1) { # This is the last link, so atomic cleanup $self->lock(); if($self->nlinks() == 1) { unlink $self->{'idfile'}; rmdir $self->{'lockdir'}; } $self->unlock(); } ::debug("run", "released $self->{'pid'}\n"); } sub _release { my $self = shift; unlink $self->{'pidfile'}; $self->lock(); my $nlinks = $self->nlinks(); ::debug("sem", $nlinks, "<", $self->{'count'}); if($nlinks-- > 1) { unlink $self->{'idfile'}; open (my $fh, ">", $self->{'idfile'}) or ::die_bug("write_idfile: $self->{'idfile'}"); print $fh "#"x$nlinks; close $fh; } else { unlink $self->{'idfile'}; rmdir $self->{'lockdir'}; } $self->unlock(); ::debug("sem", "released $self->{'pid'}\n"); } sub atomic_link_if_count_less_than { # Link $file1 to $file2 if nlinks to $file1 < $count my $self = shift; my $retval = 0; $self->lock(); ::debug($self->nlinks(), "<", $self->{'count'}); if($self->nlinks() < $self->{'count'}) { -d $self->{'lockdir'} or mkdir_or_die($self->{'lockdir'}); if(not -e $self->{'idfile'}) { open (my $fh, ">", $self->{'idfile'}) or ::die_bug("write_idfile: $self->{'idfile'}"); close $fh; } $retval = link $self->{'idfile'}, $self->{'pidfile'}; } $self->unlock(); ::debug("run", "atomic $retval"); return $retval; } sub _atomic_link_if_count_less_than { # Link $file1 to $file2 if nlinks to $file1 < $count my $self = shift; my $retval = 0; $self->lock(); my $nlinks = $self->nlinks(); ::debug("sem", $nlinks, "<", $self->{'count'}); if($nlinks++ < $self->{'count'}) { -d $self->{'lockdir'} or mkdir_or_die($self->{'lockdir'}); if(not -e $self->{'idfile'}) { open (my $fh, ">", $self->{'idfile'}) or ::die_bug("write_idfile: $self->{'idfile'}"); close $fh; } open (my $fh, ">", $self->{'idfile'}) or ::die_bug("write_idfile: $self->{'idfile'}"); print $fh "#"x$nlinks; close $fh; $retval = link $self->{'idfile'}, $self->{'pidfile'}; } $self->unlock(); ::debug("sem", "atomic $retval"); return $retval; } sub nlinks { my $self = shift; if(-e $self->{'idfile'}) { ::debug("sem", "nlinks", (stat(_))[3], "size", (stat(_))[7], "\n"); return (stat(_))[3]; } else { return 0; } } sub lock { my $self = shift; my $sleep = 100; # 100 ms my $total_sleep = 0; $Global::use{"Fcntl"} ||= eval "use Fcntl qw(:DEFAULT :flock); 1;"; my $locked = 0; while(not $locked) { if(tell($self->{'lockfh'}) == -1) { # File not open open($self->{'lockfh'}, ">", $self->{'lockfile'}) or ::debug("run", "Cannot open $self->{'lockfile'}"); } if($self->{'lockfh'}) { # File is open chmod 0666, $self->{'lockfile'}; # assuming you want it a+rw if(flock($self->{'lockfh'}, LOCK_EX()|LOCK_NB())) { # The file is locked: No need to retry $locked = 1; last; } else { if ($! =~ m/Function not implemented/) { ::warning("flock: $!"); ::warning("Will wait for a random while\n"); ::usleep(rand(5000)); # File cannot be locked: No need to retry $locked = 2; last; } } } # Locking failed in first round # Sleep and try again $sleep = ($sleep < 1000) ? ($sleep * 1.1) : ($sleep); # Random to avoid every sleeping job waking up at the same time ::usleep(rand()*$sleep); $total_sleep += $sleep; if($opt::semaphoretimeout) { if($total_sleep/1000 > $opt::semaphoretimeout) { # Timeout: bail out ::warning("Semaphore timed out. Ignoring timeout."); $locked = 3; last; } } else { if($total_sleep/1000 > 30) { ::warning("Semaphore stuck for 30 seconds. Consider using --semaphoretimeout."); } } } ::debug("run", "locked $self->{'lockfile'}"); } sub unlock { my $self = shift; unlink $self->{'lockfile'}; close $self->{'lockfh'}; ::debug("run", "unlocked\n"); } sub mkdir_or_die { # If dir is not writable: die my $dir = shift; my @dir_parts = split(m:/:,$dir); my ($ddir,$part); while(defined ($part = shift @dir_parts)) { $part eq "" and next; $ddir .= "/".$part; -d $ddir and next; mkdir $ddir; } if(not -w $dir) { ::error("Cannot write to $dir: $!\n"); ::wait_and_exit(255); } } # Keep perl -w happy $opt::x = $Semaphore::timeout = $Semaphore::wait = $Job::file_descriptor_warning_printed = 0; rocksdb-5.17.2/build_tools/make_package.sh000077500000000000000000000060031337235545400205150ustar00rootroot00000000000000# shellcheck disable=SC1113 #/usr/bin/env bash set -e function log() { echo "[+] $1" } function fatal() { echo "[!] $1" exit 1 } function platform() { local __resultvar=$1 if [[ -f "/etc/yum.conf" ]]; then eval $__resultvar="centos" elif [[ -f "/etc/dpkg/dpkg.cfg" ]]; then eval $__resultvar="ubuntu" else fatal "Unknwon operating system" fi } platform OS function package() { if [[ $OS = "ubuntu" ]]; then if dpkg --get-selections | grep --quiet $1; then log "$1 is already installed. skipping." else # shellcheck disable=SC2068 apt-get install $@ -y fi elif [[ $OS = "centos" ]]; then if rpm -qa | grep --quiet $1; then log "$1 is already installed. skipping." else # shellcheck disable=SC2068 yum install $@ -y fi fi } function detect_fpm_output() { if [[ $OS = "ubuntu" ]]; then export FPM_OUTPUT=deb elif [[ $OS = "centos" ]]; then export FPM_OUTPUT=rpm fi } detect_fpm_output function gem_install() { if gem list | grep --quiet $1; then log "$1 is already installed. skipping." else # shellcheck disable=SC2068 gem install $@ fi } function main() { if [[ $# -ne 1 ]]; then fatal "Usage: $0 " else log "using rocksdb version: $1" fi if [[ -d /vagrant ]]; then if [[ $OS = "ubuntu" ]]; then package g++-4.8 export CXX=g++-4.8 # the deb would depend on libgflags2, but the static lib is the only thing # installed by make install package libgflags-dev package ruby-all-dev elif [[ $OS = "centos" ]]; then pushd /etc/yum.repos.d if [[ ! -f /etc/yum.repos.d/devtools-1.1.repo ]]; then wget http://people.centos.org/tru/devtools-1.1/devtools-1.1.repo fi package devtoolset-1.1-gcc --enablerepo=testing-1.1-devtools-6 package devtoolset-1.1-gcc-c++ --enablerepo=testing-1.1-devtools-6 export CC=/opt/centos/devtoolset-1.1/root/usr/bin/gcc export CPP=/opt/centos/devtoolset-1.1/root/usr/bin/cpp export CXX=/opt/centos/devtoolset-1.1/root/usr/bin/c++ export PATH=$PATH:/opt/centos/devtoolset-1.1/root/usr/bin popd if ! rpm -qa | grep --quiet gflags; then rpm -i https://github.com/schuhschuh/gflags/releases/download/v2.1.0/gflags-devel-2.1.0-1.amd64.rpm fi package ruby package ruby-devel package rubygems package rpm-build fi fi gem_install fpm make static_lib make install INSTALL_PATH=package cd package LIB_DIR=lib if [[ -z "$ARCH" ]]; then ARCH=$(getconf LONG_BIT) fi if [[ ("$FPM_OUTPUT" = "rpm") && ($ARCH -eq 64) ]]; then mv lib lib64 LIB_DIR=lib64 fi fpm \ -s dir \ -t $FPM_OUTPUT \ -n rocksdb \ -v $1 \ --prefix /usr \ --url http://rocksdb.org/ \ -m rocksdb@fb.com \ --license BSD \ --vendor Facebook \ --description "RocksDB is an embeddable persistent key-value store for fast storage." \ include $LIB_DIR } # shellcheck disable=SC2068 main $@ rocksdb-5.17.2/build_tools/precommit_checker.py000077500000000000000000000130141337235545400216260ustar00rootroot00000000000000#!/usr/local/fbcode/gcc-4.9-glibc-2.20-fb/bin/python2.7 from __future__ import absolute_import from __future__ import division from __future__ import print_function from __future__ import unicode_literals import argparse import commands import subprocess import sys import re import os import time # # Simple logger # class Log: def __init__(self, filename): self.filename = filename self.f = open(self.filename, 'w+', 0) def caption(self, str): line = "\n##### %s #####\n" % str if self.f: self.f.write("%s \n" % line) else: print(line) def error(self, str): data = "\n\n##### ERROR ##### %s" % str if self.f: self.f.write("%s \n" % data) else: print(data) def log(self, str): if self.f: self.f.write("%s \n" % str) else: print(str) # # Shell Environment # class Env(object): def __init__(self, logfile, tests): self.tests = tests self.log = Log(logfile) def shell(self, cmd, path=os.getcwd()): if path: os.chdir(path) self.log.log("==== shell session ===========================") self.log.log("%s> %s" % (path, cmd)) status = subprocess.call("cd %s; %s" % (path, cmd), shell=True, stdout=self.log.f, stderr=self.log.f) self.log.log("status = %s" % status) self.log.log("============================================== \n\n") return status def GetOutput(self, cmd, path=os.getcwd()): if path: os.chdir(path) self.log.log("==== shell session ===========================") self.log.log("%s> %s" % (path, cmd)) status, out = commands.getstatusoutput(cmd) self.log.log("status = %s" % status) self.log.log("out = %s" % out) self.log.log("============================================== \n\n") return status, out # # Pre-commit checker # class PreCommitChecker(Env): def __init__(self, args): Env.__init__(self, args.logfile, args.tests) self.ignore_failure = args.ignore_failure # # Get commands for a given job from the determinator file # def get_commands(self, test): status, out = self.GetOutput( "RATIO=1 build_tools/rocksdb-lego-determinator %s" % test, ".") return status, out # # Run a specific CI job # def run_test(self, test): self.log.caption("Running test %s locally" % test) # get commands for the CI job determinator status, cmds = self.get_commands(test) if status != 0: self.log.error("Error getting commands for test %s" % test) return False # Parse the JSON to extract the commands to run cmds = re.findall("'shell':'([^\']*)'", cmds) if len(cmds) == 0: self.log.log("No commands found") return False # Run commands for cmd in cmds: # Replace J=<..> with the local environment variable if "J" in os.environ: cmd = cmd.replace("J=1", "J=%s" % os.environ["J"]) cmd = cmd.replace("make ", "make -j%s " % os.environ["J"]) # Run the command status = self.shell(cmd, ".") if status != 0: self.log.error("Error running command %s for test %s" % (cmd, test)) return False return True # # Run specified CI jobs # def run_tests(self): if not self.tests: self.log.error("Invalid args. Please provide tests") return False self.print_separator() self.print_row("TEST", "RESULT") self.print_separator() result = True for test in self.tests: start_time = time.time() self.print_test(test) result = self.run_test(test) elapsed_min = (time.time() - start_time) / 60 if not result: self.log.error("Error running test %s" % test) self.print_result("FAIL (%dm)" % elapsed_min) if not self.ignore_failure: return False result = False else: self.print_result("PASS (%dm)" % elapsed_min) self.print_separator() return result # # Print a line # def print_separator(self): print("".ljust(60, "-")) # # Print two colums # def print_row(self, c0, c1): print("%s%s" % (c0.ljust(40), c1.ljust(20))) def print_test(self, test): print(test.ljust(40), end="") sys.stdout.flush() def print_result(self, result): print(result.ljust(20)) # # Main # parser = argparse.ArgumentParser(description='RocksDB pre-commit checker.') # --log parser.add_argument('--logfile', default='/tmp/precommit-check.log', help='Log file. Default is /tmp/precommit-check.log') # --ignore_failure parser.add_argument('--ignore_failure', action='store_true', default=False, help='Stop when an error occurs') # parser.add_argument('tests', nargs='+', help='CI test(s) to run. e.g: unit punit asan tsan ubsan') args = parser.parse_args() checker = PreCommitChecker(args) print("Please follow log %s" % checker.log.filename) if not checker.run_tests(): print("Error running tests. Please check log file %s" % checker.log.filename) sys.exit(1) sys.exit(0) rocksdb-5.17.2/build_tools/regression_build_test.sh000077500000000000000000000264041337235545400225320ustar00rootroot00000000000000#!/usr/bin/env bash set -e NUM=10000000 if [ $# -eq 1 ];then DATA_DIR=$1 elif [ $# -eq 2 ];then DATA_DIR=$1 STAT_FILE=$2 fi # On the production build servers, set data and stat # files/directories not in /tmp or else the tempdir cleaning # scripts will make you very unhappy. DATA_DIR=${DATA_DIR:-$(mktemp -t -d rocksdb_XXXX)} STAT_FILE=${STAT_FILE:-$(mktemp -t -u rocksdb_test_stats_XXXX)} function cleanup { rm -rf $DATA_DIR rm -f $STAT_FILE.fillseq rm -f $STAT_FILE.readrandom rm -f $STAT_FILE.overwrite rm -f $STAT_FILE.memtablefillreadrandom } trap cleanup EXIT if [ -z $GIT_BRANCH ]; then git_br=`git rev-parse --abbrev-ref HEAD` else git_br=$(basename $GIT_BRANCH) fi if [ $git_br == "master" ]; then git_br="" else git_br="."$git_br fi make release # measure fillseq + fill up the DB for overwrite benchmark ./db_bench \ --benchmarks=fillseq \ --db=$DATA_DIR \ --use_existing_db=0 \ --bloom_bits=10 \ --num=$NUM \ --writes=$NUM \ --cache_size=6442450944 \ --cache_numshardbits=6 \ --table_cache_numshardbits=4 \ --open_files=55000 \ --statistics=1 \ --histogram=1 \ --disable_wal=1 \ --sync=0 > ${STAT_FILE}.fillseq # measure overwrite performance ./db_bench \ --benchmarks=overwrite \ --db=$DATA_DIR \ --use_existing_db=1 \ --bloom_bits=10 \ --num=$NUM \ --writes=$((NUM / 10)) \ --cache_size=6442450944 \ --cache_numshardbits=6 \ --table_cache_numshardbits=4 \ --open_files=55000 \ --statistics=1 \ --histogram=1 \ --disable_wal=1 \ --sync=0 \ --threads=8 > ${STAT_FILE}.overwrite # fill up the db for readrandom benchmark (1GB total size) ./db_bench \ --benchmarks=fillseq \ --db=$DATA_DIR \ --use_existing_db=0 \ --bloom_bits=10 \ --num=$NUM \ --writes=$NUM \ --cache_size=6442450944 \ --cache_numshardbits=6 \ --table_cache_numshardbits=4 \ --open_files=55000 \ --statistics=1 \ --histogram=1 \ --disable_wal=1 \ --sync=0 \ --threads=1 > /dev/null # measure readrandom with 6GB block cache ./db_bench \ --benchmarks=readrandom \ --db=$DATA_DIR \ --use_existing_db=1 \ --bloom_bits=10 \ --num=$NUM \ --reads=$((NUM / 5)) \ --cache_size=6442450944 \ --cache_numshardbits=6 \ --table_cache_numshardbits=4 \ --open_files=55000 \ --statistics=1 \ --histogram=1 \ --disable_wal=1 \ --sync=0 \ --threads=16 > ${STAT_FILE}.readrandom # measure readrandom with 6GB block cache and tailing iterator ./db_bench \ --benchmarks=readrandom \ --db=$DATA_DIR \ --use_existing_db=1 \ --bloom_bits=10 \ --num=$NUM \ --reads=$((NUM / 5)) \ --cache_size=6442450944 \ --cache_numshardbits=6 \ --table_cache_numshardbits=4 \ --open_files=55000 \ --use_tailing_iterator=1 \ --statistics=1 \ --histogram=1 \ --disable_wal=1 \ --sync=0 \ --threads=16 > ${STAT_FILE}.readrandomtailing # measure readrandom with 100MB block cache ./db_bench \ --benchmarks=readrandom \ --db=$DATA_DIR \ --use_existing_db=1 \ --bloom_bits=10 \ --num=$NUM \ --reads=$((NUM / 5)) \ --cache_size=104857600 \ --cache_numshardbits=6 \ --table_cache_numshardbits=4 \ --open_files=55000 \ --statistics=1 \ --histogram=1 \ --disable_wal=1 \ --sync=0 \ --threads=16 > ${STAT_FILE}.readrandomsmallblockcache # measure readrandom with 8k data in memtable ./db_bench \ --benchmarks=overwrite,readrandom \ --db=$DATA_DIR \ --use_existing_db=1 \ --bloom_bits=10 \ --num=$NUM \ --reads=$((NUM / 5)) \ --writes=512 \ --cache_size=6442450944 \ --cache_numshardbits=6 \ --table_cache_numshardbits=4 \ --write_buffer_size=1000000000 \ --open_files=55000 \ --statistics=1 \ --histogram=1 \ --disable_wal=1 \ --sync=0 \ --threads=16 > ${STAT_FILE}.readrandom_mem_sst # fill up the db for readrandom benchmark with filluniquerandom (1GB total size) ./db_bench \ --benchmarks=filluniquerandom \ --db=$DATA_DIR \ --use_existing_db=0 \ --bloom_bits=10 \ --num=$((NUM / 4)) \ --writes=$((NUM / 4)) \ --cache_size=6442450944 \ --cache_numshardbits=6 \ --table_cache_numshardbits=4 \ --open_files=55000 \ --statistics=1 \ --histogram=1 \ --disable_wal=1 \ --sync=0 \ --threads=1 > /dev/null # dummy test just to compact the data ./db_bench \ --benchmarks=readrandom \ --db=$DATA_DIR \ --use_existing_db=1 \ --bloom_bits=10 \ --num=$((NUM / 1000)) \ --reads=$((NUM / 1000)) \ --cache_size=6442450944 \ --cache_numshardbits=6 \ --table_cache_numshardbits=4 \ --open_files=55000 \ --statistics=1 \ --histogram=1 \ --disable_wal=1 \ --sync=0 \ --threads=16 > /dev/null # measure readrandom after load with filluniquerandom with 6GB block cache ./db_bench \ --benchmarks=readrandom \ --db=$DATA_DIR \ --use_existing_db=1 \ --bloom_bits=10 \ --num=$((NUM / 4)) \ --reads=$((NUM / 4)) \ --cache_size=6442450944 \ --cache_numshardbits=6 \ --table_cache_numshardbits=4 \ --open_files=55000 \ --disable_auto_compactions=1 \ --statistics=1 \ --histogram=1 \ --disable_wal=1 \ --sync=0 \ --threads=16 > ${STAT_FILE}.readrandom_filluniquerandom # measure readwhilewriting after load with filluniquerandom with 6GB block cache ./db_bench \ --benchmarks=readwhilewriting \ --db=$DATA_DIR \ --use_existing_db=1 \ --bloom_bits=10 \ --num=$((NUM / 4)) \ --reads=$((NUM / 4)) \ --benchmark_write_rate_limit=$(( 110 * 1024 )) \ --write_buffer_size=100000000 \ --cache_size=6442450944 \ --cache_numshardbits=6 \ --table_cache_numshardbits=4 \ --open_files=55000 \ --statistics=1 \ --histogram=1 \ --disable_wal=1 \ --sync=0 \ --threads=16 > ${STAT_FILE}.readwhilewriting # measure memtable performance -- none of the data gets flushed to disk ./db_bench \ --benchmarks=fillrandom,readrandom, \ --db=$DATA_DIR \ --use_existing_db=0 \ --num=$((NUM / 10)) \ --reads=$NUM \ --cache_size=6442450944 \ --cache_numshardbits=6 \ --table_cache_numshardbits=4 \ --write_buffer_size=1000000000 \ --open_files=55000 \ --statistics=1 \ --histogram=1 \ --disable_wal=1 \ --sync=0 \ --value_size=10 \ --threads=16 > ${STAT_FILE}.memtablefillreadrandom common_in_mem_args="--db=/dev/shm/rocksdb \ --num_levels=6 \ --key_size=20 \ --prefix_size=12 \ --keys_per_prefix=10 \ --value_size=100 \ --compression_type=none \ --compression_ratio=1 \ --hard_rate_limit=2 \ --write_buffer_size=134217728 \ --max_write_buffer_number=4 \ --level0_file_num_compaction_trigger=8 \ --level0_slowdown_writes_trigger=16 \ --level0_stop_writes_trigger=24 \ --target_file_size_base=134217728 \ --max_bytes_for_level_base=1073741824 \ --disable_wal=0 \ --wal_dir=/dev/shm/rocksdb \ --sync=0 \ --verify_checksum=1 \ --delete_obsolete_files_period_micros=314572800 \ --max_grandparent_overlap_factor=10 \ --use_plain_table=1 \ --open_files=-1 \ --mmap_read=1 \ --mmap_write=0 \ --memtablerep=prefix_hash \ --bloom_bits=10 \ --bloom_locality=1 \ --perf_level=0" # prepare a in-memory DB with 50M keys, total DB size is ~6G ./db_bench \ $common_in_mem_args \ --statistics=0 \ --max_background_compactions=16 \ --max_background_flushes=16 \ --benchmarks=filluniquerandom \ --use_existing_db=0 \ --num=52428800 \ --threads=1 > /dev/null # Readwhilewriting ./db_bench \ $common_in_mem_args \ --statistics=1 \ --max_background_compactions=4 \ --max_background_flushes=0 \ --benchmarks=readwhilewriting\ --use_existing_db=1 \ --duration=600 \ --threads=32 \ --benchmark_write_rate_limit=9502720 > ${STAT_FILE}.readwhilewriting_in_ram # Seekrandomwhilewriting ./db_bench \ $common_in_mem_args \ --statistics=1 \ --max_background_compactions=4 \ --max_background_flushes=0 \ --benchmarks=seekrandomwhilewriting \ --use_existing_db=1 \ --use_tailing_iterator=1 \ --duration=600 \ --threads=32 \ --benchmark_write_rate_limit=9502720 > ${STAT_FILE}.seekwhilewriting_in_ram # measure fillseq with bunch of column families ./db_bench \ --benchmarks=fillseq \ --num_column_families=500 \ --write_buffer_size=1048576 \ --db=$DATA_DIR \ --use_existing_db=0 \ --num=$NUM \ --writes=$NUM \ --open_files=55000 \ --statistics=1 \ --histogram=1 \ --disable_wal=1 \ --sync=0 > ${STAT_FILE}.fillseq_lots_column_families # measure overwrite performance with bunch of column families ./db_bench \ --benchmarks=overwrite \ --num_column_families=500 \ --write_buffer_size=1048576 \ --db=$DATA_DIR \ --use_existing_db=1 \ --num=$NUM \ --writes=$((NUM / 10)) \ --open_files=55000 \ --statistics=1 \ --histogram=1 \ --disable_wal=1 \ --sync=0 \ --threads=8 > ${STAT_FILE}.overwrite_lots_column_families # send data to ods function send_to_ods { key="$1" value="$2" if [ -z $JENKINS_HOME ]; then # running on devbox, just print out the values echo $1 $2 return fi if [ -z "$value" ];then echo >&2 "ERROR: Key $key doesn't have a value." return fi curl -s "https://www.intern.facebook.com/intern/agent/ods_set.php?entity=rocksdb_build$git_br&key=$key&value=$value" \ --connect-timeout 60 } function send_benchmark_to_ods { bench="$1" bench_key="$2" file="$3" QPS=$(grep $bench $file | awk '{print $5}') P50_MICROS=$(grep $bench $file -A 6 | grep "Percentiles" | awk '{print $3}' ) P75_MICROS=$(grep $bench $file -A 6 | grep "Percentiles" | awk '{print $5}' ) P99_MICROS=$(grep $bench $file -A 6 | grep "Percentiles" | awk '{print $7}' ) send_to_ods rocksdb.build.$bench_key.qps $QPS send_to_ods rocksdb.build.$bench_key.p50_micros $P50_MICROS send_to_ods rocksdb.build.$bench_key.p75_micros $P75_MICROS send_to_ods rocksdb.build.$bench_key.p99_micros $P99_MICROS } send_benchmark_to_ods overwrite overwrite $STAT_FILE.overwrite send_benchmark_to_ods fillseq fillseq $STAT_FILE.fillseq send_benchmark_to_ods readrandom readrandom $STAT_FILE.readrandom send_benchmark_to_ods readrandom readrandom_tailing $STAT_FILE.readrandomtailing send_benchmark_to_ods readrandom readrandom_smallblockcache $STAT_FILE.readrandomsmallblockcache send_benchmark_to_ods readrandom readrandom_memtable_sst $STAT_FILE.readrandom_mem_sst send_benchmark_to_ods readrandom readrandom_fillunique_random $STAT_FILE.readrandom_filluniquerandom send_benchmark_to_ods fillrandom memtablefillrandom $STAT_FILE.memtablefillreadrandom send_benchmark_to_ods readrandom memtablereadrandom $STAT_FILE.memtablefillreadrandom send_benchmark_to_ods readwhilewriting readwhilewriting $STAT_FILE.readwhilewriting send_benchmark_to_ods readwhilewriting readwhilewriting_in_ram ${STAT_FILE}.readwhilewriting_in_ram send_benchmark_to_ods seekrandomwhilewriting seekwhilewriting_in_ram ${STAT_FILE}.seekwhilewriting_in_ram send_benchmark_to_ods fillseq fillseq_lots_column_families ${STAT_FILE}.fillseq_lots_column_families send_benchmark_to_ods overwrite overwrite_lots_column_families ${STAT_FILE}.overwrite_lots_column_families rocksdb-5.17.2/build_tools/rocksdb-lego-determinator000077500000000000000000000473071337235545400225760ustar00rootroot00000000000000#!/usr/bin/env bash # This script is executed by Sandcastle # to determine next steps to run # Usage: # EMAIL= ONCALL= TRIGGER= SUBSCRIBER= rocks_ci.py # # Input Value # ------------------------------------------------------------------------- # EMAIL Email address to report on trigger conditions # ONCALL Email address to raise a task on failure # TRIGGER Trigger conditions for email. Valid values are fail, warn, all # SUBSCRIBER Email addresss to add as subscriber for task # # # Report configuration # REPORT_EMAIL= if [ ! -z $EMAIL ]; then if [ -z $TRIGGER ]; then TRIGGER="fail" fi REPORT_EMAIL=" { 'type':'email', 'triggers': [ '$TRIGGER' ], 'emails':['$EMAIL'] }," fi CREATE_TASK= if [ ! -z $ONCALL ]; then CREATE_TASK=" { 'type':'task', 'triggers':[ 'fail' ], 'priority':0, 'subscribers':[ '$SUBSCRIBER' ], 'tags':[ 'rocksdb', 'ci' ], }," fi # For now, create the tasks using only the dedicated task creation tool. CREATE_TASK= REPORT= if [[ ! -z $REPORT_EMAIL || ! -z $CREATE_TASK ]]; then REPORT="'report': [ $REPORT_EMAIL $CREATE_TASK ]" fi # # Helper variables # CLEANUP_ENV=" { 'name':'Cleanup environment', 'shell':'rm -rf /dev/shm/rocksdb && mkdir /dev/shm/rocksdb && (chmod +t /dev/shm || true) && make clean', 'user':'root' }" # We will eventually set the RATIO to 1, but we want do this # in steps. RATIO=$(nproc) will make it work as J=1 if [ -z $RATIO ]; then RATIO=$(nproc) fi if [ -z $PARALLEL_J ]; then PARALLEL_J="J=$(expr $(nproc) / ${RATIO})" fi if [ -z $PARALLEL_j ]; then PARALLEL_j="-j$(expr $(nproc) / ${RATIO})" fi PARALLELISM="$PARALLEL_J $PARALLEL_j" DEBUG="OPT=-g" SHM="TEST_TMPDIR=/dev/shm/rocksdb" NON_SHM="TMPD=/tmp/rocksdb_test_tmp" GCC_481="ROCKSDB_FBCODE_BUILD_WITH_481=1" ASAN="COMPILE_WITH_ASAN=1" CLANG="USE_CLANG=1" LITE="OPT=\"-DROCKSDB_LITE -g\"" TSAN="COMPILE_WITH_TSAN=1" UBSAN="COMPILE_WITH_UBSAN=1" TSAN_CRASH='CRASH_TEST_EXT_ARGS="--compression_type=zstd --log2_keys_per_lock=22"' NON_TSAN_CRASH="CRASH_TEST_EXT_ARGS=--compression_type=zstd" DISABLE_JEMALLOC="DISABLE_JEMALLOC=1" HTTP_PROXY="https_proxy=http://fwdproxy.29.prn1:8080 http_proxy=http://fwdproxy.29.prn1:8080 ftp_proxy=http://fwdproxy.29.prn1:8080" SETUP_JAVA_ENV="export $HTTP_PROXY; export JAVA_HOME=/usr/local/jdk-8u60-64/; export PATH=\$JAVA_HOME/bin:\$PATH" PARSER="'parser':'python build_tools/error_filter.py $1'" CONTRUN_NAME="ROCKSDB_CONTRUN_NAME" # This code is getting called under various scenarios. What we care about is to # understand when it's called from nightly contruns because in that case we'll # create tasks for any failures. To follow the existing pattern, we'll check # the value of $ONCALL. If it's a diff then just call `false` to make sure # that errors will be properly propagated to the caller. if [ ! -z $ONCALL ]; then TASK_CREATION_TOOL="/usr/local/bin/mysql_mtr_filter --rocksdb --oncall $ONCALL" else TASK_CREATION_TOOL="false" fi ARTIFACTS=" 'artifacts': [ { 'name':'database', 'paths':[ '/dev/shm/rocksdb' ], } ]" # # A mechanism to disable tests temporarily # DISABLE_COMMANDS="[ { 'name':'Disable test', 'oncall':'$ONCALL', 'steps': [ { 'name':'Job disabled. Please contact test owner', 'shell':'exit 1', 'user':'root' }, ], } ]" # # RocksDB unit test # UNIT_TEST_COMMANDS="[ { 'name':'Rocksdb Unit Test', 'oncall':'$ONCALL', 'steps': [ $CLEANUP_ENV, { 'name':'Build and test RocksDB debug version', 'shell':'$SHM $DEBUG make $PARALLELISM check || $CONTRUN_NAME=check $TASK_CREATION_TOOL', 'user':'root', $PARSER }, ], $REPORT } ]" # # RocksDB unit test not under /dev/shm # UNIT_TEST_NON_SHM_COMMANDS="[ { 'name':'Rocksdb Unit Test', 'oncall':'$ONCALL', 'timeout': 86400, 'steps': [ $CLEANUP_ENV, { 'name':'Build and test RocksDB debug version', 'timeout': 86400, 'shell':'$NON_SHM $DEBUG make $PARALLELISM check || $CONTRUN_NAME=non_shm_check $TASK_CREATION_TOOL', 'user':'root', $PARSER }, ], $REPORT } ]" # # RocksDB release build and unit tests # RELEASE_BUILD_COMMANDS="[ { 'name':'Rocksdb Release Build', 'oncall':'$ONCALL', 'steps': [ $CLEANUP_ENV, { 'name':'Build RocksDB release', 'shell':'make $PARALLEL_j release || $CONTRUN_NAME=release $TASK_CREATION_TOOL', 'user':'root', $PARSER }, ], $REPORT } ]" # # RocksDB unit test on gcc-4.8.1 # UNIT_TEST_COMMANDS_481="[ { 'name':'Rocksdb Unit Test on GCC 4.8.1', 'oncall':'$ONCALL', 'steps': [ $CLEANUP_ENV, { 'name':'Build and test RocksDB debug version', 'shell':'$SHM $GCC_481 $DEBUG make $PARALLELISM check || $CONTRUN_NAME=unit_gcc_481_check $TASK_CREATION_TOOL', 'user':'root', $PARSER }, ], $REPORT } ]" # # RocksDB release build and unit tests # RELEASE_BUILD_COMMANDS_481="[ { 'name':'Rocksdb Release on GCC 4.8.1', 'oncall':'$ONCALL', 'steps': [ $CLEANUP_ENV, { 'name':'Build RocksDB release on GCC 4.8.1', 'shell':'$GCC_481 make $PARALLEL_j release || $CONTRUN_NAME=release_gcc481 $TASK_CREATION_TOOL', 'user':'root', $PARSER }, ], $REPORT } ]" # # RocksDB unit test with CLANG # CLANG_UNIT_TEST_COMMANDS="[ { 'name':'Rocksdb Unit Test', 'oncall':'$ONCALL', 'steps': [ $CLEANUP_ENV, { 'name':'Build and test RocksDB debug', 'shell':'$CLANG $SHM $DEBUG make $PARALLELISM check || $CONTRUN_NAME=clang_check $TASK_CREATION_TOOL', 'user':'root', $PARSER }, ], $REPORT } ]" # # RocksDB release build with CLANG # CLANG_RELEASE_BUILD_COMMANDS="[ { 'name':'Rocksdb CLANG Release Build', 'oncall':'$ONCALL', 'steps': [ $CLEANUP_ENV, { 'name':'Build RocksDB release', 'shell':'$CLANG make $PARALLEL_j release|| $CONTRUN_NAME=clang_release $TASK_CREATION_TOOL', 'user':'root', $PARSER }, ], $REPORT } ]" # # RocksDB analyze # CLANG_ANALYZE_COMMANDS="[ { 'name':'Rocksdb analyze', 'oncall':'$ONCALL', 'steps': [ $CLEANUP_ENV, { 'name':'RocksDB build and analyze', 'shell':'$CLANG $SHM $DEBUG make $PARALLEL_j analyze || $CONTRUN_NAME=clang_analyze $TASK_CREATION_TOOL', 'user':'root', $PARSER }, ], $REPORT } ]" # # RocksDB code coverage # CODE_COV_COMMANDS="[ { 'name':'Rocksdb Unit Test Code Coverage', 'oncall':'$ONCALL', 'steps': [ $CLEANUP_ENV, { 'name':'Build, test and collect code coverage info', 'shell':'$SHM $DEBUG make $PARALLELISM coverage || $CONTRUN_NAME=coverage $TASK_CREATION_TOOL', 'user':'root', $PARSER }, ], $REPORT } ]" # # RocksDB unity # UNITY_COMMANDS="[ { 'name':'Rocksdb Unity', 'oncall':'$ONCALL', 'steps': [ $CLEANUP_ENV, { 'name':'Build, test unity test', 'shell':'$SHM $DEBUG V=1 make J=1 unity_test || $CONTRUN_NAME=unity_test $TASK_CREATION_TOOL', 'user':'root', $PARSER }, ], $REPORT } ]" # # Build RocksDB lite # LITE_BUILD_COMMANDS="[ { 'name':'Rocksdb Lite build', 'oncall':'$ONCALL', 'steps': [ $CLEANUP_ENV, { 'name':'Build RocksDB debug version', 'shell':'$LITE make J=1 all check || $CONTRUN_NAME=lite $TASK_CREATION_TOOL', 'user':'root', $PARSER }, ], $REPORT } ]" # # Report RocksDB lite binary size to scuba REPORT_LITE_BINARY_SIZE_COMMANDS="[ { 'name':'Rocksdb Lite Binary Size', 'oncall':'$ONCALL', 'steps': [ $CLEANUP_ENV, { 'name':'Report RocksDB Lite binary size to scuba', 'shell':'tools/report_lite_binary_size.sh', 'user':'root', }, ], ]" # # RocksDB stress/crash test # STRESS_CRASH_TEST_COMMANDS="[ { 'name':'Rocksdb Stress/Crash Test', 'oncall':'$ONCALL', 'timeout': 86400, 'steps': [ $CLEANUP_ENV, { 'name':'Build and run RocksDB debug stress tests', 'shell':'$SHM $DEBUG $NON_TSAN_CRASH make J=1 db_stress || $CONTRUN_NAME=db_stress $TASK_CREATION_TOOL', 'user':'root', $PARSER }, { 'name':'Build and run RocksDB debug crash tests', 'timeout': 86400, 'shell':'$SHM $DEBUG $NON_TSAN_CRASH make J=1 crash_test || $CONTRUN_NAME=crash_test $TASK_CREATION_TOOL', 'user':'root', $PARSER } ], $ARTIFACTS, $REPORT } ]" # RocksDB write stress test. # We run on disk device on purpose (i.e. no $SHM) # because we want to add some randomness to fsync commands WRITE_STRESS_COMMANDS="[ { 'name':'Rocksdb Write Stress Test', 'oncall':'$ONCALL', 'steps': [ $CLEANUP_ENV, { 'name':'Build and run RocksDB write stress tests', 'shell':'make write_stress && python tools/write_stress_runner.py --runtime_sec=3600 --db=/tmp/rocksdb_write_stress || $CONTRUN_NAME=write_stress $TASK_CREATION_TOOL', 'user':'root', $PARSER } ], 'artifacts': [{'name': 'database', 'paths': ['/tmp/rocksdb_write_stress']}], $REPORT } ]" # # RocksDB test under address sanitizer # ASAN_TEST_COMMANDS="[ { 'name':'Rocksdb Unit Test under ASAN', 'oncall':'$ONCALL', 'steps': [ $CLEANUP_ENV, { 'name':'Test RocksDB debug under ASAN', 'shell':'set -o pipefail && ($SHM $ASAN $DEBUG make $PARALLELISM asan_check || $CONTRUN_NAME=asan_check $TASK_CREATION_TOOL) |& /usr/facebook/ops/scripts/asan_symbolize.py -d', 'user':'root', $PARSER } ], $REPORT } ]" # # RocksDB crash testing under address sanitizer # ASAN_CRASH_TEST_COMMANDS="[ { 'name':'Rocksdb crash test under ASAN', 'oncall':'$ONCALL', 'timeout': 86400, 'steps': [ $CLEANUP_ENV, { 'name':'Build and run RocksDB debug asan_crash_test', 'timeout': 86400, 'shell':'$SHM $DEBUG $NON_TSAN_CRASH make J=1 asan_crash_test || $CONTRUN_NAME=asan_crash_test $TASK_CREATION_TOOL', 'user':'root', $PARSER }, ], $REPORT } ]" # # RocksDB test under undefined behavior sanitizer # UBSAN_TEST_COMMANDS="[ { 'name':'Rocksdb Unit Test under UBSAN', 'oncall':'$ONCALL', 'steps': [ $CLEANUP_ENV, { 'name':'Test RocksDB debug under UBSAN', 'shell':'set -o pipefail && $SHM $UBSAN $DEBUG make $PARALLELISM ubsan_check || $CONTRUN_NAME=ubsan_check $TASK_CREATION_TOOL', 'user':'root', $PARSER } ], $REPORT } ]" # # RocksDB crash testing under udnefined behavior sanitizer # UBSAN_CRASH_TEST_COMMANDS="[ { 'name':'Rocksdb crash test under UBSAN', 'oncall':'$ONCALL', 'timeout': 86400, 'steps': [ $CLEANUP_ENV, { 'name':'Build and run RocksDB debug ubsan_crash_test', 'timeout': 86400, 'shell':'$SHM $DEBUG $NON_TSAN_CRASH make J=1 ubsan_crash_test || $CONTRUN_NAME=ubsan_crash_test $TASK_CREATION_TOOL', 'user':'root', $PARSER }, ], $REPORT } ]" # # RocksDB unit test under valgrind # VALGRIND_TEST_COMMANDS="[ { 'name':'Rocksdb Unit Test under valgrind', 'oncall':'$ONCALL', 'timeout': 86400, 'steps': [ $CLEANUP_ENV, { 'name':'Run RocksDB debug unit tests', 'timeout': 86400, 'shell':'$SHM $DEBUG make $PARALLELISM valgrind_test || $CONTRUN_NAME=valgrind_check $TASK_CREATION_TOOL', 'user':'root', $PARSER }, ], $REPORT } ]" # # RocksDB test under TSAN # TSAN_UNIT_TEST_COMMANDS="[ { 'name':'Rocksdb Unit Test under TSAN', 'oncall':'$ONCALL', 'timeout': 86400, 'steps': [ $CLEANUP_ENV, { 'name':'Run RocksDB debug unit test', 'timeout': 86400, 'shell':'set -o pipefail && $SHM $DEBUG $TSAN make $PARALLELISM check || $CONTRUN_NAME=tsan_check $TASK_CREATION_TOOL', 'user':'root', $PARSER }, ], $REPORT } ]" # # RocksDB crash test under TSAN # TSAN_CRASH_TEST_COMMANDS="[ { 'name':'Rocksdb Crash Test under TSAN', 'oncall':'$ONCALL', 'timeout': 86400, 'steps': [ $CLEANUP_ENV, { 'name':'Compile and run', 'timeout': 86400, 'shell':'set -o pipefail && $SHM $DEBUG $TSAN $TSAN_CRASH CRASH_TEST_KILL_ODD=1887 make J=1 crash_test || $CONTRUN_NAME=tsan_crash_test $TASK_CREATION_TOOL', 'user':'root', $PARSER }, ], $REPORT } ]" # # RocksDB format compatible # run_format_compatible() { export TEST_TMPDIR=/dev/shm/rocksdb rm -rf /dev/shm/rocksdb mkdir /dev/shm/rocksdb tools/check_format_compatible.sh } FORMAT_COMPATIBLE_COMMANDS="[ { 'name':'Rocksdb Format Compatible tests', 'oncall':'$ONCALL', 'steps': [ $CLEANUP_ENV, { 'name':'Run RocksDB debug unit test', 'shell':'build_tools/rocksdb-lego-determinator run_format_compatible || $CONTRUN_NAME=run_format_compatible $TASK_CREATION_TOOL', 'user':'root', $PARSER }, ], $REPORT } ]" # # RocksDB no compression # run_no_compression() { export TEST_TMPDIR=/dev/shm/rocksdb rm -rf /dev/shm/rocksdb mkdir /dev/shm/rocksdb make clean cat build_tools/fbcode_config.sh | grep -iv dzlib | grep -iv dlz4 | grep -iv dsnappy | grep -iv dbzip2 > .tmp.fbcode_config.sh mv .tmp.fbcode_config.sh build_tools/fbcode_config.sh cat Makefile | grep -v tools/ldb_test.py > .tmp.Makefile mv .tmp.Makefile Makefile make $DEBUG J=1 check } NO_COMPRESSION_COMMANDS="[ { 'name':'Rocksdb No Compression tests', 'oncall':'$ONCALL', 'steps': [ $CLEANUP_ENV, { 'name':'Run RocksDB debug unit test', 'shell':'build_tools/rocksdb-lego-determinator run_no_compression || $CONTRUN_NAME=run_no_compression $TASK_CREATION_TOOL', 'user':'root', $PARSER }, ], $REPORT } ]" # # RocksDB regression # run_regression() { time -v bash -vx ./build_tools/regression_build_test.sh $(mktemp -d $WORKSPACE/leveldb.XXXX) $(mktemp leveldb_test_stats.XXXX) # ======= report size to ODS ======== # parameters: $1 -- key, $2 -- value function send_size_to_ods { curl -s "https://www.intern.facebook.com/intern/agent/ods_set.php?entity=rocksdb_build&key=rocksdb.build_size.$1&value=$2" \ --connect-timeout 60 } # === normal build === make clean make -j$(nproc) static_lib send_size_to_ods static_lib $(stat --printf="%s" librocksdb.a) strip librocksdb.a send_size_to_ods static_lib_stripped $(stat --printf="%s" librocksdb.a) make -j$(nproc) shared_lib send_size_to_ods shared_lib $(stat --printf="%s" `readlink -f librocksdb.so`) strip `readlink -f librocksdb.so` send_size_to_ods shared_lib_stripped $(stat --printf="%s" `readlink -f librocksdb.so`) # === lite build === make clean OPT=-DROCKSDB_LITE make -j$(nproc) static_lib send_size_to_ods static_lib_lite $(stat --printf="%s" librocksdb.a) strip librocksdb.a send_size_to_ods static_lib_lite_stripped $(stat --printf="%s" librocksdb.a) OPT=-DROCKSDB_LITE make -j$(nproc) shared_lib send_size_to_ods shared_lib_lite $(stat --printf="%s" `readlink -f librocksdb.so`) strip `readlink -f librocksdb.so` send_size_to_ods shared_lib_lite_stripped $(stat --printf="%s" `readlink -f librocksdb.so`) } REGRESSION_COMMANDS="[ { 'name':'Rocksdb regression commands', 'oncall':'$ONCALL', 'steps': [ $CLEANUP_ENV, { 'name':'Make and run script', 'shell':'build_tools/rocksdb-lego-determinator run_regression || $CONTRUN_NAME=run_regression $TASK_CREATION_TOOL', 'user':'root', $PARSER }, ], $REPORT } ]" # # RocksDB Java build # JAVA_BUILD_TEST_COMMANDS="[ { 'name':'Rocksdb Java Build', 'oncall':'$ONCALL', 'steps': [ $CLEANUP_ENV, { 'name':'Build RocksDB for Java', 'shell':'$SETUP_JAVA_ENV; $SHM make rocksdbjava || $CONTRUN_NAME=rocksdbjava $TASK_CREATION_TOOL', 'user':'root', $PARSER }, ], $REPORT } ]" case $1 in unit) echo $UNIT_TEST_COMMANDS ;; unit_non_shm) echo $UNIT_TEST_NON_SHM_COMMANDS ;; release) echo $RELEASE_BUILD_COMMANDS ;; unit_481) echo $UNIT_TEST_COMMANDS_481 ;; release_481) echo $RELEASE_BUILD_COMMANDS_481 ;; clang_unit) echo $CLANG_UNIT_TEST_COMMANDS ;; clang_release) echo $CLANG_RELEASE_BUILD_COMMANDS ;; clang_analyze) echo $CLANG_ANALYZE_COMMANDS ;; code_cov) echo $CODE_COV_COMMANDS ;; unity) echo $UNITY_COMMANDS ;; lite) echo $LITE_BUILD_COMMANDS ;; report_lite_binary_size) echo $REPORT_LITE_BINARY_SIZE_COMMANDS ;; stress_crash) echo $STRESS_CRASH_TEST_COMMANDS ;; write_stress) echo $WRITE_STRESS_COMMANDS ;; asan) echo $ASAN_TEST_COMMANDS ;; asan_crash) echo $ASAN_CRASH_TEST_COMMANDS ;; ubsan) echo $UBSAN_TEST_COMMANDS ;; ubsan_crash) echo $UBSAN_CRASH_TEST_COMMANDS ;; valgrind) echo $VALGRIND_TEST_COMMANDS ;; tsan) echo $TSAN_UNIT_TEST_COMMANDS ;; tsan_crash) echo $TSAN_CRASH_TEST_COMMANDS ;; format_compatible) echo $FORMAT_COMPATIBLE_COMMANDS ;; run_format_compatible) run_format_compatible ;; no_compression) echo $NO_COMPRESSION_COMMANDS ;; run_no_compression) run_no_compression ;; regression) echo $REGRESSION_COMMANDS ;; run_regression) run_regression ;; java_build) echo $JAVA_BUILD_TEST_COMMANDS ;; *) echo "Invalid determinator command" ;; esac rocksdb-5.17.2/build_tools/run_ci_db_test.ps1000066400000000000000000000346741337235545400212150ustar00rootroot00000000000000# This script enables you running RocksDB tests by running # All the tests concurrently and utilizing all the cores Param( [switch]$EnableJE = $false, # Look for and use test executable, append _je to listed exclusions [switch]$RunAll = $false, # Will attempt discover all *_test[_je].exe binaries and run all # of them as Google suites. I.e. It will run test cases concurrently # except those mentioned as $Run, those will run as individual test cases # And any execlued with $ExcludeExes or $ExcludeCases # It will also not run any individual test cases # excluded but $ExcludeCasese [switch]$RunAllExe = $false, # Look for and use test exdcutables, append _je to exclusions automatically # It will attempt to run them in parallel w/o breaking them up on individual # test cases. Those listed with $ExcludeExes will be excluded [string]$SuiteRun = "", # Split test suites in test cases and run in parallel, not compatible with $RunAll [string]$Run = "", # Run specified executables in parallel but do not split to test cases [string]$ExcludeCases = "", # Exclude test cases, expects a comma separated list, no spaces # Takes effect when $RunAll or $SuiteRun is specified. Must have full # Test cases name including a group and a parameter if any [string]$ExcludeExes = "", # Exclude exes from consideration, expects a comma separated list, # no spaces. Takes effect only when $RunAll is specified [string]$WorkFolder = "", # Direct tests to use that folder. SSD or Ram drive are better options. # Number of async tasks that would run concurrently. Recommend a number below 64. # However, CPU utlization really depends on the storage media. Recommend ram based disk. # a value of 1 will run everything serially [int]$Concurrency = 8, [int]$Limit = -1 # -1 means do not limit for test purposes ) # Folders and commands must be fullpath to run assuming # the current folder is at the root of the git enlistment $StartDate = (Get-Date) $StartDate $DebugPreference = "Continue" # These tests are not google test suites and we should guard # Against running them as suites $RunOnly = New-Object System.Collections.Generic.HashSet[string] $RunOnly.Add("c_test") | Out-Null $RunOnly.Add("compact_on_deletion_collector_test") | Out-Null $RunOnly.Add("merge_test") | Out-Null $RunOnly.Add("stringappend_test") | Out-Null # Apparently incorrectly written $RunOnly.Add("backupable_db_test") | Out-Null # Disabled $RunOnly.Add("timer_queue_test") | Out-Null # Not a gtest if($RunAll -and $SuiteRun -ne "") { Write-Error "$RunAll and $SuiteRun are not compatible" exit 1 } if($RunAllExe -and $Run -ne "") { Write-Error "$RunAllExe and $Run are not compatible" exit 1 } # If running under Appveyor assume that root [string]$Appveyor = $Env:APPVEYOR_BUILD_FOLDER if($Appveyor -ne "") { $RootFolder = $Appveyor } else { $RootFolder = $PSScriptRoot -replace '\\build_tools', '' } $LogFolder = -Join($RootFolder, "\db_logs\") $BinariesFolder = -Join($RootFolder, "\build\Debug\") if($WorkFolder -eq "") { # If TEST_TMPDIR is set use it [string]$var = $Env:TEST_TMPDIR if($var -eq "") { $WorkFolder = -Join($RootFolder, "\db_tests\") $Env:TEST_TMPDIR = $WorkFolder } else { $WorkFolder = $var } } else { # Override from a command line $Env:TEST_TMPDIR = $WorkFolder } Write-Output "Root: $RootFolder, WorkFolder: $WorkFolder" Write-Output "BinariesFolder: $BinariesFolder, LogFolder: $LogFolder" # Create test directories in the current folder md -Path $WorkFolder -ErrorAction Ignore | Out-Null md -Path $LogFolder -ErrorAction Ignore | Out-Null $ExcludeCasesSet = New-Object System.Collections.Generic.HashSet[string] if($ExcludeCases -ne "") { Write-Host "ExcludeCases: $ExcludeCases" $l = $ExcludeCases -split ' ' ForEach($t in $l) { $ExcludeCasesSet.Add($t) | Out-Null } } $ExcludeExesSet = New-Object System.Collections.Generic.HashSet[string] if($ExcludeExes -ne "") { Write-Host "ExcludeExe: $ExcludeExes" $l = $ExcludeExes -split ' ' ForEach($t in $l) { $ExcludeExesSet.Add($t) | Out-Null } } # Extract the names of its tests by running db_test with --gtest_list_tests. # This filter removes the "#"-introduced comments, and expands to # fully-qualified names by changing input like this: # # DBTest. # Empty # WriteEmptyBatch # MultiThreaded/MultiThreadedDBTest. # MultiThreaded/0 # GetParam() = 0 # MultiThreaded/1 # GetParam() = 1 # # into this: # # DBTest.Empty # DBTest.WriteEmptyBatch # MultiThreaded/MultiThreadedDBTest.MultiThreaded/0 # MultiThreaded/MultiThreadedDBTest.MultiThreaded/1 # # Output into the parameter in a form TestName -> Log File Name function ExtractTestCases([string]$GTestExe, $HashTable) { $Tests = @() # Run db_test to get a list of tests and store it into $a array &$GTestExe --gtest_list_tests | tee -Variable Tests | Out-Null # Current group $Group="" ForEach( $l in $Tests) { # Leading whitespace is fine $l = $l -replace '^\s+','' # Trailing dot is a test group but no whitespace if ($l -match "\.$" -and $l -notmatch "\s+") { $Group = $l } else { # Otherwise it is a test name, remove leading space $test = $l # remove trailing comment if any and create a log name $test = $test -replace '\s+\#.*','' $test = "$Group$test" if($ExcludeCasesSet.Contains($test)) { Write-Warning "$test case is excluded" continue } $test_log = $test -replace '[\./]','_' $test_log += ".log" $log_path = -join ($LogFolder, $test_log) # Add to a hashtable $HashTable.Add($test, $log_path); } } } # The function removes trailing .exe siffix if any, # creates a name for the log file # Then adds the test name if it was not excluded into # a HashTable in a form of test_name -> log_path function MakeAndAdd([string]$token, $HashTable) { $test_name = $token -replace '.exe$', '' $log_name = -join ($test_name, ".log") $log_path = -join ($LogFolder, $log_name) $HashTable.Add($test_name, $log_path) } # This function takes a list of Suites to run # Lists all the test cases in each of the suite # and populates HashOfHashes # Ordered by suite(exe) @{ Exe = @{ TestCase = LogName }} function ProcessSuites($ListOfSuites, $HashOfHashes) { $suite_list = $ListOfSuites # Problem: if you run --gtest_list_tests on # a non Google Test executable then it will start executing # and we will get nowhere ForEach($suite in $suite_list) { if($RunOnly.Contains($suite)) { Write-Warning "$suite is excluded from running as Google test suite" continue } if($EnableJE) { $suite += "_je" } $Cases = [ordered]@{} $Cases.Clear() $suite_exe = -Join ($BinariesFolder, $suite) ExtractTestCases -GTestExe $suite_exe -HashTable $Cases if($Cases.Count -gt 0) { $HashOfHashes.Add($suite, $Cases); } } # Make logs and run if($CasesToRun.Count -lt 1) { Write-Error "Failed to extract tests from $SuiteRun" exit 1 } } # This will contain all test executables to run # Hash table that contains all non suite # Test executable to run $TestExes = [ordered]@{} # Check for test exe that are not # Google Test Suites # Since this is explicitely mentioned it is not subject # for exclusions if($Run -ne "") { $test_list = $Run -split ' ' ForEach($t in $test_list) { if($EnableJE) { $t += "_je" } MakeAndAdd -token $t -HashTable $TestExes } if($TestExes.Count -lt 1) { Write-Error "Failed to extract tests from $Run" exit 1 } } elseif($RunAllExe) { # Discover all the test binaries if($EnableJE) { $pattern = "*_test_je.exe" } else { $pattern = "*_test.exe" } $search_path = -join ($BinariesFolder, $pattern) Write-Host "Binaries Search Path: $search_path" $DiscoveredExe = @() dir -Path $search_path | ForEach-Object { $DiscoveredExe += ($_.Name) } # Remove exclusions ForEach($e in $DiscoveredExe) { $e = $e -replace '.exe$', '' $bare_name = $e -replace '_je$', '' if($ExcludeExesSet.Contains($bare_name)) { Write-Warning "Test $e is excluded" continue } MakeAndAdd -token $e -HashTable $TestExes } if($TestExes.Count -lt 1) { Write-Error "Failed to discover test executables" exit 1 } } # Ordered by exe @{ Exe = @{ TestCase = LogName }} $CasesToRun = [ordered]@{} if($SuiteRun -ne "") { $suite_list = $SuiteRun -split ' ' ProcessSuites -ListOfSuites $suite_list -HashOfHashes $CasesToRun } elseif ($RunAll) { # Discover all the test binaries if($EnableJE) { $pattern = "*_test_je.exe" } else { $pattern = "*_test.exe" } $search_path = -join ($BinariesFolder, $pattern) Write-Host "Binaries Search Path: $search_path" $ListOfExe = @() dir -Path $search_path | ForEach-Object { $ListOfExe += ($_.Name) } # Exclude those in RunOnly from running as suites $ListOfSuites = @() ForEach($e in $ListOfExe) { $e = $e -replace '.exe$', '' $bare_name = $e -replace '_je$', '' if($ExcludeExesSet.Contains($bare_name)) { Write-Warning "Test $e is excluded" continue } if($RunOnly.Contains($bare_name)) { MakeAndAdd -token $e -HashTable $TestExes } else { $ListOfSuites += $bare_name } } ProcessSuites -ListOfSuites $ListOfSuites -HashOfHashes $CasesToRun } # Invoke a test with a filter and redirect all output $InvokeTestCase = { param($exe, $test, $log); &$exe --gtest_filter=$test > $log 2>&1 } # Invoke all tests and redirect output $InvokeTestAsync = { param($exe, $log) &$exe > $log 2>&1 } # Hash that contains tests to rerun if any failed # Those tests will be rerun sequentially # $Rerun = [ordered]@{} # Test limiting factor here [int]$count = 0 # Overall status [bool]$script:success = $true; function RunJobs($Suites, $TestCmds, [int]$ConcurrencyVal) { # Array to wait for any of the running jobs $jobs = @() # Hash JobToLog $JobToLog = @{} # Wait for all to finish and get the results while(($JobToLog.Count -gt 0) -or ($TestCmds.Count -gt 0) -or ($Suites.Count -gt 0)) { # Make sure we have maximum concurrent jobs running if anything # and the $Limit either not set or allows to proceed while(($JobToLog.Count -lt $ConcurrencyVal) -and ((($TestCmds.Count -gt 0) -or ($Suites.Count -gt 0)) -and (($Limit -lt 0) -or ($count -lt $Limit)))) { # We always favore suites to run if available [string]$exe_name = "" [string]$log_path = "" $Cases = @{} if($Suites.Count -gt 0) { # Will the first one ForEach($e in $Suites.Keys) { $exe_name = $e $Cases = $Suites[$e] break } [string]$test_case = "" [string]$log_path = "" ForEach($c in $Cases.Keys) { $test_case = $c $log_path = $Cases[$c] break } Write-Host "Starting $exe_name::$test_case" [string]$Exe = -Join ($BinariesFolder, $exe_name) $job = Start-Job -Name "$exe_name::$test_case" -ArgumentList @($Exe,$test_case,$log_path) -ScriptBlock $InvokeTestCase $JobToLog.Add($job, $log_path) $Cases.Remove($test_case) if($Cases.Count -lt 1) { $Suites.Remove($exe_name) } } elseif ($TestCmds.Count -gt 0) { ForEach($e in $TestCmds.Keys) { $exe_name = $e $log_path = $TestCmds[$e] break } Write-Host "Starting $exe_name" [string]$Exe = -Join ($BinariesFolder, $exe_name) $job = Start-Job -Name $exe_name -ScriptBlock $InvokeTestAsync -ArgumentList @($Exe,$log_path) $JobToLog.Add($job, $log_path) $TestCmds.Remove($exe_name) } else { Write-Error "In the job loop but nothing to run" exit 1 } ++$count } # End of Job starting loop if($JobToLog.Count -lt 1) { break } $jobs = @() foreach($k in $JobToLog.Keys) { $jobs += $k } $completed = Wait-Job -Job $jobs -Any $log = $JobToLog[$completed] $JobToLog.Remove($completed) $message = -join @($completed.Name, " State: ", ($completed.State)) $log_content = @(Get-Content $log) if($completed.State -ne "Completed") { $script:success = $false Write-Warning $message $log_content | Write-Warning } else { # Scan the log. If we find PASSED and no occurrence of FAILED # then it is a success [bool]$pass_found = $false ForEach($l in $log_content) { if(($l -match "^\[\s+FAILED") -or ($l -match "Assertion failed:")) { $pass_found = $false break } if(($l -match "^\[\s+PASSED") -or ($l -match " : PASSED$") -or ($l -match "^PASS$") -or # Special c_test case ($l -match "Passed all tests!") ) { $pass_found = $true } } if(!$pass_found) { $script:success = $false; Write-Warning $message $log_content | Write-Warning } else { Write-Host $message } } # Remove cached job info from the system # Should be no output Receive-Job -Job $completed | Out-Null } } RunJobs -Suites $CasesToRun -TestCmds $TestExes -ConcurrencyVal $Concurrency $EndDate = (Get-Date) New-TimeSpan -Start $StartDate -End $EndDate | ForEach-Object { "Elapsed time: {0:g}" -f $_ } if(!$script:success) { # This does not succeed killing off jobs quick # So we simply exit # Remove-Job -Job $jobs -Force # indicate failure using this exit code exit 1 } exit 0 rocksdb-5.17.2/build_tools/setup_centos7.sh000077500000000000000000000020511337235545400207260ustar00rootroot00000000000000#!/bin/bash set -e ROCKSDB_VERSION="5.10.3" ZSTD_VERSION="1.1.3" echo "This script configures CentOS with everything needed to build and run RocksDB" yum update -y && yum install epel-release -y yum install -y \ wget \ gcc-c++ \ snappy snappy-devel \ zlib zlib-devel \ bzip2 bzip2-devel \ lz4-devel \ libasan \ gflags mkdir -pv /usr/local/rocksdb-${ROCKSDB_VERSION} ln -sfT /usr/local/rocksdb-${ROCKSDB_VERSION} /usr/local/rocksdb wget -qO /tmp/zstd-${ZSTD_VERSION}.tar.gz https://github.com/facebook/zstd/archive/v${ZSTD_VERSION}.tar.gz wget -qO /tmp/rocksdb-${ROCKSDB_VERSION}.tar.gz https://github.com/facebook/rocksdb/archive/v${ROCKSDB_VERSION}.tar.gz cd /tmp tar xzvf zstd-${ZSTD_VERSION}.tar.gz tar xzvf rocksdb-${ROCKSDB_VERSION}.tar.gz -C /usr/local/ echo "Installing ZSTD..." pushd zstd-${ZSTD_VERSION} make && make install popd echo "Compiling RocksDB..." cd /usr/local/rocksdb chown -R vagrant:vagrant /usr/local/rocksdb/ sudo -u vagrant make static_lib cd examples/ sudo -u vagrant make all sudo -u vagrant ./c_simple_example rocksdb-5.17.2/build_tools/update_dependencies.sh000077500000000000000000000076301337235545400221240ustar00rootroot00000000000000#!/bin/sh # # Update dependencies.sh file with the latest avaliable versions BASEDIR=$(dirname $0) OUTPUT="" function log_variable() { echo "$1=${!1}" >> "$OUTPUT" } TP2_LATEST="/mnt/vol/engshare/fbcode/third-party2" ## $1 => lib name ## $2 => lib version (if not provided, will try to pick latest) ## $3 => platform (if not provided, will try to pick latest gcc) ## ## get_lib_base will set a variable named ${LIB_NAME}_BASE to the lib location function get_lib_base() { local lib_name=$1 local lib_version=$2 local lib_platform=$3 local result="$TP2_LATEST/$lib_name/" # Lib Version if [ -z "$lib_version" ] || [ "$lib_version" = "LATEST" ]; then # version is not provided, use latest result=`ls -dr1v $result/*/ | head -n1` else result="$result/$lib_version/" fi # Lib Platform if [ -z "$lib_platform" ]; then # platform is not provided, use latest gcc result=`ls -dr1v $result/gcc-*[^fb]/ | head -n1` else echo $lib_platform result="$result/$lib_platform/" fi result=`ls -1d $result/*/ | head -n1` # lib_name => LIB_NAME_BASE local __res_var=${lib_name^^}"_BASE" __res_var=`echo $__res_var | tr - _` # LIB_NAME_BASE=$result eval $__res_var=`readlink -f $result` log_variable $__res_var } ########################################################### # 5.x dependencies # ########################################################### OUTPUT="$BASEDIR/dependencies.sh" rm -f "$OUTPUT" touch "$OUTPUT" echo "Writing dependencies to $OUTPUT" # Compilers locations GCC_BASE=`readlink -f $TP2_LATEST/gcc/5.x/centos7-native/*/` CLANG_BASE=`readlink -f $TP2_LATEST/llvm-fb/stable/centos7-native/*/` log_variable GCC_BASE log_variable CLANG_BASE # Libraries locations get_lib_base libgcc 5.x gcc-5-glibc-2.23 get_lib_base glibc 2.23 gcc-5-glibc-2.23 get_lib_base snappy LATEST gcc-5-glibc-2.23 get_lib_base zlib LATEST gcc-5-glibc-2.23 get_lib_base bzip2 LATEST gcc-5-glibc-2.23 get_lib_base lz4 LATEST gcc-5-glibc-2.23 get_lib_base zstd LATEST gcc-5-glibc-2.23 get_lib_base gflags LATEST gcc-5-glibc-2.23 get_lib_base jemalloc LATEST gcc-5-glibc-2.23 get_lib_base numa LATEST gcc-5-glibc-2.23 get_lib_base libunwind LATEST gcc-5-glibc-2.23 get_lib_base tbb LATEST gcc-5-glibc-2.23 get_lib_base kernel-headers 4.0.9-36_fbk5_2933_gd092e3f gcc-5-glibc-2.23 get_lib_base binutils LATEST centos7-native get_lib_base valgrind LATEST gcc-5-glibc-2.23 get_lib_base lua 5.2.3 gcc-5-glibc-2.23 git diff $OUTPUT ########################################################### # 4.8.1 dependencies # ########################################################### OUTPUT="$BASEDIR/dependencies_4.8.1.sh" rm -f "$OUTPUT" touch "$OUTPUT" echo "Writing 4.8.1 dependencies to $OUTPUT" # Compilers locations GCC_BASE=`readlink -f $TP2_LATEST/gcc/4.8.1/centos6-native/*/` CLANG_BASE=`readlink -f $TP2_LATEST/llvm-fb/stable/centos6-native/*/` log_variable GCC_BASE log_variable CLANG_BASE # Libraries locations get_lib_base libgcc 4.8.1 gcc-4.8.1-glibc-2.17 get_lib_base glibc 2.17 gcc-4.8.1-glibc-2.17 get_lib_base snappy LATEST gcc-4.8.1-glibc-2.17 get_lib_base zlib LATEST gcc-4.8.1-glibc-2.17 get_lib_base bzip2 LATEST gcc-4.8.1-glibc-2.17 get_lib_base lz4 LATEST gcc-4.8.1-glibc-2.17 get_lib_base zstd LATEST gcc-4.8.1-glibc-2.17 get_lib_base gflags LATEST gcc-4.8.1-glibc-2.17 get_lib_base jemalloc LATEST gcc-4.8.1-glibc-2.17 get_lib_base numa LATEST gcc-4.8.1-glibc-2.17 get_lib_base libunwind LATEST gcc-4.8.1-glibc-2.17 get_lib_base tbb 4.0_update2 gcc-4.8.1-glibc-2.17 get_lib_base kernel-headers LATEST gcc-4.8.1-glibc-2.17 get_lib_base binutils LATEST centos6-native get_lib_base valgrind 3.8.1 gcc-4.8.1-glibc-2.17 get_lib_base lua 5.2.3 centos6-native git diff $OUTPUT rocksdb-5.17.2/build_tools/version.sh000077500000000000000000000012711337235545400176140ustar00rootroot00000000000000#!/usr/bin/env bash if [ "$#" = "0" ]; then echo "Usage: $0 major|minor|patch|full" exit 1 fi if [ "$1" = "major" ]; then cat include/rocksdb/version.h | grep MAJOR | head -n1 | awk '{print $3}' fi if [ "$1" = "minor" ]; then cat include/rocksdb/version.h | grep MINOR | head -n1 | awk '{print $3}' fi if [ "$1" = "patch" ]; then cat include/rocksdb/version.h | grep PATCH | head -n1 | awk '{print $3}' fi if [ "$1" = "full" ]; then awk '/#define ROCKSDB/ { env[$2] = $3 } END { printf "%s.%s.%s\n", env["ROCKSDB_MAJOR"], env["ROCKSDB_MINOR"], env["ROCKSDB_PATCH"] }' \ include/rocksdb/version.h fi rocksdb-5.17.2/cache/000077500000000000000000000000001337235545400143135ustar00rootroot00000000000000rocksdb-5.17.2/cache/cache_bench.cc000066400000000000000000000166531337235545400170370ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #ifndef __STDC_FORMAT_MACROS #define __STDC_FORMAT_MACROS #endif #ifndef GFLAGS #include int main() { fprintf(stderr, "Please install gflags to run rocksdb tools\n"); return 1; } #else #include #include #include #include "port/port.h" #include "rocksdb/cache.h" #include "rocksdb/db.h" #include "rocksdb/env.h" #include "util/gflags_compat.h" #include "util/mutexlock.h" #include "util/random.h" using GFLAGS_NAMESPACE::ParseCommandLineFlags; static const uint32_t KB = 1024; DEFINE_int32(threads, 16, "Number of concurrent threads to run."); DEFINE_int64(cache_size, 8 * KB * KB, "Number of bytes to use as a cache of uncompressed data."); DEFINE_int32(num_shard_bits, 4, "shard_bits."); DEFINE_int64(max_key, 1 * KB * KB * KB, "Max number of key to place in cache"); DEFINE_uint64(ops_per_thread, 1200000, "Number of operations per thread."); DEFINE_bool(populate_cache, false, "Populate cache before operations"); DEFINE_int32(insert_percent, 40, "Ratio of insert to total workload (expressed as a percentage)"); DEFINE_int32(lookup_percent, 50, "Ratio of lookup to total workload (expressed as a percentage)"); DEFINE_int32(erase_percent, 10, "Ratio of erase to total workload (expressed as a percentage)"); DEFINE_bool(use_clock_cache, false, ""); namespace rocksdb { class CacheBench; namespace { void deleter(const Slice& /*key*/, void* value) { delete reinterpret_cast(value); } // State shared by all concurrent executions of the same benchmark. class SharedState { public: explicit SharedState(CacheBench* cache_bench) : cv_(&mu_), num_threads_(FLAGS_threads), num_initialized_(0), start_(false), num_done_(0), cache_bench_(cache_bench) { } ~SharedState() {} port::Mutex* GetMutex() { return &mu_; } port::CondVar* GetCondVar() { return &cv_; } CacheBench* GetCacheBench() const { return cache_bench_; } void IncInitialized() { num_initialized_++; } void IncDone() { num_done_++; } bool AllInitialized() const { return num_initialized_ >= num_threads_; } bool AllDone() const { return num_done_ >= num_threads_; } void SetStart() { start_ = true; } bool Started() const { return start_; } private: port::Mutex mu_; port::CondVar cv_; const uint64_t num_threads_; uint64_t num_initialized_; bool start_; uint64_t num_done_; CacheBench* cache_bench_; }; // Per-thread state for concurrent executions of the same benchmark. struct ThreadState { uint32_t tid; Random rnd; SharedState* shared; ThreadState(uint32_t index, SharedState* _shared) : tid(index), rnd(1000 + index), shared(_shared) {} }; } // namespace class CacheBench { public: CacheBench() : num_threads_(FLAGS_threads) { if (FLAGS_use_clock_cache) { cache_ = NewClockCache(FLAGS_cache_size, FLAGS_num_shard_bits); if (!cache_) { fprintf(stderr, "Clock cache not supported.\n"); exit(1); } } else { cache_ = NewLRUCache(FLAGS_cache_size, FLAGS_num_shard_bits); } } ~CacheBench() {} void PopulateCache() { Random rnd(1); for (int64_t i = 0; i < FLAGS_cache_size; i++) { uint64_t rand_key = rnd.Next() % FLAGS_max_key; // Cast uint64* to be char*, data would be copied to cache Slice key(reinterpret_cast(&rand_key), 8); // do insert cache_->Insert(key, new char[10], 1, &deleter); } } bool Run() { rocksdb::Env* env = rocksdb::Env::Default(); PrintEnv(); SharedState shared(this); std::vector threads(num_threads_); for (uint32_t i = 0; i < num_threads_; i++) { threads[i] = new ThreadState(i, &shared); env->StartThread(ThreadBody, threads[i]); } { MutexLock l(shared.GetMutex()); while (!shared.AllInitialized()) { shared.GetCondVar()->Wait(); } // Record start time uint64_t start_time = env->NowMicros(); // Start all threads shared.SetStart(); shared.GetCondVar()->SignalAll(); // Wait threads to complete while (!shared.AllDone()) { shared.GetCondVar()->Wait(); } // Record end time uint64_t end_time = env->NowMicros(); double elapsed = static_cast(end_time - start_time) * 1e-6; uint32_t qps = static_cast( static_cast(FLAGS_threads * FLAGS_ops_per_thread) / elapsed); fprintf(stdout, "Complete in %.3f s; QPS = %u\n", elapsed, qps); } return true; } private: std::shared_ptr cache_; uint32_t num_threads_; static void ThreadBody(void* v) { ThreadState* thread = reinterpret_cast(v); SharedState* shared = thread->shared; { MutexLock l(shared->GetMutex()); shared->IncInitialized(); if (shared->AllInitialized()) { shared->GetCondVar()->SignalAll(); } while (!shared->Started()) { shared->GetCondVar()->Wait(); } } thread->shared->GetCacheBench()->OperateCache(thread); { MutexLock l(shared->GetMutex()); shared->IncDone(); if (shared->AllDone()) { shared->GetCondVar()->SignalAll(); } } } void OperateCache(ThreadState* thread) { for (uint64_t i = 0; i < FLAGS_ops_per_thread; i++) { uint64_t rand_key = thread->rnd.Next() % FLAGS_max_key; // Cast uint64* to be char*, data would be copied to cache Slice key(reinterpret_cast(&rand_key), 8); int32_t prob_op = thread->rnd.Uniform(100); if (prob_op >= 0 && prob_op < FLAGS_insert_percent) { // do insert cache_->Insert(key, new char[10], 1, &deleter); } else if (prob_op -= FLAGS_insert_percent && prob_op < FLAGS_lookup_percent) { // do lookup auto handle = cache_->Lookup(key); if (handle) { cache_->Release(handle); } } else if (prob_op -= FLAGS_lookup_percent && prob_op < FLAGS_erase_percent) { // do erase cache_->Erase(key); } } } void PrintEnv() const { printf("RocksDB version : %d.%d\n", kMajorVersion, kMinorVersion); printf("Number of threads : %d\n", FLAGS_threads); printf("Ops per thread : %" PRIu64 "\n", FLAGS_ops_per_thread); printf("Cache size : %" PRIu64 "\n", FLAGS_cache_size); printf("Num shard bits : %d\n", FLAGS_num_shard_bits); printf("Max key : %" PRIu64 "\n", FLAGS_max_key); printf("Populate cache : %d\n", FLAGS_populate_cache); printf("Insert percentage : %d%%\n", FLAGS_insert_percent); printf("Lookup percentage : %d%%\n", FLAGS_lookup_percent); printf("Erase percentage : %d%%\n", FLAGS_erase_percent); printf("----------------------------\n"); } }; } // namespace rocksdb int main(int argc, char** argv) { ParseCommandLineFlags(&argc, &argv, true); if (FLAGS_threads <= 0) { fprintf(stderr, "threads number <= 0\n"); exit(1); } rocksdb::CacheBench bench; if (FLAGS_populate_cache) { bench.PopulateCache(); } if (bench.Run()) { return 0; } else { return 1; } } #endif // GFLAGS rocksdb-5.17.2/cache/cache_test.cc000066400000000000000000000476731337235545400167450ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "rocksdb/cache.h" #include #include #include #include #include #include "cache/clock_cache.h" #include "cache/lru_cache.h" #include "util/coding.h" #include "util/string_util.h" #include "util/testharness.h" namespace rocksdb { // Conversions between numeric keys/values and the types expected by Cache. static std::string EncodeKey(int k) { std::string result; PutFixed32(&result, k); return result; } static int DecodeKey(const Slice& k) { assert(k.size() == 4); return DecodeFixed32(k.data()); } static void* EncodeValue(uintptr_t v) { return reinterpret_cast(v); } static int DecodeValue(void* v) { return static_cast(reinterpret_cast(v)); } const std::string kLRU = "lru"; const std::string kClock = "clock"; void dumbDeleter(const Slice& /*key*/, void* /*value*/) {} void eraseDeleter(const Slice& /*key*/, void* value) { Cache* cache = reinterpret_cast(value); cache->Erase("foo"); } class CacheTest : public testing::TestWithParam { public: static CacheTest* current_; static void Deleter(const Slice& key, void* v) { current_->deleted_keys_.push_back(DecodeKey(key)); current_->deleted_values_.push_back(DecodeValue(v)); } static const int kCacheSize = 1000; static const int kNumShardBits = 4; static const int kCacheSize2 = 100; static const int kNumShardBits2 = 2; std::vector deleted_keys_; std::vector deleted_values_; shared_ptr cache_; shared_ptr cache2_; CacheTest() : cache_(NewCache(kCacheSize, kNumShardBits, false)), cache2_(NewCache(kCacheSize2, kNumShardBits2, false)) { current_ = this; } ~CacheTest() { } std::shared_ptr NewCache(size_t capacity) { auto type = GetParam(); if (type == kLRU) { return NewLRUCache(capacity); } if (type == kClock) { return NewClockCache(capacity); } return nullptr; } std::shared_ptr NewCache(size_t capacity, int num_shard_bits, bool strict_capacity_limit) { auto type = GetParam(); if (type == kLRU) { return NewLRUCache(capacity, num_shard_bits, strict_capacity_limit); } if (type == kClock) { return NewClockCache(capacity, num_shard_bits, strict_capacity_limit); } return nullptr; } int Lookup(shared_ptr cache, int key) { Cache::Handle* handle = cache->Lookup(EncodeKey(key)); const int r = (handle == nullptr) ? -1 : DecodeValue(cache->Value(handle)); if (handle != nullptr) { cache->Release(handle); } return r; } void Insert(shared_ptr cache, int key, int value, int charge = 1) { cache->Insert(EncodeKey(key), EncodeValue(value), charge, &CacheTest::Deleter); } void Erase(shared_ptr cache, int key) { cache->Erase(EncodeKey(key)); } int Lookup(int key) { return Lookup(cache_, key); } void Insert(int key, int value, int charge = 1) { Insert(cache_, key, value, charge); } void Erase(int key) { Erase(cache_, key); } int Lookup2(int key) { return Lookup(cache2_, key); } void Insert2(int key, int value, int charge = 1) { Insert(cache2_, key, value, charge); } void Erase2(int key) { Erase(cache2_, key); } }; CacheTest* CacheTest::current_; TEST_P(CacheTest, UsageTest) { // cache is shared_ptr and will be automatically cleaned up. const uint64_t kCapacity = 100000; auto cache = NewCache(kCapacity, 8, false); size_t usage = 0; char value[10] = "abcdef"; // make sure everything will be cached for (int i = 1; i < 100; ++i) { std::string key(i, 'a'); auto kv_size = key.size() + 5; cache->Insert(key, reinterpret_cast(value), kv_size, dumbDeleter); usage += kv_size; ASSERT_EQ(usage, cache->GetUsage()); } // make sure the cache will be overloaded for (uint64_t i = 1; i < kCapacity; ++i) { auto key = ToString(i); cache->Insert(key, reinterpret_cast(value), key.size() + 5, dumbDeleter); } // the usage should be close to the capacity ASSERT_GT(kCapacity, cache->GetUsage()); ASSERT_LT(kCapacity * 0.95, cache->GetUsage()); } TEST_P(CacheTest, PinnedUsageTest) { // cache is shared_ptr and will be automatically cleaned up. const uint64_t kCapacity = 100000; auto cache = NewCache(kCapacity, 8, false); size_t pinned_usage = 0; char value[10] = "abcdef"; std::forward_list unreleased_handles; // Add entries. Unpin some of them after insertion. Then, pin some of them // again. Check GetPinnedUsage(). for (int i = 1; i < 100; ++i) { std::string key(i, 'a'); auto kv_size = key.size() + 5; Cache::Handle* handle; cache->Insert(key, reinterpret_cast(value), kv_size, dumbDeleter, &handle); pinned_usage += kv_size; ASSERT_EQ(pinned_usage, cache->GetPinnedUsage()); if (i % 2 == 0) { cache->Release(handle); pinned_usage -= kv_size; ASSERT_EQ(pinned_usage, cache->GetPinnedUsage()); } else { unreleased_handles.push_front(handle); } if (i % 3 == 0) { unreleased_handles.push_front(cache->Lookup(key)); // If i % 2 == 0, then the entry was unpinned before Lookup, so pinned // usage increased if (i % 2 == 0) { pinned_usage += kv_size; } ASSERT_EQ(pinned_usage, cache->GetPinnedUsage()); } } // check that overloading the cache does not change the pinned usage for (uint64_t i = 1; i < 2 * kCapacity; ++i) { auto key = ToString(i); cache->Insert(key, reinterpret_cast(value), key.size() + 5, dumbDeleter); } ASSERT_EQ(pinned_usage, cache->GetPinnedUsage()); // release handles for pinned entries to prevent memory leaks for (auto handle : unreleased_handles) { cache->Release(handle); } } TEST_P(CacheTest, HitAndMiss) { ASSERT_EQ(-1, Lookup(100)); Insert(100, 101); ASSERT_EQ(101, Lookup(100)); ASSERT_EQ(-1, Lookup(200)); ASSERT_EQ(-1, Lookup(300)); Insert(200, 201); ASSERT_EQ(101, Lookup(100)); ASSERT_EQ(201, Lookup(200)); ASSERT_EQ(-1, Lookup(300)); Insert(100, 102); ASSERT_EQ(102, Lookup(100)); ASSERT_EQ(201, Lookup(200)); ASSERT_EQ(-1, Lookup(300)); ASSERT_EQ(1U, deleted_keys_.size()); ASSERT_EQ(100, deleted_keys_[0]); ASSERT_EQ(101, deleted_values_[0]); } TEST_P(CacheTest, InsertSameKey) { Insert(1, 1); Insert(1, 2); ASSERT_EQ(2, Lookup(1)); } TEST_P(CacheTest, Erase) { Erase(200); ASSERT_EQ(0U, deleted_keys_.size()); Insert(100, 101); Insert(200, 201); Erase(100); ASSERT_EQ(-1, Lookup(100)); ASSERT_EQ(201, Lookup(200)); ASSERT_EQ(1U, deleted_keys_.size()); ASSERT_EQ(100, deleted_keys_[0]); ASSERT_EQ(101, deleted_values_[0]); Erase(100); ASSERT_EQ(-1, Lookup(100)); ASSERT_EQ(201, Lookup(200)); ASSERT_EQ(1U, deleted_keys_.size()); } TEST_P(CacheTest, EntriesArePinned) { Insert(100, 101); Cache::Handle* h1 = cache_->Lookup(EncodeKey(100)); ASSERT_EQ(101, DecodeValue(cache_->Value(h1))); ASSERT_EQ(1U, cache_->GetUsage()); Insert(100, 102); Cache::Handle* h2 = cache_->Lookup(EncodeKey(100)); ASSERT_EQ(102, DecodeValue(cache_->Value(h2))); ASSERT_EQ(0U, deleted_keys_.size()); ASSERT_EQ(2U, cache_->GetUsage()); cache_->Release(h1); ASSERT_EQ(1U, deleted_keys_.size()); ASSERT_EQ(100, deleted_keys_[0]); ASSERT_EQ(101, deleted_values_[0]); ASSERT_EQ(1U, cache_->GetUsage()); Erase(100); ASSERT_EQ(-1, Lookup(100)); ASSERT_EQ(1U, deleted_keys_.size()); ASSERT_EQ(1U, cache_->GetUsage()); cache_->Release(h2); ASSERT_EQ(2U, deleted_keys_.size()); ASSERT_EQ(100, deleted_keys_[1]); ASSERT_EQ(102, deleted_values_[1]); ASSERT_EQ(0U, cache_->GetUsage()); } TEST_P(CacheTest, EvictionPolicy) { Insert(100, 101); Insert(200, 201); // Frequently used entry must be kept around for (int i = 0; i < kCacheSize + 100; i++) { Insert(1000+i, 2000+i); ASSERT_EQ(101, Lookup(100)); } ASSERT_EQ(101, Lookup(100)); ASSERT_EQ(-1, Lookup(200)); } TEST_P(CacheTest, ExternalRefPinsEntries) { Insert(100, 101); Cache::Handle* h = cache_->Lookup(EncodeKey(100)); ASSERT_TRUE(cache_->Ref(h)); ASSERT_EQ(101, DecodeValue(cache_->Value(h))); ASSERT_EQ(1U, cache_->GetUsage()); for (int i = 0; i < 3; ++i) { if (i > 0) { // First release (i == 1) corresponds to Ref(), second release (i == 2) // corresponds to Lookup(). Then, since all external refs are released, // the below insertions should push out the cache entry. cache_->Release(h); } // double cache size because the usage bit in block cache prevents 100 from // being evicted in the first kCacheSize iterations for (int j = 0; j < 2 * kCacheSize + 100; j++) { Insert(1000 + j, 2000 + j); } if (i < 2) { ASSERT_EQ(101, Lookup(100)); } } ASSERT_EQ(-1, Lookup(100)); } TEST_P(CacheTest, EvictionPolicyRef) { Insert(100, 101); Insert(101, 102); Insert(102, 103); Insert(103, 104); Insert(200, 101); Insert(201, 102); Insert(202, 103); Insert(203, 104); Cache::Handle* h201 = cache_->Lookup(EncodeKey(200)); Cache::Handle* h202 = cache_->Lookup(EncodeKey(201)); Cache::Handle* h203 = cache_->Lookup(EncodeKey(202)); Cache::Handle* h204 = cache_->Lookup(EncodeKey(203)); Insert(300, 101); Insert(301, 102); Insert(302, 103); Insert(303, 104); // Insert entries much more than Cache capacity for (int i = 0; i < kCacheSize + 100; i++) { Insert(1000 + i, 2000 + i); } // Check whether the entries inserted in the beginning // are evicted. Ones without extra ref are evicted and // those with are not. ASSERT_EQ(-1, Lookup(100)); ASSERT_EQ(-1, Lookup(101)); ASSERT_EQ(-1, Lookup(102)); ASSERT_EQ(-1, Lookup(103)); ASSERT_EQ(-1, Lookup(300)); ASSERT_EQ(-1, Lookup(301)); ASSERT_EQ(-1, Lookup(302)); ASSERT_EQ(-1, Lookup(303)); ASSERT_EQ(101, Lookup(200)); ASSERT_EQ(102, Lookup(201)); ASSERT_EQ(103, Lookup(202)); ASSERT_EQ(104, Lookup(203)); // Cleaning up all the handles cache_->Release(h201); cache_->Release(h202); cache_->Release(h203); cache_->Release(h204); } TEST_P(CacheTest, EvictEmptyCache) { // Insert item large than capacity to trigger eviction on empty cache. auto cache = NewCache(1, 0, false); ASSERT_OK(cache->Insert("foo", nullptr, 10, dumbDeleter)); } TEST_P(CacheTest, EraseFromDeleter) { // Have deleter which will erase item from cache, which will re-enter // the cache at that point. std::shared_ptr cache = NewCache(10, 0, false); ASSERT_OK(cache->Insert("foo", nullptr, 1, dumbDeleter)); ASSERT_OK(cache->Insert("bar", cache.get(), 1, eraseDeleter)); cache->Erase("bar"); ASSERT_EQ(nullptr, cache->Lookup("foo")); ASSERT_EQ(nullptr, cache->Lookup("bar")); } TEST_P(CacheTest, ErasedHandleState) { // insert a key and get two handles Insert(100, 1000); Cache::Handle* h1 = cache_->Lookup(EncodeKey(100)); Cache::Handle* h2 = cache_->Lookup(EncodeKey(100)); ASSERT_EQ(h1, h2); ASSERT_EQ(DecodeValue(cache_->Value(h1)), 1000); ASSERT_EQ(DecodeValue(cache_->Value(h2)), 1000); // delete the key from the cache Erase(100); // can no longer find in the cache ASSERT_EQ(-1, Lookup(100)); // release one handle cache_->Release(h1); // still can't find in cache ASSERT_EQ(-1, Lookup(100)); cache_->Release(h2); } TEST_P(CacheTest, HeavyEntries) { // Add a bunch of light and heavy entries and then count the combined // size of items still in the cache, which must be approximately the // same as the total capacity. const int kLight = 1; const int kHeavy = 10; int added = 0; int index = 0; while (added < 2*kCacheSize) { const int weight = (index & 1) ? kLight : kHeavy; Insert(index, 1000+index, weight); added += weight; index++; } int cached_weight = 0; for (int i = 0; i < index; i++) { const int weight = (i & 1 ? kLight : kHeavy); int r = Lookup(i); if (r >= 0) { cached_weight += weight; ASSERT_EQ(1000+i, r); } } ASSERT_LE(cached_weight, kCacheSize + kCacheSize/10); } TEST_P(CacheTest, NewId) { uint64_t a = cache_->NewId(); uint64_t b = cache_->NewId(); ASSERT_NE(a, b); } class Value { public: explicit Value(size_t v) : v_(v) { } size_t v_; }; namespace { void deleter(const Slice& /*key*/, void* value) { delete static_cast(value); } } // namespace TEST_P(CacheTest, ReleaseAndErase) { std::shared_ptr cache = NewCache(5, 0, false); Cache::Handle* handle; Status s = cache->Insert(EncodeKey(100), EncodeValue(100), 1, &CacheTest::Deleter, &handle); ASSERT_TRUE(s.ok()); ASSERT_EQ(5U, cache->GetCapacity()); ASSERT_EQ(1U, cache->GetUsage()); ASSERT_EQ(0U, deleted_keys_.size()); auto erased = cache->Release(handle, true); ASSERT_TRUE(erased); // This tests that deleter has been called ASSERT_EQ(1U, deleted_keys_.size()); } TEST_P(CacheTest, ReleaseWithoutErase) { std::shared_ptr cache = NewCache(5, 0, false); Cache::Handle* handle; Status s = cache->Insert(EncodeKey(100), EncodeValue(100), 1, &CacheTest::Deleter, &handle); ASSERT_TRUE(s.ok()); ASSERT_EQ(5U, cache->GetCapacity()); ASSERT_EQ(1U, cache->GetUsage()); ASSERT_EQ(0U, deleted_keys_.size()); auto erased = cache->Release(handle); ASSERT_FALSE(erased); // This tests that deleter is not called. When cache has free capacity it is // not expected to immediately erase the released items. ASSERT_EQ(0U, deleted_keys_.size()); } TEST_P(CacheTest, SetCapacity) { // test1: increase capacity // lets create a cache with capacity 5, // then, insert 5 elements, then increase capacity // to 10, returned capacity should be 10, usage=5 std::shared_ptr cache = NewCache(5, 0, false); std::vector handles(10); // Insert 5 entries, but not releasing. for (size_t i = 0; i < 5; i++) { std::string key = ToString(i+1); Status s = cache->Insert(key, new Value(i + 1), 1, &deleter, &handles[i]); ASSERT_TRUE(s.ok()); } ASSERT_EQ(5U, cache->GetCapacity()); ASSERT_EQ(5U, cache->GetUsage()); cache->SetCapacity(10); ASSERT_EQ(10U, cache->GetCapacity()); ASSERT_EQ(5U, cache->GetUsage()); // test2: decrease capacity // insert 5 more elements to cache, then release 5, // then decrease capacity to 7, final capacity should be 7 // and usage should be 7 for (size_t i = 5; i < 10; i++) { std::string key = ToString(i+1); Status s = cache->Insert(key, new Value(i + 1), 1, &deleter, &handles[i]); ASSERT_TRUE(s.ok()); } ASSERT_EQ(10U, cache->GetCapacity()); ASSERT_EQ(10U, cache->GetUsage()); for (size_t i = 0; i < 5; i++) { cache->Release(handles[i]); } ASSERT_EQ(10U, cache->GetCapacity()); ASSERT_EQ(10U, cache->GetUsage()); cache->SetCapacity(7); ASSERT_EQ(7, cache->GetCapacity()); ASSERT_EQ(7, cache->GetUsage()); // release remaining 5 to keep valgrind happy for (size_t i = 5; i < 10; i++) { cache->Release(handles[i]); } } TEST_P(CacheTest, SetStrictCapacityLimit) { // test1: set the flag to false. Insert more keys than capacity. See if they // all go through. std::shared_ptr cache = NewLRUCache(5, 0, false); std::vector handles(10); Status s; for (size_t i = 0; i < 10; i++) { std::string key = ToString(i + 1); s = cache->Insert(key, new Value(i + 1), 1, &deleter, &handles[i]); ASSERT_OK(s); ASSERT_NE(nullptr, handles[i]); } // test2: set the flag to true. Insert and check if it fails. std::string extra_key = "extra"; Value* extra_value = new Value(0); cache->SetStrictCapacityLimit(true); Cache::Handle* handle; s = cache->Insert(extra_key, extra_value, 1, &deleter, &handle); ASSERT_TRUE(s.IsIncomplete()); ASSERT_EQ(nullptr, handle); for (size_t i = 0; i < 10; i++) { cache->Release(handles[i]); } // test3: init with flag being true. std::shared_ptr cache2 = NewLRUCache(5, 0, true); for (size_t i = 0; i < 5; i++) { std::string key = ToString(i + 1); s = cache2->Insert(key, new Value(i + 1), 1, &deleter, &handles[i]); ASSERT_OK(s); ASSERT_NE(nullptr, handles[i]); } s = cache2->Insert(extra_key, extra_value, 1, &deleter, &handle); ASSERT_TRUE(s.IsIncomplete()); ASSERT_EQ(nullptr, handle); // test insert without handle s = cache2->Insert(extra_key, extra_value, 1, &deleter); // AS if the key have been inserted into cache but get evicted immediately. ASSERT_OK(s); ASSERT_EQ(5, cache->GetUsage()); ASSERT_EQ(nullptr, cache2->Lookup(extra_key)); for (size_t i = 0; i < 5; i++) { cache2->Release(handles[i]); } } TEST_P(CacheTest, OverCapacity) { size_t n = 10; // a LRUCache with n entries and one shard only std::shared_ptr cache = NewCache(n, 0, false); std::vector handles(n+1); // Insert n+1 entries, but not releasing. for (size_t i = 0; i < n + 1; i++) { std::string key = ToString(i+1); Status s = cache->Insert(key, new Value(i + 1), 1, &deleter, &handles[i]); ASSERT_TRUE(s.ok()); } // Guess what's in the cache now? for (size_t i = 0; i < n + 1; i++) { std::string key = ToString(i+1); auto h = cache->Lookup(key); ASSERT_TRUE(h != nullptr); if (h) cache->Release(h); } // the cache is over capacity since nothing could be evicted ASSERT_EQ(n + 1U, cache->GetUsage()); for (size_t i = 0; i < n + 1; i++) { cache->Release(handles[i]); } // Make sure eviction is triggered. cache->SetCapacity(n); // cache is under capacity now since elements were released ASSERT_EQ(n, cache->GetUsage()); // element 0 is evicted and the rest is there // This is consistent with the LRU policy since the element 0 // was released first for (size_t i = 0; i < n + 1; i++) { std::string key = ToString(i+1); auto h = cache->Lookup(key); if (h) { ASSERT_NE(i, 0U); cache->Release(h); } else { ASSERT_EQ(i, 0U); } } } namespace { std::vector> callback_state; void callback(void* entry, size_t charge) { callback_state.push_back({DecodeValue(entry), static_cast(charge)}); } }; TEST_P(CacheTest, ApplyToAllCacheEntiresTest) { std::vector> inserted; callback_state.clear(); for (int i = 0; i < 10; ++i) { Insert(i, i * 2, i + 1); inserted.push_back({i * 2, i + 1}); } cache_->ApplyToAllCacheEntries(callback, true); std::sort(inserted.begin(), inserted.end()); std::sort(callback_state.begin(), callback_state.end()); ASSERT_TRUE(inserted == callback_state); } TEST_P(CacheTest, DefaultShardBits) { // test1: set the flag to false. Insert more keys than capacity. See if they // all go through. std::shared_ptr cache = NewCache(16 * 1024L * 1024L); ShardedCache* sc = dynamic_cast(cache.get()); ASSERT_EQ(5, sc->GetNumShardBits()); cache = NewLRUCache(511 * 1024L, -1, true); sc = dynamic_cast(cache.get()); ASSERT_EQ(0, sc->GetNumShardBits()); cache = NewLRUCache(1024L * 1024L * 1024L, -1, true); sc = dynamic_cast(cache.get()); ASSERT_EQ(6, sc->GetNumShardBits()); } #ifdef SUPPORT_CLOCK_CACHE shared_ptr (*new_clock_cache_func)(size_t, int, bool) = NewClockCache; INSTANTIATE_TEST_CASE_P(CacheTestInstance, CacheTest, testing::Values(kLRU, kClock)); #else INSTANTIATE_TEST_CASE_P(CacheTestInstance, CacheTest, testing::Values(kLRU)); #endif // SUPPORT_CLOCK_CACHE } // namespace rocksdb int main(int argc, char** argv) { ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/cache/clock_cache.cc000066400000000000000000000641271337235545400170520ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "cache/clock_cache.h" #ifndef SUPPORT_CLOCK_CACHE namespace rocksdb { std::shared_ptr NewClockCache(size_t /*capacity*/, int /*num_shard_bits*/, bool /*strict_capacity_limit*/) { // Clock cache not supported. return nullptr; } } // namespace rocksdb #else #include #include #include // "tbb/concurrent_hash_map.h" requires RTTI if exception is enabled. // Disable it so users can chooose to disable RTTI. #ifndef ROCKSDB_USE_RTTI #define TBB_USE_EXCEPTIONS 0 #endif #include "tbb/concurrent_hash_map.h" #include "cache/sharded_cache.h" #include "port/port.h" #include "util/autovector.h" #include "util/mutexlock.h" namespace rocksdb { namespace { // An implementation of the Cache interface based on CLOCK algorithm, with // better concurrent performance than LRUCache. The idea of CLOCK algorithm // is to maintain all cache entries in a circular list, and an iterator // (the "head") pointing to the last examined entry. Eviction starts from the // current head. Each entry is given a second chance before eviction, if it // has been access since last examine. In contrast to LRU, no modification // to the internal data-structure (except for flipping the usage bit) needs // to be done upon lookup. This gives us oppertunity to implement a cache // with better concurrency. // // Each cache entry is represented by a cache handle, and all the handles // are arranged in a circular list, as describe above. Upon erase of an entry, // we never remove the handle. Instead, the handle is put into a recycle bin // to be re-use. This is to avoid memory dealocation, which is hard to deal // with in concurrent environment. // // The cache also maintains a concurrent hash map for lookup. Any concurrent // hash map implementation should do the work. We currently use // tbb::concurrent_hash_map because it supports concurrent erase. // // Each cache handle has the following flags and counters, which are squeeze // in an atomic interger, to make sure the handle always be in a consistent // state: // // * In-cache bit: whether the entry is reference by the cache itself. If // an entry is in cache, its key would also be available in the hash map. // * Usage bit: whether the entry has been access by user since last // examine for eviction. Can be reset by eviction. // * Reference count: reference count by user. // // An entry can be reference only when it's in cache. An entry can be evicted // only when it is in cache, has no usage since last examine, and reference // count is zero. // // The follow figure shows a possible layout of the cache. Boxes represents // cache handles and numbers in each box being in-cache bit, usage bit and // reference count respectively. // // hash map: // +-------+--------+ // | key | handle | // +-------+--------+ // | "foo" | 5 |-------------------------------------+ // +-------+--------+ | // | "bar" | 2 |--+ | // +-------+--------+ | | // | | // head | | // | | | // circular list: | | | // +-------+ +-------+ +-------+ +-------+ +-------+ +------- // |(0,0,0)|---|(1,1,0)|---|(0,0,0)|---|(0,1,3)|---|(1,0,0)|---| ... // +-------+ +-------+ +-------+ +-------+ +-------+ +------- // | | // +-------+ +-----------+ // | | // +---+---+ // recycle bin: | 1 | 3 | // +---+---+ // // Suppose we try to insert "baz" into the cache at this point and the cache is // full. The cache will first look for entries to evict, starting from where // head points to (the second entry). It resets usage bit of the second entry, // skips the third and fourth entry since they are not in cache, and finally // evict the fifth entry ("foo"). It looks at recycle bin for available handle, // grabs handle 3, and insert the key into the handle. The following figure // shows the resulting layout. // // hash map: // +-------+--------+ // | key | handle | // +-------+--------+ // | "baz" | 3 |-------------+ // +-------+--------+ | // | "bar" | 2 |--+ | // +-------+--------+ | | // | | // | | head // | | | // circular list: | | | // +-------+ +-------+ +-------+ +-------+ +-------+ +------- // |(0,0,0)|---|(1,0,0)|---|(1,0,0)|---|(0,1,3)|---|(0,0,0)|---| ... // +-------+ +-------+ +-------+ +-------+ +-------+ +------- // | | // +-------+ +-----------------------------------+ // | | // +---+---+ // recycle bin: | 1 | 5 | // +---+---+ // // A global mutex guards the circular list, the head, and the recycle bin. // We additionally require that modifying the hash map needs to hold the mutex. // As such, Modifying the cache (such as Insert() and Erase()) require to // hold the mutex. Lookup() only access the hash map and the flags associated // with each handle, and don't require explicit locking. Release() has to // acquire the mutex only when it releases the last reference to the entry and // the entry has been erased from cache explicitly. A future improvement could // be to remove the mutex completely. // // Benchmark: // We run readrandom db_bench on a test DB of size 13GB, with size of each // level: // // Level Files Size(MB) // ------------------------- // L0 1 0.01 // L1 18 17.32 // L2 230 182.94 // L3 1186 1833.63 // L4 4602 8140.30 // // We test with both 32 and 16 read threads, with 2GB cache size (the whole DB // doesn't fits in) and 64GB cache size (the whole DB can fit in cache), and // whether to put index and filter blocks in block cache. The benchmark runs // with // with RocksDB 4.10. We got the following result: // // Threads Cache Cache ClockCache LRUCache // Size Index/Filter Throughput(MB/s) Hit Throughput(MB/s) Hit // 32 2GB yes 466.7 85.9% 433.7 86.5% // 32 2GB no 529.9 72.7% 532.7 73.9% // 32 64GB yes 649.9 99.9% 507.9 99.9% // 32 64GB no 740.4 99.9% 662.8 99.9% // 16 2GB yes 278.4 85.9% 283.4 86.5% // 16 2GB no 318.6 72.7% 335.8 73.9% // 16 64GB yes 391.9 99.9% 353.3 99.9% // 16 64GB no 433.8 99.8% 419.4 99.8% // Cache entry meta data. struct CacheHandle { Slice key; uint32_t hash; void* value; size_t charge; void (*deleter)(const Slice&, void* value); // Flags and counters associated with the cache handle: // lowest bit: n-cache bit // second lowest bit: usage bit // the rest bits: reference count // The handle is unused when flags equals to 0. The thread decreases the count // to 0 is responsible to put the handle back to recycle_ and cleanup memory. std::atomic flags; CacheHandle() = default; CacheHandle(const CacheHandle& a) { *this = a; } CacheHandle(const Slice& k, void* v, void (*del)(const Slice& key, void* value)) : key(k), value(v), deleter(del) {} CacheHandle& operator=(const CacheHandle& a) { // Only copy members needed for deletion. key = a.key; value = a.value; deleter = a.deleter; return *this; } }; // Key of hash map. We store hash value with the key for convenience. struct CacheKey { Slice key; uint32_t hash_value; CacheKey() = default; CacheKey(const Slice& k, uint32_t h) { key = k; hash_value = h; } static bool equal(const CacheKey& a, const CacheKey& b) { return a.hash_value == b.hash_value && a.key == b.key; } static size_t hash(const CacheKey& a) { return static_cast(a.hash_value); } }; struct CleanupContext { // List of values to be deleted, along with the key and deleter. autovector to_delete_value; // List of keys to be deleted. autovector to_delete_key; }; // A cache shard which maintains its own CLOCK cache. class ClockCacheShard : public CacheShard { public: // Hash map type. typedef tbb::concurrent_hash_map HashTable; ClockCacheShard(); ~ClockCacheShard(); // Interfaces virtual void SetCapacity(size_t capacity) override; virtual void SetStrictCapacityLimit(bool strict_capacity_limit) override; virtual Status Insert(const Slice& key, uint32_t hash, void* value, size_t charge, void (*deleter)(const Slice& key, void* value), Cache::Handle** handle, Cache::Priority priority) override; virtual Cache::Handle* Lookup(const Slice& key, uint32_t hash) override; // If the entry in in cache, increase reference count and return true. // Return false otherwise. // // Not necessary to hold mutex_ before being called. virtual bool Ref(Cache::Handle* handle) override; virtual bool Release(Cache::Handle* handle, bool force_erase = false) override; virtual void Erase(const Slice& key, uint32_t hash) override; bool EraseAndConfirm(const Slice& key, uint32_t hash, CleanupContext* context); virtual size_t GetUsage() const override; virtual size_t GetPinnedUsage() const override; virtual void EraseUnRefEntries() override; virtual void ApplyToAllCacheEntries(void (*callback)(void*, size_t), bool thread_safe) override; private: static const uint32_t kInCacheBit = 1; static const uint32_t kUsageBit = 2; static const uint32_t kRefsOffset = 2; static const uint32_t kOneRef = 1 << kRefsOffset; // Helper functions to extract cache handle flags and counters. static bool InCache(uint32_t flags) { return flags & kInCacheBit; } static bool HasUsage(uint32_t flags) { return flags & kUsageBit; } static uint32_t CountRefs(uint32_t flags) { return flags >> kRefsOffset; } // Decrease reference count of the entry. If this decreases the count to 0, // recycle the entry. If set_usage is true, also set the usage bit. // // returns true if a value is erased. // // Not necessary to hold mutex_ before being called. bool Unref(CacheHandle* handle, bool set_usage, CleanupContext* context); // Unset in-cache bit of the entry. Recycle the handle if necessary. // // returns true if a value is erased. // // Has to hold mutex_ before being called. bool UnsetInCache(CacheHandle* handle, CleanupContext* context); // Put the handle back to recycle_ list, and put the value associated with // it into to-be-deleted list. It doesn't cleanup the key as it might be // reused by another handle. // // Has to hold mutex_ before being called. void RecycleHandle(CacheHandle* handle, CleanupContext* context); // Delete keys and values in to-be-deleted list. Call the method without // holding mutex, as destructors can be expensive. void Cleanup(const CleanupContext& context); // Examine the handle for eviction. If the handle is in cache, usage bit is // not set, and referece count is 0, evict it from cache. Otherwise unset // the usage bit. // // Has to hold mutex_ before being called. bool TryEvict(CacheHandle* value, CleanupContext* context); // Scan through the circular list, evict entries until we get enough capacity // for new cache entry of specific size. Return true if success, false // otherwise. // // Has to hold mutex_ before being called. bool EvictFromCache(size_t charge, CleanupContext* context); CacheHandle* Insert(const Slice& key, uint32_t hash, void* value, size_t change, void (*deleter)(const Slice& key, void* value), bool hold_reference, CleanupContext* context); // Guards list_, head_, and recycle_. In addition, updating table_ also has // to hold the mutex, to avoid the cache being in inconsistent state. mutable port::Mutex mutex_; // The circular list of cache handles. Initially the list is empty. Once a // handle is needed by insertion, and no more handles are available in // recycle bin, one more handle is appended to the end. // // We use std::deque for the circular list because we want to make sure // pointers to handles are valid through out the life-cycle of the cache // (in contrast to std::vector), and be able to grow the list (in contrast // to statically allocated arrays). std::deque list_; // Pointer to the next handle in the circular list to be examine for // eviction. size_t head_; // Recycle bin of cache handles. autovector recycle_; // Maximum cache size. std::atomic capacity_; // Current total size of the cache. std::atomic usage_; // Total un-released cache size. std::atomic pinned_usage_; // Whether allow insert into cache if cache is full. std::atomic strict_capacity_limit_; // Hash table (tbb::concurrent_hash_map) for lookup. HashTable table_; }; ClockCacheShard::ClockCacheShard() : head_(0), usage_(0), pinned_usage_(0), strict_capacity_limit_(false) {} ClockCacheShard::~ClockCacheShard() { for (auto& handle : list_) { uint32_t flags = handle.flags.load(std::memory_order_relaxed); if (InCache(flags) || CountRefs(flags) > 0) { if (handle.deleter != nullptr) { (*handle.deleter)(handle.key, handle.value); } delete[] handle.key.data(); } } } size_t ClockCacheShard::GetUsage() const { return usage_.load(std::memory_order_relaxed); } size_t ClockCacheShard::GetPinnedUsage() const { return pinned_usage_.load(std::memory_order_relaxed); } void ClockCacheShard::ApplyToAllCacheEntries(void (*callback)(void*, size_t), bool thread_safe) { if (thread_safe) { mutex_.Lock(); } for (auto& handle : list_) { // Use relaxed semantics instead of acquire semantics since we are either // holding mutex, or don't have thread safe requirement. uint32_t flags = handle.flags.load(std::memory_order_relaxed); if (InCache(flags)) { callback(handle.value, handle.charge); } } if (thread_safe) { mutex_.Unlock(); } } void ClockCacheShard::RecycleHandle(CacheHandle* handle, CleanupContext* context) { mutex_.AssertHeld(); assert(!InCache(handle->flags) && CountRefs(handle->flags) == 0); context->to_delete_key.push_back(handle->key.data()); context->to_delete_value.emplace_back(*handle); handle->key.clear(); handle->value = nullptr; handle->deleter = nullptr; recycle_.push_back(handle); usage_.fetch_sub(handle->charge, std::memory_order_relaxed); } void ClockCacheShard::Cleanup(const CleanupContext& context) { for (const CacheHandle& handle : context.to_delete_value) { if (handle.deleter) { (*handle.deleter)(handle.key, handle.value); } } for (const char* key : context.to_delete_key) { delete[] key; } } bool ClockCacheShard::Ref(Cache::Handle* h) { auto handle = reinterpret_cast(h); // CAS loop to increase reference count. uint32_t flags = handle->flags.load(std::memory_order_relaxed); while (InCache(flags)) { // Use acquire semantics on success, as further operations on the cache // entry has to be order after reference count is increased. if (handle->flags.compare_exchange_weak(flags, flags + kOneRef, std::memory_order_acquire, std::memory_order_relaxed)) { if (CountRefs(flags) == 0) { // No reference count before the operation. pinned_usage_.fetch_add(handle->charge, std::memory_order_relaxed); } return true; } } return false; } bool ClockCacheShard::Unref(CacheHandle* handle, bool set_usage, CleanupContext* context) { if (set_usage) { handle->flags.fetch_or(kUsageBit, std::memory_order_relaxed); } // Use acquire-release semantics as previous operations on the cache entry // has to be order before reference count is decreased, and potential cleanup // of the entry has to be order after. uint32_t flags = handle->flags.fetch_sub(kOneRef, std::memory_order_acq_rel); assert(CountRefs(flags) > 0); if (CountRefs(flags) == 1) { // this is the last reference. pinned_usage_.fetch_sub(handle->charge, std::memory_order_relaxed); // Cleanup if it is the last reference. if (!InCache(flags)) { MutexLock l(&mutex_); RecycleHandle(handle, context); } } return context->to_delete_value.size(); } bool ClockCacheShard::UnsetInCache(CacheHandle* handle, CleanupContext* context) { mutex_.AssertHeld(); // Use acquire-release semantics as previous operations on the cache entry // has to be order before reference count is decreased, and potential cleanup // of the entry has to be order after. uint32_t flags = handle->flags.fetch_and(~kInCacheBit, std::memory_order_acq_rel); // Cleanup if it is the last reference. if (InCache(flags) && CountRefs(flags) == 0) { RecycleHandle(handle, context); } return context->to_delete_value.size(); } bool ClockCacheShard::TryEvict(CacheHandle* handle, CleanupContext* context) { mutex_.AssertHeld(); uint32_t flags = kInCacheBit; if (handle->flags.compare_exchange_strong(flags, 0, std::memory_order_acquire, std::memory_order_relaxed)) { bool erased __attribute__((__unused__)) = table_.erase(CacheKey(handle->key, handle->hash)); assert(erased); RecycleHandle(handle, context); return true; } handle->flags.fetch_and(~kUsageBit, std::memory_order_relaxed); return false; } bool ClockCacheShard::EvictFromCache(size_t charge, CleanupContext* context) { size_t usage = usage_.load(std::memory_order_relaxed); size_t capacity = capacity_.load(std::memory_order_relaxed); if (usage == 0) { return charge <= capacity; } size_t new_head = head_; bool second_iteration = false; while (usage + charge > capacity) { assert(new_head < list_.size()); if (TryEvict(&list_[new_head], context)) { usage = usage_.load(std::memory_order_relaxed); } new_head = (new_head + 1 >= list_.size()) ? 0 : new_head + 1; if (new_head == head_) { if (second_iteration) { return false; } else { second_iteration = true; } } } head_ = new_head; return true; } void ClockCacheShard::SetCapacity(size_t capacity) { CleanupContext context; { MutexLock l(&mutex_); capacity_.store(capacity, std::memory_order_relaxed); EvictFromCache(0, &context); } Cleanup(context); } void ClockCacheShard::SetStrictCapacityLimit(bool strict_capacity_limit) { strict_capacity_limit_.store(strict_capacity_limit, std::memory_order_relaxed); } CacheHandle* ClockCacheShard::Insert( const Slice& key, uint32_t hash, void* value, size_t charge, void (*deleter)(const Slice& key, void* value), bool hold_reference, CleanupContext* context) { MutexLock l(&mutex_); bool success = EvictFromCache(charge, context); bool strict = strict_capacity_limit_.load(std::memory_order_relaxed); if (!success && (strict || !hold_reference)) { context->to_delete_key.push_back(key.data()); if (!hold_reference) { context->to_delete_value.emplace_back(key, value, deleter); } return nullptr; } // Grab available handle from recycle bin. If recycle bin is empty, create // and append new handle to end of circular list. CacheHandle* handle = nullptr; if (!recycle_.empty()) { handle = recycle_.back(); recycle_.pop_back(); } else { list_.emplace_back(); handle = &list_.back(); } // Fill handle. handle->key = key; handle->hash = hash; handle->value = value; handle->charge = charge; handle->deleter = deleter; uint32_t flags = hold_reference ? kInCacheBit + kOneRef : kInCacheBit; handle->flags.store(flags, std::memory_order_relaxed); HashTable::accessor accessor; if (table_.find(accessor, CacheKey(key, hash))) { CacheHandle* existing_handle = accessor->second; table_.erase(accessor); UnsetInCache(existing_handle, context); } table_.insert(HashTable::value_type(CacheKey(key, hash), handle)); if (hold_reference) { pinned_usage_.fetch_add(charge, std::memory_order_relaxed); } usage_.fetch_add(charge, std::memory_order_relaxed); return handle; } Status ClockCacheShard::Insert(const Slice& key, uint32_t hash, void* value, size_t charge, void (*deleter)(const Slice& key, void* value), Cache::Handle** out_handle, Cache::Priority /*priority*/) { CleanupContext context; HashTable::accessor accessor; char* key_data = new char[key.size()]; memcpy(key_data, key.data(), key.size()); Slice key_copy(key_data, key.size()); CacheHandle* handle = Insert(key_copy, hash, value, charge, deleter, out_handle != nullptr, &context); Status s; if (out_handle != nullptr) { if (handle == nullptr) { s = Status::Incomplete("Insert failed due to LRU cache being full."); } else { *out_handle = reinterpret_cast(handle); } } Cleanup(context); return s; } Cache::Handle* ClockCacheShard::Lookup(const Slice& key, uint32_t hash) { HashTable::const_accessor accessor; if (!table_.find(accessor, CacheKey(key, hash))) { return nullptr; } CacheHandle* handle = accessor->second; accessor.release(); // Ref() could fail if another thread sneak in and evict/erase the cache // entry before we are able to hold reference. if (!Ref(reinterpret_cast(handle))) { return nullptr; } // Double check the key since the handle may now representing another key // if other threads sneak in, evict/erase the entry and re-used the handle // for another cache entry. if (hash != handle->hash || key != handle->key) { CleanupContext context; Unref(handle, false, &context); // It is possible Unref() delete the entry, so we need to cleanup. Cleanup(context); return nullptr; } return reinterpret_cast(handle); } bool ClockCacheShard::Release(Cache::Handle* h, bool force_erase) { CleanupContext context; CacheHandle* handle = reinterpret_cast(h); bool erased = Unref(handle, true, &context); if (force_erase && !erased) { erased = EraseAndConfirm(handle->key, handle->hash, &context); } Cleanup(context); return erased; } void ClockCacheShard::Erase(const Slice& key, uint32_t hash) { CleanupContext context; EraseAndConfirm(key, hash, &context); Cleanup(context); } bool ClockCacheShard::EraseAndConfirm(const Slice& key, uint32_t hash, CleanupContext* context) { MutexLock l(&mutex_); HashTable::accessor accessor; bool erased = false; if (table_.find(accessor, CacheKey(key, hash))) { CacheHandle* handle = accessor->second; table_.erase(accessor); erased = UnsetInCache(handle, context); } return erased; } void ClockCacheShard::EraseUnRefEntries() { CleanupContext context; { MutexLock l(&mutex_); table_.clear(); for (auto& handle : list_) { UnsetInCache(&handle, &context); } } Cleanup(context); } class ClockCache : public ShardedCache { public: ClockCache(size_t capacity, int num_shard_bits, bool strict_capacity_limit) : ShardedCache(capacity, num_shard_bits, strict_capacity_limit) { int num_shards = 1 << num_shard_bits; shards_ = new ClockCacheShard[num_shards]; SetCapacity(capacity); SetStrictCapacityLimit(strict_capacity_limit); } virtual ~ClockCache() { delete[] shards_; } virtual const char* Name() const override { return "ClockCache"; } virtual CacheShard* GetShard(int shard) override { return reinterpret_cast(&shards_[shard]); } virtual const CacheShard* GetShard(int shard) const override { return reinterpret_cast(&shards_[shard]); } virtual void* Value(Handle* handle) override { return reinterpret_cast(handle)->value; } virtual size_t GetCharge(Handle* handle) const override { return reinterpret_cast(handle)->charge; } virtual uint32_t GetHash(Handle* handle) const override { return reinterpret_cast(handle)->hash; } virtual void DisownData() override { shards_ = nullptr; } private: ClockCacheShard* shards_; }; } // end anonymous namespace std::shared_ptr NewClockCache(size_t capacity, int num_shard_bits, bool strict_capacity_limit) { if (num_shard_bits < 0) { num_shard_bits = GetDefaultCacheShardBits(capacity); } return std::make_shared(capacity, num_shard_bits, strict_capacity_limit); } } // namespace rocksdb #endif // SUPPORT_CLOCK_CACHE rocksdb-5.17.2/cache/clock_cache.h000066400000000000000000000011311337235545400166760ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #include "rocksdb/cache.h" #if defined(TBB) && !defined(ROCKSDB_LITE) #define SUPPORT_CLOCK_CACHE #endif rocksdb-5.17.2/cache/lru_cache.cc000066400000000000000000000363741337235545400165640ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #ifndef __STDC_FORMAT_MACROS #define __STDC_FORMAT_MACROS #endif #include "cache/lru_cache.h" #include #include #include #include #include "util/mutexlock.h" namespace rocksdb { LRUHandleTable::LRUHandleTable() : list_(nullptr), length_(0), elems_(0) { Resize(); } LRUHandleTable::~LRUHandleTable() { ApplyToAllCacheEntries([](LRUHandle* h) { if (h->refs == 1) { h->Free(); } }); delete[] list_; } LRUHandle* LRUHandleTable::Lookup(const Slice& key, uint32_t hash) { return *FindPointer(key, hash); } LRUHandle* LRUHandleTable::Insert(LRUHandle* h) { LRUHandle** ptr = FindPointer(h->key(), h->hash); LRUHandle* old = *ptr; h->next_hash = (old == nullptr ? nullptr : old->next_hash); *ptr = h; if (old == nullptr) { ++elems_; if (elems_ > length_) { // Since each cache entry is fairly large, we aim for a small // average linked list length (<= 1). Resize(); } } return old; } LRUHandle* LRUHandleTable::Remove(const Slice& key, uint32_t hash) { LRUHandle** ptr = FindPointer(key, hash); LRUHandle* result = *ptr; if (result != nullptr) { *ptr = result->next_hash; --elems_; } return result; } LRUHandle** LRUHandleTable::FindPointer(const Slice& key, uint32_t hash) { LRUHandle** ptr = &list_[hash & (length_ - 1)]; while (*ptr != nullptr && ((*ptr)->hash != hash || key != (*ptr)->key())) { ptr = &(*ptr)->next_hash; } return ptr; } void LRUHandleTable::Resize() { uint32_t new_length = 16; while (new_length < elems_ * 1.5) { new_length *= 2; } LRUHandle** new_list = new LRUHandle*[new_length]; memset(new_list, 0, sizeof(new_list[0]) * new_length); uint32_t count = 0; for (uint32_t i = 0; i < length_; i++) { LRUHandle* h = list_[i]; while (h != nullptr) { LRUHandle* next = h->next_hash; uint32_t hash = h->hash; LRUHandle** ptr = &new_list[hash & (new_length - 1)]; h->next_hash = *ptr; *ptr = h; h = next; count++; } } assert(elems_ == count); delete[] list_; list_ = new_list; length_ = new_length; } LRUCacheShard::LRUCacheShard(size_t capacity, bool strict_capacity_limit, double high_pri_pool_ratio) : capacity_(0), high_pri_pool_usage_(0), strict_capacity_limit_(strict_capacity_limit), high_pri_pool_ratio_(high_pri_pool_ratio), high_pri_pool_capacity_(0), usage_(0), lru_usage_(0) { // Make empty circular linked list lru_.next = &lru_; lru_.prev = &lru_; lru_low_pri_ = &lru_; SetCapacity(capacity); } LRUCacheShard::~LRUCacheShard() {} bool LRUCacheShard::Unref(LRUHandle* e) { assert(e->refs > 0); e->refs--; return e->refs == 0; } // Call deleter and free void LRUCacheShard::EraseUnRefEntries() { autovector last_reference_list; { MutexLock l(&mutex_); while (lru_.next != &lru_) { LRUHandle* old = lru_.next; assert(old->InCache()); assert(old->refs == 1); // LRU list contains elements which may be evicted LRU_Remove(old); table_.Remove(old->key(), old->hash); old->SetInCache(false); Unref(old); usage_ -= old->charge; last_reference_list.push_back(old); } } for (auto entry : last_reference_list) { entry->Free(); } } void LRUCacheShard::ApplyToAllCacheEntries(void (*callback)(void*, size_t), bool thread_safe) { if (thread_safe) { mutex_.Lock(); } table_.ApplyToAllCacheEntries( [callback](LRUHandle* h) { callback(h->value, h->charge); }); if (thread_safe) { mutex_.Unlock(); } } void LRUCacheShard::TEST_GetLRUList(LRUHandle** lru, LRUHandle** lru_low_pri) { *lru = &lru_; *lru_low_pri = lru_low_pri_; } size_t LRUCacheShard::TEST_GetLRUSize() { LRUHandle* lru_handle = lru_.next; size_t lru_size = 0; while (lru_handle != &lru_) { lru_size++; lru_handle = lru_handle->next; } return lru_size; } double LRUCacheShard::GetHighPriPoolRatio() { MutexLock l(&mutex_); return high_pri_pool_ratio_; } void LRUCacheShard::LRU_Remove(LRUHandle* e) { assert(e->next != nullptr); assert(e->prev != nullptr); if (lru_low_pri_ == e) { lru_low_pri_ = e->prev; } e->next->prev = e->prev; e->prev->next = e->next; e->prev = e->next = nullptr; lru_usage_ -= e->charge; if (e->InHighPriPool()) { assert(high_pri_pool_usage_ >= e->charge); high_pri_pool_usage_ -= e->charge; } } void LRUCacheShard::LRU_Insert(LRUHandle* e) { assert(e->next == nullptr); assert(e->prev == nullptr); if (high_pri_pool_ratio_ > 0 && (e->IsHighPri() || e->HasHit())) { // Inset "e" to head of LRU list. e->next = &lru_; e->prev = lru_.prev; e->prev->next = e; e->next->prev = e; e->SetInHighPriPool(true); high_pri_pool_usage_ += e->charge; MaintainPoolSize(); } else { // Insert "e" to the head of low-pri pool. Note that when // high_pri_pool_ratio is 0, head of low-pri pool is also head of LRU list. e->next = lru_low_pri_->next; e->prev = lru_low_pri_; e->prev->next = e; e->next->prev = e; e->SetInHighPriPool(false); lru_low_pri_ = e; } lru_usage_ += e->charge; } void LRUCacheShard::MaintainPoolSize() { while (high_pri_pool_usage_ > high_pri_pool_capacity_) { // Overflow last entry in high-pri pool to low-pri pool. lru_low_pri_ = lru_low_pri_->next; assert(lru_low_pri_ != &lru_); lru_low_pri_->SetInHighPriPool(false); high_pri_pool_usage_ -= lru_low_pri_->charge; } } void LRUCacheShard::EvictFromLRU(size_t charge, autovector* deleted) { while (usage_ + charge > capacity_ && lru_.next != &lru_) { LRUHandle* old = lru_.next; assert(old->InCache()); assert(old->refs == 1); // LRU list contains elements which may be evicted LRU_Remove(old); table_.Remove(old->key(), old->hash); old->SetInCache(false); Unref(old); usage_ -= old->charge; deleted->push_back(old); } } void LRUCacheShard::SetCapacity(size_t capacity) { autovector last_reference_list; { MutexLock l(&mutex_); capacity_ = capacity; high_pri_pool_capacity_ = capacity_ * high_pri_pool_ratio_; EvictFromLRU(0, &last_reference_list); } // we free the entries here outside of mutex for // performance reasons for (auto entry : last_reference_list) { entry->Free(); } } void LRUCacheShard::SetStrictCapacityLimit(bool strict_capacity_limit) { MutexLock l(&mutex_); strict_capacity_limit_ = strict_capacity_limit; } Cache::Handle* LRUCacheShard::Lookup(const Slice& key, uint32_t hash) { MutexLock l(&mutex_); LRUHandle* e = table_.Lookup(key, hash); if (e != nullptr) { assert(e->InCache()); if (e->refs == 1) { LRU_Remove(e); } e->refs++; e->SetHit(); } return reinterpret_cast(e); } bool LRUCacheShard::Ref(Cache::Handle* h) { LRUHandle* handle = reinterpret_cast(h); MutexLock l(&mutex_); if (handle->InCache() && handle->refs == 1) { LRU_Remove(handle); } handle->refs++; return true; } void LRUCacheShard::SetHighPriorityPoolRatio(double high_pri_pool_ratio) { MutexLock l(&mutex_); high_pri_pool_ratio_ = high_pri_pool_ratio; high_pri_pool_capacity_ = capacity_ * high_pri_pool_ratio_; MaintainPoolSize(); } bool LRUCacheShard::Release(Cache::Handle* handle, bool force_erase) { if (handle == nullptr) { return false; } LRUHandle* e = reinterpret_cast(handle); bool last_reference = false; { MutexLock l(&mutex_); last_reference = Unref(e); if (last_reference) { usage_ -= e->charge; } if (e->refs == 1 && e->InCache()) { // The item is still in cache, and nobody else holds a reference to it if (usage_ > capacity_ || force_erase) { // the cache is full // The LRU list must be empty since the cache is full assert(!(usage_ > capacity_) || lru_.next == &lru_); // take this opportunity and remove the item table_.Remove(e->key(), e->hash); e->SetInCache(false); Unref(e); usage_ -= e->charge; last_reference = true; } else { // put the item on the list to be potentially freed LRU_Insert(e); } } } // free outside of mutex if (last_reference) { e->Free(); } return last_reference; } Status LRUCacheShard::Insert(const Slice& key, uint32_t hash, void* value, size_t charge, void (*deleter)(const Slice& key, void* value), Cache::Handle** handle, Cache::Priority priority) { // Allocate the memory here outside of the mutex // If the cache is full, we'll have to release it // It shouldn't happen very often though. LRUHandle* e = reinterpret_cast( new char[sizeof(LRUHandle) - 1 + key.size()]); Status s; autovector last_reference_list; e->value = value; e->deleter = deleter; e->charge = charge; e->key_length = key.size(); e->flags = 0; e->hash = hash; e->refs = (handle == nullptr ? 1 : 2); // One from LRUCache, one for the returned handle e->next = e->prev = nullptr; e->SetInCache(true); e->SetPriority(priority); memcpy(e->key_data, key.data(), key.size()); { MutexLock l(&mutex_); // Free the space following strict LRU policy until enough space // is freed or the lru list is empty EvictFromLRU(charge, &last_reference_list); if (usage_ - lru_usage_ + charge > capacity_ && (strict_capacity_limit_ || handle == nullptr)) { if (handle == nullptr) { // Don't insert the entry but still return ok, as if the entry inserted // into cache and get evicted immediately. last_reference_list.push_back(e); } else { delete[] reinterpret_cast(e); *handle = nullptr; s = Status::Incomplete("Insert failed due to LRU cache being full."); } } else { // insert into the cache // note that the cache might get larger than its capacity if not enough // space was freed LRUHandle* old = table_.Insert(e); usage_ += e->charge; if (old != nullptr) { old->SetInCache(false); if (Unref(old)) { usage_ -= old->charge; // old is on LRU because it's in cache and its reference count // was just 1 (Unref returned 0) LRU_Remove(old); last_reference_list.push_back(old); } } if (handle == nullptr) { LRU_Insert(e); } else { *handle = reinterpret_cast(e); } s = Status::OK(); } } // we free the entries here outside of mutex for // performance reasons for (auto entry : last_reference_list) { entry->Free(); } return s; } void LRUCacheShard::Erase(const Slice& key, uint32_t hash) { LRUHandle* e; bool last_reference = false; { MutexLock l(&mutex_); e = table_.Remove(key, hash); if (e != nullptr) { last_reference = Unref(e); if (last_reference) { usage_ -= e->charge; } if (last_reference && e->InCache()) { LRU_Remove(e); } e->SetInCache(false); } } // mutex not held here // last_reference will only be true if e != nullptr if (last_reference) { e->Free(); } } size_t LRUCacheShard::GetUsage() const { MutexLock l(&mutex_); return usage_; } size_t LRUCacheShard::GetPinnedUsage() const { MutexLock l(&mutex_); assert(usage_ >= lru_usage_); return usage_ - lru_usage_; } std::string LRUCacheShard::GetPrintableOptions() const { const int kBufferSize = 200; char buffer[kBufferSize]; { MutexLock l(&mutex_); snprintf(buffer, kBufferSize, " high_pri_pool_ratio: %.3lf\n", high_pri_pool_ratio_); } return std::string(buffer); } LRUCache::LRUCache(size_t capacity, int num_shard_bits, bool strict_capacity_limit, double high_pri_pool_ratio) : ShardedCache(capacity, num_shard_bits, strict_capacity_limit) { num_shards_ = 1 << num_shard_bits; shards_ = reinterpret_cast( port::cacheline_aligned_alloc(sizeof(LRUCacheShard) * num_shards_)); size_t per_shard = (capacity + (num_shards_ - 1)) / num_shards_; for (int i = 0; i < num_shards_; i++) { new (&shards_[i]) LRUCacheShard(per_shard, strict_capacity_limit, high_pri_pool_ratio); } } LRUCache::~LRUCache() { if (shards_ != nullptr) { assert(num_shards_ > 0); for (int i = 0; i < num_shards_; i++) { shards_[i].~LRUCacheShard(); } port::cacheline_aligned_free(shards_); } } CacheShard* LRUCache::GetShard(int shard) { return reinterpret_cast(&shards_[shard]); } const CacheShard* LRUCache::GetShard(int shard) const { return reinterpret_cast(&shards_[shard]); } void* LRUCache::Value(Handle* handle) { return reinterpret_cast(handle)->value; } size_t LRUCache::GetCharge(Handle* handle) const { return reinterpret_cast(handle)->charge; } uint32_t LRUCache::GetHash(Handle* handle) const { return reinterpret_cast(handle)->hash; } void LRUCache::DisownData() { // Do not drop data if compile with ASAN to suppress leak warning. #if defined(__clang__) #if !defined(__has_feature) || !__has_feature(address_sanitizer) shards_ = nullptr; num_shards_ = 0; #endif #else // __clang__ #ifndef __SANITIZE_ADDRESS__ shards_ = nullptr; num_shards_ = 0; #endif // !__SANITIZE_ADDRESS__ #endif // __clang__ } size_t LRUCache::TEST_GetLRUSize() { size_t lru_size_of_all_shards = 0; for (int i = 0; i < num_shards_; i++) { lru_size_of_all_shards += shards_[i].TEST_GetLRUSize(); } return lru_size_of_all_shards; } double LRUCache::GetHighPriPoolRatio() { double result = 0.0; if (num_shards_ > 0) { result = shards_[0].GetHighPriPoolRatio(); } return result; } std::shared_ptr NewLRUCache(const LRUCacheOptions& cache_opts) { return NewLRUCache(cache_opts.capacity, cache_opts.num_shard_bits, cache_opts.strict_capacity_limit, cache_opts.high_pri_pool_ratio); } std::shared_ptr NewLRUCache(size_t capacity, int num_shard_bits, bool strict_capacity_limit, double high_pri_pool_ratio) { if (num_shard_bits >= 20) { return nullptr; // the cache cannot be sharded into too many fine pieces } if (high_pri_pool_ratio < 0.0 || high_pri_pool_ratio > 1.0) { // invalid high_pri_pool_ratio return nullptr; } if (num_shard_bits < 0) { num_shard_bits = GetDefaultCacheShardBits(capacity); } return std::make_shared(capacity, num_shard_bits, strict_capacity_limit, high_pri_pool_ratio); } } // namespace rocksdb rocksdb-5.17.2/cache/lru_cache.h000066400000000000000000000237171337235545400164230ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #include #include "cache/sharded_cache.h" #include "port/port.h" #include "util/autovector.h" namespace rocksdb { // LRU cache implementation // An entry is a variable length heap-allocated structure. // Entries are referenced by cache and/or by any external entity. // The cache keeps all its entries in table. Some elements // are also stored on LRU list. // // LRUHandle can be in these states: // 1. Referenced externally AND in hash table. // In that case the entry is *not* in the LRU. (refs > 1 && in_cache == true) // 2. Not referenced externally and in hash table. In that case the entry is // in the LRU and can be freed. (refs == 1 && in_cache == true) // 3. Referenced externally and not in hash table. In that case the entry is // in not on LRU and not in table. (refs >= 1 && in_cache == false) // // All newly created LRUHandles are in state 1. If you call // LRUCacheShard::Release // on entry in state 1, it will go into state 2. To move from state 1 to // state 3, either call LRUCacheShard::Erase or LRUCacheShard::Insert with the // same key. // To move from state 2 to state 1, use LRUCacheShard::Lookup. // Before destruction, make sure that no handles are in state 1. This means // that any successful LRUCacheShard::Lookup/LRUCacheShard::Insert have a // matching // RUCache::Release (to move into state 2) or LRUCacheShard::Erase (for state 3) struct LRUHandle { void* value; void (*deleter)(const Slice&, void* value); LRUHandle* next_hash; LRUHandle* next; LRUHandle* prev; size_t charge; // TODO(opt): Only allow uint32_t? size_t key_length; uint32_t refs; // a number of refs to this entry // cache itself is counted as 1 // Include the following flags: // in_cache: whether this entry is referenced by the hash table. // is_high_pri: whether this entry is high priority entry. // in_high_pri_pool: whether this entry is in high-pri pool. char flags; uint32_t hash; // Hash of key(); used for fast sharding and comparisons char key_data[1]; // Beginning of key Slice key() const { // For cheaper lookups, we allow a temporary Handle object // to store a pointer to a key in "value". if (next == this) { return *(reinterpret_cast(value)); } else { return Slice(key_data, key_length); } } bool InCache() { return flags & 1; } bool IsHighPri() { return flags & 2; } bool InHighPriPool() { return flags & 4; } bool HasHit() { return flags & 8; } void SetInCache(bool in_cache) { if (in_cache) { flags |= 1; } else { flags &= ~1; } } void SetPriority(Cache::Priority priority) { if (priority == Cache::Priority::HIGH) { flags |= 2; } else { flags &= ~2; } } void SetInHighPriPool(bool in_high_pri_pool) { if (in_high_pri_pool) { flags |= 4; } else { flags &= ~4; } } void SetHit() { flags |= 8; } void Free() { assert((refs == 1 && InCache()) || (refs == 0 && !InCache())); if (deleter) { (*deleter)(key(), value); } delete[] reinterpret_cast(this); } }; // We provide our own simple hash table since it removes a whole bunch // of porting hacks and is also faster than some of the built-in hash // table implementations in some of the compiler/runtime combinations // we have tested. E.g., readrandom speeds up by ~5% over the g++ // 4.4.3's builtin hashtable. class LRUHandleTable { public: LRUHandleTable(); ~LRUHandleTable(); LRUHandle* Lookup(const Slice& key, uint32_t hash); LRUHandle* Insert(LRUHandle* h); LRUHandle* Remove(const Slice& key, uint32_t hash); template void ApplyToAllCacheEntries(T func) { for (uint32_t i = 0; i < length_; i++) { LRUHandle* h = list_[i]; while (h != nullptr) { auto n = h->next_hash; assert(h->InCache()); func(h); h = n; } } } private: // Return a pointer to slot that points to a cache entry that // matches key/hash. If there is no such cache entry, return a // pointer to the trailing slot in the corresponding linked list. LRUHandle** FindPointer(const Slice& key, uint32_t hash); void Resize(); // The table consists of an array of buckets where each bucket is // a linked list of cache entries that hash into the bucket. LRUHandle** list_; uint32_t length_; uint32_t elems_; }; // A single shard of sharded cache. class ALIGN_AS(CACHE_LINE_SIZE) LRUCacheShard : public CacheShard { public: LRUCacheShard(size_t capacity, bool strict_capacity_limit, double high_pri_pool_ratio); virtual ~LRUCacheShard(); // Separate from constructor so caller can easily make an array of LRUCache // if current usage is more than new capacity, the function will attempt to // free the needed space virtual void SetCapacity(size_t capacity) override; // Set the flag to reject insertion if cache if full. virtual void SetStrictCapacityLimit(bool strict_capacity_limit) override; // Set percentage of capacity reserved for high-pri cache entries. void SetHighPriorityPoolRatio(double high_pri_pool_ratio); // Like Cache methods, but with an extra "hash" parameter. virtual Status Insert(const Slice& key, uint32_t hash, void* value, size_t charge, void (*deleter)(const Slice& key, void* value), Cache::Handle** handle, Cache::Priority priority) override; virtual Cache::Handle* Lookup(const Slice& key, uint32_t hash) override; virtual bool Ref(Cache::Handle* handle) override; virtual bool Release(Cache::Handle* handle, bool force_erase = false) override; virtual void Erase(const Slice& key, uint32_t hash) override; // Although in some platforms the update of size_t is atomic, to make sure // GetUsage() and GetPinnedUsage() work correctly under any platform, we'll // protect them with mutex_. virtual size_t GetUsage() const override; virtual size_t GetPinnedUsage() const override; virtual void ApplyToAllCacheEntries(void (*callback)(void*, size_t), bool thread_safe) override; virtual void EraseUnRefEntries() override; virtual std::string GetPrintableOptions() const override; void TEST_GetLRUList(LRUHandle** lru, LRUHandle** lru_low_pri); // Retrieves number of elements in LRU, for unit test purpose only // not threadsafe size_t TEST_GetLRUSize(); // Retrives high pri pool ratio double GetHighPriPoolRatio(); private: void LRU_Remove(LRUHandle* e); void LRU_Insert(LRUHandle* e); // Overflow the last entry in high-pri pool to low-pri pool until size of // high-pri pool is no larger than the size specify by high_pri_pool_pct. void MaintainPoolSize(); // Just reduce the reference count by 1. // Return true if last reference bool Unref(LRUHandle* e); // Free some space following strict LRU policy until enough space // to hold (usage_ + charge) is freed or the lru list is empty // This function is not thread safe - it needs to be executed while // holding the mutex_ void EvictFromLRU(size_t charge, autovector* deleted); // Initialized before use. size_t capacity_; // Memory size for entries in high-pri pool. size_t high_pri_pool_usage_; // Whether to reject insertion if cache reaches its full capacity. bool strict_capacity_limit_; // Ratio of capacity reserved for high priority cache entries. double high_pri_pool_ratio_; // High-pri pool size, equals to capacity * high_pri_pool_ratio. // Remember the value to avoid recomputing each time. double high_pri_pool_capacity_; // Dummy head of LRU list. // lru.prev is newest entry, lru.next is oldest entry. // LRU contains items which can be evicted, ie reference only by cache LRUHandle lru_; // Pointer to head of low-pri pool in LRU list. LRUHandle* lru_low_pri_; // ------------^^^^^^^^^^^^^----------- // Not frequently modified data members // ------------------------------------ // // We separate data members that are updated frequently from the ones that // are not frequently updated so that they don't share the same cache line // which will lead into false cache sharing // // ------------------------------------ // Frequently modified data members // ------------vvvvvvvvvvvvv----------- LRUHandleTable table_; // Memory size for entries residing in the cache size_t usage_; // Memory size for entries residing only in the LRU list size_t lru_usage_; // mutex_ protects the following state. // We don't count mutex_ as the cache's internal state so semantically we // don't mind mutex_ invoking the non-const actions. mutable port::Mutex mutex_; }; class LRUCache : public ShardedCache { public: LRUCache(size_t capacity, int num_shard_bits, bool strict_capacity_limit, double high_pri_pool_ratio); virtual ~LRUCache(); virtual const char* Name() const override { return "LRUCache"; } virtual CacheShard* GetShard(int shard) override; virtual const CacheShard* GetShard(int shard) const override; virtual void* Value(Handle* handle) override; virtual size_t GetCharge(Handle* handle) const override; virtual uint32_t GetHash(Handle* handle) const override; virtual void DisownData() override; // Retrieves number of elements in LRU, for unit test purpose only size_t TEST_GetLRUSize(); // Retrives high pri pool ratio double GetHighPriPoolRatio(); private: LRUCacheShard* shards_ = nullptr; int num_shards_ = 0; }; } // namespace rocksdb rocksdb-5.17.2/cache/lru_cache_test.cc000066400000000000000000000135631337235545400176160ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include "cache/lru_cache.h" #include #include #include "port/port.h" #include "util/testharness.h" namespace rocksdb { class LRUCacheTest : public testing::Test { public: LRUCacheTest() {} ~LRUCacheTest() { DeleteCache(); } void DeleteCache() { if (cache_ != nullptr) { cache_->~LRUCacheShard(); port::cacheline_aligned_free(cache_); cache_ = nullptr; } } void NewCache(size_t capacity, double high_pri_pool_ratio = 0.0) { DeleteCache(); cache_ = reinterpret_cast( port::cacheline_aligned_alloc(sizeof(LRUCacheShard))); new (cache_) LRUCacheShard(capacity, false /*strict_capcity_limit*/, high_pri_pool_ratio); } void Insert(const std::string& key, Cache::Priority priority = Cache::Priority::LOW) { cache_->Insert(key, 0 /*hash*/, nullptr /*value*/, 1 /*charge*/, nullptr /*deleter*/, nullptr /*handle*/, priority); } void Insert(char key, Cache::Priority priority = Cache::Priority::LOW) { Insert(std::string(1, key), priority); } bool Lookup(const std::string& key) { auto handle = cache_->Lookup(key, 0 /*hash*/); if (handle) { cache_->Release(handle); return true; } return false; } bool Lookup(char key) { return Lookup(std::string(1, key)); } void Erase(const std::string& key) { cache_->Erase(key, 0 /*hash*/); } void ValidateLRUList(std::vector keys, size_t num_high_pri_pool_keys = 0) { LRUHandle* lru; LRUHandle* lru_low_pri; cache_->TEST_GetLRUList(&lru, &lru_low_pri); LRUHandle* iter = lru; bool in_high_pri_pool = false; size_t high_pri_pool_keys = 0; if (iter == lru_low_pri) { in_high_pri_pool = true; } for (const auto& key : keys) { iter = iter->next; ASSERT_NE(lru, iter); ASSERT_EQ(key, iter->key().ToString()); ASSERT_EQ(in_high_pri_pool, iter->InHighPriPool()); if (in_high_pri_pool) { high_pri_pool_keys++; } if (iter == lru_low_pri) { ASSERT_FALSE(in_high_pri_pool); in_high_pri_pool = true; } } ASSERT_EQ(lru, iter->next); ASSERT_TRUE(in_high_pri_pool); ASSERT_EQ(num_high_pri_pool_keys, high_pri_pool_keys); } private: LRUCacheShard* cache_ = nullptr; }; TEST_F(LRUCacheTest, BasicLRU) { NewCache(5); for (char ch = 'a'; ch <= 'e'; ch++) { Insert(ch); } ValidateLRUList({"a", "b", "c", "d", "e"}); for (char ch = 'x'; ch <= 'z'; ch++) { Insert(ch); } ValidateLRUList({"d", "e", "x", "y", "z"}); ASSERT_FALSE(Lookup("b")); ValidateLRUList({"d", "e", "x", "y", "z"}); ASSERT_TRUE(Lookup("e")); ValidateLRUList({"d", "x", "y", "z", "e"}); ASSERT_TRUE(Lookup("z")); ValidateLRUList({"d", "x", "y", "e", "z"}); Erase("x"); ValidateLRUList({"d", "y", "e", "z"}); ASSERT_TRUE(Lookup("d")); ValidateLRUList({"y", "e", "z", "d"}); Insert("u"); ValidateLRUList({"y", "e", "z", "d", "u"}); Insert("v"); ValidateLRUList({"e", "z", "d", "u", "v"}); } TEST_F(LRUCacheTest, MidpointInsertion) { // Allocate 2 cache entries to high-pri pool. NewCache(5, 0.45); Insert("a", Cache::Priority::LOW); Insert("b", Cache::Priority::LOW); Insert("c", Cache::Priority::LOW); Insert("x", Cache::Priority::HIGH); Insert("y", Cache::Priority::HIGH); ValidateLRUList({"a", "b", "c", "x", "y"}, 2); // Low-pri entries inserted to the tail of low-pri list (the midpoint). // After lookup, it will move to the tail of the full list. Insert("d", Cache::Priority::LOW); ValidateLRUList({"b", "c", "d", "x", "y"}, 2); ASSERT_TRUE(Lookup("d")); ValidateLRUList({"b", "c", "x", "y", "d"}, 2); // High-pri entries will be inserted to the tail of full list. Insert("z", Cache::Priority::HIGH); ValidateLRUList({"c", "x", "y", "d", "z"}, 2); } TEST_F(LRUCacheTest, EntriesWithPriority) { // Allocate 2 cache entries to high-pri pool. NewCache(5, 0.45); Insert("a", Cache::Priority::LOW); Insert("b", Cache::Priority::LOW); Insert("c", Cache::Priority::LOW); ValidateLRUList({"a", "b", "c"}, 0); // Low-pri entries can take high-pri pool capacity if available Insert("u", Cache::Priority::LOW); Insert("v", Cache::Priority::LOW); ValidateLRUList({"a", "b", "c", "u", "v"}, 0); Insert("X", Cache::Priority::HIGH); Insert("Y", Cache::Priority::HIGH); ValidateLRUList({"c", "u", "v", "X", "Y"}, 2); // High-pri entries can overflow to low-pri pool. Insert("Z", Cache::Priority::HIGH); ValidateLRUList({"u", "v", "X", "Y", "Z"}, 2); // Low-pri entries will be inserted to head of low-pri pool. Insert("a", Cache::Priority::LOW); ValidateLRUList({"v", "X", "a", "Y", "Z"}, 2); // Low-pri entries will be inserted to head of high-pri pool after lookup. ASSERT_TRUE(Lookup("v")); ValidateLRUList({"X", "a", "Y", "Z", "v"}, 2); // High-pri entries will be inserted to the head of the list after lookup. ASSERT_TRUE(Lookup("X")); ValidateLRUList({"a", "Y", "Z", "v", "X"}, 2); ASSERT_TRUE(Lookup("Z")); ValidateLRUList({"a", "Y", "v", "X", "Z"}, 2); Erase("Y"); ValidateLRUList({"a", "v", "X", "Z"}, 2); Erase("X"); ValidateLRUList({"a", "v", "Z"}, 1); Insert("d", Cache::Priority::LOW); Insert("e", Cache::Priority::LOW); ValidateLRUList({"a", "v", "d", "e", "Z"}, 1); Insert("f", Cache::Priority::LOW); Insert("g", Cache::Priority::LOW); ValidateLRUList({"d", "e", "f", "g", "Z"}, 1); ASSERT_TRUE(Lookup("d")); ValidateLRUList({"e", "f", "g", "Z", "d"}, 2); } } // namespace rocksdb int main(int argc, char** argv) { ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/cache/sharded_cache.cc000066400000000000000000000114101337235545400173540ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #ifndef __STDC_FORMAT_MACROS #define __STDC_FORMAT_MACROS #endif #include "cache/sharded_cache.h" #include #include "util/mutexlock.h" namespace rocksdb { ShardedCache::ShardedCache(size_t capacity, int num_shard_bits, bool strict_capacity_limit) : num_shard_bits_(num_shard_bits), capacity_(capacity), strict_capacity_limit_(strict_capacity_limit), last_id_(1) {} void ShardedCache::SetCapacity(size_t capacity) { int num_shards = 1 << num_shard_bits_; const size_t per_shard = (capacity + (num_shards - 1)) / num_shards; MutexLock l(&capacity_mutex_); for (int s = 0; s < num_shards; s++) { GetShard(s)->SetCapacity(per_shard); } capacity_ = capacity; } void ShardedCache::SetStrictCapacityLimit(bool strict_capacity_limit) { int num_shards = 1 << num_shard_bits_; MutexLock l(&capacity_mutex_); for (int s = 0; s < num_shards; s++) { GetShard(s)->SetStrictCapacityLimit(strict_capacity_limit); } strict_capacity_limit_ = strict_capacity_limit; } Status ShardedCache::Insert(const Slice& key, void* value, size_t charge, void (*deleter)(const Slice& key, void* value), Handle** handle, Priority priority) { uint32_t hash = HashSlice(key); return GetShard(Shard(hash)) ->Insert(key, hash, value, charge, deleter, handle, priority); } Cache::Handle* ShardedCache::Lookup(const Slice& key, Statistics* /*stats*/) { uint32_t hash = HashSlice(key); return GetShard(Shard(hash))->Lookup(key, hash); } bool ShardedCache::Ref(Handle* handle) { uint32_t hash = GetHash(handle); return GetShard(Shard(hash))->Ref(handle); } bool ShardedCache::Release(Handle* handle, bool force_erase) { uint32_t hash = GetHash(handle); return GetShard(Shard(hash))->Release(handle, force_erase); } void ShardedCache::Erase(const Slice& key) { uint32_t hash = HashSlice(key); GetShard(Shard(hash))->Erase(key, hash); } uint64_t ShardedCache::NewId() { return last_id_.fetch_add(1, std::memory_order_relaxed); } size_t ShardedCache::GetCapacity() const { MutexLock l(&capacity_mutex_); return capacity_; } bool ShardedCache::HasStrictCapacityLimit() const { MutexLock l(&capacity_mutex_); return strict_capacity_limit_; } size_t ShardedCache::GetUsage() const { // We will not lock the cache when getting the usage from shards. int num_shards = 1 << num_shard_bits_; size_t usage = 0; for (int s = 0; s < num_shards; s++) { usage += GetShard(s)->GetUsage(); } return usage; } size_t ShardedCache::GetUsage(Handle* handle) const { return GetCharge(handle); } size_t ShardedCache::GetPinnedUsage() const { // We will not lock the cache when getting the usage from shards. int num_shards = 1 << num_shard_bits_; size_t usage = 0; for (int s = 0; s < num_shards; s++) { usage += GetShard(s)->GetPinnedUsage(); } return usage; } void ShardedCache::ApplyToAllCacheEntries(void (*callback)(void*, size_t), bool thread_safe) { int num_shards = 1 << num_shard_bits_; for (int s = 0; s < num_shards; s++) { GetShard(s)->ApplyToAllCacheEntries(callback, thread_safe); } } void ShardedCache::EraseUnRefEntries() { int num_shards = 1 << num_shard_bits_; for (int s = 0; s < num_shards; s++) { GetShard(s)->EraseUnRefEntries(); } } std::string ShardedCache::GetPrintableOptions() const { std::string ret; ret.reserve(20000); const int kBufferSize = 200; char buffer[kBufferSize]; { MutexLock l(&capacity_mutex_); snprintf(buffer, kBufferSize, " capacity : %" ROCKSDB_PRIszt "\n", capacity_); ret.append(buffer); snprintf(buffer, kBufferSize, " num_shard_bits : %d\n", num_shard_bits_); ret.append(buffer); snprintf(buffer, kBufferSize, " strict_capacity_limit : %d\n", strict_capacity_limit_); ret.append(buffer); } ret.append(GetShard(0)->GetPrintableOptions()); return ret; } int GetDefaultCacheShardBits(size_t capacity) { int num_shard_bits = 0; size_t min_shard_size = 512L * 1024L; // Every shard is at least 512KB. size_t num_shards = capacity / min_shard_size; while (num_shards >>= 1) { if (++num_shard_bits >= 6) { // No more than 6. return num_shard_bits; } } return num_shard_bits; } } // namespace rocksdb rocksdb-5.17.2/cache/sharded_cache.h000066400000000000000000000100711337235545400172200ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #include #include #include "port/port.h" #include "rocksdb/cache.h" #include "util/hash.h" namespace rocksdb { // Single cache shard interface. class CacheShard { public: CacheShard() = default; virtual ~CacheShard() = default; virtual Status Insert(const Slice& key, uint32_t hash, void* value, size_t charge, void (*deleter)(const Slice& key, void* value), Cache::Handle** handle, Cache::Priority priority) = 0; virtual Cache::Handle* Lookup(const Slice& key, uint32_t hash) = 0; virtual bool Ref(Cache::Handle* handle) = 0; virtual bool Release(Cache::Handle* handle, bool force_erase = false) = 0; virtual void Erase(const Slice& key, uint32_t hash) = 0; virtual void SetCapacity(size_t capacity) = 0; virtual void SetStrictCapacityLimit(bool strict_capacity_limit) = 0; virtual size_t GetUsage() const = 0; virtual size_t GetPinnedUsage() const = 0; virtual void ApplyToAllCacheEntries(void (*callback)(void*, size_t), bool thread_safe) = 0; virtual void EraseUnRefEntries() = 0; virtual std::string GetPrintableOptions() const { return ""; } }; // Generic cache interface which shards cache by hash of keys. 2^num_shard_bits // shards will be created, with capacity split evenly to each of the shards. // Keys are sharded by the highest num_shard_bits bits of hash value. class ShardedCache : public Cache { public: ShardedCache(size_t capacity, int num_shard_bits, bool strict_capacity_limit); virtual ~ShardedCache() = default; virtual const char* Name() const override = 0; virtual CacheShard* GetShard(int shard) = 0; virtual const CacheShard* GetShard(int shard) const = 0; virtual void* Value(Handle* handle) override = 0; virtual size_t GetCharge(Handle* handle) const = 0; virtual uint32_t GetHash(Handle* handle) const = 0; virtual void DisownData() override = 0; virtual void SetCapacity(size_t capacity) override; virtual void SetStrictCapacityLimit(bool strict_capacity_limit) override; virtual Status Insert(const Slice& key, void* value, size_t charge, void (*deleter)(const Slice& key, void* value), Handle** handle, Priority priority) override; virtual Handle* Lookup(const Slice& key, Statistics* stats) override; virtual bool Ref(Handle* handle) override; virtual bool Release(Handle* handle, bool force_erase = false) override; virtual void Erase(const Slice& key) override; virtual uint64_t NewId() override; virtual size_t GetCapacity() const override; virtual bool HasStrictCapacityLimit() const override; virtual size_t GetUsage() const override; virtual size_t GetUsage(Handle* handle) const override; virtual size_t GetPinnedUsage() const override; virtual void ApplyToAllCacheEntries(void (*callback)(void*, size_t), bool thread_safe) override; virtual void EraseUnRefEntries() override; virtual std::string GetPrintableOptions() const override; int GetNumShardBits() const { return num_shard_bits_; } private: static inline uint32_t HashSlice(const Slice& s) { return Hash(s.data(), s.size(), 0); } uint32_t Shard(uint32_t hash) { // Note, hash >> 32 yields hash in gcc, not the zero we expect! return (num_shard_bits_ > 0) ? (hash >> (32 - num_shard_bits_)) : 0; } int num_shard_bits_; mutable port::Mutex capacity_mutex_; size_t capacity_; bool strict_capacity_limit_; std::atomic last_id_; }; extern int GetDefaultCacheShardBits(size_t capacity); } // namespace rocksdb rocksdb-5.17.2/cmake/000077500000000000000000000000001337235545400143305ustar00rootroot00000000000000rocksdb-5.17.2/cmake/RocksDBConfig.cmake.in000066400000000000000000000001541337235545400203540ustar00rootroot00000000000000@PACKAGE_INIT@ include("${CMAKE_CURRENT_LIST_DIR}/RocksDBTargets.cmake") check_required_components(RocksDB) rocksdb-5.17.2/cmake/modules/000077500000000000000000000000001337235545400160005ustar00rootroot00000000000000rocksdb-5.17.2/cmake/modules/FindJeMalloc.cmake000066400000000000000000000011531337235545400212710ustar00rootroot00000000000000# - Find JeMalloc library # Find the native JeMalloc includes and library # # JEMALLOC_INCLUDE_DIR - where to find jemalloc.h, etc. # JEMALLOC_LIBRARIES - List of libraries when using jemalloc. # JEMALLOC_FOUND - True if jemalloc found. find_path(JEMALLOC_INCLUDE_DIR NAMES jemalloc/jemalloc.h HINTS ${JEMALLOC_ROOT_DIR}/include) find_library(JEMALLOC_LIBRARIES NAMES jemalloc HINTS ${JEMALLOC_ROOT_DIR}/lib) include(FindPackageHandleStandardArgs) find_package_handle_standard_args(jemalloc DEFAULT_MSG JEMALLOC_LIBRARIES JEMALLOC_INCLUDE_DIR) mark_as_advanced( JEMALLOC_LIBRARIES JEMALLOC_INCLUDE_DIR) rocksdb-5.17.2/cmake/modules/FindNUMA.cmake000066400000000000000000000010201337235545400203340ustar00rootroot00000000000000# - Find NUMA # Find the NUMA library and includes # # NUMA_INCLUDE_DIR - where to find numa.h, etc. # NUMA_LIBRARIES - List of libraries when using NUMA. # NUMA_FOUND - True if NUMA found. find_path(NUMA_INCLUDE_DIR NAMES numa.h numaif.h HINTS ${NUMA_ROOT_DIR}/include) find_library(NUMA_LIBRARIES NAMES numa HINTS ${NUMA_ROOT_DIR}/lib) include(FindPackageHandleStandardArgs) find_package_handle_standard_args(NUMA DEFAULT_MSG NUMA_LIBRARIES NUMA_INCLUDE_DIR) mark_as_advanced( NUMA_LIBRARIES NUMA_INCLUDE_DIR) rocksdb-5.17.2/cmake/modules/FindTBB.cmake000066400000000000000000000011321337235545400202070ustar00rootroot00000000000000# - Find TBB # Find the Thread Building Blocks library and includes # # TBB_INCLUDE_DIR - where to find tbb.h, etc. # TBB_LIBRARIES - List of libraries when using TBB. # TBB_FOUND - True if TBB found. if(NOT DEFINED TBB_ROOT_DIR) set(TBB_ROOT_DIR "$ENV{TBBROOT}") endif() find_path(TBB_INCLUDE_DIR NAMES tbb/tbb.h HINTS ${TBB_ROOT_DIR}/include) find_library(TBB_LIBRARIES NAMES tbb HINTS ${TBB_ROOT_DIR}/lib ENV LIBRARY_PATH) include(FindPackageHandleStandardArgs) find_package_handle_standard_args(TBB DEFAULT_MSG TBB_LIBRARIES TBB_INCLUDE_DIR) mark_as_advanced( TBB_LIBRARIES TBB_INCLUDE_DIR) rocksdb-5.17.2/cmake/modules/Findbzip2.cmake000066400000000000000000000010441337235545400206300ustar00rootroot00000000000000# - Find Bzip2 # Find the bzip2 compression library and includes # # BZIP2_INCLUDE_DIR - where to find bzlib.h, etc. # BZIP2_LIBRARIES - List of libraries when using bzip2. # BZIP2_FOUND - True if bzip2 found. find_path(BZIP2_INCLUDE_DIR NAMES bzlib.h HINTS ${BZIP2_ROOT_DIR}/include) find_library(BZIP2_LIBRARIES NAMES bz2 HINTS ${BZIP2_ROOT_DIR}/lib) include(FindPackageHandleStandardArgs) find_package_handle_standard_args(bzip2 DEFAULT_MSG BZIP2_LIBRARIES BZIP2_INCLUDE_DIR) mark_as_advanced( BZIP2_LIBRARIES BZIP2_INCLUDE_DIR) rocksdb-5.17.2/cmake/modules/Findlz4.cmake000066400000000000000000000010001337235545400203030ustar00rootroot00000000000000# - Find Lz4 # Find the lz4 compression library and includes # # LZ4_INCLUDE_DIR - where to find lz4.h, etc. # LZ4_LIBRARIES - List of libraries when using lz4. # LZ4_FOUND - True if lz4 found. find_path(LZ4_INCLUDE_DIR NAMES lz4.h HINTS ${LZ4_ROOT_DIR}/include) find_library(LZ4_LIBRARIES NAMES lz4 HINTS ${LZ4_ROOT_DIR}/lib) include(FindPackageHandleStandardArgs) find_package_handle_standard_args(lz4 DEFAULT_MSG LZ4_LIBRARIES LZ4_INCLUDE_DIR) mark_as_advanced( LZ4_LIBRARIES LZ4_INCLUDE_DIR) rocksdb-5.17.2/cmake/modules/Findsnappy.cmake000066400000000000000000000010711337235545400211140ustar00rootroot00000000000000# - Find Snappy # Find the snappy compression library and includes # # SNAPPY_INCLUDE_DIR - where to find snappy.h, etc. # SNAPPY_LIBRARIES - List of libraries when using snappy. # SNAPPY_FOUND - True if snappy found. find_path(SNAPPY_INCLUDE_DIR NAMES snappy.h HINTS ${SNAPPY_ROOT_DIR}/include) find_library(SNAPPY_LIBRARIES NAMES snappy HINTS ${SNAPPY_ROOT_DIR}/lib) include(FindPackageHandleStandardArgs) find_package_handle_standard_args(snappy DEFAULT_MSG SNAPPY_LIBRARIES SNAPPY_INCLUDE_DIR) mark_as_advanced( SNAPPY_LIBRARIES SNAPPY_INCLUDE_DIR) rocksdb-5.17.2/cmake/modules/Findzlib.cmake000066400000000000000000000010201337235545400205340ustar00rootroot00000000000000# - Find zlib # Find the zlib compression library and includes # # ZLIB_INCLUDE_DIR - where to find zlib.h, etc. # ZLIB_LIBRARIES - List of libraries when using zlib. # ZLIB_FOUND - True if zlib found. find_path(ZLIB_INCLUDE_DIR NAMES zlib.h HINTS ${ZLIB_ROOT_DIR}/include) find_library(ZLIB_LIBRARIES NAMES z HINTS ${ZLIB_ROOT_DIR}/lib) include(FindPackageHandleStandardArgs) find_package_handle_standard_args(zlib DEFAULT_MSG ZLIB_LIBRARIES ZLIB_INCLUDE_DIR) mark_as_advanced( ZLIB_LIBRARIES ZLIB_INCLUDE_DIR) rocksdb-5.17.2/cmake/modules/Findzstd.cmake000066400000000000000000000010231337235545400205630ustar00rootroot00000000000000# - Find zstd # Find the zstd compression library and includes # # ZSTD_INCLUDE_DIR - where to find zstd.h, etc. # ZSTD_LIBRARIES - List of libraries when using zstd. # ZSTD_FOUND - True if zstd found. find_path(ZSTD_INCLUDE_DIR NAMES zstd.h HINTS ${ZSTD_ROOT_DIR}/include) find_library(ZSTD_LIBRARIES NAMES zstd HINTS ${ZSTD_ROOT_DIR}/lib) include(FindPackageHandleStandardArgs) find_package_handle_standard_args(zstd DEFAULT_MSG ZSTD_LIBRARIES ZSTD_INCLUDE_DIR) mark_as_advanced( ZSTD_LIBRARIES ZSTD_INCLUDE_DIR) rocksdb-5.17.2/coverage/000077500000000000000000000000001337235545400150435ustar00rootroot00000000000000rocksdb-5.17.2/coverage/coverage_test.sh000077500000000000000000000042751337235545400202440ustar00rootroot00000000000000#!/usr/bin/env bash # Exit on error. set -e if [ -n "$USE_CLANG" ]; then echo "Error: Coverage test is supported only for gcc." exit 1 fi ROOT=".." # Fetch right version of gcov if [ -d /mnt/gvfs/third-party -a -z "$CXX" ]; then source $ROOT/build_tools/fbcode_config.sh GCOV=$GCC_BASE/bin/gcov else GCOV=$(which gcov) fi COVERAGE_DIR="$PWD/COVERAGE_REPORT" mkdir -p $COVERAGE_DIR # Find all gcno files to generate the coverage report GCNO_FILES=`find $ROOT -name "*.gcno"` $GCOV --preserve-paths --relative-only --no-output $GCNO_FILES 2>/dev/null | # Parse the raw gcov report to more human readable form. python $ROOT/coverage/parse_gcov_output.py | # Write the output to both stdout and report file. tee $COVERAGE_DIR/coverage_report_all.txt && echo -e "Generated coverage report for all files: $COVERAGE_DIR/coverage_report_all.txt\n" # TODO: we also need to get the files of the latest commits. # Get the most recently committed files. LATEST_FILES=` git show --pretty="format:" --name-only HEAD | grep -v "^$" | paste -s -d,` RECENT_REPORT=$COVERAGE_DIR/coverage_report_recent.txt echo -e "Recently updated files: $LATEST_FILES\n" > $RECENT_REPORT $GCOV --preserve-paths --relative-only --no-output $GCNO_FILES 2>/dev/null | python $ROOT/coverage/parse_gcov_output.py -interested-files $LATEST_FILES | tee -a $RECENT_REPORT && echo -e "Generated coverage report for recently updated files: $RECENT_REPORT\n" # Unless otherwise specified, we'll not generate html report by default if [ -z "$HTML" ]; then exit 0 fi # Generate the html report. If we cannot find lcov in this machine, we'll simply # skip this step. echo "Generating the html coverage report..." LCOV=$(which lcov || true 2>/dev/null) if [ -z $LCOV ] then echo "Skip: Cannot find lcov to generate the html report." exit 0 fi LCOV_VERSION=$(lcov -v | grep 1.1 || true) if [ $LCOV_VERSION ] then echo "Not supported lcov version. Expect lcov 1.1." exit 0 fi (cd $ROOT; lcov --no-external \ --capture \ --directory $PWD \ --gcov-tool $GCOV \ --output-file $COVERAGE_DIR/coverage.info) genhtml $COVERAGE_DIR/coverage.info -o $COVERAGE_DIR echo "HTML Coverage report is generated in $COVERAGE_DIR" rocksdb-5.17.2/coverage/parse_gcov_output.py000066400000000000000000000102111337235545400211600ustar00rootroot00000000000000import re import sys from optparse import OptionParser # the gcov report follows certain pattern. Each file will have two lines # of report, from which we can extract the file name, total lines and coverage # percentage. def parse_gcov_report(gcov_input): per_file_coverage = {} total_coverage = None for line in sys.stdin: line = line.strip() # --First line of the coverage report (with file name in it)? match_obj = re.match("^File '(.*)'$", line) if match_obj: # fetch the file name from the first line of the report. current_file = match_obj.group(1) continue # -- Second line of the file report (with coverage percentage) match_obj = re.match("^Lines executed:(.*)% of (.*)", line) if match_obj: coverage = float(match_obj.group(1)) lines = int(match_obj.group(2)) if current_file is not None: per_file_coverage[current_file] = (coverage, lines) current_file = None else: # If current_file is not set, we reach the last line of report, # which contains the summarized coverage percentage. total_coverage = (coverage, lines) continue # If the line's pattern doesn't fall into the above categories. We # can simply ignore them since they're either empty line or doesn't # find executable lines of the given file. current_file = None return per_file_coverage, total_coverage def get_option_parser(): usage = "Parse the gcov output and generate more human-readable code " +\ "coverage report." parser = OptionParser(usage) parser.add_option( "--interested-files", "-i", dest="filenames", help="Comma separated files names. if specified, we will display " + "the coverage report only for interested source files. " + "Otherwise we will display the coverage report for all " + "source files." ) return parser def display_file_coverage(per_file_coverage, total_coverage): # To print out auto-adjustable column, we need to know the longest # length of file names. max_file_name_length = max( len(fname) for fname in per_file_coverage.keys() ) # -- Print header # size of separator is determined by 3 column sizes: # file name, coverage percentage and lines. header_template = \ "%" + str(max_file_name_length) + "s\t%s\t%s" separator = "-" * (max_file_name_length + 10 + 20) print header_template % ("Filename", "Coverage", "Lines") # noqa: E999 T25377293 Grandfathered in print separator # -- Print body # template for printing coverage report for each file. record_template = "%" + str(max_file_name_length) + "s\t%5.2f%%\t%10d" for fname, coverage_info in per_file_coverage.items(): coverage, lines = coverage_info print record_template % (fname, coverage, lines) # -- Print footer if total_coverage: print separator print record_template % ("Total", total_coverage[0], total_coverage[1]) def report_coverage(): parser = get_option_parser() (options, args) = parser.parse_args() interested_files = set() if options.filenames is not None: interested_files = set(f.strip() for f in options.filenames.split(',')) # To make things simple, right now we only read gcov report from the input per_file_coverage, total_coverage = parse_gcov_report(sys.stdin) # Check if we need to display coverage info for interested files. if len(interested_files): per_file_coverage = dict( (fname, per_file_coverage[fname]) for fname in interested_files if fname in per_file_coverage ) # If we only interested in several files, it makes no sense to report # the total_coverage total_coverage = None if not len(per_file_coverage): print >> sys.stderr, "Cannot find coverage info for the given files." return display_file_coverage(per_file_coverage, total_coverage) if __name__ == "__main__": report_coverage() rocksdb-5.17.2/db/000077500000000000000000000000001337235545400136355ustar00rootroot00000000000000rocksdb-5.17.2/db/builder.cc000066400000000000000000000226351337235545400156020ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "db/builder.h" #include #include #include #include "db/compaction_iterator.h" #include "db/dbformat.h" #include "db/event_helpers.h" #include "db/internal_stats.h" #include "db/merge_helper.h" #include "db/table_cache.h" #include "db/version_edit.h" #include "monitoring/iostats_context_imp.h" #include "monitoring/thread_status_util.h" #include "rocksdb/db.h" #include "rocksdb/env.h" #include "rocksdb/iterator.h" #include "rocksdb/options.h" #include "rocksdb/table.h" #include "table/block_based_table_builder.h" #include "table/format.h" #include "table/internal_iterator.h" #include "util/file_reader_writer.h" #include "util/filename.h" #include "util/stop_watch.h" #include "util/sync_point.h" namespace rocksdb { class TableFactory; TableBuilder* NewTableBuilder( const ImmutableCFOptions& ioptions, const MutableCFOptions& moptions, const InternalKeyComparator& internal_comparator, const std::vector>* int_tbl_prop_collector_factories, uint32_t column_family_id, const std::string& column_family_name, WritableFileWriter* file, const CompressionType compression_type, const CompressionOptions& compression_opts, int level, const std::string* compression_dict, const bool skip_filters, const uint64_t creation_time, const uint64_t oldest_key_time) { assert((column_family_id == TablePropertiesCollectorFactory::Context::kUnknownColumnFamily) == column_family_name.empty()); return ioptions.table_factory->NewTableBuilder( TableBuilderOptions(ioptions, moptions, internal_comparator, int_tbl_prop_collector_factories, compression_type, compression_opts, compression_dict, skip_filters, column_family_name, level, creation_time, oldest_key_time), column_family_id, file); } Status BuildTable( const std::string& dbname, Env* env, const ImmutableCFOptions& ioptions, const MutableCFOptions& mutable_cf_options, const EnvOptions& env_options, TableCache* table_cache, InternalIterator* iter, std::unique_ptr range_del_iter, FileMetaData* meta, const InternalKeyComparator& internal_comparator, const std::vector>* int_tbl_prop_collector_factories, uint32_t column_family_id, const std::string& column_family_name, std::vector snapshots, SequenceNumber earliest_write_conflict_snapshot, SnapshotChecker* snapshot_checker, const CompressionType compression, const CompressionOptions& compression_opts, bool paranoid_file_checks, InternalStats* internal_stats, TableFileCreationReason reason, EventLogger* event_logger, int job_id, const Env::IOPriority io_priority, TableProperties* table_properties, int level, const uint64_t creation_time, const uint64_t oldest_key_time, Env::WriteLifeTimeHint write_hint) { assert((column_family_id == TablePropertiesCollectorFactory::Context::kUnknownColumnFamily) == column_family_name.empty()); // Reports the IOStats for flush for every following bytes. const size_t kReportFlushIOStatsEvery = 1048576; Status s; meta->fd.file_size = 0; iter->SeekToFirst(); std::unique_ptr range_del_agg( new RangeDelAggregator(internal_comparator, snapshots)); s = range_del_agg->AddTombstones(std::move(range_del_iter)); if (!s.ok()) { // may be non-ok if a range tombstone key is unparsable return s; } std::string fname = TableFileName(ioptions.cf_paths, meta->fd.GetNumber(), meta->fd.GetPathId()); #ifndef ROCKSDB_LITE EventHelpers::NotifyTableFileCreationStarted( ioptions.listeners, dbname, column_family_name, fname, job_id, reason); #endif // !ROCKSDB_LITE TableProperties tp; if (iter->Valid() || !range_del_agg->IsEmpty()) { TableBuilder* builder; unique_ptr file_writer; { unique_ptr file; #ifndef NDEBUG bool use_direct_writes = env_options.use_direct_writes; TEST_SYNC_POINT_CALLBACK("BuildTable:create_file", &use_direct_writes); #endif // !NDEBUG s = NewWritableFile(env, fname, &file, env_options); if (!s.ok()) { EventHelpers::LogAndNotifyTableFileCreationFinished( event_logger, ioptions.listeners, dbname, column_family_name, fname, job_id, meta->fd, tp, reason, s); return s; } file->SetIOPriority(io_priority); file->SetWriteLifeTimeHint(write_hint); file_writer.reset(new WritableFileWriter( std::move(file), fname, env_options, ioptions.statistics)); builder = NewTableBuilder( ioptions, mutable_cf_options, internal_comparator, int_tbl_prop_collector_factories, column_family_id, column_family_name, file_writer.get(), compression, compression_opts, level, nullptr /* compression_dict */, false /* skip_filters */, creation_time, oldest_key_time); } MergeHelper merge(env, internal_comparator.user_comparator(), ioptions.merge_operator, nullptr, ioptions.info_log, true /* internal key corruption is not ok */, snapshots.empty() ? 0 : snapshots.back(), snapshot_checker); CompactionIterator c_iter( iter, internal_comparator.user_comparator(), &merge, kMaxSequenceNumber, &snapshots, earliest_write_conflict_snapshot, snapshot_checker, env, ShouldReportDetailedTime(env, ioptions.statistics), true /* internal key corruption is not ok */, range_del_agg.get()); c_iter.SeekToFirst(); for (; c_iter.Valid(); c_iter.Next()) { const Slice& key = c_iter.key(); const Slice& value = c_iter.value(); builder->Add(key, value); meta->UpdateBoundaries(key, c_iter.ikey().sequence); // TODO(noetzli): Update stats after flush, too. if (io_priority == Env::IO_HIGH && IOSTATS(bytes_written) >= kReportFlushIOStatsEvery) { ThreadStatusUtil::SetThreadOperationProperty( ThreadStatus::FLUSH_BYTES_WRITTEN, IOSTATS(bytes_written)); } } for (auto it = range_del_agg->NewIterator(); it->Valid(); it->Next()) { auto tombstone = it->Tombstone(); auto kv = tombstone.Serialize(); builder->Add(kv.first.Encode(), kv.second); meta->UpdateBoundariesForRange(kv.first, tombstone.SerializeEndKey(), tombstone.seq_, internal_comparator); } // Finish and check for builder errors tp = builder->GetTableProperties(); bool empty = builder->NumEntries() == 0 && tp.num_range_deletions == 0; s = c_iter.status(); if (!s.ok() || empty) { builder->Abandon(); } else { s = builder->Finish(); } if (s.ok() && !empty) { uint64_t file_size = builder->FileSize(); meta->fd.file_size = file_size; meta->marked_for_compaction = builder->NeedCompact(); assert(meta->fd.GetFileSize() > 0); tp = builder->GetTableProperties(); // refresh now that builder is finished if (table_properties) { *table_properties = tp; } } delete builder; // Finish and check for file errors if (s.ok() && !empty) { StopWatch sw(env, ioptions.statistics, TABLE_SYNC_MICROS); s = file_writer->Sync(ioptions.use_fsync); } if (s.ok() && !empty) { s = file_writer->Close(); } if (s.ok() && !empty) { // Verify that the table is usable // We set for_compaction to false and don't OptimizeForCompactionTableRead // here because this is a special case after we finish the table building // No matter whether use_direct_io_for_flush_and_compaction is true, // we will regrad this verification as user reads since the goal is // to cache it here for further user reads std::unique_ptr it(table_cache->NewIterator( ReadOptions(), env_options, internal_comparator, *meta, nullptr /* range_del_agg */, mutable_cf_options.prefix_extractor.get(), nullptr, (internal_stats == nullptr) ? nullptr : internal_stats->GetFileReadHist(0), false /* for_compaction */, nullptr /* arena */, false /* skip_filter */, level)); s = it->status(); if (s.ok() && paranoid_file_checks) { for (it->SeekToFirst(); it->Valid(); it->Next()) { } s = it->status(); } } } // Check for input iterator errors if (!iter->status().ok()) { s = iter->status(); } if (!s.ok() || meta->fd.GetFileSize() == 0) { env->DeleteFile(fname); } // Output to event logger and fire events. EventHelpers::LogAndNotifyTableFileCreationFinished( event_logger, ioptions.listeners, dbname, column_family_name, fname, job_id, meta->fd, tp, reason, s); return s; } } // namespace rocksdb rocksdb-5.17.2/db/builder.h000066400000000000000000000072121337235545400154360ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #include #include #include #include "db/table_properties_collector.h" #include "options/cf_options.h" #include "rocksdb/comparator.h" #include "rocksdb/env.h" #include "rocksdb/listener.h" #include "rocksdb/options.h" #include "rocksdb/status.h" #include "rocksdb/table_properties.h" #include "rocksdb/types.h" #include "table/scoped_arena_iterator.h" #include "util/event_logger.h" namespace rocksdb { struct Options; struct FileMetaData; class Env; struct EnvOptions; class Iterator; class SnapshotChecker; class TableCache; class VersionEdit; class TableBuilder; class WritableFileWriter; class InternalStats; // @param column_family_name Name of the column family that is also identified // by column_family_id, or empty string if unknown. It must outlive the // TableBuilder returned by this function. // @param compression_dict Data for presetting the compression library's // dictionary, or nullptr. TableBuilder* NewTableBuilder( const ImmutableCFOptions& options, const MutableCFOptions& moptions, const InternalKeyComparator& internal_comparator, const std::vector>* int_tbl_prop_collector_factories, uint32_t column_family_id, const std::string& column_family_name, WritableFileWriter* file, const CompressionType compression_type, const CompressionOptions& compression_opts, int level, const std::string* compression_dict = nullptr, const bool skip_filters = false, const uint64_t creation_time = 0, const uint64_t oldest_key_time = 0); // Build a Table file from the contents of *iter. The generated file // will be named according to number specified in meta. On success, the rest of // *meta will be filled with metadata about the generated table. // If no data is present in *iter, meta->file_size will be set to // zero, and no Table file will be produced. // // @param column_family_name Name of the column family that is also identified // by column_family_id, or empty string if unknown. extern Status BuildTable( const std::string& dbname, Env* env, const ImmutableCFOptions& options, const MutableCFOptions& mutable_cf_options, const EnvOptions& env_options, TableCache* table_cache, InternalIterator* iter, std::unique_ptr range_del_iter, FileMetaData* meta, const InternalKeyComparator& internal_comparator, const std::vector>* int_tbl_prop_collector_factories, uint32_t column_family_id, const std::string& column_family_name, std::vector snapshots, SequenceNumber earliest_write_conflict_snapshot, SnapshotChecker* snapshot_checker, const CompressionType compression, const CompressionOptions& compression_opts, bool paranoid_file_checks, InternalStats* internal_stats, TableFileCreationReason reason, EventLogger* event_logger = nullptr, int job_id = 0, const Env::IOPriority io_priority = Env::IO_HIGH, TableProperties* table_properties = nullptr, int level = -1, const uint64_t creation_time = 0, const uint64_t oldest_key_time = 0, Env::WriteLifeTimeHint write_hint = Env::WLTH_NOT_SET); } // namespace rocksdb rocksdb-5.17.2/db/c.cc000066400000000000000000004132141337235545400143730ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #ifndef ROCKSDB_LITE #include "rocksdb/c.h" #include #include "port/port.h" #include "rocksdb/cache.h" #include "rocksdb/compaction_filter.h" #include "rocksdb/comparator.h" #include "rocksdb/convenience.h" #include "rocksdb/db.h" #include "rocksdb/env.h" #include "rocksdb/filter_policy.h" #include "rocksdb/iterator.h" #include "rocksdb/memtablerep.h" #include "rocksdb/merge_operator.h" #include "rocksdb/options.h" #include "rocksdb/rate_limiter.h" #include "rocksdb/slice_transform.h" #include "rocksdb/statistics.h" #include "rocksdb/status.h" #include "rocksdb/table.h" #include "rocksdb/universal_compaction.h" #include "rocksdb/utilities/backupable_db.h" #include "rocksdb/utilities/checkpoint.h" #include "rocksdb/utilities/db_ttl.h" #include "rocksdb/utilities/memory_util.h" #include "rocksdb/utilities/optimistic_transaction_db.h" #include "rocksdb/utilities/transaction.h" #include "rocksdb/utilities/transaction_db.h" #include "rocksdb/utilities/write_batch_with_index.h" #include "rocksdb/write_batch.h" #include "rocksdb/perf_context.h" #include "utilities/merge_operators.h" #include #include #include using rocksdb::BytewiseComparator; using rocksdb::Cache; using rocksdb::ColumnFamilyDescriptor; using rocksdb::ColumnFamilyHandle; using rocksdb::ColumnFamilyOptions; using rocksdb::CompactionFilter; using rocksdb::CompactionFilterFactory; using rocksdb::CompactionFilterContext; using rocksdb::CompactionOptionsFIFO; using rocksdb::Comparator; using rocksdb::CompressionType; using rocksdb::WALRecoveryMode; using rocksdb::DB; using rocksdb::DBOptions; using rocksdb::DbPath; using rocksdb::Env; using rocksdb::EnvOptions; using rocksdb::InfoLogLevel; using rocksdb::FileLock; using rocksdb::FilterPolicy; using rocksdb::FlushOptions; using rocksdb::IngestExternalFileOptions; using rocksdb::Iterator; using rocksdb::Logger; using rocksdb::MergeOperator; using rocksdb::MergeOperators; using rocksdb::NewBloomFilterPolicy; using rocksdb::NewLRUCache; using rocksdb::Options; using rocksdb::BlockBasedTableOptions; using rocksdb::CuckooTableOptions; using rocksdb::RandomAccessFile; using rocksdb::Range; using rocksdb::ReadOptions; using rocksdb::SequentialFile; using rocksdb::Slice; using rocksdb::SliceParts; using rocksdb::SliceTransform; using rocksdb::Snapshot; using rocksdb::SstFileWriter; using rocksdb::Status; using rocksdb::WritableFile; using rocksdb::WriteBatch; using rocksdb::WriteBatchWithIndex; using rocksdb::WriteOptions; using rocksdb::LiveFileMetaData; using rocksdb::BackupEngine; using rocksdb::BackupableDBOptions; using rocksdb::BackupInfo; using rocksdb::BackupID; using rocksdb::RestoreOptions; using rocksdb::CompactRangeOptions; using rocksdb::BottommostLevelCompaction; using rocksdb::RateLimiter; using rocksdb::NewGenericRateLimiter; using rocksdb::PinnableSlice; using rocksdb::TransactionDBOptions; using rocksdb::TransactionDB; using rocksdb::TransactionOptions; using rocksdb::OptimisticTransactionDB; using rocksdb::OptimisticTransactionOptions; using rocksdb::Transaction; using rocksdb::Checkpoint; using rocksdb::TransactionLogIterator; using rocksdb::BatchResult; using rocksdb::PerfLevel; using rocksdb::PerfContext; using rocksdb::MemoryUtil; using std::shared_ptr; using std::vector; using std::unordered_set; using std::map; extern "C" { struct rocksdb_t { DB* rep; }; struct rocksdb_backup_engine_t { BackupEngine* rep; }; struct rocksdb_backup_engine_info_t { std::vector rep; }; struct rocksdb_restore_options_t { RestoreOptions rep; }; struct rocksdb_iterator_t { Iterator* rep; }; struct rocksdb_writebatch_t { WriteBatch rep; }; struct rocksdb_writebatch_wi_t { WriteBatchWithIndex* rep; }; struct rocksdb_snapshot_t { const Snapshot* rep; }; struct rocksdb_flushoptions_t { FlushOptions rep; }; struct rocksdb_fifo_compaction_options_t { CompactionOptionsFIFO rep; }; struct rocksdb_readoptions_t { ReadOptions rep; // stack variables to set pointers to in ReadOptions Slice upper_bound; Slice lower_bound; }; struct rocksdb_writeoptions_t { WriteOptions rep; }; struct rocksdb_options_t { Options rep; }; struct rocksdb_compactoptions_t { CompactRangeOptions rep; }; struct rocksdb_block_based_table_options_t { BlockBasedTableOptions rep; }; struct rocksdb_cuckoo_table_options_t { CuckooTableOptions rep; }; struct rocksdb_seqfile_t { SequentialFile* rep; }; struct rocksdb_randomfile_t { RandomAccessFile* rep; }; struct rocksdb_writablefile_t { WritableFile* rep; }; struct rocksdb_wal_iterator_t { TransactionLogIterator* rep; }; struct rocksdb_wal_readoptions_t { TransactionLogIterator::ReadOptions rep; }; struct rocksdb_filelock_t { FileLock* rep; }; struct rocksdb_logger_t { shared_ptr rep; }; struct rocksdb_cache_t { shared_ptr rep; }; struct rocksdb_livefiles_t { std::vector rep; }; struct rocksdb_column_family_handle_t { ColumnFamilyHandle* rep; }; struct rocksdb_envoptions_t { EnvOptions rep; }; struct rocksdb_ingestexternalfileoptions_t { IngestExternalFileOptions rep; }; struct rocksdb_sstfilewriter_t { SstFileWriter* rep; }; struct rocksdb_ratelimiter_t { shared_ptr rep; }; struct rocksdb_perfcontext_t { PerfContext* rep; }; struct rocksdb_pinnableslice_t { PinnableSlice rep; }; struct rocksdb_transactiondb_options_t { TransactionDBOptions rep; }; struct rocksdb_transactiondb_t { TransactionDB* rep; }; struct rocksdb_transaction_options_t { TransactionOptions rep; }; struct rocksdb_transaction_t { Transaction* rep; }; struct rocksdb_checkpoint_t { Checkpoint* rep; }; struct rocksdb_optimistictransactiondb_t { OptimisticTransactionDB* rep; }; struct rocksdb_optimistictransaction_options_t { OptimisticTransactionOptions rep; }; struct rocksdb_compactionfiltercontext_t { CompactionFilter::Context rep; }; struct rocksdb_compactionfilter_t : public CompactionFilter { void* state_; void (*destructor_)(void*); unsigned char (*filter_)( void*, int level, const char* key, size_t key_length, const char* existing_value, size_t value_length, char** new_value, size_t *new_value_length, unsigned char* value_changed); const char* (*name_)(void*); unsigned char ignore_snapshots_; virtual ~rocksdb_compactionfilter_t() { (*destructor_)(state_); } virtual bool Filter(int level, const Slice& key, const Slice& existing_value, std::string* new_value, bool* value_changed) const override { char* c_new_value = nullptr; size_t new_value_length = 0; unsigned char c_value_changed = 0; unsigned char result = (*filter_)( state_, level, key.data(), key.size(), existing_value.data(), existing_value.size(), &c_new_value, &new_value_length, &c_value_changed); if (c_value_changed) { new_value->assign(c_new_value, new_value_length); *value_changed = true; } return result; } virtual const char* Name() const override { return (*name_)(state_); } virtual bool IgnoreSnapshots() const override { return ignore_snapshots_; } }; struct rocksdb_compactionfilterfactory_t : public CompactionFilterFactory { void* state_; void (*destructor_)(void*); rocksdb_compactionfilter_t* (*create_compaction_filter_)( void*, rocksdb_compactionfiltercontext_t* context); const char* (*name_)(void*); virtual ~rocksdb_compactionfilterfactory_t() { (*destructor_)(state_); } virtual std::unique_ptr CreateCompactionFilter( const CompactionFilter::Context& context) override { rocksdb_compactionfiltercontext_t ccontext; ccontext.rep = context; CompactionFilter* cf = (*create_compaction_filter_)(state_, &ccontext); return std::unique_ptr(cf); } virtual const char* Name() const override { return (*name_)(state_); } }; struct rocksdb_comparator_t : public Comparator { void* state_; void (*destructor_)(void*); int (*compare_)( void*, const char* a, size_t alen, const char* b, size_t blen); const char* (*name_)(void*); virtual ~rocksdb_comparator_t() { (*destructor_)(state_); } virtual int Compare(const Slice& a, const Slice& b) const override { return (*compare_)(state_, a.data(), a.size(), b.data(), b.size()); } virtual const char* Name() const override { return (*name_)(state_); } // No-ops since the C binding does not support key shortening methods. virtual void FindShortestSeparator(std::string*, const Slice&) const override {} virtual void FindShortSuccessor(std::string* /*key*/) const override {} }; struct rocksdb_filterpolicy_t : public FilterPolicy { void* state_; void (*destructor_)(void*); const char* (*name_)(void*); char* (*create_)( void*, const char* const* key_array, const size_t* key_length_array, int num_keys, size_t* filter_length); unsigned char (*key_match_)( void*, const char* key, size_t length, const char* filter, size_t filter_length); void (*delete_filter_)( void*, const char* filter, size_t filter_length); virtual ~rocksdb_filterpolicy_t() { (*destructor_)(state_); } virtual const char* Name() const override { return (*name_)(state_); } virtual void CreateFilter(const Slice* keys, int n, std::string* dst) const override { std::vector key_pointers(n); std::vector key_sizes(n); for (int i = 0; i < n; i++) { key_pointers[i] = keys[i].data(); key_sizes[i] = keys[i].size(); } size_t len; char* filter = (*create_)(state_, &key_pointers[0], &key_sizes[0], n, &len); dst->append(filter, len); if (delete_filter_ != nullptr) { (*delete_filter_)(state_, filter, len); } else { free(filter); } } virtual bool KeyMayMatch(const Slice& key, const Slice& filter) const override { return (*key_match_)(state_, key.data(), key.size(), filter.data(), filter.size()); } }; struct rocksdb_mergeoperator_t : public MergeOperator { void* state_; void (*destructor_)(void*); const char* (*name_)(void*); char* (*full_merge_)( void*, const char* key, size_t key_length, const char* existing_value, size_t existing_value_length, const char* const* operands_list, const size_t* operands_list_length, int num_operands, unsigned char* success, size_t* new_value_length); char* (*partial_merge_)(void*, const char* key, size_t key_length, const char* const* operands_list, const size_t* operands_list_length, int num_operands, unsigned char* success, size_t* new_value_length); void (*delete_value_)( void*, const char* value, size_t value_length); virtual ~rocksdb_mergeoperator_t() { (*destructor_)(state_); } virtual const char* Name() const override { return (*name_)(state_); } virtual bool FullMergeV2(const MergeOperationInput& merge_in, MergeOperationOutput* merge_out) const override { size_t n = merge_in.operand_list.size(); std::vector operand_pointers(n); std::vector operand_sizes(n); for (size_t i = 0; i < n; i++) { Slice operand(merge_in.operand_list[i]); operand_pointers[i] = operand.data(); operand_sizes[i] = operand.size(); } const char* existing_value_data = nullptr; size_t existing_value_len = 0; if (merge_in.existing_value != nullptr) { existing_value_data = merge_in.existing_value->data(); existing_value_len = merge_in.existing_value->size(); } unsigned char success; size_t new_value_len; char* tmp_new_value = (*full_merge_)( state_, merge_in.key.data(), merge_in.key.size(), existing_value_data, existing_value_len, &operand_pointers[0], &operand_sizes[0], static_cast(n), &success, &new_value_len); merge_out->new_value.assign(tmp_new_value, new_value_len); if (delete_value_ != nullptr) { (*delete_value_)(state_, tmp_new_value, new_value_len); } else { free(tmp_new_value); } return success; } virtual bool PartialMergeMulti(const Slice& key, const std::deque& operand_list, std::string* new_value, Logger* /*logger*/) const override { size_t operand_count = operand_list.size(); std::vector operand_pointers(operand_count); std::vector operand_sizes(operand_count); for (size_t i = 0; i < operand_count; ++i) { Slice operand(operand_list[i]); operand_pointers[i] = operand.data(); operand_sizes[i] = operand.size(); } unsigned char success; size_t new_value_len; char* tmp_new_value = (*partial_merge_)( state_, key.data(), key.size(), &operand_pointers[0], &operand_sizes[0], static_cast(operand_count), &success, &new_value_len); new_value->assign(tmp_new_value, new_value_len); if (delete_value_ != nullptr) { (*delete_value_)(state_, tmp_new_value, new_value_len); } else { free(tmp_new_value); } return success; } }; struct rocksdb_dbpath_t { DbPath rep; }; struct rocksdb_env_t { Env* rep; bool is_default; }; struct rocksdb_slicetransform_t : public SliceTransform { void* state_; void (*destructor_)(void*); const char* (*name_)(void*); char* (*transform_)( void*, const char* key, size_t length, size_t* dst_length); unsigned char (*in_domain_)( void*, const char* key, size_t length); unsigned char (*in_range_)( void*, const char* key, size_t length); virtual ~rocksdb_slicetransform_t() { (*destructor_)(state_); } virtual const char* Name() const override { return (*name_)(state_); } virtual Slice Transform(const Slice& src) const override { size_t len; char* dst = (*transform_)(state_, src.data(), src.size(), &len); return Slice(dst, len); } virtual bool InDomain(const Slice& src) const override { return (*in_domain_)(state_, src.data(), src.size()); } virtual bool InRange(const Slice& src) const override { return (*in_range_)(state_, src.data(), src.size()); } }; struct rocksdb_universal_compaction_options_t { rocksdb::CompactionOptionsUniversal *rep; }; static bool SaveError(char** errptr, const Status& s) { assert(errptr != nullptr); if (s.ok()) { return false; } else if (*errptr == nullptr) { *errptr = strdup(s.ToString().c_str()); } else { // TODO(sanjay): Merge with existing error? // This is a bug if *errptr is not created by malloc() free(*errptr); *errptr = strdup(s.ToString().c_str()); } return true; } static char* CopyString(const std::string& str) { char* result = reinterpret_cast(malloc(sizeof(char) * str.size())); memcpy(result, str.data(), sizeof(char) * str.size()); return result; } rocksdb_t* rocksdb_open( const rocksdb_options_t* options, const char* name, char** errptr) { DB* db; if (SaveError(errptr, DB::Open(options->rep, std::string(name), &db))) { return nullptr; } rocksdb_t* result = new rocksdb_t; result->rep = db; return result; } rocksdb_t* rocksdb_open_with_ttl( const rocksdb_options_t* options, const char* name, int ttl, char** errptr) { rocksdb::DBWithTTL* db; if (SaveError(errptr, rocksdb::DBWithTTL::Open(options->rep, std::string(name), &db, ttl))) { return nullptr; } rocksdb_t* result = new rocksdb_t; result->rep = db; return result; } rocksdb_t* rocksdb_open_for_read_only( const rocksdb_options_t* options, const char* name, unsigned char error_if_log_file_exist, char** errptr) { DB* db; if (SaveError(errptr, DB::OpenForReadOnly(options->rep, std::string(name), &db, error_if_log_file_exist))) { return nullptr; } rocksdb_t* result = new rocksdb_t; result->rep = db; return result; } rocksdb_backup_engine_t* rocksdb_backup_engine_open( const rocksdb_options_t* options, const char* path, char** errptr) { BackupEngine* be; if (SaveError(errptr, BackupEngine::Open(options->rep.env, BackupableDBOptions(path, nullptr, true, options->rep.info_log.get()), &be))) { return nullptr; } rocksdb_backup_engine_t* result = new rocksdb_backup_engine_t; result->rep = be; return result; } void rocksdb_backup_engine_create_new_backup(rocksdb_backup_engine_t* be, rocksdb_t* db, char** errptr) { SaveError(errptr, be->rep->CreateNewBackup(db->rep)); } void rocksdb_backup_engine_create_new_backup_flush(rocksdb_backup_engine_t* be, rocksdb_t* db, unsigned char flush_before_backup, char** errptr) { SaveError(errptr, be->rep->CreateNewBackup(db->rep, flush_before_backup)); } void rocksdb_backup_engine_purge_old_backups(rocksdb_backup_engine_t* be, uint32_t num_backups_to_keep, char** errptr) { SaveError(errptr, be->rep->PurgeOldBackups(num_backups_to_keep)); } rocksdb_restore_options_t* rocksdb_restore_options_create() { return new rocksdb_restore_options_t; } void rocksdb_restore_options_destroy(rocksdb_restore_options_t* opt) { delete opt; } void rocksdb_restore_options_set_keep_log_files(rocksdb_restore_options_t* opt, int v) { opt->rep.keep_log_files = v; } void rocksdb_backup_engine_verify_backup(rocksdb_backup_engine_t* be, uint32_t backup_id, char** errptr) { SaveError(errptr, be->rep->VerifyBackup(static_cast(backup_id))); } void rocksdb_backup_engine_restore_db_from_latest_backup( rocksdb_backup_engine_t* be, const char* db_dir, const char* wal_dir, const rocksdb_restore_options_t* restore_options, char** errptr) { SaveError(errptr, be->rep->RestoreDBFromLatestBackup(std::string(db_dir), std::string(wal_dir), restore_options->rep)); } const rocksdb_backup_engine_info_t* rocksdb_backup_engine_get_backup_info( rocksdb_backup_engine_t* be) { rocksdb_backup_engine_info_t* result = new rocksdb_backup_engine_info_t; be->rep->GetBackupInfo(&result->rep); return result; } int rocksdb_backup_engine_info_count(const rocksdb_backup_engine_info_t* info) { return static_cast(info->rep.size()); } int64_t rocksdb_backup_engine_info_timestamp( const rocksdb_backup_engine_info_t* info, int index) { return info->rep[index].timestamp; } uint32_t rocksdb_backup_engine_info_backup_id( const rocksdb_backup_engine_info_t* info, int index) { return info->rep[index].backup_id; } uint64_t rocksdb_backup_engine_info_size( const rocksdb_backup_engine_info_t* info, int index) { return info->rep[index].size; } uint32_t rocksdb_backup_engine_info_number_files( const rocksdb_backup_engine_info_t* info, int index) { return info->rep[index].number_files; } void rocksdb_backup_engine_info_destroy( const rocksdb_backup_engine_info_t* info) { delete info; } void rocksdb_backup_engine_close(rocksdb_backup_engine_t* be) { delete be->rep; delete be; } rocksdb_checkpoint_t* rocksdb_checkpoint_object_create(rocksdb_t* db, char** errptr) { Checkpoint* checkpoint; if (SaveError(errptr, Checkpoint::Create(db->rep, &checkpoint))) { return nullptr; } rocksdb_checkpoint_t* result = new rocksdb_checkpoint_t; result->rep = checkpoint; return result; } void rocksdb_checkpoint_create(rocksdb_checkpoint_t* checkpoint, const char* checkpoint_dir, uint64_t log_size_for_flush, char** errptr) { SaveError(errptr, checkpoint->rep->CreateCheckpoint( std::string(checkpoint_dir), log_size_for_flush)); } void rocksdb_checkpoint_object_destroy(rocksdb_checkpoint_t* checkpoint) { delete checkpoint->rep; delete checkpoint; } void rocksdb_close(rocksdb_t* db) { delete db->rep; delete db; } void rocksdb_options_set_uint64add_merge_operator(rocksdb_options_t* opt) { opt->rep.merge_operator = rocksdb::MergeOperators::CreateUInt64AddOperator(); } rocksdb_t* rocksdb_open_column_families( const rocksdb_options_t* db_options, const char* name, int num_column_families, const char** column_family_names, const rocksdb_options_t** column_family_options, rocksdb_column_family_handle_t** column_family_handles, char** errptr) { std::vector column_families; for (int i = 0; i < num_column_families; i++) { column_families.push_back(ColumnFamilyDescriptor( std::string(column_family_names[i]), ColumnFamilyOptions(column_family_options[i]->rep))); } DB* db; std::vector handles; if (SaveError(errptr, DB::Open(DBOptions(db_options->rep), std::string(name), column_families, &handles, &db))) { return nullptr; } for (size_t i = 0; i < handles.size(); i++) { rocksdb_column_family_handle_t* c_handle = new rocksdb_column_family_handle_t; c_handle->rep = handles[i]; column_family_handles[i] = c_handle; } rocksdb_t* result = new rocksdb_t; result->rep = db; return result; } rocksdb_t* rocksdb_open_for_read_only_column_families( const rocksdb_options_t* db_options, const char* name, int num_column_families, const char** column_family_names, const rocksdb_options_t** column_family_options, rocksdb_column_family_handle_t** column_family_handles, unsigned char error_if_log_file_exist, char** errptr) { std::vector column_families; for (int i = 0; i < num_column_families; i++) { column_families.push_back(ColumnFamilyDescriptor( std::string(column_family_names[i]), ColumnFamilyOptions(column_family_options[i]->rep))); } DB* db; std::vector handles; if (SaveError(errptr, DB::OpenForReadOnly(DBOptions(db_options->rep), std::string(name), column_families, &handles, &db, error_if_log_file_exist))) { return nullptr; } for (size_t i = 0; i < handles.size(); i++) { rocksdb_column_family_handle_t* c_handle = new rocksdb_column_family_handle_t; c_handle->rep = handles[i]; column_family_handles[i] = c_handle; } rocksdb_t* result = new rocksdb_t; result->rep = db; return result; } char** rocksdb_list_column_families( const rocksdb_options_t* options, const char* name, size_t* lencfs, char** errptr) { std::vector fams; SaveError(errptr, DB::ListColumnFamilies(DBOptions(options->rep), std::string(name), &fams)); *lencfs = fams.size(); char** column_families = static_cast(malloc(sizeof(char*) * fams.size())); for (size_t i = 0; i < fams.size(); i++) { column_families[i] = strdup(fams[i].c_str()); } return column_families; } void rocksdb_list_column_families_destroy(char** list, size_t len) { for (size_t i = 0; i < len; ++i) { free(list[i]); } free(list); } rocksdb_column_family_handle_t* rocksdb_create_column_family( rocksdb_t* db, const rocksdb_options_t* column_family_options, const char* column_family_name, char** errptr) { rocksdb_column_family_handle_t* handle = new rocksdb_column_family_handle_t; SaveError(errptr, db->rep->CreateColumnFamily(ColumnFamilyOptions(column_family_options->rep), std::string(column_family_name), &(handle->rep))); return handle; } void rocksdb_drop_column_family( rocksdb_t* db, rocksdb_column_family_handle_t* handle, char** errptr) { SaveError(errptr, db->rep->DropColumnFamily(handle->rep)); } void rocksdb_column_family_handle_destroy(rocksdb_column_family_handle_t* handle) { delete handle->rep; delete handle; } void rocksdb_put( rocksdb_t* db, const rocksdb_writeoptions_t* options, const char* key, size_t keylen, const char* val, size_t vallen, char** errptr) { SaveError(errptr, db->rep->Put(options->rep, Slice(key, keylen), Slice(val, vallen))); } void rocksdb_put_cf( rocksdb_t* db, const rocksdb_writeoptions_t* options, rocksdb_column_family_handle_t* column_family, const char* key, size_t keylen, const char* val, size_t vallen, char** errptr) { SaveError(errptr, db->rep->Put(options->rep, column_family->rep, Slice(key, keylen), Slice(val, vallen))); } void rocksdb_delete( rocksdb_t* db, const rocksdb_writeoptions_t* options, const char* key, size_t keylen, char** errptr) { SaveError(errptr, db->rep->Delete(options->rep, Slice(key, keylen))); } void rocksdb_delete_cf( rocksdb_t* db, const rocksdb_writeoptions_t* options, rocksdb_column_family_handle_t* column_family, const char* key, size_t keylen, char** errptr) { SaveError(errptr, db->rep->Delete(options->rep, column_family->rep, Slice(key, keylen))); } void rocksdb_merge( rocksdb_t* db, const rocksdb_writeoptions_t* options, const char* key, size_t keylen, const char* val, size_t vallen, char** errptr) { SaveError(errptr, db->rep->Merge(options->rep, Slice(key, keylen), Slice(val, vallen))); } void rocksdb_merge_cf( rocksdb_t* db, const rocksdb_writeoptions_t* options, rocksdb_column_family_handle_t* column_family, const char* key, size_t keylen, const char* val, size_t vallen, char** errptr) { SaveError(errptr, db->rep->Merge(options->rep, column_family->rep, Slice(key, keylen), Slice(val, vallen))); } void rocksdb_write( rocksdb_t* db, const rocksdb_writeoptions_t* options, rocksdb_writebatch_t* batch, char** errptr) { SaveError(errptr, db->rep->Write(options->rep, &batch->rep)); } char* rocksdb_get( rocksdb_t* db, const rocksdb_readoptions_t* options, const char* key, size_t keylen, size_t* vallen, char** errptr) { char* result = nullptr; std::string tmp; Status s = db->rep->Get(options->rep, Slice(key, keylen), &tmp); if (s.ok()) { *vallen = tmp.size(); result = CopyString(tmp); } else { *vallen = 0; if (!s.IsNotFound()) { SaveError(errptr, s); } } return result; } char* rocksdb_get_cf( rocksdb_t* db, const rocksdb_readoptions_t* options, rocksdb_column_family_handle_t* column_family, const char* key, size_t keylen, size_t* vallen, char** errptr) { char* result = nullptr; std::string tmp; Status s = db->rep->Get(options->rep, column_family->rep, Slice(key, keylen), &tmp); if (s.ok()) { *vallen = tmp.size(); result = CopyString(tmp); } else { *vallen = 0; if (!s.IsNotFound()) { SaveError(errptr, s); } } return result; } void rocksdb_multi_get( rocksdb_t* db, const rocksdb_readoptions_t* options, size_t num_keys, const char* const* keys_list, const size_t* keys_list_sizes, char** values_list, size_t* values_list_sizes, char** errs) { std::vector keys(num_keys); for (size_t i = 0; i < num_keys; i++) { keys[i] = Slice(keys_list[i], keys_list_sizes[i]); } std::vector values(num_keys); std::vector statuses = db->rep->MultiGet(options->rep, keys, &values); for (size_t i = 0; i < num_keys; i++) { if (statuses[i].ok()) { values_list[i] = CopyString(values[i]); values_list_sizes[i] = values[i].size(); errs[i] = nullptr; } else { values_list[i] = nullptr; values_list_sizes[i] = 0; if (!statuses[i].IsNotFound()) { errs[i] = strdup(statuses[i].ToString().c_str()); } else { errs[i] = nullptr; } } } } void rocksdb_multi_get_cf( rocksdb_t* db, const rocksdb_readoptions_t* options, const rocksdb_column_family_handle_t* const* column_families, size_t num_keys, const char* const* keys_list, const size_t* keys_list_sizes, char** values_list, size_t* values_list_sizes, char** errs) { std::vector keys(num_keys); std::vector cfs(num_keys); for (size_t i = 0; i < num_keys; i++) { keys[i] = Slice(keys_list[i], keys_list_sizes[i]); cfs[i] = column_families[i]->rep; } std::vector values(num_keys); std::vector statuses = db->rep->MultiGet(options->rep, cfs, keys, &values); for (size_t i = 0; i < num_keys; i++) { if (statuses[i].ok()) { values_list[i] = CopyString(values[i]); values_list_sizes[i] = values[i].size(); errs[i] = nullptr; } else { values_list[i] = nullptr; values_list_sizes[i] = 0; if (!statuses[i].IsNotFound()) { errs[i] = strdup(statuses[i].ToString().c_str()); } else { errs[i] = nullptr; } } } } rocksdb_iterator_t* rocksdb_create_iterator( rocksdb_t* db, const rocksdb_readoptions_t* options) { rocksdb_iterator_t* result = new rocksdb_iterator_t; result->rep = db->rep->NewIterator(options->rep); return result; } rocksdb_wal_iterator_t* rocksdb_get_updates_since( rocksdb_t* db, uint64_t seq_number, const rocksdb_wal_readoptions_t* options, char** errptr) { std::unique_ptr iter; TransactionLogIterator::ReadOptions ro; if (options!=nullptr) { ro = options->rep; } if (SaveError(errptr, db->rep->GetUpdatesSince(seq_number, &iter, ro))) { return nullptr; } rocksdb_wal_iterator_t* result = new rocksdb_wal_iterator_t; result->rep = iter.release(); return result; } void rocksdb_wal_iter_next(rocksdb_wal_iterator_t* iter) { iter->rep->Next(); } unsigned char rocksdb_wal_iter_valid(const rocksdb_wal_iterator_t* iter) { return iter->rep->Valid(); } void rocksdb_wal_iter_status (const rocksdb_wal_iterator_t* iter, char** errptr) { SaveError(errptr, iter->rep->status()); } void rocksdb_wal_iter_destroy (const rocksdb_wal_iterator_t* iter) { delete iter->rep; delete iter; } rocksdb_writebatch_t* rocksdb_wal_iter_get_batch (const rocksdb_wal_iterator_t* iter, uint64_t* seq) { rocksdb_writebatch_t* result = rocksdb_writebatch_create(); BatchResult wal_batch = iter->rep->GetBatch(); result->rep = * wal_batch.writeBatchPtr.release(); if (seq != nullptr) { *seq = wal_batch.sequence; } return result; } uint64_t rocksdb_get_latest_sequence_number (rocksdb_t *db) { return db->rep->GetLatestSequenceNumber(); } rocksdb_iterator_t* rocksdb_create_iterator_cf( rocksdb_t* db, const rocksdb_readoptions_t* options, rocksdb_column_family_handle_t* column_family) { rocksdb_iterator_t* result = new rocksdb_iterator_t; result->rep = db->rep->NewIterator(options->rep, column_family->rep); return result; } void rocksdb_create_iterators( rocksdb_t *db, rocksdb_readoptions_t* opts, rocksdb_column_family_handle_t** column_families, rocksdb_iterator_t** iterators, size_t size, char** errptr) { std::vector column_families_vec; for (size_t i = 0; i < size; i++) { column_families_vec.push_back(column_families[i]->rep); } std::vector res; Status status = db->rep->NewIterators(opts->rep, column_families_vec, &res); assert(res.size() == size); if (SaveError(errptr, status)) { return; } for (size_t i = 0; i < size; i++) { iterators[i] = new rocksdb_iterator_t; iterators[i]->rep = res[i]; } } const rocksdb_snapshot_t* rocksdb_create_snapshot( rocksdb_t* db) { rocksdb_snapshot_t* result = new rocksdb_snapshot_t; result->rep = db->rep->GetSnapshot(); return result; } void rocksdb_release_snapshot( rocksdb_t* db, const rocksdb_snapshot_t* snapshot) { db->rep->ReleaseSnapshot(snapshot->rep); delete snapshot; } char* rocksdb_property_value( rocksdb_t* db, const char* propname) { std::string tmp; if (db->rep->GetProperty(Slice(propname), &tmp)) { // We use strdup() since we expect human readable output. return strdup(tmp.c_str()); } else { return nullptr; } } int rocksdb_property_int( rocksdb_t* db, const char* propname, uint64_t *out_val) { if (db->rep->GetIntProperty(Slice(propname), out_val)) { return 0; } else { return -1; } } char* rocksdb_property_value_cf( rocksdb_t* db, rocksdb_column_family_handle_t* column_family, const char* propname) { std::string tmp; if (db->rep->GetProperty(column_family->rep, Slice(propname), &tmp)) { // We use strdup() since we expect human readable output. return strdup(tmp.c_str()); } else { return nullptr; } } void rocksdb_approximate_sizes( rocksdb_t* db, int num_ranges, const char* const* range_start_key, const size_t* range_start_key_len, const char* const* range_limit_key, const size_t* range_limit_key_len, uint64_t* sizes) { Range* ranges = new Range[num_ranges]; for (int i = 0; i < num_ranges; i++) { ranges[i].start = Slice(range_start_key[i], range_start_key_len[i]); ranges[i].limit = Slice(range_limit_key[i], range_limit_key_len[i]); } db->rep->GetApproximateSizes(ranges, num_ranges, sizes); delete[] ranges; } void rocksdb_approximate_sizes_cf( rocksdb_t* db, rocksdb_column_family_handle_t* column_family, int num_ranges, const char* const* range_start_key, const size_t* range_start_key_len, const char* const* range_limit_key, const size_t* range_limit_key_len, uint64_t* sizes) { Range* ranges = new Range[num_ranges]; for (int i = 0; i < num_ranges; i++) { ranges[i].start = Slice(range_start_key[i], range_start_key_len[i]); ranges[i].limit = Slice(range_limit_key[i], range_limit_key_len[i]); } db->rep->GetApproximateSizes(column_family->rep, ranges, num_ranges, sizes); delete[] ranges; } void rocksdb_delete_file( rocksdb_t* db, const char* name) { db->rep->DeleteFile(name); } const rocksdb_livefiles_t* rocksdb_livefiles( rocksdb_t* db) { rocksdb_livefiles_t* result = new rocksdb_livefiles_t; db->rep->GetLiveFilesMetaData(&result->rep); return result; } void rocksdb_compact_range( rocksdb_t* db, const char* start_key, size_t start_key_len, const char* limit_key, size_t limit_key_len) { Slice a, b; db->rep->CompactRange( CompactRangeOptions(), // Pass nullptr Slice if corresponding "const char*" is nullptr (start_key ? (a = Slice(start_key, start_key_len), &a) : nullptr), (limit_key ? (b = Slice(limit_key, limit_key_len), &b) : nullptr)); } void rocksdb_compact_range_cf( rocksdb_t* db, rocksdb_column_family_handle_t* column_family, const char* start_key, size_t start_key_len, const char* limit_key, size_t limit_key_len) { Slice a, b; db->rep->CompactRange( CompactRangeOptions(), column_family->rep, // Pass nullptr Slice if corresponding "const char*" is nullptr (start_key ? (a = Slice(start_key, start_key_len), &a) : nullptr), (limit_key ? (b = Slice(limit_key, limit_key_len), &b) : nullptr)); } void rocksdb_compact_range_opt(rocksdb_t* db, rocksdb_compactoptions_t* opt, const char* start_key, size_t start_key_len, const char* limit_key, size_t limit_key_len) { Slice a, b; db->rep->CompactRange( opt->rep, // Pass nullptr Slice if corresponding "const char*" is nullptr (start_key ? (a = Slice(start_key, start_key_len), &a) : nullptr), (limit_key ? (b = Slice(limit_key, limit_key_len), &b) : nullptr)); } void rocksdb_compact_range_cf_opt(rocksdb_t* db, rocksdb_column_family_handle_t* column_family, rocksdb_compactoptions_t* opt, const char* start_key, size_t start_key_len, const char* limit_key, size_t limit_key_len) { Slice a, b; db->rep->CompactRange( opt->rep, column_family->rep, // Pass nullptr Slice if corresponding "const char*" is nullptr (start_key ? (a = Slice(start_key, start_key_len), &a) : nullptr), (limit_key ? (b = Slice(limit_key, limit_key_len), &b) : nullptr)); } void rocksdb_flush( rocksdb_t* db, const rocksdb_flushoptions_t* options, char** errptr) { SaveError(errptr, db->rep->Flush(options->rep)); } void rocksdb_disable_file_deletions( rocksdb_t* db, char** errptr) { SaveError(errptr, db->rep->DisableFileDeletions()); } void rocksdb_enable_file_deletions( rocksdb_t* db, unsigned char force, char** errptr) { SaveError(errptr, db->rep->EnableFileDeletions(force)); } void rocksdb_destroy_db( const rocksdb_options_t* options, const char* name, char** errptr) { SaveError(errptr, DestroyDB(name, options->rep)); } void rocksdb_repair_db( const rocksdb_options_t* options, const char* name, char** errptr) { SaveError(errptr, RepairDB(name, options->rep)); } void rocksdb_iter_destroy(rocksdb_iterator_t* iter) { delete iter->rep; delete iter; } unsigned char rocksdb_iter_valid(const rocksdb_iterator_t* iter) { return iter->rep->Valid(); } void rocksdb_iter_seek_to_first(rocksdb_iterator_t* iter) { iter->rep->SeekToFirst(); } void rocksdb_iter_seek_to_last(rocksdb_iterator_t* iter) { iter->rep->SeekToLast(); } void rocksdb_iter_seek(rocksdb_iterator_t* iter, const char* k, size_t klen) { iter->rep->Seek(Slice(k, klen)); } void rocksdb_iter_seek_for_prev(rocksdb_iterator_t* iter, const char* k, size_t klen) { iter->rep->SeekForPrev(Slice(k, klen)); } void rocksdb_iter_next(rocksdb_iterator_t* iter) { iter->rep->Next(); } void rocksdb_iter_prev(rocksdb_iterator_t* iter) { iter->rep->Prev(); } const char* rocksdb_iter_key(const rocksdb_iterator_t* iter, size_t* klen) { Slice s = iter->rep->key(); *klen = s.size(); return s.data(); } const char* rocksdb_iter_value(const rocksdb_iterator_t* iter, size_t* vlen) { Slice s = iter->rep->value(); *vlen = s.size(); return s.data(); } void rocksdb_iter_get_error(const rocksdb_iterator_t* iter, char** errptr) { SaveError(errptr, iter->rep->status()); } rocksdb_writebatch_t* rocksdb_writebatch_create() { return new rocksdb_writebatch_t; } rocksdb_writebatch_t* rocksdb_writebatch_create_from(const char* rep, size_t size) { rocksdb_writebatch_t* b = new rocksdb_writebatch_t; b->rep = WriteBatch(std::string(rep, size)); return b; } void rocksdb_writebatch_destroy(rocksdb_writebatch_t* b) { delete b; } void rocksdb_writebatch_clear(rocksdb_writebatch_t* b) { b->rep.Clear(); } int rocksdb_writebatch_count(rocksdb_writebatch_t* b) { return b->rep.Count(); } void rocksdb_writebatch_put( rocksdb_writebatch_t* b, const char* key, size_t klen, const char* val, size_t vlen) { b->rep.Put(Slice(key, klen), Slice(val, vlen)); } void rocksdb_writebatch_put_cf( rocksdb_writebatch_t* b, rocksdb_column_family_handle_t* column_family, const char* key, size_t klen, const char* val, size_t vlen) { b->rep.Put(column_family->rep, Slice(key, klen), Slice(val, vlen)); } void rocksdb_writebatch_putv( rocksdb_writebatch_t* b, int num_keys, const char* const* keys_list, const size_t* keys_list_sizes, int num_values, const char* const* values_list, const size_t* values_list_sizes) { std::vector key_slices(num_keys); for (int i = 0; i < num_keys; i++) { key_slices[i] = Slice(keys_list[i], keys_list_sizes[i]); } std::vector value_slices(num_values); for (int i = 0; i < num_values; i++) { value_slices[i] = Slice(values_list[i], values_list_sizes[i]); } b->rep.Put(SliceParts(key_slices.data(), num_keys), SliceParts(value_slices.data(), num_values)); } void rocksdb_writebatch_putv_cf( rocksdb_writebatch_t* b, rocksdb_column_family_handle_t* column_family, int num_keys, const char* const* keys_list, const size_t* keys_list_sizes, int num_values, const char* const* values_list, const size_t* values_list_sizes) { std::vector key_slices(num_keys); for (int i = 0; i < num_keys; i++) { key_slices[i] = Slice(keys_list[i], keys_list_sizes[i]); } std::vector value_slices(num_values); for (int i = 0; i < num_values; i++) { value_slices[i] = Slice(values_list[i], values_list_sizes[i]); } b->rep.Put(column_family->rep, SliceParts(key_slices.data(), num_keys), SliceParts(value_slices.data(), num_values)); } void rocksdb_writebatch_merge( rocksdb_writebatch_t* b, const char* key, size_t klen, const char* val, size_t vlen) { b->rep.Merge(Slice(key, klen), Slice(val, vlen)); } void rocksdb_writebatch_merge_cf( rocksdb_writebatch_t* b, rocksdb_column_family_handle_t* column_family, const char* key, size_t klen, const char* val, size_t vlen) { b->rep.Merge(column_family->rep, Slice(key, klen), Slice(val, vlen)); } void rocksdb_writebatch_mergev( rocksdb_writebatch_t* b, int num_keys, const char* const* keys_list, const size_t* keys_list_sizes, int num_values, const char* const* values_list, const size_t* values_list_sizes) { std::vector key_slices(num_keys); for (int i = 0; i < num_keys; i++) { key_slices[i] = Slice(keys_list[i], keys_list_sizes[i]); } std::vector value_slices(num_values); for (int i = 0; i < num_values; i++) { value_slices[i] = Slice(values_list[i], values_list_sizes[i]); } b->rep.Merge(SliceParts(key_slices.data(), num_keys), SliceParts(value_slices.data(), num_values)); } void rocksdb_writebatch_mergev_cf( rocksdb_writebatch_t* b, rocksdb_column_family_handle_t* column_family, int num_keys, const char* const* keys_list, const size_t* keys_list_sizes, int num_values, const char* const* values_list, const size_t* values_list_sizes) { std::vector key_slices(num_keys); for (int i = 0; i < num_keys; i++) { key_slices[i] = Slice(keys_list[i], keys_list_sizes[i]); } std::vector value_slices(num_values); for (int i = 0; i < num_values; i++) { value_slices[i] = Slice(values_list[i], values_list_sizes[i]); } b->rep.Merge(column_family->rep, SliceParts(key_slices.data(), num_keys), SliceParts(value_slices.data(), num_values)); } void rocksdb_writebatch_delete( rocksdb_writebatch_t* b, const char* key, size_t klen) { b->rep.Delete(Slice(key, klen)); } void rocksdb_writebatch_delete_cf( rocksdb_writebatch_t* b, rocksdb_column_family_handle_t* column_family, const char* key, size_t klen) { b->rep.Delete(column_family->rep, Slice(key, klen)); } void rocksdb_writebatch_deletev( rocksdb_writebatch_t* b, int num_keys, const char* const* keys_list, const size_t* keys_list_sizes) { std::vector key_slices(num_keys); for (int i = 0; i < num_keys; i++) { key_slices[i] = Slice(keys_list[i], keys_list_sizes[i]); } b->rep.Delete(SliceParts(key_slices.data(), num_keys)); } void rocksdb_writebatch_deletev_cf( rocksdb_writebatch_t* b, rocksdb_column_family_handle_t* column_family, int num_keys, const char* const* keys_list, const size_t* keys_list_sizes) { std::vector key_slices(num_keys); for (int i = 0; i < num_keys; i++) { key_slices[i] = Slice(keys_list[i], keys_list_sizes[i]); } b->rep.Delete(column_family->rep, SliceParts(key_slices.data(), num_keys)); } void rocksdb_writebatch_delete_range(rocksdb_writebatch_t* b, const char* start_key, size_t start_key_len, const char* end_key, size_t end_key_len) { b->rep.DeleteRange(Slice(start_key, start_key_len), Slice(end_key, end_key_len)); } void rocksdb_writebatch_delete_range_cf( rocksdb_writebatch_t* b, rocksdb_column_family_handle_t* column_family, const char* start_key, size_t start_key_len, const char* end_key, size_t end_key_len) { b->rep.DeleteRange(column_family->rep, Slice(start_key, start_key_len), Slice(end_key, end_key_len)); } void rocksdb_writebatch_delete_rangev(rocksdb_writebatch_t* b, int num_keys, const char* const* start_keys_list, const size_t* start_keys_list_sizes, const char* const* end_keys_list, const size_t* end_keys_list_sizes) { std::vector start_key_slices(num_keys); std::vector end_key_slices(num_keys); for (int i = 0; i < num_keys; i++) { start_key_slices[i] = Slice(start_keys_list[i], start_keys_list_sizes[i]); end_key_slices[i] = Slice(end_keys_list[i], end_keys_list_sizes[i]); } b->rep.DeleteRange(SliceParts(start_key_slices.data(), num_keys), SliceParts(end_key_slices.data(), num_keys)); } void rocksdb_writebatch_delete_rangev_cf( rocksdb_writebatch_t* b, rocksdb_column_family_handle_t* column_family, int num_keys, const char* const* start_keys_list, const size_t* start_keys_list_sizes, const char* const* end_keys_list, const size_t* end_keys_list_sizes) { std::vector start_key_slices(num_keys); std::vector end_key_slices(num_keys); for (int i = 0; i < num_keys; i++) { start_key_slices[i] = Slice(start_keys_list[i], start_keys_list_sizes[i]); end_key_slices[i] = Slice(end_keys_list[i], end_keys_list_sizes[i]); } b->rep.DeleteRange(column_family->rep, SliceParts(start_key_slices.data(), num_keys), SliceParts(end_key_slices.data(), num_keys)); } void rocksdb_writebatch_put_log_data( rocksdb_writebatch_t* b, const char* blob, size_t len) { b->rep.PutLogData(Slice(blob, len)); } class H : public WriteBatch::Handler { public: void* state_; void (*put_)(void*, const char* k, size_t klen, const char* v, size_t vlen); void (*deleted_)(void*, const char* k, size_t klen); virtual void Put(const Slice& key, const Slice& value) override { (*put_)(state_, key.data(), key.size(), value.data(), value.size()); } virtual void Delete(const Slice& key) override { (*deleted_)(state_, key.data(), key.size()); } }; void rocksdb_writebatch_iterate( rocksdb_writebatch_t* b, void* state, void (*put)(void*, const char* k, size_t klen, const char* v, size_t vlen), void (*deleted)(void*, const char* k, size_t klen)) { H handler; handler.state_ = state; handler.put_ = put; handler.deleted_ = deleted; b->rep.Iterate(&handler); } const char* rocksdb_writebatch_data(rocksdb_writebatch_t* b, size_t* size) { *size = b->rep.GetDataSize(); return b->rep.Data().c_str(); } void rocksdb_writebatch_set_save_point(rocksdb_writebatch_t* b) { b->rep.SetSavePoint(); } void rocksdb_writebatch_rollback_to_save_point(rocksdb_writebatch_t* b, char** errptr) { SaveError(errptr, b->rep.RollbackToSavePoint()); } void rocksdb_writebatch_pop_save_point(rocksdb_writebatch_t* b, char** errptr) { SaveError(errptr, b->rep.PopSavePoint()); } rocksdb_writebatch_wi_t* rocksdb_writebatch_wi_create(size_t reserved_bytes, unsigned char overwrite_key) { rocksdb_writebatch_wi_t* b = new rocksdb_writebatch_wi_t; b->rep = new WriteBatchWithIndex(BytewiseComparator(), reserved_bytes, overwrite_key); return b; } void rocksdb_writebatch_wi_destroy(rocksdb_writebatch_wi_t* b) { if (b->rep) { delete b->rep; } delete b; } void rocksdb_writebatch_wi_clear(rocksdb_writebatch_wi_t* b) { b->rep->Clear(); } int rocksdb_writebatch_wi_count(rocksdb_writebatch_wi_t* b) { return b->rep->GetWriteBatch()->Count(); } void rocksdb_writebatch_wi_put( rocksdb_writebatch_wi_t* b, const char* key, size_t klen, const char* val, size_t vlen) { b->rep->Put(Slice(key, klen), Slice(val, vlen)); } void rocksdb_writebatch_wi_put_cf( rocksdb_writebatch_wi_t* b, rocksdb_column_family_handle_t* column_family, const char* key, size_t klen, const char* val, size_t vlen) { b->rep->Put(column_family->rep, Slice(key, klen), Slice(val, vlen)); } void rocksdb_writebatch_wi_putv( rocksdb_writebatch_wi_t* b, int num_keys, const char* const* keys_list, const size_t* keys_list_sizes, int num_values, const char* const* values_list, const size_t* values_list_sizes) { std::vector key_slices(num_keys); for (int i = 0; i < num_keys; i++) { key_slices[i] = Slice(keys_list[i], keys_list_sizes[i]); } std::vector value_slices(num_values); for (int i = 0; i < num_values; i++) { value_slices[i] = Slice(values_list[i], values_list_sizes[i]); } b->rep->Put(SliceParts(key_slices.data(), num_keys), SliceParts(value_slices.data(), num_values)); } void rocksdb_writebatch_wi_putv_cf( rocksdb_writebatch_wi_t* b, rocksdb_column_family_handle_t* column_family, int num_keys, const char* const* keys_list, const size_t* keys_list_sizes, int num_values, const char* const* values_list, const size_t* values_list_sizes) { std::vector key_slices(num_keys); for (int i = 0; i < num_keys; i++) { key_slices[i] = Slice(keys_list[i], keys_list_sizes[i]); } std::vector value_slices(num_values); for (int i = 0; i < num_values; i++) { value_slices[i] = Slice(values_list[i], values_list_sizes[i]); } b->rep->Put(column_family->rep, SliceParts(key_slices.data(), num_keys), SliceParts(value_slices.data(), num_values)); } void rocksdb_writebatch_wi_merge( rocksdb_writebatch_wi_t* b, const char* key, size_t klen, const char* val, size_t vlen) { b->rep->Merge(Slice(key, klen), Slice(val, vlen)); } void rocksdb_writebatch_wi_merge_cf( rocksdb_writebatch_wi_t* b, rocksdb_column_family_handle_t* column_family, const char* key, size_t klen, const char* val, size_t vlen) { b->rep->Merge(column_family->rep, Slice(key, klen), Slice(val, vlen)); } void rocksdb_writebatch_wi_mergev( rocksdb_writebatch_wi_t* b, int num_keys, const char* const* keys_list, const size_t* keys_list_sizes, int num_values, const char* const* values_list, const size_t* values_list_sizes) { std::vector key_slices(num_keys); for (int i = 0; i < num_keys; i++) { key_slices[i] = Slice(keys_list[i], keys_list_sizes[i]); } std::vector value_slices(num_values); for (int i = 0; i < num_values; i++) { value_slices[i] = Slice(values_list[i], values_list_sizes[i]); } b->rep->Merge(SliceParts(key_slices.data(), num_keys), SliceParts(value_slices.data(), num_values)); } void rocksdb_writebatch_wi_mergev_cf( rocksdb_writebatch_wi_t* b, rocksdb_column_family_handle_t* column_family, int num_keys, const char* const* keys_list, const size_t* keys_list_sizes, int num_values, const char* const* values_list, const size_t* values_list_sizes) { std::vector key_slices(num_keys); for (int i = 0; i < num_keys; i++) { key_slices[i] = Slice(keys_list[i], keys_list_sizes[i]); } std::vector value_slices(num_values); for (int i = 0; i < num_values; i++) { value_slices[i] = Slice(values_list[i], values_list_sizes[i]); } b->rep->Merge(column_family->rep, SliceParts(key_slices.data(), num_keys), SliceParts(value_slices.data(), num_values)); } void rocksdb_writebatch_wi_delete( rocksdb_writebatch_wi_t* b, const char* key, size_t klen) { b->rep->Delete(Slice(key, klen)); } void rocksdb_writebatch_wi_delete_cf( rocksdb_writebatch_wi_t* b, rocksdb_column_family_handle_t* column_family, const char* key, size_t klen) { b->rep->Delete(column_family->rep, Slice(key, klen)); } void rocksdb_writebatch_wi_deletev( rocksdb_writebatch_wi_t* b, int num_keys, const char* const* keys_list, const size_t* keys_list_sizes) { std::vector key_slices(num_keys); for (int i = 0; i < num_keys; i++) { key_slices[i] = Slice(keys_list[i], keys_list_sizes[i]); } b->rep->Delete(SliceParts(key_slices.data(), num_keys)); } void rocksdb_writebatch_wi_deletev_cf( rocksdb_writebatch_wi_t* b, rocksdb_column_family_handle_t* column_family, int num_keys, const char* const* keys_list, const size_t* keys_list_sizes) { std::vector key_slices(num_keys); for (int i = 0; i < num_keys; i++) { key_slices[i] = Slice(keys_list[i], keys_list_sizes[i]); } b->rep->Delete(column_family->rep, SliceParts(key_slices.data(), num_keys)); } void rocksdb_writebatch_wi_delete_range(rocksdb_writebatch_wi_t* b, const char* start_key, size_t start_key_len, const char* end_key, size_t end_key_len) { b->rep->DeleteRange(Slice(start_key, start_key_len), Slice(end_key, end_key_len)); } void rocksdb_writebatch_wi_delete_range_cf( rocksdb_writebatch_wi_t* b, rocksdb_column_family_handle_t* column_family, const char* start_key, size_t start_key_len, const char* end_key, size_t end_key_len) { b->rep->DeleteRange(column_family->rep, Slice(start_key, start_key_len), Slice(end_key, end_key_len)); } void rocksdb_writebatch_wi_delete_rangev(rocksdb_writebatch_wi_t* b, int num_keys, const char* const* start_keys_list, const size_t* start_keys_list_sizes, const char* const* end_keys_list, const size_t* end_keys_list_sizes) { std::vector start_key_slices(num_keys); std::vector end_key_slices(num_keys); for (int i = 0; i < num_keys; i++) { start_key_slices[i] = Slice(start_keys_list[i], start_keys_list_sizes[i]); end_key_slices[i] = Slice(end_keys_list[i], end_keys_list_sizes[i]); } b->rep->DeleteRange(SliceParts(start_key_slices.data(), num_keys), SliceParts(end_key_slices.data(), num_keys)); } void rocksdb_writebatch_wi_delete_rangev_cf( rocksdb_writebatch_wi_t* b, rocksdb_column_family_handle_t* column_family, int num_keys, const char* const* start_keys_list, const size_t* start_keys_list_sizes, const char* const* end_keys_list, const size_t* end_keys_list_sizes) { std::vector start_key_slices(num_keys); std::vector end_key_slices(num_keys); for (int i = 0; i < num_keys; i++) { start_key_slices[i] = Slice(start_keys_list[i], start_keys_list_sizes[i]); end_key_slices[i] = Slice(end_keys_list[i], end_keys_list_sizes[i]); } b->rep->DeleteRange(column_family->rep, SliceParts(start_key_slices.data(), num_keys), SliceParts(end_key_slices.data(), num_keys)); } void rocksdb_writebatch_wi_put_log_data( rocksdb_writebatch_wi_t* b, const char* blob, size_t len) { b->rep->PutLogData(Slice(blob, len)); } void rocksdb_writebatch_wi_iterate( rocksdb_writebatch_wi_t* b, void* state, void (*put)(void*, const char* k, size_t klen, const char* v, size_t vlen), void (*deleted)(void*, const char* k, size_t klen)) { H handler; handler.state_ = state; handler.put_ = put; handler.deleted_ = deleted; b->rep->GetWriteBatch()->Iterate(&handler); } const char* rocksdb_writebatch_wi_data(rocksdb_writebatch_wi_t* b, size_t* size) { WriteBatch* wb = b->rep->GetWriteBatch(); *size = wb->GetDataSize(); return wb->Data().c_str(); } void rocksdb_writebatch_wi_set_save_point(rocksdb_writebatch_wi_t* b) { b->rep->SetSavePoint(); } void rocksdb_writebatch_wi_rollback_to_save_point(rocksdb_writebatch_wi_t* b, char** errptr) { SaveError(errptr, b->rep->RollbackToSavePoint()); } rocksdb_iterator_t* rocksdb_writebatch_wi_create_iterator_with_base( rocksdb_writebatch_wi_t* wbwi, rocksdb_iterator_t* base_iterator) { rocksdb_iterator_t* result = new rocksdb_iterator_t; result->rep = wbwi->rep->NewIteratorWithBase(base_iterator->rep); delete base_iterator; return result; } rocksdb_iterator_t* rocksdb_writebatch_wi_create_iterator_with_base_cf( rocksdb_writebatch_wi_t* wbwi, rocksdb_iterator_t* base_iterator, rocksdb_column_family_handle_t* column_family) { rocksdb_iterator_t* result = new rocksdb_iterator_t; result->rep = wbwi->rep->NewIteratorWithBase(column_family->rep, base_iterator->rep); delete base_iterator; return result; } char* rocksdb_writebatch_wi_get_from_batch( rocksdb_writebatch_wi_t* wbwi, const rocksdb_options_t* options, const char* key, size_t keylen, size_t* vallen, char** errptr) { char* result = nullptr; std::string tmp; Status s = wbwi->rep->GetFromBatch(options->rep, Slice(key, keylen), &tmp); if (s.ok()) { *vallen = tmp.size(); result = CopyString(tmp); } else { *vallen = 0; if (!s.IsNotFound()) { SaveError(errptr, s); } } return result; } char* rocksdb_writebatch_wi_get_from_batch_cf( rocksdb_writebatch_wi_t* wbwi, const rocksdb_options_t* options, rocksdb_column_family_handle_t* column_family, const char* key, size_t keylen, size_t* vallen, char** errptr) { char* result = nullptr; std::string tmp; Status s = wbwi->rep->GetFromBatch(column_family->rep, options->rep, Slice(key, keylen), &tmp); if (s.ok()) { *vallen = tmp.size(); result = CopyString(tmp); } else { *vallen = 0; if (!s.IsNotFound()) { SaveError(errptr, s); } } return result; } char* rocksdb_writebatch_wi_get_from_batch_and_db( rocksdb_writebatch_wi_t* wbwi, rocksdb_t* db, const rocksdb_readoptions_t* options, const char* key, size_t keylen, size_t* vallen, char** errptr) { char* result = nullptr; std::string tmp; Status s = wbwi->rep->GetFromBatchAndDB(db->rep, options->rep, Slice(key, keylen), &tmp); if (s.ok()) { *vallen = tmp.size(); result = CopyString(tmp); } else { *vallen = 0; if (!s.IsNotFound()) { SaveError(errptr, s); } } return result; } char* rocksdb_writebatch_wi_get_from_batch_and_db_cf( rocksdb_writebatch_wi_t* wbwi, rocksdb_t* db, const rocksdb_readoptions_t* options, rocksdb_column_family_handle_t* column_family, const char* key, size_t keylen, size_t* vallen, char** errptr) { char* result = nullptr; std::string tmp; Status s = wbwi->rep->GetFromBatchAndDB(db->rep, options->rep, column_family->rep, Slice(key, keylen), &tmp); if (s.ok()) { *vallen = tmp.size(); result = CopyString(tmp); } else { *vallen = 0; if (!s.IsNotFound()) { SaveError(errptr, s); } } return result; } void rocksdb_write_writebatch_wi( rocksdb_t* db, const rocksdb_writeoptions_t* options, rocksdb_writebatch_wi_t* wbwi, char** errptr) { WriteBatch* wb = wbwi->rep->GetWriteBatch(); SaveError(errptr, db->rep->Write(options->rep, wb)); } rocksdb_block_based_table_options_t* rocksdb_block_based_options_create() { return new rocksdb_block_based_table_options_t; } void rocksdb_block_based_options_destroy( rocksdb_block_based_table_options_t* options) { delete options; } void rocksdb_block_based_options_set_block_size( rocksdb_block_based_table_options_t* options, size_t block_size) { options->rep.block_size = block_size; } void rocksdb_block_based_options_set_block_size_deviation( rocksdb_block_based_table_options_t* options, int block_size_deviation) { options->rep.block_size_deviation = block_size_deviation; } void rocksdb_block_based_options_set_block_restart_interval( rocksdb_block_based_table_options_t* options, int block_restart_interval) { options->rep.block_restart_interval = block_restart_interval; } void rocksdb_block_based_options_set_index_block_restart_interval( rocksdb_block_based_table_options_t* options, int index_block_restart_interval) { options->rep.index_block_restart_interval = index_block_restart_interval; } void rocksdb_block_based_options_set_metadata_block_size( rocksdb_block_based_table_options_t* options, uint64_t metadata_block_size) { options->rep.metadata_block_size = metadata_block_size; } void rocksdb_block_based_options_set_partition_filters( rocksdb_block_based_table_options_t* options, unsigned char partition_filters) { options->rep.partition_filters = partition_filters; } void rocksdb_block_based_options_set_use_delta_encoding( rocksdb_block_based_table_options_t* options, unsigned char use_delta_encoding) { options->rep.use_delta_encoding = use_delta_encoding; } void rocksdb_block_based_options_set_filter_policy( rocksdb_block_based_table_options_t* options, rocksdb_filterpolicy_t* filter_policy) { options->rep.filter_policy.reset(filter_policy); } void rocksdb_block_based_options_set_no_block_cache( rocksdb_block_based_table_options_t* options, unsigned char no_block_cache) { options->rep.no_block_cache = no_block_cache; } void rocksdb_block_based_options_set_block_cache( rocksdb_block_based_table_options_t* options, rocksdb_cache_t* block_cache) { if (block_cache) { options->rep.block_cache = block_cache->rep; } } void rocksdb_block_based_options_set_block_cache_compressed( rocksdb_block_based_table_options_t* options, rocksdb_cache_t* block_cache_compressed) { if (block_cache_compressed) { options->rep.block_cache_compressed = block_cache_compressed->rep; } } void rocksdb_block_based_options_set_whole_key_filtering( rocksdb_block_based_table_options_t* options, unsigned char v) { options->rep.whole_key_filtering = v; } void rocksdb_block_based_options_set_format_version( rocksdb_block_based_table_options_t* options, int v) { options->rep.format_version = v; } void rocksdb_block_based_options_set_index_type( rocksdb_block_based_table_options_t* options, int v) { options->rep.index_type = static_cast(v); } void rocksdb_block_based_options_set_hash_index_allow_collision( rocksdb_block_based_table_options_t* options, unsigned char v) { options->rep.hash_index_allow_collision = v; } void rocksdb_block_based_options_set_cache_index_and_filter_blocks( rocksdb_block_based_table_options_t* options, unsigned char v) { options->rep.cache_index_and_filter_blocks = v; } void rocksdb_block_based_options_set_cache_index_and_filter_blocks_with_high_priority( rocksdb_block_based_table_options_t* options, unsigned char v) { options->rep.cache_index_and_filter_blocks_with_high_priority = v; } void rocksdb_block_based_options_set_pin_l0_filter_and_index_blocks_in_cache( rocksdb_block_based_table_options_t* options, unsigned char v) { options->rep.pin_l0_filter_and_index_blocks_in_cache = v; } void rocksdb_block_based_options_set_pin_top_level_index_and_filter( rocksdb_block_based_table_options_t* options, unsigned char v) { options->rep.pin_top_level_index_and_filter = v; } void rocksdb_options_set_block_based_table_factory( rocksdb_options_t *opt, rocksdb_block_based_table_options_t* table_options) { if (table_options) { opt->rep.table_factory.reset( rocksdb::NewBlockBasedTableFactory(table_options->rep)); } } rocksdb_cuckoo_table_options_t* rocksdb_cuckoo_options_create() { return new rocksdb_cuckoo_table_options_t; } void rocksdb_cuckoo_options_destroy( rocksdb_cuckoo_table_options_t* options) { delete options; } void rocksdb_cuckoo_options_set_hash_ratio( rocksdb_cuckoo_table_options_t* options, double v) { options->rep.hash_table_ratio = v; } void rocksdb_cuckoo_options_set_max_search_depth( rocksdb_cuckoo_table_options_t* options, uint32_t v) { options->rep.max_search_depth = v; } void rocksdb_cuckoo_options_set_cuckoo_block_size( rocksdb_cuckoo_table_options_t* options, uint32_t v) { options->rep.cuckoo_block_size = v; } void rocksdb_cuckoo_options_set_identity_as_first_hash( rocksdb_cuckoo_table_options_t* options, unsigned char v) { options->rep.identity_as_first_hash = v; } void rocksdb_cuckoo_options_set_use_module_hash( rocksdb_cuckoo_table_options_t* options, unsigned char v) { options->rep.use_module_hash = v; } void rocksdb_options_set_cuckoo_table_factory( rocksdb_options_t *opt, rocksdb_cuckoo_table_options_t* table_options) { if (table_options) { opt->rep.table_factory.reset( rocksdb::NewCuckooTableFactory(table_options->rep)); } } void rocksdb_set_options( rocksdb_t* db, int count, const char* const keys[], const char* const values[], char** errptr) { std::unordered_map options_map; for (int i=0; irep->SetOptions(options_map)); } rocksdb_options_t* rocksdb_options_create() { return new rocksdb_options_t; } void rocksdb_options_destroy(rocksdb_options_t* options) { delete options; } void rocksdb_options_increase_parallelism( rocksdb_options_t* opt, int total_threads) { opt->rep.IncreaseParallelism(total_threads); } void rocksdb_options_optimize_for_point_lookup( rocksdb_options_t* opt, uint64_t block_cache_size_mb) { opt->rep.OptimizeForPointLookup(block_cache_size_mb); } void rocksdb_options_optimize_level_style_compaction( rocksdb_options_t* opt, uint64_t memtable_memory_budget) { opt->rep.OptimizeLevelStyleCompaction(memtable_memory_budget); } void rocksdb_options_optimize_universal_style_compaction( rocksdb_options_t* opt, uint64_t memtable_memory_budget) { opt->rep.OptimizeUniversalStyleCompaction(memtable_memory_budget); } void rocksdb_options_set_allow_ingest_behind( rocksdb_options_t* opt, unsigned char v) { opt->rep.allow_ingest_behind = v; } void rocksdb_options_set_compaction_filter( rocksdb_options_t* opt, rocksdb_compactionfilter_t* filter) { opt->rep.compaction_filter = filter; } void rocksdb_options_set_compaction_filter_factory( rocksdb_options_t* opt, rocksdb_compactionfilterfactory_t* factory) { opt->rep.compaction_filter_factory = std::shared_ptr(factory); } void rocksdb_options_compaction_readahead_size( rocksdb_options_t* opt, size_t s) { opt->rep.compaction_readahead_size = s; } void rocksdb_options_set_comparator( rocksdb_options_t* opt, rocksdb_comparator_t* cmp) { opt->rep.comparator = cmp; } void rocksdb_options_set_merge_operator( rocksdb_options_t* opt, rocksdb_mergeoperator_t* merge_operator) { opt->rep.merge_operator = std::shared_ptr(merge_operator); } void rocksdb_options_set_create_if_missing( rocksdb_options_t* opt, unsigned char v) { opt->rep.create_if_missing = v; } void rocksdb_options_set_create_missing_column_families( rocksdb_options_t* opt, unsigned char v) { opt->rep.create_missing_column_families = v; } void rocksdb_options_set_error_if_exists( rocksdb_options_t* opt, unsigned char v) { opt->rep.error_if_exists = v; } void rocksdb_options_set_paranoid_checks( rocksdb_options_t* opt, unsigned char v) { opt->rep.paranoid_checks = v; } void rocksdb_options_set_db_paths(rocksdb_options_t* opt, const rocksdb_dbpath_t** dbpath_values, size_t num_paths) { std::vector db_paths(num_paths); for (size_t i = 0; i < num_paths; ++i) { db_paths[i] = dbpath_values[i]->rep; } opt->rep.db_paths = db_paths; } void rocksdb_options_set_env(rocksdb_options_t* opt, rocksdb_env_t* env) { opt->rep.env = (env ? env->rep : nullptr); } void rocksdb_options_set_info_log(rocksdb_options_t* opt, rocksdb_logger_t* l) { if (l) { opt->rep.info_log = l->rep; } } void rocksdb_options_set_info_log_level( rocksdb_options_t* opt, int v) { opt->rep.info_log_level = static_cast(v); } void rocksdb_options_set_db_write_buffer_size(rocksdb_options_t* opt, size_t s) { opt->rep.db_write_buffer_size = s; } void rocksdb_options_set_write_buffer_size(rocksdb_options_t* opt, size_t s) { opt->rep.write_buffer_size = s; } void rocksdb_options_set_max_open_files(rocksdb_options_t* opt, int n) { opt->rep.max_open_files = n; } void rocksdb_options_set_max_file_opening_threads(rocksdb_options_t* opt, int n) { opt->rep.max_file_opening_threads = n; } void rocksdb_options_set_max_total_wal_size(rocksdb_options_t* opt, uint64_t n) { opt->rep.max_total_wal_size = n; } void rocksdb_options_set_target_file_size_base( rocksdb_options_t* opt, uint64_t n) { opt->rep.target_file_size_base = n; } void rocksdb_options_set_target_file_size_multiplier( rocksdb_options_t* opt, int n) { opt->rep.target_file_size_multiplier = n; } void rocksdb_options_set_max_bytes_for_level_base( rocksdb_options_t* opt, uint64_t n) { opt->rep.max_bytes_for_level_base = n; } void rocksdb_options_set_level_compaction_dynamic_level_bytes( rocksdb_options_t* opt, unsigned char v) { opt->rep.level_compaction_dynamic_level_bytes = v; } void rocksdb_options_set_max_bytes_for_level_multiplier(rocksdb_options_t* opt, double n) { opt->rep.max_bytes_for_level_multiplier = n; } void rocksdb_options_set_max_compaction_bytes(rocksdb_options_t* opt, uint64_t n) { opt->rep.max_compaction_bytes = n; } void rocksdb_options_set_max_bytes_for_level_multiplier_additional( rocksdb_options_t* opt, int* level_values, size_t num_levels) { opt->rep.max_bytes_for_level_multiplier_additional.resize(num_levels); for (size_t i = 0; i < num_levels; ++i) { opt->rep.max_bytes_for_level_multiplier_additional[i] = level_values[i]; } } void rocksdb_options_enable_statistics(rocksdb_options_t* opt) { opt->rep.statistics = rocksdb::CreateDBStatistics(); } void rocksdb_options_set_skip_stats_update_on_db_open(rocksdb_options_t* opt, unsigned char val) { opt->rep.skip_stats_update_on_db_open = val; } void rocksdb_options_set_num_levels(rocksdb_options_t* opt, int n) { opt->rep.num_levels = n; } void rocksdb_options_set_level0_file_num_compaction_trigger( rocksdb_options_t* opt, int n) { opt->rep.level0_file_num_compaction_trigger = n; } void rocksdb_options_set_level0_slowdown_writes_trigger( rocksdb_options_t* opt, int n) { opt->rep.level0_slowdown_writes_trigger = n; } void rocksdb_options_set_level0_stop_writes_trigger( rocksdb_options_t* opt, int n) { opt->rep.level0_stop_writes_trigger = n; } void rocksdb_options_set_max_mem_compaction_level(rocksdb_options_t* /*opt*/, int /*n*/) {} void rocksdb_options_set_wal_recovery_mode(rocksdb_options_t* opt,int mode) { opt->rep.wal_recovery_mode = static_cast(mode); } void rocksdb_options_set_compression(rocksdb_options_t* opt, int t) { opt->rep.compression = static_cast(t); } void rocksdb_options_set_compression_per_level(rocksdb_options_t* opt, int* level_values, size_t num_levels) { opt->rep.compression_per_level.resize(num_levels); for (size_t i = 0; i < num_levels; ++i) { opt->rep.compression_per_level[i] = static_cast(level_values[i]); } } void rocksdb_options_set_bottommost_compression_options(rocksdb_options_t* opt, int w_bits, int level, int strategy, int max_dict_bytes, bool enabled) { opt->rep.bottommost_compression_opts.window_bits = w_bits; opt->rep.bottommost_compression_opts.level = level; opt->rep.bottommost_compression_opts.strategy = strategy; opt->rep.bottommost_compression_opts.max_dict_bytes = max_dict_bytes; opt->rep.bottommost_compression_opts.enabled = enabled; } void rocksdb_options_set_compression_options(rocksdb_options_t* opt, int w_bits, int level, int strategy, int max_dict_bytes) { opt->rep.compression_opts.window_bits = w_bits; opt->rep.compression_opts.level = level; opt->rep.compression_opts.strategy = strategy; opt->rep.compression_opts.max_dict_bytes = max_dict_bytes; } void rocksdb_options_set_prefix_extractor( rocksdb_options_t* opt, rocksdb_slicetransform_t* prefix_extractor) { opt->rep.prefix_extractor.reset(prefix_extractor); } void rocksdb_options_set_use_fsync( rocksdb_options_t* opt, int use_fsync) { opt->rep.use_fsync = use_fsync; } void rocksdb_options_set_db_log_dir( rocksdb_options_t* opt, const char* db_log_dir) { opt->rep.db_log_dir = db_log_dir; } void rocksdb_options_set_wal_dir( rocksdb_options_t* opt, const char* v) { opt->rep.wal_dir = v; } void rocksdb_options_set_WAL_ttl_seconds(rocksdb_options_t* opt, uint64_t ttl) { opt->rep.WAL_ttl_seconds = ttl; } void rocksdb_options_set_WAL_size_limit_MB( rocksdb_options_t* opt, uint64_t limit) { opt->rep.WAL_size_limit_MB = limit; } void rocksdb_options_set_manifest_preallocation_size( rocksdb_options_t* opt, size_t v) { opt->rep.manifest_preallocation_size = v; } // noop void rocksdb_options_set_purge_redundant_kvs_while_flush( rocksdb_options_t* /*opt*/, unsigned char /*v*/) {} void rocksdb_options_set_use_direct_reads(rocksdb_options_t* opt, unsigned char v) { opt->rep.use_direct_reads = v; } void rocksdb_options_set_use_direct_io_for_flush_and_compaction( rocksdb_options_t* opt, unsigned char v) { opt->rep.use_direct_io_for_flush_and_compaction = v; } void rocksdb_options_set_allow_mmap_reads( rocksdb_options_t* opt, unsigned char v) { opt->rep.allow_mmap_reads = v; } void rocksdb_options_set_allow_mmap_writes( rocksdb_options_t* opt, unsigned char v) { opt->rep.allow_mmap_writes = v; } void rocksdb_options_set_is_fd_close_on_exec( rocksdb_options_t* opt, unsigned char v) { opt->rep.is_fd_close_on_exec = v; } void rocksdb_options_set_skip_log_error_on_recovery( rocksdb_options_t* opt, unsigned char v) { opt->rep.skip_log_error_on_recovery = v; } void rocksdb_options_set_stats_dump_period_sec( rocksdb_options_t* opt, unsigned int v) { opt->rep.stats_dump_period_sec = v; } void rocksdb_options_set_advise_random_on_open( rocksdb_options_t* opt, unsigned char v) { opt->rep.advise_random_on_open = v; } void rocksdb_options_set_access_hint_on_compaction_start( rocksdb_options_t* opt, int v) { switch(v) { case 0: opt->rep.access_hint_on_compaction_start = rocksdb::Options::NONE; break; case 1: opt->rep.access_hint_on_compaction_start = rocksdb::Options::NORMAL; break; case 2: opt->rep.access_hint_on_compaction_start = rocksdb::Options::SEQUENTIAL; break; case 3: opt->rep.access_hint_on_compaction_start = rocksdb::Options::WILLNEED; break; } } void rocksdb_options_set_use_adaptive_mutex( rocksdb_options_t* opt, unsigned char v) { opt->rep.use_adaptive_mutex = v; } void rocksdb_options_set_wal_bytes_per_sync( rocksdb_options_t* opt, uint64_t v) { opt->rep.wal_bytes_per_sync = v; } void rocksdb_options_set_bytes_per_sync( rocksdb_options_t* opt, uint64_t v) { opt->rep.bytes_per_sync = v; } void rocksdb_options_set_writable_file_max_buffer_size(rocksdb_options_t* opt, uint64_t v) { opt->rep.writable_file_max_buffer_size = static_cast(v); } void rocksdb_options_set_allow_concurrent_memtable_write(rocksdb_options_t* opt, unsigned char v) { opt->rep.allow_concurrent_memtable_write = v; } void rocksdb_options_set_enable_write_thread_adaptive_yield( rocksdb_options_t* opt, unsigned char v) { opt->rep.enable_write_thread_adaptive_yield = v; } void rocksdb_options_set_max_sequential_skip_in_iterations( rocksdb_options_t* opt, uint64_t v) { opt->rep.max_sequential_skip_in_iterations = v; } void rocksdb_options_set_max_write_buffer_number(rocksdb_options_t* opt, int n) { opt->rep.max_write_buffer_number = n; } void rocksdb_options_set_min_write_buffer_number_to_merge(rocksdb_options_t* opt, int n) { opt->rep.min_write_buffer_number_to_merge = n; } void rocksdb_options_set_max_write_buffer_number_to_maintain( rocksdb_options_t* opt, int n) { opt->rep.max_write_buffer_number_to_maintain = n; } void rocksdb_options_set_enable_pipelined_write(rocksdb_options_t* opt, unsigned char v) { opt->rep.enable_pipelined_write = v; } void rocksdb_options_set_max_subcompactions(rocksdb_options_t* opt, uint32_t n) { opt->rep.max_subcompactions = n; } void rocksdb_options_set_max_background_jobs(rocksdb_options_t* opt, int n) { opt->rep.max_background_jobs = n; } void rocksdb_options_set_max_background_compactions(rocksdb_options_t* opt, int n) { opt->rep.max_background_compactions = n; } void rocksdb_options_set_base_background_compactions(rocksdb_options_t* opt, int n) { opt->rep.base_background_compactions = n; } void rocksdb_options_set_max_background_flushes(rocksdb_options_t* opt, int n) { opt->rep.max_background_flushes = n; } void rocksdb_options_set_max_log_file_size(rocksdb_options_t* opt, size_t v) { opt->rep.max_log_file_size = v; } void rocksdb_options_set_log_file_time_to_roll(rocksdb_options_t* opt, size_t v) { opt->rep.log_file_time_to_roll = v; } void rocksdb_options_set_keep_log_file_num(rocksdb_options_t* opt, size_t v) { opt->rep.keep_log_file_num = v; } void rocksdb_options_set_recycle_log_file_num(rocksdb_options_t* opt, size_t v) { opt->rep.recycle_log_file_num = v; } void rocksdb_options_set_soft_rate_limit(rocksdb_options_t* opt, double v) { opt->rep.soft_rate_limit = v; } void rocksdb_options_set_hard_rate_limit(rocksdb_options_t* opt, double v) { opt->rep.hard_rate_limit = v; } void rocksdb_options_set_soft_pending_compaction_bytes_limit(rocksdb_options_t* opt, size_t v) { opt->rep.soft_pending_compaction_bytes_limit = v; } void rocksdb_options_set_hard_pending_compaction_bytes_limit(rocksdb_options_t* opt, size_t v) { opt->rep.hard_pending_compaction_bytes_limit = v; } void rocksdb_options_set_rate_limit_delay_max_milliseconds( rocksdb_options_t* opt, unsigned int v) { opt->rep.rate_limit_delay_max_milliseconds = v; } void rocksdb_options_set_max_manifest_file_size( rocksdb_options_t* opt, size_t v) { opt->rep.max_manifest_file_size = v; } void rocksdb_options_set_table_cache_numshardbits( rocksdb_options_t* opt, int v) { opt->rep.table_cache_numshardbits = v; } void rocksdb_options_set_table_cache_remove_scan_count_limit( rocksdb_options_t* /*opt*/, int /*v*/) { // this option is deprecated } void rocksdb_options_set_arena_block_size( rocksdb_options_t* opt, size_t v) { opt->rep.arena_block_size = v; } void rocksdb_options_set_disable_auto_compactions(rocksdb_options_t* opt, int disable) { opt->rep.disable_auto_compactions = disable; } void rocksdb_options_set_optimize_filters_for_hits(rocksdb_options_t* opt, int v) { opt->rep.optimize_filters_for_hits = v; } void rocksdb_options_set_delete_obsolete_files_period_micros( rocksdb_options_t* opt, uint64_t v) { opt->rep.delete_obsolete_files_period_micros = v; } void rocksdb_options_prepare_for_bulk_load(rocksdb_options_t* opt) { opt->rep.PrepareForBulkLoad(); } void rocksdb_options_set_memtable_vector_rep(rocksdb_options_t *opt) { opt->rep.memtable_factory.reset(new rocksdb::VectorRepFactory); } void rocksdb_options_set_memtable_prefix_bloom_size_ratio( rocksdb_options_t* opt, double v) { opt->rep.memtable_prefix_bloom_size_ratio = v; } void rocksdb_options_set_memtable_huge_page_size(rocksdb_options_t* opt, size_t v) { opt->rep.memtable_huge_page_size = v; } void rocksdb_options_set_hash_skip_list_rep( rocksdb_options_t *opt, size_t bucket_count, int32_t skiplist_height, int32_t skiplist_branching_factor) { rocksdb::MemTableRepFactory* factory = rocksdb::NewHashSkipListRepFactory( bucket_count, skiplist_height, skiplist_branching_factor); opt->rep.memtable_factory.reset(factory); } void rocksdb_options_set_hash_link_list_rep( rocksdb_options_t *opt, size_t bucket_count) { opt->rep.memtable_factory.reset(rocksdb::NewHashLinkListRepFactory(bucket_count)); } void rocksdb_options_set_plain_table_factory( rocksdb_options_t *opt, uint32_t user_key_len, int bloom_bits_per_key, double hash_table_ratio, size_t index_sparseness) { rocksdb::PlainTableOptions options; options.user_key_len = user_key_len; options.bloom_bits_per_key = bloom_bits_per_key; options.hash_table_ratio = hash_table_ratio; options.index_sparseness = index_sparseness; rocksdb::TableFactory* factory = rocksdb::NewPlainTableFactory(options); opt->rep.table_factory.reset(factory); } void rocksdb_options_set_max_successive_merges( rocksdb_options_t* opt, size_t v) { opt->rep.max_successive_merges = v; } void rocksdb_options_set_bloom_locality( rocksdb_options_t* opt, uint32_t v) { opt->rep.bloom_locality = v; } void rocksdb_options_set_inplace_update_support( rocksdb_options_t* opt, unsigned char v) { opt->rep.inplace_update_support = v; } void rocksdb_options_set_inplace_update_num_locks( rocksdb_options_t* opt, size_t v) { opt->rep.inplace_update_num_locks = v; } void rocksdb_options_set_report_bg_io_stats( rocksdb_options_t* opt, int v) { opt->rep.report_bg_io_stats = v; } void rocksdb_options_set_compaction_style(rocksdb_options_t *opt, int style) { opt->rep.compaction_style = static_cast(style); } void rocksdb_options_set_universal_compaction_options(rocksdb_options_t *opt, rocksdb_universal_compaction_options_t *uco) { opt->rep.compaction_options_universal = *(uco->rep); } void rocksdb_options_set_fifo_compaction_options( rocksdb_options_t* opt, rocksdb_fifo_compaction_options_t* fifo) { opt->rep.compaction_options_fifo = fifo->rep; } char *rocksdb_options_statistics_get_string(rocksdb_options_t *opt) { rocksdb::Statistics *statistics = opt->rep.statistics.get(); if (statistics) { return strdup(statistics->ToString().c_str()); } return nullptr; } void rocksdb_options_set_ratelimiter(rocksdb_options_t *opt, rocksdb_ratelimiter_t *limiter) { if (limiter) { opt->rep.rate_limiter = limiter->rep; } } rocksdb_ratelimiter_t* rocksdb_ratelimiter_create( int64_t rate_bytes_per_sec, int64_t refill_period_us, int32_t fairness) { rocksdb_ratelimiter_t* rate_limiter = new rocksdb_ratelimiter_t; rate_limiter->rep.reset( NewGenericRateLimiter(rate_bytes_per_sec, refill_period_us, fairness)); return rate_limiter; } void rocksdb_ratelimiter_destroy(rocksdb_ratelimiter_t *limiter) { delete limiter; } void rocksdb_set_perf_level(int v) { PerfLevel level = static_cast(v); SetPerfLevel(level); } rocksdb_perfcontext_t* rocksdb_perfcontext_create() { rocksdb_perfcontext_t* context = new rocksdb_perfcontext_t; context->rep = rocksdb::get_perf_context(); return context; } void rocksdb_perfcontext_reset(rocksdb_perfcontext_t* context) { context->rep->Reset(); } char* rocksdb_perfcontext_report(rocksdb_perfcontext_t* context, unsigned char exclude_zero_counters) { return strdup(context->rep->ToString(exclude_zero_counters).c_str()); } uint64_t rocksdb_perfcontext_metric(rocksdb_perfcontext_t* context, int metric) { PerfContext* rep = context->rep; switch (metric) { case rocksdb_user_key_comparison_count: return rep->user_key_comparison_count; case rocksdb_block_cache_hit_count: return rep->block_cache_hit_count; case rocksdb_block_read_count: return rep->block_read_count; case rocksdb_block_read_byte: return rep->block_read_byte; case rocksdb_block_read_time: return rep->block_read_time; case rocksdb_block_checksum_time: return rep->block_checksum_time; case rocksdb_block_decompress_time: return rep->block_decompress_time; case rocksdb_get_read_bytes: return rep->get_read_bytes; case rocksdb_multiget_read_bytes: return rep->multiget_read_bytes; case rocksdb_iter_read_bytes: return rep->iter_read_bytes; case rocksdb_internal_key_skipped_count: return rep->internal_key_skipped_count; case rocksdb_internal_delete_skipped_count: return rep->internal_delete_skipped_count; case rocksdb_internal_recent_skipped_count: return rep->internal_recent_skipped_count; case rocksdb_internal_merge_count: return rep->internal_merge_count; case rocksdb_get_snapshot_time: return rep->get_snapshot_time; case rocksdb_get_from_memtable_time: return rep->get_from_memtable_time; case rocksdb_get_from_memtable_count: return rep->get_from_memtable_count; case rocksdb_get_post_process_time: return rep->get_post_process_time; case rocksdb_get_from_output_files_time: return rep->get_from_output_files_time; case rocksdb_seek_on_memtable_time: return rep->seek_on_memtable_time; case rocksdb_seek_on_memtable_count: return rep->seek_on_memtable_count; case rocksdb_next_on_memtable_count: return rep->next_on_memtable_count; case rocksdb_prev_on_memtable_count: return rep->prev_on_memtable_count; case rocksdb_seek_child_seek_time: return rep->seek_child_seek_time; case rocksdb_seek_child_seek_count: return rep->seek_child_seek_count; case rocksdb_seek_min_heap_time: return rep->seek_min_heap_time; case rocksdb_seek_max_heap_time: return rep->seek_max_heap_time; case rocksdb_seek_internal_seek_time: return rep->seek_internal_seek_time; case rocksdb_find_next_user_entry_time: return rep->find_next_user_entry_time; case rocksdb_write_wal_time: return rep->write_wal_time; case rocksdb_write_memtable_time: return rep->write_memtable_time; case rocksdb_write_delay_time: return rep->write_delay_time; case rocksdb_write_pre_and_post_process_time: return rep->write_pre_and_post_process_time; case rocksdb_db_mutex_lock_nanos: return rep->db_mutex_lock_nanos; case rocksdb_db_condition_wait_nanos: return rep->db_condition_wait_nanos; case rocksdb_merge_operator_time_nanos: return rep->merge_operator_time_nanos; case rocksdb_read_index_block_nanos: return rep->read_index_block_nanos; case rocksdb_read_filter_block_nanos: return rep->read_filter_block_nanos; case rocksdb_new_table_block_iter_nanos: return rep->new_table_block_iter_nanos; case rocksdb_new_table_iterator_nanos: return rep->new_table_iterator_nanos; case rocksdb_block_seek_nanos: return rep->block_seek_nanos; case rocksdb_find_table_nanos: return rep->find_table_nanos; case rocksdb_bloom_memtable_hit_count: return rep->bloom_memtable_hit_count; case rocksdb_bloom_memtable_miss_count: return rep->bloom_memtable_miss_count; case rocksdb_bloom_sst_hit_count: return rep->bloom_sst_hit_count; case rocksdb_bloom_sst_miss_count: return rep->bloom_sst_miss_count; case rocksdb_key_lock_wait_time: return rep->key_lock_wait_time; case rocksdb_key_lock_wait_count: return rep->key_lock_wait_count; case rocksdb_env_new_sequential_file_nanos: return rep->env_new_sequential_file_nanos; case rocksdb_env_new_random_access_file_nanos: return rep->env_new_random_access_file_nanos; case rocksdb_env_new_writable_file_nanos: return rep->env_new_writable_file_nanos; case rocksdb_env_reuse_writable_file_nanos: return rep->env_reuse_writable_file_nanos; case rocksdb_env_new_random_rw_file_nanos: return rep->env_new_random_rw_file_nanos; case rocksdb_env_new_directory_nanos: return rep->env_new_directory_nanos; case rocksdb_env_file_exists_nanos: return rep->env_file_exists_nanos; case rocksdb_env_get_children_nanos: return rep->env_get_children_nanos; case rocksdb_env_get_children_file_attributes_nanos: return rep->env_get_children_file_attributes_nanos; case rocksdb_env_delete_file_nanos: return rep->env_delete_file_nanos; case rocksdb_env_create_dir_nanos: return rep->env_create_dir_nanos; case rocksdb_env_create_dir_if_missing_nanos: return rep->env_create_dir_if_missing_nanos; case rocksdb_env_delete_dir_nanos: return rep->env_delete_dir_nanos; case rocksdb_env_get_file_size_nanos: return rep->env_get_file_size_nanos; case rocksdb_env_get_file_modification_time_nanos: return rep->env_get_file_modification_time_nanos; case rocksdb_env_rename_file_nanos: return rep->env_rename_file_nanos; case rocksdb_env_link_file_nanos: return rep->env_link_file_nanos; case rocksdb_env_lock_file_nanos: return rep->env_lock_file_nanos; case rocksdb_env_unlock_file_nanos: return rep->env_unlock_file_nanos; case rocksdb_env_new_logger_nanos: return rep->env_new_logger_nanos; default: break; } return 0; } void rocksdb_perfcontext_destroy(rocksdb_perfcontext_t* context) { delete context; } /* TODO: DB::OpenForReadOnly DB::KeyMayExist DB::GetOptions DB::GetSortedWalFiles DB::GetLatestSequenceNumber DB::GetUpdatesSince DB::GetDbIdentity DB::RunManualCompaction custom cache table_properties_collectors */ rocksdb_compactionfilter_t* rocksdb_compactionfilter_create( void* state, void (*destructor)(void*), unsigned char (*filter)( void*, int level, const char* key, size_t key_length, const char* existing_value, size_t value_length, char** new_value, size_t *new_value_length, unsigned char* value_changed), const char* (*name)(void*)) { rocksdb_compactionfilter_t* result = new rocksdb_compactionfilter_t; result->state_ = state; result->destructor_ = destructor; result->filter_ = filter; result->ignore_snapshots_ = false; result->name_ = name; return result; } void rocksdb_compactionfilter_set_ignore_snapshots( rocksdb_compactionfilter_t* filter, unsigned char whether_ignore) { filter->ignore_snapshots_ = whether_ignore; } void rocksdb_compactionfilter_destroy(rocksdb_compactionfilter_t* filter) { delete filter; } unsigned char rocksdb_compactionfiltercontext_is_full_compaction( rocksdb_compactionfiltercontext_t* context) { return context->rep.is_full_compaction; } unsigned char rocksdb_compactionfiltercontext_is_manual_compaction( rocksdb_compactionfiltercontext_t* context) { return context->rep.is_manual_compaction; } rocksdb_compactionfilterfactory_t* rocksdb_compactionfilterfactory_create( void* state, void (*destructor)(void*), rocksdb_compactionfilter_t* (*create_compaction_filter)( void*, rocksdb_compactionfiltercontext_t* context), const char* (*name)(void*)) { rocksdb_compactionfilterfactory_t* result = new rocksdb_compactionfilterfactory_t; result->state_ = state; result->destructor_ = destructor; result->create_compaction_filter_ = create_compaction_filter; result->name_ = name; return result; } void rocksdb_compactionfilterfactory_destroy( rocksdb_compactionfilterfactory_t* factory) { delete factory; } rocksdb_comparator_t* rocksdb_comparator_create( void* state, void (*destructor)(void*), int (*compare)( void*, const char* a, size_t alen, const char* b, size_t blen), const char* (*name)(void*)) { rocksdb_comparator_t* result = new rocksdb_comparator_t; result->state_ = state; result->destructor_ = destructor; result->compare_ = compare; result->name_ = name; return result; } void rocksdb_comparator_destroy(rocksdb_comparator_t* cmp) { delete cmp; } rocksdb_filterpolicy_t* rocksdb_filterpolicy_create( void* state, void (*destructor)(void*), char* (*create_filter)( void*, const char* const* key_array, const size_t* key_length_array, int num_keys, size_t* filter_length), unsigned char (*key_may_match)( void*, const char* key, size_t length, const char* filter, size_t filter_length), void (*delete_filter)( void*, const char* filter, size_t filter_length), const char* (*name)(void*)) { rocksdb_filterpolicy_t* result = new rocksdb_filterpolicy_t; result->state_ = state; result->destructor_ = destructor; result->create_ = create_filter; result->key_match_ = key_may_match; result->delete_filter_ = delete_filter; result->name_ = name; return result; } void rocksdb_filterpolicy_destroy(rocksdb_filterpolicy_t* filter) { delete filter; } rocksdb_filterpolicy_t* rocksdb_filterpolicy_create_bloom_format(int bits_per_key, bool original_format) { // Make a rocksdb_filterpolicy_t, but override all of its methods so // they delegate to a NewBloomFilterPolicy() instead of user // supplied C functions. struct Wrapper : public rocksdb_filterpolicy_t { const FilterPolicy* rep_; ~Wrapper() { delete rep_; } const char* Name() const override { return rep_->Name(); } void CreateFilter(const Slice* keys, int n, std::string* dst) const override { return rep_->CreateFilter(keys, n, dst); } bool KeyMayMatch(const Slice& key, const Slice& filter) const override { return rep_->KeyMayMatch(key, filter); } static void DoNothing(void*) { } }; Wrapper* wrapper = new Wrapper; wrapper->rep_ = NewBloomFilterPolicy(bits_per_key, original_format); wrapper->state_ = nullptr; wrapper->delete_filter_ = nullptr; wrapper->destructor_ = &Wrapper::DoNothing; return wrapper; } rocksdb_filterpolicy_t* rocksdb_filterpolicy_create_bloom_full(int bits_per_key) { return rocksdb_filterpolicy_create_bloom_format(bits_per_key, false); } rocksdb_filterpolicy_t* rocksdb_filterpolicy_create_bloom(int bits_per_key) { return rocksdb_filterpolicy_create_bloom_format(bits_per_key, true); } rocksdb_mergeoperator_t* rocksdb_mergeoperator_create( void* state, void (*destructor)(void*), char* (*full_merge)(void*, const char* key, size_t key_length, const char* existing_value, size_t existing_value_length, const char* const* operands_list, const size_t* operands_list_length, int num_operands, unsigned char* success, size_t* new_value_length), char* (*partial_merge)(void*, const char* key, size_t key_length, const char* const* operands_list, const size_t* operands_list_length, int num_operands, unsigned char* success, size_t* new_value_length), void (*delete_value)(void*, const char* value, size_t value_length), const char* (*name)(void*)) { rocksdb_mergeoperator_t* result = new rocksdb_mergeoperator_t; result->state_ = state; result->destructor_ = destructor; result->full_merge_ = full_merge; result->partial_merge_ = partial_merge; result->delete_value_ = delete_value; result->name_ = name; return result; } void rocksdb_mergeoperator_destroy(rocksdb_mergeoperator_t* merge_operator) { delete merge_operator; } rocksdb_readoptions_t* rocksdb_readoptions_create() { return new rocksdb_readoptions_t; } void rocksdb_readoptions_destroy(rocksdb_readoptions_t* opt) { delete opt; } void rocksdb_readoptions_set_verify_checksums( rocksdb_readoptions_t* opt, unsigned char v) { opt->rep.verify_checksums = v; } void rocksdb_readoptions_set_fill_cache( rocksdb_readoptions_t* opt, unsigned char v) { opt->rep.fill_cache = v; } void rocksdb_readoptions_set_snapshot( rocksdb_readoptions_t* opt, const rocksdb_snapshot_t* snap) { opt->rep.snapshot = (snap ? snap->rep : nullptr); } void rocksdb_readoptions_set_iterate_upper_bound( rocksdb_readoptions_t* opt, const char* key, size_t keylen) { if (key == nullptr) { opt->upper_bound = Slice(); opt->rep.iterate_upper_bound = nullptr; } else { opt->upper_bound = Slice(key, keylen); opt->rep.iterate_upper_bound = &opt->upper_bound; } } void rocksdb_readoptions_set_iterate_lower_bound( rocksdb_readoptions_t *opt, const char* key, size_t keylen) { if (key == nullptr) { opt->lower_bound = Slice(); opt->rep.iterate_lower_bound = nullptr; } else { opt->lower_bound = Slice(key, keylen); opt->rep.iterate_lower_bound = &opt->lower_bound; } } void rocksdb_readoptions_set_read_tier( rocksdb_readoptions_t* opt, int v) { opt->rep.read_tier = static_cast(v); } void rocksdb_readoptions_set_tailing( rocksdb_readoptions_t* opt, unsigned char v) { opt->rep.tailing = v; } void rocksdb_readoptions_set_managed( rocksdb_readoptions_t* opt, unsigned char v) { opt->rep.managed = v; } void rocksdb_readoptions_set_readahead_size( rocksdb_readoptions_t* opt, size_t v) { opt->rep.readahead_size = v; } void rocksdb_readoptions_set_prefix_same_as_start( rocksdb_readoptions_t* opt, unsigned char v) { opt->rep.prefix_same_as_start = v; } void rocksdb_readoptions_set_pin_data(rocksdb_readoptions_t* opt, unsigned char v) { opt->rep.pin_data = v; } void rocksdb_readoptions_set_total_order_seek(rocksdb_readoptions_t* opt, unsigned char v) { opt->rep.total_order_seek = v; } void rocksdb_readoptions_set_max_skippable_internal_keys( rocksdb_readoptions_t* opt, uint64_t v) { opt->rep.max_skippable_internal_keys = v; } void rocksdb_readoptions_set_background_purge_on_iterator_cleanup( rocksdb_readoptions_t* opt, unsigned char v) { opt->rep.background_purge_on_iterator_cleanup = v; } void rocksdb_readoptions_set_ignore_range_deletions( rocksdb_readoptions_t* opt, unsigned char v) { opt->rep.ignore_range_deletions = v; } rocksdb_writeoptions_t* rocksdb_writeoptions_create() { return new rocksdb_writeoptions_t; } void rocksdb_writeoptions_destroy(rocksdb_writeoptions_t* opt) { delete opt; } void rocksdb_writeoptions_set_sync( rocksdb_writeoptions_t* opt, unsigned char v) { opt->rep.sync = v; } void rocksdb_writeoptions_disable_WAL(rocksdb_writeoptions_t* opt, int disable) { opt->rep.disableWAL = disable; } void rocksdb_writeoptions_set_ignore_missing_column_families( rocksdb_writeoptions_t* opt, unsigned char v) { opt->rep.ignore_missing_column_families = v; } void rocksdb_writeoptions_set_no_slowdown( rocksdb_writeoptions_t* opt, unsigned char v) { opt->rep.no_slowdown = v; } void rocksdb_writeoptions_set_low_pri( rocksdb_writeoptions_t* opt, unsigned char v) { opt->rep.low_pri = v; } rocksdb_compactoptions_t* rocksdb_compactoptions_create() { return new rocksdb_compactoptions_t; } void rocksdb_compactoptions_destroy(rocksdb_compactoptions_t* opt) { delete opt; } void rocksdb_compactoptions_set_bottommost_level_compaction( rocksdb_compactoptions_t* opt, unsigned char v) { opt->rep.bottommost_level_compaction = static_cast(v); } void rocksdb_compactoptions_set_exclusive_manual_compaction( rocksdb_compactoptions_t* opt, unsigned char v) { opt->rep.exclusive_manual_compaction = v; } void rocksdb_compactoptions_set_change_level(rocksdb_compactoptions_t* opt, unsigned char v) { opt->rep.change_level = v; } void rocksdb_compactoptions_set_target_level(rocksdb_compactoptions_t* opt, int n) { opt->rep.target_level = n; } rocksdb_flushoptions_t* rocksdb_flushoptions_create() { return new rocksdb_flushoptions_t; } void rocksdb_flushoptions_destroy(rocksdb_flushoptions_t* opt) { delete opt; } void rocksdb_flushoptions_set_wait( rocksdb_flushoptions_t* opt, unsigned char v) { opt->rep.wait = v; } rocksdb_cache_t* rocksdb_cache_create_lru(size_t capacity) { rocksdb_cache_t* c = new rocksdb_cache_t; c->rep = NewLRUCache(capacity); return c; } void rocksdb_cache_destroy(rocksdb_cache_t* cache) { delete cache; } void rocksdb_cache_set_capacity(rocksdb_cache_t* cache, size_t capacity) { cache->rep->SetCapacity(capacity); } size_t rocksdb_cache_get_usage(rocksdb_cache_t* cache) { return cache->rep->GetUsage(); } size_t rocksdb_cache_get_pinned_usage(rocksdb_cache_t* cache) { return cache->rep->GetPinnedUsage(); } rocksdb_dbpath_t* rocksdb_dbpath_create(const char* path, uint64_t target_size) { rocksdb_dbpath_t* result = new rocksdb_dbpath_t; result->rep.path = std::string(path); result->rep.target_size = target_size; return result; } void rocksdb_dbpath_destroy(rocksdb_dbpath_t* dbpath) { delete dbpath; } rocksdb_env_t* rocksdb_create_default_env() { rocksdb_env_t* result = new rocksdb_env_t; result->rep = Env::Default(); result->is_default = true; return result; } rocksdb_env_t* rocksdb_create_mem_env() { rocksdb_env_t* result = new rocksdb_env_t; result->rep = rocksdb::NewMemEnv(Env::Default()); result->is_default = false; return result; } void rocksdb_env_set_background_threads(rocksdb_env_t* env, int n) { env->rep->SetBackgroundThreads(n); } void rocksdb_env_set_high_priority_background_threads(rocksdb_env_t* env, int n) { env->rep->SetBackgroundThreads(n, Env::HIGH); } void rocksdb_env_join_all_threads(rocksdb_env_t* env) { env->rep->WaitForJoin(); } void rocksdb_env_destroy(rocksdb_env_t* env) { if (!env->is_default) delete env->rep; delete env; } rocksdb_envoptions_t* rocksdb_envoptions_create() { rocksdb_envoptions_t* opt = new rocksdb_envoptions_t; return opt; } void rocksdb_envoptions_destroy(rocksdb_envoptions_t* opt) { delete opt; } rocksdb_sstfilewriter_t* rocksdb_sstfilewriter_create( const rocksdb_envoptions_t* env, const rocksdb_options_t* io_options) { rocksdb_sstfilewriter_t* writer = new rocksdb_sstfilewriter_t; writer->rep = new SstFileWriter(env->rep, io_options->rep); return writer; } rocksdb_sstfilewriter_t* rocksdb_sstfilewriter_create_with_comparator( const rocksdb_envoptions_t* env, const rocksdb_options_t* io_options, const rocksdb_comparator_t* /*comparator*/) { rocksdb_sstfilewriter_t* writer = new rocksdb_sstfilewriter_t; writer->rep = new SstFileWriter(env->rep, io_options->rep); return writer; } void rocksdb_sstfilewriter_open(rocksdb_sstfilewriter_t* writer, const char* name, char** errptr) { SaveError(errptr, writer->rep->Open(std::string(name))); } void rocksdb_sstfilewriter_add(rocksdb_sstfilewriter_t* writer, const char* key, size_t keylen, const char* val, size_t vallen, char** errptr) { SaveError(errptr, writer->rep->Put(Slice(key, keylen), Slice(val, vallen))); } void rocksdb_sstfilewriter_put(rocksdb_sstfilewriter_t* writer, const char* key, size_t keylen, const char* val, size_t vallen, char** errptr) { SaveError(errptr, writer->rep->Put(Slice(key, keylen), Slice(val, vallen))); } void rocksdb_sstfilewriter_merge(rocksdb_sstfilewriter_t* writer, const char* key, size_t keylen, const char* val, size_t vallen, char** errptr) { SaveError(errptr, writer->rep->Merge(Slice(key, keylen), Slice(val, vallen))); } void rocksdb_sstfilewriter_delete(rocksdb_sstfilewriter_t* writer, const char* key, size_t keylen, char** errptr) { SaveError(errptr, writer->rep->Delete(Slice(key, keylen))); } void rocksdb_sstfilewriter_finish(rocksdb_sstfilewriter_t* writer, char** errptr) { SaveError(errptr, writer->rep->Finish(nullptr)); } void rocksdb_sstfilewriter_file_size(rocksdb_sstfilewriter_t* writer, uint64_t* file_size) { *file_size = writer->rep->FileSize(); } void rocksdb_sstfilewriter_destroy(rocksdb_sstfilewriter_t* writer) { delete writer->rep; delete writer; } rocksdb_ingestexternalfileoptions_t* rocksdb_ingestexternalfileoptions_create() { rocksdb_ingestexternalfileoptions_t* opt = new rocksdb_ingestexternalfileoptions_t; return opt; } void rocksdb_ingestexternalfileoptions_set_move_files( rocksdb_ingestexternalfileoptions_t* opt, unsigned char move_files) { opt->rep.move_files = move_files; } void rocksdb_ingestexternalfileoptions_set_snapshot_consistency( rocksdb_ingestexternalfileoptions_t* opt, unsigned char snapshot_consistency) { opt->rep.snapshot_consistency = snapshot_consistency; } void rocksdb_ingestexternalfileoptions_set_allow_global_seqno( rocksdb_ingestexternalfileoptions_t* opt, unsigned char allow_global_seqno) { opt->rep.allow_global_seqno = allow_global_seqno; } void rocksdb_ingestexternalfileoptions_set_allow_blocking_flush( rocksdb_ingestexternalfileoptions_t* opt, unsigned char allow_blocking_flush) { opt->rep.allow_blocking_flush = allow_blocking_flush; } void rocksdb_ingestexternalfileoptions_set_ingest_behind( rocksdb_ingestexternalfileoptions_t* opt, unsigned char ingest_behind) { opt->rep.ingest_behind = ingest_behind; } void rocksdb_ingestexternalfileoptions_destroy( rocksdb_ingestexternalfileoptions_t* opt) { delete opt; } void rocksdb_ingest_external_file( rocksdb_t* db, const char* const* file_list, const size_t list_len, const rocksdb_ingestexternalfileoptions_t* opt, char** errptr) { std::vector files(list_len); for (size_t i = 0; i < list_len; ++i) { files[i] = std::string(file_list[i]); } SaveError(errptr, db->rep->IngestExternalFile(files, opt->rep)); } void rocksdb_ingest_external_file_cf( rocksdb_t* db, rocksdb_column_family_handle_t* handle, const char* const* file_list, const size_t list_len, const rocksdb_ingestexternalfileoptions_t* opt, char** errptr) { std::vector files(list_len); for (size_t i = 0; i < list_len; ++i) { files[i] = std::string(file_list[i]); } SaveError(errptr, db->rep->IngestExternalFile(handle->rep, files, opt->rep)); } rocksdb_slicetransform_t* rocksdb_slicetransform_create( void* state, void (*destructor)(void*), char* (*transform)( void*, const char* key, size_t length, size_t* dst_length), unsigned char (*in_domain)( void*, const char* key, size_t length), unsigned char (*in_range)( void*, const char* key, size_t length), const char* (*name)(void*)) { rocksdb_slicetransform_t* result = new rocksdb_slicetransform_t; result->state_ = state; result->destructor_ = destructor; result->transform_ = transform; result->in_domain_ = in_domain; result->in_range_ = in_range; result->name_ = name; return result; } void rocksdb_slicetransform_destroy(rocksdb_slicetransform_t* st) { delete st; } struct Wrapper : public rocksdb_slicetransform_t { const SliceTransform* rep_; ~Wrapper() { delete rep_; } const char* Name() const override { return rep_->Name(); } Slice Transform(const Slice& src) const override { return rep_->Transform(src); } bool InDomain(const Slice& src) const override { return rep_->InDomain(src); } bool InRange(const Slice& src) const override { return rep_->InRange(src); } static void DoNothing(void*) { } }; rocksdb_slicetransform_t* rocksdb_slicetransform_create_fixed_prefix(size_t prefixLen) { Wrapper* wrapper = new Wrapper; wrapper->rep_ = rocksdb::NewFixedPrefixTransform(prefixLen); wrapper->state_ = nullptr; wrapper->destructor_ = &Wrapper::DoNothing; return wrapper; } rocksdb_slicetransform_t* rocksdb_slicetransform_create_noop() { Wrapper* wrapper = new Wrapper; wrapper->rep_ = rocksdb::NewNoopTransform(); wrapper->state_ = nullptr; wrapper->destructor_ = &Wrapper::DoNothing; return wrapper; } rocksdb_universal_compaction_options_t* rocksdb_universal_compaction_options_create() { rocksdb_universal_compaction_options_t* result = new rocksdb_universal_compaction_options_t; result->rep = new rocksdb::CompactionOptionsUniversal; return result; } void rocksdb_universal_compaction_options_set_size_ratio( rocksdb_universal_compaction_options_t* uco, int ratio) { uco->rep->size_ratio = ratio; } void rocksdb_universal_compaction_options_set_min_merge_width( rocksdb_universal_compaction_options_t* uco, int w) { uco->rep->min_merge_width = w; } void rocksdb_universal_compaction_options_set_max_merge_width( rocksdb_universal_compaction_options_t* uco, int w) { uco->rep->max_merge_width = w; } void rocksdb_universal_compaction_options_set_max_size_amplification_percent( rocksdb_universal_compaction_options_t* uco, int p) { uco->rep->max_size_amplification_percent = p; } void rocksdb_universal_compaction_options_set_compression_size_percent( rocksdb_universal_compaction_options_t* uco, int p) { uco->rep->compression_size_percent = p; } void rocksdb_universal_compaction_options_set_stop_style( rocksdb_universal_compaction_options_t* uco, int style) { uco->rep->stop_style = static_cast(style); } void rocksdb_universal_compaction_options_destroy( rocksdb_universal_compaction_options_t* uco) { delete uco->rep; delete uco; } rocksdb_fifo_compaction_options_t* rocksdb_fifo_compaction_options_create() { rocksdb_fifo_compaction_options_t* result = new rocksdb_fifo_compaction_options_t; result->rep = CompactionOptionsFIFO(); return result; } void rocksdb_fifo_compaction_options_set_max_table_files_size( rocksdb_fifo_compaction_options_t* fifo_opts, uint64_t size) { fifo_opts->rep.max_table_files_size = size; } void rocksdb_fifo_compaction_options_destroy( rocksdb_fifo_compaction_options_t* fifo_opts) { delete fifo_opts; } void rocksdb_options_set_min_level_to_compress(rocksdb_options_t* opt, int level) { if (level >= 0) { assert(level <= opt->rep.num_levels); opt->rep.compression_per_level.resize(opt->rep.num_levels); for (int i = 0; i < level; i++) { opt->rep.compression_per_level[i] = rocksdb::kNoCompression; } for (int i = level; i < opt->rep.num_levels; i++) { opt->rep.compression_per_level[i] = opt->rep.compression; } } } int rocksdb_livefiles_count( const rocksdb_livefiles_t* lf) { return static_cast(lf->rep.size()); } const char* rocksdb_livefiles_name( const rocksdb_livefiles_t* lf, int index) { return lf->rep[index].name.c_str(); } int rocksdb_livefiles_level( const rocksdb_livefiles_t* lf, int index) { return lf->rep[index].level; } size_t rocksdb_livefiles_size( const rocksdb_livefiles_t* lf, int index) { return lf->rep[index].size; } const char* rocksdb_livefiles_smallestkey( const rocksdb_livefiles_t* lf, int index, size_t* size) { *size = lf->rep[index].smallestkey.size(); return lf->rep[index].smallestkey.data(); } const char* rocksdb_livefiles_largestkey( const rocksdb_livefiles_t* lf, int index, size_t* size) { *size = lf->rep[index].largestkey.size(); return lf->rep[index].largestkey.data(); } extern void rocksdb_livefiles_destroy( const rocksdb_livefiles_t* lf) { delete lf; } void rocksdb_get_options_from_string(const rocksdb_options_t* base_options, const char* opts_str, rocksdb_options_t* new_options, char** errptr) { SaveError(errptr, GetOptionsFromString(base_options->rep, std::string(opts_str), &new_options->rep)); } void rocksdb_delete_file_in_range(rocksdb_t* db, const char* start_key, size_t start_key_len, const char* limit_key, size_t limit_key_len, char** errptr) { Slice a, b; SaveError( errptr, DeleteFilesInRange( db->rep, db->rep->DefaultColumnFamily(), (start_key ? (a = Slice(start_key, start_key_len), &a) : nullptr), (limit_key ? (b = Slice(limit_key, limit_key_len), &b) : nullptr))); } void rocksdb_delete_file_in_range_cf( rocksdb_t* db, rocksdb_column_family_handle_t* column_family, const char* start_key, size_t start_key_len, const char* limit_key, size_t limit_key_len, char** errptr) { Slice a, b; SaveError( errptr, DeleteFilesInRange( db->rep, column_family->rep, (start_key ? (a = Slice(start_key, start_key_len), &a) : nullptr), (limit_key ? (b = Slice(limit_key, limit_key_len), &b) : nullptr))); } rocksdb_transactiondb_options_t* rocksdb_transactiondb_options_create() { return new rocksdb_transactiondb_options_t; } void rocksdb_transactiondb_options_destroy(rocksdb_transactiondb_options_t* opt){ delete opt; } void rocksdb_transactiondb_options_set_max_num_locks( rocksdb_transactiondb_options_t* opt, int64_t max_num_locks) { opt->rep.max_num_locks = max_num_locks; } void rocksdb_transactiondb_options_set_num_stripes( rocksdb_transactiondb_options_t* opt, size_t num_stripes) { opt->rep.num_stripes = num_stripes; } void rocksdb_transactiondb_options_set_transaction_lock_timeout( rocksdb_transactiondb_options_t* opt, int64_t txn_lock_timeout) { opt->rep.transaction_lock_timeout = txn_lock_timeout; } void rocksdb_transactiondb_options_set_default_lock_timeout( rocksdb_transactiondb_options_t* opt, int64_t default_lock_timeout) { opt->rep.default_lock_timeout = default_lock_timeout; } rocksdb_transaction_options_t* rocksdb_transaction_options_create() { return new rocksdb_transaction_options_t; } void rocksdb_transaction_options_destroy(rocksdb_transaction_options_t* opt) { delete opt; } void rocksdb_transaction_options_set_set_snapshot( rocksdb_transaction_options_t* opt, unsigned char v) { opt->rep.set_snapshot = v; } void rocksdb_transaction_options_set_deadlock_detect( rocksdb_transaction_options_t* opt, unsigned char v) { opt->rep.deadlock_detect = v; } void rocksdb_transaction_options_set_lock_timeout( rocksdb_transaction_options_t* opt, int64_t lock_timeout) { opt->rep.lock_timeout = lock_timeout; } void rocksdb_transaction_options_set_expiration( rocksdb_transaction_options_t* opt, int64_t expiration) { opt->rep.expiration = expiration; } void rocksdb_transaction_options_set_deadlock_detect_depth( rocksdb_transaction_options_t* opt, int64_t depth) { opt->rep.deadlock_detect_depth = depth; } void rocksdb_transaction_options_set_max_write_batch_size( rocksdb_transaction_options_t* opt, size_t size) { opt->rep.max_write_batch_size = size; } rocksdb_optimistictransaction_options_t* rocksdb_optimistictransaction_options_create() { return new rocksdb_optimistictransaction_options_t; } void rocksdb_optimistictransaction_options_destroy( rocksdb_optimistictransaction_options_t* opt) { delete opt; } void rocksdb_optimistictransaction_options_set_set_snapshot( rocksdb_optimistictransaction_options_t* opt, unsigned char v) { opt->rep.set_snapshot = v; } rocksdb_column_family_handle_t* rocksdb_transactiondb_create_column_family( rocksdb_transactiondb_t* txn_db, const rocksdb_options_t* column_family_options, const char* column_family_name, char** errptr) { rocksdb_column_family_handle_t* handle = new rocksdb_column_family_handle_t; SaveError(errptr, txn_db->rep->CreateColumnFamily( ColumnFamilyOptions(column_family_options->rep), std::string(column_family_name), &(handle->rep))); return handle; } rocksdb_transactiondb_t* rocksdb_transactiondb_open( const rocksdb_options_t* options, const rocksdb_transactiondb_options_t* txn_db_options, const char* name, char** errptr) { TransactionDB* txn_db; if (SaveError(errptr, TransactionDB::Open(options->rep, txn_db_options->rep, std::string(name), &txn_db))) { return nullptr; } rocksdb_transactiondb_t* result = new rocksdb_transactiondb_t; result->rep = txn_db; return result; } const rocksdb_snapshot_t* rocksdb_transactiondb_create_snapshot( rocksdb_transactiondb_t* txn_db) { rocksdb_snapshot_t* result = new rocksdb_snapshot_t; result->rep = txn_db->rep->GetSnapshot(); return result; } void rocksdb_transactiondb_release_snapshot( rocksdb_transactiondb_t* txn_db, const rocksdb_snapshot_t* snapshot) { txn_db->rep->ReleaseSnapshot(snapshot->rep); delete snapshot; } rocksdb_transaction_t* rocksdb_transaction_begin( rocksdb_transactiondb_t* txn_db, const rocksdb_writeoptions_t* write_options, const rocksdb_transaction_options_t* txn_options, rocksdb_transaction_t* old_txn) { if (old_txn == nullptr) { rocksdb_transaction_t* result = new rocksdb_transaction_t; result->rep = txn_db->rep->BeginTransaction(write_options->rep, txn_options->rep, nullptr); return result; } old_txn->rep = txn_db->rep->BeginTransaction(write_options->rep, txn_options->rep, old_txn->rep); return old_txn; } void rocksdb_transaction_commit(rocksdb_transaction_t* txn, char** errptr) { SaveError(errptr, txn->rep->Commit()); } void rocksdb_transaction_rollback(rocksdb_transaction_t* txn, char** errptr) { SaveError(errptr, txn->rep->Rollback()); } void rocksdb_transaction_set_savepoint(rocksdb_transaction_t* txn) { txn->rep->SetSavePoint(); } void rocksdb_transaction_rollback_to_savepoint(rocksdb_transaction_t* txn, char** errptr) { SaveError(errptr, txn->rep->RollbackToSavePoint()); } void rocksdb_transaction_destroy(rocksdb_transaction_t* txn) { delete txn->rep; delete txn; } const rocksdb_snapshot_t* rocksdb_transaction_get_snapshot( rocksdb_transaction_t* txn) { rocksdb_snapshot_t* result = new rocksdb_snapshot_t; result->rep = txn->rep->GetSnapshot(); return result; } // Read a key inside a transaction char* rocksdb_transaction_get(rocksdb_transaction_t* txn, const rocksdb_readoptions_t* options, const char* key, size_t klen, size_t* vlen, char** errptr) { char* result = nullptr; std::string tmp; Status s = txn->rep->Get(options->rep, Slice(key, klen), &tmp); if (s.ok()) { *vlen = tmp.size(); result = CopyString(tmp); } else { *vlen = 0; if (!s.IsNotFound()) { SaveError(errptr, s); } } return result; } char* rocksdb_transaction_get_cf(rocksdb_transaction_t* txn, const rocksdb_readoptions_t* options, rocksdb_column_family_handle_t* column_family, const char* key, size_t klen, size_t* vlen, char** errptr) { char* result = nullptr; std::string tmp; Status s = txn->rep->Get(options->rep, column_family->rep, Slice(key, klen), &tmp); if (s.ok()) { *vlen = tmp.size(); result = CopyString(tmp); } else { *vlen = 0; if (!s.IsNotFound()) { SaveError(errptr, s); } } return result; } // Read a key inside a transaction char* rocksdb_transaction_get_for_update(rocksdb_transaction_t* txn, const rocksdb_readoptions_t* options, const char* key, size_t klen, size_t* vlen, unsigned char exclusive, char** errptr) { char* result = nullptr; std::string tmp; Status s = txn->rep->GetForUpdate(options->rep, Slice(key, klen), &tmp, exclusive); if (s.ok()) { *vlen = tmp.size(); result = CopyString(tmp); } else { *vlen = 0; if (!s.IsNotFound()) { SaveError(errptr, s); } } return result; } // Read a key outside a transaction char* rocksdb_transactiondb_get( rocksdb_transactiondb_t* txn_db, const rocksdb_readoptions_t* options, const char* key, size_t klen, size_t* vlen, char** errptr){ char* result = nullptr; std::string tmp; Status s = txn_db->rep->Get(options->rep, Slice(key, klen), &tmp); if (s.ok()) { *vlen = tmp.size(); result = CopyString(tmp); } else { *vlen = 0; if (!s.IsNotFound()) { SaveError(errptr, s); } } return result; } char* rocksdb_transactiondb_get_cf( rocksdb_transactiondb_t* txn_db, const rocksdb_readoptions_t* options, rocksdb_column_family_handle_t* column_family, const char* key, size_t keylen, size_t* vallen, char** errptr) { char* result = nullptr; std::string tmp; Status s = txn_db->rep->Get(options->rep, column_family->rep, Slice(key, keylen), &tmp); if (s.ok()) { *vallen = tmp.size(); result = CopyString(tmp); } else { *vallen = 0; if (!s.IsNotFound()) { SaveError(errptr, s); } } return result; } // Put a key inside a transaction void rocksdb_transaction_put(rocksdb_transaction_t* txn, const char* key, size_t klen, const char* val, size_t vlen, char** errptr) { SaveError(errptr, txn->rep->Put(Slice(key, klen), Slice(val, vlen))); } void rocksdb_transaction_put_cf(rocksdb_transaction_t* txn, rocksdb_column_family_handle_t* column_family, const char* key, size_t klen, const char* val, size_t vlen, char** errptr) { SaveError(errptr, txn->rep->Put(column_family->rep, Slice(key, klen), Slice(val, vlen))); } // Put a key outside a transaction void rocksdb_transactiondb_put(rocksdb_transactiondb_t* txn_db, const rocksdb_writeoptions_t* options, const char* key, size_t klen, const char* val, size_t vlen, char** errptr) { SaveError(errptr, txn_db->rep->Put(options->rep, Slice(key, klen), Slice(val, vlen))); } void rocksdb_transactiondb_put_cf(rocksdb_transactiondb_t* txn_db, const rocksdb_writeoptions_t* options, rocksdb_column_family_handle_t* column_family, const char* key, size_t keylen, const char* val, size_t vallen, char** errptr) { SaveError(errptr, txn_db->rep->Put(options->rep, column_family->rep, Slice(key, keylen), Slice(val, vallen))); } // Write batch into transaction db void rocksdb_transactiondb_write( rocksdb_transactiondb_t* db, const rocksdb_writeoptions_t* options, rocksdb_writebatch_t* batch, char** errptr) { SaveError(errptr, db->rep->Write(options->rep, &batch->rep)); } // Merge a key inside a transaction void rocksdb_transaction_merge(rocksdb_transaction_t* txn, const char* key, size_t klen, const char* val, size_t vlen, char** errptr) { SaveError(errptr, txn->rep->Merge(Slice(key, klen), Slice(val, vlen))); } // Merge a key outside a transaction void rocksdb_transactiondb_merge(rocksdb_transactiondb_t* txn_db, const rocksdb_writeoptions_t* options, const char* key, size_t klen, const char* val, size_t vlen, char** errptr) { SaveError(errptr, txn_db->rep->Merge(options->rep, Slice(key, klen), Slice(val, vlen))); } // Delete a key inside a transaction void rocksdb_transaction_delete(rocksdb_transaction_t* txn, const char* key, size_t klen, char** errptr) { SaveError(errptr, txn->rep->Delete(Slice(key, klen))); } void rocksdb_transaction_delete_cf( rocksdb_transaction_t* txn, rocksdb_column_family_handle_t* column_family, const char* key, size_t klen, char** errptr) { SaveError(errptr, txn->rep->Delete(column_family->rep, Slice(key, klen))); } // Delete a key outside a transaction void rocksdb_transactiondb_delete(rocksdb_transactiondb_t* txn_db, const rocksdb_writeoptions_t* options, const char* key, size_t klen, char** errptr) { SaveError(errptr, txn_db->rep->Delete(options->rep, Slice(key, klen))); } void rocksdb_transactiondb_delete_cf( rocksdb_transactiondb_t* txn_db, const rocksdb_writeoptions_t* options, rocksdb_column_family_handle_t* column_family, const char* key, size_t keylen, char** errptr) { SaveError(errptr, txn_db->rep->Delete(options->rep, column_family->rep, Slice(key, keylen))); } // Create an iterator inside a transaction rocksdb_iterator_t* rocksdb_transaction_create_iterator( rocksdb_transaction_t* txn, const rocksdb_readoptions_t* options) { rocksdb_iterator_t* result = new rocksdb_iterator_t; result->rep = txn->rep->GetIterator(options->rep); return result; } // Create an iterator inside a transaction with column family rocksdb_iterator_t* rocksdb_transaction_create_iterator_cf( rocksdb_transaction_t* txn, const rocksdb_readoptions_t* options, rocksdb_column_family_handle_t* column_family) { rocksdb_iterator_t* result = new rocksdb_iterator_t; result->rep = txn->rep->GetIterator(options->rep, column_family->rep); return result; } // Create an iterator outside a transaction rocksdb_iterator_t* rocksdb_transactiondb_create_iterator( rocksdb_transactiondb_t* txn_db, const rocksdb_readoptions_t* options) { rocksdb_iterator_t* result = new rocksdb_iterator_t; result->rep = txn_db->rep->NewIterator(options->rep); return result; } void rocksdb_transactiondb_close(rocksdb_transactiondb_t* txn_db) { delete txn_db->rep; delete txn_db; } rocksdb_checkpoint_t* rocksdb_transactiondb_checkpoint_object_create( rocksdb_transactiondb_t* txn_db, char** errptr) { Checkpoint* checkpoint; if (SaveError(errptr, Checkpoint::Create(txn_db->rep, &checkpoint))) { return nullptr; } rocksdb_checkpoint_t* result = new rocksdb_checkpoint_t; result->rep = checkpoint; return result; } rocksdb_optimistictransactiondb_t* rocksdb_optimistictransactiondb_open( const rocksdb_options_t* options, const char* name, char** errptr) { OptimisticTransactionDB* otxn_db; if (SaveError(errptr, OptimisticTransactionDB::Open( options->rep, std::string(name), &otxn_db))) { return nullptr; } rocksdb_optimistictransactiondb_t* result = new rocksdb_optimistictransactiondb_t; result->rep = otxn_db; return result; } rocksdb_optimistictransactiondb_t* rocksdb_optimistictransactiondb_open_column_families( const rocksdb_options_t* db_options, const char* name, int num_column_families, const char** column_family_names, const rocksdb_options_t** column_family_options, rocksdb_column_family_handle_t** column_family_handles, char** errptr) { std::vector column_families; for (int i = 0; i < num_column_families; i++) { column_families.push_back(ColumnFamilyDescriptor( std::string(column_family_names[i]), ColumnFamilyOptions(column_family_options[i]->rep))); } OptimisticTransactionDB* otxn_db; std::vector handles; if (SaveError(errptr, OptimisticTransactionDB::Open( DBOptions(db_options->rep), std::string(name), column_families, &handles, &otxn_db))) { return nullptr; } for (size_t i = 0; i < handles.size(); i++) { rocksdb_column_family_handle_t* c_handle = new rocksdb_column_family_handle_t; c_handle->rep = handles[i]; column_family_handles[i] = c_handle; } rocksdb_optimistictransactiondb_t* result = new rocksdb_optimistictransactiondb_t; result->rep = otxn_db; return result; } rocksdb_t* rocksdb_optimistictransactiondb_get_base_db( rocksdb_optimistictransactiondb_t* otxn_db) { DB* base_db = otxn_db->rep->GetBaseDB(); if (base_db != nullptr) { rocksdb_t* result = new rocksdb_t; result->rep = base_db; return result; } return nullptr; } void rocksdb_optimistictransactiondb_close_base_db(rocksdb_t* base_db) { delete base_db; } rocksdb_transaction_t* rocksdb_optimistictransaction_begin( rocksdb_optimistictransactiondb_t* otxn_db, const rocksdb_writeoptions_t* write_options, const rocksdb_optimistictransaction_options_t* otxn_options, rocksdb_transaction_t* old_txn) { if (old_txn == nullptr) { rocksdb_transaction_t* result = new rocksdb_transaction_t; result->rep = otxn_db->rep->BeginTransaction(write_options->rep, otxn_options->rep, nullptr); return result; } old_txn->rep = otxn_db->rep->BeginTransaction( write_options->rep, otxn_options->rep, old_txn->rep); return old_txn; } void rocksdb_optimistictransactiondb_close( rocksdb_optimistictransactiondb_t* otxn_db) { delete otxn_db->rep; delete otxn_db; } void rocksdb_free(void* ptr) { free(ptr); } rocksdb_pinnableslice_t* rocksdb_get_pinned( rocksdb_t* db, const rocksdb_readoptions_t* options, const char* key, size_t keylen, char** errptr) { rocksdb_pinnableslice_t* v = new (rocksdb_pinnableslice_t); Status s = db->rep->Get(options->rep, db->rep->DefaultColumnFamily(), Slice(key, keylen), &v->rep); if (!s.ok()) { delete (v); if (!s.IsNotFound()) { SaveError(errptr, s); } return nullptr; } return v; } rocksdb_pinnableslice_t* rocksdb_get_pinned_cf( rocksdb_t* db, const rocksdb_readoptions_t* options, rocksdb_column_family_handle_t* column_family, const char* key, size_t keylen, char** errptr) { rocksdb_pinnableslice_t* v = new (rocksdb_pinnableslice_t); Status s = db->rep->Get(options->rep, column_family->rep, Slice(key, keylen), &v->rep); if (!s.ok()) { delete v; if (!s.IsNotFound()) { SaveError(errptr, s); } return nullptr; } return v; } void rocksdb_pinnableslice_destroy(rocksdb_pinnableslice_t* v) { delete v; } const char* rocksdb_pinnableslice_value(const rocksdb_pinnableslice_t* v, size_t* vlen) { if (!v) { *vlen = 0; return nullptr; } *vlen = v->rep.size(); return v->rep.data(); } // container to keep databases and caches in order to use rocksdb::MemoryUtil struct rocksdb_memory_consumers_t { std::vector dbs; std::unordered_set caches; }; // initializes new container of memory consumers rocksdb_memory_consumers_t* rocksdb_memory_consumers_create() { return new rocksdb_memory_consumers_t; } // adds datatabase to the container of memory consumers void rocksdb_memory_consumers_add_db(rocksdb_memory_consumers_t* consumers, rocksdb_t* db) { consumers->dbs.push_back(db); } // adds cache to the container of memory consumers void rocksdb_memory_consumers_add_cache(rocksdb_memory_consumers_t* consumers, rocksdb_cache_t* cache) { consumers->caches.insert(cache); } // deletes container with memory consumers void rocksdb_memory_consumers_destroy(rocksdb_memory_consumers_t* consumers) { delete consumers; } // contains memory usage statistics provided by rocksdb::MemoryUtil struct rocksdb_memory_usage_t { uint64_t mem_table_total; uint64_t mem_table_unflushed; uint64_t mem_table_readers_total; uint64_t cache_total; }; // estimates amount of memory occupied by consumers (dbs and caches) rocksdb_memory_usage_t* rocksdb_approximate_memory_usage_create( rocksdb_memory_consumers_t* consumers, char** errptr) { vector dbs; for (auto db : consumers->dbs) { dbs.push_back(db->rep); } unordered_set cache_set; for (auto cache : consumers->caches) { cache_set.insert(const_cast(cache->rep.get())); } std::map usage_by_type; auto status = MemoryUtil::GetApproximateMemoryUsageByType(dbs, cache_set, &usage_by_type); if (SaveError(errptr, status)) { return nullptr; } auto result = new rocksdb_memory_usage_t; result->mem_table_total = usage_by_type[MemoryUtil::kMemTableTotal]; result->mem_table_unflushed = usage_by_type[MemoryUtil::kMemTableUnFlushed]; result->mem_table_readers_total = usage_by_type[MemoryUtil::kTableReadersTotal]; result->cache_total = usage_by_type[MemoryUtil::kCacheTotal]; return result; } uint64_t rocksdb_approximate_memory_usage_get_mem_table_total( rocksdb_memory_usage_t* memory_usage) { return memory_usage->mem_table_total; } uint64_t rocksdb_approximate_memory_usage_get_mem_table_unflushed( rocksdb_memory_usage_t* memory_usage) { return memory_usage->mem_table_unflushed; } uint64_t rocksdb_approximate_memory_usage_get_mem_table_readers_total( rocksdb_memory_usage_t* memory_usage) { return memory_usage->mem_table_readers_total; } uint64_t rocksdb_approximate_memory_usage_get_cache_total( rocksdb_memory_usage_t* memory_usage) { return memory_usage->cache_total; } // deletes container with memory usage estimates void rocksdb_approximate_memory_usage_destroy(rocksdb_memory_usage_t* usage) { delete usage; } } // end extern "C" #endif // !ROCKSDB_LITE rocksdb-5.17.2/db/c_test.c000066400000000000000000001651321337235545400152720ustar00rootroot00000000000000/* Copyright (c) 2011 The LevelDB Authors. All rights reserved. Use of this source code is governed by a BSD-style license that can be found in the LICENSE file. See the AUTHORS file for names of contributors. */ #include #ifndef ROCKSDB_LITE // Lite does not support C API #include "rocksdb/c.h" #include #include #include #include #ifndef OS_WIN #include #endif #include // Can not use port/port.h macros as this is a c file #ifdef OS_WIN #include // Ok for uniqueness int geteuid() { int result = 0; result = ((int)GetCurrentProcessId() << 16); result |= (int)GetCurrentThreadId(); return result; } // VS < 2015 #if defined(_MSC_VER) && (_MSC_VER < 1900) #define snprintf _snprintf #endif #endif const char* phase = ""; static char dbname[200]; static char sstfilename[200]; static char dbbackupname[200]; static char dbcheckpointname[200]; static char dbpathname[200]; static void StartPhase(const char* name) { fprintf(stderr, "=== Test %s\n", name); phase = name; } #ifdef _MSC_VER #pragma warning(push) #pragma warning (disable: 4996) // getenv security warning #endif static const char* GetTempDir(void) { const char* ret = getenv("TEST_TMPDIR"); if (ret == NULL || ret[0] == '\0') ret = "/tmp"; return ret; } #ifdef _MSC_VER #pragma warning(pop) #endif #define CheckNoError(err) \ if ((err) != NULL) { \ fprintf(stderr, "%s:%d: %s: %s\n", __FILE__, __LINE__, phase, (err)); \ abort(); \ } #define CheckCondition(cond) \ if (!(cond)) { \ fprintf(stderr, "%s:%d: %s: %s\n", __FILE__, __LINE__, phase, #cond); \ abort(); \ } static void CheckEqual(const char* expected, const char* v, size_t n) { if (expected == NULL && v == NULL) { // ok } else if (expected != NULL && v != NULL && n == strlen(expected) && memcmp(expected, v, n) == 0) { // ok return; } else { fprintf(stderr, "%s: expected '%s', got '%s'\n", phase, (expected ? expected : "(null)"), (v ? v : "(null")); abort(); } } static void Free(char** ptr) { if (*ptr) { free(*ptr); *ptr = NULL; } } static void CheckValue( char* err, const char* expected, char** actual, size_t actual_length) { CheckNoError(err); CheckEqual(expected, *actual, actual_length); Free(actual); } static void CheckGet( rocksdb_t* db, const rocksdb_readoptions_t* options, const char* key, const char* expected) { char* err = NULL; size_t val_len; char* val; val = rocksdb_get(db, options, key, strlen(key), &val_len, &err); CheckNoError(err); CheckEqual(expected, val, val_len); Free(&val); } static void CheckGetCF( rocksdb_t* db, const rocksdb_readoptions_t* options, rocksdb_column_family_handle_t* handle, const char* key, const char* expected) { char* err = NULL; size_t val_len; char* val; val = rocksdb_get_cf(db, options, handle, key, strlen(key), &val_len, &err); CheckNoError(err); CheckEqual(expected, val, val_len); Free(&val); } static void CheckPinGet(rocksdb_t* db, const rocksdb_readoptions_t* options, const char* key, const char* expected) { char* err = NULL; size_t val_len; const char* val; rocksdb_pinnableslice_t* p; p = rocksdb_get_pinned(db, options, key, strlen(key), &err); CheckNoError(err); val = rocksdb_pinnableslice_value(p, &val_len); CheckEqual(expected, val, val_len); rocksdb_pinnableslice_destroy(p); } static void CheckPinGetCF(rocksdb_t* db, const rocksdb_readoptions_t* options, rocksdb_column_family_handle_t* handle, const char* key, const char* expected) { char* err = NULL; size_t val_len; const char* val; rocksdb_pinnableslice_t* p; p = rocksdb_get_pinned_cf(db, options, handle, key, strlen(key), &err); CheckNoError(err); val = rocksdb_pinnableslice_value(p, &val_len); CheckEqual(expected, val, val_len); rocksdb_pinnableslice_destroy(p); } static void CheckIter(rocksdb_iterator_t* iter, const char* key, const char* val) { size_t len; const char* str; str = rocksdb_iter_key(iter, &len); CheckEqual(key, str, len); str = rocksdb_iter_value(iter, &len); CheckEqual(val, str, len); } // Callback from rocksdb_writebatch_iterate() static void CheckPut(void* ptr, const char* k, size_t klen, const char* v, size_t vlen) { int* state = (int*) ptr; CheckCondition(*state < 2); switch (*state) { case 0: CheckEqual("bar", k, klen); CheckEqual("b", v, vlen); break; case 1: CheckEqual("box", k, klen); CheckEqual("c", v, vlen); break; } (*state)++; } // Callback from rocksdb_writebatch_iterate() static void CheckDel(void* ptr, const char* k, size_t klen) { int* state = (int*) ptr; CheckCondition(*state == 2); CheckEqual("bar", k, klen); (*state)++; } static void CmpDestroy(void* arg) { (void)arg; } static int CmpCompare(void* arg, const char* a, size_t alen, const char* b, size_t blen) { (void)arg; size_t n = (alen < blen) ? alen : blen; int r = memcmp(a, b, n); if (r == 0) { if (alen < blen) r = -1; else if (alen > blen) r = +1; } return r; } static const char* CmpName(void* arg) { (void)arg; return "foo"; } // Custom filter policy static unsigned char fake_filter_result = 1; static void FilterDestroy(void* arg) { (void)arg; } static const char* FilterName(void* arg) { (void)arg; return "TestFilter"; } static char* FilterCreate( void* arg, const char* const* key_array, const size_t* key_length_array, int num_keys, size_t* filter_length) { (void)arg; (void)key_array; (void)key_length_array; (void)num_keys; *filter_length = 4; char* result = malloc(4); memcpy(result, "fake", 4); return result; } static unsigned char FilterKeyMatch( void* arg, const char* key, size_t length, const char* filter, size_t filter_length) { (void)arg; (void)key; (void)length; CheckCondition(filter_length == 4); CheckCondition(memcmp(filter, "fake", 4) == 0); return fake_filter_result; } // Custom compaction filter static void CFilterDestroy(void* arg) { (void)arg; } static const char* CFilterName(void* arg) { (void)arg; return "foo"; } static unsigned char CFilterFilter(void* arg, int level, const char* key, size_t key_length, const char* existing_value, size_t value_length, char** new_value, size_t* new_value_length, unsigned char* value_changed) { (void)arg; (void)level; (void)existing_value; (void)value_length; if (key_length == 3) { if (memcmp(key, "bar", key_length) == 0) { return 1; } else if (memcmp(key, "baz", key_length) == 0) { *value_changed = 1; *new_value = "newbazvalue"; *new_value_length = 11; return 0; } } return 0; } static void CFilterFactoryDestroy(void* arg) { (void)arg; } static const char* CFilterFactoryName(void* arg) { (void)arg; return "foo"; } static rocksdb_compactionfilter_t* CFilterCreate( void* arg, rocksdb_compactionfiltercontext_t* context) { (void)arg; (void)context; return rocksdb_compactionfilter_create(NULL, CFilterDestroy, CFilterFilter, CFilterName); } static rocksdb_t* CheckCompaction(rocksdb_t* db, rocksdb_options_t* options, rocksdb_readoptions_t* roptions, rocksdb_writeoptions_t* woptions) { char* err = NULL; db = rocksdb_open(options, dbname, &err); CheckNoError(err); rocksdb_put(db, woptions, "foo", 3, "foovalue", 8, &err); CheckNoError(err); CheckGet(db, roptions, "foo", "foovalue"); rocksdb_put(db, woptions, "bar", 3, "barvalue", 8, &err); CheckNoError(err); CheckGet(db, roptions, "bar", "barvalue"); rocksdb_put(db, woptions, "baz", 3, "bazvalue", 8, &err); CheckNoError(err); CheckGet(db, roptions, "baz", "bazvalue"); // Force compaction rocksdb_compact_range(db, NULL, 0, NULL, 0); // should have filtered bar, but not foo CheckGet(db, roptions, "foo", "foovalue"); CheckGet(db, roptions, "bar", NULL); CheckGet(db, roptions, "baz", "newbazvalue"); return db; } // Custom merge operator static void MergeOperatorDestroy(void* arg) { (void)arg; } static const char* MergeOperatorName(void* arg) { (void)arg; return "TestMergeOperator"; } static char* MergeOperatorFullMerge( void* arg, const char* key, size_t key_length, const char* existing_value, size_t existing_value_length, const char* const* operands_list, const size_t* operands_list_length, int num_operands, unsigned char* success, size_t* new_value_length) { (void)arg; (void)key; (void)key_length; (void)existing_value; (void)existing_value_length; (void)operands_list; (void)operands_list_length; (void)num_operands; *new_value_length = 4; *success = 1; char* result = malloc(4); memcpy(result, "fake", 4); return result; } static char* MergeOperatorPartialMerge( void* arg, const char* key, size_t key_length, const char* const* operands_list, const size_t* operands_list_length, int num_operands, unsigned char* success, size_t* new_value_length) { (void)arg; (void)key; (void)key_length; (void)operands_list; (void)operands_list_length; (void)num_operands; *new_value_length = 4; *success = 1; char* result = malloc(4); memcpy(result, "fake", 4); return result; } static void CheckTxnGet( rocksdb_transaction_t* txn, const rocksdb_readoptions_t* options, const char* key, const char* expected) { char* err = NULL; size_t val_len; char* val; val = rocksdb_transaction_get(txn, options, key, strlen(key), &val_len, &err); CheckNoError(err); CheckEqual(expected, val, val_len); Free(&val); } static void CheckTxnGetCF(rocksdb_transaction_t* txn, const rocksdb_readoptions_t* options, rocksdb_column_family_handle_t* column_family, const char* key, const char* expected) { char* err = NULL; size_t val_len; char* val; val = rocksdb_transaction_get_cf(txn, options, column_family, key, strlen(key), &val_len, &err); CheckNoError(err); CheckEqual(expected, val, val_len); Free(&val); } static void CheckTxnDBGet( rocksdb_transactiondb_t* txn_db, const rocksdb_readoptions_t* options, const char* key, const char* expected) { char* err = NULL; size_t val_len; char* val; val = rocksdb_transactiondb_get(txn_db, options, key, strlen(key), &val_len, &err); CheckNoError(err); CheckEqual(expected, val, val_len); Free(&val); } static void CheckTxnDBGetCF(rocksdb_transactiondb_t* txn_db, const rocksdb_readoptions_t* options, rocksdb_column_family_handle_t* column_family, const char* key, const char* expected) { char* err = NULL; size_t val_len; char* val; val = rocksdb_transactiondb_get_cf(txn_db, options, column_family, key, strlen(key), &val_len, &err); CheckNoError(err); CheckEqual(expected, val, val_len); Free(&val); } int main(int argc, char** argv) { (void)argc; (void)argv; rocksdb_t* db; rocksdb_comparator_t* cmp; rocksdb_cache_t* cache; rocksdb_dbpath_t *dbpath; rocksdb_env_t* env; rocksdb_options_t* options; rocksdb_compactoptions_t* coptions; rocksdb_block_based_table_options_t* table_options; rocksdb_readoptions_t* roptions; rocksdb_writeoptions_t* woptions; rocksdb_ratelimiter_t* rate_limiter; rocksdb_transactiondb_t* txn_db; rocksdb_transactiondb_options_t* txn_db_options; rocksdb_transaction_t* txn; rocksdb_transaction_options_t* txn_options; rocksdb_optimistictransactiondb_t* otxn_db; rocksdb_optimistictransaction_options_t* otxn_options; char* err = NULL; int run = -1; snprintf(dbname, sizeof(dbname), "%s/rocksdb_c_test-%d", GetTempDir(), ((int) geteuid())); snprintf(dbbackupname, sizeof(dbbackupname), "%s/rocksdb_c_test-%d-backup", GetTempDir(), ((int) geteuid())); snprintf(dbcheckpointname, sizeof(dbcheckpointname), "%s/rocksdb_c_test-%d-checkpoint", GetTempDir(), ((int) geteuid())); snprintf(sstfilename, sizeof(sstfilename), "%s/rocksdb_c_test-%d-sst", GetTempDir(), ((int)geteuid())); snprintf(dbpathname, sizeof(dbpathname), "%s/rocksdb_c_test-%d-dbpath", GetTempDir(), ((int) geteuid())); StartPhase("create_objects"); cmp = rocksdb_comparator_create(NULL, CmpDestroy, CmpCompare, CmpName); dbpath = rocksdb_dbpath_create(dbpathname, 1024 * 1024); env = rocksdb_create_default_env(); cache = rocksdb_cache_create_lru(100000); options = rocksdb_options_create(); rocksdb_options_set_comparator(options, cmp); rocksdb_options_set_error_if_exists(options, 1); rocksdb_options_set_env(options, env); rocksdb_options_set_info_log(options, NULL); rocksdb_options_set_write_buffer_size(options, 100000); rocksdb_options_set_paranoid_checks(options, 1); rocksdb_options_set_max_open_files(options, 10); rocksdb_options_set_base_background_compactions(options, 1); table_options = rocksdb_block_based_options_create(); rocksdb_block_based_options_set_block_cache(table_options, cache); rocksdb_options_set_block_based_table_factory(options, table_options); rocksdb_options_set_compression(options, rocksdb_no_compression); rocksdb_options_set_compression_options(options, -14, -1, 0, 0); int compression_levels[] = {rocksdb_no_compression, rocksdb_no_compression, rocksdb_no_compression, rocksdb_no_compression}; rocksdb_options_set_compression_per_level(options, compression_levels, 4); rate_limiter = rocksdb_ratelimiter_create(1000 * 1024 * 1024, 100 * 1000, 10); rocksdb_options_set_ratelimiter(options, rate_limiter); rocksdb_ratelimiter_destroy(rate_limiter); roptions = rocksdb_readoptions_create(); rocksdb_readoptions_set_verify_checksums(roptions, 1); rocksdb_readoptions_set_fill_cache(roptions, 1); woptions = rocksdb_writeoptions_create(); rocksdb_writeoptions_set_sync(woptions, 1); coptions = rocksdb_compactoptions_create(); rocksdb_compactoptions_set_exclusive_manual_compaction(coptions, 1); StartPhase("destroy"); rocksdb_destroy_db(options, dbname, &err); Free(&err); StartPhase("open_error"); rocksdb_open(options, dbname, &err); CheckCondition(err != NULL); Free(&err); StartPhase("open"); rocksdb_options_set_create_if_missing(options, 1); db = rocksdb_open(options, dbname, &err); CheckNoError(err); CheckGet(db, roptions, "foo", NULL); StartPhase("put"); rocksdb_put(db, woptions, "foo", 3, "hello", 5, &err); CheckNoError(err); CheckGet(db, roptions, "foo", "hello"); StartPhase("backup_and_restore"); { rocksdb_destroy_db(options, dbbackupname, &err); CheckNoError(err); rocksdb_backup_engine_t *be = rocksdb_backup_engine_open(options, dbbackupname, &err); CheckNoError(err); rocksdb_backup_engine_create_new_backup(be, db, &err); CheckNoError(err); // need a change to trigger a new backup rocksdb_delete(db, woptions, "does-not-exist", 14, &err); CheckNoError(err); rocksdb_backup_engine_create_new_backup(be, db, &err); CheckNoError(err); const rocksdb_backup_engine_info_t* bei = rocksdb_backup_engine_get_backup_info(be); CheckCondition(rocksdb_backup_engine_info_count(bei) > 1); rocksdb_backup_engine_info_destroy(bei); rocksdb_backup_engine_purge_old_backups(be, 1, &err); CheckNoError(err); bei = rocksdb_backup_engine_get_backup_info(be); CheckCondition(rocksdb_backup_engine_info_count(bei) == 1); rocksdb_backup_engine_info_destroy(bei); rocksdb_delete(db, woptions, "foo", 3, &err); CheckNoError(err); rocksdb_close(db); rocksdb_destroy_db(options, dbname, &err); CheckNoError(err); rocksdb_restore_options_t *restore_options = rocksdb_restore_options_create(); rocksdb_restore_options_set_keep_log_files(restore_options, 0); rocksdb_backup_engine_restore_db_from_latest_backup(be, dbname, dbname, restore_options, &err); CheckNoError(err); rocksdb_restore_options_destroy(restore_options); rocksdb_options_set_error_if_exists(options, 0); db = rocksdb_open(options, dbname, &err); CheckNoError(err); rocksdb_options_set_error_if_exists(options, 1); CheckGet(db, roptions, "foo", "hello"); rocksdb_backup_engine_close(be); } StartPhase("checkpoint"); { rocksdb_destroy_db(options, dbcheckpointname, &err); CheckNoError(err); rocksdb_checkpoint_t* checkpoint = rocksdb_checkpoint_object_create(db, &err); CheckNoError(err); rocksdb_checkpoint_create(checkpoint, dbcheckpointname, 0, &err); CheckNoError(err); // start a new database from the checkpoint rocksdb_close(db); rocksdb_options_set_error_if_exists(options, 0); db = rocksdb_open(options, dbcheckpointname, &err); CheckNoError(err); CheckGet(db, roptions, "foo", "hello"); rocksdb_checkpoint_object_destroy(checkpoint); rocksdb_close(db); rocksdb_destroy_db(options, dbcheckpointname, &err); CheckNoError(err); db = rocksdb_open(options, dbname, &err); CheckNoError(err); rocksdb_options_set_error_if_exists(options, 1); } StartPhase("compactall"); rocksdb_compact_range(db, NULL, 0, NULL, 0); CheckGet(db, roptions, "foo", "hello"); StartPhase("compactrange"); rocksdb_compact_range(db, "a", 1, "z", 1); CheckGet(db, roptions, "foo", "hello"); StartPhase("compactallopt"); rocksdb_compact_range_opt(db, coptions, NULL, 0, NULL, 0); CheckGet(db, roptions, "foo", "hello"); StartPhase("compactrangeopt"); rocksdb_compact_range_opt(db, coptions, "a", 1, "z", 1); CheckGet(db, roptions, "foo", "hello"); // Simple check cache usage StartPhase("cache_usage"); { rocksdb_readoptions_set_pin_data(roptions, 1); rocksdb_iterator_t* iter = rocksdb_create_iterator(db, roptions); rocksdb_iter_seek(iter, "foo", 3); size_t usage = rocksdb_cache_get_usage(cache); CheckCondition(usage > 0); size_t pin_usage = rocksdb_cache_get_pinned_usage(cache); CheckCondition(pin_usage > 0); rocksdb_iter_next(iter); rocksdb_iter_destroy(iter); rocksdb_readoptions_set_pin_data(roptions, 0); } StartPhase("addfile"); { rocksdb_envoptions_t* env_opt = rocksdb_envoptions_create(); rocksdb_options_t* io_options = rocksdb_options_create(); rocksdb_sstfilewriter_t* writer = rocksdb_sstfilewriter_create(env_opt, io_options); remove(sstfilename); rocksdb_sstfilewriter_open(writer, sstfilename, &err); CheckNoError(err); rocksdb_sstfilewriter_put(writer, "sstk1", 5, "v1", 2, &err); CheckNoError(err); rocksdb_sstfilewriter_put(writer, "sstk2", 5, "v2", 2, &err); CheckNoError(err); rocksdb_sstfilewriter_put(writer, "sstk3", 5, "v3", 2, &err); CheckNoError(err); rocksdb_sstfilewriter_finish(writer, &err); CheckNoError(err); rocksdb_ingestexternalfileoptions_t* ing_opt = rocksdb_ingestexternalfileoptions_create(); const char* file_list[1] = {sstfilename}; rocksdb_ingest_external_file(db, file_list, 1, ing_opt, &err); CheckNoError(err); CheckGet(db, roptions, "sstk1", "v1"); CheckGet(db, roptions, "sstk2", "v2"); CheckGet(db, roptions, "sstk3", "v3"); remove(sstfilename); rocksdb_sstfilewriter_open(writer, sstfilename, &err); CheckNoError(err); rocksdb_sstfilewriter_put(writer, "sstk2", 5, "v4", 2, &err); CheckNoError(err); rocksdb_sstfilewriter_put(writer, "sstk22", 6, "v5", 2, &err); CheckNoError(err); rocksdb_sstfilewriter_put(writer, "sstk3", 5, "v6", 2, &err); CheckNoError(err); rocksdb_sstfilewriter_finish(writer, &err); CheckNoError(err); rocksdb_ingest_external_file(db, file_list, 1, ing_opt, &err); CheckNoError(err); CheckGet(db, roptions, "sstk1", "v1"); CheckGet(db, roptions, "sstk2", "v4"); CheckGet(db, roptions, "sstk22", "v5"); CheckGet(db, roptions, "sstk3", "v6"); rocksdb_ingestexternalfileoptions_destroy(ing_opt); rocksdb_sstfilewriter_destroy(writer); rocksdb_options_destroy(io_options); rocksdb_envoptions_destroy(env_opt); // Delete all keys we just ingested rocksdb_delete(db, woptions, "sstk1", 5, &err); CheckNoError(err); rocksdb_delete(db, woptions, "sstk2", 5, &err); CheckNoError(err); rocksdb_delete(db, woptions, "sstk22", 6, &err); CheckNoError(err); rocksdb_delete(db, woptions, "sstk3", 5, &err); CheckNoError(err); } StartPhase("writebatch"); { rocksdb_writebatch_t* wb = rocksdb_writebatch_create(); rocksdb_writebatch_put(wb, "foo", 3, "a", 1); rocksdb_writebatch_clear(wb); rocksdb_writebatch_put(wb, "bar", 3, "b", 1); rocksdb_writebatch_put(wb, "box", 3, "c", 1); rocksdb_writebatch_delete(wb, "bar", 3); rocksdb_write(db, woptions, wb, &err); CheckNoError(err); CheckGet(db, roptions, "foo", "hello"); CheckGet(db, roptions, "bar", NULL); CheckGet(db, roptions, "box", "c"); int pos = 0; rocksdb_writebatch_iterate(wb, &pos, CheckPut, CheckDel); CheckCondition(pos == 3); rocksdb_writebatch_clear(wb); rocksdb_writebatch_put(wb, "bar", 3, "b", 1); rocksdb_writebatch_put(wb, "bay", 3, "d", 1); rocksdb_writebatch_delete_range(wb, "bar", 3, "bay", 3); rocksdb_write(db, woptions, wb, &err); CheckNoError(err); CheckGet(db, roptions, "bar", NULL); CheckGet(db, roptions, "bay", "d"); rocksdb_writebatch_clear(wb); const char* start_list[1] = {"bay"}; const size_t start_sizes[1] = {3}; const char* end_list[1] = {"baz"}; const size_t end_sizes[1] = {3}; rocksdb_writebatch_delete_rangev(wb, 1, start_list, start_sizes, end_list, end_sizes); rocksdb_write(db, woptions, wb, &err); CheckNoError(err); CheckGet(db, roptions, "bay", NULL); rocksdb_writebatch_destroy(wb); } StartPhase("writebatch_vectors"); { rocksdb_writebatch_t* wb = rocksdb_writebatch_create(); const char* k_list[2] = { "z", "ap" }; const size_t k_sizes[2] = { 1, 2 }; const char* v_list[3] = { "x", "y", "z" }; const size_t v_sizes[3] = { 1, 1, 1 }; rocksdb_writebatch_putv(wb, 2, k_list, k_sizes, 3, v_list, v_sizes); rocksdb_write(db, woptions, wb, &err); CheckNoError(err); CheckGet(db, roptions, "zap", "xyz"); rocksdb_writebatch_delete(wb, "zap", 3); rocksdb_write(db, woptions, wb, &err); CheckNoError(err); CheckGet(db, roptions, "zap", NULL); rocksdb_writebatch_destroy(wb); } StartPhase("writebatch_savepoint"); { rocksdb_writebatch_t* wb = rocksdb_writebatch_create(); rocksdb_writebatch_set_save_point(wb); rocksdb_writebatch_set_save_point(wb); const char* k_list[2] = {"z", "ap"}; const size_t k_sizes[2] = {1, 2}; const char* v_list[3] = {"x", "y", "z"}; const size_t v_sizes[3] = {1, 1, 1}; rocksdb_writebatch_pop_save_point(wb, &err); CheckNoError(err); rocksdb_writebatch_putv(wb, 2, k_list, k_sizes, 3, v_list, v_sizes); rocksdb_writebatch_rollback_to_save_point(wb, &err); CheckNoError(err); rocksdb_write(db, woptions, wb, &err); CheckNoError(err); CheckGet(db, roptions, "zap", NULL); rocksdb_writebatch_destroy(wb); } StartPhase("writebatch_rep"); { rocksdb_writebatch_t* wb1 = rocksdb_writebatch_create(); rocksdb_writebatch_put(wb1, "baz", 3, "d", 1); rocksdb_writebatch_put(wb1, "quux", 4, "e", 1); rocksdb_writebatch_delete(wb1, "quux", 4); size_t repsize1 = 0; const char* rep = rocksdb_writebatch_data(wb1, &repsize1); rocksdb_writebatch_t* wb2 = rocksdb_writebatch_create_from(rep, repsize1); CheckCondition(rocksdb_writebatch_count(wb1) == rocksdb_writebatch_count(wb2)); size_t repsize2 = 0; CheckCondition( memcmp(rep, rocksdb_writebatch_data(wb2, &repsize2), repsize1) == 0); rocksdb_writebatch_destroy(wb1); rocksdb_writebatch_destroy(wb2); } StartPhase("writebatch_wi"); { rocksdb_writebatch_wi_t* wbi = rocksdb_writebatch_wi_create(0, 1); rocksdb_writebatch_wi_put(wbi, "foo", 3, "a", 1); rocksdb_writebatch_wi_clear(wbi); rocksdb_writebatch_wi_put(wbi, "bar", 3, "b", 1); rocksdb_writebatch_wi_put(wbi, "box", 3, "c", 1); rocksdb_writebatch_wi_delete(wbi, "bar", 3); int count = rocksdb_writebatch_wi_count(wbi); CheckCondition(count == 3); size_t size; char* value; value = rocksdb_writebatch_wi_get_from_batch(wbi, options, "box", 3, &size, &err); CheckValue(err, "c", &value, size); value = rocksdb_writebatch_wi_get_from_batch(wbi, options, "bar", 3, &size, &err); CheckValue(err, NULL, &value, size); value = rocksdb_writebatch_wi_get_from_batch_and_db(wbi, db, roptions, "foo", 3, &size, &err); CheckValue(err, "hello", &value, size); value = rocksdb_writebatch_wi_get_from_batch_and_db(wbi, db, roptions, "box", 3, &size, &err); CheckValue(err, "c", &value, size); rocksdb_write_writebatch_wi(db, woptions, wbi, &err); CheckNoError(err); CheckGet(db, roptions, "foo", "hello"); CheckGet(db, roptions, "bar", NULL); CheckGet(db, roptions, "box", "c"); int pos = 0; rocksdb_writebatch_wi_iterate(wbi, &pos, CheckPut, CheckDel); CheckCondition(pos == 3); rocksdb_writebatch_wi_clear(wbi); rocksdb_writebatch_wi_put(wbi, "bar", 3, "b", 1); rocksdb_writebatch_wi_put(wbi, "bay", 3, "d", 1); rocksdb_writebatch_wi_delete_range(wbi, "bar", 3, "bay", 3); rocksdb_write_writebatch_wi(db, woptions, wbi, &err); CheckNoError(err); CheckGet(db, roptions, "bar", NULL); CheckGet(db, roptions, "bay", "d"); rocksdb_writebatch_wi_clear(wbi); const char* start_list[1] = {"bay"}; const size_t start_sizes[1] = {3}; const char* end_list[1] = {"baz"}; const size_t end_sizes[1] = {3}; rocksdb_writebatch_wi_delete_rangev(wbi, 1, start_list, start_sizes, end_list, end_sizes); rocksdb_write_writebatch_wi(db, woptions, wbi, &err); CheckNoError(err); CheckGet(db, roptions, "bay", NULL); rocksdb_writebatch_wi_destroy(wbi); } StartPhase("writebatch_wi_vectors"); { rocksdb_writebatch_wi_t* wb = rocksdb_writebatch_wi_create(0, 1); const char* k_list[2] = { "z", "ap" }; const size_t k_sizes[2] = { 1, 2 }; const char* v_list[3] = { "x", "y", "z" }; const size_t v_sizes[3] = { 1, 1, 1 }; rocksdb_writebatch_wi_putv(wb, 2, k_list, k_sizes, 3, v_list, v_sizes); rocksdb_write_writebatch_wi(db, woptions, wb, &err); CheckNoError(err); CheckGet(db, roptions, "zap", "xyz"); rocksdb_writebatch_wi_delete(wb, "zap", 3); rocksdb_write_writebatch_wi(db, woptions, wb, &err); CheckNoError(err); CheckGet(db, roptions, "zap", NULL); rocksdb_writebatch_wi_destroy(wb); } StartPhase("writebatch_wi_savepoint"); { rocksdb_writebatch_wi_t* wb = rocksdb_writebatch_wi_create(0, 1); rocksdb_writebatch_wi_set_save_point(wb); const char* k_list[2] = {"z", "ap"}; const size_t k_sizes[2] = {1, 2}; const char* v_list[3] = {"x", "y", "z"}; const size_t v_sizes[3] = {1, 1, 1}; rocksdb_writebatch_wi_putv(wb, 2, k_list, k_sizes, 3, v_list, v_sizes); rocksdb_writebatch_wi_rollback_to_save_point(wb, &err); CheckNoError(err); rocksdb_write_writebatch_wi(db, woptions, wb, &err); CheckNoError(err); CheckGet(db, roptions, "zap", NULL); rocksdb_writebatch_wi_destroy(wb); } StartPhase("iter"); { rocksdb_iterator_t* iter = rocksdb_create_iterator(db, roptions); CheckCondition(!rocksdb_iter_valid(iter)); rocksdb_iter_seek_to_first(iter); CheckCondition(rocksdb_iter_valid(iter)); CheckIter(iter, "box", "c"); rocksdb_iter_next(iter); CheckIter(iter, "foo", "hello"); rocksdb_iter_prev(iter); CheckIter(iter, "box", "c"); rocksdb_iter_prev(iter); CheckCondition(!rocksdb_iter_valid(iter)); rocksdb_iter_seek_to_last(iter); CheckIter(iter, "foo", "hello"); rocksdb_iter_seek(iter, "b", 1); CheckIter(iter, "box", "c"); rocksdb_iter_seek_for_prev(iter, "g", 1); CheckIter(iter, "foo", "hello"); rocksdb_iter_seek_for_prev(iter, "box", 3); CheckIter(iter, "box", "c"); rocksdb_iter_get_error(iter, &err); CheckNoError(err); rocksdb_iter_destroy(iter); } StartPhase("wbwi_iter"); { rocksdb_iterator_t* base_iter = rocksdb_create_iterator(db, roptions); rocksdb_writebatch_wi_t* wbi = rocksdb_writebatch_wi_create(0, 1); rocksdb_writebatch_wi_put(wbi, "bar", 3, "b", 1); rocksdb_writebatch_wi_delete(wbi, "foo", 3); rocksdb_iterator_t* iter = rocksdb_writebatch_wi_create_iterator_with_base(wbi, base_iter); CheckCondition(!rocksdb_iter_valid(iter)); rocksdb_iter_seek_to_first(iter); CheckCondition(rocksdb_iter_valid(iter)); CheckIter(iter, "bar", "b"); rocksdb_iter_next(iter); CheckIter(iter, "box", "c"); rocksdb_iter_prev(iter); CheckIter(iter, "bar", "b"); rocksdb_iter_prev(iter); CheckCondition(!rocksdb_iter_valid(iter)); rocksdb_iter_seek_to_last(iter); CheckIter(iter, "box", "c"); rocksdb_iter_seek(iter, "b", 1); CheckIter(iter, "bar", "b"); rocksdb_iter_seek_for_prev(iter, "c", 1); CheckIter(iter, "box", "c"); rocksdb_iter_seek_for_prev(iter, "box", 3); CheckIter(iter, "box", "c"); rocksdb_iter_get_error(iter, &err); CheckNoError(err); rocksdb_iter_destroy(iter); rocksdb_writebatch_wi_destroy(wbi); } StartPhase("multiget"); { const char* keys[3] = { "box", "foo", "notfound" }; const size_t keys_sizes[3] = { 3, 3, 8 }; char* vals[3]; size_t vals_sizes[3]; char* errs[3]; rocksdb_multi_get(db, roptions, 3, keys, keys_sizes, vals, vals_sizes, errs); int i; for (i = 0; i < 3; i++) { CheckEqual(NULL, errs[i], 0); switch (i) { case 0: CheckEqual("c", vals[i], vals_sizes[i]); break; case 1: CheckEqual("hello", vals[i], vals_sizes[i]); break; case 2: CheckEqual(NULL, vals[i], vals_sizes[i]); break; } Free(&vals[i]); } } StartPhase("pin_get"); { CheckPinGet(db, roptions, "box", "c"); CheckPinGet(db, roptions, "foo", "hello"); CheckPinGet(db, roptions, "notfound", NULL); } StartPhase("approximate_sizes"); { int i; int n = 20000; char keybuf[100]; char valbuf[100]; uint64_t sizes[2]; const char* start[2] = { "a", "k00000000000000010000" }; size_t start_len[2] = { 1, 21 }; const char* limit[2] = { "k00000000000000010000", "z" }; size_t limit_len[2] = { 21, 1 }; rocksdb_writeoptions_set_sync(woptions, 0); for (i = 0; i < n; i++) { snprintf(keybuf, sizeof(keybuf), "k%020d", i); snprintf(valbuf, sizeof(valbuf), "v%020d", i); rocksdb_put(db, woptions, keybuf, strlen(keybuf), valbuf, strlen(valbuf), &err); CheckNoError(err); } rocksdb_approximate_sizes(db, 2, start, start_len, limit, limit_len, sizes); CheckCondition(sizes[0] > 0); CheckCondition(sizes[1] > 0); } StartPhase("property"); { char* prop = rocksdb_property_value(db, "nosuchprop"); CheckCondition(prop == NULL); prop = rocksdb_property_value(db, "rocksdb.stats"); CheckCondition(prop != NULL); Free(&prop); } StartPhase("snapshot"); { const rocksdb_snapshot_t* snap; snap = rocksdb_create_snapshot(db); rocksdb_delete(db, woptions, "foo", 3, &err); CheckNoError(err); rocksdb_readoptions_set_snapshot(roptions, snap); CheckGet(db, roptions, "foo", "hello"); rocksdb_readoptions_set_snapshot(roptions, NULL); CheckGet(db, roptions, "foo", NULL); rocksdb_release_snapshot(db, snap); } StartPhase("repair"); { // If we do not compact here, then the lazy deletion of // files (https://reviews.facebook.net/D6123) would leave // around deleted files and the repair process will find // those files and put them back into the database. rocksdb_compact_range(db, NULL, 0, NULL, 0); rocksdb_close(db); rocksdb_options_set_create_if_missing(options, 0); rocksdb_options_set_error_if_exists(options, 0); rocksdb_options_set_wal_recovery_mode(options, 2); rocksdb_repair_db(options, dbname, &err); CheckNoError(err); db = rocksdb_open(options, dbname, &err); CheckNoError(err); CheckGet(db, roptions, "foo", NULL); CheckGet(db, roptions, "bar", NULL); CheckGet(db, roptions, "box", "c"); rocksdb_options_set_create_if_missing(options, 1); rocksdb_options_set_error_if_exists(options, 1); } StartPhase("filter"); for (run = 0; run < 2; run++) { // First run uses custom filter, second run uses bloom filter CheckNoError(err); rocksdb_filterpolicy_t* policy; if (run == 0) { policy = rocksdb_filterpolicy_create( NULL, FilterDestroy, FilterCreate, FilterKeyMatch, NULL, FilterName); } else { policy = rocksdb_filterpolicy_create_bloom(10); } rocksdb_block_based_options_set_filter_policy(table_options, policy); // Create new database rocksdb_close(db); rocksdb_destroy_db(options, dbname, &err); rocksdb_options_set_block_based_table_factory(options, table_options); db = rocksdb_open(options, dbname, &err); CheckNoError(err); rocksdb_put(db, woptions, "foo", 3, "foovalue", 8, &err); CheckNoError(err); rocksdb_put(db, woptions, "bar", 3, "barvalue", 8, &err); CheckNoError(err); rocksdb_compact_range(db, NULL, 0, NULL, 0); fake_filter_result = 1; CheckGet(db, roptions, "foo", "foovalue"); CheckGet(db, roptions, "bar", "barvalue"); if (phase == 0) { // Must not find value when custom filter returns false fake_filter_result = 0; CheckGet(db, roptions, "foo", NULL); CheckGet(db, roptions, "bar", NULL); fake_filter_result = 1; CheckGet(db, roptions, "foo", "foovalue"); CheckGet(db, roptions, "bar", "barvalue"); } // Reset the policy rocksdb_block_based_options_set_filter_policy(table_options, NULL); rocksdb_options_set_block_based_table_factory(options, table_options); } StartPhase("compaction_filter"); { rocksdb_options_t* options_with_filter = rocksdb_options_create(); rocksdb_options_set_create_if_missing(options_with_filter, 1); rocksdb_compactionfilter_t* cfilter; cfilter = rocksdb_compactionfilter_create(NULL, CFilterDestroy, CFilterFilter, CFilterName); // Create new database rocksdb_close(db); rocksdb_destroy_db(options_with_filter, dbname, &err); rocksdb_options_set_compaction_filter(options_with_filter, cfilter); db = CheckCompaction(db, options_with_filter, roptions, woptions); rocksdb_options_set_compaction_filter(options_with_filter, NULL); rocksdb_compactionfilter_destroy(cfilter); rocksdb_options_destroy(options_with_filter); } StartPhase("compaction_filter_factory"); { rocksdb_options_t* options_with_filter_factory = rocksdb_options_create(); rocksdb_options_set_create_if_missing(options_with_filter_factory, 1); rocksdb_compactionfilterfactory_t* factory; factory = rocksdb_compactionfilterfactory_create( NULL, CFilterFactoryDestroy, CFilterCreate, CFilterFactoryName); // Create new database rocksdb_close(db); rocksdb_destroy_db(options_with_filter_factory, dbname, &err); rocksdb_options_set_compaction_filter_factory(options_with_filter_factory, factory); db = CheckCompaction(db, options_with_filter_factory, roptions, woptions); rocksdb_options_set_compaction_filter_factory( options_with_filter_factory, NULL); rocksdb_options_destroy(options_with_filter_factory); } StartPhase("merge_operator"); { rocksdb_mergeoperator_t* merge_operator; merge_operator = rocksdb_mergeoperator_create( NULL, MergeOperatorDestroy, MergeOperatorFullMerge, MergeOperatorPartialMerge, NULL, MergeOperatorName); // Create new database rocksdb_close(db); rocksdb_destroy_db(options, dbname, &err); rocksdb_options_set_merge_operator(options, merge_operator); db = rocksdb_open(options, dbname, &err); CheckNoError(err); rocksdb_put(db, woptions, "foo", 3, "foovalue", 8, &err); CheckNoError(err); CheckGet(db, roptions, "foo", "foovalue"); rocksdb_merge(db, woptions, "foo", 3, "barvalue", 8, &err); CheckNoError(err); CheckGet(db, roptions, "foo", "fake"); // Merge of a non-existing value rocksdb_merge(db, woptions, "bar", 3, "barvalue", 8, &err); CheckNoError(err); CheckGet(db, roptions, "bar", "fake"); } StartPhase("columnfamilies"); { rocksdb_close(db); rocksdb_destroy_db(options, dbname, &err); CheckNoError(err); rocksdb_options_t* db_options = rocksdb_options_create(); rocksdb_options_set_create_if_missing(db_options, 1); db = rocksdb_open(db_options, dbname, &err); CheckNoError(err) rocksdb_column_family_handle_t* cfh; cfh = rocksdb_create_column_family(db, db_options, "cf1", &err); rocksdb_column_family_handle_destroy(cfh); CheckNoError(err); rocksdb_close(db); size_t cflen; char** column_fams = rocksdb_list_column_families(db_options, dbname, &cflen, &err); CheckNoError(err); CheckEqual("default", column_fams[0], 7); CheckEqual("cf1", column_fams[1], 3); CheckCondition(cflen == 2); rocksdb_list_column_families_destroy(column_fams, cflen); rocksdb_options_t* cf_options = rocksdb_options_create(); const char* cf_names[2] = {"default", "cf1"}; const rocksdb_options_t* cf_opts[2] = {cf_options, cf_options}; rocksdb_column_family_handle_t* handles[2]; db = rocksdb_open_column_families(db_options, dbname, 2, cf_names, cf_opts, handles, &err); CheckNoError(err); rocksdb_put_cf(db, woptions, handles[1], "foo", 3, "hello", 5, &err); CheckNoError(err); CheckGetCF(db, roptions, handles[1], "foo", "hello"); CheckPinGetCF(db, roptions, handles[1], "foo", "hello"); rocksdb_delete_cf(db, woptions, handles[1], "foo", 3, &err); CheckNoError(err); CheckGetCF(db, roptions, handles[1], "foo", NULL); CheckPinGetCF(db, roptions, handles[1], "foo", NULL); rocksdb_writebatch_t* wb = rocksdb_writebatch_create(); rocksdb_writebatch_put_cf(wb, handles[1], "baz", 3, "a", 1); rocksdb_writebatch_clear(wb); rocksdb_writebatch_put_cf(wb, handles[1], "bar", 3, "b", 1); rocksdb_writebatch_put_cf(wb, handles[1], "box", 3, "c", 1); rocksdb_writebatch_delete_cf(wb, handles[1], "bar", 3); rocksdb_write(db, woptions, wb, &err); CheckNoError(err); CheckGetCF(db, roptions, handles[1], "baz", NULL); CheckGetCF(db, roptions, handles[1], "bar", NULL); CheckGetCF(db, roptions, handles[1], "box", "c"); CheckPinGetCF(db, roptions, handles[1], "baz", NULL); CheckPinGetCF(db, roptions, handles[1], "bar", NULL); CheckPinGetCF(db, roptions, handles[1], "box", "c"); rocksdb_writebatch_destroy(wb); const char* keys[3] = { "box", "box", "barfooxx" }; const rocksdb_column_family_handle_t* get_handles[3] = { handles[0], handles[1], handles[1] }; const size_t keys_sizes[3] = { 3, 3, 8 }; char* vals[3]; size_t vals_sizes[3]; char* errs[3]; rocksdb_multi_get_cf(db, roptions, get_handles, 3, keys, keys_sizes, vals, vals_sizes, errs); int i; for (i = 0; i < 3; i++) { CheckEqual(NULL, errs[i], 0); switch (i) { case 0: CheckEqual(NULL, vals[i], vals_sizes[i]); // wrong cf break; case 1: CheckEqual("c", vals[i], vals_sizes[i]); // bingo break; case 2: CheckEqual(NULL, vals[i], vals_sizes[i]); // normal not found break; } Free(&vals[i]); } rocksdb_iterator_t* iter = rocksdb_create_iterator_cf(db, roptions, handles[1]); CheckCondition(!rocksdb_iter_valid(iter)); rocksdb_iter_seek_to_first(iter); CheckCondition(rocksdb_iter_valid(iter)); for (i = 0; rocksdb_iter_valid(iter) != 0; rocksdb_iter_next(iter)) { i++; } CheckCondition(i == 1); rocksdb_iter_get_error(iter, &err); CheckNoError(err); rocksdb_iter_destroy(iter); rocksdb_column_family_handle_t* iters_cf_handles[2] = { handles[0], handles[1] }; rocksdb_iterator_t* iters_handles[2]; rocksdb_create_iterators(db, roptions, iters_cf_handles, iters_handles, 2, &err); CheckNoError(err); iter = iters_handles[0]; CheckCondition(!rocksdb_iter_valid(iter)); rocksdb_iter_seek_to_first(iter); CheckCondition(!rocksdb_iter_valid(iter)); rocksdb_iter_destroy(iter); iter = iters_handles[1]; CheckCondition(!rocksdb_iter_valid(iter)); rocksdb_iter_seek_to_first(iter); CheckCondition(rocksdb_iter_valid(iter)); for (i = 0; rocksdb_iter_valid(iter) != 0; rocksdb_iter_next(iter)) { i++; } CheckCondition(i == 1); rocksdb_iter_get_error(iter, &err); CheckNoError(err); rocksdb_iter_destroy(iter); rocksdb_drop_column_family(db, handles[1], &err); CheckNoError(err); for (i = 0; i < 2; i++) { rocksdb_column_family_handle_destroy(handles[i]); } rocksdb_close(db); rocksdb_destroy_db(options, dbname, &err); rocksdb_options_destroy(db_options); rocksdb_options_destroy(cf_options); } StartPhase("prefix"); { // Create new database rocksdb_options_set_allow_mmap_reads(options, 1); rocksdb_options_set_prefix_extractor(options, rocksdb_slicetransform_create_fixed_prefix(3)); rocksdb_options_set_hash_skip_list_rep(options, 5000, 4, 4); rocksdb_options_set_plain_table_factory(options, 4, 10, 0.75, 16); rocksdb_options_set_allow_concurrent_memtable_write(options, 0); db = rocksdb_open(options, dbname, &err); CheckNoError(err); rocksdb_put(db, woptions, "foo1", 4, "foo", 3, &err); CheckNoError(err); rocksdb_put(db, woptions, "foo2", 4, "foo", 3, &err); CheckNoError(err); rocksdb_put(db, woptions, "foo3", 4, "foo", 3, &err); CheckNoError(err); rocksdb_put(db, woptions, "bar1", 4, "bar", 3, &err); CheckNoError(err); rocksdb_put(db, woptions, "bar2", 4, "bar", 3, &err); CheckNoError(err); rocksdb_put(db, woptions, "bar3", 4, "bar", 3, &err); CheckNoError(err); rocksdb_iterator_t* iter = rocksdb_create_iterator(db, roptions); CheckCondition(!rocksdb_iter_valid(iter)); rocksdb_iter_seek(iter, "bar", 3); rocksdb_iter_get_error(iter, &err); CheckNoError(err); CheckCondition(rocksdb_iter_valid(iter)); CheckIter(iter, "bar1", "bar"); rocksdb_iter_next(iter); CheckIter(iter, "bar2", "bar"); rocksdb_iter_next(iter); CheckIter(iter, "bar3", "bar"); rocksdb_iter_get_error(iter, &err); CheckNoError(err); rocksdb_iter_destroy(iter); rocksdb_readoptions_set_total_order_seek(roptions, 1); iter = rocksdb_create_iterator(db, roptions); CheckCondition(!rocksdb_iter_valid(iter)); rocksdb_iter_seek(iter, "ba", 2); rocksdb_iter_get_error(iter, &err); CheckNoError(err); CheckCondition(rocksdb_iter_valid(iter)); CheckIter(iter, "bar1", "bar"); rocksdb_iter_destroy(iter); rocksdb_readoptions_set_total_order_seek(roptions, 0); rocksdb_close(db); rocksdb_destroy_db(options, dbname, &err); } // Check memory usage stats StartPhase("approximate_memory_usage"); { // Create database db = rocksdb_open(options, dbname, &err); CheckNoError(err); rocksdb_memory_consumers_t* consumers; consumers = rocksdb_memory_consumers_create(); rocksdb_memory_consumers_add_db(consumers, db); rocksdb_memory_consumers_add_cache(consumers, cache); // take memory usage report before write-read operation rocksdb_memory_usage_t* mu1; mu1 = rocksdb_approximate_memory_usage_create(consumers, &err); CheckNoError(err); // Put data (this should affect memtables) rocksdb_put(db, woptions, "memory", 6, "test", 4, &err); CheckNoError(err); CheckGet(db, roptions, "memory", "test"); // take memory usage report after write-read operation rocksdb_memory_usage_t* mu2; mu2 = rocksdb_approximate_memory_usage_create(consumers, &err); CheckNoError(err); // amount of memory used within memtables should grow CheckCondition(rocksdb_approximate_memory_usage_get_mem_table_total(mu2) >= rocksdb_approximate_memory_usage_get_mem_table_total(mu1)); CheckCondition(rocksdb_approximate_memory_usage_get_mem_table_unflushed(mu2) >= rocksdb_approximate_memory_usage_get_mem_table_unflushed(mu1)); rocksdb_memory_consumers_destroy(consumers); rocksdb_approximate_memory_usage_destroy(mu1); rocksdb_approximate_memory_usage_destroy(mu2); rocksdb_close(db); rocksdb_destroy_db(options, dbname, &err); CheckNoError(err); } StartPhase("cuckoo_options"); { rocksdb_cuckoo_table_options_t* cuckoo_options; cuckoo_options = rocksdb_cuckoo_options_create(); rocksdb_cuckoo_options_set_hash_ratio(cuckoo_options, 0.5); rocksdb_cuckoo_options_set_max_search_depth(cuckoo_options, 200); rocksdb_cuckoo_options_set_cuckoo_block_size(cuckoo_options, 10); rocksdb_cuckoo_options_set_identity_as_first_hash(cuckoo_options, 1); rocksdb_cuckoo_options_set_use_module_hash(cuckoo_options, 0); rocksdb_options_set_cuckoo_table_factory(options, cuckoo_options); db = rocksdb_open(options, dbname, &err); CheckNoError(err); rocksdb_cuckoo_options_destroy(cuckoo_options); } StartPhase("iterate_upper_bound"); { // Create new empty database rocksdb_close(db); rocksdb_destroy_db(options, dbname, &err); CheckNoError(err); rocksdb_options_set_prefix_extractor(options, NULL); db = rocksdb_open(options, dbname, &err); CheckNoError(err); rocksdb_put(db, woptions, "a", 1, "0", 1, &err); CheckNoError(err); rocksdb_put(db, woptions, "foo", 3, "bar", 3, &err); CheckNoError(err); rocksdb_put(db, woptions, "foo1", 4, "bar1", 4, &err); CheckNoError(err); rocksdb_put(db, woptions, "g1", 2, "0", 1, &err); CheckNoError(err); // testing basic case with no iterate_upper_bound and no prefix_extractor { rocksdb_readoptions_set_iterate_upper_bound(roptions, NULL, 0); rocksdb_iterator_t* iter = rocksdb_create_iterator(db, roptions); rocksdb_iter_seek(iter, "foo", 3); CheckCondition(rocksdb_iter_valid(iter)); CheckIter(iter, "foo", "bar"); rocksdb_iter_next(iter); CheckCondition(rocksdb_iter_valid(iter)); CheckIter(iter, "foo1", "bar1"); rocksdb_iter_next(iter); CheckCondition(rocksdb_iter_valid(iter)); CheckIter(iter, "g1", "0"); rocksdb_iter_destroy(iter); } // testing iterate_upper_bound and forward iterator // to make sure it stops at bound { // iterate_upper_bound points beyond the last expected entry rocksdb_readoptions_set_iterate_upper_bound(roptions, "foo2", 4); rocksdb_iterator_t* iter = rocksdb_create_iterator(db, roptions); rocksdb_iter_seek(iter, "foo", 3); CheckCondition(rocksdb_iter_valid(iter)); CheckIter(iter, "foo", "bar"); rocksdb_iter_next(iter); CheckCondition(rocksdb_iter_valid(iter)); CheckIter(iter, "foo1", "bar1"); rocksdb_iter_next(iter); // should stop here... CheckCondition(!rocksdb_iter_valid(iter)); rocksdb_iter_destroy(iter); } } StartPhase("transactions"); { rocksdb_close(db); rocksdb_destroy_db(options, dbname, &err); CheckNoError(err); // open a TransactionDB txn_db_options = rocksdb_transactiondb_options_create(); txn_options = rocksdb_transaction_options_create(); rocksdb_options_set_create_if_missing(options, 1); txn_db = rocksdb_transactiondb_open(options, txn_db_options, dbname, &err); CheckNoError(err); // put outside a transaction rocksdb_transactiondb_put(txn_db, woptions, "foo", 3, "hello", 5, &err); CheckNoError(err); CheckTxnDBGet(txn_db, roptions, "foo", "hello"); // delete from outside transaction rocksdb_transactiondb_delete(txn_db, woptions, "foo", 3, &err); CheckNoError(err); CheckTxnDBGet(txn_db, roptions, "foo", NULL); // write batch into TransactionDB rocksdb_writebatch_t* wb = rocksdb_writebatch_create(); rocksdb_writebatch_put(wb, "foo", 3, "a", 1); rocksdb_writebatch_clear(wb); rocksdb_writebatch_put(wb, "bar", 3, "b", 1); rocksdb_writebatch_put(wb, "box", 3, "c", 1); rocksdb_writebatch_delete(wb, "bar", 3); rocksdb_transactiondb_write(txn_db, woptions, wb, &err); rocksdb_writebatch_destroy(wb); CheckTxnDBGet(txn_db, roptions, "box", "c"); CheckNoError(err); // begin a transaction txn = rocksdb_transaction_begin(txn_db, woptions, txn_options, NULL); // put rocksdb_transaction_put(txn, "foo", 3, "hello", 5, &err); CheckNoError(err); CheckTxnGet(txn, roptions, "foo", "hello"); // delete rocksdb_transaction_delete(txn, "foo", 3, &err); CheckNoError(err); CheckTxnGet(txn, roptions, "foo", NULL); rocksdb_transaction_put(txn, "foo", 3, "hello", 5, &err); CheckNoError(err); // read from outside transaction, before commit CheckTxnDBGet(txn_db, roptions, "foo", NULL); // commit rocksdb_transaction_commit(txn, &err); CheckNoError(err); // read from outside transaction, after commit CheckTxnDBGet(txn_db, roptions, "foo", "hello"); // reuse old transaction txn = rocksdb_transaction_begin(txn_db, woptions, txn_options, txn); // snapshot const rocksdb_snapshot_t* snapshot; snapshot = rocksdb_transactiondb_create_snapshot(txn_db); rocksdb_readoptions_set_snapshot(roptions, snapshot); rocksdb_transactiondb_put(txn_db, woptions, "foo", 3, "hey", 3, &err); CheckNoError(err); CheckTxnDBGet(txn_db, roptions, "foo", "hello"); rocksdb_readoptions_set_snapshot(roptions, NULL); rocksdb_transactiondb_release_snapshot(txn_db, snapshot); CheckTxnDBGet(txn_db, roptions, "foo", "hey"); // iterate rocksdb_transaction_put(txn, "bar", 3, "hi", 2, &err); rocksdb_iterator_t* iter = rocksdb_transaction_create_iterator(txn, roptions); CheckCondition(!rocksdb_iter_valid(iter)); rocksdb_iter_seek_to_first(iter); CheckCondition(rocksdb_iter_valid(iter)); CheckIter(iter, "bar", "hi"); rocksdb_iter_get_error(iter, &err); CheckNoError(err); rocksdb_iter_destroy(iter); // rollback rocksdb_transaction_rollback(txn, &err); CheckNoError(err); CheckTxnDBGet(txn_db, roptions, "bar", NULL); // save point rocksdb_transaction_put(txn, "foo1", 4, "hi1", 3, &err); rocksdb_transaction_set_savepoint(txn); CheckTxnGet(txn, roptions, "foo1", "hi1"); rocksdb_transaction_put(txn, "foo2", 4, "hi2", 3, &err); CheckTxnGet(txn, roptions, "foo2", "hi2"); // rollback to savepoint rocksdb_transaction_rollback_to_savepoint(txn, &err); CheckNoError(err); CheckTxnGet(txn, roptions, "foo2", NULL); CheckTxnGet(txn, roptions, "foo1", "hi1"); CheckTxnDBGet(txn_db, roptions, "foo1", NULL); CheckTxnDBGet(txn_db, roptions, "foo2", NULL); rocksdb_transaction_commit(txn, &err); CheckNoError(err); CheckTxnDBGet(txn_db, roptions, "foo1", "hi1"); CheckTxnDBGet(txn_db, roptions, "foo2", NULL); // Column families. rocksdb_column_family_handle_t* cfh; cfh = rocksdb_transactiondb_create_column_family(txn_db, options, "txn_db_cf", &err); CheckNoError(err); rocksdb_transactiondb_put_cf(txn_db, woptions, cfh, "cf_foo", 6, "cf_hello", 8, &err); CheckNoError(err); CheckTxnDBGetCF(txn_db, roptions, cfh, "cf_foo", "cf_hello"); rocksdb_transactiondb_delete_cf(txn_db, woptions, cfh, "cf_foo", 6, &err); CheckNoError(err); CheckTxnDBGetCF(txn_db, roptions, cfh, "cf_foo", NULL); rocksdb_column_family_handle_destroy(cfh); // close and destroy rocksdb_transaction_destroy(txn); rocksdb_transactiondb_close(txn_db); rocksdb_destroy_db(options, dbname, &err); CheckNoError(err); rocksdb_transaction_options_destroy(txn_options); rocksdb_transactiondb_options_destroy(txn_db_options); } StartPhase("optimistic_transactions"); { rocksdb_options_t* db_options = rocksdb_options_create(); rocksdb_options_set_create_if_missing(db_options, 1); rocksdb_options_set_allow_concurrent_memtable_write(db_options, 1); otxn_db = rocksdb_optimistictransactiondb_open(db_options, dbname, &err); otxn_options = rocksdb_optimistictransaction_options_create(); rocksdb_transaction_t* txn1 = rocksdb_optimistictransaction_begin( otxn_db, woptions, otxn_options, NULL); rocksdb_transaction_t* txn2 = rocksdb_optimistictransaction_begin( otxn_db, woptions, otxn_options, NULL); rocksdb_transaction_put(txn1, "key", 3, "value", 5, &err); CheckNoError(err); rocksdb_transaction_put(txn2, "key1", 4, "value1", 6, &err); CheckNoError(err); CheckTxnGet(txn1, roptions, "key", "value"); rocksdb_transaction_commit(txn1, &err); CheckNoError(err); rocksdb_transaction_commit(txn2, &err); CheckNoError(err); rocksdb_transaction_destroy(txn1); rocksdb_transaction_destroy(txn2); // Check column family db = rocksdb_optimistictransactiondb_get_base_db(otxn_db); rocksdb_put(db, woptions, "key", 3, "value", 5, &err); CheckNoError(err); rocksdb_column_family_handle_t *cfh1, *cfh2; cfh1 = rocksdb_create_column_family(db, db_options, "txn_db_cf1", &err); cfh2 = rocksdb_create_column_family(db, db_options, "txn_db_cf2", &err); txn = rocksdb_optimistictransaction_begin(otxn_db, woptions, otxn_options, NULL); rocksdb_transaction_put_cf(txn, cfh1, "key_cf1", 7, "val_cf1", 7, &err); CheckNoError(err); rocksdb_transaction_put_cf(txn, cfh2, "key_cf2", 7, "val_cf2", 7, &err); CheckNoError(err); rocksdb_transaction_commit(txn, &err); CheckNoError(err); txn = rocksdb_optimistictransaction_begin(otxn_db, woptions, otxn_options, txn); CheckGetCF(db, roptions, cfh1, "key_cf1", "val_cf1"); CheckTxnGetCF(txn, roptions, cfh1, "key_cf1", "val_cf1"); // Check iterator with column family rocksdb_transaction_put_cf(txn, cfh1, "key1_cf", 7, "val1_cf", 7, &err); CheckNoError(err); rocksdb_iterator_t* iter = rocksdb_transaction_create_iterator_cf(txn, roptions, cfh1); CheckCondition(!rocksdb_iter_valid(iter)); rocksdb_iter_seek_to_first(iter); CheckCondition(rocksdb_iter_valid(iter)); CheckIter(iter, "key1_cf", "val1_cf"); rocksdb_iter_get_error(iter, &err); CheckNoError(err); rocksdb_iter_destroy(iter); rocksdb_transaction_destroy(txn); rocksdb_column_family_handle_destroy(cfh1); rocksdb_column_family_handle_destroy(cfh2); rocksdb_optimistictransactiondb_close_base_db(db); rocksdb_optimistictransactiondb_close(otxn_db); // Check open optimistic transaction db with column families size_t cf_len; char** column_fams = rocksdb_list_column_families(db_options, dbname, &cf_len, &err); CheckNoError(err); CheckEqual("default", column_fams[0], 7); CheckEqual("txn_db_cf1", column_fams[1], 10); CheckEqual("txn_db_cf2", column_fams[2], 10); CheckCondition(cf_len == 3); rocksdb_list_column_families_destroy(column_fams, cf_len); const char* cf_names[3] = {"default", "txn_db_cf1", "txn_db_cf2"}; rocksdb_options_t* cf_options = rocksdb_options_create(); const rocksdb_options_t* cf_opts[3] = {cf_options, cf_options, cf_options}; rocksdb_options_set_error_if_exists(cf_options, 0); rocksdb_column_family_handle_t* cf_handles[3]; otxn_db = rocksdb_optimistictransactiondb_open_column_families( db_options, dbname, 3, cf_names, cf_opts, cf_handles, &err); CheckNoError(err); rocksdb_transaction_t* txn_cf = rocksdb_optimistictransaction_begin( otxn_db, woptions, otxn_options, NULL); CheckTxnGetCF(txn_cf, roptions, cf_handles[0], "key", "value"); CheckTxnGetCF(txn_cf, roptions, cf_handles[1], "key_cf1", "val_cf1"); CheckTxnGetCF(txn_cf, roptions, cf_handles[2], "key_cf2", "val_cf2"); rocksdb_transaction_destroy(txn_cf); rocksdb_options_destroy(cf_options); rocksdb_column_family_handle_destroy(cf_handles[0]); rocksdb_column_family_handle_destroy(cf_handles[1]); rocksdb_column_family_handle_destroy(cf_handles[2]); rocksdb_optimistictransactiondb_close(otxn_db); rocksdb_destroy_db(db_options, dbname, &err); rocksdb_options_destroy(db_options); rocksdb_optimistictransaction_options_destroy(otxn_options); CheckNoError(err); } // Simple sanity check that setting memtable rep works. StartPhase("memtable_reps"); { // Create database with vector memtable. rocksdb_options_set_memtable_vector_rep(options); db = rocksdb_open(options, dbname, &err); CheckNoError(err); // Create database with hash skiplist memtable. rocksdb_close(db); rocksdb_destroy_db(options, dbname, &err); CheckNoError(err); rocksdb_options_set_hash_skip_list_rep(options, 5000, 4, 4); db = rocksdb_open(options, dbname, &err); CheckNoError(err); } // Simple sanity check that options setting db_paths work. StartPhase("open_db_paths"); { rocksdb_close(db); rocksdb_destroy_db(options, dbname, &err); const rocksdb_dbpath_t* paths[1] = {dbpath}; rocksdb_options_set_db_paths(options, paths, 1); db = rocksdb_open(options, dbname, &err); CheckNoError(err); } StartPhase("cleanup"); rocksdb_close(db); rocksdb_options_destroy(options); rocksdb_block_based_options_destroy(table_options); rocksdb_readoptions_destroy(roptions); rocksdb_writeoptions_destroy(woptions); rocksdb_compactoptions_destroy(coptions); rocksdb_cache_destroy(cache); rocksdb_comparator_destroy(cmp); rocksdb_dbpath_destroy(dbpath); rocksdb_env_destroy(env); fprintf(stderr, "PASS\n"); return 0; } #else int main() { fprintf(stderr, "SKIPPED\n"); return 0; } #endif // !ROCKSDB_LITE rocksdb-5.17.2/db/column_family.cc000066400000000000000000001506161337235545400170130ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "db/column_family.h" #ifndef __STDC_FORMAT_MACROS #define __STDC_FORMAT_MACROS #endif #include #include #include #include #include #include "db/compaction_picker.h" #include "db/compaction_picker_universal.h" #include "db/db_impl.h" #include "db/internal_stats.h" #include "db/job_context.h" #include "db/table_properties_collector.h" #include "db/version_set.h" #include "db/write_controller.h" #include "memtable/hash_skiplist_rep.h" #include "monitoring/thread_status_util.h" #include "options/options_helper.h" #include "table/block_based_table_factory.h" #include "table/merging_iterator.h" #include "util/autovector.h" #include "util/compression.h" #include "util/sst_file_manager_impl.h" namespace rocksdb { ColumnFamilyHandleImpl::ColumnFamilyHandleImpl( ColumnFamilyData* column_family_data, DBImpl* db, InstrumentedMutex* mutex) : cfd_(column_family_data), db_(db), mutex_(mutex) { if (cfd_ != nullptr) { cfd_->Ref(); } } ColumnFamilyHandleImpl::~ColumnFamilyHandleImpl() { if (cfd_ != nullptr) { #ifndef ROCKSDB_LITE for (auto& listener : cfd_->ioptions()->listeners) { listener->OnColumnFamilyHandleDeletionStarted(this); } #endif // ROCKSDB_LITE // Job id == 0 means that this is not our background process, but rather // user thread // Need to hold some shared pointers owned by the initial_cf_options // before final cleaning up finishes. ColumnFamilyOptions initial_cf_options_copy = cfd_->initial_cf_options(); JobContext job_context(0); mutex_->Lock(); if (cfd_->Unref()) { delete cfd_; } db_->FindObsoleteFiles(&job_context, false, true); mutex_->Unlock(); if (job_context.HaveSomethingToDelete()) { db_->PurgeObsoleteFiles(job_context); } job_context.Clean(); } } uint32_t ColumnFamilyHandleImpl::GetID() const { return cfd()->GetID(); } const std::string& ColumnFamilyHandleImpl::GetName() const { return cfd()->GetName(); } Status ColumnFamilyHandleImpl::GetDescriptor(ColumnFamilyDescriptor* desc) { #ifndef ROCKSDB_LITE // accessing mutable cf-options requires db mutex. InstrumentedMutexLock l(mutex_); *desc = ColumnFamilyDescriptor(cfd()->GetName(), cfd()->GetLatestCFOptions()); return Status::OK(); #else (void)desc; return Status::NotSupported(); #endif // !ROCKSDB_LITE } const Comparator* ColumnFamilyHandleImpl::GetComparator() const { return cfd()->user_comparator(); } void GetIntTblPropCollectorFactory( const ImmutableCFOptions& ioptions, std::vector>* int_tbl_prop_collector_factories) { auto& collector_factories = ioptions.table_properties_collector_factories; for (size_t i = 0; i < ioptions.table_properties_collector_factories.size(); ++i) { assert(collector_factories[i]); int_tbl_prop_collector_factories->emplace_back( new UserKeyTablePropertiesCollectorFactory(collector_factories[i])); } // Add collector to collect internal key statistics int_tbl_prop_collector_factories->emplace_back( new InternalKeyPropertiesCollectorFactory); } Status CheckCompressionSupported(const ColumnFamilyOptions& cf_options) { if (!cf_options.compression_per_level.empty()) { for (size_t level = 0; level < cf_options.compression_per_level.size(); ++level) { if (!CompressionTypeSupported(cf_options.compression_per_level[level])) { return Status::InvalidArgument( "Compression type " + CompressionTypeToString(cf_options.compression_per_level[level]) + " is not linked with the binary."); } } } else { if (!CompressionTypeSupported(cf_options.compression)) { return Status::InvalidArgument( "Compression type " + CompressionTypeToString(cf_options.compression) + " is not linked with the binary."); } } if (cf_options.compression_opts.zstd_max_train_bytes > 0) { if (!CompressionTypeSupported(CompressionType::kZSTD)) { // Dictionary trainer is available since v0.6.1, but ZSTD was marked // stable only since v0.8.0. For now we enable the feature in stable // versions only. return Status::InvalidArgument( "zstd dictionary trainer cannot be used because " + CompressionTypeToString(CompressionType::kZSTD) + " is not linked with the binary."); } if (cf_options.compression_opts.max_dict_bytes == 0) { return Status::InvalidArgument( "The dictionary size limit (`CompressionOptions::max_dict_bytes`) " "should be nonzero if we're using zstd's dictionary generator."); } } return Status::OK(); } Status CheckConcurrentWritesSupported(const ColumnFamilyOptions& cf_options) { if (cf_options.inplace_update_support) { return Status::InvalidArgument( "In-place memtable updates (inplace_update_support) is not compatible " "with concurrent writes (allow_concurrent_memtable_write)"); } if (!cf_options.memtable_factory->IsInsertConcurrentlySupported()) { return Status::InvalidArgument( "Memtable doesn't concurrent writes (allow_concurrent_memtable_write)"); } return Status::OK(); } Status CheckCFPathsSupported(const DBOptions& db_options, const ColumnFamilyOptions& cf_options) { // More than one cf_paths are supported only in universal // and level compaction styles. This function also checks the case // in which cf_paths is not specified, which results in db_paths // being used. if ((cf_options.compaction_style != kCompactionStyleUniversal) && (cf_options.compaction_style != kCompactionStyleLevel)) { if (cf_options.cf_paths.size() > 1) { return Status::NotSupported( "More than one CF paths are only supported in " "universal and level compaction styles. "); } else if (cf_options.cf_paths.empty() && db_options.db_paths.size() > 1) { return Status::NotSupported( "More than one DB paths are only supported in " "universal and level compaction styles. "); } } return Status::OK(); } ColumnFamilyOptions SanitizeOptions(const ImmutableDBOptions& db_options, const ColumnFamilyOptions& src) { ColumnFamilyOptions result = src; size_t clamp_max = std::conditional< sizeof(size_t) == 4, std::integral_constant, std::integral_constant>::type::value; ClipToRange(&result.write_buffer_size, ((size_t)64) << 10, clamp_max); // if user sets arena_block_size, we trust user to use this value. Otherwise, // calculate a proper value from writer_buffer_size; if (result.arena_block_size <= 0) { result.arena_block_size = result.write_buffer_size / 8; // Align up to 4k const size_t align = 4 * 1024; result.arena_block_size = ((result.arena_block_size + align - 1) / align) * align; } result.min_write_buffer_number_to_merge = std::min(result.min_write_buffer_number_to_merge, result.max_write_buffer_number - 1); if (result.min_write_buffer_number_to_merge < 1) { result.min_write_buffer_number_to_merge = 1; } if (result.num_levels < 1) { result.num_levels = 1; } if (result.compaction_style == kCompactionStyleLevel && result.num_levels < 2) { result.num_levels = 2; } if (result.compaction_style == kCompactionStyleUniversal && db_options.allow_ingest_behind && result.num_levels < 3) { result.num_levels = 3; } if (result.max_write_buffer_number < 2) { result.max_write_buffer_number = 2; } if (result.max_write_buffer_number_to_maintain < 0) { result.max_write_buffer_number_to_maintain = result.max_write_buffer_number; } // bloom filter size shouldn't exceed 1/4 of memtable size. if (result.memtable_prefix_bloom_size_ratio > 0.25) { result.memtable_prefix_bloom_size_ratio = 0.25; } else if (result.memtable_prefix_bloom_size_ratio < 0) { result.memtable_prefix_bloom_size_ratio = 0; } if (!result.prefix_extractor) { assert(result.memtable_factory); Slice name = result.memtable_factory->Name(); if (name.compare("HashSkipListRepFactory") == 0 || name.compare("HashLinkListRepFactory") == 0) { result.memtable_factory = std::make_shared(); } } if (result.compaction_style == kCompactionStyleFIFO) { result.num_levels = 1; // since we delete level0 files in FIFO compaction when there are too many // of them, these options don't really mean anything result.level0_slowdown_writes_trigger = std::numeric_limits::max(); result.level0_stop_writes_trigger = std::numeric_limits::max(); } if (result.max_bytes_for_level_multiplier <= 0) { result.max_bytes_for_level_multiplier = 1; } if (result.level0_file_num_compaction_trigger == 0) { ROCKS_LOG_WARN(db_options.info_log.get(), "level0_file_num_compaction_trigger cannot be 0"); result.level0_file_num_compaction_trigger = 1; } if (result.level0_stop_writes_trigger < result.level0_slowdown_writes_trigger || result.level0_slowdown_writes_trigger < result.level0_file_num_compaction_trigger) { ROCKS_LOG_WARN(db_options.info_log.get(), "This condition must be satisfied: " "level0_stop_writes_trigger(%d) >= " "level0_slowdown_writes_trigger(%d) >= " "level0_file_num_compaction_trigger(%d)", result.level0_stop_writes_trigger, result.level0_slowdown_writes_trigger, result.level0_file_num_compaction_trigger); if (result.level0_slowdown_writes_trigger < result.level0_file_num_compaction_trigger) { result.level0_slowdown_writes_trigger = result.level0_file_num_compaction_trigger; } if (result.level0_stop_writes_trigger < result.level0_slowdown_writes_trigger) { result.level0_stop_writes_trigger = result.level0_slowdown_writes_trigger; } ROCKS_LOG_WARN(db_options.info_log.get(), "Adjust the value to " "level0_stop_writes_trigger(%d)" "level0_slowdown_writes_trigger(%d)" "level0_file_num_compaction_trigger(%d)", result.level0_stop_writes_trigger, result.level0_slowdown_writes_trigger, result.level0_file_num_compaction_trigger); } if (result.soft_pending_compaction_bytes_limit == 0) { result.soft_pending_compaction_bytes_limit = result.hard_pending_compaction_bytes_limit; } else if (result.hard_pending_compaction_bytes_limit > 0 && result.soft_pending_compaction_bytes_limit > result.hard_pending_compaction_bytes_limit) { result.soft_pending_compaction_bytes_limit = result.hard_pending_compaction_bytes_limit; } #ifndef ROCKSDB_LITE // When the DB is stopped, it's possible that there are some .trash files that // were not deleted yet, when we open the DB we will find these .trash files // and schedule them to be deleted (or delete immediately if SstFileManager // was not used) auto sfm = static_cast(db_options.sst_file_manager.get()); for (size_t i = 0; i < result.cf_paths.size(); i++) { DeleteScheduler::CleanupDirectory(db_options.env, sfm, result.cf_paths[i].path); } #endif if (result.cf_paths.empty()) { result.cf_paths = db_options.db_paths; } if (result.level_compaction_dynamic_level_bytes) { if (result.compaction_style != kCompactionStyleLevel || result.cf_paths.size() > 1U) { // 1. level_compaction_dynamic_level_bytes only makes sense for // level-based compaction. // 2. we don't yet know how to make both of this feature and multiple // DB path work. result.level_compaction_dynamic_level_bytes = false; } } if (result.max_compaction_bytes == 0) { result.max_compaction_bytes = result.target_file_size_base * 25; } return result; } int SuperVersion::dummy = 0; void* const SuperVersion::kSVInUse = &SuperVersion::dummy; void* const SuperVersion::kSVObsolete = nullptr; SuperVersion::~SuperVersion() { for (auto td : to_delete) { delete td; } } SuperVersion* SuperVersion::Ref() { refs.fetch_add(1, std::memory_order_relaxed); return this; } bool SuperVersion::Unref() { // fetch_sub returns the previous value of ref uint32_t previous_refs = refs.fetch_sub(1); assert(previous_refs > 0); return previous_refs == 1; } void SuperVersion::Cleanup() { assert(refs.load(std::memory_order_relaxed) == 0); imm->Unref(&to_delete); MemTable* m = mem->Unref(); if (m != nullptr) { auto* memory_usage = current->cfd()->imm()->current_memory_usage(); assert(*memory_usage >= m->ApproximateMemoryUsage()); *memory_usage -= m->ApproximateMemoryUsage(); to_delete.push_back(m); } current->Unref(); } void SuperVersion::Init(MemTable* new_mem, MemTableListVersion* new_imm, Version* new_current) { mem = new_mem; imm = new_imm; current = new_current; mem->Ref(); imm->Ref(); current->Ref(); refs.store(1, std::memory_order_relaxed); } namespace { void SuperVersionUnrefHandle(void* ptr) { // UnrefHandle is called when a thread exists or a ThreadLocalPtr gets // destroyed. When former happens, the thread shouldn't see kSVInUse. // When latter happens, we are in ~ColumnFamilyData(), no get should happen as // well. SuperVersion* sv = static_cast(ptr); bool was_last_ref __attribute__((__unused__)); was_last_ref = sv->Unref(); // Thread-local SuperVersions can't outlive ColumnFamilyData::super_version_. // This is important because we can't do SuperVersion cleanup here. // That would require locking DB mutex, which would deadlock because // SuperVersionUnrefHandle is called with locked ThreadLocalPtr mutex. assert(!was_last_ref); } } // anonymous namespace ColumnFamilyData::ColumnFamilyData( uint32_t id, const std::string& name, Version* _dummy_versions, Cache* _table_cache, WriteBufferManager* write_buffer_manager, const ColumnFamilyOptions& cf_options, const ImmutableDBOptions& db_options, const EnvOptions& env_options, ColumnFamilySet* column_family_set) : id_(id), name_(name), dummy_versions_(_dummy_versions), current_(nullptr), refs_(0), initialized_(false), dropped_(false), internal_comparator_(cf_options.comparator), initial_cf_options_(SanitizeOptions(db_options, cf_options)), ioptions_(db_options, initial_cf_options_), mutable_cf_options_(initial_cf_options_), is_delete_range_supported_( cf_options.table_factory->IsDeleteRangeSupported()), write_buffer_manager_(write_buffer_manager), mem_(nullptr), imm_(ioptions_.min_write_buffer_number_to_merge, ioptions_.max_write_buffer_number_to_maintain), super_version_(nullptr), super_version_number_(0), local_sv_(new ThreadLocalPtr(&SuperVersionUnrefHandle)), next_(nullptr), prev_(nullptr), log_number_(0), flush_reason_(FlushReason::kOthers), column_family_set_(column_family_set), queued_for_flush_(false), queued_for_compaction_(false), prev_compaction_needed_bytes_(0), allow_2pc_(db_options.allow_2pc), last_memtable_id_(0) { Ref(); // Convert user defined table properties collector factories to internal ones. GetIntTblPropCollectorFactory(ioptions_, &int_tbl_prop_collector_factories_); // if _dummy_versions is nullptr, then this is a dummy column family. if (_dummy_versions != nullptr) { internal_stats_.reset( new InternalStats(ioptions_.num_levels, db_options.env, this)); table_cache_.reset(new TableCache(ioptions_, env_options, _table_cache)); if (ioptions_.compaction_style == kCompactionStyleLevel) { compaction_picker_.reset( new LevelCompactionPicker(ioptions_, &internal_comparator_)); #ifndef ROCKSDB_LITE } else if (ioptions_.compaction_style == kCompactionStyleUniversal) { compaction_picker_.reset( new UniversalCompactionPicker(ioptions_, &internal_comparator_)); } else if (ioptions_.compaction_style == kCompactionStyleFIFO) { compaction_picker_.reset( new FIFOCompactionPicker(ioptions_, &internal_comparator_)); } else if (ioptions_.compaction_style == kCompactionStyleNone) { compaction_picker_.reset(new NullCompactionPicker( ioptions_, &internal_comparator_)); ROCKS_LOG_WARN(ioptions_.info_log, "Column family %s does not use any background compaction. " "Compactions can only be done via CompactFiles\n", GetName().c_str()); #endif // !ROCKSDB_LITE } else { ROCKS_LOG_ERROR(ioptions_.info_log, "Unable to recognize the specified compaction style %d. " "Column family %s will use kCompactionStyleLevel.\n", ioptions_.compaction_style, GetName().c_str()); compaction_picker_.reset( new LevelCompactionPicker(ioptions_, &internal_comparator_)); } if (column_family_set_->NumberOfColumnFamilies() < 10) { ROCKS_LOG_INFO(ioptions_.info_log, "--------------- Options for column family [%s]:\n", name.c_str()); initial_cf_options_.Dump(ioptions_.info_log); } else { ROCKS_LOG_INFO(ioptions_.info_log, "\t(skipping printing options)\n"); } } RecalculateWriteStallConditions(mutable_cf_options_); } // DB mutex held ColumnFamilyData::~ColumnFamilyData() { assert(refs_.load(std::memory_order_relaxed) == 0); // remove from linked list auto prev = prev_; auto next = next_; prev->next_ = next; next->prev_ = prev; if (!dropped_ && column_family_set_ != nullptr) { // If it's dropped, it's already removed from column family set // If column_family_set_ == nullptr, this is dummy CFD and not in // ColumnFamilySet column_family_set_->RemoveColumnFamily(this); } if (current_ != nullptr) { current_->Unref(); } // It would be wrong if this ColumnFamilyData is in flush_queue_ or // compaction_queue_ and we destroyed it assert(!queued_for_flush_); assert(!queued_for_compaction_); if (super_version_ != nullptr) { // Release SuperVersion reference kept in ThreadLocalPtr. // This must be done outside of mutex_ since unref handler can lock mutex. super_version_->db_mutex->Unlock(); local_sv_.reset(); super_version_->db_mutex->Lock(); bool is_last_reference __attribute__((__unused__)); is_last_reference = super_version_->Unref(); assert(is_last_reference); super_version_->Cleanup(); delete super_version_; super_version_ = nullptr; } if (dummy_versions_ != nullptr) { // List must be empty assert(dummy_versions_->TEST_Next() == dummy_versions_); bool deleted __attribute__((__unused__)); deleted = dummy_versions_->Unref(); assert(deleted); } if (mem_ != nullptr) { delete mem_->Unref(); } autovector to_delete; imm_.current()->Unref(&to_delete); for (MemTable* m : to_delete) { delete m; } } void ColumnFamilyData::SetDropped() { // can't drop default CF assert(id_ != 0); dropped_ = true; write_controller_token_.reset(); // remove from column_family_set column_family_set_->RemoveColumnFamily(this); } ColumnFamilyOptions ColumnFamilyData::GetLatestCFOptions() const { return BuildColumnFamilyOptions(initial_cf_options_, mutable_cf_options_); } uint64_t ColumnFamilyData::OldestLogToKeep() { auto current_log = GetLogNumber(); if (allow_2pc_) { autovector empty_list; auto imm_prep_log = imm()->PrecomputeMinLogContainingPrepSection(empty_list); auto mem_prep_log = mem()->GetMinLogContainingPrepSection(); if (imm_prep_log > 0 && imm_prep_log < current_log) { current_log = imm_prep_log; } if (mem_prep_log > 0 && mem_prep_log < current_log) { current_log = mem_prep_log; } } return current_log; } const double kIncSlowdownRatio = 0.8; const double kDecSlowdownRatio = 1 / kIncSlowdownRatio; const double kNearStopSlowdownRatio = 0.6; const double kDelayRecoverSlowdownRatio = 1.4; namespace { // If penalize_stop is true, we further reduce slowdown rate. std::unique_ptr SetupDelay( WriteController* write_controller, uint64_t compaction_needed_bytes, uint64_t prev_compaction_need_bytes, bool penalize_stop, bool auto_comapctions_disabled) { const uint64_t kMinWriteRate = 16 * 1024u; // Minimum write rate 16KB/s. uint64_t max_write_rate = write_controller->max_delayed_write_rate(); uint64_t write_rate = write_controller->delayed_write_rate(); if (auto_comapctions_disabled) { // When auto compaction is disabled, always use the value user gave. write_rate = max_write_rate; } else if (write_controller->NeedsDelay() && max_write_rate > kMinWriteRate) { // If user gives rate less than kMinWriteRate, don't adjust it. // // If already delayed, need to adjust based on previous compaction debt. // When there are two or more column families require delay, we always // increase or reduce write rate based on information for one single // column family. It is likely to be OK but we can improve if there is a // problem. // Ignore compaction_needed_bytes = 0 case because compaction_needed_bytes // is only available in level-based compaction // // If the compaction debt stays the same as previously, we also further slow // down. It usually means a mem table is full. It's mainly for the case // where both of flush and compaction are much slower than the speed we // insert to mem tables, so we need to actively slow down before we get // feedback signal from compaction and flushes to avoid the full stop // because of hitting the max write buffer number. // // If DB just falled into the stop condition, we need to further reduce // the write rate to avoid the stop condition. if (penalize_stop) { // Penalize the near stop or stop condition by more aggressive slowdown. // This is to provide the long term slowdown increase signal. // The penalty is more than the reward of recovering to the normal // condition. write_rate = static_cast(static_cast(write_rate) * kNearStopSlowdownRatio); if (write_rate < kMinWriteRate) { write_rate = kMinWriteRate; } } else if (prev_compaction_need_bytes > 0 && prev_compaction_need_bytes <= compaction_needed_bytes) { write_rate = static_cast(static_cast(write_rate) * kIncSlowdownRatio); if (write_rate < kMinWriteRate) { write_rate = kMinWriteRate; } } else if (prev_compaction_need_bytes > compaction_needed_bytes) { // We are speeding up by ratio of kSlowdownRatio when we have paid // compaction debt. But we'll never speed up to faster than the write rate // given by users. write_rate = static_cast(static_cast(write_rate) * kDecSlowdownRatio); if (write_rate > max_write_rate) { write_rate = max_write_rate; } } } return write_controller->GetDelayToken(write_rate); } int GetL0ThresholdSpeedupCompaction(int level0_file_num_compaction_trigger, int level0_slowdown_writes_trigger) { // SanitizeOptions() ensures it. assert(level0_file_num_compaction_trigger <= level0_slowdown_writes_trigger); if (level0_file_num_compaction_trigger < 0) { return std::numeric_limits::max(); } const int64_t twice_level0_trigger = static_cast(level0_file_num_compaction_trigger) * 2; const int64_t one_fourth_trigger_slowdown = static_cast(level0_file_num_compaction_trigger) + ((level0_slowdown_writes_trigger - level0_file_num_compaction_trigger) / 4); assert(twice_level0_trigger >= 0); assert(one_fourth_trigger_slowdown >= 0); // 1/4 of the way between L0 compaction trigger threshold and slowdown // condition. // Or twice as compaction trigger, if it is smaller. int64_t res = std::min(twice_level0_trigger, one_fourth_trigger_slowdown); if (res >= port::kMaxInt32) { return port::kMaxInt32; } else { // res fits in int return static_cast(res); } } } // namespace std::pair ColumnFamilyData::GetWriteStallConditionAndCause( int num_unflushed_memtables, int num_l0_files, uint64_t num_compaction_needed_bytes, const MutableCFOptions& mutable_cf_options) { if (num_unflushed_memtables >= mutable_cf_options.max_write_buffer_number) { return {WriteStallCondition::kStopped, WriteStallCause::kMemtableLimit}; } else if (!mutable_cf_options.disable_auto_compactions && num_l0_files >= mutable_cf_options.level0_stop_writes_trigger) { return {WriteStallCondition::kStopped, WriteStallCause::kL0FileCountLimit}; } else if (!mutable_cf_options.disable_auto_compactions && mutable_cf_options.hard_pending_compaction_bytes_limit > 0 && num_compaction_needed_bytes >= mutable_cf_options.hard_pending_compaction_bytes_limit) { return {WriteStallCondition::kStopped, WriteStallCause::kPendingCompactionBytes}; } else if (mutable_cf_options.max_write_buffer_number > 3 && num_unflushed_memtables >= mutable_cf_options.max_write_buffer_number - 1) { return {WriteStallCondition::kDelayed, WriteStallCause::kMemtableLimit}; } else if (!mutable_cf_options.disable_auto_compactions && mutable_cf_options.level0_slowdown_writes_trigger >= 0 && num_l0_files >= mutable_cf_options.level0_slowdown_writes_trigger) { return {WriteStallCondition::kDelayed, WriteStallCause::kL0FileCountLimit}; } else if (!mutable_cf_options.disable_auto_compactions && mutable_cf_options.soft_pending_compaction_bytes_limit > 0 && num_compaction_needed_bytes >= mutable_cf_options.soft_pending_compaction_bytes_limit) { return {WriteStallCondition::kDelayed, WriteStallCause::kPendingCompactionBytes}; } return {WriteStallCondition::kNormal, WriteStallCause::kNone}; } WriteStallCondition ColumnFamilyData::RecalculateWriteStallConditions( const MutableCFOptions& mutable_cf_options) { auto write_stall_condition = WriteStallCondition::kNormal; if (current_ != nullptr) { auto* vstorage = current_->storage_info(); auto write_controller = column_family_set_->write_controller_; uint64_t compaction_needed_bytes = vstorage->estimated_compaction_needed_bytes(); auto write_stall_condition_and_cause = GetWriteStallConditionAndCause( imm()->NumNotFlushed(), vstorage->l0_delay_trigger_count(), vstorage->estimated_compaction_needed_bytes(), mutable_cf_options); write_stall_condition = write_stall_condition_and_cause.first; auto write_stall_cause = write_stall_condition_and_cause.second; bool was_stopped = write_controller->IsStopped(); bool needed_delay = write_controller->NeedsDelay(); if (write_stall_condition == WriteStallCondition::kStopped && write_stall_cause == WriteStallCause::kMemtableLimit) { write_controller_token_ = write_controller->GetStopToken(); internal_stats_->AddCFStats(InternalStats::MEMTABLE_LIMIT_STOPS, 1); ROCKS_LOG_WARN( ioptions_.info_log, "[%s] Stopping writes because we have %d immutable memtables " "(waiting for flush), max_write_buffer_number is set to %d", name_.c_str(), imm()->NumNotFlushed(), mutable_cf_options.max_write_buffer_number); } else if (write_stall_condition == WriteStallCondition::kStopped && write_stall_cause == WriteStallCause::kL0FileCountLimit) { write_controller_token_ = write_controller->GetStopToken(); internal_stats_->AddCFStats(InternalStats::L0_FILE_COUNT_LIMIT_STOPS, 1); if (compaction_picker_->IsLevel0CompactionInProgress()) { internal_stats_->AddCFStats( InternalStats::LOCKED_L0_FILE_COUNT_LIMIT_STOPS, 1); } ROCKS_LOG_WARN(ioptions_.info_log, "[%s] Stopping writes because we have %d level-0 files", name_.c_str(), vstorage->l0_delay_trigger_count()); } else if (write_stall_condition == WriteStallCondition::kStopped && write_stall_cause == WriteStallCause::kPendingCompactionBytes) { write_controller_token_ = write_controller->GetStopToken(); internal_stats_->AddCFStats( InternalStats::PENDING_COMPACTION_BYTES_LIMIT_STOPS, 1); ROCKS_LOG_WARN( ioptions_.info_log, "[%s] Stopping writes because of estimated pending compaction " "bytes %" PRIu64, name_.c_str(), compaction_needed_bytes); } else if (write_stall_condition == WriteStallCondition::kDelayed && write_stall_cause == WriteStallCause::kMemtableLimit) { write_controller_token_ = SetupDelay(write_controller, compaction_needed_bytes, prev_compaction_needed_bytes_, was_stopped, mutable_cf_options.disable_auto_compactions); internal_stats_->AddCFStats(InternalStats::MEMTABLE_LIMIT_SLOWDOWNS, 1); ROCKS_LOG_WARN( ioptions_.info_log, "[%s] Stalling writes because we have %d immutable memtables " "(waiting for flush), max_write_buffer_number is set to %d " "rate %" PRIu64, name_.c_str(), imm()->NumNotFlushed(), mutable_cf_options.max_write_buffer_number, write_controller->delayed_write_rate()); } else if (write_stall_condition == WriteStallCondition::kDelayed && write_stall_cause == WriteStallCause::kL0FileCountLimit) { // L0 is the last two files from stopping. bool near_stop = vstorage->l0_delay_trigger_count() >= mutable_cf_options.level0_stop_writes_trigger - 2; write_controller_token_ = SetupDelay(write_controller, compaction_needed_bytes, prev_compaction_needed_bytes_, was_stopped || near_stop, mutable_cf_options.disable_auto_compactions); internal_stats_->AddCFStats(InternalStats::L0_FILE_COUNT_LIMIT_SLOWDOWNS, 1); if (compaction_picker_->IsLevel0CompactionInProgress()) { internal_stats_->AddCFStats( InternalStats::LOCKED_L0_FILE_COUNT_LIMIT_SLOWDOWNS, 1); } ROCKS_LOG_WARN(ioptions_.info_log, "[%s] Stalling writes because we have %d level-0 files " "rate %" PRIu64, name_.c_str(), vstorage->l0_delay_trigger_count(), write_controller->delayed_write_rate()); } else if (write_stall_condition == WriteStallCondition::kDelayed && write_stall_cause == WriteStallCause::kPendingCompactionBytes) { // If the distance to hard limit is less than 1/4 of the gap between soft // and // hard bytes limit, we think it is near stop and speed up the slowdown. bool near_stop = mutable_cf_options.hard_pending_compaction_bytes_limit > 0 && (compaction_needed_bytes - mutable_cf_options.soft_pending_compaction_bytes_limit) > 3 * (mutable_cf_options.hard_pending_compaction_bytes_limit - mutable_cf_options.soft_pending_compaction_bytes_limit) / 4; write_controller_token_ = SetupDelay(write_controller, compaction_needed_bytes, prev_compaction_needed_bytes_, was_stopped || near_stop, mutable_cf_options.disable_auto_compactions); internal_stats_->AddCFStats( InternalStats::PENDING_COMPACTION_BYTES_LIMIT_SLOWDOWNS, 1); ROCKS_LOG_WARN( ioptions_.info_log, "[%s] Stalling writes because of estimated pending compaction " "bytes %" PRIu64 " rate %" PRIu64, name_.c_str(), vstorage->estimated_compaction_needed_bytes(), write_controller->delayed_write_rate()); } else { assert(write_stall_condition == WriteStallCondition::kNormal); if (vstorage->l0_delay_trigger_count() >= GetL0ThresholdSpeedupCompaction( mutable_cf_options.level0_file_num_compaction_trigger, mutable_cf_options.level0_slowdown_writes_trigger)) { write_controller_token_ = write_controller->GetCompactionPressureToken(); ROCKS_LOG_INFO( ioptions_.info_log, "[%s] Increasing compaction threads because we have %d level-0 " "files ", name_.c_str(), vstorage->l0_delay_trigger_count()); } else if (vstorage->estimated_compaction_needed_bytes() >= mutable_cf_options.soft_pending_compaction_bytes_limit / 4) { // Increase compaction threads if bytes needed for compaction exceeds // 1/4 of threshold for slowing down. // If soft pending compaction byte limit is not set, always speed up // compaction. write_controller_token_ = write_controller->GetCompactionPressureToken(); if (mutable_cf_options.soft_pending_compaction_bytes_limit > 0) { ROCKS_LOG_INFO( ioptions_.info_log, "[%s] Increasing compaction threads because of estimated pending " "compaction " "bytes %" PRIu64, name_.c_str(), vstorage->estimated_compaction_needed_bytes()); } } else { write_controller_token_.reset(); } // If the DB recovers from delay conditions, we reward with reducing // double the slowdown ratio. This is to balance the long term slowdown // increase signal. if (needed_delay) { uint64_t write_rate = write_controller->delayed_write_rate(); write_controller->set_delayed_write_rate(static_cast( static_cast(write_rate) * kDelayRecoverSlowdownRatio)); // Set the low pri limit to be 1/4 the delayed write rate. // Note we don't reset this value even after delay condition is relased. // Low-pri rate will continue to apply if there is a compaction // pressure. write_controller->low_pri_rate_limiter()->SetBytesPerSecond(write_rate / 4); } } prev_compaction_needed_bytes_ = compaction_needed_bytes; } return write_stall_condition; } const EnvOptions* ColumnFamilyData::soptions() const { return &(column_family_set_->env_options_); } void ColumnFamilyData::SetCurrent(Version* current_version) { current_ = current_version; } uint64_t ColumnFamilyData::GetNumLiveVersions() const { return VersionSet::GetNumLiveVersions(dummy_versions_); } uint64_t ColumnFamilyData::GetTotalSstFilesSize() const { return VersionSet::GetTotalSstFilesSize(dummy_versions_); } uint64_t ColumnFamilyData::GetLiveSstFilesSize() const { return current_->GetSstFilesSize(); } MemTable* ColumnFamilyData::ConstructNewMemtable( const MutableCFOptions& mutable_cf_options, SequenceNumber earliest_seq) { return new MemTable(internal_comparator_, ioptions_, mutable_cf_options, write_buffer_manager_, earliest_seq, id_); } void ColumnFamilyData::CreateNewMemtable( const MutableCFOptions& mutable_cf_options, SequenceNumber earliest_seq) { if (mem_ != nullptr) { delete mem_->Unref(); } SetMemtable(ConstructNewMemtable(mutable_cf_options, earliest_seq)); mem_->Ref(); } bool ColumnFamilyData::NeedsCompaction() const { return compaction_picker_->NeedsCompaction(current_->storage_info()); } Compaction* ColumnFamilyData::PickCompaction( const MutableCFOptions& mutable_options, LogBuffer* log_buffer) { auto* result = compaction_picker_->PickCompaction( GetName(), mutable_options, current_->storage_info(), log_buffer); if (result != nullptr) { result->SetInputVersion(current_); } return result; } bool ColumnFamilyData::RangeOverlapWithCompaction( const Slice& smallest_user_key, const Slice& largest_user_key, int level) const { return compaction_picker_->RangeOverlapWithCompaction( smallest_user_key, largest_user_key, level); } Status ColumnFamilyData::RangesOverlapWithMemtables( const autovector& ranges, SuperVersion* super_version, bool* overlap) { assert(overlap != nullptr); *overlap = false; // Create an InternalIterator over all unflushed memtables Arena arena; ReadOptions read_opts; read_opts.total_order_seek = true; MergeIteratorBuilder merge_iter_builder(&internal_comparator_, &arena); merge_iter_builder.AddIterator( super_version->mem->NewIterator(read_opts, &arena)); super_version->imm->AddIterators(read_opts, &merge_iter_builder); ScopedArenaIterator memtable_iter(merge_iter_builder.Finish()); std::vector memtable_range_del_iters; auto* active_range_del_iter = super_version->mem->NewRangeTombstoneIterator(read_opts); if (active_range_del_iter != nullptr) { memtable_range_del_iters.push_back(active_range_del_iter); } super_version->imm->AddRangeTombstoneIterators(read_opts, &memtable_range_del_iters); RangeDelAggregator range_del_agg(internal_comparator_, {} /* snapshots */, false /* collapse_deletions */); Status status; { std::unique_ptr memtable_range_del_iter( NewMergingIterator(&internal_comparator_, memtable_range_del_iters.empty() ? nullptr : &memtable_range_del_iters[0], static_cast(memtable_range_del_iters.size()))); status = range_del_agg.AddTombstones(std::move(memtable_range_del_iter)); } for (size_t i = 0; i < ranges.size() && status.ok() && !*overlap; ++i) { auto* vstorage = super_version->current->storage_info(); auto* ucmp = vstorage->InternalComparator()->user_comparator(); InternalKey range_start(ranges[i].start, kMaxSequenceNumber, kValueTypeForSeek); memtable_iter->Seek(range_start.Encode()); status = memtable_iter->status(); ParsedInternalKey seek_result; if (status.ok()) { if (memtable_iter->Valid() && !ParseInternalKey(memtable_iter->key(), &seek_result)) { status = Status::Corruption("DB have corrupted keys"); } } if (status.ok()) { if (memtable_iter->Valid() && ucmp->Compare(seek_result.user_key, ranges[i].limit) <= 0) { *overlap = true; } else if (range_del_agg.IsRangeOverlapped(ranges[i].start, ranges[i].limit)) { *overlap = true; } } } return status; } const int ColumnFamilyData::kCompactAllLevels = -1; const int ColumnFamilyData::kCompactToBaseLevel = -2; Compaction* ColumnFamilyData::CompactRange( const MutableCFOptions& mutable_cf_options, int input_level, int output_level, uint32_t output_path_id, uint32_t max_subcompactions, const InternalKey* begin, const InternalKey* end, InternalKey** compaction_end, bool* conflict) { auto* result = compaction_picker_->CompactRange( GetName(), mutable_cf_options, current_->storage_info(), input_level, output_level, output_path_id, max_subcompactions, begin, end, compaction_end, conflict); if (result != nullptr) { result->SetInputVersion(current_); } return result; } SuperVersion* ColumnFamilyData::GetReferencedSuperVersion( InstrumentedMutex* db_mutex) { SuperVersion* sv = GetThreadLocalSuperVersion(db_mutex); sv->Ref(); if (!ReturnThreadLocalSuperVersion(sv)) { // This Unref() corresponds to the Ref() in GetThreadLocalSuperVersion() // when the thread-local pointer was populated. So, the Ref() earlier in // this function still prevents the returned SuperVersion* from being // deleted out from under the caller. sv->Unref(); } return sv; } SuperVersion* ColumnFamilyData::GetThreadLocalSuperVersion( InstrumentedMutex* db_mutex) { // The SuperVersion is cached in thread local storage to avoid acquiring // mutex when SuperVersion does not change since the last use. When a new // SuperVersion is installed, the compaction or flush thread cleans up // cached SuperVersion in all existing thread local storage. To avoid // acquiring mutex for this operation, we use atomic Swap() on the thread // local pointer to guarantee exclusive access. If the thread local pointer // is being used while a new SuperVersion is installed, the cached // SuperVersion can become stale. In that case, the background thread would // have swapped in kSVObsolete. We re-check the value at when returning // SuperVersion back to thread local, with an atomic compare and swap. // The superversion will need to be released if detected to be stale. void* ptr = local_sv_->Swap(SuperVersion::kSVInUse); // Invariant: // (1) Scrape (always) installs kSVObsolete in ThreadLocal storage // (2) the Swap above (always) installs kSVInUse, ThreadLocal storage // should only keep kSVInUse before ReturnThreadLocalSuperVersion call // (if no Scrape happens). assert(ptr != SuperVersion::kSVInUse); SuperVersion* sv = static_cast(ptr); if (sv == SuperVersion::kSVObsolete || sv->version_number != super_version_number_.load()) { RecordTick(ioptions_.statistics, NUMBER_SUPERVERSION_ACQUIRES); SuperVersion* sv_to_delete = nullptr; if (sv && sv->Unref()) { RecordTick(ioptions_.statistics, NUMBER_SUPERVERSION_CLEANUPS); db_mutex->Lock(); // NOTE: underlying resources held by superversion (sst files) might // not be released until the next background job. sv->Cleanup(); sv_to_delete = sv; } else { db_mutex->Lock(); } sv = super_version_->Ref(); db_mutex->Unlock(); delete sv_to_delete; } assert(sv != nullptr); return sv; } bool ColumnFamilyData::ReturnThreadLocalSuperVersion(SuperVersion* sv) { assert(sv != nullptr); // Put the SuperVersion back void* expected = SuperVersion::kSVInUse; if (local_sv_->CompareAndSwap(static_cast(sv), expected)) { // When we see kSVInUse in the ThreadLocal, we are sure ThreadLocal // storage has not been altered and no Scrape has happened. The // SuperVersion is still current. return true; } else { // ThreadLocal scrape happened in the process of this GetImpl call (after // thread local Swap() at the beginning and before CompareAndSwap()). // This means the SuperVersion it holds is obsolete. assert(expected == SuperVersion::kSVObsolete); } return false; } void ColumnFamilyData::InstallSuperVersion( SuperVersionContext* sv_context, InstrumentedMutex* db_mutex) { db_mutex->AssertHeld(); return InstallSuperVersion(sv_context, db_mutex, mutable_cf_options_); } void ColumnFamilyData::InstallSuperVersion( SuperVersionContext* sv_context, InstrumentedMutex* db_mutex, const MutableCFOptions& mutable_cf_options) { SuperVersion* new_superversion = sv_context->new_superversion.release(); new_superversion->db_mutex = db_mutex; new_superversion->mutable_cf_options = mutable_cf_options; new_superversion->Init(mem_, imm_.current(), current_); SuperVersion* old_superversion = super_version_; super_version_ = new_superversion; ++super_version_number_; super_version_->version_number = super_version_number_; super_version_->write_stall_condition = RecalculateWriteStallConditions(mutable_cf_options); if (old_superversion != nullptr) { // Reset SuperVersions cached in thread local storage. // This should be done before old_superversion->Unref(). That's to ensure // that local_sv_ never holds the last reference to SuperVersion, since // it has no means to safely do SuperVersion cleanup. ResetThreadLocalSuperVersions(); if (old_superversion->mutable_cf_options.write_buffer_size != mutable_cf_options.write_buffer_size) { mem_->UpdateWriteBufferSize(mutable_cf_options.write_buffer_size); } if (old_superversion->write_stall_condition != new_superversion->write_stall_condition) { sv_context->PushWriteStallNotification( old_superversion->write_stall_condition, new_superversion->write_stall_condition, GetName(), ioptions()); } if (old_superversion->Unref()) { old_superversion->Cleanup(); sv_context->superversions_to_free.push_back(old_superversion); } } } void ColumnFamilyData::ResetThreadLocalSuperVersions() { autovector sv_ptrs; local_sv_->Scrape(&sv_ptrs, SuperVersion::kSVObsolete); for (auto ptr : sv_ptrs) { assert(ptr); if (ptr == SuperVersion::kSVInUse) { continue; } auto sv = static_cast(ptr); bool was_last_ref __attribute__((__unused__)); was_last_ref = sv->Unref(); // sv couldn't have been the last reference because // ResetThreadLocalSuperVersions() is called before // unref'ing super_version_. assert(!was_last_ref); } } #ifndef ROCKSDB_LITE Status ColumnFamilyData::SetOptions( const std::unordered_map& options_map) { MutableCFOptions new_mutable_cf_options; Status s = GetMutableOptionsFromStrings(mutable_cf_options_, options_map, ioptions_.info_log, &new_mutable_cf_options); if (s.ok()) { mutable_cf_options_ = new_mutable_cf_options; mutable_cf_options_.RefreshDerivedOptions(ioptions_); } return s; } #endif // ROCKSDB_LITE // REQUIRES: DB mutex held Env::WriteLifeTimeHint ColumnFamilyData::CalculateSSTWriteHint(int level) { if (initial_cf_options_.compaction_style != kCompactionStyleLevel) { return Env::WLTH_NOT_SET; } if (level == 0) { return Env::WLTH_MEDIUM; } int base_level = current_->storage_info()->base_level(); // L1: medium, L2: long, ... if (level - base_level >= 2) { return Env::WLTH_EXTREME; } return static_cast(level - base_level + static_cast(Env::WLTH_MEDIUM)); } Status ColumnFamilyData::AddDirectories() { Status s; assert(data_dirs_.empty()); for (auto& p : ioptions_.cf_paths) { std::unique_ptr path_directory; s = DBImpl::CreateAndNewDirectory(ioptions_.env, p.path, &path_directory); if (!s.ok()) { return s; } assert(path_directory != nullptr); data_dirs_.emplace_back(path_directory.release()); } assert(data_dirs_.size() == ioptions_.cf_paths.size()); return s; } Directory* ColumnFamilyData::GetDataDir(size_t path_id) const { if (data_dirs_.empty()) { return nullptr; } assert(path_id < data_dirs_.size()); return data_dirs_[path_id].get(); } ColumnFamilySet::ColumnFamilySet(const std::string& dbname, const ImmutableDBOptions* db_options, const EnvOptions& env_options, Cache* table_cache, WriteBufferManager* write_buffer_manager, WriteController* write_controller) : max_column_family_(0), dummy_cfd_(new ColumnFamilyData(0, "", nullptr, nullptr, nullptr, ColumnFamilyOptions(), *db_options, env_options, nullptr)), default_cfd_cache_(nullptr), db_name_(dbname), db_options_(db_options), env_options_(env_options), table_cache_(table_cache), write_buffer_manager_(write_buffer_manager), write_controller_(write_controller) { // initialize linked list dummy_cfd_->prev_ = dummy_cfd_; dummy_cfd_->next_ = dummy_cfd_; } ColumnFamilySet::~ColumnFamilySet() { while (column_family_data_.size() > 0) { // cfd destructor will delete itself from column_family_data_ auto cfd = column_family_data_.begin()->second; bool last_ref __attribute__((__unused__)); last_ref = cfd->Unref(); assert(last_ref); delete cfd; } bool dummy_last_ref __attribute__((__unused__)); dummy_last_ref = dummy_cfd_->Unref(); assert(dummy_last_ref); delete dummy_cfd_; } ColumnFamilyData* ColumnFamilySet::GetDefault() const { assert(default_cfd_cache_ != nullptr); return default_cfd_cache_; } ColumnFamilyData* ColumnFamilySet::GetColumnFamily(uint32_t id) const { auto cfd_iter = column_family_data_.find(id); if (cfd_iter != column_family_data_.end()) { return cfd_iter->second; } else { return nullptr; } } ColumnFamilyData* ColumnFamilySet::GetColumnFamily(const std::string& name) const { auto cfd_iter = column_families_.find(name); if (cfd_iter != column_families_.end()) { auto cfd = GetColumnFamily(cfd_iter->second); assert(cfd != nullptr); return cfd; } else { return nullptr; } } uint32_t ColumnFamilySet::GetNextColumnFamilyID() { return ++max_column_family_; } uint32_t ColumnFamilySet::GetMaxColumnFamily() { return max_column_family_; } void ColumnFamilySet::UpdateMaxColumnFamily(uint32_t new_max_column_family) { max_column_family_ = std::max(new_max_column_family, max_column_family_); } size_t ColumnFamilySet::NumberOfColumnFamilies() const { return column_families_.size(); } // under a DB mutex AND write thread ColumnFamilyData* ColumnFamilySet::CreateColumnFamily( const std::string& name, uint32_t id, Version* dummy_versions, const ColumnFamilyOptions& options) { assert(column_families_.find(name) == column_families_.end()); ColumnFamilyData* new_cfd = new ColumnFamilyData( id, name, dummy_versions, table_cache_, write_buffer_manager_, options, *db_options_, env_options_, this); column_families_.insert({name, id}); column_family_data_.insert({id, new_cfd}); max_column_family_ = std::max(max_column_family_, id); // add to linked list new_cfd->next_ = dummy_cfd_; auto prev = dummy_cfd_->prev_; new_cfd->prev_ = prev; prev->next_ = new_cfd; dummy_cfd_->prev_ = new_cfd; if (id == 0) { default_cfd_cache_ = new_cfd; } return new_cfd; } // REQUIRES: DB mutex held void ColumnFamilySet::FreeDeadColumnFamilies() { autovector to_delete; for (auto cfd = dummy_cfd_->next_; cfd != dummy_cfd_; cfd = cfd->next_) { if (cfd->refs_.load(std::memory_order_relaxed) == 0) { to_delete.push_back(cfd); } } for (auto cfd : to_delete) { // this is very rare, so it's not a problem that we do it under a mutex delete cfd; } } // under a DB mutex AND from a write thread void ColumnFamilySet::RemoveColumnFamily(ColumnFamilyData* cfd) { auto cfd_iter = column_family_data_.find(cfd->GetID()); assert(cfd_iter != column_family_data_.end()); column_family_data_.erase(cfd_iter); column_families_.erase(cfd->GetName()); } // under a DB mutex OR from a write thread bool ColumnFamilyMemTablesImpl::Seek(uint32_t column_family_id) { if (column_family_id == 0) { // optimization for common case current_ = column_family_set_->GetDefault(); } else { current_ = column_family_set_->GetColumnFamily(column_family_id); } handle_.SetCFD(current_); return current_ != nullptr; } uint64_t ColumnFamilyMemTablesImpl::GetLogNumber() const { assert(current_ != nullptr); return current_->GetLogNumber(); } MemTable* ColumnFamilyMemTablesImpl::GetMemTable() const { assert(current_ != nullptr); return current_->mem(); } ColumnFamilyHandle* ColumnFamilyMemTablesImpl::GetColumnFamilyHandle() { assert(current_ != nullptr); return &handle_; } uint32_t GetColumnFamilyID(ColumnFamilyHandle* column_family) { uint32_t column_family_id = 0; if (column_family != nullptr) { auto cfh = reinterpret_cast(column_family); column_family_id = cfh->GetID(); } return column_family_id; } const Comparator* GetColumnFamilyUserComparator( ColumnFamilyHandle* column_family) { if (column_family != nullptr) { return column_family->GetComparator(); } return nullptr; } } // namespace rocksdb rocksdb-5.17.2/db/column_family.h000066400000000000000000000605131337235545400166510ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #include #include #include #include #include "db/memtable_list.h" #include "db/table_cache.h" #include "db/table_properties_collector.h" #include "db/write_batch_internal.h" #include "db/write_controller.h" #include "options/cf_options.h" #include "rocksdb/compaction_job_stats.h" #include "rocksdb/db.h" #include "rocksdb/env.h" #include "rocksdb/options.h" #include "util/thread_local.h" namespace rocksdb { class Version; class VersionSet; class VersionStorageInfo; class MemTable; class MemTableListVersion; class CompactionPicker; class Compaction; class InternalKey; class InternalStats; class ColumnFamilyData; class DBImpl; class LogBuffer; class InstrumentedMutex; class InstrumentedMutexLock; struct SuperVersionContext; extern const double kIncSlowdownRatio; // ColumnFamilyHandleImpl is the class that clients use to access different // column families. It has non-trivial destructor, which gets called when client // is done using the column family class ColumnFamilyHandleImpl : public ColumnFamilyHandle { public: // create while holding the mutex ColumnFamilyHandleImpl( ColumnFamilyData* cfd, DBImpl* db, InstrumentedMutex* mutex); // destroy without mutex virtual ~ColumnFamilyHandleImpl(); virtual ColumnFamilyData* cfd() const { return cfd_; } virtual uint32_t GetID() const override; virtual const std::string& GetName() const override; virtual Status GetDescriptor(ColumnFamilyDescriptor* desc) override; virtual const Comparator* GetComparator() const override; private: ColumnFamilyData* cfd_; DBImpl* db_; InstrumentedMutex* mutex_; }; // Does not ref-count ColumnFamilyData // We use this dummy ColumnFamilyHandleImpl because sometimes MemTableInserter // calls DBImpl methods. When this happens, MemTableInserter need access to // ColumnFamilyHandle (same as the client would need). In that case, we feed // MemTableInserter dummy ColumnFamilyHandle and enable it to call DBImpl // methods class ColumnFamilyHandleInternal : public ColumnFamilyHandleImpl { public: ColumnFamilyHandleInternal() : ColumnFamilyHandleImpl(nullptr, nullptr, nullptr), internal_cfd_(nullptr) {} void SetCFD(ColumnFamilyData* _cfd) { internal_cfd_ = _cfd; } virtual ColumnFamilyData* cfd() const override { return internal_cfd_; } private: ColumnFamilyData* internal_cfd_; }; // holds references to memtable, all immutable memtables and version struct SuperVersion { // Accessing members of this class is not thread-safe and requires external // synchronization (ie db mutex held or on write thread). MemTable* mem; MemTableListVersion* imm; Version* current; MutableCFOptions mutable_cf_options; // Version number of the current SuperVersion uint64_t version_number; WriteStallCondition write_stall_condition; InstrumentedMutex* db_mutex; // should be called outside the mutex SuperVersion() = default; ~SuperVersion(); SuperVersion* Ref(); // If Unref() returns true, Cleanup() should be called with mutex held // before deleting this SuperVersion. bool Unref(); // call these two methods with db mutex held // Cleanup unrefs mem, imm and current. Also, it stores all memtables // that needs to be deleted in to_delete vector. Unrefing those // objects needs to be done in the mutex void Cleanup(); void Init(MemTable* new_mem, MemTableListVersion* new_imm, Version* new_current); // The value of dummy is not actually used. kSVInUse takes its address as a // mark in the thread local storage to indicate the SuperVersion is in use // by thread. This way, the value of kSVInUse is guaranteed to have no // conflict with SuperVersion object address and portable on different // platform. static int dummy; static void* const kSVInUse; static void* const kSVObsolete; private: std::atomic refs; // We need to_delete because during Cleanup(), imm->Unref() returns // all memtables that we need to free through this vector. We then // delete all those memtables outside of mutex, during destruction autovector to_delete; }; extern Status CheckCompressionSupported(const ColumnFamilyOptions& cf_options); extern Status CheckConcurrentWritesSupported( const ColumnFamilyOptions& cf_options); extern Status CheckCFPathsSupported(const DBOptions& db_options, const ColumnFamilyOptions& cf_options); extern ColumnFamilyOptions SanitizeOptions(const ImmutableDBOptions& db_options, const ColumnFamilyOptions& src); // Wrap user defined table proproties collector factories `from cf_options` // into internal ones in int_tbl_prop_collector_factories. Add a system internal // one too. extern void GetIntTblPropCollectorFactory( const ImmutableCFOptions& ioptions, std::vector>* int_tbl_prop_collector_factories); class ColumnFamilySet; // This class keeps all the data that a column family needs. // Most methods require DB mutex held, unless otherwise noted class ColumnFamilyData { public: ~ColumnFamilyData(); // thread-safe uint32_t GetID() const { return id_; } // thread-safe const std::string& GetName() const { return name_; } // Ref() can only be called from a context where the caller can guarantee // that ColumnFamilyData is alive (while holding a non-zero ref already, // holding a DB mutex, or as the leader in a write batch group). void Ref() { refs_.fetch_add(1, std::memory_order_relaxed); } // Unref decreases the reference count, but does not handle deletion // when the count goes to 0. If this method returns true then the // caller should delete the instance immediately, or later, by calling // FreeDeadColumnFamilies(). Unref() can only be called while holding // a DB mutex, or during single-threaded recovery. bool Unref() { int old_refs = refs_.fetch_sub(1, std::memory_order_relaxed); assert(old_refs > 0); return old_refs == 1; } // SetDropped() can only be called under following conditions: // 1) Holding a DB mutex, // 2) from single-threaded write thread, AND // 3) from single-threaded VersionSet::LogAndApply() // After dropping column family no other operation on that column family // will be executed. All the files and memory will be, however, kept around // until client drops the column family handle. That way, client can still // access data from dropped column family. // Column family can be dropped and still alive. In that state: // *) Compaction and flush is not executed on the dropped column family. // *) Client can continue reading from column family. Writes will fail unless // WriteOptions::ignore_missing_column_families is true // When the dropped column family is unreferenced, then we: // *) Remove column family from the linked list maintained by ColumnFamilySet // *) delete all memory associated with that column family // *) delete all the files associated with that column family void SetDropped(); bool IsDropped() const { return dropped_.load(std::memory_order_relaxed); } // thread-safe int NumberLevels() const { return ioptions_.num_levels; } void SetLogNumber(uint64_t log_number) { log_number_ = log_number; } uint64_t GetLogNumber() const { return log_number_; } void SetFlushReason(FlushReason flush_reason) { flush_reason_ = flush_reason; } FlushReason GetFlushReason() const { return flush_reason_; } // thread-safe const EnvOptions* soptions() const; const ImmutableCFOptions* ioptions() const { return &ioptions_; } // REQUIRES: DB mutex held // This returns the MutableCFOptions used by current SuperVersion // You should use this API to reference MutableCFOptions most of the time. const MutableCFOptions* GetCurrentMutableCFOptions() const { return &(super_version_->mutable_cf_options); } // REQUIRES: DB mutex held // This returns the latest MutableCFOptions, which may be not in effect yet. const MutableCFOptions* GetLatestMutableCFOptions() const { return &mutable_cf_options_; } // REQUIRES: DB mutex held // Build ColumnFamiliesOptions with immutable options and latest mutable // options. ColumnFamilyOptions GetLatestCFOptions() const; bool is_delete_range_supported() { return is_delete_range_supported_; } #ifndef ROCKSDB_LITE // REQUIRES: DB mutex held Status SetOptions( const std::unordered_map& options_map); #endif // ROCKSDB_LITE InternalStats* internal_stats() { return internal_stats_.get(); } MemTableList* imm() { return &imm_; } MemTable* mem() { return mem_; } Version* current() { return current_; } Version* dummy_versions() { return dummy_versions_; } void SetCurrent(Version* _current); uint64_t GetNumLiveVersions() const; // REQUIRE: DB mutex held uint64_t GetTotalSstFilesSize() const; // REQUIRE: DB mutex held uint64_t GetLiveSstFilesSize() const; // REQUIRE: DB mutex held void SetMemtable(MemTable* new_mem) { uint64_t memtable_id = last_memtable_id_.fetch_add(1) + 1; new_mem->SetID(memtable_id); mem_ = new_mem; } // calculate the oldest log needed for the durability of this column family uint64_t OldestLogToKeep(); // See Memtable constructor for explanation of earliest_seq param. MemTable* ConstructNewMemtable(const MutableCFOptions& mutable_cf_options, SequenceNumber earliest_seq); void CreateNewMemtable(const MutableCFOptions& mutable_cf_options, SequenceNumber earliest_seq); TableCache* table_cache() const { return table_cache_.get(); } // See documentation in compaction_picker.h // REQUIRES: DB mutex held bool NeedsCompaction() const; // REQUIRES: DB mutex held Compaction* PickCompaction(const MutableCFOptions& mutable_options, LogBuffer* log_buffer); // Check if the passed range overlap with any running compactions. // REQUIRES: DB mutex held bool RangeOverlapWithCompaction(const Slice& smallest_user_key, const Slice& largest_user_key, int level) const; // Check if the passed ranges overlap with any unflushed memtables // (immutable or mutable). // // @param super_version A referenced SuperVersion that will be held for the // duration of this function. // // Thread-safe Status RangesOverlapWithMemtables(const autovector& ranges, SuperVersion* super_version, bool* overlap); // A flag to tell a manual compaction is to compact all levels together // instead of a specific level. static const int kCompactAllLevels; // A flag to tell a manual compaction's output is base level. static const int kCompactToBaseLevel; // REQUIRES: DB mutex held Compaction* CompactRange(const MutableCFOptions& mutable_cf_options, int input_level, int output_level, uint32_t output_path_id, uint32_t max_subcompactions, const InternalKey* begin, const InternalKey* end, InternalKey** compaction_end, bool* manual_conflict); CompactionPicker* compaction_picker() { return compaction_picker_.get(); } // thread-safe const Comparator* user_comparator() const { return internal_comparator_.user_comparator(); } // thread-safe const InternalKeyComparator& internal_comparator() const { return internal_comparator_; } const std::vector>* int_tbl_prop_collector_factories() const { return &int_tbl_prop_collector_factories_; } SuperVersion* GetSuperVersion() { return super_version_; } // thread-safe // Return a already referenced SuperVersion to be used safely. SuperVersion* GetReferencedSuperVersion(InstrumentedMutex* db_mutex); // thread-safe // Get SuperVersion stored in thread local storage. If it does not exist, // get a reference from a current SuperVersion. SuperVersion* GetThreadLocalSuperVersion(InstrumentedMutex* db_mutex); // Try to return SuperVersion back to thread local storage. Retrun true on // success and false on failure. It fails when the thread local storage // contains anything other than SuperVersion::kSVInUse flag. bool ReturnThreadLocalSuperVersion(SuperVersion* sv); // thread-safe uint64_t GetSuperVersionNumber() const { return super_version_number_.load(); } // will return a pointer to SuperVersion* if previous SuperVersion // if its reference count is zero and needs deletion or nullptr if not // As argument takes a pointer to allocated SuperVersion to enable // the clients to allocate SuperVersion outside of mutex. // IMPORTANT: Only call this from DBImpl::InstallSuperVersion() void InstallSuperVersion(SuperVersionContext* sv_context, InstrumentedMutex* db_mutex, const MutableCFOptions& mutable_cf_options); void InstallSuperVersion(SuperVersionContext* sv_context, InstrumentedMutex* db_mutex); void ResetThreadLocalSuperVersions(); // Protected by DB mutex void set_queued_for_flush(bool value) { queued_for_flush_ = value; } void set_queued_for_compaction(bool value) { queued_for_compaction_ = value; } bool queued_for_flush() { return queued_for_flush_; } bool queued_for_compaction() { return queued_for_compaction_; } enum class WriteStallCause { kNone, kMemtableLimit, kL0FileCountLimit, kPendingCompactionBytes, }; static std::pair GetWriteStallConditionAndCause(int num_unflushed_memtables, int num_l0_files, uint64_t num_compaction_needed_bytes, const MutableCFOptions& mutable_cf_options); // Recalculate some small conditions, which are changed only during // compaction, adding new memtable and/or // recalculation of compaction score. These values are used in // DBImpl::MakeRoomForWrite function to decide, if it need to make // a write stall WriteStallCondition RecalculateWriteStallConditions( const MutableCFOptions& mutable_cf_options); void set_initialized() { initialized_.store(true); } bool initialized() const { return initialized_.load(); } const ColumnFamilyOptions& initial_cf_options() { return initial_cf_options_; } Env::WriteLifeTimeHint CalculateSSTWriteHint(int level); Status AddDirectories(); Directory* GetDataDir(size_t path_id) const; private: friend class ColumnFamilySet; ColumnFamilyData(uint32_t id, const std::string& name, Version* dummy_versions, Cache* table_cache, WriteBufferManager* write_buffer_manager, const ColumnFamilyOptions& options, const ImmutableDBOptions& db_options, const EnvOptions& env_options, ColumnFamilySet* column_family_set); uint32_t id_; const std::string name_; Version* dummy_versions_; // Head of circular doubly-linked list of versions. Version* current_; // == dummy_versions->prev_ std::atomic refs_; // outstanding references to ColumnFamilyData std::atomic initialized_; std::atomic dropped_; // true if client dropped it const InternalKeyComparator internal_comparator_; std::vector> int_tbl_prop_collector_factories_; const ColumnFamilyOptions initial_cf_options_; const ImmutableCFOptions ioptions_; MutableCFOptions mutable_cf_options_; const bool is_delete_range_supported_; std::unique_ptr table_cache_; std::unique_ptr internal_stats_; WriteBufferManager* write_buffer_manager_; MemTable* mem_; MemTableList imm_; SuperVersion* super_version_; // An ordinal representing the current SuperVersion. Updated by // InstallSuperVersion(), i.e. incremented every time super_version_ // changes. std::atomic super_version_number_; // Thread's local copy of SuperVersion pointer // This needs to be destructed before mutex_ std::unique_ptr local_sv_; // pointers for a circular linked list. we use it to support iterations over // all column families that are alive (note: dropped column families can also // be alive as long as client holds a reference) ColumnFamilyData* next_; ColumnFamilyData* prev_; // This is the earliest log file number that contains data from this // Column Family. All earlier log files must be ignored and not // recovered from uint64_t log_number_; std::atomic flush_reason_; // An object that keeps all the compaction stats // and picks the next compaction std::unique_ptr compaction_picker_; ColumnFamilySet* column_family_set_; std::unique_ptr write_controller_token_; // If true --> this ColumnFamily is currently present in DBImpl::flush_queue_ bool queued_for_flush_; // If true --> this ColumnFamily is currently present in // DBImpl::compaction_queue_ bool queued_for_compaction_; uint64_t prev_compaction_needed_bytes_; // if the database was opened with 2pc enabled bool allow_2pc_; // Memtable id to track flush. std::atomic last_memtable_id_; // Directories corresponding to cf_paths. std::vector> data_dirs_; }; // ColumnFamilySet has interesting thread-safety requirements // * CreateColumnFamily() or RemoveColumnFamily() -- need to be protected by DB // mutex AND executed in the write thread. // CreateColumnFamily() should ONLY be called from VersionSet::LogAndApply() AND // single-threaded write thread. It is also called during Recovery and in // DumpManifest(). // RemoveColumnFamily() is only called from SetDropped(). DB mutex needs to be // held and it needs to be executed from the write thread. SetDropped() also // guarantees that it will be called only from single-threaded LogAndApply(), // but this condition is not that important. // * Iteration -- hold DB mutex, but you can release it in the body of // iteration. If you release DB mutex in body, reference the column // family before the mutex and unreference after you unlock, since the column // family might get dropped when the DB mutex is released // * GetDefault() -- thread safe // * GetColumnFamily() -- either inside of DB mutex or from a write thread // * GetNextColumnFamilyID(), GetMaxColumnFamily(), UpdateMaxColumnFamily(), // NumberOfColumnFamilies -- inside of DB mutex class ColumnFamilySet { public: // ColumnFamilySet supports iteration class iterator { public: explicit iterator(ColumnFamilyData* cfd) : current_(cfd) {} iterator& operator++() { // dropped column families might still be included in this iteration // (we're only removing them when client drops the last reference to the // column family). // dummy is never dead, so this will never be infinite do { current_ = current_->next_; } while (current_->refs_.load(std::memory_order_relaxed) == 0); return *this; } bool operator!=(const iterator& other) { return this->current_ != other.current_; } ColumnFamilyData* operator*() { return current_; } private: ColumnFamilyData* current_; }; ColumnFamilySet(const std::string& dbname, const ImmutableDBOptions* db_options, const EnvOptions& env_options, Cache* table_cache, WriteBufferManager* write_buffer_manager, WriteController* write_controller); ~ColumnFamilySet(); ColumnFamilyData* GetDefault() const; // GetColumnFamily() calls return nullptr if column family is not found ColumnFamilyData* GetColumnFamily(uint32_t id) const; ColumnFamilyData* GetColumnFamily(const std::string& name) const; // this call will return the next available column family ID. it guarantees // that there is no column family with id greater than or equal to the // returned value in the current running instance or anytime in RocksDB // instance history. uint32_t GetNextColumnFamilyID(); uint32_t GetMaxColumnFamily(); void UpdateMaxColumnFamily(uint32_t new_max_column_family); size_t NumberOfColumnFamilies() const; ColumnFamilyData* CreateColumnFamily(const std::string& name, uint32_t id, Version* dummy_version, const ColumnFamilyOptions& options); iterator begin() { return iterator(dummy_cfd_->next_); } iterator end() { return iterator(dummy_cfd_); } // REQUIRES: DB mutex held // Don't call while iterating over ColumnFamilySet void FreeDeadColumnFamilies(); Cache* get_table_cache() { return table_cache_; } private: friend class ColumnFamilyData; // helper function that gets called from cfd destructor // REQUIRES: DB mutex held void RemoveColumnFamily(ColumnFamilyData* cfd); // column_families_ and column_family_data_ need to be protected: // * when mutating both conditions have to be satisfied: // 1. DB mutex locked // 2. thread currently in single-threaded write thread // * when reading, at least one condition needs to be satisfied: // 1. DB mutex locked // 2. accessed from a single-threaded write thread std::unordered_map column_families_; std::unordered_map column_family_data_; uint32_t max_column_family_; ColumnFamilyData* dummy_cfd_; // We don't hold the refcount here, since default column family always exists // We are also not responsible for cleaning up default_cfd_cache_. This is // just a cache that makes common case (accessing default column family) // faster ColumnFamilyData* default_cfd_cache_; const std::string db_name_; const ImmutableDBOptions* const db_options_; const EnvOptions env_options_; Cache* table_cache_; WriteBufferManager* write_buffer_manager_; WriteController* write_controller_; }; // We use ColumnFamilyMemTablesImpl to provide WriteBatch a way to access // memtables of different column families (specified by ID in the write batch) class ColumnFamilyMemTablesImpl : public ColumnFamilyMemTables { public: explicit ColumnFamilyMemTablesImpl(ColumnFamilySet* column_family_set) : column_family_set_(column_family_set), current_(nullptr) {} // Constructs a ColumnFamilyMemTablesImpl equivalent to one constructed // with the arguments used to construct *orig. explicit ColumnFamilyMemTablesImpl(ColumnFamilyMemTablesImpl* orig) : column_family_set_(orig->column_family_set_), current_(nullptr) {} // sets current_ to ColumnFamilyData with column_family_id // returns false if column family doesn't exist // REQUIRES: use this function of DBImpl::column_family_memtables_ should be // under a DB mutex OR from a write thread bool Seek(uint32_t column_family_id) override; // Returns log number of the selected column family // REQUIRES: under a DB mutex OR from a write thread uint64_t GetLogNumber() const override; // REQUIRES: Seek() called first // REQUIRES: use this function of DBImpl::column_family_memtables_ should be // under a DB mutex OR from a write thread virtual MemTable* GetMemTable() const override; // Returns column family handle for the selected column family // REQUIRES: use this function of DBImpl::column_family_memtables_ should be // under a DB mutex OR from a write thread virtual ColumnFamilyHandle* GetColumnFamilyHandle() override; // Cannot be called while another thread is calling Seek(). // REQUIRES: use this function of DBImpl::column_family_memtables_ should be // under a DB mutex OR from a write thread virtual ColumnFamilyData* current() override { return current_; } private: ColumnFamilySet* column_family_set_; ColumnFamilyData* current_; ColumnFamilyHandleInternal handle_; }; extern uint32_t GetColumnFamilyID(ColumnFamilyHandle* column_family); extern const Comparator* GetColumnFamilyUserComparator( ColumnFamilyHandle* column_family); } // namespace rocksdb rocksdb-5.17.2/db/column_family_test.cc000066400000000000000000003342261337235545400200530ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include #include #include #include #include "db/db_impl.h" #include "db/db_test_util.h" #include "options/options_parser.h" #include "port/port.h" #include "rocksdb/db.h" #include "rocksdb/env.h" #include "rocksdb/iterator.h" #include "util/coding.h" #include "util/fault_injection_test_env.h" #include "util/string_util.h" #include "util/sync_point.h" #include "util/testharness.h" #include "util/testutil.h" #include "utilities/merge_operators.h" namespace rocksdb { static const int kValueSize = 1000; namespace { std::string RandomString(Random* rnd, int len) { std::string r; test::RandomString(rnd, len, &r); return r; } } // anonymous namespace // counts how many operations were performed class EnvCounter : public EnvWrapper { public: explicit EnvCounter(Env* base) : EnvWrapper(base), num_new_writable_file_(0) {} int GetNumberOfNewWritableFileCalls() { return num_new_writable_file_; } Status NewWritableFile(const std::string& f, unique_ptr* r, const EnvOptions& soptions) override { ++num_new_writable_file_; return EnvWrapper::NewWritableFile(f, r, soptions); } private: std::atomic num_new_writable_file_; }; class ColumnFamilyTestBase : public testing::Test { public: ColumnFamilyTestBase(uint32_t format) : rnd_(139), format_(format) { env_ = new EnvCounter(Env::Default()); dbname_ = test::PerThreadDBPath("column_family_test"); db_options_.create_if_missing = true; db_options_.fail_if_options_file_error = true; db_options_.env = env_; DestroyDB(dbname_, Options(db_options_, column_family_options_)); } virtual ~ColumnFamilyTestBase() { std::vector column_families; for (auto h : handles_) { ColumnFamilyDescriptor cfdescriptor; h->GetDescriptor(&cfdescriptor); column_families.push_back(cfdescriptor); } Close(); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); Destroy(column_families); delete env_; } BlockBasedTableOptions GetBlockBasedTableOptions() { BlockBasedTableOptions options; options.format_version = format_; return options; } // Return the value to associate with the specified key Slice Value(int k, std::string* storage) { if (k == 0) { // Ugh. Random seed of 0 used to produce no entropy. This code // preserves the implementation that was in place when all of the // magic values in this file were picked. *storage = std::string(kValueSize, ' '); return Slice(*storage); } else { Random r(k); return test::RandomString(&r, kValueSize, storage); } } void Build(int base, int n, int flush_every = 0) { std::string key_space, value_space; WriteBatch batch; for (int i = 0; i < n; i++) { if (flush_every != 0 && i != 0 && i % flush_every == 0) { DBImpl* dbi = reinterpret_cast(db_); dbi->TEST_FlushMemTable(); } int keyi = base + i; Slice key(DBTestBase::Key(keyi)); batch.Clear(); batch.Put(handles_[0], key, Value(keyi, &value_space)); batch.Put(handles_[1], key, Value(keyi, &value_space)); batch.Put(handles_[2], key, Value(keyi, &value_space)); ASSERT_OK(db_->Write(WriteOptions(), &batch)); } } void CheckMissed() { uint64_t next_expected = 0; uint64_t missed = 0; int bad_keys = 0; int bad_values = 0; int correct = 0; std::string value_space; for (int cf = 0; cf < 3; cf++) { next_expected = 0; Iterator* iter = db_->NewIterator(ReadOptions(false, true), handles_[cf]); for (iter->SeekToFirst(); iter->Valid(); iter->Next()) { uint64_t key; Slice in(iter->key()); in.remove_prefix(3); if (!ConsumeDecimalNumber(&in, &key) || !in.empty() || key < next_expected) { bad_keys++; continue; } missed += (key - next_expected); next_expected = key + 1; if (iter->value() != Value(static_cast(key), &value_space)) { bad_values++; } else { correct++; } } delete iter; } ASSERT_EQ(0, bad_keys); ASSERT_EQ(0, bad_values); ASSERT_EQ(0, missed); (void)correct; } void Close() { for (auto h : handles_) { if (h) { db_->DestroyColumnFamilyHandle(h); } } handles_.clear(); names_.clear(); delete db_; db_ = nullptr; } Status TryOpen(std::vector cf, std::vector options = {}) { std::vector column_families; names_.clear(); for (size_t i = 0; i < cf.size(); ++i) { column_families.push_back(ColumnFamilyDescriptor( cf[i], options.size() == 0 ? column_family_options_ : options[i])); names_.push_back(cf[i]); } return DB::Open(db_options_, dbname_, column_families, &handles_, &db_); } Status OpenReadOnly(std::vector cf, std::vector options = {}) { std::vector column_families; names_.clear(); for (size_t i = 0; i < cf.size(); ++i) { column_families.push_back(ColumnFamilyDescriptor( cf[i], options.size() == 0 ? column_family_options_ : options[i])); names_.push_back(cf[i]); } return DB::OpenForReadOnly(db_options_, dbname_, column_families, &handles_, &db_); } #ifndef ROCKSDB_LITE // ReadOnlyDB is not supported void AssertOpenReadOnly(std::vector cf, std::vector options = {}) { ASSERT_OK(OpenReadOnly(cf, options)); } #endif // !ROCKSDB_LITE void Open(std::vector cf, std::vector options = {}) { ASSERT_OK(TryOpen(cf, options)); } void Open() { Open({"default"}); } DBImpl* dbfull() { return reinterpret_cast(db_); } int GetProperty(int cf, std::string property) { std::string value; EXPECT_TRUE(dbfull()->GetProperty(handles_[cf], property, &value)); #ifndef CYGWIN return std::stoi(value); #else return std::strtol(value.c_str(), 0 /* off */, 10 /* base */); #endif } bool IsDbWriteStopped() { #ifndef ROCKSDB_LITE uint64_t v; EXPECT_TRUE(dbfull()->GetIntProperty("rocksdb.is-write-stopped", &v)); return (v == 1); #else return dbfull()->TEST_write_controler().IsStopped(); #endif // !ROCKSDB_LITE } uint64_t GetDbDelayedWriteRate() { #ifndef ROCKSDB_LITE uint64_t v; EXPECT_TRUE( dbfull()->GetIntProperty("rocksdb.actual-delayed-write-rate", &v)); return v; #else if (!dbfull()->TEST_write_controler().NeedsDelay()) { return 0; } return dbfull()->TEST_write_controler().delayed_write_rate(); #endif // !ROCKSDB_LITE } void Destroy(const std::vector& column_families = std::vector()) { Close(); ASSERT_OK(DestroyDB(dbname_, Options(db_options_, column_family_options_), column_families)); } void CreateColumnFamilies( const std::vector& cfs, const std::vector options = {}) { int cfi = static_cast(handles_.size()); handles_.resize(cfi + cfs.size()); names_.resize(cfi + cfs.size()); for (size_t i = 0; i < cfs.size(); ++i) { const auto& current_cf_opt = options.size() == 0 ? column_family_options_ : options[i]; ASSERT_OK( db_->CreateColumnFamily(current_cf_opt, cfs[i], &handles_[cfi])); names_[cfi] = cfs[i]; #ifndef ROCKSDB_LITE // RocksDBLite does not support GetDescriptor // Verify the CF options of the returned CF handle. ColumnFamilyDescriptor desc; ASSERT_OK(handles_[cfi]->GetDescriptor(&desc)); RocksDBOptionsParser::VerifyCFOptions(desc.options, current_cf_opt); #endif // !ROCKSDB_LITE cfi++; } } void Reopen(const std::vector options = {}) { std::vector names; for (auto name : names_) { if (name != "") { names.push_back(name); } } Close(); assert(options.size() == 0 || names.size() == options.size()); Open(names, options); } void CreateColumnFamiliesAndReopen(const std::vector& cfs) { CreateColumnFamilies(cfs); Reopen(); } void DropColumnFamilies(const std::vector& cfs) { for (auto cf : cfs) { ASSERT_OK(db_->DropColumnFamily(handles_[cf])); db_->DestroyColumnFamilyHandle(handles_[cf]); handles_[cf] = nullptr; names_[cf] = ""; } } void PutRandomData(int cf, int num, int key_value_size, bool save = false) { if (cf >= static_cast(keys_.size())) { keys_.resize(cf + 1); } for (int i = 0; i < num; ++i) { // 10 bytes for key, rest is value if (!save) { ASSERT_OK(Put(cf, test::RandomKey(&rnd_, 11), RandomString(&rnd_, key_value_size - 10))); } else { std::string key = test::RandomKey(&rnd_, 11); keys_[cf].insert(key); ASSERT_OK(Put(cf, key, RandomString(&rnd_, key_value_size - 10))); } } db_->FlushWAL(false); } #ifndef ROCKSDB_LITE // TEST functions in DB are not supported in lite void WaitForFlush(int cf) { ASSERT_OK(dbfull()->TEST_WaitForFlushMemTable(handles_[cf])); } void WaitForCompaction() { ASSERT_OK(dbfull()->TEST_WaitForCompact()); } uint64_t MaxTotalInMemoryState() { return dbfull()->TEST_MaxTotalInMemoryState(); } void AssertMaxTotalInMemoryState(uint64_t value) { ASSERT_EQ(value, MaxTotalInMemoryState()); } #endif // !ROCKSDB_LITE Status Put(int cf, const std::string& key, const std::string& value) { return db_->Put(WriteOptions(), handles_[cf], Slice(key), Slice(value)); } Status Merge(int cf, const std::string& key, const std::string& value) { return db_->Merge(WriteOptions(), handles_[cf], Slice(key), Slice(value)); } Status Flush(int cf) { return db_->Flush(FlushOptions(), handles_[cf]); } std::string Get(int cf, const std::string& key) { ReadOptions options; options.verify_checksums = true; std::string result; Status s = db_->Get(options, handles_[cf], Slice(key), &result); if (s.IsNotFound()) { result = "NOT_FOUND"; } else if (!s.ok()) { result = s.ToString(); } return result; } void CompactAll(int cf) { ASSERT_OK(db_->CompactRange(CompactRangeOptions(), handles_[cf], nullptr, nullptr)); } void Compact(int cf, const Slice& start, const Slice& limit) { ASSERT_OK( db_->CompactRange(CompactRangeOptions(), handles_[cf], &start, &limit)); } int NumTableFilesAtLevel(int level, int cf) { return GetProperty(cf, "rocksdb.num-files-at-level" + ToString(level)); } #ifndef ROCKSDB_LITE // Return spread of files per level std::string FilesPerLevel(int cf) { std::string result; int last_non_zero_offset = 0; for (int level = 0; level < dbfull()->NumberLevels(handles_[cf]); level++) { int f = NumTableFilesAtLevel(level, cf); char buf[100]; snprintf(buf, sizeof(buf), "%s%d", (level ? "," : ""), f); result += buf; if (f > 0) { last_non_zero_offset = static_cast(result.size()); } } result.resize(last_non_zero_offset); return result; } #endif void AssertFilesPerLevel(const std::string& value, int cf) { #ifndef ROCKSDB_LITE ASSERT_EQ(value, FilesPerLevel(cf)); #else (void) value; (void) cf; #endif } #ifndef ROCKSDB_LITE // GetLiveFilesMetaData is not supported int CountLiveFiles() { std::vector metadata; db_->GetLiveFilesMetaData(&metadata); return static_cast(metadata.size()); } #endif // !ROCKSDB_LITE void AssertCountLiveFiles(int expected_value) { #ifndef ROCKSDB_LITE ASSERT_EQ(expected_value, CountLiveFiles()); #else (void) expected_value; #endif } // Do n memtable flushes, each of which produces an sstable // covering the range [small,large]. void MakeTables(int cf, int n, const std::string& small, const std::string& large) { for (int i = 0; i < n; i++) { ASSERT_OK(Put(cf, small, "begin")); ASSERT_OK(Put(cf, large, "end")); ASSERT_OK(db_->Flush(FlushOptions(), handles_[cf])); } } #ifndef ROCKSDB_LITE // GetSortedWalFiles is not supported int CountLiveLogFiles() { int micros_wait_for_log_deletion = 20000; env_->SleepForMicroseconds(micros_wait_for_log_deletion); int ret = 0; VectorLogPtr wal_files; Status s; // GetSortedWalFiles is a flakey function -- it gets all the wal_dir // children files and then later checks for their existence. if some of the // log files doesn't exist anymore, it reports an error. it does all of this // without DB mutex held, so if a background process deletes the log file // while the function is being executed, it returns an error. We retry the // function 10 times to avoid the error failing the test for (int retries = 0; retries < 10; ++retries) { wal_files.clear(); s = db_->GetSortedWalFiles(wal_files); if (s.ok()) { break; } } EXPECT_OK(s); for (const auto& wal : wal_files) { if (wal->Type() == kAliveLogFile) { ++ret; } } return ret; return 0; } #endif // !ROCKSDB_LITE void AssertCountLiveLogFiles(int value) { #ifndef ROCKSDB_LITE // GetSortedWalFiles is not supported ASSERT_EQ(value, CountLiveLogFiles()); #else (void) value; #endif // !ROCKSDB_LITE } void AssertNumberOfImmutableMemtables(std::vector num_per_cf) { assert(num_per_cf.size() == handles_.size()); #ifndef ROCKSDB_LITE // GetProperty is not supported in lite for (size_t i = 0; i < num_per_cf.size(); ++i) { ASSERT_EQ(num_per_cf[i], GetProperty(static_cast(i), "rocksdb.num-immutable-mem-table")); } #endif // !ROCKSDB_LITE } void CopyFile(const std::string& source, const std::string& destination, uint64_t size = 0) { const EnvOptions soptions; unique_ptr srcfile; ASSERT_OK(env_->NewSequentialFile(source, &srcfile, soptions)); unique_ptr destfile; ASSERT_OK(env_->NewWritableFile(destination, &destfile, soptions)); if (size == 0) { // default argument means copy everything ASSERT_OK(env_->GetFileSize(source, &size)); } char buffer[4096]; Slice slice; while (size > 0) { uint64_t one = std::min(uint64_t(sizeof(buffer)), size); ASSERT_OK(srcfile->Read(one, &slice, buffer)); ASSERT_OK(destfile->Append(slice)); size -= slice.size(); } ASSERT_OK(destfile->Close()); } int GetSstFileCount(std::string path) { std::vector files; DBTestBase::GetSstFiles(env_, path, &files); return static_cast(files.size()); } std::vector handles_; std::vector names_; std::vector> keys_; ColumnFamilyOptions column_family_options_; DBOptions db_options_; std::string dbname_; DB* db_ = nullptr; EnvCounter* env_; Random rnd_; uint32_t format_; }; class ColumnFamilyTest : public ColumnFamilyTestBase, virtual public ::testing::WithParamInterface { public: ColumnFamilyTest() : ColumnFamilyTestBase(GetParam()) {} }; INSTANTIATE_TEST_CASE_P(FormatDef, ColumnFamilyTest, testing::Values(test::kDefaultFormatVersion)); INSTANTIATE_TEST_CASE_P(FormatLatest, ColumnFamilyTest, testing::Values(test::kLatestFormatVersion)); TEST_P(ColumnFamilyTest, DontReuseColumnFamilyID) { for (int iter = 0; iter < 3; ++iter) { Open(); CreateColumnFamilies({"one", "two", "three"}); for (size_t i = 0; i < handles_.size(); ++i) { auto cfh = reinterpret_cast(handles_[i]); ASSERT_EQ(i, cfh->GetID()); } if (iter == 1) { Reopen(); } DropColumnFamilies({3}); Reopen(); if (iter == 2) { // this tests if max_column_family is correctly persisted with // WriteSnapshot() Reopen(); } CreateColumnFamilies({"three2"}); // ID 3 that was used for dropped column family "three" should not be // reused auto cfh3 = reinterpret_cast(handles_[3]); ASSERT_EQ(4U, cfh3->GetID()); Close(); Destroy(); } } #ifndef ROCKSDB_LITE TEST_P(ColumnFamilyTest, CreateCFRaceWithGetAggProperty) { Open(); rocksdb::SyncPoint::GetInstance()->LoadDependency( {{"DBImpl::WriteOptionsFile:1", "ColumnFamilyTest.CreateCFRaceWithGetAggProperty:1"}, {"ColumnFamilyTest.CreateCFRaceWithGetAggProperty:2", "DBImpl::WriteOptionsFile:2"}}); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); rocksdb::port::Thread thread([&] { CreateColumnFamilies({"one"}); }); TEST_SYNC_POINT("ColumnFamilyTest.CreateCFRaceWithGetAggProperty:1"); uint64_t pv; db_->GetAggregatedIntProperty(DB::Properties::kEstimateTableReadersMem, &pv); TEST_SYNC_POINT("ColumnFamilyTest.CreateCFRaceWithGetAggProperty:2"); thread.join(); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); } #endif // !ROCKSDB_LITE class FlushEmptyCFTestWithParam : public ColumnFamilyTestBase, virtual public testing::WithParamInterface> { public: FlushEmptyCFTestWithParam() : ColumnFamilyTestBase(std::get<0>(GetParam())), allow_2pc_(std::get<1>(GetParam())) {} // Required if inheriting from testing::WithParamInterface<> static void SetUpTestCase() {} static void TearDownTestCase() {} bool allow_2pc_; }; TEST_P(FlushEmptyCFTestWithParam, FlushEmptyCFTest) { std::unique_ptr fault_env( new FaultInjectionTestEnv(env_)); db_options_.env = fault_env.get(); db_options_.allow_2pc = allow_2pc_; Open(); CreateColumnFamilies({"one", "two"}); // Generate log file A. ASSERT_OK(Put(1, "foo", "v1")); // seqID 1 Reopen(); // Log file A is not dropped after reopening because default column family's // min log number is 0. // It flushes to SST file X ASSERT_OK(Put(1, "foo", "v1")); // seqID 2 ASSERT_OK(Put(1, "bar", "v2")); // seqID 3 // Current log file is file B now. While flushing, a new log file C is created // and is set to current. Boths' min log number is set to file C in memory, so // after flushing file B is deleted. At the same time, the min log number of // default CF is not written to manifest. Log file A still remains. // Flushed to SST file Y. Flush(1); Flush(0); ASSERT_OK(Put(1, "bar", "v3")); // seqID 4 ASSERT_OK(Put(1, "foo", "v4")); // seqID 5 db_->FlushWAL(false); // Preserve file system state up to here to simulate a crash condition. fault_env->SetFilesystemActive(false); std::vector names; for (auto name : names_) { if (name != "") { names.push_back(name); } } Close(); fault_env->ResetState(); // Before opening, there are four files: // Log file A contains seqID 1 // Log file C contains seqID 4, 5 // SST file X contains seqID 1 // SST file Y contains seqID 2, 3 // Min log number: // default CF: 0 // CF one, two: C // When opening the DB, all the seqID should be preserved. Open(names, {}); ASSERT_EQ("v4", Get(1, "foo")); ASSERT_EQ("v3", Get(1, "bar")); Close(); db_options_.env = env_; } TEST_P(FlushEmptyCFTestWithParam, FlushEmptyCFTest2) { std::unique_ptr fault_env( new FaultInjectionTestEnv(env_)); db_options_.env = fault_env.get(); db_options_.allow_2pc = allow_2pc_; Open(); CreateColumnFamilies({"one", "two"}); // Generate log file A. ASSERT_OK(Put(1, "foo", "v1")); // seqID 1 Reopen(); // Log file A is not dropped after reopening because default column family's // min log number is 0. // It flushes to SST file X ASSERT_OK(Put(1, "foo", "v1")); // seqID 2 ASSERT_OK(Put(1, "bar", "v2")); // seqID 3 // Current log file is file B now. While flushing, a new log file C is created // and is set to current. Both CFs' min log number is set to file C so after // flushing file B is deleted. Log file A still remains. // Flushed to SST file Y. Flush(1); ASSERT_OK(Put(0, "bar", "v2")); // seqID 4 ASSERT_OK(Put(2, "bar", "v2")); // seqID 5 ASSERT_OK(Put(1, "bar", "v3")); // seqID 6 // Flushing all column families. This forces all CFs' min log to current. This // is written to the manifest file. Log file C is cleared. Flush(0); Flush(1); Flush(2); // Write to log file D ASSERT_OK(Put(1, "bar", "v4")); // seqID 7 ASSERT_OK(Put(1, "bar", "v5")); // seqID 8 db_->FlushWAL(false); // Preserve file system state up to here to simulate a crash condition. fault_env->SetFilesystemActive(false); std::vector names; for (auto name : names_) { if (name != "") { names.push_back(name); } } Close(); fault_env->ResetState(); // Before opening, there are two logfiles: // Log file A contains seqID 1 // Log file D contains seqID 7, 8 // Min log number: // default CF: D // CF one, two: D // When opening the DB, log file D should be replayed using the seqID // specified in the file. Open(names, {}); ASSERT_EQ("v1", Get(1, "foo")); ASSERT_EQ("v5", Get(1, "bar")); Close(); db_options_.env = env_; } INSTANTIATE_TEST_CASE_P( FormatDef, FlushEmptyCFTestWithParam, testing::Values(std::make_tuple(test::kDefaultFormatVersion, true), std::make_tuple(test::kDefaultFormatVersion, false))); INSTANTIATE_TEST_CASE_P( FormatLatest, FlushEmptyCFTestWithParam, testing::Values(std::make_tuple(test::kLatestFormatVersion, true), std::make_tuple(test::kLatestFormatVersion, false))); TEST_P(ColumnFamilyTest, AddDrop) { Open(); CreateColumnFamilies({"one", "two", "three"}); ASSERT_EQ("NOT_FOUND", Get(1, "fodor")); ASSERT_EQ("NOT_FOUND", Get(2, "fodor")); DropColumnFamilies({2}); ASSERT_EQ("NOT_FOUND", Get(1, "fodor")); CreateColumnFamilies({"four"}); ASSERT_EQ("NOT_FOUND", Get(3, "fodor")); ASSERT_OK(Put(1, "fodor", "mirko")); ASSERT_EQ("mirko", Get(1, "fodor")); ASSERT_EQ("NOT_FOUND", Get(3, "fodor")); Close(); ASSERT_TRUE(TryOpen({"default"}).IsInvalidArgument()); Open({"default", "one", "three", "four"}); DropColumnFamilies({1}); Reopen(); Close(); std::vector families; ASSERT_OK(DB::ListColumnFamilies(db_options_, dbname_, &families)); std::sort(families.begin(), families.end()); ASSERT_TRUE(families == std::vector({"default", "four", "three"})); } TEST_P(ColumnFamilyTest, BulkAddDrop) { constexpr int kNumCF = 1000; ColumnFamilyOptions cf_options; WriteOptions write_options; Open(); std::vector cf_names; std::vector cf_handles; for (int i = 1; i <= kNumCF; i++) { cf_names.push_back("cf1-" + ToString(i)); } ASSERT_OK(db_->CreateColumnFamilies(cf_options, cf_names, &cf_handles)); for (int i = 1; i <= kNumCF; i++) { ASSERT_OK(db_->Put(write_options, cf_handles[i - 1], "foo", "bar")); } ASSERT_OK(db_->DropColumnFamilies(cf_handles)); std::vector cf_descriptors; for (auto* handle : cf_handles) { delete handle; } cf_handles.clear(); for (int i = 1; i <= kNumCF; i++) { cf_descriptors.emplace_back("cf2-" + ToString(i), ColumnFamilyOptions()); } ASSERT_OK(db_->CreateColumnFamilies(cf_descriptors, &cf_handles)); for (int i = 1; i <= kNumCF; i++) { ASSERT_OK(db_->Put(write_options, cf_handles[i - 1], "foo", "bar")); } ASSERT_OK(db_->DropColumnFamilies(cf_handles)); for (auto* handle : cf_handles) { delete handle; } Close(); std::vector families; ASSERT_OK(DB::ListColumnFamilies(db_options_, dbname_, &families)); std::sort(families.begin(), families.end()); ASSERT_TRUE(families == std::vector({"default"})); } TEST_P(ColumnFamilyTest, DropTest) { // first iteration - dont reopen DB before dropping // second iteration - reopen DB before dropping for (int iter = 0; iter < 2; ++iter) { Open({"default"}); CreateColumnFamiliesAndReopen({"pikachu"}); for (int i = 0; i < 100; ++i) { ASSERT_OK(Put(1, ToString(i), "bar" + ToString(i))); } ASSERT_OK(Flush(1)); if (iter == 1) { Reopen(); } ASSERT_EQ("bar1", Get(1, "1")); AssertCountLiveFiles(1); DropColumnFamilies({1}); // make sure that all files are deleted when we drop the column family AssertCountLiveFiles(0); Destroy(); } } TEST_P(ColumnFamilyTest, WriteBatchFailure) { Open(); CreateColumnFamiliesAndReopen({"one", "two"}); WriteBatch batch; batch.Put(handles_[0], Slice("existing"), Slice("column-family")); batch.Put(handles_[1], Slice("non-existing"), Slice("column-family")); ASSERT_OK(db_->Write(WriteOptions(), &batch)); DropColumnFamilies({1}); WriteOptions woptions_ignore_missing_cf; woptions_ignore_missing_cf.ignore_missing_column_families = true; batch.Put(handles_[0], Slice("still here"), Slice("column-family")); ASSERT_OK(db_->Write(woptions_ignore_missing_cf, &batch)); ASSERT_EQ("column-family", Get(0, "still here")); Status s = db_->Write(WriteOptions(), &batch); ASSERT_TRUE(s.IsInvalidArgument()); Close(); } TEST_P(ColumnFamilyTest, ReadWrite) { Open(); CreateColumnFamiliesAndReopen({"one", "two"}); ASSERT_OK(Put(0, "foo", "v1")); ASSERT_OK(Put(0, "bar", "v2")); ASSERT_OK(Put(1, "mirko", "v3")); ASSERT_OK(Put(0, "foo", "v2")); ASSERT_OK(Put(2, "fodor", "v5")); for (int iter = 0; iter <= 3; ++iter) { ASSERT_EQ("v2", Get(0, "foo")); ASSERT_EQ("v2", Get(0, "bar")); ASSERT_EQ("v3", Get(1, "mirko")); ASSERT_EQ("v5", Get(2, "fodor")); ASSERT_EQ("NOT_FOUND", Get(0, "fodor")); ASSERT_EQ("NOT_FOUND", Get(1, "fodor")); ASSERT_EQ("NOT_FOUND", Get(2, "foo")); if (iter <= 1) { Reopen(); } } Close(); } TEST_P(ColumnFamilyTest, IgnoreRecoveredLog) { std::string backup_logs = dbname_ + "/backup_logs"; // delete old files in backup_logs directory ASSERT_OK(env_->CreateDirIfMissing(dbname_)); ASSERT_OK(env_->CreateDirIfMissing(backup_logs)); std::vector old_files; env_->GetChildren(backup_logs, &old_files); for (auto& file : old_files) { if (file != "." && file != "..") { env_->DeleteFile(backup_logs + "/" + file); } } column_family_options_.merge_operator = MergeOperators::CreateUInt64AddOperator(); db_options_.wal_dir = dbname_ + "/logs"; Destroy(); Open(); CreateColumnFamilies({"cf1", "cf2"}); // fill up the DB std::string one, two, three; PutFixed64(&one, 1); PutFixed64(&two, 2); PutFixed64(&three, 3); ASSERT_OK(Merge(0, "foo", one)); ASSERT_OK(Merge(1, "mirko", one)); ASSERT_OK(Merge(0, "foo", one)); ASSERT_OK(Merge(2, "bla", one)); ASSERT_OK(Merge(2, "fodor", one)); ASSERT_OK(Merge(0, "bar", one)); ASSERT_OK(Merge(2, "bla", one)); ASSERT_OK(Merge(1, "mirko", two)); ASSERT_OK(Merge(1, "franjo", one)); // copy the logs to backup std::vector logs; env_->GetChildren(db_options_.wal_dir, &logs); for (auto& log : logs) { if (log != ".." && log != ".") { CopyFile(db_options_.wal_dir + "/" + log, backup_logs + "/" + log); } } // recover the DB Close(); // 1. check consistency // 2. copy the logs from backup back to WAL dir. if the recovery happens // again on the same log files, this should lead to incorrect results // due to applying merge operator twice // 3. check consistency for (int iter = 0; iter < 2; ++iter) { // assert consistency Open({"default", "cf1", "cf2"}); ASSERT_EQ(two, Get(0, "foo")); ASSERT_EQ(one, Get(0, "bar")); ASSERT_EQ(three, Get(1, "mirko")); ASSERT_EQ(one, Get(1, "franjo")); ASSERT_EQ(one, Get(2, "fodor")); ASSERT_EQ(two, Get(2, "bla")); Close(); if (iter == 0) { // copy the logs from backup back to wal dir for (auto& log : logs) { if (log != ".." && log != ".") { CopyFile(backup_logs + "/" + log, db_options_.wal_dir + "/" + log); } } } } } #ifndef ROCKSDB_LITE // TEST functions used are not supported TEST_P(ColumnFamilyTest, FlushTest) { Open(); CreateColumnFamiliesAndReopen({"one", "two"}); ASSERT_OK(Put(0, "foo", "v1")); ASSERT_OK(Put(0, "bar", "v2")); ASSERT_OK(Put(1, "mirko", "v3")); ASSERT_OK(Put(0, "foo", "v2")); ASSERT_OK(Put(2, "fodor", "v5")); for (int j = 0; j < 2; j++) { ReadOptions ro; std::vector iterators; // Hold super version. if (j == 0) { ASSERT_OK(db_->NewIterators(ro, handles_, &iterators)); } for (int i = 0; i < 3; ++i) { uint64_t max_total_in_memory_state = MaxTotalInMemoryState(); Flush(i); AssertMaxTotalInMemoryState(max_total_in_memory_state); } ASSERT_OK(Put(1, "foofoo", "bar")); ASSERT_OK(Put(0, "foofoo", "bar")); for (auto* it : iterators) { delete it; } } Reopen(); for (int iter = 0; iter <= 2; ++iter) { ASSERT_EQ("v2", Get(0, "foo")); ASSERT_EQ("v2", Get(0, "bar")); ASSERT_EQ("v3", Get(1, "mirko")); ASSERT_EQ("v5", Get(2, "fodor")); ASSERT_EQ("NOT_FOUND", Get(0, "fodor")); ASSERT_EQ("NOT_FOUND", Get(1, "fodor")); ASSERT_EQ("NOT_FOUND", Get(2, "foo")); if (iter <= 1) { Reopen(); } } Close(); } // Makes sure that obsolete log files get deleted TEST_P(ColumnFamilyTest, LogDeletionTest) { db_options_.max_total_wal_size = std::numeric_limits::max(); column_family_options_.arena_block_size = 4 * 1024; column_family_options_.write_buffer_size = 128000; // 128KB Open(); CreateColumnFamilies({"one", "two", "three", "four"}); // Each bracket is one log file. if number is in (), it means // we don't need it anymore (it's been flushed) // [] AssertCountLiveLogFiles(0); PutRandomData(0, 1, 128); // [0] PutRandomData(1, 1, 128); // [0, 1] PutRandomData(1, 1000, 128); WaitForFlush(1); // [0, (1)] [1] AssertCountLiveLogFiles(2); PutRandomData(0, 1, 128); // [0, (1)] [0, 1] AssertCountLiveLogFiles(2); PutRandomData(2, 1, 128); // [0, (1)] [0, 1, 2] PutRandomData(2, 1000, 128); WaitForFlush(2); // [0, (1)] [0, 1, (2)] [2] AssertCountLiveLogFiles(3); PutRandomData(2, 1000, 128); WaitForFlush(2); // [0, (1)] [0, 1, (2)] [(2)] [2] AssertCountLiveLogFiles(4); PutRandomData(3, 1, 128); // [0, (1)] [0, 1, (2)] [(2)] [2, 3] PutRandomData(1, 1, 128); // [0, (1)] [0, 1, (2)] [(2)] [1, 2, 3] AssertCountLiveLogFiles(4); PutRandomData(1, 1000, 128); WaitForFlush(1); // [0, (1)] [0, (1), (2)] [(2)] [(1), 2, 3] [1] AssertCountLiveLogFiles(5); PutRandomData(0, 1000, 128); WaitForFlush(0); // [(0), (1)] [(0), (1), (2)] [(2)] [(1), 2, 3] [1, (0)] [0] // delete obsolete logs --> // [(1), 2, 3] [1, (0)] [0] AssertCountLiveLogFiles(3); PutRandomData(0, 1000, 128); WaitForFlush(0); // [(1), 2, 3] [1, (0)], [(0)] [0] AssertCountLiveLogFiles(4); PutRandomData(1, 1000, 128); WaitForFlush(1); // [(1), 2, 3] [(1), (0)] [(0)] [0, (1)] [1] AssertCountLiveLogFiles(5); PutRandomData(2, 1000, 128); WaitForFlush(2); // [(1), (2), 3] [(1), (0)] [(0)] [0, (1)] [1, (2)], [2] AssertCountLiveLogFiles(6); PutRandomData(3, 1000, 128); WaitForFlush(3); // [(1), (2), (3)] [(1), (0)] [(0)] [0, (1)] [1, (2)], [2, (3)] [3] // delete obsolete logs --> // [0, (1)] [1, (2)], [2, (3)] [3] AssertCountLiveLogFiles(4); Close(); } #endif // !ROCKSDB_LITE TEST_P(ColumnFamilyTest, CrashAfterFlush) { std::unique_ptr fault_env( new FaultInjectionTestEnv(env_)); db_options_.env = fault_env.get(); Open(); CreateColumnFamilies({"one"}); WriteBatch batch; batch.Put(handles_[0], Slice("foo"), Slice("bar")); batch.Put(handles_[1], Slice("foo"), Slice("bar")); ASSERT_OK(db_->Write(WriteOptions(), &batch)); Flush(0); fault_env->SetFilesystemActive(false); std::vector names; for (auto name : names_) { if (name != "") { names.push_back(name); } } Close(); fault_env->DropUnsyncedFileData(); fault_env->ResetState(); Open(names, {}); // Write batch should be atomic. ASSERT_EQ(Get(0, "foo"), Get(1, "foo")); Close(); db_options_.env = env_; } TEST_P(ColumnFamilyTest, OpenNonexistentColumnFamily) { ASSERT_OK(TryOpen({"default"})); Close(); ASSERT_TRUE(TryOpen({"default", "dne"}).IsInvalidArgument()); } #ifndef ROCKSDB_LITE // WaitForFlush() is not supported // Makes sure that obsolete log files get deleted TEST_P(ColumnFamilyTest, DifferentWriteBufferSizes) { // disable flushing stale column families db_options_.max_total_wal_size = std::numeric_limits::max(); Open(); CreateColumnFamilies({"one", "two", "three"}); ColumnFamilyOptions default_cf, one, two, three; // setup options. all column families have max_write_buffer_number setup to 10 // "default" -> 100KB memtable, start flushing immediatelly // "one" -> 200KB memtable, start flushing with two immutable memtables // "two" -> 1MB memtable, start flushing with three immutable memtables // "three" -> 90KB memtable, start flushing with four immutable memtables default_cf.write_buffer_size = 100000; default_cf.arena_block_size = 4 * 4096; default_cf.max_write_buffer_number = 10; default_cf.min_write_buffer_number_to_merge = 1; default_cf.max_write_buffer_number_to_maintain = 0; one.write_buffer_size = 200000; one.arena_block_size = 4 * 4096; one.max_write_buffer_number = 10; one.min_write_buffer_number_to_merge = 2; one.max_write_buffer_number_to_maintain = 1; two.write_buffer_size = 1000000; two.arena_block_size = 4 * 4096; two.max_write_buffer_number = 10; two.min_write_buffer_number_to_merge = 3; two.max_write_buffer_number_to_maintain = 2; three.write_buffer_size = 4096 * 22; three.arena_block_size = 4096; three.max_write_buffer_number = 10; three.min_write_buffer_number_to_merge = 4; three.max_write_buffer_number_to_maintain = -1; Reopen({default_cf, one, two, three}); int micros_wait_for_flush = 10000; PutRandomData(0, 100, 1000); WaitForFlush(0); AssertNumberOfImmutableMemtables({0, 0, 0, 0}); AssertCountLiveLogFiles(1); PutRandomData(1, 200, 1000); env_->SleepForMicroseconds(micros_wait_for_flush); AssertNumberOfImmutableMemtables({0, 1, 0, 0}); AssertCountLiveLogFiles(2); PutRandomData(2, 1000, 1000); env_->SleepForMicroseconds(micros_wait_for_flush); AssertNumberOfImmutableMemtables({0, 1, 1, 0}); AssertCountLiveLogFiles(3); PutRandomData(2, 1000, 1000); env_->SleepForMicroseconds(micros_wait_for_flush); AssertNumberOfImmutableMemtables({0, 1, 2, 0}); AssertCountLiveLogFiles(4); PutRandomData(3, 93, 990); env_->SleepForMicroseconds(micros_wait_for_flush); AssertNumberOfImmutableMemtables({0, 1, 2, 1}); AssertCountLiveLogFiles(5); PutRandomData(3, 88, 990); env_->SleepForMicroseconds(micros_wait_for_flush); AssertNumberOfImmutableMemtables({0, 1, 2, 2}); AssertCountLiveLogFiles(6); PutRandomData(3, 88, 990); env_->SleepForMicroseconds(micros_wait_for_flush); AssertNumberOfImmutableMemtables({0, 1, 2, 3}); AssertCountLiveLogFiles(7); PutRandomData(0, 100, 1000); WaitForFlush(0); AssertNumberOfImmutableMemtables({0, 1, 2, 3}); AssertCountLiveLogFiles(8); PutRandomData(2, 100, 10000); WaitForFlush(2); AssertNumberOfImmutableMemtables({0, 1, 0, 3}); AssertCountLiveLogFiles(9); PutRandomData(3, 88, 990); WaitForFlush(3); AssertNumberOfImmutableMemtables({0, 1, 0, 0}); AssertCountLiveLogFiles(10); PutRandomData(3, 88, 990); env_->SleepForMicroseconds(micros_wait_for_flush); AssertNumberOfImmutableMemtables({0, 1, 0, 1}); AssertCountLiveLogFiles(11); PutRandomData(1, 200, 1000); WaitForFlush(1); AssertNumberOfImmutableMemtables({0, 0, 0, 1}); AssertCountLiveLogFiles(5); PutRandomData(3, 88 * 3, 990); WaitForFlush(3); PutRandomData(3, 88 * 4, 990); WaitForFlush(3); AssertNumberOfImmutableMemtables({0, 0, 0, 0}); AssertCountLiveLogFiles(12); PutRandomData(0, 100, 1000); WaitForFlush(0); AssertNumberOfImmutableMemtables({0, 0, 0, 0}); AssertCountLiveLogFiles(12); PutRandomData(2, 3 * 1000, 1000); WaitForFlush(2); AssertNumberOfImmutableMemtables({0, 0, 0, 0}); AssertCountLiveLogFiles(12); PutRandomData(1, 2*200, 1000); WaitForFlush(1); AssertNumberOfImmutableMemtables({0, 0, 0, 0}); AssertCountLiveLogFiles(7); Close(); } #endif // !ROCKSDB_LITE #ifndef ROCKSDB_LITE // Cuckoo is not supported in lite TEST_P(ColumnFamilyTest, MemtableNotSupportSnapshot) { db_options_.allow_concurrent_memtable_write = false; Open(); auto* s1 = dbfull()->GetSnapshot(); ASSERT_TRUE(s1 != nullptr); dbfull()->ReleaseSnapshot(s1); // Add a column family that doesn't support snapshot ColumnFamilyOptions first; first.memtable_factory.reset(NewHashCuckooRepFactory(1024 * 1024)); CreateColumnFamilies({"first"}, {first}); auto* s2 = dbfull()->GetSnapshot(); ASSERT_TRUE(s2 == nullptr); // Add a column family that supports snapshot. Snapshot stays not supported. ColumnFamilyOptions second; CreateColumnFamilies({"second"}, {second}); auto* s3 = dbfull()->GetSnapshot(); ASSERT_TRUE(s3 == nullptr); Close(); } #endif // !ROCKSDB_LITE class TestComparator : public Comparator { int Compare(const rocksdb::Slice& /*a*/, const rocksdb::Slice& /*b*/) const override { return 0; } const char* Name() const override { return "Test"; } void FindShortestSeparator(std::string* /*start*/, const rocksdb::Slice& /*limit*/) const override {} void FindShortSuccessor(std::string* /*key*/) const override {} }; static TestComparator third_comparator; static TestComparator fourth_comparator; // Test that we can retrieve the comparator from a created CF TEST_P(ColumnFamilyTest, GetComparator) { Open(); // Add a column family with no comparator specified CreateColumnFamilies({"first"}); const Comparator* comp = handles_[0]->GetComparator(); ASSERT_EQ(comp, BytewiseComparator()); // Add three column families - one with no comparator and two // with comparators specified ColumnFamilyOptions second, third, fourth; second.comparator = &third_comparator; third.comparator = &fourth_comparator; CreateColumnFamilies({"second", "third", "fourth"}, {second, third, fourth}); ASSERT_EQ(handles_[1]->GetComparator(), BytewiseComparator()); ASSERT_EQ(handles_[2]->GetComparator(), &third_comparator); ASSERT_EQ(handles_[3]->GetComparator(), &fourth_comparator); Close(); } TEST_P(ColumnFamilyTest, DifferentMergeOperators) { Open(); CreateColumnFamilies({"first", "second"}); ColumnFamilyOptions default_cf, first, second; first.merge_operator = MergeOperators::CreateUInt64AddOperator(); second.merge_operator = MergeOperators::CreateStringAppendOperator(); Reopen({default_cf, first, second}); std::string one, two, three; PutFixed64(&one, 1); PutFixed64(&two, 2); PutFixed64(&three, 3); ASSERT_OK(Put(0, "foo", two)); ASSERT_OK(Put(0, "foo", one)); ASSERT_TRUE(Merge(0, "foo", two).IsNotSupported()); ASSERT_EQ(Get(0, "foo"), one); ASSERT_OK(Put(1, "foo", two)); ASSERT_OK(Put(1, "foo", one)); ASSERT_OK(Merge(1, "foo", two)); ASSERT_EQ(Get(1, "foo"), three); ASSERT_OK(Put(2, "foo", two)); ASSERT_OK(Put(2, "foo", one)); ASSERT_OK(Merge(2, "foo", two)); ASSERT_EQ(Get(2, "foo"), one + "," + two); Close(); } #ifndef ROCKSDB_LITE // WaitForFlush() is not supported TEST_P(ColumnFamilyTest, DifferentCompactionStyles) { Open(); CreateColumnFamilies({"one", "two"}); ColumnFamilyOptions default_cf, one, two; db_options_.max_open_files = 20; // only 10 files in file cache default_cf.compaction_style = kCompactionStyleLevel; default_cf.num_levels = 3; default_cf.write_buffer_size = 64 << 10; // 64KB default_cf.target_file_size_base = 30 << 10; default_cf.max_compaction_bytes = static_cast(1) << 60; BlockBasedTableOptions table_options = GetBlockBasedTableOptions(); table_options.no_block_cache = true; default_cf.table_factory.reset(NewBlockBasedTableFactory(table_options)); one.compaction_style = kCompactionStyleUniversal; one.num_levels = 1; // trigger compaction if there are >= 4 files one.level0_file_num_compaction_trigger = 4; one.write_buffer_size = 120000; two.compaction_style = kCompactionStyleLevel; two.num_levels = 4; two.level0_file_num_compaction_trigger = 3; two.write_buffer_size = 100000; Reopen({default_cf, one, two}); // SETUP column family "one" -- universal style for (int i = 0; i < one.level0_file_num_compaction_trigger - 1; ++i) { PutRandomData(1, 10, 12000); PutRandomData(1, 1, 10); WaitForFlush(1); AssertFilesPerLevel(ToString(i + 1), 1); } // SETUP column family "two" -- level style with 4 levels for (int i = 0; i < two.level0_file_num_compaction_trigger - 1; ++i) { PutRandomData(2, 10, 12000); PutRandomData(2, 1, 10); WaitForFlush(2); AssertFilesPerLevel(ToString(i + 1), 2); } // TRIGGER compaction "one" PutRandomData(1, 10, 12000); PutRandomData(1, 1, 10); // TRIGGER compaction "two" PutRandomData(2, 10, 12000); PutRandomData(2, 1, 10); // WAIT for compactions WaitForCompaction(); // VERIFY compaction "one" AssertFilesPerLevel("1", 1); // VERIFY compaction "two" AssertFilesPerLevel("0,1", 2); CompactAll(2); AssertFilesPerLevel("0,1", 2); Close(); } #endif // !ROCKSDB_LITE #ifndef ROCKSDB_LITE // Sync points not supported in RocksDB Lite TEST_P(ColumnFamilyTest, MultipleManualCompactions) { Open(); CreateColumnFamilies({"one", "two"}); ColumnFamilyOptions default_cf, one, two; db_options_.max_open_files = 20; // only 10 files in file cache db_options_.max_background_compactions = 3; default_cf.compaction_style = kCompactionStyleLevel; default_cf.num_levels = 3; default_cf.write_buffer_size = 64 << 10; // 64KB default_cf.target_file_size_base = 30 << 10; default_cf.max_compaction_bytes = default_cf.target_file_size_base * 1100; BlockBasedTableOptions table_options = GetBlockBasedTableOptions(); table_options.no_block_cache = true; default_cf.table_factory.reset(NewBlockBasedTableFactory(table_options)); one.compaction_style = kCompactionStyleUniversal; one.num_levels = 1; // trigger compaction if there are >= 4 files one.level0_file_num_compaction_trigger = 4; one.write_buffer_size = 120000; two.compaction_style = kCompactionStyleLevel; two.num_levels = 4; two.level0_file_num_compaction_trigger = 3; two.write_buffer_size = 100000; Reopen({default_cf, one, two}); // SETUP column family "one" -- universal style for (int i = 0; i < one.level0_file_num_compaction_trigger - 2; ++i) { PutRandomData(1, 10, 12000, true); PutRandomData(1, 1, 10, true); WaitForFlush(1); AssertFilesPerLevel(ToString(i + 1), 1); } bool cf_1_1 = true; rocksdb::SyncPoint::GetInstance()->LoadDependency( {{"ColumnFamilyTest::MultiManual:4", "ColumnFamilyTest::MultiManual:1"}, {"ColumnFamilyTest::MultiManual:2", "ColumnFamilyTest::MultiManual:5"}, {"ColumnFamilyTest::MultiManual:2", "ColumnFamilyTest::MultiManual:3"}}); rocksdb::SyncPoint::GetInstance()->SetCallBack( "DBImpl::BackgroundCompaction:NonTrivial:AfterRun", [&](void* /*arg*/) { if (cf_1_1) { TEST_SYNC_POINT("ColumnFamilyTest::MultiManual:4"); cf_1_1 = false; TEST_SYNC_POINT("ColumnFamilyTest::MultiManual:3"); } }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); std::vector threads; threads.emplace_back([&] { CompactRangeOptions compact_options; compact_options.exclusive_manual_compaction = false; ASSERT_OK( db_->CompactRange(compact_options, handles_[1], nullptr, nullptr)); }); // SETUP column family "two" -- level style with 4 levels for (int i = 0; i < two.level0_file_num_compaction_trigger - 2; ++i) { PutRandomData(2, 10, 12000); PutRandomData(2, 1, 10); WaitForFlush(2); AssertFilesPerLevel(ToString(i + 1), 2); } threads.emplace_back([&] { TEST_SYNC_POINT("ColumnFamilyTest::MultiManual:1"); CompactRangeOptions compact_options; compact_options.exclusive_manual_compaction = false; ASSERT_OK( db_->CompactRange(compact_options, handles_[2], nullptr, nullptr)); TEST_SYNC_POINT("ColumnFamilyTest::MultiManual:2"); }); TEST_SYNC_POINT("ColumnFamilyTest::MultiManual:5"); for (auto& t : threads) { t.join(); } // VERIFY compaction "one" AssertFilesPerLevel("1", 1); // VERIFY compaction "two" AssertFilesPerLevel("0,1", 2); CompactAll(2); AssertFilesPerLevel("0,1", 2); // Compare against saved keys std::set::iterator key_iter = keys_[1].begin(); while (key_iter != keys_[1].end()) { ASSERT_NE("NOT_FOUND", Get(1, *key_iter)); key_iter++; } rocksdb::SyncPoint::GetInstance()->DisableProcessing(); rocksdb::SyncPoint::GetInstance()->ClearAllCallBacks(); Close(); } TEST_P(ColumnFamilyTest, AutomaticAndManualCompactions) { Open(); CreateColumnFamilies({"one", "two"}); ColumnFamilyOptions default_cf, one, two; db_options_.max_open_files = 20; // only 10 files in file cache db_options_.max_background_compactions = 3; default_cf.compaction_style = kCompactionStyleLevel; default_cf.num_levels = 3; default_cf.write_buffer_size = 64 << 10; // 64KB default_cf.target_file_size_base = 30 << 10; default_cf.max_compaction_bytes = default_cf.target_file_size_base * 1100; BlockBasedTableOptions table_options = GetBlockBasedTableOptions(); ; table_options.no_block_cache = true; default_cf.table_factory.reset(NewBlockBasedTableFactory(table_options)); one.compaction_style = kCompactionStyleUniversal; one.num_levels = 1; // trigger compaction if there are >= 4 files one.level0_file_num_compaction_trigger = 4; one.write_buffer_size = 120000; two.compaction_style = kCompactionStyleLevel; two.num_levels = 4; two.level0_file_num_compaction_trigger = 3; two.write_buffer_size = 100000; Reopen({default_cf, one, two}); // make sure all background compaction jobs can be scheduled auto stop_token = dbfull()->TEST_write_controler().GetCompactionPressureToken(); bool cf_1_1 = true; rocksdb::SyncPoint::GetInstance()->LoadDependency( {{"ColumnFamilyTest::AutoManual:4", "ColumnFamilyTest::AutoManual:1"}, {"ColumnFamilyTest::AutoManual:2", "ColumnFamilyTest::AutoManual:5"}, {"ColumnFamilyTest::AutoManual:2", "ColumnFamilyTest::AutoManual:3"}}); rocksdb::SyncPoint::GetInstance()->SetCallBack( "DBImpl::BackgroundCompaction:NonTrivial:AfterRun", [&](void* /*arg*/) { if (cf_1_1) { cf_1_1 = false; TEST_SYNC_POINT("ColumnFamilyTest::AutoManual:4"); TEST_SYNC_POINT("ColumnFamilyTest::AutoManual:3"); } }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); // SETUP column family "one" -- universal style for (int i = 0; i < one.level0_file_num_compaction_trigger; ++i) { PutRandomData(1, 10, 12000, true); PutRandomData(1, 1, 10, true); WaitForFlush(1); AssertFilesPerLevel(ToString(i + 1), 1); } TEST_SYNC_POINT("ColumnFamilyTest::AutoManual:1"); // SETUP column family "two" -- level style with 4 levels for (int i = 0; i < two.level0_file_num_compaction_trigger - 2; ++i) { PutRandomData(2, 10, 12000); PutRandomData(2, 1, 10); WaitForFlush(2); AssertFilesPerLevel(ToString(i + 1), 2); } rocksdb::port::Thread threads([&] { CompactRangeOptions compact_options; compact_options.exclusive_manual_compaction = false; ASSERT_OK( db_->CompactRange(compact_options, handles_[2], nullptr, nullptr)); TEST_SYNC_POINT("ColumnFamilyTest::AutoManual:2"); }); TEST_SYNC_POINT("ColumnFamilyTest::AutoManual:5"); threads.join(); // WAIT for compactions WaitForCompaction(); // VERIFY compaction "one" AssertFilesPerLevel("1", 1); // VERIFY compaction "two" AssertFilesPerLevel("0,1", 2); CompactAll(2); AssertFilesPerLevel("0,1", 2); // Compare against saved keys std::set::iterator key_iter = keys_[1].begin(); while (key_iter != keys_[1].end()) { ASSERT_NE("NOT_FOUND", Get(1, *key_iter)); key_iter++; } rocksdb::SyncPoint::GetInstance()->DisableProcessing(); rocksdb::SyncPoint::GetInstance()->ClearAllCallBacks(); } TEST_P(ColumnFamilyTest, ManualAndAutomaticCompactions) { Open(); CreateColumnFamilies({"one", "two"}); ColumnFamilyOptions default_cf, one, two; db_options_.max_open_files = 20; // only 10 files in file cache db_options_.max_background_compactions = 3; default_cf.compaction_style = kCompactionStyleLevel; default_cf.num_levels = 3; default_cf.write_buffer_size = 64 << 10; // 64KB default_cf.target_file_size_base = 30 << 10; default_cf.max_compaction_bytes = default_cf.target_file_size_base * 1100; BlockBasedTableOptions table_options = GetBlockBasedTableOptions(); ; table_options.no_block_cache = true; default_cf.table_factory.reset(NewBlockBasedTableFactory(table_options)); one.compaction_style = kCompactionStyleUniversal; one.num_levels = 1; // trigger compaction if there are >= 4 files one.level0_file_num_compaction_trigger = 4; one.write_buffer_size = 120000; two.compaction_style = kCompactionStyleLevel; two.num_levels = 4; two.level0_file_num_compaction_trigger = 3; two.write_buffer_size = 100000; Reopen({default_cf, one, two}); // make sure all background compaction jobs can be scheduled auto stop_token = dbfull()->TEST_write_controler().GetCompactionPressureToken(); // SETUP column family "one" -- universal style for (int i = 0; i < one.level0_file_num_compaction_trigger - 2; ++i) { PutRandomData(1, 10, 12000, true); PutRandomData(1, 1, 10, true); WaitForFlush(1); AssertFilesPerLevel(ToString(i + 1), 1); } bool cf_1_1 = true; bool cf_1_2 = true; rocksdb::SyncPoint::GetInstance()->LoadDependency( {{"ColumnFamilyTest::ManualAuto:4", "ColumnFamilyTest::ManualAuto:1"}, {"ColumnFamilyTest::ManualAuto:5", "ColumnFamilyTest::ManualAuto:2"}, {"ColumnFamilyTest::ManualAuto:2", "ColumnFamilyTest::ManualAuto:3"}}); rocksdb::SyncPoint::GetInstance()->SetCallBack( "DBImpl::BackgroundCompaction:NonTrivial:AfterRun", [&](void* /*arg*/) { if (cf_1_1) { TEST_SYNC_POINT("ColumnFamilyTest::ManualAuto:4"); cf_1_1 = false; TEST_SYNC_POINT("ColumnFamilyTest::ManualAuto:3"); } else if (cf_1_2) { TEST_SYNC_POINT("ColumnFamilyTest::ManualAuto:2"); cf_1_2 = false; } }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); rocksdb::port::Thread threads([&] { CompactRangeOptions compact_options; compact_options.exclusive_manual_compaction = false; ASSERT_OK( db_->CompactRange(compact_options, handles_[1], nullptr, nullptr)); }); TEST_SYNC_POINT("ColumnFamilyTest::ManualAuto:1"); // SETUP column family "two" -- level style with 4 levels for (int i = 0; i < two.level0_file_num_compaction_trigger; ++i) { PutRandomData(2, 10, 12000); PutRandomData(2, 1, 10); WaitForFlush(2); AssertFilesPerLevel(ToString(i + 1), 2); } TEST_SYNC_POINT("ColumnFamilyTest::ManualAuto:5"); threads.join(); // WAIT for compactions WaitForCompaction(); // VERIFY compaction "one" AssertFilesPerLevel("1", 1); // VERIFY compaction "two" AssertFilesPerLevel("0,1", 2); CompactAll(2); AssertFilesPerLevel("0,1", 2); // Compare against saved keys std::set::iterator key_iter = keys_[1].begin(); while (key_iter != keys_[1].end()) { ASSERT_NE("NOT_FOUND", Get(1, *key_iter)); key_iter++; } rocksdb::SyncPoint::GetInstance()->DisableProcessing(); rocksdb::SyncPoint::GetInstance()->ClearAllCallBacks(); } TEST_P(ColumnFamilyTest, SameCFManualManualCompactions) { Open(); CreateColumnFamilies({"one"}); ColumnFamilyOptions default_cf, one; db_options_.max_open_files = 20; // only 10 files in file cache db_options_.max_background_compactions = 3; default_cf.compaction_style = kCompactionStyleLevel; default_cf.num_levels = 3; default_cf.write_buffer_size = 64 << 10; // 64KB default_cf.target_file_size_base = 30 << 10; default_cf.max_compaction_bytes = default_cf.target_file_size_base * 1100; BlockBasedTableOptions table_options = GetBlockBasedTableOptions(); ; table_options.no_block_cache = true; default_cf.table_factory.reset(NewBlockBasedTableFactory(table_options)); one.compaction_style = kCompactionStyleUniversal; one.num_levels = 1; // trigger compaction if there are >= 4 files one.level0_file_num_compaction_trigger = 4; one.write_buffer_size = 120000; Reopen({default_cf, one}); // make sure all background compaction jobs can be scheduled auto stop_token = dbfull()->TEST_write_controler().GetCompactionPressureToken(); // SETUP column family "one" -- universal style for (int i = 0; i < one.level0_file_num_compaction_trigger - 2; ++i) { PutRandomData(1, 10, 12000, true); PutRandomData(1, 1, 10, true); WaitForFlush(1); AssertFilesPerLevel(ToString(i + 1), 1); } bool cf_1_1 = true; bool cf_1_2 = true; rocksdb::SyncPoint::GetInstance()->LoadDependency( {{"ColumnFamilyTest::ManualManual:4", "ColumnFamilyTest::ManualManual:2"}, {"ColumnFamilyTest::ManualManual:4", "ColumnFamilyTest::ManualManual:5"}, {"ColumnFamilyTest::ManualManual:1", "ColumnFamilyTest::ManualManual:2"}, {"ColumnFamilyTest::ManualManual:1", "ColumnFamilyTest::ManualManual:3"}}); rocksdb::SyncPoint::GetInstance()->SetCallBack( "DBImpl::BackgroundCompaction:NonTrivial:AfterRun", [&](void* /*arg*/) { if (cf_1_1) { TEST_SYNC_POINT("ColumnFamilyTest::ManualManual:4"); cf_1_1 = false; TEST_SYNC_POINT("ColumnFamilyTest::ManualManual:3"); } else if (cf_1_2) { TEST_SYNC_POINT("ColumnFamilyTest::ManualManual:2"); cf_1_2 = false; } }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); rocksdb::port::Thread threads([&] { CompactRangeOptions compact_options; compact_options.exclusive_manual_compaction = true; ASSERT_OK( db_->CompactRange(compact_options, handles_[1], nullptr, nullptr)); }); TEST_SYNC_POINT("ColumnFamilyTest::ManualManual:5"); WaitForFlush(1); // Add more L0 files and force another manual compaction for (int i = 0; i < one.level0_file_num_compaction_trigger - 2; ++i) { PutRandomData(1, 10, 12000, true); PutRandomData(1, 1, 10, true); WaitForFlush(1); AssertFilesPerLevel(ToString(one.level0_file_num_compaction_trigger + i), 1); } rocksdb::port::Thread threads1([&] { CompactRangeOptions compact_options; compact_options.exclusive_manual_compaction = false; ASSERT_OK( db_->CompactRange(compact_options, handles_[1], nullptr, nullptr)); }); TEST_SYNC_POINT("ColumnFamilyTest::ManualManual:1"); threads.join(); threads1.join(); WaitForCompaction(); // VERIFY compaction "one" ASSERT_LE(NumTableFilesAtLevel(0, 1), 2); // Compare against saved keys std::set::iterator key_iter = keys_[1].begin(); while (key_iter != keys_[1].end()) { ASSERT_NE("NOT_FOUND", Get(1, *key_iter)); key_iter++; } rocksdb::SyncPoint::GetInstance()->DisableProcessing(); rocksdb::SyncPoint::GetInstance()->ClearAllCallBacks(); } TEST_P(ColumnFamilyTest, SameCFManualAutomaticCompactions) { Open(); CreateColumnFamilies({"one"}); ColumnFamilyOptions default_cf, one; db_options_.max_open_files = 20; // only 10 files in file cache db_options_.max_background_compactions = 3; default_cf.compaction_style = kCompactionStyleLevel; default_cf.num_levels = 3; default_cf.write_buffer_size = 64 << 10; // 64KB default_cf.target_file_size_base = 30 << 10; default_cf.max_compaction_bytes = default_cf.target_file_size_base * 1100; BlockBasedTableOptions table_options = GetBlockBasedTableOptions(); ; table_options.no_block_cache = true; default_cf.table_factory.reset(NewBlockBasedTableFactory(table_options)); one.compaction_style = kCompactionStyleUniversal; one.num_levels = 1; // trigger compaction if there are >= 4 files one.level0_file_num_compaction_trigger = 4; one.write_buffer_size = 120000; Reopen({default_cf, one}); // make sure all background compaction jobs can be scheduled auto stop_token = dbfull()->TEST_write_controler().GetCompactionPressureToken(); // SETUP column family "one" -- universal style for (int i = 0; i < one.level0_file_num_compaction_trigger - 2; ++i) { PutRandomData(1, 10, 12000, true); PutRandomData(1, 1, 10, true); WaitForFlush(1); AssertFilesPerLevel(ToString(i + 1), 1); } bool cf_1_1 = true; bool cf_1_2 = true; rocksdb::SyncPoint::GetInstance()->LoadDependency( {{"ColumnFamilyTest::ManualAuto:4", "ColumnFamilyTest::ManualAuto:2"}, {"ColumnFamilyTest::ManualAuto:4", "ColumnFamilyTest::ManualAuto:5"}, {"ColumnFamilyTest::ManualAuto:1", "ColumnFamilyTest::ManualAuto:2"}, {"ColumnFamilyTest::ManualAuto:1", "ColumnFamilyTest::ManualAuto:3"}}); rocksdb::SyncPoint::GetInstance()->SetCallBack( "DBImpl::BackgroundCompaction:NonTrivial:AfterRun", [&](void* /*arg*/) { if (cf_1_1) { TEST_SYNC_POINT("ColumnFamilyTest::ManualAuto:4"); cf_1_1 = false; TEST_SYNC_POINT("ColumnFamilyTest::ManualAuto:3"); } else if (cf_1_2) { TEST_SYNC_POINT("ColumnFamilyTest::ManualAuto:2"); cf_1_2 = false; } }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); rocksdb::port::Thread threads([&] { CompactRangeOptions compact_options; compact_options.exclusive_manual_compaction = false; ASSERT_OK( db_->CompactRange(compact_options, handles_[1], nullptr, nullptr)); }); TEST_SYNC_POINT("ColumnFamilyTest::ManualAuto:5"); WaitForFlush(1); // Add more L0 files and force automatic compaction for (int i = 0; i < one.level0_file_num_compaction_trigger; ++i) { PutRandomData(1, 10, 12000, true); PutRandomData(1, 1, 10, true); WaitForFlush(1); AssertFilesPerLevel(ToString(one.level0_file_num_compaction_trigger + i), 1); } TEST_SYNC_POINT("ColumnFamilyTest::ManualAuto:1"); threads.join(); WaitForCompaction(); // VERIFY compaction "one" ASSERT_LE(NumTableFilesAtLevel(0, 1), 2); // Compare against saved keys std::set::iterator key_iter = keys_[1].begin(); while (key_iter != keys_[1].end()) { ASSERT_NE("NOT_FOUND", Get(1, *key_iter)); key_iter++; } rocksdb::SyncPoint::GetInstance()->DisableProcessing(); rocksdb::SyncPoint::GetInstance()->ClearAllCallBacks(); } TEST_P(ColumnFamilyTest, SameCFManualAutomaticCompactionsLevel) { Open(); CreateColumnFamilies({"one"}); ColumnFamilyOptions default_cf, one; db_options_.max_open_files = 20; // only 10 files in file cache db_options_.max_background_compactions = 3; default_cf.compaction_style = kCompactionStyleLevel; default_cf.num_levels = 3; default_cf.write_buffer_size = 64 << 10; // 64KB default_cf.target_file_size_base = 30 << 10; default_cf.max_compaction_bytes = default_cf.target_file_size_base * 1100; BlockBasedTableOptions table_options = GetBlockBasedTableOptions(); ; table_options.no_block_cache = true; default_cf.table_factory.reset(NewBlockBasedTableFactory(table_options)); one.compaction_style = kCompactionStyleLevel; one.num_levels = 1; // trigger compaction if there are >= 4 files one.level0_file_num_compaction_trigger = 3; one.write_buffer_size = 120000; Reopen({default_cf, one}); // make sure all background compaction jobs can be scheduled auto stop_token = dbfull()->TEST_write_controler().GetCompactionPressureToken(); // SETUP column family "one" -- level style for (int i = 0; i < one.level0_file_num_compaction_trigger - 2; ++i) { PutRandomData(1, 10, 12000, true); PutRandomData(1, 1, 10, true); WaitForFlush(1); AssertFilesPerLevel(ToString(i + 1), 1); } bool cf_1_1 = true; bool cf_1_2 = true; rocksdb::SyncPoint::GetInstance()->LoadDependency( {{"ColumnFamilyTest::ManualAuto:4", "ColumnFamilyTest::ManualAuto:2"}, {"ColumnFamilyTest::ManualAuto:4", "ColumnFamilyTest::ManualAuto:5"}, {"ColumnFamilyTest::ManualAuto:3", "ColumnFamilyTest::ManualAuto:2"}, {"LevelCompactionPicker::PickCompactionBySize:0", "ColumnFamilyTest::ManualAuto:3"}, {"ColumnFamilyTest::ManualAuto:1", "ColumnFamilyTest::ManualAuto:3"}}); rocksdb::SyncPoint::GetInstance()->SetCallBack( "DBImpl::BackgroundCompaction:NonTrivial:AfterRun", [&](void* /*arg*/) { if (cf_1_1) { TEST_SYNC_POINT("ColumnFamilyTest::ManualAuto:4"); cf_1_1 = false; TEST_SYNC_POINT("ColumnFamilyTest::ManualAuto:3"); } else if (cf_1_2) { TEST_SYNC_POINT("ColumnFamilyTest::ManualAuto:2"); cf_1_2 = false; } }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); rocksdb::port::Thread threads([&] { CompactRangeOptions compact_options; compact_options.exclusive_manual_compaction = false; ASSERT_OK( db_->CompactRange(compact_options, handles_[1], nullptr, nullptr)); }); TEST_SYNC_POINT("ColumnFamilyTest::ManualAuto:5"); // Add more L0 files and force automatic compaction for (int i = 0; i < one.level0_file_num_compaction_trigger; ++i) { PutRandomData(1, 10, 12000, true); PutRandomData(1, 1, 10, true); WaitForFlush(1); AssertFilesPerLevel(ToString(one.level0_file_num_compaction_trigger + i), 1); } TEST_SYNC_POINT("ColumnFamilyTest::ManualAuto:1"); threads.join(); WaitForCompaction(); // VERIFY compaction "one" AssertFilesPerLevel("0,1", 1); // Compare against saved keys std::set::iterator key_iter = keys_[1].begin(); while (key_iter != keys_[1].end()) { ASSERT_NE("NOT_FOUND", Get(1, *key_iter)); key_iter++; } rocksdb::SyncPoint::GetInstance()->DisableProcessing(); rocksdb::SyncPoint::GetInstance()->ClearAllCallBacks(); } // In this test, we generate enough files to trigger automatic compactions. // The automatic compaction waits in NonTrivial:AfterRun // We generate more files and then trigger an automatic compaction // This will wait because the automatic compaction has files it needs. // Once the conflict is hit, the automatic compaction starts and ends // Then the manual will run and end. TEST_P(ColumnFamilyTest, SameCFAutomaticManualCompactions) { Open(); CreateColumnFamilies({"one"}); ColumnFamilyOptions default_cf, one; db_options_.max_open_files = 20; // only 10 files in file cache db_options_.max_background_compactions = 3; default_cf.compaction_style = kCompactionStyleLevel; default_cf.num_levels = 3; default_cf.write_buffer_size = 64 << 10; // 64KB default_cf.target_file_size_base = 30 << 10; default_cf.max_compaction_bytes = default_cf.target_file_size_base * 1100; BlockBasedTableOptions table_options = GetBlockBasedTableOptions(); ; table_options.no_block_cache = true; default_cf.table_factory.reset(NewBlockBasedTableFactory(table_options)); one.compaction_style = kCompactionStyleUniversal; one.num_levels = 1; // trigger compaction if there are >= 4 files one.level0_file_num_compaction_trigger = 4; one.write_buffer_size = 120000; Reopen({default_cf, one}); // make sure all background compaction jobs can be scheduled auto stop_token = dbfull()->TEST_write_controler().GetCompactionPressureToken(); bool cf_1_1 = true; bool cf_1_2 = true; rocksdb::SyncPoint::GetInstance()->LoadDependency( {{"ColumnFamilyTest::AutoManual:4", "ColumnFamilyTest::AutoManual:2"}, {"ColumnFamilyTest::AutoManual:4", "ColumnFamilyTest::AutoManual:5"}, {"CompactionPicker::CompactRange:Conflict", "ColumnFamilyTest::AutoManual:3"}}); rocksdb::SyncPoint::GetInstance()->SetCallBack( "DBImpl::BackgroundCompaction:NonTrivial:AfterRun", [&](void* /*arg*/) { if (cf_1_1) { TEST_SYNC_POINT("ColumnFamilyTest::AutoManual:4"); cf_1_1 = false; TEST_SYNC_POINT("ColumnFamilyTest::AutoManual:3"); } else if (cf_1_2) { TEST_SYNC_POINT("ColumnFamilyTest::AutoManual:2"); cf_1_2 = false; } }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); // SETUP column family "one" -- universal style for (int i = 0; i < one.level0_file_num_compaction_trigger; ++i) { PutRandomData(1, 10, 12000, true); PutRandomData(1, 1, 10, true); WaitForFlush(1); AssertFilesPerLevel(ToString(i + 1), 1); } TEST_SYNC_POINT("ColumnFamilyTest::AutoManual:5"); // Add another L0 file and force automatic compaction for (int i = 0; i < one.level0_file_num_compaction_trigger - 2; ++i) { PutRandomData(1, 10, 12000, true); PutRandomData(1, 1, 10, true); WaitForFlush(1); } CompactRangeOptions compact_options; compact_options.exclusive_manual_compaction = false; ASSERT_OK(db_->CompactRange(compact_options, handles_[1], nullptr, nullptr)); TEST_SYNC_POINT("ColumnFamilyTest::AutoManual:1"); WaitForCompaction(); // VERIFY compaction "one" AssertFilesPerLevel("1", 1); // Compare against saved keys std::set::iterator key_iter = keys_[1].begin(); while (key_iter != keys_[1].end()) { ASSERT_NE("NOT_FOUND", Get(1, *key_iter)); key_iter++; } rocksdb::SyncPoint::GetInstance()->DisableProcessing(); rocksdb::SyncPoint::GetInstance()->ClearAllCallBacks(); } #endif // !ROCKSDB_LITE #ifndef ROCKSDB_LITE // Tailing interator not supported namespace { std::string IterStatus(Iterator* iter) { std::string result; if (iter->Valid()) { result = iter->key().ToString() + "->" + iter->value().ToString(); } else { result = "(invalid)"; } return result; } } // anonymous namespace TEST_P(ColumnFamilyTest, NewIteratorsTest) { // iter == 0 -- no tailing // iter == 2 -- tailing for (int iter = 0; iter < 2; ++iter) { Open(); CreateColumnFamiliesAndReopen({"one", "two"}); ASSERT_OK(Put(0, "a", "b")); ASSERT_OK(Put(1, "b", "a")); ASSERT_OK(Put(2, "c", "m")); ASSERT_OK(Put(2, "v", "t")); std::vector iterators; ReadOptions options; options.tailing = (iter == 1); ASSERT_OK(db_->NewIterators(options, handles_, &iterators)); for (auto it : iterators) { it->SeekToFirst(); } ASSERT_EQ(IterStatus(iterators[0]), "a->b"); ASSERT_EQ(IterStatus(iterators[1]), "b->a"); ASSERT_EQ(IterStatus(iterators[2]), "c->m"); ASSERT_OK(Put(1, "x", "x")); for (auto it : iterators) { it->Next(); } ASSERT_EQ(IterStatus(iterators[0]), "(invalid)"); if (iter == 0) { // no tailing ASSERT_EQ(IterStatus(iterators[1]), "(invalid)"); } else { // tailing ASSERT_EQ(IterStatus(iterators[1]), "x->x"); } ASSERT_EQ(IterStatus(iterators[2]), "v->t"); for (auto it : iterators) { delete it; } Destroy(); } } #endif // !ROCKSDB_LITE #ifndef ROCKSDB_LITE // ReadOnlyDB is not supported TEST_P(ColumnFamilyTest, ReadOnlyDBTest) { Open(); CreateColumnFamiliesAndReopen({"one", "two", "three", "four"}); ASSERT_OK(Put(0, "a", "b")); ASSERT_OK(Put(1, "foo", "bla")); ASSERT_OK(Put(2, "foo", "blabla")); ASSERT_OK(Put(3, "foo", "blablabla")); ASSERT_OK(Put(4, "foo", "blablablabla")); DropColumnFamilies({2}); Close(); // open only a subset of column families AssertOpenReadOnly({"default", "one", "four"}); ASSERT_EQ("NOT_FOUND", Get(0, "foo")); ASSERT_EQ("bla", Get(1, "foo")); ASSERT_EQ("blablablabla", Get(2, "foo")); // test newiterators { std::vector iterators; ASSERT_OK(db_->NewIterators(ReadOptions(), handles_, &iterators)); for (auto it : iterators) { it->SeekToFirst(); } ASSERT_EQ(IterStatus(iterators[0]), "a->b"); ASSERT_EQ(IterStatus(iterators[1]), "foo->bla"); ASSERT_EQ(IterStatus(iterators[2]), "foo->blablablabla"); for (auto it : iterators) { it->Next(); } ASSERT_EQ(IterStatus(iterators[0]), "(invalid)"); ASSERT_EQ(IterStatus(iterators[1]), "(invalid)"); ASSERT_EQ(IterStatus(iterators[2]), "(invalid)"); for (auto it : iterators) { delete it; } } Close(); // can't open dropped column family Status s = OpenReadOnly({"default", "one", "two"}); ASSERT_TRUE(!s.ok()); // Can't open without specifying default column family s = OpenReadOnly({"one", "four"}); ASSERT_TRUE(!s.ok()); } #endif // !ROCKSDB_LITE #ifndef ROCKSDB_LITE // WaitForFlush() is not supported in lite TEST_P(ColumnFamilyTest, DontRollEmptyLogs) { Open(); CreateColumnFamiliesAndReopen({"one", "two", "three", "four"}); for (size_t i = 0; i < handles_.size(); ++i) { PutRandomData(static_cast(i), 10, 100); } int num_writable_file_start = env_->GetNumberOfNewWritableFileCalls(); // this will trigger the flushes for (int i = 0; i <= 4; ++i) { ASSERT_OK(Flush(i)); } for (int i = 0; i < 4; ++i) { WaitForFlush(i); } int total_new_writable_files = env_->GetNumberOfNewWritableFileCalls() - num_writable_file_start; ASSERT_EQ(static_cast(total_new_writable_files), handles_.size() + 1); Close(); } #endif // !ROCKSDB_LITE #ifndef ROCKSDB_LITE // WaitForCompaction() is not supported in lite TEST_P(ColumnFamilyTest, FlushStaleColumnFamilies) { Open(); CreateColumnFamilies({"one", "two"}); ColumnFamilyOptions default_cf, one, two; default_cf.write_buffer_size = 100000; // small write buffer size default_cf.arena_block_size = 4096; default_cf.disable_auto_compactions = true; one.disable_auto_compactions = true; two.disable_auto_compactions = true; db_options_.max_total_wal_size = 210000; Reopen({default_cf, one, two}); PutRandomData(2, 1, 10); // 10 bytes for (int i = 0; i < 2; ++i) { PutRandomData(0, 100, 1000); // flush WaitForFlush(0); AssertCountLiveFiles(i + 1); } // third flush. now, CF [two] should be detected as stale and flushed // column family 1 should not be flushed since it's empty PutRandomData(0, 100, 1000); // flush WaitForFlush(0); WaitForFlush(2); // 3 files for default column families, 1 file for column family [two], zero // files for column family [one], because it's empty AssertCountLiveFiles(4); Flush(0); ASSERT_EQ(0, dbfull()->TEST_total_log_size()); Close(); } #endif // !ROCKSDB_LITE TEST_P(ColumnFamilyTest, CreateMissingColumnFamilies) { Status s = TryOpen({"one", "two"}); ASSERT_TRUE(!s.ok()); db_options_.create_missing_column_families = true; s = TryOpen({"default", "one", "two"}); ASSERT_TRUE(s.ok()); Close(); } TEST_P(ColumnFamilyTest, SanitizeOptions) { DBOptions db_options; for (int s = kCompactionStyleLevel; s <= kCompactionStyleUniversal; ++s) { for (int l = 0; l <= 2; l++) { for (int i = 1; i <= 3; i++) { for (int j = 1; j <= 3; j++) { for (int k = 1; k <= 3; k++) { ColumnFamilyOptions original; original.compaction_style = static_cast(s); original.num_levels = l; original.level0_stop_writes_trigger = i; original.level0_slowdown_writes_trigger = j; original.level0_file_num_compaction_trigger = k; original.write_buffer_size = l * 4 * 1024 * 1024 + i * 1024 * 1024 + j * 1024 + k; ColumnFamilyOptions result = SanitizeOptions(ImmutableDBOptions(db_options), original); ASSERT_TRUE(result.level0_stop_writes_trigger >= result.level0_slowdown_writes_trigger); ASSERT_TRUE(result.level0_slowdown_writes_trigger >= result.level0_file_num_compaction_trigger); ASSERT_TRUE(result.level0_file_num_compaction_trigger == original.level0_file_num_compaction_trigger); if (s == kCompactionStyleLevel) { ASSERT_GE(result.num_levels, 2); } else { ASSERT_GE(result.num_levels, 1); if (original.num_levels >= 1) { ASSERT_EQ(result.num_levels, original.num_levels); } } // Make sure Sanitize options sets arena_block_size to 1/8 of // the write_buffer_size, rounded up to a multiple of 4k. size_t expected_arena_block_size = l * 4 * 1024 * 1024 / 8 + i * 1024 * 1024 / 8; if (j + k != 0) { // not a multiple of 4k, round up 4k expected_arena_block_size += 4 * 1024; } ASSERT_EQ(expected_arena_block_size, result.arena_block_size); } } } } } } TEST_P(ColumnFamilyTest, ReadDroppedColumnFamily) { // iter 0 -- drop CF, don't reopen // iter 1 -- delete CF, reopen for (int iter = 0; iter < 2; ++iter) { db_options_.create_missing_column_families = true; db_options_.max_open_files = 20; // delete obsolete files always db_options_.delete_obsolete_files_period_micros = 0; Open({"default", "one", "two"}); ColumnFamilyOptions options; options.level0_file_num_compaction_trigger = 100; options.level0_slowdown_writes_trigger = 200; options.level0_stop_writes_trigger = 200; options.write_buffer_size = 100000; // small write buffer size Reopen({options, options, options}); // 1MB should create ~10 files for each CF int kKeysNum = 10000; PutRandomData(0, kKeysNum, 100); PutRandomData(1, kKeysNum, 100); PutRandomData(2, kKeysNum, 100); { std::unique_ptr iterator( db_->NewIterator(ReadOptions(), handles_[2])); iterator->SeekToFirst(); if (iter == 0) { // Drop CF two ASSERT_OK(db_->DropColumnFamily(handles_[2])); } else { // delete CF two db_->DestroyColumnFamilyHandle(handles_[2]); handles_[2] = nullptr; } // Make sure iterator created can still be used. int count = 0; for (; iterator->Valid(); iterator->Next()) { ASSERT_OK(iterator->status()); ++count; } ASSERT_OK(iterator->status()); ASSERT_EQ(count, kKeysNum); } // Add bunch more data to other CFs PutRandomData(0, kKeysNum, 100); PutRandomData(1, kKeysNum, 100); if (iter == 1) { Reopen(); } // Since we didn't delete CF handle, RocksDB's contract guarantees that // we're still able to read dropped CF for (int i = 0; i < 3; ++i) { std::unique_ptr iterator( db_->NewIterator(ReadOptions(), handles_[i])); int count = 0; for (iterator->SeekToFirst(); iterator->Valid(); iterator->Next()) { ASSERT_OK(iterator->status()); ++count; } ASSERT_OK(iterator->status()); ASSERT_EQ(count, kKeysNum * ((i == 2) ? 1 : 2)); } Close(); Destroy(); } } TEST_P(ColumnFamilyTest, FlushAndDropRaceCondition) { db_options_.create_missing_column_families = true; Open({"default", "one"}); ColumnFamilyOptions options; options.level0_file_num_compaction_trigger = 100; options.level0_slowdown_writes_trigger = 200; options.level0_stop_writes_trigger = 200; options.max_write_buffer_number = 20; options.write_buffer_size = 100000; // small write buffer size Reopen({options, options}); rocksdb::SyncPoint::GetInstance()->LoadDependency( {{"VersionSet::LogAndApply::ColumnFamilyDrop:0", "FlushJob::WriteLevel0Table"}, {"VersionSet::LogAndApply::ColumnFamilyDrop:1", "FlushJob::InstallResults"}, {"FlushJob::InstallResults", "VersionSet::LogAndApply::ColumnFamilyDrop:2"}}); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); test::SleepingBackgroundTask sleeping_task; env_->Schedule(&test::SleepingBackgroundTask::DoSleepTask, &sleeping_task, Env::Priority::HIGH); // 1MB should create ~10 files for each CF int kKeysNum = 10000; PutRandomData(1, kKeysNum, 100); std::vector threads; threads.emplace_back([&] { ASSERT_OK(db_->DropColumnFamily(handles_[1])); }); sleeping_task.WakeUp(); sleeping_task.WaitUntilDone(); sleeping_task.Reset(); // now we sleep again. this is just so we're certain that flush job finished env_->Schedule(&test::SleepingBackgroundTask::DoSleepTask, &sleeping_task, Env::Priority::HIGH); sleeping_task.WakeUp(); sleeping_task.WaitUntilDone(); { // Since we didn't delete CF handle, RocksDB's contract guarantees that // we're still able to read dropped CF std::unique_ptr iterator( db_->NewIterator(ReadOptions(), handles_[1])); int count = 0; for (iterator->SeekToFirst(); iterator->Valid(); iterator->Next()) { ASSERT_OK(iterator->status()); ++count; } ASSERT_OK(iterator->status()); ASSERT_EQ(count, kKeysNum); } for (auto& t : threads) { t.join(); } Close(); Destroy(); } #ifndef ROCKSDB_LITE // skipped as persisting options is not supported in ROCKSDB_LITE namespace { std::atomic test_stage(0); std::atomic ordered_by_writethread(false); const int kMainThreadStartPersistingOptionsFile = 1; const int kChildThreadFinishDroppingColumnFamily = 2; void DropSingleColumnFamily(ColumnFamilyTest* cf_test, int cf_id, std::vector* comparators) { while (test_stage < kMainThreadStartPersistingOptionsFile && !ordered_by_writethread) { Env::Default()->SleepForMicroseconds(100); } cf_test->DropColumnFamilies({cf_id}); if ((*comparators)[cf_id]) { delete (*comparators)[cf_id]; (*comparators)[cf_id] = nullptr; } test_stage = kChildThreadFinishDroppingColumnFamily; } } // namespace TEST_P(ColumnFamilyTest, CreateAndDropRace) { const int kCfCount = 5; std::vector cf_opts; std::vector comparators; for (int i = 0; i < kCfCount; ++i) { cf_opts.emplace_back(); comparators.push_back(new test::SimpleSuffixReverseComparator()); cf_opts.back().comparator = comparators.back(); } db_options_.create_if_missing = true; db_options_.create_missing_column_families = true; auto main_thread_id = std::this_thread::get_id(); rocksdb::SyncPoint::GetInstance()->SetCallBack("PersistRocksDBOptions:start", [&](void* /*arg*/) { auto current_thread_id = std::this_thread::get_id(); // If it's the main thread hitting this sync-point, then it // will be blocked until some other thread update the test_stage. if (main_thread_id == current_thread_id) { test_stage = kMainThreadStartPersistingOptionsFile; while (test_stage < kChildThreadFinishDroppingColumnFamily && !ordered_by_writethread) { Env::Default()->SleepForMicroseconds(100); } } }); rocksdb::SyncPoint::GetInstance()->SetCallBack( "WriteThread::EnterUnbatched:Wait", [&](void* /*arg*/) { // This means a thread doing DropColumnFamily() is waiting for // other thread to finish persisting options. // In such case, we update the test_stage to unblock the main thread. ordered_by_writethread = true; }); // Create a database with four column families Open({"default", "one", "two", "three"}, {cf_opts[0], cf_opts[1], cf_opts[2], cf_opts[3]}); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); // Start a thread that will drop the first column family // and its comparator rocksdb::port::Thread drop_cf_thread(DropSingleColumnFamily, this, 1, &comparators); DropColumnFamilies({2}); drop_cf_thread.join(); Close(); Destroy(); for (auto* comparator : comparators) { if (comparator) { delete comparator; } } rocksdb::SyncPoint::GetInstance()->DisableProcessing(); rocksdb::SyncPoint::GetInstance()->ClearAllCallBacks(); } #endif // !ROCKSDB_LITE TEST_P(ColumnFamilyTest, WriteStallSingleColumnFamily) { const uint64_t kBaseRate = 800000u; db_options_.delayed_write_rate = kBaseRate; db_options_.max_background_compactions = 6; Open({"default"}); ColumnFamilyData* cfd = static_cast(db_->DefaultColumnFamily())->cfd(); VersionStorageInfo* vstorage = cfd->current()->storage_info(); MutableCFOptions mutable_cf_options(column_family_options_); mutable_cf_options.level0_slowdown_writes_trigger = 20; mutable_cf_options.level0_stop_writes_trigger = 10000; mutable_cf_options.soft_pending_compaction_bytes_limit = 200; mutable_cf_options.hard_pending_compaction_bytes_limit = 2000; mutable_cf_options.disable_auto_compactions = false; vstorage->TEST_set_estimated_compaction_needed_bytes(50); cfd->RecalculateWriteStallConditions(mutable_cf_options); ASSERT_TRUE(!IsDbWriteStopped()); ASSERT_TRUE(!dbfull()->TEST_write_controler().NeedsDelay()); vstorage->TEST_set_estimated_compaction_needed_bytes(201); cfd->RecalculateWriteStallConditions(mutable_cf_options); ASSERT_TRUE(!IsDbWriteStopped()); ASSERT_TRUE(dbfull()->TEST_write_controler().NeedsDelay()); ASSERT_EQ(kBaseRate, GetDbDelayedWriteRate()); ASSERT_EQ(6, dbfull()->TEST_BGCompactionsAllowed()); vstorage->TEST_set_estimated_compaction_needed_bytes(400); cfd->RecalculateWriteStallConditions(mutable_cf_options); ASSERT_TRUE(!IsDbWriteStopped()); ASSERT_TRUE(dbfull()->TEST_write_controler().NeedsDelay()); ASSERT_EQ(kBaseRate / 1.25, GetDbDelayedWriteRate()); ASSERT_EQ(6, dbfull()->TEST_BGCompactionsAllowed()); vstorage->TEST_set_estimated_compaction_needed_bytes(500); cfd->RecalculateWriteStallConditions(mutable_cf_options); ASSERT_TRUE(!IsDbWriteStopped()); ASSERT_TRUE(dbfull()->TEST_write_controler().NeedsDelay()); ASSERT_EQ(kBaseRate / 1.25 / 1.25, GetDbDelayedWriteRate()); vstorage->TEST_set_estimated_compaction_needed_bytes(450); cfd->RecalculateWriteStallConditions(mutable_cf_options); ASSERT_TRUE(!IsDbWriteStopped()); ASSERT_TRUE(dbfull()->TEST_write_controler().NeedsDelay()); ASSERT_EQ(kBaseRate / 1.25, GetDbDelayedWriteRate()); vstorage->TEST_set_estimated_compaction_needed_bytes(205); cfd->RecalculateWriteStallConditions(mutable_cf_options); ASSERT_TRUE(!IsDbWriteStopped()); ASSERT_TRUE(dbfull()->TEST_write_controler().NeedsDelay()); ASSERT_EQ(kBaseRate, GetDbDelayedWriteRate()); vstorage->TEST_set_estimated_compaction_needed_bytes(202); cfd->RecalculateWriteStallConditions(mutable_cf_options); ASSERT_TRUE(!IsDbWriteStopped()); ASSERT_TRUE(dbfull()->TEST_write_controler().NeedsDelay()); ASSERT_EQ(kBaseRate, GetDbDelayedWriteRate()); vstorage->TEST_set_estimated_compaction_needed_bytes(201); cfd->RecalculateWriteStallConditions(mutable_cf_options); ASSERT_TRUE(!IsDbWriteStopped()); ASSERT_TRUE(dbfull()->TEST_write_controler().NeedsDelay()); ASSERT_EQ(kBaseRate, GetDbDelayedWriteRate()); vstorage->TEST_set_estimated_compaction_needed_bytes(198); cfd->RecalculateWriteStallConditions(mutable_cf_options); ASSERT_TRUE(!IsDbWriteStopped()); ASSERT_TRUE(!dbfull()->TEST_write_controler().NeedsDelay()); vstorage->TEST_set_estimated_compaction_needed_bytes(399); cfd->RecalculateWriteStallConditions(mutable_cf_options); ASSERT_TRUE(!IsDbWriteStopped()); ASSERT_TRUE(dbfull()->TEST_write_controler().NeedsDelay()); ASSERT_EQ(kBaseRate, GetDbDelayedWriteRate()); vstorage->TEST_set_estimated_compaction_needed_bytes(599); cfd->RecalculateWriteStallConditions(mutable_cf_options); ASSERT_TRUE(!IsDbWriteStopped()); ASSERT_TRUE(dbfull()->TEST_write_controler().NeedsDelay()); ASSERT_EQ(kBaseRate / 1.25, GetDbDelayedWriteRate()); vstorage->TEST_set_estimated_compaction_needed_bytes(2001); cfd->RecalculateWriteStallConditions(mutable_cf_options); ASSERT_TRUE(IsDbWriteStopped()); ASSERT_TRUE(!dbfull()->TEST_write_controler().NeedsDelay()); ASSERT_EQ(6, dbfull()->TEST_BGCompactionsAllowed()); vstorage->TEST_set_estimated_compaction_needed_bytes(3001); cfd->RecalculateWriteStallConditions(mutable_cf_options); ASSERT_TRUE(IsDbWriteStopped()); ASSERT_TRUE(!dbfull()->TEST_write_controler().NeedsDelay()); vstorage->TEST_set_estimated_compaction_needed_bytes(390); cfd->RecalculateWriteStallConditions(mutable_cf_options); ASSERT_TRUE(!IsDbWriteStopped()); ASSERT_TRUE(dbfull()->TEST_write_controler().NeedsDelay()); ASSERT_EQ(kBaseRate / 1.25, GetDbDelayedWriteRate()); vstorage->TEST_set_estimated_compaction_needed_bytes(100); cfd->RecalculateWriteStallConditions(mutable_cf_options); ASSERT_TRUE(!IsDbWriteStopped()); ASSERT_TRUE(!dbfull()->TEST_write_controler().NeedsDelay()); vstorage->set_l0_delay_trigger_count(100); cfd->RecalculateWriteStallConditions(mutable_cf_options); ASSERT_TRUE(!IsDbWriteStopped()); ASSERT_TRUE(dbfull()->TEST_write_controler().NeedsDelay()); ASSERT_EQ(kBaseRate, GetDbDelayedWriteRate()); ASSERT_EQ(6, dbfull()->TEST_BGCompactionsAllowed()); vstorage->set_l0_delay_trigger_count(101); cfd->RecalculateWriteStallConditions(mutable_cf_options); ASSERT_TRUE(!IsDbWriteStopped()); ASSERT_TRUE(dbfull()->TEST_write_controler().NeedsDelay()); ASSERT_EQ(kBaseRate / 1.25, GetDbDelayedWriteRate()); vstorage->set_l0_delay_trigger_count(0); vstorage->TEST_set_estimated_compaction_needed_bytes(300); cfd->RecalculateWriteStallConditions(mutable_cf_options); ASSERT_TRUE(!IsDbWriteStopped()); ASSERT_TRUE(dbfull()->TEST_write_controler().NeedsDelay()); ASSERT_EQ(kBaseRate / 1.25 / 1.25, GetDbDelayedWriteRate()); vstorage->set_l0_delay_trigger_count(101); cfd->RecalculateWriteStallConditions(mutable_cf_options); ASSERT_TRUE(!IsDbWriteStopped()); ASSERT_TRUE(dbfull()->TEST_write_controler().NeedsDelay()); ASSERT_EQ(kBaseRate / 1.25 / 1.25 / 1.25, GetDbDelayedWriteRate()); vstorage->TEST_set_estimated_compaction_needed_bytes(200); cfd->RecalculateWriteStallConditions(mutable_cf_options); ASSERT_TRUE(!IsDbWriteStopped()); ASSERT_TRUE(dbfull()->TEST_write_controler().NeedsDelay()); ASSERT_EQ(kBaseRate / 1.25 / 1.25, GetDbDelayedWriteRate()); vstorage->set_l0_delay_trigger_count(0); vstorage->TEST_set_estimated_compaction_needed_bytes(0); cfd->RecalculateWriteStallConditions(mutable_cf_options); ASSERT_TRUE(!IsDbWriteStopped()); ASSERT_TRUE(!dbfull()->TEST_write_controler().NeedsDelay()); mutable_cf_options.disable_auto_compactions = true; dbfull()->TEST_write_controler().set_delayed_write_rate(kBaseRate); cfd->RecalculateWriteStallConditions(mutable_cf_options); ASSERT_TRUE(!IsDbWriteStopped()); ASSERT_TRUE(!dbfull()->TEST_write_controler().NeedsDelay()); vstorage->set_l0_delay_trigger_count(50); cfd->RecalculateWriteStallConditions(mutable_cf_options); ASSERT_TRUE(!IsDbWriteStopped()); ASSERT_TRUE(!dbfull()->TEST_write_controler().NeedsDelay()); ASSERT_EQ(0, GetDbDelayedWriteRate()); ASSERT_EQ(kBaseRate, dbfull()->TEST_write_controler().delayed_write_rate()); vstorage->set_l0_delay_trigger_count(60); vstorage->TEST_set_estimated_compaction_needed_bytes(300); cfd->RecalculateWriteStallConditions(mutable_cf_options); ASSERT_TRUE(!IsDbWriteStopped()); ASSERT_TRUE(!dbfull()->TEST_write_controler().NeedsDelay()); ASSERT_EQ(0, GetDbDelayedWriteRate()); ASSERT_EQ(kBaseRate, dbfull()->TEST_write_controler().delayed_write_rate()); mutable_cf_options.disable_auto_compactions = false; vstorage->set_l0_delay_trigger_count(70); vstorage->TEST_set_estimated_compaction_needed_bytes(500); cfd->RecalculateWriteStallConditions(mutable_cf_options); ASSERT_TRUE(!IsDbWriteStopped()); ASSERT_TRUE(dbfull()->TEST_write_controler().NeedsDelay()); ASSERT_EQ(kBaseRate, GetDbDelayedWriteRate()); vstorage->set_l0_delay_trigger_count(71); vstorage->TEST_set_estimated_compaction_needed_bytes(501); cfd->RecalculateWriteStallConditions(mutable_cf_options); ASSERT_TRUE(!IsDbWriteStopped()); ASSERT_TRUE(dbfull()->TEST_write_controler().NeedsDelay()); ASSERT_EQ(kBaseRate / 1.25, GetDbDelayedWriteRate()); } TEST_P(ColumnFamilyTest, CompactionSpeedupSingleColumnFamily) { db_options_.max_background_compactions = 6; Open({"default"}); ColumnFamilyData* cfd = static_cast(db_->DefaultColumnFamily())->cfd(); VersionStorageInfo* vstorage = cfd->current()->storage_info(); MutableCFOptions mutable_cf_options(column_family_options_); // Speed up threshold = min(4 * 2, 4 + (36 - 4)/4) = 8 mutable_cf_options.level0_file_num_compaction_trigger = 4; mutable_cf_options.level0_slowdown_writes_trigger = 36; mutable_cf_options.level0_stop_writes_trigger = 50; // Speedup threshold = 200 / 4 = 50 mutable_cf_options.soft_pending_compaction_bytes_limit = 200; mutable_cf_options.hard_pending_compaction_bytes_limit = 2000; vstorage->TEST_set_estimated_compaction_needed_bytes(40); cfd->RecalculateWriteStallConditions(mutable_cf_options); ASSERT_EQ(1, dbfull()->TEST_BGCompactionsAllowed()); vstorage->TEST_set_estimated_compaction_needed_bytes(50); cfd->RecalculateWriteStallConditions(mutable_cf_options); ASSERT_EQ(6, dbfull()->TEST_BGCompactionsAllowed()); vstorage->TEST_set_estimated_compaction_needed_bytes(300); cfd->RecalculateWriteStallConditions(mutable_cf_options); ASSERT_EQ(6, dbfull()->TEST_BGCompactionsAllowed()); vstorage->TEST_set_estimated_compaction_needed_bytes(45); cfd->RecalculateWriteStallConditions(mutable_cf_options); ASSERT_EQ(1, dbfull()->TEST_BGCompactionsAllowed()); vstorage->set_l0_delay_trigger_count(7); cfd->RecalculateWriteStallConditions(mutable_cf_options); ASSERT_EQ(1, dbfull()->TEST_BGCompactionsAllowed()); vstorage->set_l0_delay_trigger_count(9); cfd->RecalculateWriteStallConditions(mutable_cf_options); ASSERT_EQ(6, dbfull()->TEST_BGCompactionsAllowed()); vstorage->set_l0_delay_trigger_count(6); cfd->RecalculateWriteStallConditions(mutable_cf_options); ASSERT_EQ(1, dbfull()->TEST_BGCompactionsAllowed()); // Speed up threshold = min(4 * 2, 4 + (12 - 4)/4) = 6 mutable_cf_options.level0_file_num_compaction_trigger = 4; mutable_cf_options.level0_slowdown_writes_trigger = 16; mutable_cf_options.level0_stop_writes_trigger = 30; vstorage->set_l0_delay_trigger_count(5); cfd->RecalculateWriteStallConditions(mutable_cf_options); ASSERT_EQ(1, dbfull()->TEST_BGCompactionsAllowed()); vstorage->set_l0_delay_trigger_count(7); cfd->RecalculateWriteStallConditions(mutable_cf_options); ASSERT_EQ(6, dbfull()->TEST_BGCompactionsAllowed()); vstorage->set_l0_delay_trigger_count(3); cfd->RecalculateWriteStallConditions(mutable_cf_options); ASSERT_EQ(1, dbfull()->TEST_BGCompactionsAllowed()); } TEST_P(ColumnFamilyTest, WriteStallTwoColumnFamilies) { const uint64_t kBaseRate = 810000u; db_options_.delayed_write_rate = kBaseRate; Open(); CreateColumnFamilies({"one"}); ColumnFamilyData* cfd = static_cast(db_->DefaultColumnFamily())->cfd(); VersionStorageInfo* vstorage = cfd->current()->storage_info(); ColumnFamilyData* cfd1 = static_cast(handles_[1])->cfd(); VersionStorageInfo* vstorage1 = cfd1->current()->storage_info(); MutableCFOptions mutable_cf_options(column_family_options_); mutable_cf_options.level0_slowdown_writes_trigger = 20; mutable_cf_options.level0_stop_writes_trigger = 10000; mutable_cf_options.soft_pending_compaction_bytes_limit = 200; mutable_cf_options.hard_pending_compaction_bytes_limit = 2000; MutableCFOptions mutable_cf_options1 = mutable_cf_options; mutable_cf_options1.soft_pending_compaction_bytes_limit = 500; vstorage->TEST_set_estimated_compaction_needed_bytes(50); cfd->RecalculateWriteStallConditions(mutable_cf_options); ASSERT_TRUE(!IsDbWriteStopped()); ASSERT_TRUE(!dbfull()->TEST_write_controler().NeedsDelay()); vstorage1->TEST_set_estimated_compaction_needed_bytes(201); cfd->RecalculateWriteStallConditions(mutable_cf_options); ASSERT_TRUE(!IsDbWriteStopped()); ASSERT_TRUE(!dbfull()->TEST_write_controler().NeedsDelay()); vstorage1->TEST_set_estimated_compaction_needed_bytes(600); cfd1->RecalculateWriteStallConditions(mutable_cf_options); ASSERT_TRUE(!IsDbWriteStopped()); ASSERT_TRUE(dbfull()->TEST_write_controler().NeedsDelay()); ASSERT_EQ(kBaseRate, GetDbDelayedWriteRate()); vstorage->TEST_set_estimated_compaction_needed_bytes(70); cfd->RecalculateWriteStallConditions(mutable_cf_options); ASSERT_TRUE(!IsDbWriteStopped()); ASSERT_TRUE(dbfull()->TEST_write_controler().NeedsDelay()); ASSERT_EQ(kBaseRate, GetDbDelayedWriteRate()); vstorage1->TEST_set_estimated_compaction_needed_bytes(800); cfd1->RecalculateWriteStallConditions(mutable_cf_options); ASSERT_TRUE(!IsDbWriteStopped()); ASSERT_TRUE(dbfull()->TEST_write_controler().NeedsDelay()); ASSERT_EQ(kBaseRate / 1.25, GetDbDelayedWriteRate()); vstorage->TEST_set_estimated_compaction_needed_bytes(300); cfd->RecalculateWriteStallConditions(mutable_cf_options); ASSERT_TRUE(!IsDbWriteStopped()); ASSERT_TRUE(dbfull()->TEST_write_controler().NeedsDelay()); ASSERT_EQ(kBaseRate / 1.25 / 1.25, GetDbDelayedWriteRate()); vstorage1->TEST_set_estimated_compaction_needed_bytes(700); cfd1->RecalculateWriteStallConditions(mutable_cf_options); ASSERT_TRUE(!IsDbWriteStopped()); ASSERT_TRUE(dbfull()->TEST_write_controler().NeedsDelay()); ASSERT_EQ(kBaseRate / 1.25, GetDbDelayedWriteRate()); vstorage->TEST_set_estimated_compaction_needed_bytes(500); cfd->RecalculateWriteStallConditions(mutable_cf_options); ASSERT_TRUE(!IsDbWriteStopped()); ASSERT_TRUE(dbfull()->TEST_write_controler().NeedsDelay()); ASSERT_EQ(kBaseRate / 1.25 / 1.25, GetDbDelayedWriteRate()); vstorage1->TEST_set_estimated_compaction_needed_bytes(600); cfd1->RecalculateWriteStallConditions(mutable_cf_options); ASSERT_TRUE(!IsDbWriteStopped()); ASSERT_TRUE(dbfull()->TEST_write_controler().NeedsDelay()); ASSERT_EQ(kBaseRate / 1.25, GetDbDelayedWriteRate()); } TEST_P(ColumnFamilyTest, CompactionSpeedupTwoColumnFamilies) { db_options_.max_background_compactions = 6; column_family_options_.soft_pending_compaction_bytes_limit = 200; column_family_options_.hard_pending_compaction_bytes_limit = 2000; Open(); CreateColumnFamilies({"one"}); ColumnFamilyData* cfd = static_cast(db_->DefaultColumnFamily())->cfd(); VersionStorageInfo* vstorage = cfd->current()->storage_info(); ColumnFamilyData* cfd1 = static_cast(handles_[1])->cfd(); VersionStorageInfo* vstorage1 = cfd1->current()->storage_info(); MutableCFOptions mutable_cf_options(column_family_options_); // Speed up threshold = min(4 * 2, 4 + (36 - 4)/4) = 8 mutable_cf_options.level0_file_num_compaction_trigger = 4; mutable_cf_options.level0_slowdown_writes_trigger = 36; mutable_cf_options.level0_stop_writes_trigger = 30; // Speedup threshold = 200 / 4 = 50 mutable_cf_options.soft_pending_compaction_bytes_limit = 200; mutable_cf_options.hard_pending_compaction_bytes_limit = 2000; MutableCFOptions mutable_cf_options1 = mutable_cf_options; mutable_cf_options1.level0_slowdown_writes_trigger = 16; vstorage->TEST_set_estimated_compaction_needed_bytes(40); cfd->RecalculateWriteStallConditions(mutable_cf_options); ASSERT_EQ(1, dbfull()->TEST_BGCompactionsAllowed()); vstorage->TEST_set_estimated_compaction_needed_bytes(60); cfd1->RecalculateWriteStallConditions(mutable_cf_options); ASSERT_EQ(1, dbfull()->TEST_BGCompactionsAllowed()); cfd->RecalculateWriteStallConditions(mutable_cf_options); ASSERT_EQ(6, dbfull()->TEST_BGCompactionsAllowed()); vstorage1->TEST_set_estimated_compaction_needed_bytes(30); cfd1->RecalculateWriteStallConditions(mutable_cf_options); ASSERT_EQ(6, dbfull()->TEST_BGCompactionsAllowed()); vstorage1->TEST_set_estimated_compaction_needed_bytes(70); cfd1->RecalculateWriteStallConditions(mutable_cf_options); ASSERT_EQ(6, dbfull()->TEST_BGCompactionsAllowed()); vstorage->TEST_set_estimated_compaction_needed_bytes(20); cfd->RecalculateWriteStallConditions(mutable_cf_options); ASSERT_EQ(6, dbfull()->TEST_BGCompactionsAllowed()); vstorage1->TEST_set_estimated_compaction_needed_bytes(3); cfd1->RecalculateWriteStallConditions(mutable_cf_options); ASSERT_EQ(1, dbfull()->TEST_BGCompactionsAllowed()); vstorage->set_l0_delay_trigger_count(9); cfd->RecalculateWriteStallConditions(mutable_cf_options); ASSERT_EQ(6, dbfull()->TEST_BGCompactionsAllowed()); vstorage1->set_l0_delay_trigger_count(2); cfd1->RecalculateWriteStallConditions(mutable_cf_options); ASSERT_EQ(6, dbfull()->TEST_BGCompactionsAllowed()); vstorage->set_l0_delay_trigger_count(0); cfd->RecalculateWriteStallConditions(mutable_cf_options); ASSERT_EQ(1, dbfull()->TEST_BGCompactionsAllowed()); } TEST_P(ColumnFamilyTest, CreateAndDestoryOptions) { std::unique_ptr cfo(new ColumnFamilyOptions()); ColumnFamilyHandle* cfh; Open(); ASSERT_OK(db_->CreateColumnFamily(*(cfo.get()), "yoyo", &cfh)); cfo.reset(); ASSERT_OK(db_->Put(WriteOptions(), cfh, "foo", "bar")); ASSERT_OK(db_->Flush(FlushOptions(), cfh)); ASSERT_OK(db_->DropColumnFamily(cfh)); ASSERT_OK(db_->DestroyColumnFamilyHandle(cfh)); } TEST_P(ColumnFamilyTest, CreateDropAndDestroy) { ColumnFamilyHandle* cfh; Open(); ASSERT_OK(db_->CreateColumnFamily(ColumnFamilyOptions(), "yoyo", &cfh)); ASSERT_OK(db_->Put(WriteOptions(), cfh, "foo", "bar")); ASSERT_OK(db_->Flush(FlushOptions(), cfh)); ASSERT_OK(db_->DropColumnFamily(cfh)); ASSERT_OK(db_->DestroyColumnFamilyHandle(cfh)); } #ifndef ROCKSDB_LITE TEST_P(ColumnFamilyTest, CreateDropAndDestroyWithoutFileDeletion) { ColumnFamilyHandle* cfh; Open(); ASSERT_OK(db_->CreateColumnFamily(ColumnFamilyOptions(), "yoyo", &cfh)); ASSERT_OK(db_->Put(WriteOptions(), cfh, "foo", "bar")); ASSERT_OK(db_->Flush(FlushOptions(), cfh)); ASSERT_OK(db_->DisableFileDeletions()); ASSERT_OK(db_->DropColumnFamily(cfh)); ASSERT_OK(db_->DestroyColumnFamilyHandle(cfh)); } TEST_P(ColumnFamilyTest, FlushCloseWALFiles) { SpecialEnv env(Env::Default()); db_options_.env = &env; db_options_.max_background_flushes = 1; column_family_options_.memtable_factory.reset(new SpecialSkipListFactory(2)); Open(); CreateColumnFamilies({"one"}); ASSERT_OK(Put(1, "fodor", "mirko")); ASSERT_OK(Put(0, "fodor", "mirko")); ASSERT_OK(Put(1, "fodor", "mirko")); rocksdb::SyncPoint::GetInstance()->LoadDependency({ {"DBImpl::BGWorkFlush:done", "FlushCloseWALFiles:0"}, }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); // Block flush jobs from running test::SleepingBackgroundTask sleeping_task; env_->Schedule(&test::SleepingBackgroundTask::DoSleepTask, &sleeping_task, Env::Priority::HIGH); WriteOptions wo; wo.sync = true; ASSERT_OK(db_->Put(wo, handles_[1], "fodor", "mirko")); ASSERT_EQ(2, env.num_open_wal_file_.load()); sleeping_task.WakeUp(); sleeping_task.WaitUntilDone(); TEST_SYNC_POINT("FlushCloseWALFiles:0"); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); ASSERT_EQ(1, env.num_open_wal_file_.load()); Reopen(); ASSERT_EQ("mirko", Get(0, "fodor")); ASSERT_EQ("mirko", Get(1, "fodor")); db_options_.env = env_; Close(); } #endif // !ROCKSDB_LITE #ifndef ROCKSDB_LITE // WaitForFlush() is not supported TEST_P(ColumnFamilyTest, IteratorCloseWALFile1) { SpecialEnv env(Env::Default()); db_options_.env = &env; db_options_.max_background_flushes = 1; column_family_options_.memtable_factory.reset(new SpecialSkipListFactory(2)); Open(); CreateColumnFamilies({"one"}); ASSERT_OK(Put(1, "fodor", "mirko")); // Create an iterator holding the current super version. Iterator* it = db_->NewIterator(ReadOptions(), handles_[1]); // A flush will make `it` hold the last reference of its super version. Flush(1); ASSERT_OK(Put(1, "fodor", "mirko")); ASSERT_OK(Put(0, "fodor", "mirko")); ASSERT_OK(Put(1, "fodor", "mirko")); // Flush jobs will close previous WAL files after finishing. By // block flush jobs from running, we trigger a condition where // the iterator destructor should close the WAL files. test::SleepingBackgroundTask sleeping_task; env_->Schedule(&test::SleepingBackgroundTask::DoSleepTask, &sleeping_task, Env::Priority::HIGH); WriteOptions wo; wo.sync = true; ASSERT_OK(db_->Put(wo, handles_[1], "fodor", "mirko")); ASSERT_EQ(2, env.num_open_wal_file_.load()); // Deleting the iterator will clear its super version, triggering // closing all files delete it; ASSERT_EQ(1, env.num_open_wal_file_.load()); sleeping_task.WakeUp(); sleeping_task.WaitUntilDone(); WaitForFlush(1); Reopen(); ASSERT_EQ("mirko", Get(0, "fodor")); ASSERT_EQ("mirko", Get(1, "fodor")); db_options_.env = env_; Close(); } TEST_P(ColumnFamilyTest, IteratorCloseWALFile2) { SpecialEnv env(Env::Default()); // Allow both of flush and purge job to schedule. env.SetBackgroundThreads(2, Env::HIGH); db_options_.env = &env; db_options_.max_background_flushes = 1; column_family_options_.memtable_factory.reset(new SpecialSkipListFactory(2)); Open(); CreateColumnFamilies({"one"}); ASSERT_OK(Put(1, "fodor", "mirko")); // Create an iterator holding the current super version. ReadOptions ro; ro.background_purge_on_iterator_cleanup = true; Iterator* it = db_->NewIterator(ro, handles_[1]); // A flush will make `it` hold the last reference of its super version. Flush(1); ASSERT_OK(Put(1, "fodor", "mirko")); ASSERT_OK(Put(0, "fodor", "mirko")); ASSERT_OK(Put(1, "fodor", "mirko")); rocksdb::SyncPoint::GetInstance()->LoadDependency({ {"ColumnFamilyTest::IteratorCloseWALFile2:0", "DBImpl::BGWorkPurge:start"}, {"ColumnFamilyTest::IteratorCloseWALFile2:2", "DBImpl::BackgroundCallFlush:start"}, {"DBImpl::BGWorkPurge:end", "ColumnFamilyTest::IteratorCloseWALFile2:1"}, }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); WriteOptions wo; wo.sync = true; ASSERT_OK(db_->Put(wo, handles_[1], "fodor", "mirko")); ASSERT_EQ(2, env.num_open_wal_file_.load()); // Deleting the iterator will clear its super version, triggering // closing all files delete it; ASSERT_EQ(2, env.num_open_wal_file_.load()); TEST_SYNC_POINT("ColumnFamilyTest::IteratorCloseWALFile2:0"); TEST_SYNC_POINT("ColumnFamilyTest::IteratorCloseWALFile2:1"); ASSERT_EQ(1, env.num_open_wal_file_.load()); TEST_SYNC_POINT("ColumnFamilyTest::IteratorCloseWALFile2:2"); WaitForFlush(1); ASSERT_EQ(1, env.num_open_wal_file_.load()); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); Reopen(); ASSERT_EQ("mirko", Get(0, "fodor")); ASSERT_EQ("mirko", Get(1, "fodor")); db_options_.env = env_; Close(); } #endif // !ROCKSDB_LITE #ifndef ROCKSDB_LITE // TEST functions are not supported in lite TEST_P(ColumnFamilyTest, ForwardIteratorCloseWALFile) { SpecialEnv env(Env::Default()); // Allow both of flush and purge job to schedule. env.SetBackgroundThreads(2, Env::HIGH); db_options_.env = &env; db_options_.max_background_flushes = 1; column_family_options_.memtable_factory.reset(new SpecialSkipListFactory(3)); column_family_options_.level0_file_num_compaction_trigger = 2; Open(); CreateColumnFamilies({"one"}); ASSERT_OK(Put(1, "fodor", "mirko")); ASSERT_OK(Put(1, "fodar2", "mirko")); Flush(1); // Create an iterator holding the current super version, as well as // the SST file just flushed. ReadOptions ro; ro.tailing = true; ro.background_purge_on_iterator_cleanup = true; Iterator* it = db_->NewIterator(ro, handles_[1]); // A flush will make `it` hold the last reference of its super version. ASSERT_OK(Put(1, "fodor", "mirko")); ASSERT_OK(Put(1, "fodar2", "mirko")); Flush(1); WaitForCompaction(); ASSERT_OK(Put(1, "fodor", "mirko")); ASSERT_OK(Put(1, "fodor", "mirko")); ASSERT_OK(Put(0, "fodor", "mirko")); ASSERT_OK(Put(1, "fodor", "mirko")); rocksdb::SyncPoint::GetInstance()->LoadDependency({ {"ColumnFamilyTest::IteratorCloseWALFile2:0", "DBImpl::BGWorkPurge:start"}, {"ColumnFamilyTest::IteratorCloseWALFile2:2", "DBImpl::BackgroundCallFlush:start"}, {"DBImpl::BGWorkPurge:end", "ColumnFamilyTest::IteratorCloseWALFile2:1"}, }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); WriteOptions wo; wo.sync = true; ASSERT_OK(db_->Put(wo, handles_[1], "fodor", "mirko")); env.delete_count_.store(0); ASSERT_EQ(2, env.num_open_wal_file_.load()); // Deleting the iterator will clear its super version, triggering // closing all files it->Seek(""); ASSERT_EQ(2, env.num_open_wal_file_.load()); ASSERT_EQ(0, env.delete_count_.load()); TEST_SYNC_POINT("ColumnFamilyTest::IteratorCloseWALFile2:0"); TEST_SYNC_POINT("ColumnFamilyTest::IteratorCloseWALFile2:1"); ASSERT_EQ(1, env.num_open_wal_file_.load()); ASSERT_EQ(1, env.delete_count_.load()); TEST_SYNC_POINT("ColumnFamilyTest::IteratorCloseWALFile2:2"); WaitForFlush(1); ASSERT_EQ(1, env.num_open_wal_file_.load()); ASSERT_EQ(1, env.delete_count_.load()); delete it; rocksdb::SyncPoint::GetInstance()->DisableProcessing(); Reopen(); ASSERT_EQ("mirko", Get(0, "fodor")); ASSERT_EQ("mirko", Get(1, "fodor")); db_options_.env = env_; Close(); } #endif // !ROCKSDB_LITE // Disable on windows because SyncWAL requires env->IsSyncThreadSafe() // to return true which is not so in unbuffered mode. #ifndef OS_WIN TEST_P(ColumnFamilyTest, LogSyncConflictFlush) { Open(); CreateColumnFamiliesAndReopen({"one", "two"}); Put(0, "", ""); Put(1, "foo", "bar"); rocksdb::SyncPoint::GetInstance()->LoadDependency( {{"DBImpl::SyncWAL:BeforeMarkLogsSynced:1", "ColumnFamilyTest::LogSyncConflictFlush:1"}, {"ColumnFamilyTest::LogSyncConflictFlush:2", "DBImpl::SyncWAL:BeforeMarkLogsSynced:2"}}); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); rocksdb::port::Thread thread([&] { db_->SyncWAL(); }); TEST_SYNC_POINT("ColumnFamilyTest::LogSyncConflictFlush:1"); Flush(1); Put(1, "foo", "bar"); Flush(1); TEST_SYNC_POINT("ColumnFamilyTest::LogSyncConflictFlush:2"); thread.join(); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); Close(); } #endif // this test is placed here, because the infrastructure for Column Family // test is being used to ensure a roll of wal files. // Basic idea is to test that WAL truncation is being detected and not // ignored TEST_P(ColumnFamilyTest, DISABLED_LogTruncationTest) { Open(); CreateColumnFamiliesAndReopen({"one", "two"}); Build(0, 100); // Flush the 0th column family to force a roll of the wal log Flush(0); // Add some more entries Build(100, 100); std::vector filenames; ASSERT_OK(env_->GetChildren(dbname_, &filenames)); // collect wal files std::vector logfs; for (size_t i = 0; i < filenames.size(); i++) { uint64_t number; FileType type; if (!(ParseFileName(filenames[i], &number, &type))) continue; if (type != kLogFile) continue; logfs.push_back(filenames[i]); } std::sort(logfs.begin(), logfs.end()); ASSERT_GE(logfs.size(), 2); // Take the last but one file, and truncate it std::string fpath = dbname_ + "/" + logfs[logfs.size() - 2]; std::vector names_save = names_; uint64_t fsize; ASSERT_OK(env_->GetFileSize(fpath, &fsize)); ASSERT_GT(fsize, 0); Close(); std::string backup_logs = dbname_ + "/backup_logs"; std::string t_fpath = backup_logs + "/" + logfs[logfs.size() - 2]; ASSERT_OK(env_->CreateDirIfMissing(backup_logs)); // Not sure how easy it is to make this data driven. // need to read back the WAL file and truncate last 10 // entries CopyFile(fpath, t_fpath, fsize - 9180); ASSERT_OK(env_->DeleteFile(fpath)); ASSERT_OK(env_->RenameFile(t_fpath, fpath)); db_options_.wal_recovery_mode = WALRecoveryMode::kPointInTimeRecovery; OpenReadOnly(names_save); CheckMissed(); Close(); Open(names_save); CheckMissed(); Close(); // cleanup env_->DeleteDir(backup_logs); } TEST_P(ColumnFamilyTest, DefaultCfPathsTest) { Open(); // Leave cf_paths for one column families to be empty. // Files should be generated according to db_paths for that // column family. ColumnFamilyOptions cf_opt1, cf_opt2; cf_opt1.cf_paths.emplace_back(dbname_ + "_one_1", std::numeric_limits::max()); CreateColumnFamilies({"one", "two"}, {cf_opt1, cf_opt2}); Reopen({ColumnFamilyOptions(), cf_opt1, cf_opt2}); // Fill Column family 1. PutRandomData(1, 100, 100); Flush(1); ASSERT_EQ(1, GetSstFileCount(cf_opt1.cf_paths[0].path)); ASSERT_EQ(0, GetSstFileCount(dbname_)); // Fill column family 2 PutRandomData(2, 100, 100); Flush(2); // SST from Column family 2 should be generated in // db_paths which is dbname_ in this case. ASSERT_EQ(1, GetSstFileCount(dbname_)); } TEST_P(ColumnFamilyTest, MultipleCFPathsTest) { Open(); // Configure Column family specific paths. ColumnFamilyOptions cf_opt1, cf_opt2; cf_opt1.cf_paths.emplace_back(dbname_ + "_one_1", std::numeric_limits::max()); cf_opt2.cf_paths.emplace_back(dbname_ + "_two_1", std::numeric_limits::max()); CreateColumnFamilies({"one", "two"}, {cf_opt1, cf_opt2}); Reopen({ColumnFamilyOptions(), cf_opt1, cf_opt2}); PutRandomData(1, 100, 100, true /* save */); Flush(1); // Check that files are generated in appropriate paths. ASSERT_EQ(1, GetSstFileCount(cf_opt1.cf_paths[0].path)); ASSERT_EQ(0, GetSstFileCount(dbname_)); PutRandomData(2, 100, 100, true /* save */); Flush(2); ASSERT_EQ(1, GetSstFileCount(cf_opt2.cf_paths[0].path)); ASSERT_EQ(0, GetSstFileCount(dbname_)); // Re-open and verify the keys. Reopen({ColumnFamilyOptions(), cf_opt1, cf_opt2}); DBImpl* dbi = reinterpret_cast(db_); for (int cf = 1; cf != 3; ++cf) { ReadOptions read_options; read_options.readahead_size = 0; auto it = dbi->NewIterator(read_options, handles_[cf]); for (it->SeekToFirst(); it->Valid(); it->Next()) { Slice key(it->key()); ASSERT_NE(keys_[cf].end(), keys_[cf].find(key.ToString())); } delete it; for (const auto& key : keys_[cf]) { ASSERT_NE("NOT_FOUND", Get(cf, key)); } } } } // namespace rocksdb int main(int argc, char** argv) { ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/db/compact_files_test.cc000066400000000000000000000265461337235545400200300ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #ifndef ROCKSDB_LITE #include #include #include #include #include "db/db_impl.h" #include "port/port.h" #include "rocksdb/db.h" #include "rocksdb/env.h" #include "util/string_util.h" #include "util/sync_point.h" #include "util/testharness.h" namespace rocksdb { class CompactFilesTest : public testing::Test { public: CompactFilesTest() { env_ = Env::Default(); db_name_ = test::PerThreadDBPath("compact_files_test"); } std::string db_name_; Env* env_; }; // A class which remembers the name of each flushed file. class FlushedFileCollector : public EventListener { public: FlushedFileCollector() {} ~FlushedFileCollector() {} virtual void OnFlushCompleted(DB* /*db*/, const FlushJobInfo& info) override { std::lock_guard lock(mutex_); flushed_files_.push_back(info.file_path); } std::vector GetFlushedFiles() { std::lock_guard lock(mutex_); std::vector result; for (auto fname : flushed_files_) { result.push_back(fname); } return result; } void ClearFlushedFiles() { std::lock_guard lock(mutex_); flushed_files_.clear(); } private: std::vector flushed_files_; std::mutex mutex_; }; TEST_F(CompactFilesTest, L0ConflictsFiles) { Options options; // to trigger compaction more easily const int kWriteBufferSize = 10000; const int kLevel0Trigger = 2; options.create_if_missing = true; options.compaction_style = kCompactionStyleLevel; // Small slowdown and stop trigger for experimental purpose. options.level0_slowdown_writes_trigger = 20; options.level0_stop_writes_trigger = 20; options.level0_stop_writes_trigger = 20; options.write_buffer_size = kWriteBufferSize; options.level0_file_num_compaction_trigger = kLevel0Trigger; options.compression = kNoCompression; DB* db = nullptr; DestroyDB(db_name_, options); Status s = DB::Open(options, db_name_, &db); assert(s.ok()); assert(db); rocksdb::SyncPoint::GetInstance()->LoadDependency({ {"CompactFilesImpl:0", "BackgroundCallCompaction:0"}, {"BackgroundCallCompaction:1", "CompactFilesImpl:1"}, }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); // create couple files // Background compaction starts and waits in BackgroundCallCompaction:0 for (int i = 0; i < kLevel0Trigger * 4; ++i) { db->Put(WriteOptions(), ToString(i), ""); db->Put(WriteOptions(), ToString(100 - i), ""); db->Flush(FlushOptions()); } rocksdb::ColumnFamilyMetaData meta; db->GetColumnFamilyMetaData(&meta); std::string file1; for (auto& file : meta.levels[0].files) { ASSERT_EQ(0, meta.levels[0].level); if (file1 == "") { file1 = file.db_path + "/" + file.name; } else { std::string file2 = file.db_path + "/" + file.name; // Another thread starts a compact files and creates an L0 compaction // The background compaction then notices that there is an L0 compaction // already in progress and doesn't do an L0 compaction // Once the background compaction finishes, the compact files finishes ASSERT_OK( db->CompactFiles(rocksdb::CompactionOptions(), {file1, file2}, 0)); break; } } rocksdb::SyncPoint::GetInstance()->DisableProcessing(); delete db; } TEST_F(CompactFilesTest, ObsoleteFiles) { Options options; // to trigger compaction more easily const int kWriteBufferSize = 65536; options.create_if_missing = true; // Disable RocksDB background compaction. options.compaction_style = kCompactionStyleNone; options.level0_slowdown_writes_trigger = (1 << 30); options.level0_stop_writes_trigger = (1 << 30); options.write_buffer_size = kWriteBufferSize; options.max_write_buffer_number = 2; options.compression = kNoCompression; // Add listener FlushedFileCollector* collector = new FlushedFileCollector(); options.listeners.emplace_back(collector); DB* db = nullptr; DestroyDB(db_name_, options); Status s = DB::Open(options, db_name_, &db); assert(s.ok()); assert(db); // create couple files for (int i = 1000; i < 2000; ++i) { db->Put(WriteOptions(), ToString(i), std::string(kWriteBufferSize / 10, 'a' + (i % 26))); } auto l0_files = collector->GetFlushedFiles(); ASSERT_OK(db->CompactFiles(CompactionOptions(), l0_files, 1)); reinterpret_cast(db)->TEST_WaitForCompact(); // verify all compaction input files are deleted for (auto fname : l0_files) { ASSERT_EQ(Status::NotFound(), env_->FileExists(fname)); } delete db; } TEST_F(CompactFilesTest, NotCutOutputOnLevel0) { Options options; options.create_if_missing = true; // Disable RocksDB background compaction. options.compaction_style = kCompactionStyleNone; options.level0_slowdown_writes_trigger = 1000; options.level0_stop_writes_trigger = 1000; options.write_buffer_size = 65536; options.max_write_buffer_number = 2; options.compression = kNoCompression; options.max_compaction_bytes = 5000; // Add listener FlushedFileCollector* collector = new FlushedFileCollector(); options.listeners.emplace_back(collector); DB* db = nullptr; DestroyDB(db_name_, options); Status s = DB::Open(options, db_name_, &db); assert(s.ok()); assert(db); // create couple files for (int i = 0; i < 500; ++i) { db->Put(WriteOptions(), ToString(i), std::string(1000, 'a' + (i % 26))); } reinterpret_cast(db)->TEST_WaitForFlushMemTable(); auto l0_files_1 = collector->GetFlushedFiles(); collector->ClearFlushedFiles(); for (int i = 0; i < 500; ++i) { db->Put(WriteOptions(), ToString(i), std::string(1000, 'a' + (i % 26))); } reinterpret_cast(db)->TEST_WaitForFlushMemTable(); auto l0_files_2 = collector->GetFlushedFiles(); ASSERT_OK(db->CompactFiles(CompactionOptions(), l0_files_1, 0)); ASSERT_OK(db->CompactFiles(CompactionOptions(), l0_files_2, 0)); // no assertion failure delete db; } TEST_F(CompactFilesTest, CapturingPendingFiles) { Options options; options.create_if_missing = true; // Disable RocksDB background compaction. options.compaction_style = kCompactionStyleNone; // Always do full scans for obsolete files (needed to reproduce the issue). options.delete_obsolete_files_period_micros = 0; // Add listener. FlushedFileCollector* collector = new FlushedFileCollector(); options.listeners.emplace_back(collector); DB* db = nullptr; DestroyDB(db_name_, options); Status s = DB::Open(options, db_name_, &db); assert(s.ok()); assert(db); // Create 5 files. for (int i = 0; i < 5; ++i) { db->Put(WriteOptions(), "key" + ToString(i), "value"); db->Flush(FlushOptions()); } auto l0_files = collector->GetFlushedFiles(); EXPECT_EQ(5, l0_files.size()); rocksdb::SyncPoint::GetInstance()->LoadDependency({ {"CompactFilesImpl:2", "CompactFilesTest.CapturingPendingFiles:0"}, {"CompactFilesTest.CapturingPendingFiles:1", "CompactFilesImpl:3"}, }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); // Start compacting files. rocksdb::port::Thread compaction_thread( [&] { EXPECT_OK(db->CompactFiles(CompactionOptions(), l0_files, 1)); }); // In the meantime flush another file. TEST_SYNC_POINT("CompactFilesTest.CapturingPendingFiles:0"); db->Put(WriteOptions(), "key5", "value"); db->Flush(FlushOptions()); TEST_SYNC_POINT("CompactFilesTest.CapturingPendingFiles:1"); compaction_thread.join(); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); delete db; // Make sure we can reopen the DB. s = DB::Open(options, db_name_, &db); ASSERT_TRUE(s.ok()); assert(db); delete db; } TEST_F(CompactFilesTest, CompactionFilterWithGetSv) { class FilterWithGet : public CompactionFilter { public: virtual bool Filter(int /*level*/, const Slice& /*key*/, const Slice& /*value*/, std::string* /*new_value*/, bool* /*value_changed*/) const override { if (db_ == nullptr) { return true; } std::string res; db_->Get(ReadOptions(), "", &res); return true; } void SetDB(DB* db) { db_ = db; } virtual const char* Name() const override { return "FilterWithGet"; } private: DB* db_; }; std::shared_ptr cf(new FilterWithGet()); Options options; options.create_if_missing = true; options.compaction_filter = cf.get(); DB* db = nullptr; DestroyDB(db_name_, options); Status s = DB::Open(options, db_name_, &db); ASSERT_OK(s); cf->SetDB(db); // Write one L0 file db->Put(WriteOptions(), "K1", "V1"); db->Flush(FlushOptions()); // Compact all L0 files using CompactFiles rocksdb::ColumnFamilyMetaData meta; db->GetColumnFamilyMetaData(&meta); for (auto& file : meta.levels[0].files) { std::string fname = file.db_path + "/" + file.name; ASSERT_OK( db->CompactFiles(rocksdb::CompactionOptions(), {fname}, 0)); } delete db; } TEST_F(CompactFilesTest, SentinelCompressionType) { if (!Zlib_Supported()) { fprintf(stderr, "zlib compression not supported, skip this test\n"); return; } if (!Snappy_Supported()) { fprintf(stderr, "snappy compression not supported, skip this test\n"); return; } // Check that passing `CompressionType::kDisableCompressionOption` to // `CompactFiles` causes it to use the column family compression options. for (auto compaction_style : {CompactionStyle::kCompactionStyleLevel, CompactionStyle::kCompactionStyleUniversal, CompactionStyle::kCompactionStyleNone}) { DestroyDB(db_name_, Options()); Options options; options.compaction_style = compaction_style; // L0: Snappy, L1: ZSTD, L2: Snappy options.compression_per_level = {CompressionType::kSnappyCompression, CompressionType::kZlibCompression, CompressionType::kSnappyCompression}; options.create_if_missing = true; FlushedFileCollector* collector = new FlushedFileCollector(); options.listeners.emplace_back(collector); DB* db = nullptr; ASSERT_OK(DB::Open(options, db_name_, &db)); db->Put(WriteOptions(), "key", "val"); db->Flush(FlushOptions()); auto l0_files = collector->GetFlushedFiles(); ASSERT_EQ(1, l0_files.size()); // L0->L1 compaction, so output should be ZSTD-compressed CompactionOptions compaction_opts; compaction_opts.compression = CompressionType::kDisableCompressionOption; ASSERT_OK(db->CompactFiles(compaction_opts, l0_files, 1)); rocksdb::TablePropertiesCollection all_tables_props; ASSERT_OK(db->GetPropertiesOfAllTables(&all_tables_props)); for (const auto& name_and_table_props : all_tables_props) { ASSERT_EQ(CompressionTypeToString(CompressionType::kZlibCompression), name_and_table_props.second->compression_name); } delete db; } } } // namespace rocksdb int main(int argc, char** argv) { ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } #else #include int main(int /*argc*/, char** /*argv*/) { fprintf(stderr, "SKIPPED as DBImpl::CompactFiles is not supported in ROCKSDB_LITE\n"); return 0; } #endif // !ROCKSDB_LITE rocksdb-5.17.2/db/compacted_db_impl.cc000066400000000000000000000131231337235545400175710ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #ifndef ROCKSDB_LITE #include "db/compacted_db_impl.h" #include "db/db_impl.h" #include "db/version_set.h" #include "table/get_context.h" namespace rocksdb { extern void MarkKeyMayExist(void* arg); extern bool SaveValue(void* arg, const ParsedInternalKey& parsed_key, const Slice& v, bool hit_and_return); CompactedDBImpl::CompactedDBImpl( const DBOptions& options, const std::string& dbname) : DBImpl(options, dbname), cfd_(nullptr), version_(nullptr), user_comparator_(nullptr) { } CompactedDBImpl::~CompactedDBImpl() { } size_t CompactedDBImpl::FindFile(const Slice& key) { size_t right = files_.num_files - 1; auto cmp = [&](const FdWithKeyRange& f, const Slice& k) -> bool { return user_comparator_->Compare(ExtractUserKey(f.largest_key), k) < 0; }; return static_cast(std::lower_bound(files_.files, files_.files + right, key, cmp) - files_.files); } Status CompactedDBImpl::Get(const ReadOptions& options, ColumnFamilyHandle*, const Slice& key, PinnableSlice* value) { GetContext get_context(user_comparator_, nullptr, nullptr, nullptr, GetContext::kNotFound, key, value, nullptr, nullptr, nullptr, nullptr); LookupKey lkey(key, kMaxSequenceNumber); files_.files[FindFile(key)].fd.table_reader->Get(options, lkey.internal_key(), &get_context, nullptr); if (get_context.State() == GetContext::kFound) { return Status::OK(); } return Status::NotFound(); } std::vector CompactedDBImpl::MultiGet(const ReadOptions& options, const std::vector&, const std::vector& keys, std::vector* values) { autovector reader_list; for (const auto& key : keys) { const FdWithKeyRange& f = files_.files[FindFile(key)]; if (user_comparator_->Compare(key, ExtractUserKey(f.smallest_key)) < 0) { reader_list.push_back(nullptr); } else { LookupKey lkey(key, kMaxSequenceNumber); f.fd.table_reader->Prepare(lkey.internal_key()); reader_list.push_back(f.fd.table_reader); } } std::vector statuses(keys.size(), Status::NotFound()); values->resize(keys.size()); int idx = 0; for (auto* r : reader_list) { if (r != nullptr) { PinnableSlice pinnable_val; std::string& value = (*values)[idx]; GetContext get_context(user_comparator_, nullptr, nullptr, nullptr, GetContext::kNotFound, keys[idx], &pinnable_val, nullptr, nullptr, nullptr, nullptr); LookupKey lkey(keys[idx], kMaxSequenceNumber); r->Get(options, lkey.internal_key(), &get_context, nullptr); value.assign(pinnable_val.data(), pinnable_val.size()); if (get_context.State() == GetContext::kFound) { statuses[idx] = Status::OK(); } } ++idx; } return statuses; } Status CompactedDBImpl::Init(const Options& options) { SuperVersionContext sv_context(/* create_superversion */ true); mutex_.Lock(); ColumnFamilyDescriptor cf(kDefaultColumnFamilyName, ColumnFamilyOptions(options)); Status s = Recover({cf}, true /* read only */, false, true); if (s.ok()) { cfd_ = reinterpret_cast( DefaultColumnFamily())->cfd(); cfd_->InstallSuperVersion(&sv_context, &mutex_); } mutex_.Unlock(); sv_context.Clean(); if (!s.ok()) { return s; } NewThreadStatusCfInfo(cfd_); version_ = cfd_->GetSuperVersion()->current; user_comparator_ = cfd_->user_comparator(); auto* vstorage = version_->storage_info(); if (vstorage->num_non_empty_levels() == 0) { return Status::NotSupported("no file exists"); } const LevelFilesBrief& l0 = vstorage->LevelFilesBrief(0); // L0 should not have files if (l0.num_files > 1) { return Status::NotSupported("L0 contain more than 1 file"); } if (l0.num_files == 1) { if (vstorage->num_non_empty_levels() > 1) { return Status::NotSupported("Both L0 and other level contain files"); } files_ = l0; return Status::OK(); } for (int i = 1; i < vstorage->num_non_empty_levels() - 1; ++i) { if (vstorage->LevelFilesBrief(i).num_files > 0) { return Status::NotSupported("Other levels also contain files"); } } int level = vstorage->num_non_empty_levels() - 1; if (vstorage->LevelFilesBrief(level).num_files > 0) { files_ = vstorage->LevelFilesBrief(level); return Status::OK(); } return Status::NotSupported("no file exists"); } Status CompactedDBImpl::Open(const Options& options, const std::string& dbname, DB** dbptr) { *dbptr = nullptr; if (options.max_open_files != -1) { return Status::InvalidArgument("require max_open_files = -1"); } if (options.merge_operator.get() != nullptr) { return Status::InvalidArgument("merge operator is not supported"); } DBOptions db_options(options); std::unique_ptr db(new CompactedDBImpl(db_options, dbname)); Status s = db->Init(options); if (s.ok()) { ROCKS_LOG_INFO(db->immutable_db_options_.info_log, "Opened the db as fully compacted mode"); LogFlush(db->immutable_db_options_.info_log); *dbptr = db.release(); } return s; } } // namespace rocksdb #endif // ROCKSDB_LITE rocksdb-5.17.2/db/compacted_db_impl.h000066400000000000000000000076011337235545400174370ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #ifndef ROCKSDB_LITE #include "db/db_impl.h" #include #include namespace rocksdb { class CompactedDBImpl : public DBImpl { public: CompactedDBImpl(const DBOptions& options, const std::string& dbname); virtual ~CompactedDBImpl(); static Status Open(const Options& options, const std::string& dbname, DB** dbptr); // Implementations of the DB interface using DB::Get; virtual Status Get(const ReadOptions& options, ColumnFamilyHandle* column_family, const Slice& key, PinnableSlice* value) override; using DB::MultiGet; virtual std::vector MultiGet( const ReadOptions& options, const std::vector&, const std::vector& keys, std::vector* values) override; using DBImpl::Put; virtual Status Put(const WriteOptions& /*options*/, ColumnFamilyHandle* /*column_family*/, const Slice& /*key*/, const Slice& /*value*/) override { return Status::NotSupported("Not supported in compacted db mode."); } using DBImpl::Merge; virtual Status Merge(const WriteOptions& /*options*/, ColumnFamilyHandle* /*column_family*/, const Slice& /*key*/, const Slice& /*value*/) override { return Status::NotSupported("Not supported in compacted db mode."); } using DBImpl::Delete; virtual Status Delete(const WriteOptions& /*options*/, ColumnFamilyHandle* /*column_family*/, const Slice& /*key*/) override { return Status::NotSupported("Not supported in compacted db mode."); } virtual Status Write(const WriteOptions& /*options*/, WriteBatch* /*updates*/) override { return Status::NotSupported("Not supported in compacted db mode."); } using DBImpl::CompactRange; virtual Status CompactRange(const CompactRangeOptions& /*options*/, ColumnFamilyHandle* /*column_family*/, const Slice* /*begin*/, const Slice* /*end*/) override { return Status::NotSupported("Not supported in compacted db mode."); } virtual Status DisableFileDeletions() override { return Status::NotSupported("Not supported in compacted db mode."); } virtual Status EnableFileDeletions(bool /*force*/) override { return Status::NotSupported("Not supported in compacted db mode."); } virtual Status GetLiveFiles(std::vector&, uint64_t* /*manifest_file_size*/, bool /*flush_memtable*/ = true) override { return Status::NotSupported("Not supported in compacted db mode."); } using DBImpl::Flush; virtual Status Flush(const FlushOptions& /*options*/, ColumnFamilyHandle* /*column_family*/) override { return Status::NotSupported("Not supported in compacted db mode."); } using DB::IngestExternalFile; virtual Status IngestExternalFile( ColumnFamilyHandle* /*column_family*/, const std::vector& /*external_files*/, const IngestExternalFileOptions& /*ingestion_options*/) override { return Status::NotSupported("Not supported in compacted db mode."); } private: friend class DB; inline size_t FindFile(const Slice& key); Status Init(const Options& options); ColumnFamilyData* cfd_; Version* version_; const Comparator* user_comparator_; LevelFilesBrief files_; // No copying allowed CompactedDBImpl(const CompactedDBImpl&); void operator=(const CompactedDBImpl&); }; } #endif // ROCKSDB_LITE rocksdb-5.17.2/db/compaction.cc000066400000000000000000000401251337235545400163020ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "db/compaction.h" #ifndef __STDC_FORMAT_MACROS #define __STDC_FORMAT_MACROS #endif #include #include #include "db/column_family.h" #include "rocksdb/compaction_filter.h" #include "util/string_util.h" #include "util/sync_point.h" namespace rocksdb { uint64_t TotalFileSize(const std::vector& files) { uint64_t sum = 0; for (size_t i = 0; i < files.size() && files[i]; i++) { sum += files[i]->fd.GetFileSize(); } return sum; } void Compaction::SetInputVersion(Version* _input_version) { input_version_ = _input_version; cfd_ = input_version_->cfd(); cfd_->Ref(); input_version_->Ref(); edit_.SetColumnFamily(cfd_->GetID()); } void Compaction::GetBoundaryKeys( VersionStorageInfo* vstorage, const std::vector& inputs, Slice* smallest_user_key, Slice* largest_user_key) { bool initialized = false; const Comparator* ucmp = vstorage->InternalComparator()->user_comparator(); for (size_t i = 0; i < inputs.size(); ++i) { if (inputs[i].files.empty()) { continue; } if (inputs[i].level == 0) { // we need to consider all files on level 0 for (const auto* f : inputs[i].files) { const Slice& start_user_key = f->smallest.user_key(); if (!initialized || ucmp->Compare(start_user_key, *smallest_user_key) < 0) { *smallest_user_key = start_user_key; } const Slice& end_user_key = f->largest.user_key(); if (!initialized || ucmp->Compare(end_user_key, *largest_user_key) > 0) { *largest_user_key = end_user_key; } initialized = true; } } else { // we only need to consider the first and last file const Slice& start_user_key = inputs[i].files[0]->smallest.user_key(); if (!initialized || ucmp->Compare(start_user_key, *smallest_user_key) < 0) { *smallest_user_key = start_user_key; } const Slice& end_user_key = inputs[i].files.back()->largest.user_key(); if (!initialized || ucmp->Compare(end_user_key, *largest_user_key) > 0) { *largest_user_key = end_user_key; } initialized = true; } } } // helper function to determine if compaction is creating files at the // bottommost level bool Compaction::IsBottommostLevel( int output_level, VersionStorageInfo* vstorage, const std::vector& inputs) { int output_l0_idx; if (output_level == 0) { output_l0_idx = 0; for (const auto* file : vstorage->LevelFiles(0)) { if (inputs[0].files.back() == file) { break; } ++output_l0_idx; } assert(static_cast(output_l0_idx) < vstorage->LevelFiles(0).size()); } else { output_l0_idx = -1; } Slice smallest_key, largest_key; GetBoundaryKeys(vstorage, inputs, &smallest_key, &largest_key); return !vstorage->RangeMightExistAfterSortedRun(smallest_key, largest_key, output_level, output_l0_idx); } // test function to validate the functionality of IsBottommostLevel() // function -- determines if compaction with inputs and storage is bottommost bool Compaction::TEST_IsBottommostLevel( int output_level, VersionStorageInfo* vstorage, const std::vector& inputs) { return IsBottommostLevel(output_level, vstorage, inputs); } bool Compaction::IsFullCompaction( VersionStorageInfo* vstorage, const std::vector& inputs) { size_t num_files_in_compaction = 0; size_t total_num_files = 0; for (int l = 0; l < vstorage->num_levels(); l++) { total_num_files += vstorage->NumLevelFiles(l); } for (size_t i = 0; i < inputs.size(); i++) { num_files_in_compaction += inputs[i].size(); } return num_files_in_compaction == total_num_files; } Compaction::Compaction(VersionStorageInfo* vstorage, const ImmutableCFOptions& _immutable_cf_options, const MutableCFOptions& _mutable_cf_options, std::vector _inputs, int _output_level, uint64_t _target_file_size, uint64_t _max_compaction_bytes, uint32_t _output_path_id, CompressionType _compression, CompressionOptions _compression_opts, uint32_t _max_subcompactions, std::vector _grandparents, bool _manual_compaction, double _score, bool _deletion_compaction, CompactionReason _compaction_reason) : input_vstorage_(vstorage), start_level_(_inputs[0].level), output_level_(_output_level), max_output_file_size_(_target_file_size), max_compaction_bytes_(_max_compaction_bytes), max_subcompactions_(_max_subcompactions), immutable_cf_options_(_immutable_cf_options), mutable_cf_options_(_mutable_cf_options), input_version_(nullptr), number_levels_(vstorage->num_levels()), cfd_(nullptr), output_path_id_(_output_path_id), output_compression_(_compression), output_compression_opts_(_compression_opts), deletion_compaction_(_deletion_compaction), inputs_(std::move(_inputs)), grandparents_(std::move(_grandparents)), score_(_score), bottommost_level_(IsBottommostLevel(output_level_, vstorage, inputs_)), is_full_compaction_(IsFullCompaction(vstorage, inputs_)), is_manual_compaction_(_manual_compaction), is_trivial_move_(false), compaction_reason_(_compaction_reason) { MarkFilesBeingCompacted(true); if (is_manual_compaction_) { compaction_reason_ = CompactionReason::kManualCompaction; } if (max_subcompactions_ == 0) { max_subcompactions_ = immutable_cf_options_.max_subcompactions; } #ifndef NDEBUG for (size_t i = 1; i < inputs_.size(); ++i) { assert(inputs_[i].level > inputs_[i - 1].level); } #endif // setup input_levels_ { input_levels_.resize(num_input_levels()); for (size_t which = 0; which < num_input_levels(); which++) { DoGenerateLevelFilesBrief(&input_levels_[which], inputs_[which].files, &arena_); } } GetBoundaryKeys(vstorage, inputs_, &smallest_user_key_, &largest_user_key_); } Compaction::~Compaction() { if (input_version_ != nullptr) { input_version_->Unref(); } if (cfd_ != nullptr) { if (cfd_->Unref()) { delete cfd_; } } } bool Compaction::InputCompressionMatchesOutput() const { int base_level = input_vstorage_->base_level(); bool matches = (GetCompressionType(immutable_cf_options_, input_vstorage_, mutable_cf_options_, start_level_, base_level) == output_compression_); if (matches) { TEST_SYNC_POINT("Compaction::InputCompressionMatchesOutput:Matches"); return true; } TEST_SYNC_POINT("Compaction::InputCompressionMatchesOutput:DidntMatch"); return matches; } bool Compaction::IsTrivialMove() const { // Avoid a move if there is lots of overlapping grandparent data. // Otherwise, the move could create a parent file that will require // a very expensive merge later on. // If start_level_== output_level_, the purpose is to force compaction // filter to be applied to that level, and thus cannot be a trivial move. // Check if start level have files with overlapping ranges if (start_level_ == 0 && input_vstorage_->level0_non_overlapping() == false) { // We cannot move files from L0 to L1 if the files are overlapping return false; } if (is_manual_compaction_ && (immutable_cf_options_.compaction_filter != nullptr || immutable_cf_options_.compaction_filter_factory != nullptr)) { // This is a manual compaction and we have a compaction filter that should // be executed, we cannot do a trivial move return false; } // Used in universal compaction, where trivial move can be done if the // input files are non overlapping if ((mutable_cf_options_.compaction_options_universal.allow_trivial_move) && (output_level_ != 0)) { return is_trivial_move_; } if (!(start_level_ != output_level_ && num_input_levels() == 1 && input(0, 0)->fd.GetPathId() == output_path_id() && InputCompressionMatchesOutput())) { return false; } // assert inputs_.size() == 1 for (const auto& file : inputs_.front().files) { std::vector file_grand_parents; if (output_level_ + 1 >= number_levels_) { continue; } input_vstorage_->GetOverlappingInputs(output_level_ + 1, &file->smallest, &file->largest, &file_grand_parents); const auto compaction_size = file->fd.GetFileSize() + TotalFileSize(file_grand_parents); if (compaction_size > max_compaction_bytes_) { return false; } } return true; } void Compaction::AddInputDeletions(VersionEdit* out_edit) { for (size_t which = 0; which < num_input_levels(); which++) { for (size_t i = 0; i < inputs_[which].size(); i++) { out_edit->DeleteFile(level(which), inputs_[which][i]->fd.GetNumber()); } } } bool Compaction::KeyNotExistsBeyondOutputLevel( const Slice& user_key, std::vector* level_ptrs) const { assert(input_version_ != nullptr); assert(level_ptrs != nullptr); assert(level_ptrs->size() == static_cast(number_levels_)); if (bottommost_level_) { return true; } else if (output_level_ != 0 && cfd_->ioptions()->compaction_style == kCompactionStyleLevel) { // Maybe use binary search to find right entry instead of linear search? const Comparator* user_cmp = cfd_->user_comparator(); for (int lvl = output_level_ + 1; lvl < number_levels_; lvl++) { const std::vector& files = input_vstorage_->LevelFiles(lvl); for (; level_ptrs->at(lvl) < files.size(); level_ptrs->at(lvl)++) { auto* f = files[level_ptrs->at(lvl)]; if (user_cmp->Compare(user_key, f->largest.user_key()) <= 0) { // We've advanced far enough if (user_cmp->Compare(user_key, f->smallest.user_key()) >= 0) { // Key falls in this file's range, so definitely // exists beyond output level return false; } break; } } } return true; } return false; } // Mark (or clear) each file that is being compacted void Compaction::MarkFilesBeingCompacted(bool mark_as_compacted) { for (size_t i = 0; i < num_input_levels(); i++) { for (size_t j = 0; j < inputs_[i].size(); j++) { assert(mark_as_compacted ? !inputs_[i][j]->being_compacted : inputs_[i][j]->being_compacted); inputs_[i][j]->being_compacted = mark_as_compacted; } } } // Sample output: // If compacting 3 L0 files, 2 L3 files and 1 L4 file, and outputting to L5, // print: "3@0 + 2@3 + 1@4 files to L5" const char* Compaction::InputLevelSummary( InputLevelSummaryBuffer* scratch) const { int len = 0; bool is_first = true; for (auto& input_level : inputs_) { if (input_level.empty()) { continue; } if (!is_first) { len += snprintf(scratch->buffer + len, sizeof(scratch->buffer) - len, " + "); } else { is_first = false; } len += snprintf(scratch->buffer + len, sizeof(scratch->buffer) - len, "%" ROCKSDB_PRIszt "@%d", input_level.size(), input_level.level); } snprintf(scratch->buffer + len, sizeof(scratch->buffer) - len, " files to L%d", output_level()); return scratch->buffer; } uint64_t Compaction::CalculateTotalInputSize() const { uint64_t size = 0; for (auto& input_level : inputs_) { for (auto f : input_level.files) { size += f->fd.GetFileSize(); } } return size; } void Compaction::ReleaseCompactionFiles(Status status) { MarkFilesBeingCompacted(false); cfd_->compaction_picker()->ReleaseCompactionFiles(this, status); } void Compaction::ResetNextCompactionIndex() { assert(input_version_ != nullptr); input_vstorage_->ResetNextCompactionIndex(start_level_); } namespace { int InputSummary(const std::vector& files, char* output, int len) { *output = '\0'; int write = 0; for (size_t i = 0; i < files.size(); i++) { int sz = len - write; int ret; char sztxt[16]; AppendHumanBytes(files.at(i)->fd.GetFileSize(), sztxt, 16); ret = snprintf(output + write, sz, "%" PRIu64 "(%s) ", files.at(i)->fd.GetNumber(), sztxt); if (ret < 0 || ret >= sz) break; write += ret; } // if files.size() is non-zero, overwrite the last space return write - !!files.size(); } } // namespace void Compaction::Summary(char* output, int len) { int write = snprintf(output, len, "Base version %" PRIu64 " Base level %d, inputs: [", input_version_->GetVersionNumber(), start_level_); if (write < 0 || write >= len) { return; } for (size_t level_iter = 0; level_iter < num_input_levels(); ++level_iter) { if (level_iter > 0) { write += snprintf(output + write, len - write, "], ["); if (write < 0 || write >= len) { return; } } write += InputSummary(inputs_[level_iter].files, output + write, len - write); if (write < 0 || write >= len) { return; } } snprintf(output + write, len - write, "]"); } uint64_t Compaction::OutputFilePreallocationSize() const { uint64_t preallocation_size = 0; for (const auto& level_files : inputs_) { for (const auto& file : level_files.files) { preallocation_size += file->fd.GetFileSize(); } } if (max_output_file_size_ != port::kMaxUint64 && (immutable_cf_options_.compaction_style == kCompactionStyleLevel || output_level() > 0)) { preallocation_size = std::min(max_output_file_size_, preallocation_size); } // Over-estimate slightly so we don't end up just barely crossing // the threshold // No point to prellocate more than 1GB. return std::min(uint64_t{1073741824}, preallocation_size + (preallocation_size / 10)); } std::unique_ptr Compaction::CreateCompactionFilter() const { if (!cfd_->ioptions()->compaction_filter_factory) { return nullptr; } CompactionFilter::Context context; context.is_full_compaction = is_full_compaction_; context.is_manual_compaction = is_manual_compaction_; context.column_family_id = cfd_->GetID(); return cfd_->ioptions()->compaction_filter_factory->CreateCompactionFilter( context); } bool Compaction::IsOutputLevelEmpty() const { return inputs_.back().level != output_level_ || inputs_.back().empty(); } bool Compaction::ShouldFormSubcompactions() const { if (max_subcompactions_ <= 1 || cfd_ == nullptr) { return false; } if (cfd_->ioptions()->compaction_style == kCompactionStyleLevel) { return (start_level_ == 0 || is_manual_compaction_) && output_level_ > 0 && !IsOutputLevelEmpty(); } else if (cfd_->ioptions()->compaction_style == kCompactionStyleUniversal) { return number_levels_ > 1 && output_level_ > 0; } else { return false; } } uint64_t Compaction::MaxInputFileCreationTime() const { uint64_t max_creation_time = 0; for (const auto& file : inputs_[0].files) { if (file->fd.table_reader != nullptr && file->fd.table_reader->GetTableProperties() != nullptr) { uint64_t creation_time = file->fd.table_reader->GetTableProperties()->creation_time; max_creation_time = std::max(max_creation_time, creation_time); } } return max_creation_time; } int Compaction::GetInputBaseLevel() const { return input_vstorage_->base_level(); } } // namespace rocksdb rocksdb-5.17.2/db/compaction.h000066400000000000000000000302571337235545400161510ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #include "db/version_set.h" #include "options/cf_options.h" #include "util/arena.h" #include "util/autovector.h" namespace rocksdb { // The structure that manages compaction input files associated // with the same physical level. struct CompactionInputFiles { int level; std::vector files; inline bool empty() const { return files.empty(); } inline size_t size() const { return files.size(); } inline void clear() { files.clear(); } inline FileMetaData* operator[](size_t i) const { return files[i]; } }; class Version; class ColumnFamilyData; class VersionStorageInfo; class CompactionFilter; // A Compaction encapsulates information about a compaction. class Compaction { public: Compaction(VersionStorageInfo* input_version, const ImmutableCFOptions& immutable_cf_options, const MutableCFOptions& mutable_cf_options, std::vector inputs, int output_level, uint64_t target_file_size, uint64_t max_compaction_bytes, uint32_t output_path_id, CompressionType compression, CompressionOptions compression_opts, uint32_t max_subcompactions, std::vector grandparents, bool manual_compaction = false, double score = -1, bool deletion_compaction = false, CompactionReason compaction_reason = CompactionReason::kUnknown); // No copying allowed Compaction(const Compaction&) = delete; void operator=(const Compaction&) = delete; ~Compaction(); // Returns the level associated to the specified compaction input level. // If compaction_input_level is not specified, then input_level is set to 0. int level(size_t compaction_input_level = 0) const { return inputs_[compaction_input_level].level; } int start_level() const { return start_level_; } // Outputs will go to this level int output_level() const { return output_level_; } // Returns the number of input levels in this compaction. size_t num_input_levels() const { return inputs_.size(); } // Return the object that holds the edits to the descriptor done // by this compaction. VersionEdit* edit() { return &edit_; } // Returns the number of input files associated to the specified // compaction input level. // The function will return 0 if when "compaction_input_level" < 0 // or "compaction_input_level" >= "num_input_levels()". size_t num_input_files(size_t compaction_input_level) const { if (compaction_input_level < inputs_.size()) { return inputs_[compaction_input_level].size(); } return 0; } // Returns input version of the compaction Version* input_version() const { return input_version_; } // Returns the ColumnFamilyData associated with the compaction. ColumnFamilyData* column_family_data() const { return cfd_; } // Returns the file meta data of the 'i'th input file at the // specified compaction input level. // REQUIREMENT: "compaction_input_level" must be >= 0 and // < "input_levels()" FileMetaData* input(size_t compaction_input_level, size_t i) const { assert(compaction_input_level < inputs_.size()); return inputs_[compaction_input_level][i]; } // Returns the list of file meta data of the specified compaction // input level. // REQUIREMENT: "compaction_input_level" must be >= 0 and // < "input_levels()" const std::vector* inputs( size_t compaction_input_level) const { assert(compaction_input_level < inputs_.size()); return &inputs_[compaction_input_level].files; } const std::vector* inputs() { return &inputs_; } // Returns the LevelFilesBrief of the specified compaction input level. const LevelFilesBrief* input_levels(size_t compaction_input_level) const { return &input_levels_[compaction_input_level]; } // Maximum size of files to build during this compaction. uint64_t max_output_file_size() const { return max_output_file_size_; } // What compression for output CompressionType output_compression() const { return output_compression_; } // What compression options for output CompressionOptions output_compression_opts() const { return output_compression_opts_; } // Whether need to write output file to second DB path. uint32_t output_path_id() const { return output_path_id_; } // Is this a trivial compaction that can be implemented by just // moving a single input file to the next level (no merging or splitting) bool IsTrivialMove() const; // If true, then the compaction can be done by simply deleting input files. bool deletion_compaction() const { return deletion_compaction_; } // Add all inputs to this compaction as delete operations to *edit. void AddInputDeletions(VersionEdit* edit); // Returns true if the available information we have guarantees that // the input "user_key" does not exist in any level beyond "output_level()". bool KeyNotExistsBeyondOutputLevel(const Slice& user_key, std::vector* level_ptrs) const; // Clear all files to indicate that they are not being compacted // Delete this compaction from the list of running compactions. // // Requirement: DB mutex held void ReleaseCompactionFiles(Status status); // Returns the summary of the compaction in "output" with maximum "len" // in bytes. The caller is responsible for the memory management of // "output". void Summary(char* output, int len); // Return the score that was used to pick this compaction run. double score() const { return score_; } // Is this compaction creating a file in the bottom most level? bool bottommost_level() const { return bottommost_level_; } // Does this compaction include all sst files? bool is_full_compaction() const { return is_full_compaction_; } // Was this compaction triggered manually by the client? bool is_manual_compaction() const { return is_manual_compaction_; } // Used when allow_trivial_move option is set in // Universal compaction. If all the input files are // non overlapping, then is_trivial_move_ variable // will be set true, else false void set_is_trivial_move(bool trivial_move) { is_trivial_move_ = trivial_move; } // Used when allow_trivial_move option is set in // Universal compaction. Returns true, if the input files // are non-overlapping and can be trivially moved. bool is_trivial_move() const { return is_trivial_move_; } // How many total levels are there? int number_levels() const { return number_levels_; } // Return the ImmutableCFOptions that should be used throughout the compaction // procedure const ImmutableCFOptions* immutable_cf_options() const { return &immutable_cf_options_; } // Return the MutableCFOptions that should be used throughout the compaction // procedure const MutableCFOptions* mutable_cf_options() const { return &mutable_cf_options_; } // Returns the size in bytes that the output file should be preallocated to. // In level compaction, that is max_file_size_. In universal compaction, that // is the sum of all input file sizes. uint64_t OutputFilePreallocationSize() const; void SetInputVersion(Version* input_version); struct InputLevelSummaryBuffer { char buffer[128]; }; const char* InputLevelSummary(InputLevelSummaryBuffer* scratch) const; uint64_t CalculateTotalInputSize() const; // In case of compaction error, reset the nextIndex that is used // to pick up the next file to be compacted from files_by_size_ void ResetNextCompactionIndex(); // Create a CompactionFilter from compaction_filter_factory std::unique_ptr CreateCompactionFilter() const; // Is the input level corresponding to output_level_ empty? bool IsOutputLevelEmpty() const; // Should this compaction be broken up into smaller ones run in parallel? bool ShouldFormSubcompactions() const; // test function to validate the functionality of IsBottommostLevel() // function -- determines if compaction with inputs and storage is bottommost static bool TEST_IsBottommostLevel( int output_level, VersionStorageInfo* vstorage, const std::vector& inputs); TablePropertiesCollection GetOutputTableProperties() const { return output_table_properties_; } void SetOutputTableProperties(TablePropertiesCollection tp) { output_table_properties_ = std::move(tp); } Slice GetSmallestUserKey() const { return smallest_user_key_; } Slice GetLargestUserKey() const { return largest_user_key_; } int GetInputBaseLevel() const; CompactionReason compaction_reason() { return compaction_reason_; } const std::vector& grandparents() const { return grandparents_; } uint64_t max_compaction_bytes() const { return max_compaction_bytes_; } uint32_t max_subcompactions() const { return max_subcompactions_; } uint64_t MaxInputFileCreationTime() const; private: // mark (or clear) all files that are being compacted void MarkFilesBeingCompacted(bool mark_as_compacted); // get the smallest and largest key present in files to be compacted static void GetBoundaryKeys(VersionStorageInfo* vstorage, const std::vector& inputs, Slice* smallest_key, Slice* largest_key); // helper function to determine if compaction with inputs and storage is // bottommost static bool IsBottommostLevel( int output_level, VersionStorageInfo* vstorage, const std::vector& inputs); static bool IsFullCompaction(VersionStorageInfo* vstorage, const std::vector& inputs); VersionStorageInfo* input_vstorage_; const int start_level_; // the lowest level to be compacted const int output_level_; // levels to which output files are stored uint64_t max_output_file_size_; uint64_t max_compaction_bytes_; uint32_t max_subcompactions_; const ImmutableCFOptions immutable_cf_options_; const MutableCFOptions mutable_cf_options_; Version* input_version_; VersionEdit edit_; const int number_levels_; ColumnFamilyData* cfd_; Arena arena_; // Arena used to allocate space for file_levels_ const uint32_t output_path_id_; CompressionType output_compression_; CompressionOptions output_compression_opts_; // If true, then the comaction can be done by simply deleting input files. const bool deletion_compaction_; // Compaction input files organized by level. Constant after construction const std::vector inputs_; // A copy of inputs_, organized more closely in memory autovector input_levels_; // State used to check for number of overlapping grandparent files // (grandparent == "output_level_ + 1") std::vector grandparents_; const double score_; // score that was used to pick this compaction. // Is this compaction creating a file in the bottom most level? const bool bottommost_level_; // Does this compaction include all sst files? const bool is_full_compaction_; // Is this compaction requested by the client? const bool is_manual_compaction_; // True if we can do trivial move in Universal multi level // compaction bool is_trivial_move_; // Does input compression match the output compression? bool InputCompressionMatchesOutput() const; // table properties of output files TablePropertiesCollection output_table_properties_; // smallest user keys in compaction Slice smallest_user_key_; // largest user keys in compaction Slice largest_user_key_; // Reason for compaction CompactionReason compaction_reason_; }; // Utility function extern uint64_t TotalFileSize(const std::vector& files); } // namespace rocksdb rocksdb-5.17.2/db/compaction_iteration_stats.h000066400000000000000000000023661337235545400214450ustar00rootroot00000000000000// Copyright (c) 2016-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once struct CompactionIterationStats { // Compaction statistics // Doesn't include records skipped because of // CompactionFilter::Decision::kRemoveAndSkipUntil. int64_t num_record_drop_user = 0; int64_t num_record_drop_hidden = 0; int64_t num_record_drop_obsolete = 0; int64_t num_record_drop_range_del = 0; int64_t num_range_del_drop_obsolete = 0; // Deletions obsoleted before bottom level due to file gap optimization. int64_t num_optimized_del_drop_obsolete = 0; uint64_t total_filter_time = 0; // Input statistics // TODO(noetzli): The stats are incomplete. They are lacking everything // consumed by MergeHelper. uint64_t num_input_records = 0; uint64_t num_input_deletion_records = 0; uint64_t num_input_corrupt_records = 0; uint64_t total_input_raw_key_bytes = 0; uint64_t total_input_raw_value_bytes = 0; // Single-Delete diagnostics for exceptional situations uint64_t num_single_del_fallthru = 0; uint64_t num_single_del_mismatch = 0; }; rocksdb-5.17.2/db/compaction_iterator.cc000066400000000000000000000677701337235545400202320ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include "db/compaction_iterator.h" #include "db/snapshot_checker.h" #include "port/likely.h" #include "rocksdb/listener.h" #include "table/internal_iterator.h" namespace rocksdb { CompactionIterator::CompactionIterator( InternalIterator* input, const Comparator* cmp, MergeHelper* merge_helper, SequenceNumber last_sequence, std::vector* snapshots, SequenceNumber earliest_write_conflict_snapshot, const SnapshotChecker* snapshot_checker, Env* env, bool report_detailed_time, bool expect_valid_internal_key, RangeDelAggregator* range_del_agg, const Compaction* compaction, const CompactionFilter* compaction_filter, const std::atomic* shutting_down, const SequenceNumber preserve_deletes_seqnum) : CompactionIterator( input, cmp, merge_helper, last_sequence, snapshots, earliest_write_conflict_snapshot, snapshot_checker, env, report_detailed_time, expect_valid_internal_key, range_del_agg, std::unique_ptr( compaction ? new CompactionProxy(compaction) : nullptr), compaction_filter, shutting_down, preserve_deletes_seqnum) {} CompactionIterator::CompactionIterator( InternalIterator* input, const Comparator* cmp, MergeHelper* merge_helper, SequenceNumber /*last_sequence*/, std::vector* snapshots, SequenceNumber earliest_write_conflict_snapshot, const SnapshotChecker* snapshot_checker, Env* env, bool report_detailed_time, bool expect_valid_internal_key, RangeDelAggregator* range_del_agg, std::unique_ptr compaction, const CompactionFilter* compaction_filter, const std::atomic* shutting_down, const SequenceNumber preserve_deletes_seqnum) : input_(input), cmp_(cmp), merge_helper_(merge_helper), snapshots_(snapshots), earliest_write_conflict_snapshot_(earliest_write_conflict_snapshot), snapshot_checker_(snapshot_checker), env_(env), report_detailed_time_(report_detailed_time), expect_valid_internal_key_(expect_valid_internal_key), range_del_agg_(range_del_agg), compaction_(std::move(compaction)), compaction_filter_(compaction_filter), shutting_down_(shutting_down), preserve_deletes_seqnum_(preserve_deletes_seqnum), ignore_snapshots_(false), current_user_key_sequence_(0), current_user_key_snapshot_(0), merge_out_iter_(merge_helper_), current_key_committed_(false) { assert(compaction_filter_ == nullptr || compaction_ != nullptr); bottommost_level_ = compaction_ == nullptr ? false : compaction_->bottommost_level(); if (compaction_ != nullptr) { level_ptrs_ = std::vector(compaction_->number_levels(), 0); } if (snapshots_->size() == 0) { // optimize for fast path if there are no snapshots visible_at_tip_ = true; earliest_snapshot_ = kMaxSequenceNumber; latest_snapshot_ = 0; } else { visible_at_tip_ = false; earliest_snapshot_ = snapshots_->at(0); latest_snapshot_ = snapshots_->back(); } #ifndef NDEBUG // findEarliestVisibleSnapshot assumes this ordering. for (size_t i = 1; i < snapshots_->size(); ++i) { assert(snapshots_->at(i - 1) <= snapshots_->at(i)); } #endif if (compaction_filter_ != nullptr) { if (compaction_filter_->IgnoreSnapshots()) { ignore_snapshots_ = true; } } else { ignore_snapshots_ = false; } input_->SetPinnedItersMgr(&pinned_iters_mgr_); } CompactionIterator::~CompactionIterator() { // input_ Iteartor lifetime is longer than pinned_iters_mgr_ lifetime input_->SetPinnedItersMgr(nullptr); } void CompactionIterator::ResetRecordCounts() { iter_stats_.num_record_drop_user = 0; iter_stats_.num_record_drop_hidden = 0; iter_stats_.num_record_drop_obsolete = 0; iter_stats_.num_record_drop_range_del = 0; iter_stats_.num_range_del_drop_obsolete = 0; iter_stats_.num_optimized_del_drop_obsolete = 0; } void CompactionIterator::SeekToFirst() { NextFromInput(); PrepareOutput(); } void CompactionIterator::Next() { // If there is a merge output, return it before continuing to process the // input. if (merge_out_iter_.Valid()) { merge_out_iter_.Next(); // Check if we returned all records of the merge output. if (merge_out_iter_.Valid()) { key_ = merge_out_iter_.key(); value_ = merge_out_iter_.value(); bool valid_key __attribute__((__unused__)); valid_key = ParseInternalKey(key_, &ikey_); // MergeUntil stops when it encounters a corrupt key and does not // include them in the result, so we expect the keys here to be valid. assert(valid_key); // Keep current_key_ in sync. current_key_.UpdateInternalKey(ikey_.sequence, ikey_.type); key_ = current_key_.GetInternalKey(); ikey_.user_key = current_key_.GetUserKey(); valid_ = true; } else { // We consumed all pinned merge operands, release pinned iterators pinned_iters_mgr_.ReleasePinnedData(); // MergeHelper moves the iterator to the first record after the merged // records, so even though we reached the end of the merge output, we do // not want to advance the iterator. NextFromInput(); } } else { // Only advance the input iterator if there is no merge output and the // iterator is not already at the next record. if (!at_next_) { input_->Next(); } NextFromInput(); } if (valid_) { // Record that we've outputted a record for the current key. has_outputted_key_ = true; } PrepareOutput(); } void CompactionIterator::InvokeFilterIfNeeded(bool* need_skip, Slice* skip_until) { if (compaction_filter_ != nullptr && (ikey_.type == kTypeValue || ikey_.type == kTypeBlobIndex) && (visible_at_tip_ || ignore_snapshots_ || ikey_.sequence > latest_snapshot_ || (snapshot_checker_ != nullptr && UNLIKELY(!snapshot_checker_->IsInSnapshot(ikey_.sequence, latest_snapshot_))))) { // If the user has specified a compaction filter and the sequence // number is greater than any external snapshot, then invoke the // filter. If the return value of the compaction filter is true, // replace the entry with a deletion marker. CompactionFilter::Decision filter; compaction_filter_value_.clear(); compaction_filter_skip_until_.Clear(); CompactionFilter::ValueType value_type = ikey_.type == kTypeValue ? CompactionFilter::ValueType::kValue : CompactionFilter::ValueType::kBlobIndex; // Hack: pass internal key to BlobIndexCompactionFilter since it needs // to get sequence number. Slice& filter_key = ikey_.type == kTypeValue ? ikey_.user_key : key_; { StopWatchNano timer(env_, report_detailed_time_); filter = compaction_filter_->FilterV2( compaction_->level(), filter_key, value_type, value_, &compaction_filter_value_, compaction_filter_skip_until_.rep()); iter_stats_.total_filter_time += env_ != nullptr && report_detailed_time_ ? timer.ElapsedNanos() : 0; } if (filter == CompactionFilter::Decision::kRemoveAndSkipUntil && cmp_->Compare(*compaction_filter_skip_until_.rep(), ikey_.user_key) <= 0) { // Can't skip to a key smaller than the current one. // Keep the key as per FilterV2 documentation. filter = CompactionFilter::Decision::kKeep; } if (filter == CompactionFilter::Decision::kRemove) { // convert the current key to a delete; key_ is pointing into // current_key_ at this point, so updating current_key_ updates key() ikey_.type = kTypeDeletion; current_key_.UpdateInternalKey(ikey_.sequence, kTypeDeletion); // no value associated with delete value_.clear(); iter_stats_.num_record_drop_user++; } else if (filter == CompactionFilter::Decision::kChangeValue) { value_ = compaction_filter_value_; } else if (filter == CompactionFilter::Decision::kRemoveAndSkipUntil) { *need_skip = true; compaction_filter_skip_until_.ConvertFromUserKey(kMaxSequenceNumber, kValueTypeForSeek); *skip_until = compaction_filter_skip_until_.Encode(); } } } void CompactionIterator::NextFromInput() { at_next_ = false; valid_ = false; while (!valid_ && input_->Valid() && !IsShuttingDown()) { key_ = input_->key(); value_ = input_->value(); iter_stats_.num_input_records++; if (!ParseInternalKey(key_, &ikey_)) { // If `expect_valid_internal_key_` is false, return the corrupted key // and let the caller decide what to do with it. // TODO(noetzli): We should have a more elegant solution for this. if (expect_valid_internal_key_) { assert(!"Corrupted internal key not expected."); status_ = Status::Corruption("Corrupted internal key not expected."); break; } key_ = current_key_.SetInternalKey(key_); has_current_user_key_ = false; current_user_key_sequence_ = kMaxSequenceNumber; current_user_key_snapshot_ = 0; iter_stats_.num_input_corrupt_records++; valid_ = true; break; } // Update input statistics if (ikey_.type == kTypeDeletion || ikey_.type == kTypeSingleDeletion) { iter_stats_.num_input_deletion_records++; } iter_stats_.total_input_raw_key_bytes += key_.size(); iter_stats_.total_input_raw_value_bytes += value_.size(); // If need_skip is true, we should seek the input iterator // to internal key skip_until and continue from there. bool need_skip = false; // Points either into compaction_filter_skip_until_ or into // merge_helper_->compaction_filter_skip_until_. Slice skip_until; // Check whether the user key changed. After this if statement current_key_ // is a copy of the current input key (maybe converted to a delete by the // compaction filter). ikey_.user_key is pointing to the copy. if (!has_current_user_key_ || !cmp_->Equal(ikey_.user_key, current_user_key_)) { // First occurrence of this user key // Copy key for output key_ = current_key_.SetInternalKey(key_, &ikey_); current_user_key_ = ikey_.user_key; has_current_user_key_ = true; has_outputted_key_ = false; current_user_key_sequence_ = kMaxSequenceNumber; current_user_key_snapshot_ = 0; current_key_committed_ = (snapshot_checker_ == nullptr || snapshot_checker_->IsInSnapshot(ikey_.sequence, kMaxSequenceNumber)); // Apply the compaction filter to the first committed version of the user // key. if (current_key_committed_) { InvokeFilterIfNeeded(&need_skip, &skip_until); } } else { // Update the current key to reflect the new sequence number/type without // copying the user key. // TODO(rven): Compaction filter does not process keys in this path // Need to have the compaction filter process multiple versions // if we have versions on both sides of a snapshot current_key_.UpdateInternalKey(ikey_.sequence, ikey_.type); key_ = current_key_.GetInternalKey(); ikey_.user_key = current_key_.GetUserKey(); // Note that newer version of a key is ordered before older versions. If a // newer version of a key is committed, so as the older version. No need // to query snapshot_checker_ in that case. if (UNLIKELY(!current_key_committed_)) { assert(snapshot_checker_ != nullptr); current_key_committed_ = snapshot_checker_->IsInSnapshot(ikey_.sequence, kMaxSequenceNumber); // Apply the compaction filter to the first committed version of the // user key. if (current_key_committed_) { InvokeFilterIfNeeded(&need_skip, &skip_until); } } } if (UNLIKELY(!current_key_committed_)) { assert(snapshot_checker_ != nullptr); valid_ = true; break; } // If there are no snapshots, then this kv affect visibility at tip. // Otherwise, search though all existing snapshots to find the earliest // snapshot that is affected by this kv. SequenceNumber last_sequence __attribute__((__unused__)); last_sequence = current_user_key_sequence_; current_user_key_sequence_ = ikey_.sequence; SequenceNumber last_snapshot = current_user_key_snapshot_; SequenceNumber prev_snapshot = 0; // 0 means no previous snapshot current_user_key_snapshot_ = visible_at_tip_ ? earliest_snapshot_ : findEarliestVisibleSnapshot(ikey_.sequence, &prev_snapshot); if (need_skip) { // This case is handled below. } else if (clear_and_output_next_key_) { // In the previous iteration we encountered a single delete that we could // not compact out. We will keep this Put, but can drop it's data. // (See Optimization 3, below.) assert(ikey_.type == kTypeValue); assert(current_user_key_snapshot_ == last_snapshot); value_.clear(); valid_ = true; clear_and_output_next_key_ = false; } else if (ikey_.type == kTypeSingleDeletion) { // We can compact out a SingleDelete if: // 1) We encounter the corresponding PUT -OR- we know that this key // doesn't appear past this output level // =AND= // 2) We've already returned a record in this snapshot -OR- // there are no earlier earliest_write_conflict_snapshot. // // Rule 1 is needed for SingleDelete correctness. Rule 2 is needed to // allow Transactions to do write-conflict checking (if we compacted away // all keys, then we wouldn't know that a write happened in this // snapshot). If there is no earlier snapshot, then we know that there // are no active transactions that need to know about any writes. // // Optimization 3: // If we encounter a SingleDelete followed by a PUT and Rule 2 is NOT // true, then we must output a SingleDelete. In this case, we will decide // to also output the PUT. While we are compacting less by outputting the // PUT now, hopefully this will lead to better compaction in the future // when Rule 2 is later true (Ie, We are hoping we can later compact out // both the SingleDelete and the Put, while we couldn't if we only // outputted the SingleDelete now). // In this case, we can save space by removing the PUT's value as it will // never be read. // // Deletes and Merges are not supported on the same key that has a // SingleDelete as it is not possible to correctly do any partial // compaction of such a combination of operations. The result of mixing // those operations for a given key is documented as being undefined. So // we can choose how to handle such a combinations of operations. We will // try to compact out as much as we can in these cases. // We will report counts on these anomalous cases. // The easiest way to process a SingleDelete during iteration is to peek // ahead at the next key. ParsedInternalKey next_ikey; input_->Next(); // Check whether the next key exists, is not corrupt, and is the same key // as the single delete. if (input_->Valid() && ParseInternalKey(input_->key(), &next_ikey) && cmp_->Equal(ikey_.user_key, next_ikey.user_key)) { // Check whether the next key belongs to the same snapshot as the // SingleDelete. if (prev_snapshot == 0 || next_ikey.sequence > prev_snapshot || (snapshot_checker_ != nullptr && UNLIKELY(!snapshot_checker_->IsInSnapshot(next_ikey.sequence, prev_snapshot)))) { if (next_ikey.type == kTypeSingleDeletion) { // We encountered two SingleDeletes in a row. This could be due to // unexpected user input. // Skip the first SingleDelete and let the next iteration decide how // to handle the second SingleDelete // First SingleDelete has been skipped since we already called // input_->Next(). ++iter_stats_.num_record_drop_obsolete; ++iter_stats_.num_single_del_mismatch; } else if (has_outputted_key_ || (ikey_.sequence <= earliest_write_conflict_snapshot_ && (snapshot_checker_ == nullptr || LIKELY(snapshot_checker_->IsInSnapshot( ikey_.sequence, earliest_write_conflict_snapshot_))))) { // Found a matching value, we can drop the single delete and the // value. It is safe to drop both records since we've already // outputted a key in this snapshot, or there is no earlier // snapshot (Rule 2 above). // Note: it doesn't matter whether the second key is a Put or if it // is an unexpected Merge or Delete. We will compact it out // either way. We will maintain counts of how many mismatches // happened if (next_ikey.type != kTypeValue) { ++iter_stats_.num_single_del_mismatch; } ++iter_stats_.num_record_drop_hidden; ++iter_stats_.num_record_drop_obsolete; // Already called input_->Next() once. Call it a second time to // skip past the second key. input_->Next(); } else { // Found a matching value, but we cannot drop both keys since // there is an earlier snapshot and we need to leave behind a record // to know that a write happened in this snapshot (Rule 2 above). // Clear the value and output the SingleDelete. (The value will be // outputted on the next iteration.) // Setting valid_ to true will output the current SingleDelete valid_ = true; // Set up the Put to be outputted in the next iteration. // (Optimization 3). clear_and_output_next_key_ = true; } } else { // We hit the next snapshot without hitting a put, so the iterator // returns the single delete. valid_ = true; } } else { // We are at the end of the input, could not parse the next key, or hit // a different key. The iterator returns the single delete if the key // possibly exists beyond the current output level. We set // has_current_user_key to false so that if the iterator is at the next // key, we do not compare it again against the previous key at the next // iteration. If the next key is corrupt, we return before the // comparison, so the value of has_current_user_key does not matter. has_current_user_key_ = false; if (compaction_ != nullptr && ikey_.sequence <= earliest_snapshot_ && (snapshot_checker_ == nullptr || LIKELY(snapshot_checker_->IsInSnapshot(ikey_.sequence, earliest_snapshot_))) && compaction_->KeyNotExistsBeyondOutputLevel(ikey_.user_key, &level_ptrs_)) { // Key doesn't exist outside of this range. // Can compact out this SingleDelete. ++iter_stats_.num_record_drop_obsolete; ++iter_stats_.num_single_del_fallthru; if (!bottommost_level_) { ++iter_stats_.num_optimized_del_drop_obsolete; } } else { // Output SingleDelete valid_ = true; } } if (valid_) { at_next_ = true; } } else if (last_snapshot == current_user_key_snapshot_) { // If the earliest snapshot is which this key is visible in // is the same as the visibility of a previous instance of the // same key, then this kv is not visible in any snapshot. // Hidden by an newer entry for same user key // TODO(noetzli): why not > ? // // Note: Dropping this key will not affect TransactionDB write-conflict // checking since there has already been a record returned for this key // in this snapshot. assert(last_sequence >= current_user_key_sequence_); ++iter_stats_.num_record_drop_hidden; // (A) input_->Next(); } else if (compaction_ != nullptr && ikey_.type == kTypeDeletion && ikey_.sequence <= earliest_snapshot_ && (snapshot_checker_ == nullptr || LIKELY(snapshot_checker_->IsInSnapshot(ikey_.sequence, earliest_snapshot_))) && ikeyNotNeededForIncrementalSnapshot() && compaction_->KeyNotExistsBeyondOutputLevel(ikey_.user_key, &level_ptrs_)) { // TODO(noetzli): This is the only place where we use compaction_ // (besides the constructor). We should probably get rid of this // dependency and find a way to do similar filtering during flushes. // // For this user key: // (1) there is no data in higher levels // (2) data in lower levels will have larger sequence numbers // (3) data in layers that are being compacted here and have // smaller sequence numbers will be dropped in the next // few iterations of this loop (by rule (A) above). // Therefore this deletion marker is obsolete and can be dropped. // // Note: Dropping this Delete will not affect TransactionDB // write-conflict checking since it is earlier than any snapshot. // // It seems that we can also drop deletion later than earliest snapshot // given that: // (1) The deletion is earlier than earliest_write_conflict_snapshot, and // (2) No value exist earlier than the deletion. ++iter_stats_.num_record_drop_obsolete; if (!bottommost_level_) { ++iter_stats_.num_optimized_del_drop_obsolete; } input_->Next(); } else if ((ikey_.type == kTypeDeletion) && bottommost_level_ && ikeyNotNeededForIncrementalSnapshot()) { // Handle the case where we have a delete key at the bottom most level // We can skip outputting the key iff there are no subsequent puts for this // key ParsedInternalKey next_ikey; input_->Next(); // Skip over all versions of this key that happen to occur in the same snapshot // range as the delete while (input_->Valid() && ParseInternalKey(input_->key(), &next_ikey) && cmp_->Equal(ikey_.user_key, next_ikey.user_key) && (prev_snapshot == 0 || next_ikey.sequence > prev_snapshot || (snapshot_checker_ != nullptr && UNLIKELY(!snapshot_checker_->IsInSnapshot(next_ikey.sequence, prev_snapshot))))) { input_->Next(); } // If you find you still need to output a row with this key, we need to output the // delete too if (input_->Valid() && ParseInternalKey(input_->key(), &next_ikey) && cmp_->Equal(ikey_.user_key, next_ikey.user_key)) { valid_ = true; at_next_ = true; } } else if (ikey_.type == kTypeMerge) { if (!merge_helper_->HasOperator()) { status_ = Status::InvalidArgument( "merge_operator is not properly initialized."); return; } pinned_iters_mgr_.StartPinning(); // We know the merge type entry is not hidden, otherwise we would // have hit (A) // We encapsulate the merge related state machine in a different // object to minimize change to the existing flow. Status s = merge_helper_->MergeUntil(input_, range_del_agg_, prev_snapshot, bottommost_level_); merge_out_iter_.SeekToFirst(); if (!s.ok() && !s.IsMergeInProgress()) { status_ = s; return; } else if (merge_out_iter_.Valid()) { // NOTE: key, value, and ikey_ refer to old entries. // These will be correctly set below. key_ = merge_out_iter_.key(); value_ = merge_out_iter_.value(); bool valid_key __attribute__((__unused__)); valid_key = ParseInternalKey(key_, &ikey_); // MergeUntil stops when it encounters a corrupt key and does not // include them in the result, so we expect the keys here to valid. assert(valid_key); // Keep current_key_ in sync. current_key_.UpdateInternalKey(ikey_.sequence, ikey_.type); key_ = current_key_.GetInternalKey(); ikey_.user_key = current_key_.GetUserKey(); valid_ = true; } else { // all merge operands were filtered out. reset the user key, since the // batch consumed by the merge operator should not shadow any keys // coming after the merges has_current_user_key_ = false; pinned_iters_mgr_.ReleasePinnedData(); if (merge_helper_->FilteredUntil(&skip_until)) { need_skip = true; } } } else { // 1. new user key -OR- // 2. different snapshot stripe bool should_delete = range_del_agg_->ShouldDelete( key_, RangeDelPositioningMode::kForwardTraversal); if (should_delete) { ++iter_stats_.num_record_drop_hidden; ++iter_stats_.num_record_drop_range_del; input_->Next(); } else { valid_ = true; } } if (need_skip) { input_->Seek(skip_until); } } if (!valid_ && IsShuttingDown()) { status_ = Status::ShutdownInProgress(); } } void CompactionIterator::PrepareOutput() { // Zeroing out the sequence number leads to better compression. // If this is the bottommost level (no files in lower levels) // and the earliest snapshot is larger than this seqno // and the userkey differs from the last userkey in compaction // then we can squash the seqno to zero. // // This is safe for TransactionDB write-conflict checking since transactions // only care about sequence number larger than any active snapshots. // // Can we do the same for levels above bottom level as long as // KeyNotExistsBeyondOutputLevel() return true? if ((compaction_ != nullptr && !compaction_->allow_ingest_behind()) && ikeyNotNeededForIncrementalSnapshot() && bottommost_level_ && valid_ && ikey_.sequence <= earliest_snapshot_ && (snapshot_checker_ == nullptr || LIKELY(snapshot_checker_->IsInSnapshot( ikey_.sequence, earliest_snapshot_))) && ikey_.type != kTypeMerge && !cmp_->Equal(compaction_->GetLargestUserKey(), ikey_.user_key)) { assert(ikey_.type != kTypeDeletion && ikey_.type != kTypeSingleDeletion); ikey_.sequence = 0; current_key_.UpdateInternalKey(0, ikey_.type); } } inline SequenceNumber CompactionIterator::findEarliestVisibleSnapshot( SequenceNumber in, SequenceNumber* prev_snapshot) { assert(snapshots_->size()); auto snapshots_iter = std::lower_bound( snapshots_->begin(), snapshots_->end(), in); if (snapshots_iter == snapshots_->begin()) { *prev_snapshot = 0; } else { *prev_snapshot = *std::prev(snapshots_iter); assert(*prev_snapshot < in); } for (; snapshots_iter != snapshots_->end(); ++snapshots_iter) { auto cur = *snapshots_iter; assert(in <= cur); if (snapshot_checker_ == nullptr || snapshot_checker_->IsInSnapshot(in, cur)) { return cur; } *prev_snapshot = cur; } return kMaxSequenceNumber; } // used in 2 places - prevents deletion markers to be dropped if they may be // needed and disables seqnum zero-out in PrepareOutput for recent keys. inline bool CompactionIterator::ikeyNotNeededForIncrementalSnapshot() { return (!compaction_->preserve_deletes()) || (ikey_.sequence < preserve_deletes_seqnum_); } } // namespace rocksdb rocksdb-5.17.2/db/compaction_iterator.h000066400000000000000000000206511337235545400200570ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #include #include #include #include #include "db/compaction.h" #include "db/compaction_iteration_stats.h" #include "db/merge_helper.h" #include "db/pinned_iterators_manager.h" #include "db/range_del_aggregator.h" #include "db/snapshot_checker.h" #include "options/cf_options.h" #include "rocksdb/compaction_filter.h" namespace rocksdb { class CompactionIterator { public: // A wrapper around Compaction. Has a much smaller interface, only what // CompactionIterator uses. Tests can override it. class CompactionProxy { public: explicit CompactionProxy(const Compaction* compaction) : compaction_(compaction) {} virtual ~CompactionProxy() = default; virtual int level(size_t /*compaction_input_level*/ = 0) const { return compaction_->level(); } virtual bool KeyNotExistsBeyondOutputLevel( const Slice& user_key, std::vector* level_ptrs) const { return compaction_->KeyNotExistsBeyondOutputLevel(user_key, level_ptrs); } virtual bool bottommost_level() const { return compaction_->bottommost_level(); } virtual int number_levels() const { return compaction_->number_levels(); } virtual Slice GetLargestUserKey() const { return compaction_->GetLargestUserKey(); } virtual bool allow_ingest_behind() const { return compaction_->immutable_cf_options()->allow_ingest_behind; } virtual bool preserve_deletes() const { return compaction_->immutable_cf_options()->preserve_deletes; } protected: CompactionProxy() = default; private: const Compaction* compaction_; }; CompactionIterator(InternalIterator* input, const Comparator* cmp, MergeHelper* merge_helper, SequenceNumber last_sequence, std::vector* snapshots, SequenceNumber earliest_write_conflict_snapshot, const SnapshotChecker* snapshot_checker, Env* env, bool report_detailed_time, bool expect_valid_internal_key, RangeDelAggregator* range_del_agg, const Compaction* compaction = nullptr, const CompactionFilter* compaction_filter = nullptr, const std::atomic* shutting_down = nullptr, const SequenceNumber preserve_deletes_seqnum = 0); // Constructor with custom CompactionProxy, used for tests. CompactionIterator(InternalIterator* input, const Comparator* cmp, MergeHelper* merge_helper, SequenceNumber last_sequence, std::vector* snapshots, SequenceNumber earliest_write_conflict_snapshot, const SnapshotChecker* snapshot_checker, Env* env, bool report_detailed_time, bool expect_valid_internal_key, RangeDelAggregator* range_del_agg, std::unique_ptr compaction, const CompactionFilter* compaction_filter = nullptr, const std::atomic* shutting_down = nullptr, const SequenceNumber preserve_deletes_seqnum = 0); ~CompactionIterator(); void ResetRecordCounts(); // Seek to the beginning of the compaction iterator output. // // REQUIRED: Call only once. void SeekToFirst(); // Produces the next record in the compaction. // // REQUIRED: SeekToFirst() has been called. void Next(); // Getters const Slice& key() const { return key_; } const Slice& value() const { return value_; } const Status& status() const { return status_; } const ParsedInternalKey& ikey() const { return ikey_; } bool Valid() const { return valid_; } const Slice& user_key() const { return current_user_key_; } const CompactionIterationStats& iter_stats() const { return iter_stats_; } private: // Processes the input stream to find the next output void NextFromInput(); // Do last preparations before presenting the output to the callee. At this // point this only zeroes out the sequence number if possible for better // compression. void PrepareOutput(); // Invoke compaction filter if needed. void InvokeFilterIfNeeded(bool* need_skip, Slice* skip_until); // Given a sequence number, return the sequence number of the // earliest snapshot that this sequence number is visible in. // The snapshots themselves are arranged in ascending order of // sequence numbers. // Employ a sequential search because the total number of // snapshots are typically small. inline SequenceNumber findEarliestVisibleSnapshot( SequenceNumber in, SequenceNumber* prev_snapshot); // Checks whether the currently seen ikey_ is needed for // incremental (differential) snapshot and hence can't be dropped // or seqnum be zero-ed out even if all other conditions for it are met. inline bool ikeyNotNeededForIncrementalSnapshot(); InternalIterator* input_; const Comparator* cmp_; MergeHelper* merge_helper_; const std::vector* snapshots_; const SequenceNumber earliest_write_conflict_snapshot_; const SnapshotChecker* const snapshot_checker_; Env* env_; bool report_detailed_time_; bool expect_valid_internal_key_; RangeDelAggregator* range_del_agg_; std::unique_ptr compaction_; const CompactionFilter* compaction_filter_; const std::atomic* shutting_down_; const SequenceNumber preserve_deletes_seqnum_; bool bottommost_level_; bool valid_ = false; bool visible_at_tip_; SequenceNumber earliest_snapshot_; SequenceNumber latest_snapshot_; bool ignore_snapshots_; // State // // Points to a copy of the current compaction iterator output (current_key_) // if valid_. Slice key_; // Points to the value in the underlying iterator that corresponds to the // current output. Slice value_; // The status is OK unless compaction iterator encounters a merge operand // while not having a merge operator defined. Status status_; // Stores the user key, sequence number and type of the current compaction // iterator output (or current key in the underlying iterator during // NextFromInput()). ParsedInternalKey ikey_; // Stores whether ikey_.user_key is valid. If set to false, the user key is // not compared against the current key in the underlying iterator. bool has_current_user_key_ = false; bool at_next_ = false; // If false, the iterator // Holds a copy of the current compaction iterator output (or current key in // the underlying iterator during NextFromInput()). IterKey current_key_; Slice current_user_key_; SequenceNumber current_user_key_sequence_; SequenceNumber current_user_key_snapshot_; // True if the iterator has already returned a record for the current key. bool has_outputted_key_ = false; // truncated the value of the next key and output it without applying any // compaction rules. This is used for outputting a put after a single delete. bool clear_and_output_next_key_ = false; MergeOutputIterator merge_out_iter_; // PinnedIteratorsManager used to pin input_ Iterator blocks while reading // merge operands and then releasing them after consuming them. PinnedIteratorsManager pinned_iters_mgr_; std::string compaction_filter_value_; InternalKey compaction_filter_skip_until_; // "level_ptrs" holds indices that remember which file of an associated // level we were last checking during the last call to compaction-> // KeyNotExistsBeyondOutputLevel(). This allows future calls to the function // to pick off where it left off since each subcompaction's key range is // increasing so a later call to the function must be looking for a key that // is in or beyond the last file checked during the previous call std::vector level_ptrs_; CompactionIterationStats iter_stats_; // Used to avoid purging uncommitted values. The application can specify // uncommitted values by providing a SnapshotChecker object. bool current_key_committed_; bool IsShuttingDown() { // This is a best-effort facility, so memory_order_relaxed is sufficient. return shutting_down_ && shutting_down_->load(std::memory_order_relaxed); } }; } // namespace rocksdb rocksdb-5.17.2/db/compaction_iterator_test.cc000066400000000000000000001077201337235545400212570ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include "db/compaction_iterator.h" #include #include #include "port/port.h" #include "util/string_util.h" #include "util/testharness.h" #include "util/testutil.h" #include "utilities/merge_operators.h" namespace rocksdb { // Expects no merging attempts. class NoMergingMergeOp : public MergeOperator { public: bool FullMergeV2(const MergeOperationInput& /*merge_in*/, MergeOperationOutput* /*merge_out*/) const override { ADD_FAILURE(); return false; } bool PartialMergeMulti(const Slice& /*key*/, const std::deque& /*operand_list*/, std::string* /*new_value*/, Logger* /*logger*/) const override { ADD_FAILURE(); return false; } const char* Name() const override { return "CompactionIteratorTest NoMergingMergeOp"; } }; // Compaction filter that gets stuck when it sees a particular key, // then gets unstuck when told to. // Always returns Decition::kRemove. class StallingFilter : public CompactionFilter { public: Decision FilterV2(int /*level*/, const Slice& key, ValueType /*type*/, const Slice& /*existing_value*/, std::string* /*new_value*/, std::string* /*skip_until*/) const override { int k = std::atoi(key.ToString().c_str()); last_seen.store(k); while (k >= stall_at.load()) { std::this_thread::yield(); } return Decision::kRemove; } const char* Name() const override { return "CompactionIteratorTest StallingFilter"; } // Wait until the filter sees a key >= k and stalls at that key. // If `exact`, asserts that the seen key is equal to k. void WaitForStall(int k, bool exact = true) { stall_at.store(k); while (last_seen.load() < k) { std::this_thread::yield(); } if (exact) { EXPECT_EQ(k, last_seen.load()); } } // Filter will stall on key >= stall_at. Advance stall_at to unstall. mutable std::atomic stall_at{0}; // Last key the filter was called with. mutable std::atomic last_seen{0}; }; // Compaction filter that filter out all keys. class FilterAllKeysCompactionFilter : public CompactionFilter { public: Decision FilterV2(int /*level*/, const Slice& /*key*/, ValueType /*type*/, const Slice& /*existing_value*/, std::string* /*new_value*/, std::string* /*skip_until*/) const override { return Decision::kRemove; } const char* Name() const override { return "AllKeysCompactionFilter"; } }; class LoggingForwardVectorIterator : public InternalIterator { public: struct Action { enum class Type { SEEK_TO_FIRST, SEEK, NEXT, }; Type type; std::string arg; explicit Action(Type _type, std::string _arg = "") : type(_type), arg(_arg) {} bool operator==(const Action& rhs) const { return std::tie(type, arg) == std::tie(rhs.type, rhs.arg); } }; LoggingForwardVectorIterator(const std::vector& keys, const std::vector& values) : keys_(keys), values_(values), current_(keys.size()) { assert(keys_.size() == values_.size()); } virtual bool Valid() const override { return current_ < keys_.size(); } virtual void SeekToFirst() override { log.emplace_back(Action::Type::SEEK_TO_FIRST); current_ = 0; } virtual void SeekToLast() override { assert(false); } virtual void Seek(const Slice& target) override { log.emplace_back(Action::Type::SEEK, target.ToString()); current_ = std::lower_bound(keys_.begin(), keys_.end(), target.ToString()) - keys_.begin(); } virtual void SeekForPrev(const Slice& /*target*/) override { assert(false); } virtual void Next() override { assert(Valid()); log.emplace_back(Action::Type::NEXT); current_++; } virtual void Prev() override { assert(false); } virtual Slice key() const override { assert(Valid()); return Slice(keys_[current_]); } virtual Slice value() const override { assert(Valid()); return Slice(values_[current_]); } virtual Status status() const override { return Status::OK(); } std::vector log; private: std::vector keys_; std::vector values_; size_t current_; }; class FakeCompaction : public CompactionIterator::CompactionProxy { public: FakeCompaction() = default; virtual int level(size_t /*compaction_input_level*/) const override { return 0; } virtual bool KeyNotExistsBeyondOutputLevel( const Slice& /*user_key*/, std::vector* /*level_ptrs*/) const override { return is_bottommost_level || key_not_exists_beyond_output_level; } virtual bool bottommost_level() const override { return is_bottommost_level; } virtual int number_levels() const override { return 1; } virtual Slice GetLargestUserKey() const override { return "\xff\xff\xff\xff\xff\xff\xff\xff\xff"; } virtual bool allow_ingest_behind() const override { return false; } virtual bool preserve_deletes() const override { return false; } bool key_not_exists_beyond_output_level = false; bool is_bottommost_level = false; }; // A simplifed snapshot checker which assumes each snapshot has a global // last visible sequence. class TestSnapshotChecker : public SnapshotChecker { public: explicit TestSnapshotChecker( SequenceNumber last_committed_sequence, const std::unordered_map& snapshots = {}) : last_committed_sequence_(last_committed_sequence), snapshots_(snapshots) {} bool IsInSnapshot(SequenceNumber seq, SequenceNumber snapshot_seq) const override { if (snapshot_seq == kMaxSequenceNumber) { return seq <= last_committed_sequence_; } assert(snapshots_.count(snapshot_seq) > 0); return seq <= snapshots_.at(snapshot_seq); } private: SequenceNumber last_committed_sequence_; // A map of valid snapshot to last visible sequence to the snapshot. std::unordered_map snapshots_; }; // Test param: // bool: whether to pass snapshot_checker to compaction iterator. class CompactionIteratorTest : public testing::TestWithParam { public: CompactionIteratorTest() : cmp_(BytewiseComparator()), icmp_(cmp_), snapshots_({}) {} void InitIterators( const std::vector& ks, const std::vector& vs, const std::vector& range_del_ks, const std::vector& range_del_vs, SequenceNumber last_sequence, SequenceNumber last_committed_sequence = kMaxSequenceNumber, MergeOperator* merge_op = nullptr, CompactionFilter* filter = nullptr, bool bottommost_level = false, SequenceNumber earliest_write_conflict_snapshot = kMaxSequenceNumber) { std::unique_ptr range_del_iter( new test::VectorIterator(range_del_ks, range_del_vs)); range_del_agg_.reset(new RangeDelAggregator(icmp_, snapshots_)); ASSERT_OK(range_del_agg_->AddTombstones(std::move(range_del_iter))); std::unique_ptr compaction; if (filter || bottommost_level) { compaction_proxy_ = new FakeCompaction(); compaction_proxy_->is_bottommost_level = bottommost_level; compaction.reset(compaction_proxy_); } bool use_snapshot_checker = UseSnapshotChecker() || GetParam(); if (use_snapshot_checker || last_committed_sequence < kMaxSequenceNumber) { snapshot_checker_.reset( new TestSnapshotChecker(last_committed_sequence, snapshot_map_)); } merge_helper_.reset( new MergeHelper(Env::Default(), cmp_, merge_op, filter, nullptr, false, 0 /*latest_snapshot*/, snapshot_checker_.get(), 0 /*level*/, nullptr /*statistics*/, &shutting_down_)); iter_.reset(new LoggingForwardVectorIterator(ks, vs)); iter_->SeekToFirst(); c_iter_.reset(new CompactionIterator( iter_.get(), cmp_, merge_helper_.get(), last_sequence, &snapshots_, earliest_write_conflict_snapshot, snapshot_checker_.get(), Env::Default(), false /* report_detailed_time */, false, range_del_agg_.get(), std::move(compaction), filter, &shutting_down_)); } void AddSnapshot(SequenceNumber snapshot, SequenceNumber last_visible_seq = kMaxSequenceNumber) { snapshots_.push_back(snapshot); snapshot_map_[snapshot] = last_visible_seq; } virtual bool UseSnapshotChecker() const { return false; } void RunTest( const std::vector& input_keys, const std::vector& input_values, const std::vector& expected_keys, const std::vector& expected_values, SequenceNumber last_committed_seq = kMaxSequenceNumber, MergeOperator* merge_operator = nullptr, CompactionFilter* compaction_filter = nullptr, bool bottommost_level = false, SequenceNumber earliest_write_conflict_snapshot = kMaxSequenceNumber) { InitIterators(input_keys, input_values, {}, {}, kMaxSequenceNumber, last_committed_seq, merge_operator, compaction_filter, bottommost_level, earliest_write_conflict_snapshot); c_iter_->SeekToFirst(); for (size_t i = 0; i < expected_keys.size(); i++) { std::string info = "i = " + ToString(i); ASSERT_TRUE(c_iter_->Valid()) << info; ASSERT_OK(c_iter_->status()) << info; ASSERT_EQ(expected_keys[i], c_iter_->key().ToString()) << info; ASSERT_EQ(expected_values[i], c_iter_->value().ToString()) << info; c_iter_->Next(); } ASSERT_FALSE(c_iter_->Valid()); } const Comparator* cmp_; const InternalKeyComparator icmp_; std::vector snapshots_; // A map of valid snapshot to last visible sequence to the snapshot. std::unordered_map snapshot_map_; std::unique_ptr merge_helper_; std::unique_ptr iter_; std::unique_ptr c_iter_; std::unique_ptr range_del_agg_; std::unique_ptr snapshot_checker_; std::atomic shutting_down_{false}; FakeCompaction* compaction_proxy_; }; // It is possible that the output of the compaction iterator is empty even if // the input is not. TEST_P(CompactionIteratorTest, EmptyResult) { InitIterators({test::KeyStr("a", 5, kTypeSingleDeletion), test::KeyStr("a", 3, kTypeValue)}, {"", "val"}, {}, {}, 5); c_iter_->SeekToFirst(); ASSERT_FALSE(c_iter_->Valid()); } // If there is a corruption after a single deletion, the corrupted key should // be preserved. TEST_P(CompactionIteratorTest, CorruptionAfterSingleDeletion) { InitIterators({test::KeyStr("a", 5, kTypeSingleDeletion), test::KeyStr("a", 3, kTypeValue, true), test::KeyStr("b", 10, kTypeValue)}, {"", "val", "val2"}, {}, {}, 10); c_iter_->SeekToFirst(); ASSERT_TRUE(c_iter_->Valid()); ASSERT_EQ(test::KeyStr("a", 5, kTypeSingleDeletion), c_iter_->key().ToString()); c_iter_->Next(); ASSERT_TRUE(c_iter_->Valid()); ASSERT_EQ(test::KeyStr("a", 3, kTypeValue, true), c_iter_->key().ToString()); c_iter_->Next(); ASSERT_TRUE(c_iter_->Valid()); ASSERT_EQ(test::KeyStr("b", 10, kTypeValue), c_iter_->key().ToString()); c_iter_->Next(); ASSERT_FALSE(c_iter_->Valid()); } TEST_P(CompactionIteratorTest, SimpleRangeDeletion) { InitIterators({test::KeyStr("morning", 5, kTypeValue), test::KeyStr("morning", 2, kTypeValue), test::KeyStr("night", 3, kTypeValue)}, {"zao", "zao", "wan"}, {test::KeyStr("ma", 4, kTypeRangeDeletion)}, {"mz"}, 5); c_iter_->SeekToFirst(); ASSERT_TRUE(c_iter_->Valid()); ASSERT_EQ(test::KeyStr("morning", 5, kTypeValue), c_iter_->key().ToString()); c_iter_->Next(); ASSERT_TRUE(c_iter_->Valid()); ASSERT_EQ(test::KeyStr("night", 3, kTypeValue), c_iter_->key().ToString()); c_iter_->Next(); ASSERT_FALSE(c_iter_->Valid()); } TEST_P(CompactionIteratorTest, RangeDeletionWithSnapshots) { AddSnapshot(10); std::vector ks1; ks1.push_back(test::KeyStr("ma", 28, kTypeRangeDeletion)); std::vector vs1{"mz"}; std::vector ks2{test::KeyStr("morning", 15, kTypeValue), test::KeyStr("morning", 5, kTypeValue), test::KeyStr("night", 40, kTypeValue), test::KeyStr("night", 20, kTypeValue)}; std::vector vs2{"zao 15", "zao 5", "wan 40", "wan 20"}; InitIterators(ks2, vs2, ks1, vs1, 40); c_iter_->SeekToFirst(); ASSERT_TRUE(c_iter_->Valid()); ASSERT_EQ(test::KeyStr("morning", 5, kTypeValue), c_iter_->key().ToString()); c_iter_->Next(); ASSERT_TRUE(c_iter_->Valid()); ASSERT_EQ(test::KeyStr("night", 40, kTypeValue), c_iter_->key().ToString()); c_iter_->Next(); ASSERT_FALSE(c_iter_->Valid()); } TEST_P(CompactionIteratorTest, CompactionFilterSkipUntil) { class Filter : public CompactionFilter { virtual Decision FilterV2(int /*level*/, const Slice& key, ValueType t, const Slice& existing_value, std::string* /*new_value*/, std::string* skip_until) const override { std::string k = key.ToString(); std::string v = existing_value.ToString(); // See InitIterators() call below for the sequence of keys and their // filtering decisions. Here we closely assert that compaction filter is // called with the expected keys and only them, and with the right values. if (k == "a") { EXPECT_EQ(ValueType::kValue, t); EXPECT_EQ("av50", v); return Decision::kKeep; } if (k == "b") { EXPECT_EQ(ValueType::kValue, t); EXPECT_EQ("bv60", v); *skip_until = "d+"; return Decision::kRemoveAndSkipUntil; } if (k == "e") { EXPECT_EQ(ValueType::kMergeOperand, t); EXPECT_EQ("em71", v); return Decision::kKeep; } if (k == "f") { if (v == "fm65") { EXPECT_EQ(ValueType::kMergeOperand, t); *skip_until = "f"; } else { EXPECT_EQ("fm30", v); EXPECT_EQ(ValueType::kMergeOperand, t); *skip_until = "g+"; } return Decision::kRemoveAndSkipUntil; } if (k == "h") { EXPECT_EQ(ValueType::kValue, t); EXPECT_EQ("hv91", v); return Decision::kKeep; } if (k == "i") { EXPECT_EQ(ValueType::kMergeOperand, t); EXPECT_EQ("im95", v); *skip_until = "z"; return Decision::kRemoveAndSkipUntil; } ADD_FAILURE(); return Decision::kKeep; } const char* Name() const override { return "CompactionIteratorTest.CompactionFilterSkipUntil::Filter"; } }; NoMergingMergeOp merge_op; Filter filter; InitIterators( {test::KeyStr("a", 50, kTypeValue), // keep test::KeyStr("a", 45, kTypeMerge), test::KeyStr("b", 60, kTypeValue), // skip to "d+" test::KeyStr("b", 40, kTypeValue), test::KeyStr("c", 35, kTypeValue), test::KeyStr("d", 70, kTypeMerge), test::KeyStr("e", 71, kTypeMerge), // keep test::KeyStr("f", 65, kTypeMerge), // skip to "f", aka keep test::KeyStr("f", 30, kTypeMerge), // skip to "g+" test::KeyStr("f", 25, kTypeValue), test::KeyStr("g", 90, kTypeValue), test::KeyStr("h", 91, kTypeValue), // keep test::KeyStr("i", 95, kTypeMerge), // skip to "z" test::KeyStr("j", 99, kTypeValue)}, {"av50", "am45", "bv60", "bv40", "cv35", "dm70", "em71", "fm65", "fm30", "fv25", "gv90", "hv91", "im95", "jv99"}, {}, {}, kMaxSequenceNumber, kMaxSequenceNumber, &merge_op, &filter); // Compaction should output just "a", "e" and "h" keys. c_iter_->SeekToFirst(); ASSERT_TRUE(c_iter_->Valid()); ASSERT_EQ(test::KeyStr("a", 50, kTypeValue), c_iter_->key().ToString()); ASSERT_EQ("av50", c_iter_->value().ToString()); c_iter_->Next(); ASSERT_TRUE(c_iter_->Valid()); ASSERT_EQ(test::KeyStr("e", 71, kTypeMerge), c_iter_->key().ToString()); ASSERT_EQ("em71", c_iter_->value().ToString()); c_iter_->Next(); ASSERT_TRUE(c_iter_->Valid()); ASSERT_EQ(test::KeyStr("h", 91, kTypeValue), c_iter_->key().ToString()); ASSERT_EQ("hv91", c_iter_->value().ToString()); c_iter_->Next(); ASSERT_FALSE(c_iter_->Valid()); // Check that the compaction iterator did the correct sequence of calls on // the underlying iterator. using A = LoggingForwardVectorIterator::Action; using T = A::Type; std::vector expected_actions = { A(T::SEEK_TO_FIRST), A(T::NEXT), A(T::NEXT), A(T::SEEK, test::KeyStr("d+", kMaxSequenceNumber, kValueTypeForSeek)), A(T::NEXT), A(T::NEXT), A(T::SEEK, test::KeyStr("g+", kMaxSequenceNumber, kValueTypeForSeek)), A(T::NEXT), A(T::SEEK, test::KeyStr("z", kMaxSequenceNumber, kValueTypeForSeek))}; ASSERT_EQ(expected_actions, iter_->log); } TEST_P(CompactionIteratorTest, ShuttingDownInFilter) { NoMergingMergeOp merge_op; StallingFilter filter; InitIterators( {test::KeyStr("1", 1, kTypeValue), test::KeyStr("2", 2, kTypeValue), test::KeyStr("3", 3, kTypeValue), test::KeyStr("4", 4, kTypeValue)}, {"v1", "v2", "v3", "v4"}, {}, {}, kMaxSequenceNumber, kMaxSequenceNumber, &merge_op, &filter); // Don't leave tombstones (kTypeDeletion) for filtered keys. compaction_proxy_->key_not_exists_beyond_output_level = true; std::atomic seek_done{false}; rocksdb::port::Thread compaction_thread([&] { c_iter_->SeekToFirst(); EXPECT_FALSE(c_iter_->Valid()); EXPECT_TRUE(c_iter_->status().IsShutdownInProgress()); seek_done.store(true); }); // Let key 1 through. filter.WaitForStall(1); // Shutdown during compaction filter call for key 2. filter.WaitForStall(2); shutting_down_.store(true); EXPECT_FALSE(seek_done.load()); // Unstall filter and wait for SeekToFirst() to return. filter.stall_at.store(3); compaction_thread.join(); assert(seek_done.load()); // Check that filter was never called again. EXPECT_EQ(2, filter.last_seen.load()); } // Same as ShuttingDownInFilter, but shutdown happens during filter call for // a merge operand, not for a value. TEST_P(CompactionIteratorTest, ShuttingDownInMerge) { NoMergingMergeOp merge_op; StallingFilter filter; InitIterators( {test::KeyStr("1", 1, kTypeValue), test::KeyStr("2", 2, kTypeMerge), test::KeyStr("3", 3, kTypeMerge), test::KeyStr("4", 4, kTypeValue)}, {"v1", "v2", "v3", "v4"}, {}, {}, kMaxSequenceNumber, kMaxSequenceNumber, &merge_op, &filter); compaction_proxy_->key_not_exists_beyond_output_level = true; std::atomic seek_done{false}; rocksdb::port::Thread compaction_thread([&] { c_iter_->SeekToFirst(); ASSERT_FALSE(c_iter_->Valid()); ASSERT_TRUE(c_iter_->status().IsShutdownInProgress()); seek_done.store(true); }); // Let key 1 through. filter.WaitForStall(1); // Shutdown during compaction filter call for key 2. filter.WaitForStall(2); shutting_down_.store(true); EXPECT_FALSE(seek_done.load()); // Unstall filter and wait for SeekToFirst() to return. filter.stall_at.store(3); compaction_thread.join(); assert(seek_done.load()); // Check that filter was never called again. EXPECT_EQ(2, filter.last_seen.load()); } TEST_P(CompactionIteratorTest, SingleMergeOperand) { class Filter : public CompactionFilter { virtual Decision FilterV2(int /*level*/, const Slice& key, ValueType t, const Slice& existing_value, std::string* /*new_value*/, std::string* /*skip_until*/) const override { std::string k = key.ToString(); std::string v = existing_value.ToString(); // See InitIterators() call below for the sequence of keys and their // filtering decisions. Here we closely assert that compaction filter is // called with the expected keys and only them, and with the right values. if (k == "a") { EXPECT_EQ(ValueType::kMergeOperand, t); EXPECT_EQ("av1", v); return Decision::kKeep; } else if (k == "b") { EXPECT_EQ(ValueType::kMergeOperand, t); return Decision::kKeep; } else if (k == "c") { return Decision::kKeep; } ADD_FAILURE(); return Decision::kKeep; } const char* Name() const override { return "CompactionIteratorTest.SingleMergeOperand::Filter"; } }; class SingleMergeOp : public MergeOperator { public: bool FullMergeV2(const MergeOperationInput& merge_in, MergeOperationOutput* merge_out) const override { // See InitIterators() call below for why "c" is the only key for which // FullMergeV2 should be called. EXPECT_EQ("c", merge_in.key.ToString()); std::string temp_value; if (merge_in.existing_value != nullptr) { temp_value = merge_in.existing_value->ToString(); } for (auto& operand : merge_in.operand_list) { temp_value.append(operand.ToString()); } merge_out->new_value = temp_value; return true; } bool PartialMergeMulti(const Slice& key, const std::deque& operand_list, std::string* new_value, Logger* /*logger*/) const override { std::string string_key = key.ToString(); EXPECT_TRUE(string_key == "a" || string_key == "b"); if (string_key == "a") { EXPECT_EQ(1, operand_list.size()); } else if (string_key == "b") { EXPECT_EQ(2, operand_list.size()); } std::string temp_value; for (auto& operand : operand_list) { temp_value.append(operand.ToString()); } swap(temp_value, *new_value); return true; } const char* Name() const override { return "CompactionIteratorTest SingleMergeOp"; } bool AllowSingleOperand() const override { return true; } }; SingleMergeOp merge_op; Filter filter; InitIterators( // a should invoke PartialMergeMulti with a single merge operand. {test::KeyStr("a", 50, kTypeMerge), // b should invoke PartialMergeMulti with two operands. test::KeyStr("b", 70, kTypeMerge), test::KeyStr("b", 60, kTypeMerge), // c should invoke FullMerge due to kTypeValue at the beginning. test::KeyStr("c", 90, kTypeMerge), test::KeyStr("c", 80, kTypeValue)}, {"av1", "bv2", "bv1", "cv2", "cv1"}, {}, {}, kMaxSequenceNumber, kMaxSequenceNumber, &merge_op, &filter); c_iter_->SeekToFirst(); ASSERT_TRUE(c_iter_->Valid()); ASSERT_EQ(test::KeyStr("a", 50, kTypeMerge), c_iter_->key().ToString()); ASSERT_EQ("av1", c_iter_->value().ToString()); c_iter_->Next(); ASSERT_TRUE(c_iter_->Valid()); ASSERT_EQ("bv1bv2", c_iter_->value().ToString()); c_iter_->Next(); ASSERT_EQ("cv1cv2", c_iter_->value().ToString()); } // In bottommost level, values earlier than earliest snapshot can be output // with sequence = 0. TEST_P(CompactionIteratorTest, ZeroOutSequenceAtBottomLevel) { AddSnapshot(1); RunTest({test::KeyStr("a", 1, kTypeValue), test::KeyStr("b", 2, kTypeValue)}, {"v1", "v2"}, {test::KeyStr("a", 0, kTypeValue), test::KeyStr("b", 2, kTypeValue)}, {"v1", "v2"}, kMaxSequenceNumber /*last_commited_seq*/, nullptr /*merge_operator*/, nullptr /*compaction_filter*/, true /*bottommost_level*/); } // In bottommost level, deletions earlier than earliest snapshot can be removed // permanently. TEST_P(CompactionIteratorTest, RemoveDeletionAtBottomLevel) { AddSnapshot(1); RunTest({test::KeyStr("a", 1, kTypeDeletion), test::KeyStr("b", 3, kTypeDeletion), test::KeyStr("b", 1, kTypeValue)}, {"", "", ""}, {test::KeyStr("b", 3, kTypeDeletion), test::KeyStr("b", 0, kTypeValue)}, {"", ""}, kMaxSequenceNumber /*last_commited_seq*/, nullptr /*merge_operator*/, nullptr /*compaction_filter*/, true /*bottommost_level*/); } // In bottommost level, single deletions earlier than earliest snapshot can be // removed permanently. TEST_P(CompactionIteratorTest, RemoveSingleDeletionAtBottomLevel) { AddSnapshot(1); RunTest({test::KeyStr("a", 1, kTypeSingleDeletion), test::KeyStr("b", 2, kTypeSingleDeletion)}, {"", ""}, {test::KeyStr("b", 2, kTypeSingleDeletion)}, {""}, kMaxSequenceNumber /*last_commited_seq*/, nullptr /*merge_operator*/, nullptr /*compaction_filter*/, true /*bottommost_level*/); } INSTANTIATE_TEST_CASE_P(CompactionIteratorTestInstance, CompactionIteratorTest, testing::Values(true, false)); // Tests how CompactionIterator work together with SnapshotChecker. class CompactionIteratorWithSnapshotCheckerTest : public CompactionIteratorTest { public: bool UseSnapshotChecker() const override { return true; } }; // Uncommitted keys (keys with seq > last_committed_seq) should be output as-is // while committed version of these keys should get compacted as usual. TEST_F(CompactionIteratorWithSnapshotCheckerTest, PreserveUncommittedKeys_Value) { RunTest( {test::KeyStr("foo", 3, kTypeValue), test::KeyStr("foo", 2, kTypeValue), test::KeyStr("foo", 1, kTypeValue)}, {"v3", "v2", "v1"}, {test::KeyStr("foo", 3, kTypeValue), test::KeyStr("foo", 2, kTypeValue)}, {"v3", "v2"}, 2 /*last_committed_seq*/); } TEST_F(CompactionIteratorWithSnapshotCheckerTest, PreserveUncommittedKeys_Deletion) { RunTest({test::KeyStr("foo", 2, kTypeDeletion), test::KeyStr("foo", 1, kTypeValue)}, {"", "v1"}, {test::KeyStr("foo", 2, kTypeDeletion), test::KeyStr("foo", 1, kTypeValue)}, {"", "v1"}, 1 /*last_committed_seq*/); } TEST_F(CompactionIteratorWithSnapshotCheckerTest, PreserveUncommittedKeys_Merge) { auto merge_op = MergeOperators::CreateStringAppendOperator(); RunTest( {test::KeyStr("foo", 3, kTypeMerge), test::KeyStr("foo", 2, kTypeMerge), test::KeyStr("foo", 1, kTypeValue)}, {"v3", "v2", "v1"}, {test::KeyStr("foo", 3, kTypeMerge), test::KeyStr("foo", 2, kTypeValue)}, {"v3", "v1,v2"}, 2 /*last_committed_seq*/, merge_op.get()); } TEST_F(CompactionIteratorWithSnapshotCheckerTest, PreserveUncommittedKeys_SingleDelete) { RunTest({test::KeyStr("foo", 2, kTypeSingleDeletion), test::KeyStr("foo", 1, kTypeValue)}, {"", "v1"}, {test::KeyStr("foo", 2, kTypeSingleDeletion), test::KeyStr("foo", 1, kTypeValue)}, {"", "v1"}, 1 /*last_committed_seq*/); } TEST_F(CompactionIteratorWithSnapshotCheckerTest, PreserveUncommittedKeys_BlobIndex) { RunTest({test::KeyStr("foo", 3, kTypeBlobIndex), test::KeyStr("foo", 2, kTypeBlobIndex), test::KeyStr("foo", 1, kTypeBlobIndex)}, {"v3", "v2", "v1"}, {test::KeyStr("foo", 3, kTypeBlobIndex), test::KeyStr("foo", 2, kTypeBlobIndex)}, {"v3", "v2"}, 2 /*last_committed_seq*/); } // Test compaction iterator dedup keys visible to the same snapshot. TEST_F(CompactionIteratorWithSnapshotCheckerTest, DedupSameSnapshot_Value) { AddSnapshot(2, 1); RunTest( {test::KeyStr("foo", 4, kTypeValue), test::KeyStr("foo", 3, kTypeValue), test::KeyStr("foo", 2, kTypeValue), test::KeyStr("foo", 1, kTypeValue)}, {"v4", "v3", "v2", "v1"}, {test::KeyStr("foo", 4, kTypeValue), test::KeyStr("foo", 3, kTypeValue), test::KeyStr("foo", 1, kTypeValue)}, {"v4", "v3", "v1"}, 3 /*last_committed_seq*/); } TEST_F(CompactionIteratorWithSnapshotCheckerTest, DedupSameSnapshot_Deletion) { AddSnapshot(2, 1); RunTest( {test::KeyStr("foo", 4, kTypeValue), test::KeyStr("foo", 3, kTypeDeletion), test::KeyStr("foo", 2, kTypeValue), test::KeyStr("foo", 1, kTypeValue)}, {"v4", "", "v2", "v1"}, {test::KeyStr("foo", 4, kTypeValue), test::KeyStr("foo", 3, kTypeDeletion), test::KeyStr("foo", 1, kTypeValue)}, {"v4", "", "v1"}, 3 /*last_committed_seq*/); } TEST_F(CompactionIteratorWithSnapshotCheckerTest, DedupSameSnapshot_Merge) { AddSnapshot(2, 1); AddSnapshot(4, 3); auto merge_op = MergeOperators::CreateStringAppendOperator(); RunTest( {test::KeyStr("foo", 5, kTypeMerge), test::KeyStr("foo", 4, kTypeMerge), test::KeyStr("foo", 3, kTypeMerge), test::KeyStr("foo", 2, kTypeMerge), test::KeyStr("foo", 1, kTypeValue)}, {"v5", "v4", "v3", "v2", "v1"}, {test::KeyStr("foo", 5, kTypeMerge), test::KeyStr("foo", 4, kTypeMerge), test::KeyStr("foo", 3, kTypeMerge), test::KeyStr("foo", 1, kTypeValue)}, {"v5", "v4", "v2,v3", "v1"}, 4 /*last_committed_seq*/, merge_op.get()); } TEST_F(CompactionIteratorWithSnapshotCheckerTest, DedupSameSnapshot_SingleDeletion) { AddSnapshot(2, 1); RunTest( {test::KeyStr("foo", 4, kTypeValue), test::KeyStr("foo", 3, kTypeSingleDeletion), test::KeyStr("foo", 2, kTypeValue), test::KeyStr("foo", 1, kTypeValue)}, {"v4", "", "v2", "v1"}, {test::KeyStr("foo", 4, kTypeValue), test::KeyStr("foo", 1, kTypeValue)}, {"v4", "v1"}, 3 /*last_committed_seq*/); } TEST_F(CompactionIteratorWithSnapshotCheckerTest, DedupSameSnapshot_BlobIndex) { AddSnapshot(2, 1); RunTest({test::KeyStr("foo", 4, kTypeBlobIndex), test::KeyStr("foo", 3, kTypeBlobIndex), test::KeyStr("foo", 2, kTypeBlobIndex), test::KeyStr("foo", 1, kTypeBlobIndex)}, {"v4", "v3", "v2", "v1"}, {test::KeyStr("foo", 4, kTypeBlobIndex), test::KeyStr("foo", 3, kTypeBlobIndex), test::KeyStr("foo", 1, kTypeBlobIndex)}, {"v4", "v3", "v1"}, 3 /*last_committed_seq*/); } // At bottom level, sequence numbers can be zero out, and deletions can be // removed, but only when they are visible to earliest snapshot. TEST_F(CompactionIteratorWithSnapshotCheckerTest, NotZeroOutSequenceIfNotVisibleToEarliestSnapshot) { AddSnapshot(2, 1); RunTest({test::KeyStr("a", 1, kTypeValue), test::KeyStr("b", 2, kTypeValue), test::KeyStr("c", 3, kTypeValue)}, {"v1", "v2", "v3"}, {test::KeyStr("a", 0, kTypeValue), test::KeyStr("b", 2, kTypeValue), test::KeyStr("c", 3, kTypeValue)}, {"v1", "v2", "v3"}, kMaxSequenceNumber /*last_commited_seq*/, nullptr /*merge_operator*/, nullptr /*compaction_filter*/, true /*bottommost_level*/); } TEST_F(CompactionIteratorWithSnapshotCheckerTest, NotRemoveDeletionIfNotVisibleToEarliestSnapshot) { AddSnapshot(2, 1); RunTest( {test::KeyStr("a", 1, kTypeDeletion), test::KeyStr("b", 2, kTypeDeletion), test::KeyStr("c", 3, kTypeDeletion)}, {"", "", ""}, {}, {"", ""}, kMaxSequenceNumber /*last_commited_seq*/, nullptr /*merge_operator*/, nullptr /*compaction_filter*/, true /*bottommost_level*/); } TEST_F(CompactionIteratorWithSnapshotCheckerTest, NotRemoveDeletionIfValuePresentToEarlierSnapshot) { AddSnapshot(2,1); RunTest( {test::KeyStr("a", 4, kTypeDeletion), test::KeyStr("a", 1, kTypeValue), test::KeyStr("b", 3, kTypeValue)}, {"", "", ""}, {test::KeyStr("a", 4, kTypeDeletion), test::KeyStr("a", 0, kTypeValue), test::KeyStr("b", 3, kTypeValue)}, {"", "", ""}, kMaxSequenceNumber /*last_commited_seq*/, nullptr /*merge_operator*/, nullptr /*compaction_filter*/, true /*bottommost_level*/); } TEST_F(CompactionIteratorWithSnapshotCheckerTest, NotRemoveSingleDeletionIfNotVisibleToEarliestSnapshot) { AddSnapshot(2, 1); RunTest({test::KeyStr("a", 1, kTypeSingleDeletion), test::KeyStr("b", 2, kTypeSingleDeletion), test::KeyStr("c", 3, kTypeSingleDeletion)}, {"", "", ""}, {test::KeyStr("b", 2, kTypeSingleDeletion), test::KeyStr("c", 3, kTypeSingleDeletion)}, {"", ""}, kMaxSequenceNumber /*last_commited_seq*/, nullptr /*merge_operator*/, nullptr /*compaction_filter*/, true /*bottommost_level*/); } // Single delete should not cancel out values that not visible to the // same set of snapshots TEST_F(CompactionIteratorWithSnapshotCheckerTest, SingleDeleteAcrossSnapshotBoundary) { AddSnapshot(2, 1); RunTest({test::KeyStr("a", 2, kTypeSingleDeletion), test::KeyStr("a", 1, kTypeValue)}, {"", "v1"}, {test::KeyStr("a", 2, kTypeSingleDeletion), test::KeyStr("a", 1, kTypeValue)}, {"", "v1"}, 2 /*last_committed_seq*/); } // Single delete should be kept in case it is not visible to the // earliest write conflict snapshot. If a single delete is kept for this reason, // corresponding value can be trimmed to save space. TEST_F(CompactionIteratorWithSnapshotCheckerTest, KeepSingleDeletionForWriteConflictChecking) { AddSnapshot(2, 0); RunTest({test::KeyStr("a", 2, kTypeSingleDeletion), test::KeyStr("a", 1, kTypeValue)}, {"", "v1"}, {test::KeyStr("a", 2, kTypeSingleDeletion), test::KeyStr("a", 1, kTypeValue)}, {"", ""}, 2 /*last_committed_seq*/, nullptr /*merge_operator*/, nullptr /*compaction_filter*/, false /*bottommost_level*/, 2 /*earliest_write_conflict_snapshot*/); } // Compaction filter should keep uncommitted key as-is, and // * Convert the latest velue to deletion, and/or // * if latest value is a merge, apply filter to all suequent merges. TEST_F(CompactionIteratorWithSnapshotCheckerTest, CompactionFilter_Value) { std::unique_ptr compaction_filter( new FilterAllKeysCompactionFilter()); RunTest( {test::KeyStr("a", 2, kTypeValue), test::KeyStr("a", 1, kTypeValue), test::KeyStr("b", 3, kTypeValue), test::KeyStr("c", 1, kTypeValue)}, {"v2", "v1", "v3", "v4"}, {test::KeyStr("a", 2, kTypeValue), test::KeyStr("a", 1, kTypeDeletion), test::KeyStr("b", 3, kTypeValue), test::KeyStr("c", 1, kTypeDeletion)}, {"v2", "", "v3", ""}, 1 /*last_committed_seq*/, nullptr /*merge_operator*/, compaction_filter.get()); } TEST_F(CompactionIteratorWithSnapshotCheckerTest, CompactionFilter_Deletion) { std::unique_ptr compaction_filter( new FilterAllKeysCompactionFilter()); RunTest( {test::KeyStr("a", 2, kTypeDeletion), test::KeyStr("a", 1, kTypeValue)}, {"", "v1"}, {test::KeyStr("a", 2, kTypeDeletion), test::KeyStr("a", 1, kTypeDeletion)}, {"", ""}, 1 /*last_committed_seq*/, nullptr /*merge_operator*/, compaction_filter.get()); } TEST_F(CompactionIteratorWithSnapshotCheckerTest, CompactionFilter_PartialMerge) { std::shared_ptr merge_op = MergeOperators::CreateStringAppendOperator(); std::unique_ptr compaction_filter( new FilterAllKeysCompactionFilter()); RunTest({test::KeyStr("a", 3, kTypeMerge), test::KeyStr("a", 2, kTypeMerge), test::KeyStr("a", 1, kTypeMerge)}, {"v3", "v2", "v1"}, {test::KeyStr("a", 3, kTypeMerge)}, {"v3"}, 2 /*last_committed_seq*/, merge_op.get(), compaction_filter.get()); } TEST_F(CompactionIteratorWithSnapshotCheckerTest, CompactionFilter_FullMerge) { std::shared_ptr merge_op = MergeOperators::CreateStringAppendOperator(); std::unique_ptr compaction_filter( new FilterAllKeysCompactionFilter()); RunTest( {test::KeyStr("a", 3, kTypeMerge), test::KeyStr("a", 2, kTypeMerge), test::KeyStr("a", 1, kTypeValue)}, {"v3", "v2", "v1"}, {test::KeyStr("a", 3, kTypeMerge), test::KeyStr("a", 1, kTypeDeletion)}, {"v3", ""}, 2 /*last_committed_seq*/, merge_op.get(), compaction_filter.get()); } } // namespace rocksdb int main(int argc, char** argv) { ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/db/compaction_job.cc000066400000000000000000001772031337235545400171440ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "db/compaction_job.h" #ifndef __STDC_FORMAT_MACROS #define __STDC_FORMAT_MACROS #endif #include #include #include #include #include #include #include #include #include #include #include "db/builder.h" #include "db/db_impl.h" #include "db/db_iter.h" #include "db/dbformat.h" #include "db/error_handler.h" #include "db/event_helpers.h" #include "db/log_reader.h" #include "db/log_writer.h" #include "db/memtable.h" #include "db/memtable_list.h" #include "db/merge_context.h" #include "db/merge_helper.h" #include "db/version_set.h" #include "monitoring/iostats_context_imp.h" #include "monitoring/perf_context_imp.h" #include "monitoring/thread_status_util.h" #include "port/port.h" #include "rocksdb/db.h" #include "rocksdb/env.h" #include "rocksdb/statistics.h" #include "rocksdb/status.h" #include "rocksdb/table.h" #include "table/block.h" #include "table/block_based_table_factory.h" #include "table/merging_iterator.h" #include "table/table_builder.h" #include "util/coding.h" #include "util/file_reader_writer.h" #include "util/filename.h" #include "util/log_buffer.h" #include "util/logging.h" #include "util/mutexlock.h" #include "util/random.h" #include "util/sst_file_manager_impl.h" #include "util/stop_watch.h" #include "util/string_util.h" #include "util/sync_point.h" namespace rocksdb { const char* GetCompactionReasonString(CompactionReason compaction_reason) { switch (compaction_reason) { case CompactionReason::kUnknown: return "Unknown"; case CompactionReason::kLevelL0FilesNum: return "LevelL0FilesNum"; case CompactionReason::kLevelMaxLevelSize: return "LevelMaxLevelSize"; case CompactionReason::kUniversalSizeAmplification: return "UniversalSizeAmplification"; case CompactionReason::kUniversalSizeRatio: return "UniversalSizeRatio"; case CompactionReason::kUniversalSortedRunNum: return "UniversalSortedRunNum"; case CompactionReason::kFIFOMaxSize: return "FIFOMaxSize"; case CompactionReason::kFIFOReduceNumFiles: return "FIFOReduceNumFiles"; case CompactionReason::kFIFOTtl: return "FIFOTtl"; case CompactionReason::kManualCompaction: return "ManualCompaction"; case CompactionReason::kFilesMarkedForCompaction: return "FilesMarkedForCompaction"; case CompactionReason::kBottommostFiles: return "BottommostFiles"; case CompactionReason::kTtl: return "Ttl"; case CompactionReason::kFlush: return "Flush"; case CompactionReason::kExternalSstIngestion: return "ExternalSstIngestion"; case CompactionReason::kNumOfReasons: // fall through default: assert(false); return "Invalid"; } } // Maintains state for each sub-compaction struct CompactionJob::SubcompactionState { const Compaction* compaction; std::unique_ptr c_iter; // The boundaries of the key-range this compaction is interested in. No two // subcompactions may have overlapping key-ranges. // 'start' is inclusive, 'end' is exclusive, and nullptr means unbounded Slice *start, *end; // The return status of this subcompaction Status status; // Files produced by this subcompaction struct Output { FileMetaData meta; bool finished; std::shared_ptr table_properties; }; // State kept for output being generated std::vector outputs; std::unique_ptr outfile; std::unique_ptr builder; Output* current_output() { if (outputs.empty()) { // This subcompaction's outptut could be empty if compaction was aborted // before this subcompaction had a chance to generate any output files. // When subcompactions are executed sequentially this is more likely and // will be particulalry likely for the later subcompactions to be empty. // Once they are run in parallel however it should be much rarer. return nullptr; } else { return &outputs.back(); } } uint64_t current_output_file_size; // State during the subcompaction uint64_t total_bytes; uint64_t num_input_records; uint64_t num_output_records; CompactionJobStats compaction_job_stats; uint64_t approx_size; // An index that used to speed up ShouldStopBefore(). size_t grandparent_index = 0; // The number of bytes overlapping between the current output and // grandparent files used in ShouldStopBefore(). uint64_t overlapped_bytes = 0; // A flag determine whether the key has been seen in ShouldStopBefore() bool seen_key = false; std::string compression_dict; SubcompactionState(Compaction* c, Slice* _start, Slice* _end, uint64_t size = 0) : compaction(c), start(_start), end(_end), outfile(nullptr), builder(nullptr), current_output_file_size(0), total_bytes(0), num_input_records(0), num_output_records(0), approx_size(size), grandparent_index(0), overlapped_bytes(0), seen_key(false), compression_dict() { assert(compaction != nullptr); } SubcompactionState(SubcompactionState&& o) { *this = std::move(o); } SubcompactionState& operator=(SubcompactionState&& o) { compaction = std::move(o.compaction); start = std::move(o.start); end = std::move(o.end); status = std::move(o.status); outputs = std::move(o.outputs); outfile = std::move(o.outfile); builder = std::move(o.builder); current_output_file_size = std::move(o.current_output_file_size); total_bytes = std::move(o.total_bytes); num_input_records = std::move(o.num_input_records); num_output_records = std::move(o.num_output_records); compaction_job_stats = std::move(o.compaction_job_stats); approx_size = std::move(o.approx_size); grandparent_index = std::move(o.grandparent_index); overlapped_bytes = std::move(o.overlapped_bytes); seen_key = std::move(o.seen_key); compression_dict = std::move(o.compression_dict); return *this; } // Because member unique_ptrs do not have these. SubcompactionState(const SubcompactionState&) = delete; SubcompactionState& operator=(const SubcompactionState&) = delete; // Returns true iff we should stop building the current output // before processing "internal_key". bool ShouldStopBefore(const Slice& internal_key, uint64_t curr_file_size) { const InternalKeyComparator* icmp = &compaction->column_family_data()->internal_comparator(); const std::vector& grandparents = compaction->grandparents(); // Scan to find earliest grandparent file that contains key. while (grandparent_index < grandparents.size() && icmp->Compare(internal_key, grandparents[grandparent_index]->largest.Encode()) > 0) { if (seen_key) { overlapped_bytes += grandparents[grandparent_index]->fd.GetFileSize(); } assert(grandparent_index + 1 >= grandparents.size() || icmp->Compare( grandparents[grandparent_index]->largest.Encode(), grandparents[grandparent_index + 1]->smallest.Encode()) <= 0); grandparent_index++; } seen_key = true; if (overlapped_bytes + curr_file_size > compaction->max_compaction_bytes()) { // Too much overlap for current output; start new output overlapped_bytes = 0; return true; } return false; } }; // Maintains state for the entire compaction struct CompactionJob::CompactionState { Compaction* const compaction; // REQUIRED: subcompaction states are stored in order of increasing // key-range std::vector sub_compact_states; Status status; uint64_t total_bytes; uint64_t num_input_records; uint64_t num_output_records; explicit CompactionState(Compaction* c) : compaction(c), total_bytes(0), num_input_records(0), num_output_records(0) {} size_t NumOutputFiles() { size_t total = 0; for (auto& s : sub_compact_states) { total += s.outputs.size(); } return total; } Slice SmallestUserKey() { for (const auto& sub_compact_state : sub_compact_states) { if (!sub_compact_state.outputs.empty() && sub_compact_state.outputs[0].finished) { return sub_compact_state.outputs[0].meta.smallest.user_key(); } } // If there is no finished output, return an empty slice. return Slice(nullptr, 0); } Slice LargestUserKey() { for (auto it = sub_compact_states.rbegin(); it < sub_compact_states.rend(); ++it) { if (!it->outputs.empty() && it->current_output()->finished) { assert(it->current_output() != nullptr); return it->current_output()->meta.largest.user_key(); } } // If there is no finished output, return an empty slice. return Slice(nullptr, 0); } }; void CompactionJob::AggregateStatistics() { for (SubcompactionState& sc : compact_->sub_compact_states) { compact_->total_bytes += sc.total_bytes; compact_->num_input_records += sc.num_input_records; compact_->num_output_records += sc.num_output_records; } if (compaction_job_stats_) { for (SubcompactionState& sc : compact_->sub_compact_states) { compaction_job_stats_->Add(sc.compaction_job_stats); } } } CompactionJob::CompactionJob( int job_id, Compaction* compaction, const ImmutableDBOptions& db_options, const EnvOptions env_options, VersionSet* versions, const std::atomic* shutting_down, const SequenceNumber preserve_deletes_seqnum, LogBuffer* log_buffer, Directory* db_directory, Directory* output_directory, Statistics* stats, InstrumentedMutex* db_mutex, ErrorHandler* db_error_handler, std::vector existing_snapshots, SequenceNumber earliest_write_conflict_snapshot, const SnapshotChecker* snapshot_checker, std::shared_ptr table_cache, EventLogger* event_logger, bool paranoid_file_checks, bool measure_io_stats, const std::string& dbname, CompactionJobStats* compaction_job_stats) : job_id_(job_id), compact_(new CompactionState(compaction)), compaction_job_stats_(compaction_job_stats), compaction_stats_(compaction->compaction_reason(), 1), dbname_(dbname), db_options_(db_options), env_options_(env_options), env_(db_options.env), env_optiosn_for_read_( env_->OptimizeForCompactionTableRead(env_options, db_options_)), versions_(versions), shutting_down_(shutting_down), preserve_deletes_seqnum_(preserve_deletes_seqnum), log_buffer_(log_buffer), db_directory_(db_directory), output_directory_(output_directory), stats_(stats), db_mutex_(db_mutex), db_error_handler_(db_error_handler), existing_snapshots_(std::move(existing_snapshots)), earliest_write_conflict_snapshot_(earliest_write_conflict_snapshot), snapshot_checker_(snapshot_checker), table_cache_(std::move(table_cache)), event_logger_(event_logger), bottommost_level_(false), paranoid_file_checks_(paranoid_file_checks), measure_io_stats_(measure_io_stats), write_hint_(Env::WLTH_NOT_SET) { assert(log_buffer_ != nullptr); const auto* cfd = compact_->compaction->column_family_data(); ThreadStatusUtil::SetColumnFamily(cfd, cfd->ioptions()->env, db_options_.enable_thread_tracking); ThreadStatusUtil::SetThreadOperation(ThreadStatus::OP_COMPACTION); ReportStartedCompaction(compaction); } CompactionJob::~CompactionJob() { assert(compact_ == nullptr); ThreadStatusUtil::ResetThreadStatus(); } void CompactionJob::ReportStartedCompaction(Compaction* compaction) { const auto* cfd = compact_->compaction->column_family_data(); ThreadStatusUtil::SetColumnFamily(cfd, cfd->ioptions()->env, db_options_.enable_thread_tracking); ThreadStatusUtil::SetThreadOperationProperty(ThreadStatus::COMPACTION_JOB_ID, job_id_); ThreadStatusUtil::SetThreadOperationProperty( ThreadStatus::COMPACTION_INPUT_OUTPUT_LEVEL, (static_cast(compact_->compaction->start_level()) << 32) + compact_->compaction->output_level()); // In the current design, a CompactionJob is always created // for non-trivial compaction. assert(compaction->IsTrivialMove() == false || compaction->is_manual_compaction() == true); ThreadStatusUtil::SetThreadOperationProperty( ThreadStatus::COMPACTION_PROP_FLAGS, compaction->is_manual_compaction() + (compaction->deletion_compaction() << 1)); ThreadStatusUtil::SetThreadOperationProperty( ThreadStatus::COMPACTION_TOTAL_INPUT_BYTES, compaction->CalculateTotalInputSize()); IOSTATS_RESET(bytes_written); IOSTATS_RESET(bytes_read); ThreadStatusUtil::SetThreadOperationProperty( ThreadStatus::COMPACTION_BYTES_WRITTEN, 0); ThreadStatusUtil::SetThreadOperationProperty( ThreadStatus::COMPACTION_BYTES_READ, 0); // Set the thread operation after operation properties // to ensure GetThreadList() can always show them all together. ThreadStatusUtil::SetThreadOperation(ThreadStatus::OP_COMPACTION); if (compaction_job_stats_) { compaction_job_stats_->is_manual_compaction = compaction->is_manual_compaction(); } } void CompactionJob::Prepare() { AutoThreadOperationStageUpdater stage_updater( ThreadStatus::STAGE_COMPACTION_PREPARE); // Generate file_levels_ for compaction berfore making Iterator auto* c = compact_->compaction; assert(c->column_family_data() != nullptr); assert(c->column_family_data()->current()->storage_info()->NumLevelFiles( compact_->compaction->level()) > 0); write_hint_ = c->column_family_data()->CalculateSSTWriteHint(c->output_level()); // Is this compaction producing files at the bottommost level? bottommost_level_ = c->bottommost_level(); if (c->ShouldFormSubcompactions()) { const uint64_t start_micros = env_->NowMicros(); GenSubcompactionBoundaries(); MeasureTime(stats_, SUBCOMPACTION_SETUP_TIME, env_->NowMicros() - start_micros); assert(sizes_.size() == boundaries_.size() + 1); for (size_t i = 0; i <= boundaries_.size(); i++) { Slice* start = i == 0 ? nullptr : &boundaries_[i - 1]; Slice* end = i == boundaries_.size() ? nullptr : &boundaries_[i]; compact_->sub_compact_states.emplace_back(c, start, end, sizes_[i]); } MeasureTime(stats_, NUM_SUBCOMPACTIONS_SCHEDULED, compact_->sub_compact_states.size()); } else { compact_->sub_compact_states.emplace_back(c, nullptr, nullptr); } } struct RangeWithSize { Range range; uint64_t size; RangeWithSize(const Slice& a, const Slice& b, uint64_t s = 0) : range(a, b), size(s) {} }; // Generates a histogram representing potential divisions of key ranges from // the input. It adds the starting and/or ending keys of certain input files // to the working set and then finds the approximate size of data in between // each consecutive pair of slices. Then it divides these ranges into // consecutive groups such that each group has a similar size. void CompactionJob::GenSubcompactionBoundaries() { auto* c = compact_->compaction; auto* cfd = c->column_family_data(); const Comparator* cfd_comparator = cfd->user_comparator(); std::vector bounds; int start_lvl = c->start_level(); int out_lvl = c->output_level(); // Add the starting and/or ending key of certain input files as a potential // boundary for (size_t lvl_idx = 0; lvl_idx < c->num_input_levels(); lvl_idx++) { int lvl = c->level(lvl_idx); if (lvl >= start_lvl && lvl <= out_lvl) { const LevelFilesBrief* flevel = c->input_levels(lvl_idx); size_t num_files = flevel->num_files; if (num_files == 0) { continue; } if (lvl == 0) { // For level 0 add the starting and ending key of each file since the // files may have greatly differing key ranges (not range-partitioned) for (size_t i = 0; i < num_files; i++) { bounds.emplace_back(flevel->files[i].smallest_key); bounds.emplace_back(flevel->files[i].largest_key); } } else { // For all other levels add the smallest/largest key in the level to // encompass the range covered by that level bounds.emplace_back(flevel->files[0].smallest_key); bounds.emplace_back(flevel->files[num_files - 1].largest_key); if (lvl == out_lvl) { // For the last level include the starting keys of all files since // the last level is the largest and probably has the widest key // range. Since it's range partitioned, the ending key of one file // and the starting key of the next are very close (or identical). for (size_t i = 1; i < num_files; i++) { bounds.emplace_back(flevel->files[i].smallest_key); } } } } } std::sort(bounds.begin(), bounds.end(), [cfd_comparator](const Slice& a, const Slice& b) -> bool { return cfd_comparator->Compare(ExtractUserKey(a), ExtractUserKey(b)) < 0; }); // Remove duplicated entries from bounds bounds.erase( std::unique(bounds.begin(), bounds.end(), [cfd_comparator](const Slice& a, const Slice& b) -> bool { return cfd_comparator->Compare(ExtractUserKey(a), ExtractUserKey(b)) == 0; }), bounds.end()); // Combine consecutive pairs of boundaries into ranges with an approximate // size of data covered by keys in that range uint64_t sum = 0; std::vector ranges; auto* v = cfd->current(); for (auto it = bounds.begin();;) { const Slice a = *it; it++; if (it == bounds.end()) { break; } const Slice b = *it; uint64_t size = versions_->ApproximateSize(v, a, b, start_lvl, out_lvl + 1); ranges.emplace_back(a, b, size); sum += size; } // Group the ranges into subcompactions const double min_file_fill_percent = 4.0 / 5; int base_level = v->storage_info()->base_level(); uint64_t max_output_files = static_cast(std::ceil( sum / min_file_fill_percent / MaxFileSizeForLevel(*(c->mutable_cf_options()), out_lvl, c->immutable_cf_options()->compaction_style, base_level, c->immutable_cf_options()->level_compaction_dynamic_level_bytes))); uint64_t subcompactions = std::min({static_cast(ranges.size()), static_cast(c->max_subcompactions()), max_output_files}); if (subcompactions > 1) { double mean = sum * 1.0 / subcompactions; // Greedily add ranges to the subcompaction until the sum of the ranges' // sizes becomes >= the expected mean size of a subcompaction sum = 0; for (size_t i = 0; i < ranges.size() - 1; i++) { sum += ranges[i].size; if (subcompactions == 1) { // If there's only one left to schedule then it goes to the end so no // need to put an end boundary continue; } if (sum >= mean) { boundaries_.emplace_back(ExtractUserKey(ranges[i].range.limit)); sizes_.emplace_back(sum); subcompactions--; sum = 0; } } sizes_.emplace_back(sum + ranges.back().size); } else { // Only one range so its size is the total sum of sizes computed above sizes_.emplace_back(sum); } } Status CompactionJob::Run() { AutoThreadOperationStageUpdater stage_updater( ThreadStatus::STAGE_COMPACTION_RUN); TEST_SYNC_POINT("CompactionJob::Run():Start"); log_buffer_->FlushBufferToLog(); LogCompaction(); const size_t num_threads = compact_->sub_compact_states.size(); assert(num_threads > 0); const uint64_t start_micros = env_->NowMicros(); // Launch a thread for each of subcompactions 1...num_threads-1 std::vector thread_pool; thread_pool.reserve(num_threads - 1); for (size_t i = 1; i < compact_->sub_compact_states.size(); i++) { thread_pool.emplace_back(&CompactionJob::ProcessKeyValueCompaction, this, &compact_->sub_compact_states[i]); } // Always schedule the first subcompaction (whether or not there are also // others) in the current thread to be efficient with resources ProcessKeyValueCompaction(&compact_->sub_compact_states[0]); // Wait for all other threads (if there are any) to finish execution for (auto& thread : thread_pool) { thread.join(); } compaction_stats_.micros = env_->NowMicros() - start_micros; MeasureTime(stats_, COMPACTION_TIME, compaction_stats_.micros); TEST_SYNC_POINT("CompactionJob::Run:BeforeVerify"); // Check if any thread encountered an error during execution Status status; for (const auto& state : compact_->sub_compact_states) { if (!state.status.ok()) { status = state.status; break; } } if (status.ok() && output_directory_) { status = output_directory_->Fsync(); } if (status.ok()) { thread_pool.clear(); std::vector files_meta; for (const auto& state : compact_->sub_compact_states) { for (const auto& output : state.outputs) { files_meta.emplace_back(&output.meta); } } ColumnFamilyData* cfd = compact_->compaction->column_family_data(); auto prefix_extractor = compact_->compaction->mutable_cf_options()->prefix_extractor.get(); std::atomic next_file_meta_idx(0); auto verify_table = [&](Status& output_status) { while (true) { size_t file_idx = next_file_meta_idx.fetch_add(1); if (file_idx >= files_meta.size()) { break; } // Verify that the table is usable // We set for_compaction to false and don't OptimizeForCompactionTableRead // here because this is a special case after we finish the table building // No matter whether use_direct_io_for_flush_and_compaction is true, // we will regard this verification as user reads since the goal is // to cache it here for further user reads InternalIterator* iter = cfd->table_cache()->NewIterator( ReadOptions(), env_options_, cfd->internal_comparator(), *files_meta[file_idx], nullptr /* range_del_agg */, prefix_extractor, nullptr, cfd->internal_stats()->GetFileReadHist( compact_->compaction->output_level()), false, nullptr /* arena */, false /* skip_filters */, compact_->compaction->output_level()); auto s = iter->status(); if (s.ok() && paranoid_file_checks_) { for (iter->SeekToFirst(); iter->Valid(); iter->Next()) {} s = iter->status(); } delete iter; if (!s.ok()) { output_status = s; break; } } }; for (size_t i = 1; i < compact_->sub_compact_states.size(); i++) { thread_pool.emplace_back(verify_table, std::ref(compact_->sub_compact_states[i].status)); } verify_table(compact_->sub_compact_states[0].status); for (auto& thread : thread_pool) { thread.join(); } for (const auto& state : compact_->sub_compact_states) { if (!state.status.ok()) { status = state.status; break; } } } TablePropertiesCollection tp; for (const auto& state : compact_->sub_compact_states) { for (const auto& output : state.outputs) { auto fn = TableFileName(state.compaction->immutable_cf_options()->cf_paths, output.meta.fd.GetNumber(), output.meta.fd.GetPathId()); tp[fn] = output.table_properties; } } compact_->compaction->SetOutputTableProperties(std::move(tp)); // Finish up all book-keeping to unify the subcompaction results AggregateStatistics(); UpdateCompactionStats(); RecordCompactionIOStats(); LogFlush(db_options_.info_log); TEST_SYNC_POINT("CompactionJob::Run():End"); compact_->status = status; return status; } Status CompactionJob::Install(const MutableCFOptions& mutable_cf_options) { AutoThreadOperationStageUpdater stage_updater( ThreadStatus::STAGE_COMPACTION_INSTALL); db_mutex_->AssertHeld(); Status status = compact_->status; ColumnFamilyData* cfd = compact_->compaction->column_family_data(); cfd->internal_stats()->AddCompactionStats( compact_->compaction->output_level(), compaction_stats_); if (status.ok()) { status = InstallCompactionResults(mutable_cf_options); } VersionStorageInfo::LevelSummaryStorage tmp; auto vstorage = cfd->current()->storage_info(); const auto& stats = compaction_stats_; double read_write_amp = 0.0; double write_amp = 0.0; double bytes_read_per_sec = 0; double bytes_written_per_sec = 0; if (stats.bytes_read_non_output_levels > 0) { read_write_amp = (stats.bytes_written + stats.bytes_read_output_level + stats.bytes_read_non_output_levels) / static_cast(stats.bytes_read_non_output_levels); write_amp = stats.bytes_written / static_cast(stats.bytes_read_non_output_levels); } if (stats.micros > 0) { bytes_read_per_sec = (stats.bytes_read_non_output_levels + stats.bytes_read_output_level) / static_cast(stats.micros); bytes_written_per_sec = stats.bytes_written / static_cast(stats.micros); } ROCKS_LOG_BUFFER( log_buffer_, "[%s] compacted to: %s, MB/sec: %.1f rd, %.1f wr, level %d, " "files in(%d, %d) out(%d) " "MB in(%.1f, %.1f) out(%.1f), read-write-amplify(%.1f) " "write-amplify(%.1f) %s, records in: %" PRIu64 ", records dropped: %" PRIu64 " output_compression: %s\n", cfd->GetName().c_str(), vstorage->LevelSummary(&tmp), bytes_read_per_sec, bytes_written_per_sec, compact_->compaction->output_level(), stats.num_input_files_in_non_output_levels, stats.num_input_files_in_output_level, stats.num_output_files, stats.bytes_read_non_output_levels / 1048576.0, stats.bytes_read_output_level / 1048576.0, stats.bytes_written / 1048576.0, read_write_amp, write_amp, status.ToString().c_str(), stats.num_input_records, stats.num_dropped_records, CompressionTypeToString(compact_->compaction->output_compression()) .c_str()); UpdateCompactionJobStats(stats); auto stream = event_logger_->LogToBuffer(log_buffer_); stream << "job" << job_id_ << "event" << "compaction_finished" << "compaction_time_micros" << compaction_stats_.micros << "output_level" << compact_->compaction->output_level() << "num_output_files" << compact_->NumOutputFiles() << "total_output_size" << compact_->total_bytes << "num_input_records" << compact_->num_input_records << "num_output_records" << compact_->num_output_records << "num_subcompactions" << compact_->sub_compact_states.size() << "output_compression" << CompressionTypeToString(compact_->compaction->output_compression()); if (compaction_job_stats_ != nullptr) { stream << "num_single_delete_mismatches" << compaction_job_stats_->num_single_del_mismatch; stream << "num_single_delete_fallthrough" << compaction_job_stats_->num_single_del_fallthru; } if (measure_io_stats_ && compaction_job_stats_ != nullptr) { stream << "file_write_nanos" << compaction_job_stats_->file_write_nanos; stream << "file_range_sync_nanos" << compaction_job_stats_->file_range_sync_nanos; stream << "file_fsync_nanos" << compaction_job_stats_->file_fsync_nanos; stream << "file_prepare_write_nanos" << compaction_job_stats_->file_prepare_write_nanos; } stream << "lsm_state"; stream.StartArray(); for (int level = 0; level < vstorage->num_levels(); ++level) { stream << vstorage->NumLevelFiles(level); } stream.EndArray(); CleanupCompaction(); return status; } void CompactionJob::ProcessKeyValueCompaction(SubcompactionState* sub_compact) { assert(sub_compact != nullptr); ColumnFamilyData* cfd = sub_compact->compaction->column_family_data(); std::unique_ptr range_del_agg( new RangeDelAggregator(cfd->internal_comparator(), existing_snapshots_)); std::unique_ptr input(versions_->MakeInputIterator( sub_compact->compaction, range_del_agg.get(), env_optiosn_for_read_)); AutoThreadOperationStageUpdater stage_updater( ThreadStatus::STAGE_COMPACTION_PROCESS_KV); // I/O measurement variables PerfLevel prev_perf_level = PerfLevel::kEnableTime; const uint64_t kRecordStatsEvery = 1000; uint64_t prev_write_nanos = 0; uint64_t prev_fsync_nanos = 0; uint64_t prev_range_sync_nanos = 0; uint64_t prev_prepare_write_nanos = 0; if (measure_io_stats_) { prev_perf_level = GetPerfLevel(); SetPerfLevel(PerfLevel::kEnableTime); prev_write_nanos = IOSTATS(write_nanos); prev_fsync_nanos = IOSTATS(fsync_nanos); prev_range_sync_nanos = IOSTATS(range_sync_nanos); prev_prepare_write_nanos = IOSTATS(prepare_write_nanos); } const MutableCFOptions* mutable_cf_options = sub_compact->compaction->mutable_cf_options(); // To build compression dictionary, we sample the first output file, assuming // it'll reach the maximum length. We optionally pass these samples through // zstd's dictionary trainer, or just use them directly. Then, the dictionary // is used for compressing subsequent output files in the same subcompaction. const bool kUseZstdTrainer = sub_compact->compaction->output_compression_opts().zstd_max_train_bytes > 0; const size_t kSampleBytes = kUseZstdTrainer ? sub_compact->compaction->output_compression_opts() .zstd_max_train_bytes : sub_compact->compaction->output_compression_opts().max_dict_bytes; const int kSampleLenShift = 6; // 2^6 = 64-byte samples std::set sample_begin_offsets; if (bottommost_level_ && kSampleBytes > 0) { const size_t kMaxSamples = kSampleBytes >> kSampleLenShift; const size_t kOutFileLen = static_cast(MaxFileSizeForLevel(*mutable_cf_options, compact_->compaction->output_level(), cfd->ioptions()->compaction_style, compact_->compaction->GetInputBaseLevel(), cfd->ioptions()->level_compaction_dynamic_level_bytes)); if (kOutFileLen != port::kMaxSizet) { const size_t kOutFileNumSamples = kOutFileLen >> kSampleLenShift; Random64 generator{versions_->NewFileNumber()}; for (size_t i = 0; i < kMaxSamples; ++i) { sample_begin_offsets.insert( static_cast(generator.Uniform(kOutFileNumSamples)) << kSampleLenShift); } } } auto compaction_filter = cfd->ioptions()->compaction_filter; std::unique_ptr compaction_filter_from_factory = nullptr; if (compaction_filter == nullptr) { compaction_filter_from_factory = sub_compact->compaction->CreateCompactionFilter(); compaction_filter = compaction_filter_from_factory.get(); } MergeHelper merge( env_, cfd->user_comparator(), cfd->ioptions()->merge_operator, compaction_filter, db_options_.info_log.get(), false /* internal key corruption is expected */, existing_snapshots_.empty() ? 0 : existing_snapshots_.back(), snapshot_checker_, compact_->compaction->level(), db_options_.statistics.get(), shutting_down_); TEST_SYNC_POINT("CompactionJob::Run():Inprogress"); Slice* start = sub_compact->start; Slice* end = sub_compact->end; if (start != nullptr) { IterKey start_iter; start_iter.SetInternalKey(*start, kMaxSequenceNumber, kValueTypeForSeek); input->Seek(start_iter.GetInternalKey()); } else { input->SeekToFirst(); } Status status; sub_compact->c_iter.reset(new CompactionIterator( input.get(), cfd->user_comparator(), &merge, versions_->LastSequence(), &existing_snapshots_, earliest_write_conflict_snapshot_, snapshot_checker_, env_, ShouldReportDetailedTime(env_, stats_), false, range_del_agg.get(), sub_compact->compaction, compaction_filter, shutting_down_, preserve_deletes_seqnum_)); auto c_iter = sub_compact->c_iter.get(); c_iter->SeekToFirst(); if (c_iter->Valid() && sub_compact->compaction->output_level() != 0) { // ShouldStopBefore() maintains state based on keys processed so far. The // compaction loop always calls it on the "next" key, thus won't tell it the // first key. So we do that here. sub_compact->ShouldStopBefore(c_iter->key(), sub_compact->current_output_file_size); } const auto& c_iter_stats = c_iter->iter_stats(); auto sample_begin_offset_iter = sample_begin_offsets.cbegin(); // data_begin_offset and dict_sample_data are only valid while generating // dictionary from the first output file. size_t data_begin_offset = 0; std::string dict_sample_data; dict_sample_data.reserve(kSampleBytes); while (status.ok() && !cfd->IsDropped() && c_iter->Valid()) { // Invariant: c_iter.status() is guaranteed to be OK if c_iter->Valid() // returns true. const Slice& key = c_iter->key(); const Slice& value = c_iter->value(); // If an end key (exclusive) is specified, check if the current key is // >= than it and exit if it is because the iterator is out of its range if (end != nullptr && cfd->user_comparator()->Compare(c_iter->user_key(), *end) >= 0) { break; } if (c_iter_stats.num_input_records % kRecordStatsEvery == kRecordStatsEvery - 1) { RecordDroppedKeys(c_iter_stats, &sub_compact->compaction_job_stats); c_iter->ResetRecordCounts(); RecordCompactionIOStats(); } // Open output file if necessary if (sub_compact->builder == nullptr) { status = OpenCompactionOutputFile(sub_compact); if (!status.ok()) { break; } } assert(sub_compact->builder != nullptr); assert(sub_compact->current_output() != nullptr); sub_compact->builder->Add(key, value); sub_compact->current_output_file_size = sub_compact->builder->FileSize(); sub_compact->current_output()->meta.UpdateBoundaries( key, c_iter->ikey().sequence); sub_compact->num_output_records++; if (sub_compact->outputs.size() == 1) { // first output file // Check if this key/value overlaps any sample intervals; if so, appends // overlapping portions to the dictionary. for (const auto& data_elmt : {key, value}) { size_t data_end_offset = data_begin_offset + data_elmt.size(); while (sample_begin_offset_iter != sample_begin_offsets.cend() && *sample_begin_offset_iter < data_end_offset) { size_t sample_end_offset = *sample_begin_offset_iter + (1 << kSampleLenShift); // Invariant: Because we advance sample iterator while processing the // data_elmt containing the sample's last byte, the current sample // cannot end before the current data_elmt. assert(data_begin_offset < sample_end_offset); size_t data_elmt_copy_offset, data_elmt_copy_len; if (*sample_begin_offset_iter <= data_begin_offset) { // The sample starts before data_elmt starts, so take bytes starting // at the beginning of data_elmt. data_elmt_copy_offset = 0; } else { // data_elmt starts before the sample starts, so take bytes starting // at the below offset into data_elmt. data_elmt_copy_offset = *sample_begin_offset_iter - data_begin_offset; } if (sample_end_offset <= data_end_offset) { // The sample ends before data_elmt ends, so take as many bytes as // needed. data_elmt_copy_len = sample_end_offset - (data_begin_offset + data_elmt_copy_offset); } else { // data_elmt ends before the sample ends, so take all remaining // bytes in data_elmt. data_elmt_copy_len = data_end_offset - (data_begin_offset + data_elmt_copy_offset); } dict_sample_data.append(&data_elmt.data()[data_elmt_copy_offset], data_elmt_copy_len); if (sample_end_offset > data_end_offset) { // Didn't finish sample. Try to finish it with the next data_elmt. break; } // Next sample may require bytes from same data_elmt. sample_begin_offset_iter++; } data_begin_offset = data_end_offset; } } // Close output file if it is big enough. Two possibilities determine it's // time to close it: (1) the current key should be this file's last key, (2) // the next key should not be in this file. // // TODO(aekmekji): determine if file should be closed earlier than this // during subcompactions (i.e. if output size, estimated by input size, is // going to be 1.2MB and max_output_file_size = 1MB, prefer to have 0.6MB // and 0.6MB instead of 1MB and 0.2MB) bool output_file_ended = false; Status input_status; if (sub_compact->compaction->output_level() != 0 && sub_compact->current_output_file_size >= sub_compact->compaction->max_output_file_size()) { // (1) this key terminates the file. For historical reasons, the iterator // status before advancing will be given to FinishCompactionOutputFile(). input_status = input->status(); output_file_ended = true; } c_iter->Next(); if (!output_file_ended && c_iter->Valid() && sub_compact->compaction->output_level() != 0 && sub_compact->ShouldStopBefore(c_iter->key(), sub_compact->current_output_file_size) && sub_compact->builder != nullptr) { // (2) this key belongs to the next file. For historical reasons, the // iterator status after advancing will be given to // FinishCompactionOutputFile(). input_status = input->status(); output_file_ended = true; } if (output_file_ended) { const Slice* next_key = nullptr; if (c_iter->Valid()) { next_key = &c_iter->key(); } CompactionIterationStats range_del_out_stats; status = FinishCompactionOutputFile(input_status, sub_compact, range_del_agg.get(), &range_del_out_stats, next_key); RecordDroppedKeys(range_del_out_stats, &sub_compact->compaction_job_stats); if (sub_compact->outputs.size() == 1) { // Use samples from first output file to create dictionary for // compression of subsequent files. if (kUseZstdTrainer) { sub_compact->compression_dict = ZSTD_TrainDictionary( dict_sample_data, kSampleLenShift, sub_compact->compaction->output_compression_opts() .max_dict_bytes); } else { sub_compact->compression_dict = std::move(dict_sample_data); } } } } sub_compact->num_input_records = c_iter_stats.num_input_records; sub_compact->compaction_job_stats.num_input_deletion_records = c_iter_stats.num_input_deletion_records; sub_compact->compaction_job_stats.num_corrupt_keys = c_iter_stats.num_input_corrupt_records; sub_compact->compaction_job_stats.num_single_del_fallthru = c_iter_stats.num_single_del_fallthru; sub_compact->compaction_job_stats.num_single_del_mismatch = c_iter_stats.num_single_del_mismatch; sub_compact->compaction_job_stats.total_input_raw_key_bytes += c_iter_stats.total_input_raw_key_bytes; sub_compact->compaction_job_stats.total_input_raw_value_bytes += c_iter_stats.total_input_raw_value_bytes; RecordTick(stats_, FILTER_OPERATION_TOTAL_TIME, c_iter_stats.total_filter_time); RecordDroppedKeys(c_iter_stats, &sub_compact->compaction_job_stats); RecordCompactionIOStats(); if (status.ok() && (shutting_down_->load(std::memory_order_relaxed) || cfd->IsDropped())) { status = Status::ShutdownInProgress( "Database shutdown or Column family drop during compaction"); } if (status.ok()) { status = input->status(); } if (status.ok()) { status = c_iter->status(); } if (status.ok() && sub_compact->builder == nullptr && sub_compact->outputs.size() == 0 && !range_del_agg->IsEmpty()) { // handle subcompaction containing only range deletions status = OpenCompactionOutputFile(sub_compact); } // Call FinishCompactionOutputFile() even if status is not ok: it needs to // close the output file. if (sub_compact->builder != nullptr) { CompactionIterationStats range_del_out_stats; Status s = FinishCompactionOutputFile( status, sub_compact, range_del_agg.get(), &range_del_out_stats); if (status.ok()) { status = s; } RecordDroppedKeys(range_del_out_stats, &sub_compact->compaction_job_stats); } if (measure_io_stats_) { sub_compact->compaction_job_stats.file_write_nanos += IOSTATS(write_nanos) - prev_write_nanos; sub_compact->compaction_job_stats.file_fsync_nanos += IOSTATS(fsync_nanos) - prev_fsync_nanos; sub_compact->compaction_job_stats.file_range_sync_nanos += IOSTATS(range_sync_nanos) - prev_range_sync_nanos; sub_compact->compaction_job_stats.file_prepare_write_nanos += IOSTATS(prepare_write_nanos) - prev_prepare_write_nanos; if (prev_perf_level != PerfLevel::kEnableTime) { SetPerfLevel(prev_perf_level); } } sub_compact->c_iter.reset(); input.reset(); sub_compact->status = status; } void CompactionJob::RecordDroppedKeys( const CompactionIterationStats& c_iter_stats, CompactionJobStats* compaction_job_stats) { if (c_iter_stats.num_record_drop_user > 0) { RecordTick(stats_, COMPACTION_KEY_DROP_USER, c_iter_stats.num_record_drop_user); } if (c_iter_stats.num_record_drop_hidden > 0) { RecordTick(stats_, COMPACTION_KEY_DROP_NEWER_ENTRY, c_iter_stats.num_record_drop_hidden); if (compaction_job_stats) { compaction_job_stats->num_records_replaced += c_iter_stats.num_record_drop_hidden; } } if (c_iter_stats.num_record_drop_obsolete > 0) { RecordTick(stats_, COMPACTION_KEY_DROP_OBSOLETE, c_iter_stats.num_record_drop_obsolete); if (compaction_job_stats) { compaction_job_stats->num_expired_deletion_records += c_iter_stats.num_record_drop_obsolete; } } if (c_iter_stats.num_record_drop_range_del > 0) { RecordTick(stats_, COMPACTION_KEY_DROP_RANGE_DEL, c_iter_stats.num_record_drop_range_del); } if (c_iter_stats.num_range_del_drop_obsolete > 0) { RecordTick(stats_, COMPACTION_RANGE_DEL_DROP_OBSOLETE, c_iter_stats.num_range_del_drop_obsolete); } if (c_iter_stats.num_optimized_del_drop_obsolete > 0) { RecordTick(stats_, COMPACTION_OPTIMIZED_DEL_DROP_OBSOLETE, c_iter_stats.num_optimized_del_drop_obsolete); } } Status CompactionJob::FinishCompactionOutputFile( const Status& input_status, SubcompactionState* sub_compact, RangeDelAggregator* range_del_agg, CompactionIterationStats* range_del_out_stats, const Slice* next_table_min_key /* = nullptr */) { AutoThreadOperationStageUpdater stage_updater( ThreadStatus::STAGE_COMPACTION_SYNC_FILE); assert(sub_compact != nullptr); assert(sub_compact->outfile); assert(sub_compact->builder != nullptr); assert(sub_compact->current_output() != nullptr); uint64_t output_number = sub_compact->current_output()->meta.fd.GetNumber(); assert(output_number != 0); ColumnFamilyData* cfd = sub_compact->compaction->column_family_data(); const Comparator* ucmp = cfd->user_comparator(); // Check for iterator errors Status s = input_status; auto meta = &sub_compact->current_output()->meta; assert(meta != nullptr); if (s.ok()) { Slice lower_bound_guard, upper_bound_guard; std::string smallest_user_key; const Slice *lower_bound, *upper_bound; if (sub_compact->outputs.size() == 1) { // For the first output table, include range tombstones before the min key // but after the subcompaction boundary. lower_bound = sub_compact->start; } else if (meta->smallest.size() > 0) { // For subsequent output tables, only include range tombstones from min // key onwards since the previous file was extended to contain range // tombstones falling before min key. smallest_user_key = meta->smallest.user_key().ToString(false /*hex*/); lower_bound_guard = Slice(smallest_user_key); lower_bound = &lower_bound_guard; } else { lower_bound = nullptr; } if (next_table_min_key != nullptr) { // This isn't the last file in the subcompaction, so extend until the next // file starts. upper_bound_guard = ExtractUserKey(*next_table_min_key); upper_bound = &upper_bound_guard; } else { // This is the last file in the subcompaction, so extend until the // subcompaction ends. upper_bound = sub_compact->end; } auto earliest_snapshot = kMaxSequenceNumber; if (existing_snapshots_.size() > 0) { earliest_snapshot = existing_snapshots_[0]; } auto it = range_del_agg->NewIterator(); if (lower_bound != nullptr) { it->Seek(*lower_bound); } for (; it->Valid(); it->Next()) { auto tombstone = it->Tombstone(); if (upper_bound != nullptr && ucmp->Compare(*upper_bound, tombstone.start_key_) <= 0) { // Tombstones starting at upper_bound or later only need to be included // in the next table. Break because subsequent tombstones will start // even later. break; } if (bottommost_level_ && tombstone.seq_ <= earliest_snapshot) { // TODO(andrewkr): tombstones that span multiple output files are // counted for each compaction output file, so lots of double counting. range_del_out_stats->num_range_del_drop_obsolete++; range_del_out_stats->num_record_drop_obsolete++; continue; } auto kv = tombstone.Serialize(); sub_compact->builder->Add(kv.first.Encode(), kv.second); InternalKey smallest_candidate = std::move(kv.first); if (lower_bound != nullptr && ucmp->Compare(smallest_candidate.user_key(), *lower_bound) <= 0) { // Pretend the smallest key has the same user key as lower_bound // (the max key in the previous table or subcompaction) in order for // files to appear key-space partitioned. // // Choose lowest seqnum so this file's smallest internal key comes // after the previous file's/subcompaction's largest. The fake seqnum // is OK because the read path's file-picking code only considers user // key. smallest_candidate = InternalKey(*lower_bound, 0, kTypeRangeDeletion); } InternalKey largest_candidate = tombstone.SerializeEndKey(); if (upper_bound != nullptr && ucmp->Compare(*upper_bound, largest_candidate.user_key()) <= 0) { // Pretend the largest key has the same user key as upper_bound (the // min key in the following table or subcompaction) in order for files // to appear key-space partitioned. // // Choose highest seqnum so this file's largest internal key comes // before the next file's/subcompaction's smallest. The fake seqnum is // OK because the read path's file-picking code only considers the user // key portion. // // Note Seek() also creates InternalKey with (user_key, // kMaxSequenceNumber), but with kTypeDeletion (0x7) instead of // kTypeRangeDeletion (0xF), so the range tombstone comes before the // Seek() key in InternalKey's ordering. So Seek() will look in the // next file for the user key. largest_candidate = InternalKey(*upper_bound, kMaxSequenceNumber, kTypeRangeDeletion); } meta->UpdateBoundariesForRange(smallest_candidate, largest_candidate, tombstone.seq_, cfd->internal_comparator()); } meta->marked_for_compaction = sub_compact->builder->NeedCompact(); } const uint64_t current_entries = sub_compact->builder->NumEntries(); if (s.ok()) { s = sub_compact->builder->Finish(); } else { sub_compact->builder->Abandon(); } const uint64_t current_bytes = sub_compact->builder->FileSize(); if (s.ok()) { meta->fd.file_size = current_bytes; } sub_compact->current_output()->finished = true; sub_compact->total_bytes += current_bytes; // Finish and check for file errors if (s.ok()) { StopWatch sw(env_, stats_, COMPACTION_OUTFILE_SYNC_MICROS); s = sub_compact->outfile->Sync(db_options_.use_fsync); } if (s.ok()) { s = sub_compact->outfile->Close(); } sub_compact->outfile.reset(); TableProperties tp; if (s.ok()) { tp = sub_compact->builder->GetTableProperties(); } if (s.ok() && current_entries == 0 && tp.num_range_deletions == 0) { // If there is nothing to output, no necessary to generate a sst file. // This happens when the output level is bottom level, at the same time // the sub_compact output nothing. std::string fname = TableFileName(sub_compact->compaction->immutable_cf_options()->cf_paths, meta->fd.GetNumber(), meta->fd.GetPathId()); env_->DeleteFile(fname); // Also need to remove the file from outputs, or it will be added to the // VersionEdit. assert(!sub_compact->outputs.empty()); sub_compact->outputs.pop_back(); meta = nullptr; } if (s.ok() && (current_entries > 0 || tp.num_range_deletions > 0)) { // Output to event logger and fire events. sub_compact->current_output()->table_properties = std::make_shared(tp); ROCKS_LOG_INFO(db_options_.info_log, "[%s] [JOB %d] Generated table #%" PRIu64 ": %" PRIu64 " keys, %" PRIu64 " bytes%s", cfd->GetName().c_str(), job_id_, output_number, current_entries, current_bytes, meta->marked_for_compaction ? " (need compaction)" : ""); } std::string fname; FileDescriptor output_fd; if (meta != nullptr) { fname = TableFileName(sub_compact->compaction->immutable_cf_options()->cf_paths, meta->fd.GetNumber(), meta->fd.GetPathId()); output_fd = meta->fd; } else { fname = "(nil)"; } EventHelpers::LogAndNotifyTableFileCreationFinished( event_logger_, cfd->ioptions()->listeners, dbname_, cfd->GetName(), fname, job_id_, output_fd, tp, TableFileCreationReason::kCompaction, s); #ifndef ROCKSDB_LITE // Report new file to SstFileManagerImpl auto sfm = static_cast(db_options_.sst_file_manager.get()); if (sfm && meta != nullptr && meta->fd.GetPathId() == 0) { auto fn = TableFileName(sub_compact->compaction->immutable_cf_options()->cf_paths, meta->fd.GetNumber(), meta->fd.GetPathId()); sfm->OnAddFile(fn); if (sfm->IsMaxAllowedSpaceReached()) { // TODO(ajkr): should we return OK() if max space was reached by the final // compaction output file (similarly to how flush works when full)? s = Status::SpaceLimit("Max allowed space was reached"); TEST_SYNC_POINT( "CompactionJob::FinishCompactionOutputFile:" "MaxAllowedSpaceReached"); InstrumentedMutexLock l(db_mutex_); db_error_handler_->SetBGError(s, BackgroundErrorReason::kCompaction); } } #endif sub_compact->builder.reset(); sub_compact->current_output_file_size = 0; return s; } Status CompactionJob::InstallCompactionResults( const MutableCFOptions& mutable_cf_options) { db_mutex_->AssertHeld(); auto* compaction = compact_->compaction; // paranoia: verify that the files that we started with // still exist in the current version and in the same original level. // This ensures that a concurrent compaction did not erroneously // pick the same files to compact_. if (!versions_->VerifyCompactionFileConsistency(compaction)) { Compaction::InputLevelSummaryBuffer inputs_summary; ROCKS_LOG_ERROR(db_options_.info_log, "[%s] [JOB %d] Compaction %s aborted", compaction->column_family_data()->GetName().c_str(), job_id_, compaction->InputLevelSummary(&inputs_summary)); return Status::Corruption("Compaction input files inconsistent"); } { Compaction::InputLevelSummaryBuffer inputs_summary; ROCKS_LOG_INFO( db_options_.info_log, "[%s] [JOB %d] Compacted %s => %" PRIu64 " bytes", compaction->column_family_data()->GetName().c_str(), job_id_, compaction->InputLevelSummary(&inputs_summary), compact_->total_bytes); } // Add compaction inputs compaction->AddInputDeletions(compact_->compaction->edit()); for (const auto& sub_compact : compact_->sub_compact_states) { for (const auto& out : sub_compact.outputs) { compaction->edit()->AddFile(compaction->output_level(), out.meta); } } return versions_->LogAndApply(compaction->column_family_data(), mutable_cf_options, compaction->edit(), db_mutex_, db_directory_); } void CompactionJob::RecordCompactionIOStats() { RecordTick(stats_, COMPACT_READ_BYTES, IOSTATS(bytes_read)); ThreadStatusUtil::IncreaseThreadOperationProperty( ThreadStatus::COMPACTION_BYTES_READ, IOSTATS(bytes_read)); IOSTATS_RESET(bytes_read); RecordTick(stats_, COMPACT_WRITE_BYTES, IOSTATS(bytes_written)); ThreadStatusUtil::IncreaseThreadOperationProperty( ThreadStatus::COMPACTION_BYTES_WRITTEN, IOSTATS(bytes_written)); IOSTATS_RESET(bytes_written); } Status CompactionJob::OpenCompactionOutputFile( SubcompactionState* sub_compact) { assert(sub_compact != nullptr); assert(sub_compact->builder == nullptr); // no need to lock because VersionSet::next_file_number_ is atomic uint64_t file_number = versions_->NewFileNumber(); std::string fname = TableFileName(sub_compact->compaction->immutable_cf_options()->cf_paths, file_number, sub_compact->compaction->output_path_id()); // Fire events. ColumnFamilyData* cfd = sub_compact->compaction->column_family_data(); #ifndef ROCKSDB_LITE EventHelpers::NotifyTableFileCreationStarted( cfd->ioptions()->listeners, dbname_, cfd->GetName(), fname, job_id_, TableFileCreationReason::kCompaction); #endif // !ROCKSDB_LITE // Make the output file unique_ptr writable_file; #ifndef NDEBUG bool syncpoint_arg = env_options_.use_direct_writes; TEST_SYNC_POINT_CALLBACK("CompactionJob::OpenCompactionOutputFile", &syncpoint_arg); #endif Status s = NewWritableFile(env_, fname, &writable_file, env_options_); if (!s.ok()) { ROCKS_LOG_ERROR( db_options_.info_log, "[%s] [JOB %d] OpenCompactionOutputFiles for table #%" PRIu64 " fails at NewWritableFile with status %s", sub_compact->compaction->column_family_data()->GetName().c_str(), job_id_, file_number, s.ToString().c_str()); LogFlush(db_options_.info_log); EventHelpers::LogAndNotifyTableFileCreationFinished( event_logger_, cfd->ioptions()->listeners, dbname_, cfd->GetName(), fname, job_id_, FileDescriptor(), TableProperties(), TableFileCreationReason::kCompaction, s); return s; } SubcompactionState::Output out; out.meta.fd = FileDescriptor(file_number, sub_compact->compaction->output_path_id(), 0); out.finished = false; sub_compact->outputs.push_back(out); writable_file->SetIOPriority(Env::IO_LOW); writable_file->SetWriteLifeTimeHint(write_hint_); writable_file->SetPreallocationBlockSize(static_cast( sub_compact->compaction->OutputFilePreallocationSize())); sub_compact->outfile.reset( new WritableFileWriter(std::move(writable_file), fname, env_options_, db_options_.statistics.get())); // If the Column family flag is to only optimize filters for hits, // we can skip creating filters if this is the bottommost_level where // data is going to be found bool skip_filters = cfd->ioptions()->optimize_filters_for_hits && bottommost_level_; uint64_t output_file_creation_time = sub_compact->compaction->MaxInputFileCreationTime(); if (output_file_creation_time == 0) { int64_t _current_time = 0; auto status = db_options_.env->GetCurrentTime(&_current_time); // Safe to proceed even if GetCurrentTime fails. So, log and proceed. if (!status.ok()) { ROCKS_LOG_WARN( db_options_.info_log, "Failed to get current time to populate creation_time property. " "Status: %s", status.ToString().c_str()); } output_file_creation_time = static_cast(_current_time); } sub_compact->builder.reset(NewTableBuilder( *cfd->ioptions(), *(sub_compact->compaction->mutable_cf_options()), cfd->internal_comparator(), cfd->int_tbl_prop_collector_factories(), cfd->GetID(), cfd->GetName(), sub_compact->outfile.get(), sub_compact->compaction->output_compression(), sub_compact->compaction->output_compression_opts(), sub_compact->compaction->output_level(), &sub_compact->compression_dict, skip_filters, output_file_creation_time)); LogFlush(db_options_.info_log); return s; } void CompactionJob::CleanupCompaction() { for (SubcompactionState& sub_compact : compact_->sub_compact_states) { const auto& sub_status = sub_compact.status; if (sub_compact.builder != nullptr) { // May happen if we get a shutdown call in the middle of compaction sub_compact.builder->Abandon(); sub_compact.builder.reset(); } else { assert(!sub_status.ok() || sub_compact.outfile == nullptr); } for (const auto& out : sub_compact.outputs) { // If this file was inserted into the table cache then remove // them here because this compaction was not committed. if (!sub_status.ok()) { TableCache::Evict(table_cache_.get(), out.meta.fd.GetNumber()); } } } delete compact_; compact_ = nullptr; } #ifndef ROCKSDB_LITE namespace { void CopyPrefix(const Slice& src, size_t prefix_length, std::string* dst) { assert(prefix_length > 0); size_t length = src.size() > prefix_length ? prefix_length : src.size(); dst->assign(src.data(), length); } } // namespace #endif // !ROCKSDB_LITE void CompactionJob::UpdateCompactionStats() { Compaction* compaction = compact_->compaction; compaction_stats_.num_input_files_in_non_output_levels = 0; compaction_stats_.num_input_files_in_output_level = 0; for (int input_level = 0; input_level < static_cast(compaction->num_input_levels()); ++input_level) { if (compaction->level(input_level) != compaction->output_level()) { UpdateCompactionInputStatsHelper( &compaction_stats_.num_input_files_in_non_output_levels, &compaction_stats_.bytes_read_non_output_levels, input_level); } else { UpdateCompactionInputStatsHelper( &compaction_stats_.num_input_files_in_output_level, &compaction_stats_.bytes_read_output_level, input_level); } } for (const auto& sub_compact : compact_->sub_compact_states) { size_t num_output_files = sub_compact.outputs.size(); if (sub_compact.builder != nullptr) { // An error occurred so ignore the last output. assert(num_output_files > 0); --num_output_files; } compaction_stats_.num_output_files += static_cast(num_output_files); for (const auto& out : sub_compact.outputs) { compaction_stats_.bytes_written += out.meta.fd.file_size; } if (sub_compact.num_input_records > sub_compact.num_output_records) { compaction_stats_.num_dropped_records += sub_compact.num_input_records - sub_compact.num_output_records; } } } void CompactionJob::UpdateCompactionInputStatsHelper(int* num_files, uint64_t* bytes_read, int input_level) { const Compaction* compaction = compact_->compaction; auto num_input_files = compaction->num_input_files(input_level); *num_files += static_cast(num_input_files); for (size_t i = 0; i < num_input_files; ++i) { const auto* file_meta = compaction->input(input_level, i); *bytes_read += file_meta->fd.GetFileSize(); compaction_stats_.num_input_records += static_cast(file_meta->num_entries); } } void CompactionJob::UpdateCompactionJobStats( const InternalStats::CompactionStats& stats) const { #ifndef ROCKSDB_LITE if (compaction_job_stats_) { compaction_job_stats_->elapsed_micros = stats.micros; // input information compaction_job_stats_->total_input_bytes = stats.bytes_read_non_output_levels + stats.bytes_read_output_level; compaction_job_stats_->num_input_records = compact_->num_input_records; compaction_job_stats_->num_input_files = stats.num_input_files_in_non_output_levels + stats.num_input_files_in_output_level; compaction_job_stats_->num_input_files_at_output_level = stats.num_input_files_in_output_level; // output information compaction_job_stats_->total_output_bytes = stats.bytes_written; compaction_job_stats_->num_output_records = compact_->num_output_records; compaction_job_stats_->num_output_files = stats.num_output_files; if (compact_->NumOutputFiles() > 0U) { CopyPrefix(compact_->SmallestUserKey(), CompactionJobStats::kMaxPrefixLength, &compaction_job_stats_->smallest_output_key_prefix); CopyPrefix(compact_->LargestUserKey(), CompactionJobStats::kMaxPrefixLength, &compaction_job_stats_->largest_output_key_prefix); } } #else (void)stats; #endif // !ROCKSDB_LITE } void CompactionJob::LogCompaction() { Compaction* compaction = compact_->compaction; ColumnFamilyData* cfd = compaction->column_family_data(); // Let's check if anything will get logged. Don't prepare all the info if // we're not logging if (db_options_.info_log_level <= InfoLogLevel::INFO_LEVEL) { Compaction::InputLevelSummaryBuffer inputs_summary; ROCKS_LOG_INFO( db_options_.info_log, "[%s] [JOB %d] Compacting %s, score %.2f", cfd->GetName().c_str(), job_id_, compaction->InputLevelSummary(&inputs_summary), compaction->score()); char scratch[2345]; compaction->Summary(scratch, sizeof(scratch)); ROCKS_LOG_INFO(db_options_.info_log, "[%s] Compaction start summary: %s\n", cfd->GetName().c_str(), scratch); // build event logger report auto stream = event_logger_->Log(); stream << "job" << job_id_ << "event" << "compaction_started" << "compaction_reason" << GetCompactionReasonString(compaction->compaction_reason()); for (size_t i = 0; i < compaction->num_input_levels(); ++i) { stream << ("files_L" + ToString(compaction->level(i))); stream.StartArray(); for (auto f : *compaction->inputs(i)) { stream << f->fd.GetNumber(); } stream.EndArray(); } stream << "score" << compaction->score() << "input_data_size" << compaction->CalculateTotalInputSize(); } } } // namespace rocksdb rocksdb-5.17.2/db/compaction_job.h000066400000000000000000000136511337235545400170020ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #include #include #include #include #include #include #include #include #include "db/column_family.h" #include "db/compaction_iterator.h" #include "db/dbformat.h" #include "db/flush_scheduler.h" #include "db/internal_stats.h" #include "db/job_context.h" #include "db/log_writer.h" #include "db/memtable_list.h" #include "db/range_del_aggregator.h" #include "db/version_edit.h" #include "db/write_controller.h" #include "db/write_thread.h" #include "options/db_options.h" #include "options/cf_options.h" #include "port/port.h" #include "rocksdb/compaction_filter.h" #include "rocksdb/compaction_job_stats.h" #include "rocksdb/db.h" #include "rocksdb/env.h" #include "rocksdb/memtablerep.h" #include "rocksdb/transaction_log.h" #include "table/scoped_arena_iterator.h" #include "util/autovector.h" #include "util/event_logger.h" #include "util/stop_watch.h" #include "util/thread_local.h" namespace rocksdb { class Arena; class ErrorHandler; class MemTable; class SnapshotChecker; class TableCache; class Version; class VersionEdit; class VersionSet; class CompactionJob { public: CompactionJob(int job_id, Compaction* compaction, const ImmutableDBOptions& db_options, const EnvOptions env_options, VersionSet* versions, const std::atomic* shutting_down, const SequenceNumber preserve_deletes_seqnum, LogBuffer* log_buffer, Directory* db_directory, Directory* output_directory, Statistics* stats, InstrumentedMutex* db_mutex, ErrorHandler* db_error_handler, std::vector existing_snapshots, SequenceNumber earliest_write_conflict_snapshot, const SnapshotChecker* snapshot_checker, std::shared_ptr table_cache, EventLogger* event_logger, bool paranoid_file_checks, bool measure_io_stats, const std::string& dbname, CompactionJobStats* compaction_job_stats); ~CompactionJob(); // no copy/move CompactionJob(CompactionJob&& job) = delete; CompactionJob(const CompactionJob& job) = delete; CompactionJob& operator=(const CompactionJob& job) = delete; // REQUIRED: mutex held void Prepare(); // REQUIRED mutex not held Status Run(); // REQUIRED: mutex held Status Install(const MutableCFOptions& mutable_cf_options); private: struct SubcompactionState; void AggregateStatistics(); void GenSubcompactionBoundaries(); // update the thread status for starting a compaction. void ReportStartedCompaction(Compaction* compaction); void AllocateCompactionOutputFileNumbers(); // Call compaction filter. Then iterate through input and compact the // kv-pairs void ProcessKeyValueCompaction(SubcompactionState* sub_compact); Status FinishCompactionOutputFile( const Status& input_status, SubcompactionState* sub_compact, RangeDelAggregator* range_del_agg, CompactionIterationStats* range_del_out_stats, const Slice* next_table_min_key = nullptr); Status InstallCompactionResults(const MutableCFOptions& mutable_cf_options); void RecordCompactionIOStats(); Status OpenCompactionOutputFile(SubcompactionState* sub_compact); void CleanupCompaction(); void UpdateCompactionJobStats( const InternalStats::CompactionStats& stats) const; void RecordDroppedKeys(const CompactionIterationStats& c_iter_stats, CompactionJobStats* compaction_job_stats = nullptr); void UpdateCompactionStats(); void UpdateCompactionInputStatsHelper( int* num_files, uint64_t* bytes_read, int input_level); void LogCompaction(); int job_id_; // CompactionJob state struct CompactionState; CompactionState* compact_; CompactionJobStats* compaction_job_stats_; InternalStats::CompactionStats compaction_stats_; // DBImpl state const std::string& dbname_; const ImmutableDBOptions& db_options_; const EnvOptions env_options_; Env* env_; // env_option optimized for compaction table reads EnvOptions env_optiosn_for_read_; VersionSet* versions_; const std::atomic* shutting_down_; const SequenceNumber preserve_deletes_seqnum_; LogBuffer* log_buffer_; Directory* db_directory_; Directory* output_directory_; Statistics* stats_; InstrumentedMutex* db_mutex_; ErrorHandler* db_error_handler_; // If there were two snapshots with seq numbers s1 and // s2 and s1 < s2, and if we find two instances of a key k1 then lies // entirely within s1 and s2, then the earlier version of k1 can be safely // deleted because that version is not visible in any snapshot. std::vector existing_snapshots_; // This is the earliest snapshot that could be used for write-conflict // checking by a transaction. For any user-key newer than this snapshot, we // should make sure not to remove evidence that a write occurred. SequenceNumber earliest_write_conflict_snapshot_; const SnapshotChecker* const snapshot_checker_; std::shared_ptr table_cache_; EventLogger* event_logger_; bool bottommost_level_; bool paranoid_file_checks_; bool measure_io_stats_; // Stores the Slices that designate the boundaries for each subcompaction std::vector boundaries_; // Stores the approx size of keys covered in the range of each subcompaction std::vector sizes_; Env::WriteLifeTimeHint write_hint_; }; } // namespace rocksdb rocksdb-5.17.2/db/compaction_job_stats_test.cc000066400000000000000000001070231337235545400214120ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #ifndef __STDC_FORMAT_MACROS #define __STDC_FORMAT_MACROS #endif #include #include #include #include #include #include #include #include #include #include "db/db_impl.h" #include "db/dbformat.h" #include "db/job_context.h" #include "db/version_set.h" #include "db/write_batch_internal.h" #include "env/mock_env.h" #include "memtable/hash_linklist_rep.h" #include "monitoring/statistics.h" #include "monitoring/thread_status_util.h" #include "port/stack_trace.h" #include "rocksdb/cache.h" #include "rocksdb/compaction_filter.h" #include "rocksdb/convenience.h" #include "rocksdb/db.h" #include "rocksdb/env.h" #include "rocksdb/experimental.h" #include "rocksdb/filter_policy.h" #include "rocksdb/options.h" #include "rocksdb/perf_context.h" #include "rocksdb/slice.h" #include "rocksdb/slice_transform.h" #include "rocksdb/table.h" #include "rocksdb/table_properties.h" #include "rocksdb/thread_status.h" #include "rocksdb/utilities/checkpoint.h" #include "rocksdb/utilities/write_batch_with_index.h" #include "table/block_based_table_factory.h" #include "table/mock_table.h" #include "table/plain_table_factory.h" #include "table/scoped_arena_iterator.h" #include "util/compression.h" #include "util/filename.h" #include "util/hash.h" #include "util/logging.h" #include "util/mutexlock.h" #include "util/rate_limiter.h" #include "util/string_util.h" #include "util/sync_point.h" #include "util/testharness.h" #include "util/testutil.h" #include "utilities/merge_operators.h" #if !defined(IOS_CROSS_COMPILE) #ifndef ROCKSDB_LITE namespace rocksdb { static std::string RandomString(Random* rnd, int len, double ratio) { std::string r; test::CompressibleString(rnd, ratio, len, &r); return r; } std::string Key(uint64_t key, int length) { const int kBufSize = 1000; char buf[kBufSize]; if (length > kBufSize) { length = kBufSize; } snprintf(buf, kBufSize, "%0*" PRIu64, length, key); return std::string(buf); } class CompactionJobStatsTest : public testing::Test, public testing::WithParamInterface { public: std::string dbname_; std::string alternative_wal_dir_; Env* env_; DB* db_; std::vector handles_; uint32_t max_subcompactions_; Options last_options_; CompactionJobStatsTest() : env_(Env::Default()) { env_->SetBackgroundThreads(1, Env::LOW); env_->SetBackgroundThreads(1, Env::HIGH); dbname_ = test::PerThreadDBPath("compaction_job_stats_test"); alternative_wal_dir_ = dbname_ + "/wal"; Options options; options.create_if_missing = true; max_subcompactions_ = GetParam(); options.max_subcompactions = max_subcompactions_; auto delete_options = options; delete_options.wal_dir = alternative_wal_dir_; EXPECT_OK(DestroyDB(dbname_, delete_options)); // Destroy it for not alternative WAL dir is used. EXPECT_OK(DestroyDB(dbname_, options)); db_ = nullptr; Reopen(options); } ~CompactionJobStatsTest() { rocksdb::SyncPoint::GetInstance()->DisableProcessing(); rocksdb::SyncPoint::GetInstance()->LoadDependency({}); rocksdb::SyncPoint::GetInstance()->ClearAllCallBacks(); Close(); Options options; options.db_paths.emplace_back(dbname_, 0); options.db_paths.emplace_back(dbname_ + "_2", 0); options.db_paths.emplace_back(dbname_ + "_3", 0); options.db_paths.emplace_back(dbname_ + "_4", 0); EXPECT_OK(DestroyDB(dbname_, options)); } // Required if inheriting from testing::WithParamInterface<> static void SetUpTestCase() {} static void TearDownTestCase() {} DBImpl* dbfull() { return reinterpret_cast(db_); } void CreateColumnFamilies(const std::vector& cfs, const Options& options) { ColumnFamilyOptions cf_opts(options); size_t cfi = handles_.size(); handles_.resize(cfi + cfs.size()); for (auto cf : cfs) { ASSERT_OK(db_->CreateColumnFamily(cf_opts, cf, &handles_[cfi++])); } } void CreateAndReopenWithCF(const std::vector& cfs, const Options& options) { CreateColumnFamilies(cfs, options); std::vector cfs_plus_default = cfs; cfs_plus_default.insert(cfs_plus_default.begin(), kDefaultColumnFamilyName); ReopenWithColumnFamilies(cfs_plus_default, options); } void ReopenWithColumnFamilies(const std::vector& cfs, const std::vector& options) { ASSERT_OK(TryReopenWithColumnFamilies(cfs, options)); } void ReopenWithColumnFamilies(const std::vector& cfs, const Options& options) { ASSERT_OK(TryReopenWithColumnFamilies(cfs, options)); } Status TryReopenWithColumnFamilies( const std::vector& cfs, const std::vector& options) { Close(); EXPECT_EQ(cfs.size(), options.size()); std::vector column_families; for (size_t i = 0; i < cfs.size(); ++i) { column_families.push_back(ColumnFamilyDescriptor(cfs[i], options[i])); } DBOptions db_opts = DBOptions(options[0]); return DB::Open(db_opts, dbname_, column_families, &handles_, &db_); } Status TryReopenWithColumnFamilies(const std::vector& cfs, const Options& options) { Close(); std::vector v_opts(cfs.size(), options); return TryReopenWithColumnFamilies(cfs, v_opts); } void Reopen(const Options& options) { ASSERT_OK(TryReopen(options)); } void Close() { for (auto h : handles_) { delete h; } handles_.clear(); delete db_; db_ = nullptr; } void DestroyAndReopen(const Options& options) { // Destroy using last options Destroy(last_options_); ASSERT_OK(TryReopen(options)); } void Destroy(const Options& options) { Close(); ASSERT_OK(DestroyDB(dbname_, options)); } Status ReadOnlyReopen(const Options& options) { return DB::OpenForReadOnly(options, dbname_, &db_); } Status TryReopen(const Options& options) { Close(); last_options_ = options; return DB::Open(options, dbname_, &db_); } Status Flush(int cf = 0) { if (cf == 0) { return db_->Flush(FlushOptions()); } else { return db_->Flush(FlushOptions(), handles_[cf]); } } Status Put(const Slice& k, const Slice& v, WriteOptions wo = WriteOptions()) { return db_->Put(wo, k, v); } Status Put(int cf, const Slice& k, const Slice& v, WriteOptions wo = WriteOptions()) { return db_->Put(wo, handles_[cf], k, v); } Status Delete(const std::string& k) { return db_->Delete(WriteOptions(), k); } Status Delete(int cf, const std::string& k) { return db_->Delete(WriteOptions(), handles_[cf], k); } std::string Get(const std::string& k, const Snapshot* snapshot = nullptr) { ReadOptions options; options.verify_checksums = true; options.snapshot = snapshot; std::string result; Status s = db_->Get(options, k, &result); if (s.IsNotFound()) { result = "NOT_FOUND"; } else if (!s.ok()) { result = s.ToString(); } return result; } std::string Get(int cf, const std::string& k, const Snapshot* snapshot = nullptr) { ReadOptions options; options.verify_checksums = true; options.snapshot = snapshot; std::string result; Status s = db_->Get(options, handles_[cf], k, &result); if (s.IsNotFound()) { result = "NOT_FOUND"; } else if (!s.ok()) { result = s.ToString(); } return result; } int NumTableFilesAtLevel(int level, int cf = 0) { std::string property; if (cf == 0) { // default cfd EXPECT_TRUE(db_->GetProperty( "rocksdb.num-files-at-level" + NumberToString(level), &property)); } else { EXPECT_TRUE(db_->GetProperty( handles_[cf], "rocksdb.num-files-at-level" + NumberToString(level), &property)); } return atoi(property.c_str()); } // Return spread of files per level std::string FilesPerLevel(int cf = 0) { int num_levels = (cf == 0) ? db_->NumberLevels() : db_->NumberLevels(handles_[1]); std::string result; size_t last_non_zero_offset = 0; for (int level = 0; level < num_levels; level++) { int f = NumTableFilesAtLevel(level, cf); char buf[100]; snprintf(buf, sizeof(buf), "%s%d", (level ? "," : ""), f); result += buf; if (f > 0) { last_non_zero_offset = result.size(); } } result.resize(last_non_zero_offset); return result; } uint64_t Size(const Slice& start, const Slice& limit, int cf = 0) { Range r(start, limit); uint64_t size; if (cf == 0) { db_->GetApproximateSizes(&r, 1, &size); } else { db_->GetApproximateSizes(handles_[1], &r, 1, &size); } return size; } void Compact(int cf, const Slice& start, const Slice& limit, uint32_t target_path_id) { CompactRangeOptions compact_options; compact_options.target_path_id = target_path_id; ASSERT_OK(db_->CompactRange(compact_options, handles_[cf], &start, &limit)); } void Compact(int cf, const Slice& start, const Slice& limit) { ASSERT_OK( db_->CompactRange(CompactRangeOptions(), handles_[cf], &start, &limit)); } void Compact(const Slice& start, const Slice& limit) { ASSERT_OK(db_->CompactRange(CompactRangeOptions(), &start, &limit)); } void TEST_Compact(int level, int cf, const Slice& start, const Slice& limit) { ASSERT_OK(dbfull()->TEST_CompactRange(level, &start, &limit, handles_[cf], true /* disallow trivial move */)); } // Do n memtable compactions, each of which produces an sstable // covering the range [small,large]. void MakeTables(int n, const std::string& small, const std::string& large, int cf = 0) { for (int i = 0; i < n; i++) { ASSERT_OK(Put(cf, small, "begin")); ASSERT_OK(Put(cf, large, "end")); ASSERT_OK(Flush(cf)); } } static void SetDeletionCompactionStats( CompactionJobStats *stats, uint64_t input_deletions, uint64_t expired_deletions, uint64_t records_replaced) { stats->num_input_deletion_records = input_deletions; stats->num_expired_deletion_records = expired_deletions; stats->num_records_replaced = records_replaced; } void MakeTableWithKeyValues( Random* rnd, uint64_t smallest, uint64_t largest, int key_size, int value_size, uint64_t interval, double ratio, int cf = 0) { for (auto key = smallest; key < largest; key += interval) { ASSERT_OK(Put(cf, Slice(Key(key, key_size)), Slice(RandomString(rnd, value_size, ratio)))); } ASSERT_OK(Flush(cf)); } // This function behaves with the implicit understanding that two // rounds of keys are inserted into the database, as per the behavior // of the DeletionStatsTest. void SelectivelyDeleteKeys(uint64_t smallest, uint64_t largest, uint64_t interval, int deletion_interval, int key_size, uint64_t cutoff_key_num, CompactionJobStats* stats, int cf = 0) { // interval needs to be >= 2 so that deletion entries can be inserted // that are intended to not result in an actual key deletion by using // an offset of 1 from another existing key ASSERT_GE(interval, 2); uint64_t ctr = 1; uint32_t deletions_made = 0; uint32_t num_deleted = 0; uint32_t num_expired = 0; for (auto key = smallest; key <= largest; key += interval, ctr++) { if (ctr % deletion_interval == 0) { ASSERT_OK(Delete(cf, Key(key, key_size))); deletions_made++; num_deleted++; if (key > cutoff_key_num) { num_expired++; } } } // Insert some deletions for keys that don't exist that // are both in and out of the key range ASSERT_OK(Delete(cf, Key(smallest+1, key_size))); deletions_made++; ASSERT_OK(Delete(cf, Key(smallest-1, key_size))); deletions_made++; num_expired++; ASSERT_OK(Delete(cf, Key(smallest-9, key_size))); deletions_made++; num_expired++; ASSERT_OK(Flush(cf)); SetDeletionCompactionStats(stats, deletions_made, num_expired, num_deleted); } }; // An EventListener which helps verify the compaction results in // test CompactionJobStatsTest. class CompactionJobStatsChecker : public EventListener { public: CompactionJobStatsChecker() : compression_enabled_(false), verify_next_comp_io_stats_(false) {} size_t NumberOfUnverifiedStats() { return expected_stats_.size(); } void set_verify_next_comp_io_stats(bool v) { verify_next_comp_io_stats_ = v; } // Once a compaction completed, this function will verify the returned // CompactionJobInfo with the oldest CompactionJobInfo added earlier // in "expected_stats_" which has not yet being used for verification. virtual void OnCompactionCompleted(DB* /*db*/, const CompactionJobInfo& ci) { if (verify_next_comp_io_stats_) { ASSERT_GT(ci.stats.file_write_nanos, 0); ASSERT_GT(ci.stats.file_range_sync_nanos, 0); ASSERT_GT(ci.stats.file_fsync_nanos, 0); ASSERT_GT(ci.stats.file_prepare_write_nanos, 0); verify_next_comp_io_stats_ = false; } std::lock_guard lock(mutex_); if (expected_stats_.size()) { Verify(ci.stats, expected_stats_.front()); expected_stats_.pop(); } } // A helper function which verifies whether two CompactionJobStats // match. The verification of all compaction stats are done by // ASSERT_EQ except for the total input / output bytes, which we // use ASSERT_GE and ASSERT_LE with a reasonable bias --- // 10% in uncompressed case and 20% when compression is used. virtual void Verify(const CompactionJobStats& current_stats, const CompactionJobStats& stats) { // time ASSERT_GT(current_stats.elapsed_micros, 0U); ASSERT_EQ(current_stats.num_input_records, stats.num_input_records); ASSERT_EQ(current_stats.num_input_files, stats.num_input_files); ASSERT_EQ(current_stats.num_input_files_at_output_level, stats.num_input_files_at_output_level); ASSERT_EQ(current_stats.num_output_records, stats.num_output_records); ASSERT_EQ(current_stats.num_output_files, stats.num_output_files); ASSERT_EQ(current_stats.is_manual_compaction, stats.is_manual_compaction); // file size double kFileSizeBias = compression_enabled_ ? 0.20 : 0.10; ASSERT_GE(current_stats.total_input_bytes * (1.00 + kFileSizeBias), stats.total_input_bytes); ASSERT_LE(current_stats.total_input_bytes, stats.total_input_bytes * (1.00 + kFileSizeBias)); ASSERT_GE(current_stats.total_output_bytes * (1.00 + kFileSizeBias), stats.total_output_bytes); ASSERT_LE(current_stats.total_output_bytes, stats.total_output_bytes * (1.00 + kFileSizeBias)); ASSERT_EQ(current_stats.total_input_raw_key_bytes, stats.total_input_raw_key_bytes); ASSERT_EQ(current_stats.total_input_raw_value_bytes, stats.total_input_raw_value_bytes); ASSERT_EQ(current_stats.num_records_replaced, stats.num_records_replaced); ASSERT_EQ(current_stats.num_corrupt_keys, stats.num_corrupt_keys); ASSERT_EQ( std::string(current_stats.smallest_output_key_prefix), std::string(stats.smallest_output_key_prefix)); ASSERT_EQ( std::string(current_stats.largest_output_key_prefix), std::string(stats.largest_output_key_prefix)); } // Add an expected compaction stats, which will be used to // verify the CompactionJobStats returned by the OnCompactionCompleted() // callback. void AddExpectedStats(const CompactionJobStats& stats) { std::lock_guard lock(mutex_); expected_stats_.push(stats); } void EnableCompression(bool flag) { compression_enabled_ = flag; } bool verify_next_comp_io_stats() const { return verify_next_comp_io_stats_; } private: std::mutex mutex_; std::queue expected_stats_; bool compression_enabled_; bool verify_next_comp_io_stats_; }; // An EventListener which helps verify the compaction statistics in // the test DeletionStatsTest. class CompactionJobDeletionStatsChecker : public CompactionJobStatsChecker { public: // Verifies whether two CompactionJobStats match. void Verify(const CompactionJobStats& current_stats, const CompactionJobStats& stats) { ASSERT_EQ( current_stats.num_input_deletion_records, stats.num_input_deletion_records); ASSERT_EQ( current_stats.num_expired_deletion_records, stats.num_expired_deletion_records); ASSERT_EQ( current_stats.num_records_replaced, stats.num_records_replaced); ASSERT_EQ(current_stats.num_corrupt_keys, stats.num_corrupt_keys); } }; namespace { uint64_t EstimatedFileSize( uint64_t num_records, size_t key_size, size_t value_size, double compression_ratio = 1.0, size_t block_size = 4096, int bloom_bits_per_key = 10) { const size_t kPerKeyOverhead = 8; const size_t kFooterSize = 512; uint64_t data_size = static_cast( num_records * (key_size + value_size * compression_ratio + kPerKeyOverhead)); return data_size + kFooterSize + num_records * bloom_bits_per_key / 8 // filter block + data_size * (key_size + 8) / block_size; // index block } namespace { void CopyPrefix( const Slice& src, size_t prefix_length, std::string* dst) { assert(prefix_length > 0); size_t length = src.size() > prefix_length ? prefix_length : src.size(); dst->assign(src.data(), length); } } // namespace CompactionJobStats NewManualCompactionJobStats( const std::string& smallest_key, const std::string& largest_key, size_t num_input_files, size_t num_input_files_at_output_level, uint64_t num_input_records, size_t key_size, size_t value_size, size_t num_output_files, uint64_t num_output_records, double compression_ratio, uint64_t num_records_replaced, bool is_manual = true) { CompactionJobStats stats; stats.Reset(); stats.num_input_records = num_input_records; stats.num_input_files = num_input_files; stats.num_input_files_at_output_level = num_input_files_at_output_level; stats.num_output_records = num_output_records; stats.num_output_files = num_output_files; stats.total_input_bytes = EstimatedFileSize( num_input_records / num_input_files, key_size, value_size, compression_ratio) * num_input_files; stats.total_output_bytes = EstimatedFileSize( num_output_records / num_output_files, key_size, value_size, compression_ratio) * num_output_files; stats.total_input_raw_key_bytes = num_input_records * (key_size + 8); stats.total_input_raw_value_bytes = num_input_records * value_size; stats.is_manual_compaction = is_manual; stats.num_records_replaced = num_records_replaced; CopyPrefix(smallest_key, CompactionJobStats::kMaxPrefixLength, &stats.smallest_output_key_prefix); CopyPrefix(largest_key, CompactionJobStats::kMaxPrefixLength, &stats.largest_output_key_prefix); return stats; } CompressionType GetAnyCompression() { if (Snappy_Supported()) { return kSnappyCompression; } else if (Zlib_Supported()) { return kZlibCompression; } else if (BZip2_Supported()) { return kBZip2Compression; } else if (LZ4_Supported()) { return kLZ4Compression; } else if (XPRESS_Supported()) { return kXpressCompression; } return kNoCompression; } } // namespace TEST_P(CompactionJobStatsTest, CompactionJobStatsTest) { Random rnd(301); const int kBufSize = 100; char buf[kBufSize]; uint64_t key_base = 100000000l; // Note: key_base must be multiple of num_keys_per_L0_file int num_keys_per_L0_file = 100; const int kTestScale = 8; const int kKeySize = 10; const int kValueSize = 1000; const double kCompressionRatio = 0.5; double compression_ratio = 1.0; uint64_t key_interval = key_base / num_keys_per_L0_file; // Whenever a compaction completes, this listener will try to // verify whether the returned CompactionJobStats matches // what we expect. The expected CompactionJobStats is added // via AddExpectedStats(). auto* stats_checker = new CompactionJobStatsChecker(); Options options; options.listeners.emplace_back(stats_checker); options.create_if_missing = true; // just enough setting to hold off auto-compaction. options.level0_file_num_compaction_trigger = kTestScale + 1; options.num_levels = 3; options.compression = kNoCompression; options.max_subcompactions = max_subcompactions_; options.bytes_per_sync = 512 * 1024; options.report_bg_io_stats = true; for (int test = 0; test < 2; ++test) { DestroyAndReopen(options); CreateAndReopenWithCF({"pikachu"}, options); // 1st Phase: generate "num_L0_files" L0 files. int num_L0_files = 0; for (uint64_t start_key = key_base; start_key <= key_base * kTestScale; start_key += key_base) { MakeTableWithKeyValues( &rnd, start_key, start_key + key_base - 1, kKeySize, kValueSize, key_interval, compression_ratio, 1); snprintf(buf, kBufSize, "%d", ++num_L0_files); ASSERT_EQ(std::string(buf), FilesPerLevel(1)); } ASSERT_EQ(ToString(num_L0_files), FilesPerLevel(1)); // 2nd Phase: perform L0 -> L1 compaction. int L0_compaction_count = 6; int count = 1; std::string smallest_key; std::string largest_key; for (uint64_t start_key = key_base; start_key <= key_base * L0_compaction_count; start_key += key_base, count++) { smallest_key = Key(start_key, 10); largest_key = Key(start_key + key_base - key_interval, 10); stats_checker->AddExpectedStats( NewManualCompactionJobStats( smallest_key, largest_key, 1, 0, num_keys_per_L0_file, kKeySize, kValueSize, 1, num_keys_per_L0_file, compression_ratio, 0)); ASSERT_EQ(stats_checker->NumberOfUnverifiedStats(), 1U); TEST_Compact(0, 1, smallest_key, largest_key); snprintf(buf, kBufSize, "%d,%d", num_L0_files - count, count); ASSERT_EQ(std::string(buf), FilesPerLevel(1)); } // compact two files into one in the last L0 -> L1 compaction int num_remaining_L0 = num_L0_files - L0_compaction_count; smallest_key = Key(key_base * (L0_compaction_count + 1), 10); largest_key = Key(key_base * (kTestScale + 1) - key_interval, 10); stats_checker->AddExpectedStats( NewManualCompactionJobStats( smallest_key, largest_key, num_remaining_L0, 0, num_keys_per_L0_file * num_remaining_L0, kKeySize, kValueSize, 1, num_keys_per_L0_file * num_remaining_L0, compression_ratio, 0)); ASSERT_EQ(stats_checker->NumberOfUnverifiedStats(), 1U); TEST_Compact(0, 1, smallest_key, largest_key); int num_L1_files = num_L0_files - num_remaining_L0 + 1; num_L0_files = 0; snprintf(buf, kBufSize, "%d,%d", num_L0_files, num_L1_files); ASSERT_EQ(std::string(buf), FilesPerLevel(1)); // 3rd Phase: generate sparse L0 files (wider key-range, same num of keys) int sparseness = 2; for (uint64_t start_key = key_base; start_key <= key_base * kTestScale; start_key += key_base * sparseness) { MakeTableWithKeyValues( &rnd, start_key, start_key + key_base * sparseness - 1, kKeySize, kValueSize, key_base * sparseness / num_keys_per_L0_file, compression_ratio, 1); snprintf(buf, kBufSize, "%d,%d", ++num_L0_files, num_L1_files); ASSERT_EQ(std::string(buf), FilesPerLevel(1)); } // 4th Phase: perform L0 -> L1 compaction again, expect higher write amp // When subcompactions are enabled, the number of output files increases // by 1 because multiple threads are consuming the input and generating // output files without coordinating to see if the output could fit into // a smaller number of files like it does when it runs sequentially int num_output_files = options.max_subcompactions > 1 ? 2 : 1; for (uint64_t start_key = key_base; num_L0_files > 1; start_key += key_base * sparseness) { smallest_key = Key(start_key, 10); largest_key = Key(start_key + key_base * sparseness - key_interval, 10); stats_checker->AddExpectedStats( NewManualCompactionJobStats( smallest_key, largest_key, 3, 2, num_keys_per_L0_file * 3, kKeySize, kValueSize, num_output_files, num_keys_per_L0_file * 2, // 1/3 of the data will be updated. compression_ratio, num_keys_per_L0_file)); ASSERT_EQ(stats_checker->NumberOfUnverifiedStats(), 1U); Compact(1, smallest_key, largest_key); if (options.max_subcompactions == 1) { --num_L1_files; } snprintf(buf, kBufSize, "%d,%d", --num_L0_files, num_L1_files); ASSERT_EQ(std::string(buf), FilesPerLevel(1)); } // 5th Phase: Do a full compaction, which involves in two sub-compactions. // Here we expect to have 1 L0 files and 4 L1 files // In the first sub-compaction, we expect L0 compaction. smallest_key = Key(key_base, 10); largest_key = Key(key_base * (kTestScale + 1) - key_interval, 10); stats_checker->AddExpectedStats( NewManualCompactionJobStats( Key(key_base * (kTestScale + 1 - sparseness), 10), largest_key, 2, 1, num_keys_per_L0_file * 3, kKeySize, kValueSize, 1, num_keys_per_L0_file * 2, compression_ratio, num_keys_per_L0_file)); ASSERT_EQ(stats_checker->NumberOfUnverifiedStats(), 1U); Compact(1, smallest_key, largest_key); num_L1_files = options.max_subcompactions > 1 ? 7 : 4; char L1_buf[4]; snprintf(L1_buf, sizeof(L1_buf), "0,%d", num_L1_files); std::string L1_files(L1_buf); ASSERT_EQ(L1_files, FilesPerLevel(1)); options.compression = GetAnyCompression(); if (options.compression == kNoCompression) { break; } stats_checker->EnableCompression(true); compression_ratio = kCompressionRatio; for (int i = 0; i < 5; i++) { ASSERT_OK(Put(1, Slice(Key(key_base + i, 10)), Slice(RandomString(&rnd, 512 * 1024, 1)))); } ASSERT_OK(Flush(1)); reinterpret_cast(db_)->TEST_WaitForCompact(); stats_checker->set_verify_next_comp_io_stats(true); std::atomic first_prepare_write(true); rocksdb::SyncPoint::GetInstance()->SetCallBack( "WritableFileWriter::Append:BeforePrepareWrite", [&](void* /*arg*/) { if (first_prepare_write.load()) { options.env->SleepForMicroseconds(3); first_prepare_write.store(false); } }); std::atomic first_flush(true); rocksdb::SyncPoint::GetInstance()->SetCallBack( "WritableFileWriter::Flush:BeforeAppend", [&](void* /*arg*/) { if (first_flush.load()) { options.env->SleepForMicroseconds(3); first_flush.store(false); } }); std::atomic first_sync(true); rocksdb::SyncPoint::GetInstance()->SetCallBack( "WritableFileWriter::SyncInternal:0", [&](void* /*arg*/) { if (first_sync.load()) { options.env->SleepForMicroseconds(3); first_sync.store(false); } }); std::atomic first_range_sync(true); rocksdb::SyncPoint::GetInstance()->SetCallBack( "WritableFileWriter::RangeSync:0", [&](void* /*arg*/) { if (first_range_sync.load()) { options.env->SleepForMicroseconds(3); first_range_sync.store(false); } }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); Compact(1, smallest_key, largest_key); ASSERT_TRUE(!stats_checker->verify_next_comp_io_stats()); ASSERT_TRUE(!first_prepare_write.load()); ASSERT_TRUE(!first_flush.load()); ASSERT_TRUE(!first_sync.load()); ASSERT_TRUE(!first_range_sync.load()); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); } ASSERT_EQ(stats_checker->NumberOfUnverifiedStats(), 0U); } TEST_P(CompactionJobStatsTest, DeletionStatsTest) { Random rnd(301); uint64_t key_base = 100000l; // Note: key_base must be multiple of num_keys_per_L0_file int num_keys_per_L0_file = 20; const int kTestScale = 8; // make sure this is even const int kKeySize = 10; const int kValueSize = 100; double compression_ratio = 1.0; uint64_t key_interval = key_base / num_keys_per_L0_file; uint64_t largest_key_num = key_base * (kTestScale + 1) - key_interval; uint64_t cutoff_key_num = key_base * (kTestScale / 2 + 1) - key_interval; const std::string smallest_key = Key(key_base - 10, kKeySize); const std::string largest_key = Key(largest_key_num + 10, kKeySize); // Whenever a compaction completes, this listener will try to // verify whether the returned CompactionJobStats matches // what we expect. auto* stats_checker = new CompactionJobDeletionStatsChecker(); Options options; options.listeners.emplace_back(stats_checker); options.create_if_missing = true; options.level0_file_num_compaction_trigger = kTestScale+1; options.num_levels = 3; options.compression = kNoCompression; options.max_bytes_for_level_multiplier = 2; options.max_subcompactions = max_subcompactions_; DestroyAndReopen(options); CreateAndReopenWithCF({"pikachu"}, options); // Stage 1: Generate several L0 files and then send them to L2 by // using CompactRangeOptions and CompactRange(). These files will // have a strict subset of the keys from the full key-range for (uint64_t start_key = key_base; start_key <= key_base * kTestScale / 2; start_key += key_base) { MakeTableWithKeyValues( &rnd, start_key, start_key + key_base - 1, kKeySize, kValueSize, key_interval, compression_ratio, 1); } CompactRangeOptions cr_options; cr_options.change_level = true; cr_options.target_level = 2; db_->CompactRange(cr_options, handles_[1], nullptr, nullptr); ASSERT_GT(NumTableFilesAtLevel(2, 1), 0); // Stage 2: Generate files including keys from the entire key range for (uint64_t start_key = key_base; start_key <= key_base * kTestScale; start_key += key_base) { MakeTableWithKeyValues( &rnd, start_key, start_key + key_base - 1, kKeySize, kValueSize, key_interval, compression_ratio, 1); } // Send these L0 files to L1 TEST_Compact(0, 1, smallest_key, largest_key); ASSERT_GT(NumTableFilesAtLevel(1, 1), 0); // Add a new record and flush so now there is a L0 file // with a value too (not just deletions from the next step) ASSERT_OK(Put(1, Key(key_base-6, kKeySize), "test")); ASSERT_OK(Flush(1)); // Stage 3: Generate L0 files with some deletions so now // there are files with the same key range in L0, L1, and L2 int deletion_interval = 3; CompactionJobStats first_compaction_stats; SelectivelyDeleteKeys(key_base, largest_key_num, key_interval, deletion_interval, kKeySize, cutoff_key_num, &first_compaction_stats, 1); stats_checker->AddExpectedStats(first_compaction_stats); // Stage 4: Trigger compaction and verify the stats TEST_Compact(0, 1, smallest_key, largest_key); } namespace { int GetUniversalCompactionInputUnits(uint32_t num_flushes) { uint32_t compaction_input_units; for (compaction_input_units = 1; num_flushes >= compaction_input_units; compaction_input_units *= 2) { if ((num_flushes & compaction_input_units) != 0) { return compaction_input_units > 1 ? compaction_input_units : 0; } } return 0; } } // namespace TEST_P(CompactionJobStatsTest, UniversalCompactionTest) { Random rnd(301); uint64_t key_base = 100000000l; // Note: key_base must be multiple of num_keys_per_L0_file int num_keys_per_table = 100; const uint32_t kTestScale = 6; const int kKeySize = 10; const int kValueSize = 900; double compression_ratio = 1.0; uint64_t key_interval = key_base / num_keys_per_table; auto* stats_checker = new CompactionJobStatsChecker(); Options options; options.listeners.emplace_back(stats_checker); options.create_if_missing = true; options.num_levels = 3; options.compression = kNoCompression; options.level0_file_num_compaction_trigger = 2; options.target_file_size_base = num_keys_per_table * 1000; options.compaction_style = kCompactionStyleUniversal; options.compaction_options_universal.size_ratio = 1; options.compaction_options_universal.max_size_amplification_percent = 1000; options.max_subcompactions = max_subcompactions_; DestroyAndReopen(options); CreateAndReopenWithCF({"pikachu"}, options); // Generates the expected CompactionJobStats for each compaction for (uint32_t num_flushes = 2; num_flushes <= kTestScale; num_flushes++) { // Here we treat one newly flushed file as an unit. // // For example, if a newly flushed file is 100k, and a compaction has // 4 input units, then this compaction inputs 400k. uint32_t num_input_units = GetUniversalCompactionInputUnits(num_flushes); if (num_input_units == 0) { continue; } // The following statement determines the expected smallest key // based on whether it is a full compaction. A full compaction only // happens when the number of flushes equals to the number of compaction // input runs. uint64_t smallest_key = (num_flushes == num_input_units) ? key_base : key_base * (num_flushes - 1); stats_checker->AddExpectedStats( NewManualCompactionJobStats( Key(smallest_key, 10), Key(smallest_key + key_base * num_input_units - key_interval, 10), num_input_units, num_input_units > 2 ? num_input_units / 2 : 0, num_keys_per_table * num_input_units, kKeySize, kValueSize, num_input_units, num_keys_per_table * num_input_units, 1.0, 0, false)); dbfull()->TEST_WaitForCompact(); } ASSERT_EQ(stats_checker->NumberOfUnverifiedStats(), 3U); for (uint64_t start_key = key_base; start_key <= key_base * kTestScale; start_key += key_base) { MakeTableWithKeyValues( &rnd, start_key, start_key + key_base - 1, kKeySize, kValueSize, key_interval, compression_ratio, 1); reinterpret_cast(db_)->TEST_WaitForCompact(); } ASSERT_EQ(stats_checker->NumberOfUnverifiedStats(), 0U); } INSTANTIATE_TEST_CASE_P(CompactionJobStatsTest, CompactionJobStatsTest, ::testing::Values(1, 4)); } // namespace rocksdb int main(int argc, char** argv) { rocksdb::port::InstallStackTraceHandler(); ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } #else #include int main(int /*argc*/, char** /*argv*/) { fprintf(stderr, "SKIPPED, not supported in ROCKSDB_LITE\n"); return 0; } #endif // !ROCKSDB_LITE #else int main(int /*argc*/, char** /*argv*/) { return 0; } #endif // !defined(IOS_CROSS_COMPILE) rocksdb-5.17.2/db/compaction_job_test.cc000066400000000000000000001065411337235545400202000ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #ifndef ROCKSDB_LITE #include #include #include #include #include "db/column_family.h" #include "db/compaction_job.h" #include "db/error_handler.h" #include "db/version_set.h" #include "rocksdb/cache.h" #include "rocksdb/db.h" #include "rocksdb/options.h" #include "rocksdb/write_buffer_manager.h" #include "table/mock_table.h" #include "util/file_reader_writer.h" #include "util/string_util.h" #include "util/testharness.h" #include "util/testutil.h" #include "utilities/merge_operators.h" namespace rocksdb { namespace { void VerifyInitializationOfCompactionJobStats( const CompactionJobStats& compaction_job_stats) { #if !defined(IOS_CROSS_COMPILE) ASSERT_EQ(compaction_job_stats.elapsed_micros, 0U); ASSERT_EQ(compaction_job_stats.num_input_records, 0U); ASSERT_EQ(compaction_job_stats.num_input_files, 0U); ASSERT_EQ(compaction_job_stats.num_input_files_at_output_level, 0U); ASSERT_EQ(compaction_job_stats.num_output_records, 0U); ASSERT_EQ(compaction_job_stats.num_output_files, 0U); ASSERT_EQ(compaction_job_stats.is_manual_compaction, true); ASSERT_EQ(compaction_job_stats.total_input_bytes, 0U); ASSERT_EQ(compaction_job_stats.total_output_bytes, 0U); ASSERT_EQ(compaction_job_stats.total_input_raw_key_bytes, 0U); ASSERT_EQ(compaction_job_stats.total_input_raw_value_bytes, 0U); ASSERT_EQ(compaction_job_stats.smallest_output_key_prefix[0], 0); ASSERT_EQ(compaction_job_stats.largest_output_key_prefix[0], 0); ASSERT_EQ(compaction_job_stats.num_records_replaced, 0U); ASSERT_EQ(compaction_job_stats.num_input_deletion_records, 0U); ASSERT_EQ(compaction_job_stats.num_expired_deletion_records, 0U); ASSERT_EQ(compaction_job_stats.num_corrupt_keys, 0U); #endif // !defined(IOS_CROSS_COMPILE) } } // namespace // TODO(icanadi) Make it simpler once we mock out VersionSet class CompactionJobTest : public testing::Test { public: CompactionJobTest() : env_(Env::Default()), dbname_(test::PerThreadDBPath("compaction_job_test")), db_options_(), mutable_cf_options_(cf_options_), table_cache_(NewLRUCache(50000, 16)), write_buffer_manager_(db_options_.db_write_buffer_size), versions_(new VersionSet(dbname_, &db_options_, env_options_, table_cache_.get(), &write_buffer_manager_, &write_controller_)), shutting_down_(false), preserve_deletes_seqnum_(0), mock_table_factory_(new mock::MockTableFactory()), error_handler_(nullptr, db_options_, &mutex_) { EXPECT_OK(env_->CreateDirIfMissing(dbname_)); db_options_.db_paths.emplace_back(dbname_, std::numeric_limits::max()); } std::string GenerateFileName(uint64_t file_number) { FileMetaData meta; std::vector db_paths; db_paths.emplace_back(dbname_, std::numeric_limits::max()); meta.fd = FileDescriptor(file_number, 0, 0); return TableFileName(db_paths, meta.fd.GetNumber(), meta.fd.GetPathId()); } std::string KeyStr(const std::string& user_key, const SequenceNumber seq_num, const ValueType t) { return InternalKey(user_key, seq_num, t).Encode().ToString(); } void AddMockFile(const stl_wrappers::KVMap& contents, int level = 0) { assert(contents.size() > 0); bool first_key = true; std::string smallest, largest; InternalKey smallest_key, largest_key; SequenceNumber smallest_seqno = kMaxSequenceNumber; SequenceNumber largest_seqno = 0; for (auto kv : contents) { ParsedInternalKey key; std::string skey; std::string value; std::tie(skey, value) = kv; ParseInternalKey(skey, &key); smallest_seqno = std::min(smallest_seqno, key.sequence); largest_seqno = std::max(largest_seqno, key.sequence); if (first_key || cfd_->user_comparator()->Compare(key.user_key, smallest) < 0) { smallest.assign(key.user_key.data(), key.user_key.size()); smallest_key.DecodeFrom(skey); } if (first_key || cfd_->user_comparator()->Compare(key.user_key, largest) > 0) { largest.assign(key.user_key.data(), key.user_key.size()); largest_key.DecodeFrom(skey); } first_key = false; } uint64_t file_number = versions_->NewFileNumber(); EXPECT_OK(mock_table_factory_->CreateMockTable( env_, GenerateFileName(file_number), std::move(contents))); VersionEdit edit; edit.AddFile(level, file_number, 0, 10, smallest_key, largest_key, smallest_seqno, largest_seqno, false); mutex_.Lock(); versions_->LogAndApply(versions_->GetColumnFamilySet()->GetDefault(), mutable_cf_options_, &edit, &mutex_); mutex_.Unlock(); } void SetLastSequence(const SequenceNumber sequence_number) { versions_->SetLastAllocatedSequence(sequence_number + 1); versions_->SetLastPublishedSequence(sequence_number + 1); versions_->SetLastSequence(sequence_number + 1); } // returns expected result after compaction stl_wrappers::KVMap CreateTwoFiles(bool gen_corrupted_keys) { auto expected_results = mock::MakeMockFile(); const int kKeysPerFile = 10000; const int kCorruptKeysPerFile = 200; const int kMatchingKeys = kKeysPerFile / 2; SequenceNumber sequence_number = 0; auto corrupt_id = [&](int id) { return gen_corrupted_keys && id > 0 && id <= kCorruptKeysPerFile; }; for (int i = 0; i < 2; ++i) { auto contents = mock::MakeMockFile(); for (int k = 0; k < kKeysPerFile; ++k) { auto key = ToString(i * kMatchingKeys + k); auto value = ToString(i * kKeysPerFile + k); InternalKey internal_key(key, ++sequence_number, kTypeValue); // This is how the key will look like once it's written in bottommost // file InternalKey bottommost_internal_key( key, (key == "9999") ? sequence_number : 0, kTypeValue); if (corrupt_id(k)) { test::CorruptKeyType(&internal_key); test::CorruptKeyType(&bottommost_internal_key); } contents.insert({ internal_key.Encode().ToString(), value }); if (i == 1 || k < kMatchingKeys || corrupt_id(k - kMatchingKeys)) { expected_results.insert( { bottommost_internal_key.Encode().ToString(), value }); } } AddMockFile(contents); } SetLastSequence(sequence_number); return expected_results; } void NewDB() { VersionEdit new_db; new_db.SetLogNumber(0); new_db.SetNextFile(2); new_db.SetLastSequence(0); const std::string manifest = DescriptorFileName(dbname_, 1); unique_ptr file; Status s = env_->NewWritableFile( manifest, &file, env_->OptimizeForManifestWrite(env_options_)); ASSERT_OK(s); unique_ptr file_writer( new WritableFileWriter(std::move(file), manifest, env_options_)); { log::Writer log(std::move(file_writer), 0, false); std::string record; new_db.EncodeTo(&record); s = log.AddRecord(record); } ASSERT_OK(s); // Make "CURRENT" file that points to the new manifest file. s = SetCurrentFile(env_, dbname_, 1, nullptr); std::vector column_families; cf_options_.table_factory = mock_table_factory_; cf_options_.merge_operator = merge_op_; cf_options_.compaction_filter = compaction_filter_.get(); column_families.emplace_back(kDefaultColumnFamilyName, cf_options_); EXPECT_OK(versions_->Recover(column_families, false)); cfd_ = versions_->GetColumnFamilySet()->GetDefault(); } void RunCompaction( const std::vector>& input_files, const stl_wrappers::KVMap& expected_results, const std::vector& snapshots = {}, SequenceNumber earliest_write_conflict_snapshot = kMaxSequenceNumber) { auto cfd = versions_->GetColumnFamilySet()->GetDefault(); size_t num_input_files = 0; std::vector compaction_input_files; for (size_t level = 0; level < input_files.size(); level++) { auto level_files = input_files[level]; CompactionInputFiles compaction_level; compaction_level.level = static_cast(level); compaction_level.files.insert(compaction_level.files.end(), level_files.begin(), level_files.end()); compaction_input_files.push_back(compaction_level); num_input_files += level_files.size(); } Compaction compaction(cfd->current()->storage_info(), *cfd->ioptions(), *cfd->GetLatestMutableCFOptions(), compaction_input_files, 1, 1024 * 1024, 10 * 1024 * 1024, 0, kNoCompression, cfd->ioptions()->compression_opts, 0, {}, true); compaction.SetInputVersion(cfd->current()); LogBuffer log_buffer(InfoLogLevel::INFO_LEVEL, db_options_.info_log.get()); mutex_.Lock(); EventLogger event_logger(db_options_.info_log.get()); // TODO(yiwu) add a mock snapshot checker and add test for it. SnapshotChecker* snapshot_checker = nullptr; CompactionJob compaction_job( 0, &compaction, db_options_, env_options_, versions_.get(), &shutting_down_, preserve_deletes_seqnum_, &log_buffer, nullptr, nullptr, nullptr, &mutex_, &error_handler_, snapshots, earliest_write_conflict_snapshot, snapshot_checker, table_cache_, &event_logger, false, false, dbname_, &compaction_job_stats_); VerifyInitializationOfCompactionJobStats(compaction_job_stats_); compaction_job.Prepare(); mutex_.Unlock(); Status s; s = compaction_job.Run(); ASSERT_OK(s); mutex_.Lock(); ASSERT_OK(compaction_job.Install(*cfd->GetLatestMutableCFOptions())); mutex_.Unlock(); if (expected_results.size() == 0) { ASSERT_GE(compaction_job_stats_.elapsed_micros, 0U); ASSERT_EQ(compaction_job_stats_.num_input_files, num_input_files); ASSERT_EQ(compaction_job_stats_.num_output_files, 0U); } else { ASSERT_GE(compaction_job_stats_.elapsed_micros, 0U); ASSERT_EQ(compaction_job_stats_.num_input_files, num_input_files); ASSERT_EQ(compaction_job_stats_.num_output_files, 1U); mock_table_factory_->AssertLatestFile(expected_results); } } Env* env_; std::string dbname_; EnvOptions env_options_; ImmutableDBOptions db_options_; ColumnFamilyOptions cf_options_; MutableCFOptions mutable_cf_options_; std::shared_ptr table_cache_; WriteController write_controller_; WriteBufferManager write_buffer_manager_; std::unique_ptr versions_; InstrumentedMutex mutex_; std::atomic shutting_down_; SequenceNumber preserve_deletes_seqnum_; std::shared_ptr mock_table_factory_; CompactionJobStats compaction_job_stats_; ColumnFamilyData* cfd_; std::unique_ptr compaction_filter_; std::shared_ptr merge_op_; ErrorHandler error_handler_; }; TEST_F(CompactionJobTest, Simple) { NewDB(); auto expected_results = CreateTwoFiles(false); auto cfd = versions_->GetColumnFamilySet()->GetDefault(); auto files = cfd->current()->storage_info()->LevelFiles(0); ASSERT_EQ(2U, files.size()); RunCompaction({ files }, expected_results); } TEST_F(CompactionJobTest, SimpleCorrupted) { NewDB(); auto expected_results = CreateTwoFiles(true); auto cfd = versions_->GetColumnFamilySet()->GetDefault(); auto files = cfd->current()->storage_info()->LevelFiles(0); RunCompaction({files}, expected_results); ASSERT_EQ(compaction_job_stats_.num_corrupt_keys, 400U); } TEST_F(CompactionJobTest, SimpleDeletion) { NewDB(); auto file1 = mock::MakeMockFile({{KeyStr("c", 4U, kTypeDeletion), ""}, {KeyStr("c", 3U, kTypeValue), "val"}}); AddMockFile(file1); auto file2 = mock::MakeMockFile({{KeyStr("b", 2U, kTypeValue), "val"}, {KeyStr("b", 1U, kTypeValue), "val"}}); AddMockFile(file2); auto expected_results = mock::MakeMockFile({{KeyStr("b", 0U, kTypeValue), "val"}}); SetLastSequence(4U); auto files = cfd_->current()->storage_info()->LevelFiles(0); RunCompaction({files}, expected_results); } TEST_F(CompactionJobTest, OutputNothing) { NewDB(); auto file1 = mock::MakeMockFile({{KeyStr("a", 1U, kTypeValue), "val"}}); AddMockFile(file1); auto file2 = mock::MakeMockFile({{KeyStr("a", 2U, kTypeDeletion), ""}}); AddMockFile(file2); auto expected_results = mock::MakeMockFile(); SetLastSequence(4U); auto files = cfd_->current()->storage_info()->LevelFiles(0); RunCompaction({files}, expected_results); } TEST_F(CompactionJobTest, SimpleOverwrite) { NewDB(); auto file1 = mock::MakeMockFile({ {KeyStr("a", 3U, kTypeValue), "val2"}, {KeyStr("b", 4U, kTypeValue), "val3"}, }); AddMockFile(file1); auto file2 = mock::MakeMockFile({{KeyStr("a", 1U, kTypeValue), "val"}, {KeyStr("b", 2U, kTypeValue), "val"}}); AddMockFile(file2); auto expected_results = mock::MakeMockFile({{KeyStr("a", 0U, kTypeValue), "val2"}, {KeyStr("b", 4U, kTypeValue), "val3"}}); SetLastSequence(4U); auto files = cfd_->current()->storage_info()->LevelFiles(0); RunCompaction({files}, expected_results); } TEST_F(CompactionJobTest, SimpleNonLastLevel) { NewDB(); auto file1 = mock::MakeMockFile({ {KeyStr("a", 5U, kTypeValue), "val2"}, {KeyStr("b", 6U, kTypeValue), "val3"}, }); AddMockFile(file1); auto file2 = mock::MakeMockFile({{KeyStr("a", 3U, kTypeValue), "val"}, {KeyStr("b", 4U, kTypeValue), "val"}}); AddMockFile(file2, 1); auto file3 = mock::MakeMockFile({{KeyStr("a", 1U, kTypeValue), "val"}, {KeyStr("b", 2U, kTypeValue), "val"}}); AddMockFile(file3, 2); // Because level 1 is not the last level, the sequence numbers of a and b // cannot be set to 0 auto expected_results = mock::MakeMockFile({{KeyStr("a", 5U, kTypeValue), "val2"}, {KeyStr("b", 6U, kTypeValue), "val3"}}); SetLastSequence(6U); auto lvl0_files = cfd_->current()->storage_info()->LevelFiles(0); auto lvl1_files = cfd_->current()->storage_info()->LevelFiles(1); RunCompaction({lvl0_files, lvl1_files}, expected_results); } TEST_F(CompactionJobTest, SimpleMerge) { merge_op_ = MergeOperators::CreateStringAppendOperator(); NewDB(); auto file1 = mock::MakeMockFile({ {KeyStr("a", 5U, kTypeMerge), "5"}, {KeyStr("a", 4U, kTypeMerge), "4"}, {KeyStr("a", 3U, kTypeValue), "3"}, }); AddMockFile(file1); auto file2 = mock::MakeMockFile( {{KeyStr("b", 2U, kTypeMerge), "2"}, {KeyStr("b", 1U, kTypeValue), "1"}}); AddMockFile(file2); auto expected_results = mock::MakeMockFile({{KeyStr("a", 0U, kTypeValue), "3,4,5"}, {KeyStr("b", 2U, kTypeValue), "1,2"}}); SetLastSequence(5U); auto files = cfd_->current()->storage_info()->LevelFiles(0); RunCompaction({files}, expected_results); } TEST_F(CompactionJobTest, NonAssocMerge) { merge_op_ = MergeOperators::CreateStringAppendTESTOperator(); NewDB(); auto file1 = mock::MakeMockFile({ {KeyStr("a", 5U, kTypeMerge), "5"}, {KeyStr("a", 4U, kTypeMerge), "4"}, {KeyStr("a", 3U, kTypeMerge), "3"}, }); AddMockFile(file1); auto file2 = mock::MakeMockFile( {{KeyStr("b", 2U, kTypeMerge), "2"}, {KeyStr("b", 1U, kTypeMerge), "1"}}); AddMockFile(file2); auto expected_results = mock::MakeMockFile({{KeyStr("a", 0U, kTypeValue), "3,4,5"}, {KeyStr("b", 2U, kTypeMerge), "2"}, {KeyStr("b", 1U, kTypeMerge), "1"}}); SetLastSequence(5U); auto files = cfd_->current()->storage_info()->LevelFiles(0); RunCompaction({files}, expected_results); } // Filters merge operands with value 10. TEST_F(CompactionJobTest, MergeOperandFilter) { merge_op_ = MergeOperators::CreateUInt64AddOperator(); compaction_filter_.reset(new test::FilterNumber(10U)); NewDB(); auto file1 = mock::MakeMockFile( {{KeyStr("a", 5U, kTypeMerge), test::EncodeInt(5U)}, {KeyStr("a", 4U, kTypeMerge), test::EncodeInt(10U)}, // Filtered {KeyStr("a", 3U, kTypeMerge), test::EncodeInt(3U)}}); AddMockFile(file1); auto file2 = mock::MakeMockFile({ {KeyStr("b", 2U, kTypeMerge), test::EncodeInt(2U)}, {KeyStr("b", 1U, kTypeMerge), test::EncodeInt(10U)} // Filtered }); AddMockFile(file2); auto expected_results = mock::MakeMockFile({{KeyStr("a", 0U, kTypeValue), test::EncodeInt(8U)}, {KeyStr("b", 2U, kTypeMerge), test::EncodeInt(2U)}}); SetLastSequence(5U); auto files = cfd_->current()->storage_info()->LevelFiles(0); RunCompaction({files}, expected_results); } TEST_F(CompactionJobTest, FilterSomeMergeOperands) { merge_op_ = MergeOperators::CreateUInt64AddOperator(); compaction_filter_.reset(new test::FilterNumber(10U)); NewDB(); auto file1 = mock::MakeMockFile( {{KeyStr("a", 5U, kTypeMerge), test::EncodeInt(5U)}, {KeyStr("a", 4U, kTypeMerge), test::EncodeInt(10U)}, // Filtered {KeyStr("a", 3U, kTypeValue), test::EncodeInt(5U)}, {KeyStr("d", 8U, kTypeMerge), test::EncodeInt(10U)}}); AddMockFile(file1); auto file2 = mock::MakeMockFile({{KeyStr("b", 2U, kTypeMerge), test::EncodeInt(10U)}, {KeyStr("b", 1U, kTypeMerge), test::EncodeInt(10U)}, {KeyStr("c", 2U, kTypeMerge), test::EncodeInt(3U)}, {KeyStr("c", 1U, kTypeValue), test::EncodeInt(7U)}, {KeyStr("d", 1U, kTypeValue), test::EncodeInt(6U)}}); AddMockFile(file2); auto file3 = mock::MakeMockFile({{KeyStr("a", 1U, kTypeMerge), test::EncodeInt(3U)}}); AddMockFile(file3, 2); auto expected_results = mock::MakeMockFile({ {KeyStr("a", 5U, kTypeValue), test::EncodeInt(10U)}, {KeyStr("c", 2U, kTypeValue), test::EncodeInt(10U)}, {KeyStr("d", 1U, kTypeValue), test::EncodeInt(6U)} // b does not appear because the operands are filtered }); SetLastSequence(5U); auto files = cfd_->current()->storage_info()->LevelFiles(0); RunCompaction({files}, expected_results); } // Test where all operands/merge results are filtered out. TEST_F(CompactionJobTest, FilterAllMergeOperands) { merge_op_ = MergeOperators::CreateUInt64AddOperator(); compaction_filter_.reset(new test::FilterNumber(10U)); NewDB(); auto file1 = mock::MakeMockFile({{KeyStr("a", 11U, kTypeMerge), test::EncodeInt(10U)}, {KeyStr("a", 10U, kTypeMerge), test::EncodeInt(10U)}, {KeyStr("a", 9U, kTypeMerge), test::EncodeInt(10U)}}); AddMockFile(file1); auto file2 = mock::MakeMockFile({{KeyStr("b", 8U, kTypeMerge), test::EncodeInt(10U)}, {KeyStr("b", 7U, kTypeMerge), test::EncodeInt(10U)}, {KeyStr("b", 6U, kTypeMerge), test::EncodeInt(10U)}, {KeyStr("b", 5U, kTypeMerge), test::EncodeInt(10U)}, {KeyStr("b", 4U, kTypeMerge), test::EncodeInt(10U)}, {KeyStr("b", 3U, kTypeMerge), test::EncodeInt(10U)}, {KeyStr("b", 2U, kTypeMerge), test::EncodeInt(10U)}, {KeyStr("c", 2U, kTypeMerge), test::EncodeInt(10U)}, {KeyStr("c", 1U, kTypeMerge), test::EncodeInt(10U)}}); AddMockFile(file2); auto file3 = mock::MakeMockFile({{KeyStr("a", 2U, kTypeMerge), test::EncodeInt(10U)}, {KeyStr("b", 1U, kTypeMerge), test::EncodeInt(10U)}}); AddMockFile(file3, 2); SetLastSequence(11U); auto files = cfd_->current()->storage_info()->LevelFiles(0); stl_wrappers::KVMap empty_map; RunCompaction({files}, empty_map); } TEST_F(CompactionJobTest, SimpleSingleDelete) { NewDB(); auto file1 = mock::MakeMockFile({ {KeyStr("a", 5U, kTypeDeletion), ""}, {KeyStr("b", 6U, kTypeSingleDeletion), ""}, }); AddMockFile(file1); auto file2 = mock::MakeMockFile({{KeyStr("a", 3U, kTypeValue), "val"}, {KeyStr("b", 4U, kTypeValue), "val"}}); AddMockFile(file2); auto file3 = mock::MakeMockFile({ {KeyStr("a", 1U, kTypeValue), "val"}, }); AddMockFile(file3, 2); auto expected_results = mock::MakeMockFile({{KeyStr("a", 5U, kTypeDeletion), ""}}); SetLastSequence(6U); auto files = cfd_->current()->storage_info()->LevelFiles(0); RunCompaction({files}, expected_results); } TEST_F(CompactionJobTest, SingleDeleteSnapshots) { NewDB(); auto file1 = mock::MakeMockFile({ {KeyStr("A", 12U, kTypeSingleDeletion), ""}, {KeyStr("a", 12U, kTypeSingleDeletion), ""}, {KeyStr("b", 21U, kTypeSingleDeletion), ""}, {KeyStr("c", 22U, kTypeSingleDeletion), ""}, {KeyStr("d", 9U, kTypeSingleDeletion), ""}, {KeyStr("f", 21U, kTypeSingleDeletion), ""}, {KeyStr("j", 11U, kTypeSingleDeletion), ""}, {KeyStr("j", 9U, kTypeSingleDeletion), ""}, {KeyStr("k", 12U, kTypeSingleDeletion), ""}, {KeyStr("k", 11U, kTypeSingleDeletion), ""}, {KeyStr("l", 3U, kTypeSingleDeletion), ""}, {KeyStr("l", 2U, kTypeSingleDeletion), ""}, }); AddMockFile(file1); auto file2 = mock::MakeMockFile({ {KeyStr("0", 2U, kTypeSingleDeletion), ""}, {KeyStr("a", 11U, kTypeValue), "val1"}, {KeyStr("b", 11U, kTypeValue), "val2"}, {KeyStr("c", 21U, kTypeValue), "val3"}, {KeyStr("d", 8U, kTypeValue), "val4"}, {KeyStr("e", 2U, kTypeSingleDeletion), ""}, {KeyStr("f", 1U, kTypeValue), "val1"}, {KeyStr("g", 11U, kTypeSingleDeletion), ""}, {KeyStr("h", 2U, kTypeSingleDeletion), ""}, {KeyStr("m", 12U, kTypeValue), "val1"}, {KeyStr("m", 11U, kTypeSingleDeletion), ""}, {KeyStr("m", 8U, kTypeValue), "val2"}, }); AddMockFile(file2); auto file3 = mock::MakeMockFile({ {KeyStr("A", 1U, kTypeValue), "val"}, {KeyStr("e", 1U, kTypeValue), "val"}, }); AddMockFile(file3, 2); auto expected_results = mock::MakeMockFile({ {KeyStr("A", 12U, kTypeSingleDeletion), ""}, {KeyStr("a", 12U, kTypeSingleDeletion), ""}, {KeyStr("a", 11U, kTypeValue), ""}, {KeyStr("b", 21U, kTypeSingleDeletion), ""}, {KeyStr("b", 11U, kTypeValue), "val2"}, {KeyStr("c", 22U, kTypeSingleDeletion), ""}, {KeyStr("c", 21U, kTypeValue), ""}, {KeyStr("e", 2U, kTypeSingleDeletion), ""}, {KeyStr("f", 21U, kTypeSingleDeletion), ""}, {KeyStr("f", 1U, kTypeValue), "val1"}, {KeyStr("g", 11U, kTypeSingleDeletion), ""}, {KeyStr("j", 11U, kTypeSingleDeletion), ""}, {KeyStr("k", 11U, kTypeSingleDeletion), ""}, {KeyStr("m", 12U, kTypeValue), "val1"}, {KeyStr("m", 11U, kTypeSingleDeletion), ""}, {KeyStr("m", 8U, kTypeValue), "val2"}, }); SetLastSequence(22U); auto files = cfd_->current()->storage_info()->LevelFiles(0); RunCompaction({files}, expected_results, {10U, 20U}, 10U); } TEST_F(CompactionJobTest, EarliestWriteConflictSnapshot) { NewDB(); // Test multiple snapshots where the earliest snapshot is not a // write-conflic-snapshot. auto file1 = mock::MakeMockFile({ {KeyStr("A", 24U, kTypeSingleDeletion), ""}, {KeyStr("A", 23U, kTypeValue), "val"}, {KeyStr("B", 24U, kTypeSingleDeletion), ""}, {KeyStr("B", 23U, kTypeValue), "val"}, {KeyStr("D", 24U, kTypeSingleDeletion), ""}, {KeyStr("G", 32U, kTypeSingleDeletion), ""}, {KeyStr("G", 31U, kTypeValue), "val"}, {KeyStr("G", 24U, kTypeSingleDeletion), ""}, {KeyStr("G", 23U, kTypeValue), "val2"}, {KeyStr("H", 31U, kTypeValue), "val"}, {KeyStr("H", 24U, kTypeSingleDeletion), ""}, {KeyStr("H", 23U, kTypeValue), "val"}, {KeyStr("I", 35U, kTypeSingleDeletion), ""}, {KeyStr("I", 34U, kTypeValue), "val2"}, {KeyStr("I", 33U, kTypeSingleDeletion), ""}, {KeyStr("I", 32U, kTypeValue), "val3"}, {KeyStr("I", 31U, kTypeSingleDeletion), ""}, {KeyStr("J", 34U, kTypeValue), "val"}, {KeyStr("J", 33U, kTypeSingleDeletion), ""}, {KeyStr("J", 25U, kTypeValue), "val2"}, {KeyStr("J", 24U, kTypeSingleDeletion), ""}, }); AddMockFile(file1); auto file2 = mock::MakeMockFile({ {KeyStr("A", 14U, kTypeSingleDeletion), ""}, {KeyStr("A", 13U, kTypeValue), "val2"}, {KeyStr("C", 14U, kTypeSingleDeletion), ""}, {KeyStr("C", 13U, kTypeValue), "val"}, {KeyStr("E", 12U, kTypeSingleDeletion), ""}, {KeyStr("F", 4U, kTypeSingleDeletion), ""}, {KeyStr("F", 3U, kTypeValue), "val"}, {KeyStr("G", 14U, kTypeSingleDeletion), ""}, {KeyStr("G", 13U, kTypeValue), "val3"}, {KeyStr("H", 14U, kTypeSingleDeletion), ""}, {KeyStr("H", 13U, kTypeValue), "val2"}, {KeyStr("I", 13U, kTypeValue), "val4"}, {KeyStr("I", 12U, kTypeSingleDeletion), ""}, {KeyStr("I", 11U, kTypeValue), "val5"}, {KeyStr("J", 15U, kTypeValue), "val3"}, {KeyStr("J", 14U, kTypeSingleDeletion), ""}, }); AddMockFile(file2); auto expected_results = mock::MakeMockFile({ {KeyStr("A", 24U, kTypeSingleDeletion), ""}, {KeyStr("A", 23U, kTypeValue), ""}, {KeyStr("B", 24U, kTypeSingleDeletion), ""}, {KeyStr("B", 23U, kTypeValue), ""}, {KeyStr("D", 24U, kTypeSingleDeletion), ""}, {KeyStr("E", 12U, kTypeSingleDeletion), ""}, {KeyStr("G", 32U, kTypeSingleDeletion), ""}, {KeyStr("G", 31U, kTypeValue), ""}, {KeyStr("H", 31U, kTypeValue), "val"}, {KeyStr("I", 35U, kTypeSingleDeletion), ""}, {KeyStr("I", 34U, kTypeValue), ""}, {KeyStr("I", 31U, kTypeSingleDeletion), ""}, {KeyStr("I", 13U, kTypeValue), "val4"}, {KeyStr("J", 34U, kTypeValue), "val"}, {KeyStr("J", 33U, kTypeSingleDeletion), ""}, {KeyStr("J", 25U, kTypeValue), "val2"}, {KeyStr("J", 24U, kTypeSingleDeletion), ""}, {KeyStr("J", 15U, kTypeValue), "val3"}, {KeyStr("J", 14U, kTypeSingleDeletion), ""}, }); SetLastSequence(24U); auto files = cfd_->current()->storage_info()->LevelFiles(0); RunCompaction({files}, expected_results, {10U, 20U, 30U}, 20U); } TEST_F(CompactionJobTest, SingleDeleteZeroSeq) { NewDB(); auto file1 = mock::MakeMockFile({ {KeyStr("A", 10U, kTypeSingleDeletion), ""}, {KeyStr("dummy", 5U, kTypeValue), "val2"}, }); AddMockFile(file1); auto file2 = mock::MakeMockFile({ {KeyStr("A", 0U, kTypeValue), "val"}, }); AddMockFile(file2); auto expected_results = mock::MakeMockFile({ {KeyStr("dummy", 5U, kTypeValue), "val2"}, }); SetLastSequence(22U); auto files = cfd_->current()->storage_info()->LevelFiles(0); RunCompaction({files}, expected_results, {}); } TEST_F(CompactionJobTest, MultiSingleDelete) { // Tests three scenarios involving multiple single delete/put pairs: // // A: Put Snapshot SDel Put SDel -> Put Snapshot SDel // B: Snapshot Put SDel Put SDel Snapshot -> Snapshot SDel Snapshot // C: SDel Put SDel Snapshot Put -> Snapshot Put // D: (Put) SDel Snapshot Put SDel -> (Put) SDel Snapshot SDel // E: Put SDel Snapshot Put SDel -> Snapshot SDel // F: Put SDel Put Sdel Snapshot -> removed // G: Snapshot SDel Put SDel Put -> Snapshot Put SDel // H: (Put) Put SDel Put Sdel Snapshot -> Removed // I: (Put) Snapshot Put SDel Put SDel -> SDel // J: Put Put SDel Put SDel SDel Snapshot Put Put SDel SDel Put // -> Snapshot Put // K: SDel SDel Put SDel Put Put Snapshot SDel Put SDel SDel Put SDel // -> Snapshot Put Snapshot SDel // L: SDel Put Del Put SDel Snapshot Del Put Del SDel Put SDel // -> Snapshot SDel // M: (Put) SDel Put Del Put SDel Snapshot Put Del SDel Put SDel Del // -> SDel Snapshot Del NewDB(); auto file1 = mock::MakeMockFile({ {KeyStr("A", 14U, kTypeSingleDeletion), ""}, {KeyStr("A", 13U, kTypeValue), "val5"}, {KeyStr("A", 12U, kTypeSingleDeletion), ""}, {KeyStr("B", 14U, kTypeSingleDeletion), ""}, {KeyStr("B", 13U, kTypeValue), "val2"}, {KeyStr("C", 14U, kTypeValue), "val3"}, {KeyStr("D", 12U, kTypeSingleDeletion), ""}, {KeyStr("D", 11U, kTypeValue), "val4"}, {KeyStr("G", 15U, kTypeValue), "val"}, {KeyStr("G", 14U, kTypeSingleDeletion), ""}, {KeyStr("G", 13U, kTypeValue), "val"}, {KeyStr("I", 14U, kTypeSingleDeletion), ""}, {KeyStr("I", 13U, kTypeValue), "val"}, {KeyStr("J", 15U, kTypeValue), "val"}, {KeyStr("J", 14U, kTypeSingleDeletion), ""}, {KeyStr("J", 13U, kTypeSingleDeletion), ""}, {KeyStr("J", 12U, kTypeValue), "val"}, {KeyStr("J", 11U, kTypeValue), "val"}, {KeyStr("K", 16U, kTypeSingleDeletion), ""}, {KeyStr("K", 15U, kTypeValue), "val1"}, {KeyStr("K", 14U, kTypeSingleDeletion), ""}, {KeyStr("K", 13U, kTypeSingleDeletion), ""}, {KeyStr("K", 12U, kTypeValue), "val2"}, {KeyStr("K", 11U, kTypeSingleDeletion), ""}, {KeyStr("L", 16U, kTypeSingleDeletion), ""}, {KeyStr("L", 15U, kTypeValue), "val"}, {KeyStr("L", 14U, kTypeSingleDeletion), ""}, {KeyStr("L", 13U, kTypeDeletion), ""}, {KeyStr("L", 12U, kTypeValue), "val"}, {KeyStr("L", 11U, kTypeDeletion), ""}, {KeyStr("M", 16U, kTypeDeletion), ""}, {KeyStr("M", 15U, kTypeSingleDeletion), ""}, {KeyStr("M", 14U, kTypeValue), "val"}, {KeyStr("M", 13U, kTypeSingleDeletion), ""}, {KeyStr("M", 12U, kTypeDeletion), ""}, {KeyStr("M", 11U, kTypeValue), "val"}, }); AddMockFile(file1); auto file2 = mock::MakeMockFile({ {KeyStr("A", 10U, kTypeValue), "val"}, {KeyStr("B", 12U, kTypeSingleDeletion), ""}, {KeyStr("B", 11U, kTypeValue), "val2"}, {KeyStr("C", 10U, kTypeSingleDeletion), ""}, {KeyStr("C", 9U, kTypeValue), "val6"}, {KeyStr("C", 8U, kTypeSingleDeletion), ""}, {KeyStr("D", 10U, kTypeSingleDeletion), ""}, {KeyStr("E", 12U, kTypeSingleDeletion), ""}, {KeyStr("E", 11U, kTypeValue), "val"}, {KeyStr("E", 5U, kTypeSingleDeletion), ""}, {KeyStr("E", 4U, kTypeValue), "val"}, {KeyStr("F", 6U, kTypeSingleDeletion), ""}, {KeyStr("F", 5U, kTypeValue), "val"}, {KeyStr("F", 4U, kTypeSingleDeletion), ""}, {KeyStr("F", 3U, kTypeValue), "val"}, {KeyStr("G", 12U, kTypeSingleDeletion), ""}, {KeyStr("H", 6U, kTypeSingleDeletion), ""}, {KeyStr("H", 5U, kTypeValue), "val"}, {KeyStr("H", 4U, kTypeSingleDeletion), ""}, {KeyStr("H", 3U, kTypeValue), "val"}, {KeyStr("I", 12U, kTypeSingleDeletion), ""}, {KeyStr("I", 11U, kTypeValue), "val"}, {KeyStr("J", 6U, kTypeSingleDeletion), ""}, {KeyStr("J", 5U, kTypeSingleDeletion), ""}, {KeyStr("J", 4U, kTypeValue), "val"}, {KeyStr("J", 3U, kTypeSingleDeletion), ""}, {KeyStr("J", 2U, kTypeValue), "val"}, {KeyStr("K", 8U, kTypeValue), "val3"}, {KeyStr("K", 7U, kTypeValue), "val4"}, {KeyStr("K", 6U, kTypeSingleDeletion), ""}, {KeyStr("K", 5U, kTypeValue), "val5"}, {KeyStr("K", 2U, kTypeSingleDeletion), ""}, {KeyStr("K", 1U, kTypeSingleDeletion), ""}, {KeyStr("L", 5U, kTypeSingleDeletion), ""}, {KeyStr("L", 4U, kTypeValue), "val"}, {KeyStr("L", 3U, kTypeDeletion), ""}, {KeyStr("L", 2U, kTypeValue), "val"}, {KeyStr("L", 1U, kTypeSingleDeletion), ""}, {KeyStr("M", 10U, kTypeSingleDeletion), ""}, {KeyStr("M", 7U, kTypeValue), "val"}, {KeyStr("M", 5U, kTypeDeletion), ""}, {KeyStr("M", 4U, kTypeValue), "val"}, {KeyStr("M", 3U, kTypeSingleDeletion), ""}, }); AddMockFile(file2); auto file3 = mock::MakeMockFile({ {KeyStr("D", 1U, kTypeValue), "val"}, {KeyStr("H", 1U, kTypeValue), "val"}, {KeyStr("I", 2U, kTypeValue), "val"}, }); AddMockFile(file3, 2); auto file4 = mock::MakeMockFile({ {KeyStr("M", 1U, kTypeValue), "val"}, }); AddMockFile(file4, 2); auto expected_results = mock::MakeMockFile({{KeyStr("A", 14U, kTypeSingleDeletion), ""}, {KeyStr("A", 13U, kTypeValue), ""}, {KeyStr("A", 12U, kTypeSingleDeletion), ""}, {KeyStr("A", 10U, kTypeValue), "val"}, {KeyStr("B", 14U, kTypeSingleDeletion), ""}, {KeyStr("B", 13U, kTypeValue), ""}, {KeyStr("C", 14U, kTypeValue), "val3"}, {KeyStr("D", 12U, kTypeSingleDeletion), ""}, {KeyStr("D", 11U, kTypeValue), ""}, {KeyStr("D", 10U, kTypeSingleDeletion), ""}, {KeyStr("E", 12U, kTypeSingleDeletion), ""}, {KeyStr("E", 11U, kTypeValue), ""}, {KeyStr("G", 15U, kTypeValue), "val"}, {KeyStr("G", 12U, kTypeSingleDeletion), ""}, {KeyStr("I", 14U, kTypeSingleDeletion), ""}, {KeyStr("I", 13U, kTypeValue), ""}, {KeyStr("J", 15U, kTypeValue), "val"}, {KeyStr("K", 16U, kTypeSingleDeletion), ""}, {KeyStr("K", 15U, kTypeValue), ""}, {KeyStr("K", 11U, kTypeSingleDeletion), ""}, {KeyStr("K", 8U, kTypeValue), "val3"}, {KeyStr("L", 16U, kTypeSingleDeletion), ""}, {KeyStr("L", 15U, kTypeValue), ""}, {KeyStr("M", 16U, kTypeDeletion), ""}, {KeyStr("M", 3U, kTypeSingleDeletion), ""}}); SetLastSequence(22U); auto files = cfd_->current()->storage_info()->LevelFiles(0); RunCompaction({files}, expected_results, {10U}, 10U); } // This test documents the behavior where a corrupt key follows a deletion or a // single deletion and the (single) deletion gets removed while the corrupt key // gets written out. TODO(noetzli): We probably want a better way to treat // corrupt keys. TEST_F(CompactionJobTest, CorruptionAfterDeletion) { NewDB(); auto file1 = mock::MakeMockFile({{test::KeyStr("A", 6U, kTypeValue), "val3"}, {test::KeyStr("a", 5U, kTypeDeletion), ""}, {test::KeyStr("a", 4U, kTypeValue, true), "val"}}); AddMockFile(file1); auto file2 = mock::MakeMockFile({{test::KeyStr("b", 3U, kTypeSingleDeletion), ""}, {test::KeyStr("b", 2U, kTypeValue, true), "val"}, {test::KeyStr("c", 1U, kTypeValue), "val2"}}); AddMockFile(file2); auto expected_results = mock::MakeMockFile({{test::KeyStr("A", 0U, kTypeValue), "val3"}, {test::KeyStr("a", 0U, kTypeValue, true), "val"}, {test::KeyStr("b", 0U, kTypeValue, true), "val"}, {test::KeyStr("c", 1U, kTypeValue), "val2"}}); SetLastSequence(6U); auto files = cfd_->current()->storage_info()->LevelFiles(0); RunCompaction({files}, expected_results); } } // namespace rocksdb int main(int argc, char** argv) { ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } #else #include int main(int /*argc*/, char** /*argv*/) { fprintf(stderr, "SKIPPED as CompactionJobStats is not supported in ROCKSDB_LITE\n"); return 0; } #endif // ROCKSDB_LITE rocksdb-5.17.2/db/compaction_picker.cc000066400000000000000000002020061337235545400176350ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "db/compaction_picker.h" #ifndef __STDC_FORMAT_MACROS #define __STDC_FORMAT_MACROS #endif #include #include #include #include #include #include "db/column_family.h" #include "monitoring/statistics.h" #include "util/filename.h" #include "util/log_buffer.h" #include "util/random.h" #include "util/string_util.h" #include "util/sync_point.h" namespace rocksdb { namespace { uint64_t TotalCompensatedFileSize(const std::vector& files) { uint64_t sum = 0; for (size_t i = 0; i < files.size() && files[i]; i++) { sum += files[i]->compensated_file_size; } return sum; } bool FindIntraL0Compaction(const std::vector& level_files, size_t min_files_to_compact, uint64_t max_compact_bytes_per_del_file, CompactionInputFiles* comp_inputs) { size_t compact_bytes = static_cast(level_files[0]->fd.file_size); size_t compact_bytes_per_del_file = port::kMaxSizet; // compaction range will be [0, span_len). size_t span_len; // pull in files until the amount of compaction work per deleted file begins // increasing. size_t new_compact_bytes_per_del_file = 0; for (span_len = 1; span_len < level_files.size(); ++span_len) { compact_bytes += static_cast(level_files[span_len]->fd.file_size); new_compact_bytes_per_del_file = compact_bytes / span_len; if (level_files[span_len]->being_compacted || new_compact_bytes_per_del_file > compact_bytes_per_del_file) { break; } compact_bytes_per_del_file = new_compact_bytes_per_del_file; } if (span_len >= min_files_to_compact && compact_bytes_per_del_file < max_compact_bytes_per_del_file) { assert(comp_inputs != nullptr); comp_inputs->level = 0; for (size_t i = 0; i < span_len; ++i) { comp_inputs->files.push_back(level_files[i]); } return true; } return false; } } // anonymous namespace // Determine compression type, based on user options, level of the output // file and whether compression is disabled. // If enable_compression is false, then compression is always disabled no // matter what the values of the other two parameters are. // Otherwise, the compression type is determined based on options and level. CompressionType GetCompressionType(const ImmutableCFOptions& ioptions, const VersionStorageInfo* vstorage, const MutableCFOptions& mutable_cf_options, int level, int base_level, const bool enable_compression) { if (!enable_compression) { // disable compression return kNoCompression; } // If bottommost_compression is set and we are compacting to the // bottommost level then we should use it. if (ioptions.bottommost_compression != kDisableCompressionOption && level >= (vstorage->num_non_empty_levels() - 1)) { return ioptions.bottommost_compression; } // If the user has specified a different compression level for each level, // then pick the compression for that level. if (!ioptions.compression_per_level.empty()) { assert(level == 0 || level >= base_level); int idx = (level == 0) ? 0 : level - base_level + 1; const int n = static_cast(ioptions.compression_per_level.size()) - 1; // It is possible for level_ to be -1; in that case, we use level // 0's compression. This occurs mostly in backwards compatibility // situations when the builder doesn't know what level the file // belongs to. Likewise, if level is beyond the end of the // specified compression levels, use the last value. return ioptions.compression_per_level[std::max(0, std::min(idx, n))]; } else { return mutable_cf_options.compression; } } CompressionOptions GetCompressionOptions(const ImmutableCFOptions& ioptions, const VersionStorageInfo* vstorage, int level, const bool enable_compression) { if (!enable_compression) { return ioptions.compression_opts; } // If bottommost_compression is set and we are compacting to the // bottommost level then we should use the specified compression options // for the bottmomost_compression. if (ioptions.bottommost_compression != kDisableCompressionOption && level >= (vstorage->num_non_empty_levels() - 1) && ioptions.bottommost_compression_opts.enabled) { return ioptions.bottommost_compression_opts; } return ioptions.compression_opts; } CompactionPicker::CompactionPicker(const ImmutableCFOptions& ioptions, const InternalKeyComparator* icmp) : ioptions_(ioptions), icmp_(icmp) {} CompactionPicker::~CompactionPicker() {} // Delete this compaction from the list of running compactions. void CompactionPicker::ReleaseCompactionFiles(Compaction* c, Status status) { UnregisterCompaction(c); if (!status.ok()) { c->ResetNextCompactionIndex(); } } void CompactionPicker::GetRange(const CompactionInputFiles& inputs, InternalKey* smallest, InternalKey* largest) const { const int level = inputs.level; assert(!inputs.empty()); smallest->Clear(); largest->Clear(); if (level == 0) { for (size_t i = 0; i < inputs.size(); i++) { FileMetaData* f = inputs[i]; if (i == 0) { *smallest = f->smallest; *largest = f->largest; } else { if (icmp_->Compare(f->smallest, *smallest) < 0) { *smallest = f->smallest; } if (icmp_->Compare(f->largest, *largest) > 0) { *largest = f->largest; } } } } else { *smallest = inputs[0]->smallest; *largest = inputs[inputs.size() - 1]->largest; } } void CompactionPicker::GetRange(const CompactionInputFiles& inputs1, const CompactionInputFiles& inputs2, InternalKey* smallest, InternalKey* largest) const { assert(!inputs1.empty() || !inputs2.empty()); if (inputs1.empty()) { GetRange(inputs2, smallest, largest); } else if (inputs2.empty()) { GetRange(inputs1, smallest, largest); } else { InternalKey smallest1, smallest2, largest1, largest2; GetRange(inputs1, &smallest1, &largest1); GetRange(inputs2, &smallest2, &largest2); *smallest = icmp_->Compare(smallest1, smallest2) < 0 ? smallest1 : smallest2; *largest = icmp_->Compare(largest1, largest2) < 0 ? largest2 : largest1; } } void CompactionPicker::GetRange(const std::vector& inputs, InternalKey* smallest, InternalKey* largest) const { InternalKey current_smallest; InternalKey current_largest; bool initialized = false; for (const auto& in : inputs) { if (in.empty()) { continue; } GetRange(in, ¤t_smallest, ¤t_largest); if (!initialized) { *smallest = current_smallest; *largest = current_largest; initialized = true; } else { if (icmp_->Compare(current_smallest, *smallest) < 0) { *smallest = current_smallest; } if (icmp_->Compare(current_largest, *largest) > 0) { *largest = current_largest; } } } assert(initialized); } bool CompactionPicker::ExpandInputsToCleanCut(const std::string& /*cf_name*/, VersionStorageInfo* vstorage, CompactionInputFiles* inputs, InternalKey** next_smallest) { // This isn't good compaction assert(!inputs->empty()); const int level = inputs->level; // GetOverlappingInputs will always do the right thing for level-0. // So we don't need to do any expansion if level == 0. if (level == 0) { return true; } InternalKey smallest, largest; // Keep expanding inputs until we are sure that there is a "clean cut" // boundary between the files in input and the surrounding files. // This will ensure that no parts of a key are lost during compaction. int hint_index = -1; size_t old_size; do { old_size = inputs->size(); GetRange(*inputs, &smallest, &largest); inputs->clear(); vstorage->GetOverlappingInputs(level, &smallest, &largest, &inputs->files, hint_index, &hint_index, true, next_smallest); } while (inputs->size() > old_size); // we started off with inputs non-empty and the previous loop only grew // inputs. thus, inputs should be non-empty here assert(!inputs->empty()); // If, after the expansion, there are files that are already under // compaction, then we must drop/cancel this compaction. if (AreFilesInCompaction(inputs->files)) { return false; } return true; } bool CompactionPicker::RangeOverlapWithCompaction( const Slice& smallest_user_key, const Slice& largest_user_key, int level) const { const Comparator* ucmp = icmp_->user_comparator(); for (Compaction* c : compactions_in_progress_) { if (c->output_level() == level && ucmp->Compare(smallest_user_key, c->GetLargestUserKey()) <= 0 && ucmp->Compare(largest_user_key, c->GetSmallestUserKey()) >= 0) { // Overlap return true; } } // Did not overlap with any running compaction in level `level` return false; } bool CompactionPicker::FilesRangeOverlapWithCompaction( const std::vector& inputs, int level) const { bool is_empty = true; for (auto& in : inputs) { if (!in.empty()) { is_empty = false; break; } } if (is_empty) { // No files in inputs return false; } InternalKey smallest, largest; GetRange(inputs, &smallest, &largest); return RangeOverlapWithCompaction(smallest.user_key(), largest.user_key(), level); } // Returns true if any one of specified files are being compacted bool CompactionPicker::AreFilesInCompaction( const std::vector& files) { for (size_t i = 0; i < files.size(); i++) { if (files[i]->being_compacted) { return true; } } return false; } Compaction* CompactionPicker::CompactFiles( const CompactionOptions& compact_options, const std::vector& input_files, int output_level, VersionStorageInfo* vstorage, const MutableCFOptions& mutable_cf_options, uint32_t output_path_id) { assert(input_files.size()); // This compaction output should not overlap with a running compaction as // `SanitizeCompactionInputFiles` should've checked earlier and db mutex // shouldn't have been released since. assert(!FilesRangeOverlapWithCompaction(input_files, output_level)); CompressionType compression_type; if (compact_options.compression == kDisableCompressionOption) { int base_level; if (ioptions_.compaction_style == kCompactionStyleLevel) { base_level = vstorage->base_level(); } else { base_level = 1; } compression_type = GetCompressionType(ioptions_, vstorage, mutable_cf_options, output_level, base_level); } else { // TODO(ajkr): `CompactionOptions` offers configurable `CompressionType` // without configurable `CompressionOptions`, which is inconsistent. compression_type = compact_options.compression; } auto c = new Compaction( vstorage, ioptions_, mutable_cf_options, input_files, output_level, compact_options.output_file_size_limit, mutable_cf_options.max_compaction_bytes, output_path_id, compression_type, GetCompressionOptions(ioptions_, vstorage, output_level), compact_options.max_subcompactions, /* grandparents */ {}, true); RegisterCompaction(c); return c; } Status CompactionPicker::GetCompactionInputsFromFileNumbers( std::vector* input_files, std::unordered_set* input_set, const VersionStorageInfo* vstorage, const CompactionOptions& /*compact_options*/) const { if (input_set->size() == 0U) { return Status::InvalidArgument( "Compaction must include at least one file."); } assert(input_files); std::vector matched_input_files; matched_input_files.resize(vstorage->num_levels()); int first_non_empty_level = -1; int last_non_empty_level = -1; // TODO(yhchiang): use a lazy-initialized mapping from // file_number to FileMetaData in Version. for (int level = 0; level < vstorage->num_levels(); ++level) { for (auto file : vstorage->LevelFiles(level)) { auto iter = input_set->find(file->fd.GetNumber()); if (iter != input_set->end()) { matched_input_files[level].files.push_back(file); input_set->erase(iter); last_non_empty_level = level; if (first_non_empty_level == -1) { first_non_empty_level = level; } } } } if (!input_set->empty()) { std::string message( "Cannot find matched SST files for the following file numbers:"); for (auto fn : *input_set) { message += " "; message += ToString(fn); } return Status::InvalidArgument(message); } for (int level = first_non_empty_level; level <= last_non_empty_level; ++level) { matched_input_files[level].level = level; input_files->emplace_back(std::move(matched_input_files[level])); } return Status::OK(); } // Returns true if any one of the parent files are being compacted bool CompactionPicker::IsRangeInCompaction(VersionStorageInfo* vstorage, const InternalKey* smallest, const InternalKey* largest, int level, int* level_index) { std::vector inputs; assert(level < NumberLevels()); vstorage->GetOverlappingInputs(level, smallest, largest, &inputs, level_index ? *level_index : 0, level_index); return AreFilesInCompaction(inputs); } // Populates the set of inputs of all other levels that overlap with the // start level. // Now we assume all levels except start level and output level are empty. // Will also attempt to expand "start level" if that doesn't expand // "output level" or cause "level" to include a file for compaction that has an // overlapping user-key with another file. // REQUIRES: input_level and output_level are different // REQUIRES: inputs->empty() == false // Returns false if files on parent level are currently in compaction, which // means that we can't compact them bool CompactionPicker::SetupOtherInputs( const std::string& cf_name, const MutableCFOptions& mutable_cf_options, VersionStorageInfo* vstorage, CompactionInputFiles* inputs, CompactionInputFiles* output_level_inputs, int* parent_index, int base_index) { assert(!inputs->empty()); assert(output_level_inputs->empty()); const int input_level = inputs->level; const int output_level = output_level_inputs->level; if (input_level == output_level) { // no possibility of conflict return true; } // For now, we only support merging two levels, start level and output level. // We need to assert other levels are empty. for (int l = input_level + 1; l < output_level; l++) { assert(vstorage->NumLevelFiles(l) == 0); } InternalKey smallest, largest; // Get the range one last time. GetRange(*inputs, &smallest, &largest); // Populate the set of next-level files (inputs_GetOutputLevelInputs()) to // include in compaction vstorage->GetOverlappingInputs(output_level, &smallest, &largest, &output_level_inputs->files, *parent_index, parent_index); if (AreFilesInCompaction(output_level_inputs->files)) { return false; } if (!output_level_inputs->empty()) { if (!ExpandInputsToCleanCut(cf_name, vstorage, output_level_inputs)) { return false; } } // See if we can further grow the number of inputs in "level" without // changing the number of "level+1" files we pick up. We also choose NOT // to expand if this would cause "level" to include some entries for some // user key, while excluding other entries for the same user key. This // can happen when one user key spans multiple files. if (!output_level_inputs->empty()) { const uint64_t limit = mutable_cf_options.max_compaction_bytes; const uint64_t output_level_inputs_size = TotalCompensatedFileSize(output_level_inputs->files); const uint64_t inputs_size = TotalCompensatedFileSize(inputs->files); bool expand_inputs = false; CompactionInputFiles expanded_inputs; expanded_inputs.level = input_level; // Get closed interval of output level InternalKey all_start, all_limit; GetRange(*inputs, *output_level_inputs, &all_start, &all_limit); bool try_overlapping_inputs = true; vstorage->GetOverlappingInputs(input_level, &all_start, &all_limit, &expanded_inputs.files, base_index, nullptr); uint64_t expanded_inputs_size = TotalCompensatedFileSize(expanded_inputs.files); if (!ExpandInputsToCleanCut(cf_name, vstorage, &expanded_inputs)) { try_overlapping_inputs = false; } if (try_overlapping_inputs && expanded_inputs.size() > inputs->size() && output_level_inputs_size + expanded_inputs_size < limit && !AreFilesInCompaction(expanded_inputs.files)) { InternalKey new_start, new_limit; GetRange(expanded_inputs, &new_start, &new_limit); CompactionInputFiles expanded_output_level_inputs; expanded_output_level_inputs.level = output_level; vstorage->GetOverlappingInputs(output_level, &new_start, &new_limit, &expanded_output_level_inputs.files, *parent_index, parent_index); assert(!expanded_output_level_inputs.empty()); if (!AreFilesInCompaction(expanded_output_level_inputs.files) && ExpandInputsToCleanCut(cf_name, vstorage, &expanded_output_level_inputs) && expanded_output_level_inputs.size() == output_level_inputs->size()) { expand_inputs = true; } } if (!expand_inputs) { vstorage->GetCleanInputsWithinInterval(input_level, &all_start, &all_limit, &expanded_inputs.files, base_index, nullptr); expanded_inputs_size = TotalCompensatedFileSize(expanded_inputs.files); if (expanded_inputs.size() > inputs->size() && output_level_inputs_size + expanded_inputs_size < limit && !AreFilesInCompaction(expanded_inputs.files)) { expand_inputs = true; } } if (expand_inputs) { ROCKS_LOG_INFO(ioptions_.info_log, "[%s] Expanding@%d %" ROCKSDB_PRIszt "+%" ROCKSDB_PRIszt "(%" PRIu64 "+%" PRIu64 " bytes) to %" ROCKSDB_PRIszt "+%" ROCKSDB_PRIszt " (%" PRIu64 "+%" PRIu64 " bytes)\n", cf_name.c_str(), input_level, inputs->size(), output_level_inputs->size(), inputs_size, output_level_inputs_size, expanded_inputs.size(), output_level_inputs->size(), expanded_inputs_size, output_level_inputs_size); inputs->files = expanded_inputs.files; } } return true; } void CompactionPicker::GetGrandparents( VersionStorageInfo* vstorage, const CompactionInputFiles& inputs, const CompactionInputFiles& output_level_inputs, std::vector* grandparents) { InternalKey start, limit; GetRange(inputs, output_level_inputs, &start, &limit); // Compute the set of grandparent files that overlap this compaction // (parent == level+1; grandparent == level+2) if (output_level_inputs.level + 1 < NumberLevels()) { vstorage->GetOverlappingInputs(output_level_inputs.level + 1, &start, &limit, grandparents); } } Compaction* CompactionPicker::CompactRange( const std::string& cf_name, const MutableCFOptions& mutable_cf_options, VersionStorageInfo* vstorage, int input_level, int output_level, uint32_t output_path_id, uint32_t max_subcompactions, const InternalKey* begin, const InternalKey* end, InternalKey** compaction_end, bool* manual_conflict) { // CompactionPickerFIFO has its own implementation of compact range assert(ioptions_.compaction_style != kCompactionStyleFIFO); if (input_level == ColumnFamilyData::kCompactAllLevels) { assert(ioptions_.compaction_style == kCompactionStyleUniversal); // Universal compaction with more than one level always compacts all the // files together to the last level. assert(vstorage->num_levels() > 1); // DBImpl::CompactRange() set output level to be the last level if (ioptions_.allow_ingest_behind) { assert(output_level == vstorage->num_levels() - 2); } else { assert(output_level == vstorage->num_levels() - 1); } // DBImpl::RunManualCompaction will make full range for universal compaction assert(begin == nullptr); assert(end == nullptr); *compaction_end = nullptr; int start_level = 0; for (; start_level < vstorage->num_levels() && vstorage->NumLevelFiles(start_level) == 0; start_level++) { } if (start_level == vstorage->num_levels()) { return nullptr; } if ((start_level == 0) && (!level0_compactions_in_progress_.empty())) { *manual_conflict = true; // Only one level 0 compaction allowed return nullptr; } std::vector inputs(vstorage->num_levels() - start_level); for (int level = start_level; level < vstorage->num_levels(); level++) { inputs[level - start_level].level = level; auto& files = inputs[level - start_level].files; for (FileMetaData* f : vstorage->LevelFiles(level)) { files.push_back(f); } if (AreFilesInCompaction(files)) { *manual_conflict = true; return nullptr; } } // 2 non-exclusive manual compactions could run at the same time producing // overlaping outputs in the same level. if (FilesRangeOverlapWithCompaction(inputs, output_level)) { // This compaction output could potentially conflict with the output // of a currently running compaction, we cannot run it. *manual_conflict = true; return nullptr; } Compaction* c = new Compaction( vstorage, ioptions_, mutable_cf_options, std::move(inputs), output_level, MaxFileSizeForLevel(mutable_cf_options, output_level, ioptions_.compaction_style), /* max_compaction_bytes */ LLONG_MAX, output_path_id, GetCompressionType(ioptions_, vstorage, mutable_cf_options, output_level, 1), GetCompressionOptions(ioptions_, vstorage, output_level), max_subcompactions, /* grandparents */ {}, /* is manual */ true); RegisterCompaction(c); return c; } CompactionInputFiles inputs; inputs.level = input_level; bool covering_the_whole_range = true; // All files are 'overlapping' in universal style compaction. // We have to compact the entire range in one shot. if (ioptions_.compaction_style == kCompactionStyleUniversal) { begin = nullptr; end = nullptr; } vstorage->GetOverlappingInputs(input_level, begin, end, &inputs.files); if (inputs.empty()) { return nullptr; } if ((input_level == 0) && (!level0_compactions_in_progress_.empty())) { // Only one level 0 compaction allowed TEST_SYNC_POINT("CompactionPicker::CompactRange:Conflict"); *manual_conflict = true; return nullptr; } // Avoid compacting too much in one shot in case the range is large. // But we cannot do this for level-0 since level-0 files can overlap // and we must not pick one file and drop another older file if the // two files overlap. if (input_level > 0) { const uint64_t limit = mutable_cf_options.max_compaction_bytes; uint64_t total = 0; for (size_t i = 0; i + 1 < inputs.size(); ++i) { uint64_t s = inputs[i]->compensated_file_size; total += s; if (total >= limit) { covering_the_whole_range = false; inputs.files.resize(i + 1); break; } } } assert(output_path_id < static_cast(ioptions_.cf_paths.size())); InternalKey key_storage; InternalKey* next_smallest = &key_storage; if (ExpandInputsToCleanCut(cf_name, vstorage, &inputs, &next_smallest) == false) { // manual compaction is now multi-threaded, so it can // happen that ExpandWhileOverlapping fails // we handle it higher in RunManualCompaction *manual_conflict = true; return nullptr; } if (covering_the_whole_range || !next_smallest) { *compaction_end = nullptr; } else { **compaction_end = *next_smallest; } CompactionInputFiles output_level_inputs; if (output_level == ColumnFamilyData::kCompactToBaseLevel) { assert(input_level == 0); output_level = vstorage->base_level(); assert(output_level > 0); } output_level_inputs.level = output_level; if (input_level != output_level) { int parent_index = -1; if (!SetupOtherInputs(cf_name, mutable_cf_options, vstorage, &inputs, &output_level_inputs, &parent_index, -1)) { // manual compaction is now multi-threaded, so it can // happen that SetupOtherInputs fails // we handle it higher in RunManualCompaction *manual_conflict = true; return nullptr; } } std::vector compaction_inputs({inputs}); if (!output_level_inputs.empty()) { compaction_inputs.push_back(output_level_inputs); } for (size_t i = 0; i < compaction_inputs.size(); i++) { if (AreFilesInCompaction(compaction_inputs[i].files)) { *manual_conflict = true; return nullptr; } } // 2 non-exclusive manual compactions could run at the same time producing // overlaping outputs in the same level. if (FilesRangeOverlapWithCompaction(compaction_inputs, output_level)) { // This compaction output could potentially conflict with the output // of a currently running compaction, we cannot run it. *manual_conflict = true; return nullptr; } std::vector grandparents; GetGrandparents(vstorage, inputs, output_level_inputs, &grandparents); Compaction* compaction = new Compaction( vstorage, ioptions_, mutable_cf_options, std::move(compaction_inputs), output_level, MaxFileSizeForLevel(mutable_cf_options, output_level, ioptions_.compaction_style, vstorage->base_level(), ioptions_.level_compaction_dynamic_level_bytes), mutable_cf_options.max_compaction_bytes, output_path_id, GetCompressionType(ioptions_, vstorage, mutable_cf_options, output_level, vstorage->base_level()), GetCompressionOptions(ioptions_, vstorage, output_level), max_subcompactions, std::move(grandparents), /* is manual compaction */ true); TEST_SYNC_POINT_CALLBACK("CompactionPicker::CompactRange:Return", compaction); RegisterCompaction(compaction); // Creating a compaction influences the compaction score because the score // takes running compactions into account (by skipping files that are already // being compacted). Since we just changed compaction score, we recalculate it // here vstorage->ComputeCompactionScore(ioptions_, mutable_cf_options); return compaction; } #ifndef ROCKSDB_LITE namespace { // Test whether two files have overlapping key-ranges. bool HaveOverlappingKeyRanges(const Comparator* c, const SstFileMetaData& a, const SstFileMetaData& b) { if (c->Compare(a.smallestkey, b.smallestkey) >= 0) { if (c->Compare(a.smallestkey, b.largestkey) <= 0) { // b.smallestkey <= a.smallestkey <= b.largestkey return true; } } else if (c->Compare(a.largestkey, b.smallestkey) >= 0) { // a.smallestkey < b.smallestkey <= a.largestkey return true; } if (c->Compare(a.largestkey, b.largestkey) <= 0) { if (c->Compare(a.largestkey, b.smallestkey) >= 0) { // b.smallestkey <= a.largestkey <= b.largestkey return true; } } else if (c->Compare(a.smallestkey, b.largestkey) <= 0) { // a.smallestkey <= b.largestkey < a.largestkey return true; } return false; } } // namespace Status CompactionPicker::SanitizeCompactionInputFilesForAllLevels( std::unordered_set* input_files, const ColumnFamilyMetaData& cf_meta, const int output_level) const { auto& levels = cf_meta.levels; auto comparator = icmp_->user_comparator(); // TODO(yhchiang): add is_adjustable to CompactionOptions // the smallest and largest key of the current compaction input std::string smallestkey; std::string largestkey; // a flag for initializing smallest and largest key bool is_first = false; const int kNotFound = -1; // For each level, it does the following things: // 1. Find the first and the last compaction input files // in the current level. // 2. Include all files between the first and the last // compaction input files. // 3. Update the compaction key-range. // 4. For all remaining levels, include files that have // overlapping key-range with the compaction key-range. for (int l = 0; l <= output_level; ++l) { auto& current_files = levels[l].files; int first_included = static_cast(current_files.size()); int last_included = kNotFound; // identify the first and the last compaction input files // in the current level. for (size_t f = 0; f < current_files.size(); ++f) { if (input_files->find(TableFileNameToNumber(current_files[f].name)) != input_files->end()) { first_included = std::min(first_included, static_cast(f)); last_included = std::max(last_included, static_cast(f)); if (is_first == false) { smallestkey = current_files[f].smallestkey; largestkey = current_files[f].largestkey; is_first = true; } } } if (last_included == kNotFound) { continue; } if (l != 0) { // expend the compaction input of the current level if it // has overlapping key-range with other non-compaction input // files in the same level. while (first_included > 0) { if (comparator->Compare(current_files[first_included - 1].largestkey, current_files[first_included].smallestkey) < 0) { break; } first_included--; } while (last_included < static_cast(current_files.size()) - 1) { if (comparator->Compare(current_files[last_included + 1].smallestkey, current_files[last_included].largestkey) > 0) { break; } last_included++; } } else if (output_level > 0) { last_included = static_cast(current_files.size() - 1); } // include all files between the first and the last compaction input files. for (int f = first_included; f <= last_included; ++f) { if (current_files[f].being_compacted) { return Status::Aborted("Necessary compaction input file " + current_files[f].name + " is currently being compacted."); } input_files->insert(TableFileNameToNumber(current_files[f].name)); } // update smallest and largest key if (l == 0) { for (int f = first_included; f <= last_included; ++f) { if (comparator->Compare(smallestkey, current_files[f].smallestkey) > 0) { smallestkey = current_files[f].smallestkey; } if (comparator->Compare(largestkey, current_files[f].largestkey) < 0) { largestkey = current_files[f].largestkey; } } } else { if (comparator->Compare(smallestkey, current_files[first_included].smallestkey) > 0) { smallestkey = current_files[first_included].smallestkey; } if (comparator->Compare(largestkey, current_files[last_included].largestkey) < 0) { largestkey = current_files[last_included].largestkey; } } SstFileMetaData aggregated_file_meta; aggregated_file_meta.smallestkey = smallestkey; aggregated_file_meta.largestkey = largestkey; // For all lower levels, include all overlapping files. // We need to add overlapping files from the current level too because even // if there no input_files in level l, we would still need to add files // which overlap with the range containing the input_files in levels 0 to l // Level 0 doesn't need to be handled this way because files are sorted by // time and not by key for (int m = std::max(l, 1); m <= output_level; ++m) { for (auto& next_lv_file : levels[m].files) { if (HaveOverlappingKeyRanges(comparator, aggregated_file_meta, next_lv_file)) { if (next_lv_file.being_compacted) { return Status::Aborted( "File " + next_lv_file.name + " that has overlapping key range with one of the compaction " " input file is currently being compacted."); } input_files->insert(TableFileNameToNumber(next_lv_file.name)); } } } } if (RangeOverlapWithCompaction(smallestkey, largestkey, output_level)) { return Status::Aborted( "A running compaction is writing to the same output level in an " "overlapping key range"); } return Status::OK(); } Status CompactionPicker::SanitizeCompactionInputFiles( std::unordered_set* input_files, const ColumnFamilyMetaData& cf_meta, const int output_level) const { assert(static_cast(cf_meta.levels.size()) - 1 == cf_meta.levels[cf_meta.levels.size() - 1].level); if (output_level >= static_cast(cf_meta.levels.size())) { return Status::InvalidArgument( "Output level for column family " + cf_meta.name + " must between [0, " + ToString(cf_meta.levels[cf_meta.levels.size() - 1].level) + "]."); } if (output_level > MaxOutputLevel()) { return Status::InvalidArgument( "Exceed the maximum output level defined by " "the current compaction algorithm --- " + ToString(MaxOutputLevel())); } if (output_level < 0) { return Status::InvalidArgument("Output level cannot be negative."); } if (input_files->size() == 0) { return Status::InvalidArgument( "A compaction must contain at least one file."); } Status s = SanitizeCompactionInputFilesForAllLevels(input_files, cf_meta, output_level); if (!s.ok()) { return s; } // for all input files, check whether the file number matches // any currently-existing files. for (auto file_num : *input_files) { bool found = false; for (auto level_meta : cf_meta.levels) { for (auto file_meta : level_meta.files) { if (file_num == TableFileNameToNumber(file_meta.name)) { if (file_meta.being_compacted) { return Status::Aborted("Specified compaction input file " + MakeTableFileName("", file_num) + " is already being compacted."); } found = true; break; } } if (found) { break; } } if (!found) { return Status::InvalidArgument( "Specified compaction input file " + MakeTableFileName("", file_num) + " does not exist in column family " + cf_meta.name + "."); } } return Status::OK(); } #endif // !ROCKSDB_LITE void CompactionPicker::RegisterCompaction(Compaction* c) { if (c == nullptr) { return; } assert(ioptions_.compaction_style != kCompactionStyleLevel || c->output_level() == 0 || !FilesRangeOverlapWithCompaction(*c->inputs(), c->output_level())); if (c->start_level() == 0 || ioptions_.compaction_style == kCompactionStyleUniversal) { level0_compactions_in_progress_.insert(c); } compactions_in_progress_.insert(c); } void CompactionPicker::UnregisterCompaction(Compaction* c) { if (c == nullptr) { return; } if (c->start_level() == 0 || ioptions_.compaction_style == kCompactionStyleUniversal) { level0_compactions_in_progress_.erase(c); } compactions_in_progress_.erase(c); } void CompactionPicker::PickFilesMarkedForCompaction( const std::string& cf_name, VersionStorageInfo* vstorage, int* start_level, int* output_level, CompactionInputFiles* start_level_inputs) { if (vstorage->FilesMarkedForCompaction().empty()) { return; } auto continuation = [&, cf_name](std::pair level_file) { // If it's being compacted it has nothing to do here. // If this assert() fails that means that some function marked some // files as being_compacted, but didn't call ComputeCompactionScore() assert(!level_file.second->being_compacted); *start_level = level_file.first; *output_level = (*start_level == 0) ? vstorage->base_level() : *start_level + 1; if (*start_level == 0 && !level0_compactions_in_progress()->empty()) { return false; } start_level_inputs->files = {level_file.second}; start_level_inputs->level = *start_level; return ExpandInputsToCleanCut(cf_name, vstorage, start_level_inputs); }; // take a chance on a random file first Random64 rnd(/* seed */ reinterpret_cast(vstorage)); size_t random_file_index = static_cast(rnd.Uniform( static_cast(vstorage->FilesMarkedForCompaction().size()))); if (continuation(vstorage->FilesMarkedForCompaction()[random_file_index])) { // found the compaction! return; } for (auto& level_file : vstorage->FilesMarkedForCompaction()) { if (continuation(level_file)) { // found the compaction! return; } } start_level_inputs->files.clear(); } bool CompactionPicker::GetOverlappingL0Files( VersionStorageInfo* vstorage, CompactionInputFiles* start_level_inputs, int output_level, int* parent_index) { // Two level 0 compaction won't run at the same time, so don't need to worry // about files on level 0 being compacted. assert(level0_compactions_in_progress()->empty()); InternalKey smallest, largest; GetRange(*start_level_inputs, &smallest, &largest); // Note that the next call will discard the file we placed in // c->inputs_[0] earlier and replace it with an overlapping set // which will include the picked file. start_level_inputs->files.clear(); vstorage->GetOverlappingInputs(0, &smallest, &largest, &(start_level_inputs->files)); // If we include more L0 files in the same compaction run it can // cause the 'smallest' and 'largest' key to get extended to a // larger range. So, re-invoke GetRange to get the new key range GetRange(*start_level_inputs, &smallest, &largest); if (IsRangeInCompaction(vstorage, &smallest, &largest, output_level, parent_index)) { return false; } assert(!start_level_inputs->files.empty()); return true; } bool LevelCompactionPicker::NeedsCompaction( const VersionStorageInfo* vstorage) const { if (!vstorage->ExpiredTtlFiles().empty()) { return true; } if (!vstorage->BottommostFilesMarkedForCompaction().empty()) { return true; } if (!vstorage->FilesMarkedForCompaction().empty()) { return true; } for (int i = 0; i <= vstorage->MaxInputLevel(); i++) { if (vstorage->CompactionScore(i) >= 1) { return true; } } return false; } namespace { // A class to build a leveled compaction step-by-step. class LevelCompactionBuilder { public: LevelCompactionBuilder(const std::string& cf_name, VersionStorageInfo* vstorage, CompactionPicker* compaction_picker, LogBuffer* log_buffer, const MutableCFOptions& mutable_cf_options, const ImmutableCFOptions& ioptions) : cf_name_(cf_name), vstorage_(vstorage), compaction_picker_(compaction_picker), log_buffer_(log_buffer), mutable_cf_options_(mutable_cf_options), ioptions_(ioptions) {} // Pick and return a compaction. Compaction* PickCompaction(); // Pick the initial files to compact to the next level. (or together // in Intra-L0 compactions) void SetupInitialFiles(); // If the initial files are from L0 level, pick other L0 // files if needed. bool SetupOtherL0FilesIfNeeded(); // Based on initial files, setup other files need to be compacted // in this compaction, accordingly. bool SetupOtherInputsIfNeeded(); Compaction* GetCompaction(); // For the specfied level, pick a file that we want to compact. // Returns false if there is no file to compact. // If it returns true, inputs->files.size() will be exactly one. // If level is 0 and there is already a compaction on that level, this // function will return false. bool PickFileToCompact(); // For L0->L0, picks the longest span of files that aren't currently // undergoing compaction for which work-per-deleted-file decreases. The span // always starts from the newest L0 file. // // Intra-L0 compaction is independent of all other files, so it can be // performed even when L0->base_level compactions are blocked. // // Returns true if `inputs` is populated with a span of files to be compacted; // otherwise, returns false. bool PickIntraL0Compaction(); void PickExpiredTtlFiles(); const std::string& cf_name_; VersionStorageInfo* vstorage_; CompactionPicker* compaction_picker_; LogBuffer* log_buffer_; int start_level_ = -1; int output_level_ = -1; int parent_index_ = -1; int base_index_ = -1; double start_level_score_ = 0; bool is_manual_ = false; CompactionInputFiles start_level_inputs_; std::vector compaction_inputs_; CompactionInputFiles output_level_inputs_; std::vector grandparents_; CompactionReason compaction_reason_ = CompactionReason::kUnknown; const MutableCFOptions& mutable_cf_options_; const ImmutableCFOptions& ioptions_; // Pick a path ID to place a newly generated file, with its level static uint32_t GetPathId(const ImmutableCFOptions& ioptions, const MutableCFOptions& mutable_cf_options, int level); static const int kMinFilesForIntraL0Compaction = 4; }; void LevelCompactionBuilder::PickExpiredTtlFiles() { if (vstorage_->ExpiredTtlFiles().empty()) { return; } auto continuation = [&](std::pair level_file) { // If it's being compacted it has nothing to do here. // If this assert() fails that means that some function marked some // files as being_compacted, but didn't call ComputeCompactionScore() assert(!level_file.second->being_compacted); start_level_ = level_file.first; output_level_ = (start_level_ == 0) ? vstorage_->base_level() : start_level_ + 1; if ((start_level_ == vstorage_->num_non_empty_levels() - 1) || (start_level_ == 0 && !compaction_picker_->level0_compactions_in_progress()->empty())) { return false; } start_level_inputs_.files = {level_file.second}; start_level_inputs_.level = start_level_; return compaction_picker_->ExpandInputsToCleanCut(cf_name_, vstorage_, &start_level_inputs_); }; for (auto& level_file : vstorage_->ExpiredTtlFiles()) { if (continuation(level_file)) { // found the compaction! return; } } start_level_inputs_.files.clear(); } void LevelCompactionBuilder::SetupInitialFiles() { // Find the compactions by size on all levels. bool skipped_l0_to_base = false; for (int i = 0; i < compaction_picker_->NumberLevels() - 1; i++) { start_level_score_ = vstorage_->CompactionScore(i); start_level_ = vstorage_->CompactionScoreLevel(i); assert(i == 0 || start_level_score_ <= vstorage_->CompactionScore(i - 1)); if (start_level_score_ >= 1) { if (skipped_l0_to_base && start_level_ == vstorage_->base_level()) { // If L0->base_level compaction is pending, don't schedule further // compaction from base level. Otherwise L0->base_level compaction // may starve. continue; } output_level_ = (start_level_ == 0) ? vstorage_->base_level() : start_level_ + 1; if (PickFileToCompact()) { // found the compaction! if (start_level_ == 0) { // L0 score = `num L0 files` / `level0_file_num_compaction_trigger` compaction_reason_ = CompactionReason::kLevelL0FilesNum; } else { // L1+ score = `Level files size` / `MaxBytesForLevel` compaction_reason_ = CompactionReason::kLevelMaxLevelSize; } break; } else { // didn't find the compaction, clear the inputs start_level_inputs_.clear(); if (start_level_ == 0) { skipped_l0_to_base = true; // L0->base_level may be blocked due to ongoing L0->base_level // compactions. It may also be blocked by an ongoing compaction from // base_level downwards. // // In these cases, to reduce L0 file count and thus reduce likelihood // of write stalls, we can attempt compacting a span of files within // L0. if (PickIntraL0Compaction()) { output_level_ = 0; compaction_reason_ = CompactionReason::kLevelL0FilesNum; break; } } } } } // if we didn't find a compaction, check if there are any files marked for // compaction if (start_level_inputs_.empty()) { parent_index_ = base_index_ = -1; // PickFilesMarkedForCompaction(); compaction_picker_->PickFilesMarkedForCompaction( cf_name_, vstorage_, &start_level_, &output_level_, &start_level_inputs_); if (!start_level_inputs_.empty()) { is_manual_ = true; compaction_reason_ = CompactionReason::kFilesMarkedForCompaction; return; } size_t i; for (i = 0; i < vstorage_->BottommostFilesMarkedForCompaction().size(); ++i) { auto& level_and_file = vstorage_->BottommostFilesMarkedForCompaction()[i]; assert(!level_and_file.second->being_compacted); start_level_inputs_.level = output_level_ = start_level_ = level_and_file.first; start_level_inputs_.files = {level_and_file.second}; if (compaction_picker_->ExpandInputsToCleanCut(cf_name_, vstorage_, &start_level_inputs_)) { break; } } if (i == vstorage_->BottommostFilesMarkedForCompaction().size()) { start_level_inputs_.clear(); } else { assert(!start_level_inputs_.empty()); compaction_reason_ = CompactionReason::kBottommostFiles; return; } assert(start_level_inputs_.empty()); PickExpiredTtlFiles(); if (!start_level_inputs_.empty()) { compaction_reason_ = CompactionReason::kTtl; } } } bool LevelCompactionBuilder::SetupOtherL0FilesIfNeeded() { if (start_level_ == 0 && output_level_ != 0) { return compaction_picker_->GetOverlappingL0Files( vstorage_, &start_level_inputs_, output_level_, &parent_index_); } return true; } bool LevelCompactionBuilder::SetupOtherInputsIfNeeded() { // Setup input files from output level. For output to L0, we only compact // spans of files that do not interact with any pending compactions, so don't // need to consider other levels. if (output_level_ != 0) { output_level_inputs_.level = output_level_; if (!compaction_picker_->SetupOtherInputs( cf_name_, mutable_cf_options_, vstorage_, &start_level_inputs_, &output_level_inputs_, &parent_index_, base_index_)) { return false; } compaction_inputs_.push_back(start_level_inputs_); if (!output_level_inputs_.empty()) { compaction_inputs_.push_back(output_level_inputs_); } // In some edge cases we could pick a compaction that will be compacting // a key range that overlap with another running compaction, and both // of them have the same output level. This could happen if // (1) we are running a non-exclusive manual compaction // (2) AddFile ingest a new file into the LSM tree // We need to disallow this from happening. if (compaction_picker_->FilesRangeOverlapWithCompaction(compaction_inputs_, output_level_)) { // This compaction output could potentially conflict with the output // of a currently running compaction, we cannot run it. return false; } compaction_picker_->GetGrandparents(vstorage_, start_level_inputs_, output_level_inputs_, &grandparents_); } else { compaction_inputs_.push_back(start_level_inputs_); } return true; } Compaction* LevelCompactionBuilder::PickCompaction() { // Pick up the first file to start compaction. It may have been extended // to a clean cut. SetupInitialFiles(); if (start_level_inputs_.empty()) { return nullptr; } assert(start_level_ >= 0 && output_level_ >= 0); // If it is a L0 -> base level compaction, we need to set up other L0 // files if needed. if (!SetupOtherL0FilesIfNeeded()) { return nullptr; } // Pick files in the output level and expand more files in the start level // if needed. if (!SetupOtherInputsIfNeeded()) { return nullptr; } // Form a compaction object containing the files we picked. Compaction* c = GetCompaction(); TEST_SYNC_POINT_CALLBACK("LevelCompactionPicker::PickCompaction:Return", c); return c; } Compaction* LevelCompactionBuilder::GetCompaction() { auto c = new Compaction( vstorage_, ioptions_, mutable_cf_options_, std::move(compaction_inputs_), output_level_, MaxFileSizeForLevel(mutable_cf_options_, output_level_, ioptions_.compaction_style, vstorage_->base_level(), ioptions_.level_compaction_dynamic_level_bytes), mutable_cf_options_.max_compaction_bytes, GetPathId(ioptions_, mutable_cf_options_, output_level_), GetCompressionType(ioptions_, vstorage_, mutable_cf_options_, output_level_, vstorage_->base_level()), GetCompressionOptions(ioptions_, vstorage_, output_level_), /* max_subcompactions */ 0, std::move(grandparents_), is_manual_, start_level_score_, false /* deletion_compaction */, compaction_reason_); // If it's level 0 compaction, make sure we don't execute any other level 0 // compactions in parallel compaction_picker_->RegisterCompaction(c); // Creating a compaction influences the compaction score because the score // takes running compactions into account (by skipping files that are already // being compacted). Since we just changed compaction score, we recalculate it // here vstorage_->ComputeCompactionScore(ioptions_, mutable_cf_options_); return c; } /* * Find the optimal path to place a file * Given a level, finds the path where levels up to it will fit in levels * up to and including this path */ uint32_t LevelCompactionBuilder::GetPathId( const ImmutableCFOptions& ioptions, const MutableCFOptions& mutable_cf_options, int level) { uint32_t p = 0; assert(!ioptions.cf_paths.empty()); // size remaining in the most recent path uint64_t current_path_size = ioptions.cf_paths[0].target_size; uint64_t level_size; int cur_level = 0; // max_bytes_for_level_base denotes L1 size. // We estimate L0 size to be the same as L1. level_size = mutable_cf_options.max_bytes_for_level_base; // Last path is the fallback while (p < ioptions.cf_paths.size() - 1) { if (level_size <= current_path_size) { if (cur_level == level) { // Does desired level fit in this path? return p; } else { current_path_size -= level_size; if (cur_level > 0) { if (ioptions.level_compaction_dynamic_level_bytes) { // Currently, level_compaction_dynamic_level_bytes is ignored when // multiple db paths are specified. https://github.com/facebook/ // rocksdb/blob/master/db/column_family.cc. // Still, adding this check to avoid accidentally using // max_bytes_for_level_multiplier_additional level_size = static_cast( level_size * mutable_cf_options.max_bytes_for_level_multiplier); } else { level_size = static_cast( level_size * mutable_cf_options.max_bytes_for_level_multiplier * mutable_cf_options.MaxBytesMultiplerAdditional(cur_level)); } } cur_level++; continue; } } p++; current_path_size = ioptions.cf_paths[p].target_size; } return p; } bool LevelCompactionBuilder::PickFileToCompact() { // level 0 files are overlapping. So we cannot pick more // than one concurrent compactions at this level. This // could be made better by looking at key-ranges that are // being compacted at level 0. if (start_level_ == 0 && !compaction_picker_->level0_compactions_in_progress()->empty()) { TEST_SYNC_POINT("LevelCompactionPicker::PickCompactionBySize:0"); return false; } start_level_inputs_.clear(); assert(start_level_ >= 0); // Pick the largest file in this level that is not already // being compacted const std::vector& file_size = vstorage_->FilesByCompactionPri(start_level_); const std::vector& level_files = vstorage_->LevelFiles(start_level_); unsigned int cmp_idx; for (cmp_idx = vstorage_->NextCompactionIndex(start_level_); cmp_idx < file_size.size(); cmp_idx++) { int index = file_size[cmp_idx]; auto* f = level_files[index]; // do not pick a file to compact if it is being compacted // from n-1 level. if (f->being_compacted) { continue; } start_level_inputs_.files.push_back(f); start_level_inputs_.level = start_level_; if (!compaction_picker_->ExpandInputsToCleanCut(cf_name_, vstorage_, &start_level_inputs_) || compaction_picker_->FilesRangeOverlapWithCompaction( {start_level_inputs_}, output_level_)) { // A locked (pending compaction) input-level file was pulled in due to // user-key overlap. start_level_inputs_.clear(); continue; } // Now that input level is fully expanded, we check whether any output files // are locked due to pending compaction. // // Note we rely on ExpandInputsToCleanCut() to tell us whether any output- // level files are locked, not just the extra ones pulled in for user-key // overlap. InternalKey smallest, largest; compaction_picker_->GetRange(start_level_inputs_, &smallest, &largest); CompactionInputFiles output_level_inputs; output_level_inputs.level = output_level_; vstorage_->GetOverlappingInputs(output_level_, &smallest, &largest, &output_level_inputs.files); if (!output_level_inputs.empty() && !compaction_picker_->ExpandInputsToCleanCut(cf_name_, vstorage_, &output_level_inputs)) { start_level_inputs_.clear(); continue; } base_index_ = index; break; } // store where to start the iteration in the next call to PickCompaction vstorage_->SetNextCompactionIndex(start_level_, cmp_idx); return start_level_inputs_.size() > 0; } bool LevelCompactionBuilder::PickIntraL0Compaction() { start_level_inputs_.clear(); const std::vector& level_files = vstorage_->LevelFiles(0 /* level */); if (level_files.size() < static_cast( mutable_cf_options_.level0_file_num_compaction_trigger + 2) || level_files[0]->being_compacted) { // If L0 isn't accumulating much files beyond the regular trigger, don't // resort to L0->L0 compaction yet. return false; } return FindIntraL0Compaction(level_files, kMinFilesForIntraL0Compaction, port::kMaxUint64, &start_level_inputs_); } } // namespace Compaction* LevelCompactionPicker::PickCompaction( const std::string& cf_name, const MutableCFOptions& mutable_cf_options, VersionStorageInfo* vstorage, LogBuffer* log_buffer) { LevelCompactionBuilder builder(cf_name, vstorage, this, log_buffer, mutable_cf_options, ioptions_); return builder.PickCompaction(); } #ifndef ROCKSDB_LITE bool FIFOCompactionPicker::NeedsCompaction( const VersionStorageInfo* vstorage) const { const int kLevel0 = 0; return vstorage->CompactionScore(kLevel0) >= 1; } namespace { uint64_t GetTotalFilesSize( const std::vector& files) { uint64_t total_size = 0; for (const auto& f : files) { total_size += f->fd.file_size; } return total_size; } } // anonymous namespace Compaction* FIFOCompactionPicker::PickTTLCompaction( const std::string& cf_name, const MutableCFOptions& mutable_cf_options, VersionStorageInfo* vstorage, LogBuffer* log_buffer) { assert(mutable_cf_options.compaction_options_fifo.ttl > 0); const int kLevel0 = 0; const std::vector& level_files = vstorage->LevelFiles(kLevel0); uint64_t total_size = GetTotalFilesSize(level_files); int64_t _current_time; auto status = ioptions_.env->GetCurrentTime(&_current_time); if (!status.ok()) { ROCKS_LOG_BUFFER(log_buffer, "[%s] FIFO compaction: Couldn't get current time: %s. " "Not doing compactions based on TTL. ", cf_name.c_str(), status.ToString().c_str()); return nullptr; } const uint64_t current_time = static_cast(_current_time); std::vector inputs; inputs.emplace_back(); inputs[0].level = 0; // avoid underflow if (current_time > mutable_cf_options.compaction_options_fifo.ttl) { for (auto ritr = level_files.rbegin(); ritr != level_files.rend(); ++ritr) { auto f = *ritr; if (f->fd.table_reader != nullptr && f->fd.table_reader->GetTableProperties() != nullptr) { auto creation_time = f->fd.table_reader->GetTableProperties()->creation_time; if (creation_time == 0 || creation_time >= (current_time - mutable_cf_options.compaction_options_fifo.ttl)) { break; } total_size -= f->compensated_file_size; inputs[0].files.push_back(f); } } } // Return a nullptr and proceed to size-based FIFO compaction if: // 1. there are no files older than ttl OR // 2. there are a few files older than ttl, but deleting them will not bring // the total size to be less than max_table_files_size threshold. if (inputs[0].files.empty() || total_size > mutable_cf_options.compaction_options_fifo.max_table_files_size) { return nullptr; } for (const auto& f : inputs[0].files) { ROCKS_LOG_BUFFER(log_buffer, "[%s] FIFO compaction: picking file %" PRIu64 " with creation time %" PRIu64 " for deletion", cf_name.c_str(), f->fd.GetNumber(), f->fd.table_reader->GetTableProperties()->creation_time); } Compaction* c = new Compaction( vstorage, ioptions_, mutable_cf_options, std::move(inputs), 0, 0, 0, 0, kNoCompression, ioptions_.compression_opts, /* max_subcompactions */ 0, {}, /* is manual */ false, vstorage->CompactionScore(0), /* is deletion compaction */ true, CompactionReason::kFIFOTtl); return c; } Compaction* FIFOCompactionPicker::PickSizeCompaction( const std::string& cf_name, const MutableCFOptions& mutable_cf_options, VersionStorageInfo* vstorage, LogBuffer* log_buffer) { const int kLevel0 = 0; const std::vector& level_files = vstorage->LevelFiles(kLevel0); uint64_t total_size = GetTotalFilesSize(level_files); if (total_size <= mutable_cf_options.compaction_options_fifo.max_table_files_size || level_files.size() == 0) { // total size not exceeded if (mutable_cf_options.compaction_options_fifo.allow_compaction && level_files.size() > 0) { CompactionInputFiles comp_inputs; // try to prevent same files from being compacted multiple times, which // could produce large files that may never TTL-expire. Achieve this by // disallowing compactions with files larger than memtable (inflate its // size by 10% to account for uncompressed L0 files that may have size // slightly greater than memtable size limit). size_t max_compact_bytes_per_del_file = static_cast(MultiplyCheckOverflow( static_cast(mutable_cf_options.write_buffer_size), 1.1)); if (FindIntraL0Compaction( level_files, mutable_cf_options .level0_file_num_compaction_trigger /* min_files_to_compact */ , max_compact_bytes_per_del_file, &comp_inputs)) { Compaction* c = new Compaction( vstorage, ioptions_, mutable_cf_options, {comp_inputs}, 0, 16 * 1024 * 1024 /* output file size limit */, 0 /* max compaction bytes, not applicable */, 0 /* output path ID */, mutable_cf_options.compression, ioptions_.compression_opts, 0 /* max_subcompactions */, {}, /* is manual */ false, vstorage->CompactionScore(0), /* is deletion compaction */ false, CompactionReason::kFIFOReduceNumFiles); return c; } } ROCKS_LOG_BUFFER( log_buffer, "[%s] FIFO compaction: nothing to do. Total size %" PRIu64 ", max size %" PRIu64 "\n", cf_name.c_str(), total_size, mutable_cf_options.compaction_options_fifo.max_table_files_size); return nullptr; } if (!level0_compactions_in_progress_.empty()) { ROCKS_LOG_BUFFER( log_buffer, "[%s] FIFO compaction: Already executing compaction. No need " "to run parallel compactions since compactions are very fast", cf_name.c_str()); return nullptr; } std::vector inputs; inputs.emplace_back(); inputs[0].level = 0; for (auto ritr = level_files.rbegin(); ritr != level_files.rend(); ++ritr) { auto f = *ritr; total_size -= f->compensated_file_size; inputs[0].files.push_back(f); char tmp_fsize[16]; AppendHumanBytes(f->fd.GetFileSize(), tmp_fsize, sizeof(tmp_fsize)); ROCKS_LOG_BUFFER(log_buffer, "[%s] FIFO compaction: picking file %" PRIu64 " with size %s for deletion", cf_name.c_str(), f->fd.GetNumber(), tmp_fsize); if (total_size <= mutable_cf_options.compaction_options_fifo.max_table_files_size) { break; } } Compaction* c = new Compaction( vstorage, ioptions_, mutable_cf_options, std::move(inputs), 0, 0, 0, 0, kNoCompression, ioptions_.compression_opts, /* max_subcompactions */ 0, {}, /* is manual */ false, vstorage->CompactionScore(0), /* is deletion compaction */ true, CompactionReason::kFIFOMaxSize); return c; } Compaction* FIFOCompactionPicker::PickCompaction( const std::string& cf_name, const MutableCFOptions& mutable_cf_options, VersionStorageInfo* vstorage, LogBuffer* log_buffer) { assert(vstorage->num_levels() == 1); Compaction* c = nullptr; if (mutable_cf_options.compaction_options_fifo.ttl > 0) { c = PickTTLCompaction(cf_name, mutable_cf_options, vstorage, log_buffer); } if (c == nullptr) { c = PickSizeCompaction(cf_name, mutable_cf_options, vstorage, log_buffer); } RegisterCompaction(c); return c; } Compaction* FIFOCompactionPicker::CompactRange( const std::string& cf_name, const MutableCFOptions& mutable_cf_options, VersionStorageInfo* vstorage, int input_level, int output_level, uint32_t /*output_path_id*/, uint32_t /*max_subcompactions*/, const InternalKey* /*begin*/, const InternalKey* /*end*/, InternalKey** compaction_end, bool* /*manual_conflict*/) { #ifdef NDEBUG (void)input_level; (void)output_level; #endif assert(input_level == 0); assert(output_level == 0); *compaction_end = nullptr; LogBuffer log_buffer(InfoLogLevel::INFO_LEVEL, ioptions_.info_log); Compaction* c = PickCompaction(cf_name, mutable_cf_options, vstorage, &log_buffer); log_buffer.FlushBufferToLog(); return c; } #endif // !ROCKSDB_LITE } // namespace rocksdb rocksdb-5.17.2/db/compaction_picker.h000066400000000000000000000332671337235545400175120ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #include #include #include #include #include #include "db/compaction.h" #include "db/version_set.h" #include "options/cf_options.h" #include "rocksdb/env.h" #include "rocksdb/options.h" #include "rocksdb/status.h" namespace rocksdb { class LogBuffer; class Compaction; class VersionStorageInfo; struct CompactionInputFiles; class CompactionPicker { public: CompactionPicker(const ImmutableCFOptions& ioptions, const InternalKeyComparator* icmp); virtual ~CompactionPicker(); // Pick level and inputs for a new compaction. // Returns nullptr if there is no compaction to be done. // Otherwise returns a pointer to a heap-allocated object that // describes the compaction. Caller should delete the result. virtual Compaction* PickCompaction(const std::string& cf_name, const MutableCFOptions& mutable_cf_options, VersionStorageInfo* vstorage, LogBuffer* log_buffer) = 0; // Return a compaction object for compacting the range [begin,end] in // the specified level. Returns nullptr if there is nothing in that // level that overlaps the specified range. Caller should delete // the result. // // The returned Compaction might not include the whole requested range. // In that case, compaction_end will be set to the next key that needs // compacting. In case the compaction will compact the whole range, // compaction_end will be set to nullptr. // Client is responsible for compaction_end storage -- when called, // *compaction_end should point to valid InternalKey! virtual Compaction* CompactRange( const std::string& cf_name, const MutableCFOptions& mutable_cf_options, VersionStorageInfo* vstorage, int input_level, int output_level, uint32_t output_path_id, uint32_t max_subcompactions, const InternalKey* begin, const InternalKey* end, InternalKey** compaction_end, bool* manual_conflict); // The maximum allowed output level. Default value is NumberLevels() - 1. virtual int MaxOutputLevel() const { return NumberLevels() - 1; } virtual bool NeedsCompaction(const VersionStorageInfo* vstorage) const = 0; // Sanitize the input set of compaction input files. // When the input parameters do not describe a valid compaction, the // function will try to fix the input_files by adding necessary // files. If it's not possible to conver an invalid input_files // into a valid one by adding more files, the function will return a // non-ok status with specific reason. #ifndef ROCKSDB_LITE Status SanitizeCompactionInputFiles(std::unordered_set* input_files, const ColumnFamilyMetaData& cf_meta, const int output_level) const; #endif // ROCKSDB_LITE // Free up the files that participated in a compaction // // Requirement: DB mutex held void ReleaseCompactionFiles(Compaction* c, Status status); // Returns true if any one of the specified files are being compacted bool AreFilesInCompaction(const std::vector& files); // Takes a list of CompactionInputFiles and returns a (manual) Compaction // object. // // Caller must provide a set of input files that has been passed through // `SanitizeCompactionInputFiles` earlier. The lock should not be released // between that call and this one. Compaction* CompactFiles(const CompactionOptions& compact_options, const std::vector& input_files, int output_level, VersionStorageInfo* vstorage, const MutableCFOptions& mutable_cf_options, uint32_t output_path_id); // Converts a set of compaction input file numbers into // a list of CompactionInputFiles. Status GetCompactionInputsFromFileNumbers( std::vector* input_files, std::unordered_set* input_set, const VersionStorageInfo* vstorage, const CompactionOptions& compact_options) const; // Is there currently a compaction involving level 0 taking place bool IsLevel0CompactionInProgress() const { return !level0_compactions_in_progress_.empty(); } // Return true if the passed key range overlap with a compaction output // that is currently running. bool RangeOverlapWithCompaction(const Slice& smallest_user_key, const Slice& largest_user_key, int level) const; // Stores the minimal range that covers all entries in inputs in // *smallest, *largest. // REQUIRES: inputs is not empty void GetRange(const CompactionInputFiles& inputs, InternalKey* smallest, InternalKey* largest) const; // Stores the minimal range that covers all entries in inputs1 and inputs2 // in *smallest, *largest. // REQUIRES: inputs is not empty void GetRange(const CompactionInputFiles& inputs1, const CompactionInputFiles& inputs2, InternalKey* smallest, InternalKey* largest) const; // Stores the minimal range that covers all entries in inputs // in *smallest, *largest. // REQUIRES: inputs is not empty (at least on entry have one file) void GetRange(const std::vector& inputs, InternalKey* smallest, InternalKey* largest) const; int NumberLevels() const { return ioptions_.num_levels; } // Add more files to the inputs on "level" to make sure that // no newer version of a key is compacted to "level+1" while leaving an older // version in a "level". Otherwise, any Get() will search "level" first, // and will likely return an old/stale value for the key, since it always // searches in increasing order of level to find the value. This could // also scramble the order of merge operands. This function should be // called any time a new Compaction is created, and its inputs_[0] are // populated. // // Will return false if it is impossible to apply this compaction. bool ExpandInputsToCleanCut(const std::string& cf_name, VersionStorageInfo* vstorage, CompactionInputFiles* inputs, InternalKey** next_smallest = nullptr); // Returns true if any one of the parent files are being compacted bool IsRangeInCompaction(VersionStorageInfo* vstorage, const InternalKey* smallest, const InternalKey* largest, int level, int* index); // Returns true if the key range that `inputs` files cover overlap with the // key range of a currently running compaction. bool FilesRangeOverlapWithCompaction( const std::vector& inputs, int level) const; bool SetupOtherInputs(const std::string& cf_name, const MutableCFOptions& mutable_cf_options, VersionStorageInfo* vstorage, CompactionInputFiles* inputs, CompactionInputFiles* output_level_inputs, int* parent_index, int base_index); void GetGrandparents(VersionStorageInfo* vstorage, const CompactionInputFiles& inputs, const CompactionInputFiles& output_level_inputs, std::vector* grandparents); void PickFilesMarkedForCompaction(const std::string& cf_name, VersionStorageInfo* vstorage, int* start_level, int* output_level, CompactionInputFiles* start_level_inputs); bool GetOverlappingL0Files(VersionStorageInfo* vstorage, CompactionInputFiles* start_level_inputs, int output_level, int* parent_index); // Register this compaction in the set of running compactions void RegisterCompaction(Compaction* c); // Remove this compaction from the set of running compactions void UnregisterCompaction(Compaction* c); std::set* level0_compactions_in_progress() { return &level0_compactions_in_progress_; } std::unordered_set* compactions_in_progress() { return &compactions_in_progress_; } protected: const ImmutableCFOptions& ioptions_; // A helper function to SanitizeCompactionInputFiles() that // sanitizes "input_files" by adding necessary files. #ifndef ROCKSDB_LITE virtual Status SanitizeCompactionInputFilesForAllLevels( std::unordered_set* input_files, const ColumnFamilyMetaData& cf_meta, const int output_level) const; #endif // ROCKSDB_LITE // Keeps track of all compactions that are running on Level0. // Protected by DB mutex std::set level0_compactions_in_progress_; // Keeps track of all compactions that are running. // Protected by DB mutex std::unordered_set compactions_in_progress_; const InternalKeyComparator* const icmp_; }; class LevelCompactionPicker : public CompactionPicker { public: LevelCompactionPicker(const ImmutableCFOptions& ioptions, const InternalKeyComparator* icmp) : CompactionPicker(ioptions, icmp) {} virtual Compaction* PickCompaction(const std::string& cf_name, const MutableCFOptions& mutable_cf_options, VersionStorageInfo* vstorage, LogBuffer* log_buffer) override; virtual bool NeedsCompaction( const VersionStorageInfo* vstorage) const override; }; #ifndef ROCKSDB_LITE class FIFOCompactionPicker : public CompactionPicker { public: FIFOCompactionPicker(const ImmutableCFOptions& ioptions, const InternalKeyComparator* icmp) : CompactionPicker(ioptions, icmp) {} virtual Compaction* PickCompaction(const std::string& cf_name, const MutableCFOptions& mutable_cf_options, VersionStorageInfo* version, LogBuffer* log_buffer) override; virtual Compaction* CompactRange( const std::string& cf_name, const MutableCFOptions& mutable_cf_options, VersionStorageInfo* vstorage, int input_level, int output_level, uint32_t output_path_id, uint32_t max_subcompactions, const InternalKey* begin, const InternalKey* end, InternalKey** compaction_end, bool* manual_conflict) override; // The maximum allowed output level. Always returns 0. virtual int MaxOutputLevel() const override { return 0; } virtual bool NeedsCompaction( const VersionStorageInfo* vstorage) const override; private: Compaction* PickTTLCompaction(const std::string& cf_name, const MutableCFOptions& mutable_cf_options, VersionStorageInfo* version, LogBuffer* log_buffer); Compaction* PickSizeCompaction(const std::string& cf_name, const MutableCFOptions& mutable_cf_options, VersionStorageInfo* version, LogBuffer* log_buffer); }; class NullCompactionPicker : public CompactionPicker { public: NullCompactionPicker(const ImmutableCFOptions& ioptions, const InternalKeyComparator* icmp) : CompactionPicker(ioptions, icmp) {} virtual ~NullCompactionPicker() {} // Always return "nullptr" Compaction* PickCompaction(const std::string& /*cf_name*/, const MutableCFOptions& /*mutable_cf_options*/, VersionStorageInfo* /*vstorage*/, LogBuffer* /*log_buffer*/) override { return nullptr; } // Always return "nullptr" Compaction* CompactRange(const std::string& /*cf_name*/, const MutableCFOptions& /*mutable_cf_options*/, VersionStorageInfo* /*vstorage*/, int /*input_level*/, int /*output_level*/, uint32_t /*output_path_id*/, uint32_t /*max_subcompactions*/, const InternalKey* /*begin*/, const InternalKey* /*end*/, InternalKey** /*compaction_end*/, bool* /*manual_conflict*/) override { return nullptr; } // Always returns false. virtual bool NeedsCompaction( const VersionStorageInfo* /*vstorage*/) const override { return false; } }; #endif // !ROCKSDB_LITE CompressionType GetCompressionType(const ImmutableCFOptions& ioptions, const VersionStorageInfo* vstorage, const MutableCFOptions& mutable_cf_options, int level, int base_level, const bool enable_compression = true); CompressionOptions GetCompressionOptions(const ImmutableCFOptions& ioptions, const VersionStorageInfo* vstorage, int level, const bool enable_compression = true); } // namespace rocksdb rocksdb-5.17.2/db/compaction_picker_test.cc000066400000000000000000001610671337235545400207070ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include "db/compaction_picker.h" #include #include #include #include "db/compaction.h" #include "db/compaction_picker_universal.h" #include "util/logging.h" #include "util/string_util.h" #include "util/testharness.h" #include "util/testutil.h" namespace rocksdb { class CountingLogger : public Logger { public: using Logger::Logv; virtual void Logv(const char* /*format*/, va_list /*ap*/) override { log_count++; } size_t log_count; }; class CompactionPickerTest : public testing::Test { public: const Comparator* ucmp_; InternalKeyComparator icmp_; Options options_; ImmutableCFOptions ioptions_; MutableCFOptions mutable_cf_options_; LevelCompactionPicker level_compaction_picker; std::string cf_name_; CountingLogger logger_; LogBuffer log_buffer_; uint32_t file_num_; CompactionOptionsFIFO fifo_options_; std::unique_ptr vstorage_; std::vector> files_; // does not own FileMetaData std::unordered_map> file_map_; // input files to compaction process. std::vector input_files_; int compaction_level_start_; CompactionPickerTest() : ucmp_(BytewiseComparator()), icmp_(ucmp_), ioptions_(options_), mutable_cf_options_(options_), level_compaction_picker(ioptions_, &icmp_), cf_name_("dummy"), log_buffer_(InfoLogLevel::INFO_LEVEL, &logger_), file_num_(1), vstorage_(nullptr) { fifo_options_.max_table_files_size = 1; mutable_cf_options_.RefreshDerivedOptions(ioptions_); ioptions_.cf_paths.emplace_back("dummy", std::numeric_limits::max()); } ~CompactionPickerTest() { } void NewVersionStorage(int num_levels, CompactionStyle style) { DeleteVersionStorage(); options_.num_levels = num_levels; vstorage_.reset(new VersionStorageInfo(&icmp_, ucmp_, options_.num_levels, style, nullptr, false)); vstorage_->CalculateBaseBytes(ioptions_, mutable_cf_options_); } void DeleteVersionStorage() { vstorage_.reset(); files_.clear(); file_map_.clear(); input_files_.clear(); } void Add(int level, uint32_t file_number, const char* smallest, const char* largest, uint64_t file_size = 1, uint32_t path_id = 0, SequenceNumber smallest_seq = 100, SequenceNumber largest_seq = 100) { assert(level < vstorage_->num_levels()); FileMetaData* f = new FileMetaData; f->fd = FileDescriptor(file_number, path_id, file_size); f->smallest = InternalKey(smallest, smallest_seq, kTypeValue); f->largest = InternalKey(largest, largest_seq, kTypeValue); f->fd.smallest_seqno = smallest_seq; f->fd.largest_seqno = largest_seq; f->compensated_file_size = file_size; f->refs = 0; vstorage_->AddFile(level, f); files_.emplace_back(f); file_map_.insert({file_number, {f, level}}); } void SetCompactionInputFilesLevels(int level_count, int start_level) { input_files_.resize(level_count); for (int i = 0; i < level_count; ++i) { input_files_[i].level = start_level + i; } compaction_level_start_ = start_level; } void AddToCompactionFiles(uint32_t file_number) { auto iter = file_map_.find(file_number); assert(iter != file_map_.end()); int level = iter->second.second; assert(level < vstorage_->num_levels()); input_files_[level - compaction_level_start_].files.emplace_back( iter->second.first); } void UpdateVersionStorageInfo() { vstorage_->CalculateBaseBytes(ioptions_, mutable_cf_options_); vstorage_->UpdateFilesByCompactionPri(ioptions_.compaction_pri); vstorage_->UpdateNumNonEmptyLevels(); vstorage_->GenerateFileIndexer(); vstorage_->GenerateLevelFilesBrief(); vstorage_->ComputeCompactionScore(ioptions_, mutable_cf_options_); vstorage_->GenerateLevel0NonOverlapping(); vstorage_->ComputeFilesMarkedForCompaction(); vstorage_->SetFinalized(); } }; TEST_F(CompactionPickerTest, Empty) { NewVersionStorage(6, kCompactionStyleLevel); UpdateVersionStorageInfo(); std::unique_ptr compaction(level_compaction_picker.PickCompaction( cf_name_, mutable_cf_options_, vstorage_.get(), &log_buffer_)); ASSERT_TRUE(compaction.get() == nullptr); } TEST_F(CompactionPickerTest, Single) { NewVersionStorage(6, kCompactionStyleLevel); mutable_cf_options_.level0_file_num_compaction_trigger = 2; Add(0, 1U, "p", "q"); UpdateVersionStorageInfo(); std::unique_ptr compaction(level_compaction_picker.PickCompaction( cf_name_, mutable_cf_options_, vstorage_.get(), &log_buffer_)); ASSERT_TRUE(compaction.get() == nullptr); } TEST_F(CompactionPickerTest, Level0Trigger) { NewVersionStorage(6, kCompactionStyleLevel); mutable_cf_options_.level0_file_num_compaction_trigger = 2; Add(0, 1U, "150", "200"); Add(0, 2U, "200", "250"); UpdateVersionStorageInfo(); std::unique_ptr compaction(level_compaction_picker.PickCompaction( cf_name_, mutable_cf_options_, vstorage_.get(), &log_buffer_)); ASSERT_TRUE(compaction.get() != nullptr); ASSERT_EQ(2U, compaction->num_input_files(0)); ASSERT_EQ(1U, compaction->input(0, 0)->fd.GetNumber()); ASSERT_EQ(2U, compaction->input(0, 1)->fd.GetNumber()); } TEST_F(CompactionPickerTest, Level1Trigger) { NewVersionStorage(6, kCompactionStyleLevel); Add(1, 66U, "150", "200", 1000000000U); UpdateVersionStorageInfo(); std::unique_ptr compaction(level_compaction_picker.PickCompaction( cf_name_, mutable_cf_options_, vstorage_.get(), &log_buffer_)); ASSERT_TRUE(compaction.get() != nullptr); ASSERT_EQ(1U, compaction->num_input_files(0)); ASSERT_EQ(66U, compaction->input(0, 0)->fd.GetNumber()); } TEST_F(CompactionPickerTest, Level1Trigger2) { mutable_cf_options_.target_file_size_base = 10000000000; mutable_cf_options_.RefreshDerivedOptions(ioptions_); NewVersionStorage(6, kCompactionStyleLevel); Add(1, 66U, "150", "200", 1000000001U); Add(1, 88U, "201", "300", 1000000000U); Add(2, 6U, "150", "179", 1000000000U); Add(2, 7U, "180", "220", 1000000000U); Add(2, 8U, "221", "300", 1000000000U); UpdateVersionStorageInfo(); std::unique_ptr compaction(level_compaction_picker.PickCompaction( cf_name_, mutable_cf_options_, vstorage_.get(), &log_buffer_)); ASSERT_TRUE(compaction.get() != nullptr); ASSERT_EQ(1U, compaction->num_input_files(0)); ASSERT_EQ(2U, compaction->num_input_files(1)); ASSERT_EQ(66U, compaction->input(0, 0)->fd.GetNumber()); ASSERT_EQ(6U, compaction->input(1, 0)->fd.GetNumber()); ASSERT_EQ(7U, compaction->input(1, 1)->fd.GetNumber()); ASSERT_EQ(uint64_t{1073741824}, compaction->OutputFilePreallocationSize()); } TEST_F(CompactionPickerTest, LevelMaxScore) { NewVersionStorage(6, kCompactionStyleLevel); mutable_cf_options_.target_file_size_base = 10000000; mutable_cf_options_.max_bytes_for_level_base = 10 * 1024 * 1024; mutable_cf_options_.RefreshDerivedOptions(ioptions_); Add(0, 1U, "150", "200", 1000000U); // Level 1 score 1.2 Add(1, 66U, "150", "200", 6000000U); Add(1, 88U, "201", "300", 6000000U); // Level 2 score 1.8. File 7 is the largest. Should be picked Add(2, 6U, "150", "179", 60000000U); Add(2, 7U, "180", "220", 60000001U); Add(2, 8U, "221", "300", 60000000U); // Level 3 score slightly larger than 1 Add(3, 26U, "150", "170", 260000000U); Add(3, 27U, "171", "179", 260000000U); Add(3, 28U, "191", "220", 260000000U); Add(3, 29U, "221", "300", 260000000U); UpdateVersionStorageInfo(); std::unique_ptr compaction(level_compaction_picker.PickCompaction( cf_name_, mutable_cf_options_, vstorage_.get(), &log_buffer_)); ASSERT_TRUE(compaction.get() != nullptr); ASSERT_EQ(1U, compaction->num_input_files(0)); ASSERT_EQ(7U, compaction->input(0, 0)->fd.GetNumber()); ASSERT_EQ(mutable_cf_options_.target_file_size_base + mutable_cf_options_.target_file_size_base / 10, compaction->OutputFilePreallocationSize()); } TEST_F(CompactionPickerTest, NeedsCompactionLevel) { const int kLevels = 6; const int kFileCount = 20; for (int level = 0; level < kLevels - 1; ++level) { NewVersionStorage(kLevels, kCompactionStyleLevel); uint64_t file_size = vstorage_->MaxBytesForLevel(level) * 2 / kFileCount; for (int file_count = 1; file_count <= kFileCount; ++file_count) { // start a brand new version in each test. NewVersionStorage(kLevels, kCompactionStyleLevel); for (int i = 0; i < file_count; ++i) { Add(level, i, ToString((i + 100) * 1000).c_str(), ToString((i + 100) * 1000 + 999).c_str(), file_size, 0, i * 100, i * 100 + 99); } UpdateVersionStorageInfo(); ASSERT_EQ(vstorage_->CompactionScoreLevel(0), level); ASSERT_EQ(level_compaction_picker.NeedsCompaction(vstorage_.get()), vstorage_->CompactionScore(0) >= 1); // release the version storage DeleteVersionStorage(); } } } TEST_F(CompactionPickerTest, Level0TriggerDynamic) { int num_levels = ioptions_.num_levels; ioptions_.level_compaction_dynamic_level_bytes = true; mutable_cf_options_.level0_file_num_compaction_trigger = 2; mutable_cf_options_.max_bytes_for_level_base = 200; mutable_cf_options_.max_bytes_for_level_multiplier = 10; NewVersionStorage(num_levels, kCompactionStyleLevel); Add(0, 1U, "150", "200"); Add(0, 2U, "200", "250"); UpdateVersionStorageInfo(); std::unique_ptr compaction(level_compaction_picker.PickCompaction( cf_name_, mutable_cf_options_, vstorage_.get(), &log_buffer_)); ASSERT_TRUE(compaction.get() != nullptr); ASSERT_EQ(2U, compaction->num_input_files(0)); ASSERT_EQ(1U, compaction->input(0, 0)->fd.GetNumber()); ASSERT_EQ(2U, compaction->input(0, 1)->fd.GetNumber()); ASSERT_EQ(1, static_cast(compaction->num_input_levels())); ASSERT_EQ(num_levels - 1, compaction->output_level()); } TEST_F(CompactionPickerTest, Level0TriggerDynamic2) { int num_levels = ioptions_.num_levels; ioptions_.level_compaction_dynamic_level_bytes = true; mutable_cf_options_.level0_file_num_compaction_trigger = 2; mutable_cf_options_.max_bytes_for_level_base = 200; mutable_cf_options_.max_bytes_for_level_multiplier = 10; NewVersionStorage(num_levels, kCompactionStyleLevel); Add(0, 1U, "150", "200"); Add(0, 2U, "200", "250"); Add(num_levels - 1, 3U, "200", "250", 300U); UpdateVersionStorageInfo(); ASSERT_EQ(vstorage_->base_level(), num_levels - 2); std::unique_ptr compaction(level_compaction_picker.PickCompaction( cf_name_, mutable_cf_options_, vstorage_.get(), &log_buffer_)); ASSERT_TRUE(compaction.get() != nullptr); ASSERT_EQ(2U, compaction->num_input_files(0)); ASSERT_EQ(1U, compaction->input(0, 0)->fd.GetNumber()); ASSERT_EQ(2U, compaction->input(0, 1)->fd.GetNumber()); ASSERT_EQ(1, static_cast(compaction->num_input_levels())); ASSERT_EQ(num_levels - 2, compaction->output_level()); } TEST_F(CompactionPickerTest, Level0TriggerDynamic3) { int num_levels = ioptions_.num_levels; ioptions_.level_compaction_dynamic_level_bytes = true; mutable_cf_options_.level0_file_num_compaction_trigger = 2; mutable_cf_options_.max_bytes_for_level_base = 200; mutable_cf_options_.max_bytes_for_level_multiplier = 10; NewVersionStorage(num_levels, kCompactionStyleLevel); Add(0, 1U, "150", "200"); Add(0, 2U, "200", "250"); Add(num_levels - 1, 3U, "200", "250", 300U); Add(num_levels - 1, 4U, "300", "350", 3000U); UpdateVersionStorageInfo(); ASSERT_EQ(vstorage_->base_level(), num_levels - 3); std::unique_ptr compaction(level_compaction_picker.PickCompaction( cf_name_, mutable_cf_options_, vstorage_.get(), &log_buffer_)); ASSERT_TRUE(compaction.get() != nullptr); ASSERT_EQ(2U, compaction->num_input_files(0)); ASSERT_EQ(1U, compaction->input(0, 0)->fd.GetNumber()); ASSERT_EQ(2U, compaction->input(0, 1)->fd.GetNumber()); ASSERT_EQ(1, static_cast(compaction->num_input_levels())); ASSERT_EQ(num_levels - 3, compaction->output_level()); } TEST_F(CompactionPickerTest, Level0TriggerDynamic4) { int num_levels = ioptions_.num_levels; ioptions_.level_compaction_dynamic_level_bytes = true; mutable_cf_options_.level0_file_num_compaction_trigger = 2; mutable_cf_options_.max_bytes_for_level_base = 200; mutable_cf_options_.max_bytes_for_level_multiplier = 10; NewVersionStorage(num_levels, kCompactionStyleLevel); Add(0, 1U, "150", "200"); Add(0, 2U, "200", "250"); Add(num_levels - 1, 3U, "200", "250", 300U); Add(num_levels - 1, 4U, "300", "350", 3000U); Add(num_levels - 3, 5U, "150", "180", 3U); Add(num_levels - 3, 6U, "181", "300", 3U); Add(num_levels - 3, 7U, "400", "450", 3U); UpdateVersionStorageInfo(); ASSERT_EQ(vstorage_->base_level(), num_levels - 3); std::unique_ptr compaction(level_compaction_picker.PickCompaction( cf_name_, mutable_cf_options_, vstorage_.get(), &log_buffer_)); ASSERT_TRUE(compaction.get() != nullptr); ASSERT_EQ(2U, compaction->num_input_files(0)); ASSERT_EQ(1U, compaction->input(0, 0)->fd.GetNumber()); ASSERT_EQ(2U, compaction->input(0, 1)->fd.GetNumber()); ASSERT_EQ(2U, compaction->num_input_files(1)); ASSERT_EQ(num_levels - 3, compaction->level(1)); ASSERT_EQ(5U, compaction->input(1, 0)->fd.GetNumber()); ASSERT_EQ(6U, compaction->input(1, 1)->fd.GetNumber()); ASSERT_EQ(2, static_cast(compaction->num_input_levels())); ASSERT_EQ(num_levels - 3, compaction->output_level()); } TEST_F(CompactionPickerTest, LevelTriggerDynamic4) { int num_levels = ioptions_.num_levels; ioptions_.level_compaction_dynamic_level_bytes = true; ioptions_.compaction_pri = kMinOverlappingRatio; mutable_cf_options_.level0_file_num_compaction_trigger = 2; mutable_cf_options_.max_bytes_for_level_base = 200; mutable_cf_options_.max_bytes_for_level_multiplier = 10; NewVersionStorage(num_levels, kCompactionStyleLevel); Add(0, 1U, "150", "200"); Add(num_levels - 1, 3U, "200", "250", 300U); Add(num_levels - 1, 4U, "300", "350", 3000U); Add(num_levels - 1, 4U, "400", "450", 3U); Add(num_levels - 2, 5U, "150", "180", 300U); Add(num_levels - 2, 6U, "181", "350", 500U); Add(num_levels - 2, 7U, "400", "450", 200U); UpdateVersionStorageInfo(); std::unique_ptr compaction(level_compaction_picker.PickCompaction( cf_name_, mutable_cf_options_, vstorage_.get(), &log_buffer_)); ASSERT_TRUE(compaction.get() != nullptr); ASSERT_EQ(1U, compaction->num_input_files(0)); ASSERT_EQ(5U, compaction->input(0, 0)->fd.GetNumber()); ASSERT_EQ(0, compaction->num_input_files(1)); ASSERT_EQ(1U, compaction->num_input_levels()); ASSERT_EQ(num_levels - 1, compaction->output_level()); } // Universal and FIFO Compactions are not supported in ROCKSDB_LITE #ifndef ROCKSDB_LITE TEST_F(CompactionPickerTest, NeedsCompactionUniversal) { NewVersionStorage(1, kCompactionStyleUniversal); UniversalCompactionPicker universal_compaction_picker( ioptions_, &icmp_); UpdateVersionStorageInfo(); // must return false when there's no files. ASSERT_EQ(universal_compaction_picker.NeedsCompaction(vstorage_.get()), false); // verify the trigger given different number of L0 files. for (int i = 1; i <= mutable_cf_options_.level0_file_num_compaction_trigger * 2; ++i) { NewVersionStorage(1, kCompactionStyleUniversal); Add(0, i, ToString((i + 100) * 1000).c_str(), ToString((i + 100) * 1000 + 999).c_str(), 1000000, 0, i * 100, i * 100 + 99); UpdateVersionStorageInfo(); ASSERT_EQ(level_compaction_picker.NeedsCompaction(vstorage_.get()), vstorage_->CompactionScore(0) >= 1); } } TEST_F(CompactionPickerTest, CompactionUniversalIngestBehindReservedLevel) { const uint64_t kFileSize = 100000; NewVersionStorage(1, kCompactionStyleUniversal); ioptions_.allow_ingest_behind = true; ioptions_.num_levels = 3; UniversalCompactionPicker universal_compaction_picker(ioptions_, &icmp_); UpdateVersionStorageInfo(); // must return false when there's no files. ASSERT_EQ(universal_compaction_picker.NeedsCompaction(vstorage_.get()), false); NewVersionStorage(3, kCompactionStyleUniversal); Add(0, 1U, "150", "200", kFileSize, 0, 500, 550); Add(0, 2U, "201", "250", kFileSize, 0, 401, 450); Add(0, 4U, "260", "300", kFileSize, 0, 260, 300); Add(1, 5U, "100", "151", kFileSize, 0, 200, 251); Add(1, 3U, "301", "350", kFileSize, 0, 101, 150); Add(2, 6U, "120", "200", kFileSize, 0, 20, 100); UpdateVersionStorageInfo(); std::unique_ptr compaction( universal_compaction_picker.PickCompaction( cf_name_, mutable_cf_options_, vstorage_.get(), &log_buffer_)); // output level should be the one above the bottom-most ASSERT_EQ(1, compaction->output_level()); } // Tests if the files can be trivially moved in multi level // universal compaction when allow_trivial_move option is set // In this test as the input files overlaps, they cannot // be trivially moved. TEST_F(CompactionPickerTest, CannotTrivialMoveUniversal) { const uint64_t kFileSize = 100000; mutable_cf_options_.compaction_options_universal.allow_trivial_move = true; NewVersionStorage(1, kCompactionStyleUniversal); UniversalCompactionPicker universal_compaction_picker(ioptions_, &icmp_); UpdateVersionStorageInfo(); // must return false when there's no files. ASSERT_EQ(universal_compaction_picker.NeedsCompaction(vstorage_.get()), false); NewVersionStorage(3, kCompactionStyleUniversal); Add(0, 1U, "150", "200", kFileSize, 0, 500, 550); Add(0, 2U, "201", "250", kFileSize, 0, 401, 450); Add(0, 4U, "260", "300", kFileSize, 0, 260, 300); Add(1, 5U, "100", "151", kFileSize, 0, 200, 251); Add(1, 3U, "301", "350", kFileSize, 0, 101, 150); Add(2, 6U, "120", "200", kFileSize, 0, 20, 100); UpdateVersionStorageInfo(); std::unique_ptr compaction( universal_compaction_picker.PickCompaction( cf_name_, mutable_cf_options_, vstorage_.get(), &log_buffer_)); ASSERT_TRUE(!compaction->is_trivial_move()); } // Tests if the files can be trivially moved in multi level // universal compaction when allow_trivial_move option is set // In this test as the input files doesn't overlaps, they should // be trivially moved. TEST_F(CompactionPickerTest, AllowsTrivialMoveUniversal) { const uint64_t kFileSize = 100000; mutable_cf_options_.compaction_options_universal.allow_trivial_move = true; UniversalCompactionPicker universal_compaction_picker(ioptions_, &icmp_); NewVersionStorage(3, kCompactionStyleUniversal); Add(0, 1U, "150", "200", kFileSize, 0, 500, 550); Add(0, 2U, "201", "250", kFileSize, 0, 401, 450); Add(0, 4U, "260", "300", kFileSize, 0, 260, 300); Add(1, 5U, "010", "080", kFileSize, 0, 200, 251); Add(2, 3U, "301", "350", kFileSize, 0, 101, 150); UpdateVersionStorageInfo(); std::unique_ptr compaction( universal_compaction_picker.PickCompaction( cf_name_, mutable_cf_options_, vstorage_.get(), &log_buffer_)); ASSERT_TRUE(compaction->is_trivial_move()); } TEST_F(CompactionPickerTest, NeedsCompactionFIFO) { NewVersionStorage(1, kCompactionStyleFIFO); const int kFileCount = mutable_cf_options_.level0_file_num_compaction_trigger * 3; const uint64_t kFileSize = 100000; const uint64_t kMaxSize = kFileSize * kFileCount / 2; fifo_options_.max_table_files_size = kMaxSize; mutable_cf_options_.compaction_options_fifo = fifo_options_; FIFOCompactionPicker fifo_compaction_picker(ioptions_, &icmp_); UpdateVersionStorageInfo(); // must return false when there's no files. ASSERT_EQ(fifo_compaction_picker.NeedsCompaction(vstorage_.get()), false); // verify whether compaction is needed based on the current // size of L0 files. uint64_t current_size = 0; for (int i = 1; i <= kFileCount; ++i) { NewVersionStorage(1, kCompactionStyleFIFO); Add(0, i, ToString((i + 100) * 1000).c_str(), ToString((i + 100) * 1000 + 999).c_str(), kFileSize, 0, i * 100, i * 100 + 99); current_size += kFileSize; UpdateVersionStorageInfo(); ASSERT_EQ(fifo_compaction_picker.NeedsCompaction(vstorage_.get()), vstorage_->CompactionScore(0) >= 1); } } #endif // ROCKSDB_LITE TEST_F(CompactionPickerTest, CompactionPriMinOverlapping1) { NewVersionStorage(6, kCompactionStyleLevel); ioptions_.compaction_pri = kMinOverlappingRatio; mutable_cf_options_.target_file_size_base = 100000000000; mutable_cf_options_.target_file_size_multiplier = 10; mutable_cf_options_.max_bytes_for_level_base = 10 * 1024 * 1024; mutable_cf_options_.RefreshDerivedOptions(ioptions_); Add(2, 6U, "150", "179", 50000000U); Add(2, 7U, "180", "220", 50000000U); Add(2, 8U, "321", "400", 50000000U); // File not overlapping Add(2, 9U, "721", "800", 50000000U); Add(3, 26U, "150", "170", 260000000U); Add(3, 27U, "171", "179", 260000000U); Add(3, 28U, "191", "220", 260000000U); Add(3, 29U, "221", "300", 260000000U); Add(3, 30U, "750", "900", 260000000U); UpdateVersionStorageInfo(); std::unique_ptr compaction(level_compaction_picker.PickCompaction( cf_name_, mutable_cf_options_, vstorage_.get(), &log_buffer_)); ASSERT_TRUE(compaction.get() != nullptr); ASSERT_EQ(1U, compaction->num_input_files(0)); // Pick file 8 because it overlaps with 0 files on level 3. ASSERT_EQ(8U, compaction->input(0, 0)->fd.GetNumber()); // Compaction input size * 1.1 ASSERT_GE(uint64_t{55000000}, compaction->OutputFilePreallocationSize()); } TEST_F(CompactionPickerTest, CompactionPriMinOverlapping2) { NewVersionStorage(6, kCompactionStyleLevel); ioptions_.compaction_pri = kMinOverlappingRatio; mutable_cf_options_.target_file_size_base = 10000000; mutable_cf_options_.target_file_size_multiplier = 10; mutable_cf_options_.max_bytes_for_level_base = 10 * 1024 * 1024; Add(2, 6U, "150", "175", 60000000U); // Overlaps with file 26, 27, total size 521M Add(2, 7U, "176", "200", 60000000U); // Overlaps with file 27, 28, total size // 520M, the smalelst overlapping Add(2, 8U, "201", "300", 60000000U); // Overlaps with file 28, 29, total size 521M Add(3, 26U, "100", "110", 261000000U); Add(3, 26U, "150", "170", 261000000U); Add(3, 27U, "171", "179", 260000000U); Add(3, 28U, "191", "220", 260000000U); Add(3, 29U, "221", "300", 261000000U); Add(3, 30U, "321", "400", 261000000U); UpdateVersionStorageInfo(); std::unique_ptr compaction(level_compaction_picker.PickCompaction( cf_name_, mutable_cf_options_, vstorage_.get(), &log_buffer_)); ASSERT_TRUE(compaction.get() != nullptr); ASSERT_EQ(1U, compaction->num_input_files(0)); // Picking file 7 because overlapping ratio is the biggest. ASSERT_EQ(7U, compaction->input(0, 0)->fd.GetNumber()); } TEST_F(CompactionPickerTest, CompactionPriMinOverlapping3) { NewVersionStorage(6, kCompactionStyleLevel); ioptions_.compaction_pri = kMinOverlappingRatio; mutable_cf_options_.max_bytes_for_level_base = 10000000; mutable_cf_options_.max_bytes_for_level_multiplier = 10; // file 7 and 8 over lap with the same file, but file 8 is smaller so // it will be picked. Add(2, 6U, "150", "167", 60000000U); // Overlaps with file 26, 27 Add(2, 7U, "168", "169", 60000000U); // Overlaps with file 27 Add(2, 8U, "201", "300", 61000000U); // Overlaps with file 28, but the file // itself is larger. Should be picked. Add(3, 26U, "160", "165", 260000000U); Add(3, 27U, "166", "170", 260000000U); Add(3, 28U, "180", "400", 260000000U); Add(3, 29U, "401", "500", 260000000U); UpdateVersionStorageInfo(); std::unique_ptr compaction(level_compaction_picker.PickCompaction( cf_name_, mutable_cf_options_, vstorage_.get(), &log_buffer_)); ASSERT_TRUE(compaction.get() != nullptr); ASSERT_EQ(1U, compaction->num_input_files(0)); // Picking file 8 because overlapping ratio is the biggest. ASSERT_EQ(8U, compaction->input(0, 0)->fd.GetNumber()); } // This test exhibits the bug where we don't properly reset parent_index in // PickCompaction() TEST_F(CompactionPickerTest, ParentIndexResetBug) { int num_levels = ioptions_.num_levels; mutable_cf_options_.level0_file_num_compaction_trigger = 2; mutable_cf_options_.max_bytes_for_level_base = 200; NewVersionStorage(num_levels, kCompactionStyleLevel); Add(0, 1U, "150", "200"); // <- marked for compaction Add(1, 3U, "400", "500", 600); // <- this one needs compacting Add(2, 4U, "150", "200"); Add(2, 5U, "201", "210"); Add(2, 6U, "300", "310"); Add(2, 7U, "400", "500"); // <- being compacted vstorage_->LevelFiles(2)[3]->being_compacted = true; vstorage_->LevelFiles(0)[0]->marked_for_compaction = true; UpdateVersionStorageInfo(); std::unique_ptr compaction(level_compaction_picker.PickCompaction( cf_name_, mutable_cf_options_, vstorage_.get(), &log_buffer_)); } // This test checks ExpandWhileOverlapping() by having overlapping user keys // ranges (with different sequence numbers) in the input files. TEST_F(CompactionPickerTest, OverlappingUserKeys) { NewVersionStorage(6, kCompactionStyleLevel); ioptions_.compaction_pri = kByCompensatedSize; Add(1, 1U, "100", "150", 1U); // Overlapping user keys Add(1, 2U, "200", "400", 1U); Add(1, 3U, "400", "500", 1000000000U, 0, 0); Add(2, 4U, "600", "700", 1U); UpdateVersionStorageInfo(); std::unique_ptr compaction(level_compaction_picker.PickCompaction( cf_name_, mutable_cf_options_, vstorage_.get(), &log_buffer_)); ASSERT_TRUE(compaction.get() != nullptr); ASSERT_EQ(1U, compaction->num_input_levels()); ASSERT_EQ(2U, compaction->num_input_files(0)); ASSERT_EQ(2U, compaction->input(0, 0)->fd.GetNumber()); ASSERT_EQ(3U, compaction->input(0, 1)->fd.GetNumber()); } TEST_F(CompactionPickerTest, OverlappingUserKeys2) { NewVersionStorage(6, kCompactionStyleLevel); // Overlapping user keys on same level and output level Add(1, 1U, "200", "400", 1000000000U); Add(1, 2U, "400", "500", 1U, 0, 0); Add(2, 3U, "000", "100", 1U); Add(2, 4U, "100", "600", 1U, 0, 0); Add(2, 5U, "600", "700", 1U, 0, 0); UpdateVersionStorageInfo(); std::unique_ptr compaction(level_compaction_picker.PickCompaction( cf_name_, mutable_cf_options_, vstorage_.get(), &log_buffer_)); ASSERT_TRUE(compaction.get() != nullptr); ASSERT_EQ(2U, compaction->num_input_levels()); ASSERT_EQ(2U, compaction->num_input_files(0)); ASSERT_EQ(3U, compaction->num_input_files(1)); ASSERT_EQ(1U, compaction->input(0, 0)->fd.GetNumber()); ASSERT_EQ(2U, compaction->input(0, 1)->fd.GetNumber()); ASSERT_EQ(3U, compaction->input(1, 0)->fd.GetNumber()); ASSERT_EQ(4U, compaction->input(1, 1)->fd.GetNumber()); ASSERT_EQ(5U, compaction->input(1, 2)->fd.GetNumber()); } TEST_F(CompactionPickerTest, OverlappingUserKeys3) { NewVersionStorage(6, kCompactionStyleLevel); // Chain of overlapping user key ranges (forces ExpandWhileOverlapping() to // expand multiple times) Add(1, 1U, "100", "150", 1U); Add(1, 2U, "150", "200", 1U, 0, 0); Add(1, 3U, "200", "250", 1000000000U, 0, 0); Add(1, 4U, "250", "300", 1U, 0, 0); Add(1, 5U, "300", "350", 1U, 0, 0); // Output level overlaps with the beginning and the end of the chain Add(2, 6U, "050", "100", 1U); Add(2, 7U, "350", "400", 1U); UpdateVersionStorageInfo(); std::unique_ptr compaction(level_compaction_picker.PickCompaction( cf_name_, mutable_cf_options_, vstorage_.get(), &log_buffer_)); ASSERT_TRUE(compaction.get() != nullptr); ASSERT_EQ(2U, compaction->num_input_levels()); ASSERT_EQ(5U, compaction->num_input_files(0)); ASSERT_EQ(2U, compaction->num_input_files(1)); ASSERT_EQ(1U, compaction->input(0, 0)->fd.GetNumber()); ASSERT_EQ(2U, compaction->input(0, 1)->fd.GetNumber()); ASSERT_EQ(3U, compaction->input(0, 2)->fd.GetNumber()); ASSERT_EQ(4U, compaction->input(0, 3)->fd.GetNumber()); ASSERT_EQ(5U, compaction->input(0, 4)->fd.GetNumber()); ASSERT_EQ(6U, compaction->input(1, 0)->fd.GetNumber()); ASSERT_EQ(7U, compaction->input(1, 1)->fd.GetNumber()); } TEST_F(CompactionPickerTest, OverlappingUserKeys4) { NewVersionStorage(6, kCompactionStyleLevel); mutable_cf_options_.max_bytes_for_level_base = 1000000; Add(1, 1U, "100", "150", 1U); Add(1, 2U, "150", "199", 1U, 0, 0); Add(1, 3U, "200", "250", 1100000U, 0, 0); Add(1, 4U, "251", "300", 1U, 0, 0); Add(1, 5U, "300", "350", 1U, 0, 0); Add(2, 6U, "100", "115", 1U); Add(2, 7U, "125", "325", 1U); Add(2, 8U, "350", "400", 1U); UpdateVersionStorageInfo(); std::unique_ptr compaction(level_compaction_picker.PickCompaction( cf_name_, mutable_cf_options_, vstorage_.get(), &log_buffer_)); ASSERT_TRUE(compaction.get() != nullptr); ASSERT_EQ(2U, compaction->num_input_levels()); ASSERT_EQ(1U, compaction->num_input_files(0)); ASSERT_EQ(1U, compaction->num_input_files(1)); ASSERT_EQ(3U, compaction->input(0, 0)->fd.GetNumber()); ASSERT_EQ(7U, compaction->input(1, 0)->fd.GetNumber()); } TEST_F(CompactionPickerTest, OverlappingUserKeys5) { NewVersionStorage(6, kCompactionStyleLevel); // Overlapping user keys on same level and output level Add(1, 1U, "200", "400", 1000000000U); Add(1, 2U, "400", "500", 1U, 0, 0); Add(2, 3U, "000", "100", 1U); Add(2, 4U, "100", "600", 1U, 0, 0); Add(2, 5U, "600", "700", 1U, 0, 0); vstorage_->LevelFiles(2)[2]->being_compacted = true; UpdateVersionStorageInfo(); std::unique_ptr compaction(level_compaction_picker.PickCompaction( cf_name_, mutable_cf_options_, vstorage_.get(), &log_buffer_)); ASSERT_TRUE(compaction.get() == nullptr); } TEST_F(CompactionPickerTest, OverlappingUserKeys6) { NewVersionStorage(6, kCompactionStyleLevel); // Overlapping user keys on same level and output level Add(1, 1U, "200", "400", 1U, 0, 0); Add(1, 2U, "401", "500", 1U, 0, 0); Add(2, 3U, "000", "100", 1U); Add(2, 4U, "100", "300", 1U, 0, 0); Add(2, 5U, "305", "450", 1U, 0, 0); Add(2, 6U, "460", "600", 1U, 0, 0); Add(2, 7U, "600", "700", 1U, 0, 0); vstorage_->LevelFiles(1)[0]->marked_for_compaction = true; vstorage_->LevelFiles(1)[1]->marked_for_compaction = true; UpdateVersionStorageInfo(); std::unique_ptr compaction(level_compaction_picker.PickCompaction( cf_name_, mutable_cf_options_, vstorage_.get(), &log_buffer_)); ASSERT_TRUE(compaction.get() != nullptr); ASSERT_EQ(2U, compaction->num_input_levels()); ASSERT_EQ(1U, compaction->num_input_files(0)); ASSERT_EQ(3U, compaction->num_input_files(1)); } TEST_F(CompactionPickerTest, OverlappingUserKeys7) { NewVersionStorage(6, kCompactionStyleLevel); mutable_cf_options_.max_compaction_bytes = 100000000000u; // Overlapping user keys on same level and output level Add(1, 1U, "200", "400", 1U, 0, 0); Add(1, 2U, "401", "500", 1000000000U, 0, 0); Add(2, 3U, "100", "250", 1U); Add(2, 4U, "300", "600", 1U, 0, 0); Add(2, 5U, "600", "800", 1U, 0, 0); UpdateVersionStorageInfo(); std::unique_ptr compaction(level_compaction_picker.PickCompaction( cf_name_, mutable_cf_options_, vstorage_.get(), &log_buffer_)); ASSERT_TRUE(compaction.get() != nullptr); ASSERT_EQ(2U, compaction->num_input_levels()); ASSERT_GE(1U, compaction->num_input_files(0)); ASSERT_GE(2U, compaction->num_input_files(1)); // File 5 has to be included in the compaction ASSERT_EQ(5U, compaction->inputs(1)->back()->fd.GetNumber()); } TEST_F(CompactionPickerTest, OverlappingUserKeys8) { NewVersionStorage(6, kCompactionStyleLevel); mutable_cf_options_.max_compaction_bytes = 100000000000u; // grow the number of inputs in "level" without // changing the number of "level+1" files we pick up // Expand input level as much as possible // no overlapping case Add(1, 1U, "101", "150", 1U); Add(1, 2U, "151", "200", 1U); Add(1, 3U, "201", "300", 1000000000U); Add(1, 4U, "301", "400", 1U); Add(1, 5U, "401", "500", 1U); Add(2, 6U, "150", "200", 1U); Add(2, 7U, "200", "450", 1U, 0, 0); Add(2, 8U, "500", "600", 1U); UpdateVersionStorageInfo(); std::unique_ptr compaction(level_compaction_picker.PickCompaction( cf_name_, mutable_cf_options_, vstorage_.get(), &log_buffer_)); ASSERT_TRUE(compaction.get() != nullptr); ASSERT_EQ(2U, compaction->num_input_levels()); ASSERT_EQ(3U, compaction->num_input_files(0)); ASSERT_EQ(2U, compaction->num_input_files(1)); ASSERT_EQ(2U, compaction->input(0, 0)->fd.GetNumber()); ASSERT_EQ(3U, compaction->input(0, 1)->fd.GetNumber()); ASSERT_EQ(4U, compaction->input(0, 2)->fd.GetNumber()); ASSERT_EQ(6U, compaction->input(1, 0)->fd.GetNumber()); ASSERT_EQ(7U, compaction->input(1, 1)->fd.GetNumber()); } TEST_F(CompactionPickerTest, OverlappingUserKeys9) { NewVersionStorage(6, kCompactionStyleLevel); mutable_cf_options_.max_compaction_bytes = 100000000000u; // grow the number of inputs in "level" without // changing the number of "level+1" files we pick up // Expand input level as much as possible // overlapping case Add(1, 1U, "121", "150", 1U); Add(1, 2U, "151", "200", 1U); Add(1, 3U, "201", "300", 1000000000U); Add(1, 4U, "301", "400", 1U); Add(1, 5U, "401", "500", 1U); Add(2, 6U, "100", "120", 1U); Add(2, 7U, "150", "200", 1U); Add(2, 8U, "200", "450", 1U, 0, 0); Add(2, 9U, "501", "600", 1U); UpdateVersionStorageInfo(); std::unique_ptr compaction(level_compaction_picker.PickCompaction( cf_name_, mutable_cf_options_, vstorage_.get(), &log_buffer_)); ASSERT_TRUE(compaction.get() != nullptr); ASSERT_EQ(2U, compaction->num_input_levels()); ASSERT_EQ(5U, compaction->num_input_files(0)); ASSERT_EQ(2U, compaction->num_input_files(1)); ASSERT_EQ(1U, compaction->input(0, 0)->fd.GetNumber()); ASSERT_EQ(2U, compaction->input(0, 1)->fd.GetNumber()); ASSERT_EQ(3U, compaction->input(0, 2)->fd.GetNumber()); ASSERT_EQ(4U, compaction->input(0, 3)->fd.GetNumber()); ASSERT_EQ(7U, compaction->input(1, 0)->fd.GetNumber()); ASSERT_EQ(8U, compaction->input(1, 1)->fd.GetNumber()); } TEST_F(CompactionPickerTest, OverlappingUserKeys10) { // Locked file encountered when pulling in extra input-level files with same // user keys. Verify we pick the next-best file from the same input level. NewVersionStorage(6, kCompactionStyleLevel); mutable_cf_options_.max_compaction_bytes = 100000000000u; // file_number 2U is largest and thus first choice. But it overlaps with // file_number 1U which is being compacted. So instead we pick the next- // biggest file, 3U, which is eligible for compaction. Add(1 /* level */, 1U /* file_number */, "100" /* smallest */, "150" /* largest */, 1U /* file_size */); file_map_[1U].first->being_compacted = true; Add(1 /* level */, 2U /* file_number */, "150" /* smallest */, "200" /* largest */, 1000000000U /* file_size */, 0 /* smallest_seq */, 0 /* largest_seq */); Add(1 /* level */, 3U /* file_number */, "201" /* smallest */, "250" /* largest */, 900000000U /* file_size */); Add(2 /* level */, 4U /* file_number */, "100" /* smallest */, "150" /* largest */, 1U /* file_size */); Add(2 /* level */, 5U /* file_number */, "151" /* smallest */, "200" /* largest */, 1U /* file_size */); Add(2 /* level */, 6U /* file_number */, "201" /* smallest */, "250" /* largest */, 1U /* file_size */); UpdateVersionStorageInfo(); std::unique_ptr compaction(level_compaction_picker.PickCompaction( cf_name_, mutable_cf_options_, vstorage_.get(), &log_buffer_)); ASSERT_TRUE(compaction.get() != nullptr); ASSERT_EQ(2U, compaction->num_input_levels()); ASSERT_EQ(1U, compaction->num_input_files(0)); ASSERT_EQ(1U, compaction->num_input_files(1)); ASSERT_EQ(3U, compaction->input(0, 0)->fd.GetNumber()); ASSERT_EQ(6U, compaction->input(1, 0)->fd.GetNumber()); } TEST_F(CompactionPickerTest, OverlappingUserKeys11) { // Locked file encountered when pulling in extra output-level files with same // user keys. Expected to skip that compaction and pick the next-best choice. NewVersionStorage(6, kCompactionStyleLevel); mutable_cf_options_.max_compaction_bytes = 100000000000u; // score(L1) = 3.7 // score(L2) = 1.85 // There is no eligible file in L1 to compact since both candidates pull in // file_number 5U, which overlaps with a file pending compaction (6U). The // first eligible compaction is from L2->L3. Add(1 /* level */, 2U /* file_number */, "151" /* smallest */, "200" /* largest */, 1000000000U /* file_size */); Add(1 /* level */, 3U /* file_number */, "201" /* smallest */, "250" /* largest */, 1U /* file_size */); Add(2 /* level */, 4U /* file_number */, "100" /* smallest */, "149" /* largest */, 5000000000U /* file_size */); Add(2 /* level */, 5U /* file_number */, "150" /* smallest */, "201" /* largest */, 1U /* file_size */); Add(2 /* level */, 6U /* file_number */, "201" /* smallest */, "249" /* largest */, 1U /* file_size */, 0 /* smallest_seq */, 0 /* largest_seq */); file_map_[6U].first->being_compacted = true; Add(3 /* level */, 7U /* file_number */, "100" /* smallest */, "149" /* largest */, 1U /* file_size */); UpdateVersionStorageInfo(); std::unique_ptr compaction(level_compaction_picker.PickCompaction( cf_name_, mutable_cf_options_, vstorage_.get(), &log_buffer_)); ASSERT_TRUE(compaction.get() != nullptr); ASSERT_EQ(2U, compaction->num_input_levels()); ASSERT_EQ(1U, compaction->num_input_files(0)); ASSERT_EQ(1U, compaction->num_input_files(1)); ASSERT_EQ(4U, compaction->input(0, 0)->fd.GetNumber()); ASSERT_EQ(7U, compaction->input(1, 0)->fd.GetNumber()); } TEST_F(CompactionPickerTest, NotScheduleL1IfL0WithHigherPri1) { NewVersionStorage(6, kCompactionStyleLevel); mutable_cf_options_.level0_file_num_compaction_trigger = 2; mutable_cf_options_.max_bytes_for_level_base = 900000000U; // 6 L0 files, score 3. Add(0, 1U, "000", "400", 1U); Add(0, 2U, "001", "400", 1U, 0, 0); Add(0, 3U, "001", "400", 1000000000U, 0, 0); Add(0, 31U, "001", "400", 1000000000U, 0, 0); Add(0, 32U, "001", "400", 1000000000U, 0, 0); Add(0, 33U, "001", "400", 1000000000U, 0, 0); // L1 total size 2GB, score 2.2. If one file being comapcted, score 1.1. Add(1, 4U, "050", "300", 1000000000U, 0, 0); file_map_[4u].first->being_compacted = true; Add(1, 5U, "301", "350", 1000000000U, 0, 0); // Output level overlaps with the beginning and the end of the chain Add(2, 6U, "050", "100", 1U); Add(2, 7U, "300", "400", 1U); // No compaction should be scheduled, if L0 has higher priority than L1 // but L0->L1 compaction is blocked by a file in L1 being compacted. UpdateVersionStorageInfo(); ASSERT_EQ(0, vstorage_->CompactionScoreLevel(0)); ASSERT_EQ(1, vstorage_->CompactionScoreLevel(1)); std::unique_ptr compaction(level_compaction_picker.PickCompaction( cf_name_, mutable_cf_options_, vstorage_.get(), &log_buffer_)); ASSERT_TRUE(compaction.get() == nullptr); } TEST_F(CompactionPickerTest, NotScheduleL1IfL0WithHigherPri2) { NewVersionStorage(6, kCompactionStyleLevel); mutable_cf_options_.level0_file_num_compaction_trigger = 2; mutable_cf_options_.max_bytes_for_level_base = 900000000U; // 6 L0 files, score 3. Add(0, 1U, "000", "400", 1U); Add(0, 2U, "001", "400", 1U, 0, 0); Add(0, 3U, "001", "400", 1000000000U, 0, 0); Add(0, 31U, "001", "400", 1000000000U, 0, 0); Add(0, 32U, "001", "400", 1000000000U, 0, 0); Add(0, 33U, "001", "400", 1000000000U, 0, 0); // L1 total size 2GB, score 2.2. If one file being comapcted, score 1.1. Add(1, 4U, "050", "300", 1000000000U, 0, 0); Add(1, 5U, "301", "350", 1000000000U, 0, 0); // Output level overlaps with the beginning and the end of the chain Add(2, 6U, "050", "100", 1U); Add(2, 7U, "300", "400", 1U); // If no file in L1 being compacted, L0->L1 compaction will be scheduled. UpdateVersionStorageInfo(); // being_compacted flag is cleared here. ASSERT_EQ(0, vstorage_->CompactionScoreLevel(0)); ASSERT_EQ(1, vstorage_->CompactionScoreLevel(1)); std::unique_ptr compaction(level_compaction_picker.PickCompaction( cf_name_, mutable_cf_options_, vstorage_.get(), &log_buffer_)); ASSERT_TRUE(compaction.get() != nullptr); } TEST_F(CompactionPickerTest, NotScheduleL1IfL0WithHigherPri3) { NewVersionStorage(6, kCompactionStyleLevel); mutable_cf_options_.level0_file_num_compaction_trigger = 2; mutable_cf_options_.max_bytes_for_level_base = 900000000U; // 6 L0 files, score 3. Add(0, 1U, "000", "400", 1U); Add(0, 2U, "001", "400", 1U, 0, 0); Add(0, 3U, "001", "400", 1000000000U, 0, 0); Add(0, 31U, "001", "400", 1000000000U, 0, 0); Add(0, 32U, "001", "400", 1000000000U, 0, 0); Add(0, 33U, "001", "400", 1000000000U, 0, 0); // L1 score more than 6. Add(1, 4U, "050", "300", 1000000000U, 0, 0); file_map_[4u].first->being_compacted = true; Add(1, 5U, "301", "350", 1000000000U, 0, 0); Add(1, 51U, "351", "400", 6000000000U, 0, 0); // Output level overlaps with the beginning and the end of the chain Add(2, 6U, "050", "100", 1U); Add(2, 7U, "300", "400", 1U); // If score in L1 is larger than L0, L1 compaction goes through despite // there is pending L0 compaction. UpdateVersionStorageInfo(); ASSERT_EQ(1, vstorage_->CompactionScoreLevel(0)); ASSERT_EQ(0, vstorage_->CompactionScoreLevel(1)); std::unique_ptr compaction(level_compaction_picker.PickCompaction( cf_name_, mutable_cf_options_, vstorage_.get(), &log_buffer_)); ASSERT_TRUE(compaction.get() != nullptr); } TEST_F(CompactionPickerTest, EstimateCompactionBytesNeeded1) { int num_levels = ioptions_.num_levels; ioptions_.level_compaction_dynamic_level_bytes = false; mutable_cf_options_.level0_file_num_compaction_trigger = 4; mutable_cf_options_.max_bytes_for_level_base = 1000; mutable_cf_options_.max_bytes_for_level_multiplier = 10; NewVersionStorage(num_levels, kCompactionStyleLevel); Add(0, 1U, "150", "200", 200); Add(0, 2U, "150", "200", 200); Add(0, 3U, "150", "200", 200); // Level 1 is over target by 200 Add(1, 4U, "400", "500", 600); Add(1, 5U, "600", "700", 600); // Level 2 is less than target 10000 even added size of level 1 // Size ratio of L2/L1 is 9600 / 1200 = 8 Add(2, 6U, "150", "200", 2500); Add(2, 7U, "201", "210", 2000); Add(2, 8U, "300", "310", 2600); Add(2, 9U, "400", "500", 2500); // Level 3 exceeds target 100,000 of 1000 Add(3, 10U, "400", "500", 101000); // Level 4 exceeds target 1,000,000 by 900 after adding size from level 3 // Size ratio L4/L3 is 9.9 // After merge from L3, L4 size is 1000900 Add(4, 11U, "400", "500", 999900); Add(5, 11U, "400", "500", 8007200); UpdateVersionStorageInfo(); ASSERT_EQ(200u * 9u + 10900u + 900u * 9, vstorage_->estimated_compaction_needed_bytes()); } TEST_F(CompactionPickerTest, EstimateCompactionBytesNeeded2) { int num_levels = ioptions_.num_levels; ioptions_.level_compaction_dynamic_level_bytes = false; mutable_cf_options_.level0_file_num_compaction_trigger = 3; mutable_cf_options_.max_bytes_for_level_base = 1000; mutable_cf_options_.max_bytes_for_level_multiplier = 10; NewVersionStorage(num_levels, kCompactionStyleLevel); Add(0, 1U, "150", "200", 200); Add(0, 2U, "150", "200", 200); Add(0, 4U, "150", "200", 200); Add(0, 5U, "150", "200", 200); Add(0, 6U, "150", "200", 200); // Level 1 size will be 1400 after merging with L0 Add(1, 7U, "400", "500", 200); Add(1, 8U, "600", "700", 200); // Level 2 is less than target 10000 even added size of level 1 Add(2, 9U, "150", "200", 9100); // Level 3 over the target, but since level 4 is empty, we assume it will be // a trivial move. Add(3, 10U, "400", "500", 101000); UpdateVersionStorageInfo(); // estimated L1->L2 merge: 400 * (9100.0 / 1400.0 + 1.0) ASSERT_EQ(1400u + 3000u, vstorage_->estimated_compaction_needed_bytes()); } TEST_F(CompactionPickerTest, EstimateCompactionBytesNeeded3) { int num_levels = ioptions_.num_levels; ioptions_.level_compaction_dynamic_level_bytes = false; mutable_cf_options_.level0_file_num_compaction_trigger = 3; mutable_cf_options_.max_bytes_for_level_base = 1000; mutable_cf_options_.max_bytes_for_level_multiplier = 10; NewVersionStorage(num_levels, kCompactionStyleLevel); Add(0, 1U, "150", "200", 2000); Add(0, 2U, "150", "200", 2000); Add(0, 4U, "150", "200", 2000); Add(0, 5U, "150", "200", 2000); Add(0, 6U, "150", "200", 1000); // Level 1 size will be 10000 after merging with L0 Add(1, 7U, "400", "500", 500); Add(1, 8U, "600", "700", 500); Add(2, 9U, "150", "200", 10000); UpdateVersionStorageInfo(); ASSERT_EQ(10000u + 18000u, vstorage_->estimated_compaction_needed_bytes()); } TEST_F(CompactionPickerTest, EstimateCompactionBytesNeededDynamicLevel) { int num_levels = ioptions_.num_levels; ioptions_.level_compaction_dynamic_level_bytes = true; mutable_cf_options_.level0_file_num_compaction_trigger = 3; mutable_cf_options_.max_bytes_for_level_base = 1000; mutable_cf_options_.max_bytes_for_level_multiplier = 10; NewVersionStorage(num_levels, kCompactionStyleLevel); // Set Last level size 50000 // num_levels - 1 target 5000 // num_levels - 2 is base level with target 1000 (rounded up to // max_bytes_for_level_base). Add(num_levels - 1, 10U, "400", "500", 50000); Add(0, 1U, "150", "200", 200); Add(0, 2U, "150", "200", 200); Add(0, 4U, "150", "200", 200); Add(0, 5U, "150", "200", 200); Add(0, 6U, "150", "200", 200); // num_levels - 3 is over target by 100 + 1000 Add(num_levels - 3, 7U, "400", "500", 550); Add(num_levels - 3, 8U, "600", "700", 550); // num_levels - 2 is over target by 1100 + 200 Add(num_levels - 2, 9U, "150", "200", 5200); UpdateVersionStorageInfo(); // Merging to the second last level: (5200 / 2100 + 1) * 1100 // Merging to the last level: (50000 / 6300 + 1) * 1300 ASSERT_EQ(2100u + 3823u + 11617u, vstorage_->estimated_compaction_needed_bytes()); } TEST_F(CompactionPickerTest, IsBottommostLevelTest) { // case 1: Higher levels are empty NewVersionStorage(6, kCompactionStyleLevel); Add(0, 1U, "a", "m"); Add(0, 2U, "c", "z"); Add(1, 3U, "d", "e"); Add(1, 4U, "l", "p"); Add(2, 5U, "g", "i"); Add(2, 6U, "x", "z"); UpdateVersionStorageInfo(); SetCompactionInputFilesLevels(2, 1); AddToCompactionFiles(3U); AddToCompactionFiles(5U); bool result = Compaction::TEST_IsBottommostLevel(2, vstorage_.get(), input_files_); ASSERT_TRUE(result); // case 2: Higher levels have no overlap NewVersionStorage(6, kCompactionStyleLevel); Add(0, 1U, "a", "m"); Add(0, 2U, "c", "z"); Add(1, 3U, "d", "e"); Add(1, 4U, "l", "p"); Add(2, 5U, "g", "i"); Add(2, 6U, "x", "z"); Add(3, 7U, "k", "p"); Add(3, 8U, "t", "w"); Add(4, 9U, "a", "b"); Add(5, 10U, "c", "cc"); UpdateVersionStorageInfo(); SetCompactionInputFilesLevels(2, 1); AddToCompactionFiles(3U); AddToCompactionFiles(5U); result = Compaction::TEST_IsBottommostLevel(2, vstorage_.get(), input_files_); ASSERT_TRUE(result); // case 3.1: Higher levels (level 3) have overlap NewVersionStorage(6, kCompactionStyleLevel); Add(0, 1U, "a", "m"); Add(0, 2U, "c", "z"); Add(1, 3U, "d", "e"); Add(1, 4U, "l", "p"); Add(2, 5U, "g", "i"); Add(2, 6U, "x", "z"); Add(3, 7U, "e", "g"); Add(3, 8U, "h", "k"); Add(4, 9U, "a", "b"); Add(5, 10U, "c", "cc"); UpdateVersionStorageInfo(); SetCompactionInputFilesLevels(2, 1); AddToCompactionFiles(3U); AddToCompactionFiles(5U); result = Compaction::TEST_IsBottommostLevel(2, vstorage_.get(), input_files_); ASSERT_FALSE(result); // case 3.2: Higher levels (level 5) have overlap DeleteVersionStorage(); NewVersionStorage(6, kCompactionStyleLevel); Add(0, 1U, "a", "m"); Add(0, 2U, "c", "z"); Add(1, 3U, "d", "e"); Add(1, 4U, "l", "p"); Add(2, 5U, "g", "i"); Add(2, 6U, "x", "z"); Add(3, 7U, "j", "k"); Add(3, 8U, "l", "m"); Add(4, 9U, "a", "b"); Add(5, 10U, "c", "cc"); Add(5, 11U, "h", "k"); Add(5, 12U, "y", "yy"); Add(5, 13U, "z", "zz"); UpdateVersionStorageInfo(); SetCompactionInputFilesLevels(2, 1); AddToCompactionFiles(3U); AddToCompactionFiles(5U); result = Compaction::TEST_IsBottommostLevel(2, vstorage_.get(), input_files_); ASSERT_FALSE(result); // case 3.3: Higher levels (level 5) have overlap, but it's only overlapping // one key ("d") NewVersionStorage(6, kCompactionStyleLevel); Add(0, 1U, "a", "m"); Add(0, 2U, "c", "z"); Add(1, 3U, "d", "e"); Add(1, 4U, "l", "p"); Add(2, 5U, "g", "i"); Add(2, 6U, "x", "z"); Add(3, 7U, "j", "k"); Add(3, 8U, "l", "m"); Add(4, 9U, "a", "b"); Add(5, 10U, "c", "cc"); Add(5, 11U, "ccc", "d"); Add(5, 12U, "y", "yy"); Add(5, 13U, "z", "zz"); UpdateVersionStorageInfo(); SetCompactionInputFilesLevels(2, 1); AddToCompactionFiles(3U); AddToCompactionFiles(5U); result = Compaction::TEST_IsBottommostLevel(2, vstorage_.get(), input_files_); ASSERT_FALSE(result); // Level 0 files overlap NewVersionStorage(6, kCompactionStyleLevel); Add(0, 1U, "s", "t"); Add(0, 2U, "a", "m"); Add(0, 3U, "b", "z"); Add(0, 4U, "e", "f"); Add(5, 10U, "y", "z"); UpdateVersionStorageInfo(); SetCompactionInputFilesLevels(1, 0); AddToCompactionFiles(1U); AddToCompactionFiles(2U); AddToCompactionFiles(3U); AddToCompactionFiles(4U); result = Compaction::TEST_IsBottommostLevel(2, vstorage_.get(), input_files_); ASSERT_FALSE(result); // Level 0 files don't overlap NewVersionStorage(6, kCompactionStyleLevel); Add(0, 1U, "s", "t"); Add(0, 2U, "a", "m"); Add(0, 3U, "b", "k"); Add(0, 4U, "e", "f"); Add(5, 10U, "y", "z"); UpdateVersionStorageInfo(); SetCompactionInputFilesLevels(1, 0); AddToCompactionFiles(1U); AddToCompactionFiles(2U); AddToCompactionFiles(3U); AddToCompactionFiles(4U); result = Compaction::TEST_IsBottommostLevel(2, vstorage_.get(), input_files_); ASSERT_TRUE(result); // Level 1 files overlap NewVersionStorage(6, kCompactionStyleLevel); Add(0, 1U, "s", "t"); Add(0, 2U, "a", "m"); Add(0, 3U, "b", "k"); Add(0, 4U, "e", "f"); Add(1, 5U, "a", "m"); Add(1, 6U, "n", "o"); Add(1, 7U, "w", "y"); Add(5, 10U, "y", "z"); UpdateVersionStorageInfo(); SetCompactionInputFilesLevels(2, 0); AddToCompactionFiles(1U); AddToCompactionFiles(2U); AddToCompactionFiles(3U); AddToCompactionFiles(4U); AddToCompactionFiles(5U); AddToCompactionFiles(6U); AddToCompactionFiles(7U); result = Compaction::TEST_IsBottommostLevel(2, vstorage_.get(), input_files_); ASSERT_FALSE(result); DeleteVersionStorage(); } TEST_F(CompactionPickerTest, MaxCompactionBytesHit) { mutable_cf_options_.max_bytes_for_level_base = 1000000u; mutable_cf_options_.max_compaction_bytes = 800000u; ioptions_.level_compaction_dynamic_level_bytes = false; NewVersionStorage(6, kCompactionStyleLevel); // A compaction should be triggered and pick file 2 and 5. // It can expand because adding file 1 and 3, the compaction size will // exceed mutable_cf_options_.max_bytes_for_level_base. Add(1, 1U, "100", "150", 300000U); Add(1, 2U, "151", "200", 300001U, 0, 0); Add(1, 3U, "201", "250", 300000U, 0, 0); Add(1, 4U, "251", "300", 300000U, 0, 0); Add(2, 5U, "100", "256", 1U); UpdateVersionStorageInfo(); std::unique_ptr compaction(level_compaction_picker.PickCompaction( cf_name_, mutable_cf_options_, vstorage_.get(), &log_buffer_)); ASSERT_TRUE(compaction.get() != nullptr); ASSERT_EQ(2U, compaction->num_input_levels()); ASSERT_EQ(1U, compaction->num_input_files(0)); ASSERT_EQ(1U, compaction->num_input_files(1)); ASSERT_EQ(2U, compaction->input(0, 0)->fd.GetNumber()); ASSERT_EQ(5U, compaction->input(1, 0)->fd.GetNumber()); } TEST_F(CompactionPickerTest, MaxCompactionBytesNotHit) { mutable_cf_options_.max_bytes_for_level_base = 800000u; mutable_cf_options_.max_compaction_bytes = 1000000u; ioptions_.level_compaction_dynamic_level_bytes = false; NewVersionStorage(6, kCompactionStyleLevel); // A compaction should be triggered and pick file 2 and 5. // and it expands to file 1 and 3 too. Add(1, 1U, "100", "150", 300000U); Add(1, 2U, "151", "200", 300001U, 0, 0); Add(1, 3U, "201", "250", 300000U, 0, 0); Add(1, 4U, "251", "300", 300000U, 0, 0); Add(2, 5U, "000", "251", 1U); UpdateVersionStorageInfo(); std::unique_ptr compaction(level_compaction_picker.PickCompaction( cf_name_, mutable_cf_options_, vstorage_.get(), &log_buffer_)); ASSERT_TRUE(compaction.get() != nullptr); ASSERT_EQ(2U, compaction->num_input_levels()); ASSERT_EQ(3U, compaction->num_input_files(0)); ASSERT_EQ(1U, compaction->num_input_files(1)); ASSERT_EQ(1U, compaction->input(0, 0)->fd.GetNumber()); ASSERT_EQ(2U, compaction->input(0, 1)->fd.GetNumber()); ASSERT_EQ(3U, compaction->input(0, 2)->fd.GetNumber()); ASSERT_EQ(5U, compaction->input(1, 0)->fd.GetNumber()); } TEST_F(CompactionPickerTest, IsTrivialMoveOn) { mutable_cf_options_.max_bytes_for_level_base = 10000u; mutable_cf_options_.max_compaction_bytes = 10001u; ioptions_.level_compaction_dynamic_level_bytes = false; NewVersionStorage(6, kCompactionStyleLevel); // A compaction should be triggered and pick file 2 Add(1, 1U, "100", "150", 3000U); Add(1, 2U, "151", "200", 3001U); Add(1, 3U, "201", "250", 3000U); Add(1, 4U, "251", "300", 3000U); Add(3, 5U, "120", "130", 7000U); Add(3, 6U, "170", "180", 7000U); Add(3, 5U, "220", "230", 7000U); Add(3, 5U, "270", "280", 7000U); UpdateVersionStorageInfo(); std::unique_ptr compaction(level_compaction_picker.PickCompaction( cf_name_, mutable_cf_options_, vstorage_.get(), &log_buffer_)); ASSERT_TRUE(compaction.get() != nullptr); ASSERT_TRUE(compaction->IsTrivialMove()); } TEST_F(CompactionPickerTest, IsTrivialMoveOff) { mutable_cf_options_.max_bytes_for_level_base = 1000000u; mutable_cf_options_.max_compaction_bytes = 10000u; ioptions_.level_compaction_dynamic_level_bytes = false; NewVersionStorage(6, kCompactionStyleLevel); // A compaction should be triggered and pick all files from level 1 Add(1, 1U, "100", "150", 300000U, 0, 0); Add(1, 2U, "150", "200", 300000U, 0, 0); Add(1, 3U, "200", "250", 300000U, 0, 0); Add(1, 4U, "250", "300", 300000U, 0, 0); Add(3, 5U, "120", "130", 6000U); Add(3, 6U, "140", "150", 6000U); UpdateVersionStorageInfo(); std::unique_ptr compaction(level_compaction_picker.PickCompaction( cf_name_, mutable_cf_options_, vstorage_.get(), &log_buffer_)); ASSERT_TRUE(compaction.get() != nullptr); ASSERT_FALSE(compaction->IsTrivialMove()); } TEST_F(CompactionPickerTest, CacheNextCompactionIndex) { NewVersionStorage(6, kCompactionStyleLevel); mutable_cf_options_.max_compaction_bytes = 100000000000u; Add(1 /* level */, 1U /* file_number */, "100" /* smallest */, "149" /* largest */, 1000000000U /* file_size */); file_map_[1U].first->being_compacted = true; Add(1 /* level */, 2U /* file_number */, "150" /* smallest */, "199" /* largest */, 900000000U /* file_size */); Add(1 /* level */, 3U /* file_number */, "200" /* smallest */, "249" /* largest */, 800000000U /* file_size */); Add(1 /* level */, 4U /* file_number */, "250" /* smallest */, "299" /* largest */, 700000000U /* file_size */); Add(2 /* level */, 5U /* file_number */, "150" /* smallest */, "199" /* largest */, 1U /* file_size */); file_map_[5U].first->being_compacted = true; UpdateVersionStorageInfo(); std::unique_ptr compaction(level_compaction_picker.PickCompaction( cf_name_, mutable_cf_options_, vstorage_.get(), &log_buffer_)); ASSERT_TRUE(compaction.get() != nullptr); ASSERT_EQ(1U, compaction->num_input_levels()); ASSERT_EQ(1U, compaction->num_input_files(0)); ASSERT_EQ(0U, compaction->num_input_files(1)); ASSERT_EQ(3U, compaction->input(0, 0)->fd.GetNumber()); ASSERT_EQ(2, vstorage_->NextCompactionIndex(1 /* level */)); compaction.reset(level_compaction_picker.PickCompaction( cf_name_, mutable_cf_options_, vstorage_.get(), &log_buffer_)); ASSERT_TRUE(compaction.get() != nullptr); ASSERT_EQ(1U, compaction->num_input_levels()); ASSERT_EQ(1U, compaction->num_input_files(0)); ASSERT_EQ(0U, compaction->num_input_files(1)); ASSERT_EQ(4U, compaction->input(0, 0)->fd.GetNumber()); ASSERT_EQ(3, vstorage_->NextCompactionIndex(1 /* level */)); compaction.reset(level_compaction_picker.PickCompaction( cf_name_, mutable_cf_options_, vstorage_.get(), &log_buffer_)); ASSERT_TRUE(compaction.get() == nullptr); ASSERT_EQ(4, vstorage_->NextCompactionIndex(1 /* level */)); } } // namespace rocksdb int main(int argc, char** argv) { ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/db/compaction_picker_universal.cc000066400000000000000000001025221337235545400217270ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "db/compaction_picker_universal.h" #ifndef ROCKSDB_LITE #ifndef __STDC_FORMAT_MACROS #define __STDC_FORMAT_MACROS #endif #include #include #include #include #include #include "db/column_family.h" #include "monitoring/statistics.h" #include "util/filename.h" #include "util/log_buffer.h" #include "util/random.h" #include "util/string_util.h" #include "util/sync_point.h" namespace rocksdb { namespace { // Used in universal compaction when trivial move is enabled. // This structure is used for the construction of min heap // that contains the file meta data, the level of the file // and the index of the file in that level struct InputFileInfo { InputFileInfo() : f(nullptr), level(0), index(0) {} FileMetaData* f; size_t level; size_t index; }; // Used in universal compaction when trivial move is enabled. // This comparator is used for the construction of min heap // based on the smallest key of the file. struct SmallestKeyHeapComparator { explicit SmallestKeyHeapComparator(const Comparator* ucmp) { ucmp_ = ucmp; } bool operator()(InputFileInfo i1, InputFileInfo i2) const { return (ucmp_->Compare(i1.f->smallest.user_key(), i2.f->smallest.user_key()) > 0); } private: const Comparator* ucmp_; }; typedef std::priority_queue, SmallestKeyHeapComparator> SmallestKeyHeap; // This function creates the heap that is used to find if the files are // overlapping during universal compaction when the allow_trivial_move // is set. SmallestKeyHeap create_level_heap(Compaction* c, const Comparator* ucmp) { SmallestKeyHeap smallest_key_priority_q = SmallestKeyHeap(SmallestKeyHeapComparator(ucmp)); InputFileInfo input_file; for (size_t l = 0; l < c->num_input_levels(); l++) { if (c->num_input_files(l) != 0) { if (l == 0 && c->start_level() == 0) { for (size_t i = 0; i < c->num_input_files(0); i++) { input_file.f = c->input(0, i); input_file.level = 0; input_file.index = i; smallest_key_priority_q.push(std::move(input_file)); } } else { input_file.f = c->input(l, 0); input_file.level = l; input_file.index = 0; smallest_key_priority_q.push(std::move(input_file)); } } } return smallest_key_priority_q; } #ifndef NDEBUG // smallest_seqno and largest_seqno are set iff. `files` is not empty. void GetSmallestLargestSeqno(const std::vector& files, SequenceNumber* smallest_seqno, SequenceNumber* largest_seqno) { bool is_first = true; for (FileMetaData* f : files) { assert(f->fd.smallest_seqno <= f->fd.largest_seqno); if (is_first) { is_first = false; *smallest_seqno = f->fd.smallest_seqno; *largest_seqno = f->fd.largest_seqno; } else { if (f->fd.smallest_seqno < *smallest_seqno) { *smallest_seqno = f->fd.smallest_seqno; } if (f->fd.largest_seqno > *largest_seqno) { *largest_seqno = f->fd.largest_seqno; } } } } #endif } // namespace // Algorithm that checks to see if there are any overlapping // files in the input bool UniversalCompactionPicker::IsInputFilesNonOverlapping(Compaction* c) { auto comparator = icmp_->user_comparator(); int first_iter = 1; InputFileInfo prev, curr, next; SmallestKeyHeap smallest_key_priority_q = create_level_heap(c, icmp_->user_comparator()); while (!smallest_key_priority_q.empty()) { curr = smallest_key_priority_q.top(); smallest_key_priority_q.pop(); if (first_iter) { prev = curr; first_iter = 0; } else { if (comparator->Compare(prev.f->largest.user_key(), curr.f->smallest.user_key()) >= 0) { // found overlapping files, return false return false; } assert(comparator->Compare(curr.f->largest.user_key(), prev.f->largest.user_key()) > 0); prev = curr; } next.f = nullptr; if (curr.level != 0 && curr.index < c->num_input_files(curr.level) - 1) { next.f = c->input(curr.level, curr.index + 1); next.level = curr.level; next.index = curr.index + 1; } if (next.f) { smallest_key_priority_q.push(std::move(next)); } } return true; } bool UniversalCompactionPicker::NeedsCompaction( const VersionStorageInfo* vstorage) const { const int kLevel0 = 0; if (vstorage->CompactionScore(kLevel0) >= 1) { return true; } if (!vstorage->FilesMarkedForCompaction().empty()) { return true; } return false; } void UniversalCompactionPicker::SortedRun::Dump(char* out_buf, size_t out_buf_size, bool print_path) const { if (level == 0) { assert(file != nullptr); if (file->fd.GetPathId() == 0 || !print_path) { snprintf(out_buf, out_buf_size, "file %" PRIu64, file->fd.GetNumber()); } else { snprintf(out_buf, out_buf_size, "file %" PRIu64 "(path " "%" PRIu32 ")", file->fd.GetNumber(), file->fd.GetPathId()); } } else { snprintf(out_buf, out_buf_size, "level %d", level); } } void UniversalCompactionPicker::SortedRun::DumpSizeInfo( char* out_buf, size_t out_buf_size, size_t sorted_run_count) const { if (level == 0) { assert(file != nullptr); snprintf(out_buf, out_buf_size, "file %" PRIu64 "[%" ROCKSDB_PRIszt "] " "with size %" PRIu64 " (compensated size %" PRIu64 ")", file->fd.GetNumber(), sorted_run_count, file->fd.GetFileSize(), file->compensated_file_size); } else { snprintf(out_buf, out_buf_size, "level %d[%" ROCKSDB_PRIszt "] " "with size %" PRIu64 " (compensated size %" PRIu64 ")", level, sorted_run_count, size, compensated_file_size); } } std::vector UniversalCompactionPicker::CalculateSortedRuns( const VersionStorageInfo& vstorage, const ImmutableCFOptions& /*ioptions*/, const MutableCFOptions& mutable_cf_options) { std::vector ret; for (FileMetaData* f : vstorage.LevelFiles(0)) { ret.emplace_back(0, f, f->fd.GetFileSize(), f->compensated_file_size, f->being_compacted); } for (int level = 1; level < vstorage.num_levels(); level++) { uint64_t total_compensated_size = 0U; uint64_t total_size = 0U; bool being_compacted = false; bool is_first = true; for (FileMetaData* f : vstorage.LevelFiles(level)) { total_compensated_size += f->compensated_file_size; total_size += f->fd.GetFileSize(); if (mutable_cf_options.compaction_options_universal.allow_trivial_move == true) { if (f->being_compacted) { being_compacted = f->being_compacted; } } else { // Compaction always includes all files for a non-zero level, so for a // non-zero level, all the files should share the same being_compacted // value. // This assumption is only valid when // mutable_cf_options.compaction_options_universal.allow_trivial_move is // false assert(is_first || f->being_compacted == being_compacted); } if (is_first) { being_compacted = f->being_compacted; is_first = false; } } if (total_compensated_size > 0) { ret.emplace_back(level, nullptr, total_size, total_compensated_size, being_compacted); } } return ret; } // Universal style of compaction. Pick files that are contiguous in // time-range to compact. Compaction* UniversalCompactionPicker::PickCompaction( const std::string& cf_name, const MutableCFOptions& mutable_cf_options, VersionStorageInfo* vstorage, LogBuffer* log_buffer) { const int kLevel0 = 0; double score = vstorage->CompactionScore(kLevel0); std::vector sorted_runs = CalculateSortedRuns(*vstorage, ioptions_, mutable_cf_options); if (sorted_runs.size() == 0 || (vstorage->FilesMarkedForCompaction().empty() && sorted_runs.size() < (unsigned int)mutable_cf_options .level0_file_num_compaction_trigger)) { ROCKS_LOG_BUFFER(log_buffer, "[%s] Universal: nothing to do\n", cf_name.c_str()); TEST_SYNC_POINT_CALLBACK("UniversalCompactionPicker::PickCompaction:Return", nullptr); return nullptr; } VersionStorageInfo::LevelSummaryStorage tmp; ROCKS_LOG_BUFFER_MAX_SZ( log_buffer, 3072, "[%s] Universal: sorted runs files(%" ROCKSDB_PRIszt "): %s\n", cf_name.c_str(), sorted_runs.size(), vstorage->LevelSummary(&tmp)); // Check for size amplification first. Compaction* c = nullptr; if (sorted_runs.size() >= static_cast( mutable_cf_options.level0_file_num_compaction_trigger)) { if ((c = PickCompactionToReduceSizeAmp(cf_name, mutable_cf_options, vstorage, score, sorted_runs, log_buffer)) != nullptr) { ROCKS_LOG_BUFFER(log_buffer, "[%s] Universal: compacting for size amp\n", cf_name.c_str()); } else { // Size amplification is within limits. Try reducing read // amplification while maintaining file size ratios. unsigned int ratio = mutable_cf_options.compaction_options_universal.size_ratio; if ((c = PickCompactionToReduceSortedRuns( cf_name, mutable_cf_options, vstorage, score, ratio, UINT_MAX, sorted_runs, log_buffer)) != nullptr) { ROCKS_LOG_BUFFER(log_buffer, "[%s] Universal: compacting for size ratio\n", cf_name.c_str()); } else { // Size amplification and file size ratios are within configured limits. // If max read amplification is exceeding configured limits, then force // compaction without looking at filesize ratios and try to reduce // the number of files to fewer than level0_file_num_compaction_trigger. // This is guaranteed by NeedsCompaction() assert(sorted_runs.size() >= static_cast( mutable_cf_options.level0_file_num_compaction_trigger)); // Get the total number of sorted runs that are not being compacted int num_sr_not_compacted = 0; for (size_t i = 0; i < sorted_runs.size(); i++) { if (sorted_runs[i].being_compacted == false) { num_sr_not_compacted++; } } // The number of sorted runs that are not being compacted is greater // than the maximum allowed number of sorted runs if (num_sr_not_compacted > mutable_cf_options.level0_file_num_compaction_trigger) { unsigned int num_files = num_sr_not_compacted - mutable_cf_options.level0_file_num_compaction_trigger + 1; if ((c = PickCompactionToReduceSortedRuns( cf_name, mutable_cf_options, vstorage, score, UINT_MAX, num_files, sorted_runs, log_buffer)) != nullptr) { ROCKS_LOG_BUFFER(log_buffer, "[%s] Universal: compacting for file num -- %u\n", cf_name.c_str(), num_files); } } } } } if (c == nullptr) { if ((c = PickDeleteTriggeredCompaction(cf_name, mutable_cf_options, vstorage, score, sorted_runs, log_buffer)) != nullptr) { ROCKS_LOG_BUFFER(log_buffer, "[%s] Universal: delete triggered compaction\n", cf_name.c_str()); } } if (c == nullptr) { TEST_SYNC_POINT_CALLBACK("UniversalCompactionPicker::PickCompaction:Return", nullptr); return nullptr; } if (mutable_cf_options.compaction_options_universal.allow_trivial_move == true) { c->set_is_trivial_move(IsInputFilesNonOverlapping(c)); } // validate that all the chosen files of L0 are non overlapping in time #ifndef NDEBUG SequenceNumber prev_smallest_seqno = 0U; bool is_first = true; size_t level_index = 0U; if (c->start_level() == 0) { for (auto f : *c->inputs(0)) { assert(f->fd.smallest_seqno <= f->fd.largest_seqno); if (is_first) { is_first = false; } prev_smallest_seqno = f->fd.smallest_seqno; } level_index = 1U; } for (; level_index < c->num_input_levels(); level_index++) { if (c->num_input_files(level_index) != 0) { SequenceNumber smallest_seqno = 0U; SequenceNumber largest_seqno = 0U; GetSmallestLargestSeqno(*(c->inputs(level_index)), &smallest_seqno, &largest_seqno); if (is_first) { is_first = false; } else if (prev_smallest_seqno > 0) { // A level is considered as the bottommost level if there are // no files in higher levels or if files in higher levels do // not overlap with the files being compacted. Sequence numbers // of files in bottommost level can be set to 0 to help // compression. As a result, the following assert may not hold // if the prev_smallest_seqno is 0. assert(prev_smallest_seqno > largest_seqno); } prev_smallest_seqno = smallest_seqno; } } #endif // update statistics MeasureTime(ioptions_.statistics, NUM_FILES_IN_SINGLE_COMPACTION, c->inputs(0)->size()); RegisterCompaction(c); vstorage->ComputeCompactionScore(ioptions_, mutable_cf_options); TEST_SYNC_POINT_CALLBACK("UniversalCompactionPicker::PickCompaction:Return", c); return c; } uint32_t UniversalCompactionPicker::GetPathId( const ImmutableCFOptions& ioptions, const MutableCFOptions& mutable_cf_options, uint64_t file_size) { // Two conditions need to be satisfied: // (1) the target path needs to be able to hold the file's size // (2) Total size left in this and previous paths need to be not // smaller than expected future file size before this new file is // compacted, which is estimated based on size_ratio. // For example, if now we are compacting files of size (1, 1, 2, 4, 8), // we will make sure the target file, probably with size of 16, will be // placed in a path so that eventually when new files are generated and // compacted to (1, 1, 2, 4, 8, 16), all those files can be stored in or // before the path we chose. // // TODO(sdong): now the case of multiple column families is not // considered in this algorithm. So the target size can be violated in // that case. We need to improve it. uint64_t accumulated_size = 0; uint64_t future_size = file_size * (100 - mutable_cf_options.compaction_options_universal.size_ratio) / 100; uint32_t p = 0; assert(!ioptions.cf_paths.empty()); for (; p < ioptions.cf_paths.size() - 1; p++) { uint64_t target_size = ioptions.cf_paths[p].target_size; if (target_size > file_size && accumulated_size + (target_size - file_size) > future_size) { return p; } accumulated_size += target_size; } return p; } // // Consider compaction files based on their size differences with // the next file in time order. // Compaction* UniversalCompactionPicker::PickCompactionToReduceSortedRuns( const std::string& cf_name, const MutableCFOptions& mutable_cf_options, VersionStorageInfo* vstorage, double score, unsigned int ratio, unsigned int max_number_of_files_to_compact, const std::vector& sorted_runs, LogBuffer* log_buffer) { unsigned int min_merge_width = mutable_cf_options.compaction_options_universal.min_merge_width; unsigned int max_merge_width = mutable_cf_options.compaction_options_universal.max_merge_width; const SortedRun* sr = nullptr; bool done = false; size_t start_index = 0; unsigned int candidate_count = 0; unsigned int max_files_to_compact = std::min(max_merge_width, max_number_of_files_to_compact); min_merge_width = std::max(min_merge_width, 2U); // Caller checks the size before executing this function. This invariant is // important because otherwise we may have a possible integer underflow when // dealing with unsigned types. assert(sorted_runs.size() > 0); // Considers a candidate file only if it is smaller than the // total size accumulated so far. for (size_t loop = 0; loop < sorted_runs.size(); loop++) { candidate_count = 0; // Skip files that are already being compacted for (sr = nullptr; loop < sorted_runs.size(); loop++) { sr = &sorted_runs[loop]; if (!sr->being_compacted) { candidate_count = 1; break; } char file_num_buf[kFormatFileNumberBufSize]; sr->Dump(file_num_buf, sizeof(file_num_buf)); ROCKS_LOG_BUFFER(log_buffer, "[%s] Universal: %s" "[%d] being compacted, skipping", cf_name.c_str(), file_num_buf, loop); sr = nullptr; } // This file is not being compacted. Consider it as the // first candidate to be compacted. uint64_t candidate_size = sr != nullptr ? sr->compensated_file_size : 0; if (sr != nullptr) { char file_num_buf[kFormatFileNumberBufSize]; sr->Dump(file_num_buf, sizeof(file_num_buf), true); ROCKS_LOG_BUFFER(log_buffer, "[%s] Universal: Possible candidate %s[%d].", cf_name.c_str(), file_num_buf, loop); } // Check if the succeeding files need compaction. for (size_t i = loop + 1; candidate_count < max_files_to_compact && i < sorted_runs.size(); i++) { const SortedRun* succeeding_sr = &sorted_runs[i]; if (succeeding_sr->being_compacted) { break; } // Pick files if the total/last candidate file size (increased by the // specified ratio) is still larger than the next candidate file. // candidate_size is the total size of files picked so far with the // default kCompactionStopStyleTotalSize; with // kCompactionStopStyleSimilarSize, it's simply the size of the last // picked file. double sz = candidate_size * (100.0 + ratio) / 100.0; if (sz < static_cast(succeeding_sr->size)) { break; } if (mutable_cf_options.compaction_options_universal.stop_style == kCompactionStopStyleSimilarSize) { // Similar-size stopping rule: also check the last picked file isn't // far larger than the next candidate file. sz = (succeeding_sr->size * (100.0 + ratio)) / 100.0; if (sz < static_cast(candidate_size)) { // If the small file we've encountered begins a run of similar-size // files, we'll pick them up on a future iteration of the outer // loop. If it's some lonely straggler, it'll eventually get picked // by the last-resort read amp strategy which disregards size ratios. break; } candidate_size = succeeding_sr->compensated_file_size; } else { // default kCompactionStopStyleTotalSize candidate_size += succeeding_sr->compensated_file_size; } candidate_count++; } // Found a series of consecutive files that need compaction. if (candidate_count >= (unsigned int)min_merge_width) { start_index = loop; done = true; break; } else { for (size_t i = loop; i < loop + candidate_count && i < sorted_runs.size(); i++) { const SortedRun* skipping_sr = &sorted_runs[i]; char file_num_buf[256]; skipping_sr->DumpSizeInfo(file_num_buf, sizeof(file_num_buf), loop); ROCKS_LOG_BUFFER(log_buffer, "[%s] Universal: Skipping %s", cf_name.c_str(), file_num_buf); } } } if (!done || candidate_count <= 1) { return nullptr; } size_t first_index_after = start_index + candidate_count; // Compression is enabled if files compacted earlier already reached // size ratio of compression. bool enable_compression = true; int ratio_to_compress = mutable_cf_options.compaction_options_universal.compression_size_percent; if (ratio_to_compress >= 0) { uint64_t total_size = 0; for (auto& sorted_run : sorted_runs) { total_size += sorted_run.compensated_file_size; } uint64_t older_file_size = 0; for (size_t i = sorted_runs.size() - 1; i >= first_index_after; i--) { older_file_size += sorted_runs[i].size; if (older_file_size * 100L >= total_size * (long)ratio_to_compress) { enable_compression = false; break; } } } uint64_t estimated_total_size = 0; for (unsigned int i = 0; i < first_index_after; i++) { estimated_total_size += sorted_runs[i].size; } uint32_t path_id = GetPathId(ioptions_, mutable_cf_options, estimated_total_size); int start_level = sorted_runs[start_index].level; int output_level; if (first_index_after == sorted_runs.size()) { output_level = vstorage->num_levels() - 1; } else if (sorted_runs[first_index_after].level == 0) { output_level = 0; } else { output_level = sorted_runs[first_index_after].level - 1; } // last level is reserved for the files ingested behind if (ioptions_.allow_ingest_behind && (output_level == vstorage->num_levels() - 1)) { assert(output_level > 1); output_level--; } std::vector inputs(vstorage->num_levels()); for (size_t i = 0; i < inputs.size(); ++i) { inputs[i].level = start_level + static_cast(i); } for (size_t i = start_index; i < first_index_after; i++) { auto& picking_sr = sorted_runs[i]; if (picking_sr.level == 0) { FileMetaData* picking_file = picking_sr.file; inputs[0].files.push_back(picking_file); } else { auto& files = inputs[picking_sr.level - start_level].files; for (auto* f : vstorage->LevelFiles(picking_sr.level)) { files.push_back(f); } } char file_num_buf[256]; picking_sr.DumpSizeInfo(file_num_buf, sizeof(file_num_buf), i); ROCKS_LOG_BUFFER(log_buffer, "[%s] Universal: Picking %s", cf_name.c_str(), file_num_buf); } CompactionReason compaction_reason; if (max_number_of_files_to_compact == UINT_MAX) { compaction_reason = CompactionReason::kUniversalSizeRatio; } else { compaction_reason = CompactionReason::kUniversalSortedRunNum; } return new Compaction( vstorage, ioptions_, mutable_cf_options, std::move(inputs), output_level, MaxFileSizeForLevel(mutable_cf_options, output_level, kCompactionStyleUniversal), LLONG_MAX, path_id, GetCompressionType(ioptions_, vstorage, mutable_cf_options, start_level, 1, enable_compression), GetCompressionOptions(ioptions_, vstorage, start_level, enable_compression), /* max_subcompactions */ 0, /* grandparents */ {}, /* is manual */ false, score, false /* deletion_compaction */, compaction_reason); } // Look at overall size amplification. If size amplification // exceeeds the configured value, then do a compaction // of the candidate files all the way upto the earliest // base file (overrides configured values of file-size ratios, // min_merge_width and max_merge_width). // Compaction* UniversalCompactionPicker::PickCompactionToReduceSizeAmp( const std::string& cf_name, const MutableCFOptions& mutable_cf_options, VersionStorageInfo* vstorage, double score, const std::vector& sorted_runs, LogBuffer* log_buffer) { // percentage flexibility while reducing size amplification uint64_t ratio = mutable_cf_options.compaction_options_universal .max_size_amplification_percent; unsigned int candidate_count = 0; uint64_t candidate_size = 0; size_t start_index = 0; const SortedRun* sr = nullptr; if (sorted_runs.back().being_compacted) { return nullptr; } // Skip files that are already being compacted for (size_t loop = 0; loop < sorted_runs.size() - 1; loop++) { sr = &sorted_runs[loop]; if (!sr->being_compacted) { start_index = loop; // Consider this as the first candidate. break; } char file_num_buf[kFormatFileNumberBufSize]; sr->Dump(file_num_buf, sizeof(file_num_buf), true); ROCKS_LOG_BUFFER(log_buffer, "[%s] Universal: skipping %s[%d] compacted %s", cf_name.c_str(), file_num_buf, loop, " cannot be a candidate to reduce size amp.\n"); sr = nullptr; } if (sr == nullptr) { return nullptr; // no candidate files } { char file_num_buf[kFormatFileNumberBufSize]; sr->Dump(file_num_buf, sizeof(file_num_buf), true); ROCKS_LOG_BUFFER( log_buffer, "[%s] Universal: First candidate %s[%" ROCKSDB_PRIszt "] %s", cf_name.c_str(), file_num_buf, start_index, " to reduce size amp.\n"); } // keep adding up all the remaining files for (size_t loop = start_index; loop < sorted_runs.size() - 1; loop++) { sr = &sorted_runs[loop]; if (sr->being_compacted) { char file_num_buf[kFormatFileNumberBufSize]; sr->Dump(file_num_buf, sizeof(file_num_buf), true); ROCKS_LOG_BUFFER( log_buffer, "[%s] Universal: Possible candidate %s[%d] %s", cf_name.c_str(), file_num_buf, start_index, " is already being compacted. No size amp reduction possible.\n"); return nullptr; } candidate_size += sr->compensated_file_size; candidate_count++; } if (candidate_count == 0) { return nullptr; } // size of earliest file uint64_t earliest_file_size = sorted_runs.back().size; // size amplification = percentage of additional size if (candidate_size * 100 < ratio * earliest_file_size) { ROCKS_LOG_BUFFER( log_buffer, "[%s] Universal: size amp not needed. newer-files-total-size %" PRIu64 " earliest-file-size %" PRIu64, cf_name.c_str(), candidate_size, earliest_file_size); return nullptr; } else { ROCKS_LOG_BUFFER( log_buffer, "[%s] Universal: size amp needed. newer-files-total-size %" PRIu64 " earliest-file-size %" PRIu64, cf_name.c_str(), candidate_size, earliest_file_size); } assert(start_index < sorted_runs.size() - 1); // Estimate total file size uint64_t estimated_total_size = 0; for (size_t loop = start_index; loop < sorted_runs.size(); loop++) { estimated_total_size += sorted_runs[loop].size; } uint32_t path_id = GetPathId(ioptions_, mutable_cf_options, estimated_total_size); int start_level = sorted_runs[start_index].level; std::vector inputs(vstorage->num_levels()); for (size_t i = 0; i < inputs.size(); ++i) { inputs[i].level = start_level + static_cast(i); } // We always compact all the files, so always compress. for (size_t loop = start_index; loop < sorted_runs.size(); loop++) { auto& picking_sr = sorted_runs[loop]; if (picking_sr.level == 0) { FileMetaData* f = picking_sr.file; inputs[0].files.push_back(f); } else { auto& files = inputs[picking_sr.level - start_level].files; for (auto* f : vstorage->LevelFiles(picking_sr.level)) { files.push_back(f); } } char file_num_buf[256]; picking_sr.DumpSizeInfo(file_num_buf, sizeof(file_num_buf), loop); ROCKS_LOG_BUFFER(log_buffer, "[%s] Universal: size amp picking %s", cf_name.c_str(), file_num_buf); } // output files at the bottom most level, unless it's reserved int output_level = vstorage->num_levels() - 1; // last level is reserved for the files ingested behind if (ioptions_.allow_ingest_behind) { assert(output_level > 1); output_level--; } return new Compaction( vstorage, ioptions_, mutable_cf_options, std::move(inputs), output_level, MaxFileSizeForLevel(mutable_cf_options, output_level, kCompactionStyleUniversal), /* max_grandparent_overlap_bytes */ LLONG_MAX, path_id, GetCompressionType(ioptions_, vstorage, mutable_cf_options, output_level, 1), GetCompressionOptions(ioptions_, vstorage, output_level), /* max_subcompactions */ 0, /* grandparents */ {}, /* is manual */ false, score, false /* deletion_compaction */, CompactionReason::kUniversalSizeAmplification); } // Pick files marked for compaction. Typically, files are marked by // CompactOnDeleteCollector due to the presence of tombstones. Compaction* UniversalCompactionPicker::PickDeleteTriggeredCompaction( const std::string& cf_name, const MutableCFOptions& mutable_cf_options, VersionStorageInfo* vstorage, double score, const std::vector& /*sorted_runs*/, LogBuffer* /*log_buffer*/) { CompactionInputFiles start_level_inputs; int output_level; std::vector inputs; if (vstorage->num_levels() == 1) { // This is single level universal. Since we're basically trying to reclaim // space by processing files marked for compaction due to high tombstone // density, let's do the same thing as compaction to reduce size amp which // has the same goals. bool compact = false; start_level_inputs.level = 0; start_level_inputs.files.clear(); output_level = 0; for (FileMetaData* f : vstorage->LevelFiles(0)) { if (f->marked_for_compaction) { compact = true; } if (compact) { start_level_inputs.files.push_back(f); } } if (start_level_inputs.size() <= 1) { // If only the last file in L0 is marked for compaction, ignore it return nullptr; } inputs.push_back(start_level_inputs); } else { int start_level; // For multi-level universal, the strategy is to make this look more like // leveled. We pick one of the files marked for compaction and compact with // overlapping files in the adjacent level. PickFilesMarkedForCompaction(cf_name, vstorage, &start_level, &output_level, &start_level_inputs); if (start_level_inputs.empty()) { return nullptr; } // Pick the first non-empty level after the start_level for (output_level = start_level + 1; output_level < vstorage->num_levels(); output_level++) { if (vstorage->NumLevelFiles(output_level) != 0) { break; } } // If all higher levels are empty, pick the highest level as output level if (output_level == vstorage->num_levels()) { if (start_level == 0) { output_level = vstorage->num_levels() - 1; } else { // If start level is non-zero and all higher levels are empty, this // compaction will translate into a trivial move. Since the idea is // to reclaim space and trivial move doesn't help with that, we // skip compaction in this case and return nullptr return nullptr; } } if (ioptions_.allow_ingest_behind && output_level == vstorage->num_levels() - 1) { assert(output_level > 1); output_level--; } if (output_level != 0) { if (start_level == 0) { if (!GetOverlappingL0Files(vstorage, &start_level_inputs, output_level, nullptr)) { return nullptr; } } CompactionInputFiles output_level_inputs; int parent_index = -1; output_level_inputs.level = output_level; if (!SetupOtherInputs(cf_name, mutable_cf_options, vstorage, &start_level_inputs, &output_level_inputs, &parent_index, -1)) { return nullptr; } inputs.push_back(start_level_inputs); if (!output_level_inputs.empty()) { inputs.push_back(output_level_inputs); } if (FilesRangeOverlapWithCompaction(inputs, output_level)) { return nullptr; } } else { inputs.push_back(start_level_inputs); } } uint64_t estimated_total_size = 0; // Use size of the output level as estimated file size for (FileMetaData* f : vstorage->LevelFiles(output_level)) { estimated_total_size += f->fd.GetFileSize(); } uint32_t path_id = GetPathId(ioptions_, mutable_cf_options, estimated_total_size); return new Compaction( vstorage, ioptions_, mutable_cf_options, std::move(inputs), output_level, MaxFileSizeForLevel(mutable_cf_options, output_level, kCompactionStyleUniversal), /* max_grandparent_overlap_bytes */ LLONG_MAX, path_id, GetCompressionType(ioptions_, vstorage, mutable_cf_options, output_level, 1), GetCompressionOptions(ioptions_, vstorage, output_level), /* max_subcompactions */ 0, /* grandparents */ {}, /* is manual */ true, score, false /* deletion_compaction */, CompactionReason::kFilesMarkedForCompaction); } } // namespace rocksdb #endif // !ROCKSDB_LITE rocksdb-5.17.2/db/compaction_picker_universal.h000066400000000000000000000077501337235545400216000ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #ifndef ROCKSDB_LITE #include "db/compaction_picker.h" namespace rocksdb { class UniversalCompactionPicker : public CompactionPicker { public: UniversalCompactionPicker(const ImmutableCFOptions& ioptions, const InternalKeyComparator* icmp) : CompactionPicker(ioptions, icmp) {} virtual Compaction* PickCompaction(const std::string& cf_name, const MutableCFOptions& mutable_cf_options, VersionStorageInfo* vstorage, LogBuffer* log_buffer) override; virtual int MaxOutputLevel() const override { return NumberLevels() - 1; } virtual bool NeedsCompaction( const VersionStorageInfo* vstorage) const override; private: struct SortedRun { SortedRun(int _level, FileMetaData* _file, uint64_t _size, uint64_t _compensated_file_size, bool _being_compacted) : level(_level), file(_file), size(_size), compensated_file_size(_compensated_file_size), being_compacted(_being_compacted) { assert(compensated_file_size > 0); assert(level != 0 || file != nullptr); } void Dump(char* out_buf, size_t out_buf_size, bool print_path = false) const; // sorted_run_count is added into the string to print void DumpSizeInfo(char* out_buf, size_t out_buf_size, size_t sorted_run_count) const; int level; // `file` Will be null for level > 0. For level = 0, the sorted run is // for this file. FileMetaData* file; // For level > 0, `size` and `compensated_file_size` are sum of sizes all // files in the level. `being_compacted` should be the same for all files // in a non-zero level. Use the value here. uint64_t size; uint64_t compensated_file_size; bool being_compacted; }; // Pick Universal compaction to limit read amplification Compaction* PickCompactionToReduceSortedRuns( const std::string& cf_name, const MutableCFOptions& mutable_cf_options, VersionStorageInfo* vstorage, double score, unsigned int ratio, unsigned int num_files, const std::vector& sorted_runs, LogBuffer* log_buffer); // Pick Universal compaction to limit space amplification. Compaction* PickCompactionToReduceSizeAmp( const std::string& cf_name, const MutableCFOptions& mutable_cf_options, VersionStorageInfo* vstorage, double score, const std::vector& sorted_runs, LogBuffer* log_buffer); Compaction* PickDeleteTriggeredCompaction( const std::string& cf_name, const MutableCFOptions& mutable_cf_options, VersionStorageInfo* vstorage, double score, const std::vector& sorted_runs, LogBuffer* log_buffer); // Used in universal compaction when the enabled_trivial_move // option is set. Checks whether there are any overlapping files // in the input. Returns true if the input files are non // overlapping. bool IsInputFilesNonOverlapping(Compaction* c); static std::vector CalculateSortedRuns( const VersionStorageInfo& vstorage, const ImmutableCFOptions& ioptions, const MutableCFOptions& mutable_cf_options); // Pick a path ID to place a newly generated file, with its estimated file // size. static uint32_t GetPathId(const ImmutableCFOptions& ioptions, const MutableCFOptions& mutable_cf_options, uint64_t file_size); }; } // namespace rocksdb #endif // !ROCKSDB_LITE rocksdb-5.17.2/db/comparator_db_test.cc000066400000000000000000000452051337235545400200250ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include #include #include #include "memtable/stl_wrappers.h" #include "rocksdb/db.h" #include "rocksdb/env.h" #include "util/hash.h" #include "util/kv_map.h" #include "util/string_util.h" #include "util/testharness.h" #include "util/testutil.h" #include "utilities/merge_operators.h" using std::unique_ptr; namespace rocksdb { namespace { static const Comparator* comparator; class KVIter : public Iterator { public: explicit KVIter(const stl_wrappers::KVMap* map) : map_(map), iter_(map_->end()) {} virtual bool Valid() const override { return iter_ != map_->end(); } virtual void SeekToFirst() override { iter_ = map_->begin(); } virtual void SeekToLast() override { if (map_->empty()) { iter_ = map_->end(); } else { iter_ = map_->find(map_->rbegin()->first); } } virtual void Seek(const Slice& k) override { iter_ = map_->lower_bound(k.ToString()); } virtual void SeekForPrev(const Slice& k) override { iter_ = map_->upper_bound(k.ToString()); Prev(); } virtual void Next() override { ++iter_; } virtual void Prev() override { if (iter_ == map_->begin()) { iter_ = map_->end(); return; } --iter_; } virtual Slice key() const override { return iter_->first; } virtual Slice value() const override { return iter_->second; } virtual Status status() const override { return Status::OK(); } private: const stl_wrappers::KVMap* const map_; stl_wrappers::KVMap::const_iterator iter_; }; void AssertItersEqual(Iterator* iter1, Iterator* iter2) { ASSERT_EQ(iter1->Valid(), iter2->Valid()); if (iter1->Valid()) { ASSERT_EQ(iter1->key().ToString(), iter2->key().ToString()); ASSERT_EQ(iter1->value().ToString(), iter2->value().ToString()); } } // Measuring operations on DB (expect to be empty). // source_strings are candidate keys void DoRandomIteraratorTest(DB* db, std::vector source_strings, Random* rnd, int num_writes, int num_iter_ops, int num_trigger_flush) { stl_wrappers::KVMap map((stl_wrappers::LessOfComparator(comparator))); for (int i = 0; i < num_writes; i++) { if (num_trigger_flush > 0 && i != 0 && i % num_trigger_flush == 0) { db->Flush(FlushOptions()); } int type = rnd->Uniform(2); int index = rnd->Uniform(static_cast(source_strings.size())); auto& key = source_strings[index]; switch (type) { case 0: // put map[key] = key; ASSERT_OK(db->Put(WriteOptions(), key, key)); break; case 1: // delete if (map.find(key) != map.end()) { map.erase(key); } ASSERT_OK(db->Delete(WriteOptions(), key)); break; default: assert(false); } } std::unique_ptr iter(db->NewIterator(ReadOptions())); std::unique_ptr result_iter(new KVIter(&map)); bool is_valid = false; for (int i = 0; i < num_iter_ops; i++) { // Random walk and make sure iter and result_iter returns the // same key and value int type = rnd->Uniform(6); ASSERT_OK(iter->status()); switch (type) { case 0: // Seek to First iter->SeekToFirst(); result_iter->SeekToFirst(); break; case 1: // Seek to last iter->SeekToLast(); result_iter->SeekToLast(); break; case 2: { // Seek to random key auto key_idx = rnd->Uniform(static_cast(source_strings.size())); auto key = source_strings[key_idx]; iter->Seek(key); result_iter->Seek(key); break; } case 3: // Next if (is_valid) { iter->Next(); result_iter->Next(); } else { continue; } break; case 4: // Prev if (is_valid) { iter->Prev(); result_iter->Prev(); } else { continue; } break; default: { assert(type == 5); auto key_idx = rnd->Uniform(static_cast(source_strings.size())); auto key = source_strings[key_idx]; std::string result; auto status = db->Get(ReadOptions(), key, &result); if (map.find(key) == map.end()) { ASSERT_TRUE(status.IsNotFound()); } else { ASSERT_EQ(map[key], result); } break; } } AssertItersEqual(iter.get(), result_iter.get()); is_valid = iter->Valid(); } } class DoubleComparator : public Comparator { public: DoubleComparator() {} virtual const char* Name() const override { return "DoubleComparator"; } virtual int Compare(const Slice& a, const Slice& b) const override { #ifndef CYGWIN double da = std::stod(a.ToString()); double db = std::stod(b.ToString()); #else double da = std::strtod(a.ToString().c_str(), 0 /* endptr */); double db = std::strtod(a.ToString().c_str(), 0 /* endptr */); #endif if (da == db) { return a.compare(b); } else if (da > db) { return 1; } else { return -1; } } virtual void FindShortestSeparator(std::string* /*start*/, const Slice& /*limit*/) const override {} virtual void FindShortSuccessor(std::string* /*key*/) const override {} }; class HashComparator : public Comparator { public: HashComparator() {} virtual const char* Name() const override { return "HashComparator"; } virtual int Compare(const Slice& a, const Slice& b) const override { uint32_t ha = Hash(a.data(), a.size(), 66); uint32_t hb = Hash(b.data(), b.size(), 66); if (ha == hb) { return a.compare(b); } else if (ha > hb) { return 1; } else { return -1; } } virtual void FindShortestSeparator(std::string* /*start*/, const Slice& /*limit*/) const override {} virtual void FindShortSuccessor(std::string* /*key*/) const override {} }; class TwoStrComparator : public Comparator { public: TwoStrComparator() {} virtual const char* Name() const override { return "TwoStrComparator"; } virtual int Compare(const Slice& a, const Slice& b) const override { assert(a.size() >= 2); assert(b.size() >= 2); size_t size_a1 = static_cast(a[0]); size_t size_b1 = static_cast(b[0]); size_t size_a2 = static_cast(a[1]); size_t size_b2 = static_cast(b[1]); assert(size_a1 + size_a2 + 2 == a.size()); assert(size_b1 + size_b2 + 2 == b.size()); Slice a1 = Slice(a.data() + 2, size_a1); Slice b1 = Slice(b.data() + 2, size_b1); Slice a2 = Slice(a.data() + 2 + size_a1, size_a2); Slice b2 = Slice(b.data() + 2 + size_b1, size_b2); if (a1 != b1) { return a1.compare(b1); } return a2.compare(b2); } virtual void FindShortestSeparator(std::string* /*start*/, const Slice& /*limit*/) const override {} virtual void FindShortSuccessor(std::string* /*key*/) const override {} }; } // namespace class ComparatorDBTest : public testing::Test, virtual public ::testing::WithParamInterface { private: std::string dbname_; Env* env_; DB* db_; Options last_options_; std::unique_ptr comparator_guard; public: ComparatorDBTest() : env_(Env::Default()), db_(nullptr) { comparator = BytewiseComparator(); dbname_ = test::PerThreadDBPath("comparator_db_test"); BlockBasedTableOptions toptions; toptions.format_version = GetParam(); last_options_.table_factory.reset( rocksdb::NewBlockBasedTableFactory(toptions)); EXPECT_OK(DestroyDB(dbname_, last_options_)); } ~ComparatorDBTest() { delete db_; EXPECT_OK(DestroyDB(dbname_, last_options_)); comparator = BytewiseComparator(); } DB* GetDB() { return db_; } void SetOwnedComparator(const Comparator* cmp, bool owner = true) { if (owner) { comparator_guard.reset(cmp); } else { comparator_guard.reset(); } comparator = cmp; last_options_.comparator = cmp; } // Return the current option configuration. Options* GetOptions() { return &last_options_; } void DestroyAndReopen() { // Destroy using last options Destroy(); ASSERT_OK(TryReopen()); } void Destroy() { delete db_; db_ = nullptr; ASSERT_OK(DestroyDB(dbname_, last_options_)); } Status TryReopen() { delete db_; db_ = nullptr; last_options_.create_if_missing = true; return DB::Open(last_options_, dbname_, &db_); } }; INSTANTIATE_TEST_CASE_P(FormatDef, ComparatorDBTest, testing::Values(test::kDefaultFormatVersion)); INSTANTIATE_TEST_CASE_P(FormatLatest, ComparatorDBTest, testing::Values(test::kLatestFormatVersion)); TEST_P(ComparatorDBTest, Bytewise) { for (int rand_seed = 301; rand_seed < 306; rand_seed++) { DestroyAndReopen(); Random rnd(rand_seed); DoRandomIteraratorTest(GetDB(), {"a", "b", "c", "d", "e", "f", "g", "h", "i"}, &rnd, 8, 100, 3); } } TEST_P(ComparatorDBTest, SimpleSuffixReverseComparator) { SetOwnedComparator(new test::SimpleSuffixReverseComparator()); for (int rnd_seed = 301; rnd_seed < 316; rnd_seed++) { Options* opt = GetOptions(); opt->comparator = comparator; DestroyAndReopen(); Random rnd(rnd_seed); std::vector source_strings; std::vector source_prefixes; // Randomly generate 5 prefixes for (int i = 0; i < 5; i++) { source_prefixes.push_back(test::RandomHumanReadableString(&rnd, 8)); } for (int j = 0; j < 20; j++) { int prefix_index = rnd.Uniform(static_cast(source_prefixes.size())); std::string key = source_prefixes[prefix_index] + test::RandomHumanReadableString(&rnd, rnd.Uniform(8)); source_strings.push_back(key); } DoRandomIteraratorTest(GetDB(), source_strings, &rnd, 30, 600, 66); } } TEST_P(ComparatorDBTest, Uint64Comparator) { SetOwnedComparator(test::Uint64Comparator(), false /* owner */); for (int rnd_seed = 301; rnd_seed < 316; rnd_seed++) { Options* opt = GetOptions(); opt->comparator = comparator; DestroyAndReopen(); Random rnd(rnd_seed); Random64 rnd64(rnd_seed); std::vector source_strings; // Randomly generate source keys for (int i = 0; i < 100; i++) { uint64_t r = rnd64.Next(); std::string str; str.resize(8); memcpy(&str[0], static_cast(&r), 8); source_strings.push_back(str); } DoRandomIteraratorTest(GetDB(), source_strings, &rnd, 200, 1000, 66); } } TEST_P(ComparatorDBTest, DoubleComparator) { SetOwnedComparator(new DoubleComparator()); for (int rnd_seed = 301; rnd_seed < 316; rnd_seed++) { Options* opt = GetOptions(); opt->comparator = comparator; DestroyAndReopen(); Random rnd(rnd_seed); std::vector source_strings; // Randomly generate source keys for (int i = 0; i < 100; i++) { uint32_t r = rnd.Next(); uint32_t divide_order = rnd.Uniform(8); double to_divide = 1.0; for (uint32_t j = 0; j < divide_order; j++) { to_divide *= 10.0; } source_strings.push_back(ToString(r / to_divide)); } DoRandomIteraratorTest(GetDB(), source_strings, &rnd, 200, 1000, 66); } } TEST_P(ComparatorDBTest, HashComparator) { SetOwnedComparator(new HashComparator()); for (int rnd_seed = 301; rnd_seed < 316; rnd_seed++) { Options* opt = GetOptions(); opt->comparator = comparator; DestroyAndReopen(); Random rnd(rnd_seed); std::vector source_strings; // Randomly generate source keys for (int i = 0; i < 100; i++) { source_strings.push_back(test::RandomKey(&rnd, 8)); } DoRandomIteraratorTest(GetDB(), source_strings, &rnd, 200, 1000, 66); } } TEST_P(ComparatorDBTest, TwoStrComparator) { SetOwnedComparator(new TwoStrComparator()); for (int rnd_seed = 301; rnd_seed < 316; rnd_seed++) { Options* opt = GetOptions(); opt->comparator = comparator; DestroyAndReopen(); Random rnd(rnd_seed); std::vector source_strings; // Randomly generate source keys for (int i = 0; i < 100; i++) { std::string str; uint32_t size1 = rnd.Uniform(8); uint32_t size2 = rnd.Uniform(8); str.append(1, static_cast(size1)); str.append(1, static_cast(size2)); str.append(test::RandomKey(&rnd, size1)); str.append(test::RandomKey(&rnd, size2)); source_strings.push_back(str); } DoRandomIteraratorTest(GetDB(), source_strings, &rnd, 200, 1000, 66); } } TEST_P(ComparatorDBTest, IsSameLengthImmediateSuccessor) { { // different length Slice s("abcxy"); Slice t("abcxyz"); ASSERT_FALSE(BytewiseComparator()->IsSameLengthImmediateSuccessor(s, t)); } { Slice s("abcxyz"); Slice t("abcxy"); ASSERT_FALSE(BytewiseComparator()->IsSameLengthImmediateSuccessor(s, t)); } { // not last byte different Slice s("abc1xyz"); Slice t("abc2xyz"); ASSERT_FALSE(BytewiseComparator()->IsSameLengthImmediateSuccessor(s, t)); } { // same string Slice s("abcxyz"); Slice t("abcxyz"); ASSERT_FALSE(BytewiseComparator()->IsSameLengthImmediateSuccessor(s, t)); } { Slice s("abcxy"); Slice t("abcxz"); ASSERT_TRUE(BytewiseComparator()->IsSameLengthImmediateSuccessor(s, t)); } { Slice s("abcxz"); Slice t("abcxy"); ASSERT_FALSE(BytewiseComparator()->IsSameLengthImmediateSuccessor(s, t)); } { const char s_array[] = "\x50\x8a\xac"; const char t_array[] = "\x50\x8a\xad"; Slice s(s_array); Slice t(t_array); ASSERT_TRUE(BytewiseComparator()->IsSameLengthImmediateSuccessor(s, t)); } { const char s_array[] = "\x50\x8a\xff"; const char t_array[] = "\x50\x8b\x00"; Slice s(s_array, 3); Slice t(t_array, 3); ASSERT_TRUE(BytewiseComparator()->IsSameLengthImmediateSuccessor(s, t)); } { const char s_array[] = "\x50\x8a\xff\xff"; const char t_array[] = "\x50\x8b\x00\x00"; Slice s(s_array, 4); Slice t(t_array, 4); ASSERT_TRUE(BytewiseComparator()->IsSameLengthImmediateSuccessor(s, t)); } { const char s_array[] = "\x50\x8a\xff\xff"; const char t_array[] = "\x50\x8b\x00\x01"; Slice s(s_array, 4); Slice t(t_array, 4); ASSERT_FALSE(BytewiseComparator()->IsSameLengthImmediateSuccessor(s, t)); } } TEST_P(ComparatorDBTest, FindShortestSeparator) { std::string s1 = "abc1xyz"; std::string s2 = "abc3xy"; BytewiseComparator()->FindShortestSeparator(&s1, s2); ASSERT_EQ("abc2", s1); s1 = "abc5xyztt"; ReverseBytewiseComparator()->FindShortestSeparator(&s1, s2); ASSERT_EQ("abc5", s1); s1 = "abc3"; s2 = "abc2xy"; ReverseBytewiseComparator()->FindShortestSeparator(&s1, s2); ASSERT_EQ("abc3", s1); s1 = "abc3xyz"; s2 = "abc2xy"; ReverseBytewiseComparator()->FindShortestSeparator(&s1, s2); ASSERT_EQ("abc3", s1); s1 = "abc3xyz"; s2 = "abc2"; ReverseBytewiseComparator()->FindShortestSeparator(&s1, s2); ASSERT_EQ("abc3", s1); std::string old_s1 = s1 = "abc2xy"; s2 = "abc2"; ReverseBytewiseComparator()->FindShortestSeparator(&s1, s2); ASSERT_TRUE(old_s1 >= s1); ASSERT_TRUE(s1 > s2); } TEST_P(ComparatorDBTest, SeparatorSuccessorRandomizeTest) { // Char list for boundary cases. std::array char_list{{0, 1, 2, 253, 254, 255}}; Random rnd(301); for (int attempts = 0; attempts < 1000; attempts++) { uint32_t size1 = rnd.Skewed(4); uint32_t size2; if (rnd.OneIn(2)) { // size2 to be random size size2 = rnd.Skewed(4); } else { // size1 is within [-2, +2] of size1 int diff = static_cast(rnd.Uniform(5)) - 2; int tmp_size2 = static_cast(size1) + diff; if (tmp_size2 < 0) { tmp_size2 = 0; } size2 = static_cast(tmp_size2); } std::string s1; std::string s2; for (uint32_t i = 0; i < size1; i++) { if (rnd.OneIn(2)) { // Use random byte s1 += static_cast(rnd.Uniform(256)); } else { // Use one byte in char_list char c = static_cast(char_list[rnd.Uniform(sizeof(char_list))]); s1 += c; } } // First set s2 to be the same as s1, and then modify s2. s2 = s1; s2.resize(size2); // We start from the back of the string if (size2 > 0) { uint32_t pos = size2 - 1; do { if (pos >= size1 || rnd.OneIn(4)) { // For 1/4 chance, use random byte s2[pos] = static_cast(rnd.Uniform(256)); } else if (rnd.OneIn(4)) { // In 1/4 chance, stop here. break; } else { // Create a char within [-2, +2] of the matching char of s1. int diff = static_cast(rnd.Uniform(5)) - 2; // char may be signed or unsigned based on platform. int s1_char = static_cast(static_cast(s1[pos])); int s2_char = s1_char + diff; if (s2_char < 0) { s2_char = 0; } if (s2_char > 255) { s2_char = 255; } s2[pos] = static_cast(s2_char); } } while (pos-- != 0); } // Test separators for (int rev = 0; rev < 2; rev++) { if (rev == 1) { // switch s1 and s2 std::string t = s1; s1 = s2; s2 = t; } std::string separator = s1; BytewiseComparator()->FindShortestSeparator(&separator, s2); std::string rev_separator = s1; ReverseBytewiseComparator()->FindShortestSeparator(&rev_separator, s2); if (s1 == s2) { ASSERT_EQ(s1, separator); ASSERT_EQ(s2, rev_separator); } else if (s1 < s2) { ASSERT_TRUE(s1 <= separator); ASSERT_TRUE(s2 > separator); ASSERT_LE(separator.size(), std::max(s1.size(), s2.size())); ASSERT_EQ(s1, rev_separator); } else { ASSERT_TRUE(s1 >= rev_separator); ASSERT_TRUE(s2 < rev_separator); ASSERT_LE(rev_separator.size(), std::max(s1.size(), s2.size())); ASSERT_EQ(s1, separator); } } // Test successors std::string succ = s1; BytewiseComparator()->FindShortSuccessor(&succ); ASSERT_TRUE(succ >= s1); succ = s1; ReverseBytewiseComparator()->FindShortSuccessor(&succ); ASSERT_TRUE(succ <= s1); } } } // namespace rocksdb int main(int argc, char** argv) { ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/db/convenience.cc000066400000000000000000000044571337235545400164520ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // #ifndef ROCKSDB_LITE #include "rocksdb/convenience.h" #include "db/db_impl.h" #include "util/cast_util.h" namespace rocksdb { void CancelAllBackgroundWork(DB* db, bool wait) { (static_cast_with_check(db->GetRootDB())) ->CancelAllBackgroundWork(wait); } Status DeleteFilesInRange(DB* db, ColumnFamilyHandle* column_family, const Slice* begin, const Slice* end, bool include_end) { RangePtr range(begin, end); return DeleteFilesInRanges(db, column_family, &range, 1, include_end); } Status DeleteFilesInRanges(DB* db, ColumnFamilyHandle* column_family, const RangePtr* ranges, size_t n, bool include_end) { return (static_cast_with_check(db->GetRootDB())) ->DeleteFilesInRanges(column_family, ranges, n, include_end); } Status VerifySstFileChecksum(const Options& options, const EnvOptions& env_options, const std::string& file_path) { unique_ptr file; uint64_t file_size; InternalKeyComparator internal_comparator(options.comparator); ImmutableCFOptions ioptions(options); Status s = ioptions.env->NewRandomAccessFile(file_path, &file, env_options); if (s.ok()) { s = ioptions.env->GetFileSize(file_path, &file_size); } else { return s; } unique_ptr table_reader; std::unique_ptr file_reader( new RandomAccessFileReader(std::move(file), file_path)); const bool kImmortal = true; s = ioptions.table_factory->NewTableReader( TableReaderOptions(ioptions, options.prefix_extractor.get(), env_options, internal_comparator, false /* skip_filters */, !kImmortal, -1 /* level */), std::move(file_reader), file_size, &table_reader, false /* prefetch_index_and_filter_in_cache */); if (!s.ok()) { return s; } s = table_reader->VerifyChecksum(); return s; } } // namespace rocksdb #endif // ROCKSDB_LITE rocksdb-5.17.2/db/corruption_test.cc000066400000000000000000000362631337235545400174210ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #ifndef ROCKSDB_LITE #include "rocksdb/db.h" #include #include #include #include #include #include "db/db_impl.h" #include "db/log_format.h" #include "db/version_set.h" #include "rocksdb/cache.h" #include "rocksdb/convenience.h" #include "rocksdb/env.h" #include "rocksdb/table.h" #include "rocksdb/write_batch.h" #include "util/filename.h" #include "util/string_util.h" #include "util/testharness.h" #include "util/testutil.h" namespace rocksdb { static const int kValueSize = 1000; class CorruptionTest : public testing::Test { public: test::ErrorEnv env_; std::string dbname_; shared_ptr tiny_cache_; Options options_; DB* db_; CorruptionTest() { // If LRU cache shard bit is smaller than 2 (or -1 which will automatically // set it to 0), test SequenceNumberRecovery will fail, likely because of a // bug in recovery code. Keep it 4 for now to make the test passes. tiny_cache_ = NewLRUCache(100, 4); options_.wal_recovery_mode = WALRecoveryMode::kTolerateCorruptedTailRecords; options_.env = &env_; dbname_ = test::PerThreadDBPath("corruption_test"); DestroyDB(dbname_, options_); db_ = nullptr; options_.create_if_missing = true; BlockBasedTableOptions table_options; table_options.block_size_deviation = 0; // make unit test pass for now options_.table_factory.reset(NewBlockBasedTableFactory(table_options)); Reopen(); options_.create_if_missing = false; } ~CorruptionTest() { delete db_; DestroyDB(dbname_, Options()); } void CloseDb() { delete db_; db_ = nullptr; } Status TryReopen(Options* options = nullptr) { delete db_; db_ = nullptr; Options opt = (options ? *options : options_); opt.env = &env_; opt.arena_block_size = 4096; BlockBasedTableOptions table_options; table_options.block_cache = tiny_cache_; table_options.block_size_deviation = 0; opt.table_factory.reset(NewBlockBasedTableFactory(table_options)); return DB::Open(opt, dbname_, &db_); } void Reopen(Options* options = nullptr) { ASSERT_OK(TryReopen(options)); } void RepairDB() { delete db_; db_ = nullptr; ASSERT_OK(::rocksdb::RepairDB(dbname_, options_)); } void Build(int n, int flush_every = 0) { std::string key_space, value_space; WriteBatch batch; for (int i = 0; i < n; i++) { if (flush_every != 0 && i != 0 && i % flush_every == 0) { DBImpl* dbi = reinterpret_cast(db_); dbi->TEST_FlushMemTable(); } //if ((i % 100) == 0) fprintf(stderr, "@ %d of %d\n", i, n); Slice key = Key(i, &key_space); batch.Clear(); batch.Put(key, Value(i, &value_space)); ASSERT_OK(db_->Write(WriteOptions(), &batch)); } } void Check(int min_expected, int max_expected) { uint64_t next_expected = 0; uint64_t missed = 0; int bad_keys = 0; int bad_values = 0; int correct = 0; std::string value_space; // Do not verify checksums. If we verify checksums then the // db itself will raise errors because data is corrupted. // Instead, we want the reads to be successful and this test // will detect whether the appropriate corruptions have // occurred. Iterator* iter = db_->NewIterator(ReadOptions(false, true)); for (iter->SeekToFirst(); iter->Valid(); iter->Next()) { uint64_t key; Slice in(iter->key()); if (!ConsumeDecimalNumber(&in, &key) || !in.empty() || key < next_expected) { bad_keys++; continue; } missed += (key - next_expected); next_expected = key + 1; if (iter->value() != Value(static_cast(key), &value_space)) { bad_values++; } else { correct++; } } delete iter; fprintf(stderr, "expected=%d..%d; got=%d; bad_keys=%d; bad_values=%d; missed=%llu\n", min_expected, max_expected, correct, bad_keys, bad_values, static_cast(missed)); ASSERT_LE(min_expected, correct); ASSERT_GE(max_expected, correct); } void CorruptFile(const std::string& fname, int offset, int bytes_to_corrupt) { struct stat sbuf; if (stat(fname.c_str(), &sbuf) != 0) { const char* msg = strerror(errno); FAIL() << fname << ": " << msg; } if (offset < 0) { // Relative to end of file; make it absolute if (-offset > sbuf.st_size) { offset = 0; } else { offset = static_cast(sbuf.st_size + offset); } } if (offset > sbuf.st_size) { offset = static_cast(sbuf.st_size); } if (offset + bytes_to_corrupt > sbuf.st_size) { bytes_to_corrupt = static_cast(sbuf.st_size - offset); } // Do it std::string contents; Status s = ReadFileToString(Env::Default(), fname, &contents); ASSERT_TRUE(s.ok()) << s.ToString(); for (int i = 0; i < bytes_to_corrupt; i++) { contents[i + offset] ^= 0x80; } s = WriteStringToFile(Env::Default(), contents, fname); ASSERT_TRUE(s.ok()) << s.ToString(); Options options; EnvOptions env_options; ASSERT_NOK(VerifySstFileChecksum(options, env_options, fname)); } void Corrupt(FileType filetype, int offset, int bytes_to_corrupt) { // Pick file to corrupt std::vector filenames; ASSERT_OK(env_.GetChildren(dbname_, &filenames)); uint64_t number; FileType type; std::string fname; int picked_number = -1; for (size_t i = 0; i < filenames.size(); i++) { if (ParseFileName(filenames[i], &number, &type) && type == filetype && static_cast(number) > picked_number) { // Pick latest file fname = dbname_ + "/" + filenames[i]; picked_number = static_cast(number); } } ASSERT_TRUE(!fname.empty()) << filetype; CorruptFile(fname, offset, bytes_to_corrupt); } // corrupts exactly one file at level `level`. if no file found at level, // asserts void CorruptTableFileAtLevel(int level, int offset, int bytes_to_corrupt) { std::vector metadata; db_->GetLiveFilesMetaData(&metadata); for (const auto& m : metadata) { if (m.level == level) { CorruptFile(dbname_ + "/" + m.name, offset, bytes_to_corrupt); return; } } FAIL() << "no file found at level"; } int Property(const std::string& name) { std::string property; int result; if (db_->GetProperty(name, &property) && sscanf(property.c_str(), "%d", &result) == 1) { return result; } else { return -1; } } // Return the ith key Slice Key(int i, std::string* storage) { char buf[100]; snprintf(buf, sizeof(buf), "%016d", i); storage->assign(buf, strlen(buf)); return Slice(*storage); } // Return the value to associate with the specified key Slice Value(int k, std::string* storage) { if (k == 0) { // Ugh. Random seed of 0 used to produce no entropy. This code // preserves the implementation that was in place when all of the // magic values in this file were picked. *storage = std::string(kValueSize, ' '); return Slice(*storage); } else { Random r(k); return test::RandomString(&r, kValueSize, storage); } } }; TEST_F(CorruptionTest, Recovery) { Build(100); Check(100, 100); #ifdef OS_WIN // On Wndows OS Disk cache does not behave properly // We do not call FlushBuffers on every Flush. If we do not close // the log file prior to the corruption we end up with the first // block not corrupted but only the second. However, under the debugger // things work just fine but never pass when running normally // For that reason people may want to run with unbuffered I/O. That option // is not available for WAL though. CloseDb(); #endif Corrupt(kLogFile, 19, 1); // WriteBatch tag for first record Corrupt(kLogFile, log::kBlockSize + 1000, 1); // Somewhere in second block ASSERT_TRUE(!TryReopen().ok()); options_.paranoid_checks = false; Reopen(&options_); // The 64 records in the first two log blocks are completely lost. Check(36, 36); } TEST_F(CorruptionTest, RecoverWriteError) { env_.writable_file_error_ = true; Status s = TryReopen(); ASSERT_TRUE(!s.ok()); } TEST_F(CorruptionTest, NewFileErrorDuringWrite) { // Do enough writing to force minor compaction env_.writable_file_error_ = true; const int num = static_cast(3 + (Options().write_buffer_size / kValueSize)); std::string value_storage; Status s; bool failed = false; for (int i = 0; i < num; i++) { WriteBatch batch; batch.Put("a", Value(100, &value_storage)); s = db_->Write(WriteOptions(), &batch); if (!s.ok()) { failed = true; } ASSERT_TRUE(!failed || !s.ok()); } ASSERT_TRUE(!s.ok()); ASSERT_GE(env_.num_writable_file_errors_, 1); env_.writable_file_error_ = false; Reopen(); } TEST_F(CorruptionTest, TableFile) { Build(100); DBImpl* dbi = reinterpret_cast(db_); dbi->TEST_FlushMemTable(); dbi->TEST_CompactRange(0, nullptr, nullptr); dbi->TEST_CompactRange(1, nullptr, nullptr); Corrupt(kTableFile, 100, 1); Check(99, 99); ASSERT_NOK(dbi->VerifyChecksum()); } TEST_F(CorruptionTest, TableFileIndexData) { Options options; // very big, we'll trigger flushes manually options.write_buffer_size = 100 * 1024 * 1024; Reopen(&options); // build 2 tables, flush at 5000 Build(10000, 5000); DBImpl* dbi = reinterpret_cast(db_); dbi->TEST_FlushMemTable(); // corrupt an index block of an entire file Corrupt(kTableFile, -2000, 500); Reopen(); dbi = reinterpret_cast(db_); // one full file may be readable, since only one was corrupted // the other file should be fully non-readable, since index was corrupted Check(0, 5000); ASSERT_NOK(dbi->VerifyChecksum()); } TEST_F(CorruptionTest, MissingDescriptor) { Build(1000); RepairDB(); Reopen(); Check(1000, 1000); } TEST_F(CorruptionTest, SequenceNumberRecovery) { ASSERT_OK(db_->Put(WriteOptions(), "foo", "v1")); ASSERT_OK(db_->Put(WriteOptions(), "foo", "v2")); ASSERT_OK(db_->Put(WriteOptions(), "foo", "v3")); ASSERT_OK(db_->Put(WriteOptions(), "foo", "v4")); ASSERT_OK(db_->Put(WriteOptions(), "foo", "v5")); RepairDB(); Reopen(); std::string v; ASSERT_OK(db_->Get(ReadOptions(), "foo", &v)); ASSERT_EQ("v5", v); // Write something. If sequence number was not recovered properly, // it will be hidden by an earlier write. ASSERT_OK(db_->Put(WriteOptions(), "foo", "v6")); ASSERT_OK(db_->Get(ReadOptions(), "foo", &v)); ASSERT_EQ("v6", v); Reopen(); ASSERT_OK(db_->Get(ReadOptions(), "foo", &v)); ASSERT_EQ("v6", v); } TEST_F(CorruptionTest, CorruptedDescriptor) { ASSERT_OK(db_->Put(WriteOptions(), "foo", "hello")); DBImpl* dbi = reinterpret_cast(db_); dbi->TEST_FlushMemTable(); dbi->TEST_CompactRange(0, nullptr, nullptr); Corrupt(kDescriptorFile, 0, 1000); Status s = TryReopen(); ASSERT_TRUE(!s.ok()); RepairDB(); Reopen(); std::string v; ASSERT_OK(db_->Get(ReadOptions(), "foo", &v)); ASSERT_EQ("hello", v); } TEST_F(CorruptionTest, CompactionInputError) { Options options; Reopen(&options); Build(10); DBImpl* dbi = reinterpret_cast(db_); dbi->TEST_FlushMemTable(); dbi->TEST_CompactRange(0, nullptr, nullptr); dbi->TEST_CompactRange(1, nullptr, nullptr); ASSERT_EQ(1, Property("rocksdb.num-files-at-level2")); Corrupt(kTableFile, 100, 1); Check(9, 9); ASSERT_NOK(dbi->VerifyChecksum()); // Force compactions by writing lots of values Build(10000); Check(10000, 10000); ASSERT_NOK(dbi->VerifyChecksum()); } TEST_F(CorruptionTest, CompactionInputErrorParanoid) { Options options; options.paranoid_checks = true; options.write_buffer_size = 131072; options.max_write_buffer_number = 2; Reopen(&options); DBImpl* dbi = reinterpret_cast(db_); // Fill levels >= 1 for (int level = 1; level < dbi->NumberLevels(); level++) { dbi->Put(WriteOptions(), "", "begin"); dbi->Put(WriteOptions(), "~", "end"); dbi->TEST_FlushMemTable(); for (int comp_level = 0; comp_level < dbi->NumberLevels() - level; ++comp_level) { dbi->TEST_CompactRange(comp_level, nullptr, nullptr); } } Reopen(&options); dbi = reinterpret_cast(db_); Build(10); dbi->TEST_FlushMemTable(); dbi->TEST_WaitForCompact(); ASSERT_EQ(1, Property("rocksdb.num-files-at-level0")); CorruptTableFileAtLevel(0, 100, 1); Check(9, 9); ASSERT_NOK(dbi->VerifyChecksum()); // Write must eventually fail because of corrupted table Status s; std::string tmp1, tmp2; bool failed = false; for (int i = 0; i < 10000; i++) { s = db_->Put(WriteOptions(), Key(i, &tmp1), Value(i, &tmp2)); if (!s.ok()) { failed = true; } // if one write failed, every subsequent write must fail, too ASSERT_TRUE(!failed || !s.ok()) << "write did not fail in a corrupted db"; } ASSERT_TRUE(!s.ok()) << "write did not fail in corrupted paranoid db"; } TEST_F(CorruptionTest, UnrelatedKeys) { Build(10); DBImpl* dbi = reinterpret_cast(db_); dbi->TEST_FlushMemTable(); Corrupt(kTableFile, 100, 1); ASSERT_NOK(dbi->VerifyChecksum()); std::string tmp1, tmp2; ASSERT_OK(db_->Put(WriteOptions(), Key(1000, &tmp1), Value(1000, &tmp2))); std::string v; ASSERT_OK(db_->Get(ReadOptions(), Key(1000, &tmp1), &v)); ASSERT_EQ(Value(1000, &tmp2).ToString(), v); dbi->TEST_FlushMemTable(); ASSERT_OK(db_->Get(ReadOptions(), Key(1000, &tmp1), &v)); ASSERT_EQ(Value(1000, &tmp2).ToString(), v); } TEST_F(CorruptionTest, FileSystemStateCorrupted) { for (int iter = 0; iter < 2; ++iter) { Options options; options.paranoid_checks = true; options.create_if_missing = true; Reopen(&options); Build(10); ASSERT_OK(db_->Flush(FlushOptions())); DBImpl* dbi = reinterpret_cast(db_); std::vector metadata; dbi->GetLiveFilesMetaData(&metadata); ASSERT_GT(metadata.size(), size_t(0)); std::string filename = dbname_ + metadata[0].name; delete db_; db_ = nullptr; if (iter == 0) { // corrupt file size unique_ptr file; env_.NewWritableFile(filename, &file, EnvOptions()); file->Append(Slice("corrupted sst")); file.reset(); } else { // delete the file env_.DeleteFile(filename); } Status x = TryReopen(&options); ASSERT_TRUE(x.IsCorruption()); DestroyDB(dbname_, options_); Reopen(&options); } } } // namespace rocksdb int main(int argc, char** argv) { ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } #else #include int main(int /*argc*/, char** /*argv*/) { fprintf(stderr, "SKIPPED as RepairDB() is not supported in ROCKSDB_LITE\n"); return 0; } #endif // !ROCKSDB_LITE rocksdb-5.17.2/db/cuckoo_table_db_test.cc000066400000000000000000000234371337235545400203130ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #ifndef ROCKSDB_LITE #include "db/db_impl.h" #include "rocksdb/db.h" #include "rocksdb/env.h" #include "table/cuckoo_table_factory.h" #include "table/cuckoo_table_reader.h" #include "table/meta_blocks.h" #include "util/string_util.h" #include "util/testharness.h" #include "util/testutil.h" namespace rocksdb { class CuckooTableDBTest : public testing::Test { private: std::string dbname_; Env* env_; DB* db_; public: CuckooTableDBTest() : env_(Env::Default()) { dbname_ = test::PerThreadDBPath("cuckoo_table_db_test"); EXPECT_OK(DestroyDB(dbname_, Options())); db_ = nullptr; Reopen(); } ~CuckooTableDBTest() { delete db_; EXPECT_OK(DestroyDB(dbname_, Options())); } Options CurrentOptions() { Options options; options.table_factory.reset(NewCuckooTableFactory()); options.memtable_factory.reset(NewHashLinkListRepFactory(4, 0, 3, true)); options.allow_mmap_reads = true; options.create_if_missing = true; options.allow_concurrent_memtable_write = false; return options; } DBImpl* dbfull() { return reinterpret_cast(db_); } // The following util methods are copied from plain_table_db_test. void Reopen(Options* options = nullptr) { delete db_; db_ = nullptr; Options opts; if (options != nullptr) { opts = *options; } else { opts = CurrentOptions(); opts.create_if_missing = true; } ASSERT_OK(DB::Open(opts, dbname_, &db_)); } Status Put(const Slice& k, const Slice& v) { return db_->Put(WriteOptions(), k, v); } Status Delete(const std::string& k) { return db_->Delete(WriteOptions(), k); } std::string Get(const std::string& k) { ReadOptions options; std::string result; Status s = db_->Get(options, k, &result); if (s.IsNotFound()) { result = "NOT_FOUND"; } else if (!s.ok()) { result = s.ToString(); } return result; } int NumTableFilesAtLevel(int level) { std::string property; EXPECT_TRUE(db_->GetProperty( "rocksdb.num-files-at-level" + NumberToString(level), &property)); return atoi(property.c_str()); } // Return spread of files per level std::string FilesPerLevel() { std::string result; size_t last_non_zero_offset = 0; for (int level = 0; level < db_->NumberLevels(); level++) { int f = NumTableFilesAtLevel(level); char buf[100]; snprintf(buf, sizeof(buf), "%s%d", (level ? "," : ""), f); result += buf; if (f > 0) { last_non_zero_offset = result.size(); } } result.resize(last_non_zero_offset); return result; } }; TEST_F(CuckooTableDBTest, Flush) { // Try with empty DB first. ASSERT_TRUE(dbfull() != nullptr); ASSERT_EQ("NOT_FOUND", Get("key2")); // Add some values to db. Options options = CurrentOptions(); Reopen(&options); ASSERT_OK(Put("key1", "v1")); ASSERT_OK(Put("key2", "v2")); ASSERT_OK(Put("key3", "v3")); dbfull()->TEST_FlushMemTable(); TablePropertiesCollection ptc; reinterpret_cast(dbfull())->GetPropertiesOfAllTables(&ptc); ASSERT_EQ(1U, ptc.size()); ASSERT_EQ(3U, ptc.begin()->second->num_entries); ASSERT_EQ("1", FilesPerLevel()); ASSERT_EQ("v1", Get("key1")); ASSERT_EQ("v2", Get("key2")); ASSERT_EQ("v3", Get("key3")); ASSERT_EQ("NOT_FOUND", Get("key4")); // Now add more keys and flush. ASSERT_OK(Put("key4", "v4")); ASSERT_OK(Put("key5", "v5")); ASSERT_OK(Put("key6", "v6")); dbfull()->TEST_FlushMemTable(); reinterpret_cast(dbfull())->GetPropertiesOfAllTables(&ptc); ASSERT_EQ(2U, ptc.size()); auto row = ptc.begin(); ASSERT_EQ(3U, row->second->num_entries); ASSERT_EQ(3U, (++row)->second->num_entries); ASSERT_EQ("2", FilesPerLevel()); ASSERT_EQ("v1", Get("key1")); ASSERT_EQ("v2", Get("key2")); ASSERT_EQ("v3", Get("key3")); ASSERT_EQ("v4", Get("key4")); ASSERT_EQ("v5", Get("key5")); ASSERT_EQ("v6", Get("key6")); ASSERT_OK(Delete("key6")); ASSERT_OK(Delete("key5")); ASSERT_OK(Delete("key4")); dbfull()->TEST_FlushMemTable(); reinterpret_cast(dbfull())->GetPropertiesOfAllTables(&ptc); ASSERT_EQ(3U, ptc.size()); row = ptc.begin(); ASSERT_EQ(3U, row->second->num_entries); ASSERT_EQ(3U, (++row)->second->num_entries); ASSERT_EQ(3U, (++row)->second->num_entries); ASSERT_EQ("3", FilesPerLevel()); ASSERT_EQ("v1", Get("key1")); ASSERT_EQ("v2", Get("key2")); ASSERT_EQ("v3", Get("key3")); ASSERT_EQ("NOT_FOUND", Get("key4")); ASSERT_EQ("NOT_FOUND", Get("key5")); ASSERT_EQ("NOT_FOUND", Get("key6")); } TEST_F(CuckooTableDBTest, FlushWithDuplicateKeys) { Options options = CurrentOptions(); Reopen(&options); ASSERT_OK(Put("key1", "v1")); ASSERT_OK(Put("key2", "v2")); ASSERT_OK(Put("key1", "v3")); // Duplicate dbfull()->TEST_FlushMemTable(); TablePropertiesCollection ptc; reinterpret_cast(dbfull())->GetPropertiesOfAllTables(&ptc); ASSERT_EQ(1U, ptc.size()); ASSERT_EQ(2U, ptc.begin()->second->num_entries); ASSERT_EQ("1", FilesPerLevel()); ASSERT_EQ("v3", Get("key1")); ASSERT_EQ("v2", Get("key2")); } namespace { static std::string Key(int i) { char buf[100]; snprintf(buf, sizeof(buf), "key_______%06d", i); return std::string(buf); } static std::string Uint64Key(uint64_t i) { std::string str; str.resize(8); memcpy(&str[0], static_cast(&i), 8); return str; } } // namespace. TEST_F(CuckooTableDBTest, Uint64Comparator) { Options options = CurrentOptions(); options.comparator = test::Uint64Comparator(); Reopen(&options); ASSERT_OK(Put(Uint64Key(1), "v1")); ASSERT_OK(Put(Uint64Key(2), "v2")); ASSERT_OK(Put(Uint64Key(3), "v3")); dbfull()->TEST_FlushMemTable(); ASSERT_EQ("v1", Get(Uint64Key(1))); ASSERT_EQ("v2", Get(Uint64Key(2))); ASSERT_EQ("v3", Get(Uint64Key(3))); ASSERT_EQ("NOT_FOUND", Get(Uint64Key(4))); // Add more keys. ASSERT_OK(Delete(Uint64Key(2))); // Delete. dbfull()->TEST_FlushMemTable(); ASSERT_OK(Put(Uint64Key(3), "v0")); // Update. ASSERT_OK(Put(Uint64Key(4), "v4")); dbfull()->TEST_FlushMemTable(); ASSERT_EQ("v1", Get(Uint64Key(1))); ASSERT_EQ("NOT_FOUND", Get(Uint64Key(2))); ASSERT_EQ("v0", Get(Uint64Key(3))); ASSERT_EQ("v4", Get(Uint64Key(4))); } TEST_F(CuckooTableDBTest, CompactionIntoMultipleFiles) { // Create a big L0 file and check it compacts into multiple files in L1. Options options = CurrentOptions(); options.write_buffer_size = 270 << 10; // Two SST files should be created, each containing 14 keys. // Number of buckets will be 16. Total size ~156 KB. options.target_file_size_base = 160 << 10; Reopen(&options); // Write 28 values, each 10016 B ~ 10KB for (int idx = 0; idx < 28; ++idx) { ASSERT_OK(Put(Key(idx), std::string(10000, 'a' + char(idx)))); } dbfull()->TEST_WaitForFlushMemTable(); ASSERT_EQ("1", FilesPerLevel()); dbfull()->TEST_CompactRange(0, nullptr, nullptr, nullptr, true /* disallow trivial move */); ASSERT_EQ("0,2", FilesPerLevel()); for (int idx = 0; idx < 28; ++idx) { ASSERT_EQ(std::string(10000, 'a' + char(idx)), Get(Key(idx))); } } TEST_F(CuckooTableDBTest, SameKeyInsertedInTwoDifferentFilesAndCompacted) { // Insert same key twice so that they go to different SST files. Then wait for // compaction and check if the latest value is stored and old value removed. Options options = CurrentOptions(); options.write_buffer_size = 100 << 10; // 100KB options.level0_file_num_compaction_trigger = 2; Reopen(&options); // Write 11 values, each 10016 B for (int idx = 0; idx < 11; ++idx) { ASSERT_OK(Put(Key(idx), std::string(10000, 'a'))); } dbfull()->TEST_WaitForFlushMemTable(); ASSERT_EQ("1", FilesPerLevel()); // Generate one more file in level-0, and should trigger level-0 compaction for (int idx = 0; idx < 11; ++idx) { ASSERT_OK(Put(Key(idx), std::string(10000, 'a' + char(idx)))); } dbfull()->TEST_WaitForFlushMemTable(); dbfull()->TEST_CompactRange(0, nullptr, nullptr); ASSERT_EQ("0,1", FilesPerLevel()); for (int idx = 0; idx < 11; ++idx) { ASSERT_EQ(std::string(10000, 'a' + char(idx)), Get(Key(idx))); } } TEST_F(CuckooTableDBTest, AdaptiveTable) { Options options = CurrentOptions(); // Write some keys using cuckoo table. options.table_factory.reset(NewCuckooTableFactory()); Reopen(&options); ASSERT_OK(Put("key1", "v1")); ASSERT_OK(Put("key2", "v2")); ASSERT_OK(Put("key3", "v3")); dbfull()->TEST_FlushMemTable(); // Write some keys using plain table. options.create_if_missing = false; options.table_factory.reset(NewPlainTableFactory()); Reopen(&options); ASSERT_OK(Put("key4", "v4")); ASSERT_OK(Put("key1", "v5")); dbfull()->TEST_FlushMemTable(); // Write some keys using block based table. std::shared_ptr block_based_factory( NewBlockBasedTableFactory()); options.table_factory.reset(NewAdaptiveTableFactory(block_based_factory)); Reopen(&options); ASSERT_OK(Put("key5", "v6")); ASSERT_OK(Put("key2", "v7")); dbfull()->TEST_FlushMemTable(); ASSERT_EQ("v5", Get("key1")); ASSERT_EQ("v7", Get("key2")); ASSERT_EQ("v3", Get("key3")); ASSERT_EQ("v4", Get("key4")); ASSERT_EQ("v6", Get("key5")); } } // namespace rocksdb int main(int argc, char** argv) { if (rocksdb::port::kLittleEndian) { ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } else { fprintf(stderr, "SKIPPED as Cuckoo table doesn't support Big Endian\n"); return 0; } } #else #include int main(int /*argc*/, char** /*argv*/) { fprintf(stderr, "SKIPPED as Cuckoo table is not supported in ROCKSDB_LITE\n"); return 0; } #endif // ROCKSDB_LITE rocksdb-5.17.2/db/db_basic_test.cc000066400000000000000000000756531337235545400167510ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "db/db_test_util.h" #include "port/stack_trace.h" #include "rocksdb/perf_context.h" #include "util/fault_injection_test_env.h" #if !defined(ROCKSDB_LITE) #include "util/sync_point.h" #endif namespace rocksdb { class DBBasicTest : public DBTestBase { public: DBBasicTest() : DBTestBase("/db_basic_test") {} }; TEST_F(DBBasicTest, OpenWhenOpen) { Options options = CurrentOptions(); options.env = env_; rocksdb::DB* db2 = nullptr; rocksdb::Status s = DB::Open(options, dbname_, &db2); ASSERT_EQ(Status::Code::kIOError, s.code()); ASSERT_EQ(Status::SubCode::kNone, s.subcode()); ASSERT_TRUE(strstr(s.getState(), "lock ") != nullptr); delete db2; } #ifndef ROCKSDB_LITE TEST_F(DBBasicTest, ReadOnlyDB) { ASSERT_OK(Put("foo", "v1")); ASSERT_OK(Put("bar", "v2")); ASSERT_OK(Put("foo", "v3")); Close(); auto options = CurrentOptions(); assert(options.env == env_); ASSERT_OK(ReadOnlyReopen(options)); ASSERT_EQ("v3", Get("foo")); ASSERT_EQ("v2", Get("bar")); Iterator* iter = db_->NewIterator(ReadOptions()); int count = 0; for (iter->SeekToFirst(); iter->Valid(); iter->Next()) { ASSERT_OK(iter->status()); ++count; } ASSERT_EQ(count, 2); delete iter; Close(); // Reopen and flush memtable. Reopen(options); Flush(); Close(); // Now check keys in read only mode. ASSERT_OK(ReadOnlyReopen(options)); ASSERT_EQ("v3", Get("foo")); ASSERT_EQ("v2", Get("bar")); ASSERT_TRUE(db_->SyncWAL().IsNotSupported()); } TEST_F(DBBasicTest, CompactedDB) { const uint64_t kFileSize = 1 << 20; Options options = CurrentOptions(); options.disable_auto_compactions = true; options.write_buffer_size = kFileSize; options.target_file_size_base = kFileSize; options.max_bytes_for_level_base = 1 << 30; options.compression = kNoCompression; Reopen(options); // 1 L0 file, use CompactedDB if max_open_files = -1 ASSERT_OK(Put("aaa", DummyString(kFileSize / 2, '1'))); Flush(); Close(); ASSERT_OK(ReadOnlyReopen(options)); Status s = Put("new", "value"); ASSERT_EQ(s.ToString(), "Not implemented: Not supported operation in read only mode."); ASSERT_EQ(DummyString(kFileSize / 2, '1'), Get("aaa")); Close(); options.max_open_files = -1; ASSERT_OK(ReadOnlyReopen(options)); s = Put("new", "value"); ASSERT_EQ(s.ToString(), "Not implemented: Not supported in compacted db mode."); ASSERT_EQ(DummyString(kFileSize / 2, '1'), Get("aaa")); Close(); Reopen(options); // Add more L0 files ASSERT_OK(Put("bbb", DummyString(kFileSize / 2, '2'))); Flush(); ASSERT_OK(Put("aaa", DummyString(kFileSize / 2, 'a'))); Flush(); ASSERT_OK(Put("bbb", DummyString(kFileSize / 2, 'b'))); ASSERT_OK(Put("eee", DummyString(kFileSize / 2, 'e'))); Flush(); Close(); ASSERT_OK(ReadOnlyReopen(options)); // Fallback to read-only DB s = Put("new", "value"); ASSERT_EQ(s.ToString(), "Not implemented: Not supported operation in read only mode."); Close(); // Full compaction Reopen(options); // Add more keys ASSERT_OK(Put("fff", DummyString(kFileSize / 2, 'f'))); ASSERT_OK(Put("hhh", DummyString(kFileSize / 2, 'h'))); ASSERT_OK(Put("iii", DummyString(kFileSize / 2, 'i'))); ASSERT_OK(Put("jjj", DummyString(kFileSize / 2, 'j'))); db_->CompactRange(CompactRangeOptions(), nullptr, nullptr); ASSERT_EQ(3, NumTableFilesAtLevel(1)); Close(); // CompactedDB ASSERT_OK(ReadOnlyReopen(options)); s = Put("new", "value"); ASSERT_EQ(s.ToString(), "Not implemented: Not supported in compacted db mode."); ASSERT_EQ("NOT_FOUND", Get("abc")); ASSERT_EQ(DummyString(kFileSize / 2, 'a'), Get("aaa")); ASSERT_EQ(DummyString(kFileSize / 2, 'b'), Get("bbb")); ASSERT_EQ("NOT_FOUND", Get("ccc")); ASSERT_EQ(DummyString(kFileSize / 2, 'e'), Get("eee")); ASSERT_EQ(DummyString(kFileSize / 2, 'f'), Get("fff")); ASSERT_EQ("NOT_FOUND", Get("ggg")); ASSERT_EQ(DummyString(kFileSize / 2, 'h'), Get("hhh")); ASSERT_EQ(DummyString(kFileSize / 2, 'i'), Get("iii")); ASSERT_EQ(DummyString(kFileSize / 2, 'j'), Get("jjj")); ASSERT_EQ("NOT_FOUND", Get("kkk")); // MultiGet std::vector values; std::vector status_list = dbfull()->MultiGet( ReadOptions(), std::vector({Slice("aaa"), Slice("ccc"), Slice("eee"), Slice("ggg"), Slice("iii"), Slice("kkk")}), &values); ASSERT_EQ(status_list.size(), static_cast(6)); ASSERT_EQ(values.size(), static_cast(6)); ASSERT_OK(status_list[0]); ASSERT_EQ(DummyString(kFileSize / 2, 'a'), values[0]); ASSERT_TRUE(status_list[1].IsNotFound()); ASSERT_OK(status_list[2]); ASSERT_EQ(DummyString(kFileSize / 2, 'e'), values[2]); ASSERT_TRUE(status_list[3].IsNotFound()); ASSERT_OK(status_list[4]); ASSERT_EQ(DummyString(kFileSize / 2, 'i'), values[4]); ASSERT_TRUE(status_list[5].IsNotFound()); Reopen(options); // Add a key ASSERT_OK(Put("fff", DummyString(kFileSize / 2, 'f'))); Close(); ASSERT_OK(ReadOnlyReopen(options)); s = Put("new", "value"); ASSERT_EQ(s.ToString(), "Not implemented: Not supported operation in read only mode."); } TEST_F(DBBasicTest, LevelLimitReopen) { Options options = CurrentOptions(); CreateAndReopenWithCF({"pikachu"}, options); const std::string value(1024 * 1024, ' '); int i = 0; while (NumTableFilesAtLevel(2, 1) == 0) { ASSERT_OK(Put(1, Key(i++), value)); dbfull()->TEST_WaitForFlushMemTable(); dbfull()->TEST_WaitForCompact(); } options.num_levels = 1; options.max_bytes_for_level_multiplier_additional.resize(1, 1); Status s = TryReopenWithColumnFamilies({"default", "pikachu"}, options); ASSERT_EQ(s.IsInvalidArgument(), true); ASSERT_EQ(s.ToString(), "Invalid argument: db has more levels than options.num_levels"); options.num_levels = 10; options.max_bytes_for_level_multiplier_additional.resize(10, 1); ASSERT_OK(TryReopenWithColumnFamilies({"default", "pikachu"}, options)); } #endif // ROCKSDB_LITE TEST_F(DBBasicTest, PutDeleteGet) { do { CreateAndReopenWithCF({"pikachu"}, CurrentOptions()); ASSERT_OK(Put(1, "foo", "v1")); ASSERT_EQ("v1", Get(1, "foo")); ASSERT_OK(Put(1, "foo", "v2")); ASSERT_EQ("v2", Get(1, "foo")); ASSERT_OK(Delete(1, "foo")); ASSERT_EQ("NOT_FOUND", Get(1, "foo")); } while (ChangeOptions()); } TEST_F(DBBasicTest, PutSingleDeleteGet) { do { CreateAndReopenWithCF({"pikachu"}, CurrentOptions()); ASSERT_OK(Put(1, "foo", "v1")); ASSERT_EQ("v1", Get(1, "foo")); ASSERT_OK(Put(1, "foo2", "v2")); ASSERT_EQ("v2", Get(1, "foo2")); ASSERT_OK(SingleDelete(1, "foo")); ASSERT_EQ("NOT_FOUND", Get(1, "foo")); // Skip HashCuckooRep as it does not support single delete. FIFO and // universal compaction do not apply to the test case. Skip MergePut // because single delete does not get removed when it encounters a merge. } while (ChangeOptions(kSkipHashCuckoo | kSkipFIFOCompaction | kSkipUniversalCompaction | kSkipMergePut)); } TEST_F(DBBasicTest, EmptyFlush) { // It is possible to produce empty flushes when using single deletes. Tests // whether empty flushes cause issues. do { Random rnd(301); Options options = CurrentOptions(); options.disable_auto_compactions = true; CreateAndReopenWithCF({"pikachu"}, options); Put(1, "a", Slice()); SingleDelete(1, "a"); ASSERT_OK(Flush(1)); ASSERT_EQ("[ ]", AllEntriesFor("a", 1)); // Skip HashCuckooRep as it does not support single delete. FIFO and // universal compaction do not apply to the test case. Skip MergePut // because merges cannot be combined with single deletions. } while (ChangeOptions(kSkipHashCuckoo | kSkipFIFOCompaction | kSkipUniversalCompaction | kSkipMergePut)); } TEST_F(DBBasicTest, GetFromVersions) { do { CreateAndReopenWithCF({"pikachu"}, CurrentOptions()); ASSERT_OK(Put(1, "foo", "v1")); ASSERT_OK(Flush(1)); ASSERT_EQ("v1", Get(1, "foo")); ASSERT_EQ("NOT_FOUND", Get(0, "foo")); } while (ChangeOptions()); } #ifndef ROCKSDB_LITE TEST_F(DBBasicTest, GetSnapshot) { anon::OptionsOverride options_override; options_override.skip_policy = kSkipNoSnapshot; do { CreateAndReopenWithCF({"pikachu"}, CurrentOptions(options_override)); // Try with both a short key and a long key for (int i = 0; i < 2; i++) { std::string key = (i == 0) ? std::string("foo") : std::string(200, 'x'); ASSERT_OK(Put(1, key, "v1")); const Snapshot* s1 = db_->GetSnapshot(); if (option_config_ == kHashCuckoo) { // Unsupported case. ASSERT_TRUE(s1 == nullptr); break; } ASSERT_OK(Put(1, key, "v2")); ASSERT_EQ("v2", Get(1, key)); ASSERT_EQ("v1", Get(1, key, s1)); ASSERT_OK(Flush(1)); ASSERT_EQ("v2", Get(1, key)); ASSERT_EQ("v1", Get(1, key, s1)); db_->ReleaseSnapshot(s1); } } while (ChangeOptions()); } #endif // ROCKSDB_LITE TEST_F(DBBasicTest, CheckLock) { do { DB* localdb; Options options = CurrentOptions(); ASSERT_OK(TryReopen(options)); // second open should fail ASSERT_TRUE(!(DB::Open(options, dbname_, &localdb)).ok()); } while (ChangeCompactOptions()); } TEST_F(DBBasicTest, FlushMultipleMemtable) { do { Options options = CurrentOptions(); WriteOptions writeOpt = WriteOptions(); writeOpt.disableWAL = true; options.max_write_buffer_number = 4; options.min_write_buffer_number_to_merge = 3; options.max_write_buffer_number_to_maintain = -1; CreateAndReopenWithCF({"pikachu"}, options); ASSERT_OK(dbfull()->Put(writeOpt, handles_[1], "foo", "v1")); ASSERT_OK(Flush(1)); ASSERT_OK(dbfull()->Put(writeOpt, handles_[1], "bar", "v1")); ASSERT_EQ("v1", Get(1, "foo")); ASSERT_EQ("v1", Get(1, "bar")); ASSERT_OK(Flush(1)); } while (ChangeCompactOptions()); } TEST_F(DBBasicTest, FlushEmptyColumnFamily) { // Block flush thread and disable compaction thread env_->SetBackgroundThreads(1, Env::HIGH); env_->SetBackgroundThreads(1, Env::LOW); test::SleepingBackgroundTask sleeping_task_low; env_->Schedule(&test::SleepingBackgroundTask::DoSleepTask, &sleeping_task_low, Env::Priority::LOW); test::SleepingBackgroundTask sleeping_task_high; env_->Schedule(&test::SleepingBackgroundTask::DoSleepTask, &sleeping_task_high, Env::Priority::HIGH); Options options = CurrentOptions(); // disable compaction options.disable_auto_compactions = true; WriteOptions writeOpt = WriteOptions(); writeOpt.disableWAL = true; options.max_write_buffer_number = 2; options.min_write_buffer_number_to_merge = 1; options.max_write_buffer_number_to_maintain = 1; CreateAndReopenWithCF({"pikachu"}, options); // Compaction can still go through even if no thread can flush the // mem table. ASSERT_OK(Flush(0)); ASSERT_OK(Flush(1)); // Insert can go through ASSERT_OK(dbfull()->Put(writeOpt, handles_[0], "foo", "v1")); ASSERT_OK(dbfull()->Put(writeOpt, handles_[1], "bar", "v1")); ASSERT_EQ("v1", Get(0, "foo")); ASSERT_EQ("v1", Get(1, "bar")); sleeping_task_high.WakeUp(); sleeping_task_high.WaitUntilDone(); // Flush can still go through. ASSERT_OK(Flush(0)); ASSERT_OK(Flush(1)); sleeping_task_low.WakeUp(); sleeping_task_low.WaitUntilDone(); } TEST_F(DBBasicTest, FLUSH) { do { CreateAndReopenWithCF({"pikachu"}, CurrentOptions()); WriteOptions writeOpt = WriteOptions(); writeOpt.disableWAL = true; SetPerfLevel(kEnableTime); ASSERT_OK(dbfull()->Put(writeOpt, handles_[1], "foo", "v1")); // this will now also flush the last 2 writes ASSERT_OK(Flush(1)); ASSERT_OK(dbfull()->Put(writeOpt, handles_[1], "bar", "v1")); get_perf_context()->Reset(); Get(1, "foo"); ASSERT_TRUE((int)get_perf_context()->get_from_output_files_time > 0); ASSERT_EQ(2, (int)get_perf_context()->get_read_bytes); ReopenWithColumnFamilies({"default", "pikachu"}, CurrentOptions()); ASSERT_EQ("v1", Get(1, "foo")); ASSERT_EQ("v1", Get(1, "bar")); writeOpt.disableWAL = true; ASSERT_OK(dbfull()->Put(writeOpt, handles_[1], "bar", "v2")); ASSERT_OK(dbfull()->Put(writeOpt, handles_[1], "foo", "v2")); ASSERT_OK(Flush(1)); ReopenWithColumnFamilies({"default", "pikachu"}, CurrentOptions()); ASSERT_EQ("v2", Get(1, "bar")); get_perf_context()->Reset(); ASSERT_EQ("v2", Get(1, "foo")); ASSERT_TRUE((int)get_perf_context()->get_from_output_files_time > 0); writeOpt.disableWAL = false; ASSERT_OK(dbfull()->Put(writeOpt, handles_[1], "bar", "v3")); ASSERT_OK(dbfull()->Put(writeOpt, handles_[1], "foo", "v3")); ASSERT_OK(Flush(1)); ReopenWithColumnFamilies({"default", "pikachu"}, CurrentOptions()); // 'foo' should be there because its put // has WAL enabled. ASSERT_EQ("v3", Get(1, "foo")); ASSERT_EQ("v3", Get(1, "bar")); SetPerfLevel(kDisable); } while (ChangeCompactOptions()); } TEST_F(DBBasicTest, ManifestRollOver) { do { Options options; options.max_manifest_file_size = 10; // 10 bytes options = CurrentOptions(options); CreateAndReopenWithCF({"pikachu"}, options); { ASSERT_OK(Put(1, "manifest_key1", std::string(1000, '1'))); ASSERT_OK(Put(1, "manifest_key2", std::string(1000, '2'))); ASSERT_OK(Put(1, "manifest_key3", std::string(1000, '3'))); uint64_t manifest_before_flush = dbfull()->TEST_Current_Manifest_FileNo(); ASSERT_OK(Flush(1)); // This should trigger LogAndApply. uint64_t manifest_after_flush = dbfull()->TEST_Current_Manifest_FileNo(); ASSERT_GT(manifest_after_flush, manifest_before_flush); ReopenWithColumnFamilies({"default", "pikachu"}, options); ASSERT_GT(dbfull()->TEST_Current_Manifest_FileNo(), manifest_after_flush); // check if a new manifest file got inserted or not. ASSERT_EQ(std::string(1000, '1'), Get(1, "manifest_key1")); ASSERT_EQ(std::string(1000, '2'), Get(1, "manifest_key2")); ASSERT_EQ(std::string(1000, '3'), Get(1, "manifest_key3")); } } while (ChangeCompactOptions()); } TEST_F(DBBasicTest, IdentityAcrossRestarts) { do { std::string id1; ASSERT_OK(db_->GetDbIdentity(id1)); Options options = CurrentOptions(); Reopen(options); std::string id2; ASSERT_OK(db_->GetDbIdentity(id2)); // id1 should match id2 because identity was not regenerated ASSERT_EQ(id1.compare(id2), 0); std::string idfilename = IdentityFileName(dbname_); ASSERT_OK(env_->DeleteFile(idfilename)); Reopen(options); std::string id3; ASSERT_OK(db_->GetDbIdentity(id3)); // id1 should NOT match id3 because identity was regenerated ASSERT_NE(id1.compare(id3), 0); } while (ChangeCompactOptions()); } #ifndef ROCKSDB_LITE TEST_F(DBBasicTest, Snapshot) { anon::OptionsOverride options_override; options_override.skip_policy = kSkipNoSnapshot; do { CreateAndReopenWithCF({"pikachu"}, CurrentOptions(options_override)); Put(0, "foo", "0v1"); Put(1, "foo", "1v1"); const Snapshot* s1 = db_->GetSnapshot(); ASSERT_EQ(1U, GetNumSnapshots()); uint64_t time_snap1 = GetTimeOldestSnapshots(); ASSERT_GT(time_snap1, 0U); Put(0, "foo", "0v2"); Put(1, "foo", "1v2"); env_->addon_time_.fetch_add(1); const Snapshot* s2 = db_->GetSnapshot(); ASSERT_EQ(2U, GetNumSnapshots()); ASSERT_EQ(time_snap1, GetTimeOldestSnapshots()); Put(0, "foo", "0v3"); Put(1, "foo", "1v3"); { ManagedSnapshot s3(db_); ASSERT_EQ(3U, GetNumSnapshots()); ASSERT_EQ(time_snap1, GetTimeOldestSnapshots()); Put(0, "foo", "0v4"); Put(1, "foo", "1v4"); ASSERT_EQ("0v1", Get(0, "foo", s1)); ASSERT_EQ("1v1", Get(1, "foo", s1)); ASSERT_EQ("0v2", Get(0, "foo", s2)); ASSERT_EQ("1v2", Get(1, "foo", s2)); ASSERT_EQ("0v3", Get(0, "foo", s3.snapshot())); ASSERT_EQ("1v3", Get(1, "foo", s3.snapshot())); ASSERT_EQ("0v4", Get(0, "foo")); ASSERT_EQ("1v4", Get(1, "foo")); } ASSERT_EQ(2U, GetNumSnapshots()); ASSERT_EQ(time_snap1, GetTimeOldestSnapshots()); ASSERT_EQ("0v1", Get(0, "foo", s1)); ASSERT_EQ("1v1", Get(1, "foo", s1)); ASSERT_EQ("0v2", Get(0, "foo", s2)); ASSERT_EQ("1v2", Get(1, "foo", s2)); ASSERT_EQ("0v4", Get(0, "foo")); ASSERT_EQ("1v4", Get(1, "foo")); db_->ReleaseSnapshot(s1); ASSERT_EQ("0v2", Get(0, "foo", s2)); ASSERT_EQ("1v2", Get(1, "foo", s2)); ASSERT_EQ("0v4", Get(0, "foo")); ASSERT_EQ("1v4", Get(1, "foo")); ASSERT_EQ(1U, GetNumSnapshots()); ASSERT_LT(time_snap1, GetTimeOldestSnapshots()); db_->ReleaseSnapshot(s2); ASSERT_EQ(0U, GetNumSnapshots()); ASSERT_EQ("0v4", Get(0, "foo")); ASSERT_EQ("1v4", Get(1, "foo")); } while (ChangeOptions(kSkipHashCuckoo)); } #endif // ROCKSDB_LITE TEST_F(DBBasicTest, CompactBetweenSnapshots) { anon::OptionsOverride options_override; options_override.skip_policy = kSkipNoSnapshot; do { Options options = CurrentOptions(options_override); options.disable_auto_compactions = true; CreateAndReopenWithCF({"pikachu"}, options); Random rnd(301); FillLevels("a", "z", 1); Put(1, "foo", "first"); const Snapshot* snapshot1 = db_->GetSnapshot(); Put(1, "foo", "second"); Put(1, "foo", "third"); Put(1, "foo", "fourth"); const Snapshot* snapshot2 = db_->GetSnapshot(); Put(1, "foo", "fifth"); Put(1, "foo", "sixth"); // All entries (including duplicates) exist // before any compaction or flush is triggered. ASSERT_EQ(AllEntriesFor("foo", 1), "[ sixth, fifth, fourth, third, second, first ]"); ASSERT_EQ("sixth", Get(1, "foo")); ASSERT_EQ("fourth", Get(1, "foo", snapshot2)); ASSERT_EQ("first", Get(1, "foo", snapshot1)); // After a flush, "second", "third" and "fifth" should // be removed ASSERT_OK(Flush(1)); ASSERT_EQ(AllEntriesFor("foo", 1), "[ sixth, fourth, first ]"); // after we release the snapshot1, only two values left db_->ReleaseSnapshot(snapshot1); FillLevels("a", "z", 1); dbfull()->CompactRange(CompactRangeOptions(), handles_[1], nullptr, nullptr); // We have only one valid snapshot snapshot2. Since snapshot1 is // not valid anymore, "first" should be removed by a compaction. ASSERT_EQ("sixth", Get(1, "foo")); ASSERT_EQ("fourth", Get(1, "foo", snapshot2)); ASSERT_EQ(AllEntriesFor("foo", 1), "[ sixth, fourth ]"); // after we release the snapshot2, only one value should be left db_->ReleaseSnapshot(snapshot2); FillLevels("a", "z", 1); dbfull()->CompactRange(CompactRangeOptions(), handles_[1], nullptr, nullptr); ASSERT_EQ("sixth", Get(1, "foo")); ASSERT_EQ(AllEntriesFor("foo", 1), "[ sixth ]"); // skip HashCuckooRep as it does not support snapshot } while (ChangeOptions(kSkipHashCuckoo | kSkipFIFOCompaction)); } TEST_F(DBBasicTest, DBOpen_Options) { Options options = CurrentOptions(); Close(); Destroy(options); // Does not exist, and create_if_missing == false: error DB* db = nullptr; options.create_if_missing = false; Status s = DB::Open(options, dbname_, &db); ASSERT_TRUE(strstr(s.ToString().c_str(), "does not exist") != nullptr); ASSERT_TRUE(db == nullptr); // Does not exist, and create_if_missing == true: OK options.create_if_missing = true; s = DB::Open(options, dbname_, &db); ASSERT_OK(s); ASSERT_TRUE(db != nullptr); delete db; db = nullptr; // Does exist, and error_if_exists == true: error options.create_if_missing = false; options.error_if_exists = true; s = DB::Open(options, dbname_, &db); ASSERT_TRUE(strstr(s.ToString().c_str(), "exists") != nullptr); ASSERT_TRUE(db == nullptr); // Does exist, and error_if_exists == false: OK options.create_if_missing = true; options.error_if_exists = false; s = DB::Open(options, dbname_, &db); ASSERT_OK(s); ASSERT_TRUE(db != nullptr); delete db; db = nullptr; } TEST_F(DBBasicTest, CompactOnFlush) { anon::OptionsOverride options_override; options_override.skip_policy = kSkipNoSnapshot; do { Options options = CurrentOptions(options_override); options.disable_auto_compactions = true; CreateAndReopenWithCF({"pikachu"}, options); Put(1, "foo", "v1"); ASSERT_OK(Flush(1)); ASSERT_EQ(AllEntriesFor("foo", 1), "[ v1 ]"); // Write two new keys Put(1, "a", "begin"); Put(1, "z", "end"); Flush(1); // Case1: Delete followed by a put Delete(1, "foo"); Put(1, "foo", "v2"); ASSERT_EQ(AllEntriesFor("foo", 1), "[ v2, DEL, v1 ]"); // After the current memtable is flushed, the DEL should // have been removed ASSERT_OK(Flush(1)); ASSERT_EQ(AllEntriesFor("foo", 1), "[ v2, v1 ]"); dbfull()->CompactRange(CompactRangeOptions(), handles_[1], nullptr, nullptr); ASSERT_EQ(AllEntriesFor("foo", 1), "[ v2 ]"); // Case 2: Delete followed by another delete Delete(1, "foo"); Delete(1, "foo"); ASSERT_EQ(AllEntriesFor("foo", 1), "[ DEL, DEL, v2 ]"); ASSERT_OK(Flush(1)); ASSERT_EQ(AllEntriesFor("foo", 1), "[ DEL, v2 ]"); dbfull()->CompactRange(CompactRangeOptions(), handles_[1], nullptr, nullptr); ASSERT_EQ(AllEntriesFor("foo", 1), "[ ]"); // Case 3: Put followed by a delete Put(1, "foo", "v3"); Delete(1, "foo"); ASSERT_EQ(AllEntriesFor("foo", 1), "[ DEL, v3 ]"); ASSERT_OK(Flush(1)); ASSERT_EQ(AllEntriesFor("foo", 1), "[ DEL ]"); dbfull()->CompactRange(CompactRangeOptions(), handles_[1], nullptr, nullptr); ASSERT_EQ(AllEntriesFor("foo", 1), "[ ]"); // Case 4: Put followed by another Put Put(1, "foo", "v4"); Put(1, "foo", "v5"); ASSERT_EQ(AllEntriesFor("foo", 1), "[ v5, v4 ]"); ASSERT_OK(Flush(1)); ASSERT_EQ(AllEntriesFor("foo", 1), "[ v5 ]"); dbfull()->CompactRange(CompactRangeOptions(), handles_[1], nullptr, nullptr); ASSERT_EQ(AllEntriesFor("foo", 1), "[ v5 ]"); // clear database Delete(1, "foo"); dbfull()->CompactRange(CompactRangeOptions(), handles_[1], nullptr, nullptr); ASSERT_EQ(AllEntriesFor("foo", 1), "[ ]"); // Case 5: Put followed by snapshot followed by another Put // Both puts should remain. Put(1, "foo", "v6"); const Snapshot* snapshot = db_->GetSnapshot(); Put(1, "foo", "v7"); ASSERT_OK(Flush(1)); ASSERT_EQ(AllEntriesFor("foo", 1), "[ v7, v6 ]"); db_->ReleaseSnapshot(snapshot); // clear database Delete(1, "foo"); dbfull()->CompactRange(CompactRangeOptions(), handles_[1], nullptr, nullptr); ASSERT_EQ(AllEntriesFor("foo", 1), "[ ]"); // Case 5: snapshot followed by a put followed by another Put // Only the last put should remain. const Snapshot* snapshot1 = db_->GetSnapshot(); Put(1, "foo", "v8"); Put(1, "foo", "v9"); ASSERT_OK(Flush(1)); ASSERT_EQ(AllEntriesFor("foo", 1), "[ v9 ]"); db_->ReleaseSnapshot(snapshot1); } while (ChangeCompactOptions()); } TEST_F(DBBasicTest, FlushOneColumnFamily) { Options options = CurrentOptions(); CreateAndReopenWithCF({"pikachu", "ilya", "muromec", "dobrynia", "nikitich", "alyosha", "popovich"}, options); ASSERT_OK(Put(0, "Default", "Default")); ASSERT_OK(Put(1, "pikachu", "pikachu")); ASSERT_OK(Put(2, "ilya", "ilya")); ASSERT_OK(Put(3, "muromec", "muromec")); ASSERT_OK(Put(4, "dobrynia", "dobrynia")); ASSERT_OK(Put(5, "nikitich", "nikitich")); ASSERT_OK(Put(6, "alyosha", "alyosha")); ASSERT_OK(Put(7, "popovich", "popovich")); for (int i = 0; i < 8; ++i) { Flush(i); auto tables = ListTableFiles(env_, dbname_); ASSERT_EQ(tables.size(), i + 1U); } } TEST_F(DBBasicTest, MultiGetSimple) { do { CreateAndReopenWithCF({"pikachu"}, CurrentOptions()); SetPerfLevel(kEnableCount); ASSERT_OK(Put(1, "k1", "v1")); ASSERT_OK(Put(1, "k2", "v2")); ASSERT_OK(Put(1, "k3", "v3")); ASSERT_OK(Put(1, "k4", "v4")); ASSERT_OK(Delete(1, "k4")); ASSERT_OK(Put(1, "k5", "v5")); ASSERT_OK(Delete(1, "no_key")); std::vector keys({"k1", "k2", "k3", "k4", "k5", "no_key"}); std::vector values(20, "Temporary data to be overwritten"); std::vector cfs(keys.size(), handles_[1]); get_perf_context()->Reset(); std::vector s = db_->MultiGet(ReadOptions(), cfs, keys, &values); ASSERT_EQ(values.size(), keys.size()); ASSERT_EQ(values[0], "v1"); ASSERT_EQ(values[1], "v2"); ASSERT_EQ(values[2], "v3"); ASSERT_EQ(values[4], "v5"); // four kv pairs * two bytes per value ASSERT_EQ(8, (int)get_perf_context()->multiget_read_bytes); ASSERT_OK(s[0]); ASSERT_OK(s[1]); ASSERT_OK(s[2]); ASSERT_TRUE(s[3].IsNotFound()); ASSERT_OK(s[4]); ASSERT_TRUE(s[5].IsNotFound()); SetPerfLevel(kDisable); } while (ChangeCompactOptions()); } TEST_F(DBBasicTest, MultiGetEmpty) { do { CreateAndReopenWithCF({"pikachu"}, CurrentOptions()); // Empty Key Set std::vector keys; std::vector values; std::vector cfs; std::vector s = db_->MultiGet(ReadOptions(), cfs, keys, &values); ASSERT_EQ(s.size(), 0U); // Empty Database, Empty Key Set Options options = CurrentOptions(); options.create_if_missing = true; DestroyAndReopen(options); CreateAndReopenWithCF({"pikachu"}, options); s = db_->MultiGet(ReadOptions(), cfs, keys, &values); ASSERT_EQ(s.size(), 0U); // Empty Database, Search for Keys keys.resize(2); keys[0] = "a"; keys[1] = "b"; cfs.push_back(handles_[0]); cfs.push_back(handles_[1]); s = db_->MultiGet(ReadOptions(), cfs, keys, &values); ASSERT_EQ(static_cast(s.size()), 2); ASSERT_TRUE(s[0].IsNotFound() && s[1].IsNotFound()); } while (ChangeCompactOptions()); } TEST_F(DBBasicTest, ChecksumTest) { BlockBasedTableOptions table_options; Options options = CurrentOptions(); // change when new checksum type added int max_checksum = static_cast(kxxHash); const int kNumPerFile = 2; // generate one table with each type of checksum for (int i = 0; i <= max_checksum; ++i) { table_options.checksum = static_cast(i); options.table_factory.reset(NewBlockBasedTableFactory(table_options)); Reopen(options); for (int j = 0; j < kNumPerFile; ++j) { ASSERT_OK(Put(Key(i * kNumPerFile + j), Key(i * kNumPerFile + j))); } ASSERT_OK(Flush()); } // verify data with each type of checksum for (int i = 0; i <= kxxHash; ++i) { table_options.checksum = static_cast(i); options.table_factory.reset(NewBlockBasedTableFactory(table_options)); Reopen(options); for (int j = 0; j < (max_checksum + 1) * kNumPerFile; ++j) { ASSERT_EQ(Key(j), Get(Key(j))); } } } // On Windows you can have either memory mapped file or a file // with unbuffered access. So this asserts and does not make // sense to run #ifndef OS_WIN TEST_F(DBBasicTest, MmapAndBufferOptions) { if (!IsMemoryMappedAccessSupported()) { return; } Options options = CurrentOptions(); options.use_direct_reads = true; options.allow_mmap_reads = true; ASSERT_NOK(TryReopen(options)); // All other combinations are acceptable options.use_direct_reads = false; ASSERT_OK(TryReopen(options)); if (IsDirectIOSupported()) { options.use_direct_reads = true; options.allow_mmap_reads = false; ASSERT_OK(TryReopen(options)); } options.use_direct_reads = false; ASSERT_OK(TryReopen(options)); } #endif class TestEnv : public EnvWrapper { public: explicit TestEnv() : EnvWrapper(Env::Default()), close_count(0) { } class TestLogger : public Logger { public: using Logger::Logv; TestLogger(TestEnv *env_ptr) : Logger() { env = env_ptr; } ~TestLogger() { if (!closed_) { CloseHelper(); } } virtual void Logv(const char* /*format*/, va_list /*ap*/) override{}; protected: virtual Status CloseImpl() override { return CloseHelper(); } private: Status CloseHelper() { env->CloseCountInc();; return Status::IOError(); } TestEnv *env; }; void CloseCountInc() { close_count++; } int GetCloseCount() { return close_count; } virtual Status NewLogger(const std::string& /*fname*/, shared_ptr* result) { result->reset(new TestLogger(this)); return Status::OK(); } private: int close_count; }; TEST_F(DBBasicTest, DBClose) { Options options = GetDefaultOptions(); std::string dbname = test::PerThreadDBPath("db_close_test"); ASSERT_OK(DestroyDB(dbname, options)); DB* db = nullptr; TestEnv* env = new TestEnv(); options.create_if_missing = true; options.env = env; Status s = DB::Open(options, dbname, &db); ASSERT_OK(s); ASSERT_TRUE(db != nullptr); s = db->Close(); ASSERT_EQ(env->GetCloseCount(), 1); ASSERT_EQ(s, Status::IOError()); delete db; ASSERT_EQ(env->GetCloseCount(), 1); // Do not call DB::Close() and ensure our logger Close() still gets called s = DB::Open(options, dbname, &db); ASSERT_OK(s); ASSERT_TRUE(db != nullptr); delete db; ASSERT_EQ(env->GetCloseCount(), 2); // Provide our own logger and ensure DB::Close() does not close it options.info_log.reset(new TestEnv::TestLogger(env)); options.create_if_missing = false; s = DB::Open(options, dbname, &db); ASSERT_OK(s); ASSERT_TRUE(db != nullptr); s = db->Close(); ASSERT_EQ(s, Status::OK()); delete db; ASSERT_EQ(env->GetCloseCount(), 2); options.info_log.reset(); ASSERT_EQ(env->GetCloseCount(), 3); delete options.env; } TEST_F(DBBasicTest, DBCloseFlushError) { std::unique_ptr fault_injection_env( new FaultInjectionTestEnv(Env::Default())); Options options = GetDefaultOptions(); options.create_if_missing = true; options.manual_wal_flush = true; options.write_buffer_size=100; options.env = fault_injection_env.get(); Reopen(options); ASSERT_OK(Put("key1", "value1")); ASSERT_OK(Put("key2", "value2")); ASSERT_OK(dbfull()->TEST_SwitchMemtable()); ASSERT_OK(Put("key3", "value3")); fault_injection_env->SetFilesystemActive(false); Status s = dbfull()->Close(); fault_injection_env->SetFilesystemActive(true); ASSERT_NE(s, Status::OK()); Destroy(options); } } // namespace rocksdb int main(int argc, char** argv) { rocksdb::port::InstallStackTraceHandler(); ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/db/db_blob_index_test.cc000066400000000000000000000330201337235545400177530ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include #include #include #include #include "db/column_family.h" #include "db/db_iter.h" #include "db/db_test_util.h" #include "db/dbformat.h" #include "db/write_batch_internal.h" #include "port/port.h" #include "port/stack_trace.h" #include "util/string_util.h" #include "utilities/merge_operators.h" namespace rocksdb { // kTypeBlobIndex is a value type used by BlobDB only. The base rocksdb // should accept the value type on write, and report not supported value // for reads, unless caller request for it explicitly. The base rocksdb // doesn't understand format of actual blob index (the value). class DBBlobIndexTest : public DBTestBase { public: enum Tier { kMemtable = 0, kImmutableMemtables = 1, kL0SstFile = 2, kLnSstFile = 3, }; const std::vector kAllTiers = {Tier::kMemtable, Tier::kImmutableMemtables, Tier::kL0SstFile, Tier::kLnSstFile}; DBBlobIndexTest() : DBTestBase("/db_blob_index_test") {} ColumnFamilyHandle* cfh() { return dbfull()->DefaultColumnFamily(); } ColumnFamilyData* cfd() { return reinterpret_cast(cfh())->cfd(); } Status PutBlobIndex(WriteBatch* batch, const Slice& key, const Slice& blob_index) { return WriteBatchInternal::PutBlobIndex(batch, cfd()->GetID(), key, blob_index); } Status Write(WriteBatch* batch) { return dbfull()->Write(WriteOptions(), batch); } std::string GetImpl(const Slice& key, bool* is_blob_index = nullptr, const Snapshot* snapshot = nullptr) { ReadOptions read_options; read_options.snapshot = snapshot; PinnableSlice value; auto s = dbfull()->GetImpl(read_options, cfh(), key, &value, nullptr /*value_found*/, nullptr /*callback*/, is_blob_index); if (s.IsNotFound()) { return "NOT_FOUND"; } if (s.IsNotSupported()) { return "NOT_SUPPORTED"; } if (!s.ok()) { return s.ToString(); } return value.ToString(); } std::string GetBlobIndex(const Slice& key, const Snapshot* snapshot = nullptr) { bool is_blob_index = false; std::string value = GetImpl(key, &is_blob_index, snapshot); if (!is_blob_index) { return "NOT_BLOB"; } return value; } ArenaWrappedDBIter* GetBlobIterator() { return dbfull()->NewIteratorImpl( ReadOptions(), cfd(), dbfull()->GetLatestSequenceNumber(), nullptr /*read_callback*/, true /*allow_blob*/); } Options GetTestOptions() { Options options; options.create_if_missing = true; options.num_levels = 2; options.disable_auto_compactions = true; // Disable auto flushes. options.max_write_buffer_number = 10; options.min_write_buffer_number_to_merge = 10; options.merge_operator = MergeOperators::CreateStringAppendOperator(); return options; } void MoveDataTo(Tier tier) { switch (tier) { case Tier::kMemtable: break; case Tier::kImmutableMemtables: ASSERT_OK(dbfull()->TEST_SwitchMemtable()); break; case Tier::kL0SstFile: ASSERT_OK(Flush()); break; case Tier::kLnSstFile: ASSERT_OK(Flush()); ASSERT_OK(Put("a", "dummy")); ASSERT_OK(Put("z", "dummy")); ASSERT_OK(Flush()); ASSERT_OK( dbfull()->CompactRange(CompactRangeOptions(), nullptr, nullptr)); #ifndef ROCKSDB_LITE ASSERT_EQ("0,1", FilesPerLevel()); #endif // !ROCKSDB_LITE break; } } }; // Should be able to write kTypeBlobIndex to memtables and SST files. TEST_F(DBBlobIndexTest, Write) { for (auto tier : kAllTiers) { DestroyAndReopen(GetTestOptions()); for (int i = 1; i <= 5; i++) { std::string index = ToString(i); WriteBatch batch; ASSERT_OK(PutBlobIndex(&batch, "key" + index, "blob" + index)); ASSERT_OK(Write(&batch)); } MoveDataTo(tier); for (int i = 1; i <= 5; i++) { std::string index = ToString(i); ASSERT_EQ("blob" + index, GetBlobIndex("key" + index)); } } } // Get should be able to return blob index if is_blob_index is provided, // otherwise return Status::NotSupported status. TEST_F(DBBlobIndexTest, Get) { for (auto tier : kAllTiers) { DestroyAndReopen(GetTestOptions()); WriteBatch batch; ASSERT_OK(batch.Put("key", "value")); ASSERT_OK(PutBlobIndex(&batch, "blob_key", "blob_index")); ASSERT_OK(Write(&batch)); MoveDataTo(tier); // Verify normal value bool is_blob_index = false; PinnableSlice value; ASSERT_EQ("value", Get("key")); ASSERT_EQ("value", GetImpl("key")); ASSERT_EQ("value", GetImpl("key", &is_blob_index)); ASSERT_FALSE(is_blob_index); // Verify blob index ASSERT_TRUE(Get("blob_key", &value).IsNotSupported()); ASSERT_EQ("NOT_SUPPORTED", GetImpl("blob_key")); ASSERT_EQ("blob_index", GetImpl("blob_key", &is_blob_index)); ASSERT_TRUE(is_blob_index); } } // Get should NOT return Status::NotSupported if blob index is updated with // a normal value. TEST_F(DBBlobIndexTest, Updated) { for (auto tier : kAllTiers) { DestroyAndReopen(GetTestOptions()); WriteBatch batch; for (int i = 0; i < 10; i++) { ASSERT_OK(PutBlobIndex(&batch, "key" + ToString(i), "blob_index")); } ASSERT_OK(Write(&batch)); // Avoid blob values from being purged. const Snapshot* snapshot = dbfull()->GetSnapshot(); ASSERT_OK(Put("key1", "new_value")); ASSERT_OK(Merge("key2", "a")); ASSERT_OK(Merge("key2", "b")); ASSERT_OK(Merge("key2", "c")); ASSERT_OK(Delete("key3")); ASSERT_OK(SingleDelete("key4")); ASSERT_OK(Delete("key5")); ASSERT_OK(Merge("key5", "a")); ASSERT_OK(Merge("key5", "b")); ASSERT_OK(Merge("key5", "c")); ASSERT_OK(dbfull()->DeleteRange(WriteOptions(), cfh(), "key6", "key9")); MoveDataTo(tier); for (int i = 0; i < 10; i++) { ASSERT_EQ("blob_index", GetBlobIndex("key" + ToString(i), snapshot)); } ASSERT_EQ("new_value", Get("key1")); ASSERT_EQ("NOT_SUPPORTED", GetImpl("key2")); ASSERT_EQ("NOT_FOUND", Get("key3")); ASSERT_EQ("NOT_FOUND", Get("key4")); ASSERT_EQ("a,b,c", GetImpl("key5")); for (int i = 6; i < 9; i++) { ASSERT_EQ("NOT_FOUND", Get("key" + ToString(i))); } ASSERT_EQ("blob_index", GetBlobIndex("key9")); dbfull()->ReleaseSnapshot(snapshot); } } // Iterator should get blob value if allow_blob flag is set, // otherwise return Status::NotSupported status. TEST_F(DBBlobIndexTest, Iterate) { const std::vector> data = { /*00*/ {kTypeValue}, /*01*/ {kTypeBlobIndex}, /*02*/ {kTypeValue}, /*03*/ {kTypeBlobIndex, kTypeValue}, /*04*/ {kTypeValue}, /*05*/ {kTypeValue, kTypeBlobIndex}, /*06*/ {kTypeValue}, /*07*/ {kTypeDeletion, kTypeBlobIndex}, /*08*/ {kTypeValue}, /*09*/ {kTypeSingleDeletion, kTypeBlobIndex}, /*10*/ {kTypeValue}, /*11*/ {kTypeMerge, kTypeMerge, kTypeMerge, kTypeBlobIndex}, /*12*/ {kTypeValue}, /*13*/ {kTypeMerge, kTypeMerge, kTypeMerge, kTypeDeletion, kTypeBlobIndex}, /*14*/ {kTypeValue}, /*15*/ {kTypeBlobIndex}, /*16*/ {kTypeValue}, }; auto get_key = [](int index) { char buf[20]; snprintf(buf, sizeof(buf), "%02d", index); return "key" + std::string(buf); }; auto get_value = [&](int index, int version) { return get_key(index) + "_value" + ToString(version); }; auto check_iterator = [&](Iterator* iterator, Status::Code expected_status, const Slice& expected_value) { ASSERT_EQ(expected_status, iterator->status().code()); if (expected_status == Status::kOk) { ASSERT_TRUE(iterator->Valid()); ASSERT_EQ(expected_value, iterator->value()); } else { ASSERT_FALSE(iterator->Valid()); } }; auto create_normal_iterator = [&]() -> Iterator* { return dbfull()->NewIterator(ReadOptions()); }; auto create_blob_iterator = [&]() -> Iterator* { return GetBlobIterator(); }; auto check_is_blob = [&](bool is_blob) { return [is_blob](Iterator* iterator) { ASSERT_EQ(is_blob, reinterpret_cast(iterator)->IsBlob()); }; }; auto verify = [&](int index, Status::Code expected_status, const Slice& forward_value, const Slice& backward_value, std::function create_iterator, std::function extra_check = nullptr) { // Seek auto* iterator = create_iterator(); ASSERT_OK(iterator->Refresh()); iterator->Seek(get_key(index)); check_iterator(iterator, expected_status, forward_value); if (extra_check) { extra_check(iterator); } delete iterator; // Next iterator = create_iterator(); ASSERT_OK(iterator->Refresh()); iterator->Seek(get_key(index - 1)); ASSERT_TRUE(iterator->Valid()); iterator->Next(); check_iterator(iterator, expected_status, forward_value); if (extra_check) { extra_check(iterator); } delete iterator; // SeekForPrev iterator = create_iterator(); ASSERT_OK(iterator->Refresh()); iterator->SeekForPrev(get_key(index)); check_iterator(iterator, expected_status, backward_value); if (extra_check) { extra_check(iterator); } delete iterator; // Prev iterator = create_iterator(); iterator->Seek(get_key(index + 1)); ASSERT_TRUE(iterator->Valid()); iterator->Prev(); check_iterator(iterator, expected_status, backward_value); if (extra_check) { extra_check(iterator); } delete iterator; }; for (auto tier : {Tier::kMemtable} /*kAllTiers*/) { // Avoid values from being purged. std::vector snapshots; DestroyAndReopen(GetTestOptions()); // fill data for (int i = 0; i < static_cast(data.size()); i++) { for (int j = static_cast(data[i].size()) - 1; j >= 0; j--) { std::string key = get_key(i); std::string value = get_value(i, j); WriteBatch batch; switch (data[i][j]) { case kTypeValue: ASSERT_OK(Put(key, value)); break; case kTypeDeletion: ASSERT_OK(Delete(key)); break; case kTypeSingleDeletion: ASSERT_OK(SingleDelete(key)); break; case kTypeMerge: ASSERT_OK(Merge(key, value)); break; case kTypeBlobIndex: ASSERT_OK(PutBlobIndex(&batch, key, value)); ASSERT_OK(Write(&batch)); break; default: assert(false); }; } snapshots.push_back(dbfull()->GetSnapshot()); } ASSERT_OK( dbfull()->DeleteRange(WriteOptions(), cfh(), get_key(15), get_key(16))); snapshots.push_back(dbfull()->GetSnapshot()); MoveDataTo(tier); // Normal iterator verify(1, Status::kNotSupported, "", "", create_normal_iterator); verify(3, Status::kNotSupported, "", "", create_normal_iterator); verify(5, Status::kOk, get_value(5, 0), get_value(5, 0), create_normal_iterator); verify(7, Status::kOk, get_value(8, 0), get_value(6, 0), create_normal_iterator); verify(9, Status::kOk, get_value(10, 0), get_value(8, 0), create_normal_iterator); verify(11, Status::kNotSupported, "", "", create_normal_iterator); verify(13, Status::kOk, get_value(13, 2) + "," + get_value(13, 1) + "," + get_value(13, 0), get_value(13, 2) + "," + get_value(13, 1) + "," + get_value(13, 0), create_normal_iterator); verify(15, Status::kOk, get_value(16, 0), get_value(14, 0), create_normal_iterator); // Iterator with blob support verify(1, Status::kOk, get_value(1, 0), get_value(1, 0), create_blob_iterator, check_is_blob(true)); verify(3, Status::kOk, get_value(3, 0), get_value(3, 0), create_blob_iterator, check_is_blob(true)); verify(5, Status::kOk, get_value(5, 0), get_value(5, 0), create_blob_iterator, check_is_blob(false)); verify(7, Status::kOk, get_value(8, 0), get_value(6, 0), create_blob_iterator, check_is_blob(false)); verify(9, Status::kOk, get_value(10, 0), get_value(8, 0), create_blob_iterator, check_is_blob(false)); verify(11, Status::kNotSupported, "", "", create_blob_iterator); verify(13, Status::kOk, get_value(13, 2) + "," + get_value(13, 1) + "," + get_value(13, 0), get_value(13, 2) + "," + get_value(13, 1) + "," + get_value(13, 0), create_blob_iterator, check_is_blob(false)); verify(15, Status::kOk, get_value(16, 0), get_value(14, 0), create_blob_iterator, check_is_blob(false)); for (auto* snapshot : snapshots) { dbfull()->ReleaseSnapshot(snapshot); } } } } // namespace rocksdb int main(int argc, char** argv) { rocksdb::port::InstallStackTraceHandler(); ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/db/db_block_cache_test.cc000066400000000000000000000572711337235545400201010ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include #include "cache/lru_cache.h" #include "db/db_test_util.h" #include "port/stack_trace.h" namespace rocksdb { class DBBlockCacheTest : public DBTestBase { private: size_t miss_count_ = 0; size_t hit_count_ = 0; size_t insert_count_ = 0; size_t failure_count_ = 0; size_t compressed_miss_count_ = 0; size_t compressed_hit_count_ = 0; size_t compressed_insert_count_ = 0; size_t compressed_failure_count_ = 0; public: const size_t kNumBlocks = 10; const size_t kValueSize = 100; DBBlockCacheTest() : DBTestBase("/db_block_cache_test") {} BlockBasedTableOptions GetTableOptions() { BlockBasedTableOptions table_options; // Set a small enough block size so that each key-value get its own block. table_options.block_size = 1; return table_options; } Options GetOptions(const BlockBasedTableOptions& table_options) { Options options = CurrentOptions(); options.create_if_missing = true; options.avoid_flush_during_recovery = false; // options.compression = kNoCompression; options.statistics = rocksdb::CreateDBStatistics(); options.table_factory.reset(new BlockBasedTableFactory(table_options)); return options; } void InitTable(const Options& /*options*/) { std::string value(kValueSize, 'a'); for (size_t i = 0; i < kNumBlocks; i++) { ASSERT_OK(Put(ToString(i), value.c_str())); } } void RecordCacheCounters(const Options& options) { miss_count_ = TestGetTickerCount(options, BLOCK_CACHE_MISS); hit_count_ = TestGetTickerCount(options, BLOCK_CACHE_HIT); insert_count_ = TestGetTickerCount(options, BLOCK_CACHE_ADD); failure_count_ = TestGetTickerCount(options, BLOCK_CACHE_ADD_FAILURES); compressed_miss_count_ = TestGetTickerCount(options, BLOCK_CACHE_COMPRESSED_MISS); compressed_hit_count_ = TestGetTickerCount(options, BLOCK_CACHE_COMPRESSED_HIT); compressed_insert_count_ = TestGetTickerCount(options, BLOCK_CACHE_COMPRESSED_ADD); compressed_failure_count_ = TestGetTickerCount(options, BLOCK_CACHE_COMPRESSED_ADD_FAILURES); } void CheckCacheCounters(const Options& options, size_t expected_misses, size_t expected_hits, size_t expected_inserts, size_t expected_failures) { size_t new_miss_count = TestGetTickerCount(options, BLOCK_CACHE_MISS); size_t new_hit_count = TestGetTickerCount(options, BLOCK_CACHE_HIT); size_t new_insert_count = TestGetTickerCount(options, BLOCK_CACHE_ADD); size_t new_failure_count = TestGetTickerCount(options, BLOCK_CACHE_ADD_FAILURES); ASSERT_EQ(miss_count_ + expected_misses, new_miss_count); ASSERT_EQ(hit_count_ + expected_hits, new_hit_count); ASSERT_EQ(insert_count_ + expected_inserts, new_insert_count); ASSERT_EQ(failure_count_ + expected_failures, new_failure_count); miss_count_ = new_miss_count; hit_count_ = new_hit_count; insert_count_ = new_insert_count; failure_count_ = new_failure_count; } void CheckCompressedCacheCounters(const Options& options, size_t expected_misses, size_t expected_hits, size_t expected_inserts, size_t expected_failures) { size_t new_miss_count = TestGetTickerCount(options, BLOCK_CACHE_COMPRESSED_MISS); size_t new_hit_count = TestGetTickerCount(options, BLOCK_CACHE_COMPRESSED_HIT); size_t new_insert_count = TestGetTickerCount(options, BLOCK_CACHE_COMPRESSED_ADD); size_t new_failure_count = TestGetTickerCount(options, BLOCK_CACHE_COMPRESSED_ADD_FAILURES); ASSERT_EQ(compressed_miss_count_ + expected_misses, new_miss_count); ASSERT_EQ(compressed_hit_count_ + expected_hits, new_hit_count); ASSERT_EQ(compressed_insert_count_ + expected_inserts, new_insert_count); ASSERT_EQ(compressed_failure_count_ + expected_failures, new_failure_count); compressed_miss_count_ = new_miss_count; compressed_hit_count_ = new_hit_count; compressed_insert_count_ = new_insert_count; compressed_failure_count_ = new_failure_count; } }; TEST_F(DBBlockCacheTest, IteratorBlockCacheUsage) { ReadOptions read_options; read_options.fill_cache = false; auto table_options = GetTableOptions(); auto options = GetOptions(table_options); InitTable(options); std::shared_ptr cache = NewLRUCache(0, 0, false); table_options.block_cache = cache; options.table_factory.reset(new BlockBasedTableFactory(table_options)); Reopen(options); RecordCacheCounters(options); std::vector> iterators(kNumBlocks - 1); Iterator* iter = nullptr; ASSERT_EQ(0, cache->GetUsage()); iter = db_->NewIterator(read_options); iter->Seek(ToString(0)); ASSERT_LT(0, cache->GetUsage()); delete iter; iter = nullptr; ASSERT_EQ(0, cache->GetUsage()); } TEST_F(DBBlockCacheTest, TestWithoutCompressedBlockCache) { ReadOptions read_options; auto table_options = GetTableOptions(); auto options = GetOptions(table_options); InitTable(options); std::shared_ptr cache = NewLRUCache(0, 0, false); table_options.block_cache = cache; options.table_factory.reset(new BlockBasedTableFactory(table_options)); Reopen(options); RecordCacheCounters(options); std::vector> iterators(kNumBlocks - 1); Iterator* iter = nullptr; // Load blocks into cache. for (size_t i = 0; i < kNumBlocks - 1; i++) { iter = db_->NewIterator(read_options); iter->Seek(ToString(i)); ASSERT_OK(iter->status()); CheckCacheCounters(options, 1, 0, 1, 0); iterators[i].reset(iter); } size_t usage = cache->GetUsage(); ASSERT_LT(0, usage); cache->SetCapacity(usage); ASSERT_EQ(usage, cache->GetPinnedUsage()); // Test with strict capacity limit. cache->SetStrictCapacityLimit(true); iter = db_->NewIterator(read_options); iter->Seek(ToString(kNumBlocks - 1)); ASSERT_TRUE(iter->status().IsIncomplete()); CheckCacheCounters(options, 1, 0, 0, 1); delete iter; iter = nullptr; // Release interators and access cache again. for (size_t i = 0; i < kNumBlocks - 1; i++) { iterators[i].reset(); CheckCacheCounters(options, 0, 0, 0, 0); } ASSERT_EQ(0, cache->GetPinnedUsage()); for (size_t i = 0; i < kNumBlocks - 1; i++) { iter = db_->NewIterator(read_options); iter->Seek(ToString(i)); ASSERT_OK(iter->status()); CheckCacheCounters(options, 0, 1, 0, 0); iterators[i].reset(iter); } } #ifdef SNAPPY TEST_F(DBBlockCacheTest, TestWithCompressedBlockCache) { ReadOptions read_options; auto table_options = GetTableOptions(); auto options = GetOptions(table_options); options.compression = CompressionType::kSnappyCompression; InitTable(options); std::shared_ptr cache = NewLRUCache(0, 0, false); std::shared_ptr compressed_cache = NewLRUCache(1 << 25, 0, false); table_options.block_cache = cache; table_options.block_cache_compressed = compressed_cache; options.table_factory.reset(new BlockBasedTableFactory(table_options)); Reopen(options); RecordCacheCounters(options); std::vector> iterators(kNumBlocks - 1); Iterator* iter = nullptr; // Load blocks into cache. for (size_t i = 0; i < kNumBlocks - 1; i++) { iter = db_->NewIterator(read_options); iter->Seek(ToString(i)); ASSERT_OK(iter->status()); CheckCacheCounters(options, 1, 0, 1, 0); CheckCompressedCacheCounters(options, 1, 0, 1, 0); iterators[i].reset(iter); } size_t usage = cache->GetUsage(); ASSERT_LT(0, usage); ASSERT_EQ(usage, cache->GetPinnedUsage()); size_t compressed_usage = compressed_cache->GetUsage(); ASSERT_LT(0, compressed_usage); // Compressed block cache cannot be pinned. ASSERT_EQ(0, compressed_cache->GetPinnedUsage()); // Set strict capacity limit flag. Now block will only load into compressed // block cache. cache->SetCapacity(usage); cache->SetStrictCapacityLimit(true); ASSERT_EQ(usage, cache->GetPinnedUsage()); iter = db_->NewIterator(read_options); iter->Seek(ToString(kNumBlocks - 1)); ASSERT_TRUE(iter->status().IsIncomplete()); CheckCacheCounters(options, 1, 0, 0, 1); CheckCompressedCacheCounters(options, 1, 0, 1, 0); delete iter; iter = nullptr; // Clear strict capacity limit flag. This time we shall hit compressed block // cache. cache->SetStrictCapacityLimit(false); iter = db_->NewIterator(read_options); iter->Seek(ToString(kNumBlocks - 1)); ASSERT_OK(iter->status()); CheckCacheCounters(options, 1, 0, 1, 0); CheckCompressedCacheCounters(options, 0, 1, 0, 0); delete iter; iter = nullptr; } #endif // SNAPPY #ifndef ROCKSDB_LITE // Make sure that when options.block_cache is set, after a new table is // created its index/filter blocks are added to block cache. TEST_F(DBBlockCacheTest, IndexAndFilterBlocksOfNewTableAddedToCache) { Options options = CurrentOptions(); options.create_if_missing = true; options.statistics = rocksdb::CreateDBStatistics(); BlockBasedTableOptions table_options; table_options.cache_index_and_filter_blocks = true; table_options.filter_policy.reset(NewBloomFilterPolicy(20)); options.table_factory.reset(new BlockBasedTableFactory(table_options)); CreateAndReopenWithCF({"pikachu"}, options); ASSERT_OK(Put(1, "key", "val")); // Create a new table. ASSERT_OK(Flush(1)); // index/filter blocks added to block cache right after table creation. ASSERT_EQ(1, TestGetTickerCount(options, BLOCK_CACHE_INDEX_MISS)); ASSERT_EQ(1, TestGetTickerCount(options, BLOCK_CACHE_FILTER_MISS)); ASSERT_EQ(2, /* only index/filter were added */ TestGetTickerCount(options, BLOCK_CACHE_ADD)); ASSERT_EQ(0, TestGetTickerCount(options, BLOCK_CACHE_DATA_MISS)); uint64_t int_num; ASSERT_TRUE( dbfull()->GetIntProperty("rocksdb.estimate-table-readers-mem", &int_num)); ASSERT_EQ(int_num, 0U); // Make sure filter block is in cache. std::string value; ReadOptions ropt; db_->KeyMayExist(ReadOptions(), handles_[1], "key", &value); // Miss count should remain the same. ASSERT_EQ(1, TestGetTickerCount(options, BLOCK_CACHE_FILTER_MISS)); ASSERT_EQ(1, TestGetTickerCount(options, BLOCK_CACHE_FILTER_HIT)); db_->KeyMayExist(ReadOptions(), handles_[1], "key", &value); ASSERT_EQ(1, TestGetTickerCount(options, BLOCK_CACHE_FILTER_MISS)); ASSERT_EQ(2, TestGetTickerCount(options, BLOCK_CACHE_FILTER_HIT)); // Make sure index block is in cache. auto index_block_hit = TestGetTickerCount(options, BLOCK_CACHE_INDEX_HIT); value = Get(1, "key"); ASSERT_EQ(1, TestGetTickerCount(options, BLOCK_CACHE_INDEX_MISS)); ASSERT_EQ(index_block_hit + 1, TestGetTickerCount(options, BLOCK_CACHE_INDEX_HIT)); value = Get(1, "key"); ASSERT_EQ(1, TestGetTickerCount(options, BLOCK_CACHE_INDEX_MISS)); ASSERT_EQ(index_block_hit + 2, TestGetTickerCount(options, BLOCK_CACHE_INDEX_HIT)); } // With fill_cache = false, fills up the cache, then iterates over the entire // db, verify dummy entries inserted in `BlockBasedTable::NewDataBlockIterator` // does not cause heap-use-after-free errors in COMPILE_WITH_ASAN=1 runs TEST_F(DBBlockCacheTest, FillCacheAndIterateDB) { ReadOptions read_options; read_options.fill_cache = false; auto table_options = GetTableOptions(); auto options = GetOptions(table_options); InitTable(options); std::shared_ptr cache = NewLRUCache(10, 0, true); table_options.block_cache = cache; options.table_factory.reset(new BlockBasedTableFactory(table_options)); Reopen(options); ASSERT_OK(Put("key1", "val1")); ASSERT_OK(Put("key2", "val2")); ASSERT_OK(Flush()); ASSERT_OK(Put("key3", "val3")); ASSERT_OK(Put("key4", "val4")); ASSERT_OK(Flush()); ASSERT_OK(Put("key5", "val5")); ASSERT_OK(Put("key6", "val6")); ASSERT_OK(Flush()); Iterator* iter = nullptr; iter = db_->NewIterator(read_options); iter->Seek(ToString(0)); while (iter->Valid()) { iter->Next(); } delete iter; iter = nullptr; } TEST_F(DBBlockCacheTest, IndexAndFilterBlocksStats) { Options options = CurrentOptions(); options.create_if_missing = true; options.statistics = rocksdb::CreateDBStatistics(); BlockBasedTableOptions table_options; table_options.cache_index_and_filter_blocks = true; // 200 bytes are enough to hold the first two blocks std::shared_ptr cache = NewLRUCache(200, 0, false); table_options.block_cache = cache; table_options.filter_policy.reset(NewBloomFilterPolicy(20)); options.table_factory.reset(new BlockBasedTableFactory(table_options)); CreateAndReopenWithCF({"pikachu"}, options); ASSERT_OK(Put(1, "key", "val")); // Create a new table ASSERT_OK(Flush(1)); size_t index_bytes_insert = TestGetTickerCount(options, BLOCK_CACHE_INDEX_BYTES_INSERT); size_t filter_bytes_insert = TestGetTickerCount(options, BLOCK_CACHE_FILTER_BYTES_INSERT); ASSERT_GT(index_bytes_insert, 0); ASSERT_GT(filter_bytes_insert, 0); ASSERT_EQ(cache->GetUsage(), index_bytes_insert + filter_bytes_insert); // set the cache capacity to the current usage cache->SetCapacity(index_bytes_insert + filter_bytes_insert); ASSERT_EQ(TestGetTickerCount(options, BLOCK_CACHE_INDEX_BYTES_EVICT), 0); ASSERT_EQ(TestGetTickerCount(options, BLOCK_CACHE_FILTER_BYTES_EVICT), 0); ASSERT_OK(Put(1, "key2", "val")); // Create a new table ASSERT_OK(Flush(1)); // cache evicted old index and block entries ASSERT_GT(TestGetTickerCount(options, BLOCK_CACHE_INDEX_BYTES_INSERT), index_bytes_insert); ASSERT_GT(TestGetTickerCount(options, BLOCK_CACHE_FILTER_BYTES_INSERT), filter_bytes_insert); ASSERT_EQ(TestGetTickerCount(options, BLOCK_CACHE_INDEX_BYTES_EVICT), index_bytes_insert); ASSERT_EQ(TestGetTickerCount(options, BLOCK_CACHE_FILTER_BYTES_EVICT), filter_bytes_insert); } namespace { // A mock cache wraps LRUCache, and record how many entries have been // inserted for each priority. class MockCache : public LRUCache { public: static uint32_t high_pri_insert_count; static uint32_t low_pri_insert_count; MockCache() : LRUCache((size_t)1 << 25 /*capacity*/, 0 /*num_shard_bits*/, false /*strict_capacity_limit*/, 0.0 /*high_pri_pool_ratio*/) { } virtual Status Insert(const Slice& key, void* value, size_t charge, void (*deleter)(const Slice& key, void* value), Handle** handle, Priority priority) override { if (priority == Priority::LOW) { low_pri_insert_count++; } else { high_pri_insert_count++; } return LRUCache::Insert(key, value, charge, deleter, handle, priority); } }; uint32_t MockCache::high_pri_insert_count = 0; uint32_t MockCache::low_pri_insert_count = 0; } // anonymous namespace TEST_F(DBBlockCacheTest, IndexAndFilterBlocksCachePriority) { for (auto priority : {Cache::Priority::LOW, Cache::Priority::HIGH}) { Options options = CurrentOptions(); options.create_if_missing = true; options.statistics = rocksdb::CreateDBStatistics(); BlockBasedTableOptions table_options; table_options.cache_index_and_filter_blocks = true; table_options.block_cache.reset(new MockCache()); table_options.filter_policy.reset(NewBloomFilterPolicy(20)); table_options.cache_index_and_filter_blocks_with_high_priority = priority == Cache::Priority::HIGH ? true : false; options.table_factory.reset(new BlockBasedTableFactory(table_options)); DestroyAndReopen(options); MockCache::high_pri_insert_count = 0; MockCache::low_pri_insert_count = 0; // Create a new table. ASSERT_OK(Put("foo", "value")); ASSERT_OK(Put("bar", "value")); ASSERT_OK(Flush()); ASSERT_EQ(1, NumTableFilesAtLevel(0)); // index/filter blocks added to block cache right after table creation. ASSERT_EQ(1, TestGetTickerCount(options, BLOCK_CACHE_INDEX_MISS)); ASSERT_EQ(1, TestGetTickerCount(options, BLOCK_CACHE_FILTER_MISS)); ASSERT_EQ(2, /* only index/filter were added */ TestGetTickerCount(options, BLOCK_CACHE_ADD)); ASSERT_EQ(0, TestGetTickerCount(options, BLOCK_CACHE_DATA_MISS)); if (priority == Cache::Priority::LOW) { ASSERT_EQ(0, MockCache::high_pri_insert_count); ASSERT_EQ(2, MockCache::low_pri_insert_count); } else { ASSERT_EQ(2, MockCache::high_pri_insert_count); ASSERT_EQ(0, MockCache::low_pri_insert_count); } // Access data block. ASSERT_EQ("value", Get("foo")); ASSERT_EQ(1, TestGetTickerCount(options, BLOCK_CACHE_INDEX_MISS)); ASSERT_EQ(1, TestGetTickerCount(options, BLOCK_CACHE_FILTER_MISS)); ASSERT_EQ(3, /*adding data block*/ TestGetTickerCount(options, BLOCK_CACHE_ADD)); ASSERT_EQ(1, TestGetTickerCount(options, BLOCK_CACHE_DATA_MISS)); // Data block should be inserted with low priority. if (priority == Cache::Priority::LOW) { ASSERT_EQ(0, MockCache::high_pri_insert_count); ASSERT_EQ(3, MockCache::low_pri_insert_count); } else { ASSERT_EQ(2, MockCache::high_pri_insert_count); ASSERT_EQ(1, MockCache::low_pri_insert_count); } } } TEST_F(DBBlockCacheTest, ParanoidFileChecks) { Options options = CurrentOptions(); options.create_if_missing = true; options.statistics = rocksdb::CreateDBStatistics(); options.level0_file_num_compaction_trigger = 2; options.paranoid_file_checks = true; BlockBasedTableOptions table_options; table_options.cache_index_and_filter_blocks = false; table_options.filter_policy.reset(NewBloomFilterPolicy(20)); options.table_factory.reset(new BlockBasedTableFactory(table_options)); CreateAndReopenWithCF({"pikachu"}, options); ASSERT_OK(Put(1, "1_key", "val")); ASSERT_OK(Put(1, "9_key", "val")); // Create a new table. ASSERT_OK(Flush(1)); ASSERT_EQ(1, /* read and cache data block */ TestGetTickerCount(options, BLOCK_CACHE_ADD)); ASSERT_OK(Put(1, "1_key2", "val2")); ASSERT_OK(Put(1, "9_key2", "val2")); // Create a new SST file. This will further trigger a compaction // and generate another file. ASSERT_OK(Flush(1)); dbfull()->TEST_WaitForCompact(); ASSERT_EQ(3, /* Totally 3 files created up to now */ TestGetTickerCount(options, BLOCK_CACHE_ADD)); // After disabling options.paranoid_file_checks. NO further block // is added after generating a new file. ASSERT_OK( dbfull()->SetOptions(handles_[1], {{"paranoid_file_checks", "false"}})); ASSERT_OK(Put(1, "1_key3", "val3")); ASSERT_OK(Put(1, "9_key3", "val3")); ASSERT_OK(Flush(1)); ASSERT_OK(Put(1, "1_key4", "val4")); ASSERT_OK(Put(1, "9_key4", "val4")); ASSERT_OK(Flush(1)); dbfull()->TEST_WaitForCompact(); ASSERT_EQ(3, /* Totally 3 files created up to now */ TestGetTickerCount(options, BLOCK_CACHE_ADD)); } TEST_F(DBBlockCacheTest, CompressedCache) { if (!Snappy_Supported()) { return; } int num_iter = 80; // Run this test three iterations. // Iteration 1: only a uncompressed block cache // Iteration 2: only a compressed block cache // Iteration 3: both block cache and compressed cache // Iteration 4: both block cache and compressed cache, but DB is not // compressed for (int iter = 0; iter < 4; iter++) { Options options = CurrentOptions(); options.write_buffer_size = 64 * 1024; // small write buffer options.statistics = rocksdb::CreateDBStatistics(); BlockBasedTableOptions table_options; switch (iter) { case 0: // only uncompressed block cache table_options.block_cache = NewLRUCache(8 * 1024); table_options.block_cache_compressed = nullptr; options.table_factory.reset(NewBlockBasedTableFactory(table_options)); break; case 1: // no block cache, only compressed cache table_options.no_block_cache = true; table_options.block_cache = nullptr; table_options.block_cache_compressed = NewLRUCache(8 * 1024); options.table_factory.reset(NewBlockBasedTableFactory(table_options)); break; case 2: // both compressed and uncompressed block cache table_options.block_cache = NewLRUCache(1024); table_options.block_cache_compressed = NewLRUCache(8 * 1024); options.table_factory.reset(NewBlockBasedTableFactory(table_options)); break; case 3: // both block cache and compressed cache, but DB is not compressed // also, make block cache sizes bigger, to trigger block cache hits table_options.block_cache = NewLRUCache(1024 * 1024); table_options.block_cache_compressed = NewLRUCache(8 * 1024 * 1024); options.table_factory.reset(NewBlockBasedTableFactory(table_options)); options.compression = kNoCompression; break; default: FAIL(); } CreateAndReopenWithCF({"pikachu"}, options); // default column family doesn't have block cache Options no_block_cache_opts; no_block_cache_opts.statistics = options.statistics; no_block_cache_opts = CurrentOptions(no_block_cache_opts); BlockBasedTableOptions table_options_no_bc; table_options_no_bc.no_block_cache = true; no_block_cache_opts.table_factory.reset( NewBlockBasedTableFactory(table_options_no_bc)); ReopenWithColumnFamilies( {"default", "pikachu"}, std::vector({no_block_cache_opts, options})); Random rnd(301); // Write 8MB (80 values, each 100K) ASSERT_EQ(NumTableFilesAtLevel(0, 1), 0); std::vector values; std::string str; for (int i = 0; i < num_iter; i++) { if (i % 4 == 0) { // high compression ratio str = RandomString(&rnd, 1000); } values.push_back(str); ASSERT_OK(Put(1, Key(i), values[i])); } // flush all data from memtable so that reads are from block cache ASSERT_OK(Flush(1)); for (int i = 0; i < num_iter; i++) { ASSERT_EQ(Get(1, Key(i)), values[i]); } // check that we triggered the appropriate code paths in the cache switch (iter) { case 0: // only uncompressed block cache ASSERT_GT(TestGetTickerCount(options, BLOCK_CACHE_MISS), 0); ASSERT_EQ(TestGetTickerCount(options, BLOCK_CACHE_COMPRESSED_MISS), 0); break; case 1: // no block cache, only compressed cache ASSERT_EQ(TestGetTickerCount(options, BLOCK_CACHE_MISS), 0); ASSERT_GT(TestGetTickerCount(options, BLOCK_CACHE_COMPRESSED_MISS), 0); break; case 2: // both compressed and uncompressed block cache ASSERT_GT(TestGetTickerCount(options, BLOCK_CACHE_MISS), 0); ASSERT_GT(TestGetTickerCount(options, BLOCK_CACHE_COMPRESSED_MISS), 0); break; case 3: // both compressed and uncompressed block cache ASSERT_GT(TestGetTickerCount(options, BLOCK_CACHE_MISS), 0); ASSERT_GT(TestGetTickerCount(options, BLOCK_CACHE_HIT), 0); ASSERT_GT(TestGetTickerCount(options, BLOCK_CACHE_COMPRESSED_MISS), 0); // compressed doesn't have any hits since blocks are not compressed on // storage ASSERT_EQ(TestGetTickerCount(options, BLOCK_CACHE_COMPRESSED_HIT), 0); break; default: FAIL(); } options.create_if_missing = true; DestroyAndReopen(options); } } #endif // ROCKSDB_LITE } // namespace rocksdb int main(int argc, char** argv) { rocksdb::port::InstallStackTraceHandler(); ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/db/db_bloom_filter_test.cc000066400000000000000000001712171337235545400203360ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "db/db_test_util.h" #include "port/stack_trace.h" #include "rocksdb/perf_context.h" namespace rocksdb { // DB tests related to bloom filter. class DBBloomFilterTest : public DBTestBase { public: DBBloomFilterTest() : DBTestBase("/db_bloom_filter_test") {} }; class DBBloomFilterTestWithParam : public DBTestBase, public testing::WithParamInterface> { // public testing::WithParamInterface { protected: bool use_block_based_filter_; bool partition_filters_; uint32_t format_version_; public: DBBloomFilterTestWithParam() : DBTestBase("/db_bloom_filter_tests") {} ~DBBloomFilterTestWithParam() {} void SetUp() override { use_block_based_filter_ = std::get<0>(GetParam()); partition_filters_ = std::get<1>(GetParam()); format_version_ = std::get<2>(GetParam()); } }; class DBBloomFilterTestDefFormatVersion : public DBBloomFilterTestWithParam {}; class SliceTransformLimitedDomainGeneric : public SliceTransform { const char* Name() const override { return "SliceTransformLimitedDomainGeneric"; } Slice Transform(const Slice& src) const override { return Slice(src.data(), 5); } bool InDomain(const Slice& src) const override { // prefix will be x???? return src.size() >= 5; } bool InRange(const Slice& dst) const override { // prefix will be x???? return dst.size() == 5; } }; // KeyMayExist can lead to a few false positives, but not false negatives. // To make test deterministic, use a much larger number of bits per key-20 than // bits in the key, so that false positives are eliminated TEST_P(DBBloomFilterTestDefFormatVersion, KeyMayExist) { do { ReadOptions ropts; std::string value; anon::OptionsOverride options_override; options_override.filter_policy.reset( NewBloomFilterPolicy(20, use_block_based_filter_)); options_override.partition_filters = partition_filters_; options_override.metadata_block_size = 32; Options options = CurrentOptions(options_override); if (partition_filters_ && static_cast( options.table_factory->GetOptions()) ->index_type != BlockBasedTableOptions::kTwoLevelIndexSearch) { // In the current implementation partitioned filters depend on partitioned // indexes continue; } options.statistics = rocksdb::CreateDBStatistics(); CreateAndReopenWithCF({"pikachu"}, options); ASSERT_TRUE(!db_->KeyMayExist(ropts, handles_[1], "a", &value)); ASSERT_OK(Put(1, "a", "b")); bool value_found = false; ASSERT_TRUE( db_->KeyMayExist(ropts, handles_[1], "a", &value, &value_found)); ASSERT_TRUE(value_found); ASSERT_EQ("b", value); ASSERT_OK(Flush(1)); value.clear(); uint64_t numopen = TestGetTickerCount(options, NO_FILE_OPENS); uint64_t cache_added = TestGetTickerCount(options, BLOCK_CACHE_ADD); ASSERT_TRUE( db_->KeyMayExist(ropts, handles_[1], "a", &value, &value_found)); ASSERT_TRUE(!value_found); // assert that no new files were opened and no new blocks were // read into block cache. ASSERT_EQ(numopen, TestGetTickerCount(options, NO_FILE_OPENS)); ASSERT_EQ(cache_added, TestGetTickerCount(options, BLOCK_CACHE_ADD)); ASSERT_OK(Delete(1, "a")); numopen = TestGetTickerCount(options, NO_FILE_OPENS); cache_added = TestGetTickerCount(options, BLOCK_CACHE_ADD); ASSERT_TRUE(!db_->KeyMayExist(ropts, handles_[1], "a", &value)); ASSERT_EQ(numopen, TestGetTickerCount(options, NO_FILE_OPENS)); ASSERT_EQ(cache_added, TestGetTickerCount(options, BLOCK_CACHE_ADD)); ASSERT_OK(Flush(1)); dbfull()->TEST_CompactRange(0, nullptr, nullptr, handles_[1], true /* disallow trivial move */); numopen = TestGetTickerCount(options, NO_FILE_OPENS); cache_added = TestGetTickerCount(options, BLOCK_CACHE_ADD); ASSERT_TRUE(!db_->KeyMayExist(ropts, handles_[1], "a", &value)); ASSERT_EQ(numopen, TestGetTickerCount(options, NO_FILE_OPENS)); ASSERT_EQ(cache_added, TestGetTickerCount(options, BLOCK_CACHE_ADD)); ASSERT_OK(Delete(1, "c")); numopen = TestGetTickerCount(options, NO_FILE_OPENS); cache_added = TestGetTickerCount(options, BLOCK_CACHE_ADD); ASSERT_TRUE(!db_->KeyMayExist(ropts, handles_[1], "c", &value)); ASSERT_EQ(numopen, TestGetTickerCount(options, NO_FILE_OPENS)); ASSERT_EQ(cache_added, TestGetTickerCount(options, BLOCK_CACHE_ADD)); // KeyMayExist function only checks data in block caches, which is not used // by plain table format. } while ( ChangeOptions(kSkipPlainTable | kSkipHashIndex | kSkipFIFOCompaction)); } TEST_F(DBBloomFilterTest, GetFilterByPrefixBloomCustomPrefixExtractor) { for (bool partition_filters : {true, false}) { Options options = last_options_; options.prefix_extractor = std::make_shared(); options.statistics = rocksdb::CreateDBStatistics(); BlockBasedTableOptions bbto; bbto.filter_policy.reset(NewBloomFilterPolicy(10, false)); if (partition_filters) { bbto.partition_filters = true; bbto.index_type = BlockBasedTableOptions::IndexType::kTwoLevelIndexSearch; } bbto.whole_key_filtering = false; options.table_factory.reset(NewBlockBasedTableFactory(bbto)); DestroyAndReopen(options); WriteOptions wo; ReadOptions ro; FlushOptions fo; fo.wait = true; std::string value; ASSERT_OK(dbfull()->Put(wo, "barbarbar", "foo")); ASSERT_OK(dbfull()->Put(wo, "barbarbar2", "foo2")); ASSERT_OK(dbfull()->Put(wo, "foofoofoo", "bar")); dbfull()->Flush(fo); ASSERT_EQ("foo", Get("barbarbar")); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_USEFUL), 0); ASSERT_EQ("foo2", Get("barbarbar2")); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_USEFUL), 0); ASSERT_EQ("NOT_FOUND", Get("barbarbar3")); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_USEFUL), 0); ASSERT_EQ("NOT_FOUND", Get("barfoofoo")); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_USEFUL), 1); ASSERT_EQ("NOT_FOUND", Get("foobarbar")); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_USEFUL), 2); ro.total_order_seek = true; ASSERT_TRUE(db_->Get(ro, "foobarbar", &value).IsNotFound()); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_USEFUL), 2); } } TEST_F(DBBloomFilterTest, GetFilterByPrefixBloom) { for (bool partition_filters : {true, false}) { Options options = last_options_; options.prefix_extractor.reset(NewFixedPrefixTransform(8)); options.statistics = rocksdb::CreateDBStatistics(); BlockBasedTableOptions bbto; bbto.filter_policy.reset(NewBloomFilterPolicy(10, false)); if (partition_filters) { bbto.partition_filters = true; bbto.index_type = BlockBasedTableOptions::IndexType::kTwoLevelIndexSearch; } bbto.whole_key_filtering = false; options.table_factory.reset(NewBlockBasedTableFactory(bbto)); DestroyAndReopen(options); WriteOptions wo; ReadOptions ro; FlushOptions fo; fo.wait = true; std::string value; ASSERT_OK(dbfull()->Put(wo, "barbarbar", "foo")); ASSERT_OK(dbfull()->Put(wo, "barbarbar2", "foo2")); ASSERT_OK(dbfull()->Put(wo, "foofoofoo", "bar")); dbfull()->Flush(fo); ASSERT_EQ("foo", Get("barbarbar")); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_USEFUL), 0); ASSERT_EQ("foo2", Get("barbarbar2")); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_USEFUL), 0); ASSERT_EQ("NOT_FOUND", Get("barbarbar3")); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_USEFUL), 0); ASSERT_EQ("NOT_FOUND", Get("barfoofoo")); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_USEFUL), 1); ASSERT_EQ("NOT_FOUND", Get("foobarbar")); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_USEFUL), 2); ro.total_order_seek = true; ASSERT_TRUE(db_->Get(ro, "foobarbar", &value).IsNotFound()); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_USEFUL), 2); } } TEST_F(DBBloomFilterTest, WholeKeyFilterProp) { for (bool partition_filters : {true, false}) { Options options = last_options_; options.prefix_extractor.reset(NewFixedPrefixTransform(3)); options.statistics = rocksdb::CreateDBStatistics(); BlockBasedTableOptions bbto; bbto.filter_policy.reset(NewBloomFilterPolicy(10, false)); bbto.whole_key_filtering = false; if (partition_filters) { bbto.partition_filters = true; bbto.index_type = BlockBasedTableOptions::IndexType::kTwoLevelIndexSearch; } options.table_factory.reset(NewBlockBasedTableFactory(bbto)); DestroyAndReopen(options); WriteOptions wo; ReadOptions ro; FlushOptions fo; fo.wait = true; std::string value; ASSERT_OK(dbfull()->Put(wo, "foobar", "foo")); // Needs insert some keys to make sure files are not filtered out by key // ranges. ASSERT_OK(dbfull()->Put(wo, "aaa", "")); ASSERT_OK(dbfull()->Put(wo, "zzz", "")); dbfull()->Flush(fo); Reopen(options); ASSERT_EQ("NOT_FOUND", Get("foo")); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_USEFUL), 0); ASSERT_EQ("NOT_FOUND", Get("bar")); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_USEFUL), 1); ASSERT_EQ("foo", Get("foobar")); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_USEFUL), 1); // Reopen with whole key filtering enabled and prefix extractor // NULL. Bloom filter should be off for both of whole key and // prefix bloom. bbto.whole_key_filtering = true; options.table_factory.reset(NewBlockBasedTableFactory(bbto)); options.prefix_extractor.reset(); Reopen(options); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_USEFUL), 1); ASSERT_EQ("NOT_FOUND", Get("foo")); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_USEFUL), 1); ASSERT_EQ("NOT_FOUND", Get("bar")); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_USEFUL), 1); ASSERT_EQ("foo", Get("foobar")); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_USEFUL), 1); // Write DB with only full key filtering. ASSERT_OK(dbfull()->Put(wo, "foobar", "foo")); // Needs insert some keys to make sure files are not filtered out by key // ranges. ASSERT_OK(dbfull()->Put(wo, "aaa", "")); ASSERT_OK(dbfull()->Put(wo, "zzz", "")); db_->CompactRange(CompactRangeOptions(), nullptr, nullptr); // Reopen with both of whole key off and prefix extractor enabled. // Still no bloom filter should be used. options.prefix_extractor.reset(NewFixedPrefixTransform(3)); bbto.whole_key_filtering = false; options.table_factory.reset(NewBlockBasedTableFactory(bbto)); Reopen(options); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_USEFUL), 1); ASSERT_EQ("NOT_FOUND", Get("foo")); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_USEFUL), 1); ASSERT_EQ("NOT_FOUND", Get("bar")); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_USEFUL), 1); ASSERT_EQ("foo", Get("foobar")); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_USEFUL), 1); // Try to create a DB with mixed files: ASSERT_OK(dbfull()->Put(wo, "foobar", "foo")); // Needs insert some keys to make sure files are not filtered out by key // ranges. ASSERT_OK(dbfull()->Put(wo, "aaa", "")); ASSERT_OK(dbfull()->Put(wo, "zzz", "")); db_->CompactRange(CompactRangeOptions(), nullptr, nullptr); options.prefix_extractor.reset(); bbto.whole_key_filtering = true; options.table_factory.reset(NewBlockBasedTableFactory(bbto)); Reopen(options); // Try to create a DB with mixed files. ASSERT_OK(dbfull()->Put(wo, "barfoo", "bar")); // In this case needs insert some keys to make sure files are // not filtered out by key ranges. ASSERT_OK(dbfull()->Put(wo, "aaa", "")); ASSERT_OK(dbfull()->Put(wo, "zzz", "")); Flush(); // Now we have two files: // File 1: An older file with prefix bloom. // File 2: A newer file with whole bloom filter. ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_USEFUL), 1); ASSERT_EQ("NOT_FOUND", Get("foo")); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_USEFUL), 2); ASSERT_EQ("NOT_FOUND", Get("bar")); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_USEFUL), 3); ASSERT_EQ("foo", Get("foobar")); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_USEFUL), 4); ASSERT_EQ("bar", Get("barfoo")); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_USEFUL), 4); // Reopen with the same setting: only whole key is used Reopen(options); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_USEFUL), 4); ASSERT_EQ("NOT_FOUND", Get("foo")); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_USEFUL), 5); ASSERT_EQ("NOT_FOUND", Get("bar")); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_USEFUL), 6); ASSERT_EQ("foo", Get("foobar")); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_USEFUL), 7); ASSERT_EQ("bar", Get("barfoo")); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_USEFUL), 7); // Restart with both filters are allowed options.prefix_extractor.reset(NewFixedPrefixTransform(3)); bbto.whole_key_filtering = true; options.table_factory.reset(NewBlockBasedTableFactory(bbto)); Reopen(options); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_USEFUL), 7); // File 1 will has it filtered out. // File 2 will not, as prefix `foo` exists in the file. ASSERT_EQ("NOT_FOUND", Get("foo")); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_USEFUL), 8); ASSERT_EQ("NOT_FOUND", Get("bar")); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_USEFUL), 10); ASSERT_EQ("foo", Get("foobar")); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_USEFUL), 11); ASSERT_EQ("bar", Get("barfoo")); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_USEFUL), 11); // Restart with only prefix bloom is allowed. options.prefix_extractor.reset(NewFixedPrefixTransform(3)); bbto.whole_key_filtering = false; options.table_factory.reset(NewBlockBasedTableFactory(bbto)); Reopen(options); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_USEFUL), 11); ASSERT_EQ("NOT_FOUND", Get("foo")); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_USEFUL), 11); ASSERT_EQ("NOT_FOUND", Get("bar")); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_USEFUL), 12); ASSERT_EQ("foo", Get("foobar")); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_USEFUL), 12); ASSERT_EQ("bar", Get("barfoo")); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_USEFUL), 12); } } TEST_P(DBBloomFilterTestWithParam, BloomFilter) { do { Options options = CurrentOptions(); env_->count_random_reads_ = true; options.env = env_; // ChangeCompactOptions() only changes compaction style, which does not // trigger reset of table_factory BlockBasedTableOptions table_options; table_options.no_block_cache = true; table_options.filter_policy.reset( NewBloomFilterPolicy(10, use_block_based_filter_)); table_options.partition_filters = partition_filters_; if (partition_filters_) { table_options.index_type = BlockBasedTableOptions::IndexType::kTwoLevelIndexSearch; } table_options.format_version = format_version_; if (format_version_ >= 4) { // value delta encoding challenged more with index interval > 1 table_options.index_block_restart_interval = 8; } table_options.metadata_block_size = 32; options.table_factory.reset(NewBlockBasedTableFactory(table_options)); CreateAndReopenWithCF({"pikachu"}, options); // Populate multiple layers const int N = 10000; for (int i = 0; i < N; i++) { ASSERT_OK(Put(1, Key(i), Key(i))); } Compact(1, "a", "z"); for (int i = 0; i < N; i += 100) { ASSERT_OK(Put(1, Key(i), Key(i))); } Flush(1); // Prevent auto compactions triggered by seeks env_->delay_sstable_sync_.store(true, std::memory_order_release); // Lookup present keys. Should rarely read from small sstable. env_->random_read_counter_.Reset(); for (int i = 0; i < N; i++) { ASSERT_EQ(Key(i), Get(1, Key(i))); } int reads = env_->random_read_counter_.Read(); fprintf(stderr, "%d present => %d reads\n", N, reads); ASSERT_GE(reads, N); if (partition_filters_) { // Without block cache, we read an extra partition filter per each // level*read and a partition index per each read ASSERT_LE(reads, 4 * N + 2 * N / 100); } else { ASSERT_LE(reads, N + 2 * N / 100); } // Lookup present keys. Should rarely read from either sstable. env_->random_read_counter_.Reset(); for (int i = 0; i < N; i++) { ASSERT_EQ("NOT_FOUND", Get(1, Key(i) + ".missing")); } reads = env_->random_read_counter_.Read(); fprintf(stderr, "%d missing => %d reads\n", N, reads); if (partition_filters_) { // With partitioned filter we read one extra filter per level per each // missed read. ASSERT_LE(reads, 2 * N + 3 * N / 100); } else { ASSERT_LE(reads, 3 * N / 100); } env_->delay_sstable_sync_.store(false, std::memory_order_release); Close(); } while (ChangeCompactOptions()); } INSTANTIATE_TEST_CASE_P( FormatDef, DBBloomFilterTestDefFormatVersion, ::testing::Values(std::make_tuple(true, false, test::kDefaultFormatVersion), std::make_tuple(false, true, test::kDefaultFormatVersion), std::make_tuple(false, false, test::kDefaultFormatVersion))); INSTANTIATE_TEST_CASE_P( FormatDef, DBBloomFilterTestWithParam, ::testing::Values(std::make_tuple(true, false, test::kDefaultFormatVersion), std::make_tuple(false, true, test::kDefaultFormatVersion), std::make_tuple(false, false, test::kDefaultFormatVersion))); INSTANTIATE_TEST_CASE_P( FormatLatest, DBBloomFilterTestWithParam, ::testing::Values(std::make_tuple(true, false, test::kLatestFormatVersion), std::make_tuple(false, true, test::kLatestFormatVersion), std::make_tuple(false, false, test::kLatestFormatVersion))); TEST_F(DBBloomFilterTest, BloomFilterRate) { while (ChangeFilterOptions()) { Options options = CurrentOptions(); options.statistics = rocksdb::CreateDBStatistics(); CreateAndReopenWithCF({"pikachu"}, options); const int maxKey = 10000; for (int i = 0; i < maxKey; i++) { ASSERT_OK(Put(1, Key(i), Key(i))); } // Add a large key to make the file contain wide range ASSERT_OK(Put(1, Key(maxKey + 55555), Key(maxKey + 55555))); Flush(1); // Check if they can be found for (int i = 0; i < maxKey; i++) { ASSERT_EQ(Key(i), Get(1, Key(i))); } ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_USEFUL), 0); // Check if filter is useful for (int i = 0; i < maxKey; i++) { ASSERT_EQ("NOT_FOUND", Get(1, Key(i + 33333))); } ASSERT_GE(TestGetTickerCount(options, BLOOM_FILTER_USEFUL), maxKey * 0.98); } } TEST_F(DBBloomFilterTest, BloomFilterCompatibility) { Options options = CurrentOptions(); options.statistics = rocksdb::CreateDBStatistics(); BlockBasedTableOptions table_options; table_options.filter_policy.reset(NewBloomFilterPolicy(10, true)); options.table_factory.reset(NewBlockBasedTableFactory(table_options)); // Create with block based filter CreateAndReopenWithCF({"pikachu"}, options); const int maxKey = 10000; for (int i = 0; i < maxKey; i++) { ASSERT_OK(Put(1, Key(i), Key(i))); } ASSERT_OK(Put(1, Key(maxKey + 55555), Key(maxKey + 55555))); Flush(1); // Check db with full filter table_options.filter_policy.reset(NewBloomFilterPolicy(10, false)); options.table_factory.reset(NewBlockBasedTableFactory(table_options)); ReopenWithColumnFamilies({"default", "pikachu"}, options); // Check if they can be found for (int i = 0; i < maxKey; i++) { ASSERT_EQ(Key(i), Get(1, Key(i))); } ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_USEFUL), 0); // Check db with partitioned full filter table_options.partition_filters = true; table_options.index_type = BlockBasedTableOptions::IndexType::kTwoLevelIndexSearch; table_options.filter_policy.reset(NewBloomFilterPolicy(10, false)); options.table_factory.reset(NewBlockBasedTableFactory(table_options)); ReopenWithColumnFamilies({"default", "pikachu"}, options); // Check if they can be found for (int i = 0; i < maxKey; i++) { ASSERT_EQ(Key(i), Get(1, Key(i))); } ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_USEFUL), 0); } TEST_F(DBBloomFilterTest, BloomFilterReverseCompatibility) { for (bool partition_filters : {true, false}) { Options options = CurrentOptions(); options.statistics = rocksdb::CreateDBStatistics(); BlockBasedTableOptions table_options; if (partition_filters) { table_options.partition_filters = true; table_options.index_type = BlockBasedTableOptions::IndexType::kTwoLevelIndexSearch; } table_options.filter_policy.reset(NewBloomFilterPolicy(10, false)); options.table_factory.reset(NewBlockBasedTableFactory(table_options)); DestroyAndReopen(options); // Create with full filter CreateAndReopenWithCF({"pikachu"}, options); const int maxKey = 10000; for (int i = 0; i < maxKey; i++) { ASSERT_OK(Put(1, Key(i), Key(i))); } ASSERT_OK(Put(1, Key(maxKey + 55555), Key(maxKey + 55555))); Flush(1); // Check db with block_based filter table_options.filter_policy.reset(NewBloomFilterPolicy(10, true)); options.table_factory.reset(NewBlockBasedTableFactory(table_options)); ReopenWithColumnFamilies({"default", "pikachu"}, options); // Check if they can be found for (int i = 0; i < maxKey; i++) { ASSERT_EQ(Key(i), Get(1, Key(i))); } ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_USEFUL), 0); } } namespace { // A wrapped bloom over default FilterPolicy class WrappedBloom : public FilterPolicy { public: explicit WrappedBloom(int bits_per_key) : filter_(NewBloomFilterPolicy(bits_per_key)), counter_(0) {} ~WrappedBloom() { delete filter_; } const char* Name() const override { return "WrappedRocksDbFilterPolicy"; } void CreateFilter(const rocksdb::Slice* keys, int n, std::string* dst) const override { std::unique_ptr user_keys(new rocksdb::Slice[n]); for (int i = 0; i < n; ++i) { user_keys[i] = convertKey(keys[i]); } return filter_->CreateFilter(user_keys.get(), n, dst); } bool KeyMayMatch(const rocksdb::Slice& key, const rocksdb::Slice& filter) const override { counter_++; return filter_->KeyMayMatch(convertKey(key), filter); } uint32_t GetCounter() { return counter_; } private: const FilterPolicy* filter_; mutable uint32_t counter_; rocksdb::Slice convertKey(const rocksdb::Slice& key) const { return key; } }; } // namespace TEST_F(DBBloomFilterTest, BloomFilterWrapper) { Options options = CurrentOptions(); options.statistics = rocksdb::CreateDBStatistics(); BlockBasedTableOptions table_options; WrappedBloom* policy = new WrappedBloom(10); table_options.filter_policy.reset(policy); options.table_factory.reset(NewBlockBasedTableFactory(table_options)); CreateAndReopenWithCF({"pikachu"}, options); const int maxKey = 10000; for (int i = 0; i < maxKey; i++) { ASSERT_OK(Put(1, Key(i), Key(i))); } // Add a large key to make the file contain wide range ASSERT_OK(Put(1, Key(maxKey + 55555), Key(maxKey + 55555))); ASSERT_EQ(0U, policy->GetCounter()); Flush(1); // Check if they can be found for (int i = 0; i < maxKey; i++) { ASSERT_EQ(Key(i), Get(1, Key(i))); } ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_USEFUL), 0); ASSERT_EQ(1U * maxKey, policy->GetCounter()); // Check if filter is useful for (int i = 0; i < maxKey; i++) { ASSERT_EQ("NOT_FOUND", Get(1, Key(i + 33333))); } ASSERT_GE(TestGetTickerCount(options, BLOOM_FILTER_USEFUL), maxKey * 0.98); ASSERT_EQ(2U * maxKey, policy->GetCounter()); } class SliceTransformLimitedDomain : public SliceTransform { const char* Name() const override { return "SliceTransformLimitedDomain"; } Slice Transform(const Slice& src) const override { return Slice(src.data(), 5); } bool InDomain(const Slice& src) const override { // prefix will be x???? return src.size() >= 5 && src[0] == 'x'; } bool InRange(const Slice& dst) const override { // prefix will be x???? return dst.size() == 5 && dst[0] == 'x'; } }; TEST_F(DBBloomFilterTest, PrefixExtractorFullFilter) { BlockBasedTableOptions bbto; // Full Filter Block bbto.filter_policy.reset(rocksdb::NewBloomFilterPolicy(10, false)); bbto.whole_key_filtering = false; Options options = CurrentOptions(); options.prefix_extractor = std::make_shared(); options.table_factory.reset(NewBlockBasedTableFactory(bbto)); DestroyAndReopen(options); ASSERT_OK(Put("x1111_AAAA", "val1")); ASSERT_OK(Put("x1112_AAAA", "val2")); ASSERT_OK(Put("x1113_AAAA", "val3")); ASSERT_OK(Put("x1114_AAAA", "val4")); // Not in domain, wont be added to filter ASSERT_OK(Put("zzzzz_AAAA", "val5")); ASSERT_OK(Flush()); ASSERT_EQ(Get("x1111_AAAA"), "val1"); ASSERT_EQ(Get("x1112_AAAA"), "val2"); ASSERT_EQ(Get("x1113_AAAA"), "val3"); ASSERT_EQ(Get("x1114_AAAA"), "val4"); // Was not added to filter but rocksdb will try to read it from the filter ASSERT_EQ(Get("zzzzz_AAAA"), "val5"); } TEST_F(DBBloomFilterTest, PrefixExtractorBlockFilter) { BlockBasedTableOptions bbto; // Block Filter Block bbto.filter_policy.reset(rocksdb::NewBloomFilterPolicy(10, true)); Options options = CurrentOptions(); options.prefix_extractor = std::make_shared(); options.table_factory.reset(NewBlockBasedTableFactory(bbto)); DestroyAndReopen(options); ASSERT_OK(Put("x1113_AAAA", "val3")); ASSERT_OK(Put("x1114_AAAA", "val4")); // Not in domain, wont be added to filter ASSERT_OK(Put("zzzzz_AAAA", "val1")); ASSERT_OK(Put("zzzzz_AAAB", "val2")); ASSERT_OK(Put("zzzzz_AAAC", "val3")); ASSERT_OK(Put("zzzzz_AAAD", "val4")); ASSERT_OK(Flush()); std::vector iter_res; auto iter = db_->NewIterator(ReadOptions()); // Seek to a key that was not in Domain for (iter->Seek("zzzzz_AAAA"); iter->Valid(); iter->Next()) { iter_res.emplace_back(iter->value().ToString()); } std::vector expected_res = {"val1", "val2", "val3", "val4"}; ASSERT_EQ(iter_res, expected_res); delete iter; } #ifndef ROCKSDB_LITE class BloomStatsTestWithParam : public DBBloomFilterTest, public testing::WithParamInterface> { public: BloomStatsTestWithParam() { use_block_table_ = std::get<0>(GetParam()); use_block_based_builder_ = std::get<1>(GetParam()); partition_filters_ = std::get<2>(GetParam()); options_.create_if_missing = true; options_.prefix_extractor.reset(rocksdb::NewFixedPrefixTransform(4)); options_.memtable_prefix_bloom_size_ratio = 8.0 * 1024.0 / static_cast(options_.write_buffer_size); if (use_block_table_) { BlockBasedTableOptions table_options; table_options.hash_index_allow_collision = false; if (partition_filters_) { assert(!use_block_based_builder_); table_options.partition_filters = partition_filters_; table_options.index_type = BlockBasedTableOptions::IndexType::kTwoLevelIndexSearch; } table_options.filter_policy.reset( NewBloomFilterPolicy(10, use_block_based_builder_)); options_.table_factory.reset(NewBlockBasedTableFactory(table_options)); } else { assert(!partition_filters_); // not supported in plain table PlainTableOptions table_options; options_.table_factory.reset(NewPlainTableFactory(table_options)); } options_.env = env_; get_perf_context()->Reset(); DestroyAndReopen(options_); } ~BloomStatsTestWithParam() { get_perf_context()->Reset(); Destroy(options_); } // Required if inheriting from testing::WithParamInterface<> static void SetUpTestCase() {} static void TearDownTestCase() {} bool use_block_table_; bool use_block_based_builder_; bool partition_filters_; Options options_; }; // 1 Insert 2 K-V pairs into DB // 2 Call Get() for both keys - expext memtable bloom hit stat to be 2 // 3 Call Get() for nonexisting key - expect memtable bloom miss stat to be 1 // 4 Call Flush() to create SST // 5 Call Get() for both keys - expext SST bloom hit stat to be 2 // 6 Call Get() for nonexisting key - expect SST bloom miss stat to be 1 // Test both: block and plain SST TEST_P(BloomStatsTestWithParam, BloomStatsTest) { std::string key1("AAAA"); std::string key2("RXDB"); // not in DB std::string key3("ZBRA"); std::string value1("Value1"); std::string value3("Value3"); ASSERT_OK(Put(key1, value1, WriteOptions())); ASSERT_OK(Put(key3, value3, WriteOptions())); // check memtable bloom stats ASSERT_EQ(value1, Get(key1)); ASSERT_EQ(1, get_perf_context()->bloom_memtable_hit_count); ASSERT_EQ(value3, Get(key3)); ASSERT_EQ(2, get_perf_context()->bloom_memtable_hit_count); ASSERT_EQ(0, get_perf_context()->bloom_memtable_miss_count); ASSERT_EQ("NOT_FOUND", Get(key2)); ASSERT_EQ(1, get_perf_context()->bloom_memtable_miss_count); ASSERT_EQ(2, get_perf_context()->bloom_memtable_hit_count); // sanity checks ASSERT_EQ(0, get_perf_context()->bloom_sst_hit_count); ASSERT_EQ(0, get_perf_context()->bloom_sst_miss_count); Flush(); // sanity checks ASSERT_EQ(0, get_perf_context()->bloom_sst_hit_count); ASSERT_EQ(0, get_perf_context()->bloom_sst_miss_count); // check SST bloom stats ASSERT_EQ(value1, Get(key1)); ASSERT_EQ(1, get_perf_context()->bloom_sst_hit_count); ASSERT_EQ(value3, Get(key3)); ASSERT_EQ(2, get_perf_context()->bloom_sst_hit_count); ASSERT_EQ("NOT_FOUND", Get(key2)); ASSERT_EQ(1, get_perf_context()->bloom_sst_miss_count); } // Same scenario as in BloomStatsTest but using an iterator TEST_P(BloomStatsTestWithParam, BloomStatsTestWithIter) { std::string key1("AAAA"); std::string key2("RXDB"); // not in DB std::string key3("ZBRA"); std::string value1("Value1"); std::string value3("Value3"); ASSERT_OK(Put(key1, value1, WriteOptions())); ASSERT_OK(Put(key3, value3, WriteOptions())); unique_ptr iter(dbfull()->NewIterator(ReadOptions())); // check memtable bloom stats iter->Seek(key1); ASSERT_OK(iter->status()); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(value1, iter->value().ToString()); ASSERT_EQ(1, get_perf_context()->bloom_memtable_hit_count); ASSERT_EQ(0, get_perf_context()->bloom_memtable_miss_count); iter->Seek(key3); ASSERT_OK(iter->status()); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(value3, iter->value().ToString()); ASSERT_EQ(2, get_perf_context()->bloom_memtable_hit_count); ASSERT_EQ(0, get_perf_context()->bloom_memtable_miss_count); iter->Seek(key2); ASSERT_OK(iter->status()); ASSERT_TRUE(!iter->Valid()); ASSERT_EQ(1, get_perf_context()->bloom_memtable_miss_count); ASSERT_EQ(2, get_perf_context()->bloom_memtable_hit_count); Flush(); iter.reset(dbfull()->NewIterator(ReadOptions())); // Check SST bloom stats iter->Seek(key1); ASSERT_OK(iter->status()); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(value1, iter->value().ToString()); ASSERT_EQ(1, get_perf_context()->bloom_sst_hit_count); iter->Seek(key3); ASSERT_OK(iter->status()); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(value3, iter->value().ToString()); ASSERT_EQ(2, get_perf_context()->bloom_sst_hit_count); iter->Seek(key2); ASSERT_OK(iter->status()); ASSERT_TRUE(!iter->Valid()); ASSERT_EQ(1, get_perf_context()->bloom_sst_miss_count); ASSERT_EQ(2, get_perf_context()->bloom_sst_hit_count); } INSTANTIATE_TEST_CASE_P(BloomStatsTestWithParam, BloomStatsTestWithParam, ::testing::Values(std::make_tuple(true, true, false), std::make_tuple(true, false, false), std::make_tuple(true, false, true), std::make_tuple(false, false, false))); namespace { void PrefixScanInit(DBBloomFilterTest* dbtest) { char buf[100]; std::string keystr; const int small_range_sstfiles = 5; const int big_range_sstfiles = 5; // Generate 11 sst files with the following prefix ranges. // GROUP 0: [0,10] (level 1) // GROUP 1: [1,2], [2,3], [3,4], [4,5], [5, 6] (level 0) // GROUP 2: [0,6], [0,7], [0,8], [0,9], [0,10] (level 0) // // A seek with the previous API would do 11 random I/Os (to all the // files). With the new API and a prefix filter enabled, we should // only do 2 random I/O, to the 2 files containing the key. // GROUP 0 snprintf(buf, sizeof(buf), "%02d______:start", 0); keystr = std::string(buf); ASSERT_OK(dbtest->Put(keystr, keystr)); snprintf(buf, sizeof(buf), "%02d______:end", 10); keystr = std::string(buf); ASSERT_OK(dbtest->Put(keystr, keystr)); dbtest->Flush(); dbtest->dbfull()->CompactRange(CompactRangeOptions(), nullptr, nullptr); // move to level 1 // GROUP 1 for (int i = 1; i <= small_range_sstfiles; i++) { snprintf(buf, sizeof(buf), "%02d______:start", i); keystr = std::string(buf); ASSERT_OK(dbtest->Put(keystr, keystr)); snprintf(buf, sizeof(buf), "%02d______:end", i + 1); keystr = std::string(buf); ASSERT_OK(dbtest->Put(keystr, keystr)); dbtest->Flush(); } // GROUP 2 for (int i = 1; i <= big_range_sstfiles; i++) { snprintf(buf, sizeof(buf), "%02d______:start", 0); keystr = std::string(buf); ASSERT_OK(dbtest->Put(keystr, keystr)); snprintf(buf, sizeof(buf), "%02d______:end", small_range_sstfiles + i + 1); keystr = std::string(buf); ASSERT_OK(dbtest->Put(keystr, keystr)); dbtest->Flush(); } } } // namespace TEST_F(DBBloomFilterTest, PrefixScan) { while (ChangeFilterOptions()) { int count; Slice prefix; Slice key; char buf[100]; Iterator* iter; snprintf(buf, sizeof(buf), "03______:"); prefix = Slice(buf, 8); key = Slice(buf, 9); ASSERT_EQ(key.difference_offset(prefix), 8); ASSERT_EQ(prefix.difference_offset(key), 8); // db configs env_->count_random_reads_ = true; Options options = CurrentOptions(); options.env = env_; options.prefix_extractor.reset(NewFixedPrefixTransform(8)); options.disable_auto_compactions = true; options.max_background_compactions = 2; options.create_if_missing = true; options.memtable_factory.reset(NewHashSkipListRepFactory(16)); options.allow_concurrent_memtable_write = false; BlockBasedTableOptions table_options; table_options.no_block_cache = true; table_options.filter_policy.reset(NewBloomFilterPolicy(10)); table_options.whole_key_filtering = false; options.table_factory.reset(NewBlockBasedTableFactory(table_options)); // 11 RAND I/Os DestroyAndReopen(options); PrefixScanInit(this); count = 0; env_->random_read_counter_.Reset(); iter = db_->NewIterator(ReadOptions()); for (iter->Seek(prefix); iter->Valid(); iter->Next()) { if (!iter->key().starts_with(prefix)) { break; } count++; } ASSERT_OK(iter->status()); delete iter; ASSERT_EQ(count, 2); ASSERT_EQ(env_->random_read_counter_.Read(), 2); Close(); } // end of while } TEST_F(DBBloomFilterTest, OptimizeFiltersForHits) { Options options = CurrentOptions(); options.write_buffer_size = 64 * 1024; options.arena_block_size = 4 * 1024; options.target_file_size_base = 64 * 1024; options.level0_file_num_compaction_trigger = 2; options.level0_slowdown_writes_trigger = 2; options.level0_stop_writes_trigger = 4; options.max_bytes_for_level_base = 256 * 1024; options.max_write_buffer_number = 2; options.max_background_compactions = 8; options.max_background_flushes = 8; options.compression = kNoCompression; options.compaction_style = kCompactionStyleLevel; options.level_compaction_dynamic_level_bytes = true; BlockBasedTableOptions bbto; bbto.cache_index_and_filter_blocks = true; bbto.filter_policy.reset(NewBloomFilterPolicy(10, true)); bbto.whole_key_filtering = true; options.table_factory.reset(NewBlockBasedTableFactory(bbto)); options.optimize_filters_for_hits = true; options.statistics = rocksdb::CreateDBStatistics(); CreateAndReopenWithCF({"mypikachu"}, options); int numkeys = 200000; // Generate randomly shuffled keys, so the updates are almost // random. std::vector keys; keys.reserve(numkeys); for (int i = 0; i < numkeys; i += 2) { keys.push_back(i); } std::random_shuffle(std::begin(keys), std::end(keys)); int num_inserted = 0; for (int key : keys) { ASSERT_OK(Put(1, Key(key), "val")); if (++num_inserted % 1000 == 0) { dbfull()->TEST_WaitForFlushMemTable(); dbfull()->TEST_WaitForCompact(); } } ASSERT_OK(Put(1, Key(0), "val")); ASSERT_OK(Put(1, Key(numkeys), "val")); ASSERT_OK(Flush(1)); dbfull()->TEST_WaitForCompact(); if (NumTableFilesAtLevel(0, 1) == 0) { // No Level 0 file. Create one. ASSERT_OK(Put(1, Key(0), "val")); ASSERT_OK(Put(1, Key(numkeys), "val")); ASSERT_OK(Flush(1)); dbfull()->TEST_WaitForCompact(); } for (int i = 1; i < numkeys; i += 2) { ASSERT_EQ(Get(1, Key(i)), "NOT_FOUND"); } ASSERT_EQ(0, TestGetTickerCount(options, GET_HIT_L0)); ASSERT_EQ(0, TestGetTickerCount(options, GET_HIT_L1)); ASSERT_EQ(0, TestGetTickerCount(options, GET_HIT_L2_AND_UP)); // Now we have three sorted run, L0, L5 and L6 with most files in L6 have // no bloom filter. Most keys be checked bloom filters twice. ASSERT_GT(TestGetTickerCount(options, BLOOM_FILTER_USEFUL), 65000 * 2); ASSERT_LT(TestGetTickerCount(options, BLOOM_FILTER_USEFUL), 120000 * 2); for (int i = 0; i < numkeys; i += 2) { ASSERT_EQ(Get(1, Key(i)), "val"); } // Part 2 (read path): rewrite last level with blooms, then verify they get // cached only if !optimize_filters_for_hits options.disable_auto_compactions = true; options.num_levels = 9; options.optimize_filters_for_hits = false; options.statistics = CreateDBStatistics(); bbto.block_cache.reset(); options.table_factory.reset(NewBlockBasedTableFactory(bbto)); ReopenWithColumnFamilies({"default", "mypikachu"}, options); MoveFilesToLevel(7 /* level */, 1 /* column family index */); std::string value = Get(1, Key(0)); uint64_t prev_cache_filter_hits = TestGetTickerCount(options, BLOCK_CACHE_FILTER_HIT); value = Get(1, Key(0)); ASSERT_EQ(prev_cache_filter_hits + 1, TestGetTickerCount(options, BLOCK_CACHE_FILTER_HIT)); // Now that we know the filter blocks exist in the last level files, see if // filter caching is skipped for this optimization options.optimize_filters_for_hits = true; options.statistics = CreateDBStatistics(); bbto.block_cache.reset(); options.table_factory.reset(NewBlockBasedTableFactory(bbto)); ReopenWithColumnFamilies({"default", "mypikachu"}, options); value = Get(1, Key(0)); ASSERT_EQ(0, TestGetTickerCount(options, BLOCK_CACHE_FILTER_MISS)); ASSERT_EQ(0, TestGetTickerCount(options, BLOCK_CACHE_FILTER_HIT)); ASSERT_EQ(2 /* index and data block */, TestGetTickerCount(options, BLOCK_CACHE_ADD)); // Check filter block ignored for files preloaded during DB::Open() options.max_open_files = -1; options.statistics = CreateDBStatistics(); bbto.block_cache.reset(); options.table_factory.reset(NewBlockBasedTableFactory(bbto)); ReopenWithColumnFamilies({"default", "mypikachu"}, options); uint64_t prev_cache_filter_misses = TestGetTickerCount(options, BLOCK_CACHE_FILTER_MISS); prev_cache_filter_hits = TestGetTickerCount(options, BLOCK_CACHE_FILTER_HIT); Get(1, Key(0)); ASSERT_EQ(prev_cache_filter_misses, TestGetTickerCount(options, BLOCK_CACHE_FILTER_MISS)); ASSERT_EQ(prev_cache_filter_hits, TestGetTickerCount(options, BLOCK_CACHE_FILTER_HIT)); // Check filter block ignored for file trivially-moved to bottom level bbto.block_cache.reset(); options.max_open_files = 100; // setting > -1 makes it not preload all files options.statistics = CreateDBStatistics(); options.table_factory.reset(NewBlockBasedTableFactory(bbto)); ReopenWithColumnFamilies({"default", "mypikachu"}, options); ASSERT_OK(Put(1, Key(numkeys + 1), "val")); ASSERT_OK(Flush(1)); int32_t trivial_move = 0; int32_t non_trivial_move = 0; rocksdb::SyncPoint::GetInstance()->SetCallBack( "DBImpl::BackgroundCompaction:TrivialMove", [&](void* /*arg*/) { trivial_move++; }); rocksdb::SyncPoint::GetInstance()->SetCallBack( "DBImpl::BackgroundCompaction:NonTrivial", [&](void* /*arg*/) { non_trivial_move++; }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); CompactRangeOptions compact_options; compact_options.bottommost_level_compaction = BottommostLevelCompaction::kSkip; compact_options.change_level = true; compact_options.target_level = 7; db_->CompactRange(compact_options, handles_[1], nullptr, nullptr); ASSERT_EQ(trivial_move, 1); ASSERT_EQ(non_trivial_move, 0); prev_cache_filter_hits = TestGetTickerCount(options, BLOCK_CACHE_FILTER_HIT); prev_cache_filter_misses = TestGetTickerCount(options, BLOCK_CACHE_FILTER_MISS); value = Get(1, Key(numkeys + 1)); ASSERT_EQ(prev_cache_filter_hits, TestGetTickerCount(options, BLOCK_CACHE_FILTER_HIT)); ASSERT_EQ(prev_cache_filter_misses, TestGetTickerCount(options, BLOCK_CACHE_FILTER_MISS)); // Check filter block not cached for iterator bbto.block_cache.reset(); options.statistics = CreateDBStatistics(); options.table_factory.reset(NewBlockBasedTableFactory(bbto)); ReopenWithColumnFamilies({"default", "mypikachu"}, options); std::unique_ptr iter(db_->NewIterator(ReadOptions(), handles_[1])); iter->SeekToFirst(); ASSERT_EQ(0, TestGetTickerCount(options, BLOCK_CACHE_FILTER_MISS)); ASSERT_EQ(0, TestGetTickerCount(options, BLOCK_CACHE_FILTER_HIT)); ASSERT_EQ(2 /* index and data block */, TestGetTickerCount(options, BLOCK_CACHE_ADD)); } int CountIter(std::unique_ptr& iter, const Slice& key) { int count = 0; for (iter->Seek(key); iter->Valid() && iter->status() == Status::OK(); iter->Next()) { count++; } return count; } // use iterate_upper_bound to hint compatiability of existing bloom filters. // The BF is considered compatible if 1) upper bound and seek key transform // into the same string, or 2) the transformed seek key is of the same length // as the upper bound and two keys are adjacent according to the comparator. TEST_F(DBBloomFilterTest, DynamicBloomFilterUpperBound) { int iteration = 0; for (bool use_block_based_builder : {true, false}) { Options options; options.create_if_missing = true; options.prefix_extractor.reset(NewCappedPrefixTransform(4)); options.disable_auto_compactions = true; options.statistics = CreateDBStatistics(); // Enable prefix bloom for SST files BlockBasedTableOptions table_options; table_options.cache_index_and_filter_blocks = true; table_options.filter_policy.reset( NewBloomFilterPolicy(10, use_block_based_builder)); options.table_factory.reset(NewBlockBasedTableFactory(table_options)); DestroyAndReopen(options); ASSERT_OK(Put("abcdxxx0", "val1")); ASSERT_OK(Put("abcdxxx1", "val2")); ASSERT_OK(Put("abcdxxx2", "val3")); ASSERT_OK(Put("abcdxxx3", "val4")); dbfull()->Flush(FlushOptions()); { // prefix_extractor has not changed, BF will always be read Slice upper_bound("abce"); ReadOptions read_options; read_options.prefix_same_as_start = true; read_options.iterate_upper_bound = &upper_bound; std::unique_ptr iter(db_->NewIterator(read_options)); ASSERT_EQ(CountIter(iter, "abcd0000"), 4); } { Slice upper_bound("abcdzzzz"); ReadOptions read_options; read_options.prefix_same_as_start = true; read_options.iterate_upper_bound = &upper_bound; std::unique_ptr iter(db_->NewIterator(read_options)); ASSERT_EQ(CountIter(iter, "abcd0000"), 4); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_PREFIX_CHECKED), 2); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_PREFIX_USEFUL), 0); } ASSERT_OK(dbfull()->SetOptions({{"prefix_extractor", "fixed:5"}})); ASSERT_EQ(0, strcmp(dbfull()->GetOptions().prefix_extractor->Name(), "rocksdb.FixedPrefix.5")); { // BF changed, [abcdxx00, abce) is a valid bound, will trigger BF read Slice upper_bound("abce"); ReadOptions read_options; read_options.prefix_same_as_start = true; read_options.iterate_upper_bound = &upper_bound; std::unique_ptr iter(db_->NewIterator(read_options)); ASSERT_EQ(CountIter(iter, "abcdxx00"), 4); // should check bloom filter since upper bound meets requirement ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_PREFIX_CHECKED), 2 + iteration); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_PREFIX_USEFUL), 0); } { // [abcdxx01, abcey) is not valid bound since upper bound is too long for // the BF in SST (capped:4) Slice upper_bound("abcey"); ReadOptions read_options; read_options.prefix_same_as_start = true; read_options.iterate_upper_bound = &upper_bound; std::unique_ptr iter(db_->NewIterator(read_options)); ASSERT_EQ(CountIter(iter, "abcdxx01"), 4); // should skip bloom filter since upper bound is too long ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_PREFIX_CHECKED), 2 + iteration); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_PREFIX_USEFUL), 0); } { // [abcdxx02, abcdy) is a valid bound since the prefix is the same Slice upper_bound("abcdy"); ReadOptions read_options; read_options.prefix_same_as_start = true; read_options.iterate_upper_bound = &upper_bound; std::unique_ptr iter(db_->NewIterator(read_options)); ASSERT_EQ(CountIter(iter, "abcdxx02"), 4); // should check bloom filter since upper bound matches transformed seek // key ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_PREFIX_CHECKED), 2 + iteration * 2); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_PREFIX_USEFUL), 0); } { // [aaaaaaaa, abce) is not a valid bound since 1) they don't share the // same prefix, 2) the prefixes are not consecutive Slice upper_bound("abce"); ReadOptions read_options; read_options.prefix_same_as_start = true; read_options.iterate_upper_bound = &upper_bound; std::unique_ptr iter(db_->NewIterator(read_options)); ASSERT_EQ(CountIter(iter, "aaaaaaaa"), 0); // should skip bloom filter since mismatch is found ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_PREFIX_CHECKED), 2 + iteration * 2); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_PREFIX_USEFUL), 0); } ASSERT_OK(dbfull()->SetOptions({{"prefix_extractor", "fixed:3"}})); { // [abc, abd) is not a valid bound since the upper bound is too short // for BF (capped:4) Slice upper_bound("abd"); ReadOptions read_options; read_options.prefix_same_as_start = true; read_options.iterate_upper_bound = &upper_bound; std::unique_ptr iter(db_->NewIterator(read_options)); ASSERT_EQ(CountIter(iter, "abc"), 4); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_PREFIX_CHECKED), 2 + iteration * 2); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_PREFIX_USEFUL), 0); } ASSERT_OK(dbfull()->SetOptions({{"prefix_extractor", "capped:4"}})); { // set back to capped:4 and verify BF is always read Slice upper_bound("abd"); ReadOptions read_options; read_options.prefix_same_as_start = true; read_options.iterate_upper_bound = &upper_bound; std::unique_ptr iter(db_->NewIterator(read_options)); ASSERT_EQ(CountIter(iter, "abc"), 0); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_PREFIX_CHECKED), 3 + iteration * 2); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_PREFIX_USEFUL), 1); } iteration++; } } // Create multiple SST files each with a different prefix_extractor config, // verify iterators can read all SST files using the latest config. TEST_F(DBBloomFilterTest, DynamicBloomFilterMultipleSST) { int iteration = 0; for (bool use_block_based_builder : {true, false}) { Options options; options.create_if_missing = true; options.prefix_extractor.reset(NewFixedPrefixTransform(1)); options.disable_auto_compactions = true; options.statistics = CreateDBStatistics(); // Enable prefix bloom for SST files BlockBasedTableOptions table_options; table_options.filter_policy.reset( NewBloomFilterPolicy(10, use_block_based_builder)); table_options.cache_index_and_filter_blocks = true; options.table_factory.reset(NewBlockBasedTableFactory(table_options)); DestroyAndReopen(options); Slice upper_bound("foz90000"); ReadOptions read_options; read_options.prefix_same_as_start = true; // first SST with fixed:1 BF ASSERT_OK(Put("foo2", "bar2")); ASSERT_OK(Put("foo", "bar")); ASSERT_OK(Put("foq1", "bar1")); ASSERT_OK(Put("fpa", "0")); dbfull()->Flush(FlushOptions()); std::unique_ptr iter_old(db_->NewIterator(read_options)); ASSERT_EQ(CountIter(iter_old, "foo"), 4); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_PREFIX_CHECKED), 1); ASSERT_OK(dbfull()->SetOptions({{"prefix_extractor", "capped:3"}})); ASSERT_EQ(0, strcmp(dbfull()->GetOptions().prefix_extractor->Name(), "rocksdb.CappedPrefix.3")); read_options.iterate_upper_bound = &upper_bound; std::unique_ptr iter(db_->NewIterator(read_options)); ASSERT_EQ(CountIter(iter, "foo"), 2); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_PREFIX_CHECKED), 1 + iteration); ASSERT_EQ(CountIter(iter, "gpk"), 0); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_PREFIX_CHECKED), 1 + iteration); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_PREFIX_USEFUL), 0); // second SST with capped:3 BF ASSERT_OK(Put("foo3", "bar3")); ASSERT_OK(Put("foo4", "bar4")); ASSERT_OK(Put("foq5", "bar5")); ASSERT_OK(Put("fpb", "1")); dbfull()->Flush(FlushOptions()); { // BF is cappped:3 now std::unique_ptr iter_tmp(db_->NewIterator(read_options)); ASSERT_EQ(CountIter(iter_tmp, "foo"), 4); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_PREFIX_CHECKED), 2 + iteration * 2); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_PREFIX_USEFUL), 0); ASSERT_EQ(CountIter(iter_tmp, "gpk"), 0); // both counters are incremented because BF is "not changed" for 1 of the // 2 SST files, so filter is checked once and found no match. ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_PREFIX_CHECKED), 3 + iteration * 2); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_PREFIX_USEFUL), 1); } ASSERT_OK(dbfull()->SetOptions({{"prefix_extractor", "fixed:2"}})); ASSERT_EQ(0, strcmp(dbfull()->GetOptions().prefix_extractor->Name(), "rocksdb.FixedPrefix.2")); // third SST with fixed:2 BF ASSERT_OK(Put("foo6", "bar6")); ASSERT_OK(Put("foo7", "bar7")); ASSERT_OK(Put("foq8", "bar8")); ASSERT_OK(Put("fpc", "2")); dbfull()->Flush(FlushOptions()); { // BF is fixed:2 now std::unique_ptr iter_tmp(db_->NewIterator(read_options)); ASSERT_EQ(CountIter(iter_tmp, "foo"), 9); // the first and last BF are checked ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_PREFIX_CHECKED), 4 + iteration * 3); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_PREFIX_USEFUL), 1); ASSERT_EQ(CountIter(iter_tmp, "gpk"), 0); // only last BF is checked and not found ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_PREFIX_CHECKED), 5 + iteration * 3); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_PREFIX_USEFUL), 2); } // iter_old can only see the first SST, so checked plus 1 ASSERT_EQ(CountIter(iter_old, "foo"), 4); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_PREFIX_CHECKED), 6 + iteration * 3); // iter was created after the first setoptions call so only full filter // will check the filter ASSERT_EQ(CountIter(iter, "foo"), 2); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_PREFIX_CHECKED), 6 + iteration * 4); { // keys in all three SSTs are visible to iterator // The range of [foo, foz90000] is compatible with (fixed:1) and (fixed:2) // so +2 for checked counter std::unique_ptr iter_all(db_->NewIterator(read_options)); ASSERT_EQ(CountIter(iter_all, "foo"), 9); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_PREFIX_CHECKED), 7 + iteration * 5); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_PREFIX_USEFUL), 2); ASSERT_EQ(CountIter(iter_all, "gpk"), 0); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_PREFIX_CHECKED), 8 + iteration * 5); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_PREFIX_USEFUL), 3); } ASSERT_OK(dbfull()->SetOptions({{"prefix_extractor", "capped:3"}})); ASSERT_EQ(0, strcmp(dbfull()->GetOptions().prefix_extractor->Name(), "rocksdb.CappedPrefix.3")); { std::unique_ptr iter_all(db_->NewIterator(read_options)); ASSERT_EQ(CountIter(iter_all, "foo"), 6); // all three SST are checked because the current options has the same as // the remaining SST (capped:3) ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_PREFIX_CHECKED), 9 + iteration * 7); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_PREFIX_USEFUL), 3); ASSERT_EQ(CountIter(iter_all, "gpk"), 0); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_PREFIX_CHECKED), 10 + iteration * 7); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_PREFIX_USEFUL), 4); } // TODO(Zhongyi): Maybe also need to add Get calls to test point look up? iteration++; } } // Create a new column family in a running DB, change prefix_extractor // dynamically, verify the iterator created on the new column family behaves // as expected TEST_F(DBBloomFilterTest, DynamicBloomFilterNewColumnFamily) { int iteration = 0; for (bool use_block_based_builder : {true, false}) { Options options = CurrentOptions(); options.create_if_missing = true; options.prefix_extractor.reset(NewFixedPrefixTransform(1)); options.disable_auto_compactions = true; options.statistics = CreateDBStatistics(); // Enable prefix bloom for SST files BlockBasedTableOptions table_options; table_options.cache_index_and_filter_blocks = true; table_options.filter_policy.reset( NewBloomFilterPolicy(10, use_block_based_builder)); options.table_factory.reset(NewBlockBasedTableFactory(table_options)); CreateAndReopenWithCF({"pikachu" + std::to_string(iteration)}, options); ReadOptions read_options; read_options.prefix_same_as_start = true; // create a new CF and set prefix_extractor dynamically options.prefix_extractor.reset(NewCappedPrefixTransform(3)); CreateColumnFamilies({"ramen_dojo_" + std::to_string(iteration)}, options); ASSERT_EQ(0, strcmp(dbfull()->GetOptions(handles_[2]).prefix_extractor->Name(), "rocksdb.CappedPrefix.3")); ASSERT_OK(Put(2, "foo3", "bar3")); ASSERT_OK(Put(2, "foo4", "bar4")); ASSERT_OK(Put(2, "foo5", "bar5")); ASSERT_OK(Put(2, "foq6", "bar6")); ASSERT_OK(Put(2, "fpq7", "bar7")); dbfull()->Flush(FlushOptions()); { std::unique_ptr iter( db_->NewIterator(read_options, handles_[2])); ASSERT_EQ(CountIter(iter, "foo"), 3); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_PREFIX_CHECKED), 0); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_PREFIX_USEFUL), 0); } ASSERT_OK( dbfull()->SetOptions(handles_[2], {{"prefix_extractor", "fixed:2"}})); ASSERT_EQ(0, strcmp(dbfull()->GetOptions(handles_[2]).prefix_extractor->Name(), "rocksdb.FixedPrefix.2")); { std::unique_ptr iter( db_->NewIterator(read_options, handles_[2])); ASSERT_EQ(CountIter(iter, "foo"), 4); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_PREFIX_CHECKED), 0); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_PREFIX_USEFUL), 0); } ASSERT_OK(dbfull()->DropColumnFamily(handles_[2])); dbfull()->DestroyColumnFamilyHandle(handles_[2]); handles_[2] = nullptr; ASSERT_OK(dbfull()->DropColumnFamily(handles_[1])); dbfull()->DestroyColumnFamilyHandle(handles_[1]); handles_[1] = nullptr; iteration++; } } // Verify it's possible to change prefix_extractor at runtime and iterators // behaves as expected TEST_F(DBBloomFilterTest, DynamicBloomFilterOptions) { int iteration = 0; for (bool use_block_based_builder : {true, false}) { Options options; options.create_if_missing = true; options.prefix_extractor.reset(NewFixedPrefixTransform(1)); options.disable_auto_compactions = true; options.statistics = CreateDBStatistics(); // Enable prefix bloom for SST files BlockBasedTableOptions table_options; table_options.cache_index_and_filter_blocks = true; table_options.filter_policy.reset( NewBloomFilterPolicy(10, use_block_based_builder)); options.table_factory.reset(NewBlockBasedTableFactory(table_options)); DestroyAndReopen(options); ASSERT_OK(Put("foo2", "bar2")); ASSERT_OK(Put("foo", "bar")); ASSERT_OK(Put("foo1", "bar1")); ASSERT_OK(Put("fpa", "0")); dbfull()->Flush(FlushOptions()); ASSERT_OK(Put("foo3", "bar3")); ASSERT_OK(Put("foo4", "bar4")); ASSERT_OK(Put("foo5", "bar5")); ASSERT_OK(Put("fpb", "1")); dbfull()->Flush(FlushOptions()); ASSERT_OK(Put("foo6", "bar6")); ASSERT_OK(Put("foo7", "bar7")); ASSERT_OK(Put("foo8", "bar8")); ASSERT_OK(Put("fpc", "2")); dbfull()->Flush(FlushOptions()); ReadOptions read_options; read_options.prefix_same_as_start = true; { std::unique_ptr iter(db_->NewIterator(read_options)); ASSERT_EQ(CountIter(iter, "foo"), 12); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_PREFIX_CHECKED), 3); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_PREFIX_USEFUL), 0); } std::unique_ptr iter_old(db_->NewIterator(read_options)); ASSERT_EQ(CountIter(iter_old, "foo"), 12); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_PREFIX_CHECKED), 6); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_PREFIX_USEFUL), 0); ASSERT_OK(dbfull()->SetOptions({{"prefix_extractor", "capped:3"}})); ASSERT_EQ(0, strcmp(dbfull()->GetOptions().prefix_extractor->Name(), "rocksdb.CappedPrefix.3")); { std::unique_ptr iter(db_->NewIterator(read_options)); // "fp*" should be skipped ASSERT_EQ(CountIter(iter, "foo"), 9); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_PREFIX_CHECKED), 6); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_PREFIX_USEFUL), 0); } // iterator created before should not be affected and see all keys ASSERT_EQ(CountIter(iter_old, "foo"), 12); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_PREFIX_CHECKED), 9); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_PREFIX_USEFUL), 0); ASSERT_EQ(CountIter(iter_old, "abc"), 0); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_PREFIX_CHECKED), 12); ASSERT_EQ(TestGetTickerCount(options, BLOOM_FILTER_PREFIX_USEFUL), 3); iteration++; } } #endif // ROCKSDB_LITE } // namespace rocksdb int main(int argc, char** argv) { rocksdb::port::InstallStackTraceHandler(); ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/db/db_compaction_filter_test.cc000066400000000000000000000707731337235545400213670ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "db/db_test_util.h" #include "port/stack_trace.h" namespace rocksdb { static int cfilter_count = 0; static int cfilter_skips = 0; // This is a static filter used for filtering // kvs during the compaction process. static std::string NEW_VALUE = "NewValue"; class DBTestCompactionFilter : public DBTestBase { public: DBTestCompactionFilter() : DBTestBase("/db_compaction_filter_test") {} }; // Param variant of DBTestBase::ChangeCompactOptions class DBTestCompactionFilterWithCompactParam : public DBTestCompactionFilter, public ::testing::WithParamInterface { public: DBTestCompactionFilterWithCompactParam() : DBTestCompactionFilter() { option_config_ = GetParam(); Destroy(last_options_); auto options = CurrentOptions(); if (option_config_ == kDefault || option_config_ == kUniversalCompaction || option_config_ == kUniversalCompactionMultiLevel) { options.create_if_missing = true; } if (option_config_ == kLevelSubcompactions || option_config_ == kUniversalSubcompactions) { assert(options.max_subcompactions > 1); } TryReopen(options); } }; #ifndef ROCKSDB_VALGRIND_RUN INSTANTIATE_TEST_CASE_P( DBTestCompactionFilterWithCompactOption, DBTestCompactionFilterWithCompactParam, ::testing::Values(DBTestBase::OptionConfig::kDefault, DBTestBase::OptionConfig::kUniversalCompaction, DBTestBase::OptionConfig::kUniversalCompactionMultiLevel, DBTestBase::OptionConfig::kLevelSubcompactions, DBTestBase::OptionConfig::kUniversalSubcompactions)); #else // Run fewer cases in valgrind INSTANTIATE_TEST_CASE_P(DBTestCompactionFilterWithCompactOption, DBTestCompactionFilterWithCompactParam, ::testing::Values(DBTestBase::OptionConfig::kDefault)); #endif // ROCKSDB_VALGRIND_RUN class KeepFilter : public CompactionFilter { public: virtual bool Filter(int /*level*/, const Slice& /*key*/, const Slice& /*value*/, std::string* /*new_value*/, bool* /*value_changed*/) const override { cfilter_count++; return false; } virtual const char* Name() const override { return "KeepFilter"; } }; class DeleteFilter : public CompactionFilter { public: virtual bool Filter(int /*level*/, const Slice& /*key*/, const Slice& /*value*/, std::string* /*new_value*/, bool* /*value_changed*/) const override { cfilter_count++; return true; } virtual const char* Name() const override { return "DeleteFilter"; } }; class DeleteISFilter : public CompactionFilter { public: virtual bool Filter(int /*level*/, const Slice& key, const Slice& /*value*/, std::string* /*new_value*/, bool* /*value_changed*/) const override { cfilter_count++; int i = std::stoi(key.ToString()); if (i > 5 && i <= 105) { return true; } return false; } virtual bool IgnoreSnapshots() const override { return true; } virtual const char* Name() const override { return "DeleteFilter"; } }; // Skip x if floor(x/10) is even, use range skips. Requires that keys are // zero-padded to length 10. class SkipEvenFilter : public CompactionFilter { public: virtual Decision FilterV2(int /*level*/, const Slice& key, ValueType /*value_type*/, const Slice& /*existing_value*/, std::string* /*new_value*/, std::string* skip_until) const override { cfilter_count++; int i = std::stoi(key.ToString()); if (i / 10 % 2 == 0) { char key_str[100]; snprintf(key_str, sizeof(key_str), "%010d", i / 10 * 10 + 10); *skip_until = key_str; ++cfilter_skips; return Decision::kRemoveAndSkipUntil; } return Decision::kKeep; } virtual bool IgnoreSnapshots() const override { return true; } virtual const char* Name() const override { return "DeleteFilter"; } }; class DelayFilter : public CompactionFilter { public: explicit DelayFilter(DBTestBase* d) : db_test(d) {} virtual bool Filter(int /*level*/, const Slice& /*key*/, const Slice& /*value*/, std::string* /*new_value*/, bool* /*value_changed*/) const override { db_test->env_->addon_time_.fetch_add(1000); return true; } virtual const char* Name() const override { return "DelayFilter"; } private: DBTestBase* db_test; }; class ConditionalFilter : public CompactionFilter { public: explicit ConditionalFilter(const std::string* filtered_value) : filtered_value_(filtered_value) {} virtual bool Filter(int /*level*/, const Slice& /*key*/, const Slice& value, std::string* /*new_value*/, bool* /*value_changed*/) const override { return value.ToString() == *filtered_value_; } virtual const char* Name() const override { return "ConditionalFilter"; } private: const std::string* filtered_value_; }; class ChangeFilter : public CompactionFilter { public: explicit ChangeFilter() {} virtual bool Filter(int /*level*/, const Slice& /*key*/, const Slice& /*value*/, std::string* new_value, bool* value_changed) const override { assert(new_value != nullptr); *new_value = NEW_VALUE; *value_changed = true; return false; } virtual const char* Name() const override { return "ChangeFilter"; } }; class KeepFilterFactory : public CompactionFilterFactory { public: explicit KeepFilterFactory(bool check_context = false, bool check_context_cf_id = false) : check_context_(check_context), check_context_cf_id_(check_context_cf_id), compaction_filter_created_(false) {} virtual std::unique_ptr CreateCompactionFilter( const CompactionFilter::Context& context) override { if (check_context_) { EXPECT_EQ(expect_full_compaction_.load(), context.is_full_compaction); EXPECT_EQ(expect_manual_compaction_.load(), context.is_manual_compaction); } if (check_context_cf_id_) { EXPECT_EQ(expect_cf_id_.load(), context.column_family_id); } compaction_filter_created_ = true; return std::unique_ptr(new KeepFilter()); } bool compaction_filter_created() const { return compaction_filter_created_; } virtual const char* Name() const override { return "KeepFilterFactory"; } bool check_context_; bool check_context_cf_id_; std::atomic_bool expect_full_compaction_; std::atomic_bool expect_manual_compaction_; std::atomic expect_cf_id_; bool compaction_filter_created_; }; class DeleteFilterFactory : public CompactionFilterFactory { public: virtual std::unique_ptr CreateCompactionFilter( const CompactionFilter::Context& context) override { if (context.is_manual_compaction) { return std::unique_ptr(new DeleteFilter()); } else { return std::unique_ptr(nullptr); } } virtual const char* Name() const override { return "DeleteFilterFactory"; } }; // Delete Filter Factory which ignores snapshots class DeleteISFilterFactory : public CompactionFilterFactory { public: virtual std::unique_ptr CreateCompactionFilter( const CompactionFilter::Context& context) override { if (context.is_manual_compaction) { return std::unique_ptr(new DeleteISFilter()); } else { return std::unique_ptr(nullptr); } } virtual const char* Name() const override { return "DeleteFilterFactory"; } }; class SkipEvenFilterFactory : public CompactionFilterFactory { public: virtual std::unique_ptr CreateCompactionFilter( const CompactionFilter::Context& context) override { if (context.is_manual_compaction) { return std::unique_ptr(new SkipEvenFilter()); } else { return std::unique_ptr(nullptr); } } virtual const char* Name() const override { return "SkipEvenFilterFactory"; } }; class DelayFilterFactory : public CompactionFilterFactory { public: explicit DelayFilterFactory(DBTestBase* d) : db_test(d) {} virtual std::unique_ptr CreateCompactionFilter( const CompactionFilter::Context& /*context*/) override { return std::unique_ptr(new DelayFilter(db_test)); } virtual const char* Name() const override { return "DelayFilterFactory"; } private: DBTestBase* db_test; }; class ConditionalFilterFactory : public CompactionFilterFactory { public: explicit ConditionalFilterFactory(const Slice& filtered_value) : filtered_value_(filtered_value.ToString()) {} virtual std::unique_ptr CreateCompactionFilter( const CompactionFilter::Context& /*context*/) override { return std::unique_ptr( new ConditionalFilter(&filtered_value_)); } virtual const char* Name() const override { return "ConditionalFilterFactory"; } private: std::string filtered_value_; }; class ChangeFilterFactory : public CompactionFilterFactory { public: explicit ChangeFilterFactory() {} virtual std::unique_ptr CreateCompactionFilter( const CompactionFilter::Context& /*context*/) override { return std::unique_ptr(new ChangeFilter()); } virtual const char* Name() const override { return "ChangeFilterFactory"; } }; #ifndef ROCKSDB_LITE TEST_F(DBTestCompactionFilter, CompactionFilter) { Options options = CurrentOptions(); options.max_open_files = -1; options.num_levels = 3; options.compaction_filter_factory = std::make_shared(); options = CurrentOptions(options); CreateAndReopenWithCF({"pikachu"}, options); // Write 100K keys, these are written to a few files in L0. const std::string value(10, 'x'); for (int i = 0; i < 100000; i++) { char key[100]; snprintf(key, sizeof(key), "B%010d", i); Put(1, key, value); } ASSERT_OK(Flush(1)); // Push all files to the highest level L2. Verify that // the compaction is each level invokes the filter for // all the keys in that level. cfilter_count = 0; dbfull()->TEST_CompactRange(0, nullptr, nullptr, handles_[1]); ASSERT_EQ(cfilter_count, 100000); cfilter_count = 0; dbfull()->TEST_CompactRange(1, nullptr, nullptr, handles_[1]); ASSERT_EQ(cfilter_count, 100000); ASSERT_EQ(NumTableFilesAtLevel(0, 1), 0); ASSERT_EQ(NumTableFilesAtLevel(1, 1), 0); ASSERT_NE(NumTableFilesAtLevel(2, 1), 0); cfilter_count = 0; // All the files are in the lowest level. // Verify that all but the 100001st record // has sequence number zero. The 100001st record // is at the tip of this snapshot and cannot // be zeroed out. int count = 0; int total = 0; Arena arena; { InternalKeyComparator icmp(options.comparator); RangeDelAggregator range_del_agg(icmp, {} /* snapshots */); ScopedArenaIterator iter( dbfull()->NewInternalIterator(&arena, &range_del_agg, handles_[1])); iter->SeekToFirst(); ASSERT_OK(iter->status()); while (iter->Valid()) { ParsedInternalKey ikey(Slice(), 0, kTypeValue); ASSERT_EQ(ParseInternalKey(iter->key(), &ikey), true); total++; if (ikey.sequence != 0) { count++; } iter->Next(); } } ASSERT_EQ(total, 100000); ASSERT_EQ(count, 1); // overwrite all the 100K keys once again. for (int i = 0; i < 100000; i++) { char key[100]; snprintf(key, sizeof(key), "B%010d", i); ASSERT_OK(Put(1, key, value)); } ASSERT_OK(Flush(1)); // push all files to the highest level L2. This // means that all keys should pass at least once // via the compaction filter cfilter_count = 0; dbfull()->TEST_CompactRange(0, nullptr, nullptr, handles_[1]); ASSERT_EQ(cfilter_count, 100000); cfilter_count = 0; dbfull()->TEST_CompactRange(1, nullptr, nullptr, handles_[1]); ASSERT_EQ(cfilter_count, 100000); ASSERT_EQ(NumTableFilesAtLevel(0, 1), 0); ASSERT_EQ(NumTableFilesAtLevel(1, 1), 0); ASSERT_NE(NumTableFilesAtLevel(2, 1), 0); // create a new database with the compaction // filter in such a way that it deletes all keys options.compaction_filter_factory = std::make_shared(); options.create_if_missing = true; DestroyAndReopen(options); CreateAndReopenWithCF({"pikachu"}, options); // write all the keys once again. for (int i = 0; i < 100000; i++) { char key[100]; snprintf(key, sizeof(key), "B%010d", i); ASSERT_OK(Put(1, key, value)); } ASSERT_OK(Flush(1)); ASSERT_NE(NumTableFilesAtLevel(0, 1), 0); ASSERT_EQ(NumTableFilesAtLevel(1, 1), 0); ASSERT_EQ(NumTableFilesAtLevel(2, 1), 0); // Push all files to the highest level L2. This // triggers the compaction filter to delete all keys, // verify that at the end of the compaction process, // nothing is left. cfilter_count = 0; dbfull()->TEST_CompactRange(0, nullptr, nullptr, handles_[1]); ASSERT_EQ(cfilter_count, 100000); cfilter_count = 0; dbfull()->TEST_CompactRange(1, nullptr, nullptr, handles_[1]); ASSERT_EQ(cfilter_count, 0); ASSERT_EQ(NumTableFilesAtLevel(0, 1), 0); ASSERT_EQ(NumTableFilesAtLevel(1, 1), 0); { // Scan the entire database to ensure that nothing is left std::unique_ptr iter( db_->NewIterator(ReadOptions(), handles_[1])); iter->SeekToFirst(); count = 0; while (iter->Valid()) { count++; iter->Next(); } ASSERT_EQ(count, 0); } // The sequence number of the remaining record // is not zeroed out even though it is at the // level Lmax because this record is at the tip count = 0; { InternalKeyComparator icmp(options.comparator); RangeDelAggregator range_del_agg(icmp, {} /* snapshots */); ScopedArenaIterator iter( dbfull()->NewInternalIterator(&arena, &range_del_agg, handles_[1])); iter->SeekToFirst(); ASSERT_OK(iter->status()); while (iter->Valid()) { ParsedInternalKey ikey(Slice(), 0, kTypeValue); ASSERT_EQ(ParseInternalKey(iter->key(), &ikey), true); ASSERT_NE(ikey.sequence, (unsigned)0); count++; iter->Next(); } ASSERT_EQ(count, 0); } } // Tests the edge case where compaction does not produce any output -- all // entries are deleted. The compaction should create bunch of 'DeleteFile' // entries in VersionEdit, but none of the 'AddFile's. TEST_F(DBTestCompactionFilter, CompactionFilterDeletesAll) { Options options = CurrentOptions(); options.compaction_filter_factory = std::make_shared(); options.disable_auto_compactions = true; options.create_if_missing = true; DestroyAndReopen(options); // put some data for (int table = 0; table < 4; ++table) { for (int i = 0; i < 10 + table; ++i) { Put(ToString(table * 100 + i), "val"); } Flush(); } // this will produce empty file (delete compaction filter) ASSERT_OK(db_->CompactRange(CompactRangeOptions(), nullptr, nullptr)); ASSERT_EQ(0U, CountLiveFiles()); Reopen(options); Iterator* itr = db_->NewIterator(ReadOptions()); itr->SeekToFirst(); // empty db ASSERT_TRUE(!itr->Valid()); delete itr; } #endif // ROCKSDB_LITE TEST_P(DBTestCompactionFilterWithCompactParam, CompactionFilterWithValueChange) { Options options = CurrentOptions(); options.num_levels = 3; options.compaction_filter_factory = std::make_shared(); CreateAndReopenWithCF({"pikachu"}, options); // Write 100K+1 keys, these are written to a few files // in L0. We do this so that the current snapshot points // to the 100001 key.The compaction filter is not invoked // on keys that are visible via a snapshot because we // anyways cannot delete it. const std::string value(10, 'x'); for (int i = 0; i < 100001; i++) { char key[100]; snprintf(key, sizeof(key), "B%010d", i); Put(1, key, value); } // push all files to lower levels ASSERT_OK(Flush(1)); if (option_config_ != kUniversalCompactionMultiLevel && option_config_ != kUniversalSubcompactions) { dbfull()->TEST_CompactRange(0, nullptr, nullptr, handles_[1]); dbfull()->TEST_CompactRange(1, nullptr, nullptr, handles_[1]); } else { dbfull()->CompactRange(CompactRangeOptions(), handles_[1], nullptr, nullptr); } // re-write all data again for (int i = 0; i < 100001; i++) { char key[100]; snprintf(key, sizeof(key), "B%010d", i); Put(1, key, value); } // push all files to lower levels. This should // invoke the compaction filter for all 100000 keys. ASSERT_OK(Flush(1)); if (option_config_ != kUniversalCompactionMultiLevel && option_config_ != kUniversalSubcompactions) { dbfull()->TEST_CompactRange(0, nullptr, nullptr, handles_[1]); dbfull()->TEST_CompactRange(1, nullptr, nullptr, handles_[1]); } else { dbfull()->CompactRange(CompactRangeOptions(), handles_[1], nullptr, nullptr); } // verify that all keys now have the new value that // was set by the compaction process. for (int i = 0; i < 100001; i++) { char key[100]; snprintf(key, sizeof(key), "B%010d", i); std::string newvalue = Get(1, key); ASSERT_EQ(newvalue.compare(NEW_VALUE), 0); } } TEST_F(DBTestCompactionFilter, CompactionFilterWithMergeOperator) { std::string one, two, three, four; PutFixed64(&one, 1); PutFixed64(&two, 2); PutFixed64(&three, 3); PutFixed64(&four, 4); Options options = CurrentOptions(); options.create_if_missing = true; options.merge_operator = MergeOperators::CreateUInt64AddOperator(); options.num_levels = 3; // Filter out keys with value is 2. options.compaction_filter_factory = std::make_shared(two); DestroyAndReopen(options); // In the same compaction, a value type needs to be deleted based on // compaction filter, and there is a merge type for the key. compaction // filter result is ignored. ASSERT_OK(db_->Put(WriteOptions(), "foo", two)); ASSERT_OK(Flush()); ASSERT_OK(db_->Merge(WriteOptions(), "foo", one)); ASSERT_OK(Flush()); std::string newvalue = Get("foo"); ASSERT_EQ(newvalue, three); dbfull()->CompactRange(CompactRangeOptions(), nullptr, nullptr); newvalue = Get("foo"); ASSERT_EQ(newvalue, three); // value key can be deleted based on compaction filter, leaving only // merge keys. ASSERT_OK(db_->Put(WriteOptions(), "bar", two)); ASSERT_OK(Flush()); dbfull()->CompactRange(CompactRangeOptions(), nullptr, nullptr); newvalue = Get("bar"); ASSERT_EQ("NOT_FOUND", newvalue); ASSERT_OK(db_->Merge(WriteOptions(), "bar", two)); ASSERT_OK(Flush()); dbfull()->CompactRange(CompactRangeOptions(), nullptr, nullptr); newvalue = Get("bar"); ASSERT_EQ(two, two); // Compaction filter never applies to merge keys. ASSERT_OK(db_->Put(WriteOptions(), "foobar", one)); ASSERT_OK(Flush()); ASSERT_OK(db_->Merge(WriteOptions(), "foobar", two)); ASSERT_OK(Flush()); newvalue = Get("foobar"); ASSERT_EQ(newvalue, three); dbfull()->CompactRange(CompactRangeOptions(), nullptr, nullptr); newvalue = Get("foobar"); ASSERT_EQ(newvalue, three); // In the same compaction, both of value type and merge type keys need to be // deleted based on compaction filter, and there is a merge type for the key. // For both keys, compaction filter results are ignored. ASSERT_OK(db_->Put(WriteOptions(), "barfoo", two)); ASSERT_OK(Flush()); ASSERT_OK(db_->Merge(WriteOptions(), "barfoo", two)); ASSERT_OK(Flush()); newvalue = Get("barfoo"); ASSERT_EQ(newvalue, four); dbfull()->CompactRange(CompactRangeOptions(), nullptr, nullptr); newvalue = Get("barfoo"); ASSERT_EQ(newvalue, four); } #ifndef ROCKSDB_LITE TEST_F(DBTestCompactionFilter, CompactionFilterContextManual) { KeepFilterFactory* filter = new KeepFilterFactory(true, true); Options options = CurrentOptions(); options.compaction_style = kCompactionStyleUniversal; options.compaction_filter_factory.reset(filter); options.compression = kNoCompression; options.level0_file_num_compaction_trigger = 8; Reopen(options); int num_keys_per_file = 400; for (int j = 0; j < 3; j++) { // Write several keys. const std::string value(10, 'x'); for (int i = 0; i < num_keys_per_file; i++) { char key[100]; snprintf(key, sizeof(key), "B%08d%02d", i, j); Put(key, value); } dbfull()->TEST_FlushMemTable(); // Make sure next file is much smaller so automatic compaction will not // be triggered. num_keys_per_file /= 2; } dbfull()->TEST_WaitForCompact(); // Force a manual compaction cfilter_count = 0; filter->expect_manual_compaction_.store(true); filter->expect_full_compaction_.store(true); filter->expect_cf_id_.store(0); dbfull()->CompactRange(CompactRangeOptions(), nullptr, nullptr); ASSERT_EQ(cfilter_count, 700); ASSERT_EQ(NumSortedRuns(0), 1); ASSERT_TRUE(filter->compaction_filter_created()); // Verify total number of keys is correct after manual compaction. { int count = 0; int total = 0; Arena arena; InternalKeyComparator icmp(options.comparator); RangeDelAggregator range_del_agg(icmp, {} /* snapshots */); ScopedArenaIterator iter( dbfull()->NewInternalIterator(&arena, &range_del_agg)); iter->SeekToFirst(); ASSERT_OK(iter->status()); while (iter->Valid()) { ParsedInternalKey ikey(Slice(), 0, kTypeValue); ASSERT_EQ(ParseInternalKey(iter->key(), &ikey), true); total++; if (ikey.sequence != 0) { count++; } iter->Next(); } ASSERT_EQ(total, 700); ASSERT_EQ(count, 1); } } #endif // ROCKSDB_LITE TEST_F(DBTestCompactionFilter, CompactionFilterContextCfId) { KeepFilterFactory* filter = new KeepFilterFactory(false, true); filter->expect_cf_id_.store(1); Options options = CurrentOptions(); options.compaction_filter_factory.reset(filter); options.compression = kNoCompression; options.level0_file_num_compaction_trigger = 2; CreateAndReopenWithCF({"pikachu"}, options); int num_keys_per_file = 400; for (int j = 0; j < 3; j++) { // Write several keys. const std::string value(10, 'x'); for (int i = 0; i < num_keys_per_file; i++) { char key[100]; snprintf(key, sizeof(key), "B%08d%02d", i, j); Put(1, key, value); } Flush(1); // Make sure next file is much smaller so automatic compaction will not // be triggered. num_keys_per_file /= 2; } dbfull()->TEST_WaitForCompact(); ASSERT_TRUE(filter->compaction_filter_created()); } #ifndef ROCKSDB_LITE // Compaction filters should only be applied to records that are newer than the // latest snapshot. This test inserts records and applies a delete filter. TEST_F(DBTestCompactionFilter, CompactionFilterSnapshot) { Options options = CurrentOptions(); options.compaction_filter_factory = std::make_shared(); options.disable_auto_compactions = true; options.create_if_missing = true; DestroyAndReopen(options); // Put some data. const Snapshot* snapshot = nullptr; for (int table = 0; table < 4; ++table) { for (int i = 0; i < 10; ++i) { Put(ToString(table * 100 + i), "val"); } Flush(); if (table == 0) { snapshot = db_->GetSnapshot(); } } assert(snapshot != nullptr); cfilter_count = 0; ASSERT_OK(db_->CompactRange(CompactRangeOptions(), nullptr, nullptr)); // The filter should delete 10 records. ASSERT_EQ(30U, cfilter_count); // Release the snapshot and compact again -> now all records should be // removed. db_->ReleaseSnapshot(snapshot); ASSERT_OK(db_->CompactRange(CompactRangeOptions(), nullptr, nullptr)); ASSERT_EQ(0U, CountLiveFiles()); } // Compaction filters should only be applied to records that are newer than the // latest snapshot. However, if the compaction filter asks to ignore snapshots // records newer than the snapshot will also be processed TEST_F(DBTestCompactionFilter, CompactionFilterIgnoreSnapshot) { std::string five = ToString(5); Options options = CurrentOptions(); options.compaction_filter_factory = std::make_shared(); options.disable_auto_compactions = true; options.create_if_missing = true; DestroyAndReopen(options); // Put some data. const Snapshot* snapshot = nullptr; for (int table = 0; table < 4; ++table) { for (int i = 0; i < 10; ++i) { Put(ToString(table * 100 + i), "val"); } Flush(); if (table == 0) { snapshot = db_->GetSnapshot(); } } assert(snapshot != nullptr); cfilter_count = 0; ASSERT_OK(db_->CompactRange(CompactRangeOptions(), nullptr, nullptr)); // The filter should delete 40 records. ASSERT_EQ(40U, cfilter_count); { // Scan the entire database as of the snapshot to ensure // that nothing is left ReadOptions read_options; read_options.snapshot = snapshot; std::unique_ptr iter(db_->NewIterator(read_options)); iter->SeekToFirst(); int count = 0; while (iter->Valid()) { count++; iter->Next(); } ASSERT_EQ(count, 6); read_options.snapshot = nullptr; std::unique_ptr iter1(db_->NewIterator(read_options)); iter1->SeekToFirst(); count = 0; while (iter1->Valid()) { count++; iter1->Next(); } // We have deleted 10 keys from 40 using the compaction filter // Keys 6-9 before the snapshot and 100-105 after the snapshot ASSERT_EQ(count, 30); } // Release the snapshot and compact again -> now all records should be // removed. db_->ReleaseSnapshot(snapshot); } #endif // ROCKSDB_LITE TEST_F(DBTestCompactionFilter, SkipUntil) { Options options = CurrentOptions(); options.compaction_filter_factory = std::make_shared(); options.disable_auto_compactions = true; options.create_if_missing = true; DestroyAndReopen(options); // Write 100K keys, these are written to a few files in L0. for (int table = 0; table < 4; ++table) { // Key ranges in tables are [0, 38], [106, 149], [212, 260], [318, 371]. for (int i = table * 6; i < 39 + table * 11; ++i) { char key[100]; snprintf(key, sizeof(key), "%010d", table * 100 + i); Put(key, std::to_string(table * 1000 + i)); } Flush(); } cfilter_skips = 0; ASSERT_OK(db_->CompactRange(CompactRangeOptions(), nullptr, nullptr)); // Number of skips in tables: 2, 3, 3, 3. ASSERT_EQ(11, cfilter_skips); for (int table = 0; table < 4; ++table) { for (int i = table * 6; i < 39 + table * 11; ++i) { int k = table * 100 + i; char key[100]; snprintf(key, sizeof(key), "%010d", table * 100 + i); auto expected = std::to_string(table * 1000 + i); std::string val; Status s = db_->Get(ReadOptions(), key, &val); if (k / 10 % 2 == 0) { ASSERT_TRUE(s.IsNotFound()); } else { ASSERT_OK(s); ASSERT_EQ(expected, val); } } } } TEST_F(DBTestCompactionFilter, SkipUntilWithBloomFilter) { BlockBasedTableOptions table_options; table_options.whole_key_filtering = false; table_options.filter_policy.reset(NewBloomFilterPolicy(100, false)); Options options = CurrentOptions(); options.table_factory.reset(NewBlockBasedTableFactory(table_options)); options.prefix_extractor.reset(NewCappedPrefixTransform(9)); options.compaction_filter_factory = std::make_shared(); options.disable_auto_compactions = true; options.create_if_missing = true; DestroyAndReopen(options); Put("0000000010", "v10"); Put("0000000020", "v20"); // skipped Put("0000000050", "v50"); Flush(); cfilter_skips = 0; EXPECT_OK(db_->CompactRange(CompactRangeOptions(), nullptr, nullptr)); EXPECT_EQ(1, cfilter_skips); Status s; std::string val; s = db_->Get(ReadOptions(), "0000000010", &val); ASSERT_OK(s); EXPECT_EQ("v10", val); s = db_->Get(ReadOptions(), "0000000020", &val); EXPECT_TRUE(s.IsNotFound()); s = db_->Get(ReadOptions(), "0000000050", &val); ASSERT_OK(s); EXPECT_EQ("v50", val); } } // namespace rocksdb int main(int argc, char** argv) { rocksdb::port::InstallStackTraceHandler(); ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/db/db_compaction_test.cc000066400000000000000000004167141337235545400200210ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "db/db_test_util.h" #include "port/stack_trace.h" #include "port/port.h" #include "rocksdb/experimental.h" #include "rocksdb/utilities/convenience.h" #include "util/sync_point.h" namespace rocksdb { // SYNC_POINT is not supported in released Windows mode. #if !defined(ROCKSDB_LITE) class DBCompactionTest : public DBTestBase { public: DBCompactionTest() : DBTestBase("/db_compaction_test") {} }; class DBCompactionTestWithParam : public DBTestBase, public testing::WithParamInterface> { public: DBCompactionTestWithParam() : DBTestBase("/db_compaction_test") { max_subcompactions_ = std::get<0>(GetParam()); exclusive_manual_compaction_ = std::get<1>(GetParam()); } // Required if inheriting from testing::WithParamInterface<> static void SetUpTestCase() {} static void TearDownTestCase() {} uint32_t max_subcompactions_; bool exclusive_manual_compaction_; }; class DBCompactionDirectIOTest : public DBCompactionTest, public ::testing::WithParamInterface { public: DBCompactionDirectIOTest() : DBCompactionTest() {} }; namespace { class FlushedFileCollector : public EventListener { public: FlushedFileCollector() {} ~FlushedFileCollector() {} virtual void OnFlushCompleted(DB* /*db*/, const FlushJobInfo& info) override { std::lock_guard lock(mutex_); flushed_files_.push_back(info.file_path); } std::vector GetFlushedFiles() { std::lock_guard lock(mutex_); std::vector result; for (auto fname : flushed_files_) { result.push_back(fname); } return result; } void ClearFlushedFiles() { flushed_files_.clear(); } private: std::vector flushed_files_; std::mutex mutex_; }; class CompactionStatsCollector : public EventListener { public: CompactionStatsCollector() : compaction_completed_(static_cast(CompactionReason::kNumOfReasons)) { for (auto& v : compaction_completed_) { v.store(0); } } ~CompactionStatsCollector() {} virtual void OnCompactionCompleted(DB* /* db */, const CompactionJobInfo& info) override { int k = static_cast(info.compaction_reason); int num_of_reasons = static_cast(CompactionReason::kNumOfReasons); assert(k >= 0 && k < num_of_reasons); compaction_completed_[k]++; } virtual void OnExternalFileIngested(DB* /* db */, const ExternalFileIngestionInfo& /* info */) override { int k = static_cast(CompactionReason::kExternalSstIngestion); compaction_completed_[k]++; } virtual void OnFlushCompleted(DB* /* db */, const FlushJobInfo& /* info */) override { int k = static_cast(CompactionReason::kFlush); compaction_completed_[k]++; } int NumberOfCompactions(CompactionReason reason) const { int num_of_reasons = static_cast(CompactionReason::kNumOfReasons); int k = static_cast(reason); assert(k >= 0 && k < num_of_reasons); return compaction_completed_.at(k).load(); } private: std::vector> compaction_completed_; }; class SstStatsCollector : public EventListener { public: SstStatsCollector() : num_ssts_creation_started_(0) {} void OnTableFileCreationStarted( const TableFileCreationBriefInfo& /* info */) override { ++num_ssts_creation_started_; } int num_ssts_creation_started() { return num_ssts_creation_started_; } private: std::atomic num_ssts_creation_started_; }; static const int kCDTValueSize = 1000; static const int kCDTKeysPerBuffer = 4; static const int kCDTNumLevels = 8; Options DeletionTriggerOptions(Options options) { options.compression = kNoCompression; options.write_buffer_size = kCDTKeysPerBuffer * (kCDTValueSize + 24); options.min_write_buffer_number_to_merge = 1; options.max_write_buffer_number_to_maintain = 0; options.num_levels = kCDTNumLevels; options.level0_file_num_compaction_trigger = 1; options.target_file_size_base = options.write_buffer_size * 2; options.target_file_size_multiplier = 2; options.max_bytes_for_level_base = options.target_file_size_base * options.target_file_size_multiplier; options.max_bytes_for_level_multiplier = 2; options.disable_auto_compactions = false; return options; } bool HaveOverlappingKeyRanges( const Comparator* c, const SstFileMetaData& a, const SstFileMetaData& b) { if (c->Compare(a.smallestkey, b.smallestkey) >= 0) { if (c->Compare(a.smallestkey, b.largestkey) <= 0) { // b.smallestkey <= a.smallestkey <= b.largestkey return true; } } else if (c->Compare(a.largestkey, b.smallestkey) >= 0) { // a.smallestkey < b.smallestkey <= a.largestkey return true; } if (c->Compare(a.largestkey, b.largestkey) <= 0) { if (c->Compare(a.largestkey, b.smallestkey) >= 0) { // b.smallestkey <= a.largestkey <= b.largestkey return true; } } else if (c->Compare(a.smallestkey, b.largestkey) <= 0) { // a.smallestkey <= b.largestkey < a.largestkey return true; } return false; } // Identifies all files between level "min_level" and "max_level" // which has overlapping key range with "input_file_meta". void GetOverlappingFileNumbersForLevelCompaction( const ColumnFamilyMetaData& cf_meta, const Comparator* comparator, int min_level, int max_level, const SstFileMetaData* input_file_meta, std::set* overlapping_file_names) { std::set overlapping_files; overlapping_files.insert(input_file_meta); for (int m = min_level; m <= max_level; ++m) { for (auto& file : cf_meta.levels[m].files) { for (auto* included_file : overlapping_files) { if (HaveOverlappingKeyRanges( comparator, *included_file, file)) { overlapping_files.insert(&file); overlapping_file_names->insert(file.name); break; } } } } } void VerifyCompactionResult( const ColumnFamilyMetaData& cf_meta, const std::set& overlapping_file_numbers) { #ifndef NDEBUG for (auto& level : cf_meta.levels) { for (auto& file : level.files) { assert(overlapping_file_numbers.find(file.name) == overlapping_file_numbers.end()); } } #endif } /* * Verifies compaction stats of cfd are valid. * * For each level of cfd, its compaction stats are valid if * 1) sum(stat.counts) == stat.count, and * 2) stat.counts[i] == collector.NumberOfCompactions(i) */ void VerifyCompactionStats(ColumnFamilyData& cfd, const CompactionStatsCollector& collector) { #ifndef NDEBUG InternalStats* internal_stats_ptr = cfd.internal_stats(); ASSERT_TRUE(internal_stats_ptr != nullptr); const std::vector& comp_stats = internal_stats_ptr->TEST_GetCompactionStats(); const int num_of_reasons = static_cast(CompactionReason::kNumOfReasons); std::vector counts(num_of_reasons, 0); // Count the number of compactions caused by each CompactionReason across // all levels. for (const auto& stat : comp_stats) { int sum = 0; for (int i = 0; i < num_of_reasons; i++) { counts[i] += stat.counts[i]; sum += stat.counts[i]; } ASSERT_EQ(sum, stat.count); } // Verify InternalStats bookkeeping matches that of CompactionStatsCollector, // assuming that all compactions complete. for (int i = 0; i < num_of_reasons; i++) { ASSERT_EQ(collector.NumberOfCompactions(static_cast(i)), counts[i]); } #endif /* NDEBUG */ } const SstFileMetaData* PickFileRandomly( const ColumnFamilyMetaData& cf_meta, Random* rand, int* level = nullptr) { auto file_id = rand->Uniform(static_cast( cf_meta.file_count)) + 1; for (auto& level_meta : cf_meta.levels) { if (file_id <= level_meta.files.size()) { if (level != nullptr) { *level = level_meta.level; } auto result = rand->Uniform(file_id); return &(level_meta.files[result]); } file_id -= static_cast(level_meta.files.size()); } assert(false); return nullptr; } } // anonymous namespace #ifndef ROCKSDB_VALGRIND_RUN // All the TEST_P tests run once with sub_compactions disabled (i.e. // options.max_subcompactions = 1) and once with it enabled TEST_P(DBCompactionTestWithParam, CompactionDeletionTrigger) { for (int tid = 0; tid < 3; ++tid) { uint64_t db_size[2]; Options options = DeletionTriggerOptions(CurrentOptions()); options.max_subcompactions = max_subcompactions_; if (tid == 1) { // the following only disable stats update in DB::Open() // and should not affect the result of this test. options.skip_stats_update_on_db_open = true; } else if (tid == 2) { // third pass with universal compaction options.compaction_style = kCompactionStyleUniversal; options.num_levels = 1; } DestroyAndReopen(options); Random rnd(301); const int kTestSize = kCDTKeysPerBuffer * 1024; std::vector values; for (int k = 0; k < kTestSize; ++k) { values.push_back(RandomString(&rnd, kCDTValueSize)); ASSERT_OK(Put(Key(k), values[k])); } dbfull()->TEST_WaitForFlushMemTable(); dbfull()->TEST_WaitForCompact(); db_size[0] = Size(Key(0), Key(kTestSize - 1)); for (int k = 0; k < kTestSize; ++k) { ASSERT_OK(Delete(Key(k))); } dbfull()->TEST_WaitForFlushMemTable(); dbfull()->TEST_WaitForCompact(); db_size[1] = Size(Key(0), Key(kTestSize - 1)); // must have much smaller db size. ASSERT_GT(db_size[0] / 3, db_size[1]); } } #endif // ROCKSDB_VALGRIND_RUN TEST_P(DBCompactionTestWithParam, CompactionsPreserveDeletes) { // For each options type we test following // - Enable preserve_deletes // - write bunch of keys and deletes // - Set start_seqnum to the beginning; compact; check that keys are present // - rewind start_seqnum way forward; compact; check that keys are gone for (int tid = 0; tid < 3; ++tid) { Options options = DeletionTriggerOptions(CurrentOptions()); options.max_subcompactions = max_subcompactions_; options.preserve_deletes=true; options.num_levels = 2; if (tid == 1) { options.skip_stats_update_on_db_open = true; } else if (tid == 2) { // third pass with universal compaction options.compaction_style = kCompactionStyleUniversal; } DestroyAndReopen(options); Random rnd(301); // highlight the default; all deletes should be preserved SetPreserveDeletesSequenceNumber(0); const int kTestSize = kCDTKeysPerBuffer; std::vector values; for (int k = 0; k < kTestSize; ++k) { values.push_back(RandomString(&rnd, kCDTValueSize)); ASSERT_OK(Put(Key(k), values[k])); } for (int k = 0; k < kTestSize; ++k) { ASSERT_OK(Delete(Key(k))); } // to ensure we tackle all tombstones CompactRangeOptions cro; cro.change_level = true; cro.target_level = 2; cro.bottommost_level_compaction = BottommostLevelCompaction::kForce; dbfull()->TEST_WaitForFlushMemTable(); dbfull()->CompactRange(cro, nullptr, nullptr); // check that normal user iterator doesn't see anything Iterator* db_iter = dbfull()->NewIterator(ReadOptions()); int i = 0; for (db_iter->SeekToFirst(); db_iter->Valid(); db_iter->Next()) { i++; } ASSERT_EQ(i, 0); delete db_iter; // check that iterator that sees internal keys sees tombstones ReadOptions ro; ro.iter_start_seqnum=1; db_iter = dbfull()->NewIterator(ro); i = 0; for (db_iter->SeekToFirst(); db_iter->Valid(); db_iter->Next()) { i++; } ASSERT_EQ(i, 4); delete db_iter; // now all deletes should be gone SetPreserveDeletesSequenceNumber(100000000); dbfull()->CompactRange(cro, nullptr, nullptr); db_iter = dbfull()->NewIterator(ro); i = 0; for (db_iter->SeekToFirst(); db_iter->Valid(); db_iter->Next()) { i++; } ASSERT_EQ(i, 0); delete db_iter; } } TEST_F(DBCompactionTest, SkipStatsUpdateTest) { // This test verify UpdateAccumulatedStats is not on // if options.skip_stats_update_on_db_open = true // The test will need to be updated if the internal behavior changes. Options options = DeletionTriggerOptions(CurrentOptions()); options.env = env_; DestroyAndReopen(options); Random rnd(301); const int kTestSize = kCDTKeysPerBuffer * 512; std::vector values; for (int k = 0; k < kTestSize; ++k) { values.push_back(RandomString(&rnd, kCDTValueSize)); ASSERT_OK(Put(Key(k), values[k])); } dbfull()->TEST_WaitForFlushMemTable(); dbfull()->TEST_WaitForCompact(); // Reopen the DB with stats-update disabled options.skip_stats_update_on_db_open = true; env_->random_file_open_counter_.store(0); Reopen(options); // As stats-update is disabled, we expect a very low number of // random file open. // Note that this number must be changed accordingly if we change // the number of files needed to be opened in the DB::Open process. const int kMaxFileOpenCount = 10; ASSERT_LT(env_->random_file_open_counter_.load(), kMaxFileOpenCount); // Repeat the reopen process, but this time we enable // stats-update. options.skip_stats_update_on_db_open = false; env_->random_file_open_counter_.store(0); Reopen(options); // Since we do a normal stats update on db-open, there // will be more random open files. ASSERT_GT(env_->random_file_open_counter_.load(), kMaxFileOpenCount); } TEST_F(DBCompactionTest, TestTableReaderForCompaction) { Options options = CurrentOptions(); options.env = env_; options.new_table_reader_for_compaction_inputs = true; options.max_open_files = 100; options.level0_file_num_compaction_trigger = 3; DestroyAndReopen(options); Random rnd(301); int num_table_cache_lookup = 0; int num_new_table_reader = 0; rocksdb::SyncPoint::GetInstance()->SetCallBack( "TableCache::FindTable:0", [&](void* arg) { assert(arg != nullptr); bool no_io = *(reinterpret_cast(arg)); if (!no_io) { // filter out cases for table properties queries. num_table_cache_lookup++; } }); rocksdb::SyncPoint::GetInstance()->SetCallBack( "TableCache::GetTableReader:0", [&](void* /*arg*/) { num_new_table_reader++; }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); for (int k = 0; k < options.level0_file_num_compaction_trigger; ++k) { ASSERT_OK(Put(Key(k), Key(k))); ASSERT_OK(Put(Key(10 - k), "bar")); if (k < options.level0_file_num_compaction_trigger - 1) { num_table_cache_lookup = 0; Flush(); dbfull()->TEST_WaitForCompact(); // preloading iterator issues one table cache lookup and create // a new table reader. ASSERT_EQ(num_table_cache_lookup, 1); ASSERT_EQ(num_new_table_reader, 1); num_table_cache_lookup = 0; num_new_table_reader = 0; ASSERT_EQ(Key(k), Get(Key(k))); // lookup iterator from table cache and no need to create a new one. ASSERT_EQ(num_table_cache_lookup, 1); ASSERT_EQ(num_new_table_reader, 0); } } num_table_cache_lookup = 0; num_new_table_reader = 0; Flush(); dbfull()->TEST_WaitForCompact(); // Preloading iterator issues one table cache lookup and creates // a new table reader. One file is created for flush and one for compaction. // Compaction inputs make no table cache look-up for data/range deletion // iterators ASSERT_EQ(num_table_cache_lookup, 2); // Create new iterator for: // (1) 1 for verifying flush results // (2) 3 for compaction input files // (3) 1 for verifying compaction results. ASSERT_EQ(num_new_table_reader, 5); num_table_cache_lookup = 0; num_new_table_reader = 0; ASSERT_EQ(Key(1), Get(Key(1))); ASSERT_EQ(num_table_cache_lookup, 1); ASSERT_EQ(num_new_table_reader, 0); num_table_cache_lookup = 0; num_new_table_reader = 0; CompactRangeOptions cro; cro.change_level = true; cro.target_level = 2; cro.bottommost_level_compaction = BottommostLevelCompaction::kForce; db_->CompactRange(cro, nullptr, nullptr); // Only verifying compaction outputs issues one table cache lookup // for both data block and range deletion block). ASSERT_EQ(num_table_cache_lookup, 1); // One for compaction input, one for verifying compaction results. ASSERT_EQ(num_new_table_reader, 2); num_table_cache_lookup = 0; num_new_table_reader = 0; ASSERT_EQ(Key(1), Get(Key(1))); ASSERT_EQ(num_table_cache_lookup, 1); ASSERT_EQ(num_new_table_reader, 0); rocksdb::SyncPoint::GetInstance()->ClearAllCallBacks(); } TEST_P(DBCompactionTestWithParam, CompactionDeletionTriggerReopen) { for (int tid = 0; tid < 2; ++tid) { uint64_t db_size[3]; Options options = DeletionTriggerOptions(CurrentOptions()); options.max_subcompactions = max_subcompactions_; if (tid == 1) { // second pass with universal compaction options.compaction_style = kCompactionStyleUniversal; options.num_levels = 1; } DestroyAndReopen(options); Random rnd(301); // round 1 --- insert key/value pairs. const int kTestSize = kCDTKeysPerBuffer * 512; std::vector values; for (int k = 0; k < kTestSize; ++k) { values.push_back(RandomString(&rnd, kCDTValueSize)); ASSERT_OK(Put(Key(k), values[k])); } dbfull()->TEST_WaitForFlushMemTable(); dbfull()->TEST_WaitForCompact(); db_size[0] = Size(Key(0), Key(kTestSize - 1)); Close(); // round 2 --- disable auto-compactions and issue deletions. options.create_if_missing = false; options.disable_auto_compactions = true; Reopen(options); for (int k = 0; k < kTestSize; ++k) { ASSERT_OK(Delete(Key(k))); } db_size[1] = Size(Key(0), Key(kTestSize - 1)); Close(); // as auto_compaction is off, we shouldn't see too much reduce // in db size. ASSERT_LT(db_size[0] / 3, db_size[1]); // round 3 --- reopen db with auto_compaction on and see if // deletion compensation still work. options.disable_auto_compactions = false; Reopen(options); // insert relatively small amount of data to trigger auto compaction. for (int k = 0; k < kTestSize / 10; ++k) { ASSERT_OK(Put(Key(k), values[k])); } dbfull()->TEST_WaitForFlushMemTable(); dbfull()->TEST_WaitForCompact(); db_size[2] = Size(Key(0), Key(kTestSize - 1)); // this time we're expecting significant drop in size. ASSERT_GT(db_size[0] / 3, db_size[2]); } } TEST_F(DBCompactionTest, DisableStatsUpdateReopen) { uint64_t db_size[3]; for (int test = 0; test < 2; ++test) { Options options = DeletionTriggerOptions(CurrentOptions()); options.skip_stats_update_on_db_open = (test == 0); env_->random_read_counter_.Reset(); DestroyAndReopen(options); Random rnd(301); // round 1 --- insert key/value pairs. const int kTestSize = kCDTKeysPerBuffer * 512; std::vector values; for (int k = 0; k < kTestSize; ++k) { values.push_back(RandomString(&rnd, kCDTValueSize)); ASSERT_OK(Put(Key(k), values[k])); } dbfull()->TEST_WaitForFlushMemTable(); dbfull()->TEST_WaitForCompact(); db_size[0] = Size(Key(0), Key(kTestSize - 1)); Close(); // round 2 --- disable auto-compactions and issue deletions. options.create_if_missing = false; options.disable_auto_compactions = true; env_->random_read_counter_.Reset(); Reopen(options); for (int k = 0; k < kTestSize; ++k) { ASSERT_OK(Delete(Key(k))); } db_size[1] = Size(Key(0), Key(kTestSize - 1)); Close(); // as auto_compaction is off, we shouldn't see too much reduce // in db size. ASSERT_LT(db_size[0] / 3, db_size[1]); // round 3 --- reopen db with auto_compaction on and see if // deletion compensation still work. options.disable_auto_compactions = false; Reopen(options); dbfull()->TEST_WaitForFlushMemTable(); dbfull()->TEST_WaitForCompact(); db_size[2] = Size(Key(0), Key(kTestSize - 1)); if (options.skip_stats_update_on_db_open) { // If update stats on DB::Open is disable, we don't expect // deletion entries taking effect. ASSERT_LT(db_size[0] / 3, db_size[2]); } else { // Otherwise, we should see a significant drop in db size. ASSERT_GT(db_size[0] / 3, db_size[2]); } } } TEST_P(DBCompactionTestWithParam, CompactionTrigger) { const int kNumKeysPerFile = 100; Options options = CurrentOptions(); options.write_buffer_size = 110 << 10; // 110KB options.arena_block_size = 4 << 10; options.num_levels = 3; options.level0_file_num_compaction_trigger = 3; options.max_subcompactions = max_subcompactions_; options.memtable_factory.reset(new SpecialSkipListFactory(kNumKeysPerFile)); CreateAndReopenWithCF({"pikachu"}, options); Random rnd(301); for (int num = 0; num < options.level0_file_num_compaction_trigger - 1; num++) { std::vector values; // Write 100KB (100 values, each 1K) for (int i = 0; i < kNumKeysPerFile; i++) { values.push_back(RandomString(&rnd, 990)); ASSERT_OK(Put(1, Key(i), values[i])); } // put extra key to trigger flush ASSERT_OK(Put(1, "", "")); dbfull()->TEST_WaitForFlushMemTable(handles_[1]); ASSERT_EQ(NumTableFilesAtLevel(0, 1), num + 1); } // generate one more file in level-0, and should trigger level-0 compaction std::vector values; for (int i = 0; i < kNumKeysPerFile; i++) { values.push_back(RandomString(&rnd, 990)); ASSERT_OK(Put(1, Key(i), values[i])); } // put extra key to trigger flush ASSERT_OK(Put(1, "", "")); dbfull()->TEST_WaitForCompact(); ASSERT_EQ(NumTableFilesAtLevel(0, 1), 0); ASSERT_EQ(NumTableFilesAtLevel(1, 1), 1); } TEST_F(DBCompactionTest, BGCompactionsAllowed) { // Create several column families. Make compaction triggers in all of them // and see number of compactions scheduled to be less than allowed. const int kNumKeysPerFile = 100; Options options = CurrentOptions(); options.write_buffer_size = 110 << 10; // 110KB options.arena_block_size = 4 << 10; options.num_levels = 3; // Should speed up compaction when there are 4 files. options.level0_file_num_compaction_trigger = 2; options.level0_slowdown_writes_trigger = 20; options.soft_pending_compaction_bytes_limit = 1 << 30; // Infinitely large options.max_background_compactions = 3; options.memtable_factory.reset(new SpecialSkipListFactory(kNumKeysPerFile)); // Block all threads in thread pool. const size_t kTotalTasks = 4; env_->SetBackgroundThreads(4, Env::LOW); test::SleepingBackgroundTask sleeping_tasks[kTotalTasks]; for (size_t i = 0; i < kTotalTasks; i++) { env_->Schedule(&test::SleepingBackgroundTask::DoSleepTask, &sleeping_tasks[i], Env::Priority::LOW); sleeping_tasks[i].WaitUntilSleeping(); } CreateAndReopenWithCF({"one", "two", "three"}, options); Random rnd(301); for (int cf = 0; cf < 4; cf++) { for (int num = 0; num < options.level0_file_num_compaction_trigger; num++) { for (int i = 0; i < kNumKeysPerFile; i++) { ASSERT_OK(Put(cf, Key(i), "")); } // put extra key to trigger flush ASSERT_OK(Put(cf, "", "")); dbfull()->TEST_WaitForFlushMemTable(handles_[cf]); ASSERT_EQ(NumTableFilesAtLevel(0, cf), num + 1); } } // Now all column families qualify compaction but only one should be // scheduled, because no column family hits speed up condition. ASSERT_EQ(1, env_->GetThreadPoolQueueLen(Env::Priority::LOW)); // Create two more files for one column family, which triggers speed up // condition, three compactions will be scheduled. for (int num = 0; num < options.level0_file_num_compaction_trigger; num++) { for (int i = 0; i < kNumKeysPerFile; i++) { ASSERT_OK(Put(2, Key(i), "")); } // put extra key to trigger flush ASSERT_OK(Put(2, "", "")); dbfull()->TEST_WaitForFlushMemTable(handles_[2]); ASSERT_EQ(options.level0_file_num_compaction_trigger + num + 1, NumTableFilesAtLevel(0, 2)); } ASSERT_EQ(3, env_->GetThreadPoolQueueLen(Env::Priority::LOW)); // Unblock all threads to unblock all compactions. for (size_t i = 0; i < kTotalTasks; i++) { sleeping_tasks[i].WakeUp(); sleeping_tasks[i].WaitUntilDone(); } dbfull()->TEST_WaitForCompact(); // Verify number of compactions allowed will come back to 1. for (size_t i = 0; i < kTotalTasks; i++) { sleeping_tasks[i].Reset(); env_->Schedule(&test::SleepingBackgroundTask::DoSleepTask, &sleeping_tasks[i], Env::Priority::LOW); sleeping_tasks[i].WaitUntilSleeping(); } for (int cf = 0; cf < 4; cf++) { for (int num = 0; num < options.level0_file_num_compaction_trigger; num++) { for (int i = 0; i < kNumKeysPerFile; i++) { ASSERT_OK(Put(cf, Key(i), "")); } // put extra key to trigger flush ASSERT_OK(Put(cf, "", "")); dbfull()->TEST_WaitForFlushMemTable(handles_[cf]); ASSERT_EQ(NumTableFilesAtLevel(0, cf), num + 1); } } // Now all column families qualify compaction but only one should be // scheduled, because no column family hits speed up condition. ASSERT_EQ(1, env_->GetThreadPoolQueueLen(Env::Priority::LOW)); for (size_t i = 0; i < kTotalTasks; i++) { sleeping_tasks[i].WakeUp(); sleeping_tasks[i].WaitUntilDone(); } } TEST_P(DBCompactionTestWithParam, CompactionsGenerateMultipleFiles) { Options options = CurrentOptions(); options.write_buffer_size = 100000000; // Large write buffer options.max_subcompactions = max_subcompactions_; CreateAndReopenWithCF({"pikachu"}, options); Random rnd(301); // Write 8MB (80 values, each 100K) ASSERT_EQ(NumTableFilesAtLevel(0, 1), 0); std::vector values; for (int i = 0; i < 80; i++) { values.push_back(RandomString(&rnd, 100000)); ASSERT_OK(Put(1, Key(i), values[i])); } // Reopening moves updates to level-0 ReopenWithColumnFamilies({"default", "pikachu"}, options); dbfull()->TEST_CompactRange(0, nullptr, nullptr, handles_[1], true /* disallow trivial move */); ASSERT_EQ(NumTableFilesAtLevel(0, 1), 0); ASSERT_GT(NumTableFilesAtLevel(1, 1), 1); for (int i = 0; i < 80; i++) { ASSERT_EQ(Get(1, Key(i)), values[i]); } } TEST_F(DBCompactionTest, MinorCompactionsHappen) { do { Options options = CurrentOptions(); options.write_buffer_size = 10000; CreateAndReopenWithCF({"pikachu"}, options); const int N = 500; int starting_num_tables = TotalTableFiles(1); for (int i = 0; i < N; i++) { ASSERT_OK(Put(1, Key(i), Key(i) + std::string(1000, 'v'))); } int ending_num_tables = TotalTableFiles(1); ASSERT_GT(ending_num_tables, starting_num_tables); for (int i = 0; i < N; i++) { ASSERT_EQ(Key(i) + std::string(1000, 'v'), Get(1, Key(i))); } ReopenWithColumnFamilies({"default", "pikachu"}, options); for (int i = 0; i < N; i++) { ASSERT_EQ(Key(i) + std::string(1000, 'v'), Get(1, Key(i))); } } while (ChangeCompactOptions()); } TEST_F(DBCompactionTest, UserKeyCrossFile1) { Options options = CurrentOptions(); options.compaction_style = kCompactionStyleLevel; options.level0_file_num_compaction_trigger = 3; DestroyAndReopen(options); // create first file and flush to l0 Put("4", "A"); Put("3", "A"); Flush(); dbfull()->TEST_WaitForFlushMemTable(); Put("2", "A"); Delete("3"); Flush(); dbfull()->TEST_WaitForFlushMemTable(); ASSERT_EQ("NOT_FOUND", Get("3")); // move both files down to l1 dbfull()->CompactRange(CompactRangeOptions(), nullptr, nullptr); ASSERT_EQ("NOT_FOUND", Get("3")); for (int i = 0; i < 3; i++) { Put("2", "B"); Flush(); dbfull()->TEST_WaitForFlushMemTable(); } dbfull()->TEST_WaitForCompact(); ASSERT_EQ("NOT_FOUND", Get("3")); } TEST_F(DBCompactionTest, UserKeyCrossFile2) { Options options = CurrentOptions(); options.compaction_style = kCompactionStyleLevel; options.level0_file_num_compaction_trigger = 3; DestroyAndReopen(options); // create first file and flush to l0 Put("4", "A"); Put("3", "A"); Flush(); dbfull()->TEST_WaitForFlushMemTable(); Put("2", "A"); SingleDelete("3"); Flush(); dbfull()->TEST_WaitForFlushMemTable(); ASSERT_EQ("NOT_FOUND", Get("3")); // move both files down to l1 dbfull()->CompactRange(CompactRangeOptions(), nullptr, nullptr); ASSERT_EQ("NOT_FOUND", Get("3")); for (int i = 0; i < 3; i++) { Put("2", "B"); Flush(); dbfull()->TEST_WaitForFlushMemTable(); } dbfull()->TEST_WaitForCompact(); ASSERT_EQ("NOT_FOUND", Get("3")); } TEST_F(DBCompactionTest, ZeroSeqIdCompaction) { Options options = CurrentOptions(); options.compaction_style = kCompactionStyleLevel; options.level0_file_num_compaction_trigger = 3; FlushedFileCollector* collector = new FlushedFileCollector(); options.listeners.emplace_back(collector); // compaction options CompactionOptions compact_opt; compact_opt.compression = kNoCompression; compact_opt.output_file_size_limit = 4096; const size_t key_len = static_cast(compact_opt.output_file_size_limit) / 5; DestroyAndReopen(options); std::vector snaps; // create first file and flush to l0 for (auto& key : {"1", "2", "3", "3", "3", "3"}) { Put(key, std::string(key_len, 'A')); snaps.push_back(dbfull()->GetSnapshot()); } Flush(); dbfull()->TEST_WaitForFlushMemTable(); // create second file and flush to l0 for (auto& key : {"3", "4", "5", "6", "7", "8"}) { Put(key, std::string(key_len, 'A')); snaps.push_back(dbfull()->GetSnapshot()); } Flush(); dbfull()->TEST_WaitForFlushMemTable(); // move both files down to l1 dbfull()->CompactFiles(compact_opt, collector->GetFlushedFiles(), 1); // release snap so that first instance of key(3) can have seqId=0 for (auto snap : snaps) { dbfull()->ReleaseSnapshot(snap); } // create 3 files in l0 so to trigger compaction for (int i = 0; i < options.level0_file_num_compaction_trigger; i++) { Put("2", std::string(1, 'A')); Flush(); dbfull()->TEST_WaitForFlushMemTable(); } dbfull()->TEST_WaitForCompact(); ASSERT_OK(Put("", "")); } TEST_F(DBCompactionTest, ManualCompactionUnknownOutputSize) { // github issue #2249 Options options = CurrentOptions(); options.compaction_style = kCompactionStyleLevel; options.level0_file_num_compaction_trigger = 3; DestroyAndReopen(options); // create two files in l1 that we can compact for (int i = 0; i < 2; ++i) { for (int j = 0; j < options.level0_file_num_compaction_trigger; j++) { // make l0 files' ranges overlap to avoid trivial move Put(std::to_string(2 * i), std::string(1, 'A')); Put(std::to_string(2 * i + 1), std::string(1, 'A')); Flush(); dbfull()->TEST_WaitForFlushMemTable(); } dbfull()->TEST_WaitForCompact(); ASSERT_EQ(NumTableFilesAtLevel(0, 0), 0); ASSERT_EQ(NumTableFilesAtLevel(1, 0), i + 1); } ColumnFamilyMetaData cf_meta; dbfull()->GetColumnFamilyMetaData(dbfull()->DefaultColumnFamily(), &cf_meta); ASSERT_EQ(2, cf_meta.levels[1].files.size()); std::vector input_filenames; for (const auto& sst_file : cf_meta.levels[1].files) { input_filenames.push_back(sst_file.name); } // note CompactionOptions::output_file_size_limit is unset. CompactionOptions compact_opt; compact_opt.compression = kNoCompression; dbfull()->CompactFiles(compact_opt, input_filenames, 1); } // Check that writes done during a memtable compaction are recovered // if the database is shutdown during the memtable compaction. TEST_F(DBCompactionTest, RecoverDuringMemtableCompaction) { do { Options options = CurrentOptions(); options.env = env_; CreateAndReopenWithCF({"pikachu"}, options); // Trigger a long memtable compaction and reopen the database during it ASSERT_OK(Put(1, "foo", "v1")); // Goes to 1st log file ASSERT_OK(Put(1, "big1", std::string(10000000, 'x'))); // Fills memtable ASSERT_OK(Put(1, "big2", std::string(1000, 'y'))); // Triggers compaction ASSERT_OK(Put(1, "bar", "v2")); // Goes to new log file ReopenWithColumnFamilies({"default", "pikachu"}, options); ASSERT_EQ("v1", Get(1, "foo")); ASSERT_EQ("v2", Get(1, "bar")); ASSERT_EQ(std::string(10000000, 'x'), Get(1, "big1")); ASSERT_EQ(std::string(1000, 'y'), Get(1, "big2")); } while (ChangeOptions()); } TEST_P(DBCompactionTestWithParam, TrivialMoveOneFile) { int32_t trivial_move = 0; rocksdb::SyncPoint::GetInstance()->SetCallBack( "DBImpl::BackgroundCompaction:TrivialMove", [&](void* /*arg*/) { trivial_move++; }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); Options options = CurrentOptions(); options.write_buffer_size = 100000000; options.max_subcompactions = max_subcompactions_; DestroyAndReopen(options); int32_t num_keys = 80; int32_t value_size = 100 * 1024; // 100 KB Random rnd(301); std::vector values; for (int i = 0; i < num_keys; i++) { values.push_back(RandomString(&rnd, value_size)); ASSERT_OK(Put(Key(i), values[i])); } // Reopening moves updates to L0 Reopen(options); ASSERT_EQ(NumTableFilesAtLevel(0, 0), 1); // 1 file in L0 ASSERT_EQ(NumTableFilesAtLevel(1, 0), 0); // 0 files in L1 std::vector metadata; db_->GetLiveFilesMetaData(&metadata); ASSERT_EQ(metadata.size(), 1U); LiveFileMetaData level0_file = metadata[0]; // L0 file meta CompactRangeOptions cro; cro.exclusive_manual_compaction = exclusive_manual_compaction_; // Compaction will initiate a trivial move from L0 to L1 dbfull()->CompactRange(cro, nullptr, nullptr); // File moved From L0 to L1 ASSERT_EQ(NumTableFilesAtLevel(0, 0), 0); // 0 files in L0 ASSERT_EQ(NumTableFilesAtLevel(1, 0), 1); // 1 file in L1 metadata.clear(); db_->GetLiveFilesMetaData(&metadata); ASSERT_EQ(metadata.size(), 1U); ASSERT_EQ(metadata[0].name /* level1_file.name */, level0_file.name); ASSERT_EQ(metadata[0].size /* level1_file.size */, level0_file.size); for (int i = 0; i < num_keys; i++) { ASSERT_EQ(Get(Key(i)), values[i]); } ASSERT_EQ(trivial_move, 1); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); } TEST_P(DBCompactionTestWithParam, TrivialMoveNonOverlappingFiles) { int32_t trivial_move = 0; int32_t non_trivial_move = 0; rocksdb::SyncPoint::GetInstance()->SetCallBack( "DBImpl::BackgroundCompaction:TrivialMove", [&](void* /*arg*/) { trivial_move++; }); rocksdb::SyncPoint::GetInstance()->SetCallBack( "DBImpl::BackgroundCompaction:NonTrivial", [&](void* /*arg*/) { non_trivial_move++; }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); Options options = CurrentOptions(); options.disable_auto_compactions = true; options.write_buffer_size = 10 * 1024 * 1024; options.max_subcompactions = max_subcompactions_; DestroyAndReopen(options); // non overlapping ranges std::vector> ranges = { {100, 199}, {300, 399}, {0, 99}, {200, 299}, {600, 699}, {400, 499}, {500, 550}, {551, 599}, }; int32_t value_size = 10 * 1024; // 10 KB Random rnd(301); std::map values; for (size_t i = 0; i < ranges.size(); i++) { for (int32_t j = ranges[i].first; j <= ranges[i].second; j++) { values[j] = RandomString(&rnd, value_size); ASSERT_OK(Put(Key(j), values[j])); } ASSERT_OK(Flush()); } int32_t level0_files = NumTableFilesAtLevel(0, 0); ASSERT_EQ(level0_files, ranges.size()); // Multiple files in L0 ASSERT_EQ(NumTableFilesAtLevel(1, 0), 0); // No files in L1 CompactRangeOptions cro; cro.exclusive_manual_compaction = exclusive_manual_compaction_; // Since data is non-overlapping we expect compaction to initiate // a trivial move db_->CompactRange(cro, nullptr, nullptr); // We expect that all the files were trivially moved from L0 to L1 ASSERT_EQ(NumTableFilesAtLevel(0, 0), 0); ASSERT_EQ(NumTableFilesAtLevel(1, 0) /* level1_files */, level0_files); for (size_t i = 0; i < ranges.size(); i++) { for (int32_t j = ranges[i].first; j <= ranges[i].second; j++) { ASSERT_EQ(Get(Key(j)), values[j]); } } ASSERT_EQ(trivial_move, 1); ASSERT_EQ(non_trivial_move, 0); trivial_move = 0; non_trivial_move = 0; values.clear(); DestroyAndReopen(options); // Same ranges as above but overlapping ranges = { {100, 199}, {300, 399}, {0, 99}, {200, 299}, {600, 699}, {400, 499}, {500, 560}, // this range overlap with the next one {551, 599}, }; for (size_t i = 0; i < ranges.size(); i++) { for (int32_t j = ranges[i].first; j <= ranges[i].second; j++) { values[j] = RandomString(&rnd, value_size); ASSERT_OK(Put(Key(j), values[j])); } ASSERT_OK(Flush()); } db_->CompactRange(cro, nullptr, nullptr); for (size_t i = 0; i < ranges.size(); i++) { for (int32_t j = ranges[i].first; j <= ranges[i].second; j++) { ASSERT_EQ(Get(Key(j)), values[j]); } } ASSERT_EQ(trivial_move, 0); ASSERT_EQ(non_trivial_move, 1); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); } TEST_P(DBCompactionTestWithParam, TrivialMoveTargetLevel) { int32_t trivial_move = 0; int32_t non_trivial_move = 0; rocksdb::SyncPoint::GetInstance()->SetCallBack( "DBImpl::BackgroundCompaction:TrivialMove", [&](void* /*arg*/) { trivial_move++; }); rocksdb::SyncPoint::GetInstance()->SetCallBack( "DBImpl::BackgroundCompaction:NonTrivial", [&](void* /*arg*/) { non_trivial_move++; }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); Options options = CurrentOptions(); options.disable_auto_compactions = true; options.write_buffer_size = 10 * 1024 * 1024; options.num_levels = 7; options.max_subcompactions = max_subcompactions_; DestroyAndReopen(options); int32_t value_size = 10 * 1024; // 10 KB // Add 2 non-overlapping files Random rnd(301); std::map values; // file 1 [0 => 300] for (int32_t i = 0; i <= 300; i++) { values[i] = RandomString(&rnd, value_size); ASSERT_OK(Put(Key(i), values[i])); } ASSERT_OK(Flush()); // file 2 [600 => 700] for (int32_t i = 600; i <= 700; i++) { values[i] = RandomString(&rnd, value_size); ASSERT_OK(Put(Key(i), values[i])); } ASSERT_OK(Flush()); // 2 files in L0 ASSERT_EQ("2", FilesPerLevel(0)); CompactRangeOptions compact_options; compact_options.change_level = true; compact_options.target_level = 6; compact_options.exclusive_manual_compaction = exclusive_manual_compaction_; ASSERT_OK(db_->CompactRange(compact_options, nullptr, nullptr)); // 2 files in L6 ASSERT_EQ("0,0,0,0,0,0,2", FilesPerLevel(0)); ASSERT_EQ(trivial_move, 1); ASSERT_EQ(non_trivial_move, 0); for (int32_t i = 0; i <= 300; i++) { ASSERT_EQ(Get(Key(i)), values[i]); } for (int32_t i = 600; i <= 700; i++) { ASSERT_EQ(Get(Key(i)), values[i]); } } TEST_P(DBCompactionTestWithParam, ManualCompactionPartial) { int32_t trivial_move = 0; int32_t non_trivial_move = 0; rocksdb::SyncPoint::GetInstance()->SetCallBack( "DBImpl::BackgroundCompaction:TrivialMove", [&](void* /*arg*/) { trivial_move++; }); rocksdb::SyncPoint::GetInstance()->SetCallBack( "DBImpl::BackgroundCompaction:NonTrivial", [&](void* /*arg*/) { non_trivial_move++; }); bool first = true; // Purpose of dependencies: // 4 -> 1: ensure the order of two non-trivial compactions // 5 -> 2 and 5 -> 3: ensure we do a check before two non-trivial compactions // are installed rocksdb::SyncPoint::GetInstance()->LoadDependency( {{"DBCompaction::ManualPartial:4", "DBCompaction::ManualPartial:1"}, {"DBCompaction::ManualPartial:5", "DBCompaction::ManualPartial:2"}, {"DBCompaction::ManualPartial:5", "DBCompaction::ManualPartial:3"}}); rocksdb::SyncPoint::GetInstance()->SetCallBack( "DBImpl::BackgroundCompaction:NonTrivial:AfterRun", [&](void* /*arg*/) { if (first) { first = false; TEST_SYNC_POINT("DBCompaction::ManualPartial:4"); TEST_SYNC_POINT("DBCompaction::ManualPartial:3"); } else { // second non-trivial compaction TEST_SYNC_POINT("DBCompaction::ManualPartial:2"); } }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); Options options = CurrentOptions(); options.write_buffer_size = 10 * 1024 * 1024; options.num_levels = 7; options.max_subcompactions = max_subcompactions_; options.level0_file_num_compaction_trigger = 3; options.max_background_compactions = 3; options.target_file_size_base = 1 << 23; // 8 MB DestroyAndReopen(options); int32_t value_size = 10 * 1024; // 10 KB // Add 2 non-overlapping files Random rnd(301); std::map values; // file 1 [0 => 100] for (int32_t i = 0; i < 100; i++) { values[i] = RandomString(&rnd, value_size); ASSERT_OK(Put(Key(i), values[i])); } ASSERT_OK(Flush()); // file 2 [100 => 300] for (int32_t i = 100; i < 300; i++) { values[i] = RandomString(&rnd, value_size); ASSERT_OK(Put(Key(i), values[i])); } ASSERT_OK(Flush()); // 2 files in L0 ASSERT_EQ("2", FilesPerLevel(0)); CompactRangeOptions compact_options; compact_options.change_level = true; compact_options.target_level = 6; compact_options.exclusive_manual_compaction = exclusive_manual_compaction_; // Trivial move the two non-overlapping files to level 6 ASSERT_OK(db_->CompactRange(compact_options, nullptr, nullptr)); // 2 files in L6 ASSERT_EQ("0,0,0,0,0,0,2", FilesPerLevel(0)); ASSERT_EQ(trivial_move, 1); ASSERT_EQ(non_trivial_move, 0); // file 3 [ 0 => 200] for (int32_t i = 0; i < 200; i++) { values[i] = RandomString(&rnd, value_size); ASSERT_OK(Put(Key(i), values[i])); } ASSERT_OK(Flush()); // 1 files in L0 ASSERT_EQ("1,0,0,0,0,0,2", FilesPerLevel(0)); ASSERT_OK(dbfull()->TEST_CompactRange(0, nullptr, nullptr, nullptr, false)); ASSERT_OK(dbfull()->TEST_CompactRange(1, nullptr, nullptr, nullptr, false)); ASSERT_OK(dbfull()->TEST_CompactRange(2, nullptr, nullptr, nullptr, false)); ASSERT_OK(dbfull()->TEST_CompactRange(3, nullptr, nullptr, nullptr, false)); ASSERT_OK(dbfull()->TEST_CompactRange(4, nullptr, nullptr, nullptr, false)); // 2 files in L6, 1 file in L5 ASSERT_EQ("0,0,0,0,0,1,2", FilesPerLevel(0)); ASSERT_EQ(trivial_move, 6); ASSERT_EQ(non_trivial_move, 0); rocksdb::port::Thread threads([&] { compact_options.change_level = false; compact_options.exclusive_manual_compaction = false; std::string begin_string = Key(0); std::string end_string = Key(199); Slice begin(begin_string); Slice end(end_string); // First non-trivial compaction is triggered ASSERT_OK(db_->CompactRange(compact_options, &begin, &end)); }); TEST_SYNC_POINT("DBCompaction::ManualPartial:1"); // file 4 [300 => 400) for (int32_t i = 300; i <= 400; i++) { values[i] = RandomString(&rnd, value_size); ASSERT_OK(Put(Key(i), values[i])); } ASSERT_OK(Flush()); // file 5 [400 => 500) for (int32_t i = 400; i <= 500; i++) { values[i] = RandomString(&rnd, value_size); ASSERT_OK(Put(Key(i), values[i])); } ASSERT_OK(Flush()); // file 6 [500 => 600) for (int32_t i = 500; i <= 600; i++) { values[i] = RandomString(&rnd, value_size); ASSERT_OK(Put(Key(i), values[i])); } // Second non-trivial compaction is triggered ASSERT_OK(Flush()); // Before two non-trivial compactions are installed, there are 3 files in L0 ASSERT_EQ("3,0,0,0,0,1,2", FilesPerLevel(0)); TEST_SYNC_POINT("DBCompaction::ManualPartial:5"); dbfull()->TEST_WaitForFlushMemTable(); dbfull()->TEST_WaitForCompact(); // After two non-trivial compactions are installed, there is 1 file in L6, and // 1 file in L1 ASSERT_EQ("0,1,0,0,0,0,1", FilesPerLevel(0)); threads.join(); for (int32_t i = 0; i < 600; i++) { ASSERT_EQ(Get(Key(i)), values[i]); } } // Disable as the test is flaky. TEST_F(DBCompactionTest, DISABLED_ManualPartialFill) { int32_t trivial_move = 0; int32_t non_trivial_move = 0; rocksdb::SyncPoint::GetInstance()->SetCallBack( "DBImpl::BackgroundCompaction:TrivialMove", [&](void* /*arg*/) { trivial_move++; }); rocksdb::SyncPoint::GetInstance()->SetCallBack( "DBImpl::BackgroundCompaction:NonTrivial", [&](void* /*arg*/) { non_trivial_move++; }); bool first = true; bool second = true; rocksdb::SyncPoint::GetInstance()->LoadDependency( {{"DBCompaction::PartialFill:4", "DBCompaction::PartialFill:1"}, {"DBCompaction::PartialFill:2", "DBCompaction::PartialFill:3"}}); rocksdb::SyncPoint::GetInstance()->SetCallBack( "DBImpl::BackgroundCompaction:NonTrivial:AfterRun", [&](void* /*arg*/) { if (first) { TEST_SYNC_POINT("DBCompaction::PartialFill:4"); first = false; TEST_SYNC_POINT("DBCompaction::PartialFill:3"); } else if (second) { } }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); Options options = CurrentOptions(); options.write_buffer_size = 10 * 1024 * 1024; options.max_bytes_for_level_multiplier = 2; options.num_levels = 4; options.level0_file_num_compaction_trigger = 3; options.max_background_compactions = 3; DestroyAndReopen(options); // make sure all background compaction jobs can be scheduled auto stop_token = dbfull()->TEST_write_controler().GetCompactionPressureToken(); int32_t value_size = 10 * 1024; // 10 KB // Add 2 non-overlapping files Random rnd(301); std::map values; // file 1 [0 => 100] for (int32_t i = 0; i < 100; i++) { values[i] = RandomString(&rnd, value_size); ASSERT_OK(Put(Key(i), values[i])); } ASSERT_OK(Flush()); // file 2 [100 => 300] for (int32_t i = 100; i < 300; i++) { values[i] = RandomString(&rnd, value_size); ASSERT_OK(Put(Key(i), values[i])); } ASSERT_OK(Flush()); // 2 files in L0 ASSERT_EQ("2", FilesPerLevel(0)); CompactRangeOptions compact_options; compact_options.change_level = true; compact_options.target_level = 2; ASSERT_OK(db_->CompactRange(compact_options, nullptr, nullptr)); // 2 files in L2 ASSERT_EQ("0,0,2", FilesPerLevel(0)); ASSERT_EQ(trivial_move, 1); ASSERT_EQ(non_trivial_move, 0); // file 3 [ 0 => 200] for (int32_t i = 0; i < 200; i++) { values[i] = RandomString(&rnd, value_size); ASSERT_OK(Put(Key(i), values[i])); } ASSERT_OK(Flush()); // 2 files in L2, 1 in L0 ASSERT_EQ("1,0,2", FilesPerLevel(0)); ASSERT_OK(dbfull()->TEST_CompactRange(0, nullptr, nullptr, nullptr, false)); // 2 files in L2, 1 in L1 ASSERT_EQ("0,1,2", FilesPerLevel(0)); ASSERT_EQ(trivial_move, 2); ASSERT_EQ(non_trivial_move, 0); rocksdb::port::Thread threads([&] { compact_options.change_level = false; compact_options.exclusive_manual_compaction = false; std::string begin_string = Key(0); std::string end_string = Key(199); Slice begin(begin_string); Slice end(end_string); ASSERT_OK(db_->CompactRange(compact_options, &begin, &end)); }); TEST_SYNC_POINT("DBCompaction::PartialFill:1"); // Many files 4 [300 => 4300) for (int32_t i = 0; i <= 5; i++) { for (int32_t j = 300; j < 4300; j++) { if (j == 2300) { ASSERT_OK(Flush()); dbfull()->TEST_WaitForFlushMemTable(); } values[j] = RandomString(&rnd, value_size); ASSERT_OK(Put(Key(j), values[j])); } } // Verify level sizes uint64_t target_size = 4 * options.max_bytes_for_level_base; for (int32_t i = 1; i < options.num_levels; i++) { ASSERT_LE(SizeAtLevel(i), target_size); target_size = static_cast(target_size * options.max_bytes_for_level_multiplier); } TEST_SYNC_POINT("DBCompaction::PartialFill:2"); dbfull()->TEST_WaitForFlushMemTable(); dbfull()->TEST_WaitForCompact(); threads.join(); for (int32_t i = 0; i < 4300; i++) { ASSERT_EQ(Get(Key(i)), values[i]); } } TEST_F(DBCompactionTest, DeleteFileRange) { Options options = CurrentOptions(); options.write_buffer_size = 10 * 1024 * 1024; options.max_bytes_for_level_multiplier = 2; options.num_levels = 4; options.level0_file_num_compaction_trigger = 3; options.max_background_compactions = 3; DestroyAndReopen(options); int32_t value_size = 10 * 1024; // 10 KB // Add 2 non-overlapping files Random rnd(301); std::map values; // file 1 [0 => 100] for (int32_t i = 0; i < 100; i++) { values[i] = RandomString(&rnd, value_size); ASSERT_OK(Put(Key(i), values[i])); } ASSERT_OK(Flush()); // file 2 [100 => 300] for (int32_t i = 100; i < 300; i++) { values[i] = RandomString(&rnd, value_size); ASSERT_OK(Put(Key(i), values[i])); } ASSERT_OK(Flush()); // 2 files in L0 ASSERT_EQ("2", FilesPerLevel(0)); CompactRangeOptions compact_options; compact_options.change_level = true; compact_options.target_level = 2; ASSERT_OK(db_->CompactRange(compact_options, nullptr, nullptr)); // 2 files in L2 ASSERT_EQ("0,0,2", FilesPerLevel(0)); // file 3 [ 0 => 200] for (int32_t i = 0; i < 200; i++) { values[i] = RandomString(&rnd, value_size); ASSERT_OK(Put(Key(i), values[i])); } ASSERT_OK(Flush()); // Many files 4 [300 => 4300) for (int32_t i = 0; i <= 5; i++) { for (int32_t j = 300; j < 4300; j++) { if (j == 2300) { ASSERT_OK(Flush()); dbfull()->TEST_WaitForFlushMemTable(); } values[j] = RandomString(&rnd, value_size); ASSERT_OK(Put(Key(j), values[j])); } } ASSERT_OK(Flush()); dbfull()->TEST_WaitForFlushMemTable(); dbfull()->TEST_WaitForCompact(); // Verify level sizes uint64_t target_size = 4 * options.max_bytes_for_level_base; for (int32_t i = 1; i < options.num_levels; i++) { ASSERT_LE(SizeAtLevel(i), target_size); target_size = static_cast(target_size * options.max_bytes_for_level_multiplier); } size_t old_num_files = CountFiles(); std::string begin_string = Key(1000); std::string end_string = Key(2000); Slice begin(begin_string); Slice end(end_string); ASSERT_OK(DeleteFilesInRange(db_, db_->DefaultColumnFamily(), &begin, &end)); int32_t deleted_count = 0; for (int32_t i = 0; i < 4300; i++) { if (i < 1000 || i > 2000) { ASSERT_EQ(Get(Key(i)), values[i]); } else { ReadOptions roptions; std::string result; Status s = db_->Get(roptions, Key(i), &result); ASSERT_TRUE(s.IsNotFound() || s.ok()); if (s.IsNotFound()) { deleted_count++; } } } ASSERT_GT(deleted_count, 0); begin_string = Key(5000); end_string = Key(6000); Slice begin1(begin_string); Slice end1(end_string); // Try deleting files in range which contain no keys ASSERT_OK( DeleteFilesInRange(db_, db_->DefaultColumnFamily(), &begin1, &end1)); // Push data from level 0 to level 1 to force all data to be deleted // Note that we don't delete level 0 files compact_options.change_level = true; compact_options.target_level = 1; ASSERT_OK(dbfull()->TEST_CompactRange(0, nullptr, nullptr)); ASSERT_OK( DeleteFilesInRange(db_, db_->DefaultColumnFamily(), nullptr, nullptr)); int32_t deleted_count2 = 0; for (int32_t i = 0; i < 4300; i++) { ReadOptions roptions; std::string result; Status s = db_->Get(roptions, Key(i), &result); ASSERT_TRUE(s.IsNotFound()); deleted_count2++; } ASSERT_GT(deleted_count2, deleted_count); size_t new_num_files = CountFiles(); ASSERT_GT(old_num_files, new_num_files); } TEST_F(DBCompactionTest, DeleteFilesInRanges) { Options options = CurrentOptions(); options.write_buffer_size = 10 * 1024 * 1024; options.max_bytes_for_level_multiplier = 2; options.num_levels = 4; options.max_background_compactions = 3; options.disable_auto_compactions = true; DestroyAndReopen(options); int32_t value_size = 10 * 1024; // 10 KB Random rnd(301); std::map values; // file [0 => 100), [100 => 200), ... [900, 1000) for (auto i = 0; i < 10; i++) { for (auto j = 0; j < 100; j++) { auto k = i * 100 + j; values[k] = RandomString(&rnd, value_size); ASSERT_OK(Put(Key(k), values[k])); } ASSERT_OK(Flush()); } ASSERT_EQ("10", FilesPerLevel(0)); CompactRangeOptions compact_options; compact_options.change_level = true; compact_options.target_level = 2; ASSERT_OK(db_->CompactRange(compact_options, nullptr, nullptr)); ASSERT_EQ("0,0,10", FilesPerLevel(0)); // file [0 => 100), [200 => 300), ... [800, 900) for (auto i = 0; i < 10; i+=2) { for (auto j = 0; j < 100; j++) { auto k = i * 100 + j; ASSERT_OK(Put(Key(k), values[k])); } ASSERT_OK(Flush()); } ASSERT_EQ("5,0,10", FilesPerLevel(0)); ASSERT_OK(dbfull()->TEST_CompactRange(0, nullptr, nullptr)); ASSERT_EQ("0,5,10", FilesPerLevel(0)); // Delete files in range [0, 299] (inclusive) { auto begin_str1 = Key(0), end_str1 = Key(100); auto begin_str2 = Key(100), end_str2 = Key(200); auto begin_str3 = Key(200), end_str3 = Key(299); Slice begin1(begin_str1), end1(end_str1); Slice begin2(begin_str2), end2(end_str2); Slice begin3(begin_str3), end3(end_str3); std::vector ranges; ranges.push_back(RangePtr(&begin1, &end1)); ranges.push_back(RangePtr(&begin2, &end2)); ranges.push_back(RangePtr(&begin3, &end3)); ASSERT_OK(DeleteFilesInRanges(db_, db_->DefaultColumnFamily(), ranges.data(), ranges.size())); ASSERT_EQ("0,3,7", FilesPerLevel(0)); // Keys [0, 300) should not exist. for (auto i = 0; i < 300; i++) { ReadOptions ropts; std::string result; auto s = db_->Get(ropts, Key(i), &result); ASSERT_TRUE(s.IsNotFound()); } for (auto i = 300; i < 1000; i++) { ASSERT_EQ(Get(Key(i)), values[i]); } } // Delete files in range [600, 999) (exclusive) { auto begin_str1 = Key(600), end_str1 = Key(800); auto begin_str2 = Key(700), end_str2 = Key(900); auto begin_str3 = Key(800), end_str3 = Key(999); Slice begin1(begin_str1), end1(end_str1); Slice begin2(begin_str2), end2(end_str2); Slice begin3(begin_str3), end3(end_str3); std::vector ranges; ranges.push_back(RangePtr(&begin1, &end1)); ranges.push_back(RangePtr(&begin2, &end2)); ranges.push_back(RangePtr(&begin3, &end3)); ASSERT_OK(DeleteFilesInRanges(db_, db_->DefaultColumnFamily(), ranges.data(), ranges.size(), false)); ASSERT_EQ("0,1,4", FilesPerLevel(0)); // Keys [600, 900) should not exist. for (auto i = 600; i < 900; i++) { ReadOptions ropts; std::string result; auto s = db_->Get(ropts, Key(i), &result); ASSERT_TRUE(s.IsNotFound()); } for (auto i = 300; i < 600; i++) { ASSERT_EQ(Get(Key(i)), values[i]); } for (auto i = 900; i < 1000; i++) { ASSERT_EQ(Get(Key(i)), values[i]); } } // Delete all files. { RangePtr range; ASSERT_OK(DeleteFilesInRanges(db_, db_->DefaultColumnFamily(), &range, 1)); ASSERT_EQ("", FilesPerLevel(0)); for (auto i = 0; i < 1000; i++) { ReadOptions ropts; std::string result; auto s = db_->Get(ropts, Key(i), &result); ASSERT_TRUE(s.IsNotFound()); } } } TEST_F(DBCompactionTest, DeleteFileRangeFileEndpointsOverlapBug) { // regression test for #2833: groups of files whose user-keys overlap at the // endpoints could be split by `DeleteFilesInRange`. This caused old data to // reappear, either because a new version of the key was removed, or a range // deletion was partially dropped. It could also cause non-overlapping // invariant to be violated if the files dropped by DeleteFilesInRange were // a subset of files that a range deletion spans. const int kNumL0Files = 2; const int kValSize = 8 << 10; // 8KB Options options = CurrentOptions(); options.level0_file_num_compaction_trigger = kNumL0Files; options.target_file_size_base = 1 << 10; // 1KB DestroyAndReopen(options); // The snapshot prevents key 1 from having its old version dropped. The low // `target_file_size_base` ensures two keys will be in each output file. const Snapshot* snapshot = nullptr; Random rnd(301); // The value indicates which flush the key belonged to, which is enough // for us to determine the keys' relative ages. After L0 flushes finish, // files look like: // // File 0: 0 -> vals[0], 1 -> vals[0] // File 1: 1 -> vals[1], 2 -> vals[1] // // Then L0->L1 compaction happens, which outputs keys as follows: // // File 0: 0 -> vals[0], 1 -> vals[1] // File 1: 1 -> vals[0], 2 -> vals[1] // // DeleteFilesInRange shouldn't be allowed to drop just file 0, as that // would cause `1 -> vals[0]` (an older key) to reappear. std::string vals[kNumL0Files]; for (int i = 0; i < kNumL0Files; ++i) { vals[i] = RandomString(&rnd, kValSize); Put(Key(i), vals[i]); Put(Key(i + 1), vals[i]); Flush(); if (i == 0) { snapshot = db_->GetSnapshot(); } } dbfull()->TEST_WaitForCompact(); // Verify `DeleteFilesInRange` can't drop only file 0 which would cause // "1 -> vals[0]" to reappear. std::string begin_str = Key(0), end_str = Key(1); Slice begin = begin_str, end = end_str; ASSERT_OK(DeleteFilesInRange(db_, db_->DefaultColumnFamily(), &begin, &end)); ASSERT_EQ(vals[1], Get(Key(1))); db_->ReleaseSnapshot(snapshot); } TEST_P(DBCompactionTestWithParam, TrivialMoveToLastLevelWithFiles) { int32_t trivial_move = 0; int32_t non_trivial_move = 0; rocksdb::SyncPoint::GetInstance()->SetCallBack( "DBImpl::BackgroundCompaction:TrivialMove", [&](void* /*arg*/) { trivial_move++; }); rocksdb::SyncPoint::GetInstance()->SetCallBack( "DBImpl::BackgroundCompaction:NonTrivial", [&](void* /*arg*/) { non_trivial_move++; }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); Options options = CurrentOptions(); options.write_buffer_size = 100000000; options.max_subcompactions = max_subcompactions_; DestroyAndReopen(options); int32_t value_size = 10 * 1024; // 10 KB Random rnd(301); std::vector values; // File with keys [ 0 => 99 ] for (int i = 0; i < 100; i++) { values.push_back(RandomString(&rnd, value_size)); ASSERT_OK(Put(Key(i), values[i])); } ASSERT_OK(Flush()); ASSERT_EQ("1", FilesPerLevel(0)); // Compaction will do L0=>L1 (trivial move) then move L1 files to L3 CompactRangeOptions compact_options; compact_options.change_level = true; compact_options.target_level = 3; compact_options.exclusive_manual_compaction = exclusive_manual_compaction_; ASSERT_OK(db_->CompactRange(compact_options, nullptr, nullptr)); ASSERT_EQ("0,0,0,1", FilesPerLevel(0)); ASSERT_EQ(trivial_move, 1); ASSERT_EQ(non_trivial_move, 0); // File with keys [ 100 => 199 ] for (int i = 100; i < 200; i++) { values.push_back(RandomString(&rnd, value_size)); ASSERT_OK(Put(Key(i), values[i])); } ASSERT_OK(Flush()); ASSERT_EQ("1,0,0,1", FilesPerLevel(0)); CompactRangeOptions cro; cro.exclusive_manual_compaction = exclusive_manual_compaction_; // Compaction will do L0=>L1 L1=>L2 L2=>L3 (3 trivial moves) ASSERT_OK(db_->CompactRange(cro, nullptr, nullptr)); ASSERT_EQ("0,0,0,2", FilesPerLevel(0)); ASSERT_EQ(trivial_move, 4); ASSERT_EQ(non_trivial_move, 0); for (int i = 0; i < 200; i++) { ASSERT_EQ(Get(Key(i)), values[i]); } rocksdb::SyncPoint::GetInstance()->DisableProcessing(); } TEST_P(DBCompactionTestWithParam, LevelCompactionThirdPath) { Options options = CurrentOptions(); options.db_paths.emplace_back(dbname_, 500 * 1024); options.db_paths.emplace_back(dbname_ + "_2", 4 * 1024 * 1024); options.db_paths.emplace_back(dbname_ + "_3", 1024 * 1024 * 1024); options.memtable_factory.reset( new SpecialSkipListFactory(KNumKeysByGenerateNewFile - 1)); options.compaction_style = kCompactionStyleLevel; options.write_buffer_size = 110 << 10; // 110KB options.arena_block_size = 4 << 10; options.level0_file_num_compaction_trigger = 2; options.num_levels = 4; options.max_bytes_for_level_base = 400 * 1024; options.max_subcompactions = max_subcompactions_; // options = CurrentOptions(options); std::vector filenames; env_->GetChildren(options.db_paths[1].path, &filenames); // Delete archival files. for (size_t i = 0; i < filenames.size(); ++i) { env_->DeleteFile(options.db_paths[1].path + "/" + filenames[i]); } env_->DeleteDir(options.db_paths[1].path); Reopen(options); Random rnd(301); int key_idx = 0; // First three 110KB files are not going to second path. // After that, (100K, 200K) for (int num = 0; num < 3; num++) { GenerateNewFile(&rnd, &key_idx); } // Another 110KB triggers a compaction to 400K file to fill up first path GenerateNewFile(&rnd, &key_idx); ASSERT_EQ(3, GetSstFileCount(options.db_paths[1].path)); // (1, 4) GenerateNewFile(&rnd, &key_idx); ASSERT_EQ("1,4", FilesPerLevel(0)); ASSERT_EQ(4, GetSstFileCount(options.db_paths[1].path)); ASSERT_EQ(1, GetSstFileCount(dbname_)); // (1, 4, 1) GenerateNewFile(&rnd, &key_idx); ASSERT_EQ("1,4,1", FilesPerLevel(0)); ASSERT_EQ(1, GetSstFileCount(options.db_paths[2].path)); ASSERT_EQ(4, GetSstFileCount(options.db_paths[1].path)); ASSERT_EQ(1, GetSstFileCount(dbname_)); // (1, 4, 2) GenerateNewFile(&rnd, &key_idx); ASSERT_EQ("1,4,2", FilesPerLevel(0)); ASSERT_EQ(2, GetSstFileCount(options.db_paths[2].path)); ASSERT_EQ(4, GetSstFileCount(options.db_paths[1].path)); ASSERT_EQ(1, GetSstFileCount(dbname_)); // (1, 4, 3) GenerateNewFile(&rnd, &key_idx); ASSERT_EQ("1,4,3", FilesPerLevel(0)); ASSERT_EQ(3, GetSstFileCount(options.db_paths[2].path)); ASSERT_EQ(4, GetSstFileCount(options.db_paths[1].path)); ASSERT_EQ(1, GetSstFileCount(dbname_)); // (1, 4, 4) GenerateNewFile(&rnd, &key_idx); ASSERT_EQ("1,4,4", FilesPerLevel(0)); ASSERT_EQ(4, GetSstFileCount(options.db_paths[2].path)); ASSERT_EQ(4, GetSstFileCount(options.db_paths[1].path)); ASSERT_EQ(1, GetSstFileCount(dbname_)); // (1, 4, 5) GenerateNewFile(&rnd, &key_idx); ASSERT_EQ("1,4,5", FilesPerLevel(0)); ASSERT_EQ(5, GetSstFileCount(options.db_paths[2].path)); ASSERT_EQ(4, GetSstFileCount(options.db_paths[1].path)); ASSERT_EQ(1, GetSstFileCount(dbname_)); // (1, 4, 6) GenerateNewFile(&rnd, &key_idx); ASSERT_EQ("1,4,6", FilesPerLevel(0)); ASSERT_EQ(6, GetSstFileCount(options.db_paths[2].path)); ASSERT_EQ(4, GetSstFileCount(options.db_paths[1].path)); ASSERT_EQ(1, GetSstFileCount(dbname_)); // (1, 4, 7) GenerateNewFile(&rnd, &key_idx); ASSERT_EQ("1,4,7", FilesPerLevel(0)); ASSERT_EQ(7, GetSstFileCount(options.db_paths[2].path)); ASSERT_EQ(4, GetSstFileCount(options.db_paths[1].path)); ASSERT_EQ(1, GetSstFileCount(dbname_)); // (1, 4, 8) GenerateNewFile(&rnd, &key_idx); ASSERT_EQ("1,4,8", FilesPerLevel(0)); ASSERT_EQ(8, GetSstFileCount(options.db_paths[2].path)); ASSERT_EQ(4, GetSstFileCount(options.db_paths[1].path)); ASSERT_EQ(1, GetSstFileCount(dbname_)); for (int i = 0; i < key_idx; i++) { auto v = Get(Key(i)); ASSERT_NE(v, "NOT_FOUND"); ASSERT_TRUE(v.size() == 1 || v.size() == 990); } Reopen(options); for (int i = 0; i < key_idx; i++) { auto v = Get(Key(i)); ASSERT_NE(v, "NOT_FOUND"); ASSERT_TRUE(v.size() == 1 || v.size() == 990); } Destroy(options); } TEST_P(DBCompactionTestWithParam, LevelCompactionPathUse) { Options options = CurrentOptions(); options.db_paths.emplace_back(dbname_, 500 * 1024); options.db_paths.emplace_back(dbname_ + "_2", 4 * 1024 * 1024); options.db_paths.emplace_back(dbname_ + "_3", 1024 * 1024 * 1024); options.memtable_factory.reset( new SpecialSkipListFactory(KNumKeysByGenerateNewFile - 1)); options.compaction_style = kCompactionStyleLevel; options.write_buffer_size = 110 << 10; // 110KB options.arena_block_size = 4 << 10; options.level0_file_num_compaction_trigger = 2; options.num_levels = 4; options.max_bytes_for_level_base = 400 * 1024; options.max_subcompactions = max_subcompactions_; // options = CurrentOptions(options); std::vector filenames; env_->GetChildren(options.db_paths[1].path, &filenames); // Delete archival files. for (size_t i = 0; i < filenames.size(); ++i) { env_->DeleteFile(options.db_paths[1].path + "/" + filenames[i]); } env_->DeleteDir(options.db_paths[1].path); Reopen(options); Random rnd(301); int key_idx = 0; // Always gets compacted into 1 Level1 file, // 0/1 Level 0 file for (int num = 0; num < 3; num++) { key_idx = 0; GenerateNewFile(&rnd, &key_idx); } key_idx = 0; GenerateNewFile(&rnd, &key_idx); ASSERT_EQ(1, GetSstFileCount(options.db_paths[1].path)); key_idx = 0; GenerateNewFile(&rnd, &key_idx); ASSERT_EQ("1,1", FilesPerLevel(0)); ASSERT_EQ(1, GetSstFileCount(options.db_paths[1].path)); ASSERT_EQ(1, GetSstFileCount(dbname_)); key_idx = 0; GenerateNewFile(&rnd, &key_idx); ASSERT_EQ("0,1", FilesPerLevel(0)); ASSERT_EQ(0, GetSstFileCount(options.db_paths[2].path)); ASSERT_EQ(1, GetSstFileCount(options.db_paths[1].path)); ASSERT_EQ(0, GetSstFileCount(dbname_)); key_idx = 0; GenerateNewFile(&rnd, &key_idx); ASSERT_EQ("1,1", FilesPerLevel(0)); ASSERT_EQ(0, GetSstFileCount(options.db_paths[2].path)); ASSERT_EQ(1, GetSstFileCount(options.db_paths[1].path)); ASSERT_EQ(1, GetSstFileCount(dbname_)); key_idx = 0; GenerateNewFile(&rnd, &key_idx); ASSERT_EQ("0,1", FilesPerLevel(0)); ASSERT_EQ(0, GetSstFileCount(options.db_paths[2].path)); ASSERT_EQ(1, GetSstFileCount(options.db_paths[1].path)); ASSERT_EQ(0, GetSstFileCount(dbname_)); key_idx = 0; GenerateNewFile(&rnd, &key_idx); ASSERT_EQ("1,1", FilesPerLevel(0)); ASSERT_EQ(0, GetSstFileCount(options.db_paths[2].path)); ASSERT_EQ(1, GetSstFileCount(options.db_paths[1].path)); ASSERT_EQ(1, GetSstFileCount(dbname_)); key_idx = 0; GenerateNewFile(&rnd, &key_idx); ASSERT_EQ("0,1", FilesPerLevel(0)); ASSERT_EQ(0, GetSstFileCount(options.db_paths[2].path)); ASSERT_EQ(1, GetSstFileCount(options.db_paths[1].path)); ASSERT_EQ(0, GetSstFileCount(dbname_)); key_idx = 0; GenerateNewFile(&rnd, &key_idx); ASSERT_EQ("1,1", FilesPerLevel(0)); ASSERT_EQ(0, GetSstFileCount(options.db_paths[2].path)); ASSERT_EQ(1, GetSstFileCount(options.db_paths[1].path)); ASSERT_EQ(1, GetSstFileCount(dbname_)); key_idx = 0; GenerateNewFile(&rnd, &key_idx); ASSERT_EQ("0,1", FilesPerLevel(0)); ASSERT_EQ(0, GetSstFileCount(options.db_paths[2].path)); ASSERT_EQ(1, GetSstFileCount(options.db_paths[1].path)); ASSERT_EQ(0, GetSstFileCount(dbname_)); key_idx = 0; GenerateNewFile(&rnd, &key_idx); ASSERT_EQ("1,1", FilesPerLevel(0)); ASSERT_EQ(0, GetSstFileCount(options.db_paths[2].path)); ASSERT_EQ(1, GetSstFileCount(options.db_paths[1].path)); ASSERT_EQ(1, GetSstFileCount(dbname_)); for (int i = 0; i < key_idx; i++) { auto v = Get(Key(i)); ASSERT_NE(v, "NOT_FOUND"); ASSERT_TRUE(v.size() == 1 || v.size() == 990); } Reopen(options); for (int i = 0; i < key_idx; i++) { auto v = Get(Key(i)); ASSERT_NE(v, "NOT_FOUND"); ASSERT_TRUE(v.size() == 1 || v.size() == 990); } Destroy(options); } TEST_P(DBCompactionTestWithParam, LevelCompactionCFPathUse) { Options options = CurrentOptions(); options.db_paths.emplace_back(dbname_, 500 * 1024); options.db_paths.emplace_back(dbname_ + "_2", 4 * 1024 * 1024); options.db_paths.emplace_back(dbname_ + "_3", 1024 * 1024 * 1024); options.memtable_factory.reset( new SpecialSkipListFactory(KNumKeysByGenerateNewFile - 1)); options.compaction_style = kCompactionStyleLevel; options.write_buffer_size = 110 << 10; // 110KB options.arena_block_size = 4 << 10; options.level0_file_num_compaction_trigger = 2; options.num_levels = 4; options.max_bytes_for_level_base = 400 * 1024; options.max_subcompactions = max_subcompactions_; std::vector option_vector; option_vector.emplace_back(options); ColumnFamilyOptions cf_opt1(options), cf_opt2(options); // Configure CF1 specific paths. cf_opt1.cf_paths.emplace_back(dbname_ + "cf1", 500 * 1024); cf_opt1.cf_paths.emplace_back(dbname_ + "cf1_2", 4 * 1024 * 1024); cf_opt1.cf_paths.emplace_back(dbname_ + "cf1_3", 1024 * 1024 * 1024); option_vector.emplace_back(DBOptions(options), cf_opt1); CreateColumnFamilies({"one"},option_vector[1]); // Configura CF2 specific paths. cf_opt2.cf_paths.emplace_back(dbname_ + "cf2", 500 * 1024); cf_opt2.cf_paths.emplace_back(dbname_ + "cf2_2", 4 * 1024 * 1024); cf_opt2.cf_paths.emplace_back(dbname_ + "cf2_3", 1024 * 1024 * 1024); option_vector.emplace_back(DBOptions(options), cf_opt2); CreateColumnFamilies({"two"},option_vector[2]); ReopenWithColumnFamilies({"default", "one", "two"}, option_vector); Random rnd(301); int key_idx = 0; int key_idx1 = 0; int key_idx2 = 0; auto generate_file = [&]() { GenerateNewFile(0, &rnd, &key_idx); GenerateNewFile(1, &rnd, &key_idx1); GenerateNewFile(2, &rnd, &key_idx2); }; auto check_sstfilecount = [&](int path_id, int expected) { ASSERT_EQ(expected, GetSstFileCount(options.db_paths[path_id].path)); ASSERT_EQ(expected, GetSstFileCount(cf_opt1.cf_paths[path_id].path)); ASSERT_EQ(expected, GetSstFileCount(cf_opt2.cf_paths[path_id].path)); }; auto check_filesperlevel = [&](const std::string& expected) { ASSERT_EQ(expected, FilesPerLevel(0)); ASSERT_EQ(expected, FilesPerLevel(1)); ASSERT_EQ(expected, FilesPerLevel(2)); }; auto check_getvalues = [&]() { for (int i = 0; i < key_idx; i++) { auto v = Get(0, Key(i)); ASSERT_NE(v, "NOT_FOUND"); ASSERT_TRUE(v.size() == 1 || v.size() == 990); } for (int i = 0; i < key_idx1; i++) { auto v = Get(1, Key(i)); ASSERT_NE(v, "NOT_FOUND"); ASSERT_TRUE(v.size() == 1 || v.size() == 990); } for (int i = 0; i < key_idx2; i++) { auto v = Get(2, Key(i)); ASSERT_NE(v, "NOT_FOUND"); ASSERT_TRUE(v.size() == 1 || v.size() == 990); } }; // Check that default column family uses db_paths. // And Column family "one" uses cf_paths. // First three 110KB files are not going to second path. // After that, (100K, 200K) for (int num = 0; num < 3; num++) { generate_file(); } // Another 110KB triggers a compaction to 400K file to fill up first path generate_file(); check_sstfilecount(1, 3); // (1, 4) generate_file(); check_filesperlevel("1,4"); check_sstfilecount(1, 4); check_sstfilecount(0, 1); // (1, 4, 1) generate_file(); check_filesperlevel("1,4,1"); check_sstfilecount(2, 1); check_sstfilecount(1, 4); check_sstfilecount(0, 1); // (1, 4, 2) generate_file(); check_filesperlevel("1,4,2"); check_sstfilecount(2, 2); check_sstfilecount(1, 4); check_sstfilecount(0, 1); check_getvalues(); ReopenWithColumnFamilies({"default", "one", "two"}, option_vector); check_getvalues(); Destroy(options, true); } TEST_P(DBCompactionTestWithParam, ConvertCompactionStyle) { Random rnd(301); int max_key_level_insert = 200; int max_key_universal_insert = 600; // Stage 1: generate a db with level compaction Options options = CurrentOptions(); options.write_buffer_size = 110 << 10; // 110KB options.arena_block_size = 4 << 10; options.num_levels = 4; options.level0_file_num_compaction_trigger = 3; options.max_bytes_for_level_base = 500 << 10; // 500KB options.max_bytes_for_level_multiplier = 1; options.target_file_size_base = 200 << 10; // 200KB options.target_file_size_multiplier = 1; options.max_subcompactions = max_subcompactions_; CreateAndReopenWithCF({"pikachu"}, options); for (int i = 0; i <= max_key_level_insert; i++) { // each value is 10K ASSERT_OK(Put(1, Key(i), RandomString(&rnd, 10000))); } ASSERT_OK(Flush(1)); dbfull()->TEST_WaitForCompact(); ASSERT_GT(TotalTableFiles(1, 4), 1); int non_level0_num_files = 0; for (int i = 1; i < options.num_levels; i++) { non_level0_num_files += NumTableFilesAtLevel(i, 1); } ASSERT_GT(non_level0_num_files, 0); // Stage 2: reopen with universal compaction - should fail options = CurrentOptions(); options.compaction_style = kCompactionStyleUniversal; options.num_levels = 1; options = CurrentOptions(options); Status s = TryReopenWithColumnFamilies({"default", "pikachu"}, options); ASSERT_TRUE(s.IsInvalidArgument()); // Stage 3: compact into a single file and move the file to level 0 options = CurrentOptions(); options.disable_auto_compactions = true; options.target_file_size_base = INT_MAX; options.target_file_size_multiplier = 1; options.max_bytes_for_level_base = INT_MAX; options.max_bytes_for_level_multiplier = 1; options.num_levels = 4; options = CurrentOptions(options); ReopenWithColumnFamilies({"default", "pikachu"}, options); CompactRangeOptions compact_options; compact_options.change_level = true; compact_options.target_level = 0; compact_options.bottommost_level_compaction = BottommostLevelCompaction::kForce; compact_options.exclusive_manual_compaction = exclusive_manual_compaction_; dbfull()->CompactRange(compact_options, handles_[1], nullptr, nullptr); // Only 1 file in L0 ASSERT_EQ("1", FilesPerLevel(1)); // Stage 4: re-open in universal compaction style and do some db operations options = CurrentOptions(); options.compaction_style = kCompactionStyleUniversal; options.num_levels = 4; options.write_buffer_size = 110 << 10; // 110KB options.arena_block_size = 4 << 10; options.level0_file_num_compaction_trigger = 3; options = CurrentOptions(options); ReopenWithColumnFamilies({"default", "pikachu"}, options); options.num_levels = 1; ReopenWithColumnFamilies({"default", "pikachu"}, options); for (int i = max_key_level_insert / 2; i <= max_key_universal_insert; i++) { ASSERT_OK(Put(1, Key(i), RandomString(&rnd, 10000))); } dbfull()->Flush(FlushOptions()); ASSERT_OK(Flush(1)); dbfull()->TEST_WaitForCompact(); for (int i = 1; i < options.num_levels; i++) { ASSERT_EQ(NumTableFilesAtLevel(i, 1), 0); } // verify keys inserted in both level compaction style and universal // compaction style std::string keys_in_db; Iterator* iter = dbfull()->NewIterator(ReadOptions(), handles_[1]); for (iter->SeekToFirst(); iter->Valid(); iter->Next()) { keys_in_db.append(iter->key().ToString()); keys_in_db.push_back(','); } delete iter; std::string expected_keys; for (int i = 0; i <= max_key_universal_insert; i++) { expected_keys.append(Key(i)); expected_keys.push_back(','); } ASSERT_EQ(keys_in_db, expected_keys); } TEST_F(DBCompactionTest, L0_CompactionBug_Issue44_a) { do { CreateAndReopenWithCF({"pikachu"}, CurrentOptions()); ASSERT_OK(Put(1, "b", "v")); ReopenWithColumnFamilies({"default", "pikachu"}, CurrentOptions()); ASSERT_OK(Delete(1, "b")); ASSERT_OK(Delete(1, "a")); ReopenWithColumnFamilies({"default", "pikachu"}, CurrentOptions()); ASSERT_OK(Delete(1, "a")); ReopenWithColumnFamilies({"default", "pikachu"}, CurrentOptions()); ASSERT_OK(Put(1, "a", "v")); ReopenWithColumnFamilies({"default", "pikachu"}, CurrentOptions()); ReopenWithColumnFamilies({"default", "pikachu"}, CurrentOptions()); ASSERT_EQ("(a->v)", Contents(1)); env_->SleepForMicroseconds(1000000); // Wait for compaction to finish ASSERT_EQ("(a->v)", Contents(1)); } while (ChangeCompactOptions()); } TEST_F(DBCompactionTest, L0_CompactionBug_Issue44_b) { do { CreateAndReopenWithCF({"pikachu"}, CurrentOptions()); Put(1, "", ""); ReopenWithColumnFamilies({"default", "pikachu"}, CurrentOptions()); Delete(1, "e"); Put(1, "", ""); ReopenWithColumnFamilies({"default", "pikachu"}, CurrentOptions()); Put(1, "c", "cv"); ReopenWithColumnFamilies({"default", "pikachu"}, CurrentOptions()); Put(1, "", ""); ReopenWithColumnFamilies({"default", "pikachu"}, CurrentOptions()); Put(1, "", ""); env_->SleepForMicroseconds(1000000); // Wait for compaction to finish ReopenWithColumnFamilies({"default", "pikachu"}, CurrentOptions()); Put(1, "d", "dv"); ReopenWithColumnFamilies({"default", "pikachu"}, CurrentOptions()); Put(1, "", ""); ReopenWithColumnFamilies({"default", "pikachu"}, CurrentOptions()); Delete(1, "d"); Delete(1, "b"); ReopenWithColumnFamilies({"default", "pikachu"}, CurrentOptions()); ASSERT_EQ("(->)(c->cv)", Contents(1)); env_->SleepForMicroseconds(1000000); // Wait for compaction to finish ASSERT_EQ("(->)(c->cv)", Contents(1)); } while (ChangeCompactOptions()); } TEST_F(DBCompactionTest, ManualAutoRace) { CreateAndReopenWithCF({"pikachu"}, CurrentOptions()); rocksdb::SyncPoint::GetInstance()->LoadDependency( {{"DBImpl::BGWorkCompaction", "DBCompactionTest::ManualAutoRace:1"}, {"DBImpl::RunManualCompaction:WaitScheduled", "BackgroundCallCompaction:0"}}); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); Put(1, "foo", ""); Put(1, "bar", ""); Flush(1); Put(1, "foo", ""); Put(1, "bar", ""); // Generate four files in CF 0, which should trigger an auto compaction Put("foo", ""); Put("bar", ""); Flush(); Put("foo", ""); Put("bar", ""); Flush(); Put("foo", ""); Put("bar", ""); Flush(); Put("foo", ""); Put("bar", ""); Flush(); // The auto compaction is scheduled but waited until here TEST_SYNC_POINT("DBCompactionTest::ManualAutoRace:1"); // The auto compaction will wait until the manual compaction is registerd // before processing so that it will be cancelled. dbfull()->CompactRange(CompactRangeOptions(), handles_[1], nullptr, nullptr); ASSERT_EQ("0,1", FilesPerLevel(1)); // Eventually the cancelled compaction will be rescheduled and executed. dbfull()->TEST_WaitForCompact(); ASSERT_EQ("0,1", FilesPerLevel(0)); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); } TEST_P(DBCompactionTestWithParam, ManualCompaction) { Options options = CurrentOptions(); options.max_subcompactions = max_subcompactions_; options.statistics = rocksdb::CreateDBStatistics(); CreateAndReopenWithCF({"pikachu"}, options); // iter - 0 with 7 levels // iter - 1 with 3 levels for (int iter = 0; iter < 2; ++iter) { MakeTables(3, "p", "q", 1); ASSERT_EQ("1,1,1", FilesPerLevel(1)); // Compaction range falls before files Compact(1, "", "c"); ASSERT_EQ("1,1,1", FilesPerLevel(1)); // Compaction range falls after files Compact(1, "r", "z"); ASSERT_EQ("1,1,1", FilesPerLevel(1)); // Compaction range overlaps files Compact(1, "p1", "p9"); ASSERT_EQ("0,0,1", FilesPerLevel(1)); // Populate a different range MakeTables(3, "c", "e", 1); ASSERT_EQ("1,1,2", FilesPerLevel(1)); // Compact just the new range Compact(1, "b", "f"); ASSERT_EQ("0,0,2", FilesPerLevel(1)); // Compact all MakeTables(1, "a", "z", 1); ASSERT_EQ("1,0,2", FilesPerLevel(1)); uint64_t prev_block_cache_add = options.statistics->getTickerCount(BLOCK_CACHE_ADD); CompactRangeOptions cro; cro.exclusive_manual_compaction = exclusive_manual_compaction_; db_->CompactRange(cro, handles_[1], nullptr, nullptr); // Verify manual compaction doesn't fill block cache ASSERT_EQ(prev_block_cache_add, options.statistics->getTickerCount(BLOCK_CACHE_ADD)); ASSERT_EQ("0,0,1", FilesPerLevel(1)); if (iter == 0) { options = CurrentOptions(); options.num_levels = 3; options.create_if_missing = true; options.statistics = rocksdb::CreateDBStatistics(); DestroyAndReopen(options); CreateAndReopenWithCF({"pikachu"}, options); } } } TEST_P(DBCompactionTestWithParam, ManualLevelCompactionOutputPathId) { Options options = CurrentOptions(); options.db_paths.emplace_back(dbname_ + "_2", 2 * 10485760); options.db_paths.emplace_back(dbname_ + "_3", 100 * 10485760); options.db_paths.emplace_back(dbname_ + "_4", 120 * 10485760); options.max_subcompactions = max_subcompactions_; CreateAndReopenWithCF({"pikachu"}, options); // iter - 0 with 7 levels // iter - 1 with 3 levels for (int iter = 0; iter < 2; ++iter) { for (int i = 0; i < 3; ++i) { ASSERT_OK(Put(1, "p", "begin")); ASSERT_OK(Put(1, "q", "end")); ASSERT_OK(Flush(1)); } ASSERT_EQ("3", FilesPerLevel(1)); ASSERT_EQ(3, GetSstFileCount(options.db_paths[0].path)); ASSERT_EQ(0, GetSstFileCount(dbname_)); // Compaction range falls before files Compact(1, "", "c"); ASSERT_EQ("3", FilesPerLevel(1)); // Compaction range falls after files Compact(1, "r", "z"); ASSERT_EQ("3", FilesPerLevel(1)); // Compaction range overlaps files Compact(1, "p1", "p9", 1); ASSERT_OK(dbfull()->TEST_WaitForCompact()); ASSERT_EQ("0,1", FilesPerLevel(1)); ASSERT_EQ(1, GetSstFileCount(options.db_paths[1].path)); ASSERT_EQ(0, GetSstFileCount(options.db_paths[0].path)); ASSERT_EQ(0, GetSstFileCount(dbname_)); // Populate a different range for (int i = 0; i < 3; ++i) { ASSERT_OK(Put(1, "c", "begin")); ASSERT_OK(Put(1, "e", "end")); ASSERT_OK(Flush(1)); } ASSERT_EQ("3,1", FilesPerLevel(1)); // Compact just the new range Compact(1, "b", "f", 1); ASSERT_OK(dbfull()->TEST_WaitForCompact()); ASSERT_EQ("0,2", FilesPerLevel(1)); ASSERT_EQ(2, GetSstFileCount(options.db_paths[1].path)); ASSERT_EQ(0, GetSstFileCount(options.db_paths[0].path)); ASSERT_EQ(0, GetSstFileCount(dbname_)); // Compact all ASSERT_OK(Put(1, "a", "begin")); ASSERT_OK(Put(1, "z", "end")); ASSERT_OK(Flush(1)); ASSERT_EQ("1,2", FilesPerLevel(1)); ASSERT_EQ(2, GetSstFileCount(options.db_paths[1].path)); ASSERT_EQ(1, GetSstFileCount(options.db_paths[0].path)); CompactRangeOptions compact_options; compact_options.target_path_id = 1; compact_options.exclusive_manual_compaction = exclusive_manual_compaction_; db_->CompactRange(compact_options, handles_[1], nullptr, nullptr); ASSERT_OK(dbfull()->TEST_WaitForCompact()); ASSERT_EQ("0,1", FilesPerLevel(1)); ASSERT_EQ(1, GetSstFileCount(options.db_paths[1].path)); ASSERT_EQ(0, GetSstFileCount(options.db_paths[0].path)); ASSERT_EQ(0, GetSstFileCount(dbname_)); if (iter == 0) { DestroyAndReopen(options); options = CurrentOptions(); options.db_paths.emplace_back(dbname_ + "_2", 2 * 10485760); options.db_paths.emplace_back(dbname_ + "_3", 100 * 10485760); options.db_paths.emplace_back(dbname_ + "_4", 120 * 10485760); options.max_background_flushes = 1; options.num_levels = 3; options.create_if_missing = true; CreateAndReopenWithCF({"pikachu"}, options); } } } TEST_F(DBCompactionTest, FilesDeletedAfterCompaction) { do { CreateAndReopenWithCF({"pikachu"}, CurrentOptions()); ASSERT_OK(Put(1, "foo", "v2")); Compact(1, "a", "z"); const size_t num_files = CountLiveFiles(); for (int i = 0; i < 10; i++) { ASSERT_OK(Put(1, "foo", "v2")); Compact(1, "a", "z"); } ASSERT_EQ(CountLiveFiles(), num_files); } while (ChangeCompactOptions()); } // Check level comapction with compact files TEST_P(DBCompactionTestWithParam, DISABLED_CompactFilesOnLevelCompaction) { const int kTestKeySize = 16; const int kTestValueSize = 984; const int kEntrySize = kTestKeySize + kTestValueSize; const int kEntriesPerBuffer = 100; Options options; options.create_if_missing = true; options.write_buffer_size = kEntrySize * kEntriesPerBuffer; options.compaction_style = kCompactionStyleLevel; options.target_file_size_base = options.write_buffer_size; options.max_bytes_for_level_base = options.target_file_size_base * 2; options.level0_stop_writes_trigger = 2; options.max_bytes_for_level_multiplier = 2; options.compression = kNoCompression; options.max_subcompactions = max_subcompactions_; options = CurrentOptions(options); CreateAndReopenWithCF({"pikachu"}, options); Random rnd(301); for (int key = 64 * kEntriesPerBuffer; key >= 0; --key) { ASSERT_OK(Put(1, ToString(key), RandomString(&rnd, kTestValueSize))); } dbfull()->TEST_WaitForFlushMemTable(handles_[1]); dbfull()->TEST_WaitForCompact(); ColumnFamilyMetaData cf_meta; dbfull()->GetColumnFamilyMetaData(handles_[1], &cf_meta); int output_level = static_cast(cf_meta.levels.size()) - 1; for (int file_picked = 5; file_picked > 0; --file_picked) { std::set overlapping_file_names; std::vector compaction_input_file_names; for (int f = 0; f < file_picked; ++f) { int level = 0; auto file_meta = PickFileRandomly(cf_meta, &rnd, &level); compaction_input_file_names.push_back(file_meta->name); GetOverlappingFileNumbersForLevelCompaction( cf_meta, options.comparator, level, output_level, file_meta, &overlapping_file_names); } ASSERT_OK(dbfull()->CompactFiles( CompactionOptions(), handles_[1], compaction_input_file_names, output_level)); // Make sure all overlapping files do not exist after compaction dbfull()->GetColumnFamilyMetaData(handles_[1], &cf_meta); VerifyCompactionResult(cf_meta, overlapping_file_names); } // make sure all key-values are still there. for (int key = 64 * kEntriesPerBuffer; key >= 0; --key) { ASSERT_NE(Get(1, ToString(key)), "NOT_FOUND"); } } TEST_P(DBCompactionTestWithParam, PartialCompactionFailure) { Options options; const int kKeySize = 16; const int kKvSize = 1000; const int kKeysPerBuffer = 100; const int kNumL1Files = 5; options.create_if_missing = true; options.write_buffer_size = kKeysPerBuffer * kKvSize; options.max_write_buffer_number = 2; options.target_file_size_base = options.write_buffer_size * (options.max_write_buffer_number - 1); options.level0_file_num_compaction_trigger = kNumL1Files; options.max_bytes_for_level_base = options.level0_file_num_compaction_trigger * options.target_file_size_base; options.max_bytes_for_level_multiplier = 2; options.compression = kNoCompression; options.max_subcompactions = max_subcompactions_; env_->SetBackgroundThreads(1, Env::HIGH); env_->SetBackgroundThreads(1, Env::LOW); // stop the compaction thread until we simulate the file creation failure. test::SleepingBackgroundTask sleeping_task_low; env_->Schedule(&test::SleepingBackgroundTask::DoSleepTask, &sleeping_task_low, Env::Priority::LOW); options.env = env_; DestroyAndReopen(options); const int kNumInsertedKeys = options.level0_file_num_compaction_trigger * (options.max_write_buffer_number - 1) * kKeysPerBuffer; Random rnd(301); std::vector keys; std::vector values; for (int k = 0; k < kNumInsertedKeys; ++k) { keys.emplace_back(RandomString(&rnd, kKeySize)); values.emplace_back(RandomString(&rnd, kKvSize - kKeySize)); ASSERT_OK(Put(Slice(keys[k]), Slice(values[k]))); dbfull()->TEST_WaitForFlushMemTable(); } dbfull()->TEST_FlushMemTable(true); // Make sure the number of L0 files can trigger compaction. ASSERT_GE(NumTableFilesAtLevel(0), options.level0_file_num_compaction_trigger); auto previous_num_level0_files = NumTableFilesAtLevel(0); // Fail the first file creation. env_->non_writable_count_ = 1; sleeping_task_low.WakeUp(); sleeping_task_low.WaitUntilDone(); // Expect compaction to fail here as one file will fail its // creation. ASSERT_TRUE(!dbfull()->TEST_WaitForCompact().ok()); // Verify L0 -> L1 compaction does fail. ASSERT_EQ(NumTableFilesAtLevel(1), 0); // Verify all L0 files are still there. ASSERT_EQ(NumTableFilesAtLevel(0), previous_num_level0_files); // All key-values must exist after compaction fails. for (int k = 0; k < kNumInsertedKeys; ++k) { ASSERT_EQ(values[k], Get(keys[k])); } env_->non_writable_count_ = 0; // Make sure RocksDB will not get into corrupted state. Reopen(options); // Verify again after reopen. for (int k = 0; k < kNumInsertedKeys; ++k) { ASSERT_EQ(values[k], Get(keys[k])); } } TEST_P(DBCompactionTestWithParam, DeleteMovedFileAfterCompaction) { // iter 1 -- delete_obsolete_files_period_micros == 0 for (int iter = 0; iter < 2; ++iter) { // This test triggers move compaction and verifies that the file is not // deleted when it's part of move compaction Options options = CurrentOptions(); options.env = env_; if (iter == 1) { options.delete_obsolete_files_period_micros = 0; } options.create_if_missing = true; options.level0_file_num_compaction_trigger = 2; // trigger compaction when we have 2 files OnFileDeletionListener* listener = new OnFileDeletionListener(); options.listeners.emplace_back(listener); options.max_subcompactions = max_subcompactions_; DestroyAndReopen(options); Random rnd(301); // Create two 1MB sst files for (int i = 0; i < 2; ++i) { // Create 1MB sst file for (int j = 0; j < 100; ++j) { ASSERT_OK(Put(Key(i * 50 + j), RandomString(&rnd, 10 * 1024))); } ASSERT_OK(Flush()); } // this should execute L0->L1 dbfull()->TEST_WaitForCompact(); ASSERT_EQ("0,1", FilesPerLevel(0)); // block compactions test::SleepingBackgroundTask sleeping_task; env_->Schedule(&test::SleepingBackgroundTask::DoSleepTask, &sleeping_task, Env::Priority::LOW); options.max_bytes_for_level_base = 1024 * 1024; // 1 MB Reopen(options); std::unique_ptr iterator(db_->NewIterator(ReadOptions())); ASSERT_EQ("0,1", FilesPerLevel(0)); // let compactions go sleeping_task.WakeUp(); sleeping_task.WaitUntilDone(); // this should execute L1->L2 (move) dbfull()->TEST_WaitForCompact(); ASSERT_EQ("0,0,1", FilesPerLevel(0)); std::vector metadata; db_->GetLiveFilesMetaData(&metadata); ASSERT_EQ(metadata.size(), 1U); auto moved_file_name = metadata[0].name; // Create two more 1MB sst files for (int i = 0; i < 2; ++i) { // Create 1MB sst file for (int j = 0; j < 100; ++j) { ASSERT_OK(Put(Key(i * 50 + j + 100), RandomString(&rnd, 10 * 1024))); } ASSERT_OK(Flush()); } // this should execute both L0->L1 and L1->L2 (merge with previous file) dbfull()->TEST_WaitForCompact(); ASSERT_EQ("0,0,2", FilesPerLevel(0)); // iterator is holding the file ASSERT_OK(env_->FileExists(dbname_ + moved_file_name)); listener->SetExpectedFileName(dbname_ + moved_file_name); iterator.reset(); // this file should have been compacted away ASSERT_NOK(env_->FileExists(dbname_ + moved_file_name)); listener->VerifyMatchedCount(1); } } TEST_P(DBCompactionTestWithParam, CompressLevelCompaction) { if (!Zlib_Supported()) { return; } Options options = CurrentOptions(); options.memtable_factory.reset( new SpecialSkipListFactory(KNumKeysByGenerateNewFile - 1)); options.compaction_style = kCompactionStyleLevel; options.write_buffer_size = 110 << 10; // 110KB options.arena_block_size = 4 << 10; options.level0_file_num_compaction_trigger = 2; options.num_levels = 4; options.max_bytes_for_level_base = 400 * 1024; options.max_subcompactions = max_subcompactions_; // First two levels have no compression, so that a trivial move between // them will be allowed. Level 2 has Zlib compression so that a trivial // move to level 3 will not be allowed options.compression_per_level = {kNoCompression, kNoCompression, kZlibCompression}; int matches = 0, didnt_match = 0, trivial_move = 0, non_trivial = 0; rocksdb::SyncPoint::GetInstance()->SetCallBack( "Compaction::InputCompressionMatchesOutput:Matches", [&](void* /*arg*/) { matches++; }); rocksdb::SyncPoint::GetInstance()->SetCallBack( "Compaction::InputCompressionMatchesOutput:DidntMatch", [&](void* /*arg*/) { didnt_match++; }); rocksdb::SyncPoint::GetInstance()->SetCallBack( "DBImpl::BackgroundCompaction:NonTrivial", [&](void* /*arg*/) { non_trivial++; }); rocksdb::SyncPoint::GetInstance()->SetCallBack( "DBImpl::BackgroundCompaction:TrivialMove", [&](void* /*arg*/) { trivial_move++; }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); Reopen(options); Random rnd(301); int key_idx = 0; // First three 110KB files are going to level 0 // After that, (100K, 200K) for (int num = 0; num < 3; num++) { GenerateNewFile(&rnd, &key_idx); } // Another 110KB triggers a compaction to 400K file to fill up level 0 GenerateNewFile(&rnd, &key_idx); ASSERT_EQ(4, GetSstFileCount(dbname_)); // (1, 4) GenerateNewFile(&rnd, &key_idx); ASSERT_EQ("1,4", FilesPerLevel(0)); // (1, 4, 1) GenerateNewFile(&rnd, &key_idx); ASSERT_EQ("1,4,1", FilesPerLevel(0)); // (1, 4, 2) GenerateNewFile(&rnd, &key_idx); ASSERT_EQ("1,4,2", FilesPerLevel(0)); // (1, 4, 3) GenerateNewFile(&rnd, &key_idx); ASSERT_EQ("1,4,3", FilesPerLevel(0)); // (1, 4, 4) GenerateNewFile(&rnd, &key_idx); ASSERT_EQ("1,4,4", FilesPerLevel(0)); // (1, 4, 5) GenerateNewFile(&rnd, &key_idx); ASSERT_EQ("1,4,5", FilesPerLevel(0)); // (1, 4, 6) GenerateNewFile(&rnd, &key_idx); ASSERT_EQ("1,4,6", FilesPerLevel(0)); // (1, 4, 7) GenerateNewFile(&rnd, &key_idx); ASSERT_EQ("1,4,7", FilesPerLevel(0)); // (1, 4, 8) GenerateNewFile(&rnd, &key_idx); ASSERT_EQ("1,4,8", FilesPerLevel(0)); ASSERT_EQ(matches, 12); // Currently, the test relies on the number of calls to // InputCompressionMatchesOutput() per compaction. const int kCallsToInputCompressionMatch = 2; ASSERT_EQ(didnt_match, 8 * kCallsToInputCompressionMatch); ASSERT_EQ(trivial_move, 12); ASSERT_EQ(non_trivial, 8); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); for (int i = 0; i < key_idx; i++) { auto v = Get(Key(i)); ASSERT_NE(v, "NOT_FOUND"); ASSERT_TRUE(v.size() == 1 || v.size() == 990); } Reopen(options); for (int i = 0; i < key_idx; i++) { auto v = Get(Key(i)); ASSERT_NE(v, "NOT_FOUND"); ASSERT_TRUE(v.size() == 1 || v.size() == 990); } Destroy(options); } TEST_F(DBCompactionTest, SanitizeCompactionOptionsTest) { Options options = CurrentOptions(); options.max_background_compactions = 5; options.soft_pending_compaction_bytes_limit = 0; options.hard_pending_compaction_bytes_limit = 100; options.create_if_missing = true; DestroyAndReopen(options); ASSERT_EQ(100, db_->GetOptions().soft_pending_compaction_bytes_limit); options.max_background_compactions = 3; options.soft_pending_compaction_bytes_limit = 200; options.hard_pending_compaction_bytes_limit = 150; DestroyAndReopen(options); ASSERT_EQ(150, db_->GetOptions().soft_pending_compaction_bytes_limit); } // This tests for a bug that could cause two level0 compactions running // concurrently // TODO(aekmekji): Make sure that the reason this fails when run with // max_subcompactions > 1 is not a correctness issue but just inherent to // running parallel L0-L1 compactions TEST_F(DBCompactionTest, SuggestCompactRangeNoTwoLevel0Compactions) { Options options = CurrentOptions(); options.compaction_style = kCompactionStyleLevel; options.write_buffer_size = 110 << 10; options.arena_block_size = 4 << 10; options.level0_file_num_compaction_trigger = 4; options.num_levels = 4; options.compression = kNoCompression; options.max_bytes_for_level_base = 450 << 10; options.target_file_size_base = 98 << 10; options.max_write_buffer_number = 2; options.max_background_compactions = 2; DestroyAndReopen(options); // fill up the DB Random rnd(301); for (int num = 0; num < 10; num++) { GenerateNewRandomFile(&rnd); } db_->CompactRange(CompactRangeOptions(), nullptr, nullptr); rocksdb::SyncPoint::GetInstance()->LoadDependency( {{"CompactionJob::Run():Start", "DBCompactionTest::SuggestCompactRangeNoTwoLevel0Compactions:1"}, {"DBCompactionTest::SuggestCompactRangeNoTwoLevel0Compactions:2", "CompactionJob::Run():End"}}); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); // trigger L0 compaction for (int num = 0; num < options.level0_file_num_compaction_trigger + 1; num++) { GenerateNewRandomFile(&rnd, /* nowait */ true); ASSERT_OK(Flush()); } TEST_SYNC_POINT( "DBCompactionTest::SuggestCompactRangeNoTwoLevel0Compactions:1"); GenerateNewRandomFile(&rnd, /* nowait */ true); dbfull()->TEST_WaitForFlushMemTable(); ASSERT_OK(experimental::SuggestCompactRange(db_, nullptr, nullptr)); for (int num = 0; num < options.level0_file_num_compaction_trigger + 1; num++) { GenerateNewRandomFile(&rnd, /* nowait */ true); ASSERT_OK(Flush()); } TEST_SYNC_POINT( "DBCompactionTest::SuggestCompactRangeNoTwoLevel0Compactions:2"); dbfull()->TEST_WaitForCompact(); } TEST_P(DBCompactionTestWithParam, ForceBottommostLevelCompaction) { int32_t trivial_move = 0; int32_t non_trivial_move = 0; rocksdb::SyncPoint::GetInstance()->SetCallBack( "DBImpl::BackgroundCompaction:TrivialMove", [&](void* /*arg*/) { trivial_move++; }); rocksdb::SyncPoint::GetInstance()->SetCallBack( "DBImpl::BackgroundCompaction:NonTrivial", [&](void* /*arg*/) { non_trivial_move++; }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); Options options = CurrentOptions(); options.target_file_size_base = 100000000; options.write_buffer_size = 100000000; options.max_subcompactions = max_subcompactions_; DestroyAndReopen(options); int32_t value_size = 10 * 1024; // 10 KB Random rnd(301); std::vector values; // File with keys [ 0 => 99 ] for (int i = 0; i < 100; i++) { values.push_back(RandomString(&rnd, value_size)); ASSERT_OK(Put(Key(i), values[i])); } ASSERT_OK(Flush()); ASSERT_EQ("1", FilesPerLevel(0)); // Compaction will do L0=>L1 (trivial move) then move L1 files to L3 CompactRangeOptions compact_options; compact_options.change_level = true; compact_options.target_level = 3; ASSERT_OK(db_->CompactRange(compact_options, nullptr, nullptr)); ASSERT_EQ("0,0,0,1", FilesPerLevel(0)); ASSERT_EQ(trivial_move, 1); ASSERT_EQ(non_trivial_move, 0); // File with keys [ 100 => 199 ] for (int i = 100; i < 200; i++) { values.push_back(RandomString(&rnd, value_size)); ASSERT_OK(Put(Key(i), values[i])); } ASSERT_OK(Flush()); ASSERT_EQ("1,0,0,1", FilesPerLevel(0)); // Compaction will do L0=>L1 L1=>L2 L2=>L3 (3 trivial moves) // then compacte the bottommost level L3=>L3 (non trivial move) compact_options = CompactRangeOptions(); compact_options.bottommost_level_compaction = BottommostLevelCompaction::kForce; ASSERT_OK(db_->CompactRange(compact_options, nullptr, nullptr)); ASSERT_EQ("0,0,0,1", FilesPerLevel(0)); ASSERT_EQ(trivial_move, 4); ASSERT_EQ(non_trivial_move, 1); // File with keys [ 200 => 299 ] for (int i = 200; i < 300; i++) { values.push_back(RandomString(&rnd, value_size)); ASSERT_OK(Put(Key(i), values[i])); } ASSERT_OK(Flush()); ASSERT_EQ("1,0,0,1", FilesPerLevel(0)); trivial_move = 0; non_trivial_move = 0; compact_options = CompactRangeOptions(); compact_options.bottommost_level_compaction = BottommostLevelCompaction::kSkip; // Compaction will do L0=>L1 L1=>L2 L2=>L3 (3 trivial moves) // and will skip bottommost level compaction ASSERT_OK(db_->CompactRange(compact_options, nullptr, nullptr)); ASSERT_EQ("0,0,0,2", FilesPerLevel(0)); ASSERT_EQ(trivial_move, 3); ASSERT_EQ(non_trivial_move, 0); for (int i = 0; i < 300; i++) { ASSERT_EQ(Get(Key(i)), values[i]); } rocksdb::SyncPoint::GetInstance()->DisableProcessing(); } TEST_P(DBCompactionTestWithParam, IntraL0Compaction) { Options options = CurrentOptions(); options.compression = kNoCompression; options.level0_file_num_compaction_trigger = 5; options.max_background_compactions = 2; options.max_subcompactions = max_subcompactions_; DestroyAndReopen(options); const size_t kValueSize = 1 << 20; Random rnd(301); std::string value(RandomString(&rnd, kValueSize)); rocksdb::SyncPoint::GetInstance()->LoadDependency( {{"LevelCompactionPicker::PickCompactionBySize:0", "CompactionJob::Run():Start"}}); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); // index: 0 1 2 3 4 5 6 7 8 9 // size: 1MB 1MB 1MB 1MB 1MB 2MB 1MB 1MB 1MB 1MB // score: 1.5 1.3 1.5 2.0 inf // // Files 0-4 will be included in an L0->L1 compaction. // // L0->L0 will be triggered since the sync points guarantee compaction to base // level is still blocked when files 5-9 trigger another compaction. // // Files 6-9 are the longest span of available files for which // work-per-deleted-file decreases (see "score" row above). for (int i = 0; i < 10; ++i) { ASSERT_OK(Put(Key(0), "")); // prevents trivial move if (i == 5) { ASSERT_OK(Put(Key(i + 1), value + value)); } else { ASSERT_OK(Put(Key(i + 1), value)); } ASSERT_OK(Flush()); } dbfull()->TEST_WaitForCompact(); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); std::vector> level_to_files; dbfull()->TEST_GetFilesMetaData(dbfull()->DefaultColumnFamily(), &level_to_files); ASSERT_GE(level_to_files.size(), 2); // at least L0 and L1 // L0 has the 2MB file (not compacted) and 4MB file (output of L0->L0) ASSERT_EQ(2, level_to_files[0].size()); ASSERT_GT(level_to_files[1].size(), 0); for (int i = 0; i < 2; ++i) { ASSERT_GE(level_to_files[0][i].fd.file_size, 1 << 21); } } TEST_P(DBCompactionTestWithParam, IntraL0CompactionDoesNotObsoleteDeletions) { // regression test for issue #2722: L0->L0 compaction can resurrect deleted // keys from older L0 files if L1+ files' key-ranges do not include the key. Options options = CurrentOptions(); options.compression = kNoCompression; options.level0_file_num_compaction_trigger = 5; options.max_background_compactions = 2; options.max_subcompactions = max_subcompactions_; DestroyAndReopen(options); const size_t kValueSize = 1 << 20; Random rnd(301); std::string value(RandomString(&rnd, kValueSize)); rocksdb::SyncPoint::GetInstance()->LoadDependency( {{"LevelCompactionPicker::PickCompactionBySize:0", "CompactionJob::Run():Start"}}); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); // index: 0 1 2 3 4 5 6 7 8 9 // size: 1MB 1MB 1MB 1MB 1MB 1MB 1MB 1MB 1MB 1MB // score: 1.25 1.33 1.5 2.0 inf // // Files 0-4 will be included in an L0->L1 compaction. // // L0->L0 will be triggered since the sync points guarantee compaction to base // level is still blocked when files 5-9 trigger another compaction. All files // 5-9 are included in the L0->L0 due to work-per-deleted file decreasing. // // Put a key-value in files 0-4. Delete that key in files 5-9. Verify the // L0->L0 preserves the deletion such that the key remains deleted. for (int i = 0; i < 10; ++i) { // key 0 serves both to prevent trivial move and as the key we want to // verify is not resurrected by L0->L0 compaction. if (i < 5) { ASSERT_OK(Put(Key(0), "")); } else { ASSERT_OK(Delete(Key(0))); } ASSERT_OK(Put(Key(i + 1), value)); ASSERT_OK(Flush()); } dbfull()->TEST_WaitForCompact(); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); std::vector> level_to_files; dbfull()->TEST_GetFilesMetaData(dbfull()->DefaultColumnFamily(), &level_to_files); ASSERT_GE(level_to_files.size(), 2); // at least L0 and L1 // L0 has a single output file from L0->L0 ASSERT_EQ(1, level_to_files[0].size()); ASSERT_GT(level_to_files[1].size(), 0); ASSERT_GE(level_to_files[0][0].fd.file_size, 1 << 22); ReadOptions roptions; std::string result; ASSERT_TRUE(db_->Get(roptions, Key(0), &result).IsNotFound()); } TEST_P(DBCompactionTestWithParam, FullCompactionInBottomPriThreadPool) { const int kNumFilesTrigger = 3; Env::Default()->SetBackgroundThreads(1, Env::Priority::BOTTOM); for (bool use_universal_compaction : {false, true}) { Options options = CurrentOptions(); if (use_universal_compaction) { options.compaction_style = kCompactionStyleUniversal; } else { options.compaction_style = kCompactionStyleLevel; options.level_compaction_dynamic_level_bytes = true; } options.num_levels = 4; options.write_buffer_size = 100 << 10; // 100KB options.target_file_size_base = 32 << 10; // 32KB options.level0_file_num_compaction_trigger = kNumFilesTrigger; // Trigger compaction if size amplification exceeds 110% options.compaction_options_universal.max_size_amplification_percent = 110; DestroyAndReopen(options); int num_bottom_pri_compactions = 0; SyncPoint::GetInstance()->SetCallBack( "DBImpl::BGWorkBottomCompaction", [&](void* /*arg*/) { ++num_bottom_pri_compactions; }); SyncPoint::GetInstance()->EnableProcessing(); Random rnd(301); for (int num = 0; num < kNumFilesTrigger; num++) { ASSERT_EQ(NumSortedRuns(), num); int key_idx = 0; GenerateNewFile(&rnd, &key_idx); } dbfull()->TEST_WaitForCompact(); ASSERT_EQ(1, num_bottom_pri_compactions); // Verify that size amplification did occur ASSERT_EQ(NumSortedRuns(), 1); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); } Env::Default()->SetBackgroundThreads(0, Env::Priority::BOTTOM); } TEST_F(DBCompactionTest, OptimizedDeletionObsoleting) { // Deletions can be dropped when compacted to non-last level if they fall // outside the lower-level files' key-ranges. const int kNumL0Files = 4; Options options = CurrentOptions(); options.level0_file_num_compaction_trigger = kNumL0Files; options.statistics = rocksdb::CreateDBStatistics(); DestroyAndReopen(options); // put key 1 and 3 in separate L1, L2 files. // So key 0, 2, and 4+ fall outside these levels' key-ranges. for (int level = 2; level >= 1; --level) { for (int i = 0; i < 2; ++i) { Put(Key(2 * i + 1), "val"); Flush(); } MoveFilesToLevel(level); ASSERT_EQ(2, NumTableFilesAtLevel(level)); } // Delete keys in range [1, 4]. These L0 files will be compacted with L1: // - Tombstones for keys 2 and 4 can be dropped early. // - Tombstones for keys 1 and 3 must be kept due to L2 files' key-ranges. for (int i = 0; i < kNumL0Files; ++i) { Put(Key(0), "val"); // sentinel to prevent trivial move Delete(Key(i + 1)); Flush(); } dbfull()->TEST_WaitForCompact(); for (int i = 0; i < kNumL0Files; ++i) { std::string value; ASSERT_TRUE(db_->Get(ReadOptions(), Key(i + 1), &value).IsNotFound()); } ASSERT_EQ(2, options.statistics->getTickerCount( COMPACTION_OPTIMIZED_DEL_DROP_OBSOLETE)); ASSERT_EQ(2, options.statistics->getTickerCount(COMPACTION_KEY_DROP_OBSOLETE)); } TEST_F(DBCompactionTest, CompactFilesPendingL0Bug) { // https://www.facebook.com/groups/rocksdb.dev/permalink/1389452781153232/ // CompactFiles() had a bug where it failed to pick a compaction when an L0 // compaction existed, but marked it as scheduled anyways. It'd never be // unmarked as scheduled, so future compactions or DB close could hang. const int kNumL0Files = 5; Options options = CurrentOptions(); options.level0_file_num_compaction_trigger = kNumL0Files - 1; options.max_background_compactions = 2; DestroyAndReopen(options); rocksdb::SyncPoint::GetInstance()->LoadDependency( {{"LevelCompactionPicker::PickCompaction:Return", "DBCompactionTest::CompactFilesPendingL0Bug:Picked"}, {"DBCompactionTest::CompactFilesPendingL0Bug:ManualCompacted", "DBImpl::BackgroundCompaction:NonTrivial:AfterRun"}}); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); auto schedule_multi_compaction_token = dbfull()->TEST_write_controler().GetCompactionPressureToken(); // Files 0-3 will be included in an L0->L1 compaction. // // File 4 will be included in a call to CompactFiles() while the first // compaction is running. for (int i = 0; i < kNumL0Files - 1; ++i) { ASSERT_OK(Put(Key(0), "val")); // sentinel to prevent trivial move ASSERT_OK(Put(Key(i + 1), "val")); ASSERT_OK(Flush()); } TEST_SYNC_POINT("DBCompactionTest::CompactFilesPendingL0Bug:Picked"); // file 4 flushed after 0-3 picked ASSERT_OK(Put(Key(kNumL0Files), "val")); ASSERT_OK(Flush()); // previously DB close would hang forever as this situation caused scheduled // compactions count to never decrement to zero. ColumnFamilyMetaData cf_meta; dbfull()->GetColumnFamilyMetaData(dbfull()->DefaultColumnFamily(), &cf_meta); ASSERT_EQ(kNumL0Files, cf_meta.levels[0].files.size()); std::vector input_filenames; input_filenames.push_back(cf_meta.levels[0].files.front().name); ASSERT_OK(dbfull() ->CompactFiles(CompactionOptions(), input_filenames, 0 /* output_level */)); TEST_SYNC_POINT("DBCompactionTest::CompactFilesPendingL0Bug:ManualCompacted"); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); } TEST_F(DBCompactionTest, CompactFilesOverlapInL0Bug) { // Regression test for bug of not pulling in L0 files that overlap the user- // specified input files in time- and key-ranges. Put(Key(0), "old_val"); Flush(); Put(Key(0), "new_val"); Flush(); ColumnFamilyMetaData cf_meta; dbfull()->GetColumnFamilyMetaData(dbfull()->DefaultColumnFamily(), &cf_meta); ASSERT_GE(cf_meta.levels.size(), 2); ASSERT_EQ(2, cf_meta.levels[0].files.size()); // Compacting {new L0 file, L1 file} should pull in the old L0 file since it // overlaps in key-range and time-range. std::vector input_filenames; input_filenames.push_back(cf_meta.levels[0].files.front().name); ASSERT_OK(dbfull()->CompactFiles(CompactionOptions(), input_filenames, 1 /* output_level */)); ASSERT_EQ("new_val", Get(Key(0))); } TEST_F(DBCompactionTest, CompactBottomLevelFilesWithDeletions) { // bottom-level files may contain deletions due to snapshots protecting the // deleted keys. Once the snapshot is released, we should see files with many // such deletions undergo single-file compactions. const int kNumKeysPerFile = 1024; const int kNumLevelFiles = 4; const int kValueSize = 128; Options options = CurrentOptions(); options.compression = kNoCompression; options.level0_file_num_compaction_trigger = kNumLevelFiles; // inflate it a bit to account for key/metadata overhead options.target_file_size_base = 120 * kNumKeysPerFile * kValueSize / 100; Reopen(options); Random rnd(301); const Snapshot* snapshot = nullptr; for (int i = 0; i < kNumLevelFiles; ++i) { for (int j = 0; j < kNumKeysPerFile; ++j) { ASSERT_OK( Put(Key(i * kNumKeysPerFile + j), RandomString(&rnd, kValueSize))); } if (i == kNumLevelFiles - 1) { snapshot = db_->GetSnapshot(); // delete every other key after grabbing a snapshot, so these deletions // and the keys they cover can't be dropped until after the snapshot is // released. for (int j = 0; j < kNumLevelFiles * kNumKeysPerFile; j += 2) { ASSERT_OK(Delete(Key(j))); } } Flush(); if (i < kNumLevelFiles - 1) { ASSERT_EQ(i + 1, NumTableFilesAtLevel(0)); } } dbfull()->TEST_WaitForCompact(); ASSERT_EQ(kNumLevelFiles, NumTableFilesAtLevel(1)); std::vector pre_release_metadata, post_release_metadata; db_->GetLiveFilesMetaData(&pre_release_metadata); // just need to bump seqnum so ReleaseSnapshot knows the newest key in the SST // files does not need to be preserved in case of a future snapshot. ASSERT_OK(Put(Key(0), "val")); // release snapshot and wait for compactions to finish. Single-file // compactions should be triggered, which reduce the size of each bottom-level // file without changing file count. db_->ReleaseSnapshot(snapshot); rocksdb::SyncPoint::GetInstance()->SetCallBack( "LevelCompactionPicker::PickCompaction:Return", [&](void* arg) { Compaction* compaction = reinterpret_cast(arg); ASSERT_TRUE(compaction->compaction_reason() == CompactionReason::kBottommostFiles); }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); dbfull()->TEST_WaitForCompact(); db_->GetLiveFilesMetaData(&post_release_metadata); ASSERT_EQ(pre_release_metadata.size(), post_release_metadata.size()); for (size_t i = 0; i < pre_release_metadata.size(); ++i) { const auto& pre_file = pre_release_metadata[i]; const auto& post_file = post_release_metadata[i]; ASSERT_EQ(1, pre_file.level); ASSERT_EQ(1, post_file.level); // each file is smaller than it was before as it was rewritten without // deletion markers/deleted keys. ASSERT_LT(post_file.size, pre_file.size); } rocksdb::SyncPoint::GetInstance()->DisableProcessing(); } TEST_F(DBCompactionTest, LevelCompactExpiredTtlFiles) { const int kNumKeysPerFile = 32; const int kNumLevelFiles = 2; const int kValueSize = 1024; Options options = CurrentOptions(); options.compression = kNoCompression; options.ttl = 24 * 60 * 60; // 24 hours options.max_open_files = -1; env_->time_elapse_only_sleep_ = false; options.env = env_; env_->addon_time_.store(0); DestroyAndReopen(options); Random rnd(301); for (int i = 0; i < kNumLevelFiles; ++i) { for (int j = 0; j < kNumKeysPerFile; ++j) { ASSERT_OK( Put(Key(i * kNumKeysPerFile + j), RandomString(&rnd, kValueSize))); } Flush(); } dbfull()->TEST_WaitForCompact(); MoveFilesToLevel(3); ASSERT_EQ("0,0,0,2", FilesPerLevel()); // Delete previously written keys. for (int i = 0; i < kNumLevelFiles; ++i) { for (int j = 0; j < kNumKeysPerFile; ++j) { ASSERT_OK(Delete(Key(i * kNumKeysPerFile + j))); } Flush(); } dbfull()->TEST_WaitForCompact(); ASSERT_EQ("2,0,0,2", FilesPerLevel()); MoveFilesToLevel(1); ASSERT_EQ("0,2,0,2", FilesPerLevel()); env_->addon_time_.fetch_add(36 * 60 * 60); // 36 hours ASSERT_EQ("0,2,0,2", FilesPerLevel()); // Just do a simple write + flush so that the Ttl expired files get // compacted. ASSERT_OK(Put("a", "1")); Flush(); rocksdb::SyncPoint::GetInstance()->SetCallBack( "LevelCompactionPicker::PickCompaction:Return", [&](void* arg) { Compaction* compaction = reinterpret_cast(arg); ASSERT_TRUE(compaction->compaction_reason() == CompactionReason::kTtl); }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); dbfull()->TEST_WaitForCompact(); // All non-L0 files are deleted, as they contained only deleted data. ASSERT_EQ("1", FilesPerLevel()); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); // Test dynamically changing ttl. env_->addon_time_.store(0); DestroyAndReopen(options); for (int i = 0; i < kNumLevelFiles; ++i) { for (int j = 0; j < kNumKeysPerFile; ++j) { ASSERT_OK( Put(Key(i * kNumKeysPerFile + j), RandomString(&rnd, kValueSize))); } Flush(); } dbfull()->TEST_WaitForCompact(); MoveFilesToLevel(3); ASSERT_EQ("0,0,0,2", FilesPerLevel()); // Delete previously written keys. for (int i = 0; i < kNumLevelFiles; ++i) { for (int j = 0; j < kNumKeysPerFile; ++j) { ASSERT_OK(Delete(Key(i * kNumKeysPerFile + j))); } Flush(); } dbfull()->TEST_WaitForCompact(); ASSERT_EQ("2,0,0,2", FilesPerLevel()); MoveFilesToLevel(1); ASSERT_EQ("0,2,0,2", FilesPerLevel()); // Move time forward by 12 hours, and make sure that compaction still doesn't // trigger as ttl is set to 24 hours. env_->addon_time_.fetch_add(12 * 60 * 60); ASSERT_OK(Put("a", "1")); Flush(); dbfull()->TEST_WaitForCompact(); ASSERT_EQ("1,2,0,2", FilesPerLevel()); rocksdb::SyncPoint::GetInstance()->SetCallBack( "LevelCompactionPicker::PickCompaction:Return", [&](void* arg) { Compaction* compaction = reinterpret_cast(arg); ASSERT_TRUE(compaction->compaction_reason() == CompactionReason::kTtl); }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); // Dynamically change ttl to 10 hours. // This should trigger a ttl compaction, as 12 hours have already passed. ASSERT_OK(dbfull()->SetOptions({{"ttl", "36000"}})); dbfull()->TEST_WaitForCompact(); // All non-L0 files are deleted, as they contained only deleted data. ASSERT_EQ("1", FilesPerLevel()); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); } TEST_F(DBCompactionTest, CompactRangeDelayedByL0FileCount) { // Verify that, when `CompactRangeOptions::allow_write_stall == false`, manual // compaction only triggers flush after it's sure stall won't be triggered for // L0 file count going too high. const int kNumL0FilesTrigger = 4; const int kNumL0FilesLimit = 8; // i == 0: verifies normal case where stall is avoided by delay // i == 1: verifies no delay in edge case where stall trigger is same as // compaction trigger, so stall can't be avoided for (int i = 0; i < 2; ++i) { Options options = CurrentOptions(); options.level0_slowdown_writes_trigger = kNumL0FilesLimit; if (i == 0) { options.level0_file_num_compaction_trigger = kNumL0FilesTrigger; } else { options.level0_file_num_compaction_trigger = kNumL0FilesLimit; } Reopen(options); if (i == 0) { // ensure the auto compaction doesn't finish until manual compaction has // had a chance to be delayed. rocksdb::SyncPoint::GetInstance()->LoadDependency( {{"DBImpl::WaitUntilFlushWouldNotStallWrites:StallWait", "CompactionJob::Run():End"}}); } else { // ensure the auto-compaction doesn't finish until manual compaction has // continued without delay. rocksdb::SyncPoint::GetInstance()->LoadDependency( {{"DBImpl::FlushMemTable:StallWaitDone", "CompactionJob::Run():End"}}); } rocksdb::SyncPoint::GetInstance()->EnableProcessing(); Random rnd(301); for (int j = 0; j < kNumL0FilesLimit - 1; ++j) { for (int k = 0; k < 2; ++k) { ASSERT_OK(Put(Key(k), RandomString(&rnd, 1024))); } Flush(); } auto manual_compaction_thread = port::Thread([this]() { CompactRangeOptions cro; cro.allow_write_stall = false; db_->CompactRange(cro, nullptr, nullptr); }); manual_compaction_thread.join(); dbfull()->TEST_WaitForCompact(); ASSERT_EQ(0, NumTableFilesAtLevel(0)); ASSERT_GT(NumTableFilesAtLevel(1), 0); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); } } TEST_F(DBCompactionTest, CompactRangeDelayedByImmMemTableCount) { // Verify that, when `CompactRangeOptions::allow_write_stall == false`, manual // compaction only triggers flush after it's sure stall won't be triggered for // immutable memtable count going too high. const int kNumImmMemTableLimit = 8; // i == 0: verifies normal case where stall is avoided by delay // i == 1: verifies no delay in edge case where stall trigger is same as flush // trigger, so stall can't be avoided for (int i = 0; i < 2; ++i) { Options options = CurrentOptions(); options.disable_auto_compactions = true; // the delay limit is one less than the stop limit. This test focuses on // avoiding delay limit, but this option sets stop limit, so add one. options.max_write_buffer_number = kNumImmMemTableLimit + 1; if (i == 1) { options.min_write_buffer_number_to_merge = kNumImmMemTableLimit; } Reopen(options); if (i == 0) { // ensure the flush doesn't finish until manual compaction has had a // chance to be delayed. rocksdb::SyncPoint::GetInstance()->LoadDependency( {{"DBImpl::WaitUntilFlushWouldNotStallWrites:StallWait", "FlushJob::WriteLevel0Table"}}); } else { // ensure the flush doesn't finish until manual compaction has continued // without delay. rocksdb::SyncPoint::GetInstance()->LoadDependency( {{"DBImpl::FlushMemTable:StallWaitDone", "FlushJob::WriteLevel0Table"}}); } rocksdb::SyncPoint::GetInstance()->EnableProcessing(); Random rnd(301); for (int j = 0; j < kNumImmMemTableLimit - 1; ++j) { ASSERT_OK(Put(Key(0), RandomString(&rnd, 1024))); FlushOptions flush_opts; flush_opts.wait = false; flush_opts.allow_write_stall = true; dbfull()->Flush(flush_opts); } auto manual_compaction_thread = port::Thread([this]() { CompactRangeOptions cro; cro.allow_write_stall = false; db_->CompactRange(cro, nullptr, nullptr); }); manual_compaction_thread.join(); dbfull()->TEST_WaitForFlushMemTable(); ASSERT_EQ(0, NumTableFilesAtLevel(0)); ASSERT_GT(NumTableFilesAtLevel(1), 0); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); } } TEST_F(DBCompactionTest, CompactRangeShutdownWhileDelayed) { // Verify that, when `CompactRangeOptions::allow_write_stall == false`, delay // does not hang if CF is dropped or DB is closed const int kNumL0FilesTrigger = 4; const int kNumL0FilesLimit = 8; Options options = CurrentOptions(); options.level0_file_num_compaction_trigger = kNumL0FilesTrigger; options.level0_slowdown_writes_trigger = kNumL0FilesLimit; // i == 0: DB::DropColumnFamily() on CompactRange's target CF unblocks it // i == 1: DB::CancelAllBackgroundWork() unblocks CompactRange. This is to // simulate what happens during Close as we can't call Close (it // blocks on the auto-compaction, making a cycle). for (int i = 0; i < 2; ++i) { CreateAndReopenWithCF({"one"}, options); // The calls to close CF/DB wait until the manual compaction stalls. // The auto-compaction waits until the manual compaction finishes to ensure // the signal comes from closing CF/DB, not from compaction making progress. rocksdb::SyncPoint::GetInstance()->LoadDependency( {{"DBImpl::WaitUntilFlushWouldNotStallWrites:StallWait", "DBCompactionTest::CompactRangeShutdownWhileDelayed:PreShutdown"}, {"DBCompactionTest::CompactRangeShutdownWhileDelayed:PostManual", "CompactionJob::Run():End"}}); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); Random rnd(301); for (int j = 0; j < kNumL0FilesLimit - 1; ++j) { for (int k = 0; k < 2; ++k) { ASSERT_OK(Put(1, Key(k), RandomString(&rnd, 1024))); } Flush(1); } auto manual_compaction_thread = port::Thread([this]() { CompactRangeOptions cro; cro.allow_write_stall = false; ASSERT_TRUE(db_->CompactRange(cro, handles_[1], nullptr, nullptr) .IsShutdownInProgress()); }); TEST_SYNC_POINT( "DBCompactionTest::CompactRangeShutdownWhileDelayed:PreShutdown"); if (i == 0) { ASSERT_OK(db_->DropColumnFamily(handles_[1])); } else { dbfull()->CancelAllBackgroundWork(false /* wait */); } manual_compaction_thread.join(); TEST_SYNC_POINT( "DBCompactionTest::CompactRangeShutdownWhileDelayed:PostManual"); dbfull()->TEST_WaitForCompact(); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); } } TEST_F(DBCompactionTest, CompactRangeSkipFlushAfterDelay) { // Verify that, when `CompactRangeOptions::allow_write_stall == false`, // CompactRange skips its flush if the delay is long enough that the memtables // existing at the beginning of the call have already been flushed. const int kNumL0FilesTrigger = 4; const int kNumL0FilesLimit = 8; Options options = CurrentOptions(); options.level0_slowdown_writes_trigger = kNumL0FilesLimit; options.level0_file_num_compaction_trigger = kNumL0FilesTrigger; Reopen(options); Random rnd(301); // The manual flush includes the memtable that was active when CompactRange // began. So it unblocks CompactRange and precludes its flush. Throughout the // test, stall conditions are upheld via high L0 file count. rocksdb::SyncPoint::GetInstance()->LoadDependency( {{"DBImpl::WaitUntilFlushWouldNotStallWrites:StallWait", "DBCompactionTest::CompactRangeSkipFlushAfterDelay:PreFlush"}, {"DBCompactionTest::CompactRangeSkipFlushAfterDelay:PostFlush", "DBImpl::FlushMemTable:StallWaitDone"}, {"DBImpl::FlushMemTable:StallWaitDone", "CompactionJob::Run():End"}}); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); //used for the delayable flushes FlushOptions flush_opts; flush_opts.allow_write_stall = true; for (int i = 0; i < kNumL0FilesLimit - 1; ++i) { for (int j = 0; j < 2; ++j) { ASSERT_OK(Put(Key(j), RandomString(&rnd, 1024))); } dbfull()->Flush(flush_opts); } auto manual_compaction_thread = port::Thread([this]() { CompactRangeOptions cro; cro.allow_write_stall = false; db_->CompactRange(cro, nullptr, nullptr); }); TEST_SYNC_POINT("DBCompactionTest::CompactRangeSkipFlushAfterDelay:PreFlush"); Put(ToString(0), RandomString(&rnd, 1024)); dbfull()->Flush(flush_opts); Put(ToString(0), RandomString(&rnd, 1024)); TEST_SYNC_POINT("DBCompactionTest::CompactRangeSkipFlushAfterDelay:PostFlush"); manual_compaction_thread.join(); // If CompactRange's flush was skipped, the final Put above will still be // in the active memtable. std::string num_keys_in_memtable; db_->GetProperty(DB::Properties::kNumEntriesActiveMemTable, &num_keys_in_memtable); ASSERT_EQ(ToString(1), num_keys_in_memtable); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); } TEST_F(DBCompactionTest, CompactRangeFlushOverlappingMemtable) { // Verify memtable only gets flushed if it contains data overlapping the range // provided to `CompactRange`. Tests all kinds of overlap/non-overlap. const int kNumEndpointKeys = 5; std::string keys[kNumEndpointKeys] = {"a", "b", "c", "d", "e"}; Options options = CurrentOptions(); options.disable_auto_compactions = true; Reopen(options); // One extra iteration for nullptr, which means left side of interval is // unbounded. for (int i = 0; i <= kNumEndpointKeys; ++i) { Slice begin; Slice* begin_ptr; if (i == 0) { begin_ptr = nullptr; } else { begin = keys[i - 1]; begin_ptr = &begin; } // Start at `i` so right endpoint comes after left endpoint. One extra // iteration for nullptr, which means right side of interval is unbounded. for (int j = std::max(0, i - 1); j <= kNumEndpointKeys; ++j) { Slice end; Slice* end_ptr; if (j == kNumEndpointKeys) { end_ptr = nullptr; } else { end = keys[j]; end_ptr = &end; } ASSERT_OK(Put("b", "val")); ASSERT_OK(Put("d", "val")); CompactRangeOptions compact_range_opts; ASSERT_OK(db_->CompactRange(compact_range_opts, begin_ptr, end_ptr)); uint64_t get_prop_tmp, num_memtable_entries = 0; ASSERT_TRUE(db_->GetIntProperty(DB::Properties::kNumEntriesImmMemTables, &get_prop_tmp)); num_memtable_entries += get_prop_tmp; ASSERT_TRUE(db_->GetIntProperty(DB::Properties::kNumEntriesActiveMemTable, &get_prop_tmp)); num_memtable_entries += get_prop_tmp; if (begin_ptr == nullptr || end_ptr == nullptr || (i <= 4 && j >= 1 && (begin != "c" || end != "c"))) { // In this case `CompactRange`'s range overlapped in some way with the // memtable's range, so flush should've happened. Then "b" and "d" won't // be in the memtable. ASSERT_EQ(0, num_memtable_entries); } else { ASSERT_EQ(2, num_memtable_entries); // flush anyways to prepare for next iteration db_->Flush(FlushOptions()); } } } } TEST_F(DBCompactionTest, CompactionStatsTest) { Options options = CurrentOptions(); options.level0_file_num_compaction_trigger = 2; CompactionStatsCollector* collector = new CompactionStatsCollector(); options.listeners.emplace_back(collector); DestroyAndReopen(options); for (int i = 0; i < 32; i++) { for (int j = 0; j < 5000; j++) { Put(std::to_string(j), std::string(1, 'A')); } ASSERT_OK(Flush()); ASSERT_OK(dbfull()->TEST_WaitForFlushMemTable()); } dbfull()->TEST_WaitForCompact(); ColumnFamilyHandleImpl* cfh = static_cast(dbfull()->DefaultColumnFamily()); ColumnFamilyData* cfd = cfh->cfd(); VerifyCompactionStats(*cfd, *collector); } TEST_F(DBCompactionTest, CompactFilesOutputRangeConflict) { // LSM setup: // L1: [ba bz] // L2: [a b] [c d] // L3: [a b] [c d] // // Thread 1: Thread 2: // Begin compacting all L2->L3 // Compact [ba bz] L1->L3 // End compacting all L2->L3 // // The compaction operation in thread 2 should be disallowed because the range // overlaps with the compaction in thread 1, which also covers that range in // L3. Options options = CurrentOptions(); FlushedFileCollector* collector = new FlushedFileCollector(); options.listeners.emplace_back(collector); Reopen(options); for (int level = 3; level >= 2; --level) { ASSERT_OK(Put("a", "val")); ASSERT_OK(Put("b", "val")); ASSERT_OK(Flush()); ASSERT_OK(Put("c", "val")); ASSERT_OK(Put("d", "val")); ASSERT_OK(Flush()); MoveFilesToLevel(level); } ASSERT_OK(Put("ba", "val")); ASSERT_OK(Put("bz", "val")); ASSERT_OK(Flush()); MoveFilesToLevel(1); SyncPoint::GetInstance()->LoadDependency({ {"CompactFilesImpl:0", "DBCompactionTest::CompactFilesOutputRangeConflict:Thread2Begin"}, {"DBCompactionTest::CompactFilesOutputRangeConflict:Thread2End", "CompactFilesImpl:1"}, }); SyncPoint::GetInstance()->EnableProcessing(); auto bg_thread = port::Thread([&]() { // Thread 1 std::vector filenames = collector->GetFlushedFiles(); filenames.pop_back(); ASSERT_OK(db_->CompactFiles(CompactionOptions(), filenames, 3 /* output_level */)); }); // Thread 2 TEST_SYNC_POINT( "DBCompactionTest::CompactFilesOutputRangeConflict:Thread2Begin"); std::string filename = collector->GetFlushedFiles().back(); ASSERT_FALSE( db_->CompactFiles(CompactionOptions(), {filename}, 3 /* output_level */) .ok()); TEST_SYNC_POINT( "DBCompactionTest::CompactFilesOutputRangeConflict:Thread2End"); bg_thread.join(); } TEST_F(DBCompactionTest, CompactionHasEmptyOutput) { Options options = CurrentOptions(); SstStatsCollector* collector = new SstStatsCollector(); options.level0_file_num_compaction_trigger = 2; options.listeners.emplace_back(collector); Reopen(options); // Make sure the L0 files overlap to prevent trivial move. ASSERT_OK(Put("a", "val")); ASSERT_OK(Put("b", "val")); ASSERT_OK(Flush()); ASSERT_OK(Delete("a")); ASSERT_OK(Delete("b")); ASSERT_OK(Flush()); dbfull()->TEST_WaitForCompact(); ASSERT_EQ(NumTableFilesAtLevel(0), 0); ASSERT_EQ(NumTableFilesAtLevel(1), 0); // Expect one file creation to start for each flush, and zero for compaction // since no keys are written. ASSERT_EQ(2, collector->num_ssts_creation_started()); } INSTANTIATE_TEST_CASE_P(DBCompactionTestWithParam, DBCompactionTestWithParam, ::testing::Values(std::make_tuple(1, true), std::make_tuple(1, false), std::make_tuple(4, true), std::make_tuple(4, false))); TEST_P(DBCompactionDirectIOTest, DirectIO) { Options options = CurrentOptions(); Destroy(options); options.create_if_missing = true; options.disable_auto_compactions = true; options.use_direct_io_for_flush_and_compaction = GetParam(); options.env = new MockEnv(Env::Default()); Reopen(options); bool readahead = false; SyncPoint::GetInstance()->SetCallBack( "TableCache::NewIterator:for_compaction", [&](void* arg) { bool* use_direct_reads = static_cast(arg); ASSERT_EQ(*use_direct_reads, options.use_direct_reads); }); SyncPoint::GetInstance()->SetCallBack( "CompactionJob::OpenCompactionOutputFile", [&](void* arg) { bool* use_direct_writes = static_cast(arg); ASSERT_EQ(*use_direct_writes, options.use_direct_io_for_flush_and_compaction); }); if (options.use_direct_io_for_flush_and_compaction) { SyncPoint::GetInstance()->SetCallBack( "SanitizeOptions:direct_io", [&](void* /*arg*/) { readahead = true; }); } SyncPoint::GetInstance()->EnableProcessing(); CreateAndReopenWithCF({"pikachu"}, options); MakeTables(3, "p", "q", 1); ASSERT_EQ("1,1,1", FilesPerLevel(1)); Compact(1, "p1", "p9"); ASSERT_EQ(readahead, options.use_direct_reads); ASSERT_EQ("0,0,1", FilesPerLevel(1)); Destroy(options); delete options.env; } INSTANTIATE_TEST_CASE_P(DBCompactionDirectIOTest, DBCompactionDirectIOTest, testing::Bool()); class CompactionPriTest : public DBTestBase, public testing::WithParamInterface { public: CompactionPriTest() : DBTestBase("/compaction_pri_test") { compaction_pri_ = GetParam(); } // Required if inheriting from testing::WithParamInterface<> static void SetUpTestCase() {} static void TearDownTestCase() {} uint32_t compaction_pri_; }; TEST_P(CompactionPriTest, Test) { Options options = CurrentOptions(); options.write_buffer_size = 16 * 1024; options.compaction_pri = static_cast(compaction_pri_); options.hard_pending_compaction_bytes_limit = 256 * 1024; options.max_bytes_for_level_base = 64 * 1024; options.max_bytes_for_level_multiplier = 4; options.compression = kNoCompression; DestroyAndReopen(options); Random rnd(301); const int kNKeys = 5000; int keys[kNKeys]; for (int i = 0; i < kNKeys; i++) { keys[i] = i; } std::random_shuffle(std::begin(keys), std::end(keys)); for (int i = 0; i < kNKeys; i++) { ASSERT_OK(Put(Key(keys[i]), RandomString(&rnd, 102))); } dbfull()->TEST_WaitForCompact(); for (int i = 0; i < kNKeys; i++) { ASSERT_NE("NOT_FOUND", Get(Key(i))); } } INSTANTIATE_TEST_CASE_P( CompactionPriTest, CompactionPriTest, ::testing::Values(CompactionPri::kByCompensatedSize, CompactionPri::kOldestLargestSeqFirst, CompactionPri::kOldestSmallestSeqFirst, CompactionPri::kMinOverlappingRatio)); class NoopMergeOperator : public MergeOperator { public: NoopMergeOperator() {} virtual bool FullMergeV2(const MergeOperationInput& /*merge_in*/, MergeOperationOutput* merge_out) const override { std::string val("bar"); merge_out->new_value = val; return true; } virtual const char* Name() const override { return "Noop"; } }; TEST_F(DBCompactionTest, PartialManualCompaction) { Options opts = CurrentOptions(); opts.num_levels = 3; opts.level0_file_num_compaction_trigger = 10; opts.compression = kNoCompression; opts.merge_operator.reset(new NoopMergeOperator()); opts.target_file_size_base = 10240; DestroyAndReopen(opts); Random rnd(301); for (auto i = 0; i < 8; ++i) { for (auto j = 0; j < 10; ++j) { Merge("foo", RandomString(&rnd, 1024)); } Flush(); } MoveFilesToLevel(2); std::string prop; EXPECT_TRUE(dbfull()->GetProperty(DB::Properties::kLiveSstFilesSize, &prop)); uint64_t max_compaction_bytes = atoi(prop.c_str()) / 2; ASSERT_OK(dbfull()->SetOptions( {{"max_compaction_bytes", std::to_string(max_compaction_bytes)}})); CompactRangeOptions cro; cro.bottommost_level_compaction = BottommostLevelCompaction::kForce; dbfull()->CompactRange(cro, nullptr, nullptr); } #endif // !defined(ROCKSDB_LITE) } // namespace rocksdb int main(int argc, char** argv) { #if !defined(ROCKSDB_LITE) rocksdb::port::InstallStackTraceHandler(); ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); #else (void) argc; (void) argv; return 0; #endif } rocksdb-5.17.2/db/db_dynamic_level_test.cc000066400000000000000000000416411337235545400204710ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. // Introduction of SyncPoint effectively disabled building and running this test // in Release build. // which is a pity, it is a good test #if !defined(ROCKSDB_LITE) #include "db/db_test_util.h" #include "port/port.h" #include "port/stack_trace.h" namespace rocksdb { class DBTestDynamicLevel : public DBTestBase { public: DBTestDynamicLevel() : DBTestBase("/db_dynamic_level_test") {} }; TEST_F(DBTestDynamicLevel, DynamicLevelMaxBytesBase) { if (!Snappy_Supported() || !LZ4_Supported()) { return; } // Use InMemoryEnv, or it would be too slow. unique_ptr env(new MockEnv(env_)); const int kNKeys = 1000; int keys[kNKeys]; auto verify_func = [&]() { for (int i = 0; i < kNKeys; i++) { ASSERT_NE("NOT_FOUND", Get(Key(i))); ASSERT_NE("NOT_FOUND", Get(Key(kNKeys * 2 + i))); if (i < kNKeys / 10) { ASSERT_EQ("NOT_FOUND", Get(Key(kNKeys + keys[i]))); } else { ASSERT_NE("NOT_FOUND", Get(Key(kNKeys + keys[i]))); } } }; Random rnd(301); for (int ordered_insert = 0; ordered_insert <= 1; ordered_insert++) { for (int i = 0; i < kNKeys; i++) { keys[i] = i; } if (ordered_insert == 0) { std::random_shuffle(std::begin(keys), std::end(keys)); } for (int max_background_compactions = 1; max_background_compactions < 4; max_background_compactions += 2) { Options options; options.env = env.get(); options.create_if_missing = true; options.write_buffer_size = 2048; options.max_write_buffer_number = 2; options.level0_file_num_compaction_trigger = 2; options.level0_slowdown_writes_trigger = 2; options.level0_stop_writes_trigger = 2; options.target_file_size_base = 2048; options.level_compaction_dynamic_level_bytes = true; options.max_bytes_for_level_base = 10240; options.max_bytes_for_level_multiplier = 4; options.soft_rate_limit = 1.1; options.max_background_compactions = max_background_compactions; options.num_levels = 5; options.compression_per_level.resize(3); options.compression_per_level[0] = kNoCompression; options.compression_per_level[1] = kLZ4Compression; options.compression_per_level[2] = kSnappyCompression; options.env = env_; DestroyAndReopen(options); for (int i = 0; i < kNKeys; i++) { int key = keys[i]; ASSERT_OK(Put(Key(kNKeys + key), RandomString(&rnd, 102))); ASSERT_OK(Put(Key(key), RandomString(&rnd, 102))); ASSERT_OK(Put(Key(kNKeys * 2 + key), RandomString(&rnd, 102))); ASSERT_OK(Delete(Key(kNKeys + keys[i / 10]))); env_->SleepForMicroseconds(5000); } uint64_t int_prop; ASSERT_TRUE(db_->GetIntProperty("rocksdb.background-errors", &int_prop)); ASSERT_EQ(0U, int_prop); // Verify DB for (int j = 0; j < 2; j++) { verify_func(); if (j == 0) { Reopen(options); } } // Test compact range works dbfull()->CompactRange(CompactRangeOptions(), nullptr, nullptr); // All data should be in the last level. ColumnFamilyMetaData cf_meta; db_->GetColumnFamilyMetaData(&cf_meta); ASSERT_EQ(5U, cf_meta.levels.size()); for (int i = 0; i < 4; i++) { ASSERT_EQ(0U, cf_meta.levels[i].files.size()); } ASSERT_GT(cf_meta.levels[4U].files.size(), 0U); verify_func(); Close(); } } env_->SetBackgroundThreads(1, Env::LOW); env_->SetBackgroundThreads(1, Env::HIGH); } // Test specific cases in dynamic max bytes TEST_F(DBTestDynamicLevel, DynamicLevelMaxBytesBase2) { Random rnd(301); int kMaxKey = 1000000; Options options = CurrentOptions(); options.create_if_missing = true; options.write_buffer_size = 20480; options.max_write_buffer_number = 2; options.level0_file_num_compaction_trigger = 2; options.level0_slowdown_writes_trigger = 9999; options.level0_stop_writes_trigger = 9999; options.target_file_size_base = 9102; options.level_compaction_dynamic_level_bytes = true; options.max_bytes_for_level_base = 40960; options.max_bytes_for_level_multiplier = 4; options.max_background_compactions = 2; options.num_levels = 5; options.max_compaction_bytes = 0; // Force not expanding in compactions BlockBasedTableOptions table_options; table_options.block_size = 1024; options.table_factory.reset(NewBlockBasedTableFactory(table_options)); DestroyAndReopen(options); ASSERT_OK(dbfull()->SetOptions({ {"disable_auto_compactions", "true"}, })); uint64_t int_prop; std::string str_prop; // Initial base level is the last level ASSERT_TRUE(db_->GetIntProperty("rocksdb.base-level", &int_prop)); ASSERT_EQ(4U, int_prop); // Put about 28K to L0 for (int i = 0; i < 70; i++) { ASSERT_OK(Put(Key(static_cast(rnd.Uniform(kMaxKey))), RandomString(&rnd, 380))); } ASSERT_OK(dbfull()->SetOptions({ {"disable_auto_compactions", "false"}, })); Flush(); dbfull()->TEST_WaitForCompact(); ASSERT_TRUE(db_->GetIntProperty("rocksdb.base-level", &int_prop)); ASSERT_EQ(4U, int_prop); // Insert extra about 28K to L0. After they are compacted to L4, base level // should be changed to L3. ASSERT_OK(dbfull()->SetOptions({ {"disable_auto_compactions", "true"}, })); for (int i = 0; i < 70; i++) { ASSERT_OK(Put(Key(static_cast(rnd.Uniform(kMaxKey))), RandomString(&rnd, 380))); } ASSERT_OK(dbfull()->SetOptions({ {"disable_auto_compactions", "false"}, })); Flush(); dbfull()->TEST_WaitForCompact(); ASSERT_TRUE(db_->GetIntProperty("rocksdb.base-level", &int_prop)); ASSERT_EQ(3U, int_prop); ASSERT_TRUE(db_->GetProperty("rocksdb.num-files-at-level1", &str_prop)); ASSERT_EQ("0", str_prop); ASSERT_TRUE(db_->GetProperty("rocksdb.num-files-at-level2", &str_prop)); ASSERT_EQ("0", str_prop); // Trigger parallel compaction, and the first one would change the base // level. // Hold compaction jobs to make sure rocksdb::SyncPoint::GetInstance()->SetCallBack( "CompactionJob::Run():Start", [&](void* /*arg*/) { env_->SleepForMicroseconds(100000); }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); ASSERT_OK(dbfull()->SetOptions({ {"disable_auto_compactions", "true"}, })); // Write about 40K more for (int i = 0; i < 100; i++) { ASSERT_OK(Put(Key(static_cast(rnd.Uniform(kMaxKey))), RandomString(&rnd, 380))); } ASSERT_OK(dbfull()->SetOptions({ {"disable_auto_compactions", "false"}, })); Flush(); // Wait for 200 milliseconds before proceeding compactions to make sure two // parallel ones are executed. env_->SleepForMicroseconds(200000); dbfull()->TEST_WaitForCompact(); ASSERT_TRUE(db_->GetIntProperty("rocksdb.base-level", &int_prop)); ASSERT_EQ(3U, int_prop); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); // Trigger a condition that the compaction changes base level and L0->Lbase // happens at the same time. // We try to make last levels' targets to be 40K, 160K, 640K, add triggers // another compaction from 40K->160K. ASSERT_OK(dbfull()->SetOptions({ {"disable_auto_compactions", "true"}, })); // Write about 650K more. // Each file is about 11KB, with 9KB of data. for (int i = 0; i < 1300; i++) { ASSERT_OK(Put(Key(static_cast(rnd.Uniform(kMaxKey))), RandomString(&rnd, 380))); } ASSERT_OK(dbfull()->SetOptions({ {"disable_auto_compactions", "false"}, })); Flush(); dbfull()->TEST_WaitForCompact(); ASSERT_TRUE(db_->GetIntProperty("rocksdb.base-level", &int_prop)); ASSERT_EQ(2U, int_prop); // A manual compaction will trigger the base level to become L2 // Keep Writing data until base level changed 2->1. There will be L0->L2 // compaction going on at the same time. rocksdb::SyncPoint::GetInstance()->DisableProcessing(); rocksdb::SyncPoint::GetInstance()->ClearAllCallBacks(); rocksdb::SyncPoint::GetInstance()->LoadDependency({ {"CompactionJob::Run():Start", "DynamicLevelMaxBytesBase2:0"}, {"DynamicLevelMaxBytesBase2:1", "CompactionJob::Run():End"}, {"DynamicLevelMaxBytesBase2:compact_range_finish", "FlushJob::WriteLevel0Table"}, }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); rocksdb::port::Thread thread([this] { TEST_SYNC_POINT("DynamicLevelMaxBytesBase2:compact_range_start"); ASSERT_OK(db_->CompactRange(CompactRangeOptions(), nullptr, nullptr)); TEST_SYNC_POINT("DynamicLevelMaxBytesBase2:compact_range_finish"); }); TEST_SYNC_POINT("DynamicLevelMaxBytesBase2:0"); for (int i = 0; i < 2; i++) { ASSERT_OK(Put(Key(static_cast(rnd.Uniform(kMaxKey))), RandomString(&rnd, 380))); } TEST_SYNC_POINT("DynamicLevelMaxBytesBase2:1"); Flush(); thread.join(); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); rocksdb::SyncPoint::GetInstance()->ClearAllCallBacks(); ASSERT_TRUE(db_->GetIntProperty("rocksdb.base-level", &int_prop)); ASSERT_EQ(1U, int_prop); } // Test specific cases in dynamic max bytes TEST_F(DBTestDynamicLevel, DynamicLevelMaxBytesCompactRange) { Random rnd(301); int kMaxKey = 1000000; Options options = CurrentOptions(); options.create_if_missing = true; options.write_buffer_size = 2048; options.max_write_buffer_number = 2; options.level0_file_num_compaction_trigger = 2; options.level0_slowdown_writes_trigger = 9999; options.level0_stop_writes_trigger = 9999; options.target_file_size_base = 2; options.level_compaction_dynamic_level_bytes = true; options.max_bytes_for_level_base = 10240; options.max_bytes_for_level_multiplier = 4; options.max_background_compactions = 1; const int kNumLevels = 5; options.num_levels = kNumLevels; options.max_compaction_bytes = 1; // Force not expanding in compactions BlockBasedTableOptions table_options; table_options.block_size = 1024; options.table_factory.reset(NewBlockBasedTableFactory(table_options)); DestroyAndReopen(options); // Compact against empty DB dbfull()->CompactRange(CompactRangeOptions(), nullptr, nullptr); uint64_t int_prop; std::string str_prop; // Initial base level is the last level ASSERT_TRUE(db_->GetIntProperty("rocksdb.base-level", &int_prop)); ASSERT_EQ(4U, int_prop); // Put about 7K to L0 for (int i = 0; i < 140; i++) { ASSERT_OK(Put(Key(static_cast(rnd.Uniform(kMaxKey))), RandomString(&rnd, 80))); } Flush(); dbfull()->TEST_WaitForCompact(); if (NumTableFilesAtLevel(0) == 0) { // Make sure level 0 is not empty ASSERT_OK(Put(Key(static_cast(rnd.Uniform(kMaxKey))), RandomString(&rnd, 80))); Flush(); } ASSERT_TRUE(db_->GetIntProperty("rocksdb.base-level", &int_prop)); ASSERT_EQ(3U, int_prop); ASSERT_TRUE(db_->GetProperty("rocksdb.num-files-at-level1", &str_prop)); ASSERT_EQ("0", str_prop); ASSERT_TRUE(db_->GetProperty("rocksdb.num-files-at-level2", &str_prop)); ASSERT_EQ("0", str_prop); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); rocksdb::SyncPoint::GetInstance()->ClearAllCallBacks(); std::set output_levels; rocksdb::SyncPoint::GetInstance()->SetCallBack( "CompactionPicker::CompactRange:Return", [&](void* arg) { Compaction* compaction = reinterpret_cast(arg); output_levels.insert(compaction->output_level()); }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); dbfull()->CompactRange(CompactRangeOptions(), nullptr, nullptr); ASSERT_EQ(output_levels.size(), 2); ASSERT_TRUE(output_levels.find(3) != output_levels.end()); ASSERT_TRUE(output_levels.find(4) != output_levels.end()); ASSERT_TRUE(db_->GetProperty("rocksdb.num-files-at-level0", &str_prop)); ASSERT_EQ("0", str_prop); ASSERT_TRUE(db_->GetProperty("rocksdb.num-files-at-level3", &str_prop)); ASSERT_EQ("0", str_prop); // Base level is still level 3. ASSERT_TRUE(db_->GetIntProperty("rocksdb.base-level", &int_prop)); ASSERT_EQ(3U, int_prop); } TEST_F(DBTestDynamicLevel, DynamicLevelMaxBytesBaseInc) { Options options = CurrentOptions(); options.create_if_missing = true; options.write_buffer_size = 2048; options.max_write_buffer_number = 2; options.level0_file_num_compaction_trigger = 2; options.level0_slowdown_writes_trigger = 2; options.level0_stop_writes_trigger = 2; options.target_file_size_base = 2048; options.level_compaction_dynamic_level_bytes = true; options.max_bytes_for_level_base = 10240; options.max_bytes_for_level_multiplier = 4; options.soft_rate_limit = 1.1; options.max_background_compactions = 2; options.num_levels = 5; options.max_compaction_bytes = 100000000; DestroyAndReopen(options); int non_trivial = 0; rocksdb::SyncPoint::GetInstance()->SetCallBack( "DBImpl::BackgroundCompaction:NonTrivial", [&](void* /*arg*/) { non_trivial++; }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); Random rnd(301); const int total_keys = 3000; const int random_part_size = 100; for (int i = 0; i < total_keys; i++) { std::string value = RandomString(&rnd, random_part_size); PutFixed32(&value, static_cast(i)); ASSERT_OK(Put(Key(i), value)); } Flush(); dbfull()->TEST_WaitForCompact(); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); ASSERT_EQ(non_trivial, 0); for (int i = 0; i < total_keys; i++) { std::string value = Get(Key(i)); ASSERT_EQ(DecodeFixed32(value.c_str() + random_part_size), static_cast(i)); } env_->SetBackgroundThreads(1, Env::LOW); env_->SetBackgroundThreads(1, Env::HIGH); } TEST_F(DBTestDynamicLevel, DISABLED_MigrateToDynamicLevelMaxBytesBase) { Random rnd(301); const int kMaxKey = 2000; Options options; options.create_if_missing = true; options.write_buffer_size = 2048; options.max_write_buffer_number = 8; options.level0_file_num_compaction_trigger = 4; options.level0_slowdown_writes_trigger = 4; options.level0_stop_writes_trigger = 8; options.target_file_size_base = 2048; options.level_compaction_dynamic_level_bytes = false; options.max_bytes_for_level_base = 10240; options.max_bytes_for_level_multiplier = 4; options.soft_rate_limit = 1.1; options.num_levels = 8; DestroyAndReopen(options); auto verify_func = [&](int num_keys, bool if_sleep) { for (int i = 0; i < num_keys; i++) { ASSERT_NE("NOT_FOUND", Get(Key(kMaxKey + i))); if (i < num_keys / 10) { ASSERT_EQ("NOT_FOUND", Get(Key(i))); } else { ASSERT_NE("NOT_FOUND", Get(Key(i))); } if (if_sleep && i % 1000 == 0) { // Without it, valgrind may choose not to give another // thread a chance to run before finishing the function, // causing the test to be extremely slow. env_->SleepForMicroseconds(1); } } }; int total_keys = 1000; for (int i = 0; i < total_keys; i++) { ASSERT_OK(Put(Key(i), RandomString(&rnd, 102))); ASSERT_OK(Put(Key(kMaxKey + i), RandomString(&rnd, 102))); ASSERT_OK(Delete(Key(i / 10))); } verify_func(total_keys, false); dbfull()->TEST_WaitForCompact(); options.level_compaction_dynamic_level_bytes = true; options.disable_auto_compactions = true; Reopen(options); verify_func(total_keys, false); std::atomic_bool compaction_finished; compaction_finished = false; // Issue manual compaction in one thread and still verify DB state // in main thread. rocksdb::port::Thread t([&]() { CompactRangeOptions compact_options; compact_options.change_level = true; compact_options.target_level = options.num_levels - 1; dbfull()->CompactRange(compact_options, nullptr, nullptr); compaction_finished.store(true); }); do { verify_func(total_keys, true); } while (!compaction_finished.load()); t.join(); ASSERT_OK(dbfull()->SetOptions({ {"disable_auto_compactions", "false"}, })); int total_keys2 = 2000; for (int i = total_keys; i < total_keys2; i++) { ASSERT_OK(Put(Key(i), RandomString(&rnd, 102))); ASSERT_OK(Put(Key(kMaxKey + i), RandomString(&rnd, 102))); ASSERT_OK(Delete(Key(i / 10))); } verify_func(total_keys2, false); dbfull()->TEST_WaitForCompact(); verify_func(total_keys2, false); // Base level is not level 1 ASSERT_EQ(NumTableFilesAtLevel(1), 0); ASSERT_EQ(NumTableFilesAtLevel(2), 0); } } // namespace rocksdb #endif // !defined(ROCKSDB_LITE) int main(int argc, char** argv) { #if !defined(ROCKSDB_LITE) rocksdb::port::InstallStackTraceHandler(); ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); #else (void) argc; (void) argv; return 0; #endif } rocksdb-5.17.2/db/db_encryption_test.cc000066400000000000000000000052011337235545400200400ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // #include "db/db_test_util.h" #include "port/stack_trace.h" #include "rocksdb/perf_context.h" #if !defined(ROCKSDB_LITE) #include "util/sync_point.h" #endif #include #include namespace rocksdb { class DBEncryptionTest : public DBTestBase { public: DBEncryptionTest() : DBTestBase("/db_encryption_test") {} }; #ifndef ROCKSDB_LITE TEST_F(DBEncryptionTest, CheckEncrypted) { ASSERT_OK(Put("foo567", "v1.fetdq")); ASSERT_OK(Put("bar123", "v2.dfgkjdfghsd")); Close(); // Open all files and look for the values we've put in there. // They should not be found if encrypted, otherwise // they should be found. std::vector fileNames; auto status = env_->GetChildren(dbname_, &fileNames); ASSERT_OK(status); auto defaultEnv = Env::Default(); int hits = 0; for (auto it = fileNames.begin() ; it != fileNames.end(); ++it) { if ((*it == "..") || (*it == ".")) { continue; } auto filePath = dbname_ + "/" + *it; unique_ptr seqFile; auto envOptions = EnvOptions(CurrentOptions()); status = defaultEnv->NewSequentialFile(filePath, &seqFile, envOptions); ASSERT_OK(status); uint64_t fileSize; status = defaultEnv->GetFileSize(filePath, &fileSize); ASSERT_OK(status); std::string scratch; scratch.reserve(fileSize); Slice data; status = seqFile->Read(fileSize, &data, (char*)scratch.data()); ASSERT_OK(status); if (data.ToString().find("foo567") != std::string::npos) { hits++; //std::cout << "Hit in " << filePath << "\n"; } if (data.ToString().find("v1.fetdq") != std::string::npos) { hits++; //std::cout << "Hit in " << filePath << "\n"; } if (data.ToString().find("bar123") != std::string::npos) { hits++; //std::cout << "Hit in " << filePath << "\n"; } if (data.ToString().find("v2.dfgkjdfghsd") != std::string::npos) { hits++; //std::cout << "Hit in " << filePath << "\n"; } if (data.ToString().find("dfgk") != std::string::npos) { hits++; //std::cout << "Hit in " << filePath << "\n"; } } if (encrypted_env_) { ASSERT_EQ(hits, 0); } else { ASSERT_GE(hits, 4); } } #endif // ROCKSDB_LITE } // namespace rocksdb int main(int argc, char** argv) { rocksdb::port::InstallStackTraceHandler(); ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/db/db_filesnapshot.cc000066400000000000000000000114601337235545400173120ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // #ifndef ROCKSDB_LITE #ifndef __STDC_FORMAT_MACROS #define __STDC_FORMAT_MACROS #endif #include #include #include #include #include "db/db_impl.h" #include "db/job_context.h" #include "db/version_set.h" #include "port/port.h" #include "rocksdb/db.h" #include "rocksdb/env.h" #include "util/file_util.h" #include "util/filename.h" #include "util/mutexlock.h" #include "util/sync_point.h" namespace rocksdb { Status DBImpl::DisableFileDeletions() { InstrumentedMutexLock l(&mutex_); ++disable_delete_obsolete_files_; if (disable_delete_obsolete_files_ == 1) { ROCKS_LOG_INFO(immutable_db_options_.info_log, "File Deletions Disabled"); } else { ROCKS_LOG_WARN(immutable_db_options_.info_log, "File Deletions Disabled, but already disabled. Counter: %d", disable_delete_obsolete_files_); } return Status::OK(); } Status DBImpl::EnableFileDeletions(bool force) { // Job id == 0 means that this is not our background process, but rather // user thread JobContext job_context(0); bool should_purge_files = false; { InstrumentedMutexLock l(&mutex_); if (force) { // if force, we need to enable file deletions right away disable_delete_obsolete_files_ = 0; } else if (disable_delete_obsolete_files_ > 0) { --disable_delete_obsolete_files_; } if (disable_delete_obsolete_files_ == 0) { ROCKS_LOG_INFO(immutable_db_options_.info_log, "File Deletions Enabled"); should_purge_files = true; FindObsoleteFiles(&job_context, true); bg_cv_.SignalAll(); } else { ROCKS_LOG_WARN( immutable_db_options_.info_log, "File Deletions Enable, but not really enabled. Counter: %d", disable_delete_obsolete_files_); } } if (should_purge_files) { PurgeObsoleteFiles(job_context); } job_context.Clean(); LogFlush(immutable_db_options_.info_log); return Status::OK(); } int DBImpl::IsFileDeletionsEnabled() const { return !disable_delete_obsolete_files_; } Status DBImpl::GetLiveFiles(std::vector& ret, uint64_t* manifest_file_size, bool flush_memtable) { *manifest_file_size = 0; mutex_.Lock(); if (flush_memtable) { // flush all dirty data to disk. Status status; for (auto cfd : *versions_->GetColumnFamilySet()) { if (cfd->IsDropped()) { continue; } cfd->Ref(); mutex_.Unlock(); status = FlushMemTable(cfd, FlushOptions(), FlushReason::kGetLiveFiles); TEST_SYNC_POINT("DBImpl::GetLiveFiles:1"); TEST_SYNC_POINT("DBImpl::GetLiveFiles:2"); mutex_.Lock(); cfd->Unref(); if (!status.ok()) { break; } } versions_->GetColumnFamilySet()->FreeDeadColumnFamilies(); if (!status.ok()) { mutex_.Unlock(); ROCKS_LOG_ERROR(immutable_db_options_.info_log, "Cannot Flush data %s\n", status.ToString().c_str()); return status; } } // Make a set of all of the live *.sst files std::vector live; for (auto cfd : *versions_->GetColumnFamilySet()) { if (cfd->IsDropped()) { continue; } cfd->current()->AddLiveFiles(&live); } ret.clear(); ret.reserve(live.size() + 3); // *.sst + CURRENT + MANIFEST + OPTIONS // create names of the live files. The names are not absolute // paths, instead they are relative to dbname_; for (auto live_file : live) { ret.push_back(MakeTableFileName("", live_file.GetNumber())); } ret.push_back(CurrentFileName("")); ret.push_back(DescriptorFileName("", versions_->manifest_file_number())); ret.push_back(OptionsFileName("", versions_->options_file_number())); // find length of manifest file while holding the mutex lock *manifest_file_size = versions_->manifest_file_size(); mutex_.Unlock(); return Status::OK(); } Status DBImpl::GetSortedWalFiles(VectorLogPtr& files) { { // If caller disabled deletions, this function should return files that are // guaranteed not to be deleted until deletions are re-enabled. We need to // wait for pending purges to finish since WalManager doesn't know which // files are going to be purged. Additional purges won't be scheduled as // long as deletions are disabled (so the below loop must terminate). InstrumentedMutexLock l(&mutex_); while (disable_delete_obsolete_files_ > 0 && pending_purge_obsolete_files_ > 0) { bg_cv_.Wait(); } } return wal_manager_.GetSortedWalFiles(files); } } #endif // ROCKSDB_LITE rocksdb-5.17.2/db/db_flush_test.cc000066400000000000000000000174411337235545400170000ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "db/db_test_util.h" #include "port/stack_trace.h" #include "util/fault_injection_test_env.h" #include "util/sync_point.h" namespace rocksdb { class DBFlushTest : public DBTestBase { public: DBFlushTest() : DBTestBase("/db_flush_test") {} }; class DBFlushDirectIOTest : public DBFlushTest, public ::testing::WithParamInterface { public: DBFlushDirectIOTest() : DBFlushTest() {} }; // We had issue when two background threads trying to flush at the same time, // only one of them get committed. The test verifies the issue is fixed. TEST_F(DBFlushTest, FlushWhileWritingManifest) { Options options; options.disable_auto_compactions = true; options.max_background_flushes = 2; options.env = env_; Reopen(options); FlushOptions no_wait; no_wait.wait = false; no_wait.allow_write_stall=true; SyncPoint::GetInstance()->LoadDependency( {{"VersionSet::LogAndApply:WriteManifest", "DBFlushTest::FlushWhileWritingManifest:1"}, {"MemTableList::InstallMemtableFlushResults:InProgress", "VersionSet::LogAndApply:WriteManifestDone"}}); SyncPoint::GetInstance()->EnableProcessing(); ASSERT_OK(Put("foo", "v")); ASSERT_OK(dbfull()->Flush(no_wait)); TEST_SYNC_POINT("DBFlushTest::FlushWhileWritingManifest:1"); ASSERT_OK(Put("bar", "v")); ASSERT_OK(dbfull()->Flush(no_wait)); // If the issue is hit we will wait here forever. dbfull()->TEST_WaitForFlushMemTable(); #ifndef ROCKSDB_LITE ASSERT_EQ(2, TotalTableFiles()); #endif // ROCKSDB_LITE } #ifndef TRAVIS // Disable this test temporarily on Travis as it fails intermittently. // Github issue: #4151 TEST_F(DBFlushTest, SyncFail) { std::unique_ptr fault_injection_env( new FaultInjectionTestEnv(env_)); Options options; options.disable_auto_compactions = true; options.env = fault_injection_env.get(); SyncPoint::GetInstance()->LoadDependency( {{"DBFlushTest::SyncFail:1", "DBImpl::SyncClosedLogs:Start"}, {"DBImpl::SyncClosedLogs:Failed", "DBFlushTest::SyncFail:2"}}); SyncPoint::GetInstance()->EnableProcessing(); Reopen(options); Put("key", "value"); auto* cfd = reinterpret_cast(db_->DefaultColumnFamily()) ->cfd(); FlushOptions flush_options; flush_options.wait = false; ASSERT_OK(dbfull()->Flush(flush_options)); // Flush installs a new super-version. Get the ref count after that. auto current_before = cfd->current(); int refs_before = cfd->current()->TEST_refs(); fault_injection_env->SetFilesystemActive(false); TEST_SYNC_POINT("DBFlushTest::SyncFail:1"); TEST_SYNC_POINT("DBFlushTest::SyncFail:2"); fault_injection_env->SetFilesystemActive(true); // Now the background job will do the flush; wait for it. dbfull()->TEST_WaitForFlushMemTable(); #ifndef ROCKSDB_LITE ASSERT_EQ("", FilesPerLevel()); // flush failed. #endif // ROCKSDB_LITE // Backgroun flush job should release ref count to current version. ASSERT_EQ(current_before, cfd->current()); ASSERT_EQ(refs_before, cfd->current()->TEST_refs()); Destroy(options); } #endif // TRAVIS TEST_F(DBFlushTest, FlushInLowPriThreadPool) { // Verify setting an empty high-pri (flush) thread pool causes flushes to be // scheduled in the low-pri (compaction) thread pool. Options options = CurrentOptions(); options.level0_file_num_compaction_trigger = 4; options.memtable_factory.reset(new SpecialSkipListFactory(1)); Reopen(options); env_->SetBackgroundThreads(0, Env::HIGH); std::thread::id tid; int num_flushes = 0, num_compactions = 0; SyncPoint::GetInstance()->SetCallBack( "DBImpl::BGWorkFlush", [&](void* /*arg*/) { if (tid == std::thread::id()) { tid = std::this_thread::get_id(); } else { ASSERT_EQ(tid, std::this_thread::get_id()); } ++num_flushes; }); SyncPoint::GetInstance()->SetCallBack( "DBImpl::BGWorkCompaction", [&](void* /*arg*/) { ASSERT_EQ(tid, std::this_thread::get_id()); ++num_compactions; }); SyncPoint::GetInstance()->EnableProcessing(); ASSERT_OK(Put("key", "val")); for (int i = 0; i < 4; ++i) { ASSERT_OK(Put("key", "val")); dbfull()->TEST_WaitForFlushMemTable(); } dbfull()->TEST_WaitForCompact(); ASSERT_EQ(4, num_flushes); ASSERT_EQ(1, num_compactions); } TEST_F(DBFlushTest, ManualFlushWithMinWriteBufferNumberToMerge) { Options options = CurrentOptions(); options.write_buffer_size = 100; options.max_write_buffer_number = 4; options.min_write_buffer_number_to_merge = 3; Reopen(options); SyncPoint::GetInstance()->LoadDependency( {{"DBImpl::BGWorkFlush", "DBFlushTest::ManualFlushWithMinWriteBufferNumberToMerge:1"}, {"DBFlushTest::ManualFlushWithMinWriteBufferNumberToMerge:2", "FlushJob::WriteLevel0Table"}}); SyncPoint::GetInstance()->EnableProcessing(); ASSERT_OK(Put("key1", "value1")); port::Thread t([&]() { // The call wait for flush to finish, i.e. with flush_options.wait = true. ASSERT_OK(Flush()); }); // Wait for flush start. TEST_SYNC_POINT("DBFlushTest::ManualFlushWithMinWriteBufferNumberToMerge:1"); // Insert a second memtable before the manual flush finish. // At the end of the manual flush job, it will check if further flush // is needed, but it will not trigger flush of the second memtable because // min_write_buffer_number_to_merge is not reached. ASSERT_OK(Put("key2", "value2")); ASSERT_OK(dbfull()->TEST_SwitchMemtable()); TEST_SYNC_POINT("DBFlushTest::ManualFlushWithMinWriteBufferNumberToMerge:2"); // Manual flush should return, without waiting for flush indefinitely. t.join(); } TEST_P(DBFlushDirectIOTest, DirectIO) { Options options; options.create_if_missing = true; options.disable_auto_compactions = true; options.max_background_flushes = 2; options.use_direct_io_for_flush_and_compaction = GetParam(); options.env = new MockEnv(Env::Default()); SyncPoint::GetInstance()->SetCallBack( "BuildTable:create_file", [&](void* arg) { bool* use_direct_writes = static_cast(arg); ASSERT_EQ(*use_direct_writes, options.use_direct_io_for_flush_and_compaction); }); SyncPoint::GetInstance()->EnableProcessing(); Reopen(options); ASSERT_OK(Put("foo", "v")); FlushOptions flush_options; flush_options.wait = true; ASSERT_OK(dbfull()->Flush(flush_options)); Destroy(options); delete options.env; } TEST_F(DBFlushTest, FlushError) { Options options; std::unique_ptr fault_injection_env( new FaultInjectionTestEnv(env_)); options.write_buffer_size = 100; options.max_write_buffer_number = 4; options.min_write_buffer_number_to_merge = 3; options.disable_auto_compactions = true; options.env = fault_injection_env.get(); Reopen(options); ASSERT_OK(Put("key1", "value1")); ASSERT_OK(Put("key2", "value2")); fault_injection_env->SetFilesystemActive(false); Status s = dbfull()->TEST_SwitchMemtable(); fault_injection_env->SetFilesystemActive(true); Destroy(options); ASSERT_NE(s, Status::OK()); } INSTANTIATE_TEST_CASE_P(DBFlushDirectIOTest, DBFlushDirectIOTest, testing::Bool()); } // namespace rocksdb int main(int argc, char** argv) { rocksdb::port::InstallStackTraceHandler(); ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/db/db_impl.cc000066400000000000000000003347651337235545400155740ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "db/db_impl.h" #ifndef __STDC_FORMAT_MACROS #define __STDC_FORMAT_MACROS #endif #include #ifdef OS_SOLARIS #include #endif #include #include #include #include #include #include #include #include #include #include #include "db/builder.h" #include "db/compaction_job.h" #include "db/db_info_dumper.h" #include "db/db_iter.h" #include "db/dbformat.h" #include "db/error_handler.h" #include "db/event_helpers.h" #include "db/external_sst_file_ingestion_job.h" #include "db/flush_job.h" #include "db/forward_iterator.h" #include "db/job_context.h" #include "db/log_reader.h" #include "db/log_writer.h" #include "db/malloc_stats.h" #include "db/memtable.h" #include "db/memtable_list.h" #include "db/merge_context.h" #include "db/merge_helper.h" #include "db/range_del_aggregator.h" #include "db/table_cache.h" #include "db/table_properties_collector.h" #include "db/transaction_log_impl.h" #include "db/version_set.h" #include "db/write_batch_internal.h" #include "db/write_callback.h" #include "memtable/hash_linklist_rep.h" #include "memtable/hash_skiplist_rep.h" #include "monitoring/iostats_context_imp.h" #include "monitoring/perf_context_imp.h" #include "monitoring/thread_status_updater.h" #include "monitoring/thread_status_util.h" #include "options/cf_options.h" #include "options/options_helper.h" #include "options/options_parser.h" #include "port/port.h" #include "rocksdb/cache.h" #include "rocksdb/compaction_filter.h" #include "rocksdb/convenience.h" #include "rocksdb/db.h" #include "rocksdb/env.h" #include "rocksdb/merge_operator.h" #include "rocksdb/statistics.h" #include "rocksdb/status.h" #include "rocksdb/table.h" #include "rocksdb/write_buffer_manager.h" #include "table/block.h" #include "table/block_based_table_factory.h" #include "table/merging_iterator.h" #include "table/table_builder.h" #include "table/two_level_iterator.h" #include "tools/sst_dump_tool_imp.h" #include "util/auto_roll_logger.h" #include "util/autovector.h" #include "util/build_version.h" #include "util/coding.h" #include "util/compression.h" #include "util/crc32c.h" #include "util/file_reader_writer.h" #include "util/file_util.h" #include "util/filename.h" #include "util/log_buffer.h" #include "util/logging.h" #include "util/mutexlock.h" #include "util/sst_file_manager_impl.h" #include "util/stop_watch.h" #include "util/string_util.h" #include "util/sync_point.h" namespace rocksdb { const std::string kDefaultColumnFamilyName("default"); void DumpRocksDBBuildVersion(Logger* log); CompressionType GetCompressionFlush( const ImmutableCFOptions& ioptions, const MutableCFOptions& mutable_cf_options) { // Compressing memtable flushes might not help unless the sequential load // optimization is used for leveled compaction. Otherwise the CPU and // latency overhead is not offset by saving much space. if (ioptions.compaction_style == kCompactionStyleUniversal) { if (mutable_cf_options.compaction_options_universal .compression_size_percent < 0) { return mutable_cf_options.compression; } else { return kNoCompression; } } else if (!ioptions.compression_per_level.empty()) { // For leveled compress when min_level_to_compress != 0. return ioptions.compression_per_level[0]; } else { return mutable_cf_options.compression; } } namespace { void DumpSupportInfo(Logger* logger) { ROCKS_LOG_HEADER(logger, "Compression algorithms supported:"); for (auto& compression : OptionsHelper::compression_type_string_map) { if (compression.second != kNoCompression && compression.second != kDisableCompressionOption) { ROCKS_LOG_HEADER(logger, "\t%s supported: %d", compression.first.c_str(), CompressionTypeSupported(compression.second)); } } ROCKS_LOG_HEADER(logger, "Fast CRC32 supported: %s", crc32c::IsFastCrc32Supported().c_str()); } int64_t kDefaultLowPriThrottledRate = 2 * 1024 * 1024; } // namespace DBImpl::DBImpl(const DBOptions& options, const std::string& dbname, const bool seq_per_batch, const bool batch_per_txn) : env_(options.env), dbname_(dbname), own_info_log_(options.info_log == nullptr), initial_db_options_(SanitizeOptions(dbname, options)), immutable_db_options_(initial_db_options_), mutable_db_options_(initial_db_options_), stats_(immutable_db_options_.statistics.get()), db_lock_(nullptr), mutex_(stats_, env_, DB_MUTEX_WAIT_MICROS, immutable_db_options_.use_adaptive_mutex), shutting_down_(false), bg_cv_(&mutex_), logfile_number_(0), log_dir_synced_(false), log_empty_(true), default_cf_handle_(nullptr), log_sync_cv_(&mutex_), total_log_size_(0), max_total_in_memory_state_(0), is_snapshot_supported_(true), write_buffer_manager_(immutable_db_options_.write_buffer_manager.get()), write_thread_(immutable_db_options_), nonmem_write_thread_(immutable_db_options_), write_controller_(mutable_db_options_.delayed_write_rate), // Use delayed_write_rate as a base line to determine the initial // low pri write rate limit. It may be adjusted later. low_pri_write_rate_limiter_(NewGenericRateLimiter(std::min( static_cast(mutable_db_options_.delayed_write_rate / 8), kDefaultLowPriThrottledRate))), last_batch_group_size_(0), unscheduled_flushes_(0), unscheduled_compactions_(0), bg_bottom_compaction_scheduled_(0), bg_compaction_scheduled_(0), num_running_compactions_(0), bg_flush_scheduled_(0), num_running_flushes_(0), bg_purge_scheduled_(0), disable_delete_obsolete_files_(0), pending_purge_obsolete_files_(0), delete_obsolete_files_last_run_(env_->NowMicros()), last_stats_dump_time_microsec_(0), next_job_id_(1), has_unpersisted_data_(false), unable_to_release_oldest_log_(false), env_options_(BuildDBOptions(immutable_db_options_, mutable_db_options_)), env_options_for_compaction_(env_->OptimizeForCompactionTableWrite( env_options_, immutable_db_options_)), num_running_ingest_file_(0), #ifndef ROCKSDB_LITE wal_manager_(immutable_db_options_, env_options_, seq_per_batch), #endif // ROCKSDB_LITE event_logger_(immutable_db_options_.info_log.get()), bg_work_paused_(0), bg_compaction_paused_(0), refitting_level_(false), opened_successfully_(false), two_write_queues_(options.two_write_queues), manual_wal_flush_(options.manual_wal_flush), seq_per_batch_(seq_per_batch), batch_per_txn_(batch_per_txn), // last_sequencee_ is always maintained by the main queue that also writes // to the memtable. When two_write_queues_ is disabled last seq in // memtable is the same as last seq published to the readers. When it is // enabled but seq_per_batch_ is disabled, last seq in memtable still // indicates last published seq since wal-only writes that go to the 2nd // queue do not consume a sequence number. Otherwise writes performed by // the 2nd queue could change what is visible to the readers. In this // cases, last_seq_same_as_publish_seq_==false, the 2nd queue maintains a // separate variable to indicate the last published sequence. last_seq_same_as_publish_seq_( !(seq_per_batch && options.two_write_queues)), // Since seq_per_batch_ is currently set only by WritePreparedTxn which // requires a custom gc for compaction, we use that to set use_custom_gc_ // as well. use_custom_gc_(seq_per_batch), shutdown_initiated_(false), own_sfm_(options.sst_file_manager == nullptr), preserve_deletes_(options.preserve_deletes), closed_(false), error_handler_(this, immutable_db_options_, &mutex_) { // !batch_per_trx_ implies seq_per_batch_ because it is only unset for // WriteUnprepared, which should use seq_per_batch_. assert(batch_per_txn_ || seq_per_batch_); env_->GetAbsolutePath(dbname, &db_absolute_path_); // Reserve ten files or so for other uses and give the rest to TableCache. // Give a large number for setting of "infinite" open files. const int table_cache_size = (mutable_db_options_.max_open_files == -1) ? TableCache::kInfiniteCapacity : mutable_db_options_.max_open_files - 10; table_cache_ = NewLRUCache(table_cache_size, immutable_db_options_.table_cache_numshardbits); versions_.reset(new VersionSet(dbname_, &immutable_db_options_, env_options_, table_cache_.get(), write_buffer_manager_, &write_controller_)); column_family_memtables_.reset( new ColumnFamilyMemTablesImpl(versions_->GetColumnFamilySet())); DumpRocksDBBuildVersion(immutable_db_options_.info_log.get()); DumpDBFileSummary(immutable_db_options_, dbname_); immutable_db_options_.Dump(immutable_db_options_.info_log.get()); mutable_db_options_.Dump(immutable_db_options_.info_log.get()); DumpSupportInfo(immutable_db_options_.info_log.get()); // always open the DB with 0 here, which means if preserve_deletes_==true // we won't drop any deletion markers until SetPreserveDeletesSequenceNumber() // is called by client and this seqnum is advanced. preserve_deletes_seqnum_.store(0); } Status DBImpl::Resume() { ROCKS_LOG_INFO(immutable_db_options_.info_log, "Resuming DB"); InstrumentedMutexLock db_mutex(&mutex_); if (!error_handler_.IsDBStopped() && !error_handler_.IsBGWorkStopped()) { // Nothing to do return Status::OK(); } if (error_handler_.IsRecoveryInProgress()) { // Don't allow a mix of manual and automatic recovery return Status::Busy(); } mutex_.Unlock(); Status s = error_handler_.RecoverFromBGError(true); mutex_.Lock(); return s; } // This function implements the guts of recovery from a background error. It // is eventually called for both manual as well as automatic recovery. It does // the following - // 1. Wait for currently scheduled background flush/compaction to exit, in // order to inadvertently causing an error and thinking recovery failed // 2. Flush memtables if there's any data for all the CFs. This may result // another error, which will be saved by error_handler_ and reported later // as the recovery status // 3. Find and delete any obsolete files // 4. Schedule compactions if needed for all the CFs. This is needed as the // flush in the prior step might have been a no-op for some CFs, which // means a new super version wouldn't have been installed Status DBImpl::ResumeImpl() { mutex_.AssertHeld(); WaitForBackgroundWork(); Status bg_error = error_handler_.GetBGError(); Status s; if (shutdown_initiated_) { // Returning shutdown status to SFM during auto recovery will cause it // to abort the recovery and allow the shutdown to progress s = Status::ShutdownInProgress(); } if (s.ok() && bg_error.severity() > Status::Severity::kHardError) { ROCKS_LOG_INFO(immutable_db_options_.info_log, "DB resume requested but failed due to Fatal/Unrecoverable error"); s = bg_error; } // We cannot guarantee consistency of the WAL. So force flush Memtables of // all the column families if (s.ok()) { s = FlushAllCFs(FlushReason::kErrorRecovery); if (!s.ok()) { ROCKS_LOG_INFO(immutable_db_options_.info_log, "DB resume requested but failed due to Flush failure [%s]", s.ToString().c_str()); } } JobContext job_context(0); FindObsoleteFiles(&job_context, true); if (s.ok()) { s = error_handler_.ClearBGError(); } mutex_.Unlock(); job_context.manifest_file_number = 1; if (job_context.HaveSomethingToDelete()) { PurgeObsoleteFiles(job_context); } job_context.Clean(); if (s.ok()) { ROCKS_LOG_INFO(immutable_db_options_.info_log, "Successfully resumed DB"); } mutex_.Lock(); // Check for shutdown again before scheduling further compactions, // since we released and re-acquired the lock above if (shutdown_initiated_) { s = Status::ShutdownInProgress(); } if (s.ok()) { for (auto cfd : *versions_->GetColumnFamilySet()) { SchedulePendingCompaction(cfd); } MaybeScheduleFlushOrCompaction(); } // Wake up any waiters - in this case, it could be the shutdown thread bg_cv_.SignalAll(); // No need to check BGError again. If something happened, event listener would be // notified and the operation causing it would have failed return s; } void DBImpl::WaitForBackgroundWork() { // Wait for background work to finish while (bg_bottom_compaction_scheduled_ || bg_compaction_scheduled_ || bg_flush_scheduled_) { bg_cv_.Wait(); } } // Will lock the mutex_, will wait for completion if wait is true void DBImpl::CancelAllBackgroundWork(bool wait) { InstrumentedMutexLock l(&mutex_); ROCKS_LOG_INFO(immutable_db_options_.info_log, "Shutdown: canceling all background work"); if (!shutting_down_.load(std::memory_order_acquire) && has_unpersisted_data_.load(std::memory_order_relaxed) && !mutable_db_options_.avoid_flush_during_shutdown) { for (auto cfd : *versions_->GetColumnFamilySet()) { if (!cfd->IsDropped() && cfd->initialized() && !cfd->mem()->IsEmpty()) { cfd->Ref(); mutex_.Unlock(); FlushMemTable(cfd, FlushOptions(), FlushReason::kShutDown); mutex_.Lock(); cfd->Unref(); } } versions_->GetColumnFamilySet()->FreeDeadColumnFamilies(); } shutting_down_.store(true, std::memory_order_release); bg_cv_.SignalAll(); if (!wait) { return; } WaitForBackgroundWork(); } Status DBImpl::CloseHelper() { // Guarantee that there is no background error recovery in progress before // continuing with the shutdown mutex_.Lock(); shutdown_initiated_ = true; error_handler_.CancelErrorRecovery(); while (error_handler_.IsRecoveryInProgress()) { bg_cv_.Wait(); } mutex_.Unlock(); // CancelAllBackgroundWork called with false means we just set the shutdown // marker. After this we do a variant of the waiting and unschedule work // (to consider: moving all the waiting into CancelAllBackgroundWork(true)) CancelAllBackgroundWork(false); int bottom_compactions_unscheduled = env_->UnSchedule(this, Env::Priority::BOTTOM); int compactions_unscheduled = env_->UnSchedule(this, Env::Priority::LOW); int flushes_unscheduled = env_->UnSchedule(this, Env::Priority::HIGH); Status ret; mutex_.Lock(); bg_bottom_compaction_scheduled_ -= bottom_compactions_unscheduled; bg_compaction_scheduled_ -= compactions_unscheduled; bg_flush_scheduled_ -= flushes_unscheduled; // Wait for background work to finish while (bg_bottom_compaction_scheduled_ || bg_compaction_scheduled_ || bg_flush_scheduled_ || bg_purge_scheduled_ || pending_purge_obsolete_files_ || error_handler_.IsRecoveryInProgress()) { TEST_SYNC_POINT("DBImpl::~DBImpl:WaitJob"); bg_cv_.Wait(); } TEST_SYNC_POINT_CALLBACK("DBImpl::CloseHelper:PendingPurgeFinished", &files_grabbed_for_purge_); EraseThreadStatusDbInfo(); flush_scheduler_.Clear(); while (!flush_queue_.empty()) { const FlushRequest& flush_req = PopFirstFromFlushQueue(); for (const auto& iter : flush_req) { ColumnFamilyData* cfd = iter.first; if (cfd->Unref()) { delete cfd; } } } while (!compaction_queue_.empty()) { auto cfd = PopFirstFromCompactionQueue(); if (cfd->Unref()) { delete cfd; } } if (default_cf_handle_ != nullptr) { // we need to delete handle outside of lock because it does its own locking mutex_.Unlock(); delete default_cf_handle_; mutex_.Lock(); } // Clean up obsolete files due to SuperVersion release. // (1) Need to delete to obsolete files before closing because RepairDB() // scans all existing files in the file system and builds manifest file. // Keeping obsolete files confuses the repair process. // (2) Need to check if we Open()/Recover() the DB successfully before // deleting because if VersionSet recover fails (may be due to corrupted // manifest file), it is not able to identify live files correctly. As a // result, all "live" files can get deleted by accident. However, corrupted // manifest is recoverable by RepairDB(). if (opened_successfully_) { JobContext job_context(next_job_id_.fetch_add(1)); FindObsoleteFiles(&job_context, true); mutex_.Unlock(); // manifest number starting from 2 job_context.manifest_file_number = 1; if (job_context.HaveSomethingToDelete()) { PurgeObsoleteFiles(job_context); } job_context.Clean(); mutex_.Lock(); } for (auto l : logs_to_free_) { delete l; } for (auto& log : logs_) { uint64_t log_number = log.writer->get_log_number(); Status s = log.ClearWriter(); if (!s.ok()) { ROCKS_LOG_WARN( immutable_db_options_.info_log, "Unable to Sync WAL file %s with error -- %s", LogFileName(immutable_db_options_.wal_dir, log_number).c_str(), s.ToString().c_str()); // Retain the first error if (ret.ok()) { ret = s; } } } logs_.clear(); // Table cache may have table handles holding blocks from the block cache. // We need to release them before the block cache is destroyed. The block // cache may be destroyed inside versions_.reset(), when column family data // list is destroyed, so leaving handles in table cache after // versions_.reset() may cause issues. // Here we clean all unreferenced handles in table cache. // Now we assume all user queries have finished, so only version set itself // can possibly hold the blocks from block cache. After releasing unreferenced // handles here, only handles held by version set left and inside // versions_.reset(), we will release them. There, we need to make sure every // time a handle is released, we erase it from the cache too. By doing that, // we can guarantee that after versions_.reset(), table cache is empty // so the cache can be safely destroyed. table_cache_->EraseUnRefEntries(); for (auto& txn_entry : recovered_transactions_) { delete txn_entry.second; } // versions need to be destroyed before table_cache since it can hold // references to table_cache. versions_.reset(); mutex_.Unlock(); if (db_lock_ != nullptr) { env_->UnlockFile(db_lock_); } ROCKS_LOG_INFO(immutable_db_options_.info_log, "Shutdown complete"); LogFlush(immutable_db_options_.info_log); #ifndef ROCKSDB_LITE // If the sst_file_manager was allocated by us during DB::Open(), ccall // Close() on it before closing the info_log. Otherwise, background thread // in SstFileManagerImpl might try to log something if (immutable_db_options_.sst_file_manager && own_sfm_) { auto sfm = static_cast( immutable_db_options_.sst_file_manager.get()); sfm->Close(); } #endif // ROCKSDB_LITE if (immutable_db_options_.info_log && own_info_log_) { Status s = immutable_db_options_.info_log->Close(); if (ret.ok()) { ret = s; } } return ret; } Status DBImpl::CloseImpl() { return CloseHelper(); } DBImpl::~DBImpl() { if (!closed_) { closed_ = true; CloseHelper(); } } void DBImpl::MaybeIgnoreError(Status* s) const { if (s->ok() || immutable_db_options_.paranoid_checks) { // No change needed } else { ROCKS_LOG_WARN(immutable_db_options_.info_log, "Ignoring error %s", s->ToString().c_str()); *s = Status::OK(); } } const Status DBImpl::CreateArchivalDirectory() { if (immutable_db_options_.wal_ttl_seconds > 0 || immutable_db_options_.wal_size_limit_mb > 0) { std::string archivalPath = ArchivalDirectory(immutable_db_options_.wal_dir); return env_->CreateDirIfMissing(archivalPath); } return Status::OK(); } void DBImpl::PrintStatistics() { auto dbstats = immutable_db_options_.statistics.get(); if (dbstats) { ROCKS_LOG_WARN(immutable_db_options_.info_log, "STATISTICS:\n %s", dbstats->ToString().c_str()); } } void DBImpl::MaybeDumpStats() { mutex_.Lock(); unsigned int stats_dump_period_sec = mutable_db_options_.stats_dump_period_sec; mutex_.Unlock(); if (stats_dump_period_sec == 0) return; const uint64_t now_micros = env_->NowMicros(); if (last_stats_dump_time_microsec_ + stats_dump_period_sec * 1000000 <= now_micros) { // Multiple threads could race in here simultaneously. // However, the last one will update last_stats_dump_time_microsec_ // atomically. We could see more than one dump during one dump // period in rare cases. last_stats_dump_time_microsec_ = now_micros; #ifndef ROCKSDB_LITE const DBPropertyInfo* cf_property_info = GetPropertyInfo(DB::Properties::kCFStats); assert(cf_property_info != nullptr); const DBPropertyInfo* db_property_info = GetPropertyInfo(DB::Properties::kDBStats); assert(db_property_info != nullptr); std::string stats; { InstrumentedMutexLock l(&mutex_); default_cf_internal_stats_->GetStringProperty( *db_property_info, DB::Properties::kDBStats, &stats); for (auto cfd : *versions_->GetColumnFamilySet()) { if (cfd->initialized()) { cfd->internal_stats()->GetStringProperty( *cf_property_info, DB::Properties::kCFStatsNoFileHistogram, &stats); } } for (auto cfd : *versions_->GetColumnFamilySet()) { if (cfd->initialized()) { cfd->internal_stats()->GetStringProperty( *cf_property_info, DB::Properties::kCFFileHistogram, &stats); } } } ROCKS_LOG_WARN(immutable_db_options_.info_log, "------- DUMPING STATS -------"); ROCKS_LOG_WARN(immutable_db_options_.info_log, "%s", stats.c_str()); if (immutable_db_options_.dump_malloc_stats) { stats.clear(); DumpMallocStats(&stats); if (!stats.empty()) { ROCKS_LOG_WARN(immutable_db_options_.info_log, "------- Malloc STATS -------"); ROCKS_LOG_WARN(immutable_db_options_.info_log, "%s", stats.c_str()); } } #endif // !ROCKSDB_LITE PrintStatistics(); } } void DBImpl::ScheduleBgLogWriterClose(JobContext* job_context) { if (!job_context->logs_to_free.empty()) { for (auto l : job_context->logs_to_free) { AddToLogsToFreeQueue(l); } job_context->logs_to_free.clear(); SchedulePurge(); } } Directory* DBImpl::GetDataDir(ColumnFamilyData* cfd, size_t path_id) const { assert(cfd); Directory* ret_dir = cfd->GetDataDir(path_id); if (ret_dir == nullptr) { return directories_.GetDataDir(path_id); } return ret_dir; } Directory* DBImpl::Directories::GetDataDir(size_t path_id) const { assert(path_id < data_dirs_.size()); Directory* ret_dir = data_dirs_[path_id].get(); if (ret_dir == nullptr) { // Should use db_dir_ return db_dir_.get(); } return ret_dir; } Status DBImpl::SetOptions( ColumnFamilyHandle* column_family, const std::unordered_map& options_map) { #ifdef ROCKSDB_LITE (void)column_family; (void)options_map; return Status::NotSupported("Not supported in ROCKSDB LITE"); #else auto* cfd = reinterpret_cast(column_family)->cfd(); if (options_map.empty()) { ROCKS_LOG_WARN(immutable_db_options_.info_log, "SetOptions() on column family [%s], empty input", cfd->GetName().c_str()); return Status::InvalidArgument("empty input"); } MutableCFOptions new_options; Status s; Status persist_options_status; WriteThread::Writer w; SuperVersionContext sv_context(/* create_superversion */ true); { InstrumentedMutexLock l(&mutex_); s = cfd->SetOptions(options_map); if (s.ok()) { new_options = *cfd->GetLatestMutableCFOptions(); // Append new version to recompute compaction score. VersionEdit dummy_edit; versions_->LogAndApply(cfd, new_options, &dummy_edit, &mutex_, directories_.GetDbDir()); // Trigger possible flush/compactions. This has to be before we persist // options to file, otherwise there will be a deadlock with writer // thread. InstallSuperVersionAndScheduleWork(cfd, &sv_context, new_options); persist_options_status = WriteOptionsFile( false /*need_mutex_lock*/, true /*need_enter_write_thread*/); bg_cv_.SignalAll(); } } sv_context.Clean(); ROCKS_LOG_INFO( immutable_db_options_.info_log, "SetOptions() on column family [%s], inputs:", cfd->GetName().c_str()); for (const auto& o : options_map) { ROCKS_LOG_INFO(immutable_db_options_.info_log, "%s: %s\n", o.first.c_str(), o.second.c_str()); } if (s.ok()) { ROCKS_LOG_INFO(immutable_db_options_.info_log, "[%s] SetOptions() succeeded", cfd->GetName().c_str()); new_options.Dump(immutable_db_options_.info_log.get()); if (!persist_options_status.ok()) { s = persist_options_status; } } else { ROCKS_LOG_WARN(immutable_db_options_.info_log, "[%s] SetOptions() failed", cfd->GetName().c_str()); } LogFlush(immutable_db_options_.info_log); return s; #endif // ROCKSDB_LITE } Status DBImpl::SetDBOptions( const std::unordered_map& options_map) { #ifdef ROCKSDB_LITE (void)options_map; return Status::NotSupported("Not supported in ROCKSDB LITE"); #else if (options_map.empty()) { ROCKS_LOG_WARN(immutable_db_options_.info_log, "SetDBOptions(), empty input."); return Status::InvalidArgument("empty input"); } MutableDBOptions new_options; Status s; Status persist_options_status; bool wal_changed = false; WriteThread::Writer w; WriteContext write_context; { InstrumentedMutexLock l(&mutex_); s = GetMutableDBOptionsFromStrings(mutable_db_options_, options_map, &new_options); if (s.ok()) { if (new_options.max_background_compactions > mutable_db_options_.max_background_compactions) { env_->IncBackgroundThreadsIfNeeded( new_options.max_background_compactions, Env::Priority::LOW); MaybeScheduleFlushOrCompaction(); } write_controller_.set_max_delayed_write_rate( new_options.delayed_write_rate); table_cache_.get()->SetCapacity(new_options.max_open_files == -1 ? TableCache::kInfiniteCapacity : new_options.max_open_files - 10); wal_changed = mutable_db_options_.wal_bytes_per_sync != new_options.wal_bytes_per_sync; if (new_options.bytes_per_sync == 0) { new_options.bytes_per_sync = 1024 * 1024; } mutable_db_options_ = new_options; env_options_for_compaction_ = EnvOptions( BuildDBOptions(immutable_db_options_, mutable_db_options_)); env_options_for_compaction_ = env_->OptimizeForCompactionTableWrite( env_options_for_compaction_, immutable_db_options_); versions_->ChangeEnvOptions(mutable_db_options_); env_options_for_compaction_ = env_->OptimizeForCompactionTableRead( env_options_for_compaction_, immutable_db_options_); env_options_for_compaction_.compaction_readahead_size = mutable_db_options_.compaction_readahead_size; write_thread_.EnterUnbatched(&w, &mutex_); if (total_log_size_ > GetMaxTotalWalSize() || wal_changed) { Status purge_wal_status = SwitchWAL(&write_context); if (!purge_wal_status.ok()) { ROCKS_LOG_WARN(immutable_db_options_.info_log, "Unable to purge WAL files in SetDBOptions() -- %s", purge_wal_status.ToString().c_str()); } } persist_options_status = WriteOptionsFile( false /*need_mutex_lock*/, false /*need_enter_write_thread*/); write_thread_.ExitUnbatched(&w); } } ROCKS_LOG_INFO(immutable_db_options_.info_log, "SetDBOptions(), inputs:"); for (const auto& o : options_map) { ROCKS_LOG_INFO(immutable_db_options_.info_log, "%s: %s\n", o.first.c_str(), o.second.c_str()); } if (s.ok()) { ROCKS_LOG_INFO(immutable_db_options_.info_log, "SetDBOptions() succeeded"); new_options.Dump(immutable_db_options_.info_log.get()); if (!persist_options_status.ok()) { if (immutable_db_options_.fail_if_options_file_error) { s = Status::IOError( "SetDBOptions() succeeded, but unable to persist options", persist_options_status.ToString()); } ROCKS_LOG_WARN(immutable_db_options_.info_log, "Unable to persist options in SetDBOptions() -- %s", persist_options_status.ToString().c_str()); } } else { ROCKS_LOG_WARN(immutable_db_options_.info_log, "SetDBOptions failed"); } LogFlush(immutable_db_options_.info_log); return s; #endif // ROCKSDB_LITE } // return the same level if it cannot be moved int DBImpl::FindMinimumEmptyLevelFitting( ColumnFamilyData* cfd, const MutableCFOptions& /*mutable_cf_options*/, int level) { mutex_.AssertHeld(); const auto* vstorage = cfd->current()->storage_info(); int minimum_level = level; for (int i = level - 1; i > 0; --i) { // stop if level i is not empty if (vstorage->NumLevelFiles(i) > 0) break; // stop if level i is too small (cannot fit the level files) if (vstorage->MaxBytesForLevel(i) < vstorage->NumLevelBytes(level)) { break; } minimum_level = i; } return minimum_level; } Status DBImpl::FlushWAL(bool sync) { if (manual_wal_flush_) { // We need to lock log_write_mutex_ since logs_ might change concurrently InstrumentedMutexLock wl(&log_write_mutex_); log::Writer* cur_log_writer = logs_.back().writer; auto s = cur_log_writer->WriteBuffer(); if (!s.ok()) { ROCKS_LOG_ERROR(immutable_db_options_.info_log, "WAL flush error %s", s.ToString().c_str()); // In case there is a fs error we should set it globally to prevent the // future writes WriteStatusCheck(s); // whether sync or not, we should abort the rest of function upon error return s; } if (!sync) { ROCKS_LOG_DEBUG(immutable_db_options_.info_log, "FlushWAL sync=false"); return s; } } if (!sync) { return Status::OK(); } // sync = true ROCKS_LOG_DEBUG(immutable_db_options_.info_log, "FlushWAL sync=true"); return SyncWAL(); } Status DBImpl::SyncWAL() { autovector logs_to_sync; bool need_log_dir_sync; uint64_t current_log_number; { InstrumentedMutexLock l(&mutex_); assert(!logs_.empty()); // This SyncWAL() call only cares about logs up to this number. current_log_number = logfile_number_; while (logs_.front().number <= current_log_number && logs_.front().getting_synced) { log_sync_cv_.Wait(); } // First check that logs are safe to sync in background. for (auto it = logs_.begin(); it != logs_.end() && it->number <= current_log_number; ++it) { if (!it->writer->file()->writable_file()->IsSyncThreadSafe()) { return Status::NotSupported( "SyncWAL() is not supported for this implementation of WAL file", immutable_db_options_.allow_mmap_writes ? "try setting Options::allow_mmap_writes to false" : Slice()); } } for (auto it = logs_.begin(); it != logs_.end() && it->number <= current_log_number; ++it) { auto& log = *it; assert(!log.getting_synced); log.getting_synced = true; logs_to_sync.push_back(log.writer); } need_log_dir_sync = !log_dir_synced_; } TEST_SYNC_POINT("DBWALTest::SyncWALNotWaitWrite:1"); RecordTick(stats_, WAL_FILE_SYNCED); Status status; for (log::Writer* log : logs_to_sync) { status = log->file()->SyncWithoutFlush(immutable_db_options_.use_fsync); if (!status.ok()) { break; } } if (status.ok() && need_log_dir_sync) { status = directories_.GetWalDir()->Fsync(); } TEST_SYNC_POINT("DBWALTest::SyncWALNotWaitWrite:2"); TEST_SYNC_POINT("DBImpl::SyncWAL:BeforeMarkLogsSynced:1"); { InstrumentedMutexLock l(&mutex_); MarkLogsSynced(current_log_number, need_log_dir_sync, status); } TEST_SYNC_POINT("DBImpl::SyncWAL:BeforeMarkLogsSynced:2"); return status; } void DBImpl::MarkLogsSynced(uint64_t up_to, bool synced_dir, const Status& status) { mutex_.AssertHeld(); if (synced_dir && logfile_number_ == up_to && status.ok()) { log_dir_synced_ = true; } for (auto it = logs_.begin(); it != logs_.end() && it->number <= up_to;) { auto& log = *it; assert(log.getting_synced); if (status.ok() && logs_.size() > 1) { logs_to_free_.push_back(log.ReleaseWriter()); // To modify logs_ both mutex_ and log_write_mutex_ must be held InstrumentedMutexLock l(&log_write_mutex_); it = logs_.erase(it); } else { log.getting_synced = false; ++it; } } assert(!status.ok() || logs_.empty() || logs_[0].number > up_to || (logs_.size() == 1 && !logs_[0].getting_synced)); log_sync_cv_.SignalAll(); } SequenceNumber DBImpl::GetLatestSequenceNumber() const { return versions_->LastSequence(); } void DBImpl::SetLastPublishedSequence(SequenceNumber seq) { versions_->SetLastPublishedSequence(seq); } bool DBImpl::SetPreserveDeletesSequenceNumber(SequenceNumber seqnum) { if (seqnum > preserve_deletes_seqnum_.load()) { preserve_deletes_seqnum_.store(seqnum); return true; } else { return false; } } InternalIterator* DBImpl::NewInternalIterator( Arena* arena, RangeDelAggregator* range_del_agg, ColumnFamilyHandle* column_family) { ColumnFamilyData* cfd; if (column_family == nullptr) { cfd = default_cf_handle_->cfd(); } else { auto cfh = reinterpret_cast(column_family); cfd = cfh->cfd(); } mutex_.Lock(); SuperVersion* super_version = cfd->GetSuperVersion()->Ref(); mutex_.Unlock(); ReadOptions roptions; return NewInternalIterator(roptions, cfd, super_version, arena, range_del_agg); } void DBImpl::SchedulePurge() { mutex_.AssertHeld(); assert(opened_successfully_); // Purge operations are put into High priority queue bg_purge_scheduled_++; env_->Schedule(&DBImpl::BGWorkPurge, this, Env::Priority::HIGH, nullptr); } void DBImpl::BackgroundCallPurge() { mutex_.Lock(); // We use one single loop to clear both queues so that after existing the loop // both queues are empty. This is stricter than what is needed, but can make // it easier for us to reason the correctness. while (!purge_queue_.empty() || !logs_to_free_queue_.empty()) { if (!purge_queue_.empty()) { auto purge_file = purge_queue_.begin(); auto fname = purge_file->fname; auto dir_to_sync = purge_file->dir_to_sync; auto type = purge_file->type; auto number = purge_file->number; auto job_id = purge_file->job_id; purge_queue_.pop_front(); mutex_.Unlock(); DeleteObsoleteFileImpl(job_id, fname, dir_to_sync, type, number); mutex_.Lock(); } else { assert(!logs_to_free_queue_.empty()); log::Writer* log_writer = *(logs_to_free_queue_.begin()); logs_to_free_queue_.pop_front(); mutex_.Unlock(); delete log_writer; mutex_.Lock(); } } bg_purge_scheduled_--; bg_cv_.SignalAll(); // IMPORTANT:there should be no code after calling SignalAll. This call may // signal the DB destructor that it's OK to proceed with destruction. In // that case, all DB variables will be dealloacated and referencing them // will cause trouble. mutex_.Unlock(); } namespace { struct IterState { IterState(DBImpl* _db, InstrumentedMutex* _mu, SuperVersion* _super_version, bool _background_purge) : db(_db), mu(_mu), super_version(_super_version), background_purge(_background_purge) {} DBImpl* db; InstrumentedMutex* mu; SuperVersion* super_version; bool background_purge; }; static void CleanupIteratorState(void* arg1, void* /*arg2*/) { IterState* state = reinterpret_cast(arg1); if (state->super_version->Unref()) { // Job id == 0 means that this is not our background process, but rather // user thread JobContext job_context(0); state->mu->Lock(); state->super_version->Cleanup(); state->db->FindObsoleteFiles(&job_context, false, true); if (state->background_purge) { state->db->ScheduleBgLogWriterClose(&job_context); } state->mu->Unlock(); delete state->super_version; if (job_context.HaveSomethingToDelete()) { if (state->background_purge) { // PurgeObsoleteFiles here does not delete files. Instead, it adds the // files to be deleted to a job queue, and deletes it in a separate // background thread. state->db->PurgeObsoleteFiles(job_context, true /* schedule only */); state->mu->Lock(); state->db->SchedulePurge(); state->mu->Unlock(); } else { state->db->PurgeObsoleteFiles(job_context); } } job_context.Clean(); } delete state; } } // namespace InternalIterator* DBImpl::NewInternalIterator( const ReadOptions& read_options, ColumnFamilyData* cfd, SuperVersion* super_version, Arena* arena, RangeDelAggregator* range_del_agg) { InternalIterator* internal_iter; assert(arena != nullptr); assert(range_del_agg != nullptr); // Need to create internal iterator from the arena. MergeIteratorBuilder merge_iter_builder( &cfd->internal_comparator(), arena, !read_options.total_order_seek && super_version->mutable_cf_options.prefix_extractor != nullptr); // Collect iterator for mutable mem merge_iter_builder.AddIterator( super_version->mem->NewIterator(read_options, arena)); std::unique_ptr range_del_iter; Status s; if (!read_options.ignore_range_deletions) { range_del_iter.reset( super_version->mem->NewRangeTombstoneIterator(read_options)); s = range_del_agg->AddTombstones(std::move(range_del_iter)); } // Collect all needed child iterators for immutable memtables if (s.ok()) { super_version->imm->AddIterators(read_options, &merge_iter_builder); if (!read_options.ignore_range_deletions) { s = super_version->imm->AddRangeTombstoneIterators(read_options, arena, range_del_agg); } } TEST_SYNC_POINT_CALLBACK("DBImpl::NewInternalIterator:StatusCallback", &s); if (s.ok()) { // Collect iterators for files in L0 - Ln if (read_options.read_tier != kMemtableTier) { super_version->current->AddIterators(read_options, env_options_, &merge_iter_builder, range_del_agg); } internal_iter = merge_iter_builder.Finish(); IterState* cleanup = new IterState(this, &mutex_, super_version, read_options.background_purge_on_iterator_cleanup); internal_iter->RegisterCleanup(CleanupIteratorState, cleanup, nullptr); return internal_iter; } else { CleanupSuperVersion(super_version); } return NewErrorInternalIterator(s, arena); } ColumnFamilyHandle* DBImpl::DefaultColumnFamily() const { return default_cf_handle_; } Status DBImpl::Get(const ReadOptions& read_options, ColumnFamilyHandle* column_family, const Slice& key, PinnableSlice* value) { return GetImpl(read_options, column_family, key, value); } Status DBImpl::GetImpl(const ReadOptions& read_options, ColumnFamilyHandle* column_family, const Slice& key, PinnableSlice* pinnable_val, bool* value_found, ReadCallback* callback, bool* is_blob_index) { assert(pinnable_val != nullptr); StopWatch sw(env_, stats_, DB_GET); PERF_TIMER_GUARD(get_snapshot_time); auto cfh = reinterpret_cast(column_family); auto cfd = cfh->cfd(); if (tracer_) { // TODO: This mutex should be removed later, to improve performance when // tracing is enabled. InstrumentedMutexLock lock(&trace_mutex_); if (tracer_) { tracer_->Get(column_family, key); } } // Acquire SuperVersion SuperVersion* sv = GetAndRefSuperVersion(cfd); TEST_SYNC_POINT("DBImpl::GetImpl:1"); TEST_SYNC_POINT("DBImpl::GetImpl:2"); SequenceNumber snapshot; if (read_options.snapshot != nullptr) { // Note: In WritePrepared txns this is not necessary but not harmful // either. Because prep_seq > snapshot => commit_seq > snapshot so if // a snapshot is specified we should be fine with skipping seq numbers // that are greater than that. // // In WriteUnprepared, we cannot set snapshot in the lookup key because we // may skip uncommitted data that should be visible to the transaction for // reading own writes. snapshot = reinterpret_cast(read_options.snapshot)->number_; if (callback) { snapshot = std::max(snapshot, callback->MaxUnpreparedSequenceNumber()); } } else { // Since we get and reference the super version before getting // the snapshot number, without a mutex protection, it is possible // that a memtable switch happened in the middle and not all the // data for this snapshot is available. But it will contain all // the data available in the super version we have, which is also // a valid snapshot to read from. // We shouldn't get snapshot before finding and referencing the super // version because a flush happening in between may compact away data for // the snapshot, but the snapshot is earlier than the data overwriting it, // so users may see wrong results. snapshot = last_seq_same_as_publish_seq_ ? versions_->LastSequence() : versions_->LastPublishedSequence(); } TEST_SYNC_POINT("DBImpl::GetImpl:3"); TEST_SYNC_POINT("DBImpl::GetImpl:4"); // Prepare to store a list of merge operations if merge occurs. MergeContext merge_context; RangeDelAggregator range_del_agg(cfd->internal_comparator(), snapshot); Status s; // First look in the memtable, then in the immutable memtable (if any). // s is both in/out. When in, s could either be OK or MergeInProgress. // merge_operands will contain the sequence of merges in the latter case. LookupKey lkey(key, snapshot); PERF_TIMER_STOP(get_snapshot_time); bool skip_memtable = (read_options.read_tier == kPersistedTier && has_unpersisted_data_.load(std::memory_order_relaxed)); bool done = false; if (!skip_memtable) { if (sv->mem->Get(lkey, pinnable_val->GetSelf(), &s, &merge_context, &range_del_agg, read_options, callback, is_blob_index)) { done = true; pinnable_val->PinSelf(); RecordTick(stats_, MEMTABLE_HIT); } else if ((s.ok() || s.IsMergeInProgress()) && sv->imm->Get(lkey, pinnable_val->GetSelf(), &s, &merge_context, &range_del_agg, read_options, callback, is_blob_index)) { done = true; pinnable_val->PinSelf(); RecordTick(stats_, MEMTABLE_HIT); } if (!done && !s.ok() && !s.IsMergeInProgress()) { ReturnAndCleanupSuperVersion(cfd, sv); return s; } } if (!done) { PERF_TIMER_GUARD(get_from_output_files_time); sv->current->Get(read_options, lkey, pinnable_val, &s, &merge_context, &range_del_agg, value_found, nullptr, nullptr, callback, is_blob_index); RecordTick(stats_, MEMTABLE_MISS); } { PERF_TIMER_GUARD(get_post_process_time); ReturnAndCleanupSuperVersion(cfd, sv); RecordTick(stats_, NUMBER_KEYS_READ); size_t size = pinnable_val->size(); RecordTick(stats_, BYTES_READ, size); MeasureTime(stats_, BYTES_PER_READ, size); PERF_COUNTER_ADD(get_read_bytes, size); } return s; } std::vector DBImpl::MultiGet( const ReadOptions& read_options, const std::vector& column_family, const std::vector& keys, std::vector* values) { StopWatch sw(env_, stats_, DB_MULTIGET); PERF_TIMER_GUARD(get_snapshot_time); SequenceNumber snapshot; struct MultiGetColumnFamilyData { ColumnFamilyData* cfd; SuperVersion* super_version; }; std::unordered_map multiget_cf_data; // fill up and allocate outside of mutex for (auto cf : column_family) { auto cfh = reinterpret_cast(cf); auto cfd = cfh->cfd(); if (multiget_cf_data.find(cfd->GetID()) == multiget_cf_data.end()) { auto mgcfd = new MultiGetColumnFamilyData(); mgcfd->cfd = cfd; multiget_cf_data.insert({cfd->GetID(), mgcfd}); } } mutex_.Lock(); if (read_options.snapshot != nullptr) { snapshot = reinterpret_cast(read_options.snapshot)->number_; } else { snapshot = last_seq_same_as_publish_seq_ ? versions_->LastSequence() : versions_->LastPublishedSequence(); } for (auto mgd_iter : multiget_cf_data) { mgd_iter.second->super_version = mgd_iter.second->cfd->GetSuperVersion()->Ref(); } mutex_.Unlock(); // Contain a list of merge operations if merge occurs. MergeContext merge_context; // Note: this always resizes the values array size_t num_keys = keys.size(); std::vector stat_list(num_keys); values->resize(num_keys); // Keep track of bytes that we read for statistics-recording later uint64_t bytes_read = 0; PERF_TIMER_STOP(get_snapshot_time); // For each of the given keys, apply the entire "get" process as follows: // First look in the memtable, then in the immutable memtable (if any). // s is both in/out. When in, s could either be OK or MergeInProgress. // merge_operands will contain the sequence of merges in the latter case. size_t num_found = 0; for (size_t i = 0; i < num_keys; ++i) { merge_context.Clear(); Status& s = stat_list[i]; std::string* value = &(*values)[i]; LookupKey lkey(keys[i], snapshot); auto cfh = reinterpret_cast(column_family[i]); RangeDelAggregator range_del_agg(cfh->cfd()->internal_comparator(), snapshot); auto mgd_iter = multiget_cf_data.find(cfh->cfd()->GetID()); assert(mgd_iter != multiget_cf_data.end()); auto mgd = mgd_iter->second; auto super_version = mgd->super_version; bool skip_memtable = (read_options.read_tier == kPersistedTier && has_unpersisted_data_.load(std::memory_order_relaxed)); bool done = false; if (!skip_memtable) { if (super_version->mem->Get(lkey, value, &s, &merge_context, &range_del_agg, read_options)) { done = true; RecordTick(stats_, MEMTABLE_HIT); } else if (super_version->imm->Get(lkey, value, &s, &merge_context, &range_del_agg, read_options)) { done = true; RecordTick(stats_, MEMTABLE_HIT); } } if (!done) { PinnableSlice pinnable_val; PERF_TIMER_GUARD(get_from_output_files_time); super_version->current->Get(read_options, lkey, &pinnable_val, &s, &merge_context, &range_del_agg); value->assign(pinnable_val.data(), pinnable_val.size()); RecordTick(stats_, MEMTABLE_MISS); } if (s.ok()) { bytes_read += value->size(); num_found++; } } // Post processing (decrement reference counts and record statistics) PERF_TIMER_GUARD(get_post_process_time); autovector superversions_to_delete; // TODO(icanadi) do we need lock here or just around Cleanup()? mutex_.Lock(); for (auto mgd_iter : multiget_cf_data) { auto mgd = mgd_iter.second; if (mgd->super_version->Unref()) { mgd->super_version->Cleanup(); superversions_to_delete.push_back(mgd->super_version); } } mutex_.Unlock(); for (auto td : superversions_to_delete) { delete td; } for (auto mgd : multiget_cf_data) { delete mgd.second; } RecordTick(stats_, NUMBER_MULTIGET_CALLS); RecordTick(stats_, NUMBER_MULTIGET_KEYS_READ, num_keys); RecordTick(stats_, NUMBER_MULTIGET_KEYS_FOUND, num_found); RecordTick(stats_, NUMBER_MULTIGET_BYTES_READ, bytes_read); MeasureTime(stats_, BYTES_PER_MULTIGET, bytes_read); PERF_COUNTER_ADD(multiget_read_bytes, bytes_read); PERF_TIMER_STOP(get_post_process_time); return stat_list; } Status DBImpl::CreateColumnFamily(const ColumnFamilyOptions& cf_options, const std::string& column_family, ColumnFamilyHandle** handle) { assert(handle != nullptr); Status s = CreateColumnFamilyImpl(cf_options, column_family, handle); if (s.ok()) { s = WriteOptionsFile(true /*need_mutex_lock*/, true /*need_enter_write_thread*/); } return s; } Status DBImpl::CreateColumnFamilies( const ColumnFamilyOptions& cf_options, const std::vector& column_family_names, std::vector* handles) { assert(handles != nullptr); handles->clear(); size_t num_cf = column_family_names.size(); Status s; bool success_once = false; for (size_t i = 0; i < num_cf; i++) { ColumnFamilyHandle* handle; s = CreateColumnFamilyImpl(cf_options, column_family_names[i], &handle); if (!s.ok()) { break; } handles->push_back(handle); success_once = true; } if (success_once) { Status persist_options_status = WriteOptionsFile( true /*need_mutex_lock*/, true /*need_enter_write_thread*/); if (s.ok() && !persist_options_status.ok()) { s = persist_options_status; } } return s; } Status DBImpl::CreateColumnFamilies( const std::vector& column_families, std::vector* handles) { assert(handles != nullptr); handles->clear(); size_t num_cf = column_families.size(); Status s; bool success_once = false; for (size_t i = 0; i < num_cf; i++) { ColumnFamilyHandle* handle; s = CreateColumnFamilyImpl(column_families[i].options, column_families[i].name, &handle); if (!s.ok()) { break; } handles->push_back(handle); success_once = true; } if (success_once) { Status persist_options_status = WriteOptionsFile( true /*need_mutex_lock*/, true /*need_enter_write_thread*/); if (s.ok() && !persist_options_status.ok()) { s = persist_options_status; } } return s; } Status DBImpl::CreateColumnFamilyImpl(const ColumnFamilyOptions& cf_options, const std::string& column_family_name, ColumnFamilyHandle** handle) { Status s; Status persist_options_status; *handle = nullptr; s = CheckCompressionSupported(cf_options); if (s.ok() && immutable_db_options_.allow_concurrent_memtable_write) { s = CheckConcurrentWritesSupported(cf_options); } if (s.ok()) { s = CheckCFPathsSupported(initial_db_options_, cf_options); } if (s.ok()) { for (auto& cf_path : cf_options.cf_paths) { s = env_->CreateDirIfMissing(cf_path.path); if (!s.ok()) { break; } } } if (!s.ok()) { return s; } SuperVersionContext sv_context(/* create_superversion */ true); { InstrumentedMutexLock l(&mutex_); if (versions_->GetColumnFamilySet()->GetColumnFamily(column_family_name) != nullptr) { return Status::InvalidArgument("Column family already exists"); } VersionEdit edit; edit.AddColumnFamily(column_family_name); uint32_t new_id = versions_->GetColumnFamilySet()->GetNextColumnFamilyID(); edit.SetColumnFamily(new_id); edit.SetLogNumber(logfile_number_); edit.SetComparatorName(cf_options.comparator->Name()); // LogAndApply will both write the creation in MANIFEST and create // ColumnFamilyData object { // write thread WriteThread::Writer w; write_thread_.EnterUnbatched(&w, &mutex_); // LogAndApply will both write the creation in MANIFEST and create // ColumnFamilyData object s = versions_->LogAndApply(nullptr, MutableCFOptions(cf_options), &edit, &mutex_, directories_.GetDbDir(), false, &cf_options); write_thread_.ExitUnbatched(&w); } if (s.ok()) { auto* cfd = versions_->GetColumnFamilySet()->GetColumnFamily(column_family_name); assert(cfd != nullptr); s = cfd->AddDirectories(); } if (s.ok()) { single_column_family_mode_ = false; auto* cfd = versions_->GetColumnFamilySet()->GetColumnFamily(column_family_name); assert(cfd != nullptr); InstallSuperVersionAndScheduleWork(cfd, &sv_context, *cfd->GetLatestMutableCFOptions()); if (!cfd->mem()->IsSnapshotSupported()) { is_snapshot_supported_ = false; } cfd->set_initialized(); *handle = new ColumnFamilyHandleImpl(cfd, this, &mutex_); ROCKS_LOG_INFO(immutable_db_options_.info_log, "Created column family [%s] (ID %u)", column_family_name.c_str(), (unsigned)cfd->GetID()); } else { ROCKS_LOG_ERROR(immutable_db_options_.info_log, "Creating column family [%s] FAILED -- %s", column_family_name.c_str(), s.ToString().c_str()); } } // InstrumentedMutexLock l(&mutex_) sv_context.Clean(); // this is outside the mutex if (s.ok()) { NewThreadStatusCfInfo( reinterpret_cast(*handle)->cfd()); } return s; } Status DBImpl::DropColumnFamily(ColumnFamilyHandle* column_family) { assert(column_family != nullptr); Status s = DropColumnFamilyImpl(column_family); if (s.ok()) { s = WriteOptionsFile(true /*need_mutex_lock*/, true /*need_enter_write_thread*/); } return s; } Status DBImpl::DropColumnFamilies( const std::vector& column_families) { Status s; bool success_once = false; for (auto* handle : column_families) { s = DropColumnFamilyImpl(handle); if (!s.ok()) { break; } success_once = true; } if (success_once) { Status persist_options_status = WriteOptionsFile( true /*need_mutex_lock*/, true /*need_enter_write_thread*/); if (s.ok() && !persist_options_status.ok()) { s = persist_options_status; } } return s; } Status DBImpl::DropColumnFamilyImpl(ColumnFamilyHandle* column_family) { auto cfh = reinterpret_cast(column_family); auto cfd = cfh->cfd(); if (cfd->GetID() == 0) { return Status::InvalidArgument("Can't drop default column family"); } bool cf_support_snapshot = cfd->mem()->IsSnapshotSupported(); VersionEdit edit; edit.DropColumnFamily(); edit.SetColumnFamily(cfd->GetID()); Status s; { InstrumentedMutexLock l(&mutex_); if (cfd->IsDropped()) { s = Status::InvalidArgument("Column family already dropped!\n"); } if (s.ok()) { // we drop column family from a single write thread WriteThread::Writer w; write_thread_.EnterUnbatched(&w, &mutex_); s = versions_->LogAndApply(cfd, *cfd->GetLatestMutableCFOptions(), &edit, &mutex_); write_thread_.ExitUnbatched(&w); } if (s.ok()) { auto* mutable_cf_options = cfd->GetLatestMutableCFOptions(); max_total_in_memory_state_ -= mutable_cf_options->write_buffer_size * mutable_cf_options->max_write_buffer_number; } if (!cf_support_snapshot) { // Dropped Column Family doesn't support snapshot. Need to recalculate // is_snapshot_supported_. bool new_is_snapshot_supported = true; for (auto c : *versions_->GetColumnFamilySet()) { if (!c->IsDropped() && !c->mem()->IsSnapshotSupported()) { new_is_snapshot_supported = false; break; } } is_snapshot_supported_ = new_is_snapshot_supported; } bg_cv_.SignalAll(); } if (s.ok()) { // Note that here we erase the associated cf_info of the to-be-dropped // cfd before its ref-count goes to zero to avoid having to erase cf_info // later inside db_mutex. EraseThreadStatusCfInfo(cfd); assert(cfd->IsDropped()); ROCKS_LOG_INFO(immutable_db_options_.info_log, "Dropped column family with id %u\n", cfd->GetID()); } else { ROCKS_LOG_ERROR(immutable_db_options_.info_log, "Dropping column family with id %u FAILED -- %s\n", cfd->GetID(), s.ToString().c_str()); } return s; } bool DBImpl::KeyMayExist(const ReadOptions& read_options, ColumnFamilyHandle* column_family, const Slice& key, std::string* value, bool* value_found) { assert(value != nullptr); if (value_found != nullptr) { // falsify later if key-may-exist but can't fetch value *value_found = true; } ReadOptions roptions = read_options; roptions.read_tier = kBlockCacheTier; // read from block cache only PinnableSlice pinnable_val; auto s = GetImpl(roptions, column_family, key, &pinnable_val, value_found); value->assign(pinnable_val.data(), pinnable_val.size()); // If block_cache is enabled and the index block of the table didn't // not present in block_cache, the return value will be Status::Incomplete. // In this case, key may still exist in the table. return s.ok() || s.IsIncomplete(); } Iterator* DBImpl::NewIterator(const ReadOptions& read_options, ColumnFamilyHandle* column_family) { if (read_options.managed) { return NewErrorIterator( Status::NotSupported("Managed iterator is not supported anymore.")); } Iterator* result = nullptr; if (read_options.read_tier == kPersistedTier) { return NewErrorIterator(Status::NotSupported( "ReadTier::kPersistedData is not yet supported in iterators.")); } // if iterator wants internal keys, we can only proceed if // we can guarantee the deletes haven't been processed yet if (immutable_db_options_.preserve_deletes && read_options.iter_start_seqnum > 0 && read_options.iter_start_seqnum < preserve_deletes_seqnum_.load()) { return NewErrorIterator(Status::InvalidArgument( "Iterator requested internal keys which are too old and are not" " guaranteed to be preserved, try larger iter_start_seqnum opt.")); } auto cfh = reinterpret_cast(column_family); auto cfd = cfh->cfd(); ReadCallback* read_callback = nullptr; // No read callback provided. if (read_options.tailing) { #ifdef ROCKSDB_LITE // not supported in lite version result = nullptr; #else SuperVersion* sv = cfd->GetReferencedSuperVersion(&mutex_); auto iter = new ForwardIterator(this, read_options, cfd, sv); result = NewDBIterator( env_, read_options, *cfd->ioptions(), sv->mutable_cf_options, cfd->user_comparator(), iter, kMaxSequenceNumber, sv->mutable_cf_options.max_sequential_skip_in_iterations, read_callback, this, cfd); #endif } else { // Note: no need to consider the special case of // last_seq_same_as_publish_seq_==false since NewIterator is overridden in // WritePreparedTxnDB auto snapshot = read_options.snapshot != nullptr ? read_options.snapshot->GetSequenceNumber() : versions_->LastSequence(); result = NewIteratorImpl(read_options, cfd, snapshot, read_callback); } return result; } ArenaWrappedDBIter* DBImpl::NewIteratorImpl(const ReadOptions& read_options, ColumnFamilyData* cfd, SequenceNumber snapshot, ReadCallback* read_callback, bool allow_blob, bool allow_refresh) { SuperVersion* sv = cfd->GetReferencedSuperVersion(&mutex_); // Try to generate a DB iterator tree in continuous memory area to be // cache friendly. Here is an example of result: // +-------------------------------+ // | | // | ArenaWrappedDBIter | // | + | // | +---> Inner Iterator ------------+ // | | | | // | | +-- -- -- -- -- -- -- --+ | // | +--- | Arena | | // | | | | // | Allocated Memory: | | // | | +-------------------+ | // | | | DBIter | <---+ // | | + | // | | | +-> iter_ ------------+ // | | | | | // | | +-------------------+ | // | | | MergingIterator | <---+ // | | + | // | | | +->child iter1 ------------+ // | | | | | | // | | +->child iter2 ----------+ | // | | | | | | | // | | | +->child iter3 --------+ | | // | | | | | | // | | +-------------------+ | | | // | | | Iterator1 | <--------+ // | | +-------------------+ | | // | | | Iterator2 | <------+ // | | +-------------------+ | // | | | Iterator3 | <----+ // | | +-------------------+ // | | | // +-------+-----------------------+ // // ArenaWrappedDBIter inlines an arena area where all the iterators in // the iterator tree are allocated in the order of being accessed when // querying. // Laying out the iterators in the order of being accessed makes it more // likely that any iterator pointer is close to the iterator it points to so // that they are likely to be in the same cache line and/or page. ArenaWrappedDBIter* db_iter = NewArenaWrappedDbIterator( env_, read_options, *cfd->ioptions(), sv->mutable_cf_options, snapshot, sv->mutable_cf_options.max_sequential_skip_in_iterations, sv->version_number, read_callback, this, cfd, allow_blob, ((read_options.snapshot != nullptr) ? false : allow_refresh)); InternalIterator* internal_iter = NewInternalIterator(read_options, cfd, sv, db_iter->GetArena(), db_iter->GetRangeDelAggregator()); db_iter->SetIterUnderDBIter(internal_iter); return db_iter; } Status DBImpl::NewIterators( const ReadOptions& read_options, const std::vector& column_families, std::vector* iterators) { if (read_options.managed) { return Status::NotSupported("Managed iterator is not supported anymore."); } if (read_options.read_tier == kPersistedTier) { return Status::NotSupported( "ReadTier::kPersistedData is not yet supported in iterators."); } ReadCallback* read_callback = nullptr; // No read callback provided. iterators->clear(); iterators->reserve(column_families.size()); if (read_options.tailing) { #ifdef ROCKSDB_LITE return Status::InvalidArgument( "Tailing interator not supported in RocksDB lite"); #else for (auto cfh : column_families) { auto cfd = reinterpret_cast(cfh)->cfd(); SuperVersion* sv = cfd->GetReferencedSuperVersion(&mutex_); auto iter = new ForwardIterator(this, read_options, cfd, sv); iterators->push_back(NewDBIterator( env_, read_options, *cfd->ioptions(), sv->mutable_cf_options, cfd->user_comparator(), iter, kMaxSequenceNumber, sv->mutable_cf_options.max_sequential_skip_in_iterations, read_callback, this, cfd)); } #endif } else { // Note: no need to consider the special case of // last_seq_same_as_publish_seq_==false since NewIterators is overridden in // WritePreparedTxnDB auto snapshot = read_options.snapshot != nullptr ? read_options.snapshot->GetSequenceNumber() : versions_->LastSequence(); for (size_t i = 0; i < column_families.size(); ++i) { auto* cfd = reinterpret_cast(column_families[i])->cfd(); iterators->push_back( NewIteratorImpl(read_options, cfd, snapshot, read_callback)); } } return Status::OK(); } const Snapshot* DBImpl::GetSnapshot() { return GetSnapshotImpl(false); } #ifndef ROCKSDB_LITE const Snapshot* DBImpl::GetSnapshotForWriteConflictBoundary() { return GetSnapshotImpl(true); } #endif // ROCKSDB_LITE SnapshotImpl* DBImpl::GetSnapshotImpl(bool is_write_conflict_boundary) { int64_t unix_time = 0; env_->GetCurrentTime(&unix_time); // Ignore error SnapshotImpl* s = new SnapshotImpl; InstrumentedMutexLock l(&mutex_); // returns null if the underlying memtable does not support snapshot. if (!is_snapshot_supported_) { delete s; return nullptr; } auto snapshot_seq = last_seq_same_as_publish_seq_ ? versions_->LastSequence() : versions_->LastPublishedSequence(); return snapshots_.New(s, snapshot_seq, unix_time, is_write_conflict_boundary); } void DBImpl::ReleaseSnapshot(const Snapshot* s) { const SnapshotImpl* casted_s = reinterpret_cast(s); { InstrumentedMutexLock l(&mutex_); snapshots_.Delete(casted_s); uint64_t oldest_snapshot; if (snapshots_.empty()) { oldest_snapshot = last_seq_same_as_publish_seq_ ? versions_->LastSequence() : versions_->LastPublishedSequence(); } else { oldest_snapshot = snapshots_.oldest()->number_; } for (auto* cfd : *versions_->GetColumnFamilySet()) { cfd->current()->storage_info()->UpdateOldestSnapshot(oldest_snapshot); if (!cfd->current() ->storage_info() ->BottommostFilesMarkedForCompaction() .empty()) { SchedulePendingCompaction(cfd); MaybeScheduleFlushOrCompaction(); } } } delete casted_s; } #ifndef ROCKSDB_LITE Status DBImpl::GetPropertiesOfAllTables(ColumnFamilyHandle* column_family, TablePropertiesCollection* props) { auto cfh = reinterpret_cast(column_family); auto cfd = cfh->cfd(); // Increment the ref count mutex_.Lock(); auto version = cfd->current(); version->Ref(); mutex_.Unlock(); auto s = version->GetPropertiesOfAllTables(props); // Decrement the ref count mutex_.Lock(); version->Unref(); mutex_.Unlock(); return s; } Status DBImpl::GetPropertiesOfTablesInRange(ColumnFamilyHandle* column_family, const Range* range, std::size_t n, TablePropertiesCollection* props) { auto cfh = reinterpret_cast(column_family); auto cfd = cfh->cfd(); // Increment the ref count mutex_.Lock(); auto version = cfd->current(); version->Ref(); mutex_.Unlock(); auto s = version->GetPropertiesOfTablesInRange(range, n, props); // Decrement the ref count mutex_.Lock(); version->Unref(); mutex_.Unlock(); return s; } #endif // ROCKSDB_LITE const std::string& DBImpl::GetName() const { return dbname_; } Env* DBImpl::GetEnv() const { return env_; } Options DBImpl::GetOptions(ColumnFamilyHandle* column_family) const { InstrumentedMutexLock l(&mutex_); auto cfh = reinterpret_cast(column_family); return Options(BuildDBOptions(immutable_db_options_, mutable_db_options_), cfh->cfd()->GetLatestCFOptions()); } DBOptions DBImpl::GetDBOptions() const { InstrumentedMutexLock l(&mutex_); return BuildDBOptions(immutable_db_options_, mutable_db_options_); } bool DBImpl::GetProperty(ColumnFamilyHandle* column_family, const Slice& property, std::string* value) { const DBPropertyInfo* property_info = GetPropertyInfo(property); value->clear(); auto cfd = reinterpret_cast(column_family)->cfd(); if (property_info == nullptr) { return false; } else if (property_info->handle_int) { uint64_t int_value; bool ret_value = GetIntPropertyInternal(cfd, *property_info, false, &int_value); if (ret_value) { *value = ToString(int_value); } return ret_value; } else if (property_info->handle_string) { InstrumentedMutexLock l(&mutex_); return cfd->internal_stats()->GetStringProperty(*property_info, property, value); } else if (property_info->handle_string_dbimpl) { std::string tmp_value; bool ret_value = (this->*(property_info->handle_string_dbimpl))(&tmp_value); if (ret_value) { *value = tmp_value; } return ret_value; } // Shouldn't reach here since exactly one of handle_string and handle_int // should be non-nullptr. assert(false); return false; } bool DBImpl::GetMapProperty(ColumnFamilyHandle* column_family, const Slice& property, std::map* value) { const DBPropertyInfo* property_info = GetPropertyInfo(property); value->clear(); auto cfd = reinterpret_cast(column_family)->cfd(); if (property_info == nullptr) { return false; } else if (property_info->handle_map) { InstrumentedMutexLock l(&mutex_); return cfd->internal_stats()->GetMapProperty(*property_info, property, value); } // If we reach this point it means that handle_map is not provided for the // requested property return false; } bool DBImpl::GetIntProperty(ColumnFamilyHandle* column_family, const Slice& property, uint64_t* value) { const DBPropertyInfo* property_info = GetPropertyInfo(property); if (property_info == nullptr || property_info->handle_int == nullptr) { return false; } auto cfd = reinterpret_cast(column_family)->cfd(); return GetIntPropertyInternal(cfd, *property_info, false, value); } bool DBImpl::GetIntPropertyInternal(ColumnFamilyData* cfd, const DBPropertyInfo& property_info, bool is_locked, uint64_t* value) { assert(property_info.handle_int != nullptr); if (!property_info.need_out_of_mutex) { if (is_locked) { mutex_.AssertHeld(); return cfd->internal_stats()->GetIntProperty(property_info, value, this); } else { InstrumentedMutexLock l(&mutex_); return cfd->internal_stats()->GetIntProperty(property_info, value, this); } } else { SuperVersion* sv = nullptr; if (!is_locked) { sv = GetAndRefSuperVersion(cfd); } else { sv = cfd->GetSuperVersion(); } bool ret = cfd->internal_stats()->GetIntPropertyOutOfMutex( property_info, sv->current, value); if (!is_locked) { ReturnAndCleanupSuperVersion(cfd, sv); } return ret; } } bool DBImpl::GetPropertyHandleOptionsStatistics(std::string* value) { assert(value != nullptr); Statistics* statistics = immutable_db_options_.statistics.get(); if (!statistics) { return false; } *value = statistics->ToString(); return true; } #ifndef ROCKSDB_LITE Status DBImpl::ResetStats() { InstrumentedMutexLock l(&mutex_); for (auto* cfd : *versions_->GetColumnFamilySet()) { if (cfd->initialized()) { cfd->internal_stats()->Clear(); } } return Status::OK(); } #endif // ROCKSDB_LITE bool DBImpl::GetAggregatedIntProperty(const Slice& property, uint64_t* aggregated_value) { const DBPropertyInfo* property_info = GetPropertyInfo(property); if (property_info == nullptr || property_info->handle_int == nullptr) { return false; } uint64_t sum = 0; { // Needs mutex to protect the list of column families. InstrumentedMutexLock l(&mutex_); uint64_t value; for (auto* cfd : *versions_->GetColumnFamilySet()) { if (!cfd->initialized()) { continue; } if (GetIntPropertyInternal(cfd, *property_info, true, &value)) { sum += value; } else { return false; } } } *aggregated_value = sum; return true; } SuperVersion* DBImpl::GetAndRefSuperVersion(ColumnFamilyData* cfd) { // TODO(ljin): consider using GetReferencedSuperVersion() directly return cfd->GetThreadLocalSuperVersion(&mutex_); } // REQUIRED: this function should only be called on the write thread or if the // mutex is held. SuperVersion* DBImpl::GetAndRefSuperVersion(uint32_t column_family_id) { auto column_family_set = versions_->GetColumnFamilySet(); auto cfd = column_family_set->GetColumnFamily(column_family_id); if (!cfd) { return nullptr; } return GetAndRefSuperVersion(cfd); } void DBImpl::CleanupSuperVersion(SuperVersion* sv) { // Release SuperVersion if (sv->Unref()) { { InstrumentedMutexLock l(&mutex_); sv->Cleanup(); } delete sv; RecordTick(stats_, NUMBER_SUPERVERSION_CLEANUPS); } RecordTick(stats_, NUMBER_SUPERVERSION_RELEASES); } void DBImpl::ReturnAndCleanupSuperVersion(ColumnFamilyData* cfd, SuperVersion* sv) { if (!cfd->ReturnThreadLocalSuperVersion(sv)) { CleanupSuperVersion(sv); } } // REQUIRED: this function should only be called on the write thread. void DBImpl::ReturnAndCleanupSuperVersion(uint32_t column_family_id, SuperVersion* sv) { auto column_family_set = versions_->GetColumnFamilySet(); auto cfd = column_family_set->GetColumnFamily(column_family_id); // If SuperVersion is held, and we successfully fetched a cfd using // GetAndRefSuperVersion(), it must still exist. assert(cfd != nullptr); ReturnAndCleanupSuperVersion(cfd, sv); } // REQUIRED: this function should only be called on the write thread or if the // mutex is held. ColumnFamilyHandle* DBImpl::GetColumnFamilyHandle(uint32_t column_family_id) { ColumnFamilyMemTables* cf_memtables = column_family_memtables_.get(); if (!cf_memtables->Seek(column_family_id)) { return nullptr; } return cf_memtables->GetColumnFamilyHandle(); } // REQUIRED: mutex is NOT held. ColumnFamilyHandle* DBImpl::GetColumnFamilyHandleUnlocked( uint32_t column_family_id) { ColumnFamilyMemTables* cf_memtables = column_family_memtables_.get(); InstrumentedMutexLock l(&mutex_); if (!cf_memtables->Seek(column_family_id)) { return nullptr; } return cf_memtables->GetColumnFamilyHandle(); } void DBImpl::GetApproximateMemTableStats(ColumnFamilyHandle* column_family, const Range& range, uint64_t* const count, uint64_t* const size) { ColumnFamilyHandleImpl* cfh = reinterpret_cast(column_family); ColumnFamilyData* cfd = cfh->cfd(); SuperVersion* sv = GetAndRefSuperVersion(cfd); // Convert user_key into a corresponding internal key. InternalKey k1(range.start, kMaxSequenceNumber, kValueTypeForSeek); InternalKey k2(range.limit, kMaxSequenceNumber, kValueTypeForSeek); MemTable::MemTableStats memStats = sv->mem->ApproximateStats(k1.Encode(), k2.Encode()); MemTable::MemTableStats immStats = sv->imm->ApproximateStats(k1.Encode(), k2.Encode()); *count = memStats.count + immStats.count; *size = memStats.size + immStats.size; ReturnAndCleanupSuperVersion(cfd, sv); } void DBImpl::GetApproximateSizes(ColumnFamilyHandle* column_family, const Range* range, int n, uint64_t* sizes, uint8_t include_flags) { assert(include_flags & DB::SizeApproximationFlags::INCLUDE_FILES || include_flags & DB::SizeApproximationFlags::INCLUDE_MEMTABLES); Version* v; auto cfh = reinterpret_cast(column_family); auto cfd = cfh->cfd(); SuperVersion* sv = GetAndRefSuperVersion(cfd); v = sv->current; for (int i = 0; i < n; i++) { // Convert user_key into a corresponding internal key. InternalKey k1(range[i].start, kMaxSequenceNumber, kValueTypeForSeek); InternalKey k2(range[i].limit, kMaxSequenceNumber, kValueTypeForSeek); sizes[i] = 0; if (include_flags & DB::SizeApproximationFlags::INCLUDE_FILES) { sizes[i] += versions_->ApproximateSize(v, k1.Encode(), k2.Encode()); } if (include_flags & DB::SizeApproximationFlags::INCLUDE_MEMTABLES) { sizes[i] += sv->mem->ApproximateStats(k1.Encode(), k2.Encode()).size; sizes[i] += sv->imm->ApproximateStats(k1.Encode(), k2.Encode()).size; } } ReturnAndCleanupSuperVersion(cfd, sv); } std::list::iterator DBImpl::CaptureCurrentFileNumberInPendingOutputs() { // We need to remember the iterator of our insert, because after the // background job is done, we need to remove that element from // pending_outputs_. pending_outputs_.push_back(versions_->current_next_file_number()); auto pending_outputs_inserted_elem = pending_outputs_.end(); --pending_outputs_inserted_elem; return pending_outputs_inserted_elem; } void DBImpl::ReleaseFileNumberFromPendingOutputs( std::list::iterator v) { pending_outputs_.erase(v); } #ifndef ROCKSDB_LITE Status DBImpl::GetUpdatesSince( SequenceNumber seq, unique_ptr* iter, const TransactionLogIterator::ReadOptions& read_options) { RecordTick(stats_, GET_UPDATES_SINCE_CALLS); if (seq > versions_->LastSequence()) { return Status::NotFound("Requested sequence not yet written in the db"); } return wal_manager_.GetUpdatesSince(seq, iter, read_options, versions_.get()); } Status DBImpl::DeleteFile(std::string name) { uint64_t number; FileType type; WalFileType log_type; if (!ParseFileName(name, &number, &type, &log_type) || (type != kTableFile && type != kLogFile)) { ROCKS_LOG_ERROR(immutable_db_options_.info_log, "DeleteFile %s failed.\n", name.c_str()); return Status::InvalidArgument("Invalid file name"); } Status status; if (type == kLogFile) { // Only allow deleting archived log files if (log_type != kArchivedLogFile) { ROCKS_LOG_ERROR(immutable_db_options_.info_log, "DeleteFile %s failed - not archived log.\n", name.c_str()); return Status::NotSupported("Delete only supported for archived logs"); } status = wal_manager_.DeleteFile(name, number); if (!status.ok()) { ROCKS_LOG_ERROR(immutable_db_options_.info_log, "DeleteFile %s failed -- %s.\n", name.c_str(), status.ToString().c_str()); } return status; } int level; FileMetaData* metadata; ColumnFamilyData* cfd; VersionEdit edit; JobContext job_context(next_job_id_.fetch_add(1), true); { InstrumentedMutexLock l(&mutex_); status = versions_->GetMetadataForFile(number, &level, &metadata, &cfd); if (!status.ok()) { ROCKS_LOG_WARN(immutable_db_options_.info_log, "DeleteFile %s failed. File not found\n", name.c_str()); job_context.Clean(); return Status::InvalidArgument("File not found"); } assert(level < cfd->NumberLevels()); // If the file is being compacted no need to delete. if (metadata->being_compacted) { ROCKS_LOG_INFO(immutable_db_options_.info_log, "DeleteFile %s Skipped. File about to be compacted\n", name.c_str()); job_context.Clean(); return Status::OK(); } // Only the files in the last level can be deleted externally. // This is to make sure that any deletion tombstones are not // lost. Check that the level passed is the last level. auto* vstoreage = cfd->current()->storage_info(); for (int i = level + 1; i < cfd->NumberLevels(); i++) { if (vstoreage->NumLevelFiles(i) != 0) { ROCKS_LOG_WARN(immutable_db_options_.info_log, "DeleteFile %s FAILED. File not in last level\n", name.c_str()); job_context.Clean(); return Status::InvalidArgument("File not in last level"); } } // if level == 0, it has to be the oldest file if (level == 0 && vstoreage->LevelFiles(0).back()->fd.GetNumber() != number) { ROCKS_LOG_WARN(immutable_db_options_.info_log, "DeleteFile %s failed ---" " target file in level 0 must be the oldest.", name.c_str()); job_context.Clean(); return Status::InvalidArgument("File in level 0, but not oldest"); } edit.SetColumnFamily(cfd->GetID()); edit.DeleteFile(level, number); status = versions_->LogAndApply(cfd, *cfd->GetLatestMutableCFOptions(), &edit, &mutex_, directories_.GetDbDir()); if (status.ok()) { InstallSuperVersionAndScheduleWork( cfd, &job_context.superversion_contexts[0], *cfd->GetLatestMutableCFOptions(), FlushReason::kDeleteFiles); } FindObsoleteFiles(&job_context, false); } // lock released here LogFlush(immutable_db_options_.info_log); // remove files outside the db-lock if (job_context.HaveSomethingToDelete()) { // Call PurgeObsoleteFiles() without holding mutex. PurgeObsoleteFiles(job_context); } job_context.Clean(); return status; } Status DBImpl::DeleteFilesInRanges(ColumnFamilyHandle* column_family, const RangePtr* ranges, size_t n, bool include_end) { Status status; auto cfh = reinterpret_cast(column_family); ColumnFamilyData* cfd = cfh->cfd(); VersionEdit edit; std::set deleted_files; JobContext job_context(next_job_id_.fetch_add(1), true); { InstrumentedMutexLock l(&mutex_); Version* input_version = cfd->current(); auto* vstorage = input_version->storage_info(); for (size_t r = 0; r < n; r++) { auto begin = ranges[r].start, end = ranges[r].limit; for (int i = 1; i < cfd->NumberLevels(); i++) { if (vstorage->LevelFiles(i).empty() || !vstorage->OverlapInLevel(i, begin, end)) { continue; } std::vector level_files; InternalKey begin_storage, end_storage, *begin_key, *end_key; if (begin == nullptr) { begin_key = nullptr; } else { begin_storage.SetMinPossibleForUserKey(*begin); begin_key = &begin_storage; } if (end == nullptr) { end_key = nullptr; } else { end_storage.SetMaxPossibleForUserKey(*end); end_key = &end_storage; } vstorage->GetCleanInputsWithinInterval( i, begin_key, end_key, &level_files, -1 /* hint_index */, nullptr /* file_index */); FileMetaData* level_file; for (uint32_t j = 0; j < level_files.size(); j++) { level_file = level_files[j]; if (level_file->being_compacted) { continue; } if (deleted_files.find(level_file) != deleted_files.end()) { continue; } if (!include_end && end != nullptr && cfd->user_comparator()->Compare(level_file->largest.user_key(), *end) == 0) { continue; } edit.SetColumnFamily(cfd->GetID()); edit.DeleteFile(i, level_file->fd.GetNumber()); deleted_files.insert(level_file); level_file->being_compacted = true; } } } if (edit.GetDeletedFiles().empty()) { job_context.Clean(); return Status::OK(); } input_version->Ref(); status = versions_->LogAndApply(cfd, *cfd->GetLatestMutableCFOptions(), &edit, &mutex_, directories_.GetDbDir()); if (status.ok()) { InstallSuperVersionAndScheduleWork( cfd, &job_context.superversion_contexts[0], *cfd->GetLatestMutableCFOptions(), FlushReason::kDeleteFiles); } for (auto* deleted_file : deleted_files) { deleted_file->being_compacted = false; } input_version->Unref(); FindObsoleteFiles(&job_context, false); } // lock released here LogFlush(immutable_db_options_.info_log); // remove files outside the db-lock if (job_context.HaveSomethingToDelete()) { // Call PurgeObsoleteFiles() without holding mutex. PurgeObsoleteFiles(job_context); } job_context.Clean(); return status; } void DBImpl::GetLiveFilesMetaData(std::vector* metadata) { InstrumentedMutexLock l(&mutex_); versions_->GetLiveFilesMetaData(metadata); } void DBImpl::GetColumnFamilyMetaData(ColumnFamilyHandle* column_family, ColumnFamilyMetaData* cf_meta) { assert(column_family); auto* cfd = reinterpret_cast(column_family)->cfd(); auto* sv = GetAndRefSuperVersion(cfd); sv->current->GetColumnFamilyMetaData(cf_meta); ReturnAndCleanupSuperVersion(cfd, sv); } #endif // ROCKSDB_LITE Status DBImpl::CheckConsistency() { mutex_.AssertHeld(); std::vector metadata; versions_->GetLiveFilesMetaData(&metadata); std::string corruption_messages; for (const auto& md : metadata) { // md.name has a leading "/". std::string file_path = md.db_path + md.name; uint64_t fsize = 0; Status s = env_->GetFileSize(file_path, &fsize); if (!s.ok() && env_->GetFileSize(Rocks2LevelTableFileName(file_path), &fsize).ok()) { s = Status::OK(); } if (!s.ok()) { corruption_messages += "Can't access " + md.name + ": " + s.ToString() + "\n"; } else if (fsize != md.size) { corruption_messages += "Sst file size mismatch: " + file_path + ". Size recorded in manifest " + ToString(md.size) + ", actual size " + ToString(fsize) + "\n"; } } if (corruption_messages.size() == 0) { return Status::OK(); } else { return Status::Corruption(corruption_messages); } } Status DBImpl::GetDbIdentity(std::string& identity) const { std::string idfilename = IdentityFileName(dbname_); const EnvOptions soptions; unique_ptr id_file_reader; Status s; { unique_ptr idfile; s = env_->NewSequentialFile(idfilename, &idfile, soptions); if (!s.ok()) { return s; } id_file_reader.reset( new SequentialFileReader(std::move(idfile), idfilename)); } uint64_t file_size; s = env_->GetFileSize(idfilename, &file_size); if (!s.ok()) { return s; } char* buffer = reinterpret_cast(alloca(static_cast(file_size))); Slice id; s = id_file_reader->Read(static_cast(file_size), &id, buffer); if (!s.ok()) { return s; } identity.assign(id.ToString()); // If last character is '\n' remove it from identity if (identity.size() > 0 && identity.back() == '\n') { identity.pop_back(); } return s; } // Default implementation -- returns not supported status Status DB::CreateColumnFamily(const ColumnFamilyOptions& /*cf_options*/, const std::string& /*column_family_name*/, ColumnFamilyHandle** /*handle*/) { return Status::NotSupported(""); } Status DB::CreateColumnFamilies( const ColumnFamilyOptions& /*cf_options*/, const std::vector& /*column_family_names*/, std::vector* /*handles*/) { return Status::NotSupported(""); } Status DB::CreateColumnFamilies( const std::vector& /*column_families*/, std::vector* /*handles*/) { return Status::NotSupported(""); } Status DB::DropColumnFamily(ColumnFamilyHandle* /*column_family*/) { return Status::NotSupported(""); } Status DB::DropColumnFamilies( const std::vector& /*column_families*/) { return Status::NotSupported(""); } Status DB::DestroyColumnFamilyHandle(ColumnFamilyHandle* column_family) { delete column_family; return Status::OK(); } DB::~DB() {} Status DBImpl::Close() { if (!closed_) { closed_ = true; return CloseImpl(); } return Status::OK(); } Status DB::ListColumnFamilies(const DBOptions& db_options, const std::string& name, std::vector* column_families) { return VersionSet::ListColumnFamilies(column_families, name, db_options.env); } Snapshot::~Snapshot() {} Status DestroyDB(const std::string& dbname, const Options& options, const std::vector& column_families) { ImmutableDBOptions soptions(SanitizeOptions(dbname, options)); Env* env = soptions.env; std::vector filenames; // Reset the logger because it holds a handle to the // log file and prevents cleanup and directory removal soptions.info_log.reset(); // Ignore error in case directory does not exist env->GetChildren(dbname, &filenames); FileLock* lock; const std::string lockname = LockFileName(dbname); Status result = env->LockFile(lockname, &lock); if (result.ok()) { uint64_t number; FileType type; InfoLogPrefix info_log_prefix(!soptions.db_log_dir.empty(), dbname); for (const auto& fname : filenames) { if (ParseFileName(fname, &number, info_log_prefix.prefix, &type) && type != kDBLockFile) { // Lock file will be deleted at end Status del; std::string path_to_delete = dbname + "/" + fname; if (type == kMetaDatabase) { del = DestroyDB(path_to_delete, options); } else if (type == kTableFile) { del = DeleteSSTFile(&soptions, path_to_delete, dbname); } else { del = env->DeleteFile(path_to_delete); } if (result.ok() && !del.ok()) { result = del; } } } std::vector paths; for (const auto& path : options.db_paths) { paths.emplace_back(path.path); } for (const auto& cf : column_families) { for (const auto& path : cf.options.cf_paths) { paths.emplace_back(path.path); } } // Remove duplicate paths. // Note that we compare only the actual paths but not path ids. // This reason is that same path can appear at different path_ids // for different column families. std::sort(paths.begin(), paths.end()); paths.erase(std::unique(paths.begin(), paths.end()), paths.end()); for (const auto& path : paths) { if (env->GetChildren(path, &filenames).ok()) { for (const auto& fname : filenames) { if (ParseFileName(fname, &number, &type) && type == kTableFile) { // Lock file will be deleted at end std::string table_path = path + "/" + fname; Status del = DeleteSSTFile(&soptions, table_path, dbname); if (result.ok() && !del.ok()) { result = del; } } } env->DeleteDir(path); } } std::vector walDirFiles; std::string archivedir = ArchivalDirectory(dbname); bool wal_dir_exists = false; if (dbname != soptions.wal_dir) { wal_dir_exists = env->GetChildren(soptions.wal_dir, &walDirFiles).ok(); archivedir = ArchivalDirectory(soptions.wal_dir); } // Archive dir may be inside wal dir or dbname and should be // processed and removed before those otherwise we have issues // removing them std::vector archiveFiles; if (env->GetChildren(archivedir, &archiveFiles).ok()) { // Delete archival files. for (const auto& file : archiveFiles) { if (ParseFileName(file, &number, &type) && type == kLogFile) { Status del = env->DeleteFile(archivedir + "/" + file); if (result.ok() && !del.ok()) { result = del; } } } env->DeleteDir(archivedir); } // Delete log files in the WAL dir if (wal_dir_exists) { for (const auto& file : walDirFiles) { if (ParseFileName(file, &number, &type) && type == kLogFile) { Status del = env->DeleteFile(LogFileName(soptions.wal_dir, number)); if (result.ok() && !del.ok()) { result = del; } } } env->DeleteDir(soptions.wal_dir); } env->UnlockFile(lock); // Ignore error since state is already gone env->DeleteFile(lockname); env->DeleteDir(dbname); // Ignore error in case dir contains other files } return result; } Status DBImpl::WriteOptionsFile(bool need_mutex_lock, bool need_enter_write_thread) { #ifndef ROCKSDB_LITE WriteThread::Writer w; if (need_mutex_lock) { mutex_.Lock(); } else { mutex_.AssertHeld(); } if (need_enter_write_thread) { write_thread_.EnterUnbatched(&w, &mutex_); } std::vector cf_names; std::vector cf_opts; // This part requires mutex to protect the column family options for (auto cfd : *versions_->GetColumnFamilySet()) { if (cfd->IsDropped()) { continue; } cf_names.push_back(cfd->GetName()); cf_opts.push_back(cfd->GetLatestCFOptions()); } // Unlock during expensive operations. New writes cannot get here // because the single write thread ensures all new writes get queued. DBOptions db_options = BuildDBOptions(immutable_db_options_, mutable_db_options_); mutex_.Unlock(); TEST_SYNC_POINT("DBImpl::WriteOptionsFile:1"); TEST_SYNC_POINT("DBImpl::WriteOptionsFile:2"); std::string file_name = TempOptionsFileName(GetName(), versions_->NewFileNumber()); Status s = PersistRocksDBOptions(db_options, cf_names, cf_opts, file_name, GetEnv()); if (s.ok()) { s = RenameTempFileToOptionsFile(file_name); } // restore lock if (!need_mutex_lock) { mutex_.Lock(); } if (need_enter_write_thread) { write_thread_.ExitUnbatched(&w); } if (!s.ok()) { ROCKS_LOG_WARN(immutable_db_options_.info_log, "Unnable to persist options -- %s", s.ToString().c_str()); if (immutable_db_options_.fail_if_options_file_error) { return Status::IOError("Unable to persist options.", s.ToString().c_str()); } } #else (void)need_mutex_lock; (void)need_enter_write_thread; #endif // !ROCKSDB_LITE return Status::OK(); } #ifndef ROCKSDB_LITE namespace { void DeleteOptionsFilesHelper(const std::map& filenames, const size_t num_files_to_keep, const std::shared_ptr& info_log, Env* env) { if (filenames.size() <= num_files_to_keep) { return; } for (auto iter = std::next(filenames.begin(), num_files_to_keep); iter != filenames.end(); ++iter) { if (!env->DeleteFile(iter->second).ok()) { ROCKS_LOG_WARN(info_log, "Unable to delete options file %s", iter->second.c_str()); } } } } // namespace #endif // !ROCKSDB_LITE Status DBImpl::DeleteObsoleteOptionsFiles() { #ifndef ROCKSDB_LITE std::vector filenames; // use ordered map to store keep the filenames sorted from the newest // to the oldest. std::map options_filenames; Status s; s = GetEnv()->GetChildren(GetName(), &filenames); if (!s.ok()) { return s; } for (auto& filename : filenames) { uint64_t file_number; FileType type; if (ParseFileName(filename, &file_number, &type) && type == kOptionsFile) { options_filenames.insert( {std::numeric_limits::max() - file_number, GetName() + "/" + filename}); } } // Keeps the latest 2 Options file const size_t kNumOptionsFilesKept = 2; DeleteOptionsFilesHelper(options_filenames, kNumOptionsFilesKept, immutable_db_options_.info_log, GetEnv()); return Status::OK(); #else return Status::OK(); #endif // !ROCKSDB_LITE } Status DBImpl::RenameTempFileToOptionsFile(const std::string& file_name) { #ifndef ROCKSDB_LITE Status s; versions_->options_file_number_ = versions_->NewFileNumber(); std::string options_file_name = OptionsFileName(GetName(), versions_->options_file_number_); // Retry if the file name happen to conflict with an existing one. s = GetEnv()->RenameFile(file_name, options_file_name); if (0 == disable_delete_obsolete_files_) { DeleteObsoleteOptionsFiles(); } return s; #else (void)file_name; return Status::OK(); #endif // !ROCKSDB_LITE } #ifdef ROCKSDB_USING_THREAD_STATUS void DBImpl::NewThreadStatusCfInfo(ColumnFamilyData* cfd) const { if (immutable_db_options_.enable_thread_tracking) { ThreadStatusUtil::NewColumnFamilyInfo(this, cfd, cfd->GetName(), cfd->ioptions()->env); } } void DBImpl::EraseThreadStatusCfInfo(ColumnFamilyData* cfd) const { if (immutable_db_options_.enable_thread_tracking) { ThreadStatusUtil::EraseColumnFamilyInfo(cfd); } } void DBImpl::EraseThreadStatusDbInfo() const { if (immutable_db_options_.enable_thread_tracking) { ThreadStatusUtil::EraseDatabaseInfo(this); } } #else void DBImpl::NewThreadStatusCfInfo(ColumnFamilyData* /*cfd*/) const {} void DBImpl::EraseThreadStatusCfInfo(ColumnFamilyData* /*cfd*/) const {} void DBImpl::EraseThreadStatusDbInfo() const {} #endif // ROCKSDB_USING_THREAD_STATUS // // A global method that can dump out the build version void DumpRocksDBBuildVersion(Logger* log) { #if !defined(IOS_CROSS_COMPILE) // if we compile with Xcode, we don't run build_detect_version, so we don't // generate util/build_version.cc ROCKS_LOG_HEADER(log, "RocksDB version: %d.%d.%d\n", ROCKSDB_MAJOR, ROCKSDB_MINOR, ROCKSDB_PATCH); ROCKS_LOG_HEADER(log, "Git sha %s", rocksdb_build_git_sha); ROCKS_LOG_HEADER(log, "Compile date %s", rocksdb_build_compile_date); #endif } #ifndef ROCKSDB_LITE SequenceNumber DBImpl::GetEarliestMemTableSequenceNumber(SuperVersion* sv, bool include_history) { // Find the earliest sequence number that we know we can rely on reading // from the memtable without needing to check sst files. SequenceNumber earliest_seq = sv->imm->GetEarliestSequenceNumber(include_history); if (earliest_seq == kMaxSequenceNumber) { earliest_seq = sv->mem->GetEarliestSequenceNumber(); } assert(sv->mem->GetEarliestSequenceNumber() >= earliest_seq); return earliest_seq; } #endif // ROCKSDB_LITE #ifndef ROCKSDB_LITE Status DBImpl::GetLatestSequenceForKey(SuperVersion* sv, const Slice& key, bool cache_only, SequenceNumber* seq, bool* found_record_for_key, bool* is_blob_index) { Status s; MergeContext merge_context; RangeDelAggregator range_del_agg(sv->mem->GetInternalKeyComparator(), kMaxSequenceNumber); ReadOptions read_options; SequenceNumber current_seq = versions_->LastSequence(); LookupKey lkey(key, current_seq); *seq = kMaxSequenceNumber; *found_record_for_key = false; // Check if there is a record for this key in the latest memtable sv->mem->Get(lkey, nullptr, &s, &merge_context, &range_del_agg, seq, read_options, nullptr /*read_callback*/, is_blob_index); if (!(s.ok() || s.IsNotFound() || s.IsMergeInProgress())) { // unexpected error reading memtable. ROCKS_LOG_ERROR(immutable_db_options_.info_log, "Unexpected status returned from MemTable::Get: %s\n", s.ToString().c_str()); return s; } if (*seq != kMaxSequenceNumber) { // Found a sequence number, no need to check immutable memtables *found_record_for_key = true; return Status::OK(); } // Check if there is a record for this key in the immutable memtables sv->imm->Get(lkey, nullptr, &s, &merge_context, &range_del_agg, seq, read_options, nullptr /*read_callback*/, is_blob_index); if (!(s.ok() || s.IsNotFound() || s.IsMergeInProgress())) { // unexpected error reading memtable. ROCKS_LOG_ERROR(immutable_db_options_.info_log, "Unexpected status returned from MemTableList::Get: %s\n", s.ToString().c_str()); return s; } if (*seq != kMaxSequenceNumber) { // Found a sequence number, no need to check memtable history *found_record_for_key = true; return Status::OK(); } // Check if there is a record for this key in the immutable memtables sv->imm->GetFromHistory(lkey, nullptr, &s, &merge_context, &range_del_agg, seq, read_options, is_blob_index); if (!(s.ok() || s.IsNotFound() || s.IsMergeInProgress())) { // unexpected error reading memtable. ROCKS_LOG_ERROR( immutable_db_options_.info_log, "Unexpected status returned from MemTableList::GetFromHistory: %s\n", s.ToString().c_str()); return s; } if (*seq != kMaxSequenceNumber) { // Found a sequence number, no need to check SST files *found_record_for_key = true; return Status::OK(); } // TODO(agiardullo): possible optimization: consider checking cached // SST files if cache_only=true? if (!cache_only) { // Check tables sv->current->Get(read_options, lkey, nullptr, &s, &merge_context, &range_del_agg, nullptr /* value_found */, found_record_for_key, seq, nullptr /*read_callback*/, is_blob_index); if (!(s.ok() || s.IsNotFound() || s.IsMergeInProgress())) { // unexpected error reading SST files ROCKS_LOG_ERROR(immutable_db_options_.info_log, "Unexpected status returned from Version::Get: %s\n", s.ToString().c_str()); return s; } } return Status::OK(); } Status DBImpl::IngestExternalFile( ColumnFamilyHandle* column_family, const std::vector& external_files, const IngestExternalFileOptions& ingestion_options) { if (external_files.empty()) { return Status::InvalidArgument("external_files is empty"); } Status status; auto cfh = reinterpret_cast(column_family); auto cfd = cfh->cfd(); // Ingest should immediately fail if ingest_behind is requested, // but the DB doesn't support it. if (ingestion_options.ingest_behind) { if (!immutable_db_options_.allow_ingest_behind) { return Status::InvalidArgument( "Can't ingest_behind file in DB with allow_ingest_behind=false"); } } ExternalSstFileIngestionJob ingestion_job(env_, versions_.get(), cfd, immutable_db_options_, env_options_, &snapshots_, ingestion_options); SuperVersionContext dummy_sv_ctx(/* create_superversion */ true); VersionEdit dummy_edit; uint64_t next_file_number = 0; std::list::iterator pending_output_elem; { InstrumentedMutexLock l(&mutex_); if (error_handler_.IsDBStopped()) { // Don't ingest files when there is a bg_error return error_handler_.GetBGError(); } // Make sure that bg cleanup wont delete the files that we are ingesting pending_output_elem = CaptureCurrentFileNumberInPendingOutputs(); // If crash happen after a hard link established, Recover function may // reuse the file number that has already assigned to the internal file, // and this will overwrite the external file. To protect the external // file, we have to make sure the file number will never being reused. next_file_number = versions_->FetchAddFileNumber(external_files.size()); auto cf_options = cfd->GetLatestMutableCFOptions(); status = versions_->LogAndApply(cfd, *cf_options, &dummy_edit, &mutex_, directories_.GetDbDir()); if (status.ok()) { InstallSuperVersionAndScheduleWork(cfd, &dummy_sv_ctx, *cf_options); } } dummy_sv_ctx.Clean(); if (!status.ok()) { InstrumentedMutexLock l(&mutex_); ReleaseFileNumberFromPendingOutputs(pending_output_elem); return status; } SuperVersion* super_version = cfd->GetReferencedSuperVersion(&mutex_); status = ingestion_job.Prepare(external_files, next_file_number, super_version); CleanupSuperVersion(super_version); if (!status.ok()) { InstrumentedMutexLock l(&mutex_); ReleaseFileNumberFromPendingOutputs(pending_output_elem); return status; } SuperVersionContext sv_context(/* create_superversion */ true); TEST_SYNC_POINT("DBImpl::AddFile:Start"); { // Lock db mutex InstrumentedMutexLock l(&mutex_); TEST_SYNC_POINT("DBImpl::AddFile:MutexLock"); // Stop writes to the DB by entering both write threads WriteThread::Writer w; write_thread_.EnterUnbatched(&w, &mutex_); WriteThread::Writer nonmem_w; if (two_write_queues_) { nonmem_write_thread_.EnterUnbatched(&nonmem_w, &mutex_); } num_running_ingest_file_++; // We cannot ingest a file into a dropped CF if (cfd->IsDropped()) { status = Status::InvalidArgument( "Cannot ingest an external file into a dropped CF"); } // Figure out if we need to flush the memtable first if (status.ok()) { bool need_flush = false; status = ingestion_job.NeedsFlush(&need_flush, cfd->GetSuperVersion()); TEST_SYNC_POINT_CALLBACK("DBImpl::IngestExternalFile:NeedFlush", &need_flush); if (status.ok() && need_flush) { mutex_.Unlock(); status = FlushMemTable(cfd, FlushOptions(), FlushReason::kExternalFileIngestion, true /* writes_stopped */); mutex_.Lock(); } } // Run the ingestion job if (status.ok()) { status = ingestion_job.Run(); } // Install job edit [Mutex will be unlocked here] auto mutable_cf_options = cfd->GetLatestMutableCFOptions(); if (status.ok()) { status = versions_->LogAndApply(cfd, *mutable_cf_options, ingestion_job.edit(), &mutex_, directories_.GetDbDir()); } if (status.ok()) { InstallSuperVersionAndScheduleWork(cfd, &sv_context, *mutable_cf_options, FlushReason::kExternalFileIngestion); } // Resume writes to the DB if (two_write_queues_) { nonmem_write_thread_.ExitUnbatched(&nonmem_w); } write_thread_.ExitUnbatched(&w); // Update stats if (status.ok()) { ingestion_job.UpdateStats(); } ReleaseFileNumberFromPendingOutputs(pending_output_elem); num_running_ingest_file_--; if (num_running_ingest_file_ == 0) { bg_cv_.SignalAll(); } TEST_SYNC_POINT("DBImpl::AddFile:MutexUnlock"); } // mutex_ is unlocked here // Cleanup sv_context.Clean(); ingestion_job.Cleanup(status); if (status.ok()) { NotifyOnExternalFileIngested(cfd, ingestion_job); } return status; } Status DBImpl::VerifyChecksum() { Status s; std::vector cfd_list; { InstrumentedMutexLock l(&mutex_); for (auto cfd : *versions_->GetColumnFamilySet()) { if (!cfd->IsDropped() && cfd->initialized()) { cfd->Ref(); cfd_list.push_back(cfd); } } } std::vector sv_list; for (auto cfd : cfd_list) { sv_list.push_back(cfd->GetReferencedSuperVersion(&mutex_)); } for (auto& sv : sv_list) { VersionStorageInfo* vstorage = sv->current->storage_info(); ColumnFamilyData* cfd = sv->current->cfd(); Options opts; { InstrumentedMutexLock l(&mutex_); opts = Options(BuildDBOptions(immutable_db_options_, mutable_db_options_), cfd->GetLatestCFOptions()); } for (int i = 0; i < vstorage->num_non_empty_levels() && s.ok(); i++) { for (size_t j = 0; j < vstorage->LevelFilesBrief(i).num_files && s.ok(); j++) { const auto& fd = vstorage->LevelFilesBrief(i).files[j].fd; std::string fname = TableFileName(cfd->ioptions()->cf_paths, fd.GetNumber(), fd.GetPathId()); s = rocksdb::VerifySstFileChecksum(opts, env_options_, fname); } } if (!s.ok()) { break; } } { InstrumentedMutexLock l(&mutex_); for (auto sv : sv_list) { if (sv && sv->Unref()) { sv->Cleanup(); delete sv; } } for (auto cfd : cfd_list) { cfd->Unref(); } } return s; } void DBImpl::NotifyOnExternalFileIngested( ColumnFamilyData* cfd, const ExternalSstFileIngestionJob& ingestion_job) { if (immutable_db_options_.listeners.empty()) { return; } for (const IngestedFileInfo& f : ingestion_job.files_to_ingest()) { ExternalFileIngestionInfo info; info.cf_name = cfd->GetName(); info.external_file_path = f.external_file_path; info.internal_file_path = f.internal_file_path; info.global_seqno = f.assigned_seqno; info.table_properties = f.table_properties; for (auto listener : immutable_db_options_.listeners) { listener->OnExternalFileIngested(this, info); } } } void DBImpl::WaitForIngestFile() { mutex_.AssertHeld(); while (num_running_ingest_file_ > 0) { bg_cv_.Wait(); } } Status DBImpl::StartTrace(const TraceOptions& /* options */, std::unique_ptr&& trace_writer) { InstrumentedMutexLock lock(&trace_mutex_); tracer_.reset(new Tracer(env_, std::move(trace_writer))); return Status::OK(); } Status DBImpl::EndTrace() { InstrumentedMutexLock lock(&trace_mutex_); Status s = tracer_->Close(); tracer_.reset(); return s; } Status DBImpl::TraceIteratorSeek(const uint32_t& cf_id, const Slice& key) { Status s; if (tracer_) { InstrumentedMutexLock lock(&trace_mutex_); if (tracer_) { s = tracer_->IteratorSeek(cf_id, key); } } return s; } Status DBImpl::TraceIteratorSeekForPrev(const uint32_t& cf_id, const Slice& key) { Status s; if (tracer_) { InstrumentedMutexLock lock(&trace_mutex_); if (tracer_) { s = tracer_->IteratorSeekForPrev(cf_id, key); } } return s; } #endif // ROCKSDB_LITE } // namespace rocksdb rocksdb-5.17.2/db/db_impl.h000066400000000000000000002046461337235545400154300ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #include #include #include #include #include #include #include #include #include #include #include "db/column_family.h" #include "db/compaction_job.h" #include "db/dbformat.h" #include "db/error_handler.h" #include "db/event_helpers.h" #include "db/external_sst_file_ingestion_job.h" #include "db/flush_job.h" #include "db/flush_scheduler.h" #include "db/internal_stats.h" #include "db/log_writer.h" #include "db/logs_with_prep_tracker.h" #include "db/pre_release_callback.h" #include "db/read_callback.h" #include "db/snapshot_checker.h" #include "db/snapshot_impl.h" #include "db/version_edit.h" #include "db/wal_manager.h" #include "db/write_controller.h" #include "db/write_thread.h" #include "memtable_list.h" #include "monitoring/instrumented_mutex.h" #include "options/db_options.h" #include "port/port.h" #include "rocksdb/db.h" #include "rocksdb/env.h" #include "rocksdb/memtablerep.h" #include "rocksdb/status.h" #include "rocksdb/trace_reader_writer.h" #include "rocksdb/transaction_log.h" #include "rocksdb/write_buffer_manager.h" #include "table/scoped_arena_iterator.h" #include "util/autovector.h" #include "util/event_logger.h" #include "util/hash.h" #include "util/stop_watch.h" #include "util/thread_local.h" #include "util/trace_replay.h" namespace rocksdb { class Arena; class ArenaWrappedDBIter; class MemTable; class TableCache; class Version; class VersionEdit; class VersionSet; class WriteCallback; struct JobContext; struct ExternalSstFileInfo; struct MemTableInfo; class DBImpl : public DB { public: DBImpl(const DBOptions& options, const std::string& dbname, const bool seq_per_batch = false, const bool batch_per_txn = true); virtual ~DBImpl(); using DB::Resume; virtual Status Resume() override; // Implementations of the DB interface using DB::Put; virtual Status Put(const WriteOptions& options, ColumnFamilyHandle* column_family, const Slice& key, const Slice& value) override; using DB::Merge; virtual Status Merge(const WriteOptions& options, ColumnFamilyHandle* column_family, const Slice& key, const Slice& value) override; using DB::Delete; virtual Status Delete(const WriteOptions& options, ColumnFamilyHandle* column_family, const Slice& key) override; using DB::SingleDelete; virtual Status SingleDelete(const WriteOptions& options, ColumnFamilyHandle* column_family, const Slice& key) override; using DB::Write; virtual Status Write(const WriteOptions& options, WriteBatch* updates) override; using DB::Get; virtual Status Get(const ReadOptions& options, ColumnFamilyHandle* column_family, const Slice& key, PinnableSlice* value) override; // Function that Get and KeyMayExist call with no_io true or false // Note: 'value_found' from KeyMayExist propagates here Status GetImpl(const ReadOptions& options, ColumnFamilyHandle* column_family, const Slice& key, PinnableSlice* value, bool* value_found = nullptr, ReadCallback* callback = nullptr, bool* is_blob_index = nullptr); using DB::MultiGet; virtual std::vector MultiGet( const ReadOptions& options, const std::vector& column_family, const std::vector& keys, std::vector* values) override; virtual Status CreateColumnFamily(const ColumnFamilyOptions& cf_options, const std::string& column_family, ColumnFamilyHandle** handle) override; virtual Status CreateColumnFamilies( const ColumnFamilyOptions& cf_options, const std::vector& column_family_names, std::vector* handles) override; virtual Status CreateColumnFamilies( const std::vector& column_families, std::vector* handles) override; virtual Status DropColumnFamily(ColumnFamilyHandle* column_family) override; virtual Status DropColumnFamilies( const std::vector& column_families) override; // Returns false if key doesn't exist in the database and true if it may. // If value_found is not passed in as null, then return the value if found in // memory. On return, if value was found, then value_found will be set to true // , otherwise false. using DB::KeyMayExist; virtual bool KeyMayExist(const ReadOptions& options, ColumnFamilyHandle* column_family, const Slice& key, std::string* value, bool* value_found = nullptr) override; using DB::NewIterator; virtual Iterator* NewIterator(const ReadOptions& options, ColumnFamilyHandle* column_family) override; virtual Status NewIterators( const ReadOptions& options, const std::vector& column_families, std::vector* iterators) override; ArenaWrappedDBIter* NewIteratorImpl(const ReadOptions& options, ColumnFamilyData* cfd, SequenceNumber snapshot, ReadCallback* read_callback, bool allow_blob = false, bool allow_refresh = true); virtual const Snapshot* GetSnapshot() override; virtual void ReleaseSnapshot(const Snapshot* snapshot) override; using DB::GetProperty; virtual bool GetProperty(ColumnFamilyHandle* column_family, const Slice& property, std::string* value) override; using DB::GetMapProperty; virtual bool GetMapProperty( ColumnFamilyHandle* column_family, const Slice& property, std::map* value) override; using DB::GetIntProperty; virtual bool GetIntProperty(ColumnFamilyHandle* column_family, const Slice& property, uint64_t* value) override; using DB::GetAggregatedIntProperty; virtual bool GetAggregatedIntProperty(const Slice& property, uint64_t* aggregated_value) override; using DB::GetApproximateSizes; virtual void GetApproximateSizes(ColumnFamilyHandle* column_family, const Range* range, int n, uint64_t* sizes, uint8_t include_flags = INCLUDE_FILES) override; using DB::GetApproximateMemTableStats; virtual void GetApproximateMemTableStats(ColumnFamilyHandle* column_family, const Range& range, uint64_t* const count, uint64_t* const size) override; using DB::CompactRange; virtual Status CompactRange(const CompactRangeOptions& options, ColumnFamilyHandle* column_family, const Slice* begin, const Slice* end) override; using DB::CompactFiles; virtual Status CompactFiles(const CompactionOptions& compact_options, ColumnFamilyHandle* column_family, const std::vector& input_file_names, const int output_level, const int output_path_id = -1, std::vector* const output_file_names = nullptr) override; virtual Status PauseBackgroundWork() override; virtual Status ContinueBackgroundWork() override; virtual Status EnableAutoCompaction( const std::vector& column_family_handles) override; using DB::SetOptions; Status SetOptions( ColumnFamilyHandle* column_family, const std::unordered_map& options_map) override; virtual Status SetDBOptions( const std::unordered_map& options_map) override; using DB::NumberLevels; virtual int NumberLevels(ColumnFamilyHandle* column_family) override; using DB::MaxMemCompactionLevel; virtual int MaxMemCompactionLevel(ColumnFamilyHandle* column_family) override; using DB::Level0StopWriteTrigger; virtual int Level0StopWriteTrigger( ColumnFamilyHandle* column_family) override; virtual const std::string& GetName() const override; virtual Env* GetEnv() const override; using DB::GetOptions; virtual Options GetOptions(ColumnFamilyHandle* column_family) const override; using DB::GetDBOptions; virtual DBOptions GetDBOptions() const override; using DB::Flush; virtual Status Flush(const FlushOptions& options, ColumnFamilyHandle* column_family) override; virtual Status FlushWAL(bool sync) override; bool TEST_WALBufferIsEmpty(); virtual Status SyncWAL() override; virtual SequenceNumber GetLatestSequenceNumber() const override; // REQUIRES: joined the main write queue if two_write_queues is disabled, and // the second write queue otherwise. virtual void SetLastPublishedSequence(SequenceNumber seq); // Returns LastSequence in last_seq_same_as_publish_seq_ // mode and LastAllocatedSequence otherwise. This is useful when visiblility // depends also on data written to the WAL but not to the memtable. SequenceNumber TEST_GetLastVisibleSequence() const; virtual bool SetPreserveDeletesSequenceNumber(SequenceNumber seqnum) override; #ifndef ROCKSDB_LITE using DB::ResetStats; virtual Status ResetStats() override; virtual Status DisableFileDeletions() override; virtual Status EnableFileDeletions(bool force) override; virtual int IsFileDeletionsEnabled() const; // All the returned filenames start with "/" virtual Status GetLiveFiles(std::vector&, uint64_t* manifest_file_size, bool flush_memtable = true) override; virtual Status GetSortedWalFiles(VectorLogPtr& files) override; virtual Status GetUpdatesSince( SequenceNumber seq_number, unique_ptr* iter, const TransactionLogIterator::ReadOptions& read_options = TransactionLogIterator::ReadOptions()) override; virtual Status DeleteFile(std::string name) override; Status DeleteFilesInRanges(ColumnFamilyHandle* column_family, const RangePtr* ranges, size_t n, bool include_end = true); virtual void GetLiveFilesMetaData( std::vector* metadata) override; // Obtains the meta data of the specified column family of the DB. // Status::NotFound() will be returned if the current DB does not have // any column family match the specified name. // TODO(yhchiang): output parameter is placed in the end in this codebase. virtual void GetColumnFamilyMetaData( ColumnFamilyHandle* column_family, ColumnFamilyMetaData* metadata) override; Status SuggestCompactRange(ColumnFamilyHandle* column_family, const Slice* begin, const Slice* end) override; Status PromoteL0(ColumnFamilyHandle* column_family, int target_level) override; // Similar to Write() but will call the callback once on the single write // thread to determine whether it is safe to perform the write. virtual Status WriteWithCallback(const WriteOptions& write_options, WriteBatch* my_batch, WriteCallback* callback); // Returns the sequence number that is guaranteed to be smaller than or equal // to the sequence number of any key that could be inserted into the current // memtables. It can then be assumed that any write with a larger(or equal) // sequence number will be present in this memtable or a later memtable. // // If the earliest sequence number could not be determined, // kMaxSequenceNumber will be returned. // // If include_history=true, will also search Memtables in MemTableList // History. SequenceNumber GetEarliestMemTableSequenceNumber(SuperVersion* sv, bool include_history); // For a given key, check to see if there are any records for this key // in the memtables, including memtable history. If cache_only is false, // SST files will also be checked. // // If a key is found, *found_record_for_key will be set to true and // *seq will be set to the stored sequence number for the latest // operation on this key or kMaxSequenceNumber if unknown. // If no key is found, *found_record_for_key will be set to false. // // Note: If cache_only=false, it is possible for *seq to be set to 0 if // the sequence number has been cleared from the record. If the caller is // holding an active db snapshot, we know the missing sequence must be less // than the snapshot's sequence number (sequence numbers are only cleared // when there are no earlier active snapshots). // // If NotFound is returned and found_record_for_key is set to false, then no // record for this key was found. If the caller is holding an active db // snapshot, we know that no key could have existing after this snapshot // (since we do not compact keys that have an earlier snapshot). // // Returns OK or NotFound on success, // other status on unexpected error. // TODO(andrewkr): this API need to be aware of range deletion operations Status GetLatestSequenceForKey(SuperVersion* sv, const Slice& key, bool cache_only, SequenceNumber* seq, bool* found_record_for_key, bool* is_blob_index = nullptr); using DB::IngestExternalFile; virtual Status IngestExternalFile( ColumnFamilyHandle* column_family, const std::vector& external_files, const IngestExternalFileOptions& ingestion_options) override; virtual Status VerifyChecksum() override; using DB::StartTrace; virtual Status StartTrace( const TraceOptions& options, std::unique_ptr&& trace_writer) override; using DB::EndTrace; virtual Status EndTrace() override; Status TraceIteratorSeek(const uint32_t& cf_id, const Slice& key); Status TraceIteratorSeekForPrev(const uint32_t& cf_id, const Slice& key); #endif // ROCKSDB_LITE // Similar to GetSnapshot(), but also lets the db know that this snapshot // will be used for transaction write-conflict checking. The DB can then // make sure not to compact any keys that would prevent a write-conflict from // being detected. const Snapshot* GetSnapshotForWriteConflictBoundary(); // checks if all live files exist on file system and that their file sizes // match to our in-memory records virtual Status CheckConsistency(); virtual Status GetDbIdentity(std::string& identity) const override; Status RunManualCompaction(ColumnFamilyData* cfd, int input_level, int output_level, uint32_t output_path_id, uint32_t max_subcompactions, const Slice* begin, const Slice* end, bool exclusive, bool disallow_trivial_move = false); // Return an internal iterator over the current state of the database. // The keys of this iterator are internal keys (see format.h). // The returned iterator should be deleted when no longer needed. InternalIterator* NewInternalIterator( Arena* arena, RangeDelAggregator* range_del_agg, ColumnFamilyHandle* column_family = nullptr); LogsWithPrepTracker* logs_with_prep_tracker() { return &logs_with_prep_tracker_; } #ifndef NDEBUG // Extra methods (for testing) that are not in the public DB interface // Implemented in db_impl_debug.cc // Compact any files in the named level that overlap [*begin, *end] Status TEST_CompactRange(int level, const Slice* begin, const Slice* end, ColumnFamilyHandle* column_family = nullptr, bool disallow_trivial_move = false); void TEST_SwitchWAL(); bool TEST_UnableToReleaseOldestLog() { return unable_to_release_oldest_log_; } bool TEST_IsLogGettingFlushed() { return alive_log_files_.begin()->getting_flushed; } Status TEST_SwitchMemtable(ColumnFamilyData* cfd = nullptr); // Force current memtable contents to be flushed. Status TEST_FlushMemTable(bool wait = true, bool allow_write_stall = false, ColumnFamilyHandle* cfh = nullptr); // Wait for memtable compaction Status TEST_WaitForFlushMemTable(ColumnFamilyHandle* column_family = nullptr); // Wait for any compaction // We add a bool parameter to wait for unscheduledCompactions_ == 0, but this // is only for the special test of CancelledCompactions Status TEST_WaitForCompact(bool waitUnscheduled = false); // Return the maximum overlapping data (in bytes) at next level for any // file at a level >= 1. int64_t TEST_MaxNextLevelOverlappingBytes(ColumnFamilyHandle* column_family = nullptr); // Return the current manifest file no. uint64_t TEST_Current_Manifest_FileNo(); // Returns the number that'll be assigned to the next file that's created. uint64_t TEST_Current_Next_FileNo(); // get total level0 file size. Only for testing. uint64_t TEST_GetLevel0TotalSize(); void TEST_GetFilesMetaData(ColumnFamilyHandle* column_family, std::vector>* metadata); void TEST_LockMutex(); void TEST_UnlockMutex(); // REQUIRES: mutex locked void* TEST_BeginWrite(); // REQUIRES: mutex locked // pass the pointer that you got from TEST_BeginWrite() void TEST_EndWrite(void* w); uint64_t TEST_MaxTotalInMemoryState() const { return max_total_in_memory_state_; } size_t TEST_LogsToFreeSize(); uint64_t TEST_LogfileNumber(); uint64_t TEST_total_log_size() const { return total_log_size_; } // Returns column family name to ImmutableCFOptions map. Status TEST_GetAllImmutableCFOptions( std::unordered_map* iopts_map); // Return the lastest MutableCFOptions of a column family Status TEST_GetLatestMutableCFOptions(ColumnFamilyHandle* column_family, MutableCFOptions* mutable_cf_options); Cache* TEST_table_cache() { return table_cache_.get(); } WriteController& TEST_write_controler() { return write_controller_; } uint64_t TEST_FindMinLogContainingOutstandingPrep(); uint64_t TEST_FindMinPrepLogReferencedByMemTable(); size_t TEST_PreparedSectionCompletedSize(); size_t TEST_LogsWithPrepSize(); int TEST_BGCompactionsAllowed() const; int TEST_BGFlushesAllowed() const; size_t TEST_GetWalPreallocateBlockSize(uint64_t write_buffer_size) const; #endif // NDEBUG struct BGJobLimits { int max_flushes; int max_compactions; }; // Returns maximum background flushes and compactions allowed to be scheduled BGJobLimits GetBGJobLimits() const; // Need a static version that can be called during SanitizeOptions(). static BGJobLimits GetBGJobLimits(int max_background_flushes, int max_background_compactions, int max_background_jobs, bool parallelize_compactions); // move logs pending closing from job_context to the DB queue and // schedule a purge void ScheduleBgLogWriterClose(JobContext* job_context); uint64_t MinLogNumberToKeep(); // Returns the list of live files in 'live' and the list // of all files in the filesystem in 'candidate_files'. // If force == false and the last call was less than // db_options_.delete_obsolete_files_period_micros microseconds ago, // it will not fill up the job_context void FindObsoleteFiles(JobContext* job_context, bool force, bool no_full_scan = false); // Diffs the files listed in filenames and those that do not // belong to live files are possibly removed. Also, removes all the // files in sst_delete_files and log_delete_files. // It is not necessary to hold the mutex when invoking this method. // If FindObsoleteFiles() was run, we need to also run // PurgeObsoleteFiles(), even if disable_delete_obsolete_files_ is true void PurgeObsoleteFiles(JobContext& background_contet, bool schedule_only = false); void SchedulePurge(); ColumnFamilyHandle* DefaultColumnFamily() const override; const SnapshotList& snapshots() const { return snapshots_; } const ImmutableDBOptions& immutable_db_options() const { return immutable_db_options_; } void CancelAllBackgroundWork(bool wait); // Find Super version and reference it. Based on options, it might return // the thread local cached one. // Call ReturnAndCleanupSuperVersion() when it is no longer needed. SuperVersion* GetAndRefSuperVersion(ColumnFamilyData* cfd); // Similar to the previous function but looks up based on a column family id. // nullptr will be returned if this column family no longer exists. // REQUIRED: this function should only be called on the write thread or if the // mutex is held. SuperVersion* GetAndRefSuperVersion(uint32_t column_family_id); // Un-reference the super version and clean it up if it is the last reference. void CleanupSuperVersion(SuperVersion* sv); // Un-reference the super version and return it to thread local cache if // needed. If it is the last reference of the super version. Clean it up // after un-referencing it. void ReturnAndCleanupSuperVersion(ColumnFamilyData* cfd, SuperVersion* sv); // Similar to the previous function but looks up based on a column family id. // nullptr will be returned if this column family no longer exists. // REQUIRED: this function should only be called on the write thread. void ReturnAndCleanupSuperVersion(uint32_t colun_family_id, SuperVersion* sv); // REQUIRED: this function should only be called on the write thread or if the // mutex is held. Return value only valid until next call to this function or // mutex is released. ColumnFamilyHandle* GetColumnFamilyHandle(uint32_t column_family_id); // Same as above, should called without mutex held and not on write thread. ColumnFamilyHandle* GetColumnFamilyHandleUnlocked(uint32_t column_family_id); // Returns the number of currently running flushes. // REQUIREMENT: mutex_ must be held when calling this function. int num_running_flushes() { mutex_.AssertHeld(); return num_running_flushes_; } // Returns the number of currently running compactions. // REQUIREMENT: mutex_ must be held when calling this function. int num_running_compactions() { mutex_.AssertHeld(); return num_running_compactions_; } const WriteController& write_controller() { return write_controller_; } InternalIterator* NewInternalIterator(const ReadOptions&, ColumnFamilyData* cfd, SuperVersion* super_version, Arena* arena, RangeDelAggregator* range_del_agg); // hollow transactions shell used for recovery. // these will then be passed to TransactionDB so that // locks can be reacquired before writing can resume. struct RecoveredTransaction { std::string name_; bool unprepared_; struct BatchInfo { uint64_t log_number_; // TODO(lth): For unprepared, the memory usage here can be big for // unprepared transactions. This is only useful for rollbacks, and we // can in theory just keep keyset for that. WriteBatch* batch_; // Number of sub-batches. A new sub-batch is created if txn attempts to // insert a duplicate key,seq to memtable. This is currently used in // WritePreparedTxn/WriteUnpreparedTxn. size_t batch_cnt_; }; // This maps the seq of the first key in the batch to BatchInfo, which // contains WriteBatch and other information relevant to the batch. // // For WriteUnprepared, batches_ can have size greater than 1, but for // other write policies, it must be of size 1. std::map batches_; explicit RecoveredTransaction(const uint64_t log, const std::string& name, WriteBatch* batch, SequenceNumber seq, size_t batch_cnt, bool unprepared) : name_(name), unprepared_(unprepared) { batches_[seq] = {log, batch, batch_cnt}; } ~RecoveredTransaction() { for (auto& it : batches_) { delete it.second.batch_; } } void AddBatch(SequenceNumber seq, uint64_t log_number, WriteBatch* batch, size_t batch_cnt, bool unprepared) { assert(batches_.count(seq) == 0); batches_[seq] = {log_number, batch, batch_cnt}; // Prior state must be unprepared, since the prepare batch must be the // last batch. assert(unprepared_); unprepared_ = unprepared; } }; bool allow_2pc() const { return immutable_db_options_.allow_2pc; } std::unordered_map recovered_transactions() { return recovered_transactions_; } RecoveredTransaction* GetRecoveredTransaction(const std::string& name) { auto it = recovered_transactions_.find(name); if (it == recovered_transactions_.end()) { return nullptr; } else { return it->second; } } void InsertRecoveredTransaction(const uint64_t log, const std::string& name, WriteBatch* batch, SequenceNumber seq, size_t batch_cnt, bool unprepared_batch) { // For WriteUnpreparedTxn, InsertRecoveredTransaction is called multiple // times for every unprepared batch encountered during recovery. // // If the transaction is prepared, then the last call to // InsertRecoveredTransaction will have unprepared_batch = false. auto rtxn = recovered_transactions_.find(name); if (rtxn == recovered_transactions_.end()) { recovered_transactions_[name] = new RecoveredTransaction( log, name, batch, seq, batch_cnt, unprepared_batch); } else { rtxn->second->AddBatch(seq, log, batch, batch_cnt, unprepared_batch); } logs_with_prep_tracker_.MarkLogAsContainingPrepSection(log); } void DeleteRecoveredTransaction(const std::string& name) { auto it = recovered_transactions_.find(name); assert(it != recovered_transactions_.end()); auto* trx = it->second; recovered_transactions_.erase(it); for (const auto& info : trx->batches_) { logs_with_prep_tracker_.MarkLogAsHavingPrepSectionFlushed( info.second.log_number_); } delete trx; } void DeleteAllRecoveredTransactions() { for (auto it = recovered_transactions_.begin(); it != recovered_transactions_.end(); it++) { delete it->second; } recovered_transactions_.clear(); } void AddToLogsToFreeQueue(log::Writer* log_writer) { logs_to_free_queue_.push_back(log_writer); } void SetSnapshotChecker(SnapshotChecker* snapshot_checker); // Not thread-safe. void SetRecoverableStatePreReleaseCallback(PreReleaseCallback* callback); InstrumentedMutex* mutex() { return &mutex_; } Status NewDB(); // This is to be used only by internal rocksdb classes. static Status Open(const DBOptions& db_options, const std::string& name, const std::vector& column_families, std::vector* handles, DB** dbptr, const bool seq_per_batch, const bool batch_per_txn); virtual Status Close() override; static Status CreateAndNewDirectory(Env* env, const std::string& dirname, std::unique_ptr* directory); protected: Env* const env_; const std::string dbname_; unique_ptr versions_; // Flag to check whether we allocated and own the info log file bool own_info_log_; const DBOptions initial_db_options_; const ImmutableDBOptions immutable_db_options_; MutableDBOptions mutable_db_options_; Statistics* stats_; std::unordered_map recovered_transactions_; std::unique_ptr tracer_; InstrumentedMutex trace_mutex_; // Except in DB::Open(), WriteOptionsFile can only be called when: // Persist options to options file. // If need_mutex_lock = false, the method will lock DB mutex. // If need_enter_write_thread = false, the method will enter write thread. Status WriteOptionsFile(bool need_mutex_lock, bool need_enter_write_thread); // The following two functions can only be called when: // 1. WriteThread::Writer::EnterUnbatched() is used. // 2. db_mutex is NOT held Status RenameTempFileToOptionsFile(const std::string& file_name); Status DeleteObsoleteOptionsFiles(); void NotifyOnFlushBegin(ColumnFamilyData* cfd, FileMetaData* file_meta, const MutableCFOptions& mutable_cf_options, int job_id, TableProperties prop); void NotifyOnFlushCompleted(ColumnFamilyData* cfd, FileMetaData* file_meta, const MutableCFOptions& mutable_cf_options, int job_id, TableProperties prop); void NotifyOnCompactionCompleted(ColumnFamilyData* cfd, Compaction *c, const Status &st, const CompactionJobStats& job_stats, int job_id); void NotifyOnMemTableSealed(ColumnFamilyData* cfd, const MemTableInfo& mem_table_info); #ifndef ROCKSDB_LITE void NotifyOnExternalFileIngested( ColumnFamilyData* cfd, const ExternalSstFileIngestionJob& ingestion_job); #endif // !ROCKSDB_LITE void NewThreadStatusCfInfo(ColumnFamilyData* cfd) const; void EraseThreadStatusCfInfo(ColumnFamilyData* cfd) const; void EraseThreadStatusDbInfo() const; // If disable_memtable is set the application logic must guarantee that the // batch will still be skipped from memtable during the recovery. An excption // to this is seq_per_batch_ mode, in which since each batch already takes one // seq, it is ok for the batch to write to memtable during recovery as long as // it only takes one sequence number: i.e., no duplicate keys. // In WriteCommitted it is guarnateed since disable_memtable is used for // prepare batch which will be written to memtable later during the commit, // and in WritePrepared it is guaranteed since it will be used only for WAL // markers which will never be written to memtable. If the commit marker is // accompanied with CommitTimeWriteBatch that is not written to memtable as // long as it has no duplicate keys, it does not violate the one-seq-per-batch // policy. // batch_cnt is expected to be non-zero in seq_per_batch mode and // indicates the number of sub-patches. A sub-patch is a subset of the write // batch that does not have duplicate keys. Status WriteImpl(const WriteOptions& options, WriteBatch* updates, WriteCallback* callback = nullptr, uint64_t* log_used = nullptr, uint64_t log_ref = 0, bool disable_memtable = false, uint64_t* seq_used = nullptr, size_t batch_cnt = 0, PreReleaseCallback* pre_release_callback = nullptr); Status PipelinedWriteImpl(const WriteOptions& options, WriteBatch* updates, WriteCallback* callback = nullptr, uint64_t* log_used = nullptr, uint64_t log_ref = 0, bool disable_memtable = false, uint64_t* seq_used = nullptr); // batch_cnt is expected to be non-zero in seq_per_batch mode and indicates // the number of sub-patches. A sub-patch is a subset of the write batch that // does not have duplicate keys. Status WriteImplWALOnly(const WriteOptions& options, WriteBatch* updates, WriteCallback* callback = nullptr, uint64_t* log_used = nullptr, uint64_t log_ref = 0, uint64_t* seq_used = nullptr, size_t batch_cnt = 0, PreReleaseCallback* pre_release_callback = nullptr); // write cached_recoverable_state_ to memtable if it is not empty // The writer must be the leader in write_thread_ and holding mutex_ Status WriteRecoverableState(); // Actual implementation of Close() Status CloseImpl(); private: friend class DB; friend class ErrorHandler; friend class InternalStats; friend class PessimisticTransaction; friend class TransactionBaseImpl; friend class WriteCommittedTxn; friend class WritePreparedTxn; friend class WritePreparedTxnDB; friend class WriteBatchWithIndex; friend class WriteUnpreparedTxnDB; friend class WriteUnpreparedTxn; #ifndef ROCKSDB_LITE friend class ForwardIterator; #endif friend struct SuperVersion; friend class CompactedDBImpl; friend class DBTest_ConcurrentFlushWAL_Test; friend class DBTest_MixedSlowdownOptionsStop_Test; #ifndef NDEBUG friend class DBTest2_ReadCallbackTest_Test; friend class WriteCallbackTest_WriteWithCallbackTest_Test; friend class XFTransactionWriteHandler; friend class DBBlobIndexTest; friend class WriteUnpreparedTransactionTest_RecoveryTest_Test; #endif struct CompactionState; struct WriteContext { SuperVersionContext superversion_context; autovector memtables_to_free_; explicit WriteContext(bool create_superversion = false) : superversion_context(create_superversion) {} ~WriteContext() { superversion_context.Clean(); for (auto& m : memtables_to_free_) { delete m; } } }; struct PrepickedCompaction; struct PurgeFileInfo; // Recover the descriptor from persistent storage. May do a significant // amount of work to recover recently logged updates. Any changes to // be made to the descriptor are added to *edit. Status Recover(const std::vector& column_families, bool read_only = false, bool error_if_log_file_exist = false, bool error_if_data_exists_in_logs = false); Status ResumeImpl(); void MaybeIgnoreError(Status* s) const; const Status CreateArchivalDirectory(); Status CreateColumnFamilyImpl(const ColumnFamilyOptions& cf_options, const std::string& cf_name, ColumnFamilyHandle** handle); Status DropColumnFamilyImpl(ColumnFamilyHandle* column_family); // Delete any unneeded files and stale in-memory entries. void DeleteObsoleteFiles(); // Delete obsolete files and log status and information of file deletion void DeleteObsoleteFileImpl(int job_id, const std::string& fname, const std::string& path_to_sync, FileType type, uint64_t number); // Background process needs to call // auto x = CaptureCurrentFileNumberInPendingOutputs() // auto file_num = versions_->NewFileNumber(); // // ReleaseFileNumberFromPendingOutputs(x) // This will protect any file with number `file_num` or greater from being // deleted while is running. // ----------- // This function will capture current file number and append it to // pending_outputs_. This will prevent any background process to delete any // file created after this point. std::list::iterator CaptureCurrentFileNumberInPendingOutputs(); // This function should be called with the result of // CaptureCurrentFileNumberInPendingOutputs(). It then marks that any file // created between the calls CaptureCurrentFileNumberInPendingOutputs() and // ReleaseFileNumberFromPendingOutputs() can now be deleted (if it's not live // and blocked by any other pending_outputs_ calls) void ReleaseFileNumberFromPendingOutputs(std::list::iterator v); Status SyncClosedLogs(JobContext* job_context); // Flush the in-memory write buffer to storage. Switches to a new // log-file/memtable and writes a new descriptor iff successful. Then // installs a new super version for the column family. Status FlushMemTableToOutputFile(ColumnFamilyData* cfd, const MutableCFOptions& mutable_cf_options, bool* madeProgress, JobContext* job_context, SuperVersionContext* superversion_context, LogBuffer* log_buffer); // Argument required by background flush thread. struct BGFlushArg { BGFlushArg() : cfd_(nullptr), memtable_id_(0), superversion_context_(nullptr) {} BGFlushArg(ColumnFamilyData* cfd, uint64_t memtable_id, SuperVersionContext* superversion_context) : cfd_(cfd), memtable_id_(memtable_id), superversion_context_(superversion_context) {} // Column family to flush. ColumnFamilyData* cfd_; // Maximum ID of memtable to flush. In this column family, memtables with // IDs smaller than this value must be flushed before this flush completes. uint64_t memtable_id_; // Pointer to a SuperVersionContext object. After flush completes, RocksDB // installs a new superversion for the column family. This operation // requires a SuperVersionContext object (currently embedded in JobContext). SuperVersionContext* superversion_context_; }; // Flush the memtables of (multiple) column families to multiple files on // persistent storage. Status FlushMemTablesToOutputFiles( const autovector& bg_flush_args, bool* made_progress, JobContext* job_context, LogBuffer* log_buffer); // REQUIRES: log_numbers are sorted in ascending order Status RecoverLogFiles(const std::vector& log_numbers, SequenceNumber* next_sequence, bool read_only); // The following two methods are used to flush a memtable to // storage. The first one is used at database RecoveryTime (when the // database is opened) and is heavyweight because it holds the mutex // for the entire period. The second method WriteLevel0Table supports // concurrent flush memtables to storage. Status WriteLevel0TableForRecovery(int job_id, ColumnFamilyData* cfd, MemTable* mem, VersionEdit* edit); // Restore alive_log_files_ and total_log_size_ after recovery. // It needs to run only when there's no flush during recovery // (e.g. avoid_flush_during_recovery=true). May also trigger flush // in case total_log_size > max_total_wal_size. Status RestoreAliveLogFiles(const std::vector& log_numbers); // num_bytes: for slowdown case, delay time is calculated based on // `num_bytes` going through. Status DelayWrite(uint64_t num_bytes, const WriteOptions& write_options); Status ThrottleLowPriWritesIfNeeded(const WriteOptions& write_options, WriteBatch* my_batch); Status ScheduleFlushes(WriteContext* context); Status SwitchMemtable(ColumnFamilyData* cfd, WriteContext* context); // Force current memtable contents to be flushed. Status FlushMemTable(ColumnFamilyData* cfd, const FlushOptions& options, FlushReason flush_reason, bool writes_stopped = false); // Wait until flushing this column family won't stall writes Status WaitUntilFlushWouldNotStallWrites(ColumnFamilyData* cfd, bool* flush_needed); // Wait for memtable flushed. // If flush_memtable_id is non-null, wait until the memtable with the ID // gets flush. Otherwise, wait until the column family don't have any // memtable pending flush. Status WaitForFlushMemTable(ColumnFamilyData* cfd, const uint64_t* flush_memtable_id = nullptr) { return WaitForFlushMemTables({cfd}, {flush_memtable_id}); } // Wait for memtables to be flushed for multiple column families. Status WaitForFlushMemTables( const autovector& cfds, const autovector& flush_memtable_ids); // REQUIRES: mutex locked Status SwitchWAL(WriteContext* write_context); // REQUIRES: mutex locked Status HandleWriteBufferFull(WriteContext* write_context); // REQUIRES: mutex locked Status PreprocessWrite(const WriteOptions& write_options, bool* need_log_sync, WriteContext* write_context); WriteBatch* MergeBatch(const WriteThread::WriteGroup& write_group, WriteBatch* tmp_batch, size_t* write_with_wal, WriteBatch** to_be_cached_state); Status WriteToWAL(const WriteBatch& merged_batch, log::Writer* log_writer, uint64_t* log_used, uint64_t* log_size); Status WriteToWAL(const WriteThread::WriteGroup& write_group, log::Writer* log_writer, uint64_t* log_used, bool need_log_sync, bool need_log_dir_sync, SequenceNumber sequence); Status ConcurrentWriteToWAL(const WriteThread::WriteGroup& write_group, uint64_t* log_used, SequenceNumber* last_sequence, size_t seq_inc); // Used by WriteImpl to update bg_error_ if paranoid check is enabled. void WriteStatusCheck(const Status& status); // Used by WriteImpl to update bg_error_ in case of memtable insert error. void MemTableInsertStatusCheck(const Status& memtable_insert_status); #ifndef ROCKSDB_LITE Status CompactFilesImpl(const CompactionOptions& compact_options, ColumnFamilyData* cfd, Version* version, const std::vector& input_file_names, std::vector* const output_file_names, const int output_level, int output_path_id, JobContext* job_context, LogBuffer* log_buffer); // Wait for current IngestExternalFile() calls to finish. // REQUIRES: mutex_ held void WaitForIngestFile(); #else // IngestExternalFile is not supported in ROCKSDB_LITE so this function // will be no-op void WaitForIngestFile() {} #endif // ROCKSDB_LITE ColumnFamilyData* GetColumnFamilyDataByName(const std::string& cf_name); void MaybeScheduleFlushOrCompaction(); // A flush request specifies the column families to flush as well as the // largest memtable id to persist for each column family. Once all the // memtables whose IDs are smaller than or equal to this per-column-family // specified value, this flush request is considered to have completed its // work of flushing this column family. After completing the work for all // column families in this request, this flush is considered complete. typedef std::vector> FlushRequest; void SchedulePendingFlush(const FlushRequest& req, FlushReason flush_reason); void SchedulePendingCompaction(ColumnFamilyData* cfd); void SchedulePendingPurge(std::string fname, std::string dir_to_sync, FileType type, uint64_t number, int job_id); static void BGWorkCompaction(void* arg); // Runs a pre-chosen universal compaction involving bottom level in a // separate, bottom-pri thread pool. static void BGWorkBottomCompaction(void* arg); static void BGWorkFlush(void* db); static void BGWorkPurge(void* arg); static void UnscheduleCallback(void* arg); void BackgroundCallCompaction(PrepickedCompaction* prepicked_compaction, Env::Priority bg_thread_pri); void BackgroundCallFlush(); void BackgroundCallPurge(); Status BackgroundCompaction(bool* madeProgress, JobContext* job_context, LogBuffer* log_buffer, PrepickedCompaction* prepicked_compaction); Status BackgroundFlush(bool* madeProgress, JobContext* job_context, LogBuffer* log_buffer, FlushReason* reason); bool EnoughRoomForCompaction(ColumnFamilyData* cfd, const std::vector& inputs, bool* sfm_bookkeeping, LogBuffer* log_buffer); void PrintStatistics(); // dump rocksdb.stats to LOG void MaybeDumpStats(); // Return the minimum empty level that could hold the total data in the // input level. Return the input level, if such level could not be found. int FindMinimumEmptyLevelFitting(ColumnFamilyData* cfd, const MutableCFOptions& mutable_cf_options, int level); // Move the files in the input level to the target level. // If target_level < 0, automatically calculate the minimum level that could // hold the data set. Status ReFitLevel(ColumnFamilyData* cfd, int level, int target_level = -1); // helper functions for adding and removing from flush & compaction queues void AddToCompactionQueue(ColumnFamilyData* cfd); ColumnFamilyData* PopFirstFromCompactionQueue(); FlushRequest PopFirstFromFlushQueue(); // helper function to call after some of the logs_ were synced void MarkLogsSynced(uint64_t up_to, bool synced_dir, const Status& status); SnapshotImpl* GetSnapshotImpl(bool is_write_conflict_boundary); uint64_t GetMaxTotalWalSize() const; Directory* GetDataDir(ColumnFamilyData* cfd, size_t path_id) const; Status CloseHelper(); Status FlushAllCFs(FlushReason flush_reason); void WaitForBackgroundWork(); // table_cache_ provides its own synchronization std::shared_ptr table_cache_; // Lock over the persistent DB state. Non-nullptr iff successfully acquired. FileLock* db_lock_; // In addition to mutex_, log_write_mutex_ protected writes to logs_ and // logfile_number_. With two_write_queues it also protects alive_log_files_, // and log_empty_. Refer to the definition of each variable below for more // details. InstrumentedMutex log_write_mutex_; // State below is protected by mutex_ // With two_write_queues enabled, some of the variables that accessed during // WriteToWAL need different synchronization: log_empty_, alive_log_files_, // logs_, logfile_number_. Refer to the definition of each variable below for // more description. mutable InstrumentedMutex mutex_; std::atomic shutting_down_; // This condition variable is signaled on these conditions: // * whenever bg_compaction_scheduled_ goes down to 0 // * if AnyManualCompaction, whenever a compaction finishes, even if it hasn't // made any progress // * whenever a compaction made any progress // * whenever bg_flush_scheduled_ or bg_purge_scheduled_ value decreases // (i.e. whenever a flush is done, even if it didn't make any progress) // * whenever there is an error in background purge, flush or compaction // * whenever num_running_ingest_file_ goes to 0. // * whenever pending_purge_obsolete_files_ goes to 0. // * whenever disable_delete_obsolete_files_ goes to 0. // * whenever SetOptions successfully updates options. // * whenever a column family is dropped. InstrumentedCondVar bg_cv_; // Writes are protected by locking both mutex_ and log_write_mutex_, and reads // must be under either mutex_ or log_write_mutex_. Since after ::Open, // logfile_number_ is currently updated only in write_thread_, it can be read // from the same write_thread_ without any locks. uint64_t logfile_number_; std::deque log_recycle_files_; // a list of log files that we can recycle bool log_dir_synced_; // Without two_write_queues, read and writes to log_empty_ are protected by // mutex_. Since it is currently updated/read only in write_thread_, it can be // accessed from the same write_thread_ without any locks. With // two_write_queues writes, where it can be updated in different threads, // read and writes are protected by log_write_mutex_ instead. This is to avoid // expesnive mutex_ lock during WAL write, which update log_empty_. bool log_empty_; ColumnFamilyHandleImpl* default_cf_handle_; InternalStats* default_cf_internal_stats_; unique_ptr column_family_memtables_; struct LogFileNumberSize { explicit LogFileNumberSize(uint64_t _number) : number(_number) {} void AddSize(uint64_t new_size) { size += new_size; } uint64_t number; uint64_t size = 0; bool getting_flushed = false; }; struct LogWriterNumber { // pass ownership of _writer LogWriterNumber(uint64_t _number, log::Writer* _writer) : number(_number), writer(_writer) {} log::Writer* ReleaseWriter() { auto* w = writer; writer = nullptr; return w; } Status ClearWriter() { Status s = writer->WriteBuffer(); delete writer; writer = nullptr; return s; } uint64_t number; // Visual Studio doesn't support deque's member to be noncopyable because // of a unique_ptr as a member. log::Writer* writer; // own // true for some prefix of logs_ bool getting_synced = false; }; // Without two_write_queues, read and writes to alive_log_files_ are // protected by mutex_. However since back() is never popped, and push_back() // is done only from write_thread_, the same thread can access the item // reffered by back() without mutex_. With two_write_queues_, writes // are protected by locking both mutex_ and log_write_mutex_, and reads must // be under either mutex_ or log_write_mutex_. std::deque alive_log_files_; // Log files that aren't fully synced, and the current log file. // Synchronization: // - push_back() is done from write_thread_ with locked mutex_ and // log_write_mutex_ // - pop_front() is done from any thread with locked mutex_ and // log_write_mutex_ // - reads are done with either locked mutex_ or log_write_mutex_ // - back() and items with getting_synced=true are not popped, // - The same thread that sets getting_synced=true will reset it. // - it follows that the object referred by back() can be safely read from // the write_thread_ without using mutex // - it follows that the items with getting_synced=true can be safely read // from the same thread that has set getting_synced=true std::deque logs_; // Signaled when getting_synced becomes false for some of the logs_. InstrumentedCondVar log_sync_cv_; // This is the app-level state that is written to the WAL but will be used // only during recovery. Using this feature enables not writing the state to // memtable on normal writes and hence improving the throughput. Each new // write of the state will replace the previous state entirely even if the // keys in the two consecuitive states do not overlap. // It is protected by log_write_mutex_ when two_write_queues_ is enabled. // Otherwise only the heaad of write_thread_ can access it. WriteBatch cached_recoverable_state_; std::atomic cached_recoverable_state_empty_ = {true}; std::atomic total_log_size_; // only used for dynamically adjusting max_total_wal_size. it is a sum of // [write_buffer_size * max_write_buffer_number] over all column families uint64_t max_total_in_memory_state_; // If true, we have only one (default) column family. We use this to optimize // some code-paths bool single_column_family_mode_; // If this is non-empty, we need to delete these log files in background // threads. Protected by db mutex. autovector logs_to_free_; bool is_snapshot_supported_; // Class to maintain directories for all database paths other than main one. class Directories { public: Status SetDirectories(Env* env, const std::string& dbname, const std::string& wal_dir, const std::vector& data_paths); Directory* GetDataDir(size_t path_id) const; Directory* GetWalDir() { if (wal_dir_) { return wal_dir_.get(); } return db_dir_.get(); } Directory* GetDbDir() { return db_dir_.get(); } private: std::unique_ptr db_dir_; std::vector> data_dirs_; std::unique_ptr wal_dir_; }; Directories directories_; WriteBufferManager* write_buffer_manager_; WriteThread write_thread_; WriteBatch tmp_batch_; // The write thread when the writers have no memtable write. This will be used // in 2PC to batch the prepares separately from the serial commit. WriteThread nonmem_write_thread_; WriteController write_controller_; unique_ptr low_pri_write_rate_limiter_; // Size of the last batch group. In slowdown mode, next write needs to // sleep if it uses up the quota. // Note: This is to protect memtable and compaction. If the batch only writes // to the WAL its size need not to be included in this. uint64_t last_batch_group_size_; FlushScheduler flush_scheduler_; SnapshotList snapshots_; // For each background job, pending_outputs_ keeps the current file number at // the time that background job started. // FindObsoleteFiles()/PurgeObsoleteFiles() never deletes any file that has // number bigger than any of the file number in pending_outputs_. Since file // numbers grow monotonically, this also means that pending_outputs_ is always // sorted. After a background job is done executing, its file number is // deleted from pending_outputs_, which allows PurgeObsoleteFiles() to clean // it up. // State is protected with db mutex. std::list pending_outputs_; // PurgeFileInfo is a structure to hold information of files to be deleted in // purge_queue_ struct PurgeFileInfo { std::string fname; std::string dir_to_sync; FileType type; uint64_t number; int job_id; PurgeFileInfo(std::string fn, std::string d, FileType t, uint64_t num, int jid) : fname(fn), dir_to_sync(d), type(t), number(num), job_id(jid) {} }; // flush_queue_ and compaction_queue_ hold column families that we need to // flush and compact, respectively. // A column family is inserted into flush_queue_ when it satisfies condition // cfd->imm()->IsFlushPending() // A column family is inserted into compaction_queue_ when it satisfied // condition cfd->NeedsCompaction() // Column families in this list are all Ref()-erenced // TODO(icanadi) Provide some kind of ReferencedColumnFamily class that will // do RAII on ColumnFamilyData // Column families are in this queue when they need to be flushed or // compacted. Consumers of these queues are flush and compaction threads. When // column family is put on this queue, we increase unscheduled_flushes_ and // unscheduled_compactions_. When these variables are bigger than zero, that // means we need to schedule background threads for compaction and thread. // Once the background threads are scheduled, we decrease unscheduled_flushes_ // and unscheduled_compactions_. That way we keep track of number of // compaction and flush threads we need to schedule. This scheduling is done // in MaybeScheduleFlushOrCompaction() // invariant(column family present in flush_queue_ <==> // ColumnFamilyData::pending_flush_ == true) std::deque flush_queue_; // invariant(column family present in compaction_queue_ <==> // ColumnFamilyData::pending_compaction_ == true) std::deque compaction_queue_; // A queue to store filenames of the files to be purged std::deque purge_queue_; // A vector to store the file numbers that have been assigned to certain // JobContext. Current implementation tracks ssts only. std::vector files_grabbed_for_purge_; // A queue to store log writers to close std::deque logs_to_free_queue_; int unscheduled_flushes_; int unscheduled_compactions_; // count how many background compactions are running or have been scheduled in // the BOTTOM pool int bg_bottom_compaction_scheduled_; // count how many background compactions are running or have been scheduled int bg_compaction_scheduled_; // stores the number of compactions are currently running int num_running_compactions_; // number of background memtable flush jobs, submitted to the HIGH pool int bg_flush_scheduled_; // stores the number of flushes are currently running int num_running_flushes_; // number of background obsolete file purge jobs, submitted to the HIGH pool int bg_purge_scheduled_; // Information for a manual compaction struct ManualCompactionState { ColumnFamilyData* cfd; int input_level; int output_level; uint32_t output_path_id; Status status; bool done; bool in_progress; // compaction request being processed? bool incomplete; // only part of requested range compacted bool exclusive; // current behavior of only one manual bool disallow_trivial_move; // Force actual compaction to run const InternalKey* begin; // nullptr means beginning of key range const InternalKey* end; // nullptr means end of key range InternalKey* manual_end; // how far we are compacting InternalKey tmp_storage; // Used to keep track of compaction progress InternalKey tmp_storage1; // Used to keep track of compaction progress }; struct PrepickedCompaction { // background compaction takes ownership of `compaction`. Compaction* compaction; // caller retains ownership of `manual_compaction_state` as it is reused // across background compactions. ManualCompactionState* manual_compaction_state; // nullptr if non-manual }; std::deque manual_compaction_dequeue_; struct CompactionArg { // caller retains ownership of `db`. DBImpl* db; // background compaction takes ownership of `prepicked_compaction`. PrepickedCompaction* prepicked_compaction; }; // shall we disable deletion of obsolete files // if 0 the deletion is enabled. // if non-zero, files will not be getting deleted // This enables two different threads to call // EnableFileDeletions() and DisableFileDeletions() // without any synchronization int disable_delete_obsolete_files_; // Number of times FindObsoleteFiles has found deletable files and the // corresponding call to PurgeObsoleteFiles has not yet finished. int pending_purge_obsolete_files_; // last time when DeleteObsoleteFiles with full scan was executed. Originaly // initialized with startup time. uint64_t delete_obsolete_files_last_run_; // last time stats were dumped to LOG std::atomic last_stats_dump_time_microsec_; // Each flush or compaction gets its own job id. this counter makes sure // they're unique std::atomic next_job_id_; // A flag indicating whether the current rocksdb database has any // data that is not yet persisted into either WAL or SST file. // Used when disableWAL is true. std::atomic has_unpersisted_data_; // if an attempt was made to flush all column families that // the oldest log depends on but uncommited data in the oldest // log prevents the log from being released. // We must attempt to free the dependent memtables again // at a later time after the transaction in the oldest // log is fully commited. bool unable_to_release_oldest_log_; static const int KEEP_LOG_FILE_NUM = 1000; // MSVC version 1800 still does not have constexpr for ::max() static const uint64_t kNoTimeOut = port::kMaxUint64; std::string db_absolute_path_; // The options to access storage files const EnvOptions env_options_; // Additonal options for compaction and flush EnvOptions env_options_for_compaction_; // Number of running IngestExternalFile() calls. // REQUIRES: mutex held int num_running_ingest_file_; #ifndef ROCKSDB_LITE WalManager wal_manager_; #endif // ROCKSDB_LITE // Unified interface for logging events EventLogger event_logger_; // A value of > 0 temporarily disables scheduling of background work int bg_work_paused_; // A value of > 0 temporarily disables scheduling of background compaction int bg_compaction_paused_; // Guard against multiple concurrent refitting bool refitting_level_; // Indicate DB was opened successfully bool opened_successfully_; LogsWithPrepTracker logs_with_prep_tracker_; // Callback for compaction to check if a key is visible to a snapshot. // REQUIRES: mutex held std::unique_ptr snapshot_checker_; // Callback for when the cached_recoverable_state_ is written to memtable // Only to be set during initialization std::unique_ptr recoverable_state_pre_release_callback_; // No copying allowed DBImpl(const DBImpl&); void operator=(const DBImpl&); // Background threads call this function, which is just a wrapper around // the InstallSuperVersion() function. Background threads carry // sv_context which can have new_superversion already // allocated. // All ColumnFamily state changes go through this function. Here we analyze // the new state and we schedule background work if we detect that the new // state needs flush or compaction. void InstallSuperVersionAndScheduleWork( ColumnFamilyData* cfd, SuperVersionContext* sv_context, const MutableCFOptions& mutable_cf_options, FlushReason flush_reason = FlushReason::kOthers); #ifndef ROCKSDB_LITE using DB::GetPropertiesOfAllTables; virtual Status GetPropertiesOfAllTables(ColumnFamilyHandle* column_family, TablePropertiesCollection* props) override; virtual Status GetPropertiesOfTablesInRange( ColumnFamilyHandle* column_family, const Range* range, std::size_t n, TablePropertiesCollection* props) override; #endif // ROCKSDB_LITE bool GetIntPropertyInternal(ColumnFamilyData* cfd, const DBPropertyInfo& property_info, bool is_locked, uint64_t* value); bool GetPropertyHandleOptionsStatistics(std::string* value); bool HasPendingManualCompaction(); bool HasExclusiveManualCompaction(); void AddManualCompaction(ManualCompactionState* m); void RemoveManualCompaction(ManualCompactionState* m); bool ShouldntRunManualCompaction(ManualCompactionState* m); bool HaveManualCompaction(ColumnFamilyData* cfd); bool MCOverlap(ManualCompactionState* m, ManualCompactionState* m1); bool ShouldPurge(uint64_t file_number) const; void MarkAsGrabbedForPurge(uint64_t file_number); size_t GetWalPreallocateBlockSize(uint64_t write_buffer_size) const; Env::WriteLifeTimeHint CalculateWALWriteHint() { return Env::WLTH_SHORT; } // When set, we use a separate queue for writes that dont write to memtable. // In 2PC these are the writes at Prepare phase. const bool two_write_queues_; const bool manual_wal_flush_; // Increase the sequence number after writing each batch, whether memtable is // disabled for that or not. Otherwise the sequence number is increased after // writing each key into memtable. This implies that when disable_memtable is // set, the seq is not increased at all. // // Default: false const bool seq_per_batch_; // This determines during recovery whether we expect one writebatch per // recovered transaction, or potentially multiple writebatches per // transaction. For WriteUnprepared, this is set to false, since multiple // batches can exist per transaction. // // Default: true const bool batch_per_txn_; // LastSequence also indicates last published sequence visibile to the // readers. Otherwise LastPublishedSequence should be used. const bool last_seq_same_as_publish_seq_; // It indicates that a customized gc algorithm must be used for // flush/compaction and if it is not provided vis SnapshotChecker, we should // disable gc to be safe. const bool use_custom_gc_; // Flag to indicate that the DB instance shutdown has been initiated. This // different from shutting_down_ atomic in that it is set at the beginning // of shutdown sequence, specifically in order to prevent any background // error recovery from going on in parallel. The latter, shutting_down_, // is set a little later during the shutdown after scheduling memtable // flushes bool shutdown_initiated_; // Flag to indicate whether sst_file_manager object was allocated in // DB::Open() or passed to us bool own_sfm_; // Clients must periodically call SetPreserveDeletesSequenceNumber() // to advance this seqnum. Default value is 0 which means ALL deletes are // preserved. Note that this has no effect if DBOptions.preserve_deletes // is set to false. std::atomic preserve_deletes_seqnum_; const bool preserve_deletes_; // Flag to check whether Close() has been called on this DB bool closed_; ErrorHandler error_handler_; }; extern Options SanitizeOptions(const std::string& db, const Options& src); extern DBOptions SanitizeOptions(const std::string& db, const DBOptions& src); extern CompressionType GetCompressionFlush( const ImmutableCFOptions& ioptions, const MutableCFOptions& mutable_cf_options); // Return the earliest log file to keep after the memtable flush is // finalized. // `cfd_to_flush` is the column family whose memtable (specified in // `memtables_to_flush`) will be flushed and thus will not depend on any WAL // file. // The function is only applicable to 2pc mode. extern uint64_t PrecomputeMinLogNumberToKeep( VersionSet* vset, const ColumnFamilyData& cfd_to_flush, autovector edit_list, const autovector& memtables_to_flush, LogsWithPrepTracker* prep_tracker); // `cfd_to_flush` is the column family whose memtable will be flushed and thus // will not depend on any WAL file. nullptr means no memtable is being flushed. // The function is only applicable to 2pc mode. extern uint64_t FindMinPrepLogReferencedByMemTable( VersionSet* vset, const ColumnFamilyData* cfd_to_flush, const autovector& memtables_to_flush); // Fix user-supplied options to be reasonable template static void ClipToRange(T* ptr, V minvalue, V maxvalue) { if (static_cast(*ptr) > maxvalue) *ptr = maxvalue; if (static_cast(*ptr) < minvalue) *ptr = minvalue; } } // namespace rocksdb rocksdb-5.17.2/db/db_impl_compaction_flush.cc000066400000000000000000002544451337235545400212050ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "db/db_impl.h" #ifndef __STDC_FORMAT_MACROS #define __STDC_FORMAT_MACROS #endif #include #include "db/builder.h" #include "db/error_handler.h" #include "db/event_helpers.h" #include "monitoring/iostats_context_imp.h" #include "monitoring/perf_context_imp.h" #include "monitoring/thread_status_updater.h" #include "monitoring/thread_status_util.h" #include "util/sst_file_manager_impl.h" #include "util/sync_point.h" namespace rocksdb { bool DBImpl::EnoughRoomForCompaction( ColumnFamilyData* cfd, const std::vector& inputs, bool* sfm_reserved_compact_space, LogBuffer* log_buffer) { // Check if we have enough room to do the compaction bool enough_room = true; #ifndef ROCKSDB_LITE auto sfm = static_cast( immutable_db_options_.sst_file_manager.get()); if (sfm) { // Pass the current bg_error_ to SFM so it can decide what checks to // perform. If this DB instance hasn't seen any error yet, the SFM can be // optimistic and not do disk space checks enough_room = sfm->EnoughRoomForCompaction(cfd, inputs, error_handler_.GetBGError()); if (enough_room) { *sfm_reserved_compact_space = true; } } #else (void)cfd; (void)inputs; (void)sfm_reserved_compact_space; #endif // ROCKSDB_LITE if (!enough_room) { // Just in case tests want to change the value of enough_room TEST_SYNC_POINT_CALLBACK( "DBImpl::BackgroundCompaction():CancelledCompaction", &enough_room); ROCKS_LOG_BUFFER(log_buffer, "Cancelled compaction because not enough room"); RecordTick(stats_, COMPACTION_CANCELLED, 1); } return enough_room; } Status DBImpl::SyncClosedLogs(JobContext* job_context) { TEST_SYNC_POINT("DBImpl::SyncClosedLogs:Start"); mutex_.AssertHeld(); autovector logs_to_sync; uint64_t current_log_number = logfile_number_; while (logs_.front().number < current_log_number && logs_.front().getting_synced) { log_sync_cv_.Wait(); } for (auto it = logs_.begin(); it != logs_.end() && it->number < current_log_number; ++it) { auto& log = *it; assert(!log.getting_synced); log.getting_synced = true; logs_to_sync.push_back(log.writer); } Status s; if (!logs_to_sync.empty()) { mutex_.Unlock(); for (log::Writer* log : logs_to_sync) { ROCKS_LOG_INFO(immutable_db_options_.info_log, "[JOB %d] Syncing log #%" PRIu64, job_context->job_id, log->get_log_number()); s = log->file()->Sync(immutable_db_options_.use_fsync); if (!s.ok()) { break; } } if (s.ok()) { s = directories_.GetWalDir()->Fsync(); } mutex_.Lock(); // "number <= current_log_number - 1" is equivalent to // "number < current_log_number". MarkLogsSynced(current_log_number - 1, true, s); if (!s.ok()) { error_handler_.SetBGError(s, BackgroundErrorReason::kFlush); TEST_SYNC_POINT("DBImpl::SyncClosedLogs:Failed"); return s; } } return s; } Status DBImpl::FlushMemTableToOutputFile( ColumnFamilyData* cfd, const MutableCFOptions& mutable_cf_options, bool* made_progress, JobContext* job_context, SuperVersionContext* superversion_context, LogBuffer* log_buffer) { mutex_.AssertHeld(); assert(cfd->imm()->NumNotFlushed() != 0); assert(cfd->imm()->IsFlushPending()); SequenceNumber earliest_write_conflict_snapshot; std::vector snapshot_seqs = snapshots_.GetAll(&earliest_write_conflict_snapshot); auto snapshot_checker = snapshot_checker_.get(); if (use_custom_gc_ && snapshot_checker == nullptr) { snapshot_checker = DisableGCSnapshotChecker::Instance(); } FlushJob flush_job( dbname_, cfd, immutable_db_options_, mutable_cf_options, env_options_for_compaction_, versions_.get(), &mutex_, &shutting_down_, snapshot_seqs, earliest_write_conflict_snapshot, snapshot_checker, job_context, log_buffer, directories_.GetDbDir(), GetDataDir(cfd, 0U), GetCompressionFlush(*cfd->ioptions(), mutable_cf_options), stats_, &event_logger_, mutable_cf_options.report_bg_io_stats); FileMetaData file_meta; flush_job.PickMemTable(); #ifndef ROCKSDB_LITE // may temporarily unlock and lock the mutex. NotifyOnFlushBegin(cfd, &file_meta, mutable_cf_options, job_context->job_id, flush_job.GetTableProperties()); #endif // ROCKSDB_LITE Status s; if (logfile_number_ > 0 && versions_->GetColumnFamilySet()->NumberOfColumnFamilies() > 0) { // If there are more than one column families, we need to make sure that // all the log files except the most recent one are synced. Otherwise if // the host crashes after flushing and before WAL is persistent, the // flushed SST may contain data from write batches whose updates to // other column families are missing. // SyncClosedLogs() may unlock and re-lock the db_mutex. s = SyncClosedLogs(job_context); } // Within flush_job.Run, rocksdb may call event listener to notify // file creation and deletion. // // Note that flush_job.Run will unlock and lock the db_mutex, // and EventListener callback will be called when the db_mutex // is unlocked by the current thread. if (s.ok()) { s = flush_job.Run(&logs_with_prep_tracker_, &file_meta); } else { flush_job.Cancel(); } if (s.ok()) { InstallSuperVersionAndScheduleWork(cfd, superversion_context, mutable_cf_options); if (made_progress) { *made_progress = 1; } VersionStorageInfo::LevelSummaryStorage tmp; ROCKS_LOG_BUFFER(log_buffer, "[%s] Level summary: %s\n", cfd->GetName().c_str(), cfd->current()->storage_info()->LevelSummary(&tmp)); } if (!s.ok() && !s.IsShutdownInProgress()) { Status new_bg_error = s; error_handler_.SetBGError(new_bg_error, BackgroundErrorReason::kFlush); } if (s.ok()) { #ifndef ROCKSDB_LITE // may temporarily unlock and lock the mutex. NotifyOnFlushCompleted(cfd, &file_meta, mutable_cf_options, job_context->job_id, flush_job.GetTableProperties()); auto sfm = static_cast( immutable_db_options_.sst_file_manager.get()); if (sfm) { // Notify sst_file_manager that a new file was added std::string file_path = MakeTableFileName( cfd->ioptions()->cf_paths[0].path, file_meta.fd.GetNumber()); sfm->OnAddFile(file_path); if (sfm->IsMaxAllowedSpaceReached()) { Status new_bg_error = Status::SpaceLimit("Max allowed space was reached"); TEST_SYNC_POINT_CALLBACK( "DBImpl::FlushMemTableToOutputFile:MaxAllowedSpaceReached", &new_bg_error); error_handler_.SetBGError(new_bg_error, BackgroundErrorReason::kFlush); } } #endif // ROCKSDB_LITE } return s; } Status DBImpl::FlushMemTablesToOutputFiles( const autovector& bg_flush_args, bool* made_progress, JobContext* job_context, LogBuffer* log_buffer) { Status s; for (auto& arg : bg_flush_args) { ColumnFamilyData* cfd = arg.cfd_; const MutableCFOptions& mutable_cf_options = *cfd->GetLatestMutableCFOptions(); SuperVersionContext* superversion_context = arg.superversion_context_; s = FlushMemTableToOutputFile(cfd, mutable_cf_options, made_progress, job_context, superversion_context, log_buffer); if (!s.ok()) { break; } } return s; } void DBImpl::NotifyOnFlushBegin(ColumnFamilyData* cfd, FileMetaData* file_meta, const MutableCFOptions& mutable_cf_options, int job_id, TableProperties prop) { #ifndef ROCKSDB_LITE if (immutable_db_options_.listeners.size() == 0U) { return; } mutex_.AssertHeld(); if (shutting_down_.load(std::memory_order_acquire)) { return; } bool triggered_writes_slowdown = (cfd->current()->storage_info()->NumLevelFiles(0) >= mutable_cf_options.level0_slowdown_writes_trigger); bool triggered_writes_stop = (cfd->current()->storage_info()->NumLevelFiles(0) >= mutable_cf_options.level0_stop_writes_trigger); // release lock while notifying events mutex_.Unlock(); { FlushJobInfo info; info.cf_name = cfd->GetName(); // TODO(yhchiang): make db_paths dynamic in case flush does not // go to L0 in the future. info.file_path = MakeTableFileName(cfd->ioptions()->cf_paths[0].path, file_meta->fd.GetNumber()); info.thread_id = env_->GetThreadID(); info.job_id = job_id; info.triggered_writes_slowdown = triggered_writes_slowdown; info.triggered_writes_stop = triggered_writes_stop; info.smallest_seqno = file_meta->fd.smallest_seqno; info.largest_seqno = file_meta->fd.largest_seqno; info.table_properties = prop; info.flush_reason = cfd->GetFlushReason(); for (auto listener : immutable_db_options_.listeners) { listener->OnFlushBegin(this, info); } } mutex_.Lock(); // no need to signal bg_cv_ as it will be signaled at the end of the // flush process. #else (void)cfd; (void)file_meta; (void)mutable_cf_options; (void)job_id; (void)prop; #endif // ROCKSDB_LITE } void DBImpl::NotifyOnFlushCompleted(ColumnFamilyData* cfd, FileMetaData* file_meta, const MutableCFOptions& mutable_cf_options, int job_id, TableProperties prop) { #ifndef ROCKSDB_LITE if (immutable_db_options_.listeners.size() == 0U) { return; } mutex_.AssertHeld(); if (shutting_down_.load(std::memory_order_acquire)) { return; } bool triggered_writes_slowdown = (cfd->current()->storage_info()->NumLevelFiles(0) >= mutable_cf_options.level0_slowdown_writes_trigger); bool triggered_writes_stop = (cfd->current()->storage_info()->NumLevelFiles(0) >= mutable_cf_options.level0_stop_writes_trigger); // release lock while notifying events mutex_.Unlock(); { FlushJobInfo info; info.cf_name = cfd->GetName(); // TODO(yhchiang): make db_paths dynamic in case flush does not // go to L0 in the future. info.file_path = MakeTableFileName(cfd->ioptions()->cf_paths[0].path, file_meta->fd.GetNumber()); info.thread_id = env_->GetThreadID(); info.job_id = job_id; info.triggered_writes_slowdown = triggered_writes_slowdown; info.triggered_writes_stop = triggered_writes_stop; info.smallest_seqno = file_meta->fd.smallest_seqno; info.largest_seqno = file_meta->fd.largest_seqno; info.table_properties = prop; info.flush_reason = cfd->GetFlushReason(); for (auto listener : immutable_db_options_.listeners) { listener->OnFlushCompleted(this, info); } } mutex_.Lock(); // no need to signal bg_cv_ as it will be signaled at the end of the // flush process. #else (void)cfd; (void)file_meta; (void)mutable_cf_options; (void)job_id; (void)prop; #endif // ROCKSDB_LITE } Status DBImpl::CompactRange(const CompactRangeOptions& options, ColumnFamilyHandle* column_family, const Slice* begin, const Slice* end) { auto cfh = reinterpret_cast(column_family); auto cfd = cfh->cfd(); if (options.target_path_id >= cfd->ioptions()->cf_paths.size()) { return Status::InvalidArgument("Invalid target path ID"); } bool exclusive = options.exclusive_manual_compaction; bool flush_needed = true; if (begin != nullptr && end != nullptr) { // TODO(ajkr): We could also optimize away the flush in certain cases where // one/both sides of the interval are unbounded. But it requires more // changes to RangesOverlapWithMemtables. Range range(*begin, *end); SuperVersion* super_version = cfd->GetReferencedSuperVersion(&mutex_); cfd->RangesOverlapWithMemtables({range}, super_version, &flush_needed); CleanupSuperVersion(super_version); } Status s; if (flush_needed) { FlushOptions fo; fo.allow_write_stall = options.allow_write_stall; s = FlushMemTable(cfd, fo, FlushReason::kManualCompaction, false /* writes_stopped*/); if (!s.ok()) { LogFlush(immutable_db_options_.info_log); return s; } } int max_level_with_files = 0; { InstrumentedMutexLock l(&mutex_); Version* base = cfd->current(); for (int level = 1; level < base->storage_info()->num_non_empty_levels(); level++) { if (base->storage_info()->OverlapInLevel(level, begin, end)) { max_level_with_files = level; } } } int final_output_level = 0; if (cfd->ioptions()->compaction_style == kCompactionStyleUniversal && cfd->NumberLevels() > 1) { // Always compact all files together. final_output_level = cfd->NumberLevels() - 1; // if bottom most level is reserved if (immutable_db_options_.allow_ingest_behind) { final_output_level--; } s = RunManualCompaction(cfd, ColumnFamilyData::kCompactAllLevels, final_output_level, options.target_path_id, options.max_subcompactions, begin, end, exclusive); } else { for (int level = 0; level <= max_level_with_files; level++) { int output_level; // in case the compaction is universal or if we're compacting the // bottom-most level, the output level will be the same as input one. // level 0 can never be the bottommost level (i.e. if all files are in // level 0, we will compact to level 1) if (cfd->ioptions()->compaction_style == kCompactionStyleUniversal || cfd->ioptions()->compaction_style == kCompactionStyleFIFO) { output_level = level; } else if (level == max_level_with_files && level > 0) { if (options.bottommost_level_compaction == BottommostLevelCompaction::kSkip) { // Skip bottommost level compaction continue; } else if (options.bottommost_level_compaction == BottommostLevelCompaction::kIfHaveCompactionFilter && cfd->ioptions()->compaction_filter == nullptr && cfd->ioptions()->compaction_filter_factory == nullptr) { // Skip bottommost level compaction since we don't have a compaction // filter continue; } output_level = level; } else { output_level = level + 1; if (cfd->ioptions()->compaction_style == kCompactionStyleLevel && cfd->ioptions()->level_compaction_dynamic_level_bytes && level == 0) { output_level = ColumnFamilyData::kCompactToBaseLevel; } } s = RunManualCompaction(cfd, level, output_level, options.target_path_id, options.max_subcompactions, begin, end, exclusive); if (!s.ok()) { break; } if (output_level == ColumnFamilyData::kCompactToBaseLevel) { final_output_level = cfd->NumberLevels() - 1; } else if (output_level > final_output_level) { final_output_level = output_level; } TEST_SYNC_POINT("DBImpl::RunManualCompaction()::1"); TEST_SYNC_POINT("DBImpl::RunManualCompaction()::2"); } } if (!s.ok()) { LogFlush(immutable_db_options_.info_log); return s; } if (options.change_level) { ROCKS_LOG_INFO(immutable_db_options_.info_log, "[RefitLevel] waiting for background threads to stop"); s = PauseBackgroundWork(); if (s.ok()) { s = ReFitLevel(cfd, final_output_level, options.target_level); } ContinueBackgroundWork(); } LogFlush(immutable_db_options_.info_log); { InstrumentedMutexLock l(&mutex_); // an automatic compaction that has been scheduled might have been // preempted by the manual compactions. Need to schedule it back. MaybeScheduleFlushOrCompaction(); } return s; } Status DBImpl::CompactFiles(const CompactionOptions& compact_options, ColumnFamilyHandle* column_family, const std::vector& input_file_names, const int output_level, const int output_path_id, std::vector* const output_file_names) { #ifdef ROCKSDB_LITE (void)compact_options; (void)column_family; (void)input_file_names; (void)output_level; (void)output_path_id; (void)output_file_names; // not supported in lite version return Status::NotSupported("Not supported in ROCKSDB LITE"); #else if (column_family == nullptr) { return Status::InvalidArgument("ColumnFamilyHandle must be non-null."); } auto cfd = reinterpret_cast(column_family)->cfd(); assert(cfd); Status s; JobContext job_context(0, true); LogBuffer log_buffer(InfoLogLevel::INFO_LEVEL, immutable_db_options_.info_log.get()); // Perform CompactFiles SuperVersion* sv = cfd->GetReferencedSuperVersion(&mutex_); { InstrumentedMutexLock l(&mutex_); // This call will unlock/lock the mutex to wait for current running // IngestExternalFile() calls to finish. WaitForIngestFile(); s = CompactFilesImpl(compact_options, cfd, sv->current, input_file_names, output_file_names, output_level, output_path_id, &job_context, &log_buffer); } if (sv->Unref()) { mutex_.Lock(); sv->Cleanup(); mutex_.Unlock(); delete sv; } // Find and delete obsolete files { InstrumentedMutexLock l(&mutex_); // If !s.ok(), this means that Compaction failed. In that case, we want // to delete all obsolete files we might have created and we force // FindObsoleteFiles(). This is because job_context does not // catch all created files if compaction failed. FindObsoleteFiles(&job_context, !s.ok()); } // release the mutex // delete unnecessary files if any, this is done outside the mutex if (job_context.HaveSomethingToClean() || job_context.HaveSomethingToDelete() || !log_buffer.IsEmpty()) { // Have to flush the info logs before bg_compaction_scheduled_-- // because if bg_flush_scheduled_ becomes 0 and the lock is // released, the deconstructor of DB can kick in and destroy all the // states of DB so info_log might not be available after that point. // It also applies to access other states that DB owns. log_buffer.FlushBufferToLog(); if (job_context.HaveSomethingToDelete()) { // no mutex is locked here. No need to Unlock() and Lock() here. PurgeObsoleteFiles(job_context); } job_context.Clean(); } return s; #endif // ROCKSDB_LITE } #ifndef ROCKSDB_LITE Status DBImpl::CompactFilesImpl( const CompactionOptions& compact_options, ColumnFamilyData* cfd, Version* version, const std::vector& input_file_names, std::vector* const output_file_names, const int output_level, int output_path_id, JobContext* job_context, LogBuffer* log_buffer) { mutex_.AssertHeld(); if (shutting_down_.load(std::memory_order_acquire)) { return Status::ShutdownInProgress(); } std::unordered_set input_set; for (auto file_name : input_file_names) { input_set.insert(TableFileNameToNumber(file_name)); } ColumnFamilyMetaData cf_meta; // TODO(yhchiang): can directly use version here if none of the // following functions call is pluggable to external developers. version->GetColumnFamilyMetaData(&cf_meta); if (output_path_id < 0) { if (cfd->ioptions()->cf_paths.size() == 1U) { output_path_id = 0; } else { return Status::NotSupported( "Automatic output path selection is not " "yet supported in CompactFiles()"); } } Status s = cfd->compaction_picker()->SanitizeCompactionInputFiles( &input_set, cf_meta, output_level); if (!s.ok()) { return s; } std::vector input_files; s = cfd->compaction_picker()->GetCompactionInputsFromFileNumbers( &input_files, &input_set, version->storage_info(), compact_options); if (!s.ok()) { return s; } for (auto inputs : input_files) { if (cfd->compaction_picker()->AreFilesInCompaction(inputs.files)) { return Status::Aborted( "Some of the necessary compaction input " "files are already being compacted"); } } bool sfm_reserved_compact_space = false; // First check if we have enough room to do the compaction bool enough_room = EnoughRoomForCompaction( cfd, input_files, &sfm_reserved_compact_space, log_buffer); if (!enough_room) { // m's vars will get set properly at the end of this function, // as long as status == CompactionTooLarge return Status::CompactionTooLarge(); } // At this point, CompactFiles will be run. bg_compaction_scheduled_++; unique_ptr c; assert(cfd->compaction_picker()); c.reset(cfd->compaction_picker()->CompactFiles( compact_options, input_files, output_level, version->storage_info(), *cfd->GetLatestMutableCFOptions(), output_path_id)); // we already sanitized the set of input files and checked for conflicts // without releasing the lock, so we're guaranteed a compaction can be formed. assert(c != nullptr); c->SetInputVersion(version); // deletion compaction currently not allowed in CompactFiles. assert(!c->deletion_compaction()); SequenceNumber earliest_write_conflict_snapshot; std::vector snapshot_seqs = snapshots_.GetAll(&earliest_write_conflict_snapshot); auto pending_outputs_inserted_elem = CaptureCurrentFileNumberInPendingOutputs(); auto snapshot_checker = snapshot_checker_.get(); if (use_custom_gc_ && snapshot_checker == nullptr) { snapshot_checker = DisableGCSnapshotChecker::Instance(); } assert(is_snapshot_supported_ || snapshots_.empty()); CompactionJob compaction_job( job_context->job_id, c.get(), immutable_db_options_, env_options_for_compaction_, versions_.get(), &shutting_down_, preserve_deletes_seqnum_.load(), log_buffer, directories_.GetDbDir(), GetDataDir(c->column_family_data(), c->output_path_id()), stats_, &mutex_, &error_handler_, snapshot_seqs, earliest_write_conflict_snapshot, snapshot_checker, table_cache_, &event_logger_, c->mutable_cf_options()->paranoid_file_checks, c->mutable_cf_options()->report_bg_io_stats, dbname_, nullptr); // Here we pass a nullptr for CompactionJobStats because // CompactFiles does not trigger OnCompactionCompleted(), // which is the only place where CompactionJobStats is // returned. The idea of not triggering OnCompationCompleted() // is that CompactFiles runs in the caller thread, so the user // should always know when it completes. As a result, it makes // less sense to notify the users something they should already // know. // // In the future, if we would like to add CompactionJobStats // support for CompactFiles, we should have CompactFiles API // pass a pointer of CompactionJobStats as the out-value // instead of using EventListener. // Creating a compaction influences the compaction score because the score // takes running compactions into account (by skipping files that are already // being compacted). Since we just changed compaction score, we recalculate it // here. version->storage_info()->ComputeCompactionScore(*cfd->ioptions(), *c->mutable_cf_options()); compaction_job.Prepare(); mutex_.Unlock(); TEST_SYNC_POINT("CompactFilesImpl:0"); TEST_SYNC_POINT("CompactFilesImpl:1"); compaction_job.Run(); TEST_SYNC_POINT("CompactFilesImpl:2"); TEST_SYNC_POINT("CompactFilesImpl:3"); mutex_.Lock(); Status status = compaction_job.Install(*c->mutable_cf_options()); if (status.ok()) { InstallSuperVersionAndScheduleWork( c->column_family_data(), &job_context->superversion_contexts[0], *c->mutable_cf_options(), FlushReason::kManualCompaction); } c->ReleaseCompactionFiles(s); #ifndef ROCKSDB_LITE // Need to make sure SstFileManager does its bookkeeping auto sfm = static_cast( immutable_db_options_.sst_file_manager.get()); if (sfm && sfm_reserved_compact_space) { sfm->OnCompactionCompletion(c.get()); } #endif // ROCKSDB_LITE ReleaseFileNumberFromPendingOutputs(pending_outputs_inserted_elem); if (status.ok()) { // Done } else if (status.IsShutdownInProgress()) { // Ignore compaction errors found during shutting down } else { ROCKS_LOG_WARN(immutable_db_options_.info_log, "[%s] [JOB %d] Compaction error: %s", c->column_family_data()->GetName().c_str(), job_context->job_id, status.ToString().c_str()); error_handler_.SetBGError(status, BackgroundErrorReason::kCompaction); } if (output_file_names != nullptr) { for (const auto newf : c->edit()->GetNewFiles()) { (*output_file_names) .push_back(TableFileName(c->immutable_cf_options()->cf_paths, newf.second.fd.GetNumber(), newf.second.fd.GetPathId())); } } c.reset(); bg_compaction_scheduled_--; if (bg_compaction_scheduled_ == 0) { bg_cv_.SignalAll(); } TEST_SYNC_POINT("CompactFilesImpl:End"); return status; } #endif // ROCKSDB_LITE Status DBImpl::PauseBackgroundWork() { InstrumentedMutexLock guard_lock(&mutex_); bg_compaction_paused_++; while (bg_bottom_compaction_scheduled_ > 0 || bg_compaction_scheduled_ > 0 || bg_flush_scheduled_ > 0) { bg_cv_.Wait(); } bg_work_paused_++; return Status::OK(); } Status DBImpl::ContinueBackgroundWork() { InstrumentedMutexLock guard_lock(&mutex_); if (bg_work_paused_ == 0) { return Status::InvalidArgument(); } assert(bg_work_paused_ > 0); assert(bg_compaction_paused_ > 0); bg_compaction_paused_--; bg_work_paused_--; // It's sufficient to check just bg_work_paused_ here since // bg_work_paused_ is always no greater than bg_compaction_paused_ if (bg_work_paused_ == 0) { MaybeScheduleFlushOrCompaction(); } return Status::OK(); } void DBImpl::NotifyOnCompactionCompleted( ColumnFamilyData* cfd, Compaction* c, const Status& st, const CompactionJobStats& compaction_job_stats, const int job_id) { #ifndef ROCKSDB_LITE if (immutable_db_options_.listeners.size() == 0U) { return; } mutex_.AssertHeld(); if (shutting_down_.load(std::memory_order_acquire)) { return; } Version* current = cfd->current(); current->Ref(); // release lock while notifying events mutex_.Unlock(); TEST_SYNC_POINT("DBImpl::NotifyOnCompactionCompleted::UnlockMutex"); { CompactionJobInfo info; info.cf_name = cfd->GetName(); info.status = st; info.thread_id = env_->GetThreadID(); info.job_id = job_id; info.base_input_level = c->start_level(); info.output_level = c->output_level(); info.stats = compaction_job_stats; info.table_properties = c->GetOutputTableProperties(); info.compaction_reason = c->compaction_reason(); info.compression = c->output_compression(); for (size_t i = 0; i < c->num_input_levels(); ++i) { for (const auto fmd : *c->inputs(i)) { auto fn = TableFileName(c->immutable_cf_options()->cf_paths, fmd->fd.GetNumber(), fmd->fd.GetPathId()); info.input_files.push_back(fn); if (info.table_properties.count(fn) == 0) { std::shared_ptr tp; auto s = current->GetTableProperties(&tp, fmd, &fn); if (s.ok()) { info.table_properties[fn] = tp; } } } } for (const auto newf : c->edit()->GetNewFiles()) { info.output_files.push_back(TableFileName( c->immutable_cf_options()->cf_paths, newf.second.fd.GetNumber(), newf.second.fd.GetPathId())); } for (auto listener : immutable_db_options_.listeners) { listener->OnCompactionCompleted(this, info); } } mutex_.Lock(); current->Unref(); // no need to signal bg_cv_ as it will be signaled at the end of the // flush process. #else (void)cfd; (void)c; (void)st; (void)compaction_job_stats; (void)job_id; #endif // ROCKSDB_LITE } // REQUIREMENT: block all background work by calling PauseBackgroundWork() // before calling this function Status DBImpl::ReFitLevel(ColumnFamilyData* cfd, int level, int target_level) { assert(level < cfd->NumberLevels()); if (target_level >= cfd->NumberLevels()) { return Status::InvalidArgument("Target level exceeds number of levels"); } SuperVersionContext sv_context(/* create_superversion */ true); Status status; InstrumentedMutexLock guard_lock(&mutex_); // only allow one thread refitting if (refitting_level_) { ROCKS_LOG_INFO(immutable_db_options_.info_log, "[ReFitLevel] another thread is refitting"); return Status::NotSupported("another thread is refitting"); } refitting_level_ = true; const MutableCFOptions mutable_cf_options = *cfd->GetLatestMutableCFOptions(); // move to a smaller level int to_level = target_level; if (target_level < 0) { to_level = FindMinimumEmptyLevelFitting(cfd, mutable_cf_options, level); } auto* vstorage = cfd->current()->storage_info(); if (to_level > level) { if (level == 0) { return Status::NotSupported( "Cannot change from level 0 to other levels."); } // Check levels are empty for a trivial move for (int l = level + 1; l <= to_level; l++) { if (vstorage->NumLevelFiles(l) > 0) { return Status::NotSupported( "Levels between source and target are not empty for a move."); } } } if (to_level != level) { ROCKS_LOG_DEBUG(immutable_db_options_.info_log, "[%s] Before refitting:\n%s", cfd->GetName().c_str(), cfd->current()->DebugString().data()); VersionEdit edit; edit.SetColumnFamily(cfd->GetID()); for (const auto& f : vstorage->LevelFiles(level)) { edit.DeleteFile(level, f->fd.GetNumber()); edit.AddFile(to_level, f->fd.GetNumber(), f->fd.GetPathId(), f->fd.GetFileSize(), f->smallest, f->largest, f->fd.smallest_seqno, f->fd.largest_seqno, f->marked_for_compaction); } ROCKS_LOG_DEBUG(immutable_db_options_.info_log, "[%s] Apply version edit:\n%s", cfd->GetName().c_str(), edit.DebugString().data()); status = versions_->LogAndApply(cfd, mutable_cf_options, &edit, &mutex_, directories_.GetDbDir()); InstallSuperVersionAndScheduleWork(cfd, &sv_context, mutable_cf_options); ROCKS_LOG_DEBUG(immutable_db_options_.info_log, "[%s] LogAndApply: %s\n", cfd->GetName().c_str(), status.ToString().data()); if (status.ok()) { ROCKS_LOG_DEBUG(immutable_db_options_.info_log, "[%s] After refitting:\n%s", cfd->GetName().c_str(), cfd->current()->DebugString().data()); } } sv_context.Clean(); refitting_level_ = false; return status; } int DBImpl::NumberLevels(ColumnFamilyHandle* column_family) { auto cfh = reinterpret_cast(column_family); return cfh->cfd()->NumberLevels(); } int DBImpl::MaxMemCompactionLevel(ColumnFamilyHandle* /*column_family*/) { return 0; } int DBImpl::Level0StopWriteTrigger(ColumnFamilyHandle* column_family) { auto cfh = reinterpret_cast(column_family); InstrumentedMutexLock l(&mutex_); return cfh->cfd() ->GetSuperVersion() ->mutable_cf_options.level0_stop_writes_trigger; } Status DBImpl::Flush(const FlushOptions& flush_options, ColumnFamilyHandle* column_family) { auto cfh = reinterpret_cast(column_family); ROCKS_LOG_INFO(immutable_db_options_.info_log, "[%s] Manual flush start.", cfh->GetName().c_str()); Status s = FlushMemTable(cfh->cfd(), flush_options, FlushReason::kManualFlush); ROCKS_LOG_INFO(immutable_db_options_.info_log, "[%s] Manual flush finished, status: %s\n", cfh->GetName().c_str(), s.ToString().c_str()); return s; } Status DBImpl::FlushAllCFs(FlushReason flush_reason) { Status s; WriteContext context; WriteThread::Writer w; mutex_.AssertHeld(); write_thread_.EnterUnbatched(&w, &mutex_); FlushRequest flush_req; for (auto cfd : *versions_->GetColumnFamilySet()) { if (cfd->imm()->NumNotFlushed() == 0 && cfd->mem()->IsEmpty() && cached_recoverable_state_empty_.load()) { // Nothing to flush continue; } // SwitchMemtable() will release and reacquire mutex during execution s = SwitchMemtable(cfd, &context); if (!s.ok()) { break; } cfd->imm()->FlushRequested(); flush_req.emplace_back(cfd, cfd->imm()->GetLatestMemTableID()); } // schedule flush if (s.ok() && !flush_req.empty()) { SchedulePendingFlush(flush_req, flush_reason); MaybeScheduleFlushOrCompaction(); } write_thread_.ExitUnbatched(&w); if (s.ok()) { for (auto& flush : flush_req) { auto cfd = flush.first; auto flush_memtable_id = flush.second; while (cfd->imm()->NumNotFlushed() > 0 && cfd->imm()->GetEarliestMemTableID() <= flush_memtable_id) { if (!error_handler_.GetRecoveryError().ok()) { break; } if (cfd->IsDropped()) { // FlushJob cannot flush a dropped CF, if we did not break here // we will loop forever since cfd->imm()->NumNotFlushed() will never // drop to zero continue; } cfd->Ref(); bg_cv_.Wait(); cfd->Unref(); } } } flush_req.clear(); return s; } Status DBImpl::RunManualCompaction(ColumnFamilyData* cfd, int input_level, int output_level, uint32_t output_path_id, uint32_t max_subcompactions, const Slice* begin, const Slice* end, bool exclusive, bool disallow_trivial_move) { assert(input_level == ColumnFamilyData::kCompactAllLevels || input_level >= 0); InternalKey begin_storage, end_storage; CompactionArg* ca; bool scheduled = false; bool manual_conflict = false; ManualCompactionState manual; manual.cfd = cfd; manual.input_level = input_level; manual.output_level = output_level; manual.output_path_id = output_path_id; manual.done = false; manual.in_progress = false; manual.incomplete = false; manual.exclusive = exclusive; manual.disallow_trivial_move = disallow_trivial_move; // For universal compaction, we enforce every manual compaction to compact // all files. if (begin == nullptr || cfd->ioptions()->compaction_style == kCompactionStyleUniversal || cfd->ioptions()->compaction_style == kCompactionStyleFIFO) { manual.begin = nullptr; } else { begin_storage.SetMinPossibleForUserKey(*begin); manual.begin = &begin_storage; } if (end == nullptr || cfd->ioptions()->compaction_style == kCompactionStyleUniversal || cfd->ioptions()->compaction_style == kCompactionStyleFIFO) { manual.end = nullptr; } else { end_storage.SetMaxPossibleForUserKey(*end); manual.end = &end_storage; } TEST_SYNC_POINT("DBImpl::RunManualCompaction:0"); TEST_SYNC_POINT("DBImpl::RunManualCompaction:1"); InstrumentedMutexLock l(&mutex_); // When a manual compaction arrives, temporarily disable scheduling of // non-manual compactions and wait until the number of scheduled compaction // jobs drops to zero. This is needed to ensure that this manual compaction // can compact any range of keys/files. // // HasPendingManualCompaction() is true when at least one thread is inside // RunManualCompaction(), i.e. during that time no other compaction will // get scheduled (see MaybeScheduleFlushOrCompaction). // // Note that the following loop doesn't stop more that one thread calling // RunManualCompaction() from getting to the second while loop below. // However, only one of them will actually schedule compaction, while // others will wait on a condition variable until it completes. AddManualCompaction(&manual); TEST_SYNC_POINT_CALLBACK("DBImpl::RunManualCompaction:NotScheduled", &mutex_); if (exclusive) { while (bg_bottom_compaction_scheduled_ > 0 || bg_compaction_scheduled_ > 0) { TEST_SYNC_POINT("DBImpl::RunManualCompaction:WaitScheduled"); ROCKS_LOG_INFO( immutable_db_options_.info_log, "[%s] Manual compaction waiting for all other scheduled background " "compactions to finish", cfd->GetName().c_str()); bg_cv_.Wait(); } } ROCKS_LOG_INFO(immutable_db_options_.info_log, "[%s] Manual compaction starting", cfd->GetName().c_str()); // We don't check bg_error_ here, because if we get the error in compaction, // the compaction will set manual.status to bg_error_ and set manual.done to // true. while (!manual.done) { assert(HasPendingManualCompaction()); manual_conflict = false; Compaction* compaction = nullptr; if (ShouldntRunManualCompaction(&manual) || (manual.in_progress == true) || scheduled || (((manual.manual_end = &manual.tmp_storage1) != nullptr) && ((compaction = manual.cfd->CompactRange( *manual.cfd->GetLatestMutableCFOptions(), manual.input_level, manual.output_level, manual.output_path_id, max_subcompactions, manual.begin, manual.end, &manual.manual_end, &manual_conflict)) == nullptr && manual_conflict))) { // exclusive manual compactions should not see a conflict during // CompactRange assert(!exclusive || !manual_conflict); // Running either this or some other manual compaction bg_cv_.Wait(); if (scheduled && manual.incomplete == true) { assert(!manual.in_progress); scheduled = false; manual.incomplete = false; } } else if (!scheduled) { if (compaction == nullptr) { manual.done = true; bg_cv_.SignalAll(); continue; } ca = new CompactionArg; ca->db = this; ca->prepicked_compaction = new PrepickedCompaction; ca->prepicked_compaction->manual_compaction_state = &manual; ca->prepicked_compaction->compaction = compaction; manual.incomplete = false; bg_compaction_scheduled_++; env_->Schedule(&DBImpl::BGWorkCompaction, ca, Env::Priority::LOW, this, &DBImpl::UnscheduleCallback); scheduled = true; } } assert(!manual.in_progress); assert(HasPendingManualCompaction()); RemoveManualCompaction(&manual); bg_cv_.SignalAll(); return manual.status; } Status DBImpl::FlushMemTable(ColumnFamilyData* cfd, const FlushOptions& flush_options, FlushReason flush_reason, bool writes_stopped) { Status s; uint64_t flush_memtable_id = 0; if (!flush_options.allow_write_stall) { bool flush_needed = true; s = WaitUntilFlushWouldNotStallWrites(cfd, &flush_needed); TEST_SYNC_POINT("DBImpl::FlushMemTable:StallWaitDone"); if (!s.ok() || !flush_needed) { return s; } } FlushRequest flush_req; { WriteContext context; InstrumentedMutexLock guard_lock(&mutex_); WriteThread::Writer w; if (!writes_stopped) { write_thread_.EnterUnbatched(&w, &mutex_); } if (cfd->imm()->NumNotFlushed() != 0 || !cfd->mem()->IsEmpty() || !cached_recoverable_state_empty_.load()) { s = SwitchMemtable(cfd, &context); flush_memtable_id = cfd->imm()->GetLatestMemTableID(); flush_req.emplace_back(cfd, flush_memtable_id); } if (s.ok() && !flush_req.empty()) { for (auto& elem : flush_req) { ColumnFamilyData* loop_cfd = elem.first; loop_cfd->imm()->FlushRequested(); } SchedulePendingFlush(flush_req, flush_reason); MaybeScheduleFlushOrCompaction(); } if (!writes_stopped) { write_thread_.ExitUnbatched(&w); } } if (s.ok() && flush_options.wait) { autovector cfds; autovector flush_memtable_ids; for (auto& iter : flush_req) { cfds.push_back(iter.first); flush_memtable_ids.push_back(&(iter.second)); } s = WaitForFlushMemTables(cfds, flush_memtable_ids); } TEST_SYNC_POINT("FlushMemTableFinished"); return s; } // Calling FlushMemTable(), whether from DB::Flush() or from Backup Engine, can // cause write stall, for example if one memtable is being flushed already. // This method tries to avoid write stall (similar to CompactRange() behavior) // it emulates how the SuperVersion / LSM would change if flush happens, checks // it against various constrains and delays flush if it'd cause write stall. // Called should check status and flush_needed to see if flush already happened. Status DBImpl::WaitUntilFlushWouldNotStallWrites(ColumnFamilyData* cfd, bool* flush_needed) { { *flush_needed = true; InstrumentedMutexLock l(&mutex_); uint64_t orig_active_memtable_id = cfd->mem()->GetID(); WriteStallCondition write_stall_condition = WriteStallCondition::kNormal; do { if (write_stall_condition != WriteStallCondition::kNormal) { TEST_SYNC_POINT("DBImpl::WaitUntilFlushWouldNotStallWrites:StallWait"); ROCKS_LOG_INFO(immutable_db_options_.info_log, "[%s] WaitUntilFlushWouldNotStallWrites" " waiting on stall conditions to clear", cfd->GetName().c_str()); bg_cv_.Wait(); } if (cfd->IsDropped() || shutting_down_.load(std::memory_order_acquire)) { return Status::ShutdownInProgress(); } uint64_t earliest_memtable_id = std::min(cfd->mem()->GetID(), cfd->imm()->GetEarliestMemTableID()); if (earliest_memtable_id > orig_active_memtable_id) { // We waited so long that the memtable we were originally waiting on was // flushed. *flush_needed = false; return Status::OK(); } const auto& mutable_cf_options = *cfd->GetLatestMutableCFOptions(); const auto* vstorage = cfd->current()->storage_info(); // Skip stalling check if we're below auto-flush and auto-compaction // triggers. If it stalled in these conditions, that'd mean the stall // triggers are so low that stalling is needed for any background work. In // that case we shouldn't wait since background work won't be scheduled. if (cfd->imm()->NumNotFlushed() < cfd->ioptions()->min_write_buffer_number_to_merge && vstorage->l0_delay_trigger_count() < mutable_cf_options.level0_file_num_compaction_trigger) { break; } // check whether one extra immutable memtable or an extra L0 file would // cause write stalling mode to be entered. It could still enter stall // mode due to pending compaction bytes, but that's less common write_stall_condition = ColumnFamilyData::GetWriteStallConditionAndCause( cfd->imm()->NumNotFlushed() + 1, vstorage->l0_delay_trigger_count() + 1, vstorage->estimated_compaction_needed_bytes(), mutable_cf_options) .first; } while (write_stall_condition != WriteStallCondition::kNormal); } return Status::OK(); } // Wait for memtables to be flushed for multiple column families. // let N = cfds.size() // for i in [0, N), // 1) if flush_memtable_ids[i] is not null, then the memtables with lower IDs // have to be flushed for THIS column family; // 2) if flush_memtable_ids[i] is null, then all memtables in THIS column // family have to be flushed. // Finish waiting when ALL column families finish flushing memtables. Status DBImpl::WaitForFlushMemTables( const autovector& cfds, const autovector& flush_memtable_ids) { int num = static_cast(cfds.size()); // Wait until the compaction completes InstrumentedMutexLock l(&mutex_); while (!error_handler_.IsDBStopped()) { if (shutting_down_.load(std::memory_order_acquire)) { return Status::ShutdownInProgress(); } // Number of column families that have been dropped. int num_dropped = 0; // Number of column families that have finished flush. int num_finished = 0; for (int i = 0; i < num; ++i) { if (cfds[i]->IsDropped()) { ++num_dropped; } else if (cfds[i]->imm()->NumNotFlushed() == 0 || (flush_memtable_ids[i] != nullptr && cfds[i]->imm()->GetEarliestMemTableID() > *flush_memtable_ids[i])) { ++num_finished; } } if (1 == num_dropped && 1 == num) { return Status::InvalidArgument("Cannot flush a dropped CF"); } // Column families involved in this flush request have either been dropped // or finished flush. Then it's time to finish waiting. if (num_dropped + num_finished == num) { break; } bg_cv_.Wait(); } Status s; if (error_handler_.IsDBStopped()) { s = error_handler_.GetBGError(); } return s; } Status DBImpl::EnableAutoCompaction( const std::vector& column_family_handles) { Status s; for (auto cf_ptr : column_family_handles) { Status status = this->SetOptions(cf_ptr, {{"disable_auto_compactions", "false"}}); if (!status.ok()) { s = status; } } return s; } void DBImpl::MaybeScheduleFlushOrCompaction() { mutex_.AssertHeld(); if (!opened_successfully_) { // Compaction may introduce data race to DB open return; } if (bg_work_paused_ > 0) { // we paused the background work return; } else if (error_handler_.IsBGWorkStopped() && !error_handler_.IsRecoveryInProgress()) { // There has been a hard error and this call is not part of the recovery // sequence. Bail out here so we don't get into an endless loop of // scheduling BG work which will again call this function return; } else if (shutting_down_.load(std::memory_order_acquire)) { // DB is being deleted; no more background compactions return; } auto bg_job_limits = GetBGJobLimits(); bool is_flush_pool_empty = env_->GetBackgroundThreads(Env::Priority::HIGH) == 0; while (!is_flush_pool_empty && unscheduled_flushes_ > 0 && bg_flush_scheduled_ < bg_job_limits.max_flushes) { bg_flush_scheduled_++; env_->Schedule(&DBImpl::BGWorkFlush, this, Env::Priority::HIGH, this); } // special case -- if high-pri (flush) thread pool is empty, then schedule // flushes in low-pri (compaction) thread pool. if (is_flush_pool_empty) { while (unscheduled_flushes_ > 0 && bg_flush_scheduled_ + bg_compaction_scheduled_ < bg_job_limits.max_flushes) { bg_flush_scheduled_++; env_->Schedule(&DBImpl::BGWorkFlush, this, Env::Priority::LOW, this); } } if (bg_compaction_paused_ > 0) { // we paused the background compaction return; } else if (error_handler_.IsBGWorkStopped()) { // Compaction is not part of the recovery sequence from a hard error. We // might get here because recovery might do a flush and install a new // super version, which will try to schedule pending compactions. Bail // out here and let the higher level recovery handle compactions return; } if (HasExclusiveManualCompaction()) { // only manual compactions are allowed to run. don't schedule automatic // compactions TEST_SYNC_POINT("DBImpl::MaybeScheduleFlushOrCompaction:Conflict"); return; } while (bg_compaction_scheduled_ < bg_job_limits.max_compactions && unscheduled_compactions_ > 0) { CompactionArg* ca = new CompactionArg; ca->db = this; ca->prepicked_compaction = nullptr; bg_compaction_scheduled_++; unscheduled_compactions_--; env_->Schedule(&DBImpl::BGWorkCompaction, ca, Env::Priority::LOW, this, &DBImpl::UnscheduleCallback); } } DBImpl::BGJobLimits DBImpl::GetBGJobLimits() const { mutex_.AssertHeld(); return GetBGJobLimits(immutable_db_options_.max_background_flushes, mutable_db_options_.max_background_compactions, mutable_db_options_.max_background_jobs, write_controller_.NeedSpeedupCompaction()); } DBImpl::BGJobLimits DBImpl::GetBGJobLimits(int max_background_flushes, int max_background_compactions, int max_background_jobs, bool parallelize_compactions) { BGJobLimits res; if (max_background_flushes == -1 && max_background_compactions == -1) { // for our first stab implementing max_background_jobs, simply allocate a // quarter of the threads to flushes. res.max_flushes = std::max(1, max_background_jobs / 4); res.max_compactions = std::max(1, max_background_jobs - res.max_flushes); } else { // compatibility code in case users haven't migrated to max_background_jobs, // which automatically computes flush/compaction limits res.max_flushes = std::max(1, max_background_flushes); res.max_compactions = std::max(1, max_background_compactions); } if (!parallelize_compactions) { // throttle background compactions until we deem necessary res.max_compactions = 1; } return res; } void DBImpl::AddToCompactionQueue(ColumnFamilyData* cfd) { assert(!cfd->queued_for_compaction()); cfd->Ref(); compaction_queue_.push_back(cfd); cfd->set_queued_for_compaction(true); } ColumnFamilyData* DBImpl::PopFirstFromCompactionQueue() { assert(!compaction_queue_.empty()); auto cfd = *compaction_queue_.begin(); compaction_queue_.pop_front(); assert(cfd->queued_for_compaction()); cfd->set_queued_for_compaction(false); return cfd; } DBImpl::FlushRequest DBImpl::PopFirstFromFlushQueue() { assert(!flush_queue_.empty()); FlushRequest flush_req = flush_queue_.front(); assert(unscheduled_flushes_ >= static_cast(flush_req.size())); unscheduled_flushes_ -= static_cast(flush_req.size()); flush_queue_.pop_front(); // TODO: need to unset flush reason? return flush_req; } void DBImpl::SchedulePendingFlush(const FlushRequest& flush_req, FlushReason flush_reason) { if (flush_req.empty()) { return; } for (auto& iter : flush_req) { ColumnFamilyData* cfd = iter.first; cfd->Ref(); cfd->SetFlushReason(flush_reason); } unscheduled_flushes_ += static_cast(flush_req.size()); flush_queue_.push_back(flush_req); } void DBImpl::SchedulePendingCompaction(ColumnFamilyData* cfd) { if (!cfd->queued_for_compaction() && cfd->NeedsCompaction()) { AddToCompactionQueue(cfd); ++unscheduled_compactions_; } } void DBImpl::SchedulePendingPurge(std::string fname, std::string dir_to_sync, FileType type, uint64_t number, int job_id) { mutex_.AssertHeld(); PurgeFileInfo file_info(fname, dir_to_sync, type, number, job_id); purge_queue_.push_back(std::move(file_info)); } void DBImpl::BGWorkFlush(void* db) { IOSTATS_SET_THREAD_POOL_ID(Env::Priority::HIGH); TEST_SYNC_POINT("DBImpl::BGWorkFlush"); reinterpret_cast(db)->BackgroundCallFlush(); TEST_SYNC_POINT("DBImpl::BGWorkFlush:done"); } void DBImpl::BGWorkCompaction(void* arg) { CompactionArg ca = *(reinterpret_cast(arg)); delete reinterpret_cast(arg); IOSTATS_SET_THREAD_POOL_ID(Env::Priority::LOW); TEST_SYNC_POINT("DBImpl::BGWorkCompaction"); auto prepicked_compaction = static_cast(ca.prepicked_compaction); reinterpret_cast(ca.db)->BackgroundCallCompaction( prepicked_compaction, Env::Priority::LOW); delete prepicked_compaction; } void DBImpl::BGWorkBottomCompaction(void* arg) { CompactionArg ca = *(static_cast(arg)); delete static_cast(arg); IOSTATS_SET_THREAD_POOL_ID(Env::Priority::BOTTOM); TEST_SYNC_POINT("DBImpl::BGWorkBottomCompaction"); auto* prepicked_compaction = ca.prepicked_compaction; assert(prepicked_compaction && prepicked_compaction->compaction && !prepicked_compaction->manual_compaction_state); ca.db->BackgroundCallCompaction(prepicked_compaction, Env::Priority::BOTTOM); delete prepicked_compaction; } void DBImpl::BGWorkPurge(void* db) { IOSTATS_SET_THREAD_POOL_ID(Env::Priority::HIGH); TEST_SYNC_POINT("DBImpl::BGWorkPurge:start"); reinterpret_cast(db)->BackgroundCallPurge(); TEST_SYNC_POINT("DBImpl::BGWorkPurge:end"); } void DBImpl::UnscheduleCallback(void* arg) { CompactionArg ca = *(reinterpret_cast(arg)); delete reinterpret_cast(arg); if (ca.prepicked_compaction != nullptr) { if (ca.prepicked_compaction->compaction != nullptr) { delete ca.prepicked_compaction->compaction; } delete ca.prepicked_compaction; } TEST_SYNC_POINT("DBImpl::UnscheduleCallback"); } Status DBImpl::BackgroundFlush(bool* made_progress, JobContext* job_context, LogBuffer* log_buffer, FlushReason* reason) { mutex_.AssertHeld(); Status status; *reason = FlushReason::kOthers; // If BG work is stopped due to an error, but a recovery is in progress, // that means this flush is part of the recovery. So allow it to go through if (!error_handler_.IsBGWorkStopped()) { if (shutting_down_.load(std::memory_order_acquire)) { status = Status::ShutdownInProgress(); } } else if (!error_handler_.IsRecoveryInProgress()) { status = error_handler_.GetBGError(); } if (!status.ok()) { return status; } autovector bg_flush_args; std::vector& superversion_contexts = job_context->superversion_contexts; while (!flush_queue_.empty()) { // This cfd is already referenced const FlushRequest& flush_req = PopFirstFromFlushQueue(); superversion_contexts.clear(); superversion_contexts.reserve(flush_req.size()); for (const auto& iter : flush_req) { ColumnFamilyData* cfd = iter.first; if (cfd->IsDropped() || !cfd->imm()->IsFlushPending()) { // can't flush this CF, try next one if (cfd->Unref()) { delete cfd; } continue; } superversion_contexts.emplace_back(SuperVersionContext(true)); bg_flush_args.emplace_back(cfd, iter.second, &(superversion_contexts.back())); } if (!bg_flush_args.empty()) { break; } } if (!bg_flush_args.empty()) { auto bg_job_limits = GetBGJobLimits(); for (const auto& arg : bg_flush_args) { ColumnFamilyData* cfd = arg.cfd_; ROCKS_LOG_BUFFER( log_buffer, "Calling FlushMemTableToOutputFile with column " "family [%s], flush slots available %d, compaction slots available " "%d, " "flush slots scheduled %d, compaction slots scheduled %d", cfd->GetName().c_str(), bg_job_limits.max_flushes, bg_job_limits.max_compactions, bg_flush_scheduled_, bg_compaction_scheduled_); } status = FlushMemTablesToOutputFiles(bg_flush_args, made_progress, job_context, log_buffer); // All the CFDs in the FlushReq must have the same flush reason, so just // grab the first one *reason = bg_flush_args[0].cfd_->GetFlushReason(); for (auto& arg : bg_flush_args) { ColumnFamilyData* cfd = arg.cfd_; if (cfd->Unref()) { delete cfd; arg.cfd_ = nullptr; } } } return status; } void DBImpl::BackgroundCallFlush() { bool made_progress = false; JobContext job_context(next_job_id_.fetch_add(1), true); TEST_SYNC_POINT("DBImpl::BackgroundCallFlush:start"); LogBuffer log_buffer(InfoLogLevel::INFO_LEVEL, immutable_db_options_.info_log.get()); { InstrumentedMutexLock l(&mutex_); assert(bg_flush_scheduled_); num_running_flushes_++; auto pending_outputs_inserted_elem = CaptureCurrentFileNumberInPendingOutputs(); FlushReason reason; Status s = BackgroundFlush(&made_progress, &job_context, &log_buffer, &reason); if (!s.ok() && !s.IsShutdownInProgress() && reason != FlushReason::kErrorRecovery) { // Wait a little bit before retrying background flush in // case this is an environmental problem and we do not want to // chew up resources for failed flushes for the duration of // the problem. uint64_t error_cnt = default_cf_internal_stats_->BumpAndGetBackgroundErrorCount(); bg_cv_.SignalAll(); // In case a waiter can proceed despite the error mutex_.Unlock(); ROCKS_LOG_ERROR(immutable_db_options_.info_log, "Waiting after background flush error: %s" "Accumulated background error counts: %" PRIu64, s.ToString().c_str(), error_cnt); log_buffer.FlushBufferToLog(); LogFlush(immutable_db_options_.info_log); env_->SleepForMicroseconds(1000000); mutex_.Lock(); } ReleaseFileNumberFromPendingOutputs(pending_outputs_inserted_elem); // If flush failed, we want to delete all temporary files that we might have // created. Thus, we force full scan in FindObsoleteFiles() FindObsoleteFiles(&job_context, !s.ok() && !s.IsShutdownInProgress()); // delete unnecessary files if any, this is done outside the mutex if (job_context.HaveSomethingToClean() || job_context.HaveSomethingToDelete() || !log_buffer.IsEmpty()) { mutex_.Unlock(); TEST_SYNC_POINT("DBImpl::BackgroundCallFlush:FilesFound"); // Have to flush the info logs before bg_flush_scheduled_-- // because if bg_flush_scheduled_ becomes 0 and the lock is // released, the deconstructor of DB can kick in and destroy all the // states of DB so info_log might not be available after that point. // It also applies to access other states that DB owns. log_buffer.FlushBufferToLog(); if (job_context.HaveSomethingToDelete()) { PurgeObsoleteFiles(job_context); } job_context.Clean(); mutex_.Lock(); } assert(num_running_flushes_ > 0); num_running_flushes_--; bg_flush_scheduled_--; // See if there's more work to be done MaybeScheduleFlushOrCompaction(); bg_cv_.SignalAll(); // IMPORTANT: there should be no code after calling SignalAll. This call may // signal the DB destructor that it's OK to proceed with destruction. In // that case, all DB variables will be dealloacated and referencing them // will cause trouble. } } void DBImpl::BackgroundCallCompaction(PrepickedCompaction* prepicked_compaction, Env::Priority bg_thread_pri) { bool made_progress = false; JobContext job_context(next_job_id_.fetch_add(1), true); TEST_SYNC_POINT("BackgroundCallCompaction:0"); MaybeDumpStats(); LogBuffer log_buffer(InfoLogLevel::INFO_LEVEL, immutable_db_options_.info_log.get()); { InstrumentedMutexLock l(&mutex_); // This call will unlock/lock the mutex to wait for current running // IngestExternalFile() calls to finish. WaitForIngestFile(); num_running_compactions_++; auto pending_outputs_inserted_elem = CaptureCurrentFileNumberInPendingOutputs(); assert((bg_thread_pri == Env::Priority::BOTTOM && bg_bottom_compaction_scheduled_) || (bg_thread_pri == Env::Priority::LOW && bg_compaction_scheduled_)); Status s = BackgroundCompaction(&made_progress, &job_context, &log_buffer, prepicked_compaction); TEST_SYNC_POINT("BackgroundCallCompaction:1"); if (!s.ok() && !s.IsShutdownInProgress()) { // Wait a little bit before retrying background compaction in // case this is an environmental problem and we do not want to // chew up resources for failed compactions for the duration of // the problem. uint64_t error_cnt = default_cf_internal_stats_->BumpAndGetBackgroundErrorCount(); bg_cv_.SignalAll(); // In case a waiter can proceed despite the error mutex_.Unlock(); log_buffer.FlushBufferToLog(); ROCKS_LOG_ERROR(immutable_db_options_.info_log, "Waiting after background compaction error: %s, " "Accumulated background error counts: %" PRIu64, s.ToString().c_str(), error_cnt); LogFlush(immutable_db_options_.info_log); env_->SleepForMicroseconds(1000000); mutex_.Lock(); } ReleaseFileNumberFromPendingOutputs(pending_outputs_inserted_elem); // If compaction failed, we want to delete all temporary files that we might // have created (they might not be all recorded in job_context in case of a // failure). Thus, we force full scan in FindObsoleteFiles() FindObsoleteFiles(&job_context, !s.ok() && !s.IsShutdownInProgress()); TEST_SYNC_POINT("DBImpl::BackgroundCallCompaction:FoundObsoleteFiles"); // delete unnecessary files if any, this is done outside the mutex if (job_context.HaveSomethingToClean() || job_context.HaveSomethingToDelete() || !log_buffer.IsEmpty()) { mutex_.Unlock(); // Have to flush the info logs before bg_compaction_scheduled_-- // because if bg_flush_scheduled_ becomes 0 and the lock is // released, the deconstructor of DB can kick in and destroy all the // states of DB so info_log might not be available after that point. // It also applies to access other states that DB owns. log_buffer.FlushBufferToLog(); if (job_context.HaveSomethingToDelete()) { PurgeObsoleteFiles(job_context); TEST_SYNC_POINT("DBImpl::BackgroundCallCompaction:PurgedObsoleteFiles"); } job_context.Clean(); mutex_.Lock(); } assert(num_running_compactions_ > 0); num_running_compactions_--; if (bg_thread_pri == Env::Priority::LOW) { bg_compaction_scheduled_--; } else { assert(bg_thread_pri == Env::Priority::BOTTOM); bg_bottom_compaction_scheduled_--; } versions_->GetColumnFamilySet()->FreeDeadColumnFamilies(); // See if there's more work to be done MaybeScheduleFlushOrCompaction(); if (made_progress || (bg_compaction_scheduled_ == 0 && bg_bottom_compaction_scheduled_ == 0) || HasPendingManualCompaction() || unscheduled_compactions_ == 0) { // signal if // * made_progress -- need to wakeup DelayWrite // * bg_{bottom,}_compaction_scheduled_ == 0 -- need to wakeup ~DBImpl // * HasPendingManualCompaction -- need to wakeup RunManualCompaction // If none of this is true, there is no need to signal since nobody is // waiting for it bg_cv_.SignalAll(); } // IMPORTANT: there should be no code after calling SignalAll. This call may // signal the DB destructor that it's OK to proceed with destruction. In // that case, all DB variables will be dealloacated and referencing them // will cause trouble. } } Status DBImpl::BackgroundCompaction(bool* made_progress, JobContext* job_context, LogBuffer* log_buffer, PrepickedCompaction* prepicked_compaction) { ManualCompactionState* manual_compaction = prepicked_compaction == nullptr ? nullptr : prepicked_compaction->manual_compaction_state; *made_progress = false; mutex_.AssertHeld(); TEST_SYNC_POINT("DBImpl::BackgroundCompaction:Start"); bool is_manual = (manual_compaction != nullptr); unique_ptr c; if (prepicked_compaction != nullptr && prepicked_compaction->compaction != nullptr) { c.reset(prepicked_compaction->compaction); } bool is_prepicked = is_manual || c; // (manual_compaction->in_progress == false); bool trivial_move_disallowed = is_manual && manual_compaction->disallow_trivial_move; CompactionJobStats compaction_job_stats; Status status; if (!error_handler_.IsBGWorkStopped()) { if (shutting_down_.load(std::memory_order_acquire)) { status = Status::ShutdownInProgress(); } } else { status = error_handler_.GetBGError(); // If we get here, it means a hard error happened after this compaction // was scheduled by MaybeScheduleFlushOrCompaction(), but before it got // a chance to execute. Since we didn't pop a cfd from the compaction // queue, increment unscheduled_compactions_ unscheduled_compactions_++; } if (!status.ok()) { if (is_manual) { manual_compaction->status = status; manual_compaction->done = true; manual_compaction->in_progress = false; manual_compaction = nullptr; } return status; } if (is_manual) { // another thread cannot pick up the same work manual_compaction->in_progress = true; } // InternalKey manual_end_storage; // InternalKey* manual_end = &manual_end_storage; bool sfm_reserved_compact_space = false; if (is_manual) { ManualCompactionState* m = manual_compaction; assert(m->in_progress); if (!c) { m->done = true; m->manual_end = nullptr; ROCKS_LOG_BUFFER(log_buffer, "[%s] Manual compaction from level-%d from %s .. " "%s; nothing to do\n", m->cfd->GetName().c_str(), m->input_level, (m->begin ? m->begin->DebugString().c_str() : "(begin)"), (m->end ? m->end->DebugString().c_str() : "(end)")); } else { // First check if we have enough room to do the compaction bool enough_room = EnoughRoomForCompaction( m->cfd, *(c->inputs()), &sfm_reserved_compact_space, log_buffer); if (!enough_room) { // Then don't do the compaction c->ReleaseCompactionFiles(status); c.reset(); // m's vars will get set properly at the end of this function, // as long as status == CompactionTooLarge status = Status::CompactionTooLarge(); } else { ROCKS_LOG_BUFFER( log_buffer, "[%s] Manual compaction from level-%d to level-%d from %s .. " "%s; will stop at %s\n", m->cfd->GetName().c_str(), m->input_level, c->output_level(), (m->begin ? m->begin->DebugString().c_str() : "(begin)"), (m->end ? m->end->DebugString().c_str() : "(end)"), ((m->done || m->manual_end == nullptr) ? "(end)" : m->manual_end->DebugString().c_str())); } } } else if (!is_prepicked && !compaction_queue_.empty()) { if (HasExclusiveManualCompaction()) { // Can't compact right now, but try again later TEST_SYNC_POINT("DBImpl::BackgroundCompaction()::Conflict"); // Stay in the compaction queue. unscheduled_compactions_++; return Status::OK(); } // cfd is referenced here auto cfd = PopFirstFromCompactionQueue(); // We unreference here because the following code will take a Ref() on // this cfd if it is going to use it (Compaction class holds a // reference). // This will all happen under a mutex so we don't have to be afraid of // somebody else deleting it. if (cfd->Unref()) { delete cfd; // This was the last reference of the column family, so no need to // compact. return Status::OK(); } // Pick up latest mutable CF Options and use it throughout the // compaction job // Compaction makes a copy of the latest MutableCFOptions. It should be used // throughout the compaction procedure to make sure consistency. It will // eventually be installed into SuperVersion auto* mutable_cf_options = cfd->GetLatestMutableCFOptions(); if (!mutable_cf_options->disable_auto_compactions && !cfd->IsDropped()) { // NOTE: try to avoid unnecessary copy of MutableCFOptions if // compaction is not necessary. Need to make sure mutex is held // until we make a copy in the following code TEST_SYNC_POINT("DBImpl::BackgroundCompaction():BeforePickCompaction"); c.reset(cfd->PickCompaction(*mutable_cf_options, log_buffer)); TEST_SYNC_POINT("DBImpl::BackgroundCompaction():AfterPickCompaction"); if (c != nullptr) { bool enough_room = EnoughRoomForCompaction( cfd, *(c->inputs()), &sfm_reserved_compact_space, log_buffer); if (!enough_room) { // Then don't do the compaction c->ReleaseCompactionFiles(status); c->column_family_data() ->current() ->storage_info() ->ComputeCompactionScore(*(c->immutable_cf_options()), *(c->mutable_cf_options())); AddToCompactionQueue(cfd); ++unscheduled_compactions_; c.reset(); // Don't need to sleep here, because BackgroundCallCompaction // will sleep if !s.ok() status = Status::CompactionTooLarge(); } else { // update statistics MeasureTime(stats_, NUM_FILES_IN_SINGLE_COMPACTION, c->inputs(0)->size()); // There are three things that can change compaction score: // 1) When flush or compaction finish. This case is covered by // InstallSuperVersionAndScheduleWork // 2) When MutableCFOptions changes. This case is also covered by // InstallSuperVersionAndScheduleWork, because this is when the new // options take effect. // 3) When we Pick a new compaction, we "remove" those files being // compacted from the calculation, which then influences compaction // score. Here we check if we need the new compaction even without the // files that are currently being compacted. If we need another // compaction, we might be able to execute it in parallel, so we add // it to the queue and schedule a new thread. if (cfd->NeedsCompaction()) { // Yes, we need more compactions! AddToCompactionQueue(cfd); ++unscheduled_compactions_; MaybeScheduleFlushOrCompaction(); } } } } } if (!c) { // Nothing to do ROCKS_LOG_BUFFER(log_buffer, "Compaction nothing to do"); } else if (c->deletion_compaction()) { // TODO(icanadi) Do we want to honor snapshots here? i.e. not delete old // file if there is alive snapshot pointing to it assert(c->num_input_files(1) == 0); assert(c->level() == 0); assert(c->column_family_data()->ioptions()->compaction_style == kCompactionStyleFIFO); compaction_job_stats.num_input_files = c->num_input_files(0); for (const auto& f : *c->inputs(0)) { c->edit()->DeleteFile(c->level(), f->fd.GetNumber()); } status = versions_->LogAndApply(c->column_family_data(), *c->mutable_cf_options(), c->edit(), &mutex_, directories_.GetDbDir()); InstallSuperVersionAndScheduleWork( c->column_family_data(), &job_context->superversion_contexts[0], *c->mutable_cf_options(), FlushReason::kAutoCompaction); ROCKS_LOG_BUFFER(log_buffer, "[%s] Deleted %d files\n", c->column_family_data()->GetName().c_str(), c->num_input_files(0)); *made_progress = true; } else if (!trivial_move_disallowed && c->IsTrivialMove()) { TEST_SYNC_POINT("DBImpl::BackgroundCompaction:TrivialMove"); // Instrument for event update // TODO(yhchiang): add op details for showing trivial-move. ThreadStatusUtil::SetColumnFamily( c->column_family_data(), c->column_family_data()->ioptions()->env, immutable_db_options_.enable_thread_tracking); ThreadStatusUtil::SetThreadOperation(ThreadStatus::OP_COMPACTION); compaction_job_stats.num_input_files = c->num_input_files(0); // Move files to next level int32_t moved_files = 0; int64_t moved_bytes = 0; for (unsigned int l = 0; l < c->num_input_levels(); l++) { if (c->level(l) == c->output_level()) { continue; } for (size_t i = 0; i < c->num_input_files(l); i++) { FileMetaData* f = c->input(l, i); c->edit()->DeleteFile(c->level(l), f->fd.GetNumber()); c->edit()->AddFile(c->output_level(), f->fd.GetNumber(), f->fd.GetPathId(), f->fd.GetFileSize(), f->smallest, f->largest, f->fd.smallest_seqno, f->fd.largest_seqno, f->marked_for_compaction); ROCKS_LOG_BUFFER( log_buffer, "[%s] Moving #%" PRIu64 " to level-%d %" PRIu64 " bytes\n", c->column_family_data()->GetName().c_str(), f->fd.GetNumber(), c->output_level(), f->fd.GetFileSize()); ++moved_files; moved_bytes += f->fd.GetFileSize(); } } status = versions_->LogAndApply(c->column_family_data(), *c->mutable_cf_options(), c->edit(), &mutex_, directories_.GetDbDir()); // Use latest MutableCFOptions InstallSuperVersionAndScheduleWork( c->column_family_data(), &job_context->superversion_contexts[0], *c->mutable_cf_options(), FlushReason::kAutoCompaction); VersionStorageInfo::LevelSummaryStorage tmp; c->column_family_data()->internal_stats()->IncBytesMoved(c->output_level(), moved_bytes); { event_logger_.LogToBuffer(log_buffer) << "job" << job_context->job_id << "event" << "trivial_move" << "destination_level" << c->output_level() << "files" << moved_files << "total_files_size" << moved_bytes; } ROCKS_LOG_BUFFER( log_buffer, "[%s] Moved #%d files to level-%d %" PRIu64 " bytes %s: %s\n", c->column_family_data()->GetName().c_str(), moved_files, c->output_level(), moved_bytes, status.ToString().c_str(), c->column_family_data()->current()->storage_info()->LevelSummary(&tmp)); *made_progress = true; // Clear Instrument ThreadStatusUtil::ResetThreadStatus(); } else if (!is_prepicked && c->output_level() > 0 && c->output_level() == c->column_family_data() ->current() ->storage_info() ->MaxOutputLevel( immutable_db_options_.allow_ingest_behind) && env_->GetBackgroundThreads(Env::Priority::BOTTOM) > 0) { // Forward compactions involving last level to the bottom pool if it exists, // such that compactions unlikely to contribute to write stalls can be // delayed or deprioritized. TEST_SYNC_POINT("DBImpl::BackgroundCompaction:ForwardToBottomPriPool"); CompactionArg* ca = new CompactionArg; ca->db = this; ca->prepicked_compaction = new PrepickedCompaction; ca->prepicked_compaction->compaction = c.release(); ca->prepicked_compaction->manual_compaction_state = nullptr; ++bg_bottom_compaction_scheduled_; env_->Schedule(&DBImpl::BGWorkBottomCompaction, ca, Env::Priority::BOTTOM, this, &DBImpl::UnscheduleCallback); } else { int output_level __attribute__((__unused__)); output_level = c->output_level(); TEST_SYNC_POINT_CALLBACK("DBImpl::BackgroundCompaction:NonTrivial", &output_level); SequenceNumber earliest_write_conflict_snapshot; std::vector snapshot_seqs = snapshots_.GetAll(&earliest_write_conflict_snapshot); auto snapshot_checker = snapshot_checker_.get(); if (use_custom_gc_ && snapshot_checker == nullptr) { snapshot_checker = DisableGCSnapshotChecker::Instance(); } assert(is_snapshot_supported_ || snapshots_.empty()); CompactionJob compaction_job( job_context->job_id, c.get(), immutable_db_options_, env_options_for_compaction_, versions_.get(), &shutting_down_, preserve_deletes_seqnum_.load(), log_buffer, directories_.GetDbDir(), GetDataDir(c->column_family_data(), c->output_path_id()), stats_, &mutex_, &error_handler_, snapshot_seqs, earliest_write_conflict_snapshot, snapshot_checker, table_cache_, &event_logger_, c->mutable_cf_options()->paranoid_file_checks, c->mutable_cf_options()->report_bg_io_stats, dbname_, &compaction_job_stats); compaction_job.Prepare(); mutex_.Unlock(); compaction_job.Run(); TEST_SYNC_POINT("DBImpl::BackgroundCompaction:NonTrivial:AfterRun"); mutex_.Lock(); status = compaction_job.Install(*c->mutable_cf_options()); if (status.ok()) { InstallSuperVersionAndScheduleWork( c->column_family_data(), &job_context->superversion_contexts[0], *c->mutable_cf_options(), FlushReason::kAutoCompaction); } *made_progress = true; } if (c != nullptr) { c->ReleaseCompactionFiles(status); *made_progress = true; #ifndef ROCKSDB_LITE // Need to make sure SstFileManager does its bookkeeping auto sfm = static_cast( immutable_db_options_.sst_file_manager.get()); if (sfm && sfm_reserved_compact_space) { sfm->OnCompactionCompletion(c.get()); } #endif // ROCKSDB_LITE NotifyOnCompactionCompleted(c->column_family_data(), c.get(), status, compaction_job_stats, job_context->job_id); } if (status.ok() || status.IsCompactionTooLarge()) { // Done } else if (status.IsShutdownInProgress()) { // Ignore compaction errors found during shutting down } else { ROCKS_LOG_WARN(immutable_db_options_.info_log, "Compaction error: %s", status.ToString().c_str()); error_handler_.SetBGError(status, BackgroundErrorReason::kCompaction); if (c != nullptr && !is_manual && !error_handler_.IsBGWorkStopped()) { // Put this cfd back in the compaction queue so we can retry after some // time auto cfd = c->column_family_data(); assert(cfd != nullptr); // Since this compaction failed, we need to recompute the score so it // takes the original input files into account c->column_family_data() ->current() ->storage_info() ->ComputeCompactionScore(*(c->immutable_cf_options()), *(c->mutable_cf_options())); if (!cfd->queued_for_compaction()) { AddToCompactionQueue(cfd); ++unscheduled_compactions_; } } } // this will unref its input_version and column_family_data c.reset(); if (is_manual) { ManualCompactionState* m = manual_compaction; if (!status.ok()) { m->status = status; m->done = true; } // For universal compaction: // Because universal compaction always happens at level 0, so one // compaction will pick up all overlapped files. No files will be // filtered out due to size limit and left for a successive compaction. // So we can safely conclude the current compaction. // // Also note that, if we don't stop here, then the current compaction // writes a new file back to level 0, which will be used in successive // compaction. Hence the manual compaction will never finish. // // Stop the compaction if manual_end points to nullptr -- this means // that we compacted the whole range. manual_end should always point // to nullptr in case of universal compaction if (m->manual_end == nullptr) { m->done = true; } if (!m->done) { // We only compacted part of the requested range. Update *m // to the range that is left to be compacted. // Universal and FIFO compactions should always compact the whole range assert(m->cfd->ioptions()->compaction_style != kCompactionStyleUniversal || m->cfd->ioptions()->num_levels > 1); assert(m->cfd->ioptions()->compaction_style != kCompactionStyleFIFO); m->tmp_storage = *m->manual_end; m->begin = &m->tmp_storage; m->incomplete = true; } m->in_progress = false; // not being processed anymore } TEST_SYNC_POINT("DBImpl::BackgroundCompaction:Finish"); return status; } bool DBImpl::HasPendingManualCompaction() { return (!manual_compaction_dequeue_.empty()); } void DBImpl::AddManualCompaction(DBImpl::ManualCompactionState* m) { manual_compaction_dequeue_.push_back(m); } void DBImpl::RemoveManualCompaction(DBImpl::ManualCompactionState* m) { // Remove from queue std::deque::iterator it = manual_compaction_dequeue_.begin(); while (it != manual_compaction_dequeue_.end()) { if (m == (*it)) { it = manual_compaction_dequeue_.erase(it); return; } it++; } assert(false); return; } bool DBImpl::ShouldntRunManualCompaction(ManualCompactionState* m) { if (num_running_ingest_file_ > 0) { // We need to wait for other IngestExternalFile() calls to finish // before running a manual compaction. return true; } if (m->exclusive) { return (bg_bottom_compaction_scheduled_ > 0 || bg_compaction_scheduled_ > 0); } std::deque::iterator it = manual_compaction_dequeue_.begin(); bool seen = false; while (it != manual_compaction_dequeue_.end()) { if (m == (*it)) { it++; seen = true; continue; } else if (MCOverlap(m, (*it)) && (!seen && !(*it)->in_progress)) { // Consider the other manual compaction *it, conflicts if: // overlaps with m // and (*it) is ahead in the queue and is not yet in progress return true; } it++; } return false; } bool DBImpl::HaveManualCompaction(ColumnFamilyData* cfd) { // Remove from priority queue std::deque::iterator it = manual_compaction_dequeue_.begin(); while (it != manual_compaction_dequeue_.end()) { if ((*it)->exclusive) { return true; } if ((cfd == (*it)->cfd) && (!((*it)->in_progress || (*it)->done))) { // Allow automatic compaction if manual compaction is // in progress return true; } it++; } return false; } bool DBImpl::HasExclusiveManualCompaction() { // Remove from priority queue std::deque::iterator it = manual_compaction_dequeue_.begin(); while (it != manual_compaction_dequeue_.end()) { if ((*it)->exclusive) { return true; } it++; } return false; } bool DBImpl::MCOverlap(ManualCompactionState* m, ManualCompactionState* m1) { if ((m->exclusive) || (m1->exclusive)) { return true; } if (m->cfd != m1->cfd) { return false; } return true; } // SuperVersionContext gets created and destructed outside of the lock -- // we use this conveniently to: // * malloc one SuperVersion() outside of the lock -- new_superversion // * delete SuperVersion()s outside of the lock -- superversions_to_free // // However, if InstallSuperVersionAndScheduleWork() gets called twice with the // same sv_context, we can't reuse the SuperVersion() that got // malloced because // first call already used it. In that rare case, we take a hit and create a // new SuperVersion() inside of the mutex. We do similar thing // for superversion_to_free void DBImpl::InstallSuperVersionAndScheduleWork( ColumnFamilyData* cfd, SuperVersionContext* sv_context, const MutableCFOptions& mutable_cf_options, FlushReason /* flush_reason */) { // TODO(yanqin) investigate if 'flush_reason' can be removed since it's not // used. mutex_.AssertHeld(); // Update max_total_in_memory_state_ size_t old_memtable_size = 0; auto* old_sv = cfd->GetSuperVersion(); if (old_sv) { old_memtable_size = old_sv->mutable_cf_options.write_buffer_size * old_sv->mutable_cf_options.max_write_buffer_number; } // this branch is unlikely to step in if (UNLIKELY(sv_context->new_superversion == nullptr)) { sv_context->NewSuperVersion(); } cfd->InstallSuperVersion(sv_context, &mutex_, mutable_cf_options); // Whenever we install new SuperVersion, we might need to issue new flushes or // compactions. SchedulePendingCompaction(cfd); MaybeScheduleFlushOrCompaction(); // Update max_total_in_memory_state_ max_total_in_memory_state_ = max_total_in_memory_state_ - old_memtable_size + mutable_cf_options.write_buffer_size * mutable_cf_options.max_write_buffer_number; } // ShouldPurge is called by FindObsoleteFiles when doing a full scan, // and db mutex (mutex_) should already be held. This function performs a // linear scan of an vector (files_grabbed_for_purge_) in search of a // certain element. We expect FindObsoleteFiles with full scan to occur once // every 10 hours by default, and the size of the vector is small. // Therefore, the cost is affordable even if the mutex is held. // Actually, the current implementation of FindObsoleteFiles with // full_scan=true can issue I/O requests to obtain list of files in // directories, e.g. env_->getChildren while holding db mutex. // In the future, if we want to reduce the cost of search, we may try to keep // the vector sorted. bool DBImpl::ShouldPurge(uint64_t file_number) const { for (auto fn : files_grabbed_for_purge_) { if (file_number == fn) { return false; } } for (const auto& purge_file_info : purge_queue_) { if (purge_file_info.number == file_number) { return false; } } return true; } // MarkAsGrabbedForPurge is called by FindObsoleteFiles, and db mutex // (mutex_) should already be held. void DBImpl::MarkAsGrabbedForPurge(uint64_t file_number) { files_grabbed_for_purge_.emplace_back(file_number); } void DBImpl::SetSnapshotChecker(SnapshotChecker* snapshot_checker) { InstrumentedMutexLock l(&mutex_); // snapshot_checker_ should only set once. If we need to set it multiple // times, we need to make sure the old one is not deleted while it is still // using by a compaction job. assert(!snapshot_checker_); snapshot_checker_.reset(snapshot_checker); } } // namespace rocksdb rocksdb-5.17.2/db/db_impl_debug.cc000066400000000000000000000164071337235545400167300ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #ifndef NDEBUG #include "db/db_impl.h" #include "db/error_handler.h" #include "monitoring/thread_status_updater.h" namespace rocksdb { uint64_t DBImpl::TEST_GetLevel0TotalSize() { InstrumentedMutexLock l(&mutex_); return default_cf_handle_->cfd()->current()->storage_info()->NumLevelBytes(0); } void DBImpl::TEST_SwitchWAL() { WriteContext write_context; InstrumentedMutexLock l(&mutex_); SwitchWAL(&write_context); } bool DBImpl::TEST_WALBufferIsEmpty() { InstrumentedMutexLock wl(&log_write_mutex_); log::Writer* cur_log_writer = logs_.back().writer; return cur_log_writer->TEST_BufferIsEmpty(); } int64_t DBImpl::TEST_MaxNextLevelOverlappingBytes( ColumnFamilyHandle* column_family) { ColumnFamilyData* cfd; if (column_family == nullptr) { cfd = default_cf_handle_->cfd(); } else { auto cfh = reinterpret_cast(column_family); cfd = cfh->cfd(); } InstrumentedMutexLock l(&mutex_); return cfd->current()->storage_info()->MaxNextLevelOverlappingBytes(); } void DBImpl::TEST_GetFilesMetaData( ColumnFamilyHandle* column_family, std::vector>* metadata) { auto cfh = reinterpret_cast(column_family); auto cfd = cfh->cfd(); InstrumentedMutexLock l(&mutex_); metadata->resize(NumberLevels()); for (int level = 0; level < NumberLevels(); level++) { const std::vector& files = cfd->current()->storage_info()->LevelFiles(level); (*metadata)[level].clear(); for (const auto& f : files) { (*metadata)[level].push_back(*f); } } } uint64_t DBImpl::TEST_Current_Manifest_FileNo() { return versions_->manifest_file_number(); } uint64_t DBImpl::TEST_Current_Next_FileNo() { return versions_->current_next_file_number(); } Status DBImpl::TEST_CompactRange(int level, const Slice* begin, const Slice* end, ColumnFamilyHandle* column_family, bool disallow_trivial_move) { ColumnFamilyData* cfd; if (column_family == nullptr) { cfd = default_cf_handle_->cfd(); } else { auto cfh = reinterpret_cast(column_family); cfd = cfh->cfd(); } int output_level = (cfd->ioptions()->compaction_style == kCompactionStyleUniversal || cfd->ioptions()->compaction_style == kCompactionStyleFIFO) ? level : level + 1; return RunManualCompaction(cfd, level, output_level, 0, 0, begin, end, true, disallow_trivial_move); } Status DBImpl::TEST_SwitchMemtable(ColumnFamilyData* cfd) { WriteContext write_context; InstrumentedMutexLock l(&mutex_); if (cfd == nullptr) { cfd = default_cf_handle_->cfd(); } return SwitchMemtable(cfd, &write_context); } Status DBImpl::TEST_FlushMemTable(bool wait, bool allow_write_stall, ColumnFamilyHandle* cfh) { FlushOptions fo; fo.wait = wait; fo.allow_write_stall = allow_write_stall; ColumnFamilyData* cfd; if (cfh == nullptr) { cfd = default_cf_handle_->cfd(); } else { auto cfhi = reinterpret_cast(cfh); cfd = cfhi->cfd(); } return FlushMemTable(cfd, fo, FlushReason::kTest); } Status DBImpl::TEST_WaitForFlushMemTable(ColumnFamilyHandle* column_family) { ColumnFamilyData* cfd; if (column_family == nullptr) { cfd = default_cf_handle_->cfd(); } else { auto cfh = reinterpret_cast(column_family); cfd = cfh->cfd(); } return WaitForFlushMemTable(cfd); } Status DBImpl::TEST_WaitForCompact(bool wait_unscheduled) { // Wait until the compaction completes // TODO: a bug here. This function actually does not necessarily // wait for compact. It actually waits for scheduled compaction // OR flush to finish. InstrumentedMutexLock l(&mutex_); while ((bg_bottom_compaction_scheduled_ || bg_compaction_scheduled_ || bg_flush_scheduled_ || (wait_unscheduled && unscheduled_compactions_)) && (error_handler_.GetBGError() == Status::OK())) { bg_cv_.Wait(); } return error_handler_.GetBGError(); } void DBImpl::TEST_LockMutex() { mutex_.Lock(); } void DBImpl::TEST_UnlockMutex() { mutex_.Unlock(); } void* DBImpl::TEST_BeginWrite() { auto w = new WriteThread::Writer(); write_thread_.EnterUnbatched(w, &mutex_); return reinterpret_cast(w); } void DBImpl::TEST_EndWrite(void* w) { auto writer = reinterpret_cast(w); write_thread_.ExitUnbatched(writer); delete writer; } size_t DBImpl::TEST_LogsToFreeSize() { InstrumentedMutexLock l(&mutex_); return logs_to_free_.size(); } uint64_t DBImpl::TEST_LogfileNumber() { InstrumentedMutexLock l(&mutex_); return logfile_number_; } Status DBImpl::TEST_GetAllImmutableCFOptions( std::unordered_map* iopts_map) { std::vector cf_names; std::vector iopts; { InstrumentedMutexLock l(&mutex_); for (auto cfd : *versions_->GetColumnFamilySet()) { cf_names.push_back(cfd->GetName()); iopts.push_back(cfd->ioptions()); } } iopts_map->clear(); for (size_t i = 0; i < cf_names.size(); ++i) { iopts_map->insert({cf_names[i], iopts[i]}); } return Status::OK(); } uint64_t DBImpl::TEST_FindMinLogContainingOutstandingPrep() { return logs_with_prep_tracker_.FindMinLogContainingOutstandingPrep(); } size_t DBImpl::TEST_PreparedSectionCompletedSize() { return logs_with_prep_tracker_.TEST_PreparedSectionCompletedSize(); } size_t DBImpl::TEST_LogsWithPrepSize() { return logs_with_prep_tracker_.TEST_LogsWithPrepSize(); } uint64_t DBImpl::TEST_FindMinPrepLogReferencedByMemTable() { autovector empty_list; return FindMinPrepLogReferencedByMemTable(versions_.get(), nullptr, empty_list); } Status DBImpl::TEST_GetLatestMutableCFOptions( ColumnFamilyHandle* column_family, MutableCFOptions* mutable_cf_options) { InstrumentedMutexLock l(&mutex_); auto cfh = reinterpret_cast(column_family); *mutable_cf_options = *cfh->cfd()->GetLatestMutableCFOptions(); return Status::OK(); } int DBImpl::TEST_BGCompactionsAllowed() const { InstrumentedMutexLock l(&mutex_); return GetBGJobLimits().max_compactions; } int DBImpl::TEST_BGFlushesAllowed() const { InstrumentedMutexLock l(&mutex_); return GetBGJobLimits().max_flushes; } SequenceNumber DBImpl::TEST_GetLastVisibleSequence() const { if (last_seq_same_as_publish_seq_) { return versions_->LastSequence(); } else { return versions_->LastAllocatedSequence(); } } size_t DBImpl::TEST_GetWalPreallocateBlockSize( uint64_t write_buffer_size) const { InstrumentedMutexLock l(&mutex_); return GetWalPreallocateBlockSize(write_buffer_size); } } // namespace rocksdb #endif // NDEBUG rocksdb-5.17.2/db/db_impl_experimental.cc000066400000000000000000000127461337235545400203410ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "db/db_impl.h" #ifndef __STDC_FORMAT_MACROS #define __STDC_FORMAT_MACROS #endif #include #include #include "db/column_family.h" #include "db/job_context.h" #include "db/version_set.h" #include "rocksdb/status.h" namespace rocksdb { #ifndef ROCKSDB_LITE Status DBImpl::SuggestCompactRange(ColumnFamilyHandle* column_family, const Slice* begin, const Slice* end) { auto cfh = reinterpret_cast(column_family); auto cfd = cfh->cfd(); InternalKey start_key, end_key; if (begin != nullptr) { start_key.SetMinPossibleForUserKey(*begin); } if (end != nullptr) { end_key.SetMaxPossibleForUserKey(*end); } { InstrumentedMutexLock l(&mutex_); auto vstorage = cfd->current()->storage_info(); for (int level = 0; level < vstorage->num_non_empty_levels() - 1; ++level) { std::vector inputs; vstorage->GetOverlappingInputs( level, begin == nullptr ? nullptr : &start_key, end == nullptr ? nullptr : &end_key, &inputs); for (auto f : inputs) { f->marked_for_compaction = true; } } // Since we have some more files to compact, we should also recompute // compaction score vstorage->ComputeCompactionScore(*cfd->ioptions(), *cfd->GetLatestMutableCFOptions()); SchedulePendingCompaction(cfd); MaybeScheduleFlushOrCompaction(); } return Status::OK(); } Status DBImpl::PromoteL0(ColumnFamilyHandle* column_family, int target_level) { assert(column_family); if (target_level < 1) { ROCKS_LOG_INFO(immutable_db_options_.info_log, "PromoteL0 FAILED. Invalid target level %d\n", target_level); return Status::InvalidArgument("Invalid target level"); } Status status; VersionEdit edit; JobContext job_context(next_job_id_.fetch_add(1), true); { InstrumentedMutexLock l(&mutex_); auto* cfd = static_cast(column_family)->cfd(); const auto* vstorage = cfd->current()->storage_info(); if (target_level >= vstorage->num_levels()) { ROCKS_LOG_INFO(immutable_db_options_.info_log, "PromoteL0 FAILED. Target level %d does not exist\n", target_level); job_context.Clean(); return Status::InvalidArgument("Target level does not exist"); } // Sort L0 files by range. const InternalKeyComparator* icmp = &cfd->internal_comparator(); auto l0_files = vstorage->LevelFiles(0); std::sort(l0_files.begin(), l0_files.end(), [icmp](FileMetaData* f1, FileMetaData* f2) { return icmp->Compare(f1->largest, f2->largest) < 0; }); // Check that no L0 file is being compacted and that they have // non-overlapping ranges. for (size_t i = 0; i < l0_files.size(); ++i) { auto f = l0_files[i]; if (f->being_compacted) { ROCKS_LOG_INFO(immutable_db_options_.info_log, "PromoteL0 FAILED. File %" PRIu64 " being compacted\n", f->fd.GetNumber()); job_context.Clean(); return Status::InvalidArgument("PromoteL0 called during L0 compaction"); } if (i == 0) continue; auto prev_f = l0_files[i - 1]; if (icmp->Compare(prev_f->largest, f->smallest) >= 0) { ROCKS_LOG_INFO(immutable_db_options_.info_log, "PromoteL0 FAILED. Files %" PRIu64 " and %" PRIu64 " have overlapping ranges\n", prev_f->fd.GetNumber(), f->fd.GetNumber()); job_context.Clean(); return Status::InvalidArgument("L0 has overlapping files"); } } // Check that all levels up to target_level are empty. for (int level = 1; level <= target_level; ++level) { if (vstorage->NumLevelFiles(level) > 0) { ROCKS_LOG_INFO(immutable_db_options_.info_log, "PromoteL0 FAILED. Level %d not empty\n", level); job_context.Clean(); return Status::InvalidArgument( "All levels up to target_level " "must be empty"); } } edit.SetColumnFamily(cfd->GetID()); for (const auto& f : l0_files) { edit.DeleteFile(0, f->fd.GetNumber()); edit.AddFile(target_level, f->fd.GetNumber(), f->fd.GetPathId(), f->fd.GetFileSize(), f->smallest, f->largest, f->fd.smallest_seqno, f->fd.largest_seqno, f->marked_for_compaction); } status = versions_->LogAndApply(cfd, *cfd->GetLatestMutableCFOptions(), &edit, &mutex_, directories_.GetDbDir()); if (status.ok()) { InstallSuperVersionAndScheduleWork(cfd, &job_context.superversion_contexts[0], *cfd->GetLatestMutableCFOptions()); } } // lock released here LogFlush(immutable_db_options_.info_log); job_context.Clean(); return status; } #endif // ROCKSDB_LITE } // namespace rocksdb rocksdb-5.17.2/db/db_impl_files.cc000066400000000000000000000567221337235545400167500ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "db/db_impl.h" #ifndef __STDC_FORMAT_MACROS #define __STDC_FORMAT_MACROS #endif #include #include #include #include "db/event_helpers.h" #include "db/memtable_list.h" #include "util/file_util.h" #include "util/sst_file_manager_impl.h" namespace rocksdb { uint64_t DBImpl::MinLogNumberToKeep() { if (allow_2pc()) { return versions_->min_log_number_to_keep_2pc(); } else { return versions_->MinLogNumberWithUnflushedData(); } } // * Returns the list of live files in 'sst_live' // If it's doing full scan: // * Returns the list of all files in the filesystem in // 'full_scan_candidate_files'. // Otherwise, gets obsolete files from VersionSet. // no_full_scan = true -- never do the full scan using GetChildren() // force = false -- don't force the full scan, except every // mutable_db_options_.delete_obsolete_files_period_micros // force = true -- force the full scan void DBImpl::FindObsoleteFiles(JobContext* job_context, bool force, bool no_full_scan) { mutex_.AssertHeld(); // if deletion is disabled, do nothing if (disable_delete_obsolete_files_ > 0) { return; } bool doing_the_full_scan = false; // logic for figuring out if we're doing the full scan if (no_full_scan) { doing_the_full_scan = false; } else if (force || mutable_db_options_.delete_obsolete_files_period_micros == 0) { doing_the_full_scan = true; } else { const uint64_t now_micros = env_->NowMicros(); if ((delete_obsolete_files_last_run_ + mutable_db_options_.delete_obsolete_files_period_micros) < now_micros) { doing_the_full_scan = true; delete_obsolete_files_last_run_ = now_micros; } } // don't delete files that might be currently written to from compaction // threads // Since job_context->min_pending_output is set, until file scan finishes, // mutex_ cannot be released. Otherwise, we might see no min_pending_output // here but later find newer generated unfinalized files while scanning. if (!pending_outputs_.empty()) { job_context->min_pending_output = *pending_outputs_.begin(); } else { // delete all of them job_context->min_pending_output = std::numeric_limits::max(); } // Get obsolete files. This function will also update the list of // pending files in VersionSet(). versions_->GetObsoleteFiles(&job_context->sst_delete_files, &job_context->manifest_delete_files, job_context->min_pending_output); // Mark the elements in job_context->sst_delete_files as grabbedForPurge // so that other threads calling FindObsoleteFiles with full_scan=true // will not add these files to candidate list for purge. for (const auto& sst_to_del : job_context->sst_delete_files) { MarkAsGrabbedForPurge(sst_to_del.metadata->fd.GetNumber()); } // store the current filenum, lognum, etc job_context->manifest_file_number = versions_->manifest_file_number(); job_context->pending_manifest_file_number = versions_->pending_manifest_file_number(); job_context->log_number = MinLogNumberToKeep(); job_context->prev_log_number = versions_->prev_log_number(); versions_->AddLiveFiles(&job_context->sst_live); if (doing_the_full_scan) { InfoLogPrefix info_log_prefix(!immutable_db_options_.db_log_dir.empty(), dbname_); std::set paths; for (size_t path_id = 0; path_id < immutable_db_options_.db_paths.size(); path_id++) { paths.insert(immutable_db_options_.db_paths[path_id].path); } // Note that if cf_paths is not specified in the ColumnFamilyOptions // of a particular column family, we use db_paths as the cf_paths // setting. Hence, there can be multiple duplicates of files from db_paths // in the following code. The duplicate are removed while identifying // unique files in PurgeObsoleteFiles. for (auto cfd : *versions_->GetColumnFamilySet()) { for (size_t path_id = 0; path_id < cfd->ioptions()->cf_paths.size(); path_id++) { auto& path = cfd->ioptions()->cf_paths[path_id].path; if (paths.find(path) == paths.end()) { paths.insert(path); } } } for (auto& path : paths) { // set of all files in the directory. We'll exclude files that are still // alive in the subsequent processings. std::vector files; env_->GetChildren(path, &files); // Ignore errors for (const std::string& file : files) { uint64_t number; FileType type; // 1. If we cannot parse the file name, we skip; // 2. If the file with file_number equals number has already been // grabbed for purge by another compaction job, or it has already been // schedule for purge, we also skip it if we // are doing full scan in order to avoid double deletion of the same // file under race conditions. See // https://github.com/facebook/rocksdb/issues/3573 if (!ParseFileName(file, &number, info_log_prefix.prefix, &type) || !ShouldPurge(number)) { continue; } // TODO(icanadi) clean up this mess to avoid having one-off "/" prefixes job_context->full_scan_candidate_files.emplace_back( "/" + file, path); } } // Add log files in wal_dir if (immutable_db_options_.wal_dir != dbname_) { std::vector log_files; env_->GetChildren(immutable_db_options_.wal_dir, &log_files); // Ignore errors for (const std::string& log_file : log_files) { job_context->full_scan_candidate_files.emplace_back(log_file, immutable_db_options_.wal_dir); } } // Add info log files in db_log_dir if (!immutable_db_options_.db_log_dir.empty() && immutable_db_options_.db_log_dir != dbname_) { std::vector info_log_files; // Ignore errors env_->GetChildren(immutable_db_options_.db_log_dir, &info_log_files); for (std::string& log_file : info_log_files) { job_context->full_scan_candidate_files.emplace_back(log_file, immutable_db_options_.db_log_dir); } } } // logs_ is empty when called during recovery, in which case there can't yet // be any tracked obsolete logs if (!alive_log_files_.empty() && !logs_.empty()) { uint64_t min_log_number = job_context->log_number; size_t num_alive_log_files = alive_log_files_.size(); // find newly obsoleted log files while (alive_log_files_.begin()->number < min_log_number) { auto& earliest = *alive_log_files_.begin(); if (immutable_db_options_.recycle_log_file_num > log_recycle_files_.size()) { ROCKS_LOG_INFO(immutable_db_options_.info_log, "adding log %" PRIu64 " to recycle list\n", earliest.number); log_recycle_files_.push_back(earliest.number); } else { job_context->log_delete_files.push_back(earliest.number); } if (job_context->size_log_to_delete == 0) { job_context->prev_total_log_size = total_log_size_; job_context->num_alive_log_files = num_alive_log_files; } job_context->size_log_to_delete += earliest.size; total_log_size_ -= earliest.size; if (two_write_queues_) { log_write_mutex_.Lock(); } alive_log_files_.pop_front(); if (two_write_queues_) { log_write_mutex_.Unlock(); } // Current log should always stay alive since it can't have // number < MinLogNumber(). assert(alive_log_files_.size()); } while (!logs_.empty() && logs_.front().number < min_log_number) { auto& log = logs_.front(); if (log.getting_synced) { log_sync_cv_.Wait(); // logs_ could have changed while we were waiting. continue; } logs_to_free_.push_back(log.ReleaseWriter()); { InstrumentedMutexLock wl(&log_write_mutex_); logs_.pop_front(); } } // Current log cannot be obsolete. assert(!logs_.empty()); } // We're just cleaning up for DB::Write(). assert(job_context->logs_to_free.empty()); job_context->logs_to_free = logs_to_free_; job_context->log_recycle_files.assign(log_recycle_files_.begin(), log_recycle_files_.end()); if (job_context->HaveSomethingToDelete()) { ++pending_purge_obsolete_files_; } logs_to_free_.clear(); } namespace { bool CompareCandidateFile(const JobContext::CandidateFileInfo& first, const JobContext::CandidateFileInfo& second) { if (first.file_name > second.file_name) { return true; } else if (first.file_name < second.file_name) { return false; } else { return (first.file_path > second.file_path); } } }; // namespace // Delete obsolete files and log status and information of file deletion void DBImpl::DeleteObsoleteFileImpl(int job_id, const std::string& fname, const std::string& path_to_sync, FileType type, uint64_t number) { Status file_deletion_status; if (type == kTableFile) { file_deletion_status = DeleteSSTFile(&immutable_db_options_, fname, path_to_sync); } else { file_deletion_status = env_->DeleteFile(fname); } TEST_SYNC_POINT_CALLBACK("DBImpl::DeleteObsoleteFileImpl:AfterDeletion", &file_deletion_status); if (file_deletion_status.ok()) { ROCKS_LOG_DEBUG(immutable_db_options_.info_log, "[JOB %d] Delete %s type=%d #%" PRIu64 " -- %s\n", job_id, fname.c_str(), type, number, file_deletion_status.ToString().c_str()); } else if (env_->FileExists(fname).IsNotFound()) { ROCKS_LOG_INFO( immutable_db_options_.info_log, "[JOB %d] Tried to delete a non-existing file %s type=%d #%" PRIu64 " -- %s\n", job_id, fname.c_str(), type, number, file_deletion_status.ToString().c_str()); } else { ROCKS_LOG_ERROR(immutable_db_options_.info_log, "[JOB %d] Failed to delete %s type=%d #%" PRIu64 " -- %s\n", job_id, fname.c_str(), type, number, file_deletion_status.ToString().c_str()); } if (type == kTableFile) { EventHelpers::LogAndNotifyTableFileDeletion( &event_logger_, job_id, number, fname, file_deletion_status, GetName(), immutable_db_options_.listeners); } } // Diffs the files listed in filenames and those that do not // belong to live files are possibly removed. Also, removes all the // files in sst_delete_files and log_delete_files. // It is not necessary to hold the mutex when invoking this method. void DBImpl::PurgeObsoleteFiles(JobContext& state, bool schedule_only) { TEST_SYNC_POINT("DBImpl::PurgeObsoleteFiles:Begin"); // we'd better have sth to delete assert(state.HaveSomethingToDelete()); // FindObsoleteFiles() should've populated this so nonzero assert(state.manifest_file_number != 0); // Now, convert live list to an unordered map, WITHOUT mutex held; // set is slow. std::unordered_map sst_live_map; for (const FileDescriptor& fd : state.sst_live) { sst_live_map[fd.GetNumber()] = &fd; } std::unordered_set log_recycle_files_set( state.log_recycle_files.begin(), state.log_recycle_files.end()); auto candidate_files = state.full_scan_candidate_files; candidate_files.reserve( candidate_files.size() + state.sst_delete_files.size() + state.log_delete_files.size() + state.manifest_delete_files.size()); // We may ignore the dbname when generating the file names. const char* kDumbDbName = ""; for (auto& file : state.sst_delete_files) { candidate_files.emplace_back( MakeTableFileName(kDumbDbName, file.metadata->fd.GetNumber()), file.path); if (file.metadata->table_reader_handle) { table_cache_->Release(file.metadata->table_reader_handle); } file.DeleteMetadata(); } for (auto file_num : state.log_delete_files) { if (file_num > 0) { candidate_files.emplace_back(LogFileName(kDumbDbName, file_num), immutable_db_options_.wal_dir); } } for (const auto& filename : state.manifest_delete_files) { candidate_files.emplace_back(filename, dbname_); } // dedup state.candidate_files so we don't try to delete the same // file twice std::sort(candidate_files.begin(), candidate_files.end(), CompareCandidateFile); candidate_files.erase( std::unique(candidate_files.begin(), candidate_files.end()), candidate_files.end()); if (state.prev_total_log_size > 0) { ROCKS_LOG_INFO(immutable_db_options_.info_log, "[JOB %d] Try to delete WAL files size %" PRIu64 ", prev total WAL file size %" PRIu64 ", number of live WAL files %" ROCKSDB_PRIszt ".\n", state.job_id, state.size_log_to_delete, state.prev_total_log_size, state.num_alive_log_files); } std::vector old_info_log_files; InfoLogPrefix info_log_prefix(!immutable_db_options_.db_log_dir.empty(), dbname_); // File numbers of most recent two OPTIONS file in candidate_files (found in // previos FindObsoleteFiles(full_scan=true)) // At this point, there must not be any duplicate file numbers in // candidate_files. uint64_t optsfile_num1 = std::numeric_limits::min(); uint64_t optsfile_num2 = std::numeric_limits::min(); for (const auto& candidate_file : candidate_files) { const std::string& fname = candidate_file.file_name; uint64_t number; FileType type; if (!ParseFileName(fname, &number, info_log_prefix.prefix, &type) || type != kOptionsFile) { continue; } if (number > optsfile_num1) { optsfile_num2 = optsfile_num1; optsfile_num1 = number; } else if (number > optsfile_num2) { optsfile_num2 = number; } } std::unordered_set files_to_del; for (const auto& candidate_file : candidate_files) { const std::string& to_delete = candidate_file.file_name; uint64_t number; FileType type; // Ignore file if we cannot recognize it. if (!ParseFileName(to_delete, &number, info_log_prefix.prefix, &type)) { continue; } bool keep = true; switch (type) { case kLogFile: keep = ((number >= state.log_number) || (number == state.prev_log_number) || (log_recycle_files_set.find(number) != log_recycle_files_set.end())); break; case kDescriptorFile: // Keep my manifest file, and any newer incarnations' // (can happen during manifest roll) keep = (number >= state.manifest_file_number); break; case kTableFile: // If the second condition is not there, this makes // DontDeletePendingOutputs fail keep = (sst_live_map.find(number) != sst_live_map.end()) || number >= state.min_pending_output; if (!keep) { files_to_del.insert(number); } break; case kTempFile: // Any temp files that are currently being written to must // be recorded in pending_outputs_, which is inserted into "live". // Also, SetCurrentFile creates a temp file when writing out new // manifest, which is equal to state.pending_manifest_file_number. We // should not delete that file // // TODO(yhchiang): carefully modify the third condition to safely // remove the temp options files. keep = (sst_live_map.find(number) != sst_live_map.end()) || (number == state.pending_manifest_file_number) || (to_delete.find(kOptionsFileNamePrefix) != std::string::npos); break; case kInfoLogFile: keep = true; if (number != 0) { old_info_log_files.push_back(to_delete); } break; case kOptionsFile: keep = (number >= optsfile_num2); TEST_SYNC_POINT_CALLBACK( "DBImpl::PurgeObsoleteFiles:CheckOptionsFiles:1", reinterpret_cast(&number)); TEST_SYNC_POINT_CALLBACK( "DBImpl::PurgeObsoleteFiles:CheckOptionsFiles:2", reinterpret_cast(&keep)); break; case kCurrentFile: case kDBLockFile: case kIdentityFile: case kMetaDatabase: case kBlobFile: keep = true; break; } if (keep) { continue; } std::string fname; std::string dir_to_sync; if (type == kTableFile) { // evict from cache TableCache::Evict(table_cache_.get(), number); fname = MakeTableFileName(candidate_file.file_path, number); dir_to_sync = candidate_file.file_path; } else { dir_to_sync = (type == kLogFile) ? immutable_db_options_.wal_dir : dbname_; fname = dir_to_sync + "/" + to_delete; } #ifndef ROCKSDB_LITE if (type == kLogFile && (immutable_db_options_.wal_ttl_seconds > 0 || immutable_db_options_.wal_size_limit_mb > 0)) { wal_manager_.ArchiveWALFile(fname, number); continue; } #endif // !ROCKSDB_LITE Status file_deletion_status; if (schedule_only) { InstrumentedMutexLock guard_lock(&mutex_); SchedulePendingPurge(fname, dir_to_sync, type, number, state.job_id); } else { DeleteObsoleteFileImpl(state.job_id, fname, dir_to_sync, type, number); } } { // After purging obsolete files, remove them from files_grabbed_for_purge_. // Use a temporary vector to perform bulk deletion via swap. InstrumentedMutexLock guard_lock(&mutex_); std::vector tmp; for (auto fn : files_grabbed_for_purge_) { if (files_to_del.count(fn) == 0) { tmp.emplace_back(fn); } } files_grabbed_for_purge_.swap(tmp); } // Delete old info log files. size_t old_info_log_file_count = old_info_log_files.size(); if (old_info_log_file_count != 0 && old_info_log_file_count >= immutable_db_options_.keep_log_file_num) { std::sort(old_info_log_files.begin(), old_info_log_files.end()); size_t end = old_info_log_file_count - immutable_db_options_.keep_log_file_num; for (unsigned int i = 0; i <= end; i++) { std::string& to_delete = old_info_log_files.at(i); std::string full_path_to_delete = (immutable_db_options_.db_log_dir.empty() ? dbname_ : immutable_db_options_.db_log_dir) + "/" + to_delete; ROCKS_LOG_INFO(immutable_db_options_.info_log, "[JOB %d] Delete info log file %s\n", state.job_id, full_path_to_delete.c_str()); Status s = env_->DeleteFile(full_path_to_delete); if (!s.ok()) { if (env_->FileExists(full_path_to_delete).IsNotFound()) { ROCKS_LOG_INFO( immutable_db_options_.info_log, "[JOB %d] Tried to delete non-existing info log file %s FAILED " "-- %s\n", state.job_id, to_delete.c_str(), s.ToString().c_str()); } else { ROCKS_LOG_ERROR(immutable_db_options_.info_log, "[JOB %d] Delete info log file %s FAILED -- %s\n", state.job_id, to_delete.c_str(), s.ToString().c_str()); } } } } #ifndef ROCKSDB_LITE wal_manager_.PurgeObsoleteWALFiles(); #endif // ROCKSDB_LITE LogFlush(immutable_db_options_.info_log); InstrumentedMutexLock l(&mutex_); --pending_purge_obsolete_files_; assert(pending_purge_obsolete_files_ >= 0); if (pending_purge_obsolete_files_ == 0) { bg_cv_.SignalAll(); } TEST_SYNC_POINT("DBImpl::PurgeObsoleteFiles:End"); } void DBImpl::DeleteObsoleteFiles() { mutex_.AssertHeld(); JobContext job_context(next_job_id_.fetch_add(1)); FindObsoleteFiles(&job_context, true); mutex_.Unlock(); if (job_context.HaveSomethingToDelete()) { PurgeObsoleteFiles(job_context); } job_context.Clean(); mutex_.Lock(); } uint64_t FindMinPrepLogReferencedByMemTable( VersionSet* vset, const ColumnFamilyData* cfd_to_flush, const autovector& memtables_to_flush) { uint64_t min_log = 0; // we must look through the memtables for two phase transactions // that have been committed but not yet flushed for (auto loop_cfd : *vset->GetColumnFamilySet()) { if (loop_cfd->IsDropped() || loop_cfd == cfd_to_flush) { continue; } auto log = loop_cfd->imm()->PrecomputeMinLogContainingPrepSection( memtables_to_flush); if (log > 0 && (min_log == 0 || log < min_log)) { min_log = log; } log = loop_cfd->mem()->GetMinLogContainingPrepSection(); if (log > 0 && (min_log == 0 || log < min_log)) { min_log = log; } } return min_log; } uint64_t PrecomputeMinLogNumberToKeep( VersionSet* vset, const ColumnFamilyData& cfd_to_flush, autovector edit_list, const autovector& memtables_to_flush, LogsWithPrepTracker* prep_tracker) { assert(vset != nullptr); assert(prep_tracker != nullptr); // Calculate updated min_log_number_to_keep // Since the function should only be called in 2pc mode, log number in // the version edit should be sufficient. // Precompute the min log number containing unflushed data for the column // family being flushed (`cfd_to_flush`). uint64_t cf_min_log_number_to_keep = 0; for (auto& e : edit_list) { if (e->has_log_number()) { cf_min_log_number_to_keep = std::max(cf_min_log_number_to_keep, e->log_number()); } } if (cf_min_log_number_to_keep == 0) { // No version edit contains information on log number. The log number // for this column family should stay the same as it is. cf_min_log_number_to_keep = cfd_to_flush.GetLogNumber(); } // Get min log number containing unflushed data for other column families. uint64_t min_log_number_to_keep = vset->PreComputeMinLogNumberWithUnflushedData(&cfd_to_flush); if (cf_min_log_number_to_keep != 0) { min_log_number_to_keep = std::min(cf_min_log_number_to_keep, min_log_number_to_keep); } // if are 2pc we must consider logs containing prepared // sections of outstanding transactions. // // We must check min logs with outstanding prep before we check // logs references by memtables because a log referenced by the // first data structure could transition to the second under us. // // TODO: iterating over all column families under db mutex. // should find more optimal solution auto min_log_in_prep_heap = prep_tracker->FindMinLogContainingOutstandingPrep(); if (min_log_in_prep_heap != 0 && min_log_in_prep_heap < min_log_number_to_keep) { min_log_number_to_keep = min_log_in_prep_heap; } uint64_t min_log_refed_by_mem = FindMinPrepLogReferencedByMemTable( vset, &cfd_to_flush, memtables_to_flush); if (min_log_refed_by_mem != 0 && min_log_refed_by_mem < min_log_number_to_keep) { min_log_number_to_keep = min_log_refed_by_mem; } return min_log_number_to_keep; } } // namespace rocksdb rocksdb-5.17.2/db/db_impl_open.cc000066400000000000000000001366751337235545400166150ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "db/db_impl.h" #ifndef __STDC_FORMAT_MACROS #define __STDC_FORMAT_MACROS #endif #include #include "db/builder.h" #include "db/error_handler.h" #include "options/options_helper.h" #include "rocksdb/wal_filter.h" #include "table/block_based_table_factory.h" #include "util/rate_limiter.h" #include "util/sst_file_manager_impl.h" #include "util/sync_point.h" namespace rocksdb { Options SanitizeOptions(const std::string& dbname, const Options& src) { auto db_options = SanitizeOptions(dbname, DBOptions(src)); ImmutableDBOptions immutable_db_options(db_options); auto cf_options = SanitizeOptions(immutable_db_options, ColumnFamilyOptions(src)); return Options(db_options, cf_options); } DBOptions SanitizeOptions(const std::string& dbname, const DBOptions& src) { DBOptions result(src); // result.max_open_files means an "infinite" open files. if (result.max_open_files != -1) { int max_max_open_files = port::GetMaxOpenFiles(); if (max_max_open_files == -1) { max_max_open_files = 0x400000; } ClipToRange(&result.max_open_files, 20, max_max_open_files); } if (result.info_log == nullptr) { Status s = CreateLoggerFromOptions(dbname, result, &result.info_log); if (!s.ok()) { // No place suitable for logging result.info_log = nullptr; } } if (!result.write_buffer_manager) { result.write_buffer_manager.reset( new WriteBufferManager(result.db_write_buffer_size)); } auto bg_job_limits = DBImpl::GetBGJobLimits(result.max_background_flushes, result.max_background_compactions, result.max_background_jobs, true /* parallelize_compactions */); result.env->IncBackgroundThreadsIfNeeded(bg_job_limits.max_compactions, Env::Priority::LOW); result.env->IncBackgroundThreadsIfNeeded(bg_job_limits.max_flushes, Env::Priority::HIGH); if (result.rate_limiter.get() != nullptr) { if (result.bytes_per_sync == 0) { result.bytes_per_sync = 1024 * 1024; } } if (result.delayed_write_rate == 0) { if (result.rate_limiter.get() != nullptr) { result.delayed_write_rate = result.rate_limiter->GetBytesPerSecond(); } if (result.delayed_write_rate == 0) { result.delayed_write_rate = 16 * 1024 * 1024; } } if (result.WAL_ttl_seconds > 0 || result.WAL_size_limit_MB > 0) { result.recycle_log_file_num = false; } if (result.recycle_log_file_num && (result.wal_recovery_mode == WALRecoveryMode::kPointInTimeRecovery || result.wal_recovery_mode == WALRecoveryMode::kAbsoluteConsistency)) { // kPointInTimeRecovery is indistinguishable from // kTolerateCorruptedTailRecords in recycle mode since we define // the "end" of the log as the first corrupt record we encounter. // kAbsoluteConsistency doesn't make sense because even a clean // shutdown leaves old junk at the end of the log file. result.wal_recovery_mode = WALRecoveryMode::kTolerateCorruptedTailRecords; } if (result.wal_dir.empty()) { // Use dbname as default result.wal_dir = dbname; } if (result.wal_dir.back() == '/') { result.wal_dir = result.wal_dir.substr(0, result.wal_dir.size() - 1); } if (result.db_paths.size() == 0) { result.db_paths.emplace_back(dbname, std::numeric_limits::max()); } if (result.use_direct_reads && result.compaction_readahead_size == 0) { TEST_SYNC_POINT_CALLBACK("SanitizeOptions:direct_io", nullptr); result.compaction_readahead_size = 1024 * 1024 * 2; } if (result.compaction_readahead_size > 0 || result.use_direct_reads) { result.new_table_reader_for_compaction_inputs = true; } // Force flush on DB open if 2PC is enabled, since with 2PC we have no // guarantee that consecutive log files have consecutive sequence id, which // make recovery complicated. if (result.allow_2pc) { result.avoid_flush_during_recovery = false; } #ifndef ROCKSDB_LITE // When the DB is stopped, it's possible that there are some .trash files that // were not deleted yet, when we open the DB we will find these .trash files // and schedule them to be deleted (or delete immediately if SstFileManager // was not used) auto sfm = static_cast(result.sst_file_manager.get()); for (size_t i = 0; i < result.db_paths.size(); i++) { DeleteScheduler::CleanupDirectory(result.env, sfm, result.db_paths[i].path); } // Create a default SstFileManager for purposes of tracking compaction size // and facilitating recovery from out of space errors. if (result.sst_file_manager.get() == nullptr) { std::shared_ptr sst_file_manager( NewSstFileManager(result.env, result.info_log)); result.sst_file_manager = sst_file_manager; } #endif return result; } namespace { Status SanitizeOptionsByTable( const DBOptions& db_opts, const std::vector& column_families) { Status s; for (auto cf : column_families) { s = cf.options.table_factory->SanitizeOptions(db_opts, cf.options); if (!s.ok()) { return s; } } return Status::OK(); } static Status ValidateOptions( const DBOptions& db_options, const std::vector& column_families) { Status s; for (auto& cfd : column_families) { s = CheckCompressionSupported(cfd.options); if (s.ok() && db_options.allow_concurrent_memtable_write) { s = CheckConcurrentWritesSupported(cfd.options); } if (s.ok()) { s = CheckCFPathsSupported(db_options, cfd.options); } if (!s.ok()) { return s; } if (cfd.options.ttl > 0 || cfd.options.compaction_options_fifo.ttl > 0) { if (db_options.max_open_files != -1) { return Status::NotSupported( "TTL is only supported when files are always " "kept open (set max_open_files = -1). "); } if (cfd.options.table_factory->Name() != BlockBasedTableFactory().Name()) { return Status::NotSupported( "TTL is only supported in Block-Based Table format. "); } } } if (db_options.db_paths.size() > 4) { return Status::NotSupported( "More than four DB paths are not supported yet. "); } if (db_options.allow_mmap_reads && db_options.use_direct_reads) { // Protect against assert in PosixMMapReadableFile constructor return Status::NotSupported( "If memory mapped reads (allow_mmap_reads) are enabled " "then direct I/O reads (use_direct_reads) must be disabled. "); } if (db_options.allow_mmap_writes && db_options.use_direct_io_for_flush_and_compaction) { return Status::NotSupported( "If memory mapped writes (allow_mmap_writes) are enabled " "then direct I/O writes (use_direct_io_for_flush_and_compaction) must " "be disabled. "); } if (db_options.keep_log_file_num == 0) { return Status::InvalidArgument("keep_log_file_num must be greater than 0"); } return Status::OK(); } } // namespace Status DBImpl::NewDB() { VersionEdit new_db; new_db.SetLogNumber(0); new_db.SetNextFile(2); new_db.SetLastSequence(0); Status s; ROCKS_LOG_INFO(immutable_db_options_.info_log, "Creating manifest 1 \n"); const std::string manifest = DescriptorFileName(dbname_, 1); { unique_ptr file; EnvOptions env_options = env_->OptimizeForManifestWrite(env_options_); s = NewWritableFile(env_, manifest, &file, env_options); if (!s.ok()) { return s; } file->SetPreallocationBlockSize( immutable_db_options_.manifest_preallocation_size); unique_ptr file_writer( new WritableFileWriter(std::move(file), manifest, env_options)); log::Writer log(std::move(file_writer), 0, false); std::string record; new_db.EncodeTo(&record); s = log.AddRecord(record); if (s.ok()) { s = SyncManifest(env_, &immutable_db_options_, log.file()); } } if (s.ok()) { // Make "CURRENT" file that points to the new manifest file. s = SetCurrentFile(env_, dbname_, 1, directories_.GetDbDir()); } else { env_->DeleteFile(manifest); } return s; } Status DBImpl::CreateAndNewDirectory( Env* env, const std::string& dirname, std::unique_ptr* directory) { // We call CreateDirIfMissing() as the directory may already exist (if we // are reopening a DB), when this happens we don't want creating the // directory to cause an error. However, we need to check if creating the // directory fails or else we may get an obscure message about the lock // file not existing. One real-world example of this occurring is if // env->CreateDirIfMissing() doesn't create intermediate directories, e.g. // when dbname_ is "dir/db" but when "dir" doesn't exist. Status s = env->CreateDirIfMissing(dirname); if (!s.ok()) { return s; } return env->NewDirectory(dirname, directory); } Status DBImpl::Directories::SetDirectories( Env* env, const std::string& dbname, const std::string& wal_dir, const std::vector& data_paths) { Status s = DBImpl::CreateAndNewDirectory(env, dbname, &db_dir_); if (!s.ok()) { return s; } if (!wal_dir.empty() && dbname != wal_dir) { s = DBImpl::CreateAndNewDirectory(env, wal_dir, &wal_dir_); if (!s.ok()) { return s; } } data_dirs_.clear(); for (auto& p : data_paths) { const std::string db_path = p.path; if (db_path == dbname) { data_dirs_.emplace_back(nullptr); } else { std::unique_ptr path_directory; s = DBImpl::CreateAndNewDirectory(env, db_path, &path_directory); if (!s.ok()) { return s; } data_dirs_.emplace_back(path_directory.release()); } } assert(data_dirs_.size() == data_paths.size()); return Status::OK(); } Status DBImpl::Recover( const std::vector& column_families, bool read_only, bool error_if_log_file_exist, bool error_if_data_exists_in_logs) { mutex_.AssertHeld(); bool is_new_db = false; assert(db_lock_ == nullptr); if (!read_only) { Status s = directories_.SetDirectories(env_, dbname_, immutable_db_options_.wal_dir, immutable_db_options_.db_paths); if (!s.ok()) { return s; } s = env_->LockFile(LockFileName(dbname_), &db_lock_); if (!s.ok()) { return s; } s = env_->FileExists(CurrentFileName(dbname_)); if (s.IsNotFound()) { if (immutable_db_options_.create_if_missing) { s = NewDB(); is_new_db = true; if (!s.ok()) { return s; } } else { return Status::InvalidArgument( dbname_, "does not exist (create_if_missing is false)"); } } else if (s.ok()) { if (immutable_db_options_.error_if_exists) { return Status::InvalidArgument( dbname_, "exists (error_if_exists is true)"); } } else { // Unexpected error reading file assert(s.IsIOError()); return s; } // Check for the IDENTITY file and create it if not there s = env_->FileExists(IdentityFileName(dbname_)); if (s.IsNotFound()) { s = SetIdentityFile(env_, dbname_); if (!s.ok()) { return s; } } else if (!s.ok()) { assert(s.IsIOError()); return s; } // Verify compatibility of env_options_ and filesystem { unique_ptr idfile; EnvOptions customized_env(env_options_); customized_env.use_direct_reads |= immutable_db_options_.use_direct_io_for_flush_and_compaction; s = env_->NewRandomAccessFile(IdentityFileName(dbname_), &idfile, customized_env); if (!s.ok()) { std::string error_str = s.ToString(); // Check if unsupported Direct I/O is the root cause customized_env.use_direct_reads = false; s = env_->NewRandomAccessFile(IdentityFileName(dbname_), &idfile, customized_env); if (s.ok()) { return Status::InvalidArgument( "Direct I/O is not supported by the specified DB."); } else { return Status::InvalidArgument( "Found options incompatible with filesystem", error_str.c_str()); } } } } Status s = versions_->Recover(column_families, read_only); if (immutable_db_options_.paranoid_checks && s.ok()) { s = CheckConsistency(); } if (s.ok() && !read_only) { for (auto cfd : *versions_->GetColumnFamilySet()) { s = cfd->AddDirectories(); if (!s.ok()) { return s; } } } // Initial max_total_in_memory_state_ before recovery logs. Log recovery // may check this value to decide whether to flush. max_total_in_memory_state_ = 0; for (auto cfd : *versions_->GetColumnFamilySet()) { auto* mutable_cf_options = cfd->GetLatestMutableCFOptions(); max_total_in_memory_state_ += mutable_cf_options->write_buffer_size * mutable_cf_options->max_write_buffer_number; } if (s.ok()) { SequenceNumber next_sequence(kMaxSequenceNumber); default_cf_handle_ = new ColumnFamilyHandleImpl( versions_->GetColumnFamilySet()->GetDefault(), this, &mutex_); default_cf_internal_stats_ = default_cf_handle_->cfd()->internal_stats(); single_column_family_mode_ = versions_->GetColumnFamilySet()->NumberOfColumnFamilies() == 1; // Recover from all newer log files than the ones named in the // descriptor (new log files may have been added by the previous // incarnation without registering them in the descriptor). // // Note that prev_log_number() is no longer used, but we pay // attention to it in case we are recovering a database // produced by an older version of rocksdb. std::vector filenames; s = env_->GetChildren(immutable_db_options_.wal_dir, &filenames); if (!s.ok()) { return s; } std::vector logs; for (size_t i = 0; i < filenames.size(); i++) { uint64_t number; FileType type; if (ParseFileName(filenames[i], &number, &type) && type == kLogFile) { if (is_new_db) { return Status::Corruption( "While creating a new Db, wal_dir contains " "existing log file: ", filenames[i]); } else { logs.push_back(number); } } } if (logs.size() > 0) { if (error_if_log_file_exist) { return Status::Corruption( "The db was opened in readonly mode with error_if_log_file_exist" "flag but a log file already exists"); } else if (error_if_data_exists_in_logs) { for (auto& log : logs) { std::string fname = LogFileName(immutable_db_options_.wal_dir, log); uint64_t bytes; s = env_->GetFileSize(fname, &bytes); if (s.ok()) { if (bytes > 0) { return Status::Corruption( "error_if_data_exists_in_logs is set but there are data " " in log files."); } } } } } if (!logs.empty()) { // Recover in the order in which the logs were generated std::sort(logs.begin(), logs.end()); s = RecoverLogFiles(logs, &next_sequence, read_only); if (!s.ok()) { // Clear memtables if recovery failed for (auto cfd : *versions_->GetColumnFamilySet()) { cfd->CreateNewMemtable(*cfd->GetLatestMutableCFOptions(), kMaxSequenceNumber); } } } } return s; } // REQUIRES: log_numbers are sorted in ascending order Status DBImpl::RecoverLogFiles(const std::vector& log_numbers, SequenceNumber* next_sequence, bool read_only) { struct LogReporter : public log::Reader::Reporter { Env* env; Logger* info_log; const char* fname; Status* status; // nullptr if immutable_db_options_.paranoid_checks==false virtual void Corruption(size_t bytes, const Status& s) override { ROCKS_LOG_WARN(info_log, "%s%s: dropping %d bytes; %s", (this->status == nullptr ? "(ignoring error) " : ""), fname, static_cast(bytes), s.ToString().c_str()); if (this->status != nullptr && this->status->ok()) { *this->status = s; } } }; mutex_.AssertHeld(); Status status; std::unordered_map version_edits; // no need to refcount because iteration is under mutex for (auto cfd : *versions_->GetColumnFamilySet()) { VersionEdit edit; edit.SetColumnFamily(cfd->GetID()); version_edits.insert({cfd->GetID(), edit}); } int job_id = next_job_id_.fetch_add(1); { auto stream = event_logger_.Log(); stream << "job" << job_id << "event" << "recovery_started"; stream << "log_files"; stream.StartArray(); for (auto log_number : log_numbers) { stream << log_number; } stream.EndArray(); } #ifndef ROCKSDB_LITE if (immutable_db_options_.wal_filter != nullptr) { std::map cf_name_id_map; std::map cf_lognumber_map; for (auto cfd : *versions_->GetColumnFamilySet()) { cf_name_id_map.insert( std::make_pair(cfd->GetName(), cfd->GetID())); cf_lognumber_map.insert( std::make_pair(cfd->GetID(), cfd->GetLogNumber())); } immutable_db_options_.wal_filter->ColumnFamilyLogNumberMap(cf_lognumber_map, cf_name_id_map); } #endif bool stop_replay_by_wal_filter = false; bool stop_replay_for_corruption = false; bool flushed = false; uint64_t corrupted_log_number = kMaxSequenceNumber; for (auto log_number : log_numbers) { if (log_number < versions_->min_log_number_to_keep_2pc()) { ROCKS_LOG_INFO(immutable_db_options_.info_log, "Skipping log #%" PRIu64 " since it is older than min log to keep #%" PRIu64, log_number, versions_->min_log_number_to_keep_2pc()); continue; } // The previous incarnation may not have written any MANIFEST // records after allocating this log number. So we manually // update the file number allocation counter in VersionSet. versions_->MarkFileNumberUsed(log_number); // Open the log file std::string fname = LogFileName(immutable_db_options_.wal_dir, log_number); ROCKS_LOG_INFO(immutable_db_options_.info_log, "Recovering log #%" PRIu64 " mode %d", log_number, immutable_db_options_.wal_recovery_mode); auto logFileDropped = [this, &fname]() { uint64_t bytes; if (env_->GetFileSize(fname, &bytes).ok()) { auto info_log = immutable_db_options_.info_log.get(); ROCKS_LOG_WARN(info_log, "%s: dropping %d bytes", fname.c_str(), static_cast(bytes)); } }; if (stop_replay_by_wal_filter) { logFileDropped(); continue; } unique_ptr file_reader; { unique_ptr file; status = env_->NewSequentialFile(fname, &file, env_->OptimizeForLogRead(env_options_)); if (!status.ok()) { MaybeIgnoreError(&status); if (!status.ok()) { return status; } else { // Fail with one log file, but that's ok. // Try next one. continue; } } file_reader.reset(new SequentialFileReader(std::move(file), fname)); } // Create the log reader. LogReporter reporter; reporter.env = env_; reporter.info_log = immutable_db_options_.info_log.get(); reporter.fname = fname.c_str(); if (!immutable_db_options_.paranoid_checks || immutable_db_options_.wal_recovery_mode == WALRecoveryMode::kSkipAnyCorruptedRecords) { reporter.status = nullptr; } else { reporter.status = &status; } // We intentially make log::Reader do checksumming even if // paranoid_checks==false so that corruptions cause entire commits // to be skipped instead of propagating bad information (like overly // large sequence numbers). log::Reader reader(immutable_db_options_.info_log, std::move(file_reader), &reporter, true /*checksum*/, log_number); // Determine if we should tolerate incomplete records at the tail end of the // Read all the records and add to a memtable std::string scratch; Slice record; WriteBatch batch; while (!stop_replay_by_wal_filter && reader.ReadRecord(&record, &scratch, immutable_db_options_.wal_recovery_mode) && status.ok()) { if (record.size() < WriteBatchInternal::kHeader) { reporter.Corruption(record.size(), Status::Corruption("log record too small")); continue; } WriteBatchInternal::SetContents(&batch, record); SequenceNumber sequence = WriteBatchInternal::Sequence(&batch); if (immutable_db_options_.wal_recovery_mode == WALRecoveryMode::kPointInTimeRecovery) { // In point-in-time recovery mode, if sequence id of log files are // consecutive, we continue recovery despite corruption. This could // happen when we open and write to a corrupted DB, where sequence id // will start from the last sequence id we recovered. if (sequence == *next_sequence) { stop_replay_for_corruption = false; } if (stop_replay_for_corruption) { logFileDropped(); break; } } #ifndef ROCKSDB_LITE if (immutable_db_options_.wal_filter != nullptr) { WriteBatch new_batch; bool batch_changed = false; WalFilter::WalProcessingOption wal_processing_option = immutable_db_options_.wal_filter->LogRecordFound( log_number, fname, batch, &new_batch, &batch_changed); switch (wal_processing_option) { case WalFilter::WalProcessingOption::kContinueProcessing: // do nothing, proceeed normally break; case WalFilter::WalProcessingOption::kIgnoreCurrentRecord: // skip current record continue; case WalFilter::WalProcessingOption::kStopReplay: // skip current record and stop replay stop_replay_by_wal_filter = true; continue; case WalFilter::WalProcessingOption::kCorruptedRecord: { status = Status::Corruption("Corruption reported by Wal Filter ", immutable_db_options_.wal_filter->Name()); MaybeIgnoreError(&status); if (!status.ok()) { reporter.Corruption(record.size(), status); continue; } break; } default: { assert(false); // unhandled case status = Status::NotSupported( "Unknown WalProcessingOption returned" " by Wal Filter ", immutable_db_options_.wal_filter->Name()); MaybeIgnoreError(&status); if (!status.ok()) { return status; } else { // Ignore the error with current record processing. continue; } } } if (batch_changed) { // Make sure that the count in the new batch is // within the orignal count. int new_count = WriteBatchInternal::Count(&new_batch); int original_count = WriteBatchInternal::Count(&batch); if (new_count > original_count) { ROCKS_LOG_FATAL( immutable_db_options_.info_log, "Recovering log #%" PRIu64 " mode %d log filter %s returned " "more records (%d) than original (%d) which is not allowed. " "Aborting recovery.", log_number, immutable_db_options_.wal_recovery_mode, immutable_db_options_.wal_filter->Name(), new_count, original_count); status = Status::NotSupported( "More than original # of records " "returned by Wal Filter ", immutable_db_options_.wal_filter->Name()); return status; } // Set the same sequence number in the new_batch // as the original batch. WriteBatchInternal::SetSequence(&new_batch, WriteBatchInternal::Sequence(&batch)); batch = new_batch; } } #endif // ROCKSDB_LITE // If column family was not found, it might mean that the WAL write // batch references to the column family that was dropped after the // insert. We don't want to fail the whole write batch in that case -- // we just ignore the update. // That's why we set ignore missing column families to true bool has_valid_writes = false; status = WriteBatchInternal::InsertInto( &batch, column_family_memtables_.get(), &flush_scheduler_, true, log_number, this, false /* concurrent_memtable_writes */, next_sequence, &has_valid_writes, seq_per_batch_, batch_per_txn_); MaybeIgnoreError(&status); if (!status.ok()) { // We are treating this as a failure while reading since we read valid // blocks that do not form coherent data reporter.Corruption(record.size(), status); continue; } if (has_valid_writes && !read_only) { // we can do this because this is called before client has access to the // DB and there is only a single thread operating on DB ColumnFamilyData* cfd; while ((cfd = flush_scheduler_.TakeNextColumnFamily()) != nullptr) { cfd->Unref(); // If this asserts, it means that InsertInto failed in // filtering updates to already-flushed column families assert(cfd->GetLogNumber() <= log_number); auto iter = version_edits.find(cfd->GetID()); assert(iter != version_edits.end()); VersionEdit* edit = &iter->second; status = WriteLevel0TableForRecovery(job_id, cfd, cfd->mem(), edit); if (!status.ok()) { // Reflect errors immediately so that conditions like full // file-systems cause the DB::Open() to fail. return status; } flushed = true; cfd->CreateNewMemtable(*cfd->GetLatestMutableCFOptions(), *next_sequence); } } } if (!status.ok()) { if (status.IsNotSupported()) { // We should not treat NotSupported as corruption. It is rather a clear // sign that we are processing a WAL that is produced by an incompatible // version of the code. return status; } if (immutable_db_options_.wal_recovery_mode == WALRecoveryMode::kSkipAnyCorruptedRecords) { // We should ignore all errors unconditionally status = Status::OK(); } else if (immutable_db_options_.wal_recovery_mode == WALRecoveryMode::kPointInTimeRecovery) { // We should ignore the error but not continue replaying status = Status::OK(); stop_replay_for_corruption = true; corrupted_log_number = log_number; ROCKS_LOG_INFO(immutable_db_options_.info_log, "Point in time recovered to log #%" PRIu64 " seq #%" PRIu64, log_number, *next_sequence); } else { assert(immutable_db_options_.wal_recovery_mode == WALRecoveryMode::kTolerateCorruptedTailRecords || immutable_db_options_.wal_recovery_mode == WALRecoveryMode::kAbsoluteConsistency); return status; } } flush_scheduler_.Clear(); auto last_sequence = *next_sequence - 1; if ((*next_sequence != kMaxSequenceNumber) && (versions_->LastSequence() <= last_sequence)) { versions_->SetLastAllocatedSequence(last_sequence); versions_->SetLastPublishedSequence(last_sequence); versions_->SetLastSequence(last_sequence); } } // Compare the corrupted log number to all columnfamily's current log number. // Abort Open() if any column family's log number is greater than // the corrupted log number, which means CF contains data beyond the point of // corruption. This could during PIT recovery when the WAL is corrupted and // some (but not all) CFs are flushed if (stop_replay_for_corruption == true && (immutable_db_options_.wal_recovery_mode == WALRecoveryMode::kPointInTimeRecovery || immutable_db_options_.wal_recovery_mode == WALRecoveryMode::kTolerateCorruptedTailRecords)) { for (auto cfd : *versions_->GetColumnFamilySet()) { if (cfd->GetLogNumber() > corrupted_log_number) { ROCKS_LOG_ERROR(immutable_db_options_.info_log, "Column family inconsistency: SST file contains data" " beyond the point of corruption."); return Status::Corruption("SST file is ahead of WALs"); } } } // True if there's any data in the WALs; if not, we can skip re-processing // them later bool data_seen = false; if (!read_only) { // no need to refcount since client still doesn't have access // to the DB and can not drop column families while we iterate auto max_log_number = log_numbers.back(); for (auto cfd : *versions_->GetColumnFamilySet()) { auto iter = version_edits.find(cfd->GetID()); assert(iter != version_edits.end()); VersionEdit* edit = &iter->second; if (cfd->GetLogNumber() > max_log_number) { // Column family cfd has already flushed the data // from all logs. Memtable has to be empty because // we filter the updates based on log_number // (in WriteBatch::InsertInto) assert(cfd->mem()->GetFirstSequenceNumber() == 0); assert(edit->NumEntries() == 0); continue; } // flush the final memtable (if non-empty) if (cfd->mem()->GetFirstSequenceNumber() != 0) { // If flush happened in the middle of recovery (e.g. due to memtable // being full), we flush at the end. Otherwise we'll need to record // where we were on last flush, which make the logic complicated. if (flushed || !immutable_db_options_.avoid_flush_during_recovery) { status = WriteLevel0TableForRecovery(job_id, cfd, cfd->mem(), edit); if (!status.ok()) { // Recovery failed break; } flushed = true; cfd->CreateNewMemtable(*cfd->GetLatestMutableCFOptions(), versions_->LastSequence()); } data_seen = true; } // write MANIFEST with update // writing log_number in the manifest means that any log file // with number strongly less than (log_number + 1) is already // recovered and should be ignored on next reincarnation. // Since we already recovered max_log_number, we want all logs // with numbers `<= max_log_number` (includes this one) to be ignored if (flushed || cfd->mem()->GetFirstSequenceNumber() == 0) { edit->SetLogNumber(max_log_number + 1); } // we must mark the next log number as used, even though it's // not actually used. that is because VersionSet assumes // VersionSet::next_file_number_ always to be strictly greater than any // log number versions_->MarkFileNumberUsed(max_log_number + 1); status = versions_->LogAndApply( cfd, *cfd->GetLatestMutableCFOptions(), edit, &mutex_); if (!status.ok()) { // Recovery failed break; } } } if (status.ok() && data_seen && !flushed) { status = RestoreAliveLogFiles(log_numbers); } event_logger_.Log() << "job" << job_id << "event" << "recovery_finished"; return status; } Status DBImpl::RestoreAliveLogFiles(const std::vector& log_numbers) { if (log_numbers.empty()) { return Status::OK(); } Status s; mutex_.AssertHeld(); assert(immutable_db_options_.avoid_flush_during_recovery); if (two_write_queues_) { log_write_mutex_.Lock(); } // Mark these as alive so they'll be considered for deletion later by // FindObsoleteFiles() total_log_size_ = 0; log_empty_ = false; for (auto log_number : log_numbers) { LogFileNumberSize log(log_number); std::string fname = LogFileName(immutable_db_options_.wal_dir, log_number); // This gets the appear size of the logs, not including preallocated space. s = env_->GetFileSize(fname, &log.size); if (!s.ok()) { break; } total_log_size_ += log.size; alive_log_files_.push_back(log); // We preallocate space for logs, but then after a crash and restart, those // preallocated space are not needed anymore. It is likely only the last // log has such preallocated space, so we only truncate for the last log. if (log_number == log_numbers.back()) { std::unique_ptr last_log; Status truncate_status = env_->ReopenWritableFile( fname, &last_log, env_->OptimizeForLogWrite( env_options_, BuildDBOptions(immutable_db_options_, mutable_db_options_))); if (truncate_status.ok()) { truncate_status = last_log->Truncate(log.size); } if (truncate_status.ok()) { truncate_status = last_log->Close(); } // Not a critical error if fail to truncate. if (!truncate_status.ok()) { ROCKS_LOG_WARN(immutable_db_options_.info_log, "Failed to truncate log #%" PRIu64 ": %s", log_number, truncate_status.ToString().c_str()); } } } if (two_write_queues_) { log_write_mutex_.Unlock(); } return s; } Status DBImpl::WriteLevel0TableForRecovery(int job_id, ColumnFamilyData* cfd, MemTable* mem, VersionEdit* edit) { mutex_.AssertHeld(); const uint64_t start_micros = env_->NowMicros(); FileMetaData meta; auto pending_outputs_inserted_elem = CaptureCurrentFileNumberInPendingOutputs(); meta.fd = FileDescriptor(versions_->NewFileNumber(), 0, 0); ReadOptions ro; ro.total_order_seek = true; Arena arena; Status s; TableProperties table_properties; { ScopedArenaIterator iter(mem->NewIterator(ro, &arena)); ROCKS_LOG_DEBUG(immutable_db_options_.info_log, "[%s] [WriteLevel0TableForRecovery]" " Level-0 table #%" PRIu64 ": started", cfd->GetName().c_str(), meta.fd.GetNumber()); // Get the latest mutable cf options while the mutex is still locked const MutableCFOptions mutable_cf_options = *cfd->GetLatestMutableCFOptions(); bool paranoid_file_checks = cfd->GetLatestMutableCFOptions()->paranoid_file_checks; int64_t _current_time = 0; env_->GetCurrentTime(&_current_time); // ignore error const uint64_t current_time = static_cast(_current_time); { auto write_hint = cfd->CalculateSSTWriteHint(0); mutex_.Unlock(); SequenceNumber earliest_write_conflict_snapshot; std::vector snapshot_seqs = snapshots_.GetAll(&earliest_write_conflict_snapshot); auto snapshot_checker = snapshot_checker_.get(); if (use_custom_gc_ && snapshot_checker == nullptr) { snapshot_checker = DisableGCSnapshotChecker::Instance(); } s = BuildTable( dbname_, env_, *cfd->ioptions(), mutable_cf_options, env_options_for_compaction_, cfd->table_cache(), iter.get(), std::unique_ptr(mem->NewRangeTombstoneIterator(ro)), &meta, cfd->internal_comparator(), cfd->int_tbl_prop_collector_factories(), cfd->GetID(), cfd->GetName(), snapshot_seqs, earliest_write_conflict_snapshot, snapshot_checker, GetCompressionFlush(*cfd->ioptions(), mutable_cf_options), cfd->ioptions()->compression_opts, paranoid_file_checks, cfd->internal_stats(), TableFileCreationReason::kRecovery, &event_logger_, job_id, Env::IO_HIGH, nullptr /* table_properties */, -1 /* level */, current_time, write_hint); LogFlush(immutable_db_options_.info_log); ROCKS_LOG_DEBUG(immutable_db_options_.info_log, "[%s] [WriteLevel0TableForRecovery]" " Level-0 table #%" PRIu64 ": %" PRIu64 " bytes %s", cfd->GetName().c_str(), meta.fd.GetNumber(), meta.fd.GetFileSize(), s.ToString().c_str()); mutex_.Lock(); } } ReleaseFileNumberFromPendingOutputs(pending_outputs_inserted_elem); // Note that if file_size is zero, the file has been deleted and // should not be added to the manifest. int level = 0; if (s.ok() && meta.fd.GetFileSize() > 0) { edit->AddFile(level, meta.fd.GetNumber(), meta.fd.GetPathId(), meta.fd.GetFileSize(), meta.smallest, meta.largest, meta.fd.smallest_seqno, meta.fd.largest_seqno, meta.marked_for_compaction); } InternalStats::CompactionStats stats(CompactionReason::kFlush, 1); stats.micros = env_->NowMicros() - start_micros; stats.bytes_written = meta.fd.GetFileSize(); stats.num_output_files = 1; cfd->internal_stats()->AddCompactionStats(level, stats); cfd->internal_stats()->AddCFStats( InternalStats::BYTES_FLUSHED, meta.fd.GetFileSize()); RecordTick(stats_, COMPACT_WRITE_BYTES, meta.fd.GetFileSize()); return s; } Status DB::Open(const Options& options, const std::string& dbname, DB** dbptr) { DBOptions db_options(options); ColumnFamilyOptions cf_options(options); std::vector column_families; column_families.push_back( ColumnFamilyDescriptor(kDefaultColumnFamilyName, cf_options)); std::vector handles; Status s = DB::Open(db_options, dbname, column_families, &handles, dbptr); if (s.ok()) { assert(handles.size() == 1); // i can delete the handle since DBImpl is always holding a reference to // default column family delete handles[0]; } return s; } Status DB::Open(const DBOptions& db_options, const std::string& dbname, const std::vector& column_families, std::vector* handles, DB** dbptr) { const bool kSeqPerBatch = true; const bool kBatchPerTxn = true; return DBImpl::Open(db_options, dbname, column_families, handles, dbptr, !kSeqPerBatch, kBatchPerTxn); } Status DBImpl::Open(const DBOptions& db_options, const std::string& dbname, const std::vector& column_families, std::vector* handles, DB** dbptr, const bool seq_per_batch, const bool batch_per_txn) { Status s = SanitizeOptionsByTable(db_options, column_families); if (!s.ok()) { return s; } s = ValidateOptions(db_options, column_families); if (!s.ok()) { return s; } *dbptr = nullptr; handles->clear(); size_t max_write_buffer_size = 0; for (auto cf : column_families) { max_write_buffer_size = std::max(max_write_buffer_size, cf.options.write_buffer_size); } DBImpl* impl = new DBImpl(db_options, dbname, seq_per_batch, batch_per_txn); s = impl->env_->CreateDirIfMissing(impl->immutable_db_options_.wal_dir); if (s.ok()) { std::vector paths; for (auto& db_path : impl->immutable_db_options_.db_paths) { paths.emplace_back(db_path.path); } for (auto& cf : column_families) { for (auto& cf_path : cf.options.cf_paths) { paths.emplace_back(cf_path.path); } } for (auto& path : paths) { s = impl->env_->CreateDirIfMissing(path); if (!s.ok()) { break; } } // For recovery from NoSpace() error, we can only handle // the case where the database is stored in a single path if (paths.size() <= 1) { impl->error_handler_.EnableAutoRecovery(); } } if (!s.ok()) { delete impl; return s; } s = impl->CreateArchivalDirectory(); if (!s.ok()) { delete impl; return s; } impl->mutex_.Lock(); auto write_hint = impl->CalculateWALWriteHint(); // Handles create_if_missing, error_if_exists s = impl->Recover(column_families); if (s.ok()) { uint64_t new_log_number = impl->versions_->NewFileNumber(); unique_ptr lfile; EnvOptions soptions(db_options); EnvOptions opt_env_options = impl->immutable_db_options_.env->OptimizeForLogWrite( soptions, BuildDBOptions(impl->immutable_db_options_, impl->mutable_db_options_)); std::string log_fname = LogFileName(impl->immutable_db_options_.wal_dir, new_log_number); s = NewWritableFile(impl->immutable_db_options_.env, log_fname, &lfile, opt_env_options); if (s.ok()) { lfile->SetWriteLifeTimeHint(write_hint); lfile->SetPreallocationBlockSize( impl->GetWalPreallocateBlockSize(max_write_buffer_size)); { InstrumentedMutexLock wl(&impl->log_write_mutex_); impl->logfile_number_ = new_log_number; unique_ptr file_writer(new WritableFileWriter( std::move(lfile), log_fname, opt_env_options)); impl->logs_.emplace_back( new_log_number, new log::Writer( std::move(file_writer), new_log_number, impl->immutable_db_options_.recycle_log_file_num > 0, impl->immutable_db_options_.manual_wal_flush)); } // set column family handles for (auto cf : column_families) { auto cfd = impl->versions_->GetColumnFamilySet()->GetColumnFamily(cf.name); if (cfd != nullptr) { handles->push_back( new ColumnFamilyHandleImpl(cfd, impl, &impl->mutex_)); impl->NewThreadStatusCfInfo(cfd); } else { if (db_options.create_missing_column_families) { // missing column family, create it ColumnFamilyHandle* handle; impl->mutex_.Unlock(); s = impl->CreateColumnFamily(cf.options, cf.name, &handle); impl->mutex_.Lock(); if (s.ok()) { handles->push_back(handle); } else { break; } } else { s = Status::InvalidArgument("Column family not found: ", cf.name); break; } } } } if (s.ok()) { SuperVersionContext sv_context(/* create_superversion */ true); for (auto cfd : *impl->versions_->GetColumnFamilySet()) { impl->InstallSuperVersionAndScheduleWork( cfd, &sv_context, *cfd->GetLatestMutableCFOptions()); } sv_context.Clean(); if (impl->two_write_queues_) { impl->log_write_mutex_.Lock(); } impl->alive_log_files_.push_back( DBImpl::LogFileNumberSize(impl->logfile_number_)); if (impl->two_write_queues_) { impl->log_write_mutex_.Unlock(); } impl->DeleteObsoleteFiles(); s = impl->directories_.GetDbDir()->Fsync(); } } if (s.ok()) { for (auto cfd : *impl->versions_->GetColumnFamilySet()) { if (cfd->ioptions()->compaction_style == kCompactionStyleFIFO) { auto* vstorage = cfd->current()->storage_info(); for (int i = 1; i < vstorage->num_levels(); ++i) { int num_files = vstorage->NumLevelFiles(i); if (num_files > 0) { s = Status::InvalidArgument( "Not all files are at level 0. Cannot " "open with FIFO compaction style."); break; } } } if (!cfd->mem()->IsSnapshotSupported()) { impl->is_snapshot_supported_ = false; } if (cfd->ioptions()->merge_operator != nullptr && !cfd->mem()->IsMergeOperatorSupported()) { s = Status::InvalidArgument( "The memtable of column family %s does not support merge operator " "its options.merge_operator is non-null", cfd->GetName().c_str()); } if (!s.ok()) { break; } } } TEST_SYNC_POINT("DBImpl::Open:Opened"); Status persist_options_status; if (s.ok()) { // Persist RocksDB Options before scheduling the compaction. // The WriteOptionsFile() will release and lock the mutex internally. persist_options_status = impl->WriteOptionsFile( false /*need_mutex_lock*/, false /*need_enter_write_thread*/); *dbptr = impl; impl->opened_successfully_ = true; impl->MaybeScheduleFlushOrCompaction(); } impl->mutex_.Unlock(); #ifndef ROCKSDB_LITE auto sfm = static_cast( impl->immutable_db_options_.sst_file_manager.get()); if (s.ok() && sfm) { // Notify SstFileManager about all sst files that already exist in // db_paths[0] and cf_paths[0] when the DB is opened. std::vector paths; paths.emplace_back(impl->immutable_db_options_.db_paths[0].path); for (auto& cf : column_families) { if (!cf.options.cf_paths.empty()) { paths.emplace_back(cf.options.cf_paths[0].path); } } // Remove duplicate paths. std::sort(paths.begin(), paths.end()); paths.erase(std::unique(paths.begin(), paths.end()), paths.end()); for (auto& path : paths) { std::vector existing_files; impl->immutable_db_options_.env->GetChildren(path, &existing_files); for (auto& file_name : existing_files) { uint64_t file_number; FileType file_type; std::string file_path = path + "/" + file_name; if (ParseFileName(file_name, &file_number, &file_type) && file_type == kTableFile) { sfm->OnAddFile(file_path); } } } // Reserve some disk buffer space. This is a heuristic - when we run out // of disk space, this ensures that there is atleast write_buffer_size // amount of free space before we resume DB writes. In low disk space // conditions, we want to avoid a lot of small L0 files due to frequent // WAL write failures and resultant forced flushes sfm->ReserveDiskBuffer(max_write_buffer_size, impl->immutable_db_options_.db_paths[0].path); } #endif // !ROCKSDB_LITE if (s.ok()) { ROCKS_LOG_INFO(impl->immutable_db_options_.info_log, "DB pointer %p", impl); LogFlush(impl->immutable_db_options_.info_log); assert(impl->TEST_WALBufferIsEmpty()); // If the assert above fails then we need to FlushWAL before returning // control back to the user. if (!persist_options_status.ok()) { s = Status::IOError( "DB::Open() failed --- Unable to persist Options file", persist_options_status.ToString()); } } if (!s.ok()) { for (auto* h : *handles) { delete h; } handles->clear(); delete impl; *dbptr = nullptr; } return s; } } // namespace rocksdb rocksdb-5.17.2/db/db_impl_readonly.cc000066400000000000000000000173111337235545400174520ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include "db/db_impl_readonly.h" #include "db/compacted_db_impl.h" #include "db/db_impl.h" #include "db/db_iter.h" #include "db/merge_context.h" #include "db/range_del_aggregator.h" #include "monitoring/perf_context_imp.h" namespace rocksdb { #ifndef ROCKSDB_LITE DBImplReadOnly::DBImplReadOnly(const DBOptions& db_options, const std::string& dbname) : DBImpl(db_options, dbname) { ROCKS_LOG_INFO(immutable_db_options_.info_log, "Opening the db in read only mode"); LogFlush(immutable_db_options_.info_log); } DBImplReadOnly::~DBImplReadOnly() {} // Implementations of the DB interface Status DBImplReadOnly::Get(const ReadOptions& read_options, ColumnFamilyHandle* column_family, const Slice& key, PinnableSlice* pinnable_val) { assert(pinnable_val != nullptr); // TODO: stopwatch DB_GET needed?, perf timer needed? PERF_TIMER_GUARD(get_snapshot_time); Status s; SequenceNumber snapshot = versions_->LastSequence(); auto cfh = reinterpret_cast(column_family); auto cfd = cfh->cfd(); if (tracer_) { InstrumentedMutexLock lock(&trace_mutex_); if (tracer_) { tracer_->Get(column_family, key); } } SuperVersion* super_version = cfd->GetSuperVersion(); MergeContext merge_context; RangeDelAggregator range_del_agg(cfd->internal_comparator(), snapshot); LookupKey lkey(key, snapshot); PERF_TIMER_STOP(get_snapshot_time); if (super_version->mem->Get(lkey, pinnable_val->GetSelf(), &s, &merge_context, &range_del_agg, read_options)) { pinnable_val->PinSelf(); RecordTick(stats_, MEMTABLE_HIT); } else { PERF_TIMER_GUARD(get_from_output_files_time); super_version->current->Get(read_options, lkey, pinnable_val, &s, &merge_context, &range_del_agg); RecordTick(stats_, MEMTABLE_MISS); } RecordTick(stats_, NUMBER_KEYS_READ); size_t size = pinnable_val->size(); RecordTick(stats_, BYTES_READ, size); MeasureTime(stats_, BYTES_PER_READ, size); PERF_COUNTER_ADD(get_read_bytes, size); return s; } Iterator* DBImplReadOnly::NewIterator(const ReadOptions& read_options, ColumnFamilyHandle* column_family) { auto cfh = reinterpret_cast(column_family); auto cfd = cfh->cfd(); SuperVersion* super_version = cfd->GetSuperVersion()->Ref(); SequenceNumber latest_snapshot = versions_->LastSequence(); ReadCallback* read_callback = nullptr; // No read callback provided. auto db_iter = NewArenaWrappedDbIterator( env_, read_options, *cfd->ioptions(), super_version->mutable_cf_options, (read_options.snapshot != nullptr ? reinterpret_cast(read_options.snapshot) ->number_ : latest_snapshot), super_version->mutable_cf_options.max_sequential_skip_in_iterations, super_version->version_number, read_callback); auto internal_iter = NewInternalIterator(read_options, cfd, super_version, db_iter->GetArena(), db_iter->GetRangeDelAggregator()); db_iter->SetIterUnderDBIter(internal_iter); return db_iter; } Status DBImplReadOnly::NewIterators( const ReadOptions& read_options, const std::vector& column_families, std::vector* iterators) { ReadCallback* read_callback = nullptr; // No read callback provided. if (iterators == nullptr) { return Status::InvalidArgument("iterators not allowed to be nullptr"); } iterators->clear(); iterators->reserve(column_families.size()); SequenceNumber latest_snapshot = versions_->LastSequence(); for (auto cfh : column_families) { auto* cfd = reinterpret_cast(cfh)->cfd(); auto* sv = cfd->GetSuperVersion()->Ref(); auto* db_iter = NewArenaWrappedDbIterator( env_, read_options, *cfd->ioptions(), sv->mutable_cf_options, (read_options.snapshot != nullptr ? reinterpret_cast(read_options.snapshot) ->number_ : latest_snapshot), sv->mutable_cf_options.max_sequential_skip_in_iterations, sv->version_number, read_callback); auto* internal_iter = NewInternalIterator(read_options, cfd, sv, db_iter->GetArena(), db_iter->GetRangeDelAggregator()); db_iter->SetIterUnderDBIter(internal_iter); iterators->push_back(db_iter); } return Status::OK(); } Status DB::OpenForReadOnly(const Options& options, const std::string& dbname, DB** dbptr, bool /*error_if_log_file_exist*/) { *dbptr = nullptr; // Try to first open DB as fully compacted DB Status s; s = CompactedDBImpl::Open(options, dbname, dbptr); if (s.ok()) { return s; } DBOptions db_options(options); ColumnFamilyOptions cf_options(options); std::vector column_families; column_families.push_back( ColumnFamilyDescriptor(kDefaultColumnFamilyName, cf_options)); std::vector handles; s = DB::OpenForReadOnly(db_options, dbname, column_families, &handles, dbptr); if (s.ok()) { assert(handles.size() == 1); // i can delete the handle since DBImpl is always holding a // reference to default column family delete handles[0]; } return s; } Status DB::OpenForReadOnly( const DBOptions& db_options, const std::string& dbname, const std::vector& column_families, std::vector* handles, DB** dbptr, bool error_if_log_file_exist) { *dbptr = nullptr; handles->clear(); SuperVersionContext sv_context(/* create_superversion */ true); DBImplReadOnly* impl = new DBImplReadOnly(db_options, dbname); impl->mutex_.Lock(); Status s = impl->Recover(column_families, true /* read only */, error_if_log_file_exist); if (s.ok()) { // set column family handles for (auto cf : column_families) { auto cfd = impl->versions_->GetColumnFamilySet()->GetColumnFamily(cf.name); if (cfd == nullptr) { s = Status::InvalidArgument("Column family not found: ", cf.name); break; } handles->push_back(new ColumnFamilyHandleImpl(cfd, impl, &impl->mutex_)); } } if (s.ok()) { for (auto cfd : *impl->versions_->GetColumnFamilySet()) { sv_context.NewSuperVersion(); cfd->InstallSuperVersion(&sv_context, &impl->mutex_); } } impl->mutex_.Unlock(); sv_context.Clean(); if (s.ok()) { *dbptr = impl; for (auto* h : *handles) { impl->NewThreadStatusCfInfo( reinterpret_cast(h)->cfd()); } } else { for (auto h : *handles) { delete h; } handles->clear(); delete impl; } return s; } #else // !ROCKSDB_LITE Status DB::OpenForReadOnly(const Options& /*options*/, const std::string& /*dbname*/, DB** /*dbptr*/, bool /*error_if_log_file_exist*/) { return Status::NotSupported("Not supported in ROCKSDB_LITE."); } Status DB::OpenForReadOnly( const DBOptions& /*db_options*/, const std::string& /*dbname*/, const std::vector& /*column_families*/, std::vector* /*handles*/, DB** /*dbptr*/, bool /*error_if_log_file_exist*/) { return Status::NotSupported("Not supported in ROCKSDB_LITE."); } #endif // !ROCKSDB_LITE } // namespace rocksdb rocksdb-5.17.2/db/db_impl_readonly.h000066400000000000000000000113041337235545400173100ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #ifndef ROCKSDB_LITE #include "db/db_impl.h" #include #include namespace rocksdb { class DBImplReadOnly : public DBImpl { public: DBImplReadOnly(const DBOptions& options, const std::string& dbname); virtual ~DBImplReadOnly(); // Implementations of the DB interface using DB::Get; virtual Status Get(const ReadOptions& options, ColumnFamilyHandle* column_family, const Slice& key, PinnableSlice* value) override; // TODO: Implement ReadOnly MultiGet? using DBImpl::NewIterator; virtual Iterator* NewIterator(const ReadOptions&, ColumnFamilyHandle* column_family) override; virtual Status NewIterators( const ReadOptions& options, const std::vector& column_families, std::vector* iterators) override; using DBImpl::Put; virtual Status Put(const WriteOptions& /*options*/, ColumnFamilyHandle* /*column_family*/, const Slice& /*key*/, const Slice& /*value*/) override { return Status::NotSupported("Not supported operation in read only mode."); } using DBImpl::Merge; virtual Status Merge(const WriteOptions& /*options*/, ColumnFamilyHandle* /*column_family*/, const Slice& /*key*/, const Slice& /*value*/) override { return Status::NotSupported("Not supported operation in read only mode."); } using DBImpl::Delete; virtual Status Delete(const WriteOptions& /*options*/, ColumnFamilyHandle* /*column_family*/, const Slice& /*key*/) override { return Status::NotSupported("Not supported operation in read only mode."); } using DBImpl::SingleDelete; virtual Status SingleDelete(const WriteOptions& /*options*/, ColumnFamilyHandle* /*column_family*/, const Slice& /*key*/) override { return Status::NotSupported("Not supported operation in read only mode."); } virtual Status Write(const WriteOptions& /*options*/, WriteBatch* /*updates*/) override { return Status::NotSupported("Not supported operation in read only mode."); } using DBImpl::CompactRange; virtual Status CompactRange(const CompactRangeOptions& /*options*/, ColumnFamilyHandle* /*column_family*/, const Slice* /*begin*/, const Slice* /*end*/) override { return Status::NotSupported("Not supported operation in read only mode."); } using DBImpl::CompactFiles; virtual Status CompactFiles( const CompactionOptions& /*compact_options*/, ColumnFamilyHandle* /*column_family*/, const std::vector& /*input_file_names*/, const int /*output_level*/, const int /*output_path_id*/ = -1, std::vector* const /*output_file_names*/ = nullptr ) override { return Status::NotSupported("Not supported operation in read only mode."); } virtual Status DisableFileDeletions() override { return Status::NotSupported("Not supported operation in read only mode."); } virtual Status EnableFileDeletions(bool /*force*/) override { return Status::NotSupported("Not supported operation in read only mode."); } virtual Status GetLiveFiles(std::vector&, uint64_t* /*manifest_file_size*/, bool /*flush_memtable*/ = true) override { return Status::NotSupported("Not supported operation in read only mode."); } using DBImpl::Flush; virtual Status Flush(const FlushOptions& /*options*/, ColumnFamilyHandle* /*column_family*/) override { return Status::NotSupported("Not supported operation in read only mode."); } using DBImpl::SyncWAL; virtual Status SyncWAL() override { return Status::NotSupported("Not supported operation in read only mode."); } using DB::IngestExternalFile; virtual Status IngestExternalFile( ColumnFamilyHandle* /*column_family*/, const std::vector& /*external_files*/, const IngestExternalFileOptions& /*ingestion_options*/) override { return Status::NotSupported("Not supported operation in read only mode."); } private: friend class DB; // No copying allowed DBImplReadOnly(const DBImplReadOnly&); void operator=(const DBImplReadOnly&); }; } #endif // !ROCKSDB_LITE rocksdb-5.17.2/db/db_impl_write.cc000066400000000000000000001643041337235545400167740ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "db/db_impl.h" #ifndef __STDC_FORMAT_MACROS #define __STDC_FORMAT_MACROS #endif #include #include "db/error_handler.h" #include "db/event_helpers.h" #include "monitoring/perf_context_imp.h" #include "options/options_helper.h" #include "util/sync_point.h" namespace rocksdb { // Convenience methods Status DBImpl::Put(const WriteOptions& o, ColumnFamilyHandle* column_family, const Slice& key, const Slice& val) { return DB::Put(o, column_family, key, val); } Status DBImpl::Merge(const WriteOptions& o, ColumnFamilyHandle* column_family, const Slice& key, const Slice& val) { auto cfh = reinterpret_cast(column_family); if (!cfh->cfd()->ioptions()->merge_operator) { return Status::NotSupported("Provide a merge_operator when opening DB"); } else { return DB::Merge(o, column_family, key, val); } } Status DBImpl::Delete(const WriteOptions& write_options, ColumnFamilyHandle* column_family, const Slice& key) { return DB::Delete(write_options, column_family, key); } Status DBImpl::SingleDelete(const WriteOptions& write_options, ColumnFamilyHandle* column_family, const Slice& key) { return DB::SingleDelete(write_options, column_family, key); } void DBImpl::SetRecoverableStatePreReleaseCallback( PreReleaseCallback* callback) { recoverable_state_pre_release_callback_.reset(callback); } Status DBImpl::Write(const WriteOptions& write_options, WriteBatch* my_batch) { return WriteImpl(write_options, my_batch, nullptr, nullptr); } #ifndef ROCKSDB_LITE Status DBImpl::WriteWithCallback(const WriteOptions& write_options, WriteBatch* my_batch, WriteCallback* callback) { return WriteImpl(write_options, my_batch, callback, nullptr); } #endif // ROCKSDB_LITE // The main write queue. This is the only write queue that updates LastSequence. // When using one write queue, the same sequence also indicates the last // published sequence. Status DBImpl::WriteImpl(const WriteOptions& write_options, WriteBatch* my_batch, WriteCallback* callback, uint64_t* log_used, uint64_t log_ref, bool disable_memtable, uint64_t* seq_used, size_t batch_cnt, PreReleaseCallback* pre_release_callback) { assert(!seq_per_batch_ || batch_cnt != 0); if (my_batch == nullptr) { return Status::Corruption("Batch is nullptr!"); } if (tracer_) { InstrumentedMutexLock lock(&trace_mutex_); if (tracer_) { tracer_->Write(my_batch); } } if (write_options.sync && write_options.disableWAL) { return Status::InvalidArgument("Sync writes has to enable WAL."); } if (two_write_queues_ && immutable_db_options_.enable_pipelined_write) { return Status::NotSupported( "pipelined_writes is not compatible with concurrent prepares"); } if (seq_per_batch_ && immutable_db_options_.enable_pipelined_write) { // TODO(yiwu): update pipeline write with seq_per_batch and batch_cnt return Status::NotSupported( "pipelined_writes is not compatible with seq_per_batch"); } // Otherwise IsLatestPersistentState optimization does not make sense assert(!WriteBatchInternal::IsLatestPersistentState(my_batch) || disable_memtable); Status status; if (write_options.low_pri) { status = ThrottleLowPriWritesIfNeeded(write_options, my_batch); if (!status.ok()) { return status; } } if (two_write_queues_ && disable_memtable) { return WriteImplWALOnly(write_options, my_batch, callback, log_used, log_ref, seq_used, batch_cnt, pre_release_callback); } if (immutable_db_options_.enable_pipelined_write) { return PipelinedWriteImpl(write_options, my_batch, callback, log_used, log_ref, disable_memtable, seq_used); } PERF_TIMER_GUARD(write_pre_and_post_process_time); WriteThread::Writer w(write_options, my_batch, callback, log_ref, disable_memtable, batch_cnt, pre_release_callback); if (!write_options.disableWAL) { RecordTick(stats_, WRITE_WITH_WAL); } StopWatch write_sw(env_, immutable_db_options_.statistics.get(), DB_WRITE); write_thread_.JoinBatchGroup(&w); if (w.state == WriteThread::STATE_PARALLEL_MEMTABLE_WRITER) { // we are a non-leader in a parallel group if (w.ShouldWriteToMemtable()) { PERF_TIMER_STOP(write_pre_and_post_process_time); PERF_TIMER_GUARD(write_memtable_time); ColumnFamilyMemTablesImpl column_family_memtables( versions_->GetColumnFamilySet()); w.status = WriteBatchInternal::InsertInto( &w, w.sequence, &column_family_memtables, &flush_scheduler_, write_options.ignore_missing_column_families, 0 /*log_number*/, this, true /*concurrent_memtable_writes*/, seq_per_batch_, w.batch_cnt); PERF_TIMER_START(write_pre_and_post_process_time); } if (write_thread_.CompleteParallelMemTableWriter(&w)) { // we're responsible for exit batch group for (auto* writer : *(w.write_group)) { if (!writer->CallbackFailed() && writer->pre_release_callback) { assert(writer->sequence != kMaxSequenceNumber); Status ws = writer->pre_release_callback->Callback(writer->sequence, disable_memtable); if (!ws.ok()) { status = ws; break; } } } // TODO(myabandeh): propagate status to write_group auto last_sequence = w.write_group->last_sequence; versions_->SetLastSequence(last_sequence); MemTableInsertStatusCheck(w.status); write_thread_.ExitAsBatchGroupFollower(&w); } assert(w.state == WriteThread::STATE_COMPLETED); // STATE_COMPLETED conditional below handles exit status = w.FinalStatus(); } if (w.state == WriteThread::STATE_COMPLETED) { if (log_used != nullptr) { *log_used = w.log_used; } if (seq_used != nullptr) { *seq_used = w.sequence; } // write is complete and leader has updated sequence return w.FinalStatus(); } // else we are the leader of the write batch group assert(w.state == WriteThread::STATE_GROUP_LEADER); // Once reaches this point, the current writer "w" will try to do its write // job. It may also pick up some of the remaining writers in the "writers_" // when it finds suitable, and finish them in the same write batch. // This is how a write job could be done by the other writer. WriteContext write_context; WriteThread::WriteGroup write_group; bool in_parallel_group = false; uint64_t last_sequence = kMaxSequenceNumber; if (!two_write_queues_) { last_sequence = versions_->LastSequence(); } mutex_.Lock(); bool need_log_sync = write_options.sync; bool need_log_dir_sync = need_log_sync && !log_dir_synced_; if (!two_write_queues_ || !disable_memtable) { // With concurrent writes we do preprocess only in the write thread that // also does write to memtable to avoid sync issue on shared data structure // with the other thread // PreprocessWrite does its own perf timing. PERF_TIMER_STOP(write_pre_and_post_process_time); status = PreprocessWrite(write_options, &need_log_sync, &write_context); PERF_TIMER_START(write_pre_and_post_process_time); } log::Writer* log_writer = logs_.back().writer; mutex_.Unlock(); // Add to log and apply to memtable. We can release the lock // during this phase since &w is currently responsible for logging // and protects against concurrent loggers and concurrent writes // into memtables TEST_SYNC_POINT("DBImpl::WriteImpl:BeforeLeaderEnters"); last_batch_group_size_ = write_thread_.EnterAsBatchGroupLeader(&w, &write_group); if (status.ok()) { // Rules for when we can update the memtable concurrently // 1. supported by memtable // 2. Puts are not okay if inplace_update_support // 3. Merges are not okay // // Rules 1..2 are enforced by checking the options // during startup (CheckConcurrentWritesSupported), so if // options.allow_concurrent_memtable_write is true then they can be // assumed to be true. Rule 3 is checked for each batch. We could // relax rules 2 if we could prevent write batches from referring // more than once to a particular key. bool parallel = immutable_db_options_.allow_concurrent_memtable_write && write_group.size > 1; size_t total_count = 0; size_t valid_batches = 0; size_t total_byte_size = 0; for (auto* writer : write_group) { if (writer->CheckCallback(this)) { valid_batches += writer->batch_cnt; if (writer->ShouldWriteToMemtable()) { total_count += WriteBatchInternal::Count(writer->batch); parallel = parallel && !writer->batch->HasMerge(); } total_byte_size = WriteBatchInternal::AppendedByteSize( total_byte_size, WriteBatchInternal::ByteSize(writer->batch)); } } // Note about seq_per_batch_: either disableWAL is set for the entire write // group or not. In either case we inc seq for each write batch with no // failed callback. This means that there could be a batch with // disalbe_memtable in between; although we do not write this batch to // memtable it still consumes a seq. Otherwise, if !seq_per_batch_, we inc // the seq per valid written key to mem. size_t seq_inc = seq_per_batch_ ? valid_batches : total_count; const bool concurrent_update = two_write_queues_; // Update stats while we are an exclusive group leader, so we know // that nobody else can be writing to these particular stats. // We're optimistic, updating the stats before we successfully // commit. That lets us release our leader status early. auto stats = default_cf_internal_stats_; stats->AddDBStats(InternalStats::NUMBER_KEYS_WRITTEN, total_count, concurrent_update); RecordTick(stats_, NUMBER_KEYS_WRITTEN, total_count); stats->AddDBStats(InternalStats::BYTES_WRITTEN, total_byte_size, concurrent_update); RecordTick(stats_, BYTES_WRITTEN, total_byte_size); stats->AddDBStats(InternalStats::WRITE_DONE_BY_SELF, 1, concurrent_update); RecordTick(stats_, WRITE_DONE_BY_SELF); auto write_done_by_other = write_group.size - 1; if (write_done_by_other > 0) { stats->AddDBStats(InternalStats::WRITE_DONE_BY_OTHER, write_done_by_other, concurrent_update); RecordTick(stats_, WRITE_DONE_BY_OTHER, write_done_by_other); } MeasureTime(stats_, BYTES_PER_WRITE, total_byte_size); if (write_options.disableWAL) { has_unpersisted_data_.store(true, std::memory_order_relaxed); } PERF_TIMER_STOP(write_pre_and_post_process_time); if (!two_write_queues_) { if (status.ok() && !write_options.disableWAL) { PERF_TIMER_GUARD(write_wal_time); status = WriteToWAL(write_group, log_writer, log_used, need_log_sync, need_log_dir_sync, last_sequence + 1); } } else { if (status.ok() && !write_options.disableWAL) { PERF_TIMER_GUARD(write_wal_time); // LastAllocatedSequence is increased inside WriteToWAL under // wal_write_mutex_ to ensure ordered events in WAL status = ConcurrentWriteToWAL(write_group, log_used, &last_sequence, seq_inc); } else { // Otherwise we inc seq number for memtable writes last_sequence = versions_->FetchAddLastAllocatedSequence(seq_inc); } } assert(last_sequence != kMaxSequenceNumber); const SequenceNumber current_sequence = last_sequence + 1; last_sequence += seq_inc; if (status.ok()) { PERF_TIMER_GUARD(write_memtable_time); if (!parallel) { // w.sequence will be set inside InsertInto w.status = WriteBatchInternal::InsertInto( write_group, current_sequence, column_family_memtables_.get(), &flush_scheduler_, write_options.ignore_missing_column_families, 0 /*recovery_log_number*/, this, parallel, seq_per_batch_, batch_per_txn_); } else { SequenceNumber next_sequence = current_sequence; // Note: the logic for advancing seq here must be consistent with the // logic in WriteBatchInternal::InsertInto(write_group...) as well as // with WriteBatchInternal::InsertInto(write_batch...) that is called on // the merged batch during recovery from the WAL. for (auto* writer : write_group) { if (writer->CallbackFailed()) { continue; } writer->sequence = next_sequence; if (seq_per_batch_) { assert(writer->batch_cnt); next_sequence += writer->batch_cnt; } else if (writer->ShouldWriteToMemtable()) { next_sequence += WriteBatchInternal::Count(writer->batch); } } write_group.last_sequence = last_sequence; write_group.running.store(static_cast(write_group.size), std::memory_order_relaxed); write_thread_.LaunchParallelMemTableWriters(&write_group); in_parallel_group = true; // Each parallel follower is doing each own writes. The leader should // also do its own. if (w.ShouldWriteToMemtable()) { ColumnFamilyMemTablesImpl column_family_memtables( versions_->GetColumnFamilySet()); assert(w.sequence == current_sequence); w.status = WriteBatchInternal::InsertInto( &w, w.sequence, &column_family_memtables, &flush_scheduler_, write_options.ignore_missing_column_families, 0 /*log_number*/, this, true /*concurrent_memtable_writes*/, seq_per_batch_, w.batch_cnt, batch_per_txn_); } } if (seq_used != nullptr) { *seq_used = w.sequence; } } } PERF_TIMER_START(write_pre_and_post_process_time); if (!w.CallbackFailed()) { WriteStatusCheck(status); } if (need_log_sync) { mutex_.Lock(); MarkLogsSynced(logfile_number_, need_log_dir_sync, status); mutex_.Unlock(); // Requesting sync with two_write_queues_ is expected to be very rare. We // hence provide a simple implementation that is not necessarily efficient. if (two_write_queues_) { if (manual_wal_flush_) { status = FlushWAL(true); } else { status = SyncWAL(); } } } bool should_exit_batch_group = true; if (in_parallel_group) { // CompleteParallelWorker returns true if this thread should // handle exit, false means somebody else did should_exit_batch_group = write_thread_.CompleteParallelMemTableWriter(&w); } if (should_exit_batch_group) { if (status.ok()) { for (auto* writer : write_group) { if (!writer->CallbackFailed() && writer->pre_release_callback) { assert(writer->sequence != kMaxSequenceNumber); Status ws = writer->pre_release_callback->Callback(writer->sequence, disable_memtable); if (!ws.ok()) { status = ws; break; } } } versions_->SetLastSequence(last_sequence); } MemTableInsertStatusCheck(w.status); write_thread_.ExitAsBatchGroupLeader(write_group, status); } if (status.ok()) { status = w.FinalStatus(); } return status; } Status DBImpl::PipelinedWriteImpl(const WriteOptions& write_options, WriteBatch* my_batch, WriteCallback* callback, uint64_t* log_used, uint64_t log_ref, bool disable_memtable, uint64_t* seq_used) { PERF_TIMER_GUARD(write_pre_and_post_process_time); StopWatch write_sw(env_, immutable_db_options_.statistics.get(), DB_WRITE); WriteContext write_context; WriteThread::Writer w(write_options, my_batch, callback, log_ref, disable_memtable); write_thread_.JoinBatchGroup(&w); if (w.state == WriteThread::STATE_GROUP_LEADER) { WriteThread::WriteGroup wal_write_group; if (w.callback && !w.callback->AllowWriteBatching()) { write_thread_.WaitForMemTableWriters(); } mutex_.Lock(); bool need_log_sync = !write_options.disableWAL && write_options.sync; bool need_log_dir_sync = need_log_sync && !log_dir_synced_; // PreprocessWrite does its own perf timing. PERF_TIMER_STOP(write_pre_and_post_process_time); w.status = PreprocessWrite(write_options, &need_log_sync, &write_context); PERF_TIMER_START(write_pre_and_post_process_time); log::Writer* log_writer = logs_.back().writer; mutex_.Unlock(); // This can set non-OK status if callback fail. last_batch_group_size_ = write_thread_.EnterAsBatchGroupLeader(&w, &wal_write_group); const SequenceNumber current_sequence = write_thread_.UpdateLastSequence(versions_->LastSequence()) + 1; size_t total_count = 0; size_t total_byte_size = 0; if (w.status.ok()) { SequenceNumber next_sequence = current_sequence; for (auto writer : wal_write_group) { if (writer->CheckCallback(this)) { if (writer->ShouldWriteToMemtable()) { writer->sequence = next_sequence; size_t count = WriteBatchInternal::Count(writer->batch); next_sequence += count; total_count += count; } total_byte_size = WriteBatchInternal::AppendedByteSize( total_byte_size, WriteBatchInternal::ByteSize(writer->batch)); } } if (w.disable_wal) { has_unpersisted_data_.store(true, std::memory_order_relaxed); } write_thread_.UpdateLastSequence(current_sequence + total_count - 1); } auto stats = default_cf_internal_stats_; stats->AddDBStats(InternalStats::NUMBER_KEYS_WRITTEN, total_count); RecordTick(stats_, NUMBER_KEYS_WRITTEN, total_count); stats->AddDBStats(InternalStats::BYTES_WRITTEN, total_byte_size); RecordTick(stats_, BYTES_WRITTEN, total_byte_size); MeasureTime(stats_, BYTES_PER_WRITE, total_byte_size); PERF_TIMER_STOP(write_pre_and_post_process_time); if (w.ShouldWriteToWAL()) { PERF_TIMER_GUARD(write_wal_time); stats->AddDBStats(InternalStats::WRITE_DONE_BY_SELF, 1); RecordTick(stats_, WRITE_DONE_BY_SELF, 1); if (wal_write_group.size > 1) { stats->AddDBStats(InternalStats::WRITE_DONE_BY_OTHER, wal_write_group.size - 1); RecordTick(stats_, WRITE_DONE_BY_OTHER, wal_write_group.size - 1); } w.status = WriteToWAL(wal_write_group, log_writer, log_used, need_log_sync, need_log_dir_sync, current_sequence); } if (!w.CallbackFailed()) { WriteStatusCheck(w.status); } if (need_log_sync) { mutex_.Lock(); MarkLogsSynced(logfile_number_, need_log_dir_sync, w.status); mutex_.Unlock(); } write_thread_.ExitAsBatchGroupLeader(wal_write_group, w.status); } WriteThread::WriteGroup memtable_write_group; if (w.state == WriteThread::STATE_MEMTABLE_WRITER_LEADER) { PERF_TIMER_GUARD(write_memtable_time); assert(w.status.ok()); write_thread_.EnterAsMemTableWriter(&w, &memtable_write_group); if (memtable_write_group.size > 1 && immutable_db_options_.allow_concurrent_memtable_write) { write_thread_.LaunchParallelMemTableWriters(&memtable_write_group); } else { memtable_write_group.status = WriteBatchInternal::InsertInto( memtable_write_group, w.sequence, column_family_memtables_.get(), &flush_scheduler_, write_options.ignore_missing_column_families, 0 /*log_number*/, this, false /*concurrent_memtable_writes*/, seq_per_batch_, batch_per_txn_); versions_->SetLastSequence(memtable_write_group.last_sequence); write_thread_.ExitAsMemTableWriter(&w, memtable_write_group); } } if (w.state == WriteThread::STATE_PARALLEL_MEMTABLE_WRITER) { assert(w.ShouldWriteToMemtable()); ColumnFamilyMemTablesImpl column_family_memtables( versions_->GetColumnFamilySet()); w.status = WriteBatchInternal::InsertInto( &w, w.sequence, &column_family_memtables, &flush_scheduler_, write_options.ignore_missing_column_families, 0 /*log_number*/, this, true /*concurrent_memtable_writes*/); if (write_thread_.CompleteParallelMemTableWriter(&w)) { MemTableInsertStatusCheck(w.status); versions_->SetLastSequence(w.write_group->last_sequence); write_thread_.ExitAsMemTableWriter(&w, *w.write_group); } } if (seq_used != nullptr) { *seq_used = w.sequence; } assert(w.state == WriteThread::STATE_COMPLETED); return w.FinalStatus(); } // The 2nd write queue. If enabled it will be used only for WAL-only writes. // This is the only queue that updates LastPublishedSequence which is only // applicable in a two-queue setting. Status DBImpl::WriteImplWALOnly(const WriteOptions& write_options, WriteBatch* my_batch, WriteCallback* callback, uint64_t* log_used, uint64_t log_ref, uint64_t* seq_used, size_t batch_cnt, PreReleaseCallback* pre_release_callback) { Status status; PERF_TIMER_GUARD(write_pre_and_post_process_time); WriteThread::Writer w(write_options, my_batch, callback, log_ref, true /* disable_memtable */, batch_cnt, pre_release_callback); RecordTick(stats_, WRITE_WITH_WAL); StopWatch write_sw(env_, immutable_db_options_.statistics.get(), DB_WRITE); nonmem_write_thread_.JoinBatchGroup(&w); assert(w.state != WriteThread::STATE_PARALLEL_MEMTABLE_WRITER); if (w.state == WriteThread::STATE_COMPLETED) { if (log_used != nullptr) { *log_used = w.log_used; } if (seq_used != nullptr) { *seq_used = w.sequence; } return w.FinalStatus(); } // else we are the leader of the write batch group assert(w.state == WriteThread::STATE_GROUP_LEADER); WriteThread::WriteGroup write_group; uint64_t last_sequence; nonmem_write_thread_.EnterAsBatchGroupLeader(&w, &write_group); // Note: no need to update last_batch_group_size_ here since the batch writes // to WAL only size_t total_byte_size = 0; for (auto* writer : write_group) { if (writer->CheckCallback(this)) { total_byte_size = WriteBatchInternal::AppendedByteSize( total_byte_size, WriteBatchInternal::ByteSize(writer->batch)); } } const bool concurrent_update = true; // Update stats while we are an exclusive group leader, so we know // that nobody else can be writing to these particular stats. // We're optimistic, updating the stats before we successfully // commit. That lets us release our leader status early. auto stats = default_cf_internal_stats_; stats->AddDBStats(InternalStats::BYTES_WRITTEN, total_byte_size, concurrent_update); RecordTick(stats_, BYTES_WRITTEN, total_byte_size); stats->AddDBStats(InternalStats::WRITE_DONE_BY_SELF, 1, concurrent_update); RecordTick(stats_, WRITE_DONE_BY_SELF); auto write_done_by_other = write_group.size - 1; if (write_done_by_other > 0) { stats->AddDBStats(InternalStats::WRITE_DONE_BY_OTHER, write_done_by_other, concurrent_update); RecordTick(stats_, WRITE_DONE_BY_OTHER, write_done_by_other); } MeasureTime(stats_, BYTES_PER_WRITE, total_byte_size); PERF_TIMER_STOP(write_pre_and_post_process_time); PERF_TIMER_GUARD(write_wal_time); // LastAllocatedSequence is increased inside WriteToWAL under // wal_write_mutex_ to ensure ordered events in WAL size_t seq_inc = 0 /* total_count */; if (seq_per_batch_) { size_t total_batch_cnt = 0; for (auto* writer : write_group) { assert(writer->batch_cnt); total_batch_cnt += writer->batch_cnt; } seq_inc = total_batch_cnt; } if (!write_options.disableWAL) { status = ConcurrentWriteToWAL(write_group, log_used, &last_sequence, seq_inc); } else { // Otherwise we inc seq number to do solely the seq allocation last_sequence = versions_->FetchAddLastAllocatedSequence(seq_inc); } auto curr_seq = last_sequence + 1; for (auto* writer : write_group) { if (writer->CallbackFailed()) { continue; } writer->sequence = curr_seq; if (seq_per_batch_) { assert(writer->batch_cnt); curr_seq += writer->batch_cnt; } // else seq advances only by memtable writes } if (status.ok() && write_options.sync) { assert(!write_options.disableWAL); // Requesting sync with two_write_queues_ is expected to be very rare. We // hance provide a simple implementation that is not necessarily efficient. if (manual_wal_flush_) { status = FlushWAL(true); } else { status = SyncWAL(); } } PERF_TIMER_START(write_pre_and_post_process_time); if (!w.CallbackFailed()) { WriteStatusCheck(status); } if (status.ok()) { for (auto* writer : write_group) { if (!writer->CallbackFailed() && writer->pre_release_callback) { assert(writer->sequence != kMaxSequenceNumber); const bool DISABLE_MEMTABLE = true; Status ws = writer->pre_release_callback->Callback(writer->sequence, DISABLE_MEMTABLE); if (!ws.ok()) { status = ws; break; } } } } nonmem_write_thread_.ExitAsBatchGroupLeader(write_group, status); if (status.ok()) { status = w.FinalStatus(); } if (seq_used != nullptr) { *seq_used = w.sequence; } return status; } void DBImpl::WriteStatusCheck(const Status& status) { // Is setting bg_error_ enough here? This will at least stop // compaction and fail any further writes. if (immutable_db_options_.paranoid_checks && !status.ok() && !status.IsBusy() && !status.IsIncomplete()) { mutex_.Lock(); error_handler_.SetBGError(status, BackgroundErrorReason::kWriteCallback); mutex_.Unlock(); } } void DBImpl::MemTableInsertStatusCheck(const Status& status) { // A non-OK status here indicates that the state implied by the // WAL has diverged from the in-memory state. This could be // because of a corrupt write_batch (very bad), or because the // client specified an invalid column family and didn't specify // ignore_missing_column_families. if (!status.ok()) { mutex_.Lock(); assert(!error_handler_.IsBGWorkStopped()); error_handler_.SetBGError(status, BackgroundErrorReason::kMemTable); mutex_.Unlock(); } } Status DBImpl::PreprocessWrite(const WriteOptions& write_options, bool* need_log_sync, WriteContext* write_context) { mutex_.AssertHeld(); assert(write_context != nullptr && need_log_sync != nullptr); Status status; if (error_handler_.IsDBStopped()) { status = error_handler_.GetBGError(); } PERF_TIMER_GUARD(write_scheduling_flushes_compactions_time); assert(!single_column_family_mode_ || versions_->GetColumnFamilySet()->NumberOfColumnFamilies() == 1); if (UNLIKELY(status.ok() && !single_column_family_mode_ && total_log_size_ > GetMaxTotalWalSize())) { status = SwitchWAL(write_context); } if (UNLIKELY(status.ok() && write_buffer_manager_->ShouldFlush())) { // Before a new memtable is added in SwitchMemtable(), // write_buffer_manager_->ShouldFlush() will keep returning true. If another // thread is writing to another DB with the same write buffer, they may also // be flushed. We may end up with flushing much more DBs than needed. It's // suboptimal but still correct. status = HandleWriteBufferFull(write_context); } if (UNLIKELY(status.ok() && !flush_scheduler_.Empty())) { status = ScheduleFlushes(write_context); } PERF_TIMER_STOP(write_scheduling_flushes_compactions_time); PERF_TIMER_GUARD(write_pre_and_post_process_time); if (UNLIKELY(status.ok() && (write_controller_.IsStopped() || write_controller_.NeedsDelay()))) { PERF_TIMER_STOP(write_pre_and_post_process_time); PERF_TIMER_GUARD(write_delay_time); // We don't know size of curent batch so that we always use the size // for previous one. It might create a fairness issue that expiration // might happen for smaller writes but larger writes can go through. // Can optimize it if it is an issue. status = DelayWrite(last_batch_group_size_, write_options); PERF_TIMER_START(write_pre_and_post_process_time); } if (status.ok() && *need_log_sync) { // Wait until the parallel syncs are finished. Any sync process has to sync // the front log too so it is enough to check the status of front() // We do a while loop since log_sync_cv_ is signalled when any sync is // finished // Note: there does not seem to be a reason to wait for parallel sync at // this early step but it is not important since parallel sync (SyncWAL) and // need_log_sync are usually not used together. while (logs_.front().getting_synced) { log_sync_cv_.Wait(); } for (auto& log : logs_) { assert(!log.getting_synced); // This is just to prevent the logs to be synced by a parallel SyncWAL // call. We will do the actual syncing later after we will write to the // WAL. // Note: there does not seem to be a reason to set this early before we // actually write to the WAL log.getting_synced = true; } } else { *need_log_sync = false; } return status; } WriteBatch* DBImpl::MergeBatch(const WriteThread::WriteGroup& write_group, WriteBatch* tmp_batch, size_t* write_with_wal, WriteBatch** to_be_cached_state) { assert(write_with_wal != nullptr); assert(tmp_batch != nullptr); assert(*to_be_cached_state == nullptr); WriteBatch* merged_batch = nullptr; *write_with_wal = 0; auto* leader = write_group.leader; assert(!leader->disable_wal); // Same holds for all in the batch group if (write_group.size == 1 && !leader->CallbackFailed() && leader->batch->GetWalTerminationPoint().is_cleared()) { // we simply write the first WriteBatch to WAL if the group only // contains one batch, that batch should be written to the WAL, // and the batch is not wanting to be truncated merged_batch = leader->batch; if (WriteBatchInternal::IsLatestPersistentState(merged_batch)) { *to_be_cached_state = merged_batch; } *write_with_wal = 1; } else { // WAL needs all of the batches flattened into a single batch. // We could avoid copying here with an iov-like AddRecord // interface merged_batch = tmp_batch; for (auto writer : write_group) { if (!writer->CallbackFailed()) { WriteBatchInternal::Append(merged_batch, writer->batch, /*WAL_only*/ true); if (WriteBatchInternal::IsLatestPersistentState(writer->batch)) { // We only need to cache the last of such write batch *to_be_cached_state = writer->batch; } (*write_with_wal)++; } } } return merged_batch; } // When two_write_queues_ is disabled, this function is called from the only // write thread. Otherwise this must be called holding log_write_mutex_. Status DBImpl::WriteToWAL(const WriteBatch& merged_batch, log::Writer* log_writer, uint64_t* log_used, uint64_t* log_size) { assert(log_size != nullptr); Slice log_entry = WriteBatchInternal::Contents(&merged_batch); *log_size = log_entry.size(); // When two_write_queues_ WriteToWAL has to be protected from concurretn calls // from the two queues anyway and log_write_mutex_ is already held. Otherwise // if manual_wal_flush_ is enabled we need to protect log_writer->AddRecord // from possible concurrent calls via the FlushWAL by the application. const bool needs_locking = manual_wal_flush_ && !two_write_queues_; // Due to performance cocerns of missed branch prediction penalize the new // manual_wal_flush_ feature (by UNLIKELY) instead of the more common case // when we do not need any locking. if (UNLIKELY(needs_locking)) { log_write_mutex_.Lock(); } Status status = log_writer->AddRecord(log_entry); if (UNLIKELY(needs_locking)) { log_write_mutex_.Unlock(); } if (log_used != nullptr) { *log_used = logfile_number_; } total_log_size_ += log_entry.size(); // TODO(myabandeh): it might be unsafe to access alive_log_files_.back() here // since alive_log_files_ might be modified concurrently alive_log_files_.back().AddSize(log_entry.size()); log_empty_ = false; return status; } Status DBImpl::WriteToWAL(const WriteThread::WriteGroup& write_group, log::Writer* log_writer, uint64_t* log_used, bool need_log_sync, bool need_log_dir_sync, SequenceNumber sequence) { Status status; assert(!write_group.leader->disable_wal); // Same holds for all in the batch group size_t write_with_wal = 0; WriteBatch* to_be_cached_state = nullptr; WriteBatch* merged_batch = MergeBatch(write_group, &tmp_batch_, &write_with_wal, &to_be_cached_state); if (merged_batch == write_group.leader->batch) { write_group.leader->log_used = logfile_number_; } else if (write_with_wal > 1) { for (auto writer : write_group) { writer->log_used = logfile_number_; } } WriteBatchInternal::SetSequence(merged_batch, sequence); uint64_t log_size; status = WriteToWAL(*merged_batch, log_writer, log_used, &log_size); if (to_be_cached_state) { cached_recoverable_state_ = *to_be_cached_state; cached_recoverable_state_empty_ = false; } if (status.ok() && need_log_sync) { StopWatch sw(env_, stats_, WAL_FILE_SYNC_MICROS); // It's safe to access logs_ with unlocked mutex_ here because: // - we've set getting_synced=true for all logs, // so other threads won't pop from logs_ while we're here, // - only writer thread can push to logs_, and we're in // writer thread, so no one will push to logs_, // - as long as other threads don't modify it, it's safe to read // from std::deque from multiple threads concurrently. for (auto& log : logs_) { status = log.writer->file()->Sync(immutable_db_options_.use_fsync); if (!status.ok()) { break; } } if (status.ok() && need_log_dir_sync) { // We only sync WAL directory the first time WAL syncing is // requested, so that in case users never turn on WAL sync, // we can avoid the disk I/O in the write code path. status = directories_.GetWalDir()->Fsync(); } } if (merged_batch == &tmp_batch_) { tmp_batch_.Clear(); } if (status.ok()) { auto stats = default_cf_internal_stats_; if (need_log_sync) { stats->AddDBStats(InternalStats::WAL_FILE_SYNCED, 1); RecordTick(stats_, WAL_FILE_SYNCED); } stats->AddDBStats(InternalStats::WAL_FILE_BYTES, log_size); RecordTick(stats_, WAL_FILE_BYTES, log_size); stats->AddDBStats(InternalStats::WRITE_WITH_WAL, write_with_wal); RecordTick(stats_, WRITE_WITH_WAL, write_with_wal); } return status; } Status DBImpl::ConcurrentWriteToWAL(const WriteThread::WriteGroup& write_group, uint64_t* log_used, SequenceNumber* last_sequence, size_t seq_inc) { Status status; assert(!write_group.leader->disable_wal); // Same holds for all in the batch group WriteBatch tmp_batch; size_t write_with_wal = 0; WriteBatch* to_be_cached_state = nullptr; WriteBatch* merged_batch = MergeBatch(write_group, &tmp_batch, &write_with_wal, &to_be_cached_state); // We need to lock log_write_mutex_ since logs_ and alive_log_files might be // pushed back concurrently log_write_mutex_.Lock(); if (merged_batch == write_group.leader->batch) { write_group.leader->log_used = logfile_number_; } else if (write_with_wal > 1) { for (auto writer : write_group) { writer->log_used = logfile_number_; } } *last_sequence = versions_->FetchAddLastAllocatedSequence(seq_inc); auto sequence = *last_sequence + 1; WriteBatchInternal::SetSequence(merged_batch, sequence); log::Writer* log_writer = logs_.back().writer; uint64_t log_size; status = WriteToWAL(*merged_batch, log_writer, log_used, &log_size); if (to_be_cached_state) { cached_recoverable_state_ = *to_be_cached_state; cached_recoverable_state_empty_ = false; } log_write_mutex_.Unlock(); if (status.ok()) { const bool concurrent = true; auto stats = default_cf_internal_stats_; stats->AddDBStats(InternalStats::WAL_FILE_BYTES, log_size, concurrent); RecordTick(stats_, WAL_FILE_BYTES, log_size); stats->AddDBStats(InternalStats::WRITE_WITH_WAL, write_with_wal, concurrent); RecordTick(stats_, WRITE_WITH_WAL, write_with_wal); } return status; } Status DBImpl::WriteRecoverableState() { mutex_.AssertHeld(); if (!cached_recoverable_state_empty_) { bool dont_care_bool; SequenceNumber next_seq; if (two_write_queues_) { log_write_mutex_.Lock(); } SequenceNumber seq; if (two_write_queues_) { seq = versions_->FetchAddLastAllocatedSequence(0); } else { seq = versions_->LastSequence(); } WriteBatchInternal::SetSequence(&cached_recoverable_state_, seq + 1); auto status = WriteBatchInternal::InsertInto( &cached_recoverable_state_, column_family_memtables_.get(), &flush_scheduler_, true, 0 /*recovery_log_number*/, this, false /* concurrent_memtable_writes */, &next_seq, &dont_care_bool, seq_per_batch_); auto last_seq = next_seq - 1; if (two_write_queues_) { versions_->FetchAddLastAllocatedSequence(last_seq - seq); versions_->SetLastPublishedSequence(last_seq); } versions_->SetLastSequence(last_seq); if (two_write_queues_) { log_write_mutex_.Unlock(); } if (status.ok() && recoverable_state_pre_release_callback_) { const bool DISABLE_MEMTABLE = true; for (uint64_t sub_batch_seq = seq + 1; sub_batch_seq < next_seq && status.ok(); sub_batch_seq++) { status = recoverable_state_pre_release_callback_->Callback( sub_batch_seq, !DISABLE_MEMTABLE); } } if (status.ok()) { cached_recoverable_state_.Clear(); cached_recoverable_state_empty_ = true; } return status; } return Status::OK(); } Status DBImpl::SwitchWAL(WriteContext* write_context) { mutex_.AssertHeld(); assert(write_context != nullptr); Status status; if (alive_log_files_.begin()->getting_flushed) { return status; } auto oldest_alive_log = alive_log_files_.begin()->number; bool flush_wont_release_oldest_log = false; if (allow_2pc()) { auto oldest_log_with_uncommited_prep = logs_with_prep_tracker_.FindMinLogContainingOutstandingPrep(); assert(oldest_log_with_uncommited_prep == 0 || oldest_log_with_uncommited_prep >= oldest_alive_log); if (oldest_log_with_uncommited_prep > 0 && oldest_log_with_uncommited_prep == oldest_alive_log) { if (unable_to_release_oldest_log_) { // we already attempted to flush all column families dependent on // the oldest alive log but the log still contained uncommited // transactions so there is still nothing that we can do. return status; } else { ROCKS_LOG_WARN( immutable_db_options_.info_log, "Unable to release oldest log due to uncommited transaction"); unable_to_release_oldest_log_ = true; flush_wont_release_oldest_log = true; } } } if (!flush_wont_release_oldest_log) { // we only mark this log as getting flushed if we have successfully // flushed all data in this log. If this log contains outstanding prepared // transactions then we cannot flush this log until those transactions are commited. unable_to_release_oldest_log_ = false; alive_log_files_.begin()->getting_flushed = true; } ROCKS_LOG_INFO(immutable_db_options_.info_log, "Flushing all column families with data in WAL number %" PRIu64 ". Total log size is %" PRIu64 " while max_total_wal_size is %" PRIu64, oldest_alive_log, total_log_size_.load(), GetMaxTotalWalSize()); // no need to refcount because drop is happening in write thread, so can't // happen while we're in the write thread FlushRequest flush_req; for (auto cfd : *versions_->GetColumnFamilySet()) { if (cfd->IsDropped()) { continue; } if (cfd->OldestLogToKeep() <= oldest_alive_log) { status = SwitchMemtable(cfd, write_context); if (!status.ok()) { break; } flush_req.emplace_back(cfd, cfd->imm()->GetLatestMemTableID()); cfd->imm()->FlushRequested(); } } if (status.ok()) { SchedulePendingFlush(flush_req, FlushReason::kWriteBufferManager); MaybeScheduleFlushOrCompaction(); } return status; } Status DBImpl::HandleWriteBufferFull(WriteContext* write_context) { mutex_.AssertHeld(); assert(write_context != nullptr); Status status; // Before a new memtable is added in SwitchMemtable(), // write_buffer_manager_->ShouldFlush() will keep returning true. If another // thread is writing to another DB with the same write buffer, they may also // be flushed. We may end up with flushing much more DBs than needed. It's // suboptimal but still correct. ROCKS_LOG_INFO( immutable_db_options_.info_log, "Flushing column family with largest mem table size. Write buffer is " "using %" PRIu64 " bytes out of a total of %" PRIu64 ".", write_buffer_manager_->memory_usage(), write_buffer_manager_->buffer_size()); // no need to refcount because drop is happening in write thread, so can't // happen while we're in the write thread ColumnFamilyData* cfd_picked = nullptr; SequenceNumber seq_num_for_cf_picked = kMaxSequenceNumber; for (auto cfd : *versions_->GetColumnFamilySet()) { if (cfd->IsDropped()) { continue; } if (!cfd->mem()->IsEmpty()) { // We only consider active mem table, hoping immutable memtable is // already in the process of flushing. uint64_t seq = cfd->mem()->GetCreationSeq(); if (cfd_picked == nullptr || seq < seq_num_for_cf_picked) { cfd_picked = cfd; seq_num_for_cf_picked = seq; } } } autovector cfds; if (cfd_picked != nullptr) { cfds.push_back(cfd_picked); } FlushRequest flush_req; for (const auto cfd : cfds) { cfd->Ref(); status = SwitchMemtable(cfd, write_context); cfd->Unref(); if (!status.ok()) { break; } uint64_t flush_memtable_id = cfd->imm()->GetLatestMemTableID(); cfd->imm()->FlushRequested(); flush_req.emplace_back(cfd, flush_memtable_id); } if (status.ok()) { SchedulePendingFlush(flush_req, FlushReason::kWriteBufferFull); MaybeScheduleFlushOrCompaction(); } return status; } uint64_t DBImpl::GetMaxTotalWalSize() const { mutex_.AssertHeld(); return mutable_db_options_.max_total_wal_size == 0 ? 4 * max_total_in_memory_state_ : mutable_db_options_.max_total_wal_size; } // REQUIRES: mutex_ is held // REQUIRES: this thread is currently at the front of the writer queue Status DBImpl::DelayWrite(uint64_t num_bytes, const WriteOptions& write_options) { uint64_t time_delayed = 0; bool delayed = false; { StopWatch sw(env_, stats_, WRITE_STALL, &time_delayed); uint64_t delay = write_controller_.GetDelay(env_, num_bytes); if (delay > 0) { if (write_options.no_slowdown) { return Status::Incomplete("Write stall"); } TEST_SYNC_POINT("DBImpl::DelayWrite:Sleep"); // Notify write_thread_ about the stall so it can setup a barrier and // fail any pending writers with no_slowdown write_thread_.BeginWriteStall(); TEST_SYNC_POINT("DBImpl::DelayWrite:BeginWriteStallDone"); mutex_.Unlock(); // We will delay the write until we have slept for delay ms or // we don't need a delay anymore const uint64_t kDelayInterval = 1000; uint64_t stall_end = sw.start_time() + delay; while (write_controller_.NeedsDelay()) { if (env_->NowMicros() >= stall_end) { // We already delayed this write `delay` microseconds break; } delayed = true; // Sleep for 0.001 seconds env_->SleepForMicroseconds(kDelayInterval); } mutex_.Lock(); write_thread_.EndWriteStall(); } // Don't wait if there's a background error, even if its a soft error. We // might wait here indefinitely as the background compaction may never // finish successfully, resulting in the stall condition lasting // indefinitely while (error_handler_.GetBGError().ok() && write_controller_.IsStopped()) { if (write_options.no_slowdown) { return Status::Incomplete("Write stall"); } delayed = true; // Notify write_thread_ about the stall so it can setup a barrier and // fail any pending writers with no_slowdown write_thread_.BeginWriteStall(); TEST_SYNC_POINT("DBImpl::DelayWrite:Wait"); bg_cv_.Wait(); write_thread_.EndWriteStall(); } } assert(!delayed || !write_options.no_slowdown); if (delayed) { default_cf_internal_stats_->AddDBStats(InternalStats::WRITE_STALL_MICROS, time_delayed); RecordTick(stats_, STALL_MICROS, time_delayed); } // If DB is not in read-only mode and write_controller is not stopping // writes, we can ignore any background errors and allow the write to // proceed Status s; if (write_controller_.IsStopped()) { // If writes are still stopped, it means we bailed due to a background // error s = Status::Incomplete(error_handler_.GetBGError().ToString()); } if (error_handler_.IsDBStopped()) { s = error_handler_.GetBGError(); } return s; } Status DBImpl::ThrottleLowPriWritesIfNeeded(const WriteOptions& write_options, WriteBatch* my_batch) { assert(write_options.low_pri); // This is called outside the DB mutex. Although it is safe to make the call, // the consistency condition is not guaranteed to hold. It's OK to live with // it in this case. // If we need to speed compaction, it means the compaction is left behind // and we start to limit low pri writes to a limit. if (write_controller_.NeedSpeedupCompaction()) { if (allow_2pc() && (my_batch->HasCommit() || my_batch->HasRollback())) { // For 2PC, we only rate limit prepare, not commit. return Status::OK(); } if (write_options.no_slowdown) { return Status::Incomplete(); } else { assert(my_batch != nullptr); // Rate limit those writes. The reason that we don't completely wait // is that in case the write is heavy, low pri writes may never have // a chance to run. Now we guarantee we are still slowly making // progress. PERF_TIMER_GUARD(write_delay_time); write_controller_.low_pri_rate_limiter()->Request( my_batch->GetDataSize(), Env::IO_HIGH, nullptr /* stats */, RateLimiter::OpType::kWrite); } } return Status::OK(); } Status DBImpl::ScheduleFlushes(WriteContext* context) { ColumnFamilyData* cfd; FlushRequest flush_req; Status status; while ((cfd = flush_scheduler_.TakeNextColumnFamily()) != nullptr) { status = SwitchMemtable(cfd, context); bool should_schedule = true; if (cfd->Unref()) { delete cfd; should_schedule = false; } if (!status.ok()) { break; } if (should_schedule) { uint64_t flush_memtable_id = cfd->imm()->GetLatestMemTableID(); flush_req.emplace_back(cfd, flush_memtable_id); } } if (status.ok()) { SchedulePendingFlush(flush_req, FlushReason::kWriteBufferFull); MaybeScheduleFlushOrCompaction(); } return status; } #ifndef ROCKSDB_LITE void DBImpl::NotifyOnMemTableSealed(ColumnFamilyData* /*cfd*/, const MemTableInfo& mem_table_info) { if (immutable_db_options_.listeners.size() == 0U) { return; } if (shutting_down_.load(std::memory_order_acquire)) { return; } for (auto listener : immutable_db_options_.listeners) { listener->OnMemTableSealed(mem_table_info); } } #endif // ROCKSDB_LITE // REQUIRES: mutex_ is held // REQUIRES: this thread is currently at the front of the writer queue Status DBImpl::SwitchMemtable(ColumnFamilyData* cfd, WriteContext* context) { mutex_.AssertHeld(); WriteThread::Writer nonmem_w; if (two_write_queues_) { // SwitchMemtable is a rare event. To simply the reasoning, we make sure // that there is no concurrent thread writing to WAL. nonmem_write_thread_.EnterUnbatched(&nonmem_w, &mutex_); } unique_ptr lfile; log::Writer* new_log = nullptr; MemTable* new_mem = nullptr; // Recoverable state is persisted in WAL. After memtable switch, WAL might // be deleted, so we write the state to memtable to be persisted as well. Status s = WriteRecoverableState(); if (!s.ok()) { return s; } // In case of pipelined write is enabled, wait for all pending memtable // writers. if (immutable_db_options_.enable_pipelined_write) { // Memtable writers may call DB::Get in case max_successive_merges > 0, // which may lock mutex. Unlocking mutex here to avoid deadlock. mutex_.Unlock(); write_thread_.WaitForMemTableWriters(); mutex_.Lock(); } // Attempt to switch to a new memtable and trigger flush of old. // Do this without holding the dbmutex lock. assert(versions_->prev_log_number() == 0); if (two_write_queues_) { log_write_mutex_.Lock(); } bool creating_new_log = !log_empty_; if (two_write_queues_) { log_write_mutex_.Unlock(); } uint64_t recycle_log_number = 0; if (creating_new_log && immutable_db_options_.recycle_log_file_num && !log_recycle_files_.empty()) { recycle_log_number = log_recycle_files_.front(); log_recycle_files_.pop_front(); } uint64_t new_log_number = creating_new_log ? versions_->NewFileNumber() : logfile_number_; const MutableCFOptions mutable_cf_options = *cfd->GetLatestMutableCFOptions(); // Set memtable_info for memtable sealed callback #ifndef ROCKSDB_LITE MemTableInfo memtable_info; memtable_info.cf_name = cfd->GetName(); memtable_info.first_seqno = cfd->mem()->GetFirstSequenceNumber(); memtable_info.earliest_seqno = cfd->mem()->GetEarliestSequenceNumber(); memtable_info.num_entries = cfd->mem()->num_entries(); memtable_info.num_deletes = cfd->mem()->num_deletes(); #endif // ROCKSDB_LITE // Log this later after lock release. It may be outdated, e.g., if background // flush happens before logging, but that should be ok. int num_imm_unflushed = cfd->imm()->NumNotFlushed(); DBOptions db_options = BuildDBOptions(immutable_db_options_, mutable_db_options_); const auto preallocate_block_size = GetWalPreallocateBlockSize(mutable_cf_options.write_buffer_size); auto write_hint = CalculateWALWriteHint(); mutex_.Unlock(); { std::string log_fname = LogFileName(immutable_db_options_.wal_dir, new_log_number); if (creating_new_log) { EnvOptions opt_env_opt = env_->OptimizeForLogWrite(env_options_, db_options); if (recycle_log_number) { ROCKS_LOG_INFO(immutable_db_options_.info_log, "reusing log %" PRIu64 " from recycle list\n", recycle_log_number); std::string old_log_fname = LogFileName(immutable_db_options_.wal_dir, recycle_log_number); s = env_->ReuseWritableFile(log_fname, old_log_fname, &lfile, opt_env_opt); } else { s = NewWritableFile(env_, log_fname, &lfile, opt_env_opt); } if (s.ok()) { // Our final size should be less than write_buffer_size // (compression, etc) but err on the side of caution. // use preallocate_block_size instead // of calling GetWalPreallocateBlockSize() lfile->SetPreallocationBlockSize(preallocate_block_size); lfile->SetWriteLifeTimeHint(write_hint); unique_ptr file_writer( new WritableFileWriter(std::move(lfile), log_fname, opt_env_opt)); new_log = new log::Writer( std::move(file_writer), new_log_number, immutable_db_options_.recycle_log_file_num > 0, manual_wal_flush_); } } if (s.ok()) { SequenceNumber seq = versions_->LastSequence(); new_mem = cfd->ConstructNewMemtable(mutable_cf_options, seq); context->superversion_context.NewSuperVersion(); } #ifndef ROCKSDB_LITE // PLEASE NOTE: We assume that there are no failable operations // after lock is acquired below since we are already notifying // client about mem table becoming immutable. NotifyOnMemTableSealed(cfd, memtable_info); #endif //ROCKSDB_LITE } ROCKS_LOG_INFO(immutable_db_options_.info_log, "[%s] New memtable created with log file: #%" PRIu64 ". Immutable memtables: %d.\n", cfd->GetName().c_str(), new_log_number, num_imm_unflushed); mutex_.Lock(); if (s.ok() && creating_new_log) { log_write_mutex_.Lock(); logfile_number_ = new_log_number; assert(new_log != nullptr); log_empty_ = true; log_dir_synced_ = false; if (!logs_.empty()) { // Alway flush the buffer of the last log before switching to a new one log::Writer* cur_log_writer = logs_.back().writer; s = cur_log_writer->WriteBuffer(); if (!s.ok()) { ROCKS_LOG_WARN(immutable_db_options_.info_log, "[%s] Failed to switch from #%" PRIu64 " to #%" PRIu64 " WAL file -- %s\n", cfd->GetName().c_str(), cur_log_writer->get_log_number(), new_log_number); } } logs_.emplace_back(logfile_number_, new_log); alive_log_files_.push_back(LogFileNumberSize(logfile_number_)); log_write_mutex_.Unlock(); } if (!s.ok()) { // how do we fail if we're not creating new log? assert(creating_new_log); assert(!new_mem); assert(!new_log); if (two_write_queues_) { nonmem_write_thread_.ExitUnbatched(&nonmem_w); } return s; } for (auto loop_cfd : *versions_->GetColumnFamilySet()) { // all this is just optimization to delete logs that // are no longer needed -- if CF is empty, that means it // doesn't need that particular log to stay alive, so we just // advance the log number. no need to persist this in the manifest if (loop_cfd->mem()->GetFirstSequenceNumber() == 0 && loop_cfd->imm()->NumNotFlushed() == 0) { if (creating_new_log) { loop_cfd->SetLogNumber(logfile_number_); } loop_cfd->mem()->SetCreationSeq(versions_->LastSequence()); } } cfd->mem()->SetNextLogNumber(logfile_number_); cfd->imm()->Add(cfd->mem(), &context->memtables_to_free_); new_mem->Ref(); cfd->SetMemtable(new_mem); InstallSuperVersionAndScheduleWork(cfd, &context->superversion_context, mutable_cf_options); if (two_write_queues_) { nonmem_write_thread_.ExitUnbatched(&nonmem_w); } return s; } size_t DBImpl::GetWalPreallocateBlockSize(uint64_t write_buffer_size) const { mutex_.AssertHeld(); size_t bsize = static_cast( write_buffer_size / 10 + write_buffer_size); // Some users might set very high write_buffer_size and rely on // max_total_wal_size or other parameters to control the WAL size. if (mutable_db_options_.max_total_wal_size > 0) { bsize = std::min(bsize, static_cast( mutable_db_options_.max_total_wal_size)); } if (immutable_db_options_.db_write_buffer_size > 0) { bsize = std::min(bsize, immutable_db_options_.db_write_buffer_size); } if (immutable_db_options_.write_buffer_manager && immutable_db_options_.write_buffer_manager->enabled()) { bsize = std::min( bsize, immutable_db_options_.write_buffer_manager->buffer_size()); } return bsize; } // Default implementations of convenience methods that subclasses of DB // can call if they wish Status DB::Put(const WriteOptions& opt, ColumnFamilyHandle* column_family, const Slice& key, const Slice& value) { // Pre-allocate size of write batch conservatively. // 8 bytes are taken by header, 4 bytes for count, 1 byte for type, // and we allocate 11 extra bytes for key length, as well as value length. WriteBatch batch(key.size() + value.size() + 24); Status s = batch.Put(column_family, key, value); if (!s.ok()) { return s; } return Write(opt, &batch); } Status DB::Delete(const WriteOptions& opt, ColumnFamilyHandle* column_family, const Slice& key) { WriteBatch batch; batch.Delete(column_family, key); return Write(opt, &batch); } Status DB::SingleDelete(const WriteOptions& opt, ColumnFamilyHandle* column_family, const Slice& key) { WriteBatch batch; batch.SingleDelete(column_family, key); return Write(opt, &batch); } Status DB::DeleteRange(const WriteOptions& opt, ColumnFamilyHandle* column_family, const Slice& begin_key, const Slice& end_key) { WriteBatch batch; batch.DeleteRange(column_family, begin_key, end_key); return Write(opt, &batch); } Status DB::Merge(const WriteOptions& opt, ColumnFamilyHandle* column_family, const Slice& key, const Slice& value) { WriteBatch batch; Status s = batch.Merge(column_family, key, value); if (!s.ok()) { return s; } return Write(opt, &batch); } } // namespace rocksdb rocksdb-5.17.2/db/db_info_dumper.cc000066400000000000000000000072721337235545400171300ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #ifndef __STDC_FORMAT_MACROS #define __STDC_FORMAT_MACROS #endif #include "db/db_info_dumper.h" #include #include #include #include #include #include "rocksdb/env.h" #include "util/filename.h" namespace rocksdb { void DumpDBFileSummary(const ImmutableDBOptions& options, const std::string& dbname) { if (options.info_log == nullptr) { return; } auto* env = options.env; uint64_t number = 0; FileType type = kInfoLogFile; std::vector files; uint64_t file_num = 0; uint64_t file_size; std::string file_info, wal_info; Header(options.info_log, "DB SUMMARY\n"); // Get files in dbname dir if (!env->GetChildren(dbname, &files).ok()) { Error(options.info_log, "Error when reading %s dir\n", dbname.c_str()); } std::sort(files.begin(), files.end()); for (std::string file : files) { if (!ParseFileName(file, &number, &type)) { continue; } switch (type) { case kCurrentFile: Header(options.info_log, "CURRENT file: %s\n", file.c_str()); break; case kIdentityFile: Header(options.info_log, "IDENTITY file: %s\n", file.c_str()); break; case kDescriptorFile: env->GetFileSize(dbname + "/" + file, &file_size); Header(options.info_log, "MANIFEST file: %s size: %" PRIu64 " Bytes\n", file.c_str(), file_size); break; case kLogFile: env->GetFileSize(dbname + "/" + file, &file_size); char str[16]; snprintf(str, sizeof(str), "%" PRIu64, file_size); wal_info.append(file).append(" size: "). append(str).append(" ; "); break; case kTableFile: if (++file_num < 10) { file_info.append(file).append(" "); } break; default: break; } } // Get sst files in db_path dir for (auto& db_path : options.db_paths) { if (dbname.compare(db_path.path) != 0) { if (!env->GetChildren(db_path.path, &files).ok()) { Error(options.info_log, "Error when reading %s dir\n", db_path.path.c_str()); continue; } std::sort(files.begin(), files.end()); for (std::string file : files) { if (ParseFileName(file, &number, &type)) { if (type == kTableFile && ++file_num < 10) { file_info.append(file).append(" "); } } } } Header(options.info_log, "SST files in %s dir, Total Num: %" PRIu64 ", files: %s\n", db_path.path.c_str(), file_num, file_info.c_str()); file_num = 0; file_info.clear(); } // Get wal file in wal_dir if (dbname.compare(options.wal_dir) != 0) { if (!env->GetChildren(options.wal_dir, &files).ok()) { Error(options.info_log, "Error when reading %s dir\n", options.wal_dir.c_str()); return; } wal_info.clear(); for (std::string file : files) { if (ParseFileName(file, &number, &type)) { if (type == kLogFile) { env->GetFileSize(options.wal_dir + "/" + file, &file_size); char str[16]; snprintf(str, sizeof(str), "%" PRIu64, file_size); wal_info.append(file).append(" size: "). append(str).append(" ; "); } } } } Header(options.info_log, "Write Ahead Log file in %s: %s\n", options.wal_dir.c_str(), wal_info.c_str()); } } // namespace rocksdb rocksdb-5.17.2/db/db_info_dumper.h000066400000000000000000000007411337235545400167640ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #include #include "options/db_options.h" namespace rocksdb { void DumpDBFileSummary(const ImmutableDBOptions& options, const std::string& dbname); } // namespace rocksdb rocksdb-5.17.2/db/db_inplace_update_test.cc000066400000000000000000000132131337235545400206250ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "db/db_test_util.h" #include "port/stack_trace.h" namespace rocksdb { class DBTestInPlaceUpdate : public DBTestBase { public: DBTestInPlaceUpdate() : DBTestBase("/db_inplace_update_test") {} }; TEST_F(DBTestInPlaceUpdate, InPlaceUpdate) { do { Options options = CurrentOptions(); options.create_if_missing = true; options.inplace_update_support = true; options.env = env_; options.write_buffer_size = 100000; options.allow_concurrent_memtable_write = false; Reopen(options); CreateAndReopenWithCF({"pikachu"}, options); // Update key with values of smaller size int numValues = 10; for (int i = numValues; i > 0; i--) { std::string value = DummyString(i, 'a'); ASSERT_OK(Put(1, "key", value)); ASSERT_EQ(value, Get(1, "key")); } // Only 1 instance for that key. validateNumberOfEntries(1, 1); } while (ChangeCompactOptions()); } TEST_F(DBTestInPlaceUpdate, InPlaceUpdateLargeNewValue) { do { Options options = CurrentOptions(); options.create_if_missing = true; options.inplace_update_support = true; options.env = env_; options.write_buffer_size = 100000; options.allow_concurrent_memtable_write = false; Reopen(options); CreateAndReopenWithCF({"pikachu"}, options); // Update key with values of larger size int numValues = 10; for (int i = 0; i < numValues; i++) { std::string value = DummyString(i, 'a'); ASSERT_OK(Put(1, "key", value)); ASSERT_EQ(value, Get(1, "key")); } // All 10 updates exist in the internal iterator validateNumberOfEntries(numValues, 1); } while (ChangeCompactOptions()); } TEST_F(DBTestInPlaceUpdate, InPlaceUpdateCallbackSmallerSize) { do { Options options = CurrentOptions(); options.create_if_missing = true; options.inplace_update_support = true; options.env = env_; options.write_buffer_size = 100000; options.inplace_callback = rocksdb::DBTestInPlaceUpdate::updateInPlaceSmallerSize; options.allow_concurrent_memtable_write = false; Reopen(options); CreateAndReopenWithCF({"pikachu"}, options); // Update key with values of smaller size int numValues = 10; ASSERT_OK(Put(1, "key", DummyString(numValues, 'a'))); ASSERT_EQ(DummyString(numValues, 'c'), Get(1, "key")); for (int i = numValues; i > 0; i--) { ASSERT_OK(Put(1, "key", DummyString(i, 'a'))); ASSERT_EQ(DummyString(i - 1, 'b'), Get(1, "key")); } // Only 1 instance for that key. validateNumberOfEntries(1, 1); } while (ChangeCompactOptions()); } TEST_F(DBTestInPlaceUpdate, InPlaceUpdateCallbackSmallerVarintSize) { do { Options options = CurrentOptions(); options.create_if_missing = true; options.inplace_update_support = true; options.env = env_; options.write_buffer_size = 100000; options.inplace_callback = rocksdb::DBTestInPlaceUpdate::updateInPlaceSmallerVarintSize; options.allow_concurrent_memtable_write = false; Reopen(options); CreateAndReopenWithCF({"pikachu"}, options); // Update key with values of smaller varint size int numValues = 265; ASSERT_OK(Put(1, "key", DummyString(numValues, 'a'))); ASSERT_EQ(DummyString(numValues, 'c'), Get(1, "key")); for (int i = numValues; i > 0; i--) { ASSERT_OK(Put(1, "key", DummyString(i, 'a'))); ASSERT_EQ(DummyString(1, 'b'), Get(1, "key")); } // Only 1 instance for that key. validateNumberOfEntries(1, 1); } while (ChangeCompactOptions()); } TEST_F(DBTestInPlaceUpdate, InPlaceUpdateCallbackLargeNewValue) { do { Options options = CurrentOptions(); options.create_if_missing = true; options.inplace_update_support = true; options.env = env_; options.write_buffer_size = 100000; options.inplace_callback = rocksdb::DBTestInPlaceUpdate::updateInPlaceLargerSize; options.allow_concurrent_memtable_write = false; Reopen(options); CreateAndReopenWithCF({"pikachu"}, options); // Update key with values of larger size int numValues = 10; for (int i = 0; i < numValues; i++) { ASSERT_OK(Put(1, "key", DummyString(i, 'a'))); ASSERT_EQ(DummyString(i, 'c'), Get(1, "key")); } // No inplace updates. All updates are puts with new seq number // All 10 updates exist in the internal iterator validateNumberOfEntries(numValues, 1); } while (ChangeCompactOptions()); } TEST_F(DBTestInPlaceUpdate, InPlaceUpdateCallbackNoAction) { do { Options options = CurrentOptions(); options.create_if_missing = true; options.inplace_update_support = true; options.env = env_; options.write_buffer_size = 100000; options.inplace_callback = rocksdb::DBTestInPlaceUpdate::updateInPlaceNoAction; options.allow_concurrent_memtable_write = false; Reopen(options); CreateAndReopenWithCF({"pikachu"}, options); // Callback function requests no actions from db ASSERT_OK(Put(1, "key", DummyString(1, 'a'))); ASSERT_EQ(Get(1, "key"), "NOT_FOUND"); } while (ChangeCompactOptions()); } } // namespace rocksdb int main(int argc, char** argv) { rocksdb::port::InstallStackTraceHandler(); ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/db/db_io_failure_test.cc000066400000000000000000000451211337235545400177710ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "db/db_test_util.h" #include "port/stack_trace.h" namespace rocksdb { class DBIOFailureTest : public DBTestBase { public: DBIOFailureTest() : DBTestBase("/db_io_failure_test") {} }; #ifndef ROCKSDB_LITE // Check that number of files does not grow when writes are dropped TEST_F(DBIOFailureTest, DropWrites) { do { Options options = CurrentOptions(); options.env = env_; options.paranoid_checks = false; Reopen(options); ASSERT_OK(Put("foo", "v1")); ASSERT_EQ("v1", Get("foo")); Compact("a", "z"); const size_t num_files = CountFiles(); // Force out-of-space errors env_->drop_writes_.store(true, std::memory_order_release); env_->sleep_counter_.Reset(); env_->no_slowdown_ = true; for (int i = 0; i < 5; i++) { if (option_config_ != kUniversalCompactionMultiLevel && option_config_ != kUniversalSubcompactions) { for (int level = 0; level < dbfull()->NumberLevels(); level++) { if (level > 0 && level == dbfull()->NumberLevels() - 1) { break; } dbfull()->TEST_CompactRange(level, nullptr, nullptr, nullptr, true /* disallow trivial move */); } } else { dbfull()->CompactRange(CompactRangeOptions(), nullptr, nullptr); } } std::string property_value; ASSERT_TRUE(db_->GetProperty("rocksdb.background-errors", &property_value)); ASSERT_EQ("5", property_value); env_->drop_writes_.store(false, std::memory_order_release); ASSERT_LT(CountFiles(), num_files + 3); // Check that compaction attempts slept after errors // TODO @krad: Figure out why ASSERT_EQ 5 keeps failing in certain compiler // versions ASSERT_GE(env_->sleep_counter_.Read(), 4); } while (ChangeCompactOptions()); } // Check background error counter bumped on flush failures. TEST_F(DBIOFailureTest, DropWritesFlush) { do { Options options = CurrentOptions(); options.env = env_; options.max_background_flushes = 1; Reopen(options); ASSERT_OK(Put("foo", "v1")); // Force out-of-space errors env_->drop_writes_.store(true, std::memory_order_release); std::string property_value; // Background error count is 0 now. ASSERT_TRUE(db_->GetProperty("rocksdb.background-errors", &property_value)); ASSERT_EQ("0", property_value); dbfull()->TEST_FlushMemTable(true); ASSERT_TRUE(db_->GetProperty("rocksdb.background-errors", &property_value)); ASSERT_EQ("1", property_value); env_->drop_writes_.store(false, std::memory_order_release); } while (ChangeCompactOptions()); } #endif // ROCKSDB_LITE // Check that CompactRange() returns failure if there is not enough space left // on device TEST_F(DBIOFailureTest, NoSpaceCompactRange) { do { Options options = CurrentOptions(); options.env = env_; options.disable_auto_compactions = true; Reopen(options); // generate 5 tables for (int i = 0; i < 5; ++i) { ASSERT_OK(Put(Key(i), Key(i) + "v")); ASSERT_OK(Flush()); } // Force out-of-space errors env_->no_space_.store(true, std::memory_order_release); Status s = dbfull()->TEST_CompactRange(0, nullptr, nullptr, nullptr, true /* disallow trivial move */); ASSERT_TRUE(s.IsIOError()); ASSERT_TRUE(s.IsNoSpace()); env_->no_space_.store(false, std::memory_order_release); } while (ChangeCompactOptions()); } TEST_F(DBIOFailureTest, NonWritableFileSystem) { do { Options options = CurrentOptions(); options.write_buffer_size = 4096; options.arena_block_size = 4096; options.env = env_; Reopen(options); ASSERT_OK(Put("foo", "v1")); env_->non_writeable_rate_.store(100); std::string big(100000, 'x'); int errors = 0; for (int i = 0; i < 20; i++) { if (!Put("foo", big).ok()) { errors++; env_->SleepForMicroseconds(100000); } } ASSERT_GT(errors, 0); env_->non_writeable_rate_.store(0); } while (ChangeCompactOptions()); } #ifndef ROCKSDB_LITE TEST_F(DBIOFailureTest, ManifestWriteError) { // Test for the following problem: // (a) Compaction produces file F // (b) Log record containing F is written to MANIFEST file, but Sync() fails // (c) GC deletes F // (d) After reopening DB, reads fail since deleted F is named in log record // We iterate twice. In the second iteration, everything is the // same except the log record never makes it to the MANIFEST file. for (int iter = 0; iter < 2; iter++) { std::atomic* error_type = (iter == 0) ? &env_->manifest_sync_error_ : &env_->manifest_write_error_; // Insert foo=>bar mapping Options options = CurrentOptions(); options.env = env_; options.create_if_missing = true; options.error_if_exists = false; options.paranoid_checks = true; DestroyAndReopen(options); ASSERT_OK(Put("foo", "bar")); ASSERT_EQ("bar", Get("foo")); // Memtable compaction (will succeed) Flush(); ASSERT_EQ("bar", Get("foo")); const int last = 2; MoveFilesToLevel(2); ASSERT_EQ(NumTableFilesAtLevel(last), 1); // foo=>bar is now in last level // Merging compaction (will fail) error_type->store(true, std::memory_order_release); dbfull()->TEST_CompactRange(last, nullptr, nullptr); // Should fail ASSERT_EQ("bar", Get("foo")); error_type->store(false, std::memory_order_release); // Since paranoid_checks=true, writes should fail ASSERT_NOK(Put("foo2", "bar2")); // Recovery: should not lose data ASSERT_EQ("bar", Get("foo")); // Try again with paranoid_checks=false Close(); options.paranoid_checks = false; Reopen(options); // Merging compaction (will fail) error_type->store(true, std::memory_order_release); dbfull()->TEST_CompactRange(last, nullptr, nullptr); // Should fail ASSERT_EQ("bar", Get("foo")); // Recovery: should not lose data error_type->store(false, std::memory_order_release); Reopen(options); ASSERT_EQ("bar", Get("foo")); // Since paranoid_checks=false, writes should succeed ASSERT_OK(Put("foo2", "bar2")); ASSERT_EQ("bar", Get("foo")); ASSERT_EQ("bar2", Get("foo2")); } } TEST_F(DBIOFailureTest, PutFailsParanoid) { // Test the following: // (a) A random put fails in paranoid mode (simulate by sync fail) // (b) All other puts have to fail, even if writes would succeed // (c) All of that should happen ONLY if paranoid_checks = true Options options = CurrentOptions(); options.env = env_; options.create_if_missing = true; options.error_if_exists = false; options.paranoid_checks = true; DestroyAndReopen(options); CreateAndReopenWithCF({"pikachu"}, options); Status s; ASSERT_OK(Put(1, "foo", "bar")); ASSERT_OK(Put(1, "foo1", "bar1")); // simulate error env_->log_write_error_.store(true, std::memory_order_release); s = Put(1, "foo2", "bar2"); ASSERT_TRUE(!s.ok()); env_->log_write_error_.store(false, std::memory_order_release); s = Put(1, "foo3", "bar3"); // the next put should fail, too ASSERT_TRUE(!s.ok()); // but we're still able to read ASSERT_EQ("bar", Get(1, "foo")); // do the same thing with paranoid checks off options.paranoid_checks = false; DestroyAndReopen(options); CreateAndReopenWithCF({"pikachu"}, options); ASSERT_OK(Put(1, "foo", "bar")); ASSERT_OK(Put(1, "foo1", "bar1")); // simulate error env_->log_write_error_.store(true, std::memory_order_release); s = Put(1, "foo2", "bar2"); ASSERT_TRUE(!s.ok()); env_->log_write_error_.store(false, std::memory_order_release); s = Put(1, "foo3", "bar3"); // the next put should NOT fail ASSERT_TRUE(s.ok()); } #if !(defined NDEBUG) || !defined(OS_WIN) TEST_F(DBIOFailureTest, FlushSstRangeSyncError) { Options options = CurrentOptions(); options.env = env_; options.create_if_missing = true; options.error_if_exists = false; options.paranoid_checks = true; options.write_buffer_size = 256 * 1024 * 1024; options.writable_file_max_buffer_size = 128 * 1024; options.bytes_per_sync = 128 * 1024; options.level0_file_num_compaction_trigger = 4; options.memtable_factory.reset(new SpecialSkipListFactory(10)); BlockBasedTableOptions table_options; table_options.filter_policy.reset(NewBloomFilterPolicy(10)); options.table_factory.reset(NewBlockBasedTableFactory(table_options)); DestroyAndReopen(options); CreateAndReopenWithCF({"pikachu"}, options); Status s; std::atomic range_sync_called(0); rocksdb::SyncPoint::GetInstance()->SetCallBack( "SpecialEnv::SStableFile::RangeSync", [&](void* arg) { if (range_sync_called.fetch_add(1) == 0) { Status* st = static_cast(arg); *st = Status::IOError("range sync dummy error"); } }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); Random rnd(301); std::string rnd_str = RandomString(&rnd, static_cast(options.bytes_per_sync / 2)); std::string rnd_str_512kb = RandomString(&rnd, 512 * 1024); ASSERT_OK(Put(1, "foo", "bar")); // First 1MB doesn't get range synced ASSERT_OK(Put(1, "foo0_0", rnd_str_512kb)); ASSERT_OK(Put(1, "foo0_1", rnd_str_512kb)); ASSERT_OK(Put(1, "foo1_1", rnd_str)); ASSERT_OK(Put(1, "foo1_2", rnd_str)); ASSERT_OK(Put(1, "foo1_3", rnd_str)); ASSERT_OK(Put(1, "foo2", "bar")); ASSERT_OK(Put(1, "foo3_1", rnd_str)); ASSERT_OK(Put(1, "foo3_2", rnd_str)); ASSERT_OK(Put(1, "foo3_3", rnd_str)); ASSERT_OK(Put(1, "foo4", "bar")); dbfull()->TEST_WaitForFlushMemTable(handles_[1]); // Following writes should fail as flush failed. ASSERT_NOK(Put(1, "foo2", "bar3")); ASSERT_EQ("bar", Get(1, "foo")); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); ASSERT_GE(1, range_sync_called.load()); ReopenWithColumnFamilies({"default", "pikachu"}, options); ASSERT_EQ("bar", Get(1, "foo")); } TEST_F(DBIOFailureTest, CompactSstRangeSyncError) { Options options = CurrentOptions(); options.env = env_; options.create_if_missing = true; options.error_if_exists = false; options.paranoid_checks = true; options.write_buffer_size = 256 * 1024 * 1024; options.writable_file_max_buffer_size = 128 * 1024; options.bytes_per_sync = 128 * 1024; options.level0_file_num_compaction_trigger = 2; options.target_file_size_base = 256 * 1024 * 1024; options.disable_auto_compactions = true; BlockBasedTableOptions table_options; table_options.filter_policy.reset(NewBloomFilterPolicy(10)); options.table_factory.reset(NewBlockBasedTableFactory(table_options)); DestroyAndReopen(options); CreateAndReopenWithCF({"pikachu"}, options); Status s; Random rnd(301); std::string rnd_str = RandomString(&rnd, static_cast(options.bytes_per_sync / 2)); std::string rnd_str_512kb = RandomString(&rnd, 512 * 1024); ASSERT_OK(Put(1, "foo", "bar")); // First 1MB doesn't get range synced ASSERT_OK(Put(1, "foo0_0", rnd_str_512kb)); ASSERT_OK(Put(1, "foo0_1", rnd_str_512kb)); ASSERT_OK(Put(1, "foo1_1", rnd_str)); ASSERT_OK(Put(1, "foo1_2", rnd_str)); ASSERT_OK(Put(1, "foo1_3", rnd_str)); Flush(1); ASSERT_OK(Put(1, "foo", "bar")); ASSERT_OK(Put(1, "foo3_1", rnd_str)); ASSERT_OK(Put(1, "foo3_2", rnd_str)); ASSERT_OK(Put(1, "foo3_3", rnd_str)); ASSERT_OK(Put(1, "foo4", "bar")); Flush(1); dbfull()->TEST_WaitForFlushMemTable(handles_[1]); std::atomic range_sync_called(0); rocksdb::SyncPoint::GetInstance()->SetCallBack( "SpecialEnv::SStableFile::RangeSync", [&](void* arg) { if (range_sync_called.fetch_add(1) == 0) { Status* st = static_cast(arg); *st = Status::IOError("range sync dummy error"); } }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); ASSERT_OK(dbfull()->SetOptions(handles_[1], { {"disable_auto_compactions", "false"}, })); dbfull()->TEST_WaitForCompact(); // Following writes should fail as flush failed. ASSERT_NOK(Put(1, "foo2", "bar3")); ASSERT_EQ("bar", Get(1, "foo")); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); ASSERT_GE(1, range_sync_called.load()); ReopenWithColumnFamilies({"default", "pikachu"}, options); ASSERT_EQ("bar", Get(1, "foo")); } TEST_F(DBIOFailureTest, FlushSstCloseError) { Options options = CurrentOptions(); options.env = env_; options.create_if_missing = true; options.error_if_exists = false; options.paranoid_checks = true; options.level0_file_num_compaction_trigger = 4; options.memtable_factory.reset(new SpecialSkipListFactory(2)); DestroyAndReopen(options); CreateAndReopenWithCF({"pikachu"}, options); Status s; std::atomic close_called(0); rocksdb::SyncPoint::GetInstance()->SetCallBack( "SpecialEnv::SStableFile::Close", [&](void* arg) { if (close_called.fetch_add(1) == 0) { Status* st = static_cast(arg); *st = Status::IOError("close dummy error"); } }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); ASSERT_OK(Put(1, "foo", "bar")); ASSERT_OK(Put(1, "foo1", "bar1")); ASSERT_OK(Put(1, "foo", "bar2")); dbfull()->TEST_WaitForFlushMemTable(handles_[1]); // Following writes should fail as flush failed. ASSERT_NOK(Put(1, "foo2", "bar3")); ASSERT_EQ("bar2", Get(1, "foo")); ASSERT_EQ("bar1", Get(1, "foo1")); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); ReopenWithColumnFamilies({"default", "pikachu"}, options); ASSERT_EQ("bar2", Get(1, "foo")); ASSERT_EQ("bar1", Get(1, "foo1")); } TEST_F(DBIOFailureTest, CompactionSstCloseError) { Options options = CurrentOptions(); options.env = env_; options.create_if_missing = true; options.error_if_exists = false; options.paranoid_checks = true; options.level0_file_num_compaction_trigger = 2; options.disable_auto_compactions = true; DestroyAndReopen(options); CreateAndReopenWithCF({"pikachu"}, options); Status s; ASSERT_OK(Put(1, "foo", "bar")); ASSERT_OK(Put(1, "foo2", "bar")); Flush(1); ASSERT_OK(Put(1, "foo", "bar2")); ASSERT_OK(Put(1, "foo2", "bar")); Flush(1); ASSERT_OK(Put(1, "foo", "bar3")); ASSERT_OK(Put(1, "foo2", "bar")); Flush(1); dbfull()->TEST_WaitForCompact(); std::atomic close_called(0); rocksdb::SyncPoint::GetInstance()->SetCallBack( "SpecialEnv::SStableFile::Close", [&](void* arg) { if (close_called.fetch_add(1) == 0) { Status* st = static_cast(arg); *st = Status::IOError("close dummy error"); } }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); ASSERT_OK(dbfull()->SetOptions(handles_[1], { {"disable_auto_compactions", "false"}, })); dbfull()->TEST_WaitForCompact(); // Following writes should fail as compaction failed. ASSERT_NOK(Put(1, "foo2", "bar3")); ASSERT_EQ("bar3", Get(1, "foo")); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); ReopenWithColumnFamilies({"default", "pikachu"}, options); ASSERT_EQ("bar3", Get(1, "foo")); } TEST_F(DBIOFailureTest, FlushSstSyncError) { Options options = CurrentOptions(); options.env = env_; options.create_if_missing = true; options.error_if_exists = false; options.paranoid_checks = true; options.use_fsync = false; options.level0_file_num_compaction_trigger = 4; options.memtable_factory.reset(new SpecialSkipListFactory(2)); DestroyAndReopen(options); CreateAndReopenWithCF({"pikachu"}, options); Status s; std::atomic sync_called(0); rocksdb::SyncPoint::GetInstance()->SetCallBack( "SpecialEnv::SStableFile::Sync", [&](void* arg) { if (sync_called.fetch_add(1) == 0) { Status* st = static_cast(arg); *st = Status::IOError("sync dummy error"); } }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); ASSERT_OK(Put(1, "foo", "bar")); ASSERT_OK(Put(1, "foo1", "bar1")); ASSERT_OK(Put(1, "foo", "bar2")); dbfull()->TEST_WaitForFlushMemTable(handles_[1]); // Following writes should fail as flush failed. ASSERT_NOK(Put(1, "foo2", "bar3")); ASSERT_EQ("bar2", Get(1, "foo")); ASSERT_EQ("bar1", Get(1, "foo1")); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); ReopenWithColumnFamilies({"default", "pikachu"}, options); ASSERT_EQ("bar2", Get(1, "foo")); ASSERT_EQ("bar1", Get(1, "foo1")); } TEST_F(DBIOFailureTest, CompactionSstSyncError) { Options options = CurrentOptions(); options.env = env_; options.create_if_missing = true; options.error_if_exists = false; options.paranoid_checks = true; options.level0_file_num_compaction_trigger = 2; options.disable_auto_compactions = true; options.use_fsync = false; DestroyAndReopen(options); CreateAndReopenWithCF({"pikachu"}, options); Status s; ASSERT_OK(Put(1, "foo", "bar")); ASSERT_OK(Put(1, "foo2", "bar")); Flush(1); ASSERT_OK(Put(1, "foo", "bar2")); ASSERT_OK(Put(1, "foo2", "bar")); Flush(1); ASSERT_OK(Put(1, "foo", "bar3")); ASSERT_OK(Put(1, "foo2", "bar")); Flush(1); dbfull()->TEST_WaitForCompact(); std::atomic sync_called(0); rocksdb::SyncPoint::GetInstance()->SetCallBack( "SpecialEnv::SStableFile::Sync", [&](void* arg) { if (sync_called.fetch_add(1) == 0) { Status* st = static_cast(arg); *st = Status::IOError("close dummy error"); } }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); ASSERT_OK(dbfull()->SetOptions(handles_[1], { {"disable_auto_compactions", "false"}, })); dbfull()->TEST_WaitForCompact(); // Following writes should fail as compaction failed. ASSERT_NOK(Put(1, "foo2", "bar3")); ASSERT_EQ("bar3", Get(1, "foo")); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); ReopenWithColumnFamilies({"default", "pikachu"}, options); ASSERT_EQ("bar3", Get(1, "foo")); } #endif // !(defined NDEBUG) || !defined(OS_WIN) #endif // ROCKSDB_LITE } // namespace rocksdb int main(int argc, char** argv) { rocksdb::port::InstallStackTraceHandler(); ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/db/db_iter.cc000066400000000000000000001543531337235545400155670ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "db/db_iter.h" #include #include #include #include "db/dbformat.h" #include "db/merge_context.h" #include "db/merge_helper.h" #include "db/pinned_iterators_manager.h" #include "monitoring/perf_context_imp.h" #include "rocksdb/env.h" #include "rocksdb/iterator.h" #include "rocksdb/merge_operator.h" #include "rocksdb/options.h" #include "table/internal_iterator.h" #include "util/arena.h" #include "util/filename.h" #include "util/logging.h" #include "util/mutexlock.h" #include "util/string_util.h" #include "util/trace_replay.h" namespace rocksdb { #if 0 static void DumpInternalIter(Iterator* iter) { for (iter->SeekToFirst(); iter->Valid(); iter->Next()) { ParsedInternalKey k; if (!ParseInternalKey(iter->key(), &k)) { fprintf(stderr, "Corrupt '%s'\n", EscapeString(iter->key()).c_str()); } else { fprintf(stderr, "@ '%s'\n", k.DebugString().c_str()); } } } #endif // Memtables and sstables that make the DB representation contain // (userkey,seq,type) => uservalue entries. DBIter // combines multiple entries for the same userkey found in the DB // representation into a single entry while accounting for sequence // numbers, deletion markers, overwrites, etc. class DBIter final: public Iterator { public: // The following is grossly complicated. TODO: clean it up // Which direction is the iterator currently moving? // (1) When moving forward: // (1a) if current_entry_is_merged_ = false, the internal iterator is // positioned at the exact entry that yields this->key(), this->value() // (1b) if current_entry_is_merged_ = true, the internal iterator is // positioned immediately after the last entry that contributed to the // current this->value(). That entry may or may not have key equal to // this->key(). // (2) When moving backwards, the internal iterator is positioned // just before all entries whose user key == this->key(). enum Direction { kForward, kReverse }; // LocalStatistics contain Statistics counters that will be aggregated per // each iterator instance and then will be sent to the global statistics when // the iterator is destroyed. // // The purpose of this approach is to avoid perf regression happening // when multiple threads bump the atomic counters from a DBIter::Next(). struct LocalStatistics { explicit LocalStatistics() { ResetCounters(); } void ResetCounters() { next_count_ = 0; next_found_count_ = 0; prev_count_ = 0; prev_found_count_ = 0; bytes_read_ = 0; skip_count_ = 0; } void BumpGlobalStatistics(Statistics* global_statistics) { RecordTick(global_statistics, NUMBER_DB_NEXT, next_count_); RecordTick(global_statistics, NUMBER_DB_NEXT_FOUND, next_found_count_); RecordTick(global_statistics, NUMBER_DB_PREV, prev_count_); RecordTick(global_statistics, NUMBER_DB_PREV_FOUND, prev_found_count_); RecordTick(global_statistics, ITER_BYTES_READ, bytes_read_); RecordTick(global_statistics, NUMBER_ITER_SKIP, skip_count_); PERF_COUNTER_ADD(iter_read_bytes, bytes_read_); ResetCounters(); } // Map to Tickers::NUMBER_DB_NEXT uint64_t next_count_; // Map to Tickers::NUMBER_DB_NEXT_FOUND uint64_t next_found_count_; // Map to Tickers::NUMBER_DB_PREV uint64_t prev_count_; // Map to Tickers::NUMBER_DB_PREV_FOUND uint64_t prev_found_count_; // Map to Tickers::ITER_BYTES_READ uint64_t bytes_read_; // Map to Tickers::NUMBER_ITER_SKIP uint64_t skip_count_; }; DBIter(Env* _env, const ReadOptions& read_options, const ImmutableCFOptions& cf_options, const MutableCFOptions& mutable_cf_options, const Comparator* cmp, InternalIterator* iter, SequenceNumber s, bool arena_mode, uint64_t max_sequential_skip_in_iterations, ReadCallback* read_callback, DBImpl* db_impl, ColumnFamilyData* cfd, bool allow_blob) : arena_mode_(arena_mode), env_(_env), logger_(cf_options.info_log), user_comparator_(cmp), merge_operator_(cf_options.merge_operator), iter_(iter), sequence_(s), direction_(kForward), valid_(false), current_entry_is_merged_(false), statistics_(cf_options.statistics), num_internal_keys_skipped_(0), iterate_lower_bound_(read_options.iterate_lower_bound), iterate_upper_bound_(read_options.iterate_upper_bound), prefix_same_as_start_(read_options.prefix_same_as_start), pin_thru_lifetime_(read_options.pin_data), total_order_seek_(read_options.total_order_seek), range_del_agg_(cf_options.internal_comparator, s, true /* collapse_deletions */), read_callback_(read_callback), db_impl_(db_impl), cfd_(cfd), allow_blob_(allow_blob), is_blob_(false), start_seqnum_(read_options.iter_start_seqnum) { RecordTick(statistics_, NO_ITERATORS); prefix_extractor_ = mutable_cf_options.prefix_extractor.get(); max_skip_ = max_sequential_skip_in_iterations; max_skippable_internal_keys_ = read_options.max_skippable_internal_keys; if (pin_thru_lifetime_) { pinned_iters_mgr_.StartPinning(); } if (iter_) { iter_->SetPinnedItersMgr(&pinned_iters_mgr_); } } virtual ~DBIter() { // Release pinned data if any if (pinned_iters_mgr_.PinningEnabled()) { pinned_iters_mgr_.ReleasePinnedData(); } // Compiler warning issue filed: // https://github.com/facebook/rocksdb/issues/3013 RecordTick(statistics_, NO_ITERATORS, uint64_t(-1)); ResetInternalKeysSkippedCounter(); local_stats_.BumpGlobalStatistics(statistics_); if (!arena_mode_) { delete iter_; } else { iter_->~InternalIterator(); } } virtual void SetIter(InternalIterator* iter) { assert(iter_ == nullptr); iter_ = iter; iter_->SetPinnedItersMgr(&pinned_iters_mgr_); } virtual RangeDelAggregator* GetRangeDelAggregator() { return &range_del_agg_; } virtual bool Valid() const override { return valid_; } virtual Slice key() const override { assert(valid_); if(start_seqnum_ > 0) { return saved_key_.GetInternalKey(); } else { return saved_key_.GetUserKey(); } } virtual Slice value() const override { assert(valid_); if (current_entry_is_merged_) { // If pinned_value_ is set then the result of merge operator is one of // the merge operands and we should return it. return pinned_value_.data() ? pinned_value_ : saved_value_; } else if (direction_ == kReverse) { return pinned_value_; } else { return iter_->value(); } } virtual Status status() const override { if (status_.ok()) { return iter_->status(); } else { assert(!valid_); return status_; } } bool IsBlob() const { assert(valid_ && (allow_blob_ || !is_blob_)); return is_blob_; } virtual Status GetProperty(std::string prop_name, std::string* prop) override { if (prop == nullptr) { return Status::InvalidArgument("prop is nullptr"); } if (prop_name == "rocksdb.iterator.super-version-number") { // First try to pass the value returned from inner iterator. return iter_->GetProperty(prop_name, prop); } else if (prop_name == "rocksdb.iterator.is-key-pinned") { if (valid_) { *prop = (pin_thru_lifetime_ && saved_key_.IsKeyPinned()) ? "1" : "0"; } else { *prop = "Iterator is not valid."; } return Status::OK(); } else if (prop_name == "rocksdb.iterator.internal-key") { *prop = saved_key_.GetUserKey().ToString(); return Status::OK(); } return Status::InvalidArgument("Undentified property."); } virtual void Next() override; virtual void Prev() override; virtual void Seek(const Slice& target) override; virtual void SeekForPrev(const Slice& target) override; virtual void SeekToFirst() override; virtual void SeekToLast() override; Env* env() { return env_; } void set_sequence(uint64_t s) { sequence_ = s; } void set_valid(bool v) { valid_ = v; } private: // For all methods in this block: // PRE: iter_->Valid() && status_.ok() // Return false if there was an error, and status() is non-ok, valid_ = false; // in this case callers would usually stop what they were doing and return. bool ReverseToForward(); bool ReverseToBackward(); bool FindValueForCurrentKey(); bool FindValueForCurrentKeyUsingSeek(); bool FindUserKeyBeforeSavedKey(); inline bool FindNextUserEntry(bool skipping, bool prefix_check); bool FindNextUserEntryInternal(bool skipping, bool prefix_check); bool ParseKey(ParsedInternalKey* key); bool MergeValuesNewToOld(); void PrevInternal(); bool TooManyInternalKeysSkipped(bool increment = true); bool IsVisible(SequenceNumber sequence); // CanReseekToSkip() returns whether the iterator can use the optimization // where it reseek by sequence number to get the next key when there are too // many versions. This is disabled for write unprepared because seeking to // sequence number does not guarantee that it is visible. inline bool CanReseekToSkip(); // MaxVisibleSequenceNumber() returns the maximum visible sequence number // for this snapshot. This sequence number may be greater than snapshot // seqno because uncommitted data written to DB for write unprepared will // have a higher sequence number. inline SequenceNumber MaxVisibleSequenceNumber(); // Temporarily pin the blocks that we encounter until ReleaseTempPinnedData() // is called void TempPinData() { if (!pin_thru_lifetime_) { pinned_iters_mgr_.StartPinning(); } } // Release blocks pinned by TempPinData() void ReleaseTempPinnedData() { if (!pin_thru_lifetime_ && pinned_iters_mgr_.PinningEnabled()) { pinned_iters_mgr_.ReleasePinnedData(); } } inline void ClearSavedValue() { if (saved_value_.capacity() > 1048576) { std::string empty; swap(empty, saved_value_); } else { saved_value_.clear(); } } inline void ResetInternalKeysSkippedCounter() { local_stats_.skip_count_ += num_internal_keys_skipped_; if (valid_) { local_stats_.skip_count_--; } num_internal_keys_skipped_ = 0; } const SliceTransform* prefix_extractor_; bool arena_mode_; Env* const env_; Logger* logger_; const Comparator* const user_comparator_; const MergeOperator* const merge_operator_; InternalIterator* iter_; SequenceNumber sequence_; Status status_; IterKey saved_key_; // Reusable internal key data structure. This is only used inside one function // and should not be used across functions. Reusing this object can reduce // overhead of calling construction of the function if creating it each time. ParsedInternalKey ikey_; std::string saved_value_; Slice pinned_value_; Direction direction_; bool valid_; bool current_entry_is_merged_; // for prefix seek mode to support prev() Statistics* statistics_; uint64_t max_skip_; uint64_t max_skippable_internal_keys_; uint64_t num_internal_keys_skipped_; const Slice* iterate_lower_bound_; const Slice* iterate_upper_bound_; IterKey prefix_start_buf_; Slice prefix_start_key_; const bool prefix_same_as_start_; // Means that we will pin all data blocks we read as long the Iterator // is not deleted, will be true if ReadOptions::pin_data is true const bool pin_thru_lifetime_; const bool total_order_seek_; // List of operands for merge operator. MergeContext merge_context_; RangeDelAggregator range_del_agg_; LocalStatistics local_stats_; PinnedIteratorsManager pinned_iters_mgr_; ReadCallback* read_callback_; DBImpl* db_impl_; ColumnFamilyData* cfd_; bool allow_blob_; bool is_blob_; // for diff snapshots we want the lower bound on the seqnum; // if this value > 0 iterator will return internal keys SequenceNumber start_seqnum_; // No copying allowed DBIter(const DBIter&); void operator=(const DBIter&); }; inline bool DBIter::ParseKey(ParsedInternalKey* ikey) { if (!ParseInternalKey(iter_->key(), ikey)) { status_ = Status::Corruption("corrupted internal key in DBIter"); valid_ = false; ROCKS_LOG_ERROR(logger_, "corrupted internal key in DBIter: %s", iter_->key().ToString(true).c_str()); return false; } else { return true; } } void DBIter::Next() { assert(valid_); assert(status_.ok()); // Release temporarily pinned blocks from last operation ReleaseTempPinnedData(); ResetInternalKeysSkippedCounter(); bool ok = true; if (direction_ == kReverse) { if (!ReverseToForward()) { ok = false; } } else if (iter_->Valid() && !current_entry_is_merged_) { // If the current value is not a merge, the iter position is the // current key, which is already returned. We can safely issue a // Next() without checking the current key. // If the current key is a merge, very likely iter already points // to the next internal position. iter_->Next(); PERF_COUNTER_ADD(internal_key_skipped_count, 1); } if (statistics_ != nullptr) { local_stats_.next_count_++; } if (ok && iter_->Valid()) { FindNextUserEntry(true /* skipping the current user key */, prefix_same_as_start_); } else { valid_ = false; } if (statistics_ != nullptr && valid_) { local_stats_.next_found_count_++; local_stats_.bytes_read_ += (key().size() + value().size()); } } // PRE: saved_key_ has the current user key if skipping // POST: saved_key_ should have the next user key if valid_, // if the current entry is a result of merge // current_entry_is_merged_ => true // saved_value_ => the merged value // // NOTE: In between, saved_key_ can point to a user key that has // a delete marker or a sequence number higher than sequence_ // saved_key_ MUST have a proper user_key before calling this function // // The prefix_check parameter controls whether we check the iterated // keys against the prefix of the seeked key. Set to false when // performing a seek without a key (e.g. SeekToFirst). Set to // prefix_same_as_start_ for other iterations. inline bool DBIter::FindNextUserEntry(bool skipping, bool prefix_check) { PERF_TIMER_GUARD(find_next_user_entry_time); return FindNextUserEntryInternal(skipping, prefix_check); } // Actual implementation of DBIter::FindNextUserEntry() bool DBIter::FindNextUserEntryInternal(bool skipping, bool prefix_check) { // Loop until we hit an acceptable entry to yield assert(iter_->Valid()); assert(status_.ok()); assert(direction_ == kForward); current_entry_is_merged_ = false; // How many times in a row we have skipped an entry with user key less than // or equal to saved_key_. We could skip these entries either because // sequence numbers were too high or because skipping = true. // What saved_key_ contains throughout this method: // - if skipping : saved_key_ contains the key that we need to skip, // and we haven't seen any keys greater than that, // - if num_skipped > 0 : saved_key_ contains the key that we have skipped // num_skipped times, and we haven't seen any keys // greater than that, // - none of the above : saved_key_ can contain anything, it doesn't matter. uint64_t num_skipped = 0; is_blob_ = false; do { if (!ParseKey(&ikey_)) { return false; } if (iterate_upper_bound_ != nullptr && user_comparator_->Compare(ikey_.user_key, *iterate_upper_bound_) >= 0) { break; } if (prefix_extractor_ && prefix_check && prefix_extractor_->Transform(ikey_.user_key) .compare(prefix_start_key_) != 0) { break; } if (TooManyInternalKeysSkipped()) { return false; } if (IsVisible(ikey_.sequence)) { if (skipping && user_comparator_->Compare(ikey_.user_key, saved_key_.GetUserKey()) <= 0) { num_skipped++; // skip this entry PERF_COUNTER_ADD(internal_key_skipped_count, 1); } else { num_skipped = 0; switch (ikey_.type) { case kTypeDeletion: case kTypeSingleDeletion: // Arrange to skip all upcoming entries for this key since // they are hidden by this deletion. // if iterartor specified start_seqnum we // 1) return internal key, including the type // 2) return ikey only if ikey.seqnum >= start_seqnum_ // note that if deletion seqnum is < start_seqnum_ we // just skip it like in normal iterator. if (start_seqnum_ > 0 && ikey_.sequence >= start_seqnum_) { saved_key_.SetInternalKey(ikey_); valid_ = true; return true; } else { saved_key_.SetUserKey( ikey_.user_key, !pin_thru_lifetime_ || !iter_->IsKeyPinned() /* copy */); skipping = true; PERF_COUNTER_ADD(internal_delete_skipped_count, 1); } break; case kTypeValue: case kTypeBlobIndex: if (start_seqnum_ > 0) { // we are taking incremental snapshot here // incremental snapshots aren't supported on DB with range deletes assert(!( (ikey_.type == kTypeBlobIndex) && (start_seqnum_ > 0) )); if (ikey_.sequence >= start_seqnum_) { saved_key_.SetInternalKey(ikey_); valid_ = true; return true; } else { // this key and all previous versions shouldn't be included, // skipping saved_key_.SetUserKey(ikey_.user_key, !pin_thru_lifetime_ || !iter_->IsKeyPinned() /* copy */); skipping = true; } } else { saved_key_.SetUserKey( ikey_.user_key, !pin_thru_lifetime_ || !iter_->IsKeyPinned() /* copy */); if (range_del_agg_.ShouldDelete( ikey_, RangeDelPositioningMode::kForwardTraversal)) { // Arrange to skip all upcoming entries for this key since // they are hidden by this deletion. skipping = true; num_skipped = 0; PERF_COUNTER_ADD(internal_delete_skipped_count, 1); } else if (ikey_.type == kTypeBlobIndex) { if (!allow_blob_) { ROCKS_LOG_ERROR(logger_, "Encounter unexpected blob index."); status_ = Status::NotSupported( "Encounter unexpected blob index. Please open DB with " "rocksdb::blob_db::BlobDB instead."); valid_ = false; return false; } is_blob_ = true; valid_ = true; return true; } else { valid_ = true; return true; } } break; case kTypeMerge: saved_key_.SetUserKey( ikey_.user_key, !pin_thru_lifetime_ || !iter_->IsKeyPinned() /* copy */); if (range_del_agg_.ShouldDelete( ikey_, RangeDelPositioningMode::kForwardTraversal)) { // Arrange to skip all upcoming entries for this key since // they are hidden by this deletion. skipping = true; num_skipped = 0; PERF_COUNTER_ADD(internal_delete_skipped_count, 1); } else { // By now, we are sure the current ikey is going to yield a // value current_entry_is_merged_ = true; valid_ = true; return MergeValuesNewToOld(); // Go to a different state machine } break; default: assert(false); break; } } } else { PERF_COUNTER_ADD(internal_recent_skipped_count, 1); // This key was inserted after our snapshot was taken. // If this happens too many times in a row for the same user key, we want // to seek to the target sequence number. int cmp = user_comparator_->Compare(ikey_.user_key, saved_key_.GetUserKey()); if (cmp == 0 || (skipping && cmp <= 0)) { num_skipped++; } else { saved_key_.SetUserKey( ikey_.user_key, !iter_->IsKeyPinned() || !pin_thru_lifetime_ /* copy */); skipping = false; num_skipped = 0; } } // If we have sequentially iterated via numerous equal keys, then it's // better to seek so that we can avoid too many key comparisons. if (num_skipped > max_skip_ && CanReseekToSkip()) { num_skipped = 0; std::string last_key; if (skipping) { // We're looking for the next user-key but all we see are the same // user-key with decreasing sequence numbers. Fast forward to // sequence number 0 and type deletion (the smallest type). AppendInternalKey(&last_key, ParsedInternalKey(saved_key_.GetUserKey(), 0, kTypeDeletion)); // Don't set skipping = false because we may still see more user-keys // equal to saved_key_. } else { // We saw multiple entries with this user key and sequence numbers // higher than sequence_. Fast forward to sequence_. // Note that this only covers a case when a higher key was overwritten // many times since our snapshot was taken, not the case when a lot of // different keys were inserted after our snapshot was taken. AppendInternalKey(&last_key, ParsedInternalKey(saved_key_.GetUserKey(), sequence_, kValueTypeForSeek)); } iter_->Seek(last_key); RecordTick(statistics_, NUMBER_OF_RESEEKS_IN_ITERATION); } else { iter_->Next(); } } while (iter_->Valid()); valid_ = false; return iter_->status().ok(); } // Merge values of the same user key starting from the current iter_ position // Scan from the newer entries to older entries. // PRE: iter_->key() points to the first merge type entry // saved_key_ stores the user key // POST: saved_value_ has the merged value for the user key // iter_ points to the next entry (or invalid) bool DBIter::MergeValuesNewToOld() { if (!merge_operator_) { ROCKS_LOG_ERROR(logger_, "Options::merge_operator is null."); status_ = Status::InvalidArgument("merge_operator_ must be set."); valid_ = false; return false; } // Temporarily pin the blocks that hold merge operands TempPinData(); merge_context_.Clear(); // Start the merge process by pushing the first operand merge_context_.PushOperand(iter_->value(), iter_->IsValuePinned() /* operand_pinned */); TEST_SYNC_POINT("DBIter::MergeValuesNewToOld:PushedFirstOperand"); ParsedInternalKey ikey; Status s; for (iter_->Next(); iter_->Valid(); iter_->Next()) { TEST_SYNC_POINT("DBIter::MergeValuesNewToOld:SteppedToNextOperand"); if (!ParseKey(&ikey)) { return false; } if (!user_comparator_->Equal(ikey.user_key, saved_key_.GetUserKey())) { // hit the next user key, stop right here break; } else if (kTypeDeletion == ikey.type || kTypeSingleDeletion == ikey.type || range_del_agg_.ShouldDelete( ikey, RangeDelPositioningMode::kForwardTraversal)) { // hit a delete with the same user key, stop right here // iter_ is positioned after delete iter_->Next(); break; } else if (kTypeValue == ikey.type) { // hit a put, merge the put value with operands and store the // final result in saved_value_. We are done! const Slice val = iter_->value(); s = MergeHelper::TimedFullMerge( merge_operator_, ikey.user_key, &val, merge_context_.GetOperands(), &saved_value_, logger_, statistics_, env_, &pinned_value_, true); if (!s.ok()) { valid_ = false; status_ = s; return false; } // iter_ is positioned after put iter_->Next(); if (!iter_->status().ok()) { valid_ = false; return false; } return true; } else if (kTypeMerge == ikey.type) { // hit a merge, add the value as an operand and run associative merge. // when complete, add result to operands and continue. merge_context_.PushOperand(iter_->value(), iter_->IsValuePinned() /* operand_pinned */); PERF_COUNTER_ADD(internal_merge_count, 1); } else if (kTypeBlobIndex == ikey.type) { if (!allow_blob_) { ROCKS_LOG_ERROR(logger_, "Encounter unexpected blob index."); status_ = Status::NotSupported( "Encounter unexpected blob index. Please open DB with " "rocksdb::blob_db::BlobDB instead."); } else { status_ = Status::NotSupported("Blob DB does not support merge operator."); } valid_ = false; return false; } else { assert(false); } } if (!iter_->status().ok()) { valid_ = false; return false; } // we either exhausted all internal keys under this user key, or hit // a deletion marker. // feed null as the existing value to the merge operator, such that // client can differentiate this scenario and do things accordingly. s = MergeHelper::TimedFullMerge(merge_operator_, saved_key_.GetUserKey(), nullptr, merge_context_.GetOperands(), &saved_value_, logger_, statistics_, env_, &pinned_value_, true); if (!s.ok()) { valid_ = false; status_ = s; return false; } assert(status_.ok()); return true; } void DBIter::Prev() { assert(valid_); assert(status_.ok()); ReleaseTempPinnedData(); ResetInternalKeysSkippedCounter(); bool ok = true; if (direction_ == kForward) { if (!ReverseToBackward()) { ok = false; } } if (ok) { PrevInternal(); } if (statistics_ != nullptr) { local_stats_.prev_count_++; if (valid_) { local_stats_.prev_found_count_++; local_stats_.bytes_read_ += (key().size() + value().size()); } } } bool DBIter::ReverseToForward() { assert(iter_->status().ok()); // When moving backwards, iter_ is positioned on _previous_ key, which may // not exist or may have different prefix than the current key(). // If that's the case, seek iter_ to current key. if ((prefix_extractor_ != nullptr && !total_order_seek_) || !iter_->Valid()) { IterKey last_key; last_key.SetInternalKey(ParsedInternalKey( saved_key_.GetUserKey(), kMaxSequenceNumber, kValueTypeForSeek)); iter_->Seek(last_key.GetInternalKey()); } direction_ = kForward; // Skip keys less than the current key() (a.k.a. saved_key_). while (iter_->Valid()) { ParsedInternalKey ikey; if (!ParseKey(&ikey)) { return false; } if (user_comparator_->Compare(ikey.user_key, saved_key_.GetUserKey()) >= 0) { return true; } iter_->Next(); } if (!iter_->status().ok()) { valid_ = false; return false; } return true; } // Move iter_ to the key before saved_key_. bool DBIter::ReverseToBackward() { assert(iter_->status().ok()); // When current_entry_is_merged_ is true, iter_ may be positioned on the next // key, which may not exist or may have prefix different from current. // If that's the case, seek to saved_key_. if (current_entry_is_merged_ && ((prefix_extractor_ != nullptr && !total_order_seek_) || !iter_->Valid())) { IterKey last_key; // Using kMaxSequenceNumber and kValueTypeForSeek // (not kValueTypeForSeekForPrev) to seek to a key strictly smaller // than saved_key_. last_key.SetInternalKey(ParsedInternalKey( saved_key_.GetUserKey(), kMaxSequenceNumber, kValueTypeForSeek)); if (prefix_extractor_ != nullptr && !total_order_seek_) { iter_->SeekForPrev(last_key.GetInternalKey()); } else { // Some iterators may not support SeekForPrev(), so we avoid using it // when prefix seek mode is disabled. This is somewhat expensive // (an extra Prev(), as well as an extra change of direction of iter_), // so we may need to reconsider it later. iter_->Seek(last_key.GetInternalKey()); if (!iter_->Valid() && iter_->status().ok()) { iter_->SeekToLast(); } } } direction_ = kReverse; return FindUserKeyBeforeSavedKey(); } void DBIter::PrevInternal() { while (iter_->Valid()) { saved_key_.SetUserKey( ExtractUserKey(iter_->key()), !iter_->IsKeyPinned() || !pin_thru_lifetime_ /* copy */); if (prefix_extractor_ && prefix_same_as_start_ && prefix_extractor_->Transform(saved_key_.GetUserKey()) .compare(prefix_start_key_) != 0) { // Current key does not have the same prefix as start valid_ = false; return; } if (iterate_lower_bound_ != nullptr && user_comparator_->Compare(saved_key_.GetUserKey(), *iterate_lower_bound_) < 0) { // We've iterated earlier than the user-specified lower bound. valid_ = false; return; } if (!FindValueForCurrentKey()) { // assigns valid_ return; } // Whether or not we found a value for current key, we need iter_ to end up // on a smaller key. if (!FindUserKeyBeforeSavedKey()) { return; } if (valid_) { // Found the value. return; } if (TooManyInternalKeysSkipped(false)) { return; } } // We haven't found any key - iterator is not valid valid_ = false; } // Used for backwards iteration. // Looks at the entries with user key saved_key_ and finds the most up-to-date // value for it, or executes a merge, or determines that the value was deleted. // Sets valid_ to true if the value is found and is ready to be presented to // the user through value(). // Sets valid_ to false if the value was deleted, and we should try another key. // Returns false if an error occurred, and !status().ok() and !valid_. // // PRE: iter_ is positioned on the last entry with user key equal to saved_key_. // POST: iter_ is positioned on one of the entries equal to saved_key_, or on // the entry just before them, or on the entry just after them. bool DBIter::FindValueForCurrentKey() { assert(iter_->Valid()); merge_context_.Clear(); current_entry_is_merged_ = false; // last entry before merge (could be kTypeDeletion, kTypeSingleDeletion or // kTypeValue) ValueType last_not_merge_type = kTypeDeletion; ValueType last_key_entry_type = kTypeDeletion; // Temporarily pin blocks that hold (merge operands / the value) ReleaseTempPinnedData(); TempPinData(); size_t num_skipped = 0; while (iter_->Valid()) { ParsedInternalKey ikey; if (!ParseKey(&ikey)) { return false; } if (!IsVisible(ikey.sequence) || !user_comparator_->Equal(ikey.user_key, saved_key_.GetUserKey())) { break; } if (TooManyInternalKeysSkipped()) { return false; } // This user key has lots of entries. // We're going from old to new, and it's taking too long. Let's do a Seek() // and go from new to old. This helps when a key was overwritten many times. if (num_skipped >= max_skip_ && CanReseekToSkip()) { return FindValueForCurrentKeyUsingSeek(); } last_key_entry_type = ikey.type; switch (last_key_entry_type) { case kTypeValue: case kTypeBlobIndex: if (range_del_agg_.ShouldDelete( ikey, RangeDelPositioningMode::kBackwardTraversal)) { last_key_entry_type = kTypeRangeDeletion; PERF_COUNTER_ADD(internal_delete_skipped_count, 1); } else { assert(iter_->IsValuePinned()); pinned_value_ = iter_->value(); } merge_context_.Clear(); last_not_merge_type = last_key_entry_type; break; case kTypeDeletion: case kTypeSingleDeletion: merge_context_.Clear(); last_not_merge_type = last_key_entry_type; PERF_COUNTER_ADD(internal_delete_skipped_count, 1); break; case kTypeMerge: if (range_del_agg_.ShouldDelete( ikey, RangeDelPositioningMode::kBackwardTraversal)) { merge_context_.Clear(); last_key_entry_type = kTypeRangeDeletion; last_not_merge_type = last_key_entry_type; PERF_COUNTER_ADD(internal_delete_skipped_count, 1); } else { assert(merge_operator_ != nullptr); merge_context_.PushOperandBack( iter_->value(), iter_->IsValuePinned() /* operand_pinned */); PERF_COUNTER_ADD(internal_merge_count, 1); } break; default: assert(false); } PERF_COUNTER_ADD(internal_key_skipped_count, 1); iter_->Prev(); ++num_skipped; } if (!iter_->status().ok()) { valid_ = false; return false; } Status s; is_blob_ = false; switch (last_key_entry_type) { case kTypeDeletion: case kTypeSingleDeletion: case kTypeRangeDeletion: valid_ = false; return true; case kTypeMerge: current_entry_is_merged_ = true; if (last_not_merge_type == kTypeDeletion || last_not_merge_type == kTypeSingleDeletion || last_not_merge_type == kTypeRangeDeletion) { s = MergeHelper::TimedFullMerge( merge_operator_, saved_key_.GetUserKey(), nullptr, merge_context_.GetOperands(), &saved_value_, logger_, statistics_, env_, &pinned_value_, true); } else if (last_not_merge_type == kTypeBlobIndex) { if (!allow_blob_) { ROCKS_LOG_ERROR(logger_, "Encounter unexpected blob index."); status_ = Status::NotSupported( "Encounter unexpected blob index. Please open DB with " "rocksdb::blob_db::BlobDB instead."); } else { status_ = Status::NotSupported("Blob DB does not support merge operator."); } valid_ = false; return false; } else { assert(last_not_merge_type == kTypeValue); s = MergeHelper::TimedFullMerge( merge_operator_, saved_key_.GetUserKey(), &pinned_value_, merge_context_.GetOperands(), &saved_value_, logger_, statistics_, env_, &pinned_value_, true); } break; case kTypeValue: // do nothing - we've already has value in pinned_value_ break; case kTypeBlobIndex: if (!allow_blob_) { ROCKS_LOG_ERROR(logger_, "Encounter unexpected blob index."); status_ = Status::NotSupported( "Encounter unexpected blob index. Please open DB with " "rocksdb::blob_db::BlobDB instead."); valid_ = false; return false; } is_blob_ = true; break; default: assert(false); break; } if (!s.ok()) { valid_ = false; status_ = s; return false; } valid_ = true; return true; } // This function is used in FindValueForCurrentKey. // We use Seek() function instead of Prev() to find necessary value // TODO: This is very similar to FindNextUserEntry() and MergeValuesNewToOld(). // Would be nice to reuse some code. bool DBIter::FindValueForCurrentKeyUsingSeek() { // FindValueForCurrentKey will enable pinning before calling // FindValueForCurrentKeyUsingSeek() assert(pinned_iters_mgr_.PinningEnabled()); std::string last_key; AppendInternalKey(&last_key, ParsedInternalKey(saved_key_.GetUserKey(), sequence_, kValueTypeForSeek)); iter_->Seek(last_key); RecordTick(statistics_, NUMBER_OF_RESEEKS_IN_ITERATION); // In case read_callback presents, the value we seek to may not be visible. // Find the next value that's visible. ParsedInternalKey ikey; while (true) { if (!iter_->Valid()) { valid_ = false; return iter_->status().ok(); } if (!ParseKey(&ikey)) { return false; } if (!user_comparator_->Equal(ikey.user_key, saved_key_.GetUserKey())) { // No visible values for this key, even though FindValueForCurrentKey() // has seen some. This is possible if we're using a tailing iterator, and // the entries were discarded in a compaction. valid_ = false; return true; } if (IsVisible(ikey.sequence)) { break; } iter_->Next(); } if (ikey.type == kTypeDeletion || ikey.type == kTypeSingleDeletion || range_del_agg_.ShouldDelete( ikey, RangeDelPositioningMode::kBackwardTraversal)) { valid_ = false; return true; } if (ikey.type == kTypeBlobIndex && !allow_blob_) { ROCKS_LOG_ERROR(logger_, "Encounter unexpected blob index."); status_ = Status::NotSupported( "Encounter unexpected blob index. Please open DB with " "rocksdb::blob_db::BlobDB instead."); valid_ = false; return false; } if (ikey.type == kTypeValue || ikey.type == kTypeBlobIndex) { assert(iter_->IsValuePinned()); pinned_value_ = iter_->value(); valid_ = true; return true; } // kTypeMerge. We need to collect all kTypeMerge values and save them // in operands assert(ikey.type == kTypeMerge); current_entry_is_merged_ = true; merge_context_.Clear(); merge_context_.PushOperand(iter_->value(), iter_->IsValuePinned() /* operand_pinned */); while (true) { iter_->Next(); if (!iter_->Valid()) { if (!iter_->status().ok()) { valid_ = false; return false; } break; } if (!ParseKey(&ikey)) { return false; } if (!user_comparator_->Equal(ikey.user_key, saved_key_.GetUserKey())) { break; } if (ikey.type == kTypeDeletion || ikey.type == kTypeSingleDeletion || range_del_agg_.ShouldDelete( ikey, RangeDelPositioningMode::kBackwardTraversal)) { break; } else if (ikey.type == kTypeValue) { const Slice val = iter_->value(); Status s = MergeHelper::TimedFullMerge( merge_operator_, saved_key_.GetUserKey(), &val, merge_context_.GetOperands(), &saved_value_, logger_, statistics_, env_, &pinned_value_, true); if (!s.ok()) { valid_ = false; status_ = s; return false; } valid_ = true; return true; } else if (ikey.type == kTypeMerge) { merge_context_.PushOperand(iter_->value(), iter_->IsValuePinned() /* operand_pinned */); PERF_COUNTER_ADD(internal_merge_count, 1); } else if (ikey.type == kTypeBlobIndex) { if (!allow_blob_) { ROCKS_LOG_ERROR(logger_, "Encounter unexpected blob index."); status_ = Status::NotSupported( "Encounter unexpected blob index. Please open DB with " "rocksdb::blob_db::BlobDB instead."); } else { status_ = Status::NotSupported("Blob DB does not support merge operator."); } valid_ = false; return false; } else { assert(false); } } Status s = MergeHelper::TimedFullMerge( merge_operator_, saved_key_.GetUserKey(), nullptr, merge_context_.GetOperands(), &saved_value_, logger_, statistics_, env_, &pinned_value_, true); if (!s.ok()) { valid_ = false; status_ = s; return false; } // Make sure we leave iter_ in a good state. If it's valid and we don't care // about prefixes, that's already good enough. Otherwise it needs to be // seeked to the current key. if ((prefix_extractor_ != nullptr && !total_order_seek_) || !iter_->Valid()) { if (prefix_extractor_ != nullptr && !total_order_seek_) { iter_->SeekForPrev(last_key); } else { iter_->Seek(last_key); if (!iter_->Valid() && iter_->status().ok()) { iter_->SeekToLast(); } } RecordTick(statistics_, NUMBER_OF_RESEEKS_IN_ITERATION); } valid_ = true; return true; } // Move backwards until the key smaller than saved_key_. // Changes valid_ only if return value is false. bool DBIter::FindUserKeyBeforeSavedKey() { assert(status_.ok()); size_t num_skipped = 0; while (iter_->Valid()) { ParsedInternalKey ikey; if (!ParseKey(&ikey)) { return false; } if (user_comparator_->Compare(ikey.user_key, saved_key_.GetUserKey()) < 0) { return true; } if (TooManyInternalKeysSkipped()) { return false; } assert(ikey.sequence != kMaxSequenceNumber); if (!IsVisible(ikey.sequence)) { PERF_COUNTER_ADD(internal_recent_skipped_count, 1); } else { PERF_COUNTER_ADD(internal_key_skipped_count, 1); } if (num_skipped >= max_skip_ && CanReseekToSkip()) { num_skipped = 0; IterKey last_key; last_key.SetInternalKey(ParsedInternalKey( saved_key_.GetUserKey(), kMaxSequenceNumber, kValueTypeForSeek)); // It would be more efficient to use SeekForPrev() here, but some // iterators may not support it. iter_->Seek(last_key.GetInternalKey()); RecordTick(statistics_, NUMBER_OF_RESEEKS_IN_ITERATION); if (!iter_->Valid()) { break; } } else { ++num_skipped; } iter_->Prev(); } if (!iter_->status().ok()) { valid_ = false; return false; } return true; } bool DBIter::TooManyInternalKeysSkipped(bool increment) { if ((max_skippable_internal_keys_ > 0) && (num_internal_keys_skipped_ > max_skippable_internal_keys_)) { valid_ = false; status_ = Status::Incomplete("Too many internal keys skipped."); return true; } else if (increment) { num_internal_keys_skipped_++; } return false; } bool DBIter::IsVisible(SequenceNumber sequence) { return sequence <= MaxVisibleSequenceNumber() && (read_callback_ == nullptr || read_callback_->IsVisible(sequence)); } bool DBIter::CanReseekToSkip() { return read_callback_ == nullptr || read_callback_->MaxUnpreparedSequenceNumber() == 0; } SequenceNumber DBIter::MaxVisibleSequenceNumber() { if (read_callback_ == nullptr) { return sequence_; } return std::max(sequence_, read_callback_->MaxUnpreparedSequenceNumber()); } void DBIter::Seek(const Slice& target) { StopWatch sw(env_, statistics_, DB_SEEK); status_ = Status::OK(); ReleaseTempPinnedData(); ResetInternalKeysSkippedCounter(); SequenceNumber seq = MaxVisibleSequenceNumber(); saved_key_.Clear(); saved_key_.SetInternalKey(target, seq); #ifndef ROCKSDB_LITE if (db_impl_ != nullptr && cfd_ != nullptr) { db_impl_->TraceIteratorSeek(cfd_->GetID(), target); } #endif // ROCKSDB_LITE if (iterate_lower_bound_ != nullptr && user_comparator_->Compare(saved_key_.GetUserKey(), *iterate_lower_bound_) < 0) { saved_key_.Clear(); saved_key_.SetInternalKey(*iterate_lower_bound_, seq); } { PERF_TIMER_GUARD(seek_internal_seek_time); iter_->Seek(saved_key_.GetInternalKey()); range_del_agg_.InvalidateRangeDelMapPositions(); } RecordTick(statistics_, NUMBER_DB_SEEK); if (iter_->Valid()) { if (prefix_extractor_ && prefix_same_as_start_) { prefix_start_key_ = prefix_extractor_->Transform(target); } direction_ = kForward; ClearSavedValue(); FindNextUserEntry(false /* not skipping */, prefix_same_as_start_); if (!valid_) { prefix_start_key_.clear(); } if (statistics_ != nullptr) { if (valid_) { // Decrement since we don't want to count this key as skipped RecordTick(statistics_, NUMBER_DB_SEEK_FOUND); RecordTick(statistics_, ITER_BYTES_READ, key().size() + value().size()); PERF_COUNTER_ADD(iter_read_bytes, key().size() + value().size()); } } } else { valid_ = false; } if (valid_ && prefix_extractor_ && prefix_same_as_start_) { prefix_start_buf_.SetUserKey(prefix_start_key_); prefix_start_key_ = prefix_start_buf_.GetUserKey(); } } void DBIter::SeekForPrev(const Slice& target) { StopWatch sw(env_, statistics_, DB_SEEK); status_ = Status::OK(); ReleaseTempPinnedData(); ResetInternalKeysSkippedCounter(); saved_key_.Clear(); // now saved_key is used to store internal key. saved_key_.SetInternalKey(target, 0 /* sequence_number */, kValueTypeForSeekForPrev); if (iterate_upper_bound_ != nullptr && user_comparator_->Compare(saved_key_.GetUserKey(), *iterate_upper_bound_) >= 0) { saved_key_.Clear(); saved_key_.SetInternalKey(*iterate_upper_bound_, kMaxSequenceNumber); } { PERF_TIMER_GUARD(seek_internal_seek_time); iter_->SeekForPrev(saved_key_.GetInternalKey()); range_del_agg_.InvalidateRangeDelMapPositions(); } #ifndef ROCKSDB_LITE if (db_impl_ != nullptr && cfd_ != nullptr) { db_impl_->TraceIteratorSeekForPrev(cfd_->GetID(), target); } #endif // ROCKSDB_LITE RecordTick(statistics_, NUMBER_DB_SEEK); if (iter_->Valid()) { if (prefix_extractor_ && prefix_same_as_start_) { prefix_start_key_ = prefix_extractor_->Transform(target); } direction_ = kReverse; ClearSavedValue(); PrevInternal(); if (!valid_) { prefix_start_key_.clear(); } if (statistics_ != nullptr) { if (valid_) { RecordTick(statistics_, NUMBER_DB_SEEK_FOUND); RecordTick(statistics_, ITER_BYTES_READ, key().size() + value().size()); PERF_COUNTER_ADD(iter_read_bytes, key().size() + value().size()); } } } else { valid_ = false; } if (valid_ && prefix_extractor_ && prefix_same_as_start_) { prefix_start_buf_.SetUserKey(prefix_start_key_); prefix_start_key_ = prefix_start_buf_.GetUserKey(); } } void DBIter::SeekToFirst() { if (iterate_lower_bound_ != nullptr) { Seek(*iterate_lower_bound_); return; } // Don't use iter_::Seek() if we set a prefix extractor // because prefix seek will be used. if (prefix_extractor_ != nullptr && !total_order_seek_) { max_skip_ = std::numeric_limits::max(); } status_ = Status::OK(); direction_ = kForward; ReleaseTempPinnedData(); ResetInternalKeysSkippedCounter(); ClearSavedValue(); { PERF_TIMER_GUARD(seek_internal_seek_time); iter_->SeekToFirst(); range_del_agg_.InvalidateRangeDelMapPositions(); } RecordTick(statistics_, NUMBER_DB_SEEK); if (iter_->Valid()) { saved_key_.SetUserKey( ExtractUserKey(iter_->key()), !iter_->IsKeyPinned() || !pin_thru_lifetime_ /* copy */); FindNextUserEntry(false /* not skipping */, false /* no prefix check */); if (statistics_ != nullptr) { if (valid_) { RecordTick(statistics_, NUMBER_DB_SEEK_FOUND); RecordTick(statistics_, ITER_BYTES_READ, key().size() + value().size()); PERF_COUNTER_ADD(iter_read_bytes, key().size() + value().size()); } } } else { valid_ = false; } if (valid_ && prefix_extractor_ && prefix_same_as_start_) { prefix_start_buf_.SetUserKey( prefix_extractor_->Transform(saved_key_.GetUserKey())); prefix_start_key_ = prefix_start_buf_.GetUserKey(); } } void DBIter::SeekToLast() { if (iterate_upper_bound_ != nullptr) { // Seek to last key strictly less than ReadOptions.iterate_upper_bound. SeekForPrev(*iterate_upper_bound_); if (Valid() && user_comparator_->Equal(*iterate_upper_bound_, key())) { ReleaseTempPinnedData(); PrevInternal(); } return; } // Don't use iter_::Seek() if we set a prefix extractor // because prefix seek will be used. if (prefix_extractor_ != nullptr && !total_order_seek_) { max_skip_ = std::numeric_limits::max(); } status_ = Status::OK(); direction_ = kReverse; ReleaseTempPinnedData(); ResetInternalKeysSkippedCounter(); ClearSavedValue(); { PERF_TIMER_GUARD(seek_internal_seek_time); iter_->SeekToLast(); range_del_agg_.InvalidateRangeDelMapPositions(); } PrevInternal(); if (statistics_ != nullptr) { RecordTick(statistics_, NUMBER_DB_SEEK); if (valid_) { RecordTick(statistics_, NUMBER_DB_SEEK_FOUND); RecordTick(statistics_, ITER_BYTES_READ, key().size() + value().size()); PERF_COUNTER_ADD(iter_read_bytes, key().size() + value().size()); } } if (valid_ && prefix_extractor_ && prefix_same_as_start_) { prefix_start_buf_.SetUserKey( prefix_extractor_->Transform(saved_key_.GetUserKey())); prefix_start_key_ = prefix_start_buf_.GetUserKey(); } } Iterator* NewDBIterator(Env* env, const ReadOptions& read_options, const ImmutableCFOptions& cf_options, const MutableCFOptions& mutable_cf_options, const Comparator* user_key_comparator, InternalIterator* internal_iter, const SequenceNumber& sequence, uint64_t max_sequential_skip_in_iterations, ReadCallback* read_callback, DBImpl* db_impl, ColumnFamilyData* cfd, bool allow_blob) { DBIter* db_iter = new DBIter( env, read_options, cf_options, mutable_cf_options, user_key_comparator, internal_iter, sequence, false, max_sequential_skip_in_iterations, read_callback, db_impl, cfd, allow_blob); return db_iter; } ArenaWrappedDBIter::~ArenaWrappedDBIter() { db_iter_->~DBIter(); } RangeDelAggregator* ArenaWrappedDBIter::GetRangeDelAggregator() { return db_iter_->GetRangeDelAggregator(); } void ArenaWrappedDBIter::SetIterUnderDBIter(InternalIterator* iter) { static_cast(db_iter_)->SetIter(iter); } inline bool ArenaWrappedDBIter::Valid() const { return db_iter_->Valid(); } inline void ArenaWrappedDBIter::SeekToFirst() { db_iter_->SeekToFirst(); } inline void ArenaWrappedDBIter::SeekToLast() { db_iter_->SeekToLast(); } inline void ArenaWrappedDBIter::Seek(const Slice& target) { db_iter_->Seek(target); } inline void ArenaWrappedDBIter::SeekForPrev(const Slice& target) { db_iter_->SeekForPrev(target); } inline void ArenaWrappedDBIter::Next() { db_iter_->Next(); } inline void ArenaWrappedDBIter::Prev() { db_iter_->Prev(); } inline Slice ArenaWrappedDBIter::key() const { return db_iter_->key(); } inline Slice ArenaWrappedDBIter::value() const { return db_iter_->value(); } inline Status ArenaWrappedDBIter::status() const { return db_iter_->status(); } bool ArenaWrappedDBIter::IsBlob() const { return db_iter_->IsBlob(); } inline Status ArenaWrappedDBIter::GetProperty(std::string prop_name, std::string* prop) { if (prop_name == "rocksdb.iterator.super-version-number") { // First try to pass the value returned from inner iterator. if (!db_iter_->GetProperty(prop_name, prop).ok()) { *prop = ToString(sv_number_); } return Status::OK(); } return db_iter_->GetProperty(prop_name, prop); } void ArenaWrappedDBIter::Init(Env* env, const ReadOptions& read_options, const ImmutableCFOptions& cf_options, const MutableCFOptions& mutable_cf_options, const SequenceNumber& sequence, uint64_t max_sequential_skip_in_iteration, uint64_t version_number, ReadCallback* read_callback, DBImpl* db_impl, ColumnFamilyData* cfd, bool allow_blob, bool allow_refresh) { auto mem = arena_.AllocateAligned(sizeof(DBIter)); db_iter_ = new (mem) DBIter(env, read_options, cf_options, mutable_cf_options, cf_options.user_comparator, nullptr, sequence, true, max_sequential_skip_in_iteration, read_callback, db_impl, cfd, allow_blob); sv_number_ = version_number; allow_refresh_ = allow_refresh; } Status ArenaWrappedDBIter::Refresh() { if (cfd_ == nullptr || db_impl_ == nullptr || !allow_refresh_) { return Status::NotSupported("Creating renew iterator is not allowed."); } assert(db_iter_ != nullptr); // TODO(yiwu): For last_seq_same_as_publish_seq_==false, this is not the // correct behavior. Will be corrected automatically when we take a snapshot // here for the case of WritePreparedTxnDB. SequenceNumber latest_seq = db_impl_->GetLatestSequenceNumber(); uint64_t cur_sv_number = cfd_->GetSuperVersionNumber(); if (sv_number_ != cur_sv_number) { Env* env = db_iter_->env(); db_iter_->~DBIter(); arena_.~Arena(); new (&arena_) Arena(); SuperVersion* sv = cfd_->GetReferencedSuperVersion(db_impl_->mutex()); Init(env, read_options_, *(cfd_->ioptions()), sv->mutable_cf_options, latest_seq, sv->mutable_cf_options.max_sequential_skip_in_iterations, cur_sv_number, read_callback_, db_impl_, cfd_, allow_blob_, allow_refresh_); InternalIterator* internal_iter = db_impl_->NewInternalIterator( read_options_, cfd_, sv, &arena_, db_iter_->GetRangeDelAggregator()); SetIterUnderDBIter(internal_iter); } else { db_iter_->set_sequence(latest_seq); db_iter_->set_valid(false); } return Status::OK(); } ArenaWrappedDBIter* NewArenaWrappedDbIterator( Env* env, const ReadOptions& read_options, const ImmutableCFOptions& cf_options, const MutableCFOptions& mutable_cf_options, const SequenceNumber& sequence, uint64_t max_sequential_skip_in_iterations, uint64_t version_number, ReadCallback* read_callback, DBImpl* db_impl, ColumnFamilyData* cfd, bool allow_blob, bool allow_refresh) { ArenaWrappedDBIter* iter = new ArenaWrappedDBIter(); iter->Init(env, read_options, cf_options, mutable_cf_options, sequence, max_sequential_skip_in_iterations, version_number, read_callback, db_impl, cfd, allow_blob, allow_refresh); if (db_impl != nullptr && cfd != nullptr && allow_refresh) { iter->StoreRefreshInfo(read_options, db_impl, cfd, read_callback, allow_blob); } return iter; } } // namespace rocksdb rocksdb-5.17.2/db/db_iter.h000066400000000000000000000104541337235545400154220ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #include #include #include "db/db_impl.h" #include "db/dbformat.h" #include "db/range_del_aggregator.h" #include "options/cf_options.h" #include "rocksdb/db.h" #include "rocksdb/iterator.h" #include "util/arena.h" #include "util/autovector.h" namespace rocksdb { class Arena; class DBIter; // Return a new iterator that converts internal keys (yielded by // "*internal_iter") that were live at the specified "sequence" number // into appropriate user keys. extern Iterator* NewDBIterator( Env* env, const ReadOptions& read_options, const ImmutableCFOptions& cf_options, const MutableCFOptions& mutable_cf_options, const Comparator* user_key_comparator, InternalIterator* internal_iter, const SequenceNumber& sequence, uint64_t max_sequential_skip_in_iterations, ReadCallback* read_callback, DBImpl* db_impl = nullptr, ColumnFamilyData* cfd = nullptr, bool allow_blob = false); // A wrapper iterator which wraps DB Iterator and the arena, with which the DB // iterator is supposed be allocated. This class is used as an entry point of // a iterator hierarchy whose memory can be allocated inline. In that way, // accessing the iterator tree can be more cache friendly. It is also faster // to allocate. class ArenaWrappedDBIter : public Iterator { public: virtual ~ArenaWrappedDBIter(); // Get the arena to be used to allocate memory for DBIter to be wrapped, // as well as child iterators in it. virtual Arena* GetArena() { return &arena_; } virtual RangeDelAggregator* GetRangeDelAggregator(); // Set the internal iterator wrapped inside the DB Iterator. Usually it is // a merging iterator. virtual void SetIterUnderDBIter(InternalIterator* iter); virtual bool Valid() const override; virtual void SeekToFirst() override; virtual void SeekToLast() override; virtual void Seek(const Slice& target) override; virtual void SeekForPrev(const Slice& target) override; virtual void Next() override; virtual void Prev() override; virtual Slice key() const override; virtual Slice value() const override; virtual Status status() const override; virtual Status Refresh() override; bool IsBlob() const; virtual Status GetProperty(std::string prop_name, std::string* prop) override; void Init(Env* env, const ReadOptions& read_options, const ImmutableCFOptions& cf_options, const MutableCFOptions& mutable_cf_options, const SequenceNumber& sequence, uint64_t max_sequential_skip_in_iterations, uint64_t version_number, ReadCallback* read_callback, DBImpl* db_impl, ColumnFamilyData* cfd, bool allow_blob, bool allow_refresh); void StoreRefreshInfo(const ReadOptions& read_options, DBImpl* db_impl, ColumnFamilyData* cfd, ReadCallback* read_callback, bool allow_blob) { read_options_ = read_options; db_impl_ = db_impl; cfd_ = cfd; read_callback_ = read_callback; allow_blob_ = allow_blob; } private: DBIter* db_iter_; Arena arena_; uint64_t sv_number_; ColumnFamilyData* cfd_ = nullptr; DBImpl* db_impl_ = nullptr; ReadOptions read_options_; ReadCallback* read_callback_; bool allow_blob_ = false; bool allow_refresh_ = true; }; // Generate the arena wrapped iterator class. // `db_impl` and `cfd` are used for reneweal. If left null, renewal will not // be supported. extern ArenaWrappedDBIter* NewArenaWrappedDbIterator( Env* env, const ReadOptions& read_options, const ImmutableCFOptions& cf_options, const MutableCFOptions& mutable_cf_options, const SequenceNumber& sequence, uint64_t max_sequential_skip_in_iterations, uint64_t version_number, ReadCallback* read_callback, DBImpl* db_impl = nullptr, ColumnFamilyData* cfd = nullptr, bool allow_blob = false, bool allow_refresh = true); } // namespace rocksdb rocksdb-5.17.2/db/db_iter_stress_test.cc000066400000000000000000000516311337235545400202240ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include "db/db_iter.h" #include "db/dbformat.h" #include "rocksdb/comparator.h" #include "rocksdb/options.h" #include "rocksdb/slice.h" #include "util/random.h" #include "util/string_util.h" #include "util/testharness.h" #include "utilities/merge_operators.h" #ifdef GFLAGS #include "util/gflags_compat.h" using GFLAGS_NAMESPACE::ParseCommandLineFlags; DEFINE_bool(verbose, false, "Print huge, detailed trace. Intended for debugging failures."); #else void ParseCommandLineFlags(int*, char***, bool) {} bool FLAGS_verbose = false; #endif namespace rocksdb { class DBIteratorStressTest : public testing::Test { public: Env* env_; DBIteratorStressTest() : env_(Env::Default()) {} }; namespace { struct Entry { std::string key; ValueType type; // kTypeValue, kTypeDeletion, kTypeMerge uint64_t sequence; std::string ikey; // internal key, made from `key`, `sequence` and `type` std::string value; // If false, we'll pretend that this entry doesn't exist. bool visible = true; bool operator<(const Entry& e) const { if (key != e.key) return key < e.key; return std::tie(sequence, type) > std::tie(e.sequence, e.type); } }; struct Data { std::vector entries; // Indices in `entries` with `visible` = false. std::vector hidden; // Keys of entries whose `visible` changed since the last seek of iterators. std::set recently_touched_keys; }; struct StressTestIterator : public InternalIterator { Data* data; Random64* rnd; InternalKeyComparator cmp; // Each operation will return error with this probability... double error_probability = 0; // ... and add/remove entries with this probability. double mutation_probability = 0; // The probability of adding vs removing entries will be chosen so that the // amount of removed entries stays somewhat close to this number. double target_hidden_fraction = 0; // If true, print all mutations to stdout for debugging. bool trace = false; int iter = -1; Status status_; StressTestIterator(Data* _data, Random64* _rnd, const Comparator* _cmp) : data(_data), rnd(_rnd), cmp(_cmp) {} bool Valid() const override { if (iter >= 0 && iter < (int)data->entries.size()) { assert(status_.ok()); return true; } return false; } Status status() const override { return status_; } bool MaybeFail() { if (rnd->Next() >= std::numeric_limits::max() * error_probability) { return false; } if (rnd->Next() % 2) { status_ = Status::Incomplete("test"); } else { status_ = Status::IOError("test"); } if (trace) { std::cout << "injecting " << status_.ToString() << std::endl; } iter = -1; return true; } void MaybeMutate() { if (rnd->Next() >= std::numeric_limits::max() * mutation_probability) { return; } do { // If too many entries are hidden, hide less, otherwise hide more. double hide_probability = data->hidden.size() > data->entries.size() * target_hidden_fraction ? 1. / 3 : 2. / 3; if (data->hidden.empty()) { hide_probability = 1; } bool do_hide = rnd->Next() < std::numeric_limits::max() * hide_probability; if (do_hide) { // Hide a random entry. size_t idx = rnd->Next() % data->entries.size(); Entry& e = data->entries[idx]; if (e.visible) { if (trace) { std::cout << "hiding idx " << idx << std::endl; } e.visible = false; data->hidden.push_back(idx); data->recently_touched_keys.insert(e.key); } else { // Already hidden. Let's go unhide something instead, just because // it's easy and it doesn't really matter what we do. do_hide = false; } } if (!do_hide) { // Unhide a random entry. size_t hi = rnd->Next() % data->hidden.size(); size_t idx = data->hidden[hi]; if (trace) { std::cout << "unhiding idx " << idx << std::endl; } Entry& e = data->entries[idx]; assert(!e.visible); e.visible = true; data->hidden[hi] = data->hidden.back(); data->hidden.pop_back(); data->recently_touched_keys.insert(e.key); } } while (rnd->Next() % 3 != 0); // do 3 mutations on average } void SkipForward() { while (iter < (int)data->entries.size() && !data->entries[iter].visible) { ++iter; } } void SkipBackward() { while (iter >= 0 && !data->entries[iter].visible) { --iter; } } void SeekToFirst() override { if (MaybeFail()) return; MaybeMutate(); status_ = Status::OK(); iter = 0; SkipForward(); } void SeekToLast() override { if (MaybeFail()) return; MaybeMutate(); status_ = Status::OK(); iter = (int)data->entries.size() - 1; SkipBackward(); } void Seek(const Slice& target) override { if (MaybeFail()) return; MaybeMutate(); status_ = Status::OK(); // Binary search. auto it = std::partition_point( data->entries.begin(), data->entries.end(), [&](const Entry& e) { return cmp.Compare(e.ikey, target) < 0; }); iter = (int)(it - data->entries.begin()); SkipForward(); } void SeekForPrev(const Slice& target) override { if (MaybeFail()) return; MaybeMutate(); status_ = Status::OK(); // Binary search. auto it = std::partition_point( data->entries.begin(), data->entries.end(), [&](const Entry& e) { return cmp.Compare(e.ikey, target) <= 0; }); iter = (int)(it - data->entries.begin()); --iter; SkipBackward(); } void Next() override { assert(Valid()); if (MaybeFail()) return; MaybeMutate(); ++iter; SkipForward(); } void Prev() override { assert(Valid()); if (MaybeFail()) return; MaybeMutate(); --iter; SkipBackward(); } Slice key() const override { assert(Valid()); return data->entries[iter].ikey; } Slice value() const override { assert(Valid()); return data->entries[iter].value; } bool IsKeyPinned() const override { return true; } bool IsValuePinned() const override { return true; } }; // A small reimplementation of DBIter, supporting only some of the features, // and doing everything in O(log n). // Skips all keys that are in recently_touched_keys. struct ReferenceIterator { Data* data; uint64_t sequence; // ignore entries with sequence number below this bool valid = false; std::string key; std::string value; ReferenceIterator(Data* _data, uint64_t _sequence) : data(_data), sequence(_sequence) {} bool Valid() const { return valid; } // Finds the first entry with key // greater/less/greater-or-equal/less-or-equal than `key`, depending on // arguments: if `skip`, inequality is strict; if `forward`, it's // greater/greater-or-equal, otherwise less/less-or-equal. // Sets `key` to the result. // If no such key exists, returns false. Doesn't check `visible`. bool FindNextKey(bool skip, bool forward) { valid = false; auto it = std::partition_point(data->entries.begin(), data->entries.end(), [&](const Entry& e) { if (forward != skip) { return e.key < key; } else { return e.key <= key; } }); if (forward) { if (it != data->entries.end()) { key = it->key; return true; } } else { if (it != data->entries.begin()) { --it; key = it->key; return true; } } return false; } bool FindValueForCurrentKey() { if (data->recently_touched_keys.count(key)) { return false; } // Find the first entry for the key. The caller promises that it exists. auto it = std::partition_point(data->entries.begin(), data->entries.end(), [&](const Entry& e) { if (e.key != key) { return e.key < key; } return e.sequence > sequence; }); // Find the first visible entry. for (;; ++it) { if (it == data->entries.end()) { return false; } Entry& e = *it; if (e.key != key) { return false; } assert(e.sequence <= sequence); if (!e.visible) continue; if (e.type == kTypeDeletion) { return false; } if (e.type == kTypeValue) { value = e.value; valid = true; return true; } assert(e.type == kTypeMerge); break; } // Collect merge operands. std::vector operands; for (; it != data->entries.end(); ++it) { Entry& e = *it; if (e.key != key) { break; } assert(e.sequence <= sequence); if (!e.visible) continue; if (e.type == kTypeDeletion) { break; } operands.push_back(e.value); if (e.type == kTypeValue) { break; } } // Do a merge. value = operands.back().ToString(); for (int i = (int)operands.size() - 2; i >= 0; --i) { value.append(","); value.append(operands[i].data(), operands[i].size()); } valid = true; return true; } // Start at `key` and move until we encounter a valid value. // `forward` defines the direction of movement. // If `skip` is true, we're looking for key not equal to `key`. void DoTheThing(bool skip, bool forward) { while (FindNextKey(skip, forward) && !FindValueForCurrentKey()) { skip = true; } } void Seek(const Slice& target) { key = target.ToString(); DoTheThing(false, true); } void SeekForPrev(const Slice& target) { key = target.ToString(); DoTheThing(false, false); } void SeekToFirst() { Seek(""); } void SeekToLast() { key = data->entries.back().key; DoTheThing(false, false); } void Next() { assert(Valid()); DoTheThing(true, true); } void Prev() { assert(Valid()); DoTheThing(true, false); } }; } // namespace // Use an internal iterator that sometimes returns errors and sometimes // adds/removes entries on the fly. Do random operations on a DBIter and // check results. // TODO: can be improved for more coverage: // * Override IsKeyPinned() and IsValuePinned() to actually use // PinnedIteratorManager and check that there's no use-after free. // * Try different combinations of prefix_extractor, total_order_seek, // prefix_same_as_start, iterate_lower_bound, iterate_upper_bound. TEST_F(DBIteratorStressTest, StressTest) { // We use a deterministic RNG, and everything happens in a single thread. Random64 rnd(826909345792864532ll); auto gen_key = [&](int max_key) { assert(max_key > 0); int len = 0; int a = max_key; while (a) { a /= 10; ++len; } std::string s = ToString(rnd.Next() % static_cast(max_key)); s.insert(0, len - (int)s.size(), '0'); return s; }; Options options; options.merge_operator = MergeOperators::CreateFromStringId("stringappend"); ReadOptions ropt; size_t num_matching = 0; size_t num_at_end = 0; size_t num_not_ok = 0; size_t num_recently_removed = 0; // Number of iterations for each combination of parameters // (there are ~250 of those). // Tweak this to change the test run time. // As of the time of writing, the test takes ~4 seconds for value of 5000. const int num_iterations = 5000; // Enable this to print all the operations for debugging. bool trace = FLAGS_verbose; for (int num_entries : {5, 10, 100}) { for (double key_space : {0.1, 1.0, 3.0}) { for (ValueType prevalent_entry_type : {kTypeValue, kTypeDeletion, kTypeMerge}) { for (double error_probability : {0.01, 0.1}) { for (double mutation_probability : {0.01, 0.5}) { for (double target_hidden_fraction : {0.1, 0.5}) { std::string trace_str = "entries: " + ToString(num_entries) + ", key_space: " + ToString(key_space) + ", error_probability: " + ToString(error_probability) + ", mutation_probability: " + ToString(mutation_probability) + ", target_hidden_fraction: " + ToString(target_hidden_fraction); SCOPED_TRACE(trace_str); if (trace) { std::cout << trace_str << std::endl; } // Generate data. Data data; int max_key = (int)(num_entries * key_space) + 1; for (int i = 0; i < num_entries; ++i) { Entry e; e.key = gen_key(max_key); if (rnd.Next() % 10 != 0) { e.type = prevalent_entry_type; } else { const ValueType types[] = {kTypeValue, kTypeDeletion, kTypeMerge}; e.type = types[rnd.Next() % (sizeof(types) / sizeof(types[0]))]; } e.sequence = i; e.value = "v" + ToString(i); ParsedInternalKey internal_key(e.key, e.sequence, e.type); AppendInternalKey(&e.ikey, internal_key); data.entries.push_back(e); } std::sort(data.entries.begin(), data.entries.end()); if (trace) { std::cout << "entries:"; for (size_t i = 0; i < data.entries.size(); ++i) { Entry& e = data.entries[i]; std::cout << "\n idx " << i << ": \"" << e.key << "\": \"" << e.value << "\" seq: " << e.sequence << " type: " << (e.type == kTypeValue ? "val" : e.type == kTypeDeletion ? "del" : "merge"); } std::cout << std::endl; } std::unique_ptr db_iter; std::unique_ptr ref_iter; for (int iteration = 0; iteration < num_iterations; ++iteration) { SCOPED_TRACE(iteration); // Create a new iterator every ~30 operations. if (db_iter == nullptr || rnd.Next() % 30 == 0) { uint64_t sequence = rnd.Next() % (data.entries.size() + 2); ref_iter.reset(new ReferenceIterator(&data, sequence)); if (trace) { std::cout << "new iterator, seq: " << sequence << std::endl; } auto internal_iter = new StressTestIterator(&data, &rnd, BytewiseComparator()); internal_iter->error_probability = error_probability; internal_iter->mutation_probability = mutation_probability; internal_iter->target_hidden_fraction = target_hidden_fraction; internal_iter->trace = trace; db_iter.reset(NewDBIterator( env_, ropt, ImmutableCFOptions(options), MutableCFOptions(options), BytewiseComparator(), internal_iter, sequence, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); } // Do a random operation. It's important to do it on ref_it // later than on db_iter to make sure ref_it sees the correct // recently_touched_keys. std::string old_key; bool forward = rnd.Next() % 2 > 0; // Do Next()/Prev() ~90% of the time. bool seek = !ref_iter->Valid() || rnd.Next() % 10 == 0; if (trace) { std::cout << iteration << ": "; } if (!seek) { assert(db_iter->Valid()); old_key = ref_iter->key; if (trace) { std::cout << (forward ? "Next" : "Prev") << std::endl; } if (forward) { db_iter->Next(); ref_iter->Next(); } else { db_iter->Prev(); ref_iter->Prev(); } } else { data.recently_touched_keys.clear(); // Do SeekToFirst less often than Seek. if (rnd.Next() % 4 == 0) { if (trace) { std::cout << (forward ? "SeekToFirst" : "SeekToLast") << std::endl; } if (forward) { old_key = ""; db_iter->SeekToFirst(); ref_iter->SeekToFirst(); } else { old_key = data.entries.back().key; db_iter->SeekToLast(); ref_iter->SeekToLast(); } } else { old_key = gen_key(max_key); if (trace) { std::cout << (forward ? "Seek" : "SeekForPrev") << " \"" << old_key << '"' << std::endl; } if (forward) { db_iter->Seek(old_key); ref_iter->Seek(old_key); } else { db_iter->SeekForPrev(old_key); ref_iter->SeekForPrev(old_key); } } } // Check the result. if (db_iter->Valid()) { ASSERT_TRUE(db_iter->status().ok()); if (data.recently_touched_keys.count( db_iter->key().ToString())) { // Ended on a key that may have been mutated during the // operation. Reference iterator skips such keys, so we // can't check the exact result. // Check that the key moved in the right direction. if (forward) { if (seek) ASSERT_GE(db_iter->key().ToString(), old_key); else ASSERT_GT(db_iter->key().ToString(), old_key); } else { if (seek) ASSERT_LE(db_iter->key().ToString(), old_key); else ASSERT_LT(db_iter->key().ToString(), old_key); } if (ref_iter->Valid()) { // Check that DBIter didn't miss any non-mutated key. if (forward) { ASSERT_LT(db_iter->key().ToString(), ref_iter->key); } else { ASSERT_GT(db_iter->key().ToString(), ref_iter->key); } } // Tell the next iteration of the loop to reseek the // iterators. ref_iter->valid = false; ++num_recently_removed; } else { ASSERT_TRUE(ref_iter->Valid()); ASSERT_EQ(ref_iter->key, db_iter->key().ToString()); ASSERT_EQ(ref_iter->value, db_iter->value()); ++num_matching; } } else if (db_iter->status().ok()) { ASSERT_FALSE(ref_iter->Valid()); ++num_at_end; } else { // Non-ok status. Nothing to check here. // Tell the next iteration of the loop to reseek the // iterators. ref_iter->valid = false; ++num_not_ok; } } } } } } } } // Check that all cases were hit many times. EXPECT_GT(num_matching, 10000); EXPECT_GT(num_at_end, 10000); EXPECT_GT(num_not_ok, 10000); EXPECT_GT(num_recently_removed, 10000); std::cout << "stats:\n exact matches: " << num_matching << "\n end reached: " << num_at_end << "\n non-ok status: " << num_not_ok << "\n mutated on the fly: " << num_recently_removed << std::endl; } } // namespace rocksdb int main(int argc, char** argv) { ::testing::InitGoogleTest(&argc, argv); ParseCommandLineFlags(&argc, &argv, true); return RUN_ALL_TESTS(); } rocksdb-5.17.2/db/db_iter_test.cc000066400000000000000000003265061337235545400166270ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include #include #include #include #include "db/db_iter.h" #include "db/dbformat.h" #include "rocksdb/comparator.h" #include "rocksdb/options.h" #include "rocksdb/perf_context.h" #include "rocksdb/slice.h" #include "rocksdb/statistics.h" #include "table/iterator_wrapper.h" #include "table/merging_iterator.h" #include "util/string_util.h" #include "util/sync_point.h" #include "util/testharness.h" #include "utilities/merge_operators.h" namespace rocksdb { static uint64_t TestGetTickerCount(const Options& options, Tickers ticker_type) { return options.statistics->getTickerCount(ticker_type); } class TestIterator : public InternalIterator { public: explicit TestIterator(const Comparator* comparator) : initialized_(false), valid_(false), sequence_number_(0), iter_(0), cmp(comparator) { data_.reserve(16); } void AddPut(std::string argkey, std::string argvalue) { Add(argkey, kTypeValue, argvalue); } void AddDeletion(std::string argkey) { Add(argkey, kTypeDeletion, std::string()); } void AddSingleDeletion(std::string argkey) { Add(argkey, kTypeSingleDeletion, std::string()); } void AddMerge(std::string argkey, std::string argvalue) { Add(argkey, kTypeMerge, argvalue); } void Add(std::string argkey, ValueType type, std::string argvalue) { Add(argkey, type, argvalue, sequence_number_++); } void Add(std::string argkey, ValueType type, std::string argvalue, size_t seq_num, bool update_iter = false) { valid_ = true; ParsedInternalKey internal_key(argkey, seq_num, type); data_.push_back( std::pair(std::string(), argvalue)); AppendInternalKey(&data_.back().first, internal_key); if (update_iter && valid_ && cmp.Compare(data_.back().first, key()) < 0) { // insert a key smaller than current key Finish(); // data_[iter_] is not anymore the current element of the iterator. // Increment it to reposition it to the right position. iter_++; } } // should be called before operations with iterator void Finish() { initialized_ = true; std::sort(data_.begin(), data_.end(), [this](std::pair a, std::pair b) { return (cmp.Compare(a.first, b.first) < 0); }); } // Removes the key from the set of keys over which this iterator iterates. // Not to be confused with AddDeletion(). // If the iterator is currently positioned on this key, the deletion will // apply next time the iterator moves. // Used for simulating ForwardIterator updating to a new version that doesn't // have some of the keys (e.g. after compaction with a filter). void Vanish(std::string _key) { if (valid_ && data_[iter_].first == _key) { delete_current_ = true; return; } for (auto it = data_.begin(); it != data_.end(); ++it) { ParsedInternalKey ikey; bool ok __attribute__((__unused__)) = ParseInternalKey(it->first, &ikey); assert(ok); if (ikey.user_key != _key) { continue; } if (valid_ && data_.begin() + iter_ > it) { --iter_; } data_.erase(it); return; } assert(false); } // Number of operations done on this iterator since construction. size_t steps() const { return steps_; } virtual bool Valid() const override { assert(initialized_); return valid_; } virtual void SeekToFirst() override { assert(initialized_); ++steps_; DeleteCurrentIfNeeded(); valid_ = (data_.size() > 0); iter_ = 0; } virtual void SeekToLast() override { assert(initialized_); ++steps_; DeleteCurrentIfNeeded(); valid_ = (data_.size() > 0); iter_ = data_.size() - 1; } virtual void Seek(const Slice& target) override { assert(initialized_); SeekToFirst(); ++steps_; if (!valid_) { return; } while (iter_ < data_.size() && (cmp.Compare(data_[iter_].first, target) < 0)) { ++iter_; } if (iter_ == data_.size()) { valid_ = false; } } virtual void SeekForPrev(const Slice& target) override { assert(initialized_); DeleteCurrentIfNeeded(); SeekForPrevImpl(target, &cmp); } virtual void Next() override { assert(initialized_); assert(valid_); assert(iter_ < data_.size()); ++steps_; if (delete_current_) { DeleteCurrentIfNeeded(); } else { ++iter_; } valid_ = iter_ < data_.size(); } virtual void Prev() override { assert(initialized_); assert(valid_); assert(iter_ < data_.size()); ++steps_; DeleteCurrentIfNeeded(); if (iter_ == 0) { valid_ = false; } else { --iter_; } } virtual Slice key() const override { assert(initialized_); return data_[iter_].first; } virtual Slice value() const override { assert(initialized_); return data_[iter_].second; } virtual Status status() const override { assert(initialized_); return Status::OK(); } virtual bool IsKeyPinned() const override { return true; } virtual bool IsValuePinned() const override { return true; } private: bool initialized_; bool valid_; size_t sequence_number_; size_t iter_; size_t steps_ = 0; InternalKeyComparator cmp; std::vector> data_; bool delete_current_ = false; void DeleteCurrentIfNeeded() { if (!delete_current_) { return; } data_.erase(data_.begin() + iter_); delete_current_ = false; } }; class DBIteratorTest : public testing::Test { public: Env* env_; DBIteratorTest() : env_(Env::Default()) {} }; TEST_F(DBIteratorTest, DBIteratorPrevNext) { Options options; ImmutableCFOptions cf_options = ImmutableCFOptions(options); MutableCFOptions mutable_cf_options = MutableCFOptions(options); { TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddDeletion("a"); internal_iter->AddDeletion("a"); internal_iter->AddDeletion("a"); internal_iter->AddDeletion("a"); internal_iter->AddPut("a", "val_a"); internal_iter->AddPut("b", "val_b"); internal_iter->Finish(); ReadOptions ro; std::unique_ptr db_iter(NewDBIterator( env_, ro, cf_options, mutable_cf_options, BytewiseComparator(), internal_iter, 10, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToLast(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "b"); ASSERT_EQ(db_iter->value().ToString(), "val_b"); db_iter->Prev(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "a"); ASSERT_EQ(db_iter->value().ToString(), "val_a"); db_iter->Next(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "b"); ASSERT_EQ(db_iter->value().ToString(), "val_b"); db_iter->Next(); ASSERT_TRUE(!db_iter->Valid()); } // Test to check the SeekToLast() with iterate_upper_bound not set { TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddPut("a", "val_a"); internal_iter->AddPut("b", "val_b"); internal_iter->AddPut("b", "val_b"); internal_iter->AddPut("c", "val_c"); internal_iter->Finish(); ReadOptions ro; std::unique_ptr db_iter(NewDBIterator( env_, ro, cf_options, mutable_cf_options, BytewiseComparator(), internal_iter, 10, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToLast(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "c"); } // Test to check the SeekToLast() with iterate_upper_bound set { TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddPut("a", "val_a"); internal_iter->AddPut("b", "val_b"); internal_iter->AddPut("c", "val_c"); internal_iter->AddPut("d", "val_d"); internal_iter->AddPut("e", "val_e"); internal_iter->AddPut("f", "val_f"); internal_iter->Finish(); Slice prefix("d"); ReadOptions ro; ro.iterate_upper_bound = &prefix; std::unique_ptr db_iter(NewDBIterator( env_, ro, cf_options, mutable_cf_options, BytewiseComparator(), internal_iter, 10, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToLast(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "c"); db_iter->Next(); ASSERT_TRUE(!db_iter->Valid()); db_iter->SeekToLast(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "c"); } // Test to check the SeekToLast() iterate_upper_bound set to a key that // is not Put yet { TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddPut("a", "val_a"); internal_iter->AddPut("a", "val_a"); internal_iter->AddPut("b", "val_b"); internal_iter->AddPut("c", "val_c"); internal_iter->AddPut("d", "val_d"); internal_iter->Finish(); Slice prefix("z"); ReadOptions ro; ro.iterate_upper_bound = &prefix; std::unique_ptr db_iter(NewDBIterator( env_, ro, cf_options, mutable_cf_options, BytewiseComparator(), internal_iter, 10, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToLast(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "d"); db_iter->Next(); ASSERT_TRUE(!db_iter->Valid()); db_iter->SeekToLast(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "d"); db_iter->Prev(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "c"); } // Test to check the SeekToLast() with iterate_upper_bound set to the // first key { TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddPut("a", "val_a"); internal_iter->AddPut("a", "val_a"); internal_iter->AddPut("a", "val_a"); internal_iter->AddPut("b", "val_b"); internal_iter->AddPut("b", "val_b"); internal_iter->Finish(); Slice prefix("a"); ReadOptions ro; ro.iterate_upper_bound = &prefix; std::unique_ptr db_iter(NewDBIterator( env_, ro, cf_options, mutable_cf_options, BytewiseComparator(), internal_iter, 10, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToLast(); ASSERT_TRUE(!db_iter->Valid()); } // Test case to check SeekToLast with iterate_upper_bound set // (same key put may times - SeekToLast should start with the // maximum sequence id of the upper bound) { TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddPut("a", "val_a"); internal_iter->AddPut("b", "val_b"); internal_iter->AddPut("c", "val_c"); internal_iter->AddPut("c", "val_c"); internal_iter->AddPut("c", "val_c"); internal_iter->AddPut("c", "val_c"); internal_iter->AddPut("c", "val_c"); internal_iter->AddPut("c", "val_c"); internal_iter->AddPut("c", "val_c"); internal_iter->Finish(); Slice prefix("c"); ReadOptions ro; ro.iterate_upper_bound = &prefix; std::unique_ptr db_iter(NewDBIterator( env_, ro, cf_options, mutable_cf_options, BytewiseComparator(), internal_iter, 7, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); SetPerfLevel(kEnableCount); ASSERT_TRUE(GetPerfLevel() == kEnableCount); get_perf_context()->Reset(); db_iter->SeekToLast(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(static_cast(get_perf_context()->internal_key_skipped_count), 1); ASSERT_EQ(db_iter->key().ToString(), "b"); SetPerfLevel(kDisable); } // Test to check the SeekToLast() with the iterate_upper_bound set // (Checking the value of the key which has sequence ids greater than // and less that the iterator's sequence id) { TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddPut("a", "val_a1"); internal_iter->AddPut("a", "val_a2"); internal_iter->AddPut("b", "val_b1"); internal_iter->AddPut("c", "val_c1"); internal_iter->AddPut("c", "val_c2"); internal_iter->AddPut("c", "val_c3"); internal_iter->AddPut("b", "val_b2"); internal_iter->AddPut("d", "val_d1"); internal_iter->Finish(); Slice prefix("c"); ReadOptions ro; ro.iterate_upper_bound = &prefix; std::unique_ptr db_iter(NewDBIterator( env_, ro, cf_options, mutable_cf_options, BytewiseComparator(), internal_iter, 4, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToLast(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "b"); ASSERT_EQ(db_iter->value().ToString(), "val_b1"); } // Test to check the SeekToLast() with the iterate_upper_bound set to the // key that is deleted { TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddPut("a", "val_a"); internal_iter->AddDeletion("a"); internal_iter->AddPut("b", "val_b"); internal_iter->AddPut("c", "val_c"); internal_iter->Finish(); Slice prefix("a"); ReadOptions ro; ro.iterate_upper_bound = &prefix; std::unique_ptr db_iter(NewDBIterator( env_, ro, cf_options, mutable_cf_options, BytewiseComparator(), internal_iter, 10, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToLast(); ASSERT_TRUE(!db_iter->Valid()); } // Test to check the SeekToLast() with the iterate_upper_bound set // (Deletion cases) { TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddPut("a", "val_a"); internal_iter->AddPut("b", "val_b"); internal_iter->AddDeletion("b"); internal_iter->AddPut("c", "val_c"); internal_iter->Finish(); Slice prefix("c"); ReadOptions ro; ro.iterate_upper_bound = &prefix; std::unique_ptr db_iter(NewDBIterator( env_, ro, cf_options, mutable_cf_options, BytewiseComparator(), internal_iter, 10, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToLast(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "a"); db_iter->Next(); ASSERT_TRUE(!db_iter->Valid()); db_iter->SeekToLast(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "a"); } // Test to check the SeekToLast() with iterate_upper_bound set // (Deletion cases - Lot of internal keys after the upper_bound // is deleted) { TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddPut("a", "val_a"); internal_iter->AddPut("b", "val_b"); internal_iter->AddDeletion("c"); internal_iter->AddDeletion("d"); internal_iter->AddDeletion("e"); internal_iter->AddDeletion("f"); internal_iter->AddDeletion("g"); internal_iter->AddDeletion("h"); internal_iter->Finish(); Slice prefix("c"); ReadOptions ro; ro.iterate_upper_bound = &prefix; std::unique_ptr db_iter(NewDBIterator( env_, ro, cf_options, mutable_cf_options, BytewiseComparator(), internal_iter, 7, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); SetPerfLevel(kEnableCount); ASSERT_TRUE(GetPerfLevel() == kEnableCount); get_perf_context()->Reset(); db_iter->SeekToLast(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(static_cast(get_perf_context()->internal_delete_skipped_count), 0); ASSERT_EQ(db_iter->key().ToString(), "b"); SetPerfLevel(kDisable); } { TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddDeletion("a"); internal_iter->AddDeletion("a"); internal_iter->AddDeletion("a"); internal_iter->AddDeletion("a"); internal_iter->AddPut("a", "val_a"); internal_iter->AddPut("b", "val_b"); internal_iter->Finish(); ReadOptions ro; std::unique_ptr db_iter(NewDBIterator( env_, ro, cf_options, mutable_cf_options, BytewiseComparator(), internal_iter, 10, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToFirst(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "a"); ASSERT_EQ(db_iter->value().ToString(), "val_a"); db_iter->Next(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "b"); ASSERT_EQ(db_iter->value().ToString(), "val_b"); db_iter->Prev(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "a"); ASSERT_EQ(db_iter->value().ToString(), "val_a"); db_iter->Prev(); ASSERT_TRUE(!db_iter->Valid()); } { TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddPut("a", "val_a"); internal_iter->AddPut("b", "val_b"); internal_iter->AddPut("a", "val_a"); internal_iter->AddPut("b", "val_b"); internal_iter->AddPut("a", "val_a"); internal_iter->AddPut("b", "val_b"); internal_iter->AddPut("a", "val_a"); internal_iter->AddPut("b", "val_b"); internal_iter->AddPut("a", "val_a"); internal_iter->AddPut("b", "val_b"); internal_iter->Finish(); ReadOptions ro; std::unique_ptr db_iter(NewDBIterator( env_, ro, cf_options, mutable_cf_options, BytewiseComparator(), internal_iter, 2, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToLast(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "b"); ASSERT_EQ(db_iter->value().ToString(), "val_b"); db_iter->Next(); ASSERT_TRUE(!db_iter->Valid()); db_iter->SeekToLast(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "b"); ASSERT_EQ(db_iter->value().ToString(), "val_b"); } { TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddPut("a", "val_a"); internal_iter->AddPut("a", "val_a"); internal_iter->AddPut("a", "val_a"); internal_iter->AddPut("a", "val_a"); internal_iter->AddPut("a", "val_a"); internal_iter->AddPut("b", "val_b"); internal_iter->AddPut("c", "val_c"); internal_iter->Finish(); ReadOptions ro; std::unique_ptr db_iter(NewDBIterator( env_, ro, cf_options, mutable_cf_options, BytewiseComparator(), internal_iter, 10, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToLast(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "c"); ASSERT_EQ(db_iter->value().ToString(), "val_c"); db_iter->Prev(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "b"); ASSERT_EQ(db_iter->value().ToString(), "val_b"); db_iter->Next(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "c"); ASSERT_EQ(db_iter->value().ToString(), "val_c"); } } TEST_F(DBIteratorTest, DBIteratorEmpty) { Options options; ImmutableCFOptions cf_options = ImmutableCFOptions(options); MutableCFOptions mutable_cf_options = MutableCFOptions(options); ReadOptions ro; { TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->Finish(); std::unique_ptr db_iter(NewDBIterator( env_, ro, cf_options, mutable_cf_options, BytewiseComparator(), internal_iter, 0, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToLast(); ASSERT_TRUE(!db_iter->Valid()); } { TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->Finish(); std::unique_ptr db_iter(NewDBIterator( env_, ro, cf_options, mutable_cf_options, BytewiseComparator(), internal_iter, 0, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToFirst(); ASSERT_TRUE(!db_iter->Valid()); } } TEST_F(DBIteratorTest, DBIteratorUseSkipCountSkips) { ReadOptions ro; Options options; options.statistics = rocksdb::CreateDBStatistics(); options.merge_operator = MergeOperators::CreateFromStringId("stringappend"); TestIterator* internal_iter = new TestIterator(BytewiseComparator()); for (size_t i = 0; i < 200; ++i) { internal_iter->AddPut("a", "a"); internal_iter->AddPut("b", "b"); internal_iter->AddPut("c", "c"); } internal_iter->Finish(); std::unique_ptr db_iter(NewDBIterator( env_, ro, ImmutableCFOptions(options), MutableCFOptions(options), BytewiseComparator(), internal_iter, 2, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToLast(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "c"); ASSERT_EQ(db_iter->value().ToString(), "c"); ASSERT_EQ(TestGetTickerCount(options, NUMBER_OF_RESEEKS_IN_ITERATION), 1u); db_iter->Prev(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "b"); ASSERT_EQ(db_iter->value().ToString(), "b"); ASSERT_EQ(TestGetTickerCount(options, NUMBER_OF_RESEEKS_IN_ITERATION), 2u); db_iter->Prev(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "a"); ASSERT_EQ(db_iter->value().ToString(), "a"); ASSERT_EQ(TestGetTickerCount(options, NUMBER_OF_RESEEKS_IN_ITERATION), 3u); db_iter->Prev(); ASSERT_TRUE(!db_iter->Valid()); ASSERT_EQ(TestGetTickerCount(options, NUMBER_OF_RESEEKS_IN_ITERATION), 3u); } TEST_F(DBIteratorTest, DBIteratorUseSkip) { ReadOptions ro; Options options; options.merge_operator = MergeOperators::CreateFromStringId("stringappend"); ImmutableCFOptions cf_options = ImmutableCFOptions(options); MutableCFOptions mutable_cf_options = MutableCFOptions(options); { for (size_t i = 0; i < 200; ++i) { TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddMerge("b", "merge_1"); internal_iter->AddMerge("a", "merge_2"); for (size_t k = 0; k < 200; ++k) { internal_iter->AddPut("c", ToString(k)); } internal_iter->Finish(); options.statistics = rocksdb::CreateDBStatistics(); std::unique_ptr db_iter(NewDBIterator( env_, ro, cf_options, mutable_cf_options, BytewiseComparator(), internal_iter, i + 2, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToLast(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "c"); ASSERT_EQ(db_iter->value().ToString(), ToString(i)); db_iter->Prev(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "b"); ASSERT_EQ(db_iter->value().ToString(), "merge_1"); db_iter->Prev(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "a"); ASSERT_EQ(db_iter->value().ToString(), "merge_2"); db_iter->Prev(); ASSERT_TRUE(!db_iter->Valid()); } } { for (size_t i = 0; i < 200; ++i) { TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddMerge("b", "merge_1"); internal_iter->AddMerge("a", "merge_2"); for (size_t k = 0; k < 200; ++k) { internal_iter->AddDeletion("c"); } internal_iter->AddPut("c", "200"); internal_iter->Finish(); std::unique_ptr db_iter(NewDBIterator( env_, ro, cf_options, mutable_cf_options, BytewiseComparator(), internal_iter, i + 2, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToLast(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "b"); ASSERT_EQ(db_iter->value().ToString(), "merge_1"); db_iter->Prev(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "a"); ASSERT_EQ(db_iter->value().ToString(), "merge_2"); db_iter->Prev(); ASSERT_TRUE(!db_iter->Valid()); } { TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddMerge("b", "merge_1"); internal_iter->AddMerge("a", "merge_2"); for (size_t i = 0; i < 200; ++i) { internal_iter->AddDeletion("c"); } internal_iter->AddPut("c", "200"); internal_iter->Finish(); std::unique_ptr db_iter(NewDBIterator( env_, ro, cf_options, mutable_cf_options, BytewiseComparator(), internal_iter, 202, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToLast(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "c"); ASSERT_EQ(db_iter->value().ToString(), "200"); db_iter->Prev(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "b"); ASSERT_EQ(db_iter->value().ToString(), "merge_1"); db_iter->Prev(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "a"); ASSERT_EQ(db_iter->value().ToString(), "merge_2"); db_iter->Prev(); ASSERT_TRUE(!db_iter->Valid()); } } { for (size_t i = 0; i < 200; ++i) { TestIterator* internal_iter = new TestIterator(BytewiseComparator()); for (size_t k = 0; k < 200; ++k) { internal_iter->AddDeletion("c"); } internal_iter->AddPut("c", "200"); internal_iter->Finish(); std::unique_ptr db_iter(NewDBIterator( env_, ro, cf_options, mutable_cf_options, BytewiseComparator(), internal_iter, i, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToLast(); ASSERT_TRUE(!db_iter->Valid()); db_iter->SeekToFirst(); ASSERT_TRUE(!db_iter->Valid()); } TestIterator* internal_iter = new TestIterator(BytewiseComparator()); for (size_t i = 0; i < 200; ++i) { internal_iter->AddDeletion("c"); } internal_iter->AddPut("c", "200"); internal_iter->Finish(); std::unique_ptr db_iter(NewDBIterator( env_, ro, cf_options, mutable_cf_options, BytewiseComparator(), internal_iter, 200, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToLast(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "c"); ASSERT_EQ(db_iter->value().ToString(), "200"); db_iter->Prev(); ASSERT_TRUE(!db_iter->Valid()); db_iter->SeekToFirst(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "c"); ASSERT_EQ(db_iter->value().ToString(), "200"); db_iter->Next(); ASSERT_TRUE(!db_iter->Valid()); } { for (size_t i = 0; i < 200; ++i) { TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddMerge("b", "merge_1"); internal_iter->AddMerge("a", "merge_2"); for (size_t k = 0; k < 200; ++k) { internal_iter->AddPut("d", ToString(k)); } for (size_t k = 0; k < 200; ++k) { internal_iter->AddPut("c", ToString(k)); } internal_iter->Finish(); std::unique_ptr db_iter(NewDBIterator( env_, ro, cf_options, mutable_cf_options, BytewiseComparator(), internal_iter, i + 2, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToLast(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "d"); ASSERT_EQ(db_iter->value().ToString(), ToString(i)); db_iter->Prev(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "b"); ASSERT_EQ(db_iter->value().ToString(), "merge_1"); db_iter->Prev(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "a"); ASSERT_EQ(db_iter->value().ToString(), "merge_2"); db_iter->Prev(); ASSERT_TRUE(!db_iter->Valid()); } } { for (size_t i = 0; i < 200; ++i) { TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddMerge("b", "b"); internal_iter->AddMerge("a", "a"); for (size_t k = 0; k < 200; ++k) { internal_iter->AddMerge("c", ToString(k)); } internal_iter->Finish(); std::unique_ptr db_iter(NewDBIterator( env_, ro, cf_options, mutable_cf_options, BytewiseComparator(), internal_iter, i + 2, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToLast(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "c"); std::string merge_result = "0"; for (size_t j = 1; j <= i; ++j) { merge_result += "," + ToString(j); } ASSERT_EQ(db_iter->value().ToString(), merge_result); db_iter->Prev(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "b"); ASSERT_EQ(db_iter->value().ToString(), "b"); db_iter->Prev(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "a"); ASSERT_EQ(db_iter->value().ToString(), "a"); db_iter->Prev(); ASSERT_TRUE(!db_iter->Valid()); } } } TEST_F(DBIteratorTest, DBIteratorSkipInternalKeys) { Options options; ImmutableCFOptions cf_options = ImmutableCFOptions(options); MutableCFOptions mutable_cf_options = MutableCFOptions(options); ReadOptions ro; // Basic test case ... Make sure explicityly passing the default value works. // Skipping internal keys is disabled by default, when the value is 0. { TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddPut("a", "val_a"); internal_iter->AddDeletion("b"); internal_iter->AddDeletion("b"); internal_iter->AddPut("c", "val_c"); internal_iter->AddPut("c", "val_c"); internal_iter->AddDeletion("c"); internal_iter->AddPut("d", "val_d"); internal_iter->Finish(); ro.max_skippable_internal_keys = 0; std::unique_ptr db_iter(NewDBIterator( env_, ro, cf_options, mutable_cf_options, BytewiseComparator(), internal_iter, 10, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToFirst(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "a"); ASSERT_EQ(db_iter->value().ToString(), "val_a"); db_iter->Next(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "d"); ASSERT_EQ(db_iter->value().ToString(), "val_d"); db_iter->Next(); ASSERT_TRUE(!db_iter->Valid()); ASSERT_TRUE(db_iter->status().ok()); db_iter->SeekToLast(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "d"); ASSERT_EQ(db_iter->value().ToString(), "val_d"); db_iter->Prev(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "a"); ASSERT_EQ(db_iter->value().ToString(), "val_a"); db_iter->Prev(); ASSERT_TRUE(!db_iter->Valid()); ASSERT_TRUE(db_iter->status().ok()); } // Test to make sure that the request will *not* fail as incomplete if // num_internal_keys_skipped is *equal* to max_skippable_internal_keys // threshold. (It will fail as incomplete only when the threshold is // exceeded.) { TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddPut("a", "val_a"); internal_iter->AddDeletion("b"); internal_iter->AddDeletion("b"); internal_iter->AddPut("c", "val_c"); internal_iter->Finish(); ro.max_skippable_internal_keys = 2; std::unique_ptr db_iter(NewDBIterator( env_, ro, cf_options, mutable_cf_options, BytewiseComparator(), internal_iter, 10, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToFirst(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "a"); ASSERT_EQ(db_iter->value().ToString(), "val_a"); db_iter->Next(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "c"); ASSERT_EQ(db_iter->value().ToString(), "val_c"); db_iter->Next(); ASSERT_TRUE(!db_iter->Valid()); ASSERT_TRUE(db_iter->status().ok()); db_iter->SeekToLast(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "c"); ASSERT_EQ(db_iter->value().ToString(), "val_c"); db_iter->Prev(); ASSERT_EQ(db_iter->key().ToString(), "a"); ASSERT_EQ(db_iter->value().ToString(), "val_a"); db_iter->Prev(); ASSERT_TRUE(!db_iter->Valid()); ASSERT_TRUE(db_iter->status().ok()); } // Fail the request as incomplete when num_internal_keys_skipped > // max_skippable_internal_keys { TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddPut("a", "val_a"); internal_iter->AddDeletion("b"); internal_iter->AddDeletion("b"); internal_iter->AddDeletion("b"); internal_iter->AddPut("c", "val_c"); internal_iter->Finish(); ro.max_skippable_internal_keys = 2; std::unique_ptr db_iter(NewDBIterator( env_, ro, cf_options, mutable_cf_options, BytewiseComparator(), internal_iter, 10, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToFirst(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "a"); ASSERT_EQ(db_iter->value().ToString(), "val_a"); db_iter->Next(); ASSERT_TRUE(!db_iter->Valid()); ASSERT_TRUE(db_iter->status().IsIncomplete()); db_iter->SeekToLast(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "c"); ASSERT_EQ(db_iter->value().ToString(), "val_c"); db_iter->Prev(); ASSERT_TRUE(!db_iter->Valid()); ASSERT_TRUE(db_iter->status().IsIncomplete()); } // Test that the num_internal_keys_skipped counter resets after a successful // read. { TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddPut("a", "val_a"); internal_iter->AddDeletion("b"); internal_iter->AddDeletion("b"); internal_iter->AddPut("c", "val_c"); internal_iter->AddDeletion("d"); internal_iter->AddDeletion("d"); internal_iter->AddDeletion("d"); internal_iter->AddPut("e", "val_e"); internal_iter->Finish(); ro.max_skippable_internal_keys = 2; std::unique_ptr db_iter(NewDBIterator( env_, ro, cf_options, mutable_cf_options, BytewiseComparator(), internal_iter, 10, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToFirst(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "a"); ASSERT_EQ(db_iter->value().ToString(), "val_a"); db_iter->Next(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "c"); ASSERT_EQ(db_iter->value().ToString(), "val_c"); db_iter->Next(); // num_internal_keys_skipped counter resets here. ASSERT_TRUE(!db_iter->Valid()); ASSERT_TRUE(db_iter->status().IsIncomplete()); } // Test that the num_internal_keys_skipped counter resets after a successful // read. // Reverse direction { TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddPut("a", "val_a"); internal_iter->AddDeletion("b"); internal_iter->AddDeletion("b"); internal_iter->AddDeletion("b"); internal_iter->AddPut("c", "val_c"); internal_iter->AddDeletion("d"); internal_iter->AddDeletion("d"); internal_iter->AddPut("e", "val_e"); internal_iter->Finish(); ro.max_skippable_internal_keys = 2; std::unique_ptr db_iter(NewDBIterator( env_, ro, cf_options, mutable_cf_options, BytewiseComparator(), internal_iter, 10, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToLast(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "e"); ASSERT_EQ(db_iter->value().ToString(), "val_e"); db_iter->Prev(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "c"); ASSERT_EQ(db_iter->value().ToString(), "val_c"); db_iter->Prev(); // num_internal_keys_skipped counter resets here. ASSERT_TRUE(!db_iter->Valid()); ASSERT_TRUE(db_iter->status().IsIncomplete()); } // Test that skipping separate keys is handled { TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddPut("a", "val_a"); internal_iter->AddDeletion("b"); internal_iter->AddDeletion("c"); internal_iter->AddDeletion("d"); internal_iter->AddPut("e", "val_e"); internal_iter->Finish(); ro.max_skippable_internal_keys = 2; std::unique_ptr db_iter(NewDBIterator( env_, ro, cf_options, mutable_cf_options, BytewiseComparator(), internal_iter, 10, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToFirst(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "a"); ASSERT_EQ(db_iter->value().ToString(), "val_a"); db_iter->Next(); ASSERT_TRUE(!db_iter->Valid()); ASSERT_TRUE(db_iter->status().IsIncomplete()); db_iter->SeekToLast(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "e"); ASSERT_EQ(db_iter->value().ToString(), "val_e"); db_iter->Prev(); ASSERT_TRUE(!db_iter->Valid()); ASSERT_TRUE(db_iter->status().IsIncomplete()); } // Test if alternating puts and deletes of the same key are handled correctly. { TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddPut("a", "val_a"); internal_iter->AddPut("b", "val_b"); internal_iter->AddDeletion("b"); internal_iter->AddPut("c", "val_c"); internal_iter->AddDeletion("c"); internal_iter->AddPut("d", "val_d"); internal_iter->AddDeletion("d"); internal_iter->AddPut("e", "val_e"); internal_iter->Finish(); ro.max_skippable_internal_keys = 2; std::unique_ptr db_iter(NewDBIterator( env_, ro, cf_options, mutable_cf_options, BytewiseComparator(), internal_iter, 10, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToFirst(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "a"); ASSERT_EQ(db_iter->value().ToString(), "val_a"); db_iter->Next(); ASSERT_TRUE(!db_iter->Valid()); ASSERT_TRUE(db_iter->status().IsIncomplete()); db_iter->SeekToLast(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "e"); ASSERT_EQ(db_iter->value().ToString(), "val_e"); db_iter->Prev(); ASSERT_TRUE(!db_iter->Valid()); ASSERT_TRUE(db_iter->status().IsIncomplete()); } // Test for large number of skippable internal keys with *default* // max_sequential_skip_in_iterations. { for (size_t i = 1; i <= 200; ++i) { TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddPut("a", "val_a"); for (size_t j = 1; j <= i; ++j) { internal_iter->AddPut("b", "val_b"); internal_iter->AddDeletion("b"); } internal_iter->AddPut("c", "val_c"); internal_iter->Finish(); ro.max_skippable_internal_keys = i; std::unique_ptr db_iter(NewDBIterator( env_, ro, cf_options, mutable_cf_options, BytewiseComparator(), internal_iter, 2 * i + 1, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToFirst(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "a"); ASSERT_EQ(db_iter->value().ToString(), "val_a"); db_iter->Next(); if ((options.max_sequential_skip_in_iterations + 1) >= ro.max_skippable_internal_keys) { ASSERT_TRUE(!db_iter->Valid()); ASSERT_TRUE(db_iter->status().IsIncomplete()); } else { ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "c"); ASSERT_EQ(db_iter->value().ToString(), "val_c"); } db_iter->SeekToLast(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "c"); ASSERT_EQ(db_iter->value().ToString(), "val_c"); db_iter->Prev(); if ((options.max_sequential_skip_in_iterations + 1) >= ro.max_skippable_internal_keys) { ASSERT_TRUE(!db_iter->Valid()); ASSERT_TRUE(db_iter->status().IsIncomplete()); } else { ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "a"); ASSERT_EQ(db_iter->value().ToString(), "val_a"); } } } // Test for large number of skippable internal keys with a *non-default* // max_sequential_skip_in_iterations. { for (size_t i = 1; i <= 200; ++i) { TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddPut("a", "val_a"); for (size_t j = 1; j <= i; ++j) { internal_iter->AddPut("b", "val_b"); internal_iter->AddDeletion("b"); } internal_iter->AddPut("c", "val_c"); internal_iter->Finish(); options.max_sequential_skip_in_iterations = 1000; ro.max_skippable_internal_keys = i; std::unique_ptr db_iter(NewDBIterator( env_, ro, cf_options, mutable_cf_options, BytewiseComparator(), internal_iter, 2 * i + 1, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToFirst(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "a"); ASSERT_EQ(db_iter->value().ToString(), "val_a"); db_iter->Next(); ASSERT_TRUE(!db_iter->Valid()); ASSERT_TRUE(db_iter->status().IsIncomplete()); db_iter->SeekToLast(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "c"); ASSERT_EQ(db_iter->value().ToString(), "val_c"); db_iter->Prev(); ASSERT_TRUE(!db_iter->Valid()); ASSERT_TRUE(db_iter->status().IsIncomplete()); } } } TEST_F(DBIteratorTest, DBIterator1) { ReadOptions ro; Options options; options.merge_operator = MergeOperators::CreateFromStringId("stringappend"); TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddPut("a", "0"); internal_iter->AddPut("b", "0"); internal_iter->AddDeletion("b"); internal_iter->AddMerge("a", "1"); internal_iter->AddMerge("b", "2"); internal_iter->Finish(); std::unique_ptr db_iter(NewDBIterator( env_, ro, ImmutableCFOptions(options), MutableCFOptions(options), BytewiseComparator(), internal_iter, 1, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToFirst(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "a"); ASSERT_EQ(db_iter->value().ToString(), "0"); db_iter->Next(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "b"); db_iter->Next(); ASSERT_FALSE(db_iter->Valid()); } TEST_F(DBIteratorTest, DBIterator2) { ReadOptions ro; Options options; options.merge_operator = MergeOperators::CreateFromStringId("stringappend"); TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddPut("a", "0"); internal_iter->AddPut("b", "0"); internal_iter->AddDeletion("b"); internal_iter->AddMerge("a", "1"); internal_iter->AddMerge("b", "2"); internal_iter->Finish(); std::unique_ptr db_iter(NewDBIterator( env_, ro, ImmutableCFOptions(options), MutableCFOptions(options), BytewiseComparator(), internal_iter, 0, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToFirst(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "a"); ASSERT_EQ(db_iter->value().ToString(), "0"); db_iter->Next(); ASSERT_TRUE(!db_iter->Valid()); } TEST_F(DBIteratorTest, DBIterator3) { ReadOptions ro; Options options; options.merge_operator = MergeOperators::CreateFromStringId("stringappend"); TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddPut("a", "0"); internal_iter->AddPut("b", "0"); internal_iter->AddDeletion("b"); internal_iter->AddMerge("a", "1"); internal_iter->AddMerge("b", "2"); internal_iter->Finish(); std::unique_ptr db_iter(NewDBIterator( env_, ro, ImmutableCFOptions(options), MutableCFOptions(options), BytewiseComparator(), internal_iter, 2, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToFirst(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "a"); ASSERT_EQ(db_iter->value().ToString(), "0"); db_iter->Next(); ASSERT_TRUE(!db_iter->Valid()); } TEST_F(DBIteratorTest, DBIterator4) { ReadOptions ro; Options options; options.merge_operator = MergeOperators::CreateFromStringId("stringappend"); TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddPut("a", "0"); internal_iter->AddPut("b", "0"); internal_iter->AddDeletion("b"); internal_iter->AddMerge("a", "1"); internal_iter->AddMerge("b", "2"); internal_iter->Finish(); std::unique_ptr db_iter(NewDBIterator( env_, ro, ImmutableCFOptions(options), MutableCFOptions(options), BytewiseComparator(), internal_iter, 4, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToFirst(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "a"); ASSERT_EQ(db_iter->value().ToString(), "0,1"); db_iter->Next(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "b"); ASSERT_EQ(db_iter->value().ToString(), "2"); db_iter->Next(); ASSERT_TRUE(!db_iter->Valid()); } TEST_F(DBIteratorTest, DBIterator5) { ReadOptions ro; Options options; options.merge_operator = MergeOperators::CreateFromStringId("stringappend"); ImmutableCFOptions cf_options = ImmutableCFOptions(options); MutableCFOptions mutable_cf_options = MutableCFOptions(options); { TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddMerge("a", "merge_1"); internal_iter->AddMerge("a", "merge_2"); internal_iter->AddMerge("a", "merge_3"); internal_iter->AddPut("a", "put_1"); internal_iter->AddMerge("a", "merge_4"); internal_iter->AddMerge("a", "merge_5"); internal_iter->AddMerge("a", "merge_6"); internal_iter->Finish(); std::unique_ptr db_iter(NewDBIterator( env_, ro, cf_options, mutable_cf_options, BytewiseComparator(), internal_iter, 0, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToLast(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "a"); ASSERT_EQ(db_iter->value().ToString(), "merge_1"); db_iter->Prev(); ASSERT_TRUE(!db_iter->Valid()); } { TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddMerge("a", "merge_1"); internal_iter->AddMerge("a", "merge_2"); internal_iter->AddMerge("a", "merge_3"); internal_iter->AddPut("a", "put_1"); internal_iter->AddMerge("a", "merge_4"); internal_iter->AddMerge("a", "merge_5"); internal_iter->AddMerge("a", "merge_6"); internal_iter->Finish(); std::unique_ptr db_iter(NewDBIterator( env_, ro, cf_options, mutable_cf_options, BytewiseComparator(), internal_iter, 1, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToLast(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "a"); ASSERT_EQ(db_iter->value().ToString(), "merge_1,merge_2"); db_iter->Prev(); ASSERT_TRUE(!db_iter->Valid()); } { TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddMerge("a", "merge_1"); internal_iter->AddMerge("a", "merge_2"); internal_iter->AddMerge("a", "merge_3"); internal_iter->AddPut("a", "put_1"); internal_iter->AddMerge("a", "merge_4"); internal_iter->AddMerge("a", "merge_5"); internal_iter->AddMerge("a", "merge_6"); internal_iter->Finish(); std::unique_ptr db_iter(NewDBIterator( env_, ro, cf_options, mutable_cf_options, BytewiseComparator(), internal_iter, 2, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToLast(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "a"); ASSERT_EQ(db_iter->value().ToString(), "merge_1,merge_2,merge_3"); db_iter->Prev(); ASSERT_TRUE(!db_iter->Valid()); } { TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddMerge("a", "merge_1"); internal_iter->AddMerge("a", "merge_2"); internal_iter->AddMerge("a", "merge_3"); internal_iter->AddPut("a", "put_1"); internal_iter->AddMerge("a", "merge_4"); internal_iter->AddMerge("a", "merge_5"); internal_iter->AddMerge("a", "merge_6"); internal_iter->Finish(); std::unique_ptr db_iter(NewDBIterator( env_, ro, cf_options, mutable_cf_options, BytewiseComparator(), internal_iter, 3, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToLast(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "a"); ASSERT_EQ(db_iter->value().ToString(), "put_1"); db_iter->Prev(); ASSERT_TRUE(!db_iter->Valid()); } { TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddMerge("a", "merge_1"); internal_iter->AddMerge("a", "merge_2"); internal_iter->AddMerge("a", "merge_3"); internal_iter->AddPut("a", "put_1"); internal_iter->AddMerge("a", "merge_4"); internal_iter->AddMerge("a", "merge_5"); internal_iter->AddMerge("a", "merge_6"); internal_iter->Finish(); std::unique_ptr db_iter(NewDBIterator( env_, ro, cf_options, mutable_cf_options, BytewiseComparator(), internal_iter, 4, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToLast(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "a"); ASSERT_EQ(db_iter->value().ToString(), "put_1,merge_4"); db_iter->Prev(); ASSERT_TRUE(!db_iter->Valid()); } { TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddMerge("a", "merge_1"); internal_iter->AddMerge("a", "merge_2"); internal_iter->AddMerge("a", "merge_3"); internal_iter->AddPut("a", "put_1"); internal_iter->AddMerge("a", "merge_4"); internal_iter->AddMerge("a", "merge_5"); internal_iter->AddMerge("a", "merge_6"); internal_iter->Finish(); std::unique_ptr db_iter(NewDBIterator( env_, ro, cf_options, mutable_cf_options, BytewiseComparator(), internal_iter, 5, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToLast(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "a"); ASSERT_EQ(db_iter->value().ToString(), "put_1,merge_4,merge_5"); db_iter->Prev(); ASSERT_TRUE(!db_iter->Valid()); } { TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddMerge("a", "merge_1"); internal_iter->AddMerge("a", "merge_2"); internal_iter->AddMerge("a", "merge_3"); internal_iter->AddPut("a", "put_1"); internal_iter->AddMerge("a", "merge_4"); internal_iter->AddMerge("a", "merge_5"); internal_iter->AddMerge("a", "merge_6"); internal_iter->Finish(); std::unique_ptr db_iter(NewDBIterator( env_, ro, cf_options, mutable_cf_options, BytewiseComparator(), internal_iter, 6, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToLast(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "a"); ASSERT_EQ(db_iter->value().ToString(), "put_1,merge_4,merge_5,merge_6"); db_iter->Prev(); ASSERT_TRUE(!db_iter->Valid()); } { // put, singledelete, merge TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddPut("a", "val_a"); internal_iter->AddSingleDeletion("a"); internal_iter->AddMerge("a", "merge_1"); internal_iter->AddMerge("a", "merge_2"); internal_iter->AddPut("b", "val_b"); internal_iter->Finish(); std::unique_ptr db_iter(NewDBIterator( env_, ro, cf_options, mutable_cf_options, BytewiseComparator(), internal_iter, 10, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->Seek("b"); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "b"); db_iter->Prev(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "a"); } } TEST_F(DBIteratorTest, DBIterator6) { ReadOptions ro; Options options; options.merge_operator = MergeOperators::CreateFromStringId("stringappend"); ImmutableCFOptions cf_options = ImmutableCFOptions(options); MutableCFOptions mutable_cf_options = MutableCFOptions(options); { TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddMerge("a", "merge_1"); internal_iter->AddMerge("a", "merge_2"); internal_iter->AddMerge("a", "merge_3"); internal_iter->AddDeletion("a"); internal_iter->AddMerge("a", "merge_4"); internal_iter->AddMerge("a", "merge_5"); internal_iter->AddMerge("a", "merge_6"); internal_iter->Finish(); std::unique_ptr db_iter(NewDBIterator( env_, ro, cf_options, mutable_cf_options, BytewiseComparator(), internal_iter, 0, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToLast(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "a"); ASSERT_EQ(db_iter->value().ToString(), "merge_1"); db_iter->Prev(); ASSERT_TRUE(!db_iter->Valid()); } { TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddMerge("a", "merge_1"); internal_iter->AddMerge("a", "merge_2"); internal_iter->AddMerge("a", "merge_3"); internal_iter->AddDeletion("a"); internal_iter->AddMerge("a", "merge_4"); internal_iter->AddMerge("a", "merge_5"); internal_iter->AddMerge("a", "merge_6"); internal_iter->Finish(); std::unique_ptr db_iter(NewDBIterator( env_, ro, cf_options, mutable_cf_options, BytewiseComparator(), internal_iter, 1, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToLast(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "a"); ASSERT_EQ(db_iter->value().ToString(), "merge_1,merge_2"); db_iter->Prev(); ASSERT_TRUE(!db_iter->Valid()); } { TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddMerge("a", "merge_1"); internal_iter->AddMerge("a", "merge_2"); internal_iter->AddMerge("a", "merge_3"); internal_iter->AddDeletion("a"); internal_iter->AddMerge("a", "merge_4"); internal_iter->AddMerge("a", "merge_5"); internal_iter->AddMerge("a", "merge_6"); internal_iter->Finish(); std::unique_ptr db_iter(NewDBIterator( env_, ro, cf_options, mutable_cf_options, BytewiseComparator(), internal_iter, 2, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToLast(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "a"); ASSERT_EQ(db_iter->value().ToString(), "merge_1,merge_2,merge_3"); db_iter->Prev(); ASSERT_TRUE(!db_iter->Valid()); } { TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddMerge("a", "merge_1"); internal_iter->AddMerge("a", "merge_2"); internal_iter->AddMerge("a", "merge_3"); internal_iter->AddDeletion("a"); internal_iter->AddMerge("a", "merge_4"); internal_iter->AddMerge("a", "merge_5"); internal_iter->AddMerge("a", "merge_6"); internal_iter->Finish(); std::unique_ptr db_iter(NewDBIterator( env_, ro, cf_options, mutable_cf_options, BytewiseComparator(), internal_iter, 3, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToLast(); ASSERT_TRUE(!db_iter->Valid()); } { TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddMerge("a", "merge_1"); internal_iter->AddMerge("a", "merge_2"); internal_iter->AddMerge("a", "merge_3"); internal_iter->AddDeletion("a"); internal_iter->AddMerge("a", "merge_4"); internal_iter->AddMerge("a", "merge_5"); internal_iter->AddMerge("a", "merge_6"); internal_iter->Finish(); std::unique_ptr db_iter(NewDBIterator( env_, ro, cf_options, mutable_cf_options, BytewiseComparator(), internal_iter, 4, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToLast(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "a"); ASSERT_EQ(db_iter->value().ToString(), "merge_4"); db_iter->Prev(); ASSERT_TRUE(!db_iter->Valid()); } { TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddMerge("a", "merge_1"); internal_iter->AddMerge("a", "merge_2"); internal_iter->AddMerge("a", "merge_3"); internal_iter->AddDeletion("a"); internal_iter->AddMerge("a", "merge_4"); internal_iter->AddMerge("a", "merge_5"); internal_iter->AddMerge("a", "merge_6"); internal_iter->Finish(); std::unique_ptr db_iter(NewDBIterator( env_, ro, cf_options, mutable_cf_options, BytewiseComparator(), internal_iter, 5, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToLast(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "a"); ASSERT_EQ(db_iter->value().ToString(), "merge_4,merge_5"); db_iter->Prev(); ASSERT_TRUE(!db_iter->Valid()); } { TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddMerge("a", "merge_1"); internal_iter->AddMerge("a", "merge_2"); internal_iter->AddMerge("a", "merge_3"); internal_iter->AddDeletion("a"); internal_iter->AddMerge("a", "merge_4"); internal_iter->AddMerge("a", "merge_5"); internal_iter->AddMerge("a", "merge_6"); internal_iter->Finish(); std::unique_ptr db_iter(NewDBIterator( env_, ro, cf_options, mutable_cf_options, BytewiseComparator(), internal_iter, 6, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToLast(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "a"); ASSERT_EQ(db_iter->value().ToString(), "merge_4,merge_5,merge_6"); db_iter->Prev(); ASSERT_TRUE(!db_iter->Valid()); } } TEST_F(DBIteratorTest, DBIterator7) { ReadOptions ro; Options options; options.merge_operator = MergeOperators::CreateFromStringId("stringappend"); ImmutableCFOptions cf_options = ImmutableCFOptions(options); MutableCFOptions mutable_cf_options = MutableCFOptions(options); { TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddMerge("a", "merge_1"); internal_iter->AddPut("b", "val"); internal_iter->AddMerge("b", "merge_2"); internal_iter->AddDeletion("b"); internal_iter->AddMerge("b", "merge_3"); internal_iter->AddMerge("c", "merge_4"); internal_iter->AddMerge("c", "merge_5"); internal_iter->AddDeletion("b"); internal_iter->AddMerge("b", "merge_6"); internal_iter->AddMerge("b", "merge_7"); internal_iter->AddMerge("b", "merge_8"); internal_iter->AddMerge("b", "merge_9"); internal_iter->AddMerge("b", "merge_10"); internal_iter->AddMerge("b", "merge_11"); internal_iter->AddDeletion("c"); internal_iter->Finish(); std::unique_ptr db_iter(NewDBIterator( env_, ro, cf_options, mutable_cf_options, BytewiseComparator(), internal_iter, 0, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToLast(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "a"); ASSERT_EQ(db_iter->value().ToString(), "merge_1"); db_iter->Prev(); ASSERT_TRUE(!db_iter->Valid()); } { TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddMerge("a", "merge_1"); internal_iter->AddPut("b", "val"); internal_iter->AddMerge("b", "merge_2"); internal_iter->AddDeletion("b"); internal_iter->AddMerge("b", "merge_3"); internal_iter->AddMerge("c", "merge_4"); internal_iter->AddMerge("c", "merge_5"); internal_iter->AddDeletion("b"); internal_iter->AddMerge("b", "merge_6"); internal_iter->AddMerge("b", "merge_7"); internal_iter->AddMerge("b", "merge_8"); internal_iter->AddMerge("b", "merge_9"); internal_iter->AddMerge("b", "merge_10"); internal_iter->AddMerge("b", "merge_11"); internal_iter->AddDeletion("c"); internal_iter->Finish(); std::unique_ptr db_iter(NewDBIterator( env_, ro, cf_options, mutable_cf_options, BytewiseComparator(), internal_iter, 2, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToLast(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "b"); ASSERT_EQ(db_iter->value().ToString(), "val,merge_2"); db_iter->Prev(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "a"); ASSERT_EQ(db_iter->value().ToString(), "merge_1"); db_iter->Prev(); ASSERT_TRUE(!db_iter->Valid()); } { TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddMerge("a", "merge_1"); internal_iter->AddPut("b", "val"); internal_iter->AddMerge("b", "merge_2"); internal_iter->AddDeletion("b"); internal_iter->AddMerge("b", "merge_3"); internal_iter->AddMerge("c", "merge_4"); internal_iter->AddMerge("c", "merge_5"); internal_iter->AddDeletion("b"); internal_iter->AddMerge("b", "merge_6"); internal_iter->AddMerge("b", "merge_7"); internal_iter->AddMerge("b", "merge_8"); internal_iter->AddMerge("b", "merge_9"); internal_iter->AddMerge("b", "merge_10"); internal_iter->AddMerge("b", "merge_11"); internal_iter->AddDeletion("c"); internal_iter->Finish(); std::unique_ptr db_iter(NewDBIterator( env_, ro, cf_options, mutable_cf_options, BytewiseComparator(), internal_iter, 4, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToLast(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "b"); ASSERT_EQ(db_iter->value().ToString(), "merge_3"); db_iter->Prev(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "a"); ASSERT_EQ(db_iter->value().ToString(), "merge_1"); db_iter->Prev(); ASSERT_TRUE(!db_iter->Valid()); } { TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddMerge("a", "merge_1"); internal_iter->AddPut("b", "val"); internal_iter->AddMerge("b", "merge_2"); internal_iter->AddDeletion("b"); internal_iter->AddMerge("b", "merge_3"); internal_iter->AddMerge("c", "merge_4"); internal_iter->AddMerge("c", "merge_5"); internal_iter->AddDeletion("b"); internal_iter->AddMerge("b", "merge_6"); internal_iter->AddMerge("b", "merge_7"); internal_iter->AddMerge("b", "merge_8"); internal_iter->AddMerge("b", "merge_9"); internal_iter->AddMerge("b", "merge_10"); internal_iter->AddMerge("b", "merge_11"); internal_iter->AddDeletion("c"); internal_iter->Finish(); std::unique_ptr db_iter(NewDBIterator( env_, ro, cf_options, mutable_cf_options, BytewiseComparator(), internal_iter, 5, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToLast(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "c"); ASSERT_EQ(db_iter->value().ToString(), "merge_4"); db_iter->Prev(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "b"); ASSERT_EQ(db_iter->value().ToString(), "merge_3"); db_iter->Prev(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "a"); ASSERT_EQ(db_iter->value().ToString(), "merge_1"); db_iter->Prev(); ASSERT_TRUE(!db_iter->Valid()); } { TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddMerge("a", "merge_1"); internal_iter->AddPut("b", "val"); internal_iter->AddMerge("b", "merge_2"); internal_iter->AddDeletion("b"); internal_iter->AddMerge("b", "merge_3"); internal_iter->AddMerge("c", "merge_4"); internal_iter->AddMerge("c", "merge_5"); internal_iter->AddDeletion("b"); internal_iter->AddMerge("b", "merge_6"); internal_iter->AddMerge("b", "merge_7"); internal_iter->AddMerge("b", "merge_8"); internal_iter->AddMerge("b", "merge_9"); internal_iter->AddMerge("b", "merge_10"); internal_iter->AddMerge("b", "merge_11"); internal_iter->AddDeletion("c"); internal_iter->Finish(); std::unique_ptr db_iter(NewDBIterator( env_, ro, cf_options, mutable_cf_options, BytewiseComparator(), internal_iter, 6, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToLast(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "c"); ASSERT_EQ(db_iter->value().ToString(), "merge_4,merge_5"); db_iter->Prev(); ASSERT_TRUE(db_iter->Valid()); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "b"); ASSERT_EQ(db_iter->value().ToString(), "merge_3"); db_iter->Prev(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "a"); ASSERT_EQ(db_iter->value().ToString(), "merge_1"); db_iter->Prev(); ASSERT_TRUE(!db_iter->Valid()); } { TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddMerge("a", "merge_1"); internal_iter->AddPut("b", "val"); internal_iter->AddMerge("b", "merge_2"); internal_iter->AddDeletion("b"); internal_iter->AddMerge("b", "merge_3"); internal_iter->AddMerge("c", "merge_4"); internal_iter->AddMerge("c", "merge_5"); internal_iter->AddDeletion("b"); internal_iter->AddMerge("b", "merge_6"); internal_iter->AddMerge("b", "merge_7"); internal_iter->AddMerge("b", "merge_8"); internal_iter->AddMerge("b", "merge_9"); internal_iter->AddMerge("b", "merge_10"); internal_iter->AddMerge("b", "merge_11"); internal_iter->AddDeletion("c"); internal_iter->Finish(); std::unique_ptr db_iter(NewDBIterator( env_, ro, cf_options, mutable_cf_options, BytewiseComparator(), internal_iter, 7, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToLast(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "c"); ASSERT_EQ(db_iter->value().ToString(), "merge_4,merge_5"); db_iter->Prev(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "a"); ASSERT_EQ(db_iter->value().ToString(), "merge_1"); db_iter->Prev(); ASSERT_TRUE(!db_iter->Valid()); } { TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddMerge("a", "merge_1"); internal_iter->AddPut("b", "val"); internal_iter->AddMerge("b", "merge_2"); internal_iter->AddDeletion("b"); internal_iter->AddMerge("b", "merge_3"); internal_iter->AddMerge("c", "merge_4"); internal_iter->AddMerge("c", "merge_5"); internal_iter->AddDeletion("b"); internal_iter->AddMerge("b", "merge_6"); internal_iter->AddMerge("b", "merge_7"); internal_iter->AddMerge("b", "merge_8"); internal_iter->AddMerge("b", "merge_9"); internal_iter->AddMerge("b", "merge_10"); internal_iter->AddMerge("b", "merge_11"); internal_iter->AddDeletion("c"); internal_iter->Finish(); std::unique_ptr db_iter(NewDBIterator( env_, ro, cf_options, mutable_cf_options, BytewiseComparator(), internal_iter, 9, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToLast(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "c"); ASSERT_EQ(db_iter->value().ToString(), "merge_4,merge_5"); db_iter->Prev(); ASSERT_TRUE(db_iter->Valid()); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "b"); ASSERT_EQ(db_iter->value().ToString(), "merge_6,merge_7"); db_iter->Prev(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "a"); ASSERT_EQ(db_iter->value().ToString(), "merge_1"); db_iter->Prev(); ASSERT_TRUE(!db_iter->Valid()); } { TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddMerge("a", "merge_1"); internal_iter->AddPut("b", "val"); internal_iter->AddMerge("b", "merge_2"); internal_iter->AddDeletion("b"); internal_iter->AddMerge("b", "merge_3"); internal_iter->AddMerge("c", "merge_4"); internal_iter->AddMerge("c", "merge_5"); internal_iter->AddDeletion("b"); internal_iter->AddMerge("b", "merge_6"); internal_iter->AddMerge("b", "merge_7"); internal_iter->AddMerge("b", "merge_8"); internal_iter->AddMerge("b", "merge_9"); internal_iter->AddMerge("b", "merge_10"); internal_iter->AddMerge("b", "merge_11"); internal_iter->AddDeletion("c"); internal_iter->Finish(); std::unique_ptr db_iter(NewDBIterator( env_, ro, cf_options, mutable_cf_options, BytewiseComparator(), internal_iter, 13, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToLast(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "c"); ASSERT_EQ(db_iter->value().ToString(), "merge_4,merge_5"); db_iter->Prev(); ASSERT_TRUE(db_iter->Valid()); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "b"); ASSERT_EQ(db_iter->value().ToString(), "merge_6,merge_7,merge_8,merge_9,merge_10,merge_11"); db_iter->Prev(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "a"); ASSERT_EQ(db_iter->value().ToString(), "merge_1"); db_iter->Prev(); ASSERT_TRUE(!db_iter->Valid()); } { TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddMerge("a", "merge_1"); internal_iter->AddPut("b", "val"); internal_iter->AddMerge("b", "merge_2"); internal_iter->AddDeletion("b"); internal_iter->AddMerge("b", "merge_3"); internal_iter->AddMerge("c", "merge_4"); internal_iter->AddMerge("c", "merge_5"); internal_iter->AddDeletion("b"); internal_iter->AddMerge("b", "merge_6"); internal_iter->AddMerge("b", "merge_7"); internal_iter->AddMerge("b", "merge_8"); internal_iter->AddMerge("b", "merge_9"); internal_iter->AddMerge("b", "merge_10"); internal_iter->AddMerge("b", "merge_11"); internal_iter->AddDeletion("c"); internal_iter->Finish(); std::unique_ptr db_iter(NewDBIterator( env_, ro, cf_options, mutable_cf_options, BytewiseComparator(), internal_iter, 14, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToLast(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "b"); ASSERT_EQ(db_iter->value().ToString(), "merge_6,merge_7,merge_8,merge_9,merge_10,merge_11"); db_iter->Prev(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "a"); ASSERT_EQ(db_iter->value().ToString(), "merge_1"); db_iter->Prev(); ASSERT_TRUE(!db_iter->Valid()); } } TEST_F(DBIteratorTest, DBIterator8) { ReadOptions ro; Options options; options.merge_operator = MergeOperators::CreateFromStringId("stringappend"); TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddDeletion("a"); internal_iter->AddPut("a", "0"); internal_iter->AddPut("b", "0"); internal_iter->Finish(); std::unique_ptr db_iter(NewDBIterator( env_, ro, ImmutableCFOptions(options), MutableCFOptions(options), BytewiseComparator(), internal_iter, 10, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToLast(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "b"); ASSERT_EQ(db_iter->value().ToString(), "0"); db_iter->Prev(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "a"); ASSERT_EQ(db_iter->value().ToString(), "0"); } // TODO(3.13): fix the issue of Seek() then Prev() which might not necessary // return the biggest element smaller than the seek key. TEST_F(DBIteratorTest, DBIterator9) { ReadOptions ro; Options options; options.merge_operator = MergeOperators::CreateFromStringId("stringappend"); { TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddMerge("a", "merge_1"); internal_iter->AddMerge("a", "merge_2"); internal_iter->AddMerge("b", "merge_3"); internal_iter->AddMerge("b", "merge_4"); internal_iter->AddMerge("d", "merge_5"); internal_iter->AddMerge("d", "merge_6"); internal_iter->Finish(); std::unique_ptr db_iter(NewDBIterator( env_, ro, ImmutableCFOptions(options), MutableCFOptions(options), BytewiseComparator(), internal_iter, 10, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToLast(); ASSERT_TRUE(db_iter->Valid()); db_iter->Prev(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "b"); ASSERT_EQ(db_iter->value().ToString(), "merge_3,merge_4"); db_iter->Next(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "d"); ASSERT_EQ(db_iter->value().ToString(), "merge_5,merge_6"); db_iter->Seek("b"); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "b"); ASSERT_EQ(db_iter->value().ToString(), "merge_3,merge_4"); db_iter->Prev(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "a"); ASSERT_EQ(db_iter->value().ToString(), "merge_1,merge_2"); db_iter->SeekForPrev("b"); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "b"); ASSERT_EQ(db_iter->value().ToString(), "merge_3,merge_4"); db_iter->Next(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "d"); ASSERT_EQ(db_iter->value().ToString(), "merge_5,merge_6"); db_iter->Seek("c"); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "d"); ASSERT_EQ(db_iter->value().ToString(), "merge_5,merge_6"); db_iter->Prev(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "b"); ASSERT_EQ(db_iter->value().ToString(), "merge_3,merge_4"); db_iter->SeekForPrev("c"); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "b"); ASSERT_EQ(db_iter->value().ToString(), "merge_3,merge_4"); db_iter->Next(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "d"); ASSERT_EQ(db_iter->value().ToString(), "merge_5,merge_6"); } } // TODO(3.13): fix the issue of Seek() then Prev() which might not necessary // return the biggest element smaller than the seek key. TEST_F(DBIteratorTest, DBIterator10) { ReadOptions ro; Options options; TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddPut("a", "1"); internal_iter->AddPut("b", "2"); internal_iter->AddPut("c", "3"); internal_iter->AddPut("d", "4"); internal_iter->Finish(); std::unique_ptr db_iter(NewDBIterator( env_, ro, ImmutableCFOptions(options), MutableCFOptions(options), BytewiseComparator(), internal_iter, 10, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->Seek("c"); ASSERT_TRUE(db_iter->Valid()); db_iter->Prev(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "b"); ASSERT_EQ(db_iter->value().ToString(), "2"); db_iter->Next(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "c"); ASSERT_EQ(db_iter->value().ToString(), "3"); db_iter->SeekForPrev("c"); ASSERT_TRUE(db_iter->Valid()); db_iter->Next(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "d"); ASSERT_EQ(db_iter->value().ToString(), "4"); db_iter->Prev(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "c"); ASSERT_EQ(db_iter->value().ToString(), "3"); } TEST_F(DBIteratorTest, SeekToLastOccurrenceSeq0) { ReadOptions ro; Options options; options.merge_operator = nullptr; TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddPut("a", "1"); internal_iter->AddPut("b", "2"); internal_iter->Finish(); std::unique_ptr db_iter(NewDBIterator( env_, ro, ImmutableCFOptions(options), MutableCFOptions(options), BytewiseComparator(), internal_iter, 10, 0 /* force seek */, nullptr /*read_callback*/)); db_iter->SeekToFirst(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "a"); ASSERT_EQ(db_iter->value().ToString(), "1"); db_iter->Next(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "b"); ASSERT_EQ(db_iter->value().ToString(), "2"); db_iter->Next(); ASSERT_FALSE(db_iter->Valid()); } TEST_F(DBIteratorTest, DBIterator11) { ReadOptions ro; Options options; options.merge_operator = MergeOperators::CreateFromStringId("stringappend"); TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddPut("a", "0"); internal_iter->AddPut("b", "0"); internal_iter->AddSingleDeletion("b"); internal_iter->AddMerge("a", "1"); internal_iter->AddMerge("b", "2"); internal_iter->Finish(); std::unique_ptr db_iter(NewDBIterator( env_, ro, ImmutableCFOptions(options), MutableCFOptions(options), BytewiseComparator(), internal_iter, 1, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekToFirst(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "a"); ASSERT_EQ(db_iter->value().ToString(), "0"); db_iter->Next(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "b"); db_iter->Next(); ASSERT_FALSE(db_iter->Valid()); } TEST_F(DBIteratorTest, DBIterator12) { ReadOptions ro; Options options; options.merge_operator = nullptr; TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddPut("a", "1"); internal_iter->AddPut("b", "2"); internal_iter->AddPut("c", "3"); internal_iter->AddSingleDeletion("b"); internal_iter->Finish(); std::unique_ptr db_iter(NewDBIterator( env_, ro, ImmutableCFOptions(options), MutableCFOptions(options), BytewiseComparator(), internal_iter, 10, 0, nullptr /*read_callback*/)); db_iter->SeekToLast(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "c"); ASSERT_EQ(db_iter->value().ToString(), "3"); db_iter->Prev(); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "a"); ASSERT_EQ(db_iter->value().ToString(), "1"); db_iter->Prev(); ASSERT_FALSE(db_iter->Valid()); } TEST_F(DBIteratorTest, DBIterator13) { ReadOptions ro; Options options; options.merge_operator = nullptr; std::string key; key.resize(9); key.assign(9, static_cast(0)); key[0] = 'b'; TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddPut(key, "0"); internal_iter->AddPut(key, "1"); internal_iter->AddPut(key, "2"); internal_iter->AddPut(key, "3"); internal_iter->AddPut(key, "4"); internal_iter->AddPut(key, "5"); internal_iter->AddPut(key, "6"); internal_iter->AddPut(key, "7"); internal_iter->AddPut(key, "8"); internal_iter->Finish(); std::unique_ptr db_iter(NewDBIterator( env_, ro, ImmutableCFOptions(options), MutableCFOptions(options), BytewiseComparator(), internal_iter, 2, 3, nullptr /*read_callback*/)); db_iter->Seek("b"); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), key); ASSERT_EQ(db_iter->value().ToString(), "2"); } TEST_F(DBIteratorTest, DBIterator14) { ReadOptions ro; Options options; options.merge_operator = nullptr; std::string key("b"); TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddPut("b", "0"); internal_iter->AddPut("b", "1"); internal_iter->AddPut("b", "2"); internal_iter->AddPut("b", "3"); internal_iter->AddPut("a", "4"); internal_iter->AddPut("a", "5"); internal_iter->AddPut("a", "6"); internal_iter->AddPut("c", "7"); internal_iter->AddPut("c", "8"); internal_iter->AddPut("c", "9"); internal_iter->Finish(); std::unique_ptr db_iter(NewDBIterator( env_, ro, ImmutableCFOptions(options), MutableCFOptions(options), BytewiseComparator(), internal_iter, 4, 1, nullptr /*read_callback*/)); db_iter->Seek("b"); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(db_iter->key().ToString(), "b"); ASSERT_EQ(db_iter->value().ToString(), "3"); db_iter->SeekToFirst(); ASSERT_EQ(db_iter->key().ToString(), "a"); ASSERT_EQ(db_iter->value().ToString(), "4"); } TEST_F(DBIteratorTest, DBIteratorTestDifferentialSnapshots) { { // test that KVs earlier that iter_start_seqnum are filtered out ReadOptions ro; ro.iter_start_seqnum=5; Options options; options.statistics = rocksdb::CreateDBStatistics(); TestIterator* internal_iter = new TestIterator(BytewiseComparator()); for (size_t i = 0; i < 10; ++i) { internal_iter->AddPut(std::to_string(i), std::to_string(i) + "a"); internal_iter->AddPut(std::to_string(i), std::to_string(i) + "b"); internal_iter->AddPut(std::to_string(i), std::to_string(i) + "c"); } internal_iter->Finish(); std::unique_ptr db_iter(NewDBIterator( env_, ro, ImmutableCFOptions(options), MutableCFOptions(options), BytewiseComparator(), internal_iter, 13, options.max_sequential_skip_in_iterations, nullptr)); // Expecting InternalKeys in [5,8] range with correct type int seqnums[4] = {5,8,11,13}; std::string user_keys[4] = {"1","2","3","4"}; std::string values[4] = {"1c", "2c", "3c", "4b"}; int i = 0; for (db_iter->SeekToFirst(); db_iter->Valid(); db_iter->Next()) { FullKey fkey; ParseFullKey(db_iter->key(), &fkey); ASSERT_EQ(user_keys[i], fkey.user_key.ToString()); ASSERT_EQ(EntryType::kEntryPut, fkey.type); ASSERT_EQ(seqnums[i], fkey.sequence); ASSERT_EQ(values[i], db_iter->value().ToString()); i++; } ASSERT_EQ(i, 4); } { // Test that deletes are returned correctly as internal KVs ReadOptions ro; ro.iter_start_seqnum=5; Options options; options.statistics = rocksdb::CreateDBStatistics(); TestIterator* internal_iter = new TestIterator(BytewiseComparator()); for (size_t i = 0; i < 10; ++i) { internal_iter->AddPut(std::to_string(i), std::to_string(i) + "a"); internal_iter->AddPut(std::to_string(i), std::to_string(i) + "b"); internal_iter->AddDeletion(std::to_string(i)); } internal_iter->Finish(); std::unique_ptr db_iter(NewDBIterator( env_, ro, ImmutableCFOptions(options), MutableCFOptions(options), BytewiseComparator(), internal_iter, 13, options.max_sequential_skip_in_iterations, nullptr)); // Expecting InternalKeys in [5,8] range with correct type int seqnums[4] = {5,8,11,13}; EntryType key_types[4] = {EntryType::kEntryDelete,EntryType::kEntryDelete, EntryType::kEntryDelete,EntryType::kEntryPut}; std::string user_keys[4] = {"1","2","3","4"}; std::string values[4] = {"", "", "", "4b"}; int i = 0; for (db_iter->SeekToFirst(); db_iter->Valid(); db_iter->Next()) { FullKey fkey; ParseFullKey(db_iter->key(), &fkey); ASSERT_EQ(user_keys[i], fkey.user_key.ToString()); ASSERT_EQ(key_types[i], fkey.type); ASSERT_EQ(seqnums[i], fkey.sequence); ASSERT_EQ(values[i], db_iter->value().ToString()); i++; } ASSERT_EQ(i, 4); } } class DBIterWithMergeIterTest : public testing::Test { public: DBIterWithMergeIterTest() : env_(Env::Default()), icomp_(BytewiseComparator()) { options_.merge_operator = nullptr; internal_iter1_ = new TestIterator(BytewiseComparator()); internal_iter1_->Add("a", kTypeValue, "1", 3u); internal_iter1_->Add("f", kTypeValue, "2", 5u); internal_iter1_->Add("g", kTypeValue, "3", 7u); internal_iter1_->Finish(); internal_iter2_ = new TestIterator(BytewiseComparator()); internal_iter2_->Add("a", kTypeValue, "4", 6u); internal_iter2_->Add("b", kTypeValue, "5", 1u); internal_iter2_->Add("c", kTypeValue, "6", 2u); internal_iter2_->Add("d", kTypeValue, "7", 3u); internal_iter2_->Finish(); std::vector child_iters; child_iters.push_back(internal_iter1_); child_iters.push_back(internal_iter2_); InternalKeyComparator icomp(BytewiseComparator()); InternalIterator* merge_iter = NewMergingIterator(&icomp_, &child_iters[0], 2u); db_iter_.reset(NewDBIterator( env_, ro_, ImmutableCFOptions(options_), MutableCFOptions(options_), BytewiseComparator(), merge_iter, 8 /* read data earlier than seqId 8 */, 3 /* max iterators before reseek */, nullptr /*read_callback*/)); } Env* env_; ReadOptions ro_; Options options_; TestIterator* internal_iter1_; TestIterator* internal_iter2_; InternalKeyComparator icomp_; Iterator* merge_iter_; std::unique_ptr db_iter_; }; TEST_F(DBIterWithMergeIterTest, InnerMergeIterator1) { db_iter_->SeekToFirst(); ASSERT_TRUE(db_iter_->Valid()); ASSERT_EQ(db_iter_->key().ToString(), "a"); ASSERT_EQ(db_iter_->value().ToString(), "4"); db_iter_->Next(); ASSERT_TRUE(db_iter_->Valid()); ASSERT_EQ(db_iter_->key().ToString(), "b"); ASSERT_EQ(db_iter_->value().ToString(), "5"); db_iter_->Next(); ASSERT_TRUE(db_iter_->Valid()); ASSERT_EQ(db_iter_->key().ToString(), "c"); ASSERT_EQ(db_iter_->value().ToString(), "6"); db_iter_->Next(); ASSERT_TRUE(db_iter_->Valid()); ASSERT_EQ(db_iter_->key().ToString(), "d"); ASSERT_EQ(db_iter_->value().ToString(), "7"); db_iter_->Next(); ASSERT_TRUE(db_iter_->Valid()); ASSERT_EQ(db_iter_->key().ToString(), "f"); ASSERT_EQ(db_iter_->value().ToString(), "2"); db_iter_->Next(); ASSERT_TRUE(db_iter_->Valid()); ASSERT_EQ(db_iter_->key().ToString(), "g"); ASSERT_EQ(db_iter_->value().ToString(), "3"); db_iter_->Next(); ASSERT_FALSE(db_iter_->Valid()); } TEST_F(DBIterWithMergeIterTest, InnerMergeIterator2) { // Test Prev() when one child iterator is at its end. db_iter_->SeekForPrev("g"); ASSERT_TRUE(db_iter_->Valid()); ASSERT_EQ(db_iter_->key().ToString(), "g"); ASSERT_EQ(db_iter_->value().ToString(), "3"); db_iter_->Prev(); ASSERT_TRUE(db_iter_->Valid()); ASSERT_EQ(db_iter_->key().ToString(), "f"); ASSERT_EQ(db_iter_->value().ToString(), "2"); db_iter_->Prev(); ASSERT_TRUE(db_iter_->Valid()); ASSERT_EQ(db_iter_->key().ToString(), "d"); ASSERT_EQ(db_iter_->value().ToString(), "7"); db_iter_->Prev(); ASSERT_TRUE(db_iter_->Valid()); ASSERT_EQ(db_iter_->key().ToString(), "c"); ASSERT_EQ(db_iter_->value().ToString(), "6"); db_iter_->Prev(); ASSERT_TRUE(db_iter_->Valid()); ASSERT_EQ(db_iter_->key().ToString(), "b"); ASSERT_EQ(db_iter_->value().ToString(), "5"); db_iter_->Prev(); ASSERT_TRUE(db_iter_->Valid()); ASSERT_EQ(db_iter_->key().ToString(), "a"); ASSERT_EQ(db_iter_->value().ToString(), "4"); } TEST_F(DBIterWithMergeIterTest, InnerMergeIteratorDataRace1) { // Test Prev() when one child iterator is at its end but more rows // are added. db_iter_->Seek("f"); ASSERT_TRUE(db_iter_->Valid()); ASSERT_EQ(db_iter_->key().ToString(), "f"); ASSERT_EQ(db_iter_->value().ToString(), "2"); // Test call back inserts a key in the end of the mem table after // MergeIterator::Prev() realized the mem table iterator is at its end // and before an SeekToLast() is called. rocksdb::SyncPoint::GetInstance()->SetCallBack( "MergeIterator::Prev:BeforePrev", [&](void* /*arg*/) { internal_iter2_->Add("z", kTypeValue, "7", 12u); }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); db_iter_->Prev(); ASSERT_TRUE(db_iter_->Valid()); ASSERT_EQ(db_iter_->key().ToString(), "d"); ASSERT_EQ(db_iter_->value().ToString(), "7"); db_iter_->Prev(); ASSERT_TRUE(db_iter_->Valid()); ASSERT_EQ(db_iter_->key().ToString(), "c"); ASSERT_EQ(db_iter_->value().ToString(), "6"); db_iter_->Prev(); ASSERT_TRUE(db_iter_->Valid()); ASSERT_EQ(db_iter_->key().ToString(), "b"); ASSERT_EQ(db_iter_->value().ToString(), "5"); db_iter_->Prev(); ASSERT_TRUE(db_iter_->Valid()); ASSERT_EQ(db_iter_->key().ToString(), "a"); ASSERT_EQ(db_iter_->value().ToString(), "4"); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); } TEST_F(DBIterWithMergeIterTest, InnerMergeIteratorDataRace2) { // Test Prev() when one child iterator is at its end but more rows // are added. db_iter_->Seek("f"); ASSERT_TRUE(db_iter_->Valid()); ASSERT_EQ(db_iter_->key().ToString(), "f"); ASSERT_EQ(db_iter_->value().ToString(), "2"); // Test call back inserts entries for update a key in the end of the // mem table after MergeIterator::Prev() realized the mem tableiterator is at // its end and before an SeekToLast() is called. rocksdb::SyncPoint::GetInstance()->SetCallBack( "MergeIterator::Prev:BeforePrev", [&](void* /*arg*/) { internal_iter2_->Add("z", kTypeValue, "7", 12u); internal_iter2_->Add("z", kTypeValue, "7", 11u); }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); db_iter_->Prev(); ASSERT_TRUE(db_iter_->Valid()); ASSERT_EQ(db_iter_->key().ToString(), "d"); ASSERT_EQ(db_iter_->value().ToString(), "7"); db_iter_->Prev(); ASSERT_TRUE(db_iter_->Valid()); ASSERT_EQ(db_iter_->key().ToString(), "c"); ASSERT_EQ(db_iter_->value().ToString(), "6"); db_iter_->Prev(); ASSERT_TRUE(db_iter_->Valid()); ASSERT_EQ(db_iter_->key().ToString(), "b"); ASSERT_EQ(db_iter_->value().ToString(), "5"); db_iter_->Prev(); ASSERT_TRUE(db_iter_->Valid()); ASSERT_EQ(db_iter_->key().ToString(), "a"); ASSERT_EQ(db_iter_->value().ToString(), "4"); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); } TEST_F(DBIterWithMergeIterTest, InnerMergeIteratorDataRace3) { // Test Prev() when one child iterator is at its end but more rows // are added and max_skipped is triggered. db_iter_->Seek("f"); ASSERT_TRUE(db_iter_->Valid()); ASSERT_EQ(db_iter_->key().ToString(), "f"); ASSERT_EQ(db_iter_->value().ToString(), "2"); // Test call back inserts entries for update a key in the end of the // mem table after MergeIterator::Prev() realized the mem table iterator is at // its end and before an SeekToLast() is called. rocksdb::SyncPoint::GetInstance()->SetCallBack( "MergeIterator::Prev:BeforePrev", [&](void* /*arg*/) { internal_iter2_->Add("z", kTypeValue, "7", 16u, true); internal_iter2_->Add("z", kTypeValue, "7", 15u, true); internal_iter2_->Add("z", kTypeValue, "7", 14u, true); internal_iter2_->Add("z", kTypeValue, "7", 13u, true); internal_iter2_->Add("z", kTypeValue, "7", 12u, true); internal_iter2_->Add("z", kTypeValue, "7", 11u, true); }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); db_iter_->Prev(); ASSERT_TRUE(db_iter_->Valid()); ASSERT_EQ(db_iter_->key().ToString(), "d"); ASSERT_EQ(db_iter_->value().ToString(), "7"); db_iter_->Prev(); ASSERT_TRUE(db_iter_->Valid()); ASSERT_EQ(db_iter_->key().ToString(), "c"); ASSERT_EQ(db_iter_->value().ToString(), "6"); db_iter_->Prev(); ASSERT_TRUE(db_iter_->Valid()); ASSERT_EQ(db_iter_->key().ToString(), "b"); ASSERT_EQ(db_iter_->value().ToString(), "5"); db_iter_->Prev(); ASSERT_TRUE(db_iter_->Valid()); ASSERT_EQ(db_iter_->key().ToString(), "a"); ASSERT_EQ(db_iter_->value().ToString(), "4"); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); } TEST_F(DBIterWithMergeIterTest, InnerMergeIteratorDataRace4) { // Test Prev() when one child iterator has more rows inserted // between Seek() and Prev() when changing directions. internal_iter2_->Add("z", kTypeValue, "9", 4u); db_iter_->Seek("g"); ASSERT_TRUE(db_iter_->Valid()); ASSERT_EQ(db_iter_->key().ToString(), "g"); ASSERT_EQ(db_iter_->value().ToString(), "3"); // Test call back inserts entries for update a key before "z" in // mem table after MergeIterator::Prev() calls mem table iterator's // Seek() and before calling Prev() rocksdb::SyncPoint::GetInstance()->SetCallBack( "MergeIterator::Prev:BeforePrev", [&](void* arg) { IteratorWrapper* it = reinterpret_cast(arg); if (it->key().starts_with("z")) { internal_iter2_->Add("x", kTypeValue, "7", 16u, true); internal_iter2_->Add("x", kTypeValue, "7", 15u, true); internal_iter2_->Add("x", kTypeValue, "7", 14u, true); internal_iter2_->Add("x", kTypeValue, "7", 13u, true); internal_iter2_->Add("x", kTypeValue, "7", 12u, true); internal_iter2_->Add("x", kTypeValue, "7", 11u, true); } }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); db_iter_->Prev(); ASSERT_TRUE(db_iter_->Valid()); ASSERT_EQ(db_iter_->key().ToString(), "f"); ASSERT_EQ(db_iter_->value().ToString(), "2"); db_iter_->Prev(); ASSERT_TRUE(db_iter_->Valid()); ASSERT_EQ(db_iter_->key().ToString(), "d"); ASSERT_EQ(db_iter_->value().ToString(), "7"); db_iter_->Prev(); ASSERT_TRUE(db_iter_->Valid()); ASSERT_EQ(db_iter_->key().ToString(), "c"); ASSERT_EQ(db_iter_->value().ToString(), "6"); db_iter_->Prev(); ASSERT_TRUE(db_iter_->Valid()); ASSERT_EQ(db_iter_->key().ToString(), "b"); ASSERT_EQ(db_iter_->value().ToString(), "5"); db_iter_->Prev(); ASSERT_TRUE(db_iter_->Valid()); ASSERT_EQ(db_iter_->key().ToString(), "a"); ASSERT_EQ(db_iter_->value().ToString(), "4"); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); } TEST_F(DBIterWithMergeIterTest, InnerMergeIteratorDataRace5) { internal_iter2_->Add("z", kTypeValue, "9", 4u); // Test Prev() when one child iterator has more rows inserted // between Seek() and Prev() when changing directions. db_iter_->Seek("g"); ASSERT_TRUE(db_iter_->Valid()); ASSERT_EQ(db_iter_->key().ToString(), "g"); ASSERT_EQ(db_iter_->value().ToString(), "3"); // Test call back inserts entries for update a key before "z" in // mem table after MergeIterator::Prev() calls mem table iterator's // Seek() and before calling Prev() rocksdb::SyncPoint::GetInstance()->SetCallBack( "MergeIterator::Prev:BeforePrev", [&](void* arg) { IteratorWrapper* it = reinterpret_cast(arg); if (it->key().starts_with("z")) { internal_iter2_->Add("x", kTypeValue, "7", 16u, true); internal_iter2_->Add("x", kTypeValue, "7", 15u, true); } }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); db_iter_->Prev(); ASSERT_TRUE(db_iter_->Valid()); ASSERT_EQ(db_iter_->key().ToString(), "f"); ASSERT_EQ(db_iter_->value().ToString(), "2"); db_iter_->Prev(); ASSERT_TRUE(db_iter_->Valid()); ASSERT_EQ(db_iter_->key().ToString(), "d"); ASSERT_EQ(db_iter_->value().ToString(), "7"); db_iter_->Prev(); ASSERT_TRUE(db_iter_->Valid()); ASSERT_EQ(db_iter_->key().ToString(), "c"); ASSERT_EQ(db_iter_->value().ToString(), "6"); db_iter_->Prev(); ASSERT_TRUE(db_iter_->Valid()); ASSERT_EQ(db_iter_->key().ToString(), "b"); ASSERT_EQ(db_iter_->value().ToString(), "5"); db_iter_->Prev(); ASSERT_TRUE(db_iter_->Valid()); ASSERT_EQ(db_iter_->key().ToString(), "a"); ASSERT_EQ(db_iter_->value().ToString(), "4"); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); } TEST_F(DBIterWithMergeIterTest, InnerMergeIteratorDataRace6) { internal_iter2_->Add("z", kTypeValue, "9", 4u); // Test Prev() when one child iterator has more rows inserted // between Seek() and Prev() when changing directions. db_iter_->Seek("g"); ASSERT_TRUE(db_iter_->Valid()); ASSERT_EQ(db_iter_->key().ToString(), "g"); ASSERT_EQ(db_iter_->value().ToString(), "3"); // Test call back inserts an entry for update a key before "z" in // mem table after MergeIterator::Prev() calls mem table iterator's // Seek() and before calling Prev() rocksdb::SyncPoint::GetInstance()->SetCallBack( "MergeIterator::Prev:BeforePrev", [&](void* arg) { IteratorWrapper* it = reinterpret_cast(arg); if (it->key().starts_with("z")) { internal_iter2_->Add("x", kTypeValue, "7", 16u, true); } }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); db_iter_->Prev(); ASSERT_TRUE(db_iter_->Valid()); ASSERT_EQ(db_iter_->key().ToString(), "f"); ASSERT_EQ(db_iter_->value().ToString(), "2"); db_iter_->Prev(); ASSERT_TRUE(db_iter_->Valid()); ASSERT_EQ(db_iter_->key().ToString(), "d"); ASSERT_EQ(db_iter_->value().ToString(), "7"); db_iter_->Prev(); ASSERT_TRUE(db_iter_->Valid()); ASSERT_EQ(db_iter_->key().ToString(), "c"); ASSERT_EQ(db_iter_->value().ToString(), "6"); db_iter_->Prev(); ASSERT_TRUE(db_iter_->Valid()); ASSERT_EQ(db_iter_->key().ToString(), "b"); ASSERT_EQ(db_iter_->value().ToString(), "5"); db_iter_->Prev(); ASSERT_TRUE(db_iter_->Valid()); ASSERT_EQ(db_iter_->key().ToString(), "a"); ASSERT_EQ(db_iter_->value().ToString(), "4"); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); } TEST_F(DBIterWithMergeIterTest, InnerMergeIteratorDataRace7) { internal_iter1_->Add("u", kTypeValue, "10", 4u); internal_iter1_->Add("v", kTypeValue, "11", 4u); internal_iter1_->Add("w", kTypeValue, "12", 4u); internal_iter2_->Add("z", kTypeValue, "9", 4u); // Test Prev() when one child iterator has more rows inserted // between Seek() and Prev() when changing directions. db_iter_->Seek("g"); ASSERT_TRUE(db_iter_->Valid()); ASSERT_EQ(db_iter_->key().ToString(), "g"); ASSERT_EQ(db_iter_->value().ToString(), "3"); // Test call back inserts entries for update a key before "z" in // mem table after MergeIterator::Prev() calls mem table iterator's // Seek() and before calling Prev() rocksdb::SyncPoint::GetInstance()->SetCallBack( "MergeIterator::Prev:BeforePrev", [&](void* arg) { IteratorWrapper* it = reinterpret_cast(arg); if (it->key().starts_with("z")) { internal_iter2_->Add("x", kTypeValue, "7", 16u, true); internal_iter2_->Add("x", kTypeValue, "7", 15u, true); internal_iter2_->Add("x", kTypeValue, "7", 14u, true); internal_iter2_->Add("x", kTypeValue, "7", 13u, true); internal_iter2_->Add("x", kTypeValue, "7", 12u, true); internal_iter2_->Add("x", kTypeValue, "7", 11u, true); } }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); db_iter_->Prev(); ASSERT_TRUE(db_iter_->Valid()); ASSERT_EQ(db_iter_->key().ToString(), "f"); ASSERT_EQ(db_iter_->value().ToString(), "2"); db_iter_->Prev(); ASSERT_TRUE(db_iter_->Valid()); ASSERT_EQ(db_iter_->key().ToString(), "d"); ASSERT_EQ(db_iter_->value().ToString(), "7"); db_iter_->Prev(); ASSERT_TRUE(db_iter_->Valid()); ASSERT_EQ(db_iter_->key().ToString(), "c"); ASSERT_EQ(db_iter_->value().ToString(), "6"); db_iter_->Prev(); ASSERT_TRUE(db_iter_->Valid()); ASSERT_EQ(db_iter_->key().ToString(), "b"); ASSERT_EQ(db_iter_->value().ToString(), "5"); db_iter_->Prev(); ASSERT_TRUE(db_iter_->Valid()); ASSERT_EQ(db_iter_->key().ToString(), "a"); ASSERT_EQ(db_iter_->value().ToString(), "4"); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); } TEST_F(DBIterWithMergeIterTest, InnerMergeIteratorDataRace8) { // internal_iter1_: a, f, g // internal_iter2_: a, b, c, d, adding (z) internal_iter2_->Add("z", kTypeValue, "9", 4u); // Test Prev() when one child iterator has more rows inserted // between Seek() and Prev() when changing directions. db_iter_->Seek("g"); ASSERT_TRUE(db_iter_->Valid()); ASSERT_EQ(db_iter_->key().ToString(), "g"); ASSERT_EQ(db_iter_->value().ToString(), "3"); // Test call back inserts two keys before "z" in mem table after // MergeIterator::Prev() calls mem table iterator's Seek() and // before calling Prev() rocksdb::SyncPoint::GetInstance()->SetCallBack( "MergeIterator::Prev:BeforePrev", [&](void* arg) { IteratorWrapper* it = reinterpret_cast(arg); if (it->key().starts_with("z")) { internal_iter2_->Add("x", kTypeValue, "7", 16u, true); internal_iter2_->Add("y", kTypeValue, "7", 17u, true); } }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); db_iter_->Prev(); ASSERT_TRUE(db_iter_->Valid()); ASSERT_EQ(db_iter_->key().ToString(), "f"); ASSERT_EQ(db_iter_->value().ToString(), "2"); db_iter_->Prev(); ASSERT_TRUE(db_iter_->Valid()); ASSERT_EQ(db_iter_->key().ToString(), "d"); ASSERT_EQ(db_iter_->value().ToString(), "7"); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); } TEST_F(DBIteratorTest, SeekPrefixTombstones) { ReadOptions ro; Options options; options.prefix_extractor.reset(NewNoopTransform()); TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddDeletion("b"); internal_iter->AddDeletion("c"); internal_iter->AddDeletion("d"); internal_iter->AddDeletion("e"); internal_iter->AddDeletion("f"); internal_iter->AddDeletion("g"); internal_iter->Finish(); ro.prefix_same_as_start = true; std::unique_ptr db_iter(NewDBIterator( env_, ro, ImmutableCFOptions(options), MutableCFOptions(options), BytewiseComparator(), internal_iter, 10, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); int skipped_keys = 0; get_perf_context()->Reset(); db_iter->SeekForPrev("z"); skipped_keys = static_cast(get_perf_context()->internal_key_skipped_count); ASSERT_EQ(skipped_keys, 0); get_perf_context()->Reset(); db_iter->Seek("a"); skipped_keys = static_cast(get_perf_context()->internal_key_skipped_count); ASSERT_EQ(skipped_keys, 0); } TEST_F(DBIteratorTest, SeekToFirstLowerBound) { const int kNumKeys = 3; for (int i = 0; i < kNumKeys + 2; ++i) { // + 2 for two special cases: lower bound before and lower bound after the // internal iterator's keys TestIterator* internal_iter = new TestIterator(BytewiseComparator()); for (int j = 1; j <= kNumKeys; ++j) { internal_iter->AddPut(std::to_string(j), "val"); } internal_iter->Finish(); ReadOptions ro; auto lower_bound_str = std::to_string(i); Slice lower_bound(lower_bound_str); ro.iterate_lower_bound = &lower_bound; Options options; std::unique_ptr db_iter(NewDBIterator( env_, ro, ImmutableCFOptions(options), MutableCFOptions(options), BytewiseComparator(), internal_iter, 10 /* sequence */, options.max_sequential_skip_in_iterations, nullptr /* read_callback */)); db_iter->SeekToFirst(); if (i == kNumKeys + 1) { // lower bound was beyond the last key ASSERT_FALSE(db_iter->Valid()); } else { ASSERT_TRUE(db_iter->Valid()); int expected; if (i == 0) { // lower bound was before the first key expected = 1; } else { // lower bound was at the ith key expected = i; } ASSERT_EQ(std::to_string(expected), db_iter->key().ToString()); } } } TEST_F(DBIteratorTest, PrevLowerBound) { const int kNumKeys = 3; const int kLowerBound = 2; TestIterator* internal_iter = new TestIterator(BytewiseComparator()); for (int j = 1; j <= kNumKeys; ++j) { internal_iter->AddPut(std::to_string(j), "val"); } internal_iter->Finish(); ReadOptions ro; auto lower_bound_str = std::to_string(kLowerBound); Slice lower_bound(lower_bound_str); ro.iterate_lower_bound = &lower_bound; Options options; std::unique_ptr db_iter(NewDBIterator( env_, ro, ImmutableCFOptions(options), MutableCFOptions(options), BytewiseComparator(), internal_iter, 10 /* sequence */, options.max_sequential_skip_in_iterations, nullptr /* read_callback */)); db_iter->SeekToLast(); for (int i = kNumKeys; i >= kLowerBound; --i) { ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(std::to_string(i), db_iter->key().ToString()); db_iter->Prev(); } ASSERT_FALSE(db_iter->Valid()); } TEST_F(DBIteratorTest, SeekLessLowerBound) { const int kNumKeys = 3; const int kLowerBound = 2; TestIterator* internal_iter = new TestIterator(BytewiseComparator()); for (int j = 1; j <= kNumKeys; ++j) { internal_iter->AddPut(std::to_string(j), "val"); } internal_iter->Finish(); ReadOptions ro; auto lower_bound_str = std::to_string(kLowerBound); Slice lower_bound(lower_bound_str); ro.iterate_lower_bound = &lower_bound; Options options; std::unique_ptr db_iter(NewDBIterator( env_, ro, ImmutableCFOptions(options), MutableCFOptions(options), BytewiseComparator(), internal_iter, 10 /* sequence */, options.max_sequential_skip_in_iterations, nullptr /* read_callback */)); auto before_lower_bound_str = std::to_string(kLowerBound - 1); Slice before_lower_bound(lower_bound_str); db_iter->Seek(before_lower_bound); ASSERT_TRUE(db_iter->Valid()); ASSERT_EQ(lower_bound_str, db_iter->key().ToString()); } TEST_F(DBIteratorTest, ReverseToForwardWithDisappearingKeys) { Options options; options.prefix_extractor.reset(NewCappedPrefixTransform(0)); TestIterator* internal_iter = new TestIterator(BytewiseComparator()); internal_iter->AddPut("a", "A"); internal_iter->AddPut("b", "B"); for (int i = 0; i < 100; ++i) { internal_iter->AddPut("c" + ToString(i), ""); } internal_iter->Finish(); std::unique_ptr db_iter(NewDBIterator( env_, ReadOptions(), ImmutableCFOptions(options), MutableCFOptions(options), BytewiseComparator(), internal_iter, 10, options.max_sequential_skip_in_iterations, nullptr /*read_callback*/)); db_iter->SeekForPrev("a"); ASSERT_TRUE(db_iter->Valid()); ASSERT_OK(db_iter->status()); ASSERT_EQ("a", db_iter->key().ToString()); internal_iter->Vanish("a"); db_iter->Next(); ASSERT_TRUE(db_iter->Valid()); ASSERT_OK(db_iter->status()); ASSERT_EQ("b", db_iter->key().ToString()); // A (sort of) bug used to cause DBIter to pointlessly drag the internal // iterator all the way to the end. But this doesn't really matter at the time // of writing because the only iterator that can see disappearing keys is // ForwardIterator, which doesn't support SeekForPrev(). EXPECT_LT(internal_iter->steps(), 20); } } // namespace rocksdb int main(int argc, char** argv) { ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/db/db_iterator_test.cc000066400000000000000000002315021337235545400175040ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include #include "db/db_iter.h" #include "db/db_test_util.h" #include "port/port.h" #include "port/stack_trace.h" #include "rocksdb/iostats_context.h" #include "rocksdb/perf_context.h" namespace rocksdb { // A dumb ReadCallback which saying every key is committed. class DummyReadCallback : public ReadCallback { bool IsVisible(SequenceNumber /*seq*/) override { return true; } }; // Test param: // bool: whether to pass read_callback to NewIterator(). class DBIteratorTest : public DBTestBase, public testing::WithParamInterface { public: DBIteratorTest() : DBTestBase("/db_iterator_test") {} Iterator* NewIterator(const ReadOptions& read_options, ColumnFamilyHandle* column_family = nullptr) { if (column_family == nullptr) { column_family = db_->DefaultColumnFamily(); } auto* cfd = reinterpret_cast(column_family)->cfd(); SequenceNumber seq = read_options.snapshot != nullptr ? read_options.snapshot->GetSequenceNumber() : db_->GetLatestSequenceNumber(); bool use_read_callback = GetParam(); ReadCallback* read_callback = use_read_callback ? &read_callback_ : nullptr; return dbfull()->NewIteratorImpl(read_options, cfd, seq, read_callback); } private: DummyReadCallback read_callback_; }; class FlushBlockEveryKeyPolicy : public FlushBlockPolicy { public: virtual bool Update(const Slice& /*key*/, const Slice& /*value*/) override { if (!start_) { start_ = true; return false; } return true; } private: bool start_ = false; }; class FlushBlockEveryKeyPolicyFactory : public FlushBlockPolicyFactory { public: explicit FlushBlockEveryKeyPolicyFactory() {} const char* Name() const override { return "FlushBlockEveryKeyPolicyFactory"; } FlushBlockPolicy* NewFlushBlockPolicy( const BlockBasedTableOptions& /*table_options*/, const BlockBuilder& /*data_block_builder*/) const override { return new FlushBlockEveryKeyPolicy; } }; TEST_P(DBIteratorTest, IteratorProperty) { // The test needs to be changed if kPersistedTier is supported in iterator. Options options = CurrentOptions(); CreateAndReopenWithCF({"pikachu"}, options); Put(1, "1", "2"); Delete(1, "2"); ReadOptions ropt; ropt.pin_data = false; { unique_ptr iter(NewIterator(ropt, handles_[1])); iter->SeekToFirst(); std::string prop_value; ASSERT_NOK(iter->GetProperty("non_existing.value", &prop_value)); ASSERT_OK(iter->GetProperty("rocksdb.iterator.is-key-pinned", &prop_value)); ASSERT_EQ("0", prop_value); ASSERT_OK(iter->GetProperty("rocksdb.iterator.internal-key", &prop_value)); ASSERT_EQ("1", prop_value); iter->Next(); ASSERT_OK(iter->GetProperty("rocksdb.iterator.is-key-pinned", &prop_value)); ASSERT_EQ("Iterator is not valid.", prop_value); // Get internal key at which the iteration stopped (tombstone in this case). ASSERT_OK(iter->GetProperty("rocksdb.iterator.internal-key", &prop_value)); ASSERT_EQ("2", prop_value); } Close(); } TEST_P(DBIteratorTest, PersistedTierOnIterator) { // The test needs to be changed if kPersistedTier is supported in iterator. Options options = CurrentOptions(); CreateAndReopenWithCF({"pikachu"}, options); ReadOptions ropt; ropt.read_tier = kPersistedTier; auto* iter = db_->NewIterator(ropt, handles_[1]); ASSERT_TRUE(iter->status().IsNotSupported()); delete iter; std::vector iters; ASSERT_TRUE(db_->NewIterators(ropt, {handles_[1]}, &iters).IsNotSupported()); Close(); } TEST_P(DBIteratorTest, NonBlockingIteration) { do { ReadOptions non_blocking_opts, regular_opts; Options options = CurrentOptions(); options.statistics = rocksdb::CreateDBStatistics(); non_blocking_opts.read_tier = kBlockCacheTier; CreateAndReopenWithCF({"pikachu"}, options); // write one kv to the database. ASSERT_OK(Put(1, "a", "b")); // scan using non-blocking iterator. We should find it because // it is in memtable. Iterator* iter = NewIterator(non_blocking_opts, handles_[1]); int count = 0; for (iter->SeekToFirst(); iter->Valid(); iter->Next()) { ASSERT_OK(iter->status()); count++; } ASSERT_EQ(count, 1); delete iter; // flush memtable to storage. Now, the key should not be in the // memtable neither in the block cache. ASSERT_OK(Flush(1)); // verify that a non-blocking iterator does not find any // kvs. Neither does it do any IOs to storage. uint64_t numopen = TestGetTickerCount(options, NO_FILE_OPENS); uint64_t cache_added = TestGetTickerCount(options, BLOCK_CACHE_ADD); iter = NewIterator(non_blocking_opts, handles_[1]); count = 0; for (iter->SeekToFirst(); iter->Valid(); iter->Next()) { count++; } ASSERT_EQ(count, 0); ASSERT_TRUE(iter->status().IsIncomplete()); ASSERT_EQ(numopen, TestGetTickerCount(options, NO_FILE_OPENS)); ASSERT_EQ(cache_added, TestGetTickerCount(options, BLOCK_CACHE_ADD)); delete iter; // read in the specified block via a regular get ASSERT_EQ(Get(1, "a"), "b"); // verify that we can find it via a non-blocking scan numopen = TestGetTickerCount(options, NO_FILE_OPENS); cache_added = TestGetTickerCount(options, BLOCK_CACHE_ADD); iter = NewIterator(non_blocking_opts, handles_[1]); count = 0; for (iter->SeekToFirst(); iter->Valid(); iter->Next()) { ASSERT_OK(iter->status()); count++; } ASSERT_EQ(count, 1); ASSERT_EQ(numopen, TestGetTickerCount(options, NO_FILE_OPENS)); ASSERT_EQ(cache_added, TestGetTickerCount(options, BLOCK_CACHE_ADD)); delete iter; // This test verifies block cache behaviors, which is not used by plain // table format. // Exclude kHashCuckoo as it does not support iteration currently } while (ChangeOptions(kSkipPlainTable | kSkipNoSeekToLast | kSkipHashCuckoo | kSkipMmapReads)); } TEST_P(DBIteratorTest, IterSeekBeforePrev) { ASSERT_OK(Put("a", "b")); ASSERT_OK(Put("c", "d")); dbfull()->Flush(FlushOptions()); ASSERT_OK(Put("0", "f")); ASSERT_OK(Put("1", "h")); dbfull()->Flush(FlushOptions()); ASSERT_OK(Put("2", "j")); auto iter = NewIterator(ReadOptions()); iter->Seek(Slice("c")); iter->Prev(); iter->Seek(Slice("a")); iter->Prev(); delete iter; } TEST_P(DBIteratorTest, IterSeekForPrevBeforeNext) { ASSERT_OK(Put("a", "b")); ASSERT_OK(Put("c", "d")); dbfull()->Flush(FlushOptions()); ASSERT_OK(Put("0", "f")); ASSERT_OK(Put("1", "h")); dbfull()->Flush(FlushOptions()); ASSERT_OK(Put("2", "j")); auto iter = NewIterator(ReadOptions()); iter->SeekForPrev(Slice("0")); iter->Next(); iter->SeekForPrev(Slice("1")); iter->Next(); delete iter; } namespace { std::string MakeLongKey(size_t length, char c) { return std::string(length, c); } } // namespace TEST_P(DBIteratorTest, IterLongKeys) { ASSERT_OK(Put(MakeLongKey(20, 0), "0")); ASSERT_OK(Put(MakeLongKey(32, 2), "2")); ASSERT_OK(Put("a", "b")); dbfull()->Flush(FlushOptions()); ASSERT_OK(Put(MakeLongKey(50, 1), "1")); ASSERT_OK(Put(MakeLongKey(127, 3), "3")); ASSERT_OK(Put(MakeLongKey(64, 4), "4")); auto iter = NewIterator(ReadOptions()); // Create a key that needs to be skipped for Seq too new iter->Seek(MakeLongKey(20, 0)); ASSERT_EQ(IterStatus(iter), MakeLongKey(20, 0) + "->0"); iter->Next(); ASSERT_EQ(IterStatus(iter), MakeLongKey(50, 1) + "->1"); iter->Next(); ASSERT_EQ(IterStatus(iter), MakeLongKey(32, 2) + "->2"); iter->Next(); ASSERT_EQ(IterStatus(iter), MakeLongKey(127, 3) + "->3"); iter->Next(); ASSERT_EQ(IterStatus(iter), MakeLongKey(64, 4) + "->4"); iter->SeekForPrev(MakeLongKey(127, 3)); ASSERT_EQ(IterStatus(iter), MakeLongKey(127, 3) + "->3"); iter->Prev(); ASSERT_EQ(IterStatus(iter), MakeLongKey(32, 2) + "->2"); iter->Prev(); ASSERT_EQ(IterStatus(iter), MakeLongKey(50, 1) + "->1"); delete iter; iter = NewIterator(ReadOptions()); iter->Seek(MakeLongKey(50, 1)); ASSERT_EQ(IterStatus(iter), MakeLongKey(50, 1) + "->1"); iter->Next(); ASSERT_EQ(IterStatus(iter), MakeLongKey(32, 2) + "->2"); iter->Next(); ASSERT_EQ(IterStatus(iter), MakeLongKey(127, 3) + "->3"); delete iter; } TEST_P(DBIteratorTest, IterNextWithNewerSeq) { ASSERT_OK(Put("0", "0")); dbfull()->Flush(FlushOptions()); ASSERT_OK(Put("a", "b")); ASSERT_OK(Put("c", "d")); ASSERT_OK(Put("d", "e")); auto iter = NewIterator(ReadOptions()); // Create a key that needs to be skipped for Seq too new for (uint64_t i = 0; i < last_options_.max_sequential_skip_in_iterations + 1; i++) { ASSERT_OK(Put("b", "f")); } iter->Seek(Slice("a")); ASSERT_EQ(IterStatus(iter), "a->b"); iter->Next(); ASSERT_EQ(IterStatus(iter), "c->d"); iter->SeekForPrev(Slice("b")); ASSERT_EQ(IterStatus(iter), "a->b"); iter->Next(); ASSERT_EQ(IterStatus(iter), "c->d"); delete iter; } TEST_P(DBIteratorTest, IterPrevWithNewerSeq) { ASSERT_OK(Put("0", "0")); dbfull()->Flush(FlushOptions()); ASSERT_OK(Put("a", "b")); ASSERT_OK(Put("c", "d")); ASSERT_OK(Put("d", "e")); auto iter = NewIterator(ReadOptions()); // Create a key that needs to be skipped for Seq too new for (uint64_t i = 0; i < last_options_.max_sequential_skip_in_iterations + 1; i++) { ASSERT_OK(Put("b", "f")); } iter->Seek(Slice("d")); ASSERT_EQ(IterStatus(iter), "d->e"); iter->Prev(); ASSERT_EQ(IterStatus(iter), "c->d"); iter->Prev(); ASSERT_EQ(IterStatus(iter), "a->b"); iter->Prev(); iter->SeekForPrev(Slice("d")); ASSERT_EQ(IterStatus(iter), "d->e"); iter->Prev(); ASSERT_EQ(IterStatus(iter), "c->d"); iter->Prev(); ASSERT_EQ(IterStatus(iter), "a->b"); iter->Prev(); delete iter; } TEST_P(DBIteratorTest, IterPrevWithNewerSeq2) { ASSERT_OK(Put("0", "0")); dbfull()->Flush(FlushOptions()); ASSERT_OK(Put("a", "b")); ASSERT_OK(Put("c", "d")); ASSERT_OK(Put("e", "f")); auto iter = NewIterator(ReadOptions()); auto iter2 = NewIterator(ReadOptions()); iter->Seek(Slice("c")); iter2->SeekForPrev(Slice("d")); ASSERT_EQ(IterStatus(iter), "c->d"); ASSERT_EQ(IterStatus(iter2), "c->d"); // Create a key that needs to be skipped for Seq too new for (uint64_t i = 0; i < last_options_.max_sequential_skip_in_iterations + 1; i++) { ASSERT_OK(Put("b", "f")); } iter->Prev(); ASSERT_EQ(IterStatus(iter), "a->b"); iter->Prev(); iter2->Prev(); ASSERT_EQ(IterStatus(iter2), "a->b"); iter2->Prev(); delete iter; delete iter2; } TEST_P(DBIteratorTest, IterEmpty) { do { CreateAndReopenWithCF({"pikachu"}, CurrentOptions()); Iterator* iter = NewIterator(ReadOptions(), handles_[1]); iter->SeekToFirst(); ASSERT_EQ(IterStatus(iter), "(invalid)"); iter->SeekToLast(); ASSERT_EQ(IterStatus(iter), "(invalid)"); iter->Seek("foo"); ASSERT_EQ(IterStatus(iter), "(invalid)"); iter->SeekForPrev("foo"); ASSERT_EQ(IterStatus(iter), "(invalid)"); delete iter; } while (ChangeCompactOptions()); } TEST_P(DBIteratorTest, IterSingle) { do { CreateAndReopenWithCF({"pikachu"}, CurrentOptions()); ASSERT_OK(Put(1, "a", "va")); Iterator* iter = NewIterator(ReadOptions(), handles_[1]); iter->SeekToFirst(); ASSERT_EQ(IterStatus(iter), "a->va"); iter->Next(); ASSERT_EQ(IterStatus(iter), "(invalid)"); iter->SeekToFirst(); ASSERT_EQ(IterStatus(iter), "a->va"); iter->Prev(); ASSERT_EQ(IterStatus(iter), "(invalid)"); iter->SeekToLast(); ASSERT_EQ(IterStatus(iter), "a->va"); iter->Next(); ASSERT_EQ(IterStatus(iter), "(invalid)"); iter->SeekToLast(); ASSERT_EQ(IterStatus(iter), "a->va"); iter->Prev(); ASSERT_EQ(IterStatus(iter), "(invalid)"); iter->Seek(""); ASSERT_EQ(IterStatus(iter), "a->va"); iter->Next(); ASSERT_EQ(IterStatus(iter), "(invalid)"); iter->SeekForPrev(""); ASSERT_EQ(IterStatus(iter), "(invalid)"); iter->Seek("a"); ASSERT_EQ(IterStatus(iter), "a->va"); iter->Next(); ASSERT_EQ(IterStatus(iter), "(invalid)"); iter->SeekForPrev("a"); ASSERT_EQ(IterStatus(iter), "a->va"); iter->Prev(); ASSERT_EQ(IterStatus(iter), "(invalid)"); iter->Seek("b"); ASSERT_EQ(IterStatus(iter), "(invalid)"); iter->SeekForPrev("b"); ASSERT_EQ(IterStatus(iter), "a->va"); iter->Prev(); ASSERT_EQ(IterStatus(iter), "(invalid)"); delete iter; } while (ChangeCompactOptions()); } TEST_P(DBIteratorTest, IterMulti) { do { CreateAndReopenWithCF({"pikachu"}, CurrentOptions()); ASSERT_OK(Put(1, "a", "va")); ASSERT_OK(Put(1, "b", "vb")); ASSERT_OK(Put(1, "c", "vc")); Iterator* iter = NewIterator(ReadOptions(), handles_[1]); iter->SeekToFirst(); ASSERT_EQ(IterStatus(iter), "a->va"); iter->Next(); ASSERT_EQ(IterStatus(iter), "b->vb"); iter->Next(); ASSERT_EQ(IterStatus(iter), "c->vc"); iter->Next(); ASSERT_EQ(IterStatus(iter), "(invalid)"); iter->SeekToFirst(); ASSERT_EQ(IterStatus(iter), "a->va"); iter->Prev(); ASSERT_EQ(IterStatus(iter), "(invalid)"); iter->SeekToLast(); ASSERT_EQ(IterStatus(iter), "c->vc"); iter->Prev(); ASSERT_EQ(IterStatus(iter), "b->vb"); iter->Prev(); ASSERT_EQ(IterStatus(iter), "a->va"); iter->Prev(); ASSERT_EQ(IterStatus(iter), "(invalid)"); iter->SeekToLast(); ASSERT_EQ(IterStatus(iter), "c->vc"); iter->Next(); ASSERT_EQ(IterStatus(iter), "(invalid)"); iter->Seek(""); ASSERT_EQ(IterStatus(iter), "a->va"); iter->Seek("a"); ASSERT_EQ(IterStatus(iter), "a->va"); iter->Seek("ax"); ASSERT_EQ(IterStatus(iter), "b->vb"); iter->SeekForPrev("d"); ASSERT_EQ(IterStatus(iter), "c->vc"); iter->SeekForPrev("c"); ASSERT_EQ(IterStatus(iter), "c->vc"); iter->SeekForPrev("bx"); ASSERT_EQ(IterStatus(iter), "b->vb"); iter->Seek("b"); ASSERT_EQ(IterStatus(iter), "b->vb"); iter->Seek("z"); ASSERT_EQ(IterStatus(iter), "(invalid)"); iter->SeekForPrev("b"); ASSERT_EQ(IterStatus(iter), "b->vb"); iter->SeekForPrev(""); ASSERT_EQ(IterStatus(iter), "(invalid)"); // Switch from reverse to forward iter->SeekToLast(); iter->Prev(); iter->Prev(); iter->Next(); ASSERT_EQ(IterStatus(iter), "b->vb"); // Switch from forward to reverse iter->SeekToFirst(); iter->Next(); iter->Next(); iter->Prev(); ASSERT_EQ(IterStatus(iter), "b->vb"); // Make sure iter stays at snapshot ASSERT_OK(Put(1, "a", "va2")); ASSERT_OK(Put(1, "a2", "va3")); ASSERT_OK(Put(1, "b", "vb2")); ASSERT_OK(Put(1, "c", "vc2")); ASSERT_OK(Delete(1, "b")); iter->SeekToFirst(); ASSERT_EQ(IterStatus(iter), "a->va"); iter->Next(); ASSERT_EQ(IterStatus(iter), "b->vb"); iter->Next(); ASSERT_EQ(IterStatus(iter), "c->vc"); iter->Next(); ASSERT_EQ(IterStatus(iter), "(invalid)"); iter->SeekToLast(); ASSERT_EQ(IterStatus(iter), "c->vc"); iter->Prev(); ASSERT_EQ(IterStatus(iter), "b->vb"); iter->Prev(); ASSERT_EQ(IterStatus(iter), "a->va"); iter->Prev(); ASSERT_EQ(IterStatus(iter), "(invalid)"); delete iter; } while (ChangeCompactOptions()); } // Check that we can skip over a run of user keys // by using reseek rather than sequential scan TEST_P(DBIteratorTest, IterReseek) { anon::OptionsOverride options_override; options_override.skip_policy = kSkipNoSnapshot; Options options = CurrentOptions(options_override); options.max_sequential_skip_in_iterations = 3; options.create_if_missing = true; options.statistics = rocksdb::CreateDBStatistics(); DestroyAndReopen(options); CreateAndReopenWithCF({"pikachu"}, options); // insert three keys with same userkey and verify that // reseek is not invoked. For each of these test cases, // verify that we can find the next key "b". ASSERT_OK(Put(1, "a", "zero")); ASSERT_OK(Put(1, "a", "one")); ASSERT_OK(Put(1, "a", "two")); ASSERT_OK(Put(1, "b", "bone")); Iterator* iter = NewIterator(ReadOptions(), handles_[1]); iter->SeekToFirst(); ASSERT_EQ(TestGetTickerCount(options, NUMBER_OF_RESEEKS_IN_ITERATION), 0); ASSERT_EQ(IterStatus(iter), "a->two"); iter->Next(); ASSERT_EQ(TestGetTickerCount(options, NUMBER_OF_RESEEKS_IN_ITERATION), 0); ASSERT_EQ(IterStatus(iter), "b->bone"); delete iter; // insert a total of three keys with same userkey and verify // that reseek is still not invoked. ASSERT_OK(Put(1, "a", "three")); iter = NewIterator(ReadOptions(), handles_[1]); iter->SeekToFirst(); ASSERT_EQ(IterStatus(iter), "a->three"); iter->Next(); ASSERT_EQ(TestGetTickerCount(options, NUMBER_OF_RESEEKS_IN_ITERATION), 0); ASSERT_EQ(IterStatus(iter), "b->bone"); delete iter; // insert a total of four keys with same userkey and verify // that reseek is invoked. ASSERT_OK(Put(1, "a", "four")); iter = NewIterator(ReadOptions(), handles_[1]); iter->SeekToFirst(); ASSERT_EQ(IterStatus(iter), "a->four"); ASSERT_EQ(TestGetTickerCount(options, NUMBER_OF_RESEEKS_IN_ITERATION), 0); iter->Next(); ASSERT_EQ(TestGetTickerCount(options, NUMBER_OF_RESEEKS_IN_ITERATION), 1); ASSERT_EQ(IterStatus(iter), "b->bone"); delete iter; // Testing reverse iterator // At this point, we have three versions of "a" and one version of "b". // The reseek statistics is already at 1. int num_reseeks = static_cast( TestGetTickerCount(options, NUMBER_OF_RESEEKS_IN_ITERATION)); // Insert another version of b and assert that reseek is not invoked ASSERT_OK(Put(1, "b", "btwo")); iter = NewIterator(ReadOptions(), handles_[1]); iter->SeekToLast(); ASSERT_EQ(IterStatus(iter), "b->btwo"); ASSERT_EQ(TestGetTickerCount(options, NUMBER_OF_RESEEKS_IN_ITERATION), num_reseeks); iter->Prev(); ASSERT_EQ(TestGetTickerCount(options, NUMBER_OF_RESEEKS_IN_ITERATION), num_reseeks + 1); ASSERT_EQ(IterStatus(iter), "a->four"); delete iter; // insert two more versions of b. This makes a total of 4 versions // of b and 4 versions of a. ASSERT_OK(Put(1, "b", "bthree")); ASSERT_OK(Put(1, "b", "bfour")); iter = NewIterator(ReadOptions(), handles_[1]); iter->SeekToLast(); ASSERT_EQ(IterStatus(iter), "b->bfour"); ASSERT_EQ(TestGetTickerCount(options, NUMBER_OF_RESEEKS_IN_ITERATION), num_reseeks + 2); iter->Prev(); // the previous Prev call should have invoked reseek ASSERT_EQ(TestGetTickerCount(options, NUMBER_OF_RESEEKS_IN_ITERATION), num_reseeks + 3); ASSERT_EQ(IterStatus(iter), "a->four"); delete iter; } TEST_P(DBIteratorTest, IterSmallAndLargeMix) { do { CreateAndReopenWithCF({"pikachu"}, CurrentOptions()); ASSERT_OK(Put(1, "a", "va")); ASSERT_OK(Put(1, "b", std::string(100000, 'b'))); ASSERT_OK(Put(1, "c", "vc")); ASSERT_OK(Put(1, "d", std::string(100000, 'd'))); ASSERT_OK(Put(1, "e", std::string(100000, 'e'))); Iterator* iter = NewIterator(ReadOptions(), handles_[1]); iter->SeekToFirst(); ASSERT_EQ(IterStatus(iter), "a->va"); iter->Next(); ASSERT_EQ(IterStatus(iter), "b->" + std::string(100000, 'b')); iter->Next(); ASSERT_EQ(IterStatus(iter), "c->vc"); iter->Next(); ASSERT_EQ(IterStatus(iter), "d->" + std::string(100000, 'd')); iter->Next(); ASSERT_EQ(IterStatus(iter), "e->" + std::string(100000, 'e')); iter->Next(); ASSERT_EQ(IterStatus(iter), "(invalid)"); iter->SeekToLast(); ASSERT_EQ(IterStatus(iter), "e->" + std::string(100000, 'e')); iter->Prev(); ASSERT_EQ(IterStatus(iter), "d->" + std::string(100000, 'd')); iter->Prev(); ASSERT_EQ(IterStatus(iter), "c->vc"); iter->Prev(); ASSERT_EQ(IterStatus(iter), "b->" + std::string(100000, 'b')); iter->Prev(); ASSERT_EQ(IterStatus(iter), "a->va"); iter->Prev(); ASSERT_EQ(IterStatus(iter), "(invalid)"); delete iter; } while (ChangeCompactOptions()); } TEST_P(DBIteratorTest, IterMultiWithDelete) { do { CreateAndReopenWithCF({"pikachu"}, CurrentOptions()); ASSERT_OK(Put(1, "ka", "va")); ASSERT_OK(Put(1, "kb", "vb")); ASSERT_OK(Put(1, "kc", "vc")); ASSERT_OK(Delete(1, "kb")); ASSERT_EQ("NOT_FOUND", Get(1, "kb")); Iterator* iter = NewIterator(ReadOptions(), handles_[1]); iter->Seek("kc"); ASSERT_EQ(IterStatus(iter), "kc->vc"); if (!CurrentOptions().merge_operator) { // TODO: merge operator does not support backward iteration yet if (kPlainTableAllBytesPrefix != option_config_ && kBlockBasedTableWithWholeKeyHashIndex != option_config_ && kHashLinkList != option_config_ && kHashSkipList != option_config_) { // doesn't support SeekToLast iter->Prev(); ASSERT_EQ(IterStatus(iter), "ka->va"); } } delete iter; } while (ChangeOptions()); } TEST_P(DBIteratorTest, IterPrevMaxSkip) { do { CreateAndReopenWithCF({"pikachu"}, CurrentOptions()); for (int i = 0; i < 2; i++) { ASSERT_OK(Put(1, "key1", "v1")); ASSERT_OK(Put(1, "key2", "v2")); ASSERT_OK(Put(1, "key3", "v3")); ASSERT_OK(Put(1, "key4", "v4")); ASSERT_OK(Put(1, "key5", "v5")); } VerifyIterLast("key5->v5", 1); ASSERT_OK(Delete(1, "key5")); VerifyIterLast("key4->v4", 1); ASSERT_OK(Delete(1, "key4")); VerifyIterLast("key3->v3", 1); ASSERT_OK(Delete(1, "key3")); VerifyIterLast("key2->v2", 1); ASSERT_OK(Delete(1, "key2")); VerifyIterLast("key1->v1", 1); ASSERT_OK(Delete(1, "key1")); VerifyIterLast("(invalid)", 1); } while (ChangeOptions(kSkipMergePut | kSkipNoSeekToLast)); } TEST_P(DBIteratorTest, IterWithSnapshot) { anon::OptionsOverride options_override; options_override.skip_policy = kSkipNoSnapshot; do { CreateAndReopenWithCF({"pikachu"}, CurrentOptions(options_override)); ASSERT_OK(Put(1, "key1", "val1")); ASSERT_OK(Put(1, "key2", "val2")); ASSERT_OK(Put(1, "key3", "val3")); ASSERT_OK(Put(1, "key4", "val4")); ASSERT_OK(Put(1, "key5", "val5")); const Snapshot* snapshot = db_->GetSnapshot(); ReadOptions options; options.snapshot = snapshot; Iterator* iter = NewIterator(options, handles_[1]); ASSERT_OK(Put(1, "key0", "val0")); // Put more values after the snapshot ASSERT_OK(Put(1, "key100", "val100")); ASSERT_OK(Put(1, "key101", "val101")); iter->Seek("key5"); ASSERT_EQ(IterStatus(iter), "key5->val5"); if (!CurrentOptions().merge_operator) { // TODO: merge operator does not support backward iteration yet if (kPlainTableAllBytesPrefix != option_config_ && kBlockBasedTableWithWholeKeyHashIndex != option_config_ && kHashLinkList != option_config_ && kHashSkipList != option_config_) { iter->Prev(); ASSERT_EQ(IterStatus(iter), "key4->val4"); iter->Prev(); ASSERT_EQ(IterStatus(iter), "key3->val3"); iter->Next(); ASSERT_EQ(IterStatus(iter), "key4->val4"); iter->Next(); ASSERT_EQ(IterStatus(iter), "key5->val5"); } iter->Next(); ASSERT_TRUE(!iter->Valid()); } if (!CurrentOptions().merge_operator) { // TODO(gzh): merge operator does not support backward iteration yet if (kPlainTableAllBytesPrefix != option_config_ && kBlockBasedTableWithWholeKeyHashIndex != option_config_ && kHashLinkList != option_config_ && kHashSkipList != option_config_) { iter->SeekForPrev("key1"); ASSERT_EQ(IterStatus(iter), "key1->val1"); iter->Next(); ASSERT_EQ(IterStatus(iter), "key2->val2"); iter->Next(); ASSERT_EQ(IterStatus(iter), "key3->val3"); iter->Prev(); ASSERT_EQ(IterStatus(iter), "key2->val2"); iter->Prev(); ASSERT_EQ(IterStatus(iter), "key1->val1"); iter->Prev(); ASSERT_TRUE(!iter->Valid()); } } db_->ReleaseSnapshot(snapshot); delete iter; // skip as HashCuckooRep does not support snapshot } while (ChangeOptions(kSkipHashCuckoo)); } TEST_P(DBIteratorTest, IteratorPinsRef) { do { CreateAndReopenWithCF({"pikachu"}, CurrentOptions()); Put(1, "foo", "hello"); // Get iterator that will yield the current contents of the DB. Iterator* iter = NewIterator(ReadOptions(), handles_[1]); // Write to force compactions Put(1, "foo", "newvalue1"); for (int i = 0; i < 100; i++) { // 100K values ASSERT_OK(Put(1, Key(i), Key(i) + std::string(100000, 'v'))); } Put(1, "foo", "newvalue2"); iter->SeekToFirst(); ASSERT_TRUE(iter->Valid()); ASSERT_EQ("foo", iter->key().ToString()); ASSERT_EQ("hello", iter->value().ToString()); iter->Next(); ASSERT_TRUE(!iter->Valid()); delete iter; } while (ChangeCompactOptions()); } // SetOptions not defined in ROCKSDB LITE #ifndef ROCKSDB_LITE TEST_P(DBIteratorTest, DBIteratorBoundTest) { Options options = CurrentOptions(); options.env = env_; options.create_if_missing = true; options.prefix_extractor = nullptr; DestroyAndReopen(options); ASSERT_OK(Put("a", "0")); ASSERT_OK(Put("foo", "bar")); ASSERT_OK(Put("foo1", "bar1")); ASSERT_OK(Put("g1", "0")); // testing basic case with no iterate_upper_bound and no prefix_extractor { ReadOptions ro; ro.iterate_upper_bound = nullptr; std::unique_ptr iter(NewIterator(ro)); iter->Seek("foo"); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(iter->key().compare(Slice("foo")), 0); iter->Next(); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(iter->key().compare(Slice("foo1")), 0); iter->Next(); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(iter->key().compare(Slice("g1")), 0); iter->SeekForPrev("g1"); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(iter->key().compare(Slice("g1")), 0); iter->Prev(); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(iter->key().compare(Slice("foo1")), 0); iter->Prev(); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(iter->key().compare(Slice("foo")), 0); } // testing iterate_upper_bound and forward iterator // to make sure it stops at bound { ReadOptions ro; // iterate_upper_bound points beyond the last expected entry Slice prefix("foo2"); ro.iterate_upper_bound = &prefix; std::unique_ptr iter(NewIterator(ro)); iter->Seek("foo"); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(iter->key().compare(Slice("foo")), 0); iter->Next(); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(iter->key().compare(("foo1")), 0); iter->Next(); // should stop here... ASSERT_TRUE(!iter->Valid()); } // Testing SeekToLast with iterate_upper_bound set { ReadOptions ro; Slice prefix("foo"); ro.iterate_upper_bound = &prefix; std::unique_ptr iter(NewIterator(ro)); iter->SeekToLast(); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(iter->key().compare(Slice("a")), 0); } // prefix is the first letter of the key ASSERT_OK(dbfull()->SetOptions({{"prefix_extractor", "fixed:1"}})); ASSERT_OK(Put("a", "0")); ASSERT_OK(Put("foo", "bar")); ASSERT_OK(Put("foo1", "bar1")); ASSERT_OK(Put("g1", "0")); // testing with iterate_upper_bound and prefix_extractor // Seek target and iterate_upper_bound are not is same prefix // This should be an error { ReadOptions ro; Slice upper_bound("g"); ro.iterate_upper_bound = &upper_bound; std::unique_ptr iter(NewIterator(ro)); iter->Seek("foo"); ASSERT_TRUE(iter->Valid()); ASSERT_EQ("foo", iter->key().ToString()); iter->Next(); ASSERT_TRUE(iter->Valid()); ASSERT_EQ("foo1", iter->key().ToString()); iter->Next(); ASSERT_TRUE(!iter->Valid()); } // testing that iterate_upper_bound prevents iterating over deleted items // if the bound has already reached { options.prefix_extractor = nullptr; DestroyAndReopen(options); ASSERT_OK(Put("a", "0")); ASSERT_OK(Put("b", "0")); ASSERT_OK(Put("b1", "0")); ASSERT_OK(Put("c", "0")); ASSERT_OK(Put("d", "0")); ASSERT_OK(Put("e", "0")); ASSERT_OK(Delete("c")); ASSERT_OK(Delete("d")); // base case with no bound ReadOptions ro; ro.iterate_upper_bound = nullptr; std::unique_ptr iter(NewIterator(ro)); iter->Seek("b"); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(iter->key().compare(Slice("b")), 0); iter->Next(); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(iter->key().compare(("b1")), 0); get_perf_context()->Reset(); iter->Next(); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(static_cast(get_perf_context()->internal_delete_skipped_count), 2); // now testing with iterate_bound Slice prefix("c"); ro.iterate_upper_bound = &prefix; iter.reset(NewIterator(ro)); get_perf_context()->Reset(); iter->Seek("b"); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(iter->key().compare(Slice("b")), 0); iter->Next(); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(iter->key().compare(("b1")), 0); iter->Next(); // the iteration should stop as soon as the bound key is reached // even though the key is deleted // hence internal_delete_skipped_count should be 0 ASSERT_TRUE(!iter->Valid()); ASSERT_EQ(static_cast(get_perf_context()->internal_delete_skipped_count), 0); } } TEST_P(DBIteratorTest, DBIteratorBoundMultiSeek) { Options options = CurrentOptions(); options.env = env_; options.create_if_missing = true; options.statistics = rocksdb::CreateDBStatistics(); options.prefix_extractor = nullptr; DestroyAndReopen(options); ASSERT_OK(Put("a", "0")); ASSERT_OK(Put("z", "0")); ASSERT_OK(Flush()); ASSERT_OK(Put("foo1", "bar1")); ASSERT_OK(Put("foo2", "bar2")); ASSERT_OK(Put("foo3", "bar3")); ASSERT_OK(Put("foo4", "bar4")); { std::string up_str = "foo5"; Slice up(up_str); ReadOptions ro; ro.iterate_upper_bound = &up; std::unique_ptr iter(NewIterator(ro)); iter->Seek("foo1"); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(iter->key().compare(Slice("foo1")), 0); uint64_t prev_block_cache_hit = TestGetTickerCount(options, BLOCK_CACHE_HIT); uint64_t prev_block_cache_miss = TestGetTickerCount(options, BLOCK_CACHE_MISS); ASSERT_GT(prev_block_cache_hit + prev_block_cache_miss, 0); iter->Seek("foo4"); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(iter->key().compare(Slice("foo4")), 0); ASSERT_EQ(prev_block_cache_hit, TestGetTickerCount(options, BLOCK_CACHE_HIT)); ASSERT_EQ(prev_block_cache_miss, TestGetTickerCount(options, BLOCK_CACHE_MISS)); iter->Seek("foo2"); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(iter->key().compare(Slice("foo2")), 0); iter->Next(); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(iter->key().compare(Slice("foo3")), 0); ASSERT_EQ(prev_block_cache_hit, TestGetTickerCount(options, BLOCK_CACHE_HIT)); ASSERT_EQ(prev_block_cache_miss, TestGetTickerCount(options, BLOCK_CACHE_MISS)); } } #endif TEST_P(DBIteratorTest, DBIteratorBoundOptimizationTest) { int upper_bound_hits = 0; Options options = CurrentOptions(); rocksdb::SyncPoint::GetInstance()->SetCallBack( "BlockBasedTable::BlockEntryIteratorState::KeyReachedUpperBound", [&upper_bound_hits](void* arg) { assert(arg != nullptr); upper_bound_hits += (*static_cast(arg) ? 1 : 0); }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); options.env = env_; options.create_if_missing = true; options.prefix_extractor = nullptr; BlockBasedTableOptions table_options; table_options.flush_block_policy_factory = std::make_shared(); options.table_factory.reset(NewBlockBasedTableFactory(table_options)); DestroyAndReopen(options); ASSERT_OK(Put("foo1", "bar1")); ASSERT_OK(Put("foo2", "bar2")); ASSERT_OK(Put("foo4", "bar4")); ASSERT_OK(Flush()); Slice ub("foo3"); ReadOptions ro; ro.iterate_upper_bound = &ub; std::unique_ptr iter(NewIterator(ro)); iter->Seek("foo"); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(iter->key().compare(Slice("foo1")), 0); ASSERT_EQ(upper_bound_hits, 0); iter->Next(); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(iter->key().compare(Slice("foo2")), 0); ASSERT_EQ(upper_bound_hits, 0); iter->Next(); ASSERT_FALSE(iter->Valid()); ASSERT_EQ(upper_bound_hits, 1); } // TODO(3.13): fix the issue of Seek() + Prev() which might not necessary // return the biggest key which is smaller than the seek key. TEST_P(DBIteratorTest, PrevAfterAndNextAfterMerge) { Options options; options.create_if_missing = true; options.merge_operator = MergeOperators::CreatePutOperator(); options.env = env_; DestroyAndReopen(options); // write three entries with different keys using Merge() WriteOptions wopts; db_->Merge(wopts, "1", "data1"); db_->Merge(wopts, "2", "data2"); db_->Merge(wopts, "3", "data3"); std::unique_ptr it(NewIterator(ReadOptions())); it->Seek("2"); ASSERT_TRUE(it->Valid()); ASSERT_EQ("2", it->key().ToString()); it->Prev(); ASSERT_TRUE(it->Valid()); ASSERT_EQ("1", it->key().ToString()); it->SeekForPrev("1"); ASSERT_TRUE(it->Valid()); ASSERT_EQ("1", it->key().ToString()); it->Next(); ASSERT_TRUE(it->Valid()); ASSERT_EQ("2", it->key().ToString()); } class DBIteratorTestForPinnedData : public DBIteratorTest { public: enum TestConfig { NORMAL, CLOSE_AND_OPEN, COMPACT_BEFORE_READ, FLUSH_EVERY_1000, MAX }; DBIteratorTestForPinnedData() : DBIteratorTest() {} void PinnedDataIteratorRandomized(TestConfig run_config) { // Generate Random data Random rnd(301); int puts = 100000; int key_pool = static_cast(puts * 0.7); int key_size = 100; int val_size = 1000; int seeks_percentage = 20; // 20% of keys will be used to test seek() int delete_percentage = 20; // 20% of keys will be deleted int merge_percentage = 20; // 20% of keys will be added using Merge() Options options = CurrentOptions(); BlockBasedTableOptions table_options; table_options.use_delta_encoding = false; options.table_factory.reset(NewBlockBasedTableFactory(table_options)); options.merge_operator = MergeOperators::CreatePutOperator(); DestroyAndReopen(options); std::vector generated_keys(key_pool); for (int i = 0; i < key_pool; i++) { generated_keys[i] = RandomString(&rnd, key_size); } std::map true_data; std::vector random_keys; std::vector deleted_keys; for (int i = 0; i < puts; i++) { auto& k = generated_keys[rnd.Next() % key_pool]; auto v = RandomString(&rnd, val_size); // Insert data to true_data map and to DB true_data[k] = v; if (rnd.OneIn(static_cast(100.0 / merge_percentage))) { ASSERT_OK(db_->Merge(WriteOptions(), k, v)); } else { ASSERT_OK(Put(k, v)); } // Pick random keys to be used to test Seek() if (rnd.OneIn(static_cast(100.0 / seeks_percentage))) { random_keys.push_back(k); } // Delete some random keys if (rnd.OneIn(static_cast(100.0 / delete_percentage))) { deleted_keys.push_back(k); true_data.erase(k); ASSERT_OK(Delete(k)); } if (run_config == TestConfig::FLUSH_EVERY_1000) { if (i && i % 1000 == 0) { Flush(); } } } if (run_config == TestConfig::CLOSE_AND_OPEN) { Close(); Reopen(options); } else if (run_config == TestConfig::COMPACT_BEFORE_READ) { db_->CompactRange(CompactRangeOptions(), nullptr, nullptr); } ReadOptions ro; ro.pin_data = true; auto iter = NewIterator(ro); { // Test Seek to random keys std::vector keys_slices; std::vector true_keys; for (auto& k : random_keys) { iter->Seek(k); if (!iter->Valid()) { ASSERT_EQ(true_data.lower_bound(k), true_data.end()); continue; } std::string prop_value; ASSERT_OK( iter->GetProperty("rocksdb.iterator.is-key-pinned", &prop_value)); ASSERT_EQ("1", prop_value); keys_slices.push_back(iter->key()); true_keys.push_back(true_data.lower_bound(k)->first); } for (size_t i = 0; i < keys_slices.size(); i++) { ASSERT_EQ(keys_slices[i].ToString(), true_keys[i]); } } { // Test SeekForPrev to random keys std::vector keys_slices; std::vector true_keys; for (auto& k : random_keys) { iter->SeekForPrev(k); if (!iter->Valid()) { ASSERT_EQ(true_data.upper_bound(k), true_data.begin()); continue; } std::string prop_value; ASSERT_OK( iter->GetProperty("rocksdb.iterator.is-key-pinned", &prop_value)); ASSERT_EQ("1", prop_value); keys_slices.push_back(iter->key()); true_keys.push_back((--true_data.upper_bound(k))->first); } for (size_t i = 0; i < keys_slices.size(); i++) { ASSERT_EQ(keys_slices[i].ToString(), true_keys[i]); } } { // Test iterating all data forward std::vector all_keys; for (iter->SeekToFirst(); iter->Valid(); iter->Next()) { std::string prop_value; ASSERT_OK( iter->GetProperty("rocksdb.iterator.is-key-pinned", &prop_value)); ASSERT_EQ("1", prop_value); all_keys.push_back(iter->key()); } ASSERT_EQ(all_keys.size(), true_data.size()); // Verify that all keys slices are valid auto data_iter = true_data.begin(); for (size_t i = 0; i < all_keys.size(); i++) { ASSERT_EQ(all_keys[i].ToString(), data_iter->first); data_iter++; } } { // Test iterating all data backward std::vector all_keys; for (iter->SeekToLast(); iter->Valid(); iter->Prev()) { std::string prop_value; ASSERT_OK( iter->GetProperty("rocksdb.iterator.is-key-pinned", &prop_value)); ASSERT_EQ("1", prop_value); all_keys.push_back(iter->key()); } ASSERT_EQ(all_keys.size(), true_data.size()); // Verify that all keys slices are valid (backward) auto data_iter = true_data.rbegin(); for (size_t i = 0; i < all_keys.size(); i++) { ASSERT_EQ(all_keys[i].ToString(), data_iter->first); data_iter++; } } delete iter; } }; TEST_P(DBIteratorTestForPinnedData, PinnedDataIteratorRandomizedNormal) { PinnedDataIteratorRandomized(TestConfig::NORMAL); } TEST_P(DBIteratorTestForPinnedData, PinnedDataIteratorRandomizedCLoseAndOpen) { PinnedDataIteratorRandomized(TestConfig::CLOSE_AND_OPEN); } TEST_P(DBIteratorTestForPinnedData, PinnedDataIteratorRandomizedCompactBeforeRead) { PinnedDataIteratorRandomized(TestConfig::COMPACT_BEFORE_READ); } TEST_P(DBIteratorTestForPinnedData, PinnedDataIteratorRandomizedFlush) { PinnedDataIteratorRandomized(TestConfig::FLUSH_EVERY_1000); } #ifndef ROCKSDB_LITE TEST_P(DBIteratorTest, PinnedDataIteratorMultipleFiles) { Options options = CurrentOptions(); BlockBasedTableOptions table_options; table_options.use_delta_encoding = false; options.table_factory.reset(NewBlockBasedTableFactory(table_options)); options.disable_auto_compactions = true; options.write_buffer_size = 1024 * 1024 * 10; // 10 Mb DestroyAndReopen(options); std::map true_data; // Generate 4 sst files in L2 Random rnd(301); for (int i = 1; i <= 1000; i++) { std::string k = Key(i * 3); std::string v = RandomString(&rnd, 100); ASSERT_OK(Put(k, v)); true_data[k] = v; if (i % 250 == 0) { ASSERT_OK(Flush()); } } ASSERT_EQ(FilesPerLevel(0), "4"); ASSERT_OK(db_->CompactRange(CompactRangeOptions(), nullptr, nullptr)); ASSERT_EQ(FilesPerLevel(0), "0,4"); // Generate 4 sst files in L0 for (int i = 1; i <= 1000; i++) { std::string k = Key(i * 2); std::string v = RandomString(&rnd, 100); ASSERT_OK(Put(k, v)); true_data[k] = v; if (i % 250 == 0) { ASSERT_OK(Flush()); } } ASSERT_EQ(FilesPerLevel(0), "4,4"); // Add some keys/values in memtables for (int i = 1; i <= 1000; i++) { std::string k = Key(i); std::string v = RandomString(&rnd, 100); ASSERT_OK(Put(k, v)); true_data[k] = v; } ASSERT_EQ(FilesPerLevel(0), "4,4"); ReadOptions ro; ro.pin_data = true; auto iter = NewIterator(ro); std::vector> results; for (iter->SeekToFirst(); iter->Valid(); iter->Next()) { std::string prop_value; ASSERT_OK(iter->GetProperty("rocksdb.iterator.is-key-pinned", &prop_value)); ASSERT_EQ("1", prop_value); results.emplace_back(iter->key(), iter->value().ToString()); } ASSERT_EQ(results.size(), true_data.size()); auto data_iter = true_data.begin(); for (size_t i = 0; i < results.size(); i++, data_iter++) { auto& kv = results[i]; ASSERT_EQ(kv.first, data_iter->first); ASSERT_EQ(kv.second, data_iter->second); } delete iter; } #endif TEST_P(DBIteratorTest, PinnedDataIteratorMergeOperator) { Options options = CurrentOptions(); BlockBasedTableOptions table_options; table_options.use_delta_encoding = false; options.table_factory.reset(NewBlockBasedTableFactory(table_options)); options.merge_operator = MergeOperators::CreateUInt64AddOperator(); DestroyAndReopen(options); std::string numbers[7]; for (int val = 0; val <= 6; val++) { PutFixed64(numbers + val, val); } // +1 all keys in range [ 0 => 999] for (int i = 0; i < 1000; i++) { WriteOptions wo; ASSERT_OK(db_->Merge(wo, Key(i), numbers[1])); } // +2 all keys divisible by 2 in range [ 0 => 999] for (int i = 0; i < 1000; i += 2) { WriteOptions wo; ASSERT_OK(db_->Merge(wo, Key(i), numbers[2])); } // +3 all keys divisible by 5 in range [ 0 => 999] for (int i = 0; i < 1000; i += 5) { WriteOptions wo; ASSERT_OK(db_->Merge(wo, Key(i), numbers[3])); } ReadOptions ro; ro.pin_data = true; auto iter = NewIterator(ro); std::vector> results; for (iter->SeekToFirst(); iter->Valid(); iter->Next()) { std::string prop_value; ASSERT_OK(iter->GetProperty("rocksdb.iterator.is-key-pinned", &prop_value)); ASSERT_EQ("1", prop_value); results.emplace_back(iter->key(), iter->value().ToString()); } ASSERT_EQ(results.size(), 1000); for (size_t i = 0; i < results.size(); i++) { auto& kv = results[i]; ASSERT_EQ(kv.first, Key(static_cast(i))); int expected_val = 1; if (i % 2 == 0) { expected_val += 2; } if (i % 5 == 0) { expected_val += 3; } ASSERT_EQ(kv.second, numbers[expected_val]); } delete iter; } TEST_P(DBIteratorTest, PinnedDataIteratorReadAfterUpdate) { Options options = CurrentOptions(); BlockBasedTableOptions table_options; table_options.use_delta_encoding = false; options.table_factory.reset(NewBlockBasedTableFactory(table_options)); options.write_buffer_size = 100000; DestroyAndReopen(options); Random rnd(301); std::map true_data; for (int i = 0; i < 1000; i++) { std::string k = RandomString(&rnd, 10); std::string v = RandomString(&rnd, 1000); ASSERT_OK(Put(k, v)); true_data[k] = v; } ReadOptions ro; ro.pin_data = true; auto iter = NewIterator(ro); // Delete 50% of the keys and update the other 50% for (auto& kv : true_data) { if (rnd.OneIn(2)) { ASSERT_OK(Delete(kv.first)); } else { std::string new_val = RandomString(&rnd, 1000); ASSERT_OK(Put(kv.first, new_val)); } } std::vector> results; for (iter->SeekToFirst(); iter->Valid(); iter->Next()) { std::string prop_value; ASSERT_OK(iter->GetProperty("rocksdb.iterator.is-key-pinned", &prop_value)); ASSERT_EQ("1", prop_value); results.emplace_back(iter->key(), iter->value().ToString()); } auto data_iter = true_data.begin(); for (size_t i = 0; i < results.size(); i++, data_iter++) { auto& kv = results[i]; ASSERT_EQ(kv.first, data_iter->first); ASSERT_EQ(kv.second, data_iter->second); } delete iter; } class SliceTransformLimitedDomainGeneric : public SliceTransform { const char* Name() const override { return "SliceTransformLimitedDomainGeneric"; } Slice Transform(const Slice& src) const override { return Slice(src.data(), 1); } bool InDomain(const Slice& src) const override { // prefix will be x???? return src.size() >= 1; } bool InRange(const Slice& dst) const override { // prefix will be x???? return dst.size() == 1; } }; TEST_P(DBIteratorTest, IterSeekForPrevCrossingFiles) { Options options = CurrentOptions(); options.prefix_extractor.reset(NewFixedPrefixTransform(1)); options.disable_auto_compactions = true; // Enable prefix bloom for SST files BlockBasedTableOptions table_options; table_options.filter_policy.reset(NewBloomFilterPolicy(10, true)); options.table_factory.reset(NewBlockBasedTableFactory(table_options)); DestroyAndReopen(options); ASSERT_OK(Put("a1", "va1")); ASSERT_OK(Put("a2", "va2")); ASSERT_OK(Put("a3", "va3")); ASSERT_OK(Flush()); ASSERT_OK(Put("b1", "vb1")); ASSERT_OK(Put("b2", "vb2")); ASSERT_OK(Put("b3", "vb3")); ASSERT_OK(Flush()); ASSERT_OK(Put("b4", "vb4")); ASSERT_OK(Put("d1", "vd1")); ASSERT_OK(Put("d2", "vd2")); ASSERT_OK(Put("d4", "vd4")); ASSERT_OK(Flush()); MoveFilesToLevel(1); { ReadOptions ro; Iterator* iter = NewIterator(ro); iter->SeekForPrev("a4"); ASSERT_EQ(iter->key().ToString(), "a3"); ASSERT_EQ(iter->value().ToString(), "va3"); iter->SeekForPrev("c2"); ASSERT_EQ(iter->key().ToString(), "b3"); iter->SeekForPrev("d3"); ASSERT_EQ(iter->key().ToString(), "d2"); iter->SeekForPrev("b5"); ASSERT_EQ(iter->key().ToString(), "b4"); delete iter; } { ReadOptions ro; ro.prefix_same_as_start = true; Iterator* iter = NewIterator(ro); iter->SeekForPrev("c2"); ASSERT_TRUE(!iter->Valid()); delete iter; } } TEST_P(DBIteratorTest, IterSeekForPrevCrossingFilesCustomPrefixExtractor) { Options options = CurrentOptions(); options.prefix_extractor = std::make_shared(); options.disable_auto_compactions = true; // Enable prefix bloom for SST files BlockBasedTableOptions table_options; table_options.filter_policy.reset(NewBloomFilterPolicy(10, true)); options.table_factory.reset(NewBlockBasedTableFactory(table_options)); DestroyAndReopen(options); ASSERT_OK(Put("a1", "va1")); ASSERT_OK(Put("a2", "va2")); ASSERT_OK(Put("a3", "va3")); ASSERT_OK(Flush()); ASSERT_OK(Put("b1", "vb1")); ASSERT_OK(Put("b2", "vb2")); ASSERT_OK(Put("b3", "vb3")); ASSERT_OK(Flush()); ASSERT_OK(Put("b4", "vb4")); ASSERT_OK(Put("d1", "vd1")); ASSERT_OK(Put("d2", "vd2")); ASSERT_OK(Put("d4", "vd4")); ASSERT_OK(Flush()); MoveFilesToLevel(1); { ReadOptions ro; Iterator* iter = NewIterator(ro); iter->SeekForPrev("a4"); ASSERT_EQ(iter->key().ToString(), "a3"); ASSERT_EQ(iter->value().ToString(), "va3"); iter->SeekForPrev("c2"); ASSERT_EQ(iter->key().ToString(), "b3"); iter->SeekForPrev("d3"); ASSERT_EQ(iter->key().ToString(), "d2"); iter->SeekForPrev("b5"); ASSERT_EQ(iter->key().ToString(), "b4"); delete iter; } { ReadOptions ro; ro.prefix_same_as_start = true; Iterator* iter = NewIterator(ro); iter->SeekForPrev("c2"); ASSERT_TRUE(!iter->Valid()); delete iter; } } TEST_P(DBIteratorTest, IterPrevKeyCrossingBlocks) { Options options = CurrentOptions(); BlockBasedTableOptions table_options; table_options.block_size = 1; // every block will contain one entry options.table_factory.reset(NewBlockBasedTableFactory(table_options)); options.merge_operator = MergeOperators::CreateStringAppendTESTOperator(); options.disable_auto_compactions = true; options.max_sequential_skip_in_iterations = 8; DestroyAndReopen(options); // Putting such deletes will force DBIter::Prev() to fallback to a Seek for (int file_num = 0; file_num < 10; file_num++) { ASSERT_OK(Delete("key4")); ASSERT_OK(Flush()); } // First File containing 5 blocks of puts ASSERT_OK(Put("key1", "val1.0")); ASSERT_OK(Put("key2", "val2.0")); ASSERT_OK(Put("key3", "val3.0")); ASSERT_OK(Put("key4", "val4.0")); ASSERT_OK(Put("key5", "val5.0")); ASSERT_OK(Flush()); // Second file containing 9 blocks of merge operands ASSERT_OK(db_->Merge(WriteOptions(), "key1", "val1.1")); ASSERT_OK(db_->Merge(WriteOptions(), "key1", "val1.2")); ASSERT_OK(db_->Merge(WriteOptions(), "key2", "val2.1")); ASSERT_OK(db_->Merge(WriteOptions(), "key2", "val2.2")); ASSERT_OK(db_->Merge(WriteOptions(), "key2", "val2.3")); ASSERT_OK(db_->Merge(WriteOptions(), "key3", "val3.1")); ASSERT_OK(db_->Merge(WriteOptions(), "key3", "val3.2")); ASSERT_OK(db_->Merge(WriteOptions(), "key3", "val3.3")); ASSERT_OK(db_->Merge(WriteOptions(), "key3", "val3.4")); ASSERT_OK(Flush()); { ReadOptions ro; ro.fill_cache = false; Iterator* iter = NewIterator(ro); iter->SeekToLast(); ASSERT_EQ(iter->key().ToString(), "key5"); ASSERT_EQ(iter->value().ToString(), "val5.0"); iter->Prev(); ASSERT_EQ(iter->key().ToString(), "key4"); ASSERT_EQ(iter->value().ToString(), "val4.0"); iter->Prev(); ASSERT_EQ(iter->key().ToString(), "key3"); ASSERT_EQ(iter->value().ToString(), "val3.0,val3.1,val3.2,val3.3,val3.4"); iter->Prev(); ASSERT_EQ(iter->key().ToString(), "key2"); ASSERT_EQ(iter->value().ToString(), "val2.0,val2.1,val2.2,val2.3"); iter->Prev(); ASSERT_EQ(iter->key().ToString(), "key1"); ASSERT_EQ(iter->value().ToString(), "val1.0,val1.1,val1.2"); delete iter; } } TEST_P(DBIteratorTest, IterPrevKeyCrossingBlocksRandomized) { Options options = CurrentOptions(); options.merge_operator = MergeOperators::CreateStringAppendTESTOperator(); options.disable_auto_compactions = true; options.level0_slowdown_writes_trigger = (1 << 30); options.level0_stop_writes_trigger = (1 << 30); options.max_sequential_skip_in_iterations = 8; DestroyAndReopen(options); const int kNumKeys = 500; // Small number of merge operands to make sure that DBIter::Prev() dont // fall back to Seek() const int kNumMergeOperands = 3; // Use value size that will make sure that every block contain 1 key const int kValSize = static_cast(BlockBasedTableOptions().block_size) * 4; // Percentage of keys that wont get merge operations const int kNoMergeOpPercentage = 20; // Percentage of keys that will be deleted const int kDeletePercentage = 10; // For half of the key range we will write multiple deletes first to // force DBIter::Prev() to fall back to Seek() for (int file_num = 0; file_num < 10; file_num++) { for (int i = 0; i < kNumKeys; i += 2) { ASSERT_OK(Delete(Key(i))); } ASSERT_OK(Flush()); } Random rnd(301); std::map true_data; std::string gen_key; std::string gen_val; for (int i = 0; i < kNumKeys; i++) { gen_key = Key(i); gen_val = RandomString(&rnd, kValSize); ASSERT_OK(Put(gen_key, gen_val)); true_data[gen_key] = gen_val; } ASSERT_OK(Flush()); // Separate values and merge operands in different file so that we // make sure that we dont merge them while flushing but actually // merge them in the read path for (int i = 0; i < kNumKeys; i++) { if (rnd.OneIn(static_cast(100.0 / kNoMergeOpPercentage))) { // Dont give merge operations for some keys continue; } for (int j = 0; j < kNumMergeOperands; j++) { gen_key = Key(i); gen_val = RandomString(&rnd, kValSize); ASSERT_OK(db_->Merge(WriteOptions(), gen_key, gen_val)); true_data[gen_key] += "," + gen_val; } } ASSERT_OK(Flush()); for (int i = 0; i < kNumKeys; i++) { if (rnd.OneIn(static_cast(100.0 / kDeletePercentage))) { gen_key = Key(i); ASSERT_OK(Delete(gen_key)); true_data.erase(gen_key); } } ASSERT_OK(Flush()); { ReadOptions ro; ro.fill_cache = false; Iterator* iter = NewIterator(ro); auto data_iter = true_data.rbegin(); for (iter->SeekToLast(); iter->Valid(); iter->Prev()) { ASSERT_EQ(iter->key().ToString(), data_iter->first); ASSERT_EQ(iter->value().ToString(), data_iter->second); data_iter++; } ASSERT_EQ(data_iter, true_data.rend()); delete iter; } { ReadOptions ro; ro.fill_cache = false; Iterator* iter = NewIterator(ro); auto data_iter = true_data.rbegin(); int entries_right = 0; std::string seek_key; for (iter->SeekToLast(); iter->Valid(); iter->Prev()) { // Verify key/value of current position ASSERT_EQ(iter->key().ToString(), data_iter->first); ASSERT_EQ(iter->value().ToString(), data_iter->second); bool restore_position_with_seek = rnd.Uniform(2); if (restore_position_with_seek) { seek_key = iter->key().ToString(); } // Do some Next() operations the restore the iterator to orignal position int next_count = entries_right > 0 ? rnd.Uniform(std::min(entries_right, 10)) : 0; for (int i = 0; i < next_count; i++) { iter->Next(); data_iter--; ASSERT_EQ(iter->key().ToString(), data_iter->first); ASSERT_EQ(iter->value().ToString(), data_iter->second); } if (restore_position_with_seek) { // Restore orignal position using Seek() iter->Seek(seek_key); for (int i = 0; i < next_count; i++) { data_iter++; } ASSERT_EQ(iter->key().ToString(), data_iter->first); ASSERT_EQ(iter->value().ToString(), data_iter->second); } else { // Restore original position using Prev() for (int i = 0; i < next_count; i++) { iter->Prev(); data_iter++; ASSERT_EQ(iter->key().ToString(), data_iter->first); ASSERT_EQ(iter->value().ToString(), data_iter->second); } } entries_right++; data_iter++; } ASSERT_EQ(data_iter, true_data.rend()); delete iter; } } TEST_P(DBIteratorTest, IteratorWithLocalStatistics) { Options options = CurrentOptions(); options.statistics = rocksdb::CreateDBStatistics(); DestroyAndReopen(options); Random rnd(301); for (int i = 0; i < 1000; i++) { // Key 10 bytes / Value 10 bytes ASSERT_OK(Put(RandomString(&rnd, 10), RandomString(&rnd, 10))); } std::atomic total_next(0); std::atomic total_next_found(0); std::atomic total_prev(0); std::atomic total_prev_found(0); std::atomic total_bytes(0); std::vector threads; std::function reader_func_next = [&]() { SetPerfLevel(kEnableCount); get_perf_context()->Reset(); Iterator* iter = NewIterator(ReadOptions()); iter->SeekToFirst(); // Seek will bump ITER_BYTES_READ uint64_t bytes = 0; bytes += iter->key().size(); bytes += iter->value().size(); while (true) { iter->Next(); total_next++; if (!iter->Valid()) { break; } total_next_found++; bytes += iter->key().size(); bytes += iter->value().size(); } delete iter; ASSERT_EQ(bytes, get_perf_context()->iter_read_bytes); SetPerfLevel(kDisable); total_bytes += bytes; }; std::function reader_func_prev = [&]() { SetPerfLevel(kEnableCount); Iterator* iter = NewIterator(ReadOptions()); iter->SeekToLast(); // Seek will bump ITER_BYTES_READ uint64_t bytes = 0; bytes += iter->key().size(); bytes += iter->value().size(); while (true) { iter->Prev(); total_prev++; if (!iter->Valid()) { break; } total_prev_found++; bytes += iter->key().size(); bytes += iter->value().size(); } delete iter; ASSERT_EQ(bytes, get_perf_context()->iter_read_bytes); SetPerfLevel(kDisable); total_bytes += bytes; }; for (int i = 0; i < 10; i++) { threads.emplace_back(reader_func_next); } for (int i = 0; i < 15; i++) { threads.emplace_back(reader_func_prev); } for (auto& t : threads) { t.join(); } ASSERT_EQ(TestGetTickerCount(options, NUMBER_DB_NEXT), (uint64_t)total_next); ASSERT_EQ(TestGetTickerCount(options, NUMBER_DB_NEXT_FOUND), (uint64_t)total_next_found); ASSERT_EQ(TestGetTickerCount(options, NUMBER_DB_PREV), (uint64_t)total_prev); ASSERT_EQ(TestGetTickerCount(options, NUMBER_DB_PREV_FOUND), (uint64_t)total_prev_found); ASSERT_EQ(TestGetTickerCount(options, ITER_BYTES_READ), (uint64_t)total_bytes); } TEST_P(DBIteratorTest, ReadAhead) { Options options; env_->count_random_reads_ = true; options.env = env_; options.disable_auto_compactions = true; options.write_buffer_size = 4 << 20; options.statistics = rocksdb::CreateDBStatistics(); BlockBasedTableOptions table_options; table_options.block_size = 1024; table_options.no_block_cache = true; options.table_factory.reset(new BlockBasedTableFactory(table_options)); Reopen(options); std::string value(1024, 'a'); for (int i = 0; i < 100; i++) { Put(Key(i), value); } ASSERT_OK(Flush()); MoveFilesToLevel(2); for (int i = 0; i < 100; i++) { Put(Key(i), value); } ASSERT_OK(Flush()); MoveFilesToLevel(1); for (int i = 0; i < 100; i++) { Put(Key(i), value); } ASSERT_OK(Flush()); #ifndef ROCKSDB_LITE ASSERT_EQ("1,1,1", FilesPerLevel()); #endif // !ROCKSDB_LITE env_->random_read_bytes_counter_ = 0; options.statistics->setTickerCount(NO_FILE_OPENS, 0); ReadOptions read_options; auto* iter = NewIterator(read_options); iter->SeekToFirst(); int64_t num_file_opens = TestGetTickerCount(options, NO_FILE_OPENS); size_t bytes_read = env_->random_read_bytes_counter_; delete iter; env_->random_read_bytes_counter_ = 0; options.statistics->setTickerCount(NO_FILE_OPENS, 0); read_options.readahead_size = 1024 * 10; iter = NewIterator(read_options); iter->SeekToFirst(); int64_t num_file_opens_readahead = TestGetTickerCount(options, NO_FILE_OPENS); size_t bytes_read_readahead = env_->random_read_bytes_counter_; delete iter; ASSERT_EQ(num_file_opens + 3, num_file_opens_readahead); ASSERT_GT(bytes_read_readahead, bytes_read); ASSERT_GT(bytes_read_readahead, read_options.readahead_size * 3); // Verify correctness. iter = NewIterator(read_options); int count = 0; for (iter->SeekToFirst(); iter->Valid(); iter->Next()) { ASSERT_EQ(value, iter->value()); count++; } ASSERT_EQ(100, count); for (int i = 0; i < 100; i++) { iter->Seek(Key(i)); ASSERT_EQ(value, iter->value()); } delete iter; } // Insert a key, create a snapshot iterator, overwrite key lots of times, // seek to a smaller key. Expect DBIter to fall back to a seek instead of // going through all the overwrites linearly. TEST_P(DBIteratorTest, DBIteratorSkipRecentDuplicatesTest) { Options options = CurrentOptions(); options.env = env_; options.create_if_missing = true; options.max_sequential_skip_in_iterations = 3; options.prefix_extractor = nullptr; options.write_buffer_size = 1 << 27; // big enough to avoid flush options.statistics = rocksdb::CreateDBStatistics(); DestroyAndReopen(options); // Insert. ASSERT_OK(Put("b", "0")); // Create iterator. ReadOptions ro; std::unique_ptr iter(NewIterator(ro)); // Insert a lot. for (int i = 0; i < 100; ++i) { ASSERT_OK(Put("b", std::to_string(i + 1).c_str())); } #ifndef ROCKSDB_LITE // Check that memtable wasn't flushed. std::string val; ASSERT_TRUE(db_->GetProperty("rocksdb.num-files-at-level0", &val)); EXPECT_EQ("0", val); #endif // Seek iterator to a smaller key. get_perf_context()->Reset(); iter->Seek("a"); ASSERT_TRUE(iter->Valid()); EXPECT_EQ("b", iter->key().ToString()); EXPECT_EQ("0", iter->value().ToString()); // Check that the seek didn't do too much work. // Checks are not tight, just make sure that everything is well below 100. EXPECT_LT(get_perf_context()->internal_key_skipped_count, 4); EXPECT_LT(get_perf_context()->internal_recent_skipped_count, 8); EXPECT_LT(get_perf_context()->seek_on_memtable_count, 10); EXPECT_LT(get_perf_context()->next_on_memtable_count, 10); EXPECT_LT(get_perf_context()->prev_on_memtable_count, 10); // Check that iterator did something like what we expect. EXPECT_EQ(get_perf_context()->internal_delete_skipped_count, 0); EXPECT_EQ(get_perf_context()->internal_merge_count, 0); EXPECT_GE(get_perf_context()->internal_recent_skipped_count, 2); EXPECT_GE(get_perf_context()->seek_on_memtable_count, 2); EXPECT_EQ(1, options.statistics->getTickerCount( NUMBER_OF_RESEEKS_IN_ITERATION)); } TEST_P(DBIteratorTest, Refresh) { ASSERT_OK(Put("x", "y")); std::unique_ptr iter(NewIterator(ReadOptions())); iter->Seek(Slice("a")); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(iter->key().compare(Slice("x")), 0); iter->Next(); ASSERT_FALSE(iter->Valid()); ASSERT_OK(Put("c", "d")); iter->Seek(Slice("a")); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(iter->key().compare(Slice("x")), 0); iter->Next(); ASSERT_FALSE(iter->Valid()); iter->Refresh(); iter->Seek(Slice("a")); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(iter->key().compare(Slice("c")), 0); iter->Next(); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(iter->key().compare(Slice("x")), 0); iter->Next(); ASSERT_FALSE(iter->Valid()); dbfull()->Flush(FlushOptions()); ASSERT_OK(Put("m", "n")); iter->Seek(Slice("a")); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(iter->key().compare(Slice("c")), 0); iter->Next(); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(iter->key().compare(Slice("x")), 0); iter->Next(); ASSERT_FALSE(iter->Valid()); iter->Refresh(); iter->Seek(Slice("a")); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(iter->key().compare(Slice("c")), 0); iter->Next(); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(iter->key().compare(Slice("m")), 0); iter->Next(); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(iter->key().compare(Slice("x")), 0); iter->Next(); ASSERT_FALSE(iter->Valid()); iter.reset(); } TEST_P(DBIteratorTest, RefreshWithSnapshot) { ASSERT_OK(Put("x", "y")); const Snapshot* snapshot = db_->GetSnapshot(); ReadOptions options; options.snapshot = snapshot; Iterator* iter = NewIterator(options); iter->Seek(Slice("a")); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(iter->key().compare(Slice("x")), 0); iter->Next(); ASSERT_FALSE(iter->Valid()); ASSERT_OK(Put("c", "d")); iter->Seek(Slice("a")); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(iter->key().compare(Slice("x")), 0); iter->Next(); ASSERT_FALSE(iter->Valid()); Status s; s = iter->Refresh(); ASSERT_TRUE(s.IsNotSupported()); db_->ReleaseSnapshot(snapshot); delete iter; } TEST_P(DBIteratorTest, CreationFailure) { SyncPoint::GetInstance()->SetCallBack( "DBImpl::NewInternalIterator:StatusCallback", [](void* arg) { *(reinterpret_cast(arg)) = Status::Corruption("test status"); }); SyncPoint::GetInstance()->EnableProcessing(); Iterator* iter = NewIterator(ReadOptions()); ASSERT_FALSE(iter->Valid()); ASSERT_TRUE(iter->status().IsCorruption()); delete iter; } TEST_P(DBIteratorTest, UpperBoundWithChangeDirection) { Options options = CurrentOptions(); options.max_sequential_skip_in_iterations = 3; DestroyAndReopen(options); // write a bunch of kvs to the database. ASSERT_OK(Put("a", "1")); ASSERT_OK(Put("y", "1")); ASSERT_OK(Put("y1", "1")); ASSERT_OK(Put("y2", "1")); ASSERT_OK(Put("y3", "1")); ASSERT_OK(Put("z", "1")); ASSERT_OK(Flush()); ASSERT_OK(Put("a", "1")); ASSERT_OK(Put("z", "1")); ASSERT_OK(Put("bar", "1")); ASSERT_OK(Put("foo", "1")); std::string upper_bound = "x"; Slice ub_slice(upper_bound); ReadOptions ro; ro.iterate_upper_bound = &ub_slice; ro.max_skippable_internal_keys = 1000; Iterator* iter = NewIterator(ro); iter->Seek("foo"); ASSERT_TRUE(iter->Valid()); ASSERT_EQ("foo", iter->key().ToString()); iter->Prev(); ASSERT_TRUE(iter->Valid()); ASSERT_OK(iter->status()); ASSERT_EQ("bar", iter->key().ToString()); delete iter; } TEST_P(DBIteratorTest, TableFilter) { ASSERT_OK(Put("a", "1")); dbfull()->Flush(FlushOptions()); ASSERT_OK(Put("b", "2")); ASSERT_OK(Put("c", "3")); dbfull()->Flush(FlushOptions()); ASSERT_OK(Put("d", "4")); ASSERT_OK(Put("e", "5")); ASSERT_OK(Put("f", "6")); dbfull()->Flush(FlushOptions()); // Ensure the table_filter callback is called once for each table. { std::set unseen{1, 2, 3}; ReadOptions opts; opts.table_filter = [&](const TableProperties& props) { auto it = unseen.find(props.num_entries); if (it == unseen.end()) { ADD_FAILURE() << "saw table properties with an unexpected " << props.num_entries << " entries"; } else { unseen.erase(it); } return true; }; auto iter = NewIterator(opts); iter->SeekToFirst(); ASSERT_EQ(IterStatus(iter), "a->1"); iter->Next(); ASSERT_EQ(IterStatus(iter), "b->2"); iter->Next(); ASSERT_EQ(IterStatus(iter), "c->3"); iter->Next(); ASSERT_EQ(IterStatus(iter), "d->4"); iter->Next(); ASSERT_EQ(IterStatus(iter), "e->5"); iter->Next(); ASSERT_EQ(IterStatus(iter), "f->6"); iter->Next(); ASSERT_FALSE(iter->Valid()); ASSERT_TRUE(unseen.empty()); delete iter; } // Ensure returning false in the table_filter hides the keys from that table // during iteration. { ReadOptions opts; opts.table_filter = [](const TableProperties& props) { return props.num_entries != 2; }; auto iter = NewIterator(opts); iter->SeekToFirst(); ASSERT_EQ(IterStatus(iter), "a->1"); iter->Next(); ASSERT_EQ(IterStatus(iter), "d->4"); iter->Next(); ASSERT_EQ(IterStatus(iter), "e->5"); iter->Next(); ASSERT_EQ(IterStatus(iter), "f->6"); iter->Next(); ASSERT_FALSE(iter->Valid()); delete iter; } } TEST_P(DBIteratorTest, UpperBoundWithPrevReseek) { Options options = CurrentOptions(); options.max_sequential_skip_in_iterations = 3; DestroyAndReopen(options); // write a bunch of kvs to the database. ASSERT_OK(Put("a", "1")); ASSERT_OK(Put("y", "1")); ASSERT_OK(Put("z", "1")); ASSERT_OK(Flush()); ASSERT_OK(Put("a", "1")); ASSERT_OK(Put("z", "1")); ASSERT_OK(Put("bar", "1")); ASSERT_OK(Put("foo", "1")); ASSERT_OK(Put("foo", "2")); ASSERT_OK(Put("foo", "3")); ASSERT_OK(Put("foo", "4")); ASSERT_OK(Put("foo", "5")); const Snapshot* snapshot = db_->GetSnapshot(); ASSERT_OK(Put("foo", "6")); std::string upper_bound = "x"; Slice ub_slice(upper_bound); ReadOptions ro; ro.snapshot = snapshot; ro.iterate_upper_bound = &ub_slice; Iterator* iter = NewIterator(ro); iter->SeekForPrev("goo"); ASSERT_TRUE(iter->Valid()); ASSERT_EQ("foo", iter->key().ToString()); iter->Prev(); ASSERT_TRUE(iter->Valid()); ASSERT_EQ("bar", iter->key().ToString()); delete iter; db_->ReleaseSnapshot(snapshot); } TEST_P(DBIteratorTest, SkipStatistics) { Options options = CurrentOptions(); options.statistics = rocksdb::CreateDBStatistics(); DestroyAndReopen(options); int skip_count = 0; // write a bunch of kvs to the database. ASSERT_OK(Put("a", "1")); ASSERT_OK(Put("b", "1")); ASSERT_OK(Put("c", "1")); ASSERT_OK(Flush()); ASSERT_OK(Put("d", "1")); ASSERT_OK(Put("e", "1")); ASSERT_OK(Put("f", "1")); ASSERT_OK(Put("a", "2")); ASSERT_OK(Put("b", "2")); ASSERT_OK(Flush()); ASSERT_OK(Delete("d")); ASSERT_OK(Delete("e")); ASSERT_OK(Delete("f")); Iterator* iter = NewIterator(ReadOptions()); int count = 0; for (iter->SeekToFirst(); iter->Valid(); iter->Next()) { ASSERT_OK(iter->status()); count++; } ASSERT_EQ(count, 3); delete iter; skip_count += 8; // 3 deletes + 3 original keys + 2 lower in sequence ASSERT_EQ(skip_count, TestGetTickerCount(options, NUMBER_ITER_SKIP)); iter = NewIterator(ReadOptions()); count = 0; for (iter->SeekToLast(); iter->Valid(); iter->Prev()) { ASSERT_OK(iter->status()); count++; } ASSERT_EQ(count, 3); delete iter; skip_count += 8; // Same as above, but in reverse order ASSERT_EQ(skip_count, TestGetTickerCount(options, NUMBER_ITER_SKIP)); ASSERT_OK(Put("aa", "1")); ASSERT_OK(Put("ab", "1")); ASSERT_OK(Put("ac", "1")); ASSERT_OK(Put("ad", "1")); ASSERT_OK(Flush()); ASSERT_OK(Delete("ab")); ASSERT_OK(Delete("ac")); ASSERT_OK(Delete("ad")); ReadOptions ro; Slice prefix("b"); ro.iterate_upper_bound = &prefix; iter = NewIterator(ro); count = 0; for(iter->Seek("aa"); iter->Valid(); iter->Next()) { ASSERT_OK(iter->status()); count++; } ASSERT_EQ(count, 1); delete iter; skip_count += 6; // 3 deletes + 3 original keys ASSERT_EQ(skip_count, TestGetTickerCount(options, NUMBER_ITER_SKIP)); iter = NewIterator(ro); count = 0; for(iter->SeekToLast(); iter->Valid(); iter->Prev()) { ASSERT_OK(iter->status()); count++; } ASSERT_EQ(count, 2); delete iter; // 3 deletes + 3 original keys + lower sequence of "a" skip_count += 7; ASSERT_EQ(skip_count, TestGetTickerCount(options, NUMBER_ITER_SKIP)); } TEST_P(DBIteratorTest, SeekAfterHittingManyInternalKeys) { Options options = CurrentOptions(); DestroyAndReopen(options); ReadOptions ropts; ropts.max_skippable_internal_keys = 2; Put("1", "val_1"); // Add more tombstones than max_skippable_internal_keys so that Next() fails. Delete("2"); Delete("3"); Delete("4"); Delete("5"); Put("6", "val_6"); unique_ptr iter(NewIterator(ropts)); iter->SeekToFirst(); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(iter->key().ToString(), "1"); ASSERT_EQ(iter->value().ToString(), "val_1"); // This should fail as incomplete due to too many non-visible internal keys on // the way to the next valid user key. iter->Next(); ASSERT_TRUE(!iter->Valid()); ASSERT_TRUE(iter->status().IsIncomplete()); // Get the internal key at which Next() failed. std::string prop_value; ASSERT_OK(iter->GetProperty("rocksdb.iterator.internal-key", &prop_value)); ASSERT_EQ("4", prop_value); // Create a new iterator to seek to the internal key. unique_ptr iter2(NewIterator(ropts)); iter2->Seek(prop_value); ASSERT_TRUE(iter2->Valid()); ASSERT_OK(iter2->status()); ASSERT_EQ(iter2->key().ToString(), "6"); ASSERT_EQ(iter2->value().ToString(), "val_6"); } // Reproduces a former bug where iterator would skip some records when DBIter // re-seeks subiterator with Incomplete status. TEST_P(DBIteratorTest, NonBlockingIterationBugRepro) { Options options = CurrentOptions(); BlockBasedTableOptions table_options; // Make sure the sst file has more than one block. table_options.flush_block_policy_factory = std::make_shared(); options.table_factory.reset(NewBlockBasedTableFactory(table_options)); DestroyAndReopen(options); // Two records in sst file, each in its own block. Put("b", ""); Put("d", ""); Flush(); // Create a nonblocking iterator before writing to memtable. ReadOptions ropt; ropt.read_tier = kBlockCacheTier; unique_ptr iter(NewIterator(ropt)); // Overwrite a key in memtable many times to hit // max_sequential_skip_in_iterations (which is 8 by default). for (int i = 0; i < 20; ++i) { Put("c", ""); } // Load the second block in sst file into the block cache. { unique_ptr iter2(NewIterator(ReadOptions())); iter2->Seek("d"); } // Finally seek the nonblocking iterator. iter->Seek("a"); // With the bug, the status used to be OK, and the iterator used to point to // "d". EXPECT_TRUE(iter->status().IsIncomplete()); } TEST_P(DBIteratorTest, SeekBackwardAfterOutOfUpperBound) { Put("a", ""); Put("b", ""); Flush(); ReadOptions ropt; Slice ub = "b"; ropt.iterate_upper_bound = &ub; std::unique_ptr it(dbfull()->NewIterator(ropt)); it->SeekForPrev("a"); ASSERT_TRUE(it->Valid()); ASSERT_OK(it->status()); ASSERT_EQ("a", it->key().ToString()); it->Next(); ASSERT_FALSE(it->Valid()); ASSERT_OK(it->status()); it->SeekForPrev("a"); ASSERT_OK(it->status()); ASSERT_TRUE(it->Valid()); ASSERT_EQ("a", it->key().ToString()); } INSTANTIATE_TEST_CASE_P(DBIteratorTestInstance, DBIteratorTest, testing::Values(true, false)); // Tests how DBIter work with ReadCallback class DBIteratorWithReadCallbackTest : public DBIteratorTest {}; TEST_F(DBIteratorWithReadCallbackTest, ReadCallback) { class TestReadCallback : public ReadCallback { public: explicit TestReadCallback(SequenceNumber last_visible_seq) : last_visible_seq_(last_visible_seq) {} bool IsVisible(SequenceNumber seq) override { return seq <= last_visible_seq_; } private: SequenceNumber last_visible_seq_; }; ASSERT_OK(Put("foo", "v1")); ASSERT_OK(Put("foo", "v2")); ASSERT_OK(Put("foo", "v3")); ASSERT_OK(Put("a", "va")); ASSERT_OK(Put("z", "vz")); SequenceNumber seq1 = db_->GetLatestSequenceNumber(); TestReadCallback callback1(seq1); ASSERT_OK(Put("foo", "v4")); ASSERT_OK(Put("foo", "v5")); ASSERT_OK(Put("bar", "v7")); SequenceNumber seq2 = db_->GetLatestSequenceNumber(); auto* cfd = reinterpret_cast(db_->DefaultColumnFamily()) ->cfd(); // The iterator are suppose to see data before seq1. Iterator* iter = dbfull()->NewIteratorImpl(ReadOptions(), cfd, seq2, &callback1); // Seek // The latest value of "foo" before seq1 is "v3" iter->Seek("foo"); ASSERT_TRUE(iter->Valid()); ASSERT_OK(iter->status()); ASSERT_EQ("foo", iter->key()); ASSERT_EQ("v3", iter->value()); // "bar" is not visible to the iterator. It will move on to the next key // "foo". iter->Seek("bar"); ASSERT_TRUE(iter->Valid()); ASSERT_OK(iter->status()); ASSERT_EQ("foo", iter->key()); ASSERT_EQ("v3", iter->value()); // Next // Seek to "a" iter->Seek("a"); ASSERT_TRUE(iter->Valid()); ASSERT_OK(iter->status()); ASSERT_EQ("va", iter->value()); // "bar" is not visible to the iterator. It will move on to the next key // "foo". iter->Next(); ASSERT_TRUE(iter->Valid()); ASSERT_OK(iter->status()); ASSERT_EQ("foo", iter->key()); ASSERT_EQ("v3", iter->value()); // Prev // Seek to "z" iter->Seek("z"); ASSERT_TRUE(iter->Valid()); ASSERT_OK(iter->status()); ASSERT_EQ("vz", iter->value()); // The previous key is "foo", which is visible to the iterator. iter->Prev(); ASSERT_TRUE(iter->Valid()); ASSERT_OK(iter->status()); ASSERT_EQ("foo", iter->key()); ASSERT_EQ("v3", iter->value()); // "bar" is not visible to the iterator. It will move on to the next key "a". iter->Prev(); // skipping "bar" ASSERT_TRUE(iter->Valid()); ASSERT_OK(iter->status()); ASSERT_EQ("a", iter->key()); ASSERT_EQ("va", iter->value()); // SeekForPrev // The previous key is "foo", which is visible to the iterator. iter->SeekForPrev("y"); ASSERT_TRUE(iter->Valid()); ASSERT_OK(iter->status()); ASSERT_EQ("foo", iter->key()); ASSERT_EQ("v3", iter->value()); // "bar" is not visible to the iterator. It will move on to the next key "a". iter->SeekForPrev("bar"); ASSERT_TRUE(iter->Valid()); ASSERT_OK(iter->status()); ASSERT_EQ("a", iter->key()); ASSERT_EQ("va", iter->value()); delete iter; // Prev beyond max_sequential_skip_in_iterations uint64_t num_versions = CurrentOptions().max_sequential_skip_in_iterations + 10; for (uint64_t i = 0; i < num_versions; i++) { ASSERT_OK(Put("bar", ToString(i))); } SequenceNumber seq3 = db_->GetLatestSequenceNumber(); TestReadCallback callback2(seq3); ASSERT_OK(Put("bar", "v8")); SequenceNumber seq4 = db_->GetLatestSequenceNumber(); // The iterator is suppose to see data before seq3. iter = dbfull()->NewIteratorImpl(ReadOptions(), cfd, seq4, &callback2); // Seek to "z", which is visible. iter->Seek("z"); ASSERT_TRUE(iter->Valid()); ASSERT_OK(iter->status()); ASSERT_EQ("vz", iter->value()); // Previous key is "foo" and the last value "v5" is visible. iter->Prev(); ASSERT_TRUE(iter->Valid()); ASSERT_OK(iter->status()); ASSERT_EQ("foo", iter->key()); ASSERT_EQ("v5", iter->value()); // Since the number of values of "bar" is more than // max_sequential_skip_in_iterations, Prev() will ultimately fallback to // seek in forward direction. Here we test the fallback seek is correct. // The last visible value should be (num_versions - 1), as "v8" is not // visible. iter->Prev(); ASSERT_TRUE(iter->Valid()); ASSERT_OK(iter->status()); ASSERT_EQ("bar", iter->key()); ASSERT_EQ(ToString(num_versions - 1), iter->value()); delete iter; } } // namespace rocksdb int main(int argc, char** argv) { rocksdb::port::InstallStackTraceHandler(); ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/db/db_log_iter_test.cc000066400000000000000000000233011337235545400174530ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. // Introduction of SyncPoint effectively disabled building and running this test // in Release build. // which is a pity, it is a good test #if !defined(ROCKSDB_LITE) #include "db/db_test_util.h" #include "port/stack_trace.h" namespace rocksdb { class DBTestXactLogIterator : public DBTestBase { public: DBTestXactLogIterator() : DBTestBase("/db_log_iter_test") {} std::unique_ptr OpenTransactionLogIter( const SequenceNumber seq) { unique_ptr iter; Status status = dbfull()->GetUpdatesSince(seq, &iter); EXPECT_OK(status); EXPECT_TRUE(iter->Valid()); return iter; } }; namespace { SequenceNumber ReadRecords( std::unique_ptr& iter, int& count) { count = 0; SequenceNumber lastSequence = 0; BatchResult res; while (iter->Valid()) { res = iter->GetBatch(); EXPECT_TRUE(res.sequence > lastSequence); ++count; lastSequence = res.sequence; EXPECT_OK(iter->status()); iter->Next(); } return res.sequence; } void ExpectRecords( const int expected_no_records, std::unique_ptr& iter) { int num_records; ReadRecords(iter, num_records); ASSERT_EQ(num_records, expected_no_records); } } // namespace TEST_F(DBTestXactLogIterator, TransactionLogIterator) { do { Options options = OptionsForLogIterTest(); DestroyAndReopen(options); CreateAndReopenWithCF({"pikachu"}, options); Put(0, "key1", DummyString(1024)); Put(1, "key2", DummyString(1024)); Put(1, "key2", DummyString(1024)); ASSERT_EQ(dbfull()->GetLatestSequenceNumber(), 3U); { auto iter = OpenTransactionLogIter(0); ExpectRecords(3, iter); } ReopenWithColumnFamilies({"default", "pikachu"}, options); env_->SleepForMicroseconds(2 * 1000 * 1000); { Put(0, "key4", DummyString(1024)); Put(1, "key5", DummyString(1024)); Put(0, "key6", DummyString(1024)); } { auto iter = OpenTransactionLogIter(0); ExpectRecords(6, iter); } } while (ChangeCompactOptions()); } #ifndef NDEBUG // sync point is not included with DNDEBUG build TEST_F(DBTestXactLogIterator, TransactionLogIteratorRace) { static const int LOG_ITERATOR_RACE_TEST_COUNT = 2; static const char* sync_points[LOG_ITERATOR_RACE_TEST_COUNT][4] = { {"WalManager::GetSortedWalFiles:1", "WalManager::PurgeObsoleteFiles:1", "WalManager::PurgeObsoleteFiles:2", "WalManager::GetSortedWalFiles:2"}, {"WalManager::GetSortedWalsOfType:1", "WalManager::PurgeObsoleteFiles:1", "WalManager::PurgeObsoleteFiles:2", "WalManager::GetSortedWalsOfType:2"}}; for (int test = 0; test < LOG_ITERATOR_RACE_TEST_COUNT; ++test) { // Setup sync point dependency to reproduce the race condition of // a log file moved to archived dir, in the middle of GetSortedWalFiles rocksdb::SyncPoint::GetInstance()->LoadDependency( { { sync_points[test][0], sync_points[test][1] }, { sync_points[test][2], sync_points[test][3] }, }); do { rocksdb::SyncPoint::GetInstance()->ClearTrace(); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); Options options = OptionsForLogIterTest(); DestroyAndReopen(options); Put("key1", DummyString(1024)); dbfull()->Flush(FlushOptions()); Put("key2", DummyString(1024)); dbfull()->Flush(FlushOptions()); Put("key3", DummyString(1024)); dbfull()->Flush(FlushOptions()); Put("key4", DummyString(1024)); ASSERT_EQ(dbfull()->GetLatestSequenceNumber(), 4U); dbfull()->FlushWAL(false); { auto iter = OpenTransactionLogIter(0); ExpectRecords(4, iter); } rocksdb::SyncPoint::GetInstance()->EnableProcessing(); // trigger async flush, and log move. Well, log move will // wait until the GetSortedWalFiles:1 to reproduce the race // condition FlushOptions flush_options; flush_options.wait = false; dbfull()->Flush(flush_options); // "key5" would be written in a new memtable and log Put("key5", DummyString(1024)); dbfull()->FlushWAL(false); { // this iter would miss "key4" if not fixed auto iter = OpenTransactionLogIter(0); ExpectRecords(5, iter); } } while (ChangeCompactOptions()); } } #endif TEST_F(DBTestXactLogIterator, TransactionLogIteratorStallAtLastRecord) { do { Options options = OptionsForLogIterTest(); DestroyAndReopen(options); Put("key1", DummyString(1024)); auto iter = OpenTransactionLogIter(0); ASSERT_OK(iter->status()); ASSERT_TRUE(iter->Valid()); iter->Next(); ASSERT_TRUE(!iter->Valid()); ASSERT_OK(iter->status()); Put("key2", DummyString(1024)); iter->Next(); ASSERT_OK(iter->status()); ASSERT_TRUE(iter->Valid()); } while (ChangeCompactOptions()); } TEST_F(DBTestXactLogIterator, TransactionLogIteratorCheckAfterRestart) { do { Options options = OptionsForLogIterTest(); DestroyAndReopen(options); Put("key1", DummyString(1024)); Put("key2", DummyString(1023)); dbfull()->Flush(FlushOptions()); Reopen(options); auto iter = OpenTransactionLogIter(0); ExpectRecords(2, iter); } while (ChangeCompactOptions()); } TEST_F(DBTestXactLogIterator, TransactionLogIteratorCorruptedLog) { do { Options options = OptionsForLogIterTest(); DestroyAndReopen(options); for (int i = 0; i < 1024; i++) { Put("key"+ToString(i), DummyString(10)); } dbfull()->Flush(FlushOptions()); dbfull()->FlushWAL(false); // Corrupt this log to create a gap rocksdb::VectorLogPtr wal_files; ASSERT_OK(dbfull()->GetSortedWalFiles(wal_files)); const auto logfile_path = dbname_ + "/" + wal_files.front()->PathName(); if (mem_env_) { mem_env_->Truncate(logfile_path, wal_files.front()->SizeFileBytes() / 2); } else { ASSERT_EQ(0, truncate(logfile_path.c_str(), wal_files.front()->SizeFileBytes() / 2)); } // Insert a new entry to a new log file Put("key1025", DummyString(10)); dbfull()->FlushWAL(false); // Try to read from the beginning. Should stop before the gap and read less // than 1025 entries auto iter = OpenTransactionLogIter(0); int count; SequenceNumber last_sequence_read = ReadRecords(iter, count); ASSERT_LT(last_sequence_read, 1025U); // Try to read past the gap, should be able to seek to key1025 auto iter2 = OpenTransactionLogIter(last_sequence_read + 1); ExpectRecords(1, iter2); } while (ChangeCompactOptions()); } TEST_F(DBTestXactLogIterator, TransactionLogIteratorBatchOperations) { do { Options options = OptionsForLogIterTest(); DestroyAndReopen(options); CreateAndReopenWithCF({"pikachu"}, options); WriteBatch batch; batch.Put(handles_[1], "key1", DummyString(1024)); batch.Put(handles_[0], "key2", DummyString(1024)); batch.Put(handles_[1], "key3", DummyString(1024)); batch.Delete(handles_[0], "key2"); dbfull()->Write(WriteOptions(), &batch); Flush(1); Flush(0); ReopenWithColumnFamilies({"default", "pikachu"}, options); Put(1, "key4", DummyString(1024)); auto iter = OpenTransactionLogIter(3); ExpectRecords(2, iter); } while (ChangeCompactOptions()); } TEST_F(DBTestXactLogIterator, TransactionLogIteratorBlobs) { Options options = OptionsForLogIterTest(); DestroyAndReopen(options); CreateAndReopenWithCF({"pikachu"}, options); { WriteBatch batch; batch.Put(handles_[1], "key1", DummyString(1024)); batch.Put(handles_[0], "key2", DummyString(1024)); batch.PutLogData(Slice("blob1")); batch.Put(handles_[1], "key3", DummyString(1024)); batch.PutLogData(Slice("blob2")); batch.Delete(handles_[0], "key2"); dbfull()->Write(WriteOptions(), &batch); ReopenWithColumnFamilies({"default", "pikachu"}, options); } auto res = OpenTransactionLogIter(0)->GetBatch(); struct Handler : public WriteBatch::Handler { std::string seen; virtual Status PutCF(uint32_t cf, const Slice& key, const Slice& value) override { seen += "Put(" + ToString(cf) + ", " + key.ToString() + ", " + ToString(value.size()) + ")"; return Status::OK(); } virtual Status MergeCF(uint32_t cf, const Slice& key, const Slice& value) override { seen += "Merge(" + ToString(cf) + ", " + key.ToString() + ", " + ToString(value.size()) + ")"; return Status::OK(); } virtual void LogData(const Slice& blob) override { seen += "LogData(" + blob.ToString() + ")"; } virtual Status DeleteCF(uint32_t cf, const Slice& key) override { seen += "Delete(" + ToString(cf) + ", " + key.ToString() + ")"; return Status::OK(); } } handler; res.writeBatchPtr->Iterate(&handler); ASSERT_EQ( "Put(1, key1, 1024)" "Put(0, key2, 1024)" "LogData(blob1)" "Put(1, key3, 1024)" "LogData(blob2)" "Delete(0, key2)", handler.seen); } } // namespace rocksdb #endif // !defined(ROCKSDB_LITE) int main(int argc, char** argv) { #if !defined(ROCKSDB_LITE) rocksdb::port::InstallStackTraceHandler(); ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); #else (void) argc; (void) argv; return 0; #endif } rocksdb-5.17.2/db/db_memtable_test.cc000066400000000000000000000221211337235545400174340ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include #include #include "db/db_test_util.h" #include "db/memtable.h" #include "port/stack_trace.h" #include "rocksdb/memtablerep.h" #include "rocksdb/slice_transform.h" namespace rocksdb { class DBMemTableTest : public DBTestBase { public: DBMemTableTest() : DBTestBase("/db_memtable_test") {} }; class MockMemTableRep : public MemTableRep { public: explicit MockMemTableRep(Allocator* allocator, MemTableRep* rep) : MemTableRep(allocator), rep_(rep), num_insert_with_hint_(0) {} virtual KeyHandle Allocate(const size_t len, char** buf) override { return rep_->Allocate(len, buf); } virtual void Insert(KeyHandle handle) override { rep_->Insert(handle); } virtual void InsertWithHint(KeyHandle handle, void** hint) override { num_insert_with_hint_++; EXPECT_NE(nullptr, hint); last_hint_in_ = *hint; rep_->InsertWithHint(handle, hint); last_hint_out_ = *hint; } virtual bool Contains(const char* key) const override { return rep_->Contains(key); } virtual void Get(const LookupKey& k, void* callback_args, bool (*callback_func)(void* arg, const char* entry)) override { rep_->Get(k, callback_args, callback_func); } virtual size_t ApproximateMemoryUsage() override { return rep_->ApproximateMemoryUsage(); } virtual Iterator* GetIterator(Arena* arena) override { return rep_->GetIterator(arena); } void* last_hint_in() { return last_hint_in_; } void* last_hint_out() { return last_hint_out_; } int num_insert_with_hint() { return num_insert_with_hint_; } private: std::unique_ptr rep_; void* last_hint_in_; void* last_hint_out_; int num_insert_with_hint_; }; class MockMemTableRepFactory : public MemTableRepFactory { public: virtual MemTableRep* CreateMemTableRep(const MemTableRep::KeyComparator& cmp, Allocator* allocator, const SliceTransform* transform, Logger* logger) override { SkipListFactory factory; MemTableRep* skiplist_rep = factory.CreateMemTableRep(cmp, allocator, transform, logger); mock_rep_ = new MockMemTableRep(allocator, skiplist_rep); return mock_rep_; } virtual MemTableRep* CreateMemTableRep(const MemTableRep::KeyComparator& cmp, Allocator* allocator, const SliceTransform* transform, Logger* logger, uint32_t column_family_id) override { last_column_family_id_ = column_family_id; return CreateMemTableRep(cmp, allocator, transform, logger); } virtual const char* Name() const override { return "MockMemTableRepFactory"; } MockMemTableRep* rep() { return mock_rep_; } bool IsInsertConcurrentlySupported() const override { return false; } uint32_t GetLastColumnFamilyId() { return last_column_family_id_; } private: MockMemTableRep* mock_rep_; // workaround since there's no port::kMaxUint32 yet. uint32_t last_column_family_id_ = static_cast(-1); }; class TestPrefixExtractor : public SliceTransform { public: virtual const char* Name() const override { return "TestPrefixExtractor"; } virtual Slice Transform(const Slice& key) const override { const char* p = separator(key); if (p == nullptr) { return Slice(); } return Slice(key.data(), p - key.data() + 1); } virtual bool InDomain(const Slice& key) const override { return separator(key) != nullptr; } virtual bool InRange(const Slice& /*key*/) const override { return false; } private: const char* separator(const Slice& key) const { return reinterpret_cast(memchr(key.data(), '_', key.size())); } }; // Test that ::Add properly returns false when inserting duplicate keys TEST_F(DBMemTableTest, DuplicateSeq) { SequenceNumber seq = 123; std::string value; Status s; MergeContext merge_context; Options options; InternalKeyComparator ikey_cmp(options.comparator); RangeDelAggregator range_del_agg(ikey_cmp, {} /* snapshots */); // Create a MemTable InternalKeyComparator cmp(BytewiseComparator()); auto factory = std::make_shared(); options.memtable_factory = factory; ImmutableCFOptions ioptions(options); WriteBufferManager wb(options.db_write_buffer_size); MemTable* mem = new MemTable(cmp, ioptions, MutableCFOptions(options), &wb, kMaxSequenceNumber, 0 /* column_family_id */); // Write some keys and make sure it returns false on duplicates bool res; res = mem->Add(seq, kTypeValue, "key", "value2"); ASSERT_TRUE(res); res = mem->Add(seq, kTypeValue, "key", "value2"); ASSERT_FALSE(res); // Changing the type should still cause the duplicatae key res = mem->Add(seq, kTypeMerge, "key", "value2"); ASSERT_FALSE(res); // Changing the seq number will make the key fresh res = mem->Add(seq + 1, kTypeMerge, "key", "value2"); ASSERT_TRUE(res); // Test with different types for duplicate keys res = mem->Add(seq, kTypeDeletion, "key", ""); ASSERT_FALSE(res); res = mem->Add(seq, kTypeSingleDeletion, "key", ""); ASSERT_FALSE(res); // Test the duplicate keys under stress for (int i = 0; i < 10000; i++) { bool insert_dup = i % 10 == 1; if (!insert_dup) { seq++; } res = mem->Add(seq, kTypeValue, "foo", "value" + ToString(seq)); if (insert_dup) { ASSERT_FALSE(res); } else { ASSERT_TRUE(res); } } delete mem; // Test with InsertWithHint options.memtable_insert_with_hint_prefix_extractor.reset( new TestPrefixExtractor()); // which uses _ to extract the prefix ioptions = ImmutableCFOptions(options); mem = new MemTable(cmp, ioptions, MutableCFOptions(options), &wb, kMaxSequenceNumber, 0 /* column_family_id */); // Insert a duplicate key with _ in it res = mem->Add(seq, kTypeValue, "key_1", "value"); ASSERT_TRUE(res); res = mem->Add(seq, kTypeValue, "key_1", "value"); ASSERT_FALSE(res); delete mem; // Test when InsertConcurrently will be invoked options.allow_concurrent_memtable_write = true; ioptions = ImmutableCFOptions(options); mem = new MemTable(cmp, ioptions, MutableCFOptions(options), &wb, kMaxSequenceNumber, 0 /* column_family_id */); MemTablePostProcessInfo post_process_info; res = mem->Add(seq, kTypeValue, "key", "value", true, &post_process_info); ASSERT_TRUE(res); res = mem->Add(seq, kTypeValue, "key", "value", true, &post_process_info); ASSERT_FALSE(res); delete mem; } TEST_F(DBMemTableTest, InsertWithHint) { Options options; options.allow_concurrent_memtable_write = false; options.create_if_missing = true; options.memtable_factory.reset(new MockMemTableRepFactory()); options.memtable_insert_with_hint_prefix_extractor.reset( new TestPrefixExtractor()); options.env = env_; Reopen(options); MockMemTableRep* rep = reinterpret_cast(options.memtable_factory.get()) ->rep(); ASSERT_OK(Put("foo_k1", "foo_v1")); ASSERT_EQ(nullptr, rep->last_hint_in()); void* hint_foo = rep->last_hint_out(); ASSERT_OK(Put("foo_k2", "foo_v2")); ASSERT_EQ(hint_foo, rep->last_hint_in()); ASSERT_EQ(hint_foo, rep->last_hint_out()); ASSERT_OK(Put("foo_k3", "foo_v3")); ASSERT_EQ(hint_foo, rep->last_hint_in()); ASSERT_EQ(hint_foo, rep->last_hint_out()); ASSERT_OK(Put("bar_k1", "bar_v1")); ASSERT_EQ(nullptr, rep->last_hint_in()); void* hint_bar = rep->last_hint_out(); ASSERT_NE(hint_foo, hint_bar); ASSERT_OK(Put("bar_k2", "bar_v2")); ASSERT_EQ(hint_bar, rep->last_hint_in()); ASSERT_EQ(hint_bar, rep->last_hint_out()); ASSERT_EQ(5, rep->num_insert_with_hint()); ASSERT_OK(Put("whitelisted", "vvv")); ASSERT_EQ(5, rep->num_insert_with_hint()); ASSERT_EQ("foo_v1", Get("foo_k1")); ASSERT_EQ("foo_v2", Get("foo_k2")); ASSERT_EQ("foo_v3", Get("foo_k3")); ASSERT_EQ("bar_v1", Get("bar_k1")); ASSERT_EQ("bar_v2", Get("bar_k2")); ASSERT_EQ("vvv", Get("whitelisted")); } TEST_F(DBMemTableTest, ColumnFamilyId) { // Verifies MemTableRepFactory is told the right column family id. Options options; options.allow_concurrent_memtable_write = false; options.create_if_missing = true; options.memtable_factory.reset(new MockMemTableRepFactory()); DestroyAndReopen(options); CreateAndReopenWithCF({"pikachu"}, options); for (int cf = 0; cf < 2; ++cf) { ASSERT_OK(Put(cf, "key", "val")); ASSERT_OK(Flush(cf)); ASSERT_EQ( cf, static_cast(options.memtable_factory.get()) ->GetLastColumnFamilyId()); } } } // namespace rocksdb int main(int argc, char** argv) { rocksdb::port::InstallStackTraceHandler(); ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/db/db_merge_operator_test.cc000066400000000000000000000507571337235545400207000ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include #include #include "db/db_test_util.h" #include "db/forward_iterator.h" #include "port/stack_trace.h" #include "rocksdb/merge_operator.h" #include "utilities/merge_operators.h" #include "utilities/merge_operators/string_append/stringappend2.h" namespace rocksdb { class TestReadCallback : public ReadCallback { public: TestReadCallback(SnapshotChecker* snapshot_checker, SequenceNumber snapshot_seq) : snapshot_checker_(snapshot_checker), snapshot_seq_(snapshot_seq) {} bool IsVisible(SequenceNumber seq) override { return snapshot_checker_->IsInSnapshot(seq, snapshot_seq_); } private: SnapshotChecker* snapshot_checker_; SequenceNumber snapshot_seq_; }; // Test merge operator functionality. class DBMergeOperatorTest : public DBTestBase { public: DBMergeOperatorTest() : DBTestBase("/db_merge_operator_test") {} std::string GetWithReadCallback(SnapshotChecker* snapshot_checker, const Slice& key, const Snapshot* snapshot = nullptr) { SequenceNumber seq = snapshot == nullptr ? db_->GetLatestSequenceNumber() : snapshot->GetSequenceNumber(); TestReadCallback read_callback(snapshot_checker, seq); ReadOptions read_opt; read_opt.snapshot = snapshot; PinnableSlice value; Status s = dbfull()->GetImpl(read_opt, db_->DefaultColumnFamily(), key, &value, nullptr /*value_found*/, &read_callback); if (!s.ok()) { return s.ToString(); } return value.ToString(); } }; TEST_F(DBMergeOperatorTest, LimitMergeOperands) { class LimitedStringAppendMergeOp : public StringAppendTESTOperator { public: LimitedStringAppendMergeOp(int limit, char delim) : StringAppendTESTOperator(delim), limit_(limit) {} const char* Name() const override { return "DBMergeOperatorTest::LimitedStringAppendMergeOp"; } bool ShouldMerge(const std::vector& operands) const override { if (operands.size() > 0 && limit_ > 0 && operands.size() >= limit_) { return true; } return false; } private: size_t limit_ = 0; }; Options options; options.create_if_missing = true; // Use only the latest two merge operands. options.merge_operator = std::make_shared(2, ','); options.env = env_; Reopen(options); // All K1 values are in memtable. ASSERT_OK(Merge("k1", "a")); ASSERT_OK(Merge("k1", "b")); ASSERT_OK(Merge("k1", "c")); ASSERT_OK(Merge("k1", "d")); std::string value; ASSERT_TRUE(db_->Get(ReadOptions(), "k1", &value).ok()); // Make sure that only the latest two merge operands are used. If this was // not the case the value would be "a,b,c,d". ASSERT_EQ(value, "c,d"); // All K2 values are flushed to L0 into a single file. ASSERT_OK(Merge("k2", "a")); ASSERT_OK(Merge("k2", "b")); ASSERT_OK(Merge("k2", "c")); ASSERT_OK(Merge("k2", "d")); ASSERT_OK(Flush()); ASSERT_TRUE(db_->Get(ReadOptions(), "k2", &value).ok()); ASSERT_EQ(value, "c,d"); // All K3 values are flushed and are in different files. ASSERT_OK(Merge("k3", "ab")); ASSERT_OK(Flush()); ASSERT_OK(Merge("k3", "bc")); ASSERT_OK(Flush()); ASSERT_OK(Merge("k3", "cd")); ASSERT_OK(Flush()); ASSERT_OK(Merge("k3", "de")); ASSERT_TRUE(db_->Get(ReadOptions(), "k3", &value).ok()); ASSERT_EQ(value, "cd,de"); // All K4 values are in different levels ASSERT_OK(Merge("k4", "ab")); ASSERT_OK(Flush()); MoveFilesToLevel(4); ASSERT_OK(Merge("k4", "bc")); ASSERT_OK(Flush()); MoveFilesToLevel(3); ASSERT_OK(Merge("k4", "cd")); ASSERT_OK(Flush()); MoveFilesToLevel(1); ASSERT_OK(Merge("k4", "de")); ASSERT_TRUE(db_->Get(ReadOptions(), "k4", &value).ok()); ASSERT_EQ(value, "cd,de"); } TEST_F(DBMergeOperatorTest, MergeErrorOnRead) { Options options; options.create_if_missing = true; options.merge_operator.reset(new TestPutOperator()); options.env = env_; Reopen(options); ASSERT_OK(Merge("k1", "v1")); ASSERT_OK(Merge("k1", "corrupted")); std::string value; ASSERT_TRUE(db_->Get(ReadOptions(), "k1", &value).IsCorruption()); VerifyDBInternal({{"k1", "corrupted"}, {"k1", "v1"}}); } TEST_F(DBMergeOperatorTest, MergeErrorOnWrite) { Options options; options.create_if_missing = true; options.merge_operator.reset(new TestPutOperator()); options.max_successive_merges = 3; options.env = env_; Reopen(options); ASSERT_OK(Merge("k1", "v1")); ASSERT_OK(Merge("k1", "v2")); // Will trigger a merge when hitting max_successive_merges and the merge // will fail. The delta will be inserted nevertheless. ASSERT_OK(Merge("k1", "corrupted")); // Data should stay unmerged after the error. VerifyDBInternal({{"k1", "corrupted"}, {"k1", "v2"}, {"k1", "v1"}}); } TEST_F(DBMergeOperatorTest, MergeErrorOnIteration) { Options options; options.create_if_missing = true; options.merge_operator.reset(new TestPutOperator()); options.env = env_; DestroyAndReopen(options); ASSERT_OK(Merge("k1", "v1")); ASSERT_OK(Merge("k1", "corrupted")); ASSERT_OK(Put("k2", "v2")); auto* iter = db_->NewIterator(ReadOptions()); iter->Seek("k1"); ASSERT_FALSE(iter->Valid()); ASSERT_TRUE(iter->status().IsCorruption()); delete iter; iter = db_->NewIterator(ReadOptions()); iter->Seek("k2"); ASSERT_TRUE(iter->Valid()); ASSERT_OK(iter->status()); iter->Prev(); ASSERT_FALSE(iter->Valid()); ASSERT_TRUE(iter->status().IsCorruption()); delete iter; VerifyDBInternal({{"k1", "corrupted"}, {"k1", "v1"}, {"k2", "v2"}}); DestroyAndReopen(options); ASSERT_OK(Merge("k1", "v1")); ASSERT_OK(Put("k2", "v2")); ASSERT_OK(Merge("k2", "corrupted")); iter = db_->NewIterator(ReadOptions()); iter->Seek("k1"); ASSERT_TRUE(iter->Valid()); ASSERT_OK(iter->status()); iter->Next(); ASSERT_FALSE(iter->Valid()); ASSERT_TRUE(iter->status().IsCorruption()); delete iter; VerifyDBInternal({{"k1", "v1"}, {"k2", "corrupted"}, {"k2", "v2"}}); } class MergeOperatorPinningTest : public DBMergeOperatorTest, public testing::WithParamInterface { public: MergeOperatorPinningTest() { disable_block_cache_ = GetParam(); } bool disable_block_cache_; }; INSTANTIATE_TEST_CASE_P(MergeOperatorPinningTest, MergeOperatorPinningTest, ::testing::Bool()); #ifndef ROCKSDB_LITE TEST_P(MergeOperatorPinningTest, OperandsMultiBlocks) { Options options = CurrentOptions(); BlockBasedTableOptions table_options; table_options.block_size = 1; // every block will contain one entry table_options.no_block_cache = disable_block_cache_; options.table_factory.reset(NewBlockBasedTableFactory(table_options)); options.merge_operator = MergeOperators::CreateStringAppendTESTOperator(); options.level0_slowdown_writes_trigger = (1 << 30); options.level0_stop_writes_trigger = (1 << 30); options.disable_auto_compactions = true; DestroyAndReopen(options); const int kKeysPerFile = 10; const int kOperandsPerKeyPerFile = 7; const int kOperandSize = 100; // Filse to write in L0 before compacting to lower level const int kFilesPerLevel = 3; Random rnd(301); std::map true_data; int batch_num = 1; int lvl_to_fill = 4; int key_id = 0; while (true) { for (int j = 0; j < kKeysPerFile; j++) { std::string key = Key(key_id % 35); key_id++; for (int k = 0; k < kOperandsPerKeyPerFile; k++) { std::string val = RandomString(&rnd, kOperandSize); ASSERT_OK(db_->Merge(WriteOptions(), key, val)); if (true_data[key].size() == 0) { true_data[key] = val; } else { true_data[key] += "," + val; } } } if (lvl_to_fill == -1) { // Keep last batch in memtable and stop break; } ASSERT_OK(Flush()); if (batch_num % kFilesPerLevel == 0) { if (lvl_to_fill != 0) { MoveFilesToLevel(lvl_to_fill); } lvl_to_fill--; } batch_num++; } // 3 L0 files // 1 L1 file // 3 L2 files // 1 L3 file // 3 L4 Files ASSERT_EQ(FilesPerLevel(), "3,1,3,1,3"); VerifyDBFromMap(true_data); } TEST_P(MergeOperatorPinningTest, Randomized) { do { Options options = CurrentOptions(); options.merge_operator = MergeOperators::CreateMaxOperator(); BlockBasedTableOptions table_options; table_options.no_block_cache = disable_block_cache_; options.table_factory.reset(NewBlockBasedTableFactory(table_options)); DestroyAndReopen(options); Random rnd(301); std::map true_data; const int kTotalMerges = 5000; // Every key gets ~10 operands const int kKeyRange = kTotalMerges / 10; const int kOperandSize = 20; const int kNumPutBefore = kKeyRange / 10; // 10% value const int kNumPutAfter = kKeyRange / 10; // 10% overwrite const int kNumDelete = kKeyRange / 10; // 10% delete // kNumPutBefore keys will have base values for (int i = 0; i < kNumPutBefore; i++) { std::string key = Key(rnd.Next() % kKeyRange); std::string value = RandomString(&rnd, kOperandSize); ASSERT_OK(db_->Put(WriteOptions(), key, value)); true_data[key] = value; } // Do kTotalMerges merges for (int i = 0; i < kTotalMerges; i++) { std::string key = Key(rnd.Next() % kKeyRange); std::string value = RandomString(&rnd, kOperandSize); ASSERT_OK(db_->Merge(WriteOptions(), key, value)); if (true_data[key] < value) { true_data[key] = value; } } // Overwrite random kNumPutAfter keys for (int i = 0; i < kNumPutAfter; i++) { std::string key = Key(rnd.Next() % kKeyRange); std::string value = RandomString(&rnd, kOperandSize); ASSERT_OK(db_->Put(WriteOptions(), key, value)); true_data[key] = value; } // Delete random kNumDelete keys for (int i = 0; i < kNumDelete; i++) { std::string key = Key(rnd.Next() % kKeyRange); ASSERT_OK(db_->Delete(WriteOptions(), key)); true_data.erase(key); } VerifyDBFromMap(true_data); // Skip HashCuckoo since it does not support merge operators } while (ChangeOptions(kSkipMergePut | kSkipHashCuckoo)); } class MergeOperatorHook : public MergeOperator { public: explicit MergeOperatorHook(std::shared_ptr _merge_op) : merge_op_(_merge_op) {} virtual bool FullMergeV2(const MergeOperationInput& merge_in, MergeOperationOutput* merge_out) const override { before_merge_(); bool res = merge_op_->FullMergeV2(merge_in, merge_out); after_merge_(); return res; } virtual const char* Name() const override { return merge_op_->Name(); } std::shared_ptr merge_op_; std::function before_merge_ = []() {}; std::function after_merge_ = []() {}; }; TEST_P(MergeOperatorPinningTest, EvictCacheBeforeMerge) { Options options = CurrentOptions(); auto merge_hook = std::make_shared(MergeOperators::CreateMaxOperator()); options.merge_operator = merge_hook; options.disable_auto_compactions = true; options.level0_slowdown_writes_trigger = (1 << 30); options.level0_stop_writes_trigger = (1 << 30); options.max_open_files = 20; BlockBasedTableOptions bbto; bbto.no_block_cache = disable_block_cache_; if (bbto.no_block_cache == false) { bbto.block_cache = NewLRUCache(64 * 1024 * 1024); } else { bbto.block_cache = nullptr; } options.table_factory.reset(NewBlockBasedTableFactory(bbto)); DestroyAndReopen(options); const int kNumOperands = 30; const int kNumKeys = 1000; const int kOperandSize = 100; Random rnd(301); // 1000 keys every key have 30 operands, every operand is in a different file std::map true_data; for (int i = 0; i < kNumOperands; i++) { for (int j = 0; j < kNumKeys; j++) { std::string k = Key(j); std::string v = RandomString(&rnd, kOperandSize); ASSERT_OK(db_->Merge(WriteOptions(), k, v)); true_data[k] = std::max(true_data[k], v); } ASSERT_OK(Flush()); } std::vector file_numbers = ListTableFiles(env_, dbname_); ASSERT_EQ(file_numbers.size(), kNumOperands); int merge_cnt = 0; // Code executed before merge operation merge_hook->before_merge_ = [&]() { // Evict all tables from cache before every merge operation for (uint64_t num : file_numbers) { TableCache::Evict(dbfull()->TEST_table_cache(), num); } // Decrease cache capacity to force all unrefed blocks to be evicted if (bbto.block_cache) { bbto.block_cache->SetCapacity(1); } merge_cnt++; }; // Code executed after merge operation merge_hook->after_merge_ = [&]() { // Increase capacity again after doing the merge if (bbto.block_cache) { bbto.block_cache->SetCapacity(64 * 1024 * 1024); } }; size_t total_reads; VerifyDBFromMap(true_data, &total_reads); ASSERT_EQ(merge_cnt, total_reads); db_->CompactRange(CompactRangeOptions(), nullptr, nullptr); VerifyDBFromMap(true_data, &total_reads); } TEST_P(MergeOperatorPinningTest, TailingIterator) { Options options = CurrentOptions(); options.merge_operator = MergeOperators::CreateMaxOperator(); BlockBasedTableOptions bbto; bbto.no_block_cache = disable_block_cache_; options.table_factory.reset(NewBlockBasedTableFactory(bbto)); DestroyAndReopen(options); const int kNumOperands = 100; const int kNumWrites = 100000; std::function writer_func = [&]() { int k = 0; for (int i = 0; i < kNumWrites; i++) { db_->Merge(WriteOptions(), Key(k), Key(k)); if (i && i % kNumOperands == 0) { k++; } if (i && i % 127 == 0) { ASSERT_OK(Flush()); } if (i && i % 317 == 0) { ASSERT_OK(db_->CompactRange(CompactRangeOptions(), nullptr, nullptr)); } } }; std::function reader_func = [&]() { ReadOptions ro; ro.tailing = true; Iterator* iter = db_->NewIterator(ro); iter->SeekToFirst(); for (int i = 0; i < (kNumWrites / kNumOperands); i++) { while (!iter->Valid()) { // wait for the key to be written env_->SleepForMicroseconds(100); iter->Seek(Key(i)); } ASSERT_EQ(iter->key(), Key(i)); ASSERT_EQ(iter->value(), Key(i)); iter->Next(); } delete iter; }; rocksdb::port::Thread writer_thread(writer_func); rocksdb::port::Thread reader_thread(reader_func); writer_thread.join(); reader_thread.join(); } TEST_F(DBMergeOperatorTest, TailingIteratorMemtableUnrefedBySomeoneElse) { Options options = CurrentOptions(); options.merge_operator = MergeOperators::CreateStringAppendOperator(); DestroyAndReopen(options); // Overview of the test: // * There are two merge operands for the same key: one in an sst file, // another in a memtable. // * Seek a tailing iterator to this key. // * As part of the seek, the iterator will: // (a) first visit the operand in the memtable and tell ForwardIterator // to pin this operand, then // (b) move on to the operand in the sst file, then pass both operands // to merge operator. // * The memtable may get flushed and unreferenced by another thread between // (a) and (b). The test simulates it by flushing the memtable inside a // SyncPoint callback located between (a) and (b). // * In this case it's ForwardIterator's responsibility to keep the memtable // pinned until (b) is complete. There used to be a bug causing // ForwardIterator to not pin it in some circumstances. This test // reproduces it. db_->Merge(WriteOptions(), "key", "sst"); db_->Flush(FlushOptions()); // Switch to SuperVersion A db_->Merge(WriteOptions(), "key", "memtable"); // Pin SuperVersion A std::unique_ptr someone_else(db_->NewIterator(ReadOptions())); bool pushed_first_operand = false; bool stepped_to_next_operand = false; rocksdb::SyncPoint::GetInstance()->SetCallBack( "DBIter::MergeValuesNewToOld:PushedFirstOperand", [&](void*) { EXPECT_FALSE(pushed_first_operand); pushed_first_operand = true; db_->Flush(FlushOptions()); // Switch to SuperVersion B }); rocksdb::SyncPoint::GetInstance()->SetCallBack( "DBIter::MergeValuesNewToOld:SteppedToNextOperand", [&](void*) { EXPECT_FALSE(stepped_to_next_operand); stepped_to_next_operand = true; someone_else.reset(); // Unpin SuperVersion A }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); ReadOptions ro; ro.tailing = true; std::unique_ptr iter(db_->NewIterator(ro)); iter->Seek("key"); ASSERT_TRUE(iter->status().ok()); ASSERT_TRUE(iter->Valid()); EXPECT_EQ(std::string("sst,memtable"), iter->value().ToString()); EXPECT_TRUE(pushed_first_operand); EXPECT_TRUE(stepped_to_next_operand); } #endif // ROCKSDB_LITE TEST_F(DBMergeOperatorTest, SnapshotCheckerAndReadCallback) { Options options = CurrentOptions(); options.merge_operator = MergeOperators::CreateStringAppendOperator(); DestroyAndReopen(options); class TestSnapshotChecker : public SnapshotChecker { bool IsInSnapshot(SequenceNumber seq, SequenceNumber snapshot_seq) const override { switch (snapshot_seq) { case 0: return seq == 0; case 1: return seq <= 1; case 2: // seq = 2 not visible to snapshot with seq = 2 return seq <= 1; case 3: return seq <= 3; case 4: // seq = 4 not visible to snpahost with seq = 4 return seq <= 3; default: // seq >=4 is uncommitted return seq <= 4; }; } }; TestSnapshotChecker* snapshot_checker = new TestSnapshotChecker(); dbfull()->SetSnapshotChecker(snapshot_checker); std::string value; ASSERT_OK(Merge("foo", "v1")); ASSERT_EQ(1, db_->GetLatestSequenceNumber()); ASSERT_EQ("v1", GetWithReadCallback(snapshot_checker, "foo")); ASSERT_OK(Merge("foo", "v2")); ASSERT_EQ(2, db_->GetLatestSequenceNumber()); // v2 is not visible to latest snapshot, which has seq = 2. ASSERT_EQ("v1", GetWithReadCallback(snapshot_checker, "foo")); // Take a snapshot with seq = 2. const Snapshot* snapshot1 = db_->GetSnapshot(); ASSERT_EQ(2, snapshot1->GetSequenceNumber()); // v2 is not visible to snapshot1, which has seq = 2 ASSERT_EQ("v1", GetWithReadCallback(snapshot_checker, "foo", snapshot1)); // Verify flush doesn't alter the result. ASSERT_OK(Flush()); ASSERT_EQ("v1", GetWithReadCallback(snapshot_checker, "foo", snapshot1)); ASSERT_EQ("v1", GetWithReadCallback(snapshot_checker, "foo")); ASSERT_OK(Merge("foo", "v3")); ASSERT_EQ(3, db_->GetLatestSequenceNumber()); ASSERT_EQ("v1,v2,v3", GetWithReadCallback(snapshot_checker, "foo")); ASSERT_OK(Merge("foo", "v4")); ASSERT_EQ(4, db_->GetLatestSequenceNumber()); // v4 is not visible to latest snapshot, which has seq = 4. ASSERT_EQ("v1,v2,v3", GetWithReadCallback(snapshot_checker, "foo")); const Snapshot* snapshot2 = db_->GetSnapshot(); ASSERT_EQ(4, snapshot2->GetSequenceNumber()); // v4 is not visible to snapshot2, which has seq = 4. ASSERT_EQ("v1,v2,v3", GetWithReadCallback(snapshot_checker, "foo", snapshot2)); // Verify flush doesn't alter the result. ASSERT_OK(Flush()); ASSERT_EQ("v1", GetWithReadCallback(snapshot_checker, "foo", snapshot1)); ASSERT_EQ("v1,v2,v3", GetWithReadCallback(snapshot_checker, "foo", snapshot2)); ASSERT_EQ("v1,v2,v3", GetWithReadCallback(snapshot_checker, "foo")); ASSERT_OK(Merge("foo", "v5")); ASSERT_EQ(5, db_->GetLatestSequenceNumber()); // v5 is uncommitted ASSERT_EQ("v1,v2,v3,v4", GetWithReadCallback(snapshot_checker, "foo")); // full manual compaction. ASSERT_OK(db_->CompactRange(CompactRangeOptions(), nullptr, nullptr)); // Verify compaction doesn't alter the result. ASSERT_EQ("v1", GetWithReadCallback(snapshot_checker, "foo", snapshot1)); ASSERT_EQ("v1,v2,v3", GetWithReadCallback(snapshot_checker, "foo", snapshot2)); ASSERT_EQ("v1,v2,v3,v4", GetWithReadCallback(snapshot_checker, "foo")); db_->ReleaseSnapshot(snapshot1); db_->ReleaseSnapshot(snapshot2); } } // namespace rocksdb int main(int argc, char** argv) { rocksdb::port::InstallStackTraceHandler(); ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/db/db_options_test.cc000066400000000000000000000615111337235545400173470ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include #include #include #include "db/column_family.h" #include "db/db_impl.h" #include "db/db_test_util.h" #include "options/options_helper.h" #include "port/stack_trace.h" #include "rocksdb/cache.h" #include "rocksdb/convenience.h" #include "rocksdb/rate_limiter.h" #include "util/random.h" #include "util/sync_point.h" #include "util/testutil.h" namespace rocksdb { class DBOptionsTest : public DBTestBase { public: DBOptionsTest() : DBTestBase("/db_options_test") {} #ifndef ROCKSDB_LITE std::unordered_map GetMutableDBOptionsMap( const DBOptions& options) { std::string options_str; GetStringFromDBOptions(&options_str, options); std::unordered_map options_map; StringToMap(options_str, &options_map); std::unordered_map mutable_map; for (const auto opt : db_options_type_info) { if (opt.second.is_mutable && opt.second.verification != OptionVerificationType::kDeprecated) { mutable_map[opt.first] = options_map[opt.first]; } } return mutable_map; } std::unordered_map GetMutableCFOptionsMap( const ColumnFamilyOptions& options) { std::string options_str; GetStringFromColumnFamilyOptions(&options_str, options); std::unordered_map options_map; StringToMap(options_str, &options_map); std::unordered_map mutable_map; for (const auto opt : cf_options_type_info) { if (opt.second.is_mutable && opt.second.verification != OptionVerificationType::kDeprecated) { mutable_map[opt.first] = options_map[opt.first]; } } return mutable_map; } std::unordered_map GetRandomizedMutableCFOptionsMap( Random* rnd) { Options options; options.env = env_; ImmutableDBOptions db_options(options); test::RandomInitCFOptions(&options, rnd); auto sanitized_options = SanitizeOptions(db_options, options); auto opt_map = GetMutableCFOptionsMap(sanitized_options); delete options.compaction_filter; return opt_map; } std::unordered_map GetRandomizedMutableDBOptionsMap( Random* rnd) { DBOptions db_options; test::RandomInitDBOptions(&db_options, rnd); auto sanitized_options = SanitizeOptions(dbname_, db_options); return GetMutableDBOptionsMap(sanitized_options); } #endif // ROCKSDB_LITE }; // RocksDB lite don't support dynamic options. #ifndef ROCKSDB_LITE TEST_F(DBOptionsTest, GetLatestDBOptions) { // GetOptions should be able to get latest option changed by SetOptions. Options options; options.create_if_missing = true; options.env = env_; Random rnd(228); Reopen(options); auto new_options = GetRandomizedMutableDBOptionsMap(&rnd); ASSERT_OK(dbfull()->SetDBOptions(new_options)); ASSERT_EQ(new_options, GetMutableDBOptionsMap(dbfull()->GetDBOptions())); } TEST_F(DBOptionsTest, GetLatestCFOptions) { // GetOptions should be able to get latest option changed by SetOptions. Options options; options.create_if_missing = true; options.env = env_; Random rnd(228); Reopen(options); CreateColumnFamilies({"foo"}, options); ReopenWithColumnFamilies({"default", "foo"}, options); auto options_default = GetRandomizedMutableCFOptionsMap(&rnd); auto options_foo = GetRandomizedMutableCFOptionsMap(&rnd); ASSERT_OK(dbfull()->SetOptions(handles_[0], options_default)); ASSERT_OK(dbfull()->SetOptions(handles_[1], options_foo)); ASSERT_EQ(options_default, GetMutableCFOptionsMap(dbfull()->GetOptions(handles_[0]))); ASSERT_EQ(options_foo, GetMutableCFOptionsMap(dbfull()->GetOptions(handles_[1]))); } TEST_F(DBOptionsTest, SetBytesPerSync) { const size_t kValueSize = 1024 * 1024; // 1MB Options options; options.create_if_missing = true; options.bytes_per_sync = 1024 * 1024; options.use_direct_reads = false; options.write_buffer_size = 400 * kValueSize; options.disable_auto_compactions = true; options.compression = kNoCompression; options.env = env_; Reopen(options); int counter = 0; int low_bytes_per_sync = 0; int i = 0; const std::string kValue(kValueSize, 'v'); ASSERT_EQ(options.bytes_per_sync, dbfull()->GetDBOptions().bytes_per_sync); rocksdb::SyncPoint::GetInstance()->SetCallBack( "WritableFileWriter::RangeSync:0", [&](void* /*arg*/) { counter++; }); WriteOptions write_opts; // should sync approximately 40MB/1MB ~= 40 times. for (i = 0; i < 40; i++) { Put(Key(i), kValue, write_opts); } rocksdb::SyncPoint::GetInstance()->EnableProcessing(); ASSERT_OK(dbfull()->CompactRange(CompactRangeOptions(), nullptr, nullptr)); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); low_bytes_per_sync = counter; ASSERT_GT(low_bytes_per_sync, 35); ASSERT_LT(low_bytes_per_sync, 45); counter = 0; // 8388608 = 8 * 1024 * 1024 ASSERT_OK(dbfull()->SetDBOptions({{"bytes_per_sync", "8388608"}})); ASSERT_EQ(8388608, dbfull()->GetDBOptions().bytes_per_sync); // should sync approximately 40MB*2/8MB ~= 10 times. // data will be 40*2MB because of previous Puts too. for (i = 0; i < 40; i++) { Put(Key(i), kValue, write_opts); } rocksdb::SyncPoint::GetInstance()->EnableProcessing(); ASSERT_OK(dbfull()->CompactRange(CompactRangeOptions(), nullptr, nullptr)); ASSERT_GT(counter, 5); ASSERT_LT(counter, 15); // Redundant assert. But leaving it here just to get the point across that // low_bytes_per_sync > counter. ASSERT_GT(low_bytes_per_sync, counter); } TEST_F(DBOptionsTest, SetWalBytesPerSync) { const size_t kValueSize = 1024 * 1024 * 3; Options options; options.create_if_missing = true; options.wal_bytes_per_sync = 512; options.write_buffer_size = 100 * kValueSize; options.disable_auto_compactions = true; options.compression = kNoCompression; options.env = env_; Reopen(options); ASSERT_EQ(512, dbfull()->GetDBOptions().wal_bytes_per_sync); int counter = 0; int low_bytes_per_sync = 0; rocksdb::SyncPoint::GetInstance()->SetCallBack( "WritableFileWriter::RangeSync:0", [&](void* /*arg*/) { counter++; }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); const std::string kValue(kValueSize, 'v'); int i = 0; for (; i < 10; i++) { Put(Key(i), kValue); } // Do not flush. If we flush here, SwitchWAL will reuse old WAL file since its // empty and will not get the new wal_bytes_per_sync value. low_bytes_per_sync = counter; //5242880 = 1024 * 1024 * 5 ASSERT_OK(dbfull()->SetDBOptions({{"wal_bytes_per_sync", "5242880"}})); ASSERT_EQ(5242880, dbfull()->GetDBOptions().wal_bytes_per_sync); counter = 0; i = 0; for (; i < 10; i++) { Put(Key(i), kValue); } ASSERT_GT(counter, 0); ASSERT_GT(low_bytes_per_sync, 0); ASSERT_GT(low_bytes_per_sync, counter); } TEST_F(DBOptionsTest, WritableFileMaxBufferSize) { Options options; options.create_if_missing = true; options.writable_file_max_buffer_size = 1024 * 1024; options.level0_file_num_compaction_trigger = 3; options.max_manifest_file_size = 1; options.env = env_; int buffer_size = 1024 * 1024; Reopen(options); ASSERT_EQ(buffer_size, dbfull()->GetDBOptions().writable_file_max_buffer_size); std::atomic match_cnt(0); std::atomic unmatch_cnt(0); rocksdb::SyncPoint::GetInstance()->SetCallBack( "WritableFileWriter::WritableFileWriter:0", [&](void* arg) { int value = static_cast(reinterpret_cast(arg)); if (value == buffer_size) { match_cnt++; } else { unmatch_cnt++; } }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); int i = 0; for (; i < 3; i++) { ASSERT_OK(Put("foo", ToString(i))); ASSERT_OK(Put("bar", ToString(i))); Flush(); } dbfull()->TEST_WaitForCompact(); ASSERT_EQ(unmatch_cnt, 0); ASSERT_GE(match_cnt, 11); ASSERT_OK( dbfull()->SetDBOptions({{"writable_file_max_buffer_size", "524288"}})); buffer_size = 512 * 1024; match_cnt = 0; unmatch_cnt = 0; // SetDBOptions() will create a WriteableFileWriter ASSERT_EQ(buffer_size, dbfull()->GetDBOptions().writable_file_max_buffer_size); i = 0; for (; i < 3; i++) { ASSERT_OK(Put("foo", ToString(i))); ASSERT_OK(Put("bar", ToString(i))); Flush(); } dbfull()->TEST_WaitForCompact(); ASSERT_EQ(unmatch_cnt, 0); ASSERT_GE(match_cnt, 11); } TEST_F(DBOptionsTest, SetOptionsAndReopen) { Random rnd(1044); auto rand_opts = GetRandomizedMutableCFOptionsMap(&rnd); ASSERT_OK(dbfull()->SetOptions(rand_opts)); // Verify if DB can be reopen after setting options. Options options; options.env = env_; ASSERT_OK(TryReopen(options)); } TEST_F(DBOptionsTest, EnableAutoCompactionAndTriggerStall) { const std::string kValue(1024, 'v'); for (int method_type = 0; method_type < 2; method_type++) { for (int option_type = 0; option_type < 4; option_type++) { Options options; options.create_if_missing = true; options.disable_auto_compactions = true; options.write_buffer_size = 1024 * 1024 * 10; options.compression = CompressionType::kNoCompression; options.level0_file_num_compaction_trigger = 1; options.level0_stop_writes_trigger = std::numeric_limits::max(); options.level0_slowdown_writes_trigger = std::numeric_limits::max(); options.hard_pending_compaction_bytes_limit = std::numeric_limits::max(); options.soft_pending_compaction_bytes_limit = std::numeric_limits::max(); options.env = env_; DestroyAndReopen(options); int i = 0; for (; i < 1024; i++) { Put(Key(i), kValue); } Flush(); for (; i < 1024 * 2; i++) { Put(Key(i), kValue); } Flush(); dbfull()->TEST_WaitForFlushMemTable(); ASSERT_EQ(2, NumTableFilesAtLevel(0)); uint64_t l0_size = SizeAtLevel(0); switch (option_type) { case 0: // test with level0_stop_writes_trigger options.level0_stop_writes_trigger = 2; options.level0_slowdown_writes_trigger = 2; break; case 1: options.level0_slowdown_writes_trigger = 2; break; case 2: options.hard_pending_compaction_bytes_limit = l0_size; options.soft_pending_compaction_bytes_limit = l0_size; break; case 3: options.soft_pending_compaction_bytes_limit = l0_size; break; } Reopen(options); dbfull()->TEST_WaitForCompact(); ASSERT_FALSE(dbfull()->TEST_write_controler().IsStopped()); ASSERT_FALSE(dbfull()->TEST_write_controler().NeedsDelay()); SyncPoint::GetInstance()->LoadDependency( {{"DBOptionsTest::EnableAutoCompactionAndTriggerStall:1", "BackgroundCallCompaction:0"}, {"DBImpl::BackgroundCompaction():BeforePickCompaction", "DBOptionsTest::EnableAutoCompactionAndTriggerStall:2"}, {"DBOptionsTest::EnableAutoCompactionAndTriggerStall:3", "DBImpl::BackgroundCompaction():AfterPickCompaction"}}); // Block background compaction. SyncPoint::GetInstance()->EnableProcessing(); switch (method_type) { case 0: ASSERT_OK( dbfull()->SetOptions({{"disable_auto_compactions", "false"}})); break; case 1: ASSERT_OK(dbfull()->EnableAutoCompaction( {dbfull()->DefaultColumnFamily()})); break; } TEST_SYNC_POINT("DBOptionsTest::EnableAutoCompactionAndTriggerStall:1"); // Wait for stall condition recalculate. TEST_SYNC_POINT("DBOptionsTest::EnableAutoCompactionAndTriggerStall:2"); switch (option_type) { case 0: ASSERT_TRUE(dbfull()->TEST_write_controler().IsStopped()); break; case 1: ASSERT_FALSE(dbfull()->TEST_write_controler().IsStopped()); ASSERT_TRUE(dbfull()->TEST_write_controler().NeedsDelay()); break; case 2: ASSERT_TRUE(dbfull()->TEST_write_controler().IsStopped()); break; case 3: ASSERT_FALSE(dbfull()->TEST_write_controler().IsStopped()); ASSERT_TRUE(dbfull()->TEST_write_controler().NeedsDelay()); break; } TEST_SYNC_POINT("DBOptionsTest::EnableAutoCompactionAndTriggerStall:3"); // Background compaction executed. dbfull()->TEST_WaitForCompact(); ASSERT_FALSE(dbfull()->TEST_write_controler().IsStopped()); ASSERT_FALSE(dbfull()->TEST_write_controler().NeedsDelay()); } } } TEST_F(DBOptionsTest, SetOptionsMayTriggerCompaction) { Options options; options.create_if_missing = true; options.level0_file_num_compaction_trigger = 1000; options.env = env_; Reopen(options); for (int i = 0; i < 3; i++) { // Need to insert two keys to avoid trivial move. ASSERT_OK(Put("foo", ToString(i))); ASSERT_OK(Put("bar", ToString(i))); Flush(); } ASSERT_EQ("3", FilesPerLevel()); ASSERT_OK( dbfull()->SetOptions({{"level0_file_num_compaction_trigger", "3"}})); dbfull()->TEST_WaitForCompact(); ASSERT_EQ("0,1", FilesPerLevel()); } TEST_F(DBOptionsTest, SetBackgroundCompactionThreads) { Options options; options.create_if_missing = true; options.max_background_compactions = 1; // default value options.env = env_; Reopen(options); ASSERT_EQ(1, dbfull()->TEST_BGCompactionsAllowed()); ASSERT_OK(dbfull()->SetDBOptions({{"max_background_compactions", "3"}})); ASSERT_EQ(1, dbfull()->TEST_BGCompactionsAllowed()); auto stop_token = dbfull()->TEST_write_controler().GetStopToken(); ASSERT_EQ(3, dbfull()->TEST_BGCompactionsAllowed()); } TEST_F(DBOptionsTest, SetBackgroundJobs) { Options options; options.create_if_missing = true; options.max_background_jobs = 8; options.env = env_; Reopen(options); for (int i = 0; i < 2; ++i) { if (i > 0) { options.max_background_jobs = 12; ASSERT_OK(dbfull()->SetDBOptions( {{"max_background_jobs", std::to_string(options.max_background_jobs)}})); } ASSERT_EQ(options.max_background_jobs / 4, dbfull()->TEST_BGFlushesAllowed()); ASSERT_EQ(1, dbfull()->TEST_BGCompactionsAllowed()); auto stop_token = dbfull()->TEST_write_controler().GetStopToken(); ASSERT_EQ(options.max_background_jobs / 4, dbfull()->TEST_BGFlushesAllowed()); ASSERT_EQ(3 * options.max_background_jobs / 4, dbfull()->TEST_BGCompactionsAllowed()); } } TEST_F(DBOptionsTest, AvoidFlushDuringShutdown) { Options options; options.create_if_missing = true; options.disable_auto_compactions = true; options.env = env_; WriteOptions write_without_wal; write_without_wal.disableWAL = true; ASSERT_FALSE(options.avoid_flush_during_shutdown); DestroyAndReopen(options); ASSERT_OK(Put("foo", "v1", write_without_wal)); Reopen(options); ASSERT_EQ("v1", Get("foo")); ASSERT_EQ("1", FilesPerLevel()); DestroyAndReopen(options); ASSERT_OK(Put("foo", "v2", write_without_wal)); ASSERT_OK(dbfull()->SetDBOptions({{"avoid_flush_during_shutdown", "true"}})); Reopen(options); ASSERT_EQ("NOT_FOUND", Get("foo")); ASSERT_EQ("", FilesPerLevel()); } TEST_F(DBOptionsTest, SetDelayedWriteRateOption) { Options options; options.create_if_missing = true; options.delayed_write_rate = 2 * 1024U * 1024U; options.env = env_; Reopen(options); ASSERT_EQ(2 * 1024U * 1024U, dbfull()->TEST_write_controler().max_delayed_write_rate()); ASSERT_OK(dbfull()->SetDBOptions({{"delayed_write_rate", "20000"}})); ASSERT_EQ(20000, dbfull()->TEST_write_controler().max_delayed_write_rate()); } TEST_F(DBOptionsTest, MaxTotalWalSizeChange) { Random rnd(1044); const auto value_size = size_t(1024); std::string value; test::RandomString(&rnd, value_size, &value); Options options; options.create_if_missing = true; options.env = env_; CreateColumnFamilies({"1", "2", "3"}, options); ReopenWithColumnFamilies({"default", "1", "2", "3"}, options); WriteOptions write_options; const int key_count = 100; for (int i = 0; i < key_count; ++i) { for (size_t cf = 0; cf < handles_.size(); ++cf) { ASSERT_OK(Put(static_cast(cf), Key(i), value)); } } ASSERT_OK(dbfull()->SetDBOptions({{"max_total_wal_size", "10"}})); for (size_t cf = 0; cf < handles_.size(); ++cf) { dbfull()->TEST_WaitForFlushMemTable(handles_[cf]); ASSERT_EQ("1", FilesPerLevel(static_cast(cf))); } } TEST_F(DBOptionsTest, SetStatsDumpPeriodSec) { Options options; options.create_if_missing = true; options.stats_dump_period_sec = 5; options.env = env_; Reopen(options); ASSERT_EQ(5, dbfull()->GetDBOptions().stats_dump_period_sec); for (int i = 0; i < 20; i++) { int num = rand() % 5000 + 1; ASSERT_OK(dbfull()->SetDBOptions( {{"stats_dump_period_sec", std::to_string(num)}})); ASSERT_EQ(num, dbfull()->GetDBOptions().stats_dump_period_sec); } } static void assert_candidate_files_empty(DBImpl* dbfull, const bool empty) { dbfull->TEST_LockMutex(); JobContext job_context(0); dbfull->FindObsoleteFiles(&job_context, false); ASSERT_EQ(empty, job_context.full_scan_candidate_files.empty()); dbfull->TEST_UnlockMutex(); if (job_context.HaveSomethingToDelete()) { // fulfill the contract of FindObsoleteFiles by calling PurgeObsoleteFiles // afterwards; otherwise the test may hang on shutdown dbfull->PurgeObsoleteFiles(job_context); } job_context.Clean(); } TEST_F(DBOptionsTest, DeleteObsoleteFilesPeriodChange) { SpecialEnv env(env_); env.time_elapse_only_sleep_ = true; Options options; options.env = &env; options.create_if_missing = true; ASSERT_OK(TryReopen(options)); // Verify that candidate files set is empty when no full scan requested. assert_candidate_files_empty(dbfull(), true); ASSERT_OK( dbfull()->SetDBOptions({{"delete_obsolete_files_period_micros", "0"}})); // After delete_obsolete_files_period_micros updated to 0, the next call // to FindObsoleteFiles should make a full scan assert_candidate_files_empty(dbfull(), false); ASSERT_OK( dbfull()->SetDBOptions({{"delete_obsolete_files_period_micros", "20"}})); assert_candidate_files_empty(dbfull(), true); env.addon_time_.store(20); assert_candidate_files_empty(dbfull(), true); env.addon_time_.store(21); assert_candidate_files_empty(dbfull(), false); Close(); } TEST_F(DBOptionsTest, MaxOpenFilesChange) { SpecialEnv env(env_); Options options; options.env = CurrentOptions().env; options.max_open_files = -1; Reopen(options); Cache* tc = dbfull()->TEST_table_cache(); ASSERT_EQ(-1, dbfull()->GetDBOptions().max_open_files); ASSERT_LT(2000, tc->GetCapacity()); ASSERT_OK(dbfull()->SetDBOptions({{"max_open_files", "1024"}})); ASSERT_EQ(1024, dbfull()->GetDBOptions().max_open_files); // examine the table cache (actual size should be 1014) ASSERT_GT(1500, tc->GetCapacity()); Close(); } TEST_F(DBOptionsTest, SanitizeDelayedWriteRate) { Options options; options.delayed_write_rate = 0; Reopen(options); ASSERT_EQ(16 * 1024 * 1024, dbfull()->GetDBOptions().delayed_write_rate); options.rate_limiter.reset(NewGenericRateLimiter(31 * 1024 * 1024)); Reopen(options); ASSERT_EQ(31 * 1024 * 1024, dbfull()->GetDBOptions().delayed_write_rate); } TEST_F(DBOptionsTest, SetFIFOCompactionOptions) { Options options; options.compaction_style = kCompactionStyleFIFO; options.write_buffer_size = 10 << 10; // 10KB options.arena_block_size = 4096; options.compression = kNoCompression; options.create_if_missing = true; options.compaction_options_fifo.allow_compaction = false; env_->time_elapse_only_sleep_ = false; options.env = env_; // Test dynamically changing compaction_options_fifo.ttl env_->addon_time_.store(0); options.compaction_options_fifo.ttl = 1 * 60 * 60; // 1 hour ASSERT_OK(TryReopen(options)); Random rnd(301); for (int i = 0; i < 10; i++) { // Generate and flush a file about 10KB. for (int j = 0; j < 10; j++) { ASSERT_OK(Put(ToString(i * 20 + j), RandomString(&rnd, 980))); } Flush(); } ASSERT_OK(dbfull()->TEST_WaitForCompact()); ASSERT_EQ(NumTableFilesAtLevel(0), 10); // Add 61 seconds to the time. env_->addon_time_.fetch_add(61); // No files should be compacted as ttl is set to 1 hour. ASSERT_EQ(dbfull()->GetOptions().compaction_options_fifo.ttl, 3600); dbfull()->CompactRange(CompactRangeOptions(), nullptr, nullptr); ASSERT_EQ(NumTableFilesAtLevel(0), 10); // Set ttl to 1 minute. So all files should get deleted. ASSERT_OK(dbfull()->SetOptions({{"compaction_options_fifo", "{ttl=60;}"}})); ASSERT_EQ(dbfull()->GetOptions().compaction_options_fifo.ttl, 60); dbfull()->CompactRange(CompactRangeOptions(), nullptr, nullptr); ASSERT_OK(dbfull()->TEST_WaitForCompact()); ASSERT_EQ(NumTableFilesAtLevel(0), 0); // Test dynamically changing compaction_options_fifo.max_table_files_size env_->addon_time_.store(0); options.compaction_options_fifo.max_table_files_size = 500 << 10; // 00KB options.compaction_options_fifo.ttl = 0; DestroyAndReopen(options); for (int i = 0; i < 10; i++) { // Generate and flush a file about 10KB. for (int j = 0; j < 10; j++) { ASSERT_OK(Put(ToString(i * 20 + j), RandomString(&rnd, 980))); } Flush(); } ASSERT_OK(dbfull()->TEST_WaitForCompact()); ASSERT_EQ(NumTableFilesAtLevel(0), 10); // No files should be compacted as max_table_files_size is set to 500 KB. ASSERT_EQ(dbfull()->GetOptions().compaction_options_fifo.max_table_files_size, 500 << 10); dbfull()->CompactRange(CompactRangeOptions(), nullptr, nullptr); ASSERT_EQ(NumTableFilesAtLevel(0), 10); // Set max_table_files_size to 12 KB. So only 1 file should remain now. ASSERT_OK(dbfull()->SetOptions( {{"compaction_options_fifo", "{max_table_files_size=12288;}"}})); ASSERT_EQ(dbfull()->GetOptions().compaction_options_fifo.max_table_files_size, 12 << 10); dbfull()->CompactRange(CompactRangeOptions(), nullptr, nullptr); ASSERT_OK(dbfull()->TEST_WaitForCompact()); ASSERT_EQ(NumTableFilesAtLevel(0), 1); // Test dynamically changing compaction_options_fifo.allow_compaction options.compaction_options_fifo.max_table_files_size = 500 << 10; // 500KB options.compaction_options_fifo.ttl = 0; options.compaction_options_fifo.allow_compaction = false; options.level0_file_num_compaction_trigger = 6; DestroyAndReopen(options); for (int i = 0; i < 10; i++) { // Generate and flush a file about 10KB. for (int j = 0; j < 10; j++) { ASSERT_OK(Put(ToString(i * 20 + j), RandomString(&rnd, 980))); } Flush(); } ASSERT_OK(dbfull()->TEST_WaitForCompact()); ASSERT_EQ(NumTableFilesAtLevel(0), 10); // No files should be compacted as max_table_files_size is set to 500 KB and // allow_compaction is false ASSERT_EQ(dbfull()->GetOptions().compaction_options_fifo.allow_compaction, false); dbfull()->CompactRange(CompactRangeOptions(), nullptr, nullptr); ASSERT_EQ(NumTableFilesAtLevel(0), 10); // Set allow_compaction to true. So number of files should be between 1 and 5. ASSERT_OK(dbfull()->SetOptions( {{"compaction_options_fifo", "{allow_compaction=true;}"}})); ASSERT_EQ(dbfull()->GetOptions().compaction_options_fifo.allow_compaction, true); dbfull()->CompactRange(CompactRangeOptions(), nullptr, nullptr); ASSERT_OK(dbfull()->TEST_WaitForCompact()); ASSERT_GE(NumTableFilesAtLevel(0), 1); ASSERT_LE(NumTableFilesAtLevel(0), 5); } TEST_F(DBOptionsTest, CompactionReadaheadSizeChange) { SpecialEnv env(env_); Options options; options.env = &env; options.compaction_readahead_size = 0; options.new_table_reader_for_compaction_inputs = true; options.level0_file_num_compaction_trigger = 2; const std::string kValue(1024, 'v'); Reopen(options); ASSERT_EQ(0, dbfull()->GetDBOptions().compaction_readahead_size); ASSERT_OK(dbfull()->SetDBOptions({{"compaction_readahead_size", "256"}})); ASSERT_EQ(256, dbfull()->GetDBOptions().compaction_readahead_size); for (int i = 0; i < 1024; i++) { Put(Key(i), kValue); } Flush(); for (int i = 0; i < 1024 * 2; i++) { Put(Key(i), kValue); } Flush(); dbfull()->TEST_WaitForCompact(); ASSERT_EQ(256, env_->compaction_readahead_size_); Close(); } #endif // ROCKSDB_LITE } // namespace rocksdb int main(int argc, char** argv) { rocksdb::port::InstallStackTraceHandler(); ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/db/db_properties_test.cc000066400000000000000000001657561337235545400200700ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include #include #include #include "db/db_test_util.h" #include "port/stack_trace.h" #include "rocksdb/listener.h" #include "rocksdb/options.h" #include "rocksdb/perf_context.h" #include "rocksdb/perf_level.h" #include "rocksdb/table.h" #include "util/random.h" #include "util/string_util.h" namespace rocksdb { class DBPropertiesTest : public DBTestBase { public: DBPropertiesTest() : DBTestBase("/db_properties_test") {} }; #ifndef ROCKSDB_LITE TEST_F(DBPropertiesTest, Empty) { do { Options options; options.env = env_; options.write_buffer_size = 100000; // Small write buffer options.allow_concurrent_memtable_write = false; options = CurrentOptions(options); CreateAndReopenWithCF({"pikachu"}, options); std::string num; ASSERT_TRUE(dbfull()->GetProperty( handles_[1], "rocksdb.num-entries-active-mem-table", &num)); ASSERT_EQ("0", num); ASSERT_OK(Put(1, "foo", "v1")); ASSERT_EQ("v1", Get(1, "foo")); ASSERT_TRUE(dbfull()->GetProperty( handles_[1], "rocksdb.num-entries-active-mem-table", &num)); ASSERT_EQ("1", num); // Block sync calls env_->delay_sstable_sync_.store(true, std::memory_order_release); Put(1, "k1", std::string(100000, 'x')); // Fill memtable ASSERT_TRUE(dbfull()->GetProperty( handles_[1], "rocksdb.num-entries-active-mem-table", &num)); ASSERT_EQ("2", num); Put(1, "k2", std::string(100000, 'y')); // Trigger compaction ASSERT_TRUE(dbfull()->GetProperty( handles_[1], "rocksdb.num-entries-active-mem-table", &num)); ASSERT_EQ("1", num); ASSERT_EQ("v1", Get(1, "foo")); // Release sync calls env_->delay_sstable_sync_.store(false, std::memory_order_release); ASSERT_OK(db_->DisableFileDeletions()); ASSERT_TRUE( dbfull()->GetProperty("rocksdb.is-file-deletions-enabled", &num)); ASSERT_EQ("0", num); ASSERT_OK(db_->DisableFileDeletions()); ASSERT_TRUE( dbfull()->GetProperty("rocksdb.is-file-deletions-enabled", &num)); ASSERT_EQ("0", num); ASSERT_OK(db_->DisableFileDeletions()); ASSERT_TRUE( dbfull()->GetProperty("rocksdb.is-file-deletions-enabled", &num)); ASSERT_EQ("0", num); ASSERT_OK(db_->EnableFileDeletions(false)); ASSERT_TRUE( dbfull()->GetProperty("rocksdb.is-file-deletions-enabled", &num)); ASSERT_EQ("0", num); ASSERT_OK(db_->EnableFileDeletions()); ASSERT_TRUE( dbfull()->GetProperty("rocksdb.is-file-deletions-enabled", &num)); ASSERT_EQ("1", num); } while (ChangeOptions()); } TEST_F(DBPropertiesTest, CurrentVersionNumber) { uint64_t v1, v2, v3; ASSERT_TRUE( dbfull()->GetIntProperty("rocksdb.current-super-version-number", &v1)); Put("12345678", ""); ASSERT_TRUE( dbfull()->GetIntProperty("rocksdb.current-super-version-number", &v2)); Flush(); ASSERT_TRUE( dbfull()->GetIntProperty("rocksdb.current-super-version-number", &v3)); ASSERT_EQ(v1, v2); ASSERT_GT(v3, v2); } TEST_F(DBPropertiesTest, GetAggregatedIntPropertyTest) { const int kKeySize = 100; const int kValueSize = 500; const int kKeyNum = 100; Options options; options.env = env_; options.create_if_missing = true; options.write_buffer_size = (kKeySize + kValueSize) * kKeyNum / 10; // Make them never flush options.min_write_buffer_number_to_merge = 1000; options.max_write_buffer_number = 1000; options = CurrentOptions(options); CreateAndReopenWithCF({"one", "two", "three", "four"}, options); Random rnd(301); for (auto* handle : handles_) { for (int i = 0; i < kKeyNum; ++i) { db_->Put(WriteOptions(), handle, RandomString(&rnd, kKeySize), RandomString(&rnd, kValueSize)); } } uint64_t manual_sum = 0; uint64_t api_sum = 0; uint64_t value = 0; for (auto* handle : handles_) { ASSERT_TRUE( db_->GetIntProperty(handle, DB::Properties::kSizeAllMemTables, &value)); manual_sum += value; } ASSERT_TRUE(db_->GetAggregatedIntProperty(DB::Properties::kSizeAllMemTables, &api_sum)); ASSERT_GT(manual_sum, 0); ASSERT_EQ(manual_sum, api_sum); ASSERT_FALSE(db_->GetAggregatedIntProperty(DB::Properties::kDBStats, &value)); uint64_t before_flush_trm; uint64_t after_flush_trm; for (auto* handle : handles_) { ASSERT_TRUE(db_->GetAggregatedIntProperty( DB::Properties::kEstimateTableReadersMem, &before_flush_trm)); // Issue flush and expect larger memory usage of table readers. db_->Flush(FlushOptions(), handle); ASSERT_TRUE(db_->GetAggregatedIntProperty( DB::Properties::kEstimateTableReadersMem, &after_flush_trm)); ASSERT_GT(after_flush_trm, before_flush_trm); } } namespace { void ResetTableProperties(TableProperties* tp) { tp->data_size = 0; tp->index_size = 0; tp->filter_size = 0; tp->raw_key_size = 0; tp->raw_value_size = 0; tp->num_data_blocks = 0; tp->num_entries = 0; tp->num_range_deletions = 0; } void ParseTablePropertiesString(std::string tp_string, TableProperties* tp) { double dummy_double; std::replace(tp_string.begin(), tp_string.end(), ';', ' '); std::replace(tp_string.begin(), tp_string.end(), '=', ' '); ResetTableProperties(tp); sscanf(tp_string.c_str(), "# data blocks %" SCNu64 " # entries %" SCNu64 " # range deletions %" SCNu64 " raw key size %" SCNu64 " raw average key size %lf " " raw value size %" SCNu64 " raw average value size %lf " " data block size %" SCNu64 " index block size (user-key? %" SCNu64 ", delta-value? %" SCNu64 ") %" SCNu64 " filter block size %" SCNu64, &tp->num_data_blocks, &tp->num_entries, &tp->num_range_deletions, &tp->raw_key_size, &dummy_double, &tp->raw_value_size, &dummy_double, &tp->data_size, &tp->index_key_is_user_key, &tp->index_value_is_delta_encoded, &tp->index_size, &tp->filter_size); } void VerifySimilar(uint64_t a, uint64_t b, double bias) { ASSERT_EQ(a == 0U, b == 0U); if (a == 0) { return; } double dbl_a = static_cast(a); double dbl_b = static_cast(b); if (dbl_a > dbl_b) { ASSERT_LT(static_cast(dbl_a - dbl_b) / (dbl_a + dbl_b), bias); } else { ASSERT_LT(static_cast(dbl_b - dbl_a) / (dbl_a + dbl_b), bias); } } void VerifyTableProperties(const TableProperties& base_tp, const TableProperties& new_tp, double filter_size_bias = 0.1, double index_size_bias = 0.1, double data_size_bias = 0.1, double num_data_blocks_bias = 0.05) { VerifySimilar(base_tp.data_size, new_tp.data_size, data_size_bias); VerifySimilar(base_tp.index_size, new_tp.index_size, index_size_bias); VerifySimilar(base_tp.filter_size, new_tp.filter_size, filter_size_bias); VerifySimilar(base_tp.num_data_blocks, new_tp.num_data_blocks, num_data_blocks_bias); ASSERT_EQ(base_tp.raw_key_size, new_tp.raw_key_size); ASSERT_EQ(base_tp.raw_value_size, new_tp.raw_value_size); ASSERT_EQ(base_tp.num_entries, new_tp.num_entries); ASSERT_EQ(base_tp.num_range_deletions, new_tp.num_range_deletions); } void GetExpectedTableProperties( TableProperties* expected_tp, const int kKeySize, const int kValueSize, const int kKeysPerTable, const int kRangeDeletionsPerTable, const int kTableCount, const int kBloomBitsPerKey, const size_t kBlockSize, const bool index_key_is_user_key, const bool value_delta_encoding) { const int kKeyCount = kTableCount * kKeysPerTable; const int kRangeDeletionCount = kTableCount * kRangeDeletionsPerTable; const int kAvgSuccessorSize = kKeySize / 5; const int kEncodingSavePerKey = kKeySize / 4; expected_tp->raw_key_size = (kKeyCount + kRangeDeletionCount) * (kKeySize + 8); expected_tp->raw_value_size = (kKeyCount + kRangeDeletionCount) * kValueSize; expected_tp->num_entries = kKeyCount; expected_tp->num_range_deletions = kRangeDeletionCount; expected_tp->num_data_blocks = kTableCount * (kKeysPerTable * (kKeySize - kEncodingSavePerKey + kValueSize)) / kBlockSize; expected_tp->data_size = kTableCount * (kKeysPerTable * (kKeySize + 8 + kValueSize)); expected_tp->index_size = expected_tp->num_data_blocks * (kAvgSuccessorSize + (index_key_is_user_key ? 0 : 8) - // discount 1 byte as value size is not encoded in value delta encoding (value_delta_encoding ? 1 : 0)); expected_tp->filter_size = kTableCount * (kKeysPerTable * kBloomBitsPerKey / 8); } } // anonymous namespace TEST_F(DBPropertiesTest, ValidatePropertyInfo) { for (const auto& ppt_name_and_info : InternalStats::ppt_name_to_info) { // If C++ gets a std::string_literal, this would be better to check at // compile-time using static_assert. ASSERT_TRUE(ppt_name_and_info.first.empty() || !isdigit(ppt_name_and_info.first.back())); int count = 0; count += (ppt_name_and_info.second.handle_string == nullptr) ? 0 : 1; count += (ppt_name_and_info.second.handle_int == nullptr) ? 0 : 1; count += (ppt_name_and_info.second.handle_string_dbimpl == nullptr) ? 0 : 1; ASSERT_TRUE(count == 1); } } TEST_F(DBPropertiesTest, ValidateSampleNumber) { // When "max_open_files" is -1, we read all the files for // "rocksdb.estimate-num-keys" computation, which is the ground truth. // Otherwise, we sample 20 newest files to make an estimation. // Formula: lastest_20_files_active_key_ratio * total_files Options options = CurrentOptions(); options.disable_auto_compactions = true; options.level0_stop_writes_trigger = 1000; DestroyAndReopen(options); int key = 0; for (int files = 20; files >= 10; files -= 10) { for (int i = 0; i < files; i++) { int rows = files / 10; for (int j = 0; j < rows; j++) { db_->Put(WriteOptions(), std::to_string(++key), "foo"); } db_->Flush(FlushOptions()); } } std::string num; Reopen(options); ASSERT_TRUE(dbfull()->GetProperty("rocksdb.estimate-num-keys", &num)); ASSERT_EQ("45", num); options.max_open_files = -1; Reopen(options); ASSERT_TRUE(dbfull()->GetProperty("rocksdb.estimate-num-keys", &num)); ASSERT_EQ("50", num); } TEST_F(DBPropertiesTest, AggregatedTableProperties) { for (int kTableCount = 40; kTableCount <= 100; kTableCount += 30) { const int kRangeDeletionsPerTable = 5; const int kKeysPerTable = 100; const int kKeySize = 80; const int kValueSize = 200; const int kBloomBitsPerKey = 20; Options options = CurrentOptions(); options.level0_file_num_compaction_trigger = 8; options.compression = kNoCompression; options.create_if_missing = true; BlockBasedTableOptions table_options; table_options.filter_policy.reset( NewBloomFilterPolicy(kBloomBitsPerKey, false)); table_options.block_size = 1024; options.table_factory.reset(new BlockBasedTableFactory(table_options)); DestroyAndReopen(options); // Hold open a snapshot to prevent range tombstones from being compacted // away. ManagedSnapshot snapshot(db_); Random rnd(5632); for (int table = 1; table <= kTableCount; ++table) { for (int i = 0; i < kKeysPerTable; ++i) { db_->Put(WriteOptions(), RandomString(&rnd, kKeySize), RandomString(&rnd, kValueSize)); } for (int i = 0; i < kRangeDeletionsPerTable; i++) { std::string start = RandomString(&rnd, kKeySize); std::string end = start; end.resize(kValueSize); db_->DeleteRange(WriteOptions(), db_->DefaultColumnFamily(), start, end); } db_->Flush(FlushOptions()); } std::string property; db_->GetProperty(DB::Properties::kAggregatedTableProperties, &property); TableProperties output_tp; ParseTablePropertiesString(property, &output_tp); bool index_key_is_user_key = output_tp.index_key_is_user_key > 0; bool value_is_delta_encoded = output_tp.index_value_is_delta_encoded > 0; TableProperties expected_tp; GetExpectedTableProperties(&expected_tp, kKeySize, kValueSize, kKeysPerTable, kRangeDeletionsPerTable, kTableCount, kBloomBitsPerKey, table_options.block_size, index_key_is_user_key, value_is_delta_encoded); VerifyTableProperties(expected_tp, output_tp); } } TEST_F(DBPropertiesTest, ReadLatencyHistogramByLevel) { Options options = CurrentOptions(); options.write_buffer_size = 110 << 10; options.level0_file_num_compaction_trigger = 6; options.num_levels = 4; options.compression = kNoCompression; options.max_bytes_for_level_base = 4500 << 10; options.target_file_size_base = 98 << 10; options.max_write_buffer_number = 2; options.statistics = rocksdb::CreateDBStatistics(); options.max_open_files = 100; BlockBasedTableOptions table_options; table_options.no_block_cache = true; CreateAndReopenWithCF({"pikachu"}, options); int key_index = 0; Random rnd(301); for (int num = 0; num < 8; num++) { Put("foo", "bar"); GenerateNewFile(&rnd, &key_index); dbfull()->TEST_WaitForCompact(); } dbfull()->TEST_WaitForCompact(); std::string prop; ASSERT_TRUE(dbfull()->GetProperty("rocksdb.dbstats", &prop)); // Get() after flushes, See latency histogram tracked. for (int key = 0; key < key_index; key++) { Get(Key(key)); } ASSERT_TRUE(dbfull()->GetProperty("rocksdb.cfstats", &prop)); ASSERT_NE(std::string::npos, prop.find("** Level 0 read latency histogram")); ASSERT_NE(std::string::npos, prop.find("** Level 1 read latency histogram")); ASSERT_EQ(std::string::npos, prop.find("** Level 2 read latency histogram")); // Reopen and issue Get(). See thee latency tracked ReopenWithColumnFamilies({"default", "pikachu"}, options); dbfull()->TEST_WaitForCompact(); for (int key = 0; key < key_index; key++) { Get(Key(key)); } // Test for getting immutable_db_options_.statistics ASSERT_TRUE(dbfull()->GetProperty(dbfull()->DefaultColumnFamily(), "rocksdb.options-statistics", &prop)); ASSERT_NE(std::string::npos, prop.find("rocksdb.block.cache.miss")); ASSERT_EQ(std::string::npos, prop.find("rocksdb.db.f.micros")); ASSERT_TRUE(dbfull()->GetProperty(dbfull()->DefaultColumnFamily(), "rocksdb.cf-file-histogram", &prop)); ASSERT_NE(std::string::npos, prop.find("** Level 0 read latency histogram")); ASSERT_NE(std::string::npos, prop.find("** Level 1 read latency histogram")); ASSERT_EQ(std::string::npos, prop.find("** Level 2 read latency histogram")); // Reopen and issue iterating. See thee latency tracked ReopenWithColumnFamilies({"default", "pikachu"}, options); ASSERT_TRUE(dbfull()->GetProperty("rocksdb.cf-file-histogram", &prop)); ASSERT_EQ(std::string::npos, prop.find("** Level 0 read latency histogram")); ASSERT_EQ(std::string::npos, prop.find("** Level 1 read latency histogram")); ASSERT_EQ(std::string::npos, prop.find("** Level 2 read latency histogram")); { unique_ptr iter(db_->NewIterator(ReadOptions())); for (iter->Seek(Key(0)); iter->Valid(); iter->Next()) { } } ASSERT_TRUE(dbfull()->GetProperty("rocksdb.cf-file-histogram", &prop)); ASSERT_NE(std::string::npos, prop.find("** Level 0 read latency histogram")); ASSERT_NE(std::string::npos, prop.find("** Level 1 read latency histogram")); ASSERT_EQ(std::string::npos, prop.find("** Level 2 read latency histogram")); // CF 1 should show no histogram. ASSERT_TRUE( dbfull()->GetProperty(handles_[1], "rocksdb.cf-file-histogram", &prop)); ASSERT_EQ(std::string::npos, prop.find("** Level 0 read latency histogram")); ASSERT_EQ(std::string::npos, prop.find("** Level 1 read latency histogram")); ASSERT_EQ(std::string::npos, prop.find("** Level 2 read latency histogram")); // put something and read it back , CF 1 should show histogram. Put(1, "foo", "bar"); Flush(1); dbfull()->TEST_WaitForCompact(); ASSERT_EQ("bar", Get(1, "foo")); ASSERT_TRUE( dbfull()->GetProperty(handles_[1], "rocksdb.cf-file-histogram", &prop)); ASSERT_NE(std::string::npos, prop.find("** Level 0 read latency histogram")); ASSERT_EQ(std::string::npos, prop.find("** Level 1 read latency histogram")); ASSERT_EQ(std::string::npos, prop.find("** Level 2 read latency histogram")); // options.max_open_files preloads table readers. options.max_open_files = -1; ReopenWithColumnFamilies({"default", "pikachu"}, options); ASSERT_TRUE(dbfull()->GetProperty(dbfull()->DefaultColumnFamily(), "rocksdb.cf-file-histogram", &prop)); ASSERT_NE(std::string::npos, prop.find("** Level 0 read latency histogram")); ASSERT_NE(std::string::npos, prop.find("** Level 1 read latency histogram")); ASSERT_EQ(std::string::npos, prop.find("** Level 2 read latency histogram")); for (int key = 0; key < key_index; key++) { Get(Key(key)); } ASSERT_TRUE(dbfull()->GetProperty("rocksdb.cfstats", &prop)); ASSERT_NE(std::string::npos, prop.find("** Level 0 read latency histogram")); ASSERT_NE(std::string::npos, prop.find("** Level 1 read latency histogram")); ASSERT_EQ(std::string::npos, prop.find("** Level 2 read latency histogram")); // Clear internal stats dbfull()->ResetStats(); ASSERT_TRUE(dbfull()->GetProperty("rocksdb.cfstats", &prop)); ASSERT_EQ(std::string::npos, prop.find("** Level 0 read latency histogram")); ASSERT_EQ(std::string::npos, prop.find("** Level 1 read latency histogram")); ASSERT_EQ(std::string::npos, prop.find("** Level 2 read latency histogram")); } TEST_F(DBPropertiesTest, AggregatedTablePropertiesAtLevel) { const int kTableCount = 100; const int kRangeDeletionsPerTable = 2; const int kKeysPerTable = 10; const int kKeySize = 50; const int kValueSize = 400; const int kMaxLevel = 7; const int kBloomBitsPerKey = 20; Random rnd(301); Options options = CurrentOptions(); options.level0_file_num_compaction_trigger = 8; options.compression = kNoCompression; options.create_if_missing = true; options.level0_file_num_compaction_trigger = 2; options.target_file_size_base = 8192; options.max_bytes_for_level_base = 10000; options.max_bytes_for_level_multiplier = 2; // This ensures there no compaction happening when we call GetProperty(). options.disable_auto_compactions = true; BlockBasedTableOptions table_options; table_options.filter_policy.reset( NewBloomFilterPolicy(kBloomBitsPerKey, false)); table_options.block_size = 1024; options.table_factory.reset(new BlockBasedTableFactory(table_options)); DestroyAndReopen(options); // Hold open a snapshot to prevent range tombstones from being compacted away. ManagedSnapshot snapshot(db_); std::string level_tp_strings[kMaxLevel]; std::string tp_string; TableProperties level_tps[kMaxLevel]; TableProperties tp, sum_tp, expected_tp; for (int table = 1; table <= kTableCount; ++table) { for (int i = 0; i < kKeysPerTable; ++i) { db_->Put(WriteOptions(), RandomString(&rnd, kKeySize), RandomString(&rnd, kValueSize)); } for (int i = 0; i < kRangeDeletionsPerTable; i++) { std::string start = RandomString(&rnd, kKeySize); std::string end = start; end.resize(kValueSize); db_->DeleteRange(WriteOptions(), db_->DefaultColumnFamily(), start, end); } db_->Flush(FlushOptions()); db_->CompactRange(CompactRangeOptions(), nullptr, nullptr); ResetTableProperties(&sum_tp); for (int level = 0; level < kMaxLevel; ++level) { db_->GetProperty( DB::Properties::kAggregatedTablePropertiesAtLevel + ToString(level), &level_tp_strings[level]); ParseTablePropertiesString(level_tp_strings[level], &level_tps[level]); sum_tp.data_size += level_tps[level].data_size; sum_tp.index_size += level_tps[level].index_size; sum_tp.filter_size += level_tps[level].filter_size; sum_tp.raw_key_size += level_tps[level].raw_key_size; sum_tp.raw_value_size += level_tps[level].raw_value_size; sum_tp.num_data_blocks += level_tps[level].num_data_blocks; sum_tp.num_entries += level_tps[level].num_entries; sum_tp.num_range_deletions += level_tps[level].num_range_deletions; } db_->GetProperty(DB::Properties::kAggregatedTableProperties, &tp_string); ParseTablePropertiesString(tp_string, &tp); bool index_key_is_user_key = tp.index_key_is_user_key > 0; bool value_is_delta_encoded = tp.index_value_is_delta_encoded > 0; ASSERT_EQ(sum_tp.data_size, tp.data_size); ASSERT_EQ(sum_tp.index_size, tp.index_size); ASSERT_EQ(sum_tp.filter_size, tp.filter_size); ASSERT_EQ(sum_tp.raw_key_size, tp.raw_key_size); ASSERT_EQ(sum_tp.raw_value_size, tp.raw_value_size); ASSERT_EQ(sum_tp.num_data_blocks, tp.num_data_blocks); ASSERT_EQ(sum_tp.num_entries, tp.num_entries); ASSERT_EQ(sum_tp.num_range_deletions, tp.num_range_deletions); if (table > 3) { GetExpectedTableProperties(&expected_tp, kKeySize, kValueSize, kKeysPerTable, kRangeDeletionsPerTable, table, kBloomBitsPerKey, table_options.block_size, index_key_is_user_key, value_is_delta_encoded); // Gives larger bias here as index block size, filter block size, // and data block size become much harder to estimate in this test. VerifyTableProperties(expected_tp, tp, 0.5, 0.4, 0.4, 0.25); } } } TEST_F(DBPropertiesTest, NumImmutableMemTable) { do { Options options = CurrentOptions(); WriteOptions writeOpt = WriteOptions(); writeOpt.disableWAL = true; options.max_write_buffer_number = 4; options.min_write_buffer_number_to_merge = 3; options.max_write_buffer_number_to_maintain = 4; options.write_buffer_size = 1000000; CreateAndReopenWithCF({"pikachu"}, options); std::string big_value(1000000 * 2, 'x'); std::string num; uint64_t value; SetPerfLevel(kEnableTime); ASSERT_TRUE(GetPerfLevel() == kEnableTime); ASSERT_OK(dbfull()->Put(writeOpt, handles_[1], "k1", big_value)); ASSERT_TRUE(dbfull()->GetProperty(handles_[1], "rocksdb.num-immutable-mem-table", &num)); ASSERT_EQ(num, "0"); ASSERT_TRUE(dbfull()->GetProperty( handles_[1], DB::Properties::kNumImmutableMemTableFlushed, &num)); ASSERT_EQ(num, "0"); ASSERT_TRUE(dbfull()->GetProperty( handles_[1], "rocksdb.num-entries-active-mem-table", &num)); ASSERT_EQ(num, "1"); get_perf_context()->Reset(); Get(1, "k1"); ASSERT_EQ(1, static_cast(get_perf_context()->get_from_memtable_count)); ASSERT_OK(dbfull()->Put(writeOpt, handles_[1], "k2", big_value)); ASSERT_TRUE(dbfull()->GetProperty(handles_[1], "rocksdb.num-immutable-mem-table", &num)); ASSERT_EQ(num, "1"); ASSERT_TRUE(dbfull()->GetProperty( handles_[1], "rocksdb.num-entries-active-mem-table", &num)); ASSERT_EQ(num, "1"); ASSERT_TRUE(dbfull()->GetProperty( handles_[1], "rocksdb.num-entries-imm-mem-tables", &num)); ASSERT_EQ(num, "1"); get_perf_context()->Reset(); Get(1, "k1"); ASSERT_EQ(2, static_cast(get_perf_context()->get_from_memtable_count)); get_perf_context()->Reset(); Get(1, "k2"); ASSERT_EQ(1, static_cast(get_perf_context()->get_from_memtable_count)); ASSERT_OK(dbfull()->Put(writeOpt, handles_[1], "k3", big_value)); ASSERT_TRUE(dbfull()->GetProperty( handles_[1], "rocksdb.cur-size-active-mem-table", &num)); ASSERT_TRUE(dbfull()->GetProperty(handles_[1], "rocksdb.num-immutable-mem-table", &num)); ASSERT_EQ(num, "2"); ASSERT_TRUE(dbfull()->GetProperty( handles_[1], "rocksdb.num-entries-active-mem-table", &num)); ASSERT_EQ(num, "1"); ASSERT_TRUE(dbfull()->GetProperty( handles_[1], "rocksdb.num-entries-imm-mem-tables", &num)); ASSERT_EQ(num, "2"); get_perf_context()->Reset(); Get(1, "k2"); ASSERT_EQ(2, static_cast(get_perf_context()->get_from_memtable_count)); get_perf_context()->Reset(); Get(1, "k3"); ASSERT_EQ(1, static_cast(get_perf_context()->get_from_memtable_count)); get_perf_context()->Reset(); Get(1, "k1"); ASSERT_EQ(3, static_cast(get_perf_context()->get_from_memtable_count)); ASSERT_OK(Flush(1)); ASSERT_TRUE(dbfull()->GetProperty(handles_[1], "rocksdb.num-immutable-mem-table", &num)); ASSERT_EQ(num, "0"); ASSERT_TRUE(dbfull()->GetProperty( handles_[1], DB::Properties::kNumImmutableMemTableFlushed, &num)); ASSERT_EQ(num, "3"); ASSERT_TRUE(dbfull()->GetIntProperty( handles_[1], "rocksdb.cur-size-active-mem-table", &value)); // "192" is the size of the metadata of two empty skiplists, this would // break if we change the default skiplist implementation ASSERT_GE(value, 192); uint64_t int_num; uint64_t base_total_size; ASSERT_TRUE(dbfull()->GetIntProperty( handles_[1], "rocksdb.estimate-num-keys", &base_total_size)); ASSERT_OK(dbfull()->Delete(writeOpt, handles_[1], "k2")); ASSERT_OK(dbfull()->Put(writeOpt, handles_[1], "k3", "")); ASSERT_OK(dbfull()->Delete(writeOpt, handles_[1], "k3")); ASSERT_TRUE(dbfull()->GetIntProperty( handles_[1], "rocksdb.num-deletes-active-mem-table", &int_num)); ASSERT_EQ(int_num, 2U); ASSERT_TRUE(dbfull()->GetIntProperty( handles_[1], "rocksdb.num-entries-active-mem-table", &int_num)); ASSERT_EQ(int_num, 3U); ASSERT_OK(dbfull()->Put(writeOpt, handles_[1], "k2", big_value)); ASSERT_OK(dbfull()->Put(writeOpt, handles_[1], "k2", big_value)); ASSERT_TRUE(dbfull()->GetIntProperty( handles_[1], "rocksdb.num-entries-imm-mem-tables", &int_num)); ASSERT_EQ(int_num, 4U); ASSERT_TRUE(dbfull()->GetIntProperty( handles_[1], "rocksdb.num-deletes-imm-mem-tables", &int_num)); ASSERT_EQ(int_num, 2U); ASSERT_TRUE(dbfull()->GetIntProperty( handles_[1], "rocksdb.estimate-num-keys", &int_num)); ASSERT_EQ(int_num, base_total_size + 1); SetPerfLevel(kDisable); ASSERT_TRUE(GetPerfLevel() == kDisable); } while (ChangeCompactOptions()); } // TODO(techdept) : Disabled flaky test #12863555 TEST_F(DBPropertiesTest, DISABLED_GetProperty) { // Set sizes to both background thread pool to be 1 and block them. env_->SetBackgroundThreads(1, Env::HIGH); env_->SetBackgroundThreads(1, Env::LOW); test::SleepingBackgroundTask sleeping_task_low; env_->Schedule(&test::SleepingBackgroundTask::DoSleepTask, &sleeping_task_low, Env::Priority::LOW); test::SleepingBackgroundTask sleeping_task_high; env_->Schedule(&test::SleepingBackgroundTask::DoSleepTask, &sleeping_task_high, Env::Priority::HIGH); Options options = CurrentOptions(); WriteOptions writeOpt = WriteOptions(); writeOpt.disableWAL = true; options.compaction_style = kCompactionStyleUniversal; options.level0_file_num_compaction_trigger = 1; options.compaction_options_universal.size_ratio = 50; options.max_background_compactions = 1; options.max_background_flushes = 1; options.max_write_buffer_number = 10; options.min_write_buffer_number_to_merge = 1; options.max_write_buffer_number_to_maintain = 0; options.write_buffer_size = 1000000; Reopen(options); std::string big_value(1000000 * 2, 'x'); std::string num; uint64_t int_num; SetPerfLevel(kEnableTime); ASSERT_TRUE( dbfull()->GetIntProperty("rocksdb.estimate-table-readers-mem", &int_num)); ASSERT_EQ(int_num, 0U); ASSERT_TRUE( dbfull()->GetIntProperty("rocksdb.estimate-live-data-size", &int_num)); ASSERT_EQ(int_num, 0U); ASSERT_OK(dbfull()->Put(writeOpt, "k1", big_value)); ASSERT_TRUE(dbfull()->GetProperty("rocksdb.num-immutable-mem-table", &num)); ASSERT_EQ(num, "0"); ASSERT_TRUE(dbfull()->GetProperty("rocksdb.mem-table-flush-pending", &num)); ASSERT_EQ(num, "0"); ASSERT_TRUE(dbfull()->GetProperty("rocksdb.compaction-pending", &num)); ASSERT_EQ(num, "0"); ASSERT_TRUE(dbfull()->GetProperty("rocksdb.estimate-num-keys", &num)); ASSERT_EQ(num, "1"); get_perf_context()->Reset(); ASSERT_OK(dbfull()->Put(writeOpt, "k2", big_value)); ASSERT_TRUE(dbfull()->GetProperty("rocksdb.num-immutable-mem-table", &num)); ASSERT_EQ(num, "1"); ASSERT_OK(dbfull()->Delete(writeOpt, "k-non-existing")); ASSERT_OK(dbfull()->Put(writeOpt, "k3", big_value)); ASSERT_TRUE(dbfull()->GetProperty("rocksdb.num-immutable-mem-table", &num)); ASSERT_EQ(num, "2"); ASSERT_TRUE(dbfull()->GetProperty("rocksdb.mem-table-flush-pending", &num)); ASSERT_EQ(num, "1"); ASSERT_TRUE(dbfull()->GetProperty("rocksdb.compaction-pending", &num)); ASSERT_EQ(num, "0"); ASSERT_TRUE(dbfull()->GetProperty("rocksdb.estimate-num-keys", &num)); ASSERT_EQ(num, "2"); // Verify the same set of properties through GetIntProperty ASSERT_TRUE( dbfull()->GetIntProperty("rocksdb.num-immutable-mem-table", &int_num)); ASSERT_EQ(int_num, 2U); ASSERT_TRUE( dbfull()->GetIntProperty("rocksdb.mem-table-flush-pending", &int_num)); ASSERT_EQ(int_num, 1U); ASSERT_TRUE(dbfull()->GetIntProperty("rocksdb.compaction-pending", &int_num)); ASSERT_EQ(int_num, 0U); ASSERT_TRUE(dbfull()->GetIntProperty("rocksdb.estimate-num-keys", &int_num)); ASSERT_EQ(int_num, 2U); ASSERT_TRUE( dbfull()->GetIntProperty("rocksdb.estimate-table-readers-mem", &int_num)); ASSERT_EQ(int_num, 0U); sleeping_task_high.WakeUp(); sleeping_task_high.WaitUntilDone(); dbfull()->TEST_WaitForFlushMemTable(); ASSERT_OK(dbfull()->Put(writeOpt, "k4", big_value)); ASSERT_OK(dbfull()->Put(writeOpt, "k5", big_value)); dbfull()->TEST_WaitForFlushMemTable(); ASSERT_TRUE(dbfull()->GetProperty("rocksdb.mem-table-flush-pending", &num)); ASSERT_EQ(num, "0"); ASSERT_TRUE(dbfull()->GetProperty("rocksdb.compaction-pending", &num)); ASSERT_EQ(num, "1"); ASSERT_TRUE(dbfull()->GetProperty("rocksdb.estimate-num-keys", &num)); ASSERT_EQ(num, "4"); ASSERT_TRUE( dbfull()->GetIntProperty("rocksdb.estimate-table-readers-mem", &int_num)); ASSERT_GT(int_num, 0U); sleeping_task_low.WakeUp(); sleeping_task_low.WaitUntilDone(); // Wait for compaction to be done. This is important because otherwise RocksDB // might schedule a compaction when reopening the database, failing assertion // (A) as a result. dbfull()->TEST_WaitForCompact(); options.max_open_files = 10; Reopen(options); // After reopening, no table reader is loaded, so no memory for table readers ASSERT_TRUE( dbfull()->GetIntProperty("rocksdb.estimate-table-readers-mem", &int_num)); ASSERT_EQ(int_num, 0U); // (A) ASSERT_TRUE(dbfull()->GetIntProperty("rocksdb.estimate-num-keys", &int_num)); ASSERT_GT(int_num, 0U); // After reading a key, at least one table reader is loaded. Get("k5"); ASSERT_TRUE( dbfull()->GetIntProperty("rocksdb.estimate-table-readers-mem", &int_num)); ASSERT_GT(int_num, 0U); // Test rocksdb.num-live-versions { options.level0_file_num_compaction_trigger = 20; Reopen(options); ASSERT_TRUE( dbfull()->GetIntProperty("rocksdb.num-live-versions", &int_num)); ASSERT_EQ(int_num, 1U); // Use an iterator to hold current version std::unique_ptr iter1(dbfull()->NewIterator(ReadOptions())); ASSERT_OK(dbfull()->Put(writeOpt, "k6", big_value)); Flush(); ASSERT_TRUE( dbfull()->GetIntProperty("rocksdb.num-live-versions", &int_num)); ASSERT_EQ(int_num, 2U); // Use an iterator to hold current version std::unique_ptr iter2(dbfull()->NewIterator(ReadOptions())); ASSERT_OK(dbfull()->Put(writeOpt, "k7", big_value)); Flush(); ASSERT_TRUE( dbfull()->GetIntProperty("rocksdb.num-live-versions", &int_num)); ASSERT_EQ(int_num, 3U); iter2.reset(); ASSERT_TRUE( dbfull()->GetIntProperty("rocksdb.num-live-versions", &int_num)); ASSERT_EQ(int_num, 2U); iter1.reset(); ASSERT_TRUE( dbfull()->GetIntProperty("rocksdb.num-live-versions", &int_num)); ASSERT_EQ(int_num, 1U); } } TEST_F(DBPropertiesTest, ApproximateMemoryUsage) { const int kNumRounds = 10; // TODO(noetzli) kFlushesPerRound does not really correlate with how many // flushes happen. const int kFlushesPerRound = 10; const int kWritesPerFlush = 10; const int kKeySize = 100; const int kValueSize = 1000; Options options; options.write_buffer_size = 1000; // small write buffer options.min_write_buffer_number_to_merge = 4; options.compression = kNoCompression; options.create_if_missing = true; options = CurrentOptions(options); DestroyAndReopen(options); Random rnd(301); std::vector iters; uint64_t active_mem; uint64_t unflushed_mem; uint64_t all_mem; uint64_t prev_all_mem; // Phase 0. The verify the initial value of all these properties are the same // as we have no mem-tables. dbfull()->GetIntProperty("rocksdb.cur-size-active-mem-table", &active_mem); dbfull()->GetIntProperty("rocksdb.cur-size-all-mem-tables", &unflushed_mem); dbfull()->GetIntProperty("rocksdb.size-all-mem-tables", &all_mem); ASSERT_EQ(all_mem, active_mem); ASSERT_EQ(all_mem, unflushed_mem); // Phase 1. Simply issue Put() and expect "cur-size-all-mem-tables" equals to // "size-all-mem-tables" for (int r = 0; r < kNumRounds; ++r) { for (int f = 0; f < kFlushesPerRound; ++f) { for (int w = 0; w < kWritesPerFlush; ++w) { Put(RandomString(&rnd, kKeySize), RandomString(&rnd, kValueSize)); } } // Make sure that there is no flush between getting the two properties. dbfull()->TEST_WaitForFlushMemTable(); dbfull()->GetIntProperty("rocksdb.cur-size-all-mem-tables", &unflushed_mem); dbfull()->GetIntProperty("rocksdb.size-all-mem-tables", &all_mem); // in no iterator case, these two number should be the same. ASSERT_EQ(unflushed_mem, all_mem); } prev_all_mem = all_mem; // Phase 2. Keep issuing Put() but also create new iterators. This time we // expect "size-all-mem-tables" > "cur-size-all-mem-tables". for (int r = 0; r < kNumRounds; ++r) { iters.push_back(db_->NewIterator(ReadOptions())); for (int f = 0; f < kFlushesPerRound; ++f) { for (int w = 0; w < kWritesPerFlush; ++w) { Put(RandomString(&rnd, kKeySize), RandomString(&rnd, kValueSize)); } } // Force flush to prevent flush from happening between getting the // properties or after getting the properties and before the new round. Flush(); // In the second round, add iterators. dbfull()->GetIntProperty("rocksdb.cur-size-active-mem-table", &active_mem); dbfull()->GetIntProperty("rocksdb.cur-size-all-mem-tables", &unflushed_mem); dbfull()->GetIntProperty("rocksdb.size-all-mem-tables", &all_mem); ASSERT_GT(all_mem, active_mem); ASSERT_GT(all_mem, unflushed_mem); ASSERT_GT(all_mem, prev_all_mem); prev_all_mem = all_mem; } // Phase 3. Delete iterators and expect "size-all-mem-tables" shrinks // whenever we release an iterator. for (auto* iter : iters) { delete iter; dbfull()->GetIntProperty("rocksdb.size-all-mem-tables", &all_mem); // Expect the size shrinking ASSERT_LT(all_mem, prev_all_mem); prev_all_mem = all_mem; } // Expect all these three counters to be the same. dbfull()->GetIntProperty("rocksdb.cur-size-active-mem-table", &active_mem); dbfull()->GetIntProperty("rocksdb.cur-size-all-mem-tables", &unflushed_mem); dbfull()->GetIntProperty("rocksdb.size-all-mem-tables", &all_mem); ASSERT_EQ(active_mem, unflushed_mem); ASSERT_EQ(unflushed_mem, all_mem); // Phase 5. Reopen, and expect all these three counters to be the same again. Reopen(options); dbfull()->GetIntProperty("rocksdb.cur-size-active-mem-table", &active_mem); dbfull()->GetIntProperty("rocksdb.cur-size-all-mem-tables", &unflushed_mem); dbfull()->GetIntProperty("rocksdb.size-all-mem-tables", &all_mem); ASSERT_EQ(active_mem, unflushed_mem); ASSERT_EQ(unflushed_mem, all_mem); } TEST_F(DBPropertiesTest, EstimatePendingCompBytes) { // Set sizes to both background thread pool to be 1 and block them. env_->SetBackgroundThreads(1, Env::HIGH); env_->SetBackgroundThreads(1, Env::LOW); test::SleepingBackgroundTask sleeping_task_low; env_->Schedule(&test::SleepingBackgroundTask::DoSleepTask, &sleeping_task_low, Env::Priority::LOW); Options options = CurrentOptions(); WriteOptions writeOpt = WriteOptions(); writeOpt.disableWAL = true; options.compaction_style = kCompactionStyleLevel; options.level0_file_num_compaction_trigger = 2; options.max_background_compactions = 1; options.max_background_flushes = 1; options.max_write_buffer_number = 10; options.min_write_buffer_number_to_merge = 1; options.max_write_buffer_number_to_maintain = 0; options.write_buffer_size = 1000000; Reopen(options); std::string big_value(1000000 * 2, 'x'); std::string num; uint64_t int_num; ASSERT_OK(dbfull()->Put(writeOpt, "k1", big_value)); Flush(); ASSERT_TRUE(dbfull()->GetIntProperty( "rocksdb.estimate-pending-compaction-bytes", &int_num)); ASSERT_EQ(int_num, 0U); ASSERT_OK(dbfull()->Put(writeOpt, "k2", big_value)); Flush(); ASSERT_TRUE(dbfull()->GetIntProperty( "rocksdb.estimate-pending-compaction-bytes", &int_num)); ASSERT_GT(int_num, 0U); ASSERT_OK(dbfull()->Put(writeOpt, "k3", big_value)); Flush(); ASSERT_TRUE(dbfull()->GetIntProperty( "rocksdb.estimate-pending-compaction-bytes", &int_num)); ASSERT_GT(int_num, 0U); sleeping_task_low.WakeUp(); sleeping_task_low.WaitUntilDone(); dbfull()->TEST_WaitForCompact(); ASSERT_TRUE(dbfull()->GetIntProperty( "rocksdb.estimate-pending-compaction-bytes", &int_num)); ASSERT_EQ(int_num, 0U); } TEST_F(DBPropertiesTest, EstimateCompressionRatio) { if (!Snappy_Supported()) { return; } const int kNumL0Files = 3; const int kNumEntriesPerFile = 1000; Options options = CurrentOptions(); options.compression_per_level = {kNoCompression, kSnappyCompression}; options.disable_auto_compactions = true; options.num_levels = 2; Reopen(options); // compression ratio is -1.0 when no open files at level ASSERT_EQ(CompressionRatioAtLevel(0), -1.0); const std::string kVal(100, 'a'); for (int i = 0; i < kNumL0Files; ++i) { for (int j = 0; j < kNumEntriesPerFile; ++j) { // Put common data ("key") at end to prevent delta encoding from // compressing the key effectively std::string key = ToString(i) + ToString(j) + "key"; ASSERT_OK(dbfull()->Put(WriteOptions(), key, kVal)); } Flush(); } // no compression at L0, so ratio is less than one ASSERT_LT(CompressionRatioAtLevel(0), 1.0); ASSERT_GT(CompressionRatioAtLevel(0), 0.0); ASSERT_EQ(CompressionRatioAtLevel(1), -1.0); dbfull()->TEST_CompactRange(0, nullptr, nullptr); ASSERT_EQ(CompressionRatioAtLevel(0), -1.0); // Data at L1 should be highly compressed thanks to Snappy and redundant data // in values (ratio is 12.846 as of 4/19/2016). ASSERT_GT(CompressionRatioAtLevel(1), 10.0); } #endif // ROCKSDB_LITE class CountingUserTblPropCollector : public TablePropertiesCollector { public: const char* Name() const override { return "CountingUserTblPropCollector"; } Status Finish(UserCollectedProperties* properties) override { std::string encoded; PutVarint32(&encoded, count_); *properties = UserCollectedProperties{ {"CountingUserTblPropCollector", message_}, {"Count", encoded}, }; return Status::OK(); } Status AddUserKey(const Slice& /*user_key*/, const Slice& /*value*/, EntryType /*type*/, SequenceNumber /*seq*/, uint64_t /*file_size*/) override { ++count_; return Status::OK(); } virtual UserCollectedProperties GetReadableProperties() const override { return UserCollectedProperties{}; } private: std::string message_ = "Rocksdb"; uint32_t count_ = 0; }; class CountingUserTblPropCollectorFactory : public TablePropertiesCollectorFactory { public: explicit CountingUserTblPropCollectorFactory( uint32_t expected_column_family_id) : expected_column_family_id_(expected_column_family_id), num_created_(0) {} virtual TablePropertiesCollector* CreateTablePropertiesCollector( TablePropertiesCollectorFactory::Context context) override { EXPECT_EQ(expected_column_family_id_, context.column_family_id); num_created_++; return new CountingUserTblPropCollector(); } const char* Name() const override { return "CountingUserTblPropCollectorFactory"; } void set_expected_column_family_id(uint32_t v) { expected_column_family_id_ = v; } uint32_t expected_column_family_id_; uint32_t num_created_; }; class CountingDeleteTabPropCollector : public TablePropertiesCollector { public: const char* Name() const override { return "CountingDeleteTabPropCollector"; } Status AddUserKey(const Slice& /*user_key*/, const Slice& /*value*/, EntryType type, SequenceNumber /*seq*/, uint64_t /*file_size*/) override { if (type == kEntryDelete) { num_deletes_++; } return Status::OK(); } bool NeedCompact() const override { return num_deletes_ > 10; } UserCollectedProperties GetReadableProperties() const override { return UserCollectedProperties{}; } Status Finish(UserCollectedProperties* properties) override { *properties = UserCollectedProperties{{"num_delete", ToString(num_deletes_)}}; return Status::OK(); } private: uint32_t num_deletes_ = 0; }; class CountingDeleteTabPropCollectorFactory : public TablePropertiesCollectorFactory { public: virtual TablePropertiesCollector* CreateTablePropertiesCollector( TablePropertiesCollectorFactory::Context /*context*/) override { return new CountingDeleteTabPropCollector(); } const char* Name() const override { return "CountingDeleteTabPropCollectorFactory"; } }; #ifndef ROCKSDB_LITE TEST_F(DBPropertiesTest, GetUserDefinedTableProperties) { Options options = CurrentOptions(); options.level0_file_num_compaction_trigger = (1 << 30); options.table_properties_collector_factories.resize(1); std::shared_ptr collector_factory = std::make_shared(0); options.table_properties_collector_factories[0] = collector_factory; Reopen(options); // Create 4 tables for (int table = 0; table < 4; ++table) { for (int i = 0; i < 10 + table; ++i) { db_->Put(WriteOptions(), ToString(table * 100 + i), "val"); } db_->Flush(FlushOptions()); } TablePropertiesCollection props; ASSERT_OK(db_->GetPropertiesOfAllTables(&props)); ASSERT_EQ(4U, props.size()); uint32_t sum = 0; for (const auto& item : props) { auto& user_collected = item.second->user_collected_properties; ASSERT_TRUE(user_collected.find("CountingUserTblPropCollector") != user_collected.end()); ASSERT_EQ(user_collected.at("CountingUserTblPropCollector"), "Rocksdb"); ASSERT_TRUE(user_collected.find("Count") != user_collected.end()); Slice key(user_collected.at("Count")); uint32_t count; ASSERT_TRUE(GetVarint32(&key, &count)); sum += count; } ASSERT_EQ(10u + 11u + 12u + 13u, sum); ASSERT_GT(collector_factory->num_created_, 0U); collector_factory->num_created_ = 0; dbfull()->TEST_CompactRange(0, nullptr, nullptr); ASSERT_GT(collector_factory->num_created_, 0U); } #endif // ROCKSDB_LITE TEST_F(DBPropertiesTest, UserDefinedTablePropertiesContext) { Options options = CurrentOptions(); options.level0_file_num_compaction_trigger = 3; options.table_properties_collector_factories.resize(1); std::shared_ptr collector_factory = std::make_shared(1); options.table_properties_collector_factories[0] = collector_factory, CreateAndReopenWithCF({"pikachu"}, options); // Create 2 files for (int table = 0; table < 2; ++table) { for (int i = 0; i < 10 + table; ++i) { Put(1, ToString(table * 100 + i), "val"); } Flush(1); } ASSERT_GT(collector_factory->num_created_, 0U); collector_factory->num_created_ = 0; // Trigger automatic compactions. for (int table = 0; table < 3; ++table) { for (int i = 0; i < 10 + table; ++i) { Put(1, ToString(table * 100 + i), "val"); } Flush(1); dbfull()->TEST_WaitForCompact(); } ASSERT_GT(collector_factory->num_created_, 0U); collector_factory->num_created_ = 0; dbfull()->TEST_CompactRange(0, nullptr, nullptr, handles_[1]); ASSERT_GT(collector_factory->num_created_, 0U); // Come back to write to default column family collector_factory->num_created_ = 0; collector_factory->set_expected_column_family_id(0); // default CF // Create 4 tables in default column family for (int table = 0; table < 2; ++table) { for (int i = 0; i < 10 + table; ++i) { Put(ToString(table * 100 + i), "val"); } Flush(); } ASSERT_GT(collector_factory->num_created_, 0U); collector_factory->num_created_ = 0; // Trigger automatic compactions. for (int table = 0; table < 3; ++table) { for (int i = 0; i < 10 + table; ++i) { Put(ToString(table * 100 + i), "val"); } Flush(); dbfull()->TEST_WaitForCompact(); } ASSERT_GT(collector_factory->num_created_, 0U); collector_factory->num_created_ = 0; dbfull()->TEST_CompactRange(0, nullptr, nullptr); ASSERT_GT(collector_factory->num_created_, 0U); } #ifndef ROCKSDB_LITE TEST_F(DBPropertiesTest, TablePropertiesNeedCompactTest) { Random rnd(301); Options options; options.create_if_missing = true; options.write_buffer_size = 4096; options.max_write_buffer_number = 8; options.level0_file_num_compaction_trigger = 2; options.level0_slowdown_writes_trigger = 2; options.level0_stop_writes_trigger = 4; options.target_file_size_base = 2048; options.max_bytes_for_level_base = 10240; options.max_bytes_for_level_multiplier = 4; options.soft_pending_compaction_bytes_limit = 1024 * 1024; options.num_levels = 8; options.env = env_; std::shared_ptr collector_factory = std::make_shared(); options.table_properties_collector_factories.resize(1); options.table_properties_collector_factories[0] = collector_factory; DestroyAndReopen(options); const int kMaxKey = 1000; for (int i = 0; i < kMaxKey; i++) { ASSERT_OK(Put(Key(i), RandomString(&rnd, 102))); ASSERT_OK(Put(Key(kMaxKey + i), RandomString(&rnd, 102))); } Flush(); dbfull()->TEST_WaitForCompact(); if (NumTableFilesAtLevel(0) == 1) { // Clear Level 0 so that when later flush a file with deletions, // we don't trigger an organic compaction. ASSERT_OK(Put(Key(0), "")); ASSERT_OK(Put(Key(kMaxKey * 2), "")); Flush(); dbfull()->TEST_WaitForCompact(); } ASSERT_EQ(NumTableFilesAtLevel(0), 0); { int c = 0; std::unique_ptr iter(db_->NewIterator(ReadOptions())); iter->Seek(Key(kMaxKey - 100)); while (iter->Valid() && iter->key().compare(Key(kMaxKey + 100)) < 0) { iter->Next(); ++c; } ASSERT_EQ(c, 200); } Delete(Key(0)); for (int i = kMaxKey - 100; i < kMaxKey + 100; i++) { Delete(Key(i)); } Delete(Key(kMaxKey * 2)); Flush(); dbfull()->TEST_WaitForCompact(); { SetPerfLevel(kEnableCount); get_perf_context()->Reset(); int c = 0; std::unique_ptr iter(db_->NewIterator(ReadOptions())); iter->Seek(Key(kMaxKey - 100)); while (iter->Valid() && iter->key().compare(Key(kMaxKey + 100)) < 0) { iter->Next(); } ASSERT_EQ(c, 0); ASSERT_LT(get_perf_context()->internal_delete_skipped_count, 30u); ASSERT_LT(get_perf_context()->internal_key_skipped_count, 30u); SetPerfLevel(kDisable); } } TEST_F(DBPropertiesTest, NeedCompactHintPersistentTest) { Random rnd(301); Options options; options.create_if_missing = true; options.max_write_buffer_number = 8; options.level0_file_num_compaction_trigger = 10; options.level0_slowdown_writes_trigger = 10; options.level0_stop_writes_trigger = 10; options.disable_auto_compactions = true; options.env = env_; std::shared_ptr collector_factory = std::make_shared(); options.table_properties_collector_factories.resize(1); options.table_properties_collector_factories[0] = collector_factory; DestroyAndReopen(options); const int kMaxKey = 100; for (int i = 0; i < kMaxKey; i++) { ASSERT_OK(Put(Key(i), "")); } Flush(); dbfull()->TEST_WaitForFlushMemTable(); for (int i = 1; i < kMaxKey - 1; i++) { Delete(Key(i)); } Flush(); dbfull()->TEST_WaitForFlushMemTable(); ASSERT_EQ(NumTableFilesAtLevel(0), 2); // Restart the DB. Although number of files didn't reach // options.level0_file_num_compaction_trigger, compaction should // still be triggered because of the need-compaction hint. options.disable_auto_compactions = false; Reopen(options); dbfull()->TEST_WaitForCompact(); ASSERT_EQ(NumTableFilesAtLevel(0), 0); { SetPerfLevel(kEnableCount); get_perf_context()->Reset(); int c = 0; std::unique_ptr iter(db_->NewIterator(ReadOptions())); for (iter->Seek(Key(0)); iter->Valid(); iter->Next()) { c++; } ASSERT_EQ(c, 2); ASSERT_EQ(get_perf_context()->internal_delete_skipped_count, 0); // We iterate every key twice. Is it a bug? ASSERT_LE(get_perf_context()->internal_key_skipped_count, 2); SetPerfLevel(kDisable); } } TEST_F(DBPropertiesTest, EstimateNumKeysUnderflow) { Options options; Reopen(options); Put("foo", "bar"); Delete("foo"); Delete("foo"); uint64_t num_keys = 0; ASSERT_TRUE(dbfull()->GetIntProperty("rocksdb.estimate-num-keys", &num_keys)); ASSERT_EQ(0, num_keys); } TEST_F(DBPropertiesTest, EstimateOldestKeyTime) { std::unique_ptr mock_env(new MockTimeEnv(Env::Default())); uint64_t oldest_key_time = 0; Options options; options.env = mock_env.get(); // "rocksdb.estimate-oldest-key-time" only available to fifo compaction. mock_env->set_current_time(100); for (auto compaction : {kCompactionStyleLevel, kCompactionStyleUniversal, kCompactionStyleNone}) { options.compaction_style = compaction; options.create_if_missing = true; DestroyAndReopen(options); ASSERT_OK(Put("foo", "bar")); ASSERT_FALSE(dbfull()->GetIntProperty( DB::Properties::kEstimateOldestKeyTime, &oldest_key_time)); } options.compaction_style = kCompactionStyleFIFO; options.compaction_options_fifo.ttl = 300; options.compaction_options_fifo.allow_compaction = false; DestroyAndReopen(options); mock_env->set_current_time(100); ASSERT_OK(Put("k1", "v1")); ASSERT_TRUE(dbfull()->GetIntProperty(DB::Properties::kEstimateOldestKeyTime, &oldest_key_time)); ASSERT_EQ(100, oldest_key_time); ASSERT_OK(Flush()); ASSERT_EQ("1", FilesPerLevel()); ASSERT_TRUE(dbfull()->GetIntProperty(DB::Properties::kEstimateOldestKeyTime, &oldest_key_time)); ASSERT_EQ(100, oldest_key_time); mock_env->set_current_time(200); ASSERT_OK(Put("k2", "v2")); ASSERT_OK(Flush()); ASSERT_EQ("2", FilesPerLevel()); ASSERT_TRUE(dbfull()->GetIntProperty(DB::Properties::kEstimateOldestKeyTime, &oldest_key_time)); ASSERT_EQ(100, oldest_key_time); mock_env->set_current_time(300); ASSERT_OK(Put("k3", "v3")); ASSERT_OK(Flush()); ASSERT_EQ("3", FilesPerLevel()); ASSERT_TRUE(dbfull()->GetIntProperty(DB::Properties::kEstimateOldestKeyTime, &oldest_key_time)); ASSERT_EQ(100, oldest_key_time); mock_env->set_current_time(450); ASSERT_OK(dbfull()->CompactRange(CompactRangeOptions(), nullptr, nullptr)); ASSERT_EQ("2", FilesPerLevel()); ASSERT_TRUE(dbfull()->GetIntProperty(DB::Properties::kEstimateOldestKeyTime, &oldest_key_time)); ASSERT_EQ(200, oldest_key_time); mock_env->set_current_time(550); ASSERT_OK(dbfull()->CompactRange(CompactRangeOptions(), nullptr, nullptr)); ASSERT_EQ("1", FilesPerLevel()); ASSERT_TRUE(dbfull()->GetIntProperty(DB::Properties::kEstimateOldestKeyTime, &oldest_key_time)); ASSERT_EQ(300, oldest_key_time); mock_env->set_current_time(650); ASSERT_OK(dbfull()->CompactRange(CompactRangeOptions(), nullptr, nullptr)); ASSERT_EQ("", FilesPerLevel()); ASSERT_FALSE(dbfull()->GetIntProperty(DB::Properties::kEstimateOldestKeyTime, &oldest_key_time)); // Close before mock_env destructs. Close(); } TEST_F(DBPropertiesTest, SstFilesSize) { struct TestListener : public EventListener { void OnCompactionCompleted(DB* db, const CompactionJobInfo& /*info*/) override { assert(callback_triggered == false); assert(size_before_compaction > 0); callback_triggered = true; uint64_t total_sst_size = 0; uint64_t live_sst_size = 0; bool ok = db->GetIntProperty(DB::Properties::kTotalSstFilesSize, &total_sst_size); ASSERT_TRUE(ok); // total_sst_size include files before and after compaction. ASSERT_GT(total_sst_size, size_before_compaction); ok = db->GetIntProperty(DB::Properties::kLiveSstFilesSize, &live_sst_size); ASSERT_TRUE(ok); // live_sst_size only include files after compaction. ASSERT_GT(live_sst_size, 0); ASSERT_LT(live_sst_size, size_before_compaction); } uint64_t size_before_compaction = 0; bool callback_triggered = false; }; std::shared_ptr listener = std::make_shared(); Options options; options.disable_auto_compactions = true; options.listeners.push_back(listener); Reopen(options); for (int i = 0; i < 10; i++) { ASSERT_OK(Put("key" + ToString(i), std::string(1000, 'v'))); } ASSERT_OK(Flush()); for (int i = 0; i < 5; i++) { ASSERT_OK(Delete("key" + ToString(i))); } ASSERT_OK(Flush()); uint64_t sst_size; bool ok = db_->GetIntProperty(DB::Properties::kTotalSstFilesSize, &sst_size); ASSERT_TRUE(ok); ASSERT_GT(sst_size, 0); listener->size_before_compaction = sst_size; // Compact to clean all keys and trigger listener. ASSERT_OK(db_->CompactRange(CompactRangeOptions(), nullptr, nullptr)); ASSERT_TRUE(listener->callback_triggered); } TEST_F(DBPropertiesTest, BlockCacheProperties) { Options options; uint64_t value; // Block cache properties are not available for tables other than // block-based table. options.table_factory.reset(NewPlainTableFactory()); Reopen(options); ASSERT_FALSE( db_->GetIntProperty(DB::Properties::kBlockCacheCapacity, &value)); ASSERT_FALSE(db_->GetIntProperty(DB::Properties::kBlockCacheUsage, &value)); ASSERT_FALSE( db_->GetIntProperty(DB::Properties::kBlockCachePinnedUsage, &value)); options.table_factory.reset(NewCuckooTableFactory()); Reopen(options); ASSERT_FALSE( db_->GetIntProperty(DB::Properties::kBlockCacheCapacity, &value)); ASSERT_FALSE(db_->GetIntProperty(DB::Properties::kBlockCacheUsage, &value)); ASSERT_FALSE( db_->GetIntProperty(DB::Properties::kBlockCachePinnedUsage, &value)); // Block cache properties are not available if block cache is not used. BlockBasedTableOptions table_options; table_options.no_block_cache = true; options.table_factory.reset(NewBlockBasedTableFactory(table_options)); Reopen(options); ASSERT_FALSE( db_->GetIntProperty(DB::Properties::kBlockCacheCapacity, &value)); ASSERT_FALSE(db_->GetIntProperty(DB::Properties::kBlockCacheUsage, &value)); ASSERT_FALSE( db_->GetIntProperty(DB::Properties::kBlockCachePinnedUsage, &value)); // Test with empty block cache. constexpr size_t kCapacity = 100; auto block_cache = NewLRUCache(kCapacity, 0 /*num_shard_bits*/); table_options.block_cache = block_cache; table_options.no_block_cache = false; options.table_factory.reset(NewBlockBasedTableFactory(table_options)); Reopen(options); ASSERT_TRUE(db_->GetIntProperty(DB::Properties::kBlockCacheCapacity, &value)); ASSERT_EQ(kCapacity, value); ASSERT_TRUE(db_->GetIntProperty(DB::Properties::kBlockCacheUsage, &value)); ASSERT_EQ(0, value); ASSERT_TRUE( db_->GetIntProperty(DB::Properties::kBlockCachePinnedUsage, &value)); ASSERT_EQ(0, value); // Insert unpinned item to the cache and check size. constexpr size_t kSize1 = 50; block_cache->Insert("item1", nullptr /*value*/, kSize1, nullptr /*deleter*/); ASSERT_TRUE(db_->GetIntProperty(DB::Properties::kBlockCacheCapacity, &value)); ASSERT_EQ(kCapacity, value); ASSERT_TRUE(db_->GetIntProperty(DB::Properties::kBlockCacheUsage, &value)); ASSERT_EQ(kSize1, value); ASSERT_TRUE( db_->GetIntProperty(DB::Properties::kBlockCachePinnedUsage, &value)); ASSERT_EQ(0, value); // Insert pinned item to the cache and check size. constexpr size_t kSize2 = 30; Cache::Handle* item2 = nullptr; block_cache->Insert("item2", nullptr /*value*/, kSize2, nullptr /*deleter*/, &item2); ASSERT_NE(nullptr, item2); ASSERT_TRUE(db_->GetIntProperty(DB::Properties::kBlockCacheCapacity, &value)); ASSERT_EQ(kCapacity, value); ASSERT_TRUE(db_->GetIntProperty(DB::Properties::kBlockCacheUsage, &value)); ASSERT_EQ(kSize1 + kSize2, value); ASSERT_TRUE( db_->GetIntProperty(DB::Properties::kBlockCachePinnedUsage, &value)); ASSERT_EQ(kSize2, value); // Insert another pinned item to make the cache over-sized. constexpr size_t kSize3 = 80; Cache::Handle* item3 = nullptr; block_cache->Insert("item3", nullptr /*value*/, kSize3, nullptr /*deleter*/, &item3); ASSERT_NE(nullptr, item2); ASSERT_TRUE(db_->GetIntProperty(DB::Properties::kBlockCacheCapacity, &value)); ASSERT_EQ(kCapacity, value); ASSERT_TRUE(db_->GetIntProperty(DB::Properties::kBlockCacheUsage, &value)); // Item 1 is evicted. ASSERT_EQ(kSize2 + kSize3, value); ASSERT_TRUE( db_->GetIntProperty(DB::Properties::kBlockCachePinnedUsage, &value)); ASSERT_EQ(kSize2 + kSize3, value); // Check size after release. block_cache->Release(item2); block_cache->Release(item3); ASSERT_TRUE(db_->GetIntProperty(DB::Properties::kBlockCacheCapacity, &value)); ASSERT_EQ(kCapacity, value); ASSERT_TRUE(db_->GetIntProperty(DB::Properties::kBlockCacheUsage, &value)); // item2 will be evicted, while item3 remain in cache after release. ASSERT_EQ(kSize3, value); ASSERT_TRUE( db_->GetIntProperty(DB::Properties::kBlockCachePinnedUsage, &value)); ASSERT_EQ(0, value); } #endif // ROCKSDB_LITE } // namespace rocksdb int main(int argc, char** argv) { rocksdb::port::InstallStackTraceHandler(); ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/db/db_range_del_test.cc000066400000000000000000001252631337235545400176010ustar00rootroot00000000000000// Copyright (c) 2016-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include "db/db_test_util.h" #include "port/stack_trace.h" #include "util/testutil.h" #include "utilities/merge_operators.h" namespace rocksdb { class DBRangeDelTest : public DBTestBase { public: DBRangeDelTest() : DBTestBase("/db_range_del_test") {} std::string GetNumericStr(int key) { uint64_t uint64_key = static_cast(key); std::string str; str.resize(8); memcpy(&str[0], static_cast(&uint64_key), 8); return str; } }; // PlainTableFactory and NumTableFilesAtLevel() are not supported in // ROCKSDB_LITE #ifndef ROCKSDB_LITE TEST_F(DBRangeDelTest, NonBlockBasedTableNotSupported) { // TODO: figure out why MmapReads trips the iterator pinning assertion in // RangeDelAggregator. Ideally it would be supported; otherwise it should at // least be explicitly unsupported. for (auto config : {kPlainTableAllBytesPrefix, /* kWalDirAndMmapReads */}) { option_config_ = config; DestroyAndReopen(CurrentOptions()); ASSERT_TRUE(db_->DeleteRange(WriteOptions(), db_->DefaultColumnFamily(), "dr1", "dr1") .IsNotSupported()); } } TEST_F(DBRangeDelTest, FlushOutputHasOnlyRangeTombstones) { do { DestroyAndReopen(CurrentOptions()); ASSERT_OK(db_->DeleteRange(WriteOptions(), db_->DefaultColumnFamily(), "dr1", "dr2")); ASSERT_OK(db_->Flush(FlushOptions())); ASSERT_EQ(1, NumTableFilesAtLevel(0)); } while (ChangeOptions(kRangeDelSkipConfigs)); } TEST_F(DBRangeDelTest, CompactionOutputHasOnlyRangeTombstone) { do { Options opts = CurrentOptions(); opts.disable_auto_compactions = true; opts.statistics = CreateDBStatistics(); DestroyAndReopen(opts); // snapshot protects range tombstone from dropping due to becoming obsolete. const Snapshot* snapshot = db_->GetSnapshot(); db_->DeleteRange(WriteOptions(), db_->DefaultColumnFamily(), "a", "z"); db_->Flush(FlushOptions()); ASSERT_EQ(1, NumTableFilesAtLevel(0)); ASSERT_EQ(0, NumTableFilesAtLevel(1)); dbfull()->TEST_CompactRange(0, nullptr, nullptr, nullptr, true /* disallow_trivial_move */); ASSERT_EQ(0, NumTableFilesAtLevel(0)); ASSERT_EQ(1, NumTableFilesAtLevel(1)); ASSERT_EQ(0, TestGetTickerCount(opts, COMPACTION_RANGE_DEL_DROP_OBSOLETE)); db_->ReleaseSnapshot(snapshot); // Skip cuckoo memtables, which do not support snapshots. Skip non-leveled // compactions as the above assertions about the number of files in a level // do not hold true. } while (ChangeOptions(kRangeDelSkipConfigs | kSkipHashCuckoo | kSkipUniversalCompaction | kSkipFIFOCompaction)); } TEST_F(DBRangeDelTest, CompactionOutputFilesExactlyFilled) { // regression test for exactly filled compaction output files. Previously // another file would be generated containing all range deletions, which // could invalidate the non-overlapping file boundary invariant. const int kNumPerFile = 4, kNumFiles = 2, kFileBytes = 9 << 10; Options options = CurrentOptions(); options.disable_auto_compactions = true; options.level0_file_num_compaction_trigger = kNumFiles; options.memtable_factory.reset(new SpecialSkipListFactory(kNumPerFile)); options.num_levels = 2; options.target_file_size_base = kFileBytes; BlockBasedTableOptions table_options; table_options.block_size_deviation = 50; // each block holds two keys options.table_factory.reset(NewBlockBasedTableFactory(table_options)); Reopen(options); // snapshot protects range tombstone from dropping due to becoming obsolete. const Snapshot* snapshot = db_->GetSnapshot(); db_->DeleteRange(WriteOptions(), db_->DefaultColumnFamily(), Key(0), Key(1)); Random rnd(301); for (int i = 0; i < kNumFiles; ++i) { std::vector values; // Write 12K (4 values, each 3K) for (int j = 0; j < kNumPerFile; j++) { values.push_back(RandomString(&rnd, 3 << 10)); ASSERT_OK(Put(Key(i * kNumPerFile + j), values[j])); if (j == 0 && i > 0) { dbfull()->TEST_WaitForFlushMemTable(); } } } // put extra key to trigger final flush ASSERT_OK(Put("", "")); dbfull()->TEST_WaitForFlushMemTable(); ASSERT_EQ(kNumFiles, NumTableFilesAtLevel(0)); ASSERT_EQ(0, NumTableFilesAtLevel(1)); dbfull()->TEST_CompactRange(0, nullptr, nullptr, nullptr, true /* disallow_trivial_move */); ASSERT_EQ(0, NumTableFilesAtLevel(0)); ASSERT_EQ(2, NumTableFilesAtLevel(1)); db_->ReleaseSnapshot(snapshot); } TEST_F(DBRangeDelTest, MaxCompactionBytesCutsOutputFiles) { // Ensures range deletion spanning multiple compaction output files that are // cut by max_compaction_bytes will have non-overlapping key-ranges. // https://github.com/facebook/rocksdb/issues/1778 const int kNumFiles = 2, kNumPerFile = 1 << 8, kBytesPerVal = 1 << 12; Options opts = CurrentOptions(); opts.comparator = test::Uint64Comparator(); opts.disable_auto_compactions = true; opts.level0_file_num_compaction_trigger = kNumFiles; opts.max_compaction_bytes = kNumPerFile * kBytesPerVal; opts.memtable_factory.reset(new SpecialSkipListFactory(kNumPerFile)); // Want max_compaction_bytes to trigger the end of compaction output file, not // target_file_size_base, so make the latter much bigger opts.target_file_size_base = 100 * opts.max_compaction_bytes; Reopen(opts); // snapshot protects range tombstone from dropping due to becoming obsolete. const Snapshot* snapshot = db_->GetSnapshot(); // It spans the whole key-range, thus will be included in all output files ASSERT_OK(db_->DeleteRange(WriteOptions(), db_->DefaultColumnFamily(), GetNumericStr(0), GetNumericStr(kNumFiles * kNumPerFile - 1))); Random rnd(301); for (int i = 0; i < kNumFiles; ++i) { std::vector values; // Write 1MB (256 values, each 4K) for (int j = 0; j < kNumPerFile; j++) { values.push_back(RandomString(&rnd, kBytesPerVal)); ASSERT_OK(Put(GetNumericStr(kNumPerFile * i + j), values[j])); } // extra entry to trigger SpecialSkipListFactory's flush ASSERT_OK(Put(GetNumericStr(kNumPerFile), "")); dbfull()->TEST_WaitForFlushMemTable(); ASSERT_EQ(i + 1, NumTableFilesAtLevel(0)); } dbfull()->TEST_CompactRange(0, nullptr, nullptr, nullptr, true /* disallow_trivial_move */); ASSERT_EQ(0, NumTableFilesAtLevel(0)); ASSERT_GE(NumTableFilesAtLevel(1), 2); std::vector> files; dbfull()->TEST_GetFilesMetaData(db_->DefaultColumnFamily(), &files); for (size_t i = 0; i < files[1].size() - 1; ++i) { ASSERT_TRUE(InternalKeyComparator(opts.comparator) .Compare(files[1][i].largest, files[1][i + 1].smallest) < 0); } db_->ReleaseSnapshot(snapshot); } TEST_F(DBRangeDelTest, SentinelsOmittedFromOutputFile) { // Regression test for bug where sentinel range deletions (i.e., ones with // sequence number of zero) were included in output files. // snapshot protects range tombstone from dropping due to becoming obsolete. const Snapshot* snapshot = db_->GetSnapshot(); // gaps between ranges creates sentinels in our internal representation std::vector> range_dels = {{"a", "b"}, {"c", "d"}, {"e", "f"}}; for (const auto& range_del : range_dels) { ASSERT_OK(db_->DeleteRange(WriteOptions(), db_->DefaultColumnFamily(), range_del.first, range_del.second)); } ASSERT_OK(db_->Flush(FlushOptions())); ASSERT_EQ(1, NumTableFilesAtLevel(0)); std::vector> files; dbfull()->TEST_GetFilesMetaData(db_->DefaultColumnFamily(), &files); ASSERT_GT(files[0][0].fd.smallest_seqno, 0); db_->ReleaseSnapshot(snapshot); } TEST_F(DBRangeDelTest, FlushRangeDelsSameStartKey) { db_->Put(WriteOptions(), "b1", "val"); ASSERT_OK( db_->DeleteRange(WriteOptions(), db_->DefaultColumnFamily(), "a", "c")); db_->Put(WriteOptions(), "b2", "val"); ASSERT_OK( db_->DeleteRange(WriteOptions(), db_->DefaultColumnFamily(), "a", "b")); // first iteration verifies query correctness in memtable, second verifies // query correctness for a single SST file for (int i = 0; i < 2; ++i) { if (i > 0) { ASSERT_OK(db_->Flush(FlushOptions())); ASSERT_EQ(1, NumTableFilesAtLevel(0)); } std::string value; ASSERT_TRUE(db_->Get(ReadOptions(), "b1", &value).IsNotFound()); ASSERT_OK(db_->Get(ReadOptions(), "b2", &value)); } } TEST_F(DBRangeDelTest, CompactRangeDelsSameStartKey) { db_->Put(WriteOptions(), "unused", "val"); // prevents empty after compaction db_->Put(WriteOptions(), "b1", "val"); ASSERT_OK(db_->Flush(FlushOptions())); ASSERT_OK( db_->DeleteRange(WriteOptions(), db_->DefaultColumnFamily(), "a", "c")); ASSERT_OK(db_->Flush(FlushOptions())); ASSERT_OK( db_->DeleteRange(WriteOptions(), db_->DefaultColumnFamily(), "a", "b")); ASSERT_OK(db_->Flush(FlushOptions())); ASSERT_EQ(3, NumTableFilesAtLevel(0)); for (int i = 0; i < 2; ++i) { if (i > 0) { dbfull()->TEST_CompactRange(0, nullptr, nullptr, nullptr, true /* disallow_trivial_move */); ASSERT_EQ(0, NumTableFilesAtLevel(0)); ASSERT_EQ(1, NumTableFilesAtLevel(1)); } std::string value; ASSERT_TRUE(db_->Get(ReadOptions(), "b1", &value).IsNotFound()); } } #endif // ROCKSDB_LITE TEST_F(DBRangeDelTest, FlushRemovesCoveredKeys) { const int kNum = 300, kRangeBegin = 50, kRangeEnd = 250; Options opts = CurrentOptions(); opts.comparator = test::Uint64Comparator(); Reopen(opts); // Write a third before snapshot, a third between snapshot and tombstone, and // a third after the tombstone. Keys older than snapshot or newer than the // tombstone should be preserved. const Snapshot* snapshot = nullptr; for (int i = 0; i < kNum; ++i) { if (i == kNum / 3) { snapshot = db_->GetSnapshot(); } else if (i == 2 * kNum / 3) { db_->DeleteRange(WriteOptions(), db_->DefaultColumnFamily(), GetNumericStr(kRangeBegin), GetNumericStr(kRangeEnd)); } db_->Put(WriteOptions(), GetNumericStr(i), "val"); } db_->Flush(FlushOptions()); for (int i = 0; i < kNum; ++i) { ReadOptions read_opts; read_opts.ignore_range_deletions = true; std::string value; if (i < kRangeBegin || i > kRangeEnd || i < kNum / 3 || i >= 2 * kNum / 3) { ASSERT_OK(db_->Get(read_opts, GetNumericStr(i), &value)); } else { ASSERT_TRUE(db_->Get(read_opts, GetNumericStr(i), &value).IsNotFound()); } } db_->ReleaseSnapshot(snapshot); } // NumTableFilesAtLevel() is not supported in ROCKSDB_LITE #ifndef ROCKSDB_LITE TEST_F(DBRangeDelTest, CompactionRemovesCoveredKeys) { const int kNumPerFile = 100, kNumFiles = 4; Options opts = CurrentOptions(); opts.comparator = test::Uint64Comparator(); opts.disable_auto_compactions = true; opts.memtable_factory.reset(new SpecialSkipListFactory(kNumPerFile)); opts.num_levels = 2; opts.statistics = CreateDBStatistics(); Reopen(opts); for (int i = 0; i < kNumFiles; ++i) { if (i > 0) { // range tombstone covers first half of the previous file db_->DeleteRange(WriteOptions(), db_->DefaultColumnFamily(), GetNumericStr((i - 1) * kNumPerFile), GetNumericStr((i - 1) * kNumPerFile + kNumPerFile / 2)); } // Make sure a given key appears in each file so compaction won't be able to // use trivial move, which would happen if the ranges were non-overlapping. // Also, we need an extra element since flush is only triggered when the // number of keys is one greater than SpecialSkipListFactory's limit. // We choose a key outside the key-range used by the test to avoid conflict. db_->Put(WriteOptions(), GetNumericStr(kNumPerFile * kNumFiles), "val"); for (int j = 0; j < kNumPerFile; ++j) { db_->Put(WriteOptions(), GetNumericStr(i * kNumPerFile + j), "val"); } dbfull()->TEST_WaitForFlushMemTable(); ASSERT_EQ(i + 1, NumTableFilesAtLevel(0)); } db_->CompactRange(CompactRangeOptions(), nullptr, nullptr); ASSERT_EQ(0, NumTableFilesAtLevel(0)); ASSERT_GT(NumTableFilesAtLevel(1), 0); ASSERT_EQ((kNumFiles - 1) * kNumPerFile / 2, TestGetTickerCount(opts, COMPACTION_KEY_DROP_RANGE_DEL)); for (int i = 0; i < kNumFiles; ++i) { for (int j = 0; j < kNumPerFile; ++j) { ReadOptions read_opts; read_opts.ignore_range_deletions = true; std::string value; if (i == kNumFiles - 1 || j >= kNumPerFile / 2) { ASSERT_OK( db_->Get(read_opts, GetNumericStr(i * kNumPerFile + j), &value)); } else { ASSERT_TRUE( db_->Get(read_opts, GetNumericStr(i * kNumPerFile + j), &value) .IsNotFound()); } } } } TEST_F(DBRangeDelTest, ValidLevelSubcompactionBoundaries) { const int kNumPerFile = 100, kNumFiles = 4, kFileBytes = 100 << 10; Options options = CurrentOptions(); options.disable_auto_compactions = true; options.level0_file_num_compaction_trigger = kNumFiles; options.max_bytes_for_level_base = 2 * kFileBytes; options.max_subcompactions = 4; options.memtable_factory.reset(new SpecialSkipListFactory(kNumPerFile)); options.num_levels = 3; options.target_file_size_base = kFileBytes; options.target_file_size_multiplier = 1; Reopen(options); Random rnd(301); for (int i = 0; i < 2; ++i) { for (int j = 0; j < kNumFiles; ++j) { if (i > 0) { // delete [95,105) in two files, [295,305) in next two int mid = (j + (1 - j % 2)) * kNumPerFile; db_->DeleteRange(WriteOptions(), db_->DefaultColumnFamily(), Key(mid - 5), Key(mid + 5)); } std::vector values; // Write 100KB (100 values, each 1K) for (int k = 0; k < kNumPerFile; k++) { values.push_back(RandomString(&rnd, 990)); ASSERT_OK(Put(Key(j * kNumPerFile + k), values[k])); } // put extra key to trigger flush ASSERT_OK(Put("", "")); dbfull()->TEST_WaitForFlushMemTable(); if (j < kNumFiles - 1) { // background compaction may happen early for kNumFiles'th file ASSERT_EQ(NumTableFilesAtLevel(0), j + 1); } if (j == options.level0_file_num_compaction_trigger - 1) { // When i == 1, compaction will output some files to L1, at which point // L1 is not bottommost so range deletions cannot be compacted away. The // new L1 files must be generated with non-overlapping key ranges even // though multiple subcompactions see the same ranges deleted, else an // assertion will fail. // // Only enable auto-compactions when we're ready; otherwise, the // oversized L0 (relative to base_level) causes the compaction to run // earlier. ASSERT_OK(db_->EnableAutoCompaction({db_->DefaultColumnFamily()})); dbfull()->TEST_WaitForCompact(); ASSERT_OK(db_->SetOptions(db_->DefaultColumnFamily(), {{"disable_auto_compactions", "true"}})); ASSERT_EQ(NumTableFilesAtLevel(0), 0); ASSERT_GT(NumTableFilesAtLevel(1), 0); ASSERT_GT(NumTableFilesAtLevel(2), 0); } } } } TEST_F(DBRangeDelTest, ValidUniversalSubcompactionBoundaries) { const int kNumPerFile = 100, kFilesPerLevel = 4, kNumLevels = 4; Options options = CurrentOptions(); options.compaction_options_universal.min_merge_width = kFilesPerLevel; options.compaction_options_universal.max_merge_width = kFilesPerLevel; options.compaction_options_universal.size_ratio = 10; options.compaction_style = kCompactionStyleUniversal; options.level0_file_num_compaction_trigger = kFilesPerLevel; options.max_subcompactions = 4; options.memtable_factory.reset(new SpecialSkipListFactory(kNumPerFile)); options.num_levels = kNumLevels; options.target_file_size_base = kNumPerFile << 10; options.target_file_size_multiplier = 1; Reopen(options); Random rnd(301); for (int i = 0; i < kNumLevels - 1; ++i) { for (int j = 0; j < kFilesPerLevel; ++j) { if (i == kNumLevels - 2) { // insert range deletions [95,105) in two files, [295,305) in next two // to prepare L1 for later manual compaction. int mid = (j + (1 - j % 2)) * kNumPerFile; db_->DeleteRange(WriteOptions(), db_->DefaultColumnFamily(), Key(mid - 5), Key(mid + 5)); } std::vector values; // Write 100KB (100 values, each 1K) for (int k = 0; k < kNumPerFile; k++) { values.push_back(RandomString(&rnd, 990)); ASSERT_OK(Put(Key(j * kNumPerFile + k), values[k])); } // put extra key to trigger flush ASSERT_OK(Put("", "")); dbfull()->TEST_WaitForFlushMemTable(); if (j < kFilesPerLevel - 1) { // background compaction may happen early for kFilesPerLevel'th file ASSERT_EQ(NumTableFilesAtLevel(0), j + 1); } } dbfull()->TEST_WaitForCompact(); ASSERT_EQ(NumTableFilesAtLevel(0), 0); ASSERT_GT(NumTableFilesAtLevel(kNumLevels - 1 - i), kFilesPerLevel - 1); } // Now L1-L3 are full, when we compact L1->L2 we should see (1) subcompactions // happen since input level > 0; (2) range deletions are not dropped since // output level is not bottommost. If no file boundary assertion fails, that // probably means universal compaction + subcompaction + range deletion are // compatible. ASSERT_OK(dbfull()->RunManualCompaction( reinterpret_cast(db_->DefaultColumnFamily()) ->cfd(), 1 /* input_level */, 2 /* output_level */, 0 /* output_path_id */, 0 /* max_subcompactions */, nullptr /* begin */, nullptr /* end */, true /* exclusive */, true /* disallow_trivial_move */)); } #endif // ROCKSDB_LITE TEST_F(DBRangeDelTest, CompactionRemovesCoveredMergeOperands) { const int kNumPerFile = 3, kNumFiles = 3; Options opts = CurrentOptions(); opts.disable_auto_compactions = true; opts.memtable_factory.reset(new SpecialSkipListFactory(2 * kNumPerFile)); opts.merge_operator = MergeOperators::CreateUInt64AddOperator(); opts.num_levels = 2; Reopen(opts); // Iterates kNumFiles * kNumPerFile + 1 times since flushing the last file // requires an extra entry. for (int i = 0; i <= kNumFiles * kNumPerFile; ++i) { if (i % kNumPerFile == 0 && i / kNumPerFile == kNumFiles - 1) { // Delete merge operands from all but the last file db_->DeleteRange(WriteOptions(), db_->DefaultColumnFamily(), "key", "key_"); } std::string val; PutFixed64(&val, i); db_->Merge(WriteOptions(), "key", val); // we need to prevent trivial move using Puts so compaction will actually // process the merge operands. db_->Put(WriteOptions(), "prevent_trivial_move", ""); if (i > 0 && i % kNumPerFile == 0) { dbfull()->TEST_WaitForFlushMemTable(); } } ReadOptions read_opts; read_opts.ignore_range_deletions = true; std::string expected, actual; ASSERT_OK(db_->Get(read_opts, "key", &actual)); PutFixed64(&expected, 45); // 1+2+...+9 ASSERT_EQ(expected, actual); db_->CompactRange(CompactRangeOptions(), nullptr, nullptr); expected.clear(); ASSERT_OK(db_->Get(read_opts, "key", &actual)); uint64_t tmp; Slice tmp2(actual); GetFixed64(&tmp2, &tmp); PutFixed64(&expected, 30); // 6+7+8+9 (earlier operands covered by tombstone) ASSERT_EQ(expected, actual); } // NumTableFilesAtLevel() is not supported in ROCKSDB_LITE #ifndef ROCKSDB_LITE TEST_F(DBRangeDelTest, ObsoleteTombstoneCleanup) { // During compaction to bottommost level, verify range tombstones older than // the oldest snapshot are removed, while others are preserved. Options opts = CurrentOptions(); opts.disable_auto_compactions = true; opts.num_levels = 2; opts.statistics = CreateDBStatistics(); Reopen(opts); db_->DeleteRange(WriteOptions(), db_->DefaultColumnFamily(), "dr1", "dr10"); // obsolete after compaction db_->Put(WriteOptions(), "key", "val"); db_->Flush(FlushOptions()); const Snapshot* snapshot = db_->GetSnapshot(); db_->DeleteRange(WriteOptions(), db_->DefaultColumnFamily(), "dr2", "dr20"); // protected by snapshot db_->Put(WriteOptions(), "key", "val"); db_->Flush(FlushOptions()); ASSERT_EQ(2, NumTableFilesAtLevel(0)); ASSERT_EQ(0, NumTableFilesAtLevel(1)); db_->CompactRange(CompactRangeOptions(), nullptr, nullptr); ASSERT_EQ(0, NumTableFilesAtLevel(0)); ASSERT_EQ(1, NumTableFilesAtLevel(1)); ASSERT_EQ(1, TestGetTickerCount(opts, COMPACTION_RANGE_DEL_DROP_OBSOLETE)); db_->ReleaseSnapshot(snapshot); } TEST_F(DBRangeDelTest, TableEvictedDuringScan) { // The RangeDelAggregator holds pointers into range deletion blocks created by // table readers. This test ensures the aggregator can still access those // blocks even if it outlives the table readers that created them. // // DBIter always keeps readers open for L0 files. So, in order to test // aggregator outliving reader, we need to have deletions in L1 files, which // are opened/closed on-demand during the scan. This is accomplished by // setting kNumRanges > level0_stop_writes_trigger, which prevents deletions // from all lingering in L0 (there is at most one range deletion per L0 file). // // The first L1 file will contain a range deletion since its begin key is 0. // SeekToFirst() references that table's reader and adds its range tombstone // to the aggregator. Upon advancing beyond that table's key-range via Next(), // the table reader will be unreferenced by the iterator. Since we manually // call Evict() on all readers before the full scan, this unreference causes // the reader's refcount to drop to zero and thus be destroyed. // // When it is destroyed, we do not remove its range deletions from the // aggregator. So, subsequent calls to Next() must be able to use these // deletions to decide whether a key is covered. This will work as long as // the aggregator properly references the range deletion block. const int kNum = 25, kRangeBegin = 0, kRangeEnd = 7, kNumRanges = 5; Options opts = CurrentOptions(); opts.comparator = test::Uint64Comparator(); opts.level0_file_num_compaction_trigger = 4; opts.level0_stop_writes_trigger = 4; opts.memtable_factory.reset(new SpecialSkipListFactory(1)); opts.num_levels = 2; BlockBasedTableOptions bbto; bbto.cache_index_and_filter_blocks = true; bbto.block_cache = NewLRUCache(8 << 20); opts.table_factory.reset(NewBlockBasedTableFactory(bbto)); Reopen(opts); // Hold a snapshot so range deletions can't become obsolete during compaction // to bottommost level (i.e., L1). const Snapshot* snapshot = db_->GetSnapshot(); for (int i = 0; i < kNum; ++i) { db_->Put(WriteOptions(), GetNumericStr(i), "val"); if (i > 0) { dbfull()->TEST_WaitForFlushMemTable(); } if (i >= kNum / 2 && i < kNum / 2 + kNumRanges) { db_->DeleteRange(WriteOptions(), db_->DefaultColumnFamily(), GetNumericStr(kRangeBegin), GetNumericStr(kRangeEnd)); } } // Must be > 1 so the first L1 file can be closed before scan finishes dbfull()->TEST_WaitForCompact(); ASSERT_GT(NumTableFilesAtLevel(1), 1); std::vector file_numbers = ListTableFiles(env_, dbname_); ReadOptions read_opts; auto* iter = db_->NewIterator(read_opts); int expected = kRangeEnd; iter->SeekToFirst(); for (auto file_number : file_numbers) { // This puts table caches in the state of being externally referenced only // so they are destroyed immediately upon iterator unreferencing. TableCache::Evict(dbfull()->TEST_table_cache(), file_number); } for (; iter->Valid(); iter->Next()) { ASSERT_EQ(GetNumericStr(expected), iter->key()); ++expected; // Keep clearing block cache's LRU so range deletion block can be freed as // soon as its refcount drops to zero. bbto.block_cache->EraseUnRefEntries(); } ASSERT_EQ(kNum, expected); delete iter; db_->ReleaseSnapshot(snapshot); } TEST_F(DBRangeDelTest, GetCoveredKeyFromMutableMemtable) { do { DestroyAndReopen(CurrentOptions()); db_->Put(WriteOptions(), "key", "val"); ASSERT_OK( db_->DeleteRange(WriteOptions(), db_->DefaultColumnFamily(), "a", "z")); ReadOptions read_opts; std::string value; ASSERT_TRUE(db_->Get(read_opts, "key", &value).IsNotFound()); } while (ChangeOptions(kRangeDelSkipConfigs)); } TEST_F(DBRangeDelTest, GetCoveredKeyFromImmutableMemtable) { do { Options opts = CurrentOptions(); opts.max_write_buffer_number = 3; opts.min_write_buffer_number_to_merge = 2; // SpecialSkipListFactory lets us specify maximum number of elements the // memtable can hold. It switches the active memtable to immutable (flush is // prevented by the above options) upon inserting an element that would // overflow the memtable. opts.memtable_factory.reset(new SpecialSkipListFactory(1)); DestroyAndReopen(opts); db_->Put(WriteOptions(), "key", "val"); ASSERT_OK( db_->DeleteRange(WriteOptions(), db_->DefaultColumnFamily(), "a", "z")); db_->Put(WriteOptions(), "blah", "val"); ReadOptions read_opts; std::string value; ASSERT_TRUE(db_->Get(read_opts, "key", &value).IsNotFound()); } while (ChangeOptions(kRangeDelSkipConfigs)); } TEST_F(DBRangeDelTest, GetCoveredKeyFromSst) { do { DestroyAndReopen(CurrentOptions()); db_->Put(WriteOptions(), "key", "val"); // snapshot prevents key from being deleted during flush const Snapshot* snapshot = db_->GetSnapshot(); ASSERT_OK( db_->DeleteRange(WriteOptions(), db_->DefaultColumnFamily(), "a", "z")); ASSERT_OK(db_->Flush(FlushOptions())); ReadOptions read_opts; std::string value; ASSERT_TRUE(db_->Get(read_opts, "key", &value).IsNotFound()); db_->ReleaseSnapshot(snapshot); // Cuckoo memtables do not support snapshots. } while (ChangeOptions(kRangeDelSkipConfigs | kSkipHashCuckoo)); } TEST_F(DBRangeDelTest, GetCoveredMergeOperandFromMemtable) { const int kNumMergeOps = 10; Options opts = CurrentOptions(); opts.merge_operator = MergeOperators::CreateUInt64AddOperator(); Reopen(opts); for (int i = 0; i < kNumMergeOps; ++i) { std::string val; PutFixed64(&val, i); db_->Merge(WriteOptions(), "key", val); if (i == kNumMergeOps / 2) { // deletes [0, 5] db_->DeleteRange(WriteOptions(), db_->DefaultColumnFamily(), "key", "key_"); } } ReadOptions read_opts; std::string expected, actual; ASSERT_OK(db_->Get(read_opts, "key", &actual)); PutFixed64(&expected, 30); // 6+7+8+9 ASSERT_EQ(expected, actual); expected.clear(); read_opts.ignore_range_deletions = true; ASSERT_OK(db_->Get(read_opts, "key", &actual)); PutFixed64(&expected, 45); // 0+1+2+...+9 ASSERT_EQ(expected, actual); } TEST_F(DBRangeDelTest, GetIgnoresRangeDeletions) { Options opts = CurrentOptions(); opts.max_write_buffer_number = 4; opts.min_write_buffer_number_to_merge = 3; opts.memtable_factory.reset(new SpecialSkipListFactory(1)); Reopen(opts); db_->Put(WriteOptions(), "sst_key", "val"); // snapshot prevents key from being deleted during flush const Snapshot* snapshot = db_->GetSnapshot(); ASSERT_OK( db_->DeleteRange(WriteOptions(), db_->DefaultColumnFamily(), "a", "z")); ASSERT_OK(db_->Flush(FlushOptions())); db_->Put(WriteOptions(), "imm_key", "val"); ASSERT_OK( db_->DeleteRange(WriteOptions(), db_->DefaultColumnFamily(), "a", "z")); db_->Put(WriteOptions(), "mem_key", "val"); ASSERT_OK( db_->DeleteRange(WriteOptions(), db_->DefaultColumnFamily(), "a", "z")); ReadOptions read_opts; read_opts.ignore_range_deletions = true; for (std::string key : {"sst_key", "imm_key", "mem_key"}) { std::string value; ASSERT_OK(db_->Get(read_opts, key, &value)); } db_->ReleaseSnapshot(snapshot); } TEST_F(DBRangeDelTest, IteratorRemovesCoveredKeys) { const int kNum = 200, kRangeBegin = 50, kRangeEnd = 150, kNumPerFile = 25; Options opts = CurrentOptions(); opts.comparator = test::Uint64Comparator(); opts.memtable_factory.reset(new SpecialSkipListFactory(kNumPerFile)); Reopen(opts); // Write half of the keys before the tombstone and half after the tombstone. // Only covered keys (i.e., within the range and older than the tombstone) // should be deleted. for (int i = 0; i < kNum; ++i) { if (i == kNum / 2) { db_->DeleteRange(WriteOptions(), db_->DefaultColumnFamily(), GetNumericStr(kRangeBegin), GetNumericStr(kRangeEnd)); } db_->Put(WriteOptions(), GetNumericStr(i), "val"); } ReadOptions read_opts; auto* iter = db_->NewIterator(read_opts); int expected = 0; for (iter->SeekToFirst(); iter->Valid(); iter->Next()) { ASSERT_EQ(GetNumericStr(expected), iter->key()); if (expected == kRangeBegin - 1) { expected = kNum / 2; } else { ++expected; } } ASSERT_EQ(kNum, expected); delete iter; } TEST_F(DBRangeDelTest, IteratorOverUserSnapshot) { const int kNum = 200, kRangeBegin = 50, kRangeEnd = 150, kNumPerFile = 25; Options opts = CurrentOptions(); opts.comparator = test::Uint64Comparator(); opts.memtable_factory.reset(new SpecialSkipListFactory(kNumPerFile)); Reopen(opts); const Snapshot* snapshot = nullptr; // Put a snapshot before the range tombstone, verify an iterator using that // snapshot sees all inserted keys. for (int i = 0; i < kNum; ++i) { if (i == kNum / 2) { snapshot = db_->GetSnapshot(); db_->DeleteRange(WriteOptions(), db_->DefaultColumnFamily(), GetNumericStr(kRangeBegin), GetNumericStr(kRangeEnd)); } db_->Put(WriteOptions(), GetNumericStr(i), "val"); } ReadOptions read_opts; read_opts.snapshot = snapshot; auto* iter = db_->NewIterator(read_opts); int expected = 0; for (iter->SeekToFirst(); iter->Valid(); iter->Next()) { ASSERT_EQ(GetNumericStr(expected), iter->key()); ++expected; } ASSERT_EQ(kNum / 2, expected); delete iter; db_->ReleaseSnapshot(snapshot); } TEST_F(DBRangeDelTest, IteratorIgnoresRangeDeletions) { Options opts = CurrentOptions(); opts.max_write_buffer_number = 4; opts.min_write_buffer_number_to_merge = 3; opts.memtable_factory.reset(new SpecialSkipListFactory(1)); Reopen(opts); db_->Put(WriteOptions(), "sst_key", "val"); // snapshot prevents key from being deleted during flush const Snapshot* snapshot = db_->GetSnapshot(); ASSERT_OK( db_->DeleteRange(WriteOptions(), db_->DefaultColumnFamily(), "a", "z")); ASSERT_OK(db_->Flush(FlushOptions())); db_->Put(WriteOptions(), "imm_key", "val"); ASSERT_OK( db_->DeleteRange(WriteOptions(), db_->DefaultColumnFamily(), "a", "z")); db_->Put(WriteOptions(), "mem_key", "val"); ASSERT_OK( db_->DeleteRange(WriteOptions(), db_->DefaultColumnFamily(), "a", "z")); ReadOptions read_opts; read_opts.ignore_range_deletions = true; auto* iter = db_->NewIterator(read_opts); int i = 0; std::string expected[] = {"imm_key", "mem_key", "sst_key"}; for (iter->SeekToFirst(); iter->Valid(); iter->Next(), ++i) { std::string key; ASSERT_EQ(expected[i], iter->key()); } ASSERT_EQ(3, i); delete iter; db_->ReleaseSnapshot(snapshot); } #ifndef ROCKSDB_UBSAN_RUN TEST_F(DBRangeDelTest, TailingIteratorRangeTombstoneUnsupported) { db_->Put(WriteOptions(), "key", "val"); // snapshot prevents key from being deleted during flush const Snapshot* snapshot = db_->GetSnapshot(); ASSERT_OK( db_->DeleteRange(WriteOptions(), db_->DefaultColumnFamily(), "a", "z")); // iterations check unsupported in memtable, l0, and then l1 for (int i = 0; i < 3; ++i) { ReadOptions read_opts; read_opts.tailing = true; auto* iter = db_->NewIterator(read_opts); if (i == 2) { // For L1+, iterators over files are created on-demand, so need seek iter->SeekToFirst(); } ASSERT_TRUE(iter->status().IsNotSupported()); delete iter; if (i == 0) { ASSERT_OK(db_->Flush(FlushOptions())); } else if (i == 1) { MoveFilesToLevel(1); } } db_->ReleaseSnapshot(snapshot); } #endif // !ROCKSDB_UBSAN_RUN TEST_F(DBRangeDelTest, SubcompactionHasEmptyDedicatedRangeDelFile) { const int kNumFiles = 2, kNumKeysPerFile = 4; Options options = CurrentOptions(); options.compression = kNoCompression; options.disable_auto_compactions = true; options.level0_file_num_compaction_trigger = kNumFiles; options.max_subcompactions = 2; options.num_levels = 2; options.target_file_size_base = 4096; Reopen(options); // need a L1 file for subcompaction to be triggered ASSERT_OK( db_->Put(WriteOptions(), db_->DefaultColumnFamily(), Key(0), "val")); ASSERT_OK(db_->Flush(FlushOptions())); MoveFilesToLevel(1); // put enough keys to fill up the first subcompaction, and later range-delete // them so that the first subcompaction outputs no key-values. In that case // it'll consider making an SST file dedicated to range deletions. for (int i = 0; i < kNumKeysPerFile; ++i) { ASSERT_OK(db_->Put(WriteOptions(), db_->DefaultColumnFamily(), Key(i), std::string(1024, 'a'))); } ASSERT_OK(db_->Flush(FlushOptions())); ASSERT_OK(db_->DeleteRange(WriteOptions(), db_->DefaultColumnFamily(), Key(0), Key(kNumKeysPerFile))); // the above range tombstone can be dropped, so that one alone won't cause a // dedicated file to be opened. We can make one protected by snapshot that // must be considered. Make its range outside the first subcompaction's range // to exercise the tricky part of the code. const Snapshot* snapshot = db_->GetSnapshot(); ASSERT_OK(db_->DeleteRange(WriteOptions(), db_->DefaultColumnFamily(), Key(kNumKeysPerFile + 1), Key(kNumKeysPerFile + 2))); ASSERT_OK(db_->Flush(FlushOptions())); ASSERT_EQ(kNumFiles, NumTableFilesAtLevel(0)); ASSERT_EQ(1, NumTableFilesAtLevel(1)); db_->EnableAutoCompaction({db_->DefaultColumnFamily()}); dbfull()->TEST_WaitForCompact(); db_->ReleaseSnapshot(snapshot); } TEST_F(DBRangeDelTest, MemtableBloomFilter) { // regression test for #2743. the range delete tombstones in memtable should // be added even when Get() skips searching due to its prefix bloom filter const int kMemtableSize = 1 << 20; // 1MB const int kMemtablePrefixFilterSize = 1 << 13; // 8KB const int kNumKeys = 1000; const int kPrefixLen = 8; Options options = CurrentOptions(); options.memtable_prefix_bloom_size_ratio = static_cast(kMemtablePrefixFilterSize) / kMemtableSize; options.prefix_extractor.reset(rocksdb::NewFixedPrefixTransform(kPrefixLen)); options.write_buffer_size = kMemtableSize; Reopen(options); for (int i = 0; i < kNumKeys; ++i) { ASSERT_OK(Put(Key(i), "val")); } Flush(); ASSERT_OK(db_->DeleteRange(WriteOptions(), db_->DefaultColumnFamily(), Key(0), Key(kNumKeys))); for (int i = 0; i < kNumKeys; ++i) { std::string value; ASSERT_TRUE(db_->Get(ReadOptions(), Key(i), &value).IsNotFound()); } } TEST_F(DBRangeDelTest, CompactionTreatsSplitInputLevelDeletionAtomically) { // This test originally verified that compaction treated files containing a // split range deletion in the input level as an atomic unit. I.e., // compacting any input-level file(s) containing a portion of the range // deletion causes all other input-level files containing portions of that // same range deletion to be included in the compaction. Range deletion // tombstones are now truncated to sstable boundaries which removed the need // for that behavior (which could lead to excessively large // compactions). const int kNumFilesPerLevel = 4, kValueBytes = 4 << 10; Options options = CurrentOptions(); options.compression = kNoCompression; options.level0_file_num_compaction_trigger = kNumFilesPerLevel; options.memtable_factory.reset( new SpecialSkipListFactory(2 /* num_entries_flush */)); options.target_file_size_base = kValueBytes; // i == 0: CompactFiles // i == 1: CompactRange // i == 2: automatic compaction for (int i = 0; i < 3; ++i) { DestroyAndReopen(options); ASSERT_OK(Put(Key(0), "")); ASSERT_OK(db_->Flush(FlushOptions())); MoveFilesToLevel(2); ASSERT_EQ(1, NumTableFilesAtLevel(2)); // snapshot protects range tombstone from dropping due to becoming obsolete. const Snapshot* snapshot = db_->GetSnapshot(); db_->DeleteRange(WriteOptions(), db_->DefaultColumnFamily(), Key(0), Key(2 * kNumFilesPerLevel)); Random rnd(301); std::string value = RandomString(&rnd, kValueBytes); for (int j = 0; j < kNumFilesPerLevel; ++j) { // give files overlapping key-ranges to prevent trivial move ASSERT_OK(Put(Key(j), value)); ASSERT_OK(Put(Key(2 * kNumFilesPerLevel - 1 - j), value)); if (j > 0) { dbfull()->TEST_WaitForFlushMemTable(); ASSERT_EQ(j, NumTableFilesAtLevel(0)); } } // put extra key to trigger final flush ASSERT_OK(Put("", "")); dbfull()->TEST_WaitForFlushMemTable(); dbfull()->TEST_WaitForCompact(); ASSERT_EQ(0, NumTableFilesAtLevel(0)); ASSERT_EQ(kNumFilesPerLevel, NumTableFilesAtLevel(1)); ColumnFamilyMetaData meta; db_->GetColumnFamilyMetaData(&meta); if (i == 0) { ASSERT_OK(db_->CompactFiles( CompactionOptions(), {meta.levels[1].files[0].name}, 2 /* level */)); ASSERT_EQ(0, NumTableFilesAtLevel(1)); } else if (i == 1) { auto begin_str = Key(0), end_str = Key(1); Slice begin = begin_str, end = end_str; ASSERT_OK(db_->CompactRange(CompactRangeOptions(), &begin, &end)); ASSERT_EQ(3, NumTableFilesAtLevel(1)); } else if (i == 2) { ASSERT_OK(db_->SetOptions(db_->DefaultColumnFamily(), {{"max_bytes_for_level_base", "10000"}})); dbfull()->TEST_WaitForCompact(); ASSERT_EQ(1, NumTableFilesAtLevel(1)); } ASSERT_GT(NumTableFilesAtLevel(2), 0); db_->ReleaseSnapshot(snapshot); } } TEST_F(DBRangeDelTest, RangeTombstoneEndKeyAsSstableUpperBound) { // Test the handling of the range-tombstone end-key as the // upper-bound for an sstable. const int kNumFilesPerLevel = 2, kValueBytes = 4 << 10; Options options = CurrentOptions(); options.compression = kNoCompression; options.level0_file_num_compaction_trigger = kNumFilesPerLevel; options.memtable_factory.reset( new SpecialSkipListFactory(2 /* num_entries_flush */)); options.target_file_size_base = kValueBytes; options.disable_auto_compactions = true; DestroyAndReopen(options); // Create an initial sstable at L2: // [key000000#1,1, key000000#1,1] ASSERT_OK(Put(Key(0), "")); ASSERT_OK(db_->Flush(FlushOptions())); MoveFilesToLevel(2); ASSERT_EQ(1, NumTableFilesAtLevel(2)); // A snapshot protects the range tombstone from dropping due to // becoming obsolete. const Snapshot* snapshot = db_->GetSnapshot(); db_->DeleteRange(WriteOptions(), db_->DefaultColumnFamily(), Key(0), Key(2 * kNumFilesPerLevel)); // Create 2 additional sstables in L0. Note that the first sstable // contains the range tombstone. // [key000000#3,1, key000004#72057594037927935,15] // [key000001#5,1, key000002#6,1] Random rnd(301); std::string value = RandomString(&rnd, kValueBytes); for (int j = 0; j < kNumFilesPerLevel; ++j) { // Give files overlapping key-ranges to prevent a trivial move when we // compact from L0 to L1. ASSERT_OK(Put(Key(j), value)); ASSERT_OK(Put(Key(2 * kNumFilesPerLevel - 1 - j), value)); ASSERT_OK(db_->Flush(FlushOptions())); ASSERT_EQ(j + 1, NumTableFilesAtLevel(0)); } // Compact the 2 L0 sstables to L1, resulting in the following LSM. There // are 2 sstables generated in L1 due to the target_file_size_base setting. // L1: // [key000000#3,1, key000002#72057594037927935,15] // [key000002#6,1, key000004#72057594037927935,15] // L2: // [key000000#1,1, key000000#1,1] MoveFilesToLevel(1); ASSERT_EQ(2, NumTableFilesAtLevel(1)); { // Compact the second sstable in L1: // L1: // [key000000#3,1, key000002#72057594037927935,15] // L2: // [key000000#1,1, key000000#1,1] // [key000002#6,1, key000004#72057594037927935,15] auto begin_str = Key(3); const rocksdb::Slice begin = begin_str; dbfull()->TEST_CompactRange(1, &begin, nullptr); ASSERT_EQ(1, NumTableFilesAtLevel(1)); ASSERT_EQ(2, NumTableFilesAtLevel(2)); } { // Compact the first sstable in L1. This should be copacetic, but // was previously resulting in overlapping sstables in L2 due to // mishandling of the range tombstone end-key when used as the // largest key for an sstable. The resulting LSM structure should // be: // // L2: // [key000000#1,1, key000001#72057594037927935,15] // [key000001#5,1, key000002#72057594037927935,15] // [key000002#6,1, key000004#72057594037927935,15] auto begin_str = Key(0); const rocksdb::Slice begin = begin_str; dbfull()->TEST_CompactRange(1, &begin, &begin); ASSERT_EQ(0, NumTableFilesAtLevel(1)); ASSERT_EQ(3, NumTableFilesAtLevel(2)); } db_->ReleaseSnapshot(snapshot); } TEST_F(DBRangeDelTest, UnorderedTombstones) { // Regression test for #2752. Range delete tombstones between // different snapshot stripes are not stored in order, so the first // tombstone of each snapshot stripe should be checked as a smallest // candidate. Options options = CurrentOptions(); DestroyAndReopen(options); auto cf = db_->DefaultColumnFamily(); ASSERT_OK(db_->Put(WriteOptions(), cf, "a", "a")); ASSERT_OK(db_->Flush(FlushOptions(), cf)); ASSERT_EQ(1, NumTableFilesAtLevel(0)); ASSERT_OK(dbfull()->TEST_CompactRange(0, nullptr, nullptr)); ASSERT_EQ(1, NumTableFilesAtLevel(1)); ASSERT_OK(db_->DeleteRange(WriteOptions(), cf, "b", "c")); // Hold a snapshot to separate these two delete ranges. auto snapshot = db_->GetSnapshot(); ASSERT_OK(db_->DeleteRange(WriteOptions(), cf, "a", "b")); ASSERT_OK(db_->Flush(FlushOptions(), cf)); db_->ReleaseSnapshot(snapshot); std::vector> files; dbfull()->TEST_GetFilesMetaData(cf, &files); ASSERT_EQ(1, files[0].size()); ASSERT_EQ("a", files[0][0].smallest.user_key()); ASSERT_EQ("c", files[0][0].largest.user_key()); std::string v; auto s = db_->Get(ReadOptions(), "a", &v); ASSERT_TRUE(s.IsNotFound()); } #endif // ROCKSDB_LITE } // namespace rocksdb int main(int argc, char** argv) { rocksdb::port::InstallStackTraceHandler(); ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/db/db_sst_test.cc000066400000000000000000001057031337235545400164670ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "db/db_test_util.h" #include "port/port.h" #include "port/stack_trace.h" #include "rocksdb/sst_file_manager.h" #include "util/sst_file_manager_impl.h" namespace rocksdb { class DBSSTTest : public DBTestBase { public: DBSSTTest() : DBTestBase("/db_sst_test") {} }; #ifndef ROCKSDB_LITE // A class which remembers the name of each flushed file. class FlushedFileCollector : public EventListener { public: FlushedFileCollector() {} ~FlushedFileCollector() {} virtual void OnFlushCompleted(DB* /*db*/, const FlushJobInfo& info) override { std::lock_guard lock(mutex_); flushed_files_.push_back(info.file_path); } std::vector GetFlushedFiles() { std::lock_guard lock(mutex_); std::vector result; for (auto fname : flushed_files_) { result.push_back(fname); } return result; } void ClearFlushedFiles() { std::lock_guard lock(mutex_); flushed_files_.clear(); } private: std::vector flushed_files_; std::mutex mutex_; }; #endif // ROCKSDB_LITE TEST_F(DBSSTTest, DontDeletePendingOutputs) { Options options; options.env = env_; options.create_if_missing = true; DestroyAndReopen(options); // Every time we write to a table file, call FOF/POF with full DB scan. This // will make sure our pending_outputs_ protection work correctly std::function purge_obsolete_files_function = [&]() { JobContext job_context(0); dbfull()->TEST_LockMutex(); dbfull()->FindObsoleteFiles(&job_context, true /*force*/); dbfull()->TEST_UnlockMutex(); dbfull()->PurgeObsoleteFiles(job_context); job_context.Clean(); }; env_->table_write_callback_ = &purge_obsolete_files_function; for (int i = 0; i < 2; ++i) { ASSERT_OK(Put("a", "begin")); ASSERT_OK(Put("z", "end")); ASSERT_OK(Flush()); } // If pending output guard does not work correctly, PurgeObsoleteFiles() will // delete the file that Compaction is trying to create, causing this: error // db/db_test.cc:975: IO error: // /tmp/rocksdbtest-1552237650/db_test/000009.sst: No such file or directory Compact("a", "b"); } // 1 Create some SST files by inserting K-V pairs into DB // 2 Close DB and change suffix from ".sst" to ".ldb" for every other SST file // 3 Open DB and check if all key can be read TEST_F(DBSSTTest, SSTsWithLdbSuffixHandling) { Options options = CurrentOptions(); options.write_buffer_size = 110 << 10; // 110KB options.num_levels = 4; DestroyAndReopen(options); Random rnd(301); int key_id = 0; for (int i = 0; i < 10; ++i) { GenerateNewFile(&rnd, &key_id, false); } Flush(); Close(); int const num_files = GetSstFileCount(dbname_); ASSERT_GT(num_files, 0); std::vector filenames; GetSstFiles(env_, dbname_, &filenames); int num_ldb_files = 0; for (size_t i = 0; i < filenames.size(); ++i) { if (i & 1) { continue; } std::string const rdb_name = dbname_ + "/" + filenames[i]; std::string const ldb_name = Rocks2LevelTableFileName(rdb_name); ASSERT_TRUE(env_->RenameFile(rdb_name, ldb_name).ok()); ++num_ldb_files; } ASSERT_GT(num_ldb_files, 0); ASSERT_EQ(num_files, GetSstFileCount(dbname_)); Reopen(options); for (int k = 0; k < key_id; ++k) { ASSERT_NE("NOT_FOUND", Get(Key(k))); } Destroy(options); } #ifndef ROCKSDB_LITE TEST_F(DBSSTTest, DontDeleteMovedFile) { // This test triggers move compaction and verifies that the file is not // deleted when it's part of move compaction Options options = CurrentOptions(); options.env = env_; options.create_if_missing = true; options.max_bytes_for_level_base = 1024 * 1024; // 1 MB options.level0_file_num_compaction_trigger = 2; // trigger compaction when we have 2 files DestroyAndReopen(options); Random rnd(301); // Create two 1MB sst files for (int i = 0; i < 2; ++i) { // Create 1MB sst file for (int j = 0; j < 100; ++j) { ASSERT_OK(Put(Key(i * 50 + j), RandomString(&rnd, 10 * 1024))); } ASSERT_OK(Flush()); } // this should execute both L0->L1 and L1->(move)->L2 compactions dbfull()->TEST_WaitForCompact(); ASSERT_EQ("0,0,1", FilesPerLevel(0)); // If the moved file is actually deleted (the move-safeguard in // ~Version::Version() is not there), we get this failure: // Corruption: Can't access /000009.sst Reopen(options); } // This reproduces a bug where we don't delete a file because when it was // supposed to be deleted, it was blocked by pending_outputs // Consider: // 1. current file_number is 13 // 2. compaction (1) starts, blocks deletion of all files starting with 13 // (pending outputs) // 3. file 13 is created by compaction (2) // 4. file 13 is consumed by compaction (3) and file 15 was created. Since file // 13 has no references, it is put into VersionSet::obsolete_files_ // 5. FindObsoleteFiles() gets file 13 from VersionSet::obsolete_files_. File 13 // is deleted from obsolete_files_ set. // 6. PurgeObsoleteFiles() tries to delete file 13, but this file is blocked by // pending outputs since compaction (1) is still running. It is not deleted and // it is not present in obsolete_files_ anymore. Therefore, we never delete it. TEST_F(DBSSTTest, DeleteObsoleteFilesPendingOutputs) { Options options = CurrentOptions(); options.env = env_; options.write_buffer_size = 2 * 1024 * 1024; // 2 MB options.max_bytes_for_level_base = 1024 * 1024; // 1 MB options.level0_file_num_compaction_trigger = 2; // trigger compaction when we have 2 files options.max_background_flushes = 2; options.max_background_compactions = 2; OnFileDeletionListener* listener = new OnFileDeletionListener(); options.listeners.emplace_back(listener); Reopen(options); Random rnd(301); // Create two 1MB sst files for (int i = 0; i < 2; ++i) { // Create 1MB sst file for (int j = 0; j < 100; ++j) { ASSERT_OK(Put(Key(i * 50 + j), RandomString(&rnd, 10 * 1024))); } ASSERT_OK(Flush()); } // this should execute both L0->L1 and L1->(move)->L2 compactions dbfull()->TEST_WaitForCompact(); ASSERT_EQ("0,0,1", FilesPerLevel(0)); test::SleepingBackgroundTask blocking_thread; port::Mutex mutex_; bool already_blocked(false); // block the flush std::function block_first_time = [&]() { bool blocking = false; { MutexLock l(&mutex_); if (!already_blocked) { blocking = true; already_blocked = true; } } if (blocking) { blocking_thread.DoSleep(); } }; env_->table_write_callback_ = &block_first_time; // Insert 2.5MB data, which should trigger a flush because we exceed // write_buffer_size. The flush will be blocked with block_first_time // pending_file is protecting all the files created after for (int j = 0; j < 256; ++j) { ASSERT_OK(Put(Key(j), RandomString(&rnd, 10 * 1024))); } blocking_thread.WaitUntilSleeping(); ASSERT_OK(dbfull()->TEST_CompactRange(2, nullptr, nullptr)); ASSERT_EQ("0,0,0,1", FilesPerLevel(0)); std::vector metadata; db_->GetLiveFilesMetaData(&metadata); ASSERT_EQ(metadata.size(), 1U); auto file_on_L2 = metadata[0].name; listener->SetExpectedFileName(dbname_ + file_on_L2); ASSERT_OK(dbfull()->TEST_CompactRange(3, nullptr, nullptr, nullptr, true /* disallow trivial move */)); ASSERT_EQ("0,0,0,0,1", FilesPerLevel(0)); // finish the flush! blocking_thread.WakeUp(); blocking_thread.WaitUntilDone(); dbfull()->TEST_WaitForFlushMemTable(); // File just flushed is too big for L0 and L1 so gets moved to L2. dbfull()->TEST_WaitForCompact(); ASSERT_EQ("0,0,1,0,1", FilesPerLevel(0)); metadata.clear(); db_->GetLiveFilesMetaData(&metadata); ASSERT_EQ(metadata.size(), 2U); // This file should have been deleted during last compaction ASSERT_EQ(Status::NotFound(), env_->FileExists(dbname_ + file_on_L2)); listener->VerifyMatchedCount(1); } TEST_F(DBSSTTest, DBWithSstFileManager) { std::shared_ptr sst_file_manager(NewSstFileManager(env_)); auto sfm = static_cast(sst_file_manager.get()); int files_added = 0; int files_deleted = 0; int files_moved = 0; rocksdb::SyncPoint::GetInstance()->SetCallBack( "SstFileManagerImpl::OnAddFile", [&](void* /*arg*/) { files_added++; }); rocksdb::SyncPoint::GetInstance()->SetCallBack( "SstFileManagerImpl::OnDeleteFile", [&](void* /*arg*/) { files_deleted++; }); rocksdb::SyncPoint::GetInstance()->SetCallBack( "SstFileManagerImpl::OnMoveFile", [&](void* /*arg*/) { files_moved++; }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); Options options = CurrentOptions(); options.sst_file_manager = sst_file_manager; DestroyAndReopen(options); Random rnd(301); for (int i = 0; i < 25; i++) { GenerateNewRandomFile(&rnd); ASSERT_OK(Flush()); dbfull()->TEST_WaitForFlushMemTable(); dbfull()->TEST_WaitForCompact(); // Verify that we are tracking all sst files in dbname_ ASSERT_EQ(sfm->GetTrackedFiles(), GetAllSSTFiles()); } ASSERT_OK(db_->CompactRange(CompactRangeOptions(), nullptr, nullptr)); auto files_in_db = GetAllSSTFiles(); // Verify that we are tracking all sst files in dbname_ ASSERT_EQ(sfm->GetTrackedFiles(), files_in_db); // Verify the total files size uint64_t total_files_size = 0; for (auto& file_to_size : files_in_db) { total_files_size += file_to_size.second; } ASSERT_EQ(sfm->GetTotalSize(), total_files_size); // We flushed at least 25 files ASSERT_GE(files_added, 25); // Compaction must have deleted some files ASSERT_GT(files_deleted, 0); // No files were moved ASSERT_EQ(files_moved, 0); Close(); Reopen(options); ASSERT_EQ(sfm->GetTrackedFiles(), files_in_db); ASSERT_EQ(sfm->GetTotalSize(), total_files_size); // Verify that we track all the files again after the DB is closed and opened Close(); sst_file_manager.reset(NewSstFileManager(env_)); options.sst_file_manager = sst_file_manager; sfm = static_cast(sst_file_manager.get()); Reopen(options); ASSERT_EQ(sfm->GetTrackedFiles(), files_in_db); ASSERT_EQ(sfm->GetTotalSize(), total_files_size); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); } TEST_F(DBSSTTest, RateLimitedDelete) { Destroy(last_options_); rocksdb::SyncPoint::GetInstance()->LoadDependency({ {"DBSSTTest::RateLimitedDelete:1", "DeleteScheduler::BackgroundEmptyTrash"}, }); std::vector penalties; rocksdb::SyncPoint::GetInstance()->SetCallBack( "DeleteScheduler::BackgroundEmptyTrash:Wait", [&](void* arg) { penalties.push_back(*(static_cast(arg))); }); rocksdb::SyncPoint::GetInstance()->SetCallBack( "InstrumentedCondVar::TimedWaitInternal", [&](void* arg) { // Turn timed wait into a simulated sleep uint64_t* abs_time_us = static_cast(arg); int64_t cur_time = 0; env_->GetCurrentTime(&cur_time); if (*abs_time_us > static_cast(cur_time)) { env_->addon_time_.fetch_add(*abs_time_us - static_cast(cur_time)); } // Randomly sleep shortly env_->addon_time_.fetch_add( static_cast(Random::GetTLSInstance()->Uniform(10))); // Set wait until time to before current to force not to sleep. int64_t real_cur_time = 0; Env::Default()->GetCurrentTime(&real_cur_time); *abs_time_us = static_cast(real_cur_time); }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); env_->no_slowdown_ = true; env_->time_elapse_only_sleep_ = true; Options options = CurrentOptions(); options.disable_auto_compactions = true; options.env = env_; int64_t rate_bytes_per_sec = 1024 * 10; // 10 Kbs / Sec Status s; options.sst_file_manager.reset( NewSstFileManager(env_, nullptr, "", 0, false, &s, 0)); ASSERT_OK(s); options.sst_file_manager->SetDeleteRateBytesPerSecond(rate_bytes_per_sec); auto sfm = static_cast(options.sst_file_manager.get()); sfm->delete_scheduler()->SetMaxTrashDBRatio(1.1); ASSERT_OK(TryReopen(options)); // Create 4 files in L0 for (char v = 'a'; v <= 'd'; v++) { ASSERT_OK(Put("Key2", DummyString(1024, v))); ASSERT_OK(Put("Key3", DummyString(1024, v))); ASSERT_OK(Put("Key4", DummyString(1024, v))); ASSERT_OK(Put("Key1", DummyString(1024, v))); ASSERT_OK(Put("Key4", DummyString(1024, v))); ASSERT_OK(Flush()); } // We created 4 sst files in L0 ASSERT_EQ("4", FilesPerLevel(0)); std::vector metadata; db_->GetLiveFilesMetaData(&metadata); // Compaction will move the 4 files in L0 to trash and create 1 L1 file ASSERT_OK(db_->CompactRange(CompactRangeOptions(), nullptr, nullptr)); ASSERT_EQ("0,1", FilesPerLevel(0)); uint64_t delete_start_time = env_->NowMicros(); // Hold BackgroundEmptyTrash TEST_SYNC_POINT("DBSSTTest::RateLimitedDelete:1"); sfm->WaitForEmptyTrash(); uint64_t time_spent_deleting = env_->NowMicros() - delete_start_time; uint64_t total_files_size = 0; uint64_t expected_penlty = 0; ASSERT_EQ(penalties.size(), metadata.size()); for (size_t i = 0; i < metadata.size(); i++) { total_files_size += metadata[i].size; expected_penlty = ((total_files_size * 1000000) / rate_bytes_per_sec); ASSERT_EQ(expected_penlty, penalties[i]); } ASSERT_GT(time_spent_deleting, expected_penlty * 0.9); ASSERT_LT(time_spent_deleting, expected_penlty * 1.1); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); } TEST_F(DBSSTTest, OpenDBWithExistingTrash) { Options options = CurrentOptions(); options.sst_file_manager.reset( NewSstFileManager(env_, nullptr, "", 1024 * 1024 /* 1 MB/sec */)); auto sfm = static_cast(options.sst_file_manager.get()); Destroy(last_options_); // Add some trash files to the db directory so the DB can clean them up env_->CreateDirIfMissing(dbname_); ASSERT_OK(WriteStringToFile(env_, "abc", dbname_ + "/" + "001.sst.trash")); ASSERT_OK(WriteStringToFile(env_, "abc", dbname_ + "/" + "002.sst.trash")); ASSERT_OK(WriteStringToFile(env_, "abc", dbname_ + "/" + "003.sst.trash")); // Reopen the DB and verify that it deletes existing trash files ASSERT_OK(TryReopen(options)); sfm->WaitForEmptyTrash(); ASSERT_NOK(env_->FileExists(dbname_ + "/" + "001.sst.trash")); ASSERT_NOK(env_->FileExists(dbname_ + "/" + "002.sst.trash")); ASSERT_NOK(env_->FileExists(dbname_ + "/" + "003.sst.trash")); } // Create a DB with 2 db_paths, and generate multiple files in the 2 // db_paths using CompactRangeOptions, make sure that files that were // deleted from first db_path were deleted using DeleteScheduler and // files in the second path were not. TEST_F(DBSSTTest, DeleteSchedulerMultipleDBPaths) { std::atomic bg_delete_file(0); rocksdb::SyncPoint::GetInstance()->SetCallBack( "DeleteScheduler::DeleteTrashFile:DeleteFile", [&](void* /*arg*/) { bg_delete_file++; }); // The deletion scheduler sometimes skips marking file as trash according to // a heuristic. In that case the deletion will go through the below SyncPoint. rocksdb::SyncPoint::GetInstance()->SetCallBack( "DeleteScheduler::DeleteFile", [&](void* /*arg*/) { bg_delete_file++; }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); Options options = CurrentOptions(); options.disable_auto_compactions = true; options.db_paths.emplace_back(dbname_, 1024 * 100); options.db_paths.emplace_back(dbname_ + "_2", 1024 * 100); options.env = env_; int64_t rate_bytes_per_sec = 1024 * 1024; // 1 Mb / Sec Status s; options.sst_file_manager.reset( NewSstFileManager(env_, nullptr, "", rate_bytes_per_sec, false, &s, /* max_trash_db_ratio= */ 1.1)); ASSERT_OK(s); auto sfm = static_cast(options.sst_file_manager.get()); DestroyAndReopen(options); // Create 4 files in L0 for (int i = 0; i < 4; i++) { ASSERT_OK(Put("Key" + ToString(i), DummyString(1024, 'A'))); ASSERT_OK(Flush()); } // We created 4 sst files in L0 ASSERT_EQ("4", FilesPerLevel(0)); // Compaction will delete files from L0 in first db path and generate a new // file in L1 in second db path CompactRangeOptions compact_options; compact_options.target_path_id = 1; Slice begin("Key0"); Slice end("Key3"); ASSERT_OK(db_->CompactRange(compact_options, &begin, &end)); ASSERT_EQ("0,1", FilesPerLevel(0)); // Create 4 files in L0 for (int i = 4; i < 8; i++) { ASSERT_OK(Put("Key" + ToString(i), DummyString(1024, 'B'))); ASSERT_OK(Flush()); } ASSERT_EQ("4,1", FilesPerLevel(0)); // Compaction will delete files from L0 in first db path and generate a new // file in L1 in second db path begin = "Key4"; end = "Key7"; ASSERT_OK(db_->CompactRange(compact_options, &begin, &end)); ASSERT_EQ("0,2", FilesPerLevel(0)); sfm->WaitForEmptyTrash(); ASSERT_EQ(bg_delete_file, 8); // Compaction will delete both files and regenerate a file in L1 in second // db path. The deleted files should still be cleaned up via delete scheduler. compact_options.bottommost_level_compaction = BottommostLevelCompaction::kForce; ASSERT_OK(db_->CompactRange(compact_options, nullptr, nullptr)); ASSERT_EQ("0,1", FilesPerLevel(0)); sfm->WaitForEmptyTrash(); ASSERT_EQ(bg_delete_file, 10); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); } TEST_F(DBSSTTest, DestroyDBWithRateLimitedDelete) { int bg_delete_file = 0; rocksdb::SyncPoint::GetInstance()->SetCallBack( "DeleteScheduler::DeleteTrashFile:DeleteFile", [&](void* /*arg*/) { bg_delete_file++; }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); Status s; Options options = CurrentOptions(); options.disable_auto_compactions = true; options.env = env_; options.sst_file_manager.reset( NewSstFileManager(env_, nullptr, "", 0, false, &s, 0)); ASSERT_OK(s); DestroyAndReopen(options); // Create 4 files in L0 for (int i = 0; i < 4; i++) { ASSERT_OK(Put("Key" + ToString(i), DummyString(1024, 'A'))); ASSERT_OK(Flush()); } // We created 4 sst files in L0 ASSERT_EQ("4", FilesPerLevel(0)); // Close DB and destroy it using DeleteScheduler Close(); auto sfm = static_cast(options.sst_file_manager.get()); sfm->SetDeleteRateBytesPerSecond(1024 * 1024); sfm->delete_scheduler()->SetMaxTrashDBRatio(1.1); ASSERT_OK(DestroyDB(dbname_, options)); sfm->WaitForEmptyTrash(); // We have deleted the 4 sst files in the delete_scheduler ASSERT_EQ(bg_delete_file, 4); } TEST_F(DBSSTTest, DBWithMaxSpaceAllowed) { std::shared_ptr sst_file_manager(NewSstFileManager(env_)); auto sfm = static_cast(sst_file_manager.get()); Options options = CurrentOptions(); options.sst_file_manager = sst_file_manager; options.disable_auto_compactions = true; DestroyAndReopen(options); Random rnd(301); // Generate a file containing 100 keys. for (int i = 0; i < 100; i++) { ASSERT_OK(Put(Key(i), RandomString(&rnd, 50))); } ASSERT_OK(Flush()); uint64_t first_file_size = 0; auto files_in_db = GetAllSSTFiles(&first_file_size); ASSERT_EQ(sfm->GetTotalSize(), first_file_size); // Set the maximum allowed space usage to the current total size sfm->SetMaxAllowedSpaceUsage(first_file_size + 1); ASSERT_OK(Put("key1", "val1")); // This flush will cause bg_error_ and will fail ASSERT_NOK(Flush()); } TEST_F(DBSSTTest, CancellingCompactionsWorks) { std::shared_ptr sst_file_manager(NewSstFileManager(env_)); auto sfm = static_cast(sst_file_manager.get()); Options options = CurrentOptions(); options.sst_file_manager = sst_file_manager; options.level0_file_num_compaction_trigger = 2; options.statistics = CreateDBStatistics(); DestroyAndReopen(options); int completed_compactions = 0; rocksdb::SyncPoint::GetInstance()->SetCallBack( "DBImpl::BackgroundCompaction():CancelledCompaction", [&](void* /*arg*/) { sfm->SetMaxAllowedSpaceUsage(0); ASSERT_EQ(sfm->GetCompactionsReservedSize(), 0); }); rocksdb::SyncPoint::GetInstance()->SetCallBack( "DBImpl::BackgroundCompaction:NonTrivial:AfterRun", [&](void* /*arg*/) { completed_compactions++; }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); Random rnd(301); // Generate a file containing 10 keys. for (int i = 0; i < 10; i++) { ASSERT_OK(Put(Key(i), RandomString(&rnd, 50))); } ASSERT_OK(Flush()); uint64_t total_file_size = 0; auto files_in_db = GetAllSSTFiles(&total_file_size); // Set the maximum allowed space usage to the current total size sfm->SetMaxAllowedSpaceUsage(2 * total_file_size + 1); // Generate another file to trigger compaction. for (int i = 0; i < 10; i++) { ASSERT_OK(Put(Key(i), RandomString(&rnd, 50))); } ASSERT_OK(Flush()); dbfull()->TEST_WaitForCompact(true); // Because we set a callback in CancelledCompaction, we actually // let the compaction run ASSERT_GT(completed_compactions, 0); ASSERT_EQ(sfm->GetCompactionsReservedSize(), 0); // Make sure the stat is bumped ASSERT_GT(dbfull()->immutable_db_options().statistics.get()->getTickerCount(COMPACTION_CANCELLED), 0); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); } TEST_F(DBSSTTest, CancellingManualCompactionsWorks) { std::shared_ptr sst_file_manager(NewSstFileManager(env_)); auto sfm = static_cast(sst_file_manager.get()); Options options = CurrentOptions(); options.sst_file_manager = sst_file_manager; options.statistics = CreateDBStatistics(); FlushedFileCollector* collector = new FlushedFileCollector(); options.listeners.emplace_back(collector); DestroyAndReopen(options); Random rnd(301); // Generate a file containing 10 keys. for (int i = 0; i < 10; i++) { ASSERT_OK(Put(Key(i), RandomString(&rnd, 50))); } ASSERT_OK(Flush()); uint64_t total_file_size = 0; auto files_in_db = GetAllSSTFiles(&total_file_size); // Set the maximum allowed space usage to the current total size sfm->SetMaxAllowedSpaceUsage(2 * total_file_size + 1); // Generate another file to trigger compaction. for (int i = 0; i < 10; i++) { ASSERT_OK(Put(Key(i), RandomString(&rnd, 50))); } ASSERT_OK(Flush()); // OK, now trigger a manual compaction dbfull()->CompactRange(CompactRangeOptions(), nullptr, nullptr); // Wait for manual compaction to get scheduled and finish dbfull()->TEST_WaitForCompact(true); ASSERT_EQ(sfm->GetCompactionsReservedSize(), 0); // Make sure the stat is bumped ASSERT_EQ(dbfull()->immutable_db_options().statistics.get()->getTickerCount( COMPACTION_CANCELLED), 1); // Now make sure CompactFiles also gets cancelled auto l0_files = collector->GetFlushedFiles(); dbfull()->CompactFiles(rocksdb::CompactionOptions(), l0_files, 0); // Wait for manual compaction to get scheduled and finish dbfull()->TEST_WaitForCompact(true); ASSERT_EQ(dbfull()->immutable_db_options().statistics.get()->getTickerCount( COMPACTION_CANCELLED), 2); ASSERT_EQ(sfm->GetCompactionsReservedSize(), 0); // Now let the flush through and make sure GetCompactionsReservedSize // returns to normal sfm->SetMaxAllowedSpaceUsage(0); int completed_compactions = 0; rocksdb::SyncPoint::GetInstance()->SetCallBack( "CompactFilesImpl:End", [&](void* /*arg*/) { completed_compactions++; }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); dbfull()->CompactFiles(rocksdb::CompactionOptions(), l0_files, 0); dbfull()->TEST_WaitForCompact(true); ASSERT_EQ(sfm->GetCompactionsReservedSize(), 0); ASSERT_GT(completed_compactions, 0); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); } TEST_F(DBSSTTest, DBWithMaxSpaceAllowedRandomized) { // This test will set a maximum allowed space for the DB, then it will // keep filling the DB until the limit is reached and bg_error_ is set. // When bg_error_ is set we will verify that the DB size is greater // than the limit. std::vector max_space_limits_mbs = {1, 10}; std::atomic bg_error_set(false); std::atomic reached_max_space_on_flush(0); std::atomic reached_max_space_on_compaction(0); rocksdb::SyncPoint::GetInstance()->SetCallBack( "DBImpl::FlushMemTableToOutputFile:MaxAllowedSpaceReached", [&](void* arg) { Status* bg_error = static_cast(arg); bg_error_set = true; reached_max_space_on_flush++; // clear error to ensure compaction callback is called *bg_error = Status::OK(); }); rocksdb::SyncPoint::GetInstance()->SetCallBack( "DBImpl::BackgroundCompaction():CancelledCompaction", [&](void* arg) { bool* enough_room = static_cast(arg); *enough_room = true; }); rocksdb::SyncPoint::GetInstance()->SetCallBack( "CompactionJob::FinishCompactionOutputFile:MaxAllowedSpaceReached", [&](void* /*arg*/) { bg_error_set = true; reached_max_space_on_compaction++; }); for (auto limit_mb : max_space_limits_mbs) { bg_error_set = false; rocksdb::SyncPoint::GetInstance()->ClearTrace(); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); std::shared_ptr sst_file_manager(NewSstFileManager(env_)); auto sfm = static_cast(sst_file_manager.get()); Options options = CurrentOptions(); options.sst_file_manager = sst_file_manager; options.write_buffer_size = 1024 * 512; // 512 Kb DestroyAndReopen(options); Random rnd(301); sfm->SetMaxAllowedSpaceUsage(limit_mb * 1024 * 1024); // It is easy to detect if the test is stuck in a loop. No need for // complex termination logic. while (true) { auto s = Put(RandomString(&rnd, 10), RandomString(&rnd, 50)); if (!s.ok()) { break; } } ASSERT_TRUE(bg_error_set); uint64_t total_sst_files_size = 0; GetAllSSTFiles(&total_sst_files_size); ASSERT_GE(total_sst_files_size, limit_mb * 1024 * 1024); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); } ASSERT_GT(reached_max_space_on_flush, 0); ASSERT_GT(reached_max_space_on_compaction, 0); } TEST_F(DBSSTTest, OpenDBWithInfiniteMaxOpenFiles) { // Open DB with infinite max open files // - First iteration use 1 thread to open files // - Second iteration use 5 threads to open files for (int iter = 0; iter < 2; iter++) { Options options; options.create_if_missing = true; options.write_buffer_size = 100000; options.disable_auto_compactions = true; options.max_open_files = -1; if (iter == 0) { options.max_file_opening_threads = 1; } else { options.max_file_opening_threads = 5; } options = CurrentOptions(options); DestroyAndReopen(options); // Create 12 Files in L0 (then move then to L2) for (int i = 0; i < 12; i++) { std::string k = "L2_" + Key(i); ASSERT_OK(Put(k, k + std::string(1000, 'a'))); ASSERT_OK(Flush()); } CompactRangeOptions compact_options; compact_options.change_level = true; compact_options.target_level = 2; db_->CompactRange(compact_options, nullptr, nullptr); // Create 12 Files in L0 for (int i = 0; i < 12; i++) { std::string k = "L0_" + Key(i); ASSERT_OK(Put(k, k + std::string(1000, 'a'))); ASSERT_OK(Flush()); } Close(); // Reopening the DB will load all existing files Reopen(options); ASSERT_EQ("12,0,12", FilesPerLevel(0)); std::vector> files; dbfull()->TEST_GetFilesMetaData(db_->DefaultColumnFamily(), &files); for (const auto& level : files) { for (const auto& file : level) { ASSERT_TRUE(file.table_reader_handle != nullptr); } } for (int i = 0; i < 12; i++) { ASSERT_EQ(Get("L0_" + Key(i)), "L0_" + Key(i) + std::string(1000, 'a')); ASSERT_EQ(Get("L2_" + Key(i)), "L2_" + Key(i) + std::string(1000, 'a')); } } } TEST_F(DBSSTTest, GetTotalSstFilesSize) { // We don't propagate oldest-key-time table property on compaction and // just write 0 as default value. This affect the exact table size, since // we encode table properties as varint64. Force time to be 0 to work around // it. Should remove the workaround after we propagate the property on // compaction. std::unique_ptr mock_env(new MockTimeEnv(Env::Default())); mock_env->set_current_time(0); Options options = CurrentOptions(); options.disable_auto_compactions = true; options.compression = kNoCompression; options.env = mock_env.get(); DestroyAndReopen(options); // Generate 5 files in L0 for (int i = 0; i < 5; i++) { for (int j = 0; j < 10; j++) { std::string val = "val_file_" + ToString(i); ASSERT_OK(Put(Key(j), val)); } Flush(); } ASSERT_EQ("5", FilesPerLevel(0)); std::vector live_files_meta; dbfull()->GetLiveFilesMetaData(&live_files_meta); ASSERT_EQ(live_files_meta.size(), 5); uint64_t single_file_size = live_files_meta[0].size; uint64_t live_sst_files_size = 0; uint64_t total_sst_files_size = 0; for (const auto& file_meta : live_files_meta) { live_sst_files_size += file_meta.size; } ASSERT_TRUE(dbfull()->GetIntProperty("rocksdb.total-sst-files-size", &total_sst_files_size)); // Live SST files = 5 // Total SST files = 5 ASSERT_EQ(live_sst_files_size, 5 * single_file_size); ASSERT_EQ(total_sst_files_size, 5 * single_file_size); // hold current version std::unique_ptr iter1(dbfull()->NewIterator(ReadOptions())); // Compact 5 files into 1 file in L0 ASSERT_OK(dbfull()->CompactRange(CompactRangeOptions(), nullptr, nullptr)); ASSERT_EQ("0,1", FilesPerLevel(0)); live_files_meta.clear(); dbfull()->GetLiveFilesMetaData(&live_files_meta); ASSERT_EQ(live_files_meta.size(), 1); live_sst_files_size = 0; total_sst_files_size = 0; for (const auto& file_meta : live_files_meta) { live_sst_files_size += file_meta.size; } ASSERT_TRUE(dbfull()->GetIntProperty("rocksdb.total-sst-files-size", &total_sst_files_size)); // Live SST files = 1 (compacted file) // Total SST files = 6 (5 original files + compacted file) ASSERT_EQ(live_sst_files_size, 1 * single_file_size); ASSERT_EQ(total_sst_files_size, 6 * single_file_size); // hold current version std::unique_ptr iter2(dbfull()->NewIterator(ReadOptions())); // Delete all keys and compact, this will delete all live files for (int i = 0; i < 10; i++) { ASSERT_OK(Delete(Key(i))); } Flush(); ASSERT_OK(dbfull()->CompactRange(CompactRangeOptions(), nullptr, nullptr)); ASSERT_EQ("", FilesPerLevel(0)); live_files_meta.clear(); dbfull()->GetLiveFilesMetaData(&live_files_meta); ASSERT_EQ(live_files_meta.size(), 0); ASSERT_TRUE(dbfull()->GetIntProperty("rocksdb.total-sst-files-size", &total_sst_files_size)); // Live SST files = 0 // Total SST files = 6 (5 original files + compacted file) ASSERT_EQ(total_sst_files_size, 6 * single_file_size); iter1.reset(); ASSERT_TRUE(dbfull()->GetIntProperty("rocksdb.total-sst-files-size", &total_sst_files_size)); // Live SST files = 0 // Total SST files = 1 (compacted file) ASSERT_EQ(total_sst_files_size, 1 * single_file_size); iter2.reset(); ASSERT_TRUE(dbfull()->GetIntProperty("rocksdb.total-sst-files-size", &total_sst_files_size)); // Live SST files = 0 // Total SST files = 0 ASSERT_EQ(total_sst_files_size, 0); // Close db before mock_env destruct. Close(); } TEST_F(DBSSTTest, GetTotalSstFilesSizeVersionsFilesShared) { Options options = CurrentOptions(); options.disable_auto_compactions = true; options.compression = kNoCompression; DestroyAndReopen(options); // Generate 5 files in L0 for (int i = 0; i < 5; i++) { ASSERT_OK(Put(Key(i), "val")); Flush(); } ASSERT_EQ("5", FilesPerLevel(0)); std::vector live_files_meta; dbfull()->GetLiveFilesMetaData(&live_files_meta); ASSERT_EQ(live_files_meta.size(), 5); uint64_t single_file_size = live_files_meta[0].size; uint64_t live_sst_files_size = 0; uint64_t total_sst_files_size = 0; for (const auto& file_meta : live_files_meta) { live_sst_files_size += file_meta.size; } ASSERT_TRUE(dbfull()->GetIntProperty("rocksdb.total-sst-files-size", &total_sst_files_size)); // Live SST files = 5 // Total SST files = 5 ASSERT_EQ(live_sst_files_size, 5 * single_file_size); ASSERT_EQ(total_sst_files_size, 5 * single_file_size); // hold current version std::unique_ptr iter1(dbfull()->NewIterator(ReadOptions())); // Compaction will do trivial move from L0 to L1 ASSERT_OK(dbfull()->CompactRange(CompactRangeOptions(), nullptr, nullptr)); ASSERT_EQ("0,5", FilesPerLevel(0)); live_files_meta.clear(); dbfull()->GetLiveFilesMetaData(&live_files_meta); ASSERT_EQ(live_files_meta.size(), 5); live_sst_files_size = 0; total_sst_files_size = 0; for (const auto& file_meta : live_files_meta) { live_sst_files_size += file_meta.size; } ASSERT_TRUE(dbfull()->GetIntProperty("rocksdb.total-sst-files-size", &total_sst_files_size)); // Live SST files = 5 // Total SST files = 5 (used in 2 version) ASSERT_EQ(live_sst_files_size, 5 * single_file_size); ASSERT_EQ(total_sst_files_size, 5 * single_file_size); // hold current version std::unique_ptr iter2(dbfull()->NewIterator(ReadOptions())); // Delete all keys and compact, this will delete all live files for (int i = 0; i < 5; i++) { ASSERT_OK(Delete(Key(i))); } Flush(); ASSERT_OK(dbfull()->CompactRange(CompactRangeOptions(), nullptr, nullptr)); ASSERT_EQ("", FilesPerLevel(0)); live_files_meta.clear(); dbfull()->GetLiveFilesMetaData(&live_files_meta); ASSERT_EQ(live_files_meta.size(), 0); ASSERT_TRUE(dbfull()->GetIntProperty("rocksdb.total-sst-files-size", &total_sst_files_size)); // Live SST files = 0 // Total SST files = 5 (used in 2 version) ASSERT_EQ(total_sst_files_size, 5 * single_file_size); iter1.reset(); iter2.reset(); ASSERT_TRUE(dbfull()->GetIntProperty("rocksdb.total-sst-files-size", &total_sst_files_size)); // Live SST files = 0 // Total SST files = 0 ASSERT_EQ(total_sst_files_size, 0); } #endif // ROCKSDB_LITE } // namespace rocksdb int main(int argc, char** argv) { rocksdb::port::InstallStackTraceHandler(); ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/db/db_statistics_test.cc000066400000000000000000000122271337235545400200460ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include #include "db/db_test_util.h" #include "monitoring/thread_status_util.h" #include "port/stack_trace.h" #include "rocksdb/statistics.h" namespace rocksdb { class DBStatisticsTest : public DBTestBase { public: DBStatisticsTest() : DBTestBase("/db_statistics_test") {} }; TEST_F(DBStatisticsTest, CompressionStatsTest) { CompressionType type; if (Snappy_Supported()) { type = kSnappyCompression; fprintf(stderr, "using snappy\n"); } else if (Zlib_Supported()) { type = kZlibCompression; fprintf(stderr, "using zlib\n"); } else if (BZip2_Supported()) { type = kBZip2Compression; fprintf(stderr, "using bzip2\n"); } else if (LZ4_Supported()) { type = kLZ4Compression; fprintf(stderr, "using lz4\n"); } else if (XPRESS_Supported()) { type = kXpressCompression; fprintf(stderr, "using xpress\n"); } else if (ZSTD_Supported()) { type = kZSTD; fprintf(stderr, "using ZSTD\n"); } else { fprintf(stderr, "skipping test, compression disabled\n"); return; } Options options = CurrentOptions(); options.compression = type; options.statistics = rocksdb::CreateDBStatistics(); options.statistics->stats_level_ = StatsLevel::kExceptTimeForMutex; DestroyAndReopen(options); int kNumKeysWritten = 100000; // Check that compressions occur and are counted when compression is turned on Random rnd(301); for (int i = 0; i < kNumKeysWritten; ++i) { // compressible string ASSERT_OK(Put(Key(i), RandomString(&rnd, 128) + std::string(128, 'a'))); } ASSERT_OK(Flush()); ASSERT_GT(options.statistics->getTickerCount(NUMBER_BLOCK_COMPRESSED), 0); for (int i = 0; i < kNumKeysWritten; ++i) { auto r = Get(Key(i)); } ASSERT_GT(options.statistics->getTickerCount(NUMBER_BLOCK_DECOMPRESSED), 0); options.compression = kNoCompression; DestroyAndReopen(options); uint64_t currentCompressions = options.statistics->getTickerCount(NUMBER_BLOCK_COMPRESSED); uint64_t currentDecompressions = options.statistics->getTickerCount(NUMBER_BLOCK_DECOMPRESSED); // Check that compressions do not occur when turned off for (int i = 0; i < kNumKeysWritten; ++i) { // compressible string ASSERT_OK(Put(Key(i), RandomString(&rnd, 128) + std::string(128, 'a'))); } ASSERT_OK(Flush()); ASSERT_EQ(options.statistics->getTickerCount(NUMBER_BLOCK_COMPRESSED) - currentCompressions, 0); for (int i = 0; i < kNumKeysWritten; ++i) { auto r = Get(Key(i)); } ASSERT_EQ(options.statistics->getTickerCount(NUMBER_BLOCK_DECOMPRESSED) - currentDecompressions, 0); } TEST_F(DBStatisticsTest, MutexWaitStatsDisabledByDefault) { Options options = CurrentOptions(); options.create_if_missing = true; options.statistics = rocksdb::CreateDBStatistics(); CreateAndReopenWithCF({"pikachu"}, options); const uint64_t kMutexWaitDelay = 100; ThreadStatusUtil::TEST_SetStateDelay(ThreadStatus::STATE_MUTEX_WAIT, kMutexWaitDelay); ASSERT_OK(Put("hello", "rocksdb")); ASSERT_EQ(TestGetTickerCount(options, DB_MUTEX_WAIT_MICROS), 0); ThreadStatusUtil::TEST_SetStateDelay(ThreadStatus::STATE_MUTEX_WAIT, 0); } TEST_F(DBStatisticsTest, MutexWaitStats) { Options options = CurrentOptions(); options.create_if_missing = true; options.statistics = rocksdb::CreateDBStatistics(); options.statistics->stats_level_ = StatsLevel::kAll; CreateAndReopenWithCF({"pikachu"}, options); const uint64_t kMutexWaitDelay = 100; ThreadStatusUtil::TEST_SetStateDelay(ThreadStatus::STATE_MUTEX_WAIT, kMutexWaitDelay); ASSERT_OK(Put("hello", "rocksdb")); ASSERT_GE(TestGetTickerCount(options, DB_MUTEX_WAIT_MICROS), kMutexWaitDelay); ThreadStatusUtil::TEST_SetStateDelay(ThreadStatus::STATE_MUTEX_WAIT, 0); } TEST_F(DBStatisticsTest, ResetStats) { Options options = CurrentOptions(); options.create_if_missing = true; options.statistics = rocksdb::CreateDBStatistics(); DestroyAndReopen(options); for (int i = 0; i < 2; ++i) { // pick arbitrary ticker and histogram. On first iteration they're zero // because db is unused. On second iteration they're zero due to Reset(). ASSERT_EQ(0, TestGetTickerCount(options, NUMBER_KEYS_WRITTEN)); HistogramData histogram_data; options.statistics->histogramData(DB_WRITE, &histogram_data); ASSERT_EQ(0.0, histogram_data.max); if (i == 0) { // The Put() makes some of the ticker/histogram stats nonzero until we // Reset(). ASSERT_OK(Put("hello", "rocksdb")); ASSERT_EQ(1, TestGetTickerCount(options, NUMBER_KEYS_WRITTEN)); options.statistics->histogramData(DB_WRITE, &histogram_data); ASSERT_GT(histogram_data.max, 0.0); options.statistics->Reset(); } } } } // namespace rocksdb int main(int argc, char** argv) { rocksdb::port::InstallStackTraceHandler(); ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/db/db_table_properties_test.cc000066400000000000000000000242351337235545400212210ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include #include #include "db/db_test_util.h" #include "port/stack_trace.h" #include "rocksdb/db.h" #include "rocksdb/utilities/table_properties_collectors.h" #include "util/testharness.h" #include "util/testutil.h" #ifndef ROCKSDB_LITE namespace rocksdb { // A helper function that ensures the table properties returned in // `GetPropertiesOfAllTablesTest` is correct. // This test assumes entries size is different for each of the tables. namespace { void VerifyTableProperties(DB* db, uint64_t expected_entries_size) { TablePropertiesCollection props; ASSERT_OK(db->GetPropertiesOfAllTables(&props)); ASSERT_EQ(4U, props.size()); std::unordered_set unique_entries; // Indirect test uint64_t sum = 0; for (const auto& item : props) { unique_entries.insert(item.second->num_entries); sum += item.second->num_entries; } ASSERT_EQ(props.size(), unique_entries.size()); ASSERT_EQ(expected_entries_size, sum); } } // namespace class DBTablePropertiesTest : public DBTestBase { public: DBTablePropertiesTest() : DBTestBase("/db_table_properties_test") {} TablePropertiesCollection TestGetPropertiesOfTablesInRange( std::vector ranges, std::size_t* num_properties = nullptr, std::size_t* num_files = nullptr); }; TEST_F(DBTablePropertiesTest, GetPropertiesOfAllTablesTest) { Options options = CurrentOptions(); options.level0_file_num_compaction_trigger = 8; Reopen(options); // Create 4 tables for (int table = 0; table < 4; ++table) { for (int i = 0; i < 10 + table; ++i) { db_->Put(WriteOptions(), ToString(table * 100 + i), "val"); } db_->Flush(FlushOptions()); } // 1. Read table properties directly from file Reopen(options); VerifyTableProperties(db_, 10 + 11 + 12 + 13); // 2. Put two tables to table cache and Reopen(options); // fetch key from 1st and 2nd table, which will internally place that table to // the table cache. for (int i = 0; i < 2; ++i) { Get(ToString(i * 100 + 0)); } VerifyTableProperties(db_, 10 + 11 + 12 + 13); // 3. Put all tables to table cache Reopen(options); // fetch key from 1st and 2nd table, which will internally place that table to // the table cache. for (int i = 0; i < 4; ++i) { Get(ToString(i * 100 + 0)); } VerifyTableProperties(db_, 10 + 11 + 12 + 13); } TablePropertiesCollection DBTablePropertiesTest::TestGetPropertiesOfTablesInRange( std::vector ranges, std::size_t* num_properties, std::size_t* num_files) { // Since we deref zero element in the vector it can not be empty // otherwise we pass an address to some random memory EXPECT_GT(ranges.size(), 0U); // run the query TablePropertiesCollection props; EXPECT_OK(db_->GetPropertiesOfTablesInRange( db_->DefaultColumnFamily(), &ranges[0], ranges.size(), &props)); // Make sure that we've received properties for those and for those files // only which fall within requested ranges std::vector vmd; db_->GetLiveFilesMetaData(&vmd); for (auto& md : vmd) { std::string fn = md.db_path + md.name; bool in_range = false; for (auto& r : ranges) { // smallestkey < limit && largestkey >= start if (r.limit.compare(md.smallestkey) >= 0 && r.start.compare(md.largestkey) <= 0) { in_range = true; EXPECT_GT(props.count(fn), 0); } } if (!in_range) { EXPECT_EQ(props.count(fn), 0); } } if (num_properties) { *num_properties = props.size(); } if (num_files) { *num_files = vmd.size(); } return props; } TEST_F(DBTablePropertiesTest, GetPropertiesOfTablesInRange) { // Fixed random sead Random rnd(301); Options options; options.create_if_missing = true; options.write_buffer_size = 4096; options.max_write_buffer_number = 3; options.level0_file_num_compaction_trigger = 2; options.level0_slowdown_writes_trigger = 2; options.level0_stop_writes_trigger = 4; options.target_file_size_base = 2048; options.max_bytes_for_level_base = 10240; options.max_bytes_for_level_multiplier = 4; options.hard_pending_compaction_bytes_limit = 16 * 1024; options.num_levels = 8; options.env = env_; DestroyAndReopen(options); // build a decent LSM for (int i = 0; i < 10000; i++) { ASSERT_OK(Put(test::RandomKey(&rnd, 5), RandomString(&rnd, 102))); } Flush(); dbfull()->TEST_WaitForCompact(); if (NumTableFilesAtLevel(0) == 0) { ASSERT_OK(Put(test::RandomKey(&rnd, 5), RandomString(&rnd, 102))); Flush(); } db_->PauseBackgroundWork(); // Ensure that we have at least L0, L1 and L2 ASSERT_GT(NumTableFilesAtLevel(0), 0); ASSERT_GT(NumTableFilesAtLevel(1), 0); ASSERT_GT(NumTableFilesAtLevel(2), 0); // Query the largest range std::size_t num_properties, num_files; TestGetPropertiesOfTablesInRange( {Range(test::RandomKey(&rnd, 5, test::RandomKeyType::SMALLEST), test::RandomKey(&rnd, 5, test::RandomKeyType::LARGEST))}, &num_properties, &num_files); ASSERT_EQ(num_properties, num_files); // Query the empty range TestGetPropertiesOfTablesInRange( {Range(test::RandomKey(&rnd, 5, test::RandomKeyType::LARGEST), test::RandomKey(&rnd, 5, test::RandomKeyType::SMALLEST))}, &num_properties, &num_files); ASSERT_GT(num_files, 0); ASSERT_EQ(num_properties, 0); // Query the middle rangee TestGetPropertiesOfTablesInRange( {Range(test::RandomKey(&rnd, 5, test::RandomKeyType::MIDDLE), test::RandomKey(&rnd, 5, test::RandomKeyType::LARGEST))}, &num_properties, &num_files); ASSERT_GT(num_files, 0); ASSERT_GT(num_files, num_properties); ASSERT_GT(num_properties, 0); // Query a bunch of random ranges for (int j = 0; j < 100; j++) { // create a bunch of ranges std::vector random_keys; // Random returns numbers with zero included // when we pass empty ranges TestGetPropertiesOfTablesInRange() // derefs random memory in the empty ranges[0] // so want to be greater than zero and even since // the below loop requires that random_keys.size() to be even. auto n = 2 * (rnd.Uniform(50) + 1); for (uint32_t i = 0; i < n; ++i) { random_keys.push_back(test::RandomKey(&rnd, 5)); } ASSERT_GT(random_keys.size(), 0U); ASSERT_EQ((random_keys.size() % 2), 0U); std::vector ranges; auto it = random_keys.begin(); while (it != random_keys.end()) { ranges.push_back(Range(*it, *(it + 1))); it += 2; } TestGetPropertiesOfTablesInRange(std::move(ranges)); } } TEST_F(DBTablePropertiesTest, GetColumnFamilyNameProperty) { std::string kExtraCfName = "pikachu"; CreateAndReopenWithCF({kExtraCfName}, CurrentOptions()); // Create one table per CF, then verify it was created with the column family // name property. for (int cf = 0; cf < 2; ++cf) { Put(cf, "key", "val"); Flush(cf); TablePropertiesCollection fname_to_props; ASSERT_OK(db_->GetPropertiesOfAllTables(handles_[cf], &fname_to_props)); ASSERT_EQ(1U, fname_to_props.size()); std::string expected_cf_name; if (cf > 0) { expected_cf_name = kExtraCfName; } else { expected_cf_name = kDefaultColumnFamilyName; } ASSERT_EQ(expected_cf_name, fname_to_props.begin()->second->column_family_name); ASSERT_EQ(cf, static_cast( fname_to_props.begin()->second->column_family_id)); } } TEST_F(DBTablePropertiesTest, DeletionTriggeredCompactionMarking) { int kNumKeys = 1000; int kWindowSize = 100; int kNumDelsTrigger = 90; std::shared_ptr compact_on_del = NewCompactOnDeletionCollectorFactory(kWindowSize, kNumDelsTrigger); Options opts = CurrentOptions(); opts.table_properties_collector_factories.emplace_back(compact_on_del); Reopen(opts); // add an L1 file to prevent tombstones from dropping due to obsolescence // during flush Put(Key(0), "val"); Flush(); MoveFilesToLevel(1); for (int i = 0; i < kNumKeys; ++i) { if (i >= kNumKeys - kWindowSize && i < kNumKeys - kWindowSize + kNumDelsTrigger) { Delete(Key(i)); } else { Put(Key(i), "val"); } } Flush(); dbfull()->TEST_WaitForCompact(); ASSERT_EQ(0, NumTableFilesAtLevel(0)); ASSERT_GT(NumTableFilesAtLevel(1), 0); // Change the window size and deletion trigger and ensure new values take // effect kWindowSize = 50; kNumDelsTrigger = 40; static_cast (compact_on_del.get())->SetWindowSize(kWindowSize); static_cast (compact_on_del.get())->SetDeletionTrigger(kNumDelsTrigger); for (int i = 0; i < kNumKeys; ++i) { if (i >= kNumKeys - kWindowSize && i < kNumKeys - kWindowSize + kNumDelsTrigger) { Delete(Key(i)); } else { Put(Key(i), "val"); } } Flush(); dbfull()->TEST_WaitForCompact(); ASSERT_EQ(0, NumTableFilesAtLevel(0)); ASSERT_GT(NumTableFilesAtLevel(1), 0); // Change the window size to disable delete triggered compaction kWindowSize = 0; static_cast (compact_on_del.get())->SetWindowSize(kWindowSize); static_cast (compact_on_del.get())->SetDeletionTrigger(kNumDelsTrigger); for (int i = 0; i < kNumKeys; ++i) { if (i >= kNumKeys - kWindowSize && i < kNumKeys - kWindowSize + kNumDelsTrigger) { Delete(Key(i)); } else { Put(Key(i), "val"); } } Flush(); dbfull()->TEST_WaitForCompact(); ASSERT_EQ(1, NumTableFilesAtLevel(0)); } } // namespace rocksdb #endif // ROCKSDB_LITE int main(int argc, char** argv) { rocksdb::port::InstallStackTraceHandler(); ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/db/db_tailing_iter_test.cc000066400000000000000000000405561337235545400203340ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. // Introduction of SyncPoint effectively disabled building and running this test // in Release build. // which is a pity, it is a good test #if !defined(ROCKSDB_LITE) #include "db/db_test_util.h" #include "db/forward_iterator.h" #include "port/stack_trace.h" namespace rocksdb { class DBTestTailingIterator : public DBTestBase { public: DBTestTailingIterator() : DBTestBase("/db_tailing_iterator_test") {} }; TEST_F(DBTestTailingIterator, TailingIteratorSingle) { ReadOptions read_options; read_options.tailing = true; std::unique_ptr iter(db_->NewIterator(read_options)); iter->SeekToFirst(); ASSERT_TRUE(!iter->Valid()); // add a record and check that iter can see it ASSERT_OK(db_->Put(WriteOptions(), "mirko", "fodor")); iter->SeekToFirst(); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(iter->key().ToString(), "mirko"); iter->Next(); ASSERT_TRUE(!iter->Valid()); } TEST_F(DBTestTailingIterator, TailingIteratorKeepAdding) { CreateAndReopenWithCF({"pikachu"}, CurrentOptions()); ReadOptions read_options; read_options.tailing = true; std::unique_ptr iter(db_->NewIterator(read_options, handles_[1])); std::string value(1024, 'a'); const int num_records = 10000; for (int i = 0; i < num_records; ++i) { char buf[32]; snprintf(buf, sizeof(buf), "%016d", i); Slice key(buf, 16); ASSERT_OK(Put(1, key, value)); iter->Seek(key); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(iter->key().compare(key), 0); } } TEST_F(DBTestTailingIterator, TailingIteratorSeekToNext) { CreateAndReopenWithCF({"pikachu"}, CurrentOptions()); ReadOptions read_options; read_options.tailing = true; std::unique_ptr iter(db_->NewIterator(read_options, handles_[1])); std::unique_ptr itern(db_->NewIterator(read_options, handles_[1])); std::string value(1024, 'a'); const int num_records = 1000; for (int i = 1; i < num_records; ++i) { char buf1[32]; char buf2[32]; snprintf(buf1, sizeof(buf1), "00a0%016d", i * 5); Slice key(buf1, 20); ASSERT_OK(Put(1, key, value)); if (i % 100 == 99) { ASSERT_OK(Flush(1)); } snprintf(buf2, sizeof(buf2), "00a0%016d", i * 5 - 2); Slice target(buf2, 20); iter->Seek(target); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(iter->key().compare(key), 0); if (i == 1) { itern->SeekToFirst(); } else { itern->Next(); } ASSERT_TRUE(itern->Valid()); ASSERT_EQ(itern->key().compare(key), 0); } rocksdb::SyncPoint::GetInstance()->ClearAllCallBacks(); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); for (int i = 2 * num_records; i > 0; --i) { char buf1[32]; char buf2[32]; snprintf(buf1, sizeof(buf1), "00a0%016d", i * 5); Slice key(buf1, 20); ASSERT_OK(Put(1, key, value)); if (i % 100 == 99) { ASSERT_OK(Flush(1)); } snprintf(buf2, sizeof(buf2), "00a0%016d", i * 5 - 2); Slice target(buf2, 20); iter->Seek(target); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(iter->key().compare(key), 0); } } TEST_F(DBTestTailingIterator, TailingIteratorTrimSeekToNext) { const uint64_t k150KB = 150 * 1024; Options options; options.write_buffer_size = k150KB; options.max_write_buffer_number = 3; options.min_write_buffer_number_to_merge = 2; options.env = env_; CreateAndReopenWithCF({"pikachu"}, options); ReadOptions read_options; read_options.tailing = true; int num_iters, deleted_iters; char bufe[32]; snprintf(bufe, sizeof(bufe), "00b0%016d", 0); Slice keyu(bufe, 20); read_options.iterate_upper_bound = &keyu; std::unique_ptr iter(db_->NewIterator(read_options, handles_[1])); std::unique_ptr itern(db_->NewIterator(read_options, handles_[1])); std::unique_ptr iterh(db_->NewIterator(read_options, handles_[1])); std::string value(1024, 'a'); bool file_iters_deleted = false; bool file_iters_renewed_null = false; bool file_iters_renewed_copy = false; rocksdb::SyncPoint::GetInstance()->SetCallBack( "ForwardIterator::SeekInternal:Return", [&](void* arg) { ForwardIterator* fiter = reinterpret_cast(arg); ASSERT_TRUE(!file_iters_deleted || fiter->TEST_CheckDeletedIters(&deleted_iters, &num_iters)); }); rocksdb::SyncPoint::GetInstance()->SetCallBack( "ForwardIterator::Next:Return", [&](void* arg) { ForwardIterator* fiter = reinterpret_cast(arg); ASSERT_TRUE(!file_iters_deleted || fiter->TEST_CheckDeletedIters(&deleted_iters, &num_iters)); }); rocksdb::SyncPoint::GetInstance()->SetCallBack( "ForwardIterator::RenewIterators:Null", [&](void* /*arg*/) { file_iters_renewed_null = true; }); rocksdb::SyncPoint::GetInstance()->SetCallBack( "ForwardIterator::RenewIterators:Copy", [&](void* /*arg*/) { file_iters_renewed_copy = true; }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); const int num_records = 1000; for (int i = 1; i < num_records; ++i) { char buf1[32]; char buf2[32]; char buf3[32]; char buf4[32]; snprintf(buf1, sizeof(buf1), "00a0%016d", i * 5); snprintf(buf3, sizeof(buf3), "00b0%016d", i * 5); Slice key(buf1, 20); ASSERT_OK(Put(1, key, value)); Slice keyn(buf3, 20); ASSERT_OK(Put(1, keyn, value)); if (i % 100 == 99) { ASSERT_OK(Flush(1)); dbfull()->TEST_WaitForCompact(); if (i == 299) { file_iters_deleted = true; } snprintf(buf4, sizeof(buf4), "00a0%016d", i * 5 / 2); Slice target(buf4, 20); iterh->Seek(target); ASSERT_TRUE(iter->Valid()); for (int j = (i + 1) * 5 / 2; j < i * 5; j += 5) { iterh->Next(); ASSERT_TRUE(iterh->Valid()); } if (i == 299) { file_iters_deleted = false; } } file_iters_deleted = true; snprintf(buf2, sizeof(buf2), "00a0%016d", i * 5 - 2); Slice target(buf2, 20); iter->Seek(target); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(iter->key().compare(key), 0); ASSERT_LE(num_iters, 1); if (i == 1) { itern->SeekToFirst(); } else { itern->Next(); } ASSERT_TRUE(itern->Valid()); ASSERT_EQ(itern->key().compare(key), 0); ASSERT_LE(num_iters, 1); file_iters_deleted = false; } ASSERT_TRUE(file_iters_renewed_null); ASSERT_TRUE(file_iters_renewed_copy); iter = nullptr; itern = nullptr; iterh = nullptr; BlockBasedTableOptions table_options; table_options.no_block_cache = true; table_options.block_cache_compressed = nullptr; options.table_factory.reset(NewBlockBasedTableFactory(table_options)); ReopenWithColumnFamilies({"default", "pikachu"}, options); read_options.read_tier = kBlockCacheTier; std::unique_ptr iteri(db_->NewIterator(read_options, handles_[1])); char buf5[32]; snprintf(buf5, sizeof(buf5), "00a0%016d", (num_records / 2) * 5 - 2); Slice target1(buf5, 20); iteri->Seek(target1); ASSERT_TRUE(iteri->status().IsIncomplete()); iteri = nullptr; read_options.read_tier = kReadAllTier; options.table_factory.reset(NewBlockBasedTableFactory()); ReopenWithColumnFamilies({"default", "pikachu"}, options); iter.reset(db_->NewIterator(read_options, handles_[1])); for (int i = 2 * num_records; i > 0; --i) { char buf1[32]; char buf2[32]; snprintf(buf1, sizeof(buf1), "00a0%016d", i * 5); Slice key(buf1, 20); ASSERT_OK(Put(1, key, value)); if (i % 100 == 99) { ASSERT_OK(Flush(1)); } snprintf(buf2, sizeof(buf2), "00a0%016d", i * 5 - 2); Slice target(buf2, 20); iter->Seek(target); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(iter->key().compare(key), 0); } } TEST_F(DBTestTailingIterator, TailingIteratorDeletes) { CreateAndReopenWithCF({"pikachu"}, CurrentOptions()); ReadOptions read_options; read_options.tailing = true; std::unique_ptr iter(db_->NewIterator(read_options, handles_[1])); // write a single record, read it using the iterator, then delete it ASSERT_OK(Put(1, "0test", "test")); iter->SeekToFirst(); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(iter->key().ToString(), "0test"); ASSERT_OK(Delete(1, "0test")); // write many more records const int num_records = 10000; std::string value(1024, 'A'); for (int i = 0; i < num_records; ++i) { char buf[32]; snprintf(buf, sizeof(buf), "1%015d", i); Slice key(buf, 16); ASSERT_OK(Put(1, key, value)); } // force a flush to make sure that no records are read from memtable ASSERT_OK(Flush(1)); // skip "0test" iter->Next(); // make sure we can read all new records using the existing iterator int count = 0; for (; iter->Valid(); iter->Next(), ++count) ; ASSERT_EQ(count, num_records); } TEST_F(DBTestTailingIterator, TailingIteratorPrefixSeek) { ReadOptions read_options; read_options.tailing = true; Options options = CurrentOptions(); options.create_if_missing = true; options.disable_auto_compactions = true; options.prefix_extractor.reset(NewFixedPrefixTransform(2)); options.memtable_factory.reset(NewHashSkipListRepFactory(16)); options.allow_concurrent_memtable_write = false; DestroyAndReopen(options); CreateAndReopenWithCF({"pikachu"}, options); std::unique_ptr iter(db_->NewIterator(read_options, handles_[1])); ASSERT_OK(Put(1, "0101", "test")); ASSERT_OK(Flush(1)); ASSERT_OK(Put(1, "0202", "test")); // Seek(0102) shouldn't find any records since 0202 has a different prefix iter->Seek("0102"); ASSERT_TRUE(!iter->Valid()); iter->Seek("0202"); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(iter->key().ToString(), "0202"); iter->Next(); ASSERT_TRUE(!iter->Valid()); } TEST_F(DBTestTailingIterator, TailingIteratorIncomplete) { CreateAndReopenWithCF({"pikachu"}, CurrentOptions()); ReadOptions read_options; read_options.tailing = true; read_options.read_tier = kBlockCacheTier; std::string key("key"); std::string value("value"); ASSERT_OK(db_->Put(WriteOptions(), key, value)); std::unique_ptr iter(db_->NewIterator(read_options)); iter->SeekToFirst(); // we either see the entry or it's not in cache ASSERT_TRUE(iter->Valid() || iter->status().IsIncomplete()); ASSERT_OK(db_->CompactRange(CompactRangeOptions(), nullptr, nullptr)); iter->SeekToFirst(); // should still be true after compaction ASSERT_TRUE(iter->Valid() || iter->status().IsIncomplete()); } TEST_F(DBTestTailingIterator, TailingIteratorSeekToSame) { Options options = CurrentOptions(); options.compaction_style = kCompactionStyleUniversal; options.write_buffer_size = 1000; CreateAndReopenWithCF({"pikachu"}, options); ReadOptions read_options; read_options.tailing = true; const int NROWS = 10000; // Write rows with keys 00000, 00002, 00004 etc. for (int i = 0; i < NROWS; ++i) { char buf[100]; snprintf(buf, sizeof(buf), "%05d", 2*i); std::string key(buf); std::string value("value"); ASSERT_OK(db_->Put(WriteOptions(), key, value)); } std::unique_ptr iter(db_->NewIterator(read_options)); // Seek to 00001. We expect to find 00002. std::string start_key = "00001"; iter->Seek(start_key); ASSERT_TRUE(iter->Valid()); std::string found = iter->key().ToString(); ASSERT_EQ("00002", found); // Now seek to the same key. The iterator should remain in the same // position. iter->Seek(found); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(found, iter->key().ToString()); } // Sets iterate_upper_bound and verifies that ForwardIterator doesn't call // Seek() on immutable iterators when target key is >= prev_key and all // iterators, including the memtable iterator, are over the upper bound. TEST_F(DBTestTailingIterator, TailingIteratorUpperBound) { CreateAndReopenWithCF({"pikachu"}, CurrentOptions()); const Slice upper_bound("20", 3); ReadOptions read_options; read_options.tailing = true; read_options.iterate_upper_bound = &upper_bound; ASSERT_OK(Put(1, "11", "11")); ASSERT_OK(Put(1, "12", "12")); ASSERT_OK(Put(1, "22", "22")); ASSERT_OK(Flush(1)); // flush all those keys to an immutable SST file // Add another key to the memtable. ASSERT_OK(Put(1, "21", "21")); std::unique_ptr it(db_->NewIterator(read_options, handles_[1])); it->Seek("12"); ASSERT_TRUE(it->Valid()); ASSERT_EQ("12", it->key().ToString()); it->Next(); // Not valid since "21" is over the upper bound. ASSERT_FALSE(it->Valid()); // This keeps track of the number of times NeedToSeekImmutable() was true. int immutable_seeks = 0; rocksdb::SyncPoint::GetInstance()->SetCallBack( "ForwardIterator::SeekInternal:Immutable", [&](void* /*arg*/) { ++immutable_seeks; }); // Seek to 13. This should not require any immutable seeks. rocksdb::SyncPoint::GetInstance()->EnableProcessing(); it->Seek("13"); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); ASSERT_FALSE(it->Valid()); ASSERT_EQ(0, immutable_seeks); } TEST_F(DBTestTailingIterator, TailingIteratorGap) { // level 1: [20, 25] [35, 40] // level 2: [10 - 15] [45 - 50] // level 3: [20, 30, 40] // Previously there is a bug in tailing_iterator that if there is a gap in // lower level, the key will be skipped if it is within the range between // the largest key of index n file and the smallest key of index n+1 file // if both file fit in that gap. In this example, 25 < key < 35 // https://github.com/facebook/rocksdb/issues/1372 CreateAndReopenWithCF({"pikachu"}, CurrentOptions()); ReadOptions read_options; read_options.tailing = true; ASSERT_OK(Put(1, "20", "20")); ASSERT_OK(Put(1, "30", "30")); ASSERT_OK(Put(1, "40", "40")); ASSERT_OK(Flush(1)); MoveFilesToLevel(3, 1); ASSERT_OK(Put(1, "10", "10")); ASSERT_OK(Put(1, "15", "15")); ASSERT_OK(Flush(1)); ASSERT_OK(Put(1, "45", "45")); ASSERT_OK(Put(1, "50", "50")); ASSERT_OK(Flush(1)); MoveFilesToLevel(2, 1); ASSERT_OK(Put(1, "20", "20")); ASSERT_OK(Put(1, "25", "25")); ASSERT_OK(Flush(1)); ASSERT_OK(Put(1, "35", "35")); ASSERT_OK(Put(1, "40", "40")); ASSERT_OK(Flush(1)); MoveFilesToLevel(1, 1); ColumnFamilyMetaData meta; db_->GetColumnFamilyMetaData(handles_[1], &meta); std::unique_ptr it(db_->NewIterator(read_options, handles_[1])); it->Seek("30"); ASSERT_TRUE(it->Valid()); ASSERT_EQ("30", it->key().ToString()); it->Next(); ASSERT_TRUE(it->Valid()); ASSERT_EQ("35", it->key().ToString()); it->Next(); ASSERT_TRUE(it->Valid()); ASSERT_EQ("40", it->key().ToString()); } TEST_F(DBTestTailingIterator, SeekWithUpperBoundBug) { ReadOptions read_options; read_options.tailing = true; const Slice upper_bound("cc", 3); read_options.iterate_upper_bound = &upper_bound; // 1st L0 file ASSERT_OK(db_->Put(WriteOptions(), "aa", "SEEN")); ASSERT_OK(Flush()); // 2nd L0 file ASSERT_OK(db_->Put(WriteOptions(), "zz", "NOT-SEEN")); ASSERT_OK(Flush()); std::unique_ptr iter(db_->NewIterator(read_options)); iter->Seek("aa"); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(iter->key().ToString(), "aa"); } TEST_F(DBTestTailingIterator, SeekToFirstWithUpperBoundBug) { ReadOptions read_options; read_options.tailing = true; const Slice upper_bound("cc", 3); read_options.iterate_upper_bound = &upper_bound; // 1st L0 file ASSERT_OK(db_->Put(WriteOptions(), "aa", "SEEN")); ASSERT_OK(Flush()); // 2nd L0 file ASSERT_OK(db_->Put(WriteOptions(), "zz", "NOT-SEEN")); ASSERT_OK(Flush()); std::unique_ptr iter(db_->NewIterator(read_options)); iter->SeekToFirst(); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(iter->key().ToString(), "aa"); iter->Next(); ASSERT_FALSE(iter->Valid()); iter->SeekToFirst(); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(iter->key().ToString(), "aa"); } } // namespace rocksdb #endif // !defined(ROCKSDB_LITE) int main(int argc, char** argv) { #if !defined(ROCKSDB_LITE) rocksdb::port::InstallStackTraceHandler(); ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); #else (void) argc; (void) argv; return 0; #endif } rocksdb-5.17.2/db/db_test.cc000066400000000000000000006247161337235545400156100ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. // Introduction of SyncPoint effectively disabled building and running this test // in Release build. // which is a pity, it is a good test #include #include #include #include #include #include #ifndef OS_WIN #include #endif #ifdef OS_SOLARIS #include #endif #include "cache/lru_cache.h" #include "db/db_impl.h" #include "db/db_test_util.h" #include "db/dbformat.h" #include "db/job_context.h" #include "db/version_set.h" #include "db/write_batch_internal.h" #include "env/mock_env.h" #include "memtable/hash_linklist_rep.h" #include "monitoring/thread_status_util.h" #include "port/port.h" #include "port/stack_trace.h" #include "rocksdb/cache.h" #include "rocksdb/compaction_filter.h" #include "rocksdb/convenience.h" #include "rocksdb/db.h" #include "rocksdb/env.h" #include "rocksdb/experimental.h" #include "rocksdb/filter_policy.h" #include "rocksdb/options.h" #include "rocksdb/perf_context.h" #include "rocksdb/slice.h" #include "rocksdb/slice_transform.h" #include "rocksdb/snapshot.h" #include "rocksdb/table.h" #include "rocksdb/table_properties.h" #include "rocksdb/thread_status.h" #include "rocksdb/utilities/checkpoint.h" #include "rocksdb/utilities/optimistic_transaction_db.h" #include "rocksdb/utilities/write_batch_with_index.h" #include "table/block_based_table_factory.h" #include "table/mock_table.h" #include "table/plain_table_factory.h" #include "table/scoped_arena_iterator.h" #include "util/compression.h" #include "util/file_reader_writer.h" #include "util/filename.h" #include "util/mutexlock.h" #include "util/rate_limiter.h" #include "util/string_util.h" #include "util/sync_point.h" #include "util/testharness.h" #include "util/testutil.h" #include "utilities/merge_operators.h" namespace rocksdb { class DBTest : public DBTestBase { public: DBTest() : DBTestBase("/db_test") {} }; class DBTestWithParam : public DBTest, public testing::WithParamInterface> { public: DBTestWithParam() { max_subcompactions_ = std::get<0>(GetParam()); exclusive_manual_compaction_ = std::get<1>(GetParam()); } // Required if inheriting from testing::WithParamInterface<> static void SetUpTestCase() {} static void TearDownTestCase() {} uint32_t max_subcompactions_; bool exclusive_manual_compaction_; }; TEST_F(DBTest, MockEnvTest) { unique_ptr env{new MockEnv(Env::Default())}; Options options; options.create_if_missing = true; options.env = env.get(); DB* db; const Slice keys[] = {Slice("aaa"), Slice("bbb"), Slice("ccc")}; const Slice vals[] = {Slice("foo"), Slice("bar"), Slice("baz")}; ASSERT_OK(DB::Open(options, "/dir/db", &db)); for (size_t i = 0; i < 3; ++i) { ASSERT_OK(db->Put(WriteOptions(), keys[i], vals[i])); } for (size_t i = 0; i < 3; ++i) { std::string res; ASSERT_OK(db->Get(ReadOptions(), keys[i], &res)); ASSERT_TRUE(res == vals[i]); } Iterator* iterator = db->NewIterator(ReadOptions()); iterator->SeekToFirst(); for (size_t i = 0; i < 3; ++i) { ASSERT_TRUE(iterator->Valid()); ASSERT_TRUE(keys[i] == iterator->key()); ASSERT_TRUE(vals[i] == iterator->value()); iterator->Next(); } ASSERT_TRUE(!iterator->Valid()); delete iterator; // TEST_FlushMemTable() is not supported in ROCKSDB_LITE #ifndef ROCKSDB_LITE DBImpl* dbi = reinterpret_cast(db); ASSERT_OK(dbi->TEST_FlushMemTable()); for (size_t i = 0; i < 3; ++i) { std::string res; ASSERT_OK(db->Get(ReadOptions(), keys[i], &res)); ASSERT_TRUE(res == vals[i]); } #endif // ROCKSDB_LITE delete db; } // NewMemEnv returns nullptr in ROCKSDB_LITE since class InMemoryEnv isn't // defined. #ifndef ROCKSDB_LITE TEST_F(DBTest, MemEnvTest) { unique_ptr env{NewMemEnv(Env::Default())}; Options options; options.create_if_missing = true; options.env = env.get(); DB* db; const Slice keys[] = {Slice("aaa"), Slice("bbb"), Slice("ccc")}; const Slice vals[] = {Slice("foo"), Slice("bar"), Slice("baz")}; ASSERT_OK(DB::Open(options, "/dir/db", &db)); for (size_t i = 0; i < 3; ++i) { ASSERT_OK(db->Put(WriteOptions(), keys[i], vals[i])); } for (size_t i = 0; i < 3; ++i) { std::string res; ASSERT_OK(db->Get(ReadOptions(), keys[i], &res)); ASSERT_TRUE(res == vals[i]); } Iterator* iterator = db->NewIterator(ReadOptions()); iterator->SeekToFirst(); for (size_t i = 0; i < 3; ++i) { ASSERT_TRUE(iterator->Valid()); ASSERT_TRUE(keys[i] == iterator->key()); ASSERT_TRUE(vals[i] == iterator->value()); iterator->Next(); } ASSERT_TRUE(!iterator->Valid()); delete iterator; DBImpl* dbi = reinterpret_cast(db); ASSERT_OK(dbi->TEST_FlushMemTable()); for (size_t i = 0; i < 3; ++i) { std::string res; ASSERT_OK(db->Get(ReadOptions(), keys[i], &res)); ASSERT_TRUE(res == vals[i]); } delete db; options.create_if_missing = false; ASSERT_OK(DB::Open(options, "/dir/db", &db)); for (size_t i = 0; i < 3; ++i) { std::string res; ASSERT_OK(db->Get(ReadOptions(), keys[i], &res)); ASSERT_TRUE(res == vals[i]); } delete db; } #endif // ROCKSDB_LITE TEST_F(DBTest, WriteEmptyBatch) { Options options = CurrentOptions(); options.env = env_; options.write_buffer_size = 100000; CreateAndReopenWithCF({"pikachu"}, options); ASSERT_OK(Put(1, "foo", "bar")); WriteOptions wo; wo.sync = true; wo.disableWAL = false; WriteBatch empty_batch; ASSERT_OK(dbfull()->Write(wo, &empty_batch)); // make sure we can re-open it. ASSERT_OK(TryReopenWithColumnFamilies({"default", "pikachu"}, options)); ASSERT_EQ("bar", Get(1, "foo")); } TEST_F(DBTest, SkipDelay) { Options options = CurrentOptions(); options.env = env_; options.write_buffer_size = 100000; CreateAndReopenWithCF({"pikachu"}, options); for (bool sync : {true, false}) { for (bool disableWAL : {true, false}) { if (sync && disableWAL) { // sync and disableWAL is incompatible. continue; } // Use a small number to ensure a large delay that is still effective // when we do Put // TODO(myabandeh): this is time dependent and could potentially make // the test flaky auto token = dbfull()->TEST_write_controler().GetDelayToken(1); std::atomic sleep_count(0); rocksdb::SyncPoint::GetInstance()->SetCallBack( "DBImpl::DelayWrite:Sleep", [&](void* /*arg*/) { sleep_count.fetch_add(1); }); std::atomic wait_count(0); rocksdb::SyncPoint::GetInstance()->SetCallBack( "DBImpl::DelayWrite:Wait", [&](void* /*arg*/) { wait_count.fetch_add(1); }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); WriteOptions wo; wo.sync = sync; wo.disableWAL = disableWAL; wo.no_slowdown = true; dbfull()->Put(wo, "foo", "bar"); // We need the 2nd write to trigger delay. This is because delay is // estimated based on the last write size which is 0 for the first write. ASSERT_NOK(dbfull()->Put(wo, "foo2", "bar2")); ASSERT_GE(sleep_count.load(), 0); ASSERT_GE(wait_count.load(), 0); token.reset(); token = dbfull()->TEST_write_controler().GetDelayToken(1000000000); wo.no_slowdown = false; ASSERT_OK(dbfull()->Put(wo, "foo3", "bar3")); ASSERT_GE(sleep_count.load(), 1); token.reset(); } } } TEST_F(DBTest, MixedSlowdownOptions) { Options options = CurrentOptions(); options.env = env_; options.write_buffer_size = 100000; CreateAndReopenWithCF({"pikachu"}, options); std::vector threads; std::atomic thread_num(0); std::function write_slowdown_func = [&]() { int a = thread_num.fetch_add(1); std::string key = "foo" + std::to_string(a); WriteOptions wo; wo.no_slowdown = false; ASSERT_OK(dbfull()->Put(wo, key, "bar")); }; std::function write_no_slowdown_func = [&]() { int a = thread_num.fetch_add(1); std::string key = "foo" + std::to_string(a); WriteOptions wo; wo.no_slowdown = true; ASSERT_NOK(dbfull()->Put(wo, key, "bar")); }; // Use a small number to ensure a large delay that is still effective // when we do Put // TODO(myabandeh): this is time dependent and could potentially make // the test flaky auto token = dbfull()->TEST_write_controler().GetDelayToken(1); std::atomic sleep_count(0); rocksdb::SyncPoint::GetInstance()->SetCallBack( "DBImpl::DelayWrite:BeginWriteStallDone", [&](void* /*arg*/) { sleep_count.fetch_add(1); if (threads.empty()) { for (int i = 0; i < 2; ++i) { threads.emplace_back(write_slowdown_func); } for (int i = 0; i < 2; ++i) { threads.emplace_back(write_no_slowdown_func); } } }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); WriteOptions wo; wo.sync = false; wo.disableWAL = false; wo.no_slowdown = false; dbfull()->Put(wo, "foo", "bar"); // We need the 2nd write to trigger delay. This is because delay is // estimated based on the last write size which is 0 for the first write. ASSERT_OK(dbfull()->Put(wo, "foo2", "bar2")); token.reset(); for (auto& t : threads) { t.join(); } ASSERT_GE(sleep_count.load(), 1); wo.no_slowdown = true; ASSERT_OK(dbfull()->Put(wo, "foo3", "bar")); } TEST_F(DBTest, MixedSlowdownOptionsInQueue) { Options options = CurrentOptions(); options.env = env_; options.write_buffer_size = 100000; CreateAndReopenWithCF({"pikachu"}, options); std::vector threads; std::atomic thread_num(0); std::function write_no_slowdown_func = [&]() { int a = thread_num.fetch_add(1); std::string key = "foo" + std::to_string(a); WriteOptions wo; wo.no_slowdown = true; ASSERT_NOK(dbfull()->Put(wo, key, "bar")); }; // Use a small number to ensure a large delay that is still effective // when we do Put // TODO(myabandeh): this is time dependent and could potentially make // the test flaky auto token = dbfull()->TEST_write_controler().GetDelayToken(1); std::atomic sleep_count(0); rocksdb::SyncPoint::GetInstance()->SetCallBack( "DBImpl::DelayWrite:Sleep", [&](void* /*arg*/) { sleep_count.fetch_add(1); if (threads.empty()) { for (int i = 0; i < 2; ++i) { threads.emplace_back(write_no_slowdown_func); } // Sleep for 2s to allow the threads to insert themselves into the // write queue env_->SleepForMicroseconds(3000000ULL); } }); std::atomic wait_count(0); rocksdb::SyncPoint::GetInstance()->SetCallBack( "DBImpl::DelayWrite:Wait", [&](void* /*arg*/) { wait_count.fetch_add(1); }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); WriteOptions wo; wo.sync = false; wo.disableWAL = false; wo.no_slowdown = false; dbfull()->Put(wo, "foo", "bar"); // We need the 2nd write to trigger delay. This is because delay is // estimated based on the last write size which is 0 for the first write. ASSERT_OK(dbfull()->Put(wo, "foo2", "bar2")); token.reset(); for (auto& t : threads) { t.join(); } ASSERT_EQ(sleep_count.load(), 1); ASSERT_GE(wait_count.load(), 0); } TEST_F(DBTest, MixedSlowdownOptionsStop) { Options options = CurrentOptions(); options.env = env_; options.write_buffer_size = 100000; CreateAndReopenWithCF({"pikachu"}, options); std::vector threads; std::atomic thread_num(0); std::function write_slowdown_func = [&]() { int a = thread_num.fetch_add(1); std::string key = "foo" + std::to_string(a); WriteOptions wo; wo.no_slowdown = false; ASSERT_OK(dbfull()->Put(wo, key, "bar")); }; std::function write_no_slowdown_func = [&]() { int a = thread_num.fetch_add(1); std::string key = "foo" + std::to_string(a); WriteOptions wo; wo.no_slowdown = true; ASSERT_NOK(dbfull()->Put(wo, key, "bar")); }; std::function wakeup_writer = [&]() { dbfull()->mutex_.Lock(); dbfull()->bg_cv_.SignalAll(); dbfull()->mutex_.Unlock(); }; // Use a small number to ensure a large delay that is still effective // when we do Put // TODO(myabandeh): this is time dependent and could potentially make // the test flaky auto token = dbfull()->TEST_write_controler().GetStopToken(); std::atomic wait_count(0); rocksdb::SyncPoint::GetInstance()->SetCallBack( "DBImpl::DelayWrite:Wait", [&](void* /*arg*/) { wait_count.fetch_add(1); if (threads.empty()) { for (int i = 0; i < 2; ++i) { threads.emplace_back(write_slowdown_func); } for (int i = 0; i < 2; ++i) { threads.emplace_back(write_no_slowdown_func); } // Sleep for 2s to allow the threads to insert themselves into the // write queue env_->SleepForMicroseconds(3000000ULL); } token.reset(); threads.emplace_back(wakeup_writer); }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); WriteOptions wo; wo.sync = false; wo.disableWAL = false; wo.no_slowdown = false; dbfull()->Put(wo, "foo", "bar"); // We need the 2nd write to trigger delay. This is because delay is // estimated based on the last write size which is 0 for the first write. ASSERT_OK(dbfull()->Put(wo, "foo2", "bar2")); token.reset(); for (auto& t : threads) { t.join(); } ASSERT_GE(wait_count.load(), 1); wo.no_slowdown = true; ASSERT_OK(dbfull()->Put(wo, "foo3", "bar")); } #ifndef ROCKSDB_LITE TEST_F(DBTest, LevelLimitReopen) { Options options = CurrentOptions(); CreateAndReopenWithCF({"pikachu"}, options); const std::string value(1024 * 1024, ' '); int i = 0; while (NumTableFilesAtLevel(2, 1) == 0) { ASSERT_OK(Put(1, Key(i++), value)); } options.num_levels = 1; options.max_bytes_for_level_multiplier_additional.resize(1, 1); Status s = TryReopenWithColumnFamilies({"default", "pikachu"}, options); ASSERT_EQ(s.IsInvalidArgument(), true); ASSERT_EQ(s.ToString(), "Invalid argument: db has more levels than options.num_levels"); options.num_levels = 10; options.max_bytes_for_level_multiplier_additional.resize(10, 1); ASSERT_OK(TryReopenWithColumnFamilies({"default", "pikachu"}, options)); } #endif // ROCKSDB_LITE TEST_F(DBTest, PutSingleDeleteGet) { do { CreateAndReopenWithCF({"pikachu"}, CurrentOptions()); ASSERT_OK(Put(1, "foo", "v1")); ASSERT_EQ("v1", Get(1, "foo")); ASSERT_OK(Put(1, "foo2", "v2")); ASSERT_EQ("v2", Get(1, "foo2")); ASSERT_OK(SingleDelete(1, "foo")); ASSERT_EQ("NOT_FOUND", Get(1, "foo")); // Skip HashCuckooRep as it does not support single delete. FIFO and // universal compaction do not apply to the test case. Skip MergePut // because single delete does not get removed when it encounters a merge. } while (ChangeOptions(kSkipHashCuckoo | kSkipFIFOCompaction | kSkipUniversalCompaction | kSkipMergePut)); } TEST_F(DBTest, ReadFromPersistedTier) { do { Random rnd(301); Options options = CurrentOptions(); for (int disableWAL = 0; disableWAL <= 1; ++disableWAL) { CreateAndReopenWithCF({"pikachu"}, options); WriteOptions wopt; wopt.disableWAL = (disableWAL == 1); // 1st round: put but not flush ASSERT_OK(db_->Put(wopt, handles_[1], "foo", "first")); ASSERT_OK(db_->Put(wopt, handles_[1], "bar", "one")); ASSERT_EQ("first", Get(1, "foo")); ASSERT_EQ("one", Get(1, "bar")); // Read directly from persited data. ReadOptions ropt; ropt.read_tier = kPersistedTier; std::string value; if (wopt.disableWAL) { // as data has not yet being flushed, we expect not found. ASSERT_TRUE(db_->Get(ropt, handles_[1], "foo", &value).IsNotFound()); ASSERT_TRUE(db_->Get(ropt, handles_[1], "bar", &value).IsNotFound()); } else { ASSERT_OK(db_->Get(ropt, handles_[1], "foo", &value)); ASSERT_OK(db_->Get(ropt, handles_[1], "bar", &value)); } // Multiget std::vector multiget_cfs; multiget_cfs.push_back(handles_[1]); multiget_cfs.push_back(handles_[1]); std::vector multiget_keys; multiget_keys.push_back("foo"); multiget_keys.push_back("bar"); std::vector multiget_values; auto statuses = db_->MultiGet(ropt, multiget_cfs, multiget_keys, &multiget_values); if (wopt.disableWAL) { ASSERT_TRUE(statuses[0].IsNotFound()); ASSERT_TRUE(statuses[1].IsNotFound()); } else { ASSERT_OK(statuses[0]); ASSERT_OK(statuses[1]); } // 2nd round: flush and put a new value in memtable. ASSERT_OK(Flush(1)); ASSERT_OK(db_->Put(wopt, handles_[1], "rocksdb", "hello")); // once the data has been flushed, we are able to get the // data when kPersistedTier is used. ASSERT_TRUE(db_->Get(ropt, handles_[1], "foo", &value).ok()); ASSERT_EQ(value, "first"); ASSERT_TRUE(db_->Get(ropt, handles_[1], "bar", &value).ok()); ASSERT_EQ(value, "one"); if (wopt.disableWAL) { ASSERT_TRUE( db_->Get(ropt, handles_[1], "rocksdb", &value).IsNotFound()); } else { ASSERT_OK(db_->Get(ropt, handles_[1], "rocksdb", &value)); ASSERT_EQ(value, "hello"); } // Expect same result in multiget multiget_cfs.push_back(handles_[1]); multiget_keys.push_back("rocksdb"); statuses = db_->MultiGet(ropt, multiget_cfs, multiget_keys, &multiget_values); ASSERT_TRUE(statuses[0].ok()); ASSERT_EQ("first", multiget_values[0]); ASSERT_TRUE(statuses[1].ok()); ASSERT_EQ("one", multiget_values[1]); if (wopt.disableWAL) { ASSERT_TRUE(statuses[2].IsNotFound()); } else { ASSERT_OK(statuses[2]); } // 3rd round: delete and flush ASSERT_OK(db_->Delete(wopt, handles_[1], "foo")); Flush(1); ASSERT_OK(db_->Delete(wopt, handles_[1], "bar")); ASSERT_TRUE(db_->Get(ropt, handles_[1], "foo", &value).IsNotFound()); if (wopt.disableWAL) { // Still expect finding the value as its delete has not yet being // flushed. ASSERT_TRUE(db_->Get(ropt, handles_[1], "bar", &value).ok()); ASSERT_EQ(value, "one"); } else { ASSERT_TRUE(db_->Get(ropt, handles_[1], "bar", &value).IsNotFound()); } ASSERT_TRUE(db_->Get(ropt, handles_[1], "rocksdb", &value).ok()); ASSERT_EQ(value, "hello"); statuses = db_->MultiGet(ropt, multiget_cfs, multiget_keys, &multiget_values); ASSERT_TRUE(statuses[0].IsNotFound()); if (wopt.disableWAL) { ASSERT_TRUE(statuses[1].ok()); ASSERT_EQ("one", multiget_values[1]); } else { ASSERT_TRUE(statuses[1].IsNotFound()); } ASSERT_TRUE(statuses[2].ok()); ASSERT_EQ("hello", multiget_values[2]); if (wopt.disableWAL == 0) { DestroyAndReopen(options); } } } while (ChangeOptions(kSkipHashCuckoo)); } TEST_F(DBTest, SingleDeleteFlush) { // Test to check whether flushing preserves a single delete hidden // behind a put. do { Random rnd(301); Options options = CurrentOptions(); options.disable_auto_compactions = true; CreateAndReopenWithCF({"pikachu"}, options); // Put values on second level (so that they will not be in the same // compaction as the other operations. Put(1, "foo", "first"); Put(1, "bar", "one"); ASSERT_OK(Flush(1)); MoveFilesToLevel(2, 1); // (Single) delete hidden by a put SingleDelete(1, "foo"); Put(1, "foo", "second"); Delete(1, "bar"); Put(1, "bar", "two"); ASSERT_OK(Flush(1)); SingleDelete(1, "foo"); Delete(1, "bar"); ASSERT_OK(Flush(1)); dbfull()->CompactRange(CompactRangeOptions(), handles_[1], nullptr, nullptr); ASSERT_EQ("NOT_FOUND", Get(1, "bar")); ASSERT_EQ("NOT_FOUND", Get(1, "foo")); // Skip HashCuckooRep as it does not support single delete. FIFO and // universal compaction do not apply to the test case. Skip MergePut // because merges cannot be combined with single deletions. } while (ChangeOptions(kSkipHashCuckoo | kSkipFIFOCompaction | kSkipUniversalCompaction | kSkipMergePut)); } TEST_F(DBTest, SingleDeletePutFlush) { // Single deletes that encounter the matching put in a flush should get // removed. do { Random rnd(301); Options options = CurrentOptions(); options.disable_auto_compactions = true; CreateAndReopenWithCF({"pikachu"}, options); Put(1, "foo", Slice()); Put(1, "a", Slice()); SingleDelete(1, "a"); ASSERT_OK(Flush(1)); ASSERT_EQ("[ ]", AllEntriesFor("a", 1)); // Skip HashCuckooRep as it does not support single delete. FIFO and // universal compaction do not apply to the test case. Skip MergePut // because merges cannot be combined with single deletions. } while (ChangeOptions(kSkipHashCuckoo | kSkipFIFOCompaction | kSkipUniversalCompaction | kSkipMergePut)); } // Disable because not all platform can run it. // It requires more than 9GB memory to run it, With single allocation // of more than 3GB. TEST_F(DBTest, DISABLED_SanitizeVeryVeryLargeValue) { const size_t kValueSize = 4 * size_t{1024 * 1024 * 1024}; // 4GB value std::string raw(kValueSize, 'v'); Options options = CurrentOptions(); options.env = env_; options.merge_operator = MergeOperators::CreatePutOperator(); options.write_buffer_size = 100000; // Small write buffer options.paranoid_checks = true; DestroyAndReopen(options); ASSERT_OK(Put("boo", "v1")); ASSERT_TRUE(Put("foo", raw).IsInvalidArgument()); ASSERT_TRUE(Merge("foo", raw).IsInvalidArgument()); WriteBatch wb; ASSERT_TRUE(wb.Put("foo", raw).IsInvalidArgument()); ASSERT_TRUE(wb.Merge("foo", raw).IsInvalidArgument()); Slice value_slice = raw; Slice key_slice = "foo"; SliceParts sp_key(&key_slice, 1); SliceParts sp_value(&value_slice, 1); ASSERT_TRUE(wb.Put(sp_key, sp_value).IsInvalidArgument()); ASSERT_TRUE(wb.Merge(sp_key, sp_value).IsInvalidArgument()); } // Disable because not all platform can run it. // It requires more than 9GB memory to run it, With single allocation // of more than 3GB. TEST_F(DBTest, DISABLED_VeryLargeValue) { const size_t kValueSize = 3221225472u; // 3GB value const size_t kKeySize = 8388608u; // 8MB key std::string raw(kValueSize, 'v'); std::string key1(kKeySize, 'c'); std::string key2(kKeySize, 'd'); Options options = CurrentOptions(); options.env = env_; options.write_buffer_size = 100000; // Small write buffer options.paranoid_checks = true; DestroyAndReopen(options); ASSERT_OK(Put("boo", "v1")); ASSERT_OK(Put("foo", "v1")); ASSERT_OK(Put(key1, raw)); raw[0] = 'w'; ASSERT_OK(Put(key2, raw)); dbfull()->TEST_WaitForFlushMemTable(); #ifndef ROCKSDB_LITE ASSERT_EQ(1, NumTableFilesAtLevel(0)); #endif // !ROCKSDB_LITE std::string value; Status s = db_->Get(ReadOptions(), key1, &value); ASSERT_OK(s); ASSERT_EQ(kValueSize, value.size()); ASSERT_EQ('v', value[0]); s = db_->Get(ReadOptions(), key2, &value); ASSERT_OK(s); ASSERT_EQ(kValueSize, value.size()); ASSERT_EQ('w', value[0]); // Compact all files. Flush(); db_->CompactRange(CompactRangeOptions(), nullptr, nullptr); // Check DB is not in read-only state. ASSERT_OK(Put("boo", "v1")); s = db_->Get(ReadOptions(), key1, &value); ASSERT_OK(s); ASSERT_EQ(kValueSize, value.size()); ASSERT_EQ('v', value[0]); s = db_->Get(ReadOptions(), key2, &value); ASSERT_OK(s); ASSERT_EQ(kValueSize, value.size()); ASSERT_EQ('w', value[0]); } TEST_F(DBTest, GetFromImmutableLayer) { do { Options options = CurrentOptions(); options.env = env_; CreateAndReopenWithCF({"pikachu"}, options); ASSERT_OK(Put(1, "foo", "v1")); ASSERT_EQ("v1", Get(1, "foo")); // Block sync calls env_->delay_sstable_sync_.store(true, std::memory_order_release); Put(1, "k1", std::string(100000, 'x')); // Fill memtable Put(1, "k2", std::string(100000, 'y')); // Trigger flush ASSERT_EQ("v1", Get(1, "foo")); ASSERT_EQ("NOT_FOUND", Get(0, "foo")); // Release sync calls env_->delay_sstable_sync_.store(false, std::memory_order_release); } while (ChangeOptions()); } TEST_F(DBTest, GetLevel0Ordering) { do { CreateAndReopenWithCF({"pikachu"}, CurrentOptions()); // Check that we process level-0 files in correct order. The code // below generates two level-0 files where the earlier one comes // before the later one in the level-0 file list since the earlier // one has a smaller "smallest" key. ASSERT_OK(Put(1, "bar", "b")); ASSERT_OK(Put(1, "foo", "v1")); ASSERT_OK(Flush(1)); ASSERT_OK(Put(1, "foo", "v2")); ASSERT_OK(Flush(1)); ASSERT_EQ("v2", Get(1, "foo")); } while (ChangeOptions()); } TEST_F(DBTest, WrongLevel0Config) { Options options = CurrentOptions(); Close(); ASSERT_OK(DestroyDB(dbname_, options)); options.level0_stop_writes_trigger = 1; options.level0_slowdown_writes_trigger = 2; options.level0_file_num_compaction_trigger = 3; ASSERT_OK(DB::Open(options, dbname_, &db_)); } #ifndef ROCKSDB_LITE TEST_F(DBTest, GetOrderedByLevels) { do { CreateAndReopenWithCF({"pikachu"}, CurrentOptions()); ASSERT_OK(Put(1, "foo", "v1")); Compact(1, "a", "z"); ASSERT_EQ("v1", Get(1, "foo")); ASSERT_OK(Put(1, "foo", "v2")); ASSERT_EQ("v2", Get(1, "foo")); ASSERT_OK(Flush(1)); ASSERT_EQ("v2", Get(1, "foo")); } while (ChangeOptions()); } TEST_F(DBTest, GetPicksCorrectFile) { do { CreateAndReopenWithCF({"pikachu"}, CurrentOptions()); // Arrange to have multiple files in a non-level-0 level. ASSERT_OK(Put(1, "a", "va")); Compact(1, "a", "b"); ASSERT_OK(Put(1, "x", "vx")); Compact(1, "x", "y"); ASSERT_OK(Put(1, "f", "vf")); Compact(1, "f", "g"); ASSERT_EQ("va", Get(1, "a")); ASSERT_EQ("vf", Get(1, "f")); ASSERT_EQ("vx", Get(1, "x")); } while (ChangeOptions()); } TEST_F(DBTest, GetEncountersEmptyLevel) { do { Options options = CurrentOptions(); CreateAndReopenWithCF({"pikachu"}, options); // Arrange for the following to happen: // * sstable A in level 0 // * nothing in level 1 // * sstable B in level 2 // Then do enough Get() calls to arrange for an automatic compaction // of sstable A. A bug would cause the compaction to be marked as // occurring at level 1 (instead of the correct level 0). // Step 1: First place sstables in levels 0 and 2 Put(1, "a", "begin"); Put(1, "z", "end"); ASSERT_OK(Flush(1)); dbfull()->TEST_CompactRange(0, nullptr, nullptr, handles_[1]); dbfull()->TEST_CompactRange(1, nullptr, nullptr, handles_[1]); Put(1, "a", "begin"); Put(1, "z", "end"); ASSERT_OK(Flush(1)); ASSERT_GT(NumTableFilesAtLevel(0, 1), 0); ASSERT_GT(NumTableFilesAtLevel(2, 1), 0); // Step 2: clear level 1 if necessary. dbfull()->TEST_CompactRange(1, nullptr, nullptr, handles_[1]); ASSERT_EQ(NumTableFilesAtLevel(0, 1), 1); ASSERT_EQ(NumTableFilesAtLevel(1, 1), 0); ASSERT_EQ(NumTableFilesAtLevel(2, 1), 1); // Step 3: read a bunch of times for (int i = 0; i < 1000; i++) { ASSERT_EQ("NOT_FOUND", Get(1, "missing")); } // Step 4: Wait for compaction to finish dbfull()->TEST_WaitForCompact(); ASSERT_EQ(NumTableFilesAtLevel(0, 1), 1); // XXX } while (ChangeOptions(kSkipUniversalCompaction | kSkipFIFOCompaction)); } #endif // ROCKSDB_LITE TEST_F(DBTest, FlushMultipleMemtable) { do { Options options = CurrentOptions(); WriteOptions writeOpt = WriteOptions(); writeOpt.disableWAL = true; options.max_write_buffer_number = 4; options.min_write_buffer_number_to_merge = 3; options.max_write_buffer_number_to_maintain = -1; CreateAndReopenWithCF({"pikachu"}, options); ASSERT_OK(dbfull()->Put(writeOpt, handles_[1], "foo", "v1")); ASSERT_OK(Flush(1)); ASSERT_OK(dbfull()->Put(writeOpt, handles_[1], "bar", "v1")); ASSERT_EQ("v1", Get(1, "foo")); ASSERT_EQ("v1", Get(1, "bar")); ASSERT_OK(Flush(1)); } while (ChangeCompactOptions()); } #ifndef ROCKSDB_LITE TEST_F(DBTest, FlushSchedule) { Options options = CurrentOptions(); options.disable_auto_compactions = true; options.level0_stop_writes_trigger = 1 << 10; options.level0_slowdown_writes_trigger = 1 << 10; options.min_write_buffer_number_to_merge = 1; options.max_write_buffer_number_to_maintain = 1; options.max_write_buffer_number = 2; options.write_buffer_size = 120 * 1024; CreateAndReopenWithCF({"pikachu"}, options); std::vector threads; std::atomic thread_num(0); // each column family will have 5 thread, each thread generating 2 memtables. // each column family should end up with 10 table files std::function fill_memtable_func = [&]() { int a = thread_num.fetch_add(1); Random rnd(a); WriteOptions wo; // this should fill up 2 memtables for (int k = 0; k < 5000; ++k) { ASSERT_OK(db_->Put(wo, handles_[a & 1], RandomString(&rnd, 13), "")); } }; for (int i = 0; i < 10; ++i) { threads.emplace_back(fill_memtable_func); } for (auto& t : threads) { t.join(); } auto default_tables = GetNumberOfSstFilesForColumnFamily(db_, "default"); auto pikachu_tables = GetNumberOfSstFilesForColumnFamily(db_, "pikachu"); ASSERT_LE(default_tables, static_cast(10)); ASSERT_GT(default_tables, static_cast(0)); ASSERT_LE(pikachu_tables, static_cast(10)); ASSERT_GT(pikachu_tables, static_cast(0)); } #endif // ROCKSDB_LITE namespace { class KeepFilter : public CompactionFilter { public: virtual bool Filter(int /*level*/, const Slice& /*key*/, const Slice& /*value*/, std::string* /*new_value*/, bool* /*value_changed*/) const override { return false; } virtual const char* Name() const override { return "KeepFilter"; } }; class KeepFilterFactory : public CompactionFilterFactory { public: explicit KeepFilterFactory(bool check_context = false) : check_context_(check_context) {} virtual std::unique_ptr CreateCompactionFilter( const CompactionFilter::Context& context) override { if (check_context_) { EXPECT_EQ(expect_full_compaction_.load(), context.is_full_compaction); EXPECT_EQ(expect_manual_compaction_.load(), context.is_manual_compaction); } return std::unique_ptr(new KeepFilter()); } virtual const char* Name() const override { return "KeepFilterFactory"; } bool check_context_; std::atomic_bool expect_full_compaction_; std::atomic_bool expect_manual_compaction_; }; class DelayFilter : public CompactionFilter { public: explicit DelayFilter(DBTestBase* d) : db_test(d) {} virtual bool Filter(int /*level*/, const Slice& /*key*/, const Slice& /*value*/, std::string* /*new_value*/, bool* /*value_changed*/) const override { db_test->env_->addon_time_.fetch_add(1000); return true; } virtual const char* Name() const override { return "DelayFilter"; } private: DBTestBase* db_test; }; class DelayFilterFactory : public CompactionFilterFactory { public: explicit DelayFilterFactory(DBTestBase* d) : db_test(d) {} virtual std::unique_ptr CreateCompactionFilter( const CompactionFilter::Context& /*context*/) override { return std::unique_ptr(new DelayFilter(db_test)); } virtual const char* Name() const override { return "DelayFilterFactory"; } private: DBTestBase* db_test; }; } // namespace #ifndef ROCKSDB_LITE static std::string CompressibleString(Random* rnd, int len) { std::string r; test::CompressibleString(rnd, 0.8, len, &r); return r; } #endif // ROCKSDB_LITE TEST_F(DBTest, FailMoreDbPaths) { Options options = CurrentOptions(); options.db_paths.emplace_back(dbname_, 10000000); options.db_paths.emplace_back(dbname_ + "_2", 1000000); options.db_paths.emplace_back(dbname_ + "_3", 1000000); options.db_paths.emplace_back(dbname_ + "_4", 1000000); options.db_paths.emplace_back(dbname_ + "_5", 1000000); ASSERT_TRUE(TryReopen(options).IsNotSupported()); } void CheckColumnFamilyMeta(const ColumnFamilyMetaData& cf_meta) { uint64_t cf_size = 0; uint64_t cf_csize = 0; size_t file_count = 0; for (auto level_meta : cf_meta.levels) { uint64_t level_size = 0; uint64_t level_csize = 0; file_count += level_meta.files.size(); for (auto file_meta : level_meta.files) { level_size += file_meta.size; } ASSERT_EQ(level_meta.size, level_size); cf_size += level_size; cf_csize += level_csize; } ASSERT_EQ(cf_meta.file_count, file_count); ASSERT_EQ(cf_meta.size, cf_size); } #ifndef ROCKSDB_LITE TEST_F(DBTest, ColumnFamilyMetaDataTest) { Options options = CurrentOptions(); options.create_if_missing = true; DestroyAndReopen(options); Random rnd(301); int key_index = 0; ColumnFamilyMetaData cf_meta; for (int i = 0; i < 100; ++i) { GenerateNewFile(&rnd, &key_index); db_->GetColumnFamilyMetaData(&cf_meta); CheckColumnFamilyMeta(cf_meta); } } namespace { void MinLevelHelper(DBTest* self, Options& options) { Random rnd(301); for (int num = 0; num < options.level0_file_num_compaction_trigger - 1; num++) { std::vector values; // Write 120KB (12 values, each 10K) for (int i = 0; i < 12; i++) { values.push_back(DBTestBase::RandomString(&rnd, 10000)); ASSERT_OK(self->Put(DBTestBase::Key(i), values[i])); } self->dbfull()->TEST_WaitForFlushMemTable(); ASSERT_EQ(self->NumTableFilesAtLevel(0), num + 1); } // generate one more file in level-0, and should trigger level-0 compaction std::vector values; for (int i = 0; i < 12; i++) { values.push_back(DBTestBase::RandomString(&rnd, 10000)); ASSERT_OK(self->Put(DBTestBase::Key(i), values[i])); } self->dbfull()->TEST_WaitForCompact(); ASSERT_EQ(self->NumTableFilesAtLevel(0), 0); ASSERT_EQ(self->NumTableFilesAtLevel(1), 1); } // returns false if the calling-Test should be skipped bool MinLevelToCompress(CompressionType& type, Options& options, int wbits, int lev, int strategy) { fprintf(stderr, "Test with compression options : window_bits = %d, level = %d, " "strategy = %d}\n", wbits, lev, strategy); options.write_buffer_size = 100 << 10; // 100KB options.arena_block_size = 4096; options.num_levels = 3; options.level0_file_num_compaction_trigger = 3; options.create_if_missing = true; if (Snappy_Supported()) { type = kSnappyCompression; fprintf(stderr, "using snappy\n"); } else if (Zlib_Supported()) { type = kZlibCompression; fprintf(stderr, "using zlib\n"); } else if (BZip2_Supported()) { type = kBZip2Compression; fprintf(stderr, "using bzip2\n"); } else if (LZ4_Supported()) { type = kLZ4Compression; fprintf(stderr, "using lz4\n"); } else if (XPRESS_Supported()) { type = kXpressCompression; fprintf(stderr, "using xpress\n"); } else if (ZSTD_Supported()) { type = kZSTD; fprintf(stderr, "using ZSTD\n"); } else { fprintf(stderr, "skipping test, compression disabled\n"); return false; } options.compression_per_level.resize(options.num_levels); // do not compress L0 for (int i = 0; i < 1; i++) { options.compression_per_level[i] = kNoCompression; } for (int i = 1; i < options.num_levels; i++) { options.compression_per_level[i] = type; } return true; } } // namespace TEST_F(DBTest, MinLevelToCompress1) { Options options = CurrentOptions(); CompressionType type = kSnappyCompression; if (!MinLevelToCompress(type, options, -14, -1, 0)) { return; } Reopen(options); MinLevelHelper(this, options); // do not compress L0 and L1 for (int i = 0; i < 2; i++) { options.compression_per_level[i] = kNoCompression; } for (int i = 2; i < options.num_levels; i++) { options.compression_per_level[i] = type; } DestroyAndReopen(options); MinLevelHelper(this, options); } TEST_F(DBTest, MinLevelToCompress2) { Options options = CurrentOptions(); CompressionType type = kSnappyCompression; if (!MinLevelToCompress(type, options, 15, -1, 0)) { return; } Reopen(options); MinLevelHelper(this, options); // do not compress L0 and L1 for (int i = 0; i < 2; i++) { options.compression_per_level[i] = kNoCompression; } for (int i = 2; i < options.num_levels; i++) { options.compression_per_level[i] = type; } DestroyAndReopen(options); MinLevelHelper(this, options); } // This test may fail because of a legit case that multiple L0 files // are trivial moved to L1. TEST_F(DBTest, DISABLED_RepeatedWritesToSameKey) { do { Options options = CurrentOptions(); options.env = env_; options.write_buffer_size = 100000; // Small write buffer CreateAndReopenWithCF({"pikachu"}, options); // We must have at most one file per level except for level-0, // which may have up to kL0_StopWritesTrigger files. const int kMaxFiles = options.num_levels + options.level0_stop_writes_trigger; Random rnd(301); std::string value = RandomString(&rnd, static_cast(2 * options.write_buffer_size)); for (int i = 0; i < 5 * kMaxFiles; i++) { ASSERT_OK(Put(1, "key", value)); ASSERT_LE(TotalTableFiles(1), kMaxFiles); } } while (ChangeCompactOptions()); } #endif // ROCKSDB_LITE TEST_F(DBTest, SparseMerge) { do { Options options = CurrentOptions(); options.compression = kNoCompression; CreateAndReopenWithCF({"pikachu"}, options); FillLevels("A", "Z", 1); // Suppose there is: // small amount of data with prefix A // large amount of data with prefix B // small amount of data with prefix C // and that recent updates have made small changes to all three prefixes. // Check that we do not do a compaction that merges all of B in one shot. const std::string value(1000, 'x'); Put(1, "A", "va"); // Write approximately 100MB of "B" values for (int i = 0; i < 100000; i++) { char key[100]; snprintf(key, sizeof(key), "B%010d", i); Put(1, key, value); } Put(1, "C", "vc"); ASSERT_OK(Flush(1)); dbfull()->TEST_CompactRange(0, nullptr, nullptr, handles_[1]); // Make sparse update Put(1, "A", "va2"); Put(1, "B100", "bvalue2"); Put(1, "C", "vc2"); ASSERT_OK(Flush(1)); // Compactions should not cause us to create a situation where // a file overlaps too much data at the next level. ASSERT_LE(dbfull()->TEST_MaxNextLevelOverlappingBytes(handles_[1]), 20 * 1048576); dbfull()->TEST_CompactRange(0, nullptr, nullptr); ASSERT_LE(dbfull()->TEST_MaxNextLevelOverlappingBytes(handles_[1]), 20 * 1048576); dbfull()->TEST_CompactRange(1, nullptr, nullptr); ASSERT_LE(dbfull()->TEST_MaxNextLevelOverlappingBytes(handles_[1]), 20 * 1048576); } while (ChangeCompactOptions()); } #ifndef ROCKSDB_LITE static bool Between(uint64_t val, uint64_t low, uint64_t high) { bool result = (val >= low) && (val <= high); if (!result) { fprintf(stderr, "Value %llu is not in range [%llu, %llu]\n", (unsigned long long)(val), (unsigned long long)(low), (unsigned long long)(high)); } return result; } TEST_F(DBTest, ApproximateSizesMemTable) { Options options = CurrentOptions(); options.write_buffer_size = 100000000; // Large write buffer options.compression = kNoCompression; options.create_if_missing = true; DestroyAndReopen(options); const int N = 128; Random rnd(301); for (int i = 0; i < N; i++) { ASSERT_OK(Put(Key(i), RandomString(&rnd, 1024))); } uint64_t size; std::string start = Key(50); std::string end = Key(60); Range r(start, end); uint8_t include_both = DB::SizeApproximationFlags::INCLUDE_FILES | DB::SizeApproximationFlags::INCLUDE_MEMTABLES; db_->GetApproximateSizes(&r, 1, &size, include_both); ASSERT_GT(size, 6000); ASSERT_LT(size, 204800); // Zero if not including mem table db_->GetApproximateSizes(&r, 1, &size); ASSERT_EQ(size, 0); start = Key(500); end = Key(600); r = Range(start, end); db_->GetApproximateSizes(&r, 1, &size, include_both); ASSERT_EQ(size, 0); for (int i = 0; i < N; i++) { ASSERT_OK(Put(Key(1000 + i), RandomString(&rnd, 1024))); } start = Key(500); end = Key(600); r = Range(start, end); db_->GetApproximateSizes(&r, 1, &size, include_both); ASSERT_EQ(size, 0); start = Key(100); end = Key(1020); r = Range(start, end); db_->GetApproximateSizes(&r, 1, &size, include_both); ASSERT_GT(size, 6000); options.max_write_buffer_number = 8; options.min_write_buffer_number_to_merge = 5; options.write_buffer_size = 1024 * N; // Not very large DestroyAndReopen(options); int keys[N * 3]; for (int i = 0; i < N; i++) { keys[i * 3] = i * 5; keys[i * 3 + 1] = i * 5 + 1; keys[i * 3 + 2] = i * 5 + 2; } std::random_shuffle(std::begin(keys), std::end(keys)); for (int i = 0; i < N * 3; i++) { ASSERT_OK(Put(Key(keys[i] + 1000), RandomString(&rnd, 1024))); } start = Key(100); end = Key(300); r = Range(start, end); db_->GetApproximateSizes(&r, 1, &size, include_both); ASSERT_EQ(size, 0); start = Key(1050); end = Key(1080); r = Range(start, end); db_->GetApproximateSizes(&r, 1, &size, include_both); ASSERT_GT(size, 6000); start = Key(2100); end = Key(2300); r = Range(start, end); db_->GetApproximateSizes(&r, 1, &size, include_both); ASSERT_EQ(size, 0); start = Key(1050); end = Key(1080); r = Range(start, end); uint64_t size_with_mt, size_without_mt; db_->GetApproximateSizes(&r, 1, &size_with_mt, include_both); ASSERT_GT(size_with_mt, 6000); db_->GetApproximateSizes(&r, 1, &size_without_mt); ASSERT_EQ(size_without_mt, 0); Flush(); for (int i = 0; i < N; i++) { ASSERT_OK(Put(Key(i + 1000), RandomString(&rnd, 1024))); } start = Key(1050); end = Key(1080); r = Range(start, end); db_->GetApproximateSizes(&r, 1, &size_with_mt, include_both); db_->GetApproximateSizes(&r, 1, &size_without_mt); ASSERT_GT(size_with_mt, size_without_mt); ASSERT_GT(size_without_mt, 6000); } TEST_F(DBTest, GetApproximateMemTableStats) { Options options = CurrentOptions(); options.write_buffer_size = 100000000; options.compression = kNoCompression; options.create_if_missing = true; DestroyAndReopen(options); const int N = 128; Random rnd(301); for (int i = 0; i < N; i++) { ASSERT_OK(Put(Key(i), RandomString(&rnd, 1024))); } uint64_t count; uint64_t size; std::string start = Key(50); std::string end = Key(60); Range r(start, end); db_->GetApproximateMemTableStats(r, &count, &size); ASSERT_GT(count, 0); ASSERT_LE(count, N); ASSERT_GT(size, 6000); ASSERT_LT(size, 204800); start = Key(500); end = Key(600); r = Range(start, end); db_->GetApproximateMemTableStats(r, &count, &size); ASSERT_EQ(count, 0); ASSERT_EQ(size, 0); Flush(); start = Key(50); end = Key(60); r = Range(start, end); db_->GetApproximateMemTableStats(r, &count, &size); ASSERT_EQ(count, 0); ASSERT_EQ(size, 0); for (int i = 0; i < N; i++) { ASSERT_OK(Put(Key(1000 + i), RandomString(&rnd, 1024))); } start = Key(100); end = Key(1020); r = Range(start, end); db_->GetApproximateMemTableStats(r, &count, &size); ASSERT_GT(count, 20); ASSERT_GT(size, 6000); } TEST_F(DBTest, ApproximateSizes) { do { Options options = CurrentOptions(); options.write_buffer_size = 100000000; // Large write buffer options.compression = kNoCompression; options.create_if_missing = true; DestroyAndReopen(options); CreateAndReopenWithCF({"pikachu"}, options); ASSERT_TRUE(Between(Size("", "xyz", 1), 0, 0)); ReopenWithColumnFamilies({"default", "pikachu"}, options); ASSERT_TRUE(Between(Size("", "xyz", 1), 0, 0)); // Write 8MB (80 values, each 100K) ASSERT_EQ(NumTableFilesAtLevel(0, 1), 0); const int N = 80; static const int S1 = 100000; static const int S2 = 105000; // Allow some expansion from metadata Random rnd(301); for (int i = 0; i < N; i++) { ASSERT_OK(Put(1, Key(i), RandomString(&rnd, S1))); } // 0 because GetApproximateSizes() does not account for memtable space ASSERT_TRUE(Between(Size("", Key(50), 1), 0, 0)); // Check sizes across recovery by reopening a few times for (int run = 0; run < 3; run++) { ReopenWithColumnFamilies({"default", "pikachu"}, options); for (int compact_start = 0; compact_start < N; compact_start += 10) { for (int i = 0; i < N; i += 10) { ASSERT_TRUE(Between(Size("", Key(i), 1), S1 * i, S2 * i)); ASSERT_TRUE(Between(Size("", Key(i) + ".suffix", 1), S1 * (i + 1), S2 * (i + 1))); ASSERT_TRUE(Between(Size(Key(i), Key(i + 10), 1), S1 * 10, S2 * 10)); } ASSERT_TRUE(Between(Size("", Key(50), 1), S1 * 50, S2 * 50)); ASSERT_TRUE( Between(Size("", Key(50) + ".suffix", 1), S1 * 50, S2 * 50)); std::string cstart_str = Key(compact_start); std::string cend_str = Key(compact_start + 9); Slice cstart = cstart_str; Slice cend = cend_str; dbfull()->TEST_CompactRange(0, &cstart, &cend, handles_[1]); } ASSERT_EQ(NumTableFilesAtLevel(0, 1), 0); ASSERT_GT(NumTableFilesAtLevel(1, 1), 0); } // ApproximateOffsetOf() is not yet implemented in plain table format. } while (ChangeOptions(kSkipUniversalCompaction | kSkipFIFOCompaction | kSkipPlainTable | kSkipHashIndex)); } TEST_F(DBTest, ApproximateSizes_MixOfSmallAndLarge) { do { Options options = CurrentOptions(); options.compression = kNoCompression; CreateAndReopenWithCF({"pikachu"}, options); Random rnd(301); std::string big1 = RandomString(&rnd, 100000); ASSERT_OK(Put(1, Key(0), RandomString(&rnd, 10000))); ASSERT_OK(Put(1, Key(1), RandomString(&rnd, 10000))); ASSERT_OK(Put(1, Key(2), big1)); ASSERT_OK(Put(1, Key(3), RandomString(&rnd, 10000))); ASSERT_OK(Put(1, Key(4), big1)); ASSERT_OK(Put(1, Key(5), RandomString(&rnd, 10000))); ASSERT_OK(Put(1, Key(6), RandomString(&rnd, 300000))); ASSERT_OK(Put(1, Key(7), RandomString(&rnd, 10000))); // Check sizes across recovery by reopening a few times for (int run = 0; run < 3; run++) { ReopenWithColumnFamilies({"default", "pikachu"}, options); ASSERT_TRUE(Between(Size("", Key(0), 1), 0, 0)); ASSERT_TRUE(Between(Size("", Key(1), 1), 10000, 11000)); ASSERT_TRUE(Between(Size("", Key(2), 1), 20000, 21000)); ASSERT_TRUE(Between(Size("", Key(3), 1), 120000, 121000)); ASSERT_TRUE(Between(Size("", Key(4), 1), 130000, 131000)); ASSERT_TRUE(Between(Size("", Key(5), 1), 230000, 231000)); ASSERT_TRUE(Between(Size("", Key(6), 1), 240000, 241000)); ASSERT_TRUE(Between(Size("", Key(7), 1), 540000, 541000)); ASSERT_TRUE(Between(Size("", Key(8), 1), 550000, 560000)); ASSERT_TRUE(Between(Size(Key(3), Key(5), 1), 110000, 111000)); dbfull()->TEST_CompactRange(0, nullptr, nullptr, handles_[1]); } // ApproximateOffsetOf() is not yet implemented in plain table format. } while (ChangeOptions(kSkipPlainTable)); } #endif // ROCKSDB_LITE #ifndef ROCKSDB_LITE TEST_F(DBTest, Snapshot) { anon::OptionsOverride options_override; options_override.skip_policy = kSkipNoSnapshot; do { CreateAndReopenWithCF({"pikachu"}, CurrentOptions(options_override)); Put(0, "foo", "0v1"); Put(1, "foo", "1v1"); const Snapshot* s1 = db_->GetSnapshot(); ASSERT_EQ(1U, GetNumSnapshots()); uint64_t time_snap1 = GetTimeOldestSnapshots(); ASSERT_GT(time_snap1, 0U); Put(0, "foo", "0v2"); Put(1, "foo", "1v2"); env_->addon_time_.fetch_add(1); const Snapshot* s2 = db_->GetSnapshot(); ASSERT_EQ(2U, GetNumSnapshots()); ASSERT_EQ(time_snap1, GetTimeOldestSnapshots()); Put(0, "foo", "0v3"); Put(1, "foo", "1v3"); { ManagedSnapshot s3(db_); ASSERT_EQ(3U, GetNumSnapshots()); ASSERT_EQ(time_snap1, GetTimeOldestSnapshots()); Put(0, "foo", "0v4"); Put(1, "foo", "1v4"); ASSERT_EQ("0v1", Get(0, "foo", s1)); ASSERT_EQ("1v1", Get(1, "foo", s1)); ASSERT_EQ("0v2", Get(0, "foo", s2)); ASSERT_EQ("1v2", Get(1, "foo", s2)); ASSERT_EQ("0v3", Get(0, "foo", s3.snapshot())); ASSERT_EQ("1v3", Get(1, "foo", s3.snapshot())); ASSERT_EQ("0v4", Get(0, "foo")); ASSERT_EQ("1v4", Get(1, "foo")); } ASSERT_EQ(2U, GetNumSnapshots()); ASSERT_EQ(time_snap1, GetTimeOldestSnapshots()); ASSERT_EQ("0v1", Get(0, "foo", s1)); ASSERT_EQ("1v1", Get(1, "foo", s1)); ASSERT_EQ("0v2", Get(0, "foo", s2)); ASSERT_EQ("1v2", Get(1, "foo", s2)); ASSERT_EQ("0v4", Get(0, "foo")); ASSERT_EQ("1v4", Get(1, "foo")); db_->ReleaseSnapshot(s1); ASSERT_EQ("0v2", Get(0, "foo", s2)); ASSERT_EQ("1v2", Get(1, "foo", s2)); ASSERT_EQ("0v4", Get(0, "foo")); ASSERT_EQ("1v4", Get(1, "foo")); ASSERT_EQ(1U, GetNumSnapshots()); ASSERT_LT(time_snap1, GetTimeOldestSnapshots()); db_->ReleaseSnapshot(s2); ASSERT_EQ(0U, GetNumSnapshots()); ASSERT_EQ("0v4", Get(0, "foo")); ASSERT_EQ("1v4", Get(1, "foo")); } while (ChangeOptions(kSkipHashCuckoo)); } TEST_F(DBTest, HiddenValuesAreRemoved) { anon::OptionsOverride options_override; options_override.skip_policy = kSkipNoSnapshot; do { Options options = CurrentOptions(options_override); CreateAndReopenWithCF({"pikachu"}, options); Random rnd(301); FillLevels("a", "z", 1); std::string big = RandomString(&rnd, 50000); Put(1, "foo", big); Put(1, "pastfoo", "v"); const Snapshot* snapshot = db_->GetSnapshot(); Put(1, "foo", "tiny"); Put(1, "pastfoo2", "v2"); // Advance sequence number one more ASSERT_OK(Flush(1)); ASSERT_GT(NumTableFilesAtLevel(0, 1), 0); ASSERT_EQ(big, Get(1, "foo", snapshot)); ASSERT_TRUE(Between(Size("", "pastfoo", 1), 50000, 60000)); db_->ReleaseSnapshot(snapshot); ASSERT_EQ(AllEntriesFor("foo", 1), "[ tiny, " + big + " ]"); Slice x("x"); dbfull()->TEST_CompactRange(0, nullptr, &x, handles_[1]); ASSERT_EQ(AllEntriesFor("foo", 1), "[ tiny ]"); ASSERT_EQ(NumTableFilesAtLevel(0, 1), 0); ASSERT_GE(NumTableFilesAtLevel(1, 1), 1); dbfull()->TEST_CompactRange(1, nullptr, &x, handles_[1]); ASSERT_EQ(AllEntriesFor("foo", 1), "[ tiny ]"); ASSERT_TRUE(Between(Size("", "pastfoo", 1), 0, 1000)); // ApproximateOffsetOf() is not yet implemented in plain table format, // which is used by Size(). // skip HashCuckooRep as it does not support snapshot } while (ChangeOptions(kSkipUniversalCompaction | kSkipFIFOCompaction | kSkipPlainTable | kSkipHashCuckoo)); } #endif // ROCKSDB_LITE TEST_F(DBTest, UnremovableSingleDelete) { // If we compact: // // Put(A, v1) Snapshot SingleDelete(A) Put(A, v2) // // We do not want to end up with: // // Put(A, v1) Snapshot Put(A, v2) // // Because a subsequent SingleDelete(A) would delete the Put(A, v2) // but not Put(A, v1), so Get(A) would return v1. anon::OptionsOverride options_override; options_override.skip_policy = kSkipNoSnapshot; do { Options options = CurrentOptions(options_override); options.disable_auto_compactions = true; CreateAndReopenWithCF({"pikachu"}, options); Put(1, "foo", "first"); const Snapshot* snapshot = db_->GetSnapshot(); SingleDelete(1, "foo"); Put(1, "foo", "second"); ASSERT_OK(Flush(1)); ASSERT_EQ("first", Get(1, "foo", snapshot)); ASSERT_EQ("second", Get(1, "foo")); dbfull()->CompactRange(CompactRangeOptions(), handles_[1], nullptr, nullptr); ASSERT_EQ("[ second, SDEL, first ]", AllEntriesFor("foo", 1)); SingleDelete(1, "foo"); ASSERT_EQ("first", Get(1, "foo", snapshot)); ASSERT_EQ("NOT_FOUND", Get(1, "foo")); dbfull()->CompactRange(CompactRangeOptions(), handles_[1], nullptr, nullptr); ASSERT_EQ("first", Get(1, "foo", snapshot)); ASSERT_EQ("NOT_FOUND", Get(1, "foo")); db_->ReleaseSnapshot(snapshot); // Skip HashCuckooRep as it does not support single delete. FIFO and // universal compaction do not apply to the test case. Skip MergePut // because single delete does not get removed when it encounters a merge. } while (ChangeOptions(kSkipHashCuckoo | kSkipFIFOCompaction | kSkipUniversalCompaction | kSkipMergePut)); } #ifndef ROCKSDB_LITE TEST_F(DBTest, DeletionMarkers1) { Options options = CurrentOptions(); CreateAndReopenWithCF({"pikachu"}, options); Put(1, "foo", "v1"); ASSERT_OK(Flush(1)); const int last = 2; MoveFilesToLevel(last, 1); // foo => v1 is now in last level ASSERT_EQ(NumTableFilesAtLevel(last, 1), 1); // Place a table at level last-1 to prevent merging with preceding mutation Put(1, "a", "begin"); Put(1, "z", "end"); Flush(1); MoveFilesToLevel(last - 1, 1); ASSERT_EQ(NumTableFilesAtLevel(last, 1), 1); ASSERT_EQ(NumTableFilesAtLevel(last - 1, 1), 1); Delete(1, "foo"); Put(1, "foo", "v2"); ASSERT_EQ(AllEntriesFor("foo", 1), "[ v2, DEL, v1 ]"); ASSERT_OK(Flush(1)); // Moves to level last-2 ASSERT_EQ(AllEntriesFor("foo", 1), "[ v2, v1 ]"); Slice z("z"); dbfull()->TEST_CompactRange(last - 2, nullptr, &z, handles_[1]); // DEL eliminated, but v1 remains because we aren't compacting that level // (DEL can be eliminated because v2 hides v1). ASSERT_EQ(AllEntriesFor("foo", 1), "[ v2, v1 ]"); dbfull()->TEST_CompactRange(last - 1, nullptr, nullptr, handles_[1]); // Merging last-1 w/ last, so we are the base level for "foo", so // DEL is removed. (as is v1). ASSERT_EQ(AllEntriesFor("foo", 1), "[ v2 ]"); } TEST_F(DBTest, DeletionMarkers2) { Options options = CurrentOptions(); CreateAndReopenWithCF({"pikachu"}, options); Put(1, "foo", "v1"); ASSERT_OK(Flush(1)); const int last = 2; MoveFilesToLevel(last, 1); // foo => v1 is now in last level ASSERT_EQ(NumTableFilesAtLevel(last, 1), 1); // Place a table at level last-1 to prevent merging with preceding mutation Put(1, "a", "begin"); Put(1, "z", "end"); Flush(1); MoveFilesToLevel(last - 1, 1); ASSERT_EQ(NumTableFilesAtLevel(last, 1), 1); ASSERT_EQ(NumTableFilesAtLevel(last - 1, 1), 1); Delete(1, "foo"); ASSERT_EQ(AllEntriesFor("foo", 1), "[ DEL, v1 ]"); ASSERT_OK(Flush(1)); // Moves to level last-2 ASSERT_EQ(AllEntriesFor("foo", 1), "[ DEL, v1 ]"); dbfull()->TEST_CompactRange(last - 2, nullptr, nullptr, handles_[1]); // DEL kept: "last" file overlaps ASSERT_EQ(AllEntriesFor("foo", 1), "[ DEL, v1 ]"); dbfull()->TEST_CompactRange(last - 1, nullptr, nullptr, handles_[1]); // Merging last-1 w/ last, so we are the base level for "foo", so // DEL is removed. (as is v1). ASSERT_EQ(AllEntriesFor("foo", 1), "[ ]"); } TEST_F(DBTest, OverlapInLevel0) { do { Options options = CurrentOptions(); CreateAndReopenWithCF({"pikachu"}, options); // Fill levels 1 and 2 to disable the pushing of new memtables to levels > // 0. ASSERT_OK(Put(1, "100", "v100")); ASSERT_OK(Put(1, "999", "v999")); Flush(1); MoveFilesToLevel(2, 1); ASSERT_OK(Delete(1, "100")); ASSERT_OK(Delete(1, "999")); Flush(1); MoveFilesToLevel(1, 1); ASSERT_EQ("0,1,1", FilesPerLevel(1)); // Make files spanning the following ranges in level-0: // files[0] 200 .. 900 // files[1] 300 .. 500 // Note that files are sorted by smallest key. ASSERT_OK(Put(1, "300", "v300")); ASSERT_OK(Put(1, "500", "v500")); Flush(1); ASSERT_OK(Put(1, "200", "v200")); ASSERT_OK(Put(1, "600", "v600")); ASSERT_OK(Put(1, "900", "v900")); Flush(1); ASSERT_EQ("2,1,1", FilesPerLevel(1)); // Compact away the placeholder files we created initially dbfull()->TEST_CompactRange(1, nullptr, nullptr, handles_[1]); dbfull()->TEST_CompactRange(2, nullptr, nullptr, handles_[1]); ASSERT_EQ("2", FilesPerLevel(1)); // Do a memtable compaction. Before bug-fix, the compaction would // not detect the overlap with level-0 files and would incorrectly place // the deletion in a deeper level. ASSERT_OK(Delete(1, "600")); Flush(1); ASSERT_EQ("3", FilesPerLevel(1)); ASSERT_EQ("NOT_FOUND", Get(1, "600")); } while (ChangeOptions(kSkipUniversalCompaction | kSkipFIFOCompaction)); } #endif // ROCKSDB_LITE TEST_F(DBTest, ComparatorCheck) { class NewComparator : public Comparator { public: virtual const char* Name() const override { return "rocksdb.NewComparator"; } virtual int Compare(const Slice& a, const Slice& b) const override { return BytewiseComparator()->Compare(a, b); } virtual void FindShortestSeparator(std::string* s, const Slice& l) const override { BytewiseComparator()->FindShortestSeparator(s, l); } virtual void FindShortSuccessor(std::string* key) const override { BytewiseComparator()->FindShortSuccessor(key); } }; Options new_options, options; NewComparator cmp; do { options = CurrentOptions(); CreateAndReopenWithCF({"pikachu"}, options); new_options = CurrentOptions(); new_options.comparator = &cmp; // only the non-default column family has non-matching comparator Status s = TryReopenWithColumnFamilies( {"default", "pikachu"}, std::vector({options, new_options})); ASSERT_TRUE(!s.ok()); ASSERT_TRUE(s.ToString().find("comparator") != std::string::npos) << s.ToString(); } while (ChangeCompactOptions()); } TEST_F(DBTest, CustomComparator) { class NumberComparator : public Comparator { public: virtual const char* Name() const override { return "test.NumberComparator"; } virtual int Compare(const Slice& a, const Slice& b) const override { return ToNumber(a) - ToNumber(b); } virtual void FindShortestSeparator(std::string* s, const Slice& l) const override { ToNumber(*s); // Check format ToNumber(l); // Check format } virtual void FindShortSuccessor(std::string* key) const override { ToNumber(*key); // Check format } private: static int ToNumber(const Slice& x) { // Check that there are no extra characters. EXPECT_TRUE(x.size() >= 2 && x[0] == '[' && x[x.size() - 1] == ']') << EscapeString(x); int val; char ignored; EXPECT_TRUE(sscanf(x.ToString().c_str(), "[%i]%c", &val, &ignored) == 1) << EscapeString(x); return val; } }; Options new_options; NumberComparator cmp; do { new_options = CurrentOptions(); new_options.create_if_missing = true; new_options.comparator = &cmp; new_options.write_buffer_size = 4096; // Compact more often new_options.arena_block_size = 4096; new_options = CurrentOptions(new_options); DestroyAndReopen(new_options); CreateAndReopenWithCF({"pikachu"}, new_options); ASSERT_OK(Put(1, "[10]", "ten")); ASSERT_OK(Put(1, "[0x14]", "twenty")); for (int i = 0; i < 2; i++) { ASSERT_EQ("ten", Get(1, "[10]")); ASSERT_EQ("ten", Get(1, "[0xa]")); ASSERT_EQ("twenty", Get(1, "[20]")); ASSERT_EQ("twenty", Get(1, "[0x14]")); ASSERT_EQ("NOT_FOUND", Get(1, "[15]")); ASSERT_EQ("NOT_FOUND", Get(1, "[0xf]")); Compact(1, "[0]", "[9999]"); } for (int run = 0; run < 2; run++) { for (int i = 0; i < 1000; i++) { char buf[100]; snprintf(buf, sizeof(buf), "[%d]", i * 10); ASSERT_OK(Put(1, buf, buf)); } Compact(1, "[0]", "[1000000]"); } } while (ChangeCompactOptions()); } TEST_F(DBTest, DBOpen_Options) { Options options = CurrentOptions(); std::string dbname = test::PerThreadDBPath("db_options_test"); ASSERT_OK(DestroyDB(dbname, options)); // Does not exist, and create_if_missing == false: error DB* db = nullptr; options.create_if_missing = false; Status s = DB::Open(options, dbname, &db); ASSERT_TRUE(strstr(s.ToString().c_str(), "does not exist") != nullptr); ASSERT_TRUE(db == nullptr); // Does not exist, and create_if_missing == true: OK options.create_if_missing = true; s = DB::Open(options, dbname, &db); ASSERT_OK(s); ASSERT_TRUE(db != nullptr); delete db; db = nullptr; // Does exist, and error_if_exists == true: error options.create_if_missing = false; options.error_if_exists = true; s = DB::Open(options, dbname, &db); ASSERT_TRUE(strstr(s.ToString().c_str(), "exists") != nullptr); ASSERT_TRUE(db == nullptr); // Does exist, and error_if_exists == false: OK options.create_if_missing = true; options.error_if_exists = false; s = DB::Open(options, dbname, &db); ASSERT_OK(s); ASSERT_TRUE(db != nullptr); delete db; db = nullptr; } TEST_F(DBTest, DBOpen_Change_NumLevels) { Options options = CurrentOptions(); options.create_if_missing = true; DestroyAndReopen(options); ASSERT_TRUE(db_ != nullptr); CreateAndReopenWithCF({"pikachu"}, options); ASSERT_OK(Put(1, "a", "123")); ASSERT_OK(Put(1, "b", "234")); Flush(1); MoveFilesToLevel(3, 1); Close(); options.create_if_missing = false; options.num_levels = 2; Status s = TryReopenWithColumnFamilies({"default", "pikachu"}, options); ASSERT_TRUE(strstr(s.ToString().c_str(), "Invalid argument") != nullptr); ASSERT_TRUE(db_ == nullptr); } TEST_F(DBTest, DestroyDBMetaDatabase) { std::string dbname = test::PerThreadDBPath("db_meta"); ASSERT_OK(env_->CreateDirIfMissing(dbname)); std::string metadbname = MetaDatabaseName(dbname, 0); ASSERT_OK(env_->CreateDirIfMissing(metadbname)); std::string metametadbname = MetaDatabaseName(metadbname, 0); ASSERT_OK(env_->CreateDirIfMissing(metametadbname)); // Destroy previous versions if they exist. Using the long way. Options options = CurrentOptions(); ASSERT_OK(DestroyDB(metametadbname, options)); ASSERT_OK(DestroyDB(metadbname, options)); ASSERT_OK(DestroyDB(dbname, options)); // Setup databases DB* db = nullptr; ASSERT_OK(DB::Open(options, dbname, &db)); delete db; db = nullptr; ASSERT_OK(DB::Open(options, metadbname, &db)); delete db; db = nullptr; ASSERT_OK(DB::Open(options, metametadbname, &db)); delete db; db = nullptr; // Delete databases ASSERT_OK(DestroyDB(dbname, options)); // Check if deletion worked. options.create_if_missing = false; ASSERT_TRUE(!(DB::Open(options, dbname, &db)).ok()); ASSERT_TRUE(!(DB::Open(options, metadbname, &db)).ok()); ASSERT_TRUE(!(DB::Open(options, metametadbname, &db)).ok()); } #ifndef ROCKSDB_LITE TEST_F(DBTest, SnapshotFiles) { do { Options options = CurrentOptions(); options.write_buffer_size = 100000000; // Large write buffer CreateAndReopenWithCF({"pikachu"}, options); Random rnd(301); // Write 8MB (80 values, each 100K) ASSERT_EQ(NumTableFilesAtLevel(0, 1), 0); std::vector values; for (int i = 0; i < 80; i++) { values.push_back(RandomString(&rnd, 100000)); ASSERT_OK(Put((i < 40), Key(i), values[i])); } // assert that nothing makes it to disk yet. ASSERT_EQ(NumTableFilesAtLevel(0, 1), 0); // get a file snapshot uint64_t manifest_number = 0; uint64_t manifest_size = 0; std::vector files; dbfull()->DisableFileDeletions(); dbfull()->GetLiveFiles(files, &manifest_size); // CURRENT, MANIFEST, OPTIONS, *.sst files (one for each CF) ASSERT_EQ(files.size(), 5U); uint64_t number = 0; FileType type; // copy these files to a new snapshot directory std::string snapdir = dbname_ + ".snapdir/"; ASSERT_OK(env_->CreateDirIfMissing(snapdir)); for (size_t i = 0; i < files.size(); i++) { // our clients require that GetLiveFiles returns // files with "/" as first character! ASSERT_EQ(files[i][0], '/'); std::string src = dbname_ + files[i]; std::string dest = snapdir + files[i]; uint64_t size; ASSERT_OK(env_->GetFileSize(src, &size)); // record the number and the size of the // latest manifest file if (ParseFileName(files[i].substr(1), &number, &type)) { if (type == kDescriptorFile) { if (number > manifest_number) { manifest_number = number; ASSERT_GE(size, manifest_size); size = manifest_size; // copy only valid MANIFEST data } } } CopyFile(src, dest, size); } // release file snapshot dbfull()->DisableFileDeletions(); // overwrite one key, this key should not appear in the snapshot std::vector extras; for (unsigned int i = 0; i < 1; i++) { extras.push_back(RandomString(&rnd, 100000)); ASSERT_OK(Put(0, Key(i), extras[i])); } // verify that data in the snapshot are correct std::vector column_families; column_families.emplace_back("default", ColumnFamilyOptions()); column_families.emplace_back("pikachu", ColumnFamilyOptions()); std::vector cf_handles; DB* snapdb; DBOptions opts; opts.env = env_; opts.create_if_missing = false; Status stat = DB::Open(opts, snapdir, column_families, &cf_handles, &snapdb); ASSERT_OK(stat); ReadOptions roptions; std::string val; for (unsigned int i = 0; i < 80; i++) { stat = snapdb->Get(roptions, cf_handles[i < 40], Key(i), &val); ASSERT_EQ(values[i].compare(val), 0); } for (auto cfh : cf_handles) { delete cfh; } delete snapdb; // look at the new live files after we added an 'extra' key // and after we took the first snapshot. uint64_t new_manifest_number = 0; uint64_t new_manifest_size = 0; std::vector newfiles; dbfull()->DisableFileDeletions(); dbfull()->GetLiveFiles(newfiles, &new_manifest_size); // find the new manifest file. assert that this manifest file is // the same one as in the previous snapshot. But its size should be // larger because we added an extra key after taking the // previous shapshot. for (size_t i = 0; i < newfiles.size(); i++) { std::string src = dbname_ + "/" + newfiles[i]; // record the lognumber and the size of the // latest manifest file if (ParseFileName(newfiles[i].substr(1), &number, &type)) { if (type == kDescriptorFile) { if (number > new_manifest_number) { uint64_t size; new_manifest_number = number; ASSERT_OK(env_->GetFileSize(src, &size)); ASSERT_GE(size, new_manifest_size); } } } } ASSERT_EQ(manifest_number, new_manifest_number); ASSERT_GT(new_manifest_size, manifest_size); // release file snapshot dbfull()->DisableFileDeletions(); } while (ChangeCompactOptions()); } #endif TEST_F(DBTest, PurgeInfoLogs) { Options options = CurrentOptions(); options.keep_log_file_num = 5; options.create_if_missing = true; for (int mode = 0; mode <= 1; mode++) { if (mode == 1) { options.db_log_dir = dbname_ + "_logs"; env_->CreateDirIfMissing(options.db_log_dir); } else { options.db_log_dir = ""; } for (int i = 0; i < 8; i++) { Reopen(options); } std::vector files; env_->GetChildren(options.db_log_dir.empty() ? dbname_ : options.db_log_dir, &files); int info_log_count = 0; for (std::string file : files) { if (file.find("LOG") != std::string::npos) { info_log_count++; } } ASSERT_EQ(5, info_log_count); Destroy(options); // For mode (1), test DestroyDB() to delete all the logs under DB dir. // For mode (2), no info log file should have been put under DB dir. std::vector db_files; env_->GetChildren(dbname_, &db_files); for (std::string file : db_files) { ASSERT_TRUE(file.find("LOG") == std::string::npos); } if (mode == 1) { // Cleaning up env_->GetChildren(options.db_log_dir, &files); for (std::string file : files) { env_->DeleteFile(options.db_log_dir + "/" + file); } env_->DeleteDir(options.db_log_dir); } } } #ifndef ROCKSDB_LITE // Multi-threaded test: namespace { static const int kColumnFamilies = 10; static const int kNumThreads = 10; static const int kTestSeconds = 10; static const int kNumKeys = 1000; struct MTState { DBTest* test; std::atomic stop; std::atomic counter[kNumThreads]; std::atomic thread_done[kNumThreads]; }; struct MTThread { MTState* state; int id; }; static void MTThreadBody(void* arg) { MTThread* t = reinterpret_cast(arg); int id = t->id; DB* db = t->state->test->db_; int counter = 0; fprintf(stderr, "... starting thread %d\n", id); Random rnd(1000 + id); char valbuf[1500]; while (t->state->stop.load(std::memory_order_acquire) == false) { t->state->counter[id].store(counter, std::memory_order_release); int key = rnd.Uniform(kNumKeys); char keybuf[20]; snprintf(keybuf, sizeof(keybuf), "%016d", key); if (rnd.OneIn(2)) { // Write values of the form . // into each of the CFs // We add some padding for force compactions. int unique_id = rnd.Uniform(1000000); // Half of the time directly use WriteBatch. Half of the time use // WriteBatchWithIndex. if (rnd.OneIn(2)) { WriteBatch batch; for (int cf = 0; cf < kColumnFamilies; ++cf) { snprintf(valbuf, sizeof(valbuf), "%d.%d.%d.%d.%-1000d", key, id, static_cast(counter), cf, unique_id); batch.Put(t->state->test->handles_[cf], Slice(keybuf), Slice(valbuf)); } ASSERT_OK(db->Write(WriteOptions(), &batch)); } else { WriteBatchWithIndex batch(db->GetOptions().comparator); for (int cf = 0; cf < kColumnFamilies; ++cf) { snprintf(valbuf, sizeof(valbuf), "%d.%d.%d.%d.%-1000d", key, id, static_cast(counter), cf, unique_id); batch.Put(t->state->test->handles_[cf], Slice(keybuf), Slice(valbuf)); } ASSERT_OK(db->Write(WriteOptions(), batch.GetWriteBatch())); } } else { // Read a value and verify that it matches the pattern written above // and that writes to all column families were atomic (unique_id is the // same) std::vector keys(kColumnFamilies, Slice(keybuf)); std::vector values; std::vector statuses = db->MultiGet(ReadOptions(), t->state->test->handles_, keys, &values); Status s = statuses[0]; // all statuses have to be the same for (size_t i = 1; i < statuses.size(); ++i) { // they are either both ok or both not-found ASSERT_TRUE((s.ok() && statuses[i].ok()) || (s.IsNotFound() && statuses[i].IsNotFound())); } if (s.IsNotFound()) { // Key has not yet been written } else { // Check that the writer thread counter is >= the counter in the value ASSERT_OK(s); int unique_id = -1; for (int i = 0; i < kColumnFamilies; ++i) { int k, w, c, cf, u; ASSERT_EQ(5, sscanf(values[i].c_str(), "%d.%d.%d.%d.%d", &k, &w, &c, &cf, &u)) << values[i]; ASSERT_EQ(k, key); ASSERT_GE(w, 0); ASSERT_LT(w, kNumThreads); ASSERT_LE(c, t->state->counter[w].load(std::memory_order_acquire)); ASSERT_EQ(cf, i); if (i == 0) { unique_id = u; } else { // this checks that updates across column families happened // atomically -- all unique ids are the same ASSERT_EQ(u, unique_id); } } } } counter++; } t->state->thread_done[id].store(true, std::memory_order_release); fprintf(stderr, "... stopping thread %d after %d ops\n", id, int(counter)); } } // namespace class MultiThreadedDBTest : public DBTest, public ::testing::WithParamInterface { public: virtual void SetUp() override { option_config_ = GetParam(); } static std::vector GenerateOptionConfigs() { std::vector optionConfigs; for (int optionConfig = kDefault; optionConfig < kEnd; ++optionConfig) { // skip as HashCuckooRep does not support snapshot if (optionConfig != kHashCuckoo) { optionConfigs.push_back(optionConfig); } } return optionConfigs; } }; TEST_P(MultiThreadedDBTest, MultiThreaded) { anon::OptionsOverride options_override; options_override.skip_policy = kSkipNoSnapshot; Options options = CurrentOptions(options_override); std::vector cfs; for (int i = 1; i < kColumnFamilies; ++i) { cfs.push_back(ToString(i)); } Reopen(options); CreateAndReopenWithCF(cfs, options); // Initialize state MTState mt; mt.test = this; mt.stop.store(false, std::memory_order_release); for (int id = 0; id < kNumThreads; id++) { mt.counter[id].store(0, std::memory_order_release); mt.thread_done[id].store(false, std::memory_order_release); } // Start threads MTThread thread[kNumThreads]; for (int id = 0; id < kNumThreads; id++) { thread[id].state = &mt; thread[id].id = id; env_->StartThread(MTThreadBody, &thread[id]); } // Let them run for a while env_->SleepForMicroseconds(kTestSeconds * 1000000); // Stop the threads and wait for them to finish mt.stop.store(true, std::memory_order_release); for (int id = 0; id < kNumThreads; id++) { while (mt.thread_done[id].load(std::memory_order_acquire) == false) { env_->SleepForMicroseconds(100000); } } } INSTANTIATE_TEST_CASE_P( MultiThreaded, MultiThreadedDBTest, ::testing::ValuesIn(MultiThreadedDBTest::GenerateOptionConfigs())); #endif // ROCKSDB_LITE // Group commit test: namespace { static const int kGCNumThreads = 4; static const int kGCNumKeys = 1000; struct GCThread { DB* db; int id; std::atomic done; }; static void GCThreadBody(void* arg) { GCThread* t = reinterpret_cast(arg); int id = t->id; DB* db = t->db; WriteOptions wo; for (int i = 0; i < kGCNumKeys; ++i) { std::string kv(ToString(i + id * kGCNumKeys)); ASSERT_OK(db->Put(wo, kv, kv)); } t->done = true; } } // namespace #ifndef TRAVIS // Disable this test temporarily on Travis as it fails intermittently. // Github issue: #4151 TEST_F(DBTest, GroupCommitTest) { do { Options options = CurrentOptions(); options.env = env_; options.statistics = rocksdb::CreateDBStatistics(); Reopen(options); rocksdb::SyncPoint::GetInstance()->LoadDependency( {{"WriteThread::JoinBatchGroup:BeganWaiting", "DBImpl::WriteImpl:BeforeLeaderEnters"}}); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); // Start threads GCThread thread[kGCNumThreads]; for (int id = 0; id < kGCNumThreads; id++) { thread[id].id = id; thread[id].db = db_; thread[id].done = false; env_->StartThread(GCThreadBody, &thread[id]); } env_->WaitForJoin(); ASSERT_GT(TestGetTickerCount(options, WRITE_DONE_BY_OTHER), 0); std::vector expected_db; for (int i = 0; i < kGCNumThreads * kGCNumKeys; ++i) { expected_db.push_back(ToString(i)); } std::sort(expected_db.begin(), expected_db.end()); Iterator* itr = db_->NewIterator(ReadOptions()); itr->SeekToFirst(); for (auto x : expected_db) { ASSERT_TRUE(itr->Valid()); ASSERT_EQ(itr->key().ToString(), x); ASSERT_EQ(itr->value().ToString(), x); itr->Next(); } ASSERT_TRUE(!itr->Valid()); delete itr; HistogramData hist_data; options.statistics->histogramData(DB_WRITE, &hist_data); ASSERT_GT(hist_data.average, 0.0); } while (ChangeOptions(kSkipNoSeekToLast)); } #endif // TRAVIS namespace { typedef std::map KVMap; } class ModelDB : public DB { public: class ModelSnapshot : public Snapshot { public: KVMap map_; virtual SequenceNumber GetSequenceNumber() const override { // no need to call this assert(false); return 0; } }; explicit ModelDB(const Options& options) : options_(options) {} using DB::Put; virtual Status Put(const WriteOptions& o, ColumnFamilyHandle* cf, const Slice& k, const Slice& v) override { WriteBatch batch; batch.Put(cf, k, v); return Write(o, &batch); } using DB::Close; virtual Status Close() override { return Status::OK(); } using DB::Delete; virtual Status Delete(const WriteOptions& o, ColumnFamilyHandle* cf, const Slice& key) override { WriteBatch batch; batch.Delete(cf, key); return Write(o, &batch); } using DB::SingleDelete; virtual Status SingleDelete(const WriteOptions& o, ColumnFamilyHandle* cf, const Slice& key) override { WriteBatch batch; batch.SingleDelete(cf, key); return Write(o, &batch); } using DB::Merge; virtual Status Merge(const WriteOptions& o, ColumnFamilyHandle* cf, const Slice& k, const Slice& v) override { WriteBatch batch; batch.Merge(cf, k, v); return Write(o, &batch); } using DB::Get; virtual Status Get(const ReadOptions& /*options*/, ColumnFamilyHandle* /*cf*/, const Slice& key, PinnableSlice* /*value*/) override { return Status::NotSupported(key); } using DB::MultiGet; virtual std::vector MultiGet( const ReadOptions& /*options*/, const std::vector& /*column_family*/, const std::vector& keys, std::vector* /*values*/) override { std::vector s(keys.size(), Status::NotSupported("Not implemented.")); return s; } #ifndef ROCKSDB_LITE using DB::IngestExternalFile; virtual Status IngestExternalFile( ColumnFamilyHandle* /*column_family*/, const std::vector& /*external_files*/, const IngestExternalFileOptions& /*options*/) override { return Status::NotSupported("Not implemented."); } virtual Status VerifyChecksum() override { return Status::NotSupported("Not implemented."); } using DB::GetPropertiesOfAllTables; virtual Status GetPropertiesOfAllTables( ColumnFamilyHandle* /*column_family*/, TablePropertiesCollection* /*props*/) override { return Status(); } virtual Status GetPropertiesOfTablesInRange( ColumnFamilyHandle* /*column_family*/, const Range* /*range*/, std::size_t /*n*/, TablePropertiesCollection* /*props*/) override { return Status(); } #endif // ROCKSDB_LITE using DB::KeyMayExist; virtual bool KeyMayExist(const ReadOptions& /*options*/, ColumnFamilyHandle* /*column_family*/, const Slice& /*key*/, std::string* /*value*/, bool* value_found = nullptr) override { if (value_found != nullptr) { *value_found = false; } return true; // Not Supported directly } using DB::NewIterator; virtual Iterator* NewIterator( const ReadOptions& options, ColumnFamilyHandle* /*column_family*/) override { if (options.snapshot == nullptr) { KVMap* saved = new KVMap; *saved = map_; return new ModelIter(saved, true); } else { const KVMap* snapshot_state = &(reinterpret_cast(options.snapshot)->map_); return new ModelIter(snapshot_state, false); } } virtual Status NewIterators( const ReadOptions& /*options*/, const std::vector& /*column_family*/, std::vector* /*iterators*/) override { return Status::NotSupported("Not supported yet"); } virtual const Snapshot* GetSnapshot() override { ModelSnapshot* snapshot = new ModelSnapshot; snapshot->map_ = map_; return snapshot; } virtual void ReleaseSnapshot(const Snapshot* snapshot) override { delete reinterpret_cast(snapshot); } virtual Status Write(const WriteOptions& /*options*/, WriteBatch* batch) override { class Handler : public WriteBatch::Handler { public: KVMap* map_; virtual void Put(const Slice& key, const Slice& value) override { (*map_)[key.ToString()] = value.ToString(); } virtual void Merge(const Slice& /*key*/, const Slice& /*value*/) override { // ignore merge for now // (*map_)[key.ToString()] = value.ToString(); } virtual void Delete(const Slice& key) override { map_->erase(key.ToString()); } }; Handler handler; handler.map_ = &map_; return batch->Iterate(&handler); } using DB::GetProperty; virtual bool GetProperty(ColumnFamilyHandle* /*column_family*/, const Slice& /*property*/, std::string* /*value*/) override { return false; } using DB::GetIntProperty; virtual bool GetIntProperty(ColumnFamilyHandle* /*column_family*/, const Slice& /*property*/, uint64_t* /*value*/) override { return false; } using DB::GetMapProperty; virtual bool GetMapProperty( ColumnFamilyHandle* /*column_family*/, const Slice& /*property*/, std::map* /*value*/) override { return false; } using DB::GetAggregatedIntProperty; virtual bool GetAggregatedIntProperty(const Slice& /*property*/, uint64_t* /*value*/) override { return false; } using DB::GetApproximateSizes; virtual void GetApproximateSizes(ColumnFamilyHandle* /*column_family*/, const Range* /*range*/, int n, uint64_t* sizes, uint8_t /*include_flags*/ = INCLUDE_FILES) override { for (int i = 0; i < n; i++) { sizes[i] = 0; } } using DB::GetApproximateMemTableStats; virtual void GetApproximateMemTableStats( ColumnFamilyHandle* /*column_family*/, const Range& /*range*/, uint64_t* const count, uint64_t* const size) override { *count = 0; *size = 0; } using DB::CompactRange; virtual Status CompactRange(const CompactRangeOptions& /*options*/, ColumnFamilyHandle* /*column_family*/, const Slice* /*start*/, const Slice* /*end*/) override { return Status::NotSupported("Not supported operation."); } virtual Status SetDBOptions( const std::unordered_map& /*new_options*/) override { return Status::NotSupported("Not supported operation."); } using DB::CompactFiles; virtual Status CompactFiles( const CompactionOptions& /*compact_options*/, ColumnFamilyHandle* /*column_family*/, const std::vector& /*input_file_names*/, const int /*output_level*/, const int /*output_path_id*/ = -1, std::vector* const /*output_file_names*/ = nullptr ) override { return Status::NotSupported("Not supported operation."); } Status PauseBackgroundWork() override { return Status::NotSupported("Not supported operation."); } Status ContinueBackgroundWork() override { return Status::NotSupported("Not supported operation."); } Status EnableAutoCompaction( const std::vector& /*column_family_handles*/) override { return Status::NotSupported("Not supported operation."); } using DB::NumberLevels; virtual int NumberLevels(ColumnFamilyHandle* /*column_family*/) override { return 1; } using DB::MaxMemCompactionLevel; virtual int MaxMemCompactionLevel( ColumnFamilyHandle* /*column_family*/) override { return 1; } using DB::Level0StopWriteTrigger; virtual int Level0StopWriteTrigger( ColumnFamilyHandle* /*column_family*/) override { return -1; } virtual const std::string& GetName() const override { return name_; } virtual Env* GetEnv() const override { return nullptr; } using DB::GetOptions; virtual Options GetOptions( ColumnFamilyHandle* /*column_family*/) const override { return options_; } using DB::GetDBOptions; virtual DBOptions GetDBOptions() const override { return options_; } using DB::Flush; virtual Status Flush(const rocksdb::FlushOptions& /*options*/, ColumnFamilyHandle* /*column_family*/) override { Status ret; return ret; } virtual Status SyncWAL() override { return Status::OK(); } #ifndef ROCKSDB_LITE virtual Status DisableFileDeletions() override { return Status::OK(); } virtual Status EnableFileDeletions(bool /*force*/) override { return Status::OK(); } virtual Status GetLiveFiles(std::vector&, uint64_t* /*size*/, bool /*flush_memtable*/ = true) override { return Status::OK(); } virtual Status GetSortedWalFiles(VectorLogPtr& /*files*/) override { return Status::OK(); } virtual Status DeleteFile(std::string /*name*/) override { return Status::OK(); } virtual Status GetUpdatesSince( rocksdb::SequenceNumber, unique_ptr*, const TransactionLogIterator::ReadOptions& /*read_options*/ = TransactionLogIterator::ReadOptions()) override { return Status::NotSupported("Not supported in Model DB"); } virtual void GetColumnFamilyMetaData( ColumnFamilyHandle* /*column_family*/, ColumnFamilyMetaData* /*metadata*/) override {} #endif // ROCKSDB_LITE virtual Status GetDbIdentity(std::string& /*identity*/) const override { return Status::OK(); } virtual SequenceNumber GetLatestSequenceNumber() const override { return 0; } virtual bool SetPreserveDeletesSequenceNumber( SequenceNumber /*seqnum*/) override { return true; } virtual ColumnFamilyHandle* DefaultColumnFamily() const override { return nullptr; } private: class ModelIter : public Iterator { public: ModelIter(const KVMap* map, bool owned) : map_(map), owned_(owned), iter_(map_->end()) {} ~ModelIter() { if (owned_) delete map_; } virtual bool Valid() const override { return iter_ != map_->end(); } virtual void SeekToFirst() override { iter_ = map_->begin(); } virtual void SeekToLast() override { if (map_->empty()) { iter_ = map_->end(); } else { iter_ = map_->find(map_->rbegin()->first); } } virtual void Seek(const Slice& k) override { iter_ = map_->lower_bound(k.ToString()); } virtual void SeekForPrev(const Slice& k) override { iter_ = map_->upper_bound(k.ToString()); Prev(); } virtual void Next() override { ++iter_; } virtual void Prev() override { if (iter_ == map_->begin()) { iter_ = map_->end(); return; } --iter_; } virtual Slice key() const override { return iter_->first; } virtual Slice value() const override { return iter_->second; } virtual Status status() const override { return Status::OK(); } private: const KVMap* const map_; const bool owned_; // Do we own map_ KVMap::const_iterator iter_; }; const Options options_; KVMap map_; std::string name_ = ""; }; #ifndef ROCKSDB_VALGRIND_RUN static std::string RandomKey(Random* rnd, int minimum = 0) { int len; do { len = (rnd->OneIn(3) ? 1 // Short sometimes to encourage collisions : (rnd->OneIn(100) ? rnd->Skewed(10) : rnd->Uniform(10))); } while (len < minimum); return test::RandomKey(rnd, len); } static bool CompareIterators(int step, DB* model, DB* db, const Snapshot* model_snap, const Snapshot* db_snap) { ReadOptions options; options.snapshot = model_snap; Iterator* miter = model->NewIterator(options); options.snapshot = db_snap; Iterator* dbiter = db->NewIterator(options); bool ok = true; int count = 0; for (miter->SeekToFirst(), dbiter->SeekToFirst(); ok && miter->Valid() && dbiter->Valid(); miter->Next(), dbiter->Next()) { count++; if (miter->key().compare(dbiter->key()) != 0) { fprintf(stderr, "step %d: Key mismatch: '%s' vs. '%s'\n", step, EscapeString(miter->key()).c_str(), EscapeString(dbiter->key()).c_str()); ok = false; break; } if (miter->value().compare(dbiter->value()) != 0) { fprintf(stderr, "step %d: Value mismatch for key '%s': '%s' vs. '%s'\n", step, EscapeString(miter->key()).c_str(), EscapeString(miter->value()).c_str(), EscapeString(miter->value()).c_str()); ok = false; } } if (ok) { if (miter->Valid() != dbiter->Valid()) { fprintf(stderr, "step %d: Mismatch at end of iterators: %d vs. %d\n", step, miter->Valid(), dbiter->Valid()); ok = false; } } delete miter; delete dbiter; return ok; } class DBTestRandomized : public DBTest, public ::testing::WithParamInterface { public: virtual void SetUp() override { option_config_ = GetParam(); } static std::vector GenerateOptionConfigs() { std::vector option_configs; // skip cuckoo hash as it does not support snapshot. for (int option_config = kDefault; option_config < kEnd; ++option_config) { if (!ShouldSkipOptions(option_config, kSkipDeletesFilterFirst | kSkipNoSeekToLast | kSkipHashCuckoo)) { option_configs.push_back(option_config); } } option_configs.push_back(kBlockBasedTableWithIndexRestartInterval); return option_configs; } }; INSTANTIATE_TEST_CASE_P( DBTestRandomized, DBTestRandomized, ::testing::ValuesIn(DBTestRandomized::GenerateOptionConfigs())); TEST_P(DBTestRandomized, Randomized) { anon::OptionsOverride options_override; options_override.skip_policy = kSkipNoSnapshot; Options options = CurrentOptions(options_override); DestroyAndReopen(options); Random rnd(test::RandomSeed() + GetParam()); ModelDB model(options); const int N = 10000; const Snapshot* model_snap = nullptr; const Snapshot* db_snap = nullptr; std::string k, v; for (int step = 0; step < N; step++) { // TODO(sanjay): Test Get() works int p = rnd.Uniform(100); int minimum = 0; if (option_config_ == kHashSkipList || option_config_ == kHashLinkList || option_config_ == kHashCuckoo || option_config_ == kPlainTableFirstBytePrefix || option_config_ == kBlockBasedTableWithWholeKeyHashIndex || option_config_ == kBlockBasedTableWithPrefixHashIndex) { minimum = 1; } if (p < 45) { // Put k = RandomKey(&rnd, minimum); v = RandomString(&rnd, rnd.OneIn(20) ? 100 + rnd.Uniform(100) : rnd.Uniform(8)); ASSERT_OK(model.Put(WriteOptions(), k, v)); ASSERT_OK(db_->Put(WriteOptions(), k, v)); } else if (p < 90) { // Delete k = RandomKey(&rnd, minimum); ASSERT_OK(model.Delete(WriteOptions(), k)); ASSERT_OK(db_->Delete(WriteOptions(), k)); } else { // Multi-element batch WriteBatch b; const int num = rnd.Uniform(8); for (int i = 0; i < num; i++) { if (i == 0 || !rnd.OneIn(10)) { k = RandomKey(&rnd, minimum); } else { // Periodically re-use the same key from the previous iter, so // we have multiple entries in the write batch for the same key } if (rnd.OneIn(2)) { v = RandomString(&rnd, rnd.Uniform(10)); b.Put(k, v); } else { b.Delete(k); } } ASSERT_OK(model.Write(WriteOptions(), &b)); ASSERT_OK(db_->Write(WriteOptions(), &b)); } if ((step % 100) == 0) { // For DB instances that use the hash index + block-based table, the // iterator will be invalid right when seeking a non-existent key, right // than return a key that is close to it. if (option_config_ != kBlockBasedTableWithWholeKeyHashIndex && option_config_ != kBlockBasedTableWithPrefixHashIndex) { ASSERT_TRUE(CompareIterators(step, &model, db_, nullptr, nullptr)); ASSERT_TRUE(CompareIterators(step, &model, db_, model_snap, db_snap)); } // Save a snapshot from each DB this time that we'll use next // time we compare things, to make sure the current state is // preserved with the snapshot if (model_snap != nullptr) model.ReleaseSnapshot(model_snap); if (db_snap != nullptr) db_->ReleaseSnapshot(db_snap); Reopen(options); ASSERT_TRUE(CompareIterators(step, &model, db_, nullptr, nullptr)); model_snap = model.GetSnapshot(); db_snap = db_->GetSnapshot(); } } if (model_snap != nullptr) model.ReleaseSnapshot(model_snap); if (db_snap != nullptr) db_->ReleaseSnapshot(db_snap); } #endif // ROCKSDB_VALGRIND_RUN TEST_F(DBTest, BlockBasedTablePrefixIndexTest) { // create a DB with block prefix index BlockBasedTableOptions table_options; Options options = CurrentOptions(); table_options.index_type = BlockBasedTableOptions::kHashSearch; options.table_factory.reset(NewBlockBasedTableFactory(table_options)); options.prefix_extractor.reset(NewFixedPrefixTransform(1)); Reopen(options); ASSERT_OK(Put("k1", "v1")); Flush(); ASSERT_OK(Put("k2", "v2")); // Reopen it without prefix extractor, make sure everything still works. // RocksDB should just fall back to the binary index. table_options.index_type = BlockBasedTableOptions::kBinarySearch; options.table_factory.reset(NewBlockBasedTableFactory(table_options)); options.prefix_extractor.reset(); Reopen(options); ASSERT_EQ("v1", Get("k1")); ASSERT_EQ("v2", Get("k2")); } TEST_F(DBTest, ChecksumTest) { BlockBasedTableOptions table_options; Options options = CurrentOptions(); table_options.checksum = kCRC32c; options.table_factory.reset(NewBlockBasedTableFactory(table_options)); Reopen(options); ASSERT_OK(Put("a", "b")); ASSERT_OK(Put("c", "d")); ASSERT_OK(Flush()); // table with crc checksum table_options.checksum = kxxHash; options.table_factory.reset(NewBlockBasedTableFactory(table_options)); Reopen(options); ASSERT_OK(Put("e", "f")); ASSERT_OK(Put("g", "h")); ASSERT_OK(Flush()); // table with xxhash checksum table_options.checksum = kCRC32c; options.table_factory.reset(NewBlockBasedTableFactory(table_options)); Reopen(options); ASSERT_EQ("b", Get("a")); ASSERT_EQ("d", Get("c")); ASSERT_EQ("f", Get("e")); ASSERT_EQ("h", Get("g")); table_options.checksum = kCRC32c; options.table_factory.reset(NewBlockBasedTableFactory(table_options)); Reopen(options); ASSERT_EQ("b", Get("a")); ASSERT_EQ("d", Get("c")); ASSERT_EQ("f", Get("e")); ASSERT_EQ("h", Get("g")); } #ifndef ROCKSDB_LITE TEST_P(DBTestWithParam, FIFOCompactionTest) { for (int iter = 0; iter < 2; ++iter) { // first iteration -- auto compaction // second iteration -- manual compaction Options options; options.compaction_style = kCompactionStyleFIFO; options.write_buffer_size = 100 << 10; // 100KB options.arena_block_size = 4096; options.compaction_options_fifo.max_table_files_size = 500 << 10; // 500KB options.compression = kNoCompression; options.create_if_missing = true; options.max_subcompactions = max_subcompactions_; if (iter == 1) { options.disable_auto_compactions = true; } options = CurrentOptions(options); DestroyAndReopen(options); Random rnd(301); for (int i = 0; i < 6; ++i) { for (int j = 0; j < 110; ++j) { ASSERT_OK(Put(ToString(i * 100 + j), RandomString(&rnd, 980))); } // flush should happen here ASSERT_OK(dbfull()->TEST_WaitForFlushMemTable()); } if (iter == 0) { ASSERT_OK(dbfull()->TEST_WaitForCompact()); } else { CompactRangeOptions cro; cro.exclusive_manual_compaction = exclusive_manual_compaction_; ASSERT_OK(db_->CompactRange(cro, nullptr, nullptr)); } // only 5 files should survive ASSERT_EQ(NumTableFilesAtLevel(0), 5); for (int i = 0; i < 50; ++i) { // these keys should be deleted in previous compaction ASSERT_EQ("NOT_FOUND", Get(ToString(i))); } } } TEST_F(DBTest, FIFOCompactionTestWithCompaction) { Options options; options.compaction_style = kCompactionStyleFIFO; options.write_buffer_size = 20 << 10; // 20K options.arena_block_size = 4096; options.compaction_options_fifo.max_table_files_size = 1500 << 10; // 1MB options.compaction_options_fifo.allow_compaction = true; options.level0_file_num_compaction_trigger = 6; options.compression = kNoCompression; options.create_if_missing = true; options = CurrentOptions(options); DestroyAndReopen(options); Random rnd(301); for (int i = 0; i < 60; i++) { // Generate and flush a file about 20KB. for (int j = 0; j < 20; j++) { ASSERT_OK(Put(ToString(i * 20 + j), RandomString(&rnd, 980))); } Flush(); ASSERT_OK(dbfull()->TEST_WaitForCompact()); } // It should be compacted to 10 files. ASSERT_EQ(NumTableFilesAtLevel(0), 10); for (int i = 0; i < 60; i++) { // Generate and flush a file about 20KB. for (int j = 0; j < 20; j++) { ASSERT_OK(Put(ToString(i * 20 + j + 2000), RandomString(&rnd, 980))); } Flush(); ASSERT_OK(dbfull()->TEST_WaitForCompact()); } // It should be compacted to no more than 20 files. ASSERT_GT(NumTableFilesAtLevel(0), 10); ASSERT_LT(NumTableFilesAtLevel(0), 18); // Size limit is still guaranteed. ASSERT_LE(SizeAtLevel(0), options.compaction_options_fifo.max_table_files_size); } TEST_F(DBTest, FIFOCompactionStyleWithCompactionAndDelete) { Options options; options.compaction_style = kCompactionStyleFIFO; options.write_buffer_size = 20 << 10; // 20K options.arena_block_size = 4096; options.compaction_options_fifo.max_table_files_size = 1500 << 10; // 1MB options.compaction_options_fifo.allow_compaction = true; options.level0_file_num_compaction_trigger = 3; options.compression = kNoCompression; options.create_if_missing = true; options = CurrentOptions(options); DestroyAndReopen(options); Random rnd(301); for (int i = 0; i < 3; i++) { // Each file contains a different key which will be dropped later. ASSERT_OK(Put("a" + ToString(i), RandomString(&rnd, 500))); ASSERT_OK(Put("key" + ToString(i), "")); ASSERT_OK(Put("z" + ToString(i), RandomString(&rnd, 500))); Flush(); ASSERT_OK(dbfull()->TEST_WaitForCompact()); } ASSERT_EQ(NumTableFilesAtLevel(0), 1); for (int i = 0; i < 3; i++) { ASSERT_EQ("", Get("key" + ToString(i))); } for (int i = 0; i < 3; i++) { // Each file contains a different key which will be dropped later. ASSERT_OK(Put("a" + ToString(i), RandomString(&rnd, 500))); ASSERT_OK(Delete("key" + ToString(i))); ASSERT_OK(Put("z" + ToString(i), RandomString(&rnd, 500))); Flush(); ASSERT_OK(dbfull()->TEST_WaitForCompact()); } ASSERT_EQ(NumTableFilesAtLevel(0), 2); for (int i = 0; i < 3; i++) { ASSERT_EQ("NOT_FOUND", Get("key" + ToString(i))); } } // Check that FIFO-with-TTL is not supported with max_open_files != -1. TEST_F(DBTest, FIFOCompactionWithTTLAndMaxOpenFilesTest) { Options options; options.compaction_style = kCompactionStyleFIFO; options.create_if_missing = true; options.compaction_options_fifo.ttl = 600; // seconds // Check that it is not supported with max_open_files != -1. options.max_open_files = 100; options = CurrentOptions(options); ASSERT_TRUE(TryReopen(options).IsNotSupported()); options.max_open_files = -1; ASSERT_OK(TryReopen(options)); } // Check that FIFO-with-TTL is supported only with BlockBasedTableFactory. TEST_F(DBTest, FIFOCompactionWithTTLAndVariousTableFormatsTest) { Options options; options.compaction_style = kCompactionStyleFIFO; options.create_if_missing = true; options.compaction_options_fifo.ttl = 600; // seconds options = CurrentOptions(options); options.table_factory.reset(NewBlockBasedTableFactory()); ASSERT_OK(TryReopen(options)); Destroy(options); options.table_factory.reset(NewPlainTableFactory()); ASSERT_TRUE(TryReopen(options).IsNotSupported()); Destroy(options); options.table_factory.reset(NewCuckooTableFactory()); ASSERT_TRUE(TryReopen(options).IsNotSupported()); Destroy(options); options.table_factory.reset(NewAdaptiveTableFactory()); ASSERT_TRUE(TryReopen(options).IsNotSupported()); } TEST_F(DBTest, FIFOCompactionWithTTLTest) { Options options; options.compaction_style = kCompactionStyleFIFO; options.write_buffer_size = 10 << 10; // 10KB options.arena_block_size = 4096; options.compression = kNoCompression; options.create_if_missing = true; env_->time_elapse_only_sleep_ = false; options.env = env_; // Test to make sure that all files with expired ttl are deleted on next // manual compaction. { env_->addon_time_.store(0); options.compaction_options_fifo.max_table_files_size = 150 << 10; // 150KB options.compaction_options_fifo.allow_compaction = false; options.compaction_options_fifo.ttl = 1 * 60 * 60 ; // 1 hour options = CurrentOptions(options); DestroyAndReopen(options); Random rnd(301); for (int i = 0; i < 10; i++) { // Generate and flush a file about 10KB. for (int j = 0; j < 10; j++) { ASSERT_OK(Put(ToString(i * 20 + j), RandomString(&rnd, 980))); } Flush(); ASSERT_OK(dbfull()->TEST_WaitForCompact()); } ASSERT_EQ(NumTableFilesAtLevel(0), 10); // Sleep for 2 hours -- which is much greater than TTL. // Note: Couldn't use SleepForMicroseconds because it takes an int instead // of uint64_t. Hence used addon_time_ directly. // env_->SleepForMicroseconds(2 * 60 * 60 * 1000 * 1000); env_->addon_time_.fetch_add(2 * 60 * 60); // Since no flushes and compactions have run, the db should still be in // the same state even after considerable time has passed. ASSERT_OK(dbfull()->TEST_WaitForCompact()); ASSERT_EQ(NumTableFilesAtLevel(0), 10); dbfull()->CompactRange(CompactRangeOptions(), nullptr, nullptr); ASSERT_EQ(NumTableFilesAtLevel(0), 0); } // Test to make sure that all files with expired ttl are deleted on next // automatic compaction. { options.compaction_options_fifo.max_table_files_size = 150 << 10; // 150KB options.compaction_options_fifo.allow_compaction = false; options.compaction_options_fifo.ttl = 1 * 60 * 60; // 1 hour options = CurrentOptions(options); DestroyAndReopen(options); Random rnd(301); for (int i = 0; i < 10; i++) { // Generate and flush a file about 10KB. for (int j = 0; j < 10; j++) { ASSERT_OK(Put(ToString(i * 20 + j), RandomString(&rnd, 980))); } Flush(); ASSERT_OK(dbfull()->TEST_WaitForCompact()); } ASSERT_EQ(NumTableFilesAtLevel(0), 10); // Sleep for 2 hours -- which is much greater than TTL. env_->addon_time_.fetch_add(2 * 60 * 60); // Just to make sure that we are in the same state even after sleeping. ASSERT_OK(dbfull()->TEST_WaitForCompact()); ASSERT_EQ(NumTableFilesAtLevel(0), 10); // Create 1 more file to trigger TTL compaction. The old files are dropped. for (int i = 0; i < 1; i++) { for (int j = 0; j < 10; j++) { ASSERT_OK(Put(ToString(i * 20 + j), RandomString(&rnd, 980))); } Flush(); } ASSERT_OK(dbfull()->TEST_WaitForCompact()); // Only the new 10 files remain. ASSERT_EQ(NumTableFilesAtLevel(0), 1); ASSERT_LE(SizeAtLevel(0), options.compaction_options_fifo.max_table_files_size); } // Test that shows the fall back to size-based FIFO compaction if TTL-based // deletion doesn't move the total size to be less than max_table_files_size. { options.write_buffer_size = 10 << 10; // 10KB options.compaction_options_fifo.max_table_files_size = 150 << 10; // 150KB options.compaction_options_fifo.allow_compaction = false; options.compaction_options_fifo.ttl = 1 * 60 * 60; // 1 hour options = CurrentOptions(options); DestroyAndReopen(options); Random rnd(301); for (int i = 0; i < 3; i++) { // Generate and flush a file about 10KB. for (int j = 0; j < 10; j++) { ASSERT_OK(Put(ToString(i * 20 + j), RandomString(&rnd, 980))); } Flush(); ASSERT_OK(dbfull()->TEST_WaitForCompact()); } ASSERT_EQ(NumTableFilesAtLevel(0), 3); // Sleep for 2 hours -- which is much greater than TTL. env_->addon_time_.fetch_add(2 * 60 * 60); // Just to make sure that we are in the same state even after sleeping. ASSERT_OK(dbfull()->TEST_WaitForCompact()); ASSERT_EQ(NumTableFilesAtLevel(0), 3); for (int i = 0; i < 5; i++) { for (int j = 0; j < 140; j++) { ASSERT_OK(Put(ToString(i * 20 + j), RandomString(&rnd, 980))); } Flush(); ASSERT_OK(dbfull()->TEST_WaitForCompact()); } // Size limit is still guaranteed. ASSERT_LE(SizeAtLevel(0), options.compaction_options_fifo.max_table_files_size); } // Test with TTL + Intra-L0 compactions. { options.compaction_options_fifo.max_table_files_size = 150 << 10; // 150KB options.compaction_options_fifo.allow_compaction = true; options.compaction_options_fifo.ttl = 1 * 60 * 60; // 1 hour options.level0_file_num_compaction_trigger = 6; options = CurrentOptions(options); DestroyAndReopen(options); Random rnd(301); for (int i = 0; i < 10; i++) { // Generate and flush a file about 10KB. for (int j = 0; j < 10; j++) { ASSERT_OK(Put(ToString(i * 20 + j), RandomString(&rnd, 980))); } Flush(); ASSERT_OK(dbfull()->TEST_WaitForCompact()); } // With Intra-L0 compaction, out of 10 files, 6 files will be compacted to 1 // (due to level0_file_num_compaction_trigger = 6). // So total files = 1 + remaining 4 = 5. ASSERT_EQ(NumTableFilesAtLevel(0), 5); // Sleep for 2 hours -- which is much greater than TTL. env_->addon_time_.fetch_add(2 * 60 * 60); // Just to make sure that we are in the same state even after sleeping. ASSERT_OK(dbfull()->TEST_WaitForCompact()); ASSERT_EQ(NumTableFilesAtLevel(0), 5); // Create 10 more files. The old 5 files are dropped as their ttl expired. for (int i = 0; i < 10; i++) { for (int j = 0; j < 10; j++) { ASSERT_OK(Put(ToString(i * 20 + j), RandomString(&rnd, 980))); } Flush(); ASSERT_OK(dbfull()->TEST_WaitForCompact()); } ASSERT_EQ(NumTableFilesAtLevel(0), 5); ASSERT_LE(SizeAtLevel(0), options.compaction_options_fifo.max_table_files_size); } // Test with large TTL + Intra-L0 compactions. // Files dropped based on size, as ttl doesn't kick in. { options.write_buffer_size = 20 << 10; // 20K options.compaction_options_fifo.max_table_files_size = 1500 << 10; // 1.5MB options.compaction_options_fifo.allow_compaction = true; options.compaction_options_fifo.ttl = 1 * 60 * 60; // 1 hour options.level0_file_num_compaction_trigger = 6; options = CurrentOptions(options); DestroyAndReopen(options); Random rnd(301); for (int i = 0; i < 60; i++) { // Generate and flush a file about 20KB. for (int j = 0; j < 20; j++) { ASSERT_OK(Put(ToString(i * 20 + j), RandomString(&rnd, 980))); } Flush(); ASSERT_OK(dbfull()->TEST_WaitForCompact()); } // It should be compacted to 10 files. ASSERT_EQ(NumTableFilesAtLevel(0), 10); for (int i = 0; i < 60; i++) { // Generate and flush a file about 20KB. for (int j = 0; j < 20; j++) { ASSERT_OK(Put(ToString(i * 20 + j + 2000), RandomString(&rnd, 980))); } Flush(); ASSERT_OK(dbfull()->TEST_WaitForCompact()); } // It should be compacted to no more than 20 files. ASSERT_GT(NumTableFilesAtLevel(0), 10); ASSERT_LT(NumTableFilesAtLevel(0), 18); // Size limit is still guaranteed. ASSERT_LE(SizeAtLevel(0), options.compaction_options_fifo.max_table_files_size); } } #endif // ROCKSDB_LITE #ifndef ROCKSDB_LITE /* * This test is not reliable enough as it heavily depends on disk behavior. * Disable as it is flaky. */ TEST_F(DBTest, DISABLED_RateLimitingTest) { Options options = CurrentOptions(); options.write_buffer_size = 1 << 20; // 1MB options.level0_file_num_compaction_trigger = 2; options.target_file_size_base = 1 << 20; // 1MB options.max_bytes_for_level_base = 4 << 20; // 4MB options.max_bytes_for_level_multiplier = 4; options.compression = kNoCompression; options.create_if_missing = true; options.env = env_; options.statistics = rocksdb::CreateDBStatistics(); options.IncreaseParallelism(4); DestroyAndReopen(options); WriteOptions wo; wo.disableWAL = true; // # no rate limiting Random rnd(301); uint64_t start = env_->NowMicros(); // Write ~96M data for (int64_t i = 0; i < (96 << 10); ++i) { ASSERT_OK( Put(RandomString(&rnd, 32), RandomString(&rnd, (1 << 10) + 1), wo)); } uint64_t elapsed = env_->NowMicros() - start; double raw_rate = env_->bytes_written_ * 1000000.0 / elapsed; uint64_t rate_limiter_drains = TestGetTickerCount(options, NUMBER_RATE_LIMITER_DRAINS); ASSERT_EQ(0, rate_limiter_drains); Close(); // # rate limiting with 0.7 x threshold options.rate_limiter.reset( NewGenericRateLimiter(static_cast(0.7 * raw_rate))); env_->bytes_written_ = 0; DestroyAndReopen(options); start = env_->NowMicros(); // Write ~96M data for (int64_t i = 0; i < (96 << 10); ++i) { ASSERT_OK( Put(RandomString(&rnd, 32), RandomString(&rnd, (1 << 10) + 1), wo)); } rate_limiter_drains = TestGetTickerCount(options, NUMBER_RATE_LIMITER_DRAINS) - rate_limiter_drains; elapsed = env_->NowMicros() - start; Close(); ASSERT_EQ(options.rate_limiter->GetTotalBytesThrough(), env_->bytes_written_); // Most intervals should've been drained (interval time is 100ms, elapsed is // micros) ASSERT_GT(rate_limiter_drains, 0); ASSERT_LE(rate_limiter_drains, elapsed / 100000 + 1); double ratio = env_->bytes_written_ * 1000000 / elapsed / raw_rate; fprintf(stderr, "write rate ratio = %.2lf, expected 0.7\n", ratio); ASSERT_TRUE(ratio < 0.8); // # rate limiting with half of the raw_rate options.rate_limiter.reset( NewGenericRateLimiter(static_cast(raw_rate / 2))); env_->bytes_written_ = 0; DestroyAndReopen(options); start = env_->NowMicros(); // Write ~96M data for (int64_t i = 0; i < (96 << 10); ++i) { ASSERT_OK( Put(RandomString(&rnd, 32), RandomString(&rnd, (1 << 10) + 1), wo)); } elapsed = env_->NowMicros() - start; rate_limiter_drains = TestGetTickerCount(options, NUMBER_RATE_LIMITER_DRAINS) - rate_limiter_drains; Close(); ASSERT_EQ(options.rate_limiter->GetTotalBytesThrough(), env_->bytes_written_); // Most intervals should've been drained (interval time is 100ms, elapsed is // micros) ASSERT_GT(rate_limiter_drains, elapsed / 100000 / 2); ASSERT_LE(rate_limiter_drains, elapsed / 100000 + 1); ratio = env_->bytes_written_ * 1000000 / elapsed / raw_rate; fprintf(stderr, "write rate ratio = %.2lf, expected 0.5\n", ratio); ASSERT_LT(ratio, 0.6); } TEST_F(DBTest, TableOptionsSanitizeTest) { Options options = CurrentOptions(); options.create_if_missing = true; DestroyAndReopen(options); ASSERT_EQ(db_->GetOptions().allow_mmap_reads, false); options.table_factory.reset(new PlainTableFactory()); options.prefix_extractor.reset(NewNoopTransform()); Destroy(options); ASSERT_TRUE(!TryReopen(options).IsNotSupported()); // Test for check of prefix_extractor when hash index is used for // block-based table BlockBasedTableOptions to; to.index_type = BlockBasedTableOptions::kHashSearch; options = CurrentOptions(); options.create_if_missing = true; options.table_factory.reset(NewBlockBasedTableFactory(to)); ASSERT_TRUE(TryReopen(options).IsInvalidArgument()); options.prefix_extractor.reset(NewFixedPrefixTransform(1)); ASSERT_OK(TryReopen(options)); } TEST_F(DBTest, ConcurrentMemtableNotSupported) { Options options = CurrentOptions(); options.allow_concurrent_memtable_write = true; options.soft_pending_compaction_bytes_limit = 0; options.hard_pending_compaction_bytes_limit = 100; options.create_if_missing = true; DestroyDB(dbname_, options); options.memtable_factory.reset(NewHashLinkListRepFactory(4, 0, 3, true, 4)); ASSERT_NOK(TryReopen(options)); options.memtable_factory.reset(new SkipListFactory); ASSERT_OK(TryReopen(options)); ColumnFamilyOptions cf_options(options); cf_options.memtable_factory.reset( NewHashLinkListRepFactory(4, 0, 3, true, 4)); ColumnFamilyHandle* handle; ASSERT_NOK(db_->CreateColumnFamily(cf_options, "name", &handle)); } #endif // ROCKSDB_LITE TEST_F(DBTest, SanitizeNumThreads) { for (int attempt = 0; attempt < 2; attempt++) { const size_t kTotalTasks = 8; test::SleepingBackgroundTask sleeping_tasks[kTotalTasks]; Options options = CurrentOptions(); if (attempt == 0) { options.max_background_compactions = 3; options.max_background_flushes = 2; } options.create_if_missing = true; DestroyAndReopen(options); for (size_t i = 0; i < kTotalTasks; i++) { // Insert 5 tasks to low priority queue and 5 tasks to high priority queue env_->Schedule(&test::SleepingBackgroundTask::DoSleepTask, &sleeping_tasks[i], (i < 4) ? Env::Priority::LOW : Env::Priority::HIGH); } // Wait 100 milliseconds for they are scheduled. env_->SleepForMicroseconds(100000); // pool size 3, total task 4. Queue size should be 1. ASSERT_EQ(1U, options.env->GetThreadPoolQueueLen(Env::Priority::LOW)); // pool size 2, total task 4. Queue size should be 2. ASSERT_EQ(2U, options.env->GetThreadPoolQueueLen(Env::Priority::HIGH)); for (size_t i = 0; i < kTotalTasks; i++) { sleeping_tasks[i].WakeUp(); sleeping_tasks[i].WaitUntilDone(); } ASSERT_OK(Put("abc", "def")); ASSERT_EQ("def", Get("abc")); Flush(); ASSERT_EQ("def", Get("abc")); } } TEST_F(DBTest, WriteSingleThreadEntry) { std::vector threads; dbfull()->TEST_LockMutex(); auto w = dbfull()->TEST_BeginWrite(); threads.emplace_back([&] { Put("a", "b"); }); env_->SleepForMicroseconds(10000); threads.emplace_back([&] { Flush(); }); env_->SleepForMicroseconds(10000); dbfull()->TEST_UnlockMutex(); dbfull()->TEST_LockMutex(); dbfull()->TEST_EndWrite(w); dbfull()->TEST_UnlockMutex(); for (auto& t : threads) { t.join(); } } TEST_F(DBTest, ConcurrentFlushWAL) { const size_t cnt = 100; Options options; WriteOptions wopt; ReadOptions ropt; for (bool two_write_queues : {false, true}) { for (bool manual_wal_flush : {false, true}) { options.two_write_queues = two_write_queues; options.manual_wal_flush = manual_wal_flush; options.create_if_missing = true; DestroyAndReopen(options); std::vector threads; threads.emplace_back([&] { for (size_t i = 0; i < cnt; i++) { auto istr = ToString(i); db_->Put(wopt, db_->DefaultColumnFamily(), "a" + istr, "b" + istr); } }); if (two_write_queues) { threads.emplace_back([&] { for (size_t i = cnt; i < 2 * cnt; i++) { auto istr = ToString(i); WriteBatch batch; batch.Put("a" + istr, "b" + istr); dbfull()->WriteImpl(wopt, &batch, nullptr, nullptr, 0, true); } }); } threads.emplace_back([&] { for (size_t i = 0; i < cnt * 100; i++) { // FlushWAL is faster than Put db_->FlushWAL(false); } }); for (auto& t : threads) { t.join(); } options.create_if_missing = false; // Recover from the wal and make sure that it is not corrupted Reopen(options); for (size_t i = 0; i < cnt; i++) { PinnableSlice pval; auto istr = ToString(i); ASSERT_OK( db_->Get(ropt, db_->DefaultColumnFamily(), "a" + istr, &pval)); ASSERT_TRUE(pval == ("b" + istr)); } } } } #ifndef ROCKSDB_LITE TEST_F(DBTest, DynamicMemtableOptions) { const uint64_t k64KB = 1 << 16; const uint64_t k128KB = 1 << 17; const uint64_t k5KB = 5 * 1024; Options options; options.env = env_; options.create_if_missing = true; options.compression = kNoCompression; options.max_background_compactions = 1; options.write_buffer_size = k64KB; options.arena_block_size = 16 * 1024; options.max_write_buffer_number = 2; // Don't trigger compact/slowdown/stop options.level0_file_num_compaction_trigger = 1024; options.level0_slowdown_writes_trigger = 1024; options.level0_stop_writes_trigger = 1024; DestroyAndReopen(options); auto gen_l0_kb = [this](int size) { const int kNumPutsBeforeWaitForFlush = 64; Random rnd(301); for (int i = 0; i < size; i++) { ASSERT_OK(Put(Key(i), RandomString(&rnd, 1024))); // The following condition prevents a race condition between flush jobs // acquiring work and this thread filling up multiple memtables. Without // this, the flush might produce less files than expected because // multiple memtables are flushed into a single L0 file. This race // condition affects assertion (A). if (i % kNumPutsBeforeWaitForFlush == kNumPutsBeforeWaitForFlush - 1) { dbfull()->TEST_WaitForFlushMemTable(); } } dbfull()->TEST_WaitForFlushMemTable(); }; // Test write_buffer_size gen_l0_kb(64); ASSERT_EQ(NumTableFilesAtLevel(0), 1); ASSERT_LT(SizeAtLevel(0), k64KB + k5KB); ASSERT_GT(SizeAtLevel(0), k64KB - k5KB * 2); // Clean up L0 dbfull()->CompactRange(CompactRangeOptions(), nullptr, nullptr); ASSERT_EQ(NumTableFilesAtLevel(0), 0); // Increase buffer size ASSERT_OK(dbfull()->SetOptions({ {"write_buffer_size", "131072"}, })); // The existing memtable inflated 64KB->128KB when we invoked SetOptions(). // Write 192KB, we should have a 128KB L0 file and a memtable with 64KB data. gen_l0_kb(192); ASSERT_EQ(NumTableFilesAtLevel(0), 1); // (A) ASSERT_LT(SizeAtLevel(0), k128KB + 2 * k5KB); ASSERT_GT(SizeAtLevel(0), k128KB - 4 * k5KB); // Decrease buffer size below current usage ASSERT_OK(dbfull()->SetOptions({ {"write_buffer_size", "65536"}, })); // The existing memtable became eligible for flush when we reduced its // capacity to 64KB. Two keys need to be added to trigger flush: first causes // memtable to be marked full, second schedules the flush. Then we should have // a 128KB L0 file, a 64KB L0 file, and a memtable with just one key. gen_l0_kb(2); ASSERT_EQ(NumTableFilesAtLevel(0), 2); ASSERT_LT(SizeAtLevel(0), k128KB + k64KB + 2 * k5KB); ASSERT_GT(SizeAtLevel(0), k128KB + k64KB - 4 * k5KB); // Test max_write_buffer_number // Block compaction thread, which will also block the flushes because // max_background_flushes == 0, so flushes are getting executed by the // compaction thread env_->SetBackgroundThreads(1, Env::LOW); test::SleepingBackgroundTask sleeping_task_low; env_->Schedule(&test::SleepingBackgroundTask::DoSleepTask, &sleeping_task_low, Env::Priority::LOW); // Start from scratch and disable compaction/flush. Flush can only happen // during compaction but trigger is pretty high options.disable_auto_compactions = true; DestroyAndReopen(options); env_->SetBackgroundThreads(0, Env::HIGH); // Put until writes are stopped, bounded by 256 puts. We should see stop at // ~128KB int count = 0; Random rnd(301); rocksdb::SyncPoint::GetInstance()->SetCallBack( "DBImpl::DelayWrite:Wait", [&](void* /*arg*/) { sleeping_task_low.WakeUp(); }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); while (!sleeping_task_low.WokenUp() && count < 256) { ASSERT_OK(Put(Key(count), RandomString(&rnd, 1024), WriteOptions())); count++; } ASSERT_GT(static_cast(count), 128 * 0.8); ASSERT_LT(static_cast(count), 128 * 1.2); sleeping_task_low.WaitUntilDone(); // Increase ASSERT_OK(dbfull()->SetOptions({ {"max_write_buffer_number", "8"}, })); // Clean up memtable and L0 dbfull()->CompactRange(CompactRangeOptions(), nullptr, nullptr); sleeping_task_low.Reset(); env_->Schedule(&test::SleepingBackgroundTask::DoSleepTask, &sleeping_task_low, Env::Priority::LOW); count = 0; while (!sleeping_task_low.WokenUp() && count < 1024) { ASSERT_OK(Put(Key(count), RandomString(&rnd, 1024), WriteOptions())); count++; } // Windows fails this test. Will tune in the future and figure out // approp number #ifndef OS_WIN ASSERT_GT(static_cast(count), 512 * 0.8); ASSERT_LT(static_cast(count), 512 * 1.2); #endif sleeping_task_low.WaitUntilDone(); // Decrease ASSERT_OK(dbfull()->SetOptions({ {"max_write_buffer_number", "4"}, })); // Clean up memtable and L0 dbfull()->CompactRange(CompactRangeOptions(), nullptr, nullptr); sleeping_task_low.Reset(); env_->Schedule(&test::SleepingBackgroundTask::DoSleepTask, &sleeping_task_low, Env::Priority::LOW); count = 0; while (!sleeping_task_low.WokenUp() && count < 1024) { ASSERT_OK(Put(Key(count), RandomString(&rnd, 1024), WriteOptions())); count++; } // Windows fails this test. Will tune in the future and figure out // approp number #ifndef OS_WIN ASSERT_GT(static_cast(count), 256 * 0.8); ASSERT_LT(static_cast(count), 266 * 1.2); #endif sleeping_task_low.WaitUntilDone(); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); } #endif // ROCKSDB_LITE #ifdef ROCKSDB_USING_THREAD_STATUS namespace { void VerifyOperationCount(Env* env, ThreadStatus::OperationType op_type, int expected_count) { int op_count = 0; std::vector thread_list; ASSERT_OK(env->GetThreadList(&thread_list)); for (auto thread : thread_list) { if (thread.operation_type == op_type) { op_count++; } } ASSERT_EQ(op_count, expected_count); } } // namespace TEST_F(DBTest, GetThreadStatus) { Options options; options.env = env_; options.enable_thread_tracking = true; TryReopen(options); std::vector thread_list; Status s = env_->GetThreadList(&thread_list); for (int i = 0; i < 2; ++i) { // repeat the test with differet number of high / low priority threads const int kTestCount = 3; const unsigned int kHighPriCounts[kTestCount] = {3, 2, 5}; const unsigned int kLowPriCounts[kTestCount] = {10, 15, 3}; const unsigned int kBottomPriCounts[kTestCount] = {2, 1, 4}; for (int test = 0; test < kTestCount; ++test) { // Change the number of threads in high / low priority pool. env_->SetBackgroundThreads(kHighPriCounts[test], Env::HIGH); env_->SetBackgroundThreads(kLowPriCounts[test], Env::LOW); env_->SetBackgroundThreads(kBottomPriCounts[test], Env::BOTTOM); // Wait to ensure the all threads has been registered unsigned int thread_type_counts[ThreadStatus::NUM_THREAD_TYPES]; // TODO(ajkr): it'd be better if SetBackgroundThreads returned only after // all threads have been registered. // Try up to 60 seconds. for (int num_try = 0; num_try < 60000; num_try++) { env_->SleepForMicroseconds(1000); thread_list.clear(); s = env_->GetThreadList(&thread_list); ASSERT_OK(s); memset(thread_type_counts, 0, sizeof(thread_type_counts)); for (auto thread : thread_list) { ASSERT_LT(thread.thread_type, ThreadStatus::NUM_THREAD_TYPES); thread_type_counts[thread.thread_type]++; } if (thread_type_counts[ThreadStatus::HIGH_PRIORITY] == kHighPriCounts[test] && thread_type_counts[ThreadStatus::LOW_PRIORITY] == kLowPriCounts[test] && thread_type_counts[ThreadStatus::BOTTOM_PRIORITY] == kBottomPriCounts[test]) { break; } } // Verify the number of high-priority threads ASSERT_EQ(thread_type_counts[ThreadStatus::HIGH_PRIORITY], kHighPriCounts[test]); // Verify the number of low-priority threads ASSERT_EQ(thread_type_counts[ThreadStatus::LOW_PRIORITY], kLowPriCounts[test]); // Verify the number of bottom-priority threads ASSERT_EQ(thread_type_counts[ThreadStatus::BOTTOM_PRIORITY], kBottomPriCounts[test]); } if (i == 0) { // repeat the test with multiple column families CreateAndReopenWithCF({"pikachu", "about-to-remove"}, options); env_->GetThreadStatusUpdater()->TEST_VerifyColumnFamilyInfoMap(handles_, true); } } db_->DropColumnFamily(handles_[2]); delete handles_[2]; handles_.erase(handles_.begin() + 2); env_->GetThreadStatusUpdater()->TEST_VerifyColumnFamilyInfoMap(handles_, true); Close(); env_->GetThreadStatusUpdater()->TEST_VerifyColumnFamilyInfoMap(handles_, true); } TEST_F(DBTest, DisableThreadStatus) { Options options; options.env = env_; options.enable_thread_tracking = false; TryReopen(options); CreateAndReopenWithCF({"pikachu", "about-to-remove"}, options); // Verify non of the column family info exists env_->GetThreadStatusUpdater()->TEST_VerifyColumnFamilyInfoMap(handles_, false); } TEST_F(DBTest, ThreadStatusFlush) { Options options; options.env = env_; options.write_buffer_size = 100000; // Small write buffer options.enable_thread_tracking = true; options = CurrentOptions(options); rocksdb::SyncPoint::GetInstance()->LoadDependency({ {"FlushJob::FlushJob()", "DBTest::ThreadStatusFlush:1"}, {"DBTest::ThreadStatusFlush:2", "FlushJob::WriteLevel0Table"}, }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); CreateAndReopenWithCF({"pikachu"}, options); VerifyOperationCount(env_, ThreadStatus::OP_FLUSH, 0); ASSERT_OK(Put(1, "foo", "v1")); ASSERT_EQ("v1", Get(1, "foo")); VerifyOperationCount(env_, ThreadStatus::OP_FLUSH, 0); uint64_t num_running_flushes = 0; db_->GetIntProperty(DB::Properties::kNumRunningFlushes, &num_running_flushes); ASSERT_EQ(num_running_flushes, 0); Put(1, "k1", std::string(100000, 'x')); // Fill memtable Put(1, "k2", std::string(100000, 'y')); // Trigger flush // The first sync point is to make sure there's one flush job // running when we perform VerifyOperationCount(). TEST_SYNC_POINT("DBTest::ThreadStatusFlush:1"); VerifyOperationCount(env_, ThreadStatus::OP_FLUSH, 1); db_->GetIntProperty(DB::Properties::kNumRunningFlushes, &num_running_flushes); ASSERT_EQ(num_running_flushes, 1); // This second sync point is to ensure the flush job will not // be completed until we already perform VerifyOperationCount(). TEST_SYNC_POINT("DBTest::ThreadStatusFlush:2"); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); } TEST_P(DBTestWithParam, ThreadStatusSingleCompaction) { const int kTestKeySize = 16; const int kTestValueSize = 984; const int kEntrySize = kTestKeySize + kTestValueSize; const int kEntriesPerBuffer = 100; Options options; options.create_if_missing = true; options.write_buffer_size = kEntrySize * kEntriesPerBuffer; options.compaction_style = kCompactionStyleLevel; options.target_file_size_base = options.write_buffer_size; options.max_bytes_for_level_base = options.target_file_size_base * 2; options.max_bytes_for_level_multiplier = 2; options.compression = kNoCompression; options = CurrentOptions(options); options.env = env_; options.enable_thread_tracking = true; const int kNumL0Files = 4; options.level0_file_num_compaction_trigger = kNumL0Files; options.max_subcompactions = max_subcompactions_; rocksdb::SyncPoint::GetInstance()->LoadDependency({ {"DBTest::ThreadStatusSingleCompaction:0", "DBImpl::BGWorkCompaction"}, {"CompactionJob::Run():Start", "DBTest::ThreadStatusSingleCompaction:1"}, {"DBTest::ThreadStatusSingleCompaction:2", "CompactionJob::Run():End"}, }); for (int tests = 0; tests < 2; ++tests) { DestroyAndReopen(options); rocksdb::SyncPoint::GetInstance()->ClearTrace(); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); Random rnd(301); // The Put Phase. for (int file = 0; file < kNumL0Files; ++file) { for (int key = 0; key < kEntriesPerBuffer; ++key) { ASSERT_OK(Put(ToString(key + file * kEntriesPerBuffer), RandomString(&rnd, kTestValueSize))); } Flush(); } // This makes sure a compaction won't be scheduled until // we have done with the above Put Phase. uint64_t num_running_compactions = 0; db_->GetIntProperty(DB::Properties::kNumRunningCompactions, &num_running_compactions); ASSERT_EQ(num_running_compactions, 0); TEST_SYNC_POINT("DBTest::ThreadStatusSingleCompaction:0"); ASSERT_GE(NumTableFilesAtLevel(0), options.level0_file_num_compaction_trigger); // This makes sure at least one compaction is running. TEST_SYNC_POINT("DBTest::ThreadStatusSingleCompaction:1"); if (options.enable_thread_tracking) { // expecting one single L0 to L1 compaction VerifyOperationCount(env_, ThreadStatus::OP_COMPACTION, 1); } else { // If thread tracking is not enabled, compaction count should be 0. VerifyOperationCount(env_, ThreadStatus::OP_COMPACTION, 0); } db_->GetIntProperty(DB::Properties::kNumRunningCompactions, &num_running_compactions); ASSERT_EQ(num_running_compactions, 1); // TODO(yhchiang): adding assert to verify each compaction stage. TEST_SYNC_POINT("DBTest::ThreadStatusSingleCompaction:2"); // repeat the test with disabling thread tracking. options.enable_thread_tracking = false; rocksdb::SyncPoint::GetInstance()->DisableProcessing(); } } TEST_P(DBTestWithParam, PreShutdownManualCompaction) { Options options = CurrentOptions(); options.max_subcompactions = max_subcompactions_; CreateAndReopenWithCF({"pikachu"}, options); // iter - 0 with 7 levels // iter - 1 with 3 levels for (int iter = 0; iter < 2; ++iter) { MakeTables(3, "p", "q", 1); ASSERT_EQ("1,1,1", FilesPerLevel(1)); // Compaction range falls before files Compact(1, "", "c"); ASSERT_EQ("1,1,1", FilesPerLevel(1)); // Compaction range falls after files Compact(1, "r", "z"); ASSERT_EQ("1,1,1", FilesPerLevel(1)); // Compaction range overlaps files Compact(1, "p1", "p9"); ASSERT_EQ("0,0,1", FilesPerLevel(1)); // Populate a different range MakeTables(3, "c", "e", 1); ASSERT_EQ("1,1,2", FilesPerLevel(1)); // Compact just the new range Compact(1, "b", "f"); ASSERT_EQ("0,0,2", FilesPerLevel(1)); // Compact all MakeTables(1, "a", "z", 1); ASSERT_EQ("1,0,2", FilesPerLevel(1)); CancelAllBackgroundWork(db_); db_->CompactRange(CompactRangeOptions(), handles_[1], nullptr, nullptr); ASSERT_EQ("1,0,2", FilesPerLevel(1)); if (iter == 0) { options = CurrentOptions(); options.num_levels = 3; options.create_if_missing = true; DestroyAndReopen(options); CreateAndReopenWithCF({"pikachu"}, options); } } } TEST_F(DBTest, PreShutdownFlush) { Options options = CurrentOptions(); CreateAndReopenWithCF({"pikachu"}, options); ASSERT_OK(Put(1, "key", "value")); CancelAllBackgroundWork(db_); Status s = db_->CompactRange(CompactRangeOptions(), handles_[1], nullptr, nullptr); ASSERT_TRUE(s.IsShutdownInProgress()); } TEST_P(DBTestWithParam, PreShutdownMultipleCompaction) { const int kTestKeySize = 16; const int kTestValueSize = 984; const int kEntrySize = kTestKeySize + kTestValueSize; const int kEntriesPerBuffer = 40; const int kNumL0Files = 4; const int kHighPriCount = 3; const int kLowPriCount = 5; env_->SetBackgroundThreads(kHighPriCount, Env::HIGH); env_->SetBackgroundThreads(kLowPriCount, Env::LOW); Options options; options.create_if_missing = true; options.write_buffer_size = kEntrySize * kEntriesPerBuffer; options.compaction_style = kCompactionStyleLevel; options.target_file_size_base = options.write_buffer_size; options.max_bytes_for_level_base = options.target_file_size_base * kNumL0Files; options.compression = kNoCompression; options = CurrentOptions(options); options.env = env_; options.enable_thread_tracking = true; options.level0_file_num_compaction_trigger = kNumL0Files; options.max_bytes_for_level_multiplier = 2; options.max_background_compactions = kLowPriCount; options.level0_stop_writes_trigger = 1 << 10; options.level0_slowdown_writes_trigger = 1 << 10; options.max_subcompactions = max_subcompactions_; TryReopen(options); Random rnd(301); std::vector thread_list; // Delay both flush and compaction rocksdb::SyncPoint::GetInstance()->LoadDependency( {{"FlushJob::FlushJob()", "CompactionJob::Run():Start"}, {"CompactionJob::Run():Start", "DBTest::PreShutdownMultipleCompaction:Preshutdown"}, {"CompactionJob::Run():Start", "DBTest::PreShutdownMultipleCompaction:VerifyCompaction"}, {"DBTest::PreShutdownMultipleCompaction:Preshutdown", "CompactionJob::Run():End"}, {"CompactionJob::Run():End", "DBTest::PreShutdownMultipleCompaction:VerifyPreshutdown"}}); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); // Make rocksdb busy int key = 0; // check how many threads are doing compaction using GetThreadList int operation_count[ThreadStatus::NUM_OP_TYPES] = {0}; for (int file = 0; file < 16 * kNumL0Files; ++file) { for (int k = 0; k < kEntriesPerBuffer; ++k) { ASSERT_OK(Put(ToString(key++), RandomString(&rnd, kTestValueSize))); } Status s = env_->GetThreadList(&thread_list); for (auto thread : thread_list) { operation_count[thread.operation_type]++; } // Speed up the test if (operation_count[ThreadStatus::OP_FLUSH] > 1 && operation_count[ThreadStatus::OP_COMPACTION] > 0.6 * options.max_background_compactions) { break; } if (file == 15 * kNumL0Files) { TEST_SYNC_POINT("DBTest::PreShutdownMultipleCompaction:Preshutdown"); } } TEST_SYNC_POINT("DBTest::PreShutdownMultipleCompaction:Preshutdown"); ASSERT_GE(operation_count[ThreadStatus::OP_COMPACTION], 1); CancelAllBackgroundWork(db_); TEST_SYNC_POINT("DBTest::PreShutdownMultipleCompaction:VerifyPreshutdown"); dbfull()->TEST_WaitForCompact(); // Record the number of compactions at a time. for (int i = 0; i < ThreadStatus::NUM_OP_TYPES; ++i) { operation_count[i] = 0; } Status s = env_->GetThreadList(&thread_list); for (auto thread : thread_list) { operation_count[thread.operation_type]++; } ASSERT_EQ(operation_count[ThreadStatus::OP_COMPACTION], 0); } TEST_P(DBTestWithParam, PreShutdownCompactionMiddle) { const int kTestKeySize = 16; const int kTestValueSize = 984; const int kEntrySize = kTestKeySize + kTestValueSize; const int kEntriesPerBuffer = 40; const int kNumL0Files = 4; const int kHighPriCount = 3; const int kLowPriCount = 5; env_->SetBackgroundThreads(kHighPriCount, Env::HIGH); env_->SetBackgroundThreads(kLowPriCount, Env::LOW); Options options; options.create_if_missing = true; options.write_buffer_size = kEntrySize * kEntriesPerBuffer; options.compaction_style = kCompactionStyleLevel; options.target_file_size_base = options.write_buffer_size; options.max_bytes_for_level_base = options.target_file_size_base * kNumL0Files; options.compression = kNoCompression; options = CurrentOptions(options); options.env = env_; options.enable_thread_tracking = true; options.level0_file_num_compaction_trigger = kNumL0Files; options.max_bytes_for_level_multiplier = 2; options.max_background_compactions = kLowPriCount; options.level0_stop_writes_trigger = 1 << 10; options.level0_slowdown_writes_trigger = 1 << 10; options.max_subcompactions = max_subcompactions_; TryReopen(options); Random rnd(301); std::vector thread_list; // Delay both flush and compaction rocksdb::SyncPoint::GetInstance()->LoadDependency( {{"DBTest::PreShutdownCompactionMiddle:Preshutdown", "CompactionJob::Run():Inprogress"}, {"CompactionJob::Run():Start", "DBTest::PreShutdownCompactionMiddle:VerifyCompaction"}, {"CompactionJob::Run():Inprogress", "CompactionJob::Run():End"}, {"CompactionJob::Run():End", "DBTest::PreShutdownCompactionMiddle:VerifyPreshutdown"}}); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); // Make rocksdb busy int key = 0; // check how many threads are doing compaction using GetThreadList int operation_count[ThreadStatus::NUM_OP_TYPES] = {0}; for (int file = 0; file < 16 * kNumL0Files; ++file) { for (int k = 0; k < kEntriesPerBuffer; ++k) { ASSERT_OK(Put(ToString(key++), RandomString(&rnd, kTestValueSize))); } Status s = env_->GetThreadList(&thread_list); for (auto thread : thread_list) { operation_count[thread.operation_type]++; } // Speed up the test if (operation_count[ThreadStatus::OP_FLUSH] > 1 && operation_count[ThreadStatus::OP_COMPACTION] > 0.6 * options.max_background_compactions) { break; } if (file == 15 * kNumL0Files) { TEST_SYNC_POINT("DBTest::PreShutdownCompactionMiddle:VerifyCompaction"); } } ASSERT_GE(operation_count[ThreadStatus::OP_COMPACTION], 1); CancelAllBackgroundWork(db_); TEST_SYNC_POINT("DBTest::PreShutdownCompactionMiddle:Preshutdown"); TEST_SYNC_POINT("DBTest::PreShutdownCompactionMiddle:VerifyPreshutdown"); dbfull()->TEST_WaitForCompact(); // Record the number of compactions at a time. for (int i = 0; i < ThreadStatus::NUM_OP_TYPES; ++i) { operation_count[i] = 0; } Status s = env_->GetThreadList(&thread_list); for (auto thread : thread_list) { operation_count[thread.operation_type]++; } ASSERT_EQ(operation_count[ThreadStatus::OP_COMPACTION], 0); } #endif // ROCKSDB_USING_THREAD_STATUS #ifndef ROCKSDB_LITE TEST_F(DBTest, FlushOnDestroy) { WriteOptions wo; wo.disableWAL = true; ASSERT_OK(Put("foo", "v1", wo)); CancelAllBackgroundWork(db_); } TEST_F(DBTest, DynamicLevelCompressionPerLevel) { if (!Snappy_Supported()) { return; } const int kNKeys = 120; int keys[kNKeys]; for (int i = 0; i < kNKeys; i++) { keys[i] = i; } std::random_shuffle(std::begin(keys), std::end(keys)); Random rnd(301); Options options; options.create_if_missing = true; options.db_write_buffer_size = 20480; options.write_buffer_size = 20480; options.max_write_buffer_number = 2; options.level0_file_num_compaction_trigger = 2; options.level0_slowdown_writes_trigger = 2; options.level0_stop_writes_trigger = 2; options.target_file_size_base = 20480; options.level_compaction_dynamic_level_bytes = true; options.max_bytes_for_level_base = 102400; options.max_bytes_for_level_multiplier = 4; options.max_background_compactions = 1; options.num_levels = 5; options.compression_per_level.resize(3); options.compression_per_level[0] = kNoCompression; options.compression_per_level[1] = kNoCompression; options.compression_per_level[2] = kSnappyCompression; OnFileDeletionListener* listener = new OnFileDeletionListener(); options.listeners.emplace_back(listener); DestroyAndReopen(options); // Insert more than 80K. L4 should be base level. Neither L0 nor L4 should // be compressed, so total data size should be more than 80K. for (int i = 0; i < 20; i++) { ASSERT_OK(Put(Key(keys[i]), CompressibleString(&rnd, 4000))); } Flush(); dbfull()->TEST_WaitForCompact(); ASSERT_EQ(NumTableFilesAtLevel(1), 0); ASSERT_EQ(NumTableFilesAtLevel(2), 0); ASSERT_EQ(NumTableFilesAtLevel(3), 0); // Assuming each files' metadata is at least 50 bytes/ ASSERT_GT(SizeAtLevel(0) + SizeAtLevel(4), 20U * 4000U + 50U * 4); // Insert 400KB. Some data will be compressed for (int i = 21; i < 120; i++) { ASSERT_OK(Put(Key(keys[i]), CompressibleString(&rnd, 4000))); } Flush(); dbfull()->TEST_WaitForCompact(); ASSERT_EQ(NumTableFilesAtLevel(1), 0); ASSERT_EQ(NumTableFilesAtLevel(2), 0); ASSERT_LT(SizeAtLevel(0) + SizeAtLevel(3) + SizeAtLevel(4), 120U * 4000U + 50U * 24); // Make sure data in files in L3 is not compacted by removing all files // in L4 and calculate number of rows ASSERT_OK(dbfull()->SetOptions({ {"disable_auto_compactions", "true"}, })); ColumnFamilyMetaData cf_meta; db_->GetColumnFamilyMetaData(&cf_meta); for (auto file : cf_meta.levels[4].files) { listener->SetExpectedFileName(dbname_ + file.name); ASSERT_OK(dbfull()->DeleteFile(file.name)); } listener->VerifyMatchedCount(cf_meta.levels[4].files.size()); int num_keys = 0; std::unique_ptr iter(db_->NewIterator(ReadOptions())); for (iter->SeekToFirst(); iter->Valid(); iter->Next()) { num_keys++; } ASSERT_OK(iter->status()); ASSERT_GT(SizeAtLevel(0) + SizeAtLevel(3), num_keys * 4000U + num_keys * 10U); } TEST_F(DBTest, DynamicLevelCompressionPerLevel2) { if (!Snappy_Supported() || !LZ4_Supported() || !Zlib_Supported()) { return; } const int kNKeys = 500; int keys[kNKeys]; for (int i = 0; i < kNKeys; i++) { keys[i] = i; } std::random_shuffle(std::begin(keys), std::end(keys)); Random rnd(301); Options options; options.create_if_missing = true; options.db_write_buffer_size = 6000000; options.write_buffer_size = 600000; options.max_write_buffer_number = 2; options.level0_file_num_compaction_trigger = 2; options.level0_slowdown_writes_trigger = 2; options.level0_stop_writes_trigger = 2; options.soft_pending_compaction_bytes_limit = 1024 * 1024; options.target_file_size_base = 20; options.level_compaction_dynamic_level_bytes = true; options.max_bytes_for_level_base = 200; options.max_bytes_for_level_multiplier = 8; options.max_background_compactions = 1; options.num_levels = 5; std::shared_ptr mtf(new mock::MockTableFactory); options.table_factory = mtf; options.compression_per_level.resize(3); options.compression_per_level[0] = kNoCompression; options.compression_per_level[1] = kLZ4Compression; options.compression_per_level[2] = kZlibCompression; DestroyAndReopen(options); // When base level is L4, L4 is LZ4. std::atomic num_zlib(0); std::atomic num_lz4(0); std::atomic num_no(0); rocksdb::SyncPoint::GetInstance()->SetCallBack( "LevelCompactionPicker::PickCompaction:Return", [&](void* arg) { Compaction* compaction = reinterpret_cast(arg); if (compaction->output_level() == 4) { ASSERT_TRUE(compaction->output_compression() == kLZ4Compression); num_lz4.fetch_add(1); } }); rocksdb::SyncPoint::GetInstance()->SetCallBack( "FlushJob::WriteLevel0Table:output_compression", [&](void* arg) { auto* compression = reinterpret_cast(arg); ASSERT_TRUE(*compression == kNoCompression); num_no.fetch_add(1); }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); for (int i = 0; i < 100; i++) { std::string value = RandomString(&rnd, 200); ASSERT_OK(Put(Key(keys[i]), value)); if (i % 25 == 24) { Flush(); dbfull()->TEST_WaitForCompact(); } } Flush(); dbfull()->TEST_WaitForFlushMemTable(); dbfull()->TEST_WaitForCompact(); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); rocksdb::SyncPoint::GetInstance()->ClearAllCallBacks(); ASSERT_EQ(NumTableFilesAtLevel(1), 0); ASSERT_EQ(NumTableFilesAtLevel(2), 0); ASSERT_EQ(NumTableFilesAtLevel(3), 0); ASSERT_GT(NumTableFilesAtLevel(4), 0); ASSERT_GT(num_no.load(), 2); ASSERT_GT(num_lz4.load(), 0); int prev_num_files_l4 = NumTableFilesAtLevel(4); // After base level turn L4->L3, L3 becomes LZ4 and L4 becomes Zlib num_lz4.store(0); num_no.store(0); rocksdb::SyncPoint::GetInstance()->SetCallBack( "LevelCompactionPicker::PickCompaction:Return", [&](void* arg) { Compaction* compaction = reinterpret_cast(arg); if (compaction->output_level() == 4 && compaction->start_level() == 3) { ASSERT_TRUE(compaction->output_compression() == kZlibCompression); num_zlib.fetch_add(1); } else { ASSERT_TRUE(compaction->output_compression() == kLZ4Compression); num_lz4.fetch_add(1); } }); rocksdb::SyncPoint::GetInstance()->SetCallBack( "FlushJob::WriteLevel0Table:output_compression", [&](void* arg) { auto* compression = reinterpret_cast(arg); ASSERT_TRUE(*compression == kNoCompression); num_no.fetch_add(1); }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); for (int i = 101; i < 500; i++) { std::string value = RandomString(&rnd, 200); ASSERT_OK(Put(Key(keys[i]), value)); if (i % 100 == 99) { Flush(); dbfull()->TEST_WaitForCompact(); } } rocksdb::SyncPoint::GetInstance()->ClearAllCallBacks(); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); ASSERT_EQ(NumTableFilesAtLevel(1), 0); ASSERT_EQ(NumTableFilesAtLevel(2), 0); ASSERT_GT(NumTableFilesAtLevel(3), 0); ASSERT_GT(NumTableFilesAtLevel(4), prev_num_files_l4); ASSERT_GT(num_no.load(), 2); ASSERT_GT(num_lz4.load(), 0); ASSERT_GT(num_zlib.load(), 0); } TEST_F(DBTest, DynamicCompactionOptions) { // minimum write buffer size is enforced at 64KB const uint64_t k32KB = 1 << 15; const uint64_t k64KB = 1 << 16; const uint64_t k128KB = 1 << 17; const uint64_t k1MB = 1 << 20; const uint64_t k4KB = 1 << 12; Options options; options.env = env_; options.create_if_missing = true; options.compression = kNoCompression; options.soft_pending_compaction_bytes_limit = 1024 * 1024; options.write_buffer_size = k64KB; options.arena_block_size = 4 * k4KB; options.max_write_buffer_number = 2; // Compaction related options options.level0_file_num_compaction_trigger = 3; options.level0_slowdown_writes_trigger = 4; options.level0_stop_writes_trigger = 8; options.target_file_size_base = k64KB; options.max_compaction_bytes = options.target_file_size_base * 10; options.target_file_size_multiplier = 1; options.max_bytes_for_level_base = k128KB; options.max_bytes_for_level_multiplier = 4; // Block flush thread and disable compaction thread env_->SetBackgroundThreads(1, Env::LOW); env_->SetBackgroundThreads(1, Env::HIGH); DestroyAndReopen(options); auto gen_l0_kb = [this](int start, int size, int stride) { Random rnd(301); for (int i = 0; i < size; i++) { ASSERT_OK(Put(Key(start + stride * i), RandomString(&rnd, 1024))); } dbfull()->TEST_WaitForFlushMemTable(); }; // Write 3 files that have the same key range. // Since level0_file_num_compaction_trigger is 3, compaction should be // triggered. The compaction should result in one L1 file gen_l0_kb(0, 64, 1); ASSERT_EQ(NumTableFilesAtLevel(0), 1); gen_l0_kb(0, 64, 1); ASSERT_EQ(NumTableFilesAtLevel(0), 2); gen_l0_kb(0, 64, 1); dbfull()->TEST_WaitForCompact(); ASSERT_EQ("0,1", FilesPerLevel()); std::vector metadata; db_->GetLiveFilesMetaData(&metadata); ASSERT_EQ(1U, metadata.size()); ASSERT_LE(metadata[0].size, k64KB + k4KB); ASSERT_GE(metadata[0].size, k64KB - k4KB); // Test compaction trigger and target_file_size_base // Reduce compaction trigger to 2, and reduce L1 file size to 32KB. // Writing to 64KB L0 files should trigger a compaction. Since these // 2 L0 files have the same key range, compaction merge them and should // result in 2 32KB L1 files. ASSERT_OK(dbfull()->SetOptions({{"level0_file_num_compaction_trigger", "2"}, {"target_file_size_base", ToString(k32KB)}})); gen_l0_kb(0, 64, 1); ASSERT_EQ("1,1", FilesPerLevel()); gen_l0_kb(0, 64, 1); dbfull()->TEST_WaitForCompact(); ASSERT_EQ("0,2", FilesPerLevel()); metadata.clear(); db_->GetLiveFilesMetaData(&metadata); ASSERT_EQ(2U, metadata.size()); ASSERT_LE(metadata[0].size, k32KB + k4KB); ASSERT_GE(metadata[0].size, k32KB - k4KB); ASSERT_LE(metadata[1].size, k32KB + k4KB); ASSERT_GE(metadata[1].size, k32KB - k4KB); // Test max_bytes_for_level_base // Increase level base size to 256KB and write enough data that will // fill L1 and L2. L1 size should be around 256KB while L2 size should be // around 256KB x 4. ASSERT_OK( dbfull()->SetOptions({{"max_bytes_for_level_base", ToString(k1MB)}})); // writing 96 x 64KB => 6 * 1024KB // (L1 + L2) = (1 + 4) * 1024KB for (int i = 0; i < 96; ++i) { gen_l0_kb(i, 64, 96); } dbfull()->TEST_WaitForCompact(); ASSERT_GT(SizeAtLevel(1), k1MB / 2); ASSERT_LT(SizeAtLevel(1), k1MB + k1MB / 2); // Within (0.5, 1.5) of 4MB. ASSERT_GT(SizeAtLevel(2), 2 * k1MB); ASSERT_LT(SizeAtLevel(2), 6 * k1MB); // Test max_bytes_for_level_multiplier and // max_bytes_for_level_base. Now, reduce both mulitplier and level base, // After filling enough data that can fit in L1 - L3, we should see L1 size // reduces to 128KB from 256KB which was asserted previously. Same for L2. ASSERT_OK( dbfull()->SetOptions({{"max_bytes_for_level_multiplier", "2"}, {"max_bytes_for_level_base", ToString(k128KB)}})); // writing 20 x 64KB = 10 x 128KB // (L1 + L2 + L3) = (1 + 2 + 4) * 128KB for (int i = 0; i < 20; ++i) { gen_l0_kb(i, 64, 32); } dbfull()->TEST_WaitForCompact(); uint64_t total_size = SizeAtLevel(1) + SizeAtLevel(2) + SizeAtLevel(3); ASSERT_TRUE(total_size < k128KB * 7 * 1.5); // Test level0_stop_writes_trigger. // Clean up memtable and L0. Block compaction threads. If continue to write // and flush memtables. We should see put stop after 8 memtable flushes // since level0_stop_writes_trigger = 8 dbfull()->TEST_FlushMemTable(true, true); dbfull()->CompactRange(CompactRangeOptions(), nullptr, nullptr); // Block compaction test::SleepingBackgroundTask sleeping_task_low; env_->Schedule(&test::SleepingBackgroundTask::DoSleepTask, &sleeping_task_low, Env::Priority::LOW); sleeping_task_low.WaitUntilSleeping(); ASSERT_EQ(NumTableFilesAtLevel(0), 0); int count = 0; Random rnd(301); WriteOptions wo; while (count < 64) { ASSERT_OK(Put(Key(count), RandomString(&rnd, 1024), wo)); dbfull()->TEST_FlushMemTable(true, true); count++; if (dbfull()->TEST_write_controler().IsStopped()) { sleeping_task_low.WakeUp(); break; } } // Stop trigger = 8 ASSERT_EQ(count, 8); // Unblock sleeping_task_low.WaitUntilDone(); // Now reduce level0_stop_writes_trigger to 6. Clear up memtables and L0. // Block compaction thread again. Perform the put and memtable flushes // until we see the stop after 6 memtable flushes. ASSERT_OK(dbfull()->SetOptions({{"level0_stop_writes_trigger", "6"}})); dbfull()->TEST_FlushMemTable(true); dbfull()->CompactRange(CompactRangeOptions(), nullptr, nullptr); ASSERT_EQ(NumTableFilesAtLevel(0), 0); // Block compaction again sleeping_task_low.Reset(); env_->Schedule(&test::SleepingBackgroundTask::DoSleepTask, &sleeping_task_low, Env::Priority::LOW); sleeping_task_low.WaitUntilSleeping(); count = 0; while (count < 64) { ASSERT_OK(Put(Key(count), RandomString(&rnd, 1024), wo)); dbfull()->TEST_FlushMemTable(true, true); count++; if (dbfull()->TEST_write_controler().IsStopped()) { sleeping_task_low.WakeUp(); break; } } ASSERT_EQ(count, 6); // Unblock sleeping_task_low.WaitUntilDone(); // Test disable_auto_compactions // Compaction thread is unblocked but auto compaction is disabled. Write // 4 L0 files and compaction should be triggered. If auto compaction is // disabled, then TEST_WaitForCompact will be waiting for nothing. Number of // L0 files do not change after the call. ASSERT_OK(dbfull()->SetOptions({{"disable_auto_compactions", "true"}})); dbfull()->CompactRange(CompactRangeOptions(), nullptr, nullptr); ASSERT_EQ(NumTableFilesAtLevel(0), 0); for (int i = 0; i < 4; ++i) { ASSERT_OK(Put(Key(i), RandomString(&rnd, 1024))); // Wait for compaction so that put won't stop dbfull()->TEST_FlushMemTable(true); } dbfull()->TEST_WaitForCompact(); ASSERT_EQ(NumTableFilesAtLevel(0), 4); // Enable auto compaction and perform the same test, # of L0 files should be // reduced after compaction. ASSERT_OK(dbfull()->SetOptions({{"disable_auto_compactions", "false"}})); dbfull()->CompactRange(CompactRangeOptions(), nullptr, nullptr); ASSERT_EQ(NumTableFilesAtLevel(0), 0); for (int i = 0; i < 4; ++i) { ASSERT_OK(Put(Key(i), RandomString(&rnd, 1024))); // Wait for compaction so that put won't stop dbfull()->TEST_FlushMemTable(true); } dbfull()->TEST_WaitForCompact(); ASSERT_LT(NumTableFilesAtLevel(0), 4); } // Test dynamic FIFO copmaction options. // This test covers just option parsing and makes sure that the options are // correctly assigned. Also look at DBOptionsTest.SetFIFOCompactionOptions // test which makes sure that the FIFO compaction funcionality is working // as expected on dynamically changing the options. // Even more FIFOCompactionTests are at DBTest.FIFOCompaction* . TEST_F(DBTest, DynamicFIFOCompactionOptions) { Options options; options.create_if_missing = true; DestroyAndReopen(options); // Initial defaults ASSERT_EQ(dbfull()->GetOptions().compaction_options_fifo.max_table_files_size, 1024 * 1024 * 1024); ASSERT_EQ(dbfull()->GetOptions().compaction_options_fifo.ttl, 0); ASSERT_EQ(dbfull()->GetOptions().compaction_options_fifo.allow_compaction, false); ASSERT_OK(dbfull()->SetOptions( {{"compaction_options_fifo", "{max_table_files_size=23;}"}})); ASSERT_EQ(dbfull()->GetOptions().compaction_options_fifo.max_table_files_size, 23); ASSERT_EQ(dbfull()->GetOptions().compaction_options_fifo.ttl, 0); ASSERT_EQ(dbfull()->GetOptions().compaction_options_fifo.allow_compaction, false); ASSERT_OK(dbfull()->SetOptions({{"compaction_options_fifo", "{ttl=97}"}})); ASSERT_EQ(dbfull()->GetOptions().compaction_options_fifo.max_table_files_size, 23); ASSERT_EQ(dbfull()->GetOptions().compaction_options_fifo.ttl, 97); ASSERT_EQ(dbfull()->GetOptions().compaction_options_fifo.allow_compaction, false); ASSERT_OK(dbfull()->SetOptions({{"compaction_options_fifo", "{ttl=203;}"}})); ASSERT_EQ(dbfull()->GetOptions().compaction_options_fifo.max_table_files_size, 23); ASSERT_EQ(dbfull()->GetOptions().compaction_options_fifo.ttl, 203); ASSERT_EQ(dbfull()->GetOptions().compaction_options_fifo.allow_compaction, false); ASSERT_OK(dbfull()->SetOptions( {{"compaction_options_fifo", "{allow_compaction=true;}"}})); ASSERT_EQ(dbfull()->GetOptions().compaction_options_fifo.max_table_files_size, 23); ASSERT_EQ(dbfull()->GetOptions().compaction_options_fifo.ttl, 203); ASSERT_EQ(dbfull()->GetOptions().compaction_options_fifo.allow_compaction, true); ASSERT_OK(dbfull()->SetOptions( {{"compaction_options_fifo", "{max_table_files_size=31;ttl=19;}"}})); ASSERT_EQ(dbfull()->GetOptions().compaction_options_fifo.max_table_files_size, 31); ASSERT_EQ(dbfull()->GetOptions().compaction_options_fifo.ttl, 19); ASSERT_EQ(dbfull()->GetOptions().compaction_options_fifo.allow_compaction, true); ASSERT_OK(dbfull()->SetOptions( {{"compaction_options_fifo", "{max_table_files_size=51;ttl=49;allow_compaction=true;}"}})); ASSERT_EQ(dbfull()->GetOptions().compaction_options_fifo.max_table_files_size, 51); ASSERT_EQ(dbfull()->GetOptions().compaction_options_fifo.ttl, 49); ASSERT_EQ(dbfull()->GetOptions().compaction_options_fifo.allow_compaction, true); } TEST_F(DBTest, DynamicUniversalCompactionOptions) { Options options; options.create_if_missing = true; DestroyAndReopen(options); // Initial defaults ASSERT_EQ(dbfull()->GetOptions().compaction_options_universal.size_ratio, 1); ASSERT_EQ(dbfull()->GetOptions().compaction_options_universal.min_merge_width, 2); ASSERT_EQ(dbfull()->GetOptions().compaction_options_universal.max_merge_width, UINT_MAX); ASSERT_EQ(dbfull() ->GetOptions() .compaction_options_universal.max_size_amplification_percent, 200); ASSERT_EQ(dbfull() ->GetOptions() .compaction_options_universal.compression_size_percent, -1); ASSERT_EQ(dbfull()->GetOptions().compaction_options_universal.stop_style, kCompactionStopStyleTotalSize); ASSERT_EQ( dbfull()->GetOptions().compaction_options_universal.allow_trivial_move, false); ASSERT_OK(dbfull()->SetOptions( {{"compaction_options_universal", "{size_ratio=7;}"}})); ASSERT_EQ(dbfull()->GetOptions().compaction_options_universal.size_ratio, 7); ASSERT_EQ(dbfull()->GetOptions().compaction_options_universal.min_merge_width, 2); ASSERT_EQ(dbfull()->GetOptions().compaction_options_universal.max_merge_width, UINT_MAX); ASSERT_EQ(dbfull() ->GetOptions() .compaction_options_universal.max_size_amplification_percent, 200); ASSERT_EQ(dbfull() ->GetOptions() .compaction_options_universal.compression_size_percent, -1); ASSERT_EQ(dbfull()->GetOptions().compaction_options_universal.stop_style, kCompactionStopStyleTotalSize); ASSERT_EQ( dbfull()->GetOptions().compaction_options_universal.allow_trivial_move, false); ASSERT_OK(dbfull()->SetOptions( {{"compaction_options_universal", "{min_merge_width=11;}"}})); ASSERT_EQ(dbfull()->GetOptions().compaction_options_universal.size_ratio, 7); ASSERT_EQ(dbfull()->GetOptions().compaction_options_universal.min_merge_width, 11); ASSERT_EQ(dbfull()->GetOptions().compaction_options_universal.max_merge_width, UINT_MAX); ASSERT_EQ(dbfull() ->GetOptions() .compaction_options_universal.max_size_amplification_percent, 200); ASSERT_EQ(dbfull() ->GetOptions() .compaction_options_universal.compression_size_percent, -1); ASSERT_EQ(dbfull()->GetOptions().compaction_options_universal.stop_style, kCompactionStopStyleTotalSize); ASSERT_EQ( dbfull()->GetOptions().compaction_options_universal.allow_trivial_move, false); } #endif // ROCKSDB_LITE TEST_F(DBTest, FileCreationRandomFailure) { Options options; options.env = env_; options.create_if_missing = true; options.write_buffer_size = 100000; // Small write buffer options.target_file_size_base = 200000; options.max_bytes_for_level_base = 1000000; options.max_bytes_for_level_multiplier = 2; DestroyAndReopen(options); Random rnd(301); const int kCDTKeysPerBuffer = 4; const int kTestSize = kCDTKeysPerBuffer * 4096; const int kTotalIteration = 100; // the second half of the test involves in random failure // of file creation. const int kRandomFailureTest = kTotalIteration / 2; std::vector values; for (int i = 0; i < kTestSize; ++i) { values.push_back("NOT_FOUND"); } for (int j = 0; j < kTotalIteration; ++j) { if (j == kRandomFailureTest) { env_->non_writeable_rate_.store(90); } for (int k = 0; k < kTestSize; ++k) { // here we expect some of the Put fails. std::string value = RandomString(&rnd, 100); Status s = Put(Key(k), Slice(value)); if (s.ok()) { // update the latest successful put values[k] = value; } // But everything before we simulate the failure-test should succeed. if (j < kRandomFailureTest) { ASSERT_OK(s); } } } // If rocksdb does not do the correct job, internal assert will fail here. dbfull()->TEST_WaitForFlushMemTable(); dbfull()->TEST_WaitForCompact(); // verify we have the latest successful update for (int k = 0; k < kTestSize; ++k) { auto v = Get(Key(k)); ASSERT_EQ(v, values[k]); } // reopen and reverify we have the latest successful update env_->non_writeable_rate_.store(0); Reopen(options); for (int k = 0; k < kTestSize; ++k) { auto v = Get(Key(k)); ASSERT_EQ(v, values[k]); } } #ifndef ROCKSDB_LITE TEST_F(DBTest, DynamicMiscOptions) { // Test max_sequential_skip_in_iterations Options options; options.env = env_; options.create_if_missing = true; options.max_sequential_skip_in_iterations = 16; options.compression = kNoCompression; options.statistics = rocksdb::CreateDBStatistics(); DestroyAndReopen(options); auto assert_reseek_count = [this, &options](int key_start, int num_reseek) { int key0 = key_start; int key1 = key_start + 1; int key2 = key_start + 2; Random rnd(301); ASSERT_OK(Put(Key(key0), RandomString(&rnd, 8))); for (int i = 0; i < 10; ++i) { ASSERT_OK(Put(Key(key1), RandomString(&rnd, 8))); } ASSERT_OK(Put(Key(key2), RandomString(&rnd, 8))); std::unique_ptr iter(db_->NewIterator(ReadOptions())); iter->Seek(Key(key1)); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(iter->key().compare(Key(key1)), 0); iter->Next(); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(iter->key().compare(Key(key2)), 0); ASSERT_EQ(num_reseek, TestGetTickerCount(options, NUMBER_OF_RESEEKS_IN_ITERATION)); }; // No reseek assert_reseek_count(100, 0); ASSERT_OK(dbfull()->SetOptions({{"max_sequential_skip_in_iterations", "4"}})); // Clear memtable and make new option effective dbfull()->TEST_FlushMemTable(true); // Trigger reseek assert_reseek_count(200, 1); ASSERT_OK( dbfull()->SetOptions({{"max_sequential_skip_in_iterations", "16"}})); // Clear memtable and make new option effective dbfull()->TEST_FlushMemTable(true); // No reseek assert_reseek_count(300, 1); MutableCFOptions mutable_cf_options; CreateAndReopenWithCF({"pikachu"}, options); // Test soft_pending_compaction_bytes_limit, // hard_pending_compaction_bytes_limit ASSERT_OK(dbfull()->SetOptions( handles_[1], {{"soft_pending_compaction_bytes_limit", "200"}, {"hard_pending_compaction_bytes_limit", "300"}})); ASSERT_OK(dbfull()->TEST_GetLatestMutableCFOptions(handles_[1], &mutable_cf_options)); ASSERT_EQ(200, mutable_cf_options.soft_pending_compaction_bytes_limit); ASSERT_EQ(300, mutable_cf_options.hard_pending_compaction_bytes_limit); // Test report_bg_io_stats ASSERT_OK( dbfull()->SetOptions(handles_[1], {{"report_bg_io_stats", "true"}})); // sanity check ASSERT_OK(dbfull()->TEST_GetLatestMutableCFOptions(handles_[1], &mutable_cf_options)); ASSERT_TRUE(mutable_cf_options.report_bg_io_stats); // Test compression // sanity check ASSERT_OK(dbfull()->SetOptions({{"compression", "kNoCompression"}})); ASSERT_OK(dbfull()->TEST_GetLatestMutableCFOptions(handles_[0], &mutable_cf_options)); ASSERT_EQ(CompressionType::kNoCompression, mutable_cf_options.compression); ASSERT_OK(dbfull()->SetOptions({{"compression", "kSnappyCompression"}})); ASSERT_OK(dbfull()->TEST_GetLatestMutableCFOptions(handles_[0], &mutable_cf_options)); ASSERT_EQ(CompressionType::kSnappyCompression, mutable_cf_options.compression); // Test paranoid_file_checks already done in db_block_cache_test ASSERT_OK( dbfull()->SetOptions(handles_[1], {{"paranoid_file_checks", "true"}})); ASSERT_OK(dbfull()->TEST_GetLatestMutableCFOptions(handles_[1], &mutable_cf_options)); ASSERT_TRUE(mutable_cf_options.report_bg_io_stats); } #endif // ROCKSDB_LITE TEST_F(DBTest, L0L1L2AndUpHitCounter) { Options options = CurrentOptions(); options.write_buffer_size = 32 * 1024; options.target_file_size_base = 32 * 1024; options.level0_file_num_compaction_trigger = 2; options.level0_slowdown_writes_trigger = 2; options.level0_stop_writes_trigger = 4; options.max_bytes_for_level_base = 64 * 1024; options.max_write_buffer_number = 2; options.max_background_compactions = 8; options.max_background_flushes = 8; options.statistics = rocksdb::CreateDBStatistics(); CreateAndReopenWithCF({"mypikachu"}, options); int numkeys = 20000; for (int i = 0; i < numkeys; i++) { ASSERT_OK(Put(1, Key(i), "val")); } ASSERT_EQ(0, TestGetTickerCount(options, GET_HIT_L0)); ASSERT_EQ(0, TestGetTickerCount(options, GET_HIT_L1)); ASSERT_EQ(0, TestGetTickerCount(options, GET_HIT_L2_AND_UP)); ASSERT_OK(Flush(1)); dbfull()->TEST_WaitForCompact(); for (int i = 0; i < numkeys; i++) { ASSERT_EQ(Get(1, Key(i)), "val"); } ASSERT_GT(TestGetTickerCount(options, GET_HIT_L0), 100); ASSERT_GT(TestGetTickerCount(options, GET_HIT_L1), 100); ASSERT_GT(TestGetTickerCount(options, GET_HIT_L2_AND_UP), 100); ASSERT_EQ(numkeys, TestGetTickerCount(options, GET_HIT_L0) + TestGetTickerCount(options, GET_HIT_L1) + TestGetTickerCount(options, GET_HIT_L2_AND_UP)); } TEST_F(DBTest, EncodeDecompressedBlockSizeTest) { // iter 0 -- zlib // iter 1 -- bzip2 // iter 2 -- lz4 // iter 3 -- lz4HC // iter 4 -- xpress CompressionType compressions[] = {kZlibCompression, kBZip2Compression, kLZ4Compression, kLZ4HCCompression, kXpressCompression}; for (auto comp : compressions) { if (!CompressionTypeSupported(comp)) { continue; } // first_table_version 1 -- generate with table_version == 1, read with // table_version == 2 // first_table_version 2 -- generate with table_version == 2, read with // table_version == 1 for (int first_table_version = 1; first_table_version <= 2; ++first_table_version) { BlockBasedTableOptions table_options; table_options.format_version = first_table_version; table_options.filter_policy.reset(NewBloomFilterPolicy(10)); Options options = CurrentOptions(); options.table_factory.reset(NewBlockBasedTableFactory(table_options)); options.create_if_missing = true; options.compression = comp; DestroyAndReopen(options); int kNumKeysWritten = 1000; Random rnd(301); for (int i = 0; i < kNumKeysWritten; ++i) { // compressible string ASSERT_OK(Put(Key(i), RandomString(&rnd, 128) + std::string(128, 'a'))); } table_options.format_version = first_table_version == 1 ? 2 : 1; options.table_factory.reset(NewBlockBasedTableFactory(table_options)); Reopen(options); for (int i = 0; i < kNumKeysWritten; ++i) { auto r = Get(Key(i)); ASSERT_EQ(r.substr(128), std::string(128, 'a')); } } } } TEST_F(DBTest, CloseSpeedup) { Options options = CurrentOptions(); options.compaction_style = kCompactionStyleLevel; options.write_buffer_size = 110 << 10; // 110KB options.arena_block_size = 4 << 10; options.level0_file_num_compaction_trigger = 2; options.num_levels = 4; options.max_bytes_for_level_base = 400 * 1024; options.max_write_buffer_number = 16; // Block background threads env_->SetBackgroundThreads(1, Env::LOW); env_->SetBackgroundThreads(1, Env::HIGH); test::SleepingBackgroundTask sleeping_task_low; env_->Schedule(&test::SleepingBackgroundTask::DoSleepTask, &sleeping_task_low, Env::Priority::LOW); test::SleepingBackgroundTask sleeping_task_high; env_->Schedule(&test::SleepingBackgroundTask::DoSleepTask, &sleeping_task_high, Env::Priority::HIGH); std::vector filenames; env_->GetChildren(dbname_, &filenames); // Delete archival files. for (size_t i = 0; i < filenames.size(); ++i) { env_->DeleteFile(dbname_ + "/" + filenames[i]); } env_->DeleteDir(dbname_); DestroyAndReopen(options); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); env_->SetBackgroundThreads(1, Env::LOW); env_->SetBackgroundThreads(1, Env::HIGH); Random rnd(301); int key_idx = 0; // First three 110KB files are not going to level 2 // After that, (100K, 200K) for (int num = 0; num < 5; num++) { GenerateNewFile(&rnd, &key_idx, true); } ASSERT_EQ(0, GetSstFileCount(dbname_)); Close(); ASSERT_EQ(0, GetSstFileCount(dbname_)); // Unblock background threads sleeping_task_high.WakeUp(); sleeping_task_high.WaitUntilDone(); sleeping_task_low.WakeUp(); sleeping_task_low.WaitUntilDone(); Destroy(options); } class DelayedMergeOperator : public MergeOperator { private: DBTest* db_test_; public: explicit DelayedMergeOperator(DBTest* d) : db_test_(d) {} virtual bool FullMergeV2(const MergeOperationInput& /*merge_in*/, MergeOperationOutput* merge_out) const override { db_test_->env_->addon_time_.fetch_add(1000); merge_out->new_value = ""; return true; } virtual const char* Name() const override { return "DelayedMergeOperator"; } }; TEST_F(DBTest, MergeTestTime) { std::string one, two, three; PutFixed64(&one, 1); PutFixed64(&two, 2); PutFixed64(&three, 3); // Enable time profiling SetPerfLevel(kEnableTime); this->env_->addon_time_.store(0); this->env_->time_elapse_only_sleep_ = true; this->env_->no_slowdown_ = true; Options options = CurrentOptions(); options.statistics = rocksdb::CreateDBStatistics(); options.merge_operator.reset(new DelayedMergeOperator(this)); DestroyAndReopen(options); ASSERT_EQ(TestGetTickerCount(options, MERGE_OPERATION_TOTAL_TIME), 0); db_->Put(WriteOptions(), "foo", one); ASSERT_OK(Flush()); ASSERT_OK(db_->Merge(WriteOptions(), "foo", two)); ASSERT_OK(Flush()); ASSERT_OK(db_->Merge(WriteOptions(), "foo", three)); ASSERT_OK(Flush()); ReadOptions opt; opt.verify_checksums = true; opt.snapshot = nullptr; std::string result; db_->Get(opt, "foo", &result); ASSERT_EQ(1000000, TestGetTickerCount(options, MERGE_OPERATION_TOTAL_TIME)); ReadOptions read_options; std::unique_ptr iter(db_->NewIterator(read_options)); int count = 0; for (iter->SeekToFirst(); iter->Valid(); iter->Next()) { ASSERT_OK(iter->status()); ++count; } ASSERT_EQ(1, count); ASSERT_EQ(2000000, TestGetTickerCount(options, MERGE_OPERATION_TOTAL_TIME)); #ifdef ROCKSDB_USING_THREAD_STATUS ASSERT_GT(TestGetTickerCount(options, FLUSH_WRITE_BYTES), 0); #endif // ROCKSDB_USING_THREAD_STATUS this->env_->time_elapse_only_sleep_ = false; } #ifndef ROCKSDB_LITE TEST_P(DBTestWithParam, MergeCompactionTimeTest) { SetPerfLevel(kEnableTime); Options options = CurrentOptions(); options.compaction_filter_factory = std::make_shared(); options.statistics = rocksdb::CreateDBStatistics(); options.merge_operator.reset(new DelayedMergeOperator(this)); options.compaction_style = kCompactionStyleUniversal; options.max_subcompactions = max_subcompactions_; DestroyAndReopen(options); for (int i = 0; i < 1000; i++) { ASSERT_OK(db_->Merge(WriteOptions(), "foo", "TEST")); ASSERT_OK(Flush()); } dbfull()->TEST_WaitForFlushMemTable(); dbfull()->TEST_WaitForCompact(); ASSERT_NE(TestGetTickerCount(options, MERGE_OPERATION_TOTAL_TIME), 0); } TEST_P(DBTestWithParam, FilterCompactionTimeTest) { Options options = CurrentOptions(); options.compaction_filter_factory = std::make_shared(this); options.disable_auto_compactions = true; options.create_if_missing = true; options.statistics = rocksdb::CreateDBStatistics(); options.statistics->stats_level_ = kExceptTimeForMutex; options.max_subcompactions = max_subcompactions_; DestroyAndReopen(options); // put some data for (int table = 0; table < 4; ++table) { for (int i = 0; i < 10 + table; ++i) { Put(ToString(table * 100 + i), "val"); } Flush(); } CompactRangeOptions cro; cro.exclusive_manual_compaction = exclusive_manual_compaction_; ASSERT_OK(db_->CompactRange(cro, nullptr, nullptr)); ASSERT_EQ(0U, CountLiveFiles()); Reopen(options); Iterator* itr = db_->NewIterator(ReadOptions()); itr->SeekToFirst(); ASSERT_NE(TestGetTickerCount(options, FILTER_OPERATION_TOTAL_TIME), 0); delete itr; } #endif // ROCKSDB_LITE TEST_F(DBTest, TestLogCleanup) { Options options = CurrentOptions(); options.write_buffer_size = 64 * 1024; // very small // only two memtables allowed ==> only two log files options.max_write_buffer_number = 2; Reopen(options); for (int i = 0; i < 100000; ++i) { Put(Key(i), "val"); // only 2 memtables will be alive, so logs_to_free needs to always be below // 2 ASSERT_LT(dbfull()->TEST_LogsToFreeSize(), static_cast(3)); } } #ifndef ROCKSDB_LITE TEST_F(DBTest, EmptyCompactedDB) { Options options = CurrentOptions(); options.max_open_files = -1; Close(); ASSERT_OK(ReadOnlyReopen(options)); Status s = Put("new", "value"); ASSERT_TRUE(s.IsNotSupported()); Close(); } #endif // ROCKSDB_LITE #ifndef ROCKSDB_LITE TEST_F(DBTest, SuggestCompactRangeTest) { class CompactionFilterFactoryGetContext : public CompactionFilterFactory { public: virtual std::unique_ptr CreateCompactionFilter( const CompactionFilter::Context& context) override { saved_context = context; std::unique_ptr empty_filter; return empty_filter; } const char* Name() const override { return "CompactionFilterFactoryGetContext"; } static bool IsManual(CompactionFilterFactory* compaction_filter_factory) { return reinterpret_cast( compaction_filter_factory) ->saved_context.is_manual_compaction; } CompactionFilter::Context saved_context; }; Options options = CurrentOptions(); options.memtable_factory.reset( new SpecialSkipListFactory(DBTestBase::kNumKeysByGenerateNewRandomFile)); options.compaction_style = kCompactionStyleLevel; options.compaction_filter_factory.reset( new CompactionFilterFactoryGetContext()); options.write_buffer_size = 200 << 10; options.arena_block_size = 4 << 10; options.level0_file_num_compaction_trigger = 4; options.num_levels = 4; options.compression = kNoCompression; options.max_bytes_for_level_base = 450 << 10; options.target_file_size_base = 98 << 10; options.max_compaction_bytes = static_cast(1) << 60; // inf Reopen(options); Random rnd(301); for (int num = 0; num < 3; num++) { GenerateNewRandomFile(&rnd); } GenerateNewRandomFile(&rnd); ASSERT_EQ("0,4", FilesPerLevel(0)); ASSERT_TRUE(!CompactionFilterFactoryGetContext::IsManual( options.compaction_filter_factory.get())); GenerateNewRandomFile(&rnd); ASSERT_EQ("1,4", FilesPerLevel(0)); GenerateNewRandomFile(&rnd); ASSERT_EQ("2,4", FilesPerLevel(0)); GenerateNewRandomFile(&rnd); ASSERT_EQ("3,4", FilesPerLevel(0)); GenerateNewRandomFile(&rnd); ASSERT_EQ("0,4,4", FilesPerLevel(0)); GenerateNewRandomFile(&rnd); ASSERT_EQ("1,4,4", FilesPerLevel(0)); GenerateNewRandomFile(&rnd); ASSERT_EQ("2,4,4", FilesPerLevel(0)); GenerateNewRandomFile(&rnd); ASSERT_EQ("3,4,4", FilesPerLevel(0)); GenerateNewRandomFile(&rnd); ASSERT_EQ("0,4,8", FilesPerLevel(0)); GenerateNewRandomFile(&rnd); ASSERT_EQ("1,4,8", FilesPerLevel(0)); // compact it three times for (int i = 0; i < 3; ++i) { ASSERT_OK(experimental::SuggestCompactRange(db_, nullptr, nullptr)); dbfull()->TEST_WaitForCompact(); } // All files are compacted ASSERT_EQ(0, NumTableFilesAtLevel(0)); ASSERT_EQ(0, NumTableFilesAtLevel(1)); GenerateNewRandomFile(&rnd); ASSERT_EQ(1, NumTableFilesAtLevel(0)); // nonoverlapping with the file on level 0 Slice start("a"), end("b"); ASSERT_OK(experimental::SuggestCompactRange(db_, &start, &end)); dbfull()->TEST_WaitForCompact(); // should not compact the level 0 file ASSERT_EQ(1, NumTableFilesAtLevel(0)); start = Slice("j"); end = Slice("m"); ASSERT_OK(experimental::SuggestCompactRange(db_, &start, &end)); dbfull()->TEST_WaitForCompact(); ASSERT_TRUE(CompactionFilterFactoryGetContext::IsManual( options.compaction_filter_factory.get())); // now it should compact the level 0 file ASSERT_EQ(0, NumTableFilesAtLevel(0)); ASSERT_EQ(1, NumTableFilesAtLevel(1)); } TEST_F(DBTest, PromoteL0) { Options options = CurrentOptions(); options.disable_auto_compactions = true; options.write_buffer_size = 10 * 1024 * 1024; DestroyAndReopen(options); // non overlapping ranges std::vector> ranges = { {81, 160}, {0, 80}, {161, 240}, {241, 320}}; int32_t value_size = 10 * 1024; // 10 KB Random rnd(301); std::map values; for (const auto& range : ranges) { for (int32_t j = range.first; j < range.second; j++) { values[j] = RandomString(&rnd, value_size); ASSERT_OK(Put(Key(j), values[j])); } ASSERT_OK(Flush()); } int32_t level0_files = NumTableFilesAtLevel(0, 0); ASSERT_EQ(level0_files, ranges.size()); ASSERT_EQ(NumTableFilesAtLevel(1, 0), 0); // No files in L1 // Promote L0 level to L2. ASSERT_OK(experimental::PromoteL0(db_, db_->DefaultColumnFamily(), 2)); // We expect that all the files were trivially moved from L0 to L2 ASSERT_EQ(NumTableFilesAtLevel(0, 0), 0); ASSERT_EQ(NumTableFilesAtLevel(2, 0), level0_files); for (const auto& kv : values) { ASSERT_EQ(Get(Key(kv.first)), kv.second); } } TEST_F(DBTest, PromoteL0Failure) { Options options = CurrentOptions(); options.disable_auto_compactions = true; options.write_buffer_size = 10 * 1024 * 1024; DestroyAndReopen(options); // Produce two L0 files with overlapping ranges. ASSERT_OK(Put(Key(0), "")); ASSERT_OK(Put(Key(3), "")); ASSERT_OK(Flush()); ASSERT_OK(Put(Key(1), "")); ASSERT_OK(Flush()); Status status; // Fails because L0 has overlapping files. status = experimental::PromoteL0(db_, db_->DefaultColumnFamily()); ASSERT_TRUE(status.IsInvalidArgument()); ASSERT_OK(db_->CompactRange(CompactRangeOptions(), nullptr, nullptr)); // Now there is a file in L1. ASSERT_GE(NumTableFilesAtLevel(1, 0), 1); ASSERT_OK(Put(Key(5), "")); ASSERT_OK(Flush()); // Fails because L1 is non-empty. status = experimental::PromoteL0(db_, db_->DefaultColumnFamily()); ASSERT_TRUE(status.IsInvalidArgument()); } // Github issue #596 TEST_F(DBTest, CompactRangeWithEmptyBottomLevel) { const int kNumLevels = 2; const int kNumL0Files = 2; Options options = CurrentOptions(); options.disable_auto_compactions = true; options.num_levels = kNumLevels; DestroyAndReopen(options); Random rnd(301); for (int i = 0; i < kNumL0Files; ++i) { ASSERT_OK(Put(Key(0), RandomString(&rnd, 1024))); Flush(); } ASSERT_EQ(NumTableFilesAtLevel(0), kNumL0Files); ASSERT_EQ(NumTableFilesAtLevel(1), 0); ASSERT_OK(db_->CompactRange(CompactRangeOptions(), nullptr, nullptr)); ASSERT_EQ(NumTableFilesAtLevel(0), 0); ASSERT_EQ(NumTableFilesAtLevel(1), kNumL0Files); } #endif // ROCKSDB_LITE TEST_F(DBTest, AutomaticConflictsWithManualCompaction) { const int kNumL0Files = 50; Options options = CurrentOptions(); options.level0_file_num_compaction_trigger = 4; // never slowdown / stop options.level0_slowdown_writes_trigger = 999999; options.level0_stop_writes_trigger = 999999; options.max_background_compactions = 10; DestroyAndReopen(options); // schedule automatic compactions after the manual one starts, but before it // finishes to ensure conflict. rocksdb::SyncPoint::GetInstance()->LoadDependency( {{"DBImpl::BackgroundCompaction:Start", "DBTest::AutomaticConflictsWithManualCompaction:PrePuts"}, {"DBTest::AutomaticConflictsWithManualCompaction:PostPuts", "DBImpl::BackgroundCompaction:NonTrivial:AfterRun"}}); std::atomic callback_count(0); rocksdb::SyncPoint::GetInstance()->SetCallBack( "DBImpl::MaybeScheduleFlushOrCompaction:Conflict", [&](void* /*arg*/) { callback_count.fetch_add(1); }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); Random rnd(301); for (int i = 0; i < 2; ++i) { // put two keys to ensure no trivial move for (int j = 0; j < 2; ++j) { ASSERT_OK(Put(Key(j), RandomString(&rnd, 1024))); } ASSERT_OK(Flush()); } port::Thread manual_compaction_thread([this]() { CompactRangeOptions croptions; croptions.exclusive_manual_compaction = true; ASSERT_OK(db_->CompactRange(croptions, nullptr, nullptr)); }); TEST_SYNC_POINT("DBTest::AutomaticConflictsWithManualCompaction:PrePuts"); for (int i = 0; i < kNumL0Files; ++i) { // put two keys to ensure no trivial move for (int j = 0; j < 2; ++j) { ASSERT_OK(Put(Key(j), RandomString(&rnd, 1024))); } ASSERT_OK(Flush()); } TEST_SYNC_POINT("DBTest::AutomaticConflictsWithManualCompaction:PostPuts"); ASSERT_GE(callback_count.load(), 1); for (int i = 0; i < 2; ++i) { ASSERT_NE("NOT_FOUND", Get(Key(i))); } rocksdb::SyncPoint::GetInstance()->DisableProcessing(); manual_compaction_thread.join(); dbfull()->TEST_WaitForCompact(); } // Github issue #595 // Large write batch with column families TEST_F(DBTest, LargeBatchWithColumnFamilies) { Options options = CurrentOptions(); options.env = env_; options.write_buffer_size = 100000; // Small write buffer CreateAndReopenWithCF({"pikachu"}, options); int64_t j = 0; for (int i = 0; i < 5; i++) { for (int pass = 1; pass <= 3; pass++) { WriteBatch batch; size_t write_size = 1024 * 1024 * (5 + i); fprintf(stderr, "prepare: %" ROCKSDB_PRIszt " MB, pass:%d\n", (write_size / 1024 / 1024), pass); for (;;) { std::string data(3000, j++ % 127 + 20); data += ToString(j); batch.Put(handles_[0], Slice(data), Slice(data)); if (batch.GetDataSize() > write_size) { break; } } fprintf(stderr, "write: %" ROCKSDB_PRIszt " MB\n", (batch.GetDataSize() / 1024 / 1024)); ASSERT_OK(dbfull()->Write(WriteOptions(), &batch)); fprintf(stderr, "done\n"); } } // make sure we can re-open it. ASSERT_OK(TryReopenWithColumnFamilies({"default", "pikachu"}, options)); } // Make sure that Flushes can proceed in parallel with CompactRange() TEST_F(DBTest, FlushesInParallelWithCompactRange) { // iter == 0 -- leveled // iter == 1 -- leveled, but throw in a flush between two levels compacting // iter == 2 -- universal for (int iter = 0; iter < 3; ++iter) { Options options = CurrentOptions(); if (iter < 2) { options.compaction_style = kCompactionStyleLevel; } else { options.compaction_style = kCompactionStyleUniversal; } options.write_buffer_size = 110 << 10; options.level0_file_num_compaction_trigger = 4; options.num_levels = 4; options.compression = kNoCompression; options.max_bytes_for_level_base = 450 << 10; options.target_file_size_base = 98 << 10; options.max_write_buffer_number = 2; DestroyAndReopen(options); Random rnd(301); for (int num = 0; num < 14; num++) { GenerateNewRandomFile(&rnd); } if (iter == 1) { rocksdb::SyncPoint::GetInstance()->LoadDependency( {{"DBImpl::RunManualCompaction()::1", "DBTest::FlushesInParallelWithCompactRange:1"}, {"DBTest::FlushesInParallelWithCompactRange:2", "DBImpl::RunManualCompaction()::2"}}); } else { rocksdb::SyncPoint::GetInstance()->LoadDependency( {{"CompactionJob::Run():Start", "DBTest::FlushesInParallelWithCompactRange:1"}, {"DBTest::FlushesInParallelWithCompactRange:2", "CompactionJob::Run():End"}}); } rocksdb::SyncPoint::GetInstance()->EnableProcessing(); std::vector threads; threads.emplace_back([&]() { Compact("a", "z"); }); TEST_SYNC_POINT("DBTest::FlushesInParallelWithCompactRange:1"); // this has to start a flush. if flushes are blocked, this will try to // create // 3 memtables, and that will fail because max_write_buffer_number is 2 for (int num = 0; num < 3; num++) { GenerateNewRandomFile(&rnd, /* nowait */ true); } TEST_SYNC_POINT("DBTest::FlushesInParallelWithCompactRange:2"); for (auto& t : threads) { t.join(); } rocksdb::SyncPoint::GetInstance()->DisableProcessing(); } } TEST_F(DBTest, DelayedWriteRate) { const int kEntriesPerMemTable = 100; const int kTotalFlushes = 12; Options options = CurrentOptions(); env_->SetBackgroundThreads(1, Env::LOW); options.env = env_; env_->no_slowdown_ = true; options.write_buffer_size = 100000000; options.max_write_buffer_number = 256; options.max_background_compactions = 1; options.level0_file_num_compaction_trigger = 3; options.level0_slowdown_writes_trigger = 3; options.level0_stop_writes_trigger = 999999; options.delayed_write_rate = 20000000; // Start with 200MB/s options.memtable_factory.reset( new SpecialSkipListFactory(kEntriesPerMemTable)); CreateAndReopenWithCF({"pikachu"}, options); // Block compactions test::SleepingBackgroundTask sleeping_task_low; env_->Schedule(&test::SleepingBackgroundTask::DoSleepTask, &sleeping_task_low, Env::Priority::LOW); for (int i = 0; i < 3; i++) { Put(Key(i), std::string(10000, 'x')); Flush(); } // These writes will be slowed down to 1KB/s uint64_t estimated_sleep_time = 0; Random rnd(301); Put("", ""); uint64_t cur_rate = options.delayed_write_rate; for (int i = 0; i < kTotalFlushes; i++) { uint64_t size_memtable = 0; for (int j = 0; j < kEntriesPerMemTable; j++) { auto rand_num = rnd.Uniform(20); // Spread the size range to more. size_t entry_size = rand_num * rand_num * rand_num; WriteOptions wo; Put(Key(i), std::string(entry_size, 'x'), wo); size_memtable += entry_size + 18; // Occasionally sleep a while if (rnd.Uniform(20) == 6) { env_->SleepForMicroseconds(2666); } } dbfull()->TEST_WaitForFlushMemTable(); estimated_sleep_time += size_memtable * 1000000u / cur_rate; // Slow down twice. One for memtable switch and one for flush finishes. cur_rate = static_cast(static_cast(cur_rate) * kIncSlowdownRatio * kIncSlowdownRatio); } // Estimate the total sleep time fall into the rough range. ASSERT_GT(env_->addon_time_.load(), static_cast(estimated_sleep_time / 2)); ASSERT_LT(env_->addon_time_.load(), static_cast(estimated_sleep_time * 2)); env_->no_slowdown_ = false; rocksdb::SyncPoint::GetInstance()->DisableProcessing(); sleeping_task_low.WakeUp(); sleeping_task_low.WaitUntilDone(); } TEST_F(DBTest, HardLimit) { Options options = CurrentOptions(); options.env = env_; env_->SetBackgroundThreads(1, Env::LOW); options.max_write_buffer_number = 256; options.write_buffer_size = 110 << 10; // 110KB options.arena_block_size = 4 * 1024; options.level0_file_num_compaction_trigger = 4; options.level0_slowdown_writes_trigger = 999999; options.level0_stop_writes_trigger = 999999; options.hard_pending_compaction_bytes_limit = 800 << 10; options.max_bytes_for_level_base = 10000000000u; options.max_background_compactions = 1; options.memtable_factory.reset( new SpecialSkipListFactory(KNumKeysByGenerateNewFile - 1)); env_->SetBackgroundThreads(1, Env::LOW); test::SleepingBackgroundTask sleeping_task_low; env_->Schedule(&test::SleepingBackgroundTask::DoSleepTask, &sleeping_task_low, Env::Priority::LOW); CreateAndReopenWithCF({"pikachu"}, options); std::atomic callback_count(0); rocksdb::SyncPoint::GetInstance()->SetCallBack("DBImpl::DelayWrite:Wait", [&](void* /*arg*/) { callback_count.fetch_add(1); sleeping_task_low.WakeUp(); }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); Random rnd(301); int key_idx = 0; for (int num = 0; num < 5; num++) { GenerateNewFile(&rnd, &key_idx, true); dbfull()->TEST_WaitForFlushMemTable(); } ASSERT_EQ(0, callback_count.load()); for (int num = 0; num < 5; num++) { GenerateNewFile(&rnd, &key_idx, true); dbfull()->TEST_WaitForFlushMemTable(); } ASSERT_GE(callback_count.load(), 1); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); sleeping_task_low.WaitUntilDone(); } #if !defined(ROCKSDB_LITE) && !defined(ROCKSDB_DISABLE_STALL_NOTIFICATION) class WriteStallListener : public EventListener { public: WriteStallListener() : cond_(&mutex_), condition_(WriteStallCondition::kNormal), expected_(WriteStallCondition::kNormal), expected_set_(false) {} void OnStallConditionsChanged(const WriteStallInfo& info) override { MutexLock l(&mutex_); condition_ = info.condition.cur; if (expected_set_ && condition_ == expected_) { cond_.Signal(); expected_set_ = false; } } bool CheckCondition(WriteStallCondition expected) { MutexLock l(&mutex_); if (expected != condition_) { expected_ = expected; expected_set_ = true; while (expected != condition_) { // We bail out on timeout 500 milliseconds const uint64_t timeout_us = 500000; if (cond_.TimedWait(timeout_us)) { expected_set_ = false; return false; } } } return true; } private: port::Mutex mutex_; port::CondVar cond_; WriteStallCondition condition_; WriteStallCondition expected_; bool expected_set_; }; TEST_F(DBTest, SoftLimit) { Options options = CurrentOptions(); options.env = env_; options.write_buffer_size = 100000; // Small write buffer options.max_write_buffer_number = 256; options.level0_file_num_compaction_trigger = 1; options.level0_slowdown_writes_trigger = 3; options.level0_stop_writes_trigger = 999999; options.delayed_write_rate = 20000; // About 200KB/s limited rate options.soft_pending_compaction_bytes_limit = 160000; options.target_file_size_base = 99999999; // All into one file options.max_bytes_for_level_base = 50000; options.max_bytes_for_level_multiplier = 10; options.max_background_compactions = 1; options.compression = kNoCompression; WriteStallListener* listener = new WriteStallListener(); options.listeners.emplace_back(listener); Reopen(options); // Generating 360KB in Level 3 for (int i = 0; i < 72; i++) { Put(Key(i), std::string(5000, 'x')); if (i % 10 == 0) { dbfull()->TEST_FlushMemTable(true, true); } } dbfull()->TEST_WaitForCompact(); MoveFilesToLevel(3); // Generating 360KB in Level 2 for (int i = 0; i < 72; i++) { Put(Key(i), std::string(5000, 'x')); if (i % 10 == 0) { dbfull()->TEST_FlushMemTable(true, true); } } dbfull()->TEST_WaitForCompact(); MoveFilesToLevel(2); Put(Key(0), ""); test::SleepingBackgroundTask sleeping_task_low; // Block compactions env_->Schedule(&test::SleepingBackgroundTask::DoSleepTask, &sleeping_task_low, Env::Priority::LOW); sleeping_task_low.WaitUntilSleeping(); // Create 3 L0 files, making score of L0 to be 3. for (int i = 0; i < 3; i++) { Put(Key(i), std::string(5000, 'x')); Put(Key(100 - i), std::string(5000, 'x')); // Flush the file. File size is around 30KB. dbfull()->TEST_FlushMemTable(true, true); } ASSERT_TRUE(dbfull()->TEST_write_controler().NeedsDelay()); ASSERT_TRUE(listener->CheckCondition(WriteStallCondition::kDelayed)); sleeping_task_low.WakeUp(); sleeping_task_low.WaitUntilDone(); sleeping_task_low.Reset(); dbfull()->TEST_WaitForCompact(); // Now there is one L1 file but doesn't trigger soft_rate_limit // The L1 file size is around 30KB. ASSERT_EQ(NumTableFilesAtLevel(1), 1); ASSERT_TRUE(!dbfull()->TEST_write_controler().NeedsDelay()); ASSERT_TRUE(listener->CheckCondition(WriteStallCondition::kNormal)); // Only allow one compactin going through. rocksdb::SyncPoint::GetInstance()->SetCallBack( "BackgroundCallCompaction:0", [&](void* /*arg*/) { // Schedule a sleeping task. sleeping_task_low.Reset(); env_->Schedule(&test::SleepingBackgroundTask::DoSleepTask, &sleeping_task_low, Env::Priority::LOW); }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); env_->Schedule(&test::SleepingBackgroundTask::DoSleepTask, &sleeping_task_low, Env::Priority::LOW); sleeping_task_low.WaitUntilSleeping(); // Create 3 L0 files, making score of L0 to be 3 for (int i = 0; i < 3; i++) { Put(Key(10 + i), std::string(5000, 'x')); Put(Key(90 - i), std::string(5000, 'x')); // Flush the file. File size is around 30KB. dbfull()->TEST_FlushMemTable(true, true); } // Wake up sleep task to enable compaction to run and waits // for it to go to sleep state again to make sure one compaction // goes through. sleeping_task_low.WakeUp(); sleeping_task_low.WaitUntilSleeping(); // Now there is one L1 file (around 60KB) which exceeds 50KB base by 10KB // Given level multiplier 10, estimated pending compaction is around 100KB // doesn't trigger soft_pending_compaction_bytes_limit ASSERT_EQ(NumTableFilesAtLevel(1), 1); ASSERT_TRUE(!dbfull()->TEST_write_controler().NeedsDelay()); ASSERT_TRUE(listener->CheckCondition(WriteStallCondition::kNormal)); // Create 3 L0 files, making score of L0 to be 3, higher than L0. for (int i = 0; i < 3; i++) { Put(Key(20 + i), std::string(5000, 'x')); Put(Key(80 - i), std::string(5000, 'x')); // Flush the file. File size is around 30KB. dbfull()->TEST_FlushMemTable(true, true); } // Wake up sleep task to enable compaction to run and waits // for it to go to sleep state again to make sure one compaction // goes through. sleeping_task_low.WakeUp(); sleeping_task_low.WaitUntilSleeping(); // Now there is one L1 file (around 90KB) which exceeds 50KB base by 40KB // L2 size is 360KB, so the estimated level fanout 4, estimated pending // compaction is around 200KB // triggerring soft_pending_compaction_bytes_limit ASSERT_EQ(NumTableFilesAtLevel(1), 1); ASSERT_TRUE(dbfull()->TEST_write_controler().NeedsDelay()); ASSERT_TRUE(listener->CheckCondition(WriteStallCondition::kDelayed)); sleeping_task_low.WakeUp(); sleeping_task_low.WaitUntilSleeping(); ASSERT_TRUE(!dbfull()->TEST_write_controler().NeedsDelay()); ASSERT_TRUE(listener->CheckCondition(WriteStallCondition::kNormal)); // shrink level base so L2 will hit soft limit easier. ASSERT_OK(dbfull()->SetOptions({ {"max_bytes_for_level_base", "5000"}, })); Put("", ""); Flush(); ASSERT_TRUE(dbfull()->TEST_write_controler().NeedsDelay()); ASSERT_TRUE(listener->CheckCondition(WriteStallCondition::kDelayed)); sleeping_task_low.WaitUntilSleeping(); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); sleeping_task_low.WakeUp(); sleeping_task_low.WaitUntilDone(); } TEST_F(DBTest, LastWriteBufferDelay) { Options options = CurrentOptions(); options.env = env_; options.write_buffer_size = 100000; options.max_write_buffer_number = 4; options.delayed_write_rate = 20000; options.compression = kNoCompression; options.disable_auto_compactions = true; int kNumKeysPerMemtable = 3; options.memtable_factory.reset( new SpecialSkipListFactory(kNumKeysPerMemtable)); Reopen(options); test::SleepingBackgroundTask sleeping_task; // Block flushes env_->Schedule(&test::SleepingBackgroundTask::DoSleepTask, &sleeping_task, Env::Priority::HIGH); sleeping_task.WaitUntilSleeping(); // Create 3 L0 files, making score of L0 to be 3. for (int i = 0; i < 3; i++) { // Fill one mem table for (int j = 0; j < kNumKeysPerMemtable; j++) { Put(Key(j), ""); } ASSERT_TRUE(!dbfull()->TEST_write_controler().NeedsDelay()); } // Inserting a new entry would create a new mem table, triggering slow down. Put(Key(0), ""); ASSERT_TRUE(dbfull()->TEST_write_controler().NeedsDelay()); sleeping_task.WakeUp(); sleeping_task.WaitUntilDone(); } #endif // !defined(ROCKSDB_LITE) && !defined(ROCKSDB_DISABLE_STALL_NOTIFICATION) TEST_F(DBTest, FailWhenCompressionNotSupportedTest) { CompressionType compressions[] = {kZlibCompression, kBZip2Compression, kLZ4Compression, kLZ4HCCompression, kXpressCompression}; for (auto comp : compressions) { if (!CompressionTypeSupported(comp)) { // not supported, we should fail the Open() Options options = CurrentOptions(); options.compression = comp; ASSERT_TRUE(!TryReopen(options).ok()); // Try if CreateColumnFamily also fails options.compression = kNoCompression; ASSERT_OK(TryReopen(options)); ColumnFamilyOptions cf_options(options); cf_options.compression = comp; ColumnFamilyHandle* handle; ASSERT_TRUE(!db_->CreateColumnFamily(cf_options, "name", &handle).ok()); } } } #ifndef ROCKSDB_LITE TEST_F(DBTest, RowCache) { Options options = CurrentOptions(); options.statistics = rocksdb::CreateDBStatistics(); options.row_cache = NewLRUCache(8192); DestroyAndReopen(options); ASSERT_OK(Put("foo", "bar")); ASSERT_OK(Flush()); ASSERT_EQ(TestGetTickerCount(options, ROW_CACHE_HIT), 0); ASSERT_EQ(TestGetTickerCount(options, ROW_CACHE_MISS), 0); ASSERT_EQ(Get("foo"), "bar"); ASSERT_EQ(TestGetTickerCount(options, ROW_CACHE_HIT), 0); ASSERT_EQ(TestGetTickerCount(options, ROW_CACHE_MISS), 1); ASSERT_EQ(Get("foo"), "bar"); ASSERT_EQ(TestGetTickerCount(options, ROW_CACHE_HIT), 1); ASSERT_EQ(TestGetTickerCount(options, ROW_CACHE_MISS), 1); } TEST_F(DBTest, PinnableSliceAndRowCache) { Options options = CurrentOptions(); options.statistics = rocksdb::CreateDBStatistics(); options.row_cache = NewLRUCache(8192); DestroyAndReopen(options); ASSERT_OK(Put("foo", "bar")); ASSERT_OK(Flush()); ASSERT_EQ(Get("foo"), "bar"); ASSERT_EQ( reinterpret_cast(options.row_cache.get())->TEST_GetLRUSize(), 1); { PinnableSlice pin_slice; ASSERT_EQ(Get("foo", &pin_slice), Status::OK()); ASSERT_EQ(pin_slice.ToString(), "bar"); // Entry is already in cache, lookup will remove the element from lru ASSERT_EQ( reinterpret_cast(options.row_cache.get())->TEST_GetLRUSize(), 0); } // After PinnableSlice destruction element is added back in LRU ASSERT_EQ( reinterpret_cast(options.row_cache.get())->TEST_GetLRUSize(), 1); } #endif // ROCKSDB_LITE TEST_F(DBTest, DeletingOldWalAfterDrop) { rocksdb::SyncPoint::GetInstance()->LoadDependency( {{"Test:AllowFlushes", "DBImpl::BGWorkFlush"}, {"DBImpl::BGWorkFlush:done", "Test:WaitForFlush"}}); rocksdb::SyncPoint::GetInstance()->ClearTrace(); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); Options options = CurrentOptions(); options.max_total_wal_size = 8192; options.compression = kNoCompression; options.write_buffer_size = 1 << 20; options.level0_file_num_compaction_trigger = (1 << 30); options.level0_slowdown_writes_trigger = (1 << 30); options.level0_stop_writes_trigger = (1 << 30); options.disable_auto_compactions = true; DestroyAndReopen(options); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); CreateColumnFamilies({"cf1", "cf2"}, options); ASSERT_OK(Put(0, "key1", DummyString(8192))); ASSERT_OK(Put(0, "key2", DummyString(8192))); // the oldest wal should now be getting_flushed ASSERT_OK(db_->DropColumnFamily(handles_[0])); // all flushes should now do nothing because their CF is dropped TEST_SYNC_POINT("Test:AllowFlushes"); TEST_SYNC_POINT("Test:WaitForFlush"); uint64_t lognum1 = dbfull()->TEST_LogfileNumber(); ASSERT_OK(Put(1, "key3", DummyString(8192))); ASSERT_OK(Put(1, "key4", DummyString(8192))); // new wal should have been created uint64_t lognum2 = dbfull()->TEST_LogfileNumber(); EXPECT_GT(lognum2, lognum1); } TEST_F(DBTest, UnsupportedManualSync) { DestroyAndReopen(CurrentOptions()); env_->is_wal_sync_thread_safe_.store(false); Status s = db_->SyncWAL(); ASSERT_TRUE(s.IsNotSupported()); } INSTANTIATE_TEST_CASE_P(DBTestWithParam, DBTestWithParam, ::testing::Combine(::testing::Values(1, 4), ::testing::Bool())); TEST_F(DBTest, PauseBackgroundWorkTest) { Options options = CurrentOptions(); options.write_buffer_size = 100000; // Small write buffer Reopen(options); std::vector threads; std::atomic done(false); db_->PauseBackgroundWork(); threads.emplace_back([&]() { Random rnd(301); for (int i = 0; i < 10000; ++i) { Put(RandomString(&rnd, 10), RandomString(&rnd, 10)); } done.store(true); }); env_->SleepForMicroseconds(200000); // make sure the thread is not done ASSERT_FALSE(done.load()); db_->ContinueBackgroundWork(); for (auto& t : threads) { t.join(); } // now it's done ASSERT_TRUE(done.load()); } // Keep spawning short-living threads that create an iterator and quit. // Meanwhile in another thread keep flushing memtables. // This used to cause a deadlock. TEST_F(DBTest, ThreadLocalPtrDeadlock) { std::atomic flushes_done{0}; std::atomic threads_destroyed{0}; auto done = [&] { return flushes_done.load() > 10; }; port::Thread flushing_thread([&] { for (int i = 0; !done(); ++i) { ASSERT_OK(db_->Put(WriteOptions(), Slice("hi"), Slice(std::to_string(i).c_str()))); ASSERT_OK(db_->Flush(FlushOptions())); int cnt = ++flushes_done; fprintf(stderr, "Flushed %d times\n", cnt); } }); std::vector thread_spawning_threads(10); for (auto& t: thread_spawning_threads) { t = port::Thread([&] { while (!done()) { { port::Thread tmp_thread([&] { auto it = db_->NewIterator(ReadOptions()); delete it; }); tmp_thread.join(); } ++threads_destroyed; } }); } for (auto& t: thread_spawning_threads) { t.join(); } flushing_thread.join(); fprintf(stderr, "Done. Flushed %d times, destroyed %d threads\n", flushes_done.load(), threads_destroyed.load()); } } // namespace rocksdb int main(int argc, char** argv) { rocksdb::port::InstallStackTraceHandler(); ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/db/db_test2.cc000066400000000000000000003037161337235545400156640ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include #include #include #include "db/db_test_util.h" #include "db/read_callback.h" #include "port/port.h" #include "port/stack_trace.h" #include "rocksdb/persistent_cache.h" #include "rocksdb/wal_filter.h" namespace rocksdb { class DBTest2 : public DBTestBase { public: DBTest2() : DBTestBase("/db_test2") {} }; class PrefixFullBloomWithReverseComparator : public DBTestBase, public ::testing::WithParamInterface { public: PrefixFullBloomWithReverseComparator() : DBTestBase("/prefix_bloom_reverse") {} virtual void SetUp() override { if_cache_filter_ = GetParam(); } bool if_cache_filter_; }; TEST_P(PrefixFullBloomWithReverseComparator, PrefixFullBloomWithReverseComparator) { Options options = last_options_; options.comparator = ReverseBytewiseComparator(); options.prefix_extractor.reset(NewCappedPrefixTransform(3)); options.statistics = rocksdb::CreateDBStatistics(); BlockBasedTableOptions bbto; if (if_cache_filter_) { bbto.no_block_cache = false; bbto.cache_index_and_filter_blocks = true; bbto.block_cache = NewLRUCache(1); } bbto.filter_policy.reset(NewBloomFilterPolicy(10, false)); bbto.whole_key_filtering = false; options.table_factory.reset(NewBlockBasedTableFactory(bbto)); DestroyAndReopen(options); ASSERT_OK(dbfull()->Put(WriteOptions(), "bar123", "foo")); ASSERT_OK(dbfull()->Put(WriteOptions(), "bar234", "foo2")); ASSERT_OK(dbfull()->Put(WriteOptions(), "foo123", "foo3")); dbfull()->Flush(FlushOptions()); if (bbto.block_cache) { bbto.block_cache->EraseUnRefEntries(); } unique_ptr iter(db_->NewIterator(ReadOptions())); iter->Seek("bar345"); ASSERT_OK(iter->status()); ASSERT_TRUE(iter->Valid()); ASSERT_EQ("bar234", iter->key().ToString()); ASSERT_EQ("foo2", iter->value().ToString()); iter->Next(); ASSERT_TRUE(iter->Valid()); ASSERT_EQ("bar123", iter->key().ToString()); ASSERT_EQ("foo", iter->value().ToString()); iter->Seek("foo234"); ASSERT_OK(iter->status()); ASSERT_TRUE(iter->Valid()); ASSERT_EQ("foo123", iter->key().ToString()); ASSERT_EQ("foo3", iter->value().ToString()); iter->Seek("bar"); ASSERT_OK(iter->status()); ASSERT_TRUE(!iter->Valid()); } INSTANTIATE_TEST_CASE_P(PrefixFullBloomWithReverseComparator, PrefixFullBloomWithReverseComparator, testing::Bool()); TEST_F(DBTest2, IteratorPropertyVersionNumber) { Put("", ""); Iterator* iter1 = db_->NewIterator(ReadOptions()); std::string prop_value; ASSERT_OK( iter1->GetProperty("rocksdb.iterator.super-version-number", &prop_value)); uint64_t version_number1 = static_cast(std::atoi(prop_value.c_str())); Put("", ""); Flush(); Iterator* iter2 = db_->NewIterator(ReadOptions()); ASSERT_OK( iter2->GetProperty("rocksdb.iterator.super-version-number", &prop_value)); uint64_t version_number2 = static_cast(std::atoi(prop_value.c_str())); ASSERT_GT(version_number2, version_number1); Put("", ""); Iterator* iter3 = db_->NewIterator(ReadOptions()); ASSERT_OK( iter3->GetProperty("rocksdb.iterator.super-version-number", &prop_value)); uint64_t version_number3 = static_cast(std::atoi(prop_value.c_str())); ASSERT_EQ(version_number2, version_number3); iter1->SeekToFirst(); ASSERT_OK( iter1->GetProperty("rocksdb.iterator.super-version-number", &prop_value)); uint64_t version_number1_new = static_cast(std::atoi(prop_value.c_str())); ASSERT_EQ(version_number1, version_number1_new); delete iter1; delete iter2; delete iter3; } TEST_F(DBTest2, CacheIndexAndFilterWithDBRestart) { Options options = CurrentOptions(); options.create_if_missing = true; options.statistics = rocksdb::CreateDBStatistics(); BlockBasedTableOptions table_options; table_options.cache_index_and_filter_blocks = true; table_options.filter_policy.reset(NewBloomFilterPolicy(20)); options.table_factory.reset(new BlockBasedTableFactory(table_options)); CreateAndReopenWithCF({"pikachu"}, options); Put(1, "a", "begin"); Put(1, "z", "end"); ASSERT_OK(Flush(1)); TryReopenWithColumnFamilies({"default", "pikachu"}, options); std::string value; value = Get(1, "a"); } TEST_F(DBTest2, MaxSuccessiveMergesChangeWithDBRecovery) { Options options = CurrentOptions(); options.create_if_missing = true; options.statistics = rocksdb::CreateDBStatistics(); options.max_successive_merges = 3; options.merge_operator = MergeOperators::CreatePutOperator(); options.disable_auto_compactions = true; DestroyAndReopen(options); Put("poi", "Finch"); db_->Merge(WriteOptions(), "poi", "Reese"); db_->Merge(WriteOptions(), "poi", "Shaw"); db_->Merge(WriteOptions(), "poi", "Root"); options.max_successive_merges = 2; Reopen(options); } #ifndef ROCKSDB_LITE class DBTestSharedWriteBufferAcrossCFs : public DBTestBase, public testing::WithParamInterface> { public: DBTestSharedWriteBufferAcrossCFs() : DBTestBase("/db_test_shared_write_buffer") {} void SetUp() override { use_old_interface_ = std::get<0>(GetParam()); cost_cache_ = std::get<1>(GetParam()); } bool use_old_interface_; bool cost_cache_; }; TEST_P(DBTestSharedWriteBufferAcrossCFs, SharedWriteBufferAcrossCFs) { Options options = CurrentOptions(); options.arena_block_size = 4096; // Avoid undeterministic value by malloc_usable_size(); // Force arena block size to 1 rocksdb::SyncPoint::GetInstance()->SetCallBack( "Arena::Arena:0", [&](void* arg) { size_t* block_size = static_cast(arg); *block_size = 1; }); rocksdb::SyncPoint::GetInstance()->SetCallBack( "Arena::AllocateNewBlock:0", [&](void* arg) { std::pair* pair = static_cast*>(arg); *std::get<0>(*pair) = *std::get<1>(*pair); }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); // The total soft write buffer size is about 105000 std::shared_ptr cache = NewLRUCache(4 * 1024 * 1024, 2); ASSERT_LT(cache->GetUsage(), 1024 * 1024); if (use_old_interface_) { options.db_write_buffer_size = 120000; // this is the real limit } else if (!cost_cache_) { options.write_buffer_manager.reset(new WriteBufferManager(114285)); } else { options.write_buffer_manager.reset(new WriteBufferManager(114285, cache)); } options.write_buffer_size = 500000; // this is never hit CreateAndReopenWithCF({"pikachu", "dobrynia", "nikitich"}, options); WriteOptions wo; wo.disableWAL = true; std::function wait_flush = [&]() { dbfull()->TEST_WaitForFlushMemTable(handles_[0]); dbfull()->TEST_WaitForFlushMemTable(handles_[1]); dbfull()->TEST_WaitForFlushMemTable(handles_[2]); dbfull()->TEST_WaitForFlushMemTable(handles_[3]); }; // Create some data and flush "default" and "nikitich" so that they // are newer CFs created. ASSERT_OK(Put(3, Key(1), DummyString(1), wo)); Flush(3); ASSERT_OK(Put(3, Key(1), DummyString(1), wo)); ASSERT_OK(Put(0, Key(1), DummyString(1), wo)); Flush(0); ASSERT_EQ(GetNumberOfSstFilesForColumnFamily(db_, "default"), static_cast(1)); ASSERT_EQ(GetNumberOfSstFilesForColumnFamily(db_, "nikitich"), static_cast(1)); ASSERT_OK(Put(3, Key(1), DummyString(30000), wo)); if (cost_cache_) { ASSERT_GE(cache->GetUsage(), 1024 * 1024); ASSERT_LE(cache->GetUsage(), 2 * 1024 * 1024); } wait_flush(); ASSERT_OK(Put(0, Key(1), DummyString(60000), wo)); if (cost_cache_) { ASSERT_GE(cache->GetUsage(), 1024 * 1024); ASSERT_LE(cache->GetUsage(), 2 * 1024 * 1024); } wait_flush(); ASSERT_OK(Put(2, Key(1), DummyString(1), wo)); // No flush should trigger wait_flush(); { ASSERT_EQ(GetNumberOfSstFilesForColumnFamily(db_, "default"), static_cast(1)); ASSERT_EQ(GetNumberOfSstFilesForColumnFamily(db_, "pikachu"), static_cast(0)); ASSERT_EQ(GetNumberOfSstFilesForColumnFamily(db_, "dobrynia"), static_cast(0)); ASSERT_EQ(GetNumberOfSstFilesForColumnFamily(db_, "nikitich"), static_cast(1)); } // Trigger a flush. Flushing "nikitich". ASSERT_OK(Put(3, Key(2), DummyString(30000), wo)); wait_flush(); ASSERT_OK(Put(0, Key(1), DummyString(1), wo)); wait_flush(); { ASSERT_EQ(GetNumberOfSstFilesForColumnFamily(db_, "default"), static_cast(1)); ASSERT_EQ(GetNumberOfSstFilesForColumnFamily(db_, "pikachu"), static_cast(0)); ASSERT_EQ(GetNumberOfSstFilesForColumnFamily(db_, "dobrynia"), static_cast(0)); ASSERT_EQ(GetNumberOfSstFilesForColumnFamily(db_, "nikitich"), static_cast(2)); } // Without hitting the threshold, no flush should trigger. ASSERT_OK(Put(2, Key(1), DummyString(30000), wo)); wait_flush(); ASSERT_OK(Put(2, Key(1), DummyString(1), wo)); wait_flush(); ASSERT_OK(Put(2, Key(1), DummyString(1), wo)); wait_flush(); { ASSERT_EQ(GetNumberOfSstFilesForColumnFamily(db_, "default"), static_cast(1)); ASSERT_EQ(GetNumberOfSstFilesForColumnFamily(db_, "pikachu"), static_cast(0)); ASSERT_EQ(GetNumberOfSstFilesForColumnFamily(db_, "dobrynia"), static_cast(0)); ASSERT_EQ(GetNumberOfSstFilesForColumnFamily(db_, "nikitich"), static_cast(2)); } // Hit the write buffer limit again. "default" // will have been flushed. ASSERT_OK(Put(2, Key(2), DummyString(10000), wo)); wait_flush(); ASSERT_OK(Put(3, Key(1), DummyString(1), wo)); wait_flush(); ASSERT_OK(Put(0, Key(1), DummyString(1), wo)); wait_flush(); ASSERT_OK(Put(0, Key(1), DummyString(1), wo)); wait_flush(); ASSERT_OK(Put(0, Key(1), DummyString(1), wo)); wait_flush(); { ASSERT_EQ(GetNumberOfSstFilesForColumnFamily(db_, "default"), static_cast(2)); ASSERT_EQ(GetNumberOfSstFilesForColumnFamily(db_, "pikachu"), static_cast(0)); ASSERT_EQ(GetNumberOfSstFilesForColumnFamily(db_, "dobrynia"), static_cast(0)); ASSERT_EQ(GetNumberOfSstFilesForColumnFamily(db_, "nikitich"), static_cast(2)); } // Trigger another flush. This time "dobrynia". "pikachu" should not // be flushed, althrough it was never flushed. ASSERT_OK(Put(1, Key(1), DummyString(1), wo)); wait_flush(); ASSERT_OK(Put(2, Key(1), DummyString(80000), wo)); wait_flush(); ASSERT_OK(Put(1, Key(1), DummyString(1), wo)); wait_flush(); ASSERT_OK(Put(2, Key(1), DummyString(1), wo)); wait_flush(); { ASSERT_EQ(GetNumberOfSstFilesForColumnFamily(db_, "default"), static_cast(2)); ASSERT_EQ(GetNumberOfSstFilesForColumnFamily(db_, "pikachu"), static_cast(0)); ASSERT_EQ(GetNumberOfSstFilesForColumnFamily(db_, "dobrynia"), static_cast(1)); ASSERT_EQ(GetNumberOfSstFilesForColumnFamily(db_, "nikitich"), static_cast(2)); } if (cost_cache_) { ASSERT_GE(cache->GetUsage(), 1024 * 1024); Close(); options.write_buffer_manager.reset(); ASSERT_LT(cache->GetUsage(), 1024 * 1024); } rocksdb::SyncPoint::GetInstance()->DisableProcessing(); } INSTANTIATE_TEST_CASE_P(DBTestSharedWriteBufferAcrossCFs, DBTestSharedWriteBufferAcrossCFs, ::testing::Values(std::make_tuple(true, false), std::make_tuple(false, false), std::make_tuple(false, true))); TEST_F(DBTest2, SharedWriteBufferLimitAcrossDB) { std::string dbname2 = test::PerThreadDBPath("db_shared_wb_db2"); Options options = CurrentOptions(); options.arena_block_size = 4096; // Avoid undeterministic value by malloc_usable_size(); // Force arena block size to 1 rocksdb::SyncPoint::GetInstance()->SetCallBack( "Arena::Arena:0", [&](void* arg) { size_t* block_size = static_cast(arg); *block_size = 1; }); rocksdb::SyncPoint::GetInstance()->SetCallBack( "Arena::AllocateNewBlock:0", [&](void* arg) { std::pair* pair = static_cast*>(arg); *std::get<0>(*pair) = *std::get<1>(*pair); }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); options.write_buffer_size = 500000; // this is never hit // Use a write buffer total size so that the soft limit is about // 105000. options.write_buffer_manager.reset(new WriteBufferManager(120000)); CreateAndReopenWithCF({"cf1", "cf2"}, options); ASSERT_OK(DestroyDB(dbname2, options)); DB* db2 = nullptr; ASSERT_OK(DB::Open(options, dbname2, &db2)); WriteOptions wo; wo.disableWAL = true; std::function wait_flush = [&]() { dbfull()->TEST_WaitForFlushMemTable(handles_[0]); dbfull()->TEST_WaitForFlushMemTable(handles_[1]); dbfull()->TEST_WaitForFlushMemTable(handles_[2]); static_cast(db2)->TEST_WaitForFlushMemTable(); }; // Trigger a flush on cf2 ASSERT_OK(Put(2, Key(1), DummyString(70000), wo)); wait_flush(); ASSERT_OK(Put(0, Key(1), DummyString(20000), wo)); wait_flush(); // Insert to DB2 ASSERT_OK(db2->Put(wo, Key(2), DummyString(20000))); wait_flush(); ASSERT_OK(Put(2, Key(1), DummyString(1), wo)); wait_flush(); static_cast(db2)->TEST_WaitForFlushMemTable(); { ASSERT_EQ(GetNumberOfSstFilesForColumnFamily(db_, "default") + GetNumberOfSstFilesForColumnFamily(db_, "cf1") + GetNumberOfSstFilesForColumnFamily(db_, "cf2"), static_cast(1)); ASSERT_EQ(GetNumberOfSstFilesForColumnFamily(db2, "default"), static_cast(0)); } // Triggering to flush another CF in DB1 ASSERT_OK(db2->Put(wo, Key(2), DummyString(70000))); wait_flush(); ASSERT_OK(Put(2, Key(1), DummyString(1), wo)); wait_flush(); { ASSERT_EQ(GetNumberOfSstFilesForColumnFamily(db_, "default"), static_cast(1)); ASSERT_EQ(GetNumberOfSstFilesForColumnFamily(db_, "cf1"), static_cast(0)); ASSERT_EQ(GetNumberOfSstFilesForColumnFamily(db_, "cf2"), static_cast(1)); ASSERT_EQ(GetNumberOfSstFilesForColumnFamily(db2, "default"), static_cast(0)); } // Triggering flush in DB2. ASSERT_OK(db2->Put(wo, Key(3), DummyString(40000))); wait_flush(); ASSERT_OK(db2->Put(wo, Key(1), DummyString(1))); wait_flush(); static_cast(db2)->TEST_WaitForFlushMemTable(); { ASSERT_EQ(GetNumberOfSstFilesForColumnFamily(db_, "default"), static_cast(1)); ASSERT_EQ(GetNumberOfSstFilesForColumnFamily(db_, "cf1"), static_cast(0)); ASSERT_EQ(GetNumberOfSstFilesForColumnFamily(db_, "cf2"), static_cast(1)); ASSERT_EQ(GetNumberOfSstFilesForColumnFamily(db2, "default"), static_cast(1)); } delete db2; ASSERT_OK(DestroyDB(dbname2, options)); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); } namespace { void ValidateKeyExistence(DB* db, const std::vector& keys_must_exist, const std::vector& keys_must_not_exist) { // Ensure that expected keys exist std::vector values; if (keys_must_exist.size() > 0) { std::vector status_list = db->MultiGet(ReadOptions(), keys_must_exist, &values); for (size_t i = 0; i < keys_must_exist.size(); i++) { ASSERT_OK(status_list[i]); } } // Ensure that given keys don't exist if (keys_must_not_exist.size() > 0) { std::vector status_list = db->MultiGet(ReadOptions(), keys_must_not_exist, &values); for (size_t i = 0; i < keys_must_not_exist.size(); i++) { ASSERT_TRUE(status_list[i].IsNotFound()); } } } } // namespace TEST_F(DBTest2, WalFilterTest) { class TestWalFilter : public WalFilter { private: // Processing option that is requested to be applied at the given index WalFilter::WalProcessingOption wal_processing_option_; // Index at which to apply wal_processing_option_ // At other indexes default wal_processing_option::kContinueProcessing is // returned. size_t apply_option_at_record_index_; // Current record index, incremented with each record encountered. size_t current_record_index_; public: TestWalFilter(WalFilter::WalProcessingOption wal_processing_option, size_t apply_option_for_record_index) : wal_processing_option_(wal_processing_option), apply_option_at_record_index_(apply_option_for_record_index), current_record_index_(0) {} virtual WalProcessingOption LogRecord( const WriteBatch& /*batch*/, WriteBatch* /*new_batch*/, bool* /*batch_changed*/) const override { WalFilter::WalProcessingOption option_to_return; if (current_record_index_ == apply_option_at_record_index_) { option_to_return = wal_processing_option_; } else { option_to_return = WalProcessingOption::kContinueProcessing; } // Filter is passed as a const object for RocksDB to not modify the // object, however we modify it for our own purpose here and hence // cast the constness away. (const_cast(this)->current_record_index_)++; return option_to_return; } virtual const char* Name() const override { return "TestWalFilter"; } }; // Create 3 batches with two keys each std::vector> batch_keys(3); batch_keys[0].push_back("key1"); batch_keys[0].push_back("key2"); batch_keys[1].push_back("key3"); batch_keys[1].push_back("key4"); batch_keys[2].push_back("key5"); batch_keys[2].push_back("key6"); // Test with all WAL processing options for (int option = 0; option < static_cast( WalFilter::WalProcessingOption::kWalProcessingOptionMax); option++) { Options options = OptionsForLogIterTest(); DestroyAndReopen(options); CreateAndReopenWithCF({ "pikachu" }, options); // Write given keys in given batches for (size_t i = 0; i < batch_keys.size(); i++) { WriteBatch batch; for (size_t j = 0; j < batch_keys[i].size(); j++) { batch.Put(handles_[0], batch_keys[i][j], DummyString(1024)); } dbfull()->Write(WriteOptions(), &batch); } WalFilter::WalProcessingOption wal_processing_option = static_cast(option); // Create a test filter that would apply wal_processing_option at the first // record size_t apply_option_for_record_index = 1; TestWalFilter test_wal_filter(wal_processing_option, apply_option_for_record_index); // Reopen database with option to use WAL filter options = OptionsForLogIterTest(); options.wal_filter = &test_wal_filter; Status status = TryReopenWithColumnFamilies({ "default", "pikachu" }, options); if (wal_processing_option == WalFilter::WalProcessingOption::kCorruptedRecord) { assert(!status.ok()); // In case of corruption we can turn off paranoid_checks to reopen // databse options.paranoid_checks = false; ReopenWithColumnFamilies({ "default", "pikachu" }, options); } else { assert(status.ok()); } // Compute which keys we expect to be found // and which we expect not to be found after recovery. std::vector keys_must_exist; std::vector keys_must_not_exist; switch (wal_processing_option) { case WalFilter::WalProcessingOption::kCorruptedRecord: case WalFilter::WalProcessingOption::kContinueProcessing: { fprintf(stderr, "Testing with complete WAL processing\n"); // we expect all records to be processed for (size_t i = 0; i < batch_keys.size(); i++) { for (size_t j = 0; j < batch_keys[i].size(); j++) { keys_must_exist.push_back(Slice(batch_keys[i][j])); } } break; } case WalFilter::WalProcessingOption::kIgnoreCurrentRecord: { fprintf(stderr, "Testing with ignoring record %" ROCKSDB_PRIszt " only\n", apply_option_for_record_index); // We expect the record with apply_option_for_record_index to be not // found. for (size_t i = 0; i < batch_keys.size(); i++) { for (size_t j = 0; j < batch_keys[i].size(); j++) { if (i == apply_option_for_record_index) { keys_must_not_exist.push_back(Slice(batch_keys[i][j])); } else { keys_must_exist.push_back(Slice(batch_keys[i][j])); } } } break; } case WalFilter::WalProcessingOption::kStopReplay: { fprintf(stderr, "Testing with stopping replay from record %" ROCKSDB_PRIszt "\n", apply_option_for_record_index); // We expect records beyond apply_option_for_record_index to be not // found. for (size_t i = 0; i < batch_keys.size(); i++) { for (size_t j = 0; j < batch_keys[i].size(); j++) { if (i >= apply_option_for_record_index) { keys_must_not_exist.push_back(Slice(batch_keys[i][j])); } else { keys_must_exist.push_back(Slice(batch_keys[i][j])); } } } break; } default: assert(false); // unhandled case } bool checked_after_reopen = false; while (true) { // Ensure that expected keys exists // and not expected keys don't exist after recovery ValidateKeyExistence(db_, keys_must_exist, keys_must_not_exist); if (checked_after_reopen) { break; } // reopen database again to make sure previous log(s) are not used //(even if they were skipped) // reopn database with option to use WAL filter options = OptionsForLogIterTest(); ReopenWithColumnFamilies({ "default", "pikachu" }, options); checked_after_reopen = true; } } } TEST_F(DBTest2, WalFilterTestWithChangeBatch) { class ChangeBatchHandler : public WriteBatch::Handler { private: // Batch to insert keys in WriteBatch* new_write_batch_; // Number of keys to add in the new batch size_t num_keys_to_add_in_new_batch_; // Number of keys added to new batch size_t num_keys_added_; public: ChangeBatchHandler(WriteBatch* new_write_batch, size_t num_keys_to_add_in_new_batch) : new_write_batch_(new_write_batch), num_keys_to_add_in_new_batch_(num_keys_to_add_in_new_batch), num_keys_added_(0) {} virtual void Put(const Slice& key, const Slice& value) override { if (num_keys_added_ < num_keys_to_add_in_new_batch_) { new_write_batch_->Put(key, value); ++num_keys_added_; } } }; class TestWalFilterWithChangeBatch : public WalFilter { private: // Index at which to start changing records size_t change_records_from_index_; // Number of keys to add in the new batch size_t num_keys_to_add_in_new_batch_; // Current record index, incremented with each record encountered. size_t current_record_index_; public: TestWalFilterWithChangeBatch(size_t change_records_from_index, size_t num_keys_to_add_in_new_batch) : change_records_from_index_(change_records_from_index), num_keys_to_add_in_new_batch_(num_keys_to_add_in_new_batch), current_record_index_(0) {} virtual WalProcessingOption LogRecord(const WriteBatch& batch, WriteBatch* new_batch, bool* batch_changed) const override { if (current_record_index_ >= change_records_from_index_) { ChangeBatchHandler handler(new_batch, num_keys_to_add_in_new_batch_); batch.Iterate(&handler); *batch_changed = true; } // Filter is passed as a const object for RocksDB to not modify the // object, however we modify it for our own purpose here and hence // cast the constness away. (const_cast(this) ->current_record_index_)++; return WalProcessingOption::kContinueProcessing; } virtual const char* Name() const override { return "TestWalFilterWithChangeBatch"; } }; std::vector> batch_keys(3); batch_keys[0].push_back("key1"); batch_keys[0].push_back("key2"); batch_keys[1].push_back("key3"); batch_keys[1].push_back("key4"); batch_keys[2].push_back("key5"); batch_keys[2].push_back("key6"); Options options = OptionsForLogIterTest(); DestroyAndReopen(options); CreateAndReopenWithCF({ "pikachu" }, options); // Write given keys in given batches for (size_t i = 0; i < batch_keys.size(); i++) { WriteBatch batch; for (size_t j = 0; j < batch_keys[i].size(); j++) { batch.Put(handles_[0], batch_keys[i][j], DummyString(1024)); } dbfull()->Write(WriteOptions(), &batch); } // Create a test filter that would apply wal_processing_option at the first // record size_t change_records_from_index = 1; size_t num_keys_to_add_in_new_batch = 1; TestWalFilterWithChangeBatch test_wal_filter_with_change_batch( change_records_from_index, num_keys_to_add_in_new_batch); // Reopen database with option to use WAL filter options = OptionsForLogIterTest(); options.wal_filter = &test_wal_filter_with_change_batch; ReopenWithColumnFamilies({ "default", "pikachu" }, options); // Ensure that all keys exist before change_records_from_index_ // And after that index only single key exists // as our filter adds only single key for each batch std::vector keys_must_exist; std::vector keys_must_not_exist; for (size_t i = 0; i < batch_keys.size(); i++) { for (size_t j = 0; j < batch_keys[i].size(); j++) { if (i >= change_records_from_index && j >= num_keys_to_add_in_new_batch) { keys_must_not_exist.push_back(Slice(batch_keys[i][j])); } else { keys_must_exist.push_back(Slice(batch_keys[i][j])); } } } bool checked_after_reopen = false; while (true) { // Ensure that expected keys exists // and not expected keys don't exist after recovery ValidateKeyExistence(db_, keys_must_exist, keys_must_not_exist); if (checked_after_reopen) { break; } // reopen database again to make sure previous log(s) are not used //(even if they were skipped) // reopn database with option to use WAL filter options = OptionsForLogIterTest(); ReopenWithColumnFamilies({ "default", "pikachu" }, options); checked_after_reopen = true; } } TEST_F(DBTest2, WalFilterTestWithChangeBatchExtraKeys) { class TestWalFilterWithChangeBatchAddExtraKeys : public WalFilter { public: virtual WalProcessingOption LogRecord(const WriteBatch& batch, WriteBatch* new_batch, bool* batch_changed) const override { *new_batch = batch; new_batch->Put("key_extra", "value_extra"); *batch_changed = true; return WalProcessingOption::kContinueProcessing; } virtual const char* Name() const override { return "WalFilterTestWithChangeBatchExtraKeys"; } }; std::vector> batch_keys(3); batch_keys[0].push_back("key1"); batch_keys[0].push_back("key2"); batch_keys[1].push_back("key3"); batch_keys[1].push_back("key4"); batch_keys[2].push_back("key5"); batch_keys[2].push_back("key6"); Options options = OptionsForLogIterTest(); DestroyAndReopen(options); CreateAndReopenWithCF({ "pikachu" }, options); // Write given keys in given batches for (size_t i = 0; i < batch_keys.size(); i++) { WriteBatch batch; for (size_t j = 0; j < batch_keys[i].size(); j++) { batch.Put(handles_[0], batch_keys[i][j], DummyString(1024)); } dbfull()->Write(WriteOptions(), &batch); } // Create a test filter that would add extra keys TestWalFilterWithChangeBatchAddExtraKeys test_wal_filter_extra_keys; // Reopen database with option to use WAL filter options = OptionsForLogIterTest(); options.wal_filter = &test_wal_filter_extra_keys; Status status = TryReopenWithColumnFamilies({"default", "pikachu"}, options); ASSERT_TRUE(status.IsNotSupported()); // Reopen without filter, now reopen should succeed - previous // attempt to open must not have altered the db. options = OptionsForLogIterTest(); ReopenWithColumnFamilies({ "default", "pikachu" }, options); std::vector keys_must_exist; std::vector keys_must_not_exist; // empty vector for (size_t i = 0; i < batch_keys.size(); i++) { for (size_t j = 0; j < batch_keys[i].size(); j++) { keys_must_exist.push_back(Slice(batch_keys[i][j])); } } ValidateKeyExistence(db_, keys_must_exist, keys_must_not_exist); } TEST_F(DBTest2, WalFilterTestWithColumnFamilies) { class TestWalFilterWithColumnFamilies : public WalFilter { private: // column_family_id -> log_number map (provided to WALFilter) std::map cf_log_number_map_; // column_family_name -> column_family_id map (provided to WALFilter) std::map cf_name_id_map_; // column_family_name -> keys_found_in_wal map // We store keys that are applicable to the column_family // during recovery (i.e. aren't already flushed to SST file(s)) // for verification against the keys we expect. std::map> cf_wal_keys_; public: virtual void ColumnFamilyLogNumberMap( const std::map& cf_lognumber_map, const std::map& cf_name_id_map) override { cf_log_number_map_ = cf_lognumber_map; cf_name_id_map_ = cf_name_id_map; } virtual WalProcessingOption LogRecordFound( unsigned long long log_number, const std::string& /*log_file_name*/, const WriteBatch& batch, WriteBatch* /*new_batch*/, bool* /*batch_changed*/) override { class LogRecordBatchHandler : public WriteBatch::Handler { private: const std::map & cf_log_number_map_; std::map> & cf_wal_keys_; unsigned long long log_number_; public: LogRecordBatchHandler(unsigned long long current_log_number, const std::map & cf_log_number_map, std::map> & cf_wal_keys) : cf_log_number_map_(cf_log_number_map), cf_wal_keys_(cf_wal_keys), log_number_(current_log_number){} virtual Status PutCF(uint32_t column_family_id, const Slice& key, const Slice& /*value*/) override { auto it = cf_log_number_map_.find(column_family_id); assert(it != cf_log_number_map_.end()); unsigned long long log_number_for_cf = it->second; // If the current record is applicable for column_family_id // (i.e. isn't flushed to SST file(s) for column_family_id) // add it to the cf_wal_keys_ map for verification. if (log_number_ >= log_number_for_cf) { cf_wal_keys_[column_family_id].push_back(std::string(key.data(), key.size())); } return Status::OK(); } } handler(log_number, cf_log_number_map_, cf_wal_keys_); batch.Iterate(&handler); return WalProcessingOption::kContinueProcessing; } virtual const char* Name() const override { return "WalFilterTestWithColumnFamilies"; } const std::map>& GetColumnFamilyKeys() { return cf_wal_keys_; } const std::map & GetColumnFamilyNameIdMap() { return cf_name_id_map_; } }; std::vector> batch_keys_pre_flush(3); batch_keys_pre_flush[0].push_back("key1"); batch_keys_pre_flush[0].push_back("key2"); batch_keys_pre_flush[1].push_back("key3"); batch_keys_pre_flush[1].push_back("key4"); batch_keys_pre_flush[2].push_back("key5"); batch_keys_pre_flush[2].push_back("key6"); Options options = OptionsForLogIterTest(); DestroyAndReopen(options); CreateAndReopenWithCF({ "pikachu" }, options); // Write given keys in given batches for (size_t i = 0; i < batch_keys_pre_flush.size(); i++) { WriteBatch batch; for (size_t j = 0; j < batch_keys_pre_flush[i].size(); j++) { batch.Put(handles_[0], batch_keys_pre_flush[i][j], DummyString(1024)); batch.Put(handles_[1], batch_keys_pre_flush[i][j], DummyString(1024)); } dbfull()->Write(WriteOptions(), &batch); } //Flush default column-family db_->Flush(FlushOptions(), handles_[0]); // Do some more writes std::vector> batch_keys_post_flush(3); batch_keys_post_flush[0].push_back("key7"); batch_keys_post_flush[0].push_back("key8"); batch_keys_post_flush[1].push_back("key9"); batch_keys_post_flush[1].push_back("key10"); batch_keys_post_flush[2].push_back("key11"); batch_keys_post_flush[2].push_back("key12"); // Write given keys in given batches for (size_t i = 0; i < batch_keys_post_flush.size(); i++) { WriteBatch batch; for (size_t j = 0; j < batch_keys_post_flush[i].size(); j++) { batch.Put(handles_[0], batch_keys_post_flush[i][j], DummyString(1024)); batch.Put(handles_[1], batch_keys_post_flush[i][j], DummyString(1024)); } dbfull()->Write(WriteOptions(), &batch); } // On Recovery we should only find the second batch applicable to default CF // But both batches applicable to pikachu CF // Create a test filter that would add extra keys TestWalFilterWithColumnFamilies test_wal_filter_column_families; // Reopen database with option to use WAL filter options = OptionsForLogIterTest(); options.wal_filter = &test_wal_filter_column_families; Status status = TryReopenWithColumnFamilies({ "default", "pikachu" }, options); ASSERT_TRUE(status.ok()); // verify that handles_[0] only has post_flush keys // while handles_[1] has pre and post flush keys auto cf_wal_keys = test_wal_filter_column_families.GetColumnFamilyKeys(); auto name_id_map = test_wal_filter_column_families.GetColumnFamilyNameIdMap(); size_t index = 0; auto keys_cf = cf_wal_keys[name_id_map[kDefaultColumnFamilyName]]; //default column-family, only post_flush keys are expected for (size_t i = 0; i < batch_keys_post_flush.size(); i++) { for (size_t j = 0; j < batch_keys_post_flush[i].size(); j++) { Slice key_from_the_log(keys_cf[index++]); Slice batch_key(batch_keys_post_flush[i][j]); ASSERT_TRUE(key_from_the_log.compare(batch_key) == 0); } } ASSERT_TRUE(index == keys_cf.size()); index = 0; keys_cf = cf_wal_keys[name_id_map["pikachu"]]; //pikachu column-family, all keys are expected for (size_t i = 0; i < batch_keys_pre_flush.size(); i++) { for (size_t j = 0; j < batch_keys_pre_flush[i].size(); j++) { Slice key_from_the_log(keys_cf[index++]); Slice batch_key(batch_keys_pre_flush[i][j]); ASSERT_TRUE(key_from_the_log.compare(batch_key) == 0); } } for (size_t i = 0; i < batch_keys_post_flush.size(); i++) { for (size_t j = 0; j < batch_keys_post_flush[i].size(); j++) { Slice key_from_the_log(keys_cf[index++]); Slice batch_key(batch_keys_post_flush[i][j]); ASSERT_TRUE(key_from_the_log.compare(batch_key) == 0); } } ASSERT_TRUE(index == keys_cf.size()); } TEST_F(DBTest2, PresetCompressionDict) { const size_t kBlockSizeBytes = 4 << 10; const size_t kL0FileBytes = 128 << 10; const size_t kApproxPerBlockOverheadBytes = 50; const int kNumL0Files = 5; const int kZstdTrainFactor = 16; Options options; options.env = CurrentOptions().env; // Make sure to use any custom env that the test is configured with. options.allow_concurrent_memtable_write = false; options.arena_block_size = kBlockSizeBytes; options.compaction_style = kCompactionStyleUniversal; options.create_if_missing = true; options.disable_auto_compactions = true; options.level0_file_num_compaction_trigger = kNumL0Files; options.memtable_factory.reset( new SpecialSkipListFactory(kL0FileBytes / kBlockSizeBytes)); options.num_levels = 2; options.target_file_size_base = kL0FileBytes; options.target_file_size_multiplier = 2; options.write_buffer_size = kL0FileBytes; BlockBasedTableOptions table_options; table_options.block_size = kBlockSizeBytes; std::vector compression_types; if (Zlib_Supported()) { compression_types.push_back(kZlibCompression); } #if LZ4_VERSION_NUMBER >= 10400 // r124+ compression_types.push_back(kLZ4Compression); compression_types.push_back(kLZ4HCCompression); #endif // LZ4_VERSION_NUMBER >= 10400 if (ZSTD_Supported()) { compression_types.push_back(kZSTD); } for (auto compression_type : compression_types) { options.compression = compression_type; size_t prev_out_bytes; for (int i = 0; i < 3; ++i) { // First iteration: compress without preset dictionary // Second iteration: compress with preset dictionary // Third iteration (zstd only): compress with zstd-trained dictionary // // To make sure the compression dictionary has the intended effect, we // verify the compressed size is smaller in successive iterations. Also in // the non-first iterations, verify the data we get out is the same data // we put in. switch (i) { case 0: options.compression_opts.max_dict_bytes = 0; options.compression_opts.zstd_max_train_bytes = 0; break; case 1: options.compression_opts.max_dict_bytes = kBlockSizeBytes; options.compression_opts.zstd_max_train_bytes = 0; break; case 2: if (compression_type != kZSTD) { continue; } options.compression_opts.max_dict_bytes = kBlockSizeBytes; options.compression_opts.zstd_max_train_bytes = kZstdTrainFactor * kBlockSizeBytes; break; default: assert(false); } options.statistics = rocksdb::CreateDBStatistics(); options.table_factory.reset(NewBlockBasedTableFactory(table_options)); CreateAndReopenWithCF({"pikachu"}, options); Random rnd(301); std::string seq_data = RandomString(&rnd, kBlockSizeBytes - kApproxPerBlockOverheadBytes); ASSERT_EQ(0, NumTableFilesAtLevel(0, 1)); for (int j = 0; j < kNumL0Files; ++j) { for (size_t k = 0; k < kL0FileBytes / kBlockSizeBytes + 1; ++k) { ASSERT_OK(Put(1, Key(static_cast( j * (kL0FileBytes / kBlockSizeBytes) + k)), seq_data)); } dbfull()->TEST_WaitForFlushMemTable(handles_[1]); ASSERT_EQ(j + 1, NumTableFilesAtLevel(0, 1)); } db_->CompactRange(CompactRangeOptions(), handles_[1], nullptr, nullptr); ASSERT_EQ(0, NumTableFilesAtLevel(0, 1)); ASSERT_GT(NumTableFilesAtLevel(1, 1), 0); size_t out_bytes = 0; std::vector files; GetSstFiles(env_, dbname_, &files); for (const auto& file : files) { uint64_t curr_bytes; env_->GetFileSize(dbname_ + "/" + file, &curr_bytes); out_bytes += static_cast(curr_bytes); } for (size_t j = 0; j < kNumL0Files * (kL0FileBytes / kBlockSizeBytes); j++) { ASSERT_EQ(seq_data, Get(1, Key(static_cast(j)))); } if (i) { ASSERT_GT(prev_out_bytes, out_bytes); } prev_out_bytes = out_bytes; DestroyAndReopen(options); } } } class CompactionCompressionListener : public EventListener { public: explicit CompactionCompressionListener(Options* db_options) : db_options_(db_options) {} void OnCompactionCompleted(DB* db, const CompactionJobInfo& ci) override { // Figure out last level with files int bottommost_level = 0; for (int level = 0; level < db->NumberLevels(); level++) { std::string files_at_level; ASSERT_TRUE( db->GetProperty("rocksdb.num-files-at-level" + NumberToString(level), &files_at_level)); if (files_at_level != "0") { bottommost_level = level; } } if (db_options_->bottommost_compression != kDisableCompressionOption && ci.output_level == bottommost_level) { ASSERT_EQ(ci.compression, db_options_->bottommost_compression); } else if (db_options_->compression_per_level.size() != 0) { ASSERT_EQ(ci.compression, db_options_->compression_per_level[ci.output_level]); } else { ASSERT_EQ(ci.compression, db_options_->compression); } max_level_checked = std::max(max_level_checked, ci.output_level); } int max_level_checked = 0; const Options* db_options_; }; TEST_F(DBTest2, CompressionOptions) { if (!Zlib_Supported() || !Snappy_Supported()) { return; } Options options = CurrentOptions(); options.level0_file_num_compaction_trigger = 2; options.max_bytes_for_level_base = 100; options.max_bytes_for_level_multiplier = 2; options.num_levels = 7; options.max_background_compactions = 1; CompactionCompressionListener* listener = new CompactionCompressionListener(&options); options.listeners.emplace_back(listener); const int kKeySize = 5; const int kValSize = 20; Random rnd(301); for (int iter = 0; iter <= 2; iter++) { listener->max_level_checked = 0; if (iter == 0) { // Use different compression algorithms for different levels but // always use Zlib for bottommost level options.compression_per_level = {kNoCompression, kNoCompression, kNoCompression, kSnappyCompression, kSnappyCompression, kSnappyCompression, kZlibCompression}; options.compression = kNoCompression; options.bottommost_compression = kZlibCompression; } else if (iter == 1) { // Use Snappy except for bottommost level use ZLib options.compression_per_level = {}; options.compression = kSnappyCompression; options.bottommost_compression = kZlibCompression; } else if (iter == 2) { // Use Snappy everywhere options.compression_per_level = {}; options.compression = kSnappyCompression; options.bottommost_compression = kDisableCompressionOption; } DestroyAndReopen(options); // Write 10 random files for (int i = 0; i < 10; i++) { for (int j = 0; j < 5; j++) { ASSERT_OK( Put(RandomString(&rnd, kKeySize), RandomString(&rnd, kValSize))); } ASSERT_OK(Flush()); dbfull()->TEST_WaitForCompact(); } // Make sure that we wrote enough to check all 7 levels ASSERT_EQ(listener->max_level_checked, 6); } } class CompactionStallTestListener : public EventListener { public: CompactionStallTestListener() : compacted_files_cnt_(0) {} void OnCompactionCompleted(DB* /*db*/, const CompactionJobInfo& ci) override { ASSERT_EQ(ci.cf_name, "default"); ASSERT_EQ(ci.base_input_level, 0); ASSERT_EQ(ci.compaction_reason, CompactionReason::kLevelL0FilesNum); compacted_files_cnt_ += ci.input_files.size(); } std::atomic compacted_files_cnt_; }; TEST_F(DBTest2, CompactionStall) { rocksdb::SyncPoint::GetInstance()->LoadDependency( {{"DBImpl::BGWorkCompaction", "DBTest2::CompactionStall:0"}, {"DBImpl::BGWorkCompaction", "DBTest2::CompactionStall:1"}, {"DBTest2::CompactionStall:2", "DBImpl::NotifyOnCompactionCompleted::UnlockMutex"}}); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); Options options = CurrentOptions(); options.level0_file_num_compaction_trigger = 4; options.max_background_compactions = 40; CompactionStallTestListener* listener = new CompactionStallTestListener(); options.listeners.emplace_back(listener); DestroyAndReopen(options); // make sure all background compaction jobs can be scheduled auto stop_token = dbfull()->TEST_write_controler().GetCompactionPressureToken(); Random rnd(301); // 4 Files in L0 for (int i = 0; i < 4; i++) { for (int j = 0; j < 10; j++) { ASSERT_OK(Put(RandomString(&rnd, 10), RandomString(&rnd, 10))); } ASSERT_OK(Flush()); } // Wait for compaction to be triggered TEST_SYNC_POINT("DBTest2::CompactionStall:0"); // Clear "DBImpl::BGWorkCompaction" SYNC_POINT since we want to hold it again // at DBTest2::CompactionStall::1 rocksdb::SyncPoint::GetInstance()->ClearTrace(); // Another 6 L0 files to trigger compaction again for (int i = 0; i < 6; i++) { for (int j = 0; j < 10; j++) { ASSERT_OK(Put(RandomString(&rnd, 10), RandomString(&rnd, 10))); } ASSERT_OK(Flush()); } // Wait for another compaction to be triggered TEST_SYNC_POINT("DBTest2::CompactionStall:1"); // Hold NotifyOnCompactionCompleted in the unlock mutex section TEST_SYNC_POINT("DBTest2::CompactionStall:2"); dbfull()->TEST_WaitForCompact(); ASSERT_LT(NumTableFilesAtLevel(0), options.level0_file_num_compaction_trigger); ASSERT_GT(listener->compacted_files_cnt_.load(), 10 - options.level0_file_num_compaction_trigger); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); } #endif // ROCKSDB_LITE TEST_F(DBTest2, FirstSnapshotTest) { Options options; options.write_buffer_size = 100000; // Small write buffer options = CurrentOptions(options); CreateAndReopenWithCF({"pikachu"}, options); // This snapshot will have sequence number 0 what is expected behaviour. const Snapshot* s1 = db_->GetSnapshot(); Put(1, "k1", std::string(100000, 'x')); // Fill memtable Put(1, "k2", std::string(100000, 'y')); // Trigger flush db_->ReleaseSnapshot(s1); } class PinL0IndexAndFilterBlocksTest : public DBTestBase, public testing::WithParamInterface { public: PinL0IndexAndFilterBlocksTest() : DBTestBase("/db_pin_l0_index_bloom_test") {} virtual void SetUp() override { infinite_max_files_ = GetParam(); } void CreateTwoLevels(Options* options, bool close_afterwards) { if (infinite_max_files_) { options->max_open_files = -1; } options->create_if_missing = true; options->statistics = rocksdb::CreateDBStatistics(); BlockBasedTableOptions table_options; table_options.cache_index_and_filter_blocks = true; table_options.pin_l0_filter_and_index_blocks_in_cache = true; table_options.filter_policy.reset(NewBloomFilterPolicy(20)); options->table_factory.reset(new BlockBasedTableFactory(table_options)); CreateAndReopenWithCF({"pikachu"}, *options); Put(1, "a", "begin"); Put(1, "z", "end"); ASSERT_OK(Flush(1)); // move this table to L1 dbfull()->TEST_CompactRange(0, nullptr, nullptr, handles_[1]); // reset block cache table_options.block_cache = NewLRUCache(64 * 1024); options->table_factory.reset(NewBlockBasedTableFactory(table_options)); TryReopenWithColumnFamilies({"default", "pikachu"}, *options); // create new table at L0 Put(1, "a2", "begin2"); Put(1, "z2", "end2"); ASSERT_OK(Flush(1)); if (close_afterwards) { Close(); // This ensures that there is no ref to block cache entries } table_options.block_cache->EraseUnRefEntries(); } bool infinite_max_files_; }; TEST_P(PinL0IndexAndFilterBlocksTest, IndexAndFilterBlocksOfNewTableAddedToCacheWithPinning) { Options options = CurrentOptions(); if (infinite_max_files_) { options.max_open_files = -1; } options.create_if_missing = true; options.statistics = rocksdb::CreateDBStatistics(); BlockBasedTableOptions table_options; table_options.cache_index_and_filter_blocks = true; table_options.pin_l0_filter_and_index_blocks_in_cache = true; table_options.filter_policy.reset(NewBloomFilterPolicy(20)); options.table_factory.reset(new BlockBasedTableFactory(table_options)); CreateAndReopenWithCF({"pikachu"}, options); ASSERT_OK(Put(1, "key", "val")); // Create a new table. ASSERT_OK(Flush(1)); // index/filter blocks added to block cache right after table creation. ASSERT_EQ(1, TestGetTickerCount(options, BLOCK_CACHE_FILTER_MISS)); ASSERT_EQ(0, TestGetTickerCount(options, BLOCK_CACHE_FILTER_HIT)); ASSERT_EQ(1, TestGetTickerCount(options, BLOCK_CACHE_INDEX_MISS)); ASSERT_EQ(0, TestGetTickerCount(options, BLOCK_CACHE_INDEX_HIT)); // only index/filter were added ASSERT_EQ(2, TestGetTickerCount(options, BLOCK_CACHE_ADD)); ASSERT_EQ(0, TestGetTickerCount(options, BLOCK_CACHE_DATA_MISS)); std::string value; // Miss and hit count should remain the same, they're all pinned. db_->KeyMayExist(ReadOptions(), handles_[1], "key", &value); ASSERT_EQ(1, TestGetTickerCount(options, BLOCK_CACHE_FILTER_MISS)); ASSERT_EQ(0, TestGetTickerCount(options, BLOCK_CACHE_FILTER_HIT)); ASSERT_EQ(1, TestGetTickerCount(options, BLOCK_CACHE_INDEX_MISS)); ASSERT_EQ(0, TestGetTickerCount(options, BLOCK_CACHE_INDEX_HIT)); // Miss and hit count should remain the same, they're all pinned. value = Get(1, "key"); ASSERT_EQ(1, TestGetTickerCount(options, BLOCK_CACHE_FILTER_MISS)); ASSERT_EQ(0, TestGetTickerCount(options, BLOCK_CACHE_FILTER_HIT)); ASSERT_EQ(1, TestGetTickerCount(options, BLOCK_CACHE_INDEX_MISS)); ASSERT_EQ(0, TestGetTickerCount(options, BLOCK_CACHE_INDEX_HIT)); } TEST_P(PinL0IndexAndFilterBlocksTest, MultiLevelIndexAndFilterBlocksCachedWithPinning) { Options options = CurrentOptions(); PinL0IndexAndFilterBlocksTest::CreateTwoLevels(&options, false); // get base cache values uint64_t fm = TestGetTickerCount(options, BLOCK_CACHE_FILTER_MISS); uint64_t fh = TestGetTickerCount(options, BLOCK_CACHE_FILTER_HIT); uint64_t im = TestGetTickerCount(options, BLOCK_CACHE_INDEX_MISS); uint64_t ih = TestGetTickerCount(options, BLOCK_CACHE_INDEX_HIT); std::string value; // this should be read from L0 // so cache values don't change value = Get(1, "a2"); ASSERT_EQ(fm, TestGetTickerCount(options, BLOCK_CACHE_FILTER_MISS)); ASSERT_EQ(fh, TestGetTickerCount(options, BLOCK_CACHE_FILTER_HIT)); ASSERT_EQ(im, TestGetTickerCount(options, BLOCK_CACHE_INDEX_MISS)); ASSERT_EQ(ih, TestGetTickerCount(options, BLOCK_CACHE_INDEX_HIT)); // this should be read from L1 // the file is opened, prefetching results in a cache filter miss // the block is loaded and added to the cache, // then the get results in a cache hit for L1 // When we have inifinite max_files, there is still cache miss because we have // reset the block cache value = Get(1, "a"); ASSERT_EQ(fm + 1, TestGetTickerCount(options, BLOCK_CACHE_FILTER_MISS)); ASSERT_EQ(im + 1, TestGetTickerCount(options, BLOCK_CACHE_INDEX_MISS)); } TEST_P(PinL0IndexAndFilterBlocksTest, DisablePrefetchingNonL0IndexAndFilter) { Options options = CurrentOptions(); // This ensures that db does not ref anything in the block cache, so // EraseUnRefEntries could clear them up. bool close_afterwards = true; PinL0IndexAndFilterBlocksTest::CreateTwoLevels(&options, close_afterwards); // Get base cache values uint64_t fm = TestGetTickerCount(options, BLOCK_CACHE_FILTER_MISS); uint64_t fh = TestGetTickerCount(options, BLOCK_CACHE_FILTER_HIT); uint64_t im = TestGetTickerCount(options, BLOCK_CACHE_INDEX_MISS); uint64_t ih = TestGetTickerCount(options, BLOCK_CACHE_INDEX_HIT); // Reopen database. If max_open_files is set as -1, table readers will be // preloaded. This will trigger a BlockBasedTable::Open() and prefetch // L0 index and filter. Level 1's prefetching is disabled in DB::Open() TryReopenWithColumnFamilies({"default", "pikachu"}, options); if (infinite_max_files_) { // After reopen, cache miss are increased by one because we read (and only // read) filter and index on L0 ASSERT_EQ(fm + 1, TestGetTickerCount(options, BLOCK_CACHE_FILTER_MISS)); ASSERT_EQ(fh, TestGetTickerCount(options, BLOCK_CACHE_FILTER_HIT)); ASSERT_EQ(im + 1, TestGetTickerCount(options, BLOCK_CACHE_INDEX_MISS)); ASSERT_EQ(ih, TestGetTickerCount(options, BLOCK_CACHE_INDEX_HIT)); } else { // If max_open_files is not -1, we do not preload table readers, so there is // no change. ASSERT_EQ(fm, TestGetTickerCount(options, BLOCK_CACHE_FILTER_MISS)); ASSERT_EQ(fh, TestGetTickerCount(options, BLOCK_CACHE_FILTER_HIT)); ASSERT_EQ(im, TestGetTickerCount(options, BLOCK_CACHE_INDEX_MISS)); ASSERT_EQ(ih, TestGetTickerCount(options, BLOCK_CACHE_INDEX_HIT)); } std::string value; // this should be read from L0 value = Get(1, "a2"); // If max_open_files is -1, we have pinned index and filter in Rep, so there // will not be changes in index and filter misses or hits. If max_open_files // is not -1, Get() will open a TableReader and prefetch index and filter. ASSERT_EQ(fm + 1, TestGetTickerCount(options, BLOCK_CACHE_FILTER_MISS)); ASSERT_EQ(fh, TestGetTickerCount(options, BLOCK_CACHE_FILTER_HIT)); ASSERT_EQ(im + 1, TestGetTickerCount(options, BLOCK_CACHE_INDEX_MISS)); ASSERT_EQ(ih, TestGetTickerCount(options, BLOCK_CACHE_INDEX_HIT)); // this should be read from L1 value = Get(1, "a"); if (infinite_max_files_) { // In inifinite max files case, there's a cache miss in executing Get() // because index and filter are not prefetched before. ASSERT_EQ(fm + 2, TestGetTickerCount(options, BLOCK_CACHE_FILTER_MISS)); ASSERT_EQ(fh, TestGetTickerCount(options, BLOCK_CACHE_FILTER_HIT)); ASSERT_EQ(im + 2, TestGetTickerCount(options, BLOCK_CACHE_INDEX_MISS)); ASSERT_EQ(ih, TestGetTickerCount(options, BLOCK_CACHE_INDEX_HIT)); } else { // In this case, cache miss will be increased by one in // BlockBasedTable::Open() because this is not in DB::Open() code path so we // will prefetch L1's index and filter. Cache hit will also be increased by // one because Get() will read index and filter from the block cache // prefetched in previous Open() call. ASSERT_EQ(fm + 2, TestGetTickerCount(options, BLOCK_CACHE_FILTER_MISS)); ASSERT_EQ(fh + 1, TestGetTickerCount(options, BLOCK_CACHE_FILTER_HIT)); ASSERT_EQ(im + 2, TestGetTickerCount(options, BLOCK_CACHE_INDEX_MISS)); ASSERT_EQ(ih + 1, TestGetTickerCount(options, BLOCK_CACHE_INDEX_HIT)); } } INSTANTIATE_TEST_CASE_P(PinL0IndexAndFilterBlocksTest, PinL0IndexAndFilterBlocksTest, ::testing::Bool()); #ifndef ROCKSDB_LITE TEST_F(DBTest2, MaxCompactionBytesTest) { Options options = CurrentOptions(); options.memtable_factory.reset( new SpecialSkipListFactory(DBTestBase::kNumKeysByGenerateNewRandomFile)); options.compaction_style = kCompactionStyleLevel; options.write_buffer_size = 200 << 10; options.arena_block_size = 4 << 10; options.level0_file_num_compaction_trigger = 4; options.num_levels = 4; options.compression = kNoCompression; options.max_bytes_for_level_base = 450 << 10; options.target_file_size_base = 100 << 10; // Infinite for full compaction. options.max_compaction_bytes = options.target_file_size_base * 100; Reopen(options); Random rnd(301); for (int num = 0; num < 8; num++) { GenerateNewRandomFile(&rnd); } CompactRangeOptions cro; cro.bottommost_level_compaction = BottommostLevelCompaction::kForce; ASSERT_OK(db_->CompactRange(cro, nullptr, nullptr)); ASSERT_EQ("0,0,8", FilesPerLevel(0)); // When compact from Ln -> Ln+1, cut a file if the file overlaps with // more than three files in Ln+1. options.max_compaction_bytes = options.target_file_size_base * 3; Reopen(options); GenerateNewRandomFile(&rnd); // Add three more small files that overlap with the previous file for (int i = 0; i < 3; i++) { Put("a", "z"); ASSERT_OK(Flush()); } dbfull()->TEST_WaitForCompact(); // Output files to L1 are cut to three pieces, according to // options.max_compaction_bytes ASSERT_EQ("0,3,8", FilesPerLevel(0)); } static void UniqueIdCallback(void* arg) { int* result = reinterpret_cast(arg); if (*result == -1) { *result = 0; } rocksdb::SyncPoint::GetInstance()->ClearTrace(); rocksdb::SyncPoint::GetInstance()->SetCallBack( "GetUniqueIdFromFile:FS_IOC_GETVERSION", UniqueIdCallback); } class MockPersistentCache : public PersistentCache { public: explicit MockPersistentCache(const bool is_compressed, const size_t max_size) : is_compressed_(is_compressed), max_size_(max_size) { rocksdb::SyncPoint::GetInstance()->EnableProcessing(); rocksdb::SyncPoint::GetInstance()->SetCallBack( "GetUniqueIdFromFile:FS_IOC_GETVERSION", UniqueIdCallback); } virtual ~MockPersistentCache() {} PersistentCache::StatsType Stats() override { return PersistentCache::StatsType(); } Status Insert(const Slice& page_key, const char* data, const size_t size) override { MutexLock _(&lock_); if (size_ > max_size_) { size_ -= data_.begin()->second.size(); data_.erase(data_.begin()); } data_.insert(std::make_pair(page_key.ToString(), std::string(data, size))); size_ += size; return Status::OK(); } Status Lookup(const Slice& page_key, std::unique_ptr* data, size_t* size) override { MutexLock _(&lock_); auto it = data_.find(page_key.ToString()); if (it == data_.end()) { return Status::NotFound(); } assert(page_key.ToString() == it->first); data->reset(new char[it->second.size()]); memcpy(data->get(), it->second.c_str(), it->second.size()); *size = it->second.size(); return Status::OK(); } bool IsCompressed() override { return is_compressed_; } std::string GetPrintableOptions() const override { return "MockPersistentCache"; } port::Mutex lock_; std::map data_; const bool is_compressed_ = true; size_t size_ = 0; const size_t max_size_ = 10 * 1024; // 10KiB }; #ifndef OS_SOLARIS // GetUniqueIdFromFile is not implemented TEST_F(DBTest2, PersistentCache) { int num_iter = 80; Options options; options.write_buffer_size = 64 * 1024; // small write buffer options.statistics = rocksdb::CreateDBStatistics(); options = CurrentOptions(options); auto bsizes = {/*no block cache*/ 0, /*1M*/ 1 * 1024 * 1024}; auto types = {/*compressed*/ 1, /*uncompressed*/ 0}; for (auto bsize : bsizes) { for (auto type : types) { BlockBasedTableOptions table_options; table_options.persistent_cache.reset( new MockPersistentCache(type, 10 * 1024)); table_options.no_block_cache = true; table_options.block_cache = bsize ? NewLRUCache(bsize) : nullptr; table_options.block_cache_compressed = nullptr; options.table_factory.reset(NewBlockBasedTableFactory(table_options)); DestroyAndReopen(options); CreateAndReopenWithCF({"pikachu"}, options); // default column family doesn't have block cache Options no_block_cache_opts; no_block_cache_opts.statistics = options.statistics; no_block_cache_opts = CurrentOptions(no_block_cache_opts); BlockBasedTableOptions table_options_no_bc; table_options_no_bc.no_block_cache = true; no_block_cache_opts.table_factory.reset( NewBlockBasedTableFactory(table_options_no_bc)); ReopenWithColumnFamilies( {"default", "pikachu"}, std::vector({no_block_cache_opts, options})); Random rnd(301); // Write 8MB (80 values, each 100K) ASSERT_EQ(NumTableFilesAtLevel(0, 1), 0); std::vector values; std::string str; for (int i = 0; i < num_iter; i++) { if (i % 4 == 0) { // high compression ratio str = RandomString(&rnd, 1000); } values.push_back(str); ASSERT_OK(Put(1, Key(i), values[i])); } // flush all data from memtable so that reads are from block cache ASSERT_OK(Flush(1)); for (int i = 0; i < num_iter; i++) { ASSERT_EQ(Get(1, Key(i)), values[i]); } auto hit = options.statistics->getTickerCount(PERSISTENT_CACHE_HIT); auto miss = options.statistics->getTickerCount(PERSISTENT_CACHE_MISS); ASSERT_GT(hit, 0); ASSERT_GT(miss, 0); } } } #endif // !OS_SOLARIS namespace { void CountSyncPoint() { TEST_SYNC_POINT_CALLBACK("DBTest2::MarkedPoint", nullptr /* arg */); } } // namespace TEST_F(DBTest2, SyncPointMarker) { std::atomic sync_point_called(0); rocksdb::SyncPoint::GetInstance()->SetCallBack( "DBTest2::MarkedPoint", [&](void* /*arg*/) { sync_point_called.fetch_add(1); }); // The first dependency enforces Marker can be loaded before MarkedPoint. // The second checks that thread 1's MarkedPoint should be disabled here. // Execution order: // | Thread 1 | Thread 2 | // | | Marker | // | MarkedPoint | | // | Thread1First | | // | | MarkedPoint | rocksdb::SyncPoint::GetInstance()->LoadDependencyAndMarkers( {{"DBTest2::SyncPointMarker:Thread1First", "DBTest2::MarkedPoint"}}, {{"DBTest2::SyncPointMarker:Marker", "DBTest2::MarkedPoint"}}); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); std::function func1 = [&]() { CountSyncPoint(); TEST_SYNC_POINT("DBTest2::SyncPointMarker:Thread1First"); }; std::function func2 = [&]() { TEST_SYNC_POINT("DBTest2::SyncPointMarker:Marker"); CountSyncPoint(); }; auto thread1 = port::Thread(func1); auto thread2 = port::Thread(func2); thread1.join(); thread2.join(); // Callback is only executed once ASSERT_EQ(sync_point_called.load(), 1); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); } #endif size_t GetEncodedEntrySize(size_t key_size, size_t value_size) { std::string buffer; PutVarint32(&buffer, static_cast(0)); PutVarint32(&buffer, static_cast(key_size)); PutVarint32(&buffer, static_cast(value_size)); return buffer.size() + key_size + value_size; } TEST_F(DBTest2, ReadAmpBitmap) { Options options = CurrentOptions(); BlockBasedTableOptions bbto; uint32_t bytes_per_bit[2] = {1, 16}; for (size_t k = 0; k < 2; k++) { // Disable delta encoding to make it easier to calculate read amplification bbto.use_delta_encoding = false; // Huge block cache to make it easier to calculate read amplification bbto.block_cache = NewLRUCache(1024 * 1024 * 1024); bbto.read_amp_bytes_per_bit = bytes_per_bit[k]; options.table_factory.reset(NewBlockBasedTableFactory(bbto)); options.statistics = rocksdb::CreateDBStatistics(); DestroyAndReopen(options); const size_t kNumEntries = 10000; Random rnd(301); for (size_t i = 0; i < kNumEntries; i++) { ASSERT_OK(Put(Key(static_cast(i)), RandomString(&rnd, 100))); } ASSERT_OK(Flush()); Close(); Reopen(options); // Read keys/values randomly and verify that reported read amp error // is less than 2% uint64_t total_useful_bytes = 0; std::set read_keys; std::string value; for (size_t i = 0; i < kNumEntries * 5; i++) { int key_idx = rnd.Next() % kNumEntries; std::string key = Key(key_idx); ASSERT_OK(db_->Get(ReadOptions(), key, &value)); if (read_keys.find(key_idx) == read_keys.end()) { auto internal_key = InternalKey(key, 0, ValueType::kTypeValue); total_useful_bytes += GetEncodedEntrySize(internal_key.size(), value.size()); read_keys.insert(key_idx); } double expected_read_amp = static_cast(total_useful_bytes) / options.statistics->getTickerCount(READ_AMP_TOTAL_READ_BYTES); double read_amp = static_cast(options.statistics->getTickerCount( READ_AMP_ESTIMATE_USEFUL_BYTES)) / options.statistics->getTickerCount(READ_AMP_TOTAL_READ_BYTES); double error_pct = fabs(expected_read_amp - read_amp) * 100; // Error between reported read amp and real read amp should be less than // 2% EXPECT_LE(error_pct, 2); } // Make sure we read every thing in the DB (which is smaller than our cache) Iterator* iter = db_->NewIterator(ReadOptions()); for (iter->SeekToFirst(); iter->Valid(); iter->Next()) { ASSERT_EQ(iter->value().ToString(), Get(iter->key().ToString())); } delete iter; // Read amp is on average 100% since we read all what we loaded in memory if (k == 0) { ASSERT_EQ( options.statistics->getTickerCount(READ_AMP_ESTIMATE_USEFUL_BYTES), options.statistics->getTickerCount(READ_AMP_TOTAL_READ_BYTES)); } else { ASSERT_NEAR( options.statistics->getTickerCount(READ_AMP_ESTIMATE_USEFUL_BYTES) * 1.0f / options.statistics->getTickerCount(READ_AMP_TOTAL_READ_BYTES), 1, .01); } } } #ifndef OS_SOLARIS // GetUniqueIdFromFile is not implemented TEST_F(DBTest2, ReadAmpBitmapLiveInCacheAfterDBClose) { { const int kIdBufLen = 100; char id_buf[kIdBufLen]; #ifndef OS_WIN // You can't open a directory on windows using random access file std::unique_ptr file; ASSERT_OK(env_->NewRandomAccessFile(dbname_, &file, EnvOptions())); if (file->GetUniqueId(id_buf, kIdBufLen) == 0) { // fs holding db directory doesn't support getting a unique file id, // this means that running this test will fail because lru_cache will load // the blocks again regardless of them being already in the cache return; } #else std::unique_ptr dir; ASSERT_OK(env_->NewDirectory(dbname_, &dir)); if (dir->GetUniqueId(id_buf, kIdBufLen) == 0) { // fs holding db directory doesn't support getting a unique file id, // this means that running this test will fail because lru_cache will load // the blocks again regardless of them being already in the cache return; } #endif } uint32_t bytes_per_bit[2] = {1, 16}; for (size_t k = 0; k < 2; k++) { std::shared_ptr lru_cache = NewLRUCache(1024 * 1024 * 1024); std::shared_ptr stats = rocksdb::CreateDBStatistics(); Options options = CurrentOptions(); BlockBasedTableOptions bbto; // Disable delta encoding to make it easier to calculate read amplification bbto.use_delta_encoding = false; // Huge block cache to make it easier to calculate read amplification bbto.block_cache = lru_cache; bbto.read_amp_bytes_per_bit = bytes_per_bit[k]; options.table_factory.reset(NewBlockBasedTableFactory(bbto)); options.statistics = stats; DestroyAndReopen(options); const int kNumEntries = 10000; Random rnd(301); for (int i = 0; i < kNumEntries; i++) { ASSERT_OK(Put(Key(i), RandomString(&rnd, 100))); } ASSERT_OK(Flush()); Close(); Reopen(options); uint64_t total_useful_bytes = 0; std::set read_keys; std::string value; // Iter1: Read half the DB, Read even keys // Key(0), Key(2), Key(4), Key(6), Key(8), ... for (int i = 0; i < kNumEntries; i += 2) { std::string key = Key(i); ASSERT_OK(db_->Get(ReadOptions(), key, &value)); if (read_keys.find(i) == read_keys.end()) { auto internal_key = InternalKey(key, 0, ValueType::kTypeValue); total_useful_bytes += GetEncodedEntrySize(internal_key.size(), value.size()); read_keys.insert(i); } } size_t total_useful_bytes_iter1 = options.statistics->getTickerCount(READ_AMP_ESTIMATE_USEFUL_BYTES); size_t total_loaded_bytes_iter1 = options.statistics->getTickerCount(READ_AMP_TOTAL_READ_BYTES); Close(); std::shared_ptr new_statistics = rocksdb::CreateDBStatistics(); // Destroy old statistics obj that the blocks in lru_cache are pointing to options.statistics.reset(); // Use the statistics object that we just created options.statistics = new_statistics; Reopen(options); // Iter2: Read half the DB, Read odd keys // Key(1), Key(3), Key(5), Key(7), Key(9), ... for (int i = 1; i < kNumEntries; i += 2) { std::string key = Key(i); ASSERT_OK(db_->Get(ReadOptions(), key, &value)); if (read_keys.find(i) == read_keys.end()) { auto internal_key = InternalKey(key, 0, ValueType::kTypeValue); total_useful_bytes += GetEncodedEntrySize(internal_key.size(), value.size()); read_keys.insert(i); } } size_t total_useful_bytes_iter2 = options.statistics->getTickerCount(READ_AMP_ESTIMATE_USEFUL_BYTES); size_t total_loaded_bytes_iter2 = options.statistics->getTickerCount(READ_AMP_TOTAL_READ_BYTES); // Read amp is on average 100% since we read all what we loaded in memory if (k == 0) { ASSERT_EQ(total_useful_bytes_iter1 + total_useful_bytes_iter2, total_loaded_bytes_iter1 + total_loaded_bytes_iter2); } else { ASSERT_NEAR((total_useful_bytes_iter1 + total_useful_bytes_iter2) * 1.0f / (total_loaded_bytes_iter1 + total_loaded_bytes_iter2), 1, .01); } } } #endif // !OS_SOLARIS #ifndef ROCKSDB_LITE TEST_F(DBTest2, AutomaticCompactionOverlapManualCompaction) { Options options = CurrentOptions(); options.num_levels = 3; options.IncreaseParallelism(20); DestroyAndReopen(options); ASSERT_OK(Put(Key(0), "a")); ASSERT_OK(Put(Key(5), "a")); ASSERT_OK(Flush()); ASSERT_OK(Put(Key(10), "a")); ASSERT_OK(Put(Key(15), "a")); ASSERT_OK(Flush()); CompactRangeOptions cro; cro.change_level = true; cro.target_level = 2; ASSERT_OK(db_->CompactRange(cro, nullptr, nullptr)); auto get_stat = [](std::string level_str, LevelStatType type, std::map props) { auto prop_str = "compaction." + level_str + "." + InternalStats::compaction_level_stats.at(type).property_name.c_str(); auto prop_item = props.find(prop_str); return prop_item == props.end() ? 0 : std::stod(prop_item->second); }; // Trivial move 2 files to L2 ASSERT_EQ("0,0,2", FilesPerLevel()); // Also test that the stats GetMapProperty API reporting the same result { std::map prop; ASSERT_TRUE(dbfull()->GetMapProperty("rocksdb.cfstats", &prop)); ASSERT_EQ(0, get_stat("L0", LevelStatType::NUM_FILES, prop)); ASSERT_EQ(0, get_stat("L1", LevelStatType::NUM_FILES, prop)); ASSERT_EQ(2, get_stat("L2", LevelStatType::NUM_FILES, prop)); ASSERT_EQ(2, get_stat("Sum", LevelStatType::NUM_FILES, prop)); } // While the compaction is running, we will create 2 new files that // can fit in L2, these 2 files will be moved to L2 and overlap with // the running compaction and break the LSM consistency. rocksdb::SyncPoint::GetInstance()->SetCallBack( "CompactionJob::Run():Start", [&](void* /*arg*/) { ASSERT_OK( dbfull()->SetOptions({{"level0_file_num_compaction_trigger", "2"}, {"max_bytes_for_level_base", "1"}})); ASSERT_OK(Put(Key(6), "a")); ASSERT_OK(Put(Key(7), "a")); ASSERT_OK(Flush()); ASSERT_OK(Put(Key(8), "a")); ASSERT_OK(Put(Key(9), "a")); ASSERT_OK(Flush()); }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); // Run a manual compaction that will compact the 2 files in L2 // into 1 file in L2 cro.exclusive_manual_compaction = false; cro.bottommost_level_compaction = BottommostLevelCompaction::kForce; ASSERT_OK(db_->CompactRange(cro, nullptr, nullptr)); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); // Test that the stats GetMapProperty API reporting 1 file in L2 { std::map prop; ASSERT_TRUE(dbfull()->GetMapProperty("rocksdb.cfstats", &prop)); ASSERT_EQ(1, get_stat("L2", LevelStatType::NUM_FILES, prop)); } } TEST_F(DBTest2, ManualCompactionOverlapManualCompaction) { Options options = CurrentOptions(); options.num_levels = 2; options.IncreaseParallelism(20); options.disable_auto_compactions = true; DestroyAndReopen(options); ASSERT_OK(Put(Key(0), "a")); ASSERT_OK(Put(Key(5), "a")); ASSERT_OK(Flush()); ASSERT_OK(Put(Key(10), "a")); ASSERT_OK(Put(Key(15), "a")); ASSERT_OK(Flush()); ASSERT_OK(db_->CompactRange(CompactRangeOptions(), nullptr, nullptr)); // Trivial move 2 files to L1 ASSERT_EQ("0,2", FilesPerLevel()); std::function bg_manual_compact = [&]() { std::string k1 = Key(6); std::string k2 = Key(9); Slice k1s(k1); Slice k2s(k2); CompactRangeOptions cro; cro.exclusive_manual_compaction = false; ASSERT_OK(db_->CompactRange(cro, &k1s, &k2s)); }; rocksdb::port::Thread bg_thread; // While the compaction is running, we will create 2 new files that // can fit in L1, these 2 files will be moved to L1 and overlap with // the running compaction and break the LSM consistency. std::atomic flag(false); rocksdb::SyncPoint::GetInstance()->SetCallBack( "CompactionJob::Run():Start", [&](void* /*arg*/) { if (flag.exchange(true)) { // We want to make sure to call this callback only once return; } ASSERT_OK(Put(Key(6), "a")); ASSERT_OK(Put(Key(7), "a")); ASSERT_OK(Flush()); ASSERT_OK(Put(Key(8), "a")); ASSERT_OK(Put(Key(9), "a")); ASSERT_OK(Flush()); // Start a non-exclusive manual compaction in a bg thread bg_thread = port::Thread(bg_manual_compact); // This manual compaction conflict with the other manual compaction // so it should wait until the first compaction finish env_->SleepForMicroseconds(1000000); }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); // Run a manual compaction that will compact the 2 files in L1 // into 1 file in L1 CompactRangeOptions cro; cro.exclusive_manual_compaction = false; cro.bottommost_level_compaction = BottommostLevelCompaction::kForce; ASSERT_OK(db_->CompactRange(cro, nullptr, nullptr)); bg_thread.join(); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); } TEST_F(DBTest2, OptimizeForPointLookup) { Options options = CurrentOptions(); Close(); options.OptimizeForPointLookup(2); ASSERT_OK(DB::Open(options, dbname_, &db_)); ASSERT_OK(Put("foo", "v1")); ASSERT_EQ("v1", Get("foo")); Flush(); ASSERT_EQ("v1", Get("foo")); } #endif // ROCKSDB_LITE TEST_F(DBTest2, GetRaceFlush1) { ASSERT_OK(Put("foo", "v1")); rocksdb::SyncPoint::GetInstance()->LoadDependency( {{"DBImpl::GetImpl:1", "DBTest2::GetRaceFlush:1"}, {"DBTest2::GetRaceFlush:2", "DBImpl::GetImpl:2"}}); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); rocksdb::port::Thread t1([&] { TEST_SYNC_POINT("DBTest2::GetRaceFlush:1"); ASSERT_OK(Put("foo", "v2")); Flush(); TEST_SYNC_POINT("DBTest2::GetRaceFlush:2"); }); // Get() is issued after the first Put(), so it should see either // "v1" or "v2". ASSERT_NE("NOT_FOUND", Get("foo")); t1.join(); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); } TEST_F(DBTest2, GetRaceFlush2) { ASSERT_OK(Put("foo", "v1")); rocksdb::SyncPoint::GetInstance()->LoadDependency( {{"DBImpl::GetImpl:3", "DBTest2::GetRaceFlush:1"}, {"DBTest2::GetRaceFlush:2", "DBImpl::GetImpl:4"}}); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); port::Thread t1([&] { TEST_SYNC_POINT("DBTest2::GetRaceFlush:1"); ASSERT_OK(Put("foo", "v2")); Flush(); TEST_SYNC_POINT("DBTest2::GetRaceFlush:2"); }); // Get() is issued after the first Put(), so it should see either // "v1" or "v2". ASSERT_NE("NOT_FOUND", Get("foo")); t1.join(); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); } TEST_F(DBTest2, DirectIO) { if (!IsDirectIOSupported()) { return; } Options options = CurrentOptions(); options.use_direct_reads = options.use_direct_io_for_flush_and_compaction = true; options.allow_mmap_reads = options.allow_mmap_writes = false; DestroyAndReopen(options); ASSERT_OK(Put(Key(0), "a")); ASSERT_OK(Put(Key(5), "a")); ASSERT_OK(Flush()); ASSERT_OK(Put(Key(10), "a")); ASSERT_OK(Put(Key(15), "a")); ASSERT_OK(Flush()); ASSERT_OK(db_->CompactRange(CompactRangeOptions(), nullptr, nullptr)); Reopen(options); } TEST_F(DBTest2, MemtableOnlyIterator) { Options options = CurrentOptions(); CreateAndReopenWithCF({"pikachu"}, options); ASSERT_OK(Put(1, "foo", "first")); ASSERT_OK(Put(1, "bar", "second")); ReadOptions ropt; ropt.read_tier = kMemtableTier; std::string value; Iterator* it = nullptr; // Before flushing // point lookups ASSERT_OK(db_->Get(ropt, handles_[1], "foo", &value)); ASSERT_EQ("first", value); ASSERT_OK(db_->Get(ropt, handles_[1], "bar", &value)); ASSERT_EQ("second", value); // Memtable-only iterator (read_tier=kMemtableTier); data not flushed yet. it = db_->NewIterator(ropt, handles_[1]); int count = 0; for (it->SeekToFirst(); it->Valid(); it->Next()) { ASSERT_TRUE(it->Valid()); count++; } ASSERT_TRUE(!it->Valid()); ASSERT_EQ(2, count); delete it; Flush(1); // After flushing // point lookups ASSERT_OK(db_->Get(ropt, handles_[1], "foo", &value)); ASSERT_EQ("first", value); ASSERT_OK(db_->Get(ropt, handles_[1], "bar", &value)); ASSERT_EQ("second", value); // nothing should be returned using memtable-only iterator after flushing. it = db_->NewIterator(ropt, handles_[1]); count = 0; for (it->SeekToFirst(); it->Valid(); it->Next()) { ASSERT_TRUE(it->Valid()); count++; } ASSERT_TRUE(!it->Valid()); ASSERT_EQ(0, count); delete it; // Add a key to memtable ASSERT_OK(Put(1, "foobar", "third")); it = db_->NewIterator(ropt, handles_[1]); count = 0; for (it->SeekToFirst(); it->Valid(); it->Next()) { ASSERT_TRUE(it->Valid()); ASSERT_EQ("foobar", it->key().ToString()); ASSERT_EQ("third", it->value().ToString()); count++; } ASSERT_TRUE(!it->Valid()); ASSERT_EQ(1, count); delete it; } TEST_F(DBTest2, LowPriWrite) { Options options = CurrentOptions(); // Compaction pressure should trigger since 6 files options.level0_file_num_compaction_trigger = 4; options.level0_slowdown_writes_trigger = 12; options.level0_stop_writes_trigger = 30; options.delayed_write_rate = 8 * 1024 * 1024; Reopen(options); std::atomic rate_limit_count(0); rocksdb::SyncPoint::GetInstance()->SetCallBack( "GenericRateLimiter::Request:1", [&](void* arg) { rate_limit_count.fetch_add(1); int64_t* rate_bytes_per_sec = static_cast(arg); ASSERT_EQ(1024 * 1024, *rate_bytes_per_sec); }); // Block compaction rocksdb::SyncPoint::GetInstance()->LoadDependency({ {"DBTest.LowPriWrite:0", "DBImpl::BGWorkCompaction"}, }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); WriteOptions wo; for (int i = 0; i < 6; i++) { wo.low_pri = false; Put("", "", wo); wo.low_pri = true; Put("", "", wo); Flush(); } ASSERT_EQ(0, rate_limit_count.load()); wo.low_pri = true; Put("", "", wo); ASSERT_EQ(1, rate_limit_count.load()); wo.low_pri = false; Put("", "", wo); ASSERT_EQ(1, rate_limit_count.load()); TEST_SYNC_POINT("DBTest.LowPriWrite:0"); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); dbfull()->TEST_WaitForCompact(); wo.low_pri = true; Put("", "", wo); ASSERT_EQ(1, rate_limit_count.load()); wo.low_pri = false; Put("", "", wo); ASSERT_EQ(1, rate_limit_count.load()); } #ifndef ROCKSDB_LITE TEST_F(DBTest2, RateLimitedCompactionReads) { // compaction input has 512KB data const int kNumKeysPerFile = 128; const int kBytesPerKey = 1024; const int kNumL0Files = 4; for (auto use_direct_io : {false, true}) { if (use_direct_io && !IsDirectIOSupported()) { continue; } Options options = CurrentOptions(); options.compression = kNoCompression; options.level0_file_num_compaction_trigger = kNumL0Files; options.memtable_factory.reset(new SpecialSkipListFactory(kNumKeysPerFile)); options.new_table_reader_for_compaction_inputs = true; // takes roughly one second, split into 100 x 10ms intervals. Each interval // permits 5.12KB, which is smaller than the block size, so this test // exercises the code for chunking reads. options.rate_limiter.reset(NewGenericRateLimiter( static_cast(kNumL0Files * kNumKeysPerFile * kBytesPerKey) /* rate_bytes_per_sec */, 10 * 1000 /* refill_period_us */, 10 /* fairness */, RateLimiter::Mode::kReadsOnly)); options.use_direct_reads = options.use_direct_io_for_flush_and_compaction = use_direct_io; BlockBasedTableOptions bbto; bbto.block_size = 16384; bbto.no_block_cache = true; options.table_factory.reset(new BlockBasedTableFactory(bbto)); DestroyAndReopen(options); for (int i = 0; i < kNumL0Files; ++i) { for (int j = 0; j <= kNumKeysPerFile; ++j) { ASSERT_OK(Put(Key(j), DummyString(kBytesPerKey))); } dbfull()->TEST_WaitForFlushMemTable(); ASSERT_EQ(i + 1, NumTableFilesAtLevel(0)); } dbfull()->TEST_WaitForCompact(); ASSERT_EQ(0, NumTableFilesAtLevel(0)); ASSERT_EQ(0, options.rate_limiter->GetTotalBytesThrough(Env::IO_HIGH)); // should be slightly above 512KB due to non-data blocks read. Arbitrarily // chose 1MB as the upper bound on the total bytes read. size_t rate_limited_bytes = options.rate_limiter->GetTotalBytesThrough(Env::IO_LOW); // Include the explicit prefetch of the footer in direct I/O case. size_t direct_io_extra = use_direct_io ? 512 * 1024 : 0; ASSERT_GE( rate_limited_bytes, static_cast(kNumKeysPerFile * kBytesPerKey * kNumL0Files)); ASSERT_LT( rate_limited_bytes, static_cast(2 * kNumKeysPerFile * kBytesPerKey * kNumL0Files + direct_io_extra)); Iterator* iter = db_->NewIterator(ReadOptions()); for (iter->SeekToFirst(); iter->Valid(); iter->Next()) { ASSERT_EQ(iter->value().ToString(), DummyString(kBytesPerKey)); } delete iter; // bytes read for user iterator shouldn't count against the rate limit. ASSERT_EQ(rate_limited_bytes, static_cast( options.rate_limiter->GetTotalBytesThrough(Env::IO_LOW))); } } #endif // ROCKSDB_LITE // Make sure DB can be reopen with reduced number of levels, given no file // is on levels higher than the new num_levels. TEST_F(DBTest2, ReduceLevel) { Options options; options.disable_auto_compactions = true; options.num_levels = 7; Reopen(options); Put("foo", "bar"); Flush(); MoveFilesToLevel(6); #ifndef ROCKSDB_LITE ASSERT_EQ("0,0,0,0,0,0,1", FilesPerLevel()); #endif // !ROCKSDB_LITE CompactRangeOptions compact_options; compact_options.change_level = true; compact_options.target_level = 1; dbfull()->CompactRange(compact_options, nullptr, nullptr); #ifndef ROCKSDB_LITE ASSERT_EQ("0,1", FilesPerLevel()); #endif // !ROCKSDB_LITE options.num_levels = 3; Reopen(options); #ifndef ROCKSDB_LITE ASSERT_EQ("0,1", FilesPerLevel()); #endif // !ROCKSDB_LITE } // Test that ReadCallback is actually used in both memtbale and sst tables TEST_F(DBTest2, ReadCallbackTest) { Options options; options.disable_auto_compactions = true; options.num_levels = 7; Reopen(options); std::vector snapshots; // Try to create a db with multiple layers and a memtable const std::string key = "foo"; const std::string value = "bar"; // This test assumes that the seq start with 1 and increased by 1 after each // write batch of size 1. If that behavior changes, the test needs to be // updated as well. // TODO(myabandeh): update this test to use the seq number that is returned by // the DB instead of assuming what seq the DB used. int i = 1; for (; i < 10; i++) { Put(key, value + std::to_string(i)); // Take a snapshot to avoid the value being removed during compaction auto snapshot = dbfull()->GetSnapshot(); snapshots.push_back(snapshot); } Flush(); for (; i < 20; i++) { Put(key, value + std::to_string(i)); // Take a snapshot to avoid the value being removed during compaction auto snapshot = dbfull()->GetSnapshot(); snapshots.push_back(snapshot); } Flush(); MoveFilesToLevel(6); #ifndef ROCKSDB_LITE ASSERT_EQ("0,0,0,0,0,0,2", FilesPerLevel()); #endif // !ROCKSDB_LITE for (; i < 30; i++) { Put(key, value + std::to_string(i)); auto snapshot = dbfull()->GetSnapshot(); snapshots.push_back(snapshot); } Flush(); #ifndef ROCKSDB_LITE ASSERT_EQ("1,0,0,0,0,0,2", FilesPerLevel()); #endif // !ROCKSDB_LITE // And also add some values to the memtable for (; i < 40; i++) { Put(key, value + std::to_string(i)); auto snapshot = dbfull()->GetSnapshot(); snapshots.push_back(snapshot); } class TestReadCallback : public ReadCallback { public: explicit TestReadCallback(SequenceNumber snapshot) : snapshot_(snapshot) {} virtual bool IsVisible(SequenceNumber seq) override { return seq <= snapshot_; } private: SequenceNumber snapshot_; }; for (int seq = 1; seq < i; seq++) { PinnableSlice pinnable_val; ReadOptions roptions; TestReadCallback callback(seq); bool dont_care = true; Status s = dbfull()->GetImpl(roptions, dbfull()->DefaultColumnFamily(), key, &pinnable_val, &dont_care, &callback); ASSERT_TRUE(s.ok()); // Assuming that after each Put the DB increased seq by one, the value and // seq number must be equal since we also inc value by 1 after each Put. ASSERT_EQ(value + std::to_string(seq), pinnable_val.ToString()); } for (auto snapshot : snapshots) { dbfull()->ReleaseSnapshot(snapshot); } } #ifndef ROCKSDB_LITE TEST_F(DBTest2, LiveFilesOmitObsoleteFiles) { // Regression test for race condition where an obsolete file is returned to // user as a "live file" but then deleted, all while file deletions are // disabled. // // It happened like this: // // 1. [flush thread] Log file "x.log" found by FindObsoleteFiles // 2. [user thread] DisableFileDeletions, GetSortedWalFiles are called and the // latter returned "x.log" // 3. [flush thread] PurgeObsoleteFiles deleted "x.log" // 4. [user thread] Reading "x.log" failed // // Unfortunately the only regression test I can come up with involves sleep. // We cannot set SyncPoints to repro since, once the fix is applied, the // SyncPoints would cause a deadlock as the repro's sequence of events is now // prohibited. // // Instead, if we sleep for a second between Find and Purge, and ensure the // read attempt happens after purge, then the sequence of events will almost // certainly happen on the old code. rocksdb::SyncPoint::GetInstance()->LoadDependency({ {"DBImpl::BackgroundCallFlush:FilesFound", "DBTest2::LiveFilesOmitObsoleteFiles:FlushTriggered"}, {"DBImpl::PurgeObsoleteFiles:End", "DBTest2::LiveFilesOmitObsoleteFiles:LiveFilesCaptured"}, }); rocksdb::SyncPoint::GetInstance()->SetCallBack( "DBImpl::PurgeObsoleteFiles:Begin", [&](void* /*arg*/) { env_->SleepForMicroseconds(1000000); }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); Put("key", "val"); FlushOptions flush_opts; flush_opts.wait = false; db_->Flush(flush_opts); TEST_SYNC_POINT("DBTest2::LiveFilesOmitObsoleteFiles:FlushTriggered"); db_->DisableFileDeletions(); VectorLogPtr log_files; db_->GetSortedWalFiles(log_files); TEST_SYNC_POINT("DBTest2::LiveFilesOmitObsoleteFiles:LiveFilesCaptured"); for (const auto& log_file : log_files) { ASSERT_OK(env_->FileExists(LogFileName(dbname_, log_file->LogNumber()))); } db_->EnableFileDeletions(); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); } TEST_F(DBTest2, TraceAndReplay) { Options options = CurrentOptions(); options.merge_operator = MergeOperators::CreatePutOperator(); ReadOptions ro; WriteOptions wo; TraceOptions trace_opts; EnvOptions env_opts; CreateAndReopenWithCF({"pikachu"}, options); Random rnd(301); Iterator* single_iter = nullptr; std::string trace_filename = dbname_ + "/rocksdb.trace"; std::unique_ptr trace_writer; ASSERT_OK(NewFileTraceWriter(env_, env_opts, trace_filename, &trace_writer)); ASSERT_OK(db_->StartTrace(trace_opts, std::move(trace_writer))); ASSERT_OK(Put(0, "a", "1")); ASSERT_OK(Merge(0, "b", "2")); ASSERT_OK(Delete(0, "c")); ASSERT_OK(SingleDelete(0, "d")); ASSERT_OK(db_->DeleteRange(wo, dbfull()->DefaultColumnFamily(), "e", "f")); WriteBatch batch; ASSERT_OK(batch.Put("f", "11")); ASSERT_OK(batch.Merge("g", "12")); ASSERT_OK(batch.Delete("h")); ASSERT_OK(batch.SingleDelete("i")); ASSERT_OK(batch.DeleteRange("j", "k")); ASSERT_OK(db_->Write(wo, &batch)); single_iter = db_->NewIterator(ro); single_iter->Seek("f"); single_iter->SeekForPrev("g"); delete single_iter; ASSERT_EQ("1", Get(0, "a")); ASSERT_EQ("12", Get(0, "g")); ASSERT_OK(Put(1, "foo", "bar")); ASSERT_OK(Put(1, "rocksdb", "rocks")); ASSERT_EQ("NOT_FOUND", Get(1, "leveldb")); ASSERT_OK(db_->EndTrace()); // These should not get into the trace file as it is after EndTrace. Put("hello", "world"); Merge("foo", "bar"); // Open another db, replay, and verify the data std::string value; std::string dbname2 = test::TmpDir(env_) + "/db_replay"; ASSERT_OK(DestroyDB(dbname2, options)); // Using a different name than db2, to pacify infer's use-after-lifetime // warnings (http://fbinfer.com). DB* db2_init = nullptr; options.create_if_missing = true; ASSERT_OK(DB::Open(options, dbname2, &db2_init)); ColumnFamilyHandle* cf; ASSERT_OK( db2_init->CreateColumnFamily(ColumnFamilyOptions(), "pikachu", &cf)); delete cf; delete db2_init; DB* db2 = nullptr; std::vector column_families; ColumnFamilyOptions cf_options; cf_options.merge_operator = MergeOperators::CreatePutOperator(); column_families.push_back(ColumnFamilyDescriptor("default", cf_options)); column_families.push_back( ColumnFamilyDescriptor("pikachu", ColumnFamilyOptions())); std::vector handles; ASSERT_OK(DB::Open(DBOptions(), dbname2, column_families, &handles, &db2)); env_->SleepForMicroseconds(100); // Verify that the keys don't already exist ASSERT_TRUE(db2->Get(ro, handles[0], "a", &value).IsNotFound()); ASSERT_TRUE(db2->Get(ro, handles[0], "g", &value).IsNotFound()); std::unique_ptr trace_reader; ASSERT_OK(NewFileTraceReader(env_, env_opts, trace_filename, &trace_reader)); Replayer replayer(db2, handles_, std::move(trace_reader)); ASSERT_OK(replayer.Replay()); ASSERT_OK(db2->Get(ro, handles[0], "a", &value)); ASSERT_EQ("1", value); ASSERT_OK(db2->Get(ro, handles[0], "g", &value)); ASSERT_EQ("12", value); ASSERT_TRUE(db2->Get(ro, handles[0], "hello", &value).IsNotFound()); ASSERT_TRUE(db2->Get(ro, handles[0], "world", &value).IsNotFound()); ASSERT_OK(db2->Get(ro, handles[1], "foo", &value)); ASSERT_EQ("bar", value); ASSERT_OK(db2->Get(ro, handles[1], "rocksdb", &value)); ASSERT_EQ("rocks", value); for (auto handle : handles) { delete handle; } delete db2; ASSERT_OK(DestroyDB(dbname2, options)); } #endif // ROCKSDB_LITE TEST_F(DBTest2, PinnableSliceAndMmapReads) { Options options = CurrentOptions(); options.allow_mmap_reads = true; options.max_open_files = 100; options.compression = kNoCompression; Reopen(options); ASSERT_OK(Put("foo", "bar")); ASSERT_OK(Flush()); PinnableSlice pinned_value; ASSERT_EQ(Get("foo", &pinned_value), Status::OK()); // It is not safe to pin mmap files as they might disappear by compaction ASSERT_FALSE(pinned_value.IsPinned()); ASSERT_EQ(pinned_value.ToString(), "bar"); dbfull()->TEST_CompactRange(0 /* level */, nullptr /* begin */, nullptr /* end */, nullptr /* column_family */, true /* disallow_trivial_move */); // Ensure pinned_value doesn't rely on memory munmap'd by the above // compaction. It crashes if it does. ASSERT_EQ(pinned_value.ToString(), "bar"); #ifndef ROCKSDB_LITE pinned_value.Reset(); // Unsafe to pin mmap files when they could be kicked out of table cache Close(); ASSERT_OK(ReadOnlyReopen(options)); ASSERT_EQ(Get("foo", &pinned_value), Status::OK()); ASSERT_FALSE(pinned_value.IsPinned()); ASSERT_EQ(pinned_value.ToString(), "bar"); pinned_value.Reset(); // In read-only mode with infinite capacity on table cache it should pin the // value and avoid the memcpy Close(); options.max_open_files = -1; ASSERT_OK(ReadOnlyReopen(options)); ASSERT_EQ(Get("foo", &pinned_value), Status::OK()); ASSERT_TRUE(pinned_value.IsPinned()); ASSERT_EQ(pinned_value.ToString(), "bar"); #endif } TEST_F(DBTest2, DISABLED_IteratorPinnedMemory) { Options options = CurrentOptions(); options.create_if_missing = true; options.statistics = rocksdb::CreateDBStatistics(); BlockBasedTableOptions bbto; bbto.no_block_cache = false; bbto.cache_index_and_filter_blocks = false; bbto.block_cache = NewLRUCache(100000); bbto.block_size = 400; // small block size options.table_factory.reset(new BlockBasedTableFactory(bbto)); Reopen(options); Random rnd(301); std::string v = RandomString(&rnd, 400); // Since v is the size of a block, each key should take a block // of 400+ bytes. Put("1", v); Put("3", v); Put("5", v); Put("7", v); ASSERT_OK(Flush()); ASSERT_EQ(0, bbto.block_cache->GetPinnedUsage()); // Verify that iterators don't pin more than one data block in block cache // at each time. { unique_ptr iter(db_->NewIterator(ReadOptions())); iter->SeekToFirst(); for (int i = 0; i < 4; i++) { ASSERT_TRUE(iter->Valid()); // Block cache should contain exactly one block. ASSERT_GT(bbto.block_cache->GetPinnedUsage(), 0); ASSERT_LT(bbto.block_cache->GetPinnedUsage(), 800); iter->Next(); } ASSERT_FALSE(iter->Valid()); iter->Seek("4"); ASSERT_TRUE(iter->Valid()); ASSERT_GT(bbto.block_cache->GetPinnedUsage(), 0); ASSERT_LT(bbto.block_cache->GetPinnedUsage(), 800); iter->Seek("3"); ASSERT_TRUE(iter->Valid()); ASSERT_GT(bbto.block_cache->GetPinnedUsage(), 0); ASSERT_LT(bbto.block_cache->GetPinnedUsage(), 800); } ASSERT_EQ(0, bbto.block_cache->GetPinnedUsage()); // Test compaction case Put("2", v); Put("5", v); Put("6", v); Put("8", v); ASSERT_OK(Flush()); // Clear existing data in block cache bbto.block_cache->SetCapacity(0); bbto.block_cache->SetCapacity(100000); // Verify compaction input iterators don't hold more than one data blocks at // one time. std::atomic finished(false); std::atomic block_newed(0); std::atomic block_destroyed(0); rocksdb::SyncPoint::GetInstance()->SetCallBack( "Block::Block:0", [&](void* /*arg*/) { if (finished) { return; } // Two iterators. At most 2 outstanding blocks. EXPECT_GE(block_newed.load(), block_destroyed.load()); EXPECT_LE(block_newed.load(), block_destroyed.load() + 1); block_newed.fetch_add(1); }); rocksdb::SyncPoint::GetInstance()->SetCallBack( "Block::~Block", [&](void* /*arg*/) { if (finished) { return; } // Two iterators. At most 2 outstanding blocks. EXPECT_GE(block_newed.load(), block_destroyed.load() + 1); EXPECT_LE(block_newed.load(), block_destroyed.load() + 2); block_destroyed.fetch_add(1); }); rocksdb::SyncPoint::GetInstance()->SetCallBack( "CompactionJob::Run:BeforeVerify", [&](void* /*arg*/) { finished = true; }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); ASSERT_OK(db_->CompactRange(CompactRangeOptions(), nullptr, nullptr)); // Two input files. Each of them has 4 data blocks. ASSERT_EQ(8, block_newed.load()); ASSERT_EQ(8, block_destroyed.load()); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); } TEST_F(DBTest2, TestBBTTailPrefetch) { std::atomic called(false); size_t expected_lower_bound = 512 * 1024; size_t expected_higher_bound = 512 * 1024; rocksdb::SyncPoint::GetInstance()->SetCallBack( "BlockBasedTable::Open::TailPrefetchLen", [&](void* arg) { size_t* prefetch_size = static_cast(arg); EXPECT_LE(expected_lower_bound, *prefetch_size); EXPECT_GE(expected_higher_bound, *prefetch_size); called = true; }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); Put("1", "1"); Put("9", "1"); Flush(); expected_lower_bound = 0; expected_higher_bound = 8 * 1024; Put("1", "1"); Put("9", "1"); Flush(); Put("1", "1"); Put("9", "1"); Flush(); // Full compaction to make sure there is no L0 file after the open. ASSERT_OK(db_->CompactRange(CompactRangeOptions(), nullptr, nullptr)); ASSERT_TRUE(called.load()); called = false; rocksdb::SyncPoint::GetInstance()->DisableProcessing(); rocksdb::SyncPoint::GetInstance()->ClearAllCallBacks(); std::atomic first_call(true); rocksdb::SyncPoint::GetInstance()->SetCallBack( "BlockBasedTable::Open::TailPrefetchLen", [&](void* arg) { size_t* prefetch_size = static_cast(arg); if (first_call) { EXPECT_EQ(4 * 1024, *prefetch_size); first_call = false; } else { EXPECT_GE(4 * 1024, *prefetch_size); } called = true; }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); Options options = CurrentOptions(); options.max_file_opening_threads = 1; // one thread BlockBasedTableOptions table_options; table_options.cache_index_and_filter_blocks = true; options.table_factory.reset(NewBlockBasedTableFactory(table_options)); options.max_open_files = -1; Reopen(options); Put("1", "1"); Put("9", "1"); Flush(); Put("1", "1"); Put("9", "1"); Flush(); ASSERT_TRUE(called.load()); called = false; // Parallel loading SST files options.max_file_opening_threads = 16; Reopen(options); ASSERT_OK(db_->CompactRange(CompactRangeOptions(), nullptr, nullptr)); ASSERT_TRUE(called.load()); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); rocksdb::SyncPoint::GetInstance()->ClearAllCallBacks(); } } // namespace rocksdb int main(int argc, char** argv) { rocksdb::port::InstallStackTraceHandler(); ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/db/db_test_util.cc000066400000000000000000001315231337235545400166320ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "db/db_test_util.h" #include "db/forward_iterator.h" #include "rocksdb/env_encryption.h" namespace rocksdb { // Special Env used to delay background operations SpecialEnv::SpecialEnv(Env* base) : EnvWrapper(base), rnd_(301), sleep_counter_(this), addon_time_(0), time_elapse_only_sleep_(false), no_slowdown_(false) { delay_sstable_sync_.store(false, std::memory_order_release); drop_writes_.store(false, std::memory_order_release); no_space_.store(false, std::memory_order_release); non_writable_.store(false, std::memory_order_release); count_random_reads_ = false; count_sequential_reads_ = false; manifest_sync_error_.store(false, std::memory_order_release); manifest_write_error_.store(false, std::memory_order_release); log_write_error_.store(false, std::memory_order_release); random_file_open_counter_.store(0, std::memory_order_relaxed); delete_count_.store(0, std::memory_order_relaxed); num_open_wal_file_.store(0); log_write_slowdown_ = 0; bytes_written_ = 0; sync_counter_ = 0; non_writeable_rate_ = 0; new_writable_count_ = 0; non_writable_count_ = 0; table_write_callback_ = nullptr; } #ifndef ROCKSDB_LITE ROT13BlockCipher rot13Cipher_(16); #endif // ROCKSDB_LITE DBTestBase::DBTestBase(const std::string path) : mem_env_(!getenv("MEM_ENV") ? nullptr : new MockEnv(Env::Default())), #ifndef ROCKSDB_LITE encrypted_env_( !getenv("ENCRYPTED_ENV") ? nullptr : NewEncryptedEnv(mem_env_ ? mem_env_ : Env::Default(), new CTREncryptionProvider(rot13Cipher_))), #else encrypted_env_(nullptr), #endif // ROCKSDB_LITE env_(new SpecialEnv(encrypted_env_ ? encrypted_env_ : (mem_env_ ? mem_env_ : Env::Default()))), option_config_(kDefault) { env_->SetBackgroundThreads(1, Env::LOW); env_->SetBackgroundThreads(1, Env::HIGH); dbname_ = test::PerThreadDBPath(env_, path); alternative_wal_dir_ = dbname_ + "/wal"; alternative_db_log_dir_ = dbname_ + "/db_log_dir"; auto options = CurrentOptions(); options.env = env_; auto delete_options = options; delete_options.wal_dir = alternative_wal_dir_; EXPECT_OK(DestroyDB(dbname_, delete_options)); // Destroy it for not alternative WAL dir is used. EXPECT_OK(DestroyDB(dbname_, options)); db_ = nullptr; Reopen(options); Random::GetTLSInstance()->Reset(0xdeadbeef); } DBTestBase::~DBTestBase() { rocksdb::SyncPoint::GetInstance()->DisableProcessing(); rocksdb::SyncPoint::GetInstance()->LoadDependency({}); rocksdb::SyncPoint::GetInstance()->ClearAllCallBacks(); Close(); Options options; options.db_paths.emplace_back(dbname_, 0); options.db_paths.emplace_back(dbname_ + "_2", 0); options.db_paths.emplace_back(dbname_ + "_3", 0); options.db_paths.emplace_back(dbname_ + "_4", 0); options.env = env_; if (getenv("KEEP_DB")) { printf("DB is still at %s\n", dbname_.c_str()); } else { EXPECT_OK(DestroyDB(dbname_, options)); } delete env_; } bool DBTestBase::ShouldSkipOptions(int option_config, int skip_mask) { #ifdef ROCKSDB_LITE // These options are not supported in ROCKSDB_LITE if (option_config == kHashSkipList || option_config == kPlainTableFirstBytePrefix || option_config == kPlainTableCappedPrefix || option_config == kPlainTableCappedPrefixNonMmap || option_config == kPlainTableAllBytesPrefix || option_config == kVectorRep || option_config == kHashLinkList || option_config == kHashCuckoo || option_config == kUniversalCompaction || option_config == kUniversalCompactionMultiLevel || option_config == kUniversalSubcompactions || option_config == kFIFOCompaction || option_config == kConcurrentSkipList) { return true; } #endif if ((skip_mask & kSkipUniversalCompaction) && (option_config == kUniversalCompaction || option_config == kUniversalCompactionMultiLevel || option_config == kUniversalSubcompactions)) { return true; } if ((skip_mask & kSkipMergePut) && option_config == kMergePut) { return true; } if ((skip_mask & kSkipNoSeekToLast) && (option_config == kHashLinkList || option_config == kHashSkipList)) { return true; } if ((skip_mask & kSkipPlainTable) && (option_config == kPlainTableAllBytesPrefix || option_config == kPlainTableFirstBytePrefix || option_config == kPlainTableCappedPrefix || option_config == kPlainTableCappedPrefixNonMmap)) { return true; } if ((skip_mask & kSkipHashIndex) && (option_config == kBlockBasedTableWithPrefixHashIndex || option_config == kBlockBasedTableWithWholeKeyHashIndex)) { return true; } if ((skip_mask & kSkipHashCuckoo) && (option_config == kHashCuckoo)) { return true; } if ((skip_mask & kSkipFIFOCompaction) && option_config == kFIFOCompaction) { return true; } if ((skip_mask & kSkipMmapReads) && option_config == kWalDirAndMmapReads) { return true; } return false; } // Switch to a fresh database with the next option configuration to // test. Return false if there are no more configurations to test. bool DBTestBase::ChangeOptions(int skip_mask) { for (option_config_++; option_config_ < kEnd; option_config_++) { if (ShouldSkipOptions(option_config_, skip_mask)) { continue; } break; } if (option_config_ >= kEnd) { Destroy(last_options_); return false; } else { auto options = CurrentOptions(); options.create_if_missing = true; DestroyAndReopen(options); return true; } } // Switch between different compaction styles. bool DBTestBase::ChangeCompactOptions() { if (option_config_ == kDefault) { option_config_ = kUniversalCompaction; Destroy(last_options_); auto options = CurrentOptions(); options.create_if_missing = true; TryReopen(options); return true; } else if (option_config_ == kUniversalCompaction) { option_config_ = kUniversalCompactionMultiLevel; Destroy(last_options_); auto options = CurrentOptions(); options.create_if_missing = true; TryReopen(options); return true; } else if (option_config_ == kUniversalCompactionMultiLevel) { option_config_ = kLevelSubcompactions; Destroy(last_options_); auto options = CurrentOptions(); assert(options.max_subcompactions > 1); TryReopen(options); return true; } else if (option_config_ == kLevelSubcompactions) { option_config_ = kUniversalSubcompactions; Destroy(last_options_); auto options = CurrentOptions(); assert(options.max_subcompactions > 1); TryReopen(options); return true; } else { return false; } } // Switch between different WAL settings bool DBTestBase::ChangeWalOptions() { if (option_config_ == kDefault) { option_config_ = kDBLogDir; Destroy(last_options_); auto options = CurrentOptions(); Destroy(options); options.create_if_missing = true; TryReopen(options); return true; } else if (option_config_ == kDBLogDir) { option_config_ = kWalDirAndMmapReads; Destroy(last_options_); auto options = CurrentOptions(); Destroy(options); options.create_if_missing = true; TryReopen(options); return true; } else if (option_config_ == kWalDirAndMmapReads) { option_config_ = kRecycleLogFiles; Destroy(last_options_); auto options = CurrentOptions(); Destroy(options); TryReopen(options); return true; } else { return false; } } // Switch between different filter policy // Jump from kDefault to kFilter to kFullFilter bool DBTestBase::ChangeFilterOptions() { if (option_config_ == kDefault) { option_config_ = kFilter; } else if (option_config_ == kFilter) { option_config_ = kFullFilterWithNewTableReaderForCompactions; } else if (option_config_ == kFullFilterWithNewTableReaderForCompactions) { option_config_ = kPartitionedFilterWithNewTableReaderForCompactions; } else { return false; } Destroy(last_options_); auto options = CurrentOptions(); options.create_if_missing = true; TryReopen(options); return true; } // Return the current option configuration. Options DBTestBase::CurrentOptions( const anon::OptionsOverride& options_override) const { return GetOptions(option_config_, GetDefaultOptions(), options_override); } Options DBTestBase::CurrentOptions( const Options& default_options, const anon::OptionsOverride& options_override) const { return GetOptions(option_config_, default_options, options_override); } Options DBTestBase::GetDefaultOptions() { Options options; options.write_buffer_size = 4090 * 4096; options.target_file_size_base = 2 * 1024 * 1024; options.max_bytes_for_level_base = 10 * 1024 * 1024; options.max_open_files = 5000; options.wal_recovery_mode = WALRecoveryMode::kTolerateCorruptedTailRecords; options.compaction_pri = CompactionPri::kByCompensatedSize; return options; } Options DBTestBase::GetOptions( int option_config, const Options& default_options, const anon::OptionsOverride& options_override) const { // this redundant copy is to minimize code change w/o having lint error. Options options = default_options; BlockBasedTableOptions table_options; bool set_block_based_table_factory = true; #if !defined(OS_MACOSX) && !defined(OS_WIN) && !defined(OS_SOLARIS) && \ !defined(OS_AIX) rocksdb::SyncPoint::GetInstance()->ClearCallBack( "NewRandomAccessFile:O_DIRECT"); rocksdb::SyncPoint::GetInstance()->ClearCallBack("NewWritableFile:O_DIRECT"); #endif bool can_allow_mmap = IsMemoryMappedAccessSupported(); switch (option_config) { #ifndef ROCKSDB_LITE case kHashSkipList: options.prefix_extractor.reset(NewFixedPrefixTransform(1)); options.memtable_factory.reset(NewHashSkipListRepFactory(16)); options.allow_concurrent_memtable_write = false; break; case kPlainTableFirstBytePrefix: options.table_factory.reset(new PlainTableFactory()); options.prefix_extractor.reset(NewFixedPrefixTransform(1)); options.allow_mmap_reads = can_allow_mmap; options.max_sequential_skip_in_iterations = 999999; set_block_based_table_factory = false; break; case kPlainTableCappedPrefix: options.table_factory.reset(new PlainTableFactory()); options.prefix_extractor.reset(NewCappedPrefixTransform(8)); options.allow_mmap_reads = can_allow_mmap; options.max_sequential_skip_in_iterations = 999999; set_block_based_table_factory = false; break; case kPlainTableCappedPrefixNonMmap: options.table_factory.reset(new PlainTableFactory()); options.prefix_extractor.reset(NewCappedPrefixTransform(8)); options.allow_mmap_reads = false; options.max_sequential_skip_in_iterations = 999999; set_block_based_table_factory = false; break; case kPlainTableAllBytesPrefix: options.table_factory.reset(new PlainTableFactory()); options.prefix_extractor.reset(NewNoopTransform()); options.allow_mmap_reads = can_allow_mmap; options.max_sequential_skip_in_iterations = 999999; set_block_based_table_factory = false; break; case kVectorRep: options.memtable_factory.reset(new VectorRepFactory(100)); options.allow_concurrent_memtable_write = false; break; case kHashLinkList: options.prefix_extractor.reset(NewFixedPrefixTransform(1)); options.memtable_factory.reset( NewHashLinkListRepFactory(4, 0, 3, true, 4)); options.allow_concurrent_memtable_write = false; break; case kHashCuckoo: options.memtable_factory.reset( NewHashCuckooRepFactory(options.write_buffer_size)); options.allow_concurrent_memtable_write = false; break; case kDirectIO: { options.use_direct_reads = true; options.use_direct_io_for_flush_and_compaction = true; options.compaction_readahead_size = 2 * 1024 * 1024; #if !defined(OS_MACOSX) && !defined(OS_WIN) && !defined(OS_SOLARIS) && \ !defined(OS_AIX) && !defined(OS_OPENBSD) rocksdb::SyncPoint::GetInstance()->SetCallBack( "NewWritableFile:O_DIRECT", [&](void* arg) { int* val = static_cast(arg); *val &= ~O_DIRECT; }); rocksdb::SyncPoint::GetInstance()->SetCallBack( "NewRandomAccessFile:O_DIRECT", [&](void* arg) { int* val = static_cast(arg); *val &= ~O_DIRECT; }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); #endif break; } #endif // ROCKSDB_LITE case kMergePut: options.merge_operator = MergeOperators::CreatePutOperator(); break; case kFilter: table_options.filter_policy.reset(NewBloomFilterPolicy(10, true)); break; case kFullFilterWithNewTableReaderForCompactions: table_options.filter_policy.reset(NewBloomFilterPolicy(10, false)); options.new_table_reader_for_compaction_inputs = true; options.compaction_readahead_size = 10 * 1024 * 1024; break; case kPartitionedFilterWithNewTableReaderForCompactions: table_options.filter_policy.reset(NewBloomFilterPolicy(10, false)); table_options.partition_filters = true; table_options.index_type = BlockBasedTableOptions::IndexType::kTwoLevelIndexSearch; options.new_table_reader_for_compaction_inputs = true; options.compaction_readahead_size = 10 * 1024 * 1024; break; case kUncompressed: options.compression = kNoCompression; break; case kNumLevel_3: options.num_levels = 3; break; case kDBLogDir: options.db_log_dir = alternative_db_log_dir_; break; case kWalDirAndMmapReads: options.wal_dir = alternative_wal_dir_; // mmap reads should be orthogonal to WalDir setting, so we piggyback to // this option config to test mmap reads as well options.allow_mmap_reads = can_allow_mmap; break; case kManifestFileSize: options.max_manifest_file_size = 50; // 50 bytes break; case kPerfOptions: options.soft_rate_limit = 2.0; options.delayed_write_rate = 8 * 1024 * 1024; options.report_bg_io_stats = true; // TODO(3.13) -- test more options break; case kUniversalCompaction: options.compaction_style = kCompactionStyleUniversal; options.num_levels = 1; break; case kUniversalCompactionMultiLevel: options.compaction_style = kCompactionStyleUniversal; options.num_levels = 8; break; case kCompressedBlockCache: options.allow_mmap_writes = can_allow_mmap; table_options.block_cache_compressed = NewLRUCache(8 * 1024 * 1024); break; case kInfiniteMaxOpenFiles: options.max_open_files = -1; break; case kxxHashChecksum: { table_options.checksum = kxxHash; break; } case kFIFOCompaction: { options.compaction_style = kCompactionStyleFIFO; break; } case kBlockBasedTableWithPrefixHashIndex: { table_options.index_type = BlockBasedTableOptions::kHashSearch; options.prefix_extractor.reset(NewFixedPrefixTransform(1)); break; } case kBlockBasedTableWithWholeKeyHashIndex: { table_options.index_type = BlockBasedTableOptions::kHashSearch; options.prefix_extractor.reset(NewNoopTransform()); break; } case kBlockBasedTableWithPartitionedIndex: { table_options.index_type = BlockBasedTableOptions::kTwoLevelIndexSearch; options.prefix_extractor.reset(NewNoopTransform()); break; } case kBlockBasedTableWithPartitionedIndexFormat4: { table_options.format_version = 4; // Format 4 changes the binary index format. Since partitioned index is a // super-set of simple indexes, we are also using kTwoLevelIndexSearch to // test this format. table_options.index_type = BlockBasedTableOptions::kTwoLevelIndexSearch; // The top-level index in partition filters are also affected by format 4. table_options.filter_policy.reset(NewBloomFilterPolicy(10, false)); table_options.partition_filters = true; table_options.index_block_restart_interval = 8; break; } case kBlockBasedTableWithIndexRestartInterval: { table_options.index_block_restart_interval = 8; break; } case kOptimizeFiltersForHits: { options.optimize_filters_for_hits = true; set_block_based_table_factory = true; break; } case kRowCache: { options.row_cache = NewLRUCache(1024 * 1024); break; } case kRecycleLogFiles: { options.recycle_log_file_num = 2; break; } case kLevelSubcompactions: { options.max_subcompactions = 4; break; } case kUniversalSubcompactions: { options.compaction_style = kCompactionStyleUniversal; options.num_levels = 8; options.max_subcompactions = 4; break; } case kConcurrentSkipList: { options.allow_concurrent_memtable_write = true; options.enable_write_thread_adaptive_yield = true; break; } case kPipelinedWrite: { options.enable_pipelined_write = true; break; } case kConcurrentWALWrites: { // This options optimize 2PC commit path options.two_write_queues = true; options.manual_wal_flush = true; break; } default: break; } if (options_override.filter_policy) { table_options.filter_policy = options_override.filter_policy; table_options.partition_filters = options_override.partition_filters; table_options.metadata_block_size = options_override.metadata_block_size; } if (set_block_based_table_factory) { options.table_factory.reset(NewBlockBasedTableFactory(table_options)); } options.env = env_; options.create_if_missing = true; options.fail_if_options_file_error = true; return options; } void DBTestBase::CreateColumnFamilies(const std::vector& cfs, const Options& options) { ColumnFamilyOptions cf_opts(options); size_t cfi = handles_.size(); handles_.resize(cfi + cfs.size()); for (auto cf : cfs) { ASSERT_OK(db_->CreateColumnFamily(cf_opts, cf, &handles_[cfi++])); } } void DBTestBase::CreateAndReopenWithCF(const std::vector& cfs, const Options& options) { CreateColumnFamilies(cfs, options); std::vector cfs_plus_default = cfs; cfs_plus_default.insert(cfs_plus_default.begin(), kDefaultColumnFamilyName); ReopenWithColumnFamilies(cfs_plus_default, options); } void DBTestBase::ReopenWithColumnFamilies(const std::vector& cfs, const std::vector& options) { ASSERT_OK(TryReopenWithColumnFamilies(cfs, options)); } void DBTestBase::ReopenWithColumnFamilies(const std::vector& cfs, const Options& options) { ASSERT_OK(TryReopenWithColumnFamilies(cfs, options)); } Status DBTestBase::TryReopenWithColumnFamilies( const std::vector& cfs, const std::vector& options) { Close(); EXPECT_EQ(cfs.size(), options.size()); std::vector column_families; for (size_t i = 0; i < cfs.size(); ++i) { column_families.push_back(ColumnFamilyDescriptor(cfs[i], options[i])); } DBOptions db_opts = DBOptions(options[0]); return DB::Open(db_opts, dbname_, column_families, &handles_, &db_); } Status DBTestBase::TryReopenWithColumnFamilies( const std::vector& cfs, const Options& options) { Close(); std::vector v_opts(cfs.size(), options); return TryReopenWithColumnFamilies(cfs, v_opts); } void DBTestBase::Reopen(const Options& options) { ASSERT_OK(TryReopen(options)); } void DBTestBase::Close() { for (auto h : handles_) { db_->DestroyColumnFamilyHandle(h); } handles_.clear(); delete db_; db_ = nullptr; } void DBTestBase::DestroyAndReopen(const Options& options) { // Destroy using last options Destroy(last_options_); ASSERT_OK(TryReopen(options)); } void DBTestBase::Destroy(const Options& options, bool delete_cf_paths) { std::vector column_families; if (delete_cf_paths) { for (size_t i = 0; i < handles_.size(); ++i) { ColumnFamilyDescriptor cfdescriptor; handles_[i]->GetDescriptor(&cfdescriptor); column_families.push_back(cfdescriptor); } } Close(); ASSERT_OK(DestroyDB(dbname_, options, column_families)); } Status DBTestBase::ReadOnlyReopen(const Options& options) { return DB::OpenForReadOnly(options, dbname_, &db_); } Status DBTestBase::TryReopen(const Options& options) { Close(); last_options_.table_factory.reset(); // Note: operator= is an unsafe approach here since it destructs shared_ptr in // the same order of their creation, in contrast to destructors which // destructs them in the opposite order of creation. One particular problme is // that the cache destructor might invoke callback functions that use Option // members such as statistics. To work around this problem, we manually call // destructor of table_facotry which eventually clears the block cache. last_options_ = options; return DB::Open(options, dbname_, &db_); } bool DBTestBase::IsDirectIOSupported() { EnvOptions env_options; env_options.use_mmap_writes = false; env_options.use_direct_writes = true; std::string tmp = TempFileName(dbname_, 999); Status s; { unique_ptr file; s = env_->NewWritableFile(tmp, &file, env_options); } if (s.ok()) { s = env_->DeleteFile(tmp); } return s.ok(); } bool DBTestBase::IsMemoryMappedAccessSupported() const { return (!encrypted_env_); } Status DBTestBase::Flush(int cf) { if (cf == 0) { return db_->Flush(FlushOptions()); } else { return db_->Flush(FlushOptions(), handles_[cf]); } } Status DBTestBase::Put(const Slice& k, const Slice& v, WriteOptions wo) { if (kMergePut == option_config_) { return db_->Merge(wo, k, v); } else { return db_->Put(wo, k, v); } } Status DBTestBase::Put(int cf, const Slice& k, const Slice& v, WriteOptions wo) { if (kMergePut == option_config_) { return db_->Merge(wo, handles_[cf], k, v); } else { return db_->Put(wo, handles_[cf], k, v); } } Status DBTestBase::Merge(const Slice& k, const Slice& v, WriteOptions wo) { return db_->Merge(wo, k, v); } Status DBTestBase::Merge(int cf, const Slice& k, const Slice& v, WriteOptions wo) { return db_->Merge(wo, handles_[cf], k, v); } Status DBTestBase::Delete(const std::string& k) { return db_->Delete(WriteOptions(), k); } Status DBTestBase::Delete(int cf, const std::string& k) { return db_->Delete(WriteOptions(), handles_[cf], k); } Status DBTestBase::SingleDelete(const std::string& k) { return db_->SingleDelete(WriteOptions(), k); } Status DBTestBase::SingleDelete(int cf, const std::string& k) { return db_->SingleDelete(WriteOptions(), handles_[cf], k); } bool DBTestBase::SetPreserveDeletesSequenceNumber(SequenceNumber sn) { return db_->SetPreserveDeletesSequenceNumber(sn); } std::string DBTestBase::Get(const std::string& k, const Snapshot* snapshot) { ReadOptions options; options.verify_checksums = true; options.snapshot = snapshot; std::string result; Status s = db_->Get(options, k, &result); if (s.IsNotFound()) { result = "NOT_FOUND"; } else if (!s.ok()) { result = s.ToString(); } return result; } std::string DBTestBase::Get(int cf, const std::string& k, const Snapshot* snapshot) { ReadOptions options; options.verify_checksums = true; options.snapshot = snapshot; std::string result; Status s = db_->Get(options, handles_[cf], k, &result); if (s.IsNotFound()) { result = "NOT_FOUND"; } else if (!s.ok()) { result = s.ToString(); } return result; } Status DBTestBase::Get(const std::string& k, PinnableSlice* v) { ReadOptions options; options.verify_checksums = true; Status s = dbfull()->Get(options, dbfull()->DefaultColumnFamily(), k, v); return s; } uint64_t DBTestBase::GetNumSnapshots() { uint64_t int_num; EXPECT_TRUE(dbfull()->GetIntProperty("rocksdb.num-snapshots", &int_num)); return int_num; } uint64_t DBTestBase::GetTimeOldestSnapshots() { uint64_t int_num; EXPECT_TRUE( dbfull()->GetIntProperty("rocksdb.oldest-snapshot-time", &int_num)); return int_num; } // Return a string that contains all key,value pairs in order, // formatted like "(k1->v1)(k2->v2)". std::string DBTestBase::Contents(int cf) { std::vector forward; std::string result; Iterator* iter = (cf == 0) ? db_->NewIterator(ReadOptions()) : db_->NewIterator(ReadOptions(), handles_[cf]); for (iter->SeekToFirst(); iter->Valid(); iter->Next()) { std::string s = IterStatus(iter); result.push_back('('); result.append(s); result.push_back(')'); forward.push_back(s); } // Check reverse iteration results are the reverse of forward results unsigned int matched = 0; for (iter->SeekToLast(); iter->Valid(); iter->Prev()) { EXPECT_LT(matched, forward.size()); EXPECT_EQ(IterStatus(iter), forward[forward.size() - matched - 1]); matched++; } EXPECT_EQ(matched, forward.size()); delete iter; return result; } std::string DBTestBase::AllEntriesFor(const Slice& user_key, int cf) { Arena arena; auto options = CurrentOptions(); InternalKeyComparator icmp(options.comparator); RangeDelAggregator range_del_agg(icmp, {} /* snapshots */); ScopedArenaIterator iter; if (cf == 0) { iter.set(dbfull()->NewInternalIterator(&arena, &range_del_agg)); } else { iter.set( dbfull()->NewInternalIterator(&arena, &range_del_agg, handles_[cf])); } InternalKey target(user_key, kMaxSequenceNumber, kTypeValue); iter->Seek(target.Encode()); std::string result; if (!iter->status().ok()) { result = iter->status().ToString(); } else { result = "[ "; bool first = true; while (iter->Valid()) { ParsedInternalKey ikey(Slice(), 0, kTypeValue); if (!ParseInternalKey(iter->key(), &ikey)) { result += "CORRUPTED"; } else { if (!last_options_.comparator->Equal(ikey.user_key, user_key)) { break; } if (!first) { result += ", "; } first = false; switch (ikey.type) { case kTypeValue: result += iter->value().ToString(); break; case kTypeMerge: // keep it the same as kTypeValue for testing kMergePut result += iter->value().ToString(); break; case kTypeDeletion: result += "DEL"; break; case kTypeSingleDeletion: result += "SDEL"; break; default: assert(false); break; } } iter->Next(); } if (!first) { result += " "; } result += "]"; } return result; } #ifndef ROCKSDB_LITE int DBTestBase::NumSortedRuns(int cf) { ColumnFamilyMetaData cf_meta; if (cf == 0) { db_->GetColumnFamilyMetaData(&cf_meta); } else { db_->GetColumnFamilyMetaData(handles_[cf], &cf_meta); } int num_sr = static_cast(cf_meta.levels[0].files.size()); for (size_t i = 1U; i < cf_meta.levels.size(); i++) { if (cf_meta.levels[i].files.size() > 0) { num_sr++; } } return num_sr; } uint64_t DBTestBase::TotalSize(int cf) { ColumnFamilyMetaData cf_meta; if (cf == 0) { db_->GetColumnFamilyMetaData(&cf_meta); } else { db_->GetColumnFamilyMetaData(handles_[cf], &cf_meta); } return cf_meta.size; } uint64_t DBTestBase::SizeAtLevel(int level) { std::vector metadata; db_->GetLiveFilesMetaData(&metadata); uint64_t sum = 0; for (const auto& m : metadata) { if (m.level == level) { sum += m.size; } } return sum; } size_t DBTestBase::TotalLiveFiles(int cf) { ColumnFamilyMetaData cf_meta; if (cf == 0) { db_->GetColumnFamilyMetaData(&cf_meta); } else { db_->GetColumnFamilyMetaData(handles_[cf], &cf_meta); } size_t num_files = 0; for (auto& level : cf_meta.levels) { num_files += level.files.size(); } return num_files; } size_t DBTestBase::CountLiveFiles() { std::vector metadata; db_->GetLiveFilesMetaData(&metadata); return metadata.size(); } int DBTestBase::NumTableFilesAtLevel(int level, int cf) { std::string property; if (cf == 0) { // default cfd EXPECT_TRUE(db_->GetProperty( "rocksdb.num-files-at-level" + NumberToString(level), &property)); } else { EXPECT_TRUE(db_->GetProperty( handles_[cf], "rocksdb.num-files-at-level" + NumberToString(level), &property)); } return atoi(property.c_str()); } double DBTestBase::CompressionRatioAtLevel(int level, int cf) { std::string property; if (cf == 0) { // default cfd EXPECT_TRUE(db_->GetProperty( "rocksdb.compression-ratio-at-level" + NumberToString(level), &property)); } else { EXPECT_TRUE(db_->GetProperty( handles_[cf], "rocksdb.compression-ratio-at-level" + NumberToString(level), &property)); } return std::stod(property); } int DBTestBase::TotalTableFiles(int cf, int levels) { if (levels == -1) { levels = (cf == 0) ? db_->NumberLevels() : db_->NumberLevels(handles_[1]); } int result = 0; for (int level = 0; level < levels; level++) { result += NumTableFilesAtLevel(level, cf); } return result; } // Return spread of files per level std::string DBTestBase::FilesPerLevel(int cf) { int num_levels = (cf == 0) ? db_->NumberLevels() : db_->NumberLevels(handles_[1]); std::string result; size_t last_non_zero_offset = 0; for (int level = 0; level < num_levels; level++) { int f = NumTableFilesAtLevel(level, cf); char buf[100]; snprintf(buf, sizeof(buf), "%s%d", (level ? "," : ""), f); result += buf; if (f > 0) { last_non_zero_offset = result.size(); } } result.resize(last_non_zero_offset); return result; } #endif // !ROCKSDB_LITE size_t DBTestBase::CountFiles() { std::vector files; env_->GetChildren(dbname_, &files); std::vector logfiles; if (dbname_ != last_options_.wal_dir) { env_->GetChildren(last_options_.wal_dir, &logfiles); } return files.size() + logfiles.size(); } uint64_t DBTestBase::Size(const Slice& start, const Slice& limit, int cf) { Range r(start, limit); uint64_t size; if (cf == 0) { db_->GetApproximateSizes(&r, 1, &size); } else { db_->GetApproximateSizes(handles_[1], &r, 1, &size); } return size; } void DBTestBase::Compact(int cf, const Slice& start, const Slice& limit, uint32_t target_path_id) { CompactRangeOptions compact_options; compact_options.target_path_id = target_path_id; ASSERT_OK(db_->CompactRange(compact_options, handles_[cf], &start, &limit)); } void DBTestBase::Compact(int cf, const Slice& start, const Slice& limit) { ASSERT_OK( db_->CompactRange(CompactRangeOptions(), handles_[cf], &start, &limit)); } void DBTestBase::Compact(const Slice& start, const Slice& limit) { ASSERT_OK(db_->CompactRange(CompactRangeOptions(), &start, &limit)); } // Do n memtable compactions, each of which produces an sstable // covering the range [small,large]. void DBTestBase::MakeTables(int n, const std::string& small, const std::string& large, int cf) { for (int i = 0; i < n; i++) { ASSERT_OK(Put(cf, small, "begin")); ASSERT_OK(Put(cf, large, "end")); ASSERT_OK(Flush(cf)); MoveFilesToLevel(n - i - 1, cf); } } // Prevent pushing of new sstables into deeper levels by adding // tables that cover a specified range to all levels. void DBTestBase::FillLevels(const std::string& smallest, const std::string& largest, int cf) { MakeTables(db_->NumberLevels(handles_[cf]), smallest, largest, cf); } void DBTestBase::MoveFilesToLevel(int level, int cf) { for (int l = 0; l < level; ++l) { if (cf > 0) { dbfull()->TEST_CompactRange(l, nullptr, nullptr, handles_[cf]); } else { dbfull()->TEST_CompactRange(l, nullptr, nullptr); } } } #ifndef ROCKSDB_LITE void DBTestBase::DumpFileCounts(const char* label) { fprintf(stderr, "---\n%s:\n", label); fprintf(stderr, "maxoverlap: %" PRIu64 "\n", dbfull()->TEST_MaxNextLevelOverlappingBytes()); for (int level = 0; level < db_->NumberLevels(); level++) { int num = NumTableFilesAtLevel(level); if (num > 0) { fprintf(stderr, " level %3d : %d files\n", level, num); } } } #endif // !ROCKSDB_LITE std::string DBTestBase::DumpSSTableList() { std::string property; db_->GetProperty("rocksdb.sstables", &property); return property; } void DBTestBase::GetSstFiles(Env* env, std::string path, std::vector* files) { env->GetChildren(path, files); files->erase( std::remove_if(files->begin(), files->end(), [](std::string name) { uint64_t number; FileType type; return !(ParseFileName(name, &number, &type) && type == kTableFile); }), files->end()); } int DBTestBase::GetSstFileCount(std::string path) { std::vector files; DBTestBase::GetSstFiles(env_, path, &files); return static_cast(files.size()); } // this will generate non-overlapping files since it keeps increasing key_idx void DBTestBase::GenerateNewFile(int cf, Random* rnd, int* key_idx, bool nowait) { for (int i = 0; i < KNumKeysByGenerateNewFile; i++) { ASSERT_OK(Put(cf, Key(*key_idx), RandomString(rnd, (i == 99) ? 1 : 990))); (*key_idx)++; } if (!nowait) { dbfull()->TEST_WaitForFlushMemTable(); dbfull()->TEST_WaitForCompact(); } } // this will generate non-overlapping files since it keeps increasing key_idx void DBTestBase::GenerateNewFile(Random* rnd, int* key_idx, bool nowait) { for (int i = 0; i < KNumKeysByGenerateNewFile; i++) { ASSERT_OK(Put(Key(*key_idx), RandomString(rnd, (i == 99) ? 1 : 990))); (*key_idx)++; } if (!nowait) { dbfull()->TEST_WaitForFlushMemTable(); dbfull()->TEST_WaitForCompact(); } } const int DBTestBase::kNumKeysByGenerateNewRandomFile = 51; void DBTestBase::GenerateNewRandomFile(Random* rnd, bool nowait) { for (int i = 0; i < kNumKeysByGenerateNewRandomFile; i++) { ASSERT_OK(Put("key" + RandomString(rnd, 7), RandomString(rnd, 2000))); } ASSERT_OK(Put("key" + RandomString(rnd, 7), RandomString(rnd, 200))); if (!nowait) { dbfull()->TEST_WaitForFlushMemTable(); dbfull()->TEST_WaitForCompact(); } } std::string DBTestBase::IterStatus(Iterator* iter) { std::string result; if (iter->Valid()) { result = iter->key().ToString() + "->" + iter->value().ToString(); } else { result = "(invalid)"; } return result; } Options DBTestBase::OptionsForLogIterTest() { Options options = CurrentOptions(); options.create_if_missing = true; options.WAL_ttl_seconds = 1000; return options; } std::string DBTestBase::DummyString(size_t len, char c) { return std::string(len, c); } void DBTestBase::VerifyIterLast(std::string expected_key, int cf) { Iterator* iter; ReadOptions ro; if (cf == 0) { iter = db_->NewIterator(ro); } else { iter = db_->NewIterator(ro, handles_[cf]); } iter->SeekToLast(); ASSERT_EQ(IterStatus(iter), expected_key); delete iter; } // Used to test InplaceUpdate // If previous value is nullptr or delta is > than previous value, // sets newValue with delta // If previous value is not empty, // updates previous value with 'b' string of previous value size - 1. UpdateStatus DBTestBase::updateInPlaceSmallerSize(char* prevValue, uint32_t* prevSize, Slice delta, std::string* newValue) { if (prevValue == nullptr) { *newValue = std::string(delta.size(), 'c'); return UpdateStatus::UPDATED; } else { *prevSize = *prevSize - 1; std::string str_b = std::string(*prevSize, 'b'); memcpy(prevValue, str_b.c_str(), str_b.size()); return UpdateStatus::UPDATED_INPLACE; } } UpdateStatus DBTestBase::updateInPlaceSmallerVarintSize(char* prevValue, uint32_t* prevSize, Slice delta, std::string* newValue) { if (prevValue == nullptr) { *newValue = std::string(delta.size(), 'c'); return UpdateStatus::UPDATED; } else { *prevSize = 1; std::string str_b = std::string(*prevSize, 'b'); memcpy(prevValue, str_b.c_str(), str_b.size()); return UpdateStatus::UPDATED_INPLACE; } } UpdateStatus DBTestBase::updateInPlaceLargerSize(char* /*prevValue*/, uint32_t* /*prevSize*/, Slice delta, std::string* newValue) { *newValue = std::string(delta.size(), 'c'); return UpdateStatus::UPDATED; } UpdateStatus DBTestBase::updateInPlaceNoAction(char* /*prevValue*/, uint32_t* /*prevSize*/, Slice /*delta*/, std::string* /*newValue*/) { return UpdateStatus::UPDATE_FAILED; } // Utility method to test InplaceUpdate void DBTestBase::validateNumberOfEntries(int numValues, int cf) { Arena arena; auto options = CurrentOptions(); InternalKeyComparator icmp(options.comparator); RangeDelAggregator range_del_agg(icmp, {} /* snapshots */); // This should be defined after range_del_agg so that it destructs the // assigned iterator before it range_del_agg is already destructed. ScopedArenaIterator iter; if (cf != 0) { iter.set( dbfull()->NewInternalIterator(&arena, &range_del_agg, handles_[cf])); } else { iter.set(dbfull()->NewInternalIterator(&arena, &range_del_agg)); } iter->SeekToFirst(); ASSERT_EQ(iter->status().ok(), true); int seq = numValues; while (iter->Valid()) { ParsedInternalKey ikey; ikey.clear(); ASSERT_EQ(ParseInternalKey(iter->key(), &ikey), true); // checks sequence number for updates ASSERT_EQ(ikey.sequence, (unsigned)seq--); iter->Next(); } ASSERT_EQ(0, seq); } void DBTestBase::CopyFile(const std::string& source, const std::string& destination, uint64_t size) { const EnvOptions soptions; unique_ptr srcfile; ASSERT_OK(env_->NewSequentialFile(source, &srcfile, soptions)); unique_ptr destfile; ASSERT_OK(env_->NewWritableFile(destination, &destfile, soptions)); if (size == 0) { // default argument means copy everything ASSERT_OK(env_->GetFileSize(source, &size)); } char buffer[4096]; Slice slice; while (size > 0) { uint64_t one = std::min(uint64_t(sizeof(buffer)), size); ASSERT_OK(srcfile->Read(one, &slice, buffer)); ASSERT_OK(destfile->Append(slice)); size -= slice.size(); } ASSERT_OK(destfile->Close()); } std::unordered_map DBTestBase::GetAllSSTFiles( uint64_t* total_size) { std::unordered_map res; if (total_size) { *total_size = 0; } std::vector files; env_->GetChildren(dbname_, &files); for (auto& file_name : files) { uint64_t number; FileType type; std::string file_path = dbname_ + "/" + file_name; if (ParseFileName(file_name, &number, &type) && type == kTableFile) { uint64_t file_size = 0; env_->GetFileSize(file_path, &file_size); res[file_path] = file_size; if (total_size) { *total_size += file_size; } } } return res; } std::vector DBTestBase::ListTableFiles(Env* env, const std::string& path) { std::vector files; std::vector file_numbers; env->GetChildren(path, &files); uint64_t number; FileType type; for (size_t i = 0; i < files.size(); ++i) { if (ParseFileName(files[i], &number, &type)) { if (type == kTableFile) { file_numbers.push_back(number); } } } return file_numbers; } void DBTestBase::VerifyDBFromMap(std::map true_data, size_t* total_reads_res, bool tailing_iter, std::map status) { size_t total_reads = 0; for (auto& kv : true_data) { Status s = status[kv.first]; if (s.ok()) { ASSERT_EQ(Get(kv.first), kv.second); } else { std::string value; ASSERT_EQ(s, db_->Get(ReadOptions(), kv.first, &value)); } total_reads++; } // Normal Iterator { int iter_cnt = 0; ReadOptions ro; ro.total_order_seek = true; Iterator* iter = db_->NewIterator(ro); // Verify Iterator::Next() iter_cnt = 0; auto data_iter = true_data.begin(); Status s; for (iter->SeekToFirst(); iter->Valid(); iter->Next(), data_iter++) { ASSERT_EQ(iter->key().ToString(), data_iter->first); Status current_status = status[data_iter->first]; if (!current_status.ok()) { s = current_status; } ASSERT_EQ(iter->status(), s); if (current_status.ok()) { ASSERT_EQ(iter->value().ToString(), data_iter->second); } iter_cnt++; total_reads++; } ASSERT_EQ(data_iter, true_data.end()) << iter_cnt << " / " << true_data.size(); delete iter; // Verify Iterator::Prev() // Use a new iterator to make sure its status is clean. iter = db_->NewIterator(ro); iter_cnt = 0; s = Status::OK(); auto data_rev = true_data.rbegin(); for (iter->SeekToLast(); iter->Valid(); iter->Prev(), data_rev++) { ASSERT_EQ(iter->key().ToString(), data_rev->first); Status current_status = status[data_rev->first]; if (!current_status.ok()) { s = current_status; } ASSERT_EQ(iter->status(), s); if (current_status.ok()) { ASSERT_EQ(iter->value().ToString(), data_rev->second); } iter_cnt++; total_reads++; } ASSERT_EQ(data_rev, true_data.rend()) << iter_cnt << " / " << true_data.size(); // Verify Iterator::Seek() for (auto kv : true_data) { iter->Seek(kv.first); ASSERT_EQ(kv.first, iter->key().ToString()); ASSERT_EQ(kv.second, iter->value().ToString()); total_reads++; } delete iter; } if (tailing_iter) { #ifndef ROCKSDB_LITE // Tailing iterator int iter_cnt = 0; ReadOptions ro; ro.tailing = true; ro.total_order_seek = true; Iterator* iter = db_->NewIterator(ro); // Verify ForwardIterator::Next() iter_cnt = 0; auto data_iter = true_data.begin(); for (iter->SeekToFirst(); iter->Valid(); iter->Next(), data_iter++) { ASSERT_EQ(iter->key().ToString(), data_iter->first); ASSERT_EQ(iter->value().ToString(), data_iter->second); iter_cnt++; total_reads++; } ASSERT_EQ(data_iter, true_data.end()) << iter_cnt << " / " << true_data.size(); // Verify ForwardIterator::Seek() for (auto kv : true_data) { iter->Seek(kv.first); ASSERT_EQ(kv.first, iter->key().ToString()); ASSERT_EQ(kv.second, iter->value().ToString()); total_reads++; } delete iter; #endif // ROCKSDB_LITE } if (total_reads_res) { *total_reads_res = total_reads; } } void DBTestBase::VerifyDBInternal( std::vector> true_data) { Arena arena; InternalKeyComparator icmp(last_options_.comparator); RangeDelAggregator range_del_agg(icmp, {}); auto iter = dbfull()->NewInternalIterator(&arena, &range_del_agg); iter->SeekToFirst(); for (auto p : true_data) { ASSERT_TRUE(iter->Valid()); ParsedInternalKey ikey; ASSERT_TRUE(ParseInternalKey(iter->key(), &ikey)); ASSERT_EQ(p.first, ikey.user_key); ASSERT_EQ(p.second, iter->value()); iter->Next(); }; ASSERT_FALSE(iter->Valid()); iter->~InternalIterator(); } #ifndef ROCKSDB_LITE uint64_t DBTestBase::GetNumberOfSstFilesForColumnFamily( DB* db, std::string column_family_name) { std::vector metadata; db->GetLiveFilesMetaData(&metadata); uint64_t result = 0; for (auto& fileMetadata : metadata) { result += (fileMetadata.column_family_name == column_family_name); } return result; } #endif // ROCKSDB_LITE } // namespace rocksdb rocksdb-5.17.2/db/db_test_util.h000066400000000000000000000757701337235545400165070ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #ifndef __STDC_FORMAT_MACROS #define __STDC_FORMAT_MACROS #endif #include #include #include #include #include #include #include #include #include #include #include "db/db_impl.h" #include "db/dbformat.h" #include "env/mock_env.h" #include "memtable/hash_linklist_rep.h" #include "rocksdb/cache.h" #include "rocksdb/compaction_filter.h" #include "rocksdb/convenience.h" #include "rocksdb/db.h" #include "rocksdb/env.h" #include "rocksdb/filter_policy.h" #include "rocksdb/options.h" #include "rocksdb/slice.h" #include "rocksdb/sst_file_writer.h" #include "rocksdb/statistics.h" #include "rocksdb/table.h" #include "rocksdb/utilities/checkpoint.h" #include "table/block_based_table_factory.h" #include "table/mock_table.h" #include "table/plain_table_factory.h" #include "table/scoped_arena_iterator.h" #include "util/compression.h" #include "util/filename.h" #include "util/mutexlock.h" #include "util/string_util.h" #include "util/sync_point.h" #include "util/testharness.h" #include "util/testutil.h" #include "utilities/merge_operators.h" namespace rocksdb { namespace anon { class AtomicCounter { public: explicit AtomicCounter(Env* env = NULL) : env_(env), cond_count_(&mu_), count_(0) {} void Increment() { MutexLock l(&mu_); count_++; cond_count_.SignalAll(); } int Read() { MutexLock l(&mu_); return count_; } bool WaitFor(int count) { MutexLock l(&mu_); uint64_t start = env_->NowMicros(); while (count_ < count) { uint64_t now = env_->NowMicros(); cond_count_.TimedWait(now + /*1s*/ 1 * 1000 * 1000); if (env_->NowMicros() - start > /*10s*/ 10 * 1000 * 1000) { return false; } if (count_ < count) { GTEST_LOG_(WARNING) << "WaitFor is taking more time than usual"; } } return true; } void Reset() { MutexLock l(&mu_); count_ = 0; cond_count_.SignalAll(); } private: Env* env_; port::Mutex mu_; port::CondVar cond_count_; int count_; }; struct OptionsOverride { std::shared_ptr filter_policy = nullptr; // These will be used only if filter_policy is set bool partition_filters = false; uint64_t metadata_block_size = 1024; // Used as a bit mask of individual enums in which to skip an XF test point int skip_policy = 0; }; } // namespace anon enum SkipPolicy { kSkipNone = 0, kSkipNoSnapshot = 1, kSkipNoPrefix = 2 }; // A hacky skip list mem table that triggers flush after number of entries. class SpecialMemTableRep : public MemTableRep { public: explicit SpecialMemTableRep(Allocator* allocator, MemTableRep* memtable, int num_entries_flush) : MemTableRep(allocator), memtable_(memtable), num_entries_flush_(num_entries_flush), num_entries_(0) {} virtual KeyHandle Allocate(const size_t len, char** buf) override { return memtable_->Allocate(len, buf); } // Insert key into the list. // REQUIRES: nothing that compares equal to key is currently in the list. virtual void Insert(KeyHandle handle) override { num_entries_++; memtable_->Insert(handle); } // Returns true iff an entry that compares equal to key is in the list. virtual bool Contains(const char* key) const override { return memtable_->Contains(key); } virtual size_t ApproximateMemoryUsage() override { // Return a high memory usage when number of entries exceeds the threshold // to trigger a flush. return (num_entries_ < num_entries_flush_) ? 0 : 1024 * 1024 * 1024; } virtual void Get(const LookupKey& k, void* callback_args, bool (*callback_func)(void* arg, const char* entry)) override { memtable_->Get(k, callback_args, callback_func); } uint64_t ApproximateNumEntries(const Slice& start_ikey, const Slice& end_ikey) override { return memtable_->ApproximateNumEntries(start_ikey, end_ikey); } virtual MemTableRep::Iterator* GetIterator(Arena* arena = nullptr) override { return memtable_->GetIterator(arena); } virtual ~SpecialMemTableRep() override {} private: unique_ptr memtable_; int num_entries_flush_; int num_entries_; }; // The factory for the hacky skip list mem table that triggers flush after // number of entries exceeds a threshold. class SpecialSkipListFactory : public MemTableRepFactory { public: // After number of inserts exceeds `num_entries_flush` in a mem table, trigger // flush. explicit SpecialSkipListFactory(int num_entries_flush) : num_entries_flush_(num_entries_flush) {} using MemTableRepFactory::CreateMemTableRep; virtual MemTableRep* CreateMemTableRep( const MemTableRep::KeyComparator& compare, Allocator* allocator, const SliceTransform* transform, Logger* /*logger*/) override { return new SpecialMemTableRep( allocator, factory_.CreateMemTableRep(compare, allocator, transform, 0), num_entries_flush_); } virtual const char* Name() const override { return "SkipListFactory"; } bool IsInsertConcurrentlySupported() const override { return factory_.IsInsertConcurrentlySupported(); } private: SkipListFactory factory_; int num_entries_flush_; }; // Special Env used to delay background operations class SpecialEnv : public EnvWrapper { public: explicit SpecialEnv(Env* base); Status NewWritableFile(const std::string& f, unique_ptr* r, const EnvOptions& soptions) override { class SSTableFile : public WritableFile { private: SpecialEnv* env_; unique_ptr base_; public: SSTableFile(SpecialEnv* env, unique_ptr&& base) : env_(env), base_(std::move(base)) {} Status Append(const Slice& data) override { if (env_->table_write_callback_) { (*env_->table_write_callback_)(); } if (env_->drop_writes_.load(std::memory_order_acquire)) { // Drop writes on the floor return Status::OK(); } else if (env_->no_space_.load(std::memory_order_acquire)) { return Status::NoSpace("No space left on device"); } else { env_->bytes_written_ += data.size(); return base_->Append(data); } } Status PositionedAppend(const Slice& data, uint64_t offset) override { if (env_->table_write_callback_) { (*env_->table_write_callback_)(); } if (env_->drop_writes_.load(std::memory_order_acquire)) { // Drop writes on the floor return Status::OK(); } else if (env_->no_space_.load(std::memory_order_acquire)) { return Status::NoSpace("No space left on device"); } else { env_->bytes_written_ += data.size(); return base_->PositionedAppend(data, offset); } } Status Truncate(uint64_t size) override { return base_->Truncate(size); } Status RangeSync(uint64_t offset, uint64_t nbytes) override { Status s = base_->RangeSync(offset, nbytes); #if !(defined NDEBUG) || !defined(OS_WIN) TEST_SYNC_POINT_CALLBACK("SpecialEnv::SStableFile::RangeSync", &s); #endif // !(defined NDEBUG) || !defined(OS_WIN) return s; } Status Close() override { // SyncPoint is not supported in Released Windows Mode. #if !(defined NDEBUG) || !defined(OS_WIN) // Check preallocation size // preallocation size is never passed to base file. size_t preallocation_size = preallocation_block_size(); TEST_SYNC_POINT_CALLBACK("DBTestWritableFile.GetPreallocationStatus", &preallocation_size); #endif // !(defined NDEBUG) || !defined(OS_WIN) Status s = base_->Close(); #if !(defined NDEBUG) || !defined(OS_WIN) TEST_SYNC_POINT_CALLBACK("SpecialEnv::SStableFile::Close", &s); #endif // !(defined NDEBUG) || !defined(OS_WIN) return s; } Status Flush() override { return base_->Flush(); } Status Sync() override { ++env_->sync_counter_; while (env_->delay_sstable_sync_.load(std::memory_order_acquire)) { env_->SleepForMicroseconds(100000); } Status s = base_->Sync(); #if !(defined NDEBUG) || !defined(OS_WIN) TEST_SYNC_POINT_CALLBACK("SpecialEnv::SStableFile::Sync", &s); #endif // !(defined NDEBUG) || !defined(OS_WIN) return s; } void SetIOPriority(Env::IOPriority pri) override { base_->SetIOPriority(pri); } Env::IOPriority GetIOPriority() override { return base_->GetIOPriority(); } bool use_direct_io() const override { return base_->use_direct_io(); } Status Allocate(uint64_t offset, uint64_t len) override { return base_->Allocate(offset, len); } }; class ManifestFile : public WritableFile { public: ManifestFile(SpecialEnv* env, unique_ptr&& b) : env_(env), base_(std::move(b)) {} Status Append(const Slice& data) override { if (env_->manifest_write_error_.load(std::memory_order_acquire)) { return Status::IOError("simulated writer error"); } else { return base_->Append(data); } } Status Truncate(uint64_t size) override { return base_->Truncate(size); } Status Close() override { return base_->Close(); } Status Flush() override { return base_->Flush(); } Status Sync() override { ++env_->sync_counter_; if (env_->manifest_sync_error_.load(std::memory_order_acquire)) { return Status::IOError("simulated sync error"); } else { return base_->Sync(); } } uint64_t GetFileSize() override { return base_->GetFileSize(); } Status Allocate(uint64_t offset, uint64_t len) override { return base_->Allocate(offset, len); } private: SpecialEnv* env_; unique_ptr base_; }; class WalFile : public WritableFile { public: WalFile(SpecialEnv* env, unique_ptr&& b) : env_(env), base_(std::move(b)) { env_->num_open_wal_file_.fetch_add(1); } virtual ~WalFile() { env_->num_open_wal_file_.fetch_add(-1); } Status Append(const Slice& data) override { #if !(defined NDEBUG) || !defined(OS_WIN) TEST_SYNC_POINT("SpecialEnv::WalFile::Append:1"); #endif Status s; if (env_->log_write_error_.load(std::memory_order_acquire)) { s = Status::IOError("simulated writer error"); } else { int slowdown = env_->log_write_slowdown_.load(std::memory_order_acquire); if (slowdown > 0) { env_->SleepForMicroseconds(slowdown); } s = base_->Append(data); } #if !(defined NDEBUG) || !defined(OS_WIN) TEST_SYNC_POINT("SpecialEnv::WalFile::Append:2"); #endif return s; } Status Truncate(uint64_t size) override { return base_->Truncate(size); } Status Close() override { // SyncPoint is not supported in Released Windows Mode. #if !(defined NDEBUG) || !defined(OS_WIN) // Check preallocation size // preallocation size is never passed to base file. size_t preallocation_size = preallocation_block_size(); TEST_SYNC_POINT_CALLBACK("DBTestWalFile.GetPreallocationStatus", &preallocation_size); #endif // !(defined NDEBUG) || !defined(OS_WIN) return base_->Close(); } Status Flush() override { return base_->Flush(); } Status Sync() override { ++env_->sync_counter_; return base_->Sync(); } bool IsSyncThreadSafe() const override { return env_->is_wal_sync_thread_safe_.load(); } Status Allocate(uint64_t offset, uint64_t len) override { return base_->Allocate(offset, len); } private: SpecialEnv* env_; unique_ptr base_; }; if (non_writeable_rate_.load(std::memory_order_acquire) > 0) { uint32_t random_number; { MutexLock l(&rnd_mutex_); random_number = rnd_.Uniform(100); } if (random_number < non_writeable_rate_.load()) { return Status::IOError("simulated random write error"); } } new_writable_count_++; if (non_writable_count_.load() > 0) { non_writable_count_--; return Status::IOError("simulated write error"); } EnvOptions optimized = soptions; if (strstr(f.c_str(), "MANIFEST") != nullptr || strstr(f.c_str(), "log") != nullptr) { optimized.use_mmap_writes = false; optimized.use_direct_writes = false; } Status s = target()->NewWritableFile(f, r, optimized); if (s.ok()) { if (strstr(f.c_str(), ".sst") != nullptr) { r->reset(new SSTableFile(this, std::move(*r))); } else if (strstr(f.c_str(), "MANIFEST") != nullptr) { r->reset(new ManifestFile(this, std::move(*r))); } else if (strstr(f.c_str(), "log") != nullptr) { r->reset(new WalFile(this, std::move(*r))); } } return s; } Status NewRandomAccessFile(const std::string& f, unique_ptr* r, const EnvOptions& soptions) override { class CountingFile : public RandomAccessFile { public: CountingFile(unique_ptr&& target, anon::AtomicCounter* counter, std::atomic* bytes_read) : target_(std::move(target)), counter_(counter), bytes_read_(bytes_read) {} virtual Status Read(uint64_t offset, size_t n, Slice* result, char* scratch) const override { counter_->Increment(); Status s = target_->Read(offset, n, result, scratch); *bytes_read_ += result->size(); return s; } private: unique_ptr target_; anon::AtomicCounter* counter_; std::atomic* bytes_read_; }; Status s = target()->NewRandomAccessFile(f, r, soptions); random_file_open_counter_++; if (s.ok() && count_random_reads_) { r->reset(new CountingFile(std::move(*r), &random_read_counter_, &random_read_bytes_counter_)); } if (s.ok() && soptions.compaction_readahead_size > 0) { compaction_readahead_size_ = soptions.compaction_readahead_size; } return s; } virtual Status NewSequentialFile(const std::string& f, unique_ptr* r, const EnvOptions& soptions) override { class CountingFile : public SequentialFile { public: CountingFile(unique_ptr&& target, anon::AtomicCounter* counter) : target_(std::move(target)), counter_(counter) {} virtual Status Read(size_t n, Slice* result, char* scratch) override { counter_->Increment(); return target_->Read(n, result, scratch); } virtual Status Skip(uint64_t n) override { return target_->Skip(n); } private: unique_ptr target_; anon::AtomicCounter* counter_; }; Status s = target()->NewSequentialFile(f, r, soptions); if (s.ok() && count_sequential_reads_) { r->reset(new CountingFile(std::move(*r), &sequential_read_counter_)); } return s; } virtual void SleepForMicroseconds(int micros) override { sleep_counter_.Increment(); if (no_slowdown_ || time_elapse_only_sleep_) { addon_time_.fetch_add(micros); } if (!no_slowdown_) { target()->SleepForMicroseconds(micros); } } virtual Status GetCurrentTime(int64_t* unix_time) override { Status s; if (!time_elapse_only_sleep_) { s = target()->GetCurrentTime(unix_time); } if (s.ok()) { *unix_time += addon_time_.load(); } return s; } virtual uint64_t NowNanos() override { return (time_elapse_only_sleep_ ? 0 : target()->NowNanos()) + addon_time_.load() * 1000; } virtual uint64_t NowMicros() override { return (time_elapse_only_sleep_ ? 0 : target()->NowMicros()) + addon_time_.load(); } virtual Status DeleteFile(const std::string& fname) override { delete_count_.fetch_add(1); return target()->DeleteFile(fname); } Random rnd_; port::Mutex rnd_mutex_; // Lock to pretect rnd_ // sstable Sync() calls are blocked while this pointer is non-nullptr. std::atomic delay_sstable_sync_; // Drop writes on the floor while this pointer is non-nullptr. std::atomic drop_writes_; // Simulate no-space errors while this pointer is non-nullptr. std::atomic no_space_; // Simulate non-writable file system while this pointer is non-nullptr std::atomic non_writable_; // Force sync of manifest files to fail while this pointer is non-nullptr std::atomic manifest_sync_error_; // Force write to manifest files to fail while this pointer is non-nullptr std::atomic manifest_write_error_; // Force write to log files to fail while this pointer is non-nullptr std::atomic log_write_error_; // Slow down every log write, in micro-seconds. std::atomic log_write_slowdown_; // Number of WAL files that are still open for write. std::atomic num_open_wal_file_; bool count_random_reads_; anon::AtomicCounter random_read_counter_; std::atomic random_read_bytes_counter_; std::atomic random_file_open_counter_; bool count_sequential_reads_; anon::AtomicCounter sequential_read_counter_; anon::AtomicCounter sleep_counter_; std::atomic bytes_written_; std::atomic sync_counter_; std::atomic non_writeable_rate_; std::atomic new_writable_count_; std::atomic non_writable_count_; std::function* table_write_callback_; std::atomic addon_time_; std::atomic delete_count_; bool time_elapse_only_sleep_; bool no_slowdown_; std::atomic is_wal_sync_thread_safe_{true}; std::atomic compaction_readahead_size_{}; }; class MockTimeEnv : public EnvWrapper { public: explicit MockTimeEnv(Env* base) : EnvWrapper(base) {} virtual Status GetCurrentTime(int64_t* time) override { assert(time != nullptr); assert(current_time_ <= static_cast(std::numeric_limits::max())); *time = static_cast(current_time_); return Status::OK(); } virtual uint64_t NowMicros() override { assert(current_time_ <= std::numeric_limits::max() / 1000000); return current_time_ * 1000000; } virtual uint64_t NowNanos() override { assert(current_time_ <= std::numeric_limits::max() / 1000000000); return current_time_ * 1000000000; } void set_current_time(uint64_t time) { assert(time >= current_time_); current_time_ = time; } private: std::atomic current_time_{0}; }; #ifndef ROCKSDB_LITE class OnFileDeletionListener : public EventListener { public: OnFileDeletionListener() : matched_count_(0), expected_file_name_("") {} void SetExpectedFileName(const std::string file_name) { expected_file_name_ = file_name; } void VerifyMatchedCount(size_t expected_value) { ASSERT_EQ(matched_count_, expected_value); } void OnTableFileDeleted(const TableFileDeletionInfo& info) override { if (expected_file_name_ != "") { ASSERT_EQ(expected_file_name_, info.file_path); expected_file_name_ = ""; matched_count_++; } } private: size_t matched_count_; std::string expected_file_name_; }; #endif // A test merge operator mimics put but also fails if one of merge operands is // "corrupted". class TestPutOperator : public MergeOperator { public: virtual bool FullMergeV2(const MergeOperationInput& merge_in, MergeOperationOutput* merge_out) const override { if (merge_in.existing_value != nullptr && *(merge_in.existing_value) == "corrupted") { return false; } for (auto value : merge_in.operand_list) { if (value == "corrupted") { return false; } } merge_out->existing_operand = merge_in.operand_list.back(); return true; } virtual const char* Name() const override { return "TestPutOperator"; } }; class DBTestBase : public testing::Test { public: // Sequence of option configurations to try enum OptionConfig : int { kDefault = 0, kBlockBasedTableWithPrefixHashIndex = 1, kBlockBasedTableWithWholeKeyHashIndex = 2, kPlainTableFirstBytePrefix = 3, kPlainTableCappedPrefix = 4, kPlainTableCappedPrefixNonMmap = 5, kPlainTableAllBytesPrefix = 6, kVectorRep = 7, kHashLinkList = 8, kHashCuckoo = 9, kMergePut = 10, kFilter = 11, kFullFilterWithNewTableReaderForCompactions = 12, kUncompressed = 13, kNumLevel_3 = 14, kDBLogDir = 15, kWalDirAndMmapReads = 16, kManifestFileSize = 17, kPerfOptions = 18, kHashSkipList = 19, kUniversalCompaction = 20, kUniversalCompactionMultiLevel = 21, kCompressedBlockCache = 22, kInfiniteMaxOpenFiles = 23, kxxHashChecksum = 24, kFIFOCompaction = 25, kOptimizeFiltersForHits = 26, kRowCache = 27, kRecycleLogFiles = 28, kConcurrentSkipList = 29, kPipelinedWrite = 30, kConcurrentWALWrites = 31, kDirectIO, kLevelSubcompactions, kBlockBasedTableWithIndexRestartInterval, kBlockBasedTableWithPartitionedIndex, kBlockBasedTableWithPartitionedIndexFormat4, kPartitionedFilterWithNewTableReaderForCompactions, kUniversalSubcompactions, // This must be the last line kEnd, }; public: std::string dbname_; std::string alternative_wal_dir_; std::string alternative_db_log_dir_; MockEnv* mem_env_; Env* encrypted_env_; SpecialEnv* env_; DB* db_; std::vector handles_; int option_config_; Options last_options_; // Skip some options, as they may not be applicable to a specific test. // To add more skip constants, use values 4, 8, 16, etc. enum OptionSkip { kNoSkip = 0, kSkipDeletesFilterFirst = 1, kSkipUniversalCompaction = 2, kSkipMergePut = 4, kSkipPlainTable = 8, kSkipHashIndex = 16, kSkipNoSeekToLast = 32, kSkipHashCuckoo = 64, kSkipFIFOCompaction = 128, kSkipMmapReads = 256, }; const int kRangeDelSkipConfigs = // Plain tables do not support range deletions. kSkipPlainTable | // MmapReads disables the iterator pinning that RangeDelAggregator // requires. kSkipMmapReads; explicit DBTestBase(const std::string path); ~DBTestBase(); static std::string RandomString(Random* rnd, int len) { std::string r; test::RandomString(rnd, len, &r); return r; } static std::string Key(int i) { char buf[100]; snprintf(buf, sizeof(buf), "key%06d", i); return std::string(buf); } static bool ShouldSkipOptions(int option_config, int skip_mask = kNoSkip); // Switch to a fresh database with the next option configuration to // test. Return false if there are no more configurations to test. bool ChangeOptions(int skip_mask = kNoSkip); // Switch between different compaction styles. bool ChangeCompactOptions(); // Switch between different WAL-realted options. bool ChangeWalOptions(); // Switch between different filter policy // Jump from kDefault to kFilter to kFullFilter bool ChangeFilterOptions(); // Return the current option configuration. Options CurrentOptions(const anon::OptionsOverride& options_override = anon::OptionsOverride()) const; Options CurrentOptions(const Options& default_options, const anon::OptionsOverride& options_override = anon::OptionsOverride()) const; static Options GetDefaultOptions(); Options GetOptions(int option_config, const Options& default_options = GetDefaultOptions(), const anon::OptionsOverride& options_override = anon::OptionsOverride()) const; DBImpl* dbfull() { return reinterpret_cast(db_); } void CreateColumnFamilies(const std::vector& cfs, const Options& options); void CreateAndReopenWithCF(const std::vector& cfs, const Options& options); void ReopenWithColumnFamilies(const std::vector& cfs, const std::vector& options); void ReopenWithColumnFamilies(const std::vector& cfs, const Options& options); Status TryReopenWithColumnFamilies(const std::vector& cfs, const std::vector& options); Status TryReopenWithColumnFamilies(const std::vector& cfs, const Options& options); void Reopen(const Options& options); void Close(); void DestroyAndReopen(const Options& options); void Destroy(const Options& options, bool delete_cf_paths = false); Status ReadOnlyReopen(const Options& options); Status TryReopen(const Options& options); bool IsDirectIOSupported(); bool IsMemoryMappedAccessSupported() const; Status Flush(int cf = 0); Status Put(const Slice& k, const Slice& v, WriteOptions wo = WriteOptions()); Status Put(int cf, const Slice& k, const Slice& v, WriteOptions wo = WriteOptions()); Status Merge(const Slice& k, const Slice& v, WriteOptions wo = WriteOptions()); Status Merge(int cf, const Slice& k, const Slice& v, WriteOptions wo = WriteOptions()); Status Delete(const std::string& k); Status Delete(int cf, const std::string& k); Status SingleDelete(const std::string& k); Status SingleDelete(int cf, const std::string& k); bool SetPreserveDeletesSequenceNumber(SequenceNumber sn); std::string Get(const std::string& k, const Snapshot* snapshot = nullptr); std::string Get(int cf, const std::string& k, const Snapshot* snapshot = nullptr); Status Get(const std::string& k, PinnableSlice* v); uint64_t GetNumSnapshots(); uint64_t GetTimeOldestSnapshots(); // Return a string that contains all key,value pairs in order, // formatted like "(k1->v1)(k2->v2)". std::string Contents(int cf = 0); std::string AllEntriesFor(const Slice& user_key, int cf = 0); #ifndef ROCKSDB_LITE int NumSortedRuns(int cf = 0); uint64_t TotalSize(int cf = 0); uint64_t SizeAtLevel(int level); size_t TotalLiveFiles(int cf = 0); size_t CountLiveFiles(); int NumTableFilesAtLevel(int level, int cf = 0); double CompressionRatioAtLevel(int level, int cf = 0); int TotalTableFiles(int cf = 0, int levels = -1); #endif // ROCKSDB_LITE // Return spread of files per level std::string FilesPerLevel(int cf = 0); size_t CountFiles(); uint64_t Size(const Slice& start, const Slice& limit, int cf = 0); void Compact(int cf, const Slice& start, const Slice& limit, uint32_t target_path_id); void Compact(int cf, const Slice& start, const Slice& limit); void Compact(const Slice& start, const Slice& limit); // Do n memtable compactions, each of which produces an sstable // covering the range [small,large]. void MakeTables(int n, const std::string& small, const std::string& large, int cf = 0); // Prevent pushing of new sstables into deeper levels by adding // tables that cover a specified range to all levels. void FillLevels(const std::string& smallest, const std::string& largest, int cf); void MoveFilesToLevel(int level, int cf = 0); #ifndef ROCKSDB_LITE void DumpFileCounts(const char* label); #endif // ROCKSDB_LITE std::string DumpSSTableList(); static void GetSstFiles(Env* env, std::string path, std::vector* files); int GetSstFileCount(std::string path); // this will generate non-overlapping files since it keeps increasing key_idx void GenerateNewFile(Random* rnd, int* key_idx, bool nowait = false); void GenerateNewFile(int fd, Random* rnd, int* key_idx, bool nowait = false); static const int kNumKeysByGenerateNewRandomFile; static const int KNumKeysByGenerateNewFile = 100; void GenerateNewRandomFile(Random* rnd, bool nowait = false); std::string IterStatus(Iterator* iter); Options OptionsForLogIterTest(); std::string DummyString(size_t len, char c = 'a'); void VerifyIterLast(std::string expected_key, int cf = 0); // Used to test InplaceUpdate // If previous value is nullptr or delta is > than previous value, // sets newValue with delta // If previous value is not empty, // updates previous value with 'b' string of previous value size - 1. static UpdateStatus updateInPlaceSmallerSize(char* prevValue, uint32_t* prevSize, Slice delta, std::string* newValue); static UpdateStatus updateInPlaceSmallerVarintSize(char* prevValue, uint32_t* prevSize, Slice delta, std::string* newValue); static UpdateStatus updateInPlaceLargerSize(char* prevValue, uint32_t* prevSize, Slice delta, std::string* newValue); static UpdateStatus updateInPlaceNoAction(char* prevValue, uint32_t* prevSize, Slice delta, std::string* newValue); // Utility method to test InplaceUpdate void validateNumberOfEntries(int numValues, int cf = 0); void CopyFile(const std::string& source, const std::string& destination, uint64_t size = 0); std::unordered_map GetAllSSTFiles( uint64_t* total_size = nullptr); std::vector ListTableFiles(Env* env, const std::string& path); void VerifyDBFromMap( std::map true_data, size_t* total_reads_res = nullptr, bool tailing_iter = false, std::map status = std::map()); void VerifyDBInternal( std::vector> true_data); #ifndef ROCKSDB_LITE uint64_t GetNumberOfSstFilesForColumnFamily(DB* db, std::string column_family_name); #endif // ROCKSDB_LITE uint64_t TestGetTickerCount(const Options& options, Tickers ticker_type) { return options.statistics->getTickerCount(ticker_type); } }; } // namespace rocksdb rocksdb-5.17.2/db/db_universal_compaction_test.cc000066400000000000000000002241311337235545400220770ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "db/db_test_util.h" #include "port/stack_trace.h" #if !defined(ROCKSDB_LITE) #include "rocksdb/utilities/table_properties_collectors.h" #include "util/sync_point.h" namespace rocksdb { static std::string CompressibleString(Random* rnd, int len) { std::string r; test::CompressibleString(rnd, 0.8, len, &r); return r; } class DBTestUniversalCompactionBase : public DBTestBase, public ::testing::WithParamInterface> { public: explicit DBTestUniversalCompactionBase( const std::string& path) : DBTestBase(path) {} virtual void SetUp() override { num_levels_ = std::get<0>(GetParam()); exclusive_manual_compaction_ = std::get<1>(GetParam()); } int num_levels_; bool exclusive_manual_compaction_; }; class DBTestUniversalCompaction : public DBTestUniversalCompactionBase { public: DBTestUniversalCompaction() : DBTestUniversalCompactionBase("/db_universal_compaction_test") {} }; class DBTestUniversalDeleteTrigCompaction : public DBTestBase { public: DBTestUniversalDeleteTrigCompaction() : DBTestBase("/db_universal_compaction_test") {} }; namespace { void VerifyCompactionResult( const ColumnFamilyMetaData& cf_meta, const std::set& overlapping_file_numbers) { #ifndef NDEBUG for (auto& level : cf_meta.levels) { for (auto& file : level.files) { assert(overlapping_file_numbers.find(file.name) == overlapping_file_numbers.end()); } } #endif } class KeepFilter : public CompactionFilter { public: virtual bool Filter(int /*level*/, const Slice& /*key*/, const Slice& /*value*/, std::string* /*new_value*/, bool* /*value_changed*/) const override { return false; } virtual const char* Name() const override { return "KeepFilter"; } }; class KeepFilterFactory : public CompactionFilterFactory { public: explicit KeepFilterFactory(bool check_context = false) : check_context_(check_context) {} virtual std::unique_ptr CreateCompactionFilter( const CompactionFilter::Context& context) override { if (check_context_) { EXPECT_EQ(expect_full_compaction_.load(), context.is_full_compaction); EXPECT_EQ(expect_manual_compaction_.load(), context.is_manual_compaction); } return std::unique_ptr(new KeepFilter()); } virtual const char* Name() const override { return "KeepFilterFactory"; } bool check_context_; std::atomic_bool expect_full_compaction_; std::atomic_bool expect_manual_compaction_; }; class DelayFilter : public CompactionFilter { public: explicit DelayFilter(DBTestBase* d) : db_test(d) {} virtual bool Filter(int /*level*/, const Slice& /*key*/, const Slice& /*value*/, std::string* /*new_value*/, bool* /*value_changed*/) const override { db_test->env_->addon_time_.fetch_add(1000); return true; } virtual const char* Name() const override { return "DelayFilter"; } private: DBTestBase* db_test; }; class DelayFilterFactory : public CompactionFilterFactory { public: explicit DelayFilterFactory(DBTestBase* d) : db_test(d) {} virtual std::unique_ptr CreateCompactionFilter( const CompactionFilter::Context& /*context*/) override { return std::unique_ptr(new DelayFilter(db_test)); } virtual const char* Name() const override { return "DelayFilterFactory"; } private: DBTestBase* db_test; }; } // namespace // Make sure we don't trigger a problem if the trigger condtion is given // to be 0, which is invalid. TEST_P(DBTestUniversalCompaction, UniversalCompactionSingleSortedRun) { Options options = CurrentOptions(); options.compaction_style = kCompactionStyleUniversal; options.num_levels = num_levels_; // Config universal compaction to always compact to one single sorted run. options.level0_file_num_compaction_trigger = 0; options.compaction_options_universal.size_ratio = 10; options.compaction_options_universal.min_merge_width = 2; options.compaction_options_universal.max_size_amplification_percent = 0; options.write_buffer_size = 105 << 10; // 105KB options.arena_block_size = 4 << 10; options.target_file_size_base = 32 << 10; // 32KB // trigger compaction if there are >= 4 files KeepFilterFactory* filter = new KeepFilterFactory(true); filter->expect_manual_compaction_.store(false); options.compaction_filter_factory.reset(filter); DestroyAndReopen(options); ASSERT_EQ(1, db_->GetOptions().level0_file_num_compaction_trigger); Random rnd(301); int key_idx = 0; filter->expect_full_compaction_.store(true); for (int num = 0; num < 16; num++) { // Write 100KB file. And immediately it should be compacted to one file. GenerateNewFile(&rnd, &key_idx); dbfull()->TEST_WaitForCompact(); ASSERT_EQ(NumSortedRuns(0), 1); } ASSERT_OK(Put(Key(key_idx), "")); dbfull()->TEST_WaitForCompact(); ASSERT_EQ(NumSortedRuns(0), 1); } TEST_P(DBTestUniversalCompaction, OptimizeFiltersForHits) { Options options = CurrentOptions(); options.compaction_style = kCompactionStyleUniversal; options.compaction_options_universal.size_ratio = 5; options.num_levels = num_levels_; options.write_buffer_size = 105 << 10; // 105KB options.arena_block_size = 4 << 10; options.target_file_size_base = 32 << 10; // 32KB // trigger compaction if there are >= 4 files options.level0_file_num_compaction_trigger = 4; BlockBasedTableOptions bbto; bbto.cache_index_and_filter_blocks = true; bbto.filter_policy.reset(NewBloomFilterPolicy(10, false)); bbto.whole_key_filtering = true; options.table_factory.reset(NewBlockBasedTableFactory(bbto)); options.optimize_filters_for_hits = true; options.statistics = rocksdb::CreateDBStatistics(); options.memtable_factory.reset(new SpecialSkipListFactory(3)); DestroyAndReopen(options); // block compaction from happening env_->SetBackgroundThreads(1, Env::LOW); test::SleepingBackgroundTask sleeping_task_low; env_->Schedule(&test::SleepingBackgroundTask::DoSleepTask, &sleeping_task_low, Env::Priority::LOW); for (int num = 0; num < options.level0_file_num_compaction_trigger; num++) { Put(Key(num * 10), "val"); if (num) { dbfull()->TEST_WaitForFlushMemTable(); } Put(Key(30 + num * 10), "val"); Put(Key(60 + num * 10), "val"); } Put("", ""); dbfull()->TEST_WaitForFlushMemTable(); // Query set of non existing keys for (int i = 5; i < 90; i += 10) { ASSERT_EQ(Get(Key(i)), "NOT_FOUND"); } // Make sure bloom filter is used at least once. ASSERT_GT(TestGetTickerCount(options, BLOOM_FILTER_USEFUL), 0); auto prev_counter = TestGetTickerCount(options, BLOOM_FILTER_USEFUL); // Make sure bloom filter is used for all but the last L0 file when looking // up a non-existent key that's in the range of all L0 files. ASSERT_EQ(Get(Key(35)), "NOT_FOUND"); ASSERT_EQ(prev_counter + NumTableFilesAtLevel(0) - 1, TestGetTickerCount(options, BLOOM_FILTER_USEFUL)); prev_counter = TestGetTickerCount(options, BLOOM_FILTER_USEFUL); // Unblock compaction and wait it for happening. sleeping_task_low.WakeUp(); dbfull()->TEST_WaitForCompact(); // The same queries will not trigger bloom filter for (int i = 5; i < 90; i += 10) { ASSERT_EQ(Get(Key(i)), "NOT_FOUND"); } ASSERT_EQ(prev_counter, TestGetTickerCount(options, BLOOM_FILTER_USEFUL)); } // TODO(kailiu) The tests on UniversalCompaction has some issues: // 1. A lot of magic numbers ("11" or "12"). // 2. Made assumption on the memtable flush conditions, which may change from // time to time. TEST_P(DBTestUniversalCompaction, UniversalCompactionTrigger) { Options options; options.compaction_style = kCompactionStyleUniversal; options.compaction_options_universal.size_ratio = 5; options.num_levels = num_levels_; options.write_buffer_size = 105 << 10; // 105KB options.arena_block_size = 4 << 10; options.target_file_size_base = 32 << 10; // 32KB // trigger compaction if there are >= 4 files options.level0_file_num_compaction_trigger = 4; KeepFilterFactory* filter = new KeepFilterFactory(true); filter->expect_manual_compaction_.store(false); options.compaction_filter_factory.reset(filter); options = CurrentOptions(options); DestroyAndReopen(options); CreateAndReopenWithCF({"pikachu"}, options); rocksdb::SyncPoint::GetInstance()->SetCallBack( "DBTestWritableFile.GetPreallocationStatus", [&](void* arg) { ASSERT_TRUE(arg != nullptr); size_t preallocation_size = *(static_cast(arg)); if (num_levels_ > 3) { ASSERT_LE(preallocation_size, options.target_file_size_base * 1.1); } }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); Random rnd(301); int key_idx = 0; filter->expect_full_compaction_.store(true); // Stage 1: // Generate a set of files at level 0, but don't trigger level-0 // compaction. for (int num = 0; num < options.level0_file_num_compaction_trigger - 1; num++) { // Write 100KB GenerateNewFile(1, &rnd, &key_idx); } // Generate one more file at level-0, which should trigger level-0 // compaction. GenerateNewFile(1, &rnd, &key_idx); // Suppose each file flushed from mem table has size 1. Now we compact // (level0_file_num_compaction_trigger+1)=4 files and should have a big // file of size 4. ASSERT_EQ(NumSortedRuns(1), 1); // Stage 2: // Now we have one file at level 0, with size 4. We also have some data in // mem table. Let's continue generating new files at level 0, but don't // trigger level-0 compaction. // First, clean up memtable before inserting new data. This will generate // a level-0 file, with size around 0.4 (according to previously written // data amount). filter->expect_full_compaction_.store(false); ASSERT_OK(Flush(1)); for (int num = 0; num < options.level0_file_num_compaction_trigger - 3; num++) { GenerateNewFile(1, &rnd, &key_idx); ASSERT_EQ(NumSortedRuns(1), num + 3); } // Generate one more file at level-0, which should trigger level-0 // compaction. GenerateNewFile(1, &rnd, &key_idx); // Before compaction, we have 4 files at level 0, with size 4, 0.4, 1, 1. // After compaction, we should have 2 files, with size 4, 2.4. ASSERT_EQ(NumSortedRuns(1), 2); // Stage 3: // Now we have 2 files at level 0, with size 4 and 2.4. Continue // generating new files at level 0. for (int num = 0; num < options.level0_file_num_compaction_trigger - 3; num++) { GenerateNewFile(1, &rnd, &key_idx); ASSERT_EQ(NumSortedRuns(1), num + 3); } // Generate one more file at level-0, which should trigger level-0 // compaction. GenerateNewFile(1, &rnd, &key_idx); // Before compaction, we have 4 files at level 0, with size 4, 2.4, 1, 1. // After compaction, we should have 3 files, with size 4, 2.4, 2. ASSERT_EQ(NumSortedRuns(1), 3); // Stage 4: // Now we have 3 files at level 0, with size 4, 2.4, 2. Let's generate a // new file of size 1. GenerateNewFile(1, &rnd, &key_idx); dbfull()->TEST_WaitForCompact(); // Level-0 compaction is triggered, but no file will be picked up. ASSERT_EQ(NumSortedRuns(1), 4); // Stage 5: // Now we have 4 files at level 0, with size 4, 2.4, 2, 1. Let's generate // a new file of size 1. filter->expect_full_compaction_.store(true); GenerateNewFile(1, &rnd, &key_idx); dbfull()->TEST_WaitForCompact(); // All files at level 0 will be compacted into a single one. ASSERT_EQ(NumSortedRuns(1), 1); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); } TEST_P(DBTestUniversalCompaction, UniversalCompactionSizeAmplification) { Options options = CurrentOptions(); options.compaction_style = kCompactionStyleUniversal; options.num_levels = num_levels_; options.write_buffer_size = 100 << 10; // 100KB options.target_file_size_base = 32 << 10; // 32KB options.level0_file_num_compaction_trigger = 3; DestroyAndReopen(options); CreateAndReopenWithCF({"pikachu"}, options); // Trigger compaction if size amplification exceeds 110% options.compaction_options_universal.max_size_amplification_percent = 110; options = CurrentOptions(options); ReopenWithColumnFamilies({"default", "pikachu"}, options); Random rnd(301); int key_idx = 0; // Generate two files in Level 0. Both files are approx the same size. for (int num = 0; num < options.level0_file_num_compaction_trigger - 1; num++) { // Write 110KB (11 values, each 10K) for (int i = 0; i < 11; i++) { ASSERT_OK(Put(1, Key(key_idx), RandomString(&rnd, 10000))); key_idx++; } dbfull()->TEST_WaitForFlushMemTable(handles_[1]); ASSERT_EQ(NumSortedRuns(1), num + 1); } ASSERT_EQ(NumSortedRuns(1), 2); // Flush whatever is remaining in memtable. This is typically // small, which should not trigger size ratio based compaction // but will instead trigger size amplification. ASSERT_OK(Flush(1)); dbfull()->TEST_WaitForCompact(); // Verify that size amplification did occur ASSERT_EQ(NumSortedRuns(1), 1); } TEST_P(DBTestUniversalCompaction, DynamicUniversalCompactionSizeAmplification) { Options options = CurrentOptions(); options.compaction_style = kCompactionStyleUniversal; options.num_levels = 1; options.write_buffer_size = 100 << 10; // 100KB options.target_file_size_base = 32 << 10; // 32KB options.level0_file_num_compaction_trigger = 3; // Initial setup of compaction_options_universal will prevent universal // compaction from happening options.compaction_options_universal.size_ratio = 100; options.compaction_options_universal.min_merge_width = 100; DestroyAndReopen(options); int total_picked_compactions = 0; int total_size_amp_compactions = 0; rocksdb::SyncPoint::GetInstance()->SetCallBack( "UniversalCompactionPicker::PickCompaction:Return", [&](void* arg) { if (arg) { total_picked_compactions++; Compaction* c = static_cast(arg); if (c->compaction_reason() == CompactionReason::kUniversalSizeAmplification) { total_size_amp_compactions++; } } }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); MutableCFOptions mutable_cf_options; CreateAndReopenWithCF({"pikachu"}, options); Random rnd(301); int key_idx = 0; // Generate two files in Level 0. Both files are approx the same size. for (int num = 0; num < options.level0_file_num_compaction_trigger - 1; num++) { // Write 110KB (11 values, each 10K) for (int i = 0; i < 11; i++) { ASSERT_OK(Put(1, Key(key_idx), RandomString(&rnd, 10000))); key_idx++; } dbfull()->TEST_WaitForFlushMemTable(handles_[1]); ASSERT_EQ(NumSortedRuns(1), num + 1); } ASSERT_EQ(NumSortedRuns(1), 2); // Flush whatever is remaining in memtable. This is typically // small, which should not trigger size ratio based compaction // but could instead trigger size amplification if it's set // to 110. ASSERT_OK(Flush(1)); dbfull()->TEST_WaitForCompact(); // Verify compaction did not happen ASSERT_EQ(NumSortedRuns(1), 3); // Trigger compaction if size amplification exceeds 110% without reopening DB ASSERT_EQ(dbfull() ->GetOptions(handles_[1]) .compaction_options_universal.max_size_amplification_percent, 200); ASSERT_OK(dbfull()->SetOptions(handles_[1], {{"compaction_options_universal", "{max_size_amplification_percent=110;}"}})); ASSERT_EQ(dbfull() ->GetOptions(handles_[1]) .compaction_options_universal.max_size_amplification_percent, 110); ASSERT_OK(dbfull()->TEST_GetLatestMutableCFOptions(handles_[1], &mutable_cf_options)); ASSERT_EQ(110, mutable_cf_options.compaction_options_universal .max_size_amplification_percent); dbfull()->TEST_WaitForCompact(); // Verify that size amplification did happen ASSERT_EQ(NumSortedRuns(1), 1); ASSERT_EQ(total_picked_compactions, 1); ASSERT_EQ(total_size_amp_compactions, 1); } TEST_P(DBTestUniversalCompaction, DynamicUniversalCompactionReadAmplification) { Options options = CurrentOptions(); options.compaction_style = kCompactionStyleUniversal; options.num_levels = 1; options.write_buffer_size = 100 << 10; // 100KB options.target_file_size_base = 32 << 10; // 32KB options.level0_file_num_compaction_trigger = 3; // Initial setup of compaction_options_universal will prevent universal // compaction from happening options.compaction_options_universal.max_size_amplification_percent = 2000; options.compaction_options_universal.size_ratio = 0; options.compaction_options_universal.min_merge_width = 100; DestroyAndReopen(options); int total_picked_compactions = 0; int total_size_ratio_compactions = 0; rocksdb::SyncPoint::GetInstance()->SetCallBack( "UniversalCompactionPicker::PickCompaction:Return", [&](void* arg) { if (arg) { total_picked_compactions++; Compaction* c = static_cast(arg); if (c->compaction_reason() == CompactionReason::kUniversalSizeRatio) { total_size_ratio_compactions++; } } }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); MutableCFOptions mutable_cf_options; CreateAndReopenWithCF({"pikachu"}, options); Random rnd(301); int key_idx = 0; // Generate three files in Level 0. All files are approx the same size. for (int num = 0; num < options.level0_file_num_compaction_trigger; num++) { // Write 110KB (11 values, each 10K) for (int i = 0; i < 11; i++) { ASSERT_OK(Put(1, Key(key_idx), RandomString(&rnd, 10000))); key_idx++; } dbfull()->TEST_WaitForFlushMemTable(handles_[1]); ASSERT_EQ(NumSortedRuns(1), num + 1); } ASSERT_EQ(NumSortedRuns(1), options.level0_file_num_compaction_trigger); // Flush whatever is remaining in memtable. This is typically small, about // 30KB. ASSERT_OK(Flush(1)); dbfull()->TEST_WaitForCompact(); // Verify compaction did not happen ASSERT_EQ(NumSortedRuns(1), options.level0_file_num_compaction_trigger + 1); ASSERT_EQ(total_picked_compactions, 0); ASSERT_OK(dbfull()->SetOptions( handles_[1], {{"compaction_options_universal", "{min_merge_width=2;max_merge_width=2;size_ratio=100;}"}})); ASSERT_EQ(dbfull() ->GetOptions(handles_[1]) .compaction_options_universal.min_merge_width, 2); ASSERT_EQ(dbfull() ->GetOptions(handles_[1]) .compaction_options_universal.max_merge_width, 2); ASSERT_EQ( dbfull()->GetOptions(handles_[1]).compaction_options_universal.size_ratio, 100); ASSERT_OK(dbfull()->TEST_GetLatestMutableCFOptions(handles_[1], &mutable_cf_options)); ASSERT_EQ(mutable_cf_options.compaction_options_universal.size_ratio, 100); ASSERT_EQ(mutable_cf_options.compaction_options_universal.min_merge_width, 2); ASSERT_EQ(mutable_cf_options.compaction_options_universal.max_merge_width, 2); dbfull()->TEST_WaitForCompact(); // Files in L0 are approx: 0.3 (30KB), 1, 1, 1. // On compaction: the files are below the size amp threshold, so we // fallthrough to checking read amp conditions. The configured size ratio is // not big enough to take 0.3 into consideration. So the next files 1 and 1 // are compacted together first as they satisfy size ratio condition and // (min_merge_width, max_merge_width) condition, to give out a file size of 2. // Next, the newly generated 2 and the last file 1 are compacted together. So // at the end: #sortedRuns = 2, #picked_compactions = 2, and all the picked // ones are size ratio based compactions. ASSERT_EQ(NumSortedRuns(1), 2); // If max_merge_width had not been changed dynamically above, and if it // continued to be the default value of UINIT_MAX, total_picked_compactions // would have been 1. ASSERT_EQ(total_picked_compactions, 2); ASSERT_EQ(total_size_ratio_compactions, 2); } TEST_P(DBTestUniversalCompaction, CompactFilesOnUniversalCompaction) { const int kTestKeySize = 16; const int kTestValueSize = 984; const int kEntrySize = kTestKeySize + kTestValueSize; const int kEntriesPerBuffer = 10; ChangeCompactOptions(); Options options; options.create_if_missing = true; options.compaction_style = kCompactionStyleLevel; options.num_levels = 1; options.target_file_size_base = options.write_buffer_size; options.compression = kNoCompression; options = CurrentOptions(options); options.write_buffer_size = kEntrySize * kEntriesPerBuffer; CreateAndReopenWithCF({"pikachu"}, options); ASSERT_EQ(options.compaction_style, kCompactionStyleUniversal); Random rnd(301); for (int key = 1024 * kEntriesPerBuffer; key >= 0; --key) { ASSERT_OK(Put(1, ToString(key), RandomString(&rnd, kTestValueSize))); } dbfull()->TEST_WaitForFlushMemTable(handles_[1]); dbfull()->TEST_WaitForCompact(); ColumnFamilyMetaData cf_meta; dbfull()->GetColumnFamilyMetaData(handles_[1], &cf_meta); std::vector compaction_input_file_names; for (auto file : cf_meta.levels[0].files) { if (rnd.OneIn(2)) { compaction_input_file_names.push_back(file.name); } } if (compaction_input_file_names.size() == 0) { compaction_input_file_names.push_back( cf_meta.levels[0].files[0].name); } // expect fail since universal compaction only allow L0 output ASSERT_FALSE(dbfull() ->CompactFiles(CompactionOptions(), handles_[1], compaction_input_file_names, 1) .ok()); // expect ok and verify the compacted files no longer exist. ASSERT_OK(dbfull()->CompactFiles( CompactionOptions(), handles_[1], compaction_input_file_names, 0)); dbfull()->GetColumnFamilyMetaData(handles_[1], &cf_meta); VerifyCompactionResult( cf_meta, std::set(compaction_input_file_names.begin(), compaction_input_file_names.end())); compaction_input_file_names.clear(); // Pick the first and the last file, expect everything is // compacted into one single file. compaction_input_file_names.push_back( cf_meta.levels[0].files[0].name); compaction_input_file_names.push_back( cf_meta.levels[0].files[ cf_meta.levels[0].files.size() - 1].name); ASSERT_OK(dbfull()->CompactFiles( CompactionOptions(), handles_[1], compaction_input_file_names, 0)); dbfull()->GetColumnFamilyMetaData(handles_[1], &cf_meta); ASSERT_EQ(cf_meta.levels[0].files.size(), 1U); } TEST_P(DBTestUniversalCompaction, UniversalCompactionTargetLevel) { Options options = CurrentOptions(); options.compaction_style = kCompactionStyleUniversal; options.write_buffer_size = 100 << 10; // 100KB options.num_levels = 7; options.disable_auto_compactions = true; DestroyAndReopen(options); // Generate 3 overlapping files Random rnd(301); for (int i = 0; i < 210; i++) { ASSERT_OK(Put(Key(i), RandomString(&rnd, 100))); } ASSERT_OK(Flush()); for (int i = 200; i < 300; i++) { ASSERT_OK(Put(Key(i), RandomString(&rnd, 100))); } ASSERT_OK(Flush()); for (int i = 250; i < 260; i++) { ASSERT_OK(Put(Key(i), RandomString(&rnd, 100))); } ASSERT_OK(Flush()); ASSERT_EQ("3", FilesPerLevel(0)); // Compact all files into 1 file and put it in L4 CompactRangeOptions compact_options; compact_options.change_level = true; compact_options.target_level = 4; compact_options.exclusive_manual_compaction = exclusive_manual_compaction_; db_->CompactRange(compact_options, nullptr, nullptr); ASSERT_EQ("0,0,0,0,1", FilesPerLevel(0)); } #ifndef ROCKSDB_VALGRIND_RUN class DBTestUniversalCompactionMultiLevels : public DBTestUniversalCompactionBase { public: DBTestUniversalCompactionMultiLevels() : DBTestUniversalCompactionBase( "/db_universal_compaction_multi_levels_test") {} }; TEST_P(DBTestUniversalCompactionMultiLevels, UniversalCompactionMultiLevels) { Options options = CurrentOptions(); options.compaction_style = kCompactionStyleUniversal; options.num_levels = num_levels_; options.write_buffer_size = 100 << 10; // 100KB options.level0_file_num_compaction_trigger = 8; options.max_background_compactions = 3; options.target_file_size_base = 32 * 1024; CreateAndReopenWithCF({"pikachu"}, options); // Trigger compaction if size amplification exceeds 110% options.compaction_options_universal.max_size_amplification_percent = 110; options = CurrentOptions(options); ReopenWithColumnFamilies({"default", "pikachu"}, options); Random rnd(301); int num_keys = 100000; for (int i = 0; i < num_keys * 2; i++) { ASSERT_OK(Put(1, Key(i % num_keys), Key(i))); } dbfull()->TEST_WaitForCompact(); for (int i = num_keys; i < num_keys * 2; i++) { ASSERT_EQ(Get(1, Key(i % num_keys)), Key(i)); } } // Tests universal compaction with trivial move enabled TEST_P(DBTestUniversalCompactionMultiLevels, UniversalCompactionTrivialMove) { int32_t trivial_move = 0; int32_t non_trivial_move = 0; rocksdb::SyncPoint::GetInstance()->SetCallBack( "DBImpl::BackgroundCompaction:TrivialMove", [&](void* /*arg*/) { trivial_move++; }); rocksdb::SyncPoint::GetInstance()->SetCallBack( "DBImpl::BackgroundCompaction:NonTrivial", [&](void* arg) { non_trivial_move++; ASSERT_TRUE(arg != nullptr); int output_level = *(static_cast(arg)); ASSERT_EQ(output_level, 0); }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); Options options = CurrentOptions(); options.compaction_style = kCompactionStyleUniversal; options.compaction_options_universal.allow_trivial_move = true; options.num_levels = 3; options.write_buffer_size = 100 << 10; // 100KB options.level0_file_num_compaction_trigger = 3; options.max_background_compactions = 2; options.target_file_size_base = 32 * 1024; DestroyAndReopen(options); CreateAndReopenWithCF({"pikachu"}, options); // Trigger compaction if size amplification exceeds 110% options.compaction_options_universal.max_size_amplification_percent = 110; options = CurrentOptions(options); ReopenWithColumnFamilies({"default", "pikachu"}, options); Random rnd(301); int num_keys = 150000; for (int i = 0; i < num_keys; i++) { ASSERT_OK(Put(1, Key(i), Key(i))); } std::vector values; ASSERT_OK(Flush(1)); dbfull()->TEST_WaitForCompact(); ASSERT_GT(trivial_move, 0); ASSERT_GT(non_trivial_move, 0); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); } INSTANTIATE_TEST_CASE_P(DBTestUniversalCompactionMultiLevels, DBTestUniversalCompactionMultiLevels, ::testing::Combine(::testing::Values(3, 20), ::testing::Bool())); class DBTestUniversalCompactionParallel : public DBTestUniversalCompactionBase { public: DBTestUniversalCompactionParallel() : DBTestUniversalCompactionBase( "/db_universal_compaction_prallel_test") {} }; TEST_P(DBTestUniversalCompactionParallel, UniversalCompactionParallel) { Options options = CurrentOptions(); options.compaction_style = kCompactionStyleUniversal; options.num_levels = num_levels_; options.write_buffer_size = 1 << 10; // 1KB options.level0_file_num_compaction_trigger = 3; options.max_background_compactions = 3; options.max_background_flushes = 3; options.target_file_size_base = 1 * 1024; options.compaction_options_universal.max_size_amplification_percent = 110; DestroyAndReopen(options); CreateAndReopenWithCF({"pikachu"}, options); // Delay every compaction so multiple compactions will happen. std::atomic num_compactions_running(0); std::atomic has_parallel(false); rocksdb::SyncPoint::GetInstance()->SetCallBack("CompactionJob::Run():Start", [&](void* /*arg*/) { if (num_compactions_running.fetch_add(1) > 0) { has_parallel.store(true); return; } for (int nwait = 0; nwait < 20000; nwait++) { if (has_parallel.load() || num_compactions_running.load() > 1) { has_parallel.store(true); break; } env_->SleepForMicroseconds(1000); } }); rocksdb::SyncPoint::GetInstance()->SetCallBack( "CompactionJob::Run():End", [&](void* /*arg*/) { num_compactions_running.fetch_add(-1); }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); options = CurrentOptions(options); ReopenWithColumnFamilies({"default", "pikachu"}, options); Random rnd(301); int num_keys = 30000; for (int i = 0; i < num_keys * 2; i++) { ASSERT_OK(Put(1, Key(i % num_keys), Key(i))); } dbfull()->TEST_WaitForCompact(); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); ASSERT_EQ(num_compactions_running.load(), 0); ASSERT_TRUE(has_parallel.load()); for (int i = num_keys; i < num_keys * 2; i++) { ASSERT_EQ(Get(1, Key(i % num_keys)), Key(i)); } // Reopen and check. ReopenWithColumnFamilies({"default", "pikachu"}, options); for (int i = num_keys; i < num_keys * 2; i++) { ASSERT_EQ(Get(1, Key(i % num_keys)), Key(i)); } } TEST_P(DBTestUniversalCompactionParallel, PickByFileNumberBug) { Options options = CurrentOptions(); options.compaction_style = kCompactionStyleUniversal; options.num_levels = num_levels_; options.write_buffer_size = 1 * 1024; // 1KB options.level0_file_num_compaction_trigger = 7; options.max_background_compactions = 2; options.target_file_size_base = 1024 * 1024; // 1MB // Disable size amplifiction compaction options.compaction_options_universal.max_size_amplification_percent = UINT_MAX; DestroyAndReopen(options); rocksdb::SyncPoint::GetInstance()->LoadDependency( {{"DBTestUniversalCompactionParallel::PickByFileNumberBug:0", "BackgroundCallCompaction:0"}, {"UniversalCompactionPicker::PickCompaction:Return", "DBTestUniversalCompactionParallel::PickByFileNumberBug:1"}, {"DBTestUniversalCompactionParallel::PickByFileNumberBug:2", "CompactionJob::Run():Start"}}); int total_picked_compactions = 0; rocksdb::SyncPoint::GetInstance()->SetCallBack( "UniversalCompactionPicker::PickCompaction:Return", [&](void* arg) { if (arg) { total_picked_compactions++; } }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); // Write 7 files to trigger compaction int key_idx = 1; for (int i = 1; i <= 70; i++) { std::string k = Key(key_idx++); ASSERT_OK(Put(k, k)); if (i % 10 == 0) { ASSERT_OK(Flush()); } } // Wait for the 1st background compaction process to start TEST_SYNC_POINT("DBTestUniversalCompactionParallel::PickByFileNumberBug:0"); TEST_SYNC_POINT("DBTestUniversalCompactionParallel::PickByFileNumberBug:1"); rocksdb::SyncPoint::GetInstance()->ClearTrace(); // Write 3 files while 1st compaction is held // These 3 files have different sizes to avoid compacting based on size_ratio int num_keys = 1000; for (int i = 0; i < 3; i++) { for (int j = 1; j <= num_keys; j++) { std::string k = Key(key_idx++); ASSERT_OK(Put(k, k)); } ASSERT_OK(Flush()); num_keys -= 100; } // Hold the 1st compaction from finishing TEST_SYNC_POINT("DBTestUniversalCompactionParallel::PickByFileNumberBug:2"); dbfull()->TEST_WaitForCompact(); // There should only be one picked compaction as the score drops below one // after the first one is picked. EXPECT_EQ(total_picked_compactions, 1); EXPECT_EQ(TotalTableFiles(), 4); // Stop SyncPoint and destroy the DB and reopen it again rocksdb::SyncPoint::GetInstance()->ClearTrace(); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); key_idx = 1; total_picked_compactions = 0; DestroyAndReopen(options); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); // Write 7 files to trigger compaction for (int i = 1; i <= 70; i++) { std::string k = Key(key_idx++); ASSERT_OK(Put(k, k)); if (i % 10 == 0) { ASSERT_OK(Flush()); } } // Wait for the 1st background compaction process to start TEST_SYNC_POINT("DBTestUniversalCompactionParallel::PickByFileNumberBug:0"); TEST_SYNC_POINT("DBTestUniversalCompactionParallel::PickByFileNumberBug:1"); rocksdb::SyncPoint::GetInstance()->ClearTrace(); // Write 8 files while 1st compaction is held // These 8 files have different sizes to avoid compacting based on size_ratio num_keys = 1000; for (int i = 0; i < 8; i++) { for (int j = 1; j <= num_keys; j++) { std::string k = Key(key_idx++); ASSERT_OK(Put(k, k)); } ASSERT_OK(Flush()); num_keys -= 100; } // Wait for the 2nd background compaction process to start TEST_SYNC_POINT("DBTestUniversalCompactionParallel::PickByFileNumberBug:0"); TEST_SYNC_POINT("DBTestUniversalCompactionParallel::PickByFileNumberBug:1"); // Hold the 1st and 2nd compaction from finishing TEST_SYNC_POINT("DBTestUniversalCompactionParallel::PickByFileNumberBug:2"); dbfull()->TEST_WaitForCompact(); // This time we will trigger a compaction because of size ratio and // another compaction because of number of files that are not compacted // greater than 7 EXPECT_GE(total_picked_compactions, 2); } INSTANTIATE_TEST_CASE_P(DBTestUniversalCompactionParallel, DBTestUniversalCompactionParallel, ::testing::Combine(::testing::Values(1, 10), ::testing::Values(false))); #endif // ROCKSDB_VALGRIND_RUN TEST_P(DBTestUniversalCompaction, UniversalCompactionOptions) { Options options = CurrentOptions(); options.compaction_style = kCompactionStyleUniversal; options.write_buffer_size = 105 << 10; // 105KB options.arena_block_size = 4 << 10; // 4KB options.target_file_size_base = 32 << 10; // 32KB options.level0_file_num_compaction_trigger = 4; options.num_levels = num_levels_; options.compaction_options_universal.compression_size_percent = -1; DestroyAndReopen(options); CreateAndReopenWithCF({"pikachu"}, options); Random rnd(301); int key_idx = 0; for (int num = 0; num < options.level0_file_num_compaction_trigger; num++) { // Write 100KB (100 values, each 1K) for (int i = 0; i < 100; i++) { ASSERT_OK(Put(1, Key(key_idx), RandomString(&rnd, 990))); key_idx++; } dbfull()->TEST_WaitForFlushMemTable(handles_[1]); if (num < options.level0_file_num_compaction_trigger - 1) { ASSERT_EQ(NumSortedRuns(1), num + 1); } } dbfull()->TEST_WaitForCompact(); ASSERT_EQ(NumSortedRuns(1), 1); } TEST_P(DBTestUniversalCompaction, UniversalCompactionStopStyleSimilarSize) { Options options = CurrentOptions(); options.compaction_style = kCompactionStyleUniversal; options.write_buffer_size = 105 << 10; // 105KB options.arena_block_size = 4 << 10; // 4KB options.target_file_size_base = 32 << 10; // 32KB // trigger compaction if there are >= 4 files options.level0_file_num_compaction_trigger = 4; options.compaction_options_universal.size_ratio = 10; options.compaction_options_universal.stop_style = kCompactionStopStyleSimilarSize; options.num_levels = num_levels_; DestroyAndReopen(options); Random rnd(301); int key_idx = 0; // Stage 1: // Generate a set of files at level 0, but don't trigger level-0 // compaction. for (int num = 0; num < options.level0_file_num_compaction_trigger - 1; num++) { // Write 100KB (100 values, each 1K) for (int i = 0; i < 100; i++) { ASSERT_OK(Put(Key(key_idx), RandomString(&rnd, 990))); key_idx++; } dbfull()->TEST_WaitForFlushMemTable(); ASSERT_EQ(NumSortedRuns(), num + 1); } // Generate one more file at level-0, which should trigger level-0 // compaction. for (int i = 0; i < 100; i++) { ASSERT_OK(Put(Key(key_idx), RandomString(&rnd, 990))); key_idx++; } dbfull()->TEST_WaitForCompact(); // Suppose each file flushed from mem table has size 1. Now we compact // (level0_file_num_compaction_trigger+1)=4 files and should have a big // file of size 4. ASSERT_EQ(NumSortedRuns(), 1); // Stage 2: // Now we have one file at level 0, with size 4. We also have some data in // mem table. Let's continue generating new files at level 0, but don't // trigger level-0 compaction. // First, clean up memtable before inserting new data. This will generate // a level-0 file, with size around 0.4 (according to previously written // data amount). dbfull()->Flush(FlushOptions()); for (int num = 0; num < options.level0_file_num_compaction_trigger - 3; num++) { // Write 110KB (11 values, each 10K) for (int i = 0; i < 100; i++) { ASSERT_OK(Put(Key(key_idx), RandomString(&rnd, 990))); key_idx++; } dbfull()->TEST_WaitForFlushMemTable(); ASSERT_EQ(NumSortedRuns(), num + 3); } // Generate one more file at level-0, which should trigger level-0 // compaction. for (int i = 0; i < 100; i++) { ASSERT_OK(Put(Key(key_idx), RandomString(&rnd, 990))); key_idx++; } dbfull()->TEST_WaitForCompact(); // Before compaction, we have 4 files at level 0, with size 4, 0.4, 1, 1. // After compaction, we should have 3 files, with size 4, 0.4, 2. ASSERT_EQ(NumSortedRuns(), 3); // Stage 3: // Now we have 3 files at level 0, with size 4, 0.4, 2. Generate one // more file at level-0, which should trigger level-0 compaction. for (int i = 0; i < 100; i++) { ASSERT_OK(Put(Key(key_idx), RandomString(&rnd, 990))); key_idx++; } dbfull()->TEST_WaitForCompact(); // Level-0 compaction is triggered, but no file will be picked up. ASSERT_EQ(NumSortedRuns(), 4); } TEST_P(DBTestUniversalCompaction, UniversalCompactionCompressRatio1) { if (!Snappy_Supported()) { return; } Options options = CurrentOptions(); options.compaction_style = kCompactionStyleUniversal; options.write_buffer_size = 100 << 10; // 100KB options.target_file_size_base = 32 << 10; // 32KB options.level0_file_num_compaction_trigger = 2; options.num_levels = num_levels_; options.compaction_options_universal.compression_size_percent = 70; DestroyAndReopen(options); Random rnd(301); int key_idx = 0; // The first compaction (2) is compressed. for (int num = 0; num < 2; num++) { // Write 110KB (11 values, each 10K) for (int i = 0; i < 11; i++) { ASSERT_OK(Put(Key(key_idx), CompressibleString(&rnd, 10000))); key_idx++; } dbfull()->TEST_WaitForFlushMemTable(); dbfull()->TEST_WaitForCompact(); } ASSERT_LT(TotalSize(), 110000U * 2 * 0.9); // The second compaction (4) is compressed for (int num = 0; num < 2; num++) { // Write 110KB (11 values, each 10K) for (int i = 0; i < 11; i++) { ASSERT_OK(Put(Key(key_idx), CompressibleString(&rnd, 10000))); key_idx++; } dbfull()->TEST_WaitForFlushMemTable(); dbfull()->TEST_WaitForCompact(); } ASSERT_LT(TotalSize(), 110000 * 4 * 0.9); // The third compaction (2 4) is compressed since this time it is // (1 1 3.2) and 3.2/5.2 doesn't reach ratio. for (int num = 0; num < 2; num++) { // Write 110KB (11 values, each 10K) for (int i = 0; i < 11; i++) { ASSERT_OK(Put(Key(key_idx), CompressibleString(&rnd, 10000))); key_idx++; } dbfull()->TEST_WaitForFlushMemTable(); dbfull()->TEST_WaitForCompact(); } ASSERT_LT(TotalSize(), 110000 * 6 * 0.9); // When we start for the compaction up to (2 4 8), the latest // compressed is not compressed. for (int num = 0; num < 8; num++) { // Write 110KB (11 values, each 10K) for (int i = 0; i < 11; i++) { ASSERT_OK(Put(Key(key_idx), CompressibleString(&rnd, 10000))); key_idx++; } dbfull()->TEST_WaitForFlushMemTable(); dbfull()->TEST_WaitForCompact(); } ASSERT_GT(TotalSize(), 110000 * 11 * 0.8 + 110000 * 2); } TEST_P(DBTestUniversalCompaction, UniversalCompactionCompressRatio2) { if (!Snappy_Supported()) { return; } Options options = CurrentOptions(); options.compaction_style = kCompactionStyleUniversal; options.write_buffer_size = 100 << 10; // 100KB options.target_file_size_base = 32 << 10; // 32KB options.level0_file_num_compaction_trigger = 2; options.num_levels = num_levels_; options.compaction_options_universal.compression_size_percent = 95; DestroyAndReopen(options); Random rnd(301); int key_idx = 0; // When we start for the compaction up to (2 4 8), the latest // compressed is compressed given the size ratio to compress. for (int num = 0; num < 14; num++) { // Write 120KB (12 values, each 10K) for (int i = 0; i < 12; i++) { ASSERT_OK(Put(Key(key_idx), CompressibleString(&rnd, 10000))); key_idx++; } dbfull()->TEST_WaitForFlushMemTable(); dbfull()->TEST_WaitForCompact(); } ASSERT_LT(TotalSize(), 120000U * 12 * 0.8 + 120000 * 2); } #ifndef ROCKSDB_VALGRIND_RUN // Test that checks trivial move in universal compaction TEST_P(DBTestUniversalCompaction, UniversalCompactionTrivialMoveTest1) { int32_t trivial_move = 0; int32_t non_trivial_move = 0; rocksdb::SyncPoint::GetInstance()->SetCallBack( "DBImpl::BackgroundCompaction:TrivialMove", [&](void* /*arg*/) { trivial_move++; }); rocksdb::SyncPoint::GetInstance()->SetCallBack( "DBImpl::BackgroundCompaction:NonTrivial", [&](void* arg) { non_trivial_move++; ASSERT_TRUE(arg != nullptr); int output_level = *(static_cast(arg)); ASSERT_EQ(output_level, 0); }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); Options options = CurrentOptions(); options.compaction_style = kCompactionStyleUniversal; options.compaction_options_universal.allow_trivial_move = true; options.num_levels = 2; options.write_buffer_size = 100 << 10; // 100KB options.level0_file_num_compaction_trigger = 3; options.max_background_compactions = 1; options.target_file_size_base = 32 * 1024; DestroyAndReopen(options); CreateAndReopenWithCF({"pikachu"}, options); // Trigger compaction if size amplification exceeds 110% options.compaction_options_universal.max_size_amplification_percent = 110; options = CurrentOptions(options); ReopenWithColumnFamilies({"default", "pikachu"}, options); Random rnd(301); int num_keys = 250000; for (int i = 0; i < num_keys; i++) { ASSERT_OK(Put(1, Key(i), Key(i))); } std::vector values; ASSERT_OK(Flush(1)); dbfull()->TEST_WaitForCompact(); ASSERT_GT(trivial_move, 0); ASSERT_GT(non_trivial_move, 0); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); } // Test that checks trivial move in universal compaction TEST_P(DBTestUniversalCompaction, UniversalCompactionTrivialMoveTest2) { int32_t trivial_move = 0; rocksdb::SyncPoint::GetInstance()->SetCallBack( "DBImpl::BackgroundCompaction:TrivialMove", [&](void* /*arg*/) { trivial_move++; }); rocksdb::SyncPoint::GetInstance()->SetCallBack( "DBImpl::BackgroundCompaction:NonTrivial", [&](void* arg) { ASSERT_TRUE(arg != nullptr); int output_level = *(static_cast(arg)); ASSERT_EQ(output_level, 0); }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); Options options = CurrentOptions(); options.compaction_style = kCompactionStyleUniversal; options.compaction_options_universal.allow_trivial_move = true; options.num_levels = 15; options.write_buffer_size = 100 << 10; // 100KB options.level0_file_num_compaction_trigger = 8; options.max_background_compactions = 2; options.target_file_size_base = 64 * 1024; DestroyAndReopen(options); CreateAndReopenWithCF({"pikachu"}, options); // Trigger compaction if size amplification exceeds 110% options.compaction_options_universal.max_size_amplification_percent = 110; options = CurrentOptions(options); ReopenWithColumnFamilies({"default", "pikachu"}, options); Random rnd(301); int num_keys = 500000; for (int i = 0; i < num_keys; i++) { ASSERT_OK(Put(1, Key(i), Key(i))); } std::vector values; ASSERT_OK(Flush(1)); dbfull()->TEST_WaitForCompact(); ASSERT_GT(trivial_move, 0); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); } #endif // ROCKSDB_VALGRIND_RUN TEST_P(DBTestUniversalCompaction, UniversalCompactionFourPaths) { Options options = CurrentOptions(); options.db_paths.emplace_back(dbname_, 300 * 1024); options.db_paths.emplace_back(dbname_ + "_2", 300 * 1024); options.db_paths.emplace_back(dbname_ + "_3", 500 * 1024); options.db_paths.emplace_back(dbname_ + "_4", 1024 * 1024 * 1024); options.memtable_factory.reset( new SpecialSkipListFactory(KNumKeysByGenerateNewFile - 1)); options.compaction_style = kCompactionStyleUniversal; options.compaction_options_universal.size_ratio = 5; options.write_buffer_size = 111 << 10; // 114KB options.arena_block_size = 4 << 10; options.level0_file_num_compaction_trigger = 2; options.num_levels = 1; std::vector filenames; env_->GetChildren(options.db_paths[1].path, &filenames); // Delete archival files. for (size_t i = 0; i < filenames.size(); ++i) { env_->DeleteFile(options.db_paths[1].path + "/" + filenames[i]); } env_->DeleteDir(options.db_paths[1].path); Reopen(options); Random rnd(301); int key_idx = 0; // First three 110KB files are not going to second path. // After that, (100K, 200K) for (int num = 0; num < 3; num++) { GenerateNewFile(&rnd, &key_idx); } // Another 110KB triggers a compaction to 400K file to second path GenerateNewFile(&rnd, &key_idx); ASSERT_EQ(1, GetSstFileCount(options.db_paths[2].path)); // (1, 4) GenerateNewFile(&rnd, &key_idx); ASSERT_EQ(1, GetSstFileCount(options.db_paths[2].path)); ASSERT_EQ(1, GetSstFileCount(dbname_)); // (1,1,4) -> (2, 4) GenerateNewFile(&rnd, &key_idx); ASSERT_EQ(1, GetSstFileCount(options.db_paths[2].path)); ASSERT_EQ(1, GetSstFileCount(options.db_paths[1].path)); ASSERT_EQ(0, GetSstFileCount(dbname_)); // (1, 2, 4) -> (3, 4) GenerateNewFile(&rnd, &key_idx); ASSERT_EQ(1, GetSstFileCount(options.db_paths[2].path)); ASSERT_EQ(1, GetSstFileCount(options.db_paths[1].path)); ASSERT_EQ(0, GetSstFileCount(dbname_)); // (1, 3, 4) -> (8) GenerateNewFile(&rnd, &key_idx); ASSERT_EQ(1, GetSstFileCount(options.db_paths[3].path)); // (1, 8) GenerateNewFile(&rnd, &key_idx); ASSERT_EQ(1, GetSstFileCount(options.db_paths[3].path)); ASSERT_EQ(1, GetSstFileCount(dbname_)); // (1, 1, 8) -> (2, 8) GenerateNewFile(&rnd, &key_idx); ASSERT_EQ(1, GetSstFileCount(options.db_paths[3].path)); ASSERT_EQ(1, GetSstFileCount(options.db_paths[1].path)); // (1, 2, 8) -> (3, 8) GenerateNewFile(&rnd, &key_idx); ASSERT_EQ(1, GetSstFileCount(options.db_paths[3].path)); ASSERT_EQ(1, GetSstFileCount(options.db_paths[1].path)); ASSERT_EQ(0, GetSstFileCount(dbname_)); // (1, 3, 8) -> (4, 8) GenerateNewFile(&rnd, &key_idx); ASSERT_EQ(1, GetSstFileCount(options.db_paths[2].path)); ASSERT_EQ(1, GetSstFileCount(options.db_paths[3].path)); // (1, 4, 8) -> (5, 8) GenerateNewFile(&rnd, &key_idx); ASSERT_EQ(1, GetSstFileCount(options.db_paths[3].path)); ASSERT_EQ(1, GetSstFileCount(options.db_paths[2].path)); ASSERT_EQ(0, GetSstFileCount(dbname_)); for (int i = 0; i < key_idx; i++) { auto v = Get(Key(i)); ASSERT_NE(v, "NOT_FOUND"); ASSERT_TRUE(v.size() == 1 || v.size() == 990); } Reopen(options); for (int i = 0; i < key_idx; i++) { auto v = Get(Key(i)); ASSERT_NE(v, "NOT_FOUND"); ASSERT_TRUE(v.size() == 1 || v.size() == 990); } Destroy(options); } TEST_P(DBTestUniversalCompaction, UniversalCompactionCFPathUse) { Options options = CurrentOptions(); options.db_paths.emplace_back(dbname_, 300 * 1024); options.db_paths.emplace_back(dbname_ + "_2", 300 * 1024); options.db_paths.emplace_back(dbname_ + "_3", 500 * 1024); options.db_paths.emplace_back(dbname_ + "_4", 1024 * 1024 * 1024); options.memtable_factory.reset( new SpecialSkipListFactory(KNumKeysByGenerateNewFile - 1)); options.compaction_style = kCompactionStyleUniversal; options.compaction_options_universal.size_ratio = 10; options.write_buffer_size = 111 << 10; // 114KB options.arena_block_size = 4 << 10; options.level0_file_num_compaction_trigger = 2; options.num_levels = 1; std::vector option_vector; option_vector.emplace_back(options); ColumnFamilyOptions cf_opt1(options), cf_opt2(options); // Configure CF1 specific paths. cf_opt1.cf_paths.emplace_back(dbname_ + "cf1", 300 * 1024); cf_opt1.cf_paths.emplace_back(dbname_ + "cf1_2", 300 * 1024); cf_opt1.cf_paths.emplace_back(dbname_ + "cf1_3", 500 * 1024); cf_opt1.cf_paths.emplace_back(dbname_ + "cf1_4", 1024 * 1024 * 1024); option_vector.emplace_back(DBOptions(options), cf_opt1); CreateColumnFamilies({"one"},option_vector[1]); // Configura CF2 specific paths. cf_opt2.cf_paths.emplace_back(dbname_ + "cf2", 300 * 1024); cf_opt2.cf_paths.emplace_back(dbname_ + "cf2_2", 300 * 1024); cf_opt2.cf_paths.emplace_back(dbname_ + "cf2_3", 500 * 1024); cf_opt2.cf_paths.emplace_back(dbname_ + "cf2_4", 1024 * 1024 * 1024); option_vector.emplace_back(DBOptions(options), cf_opt2); CreateColumnFamilies({"two"},option_vector[2]); ReopenWithColumnFamilies({"default", "one", "two"}, option_vector); Random rnd(301); int key_idx = 0; int key_idx1 = 0; int key_idx2 = 0; auto generate_file = [&]() { GenerateNewFile(0, &rnd, &key_idx); GenerateNewFile(1, &rnd, &key_idx1); GenerateNewFile(2, &rnd, &key_idx2); }; auto check_sstfilecount = [&](int path_id, int expected) { ASSERT_EQ(expected, GetSstFileCount(options.db_paths[path_id].path)); ASSERT_EQ(expected, GetSstFileCount(cf_opt1.cf_paths[path_id].path)); ASSERT_EQ(expected, GetSstFileCount(cf_opt2.cf_paths[path_id].path)); }; auto check_getvalues = [&]() { for (int i = 0; i < key_idx; i++) { auto v = Get(0, Key(i)); ASSERT_NE(v, "NOT_FOUND"); ASSERT_TRUE(v.size() == 1 || v.size() == 990); } for (int i = 0; i < key_idx1; i++) { auto v = Get(1, Key(i)); ASSERT_NE(v, "NOT_FOUND"); ASSERT_TRUE(v.size() == 1 || v.size() == 990); } for (int i = 0; i < key_idx2; i++) { auto v = Get(2, Key(i)); ASSERT_NE(v, "NOT_FOUND"); ASSERT_TRUE(v.size() == 1 || v.size() == 990); } }; // First three 110KB files are not going to second path. // After that, (100K, 200K) for (int num = 0; num < 3; num++) { generate_file(); } // Another 110KB triggers a compaction to 400K file to second path generate_file(); check_sstfilecount(2, 1); // (1, 4) generate_file(); check_sstfilecount(2, 1); check_sstfilecount(0, 1); // (1,1,4) -> (2, 4) generate_file(); check_sstfilecount(2, 1); check_sstfilecount(1, 1); check_sstfilecount(0, 0); // (1, 2, 4) -> (3, 4) generate_file(); check_sstfilecount(2, 1); check_sstfilecount(1, 1); check_sstfilecount(0, 0); // (1, 3, 4) -> (8) generate_file(); check_sstfilecount(3, 1); // (1, 8) generate_file(); check_sstfilecount(3, 1); check_sstfilecount(0, 1); // (1, 1, 8) -> (2, 8) generate_file(); check_sstfilecount(3, 1); check_sstfilecount(1, 1); // (1, 2, 8) -> (3, 8) generate_file(); check_sstfilecount(3, 1); check_sstfilecount(1, 1); check_sstfilecount(0, 0); // (1, 3, 8) -> (4, 8) generate_file(); check_sstfilecount(2, 1); check_sstfilecount(3, 1); // (1, 4, 8) -> (5, 8) generate_file(); check_sstfilecount(3, 1); check_sstfilecount(2, 1); check_sstfilecount(0, 0); check_getvalues(); ReopenWithColumnFamilies({"default", "one", "two"}, option_vector); check_getvalues(); Destroy(options, true); } TEST_P(DBTestUniversalCompaction, IncreaseUniversalCompactionNumLevels) { std::function verify_func = [&](int num_keys_in_db) { std::string keys_in_db; Iterator* iter = dbfull()->NewIterator(ReadOptions(), handles_[1]); for (iter->SeekToFirst(); iter->Valid(); iter->Next()) { keys_in_db.append(iter->key().ToString()); keys_in_db.push_back(','); } delete iter; std::string expected_keys; for (int i = 0; i <= num_keys_in_db; i++) { expected_keys.append(Key(i)); expected_keys.push_back(','); } ASSERT_EQ(keys_in_db, expected_keys); }; Random rnd(301); int max_key1 = 200; int max_key2 = 600; int max_key3 = 800; const int KNumKeysPerFile = 10; // Stage 1: open a DB with universal compaction, num_levels=1 Options options = CurrentOptions(); options.compaction_style = kCompactionStyleUniversal; options.num_levels = 1; options.write_buffer_size = 200 << 10; // 200KB options.level0_file_num_compaction_trigger = 3; options.memtable_factory.reset(new SpecialSkipListFactory(KNumKeysPerFile)); options = CurrentOptions(options); CreateAndReopenWithCF({"pikachu"}, options); for (int i = 0; i <= max_key1; i++) { // each value is 10K ASSERT_OK(Put(1, Key(i), RandomString(&rnd, 10000))); dbfull()->TEST_WaitForFlushMemTable(handles_[1]); dbfull()->TEST_WaitForCompact(); } ASSERT_OK(Flush(1)); dbfull()->TEST_WaitForCompact(); // Stage 2: reopen with universal compaction, num_levels=4 options.compaction_style = kCompactionStyleUniversal; options.num_levels = 4; options = CurrentOptions(options); ReopenWithColumnFamilies({"default", "pikachu"}, options); verify_func(max_key1); // Insert more keys for (int i = max_key1 + 1; i <= max_key2; i++) { // each value is 10K ASSERT_OK(Put(1, Key(i), RandomString(&rnd, 10000))); dbfull()->TEST_WaitForFlushMemTable(handles_[1]); dbfull()->TEST_WaitForCompact(); } ASSERT_OK(Flush(1)); dbfull()->TEST_WaitForCompact(); verify_func(max_key2); // Compaction to non-L0 has happened. ASSERT_GT(NumTableFilesAtLevel(options.num_levels - 1, 1), 0); // Stage 3: Revert it back to one level and revert to num_levels=1. options.num_levels = 4; options.target_file_size_base = INT_MAX; ReopenWithColumnFamilies({"default", "pikachu"}, options); // Compact all to level 0 CompactRangeOptions compact_options; compact_options.change_level = true; compact_options.target_level = 0; compact_options.exclusive_manual_compaction = exclusive_manual_compaction_; dbfull()->CompactRange(compact_options, handles_[1], nullptr, nullptr); // Need to restart it once to remove higher level records in manifest. ReopenWithColumnFamilies({"default", "pikachu"}, options); // Final reopen options.compaction_style = kCompactionStyleUniversal; options.num_levels = 1; options = CurrentOptions(options); ReopenWithColumnFamilies({"default", "pikachu"}, options); // Insert more keys for (int i = max_key2 + 1; i <= max_key3; i++) { // each value is 10K ASSERT_OK(Put(1, Key(i), RandomString(&rnd, 10000))); dbfull()->TEST_WaitForFlushMemTable(handles_[1]); dbfull()->TEST_WaitForCompact(); } ASSERT_OK(Flush(1)); dbfull()->TEST_WaitForCompact(); verify_func(max_key3); } TEST_P(DBTestUniversalCompaction, UniversalCompactionSecondPathRatio) { if (!Snappy_Supported()) { return; } Options options = CurrentOptions(); options.db_paths.emplace_back(dbname_, 500 * 1024); options.db_paths.emplace_back(dbname_ + "_2", 1024 * 1024 * 1024); options.compaction_style = kCompactionStyleUniversal; options.compaction_options_universal.size_ratio = 5; options.write_buffer_size = 111 << 10; // 114KB options.arena_block_size = 4 << 10; options.level0_file_num_compaction_trigger = 2; options.num_levels = 1; options.memtable_factory.reset( new SpecialSkipListFactory(KNumKeysByGenerateNewFile - 1)); std::vector filenames; env_->GetChildren(options.db_paths[1].path, &filenames); // Delete archival files. for (size_t i = 0; i < filenames.size(); ++i) { env_->DeleteFile(options.db_paths[1].path + "/" + filenames[i]); } env_->DeleteDir(options.db_paths[1].path); Reopen(options); Random rnd(301); int key_idx = 0; // First three 110KB files are not going to second path. // After that, (100K, 200K) for (int num = 0; num < 3; num++) { GenerateNewFile(&rnd, &key_idx); } // Another 110KB triggers a compaction to 400K file to second path GenerateNewFile(&rnd, &key_idx); ASSERT_EQ(1, GetSstFileCount(options.db_paths[1].path)); // (1, 4) GenerateNewFile(&rnd, &key_idx); ASSERT_EQ(1, GetSstFileCount(options.db_paths[1].path)); ASSERT_EQ(1, GetSstFileCount(dbname_)); // (1,1,4) -> (2, 4) GenerateNewFile(&rnd, &key_idx); ASSERT_EQ(1, GetSstFileCount(options.db_paths[1].path)); ASSERT_EQ(1, GetSstFileCount(dbname_)); // (1, 2, 4) -> (3, 4) GenerateNewFile(&rnd, &key_idx); ASSERT_EQ(2, GetSstFileCount(options.db_paths[1].path)); ASSERT_EQ(0, GetSstFileCount(dbname_)); // (1, 3, 4) -> (8) GenerateNewFile(&rnd, &key_idx); ASSERT_EQ(1, GetSstFileCount(options.db_paths[1].path)); ASSERT_EQ(0, GetSstFileCount(dbname_)); // (1, 8) GenerateNewFile(&rnd, &key_idx); ASSERT_EQ(1, GetSstFileCount(options.db_paths[1].path)); ASSERT_EQ(1, GetSstFileCount(dbname_)); // (1, 1, 8) -> (2, 8) GenerateNewFile(&rnd, &key_idx); ASSERT_EQ(1, GetSstFileCount(options.db_paths[1].path)); ASSERT_EQ(1, GetSstFileCount(dbname_)); // (1, 2, 8) -> (3, 8) GenerateNewFile(&rnd, &key_idx); ASSERT_EQ(2, GetSstFileCount(options.db_paths[1].path)); ASSERT_EQ(0, GetSstFileCount(dbname_)); // (1, 3, 8) -> (4, 8) GenerateNewFile(&rnd, &key_idx); ASSERT_EQ(2, GetSstFileCount(options.db_paths[1].path)); ASSERT_EQ(0, GetSstFileCount(dbname_)); // (1, 4, 8) -> (5, 8) GenerateNewFile(&rnd, &key_idx); ASSERT_EQ(2, GetSstFileCount(options.db_paths[1].path)); ASSERT_EQ(0, GetSstFileCount(dbname_)); for (int i = 0; i < key_idx; i++) { auto v = Get(Key(i)); ASSERT_NE(v, "NOT_FOUND"); ASSERT_TRUE(v.size() == 1 || v.size() == 990); } Reopen(options); for (int i = 0; i < key_idx; i++) { auto v = Get(Key(i)); ASSERT_NE(v, "NOT_FOUND"); ASSERT_TRUE(v.size() == 1 || v.size() == 990); } Destroy(options); } TEST_P(DBTestUniversalCompaction, ConcurrentBottomPriLowPriCompactions) { if (num_levels_ == 1) { // for single-level universal, everything's bottom level so nothing should // be executed in bottom-pri thread pool. return; } const int kNumFilesTrigger = 3; Env::Default()->SetBackgroundThreads(1, Env::Priority::BOTTOM); Options options = CurrentOptions(); options.compaction_style = kCompactionStyleUniversal; options.num_levels = num_levels_; options.write_buffer_size = 100 << 10; // 100KB options.target_file_size_base = 32 << 10; // 32KB options.level0_file_num_compaction_trigger = kNumFilesTrigger; // Trigger compaction if size amplification exceeds 110% options.compaction_options_universal.max_size_amplification_percent = 110; DestroyAndReopen(options); rocksdb::SyncPoint::GetInstance()->LoadDependency( {// wait for the full compaction to be picked before adding files intended // for the second one. {"DBImpl::BackgroundCompaction:ForwardToBottomPriPool", "DBTestUniversalCompaction:ConcurrentBottomPriLowPriCompactions:0"}, // the full (bottom-pri) compaction waits until a partial (low-pri) // compaction has started to verify they can run in parallel. {"DBImpl::BackgroundCompaction:NonTrivial", "DBImpl::BGWorkBottomCompaction"}}); SyncPoint::GetInstance()->EnableProcessing(); Random rnd(301); for (int i = 0; i < 2; ++i) { for (int num = 0; num < kNumFilesTrigger; num++) { int key_idx = 0; GenerateNewFile(&rnd, &key_idx, true /* no_wait */); // use no_wait above because that one waits for flush and compaction. We // don't want to wait for compaction because the full compaction is // intentionally blocked while more files are flushed. dbfull()->TEST_WaitForFlushMemTable(); } if (i == 0) { TEST_SYNC_POINT( "DBTestUniversalCompaction:ConcurrentBottomPriLowPriCompactions:0"); } } dbfull()->TEST_WaitForCompact(); // First compaction should output to bottom level. Second should output to L0 // since older L0 files pending compaction prevent it from being placed lower. ASSERT_EQ(NumSortedRuns(), 2); ASSERT_GT(NumTableFilesAtLevel(0), 0); ASSERT_GT(NumTableFilesAtLevel(num_levels_ - 1), 0); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); Env::Default()->SetBackgroundThreads(0, Env::Priority::BOTTOM); } TEST_P(DBTestUniversalCompaction, RecalculateScoreAfterPicking) { // Regression test for extra compactions scheduled. Once enough compactions // have been scheduled to bring the score below one, we should stop // scheduling more; otherwise, other CFs/DBs may be delayed unnecessarily. const int kNumFilesTrigger = 8; Options options = CurrentOptions(); options.compaction_options_universal.max_merge_width = kNumFilesTrigger / 2; options.compaction_options_universal.max_size_amplification_percent = static_cast(-1); options.compaction_style = kCompactionStyleUniversal; options.level0_file_num_compaction_trigger = kNumFilesTrigger; options.num_levels = num_levels_; options.write_buffer_size = 100 << 10; // 100KB Reopen(options); std::atomic num_compactions_attempted(0); rocksdb::SyncPoint::GetInstance()->SetCallBack( "DBImpl::BackgroundCompaction:Start", [&](void* /*arg*/) { ++num_compactions_attempted; }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); Random rnd(301); for (int num = 0; num < kNumFilesTrigger; num++) { ASSERT_EQ(NumSortedRuns(), num); int key_idx = 0; GenerateNewFile(&rnd, &key_idx); } dbfull()->TEST_WaitForCompact(); // Compacting the first four files was enough to bring the score below one so // there's no need to schedule any more compactions. ASSERT_EQ(1, num_compactions_attempted); ASSERT_EQ(NumSortedRuns(), 5); } TEST_P(DBTestUniversalCompaction, FinalSortedRunCompactFilesConflict) { // Regression test for conflict between: // (1) Running CompactFiles including file in the final sorted run; and // (2) Picking universal size-amp-triggered compaction, which always includes // the final sorted run. if (exclusive_manual_compaction_) { return; } Options opts = CurrentOptions(); opts.compaction_style = kCompactionStyleUniversal; opts.compaction_options_universal.max_size_amplification_percent = 50; opts.compaction_options_universal.min_merge_width = 2; opts.compression = kNoCompression; opts.level0_file_num_compaction_trigger = 2; opts.max_background_compactions = 2; opts.num_levels = num_levels_; Reopen(opts); // make sure compaction jobs can be parallelized auto stop_token = dbfull()->TEST_write_controler().GetCompactionPressureToken(); Put("key", "val"); Flush(); dbfull()->CompactRange(CompactRangeOptions(), nullptr, nullptr); ASSERT_EQ(NumTableFilesAtLevel(num_levels_ - 1), 1); ColumnFamilyMetaData cf_meta; ColumnFamilyHandle* default_cfh = db_->DefaultColumnFamily(); dbfull()->GetColumnFamilyMetaData(default_cfh, &cf_meta); ASSERT_EQ(1, cf_meta.levels[num_levels_ - 1].files.size()); std::string first_sst_filename = cf_meta.levels[num_levels_ - 1].files[0].name; rocksdb::SyncPoint::GetInstance()->LoadDependency( {{"CompactFilesImpl:0", "DBTestUniversalCompaction:FinalSortedRunCompactFilesConflict:0"}, {"DBImpl::BackgroundCompaction():AfterPickCompaction", "CompactFilesImpl:1"}}); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); port::Thread compact_files_thread([&]() { ASSERT_OK(dbfull()->CompactFiles(CompactionOptions(), default_cfh, {first_sst_filename}, num_levels_ - 1)); }); TEST_SYNC_POINT( "DBTestUniversalCompaction:FinalSortedRunCompactFilesConflict:0"); for (int i = 0; i < 2; ++i) { Put("key", "val"); Flush(); } dbfull()->TEST_WaitForCompact(); compact_files_thread.join(); } INSTANTIATE_TEST_CASE_P(UniversalCompactionNumLevels, DBTestUniversalCompaction, ::testing::Combine(::testing::Values(1, 3, 5), ::testing::Bool())); class DBTestUniversalManualCompactionOutputPathId : public DBTestUniversalCompactionBase { public: DBTestUniversalManualCompactionOutputPathId() : DBTestUniversalCompactionBase( "/db_universal_compaction_manual_pid_test") {} }; TEST_P(DBTestUniversalManualCompactionOutputPathId, ManualCompactionOutputPathId) { Options options = CurrentOptions(); options.create_if_missing = true; options.db_paths.emplace_back(dbname_, 1000000000); options.db_paths.emplace_back(dbname_ + "_2", 1000000000); options.compaction_style = kCompactionStyleUniversal; options.num_levels = num_levels_; options.target_file_size_base = 1 << 30; // Big size options.level0_file_num_compaction_trigger = 10; Destroy(options); DestroyAndReopen(options); CreateAndReopenWithCF({"pikachu"}, options); MakeTables(3, "p", "q", 1); dbfull()->TEST_WaitForCompact(); ASSERT_EQ(2, TotalLiveFiles(1)); ASSERT_EQ(2, GetSstFileCount(options.db_paths[0].path)); ASSERT_EQ(0, GetSstFileCount(options.db_paths[1].path)); // Full compaction to DB path 0 CompactRangeOptions compact_options; compact_options.target_path_id = 1; compact_options.exclusive_manual_compaction = exclusive_manual_compaction_; db_->CompactRange(compact_options, handles_[1], nullptr, nullptr); ASSERT_EQ(1, TotalLiveFiles(1)); ASSERT_EQ(0, GetSstFileCount(options.db_paths[0].path)); ASSERT_EQ(1, GetSstFileCount(options.db_paths[1].path)); ReopenWithColumnFamilies({kDefaultColumnFamilyName, "pikachu"}, options); ASSERT_EQ(1, TotalLiveFiles(1)); ASSERT_EQ(0, GetSstFileCount(options.db_paths[0].path)); ASSERT_EQ(1, GetSstFileCount(options.db_paths[1].path)); MakeTables(1, "p", "q", 1); ASSERT_EQ(2, TotalLiveFiles(1)); ASSERT_EQ(1, GetSstFileCount(options.db_paths[0].path)); ASSERT_EQ(1, GetSstFileCount(options.db_paths[1].path)); ReopenWithColumnFamilies({kDefaultColumnFamilyName, "pikachu"}, options); ASSERT_EQ(2, TotalLiveFiles(1)); ASSERT_EQ(1, GetSstFileCount(options.db_paths[0].path)); ASSERT_EQ(1, GetSstFileCount(options.db_paths[1].path)); // Full compaction to DB path 0 compact_options.target_path_id = 0; compact_options.exclusive_manual_compaction = exclusive_manual_compaction_; db_->CompactRange(compact_options, handles_[1], nullptr, nullptr); ASSERT_EQ(1, TotalLiveFiles(1)); ASSERT_EQ(1, GetSstFileCount(options.db_paths[0].path)); ASSERT_EQ(0, GetSstFileCount(options.db_paths[1].path)); // Fail when compacting to an invalid path ID compact_options.target_path_id = 2; compact_options.exclusive_manual_compaction = exclusive_manual_compaction_; ASSERT_TRUE(db_->CompactRange(compact_options, handles_[1], nullptr, nullptr) .IsInvalidArgument()); } INSTANTIATE_TEST_CASE_P(DBTestUniversalManualCompactionOutputPathId, DBTestUniversalManualCompactionOutputPathId, ::testing::Combine(::testing::Values(1, 8), ::testing::Bool())); TEST_F(DBTestUniversalDeleteTrigCompaction, BasicL0toL1) { const int kNumKeys = 3000; const int kWindowSize = 100; const int kNumDelsTrigger = 90; Options opts = CurrentOptions(); opts.table_properties_collector_factories.emplace_back( NewCompactOnDeletionCollectorFactory(kWindowSize, kNumDelsTrigger)); opts.compaction_style = kCompactionStyleUniversal; opts.level0_file_num_compaction_trigger = 2; opts.compression = kNoCompression; opts.compaction_options_universal.size_ratio = 10; opts.compaction_options_universal.min_merge_width = 2; opts.compaction_options_universal.max_size_amplification_percent = 200; Reopen(opts); // add an L1 file to prevent tombstones from dropping due to obsolescence // during flush int i; for (i = 0; i < 2000; ++i) { Put(Key(i), "val"); } Flush(); // MoveFilesToLevel(6); dbfull()->CompactRange(CompactRangeOptions(), nullptr, nullptr); for (i = 1999; i < kNumKeys; ++i) { if (i >= kNumKeys - kWindowSize && i < kNumKeys - kWindowSize + kNumDelsTrigger) { Delete(Key(i)); } else { Put(Key(i), "val"); } } Flush(); dbfull()->TEST_WaitForCompact(); ASSERT_EQ(0, NumTableFilesAtLevel(0)); ASSERT_GT(NumTableFilesAtLevel(6), 0); } TEST_F(DBTestUniversalDeleteTrigCompaction, SingleLevel) { const int kNumKeys = 3000; const int kWindowSize = 100; const int kNumDelsTrigger = 90; Options opts = CurrentOptions(); opts.table_properties_collector_factories.emplace_back( NewCompactOnDeletionCollectorFactory(kWindowSize, kNumDelsTrigger)); opts.compaction_style = kCompactionStyleUniversal; opts.level0_file_num_compaction_trigger = 2; opts.compression = kNoCompression; opts.num_levels = 1; opts.compaction_options_universal.size_ratio = 10; opts.compaction_options_universal.min_merge_width = 2; opts.compaction_options_universal.max_size_amplification_percent = 200; Reopen(opts); // add an L1 file to prevent tombstones from dropping due to obsolescence // during flush int i; for (i = 0; i < 2000; ++i) { Put(Key(i), "val"); } Flush(); for (i = 1999; i < kNumKeys; ++i) { if (i >= kNumKeys - kWindowSize && i < kNumKeys - kWindowSize + kNumDelsTrigger) { Delete(Key(i)); } else { Put(Key(i), "val"); } } Flush(); dbfull()->TEST_WaitForCompact(); ASSERT_EQ(1, NumTableFilesAtLevel(0)); } TEST_F(DBTestUniversalDeleteTrigCompaction, MultipleLevels) { const int kWindowSize = 100; const int kNumDelsTrigger = 90; Options opts = CurrentOptions(); opts.table_properties_collector_factories.emplace_back( NewCompactOnDeletionCollectorFactory(kWindowSize, kNumDelsTrigger)); opts.compaction_style = kCompactionStyleUniversal; opts.level0_file_num_compaction_trigger = 4; opts.compression = kNoCompression; opts.compaction_options_universal.size_ratio = 10; opts.compaction_options_universal.min_merge_width = 2; opts.compaction_options_universal.max_size_amplification_percent = 200; Reopen(opts); // add an L1 file to prevent tombstones from dropping due to obsolescence // during flush int i; for (i = 0; i < 500; ++i) { Put(Key(i), "val"); } Flush(); for (i = 500; i < 1000; ++i) { Put(Key(i), "val"); } Flush(); for (i = 1000; i < 1500; ++i) { Put(Key(i), "val"); } Flush(); for (i = 1500; i < 2000; ++i) { Put(Key(i), "val"); } Flush(); dbfull()->TEST_WaitForCompact(); ASSERT_EQ(0, NumTableFilesAtLevel(0)); ASSERT_GT(NumTableFilesAtLevel(6), 0); for (i = 1999; i < 2333; ++i) { Put(Key(i), "val"); } Flush(); for (i = 2333; i < 2666; ++i) { Put(Key(i), "val"); } Flush(); for (i = 2666; i < 2999; ++i) { Put(Key(i), "val"); } Flush(); dbfull()->TEST_WaitForCompact(); ASSERT_EQ(0, NumTableFilesAtLevel(0)); ASSERT_GT(NumTableFilesAtLevel(6), 0); ASSERT_GT(NumTableFilesAtLevel(5), 0); for (i = 1900; i < 2100; ++i) { Delete(Key(i)); } Flush(); dbfull()->TEST_WaitForCompact(); ASSERT_EQ(0, NumTableFilesAtLevel(0)); ASSERT_EQ(0, NumTableFilesAtLevel(1)); ASSERT_EQ(0, NumTableFilesAtLevel(2)); ASSERT_EQ(0, NumTableFilesAtLevel(3)); ASSERT_EQ(0, NumTableFilesAtLevel(4)); ASSERT_EQ(0, NumTableFilesAtLevel(5)); ASSERT_GT(NumTableFilesAtLevel(6), 0); } TEST_F(DBTestUniversalDeleteTrigCompaction, OverlappingL0) { const int kWindowSize = 100; const int kNumDelsTrigger = 90; Options opts = CurrentOptions(); opts.table_properties_collector_factories.emplace_back( NewCompactOnDeletionCollectorFactory(kWindowSize, kNumDelsTrigger)); opts.compaction_style = kCompactionStyleUniversal; opts.level0_file_num_compaction_trigger = 5; opts.compression = kNoCompression; opts.compaction_options_universal.size_ratio = 10; opts.compaction_options_universal.min_merge_width = 2; opts.compaction_options_universal.max_size_amplification_percent = 200; Reopen(opts); // add an L1 file to prevent tombstones from dropping due to obsolescence // during flush int i; for (i = 0; i < 2000; ++i) { Put(Key(i), "val"); } Flush(); for (i = 2000; i < 3000; ++i) { Put(Key(i), "val"); } Flush(); for (i = 3500; i < 4000; ++i) { Put(Key(i), "val"); } Flush(); for (i = 2900; i < 3100; ++i) { Delete(Key(i)); } Flush(); dbfull()->TEST_WaitForCompact(); ASSERT_EQ(2, NumTableFilesAtLevel(0)); ASSERT_GT(NumTableFilesAtLevel(6), 0); } TEST_F(DBTestUniversalDeleteTrigCompaction, IngestBehind) { const int kNumKeys = 3000; const int kWindowSize = 100; const int kNumDelsTrigger = 90; Options opts = CurrentOptions(); opts.table_properties_collector_factories.emplace_back( NewCompactOnDeletionCollectorFactory(kWindowSize, kNumDelsTrigger)); opts.compaction_style = kCompactionStyleUniversal; opts.level0_file_num_compaction_trigger = 2; opts.compression = kNoCompression; opts.allow_ingest_behind = true; opts.compaction_options_universal.size_ratio = 10; opts.compaction_options_universal.min_merge_width = 2; opts.compaction_options_universal.max_size_amplification_percent = 200; Reopen(opts); // add an L1 file to prevent tombstones from dropping due to obsolescence // during flush int i; for (i = 0; i < 2000; ++i) { Put(Key(i), "val"); } Flush(); // MoveFilesToLevel(6); dbfull()->CompactRange(CompactRangeOptions(), nullptr, nullptr); for (i = 1999; i < kNumKeys; ++i) { if (i >= kNumKeys - kWindowSize && i < kNumKeys - kWindowSize + kNumDelsTrigger) { Delete(Key(i)); } else { Put(Key(i), "val"); } } Flush(); dbfull()->TEST_WaitForCompact(); ASSERT_EQ(0, NumTableFilesAtLevel(0)); ASSERT_EQ(0, NumTableFilesAtLevel(6)); ASSERT_GT(NumTableFilesAtLevel(5), 0); } } // namespace rocksdb #endif // !defined(ROCKSDB_LITE) int main(int argc, char** argv) { #if !defined(ROCKSDB_LITE) rocksdb::port::InstallStackTraceHandler(); ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); #else (void) argc; (void) argv; return 0; #endif } rocksdb-5.17.2/db/db_wal_test.cc000066400000000000000000001451151337235545400164420ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "db/db_test_util.h" #include "options/options_helper.h" #include "port/port.h" #include "port/stack_trace.h" #include "util/fault_injection_test_env.h" #include "util/sync_point.h" namespace rocksdb { class DBWALTest : public DBTestBase { public: DBWALTest() : DBTestBase("/db_wal_test") {} #if defined(ROCKSDB_PLATFORM_POSIX) uint64_t GetAllocatedFileSize(std::string file_name) { struct stat sbuf; int err = stat(file_name.c_str(), &sbuf); assert(err == 0); return sbuf.st_blocks * 512; } #endif }; // A SpecialEnv enriched to give more insight about deleted files class EnrichedSpecialEnv : public SpecialEnv { public: explicit EnrichedSpecialEnv(Env* base) : SpecialEnv(base) {} Status NewSequentialFile(const std::string& f, unique_ptr* r, const EnvOptions& soptions) override { InstrumentedMutexLock l(&env_mutex_); if (f == skipped_wal) { deleted_wal_reopened = true; if (IsWAL(f) && largetest_deleted_wal.size() != 0 && f.compare(largetest_deleted_wal) <= 0) { gap_in_wals = true; } } return SpecialEnv::NewSequentialFile(f, r, soptions); } Status DeleteFile(const std::string& fname) override { if (IsWAL(fname)) { deleted_wal_cnt++; InstrumentedMutexLock l(&env_mutex_); // If this is the first WAL, remember its name and skip deleting it. We // remember its name partly because the application might attempt to // delete the file again. if (skipped_wal.size() != 0 && skipped_wal != fname) { if (largetest_deleted_wal.size() == 0 || largetest_deleted_wal.compare(fname) < 0) { largetest_deleted_wal = fname; } } else { skipped_wal = fname; return Status::OK(); } } return SpecialEnv::DeleteFile(fname); } bool IsWAL(const std::string& fname) { // printf("iswal %s\n", fname.c_str()); return fname.compare(fname.size() - 3, 3, "log") == 0; } InstrumentedMutex env_mutex_; // the wal whose actual delete was skipped by the env std::string skipped_wal = ""; // the largest WAL that was requested to be deleted std::string largetest_deleted_wal = ""; // number of WALs that were successfully deleted std::atomic deleted_wal_cnt = {0}; // the WAL whose delete from fs was skipped is reopened during recovery std::atomic deleted_wal_reopened = {false}; // whether a gap in the WALs was detected during recovery std::atomic gap_in_wals = {false}; }; class DBWALTestWithEnrichedEnv : public DBTestBase { public: DBWALTestWithEnrichedEnv() : DBTestBase("/db_wal_test") { enriched_env_ = new EnrichedSpecialEnv(env_->target()); auto options = CurrentOptions(); options.env = enriched_env_; Reopen(options); delete env_; // to be deleted by the parent class env_ = enriched_env_; } protected: EnrichedSpecialEnv* enriched_env_; }; // Test that the recovery would successfully avoid the gaps between the logs. // One known scenario that could cause this is that the application issue the // WAL deletion out of order. For the sake of simplicity in the test, here we // create the gap by manipulating the env to skip deletion of the first WAL but // not the ones after it. TEST_F(DBWALTestWithEnrichedEnv, SkipDeletedWALs) { auto options = last_options_; // To cause frequent WAL deletion options.write_buffer_size = 128; Reopen(options); WriteOptions writeOpt = WriteOptions(); for (int i = 0; i < 128 * 5; i++) { ASSERT_OK(dbfull()->Put(writeOpt, "foo", "v1")); } FlushOptions fo; fo.wait = true; ASSERT_OK(db_->Flush(fo)); // some wals are deleted ASSERT_NE(0, enriched_env_->deleted_wal_cnt); // but not the first one ASSERT_NE(0, enriched_env_->skipped_wal.size()); // Test that the WAL that was not deleted will be skipped during recovery options = last_options_; Reopen(options); ASSERT_FALSE(enriched_env_->deleted_wal_reopened); ASSERT_FALSE(enriched_env_->gap_in_wals); } TEST_F(DBWALTest, WAL) { do { CreateAndReopenWithCF({"pikachu"}, CurrentOptions()); WriteOptions writeOpt = WriteOptions(); writeOpt.disableWAL = true; ASSERT_OK(dbfull()->Put(writeOpt, handles_[1], "foo", "v1")); ASSERT_OK(dbfull()->Put(writeOpt, handles_[1], "bar", "v1")); ReopenWithColumnFamilies({"default", "pikachu"}, CurrentOptions()); ASSERT_EQ("v1", Get(1, "foo")); ASSERT_EQ("v1", Get(1, "bar")); writeOpt.disableWAL = false; ASSERT_OK(dbfull()->Put(writeOpt, handles_[1], "bar", "v2")); writeOpt.disableWAL = true; ASSERT_OK(dbfull()->Put(writeOpt, handles_[1], "foo", "v2")); ReopenWithColumnFamilies({"default", "pikachu"}, CurrentOptions()); // Both value's should be present. ASSERT_EQ("v2", Get(1, "bar")); ASSERT_EQ("v2", Get(1, "foo")); writeOpt.disableWAL = true; ASSERT_OK(dbfull()->Put(writeOpt, handles_[1], "bar", "v3")); writeOpt.disableWAL = false; ASSERT_OK(dbfull()->Put(writeOpt, handles_[1], "foo", "v3")); ReopenWithColumnFamilies({"default", "pikachu"}, CurrentOptions()); // again both values should be present. ASSERT_EQ("v3", Get(1, "foo")); ASSERT_EQ("v3", Get(1, "bar")); } while (ChangeWalOptions()); } TEST_F(DBWALTest, RollLog) { do { CreateAndReopenWithCF({"pikachu"}, CurrentOptions()); ASSERT_OK(Put(1, "foo", "v1")); ASSERT_OK(Put(1, "baz", "v5")); ReopenWithColumnFamilies({"default", "pikachu"}, CurrentOptions()); for (int i = 0; i < 10; i++) { ReopenWithColumnFamilies({"default", "pikachu"}, CurrentOptions()); } ASSERT_OK(Put(1, "foo", "v4")); for (int i = 0; i < 10; i++) { ReopenWithColumnFamilies({"default", "pikachu"}, CurrentOptions()); } } while (ChangeWalOptions()); } TEST_F(DBWALTest, SyncWALNotBlockWrite) { Options options = CurrentOptions(); options.max_write_buffer_number = 4; DestroyAndReopen(options); ASSERT_OK(Put("foo1", "bar1")); ASSERT_OK(Put("foo5", "bar5")); rocksdb::SyncPoint::GetInstance()->LoadDependency({ {"WritableFileWriter::SyncWithoutFlush:1", "DBWALTest::SyncWALNotBlockWrite:1"}, {"DBWALTest::SyncWALNotBlockWrite:2", "WritableFileWriter::SyncWithoutFlush:2"}, }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); rocksdb::port::Thread thread([&]() { ASSERT_OK(db_->SyncWAL()); }); TEST_SYNC_POINT("DBWALTest::SyncWALNotBlockWrite:1"); ASSERT_OK(Put("foo2", "bar2")); ASSERT_OK(Put("foo3", "bar3")); FlushOptions fo; fo.wait = false; ASSERT_OK(db_->Flush(fo)); ASSERT_OK(Put("foo4", "bar4")); TEST_SYNC_POINT("DBWALTest::SyncWALNotBlockWrite:2"); thread.join(); ASSERT_EQ(Get("foo1"), "bar1"); ASSERT_EQ(Get("foo2"), "bar2"); ASSERT_EQ(Get("foo3"), "bar3"); ASSERT_EQ(Get("foo4"), "bar4"); ASSERT_EQ(Get("foo5"), "bar5"); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); } TEST_F(DBWALTest, SyncWALNotWaitWrite) { ASSERT_OK(Put("foo1", "bar1")); ASSERT_OK(Put("foo3", "bar3")); rocksdb::SyncPoint::GetInstance()->LoadDependency({ {"SpecialEnv::WalFile::Append:1", "DBWALTest::SyncWALNotWaitWrite:1"}, {"DBWALTest::SyncWALNotWaitWrite:2", "SpecialEnv::WalFile::Append:2"}, }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); rocksdb::port::Thread thread([&]() { ASSERT_OK(Put("foo2", "bar2")); }); // Moving this to SyncWAL before the actual fsync // TEST_SYNC_POINT("DBWALTest::SyncWALNotWaitWrite:1"); ASSERT_OK(db_->SyncWAL()); // Moving this to SyncWAL after actual fsync // TEST_SYNC_POINT("DBWALTest::SyncWALNotWaitWrite:2"); thread.join(); ASSERT_EQ(Get("foo1"), "bar1"); ASSERT_EQ(Get("foo2"), "bar2"); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); } TEST_F(DBWALTest, Recover) { do { CreateAndReopenWithCF({"pikachu"}, CurrentOptions()); ASSERT_OK(Put(1, "foo", "v1")); ASSERT_OK(Put(1, "baz", "v5")); ReopenWithColumnFamilies({"default", "pikachu"}, CurrentOptions()); ASSERT_EQ("v1", Get(1, "foo")); ASSERT_EQ("v1", Get(1, "foo")); ASSERT_EQ("v5", Get(1, "baz")); ASSERT_OK(Put(1, "bar", "v2")); ASSERT_OK(Put(1, "foo", "v3")); ReopenWithColumnFamilies({"default", "pikachu"}, CurrentOptions()); ASSERT_EQ("v3", Get(1, "foo")); ASSERT_OK(Put(1, "foo", "v4")); ASSERT_EQ("v4", Get(1, "foo")); ASSERT_EQ("v2", Get(1, "bar")); ASSERT_EQ("v5", Get(1, "baz")); } while (ChangeWalOptions()); } TEST_F(DBWALTest, RecoverWithTableHandle) { do { Options options = CurrentOptions(); options.create_if_missing = true; options.disable_auto_compactions = true; options.avoid_flush_during_recovery = false; DestroyAndReopen(options); CreateAndReopenWithCF({"pikachu"}, options); ASSERT_OK(Put(1, "foo", "v1")); ASSERT_OK(Put(1, "bar", "v2")); ASSERT_OK(Flush(1)); ASSERT_OK(Put(1, "foo", "v3")); ASSERT_OK(Put(1, "bar", "v4")); ASSERT_OK(Flush(1)); ASSERT_OK(Put(1, "big", std::string(100, 'a'))); ReopenWithColumnFamilies({"default", "pikachu"}, CurrentOptions()); std::vector> files; dbfull()->TEST_GetFilesMetaData(handles_[1], &files); size_t total_files = 0; for (const auto& level : files) { total_files += level.size(); } ASSERT_EQ(total_files, 3); for (const auto& level : files) { for (const auto& file : level) { if (kInfiniteMaxOpenFiles == option_config_) { ASSERT_TRUE(file.table_reader_handle != nullptr); } else { ASSERT_TRUE(file.table_reader_handle == nullptr); } } } } while (ChangeWalOptions()); } TEST_F(DBWALTest, IgnoreRecoveredLog) { std::string backup_logs = dbname_ + "/backup_logs"; do { // delete old files in backup_logs directory env_->CreateDirIfMissing(backup_logs); std::vector old_files; env_->GetChildren(backup_logs, &old_files); for (auto& file : old_files) { if (file != "." && file != "..") { env_->DeleteFile(backup_logs + "/" + file); } } Options options = CurrentOptions(); options.create_if_missing = true; options.merge_operator = MergeOperators::CreateUInt64AddOperator(); options.wal_dir = dbname_ + "/logs"; DestroyAndReopen(options); // fill up the DB std::string one, two; PutFixed64(&one, 1); PutFixed64(&two, 2); ASSERT_OK(db_->Merge(WriteOptions(), Slice("foo"), Slice(one))); ASSERT_OK(db_->Merge(WriteOptions(), Slice("foo"), Slice(one))); ASSERT_OK(db_->Merge(WriteOptions(), Slice("bar"), Slice(one))); // copy the logs to backup std::vector logs; env_->GetChildren(options.wal_dir, &logs); for (auto& log : logs) { if (log != ".." && log != ".") { CopyFile(options.wal_dir + "/" + log, backup_logs + "/" + log); } } // recover the DB Reopen(options); ASSERT_EQ(two, Get("foo")); ASSERT_EQ(one, Get("bar")); Close(); // copy the logs from backup back to wal dir for (auto& log : logs) { if (log != ".." && log != ".") { CopyFile(backup_logs + "/" + log, options.wal_dir + "/" + log); } } // this should ignore the log files, recovery should not happen again // if the recovery happens, the same merge operator would be called twice, // leading to incorrect results Reopen(options); ASSERT_EQ(two, Get("foo")); ASSERT_EQ(one, Get("bar")); Close(); Destroy(options); Reopen(options); Close(); // copy the logs from backup back to wal dir env_->CreateDirIfMissing(options.wal_dir); for (auto& log : logs) { if (log != ".." && log != ".") { CopyFile(backup_logs + "/" + log, options.wal_dir + "/" + log); } } // assert that we successfully recovered only from logs, even though we // destroyed the DB Reopen(options); ASSERT_EQ(two, Get("foo")); ASSERT_EQ(one, Get("bar")); // Recovery will fail if DB directory doesn't exist. Destroy(options); // copy the logs from backup back to wal dir env_->CreateDirIfMissing(options.wal_dir); for (auto& log : logs) { if (log != ".." && log != ".") { CopyFile(backup_logs + "/" + log, options.wal_dir + "/" + log); // we won't be needing this file no more env_->DeleteFile(backup_logs + "/" + log); } } Status s = TryReopen(options); ASSERT_TRUE(!s.ok()); Destroy(options); } while (ChangeWalOptions()); } TEST_F(DBWALTest, RecoveryWithEmptyLog) { do { CreateAndReopenWithCF({"pikachu"}, CurrentOptions()); ASSERT_OK(Put(1, "foo", "v1")); ASSERT_OK(Put(1, "foo", "v2")); ReopenWithColumnFamilies({"default", "pikachu"}, CurrentOptions()); ReopenWithColumnFamilies({"default", "pikachu"}, CurrentOptions()); ASSERT_OK(Put(1, "foo", "v3")); ReopenWithColumnFamilies({"default", "pikachu"}, CurrentOptions()); ASSERT_EQ("v3", Get(1, "foo")); } while (ChangeWalOptions()); } #if !(defined NDEBUG) || !defined(OS_WIN) TEST_F(DBWALTest, PreallocateBlock) { Options options = CurrentOptions(); options.write_buffer_size = 10 * 1000 * 1000; options.max_total_wal_size = 0; size_t expected_preallocation_size = static_cast( options.write_buffer_size + options.write_buffer_size / 10); DestroyAndReopen(options); std::atomic called(0); rocksdb::SyncPoint::GetInstance()->SetCallBack( "DBTestWalFile.GetPreallocationStatus", [&](void* arg) { ASSERT_TRUE(arg != nullptr); size_t preallocation_size = *(static_cast(arg)); ASSERT_EQ(expected_preallocation_size, preallocation_size); called.fetch_add(1); }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); Put("", ""); Flush(); Put("", ""); Close(); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); ASSERT_EQ(2, called.load()); options.max_total_wal_size = 1000 * 1000; expected_preallocation_size = static_cast(options.max_total_wal_size); Reopen(options); called.store(0); rocksdb::SyncPoint::GetInstance()->SetCallBack( "DBTestWalFile.GetPreallocationStatus", [&](void* arg) { ASSERT_TRUE(arg != nullptr); size_t preallocation_size = *(static_cast(arg)); ASSERT_EQ(expected_preallocation_size, preallocation_size); called.fetch_add(1); }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); Put("", ""); Flush(); Put("", ""); Close(); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); ASSERT_EQ(2, called.load()); options.db_write_buffer_size = 800 * 1000; expected_preallocation_size = static_cast(options.db_write_buffer_size); Reopen(options); called.store(0); rocksdb::SyncPoint::GetInstance()->SetCallBack( "DBTestWalFile.GetPreallocationStatus", [&](void* arg) { ASSERT_TRUE(arg != nullptr); size_t preallocation_size = *(static_cast(arg)); ASSERT_EQ(expected_preallocation_size, preallocation_size); called.fetch_add(1); }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); Put("", ""); Flush(); Put("", ""); Close(); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); ASSERT_EQ(2, called.load()); expected_preallocation_size = 700 * 1000; std::shared_ptr write_buffer_manager = std::make_shared(static_cast(700 * 1000)); options.write_buffer_manager = write_buffer_manager; Reopen(options); called.store(0); rocksdb::SyncPoint::GetInstance()->SetCallBack( "DBTestWalFile.GetPreallocationStatus", [&](void* arg) { ASSERT_TRUE(arg != nullptr); size_t preallocation_size = *(static_cast(arg)); ASSERT_EQ(expected_preallocation_size, preallocation_size); called.fetch_add(1); }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); Put("", ""); Flush(); Put("", ""); Close(); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); ASSERT_EQ(2, called.load()); } #endif // !(defined NDEBUG) || !defined(OS_WIN) #ifndef ROCKSDB_LITE TEST_F(DBWALTest, FullPurgePreservesRecycledLog) { // For github issue #1303 for (int i = 0; i < 2; ++i) { Options options = CurrentOptions(); options.create_if_missing = true; options.recycle_log_file_num = 2; if (i != 0) { options.wal_dir = alternative_wal_dir_; } DestroyAndReopen(options); ASSERT_OK(Put("foo", "v1")); VectorLogPtr log_files; ASSERT_OK(dbfull()->GetSortedWalFiles(log_files)); ASSERT_GT(log_files.size(), 0); ASSERT_OK(Flush()); // Now the original WAL is in log_files[0] and should be marked for // recycling. // Verify full purge cannot remove this file. JobContext job_context(0); dbfull()->TEST_LockMutex(); dbfull()->FindObsoleteFiles(&job_context, true /* force */); dbfull()->TEST_UnlockMutex(); dbfull()->PurgeObsoleteFiles(job_context); if (i == 0) { ASSERT_OK( env_->FileExists(LogFileName(dbname_, log_files[0]->LogNumber()))); } else { ASSERT_OK(env_->FileExists( LogFileName(alternative_wal_dir_, log_files[0]->LogNumber()))); } } } TEST_F(DBWALTest, GetSortedWalFiles) { do { CreateAndReopenWithCF({"pikachu"}, CurrentOptions()); VectorLogPtr log_files; ASSERT_OK(dbfull()->GetSortedWalFiles(log_files)); ASSERT_EQ(0, log_files.size()); ASSERT_OK(Put(1, "foo", "v1")); ASSERT_OK(dbfull()->GetSortedWalFiles(log_files)); ASSERT_EQ(1, log_files.size()); } while (ChangeWalOptions()); } TEST_F(DBWALTest, RecoveryWithLogDataForSomeCFs) { // Test for regression of WAL cleanup missing files that don't contain data // for every column family. do { CreateAndReopenWithCF({"pikachu"}, CurrentOptions()); ASSERT_OK(Put(1, "foo", "v1")); ASSERT_OK(Put(1, "foo", "v2")); uint64_t earliest_log_nums[2]; for (int i = 0; i < 2; ++i) { if (i > 0) { ReopenWithColumnFamilies({"default", "pikachu"}, CurrentOptions()); } VectorLogPtr log_files; ASSERT_OK(dbfull()->GetSortedWalFiles(log_files)); if (log_files.size() > 0) { earliest_log_nums[i] = log_files[0]->LogNumber(); } else { earliest_log_nums[i] = port::kMaxUint64; } } // Check at least the first WAL was cleaned up during the recovery. ASSERT_LT(earliest_log_nums[0], earliest_log_nums[1]); } while (ChangeWalOptions()); } TEST_F(DBWALTest, RecoverWithLargeLog) { do { { Options options = CurrentOptions(); CreateAndReopenWithCF({"pikachu"}, options); ASSERT_OK(Put(1, "big1", std::string(200000, '1'))); ASSERT_OK(Put(1, "big2", std::string(200000, '2'))); ASSERT_OK(Put(1, "small3", std::string(10, '3'))); ASSERT_OK(Put(1, "small4", std::string(10, '4'))); ASSERT_EQ(NumTableFilesAtLevel(0, 1), 0); } // Make sure that if we re-open with a small write buffer size that // we flush table files in the middle of a large log file. Options options; options.write_buffer_size = 100000; options = CurrentOptions(options); ReopenWithColumnFamilies({"default", "pikachu"}, options); ASSERT_EQ(NumTableFilesAtLevel(0, 1), 3); ASSERT_EQ(std::string(200000, '1'), Get(1, "big1")); ASSERT_EQ(std::string(200000, '2'), Get(1, "big2")); ASSERT_EQ(std::string(10, '3'), Get(1, "small3")); ASSERT_EQ(std::string(10, '4'), Get(1, "small4")); ASSERT_GT(NumTableFilesAtLevel(0, 1), 1); } while (ChangeWalOptions()); } // In https://reviews.facebook.net/D20661 we change // recovery behavior: previously for each log file each column family // memtable was flushed, even it was empty. Now it's changed: // we try to create the smallest number of table files by merging // updates from multiple logs TEST_F(DBWALTest, RecoverCheckFileAmountWithSmallWriteBuffer) { Options options = CurrentOptions(); options.write_buffer_size = 5000000; CreateAndReopenWithCF({"pikachu", "dobrynia", "nikitich"}, options); // Since we will reopen DB with smaller write_buffer_size, // each key will go to new SST file ASSERT_OK(Put(1, Key(10), DummyString(1000000))); ASSERT_OK(Put(1, Key(10), DummyString(1000000))); ASSERT_OK(Put(1, Key(10), DummyString(1000000))); ASSERT_OK(Put(1, Key(10), DummyString(1000000))); ASSERT_OK(Put(3, Key(10), DummyString(1))); // Make 'dobrynia' to be flushed and new WAL file to be created ASSERT_OK(Put(2, Key(10), DummyString(7500000))); ASSERT_OK(Put(2, Key(1), DummyString(1))); dbfull()->TEST_WaitForFlushMemTable(handles_[2]); { auto tables = ListTableFiles(env_, dbname_); ASSERT_EQ(tables.size(), static_cast(1)); // Make sure 'dobrynia' was flushed: check sst files amount ASSERT_EQ(GetNumberOfSstFilesForColumnFamily(db_, "dobrynia"), static_cast(1)); } // New WAL file ASSERT_OK(Put(1, Key(1), DummyString(1))); ASSERT_OK(Put(1, Key(1), DummyString(1))); ASSERT_OK(Put(3, Key(10), DummyString(1))); ASSERT_OK(Put(3, Key(10), DummyString(1))); ASSERT_OK(Put(3, Key(10), DummyString(1))); options.write_buffer_size = 4096; options.arena_block_size = 4096; ReopenWithColumnFamilies({"default", "pikachu", "dobrynia", "nikitich"}, options); { // No inserts => default is empty ASSERT_EQ(GetNumberOfSstFilesForColumnFamily(db_, "default"), static_cast(0)); // First 4 keys goes to separate SSTs + 1 more SST for 2 smaller keys ASSERT_EQ(GetNumberOfSstFilesForColumnFamily(db_, "pikachu"), static_cast(5)); // 1 SST for big key + 1 SST for small one ASSERT_EQ(GetNumberOfSstFilesForColumnFamily(db_, "dobrynia"), static_cast(2)); // 1 SST for all keys ASSERT_EQ(GetNumberOfSstFilesForColumnFamily(db_, "nikitich"), static_cast(1)); } } // In https://reviews.facebook.net/D20661 we change // recovery behavior: previously for each log file each column family // memtable was flushed, even it wasn't empty. Now it's changed: // we try to create the smallest number of table files by merging // updates from multiple logs TEST_F(DBWALTest, RecoverCheckFileAmount) { Options options = CurrentOptions(); options.write_buffer_size = 100000; options.arena_block_size = 4 * 1024; options.avoid_flush_during_recovery = false; CreateAndReopenWithCF({"pikachu", "dobrynia", "nikitich"}, options); ASSERT_OK(Put(0, Key(1), DummyString(1))); ASSERT_OK(Put(1, Key(1), DummyString(1))); ASSERT_OK(Put(2, Key(1), DummyString(1))); // Make 'nikitich' memtable to be flushed ASSERT_OK(Put(3, Key(10), DummyString(1002400))); ASSERT_OK(Put(3, Key(1), DummyString(1))); dbfull()->TEST_WaitForFlushMemTable(handles_[3]); // 4 memtable are not flushed, 1 sst file { auto tables = ListTableFiles(env_, dbname_); ASSERT_EQ(tables.size(), static_cast(1)); ASSERT_EQ(GetNumberOfSstFilesForColumnFamily(db_, "nikitich"), static_cast(1)); } // Memtable for 'nikitich' has flushed, new WAL file has opened // 4 memtable still not flushed // Write to new WAL file ASSERT_OK(Put(0, Key(1), DummyString(1))); ASSERT_OK(Put(1, Key(1), DummyString(1))); ASSERT_OK(Put(2, Key(1), DummyString(1))); // Fill up 'nikitich' one more time ASSERT_OK(Put(3, Key(10), DummyString(1002400))); // make it flush ASSERT_OK(Put(3, Key(1), DummyString(1))); dbfull()->TEST_WaitForFlushMemTable(handles_[3]); // There are still 4 memtable not flushed, and 2 sst tables ASSERT_OK(Put(0, Key(1), DummyString(1))); ASSERT_OK(Put(1, Key(1), DummyString(1))); ASSERT_OK(Put(2, Key(1), DummyString(1))); { auto tables = ListTableFiles(env_, dbname_); ASSERT_EQ(tables.size(), static_cast(2)); ASSERT_EQ(GetNumberOfSstFilesForColumnFamily(db_, "nikitich"), static_cast(2)); } ReopenWithColumnFamilies({"default", "pikachu", "dobrynia", "nikitich"}, options); { std::vector table_files = ListTableFiles(env_, dbname_); // Check, that records for 'default', 'dobrynia' and 'pikachu' from // first, second and third WALs went to the same SST. // So, there is 6 SSTs: three for 'nikitich', one for 'default', one for // 'dobrynia', one for 'pikachu' ASSERT_EQ(GetNumberOfSstFilesForColumnFamily(db_, "default"), static_cast(1)); ASSERT_EQ(GetNumberOfSstFilesForColumnFamily(db_, "nikitich"), static_cast(3)); ASSERT_EQ(GetNumberOfSstFilesForColumnFamily(db_, "dobrynia"), static_cast(1)); ASSERT_EQ(GetNumberOfSstFilesForColumnFamily(db_, "pikachu"), static_cast(1)); } } TEST_F(DBWALTest, SyncMultipleLogs) { const uint64_t kNumBatches = 2; const int kBatchSize = 1000; Options options = CurrentOptions(); options.create_if_missing = true; options.write_buffer_size = 4096; Reopen(options); WriteBatch batch; WriteOptions wo; wo.sync = true; for (uint64_t b = 0; b < kNumBatches; b++) { batch.Clear(); for (int i = 0; i < kBatchSize; i++) { batch.Put(Key(i), DummyString(128)); } dbfull()->Write(wo, &batch); } ASSERT_OK(dbfull()->SyncWAL()); } // Github issue 1339. Prior the fix we read sequence id from the first log to // a local variable, then keep increase the variable as we replay logs, // ignoring actual sequence id of the records. This is incorrect if some writes // come with WAL disabled. TEST_F(DBWALTest, PartOfWritesWithWALDisabled) { std::unique_ptr fault_env( new FaultInjectionTestEnv(env_)); Options options = CurrentOptions(); options.env = fault_env.get(); options.disable_auto_compactions = true; WriteOptions wal_on, wal_off; wal_on.sync = true; wal_on.disableWAL = false; wal_off.disableWAL = true; CreateAndReopenWithCF({"dummy"}, options); ASSERT_OK(Put(1, "dummy", "d1", wal_on)); // seq id 1 ASSERT_OK(Put(1, "dummy", "d2", wal_off)); ASSERT_OK(Put(1, "dummy", "d3", wal_off)); ASSERT_OK(Put(0, "key", "v4", wal_on)); // seq id 4 ASSERT_OK(Flush(0)); ASSERT_OK(Put(0, "key", "v5", wal_on)); // seq id 5 ASSERT_EQ("v5", Get(0, "key")); dbfull()->FlushWAL(false); // Simulate a crash. fault_env->SetFilesystemActive(false); Close(); fault_env->ResetState(); ReopenWithColumnFamilies({"default", "dummy"}, options); // Prior to the fix, we may incorrectly recover "v5" with sequence id = 3. ASSERT_EQ("v5", Get(0, "key")); // Destroy DB before destruct fault_env. Destroy(options); } // // Test WAL recovery for the various modes available // class RecoveryTestHelper { public: // Number of WAL files to generate static const int kWALFilesCount = 10; // Starting number for the WAL file name like 00010.log static const int kWALFileOffset = 10; // Keys to be written per WAL file static const int kKeysPerWALFile = 133; // Size of the value static const int kValueSize = 96; // Create WAL files with values filled in static void FillData(DBWALTest* test, const Options& options, const size_t wal_count, size_t* count) { const ImmutableDBOptions db_options(options); *count = 0; shared_ptr table_cache = NewLRUCache(50, 0); EnvOptions env_options; WriteBufferManager write_buffer_manager(db_options.db_write_buffer_size); unique_ptr versions; unique_ptr wal_manager; WriteController write_controller; versions.reset(new VersionSet(test->dbname_, &db_options, env_options, table_cache.get(), &write_buffer_manager, &write_controller)); wal_manager.reset(new WalManager(db_options, env_options)); std::unique_ptr current_log_writer; for (size_t j = kWALFileOffset; j < wal_count + kWALFileOffset; j++) { uint64_t current_log_number = j; std::string fname = LogFileName(test->dbname_, current_log_number); unique_ptr file; ASSERT_OK(db_options.env->NewWritableFile(fname, &file, env_options)); unique_ptr file_writer( new WritableFileWriter(std::move(file), fname, env_options)); current_log_writer.reset( new log::Writer(std::move(file_writer), current_log_number, db_options.recycle_log_file_num > 0)); WriteBatch batch; for (int i = 0; i < kKeysPerWALFile; i++) { std::string key = "key" + ToString((*count)++); std::string value = test->DummyString(kValueSize); assert(current_log_writer.get() != nullptr); uint64_t seq = versions->LastSequence() + 1; batch.Clear(); batch.Put(key, value); WriteBatchInternal::SetSequence(&batch, seq); current_log_writer->AddRecord(WriteBatchInternal::Contents(&batch)); versions->SetLastAllocatedSequence(seq); versions->SetLastPublishedSequence(seq); versions->SetLastSequence(seq); } } } // Recreate and fill the store with some data static size_t FillData(DBWALTest* test, Options* options) { options->create_if_missing = true; test->DestroyAndReopen(*options); test->Close(); size_t count = 0; FillData(test, *options, kWALFilesCount, &count); return count; } // Read back all the keys we wrote and return the number of keys found static size_t GetData(DBWALTest* test) { size_t count = 0; for (size_t i = 0; i < kWALFilesCount * kKeysPerWALFile; i++) { if (test->Get("key" + ToString(i)) != "NOT_FOUND") { ++count; } } return count; } // Manuall corrupt the specified WAL static void CorruptWAL(DBWALTest* test, const Options& options, const double off, const double len, const int wal_file_id, const bool trunc = false) { Env* env = options.env; std::string fname = LogFileName(test->dbname_, wal_file_id); uint64_t size; ASSERT_OK(env->GetFileSize(fname, &size)); ASSERT_GT(size, 0); #ifdef OS_WIN // Windows disk cache behaves differently. When we truncate // the original content is still in the cache due to the original // handle is still open. Generally, in Windows, one prohibits // shared access to files and it is not needed for WAL but we allow // it to induce corruption at various tests. test->Close(); #endif if (trunc) { ASSERT_EQ(0, truncate(fname.c_str(), static_cast(size * off))); } else { InduceCorruption(fname, static_cast(size * off + 8), static_cast(size * len)); } } // Overwrite data with 'a' from offset for length len static void InduceCorruption(const std::string& filename, size_t offset, size_t len) { ASSERT_GT(len, 0U); int fd = open(filename.c_str(), O_RDWR); // On windows long is 32-bit ASSERT_LE(offset, std::numeric_limits::max()); ASSERT_GT(fd, 0); ASSERT_EQ(offset, lseek(fd, static_cast(offset), SEEK_SET)); void* buf = alloca(len); memset(buf, 'b', len); ASSERT_EQ(len, write(fd, buf, static_cast(len))); close(fd); } }; // Test scope: // - We expect to open the data store when there is incomplete trailing writes // at the end of any of the logs // - We do not expect to open the data store for corruption TEST_F(DBWALTest, kTolerateCorruptedTailRecords) { const int jstart = RecoveryTestHelper::kWALFileOffset; const int jend = jstart + RecoveryTestHelper::kWALFilesCount; for (auto trunc : {true, false}) { /* Corruption style */ for (int i = 0; i < 3; i++) { /* Corruption offset position */ for (int j = jstart; j < jend; j++) { /* WAL file */ // Fill data for testing Options options = CurrentOptions(); const size_t row_count = RecoveryTestHelper::FillData(this, &options); // test checksum failure or parsing RecoveryTestHelper::CorruptWAL(this, options, /*off=*/i * .3, /*len%=*/.1, /*wal=*/j, trunc); if (trunc) { options.wal_recovery_mode = WALRecoveryMode::kTolerateCorruptedTailRecords; options.create_if_missing = false; ASSERT_OK(TryReopen(options)); const size_t recovered_row_count = RecoveryTestHelper::GetData(this); ASSERT_TRUE(i == 0 || recovered_row_count > 0); ASSERT_LT(recovered_row_count, row_count); } else { options.wal_recovery_mode = WALRecoveryMode::kTolerateCorruptedTailRecords; ASSERT_NOK(TryReopen(options)); } } } } } // Test scope: // We don't expect the data store to be opened if there is any corruption // (leading, middle or trailing -- incomplete writes or corruption) TEST_F(DBWALTest, kAbsoluteConsistency) { const int jstart = RecoveryTestHelper::kWALFileOffset; const int jend = jstart + RecoveryTestHelper::kWALFilesCount; // Verify clean slate behavior Options options = CurrentOptions(); const size_t row_count = RecoveryTestHelper::FillData(this, &options); options.wal_recovery_mode = WALRecoveryMode::kAbsoluteConsistency; options.create_if_missing = false; ASSERT_OK(TryReopen(options)); ASSERT_EQ(RecoveryTestHelper::GetData(this), row_count); for (auto trunc : {true, false}) { /* Corruption style */ for (int i = 0; i < 4; i++) { /* Corruption offset position */ if (trunc && i == 0) { continue; } for (int j = jstart; j < jend; j++) { /* wal files */ // fill with new date RecoveryTestHelper::FillData(this, &options); // corrupt the wal RecoveryTestHelper::CorruptWAL(this, options, /*off=*/i * .3, /*len%=*/.1, j, trunc); // verify options.wal_recovery_mode = WALRecoveryMode::kAbsoluteConsistency; options.create_if_missing = false; ASSERT_NOK(TryReopen(options)); } } } } // Test scope: // We don't expect the data store to be opened if there is any inconsistency // between WAL and SST files TEST_F(DBWALTest, kPointInTimeRecoveryCFConsistency) { Options options = CurrentOptions(); options.avoid_flush_during_recovery = true; // Create DB with multiple column families. CreateAndReopenWithCF({"one", "two"}, options); ASSERT_OK(Put(1, "key1", "val1")); ASSERT_OK(Put(2, "key2", "val2")); // Record the offset at this point Env* env = options.env; uint64_t wal_file_id = dbfull()->TEST_LogfileNumber(); std::string fname = LogFileName(dbname_, wal_file_id); uint64_t offset_to_corrupt; ASSERT_OK(env->GetFileSize(fname, &offset_to_corrupt)); ASSERT_GT(offset_to_corrupt, 0); ASSERT_OK(Put(1, "key3", "val3")); // Corrupt WAL at location of key3 RecoveryTestHelper::InduceCorruption( fname, static_cast(offset_to_corrupt), static_cast(4)); ASSERT_OK(Put(2, "key4", "val4")); ASSERT_OK(Put(1, "key5", "val5")); Flush(2); // PIT recovery & verify options.wal_recovery_mode = WALRecoveryMode::kPointInTimeRecovery; ASSERT_NOK(TryReopenWithColumnFamilies({"default", "one", "two"}, options)); } // Test scope: // - We expect to open data store under all circumstances // - We expect only data upto the point where the first error was encountered TEST_F(DBWALTest, kPointInTimeRecovery) { const int jstart = RecoveryTestHelper::kWALFileOffset; const int jend = jstart + RecoveryTestHelper::kWALFilesCount; const int maxkeys = RecoveryTestHelper::kWALFilesCount * RecoveryTestHelper::kKeysPerWALFile; for (auto trunc : {true, false}) { /* Corruption style */ for (int i = 0; i < 4; i++) { /* Offset of corruption */ for (int j = jstart; j < jend; j++) { /* WAL file */ // Fill data for testing Options options = CurrentOptions(); const size_t row_count = RecoveryTestHelper::FillData(this, &options); // Corrupt the wal RecoveryTestHelper::CorruptWAL(this, options, /*off=*/i * .3, /*len%=*/.1, j, trunc); // Verify options.wal_recovery_mode = WALRecoveryMode::kPointInTimeRecovery; options.create_if_missing = false; ASSERT_OK(TryReopen(options)); // Probe data for invariants size_t recovered_row_count = RecoveryTestHelper::GetData(this); ASSERT_LT(recovered_row_count, row_count); bool expect_data = true; for (size_t k = 0; k < maxkeys; ++k) { bool found = Get("key" + ToString(i)) != "NOT_FOUND"; if (expect_data && !found) { expect_data = false; } ASSERT_EQ(found, expect_data); } const size_t min = RecoveryTestHelper::kKeysPerWALFile * (j - RecoveryTestHelper::kWALFileOffset); ASSERT_GE(recovered_row_count, min); if (!trunc && i != 0) { const size_t max = RecoveryTestHelper::kKeysPerWALFile * (j - RecoveryTestHelper::kWALFileOffset + 1); ASSERT_LE(recovered_row_count, max); } } } } } // Test scope: // - We expect to open the data store under all scenarios // - We expect to have recovered records past the corruption zone TEST_F(DBWALTest, kSkipAnyCorruptedRecords) { const int jstart = RecoveryTestHelper::kWALFileOffset; const int jend = jstart + RecoveryTestHelper::kWALFilesCount; for (auto trunc : {true, false}) { /* Corruption style */ for (int i = 0; i < 4; i++) { /* Corruption offset */ for (int j = jstart; j < jend; j++) { /* wal files */ // Fill data for testing Options options = CurrentOptions(); const size_t row_count = RecoveryTestHelper::FillData(this, &options); // Corrupt the WAL RecoveryTestHelper::CorruptWAL(this, options, /*off=*/i * .3, /*len%=*/.1, j, trunc); // Verify behavior options.wal_recovery_mode = WALRecoveryMode::kSkipAnyCorruptedRecords; options.create_if_missing = false; ASSERT_OK(TryReopen(options)); // Probe data for invariants size_t recovered_row_count = RecoveryTestHelper::GetData(this); ASSERT_LT(recovered_row_count, row_count); if (!trunc) { ASSERT_TRUE(i != 0 || recovered_row_count > 0); } } } } } TEST_F(DBWALTest, AvoidFlushDuringRecovery) { Options options = CurrentOptions(); options.disable_auto_compactions = true; options.avoid_flush_during_recovery = false; // Test with flush after recovery. Reopen(options); ASSERT_OK(Put("foo", "v1")); ASSERT_OK(Put("bar", "v2")); ASSERT_OK(Flush()); ASSERT_OK(Put("foo", "v3")); ASSERT_OK(Put("bar", "v4")); ASSERT_EQ(1, TotalTableFiles()); // Reopen DB. Check if WAL logs flushed. Reopen(options); ASSERT_EQ("v3", Get("foo")); ASSERT_EQ("v4", Get("bar")); ASSERT_EQ(2, TotalTableFiles()); // Test without flush after recovery. options.avoid_flush_during_recovery = true; DestroyAndReopen(options); ASSERT_OK(Put("foo", "v5")); ASSERT_OK(Put("bar", "v6")); ASSERT_OK(Flush()); ASSERT_OK(Put("foo", "v7")); ASSERT_OK(Put("bar", "v8")); ASSERT_EQ(1, TotalTableFiles()); // Reopen DB. WAL logs should not be flushed this time. Reopen(options); ASSERT_EQ("v7", Get("foo")); ASSERT_EQ("v8", Get("bar")); ASSERT_EQ(1, TotalTableFiles()); // Force flush with allow_2pc. options.avoid_flush_during_recovery = true; options.allow_2pc = true; ASSERT_OK(Put("foo", "v9")); ASSERT_OK(Put("bar", "v10")); ASSERT_OK(Flush()); ASSERT_OK(Put("foo", "v11")); ASSERT_OK(Put("bar", "v12")); Reopen(options); ASSERT_EQ("v11", Get("foo")); ASSERT_EQ("v12", Get("bar")); ASSERT_EQ(3, TotalTableFiles()); } TEST_F(DBWALTest, WalCleanupAfterAvoidFlushDuringRecovery) { // Verifies WAL files that were present during recovery, but not flushed due // to avoid_flush_during_recovery, will be considered for deletion at a later // stage. We check at least one such file is deleted during Flush(). Options options = CurrentOptions(); options.disable_auto_compactions = true; options.avoid_flush_during_recovery = true; Reopen(options); ASSERT_OK(Put("foo", "v1")); Reopen(options); for (int i = 0; i < 2; ++i) { if (i > 0) { // Flush() triggers deletion of obsolete tracked files Flush(); } VectorLogPtr log_files; ASSERT_OK(dbfull()->GetSortedWalFiles(log_files)); if (i == 0) { ASSERT_GT(log_files.size(), 0); } else { ASSERT_EQ(0, log_files.size()); } } } TEST_F(DBWALTest, RecoverWithoutFlush) { Options options = CurrentOptions(); options.avoid_flush_during_recovery = true; options.create_if_missing = false; options.disable_auto_compactions = true; options.write_buffer_size = 64 * 1024 * 1024; size_t count = RecoveryTestHelper::FillData(this, &options); auto validateData = [this, count]() { for (size_t i = 0; i < count; i++) { ASSERT_NE(Get("key" + ToString(i)), "NOT_FOUND"); } }; Reopen(options); validateData(); // Insert some data without flush ASSERT_OK(Put("foo", "foo_v1")); ASSERT_OK(Put("bar", "bar_v1")); Reopen(options); validateData(); ASSERT_EQ(Get("foo"), "foo_v1"); ASSERT_EQ(Get("bar"), "bar_v1"); // Insert again and reopen ASSERT_OK(Put("foo", "foo_v2")); ASSERT_OK(Put("bar", "bar_v2")); Reopen(options); validateData(); ASSERT_EQ(Get("foo"), "foo_v2"); ASSERT_EQ(Get("bar"), "bar_v2"); // manual flush and insert again Flush(); ASSERT_EQ(Get("foo"), "foo_v2"); ASSERT_EQ(Get("bar"), "bar_v2"); ASSERT_OK(Put("foo", "foo_v3")); ASSERT_OK(Put("bar", "bar_v3")); Reopen(options); validateData(); ASSERT_EQ(Get("foo"), "foo_v3"); ASSERT_EQ(Get("bar"), "bar_v3"); } TEST_F(DBWALTest, RecoverWithoutFlushMultipleCF) { const std::string kSmallValue = "v"; const std::string kLargeValue = DummyString(1024); Options options = CurrentOptions(); options.avoid_flush_during_recovery = true; options.create_if_missing = false; options.disable_auto_compactions = true; auto countWalFiles = [this]() { VectorLogPtr log_files; dbfull()->GetSortedWalFiles(log_files); return log_files.size(); }; // Create DB with multiple column families and multiple log files. CreateAndReopenWithCF({"one", "two"}, options); ASSERT_OK(Put(0, "key1", kSmallValue)); ASSERT_OK(Put(1, "key2", kLargeValue)); Flush(1); ASSERT_EQ(1, countWalFiles()); ASSERT_OK(Put(0, "key3", kSmallValue)); ASSERT_OK(Put(2, "key4", kLargeValue)); Flush(2); ASSERT_EQ(2, countWalFiles()); // Reopen, insert and flush. options.db_write_buffer_size = 64 * 1024 * 1024; ReopenWithColumnFamilies({"default", "one", "two"}, options); ASSERT_EQ(Get(0, "key1"), kSmallValue); ASSERT_EQ(Get(1, "key2"), kLargeValue); ASSERT_EQ(Get(0, "key3"), kSmallValue); ASSERT_EQ(Get(2, "key4"), kLargeValue); // Insert more data. ASSERT_OK(Put(0, "key5", kLargeValue)); ASSERT_OK(Put(1, "key6", kLargeValue)); ASSERT_EQ(3, countWalFiles()); Flush(1); ASSERT_OK(Put(2, "key7", kLargeValue)); dbfull()->FlushWAL(false); ASSERT_EQ(4, countWalFiles()); // Reopen twice and validate. for (int i = 0; i < 2; i++) { ReopenWithColumnFamilies({"default", "one", "two"}, options); ASSERT_EQ(Get(0, "key1"), kSmallValue); ASSERT_EQ(Get(1, "key2"), kLargeValue); ASSERT_EQ(Get(0, "key3"), kSmallValue); ASSERT_EQ(Get(2, "key4"), kLargeValue); ASSERT_EQ(Get(0, "key5"), kLargeValue); ASSERT_EQ(Get(1, "key6"), kLargeValue); ASSERT_EQ(Get(2, "key7"), kLargeValue); ASSERT_EQ(4, countWalFiles()); } } // In this test we are trying to do the following: // 1. Create a DB with corrupted WAL log; // 2. Open with avoid_flush_during_recovery = true; // 3. Append more data without flushing, which creates new WAL log. // 4. Open again. See if it can correctly handle previous corruption. TEST_F(DBWALTest, RecoverFromCorruptedWALWithoutFlush) { const int jstart = RecoveryTestHelper::kWALFileOffset; const int jend = jstart + RecoveryTestHelper::kWALFilesCount; const int kAppendKeys = 100; Options options = CurrentOptions(); options.avoid_flush_during_recovery = true; options.create_if_missing = false; options.disable_auto_compactions = true; options.write_buffer_size = 64 * 1024 * 1024; auto getAll = [this]() { std::vector> data; ReadOptions ropt; Iterator* iter = dbfull()->NewIterator(ropt); for (iter->SeekToFirst(); iter->Valid(); iter->Next()) { data.push_back( std::make_pair(iter->key().ToString(), iter->value().ToString())); } delete iter; return data; }; for (auto& mode : wal_recovery_mode_string_map) { options.wal_recovery_mode = mode.second; for (auto trunc : {true, false}) { for (int i = 0; i < 4; i++) { for (int j = jstart; j < jend; j++) { // Create corrupted WAL RecoveryTestHelper::FillData(this, &options); RecoveryTestHelper::CorruptWAL(this, options, /*off=*/i * .3, /*len%=*/.1, /*wal=*/j, trunc); // Skip the test if DB won't open. if (!TryReopen(options).ok()) { ASSERT_TRUE(options.wal_recovery_mode == WALRecoveryMode::kAbsoluteConsistency || (!trunc && options.wal_recovery_mode == WALRecoveryMode::kTolerateCorruptedTailRecords)); continue; } ASSERT_OK(TryReopen(options)); // Append some more data. for (int k = 0; k < kAppendKeys; k++) { std::string key = "extra_key" + ToString(k); std::string value = DummyString(RecoveryTestHelper::kValueSize); ASSERT_OK(Put(key, value)); } // Save data for comparison. auto data = getAll(); // Reopen. Verify data. ASSERT_OK(TryReopen(options)); auto actual_data = getAll(); ASSERT_EQ(data, actual_data); } } } } } // Tests that total log size is recovered if we set // avoid_flush_during_recovery=true. // Flush should trigger if max_total_wal_size is reached. TEST_F(DBWALTest, RestoreTotalLogSizeAfterRecoverWithoutFlush) { class TestFlushListener : public EventListener { public: std::atomic count{0}; TestFlushListener() = default; void OnFlushBegin(DB* /*db*/, const FlushJobInfo& flush_job_info) override { count++; assert(FlushReason::kWriteBufferManager == flush_job_info.flush_reason); } }; std::shared_ptr test_listener = std::make_shared(); constexpr size_t kKB = 1024; constexpr size_t kMB = 1024 * 1024; Options options = CurrentOptions(); options.avoid_flush_during_recovery = true; options.max_total_wal_size = 1 * kMB; options.listeners.push_back(test_listener); // Have to open DB in multi-CF mode to trigger flush when // max_total_wal_size is reached. CreateAndReopenWithCF({"one"}, options); // Write some keys and we will end up with one log file which is slightly // smaller than 1MB. std::string value_100k(100 * kKB, 'v'); std::string value_300k(300 * kKB, 'v'); ASSERT_OK(Put(0, "foo", "v1")); for (int i = 0; i < 9; i++) { ASSERT_OK(Put(1, "key" + ToString(i), value_100k)); } // Get log files before reopen. VectorLogPtr log_files_before; ASSERT_OK(dbfull()->GetSortedWalFiles(log_files_before)); ASSERT_EQ(1, log_files_before.size()); uint64_t log_size_before = log_files_before[0]->SizeFileBytes(); ASSERT_GT(log_size_before, 900 * kKB); ASSERT_LT(log_size_before, 1 * kMB); ReopenWithColumnFamilies({"default", "one"}, options); // Write one more value to make log larger than 1MB. ASSERT_OK(Put(1, "bar", value_300k)); // Get log files again. A new log file will be opened. VectorLogPtr log_files_after_reopen; ASSERT_OK(dbfull()->GetSortedWalFiles(log_files_after_reopen)); ASSERT_EQ(2, log_files_after_reopen.size()); ASSERT_EQ(log_files_before[0]->LogNumber(), log_files_after_reopen[0]->LogNumber()); ASSERT_GT(log_files_after_reopen[0]->SizeFileBytes() + log_files_after_reopen[1]->SizeFileBytes(), 1 * kMB); // Write one more key to trigger flush. ASSERT_OK(Put(0, "foo", "v2")); dbfull()->TEST_WaitForFlushMemTable(); // Flushed two column families. ASSERT_EQ(2, test_listener->count.load()); } #if defined(ROCKSDB_PLATFORM_POSIX) #if defined(ROCKSDB_FALLOCATE_PRESENT) // Tests that we will truncate the preallocated space of the last log from // previous. TEST_F(DBWALTest, TruncateLastLogAfterRecoverWithoutFlush) { constexpr size_t kKB = 1024; Options options = CurrentOptions(); options.avoid_flush_during_recovery = true; DestroyAndReopen(options); size_t preallocated_size = dbfull()->TEST_GetWalPreallocateBlockSize(options.write_buffer_size); ASSERT_OK(Put("foo", "v1")); VectorLogPtr log_files_before; ASSERT_OK(dbfull()->GetSortedWalFiles(log_files_before)); ASSERT_EQ(1, log_files_before.size()); auto& file_before = log_files_before[0]; ASSERT_LT(file_before->SizeFileBytes(), 1 * kKB); // The log file has preallocated space. ASSERT_GE(GetAllocatedFileSize(dbname_ + file_before->PathName()), preallocated_size); Reopen(options); VectorLogPtr log_files_after; ASSERT_OK(dbfull()->GetSortedWalFiles(log_files_after)); ASSERT_EQ(1, log_files_after.size()); ASSERT_LT(log_files_after[0]->SizeFileBytes(), 1 * kKB); // The preallocated space should be truncated. ASSERT_LT(GetAllocatedFileSize(dbname_ + file_before->PathName()), preallocated_size); } #endif // ROCKSDB_FALLOCATE_PRESENT #endif // ROCKSDB_PLATFORM_POSIX #endif // ROCKSDB_LITE TEST_F(DBWALTest, WalTermTest) { Options options = CurrentOptions(); options.env = env_; CreateAndReopenWithCF({"pikachu"}, options); ASSERT_OK(Put(1, "foo", "bar")); WriteOptions wo; wo.sync = true; wo.disableWAL = false; WriteBatch batch; batch.Put("foo", "bar"); batch.MarkWalTerminationPoint(); batch.Put("foo2", "bar2"); ASSERT_OK(dbfull()->Write(wo, &batch)); // make sure we can re-open it. ASSERT_OK(TryReopenWithColumnFamilies({"default", "pikachu"}, options)); ASSERT_EQ("bar", Get(1, "foo")); ASSERT_EQ("NOT_FOUND", Get(1, "foo2")); } } // namespace rocksdb int main(int argc, char** argv) { rocksdb::port::InstallStackTraceHandler(); ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/db/db_write_test.cc000066400000000000000000000123101337235545400167770ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include #include #include #include #include "db/db_test_util.h" #include "db/write_batch_internal.h" #include "db/write_thread.h" #include "port/port.h" #include "port/stack_trace.h" #include "util/fault_injection_test_env.h" #include "util/string_util.h" #include "util/sync_point.h" namespace rocksdb { // Test variations of WriteImpl. class DBWriteTest : public DBTestBase, public testing::WithParamInterface { public: DBWriteTest() : DBTestBase("/db_write_test") {} Options GetOptions() { return DBTestBase::GetOptions(GetParam()); } void Open() { DBTestBase::Reopen(GetOptions()); } }; // It is invalid to do sync write while disabling WAL. TEST_P(DBWriteTest, SyncAndDisableWAL) { WriteOptions write_options; write_options.sync = true; write_options.disableWAL = true; ASSERT_TRUE(dbfull()->Put(write_options, "foo", "bar").IsInvalidArgument()); WriteBatch batch; ASSERT_OK(batch.Put("foo", "bar")); ASSERT_TRUE(dbfull()->Write(write_options, &batch).IsInvalidArgument()); } TEST_P(DBWriteTest, IOErrorOnWALWritePropagateToWriteThreadFollower) { constexpr int kNumThreads = 5; std::unique_ptr mock_env( new FaultInjectionTestEnv(Env::Default())); Options options = GetOptions(); options.env = mock_env.get(); Reopen(options); std::atomic ready_count{0}; std::atomic leader_count{0}; std::vector threads; mock_env->SetFilesystemActive(false); // Wait until all threads linked to write threads, to make sure // all threads join the same batch group. SyncPoint::GetInstance()->SetCallBack( "WriteThread::JoinBatchGroup:Wait", [&](void* arg) { ready_count++; auto* w = reinterpret_cast(arg); if (w->state == WriteThread::STATE_GROUP_LEADER) { leader_count++; while (ready_count < kNumThreads) { // busy waiting } } }); SyncPoint::GetInstance()->EnableProcessing(); for (int i = 0; i < kNumThreads; i++) { threads.push_back(port::Thread( [&](int index) { // All threads should fail. auto res = Put("key" + ToString(index), "value"); if (options.manual_wal_flush) { ASSERT_TRUE(res.ok()); // we should see fs error when we do the flush // TSAN reports a false alarm for lock-order-inversion but Open and // FlushWAL are not run concurrently. Disabling this until TSAN is // fixed. // res = dbfull()->FlushWAL(false); // ASSERT_FALSE(res.ok()); } else { ASSERT_FALSE(res.ok()); } }, i)); } for (int i = 0; i < kNumThreads; i++) { threads[i].join(); } ASSERT_EQ(1, leader_count); // Close before mock_env destruct. Close(); } TEST_P(DBWriteTest, ManualWalFlushInEffect) { Options options = GetOptions(); Reopen(options); // try the 1st WAL created during open ASSERT_TRUE(Put("key" + ToString(0), "value").ok()); ASSERT_TRUE(options.manual_wal_flush != dbfull()->TEST_WALBufferIsEmpty()); ASSERT_TRUE(dbfull()->FlushWAL(false).ok()); ASSERT_TRUE(dbfull()->TEST_WALBufferIsEmpty()); // try the 2nd wal created during SwitchWAL dbfull()->TEST_SwitchWAL(); ASSERT_TRUE(Put("key" + ToString(0), "value").ok()); ASSERT_TRUE(options.manual_wal_flush != dbfull()->TEST_WALBufferIsEmpty()); ASSERT_TRUE(dbfull()->FlushWAL(false).ok()); ASSERT_TRUE(dbfull()->TEST_WALBufferIsEmpty()); } TEST_P(DBWriteTest, IOErrorOnWALWriteTriggersReadOnlyMode) { std::unique_ptr mock_env( new FaultInjectionTestEnv(Env::Default())); Options options = GetOptions(); options.env = mock_env.get(); Reopen(options); for (int i = 0; i < 2; i++) { // Forcibly fail WAL write for the first Put only. Subsequent Puts should // fail due to read-only mode mock_env->SetFilesystemActive(i != 0); auto res = Put("key" + ToString(i), "value"); // TSAN reports a false alarm for lock-order-inversion but Open and // FlushWAL are not run concurrently. Disabling this until TSAN is // fixed. /* if (options.manual_wal_flush && i == 0) { // even with manual_wal_flush the 2nd Put should return error because of // the read-only mode ASSERT_TRUE(res.ok()); // we should see fs error when we do the flush res = dbfull()->FlushWAL(false); } */ if (!options.manual_wal_flush) { ASSERT_FALSE(res.ok()); } } // Close before mock_env destruct. Close(); } INSTANTIATE_TEST_CASE_P(DBWriteTestInstance, DBWriteTest, testing::Values(DBTestBase::kDefault, DBTestBase::kConcurrentWALWrites, DBTestBase::kPipelinedWrite)); } // namespace rocksdb int main(int argc, char** argv) { rocksdb::port::InstallStackTraceHandler(); ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/db/dbformat.cc000066400000000000000000000142731337235545400157510ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "db/dbformat.h" #ifndef __STDC_FORMAT_MACROS #define __STDC_FORMAT_MACROS #endif #include #include #include "monitoring/perf_context_imp.h" #include "port/port.h" #include "util/coding.h" #include "util/string_util.h" namespace rocksdb { // kValueTypeForSeek defines the ValueType that should be passed when // constructing a ParsedInternalKey object for seeking to a particular // sequence number (since we sort sequence numbers in decreasing order // and the value type is embedded as the low 8 bits in the sequence // number in internal keys, we need to use the highest-numbered // ValueType, not the lowest). const ValueType kValueTypeForSeek = kTypeBlobIndex; const ValueType kValueTypeForSeekForPrev = kTypeDeletion; uint64_t PackSequenceAndType(uint64_t seq, ValueType t) { assert(seq <= kMaxSequenceNumber); assert(IsExtendedValueType(t)); return (seq << 8) | t; } EntryType GetEntryType(ValueType value_type) { switch (value_type) { case kTypeValue: return kEntryPut; case kTypeDeletion: return kEntryDelete; case kTypeSingleDeletion: return kEntrySingleDelete; case kTypeMerge: return kEntryMerge; case kTypeRangeDeletion: return kEntryRangeDeletion; case kTypeBlobIndex: return kEntryBlobIndex; default: return kEntryOther; } } bool ParseFullKey(const Slice& internal_key, FullKey* fkey) { ParsedInternalKey ikey; if (!ParseInternalKey(internal_key, &ikey)) { return false; } fkey->user_key = ikey.user_key; fkey->sequence = ikey.sequence; fkey->type = GetEntryType(ikey.type); return true; } void UnPackSequenceAndType(uint64_t packed, uint64_t* seq, ValueType* t) { *seq = packed >> 8; *t = static_cast(packed & 0xff); assert(*seq <= kMaxSequenceNumber); assert(IsExtendedValueType(*t)); } void AppendInternalKey(std::string* result, const ParsedInternalKey& key) { result->append(key.user_key.data(), key.user_key.size()); PutFixed64(result, PackSequenceAndType(key.sequence, key.type)); } void AppendInternalKeyFooter(std::string* result, SequenceNumber s, ValueType t) { PutFixed64(result, PackSequenceAndType(s, t)); } std::string ParsedInternalKey::DebugString(bool hex) const { char buf[50]; snprintf(buf, sizeof(buf), "' seq:%" PRIu64 ", type:%d", sequence, static_cast(type)); std::string result = "'"; result += user_key.ToString(hex); result += buf; return result; } std::string InternalKey::DebugString(bool hex) const { std::string result; ParsedInternalKey parsed; if (ParseInternalKey(rep_, &parsed)) { result = parsed.DebugString(hex); } else { result = "(bad)"; result.append(EscapeString(rep_)); } return result; } const char* InternalKeyComparator::Name() const { return name_.c_str(); } int InternalKeyComparator::Compare(const ParsedInternalKey& a, const ParsedInternalKey& b) const { // Order by: // increasing user key (according to user-supplied comparator) // decreasing sequence number // decreasing type (though sequence# should be enough to disambiguate) int r = user_comparator_->Compare(a.user_key, b.user_key); PERF_COUNTER_ADD(user_key_comparison_count, 1); if (r == 0) { if (a.sequence > b.sequence) { r = -1; } else if (a.sequence < b.sequence) { r = +1; } else if (a.type > b.type) { r = -1; } else if (a.type < b.type) { r = +1; } } return r; } void InternalKeyComparator::FindShortestSeparator( std::string* start, const Slice& limit) const { // Attempt to shorten the user portion of the key Slice user_start = ExtractUserKey(*start); Slice user_limit = ExtractUserKey(limit); std::string tmp(user_start.data(), user_start.size()); user_comparator_->FindShortestSeparator(&tmp, user_limit); if (tmp.size() <= user_start.size() && user_comparator_->Compare(user_start, tmp) < 0) { // User key has become shorter physically, but larger logically. // Tack on the earliest possible number to the shortened user key. PutFixed64(&tmp, PackSequenceAndType(kMaxSequenceNumber,kValueTypeForSeek)); assert(this->Compare(*start, tmp) < 0); assert(this->Compare(tmp, limit) < 0); start->swap(tmp); } } void InternalKeyComparator::FindShortSuccessor(std::string* key) const { Slice user_key = ExtractUserKey(*key); std::string tmp(user_key.data(), user_key.size()); user_comparator_->FindShortSuccessor(&tmp); if (tmp.size() <= user_key.size() && user_comparator_->Compare(user_key, tmp) < 0) { // User key has become shorter physically, but larger logically. // Tack on the earliest possible number to the shortened user key. PutFixed64(&tmp, PackSequenceAndType(kMaxSequenceNumber,kValueTypeForSeek)); assert(this->Compare(*key, tmp) < 0); key->swap(tmp); } } LookupKey::LookupKey(const Slice& _user_key, SequenceNumber s) { size_t usize = _user_key.size(); size_t needed = usize + 13; // A conservative estimate char* dst; if (needed <= sizeof(space_)) { dst = space_; } else { dst = new char[needed]; } start_ = dst; // NOTE: We don't support users keys of more than 2GB :) dst = EncodeVarint32(dst, static_cast(usize + 8)); kstart_ = dst; memcpy(dst, _user_key.data(), usize); dst += usize; EncodeFixed64(dst, PackSequenceAndType(s, kValueTypeForSeek)); dst += 8; end_ = dst; } void IterKey::EnlargeBuffer(size_t key_size) { // If size is smaller than buffer size, continue using current buffer, // or the static allocated one, as default assert(key_size > buf_size_); // Need to enlarge the buffer. ResetBuffer(); buf_ = new char[key_size]; buf_size_ = key_size; } } // namespace rocksdb rocksdb-5.17.2/db/dbformat.h000066400000000000000000000546511337235545400156170ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #include #include #include #include "monitoring/perf_context_imp.h" #include "rocksdb/comparator.h" #include "rocksdb/db.h" #include "rocksdb/filter_policy.h" #include "rocksdb/slice.h" #include "rocksdb/slice_transform.h" #include "rocksdb/table.h" #include "rocksdb/types.h" #include "util/coding.h" #include "util/logging.h" namespace rocksdb { class InternalKey; // Value types encoded as the last component of internal keys. // DO NOT CHANGE THESE ENUM VALUES: they are embedded in the on-disk // data structures. // The highest bit of the value type needs to be reserved to SST tables // for them to do more flexible encoding. enum ValueType : unsigned char { kTypeDeletion = 0x0, kTypeValue = 0x1, kTypeMerge = 0x2, kTypeLogData = 0x3, // WAL only. kTypeColumnFamilyDeletion = 0x4, // WAL only. kTypeColumnFamilyValue = 0x5, // WAL only. kTypeColumnFamilyMerge = 0x6, // WAL only. kTypeSingleDeletion = 0x7, kTypeColumnFamilySingleDeletion = 0x8, // WAL only. kTypeBeginPrepareXID = 0x9, // WAL only. kTypeEndPrepareXID = 0xA, // WAL only. kTypeCommitXID = 0xB, // WAL only. kTypeRollbackXID = 0xC, // WAL only. kTypeNoop = 0xD, // WAL only. kTypeColumnFamilyRangeDeletion = 0xE, // WAL only. kTypeRangeDeletion = 0xF, // meta block kTypeColumnFamilyBlobIndex = 0x10, // Blob DB only kTypeBlobIndex = 0x11, // Blob DB only // When the prepared record is also persisted in db, we use a different // record. This is to ensure that the WAL that is generated by a WritePolicy // is not mistakenly read by another, which would result into data // inconsistency. kTypeBeginPersistedPrepareXID = 0x12, // WAL only. // Similar to kTypeBeginPersistedPrepareXID, this is to ensure that WAL // generated by WriteUnprepared write policy is not mistakenly read by // another. kTypeBeginUnprepareXID = 0x13, // WAL only. kMaxValue = 0x7F // Not used for storing records. }; // Defined in dbformat.cc extern const ValueType kValueTypeForSeek; extern const ValueType kValueTypeForSeekForPrev; // Checks whether a type is an inline value type // (i.e. a type used in memtable skiplist and sst file datablock). inline bool IsValueType(ValueType t) { return t <= kTypeMerge || t == kTypeSingleDeletion || t == kTypeBlobIndex; } // Checks whether a type is from user operation // kTypeRangeDeletion is in meta block so this API is separated from above inline bool IsExtendedValueType(ValueType t) { return IsValueType(t) || t == kTypeRangeDeletion; } // We leave eight bits empty at the bottom so a type and sequence# // can be packed together into 64-bits. static const SequenceNumber kMaxSequenceNumber = ((0x1ull << 56) - 1); static const SequenceNumber kDisableGlobalSequenceNumber = port::kMaxUint64; struct ParsedInternalKey { Slice user_key; SequenceNumber sequence; ValueType type; ParsedInternalKey() : sequence(kMaxSequenceNumber) // Make code analyzer happy {} // Intentionally left uninitialized (for speed) ParsedInternalKey(const Slice& u, const SequenceNumber& seq, ValueType t) : user_key(u), sequence(seq), type(t) { } std::string DebugString(bool hex = false) const; void clear() { user_key.clear(); sequence = 0; type = kTypeDeletion; } }; // Return the length of the encoding of "key". inline size_t InternalKeyEncodingLength(const ParsedInternalKey& key) { return key.user_key.size() + 8; } // Pack a sequence number and a ValueType into a uint64_t extern uint64_t PackSequenceAndType(uint64_t seq, ValueType t); // Given the result of PackSequenceAndType, store the sequence number in *seq // and the ValueType in *t. extern void UnPackSequenceAndType(uint64_t packed, uint64_t* seq, ValueType* t); EntryType GetEntryType(ValueType value_type); // Append the serialization of "key" to *result. extern void AppendInternalKey(std::string* result, const ParsedInternalKey& key); // Serialized internal key consists of user key followed by footer. // This function appends the footer to *result, assuming that *result already // contains the user key at the end. extern void AppendInternalKeyFooter(std::string* result, SequenceNumber s, ValueType t); // Attempt to parse an internal key from "internal_key". On success, // stores the parsed data in "*result", and returns true. // // On error, returns false, leaves "*result" in an undefined state. extern bool ParseInternalKey(const Slice& internal_key, ParsedInternalKey* result); // Returns the user key portion of an internal key. inline Slice ExtractUserKey(const Slice& internal_key) { assert(internal_key.size() >= 8); return Slice(internal_key.data(), internal_key.size() - 8); } inline uint64_t ExtractInternalKeyFooter(const Slice& internal_key) { assert(internal_key.size() >= 8); const size_t n = internal_key.size(); return DecodeFixed64(internal_key.data() + n - 8); } inline ValueType ExtractValueType(const Slice& internal_key) { uint64_t num = ExtractInternalKeyFooter(internal_key); unsigned char c = num & 0xff; return static_cast(c); } // A comparator for internal keys that uses a specified comparator for // the user key portion and breaks ties by decreasing sequence number. class InternalKeyComparator #ifdef NDEBUG final #endif : public Comparator { private: const Comparator* user_comparator_; std::string name_; public: explicit InternalKeyComparator(const Comparator* c) : user_comparator_(c), name_("rocksdb.InternalKeyComparator:" + std::string(user_comparator_->Name())) { } virtual ~InternalKeyComparator() {} virtual const char* Name() const override; virtual int Compare(const Slice& a, const Slice& b) const override; // Same as Compare except that it excludes the value type from comparison virtual int CompareKeySeq(const Slice& a, const Slice& b) const; virtual void FindShortestSeparator(std::string* start, const Slice& limit) const override; virtual void FindShortSuccessor(std::string* key) const override; const Comparator* user_comparator() const { return user_comparator_; } int Compare(const InternalKey& a, const InternalKey& b) const; int Compare(const ParsedInternalKey& a, const ParsedInternalKey& b) const; virtual const Comparator* GetRootComparator() const override { return user_comparator_->GetRootComparator(); } }; // Modules in this directory should keep internal keys wrapped inside // the following class instead of plain strings so that we do not // incorrectly use string comparisons instead of an InternalKeyComparator. class InternalKey { private: std::string rep_; public: InternalKey() { } // Leave rep_ as empty to indicate it is invalid InternalKey(const Slice& _user_key, SequenceNumber s, ValueType t) { AppendInternalKey(&rep_, ParsedInternalKey(_user_key, s, t)); } // sets the internal key to be bigger or equal to all internal keys with this // user key void SetMaxPossibleForUserKey(const Slice& _user_key) { AppendInternalKey( &rep_, ParsedInternalKey(_user_key, 0, static_cast(0))); } // sets the internal key to be smaller or equal to all internal keys with this // user key void SetMinPossibleForUserKey(const Slice& _user_key) { AppendInternalKey(&rep_, ParsedInternalKey(_user_key, kMaxSequenceNumber, kValueTypeForSeek)); } bool Valid() const { ParsedInternalKey parsed; return ParseInternalKey(Slice(rep_), &parsed); } void DecodeFrom(const Slice& s) { rep_.assign(s.data(), s.size()); } Slice Encode() const { assert(!rep_.empty()); return rep_; } Slice user_key() const { return ExtractUserKey(rep_); } size_t size() { return rep_.size(); } void Set(const Slice& _user_key, SequenceNumber s, ValueType t) { SetFrom(ParsedInternalKey(_user_key, s, t)); } void SetFrom(const ParsedInternalKey& p) { rep_.clear(); AppendInternalKey(&rep_, p); } void Clear() { rep_.clear(); } // The underlying representation. // Intended only to be used together with ConvertFromUserKey(). std::string* rep() { return &rep_; } // Assuming that *rep() contains a user key, this method makes internal key // out of it in-place. This saves a memcpy compared to Set()/SetFrom(). void ConvertFromUserKey(SequenceNumber s, ValueType t) { AppendInternalKeyFooter(&rep_, s, t); } std::string DebugString(bool hex = false) const; }; inline int InternalKeyComparator::Compare( const InternalKey& a, const InternalKey& b) const { return Compare(a.Encode(), b.Encode()); } inline bool ParseInternalKey(const Slice& internal_key, ParsedInternalKey* result) { const size_t n = internal_key.size(); if (n < 8) return false; uint64_t num = DecodeFixed64(internal_key.data() + n - 8); unsigned char c = num & 0xff; result->sequence = num >> 8; result->type = static_cast(c); assert(result->type <= ValueType::kMaxValue); result->user_key = Slice(internal_key.data(), n - 8); return IsExtendedValueType(result->type); } // Update the sequence number in the internal key. // Guarantees not to invalidate ikey.data(). inline void UpdateInternalKey(std::string* ikey, uint64_t seq, ValueType t) { size_t ikey_sz = ikey->size(); assert(ikey_sz >= 8); uint64_t newval = (seq << 8) | t; // Note: Since C++11, strings are guaranteed to be stored contiguously and // string::operator[]() is guaranteed not to change ikey.data(). EncodeFixed64(&(*ikey)[ikey_sz - 8], newval); } // Get the sequence number from the internal key inline uint64_t GetInternalKeySeqno(const Slice& internal_key) { const size_t n = internal_key.size(); assert(n >= 8); uint64_t num = DecodeFixed64(internal_key.data() + n - 8); return num >> 8; } // A helper class useful for DBImpl::Get() class LookupKey { public: // Initialize *this for looking up user_key at a snapshot with // the specified sequence number. LookupKey(const Slice& _user_key, SequenceNumber sequence); ~LookupKey(); // Return a key suitable for lookup in a MemTable. Slice memtable_key() const { return Slice(start_, static_cast(end_ - start_)); } // Return an internal key (suitable for passing to an internal iterator) Slice internal_key() const { return Slice(kstart_, static_cast(end_ - kstart_)); } // Return the user key Slice user_key() const { return Slice(kstart_, static_cast(end_ - kstart_ - 8)); } private: // We construct a char array of the form: // klength varint32 <-- start_ // userkey char[klength] <-- kstart_ // tag uint64 // <-- end_ // The array is a suitable MemTable key. // The suffix starting with "userkey" can be used as an InternalKey. const char* start_; const char* kstart_; const char* end_; char space_[200]; // Avoid allocation for short keys // No copying allowed LookupKey(const LookupKey&); void operator=(const LookupKey&); }; inline LookupKey::~LookupKey() { if (start_ != space_) delete[] start_; } class IterKey { public: IterKey() : buf_(space_), buf_size_(sizeof(space_)), key_(buf_), key_size_(0), is_user_key_(true) {} ~IterKey() { ResetBuffer(); } // The bool will be picked up by the next calls to SetKey void SetIsUserKey(bool is_user_key) { is_user_key_ = is_user_key; } // Returns the key in whichever format that was provided to KeyIter Slice GetKey() const { return Slice(key_, key_size_); } Slice GetInternalKey() const { assert(!IsUserKey()); return Slice(key_, key_size_); } Slice GetUserKey() const { if (IsUserKey()) { return Slice(key_, key_size_); } else { assert(key_size_ >= 8); return Slice(key_, key_size_ - 8); } } size_t Size() const { return key_size_; } void Clear() { key_size_ = 0; } // Append "non_shared_data" to its back, from "shared_len" // This function is used in Block::Iter::ParseNextKey // shared_len: bytes in [0, shard_len-1] would be remained // non_shared_data: data to be append, its length must be >= non_shared_len void TrimAppend(const size_t shared_len, const char* non_shared_data, const size_t non_shared_len) { assert(shared_len <= key_size_); size_t total_size = shared_len + non_shared_len; if (IsKeyPinned() /* key is not in buf_ */) { // Copy the key from external memory to buf_ (copy shared_len bytes) EnlargeBufferIfNeeded(total_size); memcpy(buf_, key_, shared_len); } else if (total_size > buf_size_) { // Need to allocate space, delete previous space char* p = new char[total_size]; memcpy(p, key_, shared_len); if (buf_ != space_) { delete[] buf_; } buf_ = p; buf_size_ = total_size; } memcpy(buf_ + shared_len, non_shared_data, non_shared_len); key_ = buf_; key_size_ = total_size; } Slice SetKey(const Slice& key, bool copy = true) { // is_user_key_ expected to be set already via SetIsUserKey return SetKeyImpl(key, copy); } Slice SetUserKey(const Slice& key, bool copy = true) { is_user_key_ = true; return SetKeyImpl(key, copy); } Slice SetInternalKey(const Slice& key, bool copy = true) { is_user_key_ = false; return SetKeyImpl(key, copy); } // Copies the content of key, updates the reference to the user key in ikey // and returns a Slice referencing the new copy. Slice SetInternalKey(const Slice& key, ParsedInternalKey* ikey) { size_t key_n = key.size(); assert(key_n >= 8); SetInternalKey(key); ikey->user_key = Slice(key_, key_n - 8); return Slice(key_, key_n); } // Copy the key into IterKey own buf_ void OwnKey() { assert(IsKeyPinned() == true); Reserve(key_size_); memcpy(buf_, key_, key_size_); key_ = buf_; } // Update the sequence number in the internal key. Guarantees not to // invalidate slices to the key (and the user key). void UpdateInternalKey(uint64_t seq, ValueType t) { assert(!IsKeyPinned()); assert(key_size_ >= 8); uint64_t newval = (seq << 8) | t; EncodeFixed64(&buf_[key_size_ - 8], newval); } bool IsKeyPinned() const { return (key_ != buf_); } void SetInternalKey(const Slice& key_prefix, const Slice& user_key, SequenceNumber s, ValueType value_type = kValueTypeForSeek) { size_t psize = key_prefix.size(); size_t usize = user_key.size(); EnlargeBufferIfNeeded(psize + usize + sizeof(uint64_t)); if (psize > 0) { memcpy(buf_, key_prefix.data(), psize); } memcpy(buf_ + psize, user_key.data(), usize); EncodeFixed64(buf_ + usize + psize, PackSequenceAndType(s, value_type)); key_ = buf_; key_size_ = psize + usize + sizeof(uint64_t); is_user_key_ = false; } void SetInternalKey(const Slice& user_key, SequenceNumber s, ValueType value_type = kValueTypeForSeek) { SetInternalKey(Slice(), user_key, s, value_type); } void Reserve(size_t size) { EnlargeBufferIfNeeded(size); key_size_ = size; } void SetInternalKey(const ParsedInternalKey& parsed_key) { SetInternalKey(Slice(), parsed_key); } void SetInternalKey(const Slice& key_prefix, const ParsedInternalKey& parsed_key_suffix) { SetInternalKey(key_prefix, parsed_key_suffix.user_key, parsed_key_suffix.sequence, parsed_key_suffix.type); } void EncodeLengthPrefixedKey(const Slice& key) { auto size = key.size(); EnlargeBufferIfNeeded(size + static_cast(VarintLength(size))); char* ptr = EncodeVarint32(buf_, static_cast(size)); memcpy(ptr, key.data(), size); key_ = buf_; is_user_key_ = true; } bool IsUserKey() const { return is_user_key_; } private: char* buf_; size_t buf_size_; const char* key_; size_t key_size_; char space_[32]; // Avoid allocation for short keys bool is_user_key_; Slice SetKeyImpl(const Slice& key, bool copy) { size_t size = key.size(); if (copy) { // Copy key to buf_ EnlargeBufferIfNeeded(size); memcpy(buf_, key.data(), size); key_ = buf_; } else { // Update key_ to point to external memory key_ = key.data(); } key_size_ = size; return Slice(key_, key_size_); } void ResetBuffer() { if (buf_ != space_) { delete[] buf_; buf_ = space_; } buf_size_ = sizeof(space_); key_size_ = 0; } // Enlarge the buffer size if needed based on key_size. // By default, static allocated buffer is used. Once there is a key // larger than the static allocated buffer, another buffer is dynamically // allocated, until a larger key buffer is requested. In that case, we // reallocate buffer and delete the old one. void EnlargeBufferIfNeeded(size_t key_size) { // If size is smaller than buffer size, continue using current buffer, // or the static allocated one, as default if (key_size > buf_size_) { EnlargeBuffer(key_size); } } void EnlargeBuffer(size_t key_size); // No copying allowed IterKey(const IterKey&) = delete; void operator=(const IterKey&) = delete; }; class InternalKeySliceTransform : public SliceTransform { public: explicit InternalKeySliceTransform(const SliceTransform* transform) : transform_(transform) {} virtual const char* Name() const override { return transform_->Name(); } virtual Slice Transform(const Slice& src) const override { auto user_key = ExtractUserKey(src); return transform_->Transform(user_key); } virtual bool InDomain(const Slice& src) const override { auto user_key = ExtractUserKey(src); return transform_->InDomain(user_key); } virtual bool InRange(const Slice& dst) const override { auto user_key = ExtractUserKey(dst); return transform_->InRange(user_key); } const SliceTransform* user_prefix_extractor() const { return transform_; } private: // Like comparator, InternalKeySliceTransform will not take care of the // deletion of transform_ const SliceTransform* const transform_; }; // Read the key of a record from a write batch. // if this record represent the default column family then cf_record // must be passed as false, otherwise it must be passed as true. extern bool ReadKeyFromWriteBatchEntry(Slice* input, Slice* key, bool cf_record); // Read record from a write batch piece from input. // tag, column_family, key, value and blob are return values. Callers own the // Slice they point to. // Tag is defined as ValueType. // input will be advanced to after the record. extern Status ReadRecordFromWriteBatch(Slice* input, char* tag, uint32_t* column_family, Slice* key, Slice* value, Slice* blob, Slice* xid); // When user call DeleteRange() to delete a range of keys, // we will store a serialized RangeTombstone in MemTable and SST. // the struct here is a easy-understood form // start/end_key_ is the start/end user key of the range to be deleted struct RangeTombstone { Slice start_key_; Slice end_key_; SequenceNumber seq_; RangeTombstone() = default; RangeTombstone(Slice sk, Slice ek, SequenceNumber sn) : start_key_(sk), end_key_(ek), seq_(sn) {} RangeTombstone(ParsedInternalKey parsed_key, Slice value) { start_key_ = parsed_key.user_key; seq_ = parsed_key.sequence; end_key_ = value; } // be careful to use Serialize(), allocates new memory std::pair Serialize() const { auto key = InternalKey(start_key_, seq_, kTypeRangeDeletion); Slice value = end_key_; return std::make_pair(std::move(key), std::move(value)); } // be careful to use SerializeKey(), allocates new memory InternalKey SerializeKey() const { return InternalKey(start_key_, seq_, kTypeRangeDeletion); } // The tombstone end-key is exclusive, so we generate an internal-key here // which has a similar property. Using kMaxSequenceNumber guarantees that // the returned internal-key will compare less than any other internal-key // with the same user-key. This in turn guarantees that the serialized // end-key for a tombstone such as [a-b] will compare less than the key "b". // // be careful to use SerializeEndKey(), allocates new memory InternalKey SerializeEndKey() const { return InternalKey(end_key_, kMaxSequenceNumber, kTypeRangeDeletion); } }; inline int InternalKeyComparator::Compare(const Slice& akey, const Slice& bkey) const { // Order by: // increasing user key (according to user-supplied comparator) // decreasing sequence number // decreasing type (though sequence# should be enough to disambiguate) int r = user_comparator_->Compare(ExtractUserKey(akey), ExtractUserKey(bkey)); PERF_COUNTER_ADD(user_key_comparison_count, 1); if (r == 0) { const uint64_t anum = DecodeFixed64(akey.data() + akey.size() - 8); const uint64_t bnum = DecodeFixed64(bkey.data() + bkey.size() - 8); if (anum > bnum) { r = -1; } else if (anum < bnum) { r = +1; } } return r; } inline int InternalKeyComparator::CompareKeySeq(const Slice& akey, const Slice& bkey) const { // Order by: // increasing user key (according to user-supplied comparator) // decreasing sequence number int r = user_comparator_->Compare(ExtractUserKey(akey), ExtractUserKey(bkey)); PERF_COUNTER_ADD(user_key_comparison_count, 1); if (r == 0) { // Shift the number to exclude the last byte which contains the value type const uint64_t anum = DecodeFixed64(akey.data() + akey.size() - 8) >> 8; const uint64_t bnum = DecodeFixed64(bkey.data() + bkey.size() - 8) >> 8; if (anum > bnum) { r = -1; } else if (anum < bnum) { r = +1; } } return r; } } // namespace rocksdb rocksdb-5.17.2/db/dbformat_test.cc000066400000000000000000000162761337235545400170150ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "db/dbformat.h" #include "util/logging.h" #include "util/testharness.h" namespace rocksdb { static std::string IKey(const std::string& user_key, uint64_t seq, ValueType vt) { std::string encoded; AppendInternalKey(&encoded, ParsedInternalKey(user_key, seq, vt)); return encoded; } static std::string Shorten(const std::string& s, const std::string& l) { std::string result = s; InternalKeyComparator(BytewiseComparator()).FindShortestSeparator(&result, l); return result; } static std::string ShortSuccessor(const std::string& s) { std::string result = s; InternalKeyComparator(BytewiseComparator()).FindShortSuccessor(&result); return result; } static void TestKey(const std::string& key, uint64_t seq, ValueType vt) { std::string encoded = IKey(key, seq, vt); Slice in(encoded); ParsedInternalKey decoded("", 0, kTypeValue); ASSERT_TRUE(ParseInternalKey(in, &decoded)); ASSERT_EQ(key, decoded.user_key.ToString()); ASSERT_EQ(seq, decoded.sequence); ASSERT_EQ(vt, decoded.type); ASSERT_TRUE(!ParseInternalKey(Slice("bar"), &decoded)); } class FormatTest : public testing::Test {}; TEST_F(FormatTest, InternalKey_EncodeDecode) { const char* keys[] = { "", "k", "hello", "longggggggggggggggggggggg" }; const uint64_t seq[] = { 1, 2, 3, (1ull << 8) - 1, 1ull << 8, (1ull << 8) + 1, (1ull << 16) - 1, 1ull << 16, (1ull << 16) + 1, (1ull << 32) - 1, 1ull << 32, (1ull << 32) + 1 }; for (unsigned int k = 0; k < sizeof(keys) / sizeof(keys[0]); k++) { for (unsigned int s = 0; s < sizeof(seq) / sizeof(seq[0]); s++) { TestKey(keys[k], seq[s], kTypeValue); TestKey("hello", 1, kTypeDeletion); } } } TEST_F(FormatTest, InternalKeyShortSeparator) { // When user keys are same ASSERT_EQ(IKey("foo", 100, kTypeValue), Shorten(IKey("foo", 100, kTypeValue), IKey("foo", 99, kTypeValue))); ASSERT_EQ(IKey("foo", 100, kTypeValue), Shorten(IKey("foo", 100, kTypeValue), IKey("foo", 101, kTypeValue))); ASSERT_EQ(IKey("foo", 100, kTypeValue), Shorten(IKey("foo", 100, kTypeValue), IKey("foo", 100, kTypeValue))); ASSERT_EQ(IKey("foo", 100, kTypeValue), Shorten(IKey("foo", 100, kTypeValue), IKey("foo", 100, kTypeDeletion))); // When user keys are misordered ASSERT_EQ(IKey("foo", 100, kTypeValue), Shorten(IKey("foo", 100, kTypeValue), IKey("bar", 99, kTypeValue))); // When user keys are different, but correctly ordered ASSERT_EQ(IKey("g", kMaxSequenceNumber, kValueTypeForSeek), Shorten(IKey("foo", 100, kTypeValue), IKey("hello", 200, kTypeValue))); ASSERT_EQ(IKey("ABC2", kMaxSequenceNumber, kValueTypeForSeek), Shorten(IKey("ABC1AAAAA", 100, kTypeValue), IKey("ABC2ABB", 200, kTypeValue))); ASSERT_EQ(IKey("AAA2", kMaxSequenceNumber, kValueTypeForSeek), Shorten(IKey("AAA1AAA", 100, kTypeValue), IKey("AAA2AA", 200, kTypeValue))); ASSERT_EQ( IKey("AAA2", kMaxSequenceNumber, kValueTypeForSeek), Shorten(IKey("AAA1AAA", 100, kTypeValue), IKey("AAA4", 200, kTypeValue))); ASSERT_EQ( IKey("AAA1B", kMaxSequenceNumber, kValueTypeForSeek), Shorten(IKey("AAA1AAA", 100, kTypeValue), IKey("AAA2", 200, kTypeValue))); ASSERT_EQ(IKey("AAA2", kMaxSequenceNumber, kValueTypeForSeek), Shorten(IKey("AAA1AAA", 100, kTypeValue), IKey("AAA2A", 200, kTypeValue))); ASSERT_EQ( IKey("AAA1", 100, kTypeValue), Shorten(IKey("AAA1", 100, kTypeValue), IKey("AAA2", 200, kTypeValue))); // When start user key is prefix of limit user key ASSERT_EQ(IKey("foo", 100, kTypeValue), Shorten(IKey("foo", 100, kTypeValue), IKey("foobar", 200, kTypeValue))); // When limit user key is prefix of start user key ASSERT_EQ(IKey("foobar", 100, kTypeValue), Shorten(IKey("foobar", 100, kTypeValue), IKey("foo", 200, kTypeValue))); } TEST_F(FormatTest, InternalKeyShortestSuccessor) { ASSERT_EQ(IKey("g", kMaxSequenceNumber, kValueTypeForSeek), ShortSuccessor(IKey("foo", 100, kTypeValue))); ASSERT_EQ(IKey("\xff\xff", 100, kTypeValue), ShortSuccessor(IKey("\xff\xff", 100, kTypeValue))); } TEST_F(FormatTest, IterKeyOperation) { IterKey k; const char p[] = "abcdefghijklmnopqrstuvwxyz"; const char q[] = "0123456789"; ASSERT_EQ(std::string(k.GetUserKey().data(), k.GetUserKey().size()), std::string("")); k.TrimAppend(0, p, 3); ASSERT_EQ(std::string(k.GetUserKey().data(), k.GetUserKey().size()), std::string("abc")); k.TrimAppend(1, p, 3); ASSERT_EQ(std::string(k.GetUserKey().data(), k.GetUserKey().size()), std::string("aabc")); k.TrimAppend(0, p, 26); ASSERT_EQ(std::string(k.GetUserKey().data(), k.GetUserKey().size()), std::string("abcdefghijklmnopqrstuvwxyz")); k.TrimAppend(26, q, 10); ASSERT_EQ(std::string(k.GetUserKey().data(), k.GetUserKey().size()), std::string("abcdefghijklmnopqrstuvwxyz0123456789")); k.TrimAppend(36, q, 1); ASSERT_EQ(std::string(k.GetUserKey().data(), k.GetUserKey().size()), std::string("abcdefghijklmnopqrstuvwxyz01234567890")); k.TrimAppend(26, q, 1); ASSERT_EQ(std::string(k.GetUserKey().data(), k.GetUserKey().size()), std::string("abcdefghijklmnopqrstuvwxyz0")); // Size going up, memory allocation is triggered k.TrimAppend(27, p, 26); ASSERT_EQ(std::string(k.GetUserKey().data(), k.GetUserKey().size()), std::string("abcdefghijklmnopqrstuvwxyz0" "abcdefghijklmnopqrstuvwxyz")); } TEST_F(FormatTest, UpdateInternalKey) { std::string user_key("abcdefghijklmnopqrstuvwxyz"); uint64_t new_seq = 0x123456; ValueType new_val_type = kTypeDeletion; std::string ikey; AppendInternalKey(&ikey, ParsedInternalKey(user_key, 100U, kTypeValue)); size_t ikey_size = ikey.size(); UpdateInternalKey(&ikey, new_seq, new_val_type); ASSERT_EQ(ikey_size, ikey.size()); Slice in(ikey); ParsedInternalKey decoded; ASSERT_TRUE(ParseInternalKey(in, &decoded)); ASSERT_EQ(user_key, decoded.user_key.ToString()); ASSERT_EQ(new_seq, decoded.sequence); ASSERT_EQ(new_val_type, decoded.type); } TEST_F(FormatTest, RangeTombstoneSerializeEndKey) { RangeTombstone t("a", "b", 2); InternalKey k("b", 3, kTypeValue); const InternalKeyComparator cmp(BytewiseComparator()); ASSERT_LT(cmp.Compare(t.SerializeEndKey(), k), 0); } } // namespace rocksdb int main(int argc, char** argv) { ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/db/deletefile_test.cc000066400000000000000000000401551337235545400173120ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #ifndef ROCKSDB_LITE #include #include #include #include #include "db/db_impl.h" #include "db/version_set.h" #include "db/write_batch_internal.h" #include "rocksdb/db.h" #include "rocksdb/env.h" #include "rocksdb/transaction_log.h" #include "util/filename.h" #include "util/string_util.h" #include "util/sync_point.h" #include "util/testharness.h" #include "util/testutil.h" namespace rocksdb { class DeleteFileTest : public testing::Test { public: std::string dbname_; Options options_; DB* db_; Env* env_; int numlevels_; DeleteFileTest() { db_ = nullptr; env_ = Env::Default(); options_.delete_obsolete_files_period_micros = 0; // always do full purge options_.enable_thread_tracking = true; options_.write_buffer_size = 1024*1024*1000; options_.target_file_size_base = 1024*1024*1000; options_.max_bytes_for_level_base = 1024*1024*1000; options_.WAL_ttl_seconds = 300; // Used to test log files options_.WAL_size_limit_MB = 1024; // Used to test log files dbname_ = test::PerThreadDBPath("deletefile_test"); options_.wal_dir = dbname_ + "/wal_files"; // clean up all the files that might have been there before std::vector old_files; env_->GetChildren(dbname_, &old_files); for (auto file : old_files) { env_->DeleteFile(dbname_ + "/" + file); } env_->GetChildren(options_.wal_dir, &old_files); for (auto file : old_files) { env_->DeleteFile(options_.wal_dir + "/" + file); } DestroyDB(dbname_, options_); numlevels_ = 7; EXPECT_OK(ReopenDB(true)); } Status ReopenDB(bool create) { delete db_; if (create) { DestroyDB(dbname_, options_); } db_ = nullptr; options_.create_if_missing = create; return DB::Open(options_, dbname_, &db_); } void CloseDB() { delete db_; db_ = nullptr; } void AddKeys(int numkeys, int startkey = 0) { WriteOptions options; options.sync = false; ReadOptions roptions; for (int i = startkey; i < (numkeys + startkey) ; i++) { std::string temp = ToString(i); Slice key(temp); Slice value(temp); ASSERT_OK(db_->Put(options, key, value)); } } int numKeysInLevels( std::vector &metadata, std::vector *keysperlevel = nullptr) { if (keysperlevel != nullptr) { keysperlevel->resize(numlevels_); } int numKeys = 0; for (size_t i = 0; i < metadata.size(); i++) { int startkey = atoi(metadata[i].smallestkey.c_str()); int endkey = atoi(metadata[i].largestkey.c_str()); int numkeysinfile = (endkey - startkey + 1); numKeys += numkeysinfile; if (keysperlevel != nullptr) { (*keysperlevel)[(int)metadata[i].level] += numkeysinfile; } fprintf(stderr, "level %d name %s smallest %s largest %s\n", metadata[i].level, metadata[i].name.c_str(), metadata[i].smallestkey.c_str(), metadata[i].largestkey.c_str()); } return numKeys; } void CreateTwoLevels() { AddKeys(50000, 10000); DBImpl* dbi = reinterpret_cast(db_); ASSERT_OK(dbi->TEST_FlushMemTable()); ASSERT_OK(dbi->TEST_WaitForFlushMemTable()); for (int i = 0; i < 2; ++i) { ASSERT_OK(dbi->TEST_CompactRange(i, nullptr, nullptr)); } AddKeys(50000, 10000); ASSERT_OK(dbi->TEST_FlushMemTable()); ASSERT_OK(dbi->TEST_WaitForFlushMemTable()); ASSERT_OK(dbi->TEST_CompactRange(0, nullptr, nullptr)); } void CheckFileTypeCounts(std::string& dir, int required_log, int required_sst, int required_manifest) { std::vector filenames; env_->GetChildren(dir, &filenames); int log_cnt = 0, sst_cnt = 0, manifest_cnt = 0; for (auto file : filenames) { uint64_t number; FileType type; if (ParseFileName(file, &number, &type)) { log_cnt += (type == kLogFile); sst_cnt += (type == kTableFile); manifest_cnt += (type == kDescriptorFile); } } ASSERT_EQ(required_log, log_cnt); ASSERT_EQ(required_sst, sst_cnt); ASSERT_EQ(required_manifest, manifest_cnt); } static void DoSleep(void* arg) { auto test = reinterpret_cast(arg); test->env_->SleepForMicroseconds(2 * 1000 * 1000); } // An empty job to guard all jobs are processed static void GuardFinish(void* /*arg*/) { TEST_SYNC_POINT("DeleteFileTest::GuardFinish"); } }; TEST_F(DeleteFileTest, AddKeysAndQueryLevels) { CreateTwoLevels(); std::vector metadata; db_->GetLiveFilesMetaData(&metadata); std::string level1file = ""; int level1keycount = 0; std::string level2file = ""; int level2keycount = 0; int level1index = 0; int level2index = 1; ASSERT_EQ((int)metadata.size(), 2); if (metadata[0].level == 2) { level1index = 1; level2index = 0; } level1file = metadata[level1index].name; int startkey = atoi(metadata[level1index].smallestkey.c_str()); int endkey = atoi(metadata[level1index].largestkey.c_str()); level1keycount = (endkey - startkey + 1); level2file = metadata[level2index].name; startkey = atoi(metadata[level2index].smallestkey.c_str()); endkey = atoi(metadata[level2index].largestkey.c_str()); level2keycount = (endkey - startkey + 1); // COntrolled setup. Levels 1 and 2 should both have 50K files. // This is a little fragile as it depends on the current // compaction heuristics. ASSERT_EQ(level1keycount, 50000); ASSERT_EQ(level2keycount, 50000); Status status = db_->DeleteFile("0.sst"); ASSERT_TRUE(status.IsInvalidArgument()); // intermediate level files cannot be deleted. status = db_->DeleteFile(level1file); ASSERT_TRUE(status.IsInvalidArgument()); // Lowest level file deletion should succeed. ASSERT_OK(db_->DeleteFile(level2file)); CloseDB(); } TEST_F(DeleteFileTest, PurgeObsoleteFilesTest) { CreateTwoLevels(); // there should be only one (empty) log file because CreateTwoLevels() // flushes the memtables to disk CheckFileTypeCounts(options_.wal_dir, 1, 0, 0); // 2 ssts, 1 manifest CheckFileTypeCounts(dbname_, 0, 2, 1); std::string first("0"), last("999999"); CompactRangeOptions compact_options; compact_options.change_level = true; compact_options.target_level = 2; Slice first_slice(first), last_slice(last); db_->CompactRange(compact_options, &first_slice, &last_slice); // 1 sst after compaction CheckFileTypeCounts(dbname_, 0, 1, 1); // this time, we keep an iterator alive ReopenDB(true); Iterator *itr = nullptr; CreateTwoLevels(); itr = db_->NewIterator(ReadOptions()); db_->CompactRange(compact_options, &first_slice, &last_slice); // 3 sst after compaction with live iterator CheckFileTypeCounts(dbname_, 0, 3, 1); delete itr; // 1 sst after iterator deletion CheckFileTypeCounts(dbname_, 0, 1, 1); CloseDB(); } TEST_F(DeleteFileTest, BackgroundPurgeTest) { std::string first("0"), last("999999"); CompactRangeOptions compact_options; compact_options.change_level = true; compact_options.target_level = 2; Slice first_slice(first), last_slice(last); // We keep an iterator alive Iterator* itr = nullptr; CreateTwoLevels(); ReadOptions options; options.background_purge_on_iterator_cleanup = true; itr = db_->NewIterator(options); db_->CompactRange(compact_options, &first_slice, &last_slice); // 3 sst after compaction with live iterator CheckFileTypeCounts(dbname_, 0, 3, 1); test::SleepingBackgroundTask sleeping_task_before; env_->Schedule(&test::SleepingBackgroundTask::DoSleepTask, &sleeping_task_before, Env::Priority::HIGH); delete itr; test::SleepingBackgroundTask sleeping_task_after; env_->Schedule(&test::SleepingBackgroundTask::DoSleepTask, &sleeping_task_after, Env::Priority::HIGH); // Make sure no purges are executed foreground CheckFileTypeCounts(dbname_, 0, 3, 1); sleeping_task_before.WakeUp(); sleeping_task_before.WaitUntilDone(); // Make sure all background purges are executed sleeping_task_after.WakeUp(); sleeping_task_after.WaitUntilDone(); // 1 sst after iterator deletion CheckFileTypeCounts(dbname_, 0, 1, 1); CloseDB(); } // This test is to reproduce a bug that read invalid ReadOption in iterator // cleanup function TEST_F(DeleteFileTest, BackgroundPurgeCopyOptions) { std::string first("0"), last("999999"); CompactRangeOptions compact_options; compact_options.change_level = true; compact_options.target_level = 2; Slice first_slice(first), last_slice(last); // We keep an iterator alive Iterator* itr = nullptr; CreateTwoLevels(); ReadOptions* options = new ReadOptions(); options->background_purge_on_iterator_cleanup = true; itr = db_->NewIterator(*options); // ReadOptions is deleted, but iterator cleanup function should not be // affected delete options; db_->CompactRange(compact_options, &first_slice, &last_slice); // 3 sst after compaction with live iterator CheckFileTypeCounts(dbname_, 0, 3, 1); delete itr; test::SleepingBackgroundTask sleeping_task_after; env_->Schedule(&test::SleepingBackgroundTask::DoSleepTask, &sleeping_task_after, Env::Priority::HIGH); // Make sure all background purges are executed sleeping_task_after.WakeUp(); sleeping_task_after.WaitUntilDone(); // 1 sst after iterator deletion CheckFileTypeCounts(dbname_, 0, 1, 1); CloseDB(); } TEST_F(DeleteFileTest, BackgroundPurgeTestMultipleJobs) { std::string first("0"), last("999999"); CompactRangeOptions compact_options; compact_options.change_level = true; compact_options.target_level = 2; Slice first_slice(first), last_slice(last); // We keep an iterator alive CreateTwoLevels(); ReadOptions options; options.background_purge_on_iterator_cleanup = true; Iterator* itr1 = db_->NewIterator(options); CreateTwoLevels(); Iterator* itr2 = db_->NewIterator(options); db_->CompactRange(compact_options, &first_slice, &last_slice); // 5 sst files after 2 compactions with 2 live iterators CheckFileTypeCounts(dbname_, 0, 5, 1); // ~DBImpl should wait until all BGWorkPurge are finished rocksdb::SyncPoint::GetInstance()->LoadDependency( {{"DBImpl::~DBImpl:WaitJob", "DBImpl::BGWorkPurge"}, {"DeleteFileTest::GuardFinish", "DeleteFileTest::BackgroundPurgeTestMultipleJobs:DBClose"}}); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); delete itr1; env_->Schedule(&DeleteFileTest::DoSleep, this, Env::Priority::HIGH); delete itr2; env_->Schedule(&DeleteFileTest::GuardFinish, nullptr, Env::Priority::HIGH); CloseDB(); TEST_SYNC_POINT("DeleteFileTest::BackgroundPurgeTestMultipleJobs:DBClose"); // 1 sst after iterator deletion CheckFileTypeCounts(dbname_, 0, 1, 1); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); } TEST_F(DeleteFileTest, DeleteFileWithIterator) { CreateTwoLevels(); ReadOptions options; Iterator* it = db_->NewIterator(options); std::vector metadata; db_->GetLiveFilesMetaData(&metadata); std::string level2file = ""; ASSERT_EQ((int)metadata.size(), 2); if (metadata[0].level == 1) { level2file = metadata[1].name; } else { level2file = metadata[0].name; } Status status = db_->DeleteFile(level2file); fprintf(stdout, "Deletion status %s: %s\n", level2file.c_str(), status.ToString().c_str()); ASSERT_TRUE(status.ok()); it->SeekToFirst(); int numKeysIterated = 0; while(it->Valid()) { numKeysIterated++; it->Next(); } ASSERT_EQ(numKeysIterated, 50000); delete it; CloseDB(); } TEST_F(DeleteFileTest, DeleteLogFiles) { AddKeys(10, 0); VectorLogPtr logfiles; db_->GetSortedWalFiles(logfiles); ASSERT_GT(logfiles.size(), 0UL); // Take the last log file which is expected to be alive and try to delete it // Should not succeed because live logs are not allowed to be deleted std::unique_ptr alive_log = std::move(logfiles.back()); ASSERT_EQ(alive_log->Type(), kAliveLogFile); ASSERT_OK(env_->FileExists(options_.wal_dir + "/" + alive_log->PathName())); fprintf(stdout, "Deleting alive log file %s\n", alive_log->PathName().c_str()); ASSERT_TRUE(!db_->DeleteFile(alive_log->PathName()).ok()); ASSERT_OK(env_->FileExists(options_.wal_dir + "/" + alive_log->PathName())); logfiles.clear(); // Call Flush to bring about a new working log file and add more keys // Call Flush again to flush out memtable and move alive log to archived log // and try to delete the archived log file FlushOptions fopts; db_->Flush(fopts); AddKeys(10, 0); db_->Flush(fopts); db_->GetSortedWalFiles(logfiles); ASSERT_GT(logfiles.size(), 0UL); std::unique_ptr archived_log = std::move(logfiles.front()); ASSERT_EQ(archived_log->Type(), kArchivedLogFile); ASSERT_OK( env_->FileExists(options_.wal_dir + "/" + archived_log->PathName())); fprintf(stdout, "Deleting archived log file %s\n", archived_log->PathName().c_str()); ASSERT_OK(db_->DeleteFile(archived_log->PathName())); ASSERT_EQ(Status::NotFound(), env_->FileExists(options_.wal_dir + "/" + archived_log->PathName())); CloseDB(); } TEST_F(DeleteFileTest, DeleteNonDefaultColumnFamily) { CloseDB(); DBOptions db_options; db_options.create_if_missing = true; db_options.create_missing_column_families = true; std::vector column_families; column_families.emplace_back(); column_families.emplace_back("new_cf", ColumnFamilyOptions()); std::vector handles; rocksdb::DB* db; ASSERT_OK(DB::Open(db_options, dbname_, column_families, &handles, &db)); Random rnd(5); for (int i = 0; i < 1000; ++i) { ASSERT_OK(db->Put(WriteOptions(), handles[1], test::RandomKey(&rnd, 10), test::RandomKey(&rnd, 10))); } ASSERT_OK(db->Flush(FlushOptions(), handles[1])); for (int i = 0; i < 1000; ++i) { ASSERT_OK(db->Put(WriteOptions(), handles[1], test::RandomKey(&rnd, 10), test::RandomKey(&rnd, 10))); } ASSERT_OK(db->Flush(FlushOptions(), handles[1])); std::vector metadata; db->GetLiveFilesMetaData(&metadata); ASSERT_EQ(2U, metadata.size()); ASSERT_EQ("new_cf", metadata[0].column_family_name); ASSERT_EQ("new_cf", metadata[1].column_family_name); auto old_file = metadata[0].smallest_seqno < metadata[1].smallest_seqno ? metadata[0].name : metadata[1].name; auto new_file = metadata[0].smallest_seqno > metadata[1].smallest_seqno ? metadata[0].name : metadata[1].name; ASSERT_TRUE(db->DeleteFile(new_file).IsInvalidArgument()); ASSERT_OK(db->DeleteFile(old_file)); { std::unique_ptr itr(db->NewIterator(ReadOptions(), handles[1])); int count = 0; for (itr->SeekToFirst(); itr->Valid(); itr->Next()) { ASSERT_OK(itr->status()); ++count; } ASSERT_EQ(count, 1000); } delete handles[0]; delete handles[1]; delete db; ASSERT_OK(DB::Open(db_options, dbname_, column_families, &handles, &db)); { std::unique_ptr itr(db->NewIterator(ReadOptions(), handles[1])); int count = 0; for (itr->SeekToFirst(); itr->Valid(); itr->Next()) { ASSERT_OK(itr->status()); ++count; } ASSERT_EQ(count, 1000); } delete handles[0]; delete handles[1]; delete db; } } //namespace rocksdb int main(int argc, char** argv) { ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } #else #include int main(int /*argc*/, char** /*argv*/) { fprintf(stderr, "SKIPPED as DBImpl::DeleteFile is not supported in ROCKSDB_LITE\n"); return 0; } #endif // !ROCKSDB_LITE rocksdb-5.17.2/db/error_handler.cc000066400000000000000000000311631337235545400167760ustar00rootroot00000000000000// Copyright (c) 2018-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // #include "db/error_handler.h" #include "db/db_impl.h" #include "db/event_helpers.h" #include "util/sst_file_manager_impl.h" namespace rocksdb { // Maps to help decide the severity of an error based on the // BackgroundErrorReason, Code, SubCode and whether db_options.paranoid_checks // is set or not. There are 3 maps, going from most specific to least specific // (i.e from all 4 fields in a tuple to only the BackgroundErrorReason and // paranoid_checks). The less specific map serves as a catch all in case we miss // a specific error code or subcode. std::map, Status::Severity> ErrorSeverityMap = { // Errors during BG compaction {std::make_tuple(BackgroundErrorReason::kCompaction, Status::Code::kIOError, Status::SubCode::kNoSpace, true), Status::Severity::kSoftError}, {std::make_tuple(BackgroundErrorReason::kCompaction, Status::Code::kIOError, Status::SubCode::kNoSpace, false), Status::Severity::kNoError}, {std::make_tuple(BackgroundErrorReason::kCompaction, Status::Code::kIOError, Status::SubCode::kSpaceLimit, true), Status::Severity::kHardError}, // Errors during BG flush {std::make_tuple(BackgroundErrorReason::kFlush, Status::Code::kIOError, Status::SubCode::kNoSpace, true), Status::Severity::kHardError}, {std::make_tuple(BackgroundErrorReason::kFlush, Status::Code::kIOError, Status::SubCode::kNoSpace, false), Status::Severity::kNoError}, {std::make_tuple(BackgroundErrorReason::kFlush, Status::Code::kIOError, Status::SubCode::kSpaceLimit, true), Status::Severity::kHardError}, // Errors during Write {std::make_tuple(BackgroundErrorReason::kWriteCallback, Status::Code::kIOError, Status::SubCode::kNoSpace, true), Status::Severity::kHardError}, {std::make_tuple(BackgroundErrorReason::kWriteCallback, Status::Code::kIOError, Status::SubCode::kNoSpace, false), Status::Severity::kHardError}, }; std::map, Status::Severity> DefaultErrorSeverityMap = { // Errors during BG compaction {std::make_tuple(BackgroundErrorReason::kCompaction, Status::Code::kCorruption, true), Status::Severity::kUnrecoverableError}, {std::make_tuple(BackgroundErrorReason::kCompaction, Status::Code::kCorruption, false), Status::Severity::kNoError}, {std::make_tuple(BackgroundErrorReason::kCompaction, Status::Code::kIOError, true), Status::Severity::kFatalError}, {std::make_tuple(BackgroundErrorReason::kCompaction, Status::Code::kIOError, false), Status::Severity::kNoError}, // Errors during BG flush {std::make_tuple(BackgroundErrorReason::kFlush, Status::Code::kCorruption, true), Status::Severity::kUnrecoverableError}, {std::make_tuple(BackgroundErrorReason::kFlush, Status::Code::kCorruption, false), Status::Severity::kNoError}, {std::make_tuple(BackgroundErrorReason::kFlush, Status::Code::kIOError, true), Status::Severity::kFatalError}, {std::make_tuple(BackgroundErrorReason::kFlush, Status::Code::kIOError, false), Status::Severity::kNoError}, // Errors during Write {std::make_tuple(BackgroundErrorReason::kWriteCallback, Status::Code::kCorruption, true), Status::Severity::kUnrecoverableError}, {std::make_tuple(BackgroundErrorReason::kWriteCallback, Status::Code::kCorruption, false), Status::Severity::kNoError}, {std::make_tuple(BackgroundErrorReason::kWriteCallback, Status::Code::kIOError, true), Status::Severity::kFatalError}, {std::make_tuple(BackgroundErrorReason::kWriteCallback, Status::Code::kIOError, false), Status::Severity::kNoError}, }; std::map, Status::Severity> DefaultReasonMap = { // Errors during BG compaction {std::make_tuple(BackgroundErrorReason::kCompaction, true), Status::Severity::kFatalError}, {std::make_tuple(BackgroundErrorReason::kCompaction, false), Status::Severity::kNoError}, // Errors during BG flush {std::make_tuple(BackgroundErrorReason::kFlush, true), Status::Severity::kFatalError}, {std::make_tuple(BackgroundErrorReason::kFlush, false), Status::Severity::kNoError}, // Errors during Write {std::make_tuple(BackgroundErrorReason::kWriteCallback, true), Status::Severity::kFatalError}, {std::make_tuple(BackgroundErrorReason::kWriteCallback, false), Status::Severity::kFatalError}, // Errors during Memtable update {std::make_tuple(BackgroundErrorReason::kMemTable, true), Status::Severity::kFatalError}, {std::make_tuple(BackgroundErrorReason::kMemTable, false), Status::Severity::kFatalError}, }; void ErrorHandler::CancelErrorRecovery() { #ifndef ROCKSDB_LITE db_mutex_->AssertHeld(); // We'll release the lock before calling sfm, so make sure no new // recovery gets scheduled at that point auto_recovery_ = false; SstFileManagerImpl* sfm = reinterpret_cast( db_options_.sst_file_manager.get()); if (sfm) { // This may or may not cancel a pending recovery db_mutex_->Unlock(); bool cancelled = sfm->CancelErrorRecovery(this); db_mutex_->Lock(); if (cancelled) { recovery_in_prog_ = false; } } #endif } // This is the main function for looking at an error during a background // operation and deciding the severity, and error recovery strategy. The high // level algorithm is as follows - // 1. Classify the severity of the error based on the ErrorSeverityMap, // DefaultErrorSeverityMap and DefaultReasonMap defined earlier // 2. Call a Status code specific override function to adjust the severity // if needed. The reason for this is our ability to recover may depend on // the exact options enabled in DBOptions // 3. Determine if auto recovery is possible. A listener notification callback // is called, which can disable the auto recovery even if we decide its // feasible // 4. For Status::NoSpace() errors, rely on SstFileManagerImpl to control // the actual recovery. If no sst file manager is specified in DBOptions, // a default one is allocated during DB::Open(), so there will always be // one. // This can also get called as part of a recovery operation. In that case, we // also track the error seperately in recovery_error_ so we can tell in the // end whether recovery succeeded or not Status ErrorHandler::SetBGError(const Status& bg_err, BackgroundErrorReason reason) { db_mutex_->AssertHeld(); if (bg_err.ok()) { return Status::OK(); } // Check if recovery is currently in progress. If it is, we will save this // error so we can check it at the end to see if recovery succeeded or not if (recovery_in_prog_ && recovery_error_.ok()) { recovery_error_ = bg_err; } bool paranoid = db_options_.paranoid_checks; Status::Severity sev = Status::Severity::kFatalError; Status new_bg_err; bool found = false; { auto entry = ErrorSeverityMap.find(std::make_tuple(reason, bg_err.code(), bg_err.subcode(), paranoid)); if (entry != ErrorSeverityMap.end()) { sev = entry->second; found = true; } } if (!found) { auto entry = DefaultErrorSeverityMap.find(std::make_tuple(reason, bg_err.code(), paranoid)); if (entry != DefaultErrorSeverityMap.end()) { sev = entry->second; found = true; } } if (!found) { auto entry = DefaultReasonMap.find(std::make_tuple(reason, paranoid)); if (entry != DefaultReasonMap.end()) { sev = entry->second; } } new_bg_err = Status(bg_err, sev); bool auto_recovery = auto_recovery_; if (new_bg_err.severity() >= Status::Severity::kFatalError && auto_recovery) { auto_recovery = false; ; } // Allow some error specific overrides if (new_bg_err == Status::NoSpace()) { new_bg_err = OverrideNoSpaceError(new_bg_err, &auto_recovery); } if (!new_bg_err.ok()) { Status s = new_bg_err; EventHelpers::NotifyOnBackgroundError(db_options_.listeners, reason, &s, db_mutex_, &auto_recovery); if (!s.ok() && (s.severity() > bg_error_.severity())) { bg_error_ = s; } else { // This error is less severe than previously encountered error. Don't // take any further action return bg_error_; } } if (auto_recovery) { recovery_in_prog_ = true; // Kick-off error specific recovery if (bg_error_ == Status::NoSpace()) { RecoverFromNoSpace(); } } return bg_error_; } Status ErrorHandler::OverrideNoSpaceError(Status bg_error, bool* auto_recovery) { #ifndef ROCKSDB_LITE if (bg_error.severity() >= Status::Severity::kFatalError) { return bg_error; } if (db_options_.sst_file_manager.get() == nullptr) { // We rely on SFM to poll for enough disk space and recover *auto_recovery = false; return bg_error; } if (db_options_.allow_2pc && (bg_error.severity() <= Status::Severity::kSoftError)) { // Don't know how to recover, as the contents of the current WAL file may // be inconsistent, and it may be needed for 2PC. If 2PC is not enabled, // we can just flush the memtable and discard the log *auto_recovery = false; return Status(bg_error, Status::Severity::kFatalError); } { uint64_t free_space; if (db_options_.env->GetFreeSpace(db_options_.db_paths[0].path, &free_space) == Status::NotSupported()) { *auto_recovery = false; } } return bg_error; #else (void)auto_recovery; return Status(bg_error, Status::Severity::kFatalError); #endif } void ErrorHandler::RecoverFromNoSpace() { #ifndef ROCKSDB_LITE SstFileManagerImpl* sfm = reinterpret_cast(db_options_.sst_file_manager.get()); // Inform SFM of the error, so it can kick-off the recovery if (sfm) { sfm->StartErrorRecovery(this, bg_error_); } #endif } Status ErrorHandler::ClearBGError() { #ifndef ROCKSDB_LITE db_mutex_->AssertHeld(); // Signal that recovery succeeded if (recovery_error_.ok()) { Status old_bg_error = bg_error_; bg_error_ = Status::OK(); recovery_in_prog_ = false; EventHelpers::NotifyOnErrorRecoveryCompleted(db_options_.listeners, old_bg_error, db_mutex_); } return recovery_error_; #else return bg_error_; #endif } Status ErrorHandler::RecoverFromBGError(bool is_manual) { #ifndef ROCKSDB_LITE InstrumentedMutexLock l(db_mutex_); if (is_manual) { // If its a manual recovery and there's a background recovery in progress // return busy status if (recovery_in_prog_) { return Status::Busy(); } recovery_in_prog_ = true; } if (bg_error_.severity() == Status::Severity::kSoftError) { // Simply clear the background error and return recovery_error_ = Status::OK(); return ClearBGError(); } // Reset recovery_error_. We will use this to record any errors that happen // during the recovery process. While recovering, the only operations that // can generate background errors should be the flush operations recovery_error_ = Status::OK(); Status s = db_->ResumeImpl(); // For manual recover, shutdown, and fatal error cases, set // recovery_in_prog_ to false. For automatic background recovery, leave it // as is regardless of success or failure as it will be retried if (is_manual || s.IsShutdownInProgress() || bg_error_.severity() >= Status::Severity::kFatalError) { recovery_in_prog_ = false; } return s; #else (void)is_manual; return bg_error_; #endif } } rocksdb-5.17.2/db/error_handler.h000066400000000000000000000043001337235545400166310ustar00rootroot00000000000000// Copyright (c) 2018-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #include "monitoring/instrumented_mutex.h" #include "options/db_options.h" #include "rocksdb/listener.h" #include "rocksdb/status.h" namespace rocksdb { class DBImpl; class ErrorHandler { public: ErrorHandler(DBImpl* db, const ImmutableDBOptions& db_options, InstrumentedMutex* db_mutex) : db_(db), db_options_(db_options), bg_error_(Status::OK()), recovery_error_(Status::OK()), db_mutex_(db_mutex), auto_recovery_(false), recovery_in_prog_(false) {} ~ErrorHandler() {} void EnableAutoRecovery() { auto_recovery_ = true; } Status::Severity GetErrorSeverity(BackgroundErrorReason reason, Status::Code code, Status::SubCode subcode); Status SetBGError(const Status& bg_err, BackgroundErrorReason reason); Status GetBGError() { return bg_error_; } Status GetRecoveryError() { return recovery_error_; } Status ClearBGError(); bool IsDBStopped() { return !bg_error_.ok() && bg_error_.severity() >= Status::Severity::kHardError; } bool IsBGWorkStopped() { return !bg_error_.ok() && (bg_error_.severity() >= Status::Severity::kHardError || !auto_recovery_); } bool IsRecoveryInProgress() { return recovery_in_prog_; } Status RecoverFromBGError(bool is_manual = false); void CancelErrorRecovery(); private: DBImpl* db_; const ImmutableDBOptions& db_options_; Status bg_error_; // A seperate Status variable used to record any errors during the // recovery process from hard errors Status recovery_error_; InstrumentedMutex* db_mutex_; // A flag indicating whether automatic recovery from errors is enabled bool auto_recovery_; bool recovery_in_prog_; Status OverrideNoSpaceError(Status bg_error, bool* auto_recovery); void RecoverFromNoSpace(); }; } rocksdb-5.17.2/db/error_handler_test.cc000066400000000000000000000512131337235545400200330ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #ifndef ROCKSDB_LITE #include "db/db_test_util.h" #include "port/stack_trace.h" #include "rocksdb/perf_context.h" #include "rocksdb/sst_file_manager.h" #include "util/fault_injection_test_env.h" #if !defined(ROCKSDB_LITE) #include "util/sync_point.h" #endif namespace rocksdb { class DBErrorHandlingTest : public DBTestBase { public: DBErrorHandlingTest() : DBTestBase("/db_error_handling_test") {} }; class DBErrorHandlingEnv : public EnvWrapper { public: DBErrorHandlingEnv() : EnvWrapper(Env::Default()), trig_no_space(false), trig_io_error(false) {} void SetTrigNoSpace() {trig_no_space = true;} void SetTrigIoError() {trig_io_error = true;} private: bool trig_no_space; bool trig_io_error; }; class ErrorHandlerListener : public EventListener { public: ErrorHandlerListener() : mutex_(), cv_(&mutex_), no_auto_recovery_(false), recovery_complete_(false), file_creation_started_(false), override_bg_error_(false), file_count_(0), fault_env_(nullptr) {} void OnTableFileCreationStarted( const TableFileCreationBriefInfo& /*ti*/) override { InstrumentedMutexLock l(&mutex_); file_creation_started_ = true; if (file_count_ > 0) { if (--file_count_ == 0) { fault_env_->SetFilesystemActive(false, file_creation_error_); file_creation_error_ = Status::OK(); } } cv_.SignalAll(); } void OnErrorRecoveryBegin(BackgroundErrorReason /*reason*/, Status /*bg_error*/, bool* auto_recovery) override { if (*auto_recovery && no_auto_recovery_) { *auto_recovery = false; } } void OnErrorRecoveryCompleted(Status /*old_bg_error*/) override { InstrumentedMutexLock l(&mutex_); recovery_complete_ = true; cv_.SignalAll(); } bool WaitForRecovery(uint64_t /*abs_time_us*/) { InstrumentedMutexLock l(&mutex_); while (!recovery_complete_) { cv_.Wait(/*abs_time_us*/); } if (recovery_complete_) { recovery_complete_ = false; return true; } return false; } void WaitForTableFileCreationStarted(uint64_t /*abs_time_us*/) { InstrumentedMutexLock l(&mutex_); while (!file_creation_started_) { cv_.Wait(/*abs_time_us*/); } file_creation_started_ = false; } void OnBackgroundError(BackgroundErrorReason /*reason*/, Status* bg_error) override { if (override_bg_error_) { *bg_error = bg_error_; override_bg_error_ = false; } } void EnableAutoRecovery(bool enable = true) { no_auto_recovery_ = !enable; } void OverrideBGError(Status bg_err) { bg_error_ = bg_err; override_bg_error_ = true; } void InjectFileCreationError(FaultInjectionTestEnv* env, int file_count, Status s) { fault_env_ = env; file_count_ = file_count; file_creation_error_ = s; } private: InstrumentedMutex mutex_; InstrumentedCondVar cv_; bool no_auto_recovery_; bool recovery_complete_; bool file_creation_started_; bool override_bg_error_; int file_count_; Status file_creation_error_; Status bg_error_; FaultInjectionTestEnv* fault_env_; }; TEST_F(DBErrorHandlingTest, FLushWriteError) { std::unique_ptr fault_env( new FaultInjectionTestEnv(Env::Default())); std::shared_ptr listener(new ErrorHandlerListener()); Options options = GetDefaultOptions(); options.create_if_missing = true; options.env = fault_env.get(); options.listeners.emplace_back(listener); Status s; listener->EnableAutoRecovery(false); DestroyAndReopen(options); Put(Key(0), "val"); SyncPoint::GetInstance()->SetCallBack( "FlushJob::Start", [&](void *) { fault_env->SetFilesystemActive(false, Status::NoSpace("Out of space")); }); SyncPoint::GetInstance()->EnableProcessing(); s = Flush(); ASSERT_EQ(s.severity(), rocksdb::Status::Severity::kHardError); SyncPoint::GetInstance()->DisableProcessing(); fault_env->SetFilesystemActive(true); s = dbfull()->Resume(); ASSERT_EQ(s, Status::OK()); Reopen(options); ASSERT_EQ("val", Get(Key(0))); Destroy(options); } TEST_F(DBErrorHandlingTest, CompactionWriteError) { std::unique_ptr fault_env( new FaultInjectionTestEnv(Env::Default())); std::shared_ptr listener(new ErrorHandlerListener()); Options options = GetDefaultOptions(); options.create_if_missing = true; options.level0_file_num_compaction_trigger = 2; options.listeners.emplace_back(listener); options.env = fault_env.get(); Status s; DestroyAndReopen(options); Put(Key(0), "va;"); Put(Key(2), "va;"); s = Flush(); ASSERT_EQ(s, Status::OK()); listener->OverrideBGError( Status(Status::NoSpace(), Status::Severity::kHardError) ); listener->EnableAutoRecovery(false); rocksdb::SyncPoint::GetInstance()->LoadDependency( {{"FlushMemTableFinished", "BackgroundCallCompaction:0"}}); rocksdb::SyncPoint::GetInstance()->SetCallBack( "BackgroundCallCompaction:0", [&](void *) { fault_env->SetFilesystemActive(false, Status::NoSpace("Out of space")); }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); Put(Key(1), "val"); s = Flush(); ASSERT_EQ(s, Status::OK()); s = dbfull()->TEST_WaitForCompact(); ASSERT_EQ(s.severity(), rocksdb::Status::Severity::kHardError); fault_env->SetFilesystemActive(true); s = dbfull()->Resume(); ASSERT_EQ(s, Status::OK()); Destroy(options); } TEST_F(DBErrorHandlingTest, CorruptionError) { std::unique_ptr fault_env( new FaultInjectionTestEnv(Env::Default())); Options options = GetDefaultOptions(); options.create_if_missing = true; options.level0_file_num_compaction_trigger = 2; options.env = fault_env.get(); Status s; DestroyAndReopen(options); Put(Key(0), "va;"); Put(Key(2), "va;"); s = Flush(); ASSERT_EQ(s, Status::OK()); rocksdb::SyncPoint::GetInstance()->LoadDependency( {{"FlushMemTableFinished", "BackgroundCallCompaction:0"}}); rocksdb::SyncPoint::GetInstance()->SetCallBack( "BackgroundCallCompaction:0", [&](void *) { fault_env->SetFilesystemActive(false, Status::Corruption("Corruption")); }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); Put(Key(1), "val"); s = Flush(); ASSERT_EQ(s, Status::OK()); s = dbfull()->TEST_WaitForCompact(); ASSERT_EQ(s.severity(), rocksdb::Status::Severity::kUnrecoverableError); fault_env->SetFilesystemActive(true); s = dbfull()->Resume(); ASSERT_NE(s, Status::OK()); Destroy(options); } TEST_F(DBErrorHandlingTest, AutoRecoverFlushError) { std::unique_ptr fault_env( new FaultInjectionTestEnv(Env::Default())); std::shared_ptr listener(new ErrorHandlerListener()); Options options = GetDefaultOptions(); options.create_if_missing = true; options.env = fault_env.get(); options.listeners.emplace_back(listener); Status s; listener->EnableAutoRecovery(); DestroyAndReopen(options); Put(Key(0), "val"); SyncPoint::GetInstance()->SetCallBack("FlushJob::Start", [&](void*) { fault_env->SetFilesystemActive(false, Status::NoSpace("Out of space")); }); SyncPoint::GetInstance()->EnableProcessing(); s = Flush(); ASSERT_EQ(s.severity(), rocksdb::Status::Severity::kHardError); SyncPoint::GetInstance()->DisableProcessing(); fault_env->SetFilesystemActive(true); ASSERT_EQ(listener->WaitForRecovery(5000000), true); s = Put(Key(1), "val"); ASSERT_EQ(s, Status::OK()); Reopen(options); ASSERT_EQ("val", Get(Key(0))); ASSERT_EQ("val", Get(Key(1))); Destroy(options); } TEST_F(DBErrorHandlingTest, FailRecoverFlushError) { std::unique_ptr fault_env( new FaultInjectionTestEnv(Env::Default())); std::shared_ptr listener(new ErrorHandlerListener()); Options options = GetDefaultOptions(); options.create_if_missing = true; options.env = fault_env.get(); options.listeners.emplace_back(listener); Status s; listener->EnableAutoRecovery(); DestroyAndReopen(options); Put(Key(0), "val"); SyncPoint::GetInstance()->SetCallBack("FlushJob::Start", [&](void*) { fault_env->SetFilesystemActive(false, Status::NoSpace("Out of space")); }); SyncPoint::GetInstance()->EnableProcessing(); s = Flush(); ASSERT_EQ(s.severity(), rocksdb::Status::Severity::kHardError); // We should be able to shutdown the database while auto recovery is going // on in the background Close(); DestroyDB(dbname_, options); } TEST_F(DBErrorHandlingTest, WALWriteError) { std::unique_ptr fault_env( new FaultInjectionTestEnv(Env::Default())); std::shared_ptr listener(new ErrorHandlerListener()); Options options = GetDefaultOptions(); options.create_if_missing = true; options.writable_file_max_buffer_size = 32768; options.env = fault_env.get(); options.listeners.emplace_back(listener); Status s; Random rnd(301); listener->EnableAutoRecovery(); DestroyAndReopen(options); { WriteBatch batch; for (auto i = 0; i<100; ++i) { batch.Put(Key(i), RandomString(&rnd, 1024)); } WriteOptions wopts; wopts.sync = true; ASSERT_EQ(dbfull()->Write(wopts, &batch), Status::OK()); }; { WriteBatch batch; int write_error = 0; for (auto i = 100; i<199; ++i) { batch.Put(Key(i), RandomString(&rnd, 1024)); } SyncPoint::GetInstance()->SetCallBack("WritableFileWriter::Append:BeforePrepareWrite", [&](void*) { write_error++; if (write_error > 2) { fault_env->SetFilesystemActive(false, Status::NoSpace("Out of space")); } }); SyncPoint::GetInstance()->EnableProcessing(); WriteOptions wopts; wopts.sync = true; s = dbfull()->Write(wopts, &batch); ASSERT_EQ(s, s.NoSpace()); } SyncPoint::GetInstance()->DisableProcessing(); fault_env->SetFilesystemActive(true); ASSERT_EQ(listener->WaitForRecovery(5000000), true); for (auto i=0; i<199; ++i) { if (i < 100) { ASSERT_NE(Get(Key(i)), "NOT_FOUND"); } else { ASSERT_EQ(Get(Key(i)), "NOT_FOUND"); } } Reopen(options); for (auto i=0; i<199; ++i) { if (i < 100) { ASSERT_NE(Get(Key(i)), "NOT_FOUND"); } else { ASSERT_EQ(Get(Key(i)), "NOT_FOUND"); } } Close(); } TEST_F(DBErrorHandlingTest, MultiCFWALWriteError) { std::unique_ptr fault_env( new FaultInjectionTestEnv(Env::Default())); std::shared_ptr listener(new ErrorHandlerListener()); Options options = GetDefaultOptions(); options.create_if_missing = true; options.writable_file_max_buffer_size = 32768; options.env = fault_env.get(); options.listeners.emplace_back(listener); Status s; Random rnd(301); listener->EnableAutoRecovery(); CreateAndReopenWithCF({"one", "two", "three"}, options); { WriteBatch batch; for (auto i = 1; i < 4; ++i) { for (auto j = 0; j < 100; ++j) { batch.Put(handles_[i], Key(j), RandomString(&rnd, 1024)); } } WriteOptions wopts; wopts.sync = true; ASSERT_EQ(dbfull()->Write(wopts, &batch), Status::OK()); }; { WriteBatch batch; int write_error = 0; // Write to one CF for (auto i = 100; i < 199; ++i) { batch.Put(handles_[2], Key(i), RandomString(&rnd, 1024)); } SyncPoint::GetInstance()->SetCallBack( "WritableFileWriter::Append:BeforePrepareWrite", [&](void*) { write_error++; if (write_error > 2) { fault_env->SetFilesystemActive(false, Status::NoSpace("Out of space")); } }); SyncPoint::GetInstance()->EnableProcessing(); WriteOptions wopts; wopts.sync = true; s = dbfull()->Write(wopts, &batch); ASSERT_EQ(s, s.NoSpace()); } SyncPoint::GetInstance()->DisableProcessing(); fault_env->SetFilesystemActive(true); ASSERT_EQ(listener->WaitForRecovery(5000000), true); for (auto i = 1; i < 4; ++i) { // Every CF should have been flushed ASSERT_EQ(NumTableFilesAtLevel(0, i), 1); } for (auto i = 1; i < 4; ++i) { for (auto j = 0; j < 199; ++j) { if (j < 100) { ASSERT_NE(Get(i, Key(j)), "NOT_FOUND"); } else { ASSERT_EQ(Get(i, Key(j)), "NOT_FOUND"); } } } ReopenWithColumnFamilies({"default", "one", "two", "three"}, options); for (auto i = 1; i < 4; ++i) { for (auto j = 0; j < 199; ++j) { if (j < 100) { ASSERT_NE(Get(i, Key(j)), "NOT_FOUND"); } else { ASSERT_EQ(Get(i, Key(j)), "NOT_FOUND"); } } } Close(); } TEST_F(DBErrorHandlingTest, MultiDBCompactionError) { FaultInjectionTestEnv* def_env = new FaultInjectionTestEnv(Env::Default()); std::vector> fault_env; std::vector options; std::vector> listener; std::vector db; std::shared_ptr sfm(NewSstFileManager(def_env)); int kNumDbInstances = 3; Random rnd(301); for (auto i = 0; i < kNumDbInstances; ++i) { listener.emplace_back(new ErrorHandlerListener()); options.emplace_back(GetDefaultOptions()); fault_env.emplace_back(new FaultInjectionTestEnv(Env::Default())); options[i].create_if_missing = true; options[i].level0_file_num_compaction_trigger = 2; options[i].writable_file_max_buffer_size = 32768; options[i].env = fault_env[i].get(); options[i].listeners.emplace_back(listener[i]); options[i].sst_file_manager = sfm; DB* dbptr; char buf[16]; listener[i]->EnableAutoRecovery(); // Setup for returning error for the 3rd SST, which would be level 1 listener[i]->InjectFileCreationError(fault_env[i].get(), 3, Status::NoSpace("Out of space")); snprintf(buf, sizeof(buf), "_%d", i); DestroyDB(dbname_ + std::string(buf), options[i]); ASSERT_EQ(DB::Open(options[i], dbname_ + std::string(buf), &dbptr), Status::OK()); db.emplace_back(dbptr); } for (auto i = 0; i < kNumDbInstances; ++i) { WriteBatch batch; for (auto j = 0; j <= 100; ++j) { batch.Put(Key(j), RandomString(&rnd, 1024)); } WriteOptions wopts; wopts.sync = true; ASSERT_EQ(db[i]->Write(wopts, &batch), Status::OK()); ASSERT_EQ(db[i]->Flush(FlushOptions()), Status::OK()); } def_env->SetFilesystemActive(false, Status::NoSpace("Out of space")); for (auto i = 0; i < kNumDbInstances; ++i) { WriteBatch batch; // Write to one CF for (auto j = 100; j < 199; ++j) { batch.Put(Key(j), RandomString(&rnd, 1024)); } WriteOptions wopts; wopts.sync = true; ASSERT_EQ(db[i]->Write(wopts, &batch), Status::OK()); ASSERT_EQ(db[i]->Flush(FlushOptions()), Status::OK()); } for (auto i = 0; i < kNumDbInstances; ++i) { Status s = static_cast(db[i])->TEST_WaitForCompact(true); ASSERT_EQ(s.severity(), Status::Severity::kSoftError); fault_env[i]->SetFilesystemActive(true); } def_env->SetFilesystemActive(true); for (auto i = 0; i < kNumDbInstances; ++i) { std::string prop; ASSERT_EQ(listener[i]->WaitForRecovery(5000000), true); EXPECT_TRUE(db[i]->GetProperty( "rocksdb.num-files-at-level" + NumberToString(0), &prop)); EXPECT_EQ(atoi(prop.c_str()), 0); EXPECT_TRUE(db[i]->GetProperty( "rocksdb.num-files-at-level" + NumberToString(1), &prop)); EXPECT_EQ(atoi(prop.c_str()), 1); } for (auto i = 0; i < kNumDbInstances; ++i) { char buf[16]; snprintf(buf, sizeof(buf), "_%d", i); delete db[i]; fault_env[i]->SetFilesystemActive(true); if (getenv("KEEP_DB")) { printf("DB is still at %s%s\n", dbname_.c_str(), buf); } else { Status s = DestroyDB(dbname_ + std::string(buf), options[i]); } } options.clear(); sfm.reset(); delete def_env; } TEST_F(DBErrorHandlingTest, MultiDBVariousErrors) { FaultInjectionTestEnv* def_env = new FaultInjectionTestEnv(Env::Default()); std::vector> fault_env; std::vector options; std::vector> listener; std::vector db; std::shared_ptr sfm(NewSstFileManager(def_env)); int kNumDbInstances = 3; Random rnd(301); for (auto i = 0; i < kNumDbInstances; ++i) { listener.emplace_back(new ErrorHandlerListener()); options.emplace_back(GetDefaultOptions()); fault_env.emplace_back(new FaultInjectionTestEnv(Env::Default())); options[i].create_if_missing = true; options[i].level0_file_num_compaction_trigger = 2; options[i].writable_file_max_buffer_size = 32768; options[i].env = fault_env[i].get(); options[i].listeners.emplace_back(listener[i]); options[i].sst_file_manager = sfm; DB* dbptr; char buf[16]; listener[i]->EnableAutoRecovery(); switch (i) { case 0: // Setup for returning error for the 3rd SST, which would be level 1 listener[i]->InjectFileCreationError(fault_env[i].get(), 3, Status::NoSpace("Out of space")); break; case 1: // Setup for returning error after the 1st SST, which would result // in a hard error listener[i]->InjectFileCreationError(fault_env[i].get(), 2, Status::NoSpace("Out of space")); break; default: break; } snprintf(buf, sizeof(buf), "_%d", i); DestroyDB(dbname_ + std::string(buf), options[i]); ASSERT_EQ(DB::Open(options[i], dbname_ + std::string(buf), &dbptr), Status::OK()); db.emplace_back(dbptr); } for (auto i = 0; i < kNumDbInstances; ++i) { WriteBatch batch; for (auto j = 0; j <= 100; ++j) { batch.Put(Key(j), RandomString(&rnd, 1024)); } WriteOptions wopts; wopts.sync = true; ASSERT_EQ(db[i]->Write(wopts, &batch), Status::OK()); ASSERT_EQ(db[i]->Flush(FlushOptions()), Status::OK()); } def_env->SetFilesystemActive(false, Status::NoSpace("Out of space")); for (auto i = 0; i < kNumDbInstances; ++i) { WriteBatch batch; // Write to one CF for (auto j = 100; j < 199; ++j) { batch.Put(Key(j), RandomString(&rnd, 1024)); } WriteOptions wopts; wopts.sync = true; ASSERT_EQ(db[i]->Write(wopts, &batch), Status::OK()); if (i != 1) { ASSERT_EQ(db[i]->Flush(FlushOptions()), Status::OK()); } else { ASSERT_EQ(db[i]->Flush(FlushOptions()), Status::NoSpace()); } } for (auto i = 0; i < kNumDbInstances; ++i) { Status s = static_cast(db[i])->TEST_WaitForCompact(true); switch (i) { case 0: ASSERT_EQ(s.severity(), Status::Severity::kSoftError); break; case 1: ASSERT_EQ(s.severity(), Status::Severity::kHardError); break; case 2: ASSERT_EQ(s, Status::OK()); break; } fault_env[i]->SetFilesystemActive(true); } def_env->SetFilesystemActive(true); for (auto i = 0; i < kNumDbInstances; ++i) { std::string prop; if (i < 2) { ASSERT_EQ(listener[i]->WaitForRecovery(5000000), true); } if (i == 1) { ASSERT_EQ(static_cast(db[i])->TEST_WaitForCompact(true), Status::OK()); } EXPECT_TRUE(db[i]->GetProperty( "rocksdb.num-files-at-level" + NumberToString(0), &prop)); EXPECT_EQ(atoi(prop.c_str()), 0); EXPECT_TRUE(db[i]->GetProperty( "rocksdb.num-files-at-level" + NumberToString(1), &prop)); EXPECT_EQ(atoi(prop.c_str()), 1); } for (auto i = 0; i < kNumDbInstances; ++i) { char buf[16]; snprintf(buf, sizeof(buf), "_%d", i); fault_env[i]->SetFilesystemActive(true); delete db[i]; if (getenv("KEEP_DB")) { printf("DB is still at %s%s\n", dbname_.c_str(), buf); } else { DestroyDB(dbname_ + std::string(buf), options[i]); } } options.clear(); delete def_env; } } // namespace rocksdb int main(int argc, char** argv) { rocksdb::port::InstallStackTraceHandler(); ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } #else #include int main(int /*argc*/, char** /*argv*/) { fprintf(stderr, "SKIPPED as Cuckoo table is not supported in ROCKSDB_LITE\n"); return 0; } #endif // ROCKSDB_LITE rocksdb-5.17.2/db/event_helpers.cc000066400000000000000000000133121337235545400170070ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include "db/event_helpers.h" namespace rocksdb { namespace { template inline T SafeDivide(T a, T b) { return b == 0 ? 0 : a / b; } } // namespace void EventHelpers::AppendCurrentTime(JSONWriter* jwriter) { *jwriter << "time_micros" << std::chrono::duration_cast( std::chrono::system_clock::now().time_since_epoch()) .count(); } #ifndef ROCKSDB_LITE void EventHelpers::NotifyTableFileCreationStarted( const std::vector>& listeners, const std::string& db_name, const std::string& cf_name, const std::string& file_path, int job_id, TableFileCreationReason reason) { TableFileCreationBriefInfo info; info.db_name = db_name; info.cf_name = cf_name; info.file_path = file_path; info.job_id = job_id; info.reason = reason; for (auto& listener : listeners) { listener->OnTableFileCreationStarted(info); } } #endif // !ROCKSDB_LITE void EventHelpers::NotifyOnBackgroundError( const std::vector>& listeners, BackgroundErrorReason reason, Status* bg_error, InstrumentedMutex* db_mutex, bool* auto_recovery) { #ifndef ROCKSDB_LITE if (listeners.size() == 0U) { return; } db_mutex->AssertHeld(); // release lock while notifying events db_mutex->Unlock(); for (auto& listener : listeners) { listener->OnBackgroundError(reason, bg_error); if (*auto_recovery) { listener->OnErrorRecoveryBegin(reason, *bg_error, auto_recovery); } } db_mutex->Lock(); #else (void)listeners; (void)reason; (void)bg_error; (void)db_mutex; (void)auto_recovery; #endif // ROCKSDB_LITE } void EventHelpers::LogAndNotifyTableFileCreationFinished( EventLogger* event_logger, const std::vector>& listeners, const std::string& db_name, const std::string& cf_name, const std::string& file_path, int job_id, const FileDescriptor& fd, const TableProperties& table_properties, TableFileCreationReason reason, const Status& s) { if (s.ok() && event_logger) { JSONWriter jwriter; AppendCurrentTime(&jwriter); jwriter << "cf_name" << cf_name << "job" << job_id << "event" << "table_file_creation" << "file_number" << fd.GetNumber() << "file_size" << fd.GetFileSize(); // table_properties { jwriter << "table_properties"; jwriter.StartObject(); // basic properties: jwriter << "data_size" << table_properties.data_size << "index_size" << table_properties.index_size << "filter_size" << table_properties.filter_size << "raw_key_size" << table_properties.raw_key_size << "raw_average_key_size" << SafeDivide(table_properties.raw_key_size, table_properties.num_entries) << "raw_value_size" << table_properties.raw_value_size << "raw_average_value_size" << SafeDivide(table_properties.raw_value_size, table_properties.num_entries) << "num_data_blocks" << table_properties.num_data_blocks << "num_entries" << table_properties.num_entries << "filter_policy_name" << table_properties.filter_policy_name; // user collected properties for (const auto& prop : table_properties.readable_properties) { jwriter << prop.first << prop.second; } jwriter.EndObject(); } jwriter.EndObject(); event_logger->Log(jwriter); } #ifndef ROCKSDB_LITE if (listeners.size() == 0) { return; } TableFileCreationInfo info; info.db_name = db_name; info.cf_name = cf_name; info.file_path = file_path; info.file_size = fd.file_size; info.job_id = job_id; info.table_properties = table_properties; info.reason = reason; info.status = s; for (auto& listener : listeners) { listener->OnTableFileCreated(info); } #else (void)listeners; (void)db_name; (void)cf_name; (void)file_path; (void)reason; #endif // !ROCKSDB_LITE } void EventHelpers::LogAndNotifyTableFileDeletion( EventLogger* event_logger, int job_id, uint64_t file_number, const std::string& file_path, const Status& status, const std::string& dbname, const std::vector>& listeners) { JSONWriter jwriter; AppendCurrentTime(&jwriter); jwriter << "job" << job_id << "event" << "table_file_deletion" << "file_number" << file_number; if (!status.ok()) { jwriter << "status" << status.ToString(); } jwriter.EndObject(); event_logger->Log(jwriter); #ifndef ROCKSDB_LITE TableFileDeletionInfo info; info.db_name = dbname; info.job_id = job_id; info.file_path = file_path; info.status = status; for (auto& listener : listeners) { listener->OnTableFileDeleted(info); } #else (void)file_path; (void)dbname; (void)listeners; #endif // !ROCKSDB_LITE } void EventHelpers::NotifyOnErrorRecoveryCompleted( const std::vector>& listeners, Status old_bg_error, InstrumentedMutex* db_mutex) { #ifndef ROCKSDB_LITE if (listeners.size() == 0U) { return; } db_mutex->AssertHeld(); // release lock while notifying events db_mutex->Unlock(); for (auto& listener : listeners) { listener->OnErrorRecoveryCompleted(old_bg_error); } db_mutex->Lock(); #else (void)listeners; (void)old_bg_error; (void)db_mutex; #endif // ROCKSDB_LITE } } // namespace rocksdb rocksdb-5.17.2/db/event_helpers.h000066400000000000000000000042361337235545400166560ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #include #include #include #include "db/column_family.h" #include "db/version_edit.h" #include "rocksdb/listener.h" #include "rocksdb/table_properties.h" #include "util/event_logger.h" namespace rocksdb { class EventHelpers { public: static void AppendCurrentTime(JSONWriter* json_writer); #ifndef ROCKSDB_LITE static void NotifyTableFileCreationStarted( const std::vector>& listeners, const std::string& db_name, const std::string& cf_name, const std::string& file_path, int job_id, TableFileCreationReason reason); #endif // !ROCKSDB_LITE static void NotifyOnBackgroundError( const std::vector>& listeners, BackgroundErrorReason reason, Status* bg_error, InstrumentedMutex* db_mutex, bool* auto_recovery); static void LogAndNotifyTableFileCreationFinished( EventLogger* event_logger, const std::vector>& listeners, const std::string& db_name, const std::string& cf_name, const std::string& file_path, int job_id, const FileDescriptor& fd, const TableProperties& table_properties, TableFileCreationReason reason, const Status& s); static void LogAndNotifyTableFileDeletion( EventLogger* event_logger, int job_id, uint64_t file_number, const std::string& file_path, const Status& status, const std::string& db_name, const std::vector>& listeners); static void NotifyOnErrorRecoveryCompleted( const std::vector>& listeners, Status bg_error, InstrumentedMutex* db_mutex); private: static void LogAndNotifyTableFileCreation( EventLogger* event_logger, const std::vector>& listeners, const FileDescriptor& fd, const TableFileCreationInfo& info); }; } // namespace rocksdb rocksdb-5.17.2/db/experimental.cc000066400000000000000000000030151337235545400166400ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include "rocksdb/experimental.h" #include "db/db_impl.h" namespace rocksdb { namespace experimental { #ifndef ROCKSDB_LITE Status SuggestCompactRange(DB* db, ColumnFamilyHandle* column_family, const Slice* begin, const Slice* end) { if (db == nullptr) { return Status::InvalidArgument("DB is empty"); } return db->SuggestCompactRange(column_family, begin, end); } Status PromoteL0(DB* db, ColumnFamilyHandle* column_family, int target_level) { if (db == nullptr) { return Status::InvalidArgument("Didn't recognize DB object"); } return db->PromoteL0(column_family, target_level); } #else // ROCKSDB_LITE Status SuggestCompactRange(DB* /*db*/, ColumnFamilyHandle* /*column_family*/, const Slice* /*begin*/, const Slice* /*end*/) { return Status::NotSupported("Not supported in RocksDB LITE"); } Status PromoteL0(DB* /*db*/, ColumnFamilyHandle* /*column_family*/, int /*target_level*/) { return Status::NotSupported("Not supported in RocksDB LITE"); } #endif // ROCKSDB_LITE Status SuggestCompactRange(DB* db, const Slice* begin, const Slice* end) { return SuggestCompactRange(db, db->DefaultColumnFamily(), begin, end); } } // namespace experimental } // namespace rocksdb rocksdb-5.17.2/db/external_sst_file_basic_test.cc000066400000000000000000000715211337235545400220640ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include #include "db/db_test_util.h" #include "port/port.h" #include "port/stack_trace.h" #include "rocksdb/sst_file_writer.h" #include "util/testutil.h" namespace rocksdb { #ifndef ROCKSDB_LITE class ExternalSSTFileBasicTest : public DBTestBase { public: ExternalSSTFileBasicTest() : DBTestBase("/external_sst_file_test") { sst_files_dir_ = dbname_ + "/sst_files/"; DestroyAndRecreateExternalSSTFilesDir(); } void DestroyAndRecreateExternalSSTFilesDir() { test::DestroyDir(env_, sst_files_dir_); env_->CreateDir(sst_files_dir_); } Status DeprecatedAddFile(const std::vector& files, bool move_files = false, bool skip_snapshot_check = false) { IngestExternalFileOptions opts; opts.move_files = move_files; opts.snapshot_consistency = !skip_snapshot_check; opts.allow_global_seqno = false; opts.allow_blocking_flush = false; return db_->IngestExternalFile(files, opts); } Status GenerateAndAddExternalFile( const Options options, std::vector keys, const std::vector& value_types, std::vector> range_deletions, int file_id, std::map* true_data) { assert(value_types.size() == 1 || keys.size() == value_types.size()); std::string file_path = sst_files_dir_ + ToString(file_id); SstFileWriter sst_file_writer(EnvOptions(), options); Status s = sst_file_writer.Open(file_path); if (!s.ok()) { return s; } for (size_t i = 0; i < range_deletions.size(); i++) { // Account for the effect of range deletions on true_data before // all point operators, even though sst_file_writer.DeleteRange // must be called before other sst_file_writer methods. This is // because point writes take precedence over range deletions // in the same ingested sst. std::string start_key = Key(range_deletions[i].first); std::string end_key = Key(range_deletions[i].second); s = sst_file_writer.DeleteRange(start_key, end_key); if (!s.ok()) { sst_file_writer.Finish(); return s; } auto start_key_it = true_data->find(start_key); if (start_key_it == true_data->end()) { start_key_it = true_data->upper_bound(start_key); } auto end_key_it = true_data->find(end_key); if (end_key_it == true_data->end()) { end_key_it = true_data->upper_bound(end_key); } true_data->erase(start_key_it, end_key_it); } for (size_t i = 0; i < keys.size(); i++) { std::string key = Key(keys[i]); std::string value = Key(keys[i]) + ToString(file_id); ValueType value_type = (value_types.size() == 1 ? value_types[0] : value_types[i]); switch (value_type) { case ValueType::kTypeValue: s = sst_file_writer.Put(key, value); (*true_data)[key] = value; break; case ValueType::kTypeMerge: s = sst_file_writer.Merge(key, value); // we only use TestPutOperator in this test (*true_data)[key] = value; break; case ValueType::kTypeDeletion: s = sst_file_writer.Delete(key); true_data->erase(key); break; default: return Status::InvalidArgument("Value type is not supported"); } if (!s.ok()) { sst_file_writer.Finish(); return s; } } s = sst_file_writer.Finish(); if (s.ok()) { IngestExternalFileOptions ifo; ifo.allow_global_seqno = true; s = db_->IngestExternalFile({file_path}, ifo); } return s; } Status GenerateAndAddExternalFile( const Options options, std::vector keys, const std::vector& value_types, int file_id, std::map* true_data) { return GenerateAndAddExternalFile(options, keys, value_types, {}, file_id, true_data); } Status GenerateAndAddExternalFile( const Options options, std::vector keys, const ValueType value_type, int file_id, std::map* true_data) { return GenerateAndAddExternalFile(options, keys, std::vector(1, value_type), file_id, true_data); } ~ExternalSSTFileBasicTest() { test::DestroyDir(env_, sst_files_dir_); } protected: std::string sst_files_dir_; }; TEST_F(ExternalSSTFileBasicTest, Basic) { Options options = CurrentOptions(); SstFileWriter sst_file_writer(EnvOptions(), options); // Current file size should be 0 after sst_file_writer init and before open a // file. ASSERT_EQ(sst_file_writer.FileSize(), 0); // file1.sst (0 => 99) std::string file1 = sst_files_dir_ + "file1.sst"; ASSERT_OK(sst_file_writer.Open(file1)); for (int k = 0; k < 100; k++) { ASSERT_OK(sst_file_writer.Put(Key(k), Key(k) + "_val")); } ExternalSstFileInfo file1_info; Status s = sst_file_writer.Finish(&file1_info); ASSERT_TRUE(s.ok()) << s.ToString(); // Current file size should be non-zero after success write. ASSERT_GT(sst_file_writer.FileSize(), 0); ASSERT_EQ(file1_info.file_path, file1); ASSERT_EQ(file1_info.num_entries, 100); ASSERT_EQ(file1_info.smallest_key, Key(0)); ASSERT_EQ(file1_info.largest_key, Key(99)); ASSERT_EQ(file1_info.num_range_del_entries, 0); ASSERT_EQ(file1_info.smallest_range_del_key, ""); ASSERT_EQ(file1_info.largest_range_del_key, ""); // sst_file_writer already finished, cannot add this value s = sst_file_writer.Put(Key(100), "bad_val"); ASSERT_FALSE(s.ok()) << s.ToString(); s = sst_file_writer.DeleteRange(Key(100), Key(200)); ASSERT_FALSE(s.ok()) << s.ToString(); DestroyAndReopen(options); // Add file using file path s = DeprecatedAddFile({file1}); ASSERT_TRUE(s.ok()) << s.ToString(); ASSERT_EQ(db_->GetLatestSequenceNumber(), 0U); for (int k = 0; k < 100; k++) { ASSERT_EQ(Get(Key(k)), Key(k) + "_val"); } DestroyAndRecreateExternalSSTFilesDir(); } TEST_F(ExternalSSTFileBasicTest, NoCopy) { Options options = CurrentOptions(); const ImmutableCFOptions ioptions(options); SstFileWriter sst_file_writer(EnvOptions(), options); // file1.sst (0 => 99) std::string file1 = sst_files_dir_ + "file1.sst"; ASSERT_OK(sst_file_writer.Open(file1)); for (int k = 0; k < 100; k++) { ASSERT_OK(sst_file_writer.Put(Key(k), Key(k) + "_val")); } ExternalSstFileInfo file1_info; Status s = sst_file_writer.Finish(&file1_info); ASSERT_TRUE(s.ok()) << s.ToString(); ASSERT_EQ(file1_info.file_path, file1); ASSERT_EQ(file1_info.num_entries, 100); ASSERT_EQ(file1_info.smallest_key, Key(0)); ASSERT_EQ(file1_info.largest_key, Key(99)); // file2.sst (100 => 299) std::string file2 = sst_files_dir_ + "file2.sst"; ASSERT_OK(sst_file_writer.Open(file2)); for (int k = 100; k < 300; k++) { ASSERT_OK(sst_file_writer.Put(Key(k), Key(k) + "_val")); } ExternalSstFileInfo file2_info; s = sst_file_writer.Finish(&file2_info); ASSERT_TRUE(s.ok()) << s.ToString(); ASSERT_EQ(file2_info.file_path, file2); ASSERT_EQ(file2_info.num_entries, 200); ASSERT_EQ(file2_info.smallest_key, Key(100)); ASSERT_EQ(file2_info.largest_key, Key(299)); // file3.sst (110 => 124) .. overlap with file2.sst std::string file3 = sst_files_dir_ + "file3.sst"; ASSERT_OK(sst_file_writer.Open(file3)); for (int k = 110; k < 125; k++) { ASSERT_OK(sst_file_writer.Put(Key(k), Key(k) + "_val_overlap")); } ExternalSstFileInfo file3_info; s = sst_file_writer.Finish(&file3_info); ASSERT_TRUE(s.ok()) << s.ToString(); ASSERT_EQ(file3_info.file_path, file3); ASSERT_EQ(file3_info.num_entries, 15); ASSERT_EQ(file3_info.smallest_key, Key(110)); ASSERT_EQ(file3_info.largest_key, Key(124)); s = DeprecatedAddFile({file1}, true /* move file */); ASSERT_TRUE(s.ok()) << s.ToString(); ASSERT_EQ(Status::NotFound(), env_->FileExists(file1)); s = DeprecatedAddFile({file2}, false /* copy file */); ASSERT_TRUE(s.ok()) << s.ToString(); ASSERT_OK(env_->FileExists(file2)); // This file has overlapping values with the existing data s = DeprecatedAddFile({file3}, true /* move file */); ASSERT_FALSE(s.ok()) << s.ToString(); ASSERT_OK(env_->FileExists(file3)); for (int k = 0; k < 300; k++) { ASSERT_EQ(Get(Key(k)), Key(k) + "_val"); } } TEST_F(ExternalSSTFileBasicTest, IngestFileWithGlobalSeqnoPickedSeqno) { do { Options options = CurrentOptions(); DestroyAndReopen(options); std::map true_data; int file_id = 1; ASSERT_OK(GenerateAndAddExternalFile(options, {1, 2, 3, 4, 5, 6}, ValueType::kTypeValue, file_id++, &true_data)); // File doesn't overwrite any keys, no seqno needed ASSERT_EQ(dbfull()->GetLatestSequenceNumber(), 0); ASSERT_OK(GenerateAndAddExternalFile(options, {10, 11, 12, 13}, ValueType::kTypeValue, file_id++, &true_data)); // File doesn't overwrite any keys, no seqno needed ASSERT_EQ(dbfull()->GetLatestSequenceNumber(), 0); ASSERT_OK(GenerateAndAddExternalFile( options, {1, 4, 6}, ValueType::kTypeValue, file_id++, &true_data)); // File overwrites some keys, a seqno will be assigned ASSERT_EQ(dbfull()->GetLatestSequenceNumber(), 1); ASSERT_OK(GenerateAndAddExternalFile( options, {11, 15, 19}, ValueType::kTypeValue, file_id++, &true_data)); // File overwrites some keys, a seqno will be assigned ASSERT_EQ(dbfull()->GetLatestSequenceNumber(), 2); ASSERT_OK(GenerateAndAddExternalFile( options, {120, 130}, ValueType::kTypeValue, file_id++, &true_data)); // File doesn't overwrite any keys, no seqno needed ASSERT_EQ(dbfull()->GetLatestSequenceNumber(), 2); ASSERT_OK(GenerateAndAddExternalFile( options, {1, 130}, ValueType::kTypeValue, file_id++, &true_data)); // File overwrites some keys, a seqno will be assigned ASSERT_EQ(dbfull()->GetLatestSequenceNumber(), 3); // Write some keys through normal write path for (int i = 0; i < 50; i++) { ASSERT_OK(Put(Key(i), "memtable")); true_data[Key(i)] = "memtable"; } SequenceNumber last_seqno = dbfull()->GetLatestSequenceNumber(); ASSERT_OK(GenerateAndAddExternalFile( options, {60, 61, 62}, ValueType::kTypeValue, file_id++, &true_data)); // File doesn't overwrite any keys, no seqno needed ASSERT_EQ(dbfull()->GetLatestSequenceNumber(), last_seqno); ASSERT_OK(GenerateAndAddExternalFile( options, {40, 41, 42}, ValueType::kTypeValue, file_id++, &true_data)); // File overwrites some keys, a seqno will be assigned ASSERT_EQ(dbfull()->GetLatestSequenceNumber(), last_seqno + 1); ASSERT_OK(GenerateAndAddExternalFile( options, {20, 30, 40}, ValueType::kTypeValue, file_id++, &true_data)); // File overwrites some keys, a seqno will be assigned ASSERT_EQ(dbfull()->GetLatestSequenceNumber(), last_seqno + 2); const Snapshot* snapshot = db_->GetSnapshot(); // We will need a seqno for the file regardless if the file overwrite // keys in the DB or not because we have a snapshot ASSERT_OK(GenerateAndAddExternalFile( options, {1000, 1002}, ValueType::kTypeValue, file_id++, &true_data)); // A global seqno will be assigned anyway because of the snapshot ASSERT_EQ(dbfull()->GetLatestSequenceNumber(), last_seqno + 3); ASSERT_OK(GenerateAndAddExternalFile( options, {2000, 3002}, ValueType::kTypeValue, file_id++, &true_data)); // A global seqno will be assigned anyway because of the snapshot ASSERT_EQ(dbfull()->GetLatestSequenceNumber(), last_seqno + 4); ASSERT_OK(GenerateAndAddExternalFile(options, {1, 20, 40, 100, 150}, ValueType::kTypeValue, file_id++, &true_data)); // A global seqno will be assigned anyway because of the snapshot ASSERT_EQ(dbfull()->GetLatestSequenceNumber(), last_seqno + 5); db_->ReleaseSnapshot(snapshot); ASSERT_OK(GenerateAndAddExternalFile( options, {5000, 5001}, ValueType::kTypeValue, file_id++, &true_data)); // No snapshot anymore, no need to assign a seqno ASSERT_EQ(dbfull()->GetLatestSequenceNumber(), last_seqno + 5); size_t kcnt = 0; VerifyDBFromMap(true_data, &kcnt, false); } while (ChangeCompactOptions()); } TEST_F(ExternalSSTFileBasicTest, IngestFileWithMultipleValueType) { do { Options options = CurrentOptions(); options.merge_operator.reset(new TestPutOperator()); DestroyAndReopen(options); std::map true_data; int file_id = 1; ASSERT_OK(GenerateAndAddExternalFile(options, {1, 2, 3, 4, 5, 6}, ValueType::kTypeValue, file_id++, &true_data)); // File doesn't overwrite any keys, no seqno needed ASSERT_EQ(dbfull()->GetLatestSequenceNumber(), 0); ASSERT_OK(GenerateAndAddExternalFile(options, {10, 11, 12, 13}, ValueType::kTypeValue, file_id++, &true_data)); // File doesn't overwrite any keys, no seqno needed ASSERT_EQ(dbfull()->GetLatestSequenceNumber(), 0); ASSERT_OK(GenerateAndAddExternalFile( options, {1, 4, 6}, ValueType::kTypeMerge, file_id++, &true_data)); // File overwrites some keys, a seqno will be assigned ASSERT_EQ(dbfull()->GetLatestSequenceNumber(), 1); ASSERT_OK(GenerateAndAddExternalFile(options, {11, 15, 19}, ValueType::kTypeDeletion, file_id++, &true_data)); // File overwrites some keys, a seqno will be assigned ASSERT_EQ(dbfull()->GetLatestSequenceNumber(), 2); ASSERT_OK(GenerateAndAddExternalFile( options, {120, 130}, ValueType::kTypeMerge, file_id++, &true_data)); // File doesn't overwrite any keys, no seqno needed ASSERT_EQ(dbfull()->GetLatestSequenceNumber(), 2); ASSERT_OK(GenerateAndAddExternalFile( options, {1, 130}, ValueType::kTypeDeletion, file_id++, &true_data)); // File overwrites some keys, a seqno will be assigned ASSERT_EQ(dbfull()->GetLatestSequenceNumber(), 3); ASSERT_OK(GenerateAndAddExternalFile(options, {120}, {ValueType::kTypeValue}, {{120, 135}}, file_id++, &true_data)); // File overwrites some keys, a seqno will be assigned ASSERT_EQ(dbfull()->GetLatestSequenceNumber(), 4); ASSERT_OK(GenerateAndAddExternalFile(options, {}, {}, {{110, 120}}, file_id++, &true_data)); // The range deletion ends on a key, but it doesn't actually delete // this key because the largest key in the range is exclusive. Still, // it counts as an overlap so a new seqno will be assigned. ASSERT_EQ(dbfull()->GetLatestSequenceNumber(), 5); ASSERT_OK(GenerateAndAddExternalFile(options, {}, {}, {{100, 109}}, file_id++, &true_data)); // File doesn't overwrite any keys, no seqno needed ASSERT_EQ(dbfull()->GetLatestSequenceNumber(), 5); // Write some keys through normal write path for (int i = 0; i < 50; i++) { ASSERT_OK(Put(Key(i), "memtable")); true_data[Key(i)] = "memtable"; } SequenceNumber last_seqno = dbfull()->GetLatestSequenceNumber(); ASSERT_OK(GenerateAndAddExternalFile( options, {60, 61, 62}, ValueType::kTypeValue, file_id++, &true_data)); // File doesn't overwrite any keys, no seqno needed ASSERT_EQ(dbfull()->GetLatestSequenceNumber(), last_seqno); ASSERT_OK(GenerateAndAddExternalFile( options, {40, 41, 42}, ValueType::kTypeMerge, file_id++, &true_data)); // File overwrites some keys, a seqno will be assigned ASSERT_EQ(dbfull()->GetLatestSequenceNumber(), last_seqno + 1); ASSERT_OK(GenerateAndAddExternalFile(options, {20, 30, 40}, ValueType::kTypeDeletion, file_id++, &true_data)); // File overwrites some keys, a seqno will be assigned ASSERT_EQ(dbfull()->GetLatestSequenceNumber(), last_seqno + 2); const Snapshot* snapshot = db_->GetSnapshot(); // We will need a seqno for the file regardless if the file overwrite // keys in the DB or not because we have a snapshot ASSERT_OK(GenerateAndAddExternalFile( options, {1000, 1002}, ValueType::kTypeMerge, file_id++, &true_data)); // A global seqno will be assigned anyway because of the snapshot ASSERT_EQ(dbfull()->GetLatestSequenceNumber(), last_seqno + 3); ASSERT_OK(GenerateAndAddExternalFile( options, {2000, 3002}, ValueType::kTypeMerge, file_id++, &true_data)); // A global seqno will be assigned anyway because of the snapshot ASSERT_EQ(dbfull()->GetLatestSequenceNumber(), last_seqno + 4); ASSERT_OK(GenerateAndAddExternalFile(options, {1, 20, 40, 100, 150}, ValueType::kTypeMerge, file_id++, &true_data)); // A global seqno will be assigned anyway because of the snapshot ASSERT_EQ(dbfull()->GetLatestSequenceNumber(), last_seqno + 5); db_->ReleaseSnapshot(snapshot); ASSERT_OK(GenerateAndAddExternalFile( options, {5000, 5001}, ValueType::kTypeValue, file_id++, &true_data)); // No snapshot anymore, no need to assign a seqno ASSERT_EQ(dbfull()->GetLatestSequenceNumber(), last_seqno + 5); size_t kcnt = 0; VerifyDBFromMap(true_data, &kcnt, false); } while (ChangeCompactOptions()); } TEST_F(ExternalSSTFileBasicTest, IngestFileWithMixedValueType) { do { Options options = CurrentOptions(); options.merge_operator.reset(new TestPutOperator()); DestroyAndReopen(options); std::map true_data; int file_id = 1; ASSERT_OK(GenerateAndAddExternalFile( options, {1, 2, 3, 4, 5, 6}, {ValueType::kTypeValue, ValueType::kTypeMerge, ValueType::kTypeValue, ValueType::kTypeMerge, ValueType::kTypeValue, ValueType::kTypeMerge}, file_id++, &true_data)); // File doesn't overwrite any keys, no seqno needed ASSERT_EQ(dbfull()->GetLatestSequenceNumber(), 0); ASSERT_OK(GenerateAndAddExternalFile( options, {10, 11, 12, 13}, {ValueType::kTypeValue, ValueType::kTypeMerge, ValueType::kTypeValue, ValueType::kTypeMerge}, file_id++, &true_data)); // File doesn't overwrite any keys, no seqno needed ASSERT_EQ(dbfull()->GetLatestSequenceNumber(), 0); ASSERT_OK(GenerateAndAddExternalFile( options, {1, 4, 6}, {ValueType::kTypeDeletion, ValueType::kTypeValue, ValueType::kTypeMerge}, file_id++, &true_data)); // File overwrites some keys, a seqno will be assigned ASSERT_EQ(dbfull()->GetLatestSequenceNumber(), 1); ASSERT_OK(GenerateAndAddExternalFile( options, {11, 15, 19}, {ValueType::kTypeDeletion, ValueType::kTypeMerge, ValueType::kTypeValue}, file_id++, &true_data)); // File overwrites some keys, a seqno will be assigned ASSERT_EQ(dbfull()->GetLatestSequenceNumber(), 2); ASSERT_OK(GenerateAndAddExternalFile( options, {120, 130}, {ValueType::kTypeValue, ValueType::kTypeMerge}, file_id++, &true_data)); // File doesn't overwrite any keys, no seqno needed ASSERT_EQ(dbfull()->GetLatestSequenceNumber(), 2); ASSERT_OK(GenerateAndAddExternalFile( options, {1, 130}, {ValueType::kTypeMerge, ValueType::kTypeDeletion}, file_id++, &true_data)); // File overwrites some keys, a seqno will be assigned ASSERT_EQ(dbfull()->GetLatestSequenceNumber(), 3); ASSERT_OK(GenerateAndAddExternalFile( options, {150, 151, 152}, {ValueType::kTypeValue, ValueType::kTypeMerge, ValueType::kTypeDeletion}, {{150, 160}, {180, 190}}, file_id++, &true_data)); // File doesn't overwrite any keys, no seqno needed ASSERT_EQ(dbfull()->GetLatestSequenceNumber(), 3); ASSERT_OK(GenerateAndAddExternalFile( options, {150, 151, 152}, {ValueType::kTypeValue, ValueType::kTypeMerge, ValueType::kTypeValue}, {{200, 250}}, file_id++, &true_data)); // File overwrites some keys, a seqno will be assigned ASSERT_EQ(dbfull()->GetLatestSequenceNumber(), 4); ASSERT_OK(GenerateAndAddExternalFile( options, {300, 301, 302}, {ValueType::kTypeValue, ValueType::kTypeMerge, ValueType::kTypeDeletion}, {{1, 2}, {152, 154}}, file_id++, &true_data)); // File overwrites some keys, a seqno will be assigned ASSERT_EQ(dbfull()->GetLatestSequenceNumber(), 5); // Write some keys through normal write path for (int i = 0; i < 50; i++) { ASSERT_OK(Put(Key(i), "memtable")); true_data[Key(i)] = "memtable"; } SequenceNumber last_seqno = dbfull()->GetLatestSequenceNumber(); ASSERT_OK(GenerateAndAddExternalFile( options, {60, 61, 62}, {ValueType::kTypeValue, ValueType::kTypeMerge, ValueType::kTypeValue}, file_id++, &true_data)); // File doesn't overwrite any keys, no seqno needed ASSERT_EQ(dbfull()->GetLatestSequenceNumber(), last_seqno); ASSERT_OK(GenerateAndAddExternalFile( options, {40, 41, 42}, {ValueType::kTypeValue, ValueType::kTypeDeletion, ValueType::kTypeDeletion}, file_id++, &true_data)); // File overwrites some keys, a seqno will be assigned ASSERT_EQ(dbfull()->GetLatestSequenceNumber(), last_seqno + 1); ASSERT_OK(GenerateAndAddExternalFile( options, {20, 30, 40}, {ValueType::kTypeDeletion, ValueType::kTypeDeletion, ValueType::kTypeDeletion}, file_id++, &true_data)); // File overwrites some keys, a seqno will be assigned ASSERT_EQ(dbfull()->GetLatestSequenceNumber(), last_seqno + 2); const Snapshot* snapshot = db_->GetSnapshot(); // We will need a seqno for the file regardless if the file overwrite // keys in the DB or not because we have a snapshot ASSERT_OK(GenerateAndAddExternalFile( options, {1000, 1002}, {ValueType::kTypeValue, ValueType::kTypeMerge}, file_id++, &true_data)); // A global seqno will be assigned anyway because of the snapshot ASSERT_EQ(dbfull()->GetLatestSequenceNumber(), last_seqno + 3); ASSERT_OK(GenerateAndAddExternalFile( options, {2000, 3002}, {ValueType::kTypeValue, ValueType::kTypeMerge}, file_id++, &true_data)); // A global seqno will be assigned anyway because of the snapshot ASSERT_EQ(dbfull()->GetLatestSequenceNumber(), last_seqno + 4); ASSERT_OK(GenerateAndAddExternalFile( options, {1, 20, 40, 100, 150}, {ValueType::kTypeDeletion, ValueType::kTypeDeletion, ValueType::kTypeValue, ValueType::kTypeMerge, ValueType::kTypeMerge}, file_id++, &true_data)); // A global seqno will be assigned anyway because of the snapshot ASSERT_EQ(dbfull()->GetLatestSequenceNumber(), last_seqno + 5); db_->ReleaseSnapshot(snapshot); ASSERT_OK(GenerateAndAddExternalFile( options, {5000, 5001}, {ValueType::kTypeValue, ValueType::kTypeMerge}, file_id++, &true_data)); // No snapshot anymore, no need to assign a seqno ASSERT_EQ(dbfull()->GetLatestSequenceNumber(), last_seqno + 5); size_t kcnt = 0; VerifyDBFromMap(true_data, &kcnt, false); } while (ChangeCompactOptions()); } TEST_F(ExternalSSTFileBasicTest, FadviseTrigger) { Options options = CurrentOptions(); const int kNumKeys = 10000; size_t total_fadvised_bytes = 0; rocksdb::SyncPoint::GetInstance()->SetCallBack( "SstFileWriter::Rep::InvalidatePageCache", [&](void* arg) { size_t fadvise_size = *(reinterpret_cast(arg)); total_fadvised_bytes += fadvise_size; }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); std::unique_ptr sst_file_writer; std::string sst_file_path = sst_files_dir_ + "file_fadvise_disable.sst"; sst_file_writer.reset( new SstFileWriter(EnvOptions(), options, nullptr, false)); ASSERT_OK(sst_file_writer->Open(sst_file_path)); for (int i = 0; i < kNumKeys; i++) { ASSERT_OK(sst_file_writer->Put(Key(i), Key(i))); } ASSERT_OK(sst_file_writer->Finish()); // fadvise disabled ASSERT_EQ(total_fadvised_bytes, 0); sst_file_path = sst_files_dir_ + "file_fadvise_enable.sst"; sst_file_writer.reset( new SstFileWriter(EnvOptions(), options, nullptr, true)); ASSERT_OK(sst_file_writer->Open(sst_file_path)); for (int i = 0; i < kNumKeys; i++) { ASSERT_OK(sst_file_writer->Put(Key(i), Key(i))); } ASSERT_OK(sst_file_writer->Finish()); // fadvise enabled ASSERT_EQ(total_fadvised_bytes, sst_file_writer->FileSize()); ASSERT_GT(total_fadvised_bytes, 0); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); } TEST_F(ExternalSSTFileBasicTest, IngestionWithRangeDeletions) { int kNumLevels = 7; Options options = CurrentOptions(); options.disable_auto_compactions = true; options.num_levels = kNumLevels; Reopen(options); std::map true_data; int file_id = 1; // prevent range deletions from being dropped due to becoming obsolete. const Snapshot* snapshot = db_->GetSnapshot(); // range del [0, 50) in L6 file, [50, 100) in L0 file, [100, 150) in memtable for (int i = 0; i < 3; i++) { if (i != 0) { db_->Flush(FlushOptions()); if (i == 1) { MoveFilesToLevel(kNumLevels - 1); } } ASSERT_OK(db_->DeleteRange(WriteOptions(), db_->DefaultColumnFamily(), Key(50 * i), Key(50 * (i + 1)))); } ASSERT_EQ(1, NumTableFilesAtLevel(0)); ASSERT_EQ(0, NumTableFilesAtLevel(kNumLevels - 2)); ASSERT_EQ(1, NumTableFilesAtLevel(kNumLevels - 1)); // overlaps with L0 file but not memtable, so flush is skipped and file is // ingested into L0 SequenceNumber last_seqno = dbfull()->GetLatestSequenceNumber(); ASSERT_OK(GenerateAndAddExternalFile( options, {60, 90}, {ValueType::kTypeValue, ValueType::kTypeValue}, {{65, 70}, {70, 85}}, file_id++, &true_data)); ASSERT_EQ(dbfull()->GetLatestSequenceNumber(), ++last_seqno); ASSERT_EQ(2, NumTableFilesAtLevel(0)); ASSERT_EQ(0, NumTableFilesAtLevel(kNumLevels - 2)); ASSERT_EQ(1, NumTableFilesAtLevel(options.num_levels - 1)); // overlaps with L6 file but not memtable or L0 file, so flush is skipped and // file is ingested into L5 ASSERT_OK(GenerateAndAddExternalFile( options, {10, 40}, {ValueType::kTypeValue, ValueType::kTypeValue}, file_id++, &true_data)); ASSERT_EQ(dbfull()->GetLatestSequenceNumber(), ++last_seqno); ASSERT_EQ(2, NumTableFilesAtLevel(0)); ASSERT_EQ(1, NumTableFilesAtLevel(kNumLevels - 2)); ASSERT_EQ(1, NumTableFilesAtLevel(options.num_levels - 1)); // overlaps with L5 file but not memtable or L0 file, so flush is skipped and // file is ingested into L4 ASSERT_OK(GenerateAndAddExternalFile(options, {}, {}, {{5, 15}}, file_id++, &true_data)); ASSERT_EQ(dbfull()->GetLatestSequenceNumber(), ++last_seqno); ASSERT_EQ(2, NumTableFilesAtLevel(0)); ASSERT_EQ(1, NumTableFilesAtLevel(kNumLevels - 2)); ASSERT_EQ(1, NumTableFilesAtLevel(options.num_levels - 2)); ASSERT_EQ(1, NumTableFilesAtLevel(options.num_levels - 1)); // ingested file overlaps with memtable, so flush is triggered before the file // is ingested such that the ingested data is considered newest. So L0 file // count increases by two. ASSERT_OK(GenerateAndAddExternalFile( options, {100, 140}, {ValueType::kTypeValue, ValueType::kTypeValue}, file_id++, &true_data)); ASSERT_EQ(dbfull()->GetLatestSequenceNumber(), ++last_seqno); ASSERT_EQ(4, NumTableFilesAtLevel(0)); ASSERT_EQ(1, NumTableFilesAtLevel(kNumLevels - 2)); ASSERT_EQ(1, NumTableFilesAtLevel(options.num_levels - 1)); // snapshot unneeded now that all range deletions are persisted db_->ReleaseSnapshot(snapshot); // overlaps with nothing, so places at bottom level and skips incrementing // seqnum. ASSERT_OK(GenerateAndAddExternalFile( options, {151, 175}, {ValueType::kTypeValue, ValueType::kTypeValue}, {{160, 200}}, file_id++, &true_data)); ASSERT_EQ(dbfull()->GetLatestSequenceNumber(), last_seqno); ASSERT_EQ(4, NumTableFilesAtLevel(0)); ASSERT_EQ(1, NumTableFilesAtLevel(kNumLevels - 2)); ASSERT_EQ(2, NumTableFilesAtLevel(options.num_levels - 1)); } #endif // ROCKSDB_LITE } // namespace rocksdb int main(int argc, char** argv) { rocksdb::port::InstallStackTraceHandler(); ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/db/external_sst_file_ingestion_job.cc000066400000000000000000000533031337235545400225730ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #ifndef ROCKSDB_LITE #include "db/external_sst_file_ingestion_job.h" #ifndef __STDC_FORMAT_MACROS #define __STDC_FORMAT_MACROS #endif #include #include #include #include #include "db/version_edit.h" #include "table/merging_iterator.h" #include "table/scoped_arena_iterator.h" #include "table/sst_file_writer_collectors.h" #include "table/table_builder.h" #include "util/file_reader_writer.h" #include "util/file_util.h" #include "util/stop_watch.h" #include "util/sync_point.h" namespace rocksdb { Status ExternalSstFileIngestionJob::Prepare( const std::vector& external_files_paths, uint64_t next_file_number, SuperVersion* sv) { Status status; // Read the information of files we are ingesting for (const std::string& file_path : external_files_paths) { IngestedFileInfo file_to_ingest; status = GetIngestedFileInfo(file_path, &file_to_ingest, sv); if (!status.ok()) { return status; } files_to_ingest_.push_back(file_to_ingest); } for (const IngestedFileInfo& f : files_to_ingest_) { if (f.cf_id != TablePropertiesCollectorFactory::Context::kUnknownColumnFamily && f.cf_id != cfd_->GetID()) { return Status::InvalidArgument( "External file column family id dont match"); } } const Comparator* ucmp = cfd_->internal_comparator().user_comparator(); auto num_files = files_to_ingest_.size(); if (num_files == 0) { return Status::InvalidArgument("The list of files is empty"); } else if (num_files > 1) { // Verify that passed files dont have overlapping ranges autovector sorted_files; for (size_t i = 0; i < num_files; i++) { sorted_files.push_back(&files_to_ingest_[i]); } std::sort( sorted_files.begin(), sorted_files.end(), [&ucmp](const IngestedFileInfo* info1, const IngestedFileInfo* info2) { return ucmp->Compare(info1->smallest_user_key, info2->smallest_user_key) < 0; }); for (size_t i = 0; i < num_files - 1; i++) { if (ucmp->Compare(sorted_files[i]->largest_user_key, sorted_files[i + 1]->smallest_user_key) >= 0) { return Status::NotSupported("Files have overlapping ranges"); } } } for (IngestedFileInfo& f : files_to_ingest_) { if (f.num_entries == 0 && f.num_range_deletions == 0) { return Status::InvalidArgument("File contain no entries"); } if (!f.smallest_internal_key().Valid() || !f.largest_internal_key().Valid()) { return Status::Corruption("Generated table have corrupted keys"); } } // Copy/Move external files into DB for (IngestedFileInfo& f : files_to_ingest_) { f.fd = FileDescriptor(next_file_number++, 0, f.file_size); const std::string path_outside_db = f.external_file_path; const std::string path_inside_db = TableFileName(cfd_->ioptions()->cf_paths, f.fd.GetNumber(), f.fd.GetPathId()); if (ingestion_options_.move_files) { status = env_->LinkFile(path_outside_db, path_inside_db); if (status.IsNotSupported()) { // Original file is on a different FS, use copy instead of hard linking status = CopyFile(env_, path_outside_db, path_inside_db, 0, db_options_.use_fsync); f.copy_file = true; } else { f.copy_file = false; } } else { status = CopyFile(env_, path_outside_db, path_inside_db, 0, db_options_.use_fsync); f.copy_file = true; } TEST_SYNC_POINT("ExternalSstFileIngestionJob::Prepare:FileAdded"); if (!status.ok()) { break; } f.internal_file_path = path_inside_db; } if (!status.ok()) { // We failed, remove all files that we copied into the db for (IngestedFileInfo& f : files_to_ingest_) { if (f.internal_file_path.empty()) { break; } Status s = env_->DeleteFile(f.internal_file_path); if (!s.ok()) { ROCKS_LOG_WARN(db_options_.info_log, "AddFile() clean up for file %s failed : %s", f.internal_file_path.c_str(), s.ToString().c_str()); } } } return status; } Status ExternalSstFileIngestionJob::NeedsFlush(bool* flush_needed, SuperVersion* super_version) { autovector ranges; for (const IngestedFileInfo& file_to_ingest : files_to_ingest_) { ranges.emplace_back(file_to_ingest.smallest_user_key, file_to_ingest.largest_user_key); } Status status = cfd_->RangesOverlapWithMemtables(ranges, super_version, flush_needed); if (status.ok() && *flush_needed && !ingestion_options_.allow_blocking_flush) { status = Status::InvalidArgument("External file requires flush"); } return status; } // REQUIRES: we have become the only writer by entering both write_thread_ and // nonmem_write_thread_ Status ExternalSstFileIngestionJob::Run() { Status status; SuperVersion* super_version = cfd_->GetSuperVersion(); #ifndef NDEBUG // We should never run the job with a memtable that is overlapping // with the files we are ingesting bool need_flush = false; status = NeedsFlush(&need_flush, super_version); assert(status.ok() && need_flush == false); #endif bool consumed_seqno = false; bool force_global_seqno = false; if (ingestion_options_.snapshot_consistency && !db_snapshots_->empty()) { // We need to assign a global sequence number to all the files even // if the dont overlap with any ranges since we have snapshots force_global_seqno = true; } // It is safe to use this instead of LastAllocatedSequence since we are // the only active writer, and hence they are equal const SequenceNumber last_seqno = versions_->LastSequence(); edit_.SetColumnFamily(cfd_->GetID()); // The levels that the files will be ingested into for (IngestedFileInfo& f : files_to_ingest_) { SequenceNumber assigned_seqno = 0; if (ingestion_options_.ingest_behind) { status = CheckLevelForIngestedBehindFile(&f); } else { status = AssignLevelAndSeqnoForIngestedFile( super_version, force_global_seqno, cfd_->ioptions()->compaction_style, &f, &assigned_seqno); } if (!status.ok()) { return status; } status = AssignGlobalSeqnoForIngestedFile(&f, assigned_seqno); TEST_SYNC_POINT_CALLBACK("ExternalSstFileIngestionJob::Run", &assigned_seqno); if (assigned_seqno == last_seqno + 1) { consumed_seqno = true; } if (!status.ok()) { return status; } edit_.AddFile(f.picked_level, f.fd.GetNumber(), f.fd.GetPathId(), f.fd.GetFileSize(), f.smallest_internal_key(), f.largest_internal_key(), f.assigned_seqno, f.assigned_seqno, false); } if (consumed_seqno) { versions_->SetLastAllocatedSequence(last_seqno + 1); versions_->SetLastPublishedSequence(last_seqno + 1); versions_->SetLastSequence(last_seqno + 1); } return status; } void ExternalSstFileIngestionJob::UpdateStats() { // Update internal stats for new ingested files uint64_t total_keys = 0; uint64_t total_l0_files = 0; uint64_t total_time = env_->NowMicros() - job_start_time_; for (IngestedFileInfo& f : files_to_ingest_) { InternalStats::CompactionStats stats(CompactionReason::kExternalSstIngestion, 1); stats.micros = total_time; // If actual copy occured for this file, then we need to count the file // size as the actual bytes written. If the file was linked, then we ignore // the bytes written for file metadata. // TODO (yanqin) maybe account for file metadata bytes for exact accuracy? if (f.copy_file) { stats.bytes_written = f.fd.GetFileSize(); } else { stats.bytes_moved = f.fd.GetFileSize(); } stats.num_output_files = 1; cfd_->internal_stats()->AddCompactionStats(f.picked_level, stats); cfd_->internal_stats()->AddCFStats(InternalStats::BYTES_INGESTED_ADD_FILE, f.fd.GetFileSize()); total_keys += f.num_entries; if (f.picked_level == 0) { total_l0_files += 1; } ROCKS_LOG_INFO( db_options_.info_log, "[AddFile] External SST file %s was ingested in L%d with path %s " "(global_seqno=%" PRIu64 ")\n", f.external_file_path.c_str(), f.picked_level, f.internal_file_path.c_str(), f.assigned_seqno); } cfd_->internal_stats()->AddCFStats(InternalStats::INGESTED_NUM_KEYS_TOTAL, total_keys); cfd_->internal_stats()->AddCFStats(InternalStats::INGESTED_NUM_FILES_TOTAL, files_to_ingest_.size()); cfd_->internal_stats()->AddCFStats( InternalStats::INGESTED_LEVEL0_NUM_FILES_TOTAL, total_l0_files); } void ExternalSstFileIngestionJob::Cleanup(const Status& status) { if (!status.ok()) { // We failed to add the files to the database // remove all the files we copied for (IngestedFileInfo& f : files_to_ingest_) { Status s = env_->DeleteFile(f.internal_file_path); if (!s.ok()) { ROCKS_LOG_WARN(db_options_.info_log, "AddFile() clean up for file %s failed : %s", f.internal_file_path.c_str(), s.ToString().c_str()); } } } else if (status.ok() && ingestion_options_.move_files) { // The files were moved and added successfully, remove original file links for (IngestedFileInfo& f : files_to_ingest_) { Status s = env_->DeleteFile(f.external_file_path); if (!s.ok()) { ROCKS_LOG_WARN( db_options_.info_log, "%s was added to DB successfully but failed to remove original " "file link : %s", f.external_file_path.c_str(), s.ToString().c_str()); } } } } Status ExternalSstFileIngestionJob::GetIngestedFileInfo( const std::string& external_file, IngestedFileInfo* file_to_ingest, SuperVersion* sv) { file_to_ingest->external_file_path = external_file; // Get external file size Status status = env_->GetFileSize(external_file, &file_to_ingest->file_size); if (!status.ok()) { return status; } // Create TableReader for external file std::unique_ptr table_reader; std::unique_ptr sst_file; std::unique_ptr sst_file_reader; status = env_->NewRandomAccessFile(external_file, &sst_file, env_options_); if (!status.ok()) { return status; } sst_file_reader.reset(new RandomAccessFileReader(std::move(sst_file), external_file)); status = cfd_->ioptions()->table_factory->NewTableReader( TableReaderOptions(*cfd_->ioptions(), sv->mutable_cf_options.prefix_extractor.get(), env_options_, cfd_->internal_comparator()), std::move(sst_file_reader), file_to_ingest->file_size, &table_reader); if (!status.ok()) { return status; } // Get the external file properties auto props = table_reader->GetTableProperties(); const auto& uprops = props->user_collected_properties; // Get table version auto version_iter = uprops.find(ExternalSstFilePropertyNames::kVersion); if (version_iter == uprops.end()) { return Status::Corruption("External file version not found"); } file_to_ingest->version = DecodeFixed32(version_iter->second.c_str()); auto seqno_iter = uprops.find(ExternalSstFilePropertyNames::kGlobalSeqno); if (file_to_ingest->version == 2) { // version 2 imply that we have global sequence number if (seqno_iter == uprops.end()) { return Status::Corruption( "External file global sequence number not found"); } // Set the global sequence number file_to_ingest->original_seqno = DecodeFixed64(seqno_iter->second.c_str()); auto offsets_iter = props->properties_offsets.find( ExternalSstFilePropertyNames::kGlobalSeqno); if (offsets_iter == props->properties_offsets.end() || offsets_iter->second == 0) { file_to_ingest->global_seqno_offset = 0; return Status::Corruption("Was not able to find file global seqno field"); } file_to_ingest->global_seqno_offset = static_cast(offsets_iter->second); } else if (file_to_ingest->version == 1) { // SST file V1 should not have global seqno field assert(seqno_iter == uprops.end()); file_to_ingest->original_seqno = 0; if (ingestion_options_.allow_blocking_flush || ingestion_options_.allow_global_seqno) { return Status::InvalidArgument( "External SST file V1 does not support global seqno"); } } else { return Status::InvalidArgument("External file version is not supported"); } // Get number of entries in table file_to_ingest->num_entries = props->num_entries; file_to_ingest->num_range_deletions = props->num_range_deletions; ParsedInternalKey key; ReadOptions ro; // During reading the external file we can cache blocks that we read into // the block cache, if we later change the global seqno of this file, we will // have block in cache that will include keys with wrong seqno. // We need to disable fill_cache so that we read from the file without // updating the block cache. ro.fill_cache = false; std::unique_ptr iter(table_reader->NewIterator( ro, sv->mutable_cf_options.prefix_extractor.get())); std::unique_ptr range_del_iter( table_reader->NewRangeTombstoneIterator(ro)); // Get first (smallest) and last (largest) key from file. bool bounds_set = false; iter->SeekToFirst(); if (iter->Valid()) { if (!ParseInternalKey(iter->key(), &key)) { return Status::Corruption("external file have corrupted keys"); } if (key.sequence != 0) { return Status::Corruption("external file have non zero sequence number"); } file_to_ingest->smallest_user_key = key.user_key.ToString(); iter->SeekToLast(); if (!ParseInternalKey(iter->key(), &key)) { return Status::Corruption("external file have corrupted keys"); } if (key.sequence != 0) { return Status::Corruption("external file have non zero sequence number"); } file_to_ingest->largest_user_key = key.user_key.ToString(); bounds_set = true; } // We may need to adjust these key bounds, depending on whether any range // deletion tombstones extend past them. const Comparator* ucmp = cfd_->internal_comparator().user_comparator(); if (range_del_iter != nullptr) { for (range_del_iter->SeekToFirst(); range_del_iter->Valid(); range_del_iter->Next()) { if (!ParseInternalKey(range_del_iter->key(), &key)) { return Status::Corruption("external file have corrupted keys"); } RangeTombstone tombstone(key, range_del_iter->value()); if (!bounds_set || ucmp->Compare(tombstone.start_key_, file_to_ingest->smallest_user_key) < 0) { file_to_ingest->smallest_user_key = tombstone.start_key_.ToString(); } if (!bounds_set || ucmp->Compare(tombstone.end_key_, file_to_ingest->largest_user_key) > 0) { file_to_ingest->largest_user_key = tombstone.end_key_.ToString(); } bounds_set = true; } } file_to_ingest->cf_id = static_cast(props->column_family_id); file_to_ingest->table_properties = *props; return status; } Status ExternalSstFileIngestionJob::AssignLevelAndSeqnoForIngestedFile( SuperVersion* sv, bool force_global_seqno, CompactionStyle compaction_style, IngestedFileInfo* file_to_ingest, SequenceNumber* assigned_seqno) { Status status; *assigned_seqno = 0; const SequenceNumber last_seqno = versions_->LastSequence(); if (force_global_seqno) { *assigned_seqno = last_seqno + 1; if (compaction_style == kCompactionStyleUniversal) { file_to_ingest->picked_level = 0; return status; } } bool overlap_with_db = false; Arena arena; ReadOptions ro; ro.total_order_seek = true; int target_level = 0; auto* vstorage = cfd_->current()->storage_info(); for (int lvl = 0; lvl < cfd_->NumberLevels(); lvl++) { if (lvl > 0 && lvl < vstorage->base_level()) { continue; } if (vstorage->NumLevelFiles(lvl) > 0) { bool overlap_with_level = false; status = sv->current->OverlapWithLevelIterator(ro, env_options_, file_to_ingest->smallest_user_key, file_to_ingest->largest_user_key, lvl, &overlap_with_level); if (!status.ok()) { return status; } if (overlap_with_level) { // We must use L0 or any level higher than `lvl` to be able to overwrite // the keys that we overlap with in this level, We also need to assign // this file a seqno to overwrite the existing keys in level `lvl` overlap_with_db = true; break; } if (compaction_style == kCompactionStyleUniversal && lvl != 0) { const std::vector& level_files = vstorage->LevelFiles(lvl); const SequenceNumber level_largest_seqno = (*max_element(level_files.begin(), level_files.end(), [](FileMetaData* f1, FileMetaData* f2) { return f1->fd.largest_seqno < f2->fd.largest_seqno; })) ->fd.largest_seqno; // should only assign seqno to current level's largest seqno when // the file fits if (level_largest_seqno != 0 && IngestedFileFitInLevel(file_to_ingest, lvl)) { *assigned_seqno = level_largest_seqno; } else { continue; } } } else if (compaction_style == kCompactionStyleUniversal) { continue; } // We dont overlap with any keys in this level, but we still need to check // if our file can fit in it if (IngestedFileFitInLevel(file_to_ingest, lvl)) { target_level = lvl; } } TEST_SYNC_POINT_CALLBACK( "ExternalSstFileIngestionJob::AssignLevelAndSeqnoForIngestedFile", &overlap_with_db); file_to_ingest->picked_level = target_level; if (overlap_with_db && *assigned_seqno == 0) { *assigned_seqno = last_seqno + 1; } return status; } Status ExternalSstFileIngestionJob::CheckLevelForIngestedBehindFile( IngestedFileInfo* file_to_ingest) { auto* vstorage = cfd_->current()->storage_info(); // first check if new files fit in the bottommost level int bottom_lvl = cfd_->NumberLevels() - 1; if(!IngestedFileFitInLevel(file_to_ingest, bottom_lvl)) { return Status::InvalidArgument( "Can't ingest_behind file as it doesn't fit " "at the bottommost level!"); } // second check if despite allow_ingest_behind=true we still have 0 seqnums // at some upper level for (int lvl = 0; lvl < cfd_->NumberLevels() - 1; lvl++) { for (auto file : vstorage->LevelFiles(lvl)) { if (file->fd.smallest_seqno == 0) { return Status::InvalidArgument( "Can't ingest_behind file as despite allow_ingest_behind=true " "there are files with 0 seqno in database at upper levels!"); } } } file_to_ingest->picked_level = bottom_lvl; return Status::OK(); } Status ExternalSstFileIngestionJob::AssignGlobalSeqnoForIngestedFile( IngestedFileInfo* file_to_ingest, SequenceNumber seqno) { if (file_to_ingest->original_seqno == seqno) { // This file already have the correct global seqno return Status::OK(); } else if (!ingestion_options_.allow_global_seqno) { return Status::InvalidArgument("Global seqno is required, but disabled"); } else if (file_to_ingest->global_seqno_offset == 0) { return Status::InvalidArgument( "Trying to set global seqno for a file that dont have a global seqno " "field"); } if (ingestion_options_.write_global_seqno) { // Determine if we can write global_seqno to a given offset of file. // If the file system does not support random write, then we should not. // Otherwise we should. std::unique_ptr rwfile; Status status = env_->NewRandomRWFile(file_to_ingest->internal_file_path, &rwfile, env_options_); if (status.ok()) { std::string seqno_val; PutFixed64(&seqno_val, seqno); status = rwfile->Write(file_to_ingest->global_seqno_offset, seqno_val); if (!status.ok()) { return status; } } else if (!status.IsNotSupported()) { return status; } } file_to_ingest->assigned_seqno = seqno; return Status::OK(); } bool ExternalSstFileIngestionJob::IngestedFileFitInLevel( const IngestedFileInfo* file_to_ingest, int level) { if (level == 0) { // Files can always fit in L0 return true; } auto* vstorage = cfd_->current()->storage_info(); Slice file_smallest_user_key(file_to_ingest->smallest_user_key); Slice file_largest_user_key(file_to_ingest->largest_user_key); if (vstorage->OverlapInLevel(level, &file_smallest_user_key, &file_largest_user_key)) { // File overlap with another files in this level, we cannot // add it to this level return false; } if (cfd_->RangeOverlapWithCompaction(file_smallest_user_key, file_largest_user_key, level)) { // File overlap with a running compaction output that will be stored // in this level, we cannot add this file to this level return false; } // File did not overlap with level files, our compaction output return true; } } // namespace rocksdb #endif // !ROCKSDB_LITE rocksdb-5.17.2/db/external_sst_file_ingestion_job.h000066400000000000000000000135721337235545400224410ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #include #include #include #include "db/column_family.h" #include "db/dbformat.h" #include "db/internal_stats.h" #include "db/snapshot_impl.h" #include "options/db_options.h" #include "rocksdb/db.h" #include "rocksdb/env.h" #include "rocksdb/sst_file_writer.h" #include "util/autovector.h" namespace rocksdb { struct IngestedFileInfo { // External file path std::string external_file_path; // Smallest user key in external file std::string smallest_user_key; // Largest user key in external file std::string largest_user_key; // Sequence number for keys in external file SequenceNumber original_seqno; // Offset of the global sequence number field in the file, will // be zero if version is 1 (global seqno is not supported) size_t global_seqno_offset; // External file size uint64_t file_size; // total number of keys in external file uint64_t num_entries; // total number of range deletions in external file uint64_t num_range_deletions; // Id of column family this file shoule be ingested into uint32_t cf_id; // TableProperties read from external file TableProperties table_properties; // Version of external file int version; // FileDescriptor for the file inside the DB FileDescriptor fd; // file path that we picked for file inside the DB std::string internal_file_path; // Global sequence number that we picked for the file inside the DB SequenceNumber assigned_seqno = 0; // Level inside the DB we picked for the external file. int picked_level = 0; // Whether to copy or link the external sst file. copy_file will be set to // false if ingestion_options.move_files is true and underlying FS // supports link operation. Need to provide a default value to make the // undefined-behavior sanity check of llvm happy. Since // ingestion_options.move_files is false by default, thus copy_file is true // by default. bool copy_file = true; InternalKey smallest_internal_key() const { return InternalKey(smallest_user_key, assigned_seqno, ValueType::kTypeValue); } InternalKey largest_internal_key() const { return InternalKey(largest_user_key, assigned_seqno, ValueType::kTypeValue); } }; class ExternalSstFileIngestionJob { public: ExternalSstFileIngestionJob( Env* env, VersionSet* versions, ColumnFamilyData* cfd, const ImmutableDBOptions& db_options, const EnvOptions& env_options, SnapshotList* db_snapshots, const IngestExternalFileOptions& ingestion_options) : env_(env), versions_(versions), cfd_(cfd), db_options_(db_options), env_options_(env_options), db_snapshots_(db_snapshots), ingestion_options_(ingestion_options), job_start_time_(env_->NowMicros()) {} // Prepare the job by copying external files into the DB. Status Prepare(const std::vector& external_files_paths, uint64_t next_file_number, SuperVersion* sv); // Check if we need to flush the memtable before running the ingestion job // This will be true if the files we are ingesting are overlapping with any // key range in the memtable. // // @param super_version A referenced SuperVersion that will be held for the // duration of this function. // // Thread-safe Status NeedsFlush(bool* flush_needed, SuperVersion* super_version); // Will execute the ingestion job and prepare edit() to be applied. // REQUIRES: Mutex held Status Run(); // Update column family stats. // REQUIRES: Mutex held void UpdateStats(); // Cleanup after successful/failed job void Cleanup(const Status& status); VersionEdit* edit() { return &edit_; } const autovector& files_to_ingest() const { return files_to_ingest_; } private: // Open the external file and populate `file_to_ingest` with all the // external information we need to ingest this file. Status GetIngestedFileInfo(const std::string& external_file, IngestedFileInfo* file_to_ingest, SuperVersion* sv); // Assign `file_to_ingest` the appropriate sequence number and the lowest // possible level that it can be ingested to according to compaction_style. // REQUIRES: Mutex held Status AssignLevelAndSeqnoForIngestedFile(SuperVersion* sv, bool force_global_seqno, CompactionStyle compaction_style, IngestedFileInfo* file_to_ingest, SequenceNumber* assigned_seqno); // File that we want to ingest behind always goes to the lowest level; // we just check that it fits in the level, that DB allows ingest_behind, // and that we don't have 0 seqnums at the upper levels. // REQUIRES: Mutex held Status CheckLevelForIngestedBehindFile(IngestedFileInfo* file_to_ingest); // Set the file global sequence number to `seqno` Status AssignGlobalSeqnoForIngestedFile(IngestedFileInfo* file_to_ingest, SequenceNumber seqno); // Check if `file_to_ingest` can fit in level `level` // REQUIRES: Mutex held bool IngestedFileFitInLevel(const IngestedFileInfo* file_to_ingest, int level); Env* env_; VersionSet* versions_; ColumnFamilyData* cfd_; const ImmutableDBOptions& db_options_; const EnvOptions& env_options_; SnapshotList* db_snapshots_; autovector files_to_ingest_; const IngestExternalFileOptions& ingestion_options_; VersionEdit edit_; uint64_t job_start_time_; }; } // namespace rocksdb rocksdb-5.17.2/db/external_sst_file_test.cc000066400000000000000000002277071337235545400207340ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #ifndef ROCKSDB_LITE #include #include "db/db_test_util.h" #include "port/port.h" #include "port/stack_trace.h" #include "rocksdb/sst_file_writer.h" #include "util/filename.h" #include "util/testutil.h" namespace rocksdb { class ExternalSSTFileTest : public DBTestBase { public: ExternalSSTFileTest() : DBTestBase("/external_sst_file_test") { sst_files_dir_ = dbname_ + "/sst_files/"; DestroyAndRecreateExternalSSTFilesDir(); } void DestroyAndRecreateExternalSSTFilesDir() { test::DestroyDir(env_, sst_files_dir_); env_->CreateDir(sst_files_dir_); } Status GenerateAndAddExternalFile( const Options options, std::vector> data, int file_id = -1, bool allow_global_seqno = false, bool sort_data = false, std::map* true_data = nullptr, ColumnFamilyHandle* cfh = nullptr) { // Generate a file id if not provided if (file_id == -1) { file_id = last_file_id_ + 1; last_file_id_++; } // Sort data if asked to do so if (sort_data) { std::sort(data.begin(), data.end(), [&](const std::pair& e1, const std::pair& e2) { return options.comparator->Compare(e1.first, e2.first) < 0; }); auto uniq_iter = std::unique( data.begin(), data.end(), [&](const std::pair& e1, const std::pair& e2) { return options.comparator->Compare(e1.first, e2.first) == 0; }); data.resize(uniq_iter - data.begin()); } std::string file_path = sst_files_dir_ + ToString(file_id); SstFileWriter sst_file_writer(EnvOptions(), options, cfh); Status s = sst_file_writer.Open(file_path); if (!s.ok()) { return s; } for (auto& entry : data) { s = sst_file_writer.Put(entry.first, entry.second); if (!s.ok()) { sst_file_writer.Finish(); return s; } } s = sst_file_writer.Finish(); if (s.ok()) { IngestExternalFileOptions ifo; ifo.allow_global_seqno = allow_global_seqno; if (cfh) { s = db_->IngestExternalFile(cfh, {file_path}, ifo); } else { s = db_->IngestExternalFile({file_path}, ifo); } } if (s.ok() && true_data) { for (auto& entry : data) { (*true_data)[entry.first] = entry.second; } } return s; } Status GenerateAndAddExternalFileIngestBehind( const Options options, const IngestExternalFileOptions ifo, std::vector> data, int file_id = -1, bool sort_data = false, std::map* true_data = nullptr, ColumnFamilyHandle* cfh = nullptr) { // Generate a file id if not provided if (file_id == -1) { file_id = last_file_id_ + 1; last_file_id_++; } // Sort data if asked to do so if (sort_data) { std::sort(data.begin(), data.end(), [&](const std::pair& e1, const std::pair& e2) { return options.comparator->Compare(e1.first, e2.first) < 0; }); auto uniq_iter = std::unique( data.begin(), data.end(), [&](const std::pair& e1, const std::pair& e2) { return options.comparator->Compare(e1.first, e2.first) == 0; }); data.resize(uniq_iter - data.begin()); } std::string file_path = sst_files_dir_ + ToString(file_id); SstFileWriter sst_file_writer(EnvOptions(), options, cfh); Status s = sst_file_writer.Open(file_path); if (!s.ok()) { return s; } for (auto& entry : data) { s = sst_file_writer.Put(entry.first, entry.second); if (!s.ok()) { sst_file_writer.Finish(); return s; } } s = sst_file_writer.Finish(); if (s.ok()) { if (cfh) { s = db_->IngestExternalFile(cfh, {file_path}, ifo); } else { s = db_->IngestExternalFile({file_path}, ifo); } } if (s.ok() && true_data) { for (auto& entry : data) { (*true_data)[entry.first] = entry.second; } } return s; } Status GenerateAndAddExternalFile( const Options options, std::vector> data, int file_id = -1, bool allow_global_seqno = false, bool sort_data = false, std::map* true_data = nullptr, ColumnFamilyHandle* cfh = nullptr) { std::vector> file_data; for (auto& entry : data) { file_data.emplace_back(Key(entry.first), entry.second); } return GenerateAndAddExternalFile(options, file_data, file_id, allow_global_seqno, sort_data, true_data, cfh); } Status GenerateAndAddExternalFile( const Options options, std::vector keys, int file_id = -1, bool allow_global_seqno = false, bool sort_data = false, std::map* true_data = nullptr, ColumnFamilyHandle* cfh = nullptr) { std::vector> file_data; for (auto& k : keys) { file_data.emplace_back(Key(k), Key(k) + ToString(file_id)); } return GenerateAndAddExternalFile(options, file_data, file_id, allow_global_seqno, sort_data, true_data, cfh); } Status DeprecatedAddFile(const std::vector& files, bool move_files = false, bool skip_snapshot_check = false) { IngestExternalFileOptions opts; opts.move_files = move_files; opts.snapshot_consistency = !skip_snapshot_check; opts.allow_global_seqno = false; opts.allow_blocking_flush = false; return db_->IngestExternalFile(files, opts); } ~ExternalSSTFileTest() { test::DestroyDir(env_, sst_files_dir_); } protected: int last_file_id_ = 0; std::string sst_files_dir_; }; TEST_F(ExternalSSTFileTest, Basic) { do { Options options = CurrentOptions(); SstFileWriter sst_file_writer(EnvOptions(), options); // Current file size should be 0 after sst_file_writer init and before open a file. ASSERT_EQ(sst_file_writer.FileSize(), 0); // file1.sst (0 => 99) std::string file1 = sst_files_dir_ + "file1.sst"; ASSERT_OK(sst_file_writer.Open(file1)); for (int k = 0; k < 100; k++) { ASSERT_OK(sst_file_writer.Put(Key(k), Key(k) + "_val")); } ExternalSstFileInfo file1_info; Status s = sst_file_writer.Finish(&file1_info); ASSERT_TRUE(s.ok()) << s.ToString(); // Current file size should be non-zero after success write. ASSERT_GT(sst_file_writer.FileSize(), 0); ASSERT_EQ(file1_info.file_path, file1); ASSERT_EQ(file1_info.num_entries, 100); ASSERT_EQ(file1_info.smallest_key, Key(0)); ASSERT_EQ(file1_info.largest_key, Key(99)); ASSERT_EQ(file1_info.num_range_del_entries, 0); ASSERT_EQ(file1_info.smallest_range_del_key, ""); ASSERT_EQ(file1_info.largest_range_del_key, ""); // sst_file_writer already finished, cannot add this value s = sst_file_writer.Put(Key(100), "bad_val"); ASSERT_FALSE(s.ok()) << s.ToString(); // file2.sst (100 => 199) std::string file2 = sst_files_dir_ + "file2.sst"; ASSERT_OK(sst_file_writer.Open(file2)); for (int k = 100; k < 200; k++) { ASSERT_OK(sst_file_writer.Put(Key(k), Key(k) + "_val")); } // Cannot add this key because it's not after last added key s = sst_file_writer.Put(Key(99), "bad_val"); ASSERT_FALSE(s.ok()) << s.ToString(); ExternalSstFileInfo file2_info; s = sst_file_writer.Finish(&file2_info); ASSERT_TRUE(s.ok()) << s.ToString(); ASSERT_EQ(file2_info.file_path, file2); ASSERT_EQ(file2_info.num_entries, 100); ASSERT_EQ(file2_info.smallest_key, Key(100)); ASSERT_EQ(file2_info.largest_key, Key(199)); // file3.sst (195 => 299) // This file values overlap with file2 values std::string file3 = sst_files_dir_ + "file3.sst"; ASSERT_OK(sst_file_writer.Open(file3)); for (int k = 195; k < 300; k++) { ASSERT_OK(sst_file_writer.Put(Key(k), Key(k) + "_val_overlap")); } ExternalSstFileInfo file3_info; s = sst_file_writer.Finish(&file3_info); ASSERT_TRUE(s.ok()) << s.ToString(); // Current file size should be non-zero after success finish. ASSERT_GT(sst_file_writer.FileSize(), 0); ASSERT_EQ(file3_info.file_path, file3); ASSERT_EQ(file3_info.num_entries, 105); ASSERT_EQ(file3_info.smallest_key, Key(195)); ASSERT_EQ(file3_info.largest_key, Key(299)); // file4.sst (30 => 39) // This file values overlap with file1 values std::string file4 = sst_files_dir_ + "file4.sst"; ASSERT_OK(sst_file_writer.Open(file4)); for (int k = 30; k < 40; k++) { ASSERT_OK(sst_file_writer.Put(Key(k), Key(k) + "_val_overlap")); } ExternalSstFileInfo file4_info; s = sst_file_writer.Finish(&file4_info); ASSERT_TRUE(s.ok()) << s.ToString(); ASSERT_EQ(file4_info.file_path, file4); ASSERT_EQ(file4_info.num_entries, 10); ASSERT_EQ(file4_info.smallest_key, Key(30)); ASSERT_EQ(file4_info.largest_key, Key(39)); // file5.sst (400 => 499) std::string file5 = sst_files_dir_ + "file5.sst"; ASSERT_OK(sst_file_writer.Open(file5)); for (int k = 400; k < 500; k++) { ASSERT_OK(sst_file_writer.Put(Key(k), Key(k) + "_val")); } ExternalSstFileInfo file5_info; s = sst_file_writer.Finish(&file5_info); ASSERT_TRUE(s.ok()) << s.ToString(); ASSERT_EQ(file5_info.file_path, file5); ASSERT_EQ(file5_info.num_entries, 100); ASSERT_EQ(file5_info.smallest_key, Key(400)); ASSERT_EQ(file5_info.largest_key, Key(499)); // file6.sst (delete 400 => 500) std::string file6 = sst_files_dir_ + "file6.sst"; ASSERT_OK(sst_file_writer.Open(file6)); sst_file_writer.DeleteRange(Key(400), Key(500)); ExternalSstFileInfo file6_info; s = sst_file_writer.Finish(&file6_info); ASSERT_TRUE(s.ok()) << s.ToString(); ASSERT_EQ(file6_info.file_path, file6); ASSERT_EQ(file6_info.num_entries, 0); ASSERT_EQ(file6_info.smallest_key, ""); ASSERT_EQ(file6_info.largest_key, ""); ASSERT_EQ(file6_info.num_range_del_entries, 1); ASSERT_EQ(file6_info.smallest_range_del_key, Key(400)); ASSERT_EQ(file6_info.largest_range_del_key, Key(500)); // file7.sst (delete 500 => 570, put 520 => 599 divisible by 2) std::string file7 = sst_files_dir_ + "file7.sst"; ASSERT_OK(sst_file_writer.Open(file7)); sst_file_writer.DeleteRange(Key(500), Key(550)); for (int k = 520; k < 560; k += 2) { ASSERT_OK(sst_file_writer.Put(Key(k), Key(k) + "_val")); } sst_file_writer.DeleteRange(Key(525), Key(575)); for (int k = 560; k < 600; k += 2) { ASSERT_OK(sst_file_writer.Put(Key(k), Key(k) + "_val")); } ExternalSstFileInfo file7_info; s = sst_file_writer.Finish(&file7_info); ASSERT_TRUE(s.ok()) << s.ToString(); ASSERT_EQ(file7_info.file_path, file7); ASSERT_EQ(file7_info.num_entries, 40); ASSERT_EQ(file7_info.smallest_key, Key(520)); ASSERT_EQ(file7_info.largest_key, Key(598)); ASSERT_EQ(file7_info.num_range_del_entries, 2); ASSERT_EQ(file7_info.smallest_range_del_key, Key(500)); ASSERT_EQ(file7_info.largest_range_del_key, Key(575)); // file8.sst (delete 600 => 700) std::string file8 = sst_files_dir_ + "file8.sst"; ASSERT_OK(sst_file_writer.Open(file8)); sst_file_writer.DeleteRange(Key(600), Key(700)); ExternalSstFileInfo file8_info; s = sst_file_writer.Finish(&file8_info); ASSERT_TRUE(s.ok()) << s.ToString(); ASSERT_EQ(file8_info.file_path, file8); ASSERT_EQ(file8_info.num_entries, 0); ASSERT_EQ(file8_info.smallest_key, ""); ASSERT_EQ(file8_info.largest_key, ""); ASSERT_EQ(file8_info.num_range_del_entries, 1); ASSERT_EQ(file8_info.smallest_range_del_key, Key(600)); ASSERT_EQ(file8_info.largest_range_del_key, Key(700)); // Cannot create an empty sst file std::string file_empty = sst_files_dir_ + "file_empty.sst"; ExternalSstFileInfo file_empty_info; s = sst_file_writer.Finish(&file_empty_info); ASSERT_NOK(s); DestroyAndReopen(options); // Add file using file path s = DeprecatedAddFile({file1}); ASSERT_TRUE(s.ok()) << s.ToString(); ASSERT_EQ(db_->GetLatestSequenceNumber(), 0U); for (int k = 0; k < 100; k++) { ASSERT_EQ(Get(Key(k)), Key(k) + "_val"); } // Add file while holding a snapshot will fail const Snapshot* s1 = db_->GetSnapshot(); if (s1 != nullptr) { ASSERT_NOK(DeprecatedAddFile({file2})); db_->ReleaseSnapshot(s1); } // We can add the file after releaseing the snapshot ASSERT_OK(DeprecatedAddFile({file2})); ASSERT_EQ(db_->GetLatestSequenceNumber(), 0U); for (int k = 0; k < 200; k++) { ASSERT_EQ(Get(Key(k)), Key(k) + "_val"); } // This file has overlapping values with the existing data s = DeprecatedAddFile({file3}); ASSERT_FALSE(s.ok()) << s.ToString(); // This file has overlapping values with the existing data s = DeprecatedAddFile({file4}); ASSERT_FALSE(s.ok()) << s.ToString(); // Overwrite values of keys divisible by 5 for (int k = 0; k < 200; k += 5) { ASSERT_OK(Put(Key(k), Key(k) + "_val_new")); } ASSERT_NE(db_->GetLatestSequenceNumber(), 0U); // Key range of file5 (400 => 499) dont overlap with any keys in DB ASSERT_OK(DeprecatedAddFile({file5})); // This file has overlapping values with the existing data s = DeprecatedAddFile({file6}); ASSERT_FALSE(s.ok()) << s.ToString(); // Key range of file7 (500 => 598) dont overlap with any keys in DB ASSERT_OK(DeprecatedAddFile({file7})); // Key range of file7 (600 => 700) dont overlap with any keys in DB ASSERT_OK(DeprecatedAddFile({file8})); // Make sure values are correct before and after flush/compaction for (int i = 0; i < 2; i++) { for (int k = 0; k < 200; k++) { std::string value = Key(k) + "_val"; if (k % 5 == 0) { value += "_new"; } ASSERT_EQ(Get(Key(k)), value); } for (int k = 400; k < 500; k++) { std::string value = Key(k) + "_val"; ASSERT_EQ(Get(Key(k)), value); } for (int k = 500; k < 600; k++) { std::string value = Key(k) + "_val"; if (k < 520 || k % 2 == 1) { value = "NOT_FOUND"; } ASSERT_EQ(Get(Key(k)), value); } ASSERT_OK(Flush()); ASSERT_OK(db_->CompactRange(CompactRangeOptions(), nullptr, nullptr)); } Close(); options.disable_auto_compactions = true; Reopen(options); // Delete keys in range (400 => 499) for (int k = 400; k < 500; k++) { ASSERT_OK(Delete(Key(k))); } // We deleted range (400 => 499) but cannot add file5 because // of the range tombstones ASSERT_NOK(DeprecatedAddFile({file5})); // Compacting the DB will remove the tombstones ASSERT_OK(db_->CompactRange(CompactRangeOptions(), nullptr, nullptr)); // Now we can add the file ASSERT_OK(DeprecatedAddFile({file5})); // Verify values of file5 in DB for (int k = 400; k < 500; k++) { std::string value = Key(k) + "_val"; ASSERT_EQ(Get(Key(k)), value); } DestroyAndRecreateExternalSSTFilesDir(); } while (ChangeOptions(kSkipPlainTable | kSkipFIFOCompaction | kRangeDelSkipConfigs)); } class SstFileWriterCollector : public TablePropertiesCollector { public: explicit SstFileWriterCollector(const std::string prefix) : prefix_(prefix) { name_ = prefix_ + "_SstFileWriterCollector"; } const char* Name() const override { return name_.c_str(); } Status Finish(UserCollectedProperties* properties) override { std::string count = std::to_string(count_); *properties = UserCollectedProperties{ {prefix_ + "_SstFileWriterCollector", "YES"}, {prefix_ + "_Count", count}, }; return Status::OK(); } Status AddUserKey(const Slice& /*user_key*/, const Slice& /*value*/, EntryType /*type*/, SequenceNumber /*seq*/, uint64_t /*file_size*/) override { ++count_; return Status::OK(); } virtual UserCollectedProperties GetReadableProperties() const override { return UserCollectedProperties{}; } private: uint32_t count_ = 0; std::string prefix_; std::string name_; }; class SstFileWriterCollectorFactory : public TablePropertiesCollectorFactory { public: explicit SstFileWriterCollectorFactory(std::string prefix) : prefix_(prefix), num_created_(0) {} virtual TablePropertiesCollector* CreateTablePropertiesCollector( TablePropertiesCollectorFactory::Context /*context*/) override { num_created_++; return new SstFileWriterCollector(prefix_); } const char* Name() const override { return "SstFileWriterCollectorFactory"; } std::string prefix_; uint32_t num_created_; }; TEST_F(ExternalSSTFileTest, AddList) { do { Options options = CurrentOptions(); auto abc_collector = std::make_shared("abc"); auto xyz_collector = std::make_shared("xyz"); options.table_properties_collector_factories.emplace_back(abc_collector); options.table_properties_collector_factories.emplace_back(xyz_collector); SstFileWriter sst_file_writer(EnvOptions(), options); // file1.sst (0 => 99) std::string file1 = sst_files_dir_ + "file1.sst"; ASSERT_OK(sst_file_writer.Open(file1)); for (int k = 0; k < 100; k++) { ASSERT_OK(sst_file_writer.Put(Key(k), Key(k) + "_val")); } ExternalSstFileInfo file1_info; Status s = sst_file_writer.Finish(&file1_info); ASSERT_TRUE(s.ok()) << s.ToString(); ASSERT_EQ(file1_info.file_path, file1); ASSERT_EQ(file1_info.num_entries, 100); ASSERT_EQ(file1_info.smallest_key, Key(0)); ASSERT_EQ(file1_info.largest_key, Key(99)); // sst_file_writer already finished, cannot add this value s = sst_file_writer.Put(Key(100), "bad_val"); ASSERT_FALSE(s.ok()) << s.ToString(); // file2.sst (100 => 199) std::string file2 = sst_files_dir_ + "file2.sst"; ASSERT_OK(sst_file_writer.Open(file2)); for (int k = 100; k < 200; k++) { ASSERT_OK(sst_file_writer.Put(Key(k), Key(k) + "_val")); } // Cannot add this key because it's not after last added key s = sst_file_writer.Put(Key(99), "bad_val"); ASSERT_FALSE(s.ok()) << s.ToString(); ExternalSstFileInfo file2_info; s = sst_file_writer.Finish(&file2_info); ASSERT_TRUE(s.ok()) << s.ToString(); ASSERT_EQ(file2_info.file_path, file2); ASSERT_EQ(file2_info.num_entries, 100); ASSERT_EQ(file2_info.smallest_key, Key(100)); ASSERT_EQ(file2_info.largest_key, Key(199)); // file3.sst (195 => 199) // This file values overlap with file2 values std::string file3 = sst_files_dir_ + "file3.sst"; ASSERT_OK(sst_file_writer.Open(file3)); for (int k = 195; k < 200; k++) { ASSERT_OK(sst_file_writer.Put(Key(k), Key(k) + "_val_overlap")); } ExternalSstFileInfo file3_info; s = sst_file_writer.Finish(&file3_info); ASSERT_TRUE(s.ok()) << s.ToString(); ASSERT_EQ(file3_info.file_path, file3); ASSERT_EQ(file3_info.num_entries, 5); ASSERT_EQ(file3_info.smallest_key, Key(195)); ASSERT_EQ(file3_info.largest_key, Key(199)); // file4.sst (30 => 39) // This file values overlap with file1 values std::string file4 = sst_files_dir_ + "file4.sst"; ASSERT_OK(sst_file_writer.Open(file4)); for (int k = 30; k < 40; k++) { ASSERT_OK(sst_file_writer.Put(Key(k), Key(k) + "_val_overlap")); } ExternalSstFileInfo file4_info; s = sst_file_writer.Finish(&file4_info); ASSERT_TRUE(s.ok()) << s.ToString(); ASSERT_EQ(file4_info.file_path, file4); ASSERT_EQ(file4_info.num_entries, 10); ASSERT_EQ(file4_info.smallest_key, Key(30)); ASSERT_EQ(file4_info.largest_key, Key(39)); // file5.sst (200 => 299) std::string file5 = sst_files_dir_ + "file5.sst"; ASSERT_OK(sst_file_writer.Open(file5)); for (int k = 200; k < 300; k++) { ASSERT_OK(sst_file_writer.Put(Key(k), Key(k) + "_val")); } ExternalSstFileInfo file5_info; s = sst_file_writer.Finish(&file5_info); ASSERT_TRUE(s.ok()) << s.ToString(); ASSERT_EQ(file5_info.file_path, file5); ASSERT_EQ(file5_info.num_entries, 100); ASSERT_EQ(file5_info.smallest_key, Key(200)); ASSERT_EQ(file5_info.largest_key, Key(299)); // file6.sst (delete 0 => 100) std::string file6 = sst_files_dir_ + "file6.sst"; ASSERT_OK(sst_file_writer.Open(file6)); ASSERT_OK(sst_file_writer.DeleteRange(Key(0), Key(75))); ASSERT_OK(sst_file_writer.DeleteRange(Key(25), Key(100))); ExternalSstFileInfo file6_info; s = sst_file_writer.Finish(&file6_info); ASSERT_TRUE(s.ok()) << s.ToString(); ASSERT_EQ(file6_info.file_path, file6); ASSERT_EQ(file6_info.num_entries, 0); ASSERT_EQ(file6_info.smallest_key, ""); ASSERT_EQ(file6_info.largest_key, ""); ASSERT_EQ(file6_info.num_range_del_entries, 2); ASSERT_EQ(file6_info.smallest_range_del_key, Key(0)); ASSERT_EQ(file6_info.largest_range_del_key, Key(100)); // file7.sst (delete 100 => 200) std::string file7 = sst_files_dir_ + "file7.sst"; ASSERT_OK(sst_file_writer.Open(file7)); ASSERT_OK(sst_file_writer.DeleteRange(Key(100), Key(200))); ExternalSstFileInfo file7_info; s = sst_file_writer.Finish(&file7_info); ASSERT_TRUE(s.ok()) << s.ToString(); ASSERT_EQ(file7_info.file_path, file7); ASSERT_EQ(file7_info.num_entries, 0); ASSERT_EQ(file7_info.smallest_key, ""); ASSERT_EQ(file7_info.largest_key, ""); ASSERT_EQ(file7_info.num_range_del_entries, 1); ASSERT_EQ(file7_info.smallest_range_del_key, Key(100)); ASSERT_EQ(file7_info.largest_range_del_key, Key(200)); // list 1 has internal key range conflict std::vector file_list0({file1, file2}); std::vector file_list1({file3, file2, file1}); std::vector file_list2({file5}); std::vector file_list3({file3, file4}); std::vector file_list4({file5, file7}); std::vector file_list5({file6, file7}); DestroyAndReopen(options); // These lists of files have key ranges that overlap with each other s = DeprecatedAddFile(file_list1); ASSERT_FALSE(s.ok()) << s.ToString(); // Both of the following overlap on the end key of a range deletion // tombstone. This is a limitation because these tombstones have exclusive // end keys that should not count as overlapping with other keys. s = DeprecatedAddFile(file_list4); ASSERT_FALSE(s.ok()) << s.ToString(); s = DeprecatedAddFile(file_list5); ASSERT_FALSE(s.ok()) << s.ToString(); // Add files using file path list s = DeprecatedAddFile(file_list0); ASSERT_TRUE(s.ok()) << s.ToString(); ASSERT_EQ(db_->GetLatestSequenceNumber(), 0U); for (int k = 0; k < 200; k++) { ASSERT_EQ(Get(Key(k)), Key(k) + "_val"); } TablePropertiesCollection props; ASSERT_OK(db_->GetPropertiesOfAllTables(&props)); ASSERT_EQ(props.size(), 2); for (auto file_props : props) { auto user_props = file_props.second->user_collected_properties; ASSERT_EQ(user_props["abc_SstFileWriterCollector"], "YES"); ASSERT_EQ(user_props["xyz_SstFileWriterCollector"], "YES"); ASSERT_EQ(user_props["abc_Count"], "100"); ASSERT_EQ(user_props["xyz_Count"], "100"); } // Add file while holding a snapshot will fail const Snapshot* s1 = db_->GetSnapshot(); if (s1 != nullptr) { ASSERT_NOK(DeprecatedAddFile(file_list2)); db_->ReleaseSnapshot(s1); } // We can add the file after releaseing the snapshot ASSERT_OK(DeprecatedAddFile(file_list2)); ASSERT_EQ(db_->GetLatestSequenceNumber(), 0U); for (int k = 0; k < 300; k++) { ASSERT_EQ(Get(Key(k)), Key(k) + "_val"); } ASSERT_OK(db_->GetPropertiesOfAllTables(&props)); ASSERT_EQ(props.size(), 3); for (auto file_props : props) { auto user_props = file_props.second->user_collected_properties; ASSERT_EQ(user_props["abc_SstFileWriterCollector"], "YES"); ASSERT_EQ(user_props["xyz_SstFileWriterCollector"], "YES"); ASSERT_EQ(user_props["abc_Count"], "100"); ASSERT_EQ(user_props["xyz_Count"], "100"); } // This file list has overlapping values with the existing data s = DeprecatedAddFile(file_list3); ASSERT_FALSE(s.ok()) << s.ToString(); // Overwrite values of keys divisible by 5 for (int k = 0; k < 200; k += 5) { ASSERT_OK(Put(Key(k), Key(k) + "_val_new")); } ASSERT_NE(db_->GetLatestSequenceNumber(), 0U); // Make sure values are correct before and after flush/compaction for (int i = 0; i < 2; i++) { for (int k = 0; k < 200; k++) { std::string value = Key(k) + "_val"; if (k % 5 == 0) { value += "_new"; } ASSERT_EQ(Get(Key(k)), value); } for (int k = 200; k < 300; k++) { std::string value = Key(k) + "_val"; ASSERT_EQ(Get(Key(k)), value); } ASSERT_OK(Flush()); ASSERT_OK(db_->CompactRange(CompactRangeOptions(), nullptr, nullptr)); } // Delete keys in range (200 => 299) for (int k = 200; k < 300; k++) { ASSERT_OK(Delete(Key(k))); } // We deleted range (200 => 299) but cannot add file5 because // of the range tombstones ASSERT_NOK(DeprecatedAddFile(file_list2)); // Compacting the DB will remove the tombstones ASSERT_OK(db_->CompactRange(CompactRangeOptions(), nullptr, nullptr)); // Now we can add the file ASSERT_OK(DeprecatedAddFile(file_list2)); // Verify values of file5 in DB for (int k = 200; k < 300; k++) { std::string value = Key(k) + "_val"; ASSERT_EQ(Get(Key(k)), value); } DestroyAndRecreateExternalSSTFilesDir(); } while (ChangeOptions(kSkipPlainTable | kSkipFIFOCompaction | kRangeDelSkipConfigs)); } TEST_F(ExternalSSTFileTest, AddListAtomicity) { do { Options options = CurrentOptions(); SstFileWriter sst_file_writer(EnvOptions(), options); // files[0].sst (0 => 99) // files[1].sst (100 => 199) // ... // file[8].sst (800 => 899) int n = 9; std::vector files(n); std::vector files_info(n); for (int i = 0; i < n; i++) { files[i] = sst_files_dir_ + "file" + std::to_string(i) + ".sst"; ASSERT_OK(sst_file_writer.Open(files[i])); for (int k = i * 100; k < (i + 1) * 100; k++) { ASSERT_OK(sst_file_writer.Put(Key(k), Key(k) + "_val")); } Status s = sst_file_writer.Finish(&files_info[i]); ASSERT_TRUE(s.ok()) << s.ToString(); ASSERT_EQ(files_info[i].file_path, files[i]); ASSERT_EQ(files_info[i].num_entries, 100); ASSERT_EQ(files_info[i].smallest_key, Key(i * 100)); ASSERT_EQ(files_info[i].largest_key, Key((i + 1) * 100 - 1)); } files.push_back(sst_files_dir_ + "file" + std::to_string(n) + ".sst"); auto s = DeprecatedAddFile(files); ASSERT_NOK(s) << s.ToString(); for (int k = 0; k < n * 100; k++) { ASSERT_EQ("NOT_FOUND", Get(Key(k))); } files.pop_back(); ASSERT_OK(DeprecatedAddFile(files)); for (int k = 0; k < n * 100; k++) { std::string value = Key(k) + "_val"; ASSERT_EQ(Get(Key(k)), value); } DestroyAndRecreateExternalSSTFilesDir(); } while (ChangeOptions(kSkipPlainTable | kSkipFIFOCompaction)); } // This test reporduce a bug that can happen in some cases if the DB started // purging obsolete files when we are adding an external sst file. // This situation may result in deleting the file while it's being added. TEST_F(ExternalSSTFileTest, PurgeObsoleteFilesBug) { Options options = CurrentOptions(); SstFileWriter sst_file_writer(EnvOptions(), options); // file1.sst (0 => 500) std::string sst_file_path = sst_files_dir_ + "file1.sst"; Status s = sst_file_writer.Open(sst_file_path); ASSERT_OK(s); for (int i = 0; i < 500; i++) { std::string k = Key(i); s = sst_file_writer.Put(k, k + "_val"); ASSERT_OK(s); } ExternalSstFileInfo sst_file_info; s = sst_file_writer.Finish(&sst_file_info); ASSERT_OK(s); options.delete_obsolete_files_period_micros = 0; options.disable_auto_compactions = true; DestroyAndReopen(options); rocksdb::SyncPoint::GetInstance()->SetCallBack( "ExternalSstFileIngestionJob::Prepare:FileAdded", [&](void* /* arg */) { ASSERT_OK(Put("aaa", "bbb")); ASSERT_OK(Flush()); ASSERT_OK(Put("aaa", "xxx")); ASSERT_OK(Flush()); db_->CompactRange(CompactRangeOptions(), nullptr, nullptr); }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); s = DeprecatedAddFile({sst_file_path}); ASSERT_OK(s); for (int i = 0; i < 500; i++) { std::string k = Key(i); std::string v = k + "_val"; ASSERT_EQ(Get(k), v); } rocksdb::SyncPoint::GetInstance()->DisableProcessing(); } TEST_F(ExternalSSTFileTest, SkipSnapshot) { Options options = CurrentOptions(); SstFileWriter sst_file_writer(EnvOptions(), options); // file1.sst (0 => 99) std::string file1 = sst_files_dir_ + "file1.sst"; ASSERT_OK(sst_file_writer.Open(file1)); for (int k = 0; k < 100; k++) { ASSERT_OK(sst_file_writer.Put(Key(k), Key(k) + "_val")); } ExternalSstFileInfo file1_info; Status s = sst_file_writer.Finish(&file1_info); ASSERT_TRUE(s.ok()) << s.ToString(); ASSERT_EQ(file1_info.file_path, file1); ASSERT_EQ(file1_info.num_entries, 100); ASSERT_EQ(file1_info.smallest_key, Key(0)); ASSERT_EQ(file1_info.largest_key, Key(99)); // file2.sst (100 => 299) std::string file2 = sst_files_dir_ + "file2.sst"; ASSERT_OK(sst_file_writer.Open(file2)); for (int k = 100; k < 300; k++) { ASSERT_OK(sst_file_writer.Put(Key(k), Key(k) + "_val")); } ExternalSstFileInfo file2_info; s = sst_file_writer.Finish(&file2_info); ASSERT_TRUE(s.ok()) << s.ToString(); ASSERT_EQ(file2_info.file_path, file2); ASSERT_EQ(file2_info.num_entries, 200); ASSERT_EQ(file2_info.smallest_key, Key(100)); ASSERT_EQ(file2_info.largest_key, Key(299)); ASSERT_OK(DeprecatedAddFile({file1})); // Add file will fail when holding snapshot and use the default // skip_snapshot_check to false const Snapshot* s1 = db_->GetSnapshot(); if (s1 != nullptr) { ASSERT_NOK(DeprecatedAddFile({file2})); } // Add file will success when set skip_snapshot_check to true even db holding // snapshot if (s1 != nullptr) { ASSERT_OK(DeprecatedAddFile({file2}, false, true)); db_->ReleaseSnapshot(s1); } // file3.sst (300 => 399) std::string file3 = sst_files_dir_ + "file3.sst"; ASSERT_OK(sst_file_writer.Open(file3)); for (int k = 300; k < 400; k++) { ASSERT_OK(sst_file_writer.Put(Key(k), Key(k) + "_val")); } ExternalSstFileInfo file3_info; s = sst_file_writer.Finish(&file3_info); ASSERT_TRUE(s.ok()) << s.ToString(); ASSERT_EQ(file3_info.file_path, file3); ASSERT_EQ(file3_info.num_entries, 100); ASSERT_EQ(file3_info.smallest_key, Key(300)); ASSERT_EQ(file3_info.largest_key, Key(399)); // check that we have change the old key ASSERT_EQ(Get(Key(300)), "NOT_FOUND"); const Snapshot* s2 = db_->GetSnapshot(); ASSERT_OK(DeprecatedAddFile({file3}, false, true)); ASSERT_EQ(Get(Key(300)), Key(300) + ("_val")); ASSERT_EQ(Get(Key(300), s2), Key(300) + ("_val")); db_->ReleaseSnapshot(s2); } TEST_F(ExternalSSTFileTest, MultiThreaded) { // Bulk load 10 files every file contain 1000 keys int num_files = 10; int keys_per_file = 1000; // Generate file names std::vector file_names; for (int i = 0; i < num_files; i++) { std::string file_name = "file_" + ToString(i) + ".sst"; file_names.push_back(sst_files_dir_ + file_name); } do { Options options = CurrentOptions(); std::atomic thread_num(0); std::function write_file_func = [&]() { int file_idx = thread_num.fetch_add(1); int range_start = file_idx * keys_per_file; int range_end = range_start + keys_per_file; SstFileWriter sst_file_writer(EnvOptions(), options); ASSERT_OK(sst_file_writer.Open(file_names[file_idx])); for (int k = range_start; k < range_end; k++) { ASSERT_OK(sst_file_writer.Put(Key(k), Key(k))); } Status s = sst_file_writer.Finish(); ASSERT_TRUE(s.ok()) << s.ToString(); }; // Write num_files files in parallel std::vector sst_writer_threads; for (int i = 0; i < num_files; ++i) { sst_writer_threads.emplace_back(write_file_func); } for (auto& t : sst_writer_threads) { t.join(); } fprintf(stderr, "Wrote %d files (%d keys)\n", num_files, num_files * keys_per_file); thread_num.store(0); std::atomic files_added(0); // Thread 0 -> Load {f0,f1} // Thread 1 -> Load {f0,f1} // Thread 2 -> Load {f2,f3} // Thread 3 -> Load {f2,f3} // Thread 4 -> Load {f4,f5} // Thread 5 -> Load {f4,f5} // ... std::function load_file_func = [&]() { // We intentionally add every file twice, and assert that it was added // only once and the other add failed int thread_id = thread_num.fetch_add(1); int file_idx = (thread_id / 2) * 2; // sometimes we use copy, sometimes link .. the result should be the same bool move_file = (thread_id % 3 == 0); std::vector files_to_add; files_to_add = {file_names[file_idx]}; if (static_cast(file_idx + 1) < file_names.size()) { files_to_add.push_back(file_names[file_idx + 1]); } Status s = DeprecatedAddFile(files_to_add, move_file); if (s.ok()) { files_added += static_cast(files_to_add.size()); } }; // Bulk load num_files files in parallel std::vector add_file_threads; DestroyAndReopen(options); for (int i = 0; i < num_files; ++i) { add_file_threads.emplace_back(load_file_func); } for (auto& t : add_file_threads) { t.join(); } ASSERT_EQ(files_added.load(), num_files); fprintf(stderr, "Loaded %d files (%d keys)\n", num_files, num_files * keys_per_file); // Overwrite values of keys divisible by 100 for (int k = 0; k < num_files * keys_per_file; k += 100) { std::string key = Key(k); Status s = Put(key, key + "_new"); ASSERT_TRUE(s.ok()); } for (int i = 0; i < 2; i++) { // Make sure the values are correct before and after flush/compaction for (int k = 0; k < num_files * keys_per_file; ++k) { std::string key = Key(k); std::string value = (k % 100 == 0) ? (key + "_new") : key; ASSERT_EQ(Get(key), value); } ASSERT_OK(Flush()); ASSERT_OK(db_->CompactRange(CompactRangeOptions(), nullptr, nullptr)); } fprintf(stderr, "Verified %d values\n", num_files * keys_per_file); DestroyAndRecreateExternalSSTFilesDir(); } while (ChangeOptions(kSkipPlainTable | kSkipFIFOCompaction)); } TEST_F(ExternalSSTFileTest, OverlappingRanges) { Random rnd(301); SequenceNumber assigned_seqno = 0; rocksdb::SyncPoint::GetInstance()->SetCallBack( "ExternalSstFileIngestionJob::Run", [&assigned_seqno](void* arg) { ASSERT_TRUE(arg != nullptr); assigned_seqno = *(static_cast(arg)); }); bool need_flush = false; rocksdb::SyncPoint::GetInstance()->SetCallBack( "DBImpl::IngestExternalFile:NeedFlush", [&need_flush](void* arg) { ASSERT_TRUE(arg != nullptr); need_flush = *(static_cast(arg)); }); bool overlap_with_db = false; rocksdb::SyncPoint::GetInstance()->SetCallBack( "ExternalSstFileIngestionJob::AssignLevelAndSeqnoForIngestedFile", [&overlap_with_db](void* arg) { ASSERT_TRUE(arg != nullptr); overlap_with_db = *(static_cast(arg)); }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); do { Options options = CurrentOptions(); DestroyAndReopen(options); SstFileWriter sst_file_writer(EnvOptions(), options); printf("Option config = %d\n", option_config_); std::vector> key_ranges; for (int i = 0; i < 100; i++) { int range_start = rnd.Uniform(20000); int keys_per_range = 10 + rnd.Uniform(41); key_ranges.emplace_back(range_start, range_start + keys_per_range); } int memtable_add = 0; int success_add_file = 0; int failed_add_file = 0; std::map true_data; for (size_t i = 0; i < key_ranges.size(); i++) { int range_start = key_ranges[i].first; int range_end = key_ranges[i].second; Status s; std::string range_val = "range_" + ToString(i); // For 20% of ranges we use DB::Put, for 80% we use DB::AddFile if (i && i % 5 == 0) { // Use DB::Put to insert range (insert into memtable) range_val += "_put"; for (int k = range_start; k <= range_end; k++) { s = Put(Key(k), range_val); ASSERT_OK(s); } memtable_add++; } else { // Use DB::AddFile to insert range range_val += "_add_file"; // Generate the file containing the range std::string file_name = sst_files_dir_ + env_->GenerateUniqueId(); ASSERT_OK(sst_file_writer.Open(file_name)); for (int k = range_start; k <= range_end; k++) { s = sst_file_writer.Put(Key(k), range_val); ASSERT_OK(s); } ExternalSstFileInfo file_info; s = sst_file_writer.Finish(&file_info); ASSERT_OK(s); // Insert the generated file s = DeprecatedAddFile({file_name}); auto it = true_data.lower_bound(Key(range_start)); if (option_config_ != kUniversalCompaction && option_config_ != kUniversalCompactionMultiLevel && option_config_ != kUniversalSubcompactions) { if (it != true_data.end() && it->first <= Key(range_end)) { // This range overlap with data already exist in DB ASSERT_NOK(s); failed_add_file++; } else { ASSERT_OK(s); success_add_file++; } } else { if ((it != true_data.end() && it->first <= Key(range_end)) || need_flush || assigned_seqno > 0 || overlap_with_db) { // This range overlap with data already exist in DB ASSERT_NOK(s); failed_add_file++; } else { ASSERT_OK(s); success_add_file++; } } } if (s.ok()) { // Update true_data map to include the new inserted data for (int k = range_start; k <= range_end; k++) { true_data[Key(k)] = range_val; } } // Flush / Compact the DB if (i && i % 50 == 0) { Flush(); } if (i && i % 75 == 0) { db_->CompactRange(CompactRangeOptions(), nullptr, nullptr); } } printf("Total: %" ROCKSDB_PRIszt " ranges\n" "AddFile()|Success: %d ranges\n" "AddFile()|RangeConflict: %d ranges\n" "Put(): %d ranges\n", key_ranges.size(), success_add_file, failed_add_file, memtable_add); // Verify the correctness of the data for (const auto& kv : true_data) { ASSERT_EQ(Get(kv.first), kv.second); } printf("keys/values verified\n"); DestroyAndRecreateExternalSSTFilesDir(); } while (ChangeOptions(kSkipPlainTable | kSkipFIFOCompaction)); } TEST_F(ExternalSSTFileTest, PickedLevel) { Options options = CurrentOptions(); options.disable_auto_compactions = false; options.level0_file_num_compaction_trigger = 4; options.num_levels = 4; DestroyAndReopen(options); std::map true_data; // File 0 will go to last level (L3) ASSERT_OK(GenerateAndAddExternalFile(options, {1, 10}, -1, false, false, &true_data)); EXPECT_EQ(FilesPerLevel(), "0,0,0,1"); // File 1 will go to level L2 (since it overlap with file 0 in L3) ASSERT_OK(GenerateAndAddExternalFile(options, {2, 9}, -1, false, false, &true_data)); EXPECT_EQ(FilesPerLevel(), "0,0,1,1"); rocksdb::SyncPoint::GetInstance()->LoadDependency({ {"ExternalSSTFileTest::PickedLevel:0", "BackgroundCallCompaction:0"}, {"DBImpl::BackgroundCompaction:Start", "ExternalSSTFileTest::PickedLevel:1"}, {"ExternalSSTFileTest::PickedLevel:2", "DBImpl::BackgroundCompaction:NonTrivial:AfterRun"}, }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); // Flush 4 files containing the same keys for (int i = 0; i < 4; i++) { ASSERT_OK(Put(Key(3), Key(3) + "put")); ASSERT_OK(Put(Key(8), Key(8) + "put")); true_data[Key(3)] = Key(3) + "put"; true_data[Key(8)] = Key(8) + "put"; ASSERT_OK(Flush()); } // Wait for BackgroundCompaction() to be called TEST_SYNC_POINT("ExternalSSTFileTest::PickedLevel:0"); TEST_SYNC_POINT("ExternalSSTFileTest::PickedLevel:1"); EXPECT_EQ(FilesPerLevel(), "4,0,1,1"); // This file overlaps with file 0 (L3), file 1 (L2) and the // output of compaction going to L1 ASSERT_OK(GenerateAndAddExternalFile(options, {4, 7}, -1, false, false, &true_data)); EXPECT_EQ(FilesPerLevel(), "5,0,1,1"); // This file does not overlap with any file or with the running compaction ASSERT_OK(GenerateAndAddExternalFile(options, {9000, 9001}, -1, false, false, &true_data)); EXPECT_EQ(FilesPerLevel(), "5,0,1,2"); // Hold compaction from finishing TEST_SYNC_POINT("ExternalSSTFileTest::PickedLevel:2"); dbfull()->TEST_WaitForCompact(); EXPECT_EQ(FilesPerLevel(), "1,1,1,2"); size_t kcnt = 0; VerifyDBFromMap(true_data, &kcnt, false); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); } TEST_F(ExternalSSTFileTest, PickedLevelBug) { Options options = CurrentOptions(); options.disable_auto_compactions = false; options.level0_file_num_compaction_trigger = 3; options.num_levels = 2; DestroyAndReopen(options); std::vector file_keys; // file #1 in L0 file_keys = {0, 5, 7}; for (int k : file_keys) { ASSERT_OK(Put(Key(k), Key(k))); } ASSERT_OK(Flush()); // file #2 in L0 file_keys = {4, 6, 8, 9}; for (int k : file_keys) { ASSERT_OK(Put(Key(k), Key(k))); } ASSERT_OK(Flush()); // We have 2 overlapping files in L0 EXPECT_EQ(FilesPerLevel(), "2"); rocksdb::SyncPoint::GetInstance()->LoadDependency( {{"DBImpl::AddFile:MutexLock", "ExternalSSTFileTest::PickedLevelBug:0"}, {"ExternalSSTFileTest::PickedLevelBug:1", "DBImpl::AddFile:MutexUnlock"}, {"ExternalSSTFileTest::PickedLevelBug:2", "DBImpl::RunManualCompaction:0"}, {"ExternalSSTFileTest::PickedLevelBug:3", "DBImpl::RunManualCompaction:1"}}); std::atomic bg_compact_started(false); rocksdb::SyncPoint::GetInstance()->SetCallBack( "DBImpl::BackgroundCompaction:Start", [&](void* /*arg*/) { bg_compact_started.store(true); }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); // While writing the MANIFEST start a thread that will ask for compaction rocksdb::port::Thread bg_compact([&]() { ASSERT_OK(db_->CompactRange(CompactRangeOptions(), nullptr, nullptr)); }); TEST_SYNC_POINT("ExternalSSTFileTest::PickedLevelBug:2"); // Start a thread that will ingest a new file rocksdb::port::Thread bg_addfile([&]() { file_keys = {1, 2, 3}; ASSERT_OK(GenerateAndAddExternalFile(options, file_keys, 1)); }); // Wait for AddFile to start picking levels and writing MANIFEST TEST_SYNC_POINT("ExternalSSTFileTest::PickedLevelBug:0"); TEST_SYNC_POINT("ExternalSSTFileTest::PickedLevelBug:3"); // We need to verify that no compactions can run while AddFile is // ingesting the files into the levels it find suitable. So we will // wait for 2 seconds to give a chance for compactions to run during // this period, and then make sure that no compactions where able to run env_->SleepForMicroseconds(1000000 * 2); ASSERT_FALSE(bg_compact_started.load()); // Hold AddFile from finishing writing the MANIFEST TEST_SYNC_POINT("ExternalSSTFileTest::PickedLevelBug:1"); bg_addfile.join(); bg_compact.join(); dbfull()->TEST_WaitForCompact(); int total_keys = 0; Iterator* iter = db_->NewIterator(ReadOptions()); for (iter->SeekToFirst(); iter->Valid(); iter->Next()) { ASSERT_OK(iter->status()); total_keys++; } ASSERT_EQ(total_keys, 10); delete iter; rocksdb::SyncPoint::GetInstance()->DisableProcessing(); } TEST_F(ExternalSSTFileTest, IngestNonExistingFile) { Options options = CurrentOptions(); DestroyAndReopen(options); Status s = db_->IngestExternalFile({"non_existing_file"}, IngestExternalFileOptions()); ASSERT_NOK(s); // Verify file deletion is not impacted (verify a bug fix) ASSERT_OK(Put(Key(1), Key(1))); ASSERT_OK(Put(Key(9), Key(9))); ASSERT_OK(Flush()); ASSERT_OK(Put(Key(1), Key(1))); ASSERT_OK(Put(Key(9), Key(9))); ASSERT_OK(Flush()); ASSERT_OK(db_->CompactRange(CompactRangeOptions(), nullptr, nullptr)); // After full compaction, there should be only 1 file. std::vector files; env_->GetChildren(dbname_, &files); int num_sst_files = 0; for (auto& f : files) { uint64_t number; FileType type; if (ParseFileName(f, &number, &type) && type == kTableFile) { num_sst_files++; } } ASSERT_EQ(1, num_sst_files); } TEST_F(ExternalSSTFileTest, CompactDuringAddFileRandom) { Options options = CurrentOptions(); options.disable_auto_compactions = false; options.level0_file_num_compaction_trigger = 2; options.num_levels = 2; DestroyAndReopen(options); std::function bg_compact = [&]() { ASSERT_OK(db_->CompactRange(CompactRangeOptions(), nullptr, nullptr)); }; int range_id = 0; std::vector file_keys; std::function bg_addfile = [&]() { ASSERT_OK(GenerateAndAddExternalFile(options, file_keys, range_id)); }; const int num_of_ranges = 1000; std::vector threads; while (range_id < num_of_ranges) { int range_start = range_id * 10; int range_end = range_start + 10; file_keys.clear(); for (int k = range_start + 1; k < range_end; k++) { file_keys.push_back(k); } ASSERT_OK(Put(Key(range_start), Key(range_start))); ASSERT_OK(Put(Key(range_end), Key(range_end))); ASSERT_OK(Flush()); if (range_id % 10 == 0) { threads.emplace_back(bg_compact); } threads.emplace_back(bg_addfile); for (auto& t : threads) { t.join(); } threads.clear(); range_id++; } for (int rid = 0; rid < num_of_ranges; rid++) { int range_start = rid * 10; int range_end = range_start + 10; ASSERT_EQ(Get(Key(range_start)), Key(range_start)) << rid; ASSERT_EQ(Get(Key(range_end)), Key(range_end)) << rid; for (int k = range_start + 1; k < range_end; k++) { std::string v = Key(k) + ToString(rid); ASSERT_EQ(Get(Key(k)), v) << rid; } } } TEST_F(ExternalSSTFileTest, PickedLevelDynamic) { Options options = CurrentOptions(); options.disable_auto_compactions = false; options.level0_file_num_compaction_trigger = 4; options.level_compaction_dynamic_level_bytes = true; options.num_levels = 4; DestroyAndReopen(options); std::map true_data; rocksdb::SyncPoint::GetInstance()->LoadDependency({ {"ExternalSSTFileTest::PickedLevelDynamic:0", "BackgroundCallCompaction:0"}, {"DBImpl::BackgroundCompaction:Start", "ExternalSSTFileTest::PickedLevelDynamic:1"}, {"ExternalSSTFileTest::PickedLevelDynamic:2", "DBImpl::BackgroundCompaction:NonTrivial:AfterRun"}, }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); // Flush 4 files containing the same keys for (int i = 0; i < 4; i++) { for (int k = 20; k <= 30; k++) { ASSERT_OK(Put(Key(k), Key(k) + "put")); true_data[Key(k)] = Key(k) + "put"; } for (int k = 50; k <= 60; k++) { ASSERT_OK(Put(Key(k), Key(k) + "put")); true_data[Key(k)] = Key(k) + "put"; } ASSERT_OK(Flush()); } // Wait for BackgroundCompaction() to be called TEST_SYNC_POINT("ExternalSSTFileTest::PickedLevelDynamic:0"); TEST_SYNC_POINT("ExternalSSTFileTest::PickedLevelDynamic:1"); // This file overlaps with the output of the compaction (going to L3) // so the file will be added to L0 since L3 is the base level ASSERT_OK(GenerateAndAddExternalFile(options, {31, 32, 33, 34}, -1, false, false, &true_data)); EXPECT_EQ(FilesPerLevel(), "5"); // This file does not overlap with the current running compactiong ASSERT_OK(GenerateAndAddExternalFile(options, {9000, 9001}, -1, false, false, &true_data)); EXPECT_EQ(FilesPerLevel(), "5,0,0,1"); // Hold compaction from finishing TEST_SYNC_POINT("ExternalSSTFileTest::PickedLevelDynamic:2"); // Output of the compaction will go to L3 dbfull()->TEST_WaitForCompact(); EXPECT_EQ(FilesPerLevel(), "1,0,0,2"); Close(); options.disable_auto_compactions = true; Reopen(options); ASSERT_OK(GenerateAndAddExternalFile(options, {1, 15, 19}, -1, false, false, &true_data)); ASSERT_EQ(FilesPerLevel(), "1,0,0,3"); ASSERT_OK(GenerateAndAddExternalFile(options, {1000, 1001, 1002}, -1, false, false, &true_data)); ASSERT_EQ(FilesPerLevel(), "1,0,0,4"); ASSERT_OK(GenerateAndAddExternalFile(options, {500, 600, 700}, -1, false, false, &true_data)); ASSERT_EQ(FilesPerLevel(), "1,0,0,5"); // File 5 overlaps with file 2 (L3 / base level) ASSERT_OK(GenerateAndAddExternalFile(options, {2, 10}, -1, false, false, &true_data)); ASSERT_EQ(FilesPerLevel(), "2,0,0,5"); // File 6 overlaps with file 2 (L3 / base level) and file 5 (L0) ASSERT_OK(GenerateAndAddExternalFile(options, {3, 9}, -1, false, false, &true_data)); ASSERT_EQ(FilesPerLevel(), "3,0,0,5"); // Verify data in files size_t kcnt = 0; VerifyDBFromMap(true_data, &kcnt, false); // Write range [5 => 10] to L0 for (int i = 5; i <= 10; i++) { std::string k = Key(i); std::string v = k + "put"; ASSERT_OK(Put(k, v)); true_data[k] = v; } ASSERT_OK(Flush()); ASSERT_EQ(FilesPerLevel(), "4,0,0,5"); // File 7 overlaps with file 4 (L3) ASSERT_OK(GenerateAndAddExternalFile(options, {650, 651, 652}, -1, false, false, &true_data)); ASSERT_EQ(FilesPerLevel(), "5,0,0,5"); VerifyDBFromMap(true_data, &kcnt, false); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); } TEST_F(ExternalSSTFileTest, AddExternalSstFileWithCustomCompartor) { Options options = CurrentOptions(); options.comparator = ReverseBytewiseComparator(); DestroyAndReopen(options); SstFileWriter sst_file_writer(EnvOptions(), options); // Generate files with these key ranges // {14 -> 0} // {24 -> 10} // {34 -> 20} // {44 -> 30} // .. std::vector generated_files; for (int i = 0; i < 10; i++) { std::string file_name = sst_files_dir_ + env_->GenerateUniqueId(); ASSERT_OK(sst_file_writer.Open(file_name)); int range_end = i * 10; int range_start = range_end + 15; for (int k = (range_start - 1); k >= range_end; k--) { ASSERT_OK(sst_file_writer.Put(Key(k), Key(k))); } ExternalSstFileInfo file_info; ASSERT_OK(sst_file_writer.Finish(&file_info)); generated_files.push_back(file_name); } std::vector in_files; // These 2nd and 3rd files overlap with each other in_files = {generated_files[0], generated_files[4], generated_files[5], generated_files[7]}; ASSERT_NOK(DeprecatedAddFile(in_files)); // These 2 files dont overlap with each other in_files = {generated_files[0], generated_files[2]}; ASSERT_OK(DeprecatedAddFile(in_files)); // These 2 files dont overlap with each other but overlap with keys in DB in_files = {generated_files[3], generated_files[7]}; ASSERT_NOK(DeprecatedAddFile(in_files)); // Files dont overlap and dont overlap with DB key range in_files = {generated_files[4], generated_files[6], generated_files[8]}; ASSERT_OK(DeprecatedAddFile(in_files)); for (int i = 0; i < 100; i++) { if (i % 20 <= 14) { ASSERT_EQ(Get(Key(i)), Key(i)); } else { ASSERT_EQ(Get(Key(i)), "NOT_FOUND"); } } } TEST_F(ExternalSSTFileTest, AddFileTrivialMoveBug) { Options options = CurrentOptions(); options.num_levels = 3; options.IncreaseParallelism(20); DestroyAndReopen(options); ASSERT_OK(GenerateAndAddExternalFile(options, {1, 4}, 1)); // L3 ASSERT_OK(GenerateAndAddExternalFile(options, {2, 3}, 2)); // L2 ASSERT_OK(GenerateAndAddExternalFile(options, {10, 14}, 3)); // L3 ASSERT_OK(GenerateAndAddExternalFile(options, {12, 13}, 4)); // L2 ASSERT_OK(GenerateAndAddExternalFile(options, {20, 24}, 5)); // L3 ASSERT_OK(GenerateAndAddExternalFile(options, {22, 23}, 6)); // L2 rocksdb::SyncPoint::GetInstance()->SetCallBack( "CompactionJob::Run():Start", [&](void* /*arg*/) { // fit in L3 but will overlap with compaction so will be added // to L2 but a compaction will trivially move it to L3 // and break LSM consistency static std::atomic called = {false}; if (!called) { called = true; ASSERT_OK(dbfull()->SetOptions({{"max_bytes_for_level_base", "1"}})); ASSERT_OK(GenerateAndAddExternalFile(options, {15, 16}, 7)); } }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); CompactRangeOptions cro; cro.exclusive_manual_compaction = false; ASSERT_OK(db_->CompactRange(cro, nullptr, nullptr)); dbfull()->TEST_WaitForCompact(); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); } TEST_F(ExternalSSTFileTest, CompactAddedFiles) { Options options = CurrentOptions(); options.num_levels = 3; DestroyAndReopen(options); ASSERT_OK(GenerateAndAddExternalFile(options, {1, 10}, 1)); // L3 ASSERT_OK(GenerateAndAddExternalFile(options, {2, 9}, 2)); // L2 ASSERT_OK(GenerateAndAddExternalFile(options, {3, 8}, 3)); // L1 ASSERT_OK(GenerateAndAddExternalFile(options, {4, 7}, 4)); // L0 ASSERT_OK(db_->CompactRange(CompactRangeOptions(), nullptr, nullptr)); } TEST_F(ExternalSSTFileTest, SstFileWriterNonSharedKeys) { Options options = CurrentOptions(); DestroyAndReopen(options); std::string file_path = sst_files_dir_ + "/not_shared"; SstFileWriter sst_file_writer(EnvOptions(), options); std::string suffix(100, 'X'); ASSERT_OK(sst_file_writer.Open(file_path)); ASSERT_OK(sst_file_writer.Put("A" + suffix, "VAL")); ASSERT_OK(sst_file_writer.Put("BB" + suffix, "VAL")); ASSERT_OK(sst_file_writer.Put("CC" + suffix, "VAL")); ASSERT_OK(sst_file_writer.Put("CXD" + suffix, "VAL")); ASSERT_OK(sst_file_writer.Put("CZZZ" + suffix, "VAL")); ASSERT_OK(sst_file_writer.Put("ZAAAX" + suffix, "VAL")); ASSERT_OK(sst_file_writer.Finish()); ASSERT_OK(DeprecatedAddFile({file_path})); } TEST_F(ExternalSSTFileTest, IngestFileWithGlobalSeqnoRandomized) { Options options = CurrentOptions(); options.IncreaseParallelism(20); options.level0_slowdown_writes_trigger = 256; options.level0_stop_writes_trigger = 256; for (int iter = 0; iter < 2; iter++) { bool write_to_memtable = (iter == 0); DestroyAndReopen(options); Random rnd(301); std::map true_data; for (int i = 0; i < 500; i++) { std::vector> random_data; for (int j = 0; j < 100; j++) { std::string k; std::string v; test::RandomString(&rnd, rnd.Next() % 20, &k); test::RandomString(&rnd, rnd.Next() % 50, &v); random_data.emplace_back(k, v); } if (write_to_memtable && rnd.OneIn(4)) { // 25% of writes go through memtable for (auto& entry : random_data) { ASSERT_OK(Put(entry.first, entry.second)); true_data[entry.first] = entry.second; } } else { ASSERT_OK(GenerateAndAddExternalFile(options, random_data, -1, true, true, &true_data)); } } size_t kcnt = 0; VerifyDBFromMap(true_data, &kcnt, false); db_->CompactRange(CompactRangeOptions(), nullptr, nullptr); VerifyDBFromMap(true_data, &kcnt, false); } } TEST_F(ExternalSSTFileTest, IngestFileWithGlobalSeqnoAssignedLevel) { Options options = CurrentOptions(); options.num_levels = 5; options.disable_auto_compactions = true; DestroyAndReopen(options); std::vector> file_data; std::map true_data; // Insert 100 -> 200 into the memtable for (int i = 100; i <= 200; i++) { ASSERT_OK(Put(Key(i), "memtable")); true_data[Key(i)] = "memtable"; } // Insert 0 -> 20 using AddFile file_data.clear(); for (int i = 0; i <= 20; i++) { file_data.emplace_back(Key(i), "L4"); } ASSERT_OK(GenerateAndAddExternalFile(options, file_data, -1, true, false, &true_data)); // This file dont overlap with anything in the DB, will go to L4 ASSERT_EQ("0,0,0,0,1", FilesPerLevel()); // Insert 80 -> 130 using AddFile file_data.clear(); for (int i = 80; i <= 130; i++) { file_data.emplace_back(Key(i), "L0"); } ASSERT_OK(GenerateAndAddExternalFile(options, file_data, -1, true, false, &true_data)); // This file overlap with the memtable, so it will flush it and add // it self to L0 ASSERT_EQ("2,0,0,0,1", FilesPerLevel()); // Insert 30 -> 50 using AddFile file_data.clear(); for (int i = 30; i <= 50; i++) { file_data.emplace_back(Key(i), "L4"); } ASSERT_OK(GenerateAndAddExternalFile(options, file_data, -1, true, false, &true_data)); // This file dont overlap with anything in the DB and fit in L4 as well ASSERT_EQ("2,0,0,0,2", FilesPerLevel()); // Insert 10 -> 40 using AddFile file_data.clear(); for (int i = 10; i <= 40; i++) { file_data.emplace_back(Key(i), "L3"); } ASSERT_OK(GenerateAndAddExternalFile(options, file_data, -1, true, false, &true_data)); // This file overlap with files in L4, we will ingest it in L3 ASSERT_EQ("2,0,0,1,2", FilesPerLevel()); size_t kcnt = 0; VerifyDBFromMap(true_data, &kcnt, false); } TEST_F(ExternalSSTFileTest, IngestFileWithGlobalSeqnoMemtableFlush) { Options options = CurrentOptions(); DestroyAndReopen(options); uint64_t entries_in_memtable; std::map true_data; for (int k : {10, 20, 40, 80}) { ASSERT_OK(Put(Key(k), "memtable")); true_data[Key(k)] = "memtable"; } db_->GetIntProperty(DB::Properties::kNumEntriesActiveMemTable, &entries_in_memtable); ASSERT_GE(entries_in_memtable, 1); // No need for flush ASSERT_OK(GenerateAndAddExternalFile(options, {90, 100, 110}, -1, true, false, &true_data)); db_->GetIntProperty(DB::Properties::kNumEntriesActiveMemTable, &entries_in_memtable); ASSERT_GE(entries_in_memtable, 1); // This file will flush the memtable ASSERT_OK(GenerateAndAddExternalFile(options, {19, 20, 21}, -1, true, false, &true_data)); db_->GetIntProperty(DB::Properties::kNumEntriesActiveMemTable, &entries_in_memtable); ASSERT_EQ(entries_in_memtable, 0); for (int k : {200, 201, 205, 206}) { ASSERT_OK(Put(Key(k), "memtable")); true_data[Key(k)] = "memtable"; } db_->GetIntProperty(DB::Properties::kNumEntriesActiveMemTable, &entries_in_memtable); ASSERT_GE(entries_in_memtable, 1); // No need for flush, this file keys fit between the memtable keys ASSERT_OK(GenerateAndAddExternalFile(options, {202, 203, 204}, -1, true, false, &true_data)); db_->GetIntProperty(DB::Properties::kNumEntriesActiveMemTable, &entries_in_memtable); ASSERT_GE(entries_in_memtable, 1); // This file will flush the memtable ASSERT_OK(GenerateAndAddExternalFile(options, {206, 207}, -1, true, false, &true_data)); db_->GetIntProperty(DB::Properties::kNumEntriesActiveMemTable, &entries_in_memtable); ASSERT_EQ(entries_in_memtable, 0); size_t kcnt = 0; VerifyDBFromMap(true_data, &kcnt, false); } TEST_F(ExternalSSTFileTest, L0SortingIssue) { Options options = CurrentOptions(); options.num_levels = 2; DestroyAndReopen(options); std::map true_data; ASSERT_OK(Put(Key(1), "memtable")); ASSERT_OK(Put(Key(10), "memtable")); // No Flush needed, No global seqno needed, Ingest in L1 ASSERT_OK(GenerateAndAddExternalFile(options, {7, 8}, -1, true, false)); // No Flush needed, but need a global seqno, Ingest in L0 ASSERT_OK(GenerateAndAddExternalFile(options, {7, 8}, -1, true, false)); printf("%s\n", FilesPerLevel().c_str()); // Overwrite what we added using external files ASSERT_OK(Put(Key(7), "memtable")); ASSERT_OK(Put(Key(8), "memtable")); // Read values from memtable ASSERT_EQ(Get(Key(7)), "memtable"); ASSERT_EQ(Get(Key(8)), "memtable"); // Flush and read from L0 ASSERT_OK(Flush()); printf("%s\n", FilesPerLevel().c_str()); ASSERT_EQ(Get(Key(7)), "memtable"); ASSERT_EQ(Get(Key(8)), "memtable"); } TEST_F(ExternalSSTFileTest, CompactionDeadlock) { Options options = CurrentOptions(); options.num_levels = 2; options.level0_file_num_compaction_trigger = 4; options.level0_slowdown_writes_trigger = 4; options.level0_stop_writes_trigger = 4; DestroyAndReopen(options); // atomic conter of currently running bg threads std::atomic running_threads(0); rocksdb::SyncPoint::GetInstance()->LoadDependency({ {"DBImpl::DelayWrite:Wait", "ExternalSSTFileTest::DeadLock:0"}, {"ExternalSSTFileTest::DeadLock:1", "DBImpl::AddFile:Start"}, {"DBImpl::AddFile:MutexLock", "ExternalSSTFileTest::DeadLock:2"}, {"ExternalSSTFileTest::DeadLock:3", "BackgroundCallCompaction:0"}, }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); // Start ingesting and extrnal file in the background rocksdb::port::Thread bg_ingest_file([&]() { running_threads += 1; ASSERT_OK(GenerateAndAddExternalFile(options, {5, 6})); running_threads -= 1; }); ASSERT_OK(Put(Key(1), "memtable")); ASSERT_OK(Flush()); ASSERT_OK(Put(Key(2), "memtable")); ASSERT_OK(Flush()); ASSERT_OK(Put(Key(3), "memtable")); ASSERT_OK(Flush()); ASSERT_OK(Put(Key(4), "memtable")); ASSERT_OK(Flush()); // This thread will try to insert into the memtable but since we have 4 L0 // files this thread will be blocked and hold the writer thread rocksdb::port::Thread bg_block_put([&]() { running_threads += 1; ASSERT_OK(Put(Key(10), "memtable")); running_threads -= 1; }); // Make sure DelayWrite is called first TEST_SYNC_POINT("ExternalSSTFileTest::DeadLock:0"); // `DBImpl::AddFile:Start` will wait until we be here TEST_SYNC_POINT("ExternalSSTFileTest::DeadLock:1"); // Wait for IngestExternalFile() to start and aquire mutex TEST_SYNC_POINT("ExternalSSTFileTest::DeadLock:2"); // Now let compaction start TEST_SYNC_POINT("ExternalSSTFileTest::DeadLock:3"); // Wait for max 5 seconds, if we did not finish all bg threads // then we hit the deadlock bug for (int i = 0; i < 10; i++) { if (running_threads.load() == 0) { break; } env_->SleepForMicroseconds(500000); } ASSERT_EQ(running_threads.load(), 0); bg_ingest_file.join(); bg_block_put.join(); } TEST_F(ExternalSSTFileTest, DirtyExit) { Options options = CurrentOptions(); DestroyAndReopen(options); std::string file_path = sst_files_dir_ + "/dirty_exit"; std::unique_ptr sst_file_writer; // Destruct SstFileWriter without calling Finish() sst_file_writer.reset(new SstFileWriter(EnvOptions(), options)); ASSERT_OK(sst_file_writer->Open(file_path)); sst_file_writer.reset(); // Destruct SstFileWriter with a failing Finish sst_file_writer.reset(new SstFileWriter(EnvOptions(), options)); ASSERT_OK(sst_file_writer->Open(file_path)); ASSERT_NOK(sst_file_writer->Finish()); } TEST_F(ExternalSSTFileTest, FileWithCFInfo) { Options options = CurrentOptions(); CreateAndReopenWithCF({"koko", "toto"}, options); SstFileWriter sfw_default(EnvOptions(), options, handles_[0]); SstFileWriter sfw_cf1(EnvOptions(), options, handles_[1]); SstFileWriter sfw_cf2(EnvOptions(), options, handles_[2]); SstFileWriter sfw_unknown(EnvOptions(), options); // default_cf.sst const std::string cf_default_sst = sst_files_dir_ + "/default_cf.sst"; ASSERT_OK(sfw_default.Open(cf_default_sst)); ASSERT_OK(sfw_default.Put("K1", "V1")); ASSERT_OK(sfw_default.Put("K2", "V2")); ASSERT_OK(sfw_default.Finish()); // cf1.sst const std::string cf1_sst = sst_files_dir_ + "/cf1.sst"; ASSERT_OK(sfw_cf1.Open(cf1_sst)); ASSERT_OK(sfw_cf1.Put("K3", "V1")); ASSERT_OK(sfw_cf1.Put("K4", "V2")); ASSERT_OK(sfw_cf1.Finish()); // cf_unknown.sst const std::string unknown_sst = sst_files_dir_ + "/cf_unknown.sst"; ASSERT_OK(sfw_unknown.Open(unknown_sst)); ASSERT_OK(sfw_unknown.Put("K5", "V1")); ASSERT_OK(sfw_unknown.Put("K6", "V2")); ASSERT_OK(sfw_unknown.Finish()); IngestExternalFileOptions ifo; // SST CF dont match ASSERT_NOK(db_->IngestExternalFile(handles_[0], {cf1_sst}, ifo)); // SST CF dont match ASSERT_NOK(db_->IngestExternalFile(handles_[2], {cf1_sst}, ifo)); // SST CF match ASSERT_OK(db_->IngestExternalFile(handles_[1], {cf1_sst}, ifo)); // SST CF dont match ASSERT_NOK(db_->IngestExternalFile(handles_[1], {cf_default_sst}, ifo)); // SST CF dont match ASSERT_NOK(db_->IngestExternalFile(handles_[2], {cf_default_sst}, ifo)); // SST CF match ASSERT_OK(db_->IngestExternalFile(handles_[0], {cf_default_sst}, ifo)); // SST CF unknown ASSERT_OK(db_->IngestExternalFile(handles_[1], {unknown_sst}, ifo)); // SST CF unknown ASSERT_OK(db_->IngestExternalFile(handles_[2], {unknown_sst}, ifo)); // SST CF unknown ASSERT_OK(db_->IngestExternalFile(handles_[0], {unknown_sst}, ifo)); // Cannot ingest a file into a dropped CF ASSERT_OK(db_->DropColumnFamily(handles_[1])); ASSERT_NOK(db_->IngestExternalFile(handles_[1], {unknown_sst}, ifo)); // CF was not dropped, ok to Ingest ASSERT_OK(db_->IngestExternalFile(handles_[2], {unknown_sst}, ifo)); } /* * Test and verify the functionality of ingestion_options.move_files. */ TEST_F(ExternalSSTFileTest, LinkExternalSst) { Options options = CurrentOptions(); options.disable_auto_compactions = true; DestroyAndReopen(options); const int kNumKeys = 10000; std::string file_path = sst_files_dir_ + "file1.sst"; // Create SstFileWriter for default column family SstFileWriter sst_file_writer(EnvOptions(), options); ASSERT_OK(sst_file_writer.Open(file_path)); for (int i = 0; i < kNumKeys; i++) { ASSERT_OK(sst_file_writer.Put(Key(i), Key(i) + "_value")); } ASSERT_OK(sst_file_writer.Finish()); uint64_t file_size = 0; ASSERT_OK(env_->GetFileSize(file_path, &file_size)); IngestExternalFileOptions ifo; ifo.move_files = true; ASSERT_OK(db_->IngestExternalFile({file_path}, ifo)); ColumnFamilyHandleImpl* cfh = static_cast(dbfull()->DefaultColumnFamily()); ColumnFamilyData* cfd = cfh->cfd(); const InternalStats* internal_stats_ptr = cfd->internal_stats(); const std::vector& comp_stats = internal_stats_ptr->TEST_GetCompactionStats(); uint64_t bytes_copied = 0; uint64_t bytes_moved = 0; for (const auto& stats : comp_stats) { bytes_copied += stats.bytes_written; bytes_moved += stats.bytes_moved; } // If bytes_moved > 0, it means external sst resides on the same FS // supporting hard link operation. Therefore, // 0 bytes should be copied, and the bytes_moved == file_size. // Otherwise, FS does not support hard link, or external sst file resides on // a different file system, then the bytes_copied should be equal to // file_size. if (bytes_moved > 0) { ASSERT_EQ(0, bytes_copied); ASSERT_EQ(file_size, bytes_moved); } else { ASSERT_EQ(file_size, bytes_copied); } } class TestIngestExternalFileListener : public EventListener { public: void OnExternalFileIngested(DB* /*db*/, const ExternalFileIngestionInfo& info) override { ingested_files.push_back(info); } std::vector ingested_files; }; TEST_F(ExternalSSTFileTest, IngestionListener) { Options options = CurrentOptions(); TestIngestExternalFileListener* listener = new TestIngestExternalFileListener(); options.listeners.emplace_back(listener); CreateAndReopenWithCF({"koko", "toto"}, options); // Ingest into default cf ASSERT_OK(GenerateAndAddExternalFile(options, {1, 2}, -1, true, true, nullptr, handles_[0])); ASSERT_EQ(listener->ingested_files.size(), 1); ASSERT_EQ(listener->ingested_files.back().cf_name, "default"); ASSERT_EQ(listener->ingested_files.back().global_seqno, 0); ASSERT_EQ(listener->ingested_files.back().table_properties.column_family_id, 0); ASSERT_EQ(listener->ingested_files.back().table_properties.column_family_name, "default"); // Ingest into cf1 ASSERT_OK(GenerateAndAddExternalFile(options, {1, 2}, -1, true, true, nullptr, handles_[1])); ASSERT_EQ(listener->ingested_files.size(), 2); ASSERT_EQ(listener->ingested_files.back().cf_name, "koko"); ASSERT_EQ(listener->ingested_files.back().global_seqno, 0); ASSERT_EQ(listener->ingested_files.back().table_properties.column_family_id, 1); ASSERT_EQ(listener->ingested_files.back().table_properties.column_family_name, "koko"); // Ingest into cf2 ASSERT_OK(GenerateAndAddExternalFile(options, {1, 2}, -1, true, true, nullptr, handles_[2])); ASSERT_EQ(listener->ingested_files.size(), 3); ASSERT_EQ(listener->ingested_files.back().cf_name, "toto"); ASSERT_EQ(listener->ingested_files.back().global_seqno, 0); ASSERT_EQ(listener->ingested_files.back().table_properties.column_family_id, 2); ASSERT_EQ(listener->ingested_files.back().table_properties.column_family_name, "toto"); } TEST_F(ExternalSSTFileTest, SnapshotInconsistencyBug) { Options options = CurrentOptions(); DestroyAndReopen(options); const int kNumKeys = 10000; // Insert keys using normal path and take a snapshot for (int i = 0; i < kNumKeys; i++) { ASSERT_OK(Put(Key(i), Key(i) + "_V1")); } const Snapshot* snap = db_->GetSnapshot(); // Overwrite all keys using IngestExternalFile std::string sst_file_path = sst_files_dir_ + "file1.sst"; SstFileWriter sst_file_writer(EnvOptions(), options); ASSERT_OK(sst_file_writer.Open(sst_file_path)); for (int i = 0; i < kNumKeys; i++) { ASSERT_OK(sst_file_writer.Put(Key(i), Key(i) + "_V2")); } ASSERT_OK(sst_file_writer.Finish()); IngestExternalFileOptions ifo; ifo.move_files = true; ASSERT_OK(db_->IngestExternalFile({sst_file_path}, ifo)); for (int i = 0; i < kNumKeys; i++) { ASSERT_EQ(Get(Key(i), snap), Key(i) + "_V1"); ASSERT_EQ(Get(Key(i)), Key(i) + "_V2"); } db_->ReleaseSnapshot(snap); } TEST_F(ExternalSSTFileTest, IngestBehind) { Options options = CurrentOptions(); options.compaction_style = kCompactionStyleUniversal; options.num_levels = 3; options.disable_auto_compactions = false; DestroyAndReopen(options); std::vector> file_data; std::map true_data; // Insert 100 -> 200 into the memtable for (int i = 100; i <= 200; i++) { ASSERT_OK(Put(Key(i), "memtable")); true_data[Key(i)] = "memtable"; } // Insert 100 -> 200 using IngestExternalFile file_data.clear(); for (int i = 0; i <= 20; i++) { file_data.emplace_back(Key(i), "ingest_behind"); } IngestExternalFileOptions ifo; ifo.allow_global_seqno = true; ifo.ingest_behind = true; // Can't ingest behind since allow_ingest_behind isn't set to true ASSERT_NOK(GenerateAndAddExternalFileIngestBehind(options, ifo, file_data, -1, false, &true_data)); options.allow_ingest_behind = true; // check that we still can open the DB, as num_levels should be // sanitized to 3 options.num_levels = 2; DestroyAndReopen(options); options.num_levels = 3; DestroyAndReopen(options); // Insert 100 -> 200 into the memtable for (int i = 100; i <= 200; i++) { ASSERT_OK(Put(Key(i), "memtable")); true_data[Key(i)] = "memtable"; } db_->CompactRange(CompactRangeOptions(), nullptr, nullptr); // Universal picker should go at second from the bottom level ASSERT_EQ("0,1", FilesPerLevel()); ASSERT_OK(GenerateAndAddExternalFileIngestBehind(options, ifo, file_data, -1, false, &true_data)); ASSERT_EQ("0,1,1", FilesPerLevel()); // this time ingest should fail as the file doesn't fit to the bottom level ASSERT_NOK(GenerateAndAddExternalFileIngestBehind(options, ifo, file_data, -1, false, &true_data)); ASSERT_EQ("0,1,1", FilesPerLevel()); db_->CompactRange(CompactRangeOptions(), nullptr, nullptr); // bottom level should be empty ASSERT_EQ("0,1", FilesPerLevel()); size_t kcnt = 0; VerifyDBFromMap(true_data, &kcnt, false); } TEST_F(ExternalSSTFileTest, SkipBloomFilter) { Options options = CurrentOptions(); BlockBasedTableOptions table_options; table_options.filter_policy.reset(NewBloomFilterPolicy(10)); table_options.cache_index_and_filter_blocks = true; options.table_factory.reset(NewBlockBasedTableFactory(table_options)); // Create external SST file and include bloom filters options.statistics = rocksdb::CreateDBStatistics(); DestroyAndReopen(options); { std::string file_path = sst_files_dir_ + "sst_with_bloom.sst"; SstFileWriter sst_file_writer(EnvOptions(), options); ASSERT_OK(sst_file_writer.Open(file_path)); ASSERT_OK(sst_file_writer.Put("Key1", "Value1")); ASSERT_OK(sst_file_writer.Finish()); ASSERT_OK( db_->IngestExternalFile({file_path}, IngestExternalFileOptions())); ASSERT_EQ(Get("Key1"), "Value1"); ASSERT_GE( options.statistics->getTickerCount(Tickers::BLOCK_CACHE_FILTER_ADD), 1); } // Create external SST file but skip bloom filters options.statistics = rocksdb::CreateDBStatistics(); DestroyAndReopen(options); { std::string file_path = sst_files_dir_ + "sst_with_no_bloom.sst"; SstFileWriter sst_file_writer(EnvOptions(), options, nullptr, true, Env::IOPriority::IO_TOTAL, true /* skip_filters */); ASSERT_OK(sst_file_writer.Open(file_path)); ASSERT_OK(sst_file_writer.Put("Key1", "Value1")); ASSERT_OK(sst_file_writer.Finish()); ASSERT_OK( db_->IngestExternalFile({file_path}, IngestExternalFileOptions())); ASSERT_EQ(Get("Key1"), "Value1"); ASSERT_EQ( options.statistics->getTickerCount(Tickers::BLOCK_CACHE_FILTER_ADD), 0); } } } // namespace rocksdb int main(int argc, char** argv) { rocksdb::port::InstallStackTraceHandler(); ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } #else #include int main(int /*argc*/, char** /*argv*/) { fprintf(stderr, "SKIPPED as External SST File Writer and Ingestion are not supported " "in ROCKSDB_LITE\n"); return 0; } #endif // !ROCKSDB_LITE rocksdb-5.17.2/db/fault_injection_test.cc000066400000000000000000000417761337235545400203770ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright 2014 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. // This test uses a custom Env to keep track of the state of a filesystem as of // the last "sync". It then checks for data loss errors by purposely dropping // file data (or entire files) not protected by a "sync". #include "db/db_impl.h" #include "db/log_format.h" #include "db/version_set.h" #include "env/mock_env.h" #include "rocksdb/cache.h" #include "rocksdb/db.h" #include "rocksdb/env.h" #include "rocksdb/table.h" #include "rocksdb/write_batch.h" #include "util/fault_injection_test_env.h" #include "util/filename.h" #include "util/logging.h" #include "util/mutexlock.h" #include "util/sync_point.h" #include "util/testharness.h" #include "util/testutil.h" namespace rocksdb { static const int kValueSize = 1000; static const int kMaxNumValues = 2000; static const size_t kNumIterations = 3; enum FaultInjectionOptionConfig { kDefault, kDifferentDataDir, kWalDir, kSyncWal, kWalDirSyncWal, kMultiLevels, kEnd, }; class FaultInjectionTest : public testing::Test, public testing::WithParamInterface> { protected: int option_config_; int non_inclusive_end_range_; // kEnd or equivalent to that // When need to make sure data is persistent, sync WAL bool sync_use_wal_; // When need to make sure data is persistent, call DB::CompactRange() bool sync_use_compact_; bool sequential_order_; protected: public: enum ExpectedVerifResult { kValExpectFound, kValExpectNoError }; enum ResetMethod { kResetDropUnsyncedData, kResetDropRandomUnsyncedData, kResetDeleteUnsyncedFiles, kResetDropAndDeleteUnsynced }; std::unique_ptr base_env_; FaultInjectionTestEnv* env_; std::string dbname_; shared_ptr tiny_cache_; Options options_; DB* db_; FaultInjectionTest() : option_config_(std::get<1>(GetParam())), non_inclusive_end_range_(std::get<2>(GetParam())), sync_use_wal_(false), sync_use_compact_(true), base_env_(nullptr), env_(nullptr), db_(nullptr) {} ~FaultInjectionTest() { rocksdb::SyncPoint::GetInstance()->DisableProcessing(); rocksdb::SyncPoint::GetInstance()->ClearAllCallBacks(); } bool ChangeOptions() { option_config_++; if (option_config_ >= non_inclusive_end_range_) { return false; } else { if (option_config_ == kMultiLevels) { base_env_.reset(new MockEnv(Env::Default())); } return true; } } // Return the current option configuration. Options CurrentOptions() { sync_use_wal_ = false; sync_use_compact_ = true; Options options; switch (option_config_) { case kWalDir: options.wal_dir = test::PerThreadDBPath(env_, "fault_test_wal"); break; case kDifferentDataDir: options.db_paths.emplace_back( test::PerThreadDBPath(env_, "fault_test_data"), 1000000U); break; case kSyncWal: sync_use_wal_ = true; sync_use_compact_ = false; break; case kWalDirSyncWal: options.wal_dir = test::PerThreadDBPath(env_, "/fault_test_wal"); sync_use_wal_ = true; sync_use_compact_ = false; break; case kMultiLevels: options.write_buffer_size = 64 * 1024; options.target_file_size_base = 64 * 1024; options.level0_file_num_compaction_trigger = 2; options.level0_slowdown_writes_trigger = 2; options.level0_stop_writes_trigger = 4; options.max_bytes_for_level_base = 128 * 1024; options.max_write_buffer_number = 2; options.max_background_compactions = 8; options.max_background_flushes = 8; sync_use_wal_ = true; sync_use_compact_ = false; break; default: break; } return options; } Status NewDB() { assert(db_ == nullptr); assert(tiny_cache_ == nullptr); assert(env_ == nullptr); env_ = new FaultInjectionTestEnv(base_env_ ? base_env_.get() : Env::Default()); options_ = CurrentOptions(); options_.env = env_; options_.paranoid_checks = true; BlockBasedTableOptions table_options; tiny_cache_ = NewLRUCache(100); table_options.block_cache = tiny_cache_; options_.table_factory.reset(NewBlockBasedTableFactory(table_options)); dbname_ = test::PerThreadDBPath("fault_test"); EXPECT_OK(DestroyDB(dbname_, options_)); options_.create_if_missing = true; Status s = OpenDB(); options_.create_if_missing = false; return s; } void SetUp() override { sequential_order_ = std::get<0>(GetParam()); ASSERT_OK(NewDB()); } void TearDown() override { CloseDB(); Status s = DestroyDB(dbname_, options_); delete env_; env_ = nullptr; tiny_cache_.reset(); ASSERT_OK(s); } void Build(const WriteOptions& write_options, int start_idx, int num_vals) { std::string key_space, value_space; WriteBatch batch; for (int i = start_idx; i < start_idx + num_vals; i++) { Slice key = Key(i, &key_space); batch.Clear(); batch.Put(key, Value(i, &value_space)); ASSERT_OK(db_->Write(write_options, &batch)); } } Status ReadValue(int i, std::string* val) const { std::string key_space, value_space; Slice key = Key(i, &key_space); Value(i, &value_space); ReadOptions options; return db_->Get(options, key, val); } Status Verify(int start_idx, int num_vals, ExpectedVerifResult expected) const { std::string val; std::string value_space; Status s; for (int i = start_idx; i < start_idx + num_vals && s.ok(); i++) { Value(i, &value_space); s = ReadValue(i, &val); if (s.ok()) { EXPECT_EQ(value_space, val); } if (expected == kValExpectFound) { if (!s.ok()) { fprintf(stderr, "Error when read %dth record (expect found): %s\n", i, s.ToString().c_str()); return s; } } else if (!s.ok() && !s.IsNotFound()) { fprintf(stderr, "Error when read %dth record: %s\n", i, s.ToString().c_str()); return s; } } return Status::OK(); } // Return the ith key Slice Key(int i, std::string* storage) const { unsigned long long num = i; if (!sequential_order_) { // random transfer const int m = 0x5bd1e995; num *= m; num ^= num << 24; } char buf[100]; snprintf(buf, sizeof(buf), "%016d", static_cast(num)); storage->assign(buf, strlen(buf)); return Slice(*storage); } // Return the value to associate with the specified key Slice Value(int k, std::string* storage) const { Random r(k); return test::RandomString(&r, kValueSize, storage); } void CloseDB() { delete db_; db_ = nullptr; } Status OpenDB() { CloseDB(); env_->ResetState(); Status s = DB::Open(options_, dbname_, &db_); assert(db_ != nullptr); return s; } void DeleteAllData() { Iterator* iter = db_->NewIterator(ReadOptions()); WriteOptions options; for (iter->SeekToFirst(); iter->Valid(); iter->Next()) { ASSERT_OK(db_->Delete(WriteOptions(), iter->key())); } delete iter; FlushOptions flush_options; flush_options.wait = true; db_->Flush(flush_options); } // rnd cannot be null for kResetDropRandomUnsyncedData void ResetDBState(ResetMethod reset_method, Random* rnd = nullptr) { env_->AssertNoOpenFile(); switch (reset_method) { case kResetDropUnsyncedData: ASSERT_OK(env_->DropUnsyncedFileData()); break; case kResetDropRandomUnsyncedData: ASSERT_OK(env_->DropRandomUnsyncedFileData(rnd)); break; case kResetDeleteUnsyncedFiles: ASSERT_OK(env_->DeleteFilesCreatedAfterLastDirSync()); break; case kResetDropAndDeleteUnsynced: ASSERT_OK(env_->DropUnsyncedFileData()); ASSERT_OK(env_->DeleteFilesCreatedAfterLastDirSync()); break; default: assert(false); } } void PartialCompactTestPreFault(int num_pre_sync, int num_post_sync) { DeleteAllData(); WriteOptions write_options; write_options.sync = sync_use_wal_; Build(write_options, 0, num_pre_sync); if (sync_use_compact_) { db_->CompactRange(CompactRangeOptions(), nullptr, nullptr); } write_options.sync = false; Build(write_options, num_pre_sync, num_post_sync); } void PartialCompactTestReopenWithFault(ResetMethod reset_method, int num_pre_sync, int num_post_sync, Random* rnd = nullptr) { env_->SetFilesystemActive(false); CloseDB(); ResetDBState(reset_method, rnd); ASSERT_OK(OpenDB()); ASSERT_OK(Verify(0, num_pre_sync, FaultInjectionTest::kValExpectFound)); ASSERT_OK(Verify(num_pre_sync, num_post_sync, FaultInjectionTest::kValExpectNoError)); WaitCompactionFinish(); ASSERT_OK(Verify(0, num_pre_sync, FaultInjectionTest::kValExpectFound)); ASSERT_OK(Verify(num_pre_sync, num_post_sync, FaultInjectionTest::kValExpectNoError)); } void NoWriteTestPreFault() { } void NoWriteTestReopenWithFault(ResetMethod reset_method) { CloseDB(); ResetDBState(reset_method); ASSERT_OK(OpenDB()); } void WaitCompactionFinish() { static_cast(db_->GetRootDB())->TEST_WaitForCompact(); ASSERT_OK(db_->Put(WriteOptions(), "", "")); } }; class FaultInjectionTestSplitted : public FaultInjectionTest {}; TEST_P(FaultInjectionTestSplitted, FaultTest) { do { Random rnd(301); for (size_t idx = 0; idx < kNumIterations; idx++) { int num_pre_sync = rnd.Uniform(kMaxNumValues); int num_post_sync = rnd.Uniform(kMaxNumValues); PartialCompactTestPreFault(num_pre_sync, num_post_sync); PartialCompactTestReopenWithFault(kResetDropUnsyncedData, num_pre_sync, num_post_sync); NoWriteTestPreFault(); NoWriteTestReopenWithFault(kResetDropUnsyncedData); PartialCompactTestPreFault(num_pre_sync, num_post_sync); PartialCompactTestReopenWithFault(kResetDropRandomUnsyncedData, num_pre_sync, num_post_sync, &rnd); NoWriteTestPreFault(); NoWriteTestReopenWithFault(kResetDropUnsyncedData); // Setting a separate data path won't pass the test as we don't sync // it after creating new files, PartialCompactTestPreFault(num_pre_sync, num_post_sync); PartialCompactTestReopenWithFault(kResetDropAndDeleteUnsynced, num_pre_sync, num_post_sync); NoWriteTestPreFault(); NoWriteTestReopenWithFault(kResetDropAndDeleteUnsynced); PartialCompactTestPreFault(num_pre_sync, num_post_sync); // No new files created so we expect all values since no files will be // dropped. PartialCompactTestReopenWithFault(kResetDeleteUnsyncedFiles, num_pre_sync, num_post_sync); NoWriteTestPreFault(); NoWriteTestReopenWithFault(kResetDeleteUnsyncedFiles); } } while (ChangeOptions()); } // Previous log file is not fsynced if sync is forced after log rolling. TEST_P(FaultInjectionTest, WriteOptionSyncTest) { test::SleepingBackgroundTask sleeping_task_low; env_->SetBackgroundThreads(1, Env::HIGH); // Block the job queue to prevent flush job from running. env_->Schedule(&test::SleepingBackgroundTask::DoSleepTask, &sleeping_task_low, Env::Priority::HIGH); sleeping_task_low.WaitUntilSleeping(); WriteOptions write_options; write_options.sync = false; std::string key_space, value_space; ASSERT_OK( db_->Put(write_options, Key(1, &key_space), Value(1, &value_space))); FlushOptions flush_options; flush_options.wait = false; ASSERT_OK(db_->Flush(flush_options)); write_options.sync = true; ASSERT_OK( db_->Put(write_options, Key(2, &key_space), Value(2, &value_space))); db_->FlushWAL(false); env_->SetFilesystemActive(false); NoWriteTestReopenWithFault(kResetDropAndDeleteUnsynced); sleeping_task_low.WakeUp(); sleeping_task_low.WaitUntilDone(); ASSERT_OK(OpenDB()); std::string val; Value(2, &value_space); ASSERT_OK(ReadValue(2, &val)); ASSERT_EQ(value_space, val); Value(1, &value_space); ASSERT_OK(ReadValue(1, &val)); ASSERT_EQ(value_space, val); } TEST_P(FaultInjectionTest, UninstalledCompaction) { options_.target_file_size_base = 32 * 1024; options_.write_buffer_size = 100 << 10; // 100KB options_.level0_file_num_compaction_trigger = 6; options_.level0_stop_writes_trigger = 1 << 10; options_.level0_slowdown_writes_trigger = 1 << 10; options_.max_background_compactions = 1; OpenDB(); if (!sequential_order_) { rocksdb::SyncPoint::GetInstance()->LoadDependency({ {"FaultInjectionTest::FaultTest:0", "DBImpl::BGWorkCompaction"}, {"CompactionJob::Run():End", "FaultInjectionTest::FaultTest:1"}, {"FaultInjectionTest::FaultTest:2", "DBImpl::BackgroundCompaction:NonTrivial:AfterRun"}, }); } rocksdb::SyncPoint::GetInstance()->EnableProcessing(); int kNumKeys = 1000; Build(WriteOptions(), 0, kNumKeys); FlushOptions flush_options; flush_options.wait = true; db_->Flush(flush_options); ASSERT_OK(db_->Put(WriteOptions(), "", "")); TEST_SYNC_POINT("FaultInjectionTest::FaultTest:0"); TEST_SYNC_POINT("FaultInjectionTest::FaultTest:1"); env_->SetFilesystemActive(false); TEST_SYNC_POINT("FaultInjectionTest::FaultTest:2"); CloseDB(); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); ResetDBState(kResetDropUnsyncedData); std::atomic opened(false); rocksdb::SyncPoint::GetInstance()->SetCallBack( "DBImpl::Open:Opened", [&](void* /*arg*/) { opened.store(true); }); rocksdb::SyncPoint::GetInstance()->SetCallBack( "DBImpl::BGWorkCompaction", [&](void* /*arg*/) { ASSERT_TRUE(opened.load()); }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); ASSERT_OK(OpenDB()); ASSERT_OK(Verify(0, kNumKeys, FaultInjectionTest::kValExpectFound)); WaitCompactionFinish(); ASSERT_OK(Verify(0, kNumKeys, FaultInjectionTest::kValExpectFound)); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); rocksdb::SyncPoint::GetInstance()->ClearAllCallBacks(); } TEST_P(FaultInjectionTest, ManualLogSyncTest) { test::SleepingBackgroundTask sleeping_task_low; env_->SetBackgroundThreads(1, Env::HIGH); // Block the job queue to prevent flush job from running. env_->Schedule(&test::SleepingBackgroundTask::DoSleepTask, &sleeping_task_low, Env::Priority::HIGH); sleeping_task_low.WaitUntilSleeping(); WriteOptions write_options; write_options.sync = false; std::string key_space, value_space; ASSERT_OK( db_->Put(write_options, Key(1, &key_space), Value(1, &value_space))); FlushOptions flush_options; flush_options.wait = false; ASSERT_OK(db_->Flush(flush_options)); ASSERT_OK( db_->Put(write_options, Key(2, &key_space), Value(2, &value_space))); ASSERT_OK(db_->FlushWAL(true)); env_->SetFilesystemActive(false); NoWriteTestReopenWithFault(kResetDropAndDeleteUnsynced); sleeping_task_low.WakeUp(); sleeping_task_low.WaitUntilDone(); ASSERT_OK(OpenDB()); std::string val; Value(2, &value_space); ASSERT_OK(ReadValue(2, &val)); ASSERT_EQ(value_space, val); Value(1, &value_space); ASSERT_OK(ReadValue(1, &val)); ASSERT_EQ(value_space, val); } TEST_P(FaultInjectionTest, WriteBatchWalTerminationTest) { ReadOptions ro; Options options = CurrentOptions(); options.env = env_; WriteOptions wo; wo.sync = true; wo.disableWAL = false; WriteBatch batch; batch.Put("cats", "dogs"); batch.MarkWalTerminationPoint(); batch.Put("boys", "girls"); ASSERT_OK(db_->Write(wo, &batch)); env_->SetFilesystemActive(false); NoWriteTestReopenWithFault(kResetDropAndDeleteUnsynced); ASSERT_OK(OpenDB()); std::string val; ASSERT_OK(db_->Get(ro, "cats", &val)); ASSERT_EQ("dogs", val); ASSERT_EQ(db_->Get(ro, "boys", &val), Status::NotFound()); } INSTANTIATE_TEST_CASE_P( FaultTest, FaultInjectionTest, ::testing::Values(std::make_tuple(false, kDefault, kEnd), std::make_tuple(true, kDefault, kEnd))); INSTANTIATE_TEST_CASE_P( FaultTest, FaultInjectionTestSplitted, ::testing::Values(std::make_tuple(false, kDefault, kSyncWal), std::make_tuple(true, kDefault, kSyncWal), std::make_tuple(false, kSyncWal, kEnd), std::make_tuple(true, kSyncWal, kEnd))); } // namespace rocksdb int main(int argc, char** argv) { ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/db/file_indexer.cc000066400000000000000000000170431337235545400166060ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "db/file_indexer.h" #include #include #include "db/version_edit.h" #include "rocksdb/comparator.h" namespace rocksdb { FileIndexer::FileIndexer(const Comparator* ucmp) : num_levels_(0), ucmp_(ucmp), level_rb_(nullptr) {} size_t FileIndexer::NumLevelIndex() const { return next_level_index_.size(); } size_t FileIndexer::LevelIndexSize(size_t level) const { if (level >= next_level_index_.size()) { return 0; } return next_level_index_[level].num_index; } void FileIndexer::GetNextLevelIndex(const size_t level, const size_t file_index, const int cmp_smallest, const int cmp_largest, int32_t* left_bound, int32_t* right_bound) const { assert(level > 0); // Last level, no hint if (level == num_levels_ - 1) { *left_bound = 0; *right_bound = -1; return; } assert(level < num_levels_ - 1); assert(static_cast(file_index) <= level_rb_[level]); const IndexUnit* index_units = next_level_index_[level].index_units; const auto& index = index_units[file_index]; if (cmp_smallest < 0) { *left_bound = (level > 0 && file_index > 0) ? index_units[file_index - 1].largest_lb : 0; *right_bound = index.smallest_rb; } else if (cmp_smallest == 0) { *left_bound = index.smallest_lb; *right_bound = index.smallest_rb; } else if (cmp_smallest > 0 && cmp_largest < 0) { *left_bound = index.smallest_lb; *right_bound = index.largest_rb; } else if (cmp_largest == 0) { *left_bound = index.largest_lb; *right_bound = index.largest_rb; } else if (cmp_largest > 0) { *left_bound = index.largest_lb; *right_bound = level_rb_[level + 1]; } else { assert(false); } assert(*left_bound >= 0); assert(*left_bound <= *right_bound + 1); assert(*right_bound <= level_rb_[level + 1]); } void FileIndexer::UpdateIndex(Arena* arena, const size_t num_levels, std::vector* const files) { if (files == nullptr) { return; } if (num_levels == 0) { // uint_32 0-1 would cause bad behavior num_levels_ = num_levels; return; } assert(level_rb_ == nullptr); // level_rb_ should be init here num_levels_ = num_levels; next_level_index_.resize(num_levels); char* mem = arena->AllocateAligned(num_levels_ * sizeof(int32_t)); level_rb_ = new (mem) int32_t[num_levels_]; for (size_t i = 0; i < num_levels_; i++) { level_rb_[i] = -1; } // L1 - Ln-1 for (size_t level = 1; level < num_levels_ - 1; ++level) { const auto& upper_files = files[level]; const int32_t upper_size = static_cast(upper_files.size()); const auto& lower_files = files[level + 1]; level_rb_[level] = static_cast(upper_files.size()) - 1; if (upper_size == 0) { continue; } IndexLevel& index_level = next_level_index_[level]; index_level.num_index = upper_size; mem = arena->AllocateAligned(upper_size * sizeof(IndexUnit)); index_level.index_units = new (mem) IndexUnit[upper_size]; CalculateLB( upper_files, lower_files, &index_level, [this](const FileMetaData * a, const FileMetaData * b)->int { return ucmp_->Compare(a->smallest.user_key(), b->largest.user_key()); }, [](IndexUnit* index, int32_t f_idx) { index->smallest_lb = f_idx; }); CalculateLB( upper_files, lower_files, &index_level, [this](const FileMetaData * a, const FileMetaData * b)->int { return ucmp_->Compare(a->largest.user_key(), b->largest.user_key()); }, [](IndexUnit* index, int32_t f_idx) { index->largest_lb = f_idx; }); CalculateRB( upper_files, lower_files, &index_level, [this](const FileMetaData * a, const FileMetaData * b)->int { return ucmp_->Compare(a->smallest.user_key(), b->smallest.user_key()); }, [](IndexUnit* index, int32_t f_idx) { index->smallest_rb = f_idx; }); CalculateRB( upper_files, lower_files, &index_level, [this](const FileMetaData * a, const FileMetaData * b)->int { return ucmp_->Compare(a->largest.user_key(), b->smallest.user_key()); }, [](IndexUnit* index, int32_t f_idx) { index->largest_rb = f_idx; }); } level_rb_[num_levels_ - 1] = static_cast(files[num_levels_ - 1].size()) - 1; } void FileIndexer::CalculateLB( const std::vector& upper_files, const std::vector& lower_files, IndexLevel* index_level, std::function cmp_op, std::function set_index) { const int32_t upper_size = static_cast(upper_files.size()); const int32_t lower_size = static_cast(lower_files.size()); int32_t upper_idx = 0; int32_t lower_idx = 0; IndexUnit* index = index_level->index_units; while (upper_idx < upper_size && lower_idx < lower_size) { int cmp = cmp_op(upper_files[upper_idx], lower_files[lower_idx]); if (cmp == 0) { set_index(&index[upper_idx], lower_idx); ++upper_idx; ++lower_idx; } else if (cmp > 0) { // Lower level's file (largest) is smaller, a key won't hit in that // file. Move to next lower file ++lower_idx; } else { // Lower level's file becomes larger, update the index, and // move to the next upper file set_index(&index[upper_idx], lower_idx); ++upper_idx; } } while (upper_idx < upper_size) { // Lower files are exhausted, that means the remaining upper files are // greater than any lower files. Set the index to be the lower level size. set_index(&index[upper_idx], lower_size); ++upper_idx; } } void FileIndexer::CalculateRB( const std::vector& upper_files, const std::vector& lower_files, IndexLevel* index_level, std::function cmp_op, std::function set_index) { const int32_t upper_size = static_cast(upper_files.size()); const int32_t lower_size = static_cast(lower_files.size()); int32_t upper_idx = upper_size - 1; int32_t lower_idx = lower_size - 1; IndexUnit* index = index_level->index_units; while (upper_idx >= 0 && lower_idx >= 0) { int cmp = cmp_op(upper_files[upper_idx], lower_files[lower_idx]); if (cmp == 0) { set_index(&index[upper_idx], lower_idx); --upper_idx; --lower_idx; } else if (cmp < 0) { // Lower level's file (smallest) is larger, a key won't hit in that // file. Move to next lower file. --lower_idx; } else { // Lower level's file becomes smaller, update the index, and move to // the next the upper file set_index(&index[upper_idx], lower_idx); --upper_idx; } } while (upper_idx >= 0) { // Lower files are exhausted, that means the remaining upper files are // smaller than any lower files. Set it to -1. set_index(&index[upper_idx], -1); --upper_idx; } } } // namespace rocksdb rocksdb-5.17.2/db/file_indexer.h000066400000000000000000000140661337235545400164520ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #include #include #include #include #include "port/port.h" #include "util/arena.h" #include "util/autovector.h" namespace rocksdb { class Comparator; struct FileMetaData; struct FdWithKeyRange; struct FileLevel; // The file tree structure in Version is prebuilt and the range of each file // is known. On Version::Get(), it uses binary search to find a potential file // and then check if a target key can be found in the file by comparing the key // to each file's smallest and largest key. The results of these comparisons // can be reused beyond checking if a key falls into a file's range. // With some pre-calculated knowledge, each key comparison that has been done // can serve as a hint to narrow down further searches: if a key compared to // be smaller than a file's smallest or largest, that comparison can be used // to find out the right bound of next binary search. Similarly, if a key // compared to be larger than a file's smallest or largest, it can be utilized // to find out the left bound of next binary search. // With these hints: it can greatly reduce the range of binary search, // especially for bottom levels, given that one file most likely overlaps with // only N files from level below (where N is max_bytes_for_level_multiplier). // So on level L, we will only look at ~N files instead of N^L files on the // naive approach. class FileIndexer { public: explicit FileIndexer(const Comparator* ucmp); size_t NumLevelIndex() const; size_t LevelIndexSize(size_t level) const; // Return a file index range in the next level to search for a key based on // smallest and largest key comparison for the current file specified by // level and file_index. When *left_index < *right_index, both index should // be valid and fit in the vector size. void GetNextLevelIndex(const size_t level, const size_t file_index, const int cmp_smallest, const int cmp_largest, int32_t* left_bound, int32_t* right_bound) const; void UpdateIndex(Arena* arena, const size_t num_levels, std::vector* const files); enum { // MSVC version 1800 still does not have constexpr for ::max() kLevelMaxIndex = rocksdb::port::kMaxInt32 }; private: size_t num_levels_; const Comparator* ucmp_; struct IndexUnit { IndexUnit() : smallest_lb(0), largest_lb(0), smallest_rb(-1), largest_rb(-1) {} // During file search, a key is compared against smallest and largest // from a FileMetaData. It can have 3 possible outcomes: // (1) key is smaller than smallest, implying it is also smaller than // larger. Precalculated index based on "smallest < smallest" can // be used to provide right bound. // (2) key is in between smallest and largest. // Precalculated index based on "smallest > greatest" can be used to // provide left bound. // Precalculated index based on "largest < smallest" can be used to // provide right bound. // (3) key is larger than largest, implying it is also larger than smallest. // Precalculated index based on "largest > largest" can be used to // provide left bound. // // As a result, we will need to do: // Compare smallest (<=) and largest keys from upper level file with // smallest key from lower level to get a right bound. // Compare smallest (>=) and largest keys from upper level file with // largest key from lower level to get a left bound. // // Example: // level 1: [50 - 60] // level 2: [1 - 40], [45 - 55], [58 - 80] // A key 35, compared to be less than 50, 3rd file on level 2 can be // skipped according to rule (1). LB = 0, RB = 1. // A key 53, sits in the middle 50 and 60. 1st file on level 2 can be // skipped according to rule (2)-a, but the 3rd file cannot be skipped // because 60 is greater than 58. LB = 1, RB = 2. // A key 70, compared to be larger than 60. 1st and 2nd file can be skipped // according to rule (3). LB = 2, RB = 2. // // Point to a left most file in a lower level that may contain a key, // which compares greater than smallest of a FileMetaData (upper level) int32_t smallest_lb; // Point to a left most file in a lower level that may contain a key, // which compares greater than largest of a FileMetaData (upper level) int32_t largest_lb; // Point to a right most file in a lower level that may contain a key, // which compares smaller than smallest of a FileMetaData (upper level) int32_t smallest_rb; // Point to a right most file in a lower level that may contain a key, // which compares smaller than largest of a FileMetaData (upper level) int32_t largest_rb; }; // Data structure to store IndexUnits in a whole level struct IndexLevel { size_t num_index; IndexUnit* index_units; IndexLevel() : num_index(0), index_units(nullptr) {} }; void CalculateLB( const std::vector& upper_files, const std::vector& lower_files, IndexLevel* index_level, std::function cmp_op, std::function set_index); void CalculateRB( const std::vector& upper_files, const std::vector& lower_files, IndexLevel* index_level, std::function cmp_op, std::function set_index); autovector next_level_index_; int32_t* level_rb_; }; } // namespace rocksdb rocksdb-5.17.2/db/file_indexer_test.cc000066400000000000000000000235021337235545400176420ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include #include "db/file_indexer.h" #include "db/dbformat.h" #include "db/version_edit.h" #include "port/stack_trace.h" #include "rocksdb/comparator.h" #include "util/testharness.h" #include "util/testutil.h" namespace rocksdb { class IntComparator : public Comparator { public: int Compare(const Slice& a, const Slice& b) const override { assert(a.size() == 8); assert(b.size() == 8); int64_t diff = *reinterpret_cast(a.data()) - *reinterpret_cast(b.data()); if (diff < 0) { return -1; } else if (diff == 0) { return 0; } else { return 1; } } const char* Name() const override { return "IntComparator"; } void FindShortestSeparator(std::string* /*start*/, const Slice& /*limit*/) const override {} void FindShortSuccessor(std::string* /*key*/) const override {} }; class FileIndexerTest : public testing::Test { public: FileIndexerTest() : kNumLevels(4), files(new std::vector[kNumLevels]) {} ~FileIndexerTest() { ClearFiles(); delete[] files; } void AddFile(int level, int64_t smallest, int64_t largest) { auto* f = new FileMetaData(); f->smallest = IntKey(smallest); f->largest = IntKey(largest); files[level].push_back(f); } InternalKey IntKey(int64_t v) { return InternalKey(Slice(reinterpret_cast(&v), 8), 0, kTypeValue); } void ClearFiles() { for (uint32_t i = 0; i < kNumLevels; ++i) { for (auto* f : files[i]) { delete f; } files[i].clear(); } } void GetNextLevelIndex(const uint32_t level, const uint32_t file_index, const int cmp_smallest, const int cmp_largest, int32_t* left_index, int32_t* right_index) { *left_index = 100; *right_index = 100; indexer->GetNextLevelIndex(level, file_index, cmp_smallest, cmp_largest, left_index, right_index); } int32_t left = 100; int32_t right = 100; const uint32_t kNumLevels; IntComparator ucmp; FileIndexer* indexer; std::vector* files; }; // Case 0: Empty TEST_F(FileIndexerTest, Empty) { Arena arena; indexer = new FileIndexer(&ucmp); indexer->UpdateIndex(&arena, 0, files); delete indexer; } // Case 1: no overlap, files are on the left of next level files TEST_F(FileIndexerTest, no_overlap_left) { Arena arena; indexer = new FileIndexer(&ucmp); // level 1 AddFile(1, 100, 200); AddFile(1, 300, 400); AddFile(1, 500, 600); // level 2 AddFile(2, 1500, 1600); AddFile(2, 1601, 1699); AddFile(2, 1700, 1800); // level 3 AddFile(3, 2500, 2600); AddFile(3, 2601, 2699); AddFile(3, 2700, 2800); indexer->UpdateIndex(&arena, kNumLevels, files); for (uint32_t level = 1; level < 3; ++level) { for (uint32_t f = 0; f < 3; ++f) { GetNextLevelIndex(level, f, -1, -1, &left, &right); ASSERT_EQ(0, left); ASSERT_EQ(-1, right); GetNextLevelIndex(level, f, 0, -1, &left, &right); ASSERT_EQ(0, left); ASSERT_EQ(-1, right); GetNextLevelIndex(level, f, 1, -1, &left, &right); ASSERT_EQ(0, left); ASSERT_EQ(-1, right); GetNextLevelIndex(level, f, 1, 0, &left, &right); ASSERT_EQ(0, left); ASSERT_EQ(-1, right); GetNextLevelIndex(level, f, 1, 1, &left, &right); ASSERT_EQ(0, left); ASSERT_EQ(2, right); } } delete indexer; ClearFiles(); } // Case 2: no overlap, files are on the right of next level files TEST_F(FileIndexerTest, no_overlap_right) { Arena arena; indexer = new FileIndexer(&ucmp); // level 1 AddFile(1, 2100, 2200); AddFile(1, 2300, 2400); AddFile(1, 2500, 2600); // level 2 AddFile(2, 1500, 1600); AddFile(2, 1501, 1699); AddFile(2, 1700, 1800); // level 3 AddFile(3, 500, 600); AddFile(3, 501, 699); AddFile(3, 700, 800); indexer->UpdateIndex(&arena, kNumLevels, files); for (uint32_t level = 1; level < 3; ++level) { for (uint32_t f = 0; f < 3; ++f) { GetNextLevelIndex(level, f, -1, -1, &left, &right); ASSERT_EQ(f == 0 ? 0 : 3, left); ASSERT_EQ(2, right); GetNextLevelIndex(level, f, 0, -1, &left, &right); ASSERT_EQ(3, left); ASSERT_EQ(2, right); GetNextLevelIndex(level, f, 1, -1, &left, &right); ASSERT_EQ(3, left); ASSERT_EQ(2, right); GetNextLevelIndex(level, f, 1, -1, &left, &right); ASSERT_EQ(3, left); ASSERT_EQ(2, right); GetNextLevelIndex(level, f, 1, 0, &left, &right); ASSERT_EQ(3, left); ASSERT_EQ(2, right); GetNextLevelIndex(level, f, 1, 1, &left, &right); ASSERT_EQ(3, left); ASSERT_EQ(2, right); } } delete indexer; } // Case 3: empty L2 TEST_F(FileIndexerTest, empty_L2) { Arena arena; indexer = new FileIndexer(&ucmp); for (uint32_t i = 1; i < kNumLevels; ++i) { ASSERT_EQ(0U, indexer->LevelIndexSize(i)); } // level 1 AddFile(1, 2100, 2200); AddFile(1, 2300, 2400); AddFile(1, 2500, 2600); // level 3 AddFile(3, 500, 600); AddFile(3, 501, 699); AddFile(3, 700, 800); indexer->UpdateIndex(&arena, kNumLevels, files); for (uint32_t f = 0; f < 3; ++f) { GetNextLevelIndex(1, f, -1, -1, &left, &right); ASSERT_EQ(0, left); ASSERT_EQ(-1, right); GetNextLevelIndex(1, f, 0, -1, &left, &right); ASSERT_EQ(0, left); ASSERT_EQ(-1, right); GetNextLevelIndex(1, f, 1, -1, &left, &right); ASSERT_EQ(0, left); ASSERT_EQ(-1, right); GetNextLevelIndex(1, f, 1, -1, &left, &right); ASSERT_EQ(0, left); ASSERT_EQ(-1, right); GetNextLevelIndex(1, f, 1, 0, &left, &right); ASSERT_EQ(0, left); ASSERT_EQ(-1, right); GetNextLevelIndex(1, f, 1, 1, &left, &right); ASSERT_EQ(0, left); ASSERT_EQ(-1, right); } delete indexer; ClearFiles(); } // Case 4: mixed TEST_F(FileIndexerTest, mixed) { Arena arena; indexer = new FileIndexer(&ucmp); // level 1 AddFile(1, 100, 200); AddFile(1, 250, 400); AddFile(1, 450, 500); // level 2 AddFile(2, 100, 150); // 0 AddFile(2, 200, 250); // 1 AddFile(2, 251, 300); // 2 AddFile(2, 301, 350); // 3 AddFile(2, 500, 600); // 4 // level 3 AddFile(3, 0, 50); AddFile(3, 100, 200); AddFile(3, 201, 250); indexer->UpdateIndex(&arena, kNumLevels, files); // level 1, 0 GetNextLevelIndex(1, 0, -1, -1, &left, &right); ASSERT_EQ(0, left); ASSERT_EQ(0, right); GetNextLevelIndex(1, 0, 0, -1, &left, &right); ASSERT_EQ(0, left); ASSERT_EQ(0, right); GetNextLevelIndex(1, 0, 1, -1, &left, &right); ASSERT_EQ(0, left); ASSERT_EQ(1, right); GetNextLevelIndex(1, 0, 1, 0, &left, &right); ASSERT_EQ(1, left); ASSERT_EQ(1, right); GetNextLevelIndex(1, 0, 1, 1, &left, &right); ASSERT_EQ(1, left); ASSERT_EQ(4, right); // level 1, 1 GetNextLevelIndex(1, 1, -1, -1, &left, &right); ASSERT_EQ(1, left); ASSERT_EQ(1, right); GetNextLevelIndex(1, 1, 0, -1, &left, &right); ASSERT_EQ(1, left); ASSERT_EQ(1, right); GetNextLevelIndex(1, 1, 1, -1, &left, &right); ASSERT_EQ(1, left); ASSERT_EQ(3, right); GetNextLevelIndex(1, 1, 1, 0, &left, &right); ASSERT_EQ(4, left); ASSERT_EQ(3, right); GetNextLevelIndex(1, 1, 1, 1, &left, &right); ASSERT_EQ(4, left); ASSERT_EQ(4, right); // level 1, 2 GetNextLevelIndex(1, 2, -1, -1, &left, &right); ASSERT_EQ(4, left); ASSERT_EQ(3, right); GetNextLevelIndex(1, 2, 0, -1, &left, &right); ASSERT_EQ(4, left); ASSERT_EQ(3, right); GetNextLevelIndex(1, 2, 1, -1, &left, &right); ASSERT_EQ(4, left); ASSERT_EQ(4, right); GetNextLevelIndex(1, 2, 1, 0, &left, &right); ASSERT_EQ(4, left); ASSERT_EQ(4, right); GetNextLevelIndex(1, 2, 1, 1, &left, &right); ASSERT_EQ(4, left); ASSERT_EQ(4, right); // level 2, 0 GetNextLevelIndex(2, 0, -1, -1, &left, &right); ASSERT_EQ(0, left); ASSERT_EQ(1, right); GetNextLevelIndex(2, 0, 0, -1, &left, &right); ASSERT_EQ(1, left); ASSERT_EQ(1, right); GetNextLevelIndex(2, 0, 1, -1, &left, &right); ASSERT_EQ(1, left); ASSERT_EQ(1, right); GetNextLevelIndex(2, 0, 1, 0, &left, &right); ASSERT_EQ(1, left); ASSERT_EQ(1, right); GetNextLevelIndex(2, 0, 1, 1, &left, &right); ASSERT_EQ(1, left); ASSERT_EQ(2, right); // level 2, 1 GetNextLevelIndex(2, 1, -1, -1, &left, &right); ASSERT_EQ(1, left); ASSERT_EQ(1, right); GetNextLevelIndex(2, 1, 0, -1, &left, &right); ASSERT_EQ(1, left); ASSERT_EQ(1, right); GetNextLevelIndex(2, 1, 1, -1, &left, &right); ASSERT_EQ(1, left); ASSERT_EQ(2, right); GetNextLevelIndex(2, 1, 1, 0, &left, &right); ASSERT_EQ(2, left); ASSERT_EQ(2, right); GetNextLevelIndex(2, 1, 1, 1, &left, &right); ASSERT_EQ(2, left); ASSERT_EQ(2, right); // level 2, [2 - 4], no overlap for (uint32_t f = 2; f <= 4; ++f) { GetNextLevelIndex(2, f, -1, -1, &left, &right); ASSERT_EQ(f == 2 ? 2 : 3, left); ASSERT_EQ(2, right); GetNextLevelIndex(2, f, 0, -1, &left, &right); ASSERT_EQ(3, left); ASSERT_EQ(2, right); GetNextLevelIndex(2, f, 1, -1, &left, &right); ASSERT_EQ(3, left); ASSERT_EQ(2, right); GetNextLevelIndex(2, f, 1, 0, &left, &right); ASSERT_EQ(3, left); ASSERT_EQ(2, right); GetNextLevelIndex(2, f, 1, 1, &left, &right); ASSERT_EQ(3, left); ASSERT_EQ(2, right); } delete indexer; ClearFiles(); } } // namespace rocksdb int main(int argc, char** argv) { rocksdb::port::InstallStackTraceHandler(); ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/db/filename_test.cc000066400000000000000000000132001337235545400167570ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "util/filename.h" #include "db/dbformat.h" #include "port/port.h" #include "util/logging.h" #include "util/testharness.h" namespace rocksdb { class FileNameTest : public testing::Test {}; TEST_F(FileNameTest, Parse) { Slice db; FileType type; uint64_t number; char kDefautInfoLogDir = 1; char kDifferentInfoLogDir = 2; char kNoCheckLogDir = 4; char kAllMode = kDefautInfoLogDir | kDifferentInfoLogDir | kNoCheckLogDir; // Successful parses static struct { const char* fname; uint64_t number; FileType type; char mode; } cases[] = { {"100.log", 100, kLogFile, kAllMode}, {"0.log", 0, kLogFile, kAllMode}, {"0.sst", 0, kTableFile, kAllMode}, {"CURRENT", 0, kCurrentFile, kAllMode}, {"LOCK", 0, kDBLockFile, kAllMode}, {"MANIFEST-2", 2, kDescriptorFile, kAllMode}, {"MANIFEST-7", 7, kDescriptorFile, kAllMode}, {"METADB-2", 2, kMetaDatabase, kAllMode}, {"METADB-7", 7, kMetaDatabase, kAllMode}, {"LOG", 0, kInfoLogFile, kDefautInfoLogDir}, {"LOG.old", 0, kInfoLogFile, kDefautInfoLogDir}, {"LOG.old.6688", 6688, kInfoLogFile, kDefautInfoLogDir}, {"rocksdb_dir_LOG", 0, kInfoLogFile, kDifferentInfoLogDir}, {"rocksdb_dir_LOG.old", 0, kInfoLogFile, kDifferentInfoLogDir}, {"rocksdb_dir_LOG.old.6688", 6688, kInfoLogFile, kDifferentInfoLogDir}, {"18446744073709551615.log", 18446744073709551615ull, kLogFile, kAllMode}, }; for (char mode : {kDifferentInfoLogDir, kDefautInfoLogDir, kNoCheckLogDir}) { for (unsigned int i = 0; i < sizeof(cases) / sizeof(cases[0]); i++) { InfoLogPrefix info_log_prefix(mode != kDefautInfoLogDir, "/rocksdb/dir"); if (cases[i].mode & mode) { std::string f = cases[i].fname; if (mode == kNoCheckLogDir) { ASSERT_TRUE(ParseFileName(f, &number, &type)) << f; } else { ASSERT_TRUE(ParseFileName(f, &number, info_log_prefix.prefix, &type)) << f; } ASSERT_EQ(cases[i].type, type) << f; ASSERT_EQ(cases[i].number, number) << f; } } } // Errors static const char* errors[] = { "", "foo", "foo-dx-100.log", ".log", "", "manifest", "CURREN", "CURRENTX", "MANIFES", "MANIFEST", "MANIFEST-", "XMANIFEST-3", "MANIFEST-3x", "META", "METADB", "METADB-", "XMETADB-3", "METADB-3x", "LOC", "LOCKx", "LO", "LOGx", "18446744073709551616.log", "184467440737095516150.log", "100", "100.", "100.lop" }; for (unsigned int i = 0; i < sizeof(errors) / sizeof(errors[0]); i++) { std::string f = errors[i]; ASSERT_TRUE(!ParseFileName(f, &number, &type)) << f; }; } TEST_F(FileNameTest, InfoLogFileName) { std::string dbname = ("/data/rocksdb"); std::string db_absolute_path; Env::Default()->GetAbsolutePath(dbname, &db_absolute_path); ASSERT_EQ("/data/rocksdb/LOG", InfoLogFileName(dbname, db_absolute_path, "")); ASSERT_EQ("/data/rocksdb/LOG.old.666", OldInfoLogFileName(dbname, 666u, db_absolute_path, "")); ASSERT_EQ("/data/rocksdb_log/data_rocksdb_LOG", InfoLogFileName(dbname, db_absolute_path, "/data/rocksdb_log")); ASSERT_EQ( "/data/rocksdb_log/data_rocksdb_LOG.old.666", OldInfoLogFileName(dbname, 666u, db_absolute_path, "/data/rocksdb_log")); } TEST_F(FileNameTest, Construction) { uint64_t number; FileType type; std::string fname; fname = CurrentFileName("foo"); ASSERT_EQ("foo/", std::string(fname.data(), 4)); ASSERT_TRUE(ParseFileName(fname.c_str() + 4, &number, &type)); ASSERT_EQ(0U, number); ASSERT_EQ(kCurrentFile, type); fname = LockFileName("foo"); ASSERT_EQ("foo/", std::string(fname.data(), 4)); ASSERT_TRUE(ParseFileName(fname.c_str() + 4, &number, &type)); ASSERT_EQ(0U, number); ASSERT_EQ(kDBLockFile, type); fname = LogFileName("foo", 192); ASSERT_EQ("foo/", std::string(fname.data(), 4)); ASSERT_TRUE(ParseFileName(fname.c_str() + 4, &number, &type)); ASSERT_EQ(192U, number); ASSERT_EQ(kLogFile, type); fname = TableFileName({DbPath("bar", 0)}, 200, 0); std::string fname1 = TableFileName({DbPath("foo", 0), DbPath("bar", 0)}, 200, 1); ASSERT_EQ(fname, fname1); ASSERT_EQ("bar/", std::string(fname.data(), 4)); ASSERT_TRUE(ParseFileName(fname.c_str() + 4, &number, &type)); ASSERT_EQ(200U, number); ASSERT_EQ(kTableFile, type); fname = DescriptorFileName("bar", 100); ASSERT_EQ("bar/", std::string(fname.data(), 4)); ASSERT_TRUE(ParseFileName(fname.c_str() + 4, &number, &type)); ASSERT_EQ(100U, number); ASSERT_EQ(kDescriptorFile, type); fname = TempFileName("tmp", 999); ASSERT_EQ("tmp/", std::string(fname.data(), 4)); ASSERT_TRUE(ParseFileName(fname.c_str() + 4, &number, &type)); ASSERT_EQ(999U, number); ASSERT_EQ(kTempFile, type); fname = MetaDatabaseName("met", 100); ASSERT_EQ("met/", std::string(fname.data(), 4)); ASSERT_TRUE(ParseFileName(fname.c_str() + 4, &number, &type)); ASSERT_EQ(100U, number); ASSERT_EQ(kMetaDatabase, type); } } // namespace rocksdb int main(int argc, char** argv) { ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/db/flush_job.cc000066400000000000000000000354331337235545400161270ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "db/flush_job.h" #ifndef __STDC_FORMAT_MACROS #define __STDC_FORMAT_MACROS #endif #include #include #include #include "db/builder.h" #include "db/db_iter.h" #include "db/dbformat.h" #include "db/event_helpers.h" #include "db/log_reader.h" #include "db/log_writer.h" #include "db/memtable_list.h" #include "db/merge_context.h" #include "db/version_set.h" #include "monitoring/iostats_context_imp.h" #include "monitoring/perf_context_imp.h" #include "monitoring/thread_status_util.h" #include "port/port.h" #include "db/memtable.h" #include "rocksdb/db.h" #include "rocksdb/env.h" #include "rocksdb/statistics.h" #include "rocksdb/status.h" #include "rocksdb/table.h" #include "table/block.h" #include "table/block_based_table_factory.h" #include "table/merging_iterator.h" #include "table/table_builder.h" #include "table/two_level_iterator.h" #include "util/coding.h" #include "util/event_logger.h" #include "util/file_util.h" #include "util/filename.h" #include "util/log_buffer.h" #include "util/logging.h" #include "util/mutexlock.h" #include "util/stop_watch.h" #include "util/sync_point.h" namespace rocksdb { const char* GetFlushReasonString (FlushReason flush_reason) { switch (flush_reason) { case FlushReason::kOthers: return "Other Reasons"; case FlushReason::kGetLiveFiles: return "Get Live Files"; case FlushReason::kShutDown: return "Shut down"; case FlushReason::kExternalFileIngestion: return "External File Ingestion"; case FlushReason::kManualCompaction: return "Manual Compaction"; case FlushReason::kWriteBufferManager: return "Write Buffer Manager"; case FlushReason::kWriteBufferFull: return "Write Buffer Full"; case FlushReason::kTest: return "Test"; case FlushReason::kDeleteFiles: return "Delete Files"; case FlushReason::kAutoCompaction: return "Auto Compaction"; case FlushReason::kManualFlush: return "Manual Flush"; case FlushReason::kErrorRecovery: return "Error Recovery"; default: return "Invalid"; } } FlushJob::FlushJob(const std::string& dbname, ColumnFamilyData* cfd, const ImmutableDBOptions& db_options, const MutableCFOptions& mutable_cf_options, const EnvOptions env_options, VersionSet* versions, InstrumentedMutex* db_mutex, std::atomic* shutting_down, std::vector existing_snapshots, SequenceNumber earliest_write_conflict_snapshot, SnapshotChecker* snapshot_checker, JobContext* job_context, LogBuffer* log_buffer, Directory* db_directory, Directory* output_file_directory, CompressionType output_compression, Statistics* stats, EventLogger* event_logger, bool measure_io_stats) : dbname_(dbname), cfd_(cfd), db_options_(db_options), mutable_cf_options_(mutable_cf_options), env_options_(env_options), versions_(versions), db_mutex_(db_mutex), shutting_down_(shutting_down), existing_snapshots_(std::move(existing_snapshots)), earliest_write_conflict_snapshot_(earliest_write_conflict_snapshot), snapshot_checker_(snapshot_checker), job_context_(job_context), log_buffer_(log_buffer), db_directory_(db_directory), output_file_directory_(output_file_directory), output_compression_(output_compression), stats_(stats), event_logger_(event_logger), measure_io_stats_(measure_io_stats), edit_(nullptr), base_(nullptr), pick_memtable_called(false) { // Update the thread status to indicate flush. ReportStartedFlush(); TEST_SYNC_POINT("FlushJob::FlushJob()"); } FlushJob::~FlushJob() { ThreadStatusUtil::ResetThreadStatus(); } void FlushJob::ReportStartedFlush() { ThreadStatusUtil::SetColumnFamily(cfd_, cfd_->ioptions()->env, db_options_.enable_thread_tracking); ThreadStatusUtil::SetThreadOperation(ThreadStatus::OP_FLUSH); ThreadStatusUtil::SetThreadOperationProperty( ThreadStatus::COMPACTION_JOB_ID, job_context_->job_id); IOSTATS_RESET(bytes_written); } void FlushJob::ReportFlushInputSize(const autovector& mems) { uint64_t input_size = 0; for (auto* mem : mems) { input_size += mem->ApproximateMemoryUsage(); } ThreadStatusUtil::IncreaseThreadOperationProperty( ThreadStatus::FLUSH_BYTES_MEMTABLES, input_size); } void FlushJob::RecordFlushIOStats() { RecordTick(stats_, FLUSH_WRITE_BYTES, IOSTATS(bytes_written)); ThreadStatusUtil::IncreaseThreadOperationProperty( ThreadStatus::FLUSH_BYTES_WRITTEN, IOSTATS(bytes_written)); IOSTATS_RESET(bytes_written); } void FlushJob::PickMemTable() { db_mutex_->AssertHeld(); assert(!pick_memtable_called); pick_memtable_called = true; // Save the contents of the earliest memtable as a new Table cfd_->imm()->PickMemtablesToFlush(&mems_); if (mems_.empty()) { return; } ReportFlushInputSize(mems_); // entries mems are (implicitly) sorted in ascending order by their created // time. We will use the first memtable's `edit` to keep the meta info for // this flush. MemTable* m = mems_[0]; edit_ = m->GetEdits(); edit_->SetPrevLogNumber(0); // SetLogNumber(log_num) indicates logs with number smaller than log_num // will no longer be picked up for recovery. edit_->SetLogNumber(mems_.back()->GetNextLogNumber()); edit_->SetColumnFamily(cfd_->GetID()); // path 0 for level 0 file. meta_.fd = FileDescriptor(versions_->NewFileNumber(), 0, 0); base_ = cfd_->current(); base_->Ref(); // it is likely that we do not need this reference } Status FlushJob::Run(LogsWithPrepTracker* prep_tracker, FileMetaData* file_meta) { TEST_SYNC_POINT("FlushJob::Start"); db_mutex_->AssertHeld(); assert(pick_memtable_called); AutoThreadOperationStageUpdater stage_run( ThreadStatus::STAGE_FLUSH_RUN); if (mems_.empty()) { ROCKS_LOG_BUFFER(log_buffer_, "[%s] Nothing in memtable to flush", cfd_->GetName().c_str()); return Status::OK(); } // I/O measurement variables PerfLevel prev_perf_level = PerfLevel::kEnableTime; uint64_t prev_write_nanos = 0; uint64_t prev_fsync_nanos = 0; uint64_t prev_range_sync_nanos = 0; uint64_t prev_prepare_write_nanos = 0; if (measure_io_stats_) { prev_perf_level = GetPerfLevel(); SetPerfLevel(PerfLevel::kEnableTime); prev_write_nanos = IOSTATS(write_nanos); prev_fsync_nanos = IOSTATS(fsync_nanos); prev_range_sync_nanos = IOSTATS(range_sync_nanos); prev_prepare_write_nanos = IOSTATS(prepare_write_nanos); } // This will release and re-acquire the mutex. Status s = WriteLevel0Table(); if (s.ok() && (shutting_down_->load(std::memory_order_acquire) || cfd_->IsDropped())) { s = Status::ShutdownInProgress( "Database shutdown or Column family drop during flush"); } if (!s.ok()) { cfd_->imm()->RollbackMemtableFlush(mems_, meta_.fd.GetNumber()); } else { TEST_SYNC_POINT("FlushJob::InstallResults"); // Replace immutable memtable with the generated Table s = cfd_->imm()->InstallMemtableFlushResults( cfd_, mutable_cf_options_, mems_, prep_tracker, versions_, db_mutex_, meta_.fd.GetNumber(), &job_context_->memtables_to_free, db_directory_, log_buffer_); } if (s.ok() && file_meta != nullptr) { *file_meta = meta_; } RecordFlushIOStats(); auto stream = event_logger_->LogToBuffer(log_buffer_); stream << "job" << job_context_->job_id << "event" << "flush_finished"; stream << "output_compression" << CompressionTypeToString(output_compression_); stream << "lsm_state"; stream.StartArray(); auto vstorage = cfd_->current()->storage_info(); for (int level = 0; level < vstorage->num_levels(); ++level) { stream << vstorage->NumLevelFiles(level); } stream.EndArray(); stream << "immutable_memtables" << cfd_->imm()->NumNotFlushed(); if (measure_io_stats_) { if (prev_perf_level != PerfLevel::kEnableTime) { SetPerfLevel(prev_perf_level); } stream << "file_write_nanos" << (IOSTATS(write_nanos) - prev_write_nanos); stream << "file_range_sync_nanos" << (IOSTATS(range_sync_nanos) - prev_range_sync_nanos); stream << "file_fsync_nanos" << (IOSTATS(fsync_nanos) - prev_fsync_nanos); stream << "file_prepare_write_nanos" << (IOSTATS(prepare_write_nanos) - prev_prepare_write_nanos); } return s; } void FlushJob::Cancel() { db_mutex_->AssertHeld(); assert(base_ != nullptr); base_->Unref(); } Status FlushJob::WriteLevel0Table() { AutoThreadOperationStageUpdater stage_updater( ThreadStatus::STAGE_FLUSH_WRITE_L0); db_mutex_->AssertHeld(); const uint64_t start_micros = db_options_.env->NowMicros(); Status s; { auto write_hint = cfd_->CalculateSSTWriteHint(0); db_mutex_->Unlock(); if (log_buffer_) { log_buffer_->FlushBufferToLog(); } // memtables and range_del_iters store internal iterators over each data // memtable and its associated range deletion memtable, respectively, at // corresponding indexes. std::vector memtables; std::vector range_del_iters; ReadOptions ro; ro.total_order_seek = true; Arena arena; uint64_t total_num_entries = 0, total_num_deletes = 0; size_t total_memory_usage = 0; for (MemTable* m : mems_) { ROCKS_LOG_INFO( db_options_.info_log, "[%s] [JOB %d] Flushing memtable with next log file: %" PRIu64 "\n", cfd_->GetName().c_str(), job_context_->job_id, m->GetNextLogNumber()); memtables.push_back(m->NewIterator(ro, &arena)); auto* range_del_iter = m->NewRangeTombstoneIterator(ro); if (range_del_iter != nullptr) { range_del_iters.push_back(range_del_iter); } total_num_entries += m->num_entries(); total_num_deletes += m->num_deletes(); total_memory_usage += m->ApproximateMemoryUsage(); } event_logger_->Log() << "job" << job_context_->job_id << "event" << "flush_started" << "num_memtables" << mems_.size() << "num_entries" << total_num_entries << "num_deletes" << total_num_deletes << "memory_usage" << total_memory_usage << "flush_reason" << GetFlushReasonString(cfd_->GetFlushReason()); { ScopedArenaIterator iter( NewMergingIterator(&cfd_->internal_comparator(), &memtables[0], static_cast(memtables.size()), &arena)); std::unique_ptr range_del_iter(NewMergingIterator( &cfd_->internal_comparator(), range_del_iters.empty() ? nullptr : &range_del_iters[0], static_cast(range_del_iters.size()))); ROCKS_LOG_INFO(db_options_.info_log, "[%s] [JOB %d] Level-0 flush table #%" PRIu64 ": started", cfd_->GetName().c_str(), job_context_->job_id, meta_.fd.GetNumber()); TEST_SYNC_POINT_CALLBACK("FlushJob::WriteLevel0Table:output_compression", &output_compression_); int64_t _current_time = 0; auto status = db_options_.env->GetCurrentTime(&_current_time); // Safe to proceed even if GetCurrentTime fails. So, log and proceed. if (!status.ok()) { ROCKS_LOG_WARN( db_options_.info_log, "Failed to get current time to populate creation_time property. " "Status: %s", status.ToString().c_str()); } const uint64_t current_time = static_cast(_current_time); uint64_t oldest_key_time = mems_.front()->ApproximateOldestKeyTime(); s = BuildTable( dbname_, db_options_.env, *cfd_->ioptions(), mutable_cf_options_, env_options_, cfd_->table_cache(), iter.get(), std::move(range_del_iter), &meta_, cfd_->internal_comparator(), cfd_->int_tbl_prop_collector_factories(), cfd_->GetID(), cfd_->GetName(), existing_snapshots_, earliest_write_conflict_snapshot_, snapshot_checker_, output_compression_, cfd_->ioptions()->compression_opts, mutable_cf_options_.paranoid_file_checks, cfd_->internal_stats(), TableFileCreationReason::kFlush, event_logger_, job_context_->job_id, Env::IO_HIGH, &table_properties_, 0 /* level */, current_time, oldest_key_time, write_hint); LogFlush(db_options_.info_log); } ROCKS_LOG_INFO(db_options_.info_log, "[%s] [JOB %d] Level-0 flush table #%" PRIu64 ": %" PRIu64 " bytes %s" "%s", cfd_->GetName().c_str(), job_context_->job_id, meta_.fd.GetNumber(), meta_.fd.GetFileSize(), s.ToString().c_str(), meta_.marked_for_compaction ? " (needs compaction)" : ""); if (s.ok() && output_file_directory_ != nullptr) { s = output_file_directory_->Fsync(); } TEST_SYNC_POINT("FlushJob::WriteLevel0Table"); db_mutex_->Lock(); } base_->Unref(); // Note that if file_size is zero, the file has been deleted and // should not be added to the manifest. if (s.ok() && meta_.fd.GetFileSize() > 0) { // if we have more than 1 background thread, then we cannot // insert files directly into higher levels because some other // threads could be concurrently producing compacted files for // that key range. // Add file to L0 edit_->AddFile(0 /* level */, meta_.fd.GetNumber(), meta_.fd.GetPathId(), meta_.fd.GetFileSize(), meta_.smallest, meta_.largest, meta_.fd.smallest_seqno, meta_.fd.largest_seqno, meta_.marked_for_compaction); } // Note that here we treat flush as level 0 compaction in internal stats InternalStats::CompactionStats stats(CompactionReason::kFlush, 1); stats.micros = db_options_.env->NowMicros() - start_micros; stats.bytes_written = meta_.fd.GetFileSize(); MeasureTime(stats_, FLUSH_TIME, stats.micros); cfd_->internal_stats()->AddCompactionStats(0 /* level */, stats); cfd_->internal_stats()->AddCFStats(InternalStats::BYTES_FLUSHED, meta_.fd.GetFileSize()); RecordFlushIOStats(); return s; } } // namespace rocksdb rocksdb-5.17.2/db/flush_job.h000066400000000000000000000073221337235545400157650ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #include #include #include #include #include #include #include #include "db/column_family.h" #include "db/dbformat.h" #include "db/flush_scheduler.h" #include "db/internal_stats.h" #include "db/job_context.h" #include "db/log_writer.h" #include "db/logs_with_prep_tracker.h" #include "db/memtable_list.h" #include "db/snapshot_impl.h" #include "db/version_edit.h" #include "db/write_controller.h" #include "db/write_thread.h" #include "monitoring/instrumented_mutex.h" #include "options/db_options.h" #include "port/port.h" #include "rocksdb/db.h" #include "rocksdb/env.h" #include "rocksdb/memtablerep.h" #include "rocksdb/transaction_log.h" #include "table/scoped_arena_iterator.h" #include "util/autovector.h" #include "util/event_logger.h" #include "util/stop_watch.h" #include "util/thread_local.h" namespace rocksdb { class DBImpl; class MemTable; class SnapshotChecker; class TableCache; class Version; class VersionEdit; class VersionSet; class Arena; class FlushJob { public: // TODO(icanadi) make effort to reduce number of parameters here // IMPORTANT: mutable_cf_options needs to be alive while FlushJob is alive FlushJob(const std::string& dbname, ColumnFamilyData* cfd, const ImmutableDBOptions& db_options, const MutableCFOptions& mutable_cf_options, const EnvOptions env_options, VersionSet* versions, InstrumentedMutex* db_mutex, std::atomic* shutting_down, std::vector existing_snapshots, SequenceNumber earliest_write_conflict_snapshot, SnapshotChecker* snapshot_checker, JobContext* job_context, LogBuffer* log_buffer, Directory* db_directory, Directory* output_file_directory, CompressionType output_compression, Statistics* stats, EventLogger* event_logger, bool measure_io_stats); ~FlushJob(); // Require db_mutex held. // Once PickMemTable() is called, either Run() or Cancel() has to be called. void PickMemTable(); Status Run(LogsWithPrepTracker* prep_tracker = nullptr, FileMetaData* file_meta = nullptr); void Cancel(); TableProperties GetTableProperties() const { return table_properties_; } private: void ReportStartedFlush(); void ReportFlushInputSize(const autovector& mems); void RecordFlushIOStats(); Status WriteLevel0Table(); const std::string& dbname_; ColumnFamilyData* cfd_; const ImmutableDBOptions& db_options_; const MutableCFOptions& mutable_cf_options_; const EnvOptions env_options_; VersionSet* versions_; InstrumentedMutex* db_mutex_; std::atomic* shutting_down_; std::vector existing_snapshots_; SequenceNumber earliest_write_conflict_snapshot_; SnapshotChecker* snapshot_checker_; JobContext* job_context_; LogBuffer* log_buffer_; Directory* db_directory_; Directory* output_file_directory_; CompressionType output_compression_; Statistics* stats_; EventLogger* event_logger_; TableProperties table_properties_; bool measure_io_stats_; // Variables below are set by PickMemTable(): FileMetaData meta_; autovector mems_; VersionEdit* edit_; Version* base_; bool pick_memtable_called; }; } // namespace rocksdb rocksdb-5.17.2/db/flush_job_test.cc000066400000000000000000000212641337235545400171630ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include #include #include #include "db/column_family.h" #include "db/flush_job.h" #include "db/version_set.h" #include "rocksdb/cache.h" #include "rocksdb/write_buffer_manager.h" #include "table/mock_table.h" #include "util/file_reader_writer.h" #include "util/string_util.h" #include "util/testharness.h" #include "util/testutil.h" namespace rocksdb { // TODO(icanadi) Mock out everything else: // 1. VersionSet // 2. Memtable class FlushJobTest : public testing::Test { public: FlushJobTest() : env_(Env::Default()), dbname_(test::PerThreadDBPath("flush_job_test")), options_(), db_options_(options_), table_cache_(NewLRUCache(50000, 16)), write_buffer_manager_(db_options_.db_write_buffer_size), versions_(new VersionSet(dbname_, &db_options_, env_options_, table_cache_.get(), &write_buffer_manager_, &write_controller_)), shutting_down_(false), mock_table_factory_(new mock::MockTableFactory()) { EXPECT_OK(env_->CreateDirIfMissing(dbname_)); db_options_.db_paths.emplace_back(dbname_, std::numeric_limits::max()); db_options_.statistics = rocksdb::CreateDBStatistics(); // TODO(icanadi) Remove this once we mock out VersionSet NewDB(); std::vector column_families; cf_options_.table_factory = mock_table_factory_; column_families.emplace_back(kDefaultColumnFamilyName, cf_options_); EXPECT_OK(versions_->Recover(column_families, false)); } void NewDB() { VersionEdit new_db; new_db.SetLogNumber(0); new_db.SetNextFile(2); new_db.SetLastSequence(0); const std::string manifest = DescriptorFileName(dbname_, 1); unique_ptr file; Status s = env_->NewWritableFile( manifest, &file, env_->OptimizeForManifestWrite(env_options_)); ASSERT_OK(s); unique_ptr file_writer( new WritableFileWriter(std::move(file), manifest, EnvOptions())); { log::Writer log(std::move(file_writer), 0, false); std::string record; new_db.EncodeTo(&record); s = log.AddRecord(record); } ASSERT_OK(s); // Make "CURRENT" file that points to the new manifest file. s = SetCurrentFile(env_, dbname_, 1, nullptr); } Env* env_; std::string dbname_; EnvOptions env_options_; Options options_; ImmutableDBOptions db_options_; std::shared_ptr table_cache_; WriteController write_controller_; WriteBufferManager write_buffer_manager_; ColumnFamilyOptions cf_options_; std::unique_ptr versions_; InstrumentedMutex mutex_; std::atomic shutting_down_; std::shared_ptr mock_table_factory_; }; TEST_F(FlushJobTest, Empty) { JobContext job_context(0); auto cfd = versions_->GetColumnFamilySet()->GetDefault(); EventLogger event_logger(db_options_.info_log.get()); SnapshotChecker* snapshot_checker = nullptr; // not relavant FlushJob flush_job( dbname_, versions_->GetColumnFamilySet()->GetDefault(), db_options_, *cfd->GetLatestMutableCFOptions(), env_options_, versions_.get(), &mutex_, &shutting_down_, {}, kMaxSequenceNumber, snapshot_checker, &job_context, nullptr, nullptr, nullptr, kNoCompression, nullptr, &event_logger, false); { InstrumentedMutexLock l(&mutex_); flush_job.PickMemTable(); ASSERT_OK(flush_job.Run()); } job_context.Clean(); } TEST_F(FlushJobTest, NonEmpty) { JobContext job_context(0); auto cfd = versions_->GetColumnFamilySet()->GetDefault(); auto new_mem = cfd->ConstructNewMemtable(*cfd->GetLatestMutableCFOptions(), kMaxSequenceNumber); new_mem->Ref(); auto inserted_keys = mock::MakeMockFile(); // Test data: // seqno [ 1, 2 ... 8998, 8999, 9000, 9001, 9002 ... 9999 ] // key [ 1001, 1002 ... 9998, 9999, 0, 1, 2 ... 999 ] // range-delete "9995" -> "9999" at seqno 10000 for (int i = 1; i < 10000; ++i) { std::string key(ToString((i + 1000) % 10000)); std::string value("value" + key); new_mem->Add(SequenceNumber(i), kTypeValue, key, value); if ((i + 1000) % 10000 < 9995) { InternalKey internal_key(key, SequenceNumber(i), kTypeValue); inserted_keys.insert({internal_key.Encode().ToString(), value}); } } new_mem->Add(SequenceNumber(10000), kTypeRangeDeletion, "9995", "9999a"); InternalKey internal_key("9995", SequenceNumber(10000), kTypeRangeDeletion); inserted_keys.insert({internal_key.Encode().ToString(), "9999a"}); autovector to_delete; cfd->imm()->Add(new_mem, &to_delete); for (auto& m : to_delete) { delete m; } EventLogger event_logger(db_options_.info_log.get()); SnapshotChecker* snapshot_checker = nullptr; // not relavant FlushJob flush_job(dbname_, versions_->GetColumnFamilySet()->GetDefault(), db_options_, *cfd->GetLatestMutableCFOptions(), env_options_, versions_.get(), &mutex_, &shutting_down_, {}, kMaxSequenceNumber, snapshot_checker, &job_context, nullptr, nullptr, nullptr, kNoCompression, db_options_.statistics.get(), &event_logger, true); HistogramData hist; FileMetaData file_meta; mutex_.Lock(); flush_job.PickMemTable(); ASSERT_OK(flush_job.Run(nullptr, &file_meta)); mutex_.Unlock(); db_options_.statistics->histogramData(FLUSH_TIME, &hist); ASSERT_GT(hist.average, 0.0); ASSERT_EQ(ToString(0), file_meta.smallest.user_key().ToString()); ASSERT_EQ( "9999a", file_meta.largest.user_key().ToString()); // range tombstone end key ASSERT_EQ(1, file_meta.fd.smallest_seqno); ASSERT_EQ(10000, file_meta.fd.largest_seqno); // range tombstone seqnum 10000 mock_table_factory_->AssertSingleFile(inserted_keys); job_context.Clean(); } TEST_F(FlushJobTest, Snapshots) { JobContext job_context(0); auto cfd = versions_->GetColumnFamilySet()->GetDefault(); auto new_mem = cfd->ConstructNewMemtable(*cfd->GetLatestMutableCFOptions(), kMaxSequenceNumber); std::vector snapshots; std::set snapshots_set; int keys = 10000; int max_inserts_per_keys = 8; Random rnd(301); for (int i = 0; i < keys / 2; ++i) { snapshots.push_back(rnd.Uniform(keys * (max_inserts_per_keys / 2)) + 1); snapshots_set.insert(snapshots.back()); } std::sort(snapshots.begin(), snapshots.end()); new_mem->Ref(); SequenceNumber current_seqno = 0; auto inserted_keys = mock::MakeMockFile(); for (int i = 1; i < keys; ++i) { std::string key(ToString(i)); int insertions = rnd.Uniform(max_inserts_per_keys); for (int j = 0; j < insertions; ++j) { std::string value(test::RandomHumanReadableString(&rnd, 10)); auto seqno = ++current_seqno; new_mem->Add(SequenceNumber(seqno), kTypeValue, key, value); // a key is visible only if: // 1. it's the last one written (j == insertions - 1) // 2. there's a snapshot pointing at it bool visible = (j == insertions - 1) || (snapshots_set.find(seqno) != snapshots_set.end()); if (visible) { InternalKey internal_key(key, seqno, kTypeValue); inserted_keys.insert({internal_key.Encode().ToString(), value}); } } } autovector to_delete; cfd->imm()->Add(new_mem, &to_delete); for (auto& m : to_delete) { delete m; } EventLogger event_logger(db_options_.info_log.get()); SnapshotChecker* snapshot_checker = nullptr; // not relavant FlushJob flush_job(dbname_, versions_->GetColumnFamilySet()->GetDefault(), db_options_, *cfd->GetLatestMutableCFOptions(), env_options_, versions_.get(), &mutex_, &shutting_down_, snapshots, kMaxSequenceNumber, snapshot_checker, &job_context, nullptr, nullptr, nullptr, kNoCompression, db_options_.statistics.get(), &event_logger, true); mutex_.Lock(); flush_job.PickMemTable(); ASSERT_OK(flush_job.Run()); mutex_.Unlock(); mock_table_factory_->AssertSingleFile(inserted_keys); HistogramData hist; db_options_.statistics->histogramData(FLUSH_TIME, &hist); ASSERT_GT(hist.average, 0.0); job_context.Clean(); } } // namespace rocksdb int main(int argc, char** argv) { ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/db/flush_scheduler.cc000066400000000000000000000045611337235545400173310ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include "db/flush_scheduler.h" #include #include "db/column_family.h" namespace rocksdb { void FlushScheduler::ScheduleFlush(ColumnFamilyData* cfd) { #ifndef NDEBUG std::lock_guard lock(checking_mutex_); assert(checking_set_.count(cfd) == 0); checking_set_.insert(cfd); #endif // NDEBUG cfd->Ref(); // Suppress false positive clang analyzer warnings. #ifndef __clang_analyzer__ Node* node = new Node{cfd, head_.load(std::memory_order_relaxed)}; while (!head_.compare_exchange_strong( node->next, node, std::memory_order_relaxed, std::memory_order_relaxed)) { // failing CAS updates the first param, so we are already set for // retry. TakeNextColumnFamily won't happen until after another // inter-thread synchronization, so we don't even need release // semantics for this CAS } #endif // __clang_analyzer__ } ColumnFamilyData* FlushScheduler::TakeNextColumnFamily() { #ifndef NDEBUG std::lock_guard lock(checking_mutex_); #endif // NDEBUG while (true) { if (head_.load(std::memory_order_relaxed) == nullptr) { return nullptr; } // dequeue the head Node* node = head_.load(std::memory_order_relaxed); head_.store(node->next, std::memory_order_relaxed); ColumnFamilyData* cfd = node->column_family; delete node; #ifndef NDEBUG auto iter = checking_set_.find(cfd); assert(iter != checking_set_.end()); checking_set_.erase(iter); #endif // NDEBUG if (!cfd->IsDropped()) { // success return cfd; } // no longer relevant, retry if (cfd->Unref()) { delete cfd; } } } bool FlushScheduler::Empty() { #ifndef NDEBUG std::lock_guard lock(checking_mutex_); #endif // NDEBUG auto rv = head_.load(std::memory_order_relaxed) == nullptr; #ifndef NDEBUG assert(rv == checking_set_.empty()); #endif // NDEBUG return rv; } void FlushScheduler::Clear() { ColumnFamilyData* cfd; while ((cfd = TakeNextColumnFamily()) != nullptr) { if (cfd->Unref()) { delete cfd; } } assert(head_.load(std::memory_order_relaxed) == nullptr); } } // namespace rocksdb rocksdb-5.17.2/db/flush_scheduler.h000066400000000000000000000023231337235545400171650ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #include #include #include #include namespace rocksdb { class ColumnFamilyData; // Unless otherwise noted, all methods on FlushScheduler should be called // only with the DB mutex held or from a single-threaded recovery context. class FlushScheduler { public: FlushScheduler() : head_(nullptr) {} // May be called from multiple threads at once, but not concurrent with // any other method calls on this instance void ScheduleFlush(ColumnFamilyData* cfd); // Removes and returns Ref()-ed column family. Client needs to Unref(). // Filters column families that have been dropped. ColumnFamilyData* TakeNextColumnFamily(); bool Empty(); void Clear(); private: struct Node { ColumnFamilyData* column_family; Node* next; }; std::atomic head_; #ifndef NDEBUG std::mutex checking_mutex_; std::set checking_set_; #endif // NDEBUG }; } // namespace rocksdb rocksdb-5.17.2/db/forward_iterator.cc000066400000000000000000000721541337235545400175320ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #ifndef ROCKSDB_LITE #include "db/forward_iterator.h" #include #include #include #include "db/column_family.h" #include "db/db_impl.h" #include "db/db_iter.h" #include "db/dbformat.h" #include "db/job_context.h" #include "rocksdb/env.h" #include "rocksdb/slice.h" #include "rocksdb/slice_transform.h" #include "table/merging_iterator.h" #include "util/string_util.h" #include "util/sync_point.h" namespace rocksdb { // Usage: // ForwardLevelIterator iter; // iter.SetFileIndex(file_index); // iter.Seek(target); // or iter.SeekToFirst(); // iter.Next() class ForwardLevelIterator : public InternalIterator { public: ForwardLevelIterator(const ColumnFamilyData* const cfd, const ReadOptions& read_options, const std::vector& files, const SliceTransform* prefix_extractor) : cfd_(cfd), read_options_(read_options), files_(files), valid_(false), file_index_(std::numeric_limits::max()), file_iter_(nullptr), pinned_iters_mgr_(nullptr), prefix_extractor_(prefix_extractor) {} ~ForwardLevelIterator() { // Reset current pointer if (pinned_iters_mgr_ && pinned_iters_mgr_->PinningEnabled()) { pinned_iters_mgr_->PinIterator(file_iter_); } else { delete file_iter_; } } void SetFileIndex(uint32_t file_index) { assert(file_index < files_.size()); status_ = Status::OK(); if (file_index != file_index_) { file_index_ = file_index; Reset(); } } void Reset() { assert(file_index_ < files_.size()); // Reset current pointer if (pinned_iters_mgr_ && pinned_iters_mgr_->PinningEnabled()) { pinned_iters_mgr_->PinIterator(file_iter_); } else { delete file_iter_; } RangeDelAggregator range_del_agg( cfd_->internal_comparator(), {} /* snapshots */); file_iter_ = cfd_->table_cache()->NewIterator( read_options_, *(cfd_->soptions()), cfd_->internal_comparator(), *files_[file_index_], read_options_.ignore_range_deletions ? nullptr : &range_del_agg, prefix_extractor_, nullptr /* table_reader_ptr */, nullptr, false); file_iter_->SetPinnedItersMgr(pinned_iters_mgr_); valid_ = false; if (!range_del_agg.IsEmpty()) { status_ = Status::NotSupported( "Range tombstones unsupported with ForwardIterator"); } } void SeekToLast() override { status_ = Status::NotSupported("ForwardLevelIterator::SeekToLast()"); valid_ = false; } void Prev() override { status_ = Status::NotSupported("ForwardLevelIterator::Prev()"); valid_ = false; } bool Valid() const override { return valid_; } void SeekToFirst() override { assert(file_iter_ != nullptr); if (!status_.ok()) { assert(!valid_); return; } file_iter_->SeekToFirst(); valid_ = file_iter_->Valid(); } void Seek(const Slice& internal_key) override { assert(file_iter_ != nullptr); // This deviates from the usual convention for InternalIterator::Seek() in // that it doesn't discard pre-existing error status. That's because this // Seek() is only supposed to be called immediately after SetFileIndex() // (which discards pre-existing error status), and SetFileIndex() may set // an error status, which we shouldn't discard. if (!status_.ok()) { assert(!valid_); return; } file_iter_->Seek(internal_key); valid_ = file_iter_->Valid(); } void SeekForPrev(const Slice& /*internal_key*/) override { status_ = Status::NotSupported("ForwardLevelIterator::SeekForPrev()"); valid_ = false; } void Next() override { assert(valid_); file_iter_->Next(); for (;;) { valid_ = file_iter_->Valid(); if (!file_iter_->status().ok()) { assert(!valid_); return; } if (valid_) { return; } if (file_index_ + 1 >= files_.size()) { valid_ = false; return; } SetFileIndex(file_index_ + 1); if (!status_.ok()) { assert(!valid_); return; } file_iter_->SeekToFirst(); } } Slice key() const override { assert(valid_); return file_iter_->key(); } Slice value() const override { assert(valid_); return file_iter_->value(); } Status status() const override { if (!status_.ok()) { return status_; } else if (file_iter_) { return file_iter_->status(); } return Status::OK(); } bool IsKeyPinned() const override { return pinned_iters_mgr_ && pinned_iters_mgr_->PinningEnabled() && file_iter_->IsKeyPinned(); } bool IsValuePinned() const override { return pinned_iters_mgr_ && pinned_iters_mgr_->PinningEnabled() && file_iter_->IsValuePinned(); } void SetPinnedItersMgr(PinnedIteratorsManager* pinned_iters_mgr) override { pinned_iters_mgr_ = pinned_iters_mgr; if (file_iter_) { file_iter_->SetPinnedItersMgr(pinned_iters_mgr_); } } private: const ColumnFamilyData* const cfd_; const ReadOptions& read_options_; const std::vector& files_; bool valid_; uint32_t file_index_; Status status_; InternalIterator* file_iter_; PinnedIteratorsManager* pinned_iters_mgr_; const SliceTransform* prefix_extractor_; }; ForwardIterator::ForwardIterator(DBImpl* db, const ReadOptions& read_options, ColumnFamilyData* cfd, SuperVersion* current_sv) : db_(db), read_options_(read_options), cfd_(cfd), prefix_extractor_(current_sv->mutable_cf_options.prefix_extractor.get()), user_comparator_(cfd->user_comparator()), immutable_min_heap_(MinIterComparator(&cfd_->internal_comparator())), sv_(current_sv), mutable_iter_(nullptr), current_(nullptr), valid_(false), status_(Status::OK()), immutable_status_(Status::OK()), has_iter_trimmed_for_upper_bound_(false), current_over_upper_bound_(false), is_prev_set_(false), is_prev_inclusive_(false), pinned_iters_mgr_(nullptr) { if (sv_) { RebuildIterators(false); } } ForwardIterator::~ForwardIterator() { Cleanup(true); } void ForwardIterator::SVCleanup(DBImpl* db, SuperVersion* sv, bool background_purge_on_iterator_cleanup) { if (sv->Unref()) { // Job id == 0 means that this is not our background process, but rather // user thread JobContext job_context(0); db->mutex_.Lock(); sv->Cleanup(); db->FindObsoleteFiles(&job_context, false, true); if (background_purge_on_iterator_cleanup) { db->ScheduleBgLogWriterClose(&job_context); } db->mutex_.Unlock(); delete sv; if (job_context.HaveSomethingToDelete()) { db->PurgeObsoleteFiles(job_context, background_purge_on_iterator_cleanup); } job_context.Clean(); } } namespace { struct SVCleanupParams { DBImpl* db; SuperVersion* sv; bool background_purge_on_iterator_cleanup; }; } // Used in PinnedIteratorsManager to release pinned SuperVersion void ForwardIterator::DeferredSVCleanup(void* arg) { auto d = reinterpret_cast(arg); ForwardIterator::SVCleanup( d->db, d->sv, d->background_purge_on_iterator_cleanup); delete d; } void ForwardIterator::SVCleanup() { if (sv_ == nullptr) { return; } if (pinned_iters_mgr_ && pinned_iters_mgr_->PinningEnabled()) { // pinned_iters_mgr_ tells us to make sure that all visited key-value slices // are alive until pinned_iters_mgr_->ReleasePinnedData() is called. // The slices may point into some memtables owned by sv_, so we need to keep // sv_ referenced until pinned_iters_mgr_ unpins everything. auto p = new SVCleanupParams{ db_, sv_, read_options_.background_purge_on_iterator_cleanup}; pinned_iters_mgr_->PinPtr(p, &ForwardIterator::DeferredSVCleanup); } else { SVCleanup(db_, sv_, read_options_.background_purge_on_iterator_cleanup); } } void ForwardIterator::Cleanup(bool release_sv) { if (mutable_iter_ != nullptr) { DeleteIterator(mutable_iter_, true /* is_arena */); } for (auto* m : imm_iters_) { DeleteIterator(m, true /* is_arena */); } imm_iters_.clear(); for (auto* f : l0_iters_) { DeleteIterator(f); } l0_iters_.clear(); for (auto* l : level_iters_) { DeleteIterator(l); } level_iters_.clear(); if (release_sv) { SVCleanup(); } } bool ForwardIterator::Valid() const { // See UpdateCurrent(). return valid_ ? !current_over_upper_bound_ : false; } void ForwardIterator::SeekToFirst() { if (sv_ == nullptr) { RebuildIterators(true); } else if (sv_->version_number != cfd_->GetSuperVersionNumber()) { RenewIterators(); } else if (immutable_status_.IsIncomplete()) { ResetIncompleteIterators(); } SeekInternal(Slice(), true); } bool ForwardIterator::IsOverUpperBound(const Slice& internal_key) const { return !(read_options_.iterate_upper_bound == nullptr || cfd_->internal_comparator().user_comparator()->Compare( ExtractUserKey(internal_key), *read_options_.iterate_upper_bound) < 0); } void ForwardIterator::Seek(const Slice& internal_key) { if (sv_ == nullptr) { RebuildIterators(true); } else if (sv_->version_number != cfd_->GetSuperVersionNumber()) { RenewIterators(); } else if (immutable_status_.IsIncomplete()) { ResetIncompleteIterators(); } SeekInternal(internal_key, false); } void ForwardIterator::SeekInternal(const Slice& internal_key, bool seek_to_first) { assert(mutable_iter_); // mutable seek_to_first ? mutable_iter_->SeekToFirst() : mutable_iter_->Seek(internal_key); // immutable // TODO(ljin): NeedToSeekImmutable has negative impact on performance // if it turns to need to seek immutable often. We probably want to have // an option to turn it off. if (seek_to_first || NeedToSeekImmutable(internal_key)) { immutable_status_ = Status::OK(); if (has_iter_trimmed_for_upper_bound_ && ( // prev_ is not set yet is_prev_set_ == false || // We are doing SeekToFirst() and internal_key.size() = 0 seek_to_first || // prev_key_ > internal_key cfd_->internal_comparator().InternalKeyComparator::Compare( prev_key_.GetInternalKey(), internal_key) > 0)) { // Some iterators are trimmed. Need to rebuild. RebuildIterators(true); // Already seeked mutable iter, so seek again seek_to_first ? mutable_iter_->SeekToFirst() : mutable_iter_->Seek(internal_key); } { auto tmp = MinIterHeap(MinIterComparator(&cfd_->internal_comparator())); immutable_min_heap_.swap(tmp); } for (size_t i = 0; i < imm_iters_.size(); i++) { auto* m = imm_iters_[i]; seek_to_first ? m->SeekToFirst() : m->Seek(internal_key); if (!m->status().ok()) { immutable_status_ = m->status(); } else if (m->Valid()) { immutable_min_heap_.push(m); } } Slice user_key; if (!seek_to_first) { user_key = ExtractUserKey(internal_key); } const VersionStorageInfo* vstorage = sv_->current->storage_info(); const std::vector& l0 = vstorage->LevelFiles(0); for (size_t i = 0; i < l0.size(); ++i) { if (!l0_iters_[i]) { continue; } if (seek_to_first) { l0_iters_[i]->SeekToFirst(); } else { // If the target key passes over the larget key, we are sure Next() // won't go over this file. if (user_comparator_->Compare(user_key, l0[i]->largest.user_key()) > 0) { if (read_options_.iterate_upper_bound != nullptr) { has_iter_trimmed_for_upper_bound_ = true; DeleteIterator(l0_iters_[i]); l0_iters_[i] = nullptr; } continue; } l0_iters_[i]->Seek(internal_key); } if (!l0_iters_[i]->status().ok()) { immutable_status_ = l0_iters_[i]->status(); } else if (l0_iters_[i]->Valid() && !IsOverUpperBound(l0_iters_[i]->key())) { immutable_min_heap_.push(l0_iters_[i]); } else { has_iter_trimmed_for_upper_bound_ = true; DeleteIterator(l0_iters_[i]); l0_iters_[i] = nullptr; } } for (int32_t level = 1; level < vstorage->num_levels(); ++level) { const std::vector& level_files = vstorage->LevelFiles(level); if (level_files.empty()) { continue; } if (level_iters_[level - 1] == nullptr) { continue; } uint32_t f_idx = 0; if (!seek_to_first) { f_idx = FindFileInRange(level_files, internal_key, 0, static_cast(level_files.size())); } // Seek if (f_idx < level_files.size()) { level_iters_[level - 1]->SetFileIndex(f_idx); seek_to_first ? level_iters_[level - 1]->SeekToFirst() : level_iters_[level - 1]->Seek(internal_key); if (!level_iters_[level - 1]->status().ok()) { immutable_status_ = level_iters_[level - 1]->status(); } else if (level_iters_[level - 1]->Valid() && !IsOverUpperBound(level_iters_[level - 1]->key())) { immutable_min_heap_.push(level_iters_[level - 1]); } else { // Nothing in this level is interesting. Remove. has_iter_trimmed_for_upper_bound_ = true; DeleteIterator(level_iters_[level - 1]); level_iters_[level - 1] = nullptr; } } } if (seek_to_first) { is_prev_set_ = false; } else { prev_key_.SetInternalKey(internal_key); is_prev_set_ = true; is_prev_inclusive_ = true; } TEST_SYNC_POINT_CALLBACK("ForwardIterator::SeekInternal:Immutable", this); } else if (current_ && current_ != mutable_iter_) { // current_ is one of immutable iterators, push it back to the heap immutable_min_heap_.push(current_); } UpdateCurrent(); TEST_SYNC_POINT_CALLBACK("ForwardIterator::SeekInternal:Return", this); } void ForwardIterator::Next() { assert(valid_); bool update_prev_key = false; if (sv_ == nullptr || sv_->version_number != cfd_->GetSuperVersionNumber()) { std::string current_key = key().ToString(); Slice old_key(current_key.data(), current_key.size()); if (sv_ == nullptr) { RebuildIterators(true); } else { RenewIterators(); } SeekInternal(old_key, false); if (!valid_ || key().compare(old_key) != 0) { return; } } else if (current_ != mutable_iter_) { // It is going to advance immutable iterator if (is_prev_set_ && prefix_extractor_) { // advance prev_key_ to current_ only if they share the same prefix update_prev_key = prefix_extractor_->Transform(prev_key_.GetUserKey()) .compare(prefix_extractor_->Transform(current_->key())) == 0; } else { update_prev_key = true; } if (update_prev_key) { prev_key_.SetInternalKey(current_->key()); is_prev_set_ = true; is_prev_inclusive_ = false; } } current_->Next(); if (current_ != mutable_iter_) { if (!current_->status().ok()) { immutable_status_ = current_->status(); } else if ((current_->Valid()) && (!IsOverUpperBound(current_->key()))) { immutable_min_heap_.push(current_); } else { if ((current_->Valid()) && (IsOverUpperBound(current_->key()))) { // remove the current iterator DeleteCurrentIter(); current_ = nullptr; } if (update_prev_key) { mutable_iter_->Seek(prev_key_.GetInternalKey()); } } } UpdateCurrent(); TEST_SYNC_POINT_CALLBACK("ForwardIterator::Next:Return", this); } Slice ForwardIterator::key() const { assert(valid_); return current_->key(); } Slice ForwardIterator::value() const { assert(valid_); return current_->value(); } Status ForwardIterator::status() const { if (!status_.ok()) { return status_; } else if (!mutable_iter_->status().ok()) { return mutable_iter_->status(); } return immutable_status_; } Status ForwardIterator::GetProperty(std::string prop_name, std::string* prop) { assert(prop != nullptr); if (prop_name == "rocksdb.iterator.super-version-number") { *prop = ToString(sv_->version_number); return Status::OK(); } return Status::InvalidArgument(); } void ForwardIterator::SetPinnedItersMgr( PinnedIteratorsManager* pinned_iters_mgr) { pinned_iters_mgr_ = pinned_iters_mgr; UpdateChildrenPinnedItersMgr(); } void ForwardIterator::UpdateChildrenPinnedItersMgr() { // Set PinnedIteratorsManager for mutable memtable iterator. if (mutable_iter_) { mutable_iter_->SetPinnedItersMgr(pinned_iters_mgr_); } // Set PinnedIteratorsManager for immutable memtable iterators. for (InternalIterator* child_iter : imm_iters_) { if (child_iter) { child_iter->SetPinnedItersMgr(pinned_iters_mgr_); } } // Set PinnedIteratorsManager for L0 files iterators. for (InternalIterator* child_iter : l0_iters_) { if (child_iter) { child_iter->SetPinnedItersMgr(pinned_iters_mgr_); } } // Set PinnedIteratorsManager for L1+ levels iterators. for (ForwardLevelIterator* child_iter : level_iters_) { if (child_iter) { child_iter->SetPinnedItersMgr(pinned_iters_mgr_); } } } bool ForwardIterator::IsKeyPinned() const { return pinned_iters_mgr_ && pinned_iters_mgr_->PinningEnabled() && current_->IsKeyPinned(); } bool ForwardIterator::IsValuePinned() const { return pinned_iters_mgr_ && pinned_iters_mgr_->PinningEnabled() && current_->IsValuePinned(); } void ForwardIterator::RebuildIterators(bool refresh_sv) { // Clean up Cleanup(refresh_sv); if (refresh_sv) { // New sv_ = cfd_->GetReferencedSuperVersion(&(db_->mutex_)); } RangeDelAggregator range_del_agg( cfd_->internal_comparator(), {} /* snapshots */); mutable_iter_ = sv_->mem->NewIterator(read_options_, &arena_); sv_->imm->AddIterators(read_options_, &imm_iters_, &arena_); if (!read_options_.ignore_range_deletions) { std::unique_ptr range_del_iter( sv_->mem->NewRangeTombstoneIterator(read_options_)); range_del_agg.AddTombstones(std::move(range_del_iter)); sv_->imm->AddRangeTombstoneIterators(read_options_, &arena_, &range_del_agg); } has_iter_trimmed_for_upper_bound_ = false; const auto* vstorage = sv_->current->storage_info(); const auto& l0_files = vstorage->LevelFiles(0); l0_iters_.reserve(l0_files.size()); for (const auto* l0 : l0_files) { if ((read_options_.iterate_upper_bound != nullptr) && cfd_->internal_comparator().user_comparator()->Compare( l0->smallest.user_key(), *read_options_.iterate_upper_bound) > 0) { // No need to set has_iter_trimmed_for_upper_bound_: this ForwardIterator // will never be interested in files with smallest key above // iterate_upper_bound, since iterate_upper_bound can't be changed. l0_iters_.push_back(nullptr); continue; } l0_iters_.push_back(cfd_->table_cache()->NewIterator( read_options_, *cfd_->soptions(), cfd_->internal_comparator(), *l0, read_options_.ignore_range_deletions ? nullptr : &range_del_agg, sv_->mutable_cf_options.prefix_extractor.get())); } BuildLevelIterators(vstorage); current_ = nullptr; is_prev_set_ = false; UpdateChildrenPinnedItersMgr(); if (!range_del_agg.IsEmpty()) { status_ = Status::NotSupported( "Range tombstones unsupported with ForwardIterator"); valid_ = false; } } void ForwardIterator::RenewIterators() { SuperVersion* svnew; assert(sv_); svnew = cfd_->GetReferencedSuperVersion(&(db_->mutex_)); if (mutable_iter_ != nullptr) { DeleteIterator(mutable_iter_, true /* is_arena */); } for (auto* m : imm_iters_) { DeleteIterator(m, true /* is_arena */); } imm_iters_.clear(); mutable_iter_ = svnew->mem->NewIterator(read_options_, &arena_); svnew->imm->AddIterators(read_options_, &imm_iters_, &arena_); RangeDelAggregator range_del_agg( cfd_->internal_comparator(), {} /* snapshots */); if (!read_options_.ignore_range_deletions) { std::unique_ptr range_del_iter( svnew->mem->NewRangeTombstoneIterator(read_options_)); range_del_agg.AddTombstones(std::move(range_del_iter)); svnew->imm->AddRangeTombstoneIterators(read_options_, &arena_, &range_del_agg); } const auto* vstorage = sv_->current->storage_info(); const auto& l0_files = vstorage->LevelFiles(0); const auto* vstorage_new = svnew->current->storage_info(); const auto& l0_files_new = vstorage_new->LevelFiles(0); size_t iold, inew; bool found; std::vector l0_iters_new; l0_iters_new.reserve(l0_files_new.size()); for (inew = 0; inew < l0_files_new.size(); inew++) { found = false; for (iold = 0; iold < l0_files.size(); iold++) { if (l0_files[iold] == l0_files_new[inew]) { found = true; break; } } if (found) { if (l0_iters_[iold] == nullptr) { l0_iters_new.push_back(nullptr); TEST_SYNC_POINT_CALLBACK("ForwardIterator::RenewIterators:Null", this); } else { l0_iters_new.push_back(l0_iters_[iold]); l0_iters_[iold] = nullptr; TEST_SYNC_POINT_CALLBACK("ForwardIterator::RenewIterators:Copy", this); } continue; } l0_iters_new.push_back(cfd_->table_cache()->NewIterator( read_options_, *cfd_->soptions(), cfd_->internal_comparator(), *l0_files_new[inew], read_options_.ignore_range_deletions ? nullptr : &range_del_agg, svnew->mutable_cf_options.prefix_extractor.get())); } for (auto* f : l0_iters_) { DeleteIterator(f); } l0_iters_.clear(); l0_iters_ = l0_iters_new; for (auto* l : level_iters_) { DeleteIterator(l); } level_iters_.clear(); BuildLevelIterators(vstorage_new); current_ = nullptr; is_prev_set_ = false; SVCleanup(); sv_ = svnew; UpdateChildrenPinnedItersMgr(); if (!range_del_agg.IsEmpty()) { status_ = Status::NotSupported( "Range tombstones unsupported with ForwardIterator"); valid_ = false; } } void ForwardIterator::BuildLevelIterators(const VersionStorageInfo* vstorage) { level_iters_.reserve(vstorage->num_levels() - 1); for (int32_t level = 1; level < vstorage->num_levels(); ++level) { const auto& level_files = vstorage->LevelFiles(level); if ((level_files.empty()) || ((read_options_.iterate_upper_bound != nullptr) && (user_comparator_->Compare(*read_options_.iterate_upper_bound, level_files[0]->smallest.user_key()) < 0))) { level_iters_.push_back(nullptr); if (!level_files.empty()) { has_iter_trimmed_for_upper_bound_ = true; } } else { level_iters_.push_back(new ForwardLevelIterator( cfd_, read_options_, level_files, sv_->mutable_cf_options.prefix_extractor.get())); } } } void ForwardIterator::ResetIncompleteIterators() { const auto& l0_files = sv_->current->storage_info()->LevelFiles(0); for (size_t i = 0; i < l0_iters_.size(); ++i) { assert(i < l0_files.size()); if (!l0_iters_[i] || !l0_iters_[i]->status().IsIncomplete()) { continue; } DeleteIterator(l0_iters_[i]); l0_iters_[i] = cfd_->table_cache()->NewIterator( read_options_, *cfd_->soptions(), cfd_->internal_comparator(), *l0_files[i], nullptr /* range_del_agg */, sv_->mutable_cf_options.prefix_extractor.get()); l0_iters_[i]->SetPinnedItersMgr(pinned_iters_mgr_); } for (auto* level_iter : level_iters_) { if (level_iter && level_iter->status().IsIncomplete()) { level_iter->Reset(); } } current_ = nullptr; is_prev_set_ = false; } void ForwardIterator::UpdateCurrent() { if (immutable_min_heap_.empty() && !mutable_iter_->Valid()) { current_ = nullptr; } else if (immutable_min_heap_.empty()) { current_ = mutable_iter_; } else if (!mutable_iter_->Valid()) { current_ = immutable_min_heap_.top(); immutable_min_heap_.pop(); } else { current_ = immutable_min_heap_.top(); assert(current_ != nullptr); assert(current_->Valid()); int cmp = cfd_->internal_comparator().InternalKeyComparator::Compare( mutable_iter_->key(), current_->key()); assert(cmp != 0); if (cmp > 0) { immutable_min_heap_.pop(); } else { current_ = mutable_iter_; } } valid_ = current_ != nullptr && immutable_status_.ok(); if (!status_.ok()) { status_ = Status::OK(); } // Upper bound doesn't apply to the memtable iterator. We want Valid() to // return false when all iterators are over iterate_upper_bound, but can't // just set valid_ to false, as that would effectively disable the tailing // optimization (Seek() would be called on all immutable iterators regardless // of whether the target key is greater than prev_key_). current_over_upper_bound_ = valid_ && IsOverUpperBound(current_->key()); } bool ForwardIterator::NeedToSeekImmutable(const Slice& target) { // We maintain the interval (prev_key_, immutable_min_heap_.top()->key()) // such that there are no records with keys within that range in // immutable_min_heap_. Since immutable structures (SST files and immutable // memtables) can't change in this version, we don't need to do a seek if // 'target' belongs to that interval (immutable_min_heap_.top() is already // at the correct position). if (!valid_ || !current_ || !is_prev_set_ || !immutable_status_.ok()) { return true; } Slice prev_key = prev_key_.GetInternalKey(); if (prefix_extractor_ && prefix_extractor_->Transform(target).compare( prefix_extractor_->Transform(prev_key)) != 0) { return true; } if (cfd_->internal_comparator().InternalKeyComparator::Compare( prev_key, target) >= (is_prev_inclusive_ ? 1 : 0)) { return true; } if (immutable_min_heap_.empty() && current_ == mutable_iter_) { // Nothing to seek on. return false; } if (cfd_->internal_comparator().InternalKeyComparator::Compare( target, current_ == mutable_iter_ ? immutable_min_heap_.top()->key() : current_->key()) > 0) { return true; } return false; } void ForwardIterator::DeleteCurrentIter() { const VersionStorageInfo* vstorage = sv_->current->storage_info(); const std::vector& l0 = vstorage->LevelFiles(0); for (size_t i = 0; i < l0.size(); ++i) { if (!l0_iters_[i]) { continue; } if (l0_iters_[i] == current_) { has_iter_trimmed_for_upper_bound_ = true; DeleteIterator(l0_iters_[i]); l0_iters_[i] = nullptr; return; } } for (int32_t level = 1; level < vstorage->num_levels(); ++level) { if (level_iters_[level - 1] == nullptr) { continue; } if (level_iters_[level - 1] == current_) { has_iter_trimmed_for_upper_bound_ = true; DeleteIterator(level_iters_[level - 1]); level_iters_[level - 1] = nullptr; } } } bool ForwardIterator::TEST_CheckDeletedIters(int* pdeleted_iters, int* pnum_iters) { bool retval = false; int deleted_iters = 0; int num_iters = 0; const VersionStorageInfo* vstorage = sv_->current->storage_info(); const std::vector& l0 = vstorage->LevelFiles(0); for (size_t i = 0; i < l0.size(); ++i) { if (!l0_iters_[i]) { retval = true; deleted_iters++; } else { num_iters++; } } for (int32_t level = 1; level < vstorage->num_levels(); ++level) { if ((level_iters_[level - 1] == nullptr) && (!vstorage->LevelFiles(level).empty())) { retval = true; deleted_iters++; } else if (!vstorage->LevelFiles(level).empty()) { num_iters++; } } if ((!retval) && num_iters <= 1) { retval = true; } if (pdeleted_iters) { *pdeleted_iters = deleted_iters; } if (pnum_iters) { *pnum_iters = num_iters; } return retval; } uint32_t ForwardIterator::FindFileInRange( const std::vector& files, const Slice& internal_key, uint32_t left, uint32_t right) { auto cmp = [&](const FileMetaData* f, const Slice& key) -> bool { return cfd_->internal_comparator().InternalKeyComparator::Compare( f->largest.Encode(), key) < 0; }; const auto &b = files.begin(); return static_cast(std::lower_bound(b + left, b + right, internal_key, cmp) - b); } void ForwardIterator::DeleteIterator(InternalIterator* iter, bool is_arena) { if (iter == nullptr) { return; } if (pinned_iters_mgr_ && pinned_iters_mgr_->PinningEnabled()) { pinned_iters_mgr_->PinIterator(iter, is_arena); } else { if (is_arena) { iter->~InternalIterator(); } else { delete iter; } } } } // namespace rocksdb #endif // ROCKSDB_LITE rocksdb-5.17.2/db/forward_iterator.h000066400000000000000000000130001337235545400173550ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #ifndef ROCKSDB_LITE #include #include #include #include "rocksdb/db.h" #include "rocksdb/iterator.h" #include "rocksdb/options.h" #include "db/dbformat.h" #include "table/internal_iterator.h" #include "util/arena.h" namespace rocksdb { class DBImpl; class Env; struct SuperVersion; class ColumnFamilyData; class ForwardLevelIterator; class VersionStorageInfo; struct FileMetaData; class MinIterComparator { public: explicit MinIterComparator(const Comparator* comparator) : comparator_(comparator) {} bool operator()(InternalIterator* a, InternalIterator* b) { return comparator_->Compare(a->key(), b->key()) > 0; } private: const Comparator* comparator_; }; typedef std::priority_queue, MinIterComparator> MinIterHeap; /** * ForwardIterator is a special type of iterator that only supports Seek() * and Next(). It is expected to perform better than TailingIterator by * removing the encapsulation and making all information accessible within * the iterator. At the current implementation, snapshot is taken at the * time Seek() is called. The Next() followed do not see new values after. */ class ForwardIterator : public InternalIterator { public: ForwardIterator(DBImpl* db, const ReadOptions& read_options, ColumnFamilyData* cfd, SuperVersion* current_sv = nullptr); virtual ~ForwardIterator(); void SeekForPrev(const Slice& /*target*/) override { status_ = Status::NotSupported("ForwardIterator::SeekForPrev()"); valid_ = false; } void SeekToLast() override { status_ = Status::NotSupported("ForwardIterator::SeekToLast()"); valid_ = false; } void Prev() override { status_ = Status::NotSupported("ForwardIterator::Prev"); valid_ = false; } virtual bool Valid() const override; void SeekToFirst() override; virtual void Seek(const Slice& target) override; virtual void Next() override; virtual Slice key() const override; virtual Slice value() const override; virtual Status status() const override; virtual Status GetProperty(std::string prop_name, std::string* prop) override; virtual void SetPinnedItersMgr( PinnedIteratorsManager* pinned_iters_mgr) override; virtual bool IsKeyPinned() const override; virtual bool IsValuePinned() const override; bool TEST_CheckDeletedIters(int* deleted_iters, int* num_iters); private: void Cleanup(bool release_sv); // Unreference and, if needed, clean up the current SuperVersion. This is // either done immediately or deferred until this iterator is unpinned by // PinnedIteratorsManager. void SVCleanup(); static void SVCleanup( DBImpl* db, SuperVersion* sv, bool background_purge_on_iterator_cleanup); static void DeferredSVCleanup(void* arg); void RebuildIterators(bool refresh_sv); void RenewIterators(); void BuildLevelIterators(const VersionStorageInfo* vstorage); void ResetIncompleteIterators(); void SeekInternal(const Slice& internal_key, bool seek_to_first); void UpdateCurrent(); bool NeedToSeekImmutable(const Slice& internal_key); void DeleteCurrentIter(); uint32_t FindFileInRange( const std::vector& files, const Slice& internal_key, uint32_t left, uint32_t right); bool IsOverUpperBound(const Slice& internal_key) const; // Set PinnedIteratorsManager for all children Iterators, this function should // be called whenever we update children Iterators or pinned_iters_mgr_. void UpdateChildrenPinnedItersMgr(); // A helper function that will release iter in the proper manner, or pass it // to pinned_iters_mgr_ to release it later if pinning is enabled. void DeleteIterator(InternalIterator* iter, bool is_arena = false); DBImpl* const db_; const ReadOptions read_options_; ColumnFamilyData* const cfd_; const SliceTransform* const prefix_extractor_; const Comparator* user_comparator_; MinIterHeap immutable_min_heap_; SuperVersion* sv_; InternalIterator* mutable_iter_; std::vector imm_iters_; std::vector l0_iters_; std::vector level_iters_; InternalIterator* current_; bool valid_; // Internal iterator status; set only by one of the unsupported methods. Status status_; // Status of immutable iterators, maintained here to avoid iterating over // all of them in status(). Status immutable_status_; // Indicates that at least one of the immutable iterators pointed to a key // larger than iterate_upper_bound and was therefore destroyed. Seek() may // need to rebuild such iterators. bool has_iter_trimmed_for_upper_bound_; // Is current key larger than iterate_upper_bound? If so, makes Valid() // return false. bool current_over_upper_bound_; // Left endpoint of the range of keys that immutable iterators currently // cover. When Seek() is called with a key that's within that range, immutable // iterators don't need to be moved; see NeedToSeekImmutable(). This key is // included in the range after a Seek(), but excluded when advancing the // iterator using Next(). IterKey prev_key_; bool is_prev_set_; bool is_prev_inclusive_; PinnedIteratorsManager* pinned_iters_mgr_; Arena arena_; }; } // namespace rocksdb #endif // ROCKSDB_LITE rocksdb-5.17.2/db/forward_iterator_bench.cc000066400000000000000000000264111337235545400206640ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #ifndef __STDC_FORMAT_MACROS #define __STDC_FORMAT_MACROS #endif #if !defined(GFLAGS) || defined(ROCKSDB_LITE) #include int main() { fprintf(stderr, "Please install gflags to run rocksdb tools\n"); return 1; } #elif defined(OS_MACOSX) || defined(OS_WIN) // Block forward_iterator_bench under MAC and Windows int main() { return 0; } #else #include #include #include #include #include #include #include #include #include #include #include #include "port/port.h" #include "rocksdb/cache.h" #include "rocksdb/db.h" #include "rocksdb/status.h" #include "rocksdb/table.h" #include "util/gflags_compat.h" #include "util/testharness.h" const int MAX_SHARDS = 100000; DEFINE_int32(writers, 8, ""); DEFINE_int32(readers, 8, ""); DEFINE_int64(rate, 100000, ""); DEFINE_int64(value_size, 300, ""); DEFINE_int64(shards, 1000, ""); DEFINE_int64(memtable_size, 500000000, ""); DEFINE_int64(block_cache_size, 300000000, ""); DEFINE_int64(block_size, 65536, ""); DEFINE_double(runtime, 300.0, ""); DEFINE_bool(cache_only_first, true, ""); DEFINE_bool(iterate_upper_bound, true, ""); struct Stats { char pad1[128] __attribute__((__unused__)); std::atomic written{0}; char pad2[128] __attribute__((__unused__)); std::atomic read{0}; std::atomic cache_misses{0}; char pad3[128] __attribute__((__unused__)); } stats; struct Key { Key() {} Key(uint64_t shard_in, uint64_t seqno_in) : shard_be(htobe64(shard_in)), seqno_be(htobe64(seqno_in)) {} uint64_t shard() const { return be64toh(shard_be); } uint64_t seqno() const { return be64toh(seqno_be); } private: uint64_t shard_be; uint64_t seqno_be; } __attribute__((__packed__)); struct Reader; struct Writer; struct ShardState { char pad1[128] __attribute__((__unused__)); std::atomic last_written{0}; Writer* writer; Reader* reader; char pad2[128] __attribute__((__unused__)); std::atomic last_read{0}; std::unique_ptr it; std::unique_ptr it_cacheonly; Key upper_bound; rocksdb::Slice upper_bound_slice; char pad3[128] __attribute__((__unused__)); }; struct Reader { public: explicit Reader(std::vector* shard_states, rocksdb::DB* db) : shard_states_(shard_states), db_(db) { sem_init(&sem_, 0, 0); thread_ = port::Thread(&Reader::run, this); } void run() { while (1) { sem_wait(&sem_); if (done_.load()) { break; } uint64_t shard; { std::lock_guard guard(queue_mutex_); assert(!shards_pending_queue_.empty()); shard = shards_pending_queue_.front(); shards_pending_queue_.pop(); shards_pending_set_.reset(shard); } readOnceFromShard(shard); } } void readOnceFromShard(uint64_t shard) { ShardState& state = (*shard_states_)[shard]; if (!state.it) { // Initialize iterators rocksdb::ReadOptions options; options.tailing = true; if (FLAGS_iterate_upper_bound) { state.upper_bound = Key(shard, std::numeric_limits::max()); state.upper_bound_slice = rocksdb::Slice( (const char*)&state.upper_bound, sizeof(state.upper_bound)); options.iterate_upper_bound = &state.upper_bound_slice; } state.it.reset(db_->NewIterator(options)); if (FLAGS_cache_only_first) { options.read_tier = rocksdb::ReadTier::kBlockCacheTier; state.it_cacheonly.reset(db_->NewIterator(options)); } } const uint64_t upto = state.last_written.load(); for (rocksdb::Iterator* it : {state.it_cacheonly.get(), state.it.get()}) { if (it == nullptr) { continue; } if (state.last_read.load() >= upto) { break; } bool need_seek = true; for (uint64_t seq = state.last_read.load() + 1; seq <= upto; ++seq) { if (need_seek) { Key from(shard, state.last_read.load() + 1); it->Seek(rocksdb::Slice((const char*)&from, sizeof(from))); need_seek = false; } else { it->Next(); } if (it->status().IsIncomplete()) { ++::stats.cache_misses; break; } assert(it->Valid()); assert(it->key().size() == sizeof(Key)); Key key; memcpy(&key, it->key().data(), it->key().size()); // fprintf(stderr, "Expecting (%ld, %ld) read (%ld, %ld)\n", // shard, seq, key.shard(), key.seqno()); assert(key.shard() == shard); assert(key.seqno() == seq); state.last_read.store(seq); ++::stats.read; } } } void onWrite(uint64_t shard) { { std::lock_guard guard(queue_mutex_); if (!shards_pending_set_.test(shard)) { shards_pending_queue_.push(shard); shards_pending_set_.set(shard); sem_post(&sem_); } } } ~Reader() { done_.store(true); sem_post(&sem_); thread_.join(); } private: char pad1[128] __attribute__((__unused__)); std::vector* shard_states_; rocksdb::DB* db_; rocksdb::port::Thread thread_; sem_t sem_; std::mutex queue_mutex_; std::bitset shards_pending_set_; std::queue shards_pending_queue_; std::atomic done_{false}; char pad2[128] __attribute__((__unused__)); }; struct Writer { explicit Writer(std::vector* shard_states, rocksdb::DB* db) : shard_states_(shard_states), db_(db) {} void start() { thread_ = port::Thread(&Writer::run, this); } void run() { std::queue workq; std::chrono::steady_clock::time_point deadline( std::chrono::steady_clock::now() + std::chrono::nanoseconds((uint64_t)(1000000000 * FLAGS_runtime))); std::vector my_shards; for (int i = 1; i <= FLAGS_shards; ++i) { if ((*shard_states_)[i].writer == this) { my_shards.push_back(i); } } std::mt19937 rng{std::random_device()()}; std::uniform_int_distribution shard_dist( 0, static_cast(my_shards.size()) - 1); std::string value(FLAGS_value_size, '*'); while (1) { auto now = std::chrono::steady_clock::now(); if (FLAGS_runtime >= 0 && now >= deadline) { break; } if (workq.empty()) { for (int i = 0; i < FLAGS_rate; i += FLAGS_writers) { std::chrono::nanoseconds offset(1000000000LL * i / FLAGS_rate); workq.push(now + offset); } } while (!workq.empty() && workq.front() < now) { workq.pop(); uint64_t shard = my_shards[shard_dist(rng)]; ShardState& state = (*shard_states_)[shard]; uint64_t seqno = state.last_written.load() + 1; Key key(shard, seqno); // fprintf(stderr, "Writing (%ld, %ld)\n", shard, seqno); rocksdb::Status status = db_->Put(rocksdb::WriteOptions(), rocksdb::Slice((const char*)&key, sizeof(key)), rocksdb::Slice(value)); assert(status.ok()); state.last_written.store(seqno); state.reader->onWrite(shard); ++::stats.written; } std::this_thread::sleep_for(std::chrono::milliseconds(1)); } // fprintf(stderr, "Writer done\n"); } ~Writer() { thread_.join(); } private: char pad1[128] __attribute__((__unused__)); std::vector* shard_states_; rocksdb::DB* db_; rocksdb::port::Thread thread_; char pad2[128] __attribute__((__unused__)); }; struct StatsThread { explicit StatsThread(rocksdb::DB* db) : db_(db), thread_(&StatsThread::run, this) {} void run() { // using namespace std::chrono; auto tstart = std::chrono::steady_clock::now(), tlast = tstart; uint64_t wlast = 0, rlast = 0; while (!done_.load()) { { std::unique_lock lock(cvm_); cv_.wait_for(lock, std::chrono::seconds(1)); } auto now = std::chrono::steady_clock::now(); double elapsed = std::chrono::duration_cast >( now - tlast).count(); uint64_t w = ::stats.written.load(); uint64_t r = ::stats.read.load(); fprintf(stderr, "%s elapsed %4lds | written %10ld | w/s %10.0f | read %10ld | " "r/s %10.0f | cache misses %10ld\n", db_->GetEnv()->TimeToString(time(nullptr)).c_str(), std::chrono::duration_cast(now - tstart) .count(), w, (w - wlast) / elapsed, r, (r - rlast) / elapsed, ::stats.cache_misses.load()); wlast = w; rlast = r; tlast = now; } } ~StatsThread() { { std::lock_guard guard(cvm_); done_.store(true); } cv_.notify_all(); thread_.join(); } private: rocksdb::DB* db_; std::mutex cvm_; std::condition_variable cv_; rocksdb::port::Thread thread_; std::atomic done_{false}; }; int main(int argc, char** argv) { GFLAGS_NAMESPACE::ParseCommandLineFlags(&argc, &argv, true); std::mt19937 rng{std::random_device()()}; rocksdb::Status status; std::string path = rocksdb::test::PerThreadDBPath("forward_iterator_test"); fprintf(stderr, "db path is %s\n", path.c_str()); rocksdb::Options options; options.create_if_missing = true; options.compression = rocksdb::CompressionType::kNoCompression; options.compaction_style = rocksdb::CompactionStyle::kCompactionStyleNone; options.level0_slowdown_writes_trigger = 99999; options.level0_stop_writes_trigger = 99999; options.use_direct_io_for_flush_and_compaction = true; options.write_buffer_size = FLAGS_memtable_size; rocksdb::BlockBasedTableOptions table_options; table_options.block_cache = rocksdb::NewLRUCache(FLAGS_block_cache_size); table_options.block_size = FLAGS_block_size; options.table_factory.reset( rocksdb::NewBlockBasedTableFactory(table_options)); status = rocksdb::DestroyDB(path, options); assert(status.ok()); rocksdb::DB* db_raw; status = rocksdb::DB::Open(options, path, &db_raw); assert(status.ok()); std::unique_ptr db(db_raw); std::vector shard_states(FLAGS_shards + 1); std::deque readers; while (static_cast(readers.size()) < FLAGS_readers) { readers.emplace_back(&shard_states, db_raw); } std::deque writers; while (static_cast(writers.size()) < FLAGS_writers) { writers.emplace_back(&shard_states, db_raw); } // Each shard gets a random reader and random writer assigned to it for (int i = 1; i <= FLAGS_shards; ++i) { std::uniform_int_distribution reader_dist(0, FLAGS_readers - 1); std::uniform_int_distribution writer_dist(0, FLAGS_writers - 1); shard_states[i].reader = &readers[reader_dist(rng)]; shard_states[i].writer = &writers[writer_dist(rng)]; } StatsThread stats_thread(db_raw); for (Writer& w : writers) { w.start(); } writers.clear(); readers.clear(); } #endif // !defined(GFLAGS) || defined(ROCKSDB_LITE) rocksdb-5.17.2/db/internal_stats.cc000066400000000000000000001606741337235545400172140ustar00rootroot00000000000000// This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "db/internal_stats.h" #ifndef __STDC_FORMAT_MACROS #define __STDC_FORMAT_MACROS #endif #include #include #include #include #include #include #include "db/column_family.h" #include "db/db_impl.h" #include "table/block_based_table_factory.h" #include "util/string_util.h" namespace rocksdb { #ifndef ROCKSDB_LITE const std::map InternalStats::compaction_level_stats = { {LevelStatType::NUM_FILES, LevelStat{"NumFiles", "Files"}}, {LevelStatType::COMPACTED_FILES, LevelStat{"CompactedFiles", "CompactedFiles"}}, {LevelStatType::SIZE_BYTES, LevelStat{"SizeBytes", "Size"}}, {LevelStatType::SCORE, LevelStat{"Score", "Score"}}, {LevelStatType::READ_GB, LevelStat{"ReadGB", "Read(GB)"}}, {LevelStatType::RN_GB, LevelStat{"RnGB", "Rn(GB)"}}, {LevelStatType::RNP1_GB, LevelStat{"Rnp1GB", "Rnp1(GB)"}}, {LevelStatType::WRITE_GB, LevelStat{"WriteGB", "Write(GB)"}}, {LevelStatType::W_NEW_GB, LevelStat{"WnewGB", "Wnew(GB)"}}, {LevelStatType::MOVED_GB, LevelStat{"MovedGB", "Moved(GB)"}}, {LevelStatType::WRITE_AMP, LevelStat{"WriteAmp", "W-Amp"}}, {LevelStatType::READ_MBPS, LevelStat{"ReadMBps", "Rd(MB/s)"}}, {LevelStatType::WRITE_MBPS, LevelStat{"WriteMBps", "Wr(MB/s)"}}, {LevelStatType::COMP_SEC, LevelStat{"CompSec", "Comp(sec)"}}, {LevelStatType::COMP_COUNT, LevelStat{"CompCount", "Comp(cnt)"}}, {LevelStatType::AVG_SEC, LevelStat{"AvgSec", "Avg(sec)"}}, {LevelStatType::KEY_IN, LevelStat{"KeyIn", "KeyIn"}}, {LevelStatType::KEY_DROP, LevelStat{"KeyDrop", "KeyDrop"}}, }; namespace { const double kMB = 1048576.0; const double kGB = kMB * 1024; const double kMicrosInSec = 1000000.0; void PrintLevelStatsHeader(char* buf, size_t len, const std::string& cf_name) { int written_size = snprintf(buf, len, "\n** Compaction Stats [%s] **\n", cf_name.c_str()); auto hdr = [](LevelStatType t) { return InternalStats::compaction_level_stats.at(t).header_name.c_str(); }; int line_size = snprintf( buf + written_size, len - written_size, "Level %s %s %s %s %s %s %s %s %s %s %s %s %s %s %s %s %s\n", // Note that we skip COMPACTED_FILES and merge it with Files column hdr(LevelStatType::NUM_FILES), hdr(LevelStatType::SIZE_BYTES), hdr(LevelStatType::SCORE), hdr(LevelStatType::READ_GB), hdr(LevelStatType::RN_GB), hdr(LevelStatType::RNP1_GB), hdr(LevelStatType::WRITE_GB), hdr(LevelStatType::W_NEW_GB), hdr(LevelStatType::MOVED_GB), hdr(LevelStatType::WRITE_AMP), hdr(LevelStatType::READ_MBPS), hdr(LevelStatType::WRITE_MBPS), hdr(LevelStatType::COMP_SEC), hdr(LevelStatType::COMP_COUNT), hdr(LevelStatType::AVG_SEC), hdr(LevelStatType::KEY_IN), hdr(LevelStatType::KEY_DROP)); written_size += line_size; snprintf(buf + written_size, len - written_size, "%s\n", std::string(line_size, '-').c_str()); } void PrepareLevelStats(std::map* level_stats, int num_files, int being_compacted, double total_file_size, double score, double w_amp, const InternalStats::CompactionStats& stats) { uint64_t bytes_read = stats.bytes_read_non_output_levels + stats.bytes_read_output_level; int64_t bytes_new = stats.bytes_written - stats.bytes_read_output_level; double elapsed = (stats.micros + 1) / kMicrosInSec; (*level_stats)[LevelStatType::NUM_FILES] = num_files; (*level_stats)[LevelStatType::COMPACTED_FILES] = being_compacted; (*level_stats)[LevelStatType::SIZE_BYTES] = total_file_size; (*level_stats)[LevelStatType::SCORE] = score; (*level_stats)[LevelStatType::READ_GB] = bytes_read / kGB; (*level_stats)[LevelStatType::RN_GB] = stats.bytes_read_non_output_levels / kGB; (*level_stats)[LevelStatType::RNP1_GB] = stats.bytes_read_output_level / kGB; (*level_stats)[LevelStatType::WRITE_GB] = stats.bytes_written / kGB; (*level_stats)[LevelStatType::W_NEW_GB] = bytes_new / kGB; (*level_stats)[LevelStatType::MOVED_GB] = stats.bytes_moved / kGB; (*level_stats)[LevelStatType::WRITE_AMP] = w_amp; (*level_stats)[LevelStatType::READ_MBPS] = bytes_read / kMB / elapsed; (*level_stats)[LevelStatType::WRITE_MBPS] = stats.bytes_written / kMB / elapsed; (*level_stats)[LevelStatType::COMP_SEC] = stats.micros / kMicrosInSec; (*level_stats)[LevelStatType::COMP_COUNT] = stats.count; (*level_stats)[LevelStatType::AVG_SEC] = stats.count == 0 ? 0 : stats.micros / kMicrosInSec / stats.count; (*level_stats)[LevelStatType::KEY_IN] = static_cast(stats.num_input_records); (*level_stats)[LevelStatType::KEY_DROP] = static_cast(stats.num_dropped_records); } void PrintLevelStats(char* buf, size_t len, const std::string& name, const std::map& stat_value) { snprintf( buf, len, "%4s " /* Level */ "%6d/%-3d " /* Files */ "%8s " /* Size */ "%5.1f " /* Score */ "%8.1f " /* Read(GB) */ "%7.1f " /* Rn(GB) */ "%8.1f " /* Rnp1(GB) */ "%9.1f " /* Write(GB) */ "%8.1f " /* Wnew(GB) */ "%9.1f " /* Moved(GB) */ "%5.1f " /* W-Amp */ "%8.1f " /* Rd(MB/s) */ "%8.1f " /* Wr(MB/s) */ "%9.0f " /* Comp(sec) */ "%9d " /* Comp(cnt) */ "%8.3f " /* Avg(sec) */ "%7s " /* KeyIn */ "%6s\n", /* KeyDrop */ name.c_str(), static_cast(stat_value.at(LevelStatType::NUM_FILES)), static_cast(stat_value.at(LevelStatType::COMPACTED_FILES)), BytesToHumanString( static_cast(stat_value.at(LevelStatType::SIZE_BYTES))) .c_str(), stat_value.at(LevelStatType::SCORE), stat_value.at(LevelStatType::READ_GB), stat_value.at(LevelStatType::RN_GB), stat_value.at(LevelStatType::RNP1_GB), stat_value.at(LevelStatType::WRITE_GB), stat_value.at(LevelStatType::W_NEW_GB), stat_value.at(LevelStatType::MOVED_GB), stat_value.at(LevelStatType::WRITE_AMP), stat_value.at(LevelStatType::READ_MBPS), stat_value.at(LevelStatType::WRITE_MBPS), stat_value.at(LevelStatType::COMP_SEC), static_cast(stat_value.at(LevelStatType::COMP_COUNT)), stat_value.at(LevelStatType::AVG_SEC), NumberToHumanString( static_cast(stat_value.at(LevelStatType::KEY_IN))) .c_str(), NumberToHumanString( static_cast(stat_value.at(LevelStatType::KEY_DROP))) .c_str()); } void PrintLevelStats(char* buf, size_t len, const std::string& name, int num_files, int being_compacted, double total_file_size, double score, double w_amp, const InternalStats::CompactionStats& stats) { std::map level_stats; PrepareLevelStats(&level_stats, num_files, being_compacted, total_file_size, score, w_amp, stats); PrintLevelStats(buf, len, name, level_stats); } // Assumes that trailing numbers represent an optional argument. This requires // property names to not end with numbers. std::pair GetPropertyNameAndArg(const Slice& property) { Slice name = property, arg = property; size_t sfx_len = 0; while (sfx_len < property.size() && isdigit(property[property.size() - sfx_len - 1])) { ++sfx_len; } name.remove_suffix(sfx_len); arg.remove_prefix(property.size() - sfx_len); return {name, arg}; } } // anonymous namespace static const std::string rocksdb_prefix = "rocksdb."; static const std::string num_files_at_level_prefix = "num-files-at-level"; static const std::string compression_ratio_at_level_prefix = "compression-ratio-at-level"; static const std::string allstats = "stats"; static const std::string sstables = "sstables"; static const std::string cfstats = "cfstats"; static const std::string cfstats_no_file_histogram = "cfstats-no-file-histogram"; static const std::string cf_file_histogram = "cf-file-histogram"; static const std::string dbstats = "dbstats"; static const std::string levelstats = "levelstats"; static const std::string num_immutable_mem_table = "num-immutable-mem-table"; static const std::string num_immutable_mem_table_flushed = "num-immutable-mem-table-flushed"; static const std::string mem_table_flush_pending = "mem-table-flush-pending"; static const std::string compaction_pending = "compaction-pending"; static const std::string background_errors = "background-errors"; static const std::string cur_size_active_mem_table = "cur-size-active-mem-table"; static const std::string cur_size_all_mem_tables = "cur-size-all-mem-tables"; static const std::string size_all_mem_tables = "size-all-mem-tables"; static const std::string num_entries_active_mem_table = "num-entries-active-mem-table"; static const std::string num_entries_imm_mem_tables = "num-entries-imm-mem-tables"; static const std::string num_deletes_active_mem_table = "num-deletes-active-mem-table"; static const std::string num_deletes_imm_mem_tables = "num-deletes-imm-mem-tables"; static const std::string estimate_num_keys = "estimate-num-keys"; static const std::string estimate_table_readers_mem = "estimate-table-readers-mem"; static const std::string is_file_deletions_enabled = "is-file-deletions-enabled"; static const std::string num_snapshots = "num-snapshots"; static const std::string oldest_snapshot_time = "oldest-snapshot-time"; static const std::string num_live_versions = "num-live-versions"; static const std::string current_version_number = "current-super-version-number"; static const std::string estimate_live_data_size = "estimate-live-data-size"; static const std::string min_log_number_to_keep_str = "min-log-number-to-keep"; static const std::string base_level_str = "base-level"; static const std::string total_sst_files_size = "total-sst-files-size"; static const std::string live_sst_files_size = "live-sst-files-size"; static const std::string estimate_pending_comp_bytes = "estimate-pending-compaction-bytes"; static const std::string aggregated_table_properties = "aggregated-table-properties"; static const std::string aggregated_table_properties_at_level = aggregated_table_properties + "-at-level"; static const std::string num_running_compactions = "num-running-compactions"; static const std::string num_running_flushes = "num-running-flushes"; static const std::string actual_delayed_write_rate = "actual-delayed-write-rate"; static const std::string is_write_stopped = "is-write-stopped"; static const std::string estimate_oldest_key_time = "estimate-oldest-key-time"; static const std::string block_cache_capacity = "block-cache-capacity"; static const std::string block_cache_usage = "block-cache-usage"; static const std::string block_cache_pinned_usage = "block-cache-pinned-usage"; static const std::string options_statistics = "options-statistics"; const std::string DB::Properties::kNumFilesAtLevelPrefix = rocksdb_prefix + num_files_at_level_prefix; const std::string DB::Properties::kCompressionRatioAtLevelPrefix = rocksdb_prefix + compression_ratio_at_level_prefix; const std::string DB::Properties::kStats = rocksdb_prefix + allstats; const std::string DB::Properties::kSSTables = rocksdb_prefix + sstables; const std::string DB::Properties::kCFStats = rocksdb_prefix + cfstats; const std::string DB::Properties::kCFStatsNoFileHistogram = rocksdb_prefix + cfstats_no_file_histogram; const std::string DB::Properties::kCFFileHistogram = rocksdb_prefix + cf_file_histogram; const std::string DB::Properties::kDBStats = rocksdb_prefix + dbstats; const std::string DB::Properties::kLevelStats = rocksdb_prefix + levelstats; const std::string DB::Properties::kNumImmutableMemTable = rocksdb_prefix + num_immutable_mem_table; const std::string DB::Properties::kNumImmutableMemTableFlushed = rocksdb_prefix + num_immutable_mem_table_flushed; const std::string DB::Properties::kMemTableFlushPending = rocksdb_prefix + mem_table_flush_pending; const std::string DB::Properties::kCompactionPending = rocksdb_prefix + compaction_pending; const std::string DB::Properties::kNumRunningCompactions = rocksdb_prefix + num_running_compactions; const std::string DB::Properties::kNumRunningFlushes = rocksdb_prefix + num_running_flushes; const std::string DB::Properties::kBackgroundErrors = rocksdb_prefix + background_errors; const std::string DB::Properties::kCurSizeActiveMemTable = rocksdb_prefix + cur_size_active_mem_table; const std::string DB::Properties::kCurSizeAllMemTables = rocksdb_prefix + cur_size_all_mem_tables; const std::string DB::Properties::kSizeAllMemTables = rocksdb_prefix + size_all_mem_tables; const std::string DB::Properties::kNumEntriesActiveMemTable = rocksdb_prefix + num_entries_active_mem_table; const std::string DB::Properties::kNumEntriesImmMemTables = rocksdb_prefix + num_entries_imm_mem_tables; const std::string DB::Properties::kNumDeletesActiveMemTable = rocksdb_prefix + num_deletes_active_mem_table; const std::string DB::Properties::kNumDeletesImmMemTables = rocksdb_prefix + num_deletes_imm_mem_tables; const std::string DB::Properties::kEstimateNumKeys = rocksdb_prefix + estimate_num_keys; const std::string DB::Properties::kEstimateTableReadersMem = rocksdb_prefix + estimate_table_readers_mem; const std::string DB::Properties::kIsFileDeletionsEnabled = rocksdb_prefix + is_file_deletions_enabled; const std::string DB::Properties::kNumSnapshots = rocksdb_prefix + num_snapshots; const std::string DB::Properties::kOldestSnapshotTime = rocksdb_prefix + oldest_snapshot_time; const std::string DB::Properties::kNumLiveVersions = rocksdb_prefix + num_live_versions; const std::string DB::Properties::kCurrentSuperVersionNumber = rocksdb_prefix + current_version_number; const std::string DB::Properties::kEstimateLiveDataSize = rocksdb_prefix + estimate_live_data_size; const std::string DB::Properties::kMinLogNumberToKeep = rocksdb_prefix + min_log_number_to_keep_str; const std::string DB::Properties::kTotalSstFilesSize = rocksdb_prefix + total_sst_files_size; const std::string DB::Properties::kLiveSstFilesSize = rocksdb_prefix + live_sst_files_size; const std::string DB::Properties::kBaseLevel = rocksdb_prefix + base_level_str; const std::string DB::Properties::kEstimatePendingCompactionBytes = rocksdb_prefix + estimate_pending_comp_bytes; const std::string DB::Properties::kAggregatedTableProperties = rocksdb_prefix + aggregated_table_properties; const std::string DB::Properties::kAggregatedTablePropertiesAtLevel = rocksdb_prefix + aggregated_table_properties_at_level; const std::string DB::Properties::kActualDelayedWriteRate = rocksdb_prefix + actual_delayed_write_rate; const std::string DB::Properties::kIsWriteStopped = rocksdb_prefix + is_write_stopped; const std::string DB::Properties::kEstimateOldestKeyTime = rocksdb_prefix + estimate_oldest_key_time; const std::string DB::Properties::kBlockCacheCapacity = rocksdb_prefix + block_cache_capacity; const std::string DB::Properties::kBlockCacheUsage = rocksdb_prefix + block_cache_usage; const std::string DB::Properties::kBlockCachePinnedUsage = rocksdb_prefix + block_cache_pinned_usage; const std::string DB::Properties::kOptionsStatistics = rocksdb_prefix + options_statistics; const std::unordered_map InternalStats::ppt_name_to_info = { {DB::Properties::kNumFilesAtLevelPrefix, {false, &InternalStats::HandleNumFilesAtLevel, nullptr, nullptr, nullptr}}, {DB::Properties::kCompressionRatioAtLevelPrefix, {false, &InternalStats::HandleCompressionRatioAtLevelPrefix, nullptr, nullptr, nullptr}}, {DB::Properties::kLevelStats, {false, &InternalStats::HandleLevelStats, nullptr, nullptr, nullptr}}, {DB::Properties::kStats, {false, &InternalStats::HandleStats, nullptr, nullptr, nullptr}}, {DB::Properties::kCFStats, {false, &InternalStats::HandleCFStats, nullptr, &InternalStats::HandleCFMapStats, nullptr}}, {DB::Properties::kCFStatsNoFileHistogram, {false, &InternalStats::HandleCFStatsNoFileHistogram, nullptr, nullptr, nullptr}}, {DB::Properties::kCFFileHistogram, {false, &InternalStats::HandleCFFileHistogram, nullptr, nullptr, nullptr}}, {DB::Properties::kDBStats, {false, &InternalStats::HandleDBStats, nullptr, nullptr, nullptr}}, {DB::Properties::kSSTables, {false, &InternalStats::HandleSsTables, nullptr, nullptr, nullptr}}, {DB::Properties::kAggregatedTableProperties, {false, &InternalStats::HandleAggregatedTableProperties, nullptr, nullptr, nullptr}}, {DB::Properties::kAggregatedTablePropertiesAtLevel, {false, &InternalStats::HandleAggregatedTablePropertiesAtLevel, nullptr, nullptr, nullptr}}, {DB::Properties::kNumImmutableMemTable, {false, nullptr, &InternalStats::HandleNumImmutableMemTable, nullptr, nullptr}}, {DB::Properties::kNumImmutableMemTableFlushed, {false, nullptr, &InternalStats::HandleNumImmutableMemTableFlushed, nullptr, nullptr}}, {DB::Properties::kMemTableFlushPending, {false, nullptr, &InternalStats::HandleMemTableFlushPending, nullptr, nullptr}}, {DB::Properties::kCompactionPending, {false, nullptr, &InternalStats::HandleCompactionPending, nullptr, nullptr}}, {DB::Properties::kBackgroundErrors, {false, nullptr, &InternalStats::HandleBackgroundErrors, nullptr, nullptr}}, {DB::Properties::kCurSizeActiveMemTable, {false, nullptr, &InternalStats::HandleCurSizeActiveMemTable, nullptr, nullptr}}, {DB::Properties::kCurSizeAllMemTables, {false, nullptr, &InternalStats::HandleCurSizeAllMemTables, nullptr, nullptr}}, {DB::Properties::kSizeAllMemTables, {false, nullptr, &InternalStats::HandleSizeAllMemTables, nullptr, nullptr}}, {DB::Properties::kNumEntriesActiveMemTable, {false, nullptr, &InternalStats::HandleNumEntriesActiveMemTable, nullptr, nullptr}}, {DB::Properties::kNumEntriesImmMemTables, {false, nullptr, &InternalStats::HandleNumEntriesImmMemTables, nullptr, nullptr}}, {DB::Properties::kNumDeletesActiveMemTable, {false, nullptr, &InternalStats::HandleNumDeletesActiveMemTable, nullptr, nullptr}}, {DB::Properties::kNumDeletesImmMemTables, {false, nullptr, &InternalStats::HandleNumDeletesImmMemTables, nullptr, nullptr}}, {DB::Properties::kEstimateNumKeys, {false, nullptr, &InternalStats::HandleEstimateNumKeys, nullptr, nullptr}}, {DB::Properties::kEstimateTableReadersMem, {true, nullptr, &InternalStats::HandleEstimateTableReadersMem, nullptr, nullptr}}, {DB::Properties::kIsFileDeletionsEnabled, {false, nullptr, &InternalStats::HandleIsFileDeletionsEnabled, nullptr, nullptr}}, {DB::Properties::kNumSnapshots, {false, nullptr, &InternalStats::HandleNumSnapshots, nullptr, nullptr}}, {DB::Properties::kOldestSnapshotTime, {false, nullptr, &InternalStats::HandleOldestSnapshotTime, nullptr, nullptr}}, {DB::Properties::kNumLiveVersions, {false, nullptr, &InternalStats::HandleNumLiveVersions, nullptr, nullptr}}, {DB::Properties::kCurrentSuperVersionNumber, {false, nullptr, &InternalStats::HandleCurrentSuperVersionNumber, nullptr, nullptr}}, {DB::Properties::kEstimateLiveDataSize, {true, nullptr, &InternalStats::HandleEstimateLiveDataSize, nullptr, nullptr}}, {DB::Properties::kMinLogNumberToKeep, {false, nullptr, &InternalStats::HandleMinLogNumberToKeep, nullptr, nullptr}}, {DB::Properties::kBaseLevel, {false, nullptr, &InternalStats::HandleBaseLevel, nullptr, nullptr}}, {DB::Properties::kTotalSstFilesSize, {false, nullptr, &InternalStats::HandleTotalSstFilesSize, nullptr, nullptr}}, {DB::Properties::kLiveSstFilesSize, {false, nullptr, &InternalStats::HandleLiveSstFilesSize, nullptr, nullptr}}, {DB::Properties::kEstimatePendingCompactionBytes, {false, nullptr, &InternalStats::HandleEstimatePendingCompactionBytes, nullptr, nullptr}}, {DB::Properties::kNumRunningFlushes, {false, nullptr, &InternalStats::HandleNumRunningFlushes, nullptr, nullptr}}, {DB::Properties::kNumRunningCompactions, {false, nullptr, &InternalStats::HandleNumRunningCompactions, nullptr, nullptr}}, {DB::Properties::kActualDelayedWriteRate, {false, nullptr, &InternalStats::HandleActualDelayedWriteRate, nullptr, nullptr}}, {DB::Properties::kIsWriteStopped, {false, nullptr, &InternalStats::HandleIsWriteStopped, nullptr, nullptr}}, {DB::Properties::kEstimateOldestKeyTime, {false, nullptr, &InternalStats::HandleEstimateOldestKeyTime, nullptr, nullptr}}, {DB::Properties::kBlockCacheCapacity, {false, nullptr, &InternalStats::HandleBlockCacheCapacity, nullptr, nullptr}}, {DB::Properties::kBlockCacheUsage, {false, nullptr, &InternalStats::HandleBlockCacheUsage, nullptr, nullptr}}, {DB::Properties::kBlockCachePinnedUsage, {false, nullptr, &InternalStats::HandleBlockCachePinnedUsage, nullptr, nullptr}}, {DB::Properties::kOptionsStatistics, {false, nullptr, nullptr, nullptr, &DBImpl::GetPropertyHandleOptionsStatistics}}, }; const DBPropertyInfo* GetPropertyInfo(const Slice& property) { std::string ppt_name = GetPropertyNameAndArg(property).first.ToString(); auto ppt_info_iter = InternalStats::ppt_name_to_info.find(ppt_name); if (ppt_info_iter == InternalStats::ppt_name_to_info.end()) { return nullptr; } return &ppt_info_iter->second; } bool InternalStats::GetStringProperty(const DBPropertyInfo& property_info, const Slice& property, std::string* value) { assert(value != nullptr); assert(property_info.handle_string != nullptr); Slice arg = GetPropertyNameAndArg(property).second; return (this->*(property_info.handle_string))(value, arg); } bool InternalStats::GetMapProperty(const DBPropertyInfo& property_info, const Slice& /*property*/, std::map* value) { assert(value != nullptr); assert(property_info.handle_map != nullptr); return (this->*(property_info.handle_map))(value); } bool InternalStats::GetIntProperty(const DBPropertyInfo& property_info, uint64_t* value, DBImpl* db) { assert(value != nullptr); assert(property_info.handle_int != nullptr && !property_info.need_out_of_mutex); db->mutex_.AssertHeld(); return (this->*(property_info.handle_int))(value, db, nullptr /* version */); } bool InternalStats::GetIntPropertyOutOfMutex( const DBPropertyInfo& property_info, Version* version, uint64_t* value) { assert(value != nullptr); assert(property_info.handle_int != nullptr && property_info.need_out_of_mutex); return (this->*(property_info.handle_int))(value, nullptr /* db */, version); } bool InternalStats::HandleNumFilesAtLevel(std::string* value, Slice suffix) { uint64_t level; const auto* vstorage = cfd_->current()->storage_info(); bool ok = ConsumeDecimalNumber(&suffix, &level) && suffix.empty(); if (!ok || static_cast(level) >= number_levels_) { return false; } else { char buf[100]; snprintf(buf, sizeof(buf), "%d", vstorage->NumLevelFiles(static_cast(level))); *value = buf; return true; } } bool InternalStats::HandleCompressionRatioAtLevelPrefix(std::string* value, Slice suffix) { uint64_t level; const auto* vstorage = cfd_->current()->storage_info(); bool ok = ConsumeDecimalNumber(&suffix, &level) && suffix.empty(); if (!ok || level >= static_cast(number_levels_)) { return false; } *value = ToString( vstorage->GetEstimatedCompressionRatioAtLevel(static_cast(level))); return true; } bool InternalStats::HandleLevelStats(std::string* value, Slice /*suffix*/) { char buf[1000]; const auto* vstorage = cfd_->current()->storage_info(); snprintf(buf, sizeof(buf), "Level Files Size(MB)\n" "--------------------\n"); value->append(buf); for (int level = 0; level < number_levels_; level++) { snprintf(buf, sizeof(buf), "%3d %8d %8.0f\n", level, vstorage->NumLevelFiles(level), vstorage->NumLevelBytes(level) / kMB); value->append(buf); } return true; } bool InternalStats::HandleStats(std::string* value, Slice suffix) { if (!HandleCFStats(value, suffix)) { return false; } if (!HandleDBStats(value, suffix)) { return false; } return true; } bool InternalStats::HandleCFMapStats( std::map* cf_stats) { DumpCFMapStats(cf_stats); return true; } bool InternalStats::HandleCFStats(std::string* value, Slice /*suffix*/) { DumpCFStats(value); return true; } bool InternalStats::HandleCFStatsNoFileHistogram(std::string* value, Slice /*suffix*/) { DumpCFStatsNoFileHistogram(value); return true; } bool InternalStats::HandleCFFileHistogram(std::string* value, Slice /*suffix*/) { DumpCFFileHistogram(value); return true; } bool InternalStats::HandleDBStats(std::string* value, Slice /*suffix*/) { DumpDBStats(value); return true; } bool InternalStats::HandleSsTables(std::string* value, Slice /*suffix*/) { auto* current = cfd_->current(); *value = current->DebugString(true, true); return true; } bool InternalStats::HandleAggregatedTableProperties(std::string* value, Slice /*suffix*/) { std::shared_ptr tp; auto s = cfd_->current()->GetAggregatedTableProperties(&tp); if (!s.ok()) { return false; } *value = tp->ToString(); return true; } bool InternalStats::HandleAggregatedTablePropertiesAtLevel(std::string* value, Slice suffix) { uint64_t level; bool ok = ConsumeDecimalNumber(&suffix, &level) && suffix.empty(); if (!ok || static_cast(level) >= number_levels_) { return false; } std::shared_ptr tp; auto s = cfd_->current()->GetAggregatedTableProperties( &tp, static_cast(level)); if (!s.ok()) { return false; } *value = tp->ToString(); return true; } bool InternalStats::HandleNumImmutableMemTable(uint64_t* value, DBImpl* /*db*/, Version* /*version*/) { *value = cfd_->imm()->NumNotFlushed(); return true; } bool InternalStats::HandleNumImmutableMemTableFlushed(uint64_t* value, DBImpl* /*db*/, Version* /*version*/) { *value = cfd_->imm()->NumFlushed(); return true; } bool InternalStats::HandleMemTableFlushPending(uint64_t* value, DBImpl* /*db*/, Version* /*version*/) { // Return number of mem tables that are ready to flush (made immutable) *value = (cfd_->imm()->IsFlushPending() ? 1 : 0); return true; } bool InternalStats::HandleNumRunningFlushes(uint64_t* value, DBImpl* db, Version* /*version*/) { *value = db->num_running_flushes(); return true; } bool InternalStats::HandleCompactionPending(uint64_t* value, DBImpl* /*db*/, Version* /*version*/) { // 1 if the system already determines at least one compaction is needed. // 0 otherwise, const auto* vstorage = cfd_->current()->storage_info(); *value = (cfd_->compaction_picker()->NeedsCompaction(vstorage) ? 1 : 0); return true; } bool InternalStats::HandleNumRunningCompactions(uint64_t* value, DBImpl* db, Version* /*version*/) { *value = db->num_running_compactions_; return true; } bool InternalStats::HandleBackgroundErrors(uint64_t* value, DBImpl* /*db*/, Version* /*version*/) { // Accumulated number of errors in background flushes or compactions. *value = GetBackgroundErrorCount(); return true; } bool InternalStats::HandleCurSizeActiveMemTable(uint64_t* value, DBImpl* /*db*/, Version* /*version*/) { // Current size of the active memtable *value = cfd_->mem()->ApproximateMemoryUsage(); return true; } bool InternalStats::HandleCurSizeAllMemTables(uint64_t* value, DBImpl* /*db*/, Version* /*version*/) { // Current size of the active memtable + immutable memtables *value = cfd_->mem()->ApproximateMemoryUsage() + cfd_->imm()->ApproximateUnflushedMemTablesMemoryUsage(); return true; } bool InternalStats::HandleSizeAllMemTables(uint64_t* value, DBImpl* /*db*/, Version* /*version*/) { *value = cfd_->mem()->ApproximateMemoryUsage() + cfd_->imm()->ApproximateMemoryUsage(); return true; } bool InternalStats::HandleNumEntriesActiveMemTable(uint64_t* value, DBImpl* /*db*/, Version* /*version*/) { // Current number of entires in the active memtable *value = cfd_->mem()->num_entries(); return true; } bool InternalStats::HandleNumEntriesImmMemTables(uint64_t* value, DBImpl* /*db*/, Version* /*version*/) { // Current number of entries in the immutable memtables *value = cfd_->imm()->current()->GetTotalNumEntries(); return true; } bool InternalStats::HandleNumDeletesActiveMemTable(uint64_t* value, DBImpl* /*db*/, Version* /*version*/) { // Current number of entires in the active memtable *value = cfd_->mem()->num_deletes(); return true; } bool InternalStats::HandleNumDeletesImmMemTables(uint64_t* value, DBImpl* /*db*/, Version* /*version*/) { // Current number of entries in the immutable memtables *value = cfd_->imm()->current()->GetTotalNumDeletes(); return true; } bool InternalStats::HandleEstimateNumKeys(uint64_t* value, DBImpl* /*db*/, Version* /*version*/) { // Estimate number of entries in the column family: // Use estimated entries in tables + total entries in memtables. const auto* vstorage = cfd_->current()->storage_info(); uint64_t estimate_keys = cfd_->mem()->num_entries() + cfd_->imm()->current()->GetTotalNumEntries() + vstorage->GetEstimatedActiveKeys(); uint64_t estimate_deletes = cfd_->mem()->num_deletes() + cfd_->imm()->current()->GetTotalNumDeletes(); *value = estimate_keys > estimate_deletes * 2 ? estimate_keys - (estimate_deletes * 2) : 0; return true; } bool InternalStats::HandleNumSnapshots(uint64_t* value, DBImpl* db, Version* /*version*/) { *value = db->snapshots().count(); return true; } bool InternalStats::HandleOldestSnapshotTime(uint64_t* value, DBImpl* db, Version* /*version*/) { *value = static_cast(db->snapshots().GetOldestSnapshotTime()); return true; } bool InternalStats::HandleNumLiveVersions(uint64_t* value, DBImpl* /*db*/, Version* /*version*/) { *value = cfd_->GetNumLiveVersions(); return true; } bool InternalStats::HandleCurrentSuperVersionNumber(uint64_t* value, DBImpl* /*db*/, Version* /*version*/) { *value = cfd_->GetSuperVersionNumber(); return true; } bool InternalStats::HandleIsFileDeletionsEnabled(uint64_t* value, DBImpl* db, Version* /*version*/) { *value = db->IsFileDeletionsEnabled(); return true; } bool InternalStats::HandleBaseLevel(uint64_t* value, DBImpl* /*db*/, Version* /*version*/) { const auto* vstorage = cfd_->current()->storage_info(); *value = vstorage->base_level(); return true; } bool InternalStats::HandleTotalSstFilesSize(uint64_t* value, DBImpl* /*db*/, Version* /*version*/) { *value = cfd_->GetTotalSstFilesSize(); return true; } bool InternalStats::HandleLiveSstFilesSize(uint64_t* value, DBImpl* /*db*/, Version* /*version*/) { *value = cfd_->GetLiveSstFilesSize(); return true; } bool InternalStats::HandleEstimatePendingCompactionBytes(uint64_t* value, DBImpl* /*db*/, Version* /*version*/) { const auto* vstorage = cfd_->current()->storage_info(); *value = vstorage->estimated_compaction_needed_bytes(); return true; } bool InternalStats::HandleEstimateTableReadersMem(uint64_t* value, DBImpl* /*db*/, Version* version) { *value = (version == nullptr) ? 0 : version->GetMemoryUsageByTableReaders(); return true; } bool InternalStats::HandleEstimateLiveDataSize(uint64_t* value, DBImpl* /*db*/, Version* version) { const auto* vstorage = version->storage_info(); *value = vstorage->EstimateLiveDataSize(); return true; } bool InternalStats::HandleMinLogNumberToKeep(uint64_t* value, DBImpl* db, Version* /*version*/) { *value = db->MinLogNumberToKeep(); return true; } bool InternalStats::HandleActualDelayedWriteRate(uint64_t* value, DBImpl* db, Version* /*version*/) { const WriteController& wc = db->write_controller(); if (!wc.NeedsDelay()) { *value = 0; } else { *value = wc.delayed_write_rate(); } return true; } bool InternalStats::HandleIsWriteStopped(uint64_t* value, DBImpl* db, Version* /*version*/) { *value = db->write_controller().IsStopped() ? 1 : 0; return true; } bool InternalStats::HandleEstimateOldestKeyTime(uint64_t* value, DBImpl* /*db*/, Version* /*version*/) { // TODO(yiwu): The property is currently available for fifo compaction // with allow_compaction = false. This is because we don't propagate // oldest_key_time on compaction. if (cfd_->ioptions()->compaction_style != kCompactionStyleFIFO || cfd_->GetCurrentMutableCFOptions() ->compaction_options_fifo.allow_compaction) { return false; } TablePropertiesCollection collection; auto s = cfd_->current()->GetPropertiesOfAllTables(&collection); if (!s.ok()) { return false; } *value = std::numeric_limits::max(); for (auto& p : collection) { *value = std::min(*value, p.second->oldest_key_time); if (*value == 0) { break; } } if (*value > 0) { *value = std::min({cfd_->mem()->ApproximateOldestKeyTime(), cfd_->imm()->ApproximateOldestKeyTime(), *value}); } return *value > 0 && *value < std::numeric_limits::max(); } bool InternalStats::HandleBlockCacheStat(Cache** block_cache) { assert(block_cache != nullptr); auto* table_factory = cfd_->ioptions()->table_factory; assert(table_factory != nullptr); if (BlockBasedTableFactory::kName != table_factory->Name()) { return false; } auto* table_options = reinterpret_cast(table_factory->GetOptions()); if (table_options == nullptr) { return false; } *block_cache = table_options->block_cache.get(); if (table_options->no_block_cache || *block_cache == nullptr) { return false; } return true; } bool InternalStats::HandleBlockCacheCapacity(uint64_t* value, DBImpl* /*db*/, Version* /*version*/) { Cache* block_cache; bool ok = HandleBlockCacheStat(&block_cache); if (!ok) { return false; } *value = static_cast(block_cache->GetCapacity()); return true; } bool InternalStats::HandleBlockCacheUsage(uint64_t* value, DBImpl* /*db*/, Version* /*version*/) { Cache* block_cache; bool ok = HandleBlockCacheStat(&block_cache); if (!ok) { return false; } *value = static_cast(block_cache->GetUsage()); return true; } bool InternalStats::HandleBlockCachePinnedUsage(uint64_t* value, DBImpl* /*db*/, Version* /*version*/) { Cache* block_cache; bool ok = HandleBlockCacheStat(&block_cache); if (!ok) { return false; } *value = static_cast(block_cache->GetPinnedUsage()); return true; } void InternalStats::DumpDBStats(std::string* value) { char buf[1000]; // DB-level stats, only available from default column family double seconds_up = (env_->NowMicros() - started_at_ + 1) / kMicrosInSec; double interval_seconds_up = seconds_up - db_stats_snapshot_.seconds_up; snprintf(buf, sizeof(buf), "\n** DB Stats **\nUptime(secs): %.1f total, %.1f interval\n", seconds_up, interval_seconds_up); value->append(buf); // Cumulative uint64_t user_bytes_written = GetDBStats(InternalStats::BYTES_WRITTEN); uint64_t num_keys_written = GetDBStats(InternalStats::NUMBER_KEYS_WRITTEN); uint64_t write_other = GetDBStats(InternalStats::WRITE_DONE_BY_OTHER); uint64_t write_self = GetDBStats(InternalStats::WRITE_DONE_BY_SELF); uint64_t wal_bytes = GetDBStats(InternalStats::WAL_FILE_BYTES); uint64_t wal_synced = GetDBStats(InternalStats::WAL_FILE_SYNCED); uint64_t write_with_wal = GetDBStats(InternalStats::WRITE_WITH_WAL); uint64_t write_stall_micros = GetDBStats(InternalStats::WRITE_STALL_MICROS); const int kHumanMicrosLen = 32; char human_micros[kHumanMicrosLen]; // Data // writes: total number of write requests. // keys: total number of key updates issued by all the write requests // commit groups: number of group commits issued to the DB. Each group can // contain one or more writes. // so writes/keys is the average number of put in multi-put or put // writes/groups is the average group commit size. // // The format is the same for interval stats. snprintf(buf, sizeof(buf), "Cumulative writes: %s writes, %s keys, %s commit groups, " "%.1f writes per commit group, ingest: %.2f GB, %.2f MB/s\n", NumberToHumanString(write_other + write_self).c_str(), NumberToHumanString(num_keys_written).c_str(), NumberToHumanString(write_self).c_str(), (write_other + write_self) / static_cast(write_self + 1), user_bytes_written / kGB, user_bytes_written / kMB / seconds_up); value->append(buf); // WAL snprintf(buf, sizeof(buf), "Cumulative WAL: %s writes, %s syncs, " "%.2f writes per sync, written: %.2f GB, %.2f MB/s\n", NumberToHumanString(write_with_wal).c_str(), NumberToHumanString(wal_synced).c_str(), write_with_wal / static_cast(wal_synced + 1), wal_bytes / kGB, wal_bytes / kMB / seconds_up); value->append(buf); // Stall AppendHumanMicros(write_stall_micros, human_micros, kHumanMicrosLen, true); snprintf(buf, sizeof(buf), "Cumulative stall: %s, %.1f percent\n", human_micros, // 10000 = divide by 1M to get secs, then multiply by 100 for pct write_stall_micros / 10000.0 / std::max(seconds_up, 0.001)); value->append(buf); // Interval uint64_t interval_write_other = write_other - db_stats_snapshot_.write_other; uint64_t interval_write_self = write_self - db_stats_snapshot_.write_self; uint64_t interval_num_keys_written = num_keys_written - db_stats_snapshot_.num_keys_written; snprintf( buf, sizeof(buf), "Interval writes: %s writes, %s keys, %s commit groups, " "%.1f writes per commit group, ingest: %.2f MB, %.2f MB/s\n", NumberToHumanString(interval_write_other + interval_write_self).c_str(), NumberToHumanString(interval_num_keys_written).c_str(), NumberToHumanString(interval_write_self).c_str(), static_cast(interval_write_other + interval_write_self) / (interval_write_self + 1), (user_bytes_written - db_stats_snapshot_.ingest_bytes) / kMB, (user_bytes_written - db_stats_snapshot_.ingest_bytes) / kMB / std::max(interval_seconds_up, 0.001)), value->append(buf); uint64_t interval_write_with_wal = write_with_wal - db_stats_snapshot_.write_with_wal; uint64_t interval_wal_synced = wal_synced - db_stats_snapshot_.wal_synced; uint64_t interval_wal_bytes = wal_bytes - db_stats_snapshot_.wal_bytes; snprintf( buf, sizeof(buf), "Interval WAL: %s writes, %s syncs, " "%.2f writes per sync, written: %.2f MB, %.2f MB/s\n", NumberToHumanString(interval_write_with_wal).c_str(), NumberToHumanString(interval_wal_synced).c_str(), interval_write_with_wal / static_cast(interval_wal_synced + 1), interval_wal_bytes / kGB, interval_wal_bytes / kMB / std::max(interval_seconds_up, 0.001)); value->append(buf); // Stall AppendHumanMicros(write_stall_micros - db_stats_snapshot_.write_stall_micros, human_micros, kHumanMicrosLen, true); snprintf(buf, sizeof(buf), "Interval stall: %s, %.1f percent\n", human_micros, // 10000 = divide by 1M to get secs, then multiply by 100 for pct (write_stall_micros - db_stats_snapshot_.write_stall_micros) / 10000.0 / std::max(interval_seconds_up, 0.001)); value->append(buf); db_stats_snapshot_.seconds_up = seconds_up; db_stats_snapshot_.ingest_bytes = user_bytes_written; db_stats_snapshot_.write_other = write_other; db_stats_snapshot_.write_self = write_self; db_stats_snapshot_.num_keys_written = num_keys_written; db_stats_snapshot_.wal_bytes = wal_bytes; db_stats_snapshot_.wal_synced = wal_synced; db_stats_snapshot_.write_with_wal = write_with_wal; db_stats_snapshot_.write_stall_micros = write_stall_micros; } /** * Dump Compaction Level stats to a map of stat name with "compaction." prefix * to value in double as string. The level in stat name is represented with * a prefix "Lx" where "x" is the level number. A special level "Sum" * represents the sum of a stat for all levels. * The result also contains IO stall counters which keys start with "io_stalls." * and values represent uint64 encoded as strings. */ void InternalStats::DumpCFMapStats( std::map* cf_stats) { CompactionStats compaction_stats_sum; std::map> levels_stats; DumpCFMapStats(&levels_stats, &compaction_stats_sum); for (auto const& level_ent : levels_stats) { auto level_str = level_ent.first == -1 ? "Sum" : "L" + ToString(level_ent.first); for (auto const& stat_ent : level_ent.second) { auto stat_type = stat_ent.first; auto key_str = "compaction." + level_str + "." + InternalStats::compaction_level_stats.at(stat_type).property_name; (*cf_stats)[key_str] = std::to_string(stat_ent.second); } } DumpCFMapStatsIOStalls(cf_stats); } void InternalStats::DumpCFMapStats( std::map>* levels_stats, CompactionStats* compaction_stats_sum) { const VersionStorageInfo* vstorage = cfd_->current()->storage_info(); int num_levels_to_check = (cfd_->ioptions()->compaction_style != kCompactionStyleFIFO) ? vstorage->num_levels() - 1 : 1; // Compaction scores are sorted based on its value. Restore them to the // level order std::vector compaction_score(number_levels_, 0); for (int i = 0; i < num_levels_to_check; ++i) { compaction_score[vstorage->CompactionScoreLevel(i)] = vstorage->CompactionScore(i); } // Count # of files being compacted for each level std::vector files_being_compacted(number_levels_, 0); for (int level = 0; level < number_levels_; ++level) { for (auto* f : vstorage->LevelFiles(level)) { if (f->being_compacted) { ++files_being_compacted[level]; } } } int total_files = 0; int total_files_being_compacted = 0; double total_file_size = 0; uint64_t flush_ingest = cf_stats_value_[BYTES_FLUSHED]; uint64_t add_file_ingest = cf_stats_value_[BYTES_INGESTED_ADD_FILE]; uint64_t curr_ingest = flush_ingest + add_file_ingest; for (int level = 0; level < number_levels_; level++) { int files = vstorage->NumLevelFiles(level); total_files += files; total_files_being_compacted += files_being_compacted[level]; if (comp_stats_[level].micros > 0 || files > 0) { compaction_stats_sum->Add(comp_stats_[level]); total_file_size += vstorage->NumLevelBytes(level); uint64_t input_bytes; if (level == 0) { input_bytes = curr_ingest; } else { input_bytes = comp_stats_[level].bytes_read_non_output_levels; } double w_amp = (input_bytes == 0) ? 0.0 : static_cast(comp_stats_[level].bytes_written) / input_bytes; std::map level_stats; PrepareLevelStats(&level_stats, files, files_being_compacted[level], static_cast(vstorage->NumLevelBytes(level)), compaction_score[level], w_amp, comp_stats_[level]); (*levels_stats)[level] = level_stats; } } // Cumulative summary double w_amp = compaction_stats_sum->bytes_written / static_cast(curr_ingest + 1); // Stats summary across levels std::map sum_stats; PrepareLevelStats(&sum_stats, total_files, total_files_being_compacted, total_file_size, 0, w_amp, *compaction_stats_sum); (*levels_stats)[-1] = sum_stats; // -1 is for the Sum level } void InternalStats::DumpCFMapStatsIOStalls( std::map* cf_stats) { (*cf_stats)["io_stalls.level0_slowdown"] = std::to_string(cf_stats_count_[L0_FILE_COUNT_LIMIT_SLOWDOWNS]); (*cf_stats)["io_stalls.level0_slowdown_with_compaction"] = std::to_string(cf_stats_count_[LOCKED_L0_FILE_COUNT_LIMIT_SLOWDOWNS]); (*cf_stats)["io_stalls.level0_numfiles"] = std::to_string(cf_stats_count_[L0_FILE_COUNT_LIMIT_STOPS]); (*cf_stats)["io_stalls.level0_numfiles_with_compaction"] = std::to_string(cf_stats_count_[LOCKED_L0_FILE_COUNT_LIMIT_STOPS]); (*cf_stats)["io_stalls.stop_for_pending_compaction_bytes"] = std::to_string(cf_stats_count_[PENDING_COMPACTION_BYTES_LIMIT_STOPS]); (*cf_stats)["io_stalls.slowdown_for_pending_compaction_bytes"] = std::to_string(cf_stats_count_[PENDING_COMPACTION_BYTES_LIMIT_SLOWDOWNS]); (*cf_stats)["io_stalls.memtable_compaction"] = std::to_string(cf_stats_count_[MEMTABLE_LIMIT_STOPS]); (*cf_stats)["io_stalls.memtable_slowdown"] = std::to_string(cf_stats_count_[MEMTABLE_LIMIT_SLOWDOWNS]); uint64_t total_stop = cf_stats_count_[L0_FILE_COUNT_LIMIT_STOPS] + cf_stats_count_[PENDING_COMPACTION_BYTES_LIMIT_STOPS] + cf_stats_count_[MEMTABLE_LIMIT_STOPS]; uint64_t total_slowdown = cf_stats_count_[L0_FILE_COUNT_LIMIT_SLOWDOWNS] + cf_stats_count_[PENDING_COMPACTION_BYTES_LIMIT_SLOWDOWNS] + cf_stats_count_[MEMTABLE_LIMIT_SLOWDOWNS]; (*cf_stats)["io_stalls.total_stop"] = std::to_string(total_stop); (*cf_stats)["io_stalls.total_slowdown"] = std::to_string(total_slowdown); } void InternalStats::DumpCFStats(std::string* value) { DumpCFStatsNoFileHistogram(value); DumpCFFileHistogram(value); } void InternalStats::DumpCFStatsNoFileHistogram(std::string* value) { char buf[2000]; // Per-ColumnFamily stats PrintLevelStatsHeader(buf, sizeof(buf), cfd_->GetName()); value->append(buf); // Print stats for each level std::map> levels_stats; CompactionStats compaction_stats_sum; DumpCFMapStats(&levels_stats, &compaction_stats_sum); for (int l = 0; l < number_levels_; ++l) { if (levels_stats.find(l) != levels_stats.end()) { PrintLevelStats(buf, sizeof(buf), "L" + ToString(l), levels_stats[l]); value->append(buf); } } // Print sum of level stats PrintLevelStats(buf, sizeof(buf), "Sum", levels_stats[-1]); value->append(buf); uint64_t flush_ingest = cf_stats_value_[BYTES_FLUSHED]; uint64_t add_file_ingest = cf_stats_value_[BYTES_INGESTED_ADD_FILE]; uint64_t ingest_files_addfile = cf_stats_value_[INGESTED_NUM_FILES_TOTAL]; uint64_t ingest_l0_files_addfile = cf_stats_value_[INGESTED_LEVEL0_NUM_FILES_TOTAL]; uint64_t ingest_keys_addfile = cf_stats_value_[INGESTED_NUM_KEYS_TOTAL]; // Cumulative summary uint64_t total_stall_count = cf_stats_count_[L0_FILE_COUNT_LIMIT_SLOWDOWNS] + cf_stats_count_[L0_FILE_COUNT_LIMIT_STOPS] + cf_stats_count_[PENDING_COMPACTION_BYTES_LIMIT_SLOWDOWNS] + cf_stats_count_[PENDING_COMPACTION_BYTES_LIMIT_STOPS] + cf_stats_count_[MEMTABLE_LIMIT_STOPS] + cf_stats_count_[MEMTABLE_LIMIT_SLOWDOWNS]; // Interval summary uint64_t interval_flush_ingest = flush_ingest - cf_stats_snapshot_.ingest_bytes_flush; uint64_t interval_add_file_inget = add_file_ingest - cf_stats_snapshot_.ingest_bytes_addfile; uint64_t interval_ingest = interval_flush_ingest + interval_add_file_inget + 1; CompactionStats interval_stats(compaction_stats_sum); interval_stats.Subtract(cf_stats_snapshot_.comp_stats); double w_amp = interval_stats.bytes_written / static_cast(interval_ingest); PrintLevelStats(buf, sizeof(buf), "Int", 0, 0, 0, 0, w_amp, interval_stats); value->append(buf); double seconds_up = (env_->NowMicros() - started_at_ + 1) / kMicrosInSec; double interval_seconds_up = seconds_up - cf_stats_snapshot_.seconds_up; snprintf(buf, sizeof(buf), "Uptime(secs): %.1f total, %.1f interval\n", seconds_up, interval_seconds_up); value->append(buf); snprintf(buf, sizeof(buf), "Flush(GB): cumulative %.3f, interval %.3f\n", flush_ingest / kGB, interval_flush_ingest / kGB); value->append(buf); snprintf(buf, sizeof(buf), "AddFile(GB): cumulative %.3f, interval %.3f\n", add_file_ingest / kGB, interval_add_file_inget / kGB); value->append(buf); uint64_t interval_ingest_files_addfile = ingest_files_addfile - cf_stats_snapshot_.ingest_files_addfile; snprintf(buf, sizeof(buf), "AddFile(Total Files): cumulative %" PRIu64 ", interval %" PRIu64 "\n", ingest_files_addfile, interval_ingest_files_addfile); value->append(buf); uint64_t interval_ingest_l0_files_addfile = ingest_l0_files_addfile - cf_stats_snapshot_.ingest_l0_files_addfile; snprintf(buf, sizeof(buf), "AddFile(L0 Files): cumulative %" PRIu64 ", interval %" PRIu64 "\n", ingest_l0_files_addfile, interval_ingest_l0_files_addfile); value->append(buf); uint64_t interval_ingest_keys_addfile = ingest_keys_addfile - cf_stats_snapshot_.ingest_keys_addfile; snprintf(buf, sizeof(buf), "AddFile(Keys): cumulative %" PRIu64 ", interval %" PRIu64 "\n", ingest_keys_addfile, interval_ingest_keys_addfile); value->append(buf); // Compact uint64_t compact_bytes_read = 0; uint64_t compact_bytes_write = 0; uint64_t compact_micros = 0; for (int level = 0; level < number_levels_; level++) { compact_bytes_read += comp_stats_[level].bytes_read_output_level + comp_stats_[level].bytes_read_non_output_levels; compact_bytes_write += comp_stats_[level].bytes_written; compact_micros += comp_stats_[level].micros; } snprintf(buf, sizeof(buf), "Cumulative compaction: %.2f GB write, %.2f MB/s write, " "%.2f GB read, %.2f MB/s read, %.1f seconds\n", compact_bytes_write / kGB, compact_bytes_write / kMB / seconds_up, compact_bytes_read / kGB, compact_bytes_read / kMB / seconds_up, compact_micros / kMicrosInSec); value->append(buf); // Compaction interval uint64_t interval_compact_bytes_write = compact_bytes_write - cf_stats_snapshot_.compact_bytes_write; uint64_t interval_compact_bytes_read = compact_bytes_read - cf_stats_snapshot_.compact_bytes_read; uint64_t interval_compact_micros = compact_micros - cf_stats_snapshot_.compact_micros; snprintf( buf, sizeof(buf), "Interval compaction: %.2f GB write, %.2f MB/s write, " "%.2f GB read, %.2f MB/s read, %.1f seconds\n", interval_compact_bytes_write / kGB, interval_compact_bytes_write / kMB / std::max(interval_seconds_up, 0.001), interval_compact_bytes_read / kGB, interval_compact_bytes_read / kMB / std::max(interval_seconds_up, 0.001), interval_compact_micros / kMicrosInSec); value->append(buf); cf_stats_snapshot_.compact_bytes_write = compact_bytes_write; cf_stats_snapshot_.compact_bytes_read = compact_bytes_read; cf_stats_snapshot_.compact_micros = compact_micros; snprintf(buf, sizeof(buf), "Stalls(count): %" PRIu64 " level0_slowdown, " "%" PRIu64 " level0_slowdown_with_compaction, " "%" PRIu64 " level0_numfiles, " "%" PRIu64 " level0_numfiles_with_compaction, " "%" PRIu64 " stop for pending_compaction_bytes, " "%" PRIu64 " slowdown for pending_compaction_bytes, " "%" PRIu64 " memtable_compaction, " "%" PRIu64 " memtable_slowdown, " "interval %" PRIu64 " total count\n", cf_stats_count_[L0_FILE_COUNT_LIMIT_SLOWDOWNS], cf_stats_count_[LOCKED_L0_FILE_COUNT_LIMIT_SLOWDOWNS], cf_stats_count_[L0_FILE_COUNT_LIMIT_STOPS], cf_stats_count_[LOCKED_L0_FILE_COUNT_LIMIT_STOPS], cf_stats_count_[PENDING_COMPACTION_BYTES_LIMIT_STOPS], cf_stats_count_[PENDING_COMPACTION_BYTES_LIMIT_SLOWDOWNS], cf_stats_count_[MEMTABLE_LIMIT_STOPS], cf_stats_count_[MEMTABLE_LIMIT_SLOWDOWNS], total_stall_count - cf_stats_snapshot_.stall_count); value->append(buf); cf_stats_snapshot_.seconds_up = seconds_up; cf_stats_snapshot_.ingest_bytes_flush = flush_ingest; cf_stats_snapshot_.ingest_bytes_addfile = add_file_ingest; cf_stats_snapshot_.ingest_files_addfile = ingest_files_addfile; cf_stats_snapshot_.ingest_l0_files_addfile = ingest_l0_files_addfile; cf_stats_snapshot_.ingest_keys_addfile = ingest_keys_addfile; cf_stats_snapshot_.comp_stats = compaction_stats_sum; cf_stats_snapshot_.stall_count = total_stall_count; } void InternalStats::DumpCFFileHistogram(std::string* value) { char buf[2000]; snprintf(buf, sizeof(buf), "\n** File Read Latency Histogram By Level [%s] **\n", cfd_->GetName().c_str()); value->append(buf); for (int level = 0; level < number_levels_; level++) { if (!file_read_latency_[level].Empty()) { char buf2[5000]; snprintf(buf2, sizeof(buf2), "** Level %d read latency histogram (micros):\n%s\n", level, file_read_latency_[level].ToString().c_str()); value->append(buf2); } } } #else const DBPropertyInfo* GetPropertyInfo(const Slice& /*property*/) { return nullptr; } #endif // !ROCKSDB_LITE } // namespace rocksdb rocksdb-5.17.2/db/internal_stats.h000066400000000000000000000556521337235545400170550ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. // #pragma once #include #include #include #include "db/version_set.h" class ColumnFamilyData; namespace rocksdb { class DBImpl; class MemTableList; // Config for retrieving a property's value. struct DBPropertyInfo { bool need_out_of_mutex; // gcc had an internal error for initializing union of pointer-to-member- // functions. Workaround is to populate exactly one of the following function // pointers with a non-nullptr value. // @param value Value-result argument for storing the property's string value // @param suffix Argument portion of the property. For example, suffix would // be "5" for the property "rocksdb.num-files-at-level5". So far, only // certain string properties take an argument. bool (InternalStats::*handle_string)(std::string* value, Slice suffix); // @param value Value-result argument for storing the property's uint64 value // @param db Many of the int properties rely on DBImpl methods. // @param version Version is needed in case the property is retrieved without // holding db mutex, which is only supported for int properties. bool (InternalStats::*handle_int)(uint64_t* value, DBImpl* db, Version* version); // @param props Map of general properties to populate bool (InternalStats::*handle_map)(std::map* props); // handle the string type properties rely on DBImpl methods // @param value Value-result argument for storing the property's string value bool (DBImpl::*handle_string_dbimpl)(std::string* value); }; extern const DBPropertyInfo* GetPropertyInfo(const Slice& property); #ifndef ROCKSDB_LITE #undef SCORE enum class LevelStatType { INVALID = 0, NUM_FILES, COMPACTED_FILES, SIZE_BYTES, SCORE, READ_GB, RN_GB, RNP1_GB, WRITE_GB, W_NEW_GB, MOVED_GB, WRITE_AMP, READ_MBPS, WRITE_MBPS, COMP_SEC, COMP_COUNT, AVG_SEC, KEY_IN, KEY_DROP, TOTAL // total number of types }; struct LevelStat { // This what will be L?.property_name in the flat map returned to the user std::string property_name; // This will be what we will print in the header in the cli std::string header_name; }; class InternalStats { public: static const std::map compaction_level_stats; enum InternalCFStatsType { L0_FILE_COUNT_LIMIT_SLOWDOWNS, LOCKED_L0_FILE_COUNT_LIMIT_SLOWDOWNS, MEMTABLE_LIMIT_STOPS, MEMTABLE_LIMIT_SLOWDOWNS, L0_FILE_COUNT_LIMIT_STOPS, LOCKED_L0_FILE_COUNT_LIMIT_STOPS, PENDING_COMPACTION_BYTES_LIMIT_SLOWDOWNS, PENDING_COMPACTION_BYTES_LIMIT_STOPS, WRITE_STALLS_ENUM_MAX, BYTES_FLUSHED, BYTES_INGESTED_ADD_FILE, INGESTED_NUM_FILES_TOTAL, INGESTED_LEVEL0_NUM_FILES_TOTAL, INGESTED_NUM_KEYS_TOTAL, INTERNAL_CF_STATS_ENUM_MAX, }; enum InternalDBStatsType { WAL_FILE_BYTES, WAL_FILE_SYNCED, BYTES_WRITTEN, NUMBER_KEYS_WRITTEN, WRITE_DONE_BY_OTHER, WRITE_DONE_BY_SELF, WRITE_WITH_WAL, WRITE_STALL_MICROS, INTERNAL_DB_STATS_ENUM_MAX, }; InternalStats(int num_levels, Env* env, ColumnFamilyData* cfd) : db_stats_{}, cf_stats_value_{}, cf_stats_count_{}, comp_stats_(num_levels), file_read_latency_(num_levels), bg_error_count_(0), number_levels_(num_levels), env_(env), cfd_(cfd), started_at_(env->NowMicros()) {} // Per level compaction stats. comp_stats_[level] stores the stats for // compactions that produced data for the specified "level". struct CompactionStats { uint64_t micros; // The number of bytes read from all non-output levels uint64_t bytes_read_non_output_levels; // The number of bytes read from the compaction output level. uint64_t bytes_read_output_level; // Total number of bytes written during compaction uint64_t bytes_written; // Total number of bytes moved to the output level uint64_t bytes_moved; // The number of compaction input files in all non-output levels. int num_input_files_in_non_output_levels; // The number of compaction input files in the output level. int num_input_files_in_output_level; // The number of compaction output files. int num_output_files; // Total incoming entries during compaction between levels N and N+1 uint64_t num_input_records; // Accumulated diff number of entries // (num input entries - num output entires) for compaction levels N and N+1 uint64_t num_dropped_records; // Number of compactions done int count; // Number of compactions done per CompactionReason int counts[static_cast(CompactionReason::kNumOfReasons)]; explicit CompactionStats() : micros(0), bytes_read_non_output_levels(0), bytes_read_output_level(0), bytes_written(0), bytes_moved(0), num_input_files_in_non_output_levels(0), num_input_files_in_output_level(0), num_output_files(0), num_input_records(0), num_dropped_records(0), count(0) { int num_of_reasons = static_cast(CompactionReason::kNumOfReasons); for (int i = 0; i < num_of_reasons; i++) { counts[i] = 0; } } explicit CompactionStats(CompactionReason reason, int c) : micros(0), bytes_read_non_output_levels(0), bytes_read_output_level(0), bytes_written(0), bytes_moved(0), num_input_files_in_non_output_levels(0), num_input_files_in_output_level(0), num_output_files(0), num_input_records(0), num_dropped_records(0), count(c) { int num_of_reasons = static_cast(CompactionReason::kNumOfReasons); for (int i = 0; i < num_of_reasons; i++) { counts[i] = 0; } int r = static_cast(reason); if (r >= 0 && r < num_of_reasons) { counts[r] = c; } else { count = 0; } } explicit CompactionStats(const CompactionStats& c) : micros(c.micros), bytes_read_non_output_levels(c.bytes_read_non_output_levels), bytes_read_output_level(c.bytes_read_output_level), bytes_written(c.bytes_written), bytes_moved(c.bytes_moved), num_input_files_in_non_output_levels( c.num_input_files_in_non_output_levels), num_input_files_in_output_level( c.num_input_files_in_output_level), num_output_files(c.num_output_files), num_input_records(c.num_input_records), num_dropped_records(c.num_dropped_records), count(c.count) { int num_of_reasons = static_cast(CompactionReason::kNumOfReasons); for (int i = 0; i < num_of_reasons; i++) { counts[i] = c.counts[i]; } } void Clear() { this->micros = 0; this->bytes_read_non_output_levels = 0; this->bytes_read_output_level = 0; this->bytes_written = 0; this->bytes_moved = 0; this->num_input_files_in_non_output_levels = 0; this->num_input_files_in_output_level = 0; this->num_output_files = 0; this->num_input_records = 0; this->num_dropped_records = 0; this->count = 0; int num_of_reasons = static_cast(CompactionReason::kNumOfReasons); for (int i = 0; i < num_of_reasons; i++) { counts[i] = 0; } } void Add(const CompactionStats& c) { this->micros += c.micros; this->bytes_read_non_output_levels += c.bytes_read_non_output_levels; this->bytes_read_output_level += c.bytes_read_output_level; this->bytes_written += c.bytes_written; this->bytes_moved += c.bytes_moved; this->num_input_files_in_non_output_levels += c.num_input_files_in_non_output_levels; this->num_input_files_in_output_level += c.num_input_files_in_output_level; this->num_output_files += c.num_output_files; this->num_input_records += c.num_input_records; this->num_dropped_records += c.num_dropped_records; this->count += c.count; int num_of_reasons = static_cast(CompactionReason::kNumOfReasons); for (int i = 0; i< num_of_reasons; i++) { counts[i] += c.counts[i]; } } void Subtract(const CompactionStats& c) { this->micros -= c.micros; this->bytes_read_non_output_levels -= c.bytes_read_non_output_levels; this->bytes_read_output_level -= c.bytes_read_output_level; this->bytes_written -= c.bytes_written; this->bytes_moved -= c.bytes_moved; this->num_input_files_in_non_output_levels -= c.num_input_files_in_non_output_levels; this->num_input_files_in_output_level -= c.num_input_files_in_output_level; this->num_output_files -= c.num_output_files; this->num_input_records -= c.num_input_records; this->num_dropped_records -= c.num_dropped_records; this->count -= c.count; int num_of_reasons = static_cast(CompactionReason::kNumOfReasons); for (int i = 0; i < num_of_reasons; i++) { counts[i] -= c.counts[i]; } } }; void Clear() { for (int i = 0; i < INTERNAL_DB_STATS_ENUM_MAX; i++) { db_stats_[i].store(0); } for (int i = 0; i < INTERNAL_CF_STATS_ENUM_MAX; i++) { cf_stats_count_[i] = 0; cf_stats_value_[i] = 0; } for (auto& comp_stat : comp_stats_) { comp_stat.Clear(); } for (auto& h : file_read_latency_) { h.Clear(); } cf_stats_snapshot_.Clear(); db_stats_snapshot_.Clear(); bg_error_count_ = 0; started_at_ = env_->NowMicros(); } void AddCompactionStats(int level, const CompactionStats& stats) { comp_stats_[level].Add(stats); } void IncBytesMoved(int level, uint64_t amount) { comp_stats_[level].bytes_moved += amount; } void AddCFStats(InternalCFStatsType type, uint64_t value) { cf_stats_value_[type] += value; ++cf_stats_count_[type]; } void AddDBStats(InternalDBStatsType type, uint64_t value, bool concurrent = false) { auto& v = db_stats_[type]; if (concurrent) { v.fetch_add(value, std::memory_order_relaxed); } else { v.store(v.load(std::memory_order_relaxed) + value, std::memory_order_relaxed); } } uint64_t GetDBStats(InternalDBStatsType type) { return db_stats_[type].load(std::memory_order_relaxed); } HistogramImpl* GetFileReadHist(int level) { return &file_read_latency_[level]; } uint64_t GetBackgroundErrorCount() const { return bg_error_count_; } uint64_t BumpAndGetBackgroundErrorCount() { return ++bg_error_count_; } bool GetStringProperty(const DBPropertyInfo& property_info, const Slice& property, std::string* value); bool GetMapProperty(const DBPropertyInfo& property_info, const Slice& property, std::map* value); bool GetIntProperty(const DBPropertyInfo& property_info, uint64_t* value, DBImpl* db); bool GetIntPropertyOutOfMutex(const DBPropertyInfo& property_info, Version* version, uint64_t* value); const std::vector& TEST_GetCompactionStats() const { return comp_stats_; } // Store a mapping from the user-facing DB::Properties string to our // DBPropertyInfo struct used internally for retrieving properties. static const std::unordered_map ppt_name_to_info; private: void DumpDBStats(std::string* value); void DumpCFMapStats(std::map* cf_stats); void DumpCFMapStats( std::map>* level_stats, CompactionStats* compaction_stats_sum); void DumpCFMapStatsIOStalls(std::map* cf_stats); void DumpCFStats(std::string* value); void DumpCFStatsNoFileHistogram(std::string* value); void DumpCFFileHistogram(std::string* value); bool HandleBlockCacheStat(Cache** block_cache); // Per-DB stats std::atomic db_stats_[INTERNAL_DB_STATS_ENUM_MAX]; // Per-ColumnFamily stats uint64_t cf_stats_value_[INTERNAL_CF_STATS_ENUM_MAX]; uint64_t cf_stats_count_[INTERNAL_CF_STATS_ENUM_MAX]; // Per-ColumnFamily/level compaction stats std::vector comp_stats_; std::vector file_read_latency_; // Used to compute per-interval statistics struct CFStatsSnapshot { // ColumnFamily-level stats CompactionStats comp_stats; uint64_t ingest_bytes_flush; // Bytes written to L0 (Flush) uint64_t stall_count; // Stall count // Stats from compaction jobs - bytes written, bytes read, duration. uint64_t compact_bytes_write; uint64_t compact_bytes_read; uint64_t compact_micros; double seconds_up; // AddFile specific stats uint64_t ingest_bytes_addfile; // Total Bytes ingested uint64_t ingest_files_addfile; // Total number of files ingested uint64_t ingest_l0_files_addfile; // Total number of files ingested to L0 uint64_t ingest_keys_addfile; // Total number of keys ingested CFStatsSnapshot() : ingest_bytes_flush(0), stall_count(0), compact_bytes_write(0), compact_bytes_read(0), compact_micros(0), seconds_up(0), ingest_bytes_addfile(0), ingest_files_addfile(0), ingest_l0_files_addfile(0), ingest_keys_addfile(0) {} void Clear() { comp_stats.Clear(); ingest_bytes_flush = 0; stall_count = 0; compact_bytes_write = 0; compact_bytes_read = 0; compact_micros = 0; seconds_up = 0; ingest_bytes_addfile = 0; ingest_files_addfile = 0; ingest_l0_files_addfile = 0; ingest_keys_addfile = 0; } } cf_stats_snapshot_; struct DBStatsSnapshot { // DB-level stats uint64_t ingest_bytes; // Bytes written by user uint64_t wal_bytes; // Bytes written to WAL uint64_t wal_synced; // Number of times WAL is synced uint64_t write_with_wal; // Number of writes that request WAL // These count the number of writes processed by the calling thread or // another thread. uint64_t write_other; uint64_t write_self; // Total number of keys written. write_self and write_other measure number // of write requests written, Each of the write request can contain updates // to multiple keys. num_keys_written is total number of keys updated by all // those writes. uint64_t num_keys_written; // Total time writes delayed by stalls. uint64_t write_stall_micros; double seconds_up; DBStatsSnapshot() : ingest_bytes(0), wal_bytes(0), wal_synced(0), write_with_wal(0), write_other(0), write_self(0), num_keys_written(0), write_stall_micros(0), seconds_up(0) {} void Clear() { ingest_bytes = 0; wal_bytes = 0; wal_synced = 0; write_with_wal = 0; write_other = 0; write_self = 0; num_keys_written = 0; write_stall_micros = 0; seconds_up = 0; } } db_stats_snapshot_; // Handler functions for getting property values. They use "value" as a value- // result argument, and return true upon successfully setting "value". bool HandleNumFilesAtLevel(std::string* value, Slice suffix); bool HandleCompressionRatioAtLevelPrefix(std::string* value, Slice suffix); bool HandleLevelStats(std::string* value, Slice suffix); bool HandleStats(std::string* value, Slice suffix); bool HandleCFMapStats(std::map* compaction_stats); bool HandleCFStats(std::string* value, Slice suffix); bool HandleCFStatsNoFileHistogram(std::string* value, Slice suffix); bool HandleCFFileHistogram(std::string* value, Slice suffix); bool HandleDBStats(std::string* value, Slice suffix); bool HandleSsTables(std::string* value, Slice suffix); bool HandleAggregatedTableProperties(std::string* value, Slice suffix); bool HandleAggregatedTablePropertiesAtLevel(std::string* value, Slice suffix); bool HandleNumImmutableMemTable(uint64_t* value, DBImpl* db, Version* version); bool HandleNumImmutableMemTableFlushed(uint64_t* value, DBImpl* db, Version* version); bool HandleMemTableFlushPending(uint64_t* value, DBImpl* db, Version* version); bool HandleNumRunningFlushes(uint64_t* value, DBImpl* db, Version* version); bool HandleCompactionPending(uint64_t* value, DBImpl* db, Version* version); bool HandleNumRunningCompactions(uint64_t* value, DBImpl* db, Version* version); bool HandleBackgroundErrors(uint64_t* value, DBImpl* db, Version* version); bool HandleCurSizeActiveMemTable(uint64_t* value, DBImpl* db, Version* version); bool HandleCurSizeAllMemTables(uint64_t* value, DBImpl* db, Version* version); bool HandleSizeAllMemTables(uint64_t* value, DBImpl* db, Version* version); bool HandleNumEntriesActiveMemTable(uint64_t* value, DBImpl* db, Version* version); bool HandleNumEntriesImmMemTables(uint64_t* value, DBImpl* db, Version* version); bool HandleNumDeletesActiveMemTable(uint64_t* value, DBImpl* db, Version* version); bool HandleNumDeletesImmMemTables(uint64_t* value, DBImpl* db, Version* version); bool HandleEstimateNumKeys(uint64_t* value, DBImpl* db, Version* version); bool HandleNumSnapshots(uint64_t* value, DBImpl* db, Version* version); bool HandleOldestSnapshotTime(uint64_t* value, DBImpl* db, Version* version); bool HandleNumLiveVersions(uint64_t* value, DBImpl* db, Version* version); bool HandleCurrentSuperVersionNumber(uint64_t* value, DBImpl* db, Version* version); bool HandleIsFileDeletionsEnabled(uint64_t* value, DBImpl* db, Version* version); bool HandleBaseLevel(uint64_t* value, DBImpl* db, Version* version); bool HandleTotalSstFilesSize(uint64_t* value, DBImpl* db, Version* version); bool HandleLiveSstFilesSize(uint64_t* value, DBImpl* db, Version* version); bool HandleEstimatePendingCompactionBytes(uint64_t* value, DBImpl* db, Version* version); bool HandleEstimateTableReadersMem(uint64_t* value, DBImpl* db, Version* version); bool HandleEstimateLiveDataSize(uint64_t* value, DBImpl* db, Version* version); bool HandleMinLogNumberToKeep(uint64_t* value, DBImpl* db, Version* version); bool HandleActualDelayedWriteRate(uint64_t* value, DBImpl* db, Version* version); bool HandleIsWriteStopped(uint64_t* value, DBImpl* db, Version* version); bool HandleEstimateOldestKeyTime(uint64_t* value, DBImpl* db, Version* version); bool HandleBlockCacheCapacity(uint64_t* value, DBImpl* db, Version* version); bool HandleBlockCacheUsage(uint64_t* value, DBImpl* db, Version* version); bool HandleBlockCachePinnedUsage(uint64_t* value, DBImpl* db, Version* version); // Total number of background errors encountered. Every time a flush task // or compaction task fails, this counter is incremented. The failure can // be caused by any possible reason, including file system errors, out of // resources, or input file corruption. Failing when retrying the same flush // or compaction will cause the counter to increase too. uint64_t bg_error_count_; const int number_levels_; Env* env_; ColumnFamilyData* cfd_; uint64_t started_at_; }; #else class InternalStats { public: enum InternalCFStatsType { L0_FILE_COUNT_LIMIT_SLOWDOWNS, LOCKED_L0_FILE_COUNT_LIMIT_SLOWDOWNS, MEMTABLE_LIMIT_STOPS, MEMTABLE_LIMIT_SLOWDOWNS, L0_FILE_COUNT_LIMIT_STOPS, LOCKED_L0_FILE_COUNT_LIMIT_STOPS, PENDING_COMPACTION_BYTES_LIMIT_SLOWDOWNS, PENDING_COMPACTION_BYTES_LIMIT_STOPS, WRITE_STALLS_ENUM_MAX, BYTES_FLUSHED, BYTES_INGESTED_ADD_FILE, INGESTED_NUM_FILES_TOTAL, INGESTED_LEVEL0_NUM_FILES_TOTAL, INGESTED_NUM_KEYS_TOTAL, INTERNAL_CF_STATS_ENUM_MAX, }; enum InternalDBStatsType { WAL_FILE_BYTES, WAL_FILE_SYNCED, BYTES_WRITTEN, NUMBER_KEYS_WRITTEN, WRITE_DONE_BY_OTHER, WRITE_DONE_BY_SELF, WRITE_WITH_WAL, WRITE_STALL_MICROS, INTERNAL_DB_STATS_ENUM_MAX, }; InternalStats(int /*num_levels*/, Env* /*env*/, ColumnFamilyData* /*cfd*/) {} struct CompactionStats { uint64_t micros; uint64_t bytes_read_non_output_levels; uint64_t bytes_read_output_level; uint64_t bytes_written; uint64_t bytes_moved; int num_input_files_in_non_output_levels; int num_input_files_in_output_level; int num_output_files; uint64_t num_input_records; uint64_t num_dropped_records; int count; explicit CompactionStats() {} explicit CompactionStats(CompactionReason /*reason*/, int /*c*/) {} explicit CompactionStats(const CompactionStats& /*c*/) {} void Add(const CompactionStats& /*c*/) {} void Subtract(const CompactionStats& /*c*/) {} }; void AddCompactionStats(int /*level*/, const CompactionStats& /*stats*/) {} void IncBytesMoved(int /*level*/, uint64_t /*amount*/) {} void AddCFStats(InternalCFStatsType /*type*/, uint64_t /*value*/) {} void AddDBStats(InternalDBStatsType /*type*/, uint64_t /*value*/, bool /*concurrent */ = false) {} HistogramImpl* GetFileReadHist(int /*level*/) { return nullptr; } uint64_t GetBackgroundErrorCount() const { return 0; } uint64_t BumpAndGetBackgroundErrorCount() { return 0; } bool GetStringProperty(const DBPropertyInfo& /*property_info*/, const Slice& /*property*/, std::string* /*value*/) { return false; } bool GetMapProperty(const DBPropertyInfo& /*property_info*/, const Slice& /*property*/, std::map* /*value*/) { return false; } bool GetIntProperty(const DBPropertyInfo& /*property_info*/, uint64_t* /*value*/, DBImpl* /*db*/) const { return false; } bool GetIntPropertyOutOfMutex(const DBPropertyInfo& /*property_info*/, Version* /*version*/, uint64_t* /*value*/) const { return false; } }; #endif // !ROCKSDB_LITE } // namespace rocksdb rocksdb-5.17.2/db/job_context.h000066400000000000000000000152021337235545400163240ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #include #include #include "db/log_writer.h" #include "db/column_family.h" namespace rocksdb { class MemTable; struct SuperVersion; struct SuperVersionContext { struct WriteStallNotification { WriteStallInfo write_stall_info; const ImmutableCFOptions* immutable_cf_options; }; autovector superversions_to_free; #ifndef ROCKSDB_DISABLE_STALL_NOTIFICATION autovector write_stall_notifications; #endif unique_ptr new_superversion; // if nullptr no new superversion explicit SuperVersionContext(bool create_superversion = false) : new_superversion(create_superversion ? new SuperVersion() : nullptr) {} explicit SuperVersionContext(SuperVersionContext&& other) : superversions_to_free(std::move(other.superversions_to_free)), #ifndef ROCKSDB_DISABLE_STALL_NOTIFICATION write_stall_notifications(std::move(other.write_stall_notifications)), #endif new_superversion(std::move(other.new_superversion)) { } void NewSuperVersion() { new_superversion = unique_ptr(new SuperVersion()); } inline bool HaveSomethingToDelete() const { #ifndef ROCKSDB_DISABLE_STALL_NOTIFICATION return !superversions_to_free.empty() || !write_stall_notifications.empty(); #else return !superversions_to_free.empty(); #endif } void PushWriteStallNotification( WriteStallCondition old_cond, WriteStallCondition new_cond, const std::string& name, const ImmutableCFOptions* ioptions) { #if !defined(ROCKSDB_LITE) && !defined(ROCKSDB_DISABLE_STALL_NOTIFICATION) WriteStallNotification notif; notif.write_stall_info.cf_name = name; notif.write_stall_info.condition.prev = old_cond; notif.write_stall_info.condition.cur = new_cond; notif.immutable_cf_options = ioptions; write_stall_notifications.push_back(notif); #else (void)old_cond; (void)new_cond; (void)name; (void)ioptions; #endif // !defined(ROCKSDB_LITE) && !defined(ROCKSDB_DISABLE_STALL_NOTIFICATION) } void Clean() { #if !defined(ROCKSDB_LITE) && !defined(ROCKSDB_DISABLE_STALL_NOTIFICATION) // notify listeners on changed write stall conditions for (auto& notif : write_stall_notifications) { for (auto& listener : notif.immutable_cf_options->listeners) { listener->OnStallConditionsChanged(notif.write_stall_info); } } write_stall_notifications.clear(); #endif // !ROCKSDB_LITE // free superversions for (auto s : superversions_to_free) { delete s; } superversions_to_free.clear(); } ~SuperVersionContext() { #ifndef ROCKSDB_DISABLE_STALL_NOTIFICATION assert(write_stall_notifications.empty()); #endif assert(superversions_to_free.empty()); } }; struct JobContext { inline bool HaveSomethingToDelete() const { return full_scan_candidate_files.size() || sst_delete_files.size() || log_delete_files.size() || manifest_delete_files.size(); } inline bool HaveSomethingToClean() const { bool sv_have_sth = false; for (const auto& sv_ctx : superversion_contexts) { if (sv_ctx.HaveSomethingToDelete()) { sv_have_sth = true; break; } } return memtables_to_free.size() > 0 || logs_to_free.size() > 0 || sv_have_sth; } // Structure to store information for candidate files to delete. struct CandidateFileInfo { std::string file_name; std::string file_path; CandidateFileInfo(std::string name, std::string path) : file_name(std::move(name)), file_path(std::move(path)) {} bool operator==(const CandidateFileInfo& other) const { return file_name == other.file_name && file_path == other.file_path; } }; // Unique job id int job_id; // a list of all files that we'll consider deleting // (every once in a while this is filled up with all files // in the DB directory) // (filled only if we're doing full scan) std::vector full_scan_candidate_files; // the list of all live sst files that cannot be deleted std::vector sst_live; // a list of sst files that we need to delete std::vector sst_delete_files; // a list of log files that we need to delete std::vector log_delete_files; // a list of log files that we need to preserve during full purge since they // will be reused later std::vector log_recycle_files; // a list of manifest files that we need to delete std::vector manifest_delete_files; // a list of memtables to be free autovector memtables_to_free; // contexts for installing superversions for multiple column families std::vector superversion_contexts; autovector logs_to_free; // the current manifest_file_number, log_number and prev_log_number // that corresponds to the set of files in 'live'. uint64_t manifest_file_number; uint64_t pending_manifest_file_number; uint64_t log_number; uint64_t prev_log_number; uint64_t min_pending_output = 0; uint64_t prev_total_log_size = 0; size_t num_alive_log_files = 0; uint64_t size_log_to_delete = 0; explicit JobContext(int _job_id, bool create_superversion = false) { job_id = _job_id; manifest_file_number = 0; pending_manifest_file_number = 0; log_number = 0; prev_log_number = 0; superversion_contexts.emplace_back( SuperVersionContext(create_superversion)); } // For non-empty JobContext Clean() has to be called at least once before // before destruction (see asserts in ~JobContext()). Should be called with // unlocked DB mutex. Destructor doesn't call Clean() to avoid accidentally // doing potentially slow Clean() with locked DB mutex. void Clean() { // free superversions for (auto& sv_context : superversion_contexts) { sv_context.Clean(); } // free pending memtables for (auto m : memtables_to_free) { delete m; } for (auto l : logs_to_free) { delete l; } memtables_to_free.clear(); logs_to_free.clear(); } ~JobContext() { assert(memtables_to_free.size() == 0); assert(logs_to_free.size() == 0); } }; } // namespace rocksdb rocksdb-5.17.2/db/listener_test.cc000066400000000000000000000723321337235545400170370ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include "db/db_impl.h" #include "db/db_test_util.h" #include "db/dbformat.h" #include "db/version_set.h" #include "db/write_batch_internal.h" #include "memtable/hash_linklist_rep.h" #include "monitoring/statistics.h" #include "rocksdb/cache.h" #include "rocksdb/compaction_filter.h" #include "rocksdb/db.h" #include "rocksdb/env.h" #include "rocksdb/filter_policy.h" #include "rocksdb/options.h" #include "rocksdb/perf_context.h" #include "rocksdb/slice.h" #include "rocksdb/slice_transform.h" #include "rocksdb/table.h" #include "rocksdb/table_properties.h" #include "table/block_based_table_factory.h" #include "table/plain_table_factory.h" #include "util/filename.h" #include "util/hash.h" #include "util/logging.h" #include "util/mutexlock.h" #include "util/rate_limiter.h" #include "util/string_util.h" #include "util/sync_point.h" #include "util/testharness.h" #include "util/testutil.h" #include "utilities/merge_operators.h" #ifndef ROCKSDB_LITE namespace rocksdb { class EventListenerTest : public DBTestBase { public: EventListenerTest() : DBTestBase("/listener_test") {} const size_t k110KB = 110 << 10; }; struct TestPropertiesCollector : public rocksdb::TablePropertiesCollector { virtual rocksdb::Status AddUserKey(const rocksdb::Slice& /*key*/, const rocksdb::Slice& /*value*/, rocksdb::EntryType /*type*/, rocksdb::SequenceNumber /*seq*/, uint64_t /*file_size*/) override { return Status::OK(); } virtual rocksdb::Status Finish( rocksdb::UserCollectedProperties* properties) override { properties->insert({"0", "1"}); return Status::OK(); } virtual const char* Name() const override { return "TestTablePropertiesCollector"; } rocksdb::UserCollectedProperties GetReadableProperties() const override { rocksdb::UserCollectedProperties ret; ret["2"] = "3"; return ret; } }; class TestPropertiesCollectorFactory : public TablePropertiesCollectorFactory { public: virtual TablePropertiesCollector* CreateTablePropertiesCollector( TablePropertiesCollectorFactory::Context /*context*/) override { return new TestPropertiesCollector; } const char* Name() const override { return "TestTablePropertiesCollector"; } }; class TestCompactionListener : public EventListener { public: void OnCompactionCompleted(DB *db, const CompactionJobInfo& ci) override { std::lock_guard lock(mutex_); compacted_dbs_.push_back(db); ASSERT_GT(ci.input_files.size(), 0U); ASSERT_GT(ci.output_files.size(), 0U); ASSERT_EQ(db->GetEnv()->GetThreadID(), ci.thread_id); ASSERT_GT(ci.thread_id, 0U); for (auto fl : {ci.input_files, ci.output_files}) { for (auto fn : fl) { auto it = ci.table_properties.find(fn); ASSERT_NE(it, ci.table_properties.end()); auto tp = it->second; ASSERT_TRUE(tp != nullptr); ASSERT_EQ(tp->user_collected_properties.find("0")->second, "1"); } } } std::vector compacted_dbs_; std::mutex mutex_; }; TEST_F(EventListenerTest, OnSingleDBCompactionTest) { const int kTestKeySize = 16; const int kTestValueSize = 984; const int kEntrySize = kTestKeySize + kTestValueSize; const int kEntriesPerBuffer = 100; const int kNumL0Files = 4; Options options; options.env = CurrentOptions().env; options.create_if_missing = true; options.write_buffer_size = kEntrySize * kEntriesPerBuffer; options.compaction_style = kCompactionStyleLevel; options.target_file_size_base = options.write_buffer_size; options.max_bytes_for_level_base = options.target_file_size_base * 2; options.max_bytes_for_level_multiplier = 2; options.compression = kNoCompression; #ifdef ROCKSDB_USING_THREAD_STATUS options.enable_thread_tracking = true; #endif // ROCKSDB_USING_THREAD_STATUS options.level0_file_num_compaction_trigger = kNumL0Files; options.table_properties_collector_factories.push_back( std::make_shared()); TestCompactionListener* listener = new TestCompactionListener(); options.listeners.emplace_back(listener); std::vector cf_names = { "pikachu", "ilya", "muromec", "dobrynia", "nikitich", "alyosha", "popovich"}; CreateAndReopenWithCF(cf_names, options); ASSERT_OK(Put(1, "pikachu", std::string(90000, 'p'))); ASSERT_OK(Put(2, "ilya", std::string(90000, 'i'))); ASSERT_OK(Put(3, "muromec", std::string(90000, 'm'))); ASSERT_OK(Put(4, "dobrynia", std::string(90000, 'd'))); ASSERT_OK(Put(5, "nikitich", std::string(90000, 'n'))); ASSERT_OK(Put(6, "alyosha", std::string(90000, 'a'))); ASSERT_OK(Put(7, "popovich", std::string(90000, 'p'))); for (int i = 1; i < 8; ++i) { ASSERT_OK(Flush(i)); const Slice kRangeStart = "a"; const Slice kRangeEnd = "z"; ASSERT_OK(dbfull()->CompactRange(CompactRangeOptions(), handles_[i], &kRangeStart, &kRangeEnd)); dbfull()->TEST_WaitForFlushMemTable(); dbfull()->TEST_WaitForCompact(); } ASSERT_EQ(listener->compacted_dbs_.size(), cf_names.size()); for (size_t i = 0; i < cf_names.size(); ++i) { ASSERT_EQ(listener->compacted_dbs_[i], db_); } } // This simple Listener can only handle one flush at a time. class TestFlushListener : public EventListener { public: explicit TestFlushListener(Env* env) : slowdown_count(0), stop_count(0), db_closed(), env_(env) { db_closed = false; } void OnTableFileCreated( const TableFileCreationInfo& info) override { // remember the info for later checking the FlushJobInfo. prev_fc_info_ = info; ASSERT_GT(info.db_name.size(), 0U); ASSERT_GT(info.cf_name.size(), 0U); ASSERT_GT(info.file_path.size(), 0U); ASSERT_GT(info.job_id, 0); ASSERT_GT(info.table_properties.data_size, 0U); ASSERT_GT(info.table_properties.raw_key_size, 0U); ASSERT_GT(info.table_properties.raw_value_size, 0U); ASSERT_GT(info.table_properties.num_data_blocks, 0U); ASSERT_GT(info.table_properties.num_entries, 0U); #ifdef ROCKSDB_USING_THREAD_STATUS // Verify the id of the current thread that created this table // file matches the id of any active flush or compaction thread. uint64_t thread_id = env_->GetThreadID(); std::vector thread_list; ASSERT_OK(env_->GetThreadList(&thread_list)); bool found_match = false; for (auto thread_status : thread_list) { if (thread_status.operation_type == ThreadStatus::OP_FLUSH || thread_status.operation_type == ThreadStatus::OP_COMPACTION) { if (thread_id == thread_status.thread_id) { found_match = true; break; } } } ASSERT_TRUE(found_match); #endif // ROCKSDB_USING_THREAD_STATUS } void OnFlushCompleted( DB* db, const FlushJobInfo& info) override { flushed_dbs_.push_back(db); flushed_column_family_names_.push_back(info.cf_name); if (info.triggered_writes_slowdown) { slowdown_count++; } if (info.triggered_writes_stop) { stop_count++; } // verify whether the previously created file matches the flushed file. ASSERT_EQ(prev_fc_info_.db_name, db->GetName()); ASSERT_EQ(prev_fc_info_.cf_name, info.cf_name); ASSERT_EQ(prev_fc_info_.job_id, info.job_id); ASSERT_EQ(prev_fc_info_.file_path, info.file_path); ASSERT_EQ(db->GetEnv()->GetThreadID(), info.thread_id); ASSERT_GT(info.thread_id, 0U); ASSERT_EQ(info.table_properties.user_collected_properties.find("0")->second, "1"); } std::vector flushed_column_family_names_; std::vector flushed_dbs_; int slowdown_count; int stop_count; bool db_closing; std::atomic_bool db_closed; TableFileCreationInfo prev_fc_info_; protected: Env* env_; }; TEST_F(EventListenerTest, OnSingleDBFlushTest) { Options options; options.env = CurrentOptions().env; options.write_buffer_size = k110KB; #ifdef ROCKSDB_USING_THREAD_STATUS options.enable_thread_tracking = true; #endif // ROCKSDB_USING_THREAD_STATUS TestFlushListener* listener = new TestFlushListener(options.env); options.listeners.emplace_back(listener); std::vector cf_names = { "pikachu", "ilya", "muromec", "dobrynia", "nikitich", "alyosha", "popovich"}; options.table_properties_collector_factories.push_back( std::make_shared()); CreateAndReopenWithCF(cf_names, options); ASSERT_OK(Put(1, "pikachu", std::string(90000, 'p'))); ASSERT_OK(Put(2, "ilya", std::string(90000, 'i'))); ASSERT_OK(Put(3, "muromec", std::string(90000, 'm'))); ASSERT_OK(Put(4, "dobrynia", std::string(90000, 'd'))); ASSERT_OK(Put(5, "nikitich", std::string(90000, 'n'))); ASSERT_OK(Put(6, "alyosha", std::string(90000, 'a'))); ASSERT_OK(Put(7, "popovich", std::string(90000, 'p'))); for (int i = 1; i < 8; ++i) { ASSERT_OK(Flush(i)); dbfull()->TEST_WaitForFlushMemTable(); ASSERT_EQ(listener->flushed_dbs_.size(), i); ASSERT_EQ(listener->flushed_column_family_names_.size(), i); } // make sure callback functions are called in the right order for (size_t i = 0; i < cf_names.size(); ++i) { ASSERT_EQ(listener->flushed_dbs_[i], db_); ASSERT_EQ(listener->flushed_column_family_names_[i], cf_names[i]); } } TEST_F(EventListenerTest, MultiCF) { Options options; options.env = CurrentOptions().env; options.write_buffer_size = k110KB; #ifdef ROCKSDB_USING_THREAD_STATUS options.enable_thread_tracking = true; #endif // ROCKSDB_USING_THREAD_STATUS TestFlushListener* listener = new TestFlushListener(options.env); options.listeners.emplace_back(listener); options.table_properties_collector_factories.push_back( std::make_shared()); std::vector cf_names = { "pikachu", "ilya", "muromec", "dobrynia", "nikitich", "alyosha", "popovich"}; CreateAndReopenWithCF(cf_names, options); ASSERT_OK(Put(1, "pikachu", std::string(90000, 'p'))); ASSERT_OK(Put(2, "ilya", std::string(90000, 'i'))); ASSERT_OK(Put(3, "muromec", std::string(90000, 'm'))); ASSERT_OK(Put(4, "dobrynia", std::string(90000, 'd'))); ASSERT_OK(Put(5, "nikitich", std::string(90000, 'n'))); ASSERT_OK(Put(6, "alyosha", std::string(90000, 'a'))); ASSERT_OK(Put(7, "popovich", std::string(90000, 'p'))); for (int i = 1; i < 8; ++i) { ASSERT_OK(Flush(i)); ASSERT_EQ(listener->flushed_dbs_.size(), i); ASSERT_EQ(listener->flushed_column_family_names_.size(), i); } // make sure callback functions are called in the right order for (size_t i = 0; i < cf_names.size(); i++) { ASSERT_EQ(listener->flushed_dbs_[i], db_); ASSERT_EQ(listener->flushed_column_family_names_[i], cf_names[i]); } } TEST_F(EventListenerTest, MultiDBMultiListeners) { Options options; options.env = CurrentOptions().env; #ifdef ROCKSDB_USING_THREAD_STATUS options.enable_thread_tracking = true; #endif // ROCKSDB_USING_THREAD_STATUS options.table_properties_collector_factories.push_back( std::make_shared()); std::vector listeners; const int kNumDBs = 5; const int kNumListeners = 10; for (int i = 0; i < kNumListeners; ++i) { listeners.emplace_back(new TestFlushListener(options.env)); } std::vector cf_names = { "pikachu", "ilya", "muromec", "dobrynia", "nikitich", "alyosha", "popovich"}; options.create_if_missing = true; for (int i = 0; i < kNumListeners; ++i) { options.listeners.emplace_back(listeners[i]); } DBOptions db_opts(options); ColumnFamilyOptions cf_opts(options); std::vector dbs; std::vector> vec_handles; for (int d = 0; d < kNumDBs; ++d) { ASSERT_OK(DestroyDB(dbname_ + ToString(d), options)); DB* db; std::vector handles; ASSERT_OK(DB::Open(options, dbname_ + ToString(d), &db)); for (size_t c = 0; c < cf_names.size(); ++c) { ColumnFamilyHandle* handle; db->CreateColumnFamily(cf_opts, cf_names[c], &handle); handles.push_back(handle); } vec_handles.push_back(std::move(handles)); dbs.push_back(db); } for (int d = 0; d < kNumDBs; ++d) { for (size_t c = 0; c < cf_names.size(); ++c) { ASSERT_OK(dbs[d]->Put(WriteOptions(), vec_handles[d][c], cf_names[c], cf_names[c])); } } for (size_t c = 0; c < cf_names.size(); ++c) { for (int d = 0; d < kNumDBs; ++d) { ASSERT_OK(dbs[d]->Flush(FlushOptions(), vec_handles[d][c])); reinterpret_cast(dbs[d])->TEST_WaitForFlushMemTable(); } } for (auto* listener : listeners) { int pos = 0; for (size_t c = 0; c < cf_names.size(); ++c) { for (int d = 0; d < kNumDBs; ++d) { ASSERT_EQ(listener->flushed_dbs_[pos], dbs[d]); ASSERT_EQ(listener->flushed_column_family_names_[pos], cf_names[c]); pos++; } } } for (auto handles : vec_handles) { for (auto h : handles) { delete h; } handles.clear(); } vec_handles.clear(); for (auto db : dbs) { delete db; } } TEST_F(EventListenerTest, DisableBGCompaction) { Options options; options.env = CurrentOptions().env; #ifdef ROCKSDB_USING_THREAD_STATUS options.enable_thread_tracking = true; #endif // ROCKSDB_USING_THREAD_STATUS TestFlushListener* listener = new TestFlushListener(options.env); const int kCompactionTrigger = 1; const int kSlowdownTrigger = 5; const int kStopTrigger = 100; options.level0_file_num_compaction_trigger = kCompactionTrigger; options.level0_slowdown_writes_trigger = kSlowdownTrigger; options.level0_stop_writes_trigger = kStopTrigger; options.max_write_buffer_number = 10; options.listeners.emplace_back(listener); // BG compaction is disabled. Number of L0 files will simply keeps // increasing in this test. options.compaction_style = kCompactionStyleNone; options.compression = kNoCompression; options.write_buffer_size = 100000; // Small write buffer options.table_properties_collector_factories.push_back( std::make_shared()); CreateAndReopenWithCF({"pikachu"}, options); ColumnFamilyMetaData cf_meta; db_->GetColumnFamilyMetaData(handles_[1], &cf_meta); // keep writing until writes are forced to stop. for (int i = 0; static_cast(cf_meta.file_count) < kSlowdownTrigger * 10; ++i) { Put(1, ToString(i), std::string(10000, 'x'), WriteOptions()); FlushOptions fo; fo.allow_write_stall = true; db_->Flush(fo, handles_[1]); db_->GetColumnFamilyMetaData(handles_[1], &cf_meta); } ASSERT_GE(listener->slowdown_count, kSlowdownTrigger * 9); } class TestCompactionReasonListener : public EventListener { public: void OnCompactionCompleted(DB* /*db*/, const CompactionJobInfo& ci) override { std::lock_guard lock(mutex_); compaction_reasons_.push_back(ci.compaction_reason); } std::vector compaction_reasons_; std::mutex mutex_; }; TEST_F(EventListenerTest, CompactionReasonLevel) { Options options; options.env = CurrentOptions().env; options.create_if_missing = true; options.memtable_factory.reset( new SpecialSkipListFactory(DBTestBase::kNumKeysByGenerateNewRandomFile)); TestCompactionReasonListener* listener = new TestCompactionReasonListener(); options.listeners.emplace_back(listener); options.level0_file_num_compaction_trigger = 4; options.compaction_style = kCompactionStyleLevel; DestroyAndReopen(options); Random rnd(301); // Write 4 files in L0 for (int i = 0; i < 4; i++) { GenerateNewRandomFile(&rnd); } dbfull()->TEST_WaitForCompact(); ASSERT_EQ(listener->compaction_reasons_.size(), 1); ASSERT_EQ(listener->compaction_reasons_[0], CompactionReason::kLevelL0FilesNum); DestroyAndReopen(options); // Write 3 non-overlapping files in L0 for (int k = 1; k <= 30; k++) { ASSERT_OK(Put(Key(k), Key(k))); if (k % 10 == 0) { Flush(); } } // Do a trivial move from L0 -> L1 db_->CompactRange(CompactRangeOptions(), nullptr, nullptr); options.max_bytes_for_level_base = 1; Close(); listener->compaction_reasons_.clear(); Reopen(options); dbfull()->TEST_WaitForCompact(); ASSERT_GT(listener->compaction_reasons_.size(), 1); for (auto compaction_reason : listener->compaction_reasons_) { ASSERT_EQ(compaction_reason, CompactionReason::kLevelMaxLevelSize); } options.disable_auto_compactions = true; Close(); listener->compaction_reasons_.clear(); Reopen(options); Put("key", "value"); CompactRangeOptions cro; cro.bottommost_level_compaction = BottommostLevelCompaction::kForce; ASSERT_OK(db_->CompactRange(cro, nullptr, nullptr)); ASSERT_GT(listener->compaction_reasons_.size(), 0); for (auto compaction_reason : listener->compaction_reasons_) { ASSERT_EQ(compaction_reason, CompactionReason::kManualCompaction); } } TEST_F(EventListenerTest, CompactionReasonUniversal) { Options options; options.env = CurrentOptions().env; options.create_if_missing = true; options.memtable_factory.reset( new SpecialSkipListFactory(DBTestBase::kNumKeysByGenerateNewRandomFile)); TestCompactionReasonListener* listener = new TestCompactionReasonListener(); options.listeners.emplace_back(listener); options.compaction_style = kCompactionStyleUniversal; Random rnd(301); options.level0_file_num_compaction_trigger = 8; options.compaction_options_universal.max_size_amplification_percent = 100000; options.compaction_options_universal.size_ratio = 100000; DestroyAndReopen(options); listener->compaction_reasons_.clear(); // Write 8 files in L0 for (int i = 0; i < 8; i++) { GenerateNewRandomFile(&rnd); } dbfull()->TEST_WaitForCompact(); ASSERT_GT(listener->compaction_reasons_.size(), 0); for (auto compaction_reason : listener->compaction_reasons_) { ASSERT_EQ(compaction_reason, CompactionReason::kUniversalSizeRatio); } options.level0_file_num_compaction_trigger = 8; options.compaction_options_universal.max_size_amplification_percent = 1; options.compaction_options_universal.size_ratio = 100000; DestroyAndReopen(options); listener->compaction_reasons_.clear(); // Write 8 files in L0 for (int i = 0; i < 8; i++) { GenerateNewRandomFile(&rnd); } dbfull()->TEST_WaitForCompact(); ASSERT_GT(listener->compaction_reasons_.size(), 0); for (auto compaction_reason : listener->compaction_reasons_) { ASSERT_EQ(compaction_reason, CompactionReason::kUniversalSizeAmplification); } options.disable_auto_compactions = true; Close(); listener->compaction_reasons_.clear(); Reopen(options); db_->CompactRange(CompactRangeOptions(), nullptr, nullptr); ASSERT_GT(listener->compaction_reasons_.size(), 0); for (auto compaction_reason : listener->compaction_reasons_) { ASSERT_EQ(compaction_reason, CompactionReason::kManualCompaction); } } TEST_F(EventListenerTest, CompactionReasonFIFO) { Options options; options.env = CurrentOptions().env; options.create_if_missing = true; options.memtable_factory.reset( new SpecialSkipListFactory(DBTestBase::kNumKeysByGenerateNewRandomFile)); TestCompactionReasonListener* listener = new TestCompactionReasonListener(); options.listeners.emplace_back(listener); options.level0_file_num_compaction_trigger = 4; options.compaction_style = kCompactionStyleFIFO; options.compaction_options_fifo.max_table_files_size = 1; DestroyAndReopen(options); Random rnd(301); // Write 4 files in L0 for (int i = 0; i < 4; i++) { GenerateNewRandomFile(&rnd); } dbfull()->TEST_WaitForCompact(); ASSERT_GT(listener->compaction_reasons_.size(), 0); for (auto compaction_reason : listener->compaction_reasons_) { ASSERT_EQ(compaction_reason, CompactionReason::kFIFOMaxSize); } } class TableFileCreationListener : public EventListener { public: class TestEnv : public EnvWrapper { public: TestEnv() : EnvWrapper(Env::Default()) {} void SetStatus(Status s) { status_ = s; } Status NewWritableFile(const std::string& fname, std::unique_ptr* result, const EnvOptions& options) { if (fname.size() > 4 && fname.substr(fname.size() - 4) == ".sst") { if (!status_.ok()) { return status_; } } return Env::Default()->NewWritableFile(fname, result, options); } private: Status status_; }; TableFileCreationListener() { for (int i = 0; i < 2; i++) { started_[i] = finished_[i] = failure_[i] = 0; } } int Index(TableFileCreationReason reason) { int idx; switch (reason) { case TableFileCreationReason::kFlush: idx = 0; break; case TableFileCreationReason::kCompaction: idx = 1; break; default: idx = -1; } return idx; } void CheckAndResetCounters(int flush_started, int flush_finished, int flush_failure, int compaction_started, int compaction_finished, int compaction_failure) { ASSERT_EQ(started_[0], flush_started); ASSERT_EQ(finished_[0], flush_finished); ASSERT_EQ(failure_[0], flush_failure); ASSERT_EQ(started_[1], compaction_started); ASSERT_EQ(finished_[1], compaction_finished); ASSERT_EQ(failure_[1], compaction_failure); for (int i = 0; i < 2; i++) { started_[i] = finished_[i] = failure_[i] = 0; } } void OnTableFileCreationStarted( const TableFileCreationBriefInfo& info) override { int idx = Index(info.reason); if (idx >= 0) { started_[idx]++; } ASSERT_GT(info.db_name.size(), 0U); ASSERT_GT(info.cf_name.size(), 0U); ASSERT_GT(info.file_path.size(), 0U); ASSERT_GT(info.job_id, 0); } void OnTableFileCreated(const TableFileCreationInfo& info) override { int idx = Index(info.reason); if (idx >= 0) { finished_[idx]++; } ASSERT_GT(info.db_name.size(), 0U); ASSERT_GT(info.cf_name.size(), 0U); ASSERT_GT(info.file_path.size(), 0U); ASSERT_GT(info.job_id, 0); if (info.status.ok()) { ASSERT_GT(info.table_properties.data_size, 0U); ASSERT_GT(info.table_properties.raw_key_size, 0U); ASSERT_GT(info.table_properties.raw_value_size, 0U); ASSERT_GT(info.table_properties.num_data_blocks, 0U); ASSERT_GT(info.table_properties.num_entries, 0U); } else { if (idx >= 0) { failure_[idx]++; } } } TestEnv test_env; int started_[2]; int finished_[2]; int failure_[2]; }; TEST_F(EventListenerTest, TableFileCreationListenersTest) { auto listener = std::make_shared(); Options options; options.create_if_missing = true; options.listeners.push_back(listener); options.env = &listener->test_env; DestroyAndReopen(options); ASSERT_OK(Put("foo", "aaa")); ASSERT_OK(Put("bar", "bbb")); ASSERT_OK(Flush()); dbfull()->TEST_WaitForFlushMemTable(); listener->CheckAndResetCounters(1, 1, 0, 0, 0, 0); ASSERT_OK(Put("foo", "aaa1")); ASSERT_OK(Put("bar", "bbb1")); listener->test_env.SetStatus(Status::NotSupported("not supported")); ASSERT_NOK(Flush()); listener->CheckAndResetCounters(1, 1, 1, 0, 0, 0); listener->test_env.SetStatus(Status::OK()); Reopen(options); ASSERT_OK(Put("foo", "aaa2")); ASSERT_OK(Put("bar", "bbb2")); ASSERT_OK(Flush()); dbfull()->TEST_WaitForFlushMemTable(); listener->CheckAndResetCounters(1, 1, 0, 0, 0, 0); const Slice kRangeStart = "a"; const Slice kRangeEnd = "z"; dbfull()->CompactRange(CompactRangeOptions(), &kRangeStart, &kRangeEnd); dbfull()->TEST_WaitForCompact(); listener->CheckAndResetCounters(0, 0, 0, 1, 1, 0); ASSERT_OK(Put("foo", "aaa3")); ASSERT_OK(Put("bar", "bbb3")); ASSERT_OK(Flush()); listener->test_env.SetStatus(Status::NotSupported("not supported")); dbfull()->CompactRange(CompactRangeOptions(), &kRangeStart, &kRangeEnd); dbfull()->TEST_WaitForCompact(); listener->CheckAndResetCounters(1, 1, 0, 1, 1, 1); } class MemTableSealedListener : public EventListener { private: SequenceNumber latest_seq_number_; public: MemTableSealedListener() {} void OnMemTableSealed(const MemTableInfo& info) override { latest_seq_number_ = info.first_seqno; } void OnFlushCompleted(DB* /*db*/, const FlushJobInfo& flush_job_info) override { ASSERT_LE(flush_job_info.smallest_seqno, latest_seq_number_); } }; TEST_F(EventListenerTest, MemTableSealedListenerTest) { auto listener = std::make_shared(); Options options; options.create_if_missing = true; options.listeners.push_back(listener); DestroyAndReopen(options); for (unsigned int i = 0; i < 10; i++) { std::string tag = std::to_string(i); ASSERT_OK(Put("foo"+tag, "aaa")); ASSERT_OK(Put("bar"+tag, "bbb")); ASSERT_OK(Flush()); } } class ColumnFamilyHandleDeletionStartedListener : public EventListener { private: std::vector cfs_; int counter; public: explicit ColumnFamilyHandleDeletionStartedListener( const std::vector& cfs) : cfs_(cfs), counter(0) { cfs_.insert(cfs_.begin(), kDefaultColumnFamilyName); } void OnColumnFamilyHandleDeletionStarted( ColumnFamilyHandle* handle) override { ASSERT_EQ(cfs_[handle->GetID()], handle->GetName()); counter++; } int getCounter() { return counter; } }; TEST_F(EventListenerTest, ColumnFamilyHandleDeletionStartedListenerTest) { std::vector cfs{"pikachu", "eevee", "Mewtwo"}; auto listener = std::make_shared(cfs); Options options; options.env = CurrentOptions().env; options.create_if_missing = true; options.listeners.push_back(listener); CreateAndReopenWithCF(cfs, options); ASSERT_EQ(handles_.size(), 4); delete handles_[3]; delete handles_[2]; delete handles_[1]; handles_.resize(1); ASSERT_EQ(listener->getCounter(), 3); } class BackgroundErrorListener : public EventListener { private: SpecialEnv* env_; int counter_; public: BackgroundErrorListener(SpecialEnv* env) : env_(env), counter_(0) {} void OnBackgroundError(BackgroundErrorReason /*reason*/, Status* bg_error) override { if (counter_ == 0) { // suppress the first error and disable write-dropping such that a retry // can succeed. *bg_error = Status::OK(); env_->drop_writes_.store(false, std::memory_order_release); env_->no_slowdown_ = false; } ++counter_; } int counter() { return counter_; } }; TEST_F(EventListenerTest, BackgroundErrorListenerFailedFlushTest) { auto listener = std::make_shared(env_); Options options; options.create_if_missing = true; options.env = env_; options.listeners.push_back(listener); options.memtable_factory.reset(new SpecialSkipListFactory(1)); options.paranoid_checks = true; DestroyAndReopen(options); // the usual TEST_WaitForFlushMemTable() doesn't work for failed flushes, so // forge a custom one for the failed flush case. rocksdb::SyncPoint::GetInstance()->LoadDependency( {{"DBImpl::BGWorkFlush:done", "EventListenerTest:BackgroundErrorListenerFailedFlushTest:1"}}); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); env_->drop_writes_.store(true, std::memory_order_release); env_->no_slowdown_ = true; ASSERT_OK(Put("key0", "val")); ASSERT_OK(Put("key1", "val")); TEST_SYNC_POINT("EventListenerTest:BackgroundErrorListenerFailedFlushTest:1"); ASSERT_EQ(1, listener->counter()); ASSERT_OK(Put("key2", "val")); ASSERT_OK(dbfull()->TEST_WaitForFlushMemTable()); ASSERT_EQ(1, NumTableFilesAtLevel(0)); } TEST_F(EventListenerTest, BackgroundErrorListenerFailedCompactionTest) { auto listener = std::make_shared(env_); Options options; options.create_if_missing = true; options.disable_auto_compactions = true; options.env = env_; options.level0_file_num_compaction_trigger = 2; options.listeners.push_back(listener); options.memtable_factory.reset(new SpecialSkipListFactory(2)); options.paranoid_checks = true; DestroyAndReopen(options); // third iteration triggers the second memtable's flush for (int i = 0; i < 3; ++i) { ASSERT_OK(Put("key0", "val")); if (i > 0) { ASSERT_OK(dbfull()->TEST_WaitForFlushMemTable()); } ASSERT_OK(Put("key1", "val")); } ASSERT_EQ(2, NumTableFilesAtLevel(0)); env_->drop_writes_.store(true, std::memory_order_release); env_->no_slowdown_ = true; ASSERT_OK(dbfull()->SetOptions({{"disable_auto_compactions", "false"}})); ASSERT_OK(dbfull()->TEST_WaitForCompact()); ASSERT_EQ(1, listener->counter()); // trigger flush so compaction is triggered again; this time it succeeds // The previous failed compaction may get retried automatically, so we may // be left with 0 or 1 files in level 1, depending on when the retry gets // scheduled ASSERT_OK(Put("key0", "val")); ASSERT_OK(dbfull()->TEST_WaitForFlushMemTable()); ASSERT_OK(dbfull()->TEST_WaitForCompact()); ASSERT_LE(1, NumTableFilesAtLevel(0)); } } // namespace rocksdb #endif // ROCKSDB_LITE int main(int argc, char** argv) { ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/db/log_format.h000066400000000000000000000025241337235545400161420ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. // // Log format information shared by reader and writer. // See ../doc/log_format.txt for more detail. #pragma once namespace rocksdb { namespace log { enum RecordType { // Zero is reserved for preallocated files kZeroType = 0, kFullType = 1, // For fragments kFirstType = 2, kMiddleType = 3, kLastType = 4, // For recycled log files kRecyclableFullType = 5, kRecyclableFirstType = 6, kRecyclableMiddleType = 7, kRecyclableLastType = 8, }; static const int kMaxRecordType = kRecyclableLastType; static const unsigned int kBlockSize = 32768; // Header is checksum (4 bytes), length (2 bytes), type (1 byte) static const int kHeaderSize = 4 + 2 + 1; // Recyclable header is checksum (4 bytes), length (2 bytes), type (1 byte), // log number (4 bytes). static const int kRecyclableHeaderSize = 4 + 2 + 1 + 4; } // namespace log } // namespace rocksdb rocksdb-5.17.2/db/log_reader.cc000066400000000000000000000314511337235545400162530ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "db/log_reader.h" #include #include "rocksdb/env.h" #include "util/coding.h" #include "util/crc32c.h" #include "util/file_reader_writer.h" #include "util/util.h" namespace rocksdb { namespace log { Reader::Reporter::~Reporter() { } Reader::Reader(std::shared_ptr info_log, unique_ptr&& _file, Reporter* reporter, bool checksum, uint64_t log_num) : info_log_(info_log), file_(std::move(_file)), reporter_(reporter), checksum_(checksum), backing_store_(new char[kBlockSize]), buffer_(), eof_(false), read_error_(false), eof_offset_(0), last_record_offset_(0), end_of_buffer_offset_(0), log_number_(log_num), recycled_(false) {} Reader::~Reader() { delete[] backing_store_; } // For kAbsoluteConsistency, on clean shutdown we don't expect any error // in the log files. For other modes, we can ignore only incomplete records // in the last log file, which are presumably due to a write in progress // during restart (or from log recycling). // // TODO krad: Evaluate if we need to move to a more strict mode where we // restrict the inconsistency to only the last log bool Reader::ReadRecord(Slice* record, std::string* scratch, WALRecoveryMode wal_recovery_mode) { scratch->clear(); record->clear(); bool in_fragmented_record = false; // Record offset of the logical record that we're reading // 0 is a dummy value to make compilers happy uint64_t prospective_record_offset = 0; Slice fragment; while (true) { uint64_t physical_record_offset = end_of_buffer_offset_ - buffer_.size(); size_t drop_size = 0; const unsigned int record_type = ReadPhysicalRecord(&fragment, &drop_size); switch (record_type) { case kFullType: case kRecyclableFullType: if (in_fragmented_record && !scratch->empty()) { // Handle bug in earlier versions of log::Writer where // it could emit an empty kFirstType record at the tail end // of a block followed by a kFullType or kFirstType record // at the beginning of the next block. ReportCorruption(scratch->size(), "partial record without end(1)"); } prospective_record_offset = physical_record_offset; scratch->clear(); *record = fragment; last_record_offset_ = prospective_record_offset; return true; case kFirstType: case kRecyclableFirstType: if (in_fragmented_record && !scratch->empty()) { // Handle bug in earlier versions of log::Writer where // it could emit an empty kFirstType record at the tail end // of a block followed by a kFullType or kFirstType record // at the beginning of the next block. ReportCorruption(scratch->size(), "partial record without end(2)"); } prospective_record_offset = physical_record_offset; scratch->assign(fragment.data(), fragment.size()); in_fragmented_record = true; break; case kMiddleType: case kRecyclableMiddleType: if (!in_fragmented_record) { ReportCorruption(fragment.size(), "missing start of fragmented record(1)"); } else { scratch->append(fragment.data(), fragment.size()); } break; case kLastType: case kRecyclableLastType: if (!in_fragmented_record) { ReportCorruption(fragment.size(), "missing start of fragmented record(2)"); } else { scratch->append(fragment.data(), fragment.size()); *record = Slice(*scratch); last_record_offset_ = prospective_record_offset; return true; } break; case kBadHeader: if (wal_recovery_mode == WALRecoveryMode::kAbsoluteConsistency) { // in clean shutdown we don't expect any error in the log files ReportCorruption(drop_size, "truncated header"); } FALLTHROUGH_INTENDED; case kEof: if (in_fragmented_record) { if (wal_recovery_mode == WALRecoveryMode::kAbsoluteConsistency) { // in clean shutdown we don't expect any error in the log files ReportCorruption(scratch->size(), "error reading trailing data"); } // This can be caused by the writer dying immediately after // writing a physical record but before completing the next; don't // treat it as a corruption, just ignore the entire logical record. scratch->clear(); } return false; case kOldRecord: if (wal_recovery_mode != WALRecoveryMode::kSkipAnyCorruptedRecords) { // Treat a record from a previous instance of the log as EOF. if (in_fragmented_record) { if (wal_recovery_mode == WALRecoveryMode::kAbsoluteConsistency) { // in clean shutdown we don't expect any error in the log files ReportCorruption(scratch->size(), "error reading trailing data"); } // This can be caused by the writer dying immediately after // writing a physical record but before completing the next; don't // treat it as a corruption, just ignore the entire logical record. scratch->clear(); } return false; } FALLTHROUGH_INTENDED; case kBadRecord: if (in_fragmented_record) { ReportCorruption(scratch->size(), "error in middle of record"); in_fragmented_record = false; scratch->clear(); } break; case kBadRecordLen: case kBadRecordChecksum: if (recycled_ && wal_recovery_mode == WALRecoveryMode::kTolerateCorruptedTailRecords) { scratch->clear(); return false; } if (record_type == kBadRecordLen) { ReportCorruption(drop_size, "bad record length"); } else { ReportCorruption(drop_size, "checksum mismatch"); } if (in_fragmented_record) { ReportCorruption(scratch->size(), "error in middle of record"); in_fragmented_record = false; scratch->clear(); } break; default: { char buf[40]; snprintf(buf, sizeof(buf), "unknown record type %u", record_type); ReportCorruption( (fragment.size() + (in_fragmented_record ? scratch->size() : 0)), buf); in_fragmented_record = false; scratch->clear(); break; } } } return false; } uint64_t Reader::LastRecordOffset() { return last_record_offset_; } void Reader::UnmarkEOF() { if (read_error_) { return; } eof_ = false; if (eof_offset_ == 0) { return; } // If the EOF was in the middle of a block (a partial block was read) we have // to read the rest of the block as ReadPhysicalRecord can only read full // blocks and expects the file position indicator to be aligned to the start // of a block. // // consumed_bytes + buffer_size() + remaining == kBlockSize size_t consumed_bytes = eof_offset_ - buffer_.size(); size_t remaining = kBlockSize - eof_offset_; // backing_store_ is used to concatenate what is left in buffer_ and // the remainder of the block. If buffer_ already uses backing_store_, // we just append the new data. if (buffer_.data() != backing_store_ + consumed_bytes) { // Buffer_ does not use backing_store_ for storage. // Copy what is left in buffer_ to backing_store. memmove(backing_store_ + consumed_bytes, buffer_.data(), buffer_.size()); } Slice read_buffer; Status status = file_->Read(remaining, &read_buffer, backing_store_ + eof_offset_); size_t added = read_buffer.size(); end_of_buffer_offset_ += added; if (!status.ok()) { if (added > 0) { ReportDrop(added, status); } read_error_ = true; return; } if (read_buffer.data() != backing_store_ + eof_offset_) { // Read did not write to backing_store_ memmove(backing_store_ + eof_offset_, read_buffer.data(), read_buffer.size()); } buffer_ = Slice(backing_store_ + consumed_bytes, eof_offset_ + added - consumed_bytes); if (added < remaining) { eof_ = true; eof_offset_ += added; } else { eof_offset_ = 0; } } void Reader::ReportCorruption(size_t bytes, const char* reason) { ReportDrop(bytes, Status::Corruption(reason)); } void Reader::ReportDrop(size_t bytes, const Status& reason) { if (reporter_ != nullptr) { reporter_->Corruption(bytes, reason); } } bool Reader::ReadMore(size_t* drop_size, int *error) { if (!eof_ && !read_error_) { // Last read was a full read, so this is a trailer to skip buffer_.clear(); Status status = file_->Read(kBlockSize, &buffer_, backing_store_); end_of_buffer_offset_ += buffer_.size(); if (!status.ok()) { buffer_.clear(); ReportDrop(kBlockSize, status); read_error_ = true; *error = kEof; return false; } else if (buffer_.size() < static_cast(kBlockSize)) { eof_ = true; eof_offset_ = buffer_.size(); } return true; } else { // Note that if buffer_ is non-empty, we have a truncated header at the // end of the file, which can be caused by the writer crashing in the // middle of writing the header. Unless explicitly requested we don't // considering this an error, just report EOF. if (buffer_.size()) { *drop_size = buffer_.size(); buffer_.clear(); *error = kBadHeader; return false; } buffer_.clear(); *error = kEof; return false; } } unsigned int Reader::ReadPhysicalRecord(Slice* result, size_t* drop_size) { while (true) { // We need at least the minimum header size if (buffer_.size() < static_cast(kHeaderSize)) { int r; if (!ReadMore(drop_size, &r)) { return r; } continue; } // Parse the header const char* header = buffer_.data(); const uint32_t a = static_cast(header[4]) & 0xff; const uint32_t b = static_cast(header[5]) & 0xff; const unsigned int type = header[6]; const uint32_t length = a | (b << 8); int header_size = kHeaderSize; if (type >= kRecyclableFullType && type <= kRecyclableLastType) { if (end_of_buffer_offset_ - buffer_.size() == 0) { recycled_ = true; } header_size = kRecyclableHeaderSize; // We need enough for the larger header if (buffer_.size() < static_cast(kRecyclableHeaderSize)) { int r; if (!ReadMore(drop_size, &r)) { return r; } continue; } const uint32_t log_num = DecodeFixed32(header + 7); if (log_num != log_number_) { return kOldRecord; } } if (header_size + length > buffer_.size()) { *drop_size = buffer_.size(); buffer_.clear(); if (!eof_) { return kBadRecordLen; } // If the end of the file has been reached without reading |length| bytes // of payload, assume the writer died in the middle of writing the record. // Don't report a corruption unless requested. if (*drop_size) { return kBadHeader; } return kEof; } if (type == kZeroType && length == 0) { // Skip zero length record without reporting any drops since // such records are produced by the mmap based writing code in // env_posix.cc that preallocates file regions. // NOTE: this should never happen in DB written by new RocksDB versions, // since we turn off mmap writes to manifest and log files buffer_.clear(); return kBadRecord; } // Check crc if (checksum_) { uint32_t expected_crc = crc32c::Unmask(DecodeFixed32(header)); uint32_t actual_crc = crc32c::Value(header + 6, length + header_size - 6); if (actual_crc != expected_crc) { // Drop the rest of the buffer since "length" itself may have // been corrupted and if we trust it, we could find some // fragment of a real log record that just happens to look // like a valid log record. *drop_size = buffer_.size(); buffer_.clear(); return kBadRecordChecksum; } } buffer_.remove_prefix(header_size + length); *result = Slice(header + header_size, length); return type; } } } // namespace log } // namespace rocksdb rocksdb-5.17.2/db/log_reader.h000066400000000000000000000120461337235545400161140ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #include #include #include "db/log_format.h" #include "rocksdb/slice.h" #include "rocksdb/status.h" #include "rocksdb/options.h" namespace rocksdb { class SequentialFileReader; class Logger; using std::unique_ptr; namespace log { /** * Reader is a general purpose log stream reader implementation. The actual job * of reading from the device is implemented by the SequentialFile interface. * * Please see Writer for details on the file and record layout. */ class Reader { public: // Interface for reporting errors. class Reporter { public: virtual ~Reporter(); // Some corruption was detected. "size" is the approximate number // of bytes dropped due to the corruption. virtual void Corruption(size_t bytes, const Status& status) = 0; }; // Create a reader that will return log records from "*file". // "*file" must remain live while this Reader is in use. // // If "reporter" is non-nullptr, it is notified whenever some data is // dropped due to a detected corruption. "*reporter" must remain // live while this Reader is in use. // // If "checksum" is true, verify checksums if available. Reader(std::shared_ptr info_log, // @lint-ignore TXT2 T25377293 Grandfathered in unique_ptr&& file, Reporter* reporter, bool checksum, uint64_t log_num); ~Reader(); // Read the next record into *record. Returns true if read // successfully, false if we hit end of the input. May use // "*scratch" as temporary storage. The contents filled in *record // will only be valid until the next mutating operation on this // reader or the next mutation to *scratch. bool ReadRecord(Slice* record, std::string* scratch, WALRecoveryMode wal_recovery_mode = WALRecoveryMode::kTolerateCorruptedTailRecords); // Returns the physical offset of the last record returned by ReadRecord. // // Undefined before the first call to ReadRecord. uint64_t LastRecordOffset(); // returns true if the reader has encountered an eof condition. bool IsEOF() { return eof_; } // when we know more data has been written to the file. we can use this // function to force the reader to look again in the file. // Also aligns the file position indicator to the start of the next block // by reading the rest of the data from the EOF position to the end of the // block that was partially read. void UnmarkEOF(); SequentialFileReader* file() { return file_.get(); } private: std::shared_ptr info_log_; const unique_ptr file_; Reporter* const reporter_; bool const checksum_; char* const backing_store_; Slice buffer_; bool eof_; // Last Read() indicated EOF by returning < kBlockSize bool read_error_; // Error occurred while reading from file // Offset of the file position indicator within the last block when an // EOF was detected. size_t eof_offset_; // Offset of the last record returned by ReadRecord. uint64_t last_record_offset_; // Offset of the first location past the end of buffer_. uint64_t end_of_buffer_offset_; // which log number this is uint64_t const log_number_; // Whether this is a recycled log file bool recycled_; // Extend record types with the following special values enum { kEof = kMaxRecordType + 1, // Returned whenever we find an invalid physical record. // Currently there are three situations in which this happens: // * The record has an invalid CRC (ReadPhysicalRecord reports a drop) // * The record is a 0-length record (No drop is reported) kBadRecord = kMaxRecordType + 2, // Returned when we fail to read a valid header. kBadHeader = kMaxRecordType + 3, // Returned when we read an old record from a previous user of the log. kOldRecord = kMaxRecordType + 4, // Returned when we get a bad record length kBadRecordLen = kMaxRecordType + 5, // Returned when we get a bad record checksum kBadRecordChecksum = kMaxRecordType + 6, }; // Return type, or one of the preceding special values unsigned int ReadPhysicalRecord(Slice* result, size_t* drop_size); // Read some more bool ReadMore(size_t* drop_size, int *error); // Reports dropped bytes to the reporter. // buffer_ must be updated to remove the dropped bytes prior to invocation. void ReportCorruption(size_t bytes, const char* reason); void ReportDrop(size_t bytes, const Status& reason); // No copying allowed Reader(const Reader&); void operator=(const Reader&); }; } // namespace log } // namespace rocksdb rocksdb-5.17.2/db/log_test.cc000066400000000000000000000456111337235545400157730ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "db/log_reader.h" #include "db/log_writer.h" #include "rocksdb/env.h" #include "util/coding.h" #include "util/crc32c.h" #include "util/file_reader_writer.h" #include "util/random.h" #include "util/testharness.h" #include "util/testutil.h" namespace rocksdb { namespace log { // Construct a string of the specified length made out of the supplied // partial string. static std::string BigString(const std::string& partial_string, size_t n) { std::string result; while (result.size() < n) { result.append(partial_string); } result.resize(n); return result; } // Construct a string from a number static std::string NumberString(int n) { char buf[50]; snprintf(buf, sizeof(buf), "%d.", n); return std::string(buf); } // Return a skewed potentially long string static std::string RandomSkewedString(int i, Random* rnd) { return BigString(NumberString(i), rnd->Skewed(17)); } class LogTest : public ::testing::TestWithParam { private: class StringSource : public SequentialFile { public: Slice& contents_; bool force_error_; size_t force_error_position_; bool force_eof_; size_t force_eof_position_; bool returned_partial_; explicit StringSource(Slice& contents) : contents_(contents), force_error_(false), force_error_position_(0), force_eof_(false), force_eof_position_(0), returned_partial_(false) { } virtual Status Read(size_t n, Slice* result, char* scratch) override { EXPECT_TRUE(!returned_partial_) << "must not Read() after eof/error"; if (force_error_) { if (force_error_position_ >= n) { force_error_position_ -= n; } else { *result = Slice(contents_.data(), force_error_position_); contents_.remove_prefix(force_error_position_); force_error_ = false; returned_partial_ = true; return Status::Corruption("read error"); } } if (contents_.size() < n) { n = contents_.size(); returned_partial_ = true; } if (force_eof_) { if (force_eof_position_ >= n) { force_eof_position_ -= n; } else { force_eof_ = false; n = force_eof_position_; returned_partial_ = true; } } // By using scratch we ensure that caller has control over the // lifetime of result.data() memcpy(scratch, contents_.data(), n); *result = Slice(scratch, n); contents_.remove_prefix(n); return Status::OK(); } virtual Status Skip(uint64_t n) override { if (n > contents_.size()) { contents_.clear(); return Status::NotFound("in-memory file skipepd past end"); } contents_.remove_prefix(n); return Status::OK(); } }; class ReportCollector : public Reader::Reporter { public: size_t dropped_bytes_; std::string message_; ReportCollector() : dropped_bytes_(0) { } virtual void Corruption(size_t bytes, const Status& status) override { dropped_bytes_ += bytes; message_.append(status.ToString()); } }; std::string& dest_contents() { auto dest = dynamic_cast(writer_.file()->writable_file()); assert(dest); return dest->contents_; } const std::string& dest_contents() const { auto dest = dynamic_cast(writer_.file()->writable_file()); assert(dest); return dest->contents_; } void reset_source_contents() { auto src = dynamic_cast(reader_.file()->file()); assert(src); src->contents_ = dest_contents(); } Slice reader_contents_; unique_ptr dest_holder_; unique_ptr source_holder_; ReportCollector report_; Writer writer_; Reader reader_; // Record metadata for testing initial offset functionality static size_t initial_offset_record_sizes_[]; uint64_t initial_offset_last_record_offsets_[4]; public: LogTest() : reader_contents_(), dest_holder_(test::GetWritableFileWriter( new test::StringSink(&reader_contents_), "" /* don't care */)), source_holder_(test::GetSequentialFileReader( new StringSource(reader_contents_), "" /* file name */)), writer_(std::move(dest_holder_), 123, GetParam()), reader_(nullptr, std::move(source_holder_), &report_, true /* checksum */, 123 /* log_number */) { int header_size = GetParam() ? kRecyclableHeaderSize : kHeaderSize; initial_offset_last_record_offsets_[0] = 0; initial_offset_last_record_offsets_[1] = header_size + 10000; initial_offset_last_record_offsets_[2] = 2 * (header_size + 10000); initial_offset_last_record_offsets_[3] = 2 * (header_size + 10000) + (2 * log::kBlockSize - 1000) + 3 * header_size; } Slice* get_reader_contents() { return &reader_contents_; } void Write(const std::string& msg) { writer_.AddRecord(Slice(msg)); } size_t WrittenBytes() const { return dest_contents().size(); } std::string Read(const WALRecoveryMode wal_recovery_mode = WALRecoveryMode::kTolerateCorruptedTailRecords) { std::string scratch; Slice record; if (reader_.ReadRecord(&record, &scratch, wal_recovery_mode)) { return record.ToString(); } else { return "EOF"; } } void IncrementByte(int offset, char delta) { dest_contents()[offset] += delta; } void SetByte(int offset, char new_byte) { dest_contents()[offset] = new_byte; } void ShrinkSize(int bytes) { auto dest = dynamic_cast(writer_.file()->writable_file()); assert(dest); dest->Drop(bytes); } void FixChecksum(int header_offset, int len, bool recyclable) { // Compute crc of type/len/data int header_size = recyclable ? kRecyclableHeaderSize : kHeaderSize; uint32_t crc = crc32c::Value(&dest_contents()[header_offset + 6], header_size - 6 + len); crc = crc32c::Mask(crc); EncodeFixed32(&dest_contents()[header_offset], crc); } void ForceError(size_t position = 0) { auto src = dynamic_cast(reader_.file()->file()); src->force_error_ = true; src->force_error_position_ = position; } size_t DroppedBytes() const { return report_.dropped_bytes_; } std::string ReportMessage() const { return report_.message_; } void ForceEOF(size_t position = 0) { auto src = dynamic_cast(reader_.file()->file()); src->force_eof_ = true; src->force_eof_position_ = position; } void UnmarkEOF() { auto src = dynamic_cast(reader_.file()->file()); src->returned_partial_ = false; reader_.UnmarkEOF(); } bool IsEOF() { return reader_.IsEOF(); } // Returns OK iff recorded error message contains "msg" std::string MatchError(const std::string& msg) const { if (report_.message_.find(msg) == std::string::npos) { return report_.message_; } else { return "OK"; } } void WriteInitialOffsetLog() { for (int i = 0; i < 4; i++) { std::string record(initial_offset_record_sizes_[i], static_cast('a' + i)); Write(record); } } }; size_t LogTest::initial_offset_record_sizes_[] = {10000, // Two sizable records in first block 10000, 2 * log::kBlockSize - 1000, // Span three blocks 1}; TEST_P(LogTest, Empty) { ASSERT_EQ("EOF", Read()); } TEST_P(LogTest, ReadWrite) { Write("foo"); Write("bar"); Write(""); Write("xxxx"); ASSERT_EQ("foo", Read()); ASSERT_EQ("bar", Read()); ASSERT_EQ("", Read()); ASSERT_EQ("xxxx", Read()); ASSERT_EQ("EOF", Read()); ASSERT_EQ("EOF", Read()); // Make sure reads at eof work } TEST_P(LogTest, ManyBlocks) { for (int i = 0; i < 100000; i++) { Write(NumberString(i)); } for (int i = 0; i < 100000; i++) { ASSERT_EQ(NumberString(i), Read()); } ASSERT_EQ("EOF", Read()); } TEST_P(LogTest, Fragmentation) { Write("small"); Write(BigString("medium", 50000)); Write(BigString("large", 100000)); ASSERT_EQ("small", Read()); ASSERT_EQ(BigString("medium", 50000), Read()); ASSERT_EQ(BigString("large", 100000), Read()); ASSERT_EQ("EOF", Read()); } TEST_P(LogTest, MarginalTrailer) { // Make a trailer that is exactly the same length as an empty record. int header_size = GetParam() ? kRecyclableHeaderSize : kHeaderSize; const int n = kBlockSize - 2 * header_size; Write(BigString("foo", n)); ASSERT_EQ((unsigned int)(kBlockSize - header_size), WrittenBytes()); Write(""); Write("bar"); ASSERT_EQ(BigString("foo", n), Read()); ASSERT_EQ("", Read()); ASSERT_EQ("bar", Read()); ASSERT_EQ("EOF", Read()); } TEST_P(LogTest, MarginalTrailer2) { // Make a trailer that is exactly the same length as an empty record. int header_size = GetParam() ? kRecyclableHeaderSize : kHeaderSize; const int n = kBlockSize - 2 * header_size; Write(BigString("foo", n)); ASSERT_EQ((unsigned int)(kBlockSize - header_size), WrittenBytes()); Write("bar"); ASSERT_EQ(BigString("foo", n), Read()); ASSERT_EQ("bar", Read()); ASSERT_EQ("EOF", Read()); ASSERT_EQ(0U, DroppedBytes()); ASSERT_EQ("", ReportMessage()); } TEST_P(LogTest, ShortTrailer) { int header_size = GetParam() ? kRecyclableHeaderSize : kHeaderSize; const int n = kBlockSize - 2 * header_size + 4; Write(BigString("foo", n)); ASSERT_EQ((unsigned int)(kBlockSize - header_size + 4), WrittenBytes()); Write(""); Write("bar"); ASSERT_EQ(BigString("foo", n), Read()); ASSERT_EQ("", Read()); ASSERT_EQ("bar", Read()); ASSERT_EQ("EOF", Read()); } TEST_P(LogTest, AlignedEof) { int header_size = GetParam() ? kRecyclableHeaderSize : kHeaderSize; const int n = kBlockSize - 2 * header_size + 4; Write(BigString("foo", n)); ASSERT_EQ((unsigned int)(kBlockSize - header_size + 4), WrittenBytes()); ASSERT_EQ(BigString("foo", n), Read()); ASSERT_EQ("EOF", Read()); } TEST_P(LogTest, RandomRead) { const int N = 500; Random write_rnd(301); for (int i = 0; i < N; i++) { Write(RandomSkewedString(i, &write_rnd)); } Random read_rnd(301); for (int i = 0; i < N; i++) { ASSERT_EQ(RandomSkewedString(i, &read_rnd), Read()); } ASSERT_EQ("EOF", Read()); } // Tests of all the error paths in log_reader.cc follow: TEST_P(LogTest, ReadError) { Write("foo"); ForceError(); ASSERT_EQ("EOF", Read()); ASSERT_EQ((unsigned int)kBlockSize, DroppedBytes()); ASSERT_EQ("OK", MatchError("read error")); } TEST_P(LogTest, BadRecordType) { Write("foo"); // Type is stored in header[6] IncrementByte(6, 100); FixChecksum(0, 3, false); ASSERT_EQ("EOF", Read()); ASSERT_EQ(3U, DroppedBytes()); ASSERT_EQ("OK", MatchError("unknown record type")); } TEST_P(LogTest, TruncatedTrailingRecordIsIgnored) { Write("foo"); ShrinkSize(4); // Drop all payload as well as a header byte ASSERT_EQ("EOF", Read()); // Truncated last record is ignored, not treated as an error ASSERT_EQ(0U, DroppedBytes()); ASSERT_EQ("", ReportMessage()); } TEST_P(LogTest, TruncatedTrailingRecordIsNotIgnored) { Write("foo"); ShrinkSize(4); // Drop all payload as well as a header byte ASSERT_EQ("EOF", Read(WALRecoveryMode::kAbsoluteConsistency)); // Truncated last record is ignored, not treated as an error ASSERT_GT(DroppedBytes(), 0U); ASSERT_EQ("OK", MatchError("Corruption: truncated header")); } TEST_P(LogTest, BadLength) { int header_size = GetParam() ? kRecyclableHeaderSize : kHeaderSize; const int kPayloadSize = kBlockSize - header_size; Write(BigString("bar", kPayloadSize)); Write("foo"); // Least significant size byte is stored in header[4]. IncrementByte(4, 1); if (!GetParam()) { ASSERT_EQ("foo", Read()); ASSERT_EQ(kBlockSize, DroppedBytes()); ASSERT_EQ("OK", MatchError("bad record length")); } else { ASSERT_EQ("EOF", Read()); } } TEST_P(LogTest, BadLengthAtEndIsIgnored) { Write("foo"); ShrinkSize(1); ASSERT_EQ("EOF", Read()); ASSERT_EQ(0U, DroppedBytes()); ASSERT_EQ("", ReportMessage()); } TEST_P(LogTest, BadLengthAtEndIsNotIgnored) { Write("foo"); ShrinkSize(1); ASSERT_EQ("EOF", Read(WALRecoveryMode::kAbsoluteConsistency)); ASSERT_GT(DroppedBytes(), 0U); ASSERT_EQ("OK", MatchError("Corruption: truncated header")); } TEST_P(LogTest, ChecksumMismatch) { Write("foooooo"); IncrementByte(0, 14); ASSERT_EQ("EOF", Read()); if (!GetParam()) { ASSERT_EQ(14U, DroppedBytes()); ASSERT_EQ("OK", MatchError("checksum mismatch")); } else { ASSERT_EQ(0U, DroppedBytes()); ASSERT_EQ("", ReportMessage()); } } TEST_P(LogTest, UnexpectedMiddleType) { Write("foo"); SetByte(6, static_cast(GetParam() ? kRecyclableMiddleType : kMiddleType)); FixChecksum(0, 3, !!GetParam()); ASSERT_EQ("EOF", Read()); ASSERT_EQ(3U, DroppedBytes()); ASSERT_EQ("OK", MatchError("missing start")); } TEST_P(LogTest, UnexpectedLastType) { Write("foo"); SetByte(6, static_cast(GetParam() ? kRecyclableLastType : kLastType)); FixChecksum(0, 3, !!GetParam()); ASSERT_EQ("EOF", Read()); ASSERT_EQ(3U, DroppedBytes()); ASSERT_EQ("OK", MatchError("missing start")); } TEST_P(LogTest, UnexpectedFullType) { Write("foo"); Write("bar"); SetByte(6, static_cast(GetParam() ? kRecyclableFirstType : kFirstType)); FixChecksum(0, 3, !!GetParam()); ASSERT_EQ("bar", Read()); ASSERT_EQ("EOF", Read()); ASSERT_EQ(3U, DroppedBytes()); ASSERT_EQ("OK", MatchError("partial record without end")); } TEST_P(LogTest, UnexpectedFirstType) { Write("foo"); Write(BigString("bar", 100000)); SetByte(6, static_cast(GetParam() ? kRecyclableFirstType : kFirstType)); FixChecksum(0, 3, !!GetParam()); ASSERT_EQ(BigString("bar", 100000), Read()); ASSERT_EQ("EOF", Read()); ASSERT_EQ(3U, DroppedBytes()); ASSERT_EQ("OK", MatchError("partial record without end")); } TEST_P(LogTest, MissingLastIsIgnored) { Write(BigString("bar", kBlockSize)); // Remove the LAST block, including header. ShrinkSize(14); ASSERT_EQ("EOF", Read()); ASSERT_EQ("", ReportMessage()); ASSERT_EQ(0U, DroppedBytes()); } TEST_P(LogTest, MissingLastIsNotIgnored) { Write(BigString("bar", kBlockSize)); // Remove the LAST block, including header. ShrinkSize(14); ASSERT_EQ("EOF", Read(WALRecoveryMode::kAbsoluteConsistency)); ASSERT_GT(DroppedBytes(), 0U); ASSERT_EQ("OK", MatchError("Corruption: error reading trailing data")); } TEST_P(LogTest, PartialLastIsIgnored) { Write(BigString("bar", kBlockSize)); // Cause a bad record length in the LAST block. ShrinkSize(1); ASSERT_EQ("EOF", Read()); ASSERT_EQ("", ReportMessage()); ASSERT_EQ(0U, DroppedBytes()); } TEST_P(LogTest, PartialLastIsNotIgnored) { Write(BigString("bar", kBlockSize)); // Cause a bad record length in the LAST block. ShrinkSize(1); ASSERT_EQ("EOF", Read(WALRecoveryMode::kAbsoluteConsistency)); ASSERT_GT(DroppedBytes(), 0U); ASSERT_EQ("OK", MatchError( "Corruption: truncated headerCorruption: " "error reading trailing data")); } TEST_P(LogTest, ErrorJoinsRecords) { // Consider two fragmented records: // first(R1) last(R1) first(R2) last(R2) // where the middle two fragments disappear. We do not want // first(R1),last(R2) to get joined and returned as a valid record. // Write records that span two blocks Write(BigString("foo", kBlockSize)); Write(BigString("bar", kBlockSize)); Write("correct"); // Wipe the middle block for (unsigned int offset = kBlockSize; offset < 2*kBlockSize; offset++) { SetByte(offset, 'x'); } if (!GetParam()) { ASSERT_EQ("correct", Read()); ASSERT_EQ("EOF", Read()); size_t dropped = DroppedBytes(); ASSERT_LE(dropped, 2 * kBlockSize + 100); ASSERT_GE(dropped, 2 * kBlockSize); } else { ASSERT_EQ("EOF", Read()); } } TEST_P(LogTest, ClearEofSingleBlock) { Write("foo"); Write("bar"); int header_size = GetParam() ? kRecyclableHeaderSize : kHeaderSize; ForceEOF(3 + header_size + 2); ASSERT_EQ("foo", Read()); UnmarkEOF(); ASSERT_EQ("bar", Read()); ASSERT_TRUE(IsEOF()); ASSERT_EQ("EOF", Read()); Write("xxx"); UnmarkEOF(); ASSERT_EQ("xxx", Read()); ASSERT_TRUE(IsEOF()); } TEST_P(LogTest, ClearEofMultiBlock) { size_t num_full_blocks = 5; int header_size = GetParam() ? kRecyclableHeaderSize : kHeaderSize; size_t n = (kBlockSize - header_size) * num_full_blocks + 25; Write(BigString("foo", n)); Write(BigString("bar", n)); ForceEOF(n + num_full_blocks * header_size + header_size + 3); ASSERT_EQ(BigString("foo", n), Read()); ASSERT_TRUE(IsEOF()); UnmarkEOF(); ASSERT_EQ(BigString("bar", n), Read()); ASSERT_TRUE(IsEOF()); Write(BigString("xxx", n)); UnmarkEOF(); ASSERT_EQ(BigString("xxx", n), Read()); ASSERT_TRUE(IsEOF()); } TEST_P(LogTest, ClearEofError) { // If an error occurs during Read() in UnmarkEOF(), the records contained // in the buffer should be returned on subsequent calls of ReadRecord() // until no more full records are left, whereafter ReadRecord() should return // false to indicate that it cannot read any further. Write("foo"); Write("bar"); UnmarkEOF(); ASSERT_EQ("foo", Read()); ASSERT_TRUE(IsEOF()); Write("xxx"); ForceError(0); UnmarkEOF(); ASSERT_EQ("bar", Read()); ASSERT_EQ("EOF", Read()); } TEST_P(LogTest, ClearEofError2) { Write("foo"); Write("bar"); UnmarkEOF(); ASSERT_EQ("foo", Read()); Write("xxx"); ForceError(3); UnmarkEOF(); ASSERT_EQ("bar", Read()); ASSERT_EQ("EOF", Read()); ASSERT_EQ(3U, DroppedBytes()); ASSERT_EQ("OK", MatchError("read error")); } TEST_P(LogTest, Recycle) { if (!GetParam()) { return; // test is only valid for recycled logs } Write("foo"); Write("bar"); Write("baz"); Write("bif"); Write("blitz"); while (get_reader_contents()->size() < log::kBlockSize * 2) { Write("xxxxxxxxxxxxxxxx"); } unique_ptr dest_holder(test::GetWritableFileWriter( new test::OverwritingStringSink(get_reader_contents()), "" /* don't care */)); Writer recycle_writer(std::move(dest_holder), 123, true); recycle_writer.AddRecord(Slice("foooo")); recycle_writer.AddRecord(Slice("bar")); ASSERT_GE(get_reader_contents()->size(), log::kBlockSize * 2); ASSERT_EQ("foooo", Read()); ASSERT_EQ("bar", Read()); ASSERT_EQ("EOF", Read()); } INSTANTIATE_TEST_CASE_P(bool, LogTest, ::testing::Values(0, 2)); } // namespace log } // namespace rocksdb int main(int argc, char** argv) { ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/db/log_writer.cc000066400000000000000000000112401337235545400163170ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "db/log_writer.h" #include #include "rocksdb/env.h" #include "util/coding.h" #include "util/crc32c.h" #include "util/file_reader_writer.h" namespace rocksdb { namespace log { Writer::Writer(unique_ptr&& dest, uint64_t log_number, bool recycle_log_files, bool manual_flush) : dest_(std::move(dest)), block_offset_(0), log_number_(log_number), recycle_log_files_(recycle_log_files), manual_flush_(manual_flush) { for (int i = 0; i <= kMaxRecordType; i++) { char t = static_cast(i); type_crc_[i] = crc32c::Value(&t, 1); } } Writer::~Writer() { WriteBuffer(); } Status Writer::WriteBuffer() { return dest_->Flush(); } Status Writer::AddRecord(const Slice& slice) { const char* ptr = slice.data(); size_t left = slice.size(); // Header size varies depending on whether we are recycling or not. const int header_size = recycle_log_files_ ? kRecyclableHeaderSize : kHeaderSize; // Fragment the record if necessary and emit it. Note that if slice // is empty, we still want to iterate once to emit a single // zero-length record Status s; bool begin = true; do { const int64_t leftover = kBlockSize - block_offset_; assert(leftover >= 0); if (leftover < header_size) { // Switch to a new block if (leftover > 0) { // Fill the trailer (literal below relies on kHeaderSize and // kRecyclableHeaderSize being <= 11) assert(header_size <= 11); s = dest_->Append(Slice("\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00", static_cast(leftover))); if (!s.ok()) { break; } } block_offset_ = 0; } // Invariant: we never leave < header_size bytes in a block. assert(static_cast(kBlockSize - block_offset_) >= header_size); const size_t avail = kBlockSize - block_offset_ - header_size; const size_t fragment_length = (left < avail) ? left : avail; RecordType type; const bool end = (left == fragment_length); if (begin && end) { type = recycle_log_files_ ? kRecyclableFullType : kFullType; } else if (begin) { type = recycle_log_files_ ? kRecyclableFirstType : kFirstType; } else if (end) { type = recycle_log_files_ ? kRecyclableLastType : kLastType; } else { type = recycle_log_files_ ? kRecyclableMiddleType : kMiddleType; } s = EmitPhysicalRecord(type, ptr, fragment_length); ptr += fragment_length; left -= fragment_length; begin = false; } while (s.ok() && left > 0); return s; } bool Writer::TEST_BufferIsEmpty() { return dest_->TEST_BufferIsEmpty(); } Status Writer::EmitPhysicalRecord(RecordType t, const char* ptr, size_t n) { assert(n <= 0xffff); // Must fit in two bytes size_t header_size; char buf[kRecyclableHeaderSize]; // Format the header buf[4] = static_cast(n & 0xff); buf[5] = static_cast(n >> 8); buf[6] = static_cast(t); uint32_t crc = type_crc_[t]; if (t < kRecyclableFullType) { // Legacy record format assert(block_offset_ + kHeaderSize + n <= kBlockSize); header_size = kHeaderSize; } else { // Recyclable record format assert(block_offset_ + kRecyclableHeaderSize + n <= kBlockSize); header_size = kRecyclableHeaderSize; // Only encode low 32-bits of the 64-bit log number. This means // we will fail to detect an old record if we recycled a log from // ~4 billion logs ago, but that is effectively impossible, and // even if it were we'dbe far more likely to see a false positive // on the 32-bit CRC. EncodeFixed32(buf + 7, static_cast(log_number_)); crc = crc32c::Extend(crc, buf + 7, 4); } // Compute the crc of the record type and the payload. crc = crc32c::Extend(crc, ptr, n); crc = crc32c::Mask(crc); // Adjust for storage EncodeFixed32(buf, crc); // Write the header and the payload Status s = dest_->Append(Slice(buf, header_size)); if (s.ok()) { s = dest_->Append(Slice(ptr, n)); if (s.ok()) { if (!manual_flush_) { s = dest_->Flush(); } } } block_offset_ += header_size + n; return s; } } // namespace log } // namespace rocksdb rocksdb-5.17.2/db/log_writer.h000066400000000000000000000074421337235545400161720ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #include #include #include "db/log_format.h" #include "rocksdb/slice.h" #include "rocksdb/status.h" namespace rocksdb { class WritableFileWriter; using std::unique_ptr; namespace log { /** * Writer is a general purpose log stream writer. It provides an append-only * abstraction for writing data. The details of the how the data is written is * handled by the WriteableFile sub-class implementation. * * File format: * * File is broken down into variable sized records. The format of each record * is described below. * +-----+-------------+--+----+----------+------+-- ... ----+ * File | r0 | r1 |P | r2 | r3 | r4 | | * +-----+-------------+--+----+----------+------+-- ... ----+ * <--- kBlockSize ------>|<-- kBlockSize ------>| * rn = variable size records * P = Padding * * Data is written out in kBlockSize chunks. If next record does not fit * into the space left, the leftover space will be padded with \0. * * Legacy record format: * * +---------+-----------+-----------+--- ... ---+ * |CRC (4B) | Size (2B) | Type (1B) | Payload | * +---------+-----------+-----------+--- ... ---+ * * CRC = 32bit hash computed over the record type and payload using CRC * Size = Length of the payload data * Type = Type of record * (kZeroType, kFullType, kFirstType, kLastType, kMiddleType ) * The type is used to group a bunch of records together to represent * blocks that are larger than kBlockSize * Payload = Byte stream as long as specified by the payload size * * Recyclable record format: * * +---------+-----------+-----------+----------------+--- ... ---+ * |CRC (4B) | Size (2B) | Type (1B) | Log number (4B)| Payload | * +---------+-----------+-----------+----------------+--- ... ---+ * * Same as above, with the addition of * Log number = 32bit log file number, so that we can distinguish between * records written by the most recent log writer vs a previous one. */ class Writer { public: // Create a writer that will append data to "*dest". // "*dest" must be initially empty. // "*dest" must remain live while this Writer is in use. explicit Writer(unique_ptr&& dest, uint64_t log_number, bool recycle_log_files, bool manual_flush = false); ~Writer(); Status AddRecord(const Slice& slice); WritableFileWriter* file() { return dest_.get(); } const WritableFileWriter* file() const { return dest_.get(); } uint64_t get_log_number() const { return log_number_; } Status WriteBuffer(); bool TEST_BufferIsEmpty(); private: unique_ptr dest_; size_t block_offset_; // Current offset in block uint64_t log_number_; bool recycle_log_files_; // crc32c values for all supported record types. These are // pre-computed to reduce the overhead of computing the crc of the // record type stored in the header. uint32_t type_crc_[kMaxRecordType + 1]; Status EmitPhysicalRecord(RecordType type, const char* ptr, size_t length); // If true, it does not flush after each write. Instead it relies on the upper // layer to manually does the flush by calling ::WriteBuffer() bool manual_flush_; // No copying allowed Writer(const Writer&); void operator=(const Writer&); }; } // namespace log } // namespace rocksdb rocksdb-5.17.2/db/logs_with_prep_tracker.cc000066400000000000000000000043631337235545400207120ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // #include "db/logs_with_prep_tracker.h" #include "port/likely.h" namespace rocksdb { void LogsWithPrepTracker::MarkLogAsHavingPrepSectionFlushed(uint64_t log) { assert(log != 0); std::lock_guard lock(prepared_section_completed_mutex_); auto it = prepared_section_completed_.find(log); if (UNLIKELY(it == prepared_section_completed_.end())) { prepared_section_completed_[log] = 1; } else { it->second += 1; } } void LogsWithPrepTracker::MarkLogAsContainingPrepSection(uint64_t log) { assert(log != 0); std::lock_guard lock(logs_with_prep_mutex_); auto rit = logs_with_prep_.rbegin(); bool updated = false; // Most probably the last log is the one that is being marked for // having a prepare section; so search from the end. for (; rit != logs_with_prep_.rend() && rit->log >= log; ++rit) { if (rit->log == log) { rit->cnt++; updated = true; break; } } if (!updated) { // We are either at the start, or at a position with rit->log < log logs_with_prep_.insert(rit.base(), {log, 1}); } } uint64_t LogsWithPrepTracker::FindMinLogContainingOutstandingPrep() { std::lock_guard lock(logs_with_prep_mutex_); auto it = logs_with_prep_.begin(); // start with the smallest log for (; it != logs_with_prep_.end();) { auto min_log = it->log; { std::lock_guard lock2(prepared_section_completed_mutex_); auto completed_it = prepared_section_completed_.find(min_log); if (completed_it == prepared_section_completed_.end() || completed_it->second < it->cnt) { return min_log; } assert(completed_it != prepared_section_completed_.end() && completed_it->second == it->cnt); prepared_section_completed_.erase(completed_it); } // erase from beginning in vector is not efficient but this function is not // on the fast path. it = logs_with_prep_.erase(it); } // no such log found return 0; } } // namespace rocksdb rocksdb-5.17.2/db/logs_with_prep_tracker.h000066400000000000000000000045241337235545400205530ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // #pragma once #include #include #include #include #include #include namespace rocksdb { // This class is used to track the log files with outstanding prepare entries. class LogsWithPrepTracker { public: // Called when a transaction prepared in `log` has been committed or aborted. void MarkLogAsHavingPrepSectionFlushed(uint64_t log); // Called when a transaction is prepared in `log`. void MarkLogAsContainingPrepSection(uint64_t log); // Return the earliest log file with outstanding prepare entries. uint64_t FindMinLogContainingOutstandingPrep(); size_t TEST_PreparedSectionCompletedSize() { return prepared_section_completed_.size(); } size_t TEST_LogsWithPrepSize() { return logs_with_prep_.size(); } private: // REQUIRES: logs_with_prep_mutex_ held // // sorted list of log numbers still containing prepared data. // this is used by FindObsoleteFiles to determine which // flushed logs we must keep around because they still // contain prepared data which has not been committed or rolled back struct LogCnt { uint64_t log; // the log number uint64_t cnt; // number of prepared sections in the log }; std::vector logs_with_prep_; std::mutex logs_with_prep_mutex_; // REQUIRES: prepared_section_completed_mutex_ held // // to be used in conjunction with logs_with_prep_. // once a transaction with data in log L is committed or rolled back // rather than updating logs_with_prep_ directly we keep track of that // in prepared_section_completed_ which maps LOG -> instance_count. This helps // avoiding contention between a commit thread and the prepare threads. // // when trying to determine the minimum log still active we first // consult logs_with_prep_. while that root value maps to // an equal value in prepared_section_completed_ we erase the log from // both logs_with_prep_ and prepared_section_completed_. std::unordered_map prepared_section_completed_; std::mutex prepared_section_completed_mutex_; }; } // namespace rocksdb rocksdb-5.17.2/db/malloc_stats.cc000066400000000000000000000032571337235545400166400ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "db/malloc_stats.h" #ifndef ROCKSDB_LITE #include #include namespace rocksdb { #ifdef ROCKSDB_JEMALLOC #ifdef __FreeBSD__ #include #else #include "jemalloc/jemalloc.h" #ifdef JEMALLOC_NO_RENAME #define malloc_stats_print je_malloc_stats_print #endif #endif typedef struct { char* cur; char* end; } MallocStatus; static void GetJemallocStatus(void* mstat_arg, const char* status) { MallocStatus* mstat = reinterpret_cast(mstat_arg); size_t status_len = status ? strlen(status) : 0; size_t buf_size = (size_t)(mstat->end - mstat->cur); if (!status_len || status_len > buf_size) { return; } snprintf(mstat->cur, buf_size, "%s", status); mstat->cur += status_len; } #endif // ROCKSDB_JEMALLOC #ifdef ROCKSDB_JEMALLOC void DumpMallocStats(std::string* stats) { MallocStatus mstat; const unsigned int kMallocStatusLen = 1000000; std::unique_ptr buf{new char[kMallocStatusLen + 1]}; mstat.cur = buf.get(); mstat.end = buf.get() + kMallocStatusLen; malloc_stats_print(GetJemallocStatus, &mstat, ""); stats->append(buf.get()); } #else void DumpMallocStats(std::string*) {} #endif // ROCKSDB_JEMALLOC } #endif // !ROCKSDB_LITE rocksdb-5.17.2/db/malloc_stats.h000066400000000000000000000011571337235545400164770ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #ifndef ROCKSDB_LITE #include namespace rocksdb { void DumpMallocStats(std::string*); } #endif // !ROCKSDB_LITE rocksdb-5.17.2/db/manual_compaction_test.cc000066400000000000000000000115031337235545400206740ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Test for issue 178: a manual compaction causes deleted data to reappear. #include #include #include #include "rocksdb/db.h" #include "rocksdb/compaction_filter.h" #include "rocksdb/slice.h" #include "rocksdb/write_batch.h" #include "util/testharness.h" #include "port/port.h" using namespace rocksdb; namespace { // Reasoning: previously the number was 1100000. Since the keys are written to // the batch in one write each write will result into one SST file. each write // will result into one SST file. We reduced the write_buffer_size to 1K to // basically have the same effect with however less number of keys, which // results into less test runtime. const int kNumKeys = 1100; std::string Key1(int i) { char buf[100]; snprintf(buf, sizeof(buf), "my_key_%d", i); return buf; } std::string Key2(int i) { return Key1(i) + "_xxx"; } class ManualCompactionTest : public testing::Test { public: ManualCompactionTest() { // Get rid of any state from an old run. dbname_ = rocksdb::test::PerThreadDBPath("rocksdb_cbug_test"); DestroyDB(dbname_, rocksdb::Options()); } std::string dbname_; }; class DestroyAllCompactionFilter : public CompactionFilter { public: DestroyAllCompactionFilter() {} virtual bool Filter(int /*level*/, const Slice& /*key*/, const Slice& existing_value, std::string* /*new_value*/, bool* /*value_changed*/) const override { return existing_value.ToString() == "destroy"; } virtual const char* Name() const override { return "DestroyAllCompactionFilter"; } }; TEST_F(ManualCompactionTest, CompactTouchesAllKeys) { for (int iter = 0; iter < 2; ++iter) { DB* db; Options options; if (iter == 0) { // level compaction options.num_levels = 3; options.compaction_style = kCompactionStyleLevel; } else { // universal compaction options.compaction_style = kCompactionStyleUniversal; } options.create_if_missing = true; options.compression = rocksdb::kNoCompression; options.compaction_filter = new DestroyAllCompactionFilter(); ASSERT_OK(DB::Open(options, dbname_, &db)); db->Put(WriteOptions(), Slice("key1"), Slice("destroy")); db->Put(WriteOptions(), Slice("key2"), Slice("destroy")); db->Put(WriteOptions(), Slice("key3"), Slice("value3")); db->Put(WriteOptions(), Slice("key4"), Slice("destroy")); Slice key4("key4"); db->CompactRange(CompactRangeOptions(), nullptr, &key4); Iterator* itr = db->NewIterator(ReadOptions()); itr->SeekToFirst(); ASSERT_TRUE(itr->Valid()); ASSERT_EQ("key3", itr->key().ToString()); itr->Next(); ASSERT_TRUE(!itr->Valid()); delete itr; delete options.compaction_filter; delete db; DestroyDB(dbname_, options); } } TEST_F(ManualCompactionTest, Test) { // Open database. Disable compression since it affects the creation // of layers and the code below is trying to test against a very // specific scenario. rocksdb::DB* db; rocksdb::Options db_options; db_options.write_buffer_size = 1024; db_options.create_if_missing = true; db_options.compression = rocksdb::kNoCompression; ASSERT_OK(rocksdb::DB::Open(db_options, dbname_, &db)); // create first key range rocksdb::WriteBatch batch; for (int i = 0; i < kNumKeys; i++) { batch.Put(Key1(i), "value for range 1 key"); } ASSERT_OK(db->Write(rocksdb::WriteOptions(), &batch)); // create second key range batch.Clear(); for (int i = 0; i < kNumKeys; i++) { batch.Put(Key2(i), "value for range 2 key"); } ASSERT_OK(db->Write(rocksdb::WriteOptions(), &batch)); // delete second key range batch.Clear(); for (int i = 0; i < kNumKeys; i++) { batch.Delete(Key2(i)); } ASSERT_OK(db->Write(rocksdb::WriteOptions(), &batch)); // compact database std::string start_key = Key1(0); std::string end_key = Key1(kNumKeys - 1); rocksdb::Slice least(start_key.data(), start_key.size()); rocksdb::Slice greatest(end_key.data(), end_key.size()); // commenting out the line below causes the example to work correctly db->CompactRange(CompactRangeOptions(), &least, &greatest); // count the keys rocksdb::Iterator* iter = db->NewIterator(rocksdb::ReadOptions()); int num_keys = 0; for (iter->SeekToFirst(); iter->Valid(); iter->Next()) { num_keys++; } delete iter; ASSERT_EQ(kNumKeys, num_keys) << "Bad number of keys"; // close database delete db; DestroyDB(dbname_, rocksdb::Options()); } } // anonymous namespace int main(int argc, char** argv) { ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/db/memtable.cc000066400000000000000000001053671337235545400157460ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "db/memtable.h" #include #include #include #include "db/dbformat.h" #include "db/merge_context.h" #include "db/merge_helper.h" #include "db/pinned_iterators_manager.h" #include "db/read_callback.h" #include "monitoring/perf_context_imp.h" #include "monitoring/statistics.h" #include "port/port.h" #include "rocksdb/comparator.h" #include "rocksdb/env.h" #include "rocksdb/iterator.h" #include "rocksdb/merge_operator.h" #include "rocksdb/slice_transform.h" #include "rocksdb/write_buffer_manager.h" #include "table/internal_iterator.h" #include "table/iterator_wrapper.h" #include "table/merging_iterator.h" #include "util/arena.h" #include "util/autovector.h" #include "util/coding.h" #include "util/memory_usage.h" #include "util/murmurhash.h" #include "util/mutexlock.h" #include "util/util.h" namespace rocksdb { ImmutableMemTableOptions::ImmutableMemTableOptions( const ImmutableCFOptions& ioptions, const MutableCFOptions& mutable_cf_options) : arena_block_size(mutable_cf_options.arena_block_size), memtable_prefix_bloom_bits( static_cast( static_cast(mutable_cf_options.write_buffer_size) * mutable_cf_options.memtable_prefix_bloom_size_ratio) * 8u), memtable_huge_page_size(mutable_cf_options.memtable_huge_page_size), inplace_update_support(ioptions.inplace_update_support), inplace_update_num_locks(mutable_cf_options.inplace_update_num_locks), inplace_callback(ioptions.inplace_callback), max_successive_merges(mutable_cf_options.max_successive_merges), statistics(ioptions.statistics), merge_operator(ioptions.merge_operator), info_log(ioptions.info_log) {} MemTable::MemTable(const InternalKeyComparator& cmp, const ImmutableCFOptions& ioptions, const MutableCFOptions& mutable_cf_options, WriteBufferManager* write_buffer_manager, SequenceNumber latest_seq, uint32_t column_family_id) : comparator_(cmp), moptions_(ioptions, mutable_cf_options), refs_(0), kArenaBlockSize(OptimizeBlockSize(moptions_.arena_block_size)), mem_tracker_(write_buffer_manager), arena_( moptions_.arena_block_size, (write_buffer_manager != nullptr && write_buffer_manager->enabled()) ? &mem_tracker_ : nullptr, mutable_cf_options.memtable_huge_page_size), table_(ioptions.memtable_factory->CreateMemTableRep( comparator_, &arena_, mutable_cf_options.prefix_extractor.get(), ioptions.info_log, column_family_id)), range_del_table_(SkipListFactory().CreateMemTableRep( comparator_, &arena_, nullptr /* transform */, ioptions.info_log, column_family_id)), is_range_del_table_empty_(true), data_size_(0), num_entries_(0), num_deletes_(0), write_buffer_size_(mutable_cf_options.write_buffer_size), flush_in_progress_(false), flush_completed_(false), file_number_(0), first_seqno_(0), earliest_seqno_(latest_seq), creation_seq_(latest_seq), mem_next_logfile_number_(0), min_prep_log_referenced_(0), locks_(moptions_.inplace_update_support ? moptions_.inplace_update_num_locks : 0), prefix_extractor_(mutable_cf_options.prefix_extractor.get()), flush_state_(FLUSH_NOT_REQUESTED), env_(ioptions.env), insert_with_hint_prefix_extractor_( ioptions.memtable_insert_with_hint_prefix_extractor), oldest_key_time_(std::numeric_limits::max()) { UpdateFlushState(); // something went wrong if we need to flush before inserting anything assert(!ShouldScheduleFlush()); if (prefix_extractor_ && moptions_.memtable_prefix_bloom_bits > 0) { prefix_bloom_.reset(new DynamicBloom( &arena_, moptions_.memtable_prefix_bloom_bits, ioptions.bloom_locality, 6 /* hard coded 6 probes */, nullptr, moptions_.memtable_huge_page_size, ioptions.info_log)); } } MemTable::~MemTable() { mem_tracker_.FreeMem(); assert(refs_ == 0); } size_t MemTable::ApproximateMemoryUsage() { autovector usages = {arena_.ApproximateMemoryUsage(), table_->ApproximateMemoryUsage(), range_del_table_->ApproximateMemoryUsage(), rocksdb::ApproximateMemoryUsage(insert_hints_)}; size_t total_usage = 0; for (size_t usage : usages) { // If usage + total_usage >= kMaxSizet, return kMaxSizet. // the following variation is to avoid numeric overflow. if (usage >= port::kMaxSizet - total_usage) { return port::kMaxSizet; } total_usage += usage; } // otherwise, return the actual usage return total_usage; } bool MemTable::ShouldFlushNow() const { size_t write_buffer_size = write_buffer_size_.load(std::memory_order_relaxed); // In a lot of times, we cannot allocate arena blocks that exactly matches the // buffer size. Thus we have to decide if we should over-allocate or // under-allocate. // This constant variable can be interpreted as: if we still have more than // "kAllowOverAllocationRatio * kArenaBlockSize" space left, we'd try to over // allocate one more block. const double kAllowOverAllocationRatio = 0.6; // If arena still have room for new block allocation, we can safely say it // shouldn't flush. auto allocated_memory = table_->ApproximateMemoryUsage() + range_del_table_->ApproximateMemoryUsage() + arena_.MemoryAllocatedBytes(); // if we can still allocate one more block without exceeding the // over-allocation ratio, then we should not flush. if (allocated_memory + kArenaBlockSize < write_buffer_size + kArenaBlockSize * kAllowOverAllocationRatio) { return false; } // if user keeps adding entries that exceeds write_buffer_size, we need to // flush earlier even though we still have much available memory left. if (allocated_memory > write_buffer_size + kArenaBlockSize * kAllowOverAllocationRatio) { return true; } // In this code path, Arena has already allocated its "last block", which // means the total allocatedmemory size is either: // (1) "moderately" over allocated the memory (no more than `0.6 * arena // block size`. Or, // (2) the allocated memory is less than write buffer size, but we'll stop // here since if we allocate a new arena block, we'll over allocate too much // more (half of the arena block size) memory. // // In either case, to avoid over-allocate, the last block will stop allocation // when its usage reaches a certain ratio, which we carefully choose "0.75 // full" as the stop condition because it addresses the following issue with // great simplicity: What if the next inserted entry's size is // bigger than AllocatedAndUnused()? // // The answer is: if the entry size is also bigger than 0.25 * // kArenaBlockSize, a dedicated block will be allocated for it; otherwise // arena will anyway skip the AllocatedAndUnused() and allocate a new, empty // and regular block. In either case, we *overly* over-allocated. // // Therefore, setting the last block to be at most "0.75 full" avoids both // cases. // // NOTE: the average percentage of waste space of this approach can be counted // as: "arena block size * 0.25 / write buffer size". User who specify a small // write buffer size and/or big arena block size may suffer. return arena_.AllocatedAndUnused() < kArenaBlockSize / 4; } void MemTable::UpdateFlushState() { auto state = flush_state_.load(std::memory_order_relaxed); if (state == FLUSH_NOT_REQUESTED && ShouldFlushNow()) { // ignore CAS failure, because that means somebody else requested // a flush flush_state_.compare_exchange_strong(state, FLUSH_REQUESTED, std::memory_order_relaxed, std::memory_order_relaxed); } } void MemTable::UpdateOldestKeyTime() { uint64_t oldest_key_time = oldest_key_time_.load(std::memory_order_relaxed); if (oldest_key_time == std::numeric_limits::max()) { int64_t current_time = 0; auto s = env_->GetCurrentTime(¤t_time); if (s.ok()) { assert(current_time >= 0); // If fail, the timestamp is already set. oldest_key_time_.compare_exchange_strong( oldest_key_time, static_cast(current_time), std::memory_order_relaxed, std::memory_order_relaxed); } } } int MemTable::KeyComparator::operator()(const char* prefix_len_key1, const char* prefix_len_key2) const { // Internal keys are encoded as length-prefixed strings. Slice k1 = GetLengthPrefixedSlice(prefix_len_key1); Slice k2 = GetLengthPrefixedSlice(prefix_len_key2); return comparator.CompareKeySeq(k1, k2); } int MemTable::KeyComparator::operator()(const char* prefix_len_key, const KeyComparator::DecodedType& key) const { // Internal keys are encoded as length-prefixed strings. Slice a = GetLengthPrefixedSlice(prefix_len_key); return comparator.CompareKeySeq(a, key); } void MemTableRep::InsertConcurrently(KeyHandle /*handle*/) { #ifndef ROCKSDB_LITE throw std::runtime_error("concurrent insert not supported"); #else abort(); #endif } Slice MemTableRep::UserKey(const char* key) const { Slice slice = GetLengthPrefixedSlice(key); return Slice(slice.data(), slice.size() - 8); } KeyHandle MemTableRep::Allocate(const size_t len, char** buf) { *buf = allocator_->Allocate(len); return static_cast(*buf); } // Encode a suitable internal key target for "target" and return it. // Uses *scratch as scratch space, and the returned pointer will point // into this scratch space. const char* EncodeKey(std::string* scratch, const Slice& target) { scratch->clear(); PutVarint32(scratch, static_cast(target.size())); scratch->append(target.data(), target.size()); return scratch->data(); } class MemTableIterator : public InternalIterator { public: MemTableIterator(const MemTable& mem, const ReadOptions& read_options, Arena* arena, bool use_range_del_table = false) : bloom_(nullptr), prefix_extractor_(mem.prefix_extractor_), comparator_(mem.comparator_), valid_(false), arena_mode_(arena != nullptr), value_pinned_( !mem.GetImmutableMemTableOptions()->inplace_update_support) { if (use_range_del_table) { iter_ = mem.range_del_table_->GetIterator(arena); } else if (prefix_extractor_ != nullptr && !read_options.total_order_seek) { bloom_ = mem.prefix_bloom_.get(); iter_ = mem.table_->GetDynamicPrefixIterator(arena); } else { iter_ = mem.table_->GetIterator(arena); } } ~MemTableIterator() { #ifndef NDEBUG // Assert that the MemTableIterator is never deleted while // Pinning is Enabled. assert(!pinned_iters_mgr_ || !pinned_iters_mgr_->PinningEnabled()); #endif if (arena_mode_) { iter_->~Iterator(); } else { delete iter_; } } #ifndef NDEBUG virtual void SetPinnedItersMgr( PinnedIteratorsManager* pinned_iters_mgr) override { pinned_iters_mgr_ = pinned_iters_mgr; } PinnedIteratorsManager* pinned_iters_mgr_ = nullptr; #endif virtual bool Valid() const override { return valid_; } virtual void Seek(const Slice& k) override { PERF_TIMER_GUARD(seek_on_memtable_time); PERF_COUNTER_ADD(seek_on_memtable_count, 1); if (bloom_ != nullptr) { if (!bloom_->MayContain( prefix_extractor_->Transform(ExtractUserKey(k)))) { PERF_COUNTER_ADD(bloom_memtable_miss_count, 1); valid_ = false; return; } else { PERF_COUNTER_ADD(bloom_memtable_hit_count, 1); } } iter_->Seek(k, nullptr); valid_ = iter_->Valid(); } virtual void SeekForPrev(const Slice& k) override { PERF_TIMER_GUARD(seek_on_memtable_time); PERF_COUNTER_ADD(seek_on_memtable_count, 1); if (bloom_ != nullptr) { if (!bloom_->MayContain( prefix_extractor_->Transform(ExtractUserKey(k)))) { PERF_COUNTER_ADD(bloom_memtable_miss_count, 1); valid_ = false; return; } else { PERF_COUNTER_ADD(bloom_memtable_hit_count, 1); } } iter_->Seek(k, nullptr); valid_ = iter_->Valid(); if (!Valid()) { SeekToLast(); } while (Valid() && comparator_.comparator.Compare(k, key()) < 0) { Prev(); } } virtual void SeekToFirst() override { iter_->SeekToFirst(); valid_ = iter_->Valid(); } virtual void SeekToLast() override { iter_->SeekToLast(); valid_ = iter_->Valid(); } virtual void Next() override { PERF_COUNTER_ADD(next_on_memtable_count, 1); assert(Valid()); iter_->Next(); valid_ = iter_->Valid(); } virtual void Prev() override { PERF_COUNTER_ADD(prev_on_memtable_count, 1); assert(Valid()); iter_->Prev(); valid_ = iter_->Valid(); } virtual Slice key() const override { assert(Valid()); return GetLengthPrefixedSlice(iter_->key()); } virtual Slice value() const override { assert(Valid()); Slice key_slice = GetLengthPrefixedSlice(iter_->key()); return GetLengthPrefixedSlice(key_slice.data() + key_slice.size()); } virtual Status status() const override { return Status::OK(); } virtual bool IsKeyPinned() const override { // memtable data is always pinned return true; } virtual bool IsValuePinned() const override { // memtable value is always pinned, except if we allow inplace update. return value_pinned_; } private: DynamicBloom* bloom_; const SliceTransform* const prefix_extractor_; const MemTable::KeyComparator comparator_; MemTableRep::Iterator* iter_; bool valid_; bool arena_mode_; bool value_pinned_; // No copying allowed MemTableIterator(const MemTableIterator&); void operator=(const MemTableIterator&); }; InternalIterator* MemTable::NewIterator(const ReadOptions& read_options, Arena* arena) { assert(arena != nullptr); auto mem = arena->AllocateAligned(sizeof(MemTableIterator)); return new (mem) MemTableIterator(*this, read_options, arena); } InternalIterator* MemTable::NewRangeTombstoneIterator( const ReadOptions& read_options) { if (read_options.ignore_range_deletions || is_range_del_table_empty_) { return nullptr; } return new MemTableIterator(*this, read_options, nullptr /* arena */, true /* use_range_del_table */); } port::RWMutex* MemTable::GetLock(const Slice& key) { static murmur_hash hash; return &locks_[hash(key) % locks_.size()]; } MemTable::MemTableStats MemTable::ApproximateStats(const Slice& start_ikey, const Slice& end_ikey) { uint64_t entry_count = table_->ApproximateNumEntries(start_ikey, end_ikey); entry_count += range_del_table_->ApproximateNumEntries(start_ikey, end_ikey); if (entry_count == 0) { return {0, 0}; } uint64_t n = num_entries_.load(std::memory_order_relaxed); if (n == 0) { return {0, 0}; } if (entry_count > n) { // (range_del_)table_->ApproximateNumEntries() is just an estimate so it can // be larger than actual entries we have. Cap it to entries we have to limit // the inaccuracy. entry_count = n; } uint64_t data_size = data_size_.load(std::memory_order_relaxed); return {entry_count * (data_size / n), entry_count}; } bool MemTable::Add(SequenceNumber s, ValueType type, const Slice& key, /* user key */ const Slice& value, bool allow_concurrent, MemTablePostProcessInfo* post_process_info) { // Format of an entry is concatenation of: // key_size : varint32 of internal_key.size() // key bytes : char[internal_key.size()] // value_size : varint32 of value.size() // value bytes : char[value.size()] uint32_t key_size = static_cast(key.size()); uint32_t val_size = static_cast(value.size()); uint32_t internal_key_size = key_size + 8; const uint32_t encoded_len = VarintLength(internal_key_size) + internal_key_size + VarintLength(val_size) + val_size; char* buf = nullptr; std::unique_ptr& table = type == kTypeRangeDeletion ? range_del_table_ : table_; KeyHandle handle = table->Allocate(encoded_len, &buf); char* p = EncodeVarint32(buf, internal_key_size); memcpy(p, key.data(), key_size); Slice key_slice(p, key_size); p += key_size; uint64_t packed = PackSequenceAndType(s, type); EncodeFixed64(p, packed); p += 8; p = EncodeVarint32(p, val_size); memcpy(p, value.data(), val_size); assert((unsigned)(p + val_size - buf) == (unsigned)encoded_len); if (!allow_concurrent) { // Extract prefix for insert with hint. if (insert_with_hint_prefix_extractor_ != nullptr && insert_with_hint_prefix_extractor_->InDomain(key_slice)) { Slice prefix = insert_with_hint_prefix_extractor_->Transform(key_slice); bool res = table->InsertKeyWithHint(handle, &insert_hints_[prefix]); if (UNLIKELY(!res)) { return res; } } else { bool res = table->InsertKey(handle); if (UNLIKELY(!res)) { return res; } } // this is a bit ugly, but is the way to avoid locked instructions // when incrementing an atomic num_entries_.store(num_entries_.load(std::memory_order_relaxed) + 1, std::memory_order_relaxed); data_size_.store(data_size_.load(std::memory_order_relaxed) + encoded_len, std::memory_order_relaxed); if (type == kTypeDeletion) { num_deletes_.store(num_deletes_.load(std::memory_order_relaxed) + 1, std::memory_order_relaxed); } if (prefix_bloom_) { assert(prefix_extractor_); prefix_bloom_->Add(prefix_extractor_->Transform(key)); } // The first sequence number inserted into the memtable assert(first_seqno_ == 0 || s >= first_seqno_); if (first_seqno_ == 0) { first_seqno_.store(s, std::memory_order_relaxed); if (earliest_seqno_ == kMaxSequenceNumber) { earliest_seqno_.store(GetFirstSequenceNumber(), std::memory_order_relaxed); } assert(first_seqno_.load() >= earliest_seqno_.load()); } assert(post_process_info == nullptr); UpdateFlushState(); } else { bool res = table->InsertKeyConcurrently(handle); if (UNLIKELY(!res)) { return res; } assert(post_process_info != nullptr); post_process_info->num_entries++; post_process_info->data_size += encoded_len; if (type == kTypeDeletion) { post_process_info->num_deletes++; } if (prefix_bloom_) { assert(prefix_extractor_); prefix_bloom_->AddConcurrently(prefix_extractor_->Transform(key)); } // atomically update first_seqno_ and earliest_seqno_. uint64_t cur_seq_num = first_seqno_.load(std::memory_order_relaxed); while ((cur_seq_num == 0 || s < cur_seq_num) && !first_seqno_.compare_exchange_weak(cur_seq_num, s)) { } uint64_t cur_earliest_seqno = earliest_seqno_.load(std::memory_order_relaxed); while ( (cur_earliest_seqno == kMaxSequenceNumber || s < cur_earliest_seqno) && !first_seqno_.compare_exchange_weak(cur_earliest_seqno, s)) { } } if (is_range_del_table_empty_ && type == kTypeRangeDeletion) { is_range_del_table_empty_ = false; } UpdateOldestKeyTime(); return true; } // Callback from MemTable::Get() namespace { struct Saver { Status* status; const LookupKey* key; bool* found_final_value; // Is value set correctly? Used by KeyMayExist bool* merge_in_progress; std::string* value; SequenceNumber seq; const MergeOperator* merge_operator; // the merge operations encountered; MergeContext* merge_context; RangeDelAggregator* range_del_agg; MemTable* mem; Logger* logger; Statistics* statistics; bool inplace_update_support; Env* env_; ReadCallback* callback_; bool* is_blob_index; bool CheckCallback(SequenceNumber _seq) { if (callback_) { return callback_->IsVisible(_seq); } return true; } }; } // namespace static bool SaveValue(void* arg, const char* entry) { Saver* s = reinterpret_cast(arg); assert(s != nullptr); MergeContext* merge_context = s->merge_context; RangeDelAggregator* range_del_agg = s->range_del_agg; const MergeOperator* merge_operator = s->merge_operator; assert(merge_context != nullptr && range_del_agg != nullptr); // entry format is: // klength varint32 // userkey char[klength-8] // tag uint64 // vlength varint32 // value char[vlength] // Check that it belongs to same user key. We do not check the // sequence number since the Seek() call above should have skipped // all entries with overly large sequence numbers. uint32_t key_length; const char* key_ptr = GetVarint32Ptr(entry, entry + 5, &key_length); if (s->mem->GetInternalKeyComparator().user_comparator()->Equal( Slice(key_ptr, key_length - 8), s->key->user_key())) { // Correct user key const uint64_t tag = DecodeFixed64(key_ptr + key_length - 8); ValueType type; SequenceNumber seq; UnPackSequenceAndType(tag, &seq, &type); // If the value is not in the snapshot, skip it if (!s->CheckCallback(seq)) { return true; // to continue to the next seq } s->seq = seq; if ((type == kTypeValue || type == kTypeMerge || type == kTypeBlobIndex) && range_del_agg->ShouldDelete(Slice(key_ptr, key_length))) { type = kTypeRangeDeletion; } switch (type) { case kTypeBlobIndex: if (s->is_blob_index == nullptr) { ROCKS_LOG_ERROR(s->logger, "Encounter unexpected blob index."); *(s->status) = Status::NotSupported( "Encounter unsupported blob value. Please open DB with " "rocksdb::blob_db::BlobDB instead."); } else if (*(s->merge_in_progress)) { *(s->status) = Status::NotSupported("Blob DB does not support merge operator."); } if (!s->status->ok()) { *(s->found_final_value) = true; return false; } FALLTHROUGH_INTENDED; case kTypeValue: { if (s->inplace_update_support) { s->mem->GetLock(s->key->user_key())->ReadLock(); } Slice v = GetLengthPrefixedSlice(key_ptr + key_length); *(s->status) = Status::OK(); if (*(s->merge_in_progress)) { if (s->value != nullptr) { *(s->status) = MergeHelper::TimedFullMerge( merge_operator, s->key->user_key(), &v, merge_context->GetOperands(), s->value, s->logger, s->statistics, s->env_, nullptr /* result_operand */, true); } } else if (s->value != nullptr) { s->value->assign(v.data(), v.size()); } if (s->inplace_update_support) { s->mem->GetLock(s->key->user_key())->ReadUnlock(); } *(s->found_final_value) = true; if (s->is_blob_index != nullptr) { *(s->is_blob_index) = (type == kTypeBlobIndex); } return false; } case kTypeDeletion: case kTypeSingleDeletion: case kTypeRangeDeletion: { if (*(s->merge_in_progress)) { if (s->value != nullptr) { *(s->status) = MergeHelper::TimedFullMerge( merge_operator, s->key->user_key(), nullptr, merge_context->GetOperands(), s->value, s->logger, s->statistics, s->env_, nullptr /* result_operand */, true); } } else { *(s->status) = Status::NotFound(); } *(s->found_final_value) = true; return false; } case kTypeMerge: { if (!merge_operator) { *(s->status) = Status::InvalidArgument( "merge_operator is not properly initialized."); // Normally we continue the loop (return true) when we see a merge // operand. But in case of an error, we should stop the loop // immediately and pretend we have found the value to stop further // seek. Otherwise, the later call will override this error status. *(s->found_final_value) = true; return false; } Slice v = GetLengthPrefixedSlice(key_ptr + key_length); *(s->merge_in_progress) = true; merge_context->PushOperand( v, s->inplace_update_support == false /* operand_pinned */); if (merge_operator->ShouldMerge(merge_context->GetOperandsDirectionBackward())) { *(s->status) = MergeHelper::TimedFullMerge( merge_operator, s->key->user_key(), nullptr, merge_context->GetOperands(), s->value, s->logger, s->statistics, s->env_, nullptr /* result_operand */, true); *(s->found_final_value) = true; return false; } return true; } default: assert(false); return true; } } // s->state could be Corrupt, merge or notfound return false; } bool MemTable::Get(const LookupKey& key, std::string* value, Status* s, MergeContext* merge_context, RangeDelAggregator* range_del_agg, SequenceNumber* seq, const ReadOptions& read_opts, ReadCallback* callback, bool* is_blob_index) { // The sequence number is updated synchronously in version_set.h if (IsEmpty()) { // Avoiding recording stats for speed. return false; } PERF_TIMER_GUARD(get_from_memtable_time); std::unique_ptr range_del_iter( NewRangeTombstoneIterator(read_opts)); Status status = range_del_agg->AddTombstones(std::move(range_del_iter)); if (!status.ok()) { *s = status; return false; } Slice user_key = key.user_key(); bool found_final_value = false; bool merge_in_progress = s->IsMergeInProgress(); bool const may_contain = nullptr == prefix_bloom_ ? false : prefix_bloom_->MayContain(prefix_extractor_->Transform(user_key)); if (prefix_bloom_ && !may_contain) { // iter is null if prefix bloom says the key does not exist PERF_COUNTER_ADD(bloom_memtable_miss_count, 1); *seq = kMaxSequenceNumber; } else { if (prefix_bloom_) { PERF_COUNTER_ADD(bloom_memtable_hit_count, 1); } Saver saver; saver.status = s; saver.found_final_value = &found_final_value; saver.merge_in_progress = &merge_in_progress; saver.key = &key; saver.value = value; saver.seq = kMaxSequenceNumber; saver.mem = this; saver.merge_context = merge_context; saver.range_del_agg = range_del_agg; saver.merge_operator = moptions_.merge_operator; saver.logger = moptions_.info_log; saver.inplace_update_support = moptions_.inplace_update_support; saver.statistics = moptions_.statistics; saver.env_ = env_; saver.callback_ = callback; saver.is_blob_index = is_blob_index; table_->Get(key, &saver, SaveValue); *seq = saver.seq; } // No change to value, since we have not yet found a Put/Delete if (!found_final_value && merge_in_progress) { *s = Status::MergeInProgress(); } PERF_COUNTER_ADD(get_from_memtable_count, 1); return found_final_value; } void MemTable::Update(SequenceNumber seq, const Slice& key, const Slice& value) { LookupKey lkey(key, seq); Slice mem_key = lkey.memtable_key(); std::unique_ptr iter( table_->GetDynamicPrefixIterator()); iter->Seek(lkey.internal_key(), mem_key.data()); if (iter->Valid()) { // entry format is: // key_length varint32 // userkey char[klength-8] // tag uint64 // vlength varint32 // value char[vlength] // Check that it belongs to same user key. We do not check the // sequence number since the Seek() call above should have skipped // all entries with overly large sequence numbers. const char* entry = iter->key(); uint32_t key_length = 0; const char* key_ptr = GetVarint32Ptr(entry, entry + 5, &key_length); if (comparator_.comparator.user_comparator()->Equal( Slice(key_ptr, key_length - 8), lkey.user_key())) { // Correct user key const uint64_t tag = DecodeFixed64(key_ptr + key_length - 8); ValueType type; SequenceNumber existing_seq; UnPackSequenceAndType(tag, &existing_seq, &type); assert(existing_seq != seq); if (type == kTypeValue) { Slice prev_value = GetLengthPrefixedSlice(key_ptr + key_length); uint32_t prev_size = static_cast(prev_value.size()); uint32_t new_size = static_cast(value.size()); // Update value, if new value size <= previous value size if (new_size <= prev_size) { char* p = EncodeVarint32(const_cast(key_ptr) + key_length, new_size); WriteLock wl(GetLock(lkey.user_key())); memcpy(p, value.data(), value.size()); assert((unsigned)((p + value.size()) - entry) == (unsigned)(VarintLength(key_length) + key_length + VarintLength(value.size()) + value.size())); RecordTick(moptions_.statistics, NUMBER_KEYS_UPDATED); return; } } } } // key doesn't exist bool add_res __attribute__((__unused__)); add_res = Add(seq, kTypeValue, key, value); // We already checked unused != seq above. In that case, Add should not fail. assert(add_res); } bool MemTable::UpdateCallback(SequenceNumber seq, const Slice& key, const Slice& delta) { LookupKey lkey(key, seq); Slice memkey = lkey.memtable_key(); std::unique_ptr iter( table_->GetDynamicPrefixIterator()); iter->Seek(lkey.internal_key(), memkey.data()); if (iter->Valid()) { // entry format is: // key_length varint32 // userkey char[klength-8] // tag uint64 // vlength varint32 // value char[vlength] // Check that it belongs to same user key. We do not check the // sequence number since the Seek() call above should have skipped // all entries with overly large sequence numbers. const char* entry = iter->key(); uint32_t key_length = 0; const char* key_ptr = GetVarint32Ptr(entry, entry + 5, &key_length); if (comparator_.comparator.user_comparator()->Equal( Slice(key_ptr, key_length - 8), lkey.user_key())) { // Correct user key const uint64_t tag = DecodeFixed64(key_ptr + key_length - 8); ValueType type; uint64_t unused; UnPackSequenceAndType(tag, &unused, &type); switch (type) { case kTypeValue: { Slice prev_value = GetLengthPrefixedSlice(key_ptr + key_length); uint32_t prev_size = static_cast(prev_value.size()); char* prev_buffer = const_cast(prev_value.data()); uint32_t new_prev_size = prev_size; std::string str_value; WriteLock wl(GetLock(lkey.user_key())); auto status = moptions_.inplace_callback(prev_buffer, &new_prev_size, delta, &str_value); if (status == UpdateStatus::UPDATED_INPLACE) { // Value already updated by callback. assert(new_prev_size <= prev_size); if (new_prev_size < prev_size) { // overwrite the new prev_size char* p = EncodeVarint32(const_cast(key_ptr) + key_length, new_prev_size); if (VarintLength(new_prev_size) < VarintLength(prev_size)) { // shift the value buffer as well. memcpy(p, prev_buffer, new_prev_size); } } RecordTick(moptions_.statistics, NUMBER_KEYS_UPDATED); UpdateFlushState(); return true; } else if (status == UpdateStatus::UPDATED) { Add(seq, kTypeValue, key, Slice(str_value)); RecordTick(moptions_.statistics, NUMBER_KEYS_WRITTEN); UpdateFlushState(); return true; } else if (status == UpdateStatus::UPDATE_FAILED) { // No action required. Return. UpdateFlushState(); return true; } } default: break; } } } // If the latest value is not kTypeValue // or key doesn't exist return false; } size_t MemTable::CountSuccessiveMergeEntries(const LookupKey& key) { Slice memkey = key.memtable_key(); // A total ordered iterator is costly for some memtablerep (prefix aware // reps). By passing in the user key, we allow efficient iterator creation. // The iterator only needs to be ordered within the same user key. std::unique_ptr iter( table_->GetDynamicPrefixIterator()); iter->Seek(key.internal_key(), memkey.data()); size_t num_successive_merges = 0; for (; iter->Valid(); iter->Next()) { const char* entry = iter->key(); uint32_t key_length = 0; const char* iter_key_ptr = GetVarint32Ptr(entry, entry + 5, &key_length); if (!comparator_.comparator.user_comparator()->Equal( Slice(iter_key_ptr, key_length - 8), key.user_key())) { break; } const uint64_t tag = DecodeFixed64(iter_key_ptr + key_length - 8); ValueType type; uint64_t unused; UnPackSequenceAndType(tag, &unused, &type); if (type != kTypeMerge) { break; } ++num_successive_merges; } return num_successive_merges; } void MemTableRep::Get(const LookupKey& k, void* callback_args, bool (*callback_func)(void* arg, const char* entry)) { auto iter = GetDynamicPrefixIterator(); for (iter->Seek(k.internal_key(), k.memtable_key().data()); iter->Valid() && callback_func(callback_args, iter->key()); iter->Next()) { } } void MemTable::RefLogContainingPrepSection(uint64_t log) { assert(log > 0); auto cur = min_prep_log_referenced_.load(); while ((log < cur || cur == 0) && !min_prep_log_referenced_.compare_exchange_strong(cur, log)) { cur = min_prep_log_referenced_.load(); } } uint64_t MemTable::GetMinLogContainingPrepSection() { return min_prep_log_referenced_.load(); } } // namespace rocksdb rocksdb-5.17.2/db/memtable.h000066400000000000000000000436141337235545400156040ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #include #include #include #include #include #include #include #include "db/dbformat.h" #include "db/range_del_aggregator.h" #include "db/read_callback.h" #include "db/version_edit.h" #include "monitoring/instrumented_mutex.h" #include "options/cf_options.h" #include "rocksdb/db.h" #include "rocksdb/env.h" #include "rocksdb/memtablerep.h" #include "util/allocator.h" #include "util/concurrent_arena.h" #include "util/dynamic_bloom.h" #include "util/hash.h" namespace rocksdb { class Mutex; class MemTableIterator; class MergeContext; struct ImmutableMemTableOptions { explicit ImmutableMemTableOptions(const ImmutableCFOptions& ioptions, const MutableCFOptions& mutable_cf_options); size_t arena_block_size; uint32_t memtable_prefix_bloom_bits; size_t memtable_huge_page_size; bool inplace_update_support; size_t inplace_update_num_locks; UpdateStatus (*inplace_callback)(char* existing_value, uint32_t* existing_value_size, Slice delta_value, std::string* merged_value); size_t max_successive_merges; Statistics* statistics; MergeOperator* merge_operator; Logger* info_log; }; // Batched counters to updated when inserting keys in one write batch. // In post process of the write batch, these can be updated together. // Only used in concurrent memtable insert case. struct MemTablePostProcessInfo { uint64_t data_size = 0; uint64_t num_entries = 0; uint64_t num_deletes = 0; }; // Note: Many of the methods in this class have comments indicating that // external synchronization is required as these methods are not thread-safe. // It is up to higher layers of code to decide how to prevent concurrent // invokation of these methods. This is usually done by acquiring either // the db mutex or the single writer thread. // // Some of these methods are documented to only require external // synchronization if this memtable is immutable. Calling MarkImmutable() is // not sufficient to guarantee immutability. It is up to higher layers of // code to determine if this MemTable can still be modified by other threads. // Eg: The Superversion stores a pointer to the current MemTable (that can // be modified) and a separate list of the MemTables that can no longer be // written to (aka the 'immutable memtables'). class MemTable { public: struct KeyComparator : public MemTableRep::KeyComparator { const InternalKeyComparator comparator; explicit KeyComparator(const InternalKeyComparator& c) : comparator(c) { } virtual int operator()(const char* prefix_len_key1, const char* prefix_len_key2) const override; virtual int operator()(const char* prefix_len_key, const DecodedType& key) const override; }; // MemTables are reference counted. The initial reference count // is zero and the caller must call Ref() at least once. // // earliest_seq should be the current SequenceNumber in the db such that any // key inserted into this memtable will have an equal or larger seq number. // (When a db is first created, the earliest sequence number will be 0). // If the earliest sequence number is not known, kMaxSequenceNumber may be // used, but this may prevent some transactions from succeeding until the // first key is inserted into the memtable. explicit MemTable(const InternalKeyComparator& comparator, const ImmutableCFOptions& ioptions, const MutableCFOptions& mutable_cf_options, WriteBufferManager* write_buffer_manager, SequenceNumber earliest_seq, uint32_t column_family_id); // Do not delete this MemTable unless Unref() indicates it not in use. ~MemTable(); // Increase reference count. // REQUIRES: external synchronization to prevent simultaneous // operations on the same MemTable. void Ref() { ++refs_; } // Drop reference count. // If the refcount goes to zero return this memtable, otherwise return null. // REQUIRES: external synchronization to prevent simultaneous // operations on the same MemTable. MemTable* Unref() { --refs_; assert(refs_ >= 0); if (refs_ <= 0) { return this; } return nullptr; } // Returns an estimate of the number of bytes of data in use by this // data structure. // // REQUIRES: external synchronization to prevent simultaneous // operations on the same MemTable (unless this Memtable is immutable). size_t ApproximateMemoryUsage(); // This method heuristically determines if the memtable should continue to // host more data. bool ShouldScheduleFlush() const { return flush_state_.load(std::memory_order_relaxed) == FLUSH_REQUESTED; } // Returns true if a flush should be scheduled and the caller should // be the one to schedule it bool MarkFlushScheduled() { auto before = FLUSH_REQUESTED; return flush_state_.compare_exchange_strong(before, FLUSH_SCHEDULED, std::memory_order_relaxed, std::memory_order_relaxed); } // Return an iterator that yields the contents of the memtable. // // The caller must ensure that the underlying MemTable remains live // while the returned iterator is live. The keys returned by this // iterator are internal keys encoded by AppendInternalKey in the // db/dbformat.{h,cc} module. // // By default, it returns an iterator for prefix seek if prefix_extractor // is configured in Options. // arena: If not null, the arena needs to be used to allocate the Iterator. // Calling ~Iterator of the iterator will destroy all the states but // those allocated in arena. InternalIterator* NewIterator(const ReadOptions& read_options, Arena* arena); InternalIterator* NewRangeTombstoneIterator(const ReadOptions& read_options); // Add an entry into memtable that maps key to value at the // specified sequence number and with the specified type. // Typically value will be empty if type==kTypeDeletion. // // REQUIRES: if allow_concurrent = false, external synchronization to prevent // simultaneous operations on the same MemTable. // // Returns false if MemTableRepFactory::CanHandleDuplicatedKey() is true and // the already exists. bool Add(SequenceNumber seq, ValueType type, const Slice& key, const Slice& value, bool allow_concurrent = false, MemTablePostProcessInfo* post_process_info = nullptr); // If memtable contains a value for key, store it in *value and return true. // If memtable contains a deletion for key, store a NotFound() error // in *status and return true. // If memtable contains Merge operation as the most recent entry for a key, // and the merge process does not stop (not reaching a value or delete), // prepend the current merge operand to *operands. // store MergeInProgress in s, and return false. // Else, return false. // If any operation was found, its most recent sequence number // will be stored in *seq on success (regardless of whether true/false is // returned). Otherwise, *seq will be set to kMaxSequenceNumber. // On success, *s may be set to OK, NotFound, or MergeInProgress. Any other // status returned indicates a corruption or other unexpected error. bool Get(const LookupKey& key, std::string* value, Status* s, MergeContext* merge_context, RangeDelAggregator* range_del_agg, SequenceNumber* seq, const ReadOptions& read_opts, ReadCallback* callback = nullptr, bool* is_blob_index = nullptr); bool Get(const LookupKey& key, std::string* value, Status* s, MergeContext* merge_context, RangeDelAggregator* range_del_agg, const ReadOptions& read_opts, ReadCallback* callback = nullptr, bool* is_blob_index = nullptr) { SequenceNumber seq; return Get(key, value, s, merge_context, range_del_agg, &seq, read_opts, callback, is_blob_index); } // Attempts to update the new_value inplace, else does normal Add // Pseudocode // if key exists in current memtable && prev_value is of type kTypeValue // if new sizeof(new_value) <= sizeof(prev_value) // update inplace // else add(key, new_value) // else add(key, new_value) // // REQUIRES: external synchronization to prevent simultaneous // operations on the same MemTable. void Update(SequenceNumber seq, const Slice& key, const Slice& value); // If prev_value for key exists, attempts to update it inplace. // else returns false // Pseudocode // if key exists in current memtable && prev_value is of type kTypeValue // new_value = delta(prev_value) // if sizeof(new_value) <= sizeof(prev_value) // update inplace // else add(key, new_value) // else return false // // REQUIRES: external synchronization to prevent simultaneous // operations on the same MemTable. bool UpdateCallback(SequenceNumber seq, const Slice& key, const Slice& delta); // Returns the number of successive merge entries starting from the newest // entry for the key up to the last non-merge entry or last entry for the // key in the memtable. size_t CountSuccessiveMergeEntries(const LookupKey& key); // Update counters and flush status after inserting a whole write batch // Used in concurrent memtable inserts. void BatchPostProcess(const MemTablePostProcessInfo& update_counters) { num_entries_.fetch_add(update_counters.num_entries, std::memory_order_relaxed); data_size_.fetch_add(update_counters.data_size, std::memory_order_relaxed); if (update_counters.num_deletes != 0) { num_deletes_.fetch_add(update_counters.num_deletes, std::memory_order_relaxed); } UpdateFlushState(); } // Get total number of entries in the mem table. // REQUIRES: external synchronization to prevent simultaneous // operations on the same MemTable (unless this Memtable is immutable). uint64_t num_entries() const { return num_entries_.load(std::memory_order_relaxed); } // Get total number of deletes in the mem table. // REQUIRES: external synchronization to prevent simultaneous // operations on the same MemTable (unless this Memtable is immutable). uint64_t num_deletes() const { return num_deletes_.load(std::memory_order_relaxed); } // Dynamically change the memtable's capacity. If set below the current usage, // the next key added will trigger a flush. Can only increase size when // memtable prefix bloom is disabled, since we can't easily allocate more // space. void UpdateWriteBufferSize(size_t new_write_buffer_size) { if (prefix_bloom_ == nullptr || new_write_buffer_size < write_buffer_size_) { write_buffer_size_.store(new_write_buffer_size, std::memory_order_relaxed); } } // Returns the edits area that is needed for flushing the memtable VersionEdit* GetEdits() { return &edit_; } // Returns if there is no entry inserted to the mem table. // REQUIRES: external synchronization to prevent simultaneous // operations on the same MemTable (unless this Memtable is immutable). bool IsEmpty() const { return first_seqno_ == 0; } // Returns the sequence number of the first element that was inserted // into the memtable. // REQUIRES: external synchronization to prevent simultaneous // operations on the same MemTable (unless this Memtable is immutable). SequenceNumber GetFirstSequenceNumber() { return first_seqno_.load(std::memory_order_relaxed); } // Returns the sequence number that is guaranteed to be smaller than or equal // to the sequence number of any key that could be inserted into this // memtable. It can then be assumed that any write with a larger(or equal) // sequence number will be present in this memtable or a later memtable. // // If the earliest sequence number could not be determined, // kMaxSequenceNumber will be returned. SequenceNumber GetEarliestSequenceNumber() { return earliest_seqno_.load(std::memory_order_relaxed); } // DB's latest sequence ID when the memtable is created. This number // may be updated to a more recent one before any key is inserted. SequenceNumber GetCreationSeq() const { return creation_seq_; } void SetCreationSeq(SequenceNumber sn) { creation_seq_ = sn; } // Returns the next active logfile number when this memtable is about to // be flushed to storage // REQUIRES: external synchronization to prevent simultaneous // operations on the same MemTable. uint64_t GetNextLogNumber() { return mem_next_logfile_number_; } // Sets the next active logfile number when this memtable is about to // be flushed to storage // REQUIRES: external synchronization to prevent simultaneous // operations on the same MemTable. void SetNextLogNumber(uint64_t num) { mem_next_logfile_number_ = num; } // if this memtable contains data from a committed // two phase transaction we must take note of the // log which contains that data so we can know // when to relese that log void RefLogContainingPrepSection(uint64_t log); uint64_t GetMinLogContainingPrepSection(); // Notify the underlying storage that no more items will be added. // REQUIRES: external synchronization to prevent simultaneous // operations on the same MemTable. // After MarkImmutable() is called, you should not attempt to // write anything to this MemTable(). (Ie. do not call Add() or Update()). void MarkImmutable() { table_->MarkReadOnly(); mem_tracker_.DoneAllocating(); } // Notify the underlying storage that all data it contained has been // persisted. // REQUIRES: external synchronization to prevent simultaneous // operations on the same MemTable. void MarkFlushed() { table_->MarkFlushed(); } // return true if the current MemTableRep supports merge operator. bool IsMergeOperatorSupported() const { return table_->IsMergeOperatorSupported(); } // return true if the current MemTableRep supports snapshots. // inplace update prevents snapshots, bool IsSnapshotSupported() const { return table_->IsSnapshotSupported() && !moptions_.inplace_update_support; } struct MemTableStats { uint64_t size; uint64_t count; }; MemTableStats ApproximateStats(const Slice& start_ikey, const Slice& end_ikey); // Get the lock associated for the key port::RWMutex* GetLock(const Slice& key); const InternalKeyComparator& GetInternalKeyComparator() const { return comparator_.comparator; } const ImmutableMemTableOptions* GetImmutableMemTableOptions() const { return &moptions_; } uint64_t ApproximateOldestKeyTime() const { return oldest_key_time_.load(std::memory_order_relaxed); } // REQUIRES: db_mutex held. void SetID(uint64_t id) { id_ = id; } uint64_t GetID() const { return id_; } private: enum FlushStateEnum { FLUSH_NOT_REQUESTED, FLUSH_REQUESTED, FLUSH_SCHEDULED }; friend class MemTableIterator; friend class MemTableBackwardIterator; friend class MemTableList; KeyComparator comparator_; const ImmutableMemTableOptions moptions_; int refs_; const size_t kArenaBlockSize; AllocTracker mem_tracker_; ConcurrentArena arena_; unique_ptr table_; unique_ptr range_del_table_; bool is_range_del_table_empty_; // Total data size of all data inserted std::atomic data_size_; std::atomic num_entries_; std::atomic num_deletes_; // Dynamically changeable memtable option std::atomic write_buffer_size_; // These are used to manage memtable flushes to storage bool flush_in_progress_; // started the flush bool flush_completed_; // finished the flush uint64_t file_number_; // filled up after flush is complete // The updates to be applied to the transaction log when this // memtable is flushed to storage. VersionEdit edit_; // The sequence number of the kv that was inserted first std::atomic first_seqno_; // The db sequence number at the time of creation or kMaxSequenceNumber // if not set. std::atomic earliest_seqno_; SequenceNumber creation_seq_; // The log files earlier than this number can be deleted. uint64_t mem_next_logfile_number_; // the earliest log containing a prepared section // which has been inserted into this memtable. std::atomic min_prep_log_referenced_; // rw locks for inplace updates std::vector locks_; const SliceTransform* const prefix_extractor_; std::unique_ptr prefix_bloom_; std::atomic flush_state_; Env* env_; // Extract sequential insert prefixes. const SliceTransform* insert_with_hint_prefix_extractor_; // Insert hints for each prefix. std::unordered_map insert_hints_; // Timestamp of oldest key std::atomic oldest_key_time_; // Memtable id to track flush. uint64_t id_ = 0; // Returns a heuristic flush decision bool ShouldFlushNow() const; // Updates flush_state_ using ShouldFlushNow() void UpdateFlushState(); void UpdateOldestKeyTime(); // No copying allowed MemTable(const MemTable&); MemTable& operator=(const MemTable&); }; extern const char* EncodeKey(std::string* scratch, const Slice& target); } // namespace rocksdb rocksdb-5.17.2/db/memtable_list.cc000066400000000000000000000440621337235545400167730ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // #include "db/memtable_list.h" #ifndef __STDC_FORMAT_MACROS #define __STDC_FORMAT_MACROS #endif #include #include #include #include "db/db_impl.h" #include "db/memtable.h" #include "db/version_set.h" #include "monitoring/thread_status_util.h" #include "rocksdb/db.h" #include "rocksdb/env.h" #include "rocksdb/iterator.h" #include "table/merging_iterator.h" #include "util/coding.h" #include "util/log_buffer.h" #include "util/sync_point.h" namespace rocksdb { class InternalKeyComparator; class Mutex; class VersionSet; void MemTableListVersion::AddMemTable(MemTable* m) { memlist_.push_front(m); *parent_memtable_list_memory_usage_ += m->ApproximateMemoryUsage(); } void MemTableListVersion::UnrefMemTable(autovector* to_delete, MemTable* m) { if (m->Unref()) { to_delete->push_back(m); assert(*parent_memtable_list_memory_usage_ >= m->ApproximateMemoryUsage()); *parent_memtable_list_memory_usage_ -= m->ApproximateMemoryUsage(); } } MemTableListVersion::MemTableListVersion( size_t* parent_memtable_list_memory_usage, MemTableListVersion* old) : max_write_buffer_number_to_maintain_( old->max_write_buffer_number_to_maintain_), parent_memtable_list_memory_usage_(parent_memtable_list_memory_usage) { if (old != nullptr) { memlist_ = old->memlist_; for (auto& m : memlist_) { m->Ref(); } memlist_history_ = old->memlist_history_; for (auto& m : memlist_history_) { m->Ref(); } } } MemTableListVersion::MemTableListVersion( size_t* parent_memtable_list_memory_usage, int max_write_buffer_number_to_maintain) : max_write_buffer_number_to_maintain_(max_write_buffer_number_to_maintain), parent_memtable_list_memory_usage_(parent_memtable_list_memory_usage) {} void MemTableListVersion::Ref() { ++refs_; } // called by superversion::clean() void MemTableListVersion::Unref(autovector* to_delete) { assert(refs_ >= 1); --refs_; if (refs_ == 0) { // if to_delete is equal to nullptr it means we're confident // that refs_ will not be zero assert(to_delete != nullptr); for (const auto& m : memlist_) { UnrefMemTable(to_delete, m); } for (const auto& m : memlist_history_) { UnrefMemTable(to_delete, m); } delete this; } } int MemTableList::NumNotFlushed() const { int size = static_cast(current_->memlist_.size()); assert(num_flush_not_started_ <= size); return size; } int MemTableList::NumFlushed() const { return static_cast(current_->memlist_history_.size()); } // Search all the memtables starting from the most recent one. // Return the most recent value found, if any. // Operands stores the list of merge operations to apply, so far. bool MemTableListVersion::Get(const LookupKey& key, std::string* value, Status* s, MergeContext* merge_context, RangeDelAggregator* range_del_agg, SequenceNumber* seq, const ReadOptions& read_opts, ReadCallback* callback, bool* is_blob_index) { return GetFromList(&memlist_, key, value, s, merge_context, range_del_agg, seq, read_opts, callback, is_blob_index); } bool MemTableListVersion::GetFromHistory( const LookupKey& key, std::string* value, Status* s, MergeContext* merge_context, RangeDelAggregator* range_del_agg, SequenceNumber* seq, const ReadOptions& read_opts, bool* is_blob_index) { return GetFromList(&memlist_history_, key, value, s, merge_context, range_del_agg, seq, read_opts, nullptr /*read_callback*/, is_blob_index); } bool MemTableListVersion::GetFromList( std::list* list, const LookupKey& key, std::string* value, Status* s, MergeContext* merge_context, RangeDelAggregator* range_del_agg, SequenceNumber* seq, const ReadOptions& read_opts, ReadCallback* callback, bool* is_blob_index) { *seq = kMaxSequenceNumber; for (auto& memtable : *list) { SequenceNumber current_seq = kMaxSequenceNumber; bool done = memtable->Get(key, value, s, merge_context, range_del_agg, ¤t_seq, read_opts, callback, is_blob_index); if (*seq == kMaxSequenceNumber) { // Store the most recent sequence number of any operation on this key. // Since we only care about the most recent change, we only need to // return the first operation found when searching memtables in // reverse-chronological order. // current_seq would be equal to kMaxSequenceNumber if the value was to be // skipped. This allows seq to be assigned again when the next value is // read. *seq = current_seq; } if (done) { assert(*seq != kMaxSequenceNumber); return true; } if (!done && !s->ok() && !s->IsMergeInProgress() && !s->IsNotFound()) { return false; } } return false; } Status MemTableListVersion::AddRangeTombstoneIterators( const ReadOptions& read_opts, Arena* /*arena*/, RangeDelAggregator* range_del_agg) { assert(range_del_agg != nullptr); for (auto& m : memlist_) { std::unique_ptr range_del_iter( m->NewRangeTombstoneIterator(read_opts)); Status s = range_del_agg->AddTombstones(std::move(range_del_iter)); if (!s.ok()) { return s; } } return Status::OK(); } Status MemTableListVersion::AddRangeTombstoneIterators( const ReadOptions& read_opts, std::vector* range_del_iters) { for (auto& m : memlist_) { auto* range_del_iter = m->NewRangeTombstoneIterator(read_opts); if (range_del_iter != nullptr) { range_del_iters->push_back(range_del_iter); } } return Status::OK(); } void MemTableListVersion::AddIterators( const ReadOptions& options, std::vector* iterator_list, Arena* arena) { for (auto& m : memlist_) { iterator_list->push_back(m->NewIterator(options, arena)); } } void MemTableListVersion::AddIterators( const ReadOptions& options, MergeIteratorBuilder* merge_iter_builder) { for (auto& m : memlist_) { merge_iter_builder->AddIterator( m->NewIterator(options, merge_iter_builder->GetArena())); } } uint64_t MemTableListVersion::GetTotalNumEntries() const { uint64_t total_num = 0; for (auto& m : memlist_) { total_num += m->num_entries(); } return total_num; } MemTable::MemTableStats MemTableListVersion::ApproximateStats( const Slice& start_ikey, const Slice& end_ikey) { MemTable::MemTableStats total_stats = {0, 0}; for (auto& m : memlist_) { auto mStats = m->ApproximateStats(start_ikey, end_ikey); total_stats.size += mStats.size; total_stats.count += mStats.count; } return total_stats; } uint64_t MemTableListVersion::GetTotalNumDeletes() const { uint64_t total_num = 0; for (auto& m : memlist_) { total_num += m->num_deletes(); } return total_num; } SequenceNumber MemTableListVersion::GetEarliestSequenceNumber( bool include_history) const { if (include_history && !memlist_history_.empty()) { return memlist_history_.back()->GetEarliestSequenceNumber(); } else if (!memlist_.empty()) { return memlist_.back()->GetEarliestSequenceNumber(); } else { return kMaxSequenceNumber; } } // caller is responsible for referencing m void MemTableListVersion::Add(MemTable* m, autovector* to_delete) { assert(refs_ == 1); // only when refs_ == 1 is MemTableListVersion mutable AddMemTable(m); TrimHistory(to_delete); } // Removes m from list of memtables not flushed. Caller should NOT Unref m. void MemTableListVersion::Remove(MemTable* m, autovector* to_delete) { assert(refs_ == 1); // only when refs_ == 1 is MemTableListVersion mutable memlist_.remove(m); m->MarkFlushed(); if (max_write_buffer_number_to_maintain_ > 0) { memlist_history_.push_front(m); TrimHistory(to_delete); } else { UnrefMemTable(to_delete, m); } } // Make sure we don't use up too much space in history void MemTableListVersion::TrimHistory(autovector* to_delete) { while (memlist_.size() + memlist_history_.size() > static_cast(max_write_buffer_number_to_maintain_) && !memlist_history_.empty()) { MemTable* x = memlist_history_.back(); memlist_history_.pop_back(); UnrefMemTable(to_delete, x); } } // Returns true if there is at least one memtable on which flush has // not yet started. bool MemTableList::IsFlushPending() const { if ((flush_requested_ && num_flush_not_started_ >= 1) || (num_flush_not_started_ >= min_write_buffer_number_to_merge_)) { assert(imm_flush_needed.load(std::memory_order_relaxed)); return true; } return false; } // Returns the memtables that need to be flushed. void MemTableList::PickMemtablesToFlush(autovector* ret) { AutoThreadOperationStageUpdater stage_updater( ThreadStatus::STAGE_PICK_MEMTABLES_TO_FLUSH); const auto& memlist = current_->memlist_; for (auto it = memlist.rbegin(); it != memlist.rend(); ++it) { MemTable* m = *it; if (!m->flush_in_progress_) { assert(!m->flush_completed_); num_flush_not_started_--; if (num_flush_not_started_ == 0) { imm_flush_needed.store(false, std::memory_order_release); } m->flush_in_progress_ = true; // flushing will start very soon ret->push_back(m); } } flush_requested_ = false; // start-flush request is complete } void MemTableList::RollbackMemtableFlush(const autovector& mems, uint64_t /*file_number*/) { AutoThreadOperationStageUpdater stage_updater( ThreadStatus::STAGE_MEMTABLE_ROLLBACK); assert(!mems.empty()); // If the flush was not successful, then just reset state. // Maybe a succeeding attempt to flush will be successful. for (MemTable* m : mems) { assert(m->flush_in_progress_); assert(m->file_number_ == 0); m->flush_in_progress_ = false; m->flush_completed_ = false; m->edit_.Clear(); num_flush_not_started_++; } imm_flush_needed.store(true, std::memory_order_release); } // Record a successful flush in the manifest file Status MemTableList::InstallMemtableFlushResults( ColumnFamilyData* cfd, const MutableCFOptions& mutable_cf_options, const autovector& mems, LogsWithPrepTracker* prep_tracker, VersionSet* vset, InstrumentedMutex* mu, uint64_t file_number, autovector* to_delete, Directory* db_directory, LogBuffer* log_buffer) { AutoThreadOperationStageUpdater stage_updater( ThreadStatus::STAGE_MEMTABLE_INSTALL_FLUSH_RESULTS); mu->AssertHeld(); // flush was successful for (size_t i = 0; i < mems.size(); ++i) { // All the edits are associated with the first memtable of this batch. assert(i == 0 || mems[i]->GetEdits()->NumEntries() == 0); mems[i]->flush_completed_ = true; mems[i]->file_number_ = file_number; } // if some other thread is already committing, then return Status s; if (commit_in_progress_) { TEST_SYNC_POINT("MemTableList::InstallMemtableFlushResults:InProgress"); return s; } // Only a single thread can be executing this piece of code commit_in_progress_ = true; // Retry until all completed flushes are committed. New flushes can finish // while the current thread is writing manifest where mutex is released. while (s.ok()) { auto& memlist = current_->memlist_; if (memlist.empty() || !memlist.back()->flush_completed_) { break; } // scan all memtables from the earliest, and commit those // (in that order) that have finished flushing. Memetables // are always committed in the order that they were created. uint64_t batch_file_number = 0; size_t batch_count = 0; autovector edit_list; autovector memtables_to_flush; // enumerate from the last (earliest) element to see how many batch finished for (auto it = memlist.rbegin(); it != memlist.rend(); ++it) { MemTable* m = *it; if (!m->flush_completed_) { break; } if (it == memlist.rbegin() || batch_file_number != m->file_number_) { batch_file_number = m->file_number_; ROCKS_LOG_BUFFER(log_buffer, "[%s] Level-0 commit table #%" PRIu64 " started", cfd->GetName().c_str(), m->file_number_); edit_list.push_back(&m->edit_); memtables_to_flush.push_back(m); } batch_count++; } if (batch_count > 0) { if (vset->db_options()->allow_2pc) { assert(edit_list.size() > 0); // We piggyback the information of earliest log file to keep in the // manifest entry for the last file flushed. edit_list.back()->SetMinLogNumberToKeep(PrecomputeMinLogNumberToKeep( vset, *cfd, edit_list, memtables_to_flush, prep_tracker)); } // this can release and reacquire the mutex. s = vset->LogAndApply(cfd, mutable_cf_options, edit_list, mu, db_directory); // we will be changing the version in the next code path, // so we better create a new one, since versions are immutable InstallNewVersion(); // All the later memtables that have the same filenum // are part of the same batch. They can be committed now. uint64_t mem_id = 1; // how many memtables have been flushed. // commit new state only if the column family is NOT dropped. // The reason is as follows (refer to // ColumnFamilyTest.FlushAndDropRaceCondition). // If the column family is dropped, then according to LogAndApply, its // corrresponding flush operation is NOT written to the MANIFEST. This // means the DB is not aware of the L0 files generated from the flush. // By committing the new state, we remove the memtable from the memtable // list. Creating an iterator on this column family will not be able to // read full data since the memtable is removed, and the DB is not aware // of the L0 files, causing MergingIterator unable to build child // iterators. RocksDB contract requires that the iterator can be created // on a dropped column family, and we must be able to // read full data as long as column family handle is not deleted, even if // the column family is dropped. if (s.ok() && !cfd->IsDropped()) { // commit new state while (batch_count-- > 0) { MemTable* m = current_->memlist_.back(); ROCKS_LOG_BUFFER(log_buffer, "[%s] Level-0 commit table #%" PRIu64 ": memtable #%" PRIu64 " done", cfd->GetName().c_str(), m->file_number_, mem_id); assert(m->file_number_ > 0); current_->Remove(m, to_delete); ++mem_id; } } else { for (auto it = current_->memlist_.rbegin(); batch_count-- > 0; it++) { MemTable* m = *it; // commit failed. setup state so that we can flush again. ROCKS_LOG_BUFFER(log_buffer, "Level-0 commit table #%" PRIu64 ": memtable #%" PRIu64 " failed", m->file_number_, mem_id); m->flush_completed_ = false; m->flush_in_progress_ = false; m->edit_.Clear(); num_flush_not_started_++; m->file_number_ = 0; imm_flush_needed.store(true, std::memory_order_release); ++mem_id; } } } } commit_in_progress_ = false; return s; } // New memtables are inserted at the front of the list. void MemTableList::Add(MemTable* m, autovector* to_delete) { assert(static_cast(current_->memlist_.size()) >= num_flush_not_started_); InstallNewVersion(); // this method is used to move mutable memtable into an immutable list. // since mutable memtable is already refcounted by the DBImpl, // and when moving to the imutable list we don't unref it, // we don't have to ref the memtable here. we just take over the // reference from the DBImpl. current_->Add(m, to_delete); m->MarkImmutable(); num_flush_not_started_++; if (num_flush_not_started_ == 1) { imm_flush_needed.store(true, std::memory_order_release); } } // Returns an estimate of the number of bytes of data in use. size_t MemTableList::ApproximateUnflushedMemTablesMemoryUsage() { size_t total_size = 0; for (auto& memtable : current_->memlist_) { total_size += memtable->ApproximateMemoryUsage(); } return total_size; } size_t MemTableList::ApproximateMemoryUsage() { return current_memory_usage_; } uint64_t MemTableList::ApproximateOldestKeyTime() const { if (!current_->memlist_.empty()) { return current_->memlist_.back()->ApproximateOldestKeyTime(); } return std::numeric_limits::max(); } void MemTableList::InstallNewVersion() { if (current_->refs_ == 1) { // we're the only one using the version, just keep using it } else { // somebody else holds the current version, we need to create new one MemTableListVersion* version = current_; current_ = new MemTableListVersion(¤t_memory_usage_, current_); current_->Ref(); version->Unref(); } } uint64_t MemTableList::PrecomputeMinLogContainingPrepSection( const autovector& memtables_to_flush) { uint64_t min_log = 0; for (auto& m : current_->memlist_) { // Assume the list is very short, we can live with O(m*n). We can optimize // if the performance has some problem. bool should_skip = false; for (MemTable* m_to_flush : memtables_to_flush) { if (m == m_to_flush) { should_skip = true; break; } } if (should_skip) { continue; } auto log = m->GetMinLogContainingPrepSection(); if (log > 0 && (min_log == 0 || log < min_log)) { min_log = log; } } return min_log; } } // namespace rocksdb rocksdb-5.17.2/db/memtable_list.h000066400000000000000000000252541337235545400166370ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // #pragma once #include #include #include #include #include #include #include "db/dbformat.h" #include "db/logs_with_prep_tracker.h" #include "db/memtable.h" #include "db/range_del_aggregator.h" #include "monitoring/instrumented_mutex.h" #include "rocksdb/db.h" #include "rocksdb/iterator.h" #include "rocksdb/options.h" #include "rocksdb/types.h" #include "util/autovector.h" #include "util/filename.h" #include "util/log_buffer.h" namespace rocksdb { class ColumnFamilyData; class InternalKeyComparator; class InstrumentedMutex; class MergeIteratorBuilder; // keeps a list of immutable memtables in a vector. the list is immutable // if refcount is bigger than one. It is used as a state for Get() and // Iterator code paths // // This class is not thread-safe. External synchronization is required // (such as holding the db mutex or being on the write thread). class MemTableListVersion { public: explicit MemTableListVersion(size_t* parent_memtable_list_memory_usage, MemTableListVersion* old = nullptr); explicit MemTableListVersion(size_t* parent_memtable_list_memory_usage, int max_write_buffer_number_to_maintain); void Ref(); void Unref(autovector* to_delete = nullptr); // Search all the memtables starting from the most recent one. // Return the most recent value found, if any. // // If any operation was found for this key, its most recent sequence number // will be stored in *seq on success (regardless of whether true/false is // returned). Otherwise, *seq will be set to kMaxSequenceNumber. bool Get(const LookupKey& key, std::string* value, Status* s, MergeContext* merge_context, RangeDelAggregator* range_del_agg, SequenceNumber* seq, const ReadOptions& read_opts, ReadCallback* callback = nullptr, bool* is_blob_index = nullptr); bool Get(const LookupKey& key, std::string* value, Status* s, MergeContext* merge_context, RangeDelAggregator* range_del_agg, const ReadOptions& read_opts, ReadCallback* callback = nullptr, bool* is_blob_index = nullptr) { SequenceNumber seq; return Get(key, value, s, merge_context, range_del_agg, &seq, read_opts, callback, is_blob_index); } // Similar to Get(), but searches the Memtable history of memtables that // have already been flushed. Should only be used from in-memory only // queries (such as Transaction validation) as the history may contain // writes that are also present in the SST files. bool GetFromHistory(const LookupKey& key, std::string* value, Status* s, MergeContext* merge_context, RangeDelAggregator* range_del_agg, SequenceNumber* seq, const ReadOptions& read_opts, bool* is_blob_index = nullptr); bool GetFromHistory(const LookupKey& key, std::string* value, Status* s, MergeContext* merge_context, RangeDelAggregator* range_del_agg, const ReadOptions& read_opts, bool* is_blob_index = nullptr) { SequenceNumber seq; return GetFromHistory(key, value, s, merge_context, range_del_agg, &seq, read_opts, is_blob_index); } Status AddRangeTombstoneIterators(const ReadOptions& read_opts, Arena* arena, RangeDelAggregator* range_del_agg); Status AddRangeTombstoneIterators( const ReadOptions& read_opts, std::vector* range_del_iters); void AddIterators(const ReadOptions& options, std::vector* iterator_list, Arena* arena); void AddIterators(const ReadOptions& options, MergeIteratorBuilder* merge_iter_builder); uint64_t GetTotalNumEntries() const; uint64_t GetTotalNumDeletes() const; MemTable::MemTableStats ApproximateStats(const Slice& start_ikey, const Slice& end_ikey); // Returns the value of MemTable::GetEarliestSequenceNumber() on the most // recent MemTable in this list or kMaxSequenceNumber if the list is empty. // If include_history=true, will also search Memtables in MemTableList // History. SequenceNumber GetEarliestSequenceNumber(bool include_history = false) const; private: // REQUIRE: m is an immutable memtable void Add(MemTable* m, autovector* to_delete); // REQUIRE: m is an immutable memtable void Remove(MemTable* m, autovector* to_delete); void TrimHistory(autovector* to_delete); bool GetFromList(std::list* list, const LookupKey& key, std::string* value, Status* s, MergeContext* merge_context, RangeDelAggregator* range_del_agg, SequenceNumber* seq, const ReadOptions& read_opts, ReadCallback* callback = nullptr, bool* is_blob_index = nullptr); void AddMemTable(MemTable* m); void UnrefMemTable(autovector* to_delete, MemTable* m); friend class MemTableList; // Immutable MemTables that have not yet been flushed. std::list memlist_; // MemTables that have already been flushed // (used during Transaction validation) std::list memlist_history_; // Maximum number of MemTables to keep in memory (including both flushed // and not-yet-flushed tables). const int max_write_buffer_number_to_maintain_; int refs_ = 0; size_t* parent_memtable_list_memory_usage_; }; // This class stores references to all the immutable memtables. // The memtables are flushed to L0 as soon as possible and in // any order. If there are more than one immutable memtable, their // flushes can occur concurrently. However, they are 'committed' // to the manifest in FIFO order to maintain correctness and // recoverability from a crash. // // // Other than imm_flush_needed, this class is not thread-safe and requires // external synchronization (such as holding the db mutex or being on the // write thread.) class MemTableList { public: // A list of memtables. explicit MemTableList(int min_write_buffer_number_to_merge, int max_write_buffer_number_to_maintain) : imm_flush_needed(false), min_write_buffer_number_to_merge_(min_write_buffer_number_to_merge), current_(new MemTableListVersion(¤t_memory_usage_, max_write_buffer_number_to_maintain)), num_flush_not_started_(0), commit_in_progress_(false), flush_requested_(false) { current_->Ref(); current_memory_usage_ = 0; } // Should not delete MemTableList without making sure MemTableList::current() // is Unref()'d. ~MemTableList() {} MemTableListVersion* current() { return current_; } // so that background threads can detect non-nullptr pointer to // determine whether there is anything more to start flushing. std::atomic imm_flush_needed; // Returns the total number of memtables in the list that haven't yet // been flushed and logged. int NumNotFlushed() const; // Returns total number of memtables in the list that have been // completely flushed and logged. int NumFlushed() const; // Returns true if there is at least one memtable on which flush has // not yet started. bool IsFlushPending() const; // Returns the earliest memtables that needs to be flushed. The returned // memtables are guaranteed to be in the ascending order of created time. void PickMemtablesToFlush(autovector* mems); // Reset status of the given memtable list back to pending state so that // they can get picked up again on the next round of flush. void RollbackMemtableFlush(const autovector& mems, uint64_t file_number); // Commit a successful flush in the manifest file Status InstallMemtableFlushResults( ColumnFamilyData* cfd, const MutableCFOptions& mutable_cf_options, const autovector& m, LogsWithPrepTracker* prep_tracker, VersionSet* vset, InstrumentedMutex* mu, uint64_t file_number, autovector* to_delete, Directory* db_directory, LogBuffer* log_buffer); // New memtables are inserted at the front of the list. // Takes ownership of the referenced held on *m by the caller of Add(). void Add(MemTable* m, autovector* to_delete); // Returns an estimate of the number of bytes of data in use. size_t ApproximateMemoryUsage(); // Returns an estimate of the number of bytes of data used by // the unflushed mem-tables. size_t ApproximateUnflushedMemTablesMemoryUsage(); // Returns an estimate of the timestamp of the earliest key. uint64_t ApproximateOldestKeyTime() const; // Request a flush of all existing memtables to storage. This will // cause future calls to IsFlushPending() to return true if this list is // non-empty (regardless of the min_write_buffer_number_to_merge // parameter). This flush request will persist until the next time // PickMemtablesToFlush() is called. void FlushRequested() { flush_requested_ = true; } bool HasFlushRequested() { return flush_requested_; } // Copying allowed // MemTableList(const MemTableList&); // void operator=(const MemTableList&); size_t* current_memory_usage() { return ¤t_memory_usage_; } // Returns the min log containing the prep section after memtables listsed in // `memtables_to_flush` are flushed and their status is persisted in manifest. uint64_t PrecomputeMinLogContainingPrepSection( const autovector& memtables_to_flush); uint64_t GetEarliestMemTableID() const { auto& memlist = current_->memlist_; if (memlist.empty()) { return std::numeric_limits::max(); } return memlist.back()->GetID(); } uint64_t GetLatestMemTableID() const { auto& memlist = current_->memlist_; if (memlist.empty()) { return 0; } return memlist.front()->GetID(); } private: // DB mutex held void InstallNewVersion(); const int min_write_buffer_number_to_merge_; MemTableListVersion* current_; // the number of elements that still need flushing int num_flush_not_started_; // committing in progress bool commit_in_progress_; // Requested a flush of all memtables to storage bool flush_requested_; // The current memory usage. size_t current_memory_usage_; }; } // namespace rocksdb rocksdb-5.17.2/db/memtable_list_test.cc000066400000000000000000000526561337235545400200420ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include "db/memtable_list.h" #include #include #include #include "db/merge_context.h" #include "db/range_del_aggregator.h" #include "db/version_set.h" #include "db/write_controller.h" #include "rocksdb/db.h" #include "rocksdb/status.h" #include "rocksdb/write_buffer_manager.h" #include "util/string_util.h" #include "util/testharness.h" #include "util/testutil.h" namespace rocksdb { class MemTableListTest : public testing::Test { public: std::string dbname; DB* db; Options options; MemTableListTest() : db(nullptr) { dbname = test::PerThreadDBPath("memtable_list_test"); } // Create a test db if not yet created void CreateDB() { if (db == nullptr) { options.create_if_missing = true; DestroyDB(dbname, options); Status s = DB::Open(options, dbname, &db); EXPECT_OK(s); } } ~MemTableListTest() { if (db) { delete db; DestroyDB(dbname, options); } } // Calls MemTableList::InstallMemtableFlushResults() and sets up all // structures needed to call this function. Status Mock_InstallMemtableFlushResults( MemTableList* list, const MutableCFOptions& mutable_cf_options, const autovector& m, autovector* to_delete) { // Create a mock Logger test::NullLogger logger; LogBuffer log_buffer(DEBUG_LEVEL, &logger); // Create a mock VersionSet DBOptions db_options; ImmutableDBOptions immutable_db_options(db_options); EnvOptions env_options; shared_ptr table_cache(NewLRUCache(50000, 16)); WriteBufferManager write_buffer_manager(db_options.db_write_buffer_size); WriteController write_controller(10000000u); CreateDB(); VersionSet versions(dbname, &immutable_db_options, env_options, table_cache.get(), &write_buffer_manager, &write_controller); // Create mock default ColumnFamilyData ColumnFamilyOptions cf_options; std::vector column_families; column_families.emplace_back(kDefaultColumnFamilyName, cf_options); EXPECT_OK(versions.Recover(column_families, false)); auto column_family_set = versions.GetColumnFamilySet(); auto cfd = column_family_set->GetColumnFamily(0); EXPECT_TRUE(cfd != nullptr); // Create dummy mutex. InstrumentedMutex mutex; InstrumentedMutexLock l(&mutex); LogsWithPrepTracker dummy_prep_tracker; return list->InstallMemtableFlushResults( cfd, mutable_cf_options, m, &dummy_prep_tracker, &versions, &mutex, 1, to_delete, nullptr, &log_buffer); } }; TEST_F(MemTableListTest, Empty) { // Create an empty MemTableList and validate basic functions. MemTableList list(1, 0); ASSERT_EQ(0, list.NumNotFlushed()); ASSERT_FALSE(list.imm_flush_needed.load(std::memory_order_acquire)); ASSERT_FALSE(list.IsFlushPending()); autovector mems; list.PickMemtablesToFlush(&mems); ASSERT_EQ(0, mems.size()); autovector to_delete; list.current()->Unref(&to_delete); ASSERT_EQ(0, to_delete.size()); } TEST_F(MemTableListTest, GetTest) { // Create MemTableList int min_write_buffer_number_to_merge = 2; int max_write_buffer_number_to_maintain = 0; MemTableList list(min_write_buffer_number_to_merge, max_write_buffer_number_to_maintain); SequenceNumber seq = 1; std::string value; Status s; MergeContext merge_context; InternalKeyComparator ikey_cmp(options.comparator); RangeDelAggregator range_del_agg(ikey_cmp, {} /* snapshots */); autovector to_delete; LookupKey lkey("key1", seq); bool found = list.current()->Get(lkey, &value, &s, &merge_context, &range_del_agg, ReadOptions()); ASSERT_FALSE(found); // Create a MemTable InternalKeyComparator cmp(BytewiseComparator()); auto factory = std::make_shared(); options.memtable_factory = factory; ImmutableCFOptions ioptions(options); WriteBufferManager wb(options.db_write_buffer_size); MemTable* mem = new MemTable(cmp, ioptions, MutableCFOptions(options), &wb, kMaxSequenceNumber, 0 /* column_family_id */); mem->Ref(); // Write some keys to this memtable. mem->Add(++seq, kTypeDeletion, "key1", ""); mem->Add(++seq, kTypeValue, "key2", "value2"); mem->Add(++seq, kTypeValue, "key1", "value1"); mem->Add(++seq, kTypeValue, "key2", "value2.2"); // Fetch the newly written keys merge_context.Clear(); found = mem->Get(LookupKey("key1", seq), &value, &s, &merge_context, &range_del_agg, ReadOptions()); ASSERT_TRUE(s.ok() && found); ASSERT_EQ(value, "value1"); merge_context.Clear(); found = mem->Get(LookupKey("key1", 2), &value, &s, &merge_context, &range_del_agg, ReadOptions()); // MemTable found out that this key is *not* found (at this sequence#) ASSERT_TRUE(found && s.IsNotFound()); merge_context.Clear(); found = mem->Get(LookupKey("key2", seq), &value, &s, &merge_context, &range_del_agg, ReadOptions()); ASSERT_TRUE(s.ok() && found); ASSERT_EQ(value, "value2.2"); ASSERT_EQ(4, mem->num_entries()); ASSERT_EQ(1, mem->num_deletes()); // Add memtable to list list.Add(mem, &to_delete); SequenceNumber saved_seq = seq; // Create another memtable and write some keys to it WriteBufferManager wb2(options.db_write_buffer_size); MemTable* mem2 = new MemTable(cmp, ioptions, MutableCFOptions(options), &wb2, kMaxSequenceNumber, 0 /* column_family_id */); mem2->Ref(); mem2->Add(++seq, kTypeDeletion, "key1", ""); mem2->Add(++seq, kTypeValue, "key2", "value2.3"); // Add second memtable to list list.Add(mem2, &to_delete); // Fetch keys via MemTableList merge_context.Clear(); found = list.current()->Get(LookupKey("key1", seq), &value, &s, &merge_context, &range_del_agg, ReadOptions()); ASSERT_TRUE(found && s.IsNotFound()); merge_context.Clear(); found = list.current()->Get(LookupKey("key1", saved_seq), &value, &s, &merge_context, &range_del_agg, ReadOptions()); ASSERT_TRUE(s.ok() && found); ASSERT_EQ("value1", value); merge_context.Clear(); found = list.current()->Get(LookupKey("key2", seq), &value, &s, &merge_context, &range_del_agg, ReadOptions()); ASSERT_TRUE(s.ok() && found); ASSERT_EQ(value, "value2.3"); merge_context.Clear(); found = list.current()->Get(LookupKey("key2", 1), &value, &s, &merge_context, &range_del_agg, ReadOptions()); ASSERT_FALSE(found); ASSERT_EQ(2, list.NumNotFlushed()); list.current()->Unref(&to_delete); for (MemTable* m : to_delete) { delete m; } } TEST_F(MemTableListTest, GetFromHistoryTest) { // Create MemTableList int min_write_buffer_number_to_merge = 2; int max_write_buffer_number_to_maintain = 2; MemTableList list(min_write_buffer_number_to_merge, max_write_buffer_number_to_maintain); SequenceNumber seq = 1; std::string value; Status s; MergeContext merge_context; InternalKeyComparator ikey_cmp(options.comparator); RangeDelAggregator range_del_agg(ikey_cmp, {} /* snapshots */); autovector to_delete; LookupKey lkey("key1", seq); bool found = list.current()->Get(lkey, &value, &s, &merge_context, &range_del_agg, ReadOptions()); ASSERT_FALSE(found); // Create a MemTable InternalKeyComparator cmp(BytewiseComparator()); auto factory = std::make_shared(); options.memtable_factory = factory; ImmutableCFOptions ioptions(options); WriteBufferManager wb(options.db_write_buffer_size); MemTable* mem = new MemTable(cmp, ioptions, MutableCFOptions(options), &wb, kMaxSequenceNumber, 0 /* column_family_id */); mem->Ref(); // Write some keys to this memtable. mem->Add(++seq, kTypeDeletion, "key1", ""); mem->Add(++seq, kTypeValue, "key2", "value2"); mem->Add(++seq, kTypeValue, "key2", "value2.2"); // Fetch the newly written keys merge_context.Clear(); found = mem->Get(LookupKey("key1", seq), &value, &s, &merge_context, &range_del_agg, ReadOptions()); // MemTable found out that this key is *not* found (at this sequence#) ASSERT_TRUE(found && s.IsNotFound()); merge_context.Clear(); found = mem->Get(LookupKey("key2", seq), &value, &s, &merge_context, &range_del_agg, ReadOptions()); ASSERT_TRUE(s.ok() && found); ASSERT_EQ(value, "value2.2"); // Add memtable to list list.Add(mem, &to_delete); ASSERT_EQ(0, to_delete.size()); // Fetch keys via MemTableList merge_context.Clear(); found = list.current()->Get(LookupKey("key1", seq), &value, &s, &merge_context, &range_del_agg, ReadOptions()); ASSERT_TRUE(found && s.IsNotFound()); merge_context.Clear(); found = list.current()->Get(LookupKey("key2", seq), &value, &s, &merge_context, &range_del_agg, ReadOptions()); ASSERT_TRUE(s.ok() && found); ASSERT_EQ("value2.2", value); // Flush this memtable from the list. // (It will then be a part of the memtable history). autovector to_flush; list.PickMemtablesToFlush(&to_flush); ASSERT_EQ(1, to_flush.size()); s = Mock_InstallMemtableFlushResults(&list, MutableCFOptions(options), to_flush, &to_delete); ASSERT_OK(s); ASSERT_EQ(0, list.NumNotFlushed()); ASSERT_EQ(1, list.NumFlushed()); ASSERT_EQ(0, to_delete.size()); // Verify keys are no longer in MemTableList merge_context.Clear(); found = list.current()->Get(LookupKey("key1", seq), &value, &s, &merge_context, &range_del_agg, ReadOptions()); ASSERT_FALSE(found); merge_context.Clear(); found = list.current()->Get(LookupKey("key2", seq), &value, &s, &merge_context, &range_del_agg, ReadOptions()); ASSERT_FALSE(found); // Verify keys are present in history merge_context.Clear(); found = list.current()->GetFromHistory(LookupKey("key1", seq), &value, &s, &merge_context, &range_del_agg, ReadOptions()); ASSERT_TRUE(found && s.IsNotFound()); merge_context.Clear(); found = list.current()->GetFromHistory(LookupKey("key2", seq), &value, &s, &merge_context, &range_del_agg, ReadOptions()); ASSERT_TRUE(found); ASSERT_EQ("value2.2", value); // Create another memtable and write some keys to it WriteBufferManager wb2(options.db_write_buffer_size); MemTable* mem2 = new MemTable(cmp, ioptions, MutableCFOptions(options), &wb2, kMaxSequenceNumber, 0 /* column_family_id */); mem2->Ref(); mem2->Add(++seq, kTypeDeletion, "key1", ""); mem2->Add(++seq, kTypeValue, "key3", "value3"); // Add second memtable to list list.Add(mem2, &to_delete); ASSERT_EQ(0, to_delete.size()); to_flush.clear(); list.PickMemtablesToFlush(&to_flush); ASSERT_EQ(1, to_flush.size()); // Flush second memtable s = Mock_InstallMemtableFlushResults(&list, MutableCFOptions(options), to_flush, &to_delete); ASSERT_OK(s); ASSERT_EQ(0, list.NumNotFlushed()); ASSERT_EQ(2, list.NumFlushed()); ASSERT_EQ(0, to_delete.size()); // Add a third memtable to push the first memtable out of the history WriteBufferManager wb3(options.db_write_buffer_size); MemTable* mem3 = new MemTable(cmp, ioptions, MutableCFOptions(options), &wb3, kMaxSequenceNumber, 0 /* column_family_id */); mem3->Ref(); list.Add(mem3, &to_delete); ASSERT_EQ(1, list.NumNotFlushed()); ASSERT_EQ(1, list.NumFlushed()); ASSERT_EQ(1, to_delete.size()); // Verify keys are no longer in MemTableList merge_context.Clear(); found = list.current()->Get(LookupKey("key1", seq), &value, &s, &merge_context, &range_del_agg, ReadOptions()); ASSERT_FALSE(found); merge_context.Clear(); found = list.current()->Get(LookupKey("key2", seq), &value, &s, &merge_context, &range_del_agg, ReadOptions()); ASSERT_FALSE(found); merge_context.Clear(); found = list.current()->Get(LookupKey("key3", seq), &value, &s, &merge_context, &range_del_agg, ReadOptions()); ASSERT_FALSE(found); // Verify that the second memtable's keys are in the history merge_context.Clear(); found = list.current()->GetFromHistory(LookupKey("key1", seq), &value, &s, &merge_context, &range_del_agg, ReadOptions()); ASSERT_TRUE(found && s.IsNotFound()); merge_context.Clear(); found = list.current()->GetFromHistory(LookupKey("key3", seq), &value, &s, &merge_context, &range_del_agg, ReadOptions()); ASSERT_TRUE(found); ASSERT_EQ("value3", value); // Verify that key2 from the first memtable is no longer in the history merge_context.Clear(); found = list.current()->Get(LookupKey("key2", seq), &value, &s, &merge_context, &range_del_agg, ReadOptions()); ASSERT_FALSE(found); // Cleanup list.current()->Unref(&to_delete); ASSERT_EQ(3, to_delete.size()); for (MemTable* m : to_delete) { delete m; } } TEST_F(MemTableListTest, FlushPendingTest) { const int num_tables = 5; SequenceNumber seq = 1; Status s; auto factory = std::make_shared(); options.memtable_factory = factory; ImmutableCFOptions ioptions(options); InternalKeyComparator cmp(BytewiseComparator()); WriteBufferManager wb(options.db_write_buffer_size); autovector to_delete; // Create MemTableList int min_write_buffer_number_to_merge = 3; int max_write_buffer_number_to_maintain = 7; MemTableList list(min_write_buffer_number_to_merge, max_write_buffer_number_to_maintain); // Create some MemTables std::vector tables; MutableCFOptions mutable_cf_options(options); for (int i = 0; i < num_tables; i++) { MemTable* mem = new MemTable(cmp, ioptions, mutable_cf_options, &wb, kMaxSequenceNumber, 0 /* column_family_id */); mem->Ref(); std::string value; MergeContext merge_context; mem->Add(++seq, kTypeValue, "key1", ToString(i)); mem->Add(++seq, kTypeValue, "keyN" + ToString(i), "valueN"); mem->Add(++seq, kTypeValue, "keyX" + ToString(i), "value"); mem->Add(++seq, kTypeValue, "keyM" + ToString(i), "valueM"); mem->Add(++seq, kTypeDeletion, "keyX" + ToString(i), ""); tables.push_back(mem); } // Nothing to flush ASSERT_FALSE(list.IsFlushPending()); ASSERT_FALSE(list.imm_flush_needed.load(std::memory_order_acquire)); autovector to_flush; list.PickMemtablesToFlush(&to_flush); ASSERT_EQ(0, to_flush.size()); // Request a flush even though there is nothing to flush list.FlushRequested(); ASSERT_FALSE(list.IsFlushPending()); ASSERT_FALSE(list.imm_flush_needed.load(std::memory_order_acquire)); // Attempt to 'flush' to clear request for flush list.PickMemtablesToFlush(&to_flush); ASSERT_EQ(0, to_flush.size()); ASSERT_FALSE(list.IsFlushPending()); ASSERT_FALSE(list.imm_flush_needed.load(std::memory_order_acquire)); // Request a flush again list.FlushRequested(); // No flush pending since the list is empty. ASSERT_FALSE(list.IsFlushPending()); ASSERT_FALSE(list.imm_flush_needed.load(std::memory_order_acquire)); // Add 2 tables list.Add(tables[0], &to_delete); list.Add(tables[1], &to_delete); ASSERT_EQ(2, list.NumNotFlushed()); ASSERT_EQ(0, to_delete.size()); // Even though we have less than the minimum to flush, a flush is // pending since we had previously requested a flush and never called // PickMemtablesToFlush() to clear the flush. ASSERT_TRUE(list.IsFlushPending()); ASSERT_TRUE(list.imm_flush_needed.load(std::memory_order_acquire)); // Pick tables to flush list.PickMemtablesToFlush(&to_flush); ASSERT_EQ(2, to_flush.size()); ASSERT_EQ(2, list.NumNotFlushed()); ASSERT_FALSE(list.IsFlushPending()); ASSERT_FALSE(list.imm_flush_needed.load(std::memory_order_acquire)); // Revert flush list.RollbackMemtableFlush(to_flush, 0); ASSERT_FALSE(list.IsFlushPending()); ASSERT_TRUE(list.imm_flush_needed.load(std::memory_order_acquire)); to_flush.clear(); // Add another table list.Add(tables[2], &to_delete); // We now have the minimum to flush regardles of whether FlushRequested() // was called. ASSERT_TRUE(list.IsFlushPending()); ASSERT_TRUE(list.imm_flush_needed.load(std::memory_order_acquire)); ASSERT_EQ(0, to_delete.size()); // Pick tables to flush list.PickMemtablesToFlush(&to_flush); ASSERT_EQ(3, to_flush.size()); ASSERT_EQ(3, list.NumNotFlushed()); ASSERT_FALSE(list.IsFlushPending()); ASSERT_FALSE(list.imm_flush_needed.load(std::memory_order_acquire)); // Pick tables to flush again autovector to_flush2; list.PickMemtablesToFlush(&to_flush2); ASSERT_EQ(0, to_flush2.size()); ASSERT_EQ(3, list.NumNotFlushed()); ASSERT_FALSE(list.IsFlushPending()); ASSERT_FALSE(list.imm_flush_needed.load(std::memory_order_acquire)); // Add another table list.Add(tables[3], &to_delete); ASSERT_FALSE(list.IsFlushPending()); ASSERT_TRUE(list.imm_flush_needed.load(std::memory_order_acquire)); ASSERT_EQ(0, to_delete.size()); // Request a flush again list.FlushRequested(); ASSERT_TRUE(list.IsFlushPending()); ASSERT_TRUE(list.imm_flush_needed.load(std::memory_order_acquire)); // Pick tables to flush again list.PickMemtablesToFlush(&to_flush2); ASSERT_EQ(1, to_flush2.size()); ASSERT_EQ(4, list.NumNotFlushed()); ASSERT_FALSE(list.IsFlushPending()); ASSERT_FALSE(list.imm_flush_needed.load(std::memory_order_acquire)); // Rollback first pick of tables list.RollbackMemtableFlush(to_flush, 0); ASSERT_TRUE(list.IsFlushPending()); ASSERT_TRUE(list.imm_flush_needed.load(std::memory_order_acquire)); to_flush.clear(); // Add another tables list.Add(tables[4], &to_delete); ASSERT_EQ(5, list.NumNotFlushed()); // We now have the minimum to flush regardles of whether FlushRequested() ASSERT_TRUE(list.IsFlushPending()); ASSERT_TRUE(list.imm_flush_needed.load(std::memory_order_acquire)); ASSERT_EQ(0, to_delete.size()); // Pick tables to flush list.PickMemtablesToFlush(&to_flush); // Should pick 4 of 5 since 1 table has been picked in to_flush2 ASSERT_EQ(4, to_flush.size()); ASSERT_EQ(5, list.NumNotFlushed()); ASSERT_FALSE(list.IsFlushPending()); ASSERT_FALSE(list.imm_flush_needed.load(std::memory_order_acquire)); // Pick tables to flush again autovector to_flush3; ASSERT_EQ(0, to_flush3.size()); // nothing not in progress of being flushed ASSERT_EQ(5, list.NumNotFlushed()); ASSERT_FALSE(list.IsFlushPending()); ASSERT_FALSE(list.imm_flush_needed.load(std::memory_order_acquire)); // Flush the 4 memtables that were picked in to_flush s = Mock_InstallMemtableFlushResults(&list, MutableCFOptions(options), to_flush, &to_delete); ASSERT_OK(s); // Note: now to_flush contains tables[0,1,2,4]. to_flush2 contains // tables[3]. // Current implementation will only commit memtables in the order they were // created. So InstallMemtableFlushResults will install the first 3 tables // in to_flush and stop when it encounters a table not yet flushed. ASSERT_EQ(2, list.NumNotFlushed()); int num_in_history = std::min(3, max_write_buffer_number_to_maintain); ASSERT_EQ(num_in_history, list.NumFlushed()); ASSERT_EQ(5 - list.NumNotFlushed() - num_in_history, to_delete.size()); // Request a flush again. Should be nothing to flush list.FlushRequested(); ASSERT_FALSE(list.IsFlushPending()); ASSERT_FALSE(list.imm_flush_needed.load(std::memory_order_acquire)); // Flush the 1 memtable that was picked in to_flush2 s = MemTableListTest::Mock_InstallMemtableFlushResults( &list, MutableCFOptions(options), to_flush2, &to_delete); ASSERT_OK(s); // This will actually install 2 tables. The 1 we told it to flush, and also // tables[4] which has been waiting for tables[3] to commit. ASSERT_EQ(0, list.NumNotFlushed()); num_in_history = std::min(5, max_write_buffer_number_to_maintain); ASSERT_EQ(num_in_history, list.NumFlushed()); ASSERT_EQ(5 - list.NumNotFlushed() - num_in_history, to_delete.size()); for (const auto& m : to_delete) { // Refcount should be 0 after calling InstallMemtableFlushResults. // Verify this, by Ref'ing then UnRef'ing: m->Ref(); ASSERT_EQ(m, m->Unref()); delete m; } to_delete.clear(); list.current()->Unref(&to_delete); int to_delete_size = std::min(5, max_write_buffer_number_to_maintain); ASSERT_EQ(to_delete_size, to_delete.size()); for (const auto& m : to_delete) { // Refcount should be 0 after calling InstallMemtableFlushResults. // Verify this, by Ref'ing then UnRef'ing: m->Ref(); ASSERT_EQ(m, m->Unref()); delete m; } to_delete.clear(); } } // namespace rocksdb int main(int argc, char** argv) { ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/db/merge_context.h000066400000000000000000000072531337235545400166600ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // #pragma once #include #include #include "db/dbformat.h" #include "rocksdb/slice.h" namespace rocksdb { const std::vector empty_operand_list; // The merge context for merging a user key. // When doing a Get(), DB will create such a class and pass it when // issuing Get() operation to memtables and version_set. The operands // will be fetched from the context when issuing partial of full merge. class MergeContext { public: // Clear all the operands void Clear() { if (operand_list_) { operand_list_->clear(); copied_operands_->clear(); } } // Push a merge operand void PushOperand(const Slice& operand_slice, bool operand_pinned = false) { Initialize(); SetDirectionBackward(); if (operand_pinned) { operand_list_->push_back(operand_slice); } else { // We need to have our own copy of the operand since it's not pinned copied_operands_->emplace_back( new std::string(operand_slice.data(), operand_slice.size())); operand_list_->push_back(*copied_operands_->back()); } } // Push back a merge operand void PushOperandBack(const Slice& operand_slice, bool operand_pinned = false) { Initialize(); SetDirectionForward(); if (operand_pinned) { operand_list_->push_back(operand_slice); } else { // We need to have our own copy of the operand since it's not pinned copied_operands_->emplace_back( new std::string(operand_slice.data(), operand_slice.size())); operand_list_->push_back(*copied_operands_->back()); } } // return total number of operands in the list size_t GetNumOperands() const { if (!operand_list_) { return 0; } return operand_list_->size(); } // Get the operand at the index. Slice GetOperand(int index) { assert(operand_list_); SetDirectionForward(); return (*operand_list_)[index]; } // Same as GetOperandsDirectionForward const std::vector& GetOperands() { return GetOperandsDirectionForward(); } // Return all the operands in the order as they were merged (passed to FullMerge or FullMergeV2) const std::vector& GetOperandsDirectionForward() { if (!operand_list_) { return empty_operand_list; } SetDirectionForward(); return *operand_list_; } // Return all the operands in the reversed order relative to how they were merged (passed to FullMerge or FullMergeV2) const std::vector& GetOperandsDirectionBackward() { if (!operand_list_) { return empty_operand_list; } SetDirectionBackward(); return *operand_list_; } private: void Initialize() { if (!operand_list_) { operand_list_.reset(new std::vector()); copied_operands_.reset(new std::vector>()); } } void SetDirectionForward() { if (operands_reversed_ == true) { std::reverse(operand_list_->begin(), operand_list_->end()); operands_reversed_ = false; } } void SetDirectionBackward() { if (operands_reversed_ == false) { std::reverse(operand_list_->begin(), operand_list_->end()); operands_reversed_ = true; } } // List of operands std::unique_ptr> operand_list_; // Copy of operands that are not pinned. std::unique_ptr>> copied_operands_; bool operands_reversed_ = true; }; } // namespace rocksdb rocksdb-5.17.2/db/merge_helper.cc000066400000000000000000000373611337235545400166140ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include "db/merge_helper.h" #include #include "db/dbformat.h" #include "monitoring/perf_context_imp.h" #include "monitoring/statistics.h" #include "port/likely.h" #include "rocksdb/comparator.h" #include "rocksdb/db.h" #include "rocksdb/merge_operator.h" #include "table/format.h" #include "table/internal_iterator.h" namespace rocksdb { MergeHelper::MergeHelper(Env* env, const Comparator* user_comparator, const MergeOperator* user_merge_operator, const CompactionFilter* compaction_filter, Logger* logger, bool assert_valid_internal_key, SequenceNumber latest_snapshot, const SnapshotChecker* snapshot_checker, int level, Statistics* stats, const std::atomic* shutting_down) : env_(env), user_comparator_(user_comparator), user_merge_operator_(user_merge_operator), compaction_filter_(compaction_filter), shutting_down_(shutting_down), logger_(logger), assert_valid_internal_key_(assert_valid_internal_key), allow_single_operand_(false), latest_snapshot_(latest_snapshot), snapshot_checker_(snapshot_checker), level_(level), keys_(), filter_timer_(env_), total_filter_time_(0U), stats_(stats) { assert(user_comparator_ != nullptr); if (user_merge_operator_) { allow_single_operand_ = user_merge_operator_->AllowSingleOperand(); } } Status MergeHelper::TimedFullMerge(const MergeOperator* merge_operator, const Slice& key, const Slice* value, const std::vector& operands, std::string* result, Logger* logger, Statistics* statistics, Env* env, Slice* result_operand, bool update_num_ops_stats) { assert(merge_operator != nullptr); if (operands.size() == 0) { assert(value != nullptr && result != nullptr); result->assign(value->data(), value->size()); return Status::OK(); } if (update_num_ops_stats) { MeasureTime(statistics, READ_NUM_MERGE_OPERANDS, static_cast(operands.size())); } bool success; Slice tmp_result_operand(nullptr, 0); const MergeOperator::MergeOperationInput merge_in(key, value, operands, logger); MergeOperator::MergeOperationOutput merge_out(*result, tmp_result_operand); { // Setup to time the merge StopWatchNano timer(env, statistics != nullptr); PERF_TIMER_GUARD(merge_operator_time_nanos); // Do the merge success = merge_operator->FullMergeV2(merge_in, &merge_out); if (tmp_result_operand.data()) { // FullMergeV2 result is an existing operand if (result_operand != nullptr) { *result_operand = tmp_result_operand; } else { result->assign(tmp_result_operand.data(), tmp_result_operand.size()); } } else if (result_operand) { *result_operand = Slice(nullptr, 0); } RecordTick(statistics, MERGE_OPERATION_TOTAL_TIME, statistics ? timer.ElapsedNanos() : 0); } if (!success) { RecordTick(statistics, NUMBER_MERGE_FAILURES); return Status::Corruption("Error: Could not perform merge."); } return Status::OK(); } // PRE: iter points to the first merge type entry // POST: iter points to the first entry beyond the merge process (or the end) // keys_, operands_ are updated to reflect the merge result. // keys_ stores the list of keys encountered while merging. // operands_ stores the list of merge operands encountered while merging. // keys_[i] corresponds to operands_[i] for each i. Status MergeHelper::MergeUntil(InternalIterator* iter, RangeDelAggregator* range_del_agg, const SequenceNumber stop_before, const bool at_bottom) { // Get a copy of the internal key, before it's invalidated by iter->Next() // Also maintain the list of merge operands seen. assert(HasOperator()); keys_.clear(); merge_context_.Clear(); has_compaction_filter_skip_until_ = false; assert(user_merge_operator_); bool first_key = true; // We need to parse the internal key again as the parsed key is // backed by the internal key! // Assume no internal key corruption as it has been successfully parsed // by the caller. // original_key_is_iter variable is just caching the information: // original_key_is_iter == (iter->key().ToString() == original_key) bool original_key_is_iter = true; std::string original_key = iter->key().ToString(); // Important: // orig_ikey is backed by original_key if keys_.empty() // orig_ikey is backed by keys_.back() if !keys_.empty() ParsedInternalKey orig_ikey; ParseInternalKey(original_key, &orig_ikey); Status s; bool hit_the_next_user_key = false; for (; iter->Valid(); iter->Next(), original_key_is_iter = false) { if (IsShuttingDown()) { return Status::ShutdownInProgress(); } ParsedInternalKey ikey; assert(keys_.size() == merge_context_.GetNumOperands()); if (!ParseInternalKey(iter->key(), &ikey)) { // stop at corrupted key if (assert_valid_internal_key_) { assert(!"Corrupted internal key not expected."); return Status::Corruption("Corrupted internal key not expected."); } break; } else if (first_key) { assert(user_comparator_->Equal(ikey.user_key, orig_ikey.user_key)); first_key = false; } else if (!user_comparator_->Equal(ikey.user_key, orig_ikey.user_key)) { // hit a different user key, stop right here hit_the_next_user_key = true; break; } else if (stop_before > 0 && ikey.sequence <= stop_before && LIKELY(snapshot_checker_ == nullptr || snapshot_checker_->IsInSnapshot(ikey.sequence, stop_before))) { // hit an entry that's visible by the previous snapshot, can't touch that break; } // At this point we are guaranteed that we need to process this key. assert(IsValueType(ikey.type)); if (ikey.type != kTypeMerge) { // hit a put/delete/single delete // => merge the put value or a nullptr with operands_ // => store result in operands_.back() (and update keys_.back()) // => change the entry type to kTypeValue for keys_.back() // We are done! Success! // If there are no operands, just return the Status::OK(). That will cause // the compaction iterator to write out the key we're currently at, which // is the put/delete we just encountered. if (keys_.empty()) { return Status::OK(); } // TODO(noetzli) If the merge operator returns false, we are currently // (almost) silently dropping the put/delete. That's probably not what we // want. Also if we're in compaction and it's a put, it would be nice to // run compaction filter on it. const Slice val = iter->value(); const Slice* val_ptr = (kTypeValue == ikey.type) ? &val : nullptr; std::string merge_result; s = TimedFullMerge(user_merge_operator_, ikey.user_key, val_ptr, merge_context_.GetOperands(), &merge_result, logger_, stats_, env_); // We store the result in keys_.back() and operands_.back() // if nothing went wrong (i.e.: no operand corruption on disk) if (s.ok()) { // The original key encountered original_key = std::move(keys_.back()); orig_ikey.type = kTypeValue; UpdateInternalKey(&original_key, orig_ikey.sequence, orig_ikey.type); keys_.clear(); merge_context_.Clear(); keys_.emplace_front(std::move(original_key)); merge_context_.PushOperand(merge_result); } // move iter to the next entry iter->Next(); return s; } else { // hit a merge // => if there is a compaction filter, apply it. // => check for range tombstones covering the operand // => merge the operand into the front of the operands_ list // if not filtered // => then continue because we haven't yet seen a Put/Delete. // // Keep queuing keys and operands until we either meet a put / delete // request or later did a partial merge. Slice value_slice = iter->value(); // add an operand to the list if: // 1) it's included in one of the snapshots. in that case we *must* write // it out, no matter what compaction filter says // 2) it's not filtered by a compaction filter CompactionFilter::Decision filter = ikey.sequence <= latest_snapshot_ ? CompactionFilter::Decision::kKeep : FilterMerge(orig_ikey.user_key, value_slice); if (filter != CompactionFilter::Decision::kRemoveAndSkipUntil && range_del_agg != nullptr && range_del_agg->ShouldDelete( iter->key(), RangeDelPositioningMode::kForwardTraversal)) { filter = CompactionFilter::Decision::kRemove; } if (filter == CompactionFilter::Decision::kKeep || filter == CompactionFilter::Decision::kChangeValue) { if (original_key_is_iter) { // this is just an optimization that saves us one memcpy keys_.push_front(std::move(original_key)); } else { keys_.push_front(iter->key().ToString()); } if (keys_.size() == 1) { // we need to re-anchor the orig_ikey because it was anchored by // original_key before ParseInternalKey(keys_.back(), &orig_ikey); } if (filter == CompactionFilter::Decision::kKeep) { merge_context_.PushOperand( value_slice, iter->IsValuePinned() /* operand_pinned */); } else { // kChangeValue // Compaction filter asked us to change the operand from value_slice // to compaction_filter_value_. merge_context_.PushOperand(compaction_filter_value_, false); } } else if (filter == CompactionFilter::Decision::kRemoveAndSkipUntil) { // Compaction filter asked us to remove this key altogether // (not just this operand), along with some keys following it. keys_.clear(); merge_context_.Clear(); has_compaction_filter_skip_until_ = true; return Status::OK(); } } } if (merge_context_.GetNumOperands() == 0) { // we filtered out all the merge operands return Status::OK(); } // We are sure we have seen this key's entire history if we are at the // last level and exhausted all internal keys of this user key. // NOTE: !iter->Valid() does not necessarily mean we hit the // beginning of a user key, as versions of a user key might be // split into multiple files (even files on the same level) // and some files might not be included in the compaction/merge. // // There are also cases where we have seen the root of history of this // key without being sure of it. Then, we simply miss the opportunity // to combine the keys. Since VersionSet::SetupOtherInputs() always makes // sure that all merge-operands on the same level get compacted together, // this will simply lead to these merge operands moving to the next level. // // So, we only perform the following logic (to merge all operands together // without a Put/Delete) if we are certain that we have seen the end of key. bool surely_seen_the_beginning = hit_the_next_user_key && at_bottom; if (surely_seen_the_beginning) { // do a final merge with nullptr as the existing value and say // bye to the merge type (it's now converted to a Put) assert(kTypeMerge == orig_ikey.type); assert(merge_context_.GetNumOperands() >= 1); assert(merge_context_.GetNumOperands() == keys_.size()); std::string merge_result; s = TimedFullMerge(user_merge_operator_, orig_ikey.user_key, nullptr, merge_context_.GetOperands(), &merge_result, logger_, stats_, env_); if (s.ok()) { // The original key encountered // We are certain that keys_ is not empty here (see assertions couple of // lines before). original_key = std::move(keys_.back()); orig_ikey.type = kTypeValue; UpdateInternalKey(&original_key, orig_ikey.sequence, orig_ikey.type); keys_.clear(); merge_context_.Clear(); keys_.emplace_front(std::move(original_key)); merge_context_.PushOperand(merge_result); } } else { // We haven't seen the beginning of the key nor a Put/Delete. // Attempt to use the user's associative merge function to // merge the stacked merge operands into a single operand. s = Status::MergeInProgress(); if (merge_context_.GetNumOperands() >= 2 || (allow_single_operand_ && merge_context_.GetNumOperands() == 1)) { bool merge_success = false; std::string merge_result; { StopWatchNano timer(env_, stats_ != nullptr); PERF_TIMER_GUARD(merge_operator_time_nanos); merge_success = user_merge_operator_->PartialMergeMulti( orig_ikey.user_key, std::deque(merge_context_.GetOperands().begin(), merge_context_.GetOperands().end()), &merge_result, logger_); RecordTick(stats_, MERGE_OPERATION_TOTAL_TIME, stats_ ? timer.ElapsedNanosSafe() : 0); } if (merge_success) { // Merging of operands (associative merge) was successful. // Replace operands with the merge result merge_context_.Clear(); merge_context_.PushOperand(merge_result); keys_.erase(keys_.begin(), keys_.end() - 1); } } } return s; } MergeOutputIterator::MergeOutputIterator(const MergeHelper* merge_helper) : merge_helper_(merge_helper) { it_keys_ = merge_helper_->keys().rend(); it_values_ = merge_helper_->values().rend(); } void MergeOutputIterator::SeekToFirst() { const auto& keys = merge_helper_->keys(); const auto& values = merge_helper_->values(); assert(keys.size() == values.size()); it_keys_ = keys.rbegin(); it_values_ = values.rbegin(); } void MergeOutputIterator::Next() { ++it_keys_; ++it_values_; } CompactionFilter::Decision MergeHelper::FilterMerge(const Slice& user_key, const Slice& value_slice) { if (compaction_filter_ == nullptr) { return CompactionFilter::Decision::kKeep; } if (stats_ != nullptr && ShouldReportDetailedTime(env_, stats_)) { filter_timer_.Start(); } compaction_filter_value_.clear(); compaction_filter_skip_until_.Clear(); auto ret = compaction_filter_->FilterV2( level_, user_key, CompactionFilter::ValueType::kMergeOperand, value_slice, &compaction_filter_value_, compaction_filter_skip_until_.rep()); if (ret == CompactionFilter::Decision::kRemoveAndSkipUntil) { if (user_comparator_->Compare(*compaction_filter_skip_until_.rep(), user_key) <= 0) { // Invalid skip_until returned from compaction filter. // Keep the key as per FilterV2 documentation. ret = CompactionFilter::Decision::kKeep; } else { compaction_filter_skip_until_.ConvertFromUserKey(kMaxSequenceNumber, kValueTypeForSeek); } } total_filter_time_ += filter_timer_.ElapsedNanosSafe(); return ret; } } // namespace rocksdb rocksdb-5.17.2/db/merge_helper.h000066400000000000000000000176341337235545400164570ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // #pragma once #include #include #include #include "db/dbformat.h" #include "db/merge_context.h" #include "db/range_del_aggregator.h" #include "db/snapshot_checker.h" #include "rocksdb/compaction_filter.h" #include "rocksdb/env.h" #include "rocksdb/slice.h" #include "util/stop_watch.h" namespace rocksdb { class Comparator; class Iterator; class Logger; class MergeOperator; class Statistics; class MergeHelper { public: MergeHelper(Env* env, const Comparator* user_comparator, const MergeOperator* user_merge_operator, const CompactionFilter* compaction_filter, Logger* logger, bool assert_valid_internal_key, SequenceNumber latest_snapshot, const SnapshotChecker* snapshot_checker = nullptr, int level = 0, Statistics* stats = nullptr, const std::atomic* shutting_down = nullptr); // Wrapper around MergeOperator::FullMergeV2() that records perf statistics. // Result of merge will be written to result if status returned is OK. // If operands is empty, the value will simply be copied to result. // Set `update_num_ops_stats` to true if it is from a user read, so that // the latency is sensitive. // Returns one of the following statuses: // - OK: Entries were successfully merged. // - Corruption: Merge operator reported unsuccessful merge. static Status TimedFullMerge(const MergeOperator* merge_operator, const Slice& key, const Slice* value, const std::vector& operands, std::string* result, Logger* logger, Statistics* statistics, Env* env, Slice* result_operand = nullptr, bool update_num_ops_stats = false); // Merge entries until we hit // - a corrupted key // - a Put/Delete, // - a different user key, // - a specific sequence number (snapshot boundary), // - REMOVE_AND_SKIP_UNTIL returned from compaction filter, // or - the end of iteration // iter: (IN) points to the first merge type entry // (OUT) points to the first entry not included in the merge process // range_del_agg: (IN) filters merge operands covered by range tombstones. // stop_before: (IN) a sequence number that merge should not cross. // 0 means no restriction // at_bottom: (IN) true if the iterator covers the bottem level, which means // we could reach the start of the history of this user key. // // Returns one of the following statuses: // - OK: Entries were successfully merged. // - MergeInProgress: Put/Delete not encountered, and didn't reach the start // of key's history. Output consists of merge operands only. // - Corruption: Merge operator reported unsuccessful merge or a corrupted // key has been encountered and not expected (applies only when compiling // with asserts removed). // - ShutdownInProgress: interrupted by shutdown (*shutting_down == true). // // REQUIRED: The first key in the input is not corrupted. Status MergeUntil(InternalIterator* iter, RangeDelAggregator* range_del_agg = nullptr, const SequenceNumber stop_before = 0, const bool at_bottom = false); // Filters a merge operand using the compaction filter specified // in the constructor. Returns the decision that the filter made. // Uses compaction_filter_value_ and compaction_filter_skip_until_ for the // optional outputs of compaction filter. CompactionFilter::Decision FilterMerge(const Slice& user_key, const Slice& value_slice); // Query the merge result // These are valid until the next MergeUntil call // If the merging was successful: // - keys() contains a single element with the latest sequence number of // the merges. The type will be Put or Merge. See IMPORTANT 1 note, below. // - values() contains a single element with the result of merging all the // operands together // // IMPORTANT 1: the key type could change after the MergeUntil call. // Put/Delete + Merge + ... + Merge => Put // Merge + ... + Merge => Merge // // If the merge operator is not associative, and if a Put/Delete is not found // then the merging will be unsuccessful. In this case: // - keys() contains the list of internal keys seen in order of iteration. // - values() contains the list of values (merges) seen in the same order. // values() is parallel to keys() so that the first entry in // keys() is the key associated with the first entry in values() // and so on. These lists will be the same length. // All of these pairs will be merges over the same user key. // See IMPORTANT 2 note below. // // IMPORTANT 2: The entries were traversed in order from BACK to FRONT. // So keys().back() was the first key seen by iterator. // TODO: Re-style this comment to be like the first one const std::deque& keys() const { return keys_; } const std::vector& values() const { return merge_context_.GetOperands(); } uint64_t TotalFilterTime() const { return total_filter_time_; } bool HasOperator() const { return user_merge_operator_ != nullptr; } // If compaction filter returned REMOVE_AND_SKIP_UNTIL, this method will // return true and fill *until with the key to which we should skip. // If true, keys() and values() are empty. bool FilteredUntil(Slice* skip_until) const { if (!has_compaction_filter_skip_until_) { return false; } assert(compaction_filter_ != nullptr); assert(skip_until != nullptr); assert(compaction_filter_skip_until_.Valid()); *skip_until = compaction_filter_skip_until_.Encode(); return true; } private: Env* env_; const Comparator* user_comparator_; const MergeOperator* user_merge_operator_; const CompactionFilter* compaction_filter_; const std::atomic* shutting_down_; Logger* logger_; bool assert_valid_internal_key_; // enforce no internal key corruption? bool allow_single_operand_; SequenceNumber latest_snapshot_; const SnapshotChecker* const snapshot_checker_; int level_; // the scratch area that holds the result of MergeUntil // valid up to the next MergeUntil call // Keeps track of the sequence of keys seen std::deque keys_; // Parallel with keys_; stores the operands mutable MergeContext merge_context_; StopWatchNano filter_timer_; uint64_t total_filter_time_; Statistics* stats_; bool has_compaction_filter_skip_until_ = false; std::string compaction_filter_value_; InternalKey compaction_filter_skip_until_; bool IsShuttingDown() { // This is a best-effort facility, so memory_order_relaxed is sufficient. return shutting_down_ && shutting_down_->load(std::memory_order_relaxed); } }; // MergeOutputIterator can be used to iterate over the result of a merge. class MergeOutputIterator { public: // The MergeOutputIterator is bound to a MergeHelper instance. explicit MergeOutputIterator(const MergeHelper* merge_helper); // Seeks to the first record in the output. void SeekToFirst(); // Advances to the next record in the output. void Next(); Slice key() { return Slice(*it_keys_); } Slice value() { return Slice(*it_values_); } bool Valid() { return it_keys_ != merge_helper_->keys().rend(); } private: const MergeHelper* merge_helper_; std::deque::const_reverse_iterator it_keys_; std::vector::const_reverse_iterator it_values_; }; } // namespace rocksdb rocksdb-5.17.2/db/merge_helper_test.cc000066400000000000000000000262451337235545400176520ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include #include #include #include "db/merge_helper.h" #include "rocksdb/comparator.h" #include "util/coding.h" #include "util/testharness.h" #include "util/testutil.h" #include "utilities/merge_operators.h" namespace rocksdb { class MergeHelperTest : public testing::Test { public: MergeHelperTest() { env_ = Env::Default(); } ~MergeHelperTest() = default; Status Run(SequenceNumber stop_before, bool at_bottom, SequenceNumber latest_snapshot = 0) { iter_.reset(new test::VectorIterator(ks_, vs_)); iter_->SeekToFirst(); merge_helper_.reset(new MergeHelper(env_, BytewiseComparator(), merge_op_.get(), filter_.get(), nullptr, false, latest_snapshot)); return merge_helper_->MergeUntil(iter_.get(), nullptr /* range_del_agg */, stop_before, at_bottom); } void AddKeyVal(const std::string& user_key, const SequenceNumber& seq, const ValueType& t, const std::string& val, bool corrupt = false) { InternalKey ikey(user_key, seq, t); if (corrupt) { test::CorruptKeyType(&ikey); } ks_.push_back(ikey.Encode().ToString()); vs_.push_back(val); } Env* env_; std::unique_ptr iter_; std::shared_ptr merge_op_; std::unique_ptr merge_helper_; std::vector ks_; std::vector vs_; std::unique_ptr filter_; }; // If MergeHelper encounters a new key on the last level, we know that // the key has no more history and it can merge keys. TEST_F(MergeHelperTest, MergeAtBottomSuccess) { merge_op_ = MergeOperators::CreateUInt64AddOperator(); AddKeyVal("a", 20, kTypeMerge, test::EncodeInt(1U)); AddKeyVal("a", 10, kTypeMerge, test::EncodeInt(3U)); AddKeyVal("b", 10, kTypeMerge, test::EncodeInt(4U)); // <- iter_ after merge ASSERT_TRUE(Run(0, true).ok()); ASSERT_EQ(ks_[2], iter_->key()); ASSERT_EQ(test::KeyStr("a", 20, kTypeValue), merge_helper_->keys()[0]); ASSERT_EQ(test::EncodeInt(4U), merge_helper_->values()[0]); ASSERT_EQ(1U, merge_helper_->keys().size()); ASSERT_EQ(1U, merge_helper_->values().size()); } // Merging with a value results in a successful merge. TEST_F(MergeHelperTest, MergeValue) { merge_op_ = MergeOperators::CreateUInt64AddOperator(); AddKeyVal("a", 40, kTypeMerge, test::EncodeInt(1U)); AddKeyVal("a", 30, kTypeMerge, test::EncodeInt(3U)); AddKeyVal("a", 20, kTypeValue, test::EncodeInt(4U)); // <- iter_ after merge AddKeyVal("a", 10, kTypeMerge, test::EncodeInt(1U)); ASSERT_TRUE(Run(0, false).ok()); ASSERT_EQ(ks_[3], iter_->key()); ASSERT_EQ(test::KeyStr("a", 40, kTypeValue), merge_helper_->keys()[0]); ASSERT_EQ(test::EncodeInt(8U), merge_helper_->values()[0]); ASSERT_EQ(1U, merge_helper_->keys().size()); ASSERT_EQ(1U, merge_helper_->values().size()); } // Merging stops before a snapshot. TEST_F(MergeHelperTest, SnapshotBeforeValue) { merge_op_ = MergeOperators::CreateUInt64AddOperator(); AddKeyVal("a", 50, kTypeMerge, test::EncodeInt(1U)); AddKeyVal("a", 40, kTypeMerge, test::EncodeInt(3U)); // <- iter_ after merge AddKeyVal("a", 30, kTypeMerge, test::EncodeInt(1U)); AddKeyVal("a", 20, kTypeValue, test::EncodeInt(4U)); AddKeyVal("a", 10, kTypeMerge, test::EncodeInt(1U)); ASSERT_TRUE(Run(31, true).IsMergeInProgress()); ASSERT_EQ(ks_[2], iter_->key()); ASSERT_EQ(test::KeyStr("a", 50, kTypeMerge), merge_helper_->keys()[0]); ASSERT_EQ(test::EncodeInt(4U), merge_helper_->values()[0]); ASSERT_EQ(1U, merge_helper_->keys().size()); ASSERT_EQ(1U, merge_helper_->values().size()); } // MergeHelper preserves the operand stack for merge operators that // cannot do a partial merge. TEST_F(MergeHelperTest, NoPartialMerge) { merge_op_ = MergeOperators::CreateStringAppendTESTOperator(); AddKeyVal("a", 50, kTypeMerge, "v2"); AddKeyVal("a", 40, kTypeMerge, "v"); // <- iter_ after merge AddKeyVal("a", 30, kTypeMerge, "v"); ASSERT_TRUE(Run(31, true).IsMergeInProgress()); ASSERT_EQ(ks_[2], iter_->key()); ASSERT_EQ(test::KeyStr("a", 40, kTypeMerge), merge_helper_->keys()[0]); ASSERT_EQ("v", merge_helper_->values()[0]); ASSERT_EQ(test::KeyStr("a", 50, kTypeMerge), merge_helper_->keys()[1]); ASSERT_EQ("v2", merge_helper_->values()[1]); ASSERT_EQ(2U, merge_helper_->keys().size()); ASSERT_EQ(2U, merge_helper_->values().size()); } // A single operand can not be merged. TEST_F(MergeHelperTest, SingleOperand) { merge_op_ = MergeOperators::CreateUInt64AddOperator(); AddKeyVal("a", 50, kTypeMerge, test::EncodeInt(1U)); ASSERT_TRUE(Run(31, true).IsMergeInProgress()); ASSERT_FALSE(iter_->Valid()); ASSERT_EQ(test::KeyStr("a", 50, kTypeMerge), merge_helper_->keys()[0]); ASSERT_EQ(test::EncodeInt(1U), merge_helper_->values()[0]); ASSERT_EQ(1U, merge_helper_->keys().size()); ASSERT_EQ(1U, merge_helper_->values().size()); } // Merging with a deletion turns the deletion into a value TEST_F(MergeHelperTest, MergeDeletion) { merge_op_ = MergeOperators::CreateUInt64AddOperator(); AddKeyVal("a", 30, kTypeMerge, test::EncodeInt(3U)); AddKeyVal("a", 20, kTypeDeletion, ""); ASSERT_TRUE(Run(15, false).ok()); ASSERT_FALSE(iter_->Valid()); ASSERT_EQ(test::KeyStr("a", 30, kTypeValue), merge_helper_->keys()[0]); ASSERT_EQ(test::EncodeInt(3U), merge_helper_->values()[0]); ASSERT_EQ(1U, merge_helper_->keys().size()); ASSERT_EQ(1U, merge_helper_->values().size()); } // The merge helper stops upon encountering a corrupt key TEST_F(MergeHelperTest, CorruptKey) { merge_op_ = MergeOperators::CreateUInt64AddOperator(); AddKeyVal("a", 30, kTypeMerge, test::EncodeInt(3U)); AddKeyVal("a", 25, kTypeMerge, test::EncodeInt(1U)); // Corrupt key AddKeyVal("a", 20, kTypeDeletion, "", true); // <- iter_ after merge ASSERT_TRUE(Run(15, false).IsMergeInProgress()); ASSERT_EQ(ks_[2], iter_->key()); ASSERT_EQ(test::KeyStr("a", 30, kTypeMerge), merge_helper_->keys()[0]); ASSERT_EQ(test::EncodeInt(4U), merge_helper_->values()[0]); ASSERT_EQ(1U, merge_helper_->keys().size()); ASSERT_EQ(1U, merge_helper_->values().size()); } // The compaction filter is called on every merge operand TEST_F(MergeHelperTest, FilterMergeOperands) { merge_op_ = MergeOperators::CreateUInt64AddOperator(); filter_.reset(new test::FilterNumber(5U)); AddKeyVal("a", 30, kTypeMerge, test::EncodeInt(3U)); AddKeyVal("a", 29, kTypeMerge, test::EncodeInt(5U)); // Filtered AddKeyVal("a", 28, kTypeMerge, test::EncodeInt(3U)); AddKeyVal("a", 27, kTypeMerge, test::EncodeInt(1U)); AddKeyVal("a", 26, kTypeMerge, test::EncodeInt(5U)); // Filtered AddKeyVal("a", 25, kTypeValue, test::EncodeInt(1U)); ASSERT_TRUE(Run(15, false).ok()); ASSERT_FALSE(iter_->Valid()); MergeOutputIterator merge_output_iter(merge_helper_.get()); merge_output_iter.SeekToFirst(); ASSERT_EQ(test::KeyStr("a", 30, kTypeValue), merge_output_iter.key().ToString()); ASSERT_EQ(test::EncodeInt(8U), merge_output_iter.value().ToString()); merge_output_iter.Next(); ASSERT_FALSE(merge_output_iter.Valid()); } TEST_F(MergeHelperTest, FilterAllMergeOperands) { merge_op_ = MergeOperators::CreateUInt64AddOperator(); filter_.reset(new test::FilterNumber(5U)); AddKeyVal("a", 30, kTypeMerge, test::EncodeInt(5U)); AddKeyVal("a", 29, kTypeMerge, test::EncodeInt(5U)); AddKeyVal("a", 28, kTypeMerge, test::EncodeInt(5U)); AddKeyVal("a", 27, kTypeMerge, test::EncodeInt(5U)); AddKeyVal("a", 26, kTypeMerge, test::EncodeInt(5U)); AddKeyVal("a", 25, kTypeMerge, test::EncodeInt(5U)); // filtered out all ASSERT_TRUE(Run(15, false).ok()); ASSERT_FALSE(iter_->Valid()); MergeOutputIterator merge_output_iter(merge_helper_.get()); merge_output_iter.SeekToFirst(); ASSERT_FALSE(merge_output_iter.Valid()); // we have one operand that will survive because it's a delete AddKeyVal("a", 24, kTypeDeletion, test::EncodeInt(5U)); AddKeyVal("b", 23, kTypeValue, test::EncodeInt(5U)); ASSERT_TRUE(Run(15, true).ok()); merge_output_iter = MergeOutputIterator(merge_helper_.get()); ASSERT_TRUE(iter_->Valid()); merge_output_iter.SeekToFirst(); ASSERT_FALSE(merge_output_iter.Valid()); // when all merge operands are filtered out, we leave the iterator pointing to // the Put/Delete that survived ASSERT_EQ(test::KeyStr("a", 24, kTypeDeletion), iter_->key().ToString()); ASSERT_EQ(test::EncodeInt(5U), iter_->value().ToString()); } // Make sure that merge operands are filtered at the beginning TEST_F(MergeHelperTest, FilterFirstMergeOperand) { merge_op_ = MergeOperators::CreateUInt64AddOperator(); filter_.reset(new test::FilterNumber(5U)); AddKeyVal("a", 31, kTypeMerge, test::EncodeInt(5U)); // Filtered AddKeyVal("a", 30, kTypeMerge, test::EncodeInt(5U)); // Filtered AddKeyVal("a", 29, kTypeMerge, test::EncodeInt(2U)); AddKeyVal("a", 28, kTypeMerge, test::EncodeInt(1U)); AddKeyVal("a", 27, kTypeMerge, test::EncodeInt(3U)); AddKeyVal("a", 26, kTypeMerge, test::EncodeInt(5U)); // Filtered AddKeyVal("a", 25, kTypeMerge, test::EncodeInt(5U)); // Filtered AddKeyVal("b", 24, kTypeValue, test::EncodeInt(5U)); // next user key ASSERT_OK(Run(15, true)); ASSERT_TRUE(iter_->Valid()); MergeOutputIterator merge_output_iter(merge_helper_.get()); merge_output_iter.SeekToFirst(); // sequence number is 29 here, because the first merge operand got filtered // out ASSERT_EQ(test::KeyStr("a", 29, kTypeValue), merge_output_iter.key().ToString()); ASSERT_EQ(test::EncodeInt(6U), merge_output_iter.value().ToString()); merge_output_iter.Next(); ASSERT_FALSE(merge_output_iter.Valid()); // make sure that we're passing user keys into the filter ASSERT_EQ("a", filter_->last_merge_operand_key()); } // Make sure that merge operands are not filtered out if there's a snapshot // pointing at them TEST_F(MergeHelperTest, DontFilterMergeOperandsBeforeSnapshotTest) { merge_op_ = MergeOperators::CreateUInt64AddOperator(); filter_.reset(new test::FilterNumber(5U)); AddKeyVal("a", 31, kTypeMerge, test::EncodeInt(5U)); AddKeyVal("a", 30, kTypeMerge, test::EncodeInt(5U)); AddKeyVal("a", 29, kTypeMerge, test::EncodeInt(2U)); AddKeyVal("a", 28, kTypeMerge, test::EncodeInt(1U)); AddKeyVal("a", 27, kTypeMerge, test::EncodeInt(3U)); AddKeyVal("a", 26, kTypeMerge, test::EncodeInt(5U)); AddKeyVal("a", 25, kTypeMerge, test::EncodeInt(5U)); AddKeyVal("b", 24, kTypeValue, test::EncodeInt(5U)); ASSERT_OK(Run(15, true, 32)); ASSERT_TRUE(iter_->Valid()); MergeOutputIterator merge_output_iter(merge_helper_.get()); merge_output_iter.SeekToFirst(); ASSERT_EQ(test::KeyStr("a", 31, kTypeValue), merge_output_iter.key().ToString()); ASSERT_EQ(test::EncodeInt(26U), merge_output_iter.value().ToString()); merge_output_iter.Next(); ASSERT_FALSE(merge_output_iter.Valid()); } } // namespace rocksdb int main(int argc, char** argv) { ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/db/merge_operator.cc000066400000000000000000000060731337235545400171640ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // /** * Back-end implementation details specific to the Merge Operator. */ #include "rocksdb/merge_operator.h" namespace rocksdb { bool MergeOperator::FullMergeV2(const MergeOperationInput& merge_in, MergeOperationOutput* merge_out) const { // If FullMergeV2 is not implemented, we convert the operand_list to // std::deque and pass it to FullMerge std::deque operand_list_str; for (auto& op : merge_in.operand_list) { operand_list_str.emplace_back(op.data(), op.size()); } return FullMerge(merge_in.key, merge_in.existing_value, operand_list_str, &merge_out->new_value, merge_in.logger); } // The default implementation of PartialMergeMulti, which invokes // PartialMerge multiple times internally and merges two operands at // a time. bool MergeOperator::PartialMergeMulti(const Slice& key, const std::deque& operand_list, std::string* new_value, Logger* logger) const { assert(operand_list.size() >= 2); // Simply loop through the operands Slice temp_slice(operand_list[0]); for (size_t i = 1; i < operand_list.size(); ++i) { auto& operand = operand_list[i]; std::string temp_value; if (!PartialMerge(key, temp_slice, operand, &temp_value, logger)) { return false; } swap(temp_value, *new_value); temp_slice = Slice(*new_value); } // The result will be in *new_value. All merges succeeded. return true; } // Given a "real" merge from the library, call the user's // associative merge function one-by-one on each of the operands. // NOTE: It is assumed that the client's merge-operator will handle any errors. bool AssociativeMergeOperator::FullMergeV2( const MergeOperationInput& merge_in, MergeOperationOutput* merge_out) const { // Simply loop through the operands Slice temp_existing; const Slice* existing_value = merge_in.existing_value; for (const auto& operand : merge_in.operand_list) { std::string temp_value; if (!Merge(merge_in.key, existing_value, operand, &temp_value, merge_in.logger)) { return false; } swap(temp_value, merge_out->new_value); temp_existing = Slice(merge_out->new_value); existing_value = &temp_existing; } // The result will be in *new_value. All merges succeeded. return true; } // Call the user defined simple merge on the operands; // NOTE: It is assumed that the client's merge-operator will handle any errors. bool AssociativeMergeOperator::PartialMerge( const Slice& key, const Slice& left_operand, const Slice& right_operand, std::string* new_value, Logger* logger) const { return Merge(key, &left_operand, right_operand, new_value, logger); } } // namespace rocksdb rocksdb-5.17.2/db/merge_test.cc000066400000000000000000000330121337235545400163010ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // #include #include #include #include "port/stack_trace.h" #include "rocksdb/cache.h" #include "rocksdb/comparator.h" #include "rocksdb/db.h" #include "rocksdb/env.h" #include "rocksdb/merge_operator.h" #include "rocksdb/utilities/db_ttl.h" #include "db/dbformat.h" #include "db/db_impl.h" #include "db/write_batch_internal.h" #include "utilities/merge_operators.h" #include "util/testharness.h" namespace rocksdb { bool use_compression; class MergeTest : public testing::Test {}; size_t num_merge_operator_calls; void resetNumMergeOperatorCalls() { num_merge_operator_calls = 0; } size_t num_partial_merge_calls; void resetNumPartialMergeCalls() { num_partial_merge_calls = 0; } class CountMergeOperator : public AssociativeMergeOperator { public: CountMergeOperator() { mergeOperator_ = MergeOperators::CreateUInt64AddOperator(); } virtual bool Merge(const Slice& key, const Slice* existing_value, const Slice& value, std::string* new_value, Logger* logger) const override { assert(new_value->empty()); ++num_merge_operator_calls; if (existing_value == nullptr) { new_value->assign(value.data(), value.size()); return true; } return mergeOperator_->PartialMerge( key, *existing_value, value, new_value, logger); } virtual bool PartialMergeMulti(const Slice& key, const std::deque& operand_list, std::string* new_value, Logger* logger) const override { assert(new_value->empty()); ++num_partial_merge_calls; return mergeOperator_->PartialMergeMulti(key, operand_list, new_value, logger); } virtual const char* Name() const override { return "UInt64AddOperator"; } private: std::shared_ptr mergeOperator_; }; std::shared_ptr OpenDb(const std::string& dbname, const bool ttl = false, const size_t max_successive_merges = 0) { DB* db; Options options; options.create_if_missing = true; options.merge_operator = std::make_shared(); options.max_successive_merges = max_successive_merges; Status s; DestroyDB(dbname, Options()); // DBWithTTL is not supported in ROCKSDB_LITE #ifndef ROCKSDB_LITE if (ttl) { DBWithTTL* db_with_ttl; s = DBWithTTL::Open(options, dbname, &db_with_ttl); db = db_with_ttl; } else { s = DB::Open(options, dbname, &db); } #else assert(!ttl); s = DB::Open(options, dbname, &db); #endif // !ROCKSDB_LITE if (!s.ok()) { std::cerr << s.ToString() << std::endl; assert(false); } return std::shared_ptr(db); } // Imagine we are maintaining a set of uint64 counters. // Each counter has a distinct name. And we would like // to support four high level operations: // set, add, get and remove // This is a quick implementation without a Merge operation. class Counters { protected: std::shared_ptr db_; WriteOptions put_option_; ReadOptions get_option_; WriteOptions delete_option_; uint64_t default_; public: explicit Counters(std::shared_ptr db, uint64_t defaultCount = 0) : db_(db), put_option_(), get_option_(), delete_option_(), default_(defaultCount) { assert(db_); } virtual ~Counters() {} // public interface of Counters. // All four functions return false // if the underlying level db operation failed. // mapped to a levedb Put bool set(const std::string& key, uint64_t value) { // just treat the internal rep of int64 as the string char buf[sizeof(value)]; EncodeFixed64(buf, value); Slice slice(buf, sizeof(value)); auto s = db_->Put(put_option_, key, slice); if (s.ok()) { return true; } else { std::cerr << s.ToString() << std::endl; return false; } } // mapped to a rocksdb Delete bool remove(const std::string& key) { auto s = db_->Delete(delete_option_, key); if (s.ok()) { return true; } else { std::cerr << s.ToString() << std::endl; return false; } } // mapped to a rocksdb Get bool get(const std::string& key, uint64_t* value) { std::string str; auto s = db_->Get(get_option_, key, &str); if (s.IsNotFound()) { // return default value if not found; *value = default_; return true; } else if (s.ok()) { // deserialization if (str.size() != sizeof(uint64_t)) { std::cerr << "value corruption\n"; return false; } *value = DecodeFixed64(&str[0]); return true; } else { std::cerr << s.ToString() << std::endl; return false; } } // 'add' is implemented as get -> modify -> set // An alternative is a single merge operation, see MergeBasedCounters virtual bool add(const std::string& key, uint64_t value) { uint64_t base = default_; return get(key, &base) && set(key, base + value); } // convenience functions for testing void assert_set(const std::string& key, uint64_t value) { assert(set(key, value)); } void assert_remove(const std::string& key) { assert(remove(key)); } uint64_t assert_get(const std::string& key) { uint64_t value = default_; int result = get(key, &value); assert(result); if (result == 0) exit(1); // Disable unused variable warning. return value; } void assert_add(const std::string& key, uint64_t value) { int result = add(key, value); assert(result); if (result == 0) exit(1); // Disable unused variable warning. } }; // Implement 'add' directly with the new Merge operation class MergeBasedCounters : public Counters { private: WriteOptions merge_option_; // for merge public: explicit MergeBasedCounters(std::shared_ptr db, uint64_t defaultCount = 0) : Counters(db, defaultCount), merge_option_() { } // mapped to a rocksdb Merge operation virtual bool add(const std::string& key, uint64_t value) override { char encoded[sizeof(uint64_t)]; EncodeFixed64(encoded, value); Slice slice(encoded, sizeof(uint64_t)); auto s = db_->Merge(merge_option_, key, slice); if (s.ok()) { return true; } else { std::cerr << s.ToString() << std::endl; return false; } } }; void dumpDb(DB* db) { auto it = unique_ptr(db->NewIterator(ReadOptions())); for (it->SeekToFirst(); it->Valid(); it->Next()) { //uint64_t value = DecodeFixed64(it->value().data()); //std::cout << it->key().ToString() << ": " << value << std::endl; } assert(it->status().ok()); // Check for any errors found during the scan } void testCounters(Counters& counters, DB* db, bool test_compaction) { FlushOptions o; o.wait = true; counters.assert_set("a", 1); if (test_compaction) db->Flush(o); assert(counters.assert_get("a") == 1); counters.assert_remove("b"); // defaut value is 0 if non-existent assert(counters.assert_get("b") == 0); counters.assert_add("a", 2); if (test_compaction) db->Flush(o); // 1+2 = 3 assert(counters.assert_get("a")== 3); dumpDb(db); // 1+...+49 = ? uint64_t sum = 0; for (int i = 1; i < 50; i++) { counters.assert_add("b", i); sum += i; } assert(counters.assert_get("b") == sum); dumpDb(db); if (test_compaction) { db->Flush(o); db->CompactRange(CompactRangeOptions(), nullptr, nullptr); dumpDb(db); assert(counters.assert_get("a")== 3); assert(counters.assert_get("b") == sum); } } void testSuccessiveMerge(Counters& counters, size_t max_num_merges, size_t num_merges) { counters.assert_remove("z"); uint64_t sum = 0; for (size_t i = 1; i <= num_merges; ++i) { resetNumMergeOperatorCalls(); counters.assert_add("z", i); sum += i; if (i % (max_num_merges + 1) == 0) { assert(num_merge_operator_calls == max_num_merges + 1); } else { assert(num_merge_operator_calls == 0); } resetNumMergeOperatorCalls(); assert(counters.assert_get("z") == sum); assert(num_merge_operator_calls == i % (max_num_merges + 1)); } } void testPartialMerge(Counters* counters, DB* db, size_t max_merge, size_t min_merge, size_t count) { FlushOptions o; o.wait = true; // Test case 1: partial merge should be called when the number of merge // operands exceeds the threshold. uint64_t tmp_sum = 0; resetNumPartialMergeCalls(); for (size_t i = 1; i <= count; i++) { counters->assert_add("b", i); tmp_sum += i; } db->Flush(o); db->CompactRange(CompactRangeOptions(), nullptr, nullptr); ASSERT_EQ(tmp_sum, counters->assert_get("b")); if (count > max_merge) { // in this case, FullMerge should be called instead. ASSERT_EQ(num_partial_merge_calls, 0U); } else { // if count >= min_merge, then partial merge should be called once. ASSERT_EQ((count >= min_merge), (num_partial_merge_calls == 1)); } // Test case 2: partial merge should not be called when a put is found. resetNumPartialMergeCalls(); tmp_sum = 0; db->Put(rocksdb::WriteOptions(), "c", "10"); for (size_t i = 1; i <= count; i++) { counters->assert_add("c", i); tmp_sum += i; } db->Flush(o); db->CompactRange(CompactRangeOptions(), nullptr, nullptr); ASSERT_EQ(tmp_sum, counters->assert_get("c")); ASSERT_EQ(num_partial_merge_calls, 0U); } void testSingleBatchSuccessiveMerge(DB* db, size_t max_num_merges, size_t num_merges) { assert(num_merges > max_num_merges); Slice key("BatchSuccessiveMerge"); uint64_t merge_value = 1; char buf[sizeof(merge_value)]; EncodeFixed64(buf, merge_value); Slice merge_value_slice(buf, sizeof(merge_value)); // Create the batch WriteBatch batch; for (size_t i = 0; i < num_merges; ++i) { batch.Merge(key, merge_value_slice); } // Apply to memtable and count the number of merges resetNumMergeOperatorCalls(); { Status s = db->Write(WriteOptions(), &batch); assert(s.ok()); } ASSERT_EQ( num_merge_operator_calls, static_cast(num_merges - (num_merges % (max_num_merges + 1)))); // Get the value resetNumMergeOperatorCalls(); std::string get_value_str; { Status s = db->Get(ReadOptions(), key, &get_value_str); assert(s.ok()); } assert(get_value_str.size() == sizeof(uint64_t)); uint64_t get_value = DecodeFixed64(&get_value_str[0]); ASSERT_EQ(get_value, num_merges * merge_value); ASSERT_EQ(num_merge_operator_calls, static_cast((num_merges % (max_num_merges + 1)))); } void runTest(const std::string& dbname, const bool use_ttl = false) { { auto db = OpenDb(dbname, use_ttl); { Counters counters(db, 0); testCounters(counters, db.get(), true); } { MergeBasedCounters counters(db, 0); testCounters(counters, db.get(), use_compression); } } DestroyDB(dbname, Options()); { size_t max_merge = 5; auto db = OpenDb(dbname, use_ttl, max_merge); MergeBasedCounters counters(db, 0); testCounters(counters, db.get(), use_compression); testSuccessiveMerge(counters, max_merge, max_merge * 2); testSingleBatchSuccessiveMerge(db.get(), 5, 7); DestroyDB(dbname, Options()); } { size_t max_merge = 100; // Min merge is hard-coded to 2. uint32_t min_merge = 2; for (uint32_t count = min_merge - 1; count <= min_merge + 1; count++) { auto db = OpenDb(dbname, use_ttl, max_merge); MergeBasedCounters counters(db, 0); testPartialMerge(&counters, db.get(), max_merge, min_merge, count); DestroyDB(dbname, Options()); } { auto db = OpenDb(dbname, use_ttl, max_merge); MergeBasedCounters counters(db, 0); testPartialMerge(&counters, db.get(), max_merge, min_merge, min_merge * 10); DestroyDB(dbname, Options()); } } { { auto db = OpenDb(dbname); MergeBasedCounters counters(db, 0); counters.add("test-key", 1); counters.add("test-key", 1); counters.add("test-key", 1); db->CompactRange(CompactRangeOptions(), nullptr, nullptr); } DB* reopen_db; ASSERT_OK(DB::Open(Options(), dbname, &reopen_db)); std::string value; ASSERT_TRUE(!(reopen_db->Get(ReadOptions(), "test-key", &value).ok())); delete reopen_db; DestroyDB(dbname, Options()); } /* Temporary remove this test { std::cout << "Test merge-operator not set after reopen (recovery case)\n"; { auto db = OpenDb(dbname); MergeBasedCounters counters(db, 0); counters.add("test-key", 1); counters.add("test-key", 1); counters.add("test-key", 1); } DB* reopen_db; ASSERT_TRUE(DB::Open(Options(), dbname, &reopen_db).IsInvalidArgument()); } */ } TEST_F(MergeTest, MergeDbTest) { runTest(test::PerThreadDBPath("merge_testdb")); } #ifndef ROCKSDB_LITE TEST_F(MergeTest, MergeDbTtlTest) { runTest(test::PerThreadDBPath("merge_testdbttl"), true); // Run test on TTL database } #endif // !ROCKSDB_LITE } // namespace rocksdb int main(int argc, char** argv) { rocksdb::use_compression = false; if (argc > 1) { rocksdb::use_compression = true; } rocksdb::port::InstallStackTraceHandler(); ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/db/obsolete_files_test.cc000066400000000000000000000202501337235545400202000ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #ifndef ROCKSDB_LITE #include #include #include #include #include "db/db_impl.h" #include "db/version_set.h" #include "db/write_batch_internal.h" #include "rocksdb/db.h" #include "rocksdb/env.h" #include "rocksdb/transaction_log.h" #include "util/filename.h" #include "util/string_util.h" #include "util/sync_point.h" #include "util/testharness.h" #include "util/testutil.h" using std::cerr; using std::cout; using std::endl; using std::flush; namespace rocksdb { class ObsoleteFilesTest : public testing::Test { public: std::string dbname_; Options options_; DB* db_; Env* env_; int numlevels_; ObsoleteFilesTest() { db_ = nullptr; env_ = Env::Default(); // Trigger compaction when the number of level 0 files reaches 2. options_.level0_file_num_compaction_trigger = 2; options_.disable_auto_compactions = false; options_.delete_obsolete_files_period_micros = 0; // always do full purge options_.enable_thread_tracking = true; options_.write_buffer_size = 1024*1024*1000; options_.target_file_size_base = 1024*1024*1000; options_.max_bytes_for_level_base = 1024*1024*1000; options_.WAL_ttl_seconds = 300; // Used to test log files options_.WAL_size_limit_MB = 1024; // Used to test log files dbname_ = test::PerThreadDBPath("obsolete_files_test"); options_.wal_dir = dbname_ + "/wal_files"; // clean up all the files that might have been there before std::vector old_files; env_->GetChildren(dbname_, &old_files); for (auto file : old_files) { env_->DeleteFile(dbname_ + "/" + file); } env_->GetChildren(options_.wal_dir, &old_files); for (auto file : old_files) { env_->DeleteFile(options_.wal_dir + "/" + file); } DestroyDB(dbname_, options_); numlevels_ = 7; EXPECT_OK(ReopenDB(true)); } Status ReopenDB(bool create) { delete db_; if (create) { DestroyDB(dbname_, options_); } db_ = nullptr; options_.create_if_missing = create; return DB::Open(options_, dbname_, &db_); } void CloseDB() { delete db_; db_ = nullptr; } void AddKeys(int numkeys, int startkey) { WriteOptions options; options.sync = false; for (int i = startkey; i < (numkeys + startkey) ; i++) { std::string temp = ToString(i); Slice key(temp); Slice value(temp); ASSERT_OK(db_->Put(options, key, value)); } } int numKeysInLevels( std::vector &metadata, std::vector *keysperlevel = nullptr) { if (keysperlevel != nullptr) { keysperlevel->resize(numlevels_); } int numKeys = 0; for (size_t i = 0; i < metadata.size(); i++) { int startkey = atoi(metadata[i].smallestkey.c_str()); int endkey = atoi(metadata[i].largestkey.c_str()); int numkeysinfile = (endkey - startkey + 1); numKeys += numkeysinfile; if (keysperlevel != nullptr) { (*keysperlevel)[(int)metadata[i].level] += numkeysinfile; } fprintf(stderr, "level %d name %s smallest %s largest %s\n", metadata[i].level, metadata[i].name.c_str(), metadata[i].smallestkey.c_str(), metadata[i].largestkey.c_str()); } return numKeys; } void createLevel0Files(int numFiles, int numKeysPerFile) { int startKey = 0; DBImpl* dbi = reinterpret_cast(db_); for (int i = 0; i < numFiles; i++) { AddKeys(numKeysPerFile, startKey); startKey += numKeysPerFile; ASSERT_OK(dbi->TEST_FlushMemTable()); ASSERT_OK(dbi->TEST_WaitForFlushMemTable()); } } void CheckFileTypeCounts(std::string& dir, int required_log, int required_sst, int required_manifest) { std::vector filenames; env_->GetChildren(dir, &filenames); int log_cnt = 0, sst_cnt = 0, manifest_cnt = 0; for (auto file : filenames) { uint64_t number; FileType type; if (ParseFileName(file, &number, &type)) { log_cnt += (type == kLogFile); sst_cnt += (type == kTableFile); manifest_cnt += (type == kDescriptorFile); } } ASSERT_EQ(required_log, log_cnt); ASSERT_EQ(required_sst, sst_cnt); ASSERT_EQ(required_manifest, manifest_cnt); } }; TEST_F(ObsoleteFilesTest, RaceForObsoleteFileDeletion) { createLevel0Files(2, 50000); CheckFileTypeCounts(options_.wal_dir, 1, 0, 0); SyncPoint::GetInstance()->LoadDependency({ {"DBImpl::BackgroundCallCompaction:FoundObsoleteFiles", "ObsoleteFilesTest::RaceForObsoleteFileDeletion:1"}, {"DBImpl::BackgroundCallCompaction:PurgedObsoleteFiles", "ObsoleteFilesTest::RaceForObsoleteFileDeletion:2"}, }); SyncPoint::GetInstance()->SetCallBack( "DBImpl::DeleteObsoleteFileImpl:AfterDeletion", [&](void* arg) { Status* p_status = reinterpret_cast(arg); ASSERT_TRUE(p_status->ok()); }); SyncPoint::GetInstance()->SetCallBack( "DBImpl::CloseHelper:PendingPurgeFinished", [&](void* arg) { std::vector* files_grabbed_for_purge_ptr = reinterpret_cast*>(arg); ASSERT_TRUE(files_grabbed_for_purge_ptr->empty()); }); SyncPoint::GetInstance()->EnableProcessing(); DBImpl* dbi = reinterpret_cast(db_); port::Thread user_thread([&]() { JobContext jobCxt(0); TEST_SYNC_POINT("ObsoleteFilesTest::RaceForObsoleteFileDeletion:1"); dbi->TEST_LockMutex(); dbi->FindObsoleteFiles(&jobCxt, true /* force=true */, false /* no_full_scan=false */); dbi->TEST_UnlockMutex(); TEST_SYNC_POINT("ObsoleteFilesTest::RaceForObsoleteFileDeletion:2"); dbi->PurgeObsoleteFiles(jobCxt); jobCxt.Clean(); }); user_thread.join(); CloseDB(); } TEST_F(ObsoleteFilesTest, DeleteObsoleteOptionsFile) { createLevel0Files(2, 50000); CheckFileTypeCounts(options_.wal_dir, 1, 0, 0); std::vector optsfiles_nums; std::vector optsfiles_keep; SyncPoint::GetInstance()->SetCallBack( "DBImpl::PurgeObsoleteFiles:CheckOptionsFiles:1", [&](void* arg) { optsfiles_nums.push_back(*reinterpret_cast(arg)); }); SyncPoint::GetInstance()->SetCallBack( "DBImpl::PurgeObsoleteFiles:CheckOptionsFiles:2", [&](void* arg) { optsfiles_keep.push_back(*reinterpret_cast(arg)); }); SyncPoint::GetInstance()->EnableProcessing(); DBImpl* dbi = static_cast(db_); ASSERT_OK(dbi->DisableFileDeletions()); for (int i = 0; i != 4; ++i) { if (i % 2) { ASSERT_OK(dbi->SetOptions(dbi->DefaultColumnFamily(), {{"paranoid_file_checks", "false"}})); } else { ASSERT_OK(dbi->SetOptions(dbi->DefaultColumnFamily(), {{"paranoid_file_checks", "true"}})); } } ASSERT_OK(dbi->EnableFileDeletions(true /* force */)); ASSERT_EQ(optsfiles_nums.size(), optsfiles_keep.size()); CloseDB(); std::vector files; int opts_file_count = 0; ASSERT_OK(env_->GetChildren(dbname_, &files)); for (const auto& file : files) { uint64_t file_num; Slice dummy_info_log_name_prefix; FileType type; WalFileType log_type; if (ParseFileName(file, &file_num, dummy_info_log_name_prefix, &type, &log_type) && type == kOptionsFile) { opts_file_count++; } } ASSERT_EQ(2, opts_file_count); } } //namespace rocksdb int main(int argc, char** argv) { ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } #else #include int main(int /*argc*/, char** /*argv*/) { fprintf(stderr, "SKIPPED as DBImpl::DeleteFile is not supported in ROCKSDB_LITE\n"); return 0; } #endif // !ROCKSDB_LITE rocksdb-5.17.2/db/options_file_test.cc000066400000000000000000000070731337235545400177040ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #ifndef ROCKSDB_LITE #include #include "db/db_impl.h" #include "db/db_test_util.h" #include "rocksdb/options.h" #include "rocksdb/table.h" #include "util/testharness.h" namespace rocksdb { class OptionsFileTest : public testing::Test { public: OptionsFileTest() : dbname_(test::PerThreadDBPath("options_file_test")) {} std::string dbname_; }; namespace { void UpdateOptionsFiles(DB* db, std::unordered_set* filename_history, int* options_files_count) { std::vector filenames; db->GetEnv()->GetChildren(db->GetName(), &filenames); uint64_t number; FileType type; *options_files_count = 0; for (auto filename : filenames) { if (ParseFileName(filename, &number, &type) && type == kOptionsFile) { filename_history->insert(filename); (*options_files_count)++; } } } // Verify whether the current Options Files are the latest ones. void VerifyOptionsFileName( DB* db, const std::unordered_set& past_filenames) { std::vector filenames; std::unordered_set current_filenames; db->GetEnv()->GetChildren(db->GetName(), &filenames); uint64_t number; FileType type; for (auto filename : filenames) { if (ParseFileName(filename, &number, &type) && type == kOptionsFile) { current_filenames.insert(filename); } } for (auto past_filename : past_filenames) { if (current_filenames.find(past_filename) != current_filenames.end()) { continue; } for (auto filename : current_filenames) { ASSERT_GT(filename, past_filename); } } } } // namespace TEST_F(OptionsFileTest, NumberOfOptionsFiles) { const int kReopenCount = 20; Options opt; opt.create_if_missing = true; DestroyDB(dbname_, opt); std::unordered_set filename_history; DB* db; for (int i = 0; i < kReopenCount; ++i) { ASSERT_OK(DB::Open(opt, dbname_, &db)); int num_options_files = 0; UpdateOptionsFiles(db, &filename_history, &num_options_files); ASSERT_GT(num_options_files, 0); ASSERT_LE(num_options_files, 2); // Make sure we always keep the latest option files. VerifyOptionsFileName(db, filename_history); delete db; } } TEST_F(OptionsFileTest, OptionsFileName) { const uint64_t kOptionsFileNum = 12345; uint64_t number; FileType type; auto options_file_name = OptionsFileName("", kOptionsFileNum); ASSERT_TRUE(ParseFileName(options_file_name, &number, &type, nullptr)); ASSERT_EQ(type, kOptionsFile); ASSERT_EQ(number, kOptionsFileNum); const uint64_t kTempOptionsFileNum = 54352; auto temp_options_file_name = TempOptionsFileName("", kTempOptionsFileNum); ASSERT_TRUE(ParseFileName(temp_options_file_name, &number, &type, nullptr)); ASSERT_NE(temp_options_file_name.find(kTempFileNameSuffix), std::string::npos); ASSERT_EQ(type, kTempFile); ASSERT_EQ(number, kTempOptionsFileNum); } } // namespace rocksdb int main(int argc, char** argv) { #if !(defined NDEBUG) || !defined(OS_WIN) ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); #else return 0; #endif // !(defined NDEBUG) || !defined(OS_WIN) } #else #include int main(int /*argc*/, char** /*argv*/) { printf("Skipped as Options file is not supported in RocksDBLite.\n"); return 0; } #endif // !ROCKSDB_LITE rocksdb-5.17.2/db/perf_context_test.cc000066400000000000000000000574441337235545400177210ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // #include #include #include #include #include "monitoring/histogram.h" #include "monitoring/instrumented_mutex.h" #include "monitoring/thread_status_util.h" #include "port/port.h" #include "rocksdb/db.h" #include "rocksdb/memtablerep.h" #include "rocksdb/perf_context.h" #include "rocksdb/slice_transform.h" #include "util/stop_watch.h" #include "util/string_util.h" #include "util/testharness.h" #include "utilities/merge_operators.h" bool FLAGS_random_key = false; bool FLAGS_use_set_based_memetable = false; int FLAGS_total_keys = 100; int FLAGS_write_buffer_size = 1000000000; int FLAGS_max_write_buffer_number = 8; int FLAGS_min_write_buffer_number_to_merge = 7; bool FLAGS_verbose = false; // Path to the database on file system const std::string kDbName = rocksdb::test::PerThreadDBPath("perf_context_test"); namespace rocksdb { std::shared_ptr OpenDb(bool read_only = false) { DB* db; Options options; options.create_if_missing = true; options.max_open_files = -1; options.write_buffer_size = FLAGS_write_buffer_size; options.max_write_buffer_number = FLAGS_max_write_buffer_number; options.min_write_buffer_number_to_merge = FLAGS_min_write_buffer_number_to_merge; if (FLAGS_use_set_based_memetable) { #ifndef ROCKSDB_LITE options.prefix_extractor.reset(rocksdb::NewFixedPrefixTransform(0)); options.memtable_factory.reset(NewHashSkipListRepFactory()); #endif // ROCKSDB_LITE } Status s; if (!read_only) { s = DB::Open(options, kDbName, &db); } else { s = DB::OpenForReadOnly(options, kDbName, &db); } EXPECT_OK(s); return std::shared_ptr(db); } class PerfContextTest : public testing::Test {}; TEST_F(PerfContextTest, SeekIntoDeletion) { DestroyDB(kDbName, Options()); auto db = OpenDb(); WriteOptions write_options; ReadOptions read_options; for (int i = 0; i < FLAGS_total_keys; ++i) { std::string key = "k" + ToString(i); std::string value = "v" + ToString(i); db->Put(write_options, key, value); } for (int i = 0; i < FLAGS_total_keys -1 ; ++i) { std::string key = "k" + ToString(i); db->Delete(write_options, key); } HistogramImpl hist_get; HistogramImpl hist_get_time; for (int i = 0; i < FLAGS_total_keys - 1; ++i) { std::string key = "k" + ToString(i); std::string value; get_perf_context()->Reset(); StopWatchNano timer(Env::Default()); timer.Start(); auto status = db->Get(read_options, key, &value); auto elapsed_nanos = timer.ElapsedNanos(); ASSERT_TRUE(status.IsNotFound()); hist_get.Add(get_perf_context()->user_key_comparison_count); hist_get_time.Add(elapsed_nanos); } if (FLAGS_verbose) { std::cout << "Get user key comparison: \n" << hist_get.ToString() << "Get time: \n" << hist_get_time.ToString(); } { HistogramImpl hist_seek_to_first; std::unique_ptr iter(db->NewIterator(read_options)); get_perf_context()->Reset(); StopWatchNano timer(Env::Default(), true); iter->SeekToFirst(); hist_seek_to_first.Add(get_perf_context()->user_key_comparison_count); auto elapsed_nanos = timer.ElapsedNanos(); if (FLAGS_verbose) { std::cout << "SeekToFirst uesr key comparison: \n" << hist_seek_to_first.ToString() << "ikey skipped: " << get_perf_context()->internal_key_skipped_count << "\n" << "idelete skipped: " << get_perf_context()->internal_delete_skipped_count << "\n" << "elapsed: " << elapsed_nanos << "\n"; } } HistogramImpl hist_seek; for (int i = 0; i < FLAGS_total_keys; ++i) { std::unique_ptr iter(db->NewIterator(read_options)); std::string key = "k" + ToString(i); get_perf_context()->Reset(); StopWatchNano timer(Env::Default(), true); iter->Seek(key); auto elapsed_nanos = timer.ElapsedNanos(); hist_seek.Add(get_perf_context()->user_key_comparison_count); if (FLAGS_verbose) { std::cout << "seek cmp: " << get_perf_context()->user_key_comparison_count << " ikey skipped " << get_perf_context()->internal_key_skipped_count << " idelete skipped " << get_perf_context()->internal_delete_skipped_count << " elapsed: " << elapsed_nanos << "ns\n"; } get_perf_context()->Reset(); ASSERT_TRUE(iter->Valid()); StopWatchNano timer2(Env::Default(), true); iter->Next(); auto elapsed_nanos2 = timer2.ElapsedNanos(); if (FLAGS_verbose) { std::cout << "next cmp: " << get_perf_context()->user_key_comparison_count << "elapsed: " << elapsed_nanos2 << "ns\n"; } } if (FLAGS_verbose) { std::cout << "Seek uesr key comparison: \n" << hist_seek.ToString(); } } TEST_F(PerfContextTest, StopWatchNanoOverhead) { // profile the timer cost by itself! const int kTotalIterations = 1000000; std::vector timings(kTotalIterations); StopWatchNano timer(Env::Default(), true); for (auto& timing : timings) { timing = timer.ElapsedNanos(true /* reset */); } HistogramImpl histogram; for (const auto timing : timings) { histogram.Add(timing); } if (FLAGS_verbose) { std::cout << histogram.ToString(); } } TEST_F(PerfContextTest, StopWatchOverhead) { // profile the timer cost by itself! const int kTotalIterations = 1000000; uint64_t elapsed = 0; std::vector timings(kTotalIterations); StopWatch timer(Env::Default(), nullptr, 0, &elapsed); for (auto& timing : timings) { timing = elapsed; } HistogramImpl histogram; uint64_t prev_timing = 0; for (const auto timing : timings) { histogram.Add(timing - prev_timing); prev_timing = timing; } if (FLAGS_verbose) { std::cout << histogram.ToString(); } } void ProfileQueries(bool enabled_time = false) { DestroyDB(kDbName, Options()); // Start this test with a fresh DB auto db = OpenDb(); WriteOptions write_options; ReadOptions read_options; HistogramImpl hist_put; HistogramImpl hist_get; HistogramImpl hist_get_snapshot; HistogramImpl hist_get_memtable; HistogramImpl hist_get_files; HistogramImpl hist_get_post_process; HistogramImpl hist_num_memtable_checked; HistogramImpl hist_mget; HistogramImpl hist_mget_snapshot; HistogramImpl hist_mget_memtable; HistogramImpl hist_mget_files; HistogramImpl hist_mget_post_process; HistogramImpl hist_mget_num_memtable_checked; HistogramImpl hist_write_pre_post; HistogramImpl hist_write_wal_time; HistogramImpl hist_write_memtable_time; HistogramImpl hist_write_delay_time; HistogramImpl hist_write_thread_wait_nanos; HistogramImpl hist_write_scheduling_time; uint64_t total_db_mutex_nanos = 0; if (FLAGS_verbose) { std::cout << "Inserting " << FLAGS_total_keys << " key/value pairs\n...\n"; } std::vector keys; const int kFlushFlag = -1; for (int i = 0; i < FLAGS_total_keys; ++i) { keys.push_back(i); if (i == FLAGS_total_keys / 2) { // Issuing a flush in the middle. keys.push_back(kFlushFlag); } } if (FLAGS_random_key) { std::random_shuffle(keys.begin(), keys.end()); } #ifndef NDEBUG ThreadStatusUtil::TEST_SetStateDelay(ThreadStatus::STATE_MUTEX_WAIT, 1U); #endif int num_mutex_waited = 0; for (const int i : keys) { if (i == kFlushFlag) { FlushOptions fo; db->Flush(fo); continue; } std::string key = "k" + ToString(i); std::string value = "v" + ToString(i); std::vector values; get_perf_context()->Reset(); db->Put(write_options, key, value); if (++num_mutex_waited > 3) { #ifndef NDEBUG ThreadStatusUtil::TEST_SetStateDelay(ThreadStatus::STATE_MUTEX_WAIT, 0U); #endif } hist_write_pre_post.Add( get_perf_context()->write_pre_and_post_process_time); hist_write_wal_time.Add(get_perf_context()->write_wal_time); hist_write_memtable_time.Add(get_perf_context()->write_memtable_time); hist_write_delay_time.Add(get_perf_context()->write_delay_time); hist_write_thread_wait_nanos.Add( get_perf_context()->write_thread_wait_nanos); hist_write_scheduling_time.Add( get_perf_context()->write_scheduling_flushes_compactions_time); hist_put.Add(get_perf_context()->user_key_comparison_count); total_db_mutex_nanos += get_perf_context()->db_mutex_lock_nanos; } #ifndef NDEBUG ThreadStatusUtil::TEST_SetStateDelay(ThreadStatus::STATE_MUTEX_WAIT, 0U); #endif for (const int i : keys) { if (i == kFlushFlag) { continue; } std::string key = "k" + ToString(i); std::string expected_value = "v" + ToString(i); std::string value; std::vector multiget_keys = {Slice(key)}; std::vector values; get_perf_context()->Reset(); ASSERT_OK(db->Get(read_options, key, &value)); ASSERT_EQ(expected_value, value); hist_get_snapshot.Add(get_perf_context()->get_snapshot_time); hist_get_memtable.Add(get_perf_context()->get_from_memtable_time); hist_get_files.Add(get_perf_context()->get_from_output_files_time); hist_num_memtable_checked.Add(get_perf_context()->get_from_memtable_count); hist_get_post_process.Add(get_perf_context()->get_post_process_time); hist_get.Add(get_perf_context()->user_key_comparison_count); get_perf_context()->Reset(); db->MultiGet(read_options, multiget_keys, &values); hist_mget_snapshot.Add(get_perf_context()->get_snapshot_time); hist_mget_memtable.Add(get_perf_context()->get_from_memtable_time); hist_mget_files.Add(get_perf_context()->get_from_output_files_time); hist_mget_num_memtable_checked.Add(get_perf_context()->get_from_memtable_count); hist_mget_post_process.Add(get_perf_context()->get_post_process_time); hist_mget.Add(get_perf_context()->user_key_comparison_count); } if (FLAGS_verbose) { std::cout << "Put uesr key comparison: \n" << hist_put.ToString() << "Get uesr key comparison: \n" << hist_get.ToString() << "MultiGet uesr key comparison: \n" << hist_get.ToString(); std::cout << "Put(): Pre and Post Process Time: \n" << hist_write_pre_post.ToString() << " Writing WAL time: \n" << hist_write_wal_time.ToString() << "\n" << " Writing Mem Table time: \n" << hist_write_memtable_time.ToString() << "\n" << " Write Delay: \n" << hist_write_delay_time.ToString() << "\n" << " Waiting for Batch time: \n" << hist_write_thread_wait_nanos.ToString() << "\n" << " Scheduling Flushes and Compactions Time: \n" << hist_write_scheduling_time.ToString() << "\n" << " Total DB mutex nanos: \n" << total_db_mutex_nanos << "\n"; std::cout << "Get(): Time to get snapshot: \n" << hist_get_snapshot.ToString() << " Time to get value from memtables: \n" << hist_get_memtable.ToString() << "\n" << " Time to get value from output files: \n" << hist_get_files.ToString() << "\n" << " Number of memtables checked: \n" << hist_num_memtable_checked.ToString() << "\n" << " Time to post process: \n" << hist_get_post_process.ToString() << "\n"; std::cout << "MultiGet(): Time to get snapshot: \n" << hist_mget_snapshot.ToString() << " Time to get value from memtables: \n" << hist_mget_memtable.ToString() << "\n" << " Time to get value from output files: \n" << hist_mget_files.ToString() << "\n" << " Number of memtables checked: \n" << hist_mget_num_memtable_checked.ToString() << "\n" << " Time to post process: \n" << hist_mget_post_process.ToString() << "\n"; } if (enabled_time) { ASSERT_GT(hist_get.Average(), 0); ASSERT_GT(hist_get_snapshot.Average(), 0); ASSERT_GT(hist_get_memtable.Average(), 0); ASSERT_GT(hist_get_files.Average(), 0); ASSERT_GT(hist_get_post_process.Average(), 0); ASSERT_GT(hist_num_memtable_checked.Average(), 0); ASSERT_GT(hist_mget.Average(), 0); ASSERT_GT(hist_mget_snapshot.Average(), 0); ASSERT_GT(hist_mget_memtable.Average(), 0); ASSERT_GT(hist_mget_files.Average(), 0); ASSERT_GT(hist_mget_post_process.Average(), 0); ASSERT_GT(hist_mget_num_memtable_checked.Average(), 0); EXPECT_GT(hist_write_pre_post.Average(), 0); EXPECT_GT(hist_write_wal_time.Average(), 0); EXPECT_GT(hist_write_memtable_time.Average(), 0); EXPECT_EQ(hist_write_delay_time.Average(), 0); EXPECT_EQ(hist_write_thread_wait_nanos.Average(), 0); EXPECT_GT(hist_write_scheduling_time.Average(), 0); #ifndef NDEBUG ASSERT_GT(total_db_mutex_nanos, 2000U); #endif } db.reset(); db = OpenDb(true); hist_get.Clear(); hist_get_snapshot.Clear(); hist_get_memtable.Clear(); hist_get_files.Clear(); hist_get_post_process.Clear(); hist_num_memtable_checked.Clear(); hist_mget.Clear(); hist_mget_snapshot.Clear(); hist_mget_memtable.Clear(); hist_mget_files.Clear(); hist_mget_post_process.Clear(); hist_mget_num_memtable_checked.Clear(); for (const int i : keys) { if (i == kFlushFlag) { continue; } std::string key = "k" + ToString(i); std::string expected_value = "v" + ToString(i); std::string value; std::vector multiget_keys = {Slice(key)}; std::vector values; get_perf_context()->Reset(); ASSERT_OK(db->Get(read_options, key, &value)); ASSERT_EQ(expected_value, value); hist_get_snapshot.Add(get_perf_context()->get_snapshot_time); hist_get_memtable.Add(get_perf_context()->get_from_memtable_time); hist_get_files.Add(get_perf_context()->get_from_output_files_time); hist_num_memtable_checked.Add(get_perf_context()->get_from_memtable_count); hist_get_post_process.Add(get_perf_context()->get_post_process_time); hist_get.Add(get_perf_context()->user_key_comparison_count); get_perf_context()->Reset(); db->MultiGet(read_options, multiget_keys, &values); hist_mget_snapshot.Add(get_perf_context()->get_snapshot_time); hist_mget_memtable.Add(get_perf_context()->get_from_memtable_time); hist_mget_files.Add(get_perf_context()->get_from_output_files_time); hist_mget_num_memtable_checked.Add(get_perf_context()->get_from_memtable_count); hist_mget_post_process.Add(get_perf_context()->get_post_process_time); hist_mget.Add(get_perf_context()->user_key_comparison_count); } if (FLAGS_verbose) { std::cout << "ReadOnly Get uesr key comparison: \n" << hist_get.ToString() << "ReadOnly MultiGet uesr key comparison: \n" << hist_mget.ToString(); std::cout << "ReadOnly Get(): Time to get snapshot: \n" << hist_get_snapshot.ToString() << " Time to get value from memtables: \n" << hist_get_memtable.ToString() << "\n" << " Time to get value from output files: \n" << hist_get_files.ToString() << "\n" << " Number of memtables checked: \n" << hist_num_memtable_checked.ToString() << "\n" << " Time to post process: \n" << hist_get_post_process.ToString() << "\n"; std::cout << "ReadOnly MultiGet(): Time to get snapshot: \n" << hist_mget_snapshot.ToString() << " Time to get value from memtables: \n" << hist_mget_memtable.ToString() << "\n" << " Time to get value from output files: \n" << hist_mget_files.ToString() << "\n" << " Number of memtables checked: \n" << hist_mget_num_memtable_checked.ToString() << "\n" << " Time to post process: \n" << hist_mget_post_process.ToString() << "\n"; } if (enabled_time) { ASSERT_GT(hist_get.Average(), 0); ASSERT_GT(hist_get_memtable.Average(), 0); ASSERT_GT(hist_get_files.Average(), 0); ASSERT_GT(hist_num_memtable_checked.Average(), 0); // In read-only mode Get(), no super version operation is needed ASSERT_EQ(hist_get_post_process.Average(), 0); ASSERT_GT(hist_get_snapshot.Average(), 0); ASSERT_GT(hist_mget.Average(), 0); ASSERT_GT(hist_mget_snapshot.Average(), 0); ASSERT_GT(hist_mget_memtable.Average(), 0); ASSERT_GT(hist_mget_files.Average(), 0); ASSERT_GT(hist_mget_post_process.Average(), 0); ASSERT_GT(hist_mget_num_memtable_checked.Average(), 0); } } #ifndef ROCKSDB_LITE TEST_F(PerfContextTest, KeyComparisonCount) { SetPerfLevel(kEnableCount); ProfileQueries(); SetPerfLevel(kDisable); ProfileQueries(); SetPerfLevel(kEnableTime); ProfileQueries(true); } #endif // ROCKSDB_LITE // make perf_context_test // export ROCKSDB_TESTS=PerfContextTest.SeekKeyComparison // For one memtable: // ./perf_context_test --write_buffer_size=500000 --total_keys=10000 // For two memtables: // ./perf_context_test --write_buffer_size=250000 --total_keys=10000 // Specify --random_key=1 to shuffle the key before insertion // Results show that, for sequential insertion, worst-case Seek Key comparison // is close to the total number of keys (linear), when there is only one // memtable. When there are two memtables, even the avg Seek Key comparison // starts to become linear to the input size. TEST_F(PerfContextTest, SeekKeyComparison) { DestroyDB(kDbName, Options()); auto db = OpenDb(); WriteOptions write_options; ReadOptions read_options; if (FLAGS_verbose) { std::cout << "Inserting " << FLAGS_total_keys << " key/value pairs\n...\n"; } std::vector keys; for (int i = 0; i < FLAGS_total_keys; ++i) { keys.push_back(i); } if (FLAGS_random_key) { std::random_shuffle(keys.begin(), keys.end()); } HistogramImpl hist_put_time; HistogramImpl hist_wal_time; HistogramImpl hist_time_diff; SetPerfLevel(kEnableTime); StopWatchNano timer(Env::Default()); for (const int i : keys) { std::string key = "k" + ToString(i); std::string value = "v" + ToString(i); get_perf_context()->Reset(); timer.Start(); db->Put(write_options, key, value); auto put_time = timer.ElapsedNanos(); hist_put_time.Add(put_time); hist_wal_time.Add(get_perf_context()->write_wal_time); hist_time_diff.Add(put_time - get_perf_context()->write_wal_time); } if (FLAGS_verbose) { std::cout << "Put time:\n" << hist_put_time.ToString() << "WAL time:\n" << hist_wal_time.ToString() << "time diff:\n" << hist_time_diff.ToString(); } HistogramImpl hist_seek; HistogramImpl hist_next; for (int i = 0; i < FLAGS_total_keys; ++i) { std::string key = "k" + ToString(i); std::string value = "v" + ToString(i); std::unique_ptr iter(db->NewIterator(read_options)); get_perf_context()->Reset(); iter->Seek(key); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(iter->value().ToString(), value); hist_seek.Add(get_perf_context()->user_key_comparison_count); } std::unique_ptr iter(db->NewIterator(read_options)); for (iter->SeekToFirst(); iter->Valid();) { get_perf_context()->Reset(); iter->Next(); hist_next.Add(get_perf_context()->user_key_comparison_count); } if (FLAGS_verbose) { std::cout << "Seek:\n" << hist_seek.ToString() << "Next:\n" << hist_next.ToString(); } } TEST_F(PerfContextTest, DBMutexLockCounter) { int stats_code[] = {0, static_cast(DB_MUTEX_WAIT_MICROS)}; for (PerfLevel perf_level : {PerfLevel::kEnableTimeExceptForMutex, PerfLevel::kEnableTime}) { for (int c = 0; c < 2; ++c) { InstrumentedMutex mutex(nullptr, Env::Default(), stats_code[c]); mutex.Lock(); rocksdb::port::Thread child_thread([&] { SetPerfLevel(perf_level); get_perf_context()->Reset(); ASSERT_EQ(get_perf_context()->db_mutex_lock_nanos, 0); mutex.Lock(); mutex.Unlock(); if (perf_level == PerfLevel::kEnableTimeExceptForMutex || stats_code[c] != DB_MUTEX_WAIT_MICROS) { ASSERT_EQ(get_perf_context()->db_mutex_lock_nanos, 0); } else { // increment the counter only when it's a DB Mutex ASSERT_GT(get_perf_context()->db_mutex_lock_nanos, 0); } }); Env::Default()->SleepForMicroseconds(100); mutex.Unlock(); child_thread.join(); } } } TEST_F(PerfContextTest, FalseDBMutexWait) { SetPerfLevel(kEnableTime); int stats_code[] = {0, static_cast(DB_MUTEX_WAIT_MICROS)}; for (int c = 0; c < 2; ++c) { InstrumentedMutex mutex(nullptr, Env::Default(), stats_code[c]); InstrumentedCondVar lock(&mutex); get_perf_context()->Reset(); mutex.Lock(); lock.TimedWait(100); mutex.Unlock(); if (stats_code[c] == static_cast(DB_MUTEX_WAIT_MICROS)) { // increment the counter only when it's a DB Mutex ASSERT_GT(get_perf_context()->db_condition_wait_nanos, 0); } else { ASSERT_EQ(get_perf_context()->db_condition_wait_nanos, 0); } } } TEST_F(PerfContextTest, ToString) { get_perf_context()->Reset(); get_perf_context()->block_read_count = 12345; std::string zero_included = get_perf_context()->ToString(); ASSERT_NE(std::string::npos, zero_included.find("= 0")); ASSERT_NE(std::string::npos, zero_included.find("= 12345")); std::string zero_excluded = get_perf_context()->ToString(true); ASSERT_EQ(std::string::npos, zero_excluded.find("= 0")); ASSERT_NE(std::string::npos, zero_excluded.find("= 12345")); } TEST_F(PerfContextTest, MergeOperatorTime) { DestroyDB(kDbName, Options()); DB* db; Options options; options.create_if_missing = true; options.merge_operator = MergeOperators::CreateStringAppendOperator(); Status s = DB::Open(options, kDbName, &db); EXPECT_OK(s); std::string val; ASSERT_OK(db->Merge(WriteOptions(), "k1", "val1")); ASSERT_OK(db->Merge(WriteOptions(), "k1", "val2")); ASSERT_OK(db->Merge(WriteOptions(), "k1", "val3")); ASSERT_OK(db->Merge(WriteOptions(), "k1", "val4")); SetPerfLevel(kEnableTime); get_perf_context()->Reset(); ASSERT_OK(db->Get(ReadOptions(), "k1", &val)); #ifdef OS_SOLARIS for (int i = 0; i < 100; i++) { ASSERT_OK(db->Get(ReadOptions(), "k1", &val)); } #endif EXPECT_GT(get_perf_context()->merge_operator_time_nanos, 0); ASSERT_OK(db->Flush(FlushOptions())); get_perf_context()->Reset(); ASSERT_OK(db->Get(ReadOptions(), "k1", &val)); #ifdef OS_SOLARIS for (int i = 0; i < 100; i++) { ASSERT_OK(db->Get(ReadOptions(), "k1", &val)); } #endif EXPECT_GT(get_perf_context()->merge_operator_time_nanos, 0); ASSERT_OK(db->CompactRange(CompactRangeOptions(), nullptr, nullptr)); get_perf_context()->Reset(); ASSERT_OK(db->Get(ReadOptions(), "k1", &val)); #ifdef OS_SOLARIS for (int i = 0; i < 100; i++) { ASSERT_OK(db->Get(ReadOptions(), "k1", &val)); } #endif EXPECT_GT(get_perf_context()->merge_operator_time_nanos, 0); delete db; } } int main(int argc, char** argv) { ::testing::InitGoogleTest(&argc, argv); for (int i = 1; i < argc; i++) { int n; char junk; if (sscanf(argv[i], "--write_buffer_size=%d%c", &n, &junk) == 1) { FLAGS_write_buffer_size = n; } if (sscanf(argv[i], "--total_keys=%d%c", &n, &junk) == 1) { FLAGS_total_keys = n; } if (sscanf(argv[i], "--random_key=%d%c", &n, &junk) == 1 && (n == 0 || n == 1)) { FLAGS_random_key = n; } if (sscanf(argv[i], "--use_set_based_memetable=%d%c", &n, &junk) == 1 && (n == 0 || n == 1)) { FLAGS_use_set_based_memetable = n; } if (sscanf(argv[i], "--verbose=%d%c", &n, &junk) == 1 && (n == 0 || n == 1)) { FLAGS_verbose = n; } } if (FLAGS_verbose) { std::cout << kDbName << "\n"; } return RUN_ALL_TESTS(); } rocksdb-5.17.2/db/pinned_iterators_manager.h000066400000000000000000000047061337235545400210600ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // #pragma once #include #include #include #include #include "table/internal_iterator.h" namespace rocksdb { // PinnedIteratorsManager will be notified whenever we need to pin an Iterator // and it will be responsible for deleting pinned Iterators when they are // not needed anymore. class PinnedIteratorsManager : public Cleanable { public: PinnedIteratorsManager() : pinning_enabled(false) {} ~PinnedIteratorsManager() { if (pinning_enabled) { ReleasePinnedData(); } } // Enable Iterators pinning void StartPinning() { assert(pinning_enabled == false); pinning_enabled = true; } // Is pinning enabled ? bool PinningEnabled() { return pinning_enabled; } // Take ownership of iter and delete it when ReleasePinnedData() is called void PinIterator(InternalIterator* iter, bool arena = false) { if (arena) { PinPtr(iter, &PinnedIteratorsManager::ReleaseArenaInternalIterator); } else { PinPtr(iter, &PinnedIteratorsManager::ReleaseInternalIterator); } } typedef void (*ReleaseFunction)(void* arg1); void PinPtr(void* ptr, ReleaseFunction release_func) { assert(pinning_enabled); if (ptr == nullptr) { return; } pinned_ptrs_.emplace_back(ptr, release_func); } // Release pinned Iterators inline void ReleasePinnedData() { assert(pinning_enabled == true); pinning_enabled = false; // Remove duplicate pointers std::sort(pinned_ptrs_.begin(), pinned_ptrs_.end()); auto unique_end = std::unique(pinned_ptrs_.begin(), pinned_ptrs_.end()); for (auto i = pinned_ptrs_.begin(); i != unique_end; ++i) { void* ptr = i->first; ReleaseFunction release_func = i->second; release_func(ptr); } pinned_ptrs_.clear(); // Also do cleanups from the base Cleanable Cleanable::Reset(); } private: static void ReleaseInternalIterator(void* ptr) { delete reinterpret_cast(ptr); } static void ReleaseArenaInternalIterator(void* ptr) { reinterpret_cast(ptr)->~InternalIterator(); } bool pinning_enabled; std::vector> pinned_ptrs_; }; } // namespace rocksdb rocksdb-5.17.2/db/plain_table_db_test.cc000066400000000000000000001176521337235545400201360ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #ifndef ROCKSDB_LITE #include #include #include "db/db_impl.h" #include "db/version_set.h" #include "db/write_batch_internal.h" #include "rocksdb/cache.h" #include "rocksdb/compaction_filter.h" #include "rocksdb/db.h" #include "rocksdb/env.h" #include "rocksdb/filter_policy.h" #include "rocksdb/slice_transform.h" #include "rocksdb/table.h" #include "table/bloom_block.h" #include "table/meta_blocks.h" #include "table/plain_table_factory.h" #include "table/plain_table_key_coding.h" #include "table/plain_table_reader.h" #include "table/table_builder.h" #include "util/filename.h" #include "util/hash.h" #include "util/logging.h" #include "util/mutexlock.h" #include "util/string_util.h" #include "util/testharness.h" #include "util/testutil.h" #include "utilities/merge_operators.h" using std::unique_ptr; namespace rocksdb { class PlainTableKeyDecoderTest : public testing::Test {}; TEST_F(PlainTableKeyDecoderTest, ReadNonMmap) { std::string tmp; Random rnd(301); const uint32_t kLength = 2222; Slice contents = test::RandomString(&rnd, kLength, &tmp); test::StringSource* string_source = new test::StringSource(contents, 0, false); unique_ptr file_reader( test::GetRandomAccessFileReader(string_source)); unique_ptr file_info(new PlainTableReaderFileInfo( std::move(file_reader), EnvOptions(), kLength)); { PlainTableFileReader reader(file_info.get()); const uint32_t kReadSize = 77; for (uint32_t pos = 0; pos < kLength; pos += kReadSize) { uint32_t read_size = std::min(kLength - pos, kReadSize); Slice out; ASSERT_TRUE(reader.Read(pos, read_size, &out)); ASSERT_EQ(0, out.compare(tmp.substr(pos, read_size))); } ASSERT_LT(uint32_t(string_source->total_reads()), kLength / kReadSize / 2); } std::vector>> reads = { {{600, 30}, {590, 30}, {600, 20}, {600, 40}}, {{800, 20}, {100, 20}, {500, 20}, {1500, 20}, {100, 20}, {80, 20}}, {{1000, 20}, {500, 20}, {1000, 50}}, {{1000, 20}, {500, 20}, {500, 20}}, {{1000, 20}, {500, 20}, {200, 20}, {500, 20}}, {{1000, 20}, {500, 20}, {200, 20}, {1000, 50}}, {{600, 500}, {610, 20}, {100, 20}}, {{500, 100}, {490, 100}, {550, 50}}, }; std::vector num_file_reads = {2, 6, 2, 2, 4, 3, 2, 2}; for (size_t i = 0; i < reads.size(); i++) { string_source->set_total_reads(0); PlainTableFileReader reader(file_info.get()); for (auto p : reads[i]) { Slice out; ASSERT_TRUE(reader.Read(p.first, p.second, &out)); ASSERT_EQ(0, out.compare(tmp.substr(p.first, p.second))); } ASSERT_EQ(num_file_reads[i], string_source->total_reads()); } } class PlainTableDBTest : public testing::Test, public testing::WithParamInterface { protected: private: std::string dbname_; Env* env_; DB* db_; bool mmap_mode_; Options last_options_; public: PlainTableDBTest() : env_(Env::Default()) {} ~PlainTableDBTest() { delete db_; EXPECT_OK(DestroyDB(dbname_, Options())); } void SetUp() override { mmap_mode_ = GetParam(); dbname_ = test::PerThreadDBPath("plain_table_db_test"); EXPECT_OK(DestroyDB(dbname_, Options())); db_ = nullptr; Reopen(); } // Return the current option configuration. Options CurrentOptions() { Options options; PlainTableOptions plain_table_options; plain_table_options.user_key_len = 0; plain_table_options.bloom_bits_per_key = 2; plain_table_options.hash_table_ratio = 0.8; plain_table_options.index_sparseness = 3; plain_table_options.huge_page_tlb_size = 0; plain_table_options.encoding_type = kPrefix; plain_table_options.full_scan_mode = false; plain_table_options.store_index_in_file = false; options.table_factory.reset(NewPlainTableFactory(plain_table_options)); options.memtable_factory.reset(NewHashLinkListRepFactory(4, 0, 3, true)); options.prefix_extractor.reset(NewFixedPrefixTransform(8)); options.allow_mmap_reads = mmap_mode_; options.allow_concurrent_memtable_write = false; return options; } DBImpl* dbfull() { return reinterpret_cast(db_); } void Reopen(Options* options = nullptr) { ASSERT_OK(TryReopen(options)); } void Close() { delete db_; db_ = nullptr; } void DestroyAndReopen(Options* options = nullptr) { //Destroy using last options Destroy(&last_options_); ASSERT_OK(TryReopen(options)); } void Destroy(Options* options) { delete db_; db_ = nullptr; ASSERT_OK(DestroyDB(dbname_, *options)); } Status PureReopen(Options* options, DB** db) { return DB::Open(*options, dbname_, db); } Status TryReopen(Options* options = nullptr) { delete db_; db_ = nullptr; Options opts; if (options != nullptr) { opts = *options; } else { opts = CurrentOptions(); opts.create_if_missing = true; } last_options_ = opts; return DB::Open(opts, dbname_, &db_); } Status Put(const Slice& k, const Slice& v) { return db_->Put(WriteOptions(), k, v); } Status Delete(const std::string& k) { return db_->Delete(WriteOptions(), k); } std::string Get(const std::string& k, const Snapshot* snapshot = nullptr) { ReadOptions options; options.snapshot = snapshot; std::string result; Status s = db_->Get(options, k, &result); if (s.IsNotFound()) { result = "NOT_FOUND"; } else if (!s.ok()) { result = s.ToString(); } return result; } int NumTableFilesAtLevel(int level) { std::string property; EXPECT_TRUE(db_->GetProperty( "rocksdb.num-files-at-level" + NumberToString(level), &property)); return atoi(property.c_str()); } // Return spread of files per level std::string FilesPerLevel() { std::string result; size_t last_non_zero_offset = 0; for (int level = 0; level < db_->NumberLevels(); level++) { int f = NumTableFilesAtLevel(level); char buf[100]; snprintf(buf, sizeof(buf), "%s%d", (level ? "," : ""), f); result += buf; if (f > 0) { last_non_zero_offset = result.size(); } } result.resize(last_non_zero_offset); return result; } std::string IterStatus(Iterator* iter) { std::string result; if (iter->Valid()) { result = iter->key().ToString() + "->" + iter->value().ToString(); } else { result = "(invalid)"; } return result; } }; TEST_P(PlainTableDBTest, Empty) { ASSERT_TRUE(dbfull() != nullptr); ASSERT_EQ("NOT_FOUND", Get("0000000000000foo")); } extern const uint64_t kPlainTableMagicNumber; class TestPlainTableReader : public PlainTableReader { public: TestPlainTableReader(const EnvOptions& env_options, const InternalKeyComparator& icomparator, EncodingType encoding_type, uint64_t file_size, int bloom_bits_per_key, double hash_table_ratio, size_t index_sparseness, const TableProperties* table_properties, unique_ptr&& file, const ImmutableCFOptions& ioptions, const SliceTransform* prefix_extractor, bool* expect_bloom_not_match, bool store_index_in_file, uint32_t column_family_id, const std::string& column_family_name) : PlainTableReader(ioptions, std::move(file), env_options, icomparator, encoding_type, file_size, table_properties, prefix_extractor), expect_bloom_not_match_(expect_bloom_not_match) { Status s = MmapDataIfNeeded(); EXPECT_TRUE(s.ok()); s = PopulateIndex(const_cast(table_properties), bloom_bits_per_key, hash_table_ratio, index_sparseness, 2 * 1024 * 1024); EXPECT_TRUE(s.ok()); TableProperties* props = const_cast(table_properties); EXPECT_EQ(column_family_id, static_cast(props->column_family_id)); EXPECT_EQ(column_family_name, props->column_family_name); if (store_index_in_file) { auto bloom_version_ptr = props->user_collected_properties.find( PlainTablePropertyNames::kBloomVersion); EXPECT_TRUE(bloom_version_ptr != props->user_collected_properties.end()); EXPECT_EQ(bloom_version_ptr->second, std::string("1")); if (ioptions.bloom_locality > 0) { auto num_blocks_ptr = props->user_collected_properties.find( PlainTablePropertyNames::kNumBloomBlocks); EXPECT_TRUE(num_blocks_ptr != props->user_collected_properties.end()); } } } virtual ~TestPlainTableReader() {} private: virtual bool MatchBloom(uint32_t hash) const override { bool ret = PlainTableReader::MatchBloom(hash); if (*expect_bloom_not_match_) { EXPECT_TRUE(!ret); } else { EXPECT_TRUE(ret); } return ret; } bool* expect_bloom_not_match_; }; extern const uint64_t kPlainTableMagicNumber; class TestPlainTableFactory : public PlainTableFactory { public: explicit TestPlainTableFactory(bool* expect_bloom_not_match, const PlainTableOptions& options, uint32_t column_family_id, std::string column_family_name) : PlainTableFactory(options), bloom_bits_per_key_(options.bloom_bits_per_key), hash_table_ratio_(options.hash_table_ratio), index_sparseness_(options.index_sparseness), store_index_in_file_(options.store_index_in_file), expect_bloom_not_match_(expect_bloom_not_match), column_family_id_(column_family_id), column_family_name_(std::move(column_family_name)) {} Status NewTableReader( const TableReaderOptions& table_reader_options, unique_ptr&& file, uint64_t file_size, unique_ptr* table, bool /*prefetch_index_and_filter_in_cache*/) const override { TableProperties* props = nullptr; auto s = ReadTableProperties(file.get(), file_size, kPlainTableMagicNumber, table_reader_options.ioptions, &props, true /* compression_type_missing */); EXPECT_TRUE(s.ok()); if (store_index_in_file_) { BlockHandle bloom_block_handle; s = FindMetaBlock(file.get(), file_size, kPlainTableMagicNumber, table_reader_options.ioptions, BloomBlockBuilder::kBloomBlock, &bloom_block_handle, /* compression_type_missing */ true); EXPECT_TRUE(s.ok()); BlockHandle index_block_handle; s = FindMetaBlock(file.get(), file_size, kPlainTableMagicNumber, table_reader_options.ioptions, PlainTableIndexBuilder::kPlainTableIndexBlock, &index_block_handle, /* compression_type_missing */ true); EXPECT_TRUE(s.ok()); } auto& user_props = props->user_collected_properties; auto encoding_type_prop = user_props.find(PlainTablePropertyNames::kEncodingType); assert(encoding_type_prop != user_props.end()); EncodingType encoding_type = static_cast( DecodeFixed32(encoding_type_prop->second.c_str())); std::unique_ptr new_reader(new TestPlainTableReader( table_reader_options.env_options, table_reader_options.internal_comparator, encoding_type, file_size, bloom_bits_per_key_, hash_table_ratio_, index_sparseness_, props, std::move(file), table_reader_options.ioptions, table_reader_options.prefix_extractor, expect_bloom_not_match_, store_index_in_file_, column_family_id_, column_family_name_)); *table = std::move(new_reader); return s; } private: int bloom_bits_per_key_; double hash_table_ratio_; size_t index_sparseness_; bool store_index_in_file_; bool* expect_bloom_not_match_; const uint32_t column_family_id_; const std::string column_family_name_; }; TEST_P(PlainTableDBTest, Flush) { for (size_t huge_page_tlb_size = 0; huge_page_tlb_size <= 2 * 1024 * 1024; huge_page_tlb_size += 2 * 1024 * 1024) { for (EncodingType encoding_type : {kPlain, kPrefix}) { for (int bloom_bits = 0; bloom_bits <= 117; bloom_bits += 117) { for (int total_order = 0; total_order <= 1; total_order++) { for (int store_index_in_file = 0; store_index_in_file <= 1; ++store_index_in_file) { Options options = CurrentOptions(); options.create_if_missing = true; // Set only one bucket to force bucket conflict. // Test index interval for the same prefix to be 1, 2 and 4 if (total_order) { options.prefix_extractor.reset(); PlainTableOptions plain_table_options; plain_table_options.user_key_len = 0; plain_table_options.bloom_bits_per_key = bloom_bits; plain_table_options.hash_table_ratio = 0; plain_table_options.index_sparseness = 2; plain_table_options.huge_page_tlb_size = huge_page_tlb_size; plain_table_options.encoding_type = encoding_type; plain_table_options.full_scan_mode = false; plain_table_options.store_index_in_file = store_index_in_file; options.table_factory.reset( NewPlainTableFactory(plain_table_options)); } else { PlainTableOptions plain_table_options; plain_table_options.user_key_len = 0; plain_table_options.bloom_bits_per_key = bloom_bits; plain_table_options.hash_table_ratio = 0.75; plain_table_options.index_sparseness = 16; plain_table_options.huge_page_tlb_size = huge_page_tlb_size; plain_table_options.encoding_type = encoding_type; plain_table_options.full_scan_mode = false; plain_table_options.store_index_in_file = store_index_in_file; options.table_factory.reset( NewPlainTableFactory(plain_table_options)); } DestroyAndReopen(&options); uint64_t int_num; ASSERT_TRUE(dbfull()->GetIntProperty( "rocksdb.estimate-table-readers-mem", &int_num)); ASSERT_EQ(int_num, 0U); ASSERT_OK(Put("1000000000000foo", "v1")); ASSERT_OK(Put("0000000000000bar", "v2")); ASSERT_OK(Put("1000000000000foo", "v3")); dbfull()->TEST_FlushMemTable(); ASSERT_TRUE(dbfull()->GetIntProperty( "rocksdb.estimate-table-readers-mem", &int_num)); ASSERT_GT(int_num, 0U); TablePropertiesCollection ptc; reinterpret_cast(dbfull())->GetPropertiesOfAllTables(&ptc); ASSERT_EQ(1U, ptc.size()); auto row = ptc.begin(); auto tp = row->second; if (!store_index_in_file) { ASSERT_EQ(total_order ? "4" : "12", (tp->user_collected_properties) .at("plain_table_hash_table_size")); ASSERT_EQ("0", (tp->user_collected_properties) .at("plain_table_sub_index_size")); } else { ASSERT_EQ("0", (tp->user_collected_properties) .at("plain_table_hash_table_size")); ASSERT_EQ("0", (tp->user_collected_properties) .at("plain_table_sub_index_size")); } ASSERT_EQ("v3", Get("1000000000000foo")); ASSERT_EQ("v2", Get("0000000000000bar")); } } } } } } TEST_P(PlainTableDBTest, Flush2) { for (size_t huge_page_tlb_size = 0; huge_page_tlb_size <= 2 * 1024 * 1024; huge_page_tlb_size += 2 * 1024 * 1024) { for (EncodingType encoding_type : {kPlain, kPrefix}) { for (int bloom_bits = 0; bloom_bits <= 117; bloom_bits += 117) { for (int total_order = 0; total_order <= 1; total_order++) { for (int store_index_in_file = 0; store_index_in_file <= 1; ++store_index_in_file) { if (encoding_type == kPrefix && total_order) { continue; } if (!bloom_bits && store_index_in_file) { continue; } if (total_order && store_index_in_file) { continue; } bool expect_bloom_not_match = false; Options options = CurrentOptions(); options.create_if_missing = true; // Set only one bucket to force bucket conflict. // Test index interval for the same prefix to be 1, 2 and 4 PlainTableOptions plain_table_options; if (total_order) { options.prefix_extractor = nullptr; plain_table_options.hash_table_ratio = 0; plain_table_options.index_sparseness = 2; } else { plain_table_options.hash_table_ratio = 0.75; plain_table_options.index_sparseness = 16; } plain_table_options.user_key_len = kPlainTableVariableLength; plain_table_options.bloom_bits_per_key = bloom_bits; plain_table_options.huge_page_tlb_size = huge_page_tlb_size; plain_table_options.encoding_type = encoding_type; plain_table_options.store_index_in_file = store_index_in_file; options.table_factory.reset(new TestPlainTableFactory( &expect_bloom_not_match, plain_table_options, 0 /* column_family_id */, kDefaultColumnFamilyName)); DestroyAndReopen(&options); ASSERT_OK(Put("0000000000000bar", "b")); ASSERT_OK(Put("1000000000000foo", "v1")); dbfull()->TEST_FlushMemTable(); ASSERT_OK(Put("1000000000000foo", "v2")); dbfull()->TEST_FlushMemTable(); ASSERT_EQ("v2", Get("1000000000000foo")); ASSERT_OK(Put("0000000000000eee", "v3")); dbfull()->TEST_FlushMemTable(); ASSERT_EQ("v3", Get("0000000000000eee")); ASSERT_OK(Delete("0000000000000bar")); dbfull()->TEST_FlushMemTable(); ASSERT_EQ("NOT_FOUND", Get("0000000000000bar")); ASSERT_OK(Put("0000000000000eee", "v5")); ASSERT_OK(Put("9000000000000eee", "v5")); dbfull()->TEST_FlushMemTable(); ASSERT_EQ("v5", Get("0000000000000eee")); // Test Bloom Filter if (bloom_bits > 0) { // Neither key nor value should exist. expect_bloom_not_match = true; ASSERT_EQ("NOT_FOUND", Get("5_not00000000bar")); // Key doesn't exist any more but prefix exists. if (total_order) { ASSERT_EQ("NOT_FOUND", Get("1000000000000not")); ASSERT_EQ("NOT_FOUND", Get("0000000000000not")); } expect_bloom_not_match = false; } } } } } } } TEST_P(PlainTableDBTest, Iterator) { for (size_t huge_page_tlb_size = 0; huge_page_tlb_size <= 2 * 1024 * 1024; huge_page_tlb_size += 2 * 1024 * 1024) { for (EncodingType encoding_type : {kPlain, kPrefix}) { for (int bloom_bits = 0; bloom_bits <= 117; bloom_bits += 117) { for (int total_order = 0; total_order <= 1; total_order++) { if (encoding_type == kPrefix && total_order == 1) { continue; } bool expect_bloom_not_match = false; Options options = CurrentOptions(); options.create_if_missing = true; // Set only one bucket to force bucket conflict. // Test index interval for the same prefix to be 1, 2 and 4 if (total_order) { options.prefix_extractor = nullptr; PlainTableOptions plain_table_options; plain_table_options.user_key_len = 16; plain_table_options.bloom_bits_per_key = bloom_bits; plain_table_options.hash_table_ratio = 0; plain_table_options.index_sparseness = 2; plain_table_options.huge_page_tlb_size = huge_page_tlb_size; plain_table_options.encoding_type = encoding_type; options.table_factory.reset(new TestPlainTableFactory( &expect_bloom_not_match, plain_table_options, 0 /* column_family_id */, kDefaultColumnFamilyName)); } else { PlainTableOptions plain_table_options; plain_table_options.user_key_len = 16; plain_table_options.bloom_bits_per_key = bloom_bits; plain_table_options.hash_table_ratio = 0.75; plain_table_options.index_sparseness = 16; plain_table_options.huge_page_tlb_size = huge_page_tlb_size; plain_table_options.encoding_type = encoding_type; options.table_factory.reset(new TestPlainTableFactory( &expect_bloom_not_match, plain_table_options, 0 /* column_family_id */, kDefaultColumnFamilyName)); } DestroyAndReopen(&options); ASSERT_OK(Put("1000000000foo002", "v_2")); ASSERT_OK(Put("0000000000000bar", "random")); ASSERT_OK(Put("1000000000foo001", "v1")); ASSERT_OK(Put("3000000000000bar", "bar_v")); ASSERT_OK(Put("1000000000foo003", "v__3")); ASSERT_OK(Put("1000000000foo004", "v__4")); ASSERT_OK(Put("1000000000foo005", "v__5")); ASSERT_OK(Put("1000000000foo007", "v__7")); ASSERT_OK(Put("1000000000foo008", "v__8")); dbfull()->TEST_FlushMemTable(); ASSERT_EQ("v1", Get("1000000000foo001")); ASSERT_EQ("v__3", Get("1000000000foo003")); Iterator* iter = dbfull()->NewIterator(ReadOptions()); iter->Seek("1000000000foo000"); ASSERT_TRUE(iter->Valid()); ASSERT_EQ("1000000000foo001", iter->key().ToString()); ASSERT_EQ("v1", iter->value().ToString()); iter->Next(); ASSERT_TRUE(iter->Valid()); ASSERT_EQ("1000000000foo002", iter->key().ToString()); ASSERT_EQ("v_2", iter->value().ToString()); iter->Next(); ASSERT_TRUE(iter->Valid()); ASSERT_EQ("1000000000foo003", iter->key().ToString()); ASSERT_EQ("v__3", iter->value().ToString()); iter->Next(); ASSERT_TRUE(iter->Valid()); ASSERT_EQ("1000000000foo004", iter->key().ToString()); ASSERT_EQ("v__4", iter->value().ToString()); iter->Seek("3000000000000bar"); ASSERT_TRUE(iter->Valid()); ASSERT_EQ("3000000000000bar", iter->key().ToString()); ASSERT_EQ("bar_v", iter->value().ToString()); iter->Seek("1000000000foo000"); ASSERT_TRUE(iter->Valid()); ASSERT_EQ("1000000000foo001", iter->key().ToString()); ASSERT_EQ("v1", iter->value().ToString()); iter->Seek("1000000000foo005"); ASSERT_TRUE(iter->Valid()); ASSERT_EQ("1000000000foo005", iter->key().ToString()); ASSERT_EQ("v__5", iter->value().ToString()); iter->Seek("1000000000foo006"); ASSERT_TRUE(iter->Valid()); ASSERT_EQ("1000000000foo007", iter->key().ToString()); ASSERT_EQ("v__7", iter->value().ToString()); iter->Seek("1000000000foo008"); ASSERT_TRUE(iter->Valid()); ASSERT_EQ("1000000000foo008", iter->key().ToString()); ASSERT_EQ("v__8", iter->value().ToString()); if (total_order == 0) { iter->Seek("1000000000foo009"); ASSERT_TRUE(iter->Valid()); ASSERT_EQ("3000000000000bar", iter->key().ToString()); } // Test Bloom Filter if (bloom_bits > 0) { if (!total_order) { // Neither key nor value should exist. expect_bloom_not_match = true; iter->Seek("2not000000000bar"); ASSERT_TRUE(!iter->Valid()); ASSERT_EQ("NOT_FOUND", Get("2not000000000bar")); expect_bloom_not_match = false; } else { expect_bloom_not_match = true; ASSERT_EQ("NOT_FOUND", Get("2not000000000bar")); expect_bloom_not_match = false; } } delete iter; } } } } } namespace { std::string MakeLongKey(size_t length, char c) { return std::string(length, c); } } // namespace TEST_P(PlainTableDBTest, IteratorLargeKeys) { Options options = CurrentOptions(); PlainTableOptions plain_table_options; plain_table_options.user_key_len = 0; plain_table_options.bloom_bits_per_key = 0; plain_table_options.hash_table_ratio = 0; options.table_factory.reset(NewPlainTableFactory(plain_table_options)); options.create_if_missing = true; options.prefix_extractor.reset(); DestroyAndReopen(&options); std::string key_list[] = { MakeLongKey(30, '0'), MakeLongKey(16, '1'), MakeLongKey(32, '2'), MakeLongKey(60, '3'), MakeLongKey(90, '4'), MakeLongKey(50, '5'), MakeLongKey(26, '6') }; for (size_t i = 0; i < 7; i++) { ASSERT_OK(Put(key_list[i], ToString(i))); } dbfull()->TEST_FlushMemTable(); Iterator* iter = dbfull()->NewIterator(ReadOptions()); iter->Seek(key_list[0]); for (size_t i = 0; i < 7; i++) { ASSERT_TRUE(iter->Valid()); ASSERT_EQ(key_list[i], iter->key().ToString()); ASSERT_EQ(ToString(i), iter->value().ToString()); iter->Next(); } ASSERT_TRUE(!iter->Valid()); delete iter; } namespace { std::string MakeLongKeyWithPrefix(size_t length, char c) { return "00000000" + std::string(length - 8, c); } } // namespace TEST_P(PlainTableDBTest, IteratorLargeKeysWithPrefix) { Options options = CurrentOptions(); PlainTableOptions plain_table_options; plain_table_options.user_key_len = 16; plain_table_options.bloom_bits_per_key = 0; plain_table_options.hash_table_ratio = 0.8; plain_table_options.index_sparseness = 3; plain_table_options.huge_page_tlb_size = 0; plain_table_options.encoding_type = kPrefix; options.table_factory.reset(NewPlainTableFactory(plain_table_options)); options.create_if_missing = true; DestroyAndReopen(&options); std::string key_list[] = { MakeLongKeyWithPrefix(30, '0'), MakeLongKeyWithPrefix(16, '1'), MakeLongKeyWithPrefix(32, '2'), MakeLongKeyWithPrefix(60, '3'), MakeLongKeyWithPrefix(90, '4'), MakeLongKeyWithPrefix(50, '5'), MakeLongKeyWithPrefix(26, '6')}; for (size_t i = 0; i < 7; i++) { ASSERT_OK(Put(key_list[i], ToString(i))); } dbfull()->TEST_FlushMemTable(); Iterator* iter = dbfull()->NewIterator(ReadOptions()); iter->Seek(key_list[0]); for (size_t i = 0; i < 7; i++) { ASSERT_TRUE(iter->Valid()); ASSERT_EQ(key_list[i], iter->key().ToString()); ASSERT_EQ(ToString(i), iter->value().ToString()); iter->Next(); } ASSERT_TRUE(!iter->Valid()); delete iter; } TEST_P(PlainTableDBTest, IteratorReverseSuffixComparator) { Options options = CurrentOptions(); options.create_if_missing = true; // Set only one bucket to force bucket conflict. // Test index interval for the same prefix to be 1, 2 and 4 test::SimpleSuffixReverseComparator comp; options.comparator = ∁ DestroyAndReopen(&options); ASSERT_OK(Put("1000000000foo002", "v_2")); ASSERT_OK(Put("0000000000000bar", "random")); ASSERT_OK(Put("1000000000foo001", "v1")); ASSERT_OK(Put("3000000000000bar", "bar_v")); ASSERT_OK(Put("1000000000foo003", "v__3")); ASSERT_OK(Put("1000000000foo004", "v__4")); ASSERT_OK(Put("1000000000foo005", "v__5")); ASSERT_OK(Put("1000000000foo007", "v__7")); ASSERT_OK(Put("1000000000foo008", "v__8")); dbfull()->TEST_FlushMemTable(); ASSERT_EQ("v1", Get("1000000000foo001")); ASSERT_EQ("v__3", Get("1000000000foo003")); Iterator* iter = dbfull()->NewIterator(ReadOptions()); iter->Seek("1000000000foo009"); ASSERT_TRUE(iter->Valid()); ASSERT_EQ("1000000000foo008", iter->key().ToString()); ASSERT_EQ("v__8", iter->value().ToString()); iter->Next(); ASSERT_TRUE(iter->Valid()); ASSERT_EQ("1000000000foo007", iter->key().ToString()); ASSERT_EQ("v__7", iter->value().ToString()); iter->Next(); ASSERT_TRUE(iter->Valid()); ASSERT_EQ("1000000000foo005", iter->key().ToString()); ASSERT_EQ("v__5", iter->value().ToString()); iter->Next(); ASSERT_TRUE(iter->Valid()); ASSERT_EQ("1000000000foo004", iter->key().ToString()); ASSERT_EQ("v__4", iter->value().ToString()); iter->Seek("3000000000000bar"); ASSERT_TRUE(iter->Valid()); ASSERT_EQ("3000000000000bar", iter->key().ToString()); ASSERT_EQ("bar_v", iter->value().ToString()); iter->Seek("1000000000foo005"); ASSERT_TRUE(iter->Valid()); ASSERT_EQ("1000000000foo005", iter->key().ToString()); ASSERT_EQ("v__5", iter->value().ToString()); iter->Seek("1000000000foo006"); ASSERT_TRUE(iter->Valid()); ASSERT_EQ("1000000000foo005", iter->key().ToString()); ASSERT_EQ("v__5", iter->value().ToString()); iter->Seek("1000000000foo008"); ASSERT_TRUE(iter->Valid()); ASSERT_EQ("1000000000foo008", iter->key().ToString()); ASSERT_EQ("v__8", iter->value().ToString()); iter->Seek("1000000000foo000"); ASSERT_TRUE(iter->Valid()); ASSERT_EQ("3000000000000bar", iter->key().ToString()); delete iter; } TEST_P(PlainTableDBTest, HashBucketConflict) { for (size_t huge_page_tlb_size = 0; huge_page_tlb_size <= 2 * 1024 * 1024; huge_page_tlb_size += 2 * 1024 * 1024) { for (unsigned char i = 1; i <= 3; i++) { Options options = CurrentOptions(); options.create_if_missing = true; // Set only one bucket to force bucket conflict. // Test index interval for the same prefix to be 1, 2 and 4 PlainTableOptions plain_table_options; plain_table_options.user_key_len = 16; plain_table_options.bloom_bits_per_key = 0; plain_table_options.hash_table_ratio = 0; plain_table_options.index_sparseness = 2 ^ i; plain_table_options.huge_page_tlb_size = huge_page_tlb_size; options.table_factory.reset(NewPlainTableFactory(plain_table_options)); DestroyAndReopen(&options); ASSERT_OK(Put("5000000000000fo0", "v1")); ASSERT_OK(Put("5000000000000fo1", "v2")); ASSERT_OK(Put("5000000000000fo2", "v")); ASSERT_OK(Put("2000000000000fo0", "v3")); ASSERT_OK(Put("2000000000000fo1", "v4")); ASSERT_OK(Put("2000000000000fo2", "v")); ASSERT_OK(Put("2000000000000fo3", "v")); dbfull()->TEST_FlushMemTable(); ASSERT_EQ("v1", Get("5000000000000fo0")); ASSERT_EQ("v2", Get("5000000000000fo1")); ASSERT_EQ("v3", Get("2000000000000fo0")); ASSERT_EQ("v4", Get("2000000000000fo1")); ASSERT_EQ("NOT_FOUND", Get("5000000000000bar")); ASSERT_EQ("NOT_FOUND", Get("2000000000000bar")); ASSERT_EQ("NOT_FOUND", Get("5000000000000fo8")); ASSERT_EQ("NOT_FOUND", Get("2000000000000fo8")); ReadOptions ro; Iterator* iter = dbfull()->NewIterator(ro); iter->Seek("5000000000000fo0"); ASSERT_TRUE(iter->Valid()); ASSERT_EQ("5000000000000fo0", iter->key().ToString()); iter->Next(); ASSERT_TRUE(iter->Valid()); ASSERT_EQ("5000000000000fo1", iter->key().ToString()); iter->Seek("5000000000000fo1"); ASSERT_TRUE(iter->Valid()); ASSERT_EQ("5000000000000fo1", iter->key().ToString()); iter->Seek("2000000000000fo0"); ASSERT_TRUE(iter->Valid()); ASSERT_EQ("2000000000000fo0", iter->key().ToString()); iter->Next(); ASSERT_TRUE(iter->Valid()); ASSERT_EQ("2000000000000fo1", iter->key().ToString()); iter->Seek("2000000000000fo1"); ASSERT_TRUE(iter->Valid()); ASSERT_EQ("2000000000000fo1", iter->key().ToString()); iter->Seek("2000000000000bar"); ASSERT_TRUE(iter->Valid()); ASSERT_EQ("2000000000000fo0", iter->key().ToString()); iter->Seek("5000000000000bar"); ASSERT_TRUE(iter->Valid()); ASSERT_EQ("5000000000000fo0", iter->key().ToString()); iter->Seek("2000000000000fo8"); ASSERT_TRUE(!iter->Valid() || options.comparator->Compare(iter->key(), "20000001") > 0); iter->Seek("5000000000000fo8"); ASSERT_TRUE(!iter->Valid()); iter->Seek("1000000000000fo2"); ASSERT_TRUE(!iter->Valid()); iter->Seek("3000000000000fo2"); ASSERT_TRUE(!iter->Valid()); iter->Seek("8000000000000fo2"); ASSERT_TRUE(!iter->Valid()); delete iter; } } } TEST_P(PlainTableDBTest, HashBucketConflictReverseSuffixComparator) { for (size_t huge_page_tlb_size = 0; huge_page_tlb_size <= 2 * 1024 * 1024; huge_page_tlb_size += 2 * 1024 * 1024) { for (unsigned char i = 1; i <= 3; i++) { Options options = CurrentOptions(); options.create_if_missing = true; test::SimpleSuffixReverseComparator comp; options.comparator = ∁ // Set only one bucket to force bucket conflict. // Test index interval for the same prefix to be 1, 2 and 4 PlainTableOptions plain_table_options; plain_table_options.user_key_len = 16; plain_table_options.bloom_bits_per_key = 0; plain_table_options.hash_table_ratio = 0; plain_table_options.index_sparseness = 2 ^ i; plain_table_options.huge_page_tlb_size = huge_page_tlb_size; options.table_factory.reset(NewPlainTableFactory(plain_table_options)); DestroyAndReopen(&options); ASSERT_OK(Put("5000000000000fo0", "v1")); ASSERT_OK(Put("5000000000000fo1", "v2")); ASSERT_OK(Put("5000000000000fo2", "v")); ASSERT_OK(Put("2000000000000fo0", "v3")); ASSERT_OK(Put("2000000000000fo1", "v4")); ASSERT_OK(Put("2000000000000fo2", "v")); ASSERT_OK(Put("2000000000000fo3", "v")); dbfull()->TEST_FlushMemTable(); ASSERT_EQ("v1", Get("5000000000000fo0")); ASSERT_EQ("v2", Get("5000000000000fo1")); ASSERT_EQ("v3", Get("2000000000000fo0")); ASSERT_EQ("v4", Get("2000000000000fo1")); ASSERT_EQ("NOT_FOUND", Get("5000000000000bar")); ASSERT_EQ("NOT_FOUND", Get("2000000000000bar")); ASSERT_EQ("NOT_FOUND", Get("5000000000000fo8")); ASSERT_EQ("NOT_FOUND", Get("2000000000000fo8")); ReadOptions ro; Iterator* iter = dbfull()->NewIterator(ro); iter->Seek("5000000000000fo1"); ASSERT_TRUE(iter->Valid()); ASSERT_EQ("5000000000000fo1", iter->key().ToString()); iter->Next(); ASSERT_TRUE(iter->Valid()); ASSERT_EQ("5000000000000fo0", iter->key().ToString()); iter->Seek("5000000000000fo1"); ASSERT_TRUE(iter->Valid()); ASSERT_EQ("5000000000000fo1", iter->key().ToString()); iter->Seek("2000000000000fo1"); ASSERT_TRUE(iter->Valid()); ASSERT_EQ("2000000000000fo1", iter->key().ToString()); iter->Next(); ASSERT_TRUE(iter->Valid()); ASSERT_EQ("2000000000000fo0", iter->key().ToString()); iter->Seek("2000000000000fo1"); ASSERT_TRUE(iter->Valid()); ASSERT_EQ("2000000000000fo1", iter->key().ToString()); iter->Seek("2000000000000var"); ASSERT_TRUE(iter->Valid()); ASSERT_EQ("2000000000000fo3", iter->key().ToString()); iter->Seek("5000000000000var"); ASSERT_TRUE(iter->Valid()); ASSERT_EQ("5000000000000fo2", iter->key().ToString()); std::string seek_key = "2000000000000bar"; iter->Seek(seek_key); ASSERT_TRUE(!iter->Valid() || options.prefix_extractor->Transform(iter->key()) != options.prefix_extractor->Transform(seek_key)); iter->Seek("1000000000000fo2"); ASSERT_TRUE(!iter->Valid()); iter->Seek("3000000000000fo2"); ASSERT_TRUE(!iter->Valid()); iter->Seek("8000000000000fo2"); ASSERT_TRUE(!iter->Valid()); delete iter; } } } TEST_P(PlainTableDBTest, NonExistingKeyToNonEmptyBucket) { Options options = CurrentOptions(); options.create_if_missing = true; // Set only one bucket to force bucket conflict. // Test index interval for the same prefix to be 1, 2 and 4 PlainTableOptions plain_table_options; plain_table_options.user_key_len = 16; plain_table_options.bloom_bits_per_key = 0; plain_table_options.hash_table_ratio = 0; plain_table_options.index_sparseness = 5; options.table_factory.reset(NewPlainTableFactory(plain_table_options)); DestroyAndReopen(&options); ASSERT_OK(Put("5000000000000fo0", "v1")); ASSERT_OK(Put("5000000000000fo1", "v2")); ASSERT_OK(Put("5000000000000fo2", "v3")); dbfull()->TEST_FlushMemTable(); ASSERT_EQ("v1", Get("5000000000000fo0")); ASSERT_EQ("v2", Get("5000000000000fo1")); ASSERT_EQ("v3", Get("5000000000000fo2")); ASSERT_EQ("NOT_FOUND", Get("8000000000000bar")); ASSERT_EQ("NOT_FOUND", Get("1000000000000bar")); Iterator* iter = dbfull()->NewIterator(ReadOptions()); iter->Seek("5000000000000bar"); ASSERT_TRUE(iter->Valid()); ASSERT_EQ("5000000000000fo0", iter->key().ToString()); iter->Seek("5000000000000fo8"); ASSERT_TRUE(!iter->Valid()); iter->Seek("1000000000000fo2"); ASSERT_TRUE(!iter->Valid()); iter->Seek("8000000000000fo2"); ASSERT_TRUE(!iter->Valid()); delete iter; } static std::string Key(int i) { char buf[100]; snprintf(buf, sizeof(buf), "key_______%06d", i); return std::string(buf); } static std::string RandomString(Random* rnd, int len) { std::string r; test::RandomString(rnd, len, &r); return r; } TEST_P(PlainTableDBTest, CompactionTrigger) { Options options = CurrentOptions(); options.write_buffer_size = 120 << 10; // 100KB options.num_levels = 3; options.level0_file_num_compaction_trigger = 3; Reopen(&options); Random rnd(301); for (int num = 0; num < options.level0_file_num_compaction_trigger - 1; num++) { std::vector values; // Write 120KB (10 values, each 12K) for (int i = 0; i < 10; i++) { values.push_back(RandomString(&rnd, 12000)); ASSERT_OK(Put(Key(i), values[i])); } ASSERT_OK(Put(Key(999), "")); dbfull()->TEST_WaitForFlushMemTable(); ASSERT_EQ(NumTableFilesAtLevel(0), num + 1); } //generate one more file in level-0, and should trigger level-0 compaction std::vector values; for (int i = 0; i < 12; i++) { values.push_back(RandomString(&rnd, 10000)); ASSERT_OK(Put(Key(i), values[i])); } ASSERT_OK(Put(Key(999), "")); dbfull()->TEST_WaitForCompact(); ASSERT_EQ(NumTableFilesAtLevel(0), 0); ASSERT_EQ(NumTableFilesAtLevel(1), 1); } TEST_P(PlainTableDBTest, AdaptiveTable) { Options options = CurrentOptions(); options.create_if_missing = true; options.table_factory.reset(NewPlainTableFactory()); DestroyAndReopen(&options); ASSERT_OK(Put("1000000000000foo", "v1")); ASSERT_OK(Put("0000000000000bar", "v2")); ASSERT_OK(Put("1000000000000foo", "v3")); dbfull()->TEST_FlushMemTable(); options.create_if_missing = false; std::shared_ptr dummy_factory; std::shared_ptr block_based_factory( NewBlockBasedTableFactory()); options.table_factory.reset(NewAdaptiveTableFactory( block_based_factory, dummy_factory, dummy_factory)); Reopen(&options); ASSERT_EQ("v3", Get("1000000000000foo")); ASSERT_EQ("v2", Get("0000000000000bar")); ASSERT_OK(Put("2000000000000foo", "v4")); ASSERT_OK(Put("3000000000000bar", "v5")); dbfull()->TEST_FlushMemTable(); ASSERT_EQ("v4", Get("2000000000000foo")); ASSERT_EQ("v5", Get("3000000000000bar")); Reopen(&options); ASSERT_EQ("v3", Get("1000000000000foo")); ASSERT_EQ("v2", Get("0000000000000bar")); ASSERT_EQ("v4", Get("2000000000000foo")); ASSERT_EQ("v5", Get("3000000000000bar")); options.table_factory.reset(NewBlockBasedTableFactory()); Reopen(&options); ASSERT_NE("v3", Get("1000000000000foo")); options.table_factory.reset(NewPlainTableFactory()); Reopen(&options); ASSERT_NE("v5", Get("3000000000000bar")); } INSTANTIATE_TEST_CASE_P(PlainTableDBTest, PlainTableDBTest, ::testing::Bool()); } // namespace rocksdb int main(int argc, char** argv) { ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } #else #include int main(int /*argc*/, char** /*argv*/) { fprintf(stderr, "SKIPPED as plain table is not supported in ROCKSDB_LITE\n"); return 0; } #endif // !ROCKSDB_LITE rocksdb-5.17.2/db/pre_release_callback.h000066400000000000000000000023521337235545400201120ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #include "rocksdb/status.h" namespace rocksdb { class DB; class PreReleaseCallback { public: virtual ~PreReleaseCallback() {} // Will be called while on the write thread after the write and before the // release of the sequence number. This is useful if any operation needs to be // done before the write gets visible to the readers, or if we want to reduce // the overhead of locking by updating something sequentially while we are on // the write thread. If the callback fails, this function returns a non-OK // status, the sequence number will not be released, and same status will be // propagated to all the writers in the write group. // seq is the sequence number that is used for this write and will be // released. // is_mem_disabled is currently used for debugging purposes to assert that // the callback is done from the right write queue. virtual Status Callback(SequenceNumber seq, bool is_mem_disabled) = 0; }; } // namespace rocksdb rocksdb-5.17.2/db/prefix_test.cc000066400000000000000000000724341337235545400165120ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #ifndef ROCKSDB_LITE #ifndef GFLAGS #include int main() { fprintf(stderr, "Please install gflags to run this test... Skipping...\n"); return 0; } #else #include #include #include #include "db/db_impl.h" #include "monitoring/histogram.h" #include "rocksdb/comparator.h" #include "rocksdb/db.h" #include "rocksdb/filter_policy.h" #include "rocksdb/memtablerep.h" #include "rocksdb/perf_context.h" #include "rocksdb/slice_transform.h" #include "rocksdb/table.h" #include "util/coding.h" #include "util/gflags_compat.h" #include "util/random.h" #include "util/stop_watch.h" #include "util/string_util.h" #include "util/testharness.h" #include "utilities/merge_operators.h" using GFLAGS_NAMESPACE::ParseCommandLineFlags; DEFINE_bool(trigger_deadlock, false, "issue delete in range scan to trigger PrefixHashMap deadlock"); DEFINE_int32(bucket_count, 100000, "number of buckets"); DEFINE_uint64(num_locks, 10001, "number of locks"); DEFINE_bool(random_prefix, false, "randomize prefix"); DEFINE_uint64(total_prefixes, 100000, "total number of prefixes"); DEFINE_uint64(items_per_prefix, 1, "total number of values per prefix"); DEFINE_int64(write_buffer_size, 33554432, ""); DEFINE_int32(max_write_buffer_number, 2, ""); DEFINE_int32(min_write_buffer_number_to_merge, 1, ""); DEFINE_int32(skiplist_height, 4, ""); DEFINE_double(memtable_prefix_bloom_size_ratio, 0.1, ""); DEFINE_int32(memtable_huge_page_size, 2 * 1024 * 1024, ""); DEFINE_int32(value_size, 40, ""); DEFINE_bool(enable_print, false, "Print options generated to console."); // Path to the database on file system const std::string kDbName = rocksdb::test::PerThreadDBPath("prefix_test"); namespace rocksdb { struct TestKey { uint64_t prefix; uint64_t sorted; TestKey(uint64_t _prefix, uint64_t _sorted) : prefix(_prefix), sorted(_sorted) {} }; // return a slice backed by test_key inline Slice TestKeyToSlice(std::string &s, const TestKey& test_key) { s.clear(); PutFixed64(&s, test_key.prefix); PutFixed64(&s, test_key.sorted); return Slice(s.c_str(), s.size()); } inline const TestKey SliceToTestKey(const Slice& slice) { return TestKey(DecodeFixed64(slice.data()), DecodeFixed64(slice.data() + 8)); } class TestKeyComparator : public Comparator { public: // Compare needs to be aware of the possibility of a and/or b is // prefix only virtual int Compare(const Slice& a, const Slice& b) const override { const TestKey kkey_a = SliceToTestKey(a); const TestKey kkey_b = SliceToTestKey(b); const TestKey *key_a = &kkey_a; const TestKey *key_b = &kkey_b; if (key_a->prefix != key_b->prefix) { if (key_a->prefix < key_b->prefix) return -1; if (key_a->prefix > key_b->prefix) return 1; } else { EXPECT_TRUE(key_a->prefix == key_b->prefix); // note, both a and b could be prefix only if (a.size() != b.size()) { // one of them is prefix EXPECT_TRUE( (a.size() == sizeof(uint64_t) && b.size() == sizeof(TestKey)) || (b.size() == sizeof(uint64_t) && a.size() == sizeof(TestKey))); if (a.size() < b.size()) return -1; if (a.size() > b.size()) return 1; } else { // both a and b are prefix if (a.size() == sizeof(uint64_t)) { return 0; } // both a and b are whole key EXPECT_TRUE(a.size() == sizeof(TestKey) && b.size() == sizeof(TestKey)); if (key_a->sorted < key_b->sorted) return -1; if (key_a->sorted > key_b->sorted) return 1; if (key_a->sorted == key_b->sorted) return 0; } } return 0; } bool operator()(const TestKey& a, const TestKey& b) const { std::string sa, sb; return Compare(TestKeyToSlice(sa, a), TestKeyToSlice(sb, b)) < 0; } virtual const char* Name() const override { return "TestKeyComparator"; } virtual void FindShortestSeparator(std::string* /*start*/, const Slice& /*limit*/) const override {} virtual void FindShortSuccessor(std::string* /*key*/) const override {} }; namespace { void PutKey(DB* db, WriteOptions write_options, uint64_t prefix, uint64_t suffix, const Slice& value) { TestKey test_key(prefix, suffix); std::string s; Slice key = TestKeyToSlice(s, test_key); ASSERT_OK(db->Put(write_options, key, value)); } void PutKey(DB* db, WriteOptions write_options, const TestKey& test_key, const Slice& value) { std::string s; Slice key = TestKeyToSlice(s, test_key); ASSERT_OK(db->Put(write_options, key, value)); } void MergeKey(DB* db, WriteOptions write_options, const TestKey& test_key, const Slice& value) { std::string s; Slice key = TestKeyToSlice(s, test_key); ASSERT_OK(db->Merge(write_options, key, value)); } void DeleteKey(DB* db, WriteOptions write_options, const TestKey& test_key) { std::string s; Slice key = TestKeyToSlice(s, test_key); ASSERT_OK(db->Delete(write_options, key)); } void SeekIterator(Iterator* iter, uint64_t prefix, uint64_t suffix) { TestKey test_key(prefix, suffix); std::string s; Slice key = TestKeyToSlice(s, test_key); iter->Seek(key); } const std::string kNotFoundResult = "NOT_FOUND"; std::string Get(DB* db, const ReadOptions& read_options, uint64_t prefix, uint64_t suffix) { TestKey test_key(prefix, suffix); std::string s2; Slice key = TestKeyToSlice(s2, test_key); std::string result; Status s = db->Get(read_options, key, &result); if (s.IsNotFound()) { result = kNotFoundResult; } else if (!s.ok()) { result = s.ToString(); } return result; } class SamePrefixTransform : public SliceTransform { private: const Slice prefix_; std::string name_; public: explicit SamePrefixTransform(const Slice& prefix) : prefix_(prefix), name_("rocksdb.SamePrefix." + prefix.ToString()) {} virtual const char* Name() const override { return name_.c_str(); } virtual Slice Transform(const Slice& src) const override { assert(InDomain(src)); return prefix_; } virtual bool InDomain(const Slice& src) const override { if (src.size() >= prefix_.size()) { return Slice(src.data(), prefix_.size()) == prefix_; } return false; } virtual bool InRange(const Slice& dst) const override { return dst == prefix_; } virtual bool FullLengthEnabled(size_t* /*len*/) const override { return false; } }; } // namespace class PrefixTest : public testing::Test { public: std::shared_ptr OpenDb() { DB* db; options.create_if_missing = true; options.write_buffer_size = FLAGS_write_buffer_size; options.max_write_buffer_number = FLAGS_max_write_buffer_number; options.min_write_buffer_number_to_merge = FLAGS_min_write_buffer_number_to_merge; options.memtable_prefix_bloom_size_ratio = FLAGS_memtable_prefix_bloom_size_ratio; options.memtable_huge_page_size = FLAGS_memtable_huge_page_size; options.prefix_extractor.reset(NewFixedPrefixTransform(8)); BlockBasedTableOptions bbto; bbto.filter_policy.reset(NewBloomFilterPolicy(10, false)); bbto.whole_key_filtering = false; options.table_factory.reset(NewBlockBasedTableFactory(bbto)); options.allow_concurrent_memtable_write = false; Status s = DB::Open(options, kDbName, &db); EXPECT_OK(s); return std::shared_ptr(db); } void FirstOption() { option_config_ = kBegin; } bool NextOptions(int bucket_count) { // skip some options option_config_++; if (option_config_ < kEnd) { options.prefix_extractor.reset(NewFixedPrefixTransform(8)); switch(option_config_) { case kHashSkipList: options.memtable_factory.reset( NewHashSkipListRepFactory(bucket_count, FLAGS_skiplist_height)); return true; case kHashLinkList: options.memtable_factory.reset( NewHashLinkListRepFactory(bucket_count)); return true; case kHashLinkListHugePageTlb: options.memtable_factory.reset( NewHashLinkListRepFactory(bucket_count, 2 * 1024 * 1024)); return true; case kHashLinkListTriggerSkipList: options.memtable_factory.reset( NewHashLinkListRepFactory(bucket_count, 0, 3)); return true; default: return false; } } return false; } PrefixTest() : option_config_(kBegin) { options.comparator = new TestKeyComparator(); } ~PrefixTest() { delete options.comparator; } protected: enum OptionConfig { kBegin, kHashSkipList, kHashLinkList, kHashLinkListHugePageTlb, kHashLinkListTriggerSkipList, kEnd }; int option_config_; Options options; }; TEST(SamePrefixTest, InDomainTest) { DB* db; Options options; options.create_if_missing = true; options.prefix_extractor.reset(new SamePrefixTransform("HHKB")); BlockBasedTableOptions bbto; bbto.filter_policy.reset(NewBloomFilterPolicy(10, false)); bbto.whole_key_filtering = false; options.table_factory.reset(NewBlockBasedTableFactory(bbto)); WriteOptions write_options; ReadOptions read_options; { ASSERT_OK(DestroyDB(kDbName, Options())); ASSERT_OK(DB::Open(options, kDbName, &db)); ASSERT_OK(db->Put(write_options, "HHKB pro2", "Mar 24, 2006")); ASSERT_OK(db->Put(write_options, "HHKB pro2 Type-S", "June 29, 2011")); ASSERT_OK(db->Put(write_options, "Realforce 87u", "idk")); db->Flush(FlushOptions()); std::string result; auto db_iter = db->NewIterator(ReadOptions()); db_iter->Seek("Realforce 87u"); ASSERT_TRUE(db_iter->Valid()); ASSERT_OK(db_iter->status()); ASSERT_EQ(db_iter->key(), "Realforce 87u"); ASSERT_EQ(db_iter->value(), "idk"); delete db_iter; delete db; ASSERT_OK(DestroyDB(kDbName, Options())); } { ASSERT_OK(DB::Open(options, kDbName, &db)); ASSERT_OK(db->Put(write_options, "pikachu", "1")); ASSERT_OK(db->Put(write_options, "Meowth", "1")); ASSERT_OK(db->Put(write_options, "Mewtwo", "idk")); db->Flush(FlushOptions()); std::string result; auto db_iter = db->NewIterator(ReadOptions()); db_iter->Seek("Mewtwo"); ASSERT_TRUE(db_iter->Valid()); ASSERT_OK(db_iter->status()); delete db_iter; delete db; ASSERT_OK(DestroyDB(kDbName, Options())); } } TEST_F(PrefixTest, TestResult) { for (int num_buckets = 1; num_buckets <= 2; num_buckets++) { FirstOption(); while (NextOptions(num_buckets)) { std::cout << "*** Mem table: " << options.memtable_factory->Name() << " number of buckets: " << num_buckets << std::endl; DestroyDB(kDbName, Options()); auto db = OpenDb(); WriteOptions write_options; ReadOptions read_options; // 1. Insert one row. Slice v16("v16"); PutKey(db.get(), write_options, 1, 6, v16); std::unique_ptr iter(db->NewIterator(read_options)); SeekIterator(iter.get(), 1, 6); ASSERT_TRUE(iter->Valid()); ASSERT_TRUE(v16 == iter->value()); SeekIterator(iter.get(), 1, 5); ASSERT_TRUE(iter->Valid()); ASSERT_TRUE(v16 == iter->value()); SeekIterator(iter.get(), 1, 5); ASSERT_TRUE(iter->Valid()); ASSERT_TRUE(v16 == iter->value()); iter->Next(); ASSERT_TRUE(!iter->Valid()); SeekIterator(iter.get(), 2, 0); ASSERT_TRUE(!iter->Valid()); ASSERT_EQ(v16.ToString(), Get(db.get(), read_options, 1, 6)); ASSERT_EQ(kNotFoundResult, Get(db.get(), read_options, 1, 5)); ASSERT_EQ(kNotFoundResult, Get(db.get(), read_options, 1, 7)); ASSERT_EQ(kNotFoundResult, Get(db.get(), read_options, 0, 6)); ASSERT_EQ(kNotFoundResult, Get(db.get(), read_options, 2, 6)); // 2. Insert an entry for the same prefix as the last entry in the bucket. Slice v17("v17"); PutKey(db.get(), write_options, 1, 7, v17); iter.reset(db->NewIterator(read_options)); SeekIterator(iter.get(), 1, 7); ASSERT_TRUE(iter->Valid()); ASSERT_TRUE(v17 == iter->value()); SeekIterator(iter.get(), 1, 6); ASSERT_TRUE(iter->Valid()); ASSERT_TRUE(v16 == iter->value()); iter->Next(); ASSERT_TRUE(iter->Valid()); ASSERT_TRUE(v17 == iter->value()); iter->Next(); ASSERT_TRUE(!iter->Valid()); SeekIterator(iter.get(), 2, 0); ASSERT_TRUE(!iter->Valid()); // 3. Insert an entry for the same prefix as the head of the bucket. Slice v15("v15"); PutKey(db.get(), write_options, 1, 5, v15); iter.reset(db->NewIterator(read_options)); SeekIterator(iter.get(), 1, 7); ASSERT_TRUE(iter->Valid()); ASSERT_TRUE(v17 == iter->value()); SeekIterator(iter.get(), 1, 5); ASSERT_TRUE(iter->Valid()); ASSERT_TRUE(v15 == iter->value()); iter->Next(); ASSERT_TRUE(iter->Valid()); ASSERT_TRUE(v16 == iter->value()); iter->Next(); ASSERT_TRUE(iter->Valid()); ASSERT_TRUE(v17 == iter->value()); SeekIterator(iter.get(), 1, 5); ASSERT_TRUE(iter->Valid()); ASSERT_TRUE(v15 == iter->value()); ASSERT_EQ(v15.ToString(), Get(db.get(), read_options, 1, 5)); ASSERT_EQ(v16.ToString(), Get(db.get(), read_options, 1, 6)); ASSERT_EQ(v17.ToString(), Get(db.get(), read_options, 1, 7)); // 4. Insert an entry with a larger prefix Slice v22("v22"); PutKey(db.get(), write_options, 2, 2, v22); iter.reset(db->NewIterator(read_options)); SeekIterator(iter.get(), 2, 2); ASSERT_TRUE(iter->Valid()); ASSERT_TRUE(v22 == iter->value()); SeekIterator(iter.get(), 2, 0); ASSERT_TRUE(iter->Valid()); ASSERT_TRUE(v22 == iter->value()); SeekIterator(iter.get(), 1, 5); ASSERT_TRUE(iter->Valid()); ASSERT_TRUE(v15 == iter->value()); SeekIterator(iter.get(), 1, 7); ASSERT_TRUE(iter->Valid()); ASSERT_TRUE(v17 == iter->value()); // 5. Insert an entry with a smaller prefix Slice v02("v02"); PutKey(db.get(), write_options, 0, 2, v02); iter.reset(db->NewIterator(read_options)); SeekIterator(iter.get(), 0, 2); ASSERT_TRUE(iter->Valid()); ASSERT_TRUE(v02 == iter->value()); SeekIterator(iter.get(), 0, 0); ASSERT_TRUE(iter->Valid()); ASSERT_TRUE(v02 == iter->value()); SeekIterator(iter.get(), 2, 0); ASSERT_TRUE(iter->Valid()); ASSERT_TRUE(v22 == iter->value()); SeekIterator(iter.get(), 1, 5); ASSERT_TRUE(iter->Valid()); ASSERT_TRUE(v15 == iter->value()); SeekIterator(iter.get(), 1, 7); ASSERT_TRUE(iter->Valid()); ASSERT_TRUE(v17 == iter->value()); // 6. Insert to the beginning and the end of the first prefix Slice v13("v13"); Slice v18("v18"); PutKey(db.get(), write_options, 1, 3, v13); PutKey(db.get(), write_options, 1, 8, v18); iter.reset(db->NewIterator(read_options)); SeekIterator(iter.get(), 1, 7); ASSERT_TRUE(iter->Valid()); ASSERT_TRUE(v17 == iter->value()); SeekIterator(iter.get(), 1, 3); ASSERT_TRUE(iter->Valid()); ASSERT_TRUE(v13 == iter->value()); iter->Next(); ASSERT_TRUE(iter->Valid()); ASSERT_TRUE(v15 == iter->value()); iter->Next(); ASSERT_TRUE(iter->Valid()); ASSERT_TRUE(v16 == iter->value()); iter->Next(); ASSERT_TRUE(iter->Valid()); ASSERT_TRUE(v17 == iter->value()); iter->Next(); ASSERT_TRUE(iter->Valid()); ASSERT_TRUE(v18 == iter->value()); SeekIterator(iter.get(), 0, 0); ASSERT_TRUE(iter->Valid()); ASSERT_TRUE(v02 == iter->value()); SeekIterator(iter.get(), 2, 0); ASSERT_TRUE(iter->Valid()); ASSERT_TRUE(v22 == iter->value()); ASSERT_EQ(v22.ToString(), Get(db.get(), read_options, 2, 2)); ASSERT_EQ(v02.ToString(), Get(db.get(), read_options, 0, 2)); ASSERT_EQ(v13.ToString(), Get(db.get(), read_options, 1, 3)); ASSERT_EQ(v15.ToString(), Get(db.get(), read_options, 1, 5)); ASSERT_EQ(v16.ToString(), Get(db.get(), read_options, 1, 6)); ASSERT_EQ(v17.ToString(), Get(db.get(), read_options, 1, 7)); ASSERT_EQ(v18.ToString(), Get(db.get(), read_options, 1, 8)); } } } // Show results in prefix TEST_F(PrefixTest, PrefixValid) { for (int num_buckets = 1; num_buckets <= 2; num_buckets++) { FirstOption(); while (NextOptions(num_buckets)) { std::cout << "*** Mem table: " << options.memtable_factory->Name() << " number of buckets: " << num_buckets << std::endl; DestroyDB(kDbName, Options()); auto db = OpenDb(); WriteOptions write_options; ReadOptions read_options; // Insert keys with common prefix and one key with different Slice v16("v16"); Slice v17("v17"); Slice v18("v18"); Slice v19("v19"); PutKey(db.get(), write_options, 12345, 6, v16); PutKey(db.get(), write_options, 12345, 7, v17); PutKey(db.get(), write_options, 12345, 8, v18); PutKey(db.get(), write_options, 12345, 9, v19); PutKey(db.get(), write_options, 12346, 8, v16); db->Flush(FlushOptions()); TestKey test_key(12346, 8); std::string s; db->Delete(write_options, TestKeyToSlice(s, test_key)); db->Flush(FlushOptions()); read_options.prefix_same_as_start = true; std::unique_ptr iter(db->NewIterator(read_options)); SeekIterator(iter.get(), 12345, 6); ASSERT_TRUE(iter->Valid()); ASSERT_TRUE(v16 == iter->value()); iter->Next(); ASSERT_TRUE(iter->Valid()); ASSERT_TRUE(v17 == iter->value()); iter->Next(); ASSERT_TRUE(iter->Valid()); ASSERT_TRUE(v18 == iter->value()); iter->Next(); ASSERT_TRUE(iter->Valid()); ASSERT_TRUE(v19 == iter->value()); iter->Next(); ASSERT_FALSE(iter->Valid()); ASSERT_EQ(kNotFoundResult, Get(db.get(), read_options, 12346, 8)); // Verify seeking past the prefix won't return a result. SeekIterator(iter.get(), 12345, 10); ASSERT_TRUE(!iter->Valid()); } } } TEST_F(PrefixTest, DynamicPrefixIterator) { while (NextOptions(FLAGS_bucket_count)) { std::cout << "*** Mem table: " << options.memtable_factory->Name() << std::endl; DestroyDB(kDbName, Options()); auto db = OpenDb(); WriteOptions write_options; ReadOptions read_options; std::vector prefixes; for (uint64_t i = 0; i < FLAGS_total_prefixes; ++i) { prefixes.push_back(i); } if (FLAGS_random_prefix) { std::random_shuffle(prefixes.begin(), prefixes.end()); } HistogramImpl hist_put_time; HistogramImpl hist_put_comparison; // insert x random prefix, each with y continuous element. for (auto prefix : prefixes) { for (uint64_t sorted = 0; sorted < FLAGS_items_per_prefix; sorted++) { TestKey test_key(prefix, sorted); std::string s; Slice key = TestKeyToSlice(s, test_key); std::string value(FLAGS_value_size, 0); get_perf_context()->Reset(); StopWatchNano timer(Env::Default(), true); ASSERT_OK(db->Put(write_options, key, value)); hist_put_time.Add(timer.ElapsedNanos()); hist_put_comparison.Add(get_perf_context()->user_key_comparison_count); } } std::cout << "Put key comparison: \n" << hist_put_comparison.ToString() << "Put time: \n" << hist_put_time.ToString(); // test seek existing keys HistogramImpl hist_seek_time; HistogramImpl hist_seek_comparison; std::unique_ptr iter(db->NewIterator(read_options)); for (auto prefix : prefixes) { TestKey test_key(prefix, FLAGS_items_per_prefix / 2); std::string s; Slice key = TestKeyToSlice(s, test_key); std::string value = "v" + ToString(0); get_perf_context()->Reset(); StopWatchNano timer(Env::Default(), true); auto key_prefix = options.prefix_extractor->Transform(key); uint64_t total_keys = 0; for (iter->Seek(key); iter->Valid() && iter->key().starts_with(key_prefix); iter->Next()) { if (FLAGS_trigger_deadlock) { std::cout << "Behold the deadlock!\n"; db->Delete(write_options, iter->key()); } total_keys++; } hist_seek_time.Add(timer.ElapsedNanos()); hist_seek_comparison.Add(get_perf_context()->user_key_comparison_count); ASSERT_EQ(total_keys, FLAGS_items_per_prefix - FLAGS_items_per_prefix/2); } std::cout << "Seek key comparison: \n" << hist_seek_comparison.ToString() << "Seek time: \n" << hist_seek_time.ToString(); // test non-existing keys HistogramImpl hist_no_seek_time; HistogramImpl hist_no_seek_comparison; for (auto prefix = FLAGS_total_prefixes; prefix < FLAGS_total_prefixes + 10000; prefix++) { TestKey test_key(prefix, 0); std::string s; Slice key = TestKeyToSlice(s, test_key); get_perf_context()->Reset(); StopWatchNano timer(Env::Default(), true); iter->Seek(key); hist_no_seek_time.Add(timer.ElapsedNanos()); hist_no_seek_comparison.Add(get_perf_context()->user_key_comparison_count); ASSERT_TRUE(!iter->Valid()); } std::cout << "non-existing Seek key comparison: \n" << hist_no_seek_comparison.ToString() << "non-existing Seek time: \n" << hist_no_seek_time.ToString(); } } TEST_F(PrefixTest, PrefixSeekModePrev) { // Only for SkipListFactory options.memtable_factory.reset(new SkipListFactory); options.merge_operator = MergeOperators::CreatePutOperator(); options.write_buffer_size = 1024 * 1024; Random rnd(1); for (size_t m = 1; m < 100; m++) { std::cout << "[" + std::to_string(m) + "]" + "*** Mem table: " << options.memtable_factory->Name() << std::endl; DestroyDB(kDbName, Options()); auto db = OpenDb(); WriteOptions write_options; ReadOptions read_options; std::map entry_maps[3], whole_map; for (uint64_t i = 0; i < 10; i++) { int div = i % 3 + 1; for (uint64_t j = 0; j < 10; j++) { whole_map[TestKey(i, j)] = entry_maps[rnd.Uniform(div)][TestKey(i, j)] = 'v' + std::to_string(i) + std::to_string(j); } } std::map type_map; for (size_t i = 0; i < 3; i++) { for (auto& kv : entry_maps[i]) { if (rnd.OneIn(3)) { PutKey(db.get(), write_options, kv.first, kv.second); type_map[kv.first] = "value"; } else { MergeKey(db.get(), write_options, kv.first, kv.second); type_map[kv.first] = "merge"; } } if (i < 2) { db->Flush(FlushOptions()); } } for (size_t i = 0; i < 2; i++) { for (auto& kv : entry_maps[i]) { if (rnd.OneIn(10)) { whole_map.erase(kv.first); DeleteKey(db.get(), write_options, kv.first); entry_maps[2][kv.first] = "delete"; } } } if (FLAGS_enable_print) { for (size_t i = 0; i < 3; i++) { for (auto& kv : entry_maps[i]) { std::cout << "[" << i << "]" << kv.first.prefix << kv.first.sorted << " " << kv.second + " " + type_map[kv.first] << std::endl; } } } std::unique_ptr iter(db->NewIterator(read_options)); for (uint64_t prefix = 0; prefix < 10; prefix++) { uint64_t start_suffix = rnd.Uniform(9); SeekIterator(iter.get(), prefix, start_suffix); auto it = whole_map.find(TestKey(prefix, start_suffix)); if (it == whole_map.end()) { continue; } ASSERT_NE(it, whole_map.end()); ASSERT_TRUE(iter->Valid()); if (FLAGS_enable_print) { std::cout << "round " << prefix << " iter: " << SliceToTestKey(iter->key()).prefix << SliceToTestKey(iter->key()).sorted << " | map: " << it->first.prefix << it->first.sorted << " | " << iter->value().ToString() << " " << it->second << std::endl; } ASSERT_EQ(iter->value(), it->second); uint64_t stored_prefix = prefix; for (size_t k = 0; k < 9; k++) { if (rnd.OneIn(2) || it == whole_map.begin()) { iter->Next(); it++; if (FLAGS_enable_print) { std::cout << "Next >> "; } } else { iter->Prev(); it--; if (FLAGS_enable_print) { std::cout << "Prev >> "; } } if (!iter->Valid() || SliceToTestKey(iter->key()).prefix != stored_prefix) { break; } stored_prefix = SliceToTestKey(iter->key()).prefix; ASSERT_TRUE(iter->Valid()); ASSERT_NE(it, whole_map.end()); ASSERT_EQ(iter->value(), it->second); if (FLAGS_enable_print) { std::cout << "iter: " << SliceToTestKey(iter->key()).prefix << SliceToTestKey(iter->key()).sorted << " | map: " << it->first.prefix << it->first.sorted << " | " << iter->value().ToString() << " " << it->second << std::endl; } } } } } TEST_F(PrefixTest, PrefixSeekModePrev2) { // Only for SkipListFactory // test the case // iter1 iter2 // | prefix | suffix | | prefix | suffix | // | 1 | 1 | | 1 | 2 | // | 1 | 3 | | 1 | 4 | // | 2 | 1 | | 3 | 3 | // | 2 | 2 | | 3 | 4 | // after seek(15), iter1 will be at 21 and iter2 will be 33. // Then if call Prev() in prefix mode where SeekForPrev(21) gets called, // iter2 should turn to invalid state because of bloom filter. options.memtable_factory.reset(new SkipListFactory); options.write_buffer_size = 1024 * 1024; std::string v13("v13"); DestroyDB(kDbName, Options()); auto db = OpenDb(); WriteOptions write_options; ReadOptions read_options; PutKey(db.get(), write_options, TestKey(1, 2), "v12"); PutKey(db.get(), write_options, TestKey(1, 4), "v14"); PutKey(db.get(), write_options, TestKey(3, 3), "v33"); PutKey(db.get(), write_options, TestKey(3, 4), "v34"); db->Flush(FlushOptions()); reinterpret_cast(db.get())->TEST_WaitForFlushMemTable(); PutKey(db.get(), write_options, TestKey(1, 1), "v11"); PutKey(db.get(), write_options, TestKey(1, 3), "v13"); PutKey(db.get(), write_options, TestKey(2, 1), "v21"); PutKey(db.get(), write_options, TestKey(2, 2), "v22"); db->Flush(FlushOptions()); reinterpret_cast(db.get())->TEST_WaitForFlushMemTable(); std::unique_ptr iter(db->NewIterator(read_options)); SeekIterator(iter.get(), 1, 5); iter->Prev(); ASSERT_EQ(iter->value(), v13); } TEST_F(PrefixTest, PrefixSeekModePrev3) { // Only for SkipListFactory // test SeekToLast() with iterate_upper_bound_ in prefix_seek_mode options.memtable_factory.reset(new SkipListFactory); options.write_buffer_size = 1024 * 1024; std::string v14("v14"); TestKey upper_bound_key = TestKey(1, 5); std::string s; Slice upper_bound = TestKeyToSlice(s, upper_bound_key); { DestroyDB(kDbName, Options()); auto db = OpenDb(); WriteOptions write_options; ReadOptions read_options; read_options.iterate_upper_bound = &upper_bound; PutKey(db.get(), write_options, TestKey(1, 2), "v12"); PutKey(db.get(), write_options, TestKey(1, 4), "v14"); db->Flush(FlushOptions()); reinterpret_cast(db.get())->TEST_WaitForFlushMemTable(); PutKey(db.get(), write_options, TestKey(1, 1), "v11"); PutKey(db.get(), write_options, TestKey(1, 3), "v13"); PutKey(db.get(), write_options, TestKey(2, 1), "v21"); PutKey(db.get(), write_options, TestKey(2, 2), "v22"); db->Flush(FlushOptions()); reinterpret_cast(db.get())->TEST_WaitForFlushMemTable(); std::unique_ptr iter(db->NewIterator(read_options)); iter->SeekToLast(); ASSERT_EQ(iter->value(), v14); } { DestroyDB(kDbName, Options()); auto db = OpenDb(); WriteOptions write_options; ReadOptions read_options; read_options.iterate_upper_bound = &upper_bound; PutKey(db.get(), write_options, TestKey(1, 2), "v12"); PutKey(db.get(), write_options, TestKey(1, 4), "v14"); PutKey(db.get(), write_options, TestKey(3, 3), "v33"); PutKey(db.get(), write_options, TestKey(3, 4), "v34"); db->Flush(FlushOptions()); reinterpret_cast(db.get())->TEST_WaitForFlushMemTable(); PutKey(db.get(), write_options, TestKey(1, 1), "v11"); PutKey(db.get(), write_options, TestKey(1, 3), "v13"); db->Flush(FlushOptions()); reinterpret_cast(db.get())->TEST_WaitForFlushMemTable(); std::unique_ptr iter(db->NewIterator(read_options)); iter->SeekToLast(); ASSERT_EQ(iter->value(), v14); } } } // end namespace rocksdb int main(int argc, char** argv) { ::testing::InitGoogleTest(&argc, argv); ParseCommandLineFlags(&argc, &argv, true); return RUN_ALL_TESTS(); } #endif // GFLAGS #else #include int main(int /*argc*/, char** /*argv*/) { fprintf(stderr, "SKIPPED as HashSkipList and HashLinkList are not supported in " "ROCKSDB_LITE\n"); return 0; } #endif // !ROCKSDB_LITE rocksdb-5.17.2/db/range_del_aggregator.cc000066400000000000000000000545501337235545400202770ustar00rootroot00000000000000// Copyright (c) 2016-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include "db/range_del_aggregator.h" #include "util/heap.h" #include namespace rocksdb { struct TombstoneStartKeyComparator { TombstoneStartKeyComparator(const Comparator* c) : cmp(c) {} bool operator()(const RangeTombstone& a, const RangeTombstone& b) const { return cmp->Compare(a.start_key_, b.start_key_) < 0; } const Comparator* cmp; }; // An UncollapsedRangeDelMap is quick to create but slow to answer ShouldDelete // queries. class UncollapsedRangeDelMap : public RangeDelMap { typedef std::multiset Rep; class Iterator : public RangeDelIterator { const Rep& rep_; Rep::const_iterator iter_; public: Iterator(const Rep& rep) : rep_(rep), iter_(rep.begin()) {} bool Valid() const override { return iter_ != rep_.end(); } void Next() override { iter_++; } void Seek(const Slice&) override { fprintf(stderr, "UncollapsedRangeDelMap::Iterator::Seek unimplemented\n"); abort(); } RangeTombstone Tombstone() const override { return *iter_; } }; Rep rep_; const Comparator* ucmp_; public: UncollapsedRangeDelMap(const Comparator* ucmp) : rep_(TombstoneStartKeyComparator(ucmp)), ucmp_(ucmp) {} bool ShouldDelete(const ParsedInternalKey& parsed, RangeDelPositioningMode mode) override { (void)mode; assert(mode == RangeDelPositioningMode::kFullScan); for (const auto& tombstone : rep_) { if (ucmp_->Compare(parsed.user_key, tombstone.start_key_) < 0) { break; } if (parsed.sequence < tombstone.seq_ && ucmp_->Compare(parsed.user_key, tombstone.end_key_) < 0) { return true; } } return false; } bool IsRangeOverlapped(const Slice& start, const Slice& end) override { for (const auto& tombstone : rep_) { if (ucmp_->Compare(start, tombstone.end_key_) < 0 && ucmp_->Compare(tombstone.start_key_, end) <= 0 && ucmp_->Compare(tombstone.start_key_, tombstone.end_key_) < 0) { return true; } } return false; } void AddTombstone(RangeTombstone tombstone) override { rep_.emplace(tombstone); } size_t Size() const override { return rep_.size(); } void InvalidatePosition() override {} // no-op std::unique_ptr NewIterator() override { return std::unique_ptr(new Iterator(this->rep_)); } }; // A CollapsedRangeDelMap is slow to create but quick to answer ShouldDelete // queries. // // An explanation of the design follows. Suppose we have tombstones [b, n) @ 1, // [e, h) @ 2, [q, t) @ 2, and [g, k) @ 3. Visually, the tombstones look like // this: // // 3: g---k // 2: e---h q--t // 1: b------------n // // The CollapsedRangeDelMap representation is based on the observation that // wherever tombstones overlap, we need only store the tombstone with the // largest seqno. From the perspective of a read at seqno 4 or greater, this set // of tombstones is exactly equivalent: // // 3: g---k // 2: e--g q--t // 1: b--e k--n // // Because these tombstones do not overlap, they can be efficiently represented // in an ordered map from keys to sequence numbers. Each entry should be thought // of as a transition from one tombstone to the next. In this example, the // CollapsedRangeDelMap would store the following entries, in order: // // b → 1, e → 2, g → 3, k → 1, n → 0, q → 2, t → 0 // // If a tombstone ends before the next tombstone begins, a sentinel seqno of 0 // is installed to indicate that no tombstone exists. This occurs at keys n and // t in the example above. // // To check whether a key K is covered by a tombstone, the map is binary // searched for the last key less than K. K is covered iff the map entry has a // larger seqno than K. As an example, consider the key h @ 4. It would be // compared against the map entry g → 3 and determined to be uncovered. By // contrast, the key h @ 2 would be determined to be covered. class CollapsedRangeDelMap : public RangeDelMap { typedef std::map Rep; class Iterator : public RangeDelIterator { void MaybeSeekPastSentinel() { if (Valid() && iter_->second == 0) { iter_++; } } const Rep& rep_; Rep::const_iterator iter_; public: Iterator(const Rep& rep) : rep_(rep), iter_(rep.begin()) {} bool Valid() const override { return iter_ != rep_.end(); } void Next() override { iter_++; MaybeSeekPastSentinel(); } void Seek(const Slice& target) override { iter_ = rep_.upper_bound(target); if (iter_ != rep_.begin()) { iter_--; } MaybeSeekPastSentinel(); } RangeTombstone Tombstone() const override { assert(Valid()); assert(std::next(iter_) != rep_.end()); assert(iter_->second != 0); RangeTombstone tombstone; tombstone.start_key_ = iter_->first; tombstone.end_key_ = std::next(iter_)->first; tombstone.seq_ = iter_->second; return tombstone; } }; Rep rep_; Rep::iterator iter_; const Comparator* ucmp_; public: explicit CollapsedRangeDelMap(const Comparator* ucmp) : rep_(stl_wrappers::LessOfComparator(ucmp)), ucmp_(ucmp) { InvalidatePosition(); } bool ShouldDelete(const ParsedInternalKey& parsed, RangeDelPositioningMode mode) override { if (iter_ == rep_.end() && (mode == RangeDelPositioningMode::kForwardTraversal || mode == RangeDelPositioningMode::kBackwardTraversal)) { // invalid (e.g., if AddTombstones() changed the deletions), so need to // reseek mode = RangeDelPositioningMode::kBinarySearch; } switch (mode) { case RangeDelPositioningMode::kFullScan: assert(false); case RangeDelPositioningMode::kForwardTraversal: assert(iter_ != rep_.end()); if (iter_ == rep_.begin() && ucmp_->Compare(parsed.user_key, iter_->first) < 0) { // before start of deletion intervals return false; } while (std::next(iter_) != rep_.end() && ucmp_->Compare(std::next(iter_)->first, parsed.user_key) <= 0) { ++iter_; } break; case RangeDelPositioningMode::kBackwardTraversal: assert(iter_ != rep_.end()); while (iter_ != rep_.begin() && ucmp_->Compare(parsed.user_key, iter_->first) < 0) { --iter_; } if (iter_ == rep_.begin() && ucmp_->Compare(parsed.user_key, iter_->first) < 0) { // before start of deletion intervals return false; } break; case RangeDelPositioningMode::kBinarySearch: iter_ = rep_.upper_bound(parsed.user_key); if (iter_ == rep_.begin()) { // before start of deletion intervals return false; } --iter_; break; } assert(iter_ != rep_.end() && ucmp_->Compare(iter_->first, parsed.user_key) <= 0); assert(std::next(iter_) == rep_.end() || ucmp_->Compare(parsed.user_key, std::next(iter_)->first) < 0); return parsed.sequence < iter_->second; } bool IsRangeOverlapped(const Slice&, const Slice&) override { // Unimplemented because the only client of this method, file ingestion, // uses uncollapsed maps. fprintf(stderr, "CollapsedRangeDelMap::IsRangeOverlapped unimplemented"); abort(); } void AddTombstone(RangeTombstone t) override { if (ucmp_->Compare(t.start_key_, t.end_key_) >= 0 || t.seq_ == 0) { // The tombstone covers no keys. Nothing to do. return; } auto it = rep_.upper_bound(t.start_key_); auto prev_seq = [&]() { return it == rep_.begin() ? 0 : std::prev(it)->second; }; // end_seq stores the seqno of the last transition that the new tombstone // covered. This is the seqno that we'll install if we need to insert a // transition for the new tombstone's end key. SequenceNumber end_seq = 0; // In the diagrams below, the new tombstone is always [c, k) @ 2. The // existing tombstones are varied to depict different scenarios. Uppercase // letters are used to indicate points that exist in the map, while // lowercase letters are used to indicate points that do not exist in the // map. The location of the iterator is marked with a caret; it may point // off the end of the diagram to indicate that it is positioned at a // entry with a larger key whose specific key is irrelevant. if (t.seq_ > prev_seq()) { // The new tombstone's start point covers the existing tombstone: // // 3: 3: A--C 3: 3: // 2: c--- OR 2: c--- OR 2: c--- OR 2: c------ // 1: A--C 1: 1: A------ 1: C------ // ^ ^ ^ ^ end_seq = prev_seq(); Rep::iterator pit; if (it != rep_.begin() && (pit = std::prev(it)) != rep_.begin() && ucmp_->Compare(pit->first, t.start_key_) == 0 && std::prev(pit)->second == t.seq_) { // The new tombstone starts at the end of an existing tombstone with an // identical seqno: // // 3: // 2: A--C--- // 1: // ^ // Merge the tombstones by removing the existing tombstone's end key. it = rep_.erase(std::prev(it)); } else { // Insert a new transition at the new tombstone's start point, or raise // the existing transition at that point to the new tombstone's seqno. rep_[t.start_key_] = t.seq_; // operator[] will overwrite existing entry } } else { // The new tombstone's start point is covered by an existing tombstone: // // 3: A----- OR 3: C------ OR // 2: c--- 2: c------ 2: C------ // ^ ^ ^ // Do nothing. } // Look at all the existing transitions that overlap the new tombstone. while (it != rep_.end() && ucmp_->Compare(it->first, t.end_key_) < 0) { if (t.seq_ >= it->second) { // The transition is to an existing tombstone that the new tombstone // covers. Save the covered tombstone's seqno. We'll need to return to // it if the new tombstone ends before the existing tombstone. end_seq = it->second; if (t.seq_ == prev_seq()) { // The previous transition is to the seqno of the new tombstone: // // 3: 3: 3: --F // 2: C------ OR 2: C------ OR 2: F---- // 1: F--- 1: ---F 1: H-- // ^ ^ ^ // // Erase this transition. It's been superseded. it = rep_.erase(it); continue; // skip increment; erase positions iterator correctly } else { // The previous transition is to a tombstone that covers the new // tombstone, but this transition is to a tombstone that is covered by // the new tombstone. That is, this is the end of a run of existing // tombstones that cover the new tombstone: // // 3: A---E OR 3: E-G // 2: c---- 2: ------ // ^ ^ // Preserve this transition point, but raise it to the new tombstone's // seqno. it->second = t.seq_; } } else { // The transition is to an existing tombstone that covers the new // tombstone: // // 4: 4: --F // 3: F-- OR 3: F-- // 2: ----- 2: ----- // ^ ^ // Do nothing. } ++it; } if (t.seq_ == prev_seq()) { // The new tombstone is unterminated in the map. if (it != rep_.end() && t.seq_ == it->second && ucmp_->Compare(it->first, t.end_key_) == 0) { // The new tombstone ends at the start of another tombstone with an // identical seqno. Merge the tombstones by removing the existing // tombstone's start key. rep_.erase(it); } else if (end_seq == prev_seq() || (it != rep_.end() && end_seq == it->second)) { // The new tombstone is implicitly ended because its end point is // contained within an existing tombstone with the same seqno: // // 2: ---k--N // ^ } else { // The new tombstone needs an explicit end point. // // 3: OR 3: --G OR 3: --G K-- // 2: C-------k 2: G---k 2: G---k // ^ ^ ^ // Install one that returns to the last seqno we covered. Because end // keys are exclusive, if there's an existing transition at t.end_key_, // it takes precedence over the transition that we install here. rep_.emplace(t.end_key_, end_seq); // emplace is a noop if existing entry } } else { // The new tombstone is implicitly ended because its end point is covered // by an existing tombstone with a higher seqno. // // 3: I---M OR 3: A-----------M // 2: ----k 2: c-------k // ^ ^ // Do nothing. } } size_t Size() const override { return rep_.empty() ? 0 : rep_.size() - 1; } void InvalidatePosition() override { iter_ = rep_.end(); } std::unique_ptr NewIterator() override { return std::unique_ptr(new Iterator(this->rep_)); } }; RangeDelAggregator::RangeDelAggregator( const InternalKeyComparator& icmp, const std::vector& snapshots, bool collapse_deletions /* = true */) : upper_bound_(kMaxSequenceNumber), icmp_(icmp), collapse_deletions_(collapse_deletions) { InitRep(snapshots); } RangeDelAggregator::RangeDelAggregator(const InternalKeyComparator& icmp, SequenceNumber snapshot, bool collapse_deletions /* = false */) : upper_bound_(snapshot), icmp_(icmp), collapse_deletions_(collapse_deletions) {} void RangeDelAggregator::InitRep(const std::vector& snapshots) { assert(rep_ == nullptr); rep_.reset(new Rep()); for (auto snapshot : snapshots) { rep_->stripe_map_.emplace(snapshot, NewRangeDelMap()); } // Data newer than any snapshot falls in this catch-all stripe rep_->stripe_map_.emplace(kMaxSequenceNumber, NewRangeDelMap()); rep_->pinned_iters_mgr_.StartPinning(); } std::unique_ptr RangeDelAggregator::NewRangeDelMap() { RangeDelMap* tombstone_map; if (collapse_deletions_) { tombstone_map = new CollapsedRangeDelMap(icmp_.user_comparator()); } else { tombstone_map = new UncollapsedRangeDelMap(icmp_.user_comparator()); } return std::unique_ptr(tombstone_map); } bool RangeDelAggregator::ShouldDeleteImpl(const Slice& internal_key, RangeDelPositioningMode mode) { assert(rep_ != nullptr); ParsedInternalKey parsed; if (!ParseInternalKey(internal_key, &parsed)) { assert(false); } return ShouldDelete(parsed, mode); } bool RangeDelAggregator::ShouldDeleteImpl(const ParsedInternalKey& parsed, RangeDelPositioningMode mode) { assert(IsValueType(parsed.type)); assert(rep_ != nullptr); auto& tombstone_map = GetRangeDelMap(parsed.sequence); if (tombstone_map.IsEmpty()) { return false; } return tombstone_map.ShouldDelete(parsed, mode); } bool RangeDelAggregator::IsRangeOverlapped(const Slice& start, const Slice& end) { // Unimplemented because the only client of this method, file ingestion, // uses uncollapsed maps. assert(!collapse_deletions_); if (rep_ == nullptr) { return false; } for (const auto& stripe : rep_->stripe_map_) { if (stripe.second->IsRangeOverlapped(start, end)) { return true; } } return false; } Status RangeDelAggregator::AddTombstones( std::unique_ptr input, const InternalKey* smallest, const InternalKey* largest) { if (input == nullptr) { return Status::OK(); } input->SeekToFirst(); bool first_iter = true; while (input->Valid()) { if (first_iter) { if (rep_ == nullptr) { InitRep({upper_bound_}); } else { InvalidateRangeDelMapPositions(); } first_iter = false; } ParsedInternalKey parsed_key; bool parsed; if (input->IsKeyPinned()) { parsed = ParseInternalKey(input->key(), &parsed_key); } else { // The tombstone map holds slices into the iterator's memory. Make a // copy of the key if it is not pinned. rep_->pinned_slices_.emplace_back(input->key().data(), input->key().size()); parsed = ParseInternalKey(rep_->pinned_slices_.back(), &parsed_key); } if (!parsed) { return Status::Corruption("Unable to parse range tombstone InternalKey"); } RangeTombstone tombstone; if (input->IsValuePinned()) { tombstone = RangeTombstone(parsed_key, input->value()); } else { // The tombstone map holds slices into the iterator's memory. Make a // copy of the value if it is not pinned. rep_->pinned_slices_.emplace_back(input->value().data(), input->value().size()); tombstone = RangeTombstone(parsed_key, rep_->pinned_slices_.back()); } // Truncate the tombstone to the range [smallest, largest]. if (smallest != nullptr) { if (icmp_.user_comparator()->Compare( tombstone.start_key_, smallest->user_key()) < 0) { tombstone.start_key_ = smallest->user_key(); } } if (largest != nullptr) { // To safely truncate the range tombstone's end key, it must extend past // the largest key in the sstable (which may have been extended to the // smallest key in the next sstable), and largest must be a tombstone // sentinel key. A range tombstone may straddle two sstables and not be // the tombstone sentinel key in the first sstable if a user-key also // straddles the sstables (possible if there is a snapshot between the // two versions of the user-key), in which case we cannot truncate the // range tombstone. if (icmp_.user_comparator()->Compare(tombstone.end_key_, largest->user_key()) > 0 && GetInternalKeySeqno(largest->Encode()) == kMaxSequenceNumber) { tombstone.end_key_ = largest->user_key(); } } auto seq = tombstone.seq_; GetRangeDelMap(seq).AddTombstone(std::move(tombstone)); input->Next(); } if (!first_iter) { rep_->pinned_iters_mgr_.PinIterator(input.release(), false /* arena */); } return Status::OK(); } void RangeDelAggregator::InvalidateRangeDelMapPositions() { if (rep_ == nullptr) { return; } for (auto& stripe : rep_->stripe_map_) { stripe.second->InvalidatePosition(); } } RangeDelMap& RangeDelAggregator::GetRangeDelMap(SequenceNumber seq) { assert(rep_ != nullptr); // The stripe includes seqnum for the snapshot above and excludes seqnum for // the snapshot below. StripeMap::iterator iter; if (seq > 0) { // upper_bound() checks strict inequality so need to subtract one iter = rep_->stripe_map_.upper_bound(seq - 1); } else { iter = rep_->stripe_map_.begin(); } // catch-all stripe justifies this assertion in either of above cases assert(iter != rep_->stripe_map_.end()); return *iter->second; } bool RangeDelAggregator::IsEmpty() { if (rep_ == nullptr) { return true; } for (const auto& stripe : rep_->stripe_map_) { if (!stripe.second->IsEmpty()) { return false; } } return true; } bool RangeDelAggregator::AddFile(uint64_t file_number) { if (rep_ == nullptr) { return true; } return rep_->added_files_.emplace(file_number).second; } class MergingRangeDelIter : public RangeDelIterator { public: MergingRangeDelIter(const Comparator* c) : heap_(IterMinHeap(IterComparator(c))), current_(nullptr) {} void AddIterator(std::unique_ptr iter) { if (iter->Valid()) { heap_.push(iter.get()); iters_.push_back(std::move(iter)); current_ = heap_.top(); } } bool Valid() const override { return current_ != nullptr; } void Next() override { current_->Next(); if (current_->Valid()) { heap_.replace_top(current_); } else { heap_.pop(); } current_ = heap_.empty() ? nullptr : heap_.top(); } void Seek(const Slice& target) override { heap_.clear(); for (auto& iter : iters_) { iter->Seek(target); if (iter->Valid()) { heap_.push(iter.get()); } } current_ = heap_.empty() ? nullptr : heap_.top(); } RangeTombstone Tombstone() const override { return current_->Tombstone(); } private: struct IterComparator { IterComparator(const Comparator* c) : cmp(c) {} bool operator()(const RangeDelIterator* a, const RangeDelIterator* b) const { // Note: counterintuitively, returning the tombstone with the larger start // key puts the tombstone with the smallest key at the top of the heap. return cmp->Compare(a->Tombstone().start_key_, b->Tombstone().start_key_) > 0; } const Comparator* cmp; }; typedef BinaryHeap IterMinHeap; std::vector> iters_; IterMinHeap heap_; RangeDelIterator* current_; }; std::unique_ptr RangeDelAggregator::NewIterator() { std::unique_ptr iter( new MergingRangeDelIter(icmp_.user_comparator())); if (rep_ != nullptr) { for (const auto& stripe : rep_->stripe_map_) { iter->AddIterator(stripe.second->NewIterator()); } } return std::move(iter); } } // namespace rocksdb rocksdb-5.17.2/db/range_del_aggregator.h000066400000000000000000000201571337235545400201350ustar00rootroot00000000000000// Copyright (c) 2016-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #include #include #include #include #include #include "db/compaction_iteration_stats.h" #include "db/dbformat.h" #include "db/pinned_iterators_manager.h" #include "db/version_edit.h" #include "include/rocksdb/comparator.h" #include "include/rocksdb/types.h" #include "table/internal_iterator.h" #include "table/scoped_arena_iterator.h" #include "table/table_builder.h" #include "util/kv_map.h" namespace rocksdb { // RangeDelMaps maintain position across calls to ShouldDelete. The caller may // wish to specify a mode to optimize positioning the iterator during the next // call to ShouldDelete. The non-kFullScan modes are only available when // deletion collapsing is enabled. // // For example, if we invoke Next() on an iterator, kForwardTraversal should be // specified to advance one-by-one through deletions until one is found with its // interval containing the key. This will typically be faster than doing a full // binary search (kBinarySearch). enum class RangeDelPositioningMode { kFullScan, // used iff collapse_deletions_ == false kForwardTraversal, kBackwardTraversal, kBinarySearch, }; // A RangeDelIterator iterates over range deletion tombstones. class RangeDelIterator { public: virtual ~RangeDelIterator() = default; virtual bool Valid() const = 0; virtual void Next() = 0; virtual void Seek(const Slice& target) = 0; virtual RangeTombstone Tombstone() const = 0; }; // A RangeDelMap keeps track of range deletion tombstones within a snapshot // stripe. // // RangeDelMaps are used internally by RangeDelAggregator. They are not intended // to be used directly. class RangeDelMap { public: virtual ~RangeDelMap() = default; virtual bool ShouldDelete(const ParsedInternalKey& parsed, RangeDelPositioningMode mode) = 0; virtual bool IsRangeOverlapped(const Slice& start, const Slice& end) = 0; virtual void InvalidatePosition() = 0; virtual size_t Size() const = 0; bool IsEmpty() const { return Size() == 0; } virtual void AddTombstone(RangeTombstone tombstone) = 0; virtual std::unique_ptr NewIterator() = 0; }; // A RangeDelAggregator aggregates range deletion tombstones as they are // encountered in memtables/SST files. It provides methods that check whether a // key is covered by range tombstones or write the relevant tombstones to a new // SST file. class RangeDelAggregator { public: // @param snapshots These are used to organize the tombstones into snapshot // stripes, which is the seqnum range between consecutive snapshots, // including the higher snapshot and excluding the lower one. Currently, // this is used by ShouldDelete() to prevent deletion of keys that are // covered by range tombstones in other snapshot stripes. This constructor // is used for writes (flush/compaction). All DB snapshots are provided // such that no keys are removed that are uncovered according to any DB // snapshot. // Note this overload does not lazily initialize Rep. RangeDelAggregator(const InternalKeyComparator& icmp, const std::vector& snapshots, bool collapse_deletions = true); // @param upper_bound Similar to snapshots above, except with a single // snapshot, which allows us to store the snapshot on the stack and defer // initialization of heap-allocating members (in Rep) until the first range // deletion is encountered. This constructor is used in case of reads (get/ // iterator), for which only the user snapshot (upper_bound) is provided // such that the seqnum space is divided into two stripes. Only the older // stripe will be used by ShouldDelete(). RangeDelAggregator(const InternalKeyComparator& icmp, SequenceNumber upper_bound, bool collapse_deletions = false); // Returns whether the key should be deleted, which is the case when it is // covered by a range tombstone residing in the same snapshot stripe. // @param mode If collapse_deletions_ is true, this dictates how we will find // the deletion whose interval contains this key. Otherwise, its // value must be kFullScan indicating linear scan from beginning. bool ShouldDelete( const ParsedInternalKey& parsed, RangeDelPositioningMode mode = RangeDelPositioningMode::kFullScan) { if (rep_ == nullptr) { return false; } return ShouldDeleteImpl(parsed, mode); } bool ShouldDelete( const Slice& internal_key, RangeDelPositioningMode mode = RangeDelPositioningMode::kFullScan) { if (rep_ == nullptr) { return false; } return ShouldDeleteImpl(internal_key, mode); } bool ShouldDeleteImpl(const ParsedInternalKey& parsed, RangeDelPositioningMode mode); bool ShouldDeleteImpl(const Slice& internal_key, RangeDelPositioningMode mode); // Checks whether range deletions cover any keys between `start` and `end`, // inclusive. // // @param start User key representing beginning of range to check for overlap. // @param end User key representing end of range to check for overlap. This // argument is inclusive, so the existence of a range deletion covering // `end` causes this to return true. bool IsRangeOverlapped(const Slice& start, const Slice& end); // Adds tombstones to the tombstone aggregation structure maintained by this // object. Tombstones are truncated to smallest and largest. If smallest (or // largest) is null, it is not used for truncation. When adding range // tombstones present in an sstable, smallest and largest should be set to // the smallest and largest keys from the sstable file metadata. Note that // tombstones end keys are exclusive while largest is inclusive. // @return non-OK status if any of the tombstone keys are corrupted. Status AddTombstones(std::unique_ptr input, const InternalKey* smallest = nullptr, const InternalKey* largest = nullptr); // Resets iterators maintained across calls to ShouldDelete(). This may be // called when the tombstones change, or the owner may call explicitly, e.g., // if it's an iterator that just seeked to an arbitrary position. The effect // of invalidation is that the following call to ShouldDelete() will binary // search for its tombstone. void InvalidateRangeDelMapPositions(); bool IsEmpty(); bool AddFile(uint64_t file_number); // Create a new iterator over the range deletion tombstones in all of the // snapshot stripes in this aggregator. Tombstones are presented in start key // order. Tombstones with the same start key are presented in arbitrary order. // // The iterator is invalidated after any call to AddTombstones. It is the // caller's responsibility to avoid using invalid iterators. std::unique_ptr NewIterator(); private: // Maps snapshot seqnum -> map of tombstones that fall in that stripe, i.e., // their seqnums are greater than the next smaller snapshot's seqnum. typedef std::map> StripeMap; struct Rep { StripeMap stripe_map_; PinnedIteratorsManager pinned_iters_mgr_; std::list pinned_slices_; std::set added_files_; }; // Initializes rep_ lazily. This aggregator object is constructed for every // read, so expensive members should only be created when necessary, i.e., // once the first range deletion is encountered. void InitRep(const std::vector& snapshots); std::unique_ptr NewRangeDelMap(); RangeDelMap& GetRangeDelMap(SequenceNumber seq); SequenceNumber upper_bound_; std::unique_ptr rep_; const InternalKeyComparator& icmp_; // collapse range deletions so they're binary searchable const bool collapse_deletions_; }; } // namespace rocksdb rocksdb-5.17.2/db/range_del_aggregator_bench.cc000066400000000000000000000175451337235545400214410ustar00rootroot00000000000000// Copyright (c) 2018-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #ifndef GFLAGS #include int main() { fprintf(stderr, "Please install gflags to run rocksdb tools\n"); return 1; } #else #include #include #include #include #include #include #include #include "db/range_del_aggregator.h" #include "rocksdb/comparator.h" #include "rocksdb/env.h" #include "util/coding.h" #include "util/random.h" #include "util/stop_watch.h" #include "util/testutil.h" #include "util/gflags_compat.h" using GFLAGS_NAMESPACE::ParseCommandLineFlags; DEFINE_int32(num_range_tombstones, 1000, "number of range tombstones created"); DEFINE_int32(num_runs, 10000, "number of test runs"); DEFINE_int32(tombstone_start_upper_bound, 1000, "exclusive upper bound on range tombstone start keys"); DEFINE_int32(should_delete_upper_bound, 1000, "exclusive upper bound on keys passed to ShouldDelete"); DEFINE_double(tombstone_width_mean, 100.0, "average range tombstone width"); DEFINE_double(tombstone_width_stddev, 0.0, "standard deviation of range tombstone width"); DEFINE_bool(use_collapsed, true, "use the collapsed range tombstone map"); DEFINE_int32(seed, 0, "random number generator seed"); DEFINE_int32(should_deletes_per_run, 1, "number of ShouldDelete calls per run"); DEFINE_int32(add_tombstones_per_run, 1, "number of AddTombstones calls per run"); namespace { struct Stats { uint64_t time_add_tombstones = 0; uint64_t time_first_should_delete = 0; uint64_t time_rest_should_delete = 0; }; std::ostream& operator<<(std::ostream& os, const Stats& s) { std::ios fmt_holder(nullptr); fmt_holder.copyfmt(os); os << std::left; os << std::setw(25) << "AddTombstones: " << s.time_add_tombstones / (FLAGS_add_tombstones_per_run * FLAGS_num_runs * 1.0e3) << " us\n"; os << std::setw(25) << "ShouldDelete (first): " << s.time_first_should_delete / (FLAGS_num_runs * 1.0e3) << " us\n"; if (FLAGS_should_deletes_per_run > 1) { os << std::setw(25) << "ShouldDelete (rest): " << s.time_rest_should_delete / ((FLAGS_should_deletes_per_run - 1) * FLAGS_num_runs * 1.0e3) << " us\n"; } os.copyfmt(fmt_holder); return os; } } // anonymous namespace namespace rocksdb { namespace { // A wrapper around RangeTombstones and the underlying data of its start and end // keys. struct PersistentRangeTombstone { std::string start_key; std::string end_key; RangeTombstone tombstone; PersistentRangeTombstone(std::string start, std::string end, SequenceNumber seq) : start_key(std::move(start)), end_key(std::move(end)) { tombstone = RangeTombstone(start_key, end_key, seq); } PersistentRangeTombstone() = default; PersistentRangeTombstone(const PersistentRangeTombstone& t) { *this = t; } PersistentRangeTombstone& operator=(const PersistentRangeTombstone& t) { start_key = t.start_key; end_key = t.end_key; tombstone = RangeTombstone(start_key, end_key, t.tombstone.seq_); return *this; } PersistentRangeTombstone(PersistentRangeTombstone&& t) noexcept { *this = t; } PersistentRangeTombstone& operator=(PersistentRangeTombstone&& t) { start_key = std::move(t.start_key); end_key = std::move(t.end_key); tombstone = RangeTombstone(start_key, end_key, t.tombstone.seq_); return *this; } }; struct TombstoneStartKeyComparator { explicit TombstoneStartKeyComparator(const Comparator* c) : cmp(c) {} bool operator()(const RangeTombstone& a, const RangeTombstone& b) const { return cmp->Compare(a.start_key_, b.start_key_) < 0; } const Comparator* cmp; }; std::unique_ptr MakeRangeDelIterator( const std::vector& range_dels) { std::vector keys, values; for (const auto& range_del : range_dels) { auto key_and_value = range_del.tombstone.Serialize(); keys.push_back(key_and_value.first.Encode().ToString()); values.push_back(key_and_value.second.ToString()); } return std::unique_ptr( new test::VectorIterator(keys, values)); } // convert long to a big-endian slice key static std::string Key(int64_t val) { std::string little_endian_key; std::string big_endian_key; PutFixed64(&little_endian_key, val); assert(little_endian_key.size() == sizeof(val)); big_endian_key.resize(sizeof(val)); for (size_t i = 0; i < sizeof(val); ++i) { big_endian_key[i] = little_endian_key[sizeof(val) - 1 - i]; } return big_endian_key; } } // anonymous namespace } // namespace rocksdb int main(int argc, char** argv) { ParseCommandLineFlags(&argc, &argv, true); Stats stats; rocksdb::Random64 rnd(FLAGS_seed); std::default_random_engine random_gen(FLAGS_seed); std::normal_distribution normal_dist(FLAGS_tombstone_width_mean, FLAGS_tombstone_width_stddev); std::vector > all_persistent_range_tombstones(FLAGS_add_tombstones_per_run); for (int i = 0; i < FLAGS_add_tombstones_per_run; i++) { all_persistent_range_tombstones[i] = std::vector( FLAGS_num_range_tombstones); } auto mode = FLAGS_use_collapsed ? rocksdb::RangeDelPositioningMode::kForwardTraversal : rocksdb::RangeDelPositioningMode::kFullScan; for (int i = 0; i < FLAGS_num_runs; i++) { auto icmp = rocksdb::InternalKeyComparator(rocksdb::BytewiseComparator()); rocksdb::RangeDelAggregator range_del_agg(icmp, {} /* snapshots */, FLAGS_use_collapsed); for (auto& persistent_range_tombstones : all_persistent_range_tombstones) { // TODO(abhimadan): consider whether creating the range tombstones right // before AddTombstones is artificially warming the cache compared to // real workloads. for (int j = 0; j < FLAGS_num_range_tombstones; j++) { uint64_t start = rnd.Uniform(FLAGS_tombstone_start_upper_bound); uint64_t end = start + std::max(1.0, normal_dist(random_gen)); persistent_range_tombstones[j] = rocksdb::PersistentRangeTombstone( rocksdb::Key(start), rocksdb::Key(end), j); } auto range_del_iter = rocksdb::MakeRangeDelIterator(persistent_range_tombstones); rocksdb::StopWatchNano stop_watch_add_tombstones(rocksdb::Env::Default(), true /* auto_start */); range_del_agg.AddTombstones(std::move(range_del_iter)); stats.time_add_tombstones += stop_watch_add_tombstones.ElapsedNanos(); } rocksdb::ParsedInternalKey parsed_key; parsed_key.sequence = FLAGS_num_range_tombstones / 2; parsed_key.type = rocksdb::kTypeValue; uint64_t first_key = rnd.Uniform(FLAGS_should_delete_upper_bound - FLAGS_should_deletes_per_run + 1); for (int j = 0; j < FLAGS_should_deletes_per_run; j++) { std::string key_string = rocksdb::Key(first_key + j); parsed_key.user_key = key_string; rocksdb::StopWatchNano stop_watch_should_delete(rocksdb::Env::Default(), true /* auto_start */); range_del_agg.ShouldDelete(parsed_key, mode); uint64_t call_time = stop_watch_should_delete.ElapsedNanos(); if (j == 0) { stats.time_first_should_delete += call_time; } else { stats.time_rest_should_delete += call_time; } } } std::cout << "=========================\n" << "Results:\n" << "=========================\n" << stats; return 0; } #endif // GFLAGS rocksdb-5.17.2/db/range_del_aggregator_test.cc000066400000000000000000000307741337235545400213400ustar00rootroot00000000000000// Copyright (c) 2016-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include #include "db/db_test_util.h" #include "db/range_del_aggregator.h" #include "rocksdb/comparator.h" #include "util/testutil.h" namespace rocksdb { class RangeDelAggregatorTest : public testing::Test {}; namespace { struct ExpectedPoint { Slice begin; SequenceNumber seq; bool expectAlive; }; enum Direction { kForward, kReverse, }; static auto bytewise_icmp = InternalKeyComparator(BytewiseComparator()); void AddTombstones(RangeDelAggregator* range_del_agg, const std::vector& range_dels, const InternalKey* smallest = nullptr, const InternalKey* largest = nullptr) { std::vector keys, values; for (const auto& range_del : range_dels) { auto key_and_value = range_del.Serialize(); keys.push_back(key_and_value.first.Encode().ToString()); values.push_back(key_and_value.second.ToString()); } std::unique_ptr range_del_iter( new test::VectorIterator(keys, values)); range_del_agg->AddTombstones(std::move(range_del_iter), smallest, largest); } void VerifyTombstonesEq(const RangeTombstone& a, const RangeTombstone& b) { ASSERT_EQ(a.seq_, b.seq_); ASSERT_EQ(a.start_key_, b.start_key_); ASSERT_EQ(a.end_key_, b.end_key_); } void VerifyRangeDelIter( RangeDelIterator* range_del_iter, const std::vector& expected_range_dels) { size_t i = 0; for (; range_del_iter->Valid() && i < expected_range_dels.size(); range_del_iter->Next(), i++) { VerifyTombstonesEq(expected_range_dels[i], range_del_iter->Tombstone()); } ASSERT_EQ(expected_range_dels.size(), i); ASSERT_FALSE(range_del_iter->Valid()); } void VerifyRangeDels( const std::vector& range_dels_in, const std::vector& expected_points, const std::vector& expected_collapsed_range_dels, const InternalKey* smallest = nullptr, const InternalKey* largest = nullptr, const InternalKeyComparator& icmp = bytewise_icmp) { // Test same result regardless of which order the range deletions are added // and regardless of collapsed mode. for (bool collapsed : {false, true}) { for (Direction dir : {kForward, kReverse}) { RangeDelAggregator range_del_agg(icmp, {} /* snapshots */, collapsed); std::vector range_dels = range_dels_in; if (dir == kReverse) { std::reverse(range_dels.begin(), range_dels.end()); } AddTombstones(&range_del_agg, range_dels, smallest, largest); auto mode = RangeDelPositioningMode::kFullScan; if (collapsed) { mode = RangeDelPositioningMode::kForwardTraversal; } for (const auto expected_point : expected_points) { ParsedInternalKey parsed_key; parsed_key.user_key = expected_point.begin; parsed_key.sequence = expected_point.seq; parsed_key.type = kTypeValue; ASSERT_FALSE(range_del_agg.ShouldDelete(parsed_key, mode)); if (parsed_key.sequence > 0) { --parsed_key.sequence; if (expected_point.expectAlive) { ASSERT_FALSE(range_del_agg.ShouldDelete(parsed_key, mode)); } else { ASSERT_TRUE(range_del_agg.ShouldDelete(parsed_key, mode)); } } } if (collapsed) { range_dels = expected_collapsed_range_dels; VerifyRangeDelIter(range_del_agg.NewIterator().get(), range_dels); } else if (smallest == nullptr && largest == nullptr) { // Tombstones in an uncollapsed map are presented in start key // order. Tombstones with the same start key are presented in // insertion order. We don't handle tombstone truncation here, so the // verification is only performed if no truncation was requested. std::stable_sort(range_dels.begin(), range_dels.end(), [&](const RangeTombstone& a, const RangeTombstone& b) { return icmp.user_comparator()->Compare( a.start_key_, b.start_key_) < 0; }); VerifyRangeDelIter(range_del_agg.NewIterator().get(), range_dels); } } } RangeDelAggregator range_del_agg(icmp, {} /* snapshots */, false /* collapse_deletions */); AddTombstones(&range_del_agg, range_dels_in); for (size_t i = 1; i < expected_points.size(); ++i) { bool overlapped = range_del_agg.IsRangeOverlapped( expected_points[i - 1].begin, expected_points[i].begin); if (expected_points[i - 1].seq > 0 || expected_points[i].seq > 0) { ASSERT_TRUE(overlapped); } else { ASSERT_FALSE(overlapped); } } } } // anonymous namespace TEST_F(RangeDelAggregatorTest, Empty) { VerifyRangeDels({}, {{"a", 0}}, {}); } TEST_F(RangeDelAggregatorTest, SameStartAndEnd) { VerifyRangeDels({{"a", "a", 5}}, {{" ", 0}, {"a", 0}, {"b", 0}}, {}); } TEST_F(RangeDelAggregatorTest, Single) { VerifyRangeDels({{"a", "b", 10}}, {{" ", 0}, {"a", 10}, {"b", 0}}, {{"a", "b", 10}}); } TEST_F(RangeDelAggregatorTest, OverlapAboveLeft) { VerifyRangeDels({{"a", "c", 10}, {"b", "d", 5}}, {{" ", 0}, {"a", 10}, {"c", 5}, {"d", 0}}, {{"a", "c", 10}, {"c", "d", 5}}); } TEST_F(RangeDelAggregatorTest, OverlapAboveRight) { VerifyRangeDels({{"a", "c", 5}, {"b", "d", 10}}, {{" ", 0}, {"a", 5}, {"b", 10}, {"d", 0}}, {{"a", "b", 5}, {"b", "d", 10}}); } TEST_F(RangeDelAggregatorTest, OverlapAboveMiddle) { VerifyRangeDels({{"a", "d", 5}, {"b", "c", 10}}, {{" ", 0}, {"a", 5}, {"b", 10}, {"c", 5}, {"d", 0}}, {{"a", "b", 5}, {"b", "c", 10}, {"c", "d", 5}}); } TEST_F(RangeDelAggregatorTest, OverlapAboveMiddleReverse) { VerifyRangeDels({{"d", "a", 5}, {"c", "b", 10}}, {{"z", 0}, {"d", 5}, {"c", 10}, {"b", 5}, {"a", 0}}, {{"d", "c", 5}, {"c", "b", 10}, {"b", "a", 5}}, nullptr /* smallest */, nullptr /* largest */, InternalKeyComparator(ReverseBytewiseComparator())); } TEST_F(RangeDelAggregatorTest, OverlapFully) { VerifyRangeDels({{"a", "d", 10}, {"b", "c", 5}}, {{" ", 0}, {"a", 10}, {"d", 0}}, {{"a", "d", 10}}); } TEST_F(RangeDelAggregatorTest, OverlapPoint) { VerifyRangeDels({{"a", "b", 5}, {"b", "c", 10}}, {{" ", 0}, {"a", 5}, {"b", 10}, {"c", 0}}, {{"a", "b", 5}, {"b", "c", 10}}); } TEST_F(RangeDelAggregatorTest, SameStartKey) { VerifyRangeDels({{"a", "c", 5}, {"a", "b", 10}}, {{" ", 0}, {"a", 10}, {"b", 5}, {"c", 0}}, {{"a", "b", 10}, {"b", "c", 5}}); } TEST_F(RangeDelAggregatorTest, SameEndKey) { VerifyRangeDels({{"a", "d", 5}, {"b", "d", 10}}, {{" ", 0}, {"a", 5}, {"b", 10}, {"d", 0}}, {{"a", "b", 5}, {"b", "d", 10}}); } TEST_F(RangeDelAggregatorTest, GapsBetweenRanges) { VerifyRangeDels({{"a", "b", 5}, {"c", "d", 10}, {"e", "f", 15}}, {{" ", 0}, {"a", 5}, {"b", 0}, {"c", 10}, {"d", 0}, {"da", 0}, {"e", 15}, {"f", 0}}, {{"a", "b", 5}, {"c", "d", 10}, {"e", "f", 15}}); } TEST_F(RangeDelAggregatorTest, IdenticalSameSeqNo) { VerifyRangeDels({{"a", "b", 5}, {"a", "b", 5}}, {{" ", 0}, {"a", 5}, {"b", 0}}, {{"a", "b", 5}}); } TEST_F(RangeDelAggregatorTest, ContiguousSameSeqNo) { VerifyRangeDels({{"a", "b", 5}, {"b", "c", 5}}, {{" ", 0}, {"a", 5}, {"b", 5}, {"c", 0}}, {{"a", "c", 5}}); } TEST_F(RangeDelAggregatorTest, OverlappingSameSeqNo) { VerifyRangeDels({{"a", "c", 5}, {"b", "d", 5}}, {{" ", 0}, {"a", 5}, {"b", 5}, {"c", 5}, {"d", 0}}, {{"a", "d", 5}}); } TEST_F(RangeDelAggregatorTest, CoverSameSeqNo) { VerifyRangeDels({{"a", "d", 5}, {"b", "c", 5}}, {{" ", 0}, {"a", 5}, {"b", 5}, {"c", 5}, {"d", 0}}, {{"a", "d", 5}}); } // Note the Cover* tests also test cases where tombstones are inserted under a // larger one when VerifyRangeDels() runs them in reverse TEST_F(RangeDelAggregatorTest, CoverMultipleFromLeft) { VerifyRangeDels( {{"b", "d", 5}, {"c", "f", 10}, {"e", "g", 15}, {"a", "f", 20}}, {{" ", 0}, {"a", 20}, {"f", 15}, {"g", 0}}, {{"a", "f", 20}, {"f", "g", 15}}); } TEST_F(RangeDelAggregatorTest, CoverMultipleFromRight) { VerifyRangeDels( {{"b", "d", 5}, {"c", "f", 10}, {"e", "g", 15}, {"c", "h", 20}}, {{" ", 0}, {"b", 5}, {"c", 20}, {"h", 0}}, {{"b", "c", 5}, {"c", "h", 20}}); } TEST_F(RangeDelAggregatorTest, CoverMultipleFully) { VerifyRangeDels( {{"b", "d", 5}, {"c", "f", 10}, {"e", "g", 15}, {"a", "h", 20}}, {{" ", 0}, {"a", 20}, {"h", 0}}, {{"a", "h", 20}}); } TEST_F(RangeDelAggregatorTest, AlternateMultipleAboveBelow) { VerifyRangeDels( {{"b", "d", 15}, {"c", "f", 10}, {"e", "g", 20}, {"a", "h", 5}}, {{" ", 0}, {"a", 5}, {"b", 15}, {"d", 10}, {"e", 20}, {"g", 5}, {"h", 0}}, {{"a", "b", 5}, {"b", "d", 15}, {"d", "e", 10}, {"e", "g", 20}, {"g", "h", 5}}); } TEST_F(RangeDelAggregatorTest, MergingIteratorAllEmptyStripes) { for (bool collapsed : {true, false}) { RangeDelAggregator range_del_agg(bytewise_icmp, {1, 2}, collapsed); VerifyRangeDelIter(range_del_agg.NewIterator().get(), {}); } } TEST_F(RangeDelAggregatorTest, MergingIteratorOverlappingStripes) { for (bool collapsed : {true, false}) { RangeDelAggregator range_del_agg(bytewise_icmp, {5, 15, 25, 35}, collapsed); AddTombstones( &range_del_agg, {{"d", "e", 10}, {"aa", "b", 20}, {"c", "d", 30}, {"a", "b", 10}}); VerifyRangeDelIter( range_del_agg.NewIterator().get(), {{"a", "b", 10}, {"aa", "b", 20}, {"c", "d", 30}, {"d", "e", 10}}); } } TEST_F(RangeDelAggregatorTest, MergingIteratorSeek) { RangeDelAggregator range_del_agg(bytewise_icmp, {5, 15}, true /* collapsed */); AddTombstones(&range_del_agg, {{"a", "c", 10}, {"b", "c", 11}, {"f", "g", 10}, {"c", "d", 20}, {"e", "f", 20}}); auto it = range_del_agg.NewIterator(); // Verify seek positioning. it->Seek(""); VerifyTombstonesEq(it->Tombstone(), {"a", "b", 10}); it->Seek("a"); VerifyTombstonesEq(it->Tombstone(), {"a", "b", 10}); it->Seek("aa"); VerifyTombstonesEq(it->Tombstone(), {"a", "b", 10}); it->Seek("b"); VerifyTombstonesEq(it->Tombstone(), {"b", "c", 11}); it->Seek("c"); VerifyTombstonesEq(it->Tombstone(), {"c", "d", 20}); it->Seek("dd"); VerifyTombstonesEq(it->Tombstone(), {"e", "f", 20}); it->Seek("f"); VerifyTombstonesEq(it->Tombstone(), {"f", "g", 10}); it->Seek("g"); ASSERT_EQ(it->Valid(), false); it->Seek("h"); ASSERT_EQ(it->Valid(), false); // Verify iteration after seek. it->Seek("c"); VerifyRangeDelIter(it.get(), {{"c", "d", 20}, {"e", "f", 20}, {"f", "g", 10}}); } TEST_F(RangeDelAggregatorTest, TruncateTombstones) { const InternalKey smallest("b", 1, kTypeRangeDeletion); const InternalKey largest("e", kMaxSequenceNumber, kTypeRangeDeletion); VerifyRangeDels( {{"a", "c", 10}, {"d", "f", 10}}, {{"a", 10, true}, // truncated {"b", 10, false}, // not truncated {"d", 10, false}, // not truncated {"e", 10, true}}, // truncated {{"b", "c", 10}, {"d", "e", 10}}, &smallest, &largest); } TEST_F(RangeDelAggregatorTest, OverlappingLargestKeyTruncateTombstones) { const InternalKey smallest("b", 1, kTypeRangeDeletion); const InternalKey largest( "e", 3, // could happen if "e" is in consecutive sstables kTypeValue); VerifyRangeDels( {{"a", "c", 10}, {"d", "f", 10}}, {{"a", 10, true}, // truncated {"b", 10, false}, // not truncated {"d", 10, false}, // not truncated {"e", 10, false}}, // not truncated {{"b", "c", 10}, {"d", "f", 10}}, &smallest, &largest); } } // namespace rocksdb int main(int argc, char** argv) { ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/db/read_callback.h000066400000000000000000000020631337235545400165360ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #include "rocksdb/types.h" namespace rocksdb { class ReadCallback { public: virtual ~ReadCallback() {} // Will be called to see if the seq number visible; if not it moves on to // the next seq number. virtual bool IsVisible(SequenceNumber seq) = 0; // This is called to determine the maximum visible sequence number for the // current transaction for read-your-own-write semantics. This is so that // for write unprepared, we will not skip keys that are written by the // current transaction with the seek to snapshot optimization. // // For other uses, this returns zero, meaning that the current snapshot // sequence number is the maximum visible sequence number. inline virtual SequenceNumber MaxUnpreparedSequenceNumber() { return 0; }; }; } // namespace rocksdb rocksdb-5.17.2/db/repair.cc000066400000000000000000000572101337235545400154330ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. // // Repairer does best effort recovery to recover as much data as possible after // a disaster without compromising consistency. It does not guarantee bringing // the database to a time consistent state. // // Repair process is broken into 4 phases: // (a) Find files // (b) Convert logs to tables // (c) Extract metadata // (d) Write Descriptor // // (a) Find files // // The repairer goes through all the files in the directory, and classifies them // based on their file name. Any file that cannot be identified by name will be // ignored. // // (b) Convert logs to table // // Every log file that is active is replayed. All sections of the file where the // checksum does not match is skipped over. We intentionally give preference to // data consistency. // // (c) Extract metadata // // We scan every table to compute // (1) smallest/largest for the table // (2) largest sequence number in the table // // If we are unable to scan the file, then we ignore the table. // // (d) Write Descriptor // // We generate descriptor contents: // - log number is set to zero // - next-file-number is set to 1 + largest file number we found // - last-sequence-number is set to largest sequence# found across // all tables (see 2c) // - compaction pointers are cleared // - every table file is added at level 0 // // Possible optimization 1: // (a) Compute total size and use to pick appropriate max-level M // (b) Sort tables by largest sequence# in the table // (c) For each table: if it overlaps earlier table, place in level-0, // else place in level-M. // (d) We can provide options for time consistent recovery and unsafe recovery // (ignore checksum failure when applicable) // Possible optimization 2: // Store per-table metadata (smallest, largest, largest-seq#, ...) // in the table's meta section to speed up ScanTable. #ifndef ROCKSDB_LITE #ifndef __STDC_FORMAT_MACROS #define __STDC_FORMAT_MACROS #endif #include #include "db/builder.h" #include "db/db_impl.h" #include "db/dbformat.h" #include "db/log_reader.h" #include "db/log_writer.h" #include "db/memtable.h" #include "db/table_cache.h" #include "db/version_edit.h" #include "db/write_batch_internal.h" #include "options/cf_options.h" #include "rocksdb/comparator.h" #include "rocksdb/db.h" #include "rocksdb/env.h" #include "rocksdb/options.h" #include "rocksdb/write_buffer_manager.h" #include "table/scoped_arena_iterator.h" #include "util/file_reader_writer.h" #include "util/filename.h" #include "util/string_util.h" namespace rocksdb { namespace { class Repairer { public: Repairer(const std::string& dbname, const DBOptions& db_options, const std::vector& column_families, const ColumnFamilyOptions& default_cf_opts, const ColumnFamilyOptions& unknown_cf_opts, bool create_unknown_cfs) : dbname_(dbname), env_(db_options.env), env_options_(), db_options_(SanitizeOptions(dbname_, db_options)), immutable_db_options_(ImmutableDBOptions(db_options_)), icmp_(default_cf_opts.comparator), default_cf_opts_( SanitizeOptions(immutable_db_options_, default_cf_opts)), default_cf_iopts_( ImmutableCFOptions(immutable_db_options_, default_cf_opts_)), unknown_cf_opts_( SanitizeOptions(immutable_db_options_, unknown_cf_opts)), create_unknown_cfs_(create_unknown_cfs), raw_table_cache_( // TableCache can be small since we expect each table to be opened // once. NewLRUCache(10, db_options_.table_cache_numshardbits)), table_cache_(new TableCache(default_cf_iopts_, env_options_, raw_table_cache_.get())), wb_(db_options_.db_write_buffer_size), wc_(db_options_.delayed_write_rate), vset_(dbname_, &immutable_db_options_, env_options_, raw_table_cache_.get(), &wb_, &wc_), next_file_number_(1) { for (const auto& cfd : column_families) { cf_name_to_opts_[cfd.name] = cfd.options; } } const ColumnFamilyOptions* GetColumnFamilyOptions( const std::string& cf_name) { if (cf_name_to_opts_.find(cf_name) == cf_name_to_opts_.end()) { if (create_unknown_cfs_) { return &unknown_cf_opts_; } return nullptr; } return &cf_name_to_opts_[cf_name]; } // Adds a column family to the VersionSet with cf_options_ and updates // manifest. Status AddColumnFamily(const std::string& cf_name, uint32_t cf_id) { const auto* cf_opts = GetColumnFamilyOptions(cf_name); if (cf_opts == nullptr) { return Status::Corruption("Encountered unknown column family with name=" + cf_name + ", id=" + ToString(cf_id)); } Options opts(db_options_, *cf_opts); MutableCFOptions mut_cf_opts(opts); VersionEdit edit; edit.SetComparatorName(opts.comparator->Name()); edit.SetLogNumber(0); edit.SetColumnFamily(cf_id); ColumnFamilyData* cfd; cfd = nullptr; edit.AddColumnFamily(cf_name); mutex_.Lock(); Status status = vset_.LogAndApply(cfd, mut_cf_opts, &edit, &mutex_, nullptr /* db_directory */, false /* new_descriptor_log */, cf_opts); mutex_.Unlock(); return status; } ~Repairer() { delete table_cache_; } Status Run() { Status status = FindFiles(); if (status.ok()) { // Discard older manifests and start a fresh one for (size_t i = 0; i < manifests_.size(); i++) { ArchiveFile(dbname_ + "/" + manifests_[i]); } // Just create a DBImpl temporarily so we can reuse NewDB() DBImpl* db_impl = new DBImpl(db_options_, dbname_); status = db_impl->NewDB(); delete db_impl; } if (status.ok()) { // Recover using the fresh manifest created by NewDB() status = vset_.Recover({{kDefaultColumnFamilyName, default_cf_opts_}}, false); } if (status.ok()) { // Need to scan existing SST files first so the column families are // created before we process WAL files ExtractMetaData(); // ExtractMetaData() uses table_fds_ to know which SST files' metadata to // extract -- we need to clear it here since metadata for existing SST // files has been extracted already table_fds_.clear(); ConvertLogFilesToTables(); ExtractMetaData(); status = AddTables(); } if (status.ok()) { uint64_t bytes = 0; for (size_t i = 0; i < tables_.size(); i++) { bytes += tables_[i].meta.fd.GetFileSize(); } ROCKS_LOG_WARN(db_options_.info_log, "**** Repaired rocksdb %s; " "recovered %" ROCKSDB_PRIszt " files; %" PRIu64 " bytes. " "Some data may have been lost. " "****", dbname_.c_str(), tables_.size(), bytes); } return status; } private: struct TableInfo { FileMetaData meta; uint32_t column_family_id; std::string column_family_name; SequenceNumber min_sequence; SequenceNumber max_sequence; }; std::string const dbname_; Env* const env_; const EnvOptions env_options_; const DBOptions db_options_; const ImmutableDBOptions immutable_db_options_; const InternalKeyComparator icmp_; const ColumnFamilyOptions default_cf_opts_; const ImmutableCFOptions default_cf_iopts_; // table_cache_ holds reference const ColumnFamilyOptions unknown_cf_opts_; const bool create_unknown_cfs_; std::shared_ptr raw_table_cache_; TableCache* table_cache_; WriteBufferManager wb_; WriteController wc_; VersionSet vset_; std::unordered_map cf_name_to_opts_; InstrumentedMutex mutex_; std::vector manifests_; std::vector table_fds_; std::vector logs_; std::vector tables_; uint64_t next_file_number_; Status FindFiles() { std::vector filenames; bool found_file = false; std::vector to_search_paths; for (size_t path_id = 0; path_id < db_options_.db_paths.size(); path_id++) { to_search_paths.push_back(db_options_.db_paths[path_id].path); } // search wal_dir if user uses a customize wal_dir bool same = false; Status status = env_->AreFilesSame(db_options_.wal_dir, dbname_, &same); if (status.IsNotSupported()) { same = db_options_.wal_dir == dbname_; status = Status::OK(); } else if (!status.ok()) { return status; } if (!same) { to_search_paths.push_back(db_options_.wal_dir); } for (size_t path_id = 0; path_id < to_search_paths.size(); path_id++) { status = env_->GetChildren(to_search_paths[path_id], &filenames); if (!status.ok()) { return status; } if (!filenames.empty()) { found_file = true; } uint64_t number; FileType type; for (size_t i = 0; i < filenames.size(); i++) { if (ParseFileName(filenames[i], &number, &type)) { if (type == kDescriptorFile) { manifests_.push_back(filenames[i]); } else { if (number + 1 > next_file_number_) { next_file_number_ = number + 1; } if (type == kLogFile) { logs_.push_back(number); } else if (type == kTableFile) { table_fds_.emplace_back(number, static_cast(path_id), 0); } else { // Ignore other files } } } } } if (!found_file) { return Status::Corruption(dbname_, "repair found no files"); } return Status::OK(); } void ConvertLogFilesToTables() { for (size_t i = 0; i < logs_.size(); i++) { // we should use LogFileName(wal_dir, logs_[i]) here. user might uses wal_dir option. std::string logname = LogFileName(db_options_.wal_dir, logs_[i]); Status status = ConvertLogToTable(logs_[i]); if (!status.ok()) { ROCKS_LOG_WARN(db_options_.info_log, "Log #%" PRIu64 ": ignoring conversion error: %s", logs_[i], status.ToString().c_str()); } ArchiveFile(logname); } } Status ConvertLogToTable(uint64_t log) { struct LogReporter : public log::Reader::Reporter { Env* env; std::shared_ptr info_log; uint64_t lognum; virtual void Corruption(size_t bytes, const Status& s) override { // We print error messages for corruption, but continue repairing. ROCKS_LOG_ERROR(info_log, "Log #%" PRIu64 ": dropping %d bytes; %s", lognum, static_cast(bytes), s.ToString().c_str()); } }; // Open the log file std::string logname = LogFileName(db_options_.wal_dir, log); unique_ptr lfile; Status status = env_->NewSequentialFile( logname, &lfile, env_->OptimizeForLogRead(env_options_)); if (!status.ok()) { return status; } unique_ptr lfile_reader( new SequentialFileReader(std::move(lfile), logname)); // Create the log reader. LogReporter reporter; reporter.env = env_; reporter.info_log = db_options_.info_log; reporter.lognum = log; // We intentionally make log::Reader do checksumming so that // corruptions cause entire commits to be skipped instead of // propagating bad information (like overly large sequence // numbers). log::Reader reader(db_options_.info_log, std::move(lfile_reader), &reporter, true /*enable checksum*/, log); // Initialize per-column family memtables for (auto* cfd : *vset_.GetColumnFamilySet()) { cfd->CreateNewMemtable(*cfd->GetLatestMutableCFOptions(), kMaxSequenceNumber); } auto cf_mems = new ColumnFamilyMemTablesImpl(vset_.GetColumnFamilySet()); // Read all the records and add to a memtable std::string scratch; Slice record; WriteBatch batch; int counter = 0; while (reader.ReadRecord(&record, &scratch)) { if (record.size() < WriteBatchInternal::kHeader) { reporter.Corruption( record.size(), Status::Corruption("log record too small")); continue; } WriteBatchInternal::SetContents(&batch, record); status = WriteBatchInternal::InsertInto(&batch, cf_mems, nullptr); if (status.ok()) { counter += WriteBatchInternal::Count(&batch); } else { ROCKS_LOG_WARN(db_options_.info_log, "Log #%" PRIu64 ": ignoring %s", log, status.ToString().c_str()); status = Status::OK(); // Keep going with rest of file } } // Dump a table for each column family with entries in this log file. for (auto* cfd : *vset_.GetColumnFamilySet()) { // Do not record a version edit for this conversion to a Table // since ExtractMetaData() will also generate edits. MemTable* mem = cfd->mem(); if (mem->IsEmpty()) { continue; } FileMetaData meta; meta.fd = FileDescriptor(next_file_number_++, 0, 0); ReadOptions ro; ro.total_order_seek = true; Arena arena; ScopedArenaIterator iter(mem->NewIterator(ro, &arena)); int64_t _current_time = 0; status = env_->GetCurrentTime(&_current_time); // ignore error const uint64_t current_time = static_cast(_current_time); SnapshotChecker* snapshot_checker = DisableGCSnapshotChecker::Instance(); auto write_hint = cfd->CalculateSSTWriteHint(0); status = BuildTable( dbname_, env_, *cfd->ioptions(), *cfd->GetLatestMutableCFOptions(), env_options_, table_cache_, iter.get(), std::unique_ptr(mem->NewRangeTombstoneIterator(ro)), &meta, cfd->internal_comparator(), cfd->int_tbl_prop_collector_factories(), cfd->GetID(), cfd->GetName(), {}, kMaxSequenceNumber, snapshot_checker, kNoCompression, CompressionOptions(), false, nullptr /* internal_stats */, TableFileCreationReason::kRecovery, nullptr /* event_logger */, 0 /* job_id */, Env::IO_HIGH, nullptr /* table_properties */, -1 /* level */, current_time, write_hint); ROCKS_LOG_INFO(db_options_.info_log, "Log #%" PRIu64 ": %d ops saved to Table #%" PRIu64 " %s", log, counter, meta.fd.GetNumber(), status.ToString().c_str()); if (status.ok()) { if (meta.fd.GetFileSize() > 0) { table_fds_.push_back(meta.fd); } } else { break; } } delete cf_mems; return status; } void ExtractMetaData() { for (size_t i = 0; i < table_fds_.size(); i++) { TableInfo t; t.meta.fd = table_fds_[i]; Status status = ScanTable(&t); if (!status.ok()) { std::string fname = TableFileName( db_options_.db_paths, t.meta.fd.GetNumber(), t.meta.fd.GetPathId()); char file_num_buf[kFormatFileNumberBufSize]; FormatFileNumber(t.meta.fd.GetNumber(), t.meta.fd.GetPathId(), file_num_buf, sizeof(file_num_buf)); ROCKS_LOG_WARN(db_options_.info_log, "Table #%s: ignoring %s", file_num_buf, status.ToString().c_str()); ArchiveFile(fname); } else { tables_.push_back(t); } } } Status ScanTable(TableInfo* t) { std::string fname = TableFileName( db_options_.db_paths, t->meta.fd.GetNumber(), t->meta.fd.GetPathId()); int counter = 0; uint64_t file_size; Status status = env_->GetFileSize(fname, &file_size); t->meta.fd = FileDescriptor(t->meta.fd.GetNumber(), t->meta.fd.GetPathId(), file_size); std::shared_ptr props; if (status.ok()) { status = table_cache_->GetTableProperties(env_options_, icmp_, t->meta.fd, &props); } if (status.ok()) { t->column_family_id = static_cast(props->column_family_id); if (t->column_family_id == TablePropertiesCollectorFactory::Context::kUnknownColumnFamily) { ROCKS_LOG_WARN( db_options_.info_log, "Table #%" PRIu64 ": column family unknown (probably due to legacy format); " "adding to default column family id 0.", t->meta.fd.GetNumber()); t->column_family_id = 0; } if (vset_.GetColumnFamilySet()->GetColumnFamily(t->column_family_id) == nullptr) { status = AddColumnFamily(props->column_family_name, t->column_family_id); } } ColumnFamilyData* cfd = nullptr; if (status.ok()) { cfd = vset_.GetColumnFamilySet()->GetColumnFamily(t->column_family_id); if (cfd->GetName() != props->column_family_name) { ROCKS_LOG_ERROR( db_options_.info_log, "Table #%" PRIu64 ": inconsistent column family name '%s'; expected '%s' for column " "family id %" PRIu32 ".", t->meta.fd.GetNumber(), props->column_family_name.c_str(), cfd->GetName().c_str(), t->column_family_id); status = Status::Corruption(dbname_, "inconsistent column family name"); } } if (status.ok()) { InternalIterator* iter = table_cache_->NewIterator( ReadOptions(), env_options_, cfd->internal_comparator(), t->meta, nullptr /* range_del_agg */, cfd->GetLatestMutableCFOptions()->prefix_extractor.get()); bool empty = true; ParsedInternalKey parsed; t->min_sequence = 0; t->max_sequence = 0; for (iter->SeekToFirst(); iter->Valid(); iter->Next()) { Slice key = iter->key(); if (!ParseInternalKey(key, &parsed)) { ROCKS_LOG_ERROR(db_options_.info_log, "Table #%" PRIu64 ": unparsable key %s", t->meta.fd.GetNumber(), EscapeString(key).c_str()); continue; } counter++; if (empty) { empty = false; t->meta.smallest.DecodeFrom(key); t->min_sequence = parsed.sequence; } t->meta.largest.DecodeFrom(key); if (parsed.sequence < t->min_sequence) { t->min_sequence = parsed.sequence; } if (parsed.sequence > t->max_sequence) { t->max_sequence = parsed.sequence; } } if (!iter->status().ok()) { status = iter->status(); } delete iter; ROCKS_LOG_INFO(db_options_.info_log, "Table #%" PRIu64 ": %d entries %s", t->meta.fd.GetNumber(), counter, status.ToString().c_str()); } return status; } Status AddTables() { std::unordered_map> cf_id_to_tables; SequenceNumber max_sequence = 0; for (size_t i = 0; i < tables_.size(); i++) { cf_id_to_tables[tables_[i].column_family_id].push_back(&tables_[i]); if (max_sequence < tables_[i].max_sequence) { max_sequence = tables_[i].max_sequence; } } vset_.SetLastAllocatedSequence(max_sequence); vset_.SetLastPublishedSequence(max_sequence); vset_.SetLastSequence(max_sequence); for (const auto& cf_id_and_tables : cf_id_to_tables) { auto* cfd = vset_.GetColumnFamilySet()->GetColumnFamily(cf_id_and_tables.first); VersionEdit edit; edit.SetComparatorName(cfd->user_comparator()->Name()); edit.SetLogNumber(0); edit.SetNextFile(next_file_number_); edit.SetColumnFamily(cfd->GetID()); // TODO(opt): separate out into multiple levels for (const auto* table : cf_id_and_tables.second) { edit.AddFile(0, table->meta.fd.GetNumber(), table->meta.fd.GetPathId(), table->meta.fd.GetFileSize(), table->meta.smallest, table->meta.largest, table->min_sequence, table->max_sequence, table->meta.marked_for_compaction); } assert(next_file_number_ > 0); vset_.MarkFileNumberUsed(next_file_number_ - 1); mutex_.Lock(); Status status = vset_.LogAndApply( cfd, *cfd->GetLatestMutableCFOptions(), &edit, &mutex_, nullptr /* db_directory */, false /* new_descriptor_log */); mutex_.Unlock(); if (!status.ok()) { return status; } } return Status::OK(); } void ArchiveFile(const std::string& fname) { // Move into another directory. E.g., for // dir/foo // rename to // dir/lost/foo const char* slash = strrchr(fname.c_str(), '/'); std::string new_dir; if (slash != nullptr) { new_dir.assign(fname.data(), slash - fname.data()); } new_dir.append("/lost"); env_->CreateDir(new_dir); // Ignore error std::string new_file = new_dir; new_file.append("/"); new_file.append((slash == nullptr) ? fname.c_str() : slash + 1); Status s = env_->RenameFile(fname, new_file); ROCKS_LOG_INFO(db_options_.info_log, "Archiving %s: %s\n", fname.c_str(), s.ToString().c_str()); } }; Status GetDefaultCFOptions( const std::vector& column_families, ColumnFamilyOptions* res) { assert(res != nullptr); auto iter = std::find_if(column_families.begin(), column_families.end(), [](const ColumnFamilyDescriptor& cfd) { return cfd.name == kDefaultColumnFamilyName; }); if (iter == column_families.end()) { return Status::InvalidArgument( "column_families", "Must contain entry for default column family"); } *res = iter->options; return Status::OK(); } } // anonymous namespace Status RepairDB(const std::string& dbname, const DBOptions& db_options, const std::vector& column_families ) { ColumnFamilyOptions default_cf_opts; Status status = GetDefaultCFOptions(column_families, &default_cf_opts); if (status.ok()) { Repairer repairer(dbname, db_options, column_families, default_cf_opts, ColumnFamilyOptions() /* unknown_cf_opts */, false /* create_unknown_cfs */); status = repairer.Run(); } return status; } Status RepairDB(const std::string& dbname, const DBOptions& db_options, const std::vector& column_families, const ColumnFamilyOptions& unknown_cf_opts) { ColumnFamilyOptions default_cf_opts; Status status = GetDefaultCFOptions(column_families, &default_cf_opts); if (status.ok()) { Repairer repairer(dbname, db_options, column_families, default_cf_opts, unknown_cf_opts, true /* create_unknown_cfs */); status = repairer.Run(); } return status; } Status RepairDB(const std::string& dbname, const Options& options) { DBOptions db_options(options); ColumnFamilyOptions cf_options(options); Repairer repairer(dbname, db_options, {}, cf_options /* default_cf_opts */, cf_options /* unknown_cf_opts */, true /* create_unknown_cfs */); return repairer.Run(); } } // namespace rocksdb #endif // ROCKSDB_LITE rocksdb-5.17.2/db/repair_test.cc000066400000000000000000000271121337235545400164700ustar00rootroot00000000000000// Copyright (c) 2016-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #ifndef ROCKSDB_LITE #include #include #include #include "db/db_impl.h" #include "db/db_test_util.h" #include "rocksdb/comparator.h" #include "rocksdb/db.h" #include "rocksdb/transaction_log.h" #include "util/file_util.h" #include "util/string_util.h" namespace rocksdb { #ifndef ROCKSDB_LITE class RepairTest : public DBTestBase { public: RepairTest() : DBTestBase("/repair_test") {} std::string GetFirstSstPath() { uint64_t manifest_size; std::vector files; db_->GetLiveFiles(files, &manifest_size); auto sst_iter = std::find_if(files.begin(), files.end(), [](const std::string& file) { uint64_t number; FileType type; bool ok = ParseFileName(file, &number, &type); return ok && type == kTableFile; }); return sst_iter == files.end() ? "" : dbname_ + *sst_iter; } }; TEST_F(RepairTest, LostManifest) { // Add a couple SST files, delete the manifest, and verify RepairDB() saves // the day. Put("key", "val"); Flush(); Put("key2", "val2"); Flush(); // Need to get path before Close() deletes db_, but delete it after Close() to // ensure Close() didn't change the manifest. std::string manifest_path = DescriptorFileName(dbname_, dbfull()->TEST_Current_Manifest_FileNo()); Close(); ASSERT_OK(env_->FileExists(manifest_path)); ASSERT_OK(env_->DeleteFile(manifest_path)); ASSERT_OK(RepairDB(dbname_, CurrentOptions())); Reopen(CurrentOptions()); ASSERT_EQ(Get("key"), "val"); ASSERT_EQ(Get("key2"), "val2"); } TEST_F(RepairTest, CorruptManifest) { // Manifest is in an invalid format. Expect a full recovery. Put("key", "val"); Flush(); Put("key2", "val2"); Flush(); // Need to get path before Close() deletes db_, but overwrite it after Close() // to ensure Close() didn't change the manifest. std::string manifest_path = DescriptorFileName(dbname_, dbfull()->TEST_Current_Manifest_FileNo()); Close(); ASSERT_OK(env_->FileExists(manifest_path)); CreateFile(env_, manifest_path, "blah", false /* use_fsync */); ASSERT_OK(RepairDB(dbname_, CurrentOptions())); Reopen(CurrentOptions()); ASSERT_EQ(Get("key"), "val"); ASSERT_EQ(Get("key2"), "val2"); } TEST_F(RepairTest, IncompleteManifest) { // In this case, the manifest is valid but does not reference all of the SST // files. Expect a full recovery. Put("key", "val"); Flush(); std::string orig_manifest_path = DescriptorFileName(dbname_, dbfull()->TEST_Current_Manifest_FileNo()); CopyFile(orig_manifest_path, orig_manifest_path + ".tmp"); Put("key2", "val2"); Flush(); // Need to get path before Close() deletes db_, but overwrite it after Close() // to ensure Close() didn't change the manifest. std::string new_manifest_path = DescriptorFileName(dbname_, dbfull()->TEST_Current_Manifest_FileNo()); Close(); ASSERT_OK(env_->FileExists(new_manifest_path)); // Replace the manifest with one that is only aware of the first SST file. CopyFile(orig_manifest_path + ".tmp", new_manifest_path); ASSERT_OK(RepairDB(dbname_, CurrentOptions())); Reopen(CurrentOptions()); ASSERT_EQ(Get("key"), "val"); ASSERT_EQ(Get("key2"), "val2"); } TEST_F(RepairTest, PostRepairSstFileNumbering) { // Verify after a DB is repaired, new files will be assigned higher numbers // than old files. Put("key", "val"); Flush(); Put("key2", "val2"); Flush(); uint64_t pre_repair_file_num = dbfull()->TEST_Current_Next_FileNo(); Close(); ASSERT_OK(RepairDB(dbname_, CurrentOptions())); Reopen(CurrentOptions()); uint64_t post_repair_file_num = dbfull()->TEST_Current_Next_FileNo(); ASSERT_GE(post_repair_file_num, pre_repair_file_num); } TEST_F(RepairTest, LostSst) { // Delete one of the SST files but preserve the manifest that refers to it, // then verify the DB is still usable for the intact SST. Put("key", "val"); Flush(); Put("key2", "val2"); Flush(); auto sst_path = GetFirstSstPath(); ASSERT_FALSE(sst_path.empty()); ASSERT_OK(env_->DeleteFile(sst_path)); Close(); ASSERT_OK(RepairDB(dbname_, CurrentOptions())); Reopen(CurrentOptions()); // Exactly one of the key-value pairs should be in the DB now. ASSERT_TRUE((Get("key") == "val") != (Get("key2") == "val2")); } TEST_F(RepairTest, CorruptSst) { // Corrupt one of the SST files but preserve the manifest that refers to it, // then verify the DB is still usable for the intact SST. Put("key", "val"); Flush(); Put("key2", "val2"); Flush(); auto sst_path = GetFirstSstPath(); ASSERT_FALSE(sst_path.empty()); CreateFile(env_, sst_path, "blah", false /* use_fsync */); Close(); ASSERT_OK(RepairDB(dbname_, CurrentOptions())); Reopen(CurrentOptions()); // Exactly one of the key-value pairs should be in the DB now. ASSERT_TRUE((Get("key") == "val") != (Get("key2") == "val2")); } TEST_F(RepairTest, UnflushedSst) { // This test case invokes repair while some data is unflushed, then verifies // that data is in the db. Put("key", "val"); VectorLogPtr wal_files; ASSERT_OK(dbfull()->GetSortedWalFiles(wal_files)); ASSERT_EQ(wal_files.size(), 1); uint64_t total_ssts_size; GetAllSSTFiles(&total_ssts_size); ASSERT_EQ(total_ssts_size, 0); // Need to get path before Close() deletes db_, but delete it after Close() to // ensure Close() didn't change the manifest. std::string manifest_path = DescriptorFileName(dbname_, dbfull()->TEST_Current_Manifest_FileNo()); Close(); ASSERT_OK(env_->FileExists(manifest_path)); ASSERT_OK(env_->DeleteFile(manifest_path)); ASSERT_OK(RepairDB(dbname_, CurrentOptions())); Reopen(CurrentOptions()); ASSERT_OK(dbfull()->GetSortedWalFiles(wal_files)); ASSERT_EQ(wal_files.size(), 0); GetAllSSTFiles(&total_ssts_size); ASSERT_GT(total_ssts_size, 0); ASSERT_EQ(Get("key"), "val"); } TEST_F(RepairTest, SeparateWalDir) { do { Options options = CurrentOptions(); DestroyAndReopen(options); Put("key", "val"); Put("foo", "bar"); VectorLogPtr wal_files; ASSERT_OK(dbfull()->GetSortedWalFiles(wal_files)); ASSERT_EQ(wal_files.size(), 1); uint64_t total_ssts_size; GetAllSSTFiles(&total_ssts_size); ASSERT_EQ(total_ssts_size, 0); std::string manifest_path = DescriptorFileName(dbname_, dbfull()->TEST_Current_Manifest_FileNo()); Close(); ASSERT_OK(env_->FileExists(manifest_path)); ASSERT_OK(env_->DeleteFile(manifest_path)); ASSERT_OK(RepairDB(dbname_, options)); // make sure that all WALs are converted to SSTables. options.wal_dir = ""; Reopen(options); ASSERT_OK(dbfull()->GetSortedWalFiles(wal_files)); ASSERT_EQ(wal_files.size(), 0); GetAllSSTFiles(&total_ssts_size); ASSERT_GT(total_ssts_size, 0); ASSERT_EQ(Get("key"), "val"); ASSERT_EQ(Get("foo"), "bar"); } while(ChangeWalOptions()); } TEST_F(RepairTest, RepairMultipleColumnFamilies) { // Verify repair logic associates SST files with their original column // families. const int kNumCfs = 3; const int kEntriesPerCf = 2; DestroyAndReopen(CurrentOptions()); CreateAndReopenWithCF({"pikachu1", "pikachu2"}, CurrentOptions()); for (int i = 0; i < kNumCfs; ++i) { for (int j = 0; j < kEntriesPerCf; ++j) { Put(i, "key" + ToString(j), "val" + ToString(j)); if (j == kEntriesPerCf - 1 && i == kNumCfs - 1) { // Leave one unflushed so we can verify WAL entries are properly // associated with column families. continue; } Flush(i); } } // Need to get path before Close() deletes db_, but delete it after Close() to // ensure Close() doesn't re-create the manifest. std::string manifest_path = DescriptorFileName(dbname_, dbfull()->TEST_Current_Manifest_FileNo()); Close(); ASSERT_OK(env_->FileExists(manifest_path)); ASSERT_OK(env_->DeleteFile(manifest_path)); ASSERT_OK(RepairDB(dbname_, CurrentOptions())); ReopenWithColumnFamilies({"default", "pikachu1", "pikachu2"}, CurrentOptions()); for (int i = 0; i < kNumCfs; ++i) { for (int j = 0; j < kEntriesPerCf; ++j) { ASSERT_EQ(Get(i, "key" + ToString(j)), "val" + ToString(j)); } } } TEST_F(RepairTest, RepairColumnFamilyOptions) { // Verify repair logic uses correct ColumnFamilyOptions when repairing a // database with different options for column families. const int kNumCfs = 2; const int kEntriesPerCf = 2; Options opts(CurrentOptions()), rev_opts(CurrentOptions()); opts.comparator = BytewiseComparator(); rev_opts.comparator = ReverseBytewiseComparator(); DestroyAndReopen(opts); CreateColumnFamilies({"reverse"}, rev_opts); ReopenWithColumnFamilies({"default", "reverse"}, std::vector{opts, rev_opts}); for (int i = 0; i < kNumCfs; ++i) { for (int j = 0; j < kEntriesPerCf; ++j) { Put(i, "key" + ToString(j), "val" + ToString(j)); if (i == kNumCfs - 1 && j == kEntriesPerCf - 1) { // Leave one unflushed so we can verify RepairDB's flush logic continue; } Flush(i); } } Close(); // RepairDB() records the comparator in the manifest, and DB::Open would fail // if a different comparator were used. ASSERT_OK(RepairDB(dbname_, opts, {{"default", opts}, {"reverse", rev_opts}}, opts /* unknown_cf_opts */)); ASSERT_OK(TryReopenWithColumnFamilies({"default", "reverse"}, std::vector{opts, rev_opts})); for (int i = 0; i < kNumCfs; ++i) { for (int j = 0; j < kEntriesPerCf; ++j) { ASSERT_EQ(Get(i, "key" + ToString(j)), "val" + ToString(j)); } } // Examine table properties to verify RepairDB() used the right options when // converting WAL->SST TablePropertiesCollection fname_to_props; db_->GetPropertiesOfAllTables(handles_[1], &fname_to_props); ASSERT_EQ(fname_to_props.size(), 2U); for (const auto& fname_and_props : fname_to_props) { std::string comparator_name ( InternalKeyComparator(rev_opts.comparator).Name()); comparator_name = comparator_name.substr(comparator_name.find(':') + 1); ASSERT_EQ(comparator_name, fname_and_props.second->comparator_name); } // Also check comparator when it's provided via "unknown" CF options ASSERT_OK(RepairDB(dbname_, opts, {{"default", opts}}, rev_opts /* unknown_cf_opts */)); ASSERT_OK(TryReopenWithColumnFamilies({"default", "reverse"}, std::vector{opts, rev_opts})); for (int i = 0; i < kNumCfs; ++i) { for (int j = 0; j < kEntriesPerCf; ++j) { ASSERT_EQ(Get(i, "key" + ToString(j)), "val" + ToString(j)); } } } TEST_F(RepairTest, DbNameContainsTrailingSlash) { { bool tmp; if (env_->AreFilesSame("", "", &tmp).IsNotSupported()) { fprintf(stderr, "skipping RepairTest.DbNameContainsTrailingSlash due to " "unsupported Env::AreFilesSame\n"); return; } } Put("key", "val"); Flush(); Close(); ASSERT_OK(RepairDB(dbname_ + "/", CurrentOptions())); Reopen(CurrentOptions()); ASSERT_EQ(Get("key"), "val"); } #endif // ROCKSDB_LITE } // namespace rocksdb int main(int argc, char** argv) { ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } #else #include int main(int /*argc*/, char** /*argv*/) { fprintf(stderr, "SKIPPED as RepairDB is not supported in ROCKSDB_LITE\n"); return 0; } #endif // ROCKSDB_LITE rocksdb-5.17.2/db/snapshot_checker.h000066400000000000000000000031661337235545400173370ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #include "rocksdb/types.h" namespace rocksdb { // Callback class that control GC of duplicate keys in flush/compaction class SnapshotChecker { public: virtual ~SnapshotChecker() {} virtual bool IsInSnapshot(SequenceNumber sequence, SequenceNumber snapshot_sequence) const = 0; }; class DisableGCSnapshotChecker : public SnapshotChecker { public: virtual ~DisableGCSnapshotChecker() {} virtual bool IsInSnapshot( SequenceNumber /*sequence*/, SequenceNumber /*snapshot_sequence*/) const override { // By returning false, we prevent all the values from being GCed return false; } static DisableGCSnapshotChecker* Instance() { return &instance_; } protected: static DisableGCSnapshotChecker instance_; explicit DisableGCSnapshotChecker() {} }; class WritePreparedTxnDB; // Callback class created by WritePreparedTxnDB to check if a key // is visible by a snapshot. class WritePreparedSnapshotChecker : public SnapshotChecker { public: explicit WritePreparedSnapshotChecker(WritePreparedTxnDB* txn_db); virtual ~WritePreparedSnapshotChecker() {} virtual bool IsInSnapshot(SequenceNumber sequence, SequenceNumber snapshot_sequence) const override; private: #ifndef ROCKSDB_LITE const WritePreparedTxnDB* const txn_db_; #endif // !ROCKSDB_LITE }; } // namespace rocksdb rocksdb-5.17.2/db/snapshot_impl.cc000066400000000000000000000013771337235545400170340ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include "rocksdb/snapshot.h" #include "rocksdb/db.h" namespace rocksdb { ManagedSnapshot::ManagedSnapshot(DB* db) : db_(db), snapshot_(db->GetSnapshot()) {} ManagedSnapshot::ManagedSnapshot(DB* db, const Snapshot* _snapshot) : db_(db), snapshot_(_snapshot) {} ManagedSnapshot::~ManagedSnapshot() { if (snapshot_) { db_->ReleaseSnapshot(snapshot_); } } const Snapshot* ManagedSnapshot::snapshot() { return snapshot_;} } // namespace rocksdb rocksdb-5.17.2/db/snapshot_impl.h000066400000000000000000000101521337235545400166650ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #include #include "rocksdb/db.h" namespace rocksdb { class SnapshotList; // Snapshots are kept in a doubly-linked list in the DB. // Each SnapshotImpl corresponds to a particular sequence number. class SnapshotImpl : public Snapshot { public: SequenceNumber number_; // const after creation // It indicates the smallest uncommitted data at the time the snapshot was // taken. This is currently used by WritePrepared transactions to limit the // scope of queries to IsInSnpashot. SequenceNumber min_uncommitted_ = 0; virtual SequenceNumber GetSequenceNumber() const override { return number_; } private: friend class SnapshotList; // SnapshotImpl is kept in a doubly-linked circular list SnapshotImpl* prev_; SnapshotImpl* next_; SnapshotList* list_; // just for sanity checks int64_t unix_time_; // Will this snapshot be used by a Transaction to do write-conflict checking? bool is_write_conflict_boundary_; }; class SnapshotList { public: SnapshotList() { list_.prev_ = &list_; list_.next_ = &list_; list_.number_ = 0xFFFFFFFFL; // placeholder marker, for debugging // Set all the variables to make UBSAN happy. list_.list_ = nullptr; list_.unix_time_ = 0; list_.is_write_conflict_boundary_ = false; count_ = 0; } // No copy-construct. SnapshotList(const SnapshotList&) = delete; bool empty() const { return list_.next_ == &list_; } SnapshotImpl* oldest() const { assert(!empty()); return list_.next_; } SnapshotImpl* newest() const { assert(!empty()); return list_.prev_; } SnapshotImpl* New(SnapshotImpl* s, SequenceNumber seq, uint64_t unix_time, bool is_write_conflict_boundary) { s->number_ = seq; s->unix_time_ = unix_time; s->is_write_conflict_boundary_ = is_write_conflict_boundary; s->list_ = this; s->next_ = &list_; s->prev_ = list_.prev_; s->prev_->next_ = s; s->next_->prev_ = s; count_++; return s; } // Do not responsible to free the object. void Delete(const SnapshotImpl* s) { assert(s->list_ == this); s->prev_->next_ = s->next_; s->next_->prev_ = s->prev_; count_--; } // retrieve all snapshot numbers up until max_seq. They are sorted in // ascending order. std::vector GetAll( SequenceNumber* oldest_write_conflict_snapshot = nullptr, const SequenceNumber& max_seq = kMaxSequenceNumber) const { std::vector ret; if (oldest_write_conflict_snapshot != nullptr) { *oldest_write_conflict_snapshot = kMaxSequenceNumber; } if (empty()) { return ret; } const SnapshotImpl* s = &list_; while (s->next_ != &list_) { if (s->next_->number_ > max_seq) { break; } ret.push_back(s->next_->number_); if (oldest_write_conflict_snapshot != nullptr && *oldest_write_conflict_snapshot == kMaxSequenceNumber && s->next_->is_write_conflict_boundary_) { // If this is the first write-conflict boundary snapshot in the list, // it is the oldest *oldest_write_conflict_snapshot = s->next_->number_; } s = s->next_; } return ret; } // get the sequence number of the most recent snapshot SequenceNumber GetNewest() { if (empty()) { return 0; } return newest()->number_; } int64_t GetOldestSnapshotTime() const { if (empty()) { return 0; } else { return oldest()->unix_time_; } } uint64_t count() const { return count_; } private: // Dummy head of doubly-linked list of snapshots SnapshotImpl list_; uint64_t count_; }; } // namespace rocksdb rocksdb-5.17.2/db/table_cache.cc000066400000000000000000000416611337235545400163660ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "db/table_cache.h" #include "db/dbformat.h" #include "db/version_edit.h" #include "util/filename.h" #include "monitoring/perf_context_imp.h" #include "rocksdb/statistics.h" #include "table/get_context.h" #include "table/internal_iterator.h" #include "table/iterator_wrapper.h" #include "table/table_builder.h" #include "table/table_reader.h" #include "util/coding.h" #include "util/file_reader_writer.h" #include "util/stop_watch.h" #include "util/sync_point.h" namespace rocksdb { namespace { template static void DeleteEntry(const Slice& /*key*/, void* value) { T* typed_value = reinterpret_cast(value); delete typed_value; } static void UnrefEntry(void* arg1, void* arg2) { Cache* cache = reinterpret_cast(arg1); Cache::Handle* h = reinterpret_cast(arg2); cache->Release(h); } static void DeleteTableReader(void* arg1, void* /*arg2*/) { TableReader* table_reader = reinterpret_cast(arg1); delete table_reader; } static Slice GetSliceForFileNumber(const uint64_t* file_number) { return Slice(reinterpret_cast(file_number), sizeof(*file_number)); } #ifndef ROCKSDB_LITE void AppendVarint64(IterKey* key, uint64_t v) { char buf[10]; auto ptr = EncodeVarint64(buf, v); key->TrimAppend(key->Size(), buf, ptr - buf); } #endif // ROCKSDB_LITE } // namespace TableCache::TableCache(const ImmutableCFOptions& ioptions, const EnvOptions& env_options, Cache* const cache) : ioptions_(ioptions), env_options_(env_options), cache_(cache), immortal_tables_(false) { if (ioptions_.row_cache) { // If the same cache is shared by multiple instances, we need to // disambiguate its entries. PutVarint64(&row_cache_id_, ioptions_.row_cache->NewId()); } } TableCache::~TableCache() { } TableReader* TableCache::GetTableReaderFromHandle(Cache::Handle* handle) { return reinterpret_cast(cache_->Value(handle)); } void TableCache::ReleaseHandle(Cache::Handle* handle) { cache_->Release(handle); } Status TableCache::GetTableReader( const EnvOptions& env_options, const InternalKeyComparator& internal_comparator, const FileDescriptor& fd, bool sequential_mode, size_t readahead, bool record_read_stats, HistogramImpl* file_read_hist, unique_ptr* table_reader, const SliceTransform* prefix_extractor, bool skip_filters, int level, bool prefetch_index_and_filter_in_cache, bool for_compaction) { std::string fname = TableFileName(ioptions_.cf_paths, fd.GetNumber(), fd.GetPathId()); unique_ptr file; Status s = ioptions_.env->NewRandomAccessFile(fname, &file, env_options); RecordTick(ioptions_.statistics, NO_FILE_OPENS); if (s.ok()) { if (readahead > 0 && !env_options.use_mmap_reads) { // Not compatible with mmap files since ReadaheadRandomAccessFile requires // its wrapped file's Read() to copy data into the provided scratch // buffer, which mmap files don't use. // TODO(ajkr): try madvise for mmap files in place of buffered readahead. file = NewReadaheadRandomAccessFile(std::move(file), readahead); } if (!sequential_mode && ioptions_.advise_random_on_open) { file->Hint(RandomAccessFile::RANDOM); } StopWatch sw(ioptions_.env, ioptions_.statistics, TABLE_OPEN_IO_MICROS); std::unique_ptr file_reader( new RandomAccessFileReader( std::move(file), fname, ioptions_.env, record_read_stats ? ioptions_.statistics : nullptr, SST_READ_MICROS, file_read_hist, ioptions_.rate_limiter, for_compaction)); s = ioptions_.table_factory->NewTableReader( TableReaderOptions(ioptions_, prefix_extractor, env_options, internal_comparator, skip_filters, immortal_tables_, level, fd.largest_seqno), std::move(file_reader), fd.GetFileSize(), table_reader, prefetch_index_and_filter_in_cache); TEST_SYNC_POINT("TableCache::GetTableReader:0"); } return s; } void TableCache::EraseHandle(const FileDescriptor& fd, Cache::Handle* handle) { ReleaseHandle(handle); uint64_t number = fd.GetNumber(); Slice key = GetSliceForFileNumber(&number); cache_->Erase(key); } Status TableCache::FindTable(const EnvOptions& env_options, const InternalKeyComparator& internal_comparator, const FileDescriptor& fd, Cache::Handle** handle, const SliceTransform* prefix_extractor, const bool no_io, bool record_read_stats, HistogramImpl* file_read_hist, bool skip_filters, int level, bool prefetch_index_and_filter_in_cache) { PERF_TIMER_GUARD(find_table_nanos); Status s; uint64_t number = fd.GetNumber(); Slice key = GetSliceForFileNumber(&number); *handle = cache_->Lookup(key); TEST_SYNC_POINT_CALLBACK("TableCache::FindTable:0", const_cast(&no_io)); if (*handle == nullptr) { if (no_io) { // Don't do IO and return a not-found status return Status::Incomplete("Table not found in table_cache, no_io is set"); } unique_ptr table_reader; s = GetTableReader(env_options, internal_comparator, fd, false /* sequential mode */, 0 /* readahead */, record_read_stats, file_read_hist, &table_reader, prefix_extractor, skip_filters, level, prefetch_index_and_filter_in_cache); if (!s.ok()) { assert(table_reader == nullptr); RecordTick(ioptions_.statistics, NO_FILE_ERRORS); // We do not cache error results so that if the error is transient, // or somebody repairs the file, we recover automatically. } else { s = cache_->Insert(key, table_reader.get(), 1, &DeleteEntry, handle); if (s.ok()) { // Release ownership of table reader. table_reader.release(); } } } return s; } InternalIterator* TableCache::NewIterator( const ReadOptions& options, const EnvOptions& env_options, const InternalKeyComparator& icomparator, const FileMetaData& file_meta, RangeDelAggregator* range_del_agg, const SliceTransform* prefix_extractor, TableReader** table_reader_ptr, HistogramImpl* file_read_hist, bool for_compaction, Arena* arena, bool skip_filters, int level) { PERF_TIMER_GUARD(new_table_iterator_nanos); Status s; bool create_new_table_reader = false; TableReader* table_reader = nullptr; Cache::Handle* handle = nullptr; if (table_reader_ptr != nullptr) { *table_reader_ptr = nullptr; } size_t readahead = 0; if (for_compaction) { #ifndef NDEBUG bool use_direct_reads_for_compaction = env_options.use_direct_reads; TEST_SYNC_POINT_CALLBACK("TableCache::NewIterator:for_compaction", &use_direct_reads_for_compaction); #endif // !NDEBUG if (ioptions_.new_table_reader_for_compaction_inputs) { // get compaction_readahead_size from env_options allows us to set the // value dynamically readahead = env_options.compaction_readahead_size; create_new_table_reader = true; } } else { readahead = options.readahead_size; create_new_table_reader = readahead > 0; } auto& fd = file_meta.fd; if (create_new_table_reader) { unique_ptr table_reader_unique_ptr; s = GetTableReader( env_options, icomparator, fd, true /* sequential_mode */, readahead, !for_compaction /* record stats */, nullptr, &table_reader_unique_ptr, prefix_extractor, false /* skip_filters */, level, true /* prefetch_index_and_filter_in_cache */, for_compaction); if (s.ok()) { table_reader = table_reader_unique_ptr.release(); } } else { table_reader = fd.table_reader; if (table_reader == nullptr) { s = FindTable(env_options, icomparator, fd, &handle, prefix_extractor, options.read_tier == kBlockCacheTier /* no_io */, !for_compaction /* record read_stats */, file_read_hist, skip_filters, level); if (s.ok()) { table_reader = GetTableReaderFromHandle(handle); } } } InternalIterator* result = nullptr; if (s.ok()) { if (options.table_filter && !options.table_filter(*table_reader->GetTableProperties())) { result = NewEmptyInternalIterator(arena); } else { result = table_reader->NewIterator(options, prefix_extractor, arena, skip_filters, for_compaction); } if (create_new_table_reader) { assert(handle == nullptr); result->RegisterCleanup(&DeleteTableReader, table_reader, nullptr); } else if (handle != nullptr) { result->RegisterCleanup(&UnrefEntry, cache_, handle); handle = nullptr; // prevent from releasing below } if (for_compaction) { table_reader->SetupForCompaction(); } if (table_reader_ptr != nullptr) { *table_reader_ptr = table_reader; } } if (s.ok() && range_del_agg != nullptr && !options.ignore_range_deletions) { if (range_del_agg->AddFile(fd.GetNumber())) { std::unique_ptr range_del_iter( table_reader->NewRangeTombstoneIterator(options)); if (range_del_iter != nullptr) { s = range_del_iter->status(); } if (s.ok()) { s = range_del_agg->AddTombstones( std::move(range_del_iter), &file_meta.smallest, &file_meta.largest); } } } if (handle != nullptr) { ReleaseHandle(handle); } if (!s.ok()) { assert(result == nullptr); result = NewErrorInternalIterator(s, arena); } return result; } Status TableCache::Get(const ReadOptions& options, const InternalKeyComparator& internal_comparator, const FileMetaData& file_meta, const Slice& k, GetContext* get_context, const SliceTransform* prefix_extractor, HistogramImpl* file_read_hist, bool skip_filters, int level) { auto& fd = file_meta.fd; std::string* row_cache_entry = nullptr; bool done = false; #ifndef ROCKSDB_LITE IterKey row_cache_key; std::string row_cache_entry_buffer; // Check row cache if enabled. Since row cache does not currently store // sequence numbers, we cannot use it if we need to fetch the sequence. if (ioptions_.row_cache && !get_context->NeedToReadSequence()) { uint64_t fd_number = fd.GetNumber(); auto user_key = ExtractUserKey(k); // We use the user key as cache key instead of the internal key, // otherwise the whole cache would be invalidated every time the // sequence key increases. However, to support caching snapshot // reads, we append the sequence number (incremented by 1 to // distinguish from 0) only in this case. uint64_t seq_no = options.snapshot == nullptr ? 0 : 1 + GetInternalKeySeqno(k); // Compute row cache key. row_cache_key.TrimAppend(row_cache_key.Size(), row_cache_id_.data(), row_cache_id_.size()); AppendVarint64(&row_cache_key, fd_number); AppendVarint64(&row_cache_key, seq_no); row_cache_key.TrimAppend(row_cache_key.Size(), user_key.data(), user_key.size()); if (auto row_handle = ioptions_.row_cache->Lookup(row_cache_key.GetUserKey())) { // Cleanable routine to release the cache entry Cleanable value_pinner; auto release_cache_entry_func = [](void* cache_to_clean, void* cache_handle) { ((Cache*)cache_to_clean)->Release((Cache::Handle*)cache_handle); }; auto found_row_cache_entry = static_cast( ioptions_.row_cache->Value(row_handle)); // If it comes here value is located on the cache. // found_row_cache_entry points to the value on cache, // and value_pinner has cleanup procedure for the cached entry. // After replayGetContextLog() returns, get_context.pinnable_slice_ // will point to cache entry buffer (or a copy based on that) and // cleanup routine under value_pinner will be delegated to // get_context.pinnable_slice_. Cache entry is released when // get_context.pinnable_slice_ is reset. value_pinner.RegisterCleanup(release_cache_entry_func, ioptions_.row_cache.get(), row_handle); replayGetContextLog(*found_row_cache_entry, user_key, get_context, &value_pinner); RecordTick(ioptions_.statistics, ROW_CACHE_HIT); done = true; } else { // Not found, setting up the replay log. RecordTick(ioptions_.statistics, ROW_CACHE_MISS); row_cache_entry = &row_cache_entry_buffer; } } #endif // ROCKSDB_LITE Status s; TableReader* t = fd.table_reader; Cache::Handle* handle = nullptr; if (!done && s.ok()) { if (t == nullptr) { s = FindTable( env_options_, internal_comparator, fd, &handle, prefix_extractor, options.read_tier == kBlockCacheTier /* no_io */, true /* record_read_stats */, file_read_hist, skip_filters, level); if (s.ok()) { t = GetTableReaderFromHandle(handle); } } if (s.ok() && get_context->range_del_agg() != nullptr && !options.ignore_range_deletions) { std::unique_ptr range_del_iter( t->NewRangeTombstoneIterator(options)); if (range_del_iter != nullptr) { s = range_del_iter->status(); } if (s.ok()) { s = get_context->range_del_agg()->AddTombstones( std::move(range_del_iter), &file_meta.smallest, &file_meta.largest); } } if (s.ok()) { get_context->SetReplayLog(row_cache_entry); // nullptr if no cache. s = t->Get(options, k, get_context, prefix_extractor, skip_filters); get_context->SetReplayLog(nullptr); } else if (options.read_tier == kBlockCacheTier && s.IsIncomplete()) { // Couldn't find Table in cache but treat as kFound if no_io set get_context->MarkKeyMayExist(); s = Status::OK(); done = true; } } #ifndef ROCKSDB_LITE // Put the replay log in row cache only if something was found. if (!done && s.ok() && row_cache_entry && !row_cache_entry->empty()) { size_t charge = row_cache_key.Size() + row_cache_entry->size() + sizeof(std::string); void* row_ptr = new std::string(std::move(*row_cache_entry)); ioptions_.row_cache->Insert(row_cache_key.GetUserKey(), row_ptr, charge, &DeleteEntry); } #endif // ROCKSDB_LITE if (handle != nullptr) { ReleaseHandle(handle); } return s; } Status TableCache::GetTableProperties( const EnvOptions& env_options, const InternalKeyComparator& internal_comparator, const FileDescriptor& fd, std::shared_ptr* properties, const SliceTransform* prefix_extractor, bool no_io) { Status s; auto table_reader = fd.table_reader; // table already been pre-loaded? if (table_reader) { *properties = table_reader->GetTableProperties(); return s; } Cache::Handle* table_handle = nullptr; s = FindTable(env_options, internal_comparator, fd, &table_handle, prefix_extractor, no_io); if (!s.ok()) { return s; } assert(table_handle); auto table = GetTableReaderFromHandle(table_handle); *properties = table->GetTableProperties(); ReleaseHandle(table_handle); return s; } size_t TableCache::GetMemoryUsageByTableReader( const EnvOptions& env_options, const InternalKeyComparator& internal_comparator, const FileDescriptor& fd, const SliceTransform* prefix_extractor) { Status s; auto table_reader = fd.table_reader; // table already been pre-loaded? if (table_reader) { return table_reader->ApproximateMemoryUsage(); } Cache::Handle* table_handle = nullptr; s = FindTable(env_options, internal_comparator, fd, &table_handle, prefix_extractor, true); if (!s.ok()) { return 0; } assert(table_handle); auto table = GetTableReaderFromHandle(table_handle); auto ret = table->ApproximateMemoryUsage(); ReleaseHandle(table_handle); return ret; } void TableCache::Evict(Cache* cache, uint64_t file_number) { cache->Erase(GetSliceForFileNumber(&file_number)); } } // namespace rocksdb rocksdb-5.17.2/db/table_cache.h000066400000000000000000000152351337235545400162260ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. // // Thread-safe (provides internal synchronization) #pragma once #include #include #include #include "db/dbformat.h" #include "db/range_del_aggregator.h" #include "options/cf_options.h" #include "port/port.h" #include "rocksdb/cache.h" #include "rocksdb/env.h" #include "rocksdb/options.h" #include "rocksdb/table.h" #include "table/table_reader.h" namespace rocksdb { class Env; class Arena; struct FileDescriptor; class GetContext; class HistogramImpl; class TableCache { public: TableCache(const ImmutableCFOptions& ioptions, const EnvOptions& storage_options, Cache* cache); ~TableCache(); // Return an iterator for the specified file number (the corresponding // file length must be exactly "file_size" bytes). If "tableptr" is // non-nullptr, also sets "*tableptr" to point to the Table object // underlying the returned iterator, or nullptr if no Table object underlies // the returned iterator. The returned "*tableptr" object is owned by // the cache and should not be deleted, and is valid for as long as the // returned iterator is live. // @param range_del_agg If non-nullptr, adds range deletions to the // aggregator. If an error occurs, returns it in a NewErrorInternalIterator // @param skip_filters Disables loading/accessing the filter block // @param level The level this table is at, -1 for "not set / don't know" InternalIterator* NewIterator( const ReadOptions& options, const EnvOptions& toptions, const InternalKeyComparator& internal_comparator, const FileMetaData& file_meta, RangeDelAggregator* range_del_agg, const SliceTransform* prefix_extractor = nullptr, TableReader** table_reader_ptr = nullptr, HistogramImpl* file_read_hist = nullptr, bool for_compaction = false, Arena* arena = nullptr, bool skip_filters = false, int level = -1); // If a seek to internal key "k" in specified file finds an entry, // call (*handle_result)(arg, found_key, found_value) repeatedly until // it returns false. // @param get_context State for get operation. If its range_del_agg() returns // non-nullptr, adds range deletions to the aggregator. If an error occurs, // returns non-ok status. // @param skip_filters Disables loading/accessing the filter block // @param level The level this table is at, -1 for "not set / don't know" Status Get(const ReadOptions& options, const InternalKeyComparator& internal_comparator, const FileMetaData& file_meta, const Slice& k, GetContext* get_context, const SliceTransform* prefix_extractor = nullptr, HistogramImpl* file_read_hist = nullptr, bool skip_filters = false, int level = -1); // Evict any entry for the specified file number static void Evict(Cache* cache, uint64_t file_number); // Clean table handle and erase it from the table cache // Used in DB close, or the file is not live anymore. void EraseHandle(const FileDescriptor& fd, Cache::Handle* handle); // Find table reader // @param skip_filters Disables loading/accessing the filter block // @param level == -1 means not specified Status FindTable(const EnvOptions& toptions, const InternalKeyComparator& internal_comparator, const FileDescriptor& file_fd, Cache::Handle**, const SliceTransform* prefix_extractor = nullptr, const bool no_io = false, bool record_read_stats = true, HistogramImpl* file_read_hist = nullptr, bool skip_filters = false, int level = -1, bool prefetch_index_and_filter_in_cache = true); // Get TableReader from a cache handle. TableReader* GetTableReaderFromHandle(Cache::Handle* handle); // Get the table properties of a given table. // @no_io: indicates if we should load table to the cache if it is not present // in table cache yet. // @returns: `properties` will be reset on success. Please note that we will // return Status::Incomplete() if table is not present in cache and // we set `no_io` to be true. Status GetTableProperties(const EnvOptions& toptions, const InternalKeyComparator& internal_comparator, const FileDescriptor& file_meta, std::shared_ptr* properties, const SliceTransform* prefix_extractor = nullptr, bool no_io = false); // Return total memory usage of the table reader of the file. // 0 if table reader of the file is not loaded. size_t GetMemoryUsageByTableReader( const EnvOptions& toptions, const InternalKeyComparator& internal_comparator, const FileDescriptor& fd, const SliceTransform* prefix_extractor = nullptr); // Release the handle from a cache void ReleaseHandle(Cache::Handle* handle); // Capacity of the backing Cache that indicates inifinite TableCache capacity. // For example when max_open_files is -1 we set the backing Cache to this. static const int kInfiniteCapacity = 0x400000; // The tables opened with this TableCache will be immortal, i.e., their // lifetime is as long as that of the DB. void SetTablesAreImmortal() { if (cache_->GetCapacity() >= kInfiniteCapacity) { immortal_tables_ = true; } } private: // Build a table reader Status GetTableReader(const EnvOptions& env_options, const InternalKeyComparator& internal_comparator, const FileDescriptor& fd, bool sequential_mode, size_t readahead, bool record_read_stats, HistogramImpl* file_read_hist, unique_ptr* table_reader, const SliceTransform* prefix_extractor = nullptr, bool skip_filters = false, int level = -1, bool prefetch_index_and_filter_in_cache = true, bool for_compaction = false); const ImmutableCFOptions& ioptions_; const EnvOptions& env_options_; Cache* const cache_; std::string row_cache_id_; bool immortal_tables_; }; } // namespace rocksdb rocksdb-5.17.2/db/table_properties_collector.cc000066400000000000000000000074251337235545400215650ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include "db/table_properties_collector.h" #include "db/dbformat.h" #include "util/coding.h" #include "util/string_util.h" namespace rocksdb { Status InternalKeyPropertiesCollector::InternalAdd(const Slice& key, const Slice& /*value*/, uint64_t /*file_size*/) { ParsedInternalKey ikey; if (!ParseInternalKey(key, &ikey)) { return Status::InvalidArgument("Invalid internal key"); } // Note: We count both, deletions and single deletions here. if (ikey.type == ValueType::kTypeDeletion || ikey.type == ValueType::kTypeSingleDeletion) { ++deleted_keys_; } else if (ikey.type == ValueType::kTypeMerge) { ++merge_operands_; } return Status::OK(); } Status InternalKeyPropertiesCollector::Finish( UserCollectedProperties* properties) { assert(properties); assert(properties->find( InternalKeyTablePropertiesNames::kDeletedKeys) == properties->end()); assert(properties->find(InternalKeyTablePropertiesNames::kMergeOperands) == properties->end()); std::string val_deleted_keys; PutVarint64(&val_deleted_keys, deleted_keys_); properties->insert( {InternalKeyTablePropertiesNames::kDeletedKeys, val_deleted_keys}); std::string val_merge_operands; PutVarint64(&val_merge_operands, merge_operands_); properties->insert( {InternalKeyTablePropertiesNames::kMergeOperands, val_merge_operands}); return Status::OK(); } UserCollectedProperties InternalKeyPropertiesCollector::GetReadableProperties() const { return {{"kDeletedKeys", ToString(deleted_keys_)}, {"kMergeOperands", ToString(merge_operands_)}}; } namespace { uint64_t GetUint64Property(const UserCollectedProperties& props, const std::string& property_name, bool* property_present) { auto pos = props.find(property_name); if (pos == props.end()) { *property_present = false; return 0; } Slice raw = pos->second; uint64_t val = 0; *property_present = true; return GetVarint64(&raw, &val) ? val : 0; } } // namespace Status UserKeyTablePropertiesCollector::InternalAdd(const Slice& key, const Slice& value, uint64_t file_size) { ParsedInternalKey ikey; if (!ParseInternalKey(key, &ikey)) { return Status::InvalidArgument("Invalid internal key"); } return collector_->AddUserKey(ikey.user_key, value, GetEntryType(ikey.type), ikey.sequence, file_size); } Status UserKeyTablePropertiesCollector::Finish( UserCollectedProperties* properties) { return collector_->Finish(properties); } UserCollectedProperties UserKeyTablePropertiesCollector::GetReadableProperties() const { return collector_->GetReadableProperties(); } const std::string InternalKeyTablePropertiesNames::kDeletedKeys = "rocksdb.deleted.keys"; const std::string InternalKeyTablePropertiesNames::kMergeOperands = "rocksdb.merge.operands"; uint64_t GetDeletedKeys( const UserCollectedProperties& props) { bool property_present_ignored; return GetUint64Property(props, InternalKeyTablePropertiesNames::kDeletedKeys, &property_present_ignored); } uint64_t GetMergeOperands(const UserCollectedProperties& props, bool* property_present) { return GetUint64Property( props, InternalKeyTablePropertiesNames::kMergeOperands, property_present); } } // namespace rocksdb rocksdb-5.17.2/db/table_properties_collector.h000066400000000000000000000104361337235545400214230ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file defines a collection of statistics collectors. #pragma once #include "rocksdb/table_properties.h" #include #include #include namespace rocksdb { struct InternalKeyTablePropertiesNames { static const std::string kDeletedKeys; static const std::string kMergeOperands; }; // Base class for internal table properties collector. class IntTblPropCollector { public: virtual ~IntTblPropCollector() {} virtual Status Finish(UserCollectedProperties* properties) = 0; virtual const char* Name() const = 0; // @params key the user key that is inserted into the table. // @params value the value that is inserted into the table. virtual Status InternalAdd(const Slice& key, const Slice& value, uint64_t file_size) = 0; virtual UserCollectedProperties GetReadableProperties() const = 0; virtual bool NeedCompact() const { return false; } }; // Factory for internal table properties collector. class IntTblPropCollectorFactory { public: virtual ~IntTblPropCollectorFactory() {} // has to be thread-safe virtual IntTblPropCollector* CreateIntTblPropCollector( uint32_t column_family_id) = 0; // The name of the properties collector can be used for debugging purpose. virtual const char* Name() const = 0; }; // Collecting the statistics for internal keys. Visible only by internal // rocksdb modules. class InternalKeyPropertiesCollector : public IntTblPropCollector { public: virtual Status InternalAdd(const Slice& key, const Slice& value, uint64_t file_size) override; virtual Status Finish(UserCollectedProperties* properties) override; virtual const char* Name() const override { return "InternalKeyPropertiesCollector"; } UserCollectedProperties GetReadableProperties() const override; private: uint64_t deleted_keys_ = 0; uint64_t merge_operands_ = 0; }; class InternalKeyPropertiesCollectorFactory : public IntTblPropCollectorFactory { public: virtual IntTblPropCollector* CreateIntTblPropCollector( uint32_t /*column_family_id*/) override { return new InternalKeyPropertiesCollector(); } virtual const char* Name() const override { return "InternalKeyPropertiesCollectorFactory"; } }; // When rocksdb creates a new table, it will encode all "user keys" into // "internal keys", which contains meta information of a given entry. // // This class extracts user key from the encoded internal key when Add() is // invoked. class UserKeyTablePropertiesCollector : public IntTblPropCollector { public: // transfer of ownership explicit UserKeyTablePropertiesCollector(TablePropertiesCollector* collector) : collector_(collector) {} virtual ~UserKeyTablePropertiesCollector() {} virtual Status InternalAdd(const Slice& key, const Slice& value, uint64_t file_size) override; virtual Status Finish(UserCollectedProperties* properties) override; virtual const char* Name() const override { return collector_->Name(); } UserCollectedProperties GetReadableProperties() const override; virtual bool NeedCompact() const override { return collector_->NeedCompact(); } protected: std::unique_ptr collector_; }; class UserKeyTablePropertiesCollectorFactory : public IntTblPropCollectorFactory { public: explicit UserKeyTablePropertiesCollectorFactory( std::shared_ptr user_collector_factory) : user_collector_factory_(user_collector_factory) {} virtual IntTblPropCollector* CreateIntTblPropCollector( uint32_t column_family_id) override { TablePropertiesCollectorFactory::Context context; context.column_family_id = column_family_id; return new UserKeyTablePropertiesCollector( user_collector_factory_->CreateTablePropertiesCollector(context)); } virtual const char* Name() const override { return user_collector_factory_->Name(); } private: std::shared_ptr user_collector_factory_; }; } // namespace rocksdb rocksdb-5.17.2/db/table_properties_collector_test.cc000066400000000000000000000443031337235545400226200ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include #include #include #include #include #include "db/db_impl.h" #include "db/dbformat.h" #include "db/table_properties_collector.h" #include "options/cf_options.h" #include "rocksdb/table.h" #include "table/block_based_table_factory.h" #include "table/meta_blocks.h" #include "table/plain_table_factory.h" #include "table/table_builder.h" #include "util/coding.h" #include "util/file_reader_writer.h" #include "util/testharness.h" #include "util/testutil.h" namespace rocksdb { class TablePropertiesTest : public testing::Test, public testing::WithParamInterface { public: virtual void SetUp() override { backward_mode_ = GetParam(); } bool backward_mode_; }; // Utilities test functions namespace { static const uint32_t kTestColumnFamilyId = 66; static const std::string kTestColumnFamilyName = "test_column_fam"; void MakeBuilder(const Options& options, const ImmutableCFOptions& ioptions, const MutableCFOptions& moptions, const InternalKeyComparator& internal_comparator, const std::vector>* int_tbl_prop_collector_factories, std::unique_ptr* writable, std::unique_ptr* builder) { unique_ptr wf(new test::StringSink); writable->reset( new WritableFileWriter(std::move(wf), "" /* don't care */, EnvOptions())); int unknown_level = -1; builder->reset(NewTableBuilder( ioptions, moptions, internal_comparator, int_tbl_prop_collector_factories, kTestColumnFamilyId, kTestColumnFamilyName, writable->get(), options.compression, options.compression_opts, unknown_level)); } } // namespace // Collects keys that starts with "A" in a table. class RegularKeysStartWithA: public TablePropertiesCollector { public: const char* Name() const override { return "RegularKeysStartWithA"; } Status Finish(UserCollectedProperties* properties) override { std::string encoded; std::string encoded_num_puts; std::string encoded_num_deletes; std::string encoded_num_single_deletes; std::string encoded_num_size_changes; PutVarint32(&encoded, count_); PutVarint32(&encoded_num_puts, num_puts_); PutVarint32(&encoded_num_deletes, num_deletes_); PutVarint32(&encoded_num_single_deletes, num_single_deletes_); PutVarint32(&encoded_num_size_changes, num_size_changes_); *properties = UserCollectedProperties{ {"TablePropertiesTest", message_}, {"Count", encoded}, {"NumPuts", encoded_num_puts}, {"NumDeletes", encoded_num_deletes}, {"NumSingleDeletes", encoded_num_single_deletes}, {"NumSizeChanges", encoded_num_size_changes}, }; return Status::OK(); } Status AddUserKey(const Slice& user_key, const Slice& /*value*/, EntryType type, SequenceNumber /*seq*/, uint64_t file_size) override { // simply asssume all user keys are not empty. if (user_key.data()[0] == 'A') { ++count_; } if (type == kEntryPut) { num_puts_++; } else if (type == kEntryDelete) { num_deletes_++; } else if (type == kEntrySingleDelete) { num_single_deletes_++; } if (file_size < file_size_) { message_ = "File size should not decrease."; } else if (file_size != file_size_) { num_size_changes_++; } return Status::OK(); } virtual UserCollectedProperties GetReadableProperties() const override { return UserCollectedProperties{}; } private: std::string message_ = "Rocksdb"; uint32_t count_ = 0; uint32_t num_puts_ = 0; uint32_t num_deletes_ = 0; uint32_t num_single_deletes_ = 0; uint32_t num_size_changes_ = 0; uint64_t file_size_ = 0; }; // Collects keys that starts with "A" in a table. Backward compatible mode // It is also used to test internal key table property collector class RegularKeysStartWithABackwardCompatible : public TablePropertiesCollector { public: const char* Name() const override { return "RegularKeysStartWithA"; } Status Finish(UserCollectedProperties* properties) override { std::string encoded; PutVarint32(&encoded, count_); *properties = UserCollectedProperties{{"TablePropertiesTest", "Rocksdb"}, {"Count", encoded}}; return Status::OK(); } Status Add(const Slice& user_key, const Slice& /*value*/) override { // simply asssume all user keys are not empty. if (user_key.data()[0] == 'A') { ++count_; } return Status::OK(); } virtual UserCollectedProperties GetReadableProperties() const override { return UserCollectedProperties{}; } private: uint32_t count_ = 0; }; class RegularKeysStartWithAInternal : public IntTblPropCollector { public: const char* Name() const override { return "RegularKeysStartWithA"; } Status Finish(UserCollectedProperties* properties) override { std::string encoded; PutVarint32(&encoded, count_); *properties = UserCollectedProperties{{"TablePropertiesTest", "Rocksdb"}, {"Count", encoded}}; return Status::OK(); } Status InternalAdd(const Slice& user_key, const Slice& /*value*/, uint64_t /*file_size*/) override { // simply asssume all user keys are not empty. if (user_key.data()[0] == 'A') { ++count_; } return Status::OK(); } virtual UserCollectedProperties GetReadableProperties() const override { return UserCollectedProperties{}; } private: uint32_t count_ = 0; }; class RegularKeysStartWithAFactory : public IntTblPropCollectorFactory, public TablePropertiesCollectorFactory { public: explicit RegularKeysStartWithAFactory(bool backward_mode) : backward_mode_(backward_mode) {} virtual TablePropertiesCollector* CreateTablePropertiesCollector( TablePropertiesCollectorFactory::Context context) override { EXPECT_EQ(kTestColumnFamilyId, context.column_family_id); if (!backward_mode_) { return new RegularKeysStartWithA(); } else { return new RegularKeysStartWithABackwardCompatible(); } } virtual IntTblPropCollector* CreateIntTblPropCollector( uint32_t /*column_family_id*/) override { return new RegularKeysStartWithAInternal(); } const char* Name() const override { return "RegularKeysStartWithA"; } bool backward_mode_; }; class FlushBlockEveryThreePolicy : public FlushBlockPolicy { public: virtual bool Update(const Slice& /*key*/, const Slice& /*value*/) override { return (++count_ % 3U == 0); } private: uint64_t count_ = 0; }; class FlushBlockEveryThreePolicyFactory : public FlushBlockPolicyFactory { public: explicit FlushBlockEveryThreePolicyFactory() {} const char* Name() const override { return "FlushBlockEveryThreePolicyFactory"; } FlushBlockPolicy* NewFlushBlockPolicy( const BlockBasedTableOptions& /*table_options*/, const BlockBuilder& /*data_block_builder*/) const override { return new FlushBlockEveryThreePolicy; } }; extern const uint64_t kBlockBasedTableMagicNumber; extern const uint64_t kPlainTableMagicNumber; namespace { void TestCustomizedTablePropertiesCollector( bool backward_mode, uint64_t magic_number, bool test_int_tbl_prop_collector, const Options& options, const InternalKeyComparator& internal_comparator) { // make sure the entries will be inserted with order. std::map, std::string> kvs = { {{"About ", kTypeValue}, "val5"}, // starts with 'A' {{"Abstract", kTypeValue}, "val2"}, // starts with 'A' {{"Around ", kTypeValue}, "val7"}, // starts with 'A' {{"Beyond ", kTypeValue}, "val3"}, {{"Builder ", kTypeValue}, "val1"}, {{"Love ", kTypeDeletion}, ""}, {{"Cancel ", kTypeValue}, "val4"}, {{"Find ", kTypeValue}, "val6"}, {{"Rocks ", kTypeDeletion}, ""}, {{"Foo ", kTypeSingleDeletion}, ""}, }; // -- Step 1: build table std::unique_ptr builder; std::unique_ptr writer; const ImmutableCFOptions ioptions(options); const MutableCFOptions moptions(options); std::vector> int_tbl_prop_collector_factories; if (test_int_tbl_prop_collector) { int_tbl_prop_collector_factories.emplace_back( new RegularKeysStartWithAFactory(backward_mode)); } else { GetIntTblPropCollectorFactory(ioptions, &int_tbl_prop_collector_factories); } MakeBuilder(options, ioptions, moptions, internal_comparator, &int_tbl_prop_collector_factories, &writer, &builder); SequenceNumber seqNum = 0U; for (const auto& kv : kvs) { InternalKey ikey(kv.first.first, seqNum++, kv.first.second); builder->Add(ikey.Encode(), kv.second); } ASSERT_OK(builder->Finish()); writer->Flush(); // -- Step 2: Read properties test::StringSink* fwf = static_cast(writer->writable_file()); std::unique_ptr fake_file_reader( test::GetRandomAccessFileReader( new test::StringSource(fwf->contents()))); TableProperties* props; Status s = ReadTableProperties(fake_file_reader.get(), fwf->contents().size(), magic_number, ioptions, &props, true /* compression_type_missing */); std::unique_ptr props_guard(props); ASSERT_OK(s); auto user_collected = props->user_collected_properties; ASSERT_NE(user_collected.find("TablePropertiesTest"), user_collected.end()); ASSERT_EQ("Rocksdb", user_collected.at("TablePropertiesTest")); uint32_t starts_with_A = 0; ASSERT_NE(user_collected.find("Count"), user_collected.end()); Slice key(user_collected.at("Count")); ASSERT_TRUE(GetVarint32(&key, &starts_with_A)); ASSERT_EQ(3u, starts_with_A); if (!backward_mode && !test_int_tbl_prop_collector) { uint32_t num_puts; ASSERT_NE(user_collected.find("NumPuts"), user_collected.end()); Slice key_puts(user_collected.at("NumPuts")); ASSERT_TRUE(GetVarint32(&key_puts, &num_puts)); ASSERT_EQ(7u, num_puts); uint32_t num_deletes; ASSERT_NE(user_collected.find("NumDeletes"), user_collected.end()); Slice key_deletes(user_collected.at("NumDeletes")); ASSERT_TRUE(GetVarint32(&key_deletes, &num_deletes)); ASSERT_EQ(2u, num_deletes); uint32_t num_single_deletes; ASSERT_NE(user_collected.find("NumSingleDeletes"), user_collected.end()); Slice key_single_deletes(user_collected.at("NumSingleDeletes")); ASSERT_TRUE(GetVarint32(&key_single_deletes, &num_single_deletes)); ASSERT_EQ(1u, num_single_deletes); uint32_t num_size_changes; ASSERT_NE(user_collected.find("NumSizeChanges"), user_collected.end()); Slice key_size_changes(user_collected.at("NumSizeChanges")); ASSERT_TRUE(GetVarint32(&key_size_changes, &num_size_changes)); ASSERT_GE(num_size_changes, 2u); } } } // namespace TEST_P(TablePropertiesTest, CustomizedTablePropertiesCollector) { // Test properties collectors with internal keys or regular keys // for block based table for (bool encode_as_internal : { true, false }) { Options options; BlockBasedTableOptions table_options; table_options.flush_block_policy_factory = std::make_shared(); options.table_factory.reset(NewBlockBasedTableFactory(table_options)); test::PlainInternalKeyComparator ikc(options.comparator); std::shared_ptr collector_factory( new RegularKeysStartWithAFactory(backward_mode_)); options.table_properties_collector_factories.resize(1); options.table_properties_collector_factories[0] = collector_factory; TestCustomizedTablePropertiesCollector(backward_mode_, kBlockBasedTableMagicNumber, encode_as_internal, options, ikc); #ifndef ROCKSDB_LITE // PlainTable is not supported in Lite // test plain table PlainTableOptions plain_table_options; plain_table_options.user_key_len = 8; plain_table_options.bloom_bits_per_key = 8; plain_table_options.hash_table_ratio = 0; options.table_factory = std::make_shared(plain_table_options); TestCustomizedTablePropertiesCollector(backward_mode_, kPlainTableMagicNumber, encode_as_internal, options, ikc); #endif // !ROCKSDB_LITE } } namespace { void TestInternalKeyPropertiesCollector( bool backward_mode, uint64_t magic_number, bool sanitized, std::shared_ptr table_factory) { InternalKey keys[] = { InternalKey("A ", 0, ValueType::kTypeValue), InternalKey("B ", 1, ValueType::kTypeValue), InternalKey("C ", 2, ValueType::kTypeValue), InternalKey("W ", 3, ValueType::kTypeDeletion), InternalKey("X ", 4, ValueType::kTypeDeletion), InternalKey("Y ", 5, ValueType::kTypeDeletion), InternalKey("Z ", 6, ValueType::kTypeDeletion), InternalKey("a ", 7, ValueType::kTypeSingleDeletion), InternalKey("b ", 8, ValueType::kTypeMerge), InternalKey("c ", 9, ValueType::kTypeMerge), }; std::unique_ptr builder; std::unique_ptr writable; Options options; test::PlainInternalKeyComparator pikc(options.comparator); std::vector> int_tbl_prop_collector_factories; options.table_factory = table_factory; if (sanitized) { options.table_properties_collector_factories.emplace_back( new RegularKeysStartWithAFactory(backward_mode)); // with sanitization, even regular properties collector will be able to // handle internal keys. auto comparator = options.comparator; // HACK: Set options.info_log to avoid writing log in // SanitizeOptions(). options.info_log = std::make_shared(); options = SanitizeOptions("db", // just a place holder options); ImmutableCFOptions ioptions(options); GetIntTblPropCollectorFactory(ioptions, &int_tbl_prop_collector_factories); options.comparator = comparator; } else { int_tbl_prop_collector_factories.emplace_back( new InternalKeyPropertiesCollectorFactory); } const ImmutableCFOptions ioptions(options); MutableCFOptions moptions(options); for (int iter = 0; iter < 2; ++iter) { MakeBuilder(options, ioptions, moptions, pikc, &int_tbl_prop_collector_factories, &writable, &builder); for (const auto& k : keys) { builder->Add(k.Encode(), "val"); } ASSERT_OK(builder->Finish()); writable->Flush(); test::StringSink* fwf = static_cast(writable->writable_file()); unique_ptr reader(test::GetRandomAccessFileReader( new test::StringSource(fwf->contents()))); TableProperties* props; Status s = ReadTableProperties(reader.get(), fwf->contents().size(), magic_number, ioptions, &props, true /* compression_type_missing */); ASSERT_OK(s); std::unique_ptr props_guard(props); auto user_collected = props->user_collected_properties; uint64_t deleted = GetDeletedKeys(user_collected); ASSERT_EQ(5u, deleted); // deletes + single-deletes bool property_present; uint64_t merges = GetMergeOperands(user_collected, &property_present); ASSERT_TRUE(property_present); ASSERT_EQ(2u, merges); if (sanitized) { uint32_t starts_with_A = 0; ASSERT_NE(user_collected.find("Count"), user_collected.end()); Slice key(user_collected.at("Count")); ASSERT_TRUE(GetVarint32(&key, &starts_with_A)); ASSERT_EQ(1u, starts_with_A); if (!backward_mode) { uint32_t num_puts; ASSERT_NE(user_collected.find("NumPuts"), user_collected.end()); Slice key_puts(user_collected.at("NumPuts")); ASSERT_TRUE(GetVarint32(&key_puts, &num_puts)); ASSERT_EQ(3u, num_puts); uint32_t num_deletes; ASSERT_NE(user_collected.find("NumDeletes"), user_collected.end()); Slice key_deletes(user_collected.at("NumDeletes")); ASSERT_TRUE(GetVarint32(&key_deletes, &num_deletes)); ASSERT_EQ(4u, num_deletes); uint32_t num_single_deletes; ASSERT_NE(user_collected.find("NumSingleDeletes"), user_collected.end()); Slice key_single_deletes(user_collected.at("NumSingleDeletes")); ASSERT_TRUE(GetVarint32(&key_single_deletes, &num_single_deletes)); ASSERT_EQ(1u, num_single_deletes); } } } } } // namespace TEST_P(TablePropertiesTest, InternalKeyPropertiesCollector) { TestInternalKeyPropertiesCollector( backward_mode_, kBlockBasedTableMagicNumber, true /* sanitize */, std::make_shared()); if (backward_mode_) { TestInternalKeyPropertiesCollector( backward_mode_, kBlockBasedTableMagicNumber, false /* not sanitize */, std::make_shared()); } #ifndef ROCKSDB_LITE // PlainTable is not supported in Lite PlainTableOptions plain_table_options; plain_table_options.user_key_len = 8; plain_table_options.bloom_bits_per_key = 8; plain_table_options.hash_table_ratio = 0; TestInternalKeyPropertiesCollector( backward_mode_, kPlainTableMagicNumber, false /* not sanitize */, std::make_shared(plain_table_options)); #endif // !ROCKSDB_LITE } INSTANTIATE_TEST_CASE_P(InternalKeyPropertiesCollector, TablePropertiesTest, ::testing::Bool()); INSTANTIATE_TEST_CASE_P(CustomizedTablePropertiesCollector, TablePropertiesTest, ::testing::Bool()); } // namespace rocksdb int main(int argc, char** argv) { ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/db/transaction_log_impl.cc000066400000000000000000000251001337235545400203510ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #ifndef ROCKSDB_LITE #ifndef __STDC_FORMAT_MACROS #define __STDC_FORMAT_MACROS #endif #include "db/transaction_log_impl.h" #include #include "db/write_batch_internal.h" #include "util/file_reader_writer.h" namespace rocksdb { TransactionLogIteratorImpl::TransactionLogIteratorImpl( const std::string& dir, const ImmutableDBOptions* options, const TransactionLogIterator::ReadOptions& read_options, const EnvOptions& soptions, const SequenceNumber seq, std::unique_ptr files, VersionSet const* const versions, const bool seq_per_batch) : dir_(dir), options_(options), read_options_(read_options), soptions_(soptions), startingSequenceNumber_(seq), files_(std::move(files)), started_(false), isValid_(false), currentFileIndex_(0), currentBatchSeq_(0), currentLastSeq_(0), versions_(versions), seq_per_batch_(seq_per_batch) { assert(files_ != nullptr); assert(versions_ != nullptr); reporter_.env = options_->env; reporter_.info_log = options_->info_log.get(); SeekToStartSequence(); // Seek till starting sequence } Status TransactionLogIteratorImpl::OpenLogFile( const LogFile* logFile, unique_ptr* file_reader) { Env* env = options_->env; unique_ptr file; std::string fname; Status s; EnvOptions optimized_env_options = env->OptimizeForLogRead(soptions_); if (logFile->Type() == kArchivedLogFile) { fname = ArchivedLogFileName(dir_, logFile->LogNumber()); s = env->NewSequentialFile(fname, &file, optimized_env_options); } else { fname = LogFileName(dir_, logFile->LogNumber()); s = env->NewSequentialFile(fname, &file, optimized_env_options); if (!s.ok()) { // If cannot open file in DB directory. // Try the archive dir, as it could have moved in the meanwhile. fname = ArchivedLogFileName(dir_, logFile->LogNumber()); s = env->NewSequentialFile(fname, &file, optimized_env_options); } } if (s.ok()) { file_reader->reset(new SequentialFileReader(std::move(file), fname)); } return s; } BatchResult TransactionLogIteratorImpl::GetBatch() { assert(isValid_); // cannot call in a non valid state. BatchResult result; result.sequence = currentBatchSeq_; result.writeBatchPtr = std::move(currentBatch_); return result; } Status TransactionLogIteratorImpl::status() { return currentStatus_; } bool TransactionLogIteratorImpl::Valid() { return started_ && isValid_; } bool TransactionLogIteratorImpl::RestrictedRead( Slice* record, std::string* scratch) { // Don't read if no more complete entries to read from logs if (currentLastSeq_ >= versions_->LastSequence()) { return false; } return currentLogReader_->ReadRecord(record, scratch); } void TransactionLogIteratorImpl::SeekToStartSequence( uint64_t startFileIndex, bool strict) { std::string scratch; Slice record; started_ = false; isValid_ = false; if (files_->size() <= startFileIndex) { return; } Status s = OpenLogReader(files_->at(static_cast(startFileIndex)).get()); if (!s.ok()) { currentStatus_ = s; reporter_.Info(currentStatus_.ToString().c_str()); return; } while (RestrictedRead(&record, &scratch)) { if (record.size() < WriteBatchInternal::kHeader) { reporter_.Corruption( record.size(), Status::Corruption("very small log record")); continue; } UpdateCurrentWriteBatch(record); if (currentLastSeq_ >= startingSequenceNumber_) { if (strict && currentBatchSeq_ != startingSequenceNumber_) { currentStatus_ = Status::Corruption("Gap in sequence number. Could not " "seek to required sequence number"); reporter_.Info(currentStatus_.ToString().c_str()); return; } else if (strict) { reporter_.Info("Could seek required sequence number. Iterator will " "continue."); } isValid_ = true; started_ = true; // set started_ as we could seek till starting sequence return; } else { isValid_ = false; } } // Could not find start sequence in first file. Normally this must be the // only file. Otherwise log the error and let the iterator return next entry // If strict is set, we want to seek exactly till the start sequence and it // should have been present in the file we scanned above if (strict) { currentStatus_ = Status::Corruption("Gap in sequence number. Could not " "seek to required sequence number"); reporter_.Info(currentStatus_.ToString().c_str()); } else if (files_->size() != 1) { currentStatus_ = Status::Corruption("Start sequence was not found, " "skipping to the next available"); reporter_.Info(currentStatus_.ToString().c_str()); // Let NextImpl find the next available entry. started_ remains false // because we don't want to check for gaps while moving to start sequence NextImpl(true); } } void TransactionLogIteratorImpl::Next() { return NextImpl(false); } void TransactionLogIteratorImpl::NextImpl(bool internal) { std::string scratch; Slice record; isValid_ = false; if (!internal && !started_) { // Runs every time until we can seek to the start sequence return SeekToStartSequence(); } while(true) { assert(currentLogReader_); if (currentLogReader_->IsEOF()) { currentLogReader_->UnmarkEOF(); } while (RestrictedRead(&record, &scratch)) { if (record.size() < WriteBatchInternal::kHeader) { reporter_.Corruption( record.size(), Status::Corruption("very small log record")); continue; } else { // started_ should be true if called by application assert(internal || started_); // started_ should be false if called internally assert(!internal || !started_); UpdateCurrentWriteBatch(record); if (internal && !started_) { started_ = true; } return; } } // Open the next file if (currentFileIndex_ < files_->size() - 1) { ++currentFileIndex_; Status s = OpenLogReader(files_->at(currentFileIndex_).get()); if (!s.ok()) { isValid_ = false; currentStatus_ = s; return; } } else { isValid_ = false; if (currentLastSeq_ == versions_->LastSequence()) { currentStatus_ = Status::OK(); } else { currentStatus_ = Status::Corruption("NO MORE DATA LEFT"); } return; } } } bool TransactionLogIteratorImpl::IsBatchExpected( const WriteBatch* batch, const SequenceNumber expectedSeq) { assert(batch); SequenceNumber batchSeq = WriteBatchInternal::Sequence(batch); if (batchSeq != expectedSeq) { char buf[200]; snprintf(buf, sizeof(buf), "Discontinuity in log records. Got seq=%" PRIu64 ", Expected seq=%" PRIu64 ", Last flushed seq=%" PRIu64 ".Log iterator will reseek the correct batch.", batchSeq, expectedSeq, versions_->LastSequence()); reporter_.Info(buf); return false; } return true; } void TransactionLogIteratorImpl::UpdateCurrentWriteBatch(const Slice& record) { std::unique_ptr batch(new WriteBatch()); WriteBatchInternal::SetContents(batch.get(), record); SequenceNumber expectedSeq = currentLastSeq_ + 1; // If the iterator has started, then confirm that we get continuous batches if (started_ && !IsBatchExpected(batch.get(), expectedSeq)) { // Seek to the batch having expected sequence number if (expectedSeq < files_->at(currentFileIndex_)->StartSequence()) { // Expected batch must lie in the previous log file // Avoid underflow. if (currentFileIndex_ != 0) { currentFileIndex_--; } } startingSequenceNumber_ = expectedSeq; // currentStatus_ will be set to Ok if reseek succeeds // Note: this is still ok in seq_pre_batch_ && two_write_queuesp_ mode // that allows gaps in the WAL since it will still skip over the gap. currentStatus_ = Status::NotFound("Gap in sequence numbers"); // In seq_per_batch_ mode, gaps in the seq are possible so the strict mode // should be disabled return SeekToStartSequence(currentFileIndex_, !seq_per_batch_); } struct BatchCounter : public WriteBatch::Handler { SequenceNumber sequence_; BatchCounter(SequenceNumber sequence) : sequence_(sequence) {} Status MarkNoop(bool empty_batch) override { if (!empty_batch) { sequence_++; } return Status::OK(); } Status MarkEndPrepare(const Slice&) override { sequence_++; return Status::OK(); } Status MarkCommit(const Slice&) override { sequence_++; return Status::OK(); } Status PutCF(uint32_t /*cf*/, const Slice& /*key*/, const Slice& /*val*/) override { return Status::OK(); } Status DeleteCF(uint32_t /*cf*/, const Slice& /*key*/) override { return Status::OK(); } Status SingleDeleteCF(uint32_t /*cf*/, const Slice& /*key*/) override { return Status::OK(); } Status MergeCF(uint32_t /*cf*/, const Slice& /*key*/, const Slice& /*val*/) override { return Status::OK(); } Status MarkBeginPrepare(bool) override { return Status::OK(); } Status MarkRollback(const Slice&) override { return Status::OK(); } }; currentBatchSeq_ = WriteBatchInternal::Sequence(batch.get()); if (seq_per_batch_) { BatchCounter counter(currentBatchSeq_); batch->Iterate(&counter); currentLastSeq_ = counter.sequence_; } else { currentLastSeq_ = currentBatchSeq_ + WriteBatchInternal::Count(batch.get()) - 1; } // currentBatchSeq_ can only change here assert(currentLastSeq_ <= versions_->LastSequence()); currentBatch_ = std::move(batch); isValid_ = true; currentStatus_ = Status::OK(); } Status TransactionLogIteratorImpl::OpenLogReader(const LogFile* logFile) { unique_ptr file; Status s = OpenLogFile(logFile, &file); if (!s.ok()) { return s; } assert(file); currentLogReader_.reset( new log::Reader(options_->info_log, std::move(file), &reporter_, read_options_.verify_checksums_, logFile->LogNumber())); return Status::OK(); } } // namespace rocksdb #endif // ROCKSDB_LITE rocksdb-5.17.2/db/transaction_log_impl.h000066400000000000000000000104121337235545400202130ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #ifndef ROCKSDB_LITE #include #include "db/log_reader.h" #include "db/version_set.h" #include "options/db_options.h" #include "port/port.h" #include "rocksdb/env.h" #include "rocksdb/options.h" #include "rocksdb/transaction_log.h" #include "rocksdb/types.h" #include "util/filename.h" namespace rocksdb { class LogFileImpl : public LogFile { public: LogFileImpl(uint64_t logNum, WalFileType logType, SequenceNumber startSeq, uint64_t sizeBytes) : logNumber_(logNum), type_(logType), startSequence_(startSeq), sizeFileBytes_(sizeBytes) { } std::string PathName() const override { if (type_ == kArchivedLogFile) { return ArchivedLogFileName("", logNumber_); } return LogFileName("", logNumber_); } uint64_t LogNumber() const override { return logNumber_; } WalFileType Type() const override { return type_; } SequenceNumber StartSequence() const override { return startSequence_; } uint64_t SizeFileBytes() const override { return sizeFileBytes_; } bool operator < (const LogFile& that) const { return LogNumber() < that.LogNumber(); } private: uint64_t logNumber_; WalFileType type_; SequenceNumber startSequence_; uint64_t sizeFileBytes_; }; class TransactionLogIteratorImpl : public TransactionLogIterator { public: TransactionLogIteratorImpl( const std::string& dir, const ImmutableDBOptions* options, const TransactionLogIterator::ReadOptions& read_options, const EnvOptions& soptions, const SequenceNumber seqNum, std::unique_ptr files, VersionSet const* const versions, const bool seq_per_batch); virtual bool Valid() override; virtual void Next() override; virtual Status status() override; virtual BatchResult GetBatch() override; private: const std::string& dir_; const ImmutableDBOptions* options_; const TransactionLogIterator::ReadOptions read_options_; const EnvOptions& soptions_; SequenceNumber startingSequenceNumber_; std::unique_ptr files_; bool started_; bool isValid_; // not valid when it starts of. Status currentStatus_; size_t currentFileIndex_; std::unique_ptr currentBatch_; unique_ptr currentLogReader_; Status OpenLogFile(const LogFile* logFile, unique_ptr* file); struct LogReporter : public log::Reader::Reporter { Env* env; Logger* info_log; virtual void Corruption(size_t bytes, const Status& s) override { ROCKS_LOG_ERROR(info_log, "dropping %" ROCKSDB_PRIszt " bytes; %s", bytes, s.ToString().c_str()); } virtual void Info(const char* s) { ROCKS_LOG_INFO(info_log, "%s", s); } } reporter_; SequenceNumber currentBatchSeq_; // sequence number at start of current batch SequenceNumber currentLastSeq_; // last sequence in the current batch // Used only to get latest seq. num // TODO(icanadi) can this be just a callback? VersionSet const* const versions_; const bool seq_per_batch_; // Reads from transaction log only if the writebatch record has been written bool RestrictedRead(Slice* record, std::string* scratch); // Seeks to startingSequenceNumber reading from startFileIndex in files_. // If strict is set,then must get a batch starting with startingSequenceNumber void SeekToStartSequence(uint64_t startFileIndex = 0, bool strict = false); // Implementation of Next. SeekToStartSequence calls it internally with // internal=true to let it find next entry even if it has to jump gaps because // the iterator may start off from the first available entry but promises to // be continuous after that void NextImpl(bool internal = false); // Check if batch is expected, else return false bool IsBatchExpected(const WriteBatch* batch, SequenceNumber expectedSeq); // Update current batch if a continuous batch is found, else return false void UpdateCurrentWriteBatch(const Slice& record); Status OpenLogReader(const LogFile* file); }; } // namespace rocksdb #endif // ROCKSDB_LITE rocksdb-5.17.2/db/version_builder.cc000066400000000000000000000366631337235545400173550ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "db/version_builder.h" #ifndef __STDC_FORMAT_MACROS #define __STDC_FORMAT_MACROS #endif #include #include #include #include #include #include #include #include #include #include #include #include "db/dbformat.h" #include "db/internal_stats.h" #include "db/table_cache.h" #include "db/version_set.h" #include "port/port.h" #include "table/table_reader.h" namespace rocksdb { bool NewestFirstBySeqNo(FileMetaData* a, FileMetaData* b) { if (a->fd.largest_seqno != b->fd.largest_seqno) { return a->fd.largest_seqno > b->fd.largest_seqno; } if (a->fd.smallest_seqno != b->fd.smallest_seqno) { return a->fd.smallest_seqno > b->fd.smallest_seqno; } // Break ties by file number return a->fd.GetNumber() > b->fd.GetNumber(); } namespace { bool BySmallestKey(FileMetaData* a, FileMetaData* b, const InternalKeyComparator* cmp) { int r = cmp->Compare(a->smallest, b->smallest); if (r != 0) { return (r < 0); } // Break ties by file number return (a->fd.GetNumber() < b->fd.GetNumber()); } } // namespace class VersionBuilder::Rep { private: // Helper to sort files_ in v // kLevel0 -- NewestFirstBySeqNo // kLevelNon0 -- BySmallestKey struct FileComparator { enum SortMethod { kLevel0 = 0, kLevelNon0 = 1, } sort_method; const InternalKeyComparator* internal_comparator; FileComparator() : internal_comparator(nullptr) {} bool operator()(FileMetaData* f1, FileMetaData* f2) const { switch (sort_method) { case kLevel0: return NewestFirstBySeqNo(f1, f2); case kLevelNon0: return BySmallestKey(f1, f2, internal_comparator); } assert(false); return false; } }; struct LevelState { std::unordered_set deleted_files; // Map from file number to file meta data. std::unordered_map added_files; }; const EnvOptions& env_options_; Logger* info_log_; TableCache* table_cache_; VersionStorageInfo* base_vstorage_; int num_levels_; LevelState* levels_; // Store states of levels larger than num_levels_. We do this instead of // storing them in levels_ to avoid regression in case there are no files // on invalid levels. The version is not consistent if in the end the files // on invalid levels don't cancel out. std::map> invalid_levels_; // Whether there are invalid new files or invalid deletion on levels larger // than num_levels_. bool has_invalid_levels_; FileComparator level_zero_cmp_; FileComparator level_nonzero_cmp_; public: Rep(const EnvOptions& env_options, Logger* info_log, TableCache* table_cache, VersionStorageInfo* base_vstorage) : env_options_(env_options), info_log_(info_log), table_cache_(table_cache), base_vstorage_(base_vstorage), num_levels_(base_vstorage->num_levels()), has_invalid_levels_(false) { levels_ = new LevelState[num_levels_]; level_zero_cmp_.sort_method = FileComparator::kLevel0; level_nonzero_cmp_.sort_method = FileComparator::kLevelNon0; level_nonzero_cmp_.internal_comparator = base_vstorage_->InternalComparator(); } ~Rep() { for (int level = 0; level < num_levels_; level++) { const auto& added = levels_[level].added_files; for (auto& pair : added) { UnrefFile(pair.second); } } delete[] levels_; } void UnrefFile(FileMetaData* f) { f->refs--; if (f->refs <= 0) { if (f->table_reader_handle) { assert(table_cache_ != nullptr); table_cache_->ReleaseHandle(f->table_reader_handle); f->table_reader_handle = nullptr; } delete f; } } void CheckConsistency(VersionStorageInfo* vstorage) { #ifdef NDEBUG if (!vstorage->force_consistency_checks()) { // Dont run consistency checks in release mode except if // explicitly asked to return; } #endif // make sure the files are sorted correctly for (int level = 0; level < num_levels_; level++) { auto& level_files = vstorage->LevelFiles(level); for (size_t i = 1; i < level_files.size(); i++) { auto f1 = level_files[i - 1]; auto f2 = level_files[i]; if (level == 0) { if (!level_zero_cmp_(f1, f2)) { fprintf(stderr, "L0 files are not sorted properly"); abort(); } if (f2->fd.smallest_seqno == f2->fd.largest_seqno) { // This is an external file that we ingested SequenceNumber external_file_seqno = f2->fd.smallest_seqno; if (!(external_file_seqno < f1->fd.largest_seqno || external_file_seqno == 0)) { fprintf(stderr, "L0 file with seqno %" PRIu64 " %" PRIu64 " vs. file with global_seqno %" PRIu64 "\n", f1->fd.smallest_seqno, f1->fd.largest_seqno, external_file_seqno); abort(); } } else if (f1->fd.smallest_seqno <= f2->fd.smallest_seqno) { fprintf(stderr, "L0 files seqno %" PRIu64 " %" PRIu64 " vs. %" PRIu64 " %" PRIu64 "\n", f1->fd.smallest_seqno, f1->fd.largest_seqno, f2->fd.smallest_seqno, f2->fd.largest_seqno); abort(); } } else { if (!level_nonzero_cmp_(f1, f2)) { fprintf(stderr, "L%d files are not sorted properly", level); abort(); } // Make sure there is no overlap in levels > 0 if (vstorage->InternalComparator()->Compare(f1->largest, f2->smallest) >= 0) { fprintf(stderr, "L%d have overlapping ranges %s vs. %s\n", level, (f1->largest).DebugString(true).c_str(), (f2->smallest).DebugString(true).c_str()); abort(); } } } } } void CheckConsistencyForDeletes(VersionEdit* /*edit*/, uint64_t number, int level) { #ifdef NDEBUG if (!base_vstorage_->force_consistency_checks()) { // Dont run consistency checks in release mode except if // explicitly asked to return; } #endif // a file to be deleted better exist in the previous version bool found = false; for (int l = 0; !found && l < num_levels_; l++) { const std::vector& base_files = base_vstorage_->LevelFiles(l); for (size_t i = 0; i < base_files.size(); i++) { FileMetaData* f = base_files[i]; if (f->fd.GetNumber() == number) { found = true; break; } } } // if the file did not exist in the previous version, then it // is possibly moved from lower level to higher level in current // version for (int l = level + 1; !found && l < num_levels_; l++) { auto& level_added = levels_[l].added_files; auto got = level_added.find(number); if (got != level_added.end()) { found = true; break; } } // maybe this file was added in a previous edit that was Applied if (!found) { auto& level_added = levels_[level].added_files; auto got = level_added.find(number); if (got != level_added.end()) { found = true; } } if (!found) { fprintf(stderr, "not found %" PRIu64 "\n", number); abort(); } } bool CheckConsistencyForNumLevels() { // Make sure there are no files on or beyond num_levels(). if (has_invalid_levels_) { return false; } for (auto& level : invalid_levels_) { if (level.second.size() > 0) { return false; } } return true; } // Apply all of the edits in *edit to the current state. void Apply(VersionEdit* edit) { CheckConsistency(base_vstorage_); // Delete files const VersionEdit::DeletedFileSet& del = edit->GetDeletedFiles(); for (const auto& del_file : del) { const auto level = del_file.first; const auto number = del_file.second; if (level < num_levels_) { levels_[level].deleted_files.insert(number); CheckConsistencyForDeletes(edit, number, level); auto exising = levels_[level].added_files.find(number); if (exising != levels_[level].added_files.end()) { UnrefFile(exising->second); levels_[level].added_files.erase(exising); } } else { auto exising = invalid_levels_[level].find(number); if (exising != invalid_levels_[level].end()) { invalid_levels_[level].erase(exising); } else { // Deleting an non-existing file on invalid level. has_invalid_levels_ = true; } } } // Add new files for (const auto& new_file : edit->GetNewFiles()) { const int level = new_file.first; if (level < num_levels_) { FileMetaData* f = new FileMetaData(new_file.second); f->refs = 1; assert(levels_[level].added_files.find(f->fd.GetNumber()) == levels_[level].added_files.end()); levels_[level].deleted_files.erase(f->fd.GetNumber()); levels_[level].added_files[f->fd.GetNumber()] = f; } else { uint64_t number = new_file.second.fd.GetNumber(); if (invalid_levels_[level].count(number) == 0) { invalid_levels_[level].insert(number); } else { // Creating an already existing file on invalid level. has_invalid_levels_ = true; } } } } // Save the current state in *v. void SaveTo(VersionStorageInfo* vstorage) { CheckConsistency(base_vstorage_); CheckConsistency(vstorage); for (int level = 0; level < num_levels_; level++) { const auto& cmp = (level == 0) ? level_zero_cmp_ : level_nonzero_cmp_; // Merge the set of added files with the set of pre-existing files. // Drop any deleted files. Store the result in *v. const auto& base_files = base_vstorage_->LevelFiles(level); const auto& unordered_added_files = levels_[level].added_files; vstorage->Reserve(level, base_files.size() + unordered_added_files.size()); // Sort added files for the level. std::vector added_files; added_files.reserve(unordered_added_files.size()); for (const auto& pair : unordered_added_files) { added_files.push_back(pair.second); } std::sort(added_files.begin(), added_files.end(), cmp); #ifndef NDEBUG FileMetaData* prev_added_file = nullptr; for (const auto& added : added_files) { if (level > 0 && prev_added_file != nullptr) { assert(base_vstorage_->InternalComparator()->Compare( prev_added_file->smallest, added->smallest) <= 0); } prev_added_file = added; } #endif auto base_iter = base_files.begin(); auto base_end = base_files.end(); auto added_iter = added_files.begin(); auto added_end = added_files.end(); while (added_iter != added_end || base_iter != base_end) { if (base_iter == base_end || (added_iter != added_end && cmp(*added_iter, *base_iter))) { MaybeAddFile(vstorage, level, *added_iter++); } else { MaybeAddFile(vstorage, level, *base_iter++); } } } CheckConsistency(vstorage); } void LoadTableHandlers(InternalStats* internal_stats, int max_threads, bool prefetch_index_and_filter_in_cache, const SliceTransform* prefix_extractor) { assert(table_cache_ != nullptr); // std::vector> files_meta; for (int level = 0; level < num_levels_; level++) { for (auto& file_meta_pair : levels_[level].added_files) { auto* file_meta = file_meta_pair.second; assert(!file_meta->table_reader_handle); files_meta.emplace_back(file_meta, level); } } std::atomic next_file_meta_idx(0); std::function load_handlers_func([&]() { while (true) { size_t file_idx = next_file_meta_idx.fetch_add(1); if (file_idx >= files_meta.size()) { break; } auto* file_meta = files_meta[file_idx].first; int level = files_meta[file_idx].second; table_cache_->FindTable( env_options_, *(base_vstorage_->InternalComparator()), file_meta->fd, &file_meta->table_reader_handle, prefix_extractor, false /*no_io */, true /* record_read_stats */, internal_stats->GetFileReadHist(level), false, level, prefetch_index_and_filter_in_cache); if (file_meta->table_reader_handle != nullptr) { // Load table_reader file_meta->fd.table_reader = table_cache_->GetTableReaderFromHandle( file_meta->table_reader_handle); } } }); std::vector threads; for (int i = 1; i < max_threads; i++) { threads.emplace_back(load_handlers_func); } load_handlers_func(); for (auto& t : threads) { t.join(); } } void MaybeAddFile(VersionStorageInfo* vstorage, int level, FileMetaData* f) { if (levels_[level].deleted_files.count(f->fd.GetNumber()) > 0) { // f is to-be-deleted table file vstorage->RemoveCurrentStats(f); } else { vstorage->AddFile(level, f, info_log_); } } }; VersionBuilder::VersionBuilder(const EnvOptions& env_options, TableCache* table_cache, VersionStorageInfo* base_vstorage, Logger* info_log) : rep_(new Rep(env_options, info_log, table_cache, base_vstorage)) {} VersionBuilder::~VersionBuilder() { delete rep_; } void VersionBuilder::CheckConsistency(VersionStorageInfo* vstorage) { rep_->CheckConsistency(vstorage); } void VersionBuilder::CheckConsistencyForDeletes(VersionEdit* edit, uint64_t number, int level) { rep_->CheckConsistencyForDeletes(edit, number, level); } bool VersionBuilder::CheckConsistencyForNumLevels() { return rep_->CheckConsistencyForNumLevels(); } void VersionBuilder::Apply(VersionEdit* edit) { rep_->Apply(edit); } void VersionBuilder::SaveTo(VersionStorageInfo* vstorage) { rep_->SaveTo(vstorage); } void VersionBuilder::LoadTableHandlers(InternalStats* internal_stats, int max_threads, bool prefetch_index_and_filter_in_cache, const SliceTransform* prefix_extractor) { rep_->LoadTableHandlers(internal_stats, max_threads, prefetch_index_and_filter_in_cache, prefix_extractor); } void VersionBuilder::MaybeAddFile(VersionStorageInfo* vstorage, int level, FileMetaData* f) { rep_->MaybeAddFile(vstorage, level, f); } } // namespace rocksdb rocksdb-5.17.2/db/version_builder.h000066400000000000000000000033741337235545400172100ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. // #pragma once #include "rocksdb/env.h" #include "rocksdb/slice_transform.h" namespace rocksdb { class TableCache; class VersionStorageInfo; class VersionEdit; struct FileMetaData; class InternalStats; // A helper class so we can efficiently apply a whole sequence // of edits to a particular state without creating intermediate // Versions that contain full copies of the intermediate state. class VersionBuilder { public: VersionBuilder(const EnvOptions& env_options, TableCache* table_cache, VersionStorageInfo* base_vstorage, Logger* info_log = nullptr); ~VersionBuilder(); void CheckConsistency(VersionStorageInfo* vstorage); void CheckConsistencyForDeletes(VersionEdit* edit, uint64_t number, int level); bool CheckConsistencyForNumLevels(); void Apply(VersionEdit* edit); void SaveTo(VersionStorageInfo* vstorage); void LoadTableHandlers(InternalStats* internal_stats, int max_threads, bool prefetch_index_and_filter_in_cache, const SliceTransform* prefix_extractor); void MaybeAddFile(VersionStorageInfo* vstorage, int level, FileMetaData* f); private: class Rep; Rep* rep_; }; extern bool NewestFirstBySeqNo(FileMetaData* a, FileMetaData* b); } // namespace rocksdb rocksdb-5.17.2/db/version_builder_test.cc000066400000000000000000000245741337235545400204120ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include #include "db/version_edit.h" #include "db/version_set.h" #include "util/logging.h" #include "util/string_util.h" #include "util/testharness.h" #include "util/testutil.h" namespace rocksdb { class VersionBuilderTest : public testing::Test { public: const Comparator* ucmp_; InternalKeyComparator icmp_; Options options_; ImmutableCFOptions ioptions_; MutableCFOptions mutable_cf_options_; VersionStorageInfo vstorage_; uint32_t file_num_; CompactionOptionsFIFO fifo_options_; std::vector size_being_compacted_; VersionBuilderTest() : ucmp_(BytewiseComparator()), icmp_(ucmp_), ioptions_(options_), mutable_cf_options_(options_), vstorage_(&icmp_, ucmp_, options_.num_levels, kCompactionStyleLevel, nullptr, false), file_num_(1) { mutable_cf_options_.RefreshDerivedOptions(ioptions_); size_being_compacted_.resize(options_.num_levels); } ~VersionBuilderTest() { for (int i = 0; i < vstorage_.num_levels(); i++) { for (auto* f : vstorage_.LevelFiles(i)) { if (--f->refs == 0) { delete f; } } } } InternalKey GetInternalKey(const char* ukey, SequenceNumber smallest_seq = 100) { return InternalKey(ukey, smallest_seq, kTypeValue); } void Add(int level, uint32_t file_number, const char* smallest, const char* largest, uint64_t file_size = 0, uint32_t path_id = 0, SequenceNumber smallest_seq = 100, SequenceNumber largest_seq = 100, uint64_t num_entries = 0, uint64_t num_deletions = 0, bool sampled = false, SequenceNumber smallest_seqno = 0, SequenceNumber largest_seqno = 0) { assert(level < vstorage_.num_levels()); FileMetaData* f = new FileMetaData; f->fd = FileDescriptor(file_number, path_id, file_size); f->smallest = GetInternalKey(smallest, smallest_seq); f->largest = GetInternalKey(largest, largest_seq); f->fd.smallest_seqno = smallest_seqno; f->fd.largest_seqno = largest_seqno; f->compensated_file_size = file_size; f->refs = 0; f->num_entries = num_entries; f->num_deletions = num_deletions; vstorage_.AddFile(level, f); if (sampled) { f->init_stats_from_file = true; vstorage_.UpdateAccumulatedStats(f); } } void UpdateVersionStorageInfo() { vstorage_.UpdateFilesByCompactionPri(ioptions_.compaction_pri); vstorage_.UpdateNumNonEmptyLevels(); vstorage_.GenerateFileIndexer(); vstorage_.GenerateLevelFilesBrief(); vstorage_.CalculateBaseBytes(ioptions_, mutable_cf_options_); vstorage_.GenerateLevel0NonOverlapping(); vstorage_.SetFinalized(); } }; void UnrefFilesInVersion(VersionStorageInfo* new_vstorage) { for (int i = 0; i < new_vstorage->num_levels(); i++) { for (auto* f : new_vstorage->LevelFiles(i)) { if (--f->refs == 0) { delete f; } } } } TEST_F(VersionBuilderTest, ApplyAndSaveTo) { Add(0, 1U, "150", "200", 100U); Add(1, 66U, "150", "200", 100U); Add(1, 88U, "201", "300", 100U); Add(2, 6U, "150", "179", 100U); Add(2, 7U, "180", "220", 100U); Add(2, 8U, "221", "300", 100U); Add(3, 26U, "150", "170", 100U); Add(3, 27U, "171", "179", 100U); Add(3, 28U, "191", "220", 100U); Add(3, 29U, "221", "300", 100U); UpdateVersionStorageInfo(); VersionEdit version_edit; version_edit.AddFile(2, 666, 0, 100U, GetInternalKey("301"), GetInternalKey("350"), 200, 200, false); version_edit.DeleteFile(3, 27U); EnvOptions env_options; VersionBuilder version_builder(env_options, nullptr, &vstorage_); VersionStorageInfo new_vstorage(&icmp_, ucmp_, options_.num_levels, kCompactionStyleLevel, nullptr, false); version_builder.Apply(&version_edit); version_builder.SaveTo(&new_vstorage); ASSERT_EQ(400U, new_vstorage.NumLevelBytes(2)); ASSERT_EQ(300U, new_vstorage.NumLevelBytes(3)); UnrefFilesInVersion(&new_vstorage); } TEST_F(VersionBuilderTest, ApplyAndSaveToDynamic) { ioptions_.level_compaction_dynamic_level_bytes = true; Add(0, 1U, "150", "200", 100U, 0, 200U, 200U, 0, 0, false, 200U, 200U); Add(0, 88U, "201", "300", 100U, 0, 100U, 100U, 0, 0, false, 100U, 100U); Add(4, 6U, "150", "179", 100U); Add(4, 7U, "180", "220", 100U); Add(4, 8U, "221", "300", 100U); Add(5, 26U, "150", "170", 100U); Add(5, 27U, "171", "179", 100U); UpdateVersionStorageInfo(); VersionEdit version_edit; version_edit.AddFile(3, 666, 0, 100U, GetInternalKey("301"), GetInternalKey("350"), 200, 200, false); version_edit.DeleteFile(0, 1U); version_edit.DeleteFile(0, 88U); EnvOptions env_options; VersionBuilder version_builder(env_options, nullptr, &vstorage_); VersionStorageInfo new_vstorage(&icmp_, ucmp_, options_.num_levels, kCompactionStyleLevel, nullptr, false); version_builder.Apply(&version_edit); version_builder.SaveTo(&new_vstorage); ASSERT_EQ(0U, new_vstorage.NumLevelBytes(0)); ASSERT_EQ(100U, new_vstorage.NumLevelBytes(3)); ASSERT_EQ(300U, new_vstorage.NumLevelBytes(4)); ASSERT_EQ(200U, new_vstorage.NumLevelBytes(5)); UnrefFilesInVersion(&new_vstorage); } TEST_F(VersionBuilderTest, ApplyAndSaveToDynamic2) { ioptions_.level_compaction_dynamic_level_bytes = true; Add(0, 1U, "150", "200", 100U, 0, 200U, 200U, 0, 0, false, 200U, 200U); Add(0, 88U, "201", "300", 100U, 0, 100U, 100U, 0, 0, false, 100U, 100U); Add(4, 6U, "150", "179", 100U); Add(4, 7U, "180", "220", 100U); Add(4, 8U, "221", "300", 100U); Add(5, 26U, "150", "170", 100U); Add(5, 27U, "171", "179", 100U); UpdateVersionStorageInfo(); VersionEdit version_edit; version_edit.AddFile(4, 666, 0, 100U, GetInternalKey("301"), GetInternalKey("350"), 200, 200, false); version_edit.DeleteFile(0, 1U); version_edit.DeleteFile(0, 88U); version_edit.DeleteFile(4, 6U); version_edit.DeleteFile(4, 7U); version_edit.DeleteFile(4, 8U); EnvOptions env_options; VersionBuilder version_builder(env_options, nullptr, &vstorage_); VersionStorageInfo new_vstorage(&icmp_, ucmp_, options_.num_levels, kCompactionStyleLevel, nullptr, false); version_builder.Apply(&version_edit); version_builder.SaveTo(&new_vstorage); ASSERT_EQ(0U, new_vstorage.NumLevelBytes(0)); ASSERT_EQ(100U, new_vstorage.NumLevelBytes(4)); ASSERT_EQ(200U, new_vstorage.NumLevelBytes(5)); UnrefFilesInVersion(&new_vstorage); } TEST_F(VersionBuilderTest, ApplyMultipleAndSaveTo) { UpdateVersionStorageInfo(); VersionEdit version_edit; version_edit.AddFile(2, 666, 0, 100U, GetInternalKey("301"), GetInternalKey("350"), 200, 200, false); version_edit.AddFile(2, 676, 0, 100U, GetInternalKey("401"), GetInternalKey("450"), 200, 200, false); version_edit.AddFile(2, 636, 0, 100U, GetInternalKey("601"), GetInternalKey("650"), 200, 200, false); version_edit.AddFile(2, 616, 0, 100U, GetInternalKey("501"), GetInternalKey("550"), 200, 200, false); version_edit.AddFile(2, 606, 0, 100U, GetInternalKey("701"), GetInternalKey("750"), 200, 200, false); EnvOptions env_options; VersionBuilder version_builder(env_options, nullptr, &vstorage_); VersionStorageInfo new_vstorage(&icmp_, ucmp_, options_.num_levels, kCompactionStyleLevel, nullptr, false); version_builder.Apply(&version_edit); version_builder.SaveTo(&new_vstorage); ASSERT_EQ(500U, new_vstorage.NumLevelBytes(2)); UnrefFilesInVersion(&new_vstorage); } TEST_F(VersionBuilderTest, ApplyDeleteAndSaveTo) { UpdateVersionStorageInfo(); EnvOptions env_options; VersionBuilder version_builder(env_options, nullptr, &vstorage_); VersionStorageInfo new_vstorage(&icmp_, ucmp_, options_.num_levels, kCompactionStyleLevel, nullptr, false); VersionEdit version_edit; version_edit.AddFile(2, 666, 0, 100U, GetInternalKey("301"), GetInternalKey("350"), 200, 200, false); version_edit.AddFile(2, 676, 0, 100U, GetInternalKey("401"), GetInternalKey("450"), 200, 200, false); version_edit.AddFile(2, 636, 0, 100U, GetInternalKey("601"), GetInternalKey("650"), 200, 200, false); version_edit.AddFile(2, 616, 0, 100U, GetInternalKey("501"), GetInternalKey("550"), 200, 200, false); version_edit.AddFile(2, 606, 0, 100U, GetInternalKey("701"), GetInternalKey("750"), 200, 200, false); version_builder.Apply(&version_edit); VersionEdit version_edit2; version_edit.AddFile(2, 808, 0, 100U, GetInternalKey("901"), GetInternalKey("950"), 200, 200, false); version_edit2.DeleteFile(2, 616); version_edit2.DeleteFile(2, 636); version_edit.AddFile(2, 806, 0, 100U, GetInternalKey("801"), GetInternalKey("850"), 200, 200, false); version_builder.Apply(&version_edit2); version_builder.SaveTo(&new_vstorage); ASSERT_EQ(300U, new_vstorage.NumLevelBytes(2)); UnrefFilesInVersion(&new_vstorage); } TEST_F(VersionBuilderTest, EstimatedActiveKeys) { const uint32_t kTotalSamples = 20; const uint32_t kNumLevels = 5; const uint32_t kFilesPerLevel = 8; const uint32_t kNumFiles = kNumLevels * kFilesPerLevel; const uint32_t kEntriesPerFile = 1000; const uint32_t kDeletionsPerFile = 100; for (uint32_t i = 0; i < kNumFiles; ++i) { Add(static_cast(i / kFilesPerLevel), i + 1, ToString((i + 100) * 1000).c_str(), ToString((i + 100) * 1000 + 999).c_str(), 100U, 0, 100, 100, kEntriesPerFile, kDeletionsPerFile, (i < kTotalSamples)); } // minus 2X for the number of deletion entries because: // 1x for deletion entry does not count as a data entry. // 1x for each deletion entry will actually remove one data entry. ASSERT_EQ(vstorage_.GetEstimatedActiveKeys(), (kEntriesPerFile - 2 * kDeletionsPerFile) * kNumFiles); } } // namespace rocksdb int main(int argc, char** argv) { ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/db/version_edit.cc000066400000000000000000000464231337235545400166470ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "db/version_edit.h" #include "db/version_set.h" #include "rocksdb/slice.h" #include "util/coding.h" #include "util/event_logger.h" #include "util/string_util.h" #include "util/sync_point.h" namespace rocksdb { // Tag numbers for serialized VersionEdit. These numbers are written to // disk and should not be changed. enum Tag : uint32_t { kComparator = 1, kLogNumber = 2, kNextFileNumber = 3, kLastSequence = 4, kCompactPointer = 5, kDeletedFile = 6, kNewFile = 7, // 8 was used for large value refs kPrevLogNumber = 9, kMinLogNumberToKeep = 10, // these are new formats divergent from open source leveldb kNewFile2 = 100, kNewFile3 = 102, kNewFile4 = 103, // 4th (the latest) format version of adding files kColumnFamily = 200, // specify column family for version edit kColumnFamilyAdd = 201, kColumnFamilyDrop = 202, kMaxColumnFamily = 203, kInAtomicGroup = 300, }; enum CustomTag : uint32_t { kTerminate = 1, // The end of customized fields kNeedCompaction = 2, // Since Manifest is not entirely currently forward-compatible, and the only // forward-compatible part is the CutsomtTag of kNewFile, we currently encode // kMinLogNumberToKeep as part of a CustomTag as a hack. This should be // removed when manifest becomes forward-comptabile. kMinLogNumberToKeepHack = 3, kPathId = 65, }; // If this bit for the custom tag is set, opening DB should fail if // we don't know this field. uint32_t kCustomTagNonSafeIgnoreMask = 1 << 6; uint64_t PackFileNumberAndPathId(uint64_t number, uint64_t path_id) { assert(number <= kFileNumberMask); return number | (path_id * (kFileNumberMask + 1)); } void VersionEdit::Clear() { comparator_.clear(); max_level_ = 0; log_number_ = 0; prev_log_number_ = 0; last_sequence_ = 0; next_file_number_ = 0; max_column_family_ = 0; min_log_number_to_keep_ = 0; has_comparator_ = false; has_log_number_ = false; has_prev_log_number_ = false; has_next_file_number_ = false; has_last_sequence_ = false; has_max_column_family_ = false; has_min_log_number_to_keep_ = false; deleted_files_.clear(); new_files_.clear(); column_family_ = 0; is_column_family_add_ = 0; is_column_family_drop_ = 0; column_family_name_.clear(); is_in_atomic_group_ = false; remaining_entries_ = 0; } bool VersionEdit::EncodeTo(std::string* dst) const { if (has_comparator_) { PutVarint32(dst, kComparator); PutLengthPrefixedSlice(dst, comparator_); } if (has_log_number_) { PutVarint32Varint64(dst, kLogNumber, log_number_); } if (has_prev_log_number_) { PutVarint32Varint64(dst, kPrevLogNumber, prev_log_number_); } if (has_next_file_number_) { PutVarint32Varint64(dst, kNextFileNumber, next_file_number_); } if (has_last_sequence_) { PutVarint32Varint64(dst, kLastSequence, last_sequence_); } if (has_max_column_family_) { PutVarint32Varint32(dst, kMaxColumnFamily, max_column_family_); } for (const auto& deleted : deleted_files_) { PutVarint32Varint32Varint64(dst, kDeletedFile, deleted.first /* level */, deleted.second /* file number */); } bool min_log_num_written = false; for (size_t i = 0; i < new_files_.size(); i++) { const FileMetaData& f = new_files_[i].second; if (!f.smallest.Valid() || !f.largest.Valid()) { return false; } bool has_customized_fields = false; if (f.marked_for_compaction || has_min_log_number_to_keep_) { PutVarint32(dst, kNewFile4); has_customized_fields = true; } else if (f.fd.GetPathId() == 0) { // Use older format to make sure user can roll back the build if they // don't config multiple DB paths. PutVarint32(dst, kNewFile2); } else { PutVarint32(dst, kNewFile3); } PutVarint32Varint64(dst, new_files_[i].first /* level */, f.fd.GetNumber()); if (f.fd.GetPathId() != 0 && !has_customized_fields) { // kNewFile3 PutVarint32(dst, f.fd.GetPathId()); } PutVarint64(dst, f.fd.GetFileSize()); PutLengthPrefixedSlice(dst, f.smallest.Encode()); PutLengthPrefixedSlice(dst, f.largest.Encode()); PutVarint64Varint64(dst, f.fd.smallest_seqno, f.fd.largest_seqno); if (has_customized_fields) { // Customized fields' format: // +-----------------------------+ // | 1st field's tag (varint32) | // +-----------------------------+ // | 1st field's size (varint32) | // +-----------------------------+ // | bytes for 1st field | // | (based on size decoded) | // +-----------------------------+ // | | // | ...... | // | | // +-----------------------------+ // | last field's size (varint32)| // +-----------------------------+ // | bytes for last field | // | (based on size decoded) | // +-----------------------------+ // | terminating tag (varint32) | // +-----------------------------+ // // Customized encoding for fields: // tag kPathId: 1 byte as path_id // tag kNeedCompaction: // now only can take one char value 1 indicating need-compaction // if (f.fd.GetPathId() != 0) { PutVarint32(dst, CustomTag::kPathId); char p = static_cast(f.fd.GetPathId()); PutLengthPrefixedSlice(dst, Slice(&p, 1)); } if (f.marked_for_compaction) { PutVarint32(dst, CustomTag::kNeedCompaction); char p = static_cast(1); PutLengthPrefixedSlice(dst, Slice(&p, 1)); } if (has_min_log_number_to_keep_ && !min_log_num_written) { PutVarint32(dst, CustomTag::kMinLogNumberToKeepHack); std::string varint_log_number; PutFixed64(&varint_log_number, min_log_number_to_keep_); PutLengthPrefixedSlice(dst, Slice(varint_log_number)); min_log_num_written = true; } TEST_SYNC_POINT_CALLBACK("VersionEdit::EncodeTo:NewFile4:CustomizeFields", dst); PutVarint32(dst, CustomTag::kTerminate); } } // 0 is default and does not need to be explicitly written if (column_family_ != 0) { PutVarint32Varint32(dst, kColumnFamily, column_family_); } if (is_column_family_add_) { PutVarint32(dst, kColumnFamilyAdd); PutLengthPrefixedSlice(dst, Slice(column_family_name_)); } if (is_column_family_drop_) { PutVarint32(dst, kColumnFamilyDrop); } if (is_in_atomic_group_) { PutVarint32(dst, kInAtomicGroup); PutVarint32(dst, remaining_entries_); } return true; } static bool GetInternalKey(Slice* input, InternalKey* dst) { Slice str; if (GetLengthPrefixedSlice(input, &str)) { dst->DecodeFrom(str); return dst->Valid(); } else { return false; } } bool VersionEdit::GetLevel(Slice* input, int* level, const char** /*msg*/) { uint32_t v; if (GetVarint32(input, &v)) { *level = v; if (max_level_ < *level) { max_level_ = *level; } return true; } else { return false; } } const char* VersionEdit::DecodeNewFile4From(Slice* input) { const char* msg = nullptr; int level; FileMetaData f; uint64_t number; uint32_t path_id = 0; uint64_t file_size; SequenceNumber smallest_seqno; SequenceNumber largest_seqno; // Since this is the only forward-compatible part of the code, we hack new // extension into this record. When we do, we set this boolean to distinguish // the record from the normal NewFile records. if (GetLevel(input, &level, &msg) && GetVarint64(input, &number) && GetVarint64(input, &file_size) && GetInternalKey(input, &f.smallest) && GetInternalKey(input, &f.largest) && GetVarint64(input, &smallest_seqno) && GetVarint64(input, &largest_seqno)) { // See comments in VersionEdit::EncodeTo() for format of customized fields while (true) { uint32_t custom_tag; Slice field; if (!GetVarint32(input, &custom_tag)) { return "new-file4 custom field"; } if (custom_tag == kTerminate) { break; } if (!GetLengthPrefixedSlice(input, &field)) { return "new-file4 custom field lenth prefixed slice error"; } switch (custom_tag) { case kPathId: if (field.size() != 1) { return "path_id field wrong size"; } path_id = field[0]; if (path_id > 3) { return "path_id wrong vaue"; } break; case kNeedCompaction: if (field.size() != 1) { return "need_compaction field wrong size"; } f.marked_for_compaction = (field[0] == 1); break; case kMinLogNumberToKeepHack: // This is a hack to encode kMinLogNumberToKeep in a // forward-compatible fashion. if (!GetFixed64(&field, &min_log_number_to_keep_)) { return "deleted log number malformatted"; } has_min_log_number_to_keep_ = true; break; default: if ((custom_tag & kCustomTagNonSafeIgnoreMask) != 0) { // Should not proceed if cannot understand it return "new-file4 custom field not supported"; } break; } } } else { return "new-file4 entry"; } f.fd = FileDescriptor(number, path_id, file_size, smallest_seqno, largest_seqno); new_files_.push_back(std::make_pair(level, f)); return nullptr; } Status VersionEdit::DecodeFrom(const Slice& src) { Clear(); Slice input = src; const char* msg = nullptr; uint32_t tag; // Temporary storage for parsing int level; FileMetaData f; Slice str; InternalKey key; while (msg == nullptr && GetVarint32(&input, &tag)) { switch (tag) { case kComparator: if (GetLengthPrefixedSlice(&input, &str)) { comparator_ = str.ToString(); has_comparator_ = true; } else { msg = "comparator name"; } break; case kLogNumber: if (GetVarint64(&input, &log_number_)) { has_log_number_ = true; } else { msg = "log number"; } break; case kPrevLogNumber: if (GetVarint64(&input, &prev_log_number_)) { has_prev_log_number_ = true; } else { msg = "previous log number"; } break; case kNextFileNumber: if (GetVarint64(&input, &next_file_number_)) { has_next_file_number_ = true; } else { msg = "next file number"; } break; case kLastSequence: if (GetVarint64(&input, &last_sequence_)) { has_last_sequence_ = true; } else { msg = "last sequence number"; } break; case kMaxColumnFamily: if (GetVarint32(&input, &max_column_family_)) { has_max_column_family_ = true; } else { msg = "max column family"; } break; case kMinLogNumberToKeep: if (GetVarint64(&input, &min_log_number_to_keep_)) { has_min_log_number_to_keep_ = true; } else { msg = "min log number to kee"; } break; case kCompactPointer: if (GetLevel(&input, &level, &msg) && GetInternalKey(&input, &key)) { // we don't use compact pointers anymore, // but we should not fail if they are still // in manifest } else { if (!msg) { msg = "compaction pointer"; } } break; case kDeletedFile: { uint64_t number; if (GetLevel(&input, &level, &msg) && GetVarint64(&input, &number)) { deleted_files_.insert(std::make_pair(level, number)); } else { if (!msg) { msg = "deleted file"; } } break; } case kNewFile: { uint64_t number; uint64_t file_size; if (GetLevel(&input, &level, &msg) && GetVarint64(&input, &number) && GetVarint64(&input, &file_size) && GetInternalKey(&input, &f.smallest) && GetInternalKey(&input, &f.largest)) { f.fd = FileDescriptor(number, 0, file_size); new_files_.push_back(std::make_pair(level, f)); } else { if (!msg) { msg = "new-file entry"; } } break; } case kNewFile2: { uint64_t number; uint64_t file_size; SequenceNumber smallest_seqno; SequenceNumber largest_seqno; if (GetLevel(&input, &level, &msg) && GetVarint64(&input, &number) && GetVarint64(&input, &file_size) && GetInternalKey(&input, &f.smallest) && GetInternalKey(&input, &f.largest) && GetVarint64(&input, &smallest_seqno) && GetVarint64(&input, &largest_seqno)) { f.fd = FileDescriptor(number, 0, file_size, smallest_seqno, largest_seqno); new_files_.push_back(std::make_pair(level, f)); } else { if (!msg) { msg = "new-file2 entry"; } } break; } case kNewFile3: { uint64_t number; uint32_t path_id; uint64_t file_size; SequenceNumber smallest_seqno; SequenceNumber largest_seqno; if (GetLevel(&input, &level, &msg) && GetVarint64(&input, &number) && GetVarint32(&input, &path_id) && GetVarint64(&input, &file_size) && GetInternalKey(&input, &f.smallest) && GetInternalKey(&input, &f.largest) && GetVarint64(&input, &smallest_seqno) && GetVarint64(&input, &largest_seqno)) { f.fd = FileDescriptor(number, path_id, file_size, smallest_seqno, largest_seqno); new_files_.push_back(std::make_pair(level, f)); } else { if (!msg) { msg = "new-file3 entry"; } } break; } case kNewFile4: { msg = DecodeNewFile4From(&input); break; } case kColumnFamily: if (!GetVarint32(&input, &column_family_)) { if (!msg) { msg = "set column family id"; } } break; case kColumnFamilyAdd: if (GetLengthPrefixedSlice(&input, &str)) { is_column_family_add_ = true; column_family_name_ = str.ToString(); } else { if (!msg) { msg = "column family add"; } } break; case kColumnFamilyDrop: is_column_family_drop_ = true; break; case kInAtomicGroup: is_in_atomic_group_ = true; if (!GetVarint32(&input, &remaining_entries_)) { if (!msg) { msg = "remaining entries"; } } break; default: msg = "unknown tag"; break; } } if (msg == nullptr && !input.empty()) { msg = "invalid tag"; } Status result; if (msg != nullptr) { result = Status::Corruption("VersionEdit", msg); } return result; } std::string VersionEdit::DebugString(bool hex_key) const { std::string r; r.append("VersionEdit {"); if (has_comparator_) { r.append("\n Comparator: "); r.append(comparator_); } if (has_log_number_) { r.append("\n LogNumber: "); AppendNumberTo(&r, log_number_); } if (has_prev_log_number_) { r.append("\n PrevLogNumber: "); AppendNumberTo(&r, prev_log_number_); } if (has_next_file_number_) { r.append("\n NextFileNumber: "); AppendNumberTo(&r, next_file_number_); } if (has_min_log_number_to_keep_) { r.append("\n MinLogNumberToKeep: "); AppendNumberTo(&r, min_log_number_to_keep_); } if (has_last_sequence_) { r.append("\n LastSeq: "); AppendNumberTo(&r, last_sequence_); } for (DeletedFileSet::const_iterator iter = deleted_files_.begin(); iter != deleted_files_.end(); ++iter) { r.append("\n DeleteFile: "); AppendNumberTo(&r, iter->first); r.append(" "); AppendNumberTo(&r, iter->second); } for (size_t i = 0; i < new_files_.size(); i++) { const FileMetaData& f = new_files_[i].second; r.append("\n AddFile: "); AppendNumberTo(&r, new_files_[i].first); r.append(" "); AppendNumberTo(&r, f.fd.GetNumber()); r.append(" "); AppendNumberTo(&r, f.fd.GetFileSize()); r.append(" "); r.append(f.smallest.DebugString(hex_key)); r.append(" .. "); r.append(f.largest.DebugString(hex_key)); } r.append("\n ColumnFamily: "); AppendNumberTo(&r, column_family_); if (is_column_family_add_) { r.append("\n ColumnFamilyAdd: "); r.append(column_family_name_); } if (is_column_family_drop_) { r.append("\n ColumnFamilyDrop"); } if (has_max_column_family_) { r.append("\n MaxColumnFamily: "); AppendNumberTo(&r, max_column_family_); } if (is_in_atomic_group_) { r.append("\n AtomicGroup: "); AppendNumberTo(&r, remaining_entries_); r.append(" entries remains"); } r.append("\n}\n"); return r; } std::string VersionEdit::DebugJSON(int edit_num, bool hex_key) const { JSONWriter jw; jw << "EditNumber" << edit_num; if (has_comparator_) { jw << "Comparator" << comparator_; } if (has_log_number_) { jw << "LogNumber" << log_number_; } if (has_prev_log_number_) { jw << "PrevLogNumber" << prev_log_number_; } if (has_next_file_number_) { jw << "NextFileNumber" << next_file_number_; } if (has_last_sequence_) { jw << "LastSeq" << last_sequence_; } if (!deleted_files_.empty()) { jw << "DeletedFiles"; jw.StartArray(); for (DeletedFileSet::const_iterator iter = deleted_files_.begin(); iter != deleted_files_.end(); ++iter) { jw.StartArrayedObject(); jw << "Level" << iter->first; jw << "FileNumber" << iter->second; jw.EndArrayedObject(); } jw.EndArray(); } if (!new_files_.empty()) { jw << "AddedFiles"; jw.StartArray(); for (size_t i = 0; i < new_files_.size(); i++) { jw.StartArrayedObject(); jw << "Level" << new_files_[i].first; const FileMetaData& f = new_files_[i].second; jw << "FileNumber" << f.fd.GetNumber(); jw << "FileSize" << f.fd.GetFileSize(); jw << "SmallestIKey" << f.smallest.DebugString(hex_key); jw << "LargestIKey" << f.largest.DebugString(hex_key); jw.EndArrayedObject(); } jw.EndArray(); } jw << "ColumnFamily" << column_family_; if (is_column_family_add_) { jw << "ColumnFamilyAdd" << column_family_name_; } if (is_column_family_drop_) { jw << "ColumnFamilyDrop" << column_family_name_; } if (has_max_column_family_) { jw << "MaxColumnFamily" << max_column_family_; } if (has_min_log_number_to_keep_) { jw << "MinLogNumberToKeep" << min_log_number_to_keep_; } if (is_in_atomic_group_) { jw << "AtomicGroup" << remaining_entries_; } jw.EndObject(); return jw.Get(); } } // namespace rocksdb rocksdb-5.17.2/db/version_edit.h000066400000000000000000000265271337235545400165140ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #include #include #include #include #include #include "rocksdb/cache.h" #include "db/dbformat.h" #include "util/arena.h" #include "util/autovector.h" namespace rocksdb { class VersionSet; const uint64_t kFileNumberMask = 0x3FFFFFFFFFFFFFFF; extern uint64_t PackFileNumberAndPathId(uint64_t number, uint64_t path_id); // A copyable structure contains information needed to read data from an SST // file. It can contain a pointer to a table reader opened for the file, or // file number and size, which can be used to create a new table reader for it. // The behavior is undefined when a copied of the structure is used when the // file is not in any live version any more. struct FileDescriptor { // Table reader in table_reader_handle TableReader* table_reader; uint64_t packed_number_and_path_id; uint64_t file_size; // File size in bytes SequenceNumber smallest_seqno; // The smallest seqno in this file SequenceNumber largest_seqno; // The largest seqno in this file FileDescriptor() : FileDescriptor(0, 0, 0) {} FileDescriptor(uint64_t number, uint32_t path_id, uint64_t _file_size) : FileDescriptor(number, path_id, _file_size, kMaxSequenceNumber, 0) {} FileDescriptor(uint64_t number, uint32_t path_id, uint64_t _file_size, SequenceNumber _smallest_seqno, SequenceNumber _largest_seqno) : table_reader(nullptr), packed_number_and_path_id(PackFileNumberAndPathId(number, path_id)), file_size(_file_size), smallest_seqno(_smallest_seqno), largest_seqno(_largest_seqno) {} FileDescriptor& operator=(const FileDescriptor& fd) { table_reader = fd.table_reader; packed_number_and_path_id = fd.packed_number_and_path_id; file_size = fd.file_size; smallest_seqno = fd.smallest_seqno; largest_seqno = fd.largest_seqno; return *this; } uint64_t GetNumber() const { return packed_number_and_path_id & kFileNumberMask; } uint32_t GetPathId() const { return static_cast( packed_number_and_path_id / (kFileNumberMask + 1)); } uint64_t GetFileSize() const { return file_size; } }; struct FileSampledStats { FileSampledStats() : num_reads_sampled(0) {} FileSampledStats(const FileSampledStats& other) { *this = other; } FileSampledStats& operator=(const FileSampledStats& other) { num_reads_sampled = other.num_reads_sampled.load(); return *this; } // number of user reads to this file. mutable std::atomic num_reads_sampled; }; struct FileMetaData { FileDescriptor fd; InternalKey smallest; // Smallest internal key served by table InternalKey largest; // Largest internal key served by table // Needs to be disposed when refs becomes 0. Cache::Handle* table_reader_handle; FileSampledStats stats; // Stats for compensating deletion entries during compaction // File size compensated by deletion entry. // This is updated in Version::UpdateAccumulatedStats() first time when the // file is created or loaded. After it is updated (!= 0), it is immutable. uint64_t compensated_file_size; // These values can mutate, but they can only be read or written from // single-threaded LogAndApply thread uint64_t num_entries; // the number of entries. uint64_t num_deletions; // the number of deletion entries. uint64_t raw_key_size; // total uncompressed key size. uint64_t raw_value_size; // total uncompressed value size. int refs; // Reference count bool being_compacted; // Is this file undergoing compaction? bool init_stats_from_file; // true if the data-entry stats of this file // has initialized from file. bool marked_for_compaction; // True if client asked us nicely to compact this // file. FileMetaData() : table_reader_handle(nullptr), compensated_file_size(0), num_entries(0), num_deletions(0), raw_key_size(0), raw_value_size(0), refs(0), being_compacted(false), init_stats_from_file(false), marked_for_compaction(false) {} // REQUIRED: Keys must be given to the function in sorted order (it expects // the last key to be the largest). void UpdateBoundaries(const Slice& key, SequenceNumber seqno) { if (smallest.size() == 0) { smallest.DecodeFrom(key); } largest.DecodeFrom(key); fd.smallest_seqno = std::min(fd.smallest_seqno, seqno); fd.largest_seqno = std::max(fd.largest_seqno, seqno); } // Unlike UpdateBoundaries, ranges do not need to be presented in any // particular order. void UpdateBoundariesForRange(const InternalKey& start, const InternalKey& end, SequenceNumber seqno, const InternalKeyComparator& icmp) { if (smallest.size() == 0 || icmp.Compare(start, smallest) < 0) { smallest = start; } if (largest.size() == 0 || icmp.Compare(largest, end) < 0) { largest = end; } fd.smallest_seqno = std::min(fd.smallest_seqno, seqno); fd.largest_seqno = std::max(fd.largest_seqno, seqno); } }; // A compressed copy of file meta data that just contain minimum data needed // to server read operations, while still keeping the pointer to full metadata // of the file in case it is needed. struct FdWithKeyRange { FileDescriptor fd; FileMetaData* file_metadata; // Point to all metadata Slice smallest_key; // slice that contain smallest key Slice largest_key; // slice that contain largest key FdWithKeyRange() : fd(), file_metadata(nullptr), smallest_key(), largest_key() { } FdWithKeyRange(FileDescriptor _fd, Slice _smallest_key, Slice _largest_key, FileMetaData* _file_metadata) : fd(_fd), file_metadata(_file_metadata), smallest_key(_smallest_key), largest_key(_largest_key) {} }; // Data structure to store an array of FdWithKeyRange in one level // Actual data is guaranteed to be stored closely struct LevelFilesBrief { size_t num_files; FdWithKeyRange* files; LevelFilesBrief() { num_files = 0; files = nullptr; } }; class VersionEdit { public: VersionEdit() { Clear(); } ~VersionEdit() { } void Clear(); void SetComparatorName(const Slice& name) { has_comparator_ = true; comparator_ = name.ToString(); } void SetLogNumber(uint64_t num) { has_log_number_ = true; log_number_ = num; } void SetPrevLogNumber(uint64_t num) { has_prev_log_number_ = true; prev_log_number_ = num; } void SetNextFile(uint64_t num) { has_next_file_number_ = true; next_file_number_ = num; } void SetLastSequence(SequenceNumber seq) { has_last_sequence_ = true; last_sequence_ = seq; } void SetMaxColumnFamily(uint32_t max_column_family) { has_max_column_family_ = true; max_column_family_ = max_column_family; } void SetMinLogNumberToKeep(uint64_t num) { has_min_log_number_to_keep_ = true; min_log_number_to_keep_ = num; } bool has_log_number() { return has_log_number_; } uint64_t log_number() { return log_number_; } // Add the specified file at the specified number. // REQUIRES: This version has not been saved (see VersionSet::SaveTo) // REQUIRES: "smallest" and "largest" are smallest and largest keys in file void AddFile(int level, uint64_t file, uint32_t file_path_id, uint64_t file_size, const InternalKey& smallest, const InternalKey& largest, const SequenceNumber& smallest_seqno, const SequenceNumber& largest_seqno, bool marked_for_compaction) { assert(smallest_seqno <= largest_seqno); FileMetaData f; f.fd = FileDescriptor(file, file_path_id, file_size, smallest_seqno, largest_seqno); f.smallest = smallest; f.largest = largest; f.fd.smallest_seqno = smallest_seqno; f.fd.largest_seqno = largest_seqno; f.marked_for_compaction = marked_for_compaction; new_files_.emplace_back(level, std::move(f)); } void AddFile(int level, const FileMetaData& f) { assert(f.fd.smallest_seqno <= f.fd.largest_seqno); new_files_.emplace_back(level, f); } // Delete the specified "file" from the specified "level". void DeleteFile(int level, uint64_t file) { deleted_files_.insert({level, file}); } // Number of edits size_t NumEntries() { return new_files_.size() + deleted_files_.size(); } bool IsColumnFamilyManipulation() { return is_column_family_add_ || is_column_family_drop_; } void SetColumnFamily(uint32_t column_family_id) { column_family_ = column_family_id; } // set column family ID by calling SetColumnFamily() void AddColumnFamily(const std::string& name) { assert(!is_column_family_drop_); assert(!is_column_family_add_); assert(NumEntries() == 0); is_column_family_add_ = true; column_family_name_ = name; } // set column family ID by calling SetColumnFamily() void DropColumnFamily() { assert(!is_column_family_drop_); assert(!is_column_family_add_); assert(NumEntries() == 0); is_column_family_drop_ = true; } // return true on success. bool EncodeTo(std::string* dst) const; Status DecodeFrom(const Slice& src); const char* DecodeNewFile4From(Slice* input); typedef std::set> DeletedFileSet; const DeletedFileSet& GetDeletedFiles() { return deleted_files_; } const std::vector>& GetNewFiles() { return new_files_; } void MarkAtomicGroup(uint32_t remaining_entries) { is_in_atomic_group_ = true; remaining_entries_ = remaining_entries; } std::string DebugString(bool hex_key = false) const; std::string DebugJSON(int edit_num, bool hex_key = false) const; private: friend class VersionSet; friend class Version; bool GetLevel(Slice* input, int* level, const char** msg); int max_level_; std::string comparator_; uint64_t log_number_; uint64_t prev_log_number_; uint64_t next_file_number_; uint32_t max_column_family_; // The most recent WAL log number that is deleted uint64_t min_log_number_to_keep_; SequenceNumber last_sequence_; bool has_comparator_; bool has_log_number_; bool has_prev_log_number_; bool has_next_file_number_; bool has_last_sequence_; bool has_max_column_family_; bool has_min_log_number_to_keep_; DeletedFileSet deleted_files_; std::vector> new_files_; // Each version edit record should have column_family_ set // If it's not set, it is default (0) uint32_t column_family_; // a version edit can be either column_family add or // column_family drop. If it's column family add, // it also includes column family name. bool is_column_family_drop_; bool is_column_family_add_; std::string column_family_name_; bool is_in_atomic_group_; uint32_t remaining_entries_; }; } // namespace rocksdb rocksdb-5.17.2/db/version_edit_test.cc000066400000000000000000000151651337235545400177050ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "db/version_edit.h" #include "util/sync_point.h" #include "util/testharness.h" namespace rocksdb { static void TestEncodeDecode(const VersionEdit& edit) { std::string encoded, encoded2; edit.EncodeTo(&encoded); VersionEdit parsed; Status s = parsed.DecodeFrom(encoded); ASSERT_TRUE(s.ok()) << s.ToString(); parsed.EncodeTo(&encoded2); ASSERT_EQ(encoded, encoded2); } class VersionEditTest : public testing::Test {}; TEST_F(VersionEditTest, EncodeDecode) { static const uint64_t kBig = 1ull << 50; static const uint32_t kBig32Bit = 1ull << 30; VersionEdit edit; for (int i = 0; i < 4; i++) { TestEncodeDecode(edit); edit.AddFile(3, kBig + 300 + i, kBig32Bit + 400 + i, 0, InternalKey("foo", kBig + 500 + i, kTypeValue), InternalKey("zoo", kBig + 600 + i, kTypeDeletion), kBig + 500 + i, kBig + 600 + i, false); edit.DeleteFile(4, kBig + 700 + i); } edit.SetComparatorName("foo"); edit.SetLogNumber(kBig + 100); edit.SetNextFile(kBig + 200); edit.SetLastSequence(kBig + 1000); TestEncodeDecode(edit); } TEST_F(VersionEditTest, EncodeDecodeNewFile4) { static const uint64_t kBig = 1ull << 50; VersionEdit edit; edit.AddFile(3, 300, 3, 100, InternalKey("foo", kBig + 500, kTypeValue), InternalKey("zoo", kBig + 600, kTypeDeletion), kBig + 500, kBig + 600, true); edit.AddFile(4, 301, 3, 100, InternalKey("foo", kBig + 501, kTypeValue), InternalKey("zoo", kBig + 601, kTypeDeletion), kBig + 501, kBig + 601, false); edit.AddFile(5, 302, 0, 100, InternalKey("foo", kBig + 502, kTypeValue), InternalKey("zoo", kBig + 602, kTypeDeletion), kBig + 502, kBig + 602, true); edit.DeleteFile(4, 700); edit.SetComparatorName("foo"); edit.SetLogNumber(kBig + 100); edit.SetNextFile(kBig + 200); edit.SetLastSequence(kBig + 1000); TestEncodeDecode(edit); std::string encoded, encoded2; edit.EncodeTo(&encoded); VersionEdit parsed; Status s = parsed.DecodeFrom(encoded); ASSERT_TRUE(s.ok()) << s.ToString(); auto& new_files = parsed.GetNewFiles(); ASSERT_TRUE(new_files[0].second.marked_for_compaction); ASSERT_TRUE(!new_files[1].second.marked_for_compaction); ASSERT_TRUE(new_files[2].second.marked_for_compaction); ASSERT_EQ(3, new_files[0].second.fd.GetPathId()); ASSERT_EQ(3, new_files[1].second.fd.GetPathId()); ASSERT_EQ(0, new_files[2].second.fd.GetPathId()); } TEST_F(VersionEditTest, ForwardCompatibleNewFile4) { static const uint64_t kBig = 1ull << 50; VersionEdit edit; edit.AddFile(3, 300, 3, 100, InternalKey("foo", kBig + 500, kTypeValue), InternalKey("zoo", kBig + 600, kTypeDeletion), kBig + 500, kBig + 600, true); edit.AddFile(4, 301, 3, 100, InternalKey("foo", kBig + 501, kTypeValue), InternalKey("zoo", kBig + 601, kTypeDeletion), kBig + 501, kBig + 601, false); edit.DeleteFile(4, 700); edit.SetComparatorName("foo"); edit.SetLogNumber(kBig + 100); edit.SetNextFile(kBig + 200); edit.SetLastSequence(kBig + 1000); std::string encoded; // Call back function to add extra customized builds. bool first = true; rocksdb::SyncPoint::GetInstance()->SetCallBack( "VersionEdit::EncodeTo:NewFile4:CustomizeFields", [&](void* arg) { std::string* str = reinterpret_cast(arg); PutVarint32(str, 33); const std::string str1 = "random_string"; PutLengthPrefixedSlice(str, str1); if (first) { first = false; PutVarint32(str, 22); const std::string str2 = "s"; PutLengthPrefixedSlice(str, str2); } }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); edit.EncodeTo(&encoded); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); VersionEdit parsed; Status s = parsed.DecodeFrom(encoded); ASSERT_TRUE(s.ok()) << s.ToString(); ASSERT_TRUE(!first); auto& new_files = parsed.GetNewFiles(); ASSERT_TRUE(new_files[0].second.marked_for_compaction); ASSERT_TRUE(!new_files[1].second.marked_for_compaction); ASSERT_EQ(3, new_files[0].second.fd.GetPathId()); ASSERT_EQ(3, new_files[1].second.fd.GetPathId()); ASSERT_EQ(1u, parsed.GetDeletedFiles().size()); } TEST_F(VersionEditTest, NewFile4NotSupportedField) { static const uint64_t kBig = 1ull << 50; VersionEdit edit; edit.AddFile(3, 300, 3, 100, InternalKey("foo", kBig + 500, kTypeValue), InternalKey("zoo", kBig + 600, kTypeDeletion), kBig + 500, kBig + 600, true); edit.SetComparatorName("foo"); edit.SetLogNumber(kBig + 100); edit.SetNextFile(kBig + 200); edit.SetLastSequence(kBig + 1000); std::string encoded; // Call back function to add extra customized builds. rocksdb::SyncPoint::GetInstance()->SetCallBack( "VersionEdit::EncodeTo:NewFile4:CustomizeFields", [&](void* arg) { std::string* str = reinterpret_cast(arg); const std::string str1 = "s"; PutLengthPrefixedSlice(str, str1); }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); edit.EncodeTo(&encoded); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); VersionEdit parsed; Status s = parsed.DecodeFrom(encoded); ASSERT_NOK(s); } TEST_F(VersionEditTest, EncodeEmptyFile) { VersionEdit edit; edit.AddFile(0, 0, 0, 0, InternalKey(), InternalKey(), 0, 0, false); std::string buffer; ASSERT_TRUE(!edit.EncodeTo(&buffer)); } TEST_F(VersionEditTest, ColumnFamilyTest) { VersionEdit edit; edit.SetColumnFamily(2); edit.AddColumnFamily("column_family"); edit.SetMaxColumnFamily(5); TestEncodeDecode(edit); edit.Clear(); edit.SetColumnFamily(3); edit.DropColumnFamily(); TestEncodeDecode(edit); } TEST_F(VersionEditTest, MinLogNumberToKeep) { VersionEdit edit; edit.SetMinLogNumberToKeep(13); TestEncodeDecode(edit); edit.Clear(); edit.SetMinLogNumberToKeep(23); TestEncodeDecode(edit); } TEST_F(VersionEditTest, AtomicGroupTest) { VersionEdit edit; edit.MarkAtomicGroup(1); TestEncodeDecode(edit); } } // namespace rocksdb int main(int argc, char** argv) { ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/db/version_set.cc000066400000000000000000004736341337235545400165250ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "db/version_set.h" #ifndef __STDC_FORMAT_MACROS #define __STDC_FORMAT_MACROS #endif #include #include #include #include #include #include #include #include #include #include "db/compaction.h" #include "db/internal_stats.h" #include "db/log_reader.h" #include "db/log_writer.h" #include "db/memtable.h" #include "db/merge_context.h" #include "db/merge_helper.h" #include "db/pinned_iterators_manager.h" #include "db/table_cache.h" #include "db/version_builder.h" #include "monitoring/file_read_sample.h" #include "monitoring/perf_context_imp.h" #include "rocksdb/env.h" #include "rocksdb/merge_operator.h" #include "rocksdb/write_buffer_manager.h" #include "table/format.h" #include "table/get_context.h" #include "table/internal_iterator.h" #include "table/merging_iterator.h" #include "table/meta_blocks.h" #include "table/plain_table_factory.h" #include "table/table_reader.h" #include "table/two_level_iterator.h" #include "util/coding.h" #include "util/file_reader_writer.h" #include "util/filename.h" #include "util/stop_watch.h" #include "util/string_util.h" #include "util/sync_point.h" namespace rocksdb { namespace { // Find File in LevelFilesBrief data structure // Within an index range defined by left and right int FindFileInRange(const InternalKeyComparator& icmp, const LevelFilesBrief& file_level, const Slice& key, uint32_t left, uint32_t right) { auto cmp = [&](const FdWithKeyRange& f, const Slice& k) -> bool { return icmp.InternalKeyComparator::Compare(f.largest_key, k) < 0; }; const auto &b = file_level.files; return static_cast(std::lower_bound(b + left, b + right, key, cmp) - b); } Status OverlapWithIterator(const Comparator* ucmp, const Slice& smallest_user_key, const Slice& largest_user_key, InternalIterator* iter, bool* overlap) { InternalKey range_start(smallest_user_key, kMaxSequenceNumber, kValueTypeForSeek); iter->Seek(range_start.Encode()); if (!iter->status().ok()) { return iter->status(); } *overlap = false; if (iter->Valid()) { ParsedInternalKey seek_result; if (!ParseInternalKey(iter->key(), &seek_result)) { return Status::Corruption("DB have corrupted keys"); } if (ucmp->Compare(seek_result.user_key, largest_user_key) <= 0) { *overlap = true; } } return iter->status(); } // Class to help choose the next file to search for the particular key. // Searches and returns files level by level. // We can search level-by-level since entries never hop across // levels. Therefore we are guaranteed that if we find data // in a smaller level, later levels are irrelevant (unless we // are MergeInProgress). class FilePicker { public: FilePicker(std::vector* files, const Slice& user_key, const Slice& ikey, autovector* file_levels, unsigned int num_levels, FileIndexer* file_indexer, const Comparator* user_comparator, const InternalKeyComparator* internal_comparator) : num_levels_(num_levels), curr_level_(static_cast(-1)), returned_file_level_(static_cast(-1)), hit_file_level_(static_cast(-1)), search_left_bound_(0), search_right_bound_(FileIndexer::kLevelMaxIndex), #ifndef NDEBUG files_(files), #endif level_files_brief_(file_levels), is_hit_file_last_in_level_(false), curr_file_level_(nullptr), user_key_(user_key), ikey_(ikey), file_indexer_(file_indexer), user_comparator_(user_comparator), internal_comparator_(internal_comparator) { #ifdef NDEBUG (void)files; #endif // Setup member variables to search first level. search_ended_ = !PrepareNextLevel(); if (!search_ended_) { // Prefetch Level 0 table data to avoid cache miss if possible. for (unsigned int i = 0; i < (*level_files_brief_)[0].num_files; ++i) { auto* r = (*level_files_brief_)[0].files[i].fd.table_reader; if (r) { r->Prepare(ikey); } } } } int GetCurrentLevel() const { return curr_level_; } FdWithKeyRange* GetNextFile() { while (!search_ended_) { // Loops over different levels. while (curr_index_in_curr_level_ < curr_file_level_->num_files) { // Loops over all files in current level. FdWithKeyRange* f = &curr_file_level_->files[curr_index_in_curr_level_]; hit_file_level_ = curr_level_; is_hit_file_last_in_level_ = curr_index_in_curr_level_ == curr_file_level_->num_files - 1; int cmp_largest = -1; // Do key range filtering of files or/and fractional cascading if: // (1) not all the files are in level 0, or // (2) there are more than 3 current level files // If there are only 3 or less current level files in the system, we skip // the key range filtering. In this case, more likely, the system is // highly tuned to minimize number of tables queried by each query, // so it is unlikely that key range filtering is more efficient than // querying the files. if (num_levels_ > 1 || curr_file_level_->num_files > 3) { // Check if key is within a file's range. If search left bound and // right bound point to the same find, we are sure key falls in // range. assert( curr_level_ == 0 || curr_index_in_curr_level_ == start_index_in_curr_level_ || user_comparator_->Compare(user_key_, ExtractUserKey(f->smallest_key)) <= 0); int cmp_smallest = user_comparator_->Compare(user_key_, ExtractUserKey(f->smallest_key)); if (cmp_smallest >= 0) { cmp_largest = user_comparator_->Compare(user_key_, ExtractUserKey(f->largest_key)); } // Setup file search bound for the next level based on the // comparison results if (curr_level_ > 0) { file_indexer_->GetNextLevelIndex(curr_level_, curr_index_in_curr_level_, cmp_smallest, cmp_largest, &search_left_bound_, &search_right_bound_); } // Key falls out of current file's range if (cmp_smallest < 0 || cmp_largest > 0) { if (curr_level_ == 0) { ++curr_index_in_curr_level_; continue; } else { // Search next level. break; } } } #ifndef NDEBUG // Sanity check to make sure that the files are correctly sorted if (prev_file_) { if (curr_level_ != 0) { int comp_sign = internal_comparator_->Compare( prev_file_->largest_key, f->smallest_key); assert(comp_sign < 0); } else { // level == 0, the current file cannot be newer than the previous // one. Use compressed data structure, has no attribute seqNo assert(curr_index_in_curr_level_ > 0); assert(!NewestFirstBySeqNo(files_[0][curr_index_in_curr_level_], files_[0][curr_index_in_curr_level_-1])); } } prev_file_ = f; #endif returned_file_level_ = curr_level_; if (curr_level_ > 0 && cmp_largest < 0) { // No more files to search in this level. search_ended_ = !PrepareNextLevel(); } else { ++curr_index_in_curr_level_; } return f; } // Start searching next level. search_ended_ = !PrepareNextLevel(); } // Search ended. return nullptr; } // getter for current file level // for GET_HIT_L0, GET_HIT_L1 & GET_HIT_L2_AND_UP counts unsigned int GetHitFileLevel() { return hit_file_level_; } // Returns true if the most recent "hit file" (i.e., one returned by // GetNextFile()) is at the last index in its level. bool IsHitFileLastInLevel() { return is_hit_file_last_in_level_; } private: unsigned int num_levels_; unsigned int curr_level_; unsigned int returned_file_level_; unsigned int hit_file_level_; int32_t search_left_bound_; int32_t search_right_bound_; #ifndef NDEBUG std::vector* files_; #endif autovector* level_files_brief_; bool search_ended_; bool is_hit_file_last_in_level_; LevelFilesBrief* curr_file_level_; unsigned int curr_index_in_curr_level_; unsigned int start_index_in_curr_level_; Slice user_key_; Slice ikey_; FileIndexer* file_indexer_; const Comparator* user_comparator_; const InternalKeyComparator* internal_comparator_; #ifndef NDEBUG FdWithKeyRange* prev_file_; #endif // Setup local variables to search next level. // Returns false if there are no more levels to search. bool PrepareNextLevel() { curr_level_++; while (curr_level_ < num_levels_) { curr_file_level_ = &(*level_files_brief_)[curr_level_]; if (curr_file_level_->num_files == 0) { // When current level is empty, the search bound generated from upper // level must be [0, -1] or [0, FileIndexer::kLevelMaxIndex] if it is // also empty. assert(search_left_bound_ == 0); assert(search_right_bound_ == -1 || search_right_bound_ == FileIndexer::kLevelMaxIndex); // Since current level is empty, it will need to search all files in // the next level search_left_bound_ = 0; search_right_bound_ = FileIndexer::kLevelMaxIndex; curr_level_++; continue; } // Some files may overlap each other. We find // all files that overlap user_key and process them in order from // newest to oldest. In the context of merge-operator, this can occur at // any level. Otherwise, it only occurs at Level-0 (since Put/Deletes // are always compacted into a single entry). int32_t start_index; if (curr_level_ == 0) { // On Level-0, we read through all files to check for overlap. start_index = 0; } else { // On Level-n (n>=1), files are sorted. Binary search to find the // earliest file whose largest key >= ikey. Search left bound and // right bound are used to narrow the range. if (search_left_bound_ == search_right_bound_) { start_index = search_left_bound_; } else if (search_left_bound_ < search_right_bound_) { if (search_right_bound_ == FileIndexer::kLevelMaxIndex) { search_right_bound_ = static_cast(curr_file_level_->num_files) - 1; } start_index = FindFileInRange(*internal_comparator_, *curr_file_level_, ikey_, static_cast(search_left_bound_), static_cast(search_right_bound_)); } else { // search_left_bound > search_right_bound, key does not exist in // this level. Since no comparison is done in this level, it will // need to search all files in the next level. search_left_bound_ = 0; search_right_bound_ = FileIndexer::kLevelMaxIndex; curr_level_++; continue; } } start_index_in_curr_level_ = start_index; curr_index_in_curr_level_ = start_index; #ifndef NDEBUG prev_file_ = nullptr; #endif return true; } // curr_level_ = num_levels_. So, no more levels to search. return false; } }; } // anonymous namespace VersionStorageInfo::~VersionStorageInfo() { delete[] files_; } Version::~Version() { assert(refs_ == 0); // Remove from linked list prev_->next_ = next_; next_->prev_ = prev_; // Drop references to files for (int level = 0; level < storage_info_.num_levels_; level++) { for (size_t i = 0; i < storage_info_.files_[level].size(); i++) { FileMetaData* f = storage_info_.files_[level][i]; assert(f->refs > 0); f->refs--; if (f->refs <= 0) { assert(cfd_ != nullptr); uint32_t path_id = f->fd.GetPathId(); assert(path_id < cfd_->ioptions()->cf_paths.size()); vset_->obsolete_files_.push_back( ObsoleteFileInfo(f, cfd_->ioptions()->cf_paths[path_id].path)); } } } } int FindFile(const InternalKeyComparator& icmp, const LevelFilesBrief& file_level, const Slice& key) { return FindFileInRange(icmp, file_level, key, 0, static_cast(file_level.num_files)); } void DoGenerateLevelFilesBrief(LevelFilesBrief* file_level, const std::vector& files, Arena* arena) { assert(file_level); assert(arena); size_t num = files.size(); file_level->num_files = num; char* mem = arena->AllocateAligned(num * sizeof(FdWithKeyRange)); file_level->files = new (mem)FdWithKeyRange[num]; for (size_t i = 0; i < num; i++) { Slice smallest_key = files[i]->smallest.Encode(); Slice largest_key = files[i]->largest.Encode(); // Copy key slice to sequential memory size_t smallest_size = smallest_key.size(); size_t largest_size = largest_key.size(); mem = arena->AllocateAligned(smallest_size + largest_size); memcpy(mem, smallest_key.data(), smallest_size); memcpy(mem + smallest_size, largest_key.data(), largest_size); FdWithKeyRange& f = file_level->files[i]; f.fd = files[i]->fd; f.file_metadata = files[i]; f.smallest_key = Slice(mem, smallest_size); f.largest_key = Slice(mem + smallest_size, largest_size); } } static bool AfterFile(const Comparator* ucmp, const Slice* user_key, const FdWithKeyRange* f) { // nullptr user_key occurs before all keys and is therefore never after *f return (user_key != nullptr && ucmp->Compare(*user_key, ExtractUserKey(f->largest_key)) > 0); } static bool BeforeFile(const Comparator* ucmp, const Slice* user_key, const FdWithKeyRange* f) { // nullptr user_key occurs after all keys and is therefore never before *f return (user_key != nullptr && ucmp->Compare(*user_key, ExtractUserKey(f->smallest_key)) < 0); } bool SomeFileOverlapsRange( const InternalKeyComparator& icmp, bool disjoint_sorted_files, const LevelFilesBrief& file_level, const Slice* smallest_user_key, const Slice* largest_user_key) { const Comparator* ucmp = icmp.user_comparator(); if (!disjoint_sorted_files) { // Need to check against all files for (size_t i = 0; i < file_level.num_files; i++) { const FdWithKeyRange* f = &(file_level.files[i]); if (AfterFile(ucmp, smallest_user_key, f) || BeforeFile(ucmp, largest_user_key, f)) { // No overlap } else { return true; // Overlap } } return false; } // Binary search over file list uint32_t index = 0; if (smallest_user_key != nullptr) { // Find the leftmost possible internal key for smallest_user_key InternalKey small; small.SetMinPossibleForUserKey(*smallest_user_key); index = FindFile(icmp, file_level, small.Encode()); } if (index >= file_level.num_files) { // beginning of range is after all files, so no overlap. return false; } return !BeforeFile(ucmp, largest_user_key, &file_level.files[index]); } namespace { class LevelIterator final : public InternalIterator { public: LevelIterator(TableCache* table_cache, const ReadOptions& read_options, const EnvOptions& env_options, const InternalKeyComparator& icomparator, const LevelFilesBrief* flevel, const SliceTransform* prefix_extractor, bool should_sample, HistogramImpl* file_read_hist, bool for_compaction, bool skip_filters, int level, RangeDelAggregator* range_del_agg) : table_cache_(table_cache), read_options_(read_options), env_options_(env_options), icomparator_(icomparator), flevel_(flevel), prefix_extractor_(prefix_extractor), file_read_hist_(file_read_hist), should_sample_(should_sample), for_compaction_(for_compaction), skip_filters_(skip_filters), file_index_(flevel_->num_files), level_(level), range_del_agg_(range_del_agg), pinned_iters_mgr_(nullptr) { // Empty level is not supported. assert(flevel_ != nullptr && flevel_->num_files > 0); } virtual ~LevelIterator() { delete file_iter_.Set(nullptr); } virtual void Seek(const Slice& target) override; virtual void SeekForPrev(const Slice& target) override; virtual void SeekToFirst() override; virtual void SeekToLast() override; virtual void Next() override; virtual void Prev() override; virtual bool Valid() const override { return file_iter_.Valid(); } virtual Slice key() const override { assert(Valid()); return file_iter_.key(); } virtual Slice value() const override { assert(Valid()); return file_iter_.value(); } virtual Status status() const override { return file_iter_.iter() ? file_iter_.status() : Status::OK(); } virtual void SetPinnedItersMgr( PinnedIteratorsManager* pinned_iters_mgr) override { pinned_iters_mgr_ = pinned_iters_mgr; if (file_iter_.iter()) { file_iter_.SetPinnedItersMgr(pinned_iters_mgr); } } virtual bool IsKeyPinned() const override { return pinned_iters_mgr_ && pinned_iters_mgr_->PinningEnabled() && file_iter_.iter() && file_iter_.IsKeyPinned(); } virtual bool IsValuePinned() const override { return pinned_iters_mgr_ && pinned_iters_mgr_->PinningEnabled() && file_iter_.iter() && file_iter_.IsValuePinned(); } private: void SkipEmptyFileForward(); void SkipEmptyFileBackward(); void SetFileIterator(InternalIterator* iter); void InitFileIterator(size_t new_file_index); const Slice& file_smallest_key(size_t file_index) { assert(file_index < flevel_->num_files); return flevel_->files[file_index].smallest_key; } bool KeyReachedUpperBound(const Slice& internal_key) { return read_options_.iterate_upper_bound != nullptr && icomparator_.user_comparator()->Compare( ExtractUserKey(internal_key), *read_options_.iterate_upper_bound) >= 0; } InternalIterator* NewFileIterator() { assert(file_index_ < flevel_->num_files); auto file_meta = flevel_->files[file_index_]; if (should_sample_) { sample_file_read_inc(file_meta.file_metadata); } return table_cache_->NewIterator( read_options_, env_options_, icomparator_, *file_meta.file_metadata, range_del_agg_, prefix_extractor_, nullptr /* don't need reference to table */, file_read_hist_, for_compaction_, nullptr /* arena */, skip_filters_, level_); } TableCache* table_cache_; const ReadOptions read_options_; const EnvOptions& env_options_; const InternalKeyComparator& icomparator_; const LevelFilesBrief* flevel_; mutable FileDescriptor current_value_; const SliceTransform* prefix_extractor_; HistogramImpl* file_read_hist_; bool should_sample_; bool for_compaction_; bool skip_filters_; size_t file_index_; int level_; RangeDelAggregator* range_del_agg_; IteratorWrapper file_iter_; // May be nullptr PinnedIteratorsManager* pinned_iters_mgr_; }; void LevelIterator::Seek(const Slice& target) { size_t new_file_index = FindFile(icomparator_, *flevel_, target); InitFileIterator(new_file_index); if (file_iter_.iter() != nullptr) { file_iter_.Seek(target); } SkipEmptyFileForward(); } void LevelIterator::SeekForPrev(const Slice& target) { size_t new_file_index = FindFile(icomparator_, *flevel_, target); if (new_file_index >= flevel_->num_files) { new_file_index = flevel_->num_files - 1; } InitFileIterator(new_file_index); if (file_iter_.iter() != nullptr) { file_iter_.SeekForPrev(target); SkipEmptyFileBackward(); } } void LevelIterator::SeekToFirst() { InitFileIterator(0); if (file_iter_.iter() != nullptr) { file_iter_.SeekToFirst(); } SkipEmptyFileForward(); } void LevelIterator::SeekToLast() { InitFileIterator(flevel_->num_files - 1); if (file_iter_.iter() != nullptr) { file_iter_.SeekToLast(); } SkipEmptyFileBackward(); } void LevelIterator::Next() { assert(Valid()); file_iter_.Next(); SkipEmptyFileForward(); } void LevelIterator::Prev() { assert(Valid()); file_iter_.Prev(); SkipEmptyFileBackward(); } void LevelIterator::SkipEmptyFileForward() { while (file_iter_.iter() == nullptr || (!file_iter_.Valid() && file_iter_.status().ok() && !file_iter_.iter()->IsOutOfBound())) { // Move to next file if (file_index_ >= flevel_->num_files - 1) { // Already at the last file SetFileIterator(nullptr); return; } if (KeyReachedUpperBound(file_smallest_key(file_index_ + 1))) { SetFileIterator(nullptr); return; } InitFileIterator(file_index_ + 1); if (file_iter_.iter() != nullptr) { file_iter_.SeekToFirst(); } } } void LevelIterator::SkipEmptyFileBackward() { while (file_iter_.iter() == nullptr || (!file_iter_.Valid() && file_iter_.status().ok())) { // Move to previous file if (file_index_ == 0) { // Already the first file SetFileIterator(nullptr); return; } InitFileIterator(file_index_ - 1); if (file_iter_.iter() != nullptr) { file_iter_.SeekToLast(); } } } void LevelIterator::SetFileIterator(InternalIterator* iter) { if (pinned_iters_mgr_ && iter) { iter->SetPinnedItersMgr(pinned_iters_mgr_); } InternalIterator* old_iter = file_iter_.Set(iter); if (pinned_iters_mgr_ && pinned_iters_mgr_->PinningEnabled()) { pinned_iters_mgr_->PinIterator(old_iter); } else { delete old_iter; } } void LevelIterator::InitFileIterator(size_t new_file_index) { if (new_file_index >= flevel_->num_files) { file_index_ = new_file_index; SetFileIterator(nullptr); return; } else { // If the file iterator shows incomplete, we try it again if users seek // to the same file, as this time we may go to a different data block // which is cached in block cache. // if (file_iter_.iter() != nullptr && !file_iter_.status().IsIncomplete() && new_file_index == file_index_) { // file_iter_ is already constructed with this iterator, so // no need to change anything } else { file_index_ = new_file_index; InternalIterator* iter = NewFileIterator(); SetFileIterator(iter); } } } // A wrapper of version builder which references the current version in // constructor and unref it in the destructor. // Both of the constructor and destructor need to be called inside DB Mutex. class BaseReferencedVersionBuilder { public: explicit BaseReferencedVersionBuilder(ColumnFamilyData* cfd) : version_builder_(new VersionBuilder( cfd->current()->version_set()->env_options(), cfd->table_cache(), cfd->current()->storage_info(), cfd->ioptions()->info_log)), version_(cfd->current()) { version_->Ref(); } ~BaseReferencedVersionBuilder() { delete version_builder_; version_->Unref(); } VersionBuilder* version_builder() { return version_builder_; } private: VersionBuilder* version_builder_; Version* version_; }; } // anonymous namespace Status Version::GetTableProperties(std::shared_ptr* tp, const FileMetaData* file_meta, const std::string* fname) const { auto table_cache = cfd_->table_cache(); auto ioptions = cfd_->ioptions(); Status s = table_cache->GetTableProperties( env_options_, cfd_->internal_comparator(), file_meta->fd, tp, mutable_cf_options_.prefix_extractor.get(), true /* no io */); if (s.ok()) { return s; } // We only ignore error type `Incomplete` since it's by design that we // disallow table when it's not in table cache. if (!s.IsIncomplete()) { return s; } // 2. Table is not present in table cache, we'll read the table properties // directly from the properties block in the file. std::unique_ptr file; std::string file_name; if (fname != nullptr) { file_name = *fname; } else { file_name = TableFileName(ioptions->cf_paths, file_meta->fd.GetNumber(), file_meta->fd.GetPathId()); } s = ioptions->env->NewRandomAccessFile(file_name, &file, env_options_); if (!s.ok()) { return s; } TableProperties* raw_table_properties; // By setting the magic number to kInvalidTableMagicNumber, we can by // pass the magic number check in the footer. std::unique_ptr file_reader( new RandomAccessFileReader(std::move(file), file_name)); s = ReadTableProperties( file_reader.get(), file_meta->fd.GetFileSize(), Footer::kInvalidTableMagicNumber /* table's magic number */, *ioptions, &raw_table_properties, false /* compression_type_missing */); if (!s.ok()) { return s; } RecordTick(ioptions->statistics, NUMBER_DIRECT_LOAD_TABLE_PROPERTIES); *tp = std::shared_ptr(raw_table_properties); return s; } Status Version::GetPropertiesOfAllTables(TablePropertiesCollection* props) { Status s; for (int level = 0; level < storage_info_.num_levels_; level++) { s = GetPropertiesOfAllTables(props, level); if (!s.ok()) { return s; } } return Status::OK(); } Status Version::GetPropertiesOfAllTables(TablePropertiesCollection* props, int level) { for (const auto& file_meta : storage_info_.files_[level]) { auto fname = TableFileName(cfd_->ioptions()->cf_paths, file_meta->fd.GetNumber(), file_meta->fd.GetPathId()); // 1. If the table is already present in table cache, load table // properties from there. std::shared_ptr table_properties; Status s = GetTableProperties(&table_properties, file_meta, &fname); if (s.ok()) { props->insert({fname, table_properties}); } else { return s; } } return Status::OK(); } Status Version::GetPropertiesOfTablesInRange( const Range* range, std::size_t n, TablePropertiesCollection* props) const { for (int level = 0; level < storage_info_.num_non_empty_levels(); level++) { for (decltype(n) i = 0; i < n; i++) { // Convert user_key into a corresponding internal key. InternalKey k1(range[i].start, kMaxSequenceNumber, kValueTypeForSeek); InternalKey k2(range[i].limit, kMaxSequenceNumber, kValueTypeForSeek); std::vector files; storage_info_.GetOverlappingInputs(level, &k1, &k2, &files, -1, nullptr, false); for (const auto& file_meta : files) { auto fname = TableFileName(cfd_->ioptions()->cf_paths, file_meta->fd.GetNumber(), file_meta->fd.GetPathId()); if (props->count(fname) == 0) { // 1. If the table is already present in table cache, load table // properties from there. std::shared_ptr table_properties; Status s = GetTableProperties(&table_properties, file_meta, &fname); if (s.ok()) { props->insert({fname, table_properties}); } else { return s; } } } } } return Status::OK(); } Status Version::GetAggregatedTableProperties( std::shared_ptr* tp, int level) { TablePropertiesCollection props; Status s; if (level < 0) { s = GetPropertiesOfAllTables(&props); } else { s = GetPropertiesOfAllTables(&props, level); } if (!s.ok()) { return s; } auto* new_tp = new TableProperties(); for (const auto& item : props) { new_tp->Add(*item.second); } tp->reset(new_tp); return Status::OK(); } size_t Version::GetMemoryUsageByTableReaders() { size_t total_usage = 0; for (auto& file_level : storage_info_.level_files_brief_) { for (size_t i = 0; i < file_level.num_files; i++) { total_usage += cfd_->table_cache()->GetMemoryUsageByTableReader( env_options_, cfd_->internal_comparator(), file_level.files[i].fd, mutable_cf_options_.prefix_extractor.get()); } } return total_usage; } void Version::GetColumnFamilyMetaData(ColumnFamilyMetaData* cf_meta) { assert(cf_meta); assert(cfd_); cf_meta->name = cfd_->GetName(); cf_meta->size = 0; cf_meta->file_count = 0; cf_meta->levels.clear(); auto* ioptions = cfd_->ioptions(); auto* vstorage = storage_info(); for (int level = 0; level < cfd_->NumberLevels(); level++) { uint64_t level_size = 0; cf_meta->file_count += vstorage->LevelFiles(level).size(); std::vector files; for (const auto& file : vstorage->LevelFiles(level)) { uint32_t path_id = file->fd.GetPathId(); std::string file_path; if (path_id < ioptions->cf_paths.size()) { file_path = ioptions->cf_paths[path_id].path; } else { assert(!ioptions->cf_paths.empty()); file_path = ioptions->cf_paths.back().path; } files.emplace_back(SstFileMetaData{ MakeTableFileName("", file->fd.GetNumber()), file_path, static_cast(file->fd.GetFileSize()), file->fd.smallest_seqno, file->fd.largest_seqno, file->smallest.user_key().ToString(), file->largest.user_key().ToString(), file->stats.num_reads_sampled.load(std::memory_order_relaxed), file->being_compacted}); level_size += file->fd.GetFileSize(); } cf_meta->levels.emplace_back( level, level_size, std::move(files)); cf_meta->size += level_size; } } uint64_t Version::GetSstFilesSize() { uint64_t sst_files_size = 0; for (int level = 0; level < storage_info_.num_levels_; level++) { for (const auto& file_meta : storage_info_.LevelFiles(level)) { sst_files_size += file_meta->fd.GetFileSize(); } } return sst_files_size; } uint64_t VersionStorageInfo::GetEstimatedActiveKeys() const { // Estimation will be inaccurate when: // (1) there exist merge keys // (2) keys are directly overwritten // (3) deletion on non-existing keys // (4) low number of samples if (current_num_samples_ == 0) { return 0; } if (current_num_non_deletions_ <= current_num_deletions_) { return 0; } uint64_t est = current_num_non_deletions_ - current_num_deletions_; uint64_t file_count = 0; for (int level = 0; level < num_levels_; ++level) { file_count += files_[level].size(); } if (current_num_samples_ < file_count) { // casting to avoid overflowing return static_cast( (est * static_cast(file_count) / current_num_samples_) ); } else { return est; } } double VersionStorageInfo::GetEstimatedCompressionRatioAtLevel( int level) const { assert(level < num_levels_); uint64_t sum_file_size_bytes = 0; uint64_t sum_data_size_bytes = 0; for (auto* file_meta : files_[level]) { sum_file_size_bytes += file_meta->fd.GetFileSize(); sum_data_size_bytes += file_meta->raw_key_size + file_meta->raw_value_size; } if (sum_file_size_bytes == 0) { return -1.0; } return static_cast(sum_data_size_bytes) / sum_file_size_bytes; } void Version::AddIterators(const ReadOptions& read_options, const EnvOptions& soptions, MergeIteratorBuilder* merge_iter_builder, RangeDelAggregator* range_del_agg) { assert(storage_info_.finalized_); for (int level = 0; level < storage_info_.num_non_empty_levels(); level++) { AddIteratorsForLevel(read_options, soptions, merge_iter_builder, level, range_del_agg); } } void Version::AddIteratorsForLevel(const ReadOptions& read_options, const EnvOptions& soptions, MergeIteratorBuilder* merge_iter_builder, int level, RangeDelAggregator* range_del_agg) { assert(storage_info_.finalized_); if (level >= storage_info_.num_non_empty_levels()) { // This is an empty level return; } else if (storage_info_.LevelFilesBrief(level).num_files == 0) { // No files in this level return; } bool should_sample = should_sample_file_read(); auto* arena = merge_iter_builder->GetArena(); if (level == 0) { // Merge all level zero files together since they may overlap for (size_t i = 0; i < storage_info_.LevelFilesBrief(0).num_files; i++) { const auto& file = storage_info_.LevelFilesBrief(0).files[i]; merge_iter_builder->AddIterator(cfd_->table_cache()->NewIterator( read_options, soptions, cfd_->internal_comparator(), *file.file_metadata, range_del_agg, mutable_cf_options_.prefix_extractor.get(), nullptr, cfd_->internal_stats()->GetFileReadHist(0), false, arena, false /* skip_filters */, 0 /* level */)); } if (should_sample) { // Count ones for every L0 files. This is done per iterator creation // rather than Seek(), while files in other levels are recored per seek. // If users execute one range query per iterator, there may be some // discrepancy here. for (FileMetaData* meta : storage_info_.LevelFiles(0)) { sample_file_read_inc(meta); } } } else if (storage_info_.LevelFilesBrief(level).num_files > 0) { // For levels > 0, we can use a concatenating iterator that sequentially // walks through the non-overlapping files in the level, opening them // lazily. auto* mem = arena->AllocateAligned(sizeof(LevelIterator)); merge_iter_builder->AddIterator(new (mem) LevelIterator( cfd_->table_cache(), read_options, soptions, cfd_->internal_comparator(), &storage_info_.LevelFilesBrief(level), mutable_cf_options_.prefix_extractor.get(), should_sample_file_read(), cfd_->internal_stats()->GetFileReadHist(level), false /* for_compaction */, IsFilterSkipped(level), level, range_del_agg)); } } Status Version::OverlapWithLevelIterator(const ReadOptions& read_options, const EnvOptions& env_options, const Slice& smallest_user_key, const Slice& largest_user_key, int level, bool* overlap) { assert(storage_info_.finalized_); auto icmp = cfd_->internal_comparator(); auto ucmp = icmp.user_comparator(); Arena arena; Status status; RangeDelAggregator range_del_agg(icmp, {}, false); *overlap = false; if (level == 0) { for (size_t i = 0; i < storage_info_.LevelFilesBrief(0).num_files; i++) { const auto file = &storage_info_.LevelFilesBrief(0).files[i]; if (AfterFile(ucmp, &smallest_user_key, file) || BeforeFile(ucmp, &largest_user_key, file)) { continue; } ScopedArenaIterator iter(cfd_->table_cache()->NewIterator( read_options, env_options, cfd_->internal_comparator(), *file->file_metadata, &range_del_agg, mutable_cf_options_.prefix_extractor.get(), nullptr, cfd_->internal_stats()->GetFileReadHist(0), false, &arena, false /* skip_filters */, 0 /* level */)); status = OverlapWithIterator( ucmp, smallest_user_key, largest_user_key, iter.get(), overlap); if (!status.ok() || *overlap) { break; } } } else if (storage_info_.LevelFilesBrief(level).num_files > 0) { auto mem = arena.AllocateAligned(sizeof(LevelIterator)); ScopedArenaIterator iter(new (mem) LevelIterator( cfd_->table_cache(), read_options, env_options, cfd_->internal_comparator(), &storage_info_.LevelFilesBrief(level), mutable_cf_options_.prefix_extractor.get(), should_sample_file_read(), cfd_->internal_stats()->GetFileReadHist(level), false /* for_compaction */, IsFilterSkipped(level), level, &range_del_agg)); status = OverlapWithIterator( ucmp, smallest_user_key, largest_user_key, iter.get(), overlap); } if (status.ok() && *overlap == false && range_del_agg.IsRangeOverlapped(smallest_user_key, largest_user_key)) { *overlap = true; } return status; } VersionStorageInfo::VersionStorageInfo( const InternalKeyComparator* internal_comparator, const Comparator* user_comparator, int levels, CompactionStyle compaction_style, VersionStorageInfo* ref_vstorage, bool _force_consistency_checks) : internal_comparator_(internal_comparator), user_comparator_(user_comparator), // cfd is nullptr if Version is dummy num_levels_(levels), num_non_empty_levels_(0), file_indexer_(user_comparator), compaction_style_(compaction_style), files_(new std::vector[num_levels_]), base_level_(num_levels_ == 1 ? -1 : 1), files_by_compaction_pri_(num_levels_), level0_non_overlapping_(false), next_file_to_compact_by_size_(num_levels_), compaction_score_(num_levels_), compaction_level_(num_levels_), l0_delay_trigger_count_(0), accumulated_file_size_(0), accumulated_raw_key_size_(0), accumulated_raw_value_size_(0), accumulated_num_non_deletions_(0), accumulated_num_deletions_(0), current_num_non_deletions_(0), current_num_deletions_(0), current_num_samples_(0), estimated_compaction_needed_bytes_(0), finalized_(false), force_consistency_checks_(_force_consistency_checks) { if (ref_vstorage != nullptr) { accumulated_file_size_ = ref_vstorage->accumulated_file_size_; accumulated_raw_key_size_ = ref_vstorage->accumulated_raw_key_size_; accumulated_raw_value_size_ = ref_vstorage->accumulated_raw_value_size_; accumulated_num_non_deletions_ = ref_vstorage->accumulated_num_non_deletions_; accumulated_num_deletions_ = ref_vstorage->accumulated_num_deletions_; current_num_non_deletions_ = ref_vstorage->current_num_non_deletions_; current_num_deletions_ = ref_vstorage->current_num_deletions_; current_num_samples_ = ref_vstorage->current_num_samples_; oldest_snapshot_seqnum_ = ref_vstorage->oldest_snapshot_seqnum_; } } Version::Version(ColumnFamilyData* column_family_data, VersionSet* vset, const EnvOptions& env_opt, const MutableCFOptions mutable_cf_options, uint64_t version_number) : env_(vset->env_), cfd_(column_family_data), info_log_((cfd_ == nullptr) ? nullptr : cfd_->ioptions()->info_log), db_statistics_((cfd_ == nullptr) ? nullptr : cfd_->ioptions()->statistics), table_cache_((cfd_ == nullptr) ? nullptr : cfd_->table_cache()), merge_operator_((cfd_ == nullptr) ? nullptr : cfd_->ioptions()->merge_operator), storage_info_( (cfd_ == nullptr) ? nullptr : &cfd_->internal_comparator(), (cfd_ == nullptr) ? nullptr : cfd_->user_comparator(), cfd_ == nullptr ? 0 : cfd_->NumberLevels(), cfd_ == nullptr ? kCompactionStyleLevel : cfd_->ioptions()->compaction_style, (cfd_ == nullptr || cfd_->current() == nullptr) ? nullptr : cfd_->current()->storage_info(), cfd_ == nullptr ? false : cfd_->ioptions()->force_consistency_checks), vset_(vset), next_(this), prev_(this), refs_(0), env_options_(env_opt), mutable_cf_options_(mutable_cf_options), version_number_(version_number) {} void Version::Get(const ReadOptions& read_options, const LookupKey& k, PinnableSlice* value, Status* status, MergeContext* merge_context, RangeDelAggregator* range_del_agg, bool* value_found, bool* key_exists, SequenceNumber* seq, ReadCallback* callback, bool* is_blob) { Slice ikey = k.internal_key(); Slice user_key = k.user_key(); assert(status->ok() || status->IsMergeInProgress()); if (key_exists != nullptr) { // will falsify below if not found *key_exists = true; } PinnedIteratorsManager pinned_iters_mgr; GetContext get_context( user_comparator(), merge_operator_, info_log_, db_statistics_, status->ok() ? GetContext::kNotFound : GetContext::kMerge, user_key, value, value_found, merge_context, range_del_agg, this->env_, seq, merge_operator_ ? &pinned_iters_mgr : nullptr, callback, is_blob); // Pin blocks that we read to hold merge operands if (merge_operator_) { pinned_iters_mgr.StartPinning(); } FilePicker fp( storage_info_.files_, user_key, ikey, &storage_info_.level_files_brief_, storage_info_.num_non_empty_levels_, &storage_info_.file_indexer_, user_comparator(), internal_comparator()); FdWithKeyRange* f = fp.GetNextFile(); while (f != nullptr) { if (get_context.sample()) { sample_file_read_inc(f->file_metadata); } *status = table_cache_->Get( read_options, *internal_comparator(), *f->file_metadata, ikey, &get_context, mutable_cf_options_.prefix_extractor.get(), cfd_->internal_stats()->GetFileReadHist(fp.GetHitFileLevel()), IsFilterSkipped(static_cast(fp.GetHitFileLevel()), fp.IsHitFileLastInLevel()), fp.GetCurrentLevel()); // TODO: examine the behavior for corrupted key if (!status->ok()) { return; } // report the counters before returning if (get_context.State() != GetContext::kNotFound && get_context.State() != GetContext::kMerge && db_statistics_ != nullptr) { get_context.ReportCounters(); } switch (get_context.State()) { case GetContext::kNotFound: // Keep searching in other files break; case GetContext::kMerge: break; case GetContext::kFound: if (fp.GetHitFileLevel() == 0) { RecordTick(db_statistics_, GET_HIT_L0); } else if (fp.GetHitFileLevel() == 1) { RecordTick(db_statistics_, GET_HIT_L1); } else if (fp.GetHitFileLevel() >= 2) { RecordTick(db_statistics_, GET_HIT_L2_AND_UP); } return; case GetContext::kDeleted: // Use empty error message for speed *status = Status::NotFound(); return; case GetContext::kCorrupt: *status = Status::Corruption("corrupted key for ", user_key); return; case GetContext::kBlobIndex: ROCKS_LOG_ERROR(info_log_, "Encounter unexpected blob index."); *status = Status::NotSupported( "Encounter unexpected blob index. Please open DB with " "rocksdb::blob_db::BlobDB instead."); return; } f = fp.GetNextFile(); } if (db_statistics_ != nullptr) { get_context.ReportCounters(); } if (GetContext::kMerge == get_context.State()) { if (!merge_operator_) { *status = Status::InvalidArgument( "merge_operator is not properly initialized."); return; } // merge_operands are in saver and we hit the beginning of the key history // do a final merge of nullptr and operands; std::string* str_value = value != nullptr ? value->GetSelf() : nullptr; *status = MergeHelper::TimedFullMerge( merge_operator_, user_key, nullptr, merge_context->GetOperands(), str_value, info_log_, db_statistics_, env_, nullptr /* result_operand */, true); if (LIKELY(value != nullptr)) { value->PinSelf(); } } else { if (key_exists != nullptr) { *key_exists = false; } *status = Status::NotFound(); // Use an empty error message for speed } } bool Version::IsFilterSkipped(int level, bool is_file_last_in_level) { // Reaching the bottom level implies misses at all upper levels, so we'll // skip checking the filters when we predict a hit. return cfd_->ioptions()->optimize_filters_for_hits && (level > 0 || is_file_last_in_level) && level == storage_info_.num_non_empty_levels() - 1; } void VersionStorageInfo::GenerateLevelFilesBrief() { level_files_brief_.resize(num_non_empty_levels_); for (int level = 0; level < num_non_empty_levels_; level++) { DoGenerateLevelFilesBrief( &level_files_brief_[level], files_[level], &arena_); } } void Version::PrepareApply( const MutableCFOptions& mutable_cf_options, bool update_stats) { UpdateAccumulatedStats(update_stats); storage_info_.UpdateNumNonEmptyLevels(); storage_info_.CalculateBaseBytes(*cfd_->ioptions(), mutable_cf_options); storage_info_.UpdateFilesByCompactionPri(cfd_->ioptions()->compaction_pri); storage_info_.GenerateFileIndexer(); storage_info_.GenerateLevelFilesBrief(); storage_info_.GenerateLevel0NonOverlapping(); storage_info_.GenerateBottommostFiles(); } bool Version::MaybeInitializeFileMetaData(FileMetaData* file_meta) { if (file_meta->init_stats_from_file || file_meta->compensated_file_size > 0) { return false; } std::shared_ptr tp; Status s = GetTableProperties(&tp, file_meta); file_meta->init_stats_from_file = true; if (!s.ok()) { ROCKS_LOG_ERROR(vset_->db_options_->info_log, "Unable to load table properties for file %" PRIu64 " --- %s\n", file_meta->fd.GetNumber(), s.ToString().c_str()); return false; } if (tp.get() == nullptr) return false; file_meta->num_entries = tp->num_entries; file_meta->num_deletions = GetDeletedKeys(tp->user_collected_properties); file_meta->raw_value_size = tp->raw_value_size; file_meta->raw_key_size = tp->raw_key_size; return true; } void VersionStorageInfo::UpdateAccumulatedStats(FileMetaData* file_meta) { assert(file_meta->init_stats_from_file); accumulated_file_size_ += file_meta->fd.GetFileSize(); accumulated_raw_key_size_ += file_meta->raw_key_size; accumulated_raw_value_size_ += file_meta->raw_value_size; accumulated_num_non_deletions_ += file_meta->num_entries - file_meta->num_deletions; accumulated_num_deletions_ += file_meta->num_deletions; current_num_non_deletions_ += file_meta->num_entries - file_meta->num_deletions; current_num_deletions_ += file_meta->num_deletions; current_num_samples_++; } void VersionStorageInfo::RemoveCurrentStats(FileMetaData* file_meta) { if (file_meta->init_stats_from_file) { current_num_non_deletions_ -= file_meta->num_entries - file_meta->num_deletions; current_num_deletions_ -= file_meta->num_deletions; current_num_samples_--; } } void Version::UpdateAccumulatedStats(bool update_stats) { if (update_stats) { // maximum number of table properties loaded from files. const int kMaxInitCount = 20; int init_count = 0; // here only the first kMaxInitCount files which haven't been // initialized from file will be updated with num_deletions. // The motivation here is to cap the maximum I/O per Version creation. // The reason for choosing files from lower-level instead of higher-level // is that such design is able to propagate the initialization from // lower-level to higher-level: When the num_deletions of lower-level // files are updated, it will make the lower-level files have accurate // compensated_file_size, making lower-level to higher-level compaction // will be triggered, which creates higher-level files whose num_deletions // will be updated here. for (int level = 0; level < storage_info_.num_levels_ && init_count < kMaxInitCount; ++level) { for (auto* file_meta : storage_info_.files_[level]) { if (MaybeInitializeFileMetaData(file_meta)) { // each FileMeta will be initialized only once. storage_info_.UpdateAccumulatedStats(file_meta); // when option "max_open_files" is -1, all the file metadata has // already been read, so MaybeInitializeFileMetaData() won't incur // any I/O cost. "max_open_files=-1" means that the table cache passed // to the VersionSet and then to the ColumnFamilySet has a size of // TableCache::kInfiniteCapacity if (vset_->GetColumnFamilySet()->get_table_cache()->GetCapacity() == TableCache::kInfiniteCapacity) { continue; } if (++init_count >= kMaxInitCount) { break; } } } } // In case all sampled-files contain only deletion entries, then we // load the table-property of a file in higher-level to initialize // that value. for (int level = storage_info_.num_levels_ - 1; storage_info_.accumulated_raw_value_size_ == 0 && level >= 0; --level) { for (int i = static_cast(storage_info_.files_[level].size()) - 1; storage_info_.accumulated_raw_value_size_ == 0 && i >= 0; --i) { if (MaybeInitializeFileMetaData(storage_info_.files_[level][i])) { storage_info_.UpdateAccumulatedStats(storage_info_.files_[level][i]); } } } } storage_info_.ComputeCompensatedSizes(); } void VersionStorageInfo::ComputeCompensatedSizes() { static const int kDeletionWeightOnCompaction = 2; uint64_t average_value_size = GetAverageValueSize(); // compute the compensated size for (int level = 0; level < num_levels_; level++) { for (auto* file_meta : files_[level]) { // Here we only compute compensated_file_size for those file_meta // which compensated_file_size is uninitialized (== 0). This is true only // for files that have been created right now and no other thread has // access to them. That's why we can safely mutate compensated_file_size. if (file_meta->compensated_file_size == 0) { file_meta->compensated_file_size = file_meta->fd.GetFileSize(); // Here we only boost the size of deletion entries of a file only // when the number of deletion entries is greater than the number of // non-deletion entries in the file. The motivation here is that in // a stable workload, the number of deletion entries should be roughly // equal to the number of non-deletion entries. If we compensate the // size of deletion entries in a stable workload, the deletion // compensation logic might introduce unwanted effet which changes the // shape of LSM tree. if (file_meta->num_deletions * 2 >= file_meta->num_entries) { file_meta->compensated_file_size += (file_meta->num_deletions * 2 - file_meta->num_entries) * average_value_size * kDeletionWeightOnCompaction; } } } } } int VersionStorageInfo::MaxInputLevel() const { if (compaction_style_ == kCompactionStyleLevel) { return num_levels() - 2; } return 0; } int VersionStorageInfo::MaxOutputLevel(bool allow_ingest_behind) const { if (allow_ingest_behind) { assert(num_levels() > 1); return num_levels() - 2; } return num_levels() - 1; } void VersionStorageInfo::EstimateCompactionBytesNeeded( const MutableCFOptions& mutable_cf_options) { // Only implemented for level-based compaction if (compaction_style_ != kCompactionStyleLevel) { estimated_compaction_needed_bytes_ = 0; return; } // Start from Level 0, if level 0 qualifies compaction to level 1, // we estimate the size of compaction. // Then we move on to the next level and see whether it qualifies compaction // to the next level. The size of the level is estimated as the actual size // on the level plus the input bytes from the previous level if there is any. // If it exceeds, take the exceeded bytes as compaction input and add the size // of the compaction size to tatal size. // We keep doing it to Level 2, 3, etc, until the last level and return the // accumulated bytes. uint64_t bytes_compact_to_next_level = 0; uint64_t level_size = 0; for (auto* f : files_[0]) { level_size += f->fd.GetFileSize(); } // Level 0 bool level0_compact_triggered = false; if (static_cast(files_[0].size()) >= mutable_cf_options.level0_file_num_compaction_trigger || level_size >= mutable_cf_options.max_bytes_for_level_base) { level0_compact_triggered = true; estimated_compaction_needed_bytes_ = level_size; bytes_compact_to_next_level = level_size; } else { estimated_compaction_needed_bytes_ = 0; } // Level 1 and up. uint64_t bytes_next_level = 0; for (int level = base_level(); level <= MaxInputLevel(); level++) { level_size = 0; if (bytes_next_level > 0) { #ifndef NDEBUG uint64_t level_size2 = 0; for (auto* f : files_[level]) { level_size2 += f->fd.GetFileSize(); } assert(level_size2 == bytes_next_level); #endif level_size = bytes_next_level; bytes_next_level = 0; } else { for (auto* f : files_[level]) { level_size += f->fd.GetFileSize(); } } if (level == base_level() && level0_compact_triggered) { // Add base level size to compaction if level0 compaction triggered. estimated_compaction_needed_bytes_ += level_size; } // Add size added by previous compaction level_size += bytes_compact_to_next_level; bytes_compact_to_next_level = 0; uint64_t level_target = MaxBytesForLevel(level); if (level_size > level_target) { bytes_compact_to_next_level = level_size - level_target; // Estimate the actual compaction fan-out ratio as size ratio between // the two levels. assert(bytes_next_level == 0); if (level + 1 < num_levels_) { for (auto* f : files_[level + 1]) { bytes_next_level += f->fd.GetFileSize(); } } if (bytes_next_level > 0) { assert(level_size > 0); estimated_compaction_needed_bytes_ += static_cast( static_cast(bytes_compact_to_next_level) * (static_cast(bytes_next_level) / static_cast(level_size) + 1)); } } } } namespace { uint32_t GetExpiredTtlFilesCount(const ImmutableCFOptions& ioptions, const MutableCFOptions& mutable_cf_options, const std::vector& files) { uint32_t ttl_expired_files_count = 0; int64_t _current_time; auto status = ioptions.env->GetCurrentTime(&_current_time); if (status.ok()) { const uint64_t current_time = static_cast(_current_time); for (auto f : files) { if (!f->being_compacted && f->fd.table_reader != nullptr && f->fd.table_reader->GetTableProperties() != nullptr) { auto creation_time = f->fd.table_reader->GetTableProperties()->creation_time; if (creation_time > 0 && creation_time < (current_time - mutable_cf_options.compaction_options_fifo.ttl)) { ttl_expired_files_count++; } } } } return ttl_expired_files_count; } } // anonymous namespace void VersionStorageInfo::ComputeCompactionScore( const ImmutableCFOptions& immutable_cf_options, const MutableCFOptions& mutable_cf_options) { for (int level = 0; level <= MaxInputLevel(); level++) { double score; if (level == 0) { // We treat level-0 specially by bounding the number of files // instead of number of bytes for two reasons: // // (1) With larger write-buffer sizes, it is nice not to do too // many level-0 compactions. // // (2) The files in level-0 are merged on every read and // therefore we wish to avoid too many files when the individual // file size is small (perhaps because of a small write-buffer // setting, or very high compression ratios, or lots of // overwrites/deletions). int num_sorted_runs = 0; uint64_t total_size = 0; for (auto* f : files_[level]) { if (!f->being_compacted) { total_size += f->compensated_file_size; num_sorted_runs++; } } if (compaction_style_ == kCompactionStyleUniversal) { // For universal compaction, we use level0 score to indicate // compaction score for the whole DB. Adding other levels as if // they are L0 files. for (int i = 1; i < num_levels(); i++) { if (!files_[i].empty() && !files_[i][0]->being_compacted) { num_sorted_runs++; } } } if (compaction_style_ == kCompactionStyleFIFO) { score = static_cast(total_size) / mutable_cf_options.compaction_options_fifo.max_table_files_size; if (mutable_cf_options.compaction_options_fifo.allow_compaction) { score = std::max( static_cast(num_sorted_runs) / mutable_cf_options.level0_file_num_compaction_trigger, score); } if (mutable_cf_options.compaction_options_fifo.ttl > 0) { score = std::max( static_cast(GetExpiredTtlFilesCount( immutable_cf_options, mutable_cf_options, files_[level])), score); } } else { score = static_cast(num_sorted_runs) / mutable_cf_options.level0_file_num_compaction_trigger; if (compaction_style_ == kCompactionStyleLevel && num_levels() > 1) { // Level-based involves L0->L0 compactions that can lead to oversized // L0 files. Take into account size as well to avoid later giant // compactions to the base level. score = std::max( score, static_cast(total_size) / mutable_cf_options.max_bytes_for_level_base); } } } else { // Compute the ratio of current size to size limit. uint64_t level_bytes_no_compacting = 0; for (auto f : files_[level]) { if (!f->being_compacted) { level_bytes_no_compacting += f->compensated_file_size; } } score = static_cast(level_bytes_no_compacting) / MaxBytesForLevel(level); } compaction_level_[level] = level; compaction_score_[level] = score; } // sort all the levels based on their score. Higher scores get listed // first. Use bubble sort because the number of entries are small. for (int i = 0; i < num_levels() - 2; i++) { for (int j = i + 1; j < num_levels() - 1; j++) { if (compaction_score_[i] < compaction_score_[j]) { double score = compaction_score_[i]; int level = compaction_level_[i]; compaction_score_[i] = compaction_score_[j]; compaction_level_[i] = compaction_level_[j]; compaction_score_[j] = score; compaction_level_[j] = level; } } } ComputeFilesMarkedForCompaction(); ComputeBottommostFilesMarkedForCompaction(); if (mutable_cf_options.ttl > 0) { ComputeExpiredTtlFiles(immutable_cf_options, mutable_cf_options.ttl); } EstimateCompactionBytesNeeded(mutable_cf_options); } void VersionStorageInfo::ComputeFilesMarkedForCompaction() { files_marked_for_compaction_.clear(); int last_qualify_level = 0; // Do not include files from the last level with data // If table properties collector suggests a file on the last level, // we should not move it to a new level. for (int level = num_levels() - 1; level >= 1; level--) { if (!files_[level].empty()) { last_qualify_level = level - 1; break; } } for (int level = 0; level <= last_qualify_level; level++) { for (auto* f : files_[level]) { if (!f->being_compacted && f->marked_for_compaction) { files_marked_for_compaction_.emplace_back(level, f); } } } } void VersionStorageInfo::ComputeExpiredTtlFiles( const ImmutableCFOptions& ioptions, const uint64_t ttl) { assert(ttl > 0); expired_ttl_files_.clear(); int64_t _current_time; auto status = ioptions.env->GetCurrentTime(&_current_time); if (!status.ok()) { return; } const uint64_t current_time = static_cast(_current_time); for (int level = 0; level < num_levels() - 1; level++) { for (auto f : files_[level]) { if (!f->being_compacted && f->fd.table_reader != nullptr && f->fd.table_reader->GetTableProperties() != nullptr) { auto creation_time = f->fd.table_reader->GetTableProperties()->creation_time; if (creation_time > 0 && creation_time < (current_time - ttl)) { expired_ttl_files_.emplace_back(level, f); } } } } } namespace { // used to sort files by size struct Fsize { size_t index; FileMetaData* file; }; // Compator that is used to sort files based on their size // In normal mode: descending size bool CompareCompensatedSizeDescending(const Fsize& first, const Fsize& second) { return (first.file->compensated_file_size > second.file->compensated_file_size); } } // anonymous namespace void VersionStorageInfo::AddFile(int level, FileMetaData* f, Logger* info_log) { auto* level_files = &files_[level]; // Must not overlap #ifndef NDEBUG if (level > 0 && !level_files->empty() && internal_comparator_->Compare( (*level_files)[level_files->size() - 1]->largest, f->smallest) >= 0) { auto* f2 = (*level_files)[level_files->size() - 1]; if (info_log != nullptr) { Error(info_log, "Adding new file %" PRIu64 " range (%s, %s) to level %d but overlapping " "with existing file %" PRIu64 " %s %s", f->fd.GetNumber(), f->smallest.DebugString(true).c_str(), f->largest.DebugString(true).c_str(), level, f2->fd.GetNumber(), f2->smallest.DebugString(true).c_str(), f2->largest.DebugString(true).c_str()); LogFlush(info_log); } assert(false); } #else (void)info_log; #endif f->refs++; level_files->push_back(f); } // Version::PrepareApply() need to be called before calling the function, or // following functions called: // 1. UpdateNumNonEmptyLevels(); // 2. CalculateBaseBytes(); // 3. UpdateFilesByCompactionPri(); // 4. GenerateFileIndexer(); // 5. GenerateLevelFilesBrief(); // 6. GenerateLevel0NonOverlapping(); // 7. GenerateBottommostFiles(); void VersionStorageInfo::SetFinalized() { finalized_ = true; #ifndef NDEBUG if (compaction_style_ != kCompactionStyleLevel) { // Not level based compaction. return; } assert(base_level_ < 0 || num_levels() == 1 || (base_level_ >= 1 && base_level_ < num_levels())); // Verify all levels newer than base_level are empty except L0 for (int level = 1; level < base_level(); level++) { assert(NumLevelBytes(level) == 0); } uint64_t max_bytes_prev_level = 0; for (int level = base_level(); level < num_levels() - 1; level++) { if (LevelFiles(level).size() == 0) { continue; } assert(MaxBytesForLevel(level) >= max_bytes_prev_level); max_bytes_prev_level = MaxBytesForLevel(level); } int num_empty_non_l0_level = 0; for (int level = 0; level < num_levels(); level++) { assert(LevelFiles(level).size() == 0 || LevelFiles(level).size() == LevelFilesBrief(level).num_files); if (level > 0 && NumLevelBytes(level) > 0) { num_empty_non_l0_level++; } if (LevelFiles(level).size() > 0) { assert(level < num_non_empty_levels()); } } assert(compaction_level_.size() > 0); assert(compaction_level_.size() == compaction_score_.size()); #endif } void VersionStorageInfo::UpdateNumNonEmptyLevels() { num_non_empty_levels_ = num_levels_; for (int i = num_levels_ - 1; i >= 0; i--) { if (files_[i].size() != 0) { return; } else { num_non_empty_levels_ = i; } } } namespace { // Sort `temp` based on ratio of overlapping size over file size void SortFileByOverlappingRatio( const InternalKeyComparator& icmp, const std::vector& files, const std::vector& next_level_files, std::vector* temp) { std::unordered_map file_to_order; auto next_level_it = next_level_files.begin(); for (auto& file : files) { uint64_t overlapping_bytes = 0; // Skip files in next level that is smaller than current file while (next_level_it != next_level_files.end() && icmp.Compare((*next_level_it)->largest, file->smallest) < 0) { next_level_it++; } while (next_level_it != next_level_files.end() && icmp.Compare((*next_level_it)->smallest, file->largest) < 0) { overlapping_bytes += (*next_level_it)->fd.file_size; if (icmp.Compare((*next_level_it)->largest, file->largest) > 0) { // next level file cross large boundary of current file. break; } next_level_it++; } assert(file->fd.file_size != 0); file_to_order[file->fd.GetNumber()] = overlapping_bytes * 1024u / file->fd.file_size; } std::sort(temp->begin(), temp->end(), [&](const Fsize& f1, const Fsize& f2) -> bool { return file_to_order[f1.file->fd.GetNumber()] < file_to_order[f2.file->fd.GetNumber()]; }); } } // namespace void VersionStorageInfo::UpdateFilesByCompactionPri( CompactionPri compaction_pri) { if (compaction_style_ == kCompactionStyleNone || compaction_style_ == kCompactionStyleFIFO || compaction_style_ == kCompactionStyleUniversal) { // don't need this return; } // No need to sort the highest level because it is never compacted. for (int level = 0; level < num_levels() - 1; level++) { const std::vector& files = files_[level]; auto& files_by_compaction_pri = files_by_compaction_pri_[level]; assert(files_by_compaction_pri.size() == 0); // populate a temp vector for sorting based on size std::vector temp(files.size()); for (size_t i = 0; i < files.size(); i++) { temp[i].index = i; temp[i].file = files[i]; } // sort the top number_of_files_to_sort_ based on file size size_t num = VersionStorageInfo::kNumberFilesToSort; if (num > temp.size()) { num = temp.size(); } switch (compaction_pri) { case kByCompensatedSize: std::partial_sort(temp.begin(), temp.begin() + num, temp.end(), CompareCompensatedSizeDescending); break; case kOldestLargestSeqFirst: std::sort(temp.begin(), temp.end(), [](const Fsize& f1, const Fsize& f2) -> bool { return f1.file->fd.largest_seqno < f2.file->fd.largest_seqno; }); break; case kOldestSmallestSeqFirst: std::sort(temp.begin(), temp.end(), [](const Fsize& f1, const Fsize& f2) -> bool { return f1.file->fd.smallest_seqno < f2.file->fd.smallest_seqno; }); break; case kMinOverlappingRatio: SortFileByOverlappingRatio(*internal_comparator_, files_[level], files_[level + 1], &temp); break; default: assert(false); } assert(temp.size() == files.size()); // initialize files_by_compaction_pri_ for (size_t i = 0; i < temp.size(); i++) { files_by_compaction_pri.push_back(static_cast(temp[i].index)); } next_file_to_compact_by_size_[level] = 0; assert(files_[level].size() == files_by_compaction_pri_[level].size()); } } void VersionStorageInfo::GenerateLevel0NonOverlapping() { assert(!finalized_); level0_non_overlapping_ = true; if (level_files_brief_.size() == 0) { return; } // A copy of L0 files sorted by smallest key std::vector level0_sorted_file( level_files_brief_[0].files, level_files_brief_[0].files + level_files_brief_[0].num_files); std::sort(level0_sorted_file.begin(), level0_sorted_file.end(), [this](const FdWithKeyRange& f1, const FdWithKeyRange& f2) -> bool { return (internal_comparator_->Compare(f1.smallest_key, f2.smallest_key) < 0); }); for (size_t i = 1; i < level0_sorted_file.size(); ++i) { FdWithKeyRange& f = level0_sorted_file[i]; FdWithKeyRange& prev = level0_sorted_file[i - 1]; if (internal_comparator_->Compare(prev.largest_key, f.smallest_key) >= 0) { level0_non_overlapping_ = false; break; } } } void VersionStorageInfo::GenerateBottommostFiles() { assert(!finalized_); assert(bottommost_files_.empty()); for (size_t level = 0; level < level_files_brief_.size(); ++level) { for (size_t file_idx = 0; file_idx < level_files_brief_[level].num_files; ++file_idx) { const FdWithKeyRange& f = level_files_brief_[level].files[file_idx]; int l0_file_idx; if (level == 0) { l0_file_idx = static_cast(file_idx); } else { l0_file_idx = -1; } if (!RangeMightExistAfterSortedRun(f.smallest_key, f.largest_key, static_cast(level), l0_file_idx)) { bottommost_files_.emplace_back(static_cast(level), f.file_metadata); } } } } void VersionStorageInfo::UpdateOldestSnapshot(SequenceNumber seqnum) { assert(seqnum >= oldest_snapshot_seqnum_); oldest_snapshot_seqnum_ = seqnum; if (oldest_snapshot_seqnum_ > bottommost_files_mark_threshold_) { ComputeBottommostFilesMarkedForCompaction(); } } void VersionStorageInfo::ComputeBottommostFilesMarkedForCompaction() { bottommost_files_marked_for_compaction_.clear(); bottommost_files_mark_threshold_ = kMaxSequenceNumber; for (auto& level_and_file : bottommost_files_) { if (!level_and_file.second->being_compacted && level_and_file.second->fd.largest_seqno != 0 && level_and_file.second->num_deletions > 1) { // largest_seqno might be nonzero due to containing the final key in an // earlier compaction, whose seqnum we didn't zero out. Multiple deletions // ensures the file really contains deleted or overwritten keys. if (level_and_file.second->fd.largest_seqno < oldest_snapshot_seqnum_) { bottommost_files_marked_for_compaction_.push_back(level_and_file); } else { bottommost_files_mark_threshold_ = std::min(bottommost_files_mark_threshold_, level_and_file.second->fd.largest_seqno); } } } } void Version::Ref() { ++refs_; } bool Version::Unref() { assert(refs_ >= 1); --refs_; if (refs_ == 0) { delete this; return true; } return false; } bool VersionStorageInfo::OverlapInLevel(int level, const Slice* smallest_user_key, const Slice* largest_user_key) { if (level >= num_non_empty_levels_) { // empty level, no overlap return false; } return SomeFileOverlapsRange(*internal_comparator_, (level > 0), level_files_brief_[level], smallest_user_key, largest_user_key); } // Store in "*inputs" all files in "level" that overlap [begin,end] // If hint_index is specified, then it points to a file in the // overlapping range. // The file_index returns a pointer to any file in an overlapping range. void VersionStorageInfo::GetOverlappingInputs( int level, const InternalKey* begin, const InternalKey* end, std::vector* inputs, int hint_index, int* file_index, bool expand_range, InternalKey** next_smallest) const { if (level >= num_non_empty_levels_) { // this level is empty, no overlapping inputs return; } inputs->clear(); if (file_index) { *file_index = -1; } const Comparator* user_cmp = user_comparator_; if (level > 0) { GetOverlappingInputsRangeBinarySearch(level, begin, end, inputs, hint_index, file_index, false, next_smallest); return; } if (next_smallest) { // next_smallest key only makes sense for non-level 0, where files are // non-overlapping *next_smallest = nullptr; } Slice user_begin, user_end; if (begin != nullptr) { user_begin = begin->user_key(); } if (end != nullptr) { user_end = end->user_key(); } // index stores the file index need to check. std::list index; for (size_t i = 0; i < level_files_brief_[level].num_files; i++) { index.emplace_back(i); } while (!index.empty()) { bool found_overlapping_file = false; auto iter = index.begin(); while (iter != index.end()) { FdWithKeyRange* f = &(level_files_brief_[level].files[*iter]); const Slice file_start = ExtractUserKey(f->smallest_key); const Slice file_limit = ExtractUserKey(f->largest_key); if (begin != nullptr && user_cmp->Compare(file_limit, user_begin) < 0) { // "f" is completely before specified range; skip it iter++; } else if (end != nullptr && user_cmp->Compare(file_start, user_end) > 0) { // "f" is completely after specified range; skip it iter++; } else { // if overlap inputs->emplace_back(files_[level][*iter]); found_overlapping_file = true; // record the first file index. if (file_index && *file_index == -1) { *file_index = static_cast(*iter); } // the related file is overlap, erase to avoid checking again. iter = index.erase(iter); if (expand_range) { if (begin != nullptr && user_cmp->Compare(file_start, user_begin) < 0) { user_begin = file_start; } if (end != nullptr && user_cmp->Compare(file_limit, user_end) > 0) { user_end = file_limit; } } } } // if all the files left are not overlap, break if (!found_overlapping_file) { break; } } } // Store in "*inputs" files in "level" that within range [begin,end] // Guarantee a "clean cut" boundary between the files in inputs // and the surrounding files and the maxinum number of files. // This will ensure that no parts of a key are lost during compaction. // If hint_index is specified, then it points to a file in the range. // The file_index returns a pointer to any file in an overlapping range. void VersionStorageInfo::GetCleanInputsWithinInterval( int level, const InternalKey* begin, const InternalKey* end, std::vector* inputs, int hint_index, int* file_index) const { inputs->clear(); if (file_index) { *file_index = -1; } if (level >= num_non_empty_levels_ || level == 0 || level_files_brief_[level].num_files == 0) { // this level is empty, no inputs within range // also don't support clean input interval within L0 return; } const auto& level_files = level_files_brief_[level]; if (begin == nullptr) { begin = &level_files.files[0].file_metadata->smallest; } if (end == nullptr) { end = &level_files.files[level_files.num_files - 1].file_metadata->largest; } GetOverlappingInputsRangeBinarySearch(level, begin, end, inputs, hint_index, file_index, true /* within_interval */); } namespace { const uint64_t kRangeTombstoneSentinel = PackSequenceAndType(kMaxSequenceNumber, kTypeRangeDeletion); // Utility for comparing sstable boundary keys. Returns -1 if either a or b is // null which provides the property that a==null indicates a key that is less // than any key and b==null indicates a key that is greater than any key. Note // that the comparison is performed primarily on the user-key portion of the // key. If the user-keys compare equal, an additional test is made to sort // range tombstone sentinel keys before other keys with the same user-key. The // result is that 2 user-keys will compare equal if they differ purely on // their sequence number and value, but the range tombstone sentinel for that // user-key will compare not equal. This is necessary because the range // tombstone sentinel key is set as the largest key for an sstable even though // that key never appears in the database. We don't want adjacent sstables to // be considered overlapping if they are separated by the range tombstone // sentinel. int sstableKeyCompare(const Comparator* user_cmp, const InternalKey& a, const InternalKey& b) { auto c = user_cmp->Compare(a.user_key(), b.user_key()); if (c != 0) { return c; } auto a_footer = ExtractInternalKeyFooter(a.Encode()); auto b_footer = ExtractInternalKeyFooter(b.Encode()); if (a_footer == kRangeTombstoneSentinel) { if (b_footer != kRangeTombstoneSentinel) { return -1; } } else if (b_footer == kRangeTombstoneSentinel) { return 1; } return 0; } int sstableKeyCompare(const Comparator* user_cmp, const InternalKey* a, const InternalKey& b) { if (a == nullptr) { return -1; } return sstableKeyCompare(user_cmp, *a, b); } int sstableKeyCompare(const Comparator* user_cmp, const InternalKey& a, const InternalKey* b) { if (b == nullptr) { return -1; } return sstableKeyCompare(user_cmp, a, *b); } } // namespace // Store in "*inputs" all files in "level" that overlap [begin,end] // Employ binary search to find at least one file that overlaps the // specified range. From that file, iterate backwards and // forwards to find all overlapping files. // if within_range is set, then only store the maximum clean inputs // within range [begin, end]. "clean" means there is a boudnary // between the files in "*inputs" and the surrounding files void VersionStorageInfo::GetOverlappingInputsRangeBinarySearch( int level, const InternalKey* begin, const InternalKey* end, std::vector* inputs, int hint_index, int* file_index, bool within_interval, InternalKey** next_smallest) const { assert(level > 0); int min = 0; int mid = 0; int max = static_cast(files_[level].size()) - 1; bool foundOverlap = false; auto user_cmp = user_comparator_; // if the caller already knows the index of a file that has overlap, // then we can skip the binary search. if (hint_index != -1) { mid = hint_index; foundOverlap = true; } while (!foundOverlap && min <= max) { mid = (min + max)/2; FdWithKeyRange* f = &(level_files_brief_[level].files[mid]); auto& smallest = f->file_metadata->smallest; auto& largest = f->file_metadata->largest; if ((!within_interval && sstableKeyCompare(user_cmp, begin, largest) > 0) || (within_interval && sstableKeyCompare(user_cmp, begin, smallest) > 0)) { min = mid + 1; } else if ((!within_interval && sstableKeyCompare(user_cmp, smallest, end) > 0) || (within_interval && sstableKeyCompare(user_cmp, largest, end) > 0)) { max = mid - 1; } else { foundOverlap = true; break; } } // If there were no overlapping files, return immediately. if (!foundOverlap) { if (next_smallest) { next_smallest = nullptr; } return; } // returns the index where an overlap is found if (file_index) { *file_index = mid; } int start_index, end_index; if (within_interval) { ExtendFileRangeWithinInterval(level, begin, end, mid, &start_index, &end_index); } else { ExtendFileRangeOverlappingInterval(level, begin, end, mid, &start_index, &end_index); assert(end_index >= start_index); } // insert overlapping files into vector for (int i = start_index; i <= end_index; i++) { inputs->push_back(files_[level][i]); } if (next_smallest != nullptr) { // Provide the next key outside the range covered by inputs if (++end_index < static_cast(files_[level].size())) { **next_smallest = files_[level][end_index]->smallest; } else { *next_smallest = nullptr; } } } // Store in *start_index and *end_index the range of all files in // "level" that overlap [begin,end] // The mid_index specifies the index of at least one file that // overlaps the specified range. From that file, iterate backward // and forward to find all overlapping files. // Use FileLevel in searching, make it faster void VersionStorageInfo::ExtendFileRangeOverlappingInterval( int level, const InternalKey* begin, const InternalKey* end, unsigned int mid_index, int* start_index, int* end_index) const { auto user_cmp = user_comparator_; const FdWithKeyRange* files = level_files_brief_[level].files; #ifndef NDEBUG { // assert that the file at mid_index overlaps with the range assert(mid_index < level_files_brief_[level].num_files); const FdWithKeyRange* f = &files[mid_index]; auto& smallest = f->file_metadata->smallest; auto& largest = f->file_metadata->largest; if (sstableKeyCompare(user_cmp, begin, smallest) <= 0) { assert(sstableKeyCompare(user_cmp, smallest, end) <= 0); } else { // fprintf(stderr, "ExtendFileRangeOverlappingInterval\n%s - %s\n%s - %s\n%d %d\n", // begin ? begin->DebugString().c_str() : "(null)", // end ? end->DebugString().c_str() : "(null)", // smallest->DebugString().c_str(), // largest->DebugString().c_str(), // sstableKeyCompare(user_cmp, smallest, begin), // sstableKeyCompare(user_cmp, largest, begin)); assert(sstableKeyCompare(user_cmp, begin, largest) <= 0); } } #endif *start_index = mid_index + 1; *end_index = mid_index; int count __attribute__((__unused__)); count = 0; // check backwards from 'mid' to lower indices for (int i = mid_index; i >= 0 ; i--) { const FdWithKeyRange* f = &files[i]; auto& largest = f->file_metadata->largest; if (sstableKeyCompare(user_cmp, begin, largest) <= 0) { *start_index = i; assert((count++, true)); } else { break; } } // check forward from 'mid+1' to higher indices for (unsigned int i = mid_index+1; i < level_files_brief_[level].num_files; i++) { const FdWithKeyRange* f = &files[i]; auto& smallest = f->file_metadata->smallest; if (sstableKeyCompare(user_cmp, smallest, end) <= 0) { assert((count++, true)); *end_index = i; } else { break; } } assert(count == *end_index - *start_index + 1); } // Store in *start_index and *end_index the clean range of all files in // "level" within [begin,end] // The mid_index specifies the index of at least one file within // the specified range. From that file, iterate backward // and forward to find all overlapping files and then "shrink" to // the clean range required. // Use FileLevel in searching, make it faster void VersionStorageInfo::ExtendFileRangeWithinInterval( int level, const InternalKey* begin, const InternalKey* end, unsigned int mid_index, int* start_index, int* end_index) const { assert(level != 0); auto* user_cmp = user_comparator_; const FdWithKeyRange* files = level_files_brief_[level].files; #ifndef NDEBUG { // assert that the file at mid_index is within the range assert(mid_index < level_files_brief_[level].num_files); const FdWithKeyRange* f = &files[mid_index]; auto& smallest = f->file_metadata->smallest; auto& largest = f->file_metadata->largest; assert(sstableKeyCompare(user_cmp, begin, smallest) <= 0 && sstableKeyCompare(user_cmp, largest, end) <= 0); } #endif ExtendFileRangeOverlappingInterval(level, begin, end, mid_index, start_index, end_index); int left = *start_index; int right = *end_index; // shrink from left to right while (left <= right) { auto& smallest = files[left].file_metadata->smallest; if (sstableKeyCompare(user_cmp, begin, smallest) > 0) { left++; continue; } if (left > 0) { // If not first file auto& largest = files[left - 1].file_metadata->largest; if (sstableKeyCompare(user_cmp, smallest, largest) == 0) { left++; continue; } } break; } // shrink from right to left while (left <= right) { auto& largest = files[right].file_metadata->largest; if (sstableKeyCompare(user_cmp, largest, end) > 0) { right--; continue; } if (right < static_cast(level_files_brief_[level].num_files) - 1) { // If not the last file auto& smallest = files[right + 1].file_metadata->smallest; if (sstableKeyCompare(user_cmp, smallest, largest) == 0) { // The last user key in range overlaps with the next file's first key right--; continue; } } break; } *start_index = left; *end_index = right; } uint64_t VersionStorageInfo::NumLevelBytes(int level) const { assert(level >= 0); assert(level < num_levels()); return TotalFileSize(files_[level]); } const char* VersionStorageInfo::LevelSummary( LevelSummaryStorage* scratch) const { int len = 0; if (compaction_style_ == kCompactionStyleLevel && num_levels() > 1) { assert(base_level_ < static_cast(level_max_bytes_.size())); len = snprintf(scratch->buffer, sizeof(scratch->buffer), "base level %d max bytes base %" PRIu64 " ", base_level_, level_max_bytes_[base_level_]); } len += snprintf(scratch->buffer + len, sizeof(scratch->buffer) - len, "files["); for (int i = 0; i < num_levels(); i++) { int sz = sizeof(scratch->buffer) - len; int ret = snprintf(scratch->buffer + len, sz, "%d ", int(files_[i].size())); if (ret < 0 || ret >= sz) break; len += ret; } if (len > 0) { // overwrite the last space --len; } len += snprintf(scratch->buffer + len, sizeof(scratch->buffer) - len, "] max score %.2f", compaction_score_[0]); if (!files_marked_for_compaction_.empty()) { snprintf(scratch->buffer + len, sizeof(scratch->buffer) - len, " (%" ROCKSDB_PRIszt " files need compaction)", files_marked_for_compaction_.size()); } return scratch->buffer; } const char* VersionStorageInfo::LevelFileSummary(FileSummaryStorage* scratch, int level) const { int len = snprintf(scratch->buffer, sizeof(scratch->buffer), "files_size["); for (const auto& f : files_[level]) { int sz = sizeof(scratch->buffer) - len; char sztxt[16]; AppendHumanBytes(f->fd.GetFileSize(), sztxt, sizeof(sztxt)); int ret = snprintf(scratch->buffer + len, sz, "#%" PRIu64 "(seq=%" PRIu64 ",sz=%s,%d) ", f->fd.GetNumber(), f->fd.smallest_seqno, sztxt, static_cast(f->being_compacted)); if (ret < 0 || ret >= sz) break; len += ret; } // overwrite the last space (only if files_[level].size() is non-zero) if (files_[level].size() && len > 0) { --len; } snprintf(scratch->buffer + len, sizeof(scratch->buffer) - len, "]"); return scratch->buffer; } int64_t VersionStorageInfo::MaxNextLevelOverlappingBytes() { uint64_t result = 0; std::vector overlaps; for (int level = 1; level < num_levels() - 1; level++) { for (const auto& f : files_[level]) { GetOverlappingInputs(level + 1, &f->smallest, &f->largest, &overlaps); const uint64_t sum = TotalFileSize(overlaps); if (sum > result) { result = sum; } } } return result; } uint64_t VersionStorageInfo::MaxBytesForLevel(int level) const { // Note: the result for level zero is not really used since we set // the level-0 compaction threshold based on number of files. assert(level >= 0); assert(level < static_cast(level_max_bytes_.size())); return level_max_bytes_[level]; } void VersionStorageInfo::CalculateBaseBytes(const ImmutableCFOptions& ioptions, const MutableCFOptions& options) { // Special logic to set number of sorted runs. // It is to match the previous behavior when all files are in L0. int num_l0_count = static_cast(files_[0].size()); if (compaction_style_ == kCompactionStyleUniversal) { // For universal compaction, we use level0 score to indicate // compaction score for the whole DB. Adding other levels as if // they are L0 files. for (int i = 1; i < num_levels(); i++) { if (!files_[i].empty()) { num_l0_count++; } } } set_l0_delay_trigger_count(num_l0_count); level_max_bytes_.resize(ioptions.num_levels); if (!ioptions.level_compaction_dynamic_level_bytes) { base_level_ = (ioptions.compaction_style == kCompactionStyleLevel) ? 1 : -1; // Calculate for static bytes base case for (int i = 0; i < ioptions.num_levels; ++i) { if (i == 0 && ioptions.compaction_style == kCompactionStyleUniversal) { level_max_bytes_[i] = options.max_bytes_for_level_base; } else if (i > 1) { level_max_bytes_[i] = MultiplyCheckOverflow( MultiplyCheckOverflow(level_max_bytes_[i - 1], options.max_bytes_for_level_multiplier), options.MaxBytesMultiplerAdditional(i - 1)); } else { level_max_bytes_[i] = options.max_bytes_for_level_base; } } } else { uint64_t max_level_size = 0; int first_non_empty_level = -1; // Find size of non-L0 level of most data. // Cannot use the size of the last level because it can be empty or less // than previous levels after compaction. for (int i = 1; i < num_levels_; i++) { uint64_t total_size = 0; for (const auto& f : files_[i]) { total_size += f->fd.GetFileSize(); } if (total_size > 0 && first_non_empty_level == -1) { first_non_empty_level = i; } if (total_size > max_level_size) { max_level_size = total_size; } } // Prefill every level's max bytes to disallow compaction from there. for (int i = 0; i < num_levels_; i++) { level_max_bytes_[i] = std::numeric_limits::max(); } if (max_level_size == 0) { // No data for L1 and up. L0 compacts to last level directly. // No compaction from L1+ needs to be scheduled. base_level_ = num_levels_ - 1; } else { uint64_t base_bytes_max = options.max_bytes_for_level_base; uint64_t base_bytes_min = static_cast( base_bytes_max / options.max_bytes_for_level_multiplier); // Try whether we can make last level's target size to be max_level_size uint64_t cur_level_size = max_level_size; for (int i = num_levels_ - 2; i >= first_non_empty_level; i--) { // Round up after dividing cur_level_size = static_cast( cur_level_size / options.max_bytes_for_level_multiplier); } // Calculate base level and its size. uint64_t base_level_size; if (cur_level_size <= base_bytes_min) { // Case 1. If we make target size of last level to be max_level_size, // target size of the first non-empty level would be smaller than // base_bytes_min. We set it be base_bytes_min. base_level_size = base_bytes_min + 1U; base_level_ = first_non_empty_level; ROCKS_LOG_WARN(ioptions.info_log, "More existing levels in DB than needed. " "max_bytes_for_level_multiplier may not be guaranteed."); } else { // Find base level (where L0 data is compacted to). base_level_ = first_non_empty_level; while (base_level_ > 1 && cur_level_size > base_bytes_max) { --base_level_; cur_level_size = static_cast( cur_level_size / options.max_bytes_for_level_multiplier); } if (cur_level_size > base_bytes_max) { // Even L1 will be too large assert(base_level_ == 1); base_level_size = base_bytes_max; } else { base_level_size = cur_level_size; } } uint64_t level_size = base_level_size; for (int i = base_level_; i < num_levels_; i++) { if (i > base_level_) { level_size = MultiplyCheckOverflow( level_size, options.max_bytes_for_level_multiplier); } // Don't set any level below base_bytes_max. Otherwise, the LSM can // assume an hourglass shape where L1+ sizes are smaller than L0. This // causes compaction scoring, which depends on level sizes, to favor L1+ // at the expense of L0, which may fill up and stall. level_max_bytes_[i] = std::max(level_size, base_bytes_max); } } } } uint64_t VersionStorageInfo::EstimateLiveDataSize() const { // Estimate the live data size by adding up the size of the last level for all // key ranges. Note: Estimate depends on the ordering of files in level 0 // because files in level 0 can be overlapping. uint64_t size = 0; auto ikey_lt = [this](InternalKey* x, InternalKey* y) { return internal_comparator_->Compare(*x, *y) < 0; }; // (Ordered) map of largest keys in non-overlapping files std::map ranges(ikey_lt); for (int l = num_levels_ - 1; l >= 0; l--) { bool found_end = false; for (auto file : files_[l]) { // Find the first file where the largest key is larger than the smallest // key of the current file. If this file does not overlap with the // current file, none of the files in the map does. If there is // no potential overlap, we can safely insert the rest of this level // (if the level is not 0) into the map without checking again because // the elements in the level are sorted and non-overlapping. auto lb = (found_end && l != 0) ? ranges.end() : ranges.lower_bound(&file->smallest); found_end = (lb == ranges.end()); if (found_end || internal_comparator_->Compare( file->largest, (*lb).second->smallest) < 0) { ranges.emplace_hint(lb, &file->largest, file); size += file->fd.file_size; } } } return size; } bool VersionStorageInfo::RangeMightExistAfterSortedRun( const Slice& smallest_key, const Slice& largest_key, int last_level, int last_l0_idx) { assert((last_l0_idx != -1) == (last_level == 0)); // TODO(ajkr): this preserves earlier behavior where we considered an L0 file // bottommost only if it's the oldest L0 file and there are no files on older // levels. It'd be better to consider it bottommost if there's no overlap in // older levels/files. if (last_level == 0 && last_l0_idx != static_cast(LevelFiles(0).size() - 1)) { return true; } // Checks whether there are files living beyond the `last_level`. If lower // levels have files, it checks for overlap between [`smallest_key`, // `largest_key`] and those files. Bottomlevel optimizations can be made if // there are no files in lower levels or if there is no overlap with the files // in the lower levels. for (int level = last_level + 1; level < num_levels(); level++) { // The range is not in the bottommost level if there are files in lower // levels when the `last_level` is 0 or if there are files in lower levels // which overlap with [`smallest_key`, `largest_key`]. if (files_[level].size() > 0 && (last_level == 0 || OverlapInLevel(level, &smallest_key, &largest_key))) { return true; } } return false; } void Version::AddLiveFiles(std::vector* live) { for (int level = 0; level < storage_info_.num_levels(); level++) { const std::vector& files = storage_info_.files_[level]; for (const auto& file : files) { live->push_back(file->fd); } } } std::string Version::DebugString(bool hex, bool print_stats) const { std::string r; for (int level = 0; level < storage_info_.num_levels_; level++) { // E.g., // --- level 1 --- // 17:123['a' .. 'd'] // 20:43['e' .. 'g'] // // if print_stats=true: // 17:123['a' .. 'd'](4096) r.append("--- level "); AppendNumberTo(&r, level); r.append(" --- version# "); AppendNumberTo(&r, version_number_); r.append(" ---\n"); const std::vector& files = storage_info_.files_[level]; for (size_t i = 0; i < files.size(); i++) { r.push_back(' '); AppendNumberTo(&r, files[i]->fd.GetNumber()); r.push_back(':'); AppendNumberTo(&r, files[i]->fd.GetFileSize()); r.append("["); r.append(files[i]->smallest.DebugString(hex)); r.append(" .. "); r.append(files[i]->largest.DebugString(hex)); r.append("]"); if (print_stats) { r.append("("); r.append(ToString( files[i]->stats.num_reads_sampled.load(std::memory_order_relaxed))); r.append(")"); } r.append("\n"); } } return r; } // this is used to batch writes to the manifest file struct VersionSet::ManifestWriter { Status status; bool done; InstrumentedCondVar cv; ColumnFamilyData* cfd; const MutableCFOptions mutable_cf_options; const autovector& edit_list; explicit ManifestWriter(InstrumentedMutex* mu, ColumnFamilyData* _cfd, const MutableCFOptions& cf_options, const autovector& e) : done(false), cv(mu), cfd(_cfd), mutable_cf_options(cf_options), edit_list(e) {} }; VersionSet::VersionSet(const std::string& dbname, const ImmutableDBOptions* _db_options, const EnvOptions& storage_options, Cache* table_cache, WriteBufferManager* write_buffer_manager, WriteController* write_controller) : column_family_set_( new ColumnFamilySet(dbname, _db_options, storage_options, table_cache, write_buffer_manager, write_controller)), env_(_db_options->env), dbname_(dbname), db_options_(_db_options), next_file_number_(2), manifest_file_number_(0), // Filled by Recover() options_file_number_(0), pending_manifest_file_number_(0), last_sequence_(0), last_allocated_sequence_(0), last_published_sequence_(0), prev_log_number_(0), current_version_number_(0), manifest_file_size_(0), env_options_(storage_options) {} void CloseTables(void* ptr, size_t) { TableReader* table_reader = reinterpret_cast(ptr); table_reader->Close(); } VersionSet::~VersionSet() { // we need to delete column_family_set_ because its destructor depends on // VersionSet Cache* table_cache = column_family_set_->get_table_cache(); table_cache->ApplyToAllCacheEntries(&CloseTables, false /* thread_safe */); column_family_set_.reset(); for (auto& file : obsolete_files_) { if (file.metadata->table_reader_handle) { table_cache->Release(file.metadata->table_reader_handle); TableCache::Evict(table_cache, file.metadata->fd.GetNumber()); } file.DeleteMetadata(); } obsolete_files_.clear(); } void VersionSet::AppendVersion(ColumnFamilyData* column_family_data, Version* v) { // compute new compaction score v->storage_info()->ComputeCompactionScore( *column_family_data->ioptions(), *column_family_data->GetLatestMutableCFOptions()); // Mark v finalized v->storage_info_.SetFinalized(); // Make "v" current assert(v->refs_ == 0); Version* current = column_family_data->current(); assert(v != current); if (current != nullptr) { assert(current->refs_ > 0); current->Unref(); } column_family_data->SetCurrent(v); v->Ref(); // Append to linked list v->prev_ = column_family_data->dummy_versions()->prev_; v->next_ = column_family_data->dummy_versions(); v->prev_->next_ = v; v->next_->prev_ = v; } Status VersionSet::ProcessManifestWrites( std::deque& writers, InstrumentedMutex* mu, Directory* db_directory, bool new_descriptor_log, const ColumnFamilyOptions* new_cf_options) { assert(!writers.empty()); ManifestWriter& first_writer = writers.front(); ManifestWriter* last_writer = &first_writer; assert(!manifest_writers_.empty()); assert(manifest_writers_.front() == &first_writer); autovector batch_edits; autovector versions; autovector mutable_cf_options_ptrs; std::vector> builder_guards; if (first_writer.edit_list.front()->IsColumnFamilyManipulation()) { // No group commits for column family add or drop LogAndApplyCFHelper(first_writer.edit_list.front()); batch_edits.push_back(first_writer.edit_list.front()); } else { auto it = manifest_writers_.cbegin(); while (it != manifest_writers_.cend()) { if ((*it)->edit_list.front()->IsColumnFamilyManipulation()) { // no group commits for column family add or drop break; } last_writer = *(it++); assert(last_writer != nullptr); assert(last_writer->cfd != nullptr); if (last_writer->cfd != nullptr && last_writer->cfd->IsDropped()) { continue; } // We do a linear search on versions because versions is small. // TODO(yanqin) maybe consider unordered_map Version* version = nullptr; VersionBuilder* builder = nullptr; for (int i = 0; i != static_cast(versions.size()); ++i) { uint32_t cf_id = last_writer->cfd->GetID(); if (versions[i]->cfd()->GetID() == cf_id) { version = versions[i]; assert(!builder_guards.empty() && builder_guards.size() == versions.size()); builder = builder_guards[i]->version_builder(); TEST_SYNC_POINT_CALLBACK( "VersionSet::ProcessManifestWrites:SameColumnFamily", &cf_id); break; } } if (version == nullptr) { version = new Version(last_writer->cfd, this, env_options_, last_writer->mutable_cf_options, current_version_number_++); versions.push_back(version); mutable_cf_options_ptrs.push_back(&last_writer->mutable_cf_options); builder_guards.emplace_back( new BaseReferencedVersionBuilder(last_writer->cfd)); builder = builder_guards.back()->version_builder(); } assert(builder != nullptr); // make checker happy for (const auto& e : last_writer->edit_list) { LogAndApplyHelper(last_writer->cfd, builder, version, e, mu); batch_edits.push_back(e); } } for (int i = 0; i < static_cast(versions.size()); ++i) { assert(!builder_guards.empty() && builder_guards.size() == versions.size()); auto* builder = builder_guards[i]->version_builder(); builder->SaveTo(versions[i]->storage_info()); } } uint64_t new_manifest_file_size = 0; Status s; assert(pending_manifest_file_number_ == 0); if (!descriptor_log_ || manifest_file_size_ > db_options_->max_manifest_file_size) { pending_manifest_file_number_ = NewFileNumber(); batch_edits.back()->SetNextFile(next_file_number_.load()); new_descriptor_log = true; } else { pending_manifest_file_number_ = manifest_file_number_; } if (new_descriptor_log) { // if we are writing out new snapshot make sure to persist max column // family. if (column_family_set_->GetMaxColumnFamily() > 0) { first_writer.edit_list.front()->SetMaxColumnFamily( column_family_set_->GetMaxColumnFamily()); } } { EnvOptions opt_env_opts = env_->OptimizeForManifestWrite(env_options_); mu->Unlock(); TEST_SYNC_POINT("VersionSet::LogAndApply:WriteManifest"); if (!first_writer.edit_list.front()->IsColumnFamilyManipulation() && column_family_set_->get_table_cache()->GetCapacity() == TableCache::kInfiniteCapacity) { for (int i = 0; i < static_cast(versions.size()); ++i) { assert(!builder_guards.empty() && builder_guards.size() == versions.size()); assert(!mutable_cf_options_ptrs.empty() && builder_guards.size() == versions.size()); ColumnFamilyData* cfd = versions[i]->cfd_; builder_guards[i]->version_builder()->LoadTableHandlers( cfd->internal_stats(), cfd->ioptions()->optimize_filters_for_hits, true /* prefetch_index_and_filter_in_cache */, mutable_cf_options_ptrs[i]->prefix_extractor.get()); } } // This is fine because everything inside of this block is serialized -- // only one thread can be here at the same time if (new_descriptor_log) { // create new manifest file ROCKS_LOG_INFO(db_options_->info_log, "Creating manifest %" PRIu64 "\n", pending_manifest_file_number_); std::string descriptor_fname = DescriptorFileName(dbname_, pending_manifest_file_number_); unique_ptr descriptor_file; s = NewWritableFile(env_, descriptor_fname, &descriptor_file, opt_env_opts); if (s.ok()) { descriptor_file->SetPreallocationBlockSize( db_options_->manifest_preallocation_size); unique_ptr file_writer(new WritableFileWriter( std::move(descriptor_file), descriptor_fname, opt_env_opts)); descriptor_log_.reset( new log::Writer(std::move(file_writer), 0, false)); s = WriteSnapshot(descriptor_log_.get()); } } if (!first_writer.edit_list.front()->IsColumnFamilyManipulation()) { for (int i = 0; i < static_cast(versions.size()); ++i) { versions[i]->PrepareApply(*mutable_cf_options_ptrs[i], true); } } // Write new records to MANIFEST log if (s.ok()) { for (auto& e : batch_edits) { std::string record; if (!e->EncodeTo(&record)) { s = Status::Corruption("Unable to encode VersionEdit:" + e->DebugString(true)); break; } TEST_KILL_RANDOM("VersionSet::LogAndApply:BeforeAddRecord", rocksdb_kill_odds * REDUCE_ODDS2); s = descriptor_log_->AddRecord(record); if (!s.ok()) { break; } } if (s.ok()) { s = SyncManifest(env_, db_options_, descriptor_log_->file()); } if (!s.ok()) { ROCKS_LOG_ERROR(db_options_->info_log, "MANIFEST write %s\n", s.ToString().c_str()); } } // If we just created a new descriptor file, install it by writing a // new CURRENT file that points to it. if (s.ok() && new_descriptor_log) { s = SetCurrentFile(env_, dbname_, pending_manifest_file_number_, db_directory); } if (s.ok()) { // find offset in manifest file where this version is stored. new_manifest_file_size = descriptor_log_->file()->GetFileSize(); } if (first_writer.edit_list.front()->is_column_family_drop_) { TEST_SYNC_POINT("VersionSet::LogAndApply::ColumnFamilyDrop:0"); TEST_SYNC_POINT("VersionSet::LogAndApply::ColumnFamilyDrop:1"); TEST_SYNC_POINT("VersionSet::LogAndApply::ColumnFamilyDrop:2"); } LogFlush(db_options_->info_log); TEST_SYNC_POINT("VersionSet::LogAndApply:WriteManifestDone"); mu->Lock(); } // Append the old manifest file to the obsolete_manifest_ list to be deleted // by PurgeObsoleteFiles later. if (s.ok() && new_descriptor_log) { obsolete_manifests_.emplace_back( DescriptorFileName("", manifest_file_number_)); } // Install the new versions if (s.ok()) { if (first_writer.edit_list.front()->is_column_family_add_) { assert(batch_edits.size() == 1); assert(new_cf_options != nullptr); CreateColumnFamily(*new_cf_options, first_writer.edit_list.front()); } else if (first_writer.edit_list.front()->is_column_family_drop_) { assert(batch_edits.size() == 1); first_writer.cfd->SetDropped(); if (first_writer.cfd->Unref()) { delete first_writer.cfd; } } else { // Each version in versions corresponds to a column family. // For each column family, update its log number indicating that logs // with number smaller than this should be ignored. for (const auto version : versions) { uint64_t max_log_number_in_batch = 0; uint32_t cf_id = version->cfd_->GetID(); for (const auto& e : batch_edits) { if (e->has_log_number_ && e->column_family_ == cf_id) { max_log_number_in_batch = std::max(max_log_number_in_batch, e->log_number_); } } if (max_log_number_in_batch != 0) { assert(version->cfd_->GetLogNumber() <= max_log_number_in_batch); version->cfd_->SetLogNumber(max_log_number_in_batch); } } uint64_t last_min_log_number_to_keep = 0; for (auto& e : batch_edits) { if (e->has_min_log_number_to_keep_) { last_min_log_number_to_keep = std::max(last_min_log_number_to_keep, e->min_log_number_to_keep_); } } if (last_min_log_number_to_keep != 0) { // Should only be set in 2PC mode. MarkMinLogNumberToKeep2PC(last_min_log_number_to_keep); } for (int i = 0; i < static_cast(versions.size()); ++i) { ColumnFamilyData* cfd = versions[i]->cfd_; AppendVersion(cfd, versions[i]); } } manifest_file_number_ = pending_manifest_file_number_; manifest_file_size_ = new_manifest_file_size; prev_log_number_ = first_writer.edit_list.front()->prev_log_number_; } else { std::string version_edits; for (auto& e : batch_edits) { version_edits += ("\n" + e->DebugString(true)); } ROCKS_LOG_ERROR(db_options_->info_log, "Error in committing version edit to MANIFEST: %s", version_edits.c_str()); for (auto v : versions) { delete v; } if (new_descriptor_log) { ROCKS_LOG_INFO(db_options_->info_log, "Deleting manifest %" PRIu64 " current manifest %" PRIu64 "\n", manifest_file_number_, pending_manifest_file_number_); descriptor_log_.reset(); env_->DeleteFile( DescriptorFileName(dbname_, pending_manifest_file_number_)); } } pending_manifest_file_number_ = 0; // wake up all the waiting writers while (true) { ManifestWriter* ready = manifest_writers_.front(); manifest_writers_.pop_front(); bool need_signal = true; for (const auto& w : writers) { if (&w == ready) { need_signal = false; break; } } ready->status = s; ready->done = true; if (need_signal) { ready->cv.Signal(); } if (ready == last_writer) { break; } } if (!manifest_writers_.empty()) { manifest_writers_.front()->cv.Signal(); } return s; } // 'datas' is gramatically incorrect. We still use this notation is to indicate // that this variable represents a collection of column_family_data. Status VersionSet::LogAndApply( const std::vector& column_family_datas, const std::vector& mutable_cf_options_list, const std::vector>& edit_lists, InstrumentedMutex* mu, Directory* db_directory, bool new_descriptor_log, const ColumnFamilyOptions* new_cf_options) { mu->AssertHeld(); int num_edits = 0; for (const auto& elist : edit_lists) { num_edits += static_cast(elist.size()); } if (num_edits == 0) { return Status::OK(); } else if (num_edits > 1) { #ifndef NDEBUG for (const auto& edit_list : edit_lists) { for (const auto& edit : edit_list) { assert(!edit->IsColumnFamilyManipulation()); } } #endif /* ! NDEBUG */ } int num_cfds = static_cast(column_family_datas.size()); if (num_cfds == 1 && column_family_datas[0] == nullptr) { assert(edit_lists.size() == 1 && edit_lists[0].size() == 1); assert(edit_lists[0][0]->is_column_family_add_); assert(new_cf_options != nullptr); } std::deque writers; if (num_cfds > 0) { assert(static_cast(num_cfds) == mutable_cf_options_list.size()); assert(static_cast(num_cfds) == edit_lists.size()); } for (int i = 0; i < num_cfds; ++i) { writers.emplace_back(mu, column_family_datas[i], mutable_cf_options_list[i], edit_lists[i]); manifest_writers_.push_back(&writers[i]); } assert(!writers.empty()); ManifestWriter& first_writer = writers.front(); while (!first_writer.done && &first_writer != manifest_writers_.front()) { first_writer.cv.Wait(); } if (first_writer.done) { // All non-CF-manipulation operations can be grouped together and committed // to MANIFEST. They should all have finished. The status code is stored in // the first manifest writer. #ifndef NDEBUG for (const auto& writer : writers) { assert(writer.done); } #endif /* !NDEBUG */ return first_writer.status; } int num_undropped_cfds = 0; for (auto cfd : column_family_datas) { // if cfd == nullptr, it is a column family add. if (cfd == nullptr || !cfd->IsDropped()) { ++num_undropped_cfds; } } if (0 == num_undropped_cfds) { // TODO (yanqin) maybe use a different status code to denote column family // drop other than OK and ShutdownInProgress for (int i = 0; i != num_cfds; ++i) { manifest_writers_.pop_front(); } // Notify new head of manifest write queue. if (!manifest_writers_.empty()) { manifest_writers_.front()->cv.Signal(); } return Status::OK(); } return ProcessManifestWrites(writers, mu, db_directory, new_descriptor_log, new_cf_options); } void VersionSet::LogAndApplyCFHelper(VersionEdit* edit) { assert(edit->IsColumnFamilyManipulation()); edit->SetNextFile(next_file_number_.load()); // The log might have data that is not visible to memtbale and hence have not // updated the last_sequence_ yet. It is also possible that the log has is // expecting some new data that is not written yet. Since LastSequence is an // upper bound on the sequence, it is ok to record // last_allocated_sequence_ as the last sequence. edit->SetLastSequence(db_options_->two_write_queues ? last_allocated_sequence_ : last_sequence_); if (edit->is_column_family_drop_) { // if we drop column family, we have to make sure to save max column family, // so that we don't reuse existing ID edit->SetMaxColumnFamily(column_family_set_->GetMaxColumnFamily()); } } void VersionSet::LogAndApplyHelper(ColumnFamilyData* cfd, VersionBuilder* builder, Version* /*v*/, VersionEdit* edit, InstrumentedMutex* mu) { #ifdef NDEBUG (void)cfd; #endif mu->AssertHeld(); assert(!edit->IsColumnFamilyManipulation()); if (edit->has_log_number_) { assert(edit->log_number_ >= cfd->GetLogNumber()); assert(edit->log_number_ < next_file_number_.load()); } if (!edit->has_prev_log_number_) { edit->SetPrevLogNumber(prev_log_number_); } edit->SetNextFile(next_file_number_.load()); // The log might have data that is not visible to memtbale and hence have not // updated the last_sequence_ yet. It is also possible that the log has is // expecting some new data that is not written yet. Since LastSequence is an // upper bound on the sequence, it is ok to record // last_allocated_sequence_ as the last sequence. edit->SetLastSequence(db_options_->two_write_queues ? last_allocated_sequence_ : last_sequence_); builder->Apply(edit); } Status VersionSet::ApplyOneVersionEdit( VersionEdit& edit, const std::unordered_map& name_to_options, std::unordered_map& column_families_not_found, std::unordered_map& builders, bool* have_log_number, uint64_t* /* log_number */, bool* have_prev_log_number, uint64_t* previous_log_number, bool* have_next_file, uint64_t* next_file, bool* have_last_sequence, SequenceNumber* last_sequence, uint64_t* min_log_number_to_keep, uint32_t* max_column_family) { // Not found means that user didn't supply that column // family option AND we encountered column family add // record. Once we encounter column family drop record, // we will delete the column family from // column_families_not_found. bool cf_in_not_found = (column_families_not_found.find(edit.column_family_) != column_families_not_found.end()); // in builders means that user supplied that column family // option AND that we encountered column family add record bool cf_in_builders = builders.find(edit.column_family_) != builders.end(); // they can't both be true assert(!(cf_in_not_found && cf_in_builders)); ColumnFamilyData* cfd = nullptr; if (edit.is_column_family_add_) { if (cf_in_builders || cf_in_not_found) { return Status::Corruption( "Manifest adding the same column family twice: " + edit.column_family_name_); } auto cf_options = name_to_options.find(edit.column_family_name_); if (cf_options == name_to_options.end()) { column_families_not_found.insert( {edit.column_family_, edit.column_family_name_}); } else { cfd = CreateColumnFamily(cf_options->second, &edit); cfd->set_initialized(); builders.insert( {edit.column_family_, new BaseReferencedVersionBuilder(cfd)}); } } else if (edit.is_column_family_drop_) { if (cf_in_builders) { auto builder = builders.find(edit.column_family_); assert(builder != builders.end()); delete builder->second; builders.erase(builder); cfd = column_family_set_->GetColumnFamily(edit.column_family_); assert(cfd != nullptr); if (cfd->Unref()) { delete cfd; cfd = nullptr; } else { // who else can have reference to cfd!? assert(false); } } else if (cf_in_not_found) { column_families_not_found.erase(edit.column_family_); } else { return Status::Corruption( "Manifest - dropping non-existing column family"); } } else if (!cf_in_not_found) { if (!cf_in_builders) { return Status::Corruption( "Manifest record referencing unknown column family"); } cfd = column_family_set_->GetColumnFamily(edit.column_family_); // this should never happen since cf_in_builders is true assert(cfd != nullptr); // if it is not column family add or column family drop, // then it's a file add/delete, which should be forwarded // to builder auto builder = builders.find(edit.column_family_); assert(builder != builders.end()); builder->second->version_builder()->Apply(&edit); } if (cfd != nullptr) { if (edit.has_log_number_) { if (cfd->GetLogNumber() > edit.log_number_) { ROCKS_LOG_WARN( db_options_->info_log, "MANIFEST corruption detected, but ignored - Log numbers in " "records NOT monotonically increasing"); } else { cfd->SetLogNumber(edit.log_number_); *have_log_number = true; } } if (edit.has_comparator_ && edit.comparator_ != cfd->user_comparator()->Name()) { return Status::InvalidArgument( cfd->user_comparator()->Name(), "does not match existing comparator " + edit.comparator_); } } if (edit.has_prev_log_number_) { *previous_log_number = edit.prev_log_number_; *have_prev_log_number = true; } if (edit.has_next_file_number_) { *next_file = edit.next_file_number_; *have_next_file = true; } if (edit.has_max_column_family_) { *max_column_family = edit.max_column_family_; } if (edit.has_min_log_number_to_keep_) { *min_log_number_to_keep = std::max(*min_log_number_to_keep, edit.min_log_number_to_keep_); } if (edit.has_last_sequence_) { *last_sequence = edit.last_sequence_; *have_last_sequence = true; } return Status::OK(); } Status VersionSet::Recover( const std::vector& column_families, bool read_only) { std::unordered_map cf_name_to_options; for (auto cf : column_families) { cf_name_to_options.insert({cf.name, cf.options}); } // keeps track of column families in manifest that were not found in // column families parameters. if those column families are not dropped // by subsequent manifest records, Recover() will return failure status std::unordered_map column_families_not_found; // Read "CURRENT" file, which contains a pointer to the current manifest file std::string manifest_filename; Status s = ReadFileToString( env_, CurrentFileName(dbname_), &manifest_filename ); if (!s.ok()) { return s; } if (manifest_filename.empty() || manifest_filename.back() != '\n') { return Status::Corruption("CURRENT file does not end with newline"); } // remove the trailing '\n' manifest_filename.resize(manifest_filename.size() - 1); FileType type; bool parse_ok = ParseFileName(manifest_filename, &manifest_file_number_, &type); if (!parse_ok || type != kDescriptorFile) { return Status::Corruption("CURRENT file corrupted"); } ROCKS_LOG_INFO(db_options_->info_log, "Recovering from manifest file: %s\n", manifest_filename.c_str()); manifest_filename = dbname_ + "/" + manifest_filename; unique_ptr manifest_file_reader; { unique_ptr manifest_file; s = env_->NewSequentialFile(manifest_filename, &manifest_file, env_->OptimizeForManifestRead(env_options_)); if (!s.ok()) { return s; } manifest_file_reader.reset( new SequentialFileReader(std::move(manifest_file), manifest_filename)); } uint64_t current_manifest_file_size; s = env_->GetFileSize(manifest_filename, ¤t_manifest_file_size); if (!s.ok()) { return s; } bool have_log_number = false; bool have_prev_log_number = false; bool have_next_file = false; bool have_last_sequence = false; uint64_t next_file = 0; uint64_t last_sequence = 0; uint64_t log_number = 0; uint64_t previous_log_number = 0; uint32_t max_column_family = 0; uint64_t min_log_number_to_keep = 0; std::unordered_map builders; // add default column family auto default_cf_iter = cf_name_to_options.find(kDefaultColumnFamilyName); if (default_cf_iter == cf_name_to_options.end()) { return Status::InvalidArgument("Default column family not specified"); } VersionEdit default_cf_edit; default_cf_edit.AddColumnFamily(kDefaultColumnFamilyName); default_cf_edit.SetColumnFamily(0); ColumnFamilyData* default_cfd = CreateColumnFamily(default_cf_iter->second, &default_cf_edit); // In recovery, nobody else can access it, so it's fine to set it to be // initialized earlier. default_cfd->set_initialized(); builders.insert({0, new BaseReferencedVersionBuilder(default_cfd)}); { VersionSet::LogReporter reporter; reporter.status = &s; log::Reader reader(nullptr, std::move(manifest_file_reader), &reporter, true /* checksum */, 0 /* log_number */); Slice record; std::string scratch; std::vector replay_buffer; size_t num_entries_decoded = 0; while (reader.ReadRecord(&record, &scratch) && s.ok()) { VersionEdit edit; s = edit.DecodeFrom(record); if (!s.ok()) { break; } if (edit.is_in_atomic_group_) { if (replay_buffer.empty()) { replay_buffer.resize(edit.remaining_entries_ + 1); } ++num_entries_decoded; if (num_entries_decoded + edit.remaining_entries_ != static_cast(replay_buffer.size())) { return Status::Corruption("corrupted atomic group"); } replay_buffer[num_entries_decoded - 1] = std::move(edit); if (num_entries_decoded == replay_buffer.size()) { for (auto& e : replay_buffer) { s = ApplyOneVersionEdit( e, cf_name_to_options, column_families_not_found, builders, &have_log_number, &log_number, &have_prev_log_number, &previous_log_number, &have_next_file, &next_file, &have_last_sequence, &last_sequence, &min_log_number_to_keep, &max_column_family); if (!s.ok()) { break; } } replay_buffer.clear(); num_entries_decoded = 0; } } else { if (!replay_buffer.empty()) { return Status::Corruption("corrupted atomic group"); } s = ApplyOneVersionEdit( edit, cf_name_to_options, column_families_not_found, builders, &have_log_number, &log_number, &have_prev_log_number, &previous_log_number, &have_next_file, &next_file, &have_last_sequence, &last_sequence, &min_log_number_to_keep, &max_column_family); } if (!s.ok()) { break; } } } if (s.ok()) { if (!have_next_file) { s = Status::Corruption("no meta-nextfile entry in descriptor"); } else if (!have_log_number) { s = Status::Corruption("no meta-lognumber entry in descriptor"); } else if (!have_last_sequence) { s = Status::Corruption("no last-sequence-number entry in descriptor"); } if (!have_prev_log_number) { previous_log_number = 0; } column_family_set_->UpdateMaxColumnFamily(max_column_family); // When reading DB generated using old release, min_log_number_to_keep=0. // All log files will be scanned for potential prepare entries. MarkMinLogNumberToKeep2PC(min_log_number_to_keep); MarkFileNumberUsed(previous_log_number); MarkFileNumberUsed(log_number); } // there were some column families in the MANIFEST that weren't specified // in the argument. This is OK in read_only mode if (read_only == false && !column_families_not_found.empty()) { std::string list_of_not_found; for (const auto& cf : column_families_not_found) { list_of_not_found += ", " + cf.second; } list_of_not_found = list_of_not_found.substr(2); s = Status::InvalidArgument( "You have to open all column families. Column families not opened: " + list_of_not_found); } if (s.ok()) { for (auto cfd : *column_family_set_) { assert(builders.count(cfd->GetID()) > 0); auto* builder = builders[cfd->GetID()]->version_builder(); if (!builder->CheckConsistencyForNumLevels()) { s = Status::InvalidArgument( "db has more levels than options.num_levels"); break; } } } if (s.ok()) { for (auto cfd : *column_family_set_) { if (cfd->IsDropped()) { continue; } if (read_only) { cfd->table_cache()->SetTablesAreImmortal(); } assert(cfd->initialized()); auto builders_iter = builders.find(cfd->GetID()); assert(builders_iter != builders.end()); auto* builder = builders_iter->second->version_builder(); if (GetColumnFamilySet()->get_table_cache()->GetCapacity() == TableCache::kInfiniteCapacity) { // unlimited table cache. Pre-load table handle now. // Need to do it out of the mutex. builder->LoadTableHandlers( cfd->internal_stats(), db_options_->max_file_opening_threads, false /* prefetch_index_and_filter_in_cache */, cfd->GetLatestMutableCFOptions()->prefix_extractor.get()); } Version* v = new Version(cfd, this, env_options_, *cfd->GetLatestMutableCFOptions(), current_version_number_++); builder->SaveTo(v->storage_info()); // Install recovered version v->PrepareApply(*cfd->GetLatestMutableCFOptions(), !(db_options_->skip_stats_update_on_db_open)); AppendVersion(cfd, v); } manifest_file_size_ = current_manifest_file_size; next_file_number_.store(next_file + 1); last_allocated_sequence_ = last_sequence; last_published_sequence_ = last_sequence; last_sequence_ = last_sequence; prev_log_number_ = previous_log_number; ROCKS_LOG_INFO( db_options_->info_log, "Recovered from manifest file:%s succeeded," "manifest_file_number is %lu, next_file_number is %lu, " "last_sequence is %lu, log_number is %lu," "prev_log_number is %lu," "max_column_family is %u," "min_log_number_to_keep is %lu\n", manifest_filename.c_str(), (unsigned long)manifest_file_number_, (unsigned long)next_file_number_.load(), (unsigned long)last_sequence_, (unsigned long)log_number, (unsigned long)prev_log_number_, column_family_set_->GetMaxColumnFamily(), min_log_number_to_keep_2pc()); for (auto cfd : *column_family_set_) { if (cfd->IsDropped()) { continue; } ROCKS_LOG_INFO(db_options_->info_log, "Column family [%s] (ID %u), log number is %" PRIu64 "\n", cfd->GetName().c_str(), cfd->GetID(), cfd->GetLogNumber()); } } for (auto& builder : builders) { delete builder.second; } return s; } Status VersionSet::ListColumnFamilies(std::vector* column_families, const std::string& dbname, Env* env) { // these are just for performance reasons, not correcntes, // so we're fine using the defaults EnvOptions soptions; // Read "CURRENT" file, which contains a pointer to the current manifest file std::string current; Status s = ReadFileToString(env, CurrentFileName(dbname), ¤t); if (!s.ok()) { return s; } if (current.empty() || current[current.size()-1] != '\n') { return Status::Corruption("CURRENT file does not end with newline"); } current.resize(current.size() - 1); std::string dscname = dbname + "/" + current; unique_ptr file_reader; { unique_ptr file; s = env->NewSequentialFile(dscname, &file, soptions); if (!s.ok()) { return s; } file_reader.reset(new SequentialFileReader(std::move(file), dscname)); } std::map column_family_names; // default column family is always implicitly there column_family_names.insert({0, kDefaultColumnFamilyName}); VersionSet::LogReporter reporter; reporter.status = &s; log::Reader reader(nullptr, std::move(file_reader), &reporter, true /* checksum */, 0 /* log_number */); Slice record; std::string scratch; while (reader.ReadRecord(&record, &scratch) && s.ok()) { VersionEdit edit; s = edit.DecodeFrom(record); if (!s.ok()) { break; } if (edit.is_column_family_add_) { if (column_family_names.find(edit.column_family_) != column_family_names.end()) { s = Status::Corruption("Manifest adding the same column family twice"); break; } column_family_names.insert( {edit.column_family_, edit.column_family_name_}); } else if (edit.is_column_family_drop_) { if (column_family_names.find(edit.column_family_) == column_family_names.end()) { s = Status::Corruption( "Manifest - dropping non-existing column family"); break; } column_family_names.erase(edit.column_family_); } } column_families->clear(); if (s.ok()) { for (const auto& iter : column_family_names) { column_families->push_back(iter.second); } } return s; } #ifndef ROCKSDB_LITE Status VersionSet::ReduceNumberOfLevels(const std::string& dbname, const Options* options, const EnvOptions& env_options, int new_levels) { if (new_levels <= 1) { return Status::InvalidArgument( "Number of levels needs to be bigger than 1"); } ImmutableDBOptions db_options(*options); ColumnFamilyOptions cf_options(*options); std::shared_ptr tc(NewLRUCache(options->max_open_files - 10, options->table_cache_numshardbits)); WriteController wc(options->delayed_write_rate); WriteBufferManager wb(options->db_write_buffer_size); VersionSet versions(dbname, &db_options, env_options, tc.get(), &wb, &wc); Status status; std::vector dummy; ColumnFamilyDescriptor dummy_descriptor(kDefaultColumnFamilyName, ColumnFamilyOptions(*options)); dummy.push_back(dummy_descriptor); status = versions.Recover(dummy); if (!status.ok()) { return status; } Version* current_version = versions.GetColumnFamilySet()->GetDefault()->current(); auto* vstorage = current_version->storage_info(); int current_levels = vstorage->num_levels(); if (current_levels <= new_levels) { return Status::OK(); } // Make sure there are file only on one level from // (new_levels-1) to (current_levels-1) int first_nonempty_level = -1; int first_nonempty_level_filenum = 0; for (int i = new_levels - 1; i < current_levels; i++) { int file_num = vstorage->NumLevelFiles(i); if (file_num != 0) { if (first_nonempty_level < 0) { first_nonempty_level = i; first_nonempty_level_filenum = file_num; } else { char msg[255]; snprintf(msg, sizeof(msg), "Found at least two levels containing files: " "[%d:%d],[%d:%d].\n", first_nonempty_level, first_nonempty_level_filenum, i, file_num); return Status::InvalidArgument(msg); } } } // we need to allocate an array with the old number of levels size to // avoid SIGSEGV in WriteSnapshot() // however, all levels bigger or equal to new_levels will be empty std::vector* new_files_list = new std::vector[current_levels]; for (int i = 0; i < new_levels - 1; i++) { new_files_list[i] = vstorage->LevelFiles(i); } if (first_nonempty_level > 0) { new_files_list[new_levels - 1] = vstorage->LevelFiles(first_nonempty_level); } delete[] vstorage -> files_; vstorage->files_ = new_files_list; vstorage->num_levels_ = new_levels; MutableCFOptions mutable_cf_options(*options); VersionEdit ve; InstrumentedMutex dummy_mutex; InstrumentedMutexLock l(&dummy_mutex); return versions.LogAndApply( versions.GetColumnFamilySet()->GetDefault(), mutable_cf_options, &ve, &dummy_mutex, nullptr, true); } Status VersionSet::DumpManifest(Options& options, std::string& dscname, bool verbose, bool hex, bool json) { // Open the specified manifest file. unique_ptr file_reader; Status s; { unique_ptr file; s = options.env->NewSequentialFile( dscname, &file, env_->OptimizeForManifestRead(env_options_)); if (!s.ok()) { return s; } file_reader.reset(new SequentialFileReader(std::move(file), dscname)); } bool have_prev_log_number = false; bool have_next_file = false; bool have_last_sequence = false; uint64_t next_file = 0; uint64_t last_sequence = 0; uint64_t previous_log_number = 0; int count = 0; std::unordered_map comparators; std::unordered_map builders; // add default column family VersionEdit default_cf_edit; default_cf_edit.AddColumnFamily(kDefaultColumnFamilyName); default_cf_edit.SetColumnFamily(0); ColumnFamilyData* default_cfd = CreateColumnFamily(ColumnFamilyOptions(options), &default_cf_edit); builders.insert({0, new BaseReferencedVersionBuilder(default_cfd)}); { VersionSet::LogReporter reporter; reporter.status = &s; log::Reader reader(nullptr, std::move(file_reader), &reporter, true /* checksum */, 0 /* log_number */); Slice record; std::string scratch; while (reader.ReadRecord(&record, &scratch) && s.ok()) { VersionEdit edit; s = edit.DecodeFrom(record); if (!s.ok()) { break; } // Write out each individual edit if (verbose && !json) { printf("%s\n", edit.DebugString(hex).c_str()); } else if (json) { printf("%s\n", edit.DebugJSON(count, hex).c_str()); } count++; bool cf_in_builders = builders.find(edit.column_family_) != builders.end(); if (edit.has_comparator_) { comparators.insert({edit.column_family_, edit.comparator_}); } ColumnFamilyData* cfd = nullptr; if (edit.is_column_family_add_) { if (cf_in_builders) { s = Status::Corruption( "Manifest adding the same column family twice"); break; } cfd = CreateColumnFamily(ColumnFamilyOptions(options), &edit); cfd->set_initialized(); builders.insert( {edit.column_family_, new BaseReferencedVersionBuilder(cfd)}); } else if (edit.is_column_family_drop_) { if (!cf_in_builders) { s = Status::Corruption( "Manifest - dropping non-existing column family"); break; } auto builder_iter = builders.find(edit.column_family_); delete builder_iter->second; builders.erase(builder_iter); comparators.erase(edit.column_family_); cfd = column_family_set_->GetColumnFamily(edit.column_family_); assert(cfd != nullptr); cfd->Unref(); delete cfd; cfd = nullptr; } else { if (!cf_in_builders) { s = Status::Corruption( "Manifest record referencing unknown column family"); break; } cfd = column_family_set_->GetColumnFamily(edit.column_family_); // this should never happen since cf_in_builders is true assert(cfd != nullptr); // if it is not column family add or column family drop, // then it's a file add/delete, which should be forwarded // to builder auto builder = builders.find(edit.column_family_); assert(builder != builders.end()); builder->second->version_builder()->Apply(&edit); } if (cfd != nullptr && edit.has_log_number_) { cfd->SetLogNumber(edit.log_number_); } if (edit.has_prev_log_number_) { previous_log_number = edit.prev_log_number_; have_prev_log_number = true; } if (edit.has_next_file_number_) { next_file = edit.next_file_number_; have_next_file = true; } if (edit.has_last_sequence_) { last_sequence = edit.last_sequence_; have_last_sequence = true; } if (edit.has_max_column_family_) { column_family_set_->UpdateMaxColumnFamily(edit.max_column_family_); } if (edit.has_min_log_number_to_keep_) { MarkMinLogNumberToKeep2PC(edit.min_log_number_to_keep_); } } } file_reader.reset(); if (s.ok()) { if (!have_next_file) { s = Status::Corruption("no meta-nextfile entry in descriptor"); printf("no meta-nextfile entry in descriptor"); } else if (!have_last_sequence) { printf("no last-sequence-number entry in descriptor"); s = Status::Corruption("no last-sequence-number entry in descriptor"); } if (!have_prev_log_number) { previous_log_number = 0; } } if (s.ok()) { for (auto cfd : *column_family_set_) { if (cfd->IsDropped()) { continue; } auto builders_iter = builders.find(cfd->GetID()); assert(builders_iter != builders.end()); auto builder = builders_iter->second->version_builder(); Version* v = new Version(cfd, this, env_options_, *cfd->GetLatestMutableCFOptions(), current_version_number_++); builder->SaveTo(v->storage_info()); v->PrepareApply(*cfd->GetLatestMutableCFOptions(), false); printf("--------------- Column family \"%s\" (ID %u) --------------\n", cfd->GetName().c_str(), (unsigned int)cfd->GetID()); printf("log number: %lu\n", (unsigned long)cfd->GetLogNumber()); auto comparator = comparators.find(cfd->GetID()); if (comparator != comparators.end()) { printf("comparator: %s\n", comparator->second.c_str()); } else { printf("comparator: \n"); } printf("%s \n", v->DebugString(hex).c_str()); delete v; } // Free builders for (auto& builder : builders) { delete builder.second; } next_file_number_.store(next_file + 1); last_allocated_sequence_ = last_sequence; last_published_sequence_ = last_sequence; last_sequence_ = last_sequence; prev_log_number_ = previous_log_number; printf( "next_file_number %lu last_sequence " "%lu prev_log_number %lu max_column_family %u min_log_number_to_keep " "%" PRIu64 "\n", (unsigned long)next_file_number_.load(), (unsigned long)last_sequence, (unsigned long)previous_log_number, column_family_set_->GetMaxColumnFamily(), min_log_number_to_keep_2pc()); } return s; } #endif // ROCKSDB_LITE void VersionSet::MarkFileNumberUsed(uint64_t number) { // only called during recovery and repair which are single threaded, so this // works because there can't be concurrent calls if (next_file_number_.load(std::memory_order_relaxed) <= number) { next_file_number_.store(number + 1, std::memory_order_relaxed); } } // Called only either from ::LogAndApply which is protected by mutex or during // recovery which is single-threaded. void VersionSet::MarkMinLogNumberToKeep2PC(uint64_t number) { if (min_log_number_to_keep_2pc_.load(std::memory_order_relaxed) < number) { min_log_number_to_keep_2pc_.store(number, std::memory_order_relaxed); } } Status VersionSet::WriteSnapshot(log::Writer* log) { // TODO: Break up into multiple records to reduce memory usage on recovery? // WARNING: This method doesn't hold a mutex!! // This is done without DB mutex lock held, but only within single-threaded // LogAndApply. Column family manipulations can only happen within LogAndApply // (the same single thread), so we're safe to iterate. for (auto cfd : *column_family_set_) { if (cfd->IsDropped()) { continue; } assert(cfd->initialized()); { // Store column family info VersionEdit edit; if (cfd->GetID() != 0) { // default column family is always there, // no need to explicitly write it edit.AddColumnFamily(cfd->GetName()); edit.SetColumnFamily(cfd->GetID()); } edit.SetComparatorName( cfd->internal_comparator().user_comparator()->Name()); std::string record; if (!edit.EncodeTo(&record)) { return Status::Corruption( "Unable to Encode VersionEdit:" + edit.DebugString(true)); } Status s = log->AddRecord(record); if (!s.ok()) { return s; } } { // Save files VersionEdit edit; edit.SetColumnFamily(cfd->GetID()); for (int level = 0; level < cfd->NumberLevels(); level++) { for (const auto& f : cfd->current()->storage_info()->LevelFiles(level)) { edit.AddFile(level, f->fd.GetNumber(), f->fd.GetPathId(), f->fd.GetFileSize(), f->smallest, f->largest, f->fd.smallest_seqno, f->fd.largest_seqno, f->marked_for_compaction); } } edit.SetLogNumber(cfd->GetLogNumber()); std::string record; if (!edit.EncodeTo(&record)) { return Status::Corruption( "Unable to Encode VersionEdit:" + edit.DebugString(true)); } Status s = log->AddRecord(record); if (!s.ok()) { return s; } } } return Status::OK(); } // TODO(aekmekji): in CompactionJob::GenSubcompactionBoundaries(), this // function is called repeatedly with consecutive pairs of slices. For example // if the slice list is [a, b, c, d] this function is called with arguments // (a,b) then (b,c) then (c,d). Knowing this, an optimization is possible where // we avoid doing binary search for the keys b and c twice and instead somehow // maintain state of where they first appear in the files. uint64_t VersionSet::ApproximateSize(Version* v, const Slice& start, const Slice& end, int start_level, int end_level) { // pre-condition assert(v->cfd_->internal_comparator().Compare(start, end) <= 0); uint64_t size = 0; const auto* vstorage = v->storage_info(); end_level = end_level == -1 ? vstorage->num_non_empty_levels() : std::min(end_level, vstorage->num_non_empty_levels()); assert(start_level <= end_level); for (int level = start_level; level < end_level; level++) { const LevelFilesBrief& files_brief = vstorage->LevelFilesBrief(level); if (!files_brief.num_files) { // empty level, skip exploration continue; } if (!level) { // level 0 data is sorted order, handle the use case explicitly size += ApproximateSizeLevel0(v, files_brief, start, end); continue; } assert(level > 0); assert(files_brief.num_files > 0); // identify the file position for starting key const uint64_t idx_start = FindFileInRange( v->cfd_->internal_comparator(), files_brief, start, /*start=*/0, static_cast(files_brief.num_files - 1)); assert(idx_start < files_brief.num_files); // scan all files from the starting position until the ending position // inferred from the sorted order for (uint64_t i = idx_start; i < files_brief.num_files; i++) { uint64_t val; val = ApproximateSize(v, files_brief.files[i], end); if (!val) { // the files after this will not have the range break; } size += val; if (i == idx_start) { // subtract the bytes needed to be scanned to get to the starting // key val = ApproximateSize(v, files_brief.files[i], start); assert(size >= val); size -= val; } } } return size; } uint64_t VersionSet::ApproximateSizeLevel0(Version* v, const LevelFilesBrief& files_brief, const Slice& key_start, const Slice& key_end) { // level 0 files are not in sorted order, we need to iterate through // the list to compute the total bytes that require scanning uint64_t size = 0; for (size_t i = 0; i < files_brief.num_files; i++) { const uint64_t start = ApproximateSize(v, files_brief.files[i], key_start); const uint64_t end = ApproximateSize(v, files_brief.files[i], key_end); assert(end >= start); size += end - start; } return size; } uint64_t VersionSet::ApproximateSize(Version* v, const FdWithKeyRange& f, const Slice& key) { // pre-condition assert(v); uint64_t result = 0; if (v->cfd_->internal_comparator().Compare(f.largest_key, key) <= 0) { // Entire file is before "key", so just add the file size result = f.fd.GetFileSize(); } else if (v->cfd_->internal_comparator().Compare(f.smallest_key, key) > 0) { // Entire file is after "key", so ignore result = 0; } else { // "key" falls in the range for this table. Add the // approximate offset of "key" within the table. TableReader* table_reader_ptr; InternalIterator* iter = v->cfd_->table_cache()->NewIterator( ReadOptions(), v->env_options_, v->cfd_->internal_comparator(), *f.file_metadata, nullptr /* range_del_agg */, v->GetMutableCFOptions().prefix_extractor.get(), &table_reader_ptr); if (table_reader_ptr != nullptr) { result = table_reader_ptr->ApproximateOffsetOf(key); } delete iter; } return result; } void VersionSet::AddLiveFiles(std::vector* live_list) { // pre-calculate space requirement int64_t total_files = 0; for (auto cfd : *column_family_set_) { if (!cfd->initialized()) { continue; } Version* dummy_versions = cfd->dummy_versions(); for (Version* v = dummy_versions->next_; v != dummy_versions; v = v->next_) { const auto* vstorage = v->storage_info(); for (int level = 0; level < vstorage->num_levels(); level++) { total_files += vstorage->LevelFiles(level).size(); } } } // just one time extension to the right size live_list->reserve(live_list->size() + static_cast(total_files)); for (auto cfd : *column_family_set_) { if (!cfd->initialized()) { continue; } auto* current = cfd->current(); bool found_current = false; Version* dummy_versions = cfd->dummy_versions(); for (Version* v = dummy_versions->next_; v != dummy_versions; v = v->next_) { v->AddLiveFiles(live_list); if (v == current) { found_current = true; } } if (!found_current && current != nullptr) { // Should never happen unless it is a bug. assert(false); current->AddLiveFiles(live_list); } } } InternalIterator* VersionSet::MakeInputIterator( const Compaction* c, RangeDelAggregator* range_del_agg, const EnvOptions& env_options_compactions) { auto cfd = c->column_family_data(); ReadOptions read_options; read_options.verify_checksums = true; read_options.fill_cache = false; // Compaction iterators shouldn't be confined to a single prefix. // Compactions use Seek() for // (a) concurrent compactions, // (b) CompactionFilter::Decision::kRemoveAndSkipUntil. read_options.total_order_seek = true; // Level-0 files have to be merged together. For other levels, // we will make a concatenating iterator per level. // TODO(opt): use concatenating iterator for level-0 if there is no overlap const size_t space = (c->level() == 0 ? c->input_levels(0)->num_files + c->num_input_levels() - 1 : c->num_input_levels()); InternalIterator** list = new InternalIterator* [space]; size_t num = 0; for (size_t which = 0; which < c->num_input_levels(); which++) { if (c->input_levels(which)->num_files != 0) { if (c->level(which) == 0) { const LevelFilesBrief* flevel = c->input_levels(which); for (size_t i = 0; i < flevel->num_files; i++) { list[num++] = cfd->table_cache()->NewIterator( read_options, env_options_compactions, cfd->internal_comparator(), *flevel->files[i].file_metadata, range_del_agg, c->mutable_cf_options()->prefix_extractor.get(), nullptr /* table_reader_ptr */, nullptr /* no per level latency histogram */, true /* for_compaction */, nullptr /* arena */, false /* skip_filters */, static_cast(which) /* level */); } } else { // Create concatenating iterator for the files from this level list[num++] = new LevelIterator( cfd->table_cache(), read_options, env_options_compactions, cfd->internal_comparator(), c->input_levels(which), c->mutable_cf_options()->prefix_extractor.get(), false /* should_sample */, nullptr /* no per level latency histogram */, true /* for_compaction */, false /* skip_filters */, static_cast(which) /* level */, range_del_agg); } } } assert(num <= space); InternalIterator* result = NewMergingIterator(&c->column_family_data()->internal_comparator(), list, static_cast(num)); delete[] list; return result; } // verify that the files listed in this compaction are present // in the current version bool VersionSet::VerifyCompactionFileConsistency(Compaction* c) { #ifndef NDEBUG Version* version = c->column_family_data()->current(); const VersionStorageInfo* vstorage = version->storage_info(); if (c->input_version() != version) { ROCKS_LOG_INFO( db_options_->info_log, "[%s] compaction output being applied to a different base version from" " input version", c->column_family_data()->GetName().c_str()); if (vstorage->compaction_style_ == kCompactionStyleLevel && c->start_level() == 0 && c->num_input_levels() > 2U) { // We are doing a L0->base_level compaction. The assumption is if // base level is not L1, levels from L1 to base_level - 1 is empty. // This is ensured by having one compaction from L0 going on at the // same time in level-based compaction. So that during the time, no // compaction/flush can put files to those levels. for (int l = c->start_level() + 1; l < c->output_level(); l++) { if (vstorage->NumLevelFiles(l) != 0) { return false; } } } } for (size_t input = 0; input < c->num_input_levels(); ++input) { int level = c->level(input); for (size_t i = 0; i < c->num_input_files(input); ++i) { uint64_t number = c->input(input, i)->fd.GetNumber(); bool found = false; for (size_t j = 0; j < vstorage->files_[level].size(); j++) { FileMetaData* f = vstorage->files_[level][j]; if (f->fd.GetNumber() == number) { found = true; break; } } if (!found) { return false; // input files non existent in current version } } } #else (void)c; #endif return true; // everything good } Status VersionSet::GetMetadataForFile(uint64_t number, int* filelevel, FileMetaData** meta, ColumnFamilyData** cfd) { for (auto cfd_iter : *column_family_set_) { if (!cfd_iter->initialized()) { continue; } Version* version = cfd_iter->current(); const auto* vstorage = version->storage_info(); for (int level = 0; level < vstorage->num_levels(); level++) { for (const auto& file : vstorage->LevelFiles(level)) { if (file->fd.GetNumber() == number) { *meta = file; *filelevel = level; *cfd = cfd_iter; return Status::OK(); } } } } return Status::NotFound("File not present in any level"); } void VersionSet::GetLiveFilesMetaData(std::vector* metadata) { for (auto cfd : *column_family_set_) { if (cfd->IsDropped() || !cfd->initialized()) { continue; } for (int level = 0; level < cfd->NumberLevels(); level++) { for (const auto& file : cfd->current()->storage_info()->LevelFiles(level)) { LiveFileMetaData filemetadata; filemetadata.column_family_name = cfd->GetName(); uint32_t path_id = file->fd.GetPathId(); if (path_id < cfd->ioptions()->cf_paths.size()) { filemetadata.db_path = cfd->ioptions()->cf_paths[path_id].path; } else { assert(!cfd->ioptions()->cf_paths.empty()); filemetadata.db_path = cfd->ioptions()->cf_paths.back().path; } filemetadata.name = MakeTableFileName("", file->fd.GetNumber()); filemetadata.level = level; filemetadata.size = static_cast(file->fd.GetFileSize()); filemetadata.smallestkey = file->smallest.user_key().ToString(); filemetadata.largestkey = file->largest.user_key().ToString(); filemetadata.smallest_seqno = file->fd.smallest_seqno; filemetadata.largest_seqno = file->fd.largest_seqno; metadata->push_back(filemetadata); } } } } void VersionSet::GetObsoleteFiles(std::vector* files, std::vector* manifest_filenames, uint64_t min_pending_output) { assert(manifest_filenames->empty()); obsolete_manifests_.swap(*manifest_filenames); std::vector pending_files; for (auto& f : obsolete_files_) { if (f.metadata->fd.GetNumber() < min_pending_output) { files->push_back(std::move(f)); } else { pending_files.push_back(std::move(f)); } } obsolete_files_.swap(pending_files); } ColumnFamilyData* VersionSet::CreateColumnFamily( const ColumnFamilyOptions& cf_options, VersionEdit* edit) { assert(edit->is_column_family_add_); MutableCFOptions dummy_cf_options; Version* dummy_versions = new Version(nullptr, this, env_options_, dummy_cf_options); // Ref() dummy version once so that later we can call Unref() to delete it // by avoiding calling "delete" explicitly (~Version is private) dummy_versions->Ref(); auto new_cfd = column_family_set_->CreateColumnFamily( edit->column_family_name_, edit->column_family_, dummy_versions, cf_options); Version* v = new Version(new_cfd, this, env_options_, *new_cfd->GetLatestMutableCFOptions(), current_version_number_++); // Fill level target base information. v->storage_info()->CalculateBaseBytes(*new_cfd->ioptions(), *new_cfd->GetLatestMutableCFOptions()); AppendVersion(new_cfd, v); // GetLatestMutableCFOptions() is safe here without mutex since the // cfd is not available to client new_cfd->CreateNewMemtable(*new_cfd->GetLatestMutableCFOptions(), LastSequence()); new_cfd->SetLogNumber(edit->log_number_); return new_cfd; } uint64_t VersionSet::GetNumLiveVersions(Version* dummy_versions) { uint64_t count = 0; for (Version* v = dummy_versions->next_; v != dummy_versions; v = v->next_) { count++; } return count; } uint64_t VersionSet::GetTotalSstFilesSize(Version* dummy_versions) { std::unordered_set unique_files; uint64_t total_files_size = 0; for (Version* v = dummy_versions->next_; v != dummy_versions; v = v->next_) { VersionStorageInfo* storage_info = v->storage_info(); for (int level = 0; level < storage_info->num_levels_; level++) { for (const auto& file_meta : storage_info->LevelFiles(level)) { if (unique_files.find(file_meta->fd.packed_number_and_path_id) == unique_files.end()) { unique_files.insert(file_meta->fd.packed_number_and_path_id); total_files_size += file_meta->fd.GetFileSize(); } } } } return total_files_size; } } // namespace rocksdb rocksdb-5.17.2/db/version_set.h000066400000000000000000001252151337235545400163540ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. // // The representation of a DBImpl consists of a set of Versions. The // newest version is called "current". Older versions may be kept // around to provide a consistent view to live iterators. // // Each Version keeps track of a set of Table files per level. The // entire set of versions is maintained in a VersionSet. // // Version,VersionSet are thread-compatible, but require external // synchronization on all accesses. #pragma once #include #include #include #include #include #include #include #include #include #include "db/column_family.h" #include "db/compaction.h" #include "db/compaction_picker.h" #include "db/dbformat.h" #include "db/file_indexer.h" #include "db/log_reader.h" #include "db/range_del_aggregator.h" #include "db/read_callback.h" #include "db/table_cache.h" #include "db/version_builder.h" #include "db/version_edit.h" #include "db/write_controller.h" #include "monitoring/instrumented_mutex.h" #include "options/db_options.h" #include "port/port.h" #include "rocksdb/env.h" namespace rocksdb { namespace log { class Writer; } class Compaction; class LogBuffer; class LookupKey; class MemTable; class Version; class VersionSet; class WriteBufferManager; class MergeContext; class ColumnFamilySet; class TableCache; class MergeIteratorBuilder; // Return the smallest index i such that file_level.files[i]->largest >= key. // Return file_level.num_files if there is no such file. // REQUIRES: "file_level.files" contains a sorted list of // non-overlapping files. extern int FindFile(const InternalKeyComparator& icmp, const LevelFilesBrief& file_level, const Slice& key); // Returns true iff some file in "files" overlaps the user key range // [*smallest,*largest]. // smallest==nullptr represents a key smaller than all keys in the DB. // largest==nullptr represents a key largest than all keys in the DB. // REQUIRES: If disjoint_sorted_files, file_level.files[] // contains disjoint ranges in sorted order. extern bool SomeFileOverlapsRange(const InternalKeyComparator& icmp, bool disjoint_sorted_files, const LevelFilesBrief& file_level, const Slice* smallest_user_key, const Slice* largest_user_key); // Generate LevelFilesBrief from vector // Would copy smallest_key and largest_key data to sequential memory // arena: Arena used to allocate the memory extern void DoGenerateLevelFilesBrief(LevelFilesBrief* file_level, const std::vector& files, Arena* arena); class VersionStorageInfo { public: VersionStorageInfo(const InternalKeyComparator* internal_comparator, const Comparator* user_comparator, int num_levels, CompactionStyle compaction_style, VersionStorageInfo* src_vstorage, bool _force_consistency_checks); ~VersionStorageInfo(); void Reserve(int level, size_t size) { files_[level].reserve(size); } void AddFile(int level, FileMetaData* f, Logger* info_log = nullptr); void SetFinalized(); // Update num_non_empty_levels_. void UpdateNumNonEmptyLevels(); void GenerateFileIndexer() { file_indexer_.UpdateIndex(&arena_, num_non_empty_levels_, files_); } // Update the accumulated stats from a file-meta. void UpdateAccumulatedStats(FileMetaData* file_meta); // Decrease the current stat from a to-be-deleted file-meta void RemoveCurrentStats(FileMetaData* file_meta); void ComputeCompensatedSizes(); // Updates internal structures that keep track of compaction scores // We use compaction scores to figure out which compaction to do next // REQUIRES: db_mutex held!! // TODO find a better way to pass compaction_options_fifo. void ComputeCompactionScore(const ImmutableCFOptions& immutable_cf_options, const MutableCFOptions& mutable_cf_options); // Estimate est_comp_needed_bytes_ void EstimateCompactionBytesNeeded( const MutableCFOptions& mutable_cf_options); // This computes files_marked_for_compaction_ and is called by // ComputeCompactionScore() void ComputeFilesMarkedForCompaction(); // This computes ttl_expired_files_ and is called by // ComputeCompactionScore() void ComputeExpiredTtlFiles(const ImmutableCFOptions& ioptions, const uint64_t ttl); // This computes bottommost_files_marked_for_compaction_ and is called by // ComputeCompactionScore() or UpdateOldestSnapshot(). // // Among bottommost files (assumes they've already been computed), marks the // ones that have keys that would be eliminated if recompacted, according to // the seqnum of the oldest existing snapshot. Must be called every time // oldest snapshot changes as that is when bottom-level files can become // eligible for compaction. // // REQUIRES: DB mutex held void ComputeBottommostFilesMarkedForCompaction(); // Generate level_files_brief_ from files_ void GenerateLevelFilesBrief(); // Sort all files for this version based on their file size and // record results in files_by_compaction_pri_. The largest files are listed // first. void UpdateFilesByCompactionPri(CompactionPri compaction_pri); void GenerateLevel0NonOverlapping(); bool level0_non_overlapping() const { return level0_non_overlapping_; } // Check whether each file in this version is bottommost (i.e., nothing in its // key-range could possibly exist in an older file/level). // REQUIRES: This version has not been saved void GenerateBottommostFiles(); // Updates the oldest snapshot and related internal state, like the bottommost // files marked for compaction. // REQUIRES: DB mutex held void UpdateOldestSnapshot(SequenceNumber oldest_snapshot_seqnum); int MaxInputLevel() const; int MaxOutputLevel(bool allow_ingest_behind) const; // Return level number that has idx'th highest score int CompactionScoreLevel(int idx) const { return compaction_level_[idx]; } // Return idx'th highest score double CompactionScore(int idx) const { return compaction_score_[idx]; } void GetOverlappingInputs( int level, const InternalKey* begin, // nullptr means before all keys const InternalKey* end, // nullptr means after all keys std::vector* inputs, int hint_index = -1, // index of overlap file int* file_index = nullptr, // return index of overlap file bool expand_range = true, // if set, returns files which overlap the // range and overlap each other. If false, // then just files intersecting the range InternalKey** next_smallest = nullptr) // if non-null, returns the const; // smallest key of next file not included void GetCleanInputsWithinInterval( int level, const InternalKey* begin, // nullptr means before all keys const InternalKey* end, // nullptr means after all keys std::vector* inputs, int hint_index = -1, // index of overlap file int* file_index = nullptr) // return index of overlap file const; void GetOverlappingInputsRangeBinarySearch( int level, // level > 0 const InternalKey* begin, // nullptr means before all keys const InternalKey* end, // nullptr means after all keys std::vector* inputs, int hint_index, // index of overlap file int* file_index, // return index of overlap file bool within_interval = false, // if set, force the inputs within interval InternalKey** next_smallest = nullptr) // if non-null, returns the const; // smallest key of next file not included void ExtendFileRangeOverlappingInterval( int level, const InternalKey* begin, // nullptr means before all keys const InternalKey* end, // nullptr means after all keys unsigned int index, // start extending from this index int* startIndex, // return the startIndex of input range int* endIndex) // return the endIndex of input range const; void ExtendFileRangeWithinInterval( int level, const InternalKey* begin, // nullptr means before all keys const InternalKey* end, // nullptr means after all keys unsigned int index, // start extending from this index int* startIndex, // return the startIndex of input range int* endIndex) // return the endIndex of input range const; // Returns true iff some file in the specified level overlaps // some part of [*smallest_user_key,*largest_user_key]. // smallest_user_key==NULL represents a key smaller than all keys in the DB. // largest_user_key==NULL represents a key largest than all keys in the DB. bool OverlapInLevel(int level, const Slice* smallest_user_key, const Slice* largest_user_key); // Returns true iff the first or last file in inputs contains // an overlapping user key to the file "just outside" of it (i.e. // just after the last file, or just before the first file) // REQUIRES: "*inputs" is a sorted list of non-overlapping files bool HasOverlappingUserKey(const std::vector* inputs, int level); int num_levels() const { return num_levels_; } // REQUIRES: This version has been saved (see VersionSet::SaveTo) int num_non_empty_levels() const { assert(finalized_); return num_non_empty_levels_; } // REQUIRES: This version has been finalized. // (CalculateBaseBytes() is called) // This may or may not return number of level files. It is to keep backward // compatible behavior in universal compaction. int l0_delay_trigger_count() const { return l0_delay_trigger_count_; } void set_l0_delay_trigger_count(int v) { l0_delay_trigger_count_ = v; } // REQUIRES: This version has been saved (see VersionSet::SaveTo) int NumLevelFiles(int level) const { assert(finalized_); return static_cast(files_[level].size()); } // Return the combined file size of all files at the specified level. uint64_t NumLevelBytes(int level) const; // REQUIRES: This version has been saved (see VersionSet::SaveTo) const std::vector& LevelFiles(int level) const { return files_[level]; } const rocksdb::LevelFilesBrief& LevelFilesBrief(int level) const { assert(level < static_cast(level_files_brief_.size())); return level_files_brief_[level]; } // REQUIRES: This version has been saved (see VersionSet::SaveTo) const std::vector& FilesByCompactionPri(int level) const { assert(finalized_); return files_by_compaction_pri_[level]; } // REQUIRES: This version has been saved (see VersionSet::SaveTo) // REQUIRES: DB mutex held during access const autovector>& FilesMarkedForCompaction() const { assert(finalized_); return files_marked_for_compaction_; } // REQUIRES: This version has been saved (see VersionSet::SaveTo) // REQUIRES: DB mutex held during access const autovector>& ExpiredTtlFiles() const { assert(finalized_); return expired_ttl_files_; } // REQUIRES: This version has been saved (see VersionSet::SaveTo) // REQUIRES: DB mutex held during access const autovector>& BottommostFilesMarkedForCompaction() const { assert(finalized_); return bottommost_files_marked_for_compaction_; } int base_level() const { return base_level_; } // REQUIRES: lock is held // Set the index that is used to offset into files_by_compaction_pri_ to find // the next compaction candidate file. void SetNextCompactionIndex(int level, int index) { next_file_to_compact_by_size_[level] = index; } // REQUIRES: lock is held int NextCompactionIndex(int level) const { return next_file_to_compact_by_size_[level]; } // REQUIRES: This version has been saved (see VersionSet::SaveTo) const FileIndexer& file_indexer() const { assert(finalized_); return file_indexer_; } // Only the first few entries of files_by_compaction_pri_ are sorted. // There is no need to sort all the files because it is likely // that on a running system, we need to look at only the first // few largest files because a new version is created every few // seconds/minutes (because of concurrent compactions). static const size_t kNumberFilesToSort = 50; // Return a human-readable short (single-line) summary of the number // of files per level. Uses *scratch as backing store. struct LevelSummaryStorage { char buffer[1000]; }; struct FileSummaryStorage { char buffer[3000]; }; const char* LevelSummary(LevelSummaryStorage* scratch) const; // Return a human-readable short (single-line) summary of files // in a specified level. Uses *scratch as backing store. const char* LevelFileSummary(FileSummaryStorage* scratch, int level) const; // Return the maximum overlapping data (in bytes) at next level for any // file at a level >= 1. int64_t MaxNextLevelOverlappingBytes(); // Return a human readable string that describes this version's contents. std::string DebugString(bool hex = false) const; uint64_t GetAverageValueSize() const { if (accumulated_num_non_deletions_ == 0) { return 0; } assert(accumulated_raw_key_size_ + accumulated_raw_value_size_ > 0); assert(accumulated_file_size_ > 0); return accumulated_raw_value_size_ / accumulated_num_non_deletions_ * accumulated_file_size_ / (accumulated_raw_key_size_ + accumulated_raw_value_size_); } uint64_t GetEstimatedActiveKeys() const; double GetEstimatedCompressionRatioAtLevel(int level) const; // re-initializes the index that is used to offset into // files_by_compaction_pri_ // to find the next compaction candidate file. void ResetNextCompactionIndex(int level) { next_file_to_compact_by_size_[level] = 0; } const InternalKeyComparator* InternalComparator() { return internal_comparator_; } // Returns maximum total bytes of data on a given level. uint64_t MaxBytesForLevel(int level) const; // Must be called after any change to MutableCFOptions. void CalculateBaseBytes(const ImmutableCFOptions& ioptions, const MutableCFOptions& options); // Returns an estimate of the amount of live data in bytes. uint64_t EstimateLiveDataSize() const; uint64_t estimated_compaction_needed_bytes() const { return estimated_compaction_needed_bytes_; } void TEST_set_estimated_compaction_needed_bytes(uint64_t v) { estimated_compaction_needed_bytes_ = v; } bool force_consistency_checks() const { return force_consistency_checks_; } // Returns whether any key in [`smallest_key`, `largest_key`] could appear in // an older L0 file than `last_l0_idx` or in a greater level than `last_level` // // @param last_level Level after which we check for overlap // @param last_l0_idx If `last_level == 0`, index of L0 file after which we // check for overlap; otherwise, must be -1 bool RangeMightExistAfterSortedRun(const Slice& smallest_key, const Slice& largest_key, int last_level, int last_l0_idx); private: const InternalKeyComparator* internal_comparator_; const Comparator* user_comparator_; int num_levels_; // Number of levels int num_non_empty_levels_; // Number of levels. Any level larger than it // is guaranteed to be empty. // Per-level max bytes std::vector level_max_bytes_; // A short brief metadata of files per level autovector level_files_brief_; FileIndexer file_indexer_; Arena arena_; // Used to allocate space for file_levels_ CompactionStyle compaction_style_; // List of files per level, files in each level are arranged // in increasing order of keys std::vector* files_; // Level that L0 data should be compacted to. All levels < base_level_ should // be empty. -1 if it is not level-compaction so it's not applicable. int base_level_; // A list for the same set of files that are stored in files_, // but files in each level are now sorted based on file // size. The file with the largest size is at the front. // This vector stores the index of the file from files_. std::vector> files_by_compaction_pri_; // If true, means that files in L0 have keys with non overlapping ranges bool level0_non_overlapping_; // An index into files_by_compaction_pri_ that specifies the first // file that is not yet compacted std::vector next_file_to_compact_by_size_; // Only the first few entries of files_by_compaction_pri_ are sorted. // There is no need to sort all the files because it is likely // that on a running system, we need to look at only the first // few largest files because a new version is created every few // seconds/minutes (because of concurrent compactions). static const size_t number_of_files_to_sort_ = 50; // This vector contains list of files marked for compaction and also not // currently being compacted. It is protected by DB mutex. It is calculated in // ComputeCompactionScore() autovector> files_marked_for_compaction_; autovector> expired_ttl_files_; // These files are considered bottommost because none of their keys can exist // at lower levels. They are not necessarily all in the same level. The marked // ones are eligible for compaction because they contain duplicate key // versions that are no longer protected by snapshot. These variables are // protected by DB mutex and are calculated in `GenerateBottommostFiles()` and // `ComputeBottommostFilesMarkedForCompaction()`. autovector> bottommost_files_; autovector> bottommost_files_marked_for_compaction_; // Threshold for needing to mark another bottommost file. Maintain it so we // can quickly check when releasing a snapshot whether more bottommost files // became eligible for compaction. It's defined as the min of the max nonzero // seqnums of unmarked bottommost files. SequenceNumber bottommost_files_mark_threshold_ = kMaxSequenceNumber; // Monotonically increases as we release old snapshots. Zero indicates no // snapshots have been released yet. When no snapshots remain we set it to the // current seqnum, which needs to be protected as a snapshot can still be // created that references it. SequenceNumber oldest_snapshot_seqnum_ = 0; // Level that should be compacted next and its compaction score. // Score < 1 means compaction is not strictly needed. These fields // are initialized by Finalize(). // The most critical level to be compacted is listed first // These are used to pick the best compaction level std::vector compaction_score_; std::vector compaction_level_; int l0_delay_trigger_count_ = 0; // Count used to trigger slow down and stop // for number of L0 files. // the following are the sampled temporary stats. // the current accumulated size of sampled files. uint64_t accumulated_file_size_; // the current accumulated size of all raw keys based on the sampled files. uint64_t accumulated_raw_key_size_; // the current accumulated size of all raw keys based on the sampled files. uint64_t accumulated_raw_value_size_; // total number of non-deletion entries uint64_t accumulated_num_non_deletions_; // total number of deletion entries uint64_t accumulated_num_deletions_; // current number of non_deletion entries uint64_t current_num_non_deletions_; // current number of deletion entries uint64_t current_num_deletions_; // current number of file samples uint64_t current_num_samples_; // Estimated bytes needed to be compacted until all levels' size is down to // target sizes. uint64_t estimated_compaction_needed_bytes_; bool finalized_; // If set to true, we will run consistency checks even if RocksDB // is compiled in release mode bool force_consistency_checks_; friend class Version; friend class VersionSet; // No copying allowed VersionStorageInfo(const VersionStorageInfo&) = delete; void operator=(const VersionStorageInfo&) = delete; }; class Version { public: // Append to *iters a sequence of iterators that will // yield the contents of this Version when merged together. // REQUIRES: This version has been saved (see VersionSet::SaveTo) void AddIterators(const ReadOptions&, const EnvOptions& soptions, MergeIteratorBuilder* merger_iter_builder, RangeDelAggregator* range_del_agg); void AddIteratorsForLevel(const ReadOptions&, const EnvOptions& soptions, MergeIteratorBuilder* merger_iter_builder, int level, RangeDelAggregator* range_del_agg); Status OverlapWithLevelIterator(const ReadOptions&, const EnvOptions&, const Slice& smallest_user_key, const Slice& largest_user_key, int level, bool* overlap); // Lookup the value for key. If found, store it in *val and // return OK. Else return a non-OK status. // Uses *operands to store merge_operator operations to apply later. // // If the ReadOptions.read_tier is set to do a read-only fetch, then // *value_found will be set to false if it cannot be determined whether // this value exists without doing IO. // // If the key is Deleted, *status will be set to NotFound and // *key_exists will be set to true. // If no key was found, *status will be set to NotFound and // *key_exists will be set to false. // If seq is non-null, *seq will be set to the sequence number found // for the key if a key was found. // // REQUIRES: lock is not held void Get(const ReadOptions&, const LookupKey& key, PinnableSlice* value, Status* status, MergeContext* merge_context, RangeDelAggregator* range_del_agg, bool* value_found = nullptr, bool* key_exists = nullptr, SequenceNumber* seq = nullptr, ReadCallback* callback = nullptr, bool* is_blob = nullptr); // Loads some stats information from files. Call without mutex held. It needs // to be called before applying the version to the version set. void PrepareApply(const MutableCFOptions& mutable_cf_options, bool update_stats); // Reference count management (so Versions do not disappear out from // under live iterators) void Ref(); // Decrease reference count. Delete the object if no reference left // and return true. Otherwise, return false. bool Unref(); // Add all files listed in the current version to *live. void AddLiveFiles(std::vector* live); // Return a human readable string that describes this version's contents. std::string DebugString(bool hex = false, bool print_stats = false) const; // Returns the version number of this version uint64_t GetVersionNumber() const { return version_number_; } // REQUIRES: lock is held // On success, "tp" will contains the table properties of the file // specified in "file_meta". If the file name of "file_meta" is // known ahead, passing it by a non-null "fname" can save a // file-name conversion. Status GetTableProperties(std::shared_ptr* tp, const FileMetaData* file_meta, const std::string* fname = nullptr) const; // REQUIRES: lock is held // On success, *props will be populated with all SSTables' table properties. // The keys of `props` are the sst file name, the values of `props` are the // tables' properties, represented as shared_ptr. Status GetPropertiesOfAllTables(TablePropertiesCollection* props); Status GetPropertiesOfAllTables(TablePropertiesCollection* props, int level); Status GetPropertiesOfTablesInRange(const Range* range, std::size_t n, TablePropertiesCollection* props) const; // REQUIRES: lock is held // On success, "tp" will contains the aggregated table property among // the table properties of all sst files in this version. Status GetAggregatedTableProperties( std::shared_ptr* tp, int level = -1); uint64_t GetEstimatedActiveKeys() { return storage_info_.GetEstimatedActiveKeys(); } size_t GetMemoryUsageByTableReaders(); ColumnFamilyData* cfd() const { return cfd_; } // Return the next Version in the linked list. Used for debug only Version* TEST_Next() const { return next_; } int TEST_refs() const { return refs_; } VersionStorageInfo* storage_info() { return &storage_info_; } VersionSet* version_set() { return vset_; } void GetColumnFamilyMetaData(ColumnFamilyMetaData* cf_meta); uint64_t GetSstFilesSize(); MutableCFOptions GetMutableCFOptions() { return mutable_cf_options_; } private: Env* env_; friend class VersionSet; const InternalKeyComparator* internal_comparator() const { return storage_info_.internal_comparator_; } const Comparator* user_comparator() const { return storage_info_.user_comparator_; } bool PrefixMayMatch(const ReadOptions& read_options, InternalIterator* level_iter, const Slice& internal_prefix) const; // Returns true if the filter blocks in the specified level will not be // checked during read operations. In certain cases (trivial move or preload), // the filter block may already be cached, but we still do not access it such // that it eventually expires from the cache. bool IsFilterSkipped(int level, bool is_file_last_in_level = false); // The helper function of UpdateAccumulatedStats, which may fill the missing // fields of file_meta from its associated TableProperties. // Returns true if it does initialize FileMetaData. bool MaybeInitializeFileMetaData(FileMetaData* file_meta); // Update the accumulated stats associated with the current version. // This accumulated stats will be used in compaction. void UpdateAccumulatedStats(bool update_stats); // Sort all files for this version based on their file size and // record results in files_by_compaction_pri_. The largest files are listed // first. void UpdateFilesByCompactionPri(); ColumnFamilyData* cfd_; // ColumnFamilyData to which this Version belongs Logger* info_log_; Statistics* db_statistics_; TableCache* table_cache_; const MergeOperator* merge_operator_; VersionStorageInfo storage_info_; VersionSet* vset_; // VersionSet to which this Version belongs Version* next_; // Next version in linked list Version* prev_; // Previous version in linked list int refs_; // Number of live refs to this version const EnvOptions env_options_; const MutableCFOptions mutable_cf_options_; // A version number that uniquely represents this version. This is // used for debugging and logging purposes only. uint64_t version_number_; Version(ColumnFamilyData* cfd, VersionSet* vset, const EnvOptions& env_opt, MutableCFOptions mutable_cf_options, uint64_t version_number = 0); ~Version(); // No copying allowed Version(const Version&); void operator=(const Version&); }; struct ObsoleteFileInfo { FileMetaData* metadata; std::string path; ObsoleteFileInfo() noexcept : metadata(nullptr) {} ObsoleteFileInfo(FileMetaData* f, const std::string& file_path) : metadata(f), path(file_path) {} ObsoleteFileInfo(const ObsoleteFileInfo&) = delete; ObsoleteFileInfo& operator=(const ObsoleteFileInfo&) = delete; ObsoleteFileInfo(ObsoleteFileInfo&& rhs) noexcept : ObsoleteFileInfo() { *this = std::move(rhs); } ObsoleteFileInfo& operator=(ObsoleteFileInfo&& rhs) noexcept { path = std::move(rhs.path); metadata = rhs.metadata; rhs.metadata = nullptr; return *this; } void DeleteMetadata() { delete metadata; metadata = nullptr; } }; namespace { class BaseReferencedVersionBuilder; } class VersionSet { public: VersionSet(const std::string& dbname, const ImmutableDBOptions* db_options, const EnvOptions& env_options, Cache* table_cache, WriteBufferManager* write_buffer_manager, WriteController* write_controller); ~VersionSet(); // Apply *edit to the current version to form a new descriptor that // is both saved to persistent state and installed as the new // current version. Will release *mu while actually writing to the file. // column_family_options has to be set if edit is column family add // REQUIRES: *mu is held on entry. // REQUIRES: no other thread concurrently calls LogAndApply() Status LogAndApply( ColumnFamilyData* column_family_data, const MutableCFOptions& mutable_cf_options, VersionEdit* edit, InstrumentedMutex* mu, Directory* db_directory = nullptr, bool new_descriptor_log = false, const ColumnFamilyOptions* column_family_options = nullptr) { std::vector cfds(1, column_family_data); std::vector mutable_cf_options_list(1, mutable_cf_options); std::vector> edit_lists(1, {edit}); return LogAndApply(cfds, mutable_cf_options_list, edit_lists, mu, db_directory, new_descriptor_log, column_family_options); } // The batch version. If edit_list.size() > 1, caller must ensure that // no edit in the list column family add or drop Status LogAndApply( ColumnFamilyData* column_family_data, const MutableCFOptions& mutable_cf_options, const autovector& edit_list, InstrumentedMutex* mu, Directory* db_directory = nullptr, bool new_descriptor_log = false, const ColumnFamilyOptions* column_family_options = nullptr) { std::vector cfds(1, column_family_data); std::vector mutable_cf_options_list(1, mutable_cf_options); std::vector> edit_lists(1, edit_list); return LogAndApply(cfds, mutable_cf_options_list, edit_lists, mu, db_directory, new_descriptor_log, column_family_options); } // The across-multi-cf batch version. If edit_lists contain more than // 1 version edits, caller must ensure that no edit in the []list is column // family manipulation. Status LogAndApply(const std::vector& cfds, const std::vector& mutable_cf_options, const std::vector>& edit_lists, InstrumentedMutex* mu, Directory* db_directory = nullptr, bool new_descriptor_log = false, const ColumnFamilyOptions* new_cf_options = nullptr); // Recover the last saved descriptor from persistent storage. // If read_only == true, Recover() will not complain if some column families // are not opened Status Recover(const std::vector& column_families, bool read_only = false); // Reads a manifest file and returns a list of column families in // column_families. static Status ListColumnFamilies(std::vector* column_families, const std::string& dbname, Env* env); #ifndef ROCKSDB_LITE // Try to reduce the number of levels. This call is valid when // only one level from the new max level to the old // max level containing files. // The call is static, since number of levels is immutable during // the lifetime of a RocksDB instance. It reduces number of levels // in a DB by applying changes to manifest. // For example, a db currently has 7 levels [0-6], and a call to // to reduce to 5 [0-4] can only be executed when only one level // among [4-6] contains files. static Status ReduceNumberOfLevels(const std::string& dbname, const Options* options, const EnvOptions& env_options, int new_levels); // printf contents (for debugging) Status DumpManifest(Options& options, std::string& manifestFileName, bool verbose, bool hex = false, bool json = false); #endif // ROCKSDB_LITE // Return the current manifest file number uint64_t manifest_file_number() const { return manifest_file_number_; } uint64_t options_file_number() const { return options_file_number_; } uint64_t pending_manifest_file_number() const { return pending_manifest_file_number_; } uint64_t current_next_file_number() const { return next_file_number_.load(); } uint64_t min_log_number_to_keep_2pc() const { return min_log_number_to_keep_2pc_.load(); } // Allocate and return a new file number uint64_t NewFileNumber() { return next_file_number_.fetch_add(1); } // Fetch And Add n new file number uint64_t FetchAddFileNumber(uint64_t n) { return next_file_number_.fetch_add(n); } // Return the last sequence number. uint64_t LastSequence() const { return last_sequence_.load(std::memory_order_acquire); } // Note: memory_order_acquire must be sufficient. uint64_t LastAllocatedSequence() const { return last_allocated_sequence_.load(std::memory_order_seq_cst); } // Note: memory_order_acquire must be sufficient. uint64_t LastPublishedSequence() const { return last_published_sequence_.load(std::memory_order_seq_cst); } // Set the last sequence number to s. void SetLastSequence(uint64_t s) { assert(s >= last_sequence_); // Last visible sequence must always be less than last written seq assert(!db_options_->two_write_queues || s <= last_allocated_sequence_); last_sequence_.store(s, std::memory_order_release); } // Note: memory_order_release must be sufficient void SetLastPublishedSequence(uint64_t s) { assert(s >= last_published_sequence_); last_published_sequence_.store(s, std::memory_order_seq_cst); } // Note: memory_order_release must be sufficient void SetLastAllocatedSequence(uint64_t s) { assert(s >= last_allocated_sequence_); last_allocated_sequence_.store(s, std::memory_order_seq_cst); } // Note: memory_order_release must be sufficient uint64_t FetchAddLastAllocatedSequence(uint64_t s) { return last_allocated_sequence_.fetch_add(s, std::memory_order_seq_cst); } // Mark the specified file number as used. // REQUIRED: this is only called during single-threaded recovery or repair. void MarkFileNumberUsed(uint64_t number); // Mark the specified log number as deleted // REQUIRED: this is only called during single-threaded recovery or repair, or // from ::LogAndApply where the global mutex is held. void MarkMinLogNumberToKeep2PC(uint64_t number); // Return the log file number for the log file that is currently // being compacted, or zero if there is no such log file. uint64_t prev_log_number() const { return prev_log_number_; } // Returns the minimum log number which still has data not flushed to any SST // file. // In non-2PC mode, all the log numbers smaller than this number can be safely // deleted. uint64_t MinLogNumberWithUnflushedData() const { return PreComputeMinLogNumberWithUnflushedData(nullptr); } // Returns the minimum log number which still has data not flushed to any SST // file, except data from `cfd_to_skip`. uint64_t PreComputeMinLogNumberWithUnflushedData( const ColumnFamilyData* cfd_to_skip) const { uint64_t min_log_num = std::numeric_limits::max(); for (auto cfd : *column_family_set_) { if (cfd == cfd_to_skip) { continue; } // It's safe to ignore dropped column families here: // cfd->IsDropped() becomes true after the drop is persisted in MANIFEST. if (min_log_num > cfd->GetLogNumber() && !cfd->IsDropped()) { min_log_num = cfd->GetLogNumber(); } } return min_log_num; } // Create an iterator that reads over the compaction inputs for "*c". // The caller should delete the iterator when no longer needed. InternalIterator* MakeInputIterator( const Compaction* c, RangeDelAggregator* range_del_agg, const EnvOptions& env_options_compactions); // Add all files listed in any live version to *live. void AddLiveFiles(std::vector* live_list); // Return the approximate size of data to be scanned for range [start, end) // in levels [start_level, end_level). If end_level == 0 it will search // through all non-empty levels uint64_t ApproximateSize(Version* v, const Slice& start, const Slice& end, int start_level = 0, int end_level = -1); // Return the size of the current manifest file uint64_t manifest_file_size() const { return manifest_file_size_; } // verify that the files that we started with for a compaction // still exist in the current version and in the same original level. // This ensures that a concurrent compaction did not erroneously // pick the same files to compact. bool VerifyCompactionFileConsistency(Compaction* c); Status GetMetadataForFile(uint64_t number, int* filelevel, FileMetaData** metadata, ColumnFamilyData** cfd); // This function doesn't support leveldb SST filenames void GetLiveFilesMetaData(std::vector *metadata); void GetObsoleteFiles(std::vector* files, std::vector* manifest_filenames, uint64_t min_pending_output); ColumnFamilySet* GetColumnFamilySet() { return column_family_set_.get(); } const EnvOptions& env_options() { return env_options_; } void ChangeEnvOptions(const MutableDBOptions& new_options) { env_options_.writable_file_max_buffer_size = new_options.writable_file_max_buffer_size; } const ImmutableDBOptions* db_options() const { return db_options_; } static uint64_t GetNumLiveVersions(Version* dummy_versions); static uint64_t GetTotalSstFilesSize(Version* dummy_versions); private: struct ManifestWriter; friend class Version; friend class DBImpl; struct LogReporter : public log::Reader::Reporter { Status* status; virtual void Corruption(size_t /*bytes*/, const Status& s) override { if (this->status->ok()) *this->status = s; } }; // ApproximateSize helper uint64_t ApproximateSizeLevel0(Version* v, const LevelFilesBrief& files_brief, const Slice& start, const Slice& end); uint64_t ApproximateSize(Version* v, const FdWithKeyRange& f, const Slice& key); // Save current contents to *log Status WriteSnapshot(log::Writer* log); void AppendVersion(ColumnFamilyData* column_family_data, Version* v); ColumnFamilyData* CreateColumnFamily(const ColumnFamilyOptions& cf_options, VersionEdit* edit); Status ApplyOneVersionEdit( VersionEdit& edit, const std::unordered_map& name_to_opts, std::unordered_map& column_families_not_found, std::unordered_map& builders, bool* have_log_number, uint64_t* log_number, bool* have_prev_log_number, uint64_t* previous_log_number, bool* have_next_file, uint64_t* next_file, bool* have_last_sequence, SequenceNumber* last_sequence, uint64_t* min_log_number_to_keep, uint32_t* max_column_family); Status ProcessManifestWrites(std::deque& writers, InstrumentedMutex* mu, Directory* db_directory, bool new_descriptor_log, const ColumnFamilyOptions* new_cf_options); std::unique_ptr column_family_set_; Env* const env_; const std::string dbname_; const ImmutableDBOptions* const db_options_; std::atomic next_file_number_; // Any log number equal or lower than this should be ignored during recovery, // and is qualified for being deleted in 2PC mode. In non-2PC mode, this // number is ignored. std::atomic min_log_number_to_keep_2pc_ = {0}; uint64_t manifest_file_number_; uint64_t options_file_number_; uint64_t pending_manifest_file_number_; // The last seq visible to reads. It normally indicates the last sequence in // the memtable but when using two write queues it could also indicate the // last sequence in the WAL visible to reads. std::atomic last_sequence_; // The last seq that is already allocated. It is applicable only when we have // two write queues. In that case seq might or might not have appreated in // memtable but it is expected to appear in the WAL. // We have last_sequence <= last_allocated_sequence_ std::atomic last_allocated_sequence_; // The last allocated sequence that is also published to the readers. This is // applicable only when last_seq_same_as_publish_seq_ is not set. Otherwise // last_sequence_ also indicates the last published seq. // We have last_sequence <= last_published_sequence_ <= // last_allocated_sequence_ std::atomic last_published_sequence_; uint64_t prev_log_number_; // 0 or backing store for memtable being compacted // Opened lazily unique_ptr descriptor_log_; // generates a increasing version number for every new version uint64_t current_version_number_; // Queue of writers to the manifest file std::deque manifest_writers_; // Current size of manifest file uint64_t manifest_file_size_; std::vector obsolete_files_; std::vector obsolete_manifests_; // env options for all reads and writes except compactions EnvOptions env_options_; // No copying allowed VersionSet(const VersionSet&); void operator=(const VersionSet&); void LogAndApplyCFHelper(VersionEdit* edit); void LogAndApplyHelper(ColumnFamilyData* cfd, VersionBuilder* b, Version* v, VersionEdit* edit, InstrumentedMutex* mu); }; } // namespace rocksdb rocksdb-5.17.2/db/version_set_test.cc000066400000000000000000000526711337235545400175560ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "db/version_set.h" #include "db/log_writer.h" #include "table/mock_table.h" #include "util/logging.h" #include "util/string_util.h" #include "util/testharness.h" #include "util/testutil.h" namespace rocksdb { class GenerateLevelFilesBriefTest : public testing::Test { public: std::vector files_; LevelFilesBrief file_level_; Arena arena_; GenerateLevelFilesBriefTest() { } ~GenerateLevelFilesBriefTest() { for (size_t i = 0; i < files_.size(); i++) { delete files_[i]; } } void Add(const char* smallest, const char* largest, SequenceNumber smallest_seq = 100, SequenceNumber largest_seq = 100) { FileMetaData* f = new FileMetaData; f->fd = FileDescriptor(files_.size() + 1, 0, 0); f->smallest = InternalKey(smallest, smallest_seq, kTypeValue); f->largest = InternalKey(largest, largest_seq, kTypeValue); files_.push_back(f); } int Compare() { int diff = 0; for (size_t i = 0; i < files_.size(); i++) { if (file_level_.files[i].fd.GetNumber() != files_[i]->fd.GetNumber()) { diff++; } } return diff; } }; TEST_F(GenerateLevelFilesBriefTest, Empty) { DoGenerateLevelFilesBrief(&file_level_, files_, &arena_); ASSERT_EQ(0u, file_level_.num_files); ASSERT_EQ(0, Compare()); } TEST_F(GenerateLevelFilesBriefTest, Single) { Add("p", "q"); DoGenerateLevelFilesBrief(&file_level_, files_, &arena_); ASSERT_EQ(1u, file_level_.num_files); ASSERT_EQ(0, Compare()); } TEST_F(GenerateLevelFilesBriefTest, Multiple) { Add("150", "200"); Add("200", "250"); Add("300", "350"); Add("400", "450"); DoGenerateLevelFilesBrief(&file_level_, files_, &arena_); ASSERT_EQ(4u, file_level_.num_files); ASSERT_EQ(0, Compare()); } class CountingLogger : public Logger { public: CountingLogger() : log_count(0) {} using Logger::Logv; virtual void Logv(const char* /*format*/, va_list /*ap*/) override { log_count++; } int log_count; }; Options GetOptionsWithNumLevels(int num_levels, std::shared_ptr logger) { Options opt; opt.num_levels = num_levels; opt.info_log = logger; return opt; } class VersionStorageInfoTest : public testing::Test { public: const Comparator* ucmp_; InternalKeyComparator icmp_; std::shared_ptr logger_; Options options_; ImmutableCFOptions ioptions_; MutableCFOptions mutable_cf_options_; VersionStorageInfo vstorage_; InternalKey GetInternalKey(const char* ukey, SequenceNumber smallest_seq = 100) { return InternalKey(ukey, smallest_seq, kTypeValue); } VersionStorageInfoTest() : ucmp_(BytewiseComparator()), icmp_(ucmp_), logger_(new CountingLogger()), options_(GetOptionsWithNumLevels(6, logger_)), ioptions_(options_), mutable_cf_options_(options_), vstorage_(&icmp_, ucmp_, 6, kCompactionStyleLevel, nullptr, false) {} ~VersionStorageInfoTest() { for (int i = 0; i < vstorage_.num_levels(); i++) { for (auto* f : vstorage_.LevelFiles(i)) { if (--f->refs == 0) { delete f; } } } } void Add(int level, uint32_t file_number, const char* smallest, const char* largest, uint64_t file_size = 0) { assert(level < vstorage_.num_levels()); FileMetaData* f = new FileMetaData; f->fd = FileDescriptor(file_number, 0, file_size); f->smallest = GetInternalKey(smallest, 0); f->largest = GetInternalKey(largest, 0); f->compensated_file_size = file_size; f->refs = 0; f->num_entries = 0; f->num_deletions = 0; vstorage_.AddFile(level, f); } void Add(int level, uint32_t file_number, const InternalKey& smallest, const InternalKey& largest, uint64_t file_size = 0) { assert(level < vstorage_.num_levels()); FileMetaData* f = new FileMetaData; f->fd = FileDescriptor(file_number, 0, file_size); f->smallest = smallest; f->largest = largest; f->compensated_file_size = file_size; f->refs = 0; f->num_entries = 0; f->num_deletions = 0; vstorage_.AddFile(level, f); } std::string GetOverlappingFiles(int level, const InternalKey& begin, const InternalKey& end) { std::vector inputs; vstorage_.GetOverlappingInputs(level, &begin, &end, &inputs); std::string result; for (size_t i = 0; i < inputs.size(); ++i) { if (i > 0) { result += ","; } AppendNumberTo(&result, inputs[i]->fd.GetNumber()); } return result; } }; TEST_F(VersionStorageInfoTest, MaxBytesForLevelStatic) { ioptions_.level_compaction_dynamic_level_bytes = false; mutable_cf_options_.max_bytes_for_level_base = 10; mutable_cf_options_.max_bytes_for_level_multiplier = 5; Add(4, 100U, "1", "2"); Add(5, 101U, "1", "2"); vstorage_.CalculateBaseBytes(ioptions_, mutable_cf_options_); ASSERT_EQ(vstorage_.MaxBytesForLevel(1), 10U); ASSERT_EQ(vstorage_.MaxBytesForLevel(2), 50U); ASSERT_EQ(vstorage_.MaxBytesForLevel(3), 250U); ASSERT_EQ(vstorage_.MaxBytesForLevel(4), 1250U); ASSERT_EQ(0, logger_->log_count); } TEST_F(VersionStorageInfoTest, MaxBytesForLevelDynamic) { ioptions_.level_compaction_dynamic_level_bytes = true; mutable_cf_options_.max_bytes_for_level_base = 1000; mutable_cf_options_.max_bytes_for_level_multiplier = 5; Add(5, 1U, "1", "2", 500U); vstorage_.CalculateBaseBytes(ioptions_, mutable_cf_options_); ASSERT_EQ(0, logger_->log_count); ASSERT_EQ(vstorage_.base_level(), 5); Add(5, 2U, "3", "4", 550U); vstorage_.CalculateBaseBytes(ioptions_, mutable_cf_options_); ASSERT_EQ(0, logger_->log_count); ASSERT_EQ(vstorage_.MaxBytesForLevel(4), 1000U); ASSERT_EQ(vstorage_.base_level(), 4); Add(4, 3U, "3", "4", 550U); vstorage_.CalculateBaseBytes(ioptions_, mutable_cf_options_); ASSERT_EQ(0, logger_->log_count); ASSERT_EQ(vstorage_.MaxBytesForLevel(4), 1000U); ASSERT_EQ(vstorage_.base_level(), 4); Add(3, 4U, "3", "4", 250U); Add(3, 5U, "5", "7", 300U); vstorage_.CalculateBaseBytes(ioptions_, mutable_cf_options_); ASSERT_EQ(1, logger_->log_count); ASSERT_EQ(vstorage_.MaxBytesForLevel(4), 1005U); ASSERT_EQ(vstorage_.MaxBytesForLevel(3), 1000U); ASSERT_EQ(vstorage_.base_level(), 3); Add(1, 6U, "3", "4", 5U); Add(1, 7U, "8", "9", 5U); logger_->log_count = 0; vstorage_.CalculateBaseBytes(ioptions_, mutable_cf_options_); ASSERT_EQ(1, logger_->log_count); ASSERT_GT(vstorage_.MaxBytesForLevel(4), 1005U); ASSERT_GT(vstorage_.MaxBytesForLevel(3), 1005U); ASSERT_EQ(vstorage_.MaxBytesForLevel(2), 1005U); ASSERT_EQ(vstorage_.MaxBytesForLevel(1), 1000U); ASSERT_EQ(vstorage_.base_level(), 1); } TEST_F(VersionStorageInfoTest, MaxBytesForLevelDynamicLotsOfData) { ioptions_.level_compaction_dynamic_level_bytes = true; mutable_cf_options_.max_bytes_for_level_base = 100; mutable_cf_options_.max_bytes_for_level_multiplier = 2; Add(0, 1U, "1", "2", 50U); Add(1, 2U, "1", "2", 50U); Add(2, 3U, "1", "2", 500U); Add(3, 4U, "1", "2", 500U); Add(4, 5U, "1", "2", 1700U); Add(5, 6U, "1", "2", 500U); vstorage_.CalculateBaseBytes(ioptions_, mutable_cf_options_); ASSERT_EQ(vstorage_.MaxBytesForLevel(4), 800U); ASSERT_EQ(vstorage_.MaxBytesForLevel(3), 400U); ASSERT_EQ(vstorage_.MaxBytesForLevel(2), 200U); ASSERT_EQ(vstorage_.MaxBytesForLevel(1), 100U); ASSERT_EQ(vstorage_.base_level(), 1); ASSERT_EQ(0, logger_->log_count); } TEST_F(VersionStorageInfoTest, MaxBytesForLevelDynamicLargeLevel) { uint64_t kOneGB = 1000U * 1000U * 1000U; ioptions_.level_compaction_dynamic_level_bytes = true; mutable_cf_options_.max_bytes_for_level_base = 10U * kOneGB; mutable_cf_options_.max_bytes_for_level_multiplier = 10; Add(0, 1U, "1", "2", 50U); Add(3, 4U, "1", "2", 32U * kOneGB); Add(4, 5U, "1", "2", 500U * kOneGB); Add(5, 6U, "1", "2", 3000U * kOneGB); vstorage_.CalculateBaseBytes(ioptions_, mutable_cf_options_); ASSERT_EQ(vstorage_.MaxBytesForLevel(5), 3000U * kOneGB); ASSERT_EQ(vstorage_.MaxBytesForLevel(4), 300U * kOneGB); ASSERT_EQ(vstorage_.MaxBytesForLevel(3), 30U * kOneGB); ASSERT_EQ(vstorage_.MaxBytesForLevel(2), 10U * kOneGB); ASSERT_EQ(vstorage_.base_level(), 2); ASSERT_EQ(0, logger_->log_count); } TEST_F(VersionStorageInfoTest, EstimateLiveDataSize) { // Test whether the overlaps are detected as expected Add(1, 1U, "4", "7", 1U); // Perfect overlap with last level Add(2, 2U, "3", "5", 1U); // Partial overlap with last level Add(2, 3U, "6", "8", 1U); // Partial overlap with last level Add(3, 4U, "1", "9", 1U); // Contains range of last level Add(4, 5U, "4", "5", 1U); // Inside range of last level Add(4, 5U, "6", "7", 1U); // Inside range of last level Add(5, 6U, "4", "7", 10U); ASSERT_EQ(10U, vstorage_.EstimateLiveDataSize()); } TEST_F(VersionStorageInfoTest, EstimateLiveDataSize2) { Add(0, 1U, "9", "9", 1U); // Level 0 is not ordered Add(0, 1U, "5", "6", 1U); // Ignored because of [5,6] in l1 Add(1, 1U, "1", "2", 1U); // Ignored because of [2,3] in l2 Add(1, 2U, "3", "4", 1U); // Ignored because of [2,3] in l2 Add(1, 3U, "5", "6", 1U); Add(2, 4U, "2", "3", 1U); Add(3, 5U, "7", "8", 1U); ASSERT_EQ(4U, vstorage_.EstimateLiveDataSize()); } TEST_F(VersionStorageInfoTest, GetOverlappingInputs) { // Two files that overlap at the range deletion tombstone sentinel. Add(1, 1U, {"a", 0, kTypeValue}, {"b", kMaxSequenceNumber, kTypeRangeDeletion}, 1); Add(1, 2U, {"b", 0, kTypeValue}, {"c", 0, kTypeValue}, 1); // Two files that overlap at the same user key. Add(1, 3U, {"d", 0, kTypeValue}, {"e", kMaxSequenceNumber, kTypeValue}, 1); Add(1, 4U, {"e", 0, kTypeValue}, {"f", 0, kTypeValue}, 1); // Two files that do not overlap. Add(1, 5U, {"g", 0, kTypeValue}, {"h", 0, kTypeValue}, 1); Add(1, 6U, {"i", 0, kTypeValue}, {"j", 0, kTypeValue}, 1); vstorage_.UpdateNumNonEmptyLevels(); vstorage_.GenerateLevelFilesBrief(); ASSERT_EQ("1,2", GetOverlappingFiles( 1, {"a", 0, kTypeValue}, {"b", 0, kTypeValue})); ASSERT_EQ("1", GetOverlappingFiles( 1, {"a", 0, kTypeValue}, {"b", kMaxSequenceNumber, kTypeRangeDeletion})); ASSERT_EQ("2", GetOverlappingFiles( 1, {"b", kMaxSequenceNumber, kTypeValue}, {"c", 0, kTypeValue})); ASSERT_EQ("3,4", GetOverlappingFiles( 1, {"d", 0, kTypeValue}, {"e", 0, kTypeValue})); ASSERT_EQ("3", GetOverlappingFiles( 1, {"d", 0, kTypeValue}, {"e", kMaxSequenceNumber, kTypeRangeDeletion})); ASSERT_EQ("3,4", GetOverlappingFiles( 1, {"e", kMaxSequenceNumber, kTypeValue}, {"f", 0, kTypeValue})); ASSERT_EQ("3,4", GetOverlappingFiles( 1, {"e", 0, kTypeValue}, {"f", 0, kTypeValue})); ASSERT_EQ("5", GetOverlappingFiles( 1, {"g", 0, kTypeValue}, {"h", 0, kTypeValue})); ASSERT_EQ("6", GetOverlappingFiles( 1, {"i", 0, kTypeValue}, {"j", 0, kTypeValue})); } class FindLevelFileTest : public testing::Test { public: LevelFilesBrief file_level_; bool disjoint_sorted_files_; Arena arena_; FindLevelFileTest() : disjoint_sorted_files_(true) { } ~FindLevelFileTest() { } void LevelFileInit(size_t num = 0) { char* mem = arena_.AllocateAligned(num * sizeof(FdWithKeyRange)); file_level_.files = new (mem)FdWithKeyRange[num]; file_level_.num_files = 0; } void Add(const char* smallest, const char* largest, SequenceNumber smallest_seq = 100, SequenceNumber largest_seq = 100) { InternalKey smallest_key = InternalKey(smallest, smallest_seq, kTypeValue); InternalKey largest_key = InternalKey(largest, largest_seq, kTypeValue); Slice smallest_slice = smallest_key.Encode(); Slice largest_slice = largest_key.Encode(); char* mem = arena_.AllocateAligned( smallest_slice.size() + largest_slice.size()); memcpy(mem, smallest_slice.data(), smallest_slice.size()); memcpy(mem + smallest_slice.size(), largest_slice.data(), largest_slice.size()); // add to file_level_ size_t num = file_level_.num_files; auto& file = file_level_.files[num]; file.fd = FileDescriptor(num + 1, 0, 0); file.smallest_key = Slice(mem, smallest_slice.size()); file.largest_key = Slice(mem + smallest_slice.size(), largest_slice.size()); file_level_.num_files++; } int Find(const char* key) { InternalKey target(key, 100, kTypeValue); InternalKeyComparator cmp(BytewiseComparator()); return FindFile(cmp, file_level_, target.Encode()); } bool Overlaps(const char* smallest, const char* largest) { InternalKeyComparator cmp(BytewiseComparator()); Slice s(smallest != nullptr ? smallest : ""); Slice l(largest != nullptr ? largest : ""); return SomeFileOverlapsRange(cmp, disjoint_sorted_files_, file_level_, (smallest != nullptr ? &s : nullptr), (largest != nullptr ? &l : nullptr)); } }; TEST_F(FindLevelFileTest, LevelEmpty) { LevelFileInit(0); ASSERT_EQ(0, Find("foo")); ASSERT_TRUE(! Overlaps("a", "z")); ASSERT_TRUE(! Overlaps(nullptr, "z")); ASSERT_TRUE(! Overlaps("a", nullptr)); ASSERT_TRUE(! Overlaps(nullptr, nullptr)); } TEST_F(FindLevelFileTest, LevelSingle) { LevelFileInit(1); Add("p", "q"); ASSERT_EQ(0, Find("a")); ASSERT_EQ(0, Find("p")); ASSERT_EQ(0, Find("p1")); ASSERT_EQ(0, Find("q")); ASSERT_EQ(1, Find("q1")); ASSERT_EQ(1, Find("z")); ASSERT_TRUE(! Overlaps("a", "b")); ASSERT_TRUE(! Overlaps("z1", "z2")); ASSERT_TRUE(Overlaps("a", "p")); ASSERT_TRUE(Overlaps("a", "q")); ASSERT_TRUE(Overlaps("a", "z")); ASSERT_TRUE(Overlaps("p", "p1")); ASSERT_TRUE(Overlaps("p", "q")); ASSERT_TRUE(Overlaps("p", "z")); ASSERT_TRUE(Overlaps("p1", "p2")); ASSERT_TRUE(Overlaps("p1", "z")); ASSERT_TRUE(Overlaps("q", "q")); ASSERT_TRUE(Overlaps("q", "q1")); ASSERT_TRUE(! Overlaps(nullptr, "j")); ASSERT_TRUE(! Overlaps("r", nullptr)); ASSERT_TRUE(Overlaps(nullptr, "p")); ASSERT_TRUE(Overlaps(nullptr, "p1")); ASSERT_TRUE(Overlaps("q", nullptr)); ASSERT_TRUE(Overlaps(nullptr, nullptr)); } TEST_F(FindLevelFileTest, LevelMultiple) { LevelFileInit(4); Add("150", "200"); Add("200", "250"); Add("300", "350"); Add("400", "450"); ASSERT_EQ(0, Find("100")); ASSERT_EQ(0, Find("150")); ASSERT_EQ(0, Find("151")); ASSERT_EQ(0, Find("199")); ASSERT_EQ(0, Find("200")); ASSERT_EQ(1, Find("201")); ASSERT_EQ(1, Find("249")); ASSERT_EQ(1, Find("250")); ASSERT_EQ(2, Find("251")); ASSERT_EQ(2, Find("299")); ASSERT_EQ(2, Find("300")); ASSERT_EQ(2, Find("349")); ASSERT_EQ(2, Find("350")); ASSERT_EQ(3, Find("351")); ASSERT_EQ(3, Find("400")); ASSERT_EQ(3, Find("450")); ASSERT_EQ(4, Find("451")); ASSERT_TRUE(! Overlaps("100", "149")); ASSERT_TRUE(! Overlaps("251", "299")); ASSERT_TRUE(! Overlaps("451", "500")); ASSERT_TRUE(! Overlaps("351", "399")); ASSERT_TRUE(Overlaps("100", "150")); ASSERT_TRUE(Overlaps("100", "200")); ASSERT_TRUE(Overlaps("100", "300")); ASSERT_TRUE(Overlaps("100", "400")); ASSERT_TRUE(Overlaps("100", "500")); ASSERT_TRUE(Overlaps("375", "400")); ASSERT_TRUE(Overlaps("450", "450")); ASSERT_TRUE(Overlaps("450", "500")); } TEST_F(FindLevelFileTest, LevelMultipleNullBoundaries) { LevelFileInit(4); Add("150", "200"); Add("200", "250"); Add("300", "350"); Add("400", "450"); ASSERT_TRUE(! Overlaps(nullptr, "149")); ASSERT_TRUE(! Overlaps("451", nullptr)); ASSERT_TRUE(Overlaps(nullptr, nullptr)); ASSERT_TRUE(Overlaps(nullptr, "150")); ASSERT_TRUE(Overlaps(nullptr, "199")); ASSERT_TRUE(Overlaps(nullptr, "200")); ASSERT_TRUE(Overlaps(nullptr, "201")); ASSERT_TRUE(Overlaps(nullptr, "400")); ASSERT_TRUE(Overlaps(nullptr, "800")); ASSERT_TRUE(Overlaps("100", nullptr)); ASSERT_TRUE(Overlaps("200", nullptr)); ASSERT_TRUE(Overlaps("449", nullptr)); ASSERT_TRUE(Overlaps("450", nullptr)); } TEST_F(FindLevelFileTest, LevelOverlapSequenceChecks) { LevelFileInit(1); Add("200", "200", 5000, 3000); ASSERT_TRUE(! Overlaps("199", "199")); ASSERT_TRUE(! Overlaps("201", "300")); ASSERT_TRUE(Overlaps("200", "200")); ASSERT_TRUE(Overlaps("190", "200")); ASSERT_TRUE(Overlaps("200", "210")); } TEST_F(FindLevelFileTest, LevelOverlappingFiles) { LevelFileInit(2); Add("150", "600"); Add("400", "500"); disjoint_sorted_files_ = false; ASSERT_TRUE(! Overlaps("100", "149")); ASSERT_TRUE(! Overlaps("601", "700")); ASSERT_TRUE(Overlaps("100", "150")); ASSERT_TRUE(Overlaps("100", "200")); ASSERT_TRUE(Overlaps("100", "300")); ASSERT_TRUE(Overlaps("100", "400")); ASSERT_TRUE(Overlaps("100", "500")); ASSERT_TRUE(Overlaps("375", "400")); ASSERT_TRUE(Overlaps("450", "450")); ASSERT_TRUE(Overlaps("450", "500")); ASSERT_TRUE(Overlaps("450", "700")); ASSERT_TRUE(Overlaps("600", "700")); } class ManifestWriterTest : public testing::Test { public: ManifestWriterTest() : env_(Env::Default()), dbname_(test::PerThreadDBPath("version_set_test")), db_options_(), mutable_cf_options_(cf_options_), table_cache_(NewLRUCache(50000, 16)), write_buffer_manager_(db_options_.db_write_buffer_size), versions_(new VersionSet(dbname_, &db_options_, env_options_, table_cache_.get(), &write_buffer_manager_, &write_controller_)), shutting_down_(false), mock_table_factory_(std::make_shared()) { EXPECT_OK(env_->CreateDirIfMissing(dbname_)); db_options_.db_paths.emplace_back(dbname_, std::numeric_limits::max()); } // Create DB with 3 column families. void NewDB() { VersionEdit new_db; new_db.SetLogNumber(0); new_db.SetNextFile(2); new_db.SetLastSequence(0); const std::vector cf_names = {kDefaultColumnFamilyName, "alice", "bob"}; const int kInitialNumOfCfs = static_cast(cf_names.size()); autovector new_cfs; uint64_t last_seq = 1; uint32_t cf_id = 1; for (int i = 1; i != kInitialNumOfCfs; ++i) { VersionEdit new_cf; new_cf.AddColumnFamily(cf_names[i]); new_cf.SetColumnFamily(cf_id++); new_cf.SetLogNumber(0); new_cf.SetNextFile(2); new_cf.SetLastSequence(last_seq++); new_cfs.emplace_back(new_cf); } const std::string manifest = DescriptorFileName(dbname_, 1); unique_ptr file; Status s = env_->NewWritableFile( manifest, &file, env_->OptimizeForManifestWrite(env_options_)); ASSERT_OK(s); unique_ptr file_writer( new WritableFileWriter(std::move(file), manifest, env_options_)); { log::Writer log(std::move(file_writer), 0, false); std::string record; new_db.EncodeTo(&record); s = log.AddRecord(record); for (const auto& e : new_cfs) { e.EncodeTo(&record); s = log.AddRecord(record); ASSERT_OK(s); } } ASSERT_OK(s); // Make "CURRENT" file point to the new manifest file. s = SetCurrentFile(env_, dbname_, 1, nullptr); std::vector column_families; cf_options_.table_factory = mock_table_factory_; for (const auto& cf_name : cf_names) { column_families.emplace_back(cf_name, cf_options_); } EXPECT_OK(versions_->Recover(column_families, false)); EXPECT_EQ(kInitialNumOfCfs, versions_->GetColumnFamilySet()->NumberOfColumnFamilies()); for (auto cfd : *versions_->GetColumnFamilySet()) { cfds_.emplace_back(cfd); } } Env* env_; const std::string dbname_; EnvOptions env_options_; ImmutableDBOptions db_options_; ColumnFamilyOptions cf_options_; MutableCFOptions mutable_cf_options_; std::shared_ptr table_cache_; WriteController write_controller_; WriteBufferManager write_buffer_manager_; std::unique_ptr versions_; InstrumentedMutex mutex_; std::atomic shutting_down_; std::shared_ptr mock_table_factory_; std::vector cfds_; }; TEST_F(ManifestWriterTest, SameColumnFamilyGroupCommit) { NewDB(); const int kGroupSize = 5; std::vector edits(kGroupSize); std::vector cfds(kGroupSize, cfds_[0]); std::vector all_mutable_cf_options(kGroupSize, mutable_cf_options_); std::vector> edit_lists(kGroupSize); for (int i = 0; i != kGroupSize; ++i) { edit_lists[i].emplace_back(&edits[i]); } int count = 0; SyncPoint::GetInstance()->SetCallBack( "VersionSet::ProcessManifestWrites:SameColumnFamily", [&](void* arg) { uint32_t* cf_id = reinterpret_cast(arg); EXPECT_EQ(0, *cf_id); ++count; }); SyncPoint::GetInstance()->EnableProcessing(); mutex_.Lock(); Status s = versions_->LogAndApply(cfds, all_mutable_cf_options, edit_lists, &mutex_); mutex_.Unlock(); EXPECT_OK(s); EXPECT_EQ(kGroupSize - 1, count); } } // namespace rocksdb int main(int argc, char** argv) { ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/db/wal_manager.cc000066400000000000000000000403641337235545400164300ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "db/wal_manager.h" #ifndef __STDC_FORMAT_MACROS #define __STDC_FORMAT_MACROS #endif #include #include #include #include #include "db/log_reader.h" #include "db/log_writer.h" #include "db/transaction_log_impl.h" #include "db/write_batch_internal.h" #include "port/port.h" #include "rocksdb/env.h" #include "rocksdb/options.h" #include "rocksdb/write_batch.h" #include "util/cast_util.h" #include "util/coding.h" #include "util/file_reader_writer.h" #include "util/filename.h" #include "util/logging.h" #include "util/mutexlock.h" #include "util/string_util.h" #include "util/sync_point.h" namespace rocksdb { #ifndef ROCKSDB_LITE Status WalManager::DeleteFile(const std::string& fname, uint64_t number) { auto s = env_->DeleteFile(db_options_.wal_dir + "/" + fname); if (s.ok()) { MutexLock l(&read_first_record_cache_mutex_); read_first_record_cache_.erase(number); } return s; } Status WalManager::GetSortedWalFiles(VectorLogPtr& files) { // First get sorted files in db dir, then get sorted files from archived // dir, to avoid a race condition where a log file is moved to archived // dir in between. Status s; // list wal files in main db dir. VectorLogPtr logs; s = GetSortedWalsOfType(db_options_.wal_dir, logs, kAliveLogFile); if (!s.ok()) { return s; } // Reproduce the race condition where a log file is moved // to archived dir, between these two sync points, used in // (DBTest,TransactionLogIteratorRace) TEST_SYNC_POINT("WalManager::GetSortedWalFiles:1"); TEST_SYNC_POINT("WalManager::GetSortedWalFiles:2"); files.clear(); // list wal files in archive dir. std::string archivedir = ArchivalDirectory(db_options_.wal_dir); Status exists = env_->FileExists(archivedir); if (exists.ok()) { s = GetSortedWalsOfType(archivedir, files, kArchivedLogFile); if (!s.ok()) { return s; } } else if (!exists.IsNotFound()) { assert(s.IsIOError()); return s; } uint64_t latest_archived_log_number = 0; if (!files.empty()) { latest_archived_log_number = files.back()->LogNumber(); ROCKS_LOG_INFO(db_options_.info_log, "Latest Archived log: %" PRIu64, latest_archived_log_number); } files.reserve(files.size() + logs.size()); for (auto& log : logs) { if (log->LogNumber() > latest_archived_log_number) { files.push_back(std::move(log)); } else { // When the race condition happens, we could see the // same log in both db dir and archived dir. Simply // ignore the one in db dir. Note that, if we read // archived dir first, we would have missed the log file. ROCKS_LOG_WARN(db_options_.info_log, "%s already moved to archive", log->PathName().c_str()); } } return s; } Status WalManager::GetUpdatesSince( SequenceNumber seq, std::unique_ptr* iter, const TransactionLogIterator::ReadOptions& read_options, VersionSet* version_set) { // Get all sorted Wal Files. // Do binary search and open files and find the seq number. std::unique_ptr wal_files(new VectorLogPtr); Status s = GetSortedWalFiles(*wal_files); if (!s.ok()) { return s; } s = RetainProbableWalFiles(*wal_files, seq); if (!s.ok()) { return s; } iter->reset(new TransactionLogIteratorImpl( db_options_.wal_dir, &db_options_, read_options, env_options_, seq, std::move(wal_files), version_set, seq_per_batch_)); return (*iter)->status(); } // 1. Go through all archived files and // a. if ttl is enabled, delete outdated files // b. if archive size limit is enabled, delete empty files, // compute file number and size. // 2. If size limit is enabled: // a. compute how many files should be deleted // b. get sorted non-empty archived logs // c. delete what should be deleted void WalManager::PurgeObsoleteWALFiles() { bool const ttl_enabled = db_options_.wal_ttl_seconds > 0; bool const size_limit_enabled = db_options_.wal_size_limit_mb > 0; if (!ttl_enabled && !size_limit_enabled) { return; } int64_t current_time; Status s = env_->GetCurrentTime(¤t_time); if (!s.ok()) { ROCKS_LOG_ERROR(db_options_.info_log, "Can't get current time: %s", s.ToString().c_str()); assert(false); return; } uint64_t const now_seconds = static_cast(current_time); uint64_t const time_to_check = (ttl_enabled && !size_limit_enabled) ? db_options_.wal_ttl_seconds / 2 : kDefaultIntervalToDeleteObsoleteWAL; if (purge_wal_files_last_run_ + time_to_check > now_seconds) { return; } purge_wal_files_last_run_ = now_seconds; std::string archival_dir = ArchivalDirectory(db_options_.wal_dir); std::vector files; s = env_->GetChildren(archival_dir, &files); if (!s.ok()) { ROCKS_LOG_ERROR(db_options_.info_log, "Can't get archive files: %s", s.ToString().c_str()); assert(false); return; } size_t log_files_num = 0; uint64_t log_file_size = 0; for (auto& f : files) { uint64_t number; FileType type; if (ParseFileName(f, &number, &type) && type == kLogFile) { std::string const file_path = archival_dir + "/" + f; if (ttl_enabled) { uint64_t file_m_time; s = env_->GetFileModificationTime(file_path, &file_m_time); if (!s.ok()) { ROCKS_LOG_WARN(db_options_.info_log, "Can't get file mod time: %s: %s", file_path.c_str(), s.ToString().c_str()); continue; } if (now_seconds - file_m_time > db_options_.wal_ttl_seconds) { s = env_->DeleteFile(file_path); if (!s.ok()) { ROCKS_LOG_WARN(db_options_.info_log, "Can't delete file: %s: %s", file_path.c_str(), s.ToString().c_str()); continue; } else { MutexLock l(&read_first_record_cache_mutex_); read_first_record_cache_.erase(number); } continue; } } if (size_limit_enabled) { uint64_t file_size; s = env_->GetFileSize(file_path, &file_size); if (!s.ok()) { ROCKS_LOG_ERROR(db_options_.info_log, "Unable to get file size: %s: %s", file_path.c_str(), s.ToString().c_str()); return; } else { if (file_size > 0) { log_file_size = std::max(log_file_size, file_size); ++log_files_num; } else { s = env_->DeleteFile(file_path); if (!s.ok()) { ROCKS_LOG_WARN(db_options_.info_log, "Unable to delete file: %s: %s", file_path.c_str(), s.ToString().c_str()); continue; } else { MutexLock l(&read_first_record_cache_mutex_); read_first_record_cache_.erase(number); } } } } } } if (0 == log_files_num || !size_limit_enabled) { return; } size_t const files_keep_num = static_cast(db_options_.wal_size_limit_mb * 1024 * 1024 / log_file_size); if (log_files_num <= files_keep_num) { return; } size_t files_del_num = log_files_num - files_keep_num; VectorLogPtr archived_logs; GetSortedWalsOfType(archival_dir, archived_logs, kArchivedLogFile); if (files_del_num > archived_logs.size()) { ROCKS_LOG_WARN(db_options_.info_log, "Trying to delete more archived log files than " "exist. Deleting all"); files_del_num = archived_logs.size(); } for (size_t i = 0; i < files_del_num; ++i) { std::string const file_path = archived_logs[i]->PathName(); s = env_->DeleteFile(db_options_.wal_dir + "/" + file_path); if (!s.ok()) { ROCKS_LOG_WARN(db_options_.info_log, "Unable to delete file: %s: %s", file_path.c_str(), s.ToString().c_str()); continue; } else { MutexLock l(&read_first_record_cache_mutex_); read_first_record_cache_.erase(archived_logs[i]->LogNumber()); } } } void WalManager::ArchiveWALFile(const std::string& fname, uint64_t number) { auto archived_log_name = ArchivedLogFileName(db_options_.wal_dir, number); // The sync point below is used in (DBTest,TransactionLogIteratorRace) TEST_SYNC_POINT("WalManager::PurgeObsoleteFiles:1"); Status s = env_->RenameFile(fname, archived_log_name); // The sync point below is used in (DBTest,TransactionLogIteratorRace) TEST_SYNC_POINT("WalManager::PurgeObsoleteFiles:2"); ROCKS_LOG_INFO(db_options_.info_log, "Move log file %s to %s -- %s\n", fname.c_str(), archived_log_name.c_str(), s.ToString().c_str()); } namespace { struct CompareLogByPointer { bool operator()(const std::unique_ptr& a, const std::unique_ptr& b) { LogFileImpl* a_impl = static_cast_with_check(a.get()); LogFileImpl* b_impl = static_cast_with_check(b.get()); return *a_impl < *b_impl; } }; } Status WalManager::GetSortedWalsOfType(const std::string& path, VectorLogPtr& log_files, WalFileType log_type) { std::vector all_files; const Status status = env_->GetChildren(path, &all_files); if (!status.ok()) { return status; } log_files.reserve(all_files.size()); for (const auto& f : all_files) { uint64_t number; FileType type; if (ParseFileName(f, &number, &type) && type == kLogFile) { SequenceNumber sequence; Status s = ReadFirstRecord(log_type, number, &sequence); if (!s.ok()) { return s; } if (sequence == 0) { // empty file continue; } // Reproduce the race condition where a log file is moved // to archived dir, between these two sync points, used in // (DBTest,TransactionLogIteratorRace) TEST_SYNC_POINT("WalManager::GetSortedWalsOfType:1"); TEST_SYNC_POINT("WalManager::GetSortedWalsOfType:2"); uint64_t size_bytes; s = env_->GetFileSize(LogFileName(path, number), &size_bytes); // re-try in case the alive log file has been moved to archive. std::string archived_file = ArchivedLogFileName(path, number); if (!s.ok() && log_type == kAliveLogFile && env_->FileExists(archived_file).ok()) { s = env_->GetFileSize(archived_file, &size_bytes); if (!s.ok() && env_->FileExists(archived_file).IsNotFound()) { // oops, the file just got deleted from archived dir! move on s = Status::OK(); continue; } } if (!s.ok()) { return s; } log_files.push_back(std::unique_ptr( new LogFileImpl(number, log_type, sequence, size_bytes))); } } CompareLogByPointer compare_log_files; std::sort(log_files.begin(), log_files.end(), compare_log_files); return status; } Status WalManager::RetainProbableWalFiles(VectorLogPtr& all_logs, const SequenceNumber target) { int64_t start = 0; // signed to avoid overflow when target is < first file. int64_t end = static_cast(all_logs.size()) - 1; // Binary Search. avoid opening all files. while (end >= start) { int64_t mid = start + (end - start) / 2; // Avoid overflow. SequenceNumber current_seq_num = all_logs.at(static_cast(mid))->StartSequence(); if (current_seq_num == target) { end = mid; break; } else if (current_seq_num < target) { start = mid + 1; } else { end = mid - 1; } } // end could be -ve. size_t start_index = static_cast(std::max(static_cast(0), end)); // The last wal file is always included all_logs.erase(all_logs.begin(), all_logs.begin() + start_index); return Status::OK(); } Status WalManager::ReadFirstRecord(const WalFileType type, const uint64_t number, SequenceNumber* sequence) { *sequence = 0; if (type != kAliveLogFile && type != kArchivedLogFile) { ROCKS_LOG_ERROR(db_options_.info_log, "[WalManger] Unknown file type %s", ToString(type).c_str()); return Status::NotSupported( "File Type Not Known " + ToString(type)); } { MutexLock l(&read_first_record_cache_mutex_); auto itr = read_first_record_cache_.find(number); if (itr != read_first_record_cache_.end()) { *sequence = itr->second; return Status::OK(); } } Status s; if (type == kAliveLogFile) { std::string fname = LogFileName(db_options_.wal_dir, number); s = ReadFirstLine(fname, number, sequence); if (env_->FileExists(fname).ok() && !s.ok()) { // return any error that is not caused by non-existing file return s; } } if (type == kArchivedLogFile || !s.ok()) { // check if the file got moved to archive. std::string archived_file = ArchivedLogFileName(db_options_.wal_dir, number); s = ReadFirstLine(archived_file, number, sequence); // maybe the file was deleted from archive dir. If that's the case, return // Status::OK(). The caller with identify this as empty file because // *sequence == 0 if (!s.ok() && env_->FileExists(archived_file).IsNotFound()) { return Status::OK(); } } if (s.ok() && *sequence != 0) { MutexLock l(&read_first_record_cache_mutex_); read_first_record_cache_.insert({number, *sequence}); } return s; } // the function returns status.ok() and sequence == 0 if the file exists, but is // empty Status WalManager::ReadFirstLine(const std::string& fname, const uint64_t number, SequenceNumber* sequence) { struct LogReporter : public log::Reader::Reporter { Env* env; Logger* info_log; const char* fname; Status* status; bool ignore_error; // true if db_options_.paranoid_checks==false virtual void Corruption(size_t bytes, const Status& s) override { ROCKS_LOG_WARN(info_log, "[WalManager] %s%s: dropping %d bytes; %s", (this->ignore_error ? "(ignoring error) " : ""), fname, static_cast(bytes), s.ToString().c_str()); if (this->status->ok()) { // only keep the first error *this->status = s; } } }; std::unique_ptr file; Status status = env_->NewSequentialFile( fname, &file, env_->OptimizeForLogRead(env_options_)); unique_ptr file_reader( new SequentialFileReader(std::move(file), fname)); if (!status.ok()) { return status; } LogReporter reporter; reporter.env = env_; reporter.info_log = db_options_.info_log.get(); reporter.fname = fname.c_str(); reporter.status = &status; reporter.ignore_error = !db_options_.paranoid_checks; log::Reader reader(db_options_.info_log, std::move(file_reader), &reporter, true /*checksum*/, number); std::string scratch; Slice record; if (reader.ReadRecord(&record, &scratch) && (status.ok() || !db_options_.paranoid_checks)) { if (record.size() < WriteBatchInternal::kHeader) { reporter.Corruption(record.size(), Status::Corruption("log record too small")); // TODO read record's till the first no corrupt entry? } else { WriteBatch batch; WriteBatchInternal::SetContents(&batch, record); *sequence = WriteBatchInternal::Sequence(&batch); return Status::OK(); } } // ReadRecord returns false on EOF, which means that the log file is empty. we // return status.ok() in that case and set sequence number to 0 *sequence = 0; return status; } #endif // ROCKSDB_LITE } // namespace rocksdb rocksdb-5.17.2/db/wal_manager.h000066400000000000000000000065051337235545400162710ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #include #include #include #include #include #include #include #include #include "db/version_set.h" #include "options/db_options.h" #include "port/port.h" #include "rocksdb/env.h" #include "rocksdb/status.h" #include "rocksdb/transaction_log.h" #include "rocksdb/types.h" namespace rocksdb { #ifndef ROCKSDB_LITE class WalManager { public: WalManager(const ImmutableDBOptions& db_options, const EnvOptions& env_options, const bool seq_per_batch = false) : db_options_(db_options), env_options_(env_options), env_(db_options.env), purge_wal_files_last_run_(0), seq_per_batch_(seq_per_batch) {} Status GetSortedWalFiles(VectorLogPtr& files); Status GetUpdatesSince( SequenceNumber seq_number, std::unique_ptr* iter, const TransactionLogIterator::ReadOptions& read_options, VersionSet* version_set); void PurgeObsoleteWALFiles(); void ArchiveWALFile(const std::string& fname, uint64_t number); Status DeleteFile(const std::string& fname, uint64_t number); Status TEST_ReadFirstRecord(const WalFileType type, const uint64_t number, SequenceNumber* sequence) { return ReadFirstRecord(type, number, sequence); } Status TEST_ReadFirstLine(const std::string& fname, const uint64_t number, SequenceNumber* sequence) { return ReadFirstLine(fname, number, sequence); } private: Status GetSortedWalsOfType(const std::string& path, VectorLogPtr& log_files, WalFileType type); // Requires: all_logs should be sorted with earliest log file first // Retains all log files in all_logs which contain updates with seq no. // Greater Than or Equal to the requested SequenceNumber. Status RetainProbableWalFiles(VectorLogPtr& all_logs, const SequenceNumber target); Status ReadFirstRecord(const WalFileType type, const uint64_t number, SequenceNumber* sequence); Status ReadFirstLine(const std::string& fname, const uint64_t number, SequenceNumber* sequence); // ------- state from DBImpl ------ const ImmutableDBOptions& db_options_; const EnvOptions& env_options_; Env* env_; // ------- WalManager state ------- // cache for ReadFirstRecord() calls std::unordered_map read_first_record_cache_; port::Mutex read_first_record_cache_mutex_; // last time when PurgeObsoleteWALFiles ran. uint64_t purge_wal_files_last_run_; bool seq_per_batch_; // obsolete files will be deleted every this seconds if ttl deletion is // enabled and archive size_limit is disabled. static const uint64_t kDefaultIntervalToDeleteObsoleteWAL = 600; }; #endif // ROCKSDB_LITE } // namespace rocksdb rocksdb-5.17.2/db/wal_manager_test.cc000066400000000000000000000230721337235545400174640ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #ifndef ROCKSDB_LITE #include #include #include "rocksdb/cache.h" #include "rocksdb/write_batch.h" #include "rocksdb/write_buffer_manager.h" #include "db/column_family.h" #include "db/db_impl.h" #include "db/log_writer.h" #include "db/version_set.h" #include "db/wal_manager.h" #include "env/mock_env.h" #include "table/mock_table.h" #include "util/file_reader_writer.h" #include "util/string_util.h" #include "util/testharness.h" #include "util/testutil.h" namespace rocksdb { // TODO(icanadi) mock out VersionSet // TODO(icanadi) move other WalManager-specific tests from db_test here class WalManagerTest : public testing::Test { public: WalManagerTest() : env_(new MockEnv(Env::Default())), dbname_(test::PerThreadDBPath("wal_manager_test")), db_options_(), table_cache_(NewLRUCache(50000, 16)), write_buffer_manager_(db_options_.db_write_buffer_size), current_log_number_(0) { DestroyDB(dbname_, Options()); } void Init() { ASSERT_OK(env_->CreateDirIfMissing(dbname_)); ASSERT_OK(env_->CreateDirIfMissing(ArchivalDirectory(dbname_))); db_options_.db_paths.emplace_back(dbname_, std::numeric_limits::max()); db_options_.wal_dir = dbname_; db_options_.env = env_.get(); versions_.reset(new VersionSet(dbname_, &db_options_, env_options_, table_cache_.get(), &write_buffer_manager_, &write_controller_)); wal_manager_.reset(new WalManager(db_options_, env_options_)); } void Reopen() { wal_manager_.reset(new WalManager(db_options_, env_options_)); } // NOT thread safe void Put(const std::string& key, const std::string& value) { assert(current_log_writer_.get() != nullptr); uint64_t seq = versions_->LastSequence() + 1; WriteBatch batch; batch.Put(key, value); WriteBatchInternal::SetSequence(&batch, seq); current_log_writer_->AddRecord(WriteBatchInternal::Contents(&batch)); versions_->SetLastAllocatedSequence(seq); versions_->SetLastPublishedSequence(seq); versions_->SetLastSequence(seq); } // NOT thread safe void RollTheLog(bool /*archived*/) { current_log_number_++; std::string fname = ArchivedLogFileName(dbname_, current_log_number_); unique_ptr file; ASSERT_OK(env_->NewWritableFile(fname, &file, env_options_)); unique_ptr file_writer( new WritableFileWriter(std::move(file), fname, env_options_)); current_log_writer_.reset(new log::Writer(std::move(file_writer), 0, false)); } void CreateArchiveLogs(int num_logs, int entries_per_log) { for (int i = 1; i <= num_logs; ++i) { RollTheLog(true); for (int k = 0; k < entries_per_log; ++k) { Put(ToString(k), std::string(1024, 'a')); } } } std::unique_ptr OpenTransactionLogIter( const SequenceNumber seq) { unique_ptr iter; Status status = wal_manager_->GetUpdatesSince( seq, &iter, TransactionLogIterator::ReadOptions(), versions_.get()); EXPECT_OK(status); return iter; } std::unique_ptr env_; std::string dbname_; ImmutableDBOptions db_options_; WriteController write_controller_; EnvOptions env_options_; std::shared_ptr table_cache_; WriteBufferManager write_buffer_manager_; std::unique_ptr versions_; std::unique_ptr wal_manager_; std::unique_ptr current_log_writer_; uint64_t current_log_number_; }; TEST_F(WalManagerTest, ReadFirstRecordCache) { Init(); std::string path = dbname_ + "/000001.log"; unique_ptr file; ASSERT_OK(env_->NewWritableFile(path, &file, EnvOptions())); SequenceNumber s; ASSERT_OK(wal_manager_->TEST_ReadFirstLine(path, 1 /* number */, &s)); ASSERT_EQ(s, 0U); ASSERT_OK( wal_manager_->TEST_ReadFirstRecord(kAliveLogFile, 1 /* number */, &s)); ASSERT_EQ(s, 0U); unique_ptr file_writer( new WritableFileWriter(std::move(file), path, EnvOptions())); log::Writer writer(std::move(file_writer), 1, db_options_.recycle_log_file_num > 0); WriteBatch batch; batch.Put("foo", "bar"); WriteBatchInternal::SetSequence(&batch, 10); writer.AddRecord(WriteBatchInternal::Contents(&batch)); // TODO(icanadi) move SpecialEnv outside of db_test, so we can reuse it here. // Waiting for lei to finish with db_test // env_->count_sequential_reads_ = true; // sequential_read_counter_ sanity test // ASSERT_EQ(env_->sequential_read_counter_.Read(), 0); ASSERT_OK(wal_manager_->TEST_ReadFirstRecord(kAliveLogFile, 1, &s)); ASSERT_EQ(s, 10U); // did a read // TODO(icanadi) move SpecialEnv outside of db_test, so we can reuse it here // ASSERT_EQ(env_->sequential_read_counter_.Read(), 1); ASSERT_OK(wal_manager_->TEST_ReadFirstRecord(kAliveLogFile, 1, &s)); ASSERT_EQ(s, 10U); // no new reads since the value is cached // TODO(icanadi) move SpecialEnv outside of db_test, so we can reuse it here // ASSERT_EQ(env_->sequential_read_counter_.Read(), 1); } namespace { uint64_t GetLogDirSize(std::string dir_path, Env* env) { uint64_t dir_size = 0; std::vector files; env->GetChildren(dir_path, &files); for (auto& f : files) { uint64_t number; FileType type; if (ParseFileName(f, &number, &type) && type == kLogFile) { std::string const file_path = dir_path + "/" + f; uint64_t file_size; env->GetFileSize(file_path, &file_size); dir_size += file_size; } } return dir_size; } std::vector ListSpecificFiles( Env* env, const std::string& path, const FileType expected_file_type) { std::vector files; std::vector file_numbers; env->GetChildren(path, &files); uint64_t number; FileType type; for (size_t i = 0; i < files.size(); ++i) { if (ParseFileName(files[i], &number, &type)) { if (type == expected_file_type) { file_numbers.push_back(number); } } } return file_numbers; } int CountRecords(TransactionLogIterator* iter) { int count = 0; SequenceNumber lastSequence = 0; BatchResult res; while (iter->Valid()) { res = iter->GetBatch(); EXPECT_TRUE(res.sequence > lastSequence); ++count; lastSequence = res.sequence; EXPECT_OK(iter->status()); iter->Next(); } return count; } } // namespace TEST_F(WalManagerTest, WALArchivalSizeLimit) { db_options_.wal_ttl_seconds = 0; db_options_.wal_size_limit_mb = 1000; Init(); // TEST : Create WalManager with huge size limit and no ttl. // Create some archived files and call PurgeObsoleteWALFiles(). // Count the archived log files that survived. // Assert that all of them did. // Change size limit. Re-open WalManager. // Assert that archive is not greater than wal_size_limit_mb after // PurgeObsoleteWALFiles() // Set ttl and time_to_check_ to small values. Re-open db. // Assert that there are no archived logs left. std::string archive_dir = ArchivalDirectory(dbname_); CreateArchiveLogs(20, 5000); std::vector log_files = ListSpecificFiles(env_.get(), archive_dir, kLogFile); ASSERT_EQ(log_files.size(), 20U); db_options_.wal_size_limit_mb = 8; Reopen(); wal_manager_->PurgeObsoleteWALFiles(); uint64_t archive_size = GetLogDirSize(archive_dir, env_.get()); ASSERT_TRUE(archive_size <= db_options_.wal_size_limit_mb * 1024 * 1024); db_options_.wal_ttl_seconds = 1; env_->FakeSleepForMicroseconds(2 * 1000 * 1000); Reopen(); wal_manager_->PurgeObsoleteWALFiles(); log_files = ListSpecificFiles(env_.get(), archive_dir, kLogFile); ASSERT_TRUE(log_files.empty()); } TEST_F(WalManagerTest, WALArchivalTtl) { db_options_.wal_ttl_seconds = 1000; Init(); // TEST : Create WalManager with a ttl and no size limit. // Create some archived log files and call PurgeObsoleteWALFiles(). // Assert that files are not deleted // Reopen db with small ttl. // Assert that all archived logs was removed. std::string archive_dir = ArchivalDirectory(dbname_); CreateArchiveLogs(20, 5000); std::vector log_files = ListSpecificFiles(env_.get(), archive_dir, kLogFile); ASSERT_GT(log_files.size(), 0U); db_options_.wal_ttl_seconds = 1; env_->FakeSleepForMicroseconds(3 * 1000 * 1000); Reopen(); wal_manager_->PurgeObsoleteWALFiles(); log_files = ListSpecificFiles(env_.get(), archive_dir, kLogFile); ASSERT_TRUE(log_files.empty()); } TEST_F(WalManagerTest, TransactionLogIteratorMoveOverZeroFiles) { Init(); RollTheLog(false); Put("key1", std::string(1024, 'a')); // Create a zero record WAL file. RollTheLog(false); RollTheLog(false); Put("key2", std::string(1024, 'a')); auto iter = OpenTransactionLogIter(0); ASSERT_EQ(2, CountRecords(iter.get())); } TEST_F(WalManagerTest, TransactionLogIteratorJustEmptyFile) { Init(); RollTheLog(false); auto iter = OpenTransactionLogIter(0); // Check that an empty iterator is returned ASSERT_TRUE(!iter->Valid()); } } // namespace rocksdb int main(int argc, char** argv) { ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } #else #include int main(int /*argc*/, char** /*argv*/) { fprintf(stderr, "SKIPPED as WalManager is not supported in ROCKSDB_LITE\n"); return 0; } #endif // !ROCKSDB_LITE rocksdb-5.17.2/db/write_batch.cc000066400000000000000000002051261337235545400164450ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. // // WriteBatch::rep_ := // sequence: fixed64 // count: fixed32 // data: record[count] // record := // kTypeValue varstring varstring // kTypeDeletion varstring // kTypeSingleDeletion varstring // kTypeRangeDeletion varstring varstring // kTypeMerge varstring varstring // kTypeColumnFamilyValue varint32 varstring varstring // kTypeColumnFamilyDeletion varint32 varstring // kTypeColumnFamilySingleDeletion varint32 varstring // kTypeColumnFamilyRangeDeletion varint32 varstring varstring // kTypeColumnFamilyMerge varint32 varstring varstring // kTypeBeginPrepareXID varstring // kTypeEndPrepareXID // kTypeCommitXID varstring // kTypeRollbackXID varstring // kTypeBeginPersistedPrepareXID varstring // kTypeBeginUnprepareXID varstring // kTypeNoop // varstring := // len: varint32 // data: uint8[len] #include "rocksdb/write_batch.h" #include #include #include #include #include #include "db/column_family.h" #include "db/db_impl.h" #include "db/dbformat.h" #include "db/flush_scheduler.h" #include "db/memtable.h" #include "db/merge_context.h" #include "db/snapshot_impl.h" #include "db/write_batch_internal.h" #include "monitoring/perf_context_imp.h" #include "monitoring/statistics.h" #include "rocksdb/merge_operator.h" #include "util/coding.h" #include "util/duplicate_detector.h" #include "util/string_util.h" #include "util/util.h" namespace rocksdb { // anon namespace for file-local types namespace { enum ContentFlags : uint32_t { DEFERRED = 1 << 0, HAS_PUT = 1 << 1, HAS_DELETE = 1 << 2, HAS_SINGLE_DELETE = 1 << 3, HAS_MERGE = 1 << 4, HAS_BEGIN_PREPARE = 1 << 5, HAS_END_PREPARE = 1 << 6, HAS_COMMIT = 1 << 7, HAS_ROLLBACK = 1 << 8, HAS_DELETE_RANGE = 1 << 9, HAS_BLOB_INDEX = 1 << 10, HAS_BEGIN_UNPREPARE = 1 << 11, }; struct BatchContentClassifier : public WriteBatch::Handler { uint32_t content_flags = 0; Status PutCF(uint32_t, const Slice&, const Slice&) override { content_flags |= ContentFlags::HAS_PUT; return Status::OK(); } Status DeleteCF(uint32_t, const Slice&) override { content_flags |= ContentFlags::HAS_DELETE; return Status::OK(); } Status SingleDeleteCF(uint32_t, const Slice&) override { content_flags |= ContentFlags::HAS_SINGLE_DELETE; return Status::OK(); } Status DeleteRangeCF(uint32_t, const Slice&, const Slice&) override { content_flags |= ContentFlags::HAS_DELETE_RANGE; return Status::OK(); } Status MergeCF(uint32_t, const Slice&, const Slice&) override { content_flags |= ContentFlags::HAS_MERGE; return Status::OK(); } Status PutBlobIndexCF(uint32_t, const Slice&, const Slice&) override { content_flags |= ContentFlags::HAS_BLOB_INDEX; return Status::OK(); } Status MarkBeginPrepare(bool unprepare) override { content_flags |= ContentFlags::HAS_BEGIN_PREPARE; if (unprepare) { content_flags |= ContentFlags::HAS_BEGIN_UNPREPARE; } return Status::OK(); } Status MarkEndPrepare(const Slice&) override { content_flags |= ContentFlags::HAS_END_PREPARE; return Status::OK(); } Status MarkCommit(const Slice&) override { content_flags |= ContentFlags::HAS_COMMIT; return Status::OK(); } Status MarkRollback(const Slice&) override { content_flags |= ContentFlags::HAS_ROLLBACK; return Status::OK(); } }; } // anon namespace struct SavePoints { std::stack stack; }; WriteBatch::WriteBatch(size_t reserved_bytes, size_t max_bytes) : save_points_(nullptr), content_flags_(0), max_bytes_(max_bytes), rep_() { rep_.reserve((reserved_bytes > WriteBatchInternal::kHeader) ? reserved_bytes : WriteBatchInternal::kHeader); rep_.resize(WriteBatchInternal::kHeader); } WriteBatch::WriteBatch(const std::string& rep) : save_points_(nullptr), content_flags_(ContentFlags::DEFERRED), max_bytes_(0), rep_(rep) {} WriteBatch::WriteBatch(std::string&& rep) : save_points_(nullptr), content_flags_(ContentFlags::DEFERRED), max_bytes_(0), rep_(std::move(rep)) {} WriteBatch::WriteBatch(const WriteBatch& src) : save_points_(src.save_points_), wal_term_point_(src.wal_term_point_), content_flags_(src.content_flags_.load(std::memory_order_relaxed)), max_bytes_(src.max_bytes_), rep_(src.rep_) {} WriteBatch::WriteBatch(WriteBatch&& src) noexcept : save_points_(std::move(src.save_points_)), wal_term_point_(std::move(src.wal_term_point_)), content_flags_(src.content_flags_.load(std::memory_order_relaxed)), max_bytes_(src.max_bytes_), rep_(std::move(src.rep_)) {} WriteBatch& WriteBatch::operator=(const WriteBatch& src) { if (&src != this) { this->~WriteBatch(); new (this) WriteBatch(src); } return *this; } WriteBatch& WriteBatch::operator=(WriteBatch&& src) { if (&src != this) { this->~WriteBatch(); new (this) WriteBatch(std::move(src)); } return *this; } WriteBatch::~WriteBatch() { delete save_points_; } WriteBatch::Handler::~Handler() { } void WriteBatch::Handler::LogData(const Slice& /*blob*/) { // If the user has not specified something to do with blobs, then we ignore // them. } bool WriteBatch::Handler::Continue() { return true; } void WriteBatch::Clear() { rep_.clear(); rep_.resize(WriteBatchInternal::kHeader); content_flags_.store(0, std::memory_order_relaxed); if (save_points_ != nullptr) { while (!save_points_->stack.empty()) { save_points_->stack.pop(); } } wal_term_point_.clear(); } int WriteBatch::Count() const { return WriteBatchInternal::Count(this); } uint32_t WriteBatch::ComputeContentFlags() const { auto rv = content_flags_.load(std::memory_order_relaxed); if ((rv & ContentFlags::DEFERRED) != 0) { BatchContentClassifier classifier; Iterate(&classifier); rv = classifier.content_flags; // this method is conceptually const, because it is performing a lazy // computation that doesn't affect the abstract state of the batch. // content_flags_ is marked mutable so that we can perform the // following assignment content_flags_.store(rv, std::memory_order_relaxed); } return rv; } void WriteBatch::MarkWalTerminationPoint() { wal_term_point_.size = GetDataSize(); wal_term_point_.count = Count(); wal_term_point_.content_flags = content_flags_; } bool WriteBatch::HasPut() const { return (ComputeContentFlags() & ContentFlags::HAS_PUT) != 0; } bool WriteBatch::HasDelete() const { return (ComputeContentFlags() & ContentFlags::HAS_DELETE) != 0; } bool WriteBatch::HasSingleDelete() const { return (ComputeContentFlags() & ContentFlags::HAS_SINGLE_DELETE) != 0; } bool WriteBatch::HasDeleteRange() const { return (ComputeContentFlags() & ContentFlags::HAS_DELETE_RANGE) != 0; } bool WriteBatch::HasMerge() const { return (ComputeContentFlags() & ContentFlags::HAS_MERGE) != 0; } bool ReadKeyFromWriteBatchEntry(Slice* input, Slice* key, bool cf_record) { assert(input != nullptr && key != nullptr); // Skip tag byte input->remove_prefix(1); if (cf_record) { // Skip column_family bytes uint32_t cf; if (!GetVarint32(input, &cf)) { return false; } } // Extract key return GetLengthPrefixedSlice(input, key); } bool WriteBatch::HasBeginPrepare() const { return (ComputeContentFlags() & ContentFlags::HAS_BEGIN_PREPARE) != 0; } bool WriteBatch::HasEndPrepare() const { return (ComputeContentFlags() & ContentFlags::HAS_END_PREPARE) != 0; } bool WriteBatch::HasCommit() const { return (ComputeContentFlags() & ContentFlags::HAS_COMMIT) != 0; } bool WriteBatch::HasRollback() const { return (ComputeContentFlags() & ContentFlags::HAS_ROLLBACK) != 0; } Status ReadRecordFromWriteBatch(Slice* input, char* tag, uint32_t* column_family, Slice* key, Slice* value, Slice* blob, Slice* xid) { assert(key != nullptr && value != nullptr); *tag = (*input)[0]; input->remove_prefix(1); *column_family = 0; // default switch (*tag) { case kTypeColumnFamilyValue: if (!GetVarint32(input, column_family)) { return Status::Corruption("bad WriteBatch Put"); } FALLTHROUGH_INTENDED; case kTypeValue: if (!GetLengthPrefixedSlice(input, key) || !GetLengthPrefixedSlice(input, value)) { return Status::Corruption("bad WriteBatch Put"); } break; case kTypeColumnFamilyDeletion: case kTypeColumnFamilySingleDeletion: if (!GetVarint32(input, column_family)) { return Status::Corruption("bad WriteBatch Delete"); } FALLTHROUGH_INTENDED; case kTypeDeletion: case kTypeSingleDeletion: if (!GetLengthPrefixedSlice(input, key)) { return Status::Corruption("bad WriteBatch Delete"); } break; case kTypeColumnFamilyRangeDeletion: if (!GetVarint32(input, column_family)) { return Status::Corruption("bad WriteBatch DeleteRange"); } FALLTHROUGH_INTENDED; case kTypeRangeDeletion: // for range delete, "key" is begin_key, "value" is end_key if (!GetLengthPrefixedSlice(input, key) || !GetLengthPrefixedSlice(input, value)) { return Status::Corruption("bad WriteBatch DeleteRange"); } break; case kTypeColumnFamilyMerge: if (!GetVarint32(input, column_family)) { return Status::Corruption("bad WriteBatch Merge"); } FALLTHROUGH_INTENDED; case kTypeMerge: if (!GetLengthPrefixedSlice(input, key) || !GetLengthPrefixedSlice(input, value)) { return Status::Corruption("bad WriteBatch Merge"); } break; case kTypeColumnFamilyBlobIndex: if (!GetVarint32(input, column_family)) { return Status::Corruption("bad WriteBatch BlobIndex"); } FALLTHROUGH_INTENDED; case kTypeBlobIndex: if (!GetLengthPrefixedSlice(input, key) || !GetLengthPrefixedSlice(input, value)) { return Status::Corruption("bad WriteBatch BlobIndex"); } break; case kTypeLogData: assert(blob != nullptr); if (!GetLengthPrefixedSlice(input, blob)) { return Status::Corruption("bad WriteBatch Blob"); } break; case kTypeNoop: case kTypeBeginPrepareXID: // This indicates that the prepared batch is also persisted in the db. // This is used in WritePreparedTxn case kTypeBeginPersistedPrepareXID: // This is used in WriteUnpreparedTxn case kTypeBeginUnprepareXID: break; case kTypeEndPrepareXID: if (!GetLengthPrefixedSlice(input, xid)) { return Status::Corruption("bad EndPrepare XID"); } break; case kTypeCommitXID: if (!GetLengthPrefixedSlice(input, xid)) { return Status::Corruption("bad Commit XID"); } break; case kTypeRollbackXID: if (!GetLengthPrefixedSlice(input, xid)) { return Status::Corruption("bad Rollback XID"); } break; default: return Status::Corruption("unknown WriteBatch tag"); } return Status::OK(); } Status WriteBatch::Iterate(Handler* handler) const { Slice input(rep_); if (input.size() < WriteBatchInternal::kHeader) { return Status::Corruption("malformed WriteBatch (too small)"); } input.remove_prefix(WriteBatchInternal::kHeader); Slice key, value, blob, xid; // Sometimes a sub-batch starts with a Noop. We want to exclude such Noops as // the batch boundary symbols otherwise we would mis-count the number of // batches. We do that by checking whether the accumulated batch is empty // before seeing the next Noop. bool empty_batch = true; int found = 0; Status s; char tag = 0; uint32_t column_family = 0; // default bool last_was_try_again = false; while (((s.ok() && !input.empty()) || UNLIKELY(s.IsTryAgain())) && handler->Continue()) { if (LIKELY(!s.IsTryAgain())) { last_was_try_again = false; tag = 0; column_family = 0; // default s = ReadRecordFromWriteBatch(&input, &tag, &column_family, &key, &value, &blob, &xid); if (!s.ok()) { return s; } } else { assert(s.IsTryAgain()); assert(!last_was_try_again); // to detect infinite loop bugs if (UNLIKELY(last_was_try_again)) { return Status::Corruption( "two consecutive TryAgain in WriteBatch handler; this is either a " "software bug or data corruption."); } last_was_try_again = true; s = Status::OK(); } switch (tag) { case kTypeColumnFamilyValue: case kTypeValue: assert(content_flags_.load(std::memory_order_relaxed) & (ContentFlags::DEFERRED | ContentFlags::HAS_PUT)); s = handler->PutCF(column_family, key, value); if (LIKELY(s.ok())) { empty_batch = false; found++; } break; case kTypeColumnFamilyDeletion: case kTypeDeletion: assert(content_flags_.load(std::memory_order_relaxed) & (ContentFlags::DEFERRED | ContentFlags::HAS_DELETE)); s = handler->DeleteCF(column_family, key); if (LIKELY(s.ok())) { empty_batch = false; found++; } break; case kTypeColumnFamilySingleDeletion: case kTypeSingleDeletion: assert(content_flags_.load(std::memory_order_relaxed) & (ContentFlags::DEFERRED | ContentFlags::HAS_SINGLE_DELETE)); s = handler->SingleDeleteCF(column_family, key); if (LIKELY(s.ok())) { empty_batch = false; found++; } break; case kTypeColumnFamilyRangeDeletion: case kTypeRangeDeletion: assert(content_flags_.load(std::memory_order_relaxed) & (ContentFlags::DEFERRED | ContentFlags::HAS_DELETE_RANGE)); s = handler->DeleteRangeCF(column_family, key, value); if (LIKELY(s.ok())) { empty_batch = false; found++; } break; case kTypeColumnFamilyMerge: case kTypeMerge: assert(content_flags_.load(std::memory_order_relaxed) & (ContentFlags::DEFERRED | ContentFlags::HAS_MERGE)); s = handler->MergeCF(column_family, key, value); if (LIKELY(s.ok())) { empty_batch = false; found++; } break; case kTypeColumnFamilyBlobIndex: case kTypeBlobIndex: assert(content_flags_.load(std::memory_order_relaxed) & (ContentFlags::DEFERRED | ContentFlags::HAS_BLOB_INDEX)); s = handler->PutBlobIndexCF(column_family, key, value); if (LIKELY(s.ok())) { found++; } break; case kTypeLogData: handler->LogData(blob); // A batch might have nothing but LogData. It is still a batch. empty_batch = false; break; case kTypeBeginPrepareXID: assert(content_flags_.load(std::memory_order_relaxed) & (ContentFlags::DEFERRED | ContentFlags::HAS_BEGIN_PREPARE)); handler->MarkBeginPrepare(); empty_batch = false; if (!handler->WriteAfterCommit()) { s = Status::NotSupported( "WriteCommitted txn tag when write_after_commit_ is disabled (in " "WritePrepared/WriteUnprepared mode). If it is not due to " "corruption, the WAL must be emptied before changing the " "WritePolicy."); } if (handler->WriteBeforePrepare()) { s = Status::NotSupported( "WriteCommitted txn tag when write_before_prepare_ is enabled " "(in WriteUnprepared mode). If it is not due to corruption, the " "WAL must be emptied before changing the WritePolicy."); } break; case kTypeBeginPersistedPrepareXID: assert(content_flags_.load(std::memory_order_relaxed) & (ContentFlags::DEFERRED | ContentFlags::HAS_BEGIN_PREPARE)); handler->MarkBeginPrepare(); empty_batch = false; if (handler->WriteAfterCommit()) { s = Status::NotSupported( "WritePrepared/WriteUnprepared txn tag when write_after_commit_ " "is enabled (in default WriteCommitted mode). If it is not due " "to corruption, the WAL must be emptied before changing the " "WritePolicy."); } break; case kTypeBeginUnprepareXID: assert(content_flags_.load(std::memory_order_relaxed) & (ContentFlags::DEFERRED | ContentFlags::HAS_BEGIN_UNPREPARE)); handler->MarkBeginPrepare(true /* unprepared */); empty_batch = false; if (handler->WriteAfterCommit()) { s = Status::NotSupported( "WriteUnprepared txn tag when write_after_commit_ is enabled (in " "default WriteCommitted mode). If it is not due to corruption, " "the WAL must be emptied before changing the WritePolicy."); } if (!handler->WriteBeforePrepare()) { s = Status::NotSupported( "WriteUnprepared txn tag when write_before_prepare_ is disabled " "(in WriteCommitted/WritePrepared mode). If it is not due to " "corruption, the WAL must be emptied before changing the " "WritePolicy."); } break; case kTypeEndPrepareXID: assert(content_flags_.load(std::memory_order_relaxed) & (ContentFlags::DEFERRED | ContentFlags::HAS_END_PREPARE)); handler->MarkEndPrepare(xid); empty_batch = true; break; case kTypeCommitXID: assert(content_flags_.load(std::memory_order_relaxed) & (ContentFlags::DEFERRED | ContentFlags::HAS_COMMIT)); handler->MarkCommit(xid); empty_batch = true; break; case kTypeRollbackXID: assert(content_flags_.load(std::memory_order_relaxed) & (ContentFlags::DEFERRED | ContentFlags::HAS_ROLLBACK)); handler->MarkRollback(xid); empty_batch = true; break; case kTypeNoop: handler->MarkNoop(empty_batch); empty_batch = true; break; default: return Status::Corruption("unknown WriteBatch tag"); } } if (!s.ok()) { return s; } if (found != WriteBatchInternal::Count(this)) { return Status::Corruption("WriteBatch has wrong count"); } else { return Status::OK(); } } bool WriteBatchInternal::IsLatestPersistentState(const WriteBatch* b) { return b->is_latest_persistent_state_; } void WriteBatchInternal::SetAsLastestPersistentState(WriteBatch* b) { b->is_latest_persistent_state_ = true; } int WriteBatchInternal::Count(const WriteBatch* b) { return DecodeFixed32(b->rep_.data() + 8); } void WriteBatchInternal::SetCount(WriteBatch* b, int n) { EncodeFixed32(&b->rep_[8], n); } SequenceNumber WriteBatchInternal::Sequence(const WriteBatch* b) { return SequenceNumber(DecodeFixed64(b->rep_.data())); } void WriteBatchInternal::SetSequence(WriteBatch* b, SequenceNumber seq) { EncodeFixed64(&b->rep_[0], seq); } size_t WriteBatchInternal::GetFirstOffset(WriteBatch* /*b*/) { return WriteBatchInternal::kHeader; } Status WriteBatchInternal::Put(WriteBatch* b, uint32_t column_family_id, const Slice& key, const Slice& value) { if (key.size() > size_t{port::kMaxUint32}) { return Status::InvalidArgument("key is too large"); } if (value.size() > size_t{port::kMaxUint32}) { return Status::InvalidArgument("value is too large"); } LocalSavePoint save(b); WriteBatchInternal::SetCount(b, WriteBatchInternal::Count(b) + 1); if (column_family_id == 0) { b->rep_.push_back(static_cast(kTypeValue)); } else { b->rep_.push_back(static_cast(kTypeColumnFamilyValue)); PutVarint32(&b->rep_, column_family_id); } PutLengthPrefixedSlice(&b->rep_, key); PutLengthPrefixedSlice(&b->rep_, value); b->content_flags_.store( b->content_flags_.load(std::memory_order_relaxed) | ContentFlags::HAS_PUT, std::memory_order_relaxed); return save.commit(); } Status WriteBatch::Put(ColumnFamilyHandle* column_family, const Slice& key, const Slice& value) { return WriteBatchInternal::Put(this, GetColumnFamilyID(column_family), key, value); } Status WriteBatchInternal::CheckSlicePartsLength(const SliceParts& key, const SliceParts& value) { size_t total_key_bytes = 0; for (int i = 0; i < key.num_parts; ++i) { total_key_bytes += key.parts[i].size(); } if (total_key_bytes >= size_t{port::kMaxUint32}) { return Status::InvalidArgument("key is too large"); } size_t total_value_bytes = 0; for (int i = 0; i < value.num_parts; ++i) { total_value_bytes += value.parts[i].size(); } if (total_value_bytes >= size_t{port::kMaxUint32}) { return Status::InvalidArgument("value is too large"); } return Status::OK(); } Status WriteBatchInternal::Put(WriteBatch* b, uint32_t column_family_id, const SliceParts& key, const SliceParts& value) { Status s = CheckSlicePartsLength(key, value); if (!s.ok()) { return s; } LocalSavePoint save(b); WriteBatchInternal::SetCount(b, WriteBatchInternal::Count(b) + 1); if (column_family_id == 0) { b->rep_.push_back(static_cast(kTypeValue)); } else { b->rep_.push_back(static_cast(kTypeColumnFamilyValue)); PutVarint32(&b->rep_, column_family_id); } PutLengthPrefixedSliceParts(&b->rep_, key); PutLengthPrefixedSliceParts(&b->rep_, value); b->content_flags_.store( b->content_flags_.load(std::memory_order_relaxed) | ContentFlags::HAS_PUT, std::memory_order_relaxed); return save.commit(); } Status WriteBatch::Put(ColumnFamilyHandle* column_family, const SliceParts& key, const SliceParts& value) { return WriteBatchInternal::Put(this, GetColumnFamilyID(column_family), key, value); } Status WriteBatchInternal::InsertNoop(WriteBatch* b) { b->rep_.push_back(static_cast(kTypeNoop)); return Status::OK(); } Status WriteBatchInternal::MarkEndPrepare(WriteBatch* b, const Slice& xid, bool write_after_commit, bool unprepared_batch) { // a manually constructed batch can only contain one prepare section assert(b->rep_[12] == static_cast(kTypeNoop)); // all savepoints up to this point are cleared if (b->save_points_ != nullptr) { while (!b->save_points_->stack.empty()) { b->save_points_->stack.pop(); } } // rewrite noop as begin marker b->rep_[12] = static_cast( write_after_commit ? kTypeBeginPrepareXID : (unprepared_batch ? kTypeBeginUnprepareXID : kTypeBeginPersistedPrepareXID)); b->rep_.push_back(static_cast(kTypeEndPrepareXID)); PutLengthPrefixedSlice(&b->rep_, xid); b->content_flags_.store(b->content_flags_.load(std::memory_order_relaxed) | ContentFlags::HAS_END_PREPARE | ContentFlags::HAS_BEGIN_PREPARE, std::memory_order_relaxed); if (unprepared_batch) { b->content_flags_.store(b->content_flags_.load(std::memory_order_relaxed) | ContentFlags::HAS_BEGIN_UNPREPARE, std::memory_order_relaxed); } return Status::OK(); } Status WriteBatchInternal::MarkCommit(WriteBatch* b, const Slice& xid) { b->rep_.push_back(static_cast(kTypeCommitXID)); PutLengthPrefixedSlice(&b->rep_, xid); b->content_flags_.store(b->content_flags_.load(std::memory_order_relaxed) | ContentFlags::HAS_COMMIT, std::memory_order_relaxed); return Status::OK(); } Status WriteBatchInternal::MarkRollback(WriteBatch* b, const Slice& xid) { b->rep_.push_back(static_cast(kTypeRollbackXID)); PutLengthPrefixedSlice(&b->rep_, xid); b->content_flags_.store(b->content_flags_.load(std::memory_order_relaxed) | ContentFlags::HAS_ROLLBACK, std::memory_order_relaxed); return Status::OK(); } Status WriteBatchInternal::Delete(WriteBatch* b, uint32_t column_family_id, const Slice& key) { LocalSavePoint save(b); WriteBatchInternal::SetCount(b, WriteBatchInternal::Count(b) + 1); if (column_family_id == 0) { b->rep_.push_back(static_cast(kTypeDeletion)); } else { b->rep_.push_back(static_cast(kTypeColumnFamilyDeletion)); PutVarint32(&b->rep_, column_family_id); } PutLengthPrefixedSlice(&b->rep_, key); b->content_flags_.store(b->content_flags_.load(std::memory_order_relaxed) | ContentFlags::HAS_DELETE, std::memory_order_relaxed); return save.commit(); } Status WriteBatch::Delete(ColumnFamilyHandle* column_family, const Slice& key) { return WriteBatchInternal::Delete(this, GetColumnFamilyID(column_family), key); } Status WriteBatchInternal::Delete(WriteBatch* b, uint32_t column_family_id, const SliceParts& key) { LocalSavePoint save(b); WriteBatchInternal::SetCount(b, WriteBatchInternal::Count(b) + 1); if (column_family_id == 0) { b->rep_.push_back(static_cast(kTypeDeletion)); } else { b->rep_.push_back(static_cast(kTypeColumnFamilyDeletion)); PutVarint32(&b->rep_, column_family_id); } PutLengthPrefixedSliceParts(&b->rep_, key); b->content_flags_.store(b->content_flags_.load(std::memory_order_relaxed) | ContentFlags::HAS_DELETE, std::memory_order_relaxed); return save.commit(); } Status WriteBatch::Delete(ColumnFamilyHandle* column_family, const SliceParts& key) { return WriteBatchInternal::Delete(this, GetColumnFamilyID(column_family), key); } Status WriteBatchInternal::SingleDelete(WriteBatch* b, uint32_t column_family_id, const Slice& key) { LocalSavePoint save(b); WriteBatchInternal::SetCount(b, WriteBatchInternal::Count(b) + 1); if (column_family_id == 0) { b->rep_.push_back(static_cast(kTypeSingleDeletion)); } else { b->rep_.push_back(static_cast(kTypeColumnFamilySingleDeletion)); PutVarint32(&b->rep_, column_family_id); } PutLengthPrefixedSlice(&b->rep_, key); b->content_flags_.store(b->content_flags_.load(std::memory_order_relaxed) | ContentFlags::HAS_SINGLE_DELETE, std::memory_order_relaxed); return save.commit(); } Status WriteBatch::SingleDelete(ColumnFamilyHandle* column_family, const Slice& key) { return WriteBatchInternal::SingleDelete( this, GetColumnFamilyID(column_family), key); } Status WriteBatchInternal::SingleDelete(WriteBatch* b, uint32_t column_family_id, const SliceParts& key) { LocalSavePoint save(b); WriteBatchInternal::SetCount(b, WriteBatchInternal::Count(b) + 1); if (column_family_id == 0) { b->rep_.push_back(static_cast(kTypeSingleDeletion)); } else { b->rep_.push_back(static_cast(kTypeColumnFamilySingleDeletion)); PutVarint32(&b->rep_, column_family_id); } PutLengthPrefixedSliceParts(&b->rep_, key); b->content_flags_.store(b->content_flags_.load(std::memory_order_relaxed) | ContentFlags::HAS_SINGLE_DELETE, std::memory_order_relaxed); return save.commit(); } Status WriteBatch::SingleDelete(ColumnFamilyHandle* column_family, const SliceParts& key) { return WriteBatchInternal::SingleDelete( this, GetColumnFamilyID(column_family), key); } Status WriteBatchInternal::DeleteRange(WriteBatch* b, uint32_t column_family_id, const Slice& begin_key, const Slice& end_key) { LocalSavePoint save(b); WriteBatchInternal::SetCount(b, WriteBatchInternal::Count(b) + 1); if (column_family_id == 0) { b->rep_.push_back(static_cast(kTypeRangeDeletion)); } else { b->rep_.push_back(static_cast(kTypeColumnFamilyRangeDeletion)); PutVarint32(&b->rep_, column_family_id); } PutLengthPrefixedSlice(&b->rep_, begin_key); PutLengthPrefixedSlice(&b->rep_, end_key); b->content_flags_.store(b->content_flags_.load(std::memory_order_relaxed) | ContentFlags::HAS_DELETE_RANGE, std::memory_order_relaxed); return save.commit(); } Status WriteBatch::DeleteRange(ColumnFamilyHandle* column_family, const Slice& begin_key, const Slice& end_key) { return WriteBatchInternal::DeleteRange(this, GetColumnFamilyID(column_family), begin_key, end_key); } Status WriteBatchInternal::DeleteRange(WriteBatch* b, uint32_t column_family_id, const SliceParts& begin_key, const SliceParts& end_key) { LocalSavePoint save(b); WriteBatchInternal::SetCount(b, WriteBatchInternal::Count(b) + 1); if (column_family_id == 0) { b->rep_.push_back(static_cast(kTypeRangeDeletion)); } else { b->rep_.push_back(static_cast(kTypeColumnFamilyRangeDeletion)); PutVarint32(&b->rep_, column_family_id); } PutLengthPrefixedSliceParts(&b->rep_, begin_key); PutLengthPrefixedSliceParts(&b->rep_, end_key); b->content_flags_.store(b->content_flags_.load(std::memory_order_relaxed) | ContentFlags::HAS_DELETE_RANGE, std::memory_order_relaxed); return save.commit(); } Status WriteBatch::DeleteRange(ColumnFamilyHandle* column_family, const SliceParts& begin_key, const SliceParts& end_key) { return WriteBatchInternal::DeleteRange(this, GetColumnFamilyID(column_family), begin_key, end_key); } Status WriteBatchInternal::Merge(WriteBatch* b, uint32_t column_family_id, const Slice& key, const Slice& value) { if (key.size() > size_t{port::kMaxUint32}) { return Status::InvalidArgument("key is too large"); } if (value.size() > size_t{port::kMaxUint32}) { return Status::InvalidArgument("value is too large"); } LocalSavePoint save(b); WriteBatchInternal::SetCount(b, WriteBatchInternal::Count(b) + 1); if (column_family_id == 0) { b->rep_.push_back(static_cast(kTypeMerge)); } else { b->rep_.push_back(static_cast(kTypeColumnFamilyMerge)); PutVarint32(&b->rep_, column_family_id); } PutLengthPrefixedSlice(&b->rep_, key); PutLengthPrefixedSlice(&b->rep_, value); b->content_flags_.store(b->content_flags_.load(std::memory_order_relaxed) | ContentFlags::HAS_MERGE, std::memory_order_relaxed); return save.commit(); } Status WriteBatch::Merge(ColumnFamilyHandle* column_family, const Slice& key, const Slice& value) { return WriteBatchInternal::Merge(this, GetColumnFamilyID(column_family), key, value); } Status WriteBatchInternal::Merge(WriteBatch* b, uint32_t column_family_id, const SliceParts& key, const SliceParts& value) { Status s = CheckSlicePartsLength(key, value); if (!s.ok()) { return s; } LocalSavePoint save(b); WriteBatchInternal::SetCount(b, WriteBatchInternal::Count(b) + 1); if (column_family_id == 0) { b->rep_.push_back(static_cast(kTypeMerge)); } else { b->rep_.push_back(static_cast(kTypeColumnFamilyMerge)); PutVarint32(&b->rep_, column_family_id); } PutLengthPrefixedSliceParts(&b->rep_, key); PutLengthPrefixedSliceParts(&b->rep_, value); b->content_flags_.store(b->content_flags_.load(std::memory_order_relaxed) | ContentFlags::HAS_MERGE, std::memory_order_relaxed); return save.commit(); } Status WriteBatch::Merge(ColumnFamilyHandle* column_family, const SliceParts& key, const SliceParts& value) { return WriteBatchInternal::Merge(this, GetColumnFamilyID(column_family), key, value); } Status WriteBatchInternal::PutBlobIndex(WriteBatch* b, uint32_t column_family_id, const Slice& key, const Slice& value) { LocalSavePoint save(b); WriteBatchInternal::SetCount(b, WriteBatchInternal::Count(b) + 1); if (column_family_id == 0) { b->rep_.push_back(static_cast(kTypeBlobIndex)); } else { b->rep_.push_back(static_cast(kTypeColumnFamilyBlobIndex)); PutVarint32(&b->rep_, column_family_id); } PutLengthPrefixedSlice(&b->rep_, key); PutLengthPrefixedSlice(&b->rep_, value); b->content_flags_.store(b->content_flags_.load(std::memory_order_relaxed) | ContentFlags::HAS_BLOB_INDEX, std::memory_order_relaxed); return save.commit(); } Status WriteBatch::PutLogData(const Slice& blob) { LocalSavePoint save(this); rep_.push_back(static_cast(kTypeLogData)); PutLengthPrefixedSlice(&rep_, blob); return save.commit(); } void WriteBatch::SetSavePoint() { if (save_points_ == nullptr) { save_points_ = new SavePoints(); } // Record length and count of current batch of writes. save_points_->stack.push(SavePoint( GetDataSize(), Count(), content_flags_.load(std::memory_order_relaxed))); } Status WriteBatch::RollbackToSavePoint() { if (save_points_ == nullptr || save_points_->stack.size() == 0) { return Status::NotFound(); } // Pop the most recent savepoint off the stack SavePoint savepoint = save_points_->stack.top(); save_points_->stack.pop(); assert(savepoint.size <= rep_.size()); assert(savepoint.count <= Count()); if (savepoint.size == rep_.size()) { // No changes to rollback } else if (savepoint.size == 0) { // Rollback everything Clear(); } else { rep_.resize(savepoint.size); WriteBatchInternal::SetCount(this, savepoint.count); content_flags_.store(savepoint.content_flags, std::memory_order_relaxed); } return Status::OK(); } Status WriteBatch::PopSavePoint() { if (save_points_ == nullptr || save_points_->stack.size() == 0) { return Status::NotFound(); } // Pop the most recent savepoint off the stack save_points_->stack.pop(); return Status::OK(); } class MemTableInserter : public WriteBatch::Handler { SequenceNumber sequence_; ColumnFamilyMemTables* const cf_mems_; FlushScheduler* const flush_scheduler_; const bool ignore_missing_column_families_; const uint64_t recovering_log_number_; // log number that all Memtables inserted into should reference uint64_t log_number_ref_; DBImpl* db_; const bool concurrent_memtable_writes_; bool post_info_created_; bool* has_valid_writes_; // On some (!) platforms just default creating // a map is too expensive in the Write() path as they // cause memory allocations though unused. // Make creation optional but do not incur // unique_ptr additional allocation using MemPostInfoMap = std::map; using PostMapType = std::aligned_storage::type; PostMapType mem_post_info_map_; // current recovered transaction we are rebuilding (recovery) WriteBatch* rebuilding_trx_; SequenceNumber rebuilding_trx_seq_; // Increase seq number once per each write batch. Otherwise increase it once // per key. bool seq_per_batch_; // Whether the memtable write will be done only after the commit bool write_after_commit_; // Whether memtable write can be done before prepare bool write_before_prepare_; // Whether this batch was unprepared or not bool unprepared_batch_; using DupDetector = std::aligned_storage::type; DupDetector duplicate_detector_; bool dup_dectector_on_; MemPostInfoMap& GetPostMap() { assert(concurrent_memtable_writes_); if(!post_info_created_) { new (&mem_post_info_map_) MemPostInfoMap(); post_info_created_ = true; } return *reinterpret_cast(&mem_post_info_map_); } bool IsDuplicateKeySeq(uint32_t column_family_id, const Slice& key) { assert(!write_after_commit_); assert(rebuilding_trx_ != nullptr); if (!dup_dectector_on_) { new (&duplicate_detector_) DuplicateDetector(db_); dup_dectector_on_ = true; } return reinterpret_cast (&duplicate_detector_)->IsDuplicateKeySeq(column_family_id, key, sequence_); } protected: virtual bool WriteBeforePrepare() const override { return write_before_prepare_; } virtual bool WriteAfterCommit() const override { return write_after_commit_; } public: // cf_mems should not be shared with concurrent inserters MemTableInserter(SequenceNumber _sequence, ColumnFamilyMemTables* cf_mems, FlushScheduler* flush_scheduler, bool ignore_missing_column_families, uint64_t recovering_log_number, DB* db, bool concurrent_memtable_writes, bool* has_valid_writes = nullptr, bool seq_per_batch = false, bool batch_per_txn = true) : sequence_(_sequence), cf_mems_(cf_mems), flush_scheduler_(flush_scheduler), ignore_missing_column_families_(ignore_missing_column_families), recovering_log_number_(recovering_log_number), log_number_ref_(0), db_(reinterpret_cast(db)), concurrent_memtable_writes_(concurrent_memtable_writes), post_info_created_(false), has_valid_writes_(has_valid_writes), rebuilding_trx_(nullptr), rebuilding_trx_seq_(0), seq_per_batch_(seq_per_batch), // Write after commit currently uses one seq per key (instead of per // batch). So seq_per_batch being false indicates write_after_commit // approach. write_after_commit_(!seq_per_batch), // WriteUnprepared can write WriteBatches per transaction, so // batch_per_txn being false indicates write_before_prepare. write_before_prepare_(!batch_per_txn), unprepared_batch_(false), duplicate_detector_(), dup_dectector_on_(false) { assert(cf_mems_); } ~MemTableInserter() { if (dup_dectector_on_) { reinterpret_cast (&duplicate_detector_)->~DuplicateDetector(); } if (post_info_created_) { reinterpret_cast (&mem_post_info_map_)->~MemPostInfoMap(); } delete rebuilding_trx_; } MemTableInserter(const MemTableInserter&) = delete; MemTableInserter& operator=(const MemTableInserter&) = delete; // The batch seq is regularly restarted; In normal mode it is set when // MemTableInserter is constructed in the write thread and in recovery mode it // is set when a batch, which is tagged with seq, is read from the WAL. // Within a sequenced batch, which could be a merge of multiple batches, we // have two policies to advance the seq: i) seq_per_key (default) and ii) // seq_per_batch. To implement the latter we need to mark the boundary between // the individual batches. The approach is this: 1) Use the terminating // markers to indicate the boundary (kTypeEndPrepareXID, kTypeCommitXID, // kTypeRollbackXID) 2) Terminate a batch with kTypeNoop in the absence of a // natural boundary marker. void MaybeAdvanceSeq(bool batch_boundry = false) { if (batch_boundry == seq_per_batch_) { sequence_++; } } void set_log_number_ref(uint64_t log) { log_number_ref_ = log; } SequenceNumber sequence() const { return sequence_; } void PostProcess() { assert(concurrent_memtable_writes_); // If post info was not created there is nothing // to process and no need to create on demand if(post_info_created_) { for (auto& pair : GetPostMap()) { pair.first->BatchPostProcess(pair.second); } } } bool SeekToColumnFamily(uint32_t column_family_id, Status* s) { // If we are in a concurrent mode, it is the caller's responsibility // to clone the original ColumnFamilyMemTables so that each thread // has its own instance. Otherwise, it must be guaranteed that there // is no concurrent access bool found = cf_mems_->Seek(column_family_id); if (!found) { if (ignore_missing_column_families_) { *s = Status::OK(); } else { *s = Status::InvalidArgument( "Invalid column family specified in write batch"); } return false; } if (recovering_log_number_ != 0 && recovering_log_number_ < cf_mems_->GetLogNumber()) { // This is true only in recovery environment (recovering_log_number_ is // always 0 in // non-recovery, regular write code-path) // * If recovering_log_number_ < cf_mems_->GetLogNumber(), this means that // column // family already contains updates from this log. We can't apply updates // twice because of update-in-place or merge workloads -- ignore the // update *s = Status::OK(); return false; } if (has_valid_writes_ != nullptr) { *has_valid_writes_ = true; } if (log_number_ref_ > 0) { cf_mems_->GetMemTable()->RefLogContainingPrepSection(log_number_ref_); } return true; } Status PutCFImpl(uint32_t column_family_id, const Slice& key, const Slice& value, ValueType value_type) { // optimize for non-recovery mode if (UNLIKELY(write_after_commit_ && rebuilding_trx_ != nullptr)) { WriteBatchInternal::Put(rebuilding_trx_, column_family_id, key, value); return Status::OK(); // else insert the values to the memtable right away } Status seek_status; if (UNLIKELY(!SeekToColumnFamily(column_family_id, &seek_status))) { bool batch_boundry = false; if (rebuilding_trx_ != nullptr) { assert(!write_after_commit_); // The CF is probably flushed and hence no need for insert but we still // need to keep track of the keys for upcoming rollback/commit. WriteBatchInternal::Put(rebuilding_trx_, column_family_id, key, value); batch_boundry = IsDuplicateKeySeq(column_family_id, key); } MaybeAdvanceSeq(batch_boundry); return seek_status; } Status ret_status; MemTable* mem = cf_mems_->GetMemTable(); auto* moptions = mem->GetImmutableMemTableOptions(); // inplace_update_support is inconsistent with snapshots, and therefore with // any kind of transactions including the ones that use seq_per_batch assert(!seq_per_batch_ || !moptions->inplace_update_support); if (!moptions->inplace_update_support) { bool mem_res = mem->Add(sequence_, value_type, key, value, concurrent_memtable_writes_, get_post_process_info(mem)); if (UNLIKELY(!mem_res)) { assert(seq_per_batch_); ret_status = Status::TryAgain("key+seq exists"); const bool BATCH_BOUNDRY = true; MaybeAdvanceSeq(BATCH_BOUNDRY); } } else if (moptions->inplace_callback == nullptr) { assert(!concurrent_memtable_writes_); mem->Update(sequence_, key, value); } else { assert(!concurrent_memtable_writes_); if (mem->UpdateCallback(sequence_, key, value)) { } else { // key not found in memtable. Do sst get, update, add SnapshotImpl read_from_snapshot; read_from_snapshot.number_ = sequence_; ReadOptions ropts; // it's going to be overwritten for sure, so no point caching data block // containing the old version ropts.fill_cache = false; ropts.snapshot = &read_from_snapshot; std::string prev_value; std::string merged_value; auto cf_handle = cf_mems_->GetColumnFamilyHandle(); Status s = Status::NotSupported(); if (db_ != nullptr && recovering_log_number_ == 0) { if (cf_handle == nullptr) { cf_handle = db_->DefaultColumnFamily(); } s = db_->Get(ropts, cf_handle, key, &prev_value); } char* prev_buffer = const_cast(prev_value.c_str()); uint32_t prev_size = static_cast(prev_value.size()); auto status = moptions->inplace_callback(s.ok() ? prev_buffer : nullptr, s.ok() ? &prev_size : nullptr, value, &merged_value); if (status == UpdateStatus::UPDATED_INPLACE) { // prev_value is updated in-place with final value. bool mem_res __attribute__((__unused__)); mem_res = mem->Add( sequence_, value_type, key, Slice(prev_buffer, prev_size)); assert(mem_res); RecordTick(moptions->statistics, NUMBER_KEYS_WRITTEN); } else if (status == UpdateStatus::UPDATED) { // merged_value contains the final value. bool mem_res __attribute__((__unused__)); mem_res = mem->Add(sequence_, value_type, key, Slice(merged_value)); assert(mem_res); RecordTick(moptions->statistics, NUMBER_KEYS_WRITTEN); } } } // optimize for non-recovery mode if (UNLIKELY(!ret_status.IsTryAgain() && rebuilding_trx_ != nullptr)) { assert(!write_after_commit_); // If the ret_status is TryAgain then let the next try to add the ky to // the rebuilding transaction object. WriteBatchInternal::Put(rebuilding_trx_, column_family_id, key, value); } // Since all Puts are logged in transaction logs (if enabled), always bump // sequence number. Even if the update eventually fails and does not result // in memtable add/update. MaybeAdvanceSeq(); CheckMemtableFull(); return ret_status; } virtual Status PutCF(uint32_t column_family_id, const Slice& key, const Slice& value) override { return PutCFImpl(column_family_id, key, value, kTypeValue); } Status DeleteImpl(uint32_t /*column_family_id*/, const Slice& key, const Slice& value, ValueType delete_type) { Status ret_status; MemTable* mem = cf_mems_->GetMemTable(); bool mem_res = mem->Add(sequence_, delete_type, key, value, concurrent_memtable_writes_, get_post_process_info(mem)); if (UNLIKELY(!mem_res)) { assert(seq_per_batch_); ret_status = Status::TryAgain("key+seq exists"); const bool BATCH_BOUNDRY = true; MaybeAdvanceSeq(BATCH_BOUNDRY); } MaybeAdvanceSeq(); CheckMemtableFull(); return ret_status; } virtual Status DeleteCF(uint32_t column_family_id, const Slice& key) override { // optimize for non-recovery mode if (UNLIKELY(write_after_commit_ && rebuilding_trx_ != nullptr)) { WriteBatchInternal::Delete(rebuilding_trx_, column_family_id, key); return Status::OK(); // else insert the values to the memtable right away } Status seek_status; if (UNLIKELY(!SeekToColumnFamily(column_family_id, &seek_status))) { bool batch_boundry = false; if (rebuilding_trx_ != nullptr) { assert(!write_after_commit_); // The CF is probably flushed and hence no need for insert but we still // need to keep track of the keys for upcoming rollback/commit. WriteBatchInternal::Delete(rebuilding_trx_, column_family_id, key); batch_boundry = IsDuplicateKeySeq(column_family_id, key); } MaybeAdvanceSeq(batch_boundry); return seek_status; } auto ret_status = DeleteImpl(column_family_id, key, Slice(), kTypeDeletion); // optimize for non-recovery mode if (UNLIKELY(!ret_status.IsTryAgain() && rebuilding_trx_ != nullptr)) { assert(!write_after_commit_); // If the ret_status is TryAgain then let the next try to add the ky to // the rebuilding transaction object. WriteBatchInternal::Delete(rebuilding_trx_, column_family_id, key); } return ret_status; } virtual Status SingleDeleteCF(uint32_t column_family_id, const Slice& key) override { // optimize for non-recovery mode if (UNLIKELY(write_after_commit_ && rebuilding_trx_ != nullptr)) { WriteBatchInternal::SingleDelete(rebuilding_trx_, column_family_id, key); return Status::OK(); // else insert the values to the memtable right away } Status seek_status; if (UNLIKELY(!SeekToColumnFamily(column_family_id, &seek_status))) { bool batch_boundry = false; if (rebuilding_trx_ != nullptr) { assert(!write_after_commit_); // The CF is probably flushed and hence no need for insert but we still // need to keep track of the keys for upcoming rollback/commit. WriteBatchInternal::SingleDelete(rebuilding_trx_, column_family_id, key); batch_boundry = IsDuplicateKeySeq(column_family_id, key); } MaybeAdvanceSeq(batch_boundry); return seek_status; } auto ret_status = DeleteImpl(column_family_id, key, Slice(), kTypeSingleDeletion); // optimize for non-recovery mode if (UNLIKELY(!ret_status.IsTryAgain() && rebuilding_trx_ != nullptr)) { assert(!write_after_commit_); // If the ret_status is TryAgain then let the next try to add the ky to // the rebuilding transaction object. WriteBatchInternal::SingleDelete(rebuilding_trx_, column_family_id, key); } return ret_status; } virtual Status DeleteRangeCF(uint32_t column_family_id, const Slice& begin_key, const Slice& end_key) override { // optimize for non-recovery mode if (UNLIKELY(write_after_commit_ && rebuilding_trx_ != nullptr)) { WriteBatchInternal::DeleteRange(rebuilding_trx_, column_family_id, begin_key, end_key); return Status::OK(); // else insert the values to the memtable right away } Status seek_status; if (UNLIKELY(!SeekToColumnFamily(column_family_id, &seek_status))) { bool batch_boundry = false; if (rebuilding_trx_ != nullptr) { assert(!write_after_commit_); // The CF is probably flushed and hence no need for insert but we still // need to keep track of the keys for upcoming rollback/commit. WriteBatchInternal::DeleteRange(rebuilding_trx_, column_family_id, begin_key, end_key); // TODO(myabandeh): when transactional DeleteRange support is added, // check if end_key must also be added. batch_boundry = IsDuplicateKeySeq(column_family_id, begin_key); } MaybeAdvanceSeq(batch_boundry); return seek_status; } if (db_ != nullptr) { auto cf_handle = cf_mems_->GetColumnFamilyHandle(); if (cf_handle == nullptr) { cf_handle = db_->DefaultColumnFamily(); } auto* cfd = reinterpret_cast(cf_handle)->cfd(); if (!cfd->is_delete_range_supported()) { return Status::NotSupported( std::string("DeleteRange not supported for table type ") + cfd->ioptions()->table_factory->Name() + " in CF " + cfd->GetName()); } } auto ret_status = DeleteImpl(column_family_id, begin_key, end_key, kTypeRangeDeletion); // optimize for non-recovery mode if (UNLIKELY(!ret_status.IsTryAgain() && rebuilding_trx_ != nullptr)) { assert(!write_after_commit_); // If the ret_status is TryAgain then let the next try to add the ky to // the rebuilding transaction object. WriteBatchInternal::DeleteRange(rebuilding_trx_, column_family_id, begin_key, end_key); } return ret_status; } virtual Status MergeCF(uint32_t column_family_id, const Slice& key, const Slice& value) override { assert(!concurrent_memtable_writes_); // optimize for non-recovery mode if (UNLIKELY(write_after_commit_ && rebuilding_trx_ != nullptr)) { WriteBatchInternal::Merge(rebuilding_trx_, column_family_id, key, value); return Status::OK(); // else insert the values to the memtable right away } Status seek_status; if (UNLIKELY(!SeekToColumnFamily(column_family_id, &seek_status))) { bool batch_boundry = false; if (rebuilding_trx_ != nullptr) { assert(!write_after_commit_); // The CF is probably flushed and hence no need for insert but we still // need to keep track of the keys for upcoming rollback/commit. WriteBatchInternal::Merge(rebuilding_trx_, column_family_id, key, value); batch_boundry = IsDuplicateKeySeq(column_family_id, key); } MaybeAdvanceSeq(batch_boundry); return seek_status; } Status ret_status; MemTable* mem = cf_mems_->GetMemTable(); auto* moptions = mem->GetImmutableMemTableOptions(); bool perform_merge = false; // If we pass DB through and options.max_successive_merges is hit // during recovery, Get() will be issued which will try to acquire // DB mutex and cause deadlock, as DB mutex is already held. // So we disable merge in recovery if (moptions->max_successive_merges > 0 && db_ != nullptr && recovering_log_number_ == 0) { LookupKey lkey(key, sequence_); // Count the number of successive merges at the head // of the key in the memtable size_t num_merges = mem->CountSuccessiveMergeEntries(lkey); if (num_merges >= moptions->max_successive_merges) { perform_merge = true; } } if (perform_merge) { // 1) Get the existing value std::string get_value; // Pass in the sequence number so that we also include previous merge // operations in the same batch. SnapshotImpl read_from_snapshot; read_from_snapshot.number_ = sequence_; ReadOptions read_options; read_options.snapshot = &read_from_snapshot; auto cf_handle = cf_mems_->GetColumnFamilyHandle(); if (cf_handle == nullptr) { cf_handle = db_->DefaultColumnFamily(); } db_->Get(read_options, cf_handle, key, &get_value); Slice get_value_slice = Slice(get_value); // 2) Apply this merge auto merge_operator = moptions->merge_operator; assert(merge_operator); std::string new_value; Status merge_status = MergeHelper::TimedFullMerge( merge_operator, key, &get_value_slice, {value}, &new_value, moptions->info_log, moptions->statistics, Env::Default()); if (!merge_status.ok()) { // Failed to merge! // Store the delta in memtable perform_merge = false; } else { // 3) Add value to memtable bool mem_res = mem->Add(sequence_, kTypeValue, key, new_value); if (UNLIKELY(!mem_res)) { assert(seq_per_batch_); ret_status = Status::TryAgain("key+seq exists"); const bool BATCH_BOUNDRY = true; MaybeAdvanceSeq(BATCH_BOUNDRY); } } } if (!perform_merge) { // Add merge operator to memtable bool mem_res = mem->Add(sequence_, kTypeMerge, key, value); if (UNLIKELY(!mem_res)) { assert(seq_per_batch_); ret_status = Status::TryAgain("key+seq exists"); const bool BATCH_BOUNDRY = true; MaybeAdvanceSeq(BATCH_BOUNDRY); } } // optimize for non-recovery mode if (UNLIKELY(!ret_status.IsTryAgain() && rebuilding_trx_ != nullptr)) { assert(!write_after_commit_); // If the ret_status is TryAgain then let the next try to add the ky to // the rebuilding transaction object. WriteBatchInternal::Merge(rebuilding_trx_, column_family_id, key, value); } MaybeAdvanceSeq(); CheckMemtableFull(); return ret_status; } virtual Status PutBlobIndexCF(uint32_t column_family_id, const Slice& key, const Slice& value) override { // Same as PutCF except for value type. return PutCFImpl(column_family_id, key, value, kTypeBlobIndex); } void CheckMemtableFull() { if (flush_scheduler_ != nullptr) { auto* cfd = cf_mems_->current(); assert(cfd != nullptr); if (cfd->mem()->ShouldScheduleFlush() && cfd->mem()->MarkFlushScheduled()) { // MarkFlushScheduled only returns true if we are the one that // should take action, so no need to dedup further flush_scheduler_->ScheduleFlush(cfd); } } } // The write batch handler calls MarkBeginPrepare with unprepare set to true // if it encounters the kTypeBeginUnprepareXID marker. Status MarkBeginPrepare(bool unprepare) override { assert(rebuilding_trx_ == nullptr); assert(db_); if (recovering_log_number_ != 0) { // during recovery we rebuild a hollow transaction // from all encountered prepare sections of the wal if (db_->allow_2pc() == false) { return Status::NotSupported( "WAL contains prepared transactions. Open with " "TransactionDB::Open()."); } // we are now iterating through a prepared section rebuilding_trx_ = new WriteBatch(); rebuilding_trx_seq_ = sequence_; // We only call MarkBeginPrepare once per batch, and unprepared_batch_ // is initialized to false by default. assert(!unprepared_batch_); unprepared_batch_ = unprepare; if (has_valid_writes_ != nullptr) { *has_valid_writes_ = true; } } return Status::OK(); } Status MarkEndPrepare(const Slice& name) override { assert(db_); assert((rebuilding_trx_ != nullptr) == (recovering_log_number_ != 0)); if (recovering_log_number_ != 0) { assert(db_->allow_2pc()); size_t batch_cnt = write_after_commit_ ? 0 // 0 will disable further checks : static_cast(sequence_ - rebuilding_trx_seq_ + 1); db_->InsertRecoveredTransaction(recovering_log_number_, name.ToString(), rebuilding_trx_, rebuilding_trx_seq_, batch_cnt, unprepared_batch_); rebuilding_trx_ = nullptr; } else { assert(rebuilding_trx_ == nullptr); } const bool batch_boundry = true; MaybeAdvanceSeq(batch_boundry); return Status::OK(); } Status MarkNoop(bool empty_batch) override { // A hack in pessimistic transaction could result into a noop at the start // of the write batch, that should be ignored. if (!empty_batch) { // In the absence of Prepare markers, a kTypeNoop tag indicates the end of // a batch. This happens when write batch commits skipping the prepare // phase. const bool batch_boundry = true; MaybeAdvanceSeq(batch_boundry); } return Status::OK(); } Status MarkCommit(const Slice& name) override { assert(db_); Status s; if (recovering_log_number_ != 0) { // in recovery when we encounter a commit marker // we lookup this transaction in our set of rebuilt transactions // and commit. auto trx = db_->GetRecoveredTransaction(name.ToString()); // the log containing the prepared section may have // been released in the last incarnation because the // data was flushed to L0 if (trx != nullptr) { // at this point individual CF lognumbers will prevent // duplicate re-insertion of values. assert(log_number_ref_ == 0); if (write_after_commit_) { // write_after_commit_ can only have one batch in trx. assert(trx->batches_.size() == 1); const auto& batch_info = trx->batches_.begin()->second; // all inserts must reference this trx log number log_number_ref_ = batch_info.log_number_; s = batch_info.batch_->Iterate(this); log_number_ref_ = 0; } // else the values are already inserted before the commit if (s.ok()) { db_->DeleteRecoveredTransaction(name.ToString()); } if (has_valid_writes_ != nullptr) { *has_valid_writes_ = true; } } } else { // When writes are not delayed until commit, there is no disconnect // between a memtable write and the WAL that supports it. So the commit // need not reference any log as the only log to which it depends. assert(!write_after_commit_ || log_number_ref_ > 0); } const bool batch_boundry = true; MaybeAdvanceSeq(batch_boundry); return s; } Status MarkRollback(const Slice& name) override { assert(db_); if (recovering_log_number_ != 0) { auto trx = db_->GetRecoveredTransaction(name.ToString()); // the log containing the transactions prep section // may have been released in the previous incarnation // because we knew it had been rolled back if (trx != nullptr) { db_->DeleteRecoveredTransaction(name.ToString()); } } else { // in non recovery we simply ignore this tag } const bool batch_boundry = true; MaybeAdvanceSeq(batch_boundry); return Status::OK(); } private: MemTablePostProcessInfo* get_post_process_info(MemTable* mem) { if (!concurrent_memtable_writes_) { // No need to batch counters locally if we don't use concurrent mode. return nullptr; } return &GetPostMap()[mem]; } }; // This function can only be called in these conditions: // 1) During Recovery() // 2) During Write(), in a single-threaded write thread // 3) During Write(), in a concurrent context where memtables has been cloned // The reason is that it calls memtables->Seek(), which has a stateful cache Status WriteBatchInternal::InsertInto( WriteThread::WriteGroup& write_group, SequenceNumber sequence, ColumnFamilyMemTables* memtables, FlushScheduler* flush_scheduler, bool ignore_missing_column_families, uint64_t recovery_log_number, DB* db, bool concurrent_memtable_writes, bool seq_per_batch, bool batch_per_txn) { MemTableInserter inserter( sequence, memtables, flush_scheduler, ignore_missing_column_families, recovery_log_number, db, concurrent_memtable_writes, nullptr /*has_valid_writes*/, seq_per_batch, batch_per_txn); for (auto w : write_group) { if (w->CallbackFailed()) { continue; } w->sequence = inserter.sequence(); if (!w->ShouldWriteToMemtable()) { // In seq_per_batch_ mode this advances the seq by one. inserter.MaybeAdvanceSeq(true); continue; } SetSequence(w->batch, inserter.sequence()); inserter.set_log_number_ref(w->log_ref); w->status = w->batch->Iterate(&inserter); if (!w->status.ok()) { return w->status; } assert(!seq_per_batch || w->batch_cnt != 0); assert(!seq_per_batch || inserter.sequence() - w->sequence == w->batch_cnt); } return Status::OK(); } Status WriteBatchInternal::InsertInto( WriteThread::Writer* writer, SequenceNumber sequence, ColumnFamilyMemTables* memtables, FlushScheduler* flush_scheduler, bool ignore_missing_column_families, uint64_t log_number, DB* db, bool concurrent_memtable_writes, bool seq_per_batch, size_t batch_cnt, bool batch_per_txn) { #ifdef NDEBUG (void)batch_cnt; #endif assert(writer->ShouldWriteToMemtable()); MemTableInserter inserter( sequence, memtables, flush_scheduler, ignore_missing_column_families, log_number, db, concurrent_memtable_writes, nullptr /*has_valid_writes*/, seq_per_batch, batch_per_txn); SetSequence(writer->batch, sequence); inserter.set_log_number_ref(writer->log_ref); Status s = writer->batch->Iterate(&inserter); assert(!seq_per_batch || batch_cnt != 0); assert(!seq_per_batch || inserter.sequence() - sequence == batch_cnt); if (concurrent_memtable_writes) { inserter.PostProcess(); } return s; } Status WriteBatchInternal::InsertInto( const WriteBatch* batch, ColumnFamilyMemTables* memtables, FlushScheduler* flush_scheduler, bool ignore_missing_column_families, uint64_t log_number, DB* db, bool concurrent_memtable_writes, SequenceNumber* next_seq, bool* has_valid_writes, bool seq_per_batch, bool batch_per_txn) { MemTableInserter inserter(Sequence(batch), memtables, flush_scheduler, ignore_missing_column_families, log_number, db, concurrent_memtable_writes, has_valid_writes, seq_per_batch, batch_per_txn); Status s = batch->Iterate(&inserter); if (next_seq != nullptr) { *next_seq = inserter.sequence(); } if (concurrent_memtable_writes) { inserter.PostProcess(); } return s; } Status WriteBatchInternal::SetContents(WriteBatch* b, const Slice& contents) { assert(contents.size() >= WriteBatchInternal::kHeader); b->rep_.assign(contents.data(), contents.size()); b->content_flags_.store(ContentFlags::DEFERRED, std::memory_order_relaxed); return Status::OK(); } Status WriteBatchInternal::Append(WriteBatch* dst, const WriteBatch* src, const bool wal_only) { size_t src_len; int src_count; uint32_t src_flags; const SavePoint& batch_end = src->GetWalTerminationPoint(); if (wal_only && !batch_end.is_cleared()) { src_len = batch_end.size - WriteBatchInternal::kHeader; src_count = batch_end.count; src_flags = batch_end.content_flags; } else { src_len = src->rep_.size() - WriteBatchInternal::kHeader; src_count = Count(src); src_flags = src->content_flags_.load(std::memory_order_relaxed); } SetCount(dst, Count(dst) + src_count); assert(src->rep_.size() >= WriteBatchInternal::kHeader); dst->rep_.append(src->rep_.data() + WriteBatchInternal::kHeader, src_len); dst->content_flags_.store( dst->content_flags_.load(std::memory_order_relaxed) | src_flags, std::memory_order_relaxed); return Status::OK(); } size_t WriteBatchInternal::AppendedByteSize(size_t leftByteSize, size_t rightByteSize) { if (leftByteSize == 0 || rightByteSize == 0) { return leftByteSize + rightByteSize; } else { return leftByteSize + rightByteSize - WriteBatchInternal::kHeader; } } } // namespace rocksdb rocksdb-5.17.2/db/write_batch_base.cc000066400000000000000000000061031337235545400174310ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include "rocksdb/write_batch_base.h" #include #include "rocksdb/slice.h" #include "rocksdb/status.h" namespace rocksdb { // Simple implementation of SlicePart variants of Put(). Child classes // can override these method with more performant solutions if they choose. Status WriteBatchBase::Put(ColumnFamilyHandle* column_family, const SliceParts& key, const SliceParts& value) { std::string key_buf, value_buf; Slice key_slice(key, &key_buf); Slice value_slice(value, &value_buf); return Put(column_family, key_slice, value_slice); } Status WriteBatchBase::Put(const SliceParts& key, const SliceParts& value) { std::string key_buf, value_buf; Slice key_slice(key, &key_buf); Slice value_slice(value, &value_buf); return Put(key_slice, value_slice); } Status WriteBatchBase::Delete(ColumnFamilyHandle* column_family, const SliceParts& key) { std::string key_buf; Slice key_slice(key, &key_buf); return Delete(column_family, key_slice); } Status WriteBatchBase::Delete(const SliceParts& key) { std::string key_buf; Slice key_slice(key, &key_buf); return Delete(key_slice); } Status WriteBatchBase::SingleDelete(ColumnFamilyHandle* column_family, const SliceParts& key) { std::string key_buf; Slice key_slice(key, &key_buf); return SingleDelete(column_family, key_slice); } Status WriteBatchBase::SingleDelete(const SliceParts& key) { std::string key_buf; Slice key_slice(key, &key_buf); return SingleDelete(key_slice); } Status WriteBatchBase::DeleteRange(ColumnFamilyHandle* column_family, const SliceParts& begin_key, const SliceParts& end_key) { std::string begin_key_buf, end_key_buf; Slice begin_key_slice(begin_key, &begin_key_buf); Slice end_key_slice(end_key, &end_key_buf); return DeleteRange(column_family, begin_key_slice, end_key_slice); } Status WriteBatchBase::DeleteRange(const SliceParts& begin_key, const SliceParts& end_key) { std::string begin_key_buf, end_key_buf; Slice begin_key_slice(begin_key, &begin_key_buf); Slice end_key_slice(end_key, &end_key_buf); return DeleteRange(begin_key_slice, end_key_slice); } Status WriteBatchBase::Merge(ColumnFamilyHandle* column_family, const SliceParts& key, const SliceParts& value) { std::string key_buf, value_buf; Slice key_slice(key, &key_buf); Slice value_slice(value, &value_buf); return Merge(column_family, key_slice, value_slice); } Status WriteBatchBase::Merge(const SliceParts& key, const SliceParts& value) { std::string key_buf, value_buf; Slice key_slice(key, &key_buf); Slice value_slice(value, &value_buf); return Merge(key_slice, value_slice); } } // namespace rocksdb rocksdb-5.17.2/db/write_batch_internal.h000066400000000000000000000213051337235545400201760ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #include #include "db/write_thread.h" #include "rocksdb/types.h" #include "rocksdb/write_batch.h" #include "rocksdb/db.h" #include "rocksdb/options.h" #include "util/autovector.h" namespace rocksdb { class MemTable; class FlushScheduler; class ColumnFamilyData; class ColumnFamilyMemTables { public: virtual ~ColumnFamilyMemTables() {} virtual bool Seek(uint32_t column_family_id) = 0; // returns true if the update to memtable should be ignored // (useful when recovering from log whose updates have already // been processed) virtual uint64_t GetLogNumber() const = 0; virtual MemTable* GetMemTable() const = 0; virtual ColumnFamilyHandle* GetColumnFamilyHandle() = 0; virtual ColumnFamilyData* current() { return nullptr; } }; class ColumnFamilyMemTablesDefault : public ColumnFamilyMemTables { public: explicit ColumnFamilyMemTablesDefault(MemTable* mem) : ok_(false), mem_(mem) {} bool Seek(uint32_t column_family_id) override { ok_ = (column_family_id == 0); return ok_; } uint64_t GetLogNumber() const override { return 0; } MemTable* GetMemTable() const override { assert(ok_); return mem_; } ColumnFamilyHandle* GetColumnFamilyHandle() override { return nullptr; } private: bool ok_; MemTable* mem_; }; // WriteBatchInternal provides static methods for manipulating a // WriteBatch that we don't want in the public WriteBatch interface. class WriteBatchInternal { public: // WriteBatch header has an 8-byte sequence number followed by a 4-byte count. static const size_t kHeader = 12; // WriteBatch methods with column_family_id instead of ColumnFamilyHandle* static Status Put(WriteBatch* batch, uint32_t column_family_id, const Slice& key, const Slice& value); static Status Put(WriteBatch* batch, uint32_t column_family_id, const SliceParts& key, const SliceParts& value); static Status Delete(WriteBatch* batch, uint32_t column_family_id, const SliceParts& key); static Status Delete(WriteBatch* batch, uint32_t column_family_id, const Slice& key); static Status SingleDelete(WriteBatch* batch, uint32_t column_family_id, const SliceParts& key); static Status SingleDelete(WriteBatch* batch, uint32_t column_family_id, const Slice& key); static Status DeleteRange(WriteBatch* b, uint32_t column_family_id, const Slice& begin_key, const Slice& end_key); static Status DeleteRange(WriteBatch* b, uint32_t column_family_id, const SliceParts& begin_key, const SliceParts& end_key); static Status Merge(WriteBatch* batch, uint32_t column_family_id, const Slice& key, const Slice& value); static Status Merge(WriteBatch* batch, uint32_t column_family_id, const SliceParts& key, const SliceParts& value); static Status PutBlobIndex(WriteBatch* batch, uint32_t column_family_id, const Slice& key, const Slice& value); static Status MarkEndPrepare(WriteBatch* batch, const Slice& xid, const bool write_after_commit = true, const bool unprepared_batch = false); static Status MarkRollback(WriteBatch* batch, const Slice& xid); static Status MarkCommit(WriteBatch* batch, const Slice& xid); static Status InsertNoop(WriteBatch* batch); // Return the number of entries in the batch. static int Count(const WriteBatch* batch); // Set the count for the number of entries in the batch. static void SetCount(WriteBatch* batch, int n); // Return the sequence number for the start of this batch. static SequenceNumber Sequence(const WriteBatch* batch); // Store the specified number as the sequence number for the start of // this batch. static void SetSequence(WriteBatch* batch, SequenceNumber seq); // Returns the offset of the first entry in the batch. // This offset is only valid if the batch is not empty. static size_t GetFirstOffset(WriteBatch* batch); static Slice Contents(const WriteBatch* batch) { return Slice(batch->rep_); } static size_t ByteSize(const WriteBatch* batch) { return batch->rep_.size(); } static Status SetContents(WriteBatch* batch, const Slice& contents); static Status CheckSlicePartsLength(const SliceParts& key, const SliceParts& value); // Inserts batches[i] into memtable, for i in 0..num_batches-1 inclusive. // // If ignore_missing_column_families == true. WriteBatch // referencing non-existing column family will be ignored. // If ignore_missing_column_families == false, processing of the // batches will be stopped if a reference is found to a non-existing // column family and InvalidArgument() will be returned. The writes // in batches may be only partially applied at that point. // // If log_number is non-zero, the memtable will be updated only if // memtables->GetLogNumber() >= log_number. // // If flush_scheduler is non-null, it will be invoked if the memtable // should be flushed. // // Under concurrent use, the caller is responsible for making sure that // the memtables object itself is thread-local. static Status InsertInto( WriteThread::WriteGroup& write_group, SequenceNumber sequence, ColumnFamilyMemTables* memtables, FlushScheduler* flush_scheduler, bool ignore_missing_column_families = false, uint64_t log_number = 0, DB* db = nullptr, bool concurrent_memtable_writes = false, bool seq_per_batch = false, bool batch_per_txn = true); // Convenience form of InsertInto when you have only one batch // next_seq returns the seq after last sequence number used in MemTable insert static Status InsertInto( const WriteBatch* batch, ColumnFamilyMemTables* memtables, FlushScheduler* flush_scheduler, bool ignore_missing_column_families = false, uint64_t log_number = 0, DB* db = nullptr, bool concurrent_memtable_writes = false, SequenceNumber* next_seq = nullptr, bool* has_valid_writes = nullptr, bool seq_per_batch = false, bool batch_per_txn = true); static Status InsertInto(WriteThread::Writer* writer, SequenceNumber sequence, ColumnFamilyMemTables* memtables, FlushScheduler* flush_scheduler, bool ignore_missing_column_families = false, uint64_t log_number = 0, DB* db = nullptr, bool concurrent_memtable_writes = false, bool seq_per_batch = false, size_t batch_cnt = 0, bool batch_per_txn = true); static Status Append(WriteBatch* dst, const WriteBatch* src, const bool WAL_only = false); // Returns the byte size of appending a WriteBatch with ByteSize // leftByteSize and a WriteBatch with ByteSize rightByteSize static size_t AppendedByteSize(size_t leftByteSize, size_t rightByteSize); // This write batch includes the latest state that should be persisted. Such // state meant to be used only during recovery. static void SetAsLastestPersistentState(WriteBatch* b); static bool IsLatestPersistentState(const WriteBatch* b); }; // LocalSavePoint is similar to a scope guard class LocalSavePoint { public: explicit LocalSavePoint(WriteBatch* batch) : batch_(batch), savepoint_(batch->GetDataSize(), batch->Count(), batch->content_flags_.load(std::memory_order_relaxed)) #ifndef NDEBUG , committed_(false) #endif { } #ifndef NDEBUG ~LocalSavePoint() { assert(committed_); } #endif Status commit() { #ifndef NDEBUG committed_ = true; #endif if (batch_->max_bytes_ && batch_->rep_.size() > batch_->max_bytes_) { batch_->rep_.resize(savepoint_.size); WriteBatchInternal::SetCount(batch_, savepoint_.count); batch_->content_flags_.store(savepoint_.content_flags, std::memory_order_relaxed); return Status::MemoryLimit(); } return Status::OK(); } private: WriteBatch* batch_; SavePoint savepoint_; #ifndef NDEBUG bool committed_; #endif }; } // namespace rocksdb rocksdb-5.17.2/db/write_batch_test.cc000066400000000000000000000653471337235545400175150ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "rocksdb/db.h" #include #include "db/column_family.h" #include "db/memtable.h" #include "db/write_batch_internal.h" #include "rocksdb/env.h" #include "rocksdb/memtablerep.h" #include "rocksdb/utilities/write_batch_with_index.h" #include "rocksdb/write_buffer_manager.h" #include "table/scoped_arena_iterator.h" #include "util/string_util.h" #include "util/testharness.h" namespace rocksdb { static std::string PrintContents(WriteBatch* b) { InternalKeyComparator cmp(BytewiseComparator()); auto factory = std::make_shared(); Options options; options.memtable_factory = factory; ImmutableCFOptions ioptions(options); WriteBufferManager wb(options.db_write_buffer_size); MemTable* mem = new MemTable(cmp, ioptions, MutableCFOptions(options), &wb, kMaxSequenceNumber, 0 /* column_family_id */); mem->Ref(); std::string state; ColumnFamilyMemTablesDefault cf_mems_default(mem); Status s = WriteBatchInternal::InsertInto(b, &cf_mems_default, nullptr); int count = 0; int put_count = 0; int delete_count = 0; int single_delete_count = 0; int delete_range_count = 0; int merge_count = 0; for (int i = 0; i < 2; ++i) { Arena arena; ScopedArenaIterator arena_iter_guard; std::unique_ptr iter_guard; InternalIterator* iter; if (i == 0) { iter = mem->NewIterator(ReadOptions(), &arena); arena_iter_guard.set(iter); } else { iter = mem->NewRangeTombstoneIterator(ReadOptions()); iter_guard.reset(iter); } if (iter == nullptr) { continue; } for (iter->SeekToFirst(); iter->Valid(); iter->Next()) { ParsedInternalKey ikey; ikey.clear(); EXPECT_TRUE(ParseInternalKey(iter->key(), &ikey)); switch (ikey.type) { case kTypeValue: state.append("Put("); state.append(ikey.user_key.ToString()); state.append(", "); state.append(iter->value().ToString()); state.append(")"); count++; put_count++; break; case kTypeDeletion: state.append("Delete("); state.append(ikey.user_key.ToString()); state.append(")"); count++; delete_count++; break; case kTypeSingleDeletion: state.append("SingleDelete("); state.append(ikey.user_key.ToString()); state.append(")"); count++; single_delete_count++; break; case kTypeRangeDeletion: state.append("DeleteRange("); state.append(ikey.user_key.ToString()); state.append(", "); state.append(iter->value().ToString()); state.append(")"); count++; delete_range_count++; break; case kTypeMerge: state.append("Merge("); state.append(ikey.user_key.ToString()); state.append(", "); state.append(iter->value().ToString()); state.append(")"); count++; merge_count++; break; default: assert(false); break; } state.append("@"); state.append(NumberToString(ikey.sequence)); } } EXPECT_EQ(b->HasPut(), put_count > 0); EXPECT_EQ(b->HasDelete(), delete_count > 0); EXPECT_EQ(b->HasSingleDelete(), single_delete_count > 0); EXPECT_EQ(b->HasDeleteRange(), delete_range_count > 0); EXPECT_EQ(b->HasMerge(), merge_count > 0); if (!s.ok()) { state.append(s.ToString()); } else if (count != WriteBatchInternal::Count(b)) { state.append("CountMismatch()"); } delete mem->Unref(); return state; } class WriteBatchTest : public testing::Test {}; TEST_F(WriteBatchTest, Empty) { WriteBatch batch; ASSERT_EQ("", PrintContents(&batch)); ASSERT_EQ(0, WriteBatchInternal::Count(&batch)); ASSERT_EQ(0, batch.Count()); } TEST_F(WriteBatchTest, Multiple) { WriteBatch batch; batch.Put(Slice("foo"), Slice("bar")); batch.Delete(Slice("box")); batch.DeleteRange(Slice("bar"), Slice("foo")); batch.Put(Slice("baz"), Slice("boo")); WriteBatchInternal::SetSequence(&batch, 100); ASSERT_EQ(100U, WriteBatchInternal::Sequence(&batch)); ASSERT_EQ(4, WriteBatchInternal::Count(&batch)); ASSERT_EQ( "Put(baz, boo)@103" "Delete(box)@101" "Put(foo, bar)@100" "DeleteRange(bar, foo)@102", PrintContents(&batch)); ASSERT_EQ(4, batch.Count()); } TEST_F(WriteBatchTest, Corruption) { WriteBatch batch; batch.Put(Slice("foo"), Slice("bar")); batch.Delete(Slice("box")); WriteBatchInternal::SetSequence(&batch, 200); Slice contents = WriteBatchInternal::Contents(&batch); WriteBatchInternal::SetContents(&batch, Slice(contents.data(),contents.size()-1)); ASSERT_EQ("Put(foo, bar)@200" "Corruption: bad WriteBatch Delete", PrintContents(&batch)); } TEST_F(WriteBatchTest, Append) { WriteBatch b1, b2; WriteBatchInternal::SetSequence(&b1, 200); WriteBatchInternal::SetSequence(&b2, 300); WriteBatchInternal::Append(&b1, &b2); ASSERT_EQ("", PrintContents(&b1)); ASSERT_EQ(0, b1.Count()); b2.Put("a", "va"); WriteBatchInternal::Append(&b1, &b2); ASSERT_EQ("Put(a, va)@200", PrintContents(&b1)); ASSERT_EQ(1, b1.Count()); b2.Clear(); b2.Put("b", "vb"); WriteBatchInternal::Append(&b1, &b2); ASSERT_EQ("Put(a, va)@200" "Put(b, vb)@201", PrintContents(&b1)); ASSERT_EQ(2, b1.Count()); b2.Delete("foo"); WriteBatchInternal::Append(&b1, &b2); ASSERT_EQ("Put(a, va)@200" "Put(b, vb)@202" "Put(b, vb)@201" "Delete(foo)@203", PrintContents(&b1)); ASSERT_EQ(4, b1.Count()); b2.Clear(); b2.Put("c", "cc"); b2.Put("d", "dd"); b2.MarkWalTerminationPoint(); b2.Put("e", "ee"); WriteBatchInternal::Append(&b1, &b2, /*wal only*/ true); ASSERT_EQ( "Put(a, va)@200" "Put(b, vb)@202" "Put(b, vb)@201" "Put(c, cc)@204" "Put(d, dd)@205" "Delete(foo)@203", PrintContents(&b1)); ASSERT_EQ(6, b1.Count()); ASSERT_EQ( "Put(c, cc)@0" "Put(d, dd)@1" "Put(e, ee)@2", PrintContents(&b2)); ASSERT_EQ(3, b2.Count()); } TEST_F(WriteBatchTest, SingleDeletion) { WriteBatch batch; WriteBatchInternal::SetSequence(&batch, 100); ASSERT_EQ("", PrintContents(&batch)); ASSERT_EQ(0, batch.Count()); batch.Put("a", "va"); ASSERT_EQ("Put(a, va)@100", PrintContents(&batch)); ASSERT_EQ(1, batch.Count()); batch.SingleDelete("a"); ASSERT_EQ( "SingleDelete(a)@101" "Put(a, va)@100", PrintContents(&batch)); ASSERT_EQ(2, batch.Count()); } namespace { struct TestHandler : public WriteBatch::Handler { std::string seen; virtual Status PutCF(uint32_t column_family_id, const Slice& key, const Slice& value) override { if (column_family_id == 0) { seen += "Put(" + key.ToString() + ", " + value.ToString() + ")"; } else { seen += "PutCF(" + ToString(column_family_id) + ", " + key.ToString() + ", " + value.ToString() + ")"; } return Status::OK(); } virtual Status DeleteCF(uint32_t column_family_id, const Slice& key) override { if (column_family_id == 0) { seen += "Delete(" + key.ToString() + ")"; } else { seen += "DeleteCF(" + ToString(column_family_id) + ", " + key.ToString() + ")"; } return Status::OK(); } virtual Status SingleDeleteCF(uint32_t column_family_id, const Slice& key) override { if (column_family_id == 0) { seen += "SingleDelete(" + key.ToString() + ")"; } else { seen += "SingleDeleteCF(" + ToString(column_family_id) + ", " + key.ToString() + ")"; } return Status::OK(); } virtual Status DeleteRangeCF(uint32_t column_family_id, const Slice& begin_key, const Slice& end_key) override { if (column_family_id == 0) { seen += "DeleteRange(" + begin_key.ToString() + ", " + end_key.ToString() + ")"; } else { seen += "DeleteRangeCF(" + ToString(column_family_id) + ", " + begin_key.ToString() + ", " + end_key.ToString() + ")"; } return Status::OK(); } virtual Status MergeCF(uint32_t column_family_id, const Slice& key, const Slice& value) override { if (column_family_id == 0) { seen += "Merge(" + key.ToString() + ", " + value.ToString() + ")"; } else { seen += "MergeCF(" + ToString(column_family_id) + ", " + key.ToString() + ", " + value.ToString() + ")"; } return Status::OK(); } virtual void LogData(const Slice& blob) override { seen += "LogData(" + blob.ToString() + ")"; } virtual Status MarkBeginPrepare(bool unprepare) override { seen += "MarkBeginPrepare(" + std::string(unprepare ? "true" : "false") + ")"; return Status::OK(); } virtual Status MarkEndPrepare(const Slice& xid) override { seen += "MarkEndPrepare(" + xid.ToString() + ")"; return Status::OK(); } virtual Status MarkNoop(bool empty_batch) override { seen += "MarkNoop(" + std::string(empty_batch ? "true" : "false") + ")"; return Status::OK(); } virtual Status MarkCommit(const Slice& xid) override { seen += "MarkCommit(" + xid.ToString() + ")"; return Status::OK(); } virtual Status MarkRollback(const Slice& xid) override { seen += "MarkRollback(" + xid.ToString() + ")"; return Status::OK(); } }; } TEST_F(WriteBatchTest, PutNotImplemented) { WriteBatch batch; batch.Put(Slice("k1"), Slice("v1")); ASSERT_EQ(1, batch.Count()); ASSERT_EQ("Put(k1, v1)@0", PrintContents(&batch)); WriteBatch::Handler handler; ASSERT_OK(batch.Iterate(&handler)); } TEST_F(WriteBatchTest, DeleteNotImplemented) { WriteBatch batch; batch.Delete(Slice("k2")); ASSERT_EQ(1, batch.Count()); ASSERT_EQ("Delete(k2)@0", PrintContents(&batch)); WriteBatch::Handler handler; ASSERT_OK(batch.Iterate(&handler)); } TEST_F(WriteBatchTest, SingleDeleteNotImplemented) { WriteBatch batch; batch.SingleDelete(Slice("k2")); ASSERT_EQ(1, batch.Count()); ASSERT_EQ("SingleDelete(k2)@0", PrintContents(&batch)); WriteBatch::Handler handler; ASSERT_OK(batch.Iterate(&handler)); } TEST_F(WriteBatchTest, MergeNotImplemented) { WriteBatch batch; batch.Merge(Slice("foo"), Slice("bar")); ASSERT_EQ(1, batch.Count()); ASSERT_EQ("Merge(foo, bar)@0", PrintContents(&batch)); WriteBatch::Handler handler; ASSERT_OK(batch.Iterate(&handler)); } TEST_F(WriteBatchTest, Blob) { WriteBatch batch; batch.Put(Slice("k1"), Slice("v1")); batch.Put(Slice("k2"), Slice("v2")); batch.Put(Slice("k3"), Slice("v3")); batch.PutLogData(Slice("blob1")); batch.Delete(Slice("k2")); batch.SingleDelete(Slice("k3")); batch.PutLogData(Slice("blob2")); batch.Merge(Slice("foo"), Slice("bar")); ASSERT_EQ(6, batch.Count()); ASSERT_EQ( "Merge(foo, bar)@5" "Put(k1, v1)@0" "Delete(k2)@3" "Put(k2, v2)@1" "SingleDelete(k3)@4" "Put(k3, v3)@2", PrintContents(&batch)); TestHandler handler; batch.Iterate(&handler); ASSERT_EQ( "Put(k1, v1)" "Put(k2, v2)" "Put(k3, v3)" "LogData(blob1)" "Delete(k2)" "SingleDelete(k3)" "LogData(blob2)" "Merge(foo, bar)", handler.seen); } TEST_F(WriteBatchTest, PrepareCommit) { WriteBatch batch; WriteBatchInternal::InsertNoop(&batch); batch.Put(Slice("k1"), Slice("v1")); batch.Put(Slice("k2"), Slice("v2")); batch.SetSavePoint(); WriteBatchInternal::MarkEndPrepare(&batch, Slice("xid1")); Status s = batch.RollbackToSavePoint(); ASSERT_EQ(s, Status::NotFound()); WriteBatchInternal::MarkCommit(&batch, Slice("xid1")); WriteBatchInternal::MarkRollback(&batch, Slice("xid1")); ASSERT_EQ(2, batch.Count()); TestHandler handler; batch.Iterate(&handler); ASSERT_EQ( "MarkBeginPrepare(false)" "Put(k1, v1)" "Put(k2, v2)" "MarkEndPrepare(xid1)" "MarkCommit(xid1)" "MarkRollback(xid1)", handler.seen); } // It requires more than 30GB of memory to run the test. With single memory // allocation of more than 30GB. // Not all platform can run it. Also it runs a long time. So disable it. TEST_F(WriteBatchTest, DISABLED_ManyUpdates) { // Insert key and value of 3GB and push total batch size to 12GB. static const size_t kKeyValueSize = 4u; static const uint32_t kNumUpdates = uint32_t(3 << 30); std::string raw(kKeyValueSize, 'A'); WriteBatch batch(kNumUpdates * (4 + kKeyValueSize * 2) + 1024u); char c = 'A'; for (uint32_t i = 0; i < kNumUpdates; i++) { if (c > 'Z') { c = 'A'; } raw[0] = c; raw[raw.length() - 1] = c; c++; batch.Put(raw, raw); } ASSERT_EQ(kNumUpdates, batch.Count()); struct NoopHandler : public WriteBatch::Handler { uint32_t num_seen = 0; char expected_char = 'A'; virtual Status PutCF(uint32_t /*column_family_id*/, const Slice& key, const Slice& value) override { EXPECT_EQ(kKeyValueSize, key.size()); EXPECT_EQ(kKeyValueSize, value.size()); EXPECT_EQ(expected_char, key[0]); EXPECT_EQ(expected_char, value[0]); EXPECT_EQ(expected_char, key[kKeyValueSize - 1]); EXPECT_EQ(expected_char, value[kKeyValueSize - 1]); expected_char++; if (expected_char > 'Z') { expected_char = 'A'; } ++num_seen; return Status::OK(); } virtual Status DeleteCF(uint32_t /*column_family_id*/, const Slice& /*key*/) override { ADD_FAILURE(); return Status::OK(); } virtual Status SingleDeleteCF(uint32_t /*column_family_id*/, const Slice& /*key*/) override { ADD_FAILURE(); return Status::OK(); } virtual Status MergeCF(uint32_t /*column_family_id*/, const Slice& /*key*/, const Slice& /*value*/) override { ADD_FAILURE(); return Status::OK(); } virtual void LogData(const Slice& /*blob*/) override { ADD_FAILURE(); } virtual bool Continue() override { return num_seen < kNumUpdates; } } handler; batch.Iterate(&handler); ASSERT_EQ(kNumUpdates, handler.num_seen); } // The test requires more than 18GB memory to run it, with single memory // allocation of more than 12GB. Not all the platform can run it. So disable it. TEST_F(WriteBatchTest, DISABLED_LargeKeyValue) { // Insert key and value of 3GB and push total batch size to 12GB. static const size_t kKeyValueSize = 3221225472u; std::string raw(kKeyValueSize, 'A'); WriteBatch batch(size_t(12884901888ull + 1024u)); for (char i = 0; i < 2; i++) { raw[0] = 'A' + i; raw[raw.length() - 1] = 'A' - i; batch.Put(raw, raw); } ASSERT_EQ(2, batch.Count()); struct NoopHandler : public WriteBatch::Handler { int num_seen = 0; virtual Status PutCF(uint32_t /*column_family_id*/, const Slice& key, const Slice& value) override { EXPECT_EQ(kKeyValueSize, key.size()); EXPECT_EQ(kKeyValueSize, value.size()); EXPECT_EQ('A' + num_seen, key[0]); EXPECT_EQ('A' + num_seen, value[0]); EXPECT_EQ('A' - num_seen, key[kKeyValueSize - 1]); EXPECT_EQ('A' - num_seen, value[kKeyValueSize - 1]); ++num_seen; return Status::OK(); } virtual Status DeleteCF(uint32_t /*column_family_id*/, const Slice& /*key*/) override { ADD_FAILURE(); return Status::OK(); } virtual Status SingleDeleteCF(uint32_t /*column_family_id*/, const Slice& /*key*/) override { ADD_FAILURE(); return Status::OK(); } virtual Status MergeCF(uint32_t /*column_family_id*/, const Slice& /*key*/, const Slice& /*value*/) override { ADD_FAILURE(); return Status::OK(); } virtual void LogData(const Slice& /*blob*/) override { ADD_FAILURE(); } virtual bool Continue() override { return num_seen < 2; } } handler; batch.Iterate(&handler); ASSERT_EQ(2, handler.num_seen); } TEST_F(WriteBatchTest, Continue) { WriteBatch batch; struct Handler : public TestHandler { int num_seen = 0; virtual Status PutCF(uint32_t column_family_id, const Slice& key, const Slice& value) override { ++num_seen; return TestHandler::PutCF(column_family_id, key, value); } virtual Status DeleteCF(uint32_t column_family_id, const Slice& key) override { ++num_seen; return TestHandler::DeleteCF(column_family_id, key); } virtual Status SingleDeleteCF(uint32_t column_family_id, const Slice& key) override { ++num_seen; return TestHandler::SingleDeleteCF(column_family_id, key); } virtual Status MergeCF(uint32_t column_family_id, const Slice& key, const Slice& value) override { ++num_seen; return TestHandler::MergeCF(column_family_id, key, value); } virtual void LogData(const Slice& blob) override { ++num_seen; TestHandler::LogData(blob); } virtual bool Continue() override { return num_seen < 5; } } handler; batch.Put(Slice("k1"), Slice("v1")); batch.Put(Slice("k2"), Slice("v2")); batch.PutLogData(Slice("blob1")); batch.Delete(Slice("k1")); batch.SingleDelete(Slice("k2")); batch.PutLogData(Slice("blob2")); batch.Merge(Slice("foo"), Slice("bar")); batch.Iterate(&handler); ASSERT_EQ( "Put(k1, v1)" "Put(k2, v2)" "LogData(blob1)" "Delete(k1)" "SingleDelete(k2)", handler.seen); } TEST_F(WriteBatchTest, PutGatherSlices) { WriteBatch batch; batch.Put(Slice("foo"), Slice("bar")); { // Try a write where the key is one slice but the value is two Slice key_slice("baz"); Slice value_slices[2] = { Slice("header"), Slice("payload") }; batch.Put(SliceParts(&key_slice, 1), SliceParts(value_slices, 2)); } { // One where the key is composite but the value is a single slice Slice key_slices[3] = { Slice("key"), Slice("part2"), Slice("part3") }; Slice value_slice("value"); batch.Put(SliceParts(key_slices, 3), SliceParts(&value_slice, 1)); } WriteBatchInternal::SetSequence(&batch, 100); ASSERT_EQ("Put(baz, headerpayload)@101" "Put(foo, bar)@100" "Put(keypart2part3, value)@102", PrintContents(&batch)); ASSERT_EQ(3, batch.Count()); } namespace { class ColumnFamilyHandleImplDummy : public ColumnFamilyHandleImpl { public: explicit ColumnFamilyHandleImplDummy(int id) : ColumnFamilyHandleImpl(nullptr, nullptr, nullptr), id_(id) {} uint32_t GetID() const override { return id_; } const Comparator* GetComparator() const override { return BytewiseComparator(); } private: uint32_t id_; }; } // namespace anonymous TEST_F(WriteBatchTest, ColumnFamiliesBatchTest) { WriteBatch batch; ColumnFamilyHandleImplDummy zero(0), two(2), three(3), eight(8); batch.Put(&zero, Slice("foo"), Slice("bar")); batch.Put(&two, Slice("twofoo"), Slice("bar2")); batch.Put(&eight, Slice("eightfoo"), Slice("bar8")); batch.Delete(&eight, Slice("eightfoo")); batch.SingleDelete(&two, Slice("twofoo")); batch.DeleteRange(&two, Slice("3foo"), Slice("4foo")); batch.Merge(&three, Slice("threethree"), Slice("3three")); batch.Put(&zero, Slice("foo"), Slice("bar")); batch.Merge(Slice("omom"), Slice("nom")); TestHandler handler; batch.Iterate(&handler); ASSERT_EQ( "Put(foo, bar)" "PutCF(2, twofoo, bar2)" "PutCF(8, eightfoo, bar8)" "DeleteCF(8, eightfoo)" "SingleDeleteCF(2, twofoo)" "DeleteRangeCF(2, 3foo, 4foo)" "MergeCF(3, threethree, 3three)" "Put(foo, bar)" "Merge(omom, nom)", handler.seen); } #ifndef ROCKSDB_LITE TEST_F(WriteBatchTest, ColumnFamiliesBatchWithIndexTest) { WriteBatchWithIndex batch; ColumnFamilyHandleImplDummy zero(0), two(2), three(3), eight(8); batch.Put(&zero, Slice("foo"), Slice("bar")); batch.Put(&two, Slice("twofoo"), Slice("bar2")); batch.Put(&eight, Slice("eightfoo"), Slice("bar8")); batch.Delete(&eight, Slice("eightfoo")); batch.SingleDelete(&two, Slice("twofoo")); batch.DeleteRange(&two, Slice("twofoo"), Slice("threefoo")); batch.Merge(&three, Slice("threethree"), Slice("3three")); batch.Put(&zero, Slice("foo"), Slice("bar")); batch.Merge(Slice("omom"), Slice("nom")); std::unique_ptr iter; iter.reset(batch.NewIterator(&eight)); iter->Seek("eightfoo"); ASSERT_OK(iter->status()); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(WriteType::kPutRecord, iter->Entry().type); ASSERT_EQ("eightfoo", iter->Entry().key.ToString()); ASSERT_EQ("bar8", iter->Entry().value.ToString()); iter->Next(); ASSERT_OK(iter->status()); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(WriteType::kDeleteRecord, iter->Entry().type); ASSERT_EQ("eightfoo", iter->Entry().key.ToString()); iter->Next(); ASSERT_OK(iter->status()); ASSERT_TRUE(!iter->Valid()); iter.reset(batch.NewIterator(&two)); iter->Seek("twofoo"); ASSERT_OK(iter->status()); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(WriteType::kPutRecord, iter->Entry().type); ASSERT_EQ("twofoo", iter->Entry().key.ToString()); ASSERT_EQ("bar2", iter->Entry().value.ToString()); iter->Next(); ASSERT_OK(iter->status()); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(WriteType::kSingleDeleteRecord, iter->Entry().type); ASSERT_EQ("twofoo", iter->Entry().key.ToString()); iter->Next(); ASSERT_OK(iter->status()); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(WriteType::kDeleteRangeRecord, iter->Entry().type); ASSERT_EQ("twofoo", iter->Entry().key.ToString()); ASSERT_EQ("threefoo", iter->Entry().value.ToString()); iter->Next(); ASSERT_OK(iter->status()); ASSERT_TRUE(!iter->Valid()); iter.reset(batch.NewIterator()); iter->Seek("gggg"); ASSERT_OK(iter->status()); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(WriteType::kMergeRecord, iter->Entry().type); ASSERT_EQ("omom", iter->Entry().key.ToString()); ASSERT_EQ("nom", iter->Entry().value.ToString()); iter->Next(); ASSERT_OK(iter->status()); ASSERT_TRUE(!iter->Valid()); iter.reset(batch.NewIterator(&zero)); iter->Seek("foo"); ASSERT_OK(iter->status()); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(WriteType::kPutRecord, iter->Entry().type); ASSERT_EQ("foo", iter->Entry().key.ToString()); ASSERT_EQ("bar", iter->Entry().value.ToString()); iter->Next(); ASSERT_OK(iter->status()); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(WriteType::kPutRecord, iter->Entry().type); ASSERT_EQ("foo", iter->Entry().key.ToString()); ASSERT_EQ("bar", iter->Entry().value.ToString()); iter->Next(); ASSERT_OK(iter->status()); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(WriteType::kMergeRecord, iter->Entry().type); ASSERT_EQ("omom", iter->Entry().key.ToString()); ASSERT_EQ("nom", iter->Entry().value.ToString()); iter->Next(); ASSERT_OK(iter->status()); ASSERT_TRUE(!iter->Valid()); TestHandler handler; batch.GetWriteBatch()->Iterate(&handler); ASSERT_EQ( "Put(foo, bar)" "PutCF(2, twofoo, bar2)" "PutCF(8, eightfoo, bar8)" "DeleteCF(8, eightfoo)" "SingleDeleteCF(2, twofoo)" "DeleteRangeCF(2, twofoo, threefoo)" "MergeCF(3, threethree, 3three)" "Put(foo, bar)" "Merge(omom, nom)", handler.seen); } #endif // !ROCKSDB_LITE TEST_F(WriteBatchTest, SavePointTest) { Status s; WriteBatch batch; batch.SetSavePoint(); batch.Put("A", "a"); batch.Put("B", "b"); batch.SetSavePoint(); batch.Put("C", "c"); batch.Delete("A"); batch.SetSavePoint(); batch.SetSavePoint(); ASSERT_OK(batch.RollbackToSavePoint()); ASSERT_EQ( "Delete(A)@3" "Put(A, a)@0" "Put(B, b)@1" "Put(C, c)@2", PrintContents(&batch)); ASSERT_OK(batch.RollbackToSavePoint()); ASSERT_OK(batch.RollbackToSavePoint()); ASSERT_EQ( "Put(A, a)@0" "Put(B, b)@1", PrintContents(&batch)); batch.Delete("A"); batch.Put("B", "bb"); ASSERT_OK(batch.RollbackToSavePoint()); ASSERT_EQ("", PrintContents(&batch)); s = batch.RollbackToSavePoint(); ASSERT_TRUE(s.IsNotFound()); ASSERT_EQ("", PrintContents(&batch)); batch.Put("D", "d"); batch.Delete("A"); batch.SetSavePoint(); batch.Put("A", "aaa"); ASSERT_OK(batch.RollbackToSavePoint()); ASSERT_EQ( "Delete(A)@1" "Put(D, d)@0", PrintContents(&batch)); batch.SetSavePoint(); batch.Put("D", "d"); batch.Delete("A"); ASSERT_OK(batch.RollbackToSavePoint()); ASSERT_EQ( "Delete(A)@1" "Put(D, d)@0", PrintContents(&batch)); s = batch.RollbackToSavePoint(); ASSERT_TRUE(s.IsNotFound()); ASSERT_EQ( "Delete(A)@1" "Put(D, d)@0", PrintContents(&batch)); WriteBatch batch2; s = batch2.RollbackToSavePoint(); ASSERT_TRUE(s.IsNotFound()); ASSERT_EQ("", PrintContents(&batch2)); batch2.Delete("A"); batch2.SetSavePoint(); s = batch2.RollbackToSavePoint(); ASSERT_OK(s); ASSERT_EQ("Delete(A)@0", PrintContents(&batch2)); batch2.Clear(); ASSERT_EQ("", PrintContents(&batch2)); batch2.SetSavePoint(); batch2.Delete("B"); ASSERT_EQ("Delete(B)@0", PrintContents(&batch2)); batch2.SetSavePoint(); s = batch2.RollbackToSavePoint(); ASSERT_OK(s); ASSERT_EQ("Delete(B)@0", PrintContents(&batch2)); s = batch2.RollbackToSavePoint(); ASSERT_OK(s); ASSERT_EQ("", PrintContents(&batch2)); s = batch2.RollbackToSavePoint(); ASSERT_TRUE(s.IsNotFound()); ASSERT_EQ("", PrintContents(&batch2)); WriteBatch batch3; s = batch3.PopSavePoint(); ASSERT_TRUE(s.IsNotFound()); ASSERT_EQ("", PrintContents(&batch3)); batch3.SetSavePoint(); batch3.Delete("A"); s = batch3.PopSavePoint(); ASSERT_OK(s); ASSERT_EQ("Delete(A)@0", PrintContents(&batch3)); } TEST_F(WriteBatchTest, MemoryLimitTest) { Status s; // The header size is 12 bytes. The two Puts take 8 bytes which gives total // of 12 + 8 * 2 = 28 bytes. WriteBatch batch(0, 28); ASSERT_OK(batch.Put("a", "....")); ASSERT_OK(batch.Put("b", "....")); s = batch.Put("c", "...."); ASSERT_TRUE(s.IsMemoryLimit()); } } // namespace rocksdb int main(int argc, char** argv) { ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/db/write_callback.h000066400000000000000000000014431337235545400167560ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #include "rocksdb/status.h" namespace rocksdb { class DB; class WriteCallback { public: virtual ~WriteCallback() {} // Will be called while on the write thread before the write executes. If // this function returns a non-OK status, the write will be aborted and this // status will be returned to the caller of DB::Write(). virtual Status Callback(DB* db) = 0; // return true if writes with this callback can be batched with other writes virtual bool AllowWriteBatching() = 0; }; } // namespace rocksdb rocksdb-5.17.2/db/write_callback_test.cc000066400000000000000000000351011337235545400201510ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #ifndef ROCKSDB_LITE #include #include #include #include #include #include "db/db_impl.h" #include "db/write_callback.h" #include "rocksdb/db.h" #include "rocksdb/write_batch.h" #include "port/port.h" #include "util/random.h" #include "util/sync_point.h" #include "util/testharness.h" using std::string; namespace rocksdb { class WriteCallbackTest : public testing::Test { public: string dbname; WriteCallbackTest() { dbname = test::PerThreadDBPath("write_callback_testdb"); } }; class WriteCallbackTestWriteCallback1 : public WriteCallback { public: bool was_called = false; Status Callback(DB *db) override { was_called = true; // Make sure db is a DBImpl DBImpl* db_impl = dynamic_cast (db); if (db_impl == nullptr) { return Status::InvalidArgument(""); } return Status::OK(); } bool AllowWriteBatching() override { return true; } }; class WriteCallbackTestWriteCallback2 : public WriteCallback { public: Status Callback(DB* /*db*/) override { return Status::Busy(); } bool AllowWriteBatching() override { return true; } }; class MockWriteCallback : public WriteCallback { public: bool should_fail_ = false; bool allow_batching_ = false; std::atomic was_called_{false}; MockWriteCallback() {} MockWriteCallback(const MockWriteCallback& other) { should_fail_ = other.should_fail_; allow_batching_ = other.allow_batching_; was_called_.store(other.was_called_.load()); } Status Callback(DB* /*db*/) override { was_called_.store(true); if (should_fail_) { return Status::Busy(); } else { return Status::OK(); } } bool AllowWriteBatching() override { return allow_batching_; } }; TEST_F(WriteCallbackTest, WriteWithCallbackTest) { struct WriteOP { WriteOP(bool should_fail = false) { callback_.should_fail_ = should_fail; } void Put(const string& key, const string& val) { kvs_.push_back(std::make_pair(key, val)); write_batch_.Put(key, val); } void Clear() { kvs_.clear(); write_batch_.Clear(); callback_.was_called_.store(false); } MockWriteCallback callback_; WriteBatch write_batch_; std::vector> kvs_; }; // In each scenario we'll launch multiple threads to write. // The size of each array equals to number of threads, and // each boolean in it denote whether callback of corresponding // thread should succeed or fail. std::vector> write_scenarios = { {true}, {false}, {false, false}, {true, true}, {true, false}, {false, true}, {false, false, false}, {true, true, true}, {false, true, false}, {true, false, true}, {true, false, false, false, false}, {false, false, false, false, true}, {false, false, true, false, true}, }; for (auto& seq_per_batch : {true, false}) { for (auto& two_queues : {true, false}) { for (auto& allow_parallel : {true, false}) { for (auto& allow_batching : {true, false}) { for (auto& enable_WAL : {true, false}) { for (auto& enable_pipelined_write : {true, false}) { for (auto& write_group : write_scenarios) { Options options; options.create_if_missing = true; options.allow_concurrent_memtable_write = allow_parallel; options.enable_pipelined_write = enable_pipelined_write; options.two_write_queues = two_queues; if (options.enable_pipelined_write && seq_per_batch) { // This combination is not supported continue; } if (options.enable_pipelined_write && options.two_write_queues) { // This combination is not supported continue; } ReadOptions read_options; DB* db; DBImpl* db_impl; DestroyDB(dbname, options); DBOptions db_options(options); ColumnFamilyOptions cf_options(options); std::vector column_families; column_families.push_back( ColumnFamilyDescriptor(kDefaultColumnFamilyName, cf_options)); std::vector handles; auto open_s = DBImpl::Open(db_options, dbname, column_families, &handles, &db, seq_per_batch, true /* batch_per_txn */); ASSERT_OK(open_s); assert(handles.size() == 1); delete handles[0]; db_impl = dynamic_cast(db); ASSERT_TRUE(db_impl); // Writers that have called JoinBatchGroup. std::atomic threads_joining(0); // Writers that have linked to the queue std::atomic threads_linked(0); // Writers that pass WriteThread::JoinBatchGroup:Wait sync-point. std::atomic threads_verified(0); std::atomic seq(db_impl->GetLatestSequenceNumber()); ASSERT_EQ(db_impl->GetLatestSequenceNumber(), 0); rocksdb::SyncPoint::GetInstance()->SetCallBack( "WriteThread::JoinBatchGroup:Start", [&](void*) { uint64_t cur_threads_joining = threads_joining.fetch_add(1); // Wait for the last joined writer to link to the queue. // In this way the writers link to the queue one by one. // This allows us to confidently detect the first writer // who increases threads_linked as the leader. while (threads_linked.load() < cur_threads_joining) { } }); // Verification once writers call JoinBatchGroup. rocksdb::SyncPoint::GetInstance()->SetCallBack( "WriteThread::JoinBatchGroup:Wait", [&](void* arg) { uint64_t cur_threads_linked = threads_linked.fetch_add(1); bool is_leader = false; bool is_last = false; // who am i is_leader = (cur_threads_linked == 0); is_last = (cur_threads_linked == write_group.size() - 1); // check my state auto* writer = reinterpret_cast(arg); if (is_leader) { ASSERT_TRUE(writer->state == WriteThread::State::STATE_GROUP_LEADER); } else { ASSERT_TRUE(writer->state == WriteThread::State::STATE_INIT); } // (meta test) the first WriteOP should indeed be the first // and the last should be the last (all others can be out of // order) if (is_leader) { ASSERT_TRUE(writer->callback->Callback(nullptr).ok() == !write_group.front().callback_.should_fail_); } else if (is_last) { ASSERT_TRUE(writer->callback->Callback(nullptr).ok() == !write_group.back().callback_.should_fail_); } threads_verified.fetch_add(1); // Wait here until all verification in this sync-point // callback finish for all writers. while (threads_verified.load() < write_group.size()) { } }); rocksdb::SyncPoint::GetInstance()->SetCallBack( "WriteThread::JoinBatchGroup:DoneWaiting", [&](void* arg) { // check my state auto* writer = reinterpret_cast(arg); if (!allow_batching) { // no batching so everyone should be a leader ASSERT_TRUE(writer->state == WriteThread::State::STATE_GROUP_LEADER); } else if (!allow_parallel) { ASSERT_TRUE(writer->state == WriteThread::State::STATE_COMPLETED || (enable_pipelined_write && writer->state == WriteThread::State:: STATE_MEMTABLE_WRITER_LEADER)); } }); std::atomic thread_num(0); std::atomic dummy_key(0); // Each write thread create a random write batch and write to DB // with a write callback. std::function write_with_callback_func = [&]() { uint32_t i = thread_num.fetch_add(1); Random rnd(i); // leaders gotta lead while (i > 0 && threads_verified.load() < 1) { } // loser has to lose while (i == write_group.size() - 1 && threads_verified.load() < write_group.size() - 1) { } auto& write_op = write_group.at(i); write_op.Clear(); write_op.callback_.allow_batching_ = allow_batching; // insert some keys for (uint32_t j = 0; j < rnd.Next() % 50; j++) { // grab unique key char my_key = dummy_key.fetch_add(1); string skey(5, my_key); string sval(10, my_key); write_op.Put(skey, sval); if (!write_op.callback_.should_fail_ && !seq_per_batch) { seq.fetch_add(1); } } if (!write_op.callback_.should_fail_ && seq_per_batch) { seq.fetch_add(1); } WriteOptions woptions; woptions.disableWAL = !enable_WAL; woptions.sync = enable_WAL; Status s; if (seq_per_batch) { class PublishSeqCallback : public PreReleaseCallback { public: PublishSeqCallback(DBImpl* db_impl_in) : db_impl_(db_impl_in) {} virtual Status Callback(SequenceNumber last_seq, bool /*not used*/) override { db_impl_->SetLastPublishedSequence(last_seq); return Status::OK(); } DBImpl* db_impl_; } publish_seq_callback(db_impl); // seq_per_batch requires a natural batch separator or Noop WriteBatchInternal::InsertNoop(&write_op.write_batch_); const size_t ONE_BATCH = 1; s = db_impl->WriteImpl( woptions, &write_op.write_batch_, &write_op.callback_, nullptr, 0, false, nullptr, ONE_BATCH, two_queues ? &publish_seq_callback : nullptr); } else { s = db_impl->WriteWithCallback( woptions, &write_op.write_batch_, &write_op.callback_); } if (write_op.callback_.should_fail_) { ASSERT_TRUE(s.IsBusy()); } else { ASSERT_OK(s); } }; rocksdb::SyncPoint::GetInstance()->EnableProcessing(); // do all the writes std::vector threads; for (uint32_t i = 0; i < write_group.size(); i++) { threads.emplace_back(write_with_callback_func); } for (auto& t : threads) { t.join(); } rocksdb::SyncPoint::GetInstance()->DisableProcessing(); // check for keys string value; for (auto& w : write_group) { ASSERT_TRUE(w.callback_.was_called_.load()); for (auto& kvp : w.kvs_) { if (w.callback_.should_fail_) { ASSERT_TRUE( db->Get(read_options, kvp.first, &value).IsNotFound()); } else { ASSERT_OK(db->Get(read_options, kvp.first, &value)); ASSERT_EQ(value, kvp.second); } } } ASSERT_EQ(seq.load(), db_impl->TEST_GetLastVisibleSequence()); delete db; DestroyDB(dbname, options); } } } } } } } } TEST_F(WriteCallbackTest, WriteCallBackTest) { Options options; WriteOptions write_options; ReadOptions read_options; string value; DB* db; DBImpl* db_impl; DestroyDB(dbname, options); options.create_if_missing = true; Status s = DB::Open(options, dbname, &db); ASSERT_OK(s); db_impl = dynamic_cast (db); ASSERT_TRUE(db_impl); WriteBatch wb; wb.Put("a", "value.a"); wb.Delete("x"); // Test a simple Write s = db->Write(write_options, &wb); ASSERT_OK(s); s = db->Get(read_options, "a", &value); ASSERT_OK(s); ASSERT_EQ("value.a", value); // Test WriteWithCallback WriteCallbackTestWriteCallback1 callback1; WriteBatch wb2; wb2.Put("a", "value.a2"); s = db_impl->WriteWithCallback(write_options, &wb2, &callback1); ASSERT_OK(s); ASSERT_TRUE(callback1.was_called); s = db->Get(read_options, "a", &value); ASSERT_OK(s); ASSERT_EQ("value.a2", value); // Test WriteWithCallback for a callback that fails WriteCallbackTestWriteCallback2 callback2; WriteBatch wb3; wb3.Put("a", "value.a3"); s = db_impl->WriteWithCallback(write_options, &wb3, &callback2); ASSERT_NOK(s); s = db->Get(read_options, "a", &value); ASSERT_OK(s); ASSERT_EQ("value.a2", value); delete db; DestroyDB(dbname, options); } } // namespace rocksdb int main(int argc, char** argv) { ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } #else #include int main(int /*argc*/, char** /*argv*/) { fprintf(stderr, "SKIPPED as WriteWithCallback is not supported in ROCKSDB_LITE\n"); return 0; } #endif // !ROCKSDB_LITE rocksdb-5.17.2/db/write_controller.cc000066400000000000000000000100241337235545400175360ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include "db/write_controller.h" #include #include #include #include "rocksdb/env.h" namespace rocksdb { std::unique_ptr WriteController::GetStopToken() { ++total_stopped_; return std::unique_ptr(new StopWriteToken(this)); } std::unique_ptr WriteController::GetDelayToken( uint64_t write_rate) { total_delayed_++; // Reset counters. last_refill_time_ = 0; bytes_left_ = 0; set_delayed_write_rate(write_rate); return std::unique_ptr(new DelayWriteToken(this)); } std::unique_ptr WriteController::GetCompactionPressureToken() { ++total_compaction_pressure_; return std::unique_ptr( new CompactionPressureToken(this)); } bool WriteController::IsStopped() const { return total_stopped_.load(std::memory_order_relaxed) > 0; } // This is inside DB mutex, so we can't sleep and need to minimize // frequency to get time. // If it turns out to be a performance issue, we can redesign the thread // synchronization model here. // The function trust caller will sleep micros returned. uint64_t WriteController::GetDelay(Env* env, uint64_t num_bytes) { if (total_stopped_.load(std::memory_order_relaxed) > 0) { return 0; } if (total_delayed_.load(std::memory_order_relaxed) == 0) { return 0; } const uint64_t kMicrosPerSecond = 1000000; const uint64_t kRefillInterval = 1024U; if (bytes_left_ >= num_bytes) { bytes_left_ -= num_bytes; return 0; } // The frequency to get time inside DB mutex is less than one per refill // interval. auto time_now = NowMicrosMonotonic(env); uint64_t sleep_debt = 0; uint64_t time_since_last_refill = 0; if (last_refill_time_ != 0) { if (last_refill_time_ > time_now) { sleep_debt = last_refill_time_ - time_now; } else { time_since_last_refill = time_now - last_refill_time_; bytes_left_ += static_cast(static_cast(time_since_last_refill) / kMicrosPerSecond * delayed_write_rate_); if (time_since_last_refill >= kRefillInterval && bytes_left_ > num_bytes) { // If refill interval already passed and we have enough bytes // return without extra sleeping. last_refill_time_ = time_now; bytes_left_ -= num_bytes; return 0; } } } uint64_t single_refill_amount = delayed_write_rate_ * kRefillInterval / kMicrosPerSecond; if (bytes_left_ + single_refill_amount >= num_bytes) { // Wait until a refill interval // Never trigger expire for less than one refill interval to avoid to get // time. bytes_left_ = bytes_left_ + single_refill_amount - num_bytes; last_refill_time_ = time_now + kRefillInterval; return kRefillInterval + sleep_debt; } // Need to refill more than one interval. Need to sleep longer. Check // whether expiration will hit // Sleep just until `num_bytes` is allowed. uint64_t sleep_amount = static_cast(num_bytes / static_cast(delayed_write_rate_) * kMicrosPerSecond) + sleep_debt; last_refill_time_ = time_now + sleep_amount; return sleep_amount; } uint64_t WriteController::NowMicrosMonotonic(Env* env) { return env->NowNanos() / std::milli::den; } StopWriteToken::~StopWriteToken() { assert(controller_->total_stopped_ >= 1); --controller_->total_stopped_; } DelayWriteToken::~DelayWriteToken() { controller_->total_delayed_--; assert(controller_->total_delayed_.load() >= 0); } CompactionPressureToken::~CompactionPressureToken() { controller_->total_compaction_pressure_--; assert(controller_->total_compaction_pressure_ >= 0); } } // namespace rocksdb rocksdb-5.17.2/db/write_controller.h000066400000000000000000000113071337235545400174050ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #include #include #include #include "rocksdb/rate_limiter.h" namespace rocksdb { class Env; class WriteControllerToken; // WriteController is controlling write stalls in our write code-path. Write // stalls happen when compaction can't keep up with write rate. // All of the methods here (including WriteControllerToken's destructors) need // to be called while holding DB mutex class WriteController { public: explicit WriteController(uint64_t _delayed_write_rate = 1024u * 1024u * 32u, int64_t low_pri_rate_bytes_per_sec = 1024 * 1024) : total_stopped_(0), total_delayed_(0), total_compaction_pressure_(0), bytes_left_(0), last_refill_time_(0), low_pri_rate_limiter_( NewGenericRateLimiter(low_pri_rate_bytes_per_sec)) { set_max_delayed_write_rate(_delayed_write_rate); } ~WriteController() = default; // When an actor (column family) requests a stop token, all writes will be // stopped until the stop token is released (deleted) std::unique_ptr GetStopToken(); // When an actor (column family) requests a delay token, total delay for all // writes to the DB will be controlled under the delayed write rate. Every // write needs to call GetDelay() with number of bytes writing to the DB, // which returns number of microseconds to sleep. std::unique_ptr GetDelayToken( uint64_t delayed_write_rate); // When an actor (column family) requests a moderate token, compaction // threads will be increased std::unique_ptr GetCompactionPressureToken(); // these three metods are querying the state of the WriteController bool IsStopped() const; bool NeedsDelay() const { return total_delayed_.load() > 0; } bool NeedSpeedupCompaction() const { return IsStopped() || NeedsDelay() || total_compaction_pressure_ > 0; } // return how many microseconds the caller needs to sleep after the call // num_bytes: how many number of bytes to put into the DB. // Prerequisite: DB mutex held. uint64_t GetDelay(Env* env, uint64_t num_bytes); void set_delayed_write_rate(uint64_t write_rate) { // avoid divide 0 if (write_rate == 0) { write_rate = 1u; } else if (write_rate > max_delayed_write_rate()) { write_rate = max_delayed_write_rate(); } delayed_write_rate_ = write_rate; } void set_max_delayed_write_rate(uint64_t write_rate) { // avoid divide 0 if (write_rate == 0) { write_rate = 1u; } max_delayed_write_rate_ = write_rate; // update delayed_write_rate_ as well delayed_write_rate_ = write_rate; } uint64_t delayed_write_rate() const { return delayed_write_rate_; } uint64_t max_delayed_write_rate() const { return max_delayed_write_rate_; } RateLimiter* low_pri_rate_limiter() { return low_pri_rate_limiter_.get(); } private: uint64_t NowMicrosMonotonic(Env* env); friend class WriteControllerToken; friend class StopWriteToken; friend class DelayWriteToken; friend class CompactionPressureToken; std::atomic total_stopped_; std::atomic total_delayed_; std::atomic total_compaction_pressure_; uint64_t bytes_left_; uint64_t last_refill_time_; // write rate set when initialization or by `DBImpl::SetDBOptions` uint64_t max_delayed_write_rate_; // current write rate uint64_t delayed_write_rate_; std::unique_ptr low_pri_rate_limiter_; }; class WriteControllerToken { public: explicit WriteControllerToken(WriteController* controller) : controller_(controller) {} virtual ~WriteControllerToken() {} protected: WriteController* controller_; private: // no copying allowed WriteControllerToken(const WriteControllerToken&) = delete; void operator=(const WriteControllerToken&) = delete; }; class StopWriteToken : public WriteControllerToken { public: explicit StopWriteToken(WriteController* controller) : WriteControllerToken(controller) {} virtual ~StopWriteToken(); }; class DelayWriteToken : public WriteControllerToken { public: explicit DelayWriteToken(WriteController* controller) : WriteControllerToken(controller) {} virtual ~DelayWriteToken(); }; class CompactionPressureToken : public WriteControllerToken { public: explicit CompactionPressureToken(WriteController* controller) : WriteControllerToken(controller) {} virtual ~CompactionPressureToken(); }; } // namespace rocksdb rocksdb-5.17.2/db/write_controller_test.cc000066400000000000000000000112301337235545400205750ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // #include #include "db/write_controller.h" #include "rocksdb/env.h" #include "util/testharness.h" namespace rocksdb { class WriteControllerTest : public testing::Test {}; class TimeSetEnv : public EnvWrapper { public: explicit TimeSetEnv() : EnvWrapper(nullptr) {} uint64_t now_micros_ = 6666; virtual uint64_t NowNanos() override { return now_micros_ * std::milli::den; } }; TEST_F(WriteControllerTest, ChangeDelayRateTest) { TimeSetEnv env; WriteController controller(40000000u); // also set max delayed rate controller.set_delayed_write_rate(10000000u); auto delay_token_0 = controller.GetDelayToken(controller.delayed_write_rate()); ASSERT_EQ(static_cast(2000000), controller.GetDelay(&env, 20000000u)); auto delay_token_1 = controller.GetDelayToken(2000000u); ASSERT_EQ(static_cast(10000000), controller.GetDelay(&env, 20000000u)); auto delay_token_2 = controller.GetDelayToken(1000000u); ASSERT_EQ(static_cast(20000000), controller.GetDelay(&env, 20000000u)); auto delay_token_3 = controller.GetDelayToken(20000000u); ASSERT_EQ(static_cast(1000000), controller.GetDelay(&env, 20000000u)); // This is more than max rate. Max delayed rate will be used. auto delay_token_4 = controller.GetDelayToken(controller.delayed_write_rate() * 3); ASSERT_EQ(static_cast(500000), controller.GetDelay(&env, 20000000u)); } TEST_F(WriteControllerTest, SanityTest) { WriteController controller(10000000u); auto stop_token_1 = controller.GetStopToken(); auto stop_token_2 = controller.GetStopToken(); ASSERT_TRUE(controller.IsStopped()); stop_token_1.reset(); ASSERT_TRUE(controller.IsStopped()); stop_token_2.reset(); ASSERT_FALSE(controller.IsStopped()); TimeSetEnv env; auto delay_token_1 = controller.GetDelayToken(10000000u); ASSERT_EQ(static_cast(2000000), controller.GetDelay(&env, 20000000u)); env.now_micros_ += 1999900u; // sleep debt 1000 auto delay_token_2 = controller.GetDelayToken(10000000u); // Rate reset after changing the token. ASSERT_EQ(static_cast(2000000), controller.GetDelay(&env, 20000000u)); env.now_micros_ += 1999900u; // sleep debt 1000 // One refill: 10240 bytes allowed, 1000 used, 9240 left ASSERT_EQ(static_cast(1124), controller.GetDelay(&env, 1000u)); env.now_micros_ += 1124u; // sleep debt 0 delay_token_2.reset(); // 1000 used, 8240 left ASSERT_EQ(static_cast(0), controller.GetDelay(&env, 1000u)); env.now_micros_ += 100u; // sleep credit 100 // 1000 used, 7240 left ASSERT_EQ(static_cast(0), controller.GetDelay(&env, 1000u)); env.now_micros_ += 100u; // sleep credit 200 // One refill: 10240 fileed, sleep credit generates 2000. 8000 used // 7240 + 10240 + 2000 - 8000 = 11480 left ASSERT_EQ(static_cast(1024u), controller.GetDelay(&env, 8000u)); env.now_micros_ += 200u; // sleep debt 824 // 1000 used, 10480 left. ASSERT_EQ(static_cast(0), controller.GetDelay(&env, 1000u)); env.now_micros_ += 200u; // sleep debt 624 // Out of bound sleep, still 10480 left ASSERT_EQ(static_cast(3000624u), controller.GetDelay(&env, 30000000u)); env.now_micros_ += 3000724u; // sleep credit 100 // 6000 used, 4480 left. ASSERT_EQ(static_cast(0), controller.GetDelay(&env, 6000u)); env.now_micros_ += 200u; // sleep credit 300 // One refill, credit 4480 balance + 3000 credit + 10240 refill // Use 8000, 9720 left ASSERT_EQ(static_cast(1024u), controller.GetDelay(&env, 8000u)); env.now_micros_ += 3024u; // sleep credit 2000 // 1720 left ASSERT_EQ(static_cast(0u), controller.GetDelay(&env, 8000u)); // 1720 balance + 20000 credit = 20170 left // Use 8000, 12170 left ASSERT_EQ(static_cast(0u), controller.GetDelay(&env, 8000u)); // 4170 left ASSERT_EQ(static_cast(0u), controller.GetDelay(&env, 8000u)); // Need a refill ASSERT_EQ(static_cast(1024u), controller.GetDelay(&env, 9000u)); delay_token_1.reset(); ASSERT_EQ(static_cast(0), controller.GetDelay(&env, 30000000u)); delay_token_1.reset(); ASSERT_FALSE(controller.IsStopped()); } } // namespace rocksdb int main(int argc, char** argv) { ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/db/write_thread.cc000066400000000000000000000665751337235545400166500ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include "db/write_thread.h" #include #include #include "db/column_family.h" #include "monitoring/perf_context_imp.h" #include "port/port.h" #include "util/random.h" #include "util/sync_point.h" namespace rocksdb { WriteThread::WriteThread(const ImmutableDBOptions& db_options) : max_yield_usec_(db_options.enable_write_thread_adaptive_yield ? db_options.write_thread_max_yield_usec : 0), slow_yield_usec_(db_options.write_thread_slow_yield_usec), allow_concurrent_memtable_write_( db_options.allow_concurrent_memtable_write), enable_pipelined_write_(db_options.enable_pipelined_write), newest_writer_(nullptr), newest_memtable_writer_(nullptr), last_sequence_(0), write_stall_dummy_(), stall_mu_(), stall_cv_(&stall_mu_) {} uint8_t WriteThread::BlockingAwaitState(Writer* w, uint8_t goal_mask) { // We're going to block. Lazily create the mutex. We guarantee // propagation of this construction to the waker via the // STATE_LOCKED_WAITING state. The waker won't try to touch the mutex // or the condvar unless they CAS away the STATE_LOCKED_WAITING that // we install below. w->CreateMutex(); auto state = w->state.load(std::memory_order_acquire); assert(state != STATE_LOCKED_WAITING); if ((state & goal_mask) == 0 && w->state.compare_exchange_strong(state, STATE_LOCKED_WAITING)) { // we have permission (and an obligation) to use StateMutex std::unique_lock guard(w->StateMutex()); w->StateCV().wait(guard, [w] { return w->state.load(std::memory_order_relaxed) != STATE_LOCKED_WAITING; }); state = w->state.load(std::memory_order_relaxed); } // else tricky. Goal is met or CAS failed. In the latter case the waker // must have changed the state, and compare_exchange_strong has updated // our local variable with the new one. At the moment WriteThread never // waits for a transition across intermediate states, so we know that // since a state change has occurred the goal must have been met. assert((state & goal_mask) != 0); return state; } uint8_t WriteThread::AwaitState(Writer* w, uint8_t goal_mask, AdaptationContext* ctx) { uint8_t state; // 1. Busy loop using "pause" for 1 micro sec // 2. Else SOMETIMES busy loop using "yield" for 100 micro sec (default) // 3. Else blocking wait // On a modern Xeon each loop takes about 7 nanoseconds (most of which // is the effect of the pause instruction), so 200 iterations is a bit // more than a microsecond. This is long enough that waits longer than // this can amortize the cost of accessing the clock and yielding. for (uint32_t tries = 0; tries < 200; ++tries) { state = w->state.load(std::memory_order_acquire); if ((state & goal_mask) != 0) { return state; } port::AsmVolatilePause(); } // This is below the fast path, so that the stat is zero when all writes are // from the same thread. PERF_TIMER_GUARD(write_thread_wait_nanos); // If we're only going to end up waiting a short period of time, // it can be a lot more efficient to call std::this_thread::yield() // in a loop than to block in StateMutex(). For reference, on my 4.0 // SELinux test server with support for syscall auditing enabled, the // minimum latency between FUTEX_WAKE to returning from FUTEX_WAIT is // 2.7 usec, and the average is more like 10 usec. That can be a big // drag on RockDB's single-writer design. Of course, spinning is a // bad idea if other threads are waiting to run or if we're going to // wait for a long time. How do we decide? // // We break waiting into 3 categories: short-uncontended, // short-contended, and long. If we had an oracle, then we would always // spin for short-uncontended, always block for long, and our choice for // short-contended might depend on whether we were trying to optimize // RocksDB throughput or avoid being greedy with system resources. // // Bucketing into short or long is easy by measuring elapsed time. // Differentiating short-uncontended from short-contended is a bit // trickier, but not too bad. We could look for involuntary context // switches using getrusage(RUSAGE_THREAD, ..), but it's less work // (portability code and CPU) to just look for yield calls that take // longer than we expect. sched_yield() doesn't actually result in any // context switch overhead if there are no other runnable processes // on the current core, in which case it usually takes less than // a microsecond. // // There are two primary tunables here: the threshold between "short" // and "long" waits, and the threshold at which we suspect that a yield // is slow enough to indicate we should probably block. If these // thresholds are chosen well then CPU-bound workloads that don't // have more threads than cores will experience few context switches // (voluntary or involuntary), and the total number of context switches // (voluntary and involuntary) will not be dramatically larger (maybe // 2x) than the number of voluntary context switches that occur when // --max_yield_wait_micros=0. // // There's another constant, which is the number of slow yields we will // tolerate before reversing our previous decision. Solitary slow // yields are pretty common (low-priority small jobs ready to run), // so this should be at least 2. We set this conservatively to 3 so // that we can also immediately schedule a ctx adaptation, rather than // waiting for the next update_ctx. const size_t kMaxSlowYieldsWhileSpinning = 3; // Whether the yield approach has any credit in this context. The credit is // added by yield being succesfull before timing out, and decreased otherwise. auto& yield_credit = ctx->value; // Update the yield_credit based on sample runs or right after a hard failure bool update_ctx = false; // Should we reinforce the yield credit bool would_spin_again = false; // The samling base for updating the yeild credit. The sampling rate would be // 1/sampling_base. const int sampling_base = 256; if (max_yield_usec_ > 0) { update_ctx = Random::GetTLSInstance()->OneIn(sampling_base); if (update_ctx || yield_credit.load(std::memory_order_relaxed) >= 0) { // we're updating the adaptation statistics, or spinning has > // 50% chance of being shorter than max_yield_usec_ and causing no // involuntary context switches auto spin_begin = std::chrono::steady_clock::now(); // this variable doesn't include the final yield (if any) that // causes the goal to be met size_t slow_yield_count = 0; auto iter_begin = spin_begin; while ((iter_begin - spin_begin) <= std::chrono::microseconds(max_yield_usec_)) { std::this_thread::yield(); state = w->state.load(std::memory_order_acquire); if ((state & goal_mask) != 0) { // success would_spin_again = true; break; } auto now = std::chrono::steady_clock::now(); if (now == iter_begin || now - iter_begin >= std::chrono::microseconds(slow_yield_usec_)) { // conservatively count it as a slow yield if our clock isn't // accurate enough to measure the yield duration ++slow_yield_count; if (slow_yield_count >= kMaxSlowYieldsWhileSpinning) { // Not just one ivcsw, but several. Immediately update yield_credit // and fall back to blocking update_ctx = true; break; } } iter_begin = now; } } } if ((state & goal_mask) == 0) { state = BlockingAwaitState(w, goal_mask); } if (update_ctx) { // Since our update is sample based, it is ok if a thread overwrites the // updates by other threads. Thus the update does not have to be atomic. auto v = yield_credit.load(std::memory_order_relaxed); // fixed point exponential decay with decay constant 1/1024, with +1 // and -1 scaled to avoid overflow for int32_t // // On each update the positive credit is decayed by a facor of 1/1024 (i.e., // 0.1%). If the sampled yield was successful, the credit is also increased // by X. Setting X=2^17 ensures that the credit never exceeds // 2^17*2^10=2^27, which is lower than 2^31 the upperbound of int32_t. Same // logic applies to negative credits. v = v - (v / 1024) + (would_spin_again ? 1 : -1) * 131072; yield_credit.store(v, std::memory_order_relaxed); } assert((state & goal_mask) != 0); return state; } void WriteThread::SetState(Writer* w, uint8_t new_state) { auto state = w->state.load(std::memory_order_acquire); if (state == STATE_LOCKED_WAITING || !w->state.compare_exchange_strong(state, new_state)) { assert(state == STATE_LOCKED_WAITING); std::lock_guard guard(w->StateMutex()); assert(w->state.load(std::memory_order_relaxed) != new_state); w->state.store(new_state, std::memory_order_relaxed); w->StateCV().notify_one(); } } bool WriteThread::LinkOne(Writer* w, std::atomic* newest_writer) { assert(newest_writer != nullptr); assert(w->state == STATE_INIT); Writer* writers = newest_writer->load(std::memory_order_relaxed); while (true) { // If write stall in effect, and w->no_slowdown is not true, // block here until stall is cleared. If its true, then return // immediately if (writers == &write_stall_dummy_) { if (w->no_slowdown) { w->status = Status::Incomplete("Write stall"); SetState(w, STATE_COMPLETED); return false; } // Since no_slowdown is false, wait here to be notified of the write // stall clearing { MutexLock lock(&stall_mu_); writers = newest_writer->load(std::memory_order_relaxed); if (writers == &write_stall_dummy_) { stall_cv_.Wait(); // Load newest_writers_ again since it may have changed writers = newest_writer->load(std::memory_order_relaxed); continue; } } } w->link_older = writers; if (newest_writer->compare_exchange_weak(writers, w)) { return (writers == nullptr); } } } bool WriteThread::LinkGroup(WriteGroup& write_group, std::atomic* newest_writer) { assert(newest_writer != nullptr); Writer* leader = write_group.leader; Writer* last_writer = write_group.last_writer; Writer* w = last_writer; while (true) { // Unset link_newer pointers to make sure when we call // CreateMissingNewerLinks later it create all missing links. w->link_newer = nullptr; w->write_group = nullptr; if (w == leader) { break; } w = w->link_older; } Writer* newest = newest_writer->load(std::memory_order_relaxed); while (true) { leader->link_older = newest; if (newest_writer->compare_exchange_weak(newest, last_writer)) { return (newest == nullptr); } } } void WriteThread::CreateMissingNewerLinks(Writer* head) { while (true) { Writer* next = head->link_older; if (next == nullptr || next->link_newer != nullptr) { assert(next == nullptr || next->link_newer == head); break; } next->link_newer = head; head = next; } } WriteThread::Writer* WriteThread::FindNextLeader(Writer* from, Writer* boundary) { assert(from != nullptr && from != boundary); Writer* current = from; while (current->link_older != boundary) { current = current->link_older; assert(current != nullptr); } return current; } void WriteThread::CompleteLeader(WriteGroup& write_group) { assert(write_group.size > 0); Writer* leader = write_group.leader; if (write_group.size == 1) { write_group.leader = nullptr; write_group.last_writer = nullptr; } else { assert(leader->link_newer != nullptr); leader->link_newer->link_older = nullptr; write_group.leader = leader->link_newer; } write_group.size -= 1; SetState(leader, STATE_COMPLETED); } void WriteThread::CompleteFollower(Writer* w, WriteGroup& write_group) { assert(write_group.size > 1); assert(w != write_group.leader); if (w == write_group.last_writer) { w->link_older->link_newer = nullptr; write_group.last_writer = w->link_older; } else { w->link_older->link_newer = w->link_newer; w->link_newer->link_older = w->link_older; } write_group.size -= 1; SetState(w, STATE_COMPLETED); } void WriteThread::BeginWriteStall() { LinkOne(&write_stall_dummy_, &newest_writer_); // Walk writer list until w->write_group != nullptr. The current write group // will not have a mix of slowdown/no_slowdown, so its ok to stop at that // point Writer* w = write_stall_dummy_.link_older; Writer* prev = &write_stall_dummy_; while (w != nullptr && w->write_group == nullptr) { if (w->no_slowdown) { prev->link_older = w->link_older; w->status = Status::Incomplete("Write stall"); SetState(w, STATE_COMPLETED); w = prev->link_older; } else { prev = w; w = w->link_older; } } } void WriteThread::EndWriteStall() { MutexLock lock(&stall_mu_); assert(newest_writer_.load(std::memory_order_relaxed) == &write_stall_dummy_); newest_writer_.exchange(write_stall_dummy_.link_older); // Wake up writers stall_cv_.SignalAll(); } static WriteThread::AdaptationContext jbg_ctx("JoinBatchGroup"); void WriteThread::JoinBatchGroup(Writer* w) { TEST_SYNC_POINT_CALLBACK("WriteThread::JoinBatchGroup:Start", w); assert(w->batch != nullptr); bool linked_as_leader = LinkOne(w, &newest_writer_); if (linked_as_leader) { SetState(w, STATE_GROUP_LEADER); } TEST_SYNC_POINT_CALLBACK("WriteThread::JoinBatchGroup:Wait", w); if (!linked_as_leader) { /** * Wait util: * 1) An existing leader pick us as the new leader when it finishes * 2) An existing leader pick us as its follewer and * 2.1) finishes the memtable writes on our behalf * 2.2) Or tell us to finish the memtable writes in pralallel * 3) (pipelined write) An existing leader pick us as its follower and * finish book-keeping and WAL write for us, enqueue us as pending * memtable writer, and * 3.1) we become memtable writer group leader, or * 3.2) an existing memtable writer group leader tell us to finish memtable * writes in parallel. */ TEST_SYNC_POINT_CALLBACK("WriteThread::JoinBatchGroup:BeganWaiting", w); AwaitState(w, STATE_GROUP_LEADER | STATE_MEMTABLE_WRITER_LEADER | STATE_PARALLEL_MEMTABLE_WRITER | STATE_COMPLETED, &jbg_ctx); TEST_SYNC_POINT_CALLBACK("WriteThread::JoinBatchGroup:DoneWaiting", w); } } size_t WriteThread::EnterAsBatchGroupLeader(Writer* leader, WriteGroup* write_group) { assert(leader->link_older == nullptr); assert(leader->batch != nullptr); assert(write_group != nullptr); size_t size = WriteBatchInternal::ByteSize(leader->batch); // Allow the group to grow up to a maximum size, but if the // original write is small, limit the growth so we do not slow // down the small write too much. size_t max_size = 1 << 20; if (size <= (128 << 10)) { max_size = size + (128 << 10); } leader->write_group = write_group; write_group->leader = leader; write_group->last_writer = leader; write_group->size = 1; Writer* newest_writer = newest_writer_.load(std::memory_order_acquire); // This is safe regardless of any db mutex status of the caller. Previous // calls to ExitAsGroupLeader either didn't call CreateMissingNewerLinks // (they emptied the list and then we added ourself as leader) or had to // explicitly wake us up (the list was non-empty when we added ourself, // so we have already received our MarkJoined). CreateMissingNewerLinks(newest_writer); // Tricky. Iteration start (leader) is exclusive and finish // (newest_writer) is inclusive. Iteration goes from old to new. Writer* w = leader; while (w != newest_writer) { w = w->link_newer; if (w->sync && !leader->sync) { // Do not include a sync write into a batch handled by a non-sync write. break; } if (w->no_slowdown != leader->no_slowdown) { // Do not mix writes that are ok with delays with the ones that // request fail on delays. break; } if (!w->disable_wal && leader->disable_wal) { // Do not include a write that needs WAL into a batch that has // WAL disabled. break; } if (w->batch == nullptr) { // Do not include those writes with nullptr batch. Those are not writes, // those are something else. They want to be alone break; } if (w->callback != nullptr && !w->callback->AllowWriteBatching()) { // dont batch writes that don't want to be batched break; } auto batch_size = WriteBatchInternal::ByteSize(w->batch); if (size + batch_size > max_size) { // Do not make batch too big break; } w->write_group = write_group; size += batch_size; write_group->last_writer = w; write_group->size++; } TEST_SYNC_POINT_CALLBACK("WriteThread::EnterAsBatchGroupLeader:End", w); return size; } void WriteThread::EnterAsMemTableWriter(Writer* leader, WriteGroup* write_group) { assert(leader != nullptr); assert(leader->link_older == nullptr); assert(leader->batch != nullptr); assert(write_group != nullptr); size_t size = WriteBatchInternal::ByteSize(leader->batch); // Allow the group to grow up to a maximum size, but if the // original write is small, limit the growth so we do not slow // down the small write too much. size_t max_size = 1 << 20; if (size <= (128 << 10)) { max_size = size + (128 << 10); } leader->write_group = write_group; write_group->leader = leader; write_group->size = 1; Writer* last_writer = leader; if (!allow_concurrent_memtable_write_ || !leader->batch->HasMerge()) { Writer* newest_writer = newest_memtable_writer_.load(); CreateMissingNewerLinks(newest_writer); Writer* w = leader; while (w != newest_writer) { w = w->link_newer; if (w->batch == nullptr) { break; } if (w->batch->HasMerge()) { break; } if (!allow_concurrent_memtable_write_) { auto batch_size = WriteBatchInternal::ByteSize(w->batch); if (size + batch_size > max_size) { // Do not make batch too big break; } size += batch_size; } w->write_group = write_group; last_writer = w; write_group->size++; } } write_group->last_writer = last_writer; write_group->last_sequence = last_writer->sequence + WriteBatchInternal::Count(last_writer->batch) - 1; } void WriteThread::ExitAsMemTableWriter(Writer* /*self*/, WriteGroup& write_group) { Writer* leader = write_group.leader; Writer* last_writer = write_group.last_writer; Writer* newest_writer = last_writer; if (!newest_memtable_writer_.compare_exchange_strong(newest_writer, nullptr)) { CreateMissingNewerLinks(newest_writer); Writer* next_leader = last_writer->link_newer; assert(next_leader != nullptr); next_leader->link_older = nullptr; SetState(next_leader, STATE_MEMTABLE_WRITER_LEADER); } Writer* w = leader; while (true) { if (!write_group.status.ok()) { w->status = write_group.status; } Writer* next = w->link_newer; if (w != leader) { SetState(w, STATE_COMPLETED); } if (w == last_writer) { break; } w = next; } // Note that leader has to exit last, since it owns the write group. SetState(leader, STATE_COMPLETED); } void WriteThread::LaunchParallelMemTableWriters(WriteGroup* write_group) { assert(write_group != nullptr); write_group->running.store(write_group->size); for (auto w : *write_group) { SetState(w, STATE_PARALLEL_MEMTABLE_WRITER); } } static WriteThread::AdaptationContext cpmtw_ctx("CompleteParallelMemTableWriter"); // This method is called by both the leader and parallel followers bool WriteThread::CompleteParallelMemTableWriter(Writer* w) { auto* write_group = w->write_group; if (!w->status.ok()) { std::lock_guard guard(write_group->leader->StateMutex()); write_group->status = w->status; } if (write_group->running-- > 1) { // we're not the last one AwaitState(w, STATE_COMPLETED, &cpmtw_ctx); return false; } // else we're the last parallel worker and should perform exit duties. w->status = write_group->status; return true; } void WriteThread::ExitAsBatchGroupFollower(Writer* w) { auto* write_group = w->write_group; assert(w->state == STATE_PARALLEL_MEMTABLE_WRITER); assert(write_group->status.ok()); ExitAsBatchGroupLeader(*write_group, write_group->status); assert(w->status.ok()); assert(w->state == STATE_COMPLETED); SetState(write_group->leader, STATE_COMPLETED); } static WriteThread::AdaptationContext eabgl_ctx("ExitAsBatchGroupLeader"); void WriteThread::ExitAsBatchGroupLeader(WriteGroup& write_group, Status status) { Writer* leader = write_group.leader; Writer* last_writer = write_group.last_writer; assert(leader->link_older == nullptr); // Propagate memtable write error to the whole group. if (status.ok() && !write_group.status.ok()) { status = write_group.status; } if (enable_pipelined_write_) { // Notify writers don't write to memtable to exit. for (Writer* w = last_writer; w != leader;) { Writer* next = w->link_older; w->status = status; if (!w->ShouldWriteToMemtable()) { CompleteFollower(w, write_group); } w = next; } if (!leader->ShouldWriteToMemtable()) { CompleteLeader(write_group); } Writer* next_leader = nullptr; // Look for next leader before we call LinkGroup. If there isn't // pending writers, place a dummy writer at the tail of the queue // so we know the boundary of the current write group. Writer dummy; Writer* expected = last_writer; bool has_dummy = newest_writer_.compare_exchange_strong(expected, &dummy); if (!has_dummy) { // We find at least one pending writer when we insert dummy. We search // for next leader from there. next_leader = FindNextLeader(expected, last_writer); assert(next_leader != nullptr && next_leader != last_writer); } // Link the ramaining of the group to memtable writer list. // // We have to link our group to memtable writer queue before wake up the // next leader or set newest_writer_ to null, otherwise the next leader // can run ahead of us and link to memtable writer queue before we do. if (write_group.size > 0) { if (LinkGroup(write_group, &newest_memtable_writer_)) { // The leader can now be different from current writer. SetState(write_group.leader, STATE_MEMTABLE_WRITER_LEADER); } } // If we have inserted dummy in the queue, remove it now and check if there // are pending writer join the queue since we insert the dummy. If so, // look for next leader again. if (has_dummy) { assert(next_leader == nullptr); expected = &dummy; bool has_pending_writer = !newest_writer_.compare_exchange_strong(expected, nullptr); if (has_pending_writer) { next_leader = FindNextLeader(expected, &dummy); assert(next_leader != nullptr && next_leader != &dummy); } } if (next_leader != nullptr) { next_leader->link_older = nullptr; SetState(next_leader, STATE_GROUP_LEADER); } AwaitState(leader, STATE_MEMTABLE_WRITER_LEADER | STATE_PARALLEL_MEMTABLE_WRITER | STATE_COMPLETED, &eabgl_ctx); } else { Writer* head = newest_writer_.load(std::memory_order_acquire); if (head != last_writer || !newest_writer_.compare_exchange_strong(head, nullptr)) { // Either w wasn't the head during the load(), or it was the head // during the load() but somebody else pushed onto the list before // we did the compare_exchange_strong (causing it to fail). In the // latter case compare_exchange_strong has the effect of re-reading // its first param (head). No need to retry a failing CAS, because // only a departing leader (which we are at the moment) can remove // nodes from the list. assert(head != last_writer); // After walking link_older starting from head (if not already done) // we will be able to traverse w->link_newer below. This function // can only be called from an active leader, only a leader can // clear newest_writer_, we didn't, and only a clear newest_writer_ // could cause the next leader to start their work without a call // to MarkJoined, so we can definitely conclude that no other leader // work is going on here (with or without db mutex). CreateMissingNewerLinks(head); assert(last_writer->link_newer->link_older == last_writer); last_writer->link_newer->link_older = nullptr; // Next leader didn't self-identify, because newest_writer_ wasn't // nullptr when they enqueued (we were definitely enqueued before them // and are still in the list). That means leader handoff occurs when // we call MarkJoined SetState(last_writer->link_newer, STATE_GROUP_LEADER); } // else nobody else was waiting, although there might already be a new // leader now while (last_writer != leader) { last_writer->status = status; // we need to read link_older before calling SetState, because as soon // as it is marked committed the other thread's Await may return and // deallocate the Writer. auto next = last_writer->link_older; SetState(last_writer, STATE_COMPLETED); last_writer = next; } } } static WriteThread::AdaptationContext eu_ctx("EnterUnbatched"); void WriteThread::EnterUnbatched(Writer* w, InstrumentedMutex* mu) { assert(w != nullptr && w->batch == nullptr); mu->Unlock(); bool linked_as_leader = LinkOne(w, &newest_writer_); if (!linked_as_leader) { TEST_SYNC_POINT("WriteThread::EnterUnbatched:Wait"); // Last leader will not pick us as a follower since our batch is nullptr AwaitState(w, STATE_GROUP_LEADER, &eu_ctx); } if (enable_pipelined_write_) { WaitForMemTableWriters(); } mu->Lock(); } void WriteThread::ExitUnbatched(Writer* w) { assert(w != nullptr); Writer* newest_writer = w; if (!newest_writer_.compare_exchange_strong(newest_writer, nullptr)) { CreateMissingNewerLinks(newest_writer); Writer* next_leader = w->link_newer; assert(next_leader != nullptr); next_leader->link_older = nullptr; SetState(next_leader, STATE_GROUP_LEADER); } } static WriteThread::AdaptationContext wfmw_ctx("WaitForMemTableWriters"); void WriteThread::WaitForMemTableWriters() { assert(enable_pipelined_write_); if (newest_memtable_writer_.load() == nullptr) { return; } Writer w; if (!LinkOne(&w, &newest_memtable_writer_)) { AwaitState(&w, STATE_MEMTABLE_WRITER_LEADER, &wfmw_ctx); } newest_memtable_writer_.store(nullptr); } } // namespace rocksdb rocksdb-5.17.2/db/write_thread.h000066400000000000000000000370761337235545400165040ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #include #include #include #include #include #include #include #include #include "db/dbformat.h" #include "db/pre_release_callback.h" #include "db/write_callback.h" #include "monitoring/instrumented_mutex.h" #include "rocksdb/options.h" #include "rocksdb/status.h" #include "rocksdb/types.h" #include "rocksdb/write_batch.h" #include "util/autovector.h" namespace rocksdb { class WriteThread { public: enum State : uint8_t { // The initial state of a writer. This is a Writer that is // waiting in JoinBatchGroup. This state can be left when another // thread informs the waiter that it has become a group leader // (-> STATE_GROUP_LEADER), when a leader that has chosen to be // non-parallel informs a follower that its writes have been committed // (-> STATE_COMPLETED), or when a leader that has chosen to perform // updates in parallel and needs this Writer to apply its batch (-> // STATE_PARALLEL_FOLLOWER). STATE_INIT = 1, // The state used to inform a waiting Writer that it has become the // leader, and it should now build a write batch group. Tricky: // this state is not used if newest_writer_ is empty when a writer // enqueues itself, because there is no need to wait (or even to // create the mutex and condvar used to wait) in that case. This is // a terminal state unless the leader chooses to make this a parallel // batch, in which case the last parallel worker to finish will move // the leader to STATE_COMPLETED. STATE_GROUP_LEADER = 2, // The state used to inform a waiting writer that it has become the // leader of memtable writer group. The leader will either write // memtable for the whole group, or launch a parallel group write // to memtable by calling LaunchParallelMemTableWrite. STATE_MEMTABLE_WRITER_LEADER = 4, // The state used to inform a waiting writer that it has become a // parallel memtable writer. It can be the group leader who launch the // parallel writer group, or one of the followers. The writer should then // apply its batch to the memtable concurrently and call // CompleteParallelMemTableWriter. STATE_PARALLEL_MEMTABLE_WRITER = 8, // A follower whose writes have been applied, or a parallel leader // whose followers have all finished their work. This is a terminal // state. STATE_COMPLETED = 16, // A state indicating that the thread may be waiting using StateMutex() // and StateCondVar() STATE_LOCKED_WAITING = 32, }; struct Writer; struct WriteGroup { Writer* leader = nullptr; Writer* last_writer = nullptr; SequenceNumber last_sequence; // before running goes to zero, status needs leader->StateMutex() Status status; std::atomic running; size_t size = 0; struct Iterator { Writer* writer; Writer* last_writer; explicit Iterator(Writer* w, Writer* last) : writer(w), last_writer(last) {} Writer* operator*() const { return writer; } Iterator& operator++() { assert(writer != nullptr); if (writer == last_writer) { writer = nullptr; } else { writer = writer->link_newer; } return *this; } bool operator!=(const Iterator& other) const { return writer != other.writer; } }; Iterator begin() const { return Iterator(leader, last_writer); } Iterator end() const { return Iterator(nullptr, nullptr); } }; // Information kept for every waiting writer. struct Writer { WriteBatch* batch; bool sync; bool no_slowdown; bool disable_wal; bool disable_memtable; size_t batch_cnt; // if non-zero, number of sub-batches in the write batch PreReleaseCallback* pre_release_callback; uint64_t log_used; // log number that this batch was inserted into uint64_t log_ref; // log number that memtable insert should reference WriteCallback* callback; bool made_waitable; // records lazy construction of mutex and cv std::atomic state; // write under StateMutex() or pre-link WriteGroup* write_group; SequenceNumber sequence; // the sequence number to use for the first key Status status; // status of memtable inserter Status callback_status; // status returned by callback->Callback() std::aligned_storage::type state_mutex_bytes; std::aligned_storage::type state_cv_bytes; Writer* link_older; // read/write only before linking, or as leader Writer* link_newer; // lazy, read/write only before linking, or as leader Writer() : batch(nullptr), sync(false), no_slowdown(false), disable_wal(false), disable_memtable(false), batch_cnt(0), pre_release_callback(nullptr), log_used(0), log_ref(0), callback(nullptr), made_waitable(false), state(STATE_INIT), write_group(nullptr), sequence(kMaxSequenceNumber), link_older(nullptr), link_newer(nullptr) {} Writer(const WriteOptions& write_options, WriteBatch* _batch, WriteCallback* _callback, uint64_t _log_ref, bool _disable_memtable, size_t _batch_cnt = 0, PreReleaseCallback* _pre_release_callback = nullptr) : batch(_batch), sync(write_options.sync), no_slowdown(write_options.no_slowdown), disable_wal(write_options.disableWAL), disable_memtable(_disable_memtable), batch_cnt(_batch_cnt), pre_release_callback(_pre_release_callback), log_used(0), log_ref(_log_ref), callback(_callback), made_waitable(false), state(STATE_INIT), write_group(nullptr), sequence(kMaxSequenceNumber), link_older(nullptr), link_newer(nullptr) {} ~Writer() { if (made_waitable) { StateMutex().~mutex(); StateCV().~condition_variable(); } } bool CheckCallback(DB* db) { if (callback != nullptr) { callback_status = callback->Callback(db); } return callback_status.ok(); } void CreateMutex() { if (!made_waitable) { // Note that made_waitable is tracked separately from state // transitions, because we can't atomically create the mutex and // link into the list. made_waitable = true; new (&state_mutex_bytes) std::mutex; new (&state_cv_bytes) std::condition_variable; } } // returns the aggregate status of this Writer Status FinalStatus() { if (!status.ok()) { // a non-ok memtable write status takes presidence assert(callback == nullptr || callback_status.ok()); return status; } else if (!callback_status.ok()) { // if the callback failed then that is the status we want // because a memtable insert should not have been attempted assert(callback != nullptr); assert(status.ok()); return callback_status; } else { // if there is no callback then we only care about // the memtable insert status assert(callback == nullptr || callback_status.ok()); return status; } } bool CallbackFailed() { return (callback != nullptr) && !callback_status.ok(); } bool ShouldWriteToMemtable() { return status.ok() && !CallbackFailed() && !disable_memtable; } bool ShouldWriteToWAL() { return status.ok() && !CallbackFailed() && !disable_wal; } // No other mutexes may be acquired while holding StateMutex(), it is // always last in the order std::mutex& StateMutex() { assert(made_waitable); return *static_cast(static_cast(&state_mutex_bytes)); } std::condition_variable& StateCV() { assert(made_waitable); return *static_cast( static_cast(&state_cv_bytes)); } }; struct AdaptationContext { const char* name; std::atomic value; explicit AdaptationContext(const char* name0) : name(name0), value(0) {} }; explicit WriteThread(const ImmutableDBOptions& db_options); virtual ~WriteThread() = default; // IMPORTANT: None of the methods in this class rely on the db mutex // for correctness. All of the methods except JoinBatchGroup and // EnterUnbatched may be called either with or without the db mutex held. // Correctness is maintained by ensuring that only a single thread is // a leader at a time. // Registers w as ready to become part of a batch group, waits until the // caller should perform some work, and returns the current state of the // writer. If w has become the leader of a write batch group, returns // STATE_GROUP_LEADER. If w has been made part of a sequential batch // group and the leader has performed the write, returns STATE_DONE. // If w has been made part of a parallel batch group and is responsible // for updating the memtable, returns STATE_PARALLEL_FOLLOWER. // // The db mutex SHOULD NOT be held when calling this function, because // it will block. // // Writer* w: Writer to be executed as part of a batch group void JoinBatchGroup(Writer* w); // Constructs a write batch group led by leader, which should be a // Writer passed to JoinBatchGroup on the current thread. // // Writer* leader: Writer that is STATE_GROUP_LEADER // WriteGroup* write_group: Out-param of group members // returns: Total batch group byte size size_t EnterAsBatchGroupLeader(Writer* leader, WriteGroup* write_group); // Unlinks the Writer-s in a batch group, wakes up the non-leaders, // and wakes up the next leader (if any). // // WriteGroup* write_group: the write group // Status status: Status of write operation void ExitAsBatchGroupLeader(WriteGroup& write_group, Status status); // Exit batch group on behalf of batch group leader. void ExitAsBatchGroupFollower(Writer* w); // Constructs a write batch group led by leader from newest_memtable_writers_ // list. The leader should either write memtable for the whole group and // call ExitAsMemTableWriter, or launch parallel memtable write through // LaunchParallelMemTableWriters. void EnterAsMemTableWriter(Writer* leader, WriteGroup* write_grup); // Memtable writer group leader, or the last finished writer in a parallel // write group, exit from the newest_memtable_writers_ list, and wake up // the next leader if needed. void ExitAsMemTableWriter(Writer* self, WriteGroup& write_group); // Causes JoinBatchGroup to return STATE_PARALLEL_FOLLOWER for all of the // non-leader members of this write batch group. Sets Writer::sequence // before waking them up. // // WriteGroup* write_group: Extra state used to coordinate the parallel add void LaunchParallelMemTableWriters(WriteGroup* write_group); // Reports the completion of w's batch to the parallel group leader, and // waits for the rest of the parallel batch to complete. Returns true // if this thread is the last to complete, and hence should advance // the sequence number and then call EarlyExitParallelGroup, false if // someone else has already taken responsibility for that. bool CompleteParallelMemTableWriter(Writer* w); // Waits for all preceding writers (unlocking mu while waiting), then // registers w as the currently proceeding writer. // // Writer* w: A Writer not eligible for batching // InstrumentedMutex* mu: The db mutex, to unlock while waiting // REQUIRES: db mutex held void EnterUnbatched(Writer* w, InstrumentedMutex* mu); // Completes a Writer begun with EnterUnbatched, unblocking subsequent // writers. void ExitUnbatched(Writer* w); // Wait for all parallel memtable writers to finish, in case pipelined // write is enabled. void WaitForMemTableWriters(); SequenceNumber UpdateLastSequence(SequenceNumber sequence) { if (sequence > last_sequence_) { last_sequence_ = sequence; } return last_sequence_; } // Insert a dummy writer at the tail of the write queue to indicate a write // stall, and fail any writers in the queue with no_slowdown set to true void BeginWriteStall(); // Remove the dummy writer and wake up waiting writers void EndWriteStall(); private: // See AwaitState. const uint64_t max_yield_usec_; const uint64_t slow_yield_usec_; // Allow multiple writers write to memtable concurrently. const bool allow_concurrent_memtable_write_; // Enable pipelined write to WAL and memtable. const bool enable_pipelined_write_; // Points to the newest pending writer. Only leader can remove // elements, adding can be done lock-free by anybody. std::atomic newest_writer_; // Points to the newest pending memtable writer. Used only when pipelined // write is enabled. std::atomic newest_memtable_writer_; // The last sequence that have been consumed by a writer. The sequence // is not necessary visible to reads because the writer can be ongoing. SequenceNumber last_sequence_; // A dummy writer to indicate a write stall condition. This will be inserted // at the tail of the writer queue by the leader, so newer writers can just // check for this and bail Writer write_stall_dummy_; // Mutex and condvar for writers to block on a write stall. During a write // stall, writers with no_slowdown set to false will wait on this rather // on the writer queue port::Mutex stall_mu_; port::CondVar stall_cv_; // Waits for w->state & goal_mask using w->StateMutex(). Returns // the state that satisfies goal_mask. uint8_t BlockingAwaitState(Writer* w, uint8_t goal_mask); // Blocks until w->state & goal_mask, returning the state value // that satisfied the predicate. Uses ctx to adaptively use // std::this_thread::yield() to avoid mutex overheads. ctx should be // a context-dependent static. uint8_t AwaitState(Writer* w, uint8_t goal_mask, AdaptationContext* ctx); // Set writer state and wake the writer up if it is waiting. void SetState(Writer* w, uint8_t new_state); // Links w into the newest_writer list. Return true if w was linked directly // into the leader position. Safe to call from multiple threads without // external locking. bool LinkOne(Writer* w, std::atomic* newest_writer); // Link write group into the newest_writer list as a whole, while keeping the // order of the writers unchanged. Return true if the group was linked // directly into the leader position. bool LinkGroup(WriteGroup& write_group, std::atomic* newest_writer); // Computes any missing link_newer links. Should not be called // concurrently with itself. void CreateMissingNewerLinks(Writer* head); // Starting from a pending writer, follow link_older to search for next // leader, until we hit boundary. Writer* FindNextLeader(Writer* pending_writer, Writer* boundary); // Set the leader in write_group to completed state and remove it from the // write group. void CompleteLeader(WriteGroup& write_group); // Set a follower in write_group to completed state and remove it from the // write group. void CompleteFollower(Writer* w, WriteGroup& write_group); }; } // namespace rocksdb rocksdb-5.17.2/docs/000077500000000000000000000000001337235545400142005ustar00rootroot00000000000000rocksdb-5.17.2/docs/.gitignore000066400000000000000000000000711337235545400161660ustar00rootroot00000000000000.DS_STORE _site/ *.swo *.swp _site .sass-cache *.psd *~ rocksdb-5.17.2/docs/CNAME000066400000000000000000000000131337235545400147400ustar00rootroot00000000000000rocksdb.orgrocksdb-5.17.2/docs/CONTRIBUTING.md000066400000000000000000000112501337235545400164300ustar00rootroot00000000000000This provides guidance on how to contribute various content to `rocksdb.org`. ## Getting started You should only have to do these one time. - Rename this file to `CONTRIBUTING.md`. - Rename `EXAMPLE-README-FOR-RUNNING-DOCS.md` to `README.md` (replacing the existing `README.md` that came with the template). - Rename `EXAMPLE-LICENSE` to `LICENSE`. - Review the [template information](./TEMPLATE-INFORMATION.md). - Review `./_config.yml`. - Make sure you update `title`, `description`, `tagline` and `gacode` (Google Analytics) in `./_config.yml`. ## Basic Structure Most content is written in markdown. You name the file `something.md`, then have a header that looks like this: ``` --- docid: getting-started title: Getting started with ProjectName layout: docs permalink: /docs/getting-started.html --- ``` Customize these values for each document, blog post, etc. > The filename of the `.md` file doesn't actually matter; what is important is the `docid` being unique and the `permalink` correct and unique too). ## Landing page Modify `index.md` with your new or updated content. If you want a `GridBlock` as part of your content, you can do so directly with HTML: ```

Your Features

More information

Stuff here

``` or with a combination of changing `./_data/features.yml` and adding some Liquid to `index.md`, such as: ``` {% include content/gridblocks.html data_source=site.data.features imagealign="bottom"%} ``` ## Blog To modify a blog post, edit the appopriate markdown file in `./_posts/`. Adding a new blog post is a four-step process. > Some posts have a `permalink` and `comments` in the blog post YAML header. You will not need these for new blog posts. These are an artifact of migrating the blog from Wordpress to gh-pages. 1. Create your blog post in `./_posts/` in markdown (file extension `.md` or `.markdown`). See current posts in that folder or `./doc-type-examples/2016-04-07-blog-post-example.md` for an example of the YAML format. **If the `./_posts` directory does not exist, create it**. - You can add a `` tag in the middle of your post such that you show only the excerpt above that tag in the main `/blog` index on your page. 1. If you have not authored a blog post before, modify the `./_data/authors.yml` file with the `author` id you used in your blog post, along with your full name and Facebook ID to get your profile picture. 1. [Run the site locally](./README.md) to test your changes. It will be at `http://127.0.0.1/blog/your-new-blog-post-title.html` 1. Push your changes to GitHub. ## Docs To modify docs, edit the appropriate markdown file in `./_docs/`. To add docs to the site.... 1. Add your markdown file to the `./_docs/` folder. See `./doc-type-examples/docs-hello-world.md` for an example of the YAML header format. **If the `./_docs/` directory does not exist, create it**. - You can use folders in the `./_docs/` directory to organize your content if you want. 1. Update `_data/nav_docs.yml` to add your new document to the navigation bar. Use the `docid` you put in your doc markdown in as the `id` in the `_data/nav_docs.yml` file. 1. [Run the site locally](./README.md) to test your changes. It will be at `http://127.0.0.1/docs/your-new-doc-permalink.html` 1. Push your changes to GitHub. ## Header Bar To modify the header bar, change `./_data/nav.yml`. ## Top Level Page To modify a top-level page, edit the appropriate markdown file in `./top-level/` If you want a top-level page (e.g., http://your-site.com/top-level.html) -- not in `/blog/` or `/docs/`.... 1. Create a markdown file in the root `./top-level/`. See `./doc-type-examples/top-level-example.md` for more information. 1. If you want a visible link to that file, update `_data/nav.yml` to add a link to your new top-level document in the header bar. > This is not necessary if you just want to have a page that is linked to from another page, but not exposed as direct link to the user. 1. [Run the site locally](./README.md) to test your changes. It will be at `http://127.0.0.1/your-top-level-page-permalink.html` 1. Push your changes to GitHub. ## Other Changes - CSS: `./css/main.css` or `./_sass/*.scss`. - Images: `./static/images/[docs | posts]/....` - Main Blog post HTML: `./_includes/post.html` - Main Docs HTML: `./_includes/doc.html` rocksdb-5.17.2/docs/Gemfile000066400000000000000000000000731337235545400154730ustar00rootroot00000000000000source 'https://rubygems.org' gem 'github-pages', '~> 104' rocksdb-5.17.2/docs/Gemfile.lock000066400000000000000000000070341337235545400164260ustar00rootroot00000000000000GEM remote: https://rubygems.org/ specs: activesupport (4.2.7) i18n (~> 0.7) json (~> 1.7, >= 1.7.7) minitest (~> 5.1) thread_safe (~> 0.3, >= 0.3.4) tzinfo (~> 1.1) addressable (2.4.0) coffee-script (2.4.1) coffee-script-source execjs coffee-script-source (1.12.2) colorator (1.1.0) concurrent-ruby (1.0.5) ethon (0.11.0) ffi (>= 1.3.0) execjs (2.7.0) faraday (0.15.2) multipart-post (>= 1.2, < 3) ffi (1.9.25) forwardable-extended (2.6.0) gemoji (2.1.0) github-pages (104) activesupport (= 4.2.7) github-pages-health-check (= 1.2.0) jekyll (= 3.3.0) jekyll-avatar (= 0.4.2) jekyll-coffeescript (= 1.0.1) jekyll-feed (= 0.8.0) jekyll-gist (= 1.4.0) jekyll-github-metadata (= 2.2.0) jekyll-mentions (= 1.2.0) jekyll-paginate (= 1.1.0) jekyll-redirect-from (= 0.11.0) jekyll-sass-converter (= 1.3.0) jekyll-seo-tag (= 2.1.0) jekyll-sitemap (= 0.12.0) jekyll-swiss (= 0.4.0) jemoji (= 0.7.0) kramdown (= 1.11.1) liquid (= 3.0.6) listen (= 3.0.6) mercenary (~> 0.3) minima (= 2.0.0) rouge (= 1.11.1) terminal-table (~> 1.4) github-pages-health-check (1.2.0) addressable (~> 2.3) net-dns (~> 0.8) octokit (~> 4.0) public_suffix (~> 1.4) typhoeus (~> 0.7) html-pipeline (2.4.2) activesupport (>= 2) nokogiri (~> 1.8.2) i18n (0.7.0) jekyll (3.3.0) addressable (~> 2.4) colorator (~> 1.0) jekyll-sass-converter (~> 1.0) jekyll-watch (~> 1.1) kramdown (~> 1.3) liquid (~> 3.0) mercenary (~> 0.3.3) pathutil (~> 0.9) rouge (~> 1.7) safe_yaml (~> 1.0) jekyll-avatar (0.4.2) jekyll (~> 3.0) jekyll-coffeescript (1.0.1) coffee-script (~> 2.2) jekyll-feed (0.8.0) jekyll (~> 3.3) jekyll-gist (1.4.0) octokit (~> 4.2) jekyll-github-metadata (2.2.0) jekyll (~> 3.1) octokit (~> 4.0, != 4.4.0) jekyll-mentions (1.2.0) activesupport (~> 4.0) html-pipeline (~> 2.3) jekyll (~> 3.0) jekyll-paginate (1.1.0) jekyll-redirect-from (0.11.0) jekyll (>= 2.0) jekyll-sass-converter (1.3.0) sass (~> 3.2) jekyll-seo-tag (2.1.0) jekyll (~> 3.3) jekyll-sitemap (0.12.0) jekyll (~> 3.3) jekyll-swiss (0.4.0) jekyll-watch (1.5.0) listen (~> 3.0, < 3.1) jemoji (0.7.0) activesupport (~> 4.0) gemoji (~> 2.0) html-pipeline (~> 2.2) jekyll (>= 3.0) json (1.8.3) kramdown (1.11.1) liquid (3.0.6) listen (3.0.6) rb-fsevent (>= 0.9.3) rb-inotify (>= 0.9.7) mercenary (0.3.6) mini_portile2 (2.3.0) minima (2.0.0) minitest (5.9.1) multipart-post (2.0.0) net-dns (0.8.0) nokogiri (~> 1.8.2) mini_portile2 (~> 2.3.0) octokit (4.4.1) sawyer (~> 0.7.0, >= 0.5.3) pathutil (0.14.0) forwardable-extended (~> 2.6) public_suffix (1.5.3) rb-fsevent (0.9.8) rb-inotify (0.9.7) ffi (>= 0.5.0) rouge (1.11.1) safe_yaml (1.0.4) sass (3.4.22) sawyer (0.7.0) addressable (>= 2.3.5, < 2.5) faraday (~> 0.8, < 0.10) terminal-table (1.7.3) unicode-display_width (~> 1.1.1) thread_safe (0.3.5) typhoeus (0.8.0) ethon (>= 0.8.0) tzinfo (1.2.2) thread_safe (~> 0.1) unicode-display_width (1.1.1) PLATFORMS ruby DEPENDENCIES github-pages (~> 104) BUNDLED WITH 1.13.1 rocksdb-5.17.2/docs/LICENSE-DOCUMENTATION000066400000000000000000000432711337235545400172230ustar00rootroot00000000000000Attribution 4.0 International ======================================================================= Creative Commons Corporation ("Creative Commons") is not a law firm and does not provide legal services or legal advice. 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Except for the limited purpose of indicating that material is shared under a Creative Commons public license or as otherwise permitted by the Creative Commons policies published at creativecommons.org/policies, Creative Commons does not authorize the use of the trademark "Creative Commons" or any other trademark or logo of Creative Commons without its prior written consent including, without limitation, in connection with any unauthorized modifications to any of its public licenses or any other arrangements, understandings, or agreements concerning use of licensed material. For the avoidance of doubt, this paragraph does not form part of the public licenses. Creative Commons may be contacted at creativecommons.org. rocksdb-5.17.2/docs/README.md000066400000000000000000000061261337235545400154640ustar00rootroot00000000000000## User Documentation for rocksdb.org This directory will contain the user and feature documentation for RocksDB. The documentation will be hosted on GitHub pages. ### Contributing See [CONTRIBUTING.md](./CONTRIBUTING.md) for details on how to add or modify content. ### Run the Site Locally The requirements for running a GitHub pages site locally is described in [GitHub help](https://help.github.com/articles/setting-up-your-github-pages-site-locally-with-jekyll/#requirements). The steps below summarize these steps. > If you have run the site before, you can start with step 1 and then move on to step 5. 1. Ensure that you are in the `/docs` directory in your local RocksDB clone (i.e., the same directory where this `README.md` exists). The below RubyGems commands, etc. must be run from there. 1. Make sure you have Ruby and [RubyGems](https://rubygems.org/) installed. > Ruby >= 2.2 is required for the gems. On the latest versions of Mac OS X, Ruby 2.0 is the > default. Use `brew install ruby` (or your preferred upgrade mechanism) to install a newer > version of Ruby for your Mac OS X system. 1. Make sure you have [Bundler](http://bundler.io/) installed. ``` # may require sudo gem install bundler ``` 1. Install the project's dependencies ``` # run this in the 'docs' directory bundle install ``` > If you get an error when installing `nokogiri`, you may be running into the problem described > in [this nokogiri issue](https://github.com/sparklemotion/nokogiri/issues/1483). You can > either `brew uninstall xz` (and then `brew install xz` after the bundle is installed) or > `xcode-select --install` (although this may not work if you have already installed command > line tools). 1. Run Jekyll's server. - On first runs or for structural changes to the documentation (e.g., new sidebar menu item), do a full build. ``` bundle exec jekyll serve ``` - For content changes only, you can use `--incremental` for faster builds. ``` bundle exec jekyll serve --incremental ``` > We use `bundle exec` instead of running straight `jekyll` because `bundle exec` will always use the version of Jekyll from our `Gemfile`. Just running `jekyll` will use the system version and may not necessarily be compatible. - To run using an actual IP address, you can use `--host=0.0.0.0` ``` bundle exec jekyll serve --host=0.0.0.0 ``` This will allow you to use the IP address associated with your machine in the URL. That way you could share it with other people. e.g., on a Mac, you can your IP address with something like `ifconfig | grep "inet " | grep -v 127.0.0.1`. 1. Either of commands in the previous step will serve up the site on your local device at http://127.0.0.1:4000/ or http://localhost:4000. ### Updating the Bundle The site depends on Github Pages and the installed bundle is based on the `github-pages` gem. Occasionally that gem might get updated with new or changed functionality. If that is the case, you can run: ``` bundle update ``` to get the latest packages for the installation. rocksdb-5.17.2/docs/TEMPLATE-INFORMATION.md000066400000000000000000000047231337235545400175260ustar00rootroot00000000000000## Template Details First, go through `_config.yml` and adjust the available settings to your project's standard. When you make changes here, you'll have to kill the `jekyll serve` instance and restart it to see those changes, but that's only the case with the config file. Next, update some image assets - you'll want to update `favicon.png`, `logo.svg`, and `og_image.png` (used for Like button stories and Shares on Facbeook) in the `static` folder with your own logos. Next, if you're going to have docs on your site, keep the `_docs` and `docs` folders, if not, you can safely remove them (or you can safely leave them and not include them in your navigation - Jekyll renders all of this before a client views the site anyway, so there's no performance hit from just leaving it there for a future expansion). Same thing with a blog section, either keep or delete the `_posts` and `blog` folders. You can customize your homepage in three parts - the first in the homepage header, which is mostly automatically derived from the elements you insert into your config file. However, you can also specify a series of 'promotional' elements in `_data/promo.yml`. You can read that file for more information. The second place for your homepage is in `index.md` which contains the bulk of the main content below the header. This is all markdown if you want, but you can use HTML and Jekyll's template tags (called Liquid) in there too. Checkout this folder's index.md for an example of one common template tag that we use on our sites called gridblocks. The third and last place is in the `_data/powered_by.yml` and `_data/powered_by_highlight.yml` files. Both these files combine to create a section on the homepage that is intended to show a list of companies or apps that are using your project. The `powered_by_highlight` file is a list of curated companies/apps that you want to show as a highlight at the top of this section, including their logos in whatever format you want. The `powered_by` file is a more open list that is just text links to the companies/apps and can be updated via Pull Request by the community. If you don't want these sections on your homepage, just empty out both files and leave them blank. The last thing you'll want to do is setup your top level navigation bar. You can do this by editing `nav.yml` and keeping the existing title/href/category structure used there. Although the nav is responsive and fairly flexible design-wise, no more than 5 or 6 nav items is recommended. rocksdb-5.17.2/docs/_config.yml000066400000000000000000000055001337235545400163270ustar00rootroot00000000000000# Site settings permalink: /blog/:year/:month/:day/:title.html title: RocksDB tagline: A persistent key-value store for fast storage environments description: > RocksDB is an embeddable persistent key-value store for fast storage. fbappid: "1615782811974223" gacode: "UA-49459723-1" # baseurl determines the subpath of your site. For example if you're using an # organisation.github.io/reponame/ basic site URL, then baseurl would be set # as "/reponame" but leave blank if you have a top-level domain URL as it is # now set to "" by default as discussed in: # http://jekyllrb.com/news/2016/10/06/jekyll-3-3-is-here/ baseurl: "" # the base hostname & protocol for your site # If baseurl is set, then the absolute url for your site would be url/baseurl # This was also be set to the right thing automatically for local development # https://github.com/blog/2277-what-s-new-in-github-pages-with-jekyll-3-3 # http://jekyllrb.com/news/2016/10/06/jekyll-3-3-is-here/ url: "http://rocksdb.org" # Note: There are new filters in Jekyll 3.3 to help with absolute and relative urls # absolute_url # relative_url # So you will see these used throughout the Jekyll code in this template. # no more need for | prepend: site.url | prepend: site.baseurl # http://jekyllrb.com/news/2016/10/06/jekyll-3-3-is-here/ #https://github.com/blog/2277-what-s-new-in-github-pages-with-jekyll-3-3 # The GitHub repo for your project ghrepo: "facebook/rocksdb" # Use these color settings to determine your colour scheme for the site. color: # primary should be a vivid color that reflects the project's brand primary: "#2a2a2a" # secondary should be a subtle light or dark color used on page backgrounds secondary: "#f9f9f9" # Use the following to specify whether the previous two colours are 'light' # or 'dark' and therefore what colors can be overlaid on them primary-overlay: "dark" secondary-overlay: "light" #Uncomment this if you want to enable Algolia doc search with your own values #searchconfig: # apikey: "" # indexname: "" # Blog posts are builtin to Jekyll by default, with the `_posts` directory. # Here you can specify other types of documentation. The names here are `docs` # and `top-level`. This means their content will be in `_docs` and `_top-level`. # The permalink format is also given. # http://ben.balter.com/2015/02/20/jekyll-collections/ collections: docs: output: true permalink: /docs/:name/ top-level: output: true permalink: :name.html # DO NOT ADJUST BELOW THIS LINE UNLESS YOU KNOW WHAT YOU ARE CHANGING markdown: kramdown kramdown: input: GFM syntax_highlighter: rouge syntax_highlighter_opts: css_class: 'rougeHighlight' span: line_numbers: false block: line_numbers: true start_line: 1 sass: style: :compressed redcarpet: extensions: [with_toc_data] gems: - jekyll-redirect-from rocksdb-5.17.2/docs/_data/000077500000000000000000000000001337235545400152505ustar00rootroot00000000000000rocksdb-5.17.2/docs/_data/authors.yml000066400000000000000000000016761337235545400174720ustar00rootroot00000000000000icanadi: full_name: Igor Canadi fbid: 706165749 xjin: full_name: Xing Jin fbid: 100000739847320 leijin: full_name: Lei Jin fbid: 634570164 yhciang: full_name: Yueh-Hsuan Chiang fbid: 1619020986 radheshyam: full_name: Radheshyam Balasundaram fbid: 800837305 zagfox: full_name: Feng Zhu fbid: 100006493823622 lgalanis: full_name: Leonidas Galanis fbid: 8649950 sdong: full_name: Siying Dong fbid: 9805119 dmitrism: full_name: Dmitri Smirnov rven2: full_name: Venkatesh Radhakrishnan fbid: 100008352697325 yiwu: full_name: Yi Wu fbid: 100000476362039 maysamyabandeh: full_name: Maysam Yabandeh fbid: 100003482360101 IslamAbdelRahman: full_name: Islam AbdelRahman fbid: 642759407 ajkr: full_name: Andrew Kryczka fbid: 100010829806660 sagar0: full_name: Sagar Vemuri fbid: 2419111 lightmark: full_name: Aaron Gao fbid: 1351549072 fgwu: full_name: Fenggang Wu fbid: 100002297362180 rocksdb-5.17.2/docs/_data/features.yml000066400000000000000000000022051337235545400176100ustar00rootroot00000000000000- title: High Performance text: | RocksDB uses a log structured database engine, written entirely in C++, for maximum performance. Keys and values are just arbitrarily-sized byte streams. image: images/promo-performance.svg - title: Optimized for Fast Storage text: | RocksDB is optimized for fast, low latency storage such as flash drives and high-speed disk drives. RocksDB exploits the full potential of high read/write rates offered by flash or RAM. image: images/promo-flash.svg - title: Adaptable text: | RocksDB is adaptable to different workloads. From database storage engines such as [MyRocks](https://github.com/facebook/mysql-5.6) to [application data caching](http://techblog.netflix.com/2016/05/application-data-caching-using-ssds.html) to embedded workloads, RocksDB can be used for a variety of data needs. image: images/promo-adapt.svg - title: Basic and Advanced Database Operations text: | RocksDB provides basic operations such as opening and closing a database, reading and writing to more advanced operations such as merging and compaction filters. image: images/promo-operations.svg rocksdb-5.17.2/docs/_data/nav.yml000066400000000000000000000013531337235545400165610ustar00rootroot00000000000000- title: Docs href: /docs/ category: docs - title: GitHub href: https://github.com/facebook/rocksdb/ category: external - title: API (C++) href: https://github.com/facebook/rocksdb/tree/master/include/rocksdb category: external - title: API (Java) href: https://github.com/facebook/rocksdb/tree/master/java/src/main/java/org/rocksdb category: external - title: Support href: /support.html category: support - title: Blog href: /blog/ category: blog - title: Facebook href: https://www.facebook.com/groups/rocksdb.dev/ category: external # Use external for external links not associated with the paths of the current site. # If a category is external, site urls, for example, are not prepended to the href, etc.. rocksdb-5.17.2/docs/_data/nav_docs.yml000066400000000000000000000000661337235545400175710ustar00rootroot00000000000000- title: Quick Start items: - id: getting-started rocksdb-5.17.2/docs/_data/powered_by.yml000066400000000000000000000000331337235545400201260ustar00rootroot00000000000000# Fill in later if desired rocksdb-5.17.2/docs/_data/powered_by_highlight.yml000066400000000000000000000000331337235545400221550ustar00rootroot00000000000000# Fill in later if desired rocksdb-5.17.2/docs/_data/promo.yml000066400000000000000000000003161337235545400171270ustar00rootroot00000000000000# This file determines the list of promotional elements added to the header of \ # your site's homepage. Full list of plugins are shown - type: button href: docs/getting-started.html text: Get Started rocksdb-5.17.2/docs/_docs/000077500000000000000000000000001337235545400152675ustar00rootroot00000000000000rocksdb-5.17.2/docs/_docs/faq.md000066400000000000000000000115611337235545400163640ustar00rootroot00000000000000--- docid: support-faq title: FAQ layout: docs permalink: /docs/support/faq.html --- Here is an ever-growing list of frequently asked questions around RocksDB ## What is RocksDB? RocksDB is an embeddable persistent key-value store for fast storage. RocksDB can also be the foundation for a client-server database but our current focus is on embedded workloads. RocksDB builds on [LevelDB](https://code.google.com/p/leveldb/) to be scalable to run on servers with many CPU cores, to efficiently use fast storage, to support IO-bound, in-memory and write-once workloads, and to be flexible to allow for innovation. For the latest details, watch [Mark Callaghan’s and Igor Canadi’s talk at CMU on 10/2015](https://scs.hosted.panopto.com/Panopto/Pages/Viewer.aspx?id=f4e0eb37-ae18-468f-9248-cb73edad3e56). [Dhruba Borthakur’s introductory talk](https://github.com/facebook/rocksdb/blob/gh-pages-old/intro.pdf?raw=true) from the Data @ Scale 2013 conference provides some perspective about how RocksDB has evolved. ## How does performance compare? We benchmarked LevelDB and found that it was unsuitable for our server workloads. The [benchmark results](http://leveldb.googlecode.com/svn/trunk/doc/benchmark.html) look awesome at first sight, but we quickly realized that those results were for a database whose size was smaller than the size of RAM on the test machine – where the entire database could fit in the OS page cache. When we performed the same benchmarks on a database that was at least 5 times larger than main memory, the performance results were dismal. By contrast, we’ve published the [RocksDB benchmark results](https://github.com/facebook/rocksdb/wiki/Performance-Benchmarks) for server side workloads on Flash. We also measured the performance of LevelDB on these server-workload benchmarks and found that RocksDB solidly outperforms LevelDB for these IO bound workloads. We found that LevelDB’s single-threaded compaction process was insufficient to drive server workloads. We saw frequent write-stalls with LevelDB that caused 99-percentile latency to be tremendously large. We found that mmap-ing a file into the OS cache introduced performance bottlenecks for reads. We could not make LevelDB consume all the IOs offered by the underlying Flash storage. ## What is RocksDB suitable for? RocksDB can be used by applications that need low latency database accesses. Possibilities include: * A user-facing application that stores the viewing history and state of users of a website. * A spam detection application that needs fast access to big data sets. * A graph-search query that needs to scan a data set in realtime. * A cache data from Hadoop, thereby allowing applications to query Hadoop data in realtime. * A message-queue that supports a high number of inserts and deletes. ## How big is RocksDB adoption? RocksDB is an embedded storage engine that is used in a number of backend systems at Facebook. In the Facebook newsfeed’s backend, it replaced another internal storage engine called Centrifuge and is one of the many components used. ZippyDB, a distributed key value store service used by Facebook products relies RocksDB. Details on ZippyDB are in [Muthu Annamalai’s talk at Data@Scale in Seattle](https://youtu.be/DfiN7pG0D0k). Dragon, a distributed graph query engine part of the social graph infrastructure, is using RocksDB to store data. Parse has been running [MongoDB on RocksDB in production](http://blog.parse.com/announcements/mongodb-rocksdb-parse/) since early 2015. RocksDB is proving to be a useful component for a lot of other groups in the industry. For a list of projects currently using RocksDB, take a look at our USERS.md list on github. ## How good is RocksDB as a database storage engine? Our engineering team at Facebook firmly believes that RocksDB has great potential as storage engine for databases. It has been proven in production with MongoDB: [MongoRocks](https://github.com/mongodb-partners/mongo-rocks) is the RocksDB based storage engine for MongoDB. [MyRocks](https://code.facebook.com/posts/190251048047090/myrocks-a-space-and-write-optimized-mysql-database/) is the RocksDB based storage engine for MySQL. Using RocksDB we have managed to achieve 2x better compression and 10x less write amplification for our benchmarks compared to our existing MySQL setup. Given our current results, work is currently underway to develop MyRocks into a production ready solution for web-scale MySQL workloads. Follow along on [GitHub](https://github.com/facebook/mysql-5.6)! ## Why is RocksDB open sourced? We are open sourcing this project on [GitHub](http://github.com/facebook/rocksdb) because we think it will be useful beyond Facebook. We are hoping that software programmers and database developers will use, enhance, and customize RocksDB for their use-cases. We would also like to engage with the academic community on topics related to efficiency for modern database algorithms. rocksdb-5.17.2/docs/_docs/getting-started.md000066400000000000000000000054651337235545400207300ustar00rootroot00000000000000--- docid: getting-started title: Getting started layout: docs permalink: /docs/getting-started.html --- ## Overview The RocksDB library provides a persistent key value store. Keys and values are arbitrary byte arrays. The keys are ordered within the key value store according to a user-specified comparator function. The library is maintained by the Facebook Database Engineering Team, and is based on [LevelDB](https://github.com/google/leveldb), by Sanjay Ghemawat and Jeff Dean at Google. This overview gives some simple examples of how RocksDB is used. For the story of why RocksDB was created in the first place, see [Dhruba Borthakur’s introductory talk](https://github.com/facebook/rocksdb/blob/gh-pages-old/intro.pdf?raw=true) from the Data @ Scale 2013 conference. ## Opening A Database A rocksdb database has a name which corresponds to a file system directory. All of the contents of database are stored in this directory. The following example shows how to open a database, creating it if necessary: ```c++ #include #include "rocksdb/db.h" rocksdb::DB* db; rocksdb::Options options; options.create_if_missing = true; rocksdb::Status status = rocksdb::DB::Open(options, "/tmp/testdb", &db); assert(status.ok()); ... ``` If you want to raise an error if the database already exists, add the following line before the rocksdb::DB::Open call: ```c++ options.error_if_exists = true; ``` ## Status You may have noticed the `rocksdb::Status` type above. Values of this type are returned by most functions in RocksDB that may encounter an error. You can check if such a result is ok, and also print an associated error message: ```c++ rocksdb::Status s = ...; if (!s.ok()) cerr << s.ToString() << endl; ``` ## Closing A Database When you are done with a database, just delete the database object. For example: ```c++ /* open the db as described above */ /* do something with db */ delete db; ``` ## Reads And Writes The database provides Put, Delete, and Get methods to modify/query the database. For example, the following code moves the value stored under `key1` to `key2`. ```c++ std::string value; rocksdb::Status s = db->Get(rocksdb::ReadOptions(), key1, &value); if (s.ok()) s = db->Put(rocksdb::WriteOptions(), key2, value); if (s.ok()) s = db->Delete(rocksdb::WriteOptions(), key1); ``` ## Further documentation These are just simple examples of how RocksDB is used. The full documentation is currently on the [GitHub wiki](https://github.com/facebook/rocksdb/wiki). Here are some specific details about the RocksDB implementation: - [Architecture Guide](https://github.com/facebook/rocksdb/wiki/Rocksdb-Architecture-Guide) - [Format of an immutable Table file](https://github.com/facebook/rocksdb/wiki/Rocksdb-Table-Format) - [Format of a log file](https://github.com/facebook/rocksdb/wiki/Write-Ahead-Log-File-Format) rocksdb-5.17.2/docs/_includes/000077500000000000000000000000001337235545400161455ustar00rootroot00000000000000rocksdb-5.17.2/docs/_includes/blog_pagination.html000066400000000000000000000015211337235545400221660ustar00rootroot00000000000000 {% if paginator.total_pages > 1 %}

{% endif %} rocksdb-5.17.2/docs/_includes/content/000077500000000000000000000000001337235545400176175ustar00rootroot00000000000000rocksdb-5.17.2/docs/_includes/content/gridblocks.html000066400000000000000000000003241337235545400226270ustar00rootroot00000000000000
{% for item in {{include.data_source}} %} {% include content/items/gridblock.html item=item layout=include.layout imagealign=include.imagealign align=include.align %} {% endfor %}
rocksdb-5.17.2/docs/_includes/content/items/000077500000000000000000000000001337235545400207405ustar00rootroot00000000000000rocksdb-5.17.2/docs/_includes/content/items/gridblock.html000066400000000000000000000017061337235545400235720ustar00rootroot00000000000000{% if include.layout == "fourColumn" %} {% assign layout = "fourByGridBlock" %} {% else %} {% assign layout = "twoByGridBlock" %} {% endif %} {% if include.imagealign == "side" %} {% assign imagealign = "imageAlignSide" %} {% else %} {% if item.image %} {% assign imagealign = "imageAlignTop" %} {% else %} {% assign imagealign = "" %} {% endif %} {% endif %} {% if include.align == "right" %} {% assign align = "alignRight" %} {% elsif include.align == "center" %} {% assign align = "alignCenter" %} {% else %} {% assign align = "alignLeft" %} {% endif %}
{% if item.image %}
{{ item.title }}
{% endif %}

{{ item.title }}

{% if item.text %} {{ item.text | markdownify }} {% endif %}
rocksdb-5.17.2/docs/_includes/doc.html000066400000000000000000000015241337235545400176020ustar00rootroot00000000000000

{% if include.truncate %}{{ page.title }}{% else %}{{ page.title }}{% endif %}

{% if include.truncate %} {% if page.content contains '' %} {{ page.content | split:'' | first }}
...Read More
{% else %} {{ page.content }} {% endif %} {% else %} {{ content }}

Edit on GitHub

{% endif %}
{% include doc_paging.html %}
rocksdb-5.17.2/docs/_includes/doc_paging.html000066400000000000000000000000001337235545400211130ustar00rootroot00000000000000rocksdb-5.17.2/docs/_includes/footer.html000066400000000000000000000067551337235545400203460ustar00rootroot00000000000000
rocksdb-5.17.2/docs/_includes/head.html000066400000000000000000000026731337235545400177440ustar00rootroot00000000000000 {% if site.searchconfig %} {% endif %} {% if page.title %}{{ page.title }} | {{ site.title }}{% else %}{{ site.title }}{% endif %} rocksdb-5.17.2/docs/_includes/header.html000066400000000000000000000014601337235545400202640ustar00rootroot00000000000000

{{ site.title }}

{{ site.tagline }}

{% if page.excerpt %}{{ page.excerpt | strip_html }}{% else %}{{ site.description }}{% endif %}

{% for promo in site.data.promo %} {% include plugins/{{promo.type}}.html button_href=promo.href button_text=promo.text %}
{% endfor %}
rocksdb-5.17.2/docs/_includes/hero.html000066400000000000000000000000001337235545400177560ustar00rootroot00000000000000rocksdb-5.17.2/docs/_includes/home_header.html000066400000000000000000000014471337235545400213010ustar00rootroot00000000000000

{{ site.tagline }}

{% if page.excerpt %}{{ page.excerpt | strip_html }}{% else %}{{ site.description }}{% endif %}

{% for promo in site.data.promo %}
{% include plugins/{{promo.type}}.html href=promo.href text=promo.text children=promo.children %}
{% endfor %}
rocksdb-5.17.2/docs/_includes/katex_import.html000066400000000000000000000003531337235545400215420ustar00rootroot00000000000000 rocksdb-5.17.2/docs/_includes/katex_render.html000066400000000000000000000141361337235545400215130ustar00rootroot00000000000000 rocksdb-5.17.2/docs/_includes/nav.html000066400000000000000000000030071337235545400176170ustar00rootroot00000000000000

{{ site.title }}
rocksdb-5.17.2/docs/_includes/nav/000077500000000000000000000000001337235545400167315ustar00rootroot00000000000000rocksdb-5.17.2/docs/_includes/nav/collection_nav.html000066400000000000000000000042021337235545400226140ustar00rootroot00000000000000
rocksdb-5.17.2/docs/_includes/nav/collection_nav_group.html000066400000000000000000000012251337235545400240320ustar00rootroot00000000000000

+{{ grouptitle }}

    {% if include.data_collection %} {% for item in group.items %} {% for collectionitem in include.data_collection %} {% if collectionitem.docid == item.id %} {% assign groupitem = collectionitem %} {% include nav/collection_nav_group_item.html %} {% endif %} {% endfor %} {% endfor %} {% else %} {% for groupitem in groupitems %} {% include nav/collection_nav_group_item.html %} {% endfor %} {% endif %}
rocksdb-5.17.2/docs/_includes/nav/collection_nav_group_item.html000066400000000000000000000001641337235545400250510ustar00rootroot00000000000000
  • {{ groupitem.title }}
    • rocksdb-5.17.2/docs/_includes/nav/header_nav.html000066400000000000000000000020501337235545400217100ustar00rootroot00000000000000
    rocksdb-5.17.2/docs/_includes/nav_search.html000066400000000000000000000006711337235545400211500ustar00rootroot00000000000000
    • rocksdb-5.17.2/docs/_includes/plugins/000077500000000000000000000000001337235545400176265ustar00rootroot00000000000000rocksdb-5.17.2/docs/_includes/plugins/all_share.html000066400000000000000000000002461337235545400224500ustar00rootroot00000000000000
    {% include plugins/like_button.html %}{% include plugins/twitter_share.html %}{% include plugins/google_share.html %}
    rocksdb-5.17.2/docs/_includes/plugins/ascii_cinema.html000066400000000000000000000003621337235545400231210ustar00rootroot00000000000000
    rocksdb-5.17.2/docs/_includes/plugins/button.html000066400000000000000000000002001337235545400220170ustar00rootroot00000000000000
    {{ include.text }}
    rocksdb-5.17.2/docs/_includes/plugins/github_star.html000066400000000000000000000007141337235545400230310ustar00rootroot00000000000000
    Star
    rocksdb-5.17.2/docs/_includes/plugins/github_watch.html000066400000000000000000000007131337235545400231650ustar00rootroot00000000000000
    Watch
    rocksdb-5.17.2/docs/_includes/plugins/google_share.html000066400000000000000000000002401337235545400231460ustar00rootroot00000000000000
    rocksdb-5.17.2/docs/_includes/plugins/iframe.html000066400000000000000000000003301337235545400217530ustar00rootroot00000000000000
    {% include plugins/button.html href=include.href text=include.text %}
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    rocksdb-5.17.2/docs/_includes/plugins/plugin_row.html000066400000000000000000000002401337235545400226750ustar00rootroot00000000000000
    {% for child in include.children %} {% include plugins/{{child.type}}.html href=child.href text=child.text %} {% endfor %}
    rocksdb-5.17.2/docs/_includes/plugins/post_social_plugins.html000066400000000000000000000023671337235545400246040ustar00rootroot00000000000000
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    rocksdb-5.17.2/docs/_includes/post.html000066400000000000000000000023441337235545400200230ustar00rootroot00000000000000
    {% assign author = site.data.authors[page.author] %}
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    {{ author.fullname }}
    {% endif %} {% if author.full_name %}

    {{ author.full_name }}

    {% endif %}

    {% if include.truncate %}{{ page.title }}{% else %}{{ page.title }}{% endif %}

    Posted {{ page.date | date: '%B %d, %Y' }}{% if page.meta %} • {{ page.meta }}{% endif %}

    {% if include.truncate %} {% if page.content contains '' %} {{ page.content | split:'' | first | markdownify }}
    Read More
    {% else %} {{ page.content | markdownify }} {% endif %} {% else %} {{ content }} {% endif %} {% unless include.truncate %} {% include plugins/like_button.html %} {% endunless %}
    rocksdb-5.17.2/docs/_includes/powered_by.html000066400000000000000000000023171337235545400211750ustar00rootroot00000000000000{% if site.data.powered_by.first.items or site.data.powered_by_highlight.first.items %}
    {% if site.data.powered_by_highlight.first.title %}

    {{ site.data.powered_by_highlight.first.title }}

    {% else %}

    {{ site.data.powered_by.first.title }}

    {% endif %} {% if site.data.powered_by_highlight.first.items %}
    {% for item in site.data.powered_by_highlight.first.items %}
    {{ item.name }}
    {% endfor %}
    {% endif %}
    {% for item in site.data.powered_by.first.items %}
    {{ item.name }}
    {% endfor %}
    Does your app use {{ site.title }}? Add it to this list with a pull request!
    {% endif %} rocksdb-5.17.2/docs/_includes/social_plugins.html000066400000000000000000000017761337235545400220610ustar00rootroot00000000000000
    rocksdb-5.17.2/docs/_includes/ui/000077500000000000000000000000001337235545400165625ustar00rootroot00000000000000rocksdb-5.17.2/docs/_includes/ui/button.html000066400000000000000000000003531337235545400207640ustar00rootroot00000000000000{{ include.button_text }}rocksdb-5.17.2/docs/_layouts/000077500000000000000000000000001337235545400160375ustar00rootroot00000000000000rocksdb-5.17.2/docs/_layouts/basic.html000066400000000000000000000003311337235545400200030ustar00rootroot00000000000000--- layout: doc_default ---
    {{ content }}
    rocksdb-5.17.2/docs/_layouts/blog.html000066400000000000000000000002731337235545400176520ustar00rootroot00000000000000--- category: blog layout: blog_default ---
    {{ content }}
    rocksdb-5.17.2/docs/_layouts/blog_default.html000066400000000000000000000006231337235545400213550ustar00rootroot00000000000000 {% include head.html %} {% include nav.html alwayson=true %}
    {% include nav/collection_nav.html navdata=site.posts type="blog" sectionpath="/blog/" sectiontitle="Blog" %} {{ content }}
    {% include footer.html %}
    rocksdb-5.17.2/docs/_layouts/default.html000066400000000000000000000003211337235545400203450ustar00rootroot00000000000000 {% include head.html %} {% include nav.html alwayson=true %}
    {{ content }} {% include footer.html %}
    rocksdb-5.17.2/docs/_layouts/doc_default.html000066400000000000000000000006651337235545400212050ustar00rootroot00000000000000 {% include head.html %} {% include nav.html alwayson=true %}
    {% include nav/collection_nav.html navdata=site.data.nav_docs type="docs" sectionpath="/docs/" sectiontitle="Docs" data_collection=site.docs %} {{ content }}
    {% include footer.html %}
    rocksdb-5.17.2/docs/_layouts/doc_page.html000066400000000000000000000002571337235545400204720ustar00rootroot00000000000000--- layout: doc_default ---
    {{ content }}
    rocksdb-5.17.2/docs/_layouts/docs.html000066400000000000000000000000601337235545400176510ustar00rootroot00000000000000--- layout: doc_page --- {% include doc.html %}rocksdb-5.17.2/docs/_layouts/home.html000066400000000000000000000006261337235545400176610ustar00rootroot00000000000000 {% include head.html %} {% include nav.html alwayson=true %}
    {% include home_header.html %}
    {{ content }}
    {% include powered_by.html %}
    {% include footer.html %}
    rocksdb-5.17.2/docs/_layouts/page.html000066400000000000000000000000251337235545400176360ustar00rootroot00000000000000--- layout: blog --- rocksdb-5.17.2/docs/_layouts/plain.html000066400000000000000000000002471337235545400200330ustar00rootroot00000000000000--- layout: default ---
    {{ content }}
    rocksdb-5.17.2/docs/_layouts/post.html000066400000000000000000000001341337235545400177100ustar00rootroot00000000000000--- collection: blog layout: blog ---
    {% include post.html %}
    rocksdb-5.17.2/docs/_layouts/redirect.html000066400000000000000000000001561337235545400205300ustar00rootroot00000000000000 rocksdb-5.17.2/docs/_layouts/top-level.html000066400000000000000000000002471337235545400206370ustar00rootroot00000000000000--- layout: default ---
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    rocksdb-5.17.2/docs/_posts/000077500000000000000000000000001337235545400155075ustar00rootroot00000000000000rocksdb-5.17.2/docs/_posts/2014-03-27-how-to-backup-rocksdb.markdown000066400000000000000000000171451337235545400244220ustar00rootroot00000000000000--- title: How to backup RocksDB? layout: post author: icanadi category: blog redirect_from: - /blog/191/how-to-backup-rocksdb/ --- In RocksDB, we have implemented an easy way to backup your DB. Here is a simple example: #include "rocksdb/db.h" #include "utilities/backupable_db.h" using namespace rocksdb; DB* db; DB::Open(Options(), "/tmp/rocksdb", &db); BackupableDB* backupable_db = new BackupableDB(db, BackupableDBOptions("/tmp/rocksdb_backup")); backupable_db->Put(...); // do your thing backupable_db->CreateNewBackup(); delete backupable_db; // no need to also delete db This simple example will create a backup of your DB in "/tmp/rocksdb_backup". Creating new BackupableDB consumes DB* and you should be calling all the DB methods on object `backupable_db` going forward. Restoring is also easy: RestoreBackupableDB* restore = new RestoreBackupableDB(Env::Default(), BackupableDBOptions("/tmp/rocksdb_backup")); restore->RestoreDBFromLatestBackup("/tmp/rocksdb", "/tmp/rocksdb"); delete restore; This code will restore the backup back to "/tmp/rocksdb". The second parameter is the location of log files (In some DBs they are different from DB directory, but usually they are the same. See Options::wal_dir for more info). An alternative API for backups is to use BackupEngine directly: #include "rocksdb/db.h" #include "utilities/backupable_db.h" using namespace rocksdb; DB* db; DB::Open(Options(), "/tmp/rocksdb", &db); db->Put(...); // do your thing BackupEngine* backup_engine = BackupEngine::NewBackupEngine(Env::Default(), BackupableDBOptions("/tmp/rocksdb_backup")); backup_engine->CreateNewBackup(db); delete db; delete backup_engine; Restoring with BackupEngine is similar to RestoreBackupableDB: BackupEngine* backup_engine = BackupEngine::NewBackupEngine(Env::Default(), BackupableDBOptions("/tmp/rocksdb_backup")); backup_engine->RestoreDBFromLatestBackup("/tmp/rocksdb", "/tmp/rocksdb"); delete backup_engine; Backups are incremental. You can create a new backup with `CreateNewBackup()` and only the new data will be copied to backup directory (for more details on what gets copied, see "Under the hood"). Checksum is always calculated for any backuped file (including sst, log, and etc). It is used to make sure files are kept sound in the file system. Checksum is also verified for files from the previous backups even though they do not need to be copied. A checksum mismatch aborts the current backup (see "Under the hood" for more details). Once you have more backups saved, you can issue `GetBackupInfo()` call to get a list of all backups together with information on timestamp of the backup and the size (please note that sum of all backups' sizes is bigger than the actual size of the backup directory because some data is shared by multiple backups). Backups are identified by their always-increasing IDs. `GetBackupInfo()` is available both in `BackupableDB` and `RestoreBackupableDB`. You probably want to keep around only small number of backups. To delete old backups, just call `PurgeOldBackups(N)`, where N is how many backups you'd like to keep. All backups except the N newest ones will be deleted. You can also choose to delete arbitrary backup with call `DeleteBackup(id)`. `RestoreDBFromLatestBackup()` will restore the DB from the latest consistent backup. An alternative is `RestoreDBFromBackup()` which takes a backup ID and restores that particular backup. Checksum is calculated for any restored file and compared against the one stored during the backup time. If a checksum mismatch is detected, the restore process is aborted and `Status::Corruption` is returned. Very important thing to note here: Let's say you have backups 1, 2, 3, 4. If you restore from backup 2 and start writing more data to your database, newly created backup will delete old backups 3 and 4 and create new backup 3 on top of 2. ## Advanced usage Let's say you want to backup your DB to HDFS. There is an option in `BackupableDBOptions` to set `backup_env`, which will be used for all file I/O related to backup dir (writes when backuping, reads when restoring). If you set it to HDFS Env, all the backups will be stored in HDFS. `BackupableDBOptions::info_log` is a Logger object that is used to print out LOG messages if not-nullptr. If `BackupableDBOptions::sync` is true, we will sync data to disk after every file write, guaranteeing that backups will be consistent after a reboot or if machine crashes. Setting it to false will speed things up a bit, but some (newer) backups might be inconsistent. In most cases, everything should be fine, though. If you set `BackupableDBOptions::destroy_old_data` to true, creating new `BackupableDB` will delete all the old backups in the backup directory. `BackupableDB::CreateNewBackup()` method takes a parameter `flush_before_backup`, which is false by default. When `flush_before_backup` is true, `BackupableDB` will first issue a memtable flush and only then copy the DB files to the backup directory. Doing so will prevent log files from being copied to the backup directory (since flush will delete them). If `flush_before_backup` is false, backup will not issue flush before starting the backup. In that case, the backup will also include log files corresponding to live memtables. Backup will be consistent with current state of the database regardless of `flush_before_backup` parameter. ## Under the hood `BackupableDB` implements `DB` interface and adds four methods to it: `CreateNewBackup()`, `GetBackupInfo()`, `PurgeOldBackups()`, `DeleteBackup()`. Any `DB` interface calls will get forwarded to underlying `DB` object. When you call `BackupableDB::CreateNewBackup()`, it does the following: 1. Disable file deletions 2. Get live files (this includes table files, current and manifest file). 3. Copy live files to the backup directory. Since table files are immutable and filenames unique, we don't copy a table file that is already present in the backup directory. For example, if there is a file `00050.sst` already backed up and `GetLiveFiles()` returns `00050.sst`, we will not copy that file to the backup directory. However, checksum is calculated for all files regardless if a file needs to be copied or not. If a file is already present, the calculated checksum is compared against previously calculated checksum to make sure nothing crazy happened between backups. If a mismatch is detected, backup is aborted and the system is restored back to the state before `BackupableDB::CreateNewBackup()` is called. One thing to note is that a backup abortion could mean a corruption from a file in backup directory or the corresponding live file in current DB. Both manifest and current files are copied, since they are not immutable. 4. If `flush_before_backup` was set to false, we also need to copy log files to the backup directory. We call `GetSortedWalFiles()` and copy all live files to the backup directory. 5. Enable file deletions Backup IDs are always increasing and we have a file `LATEST_BACKUP` that contains the ID of the latest backup. If we crash in middle of backing up, on a restart we will detect that there are newer backup files than `LATEST_BACKUP` claims there are. In that case, we will delete any backup newer than `LATEST_BACKUP` and clean up all the files since some of the table files might be corrupted. Having corrupted table files in the backup directory is dangerous because of our deduplication strategy. ## Further reading For the API details, see `include/utilities/backupable_db.h`. For the implementation, see `utilities/backupable/backupable_db.cc`. rocksdb-5.17.2/docs/_posts/2014-03-27-how-to-persist-in-memory-rocksdb-database.markdown000066400000000000000000000066401337235545400303200ustar00rootroot00000000000000--- title: How to persist in-memory RocksDB database? layout: post author: icanadi category: blog redirect_from: - /blog/245/how-to-persist-in-memory-rocksdb-database/ --- In recent months, we have focused on optimizing RocksDB for in-memory workloads. With growing RAM sizes and strict low-latency requirements, lots of applications decide to keep their entire data in memory. Running in-memory database with RocksDB is easy -- just mount your RocksDB directory on tmpfs or ramfs [1]. Even if the process crashes, RocksDB can recover all of your data from in-memory filesystem. However, what happens if the machine reboots? In this article we will explain how you can recover your in-memory RocksDB database even after a machine reboot. Every update to RocksDB is written to two places - one is an in-memory data structure called memtable and second is write-ahead log. Write-ahead log can be used to completely recover the data in memtable. By default, when we flush the memtable to table file, we also delete the current log, since we don't need it anymore for recovery (the data from the log is "persisted" in the table file -- we say that the log file is obsolete). However, if your table file is stored in in-memory file system, you may need the obsolete write-ahead log to recover the data after the machine reboots. Here's how you can do that. Options::wal_dir is the directory where RocksDB stores write-ahead log files. If you configure this directory to be on flash or disk, you will not lose current log file on machine reboot. Options::WAL_ttl_seconds is the timeout when we delete the archived log files. If the timeout is non-zero, obsolete log files will be moved to `archive/` directory under Options::wal_dir. Those archived log files will only be deleted after the specified timeout. Let's assume Options::wal_dir is a directory on persistent storage and Options::WAL_ttl_seconds is set to one day. To fully recover the DB, we also need to backup the current snapshot of the database (containing table and metadata files) with a frequency of less than one day. RocksDB provides an utility that enables you to easily backup the snapshot of your database. You can learn more about it here: [How to backup RocksDB?](https://github.com/facebook/rocksdb/wiki/How-to-backup-RocksDB%3F) You should configure the backup process to avoid backing up log files, since they are already stored in persistent storage. To do that, set BackupableDBOptions::backup_log_files to false. Restore process by default cleans up entire DB and WAL directory. Since we didn't include log files in the backup, we need to make sure that restoring the database doesn't delete log files in WAL directory. When restoring, configure RestoreOptions::keep_log_file to true. That option will also move any archived log files back to WAL directory, enabling RocksDB to replay all archived log files and rebuild the in-memory database state. To reiterate, here's what you have to do: * Set DB directory to tmpfs or ramfs mounted drive * Set Options::wal_log to a directory on persistent storage * Set Options::WAL_ttl_seconds to T seconds * Backup RocksDB every T/2 seconds, with BackupableDBOptions::backup_log_files = false * When you lose data, restore from backup with RestoreOptions::keep_log_file = true [1] You might also want to consider using [PlainTable format](https://github.com/facebook/rocksdb/wiki/PlainTable-Format) for table files rocksdb-5.17.2/docs/_posts/2014-04-02-the-1st-rocksdb-local-meetup-held-on-march-27-2014.markdown000066400000000000000000000041111337235545400310210ustar00rootroot00000000000000--- title: The 1st RocksDB Local Meetup Held on March 27, 2014 layout: post author: xjin category: blog redirect_from: - /blog/323/the-1st-rocksdb-local-meetup-held-on-march-27-2014/ --- On Mar 27, 2014, RocksDB team @ Facebook held the 1st RocksDB local meetup in FB HQ (Menlo Park, California). We invited around 80 guests from 20+ local companies, including LinkedIn, Twitter, Dropbox, Square, Pinterest, MapR, Microsoft and IBM. Finally around 50 guests showed up, totaling around 60% show-up rate. [![Resize of 20140327_200754](/static/images/Resize-of-20140327_200754-300x225.jpg)](/static/images/Resize-of-20140327_200754-300x225.jpg) RocksDB team @ Facebook gave four talks about the latest progress and experience on RocksDB: * [Supporting a 1PB In-Memory Workload](https://github.com/facebook/rocksdb/raw/gh-pages/talks/2014-03-27-RocksDB-Meetup-Haobo-RocksDB-In-Memory.pdf) * [Column Families in RocksDB](https://github.com/facebook/rocksdb/raw/gh-pages/talks/2014-03-27-RocksDB-Meetup-Igor-Column-Families.pdf) * ["Lockless" Get() in RocksDB?](https://github.com/facebook/rocksdb/raw/gh-pages/talks/2014-03-27-RocksDB-Meetup-Lei-Lockless-Get.pdf) * [Prefix Hashing in RocksDB](https://github.com/facebook/rocksdb/raw/gh-pages/talks/2014-03-27-RocksDB-Meetup-Siying-Prefix-Hash.pdf) A very interesting question asked by a massive number of guests is: does RocksDB plan to provide replication functionality? Obviously, many applications need a resilient and distributed storage solution, not just single-node storage. We are considering how to approach this issue. When will be the next meetup? We haven't decided yet. We will see whether the community is interested in it and how it can help RocksDB grow. If you have any questions or feedback for the meetup or RocksDB, please let us know in [our Facebook group](https://www.facebook.com/groups/rocksdb.dev/). ### Comments **[Rajiv](geetasen@gmail.com)** Have any of these talks been recorded and if so will they be published? **[Igor Canadi](icanadi@fb.com)** Yes, I think we plan to publish them soon. rocksdb-5.17.2/docs/_posts/2014-04-07-rocksdb-2-8-release.markdown000066400000000000000000000031401337235545400236530ustar00rootroot00000000000000--- title: RocksDB 2.8 release layout: post author: icanadi category: blog redirect_from: - /blog/371/rocksdb-2-8-release/ --- Check out the new RocksDB 2.8 release on [Github](https://github.com/facebook/rocksdb/releases/tag/2.8.fb). RocksDB 2.8. is mostly focused on improving performance for in-memory workloads. We are seeing read QPS as high as 5M (we will write a separate blog post on this). Here is the summary of new features: * Added a new table format called PlainTable, which is optimized for RAM storage (ramfs or tmpfs). You can read more details about it on [our wiki](https://github.com/facebook/rocksdb/wiki/PlainTable-Format). * New prefixed memtable format HashLinkedList, which is optimized for cases where there are only a few keys for each prefix. * Merge operator supports a new function PartialMergeMulti() that allows users to do partial merges against multiple operands. This function enables big speedups for workloads that use merge operators. * Added a V2 compaction filter interface. It buffers the kv-pairs sharing the same key prefix, process them in batches, and return the batched results back to DB. * Geo-spatial support for locations and radial-search. * Improved read performance using thread local cache for frequently accessed data. * Stability improvements -- we're now ignoring partially written tailing record to MANIFEST or WAL files. We have also introduced small incompatible API changes (mostly for advanced users). You can see full release notes in our [HISTORY.my](https://github.com/facebook/rocksdb/blob/2.8.fb/HISTORY.md) file. rocksdb-5.17.2/docs/_posts/2014-04-21-indexing-sst-files-for-better-lookup-performance.markdown000066400000000000000000000074561337235545400317050ustar00rootroot00000000000000--- title: Indexing SST Files for Better Lookup Performance layout: post author: leijin category: blog redirect_from: - /blog/431/indexing-sst-files-for-better-lookup-performance/ --- For a `Get()` request, RocksDB goes through mutable memtable, list of immutable memtables, and SST files to look up the target key. SST files are organized in levels. On level 0, files are sorted based on the time they are flushed. Their key range (as defined by FileMetaData.smallest and FileMetaData.largest) are mostly overlapped with each other. So it needs to look up every L0 file. Compaction is scheduled periodically to pick up files from an upper level and merges them with files from lower level. As a result, key/values are moved from L0 down the LSM tree gradually. Compaction sorts key/values and split them into files. From level 1 and below, SST files are sorted based on key. Their key range are mutually exclusive. Instead of scanning through each SST file and checking if a key falls into its range, RocksDB performs a binary search based on FileMetaData.largest to locate a candidate file that can potentially contain the target key. This reduces complexity from O(N) to O(log(N)). However, log(N) can still be large for bottom levels. For a fan-out ratio of 10, level 3 can have 1000 files. That requires 10 comparisons to locate a candidate file. This is a significant cost for an in-memory database when you can do [several million gets per second](https://github.com/facebook/rocksdb/wiki/RocksDB-In-Memory-Workload-Performance-Benchmarks). One observation to this problem is that: after the LSM tree is built, an SST file's position in its level is fixed. Furthermore, its order relative to files from the next level is also fixed. Based on this idea, we can perform [fractional cascading](http://en.wikipedia.org/wiki/Fractional_cascading) kind of optimization to narrow down the binary search range. Here is an example: [![tree_example](/static/images/tree_example1.png)](/static/images/tree_example1.png) Level 1 has 2 files and level 2 has 8 files. Now, we want to look up key 80. A binary search based FileMetaData.largest tells you file 1 is the candidate. Then key 80 is compared with its FileMetaData.smallest and FileMetaData.largest to decide if it falls into the range. The comparison shows 80 is less than FileMetaData.smallest (100), so file 1 does not possibly contain key 80. We to proceed to check level 2. Usually, we need to do binary search among all 8 files on level 2. But since we already know target key 80 is less than 100 and only file 1 to file 3 can contain key less than 100, we can safely exclude other files from the search. As a result we cut down the search space from 8 files to 3 files. Let's look at another example. We want to get key 230. A binary search on level 1 locates to file 2 (this also implies key 230 is larger than file 1's FileMetaData.largest 200). A comparison with file 2's range shows the target key is smaller than file 2's FileMetaData.smallest 300. Even though, we couldn't find key on level 1, we have derived hints that target key is in range between 200 and 300. Any files on level 2 that cannot overlap with [200, 300] can be safely excluded. As a result, we only need to look at file 5 and file 6 on level 2. Inspired by this concept, we pre-build pointers at compaction time on level 1 files that point to a range of files on level 2. For example, file 1 on level 1 points to file 3 (on level 2) on the left and file 4 on the right. File 2 will point to level 2 files 6 and 7. At query time, these pointers are used to determine the actual binary search range based on comparison result. Our benchmark shows that this optimization improves lookup QPS by ~5% for similar setup mentioned [here](https://github.com/facebook/rocksdb/wiki/RocksDB-In-Memory-Workload-Performance-Benchmarks). rocksdb-5.17.2/docs/_posts/2014-05-14-lock.markdown000066400000000000000000000225241337235545400212400ustar00rootroot00000000000000--- title: Reducing Lock Contention in RocksDB layout: post author: sdong category: blog redirect_from: - /blog/521/lock/ --- In this post, we briefly introduce the recent improvements we did to RocksDB to improve the issue of lock contention costs. RocksDB has a simple thread synchronization mechanism (See [RocksDB Architecture Guide](https://github.com/facebook/rocksdb/wiki/Rocksdb-Architecture-Guide)  to understand terms used below, like SST tables or mem tables). SST tables are immutable after being written and mem tables are lock-free data structures supporting single writer and multiple readers. There is only one single major lock, the DB mutex (DBImpl.mutex_) protecting all the meta operations, including: * Increase or decrease reference counters of mem tables and SST tables * Change and check meta data structures, before and after finishing compactions, flushes and new mem table creations * Coordinating writers This DB mutex used to be scalability bottleneck preventing us from scaling to more than 16 threads. To address the issue, we improved RocksDB in several ways. 1. Consolidate reference counters and introduce "super version". For every read operation, mutex was acquired, and reference counters for each mem table and each SST table were increased. One such operation is not expensive but if you are building a high throughput server with lots of reads, the lock contention will become the bottleneck. This is especially true if you store all your data in RAM. To solve this problem, we created a meta-meta data structure called “[super version](https://reviews.facebook.net/rROCKSDB1fdb3f7dc60e96394e3e5b69a46ede5d67fb976c)â€, which holds reference counters to all those mem table and SST tables, so that readers only need to increase the reference counters for this single data structure. In RocksDB, list of live mem tables and SST tables only changes infrequently, which would happen when new mem tables are created or flush/compaction happens. Now, at those times, a new super version is created with their reference counters increased. A super version lists live mem tables and SST tables so a reader only needs acquire the lock in order to find the latest super version and increase its reference counter. From the super version, the reader can find all the mem and SST tables which are safety accessible as long as the reader holds the reference count for the super version. 2. We replace some reference counters to stc::atomic objects, so that decreasing reference count of an object usually doesn’t need to be inside the mutex any more. 3. Make fetching super version and reference counting lock-free in read queries. After consolidating reference counting to one single super version and removing the locking for decreasing reference counts, in read case, we only acquire mutex for one thing: fetch the latest super version and increase the reference count for that (dereference the counter is done in an atomic decrease). We designed and implemented a (mostly) lock-free approach to do it. See [details](https://github.com/facebook/rocksdb/raw/gh-pages/talks/2014-03-27-RocksDB-Meetup-Lei-Lockless-Get.pdf). We will write a separate blog post for that. 4. Avoid disk I/O inside the mutex. As we know, each disk I/O to hard drives takes several milliseconds. It can be even longer if file system journal is involved or I/Os are queued. Even occasional disk I/O within mutex can cause huge performance outliers. We identified in two situations, we might do disk I/O inside mutex and we removed them: (1) Opening and closing transactional log files. We moved those operations out of the mutex. (2) Information logging. In multiple places we write to logs within mutex. There is a chance that file write will wait for disk I/O to finish before finishing, even if fsync() is not issued, especially in EXT systems. We occasionally see 100+ milliseconds write() latency on EXT. Instead of removing those logging, we came up with a solution of delay logging. When inside mutex, instead of directly writing to the log file, we write to a log buffer, with the timing information. As soon as mutex is released, we flush the log buffer to log files. 5. Reduce object creation inside the mutex. Object creation can be slow because it involves malloc (in our case). Malloc sometimes is slow because it needs to lock some shared data structures. Allocating can also be slow because we sometimes do expensive operations in some of our classes' constructors. For these reasons, we try to reduce object creations inside the mutex. Here are two examples: (1) std::vector uses malloc inside. We introduced “[autovector](https://reviews.facebook.net/rROCKSDBc01676e46d3be08c3c140361ef1f5884f47d3b3c)†data structure, in which memory for first a few elements are pre-allocated as members of the autovector class. When an autovector is used as a stack variable, no malloc will be needed unless the pre-allocated buffer is used up. This autovector is quite useful for manipulating those meta data structures. Those meta operations are often locked inside DB mutex. (2) When building an iterator, we used to creating iterator of every live men table and SST table within the mutex and a merging iterator on top of them. Besides malloc, some of those iterators can be quite expensive to create, like sorting. Now, instead of doing that, we simply increase the reference counters of them, and release the mutex before creating any iterator. 6. Deal with mutexes in LRU caches. When I said there was only one single major lock, I was lying. In RocksDB, all LRU caches had exclusive mutexes within to protect writes to the LRU lists, which are done in both of read and write operations. LRU caches are used in block cache and table cache. Both of them are accessed more frequently than DB data structures. Lock contention of these two locks are as intense as the DB mutex. Even if LRU cache is sharded into ShardedLRUCache, we can still see lock contentions, especially table caches. We further address this issue in two way: (1) Bypassing table caches. A table cache maintains list of SST table’s read handlers. Those handlers contain SST files’ descriptors, table metadata, and possibly data indexes, as well as bloom filters. When the table handler needs to be evicted based on LRU, those information is cleared. When the SST table needs to be read and its table handler is not in LRU cache, the table is opened and those metadata is loaded. In some cases, users want to tune the system in a way that table handler evictions should never happen. It is common for high-throughput, low-latency servers. We introduce a mode where table cache is bypassed in read queries. In this mode, all table handlers are cached and accessed directly, so there is no need to query and adjust table caches for reading the database. It is the users’ responsibility to reserve enough resource for it. This mode can be turned on by setting options.max_open_files=-1. (2) [New PlainTable format](//github.com/facebook/rocksdb/wiki/PlainTable-Format) (optimized for SST in ramfs/tmpfs) does not organize data by blocks. Data are located by memory addresses so no block cache is needed. With all of those improvements, lock contention is not a bottleneck anymore, which is shown in our [memory-only benchmark](https://github.com/facebook/rocksdb/wiki/RocksDB-In-Memory-Workload-Performance-Benchmarks) . Furthermore, lock contentions are not causing some huge (50 milliseconds+) latency outliers they used to cause. ### Comments **[Lee Hounshell](lee@apsalar.com)** Please post an example of reading the same rocksdb concurrently. We are using the latest 3.0 rocksdb; however, when two separate processes try and open the same rocksdb for reading, only one of the open requests succeed. The other open always fails with “db/LOCK: Resource temporarily unavailable†So far we have not found an option that allows sharing the rocksdb for reads. An example would be most appreciated. **[Siying Dong](siying.d@fb.com)** Sorry for the delay. We don’t have feature support for this scenario yet. Here is an example you can work around this problem. You can build a snapshot of the DB by doing this: 1. create a separate directory on the same host for a snapshot of the DB. 1. call `DB::DisableFileDeletions()` 1. call `DB::GetLiveFiles()` to get a full list of the files. 1. for all the files except manifest, add a hardlink file in your new directory pointing to the original file 1. copy the manifest file and truncate the size (you can read the comments of `DB::GetLiveFiles()` for more information) 1. call `DB::EnableFileDeletions()` 1. now you can open the snapshot directory in another process to access those files. Please remember to delete the directory after reading the data to allow those files to be recycled. By the way, the best way to ask those questions is in our [facebook group](https://www.facebook.com/groups/rocksdb.dev/). Let us know if you need any further help. **[Darshan](darshan.ghumare@gmail.com)** Will this consistency problem of RocksDB all occurs in case of single put/write? What all ACID properties is supported by RocksDB, only durability irrespective of single or batch write? **[Siying Dong](siying.d@fb.com)** We recently [introduced optimistic transaction](https://reviews.facebook.net/D33435) which can help you ensure all of ACID. This blog post is mainly about optimizations in implementation. The RocksDB consistency semantic is not changed. rocksdb-5.17.2/docs/_posts/2014-05-19-rocksdb-3-0-release.markdown000066400000000000000000000012261337235545400236530ustar00rootroot00000000000000--- title: RocksDB 3.0 release layout: post author: icanadi category: blog redirect_from: - /blog/557/rocksdb-3-0-release/ --- Check out new RocksDB release on [Github](https://github.com/facebook/rocksdb/releases/tag/3.0.fb)! New features in RocksDB 3.0: * [Column Family support](https://github.com/facebook/rocksdb/wiki/Column-Families) * [Ability to chose different checksum function](https://github.com/facebook/rocksdb/commit/0afc8bc29a5800e3212388c327c750d32e31f3d6) * Deprecated ReadOptions::prefix_seek and ReadOptions::prefix Check out the full [change log](https://github.com/facebook/rocksdb/blob/3.0.fb/HISTORY.md). rocksdb-5.17.2/docs/_posts/2014-05-22-rocksdb-3-1-release.markdown000066400000000000000000000011011337235545400236360ustar00rootroot00000000000000--- title: RocksDB 3.1 release layout: post author: icanadi category: blog redirect_from: - /blog/575/rocksdb-3-1-release/ --- Check out the new release on [Github](https://github.com/facebook/rocksdb/releases/tag/rocksdb-3.1)! New features in RocksDB 3.1: * [Materialized hash index](https://github.com/facebook/rocksdb/commit/0b3d03d026a7248e438341264b4c6df339edc1d7) * [FIFO compaction style](https://github.com/facebook/rocksdb/wiki/FIFO-compaction-style) We released 3.1 so fast after 3.0 because one of our internal customers needed materialized hash index. rocksdb-5.17.2/docs/_posts/2014-06-23-plaintable-a-new-file-format.markdown000066400000000000000000000057211337235545400256340ustar00rootroot00000000000000--- title: PlainTable — A New File Format layout: post author: sdong category: blog redirect_from: - /blog/599/plaintable-a-new-file-format/ --- In this post, we are introducing "PlainTable" -- a file format we designed for RocksDB, initially to satisfy a production use case at Facebook. Design goals: 1. All data stored in memory, in files stored in tmpfs/ramfs. Support DBs larger than 100GB (may be sharded across multiple RocksDB instance). 1. Optimize for [prefix hashing](https://github.com/facebook/rocksdb/raw/gh-pages/talks/2014-03-27-RocksDB-Meetup-Siying-Prefix-Hash.pdf) 1. Less than or around 1 micro-second average latency for single Get() or Seek(). 1. Minimize memory consumption. 1. Queries efficiently return empty results Notice that our priority was not to maximize query performance, but to strike a balance between query performance and memory consumption. PlainTable query performance is not as good as you would see with a nicely-designed hash table, but they are of the same order of magnitude, while keeping memory overhead to a minimum. Since we are targeting micro-second latency, it is on the level of the number of CPU cache misses (if they cannot be parallellized, which are usually the case for index look-ups). On our target hardware with Intel CPUs of multiple sockets with NUMA, we can only allow 4-5 CPU cache misses (including costs of data TLB). To meet our requirements, given that only hash prefix iterating is needed, we made two decisions: 1. to use a hash index, which is 1. directly addressed to rows, with no block structure. Having addressed our latency goal, the next task was to design a very compact hash index to minimize memory consumption. Some tricks we used to meet this goal: 1. We only use 32-bit integers for data and index offsets.The first bit serves as a flag, so we can avoid using 8-byte pointers. 1. We never copy keys or parts of keys to index search structures. We store only offsets from which keys can be retrieved, to make comparisons with search keys. 1. Since our file is immutable, we can accurately estimate the number of hash buckets needed. To make sure the format works efficiently with empty queries, we added a bloom filter check before the query. This adds only one cache miss for non-empty cases [1], but avoids multiple cache misses for most empty results queries. This is a good trade-off for use cases with a large percentage of empty results. These are the design goals and basic ideas of PlainTable file format. For detailed information, see [this wiki page](https://github.com/facebook/rocksdb/wiki/PlainTable-Format). [1] Bloom filter checks typically require multiple memory access. However, because they are independent, they usually do not make the CPU pipeline stale. In any case, we improved the bloom filter to improve data locality - we may cover this further in a future blog post. ### Comments **[Siying Dong](siying.d@fb.com)** Does [http://rocksdb.org/feed/](http://rocksdb.org/feed/) work? rocksdb-5.17.2/docs/_posts/2014-06-27-avoid-expensive-locks-in-get.markdown000066400000000000000000000113021337235545400257050ustar00rootroot00000000000000--- title: Avoid Expensive Locks in Get() layout: post author: leijin category: blog redirect_from: - /blog/677/avoid-expensive-locks-in-get/ --- As promised in the previous [blog post](blog/2014/05/14/lock.html)! RocksDB employs a multiversion concurrency control strategy. Before reading data, it needs to grab the current version, which is encapsulated in a data structure called [SuperVersion](https://reviews.facebook.net/rROCKSDB1fdb3f7dc60e96394e3e5b69a46ede5d67fb976c). At the beginning of `GetImpl()`, it used to do this: mutex_.Lock(); auto* s = super_version_->Ref(); mutex_.Unlock(); The lock is necessary because pointer super_version_ may be updated, the corresponding SuperVersion may be deleted while Ref() is in progress. `Ref()` simply increases the reference counter and returns “this†pointer. However, this simple operation posed big challenges for in-memory workload and stopped RocksDB from scaling read throughput beyond 8 cores. Running 32 read threads on a 32-core CPU leads to [70% system CPU usage](https://github.com/facebook/rocksdb/raw/gh-pages/talks/2014-03-27-RocksDB-Meetup-Lei-Lockless-Get.pdf). This is outrageous! Luckily, we found a way to circumvent this problem by using [thread local storage](http://en.wikipedia.org/wiki/Thread-local_storage). Version change is a rare event comparable to millions of read requests. On the very first Get() request, each thread pays the mutex cost to acquire a reference to the new super version. Instead of releasing the reference after use, the reference is cached in thread’s local storage. An atomic variable is used to track global super version number. Subsequent reads simply compare the local super version number against the global super version number. If they are the same, the cached super version reference may be used directly, at no cost. If a version change is detected, mutex must be acquired to update the reference. The cost of mutex lock is amortized among millions of reads and becomes negligible. The code looks something like this: SuperVersion* s = thread_local_->Get(); if (s->version_number != super_version_number_.load()) { // slow path, cleanup of current super version is omitted mutex_.Lock(); s = super_version_->Ref(); mutex_.Unlock(); } The result is quite amazing. RocksDB can nicely [scale to 32 cores](https://github.com/facebook/rocksdb/raw/gh-pages/talks/2014-03-27-RocksDB-Meetup-Lei-Lockless-Get.pdf) and most CPU time is spent in user land. Daryl Grove gives a pretty good [comparison between mutex and atomic](https://blogs.oracle.com/d/entry/the_cost_of_mutexes). However, the real cost difference lies beyond what is shown in the assembly code. Mutex can keep threads spinning on CPU or even trigger thread context switches in which all readers compete to access the critical area. Our approach prevents mutual competition by directing threads to check against a global version which does not change at high frequency, and is therefore much more cache-friendly. The new approach entails one issue: a thread can visit GetImpl() once but can never come back again. SuperVersion is referenced and cached in its thread local storage. All resources (e.g., memtables, files) which belong to that version are frozen. A “supervisor†is required to visit each thread’s local storage and free its resources without incurring a lock. We designed a lockless sweep using CAS (compare and switch instruction). Here is how it works: (1) A reader thread uses CAS to acquire SuperVersion from its local storage and to put in a special flag (SuperVersion::kSVInUse). (2) Upon completion of GetImpl(), the reader thread tries to return SuperVersion to local storage by CAS, expecting the special flag (SuperVersion::kSVInUse) in its local storage. If it does not see SuperVersion::kSVInUse, that means a “sweep†was done and the reader thread is responsible for cleanup (this is expensive, but does not happen often on the hot path). (3) After any flush/compaction, the background thread performs a sweep (CAS) across all threads’ local storage and frees encountered SuperVersion. A reader thread must re-acquire a new SuperVersion reference on its next visit. ### Comments **[David Barbour](dmbarbour@gmail.com)** Please post an example of reading the same rocksdb concurrently. We are using the latest 3.0 rocksdb; however, when two separate processes try and open the same rocksdb for reading, only one of the open requests succeed. The other open always fails with “db/LOCK: Resource temporarily unavailable†So far we have not found an option that allows sharing the rocksdb for reads. An example would be most appreciated. rocksdb-5.17.2/docs/_posts/2014-06-27-rocksdb-3-2-release.markdown000066400000000000000000000020141337235545400236510ustar00rootroot00000000000000--- title: RocksDB 3.2 release layout: post author: leijin category: blog redirect_from: - /blog/647/rocksdb-3-2-release/ --- Check out new RocksDB release on [GitHub](https://github.com/facebook/rocksdb/releases/tag/rocksdb-3.2)! New Features in RocksDB 3.2: * PlainTable now supports a new key encoding: for keys of the same prefix, the prefix is only written once. It can be enabled through encoding_type paramter of NewPlainTableFactory() * Add AdaptiveTableFactory, which is used to convert from a DB of PlainTable to BlockBasedTabe, or vise versa. It can be created using NewAdaptiveTableFactory() Public API changes: * We removed seek compaction as a concept from RocksDB * Add two paramters to NewHashLinkListRepFactory() for logging on too many entries in a hash bucket when flushing * Added new option BlockBasedTableOptions::hash_index_allow_collision. When enabled, prefix hash index for block-based table will not store prefix and allow hash collision, reducing memory consumption rocksdb-5.17.2/docs/_posts/2014-07-29-rocksdb-3-3-release.markdown000066400000000000000000000031271337235545400236630ustar00rootroot00000000000000--- title: RocksDB 3.3 Release layout: post author: yhciang category: blog redirect_from: - /blog/1301/rocksdb-3-3-release/ --- Check out new RocksDB release on [GitHub](https://github.com/facebook/rocksdb/releases/tag/rocksdb-3.3)! New Features in RocksDB 3.3: * **JSON API prototype**. * **Performance improvement on HashLinkList**: We addressed performance outlier of HashLinkList caused by skewed bucket by switching data in the bucket from linked list to skip list. Add parameter threshold_use_skiplist in NewHashLinkListRepFactory(). * **More effective on storage space reclaim**: RocksDB is now able to reclaim storage space more effectively during the compaction process. This is done by compensating the size of each deletion entry by the 2X average value size, which makes compaction to be triggerred by deletion entries more easily. * **TimeOut API to write**: Now WriteOptions have a variable called timeout_hint_us. With timeout_hint_us set to non-zero, any write associated with this timeout_hint_us may be aborted when it runs longer than the specified timeout_hint_us, and it is guaranteed that any write completes earlier than the specified time-out will not be aborted due to the time-out condition. * **rate_limiter option**: We added an option that controls total throughput of flush and compaction. The throughput is specified in bytes/sec. Flush always has precedence over compaction when available bandwidth is constrained. Public API changes: * Removed NewTotalOrderPlainTableFactory because it is not used and implemented semantically incorrect. rocksdb-5.17.2/docs/_posts/2014-09-12-cuckoo.markdown000066400000000000000000000106321337235545400215720ustar00rootroot00000000000000--- title: Cuckoo Hashing Table Format layout: post author: radheshyam category: blog redirect_from: - /blog/1427/new-bloom-filter-format/ --- ## Introduction We recently introduced a new [Cuckoo Hashing](http://en.wikipedia.org/wiki/Cuckoo_hashing) based SST file format which is optimized for fast point lookups. The new format was built for applications which require very high point lookup rates (~4Mqps) in read only mode but do not use operations like range scan, merge operator, etc. But, the existing RocksDB file formats were built to support range scan and other operations and the current best point lookup in RocksDB is 1.2 Mqps given by [PlainTable](https://github.com/facebook/rocksdb/wiki/PlainTable-Format)[ format](https://github.com/facebook/rocksdb/wiki/PlainTable-Format). This prompted a hashing based file format, which we present here. The new table format uses a cache friendly version of Cuckoo Hashing algorithm with only 1 or 2 memory accesses per lookup. Goals: * Reduce memory accesses per lookup to 1 or 2 * Get an end to end point lookup rate of at least 4 Mqps * Minimize database size Assumptions: * Key length and value length are fixed * The database is operated in read only mode Non-goals: * While optimizing the performance of Get() operation was our primary goal, compaction and build times were secondary. We may work on improving them in future. Details for setting up the table format can be found in [GitHub](https://github.com/facebook/rocksdb/wiki/CuckooTable-Format). ## Cuckoo Hashing Algorithm In order to achieve high lookup speeds, we did multiple optimizations, including a cache friendly cuckoo hash algorithm. Cuckoo Hashing uses multiple hash functions, _h1, ..., __hn._ ### Original Cuckoo Hashing To insert any new key _k_, we compute hashes of the key _h1(k), ..., __hn__(k)_. We insert the key in the first hash location that is free. If all the locations are blocked, we try to move one of the colliding keys to a different location by trying to re-insert it. Finding smallest set of keys to displace in order to accommodate the new key is naturally a shortest path problem in a directed graph where nodes are buckets of hash table and there is an edge from bucket _A_ to bucket _B_ if the element stored in bucket _A_ can be accommodated in bucket _B_ using one of the hash functions. The source nodes are the possible hash locations for the given key _k_ and destination is any one of the empty buckets. We use this algorithm to handle collision. To retrieve a key _k_, we compute hashes, _h1(k), ..., __hn__(k)_ and the key must be present in one of these locations. Our goal is to minimize average (and maximum) number of hash functions required and hence the number of memory accesses. In our experiments, with a hash utilization of 90%, we found that the average number of lookups is 1.8 and maximum is 3. Around 44% of keys are accommodated in first hash location and 33% in second location. ### Cache Friendly Cuckoo Hashing We noticed the following two sub-optimal properties in original Cuckoo implementation: * If the key is not present in first hash location, we jump to second hash location which may not be in cache. This results in many cache misses. * Because only 44% of keys are located in first cuckoo block, we couldn't have an optimal prefetching strategy - prefetching all hash locations for a key is wasteful. But prefetching only the first hash location helps only 44% of cases. The solution is to insert more keys near first location. In case of collision in the first hash location - _h1(k)_, we try to insert it in next few buckets, _h1(k)+1, _h1(k)+2, _..., h1(k)+t-1_. If all of these _t_ locations are occupied, we skip over to next hash function _h2_ and repeat the process. We call the set of _t_ buckets as a _Cuckoo Block_. We chose _t_ such that size of a block is not bigger than a cache line and we prefetch the first cuckoo block. With the new algorithm, for 90% hash utilization, we found that 85% of keys are accommodated in first Cuckoo Block. Prefetching the first cuckoo block yields best results. For a database of 100 million keys with key length 8 and value length 4, the hash algorithm alone can achieve 9.6 Mqps and we are working on improving it further. End to end RocksDB performance results can be found [here](https://github.com/facebook/rocksdb/wiki/CuckooTable-Format). rocksdb-5.17.2/docs/_posts/2014-09-12-new-bloom-filter-format.markdown000066400000000000000000000062031337235545400247560ustar00rootroot00000000000000--- title: New Bloom Filter Format layout: post author: zagfox category: blog redirect_from: - /blog/1367/cuckoo/ --- ## Introduction In this post, we are introducing "full filter block" --- a new bloom filter format for [block based table](https://github.com/facebook/rocksdb/wiki/Rocksdb-BlockBasedTable-Format). This could bring about 40% of improvement for key query under in-memory (all data stored in memory, files stored in tmpfs/ramfs, an [example](https://github.com/facebook/rocksdb/wiki/RocksDB-In-Memory-Workload-Performance-Benchmarks) workload. The main idea behind is to generate a big filter that covers all the keys in SST file to avoid lots of unnecessary memory look ups. ## What is Bloom Filter In brief, [bloom filter](https://github.com/facebook/rocksdb/wiki/RocksDB-Bloom-Filter) is a bits array generated for a set of keys that could tell if an arbitrary key may exist in that set. In RocksDB, we generate such a bloom filter for each SST file. When we conduct a query for a key, we first goes to the bloom filter block of SST file. If key may exist in filter, we goes into data block in SST file to search for the key. If not, we would return directly. So it could help speed up point look up operation a lot. ## Original Bloom Filter Format Original bloom filter creates filters for each individual data block in SST file. It has complex structure (ref [here](https://github.com/facebook/rocksdb/wiki/Rocksdb-BlockBasedTable-Format#filter-meta-block)) which results in a lot of non-adjacent memory look ups. Here's the work flow for checking original bloom filter in block based table: 1. Given the target key, we goes to the index block to get the "data block ID" where this key may reside. 1. Using the "data block ID", we goes to the filter block and get the correct "offset of filter". 1. Using the "offset of filter", we goes to the actual filter and do the checking. ## New Bloom Filter Format New bloom filter creates filter for all keys in SST file and we name it "full filter". The data structure of full filter is very simple, there is just one big filter:     [ full filter ] In this way, the work flow of bloom filter checking is much simplified. (1) Given the target key, we goes directly to the filter block and conduct the filter checking. To be specific, there would be no checking for index block and no address jumping inside of filter block. Though it is a big filter, the total filter size would be the same as the original filter. One little draw back is that the new bloom filter introduces more memory consumption when building SST file because we need to buffer keys (or their hashes) before generating filter. Original filter just creates a bunch of small filters so it just buffer a small amount of keys. For full filter, we buffer hashes of all keys, which would take more memory when SST file size increases. ## Usage & Customization You can refer to the document here for [usage](https://github.com/facebook/rocksdb/wiki/RocksDB-Bloom-Filter#usage-of-new-bloom-filter) and [customization](https://github.com/facebook/rocksdb/wiki/RocksDB-Bloom-Filter#customize-your-own-filterpolicy). rocksdb-5.17.2/docs/_posts/2014-09-15-rocksdb-3-5-release.markdown000066400000000000000000000024201337235545400236550ustar00rootroot00000000000000--- title: RocksDB 3.5 Release! layout: post author: leijin category: blog redirect_from: - /blog/1547/rocksdb-3-5-release/ --- New RocksDB release - 3.5! **New Features** 1. Add include/utilities/write_batch_with_index.h, providing a utility class to query data out of WriteBatch when building it. 2. new ReadOptions.total_order_seek to force total order seek when block-based table is built with hash index. **Public API changes** 1. The Prefix Extractor used with V2 compaction filters is now passed user key to SliceTransform::Transform instead of unparsed RocksDB key. 2. Move BlockBasedTable related options to BlockBasedTableOptions from Options. Change corresponding JNI interface. Options affected include: no_block_cache, block_cache, block_cache_compressed, block_size, block_size_deviation, block_restart_interval, filter_policy, whole_key_filtering. filter_policy is changed to shared_ptr from a raw pointer. 3. Remove deprecated options: disable_seek_compaction and db_stats_log_interval 4. OptimizeForPointLookup() takes one parameter for block cache size. It now builds hash index, bloom filter, and block cache. [https://github.com/facebook/rocksdb/releases/tag/v3.5](https://github.com/facebook/rocksdb/releases/tag/rocksdb-3.5) rocksdb-5.17.2/docs/_posts/2015-01-16-migrating-from-leveldb-to-rocksdb-2.markdown000066400000000000000000000061071337235545400270470ustar00rootroot00000000000000--- title: Migrating from LevelDB to RocksDB layout: post author: lgalanis category: blog redirect_from: - /blog/1811/migrating-from-leveldb-to-rocksdb-2/ --- If you have an existing application that uses LevelDB and would like to migrate to using RocksDB, one problem you need to overcome is to map the options for LevelDB to proper options for RocksDB. As of release 3.9 this can be automatically done by using our option conversion utility found in rocksdb/utilities/leveldb_options.h. What is needed, is to first replace `leveldb::Options` with `rocksdb::LevelDBOptions`. Then, use `rocksdb::ConvertOptions( )` to convert the `LevelDBOptions` struct into appropriate RocksDB options. Here is an example: LevelDB code: ```c++ #include #include "leveldb/db.h" using namespace leveldb; int main(int argc, char** argv) { DB *db; Options opt; opt.create_if_missing = true; opt.max_open_files = 1000; opt.block_size = 4096; Status s = DB::Open(opt, "/tmp/mydb", &db); delete db; } ``` RocksDB code: ```c++ #include #include "rocksdb/db.h" #include "rocksdb/utilities/leveldb_options.h" using namespace rocksdb; int main(int argc, char** argv) { DB *db; LevelDBOptions opt; opt.create_if_missing = true; opt.max_open_files = 1000; opt.block_size = 4096; Options rocksdb_options = ConvertOptions(opt); // add rocksdb specific options here Status s = DB::Open(rocksdb_options, "/tmp/mydb_rocks", &db); delete db; } ``` The difference is: ```diff -#include "leveldb/db.h" +#include "rocksdb/db.h" +#include "rocksdb/utilities/leveldb_options.h" -using namespace leveldb; +using namespace rocksdb; - Options opt; + LevelDBOptions opt; - Status s = DB::Open(opt, "/tmp/mydb", &db); + Options rocksdb_options = ConvertOptions(opt); + // add rockdb specific options here + + Status s = DB::Open(rocksdb_options, "/tmp/mydb_rocks", &db); ``` Once you get up and running with RocksDB you can then focus on tuning RocksDB further by modifying the converted options struct. The reason why ConvertOptions is handy is because a lot of individual options in RocksDB have moved to other structures in different components. For example, block_size is not available in struct rocksdb::Options. It resides in struct rocksdb::BlockBasedTableOptions, which is used to create a TableFactory object that RocksDB uses internally to create the proper TableBuilder objects. If you were to write your application from scratch it would look like this: RocksDB code from scratch: ```c++ #include #include "rocksdb/db.h" #include "rocksdb/table.h" using namespace rocksdb; int main(int argc, char** argv) { DB *db; Options opt; opt.create_if_missing = true; opt.max_open_files = 1000; BlockBasedTableOptions topt; topt.block_size = 4096; opt.table_factory.reset(NewBlockBasedTableFactory(topt)); Status s = DB::Open(opt, "/tmp/mydb_rocks", &db); delete db; } ``` The LevelDBOptions utility can ease migration to RocksDB from LevelDB and allows us to break down the various options across classes as it is needed. rocksdb-5.17.2/docs/_posts/2015-02-24-reading-rocksdb-options-from-a-file.markdown000066400000000000000000000033761337235545400271360ustar00rootroot00000000000000--- title: Reading RocksDB options from a file layout: post author: lgalanis category: blog redirect_from: - /blog/1883/reading-rocksdb-options-from-a-file/ --- RocksDB options can be provided using a file or any string to RocksDB. The format is straightforward: `write_buffer_size=1024;max_write_buffer_number=2`. Any whitespace around `=` and `;` is OK. Moreover, options can be nested as necessary. For example `BlockBasedTableOptions` can be nested as follows: `write_buffer_size=1024; max_write_buffer_number=2; block_based_table_factory={block_size=4k};`. Similarly any white space around `{` or `}` is ok. Here is what it looks like in code: ```c++ #include #include "rocksdb/db.h" #include "rocksdb/table.h" #include "rocksdb/utilities/convenience.h" using namespace rocksdb; int main(int argc, char** argv) { DB *db; Options opt; std::string options_string = "create_if_missing=true;max_open_files=1000;" "block_based_table_factory={block_size=4096}"; Status s = GetDBOptionsFromString(opt, options_string, &opt); s = DB::Open(opt, "/tmp/mydb_rocks", &db); // use db delete db; } ``` Using `GetDBOptionsFromString` is a convenient way of changing options for your RocksDB application without needing to resort to recompilation or tedious command line parsing. rocksdb-5.17.2/docs/_posts/2015-02-27-write-batch-with-index.markdown000066400000000000000000000074421337235545400246030ustar00rootroot00000000000000--- title: 'WriteBatchWithIndex: Utility for Implementing Read-Your-Own-Writes' layout: post author: sdong category: blog redirect_from: - /blog/1901/write-batch-with-index/ --- RocksDB can be used as a storage engine of a higher level database. In fact, we are currently plugging RocksDB into MySQL and MongoDB as one of their storage engines. RocksDB can help with guaranteeing some of the ACID properties: durability is guaranteed by RocksDB by design; while consistency and isolation need to be enforced by concurrency controls on top of RocksDB; Atomicity can be implemented by committing a transaction's writes with one write batch to RocksDB in the end. However, if we enforce atomicity by only committing all writes in the end of the transaction in one batch, you cannot get the updated value from RocksDB previously written by the same transaction (read-your-own-write). To read the updated value, the databases on top of RocksDB need to maintain an internal buffer for all the written keys, and when a read happens they need to merge the result from RocksDB and from this buffer. This is a problem we faced when building the RocksDB storage engine in MongoDB. We solved it by creating a utility class, WriteBatchWithIndex (a write batch with a searchable index) and made it part of public API so that the community can also benefit from it. Before talking about the index part, let me introduce write batch first. The write batch class, `WriteBatch`, is a RocksDB data structure for atomic writes of multiple keys. Users can buffer their updates to a `WriteBatch` by calling `write_batch.Put("key1", "value1")` or `write_batch.Delete("key2")`, similar as calling RocksDB's functions of the same names. In the end, they call `db->Write(write_batch)` to atomically update all those batched operations to the DB. It is how a database can guarantee atomicity, as shown above. Adding a searchable index to `WriteBatch`, we now have `WriteBatchWithIndex`. Users can put updates to WriteBatchIndex in the same way as to `WriteBatch`. In the end, users can get a `WriteBatch` object from it and issue `db->Write()`. Additionally, users can create an iterator of a WriteBatchWithIndex, seek to any key location and iterate from there. To implement read-your-own-write using `WriteBatchWithIndex`, every time the user creates a transaction, we create a `WriteBatchWithIndex` attached to it. All the writes of the transaction go to the `WriteBatchWithIndex` first. When we commit the transaction, we atomically write the batch to RocksDB. When the user wants to call `Get()`, we first check if the value exists in the `WriteBatchWithIndex` and return the value if existing, by seeking and reading from an iterator of the write batch, before checking data in RocksDB. For example, here is the we implement it in MongoDB's RocksDB storage engine: [link](https://github.com/mongodb/mongo/blob/a31cc114a89a3645e97645805ba77db32c433dce/src/mongo/db/storage/rocks/rocks_recovery_unit.cpp#L245-L260). If a range query comes, we pass a DB's iterator to `WriteBatchWithIndex`, which creates a super iterator which combines the results from the DB iterator with the batch's iterator. Using this super iterator, we can iterate the DB with the transaction's own writes. Here is the iterator creation codes in MongoDB's RocksDB storage engine: [link](https://github.com/mongodb/mongo/blob/a31cc114a89a3645e97645805ba77db32c433dce/src/mongo/db/storage/rocks/rocks_recovery_unit.cpp#L266-L269). In this way, the database can solve the read-your-own-write problem by using RocksDB to handle a transaction's uncommitted writes. Using `WriteBatchWithIndex`, we successfully implemented read-your-own-writes in the RocksDB storage engine of MongoDB. If you also have a read-your-own-write problem, `WriteBatchWithIndex` can help you implement it quickly and correctly. rocksdb-5.17.2/docs/_posts/2015-04-22-integrating-rocksdb-with-mongodb-2.markdown000066400000000000000000000016061337235545400270000ustar00rootroot00000000000000--- title: Integrating RocksDB with MongoDB layout: post author: icanadi category: blog redirect_from: - /blog/1967/integrating-rocksdb-with-mongodb-2/ --- Over the last couple of years, we have been busy integrating RocksDB with various services here at Facebook that needed to store key-value pairs locally. We have also seen other companies using RocksDB as local storage components of their distributed systems. The next big challenge for us is to bring RocksDB storage engine to general purpose databases. Today we have an exciting milestone to share with our community! We're running MongoDB with RocksDB in production and seeing great results! You can read more about it here: [http://blog.parse.com/announcements/mongodb-rocksdb-parse/](http://blog.parse.com/announcements/mongodb-rocksdb-parse/) Keep tuned for benchmarks and more stability and performance improvements. rocksdb-5.17.2/docs/_posts/2015-06-12-rocksdb-in-osquery.markdown000066400000000000000000000007661337235545400240540ustar00rootroot00000000000000--- title: RocksDB in osquery layout: post author: icanadi category: lgalanis redirect_from: - /blog/1997/rocksdb-in-osquery/ --- Check out [this](https://code.facebook.com/posts/1411870269134471/how-rocksdb-is-used-in-osquery/) blog post by [Mike Arpaia](https://www.facebook.com/mike.arpaia) and [Ted Reed](https://www.facebook.com/treeded) about how osquery leverages RocksDB to build an embedded pub-sub system. This article is a great read and contains insights on how to properly use RocksDB. rocksdb-5.17.2/docs/_posts/2015-07-15-rocksdb-2015-h2-roadmap.markdown000066400000000000000000000057271337235545400242660ustar00rootroot00000000000000--- title: RocksDB 2015 H2 roadmap layout: post author: icanadi category: blog redirect_from: - /blog/2015/rocksdb-2015-h2-roadmap/ --- Every 6 months, RocksDB team gets together to prioritize the work ahead of us. We just went through this exercise and we wanted to share the results with the community. Here's what RocksDB team will be focusing on for the next 6 months: **MyRocks** As you might know, we're working hard to integrate RocksDB as a storage engine for MySQL. This project is pretty important for us because we're heavy users of MySQL. We're already getting pretty good performance results, but there is more work to be done. We need to focus on both performance and stability. The most high priority items on are list are: 1. Reduce CPU costs of RocksDB as a MySQL storage engine 2. Implement pessimistic concurrency control to support repeatable read isolation level in MyRocks 3. Reduce P99 read latency, which is high mostly because of lingering tombstones 4. Port ZSTD compression **MongoRocks** Another database that we're working on is MongoDB. The project of integrating MongoDB with RocksDB storage engine is called MongoRocks. It's already running in production at Parse [1] and we're seeing surprisingly few issues. Our plans for the next half: 1. Keep improving performance and stability, possibly reuse work done on MyRocks (workloads are pretty similar). 2. Increase internal and external adoption. 3. Support new MongoDB 3.2. **RocksDB on cheaper storage media** Up to now, our mission was to build the best key-value store “for fast storage†(flash and in-memory). However, there are some use-cases at Facebook that don't need expensive high-end storage. In the next six months, we plan to deploy RocksDB on cheaper storage media. We will optimize performance to RocksDB on either or both: 1. Hard drive storage array. 2. Tiered Storage. **Quality of Service** When talking to our customers, there are couple of issues that keep reoccurring. We need to fix them to make our customers happy. We will improve RocksDB to provide better assurance of performance and resource usage. Non-exhaustive list includes: 1. Iterate P99 can be high due to the presence of tombstones. 2. Write stalls can happen during high write loads. 3. Better control of memory and disk usage. 4. Service quality and performance of backup engine. **Operation's user experience** As we increase deployment of RocksDB, engineers are spending more time on debugging RocksDB issues. We plan to improve user experience when running RocksDB. The goal is to reduce TTD (time-to-debug). The work includes monitoring, visualizations and documentations. [1]( http://blog.parse.com/announcements/mongodb-rocksdb-parse/](http://blog.parse.com/announcements/mongodb-rocksdb-parse/) ### Comments **[Mike](allspace2012@outlook.com)** What’s the status of this roadmap? “RocksDB on cheaper storage mediaâ€, has this been implemented? rocksdb-5.17.2/docs/_posts/2015-07-17-spatial-indexing-in-rocksdb.markdown000066400000000000000000000115011337235545400256000ustar00rootroot00000000000000--- title: Spatial indexing in RocksDB layout: post author: icanadi category: blog redirect_from: - /blog/2039/spatial-indexing-in-rocksdb/ --- About a year ago, there was a need to develop a spatial database at Facebook. We needed to store and index Earth's map data. Before building our own, we looked at the existing spatial databases. They were all very good technology, but also general purpose. We could sacrifice a general-purpose API, so we thought we could build a more performant database, since it would be specifically designed for our use-case. Furthermore, we decided to build the spatial database on top of RocksDB, because we have a lot of operational experience with running and tuning RocksDB at a large scale. When we started looking at this project, the first thing that surprised us was that our planet is not that big. Earth's entire map data can fit in memory on a reasonably high-end machine. Thus, we also decided to build a spatial database optimized for memory-resident dataset. The first use-case of our spatial database was an experimental map renderer. As part of our project, we successfully loaded [Open Street Maps](https://www.openstreetmap.org/) dataset and hooked it up with [Mapnik](http://mapnik.org/), a map rendering engine. The usual Mapnik workflow is to load the map data into a SQL-based database and then define map layers with SQL statements. To render a tile, Mapnik needs to execute a couple of SQL queries. The benefit of this approach is that you don't need to reload your database when you change your map style. You can just change your SQL query and Mapnik picks it up. In our model, we decided to precompute the features we need for each tile. We need to know the map style before we create the database. However, when rendering the map tile, we only fetch the features that we need to render. We haven't open sourced the RocksDB Mapnik plugin or the database loading pipeline. However, the spatial indexing is available in RocksDB under a name [SpatialDB](https://github.com/facebook/rocksdb/blob/master/include/rocksdb/utilities/spatial_db.h). The API is focused on map rendering use-case, but we hope that it can also be used for other spatial-based applications. Let's take a tour of the API. When you create a spatial database, you specify the spatial indexes that need to be built. Each spatial index is defined by a bounding box and granularity. For map rendering, we create a spatial index for each zoom levels. Higher zoom levels have more granularity. SpatialDB::Create( SpatialDBOptions(), "/data/map", { SpatialIndexOptions("zoom10", BoundingBox(0, 0, 100, 100), 10), SpatialIndexOptions("zoom16", BoundingBox(0, 0, 100, 100), 16) } ); When you insert a feature (building, street, country border) into SpatialDB, you need to specify the list of spatial indexes that will index the feature. In the loading phase we process the map style to determine the list of zoom levels on which we'll render the feature. For example, we will not render the building on zoom level that shows an entire country. Building will only be indexed on higher zoom level's index. Country borders will be indexes on all zoom levels. FeatureSet feature; feature.Set("type", "building"); feature.Set("height", 6); db->Insert(WriteOptions(), BoundingBox(5, 5, 10, 10), well_known_binary_blob, feature, {"zoom16"}); The indexing part is pretty simple. For each feature, we first find a list of index tiles that it intersects. Then, we add a link from the tile's [quad key](https://msdn.microsoft.com/en-us/library/bb259689.aspx) to the feature's primary key. Using quad keys improves data locality, i.e. features closer together geographically will have similar quad keys. Even though we're optimizing for a memory-resident dataset, data locality is still very important due to different caching effects. After you're done inserting all the features, you can call an API Compact() that will compact the dataset and speed up read queries. db->Compact(); SpatialDB's query specifies: 1) bounding box we're interested in, and 2) a zoom level. We find all tiles that intersect with the query's bounding box and return all features in those tiles. Cursor* c = db_->Query(ReadOptions(), BoundingBox(1, 1, 7, 7), "zoom16"); for (c->Valid(); c->Next()) { Render(c->blob(), c->feature_set()); } Note: `Render()` function is not part of RocksDB. You will need to use one of many open source map renderers, for example check out [Mapnik](http://mapnik.org/). TL;DR If you need an embedded spatial database, check out RocksDB's SpatialDB. [Let us know](https://www.facebook.com/groups/rocksdb.dev/) how we can make it better. If you're interested in learning more, check out this [talk](https://www.youtube.com/watch?v=T1jWsDMONM8). rocksdb-5.17.2/docs/_posts/2015-07-22-rocksdb-is-now-available-in-windows-platform.markdown000066400000000000000000000020311337235545400307760ustar00rootroot00000000000000--- title: RocksDB is now available in Windows Platform layout: post author: dmitrism category: blog redirect_from: - /blog/2033/rocksdb-is-now-available-in-windows-platform/ --- Over the past 6 months we have seen a number of use cases where RocksDB is successfully used by the community and various companies to achieve high throughput and volume in a modern server environment. We at Microsoft Bing could not be left behind. As a result we are happy to [announce](http://bit.ly/1OmWBT9) the availability of the Windows Port created here at Microsoft which we intend to use as a storage option for one of our key/value data stores. We are happy to make this available for the community. Keep tuned for more announcements to come. ### Comments **[Siying Dong](siying.d@fb.com)** Appreciate your contributions to RocksDB project! I believe it will benefits many users! **[empresas sevilla](oxofkx@gmail.com)** Magnifico artículo|, un placer leer el blog **[jak usunac](tomogedac@o2.pl)** I believe it will benefits too rocksdb-5.17.2/docs/_posts/2015-07-23-dynamic-level.markdown000066400000000000000000000105161337235545400230420ustar00rootroot00000000000000--- title: Dynamic Level Size for Level-Based Compaction layout: post author: sdong category: blog redirect_from: - /blog/2207/dynamic-level/ --- In this article, we follow up on the first part of an answer to one of the questions in our [AMA](https://www.reddit.com/r/IAmA/comments/3de3cv/we_are_rocksdb_engineering_team_ask_us_anything/ct4a8tb), the dynamic level size in level-based compaction. Level-based compaction is the original LevelDB compaction style and one of the two major compaction styles in RocksDB (See [our wiki](https://github.com/facebook/rocksdb/wiki/RocksDB-Basics#multi-threaded-compactions)). In RocksDB we introduced parallelism and more configurable options to it but the main algorithm stayed the same, until we recently introduced the dynamic level size mode. In level-based compaction, we organize data to different sorted runs, called levels. Each level has a target size.  Usually target size of levels increases by the same size multiplier. For example, you can set target size of level 1 to be 1GB, and size multiplier to be 10, and the target size of level 1, 2, 3, 4 will be 1GB, 10GB, 100GB and 1000GB. Before level 1, there will be some staging file flushed from mem tables, called Level 0 files, which will later be merged to level 1. Compactions will be triggered as soon as actual size of a level exceeds its target size. We will merge a subset of data of that level to next level, to reduce size of the level. More compactions will be triggered until sizes of all the levels are lower than their target sizes. In a steady state, the size of each level will be around the same size of the size of level targets. Level-based compaction’s advantage is its good space efficiency. We usually use the metric space amplification to measure the space efficiency. In this article ignore the effects of data compression so space amplification= size_on_file_system / size_of_user_data. How do we estimate space amplification of level-based compaction? We focus specifically on the databases in steady state, which means database size is stable or grows slowly over time. This means updates will add roughly the same or little more data than what is removed by deletes. Given that, if we compact all the data all to the last level, the size of level will be equal as the size of last level before the compaction. On the other hand, the size of user data will be approximately the size of DB if we compact all the levels down to the last level. So the size of the last level will be a good estimation of user data size. So total size of the DB divided by the size of the last level will be a good estimation of space amplification. Applying the equation, if we have four non-zero levels, their sizes are 1GB, 10GB, 100GB, 1000GB, the size amplification will be approximately (1000GB + 100GB + 10GB + 1GB) / 1000GB = 1.111, which is a very good number. However, there is a catch here: how to make sure the last level’s size is 1000GB, the same as the level’s size target? A user has to fine tune level sizes to achieve this number and will need to re-tune if DB size changes. The theoretic number 1.11 is hard to achieve in practice. In a worse case, if you have the target size of last level to be 1000GB but the user data is only 200GB, then the actual space amplification will be (200GB + 100GB + 10GB + 1GB) / 200GB = 1.555, a much worse number. To solve this problem, my colleague Igor Kabiljo came up with a solution of dynamic level size target mode. You can enable it by setting options.level_compaction_dynamic_level_bytes=true. In this mode, size target of levels are changed dynamically based on size of the last level. Suppose the level size multiplier to be 10, and the DB size is 200GB. The target size of the last level is automatically set to be the actual size of the level, which is 200GB, the second to last level’s size target will be automatically set to be size_last_level / 10 = 20GB, the third last level’s will be size_last_level/100 = 2GB, and next level to be size_last_level/1000 = 200MB. We stop here because 200MB is within the range of the first level. In this way, we can achieve the 1.111 space amplification, without fine tuning of the level size targets. More details can be found in [code comments of the option](https://github.com/facebook/rocksdb/blob/v3.11/include/rocksdb/options.h#L366-L423) in the header file. rocksdb-5.17.2/docs/_posts/2015-10-27-getthreadlist.markdown000066400000000000000000000120421337235545400231460ustar00rootroot00000000000000--- title: GetThreadList layout: post author: yhciang category: blog redirect_from: - /blog/2261/getthreadlist/ --- We recently added a new API, called `GetThreadList()`, that exposes the RocksDB background thread activity. With this feature, developers will be able to obtain the real-time information about the currently running compactions and flushes such as the input / output size, elapsed time, the number of bytes it has written. Below is an example output of `GetThreadList`. To better illustrate the example, we have put a sample output of `GetThreadList` into a table where each column represents a thread status:
    ThreadID 140716395198208 140716416169728
    DB db1 db2
    CF default picachu
    ThreadType High Pri Low Pri
    Operation Flush Compaction
    ElapsedTime 143.459 ms 607.538 ms
    Stage FlushJob::WriteLevel0Table CompactionJob::Install
    OperationProperties BytesMemtables 4092938 BytesWritten 1050701 BaseInputLevel 1 BytesRead 4876417 BytesWritten 4140109 IsDeletion 0 IsManual 0 IsTrivialMove 0 JobID 146 OutputLevel 2 TotalInputBytes 4883044
    In the above output, we can see `GetThreadList()` reports the activity of two threads: one thread running flush job (middle column) and the other thread running a compaction job (right-most column). In each thread status, it shows basic information about the thread such as thread id, it's target db / column family, and the job it is currently doing and the current status of the job. For instance, we can see thread 140716416169728 is doing compaction on the `picachu` column family in database `db2`. In addition, we can see the compaction has been running for 600 ms, and it has read 4876417 bytes out of 4883044 bytes. This indicates the compaction is about to complete. The stage property indicates which code block the thread is currently executing. For instance, thread 140716416169728 is currently running `CompactionJob::Install`, which further indicates the compaction job is almost done. Below we briefly describe its API. ## How to Enable it? To enable thread-tracking of a rocksdb instance, simply set `enable_thread_tracking` to true in its DBOptions: ```c++ // If true, then the status of the threads involved in this DB will // be tracked and available via GetThreadList() API. // // Default: false bool enable_thread_tracking; ``` ## The API The GetThreadList API is defined in [include/rocksdb/env.h](https://github.com/facebook/rocksdb/blob/master/include/rocksdb/env.h#L317-L318), which is an Env function: ```c++ virtual Status GetThreadList(std::vector* thread_list) ``` Since an Env can be shared across multiple rocksdb instances, the output of `GetThreadList()` include the background activity of all the rocksdb instances that using the same Env. The `GetThreadList()` API simply returns a vector of `ThreadStatus`, each describes the current status of a thread. The `ThreadStatus` structure, defined in [include/rocksdb/thread_status.h](https://github.com/facebook/rocksdb/blob/master/include/rocksdb/thread_status.h), contains the following information: ```c++ // An unique ID for the thread. const uint64_t thread_id; // The type of the thread, it could be HIGH_PRIORITY, // LOW_PRIORITY, and USER const ThreadType thread_type; // The name of the DB instance where the thread is currently // involved with. It would be set to empty string if the thread // does not involve in any DB operation. const std::string db_name; // The name of the column family where the thread is currently // It would be set to empty string if the thread does not involve // in any column family. const std::string cf_name; // The operation (high-level action) that the current thread is involved. const OperationType operation_type; // The elapsed time in micros of the current thread operation. const uint64_t op_elapsed_micros; // An integer showing the current stage where the thread is involved // in the current operation. const OperationStage operation_stage; // A list of properties that describe some details about the current // operation. Same field in op_properties[] might have different // meanings for different operations. uint64_t op_properties[kNumOperationProperties]; // The state (lower-level action) that the current thread is involved. const StateType state_type; ``` If you are interested in the background thread activity of your RocksDB application, please feel free to give `GetThreadList()` a try :) rocksdb-5.17.2/docs/_posts/2015-11-10-use-checkpoints-for-efficient-snapshots.markdown000066400000000000000000000040501337235545400301360ustar00rootroot00000000000000--- title: Use Checkpoints for Efficient Snapshots layout: post author: rven2 category: blog redirect_from: - /blog/2609/use-checkpoints-for-efficient-snapshots/ --- **Checkpoint** is a feature in RocksDB which provides the ability to take a snapshot of a running RocksDB database in a separate directory. Checkpoints can be used as a point in time snapshot, which can be opened Read-only to query rows as of the point in time or as a Writeable snapshot by opening it Read-Write. Checkpoints can be used for both full and incremental backups. The Checkpoint feature enables RocksDB to create a consistent snapshot of a given RocksDB database in the specified directory. If the snapshot is on the same filesystem as the original database, the SST files will be hard-linked, otherwise SST files will be copied. The manifest and CURRENT files will be copied. In addition, if there are multiple column families, log files will be copied for the period covering the start and end of the checkpoint, in order to provide a consistent snapshot across column families. A Checkpoint object needs to be created for a database before checkpoints are created. The API is as follows: `Status Create(DB* db, Checkpoint** checkpoint_ptr);` Given a checkpoint object and a directory, the CreateCheckpoint function creates a consistent snapshot of the database in the given directory. `Status CreateCheckpoint(const std::string& checkpoint_dir);` The directory should not already exist and will be created by this API. The directory will be an absolute path. The checkpoint can be used as a ​read-only copy of the DB or can be opened as a standalone DB. When opened read/write, the SST files continue to be hard links and these links are removed when the files are obsoleted. When the user is done with the snapshot, the user can delete the directory to remove the snapshot. Checkpoints are used for online backup in ​MyRocks. which is MySQL using RocksDB as the storage engine . ([MySQL on RocksDB](https://github.com/facebook/mysql-5.6)) ​ rocksdb-5.17.2/docs/_posts/2015-11-16-analysis-file-read-latency-by-level.markdown000066400000000000000000000300761337235545400271340ustar00rootroot00000000000000--- title: Analysis File Read Latency by Level layout: post author: sdong category: blog redirect_from: - /blog/2537/analysis-file-read-latency-by-level/ --- In many use cases of RocksDB, people rely on OS page cache for caching compressed data. With this approach, verifying effective of the OS page caching is challenging, because file system is a black box to users. As an example, a user can tune the DB as following: use level-based compaction, with L1 - L4 sizes to be 1GB, 10GB, 100GB and 1TB. And they reserve about 20GB memory as OS page cache, expecting level 0, 1 and 2 are mostly cached in memory, leaving only reads from level 3 and 4 requiring disk I/Os. However, in practice, it's not easy to verify whether OS page cache does exactly what we expect. For example, if we end up with doing 4 instead of 2 I/Os per query, it's not easy for users to figure out whether the it's because of efficiency of OS page cache or reading multiple blocks for a level. Analysis like it is especially important if users run RocksDB on hard drive disks, for the gap of latency between hard drives and memory is much higher than flash-based SSDs. In order to make tuning easier, we added new instrumentation to help users analysis latency distribution of file reads in different levels. If users turn DB statistics on, we always keep track of distribution of file read latency for each level. Users can retrieve the information by querying DB property “rocksdb.stats†( [https://github.com/facebook/rocksdb/blob/v3.13.1/include/rocksdb/db.h#L315-L316](https://github.com/facebook/rocksdb/blob/v3.13.1/include/rocksdb/db.h#L315-L316) ). It will also printed out as a part of compaction summary in info logs periodically. The output looks like this: ``` ** Level 0 read latency histogram (micros): Count: 696 Average: 489.8118 StdDev: 222.40 Min: 3.0000 Median: 452.3077 Max: 1896.0000 Percentiles: P50: 452.31 P75: 641.30 P99: 1068.00 P99.9: 1860.80 P99.99: 1896.00 ------------------------------------------------------ [ 2, 3 ) 1 0.144% 0.144% [ 18, 20 ) 1 0.144% 0.287% [ 45, 50 ) 5 0.718% 1.006% [ 50, 60 ) 26 3.736% 4.741% # [ 60, 70 ) 6 0.862% 5.603% [ 90, 100 ) 1 0.144% 5.747% [ 120, 140 ) 2 0.287% 6.034% [ 140, 160 ) 1 0.144% 6.178% [ 160, 180 ) 1 0.144% 6.322% [ 200, 250 ) 9 1.293% 7.615% [ 250, 300 ) 45 6.466% 14.080% # [ 300, 350 ) 88 12.644% 26.724% ### [ 350, 400 ) 88 12.644% 39.368% ### [ 400, 450 ) 71 10.201% 49.569% ## [ 450, 500 ) 65 9.339% 58.908% ## [ 500, 600 ) 74 10.632% 69.540% ## [ 600, 700 ) 92 13.218% 82.759% ### [ 700, 800 ) 64 9.195% 91.954% ## [ 800, 900 ) 35 5.029% 96.983% # [ 900, 1000 ) 12 1.724% 98.707% [ 1000, 1200 ) 6 0.862% 99.569% [ 1200, 1400 ) 2 0.287% 99.856% [ 1800, 2000 ) 1 0.144% 100.000% ** Level 1 read latency histogram (micros): (......not pasted.....) ** Level 2 read latency histogram (micros): (......not pasted.....) ** Level 3 read latency histogram (micros): (......not pasted.....) ** Level 4 read latency histogram (micros): (......not pasted.....) ** Level 5 read latency histogram (micros): Count: 25583746 Average: 421.1326 StdDev: 385.11 Min: 1.0000 Median: 376.0011 Max: 202444.0000 Percentiles: P50: 376.00 P75: 438.00 P99: 1421.68 P99.9: 4164.43 P99.99: 9056.52 ------------------------------------------------------ [ 0, 1 ) 2351 0.009% 0.009% [ 1, 2 ) 6077 0.024% 0.033% [ 2, 3 ) 8471 0.033% 0.066% [ 3, 4 ) 788 0.003% 0.069% [ 4, 5 ) 393 0.002% 0.071% [ 5, 6 ) 786 0.003% 0.074% [ 6, 7 ) 1709 0.007% 0.080% [ 7, 8 ) 1769 0.007% 0.087% [ 8, 9 ) 1573 0.006% 0.093% [ 9, 10 ) 1495 0.006% 0.099% [ 10, 12 ) 3043 0.012% 0.111% [ 12, 14 ) 2259 0.009% 0.120% [ 14, 16 ) 1233 0.005% 0.125% [ 16, 18 ) 762 0.003% 0.128% [ 18, 20 ) 451 0.002% 0.130% [ 20, 25 ) 794 0.003% 0.133% [ 25, 30 ) 1279 0.005% 0.138% [ 30, 35 ) 1172 0.005% 0.142% [ 35, 40 ) 1363 0.005% 0.148% [ 40, 45 ) 409 0.002% 0.149% [ 45, 50 ) 105 0.000% 0.150% [ 50, 60 ) 80 0.000% 0.150% [ 60, 70 ) 280 0.001% 0.151% [ 70, 80 ) 1583 0.006% 0.157% [ 80, 90 ) 4245 0.017% 0.174% [ 90, 100 ) 6572 0.026% 0.200% [ 100, 120 ) 9724 0.038% 0.238% [ 120, 140 ) 3713 0.015% 0.252% [ 140, 160 ) 2383 0.009% 0.261% [ 160, 180 ) 18344 0.072% 0.333% [ 180, 200 ) 51873 0.203% 0.536% [ 200, 250 ) 631722 2.469% 3.005% [ 250, 300 ) 2721970 10.639% 13.644% ## [ 300, 350 ) 5909249 23.098% 36.742% ##### [ 350, 400 ) 6522507 25.495% 62.237% ##### [ 400, 450 ) 4296332 16.793% 79.030% ### [ 450, 500 ) 2130323 8.327% 87.357% ## [ 500, 600 ) 1553208 6.071% 93.428% # [ 600, 700 ) 642129 2.510% 95.938% # [ 700, 800 ) 372428 1.456% 97.394% [ 800, 900 ) 187561 0.733% 98.127% [ 900, 1000 ) 85858 0.336% 98.462% [ 1000, 1200 ) 82730 0.323% 98.786% [ 1200, 1400 ) 50691 0.198% 98.984% [ 1400, 1600 ) 38026 0.149% 99.133% [ 1600, 1800 ) 32991 0.129% 99.261% [ 1800, 2000 ) 30200 0.118% 99.380% [ 2000, 2500 ) 62195 0.243% 99.623% [ 2500, 3000 ) 36684 0.143% 99.766% [ 3000, 3500 ) 21317 0.083% 99.849% [ 3500, 4000 ) 10216 0.040% 99.889% [ 4000, 4500 ) 8351 0.033% 99.922% [ 4500, 5000 ) 4152 0.016% 99.938% [ 5000, 6000 ) 6328 0.025% 99.963% [ 6000, 7000 ) 3253 0.013% 99.976% [ 7000, 8000 ) 2082 0.008% 99.984% [ 8000, 9000 ) 1546 0.006% 99.990% [ 9000, 10000 ) 1055 0.004% 99.994% [ 10000, 12000 ) 1566 0.006% 100.000% [ 12000, 14000 ) 761 0.003% 100.003% [ 14000, 16000 ) 462 0.002% 100.005% [ 16000, 18000 ) 226 0.001% 100.006% [ 18000, 20000 ) 126 0.000% 100.006% [ 20000, 25000 ) 107 0.000% 100.007% [ 25000, 30000 ) 43 0.000% 100.007% [ 30000, 35000 ) 15 0.000% 100.007% [ 35000, 40000 ) 14 0.000% 100.007% [ 40000, 45000 ) 16 0.000% 100.007% [ 45000, 50000 ) 1 0.000% 100.007% [ 50000, 60000 ) 22 0.000% 100.007% [ 60000, 70000 ) 10 0.000% 100.007% [ 70000, 80000 ) 5 0.000% 100.007% [ 80000, 90000 ) 14 0.000% 100.007% [ 90000, 100000 ) 11 0.000% 100.007% [ 100000, 120000 ) 33 0.000% 100.007% [ 120000, 140000 ) 6 0.000% 100.007% [ 140000, 160000 ) 3 0.000% 100.007% [ 160000, 180000 ) 7 0.000% 100.007% [ 200000, 250000 ) 2 0.000% 100.007% ``` In this example, you can see we only issued 696 reads from level 0 while issued 25 million reads from level 5. The latency distribution is also clearly shown among those reads. This will be helpful for users to analysis OS page cache efficiency. Currently the read latency per level includes reads from data blocks, index blocks, as well as bloom filter blocks. We are also working on a feature to break down those three type of blocks. ### Comments **[Tao Feng](fengtao04@gmail.com)** Is this feature also included in RocksJava? **[Siying Dong](siying.d@fb.com)** Should be. As long as you enable statistics, you should be able to get the value from `RocksDB.getProperty()` with property `rocksdb.dbstats`. Let me know if you can’t find it. **[chiddu](cnbscience@gmail.com)** > In this example, you can see we only issued 696 reads from level 0 while issued 256K reads from level 5. Isn’t it 2.5 M of reads instead of 256K ? . Also could anyone please provide more description on the histogram ? especially > Count: 25583746 Average: 421.1326 StdDev: 385.11 > Min: 1.0000 Median: 376.0011 Max: 202444.0000 > Percentiles: P50: 376.00 P75: 438.00 P99: 1421.68 P99.9: 4164.43 P99.99: 9056.52 and > [ 0, 1 ) 2351 0.009% 0.009% > [ 1, 2 ) 6077 0.024% 0.033% > [ 2, 3 ) 8471 0.033% 0.066% > [ 3, 4 ) 788 0.003% 0.069%†thanks in advance **[Siying Dong](siying.d@fb.com)** Thank you for pointing out the mistake. I fixed it now. In this output, there are 2.5 million samples, average latency is 421 micro seconds, with standard deviation 385. Median is 376, max value is 202 milliseconds. 0.009% has value of 1, 0.024% has value of 1, 0.033% has value of 2. Accumulated value from 0 to 2 is 0.066%. Hope it helps. **[chiddu](cnbscience@gmail.com)** Thank you Siying for the quick reply, I was running couple of benchmark testing to check the performance of rocksdb on SSD. One of the test is similar to what is mentioned in the wiki, TEST 4 : Random read , except the key_size is 10 and value_size is 20. I am inserting 1 billion hashes and reading 1 billion hashes with 32 threads. The histogram shows something like this ``` Level 5 read latency histogram (micros): Count: 7133903059 Average: 480.4357 StdDev: 309.18 Min: 0.0000 Median: 551.1491 Max: 224142.0000 Percentiles: P50: 551.15 P75: 651.44 P99: 996.52 P99.9: 2073.07 P99.99: 3196.32 —————————————————— [ 0, 1 ) 28587385 0.401% 0.401% [ 1, 2 ) 686572516 9.624% 10.025% ## [ 2, 3 ) 567317522 7.952% 17.977% ## [ 3, 4 ) 44979472 0.631% 18.608% [ 4, 5 ) 50379685 0.706% 19.314% [ 5, 6 ) 64930061 0.910% 20.224% [ 6, 7 ) 22613561 0.317% 20.541% …………more…………. ``` If I understand your previous comment correctly, 1. How is it that the count is around 7 billion when I have only inserted 1 billion hashes ? is the stat broken ? 1. What does the percentiles and the numbers signify ? 1. 0, 1 ) 28587385 0.401% 0.401% what does this “28587385†stand for in the histogram row ? **[Siying Dong](siying.d@fb.com)** If I remember correctly, with db_bench, if you specify –num=1000000000 –threads=32, it is every thread reading one billion keys, total of 32 billions. Is it the case you ran into? 28,587,385 means that number of data points take the value [0,1) 28,587,385 / 7,133,903,058 = 0.401% provides percentage. **[chiddu](cnbscience@gmail.com)** I do have `num=1000000000` and `t=32`. The script says reading 1 billion hashes and not 32 billion hashes. this is the script on which I have used ``` echo “Load 1B keys sequentially into database…..†bpl=10485760;overlap=10;mcz=2;del=300000000;levels=6;ctrig=4; delay=8; stop=12; wbn=3; mbc=20; mb=67108864;wbs=134217728; dds=1; sync=0; r=1000000000; t=1; vs=20; bs=4096; cs=1048576; of=500000; si=1000000; ./db_bench –benchmarks=fillseq –disable_seek_compaction=1 –mmap_read=0 –statistics=1 –histogram=1 –num=$r –threads=$t –value_size=$vs –block_size=$bs –cache_size=$cs –bloom_bits=10 –cache_numshardbits=6 –open_files=$of –verify_checksum=1 –db=/data/mysql/leveldb/test –sync=$sync –disable_wal=1 –compression_type=none –stats_interval=$si –compression_ratio=0.5 –disable_data_sync=$dds –write_buffer_size=$wbs –target_file_size_base=$mb –max_write_buffer_number=$wbn –max_background_compactions=$mbc –level0_file_num_compaction_trigger=$ctrig –level0_slowdown_writes_trigger=$delay –level0_stop_writes_trigger=$stop –num_levels=$levels –delete_obsolete_files_period_micros=$del –min_level_to_compress=$mcz –max_grandparent_overlap_factor=$overlap –stats_per_interval=1 –max_bytes_for_level_base=$bpl –use_existing_db=0 –key_size=10 echo “Reading 1B keys in database in random order….†bpl=10485760;overlap=10;mcz=2;del=300000000;levels=6;ctrig=4; delay=8; stop=12; wbn=3; mbc=20; mb=67108864;wbs=134217728; dds=0; sync=0; r=1000000000; t=32; vs=20; bs=4096; cs=1048576; of=500000; si=1000000; ./db_bench –benchmarks=readrandom –disable_seek_compaction=1 –mmap_read=0 –statistics=1 –histogram=1 –num=$r –threads=$t –value_size=$vs –block_size=$bs –cache_size=$cs –bloom_bits=10 –cache_numshardbits=6 –open_files=$of –verify_checksum=1 –db=/some_data_base –sync=$sync –disable_wal=1 –compression_type=none –stats_interval=$si –compression_ratio=0.5 –disable_data_sync=$dds –write_buffer_size=$wbs –target_file_size_base=$mb –max_write_buffer_number=$wbn –max_background_compactions=$mbc –level0_file_num_compaction_trigger=$ctrig –level0_slowdown_writes_trigger=$delay –level0_stop_writes_trigger=$stop –num_levels=$levels –delete_obsolete_files_period_micros=$del –min_level_to_compress=$mcz –max_grandparent_overlap_factor=$overlap –stats_per_interval=1 –max_bytes_for_level_base=$bpl –use_existing_db=1 –key_size=10 ``` After running this script, there were no issues wrt to loading billion hashes , but when it came to reading part, its been almost 4 days and still I have only read 7 billion hashes and have read 200 million hashes in 2 and half days. Is there something which is missing in db_bench or something which I am missing ? **[Siying Dong](siying.d@fb.com)** It’s a printing error then. If you have `num=1000000000` and `t=32`, it will be 32 threads, and each reads 1 billion keys. rocksdb-5.17.2/docs/_posts/2016-01-29-compaction_pri.markdown000066400000000000000000000156201337235545400233210ustar00rootroot00000000000000--- title: Option of Compaction Priority layout: post author: sdong category: blog redirect_from: - /blog/2921/compaction_pri/ --- The most popular compaction style of RocksDB is level-based compaction, which is an improved version of LevelDB's compaction algorithm. Page 9- 16 of this [slides](https://github.com/facebook/rocksdb/blob/gh-pages/talks/2015-09-29-HPTS-Siying-RocksDB.pdf) gives an illustrated introduction of this compaction style. The basic idea that: data is organized by multiple levels with exponential increasing target size. Except a special level 0, every level is key-range partitioned into many files. When size of a level exceeds its target size, we pick one or more of its files, and merge the file into the next level. Which file to pick to compact is an interesting question. LevelDB only uses one thread for compaction and it always picks files in round robin manner. We implemented multi-thread compaction in RocksDB by picking multiple files from the same level and compact them in parallel. We had to move away from LevelDB's file picking approach. Recently, we created an option [options.compaction_pri](https://github.com/facebook/rocksdb/blob/d6c838f1e130d8860407bc771fa6d4ac238859ba/include/rocksdb/options.h#L83-L93), which indicated three different algorithms to pick files to compact. Why do we need to multiple algorithms to choose from? Because there are different factors to consider when picking the files, and we now don't yet know how to balance them automatically, so we expose it to users to choose. Here are factors to consider: **Write amplification** When we estimate write amplification, we usually simplify the problem by assuming keys are uniformly distributed inside each level. In reality, it is not the case, even if user updates are uniformly distributed across the whole key range. For instance, when we compact one file of a level to the next level, it creates a hole. Over time, incoming compaction will fill data to the hole, but the density will still be lower for a while. Picking a file with keys least densely populated is more expensive to get the file to the next level, because there will be more overlapping files in the next level so we need to rewrite more data. For example, assume a file is 100MB, if an L2 file overlaps with 8 L3 files, we need to rewrite about 800MB of data to get the file to L3. If the file overlaps with 12 L3 files, we'll need to rewrite about 1200MB to get a file of the same size out of L2. It uses 50% more writes. (This analysis ignores the key density of the next level, because the range covers N times of files in that level so one hole only impacts write amplification by 1/N) If all the updates are uniformly distributed, LevelDB's approach optimizes write amplification, because a file being picked covers a range whose last compaction time to the next level is the oldest, so the range will accumulated keys from incoming compactions for the longest and the density is the highest. We created a compaction priority **kOldestSmallestSeqFirst** for the same effect. With this mode, we always pick the file covers the oldest updates in the level, which usually is contains the densest key range. If you have a use case where writes are uniformly distributed across the key space and you want to reduce write amplification, you should set options.compaction_pri=kOldestSmallestSeqFirst. **Optimize for small working set** We are assuming updates are uniformly distributed across the whole key space in previous analysis. However, in many use cases, there are subset of keys that are frequently updated while other key ranges are very cold. In this case, keeping hot key ranges from compacting to deeper levels will benefit write amplification, as well as space amplification. For example, if in a DB only key 150-160 are updated and other keys are seldom updated. If level 1 contains 20 keys, we want to keep 150-160 all stay in level 1. Because when next level 0 -> 1 compaction comes, it will simply overwrite existing keys so size level 1 doesn't increase, so no need to schedule further compaction for level 1->2. On the other hand, if we compact key 150-155 to level2, when a new Level 1->2 compaction comes, it increases the size of level 1, making size of level 1 exceed target size and more compactions will be needed, which generates more writes. The compaction priority **kOldestLargestSeqFirst** optimizes this use case. In this mode, we will pick a file whose latest update is the oldest. It means there is no incoming data for the range for the longest. Usually it is the coldest range. By compacting coldest range first, we leave the hot ranges in the level. If your use case is to overwrite existing keys in a small range, try options.compaction_pri=kOldestLargestSeqFirst**.** **Drop delete marker sooner** If one file contains a lot of delete markers, it may slow down iterating over this area, because we still need to iterate those deleted keys just to ignore them. Furthermore, the sooner we compact delete keys into the last level, the sooner the disk space is reclaimed, so it is good for space efficiency. Our default compaction priority **kByCompensatedSize** considers the case. If number of deletes in a file exceeds number of inserts, it is more likely to be picked for compaction. The more number of deletes exceed inserts, the more likely it is being compacted. The optimization is added to avoid the worst performance of space efficiency and query performance when a large percentage of the DB is deleted. **Efficiency of compaction filter** Usually people use [compaction filters](https://github.com/facebook/rocksdb/blob/v4.1/include/rocksdb/options.h#L201-L226) to clean up old data to free up space. Picking files to compact may impact space efficiency. We don't yet have a a compaction priority to optimize this case. In some of our use cases, we solved the problem in a different way: we have an external service checking modify time of all SST files. If any of the files is too old, we force the single file to compaction by calling DB::CompactFiles() using the single file. In this way, we can provide a time bound of data passing through compaction filters. In all, there three choices of compaction priority modes optimizing different scenarios. if you have a new use case, we suggest you start with `options.compaction_pri=kOldestSmallestSeqFirst` (note it is not the default one for backward compatible reason). If you want to further optimize your use case, you can try other two use cases if your use cases apply. If you have good ideas about better compaction picker approach, you are welcome to implement and benchmark it. We'll be glad to review and merge your a pull requests. ### Comments **[Mark Callaghan](mdcallag@gmail.com)** Performance results for compaction_pri values and linkbench are explained at [http://smalldatum.blogspot.com/2016/02/compaction-priority-in-rocksdb.html](http://smalldatum.blogspot.com/2016/02/compaction-priority-in-rocksdb.html) rocksdb-5.17.2/docs/_posts/2016-02-24-rocksdb-4-2-release.markdown000066400000000000000000000024751337235545400236600ustar00rootroot00000000000000--- title: RocksDB 4.2 Release! layout: post author: sdong category: blog redirect_from: - /blog/3017/rocksdb-4-2-release/ --- New RocksDB release - 4.2! **New Features** 1. Introduce CreateLoggerFromOptions(), this function create a Logger for provided DBOptions. 2. Add GetAggregatedIntProperty(), which returns the sum of the GetIntProperty of all the column families. 3. Add MemoryUtil in rocksdb/utilities/memory.h. It currently offers a way to get the memory usage by type from a list rocksdb instances. **Public API changes** 1. CompactionFilter::Context includes information of Column Family ID 2. The need-compaction hint given by TablePropertiesCollector::NeedCompact() will be persistent and recoverable after DB recovery. This introduces a breaking format change. If you use this experimental feature, including NewCompactOnDeletionCollectorFactory() in the new version, you may not be able to directly downgrade the DB back to version 4.0 or lower. 3. TablePropertiesCollectorFactory::CreateTablePropertiesCollector() now takes an option Context, containing the information of column family ID for the file being written. 4. Remove DefaultCompactionFilterFactory. [https://github.com/facebook/rocksdb/releases/tag/v4.2](https://github.com/facebook/rocksdb/releases/tag/v4.2) rocksdb-5.17.2/docs/_posts/2016-02-25-rocksdb-ama.markdown000066400000000000000000000013331337235545400224670ustar00rootroot00000000000000--- title: RocksDB AMA layout: post author: yhchiang category: blog redirect_from: - /blog/3065/rocksdb-ama/ --- RocksDB developers are doing a Reddit Ask-Me-Anything now at 10AM – 11AM PDT! We welcome you to stop by and ask any RocksDB related questions, including existing / upcoming features, tuning tips, or database design. Here are some enhancements that we'd like to focus on over the next six months: * 2-Phase Commit * Lua support in some custom functions * Backup and repair tools * Direct I/O to bypass OS cache * RocksDB Java API [https://www.reddit.com/r/IAmA/comments/47k1si/we_are_rocksdb_developers_ask_us_anything/](https://www.reddit.com/r/IAmA/comments/47k1si/we_are_rocksdb_developers_ask_us_anything/) rocksdb-5.17.2/docs/_posts/2016-03-07-rocksdb-options-file.markdown000066400000000000000000000022661337235545400243500ustar00rootroot00000000000000--- title: RocksDB Options File layout: post author: yhciang category: blog redirect_from: - /blog/3089/rocksdb-options-file/ --- In RocksDB 4.3, we added a new set of features that makes managing RocksDB options easier. Specifically: * **Persisting Options Automatically**: Each RocksDB database will now automatically persist its current set of options into an INI file on every successful call of DB::Open(), SetOptions(), and CreateColumnFamily() / DropColumnFamily(). * **Load Options from File**: We added [LoadLatestOptions() / LoadOptionsFromFile()](https://github.com/facebook/rocksdb/blob/4.3.fb/include/rocksdb/utilities/options_util.h#L48-L58) that enables developers to construct RocksDB options object from an options file. * **Sanity Check Options**: We added [CheckOptionsCompatibility](https://github.com/facebook/rocksdb/blob/4.3.fb/include/rocksdb/utilities/options_util.h#L64-L77) that performs compatibility check on two sets of RocksDB options. Want to know more about how to use this new features? Check out the [RocksDB Options File wiki page](https://github.com/facebook/rocksdb/wiki/RocksDB-Options-File) and start using this new feature today! rocksdb-5.17.2/docs/_posts/2016-04-26-rocksdb-4-5-1-released.markdown000066400000000000000000000055031337235545400241640ustar00rootroot00000000000000--- title: RocksDB 4.5.1 Released! layout: post author: sdong category: blog redirect_from: - /blog/3179/rocksdb-4-5-1-released/ --- ## 4.5.1 (3/25/2016) ### Bug Fixes *  Fix failures caused by the destorying order of singleton objects.
    ## 4.5.0 (2/5/2016) ### Public API Changes * Add a new perf context level between kEnableCount and kEnableTime. Level 2 now does not include timers for mutexes. * Statistics of mutex operation durations will not be measured by default. If you want to have them enabled, you need to set Statistics::stats_level_ to kAll. * DBOptions::delete_scheduler and NewDeleteScheduler() are removed, please use DBOptions::sst_file_manager and NewSstFileManager() instead ### New Features * ldb tool now supports operations to non-default column families. * Add kPersistedTier to ReadTier. This option allows Get and MultiGet to read only the persited data and skip mem-tables if writes were done with disableWAL = true. * Add DBOptions::sst_file_manager. Use NewSstFileManager() in include/rocksdb/sst_file_manager.h to create a SstFileManager that can be used to track the total size of SST files and control the SST files deletion rate.
    ## 4.4.0 (1/14/2016) ### Public API Changes * Change names in CompactionPri and add a new one. * Deprecate options.soft_rate_limit and add options.soft_pending_compaction_bytes_limit. * If options.max_write_buffer_number > 3, writes will be slowed down when writing to the last write buffer to delay a full stop. * Introduce CompactionJobInfo::compaction_reason, this field include the reason to trigger the compaction. * After slow down is triggered, if estimated pending compaction bytes keep increasing, slowdown more. * Increase default options.delayed_write_rate to 2MB/s. * Added a new parameter --path to ldb tool. --path accepts the name of either MANIFEST, SST or a WAL file. Either --db or --path can be used when calling ldb.
    ## 4.3.0 (12/8/2015) ### New Features * CompactionFilter has new member function called IgnoreSnapshots which allows CompactionFilter to be called even if there are snapshots later than the key. * RocksDB will now persist options under the same directory as the RocksDB database on successful DB::Open, CreateColumnFamily, DropColumnFamily, and SetOptions. * Introduce LoadLatestOptions() in rocksdb/utilities/options_util.h. This function can construct the latest DBOptions / ColumnFamilyOptions used by the specified RocksDB intance. * Introduce CheckOptionsCompatibility() in rocksdb/utilities/options_util.h. This function checks whether the input set of options is able to open the specified DB successfully. ### Public API Changes * When options.db_write_buffer_size triggers, only the column family with the largest column family size will be flushed, not all the column families. rocksdb-5.17.2/docs/_posts/2016-07-26-rocksdb-4-8-released.markdown000066400000000000000000000067771337235545400240520ustar00rootroot00000000000000--- title: RocksDB 4.8 Released! layout: post author: yiwu category: blog redirect_from: - /blog/3239/rocksdb-4-8-released/ --- ## 4.8.0 (5/2/2016) ### [](https://github.com/facebook/rocksdb/blob/master/HISTORY.md#public-api-change-1)Public API Change * Allow preset compression dictionary for improved compression of block-based tables. This is supported for zlib, zstd, and lz4. The compression dictionary's size is configurable via CompressionOptions::max_dict_bytes. * Delete deprecated classes for creating backups (BackupableDB) and restoring from backups (RestoreBackupableDB). Now, BackupEngine should be used for creating backups, and BackupEngineReadOnly should be used for restorations. For more details, see [https://github.com/facebook/rocksdb/wiki/How-to-backup-RocksDB%3F](https://github.com/facebook/rocksdb/wiki/How-to-backup-RocksDB%3F) * Expose estimate of per-level compression ratio via DB property: "rocksdb.compression-ratio-at-levelN". * Added EventListener::OnTableFileCreationStarted. EventListener::OnTableFileCreated will be called on failure case. User can check creation status via TableFileCreationInfo::status. ### [](https://github.com/facebook/rocksdb/blob/master/HISTORY.md#new-features-2)New Features * Add ReadOptions::readahead_size. If non-zero, NewIterator will create a new table reader which performs reads of the given size.
    ## [](https://github.com/facebook/rocksdb/blob/master/HISTORY.md#470-482016)4.7.0 (4/8/2016) ### [](https://github.com/facebook/rocksdb/blob/master/HISTORY.md#public-api-change-2)Public API Change * rename options compaction_measure_io_stats to report_bg_io_stats and include flush too. * Change some default options. Now default options will optimize for server-workloads. Also enable slowdown and full stop triggers for pending compaction bytes. These changes may cause sub-optimal performance or significant increase of resource usage. To avoid these risks, users can open existing RocksDB with options extracted from RocksDB option files. See [https://github.com/facebook/rocksdb/wiki/RocksDB-Options-File](https://github.com/facebook/rocksdb/wiki/RocksDB-Options-File) for how to use RocksDB option files. Or you can call Options.OldDefaults() to recover old defaults. DEFAULT_OPTIONS_HISTORY.md will track change history of default options.
    ## [](https://github.com/facebook/rocksdb/blob/master/HISTORY.md#460-3102016)4.6.0 (3/10/2016) ### [](https://github.com/facebook/rocksdb/blob/master/HISTORY.md#public-api-changes-1)Public API Changes * Change default of BlockBasedTableOptions.format_version to 2. It means default DB created by 4.6 or up cannot be opened by RocksDB version 3.9 or earlier * Added strict_capacity_limit option to NewLRUCache. If the flag is set to true, insert to cache will fail if no enough capacity can be free. Signature of Cache::Insert() is updated accordingly. * Tickers [NUMBER_DB_NEXT, NUMBER_DB_PREV, NUMBER_DB_NEXT_FOUND, NUMBER_DB_PREV_FOUND, ITER_BYTES_READ] are not updated immediately. The are updated when the Iterator is deleted. * Add monotonically increasing counter (DB property "rocksdb.current-super-version-number") that increments upon any change to the LSM tree. ### [](https://github.com/facebook/rocksdb/blob/master/HISTORY.md#new-features-3)New Features * Add CompactionPri::kMinOverlappingRatio, a compaction picking mode friendly to write amplification. * Deprecate Iterator::IsKeyPinned() and replace it with Iterator::GetProperty() with prop_name="rocksdb.iterator.is.key.pinned" rocksdb-5.17.2/docs/_posts/2016-09-28-rocksdb-4-11-2-released.markdown000066400000000000000000000042751337235545400242560ustar00rootroot00000000000000--- title: RocksDB 4.11.2 Released! layout: post author: sdong category: blog --- We abandoned release candidates 4.10.x and directly go to 4.11.2 from 4.9, to make sure the latest release is stable. In 4.11.2, we fixed several data corruption related bugs introduced in 4.9.0. ## 4.11.2 (9/15/2016) ### Bug fixes * Segfault when failing to open an SST file for read-ahead iterators. * WAL without data for all CFs is not deleted after recovery. ## 4.11.1 (8/30/2016) ### Bug Fixes * Mitigate the regression bug of deadlock condition during recovery when options.max_successive_merges hits. * Fix data race condition related to hash index in block based table when putting indexes in the block cache. ## 4.11.0 (8/1/2016) ### Public API Change * options.memtable_prefix_bloom_huge_page_tlb_size => memtable_huge_page_size. When it is set, RocksDB will try to allocate memory from huge page for memtable too, rather than just memtable bloom filter. ### New Features * A tool to migrate DB after options change. See include/rocksdb/utilities/option_change_migration.h. * Add ReadOptions.background_purge_on_iterator_cleanup. If true, we avoid file deletion when destorying iterators. ## 4.10.0 (7/5/2016) ### Public API Change * options.memtable_prefix_bloom_bits changes to options.memtable_prefix_bloom_bits_ratio and deprecate options.memtable_prefix_bloom_probes * enum type CompressionType and PerfLevel changes from char to unsigned char. Value of all PerfLevel shift by one. * Deprecate options.filter_deletes. ### New Features * Add avoid_flush_during_recovery option. * Add a read option background_purge_on_iterator_cleanup to avoid deleting files in foreground when destroying iterators. Instead, a job is scheduled in high priority queue and would be executed in a separate background thread. * RepairDB support for column families. RepairDB now associates data with non-default column families using information embedded in the SST/WAL files (4.7 or later). For data written by 4.6 or earlier, RepairDB associates it with the default column family. * Add options.write_buffer_manager which allows users to control total memtable sizes across multiple DB instances. rocksdb-5.17.2/docs/_posts/2017-01-06-rocksdb-5-0-1-released.markdown000066400000000000000000000040211337235545400241460ustar00rootroot00000000000000--- title: RocksDB 5.0.1 Released! layout: post author: yiwu category: blog --- ### Public API Change * Options::max_bytes_for_level_multiplier is now a double along with all getters and setters. * Support dynamically change `delayed_write_rate` and `max_total_wal_size` options via SetDBOptions(). * Introduce DB::DeleteRange for optimized deletion of large ranges of contiguous keys. * Support dynamically change `delayed_write_rate` option via SetDBOptions(). * Options::allow_concurrent_memtable_write and Options::enable_write_thread_adaptive_yield are now true by default. * Remove Tickers::SEQUENCE_NUMBER to avoid confusion if statistics object is shared among RocksDB instance. Alternatively DB::GetLatestSequenceNumber() can be used to get the same value. * Options.level0_stop_writes_trigger default value changes from 24 to 32. * New compaction filter API: CompactionFilter::FilterV2(). Allows to drop ranges of keys. * Removed flashcache support. * DB::AddFile() is deprecated and is replaced with DB::IngestExternalFile(). DB::IngestExternalFile() remove all the restrictions that existed for DB::AddFile. ### New Features * Add avoid_flush_during_shutdown option, which speeds up DB shutdown by not flushing unpersisted data (i.e. with disableWAL = true). Unpersisted data will be lost. The options is dynamically changeable via SetDBOptions(). * Add memtable_insert_with_hint_prefix_extractor option. The option is mean to reduce CPU usage for inserting keys into memtable, if keys can be group by prefix and insert for each prefix are sequential or almost sequential. See include/rocksdb/options.h for more details. * Add LuaCompactionFilter in utilities. This allows developers to write compaction filters in Lua. To use this feature, LUA_PATH needs to be set to the root directory of Lua. * No longer populate "LATEST_BACKUP" file in backup directory, which formerly contained the number of the latest backup. The latest backup can be determined by finding the highest numbered file in the "meta/" subdirectory. rocksdb-5.17.2/docs/_posts/2017-02-07-rocksdb-5-1-2-released.markdown000066400000000000000000000012261337235545400241560ustar00rootroot00000000000000--- title: RocksDB 5.1.2 Released! layout: post author: maysamyabandeh category: blog --- ### Public API Change * Support dynamically change `delete_obsolete_files_period_micros` option via SetDBOptions(). * Added EventListener::OnExternalFileIngested which will be called when IngestExternalFile() add a file successfully. * BackupEngine::Open and BackupEngineReadOnly::Open now always return error statuses matching those of the backup Env. ### Bug Fixes * Fix the bug that if 2PC is enabled, checkpoints may loss some recent transactions. * When file copying is needed when creating checkpoints or bulk loading files, fsync the file after the file copying. rocksdb-5.17.2/docs/_posts/2017-02-17-bulkoad-ingest-sst-file.markdown000066400000000000000000000044111337235545400247420ustar00rootroot00000000000000--- title: Bulkloading by ingesting external SST files layout: post author: IslamAbdelRahman category: blog --- ## Introduction One of the basic operations of RocksDB is writing to RocksDB, Writes happen when user call (DB::Put, DB::Write, DB::Delete ... ), but what happens when you write to RocksDB ? .. this is a brief description of what happens. - User insert a new key/value by calling DB::Put() (or DB::Write()) - We create a new entry for the new key/value in our in-memory structure (memtable / SkipList by default) and we assign it a new sequence number. - When the memtable exceeds a specific size (64 MB for example), we convert this memtable to a SST file, and put this file in level 0 of our LSM-Tree - Later, compaction will kick in and move data from level 0 to level 1, and then from level 1 to level 2 .. and so on But what if we can skip these steps and add data to the lowest possible level directly ? This is what bulk-loading does ## Bulkloading - Write all of our keys and values into SST file outside of the DB - Add the SST file into the LSM directly This is bulk-loading, and in specific use-cases it allow users to achieve faster data loading and better write-amplification. and doing it is as simple as ```cpp Options options; SstFileWriter sst_file_writer(EnvOptions(), options, options.comparator); Status s = sst_file_writer.Open(file_path); assert(s.ok()); // Insert rows into the SST file, note that inserted keys must be // strictly increasing (based on options.comparator) for (...) { s = sst_file_writer.Add(key, value); assert(s.ok()); } // Ingest the external SST file into the DB s = db_->IngestExternalFile({"/home/usr/file1.sst"}, IngestExternalFileOptions()); assert(s.ok()); ``` You can find more details about how to generate SST files and ingesting them into RocksDB in this [wiki page](https://github.com/facebook/rocksdb/wiki/Creating-and-Ingesting-SST-files) ## Use cases There are multiple use cases where bulkloading could be useful, for example - Generating SST files in offline jobs in Hadoop, then downloading and ingesting the SST files into RocksDB - Migrating shards between machines by dumping key-range in SST File and loading the file in a different machine - Migrating from a different storage (InnoDB to RocksDB migration in MyRocks) rocksdb-5.17.2/docs/_posts/2017-03-02-rocksdb-5-2-1-released.markdown000066400000000000000000000024211337235545400241500ustar00rootroot00000000000000--- title: RocksDB 5.2.1 Released! layout: post author: sdong category: blog --- ### Public API Change * NewLRUCache() will determine number of shard bits automatically based on capacity, if the user doesn't pass one. This also impacts the default block cache when the user doesn't explict provide one. * Change the default of delayed slowdown value to 16MB/s and further increase the L0 stop condition to 36 files. ### New Features * Added new overloaded function GetApproximateSizes that allows to specify if memtable stats should be computed only without computing SST files' stats approximations. * Added new function GetApproximateMemTableStats that approximates both number of records and size of memtables. * (Experimental) Two-level indexing that partition the index and creates a 2nd level index on the partitions. The feature can be enabled by setting kTwoLevelIndexSearch as IndexType and configuring index_per_partition. ### Bug Fixes * RangeSync() should work if ROCKSDB_FALLOCATE_PRESENT is not set * Fix wrong results in a data race case in Get() * Some fixes related to 2PC. * Fix several bugs in Direct I/O supports. * Fix a regression bug which can cause Seek() to miss some keys if the return key has been updated many times after the snapshot which is used by the iterator. rocksdb-5.17.2/docs/_posts/2017-05-12-partitioned-index-filter.markdown000066400000000000000000000071111337235545400252160ustar00rootroot00000000000000--- title: Partitioned Index/Filters layout: post author: maysamyabandeh category: blog --- As DB/mem ratio gets larger, the memory footprint of filter/index blocks becomes non-trivial. Although `cache_index_and_filter_blocks` allows storing only a subset of them in block cache, their relatively large size negatively affects the performance by i) occupying the block cache space that could otherwise be used for caching data, ii) increasing the load on the disk storage by loading them into the cache after a miss. Here we illustrate these problems in more detail and explain how partitioning index/filters alleviates the overhead. ### How large are the index/filter blocks? RocksDB has by default one index/filter block per SST file. The size of the index/filter varies based on the configuration but for a SST of size 256MB the index/filter block of size 0.5/5MB is typical, which is much larger than the typical data block size of 4-32KB. That is fine when all index/filters fit perfectly into memory and hence are read once per SST lifetime, not so much when they compete with data blocks for the block cache space and are also likely to be re-read many times from the disk. ### What is the big deal with large index/filter blocks? When index/filter blocks are stored in block cache they are effectively competing with data blocks (as well as with each other) on this scarce resource. A filter of size 5MB is occupying the space that could otherwise be used to cache 1000s of data blocks (of size 4KB). This would result in more cache misses for data blocks. The large index/filters also kick each other out of the block cache more often and exacerbate their own cache miss rate too. This is while only a small part of the index/filter block might have been actually used during its lifetime in the cache. After the cache miss of an index/filter, it has to be reloaded from the disk, and its large size is not helping in reducing the IO cost. While a simple point lookup might need at most a couple of data block reads (of size 4KB) one from each layer of LSM, it might end up also loading multiple megabytes of index/filter blocks. If that happens often then the disk is spending more time serving index/filters rather than the actual data blocks. ## What is partitioned index/filters? With partitioning, the index/filter of a SST file is partitioned into smaller blocks with an additional top-level index on them. When reading an index/filter, only top-level index is loaded into memory. The partitioned index/filter then uses the top-level index to load on demand into the block cache the partitions that are required to perform the index/filter query. The top-level index, which has much smaller memory footprint, can be stored in heap or block cache depending on the `cache_index_and_filter_blocks` setting. ### Success stories #### HDD, 100TB DB In this example we have a DB of size 86G on HDD and emulate the small memory that is present to a node with 100TB of data by using direct IO (skipping OS file cache) and a very small block cache of size 60MB. Partitioning improves throughput by 11x from 5 op/s to 55 op/s. #### SSD, Linkbench In this example we have a DB of size 300G on SSD and emulate the small memory that would be available in presence of other DBs on the same node by by using direct IO (skipping OS file cache) and block cache of size 6G and 2G. Without partitioning the linkbench throughput drops from 38k tps to 23k when reducing block cache size from 6G to 2G. With partitioning the throughput drops from 38k to only 30k. Learn more [here](https://github.com/facebook/rocksdb/wiki/Partitioned-Index-Filters). rocksdb-5.17.2/docs/_posts/2017-05-14-core-local-stats.markdown000066400000000000000000000125631337235545400234710ustar00rootroot00000000000000--- title: Core-local Statistics layout: post author: ajkr category: blog --- ## Origins: Global Atomics Until RocksDB 4.12, ticker/histogram statistics were implemented with std::atomic values shared across the entire program. A ticker consists of a single atomic, while a histogram consists of several atomics to represent things like min/max/per-bucket counters. These statistics could be updated by all user/background threads. For concurrent/high-throughput workloads, cache line bouncing of atomics caused high CPU utilization. For example, we have tickers that count block cache hits and misses. Almost every user read increments these tickers a few times. Many concurrent user reads would cause the cache lines containing these atomics to bounce between cores. ### Performance Here are perf results for 32 reader threads where most reads (99%+) are served by uncompressed block cache. Such a scenario stresses the statistics code heavily. Benchmark command: `TEST_TMPDIR=/dev/shm/ perf record -g ./db_bench -statistics -use_existing_db=true -benchmarks=readrandom -threads=32 -cache_size=1048576000 -num=1000000 -reads=1000000 && perf report -g --children` Perf snippet for "cycles" event: ``` Children Self Command Shared Object Symbol + 30.33% 30.17% db_bench db_bench [.] rocksdb::StatisticsImpl::recordTick + 3.65% 0.98% db_bench db_bench [.] rocksdb::StatisticsImpl::measureTime ``` Perf snippet for "cache-misses" event: ``` Children Self Command Shared Object Symbol + 19.54% 19.50% db_bench db_bench [.] rocksdb::StatisticsImpl::recordTick + 3.44% 0.57% db_bench db_bench [.] rocksdb::StatisticsImpl::measureTime ``` The high CPU overhead for updating tickers and histograms corresponds well to the high cache misses. ## Thread-locals: Faster Updates Since RocksDB 4.12, ticker/histogram statistics use thread-local storage. Each thread has a local set of atomic values that no other thread can update. This prevents the cache line bouncing problem described above. Even though updates to a given value are always made by the same thread, atomics are still useful to synchronize with aggregations for querying statistics. Implementing this approach involved a couple challenges. First, each query for a statistic's global value must aggregate all threads' local values. This adds some overhead, which may pass unnoticed if statistics are queried infrequently. Second, exited threads' local values are still needed to provide accurate statistics. We handle this by merging a thread's local values into process-wide variables upon thread exit. ### Performance Update benchmark setup is same as before. CPU overhead improved 7.8x compared to global atomics, corresponding to a 17.8x reduction in cache-misses overhead. Perf snippet for "cycles" event: ``` Children Self Command Shared Object Symbol + 2.96% 0.87% db_bench db_bench [.] rocksdb::StatisticsImpl::recordTick + 1.37% 0.10% db_bench db_bench [.] rocksdb::StatisticsImpl::measureTime ``` Perf snippet for "cache-misses" event: ``` Children Self Command Shared Object Symbol + 1.21% 0.65% db_bench db_bench [.] rocksdb::StatisticsImpl::recordTick 0.08% 0.00% db_bench db_bench [.] rocksdb::StatisticsImpl::measureTime ``` To measure statistics query latency, we ran sysbench with 4K OLTP clients concurrently with one client that queries statistics repeatedly. Times shown are in milliseconds. ``` min: 18.45 avg: 27.91 max: 231.65 95th percentile: 55.82 ``` ## Core-locals: Faster Querying The thread-local approach is working well for applications calling RocksDB from only a few threads, or polling statistics infrequently. Eventually, though, we found use cases where those assumptions do not hold. For example, one application has per-connection threads and typically runs into performance issues when connection count grows very high. For debugging such issues, they want high-frequency statistics polling to correlate issues in their application with changes in RocksDB's state. Once [PR #2258](https://github.com/facebook/rocksdb/pull/2258) lands, ticker/histogram statistics will be local to each CPU core. Similarly to thread-local, each core updates only its local values, thus avoiding cache line bouncing. Local values are still atomics to make aggregation possible. With this change, query work depends only on number of cores, not the number of threads. So, applications with many more threads than cores can no longer impact statistics query latency. ### Performance Update benchmark setup is same as before. CPU overhead worsened ~23% compared to thread-local, while cache performance was unchanged. Perf snippet for "cycles" event: ``` Children Self Command Shared Object Symbol + 2.96% 0.87% db_bench db_bench [.] rocksdb::StatisticsImpl::recordTick + 1.37% 0.10% db_bench db_bench [.] rocksdb::StatisticsImpl::measureTime ``` Perf snippet for "cache-misses" event: ``` Children Self Command Shared Object Symbol + 1.21% 0.65% db_bench db_bench [.] rocksdb::StatisticsImpl::recordTick 0.08% 0.00% db_bench db_bench [.] rocksdb::StatisticsImpl::measureTime ``` Query latency is measured same as before with times in milliseconds. Average latency improved by 6.3x compared to thread-local. ``` min: 2.47 avg: 4.45 max: 91.13 95th percentile: 7.56 ``` rocksdb-5.17.2/docs/_posts/2017-05-26-rocksdb-5-4-5-released.markdown000066400000000000000000000046411337235545400241740ustar00rootroot00000000000000--- title: RocksDB 5.4.5 Released! layout: post author: sagar0 category: blog --- ### Public API Change * Support dynamically changing `stats_dump_period_sec` option via SetDBOptions(). * Added ReadOptions::max_skippable_internal_keys to set a threshold to fail a request as incomplete when too many keys are being skipped while using iterators. * DB::Get in place of std::string accepts PinnableSlice, which avoids the extra memcpy of value to std::string in most of cases. * PinnableSlice releases the pinned resources that contain the value when it is destructed or when ::Reset() is called on it. * The old API that accepts std::string, although discouraged, is still supported. * Replace Options::use_direct_writes with Options::use_direct_io_for_flush_and_compaction. See Direct IO wiki for details. ### New Features * Memtable flush can be avoided during checkpoint creation if total log file size is smaller than a threshold specified by the user. * Introduce level-based L0->L0 compactions to reduce file count, so write delays are incurred less often. * (Experimental) Partitioning filters which creates an index on the partitions. The feature can be enabled by setting partition_filters when using kFullFilter. Currently the feature also requires two-level indexing to be enabled. Number of partitions is the same as the number of partitions for indexes, which is controlled by metadata_block_size. * DB::ResetStats() to reset internal stats. * Added CompactionEventListener and EventListener::OnFlushBegin interfaces. * Added DB::CreateColumnFamilie() and DB::DropColumnFamilies() to bulk create/drop column families. * Facility for cross-building RocksJava using Docker. ### Bug Fixes * Fix WriteBatchWithIndex address use after scope error. * Fix WritableFile buffer size in direct IO. * Add prefetch to PosixRandomAccessFile in buffered io. * Fix PinnableSlice access invalid address when row cache is enabled. * Fix huge fallocate calls fail and make XFS unhappy. * Fix memory alignment with logical sector size. * Fix alignment in ReadaheadRandomAccessFile. * Fix bias with read amplification stats (READ_AMP_ESTIMATE_USEFUL_BYTES and READ_AMP_TOTAL_READ_BYTES). * Fix a manual / auto compaction data race. * Fix CentOS 5 cross-building of RocksJava. * Build and link with ZStd when creating the static RocksJava build. * Fix snprintf's usage to be cross-platform. * Fix build errors with blob DB. * Fix readamp test type inconsistency. rocksdb-5.17.2/docs/_posts/2017-06-26-17-level-based-changes.markdown000066400000000000000000000131211337235545400243260ustar00rootroot00000000000000--- title: Level-based Compaction Changes layout: post author: ajkr category: blog --- ### Introduction RocksDB provides an option to limit the number of L0 files, which bounds read-amplification. Since L0 files (unlike files at lower levels) can span the entire key-range, a key might be in any file, thus reads need to check them one-by-one. Users often wish to configure a low limit to improve their read latency. Although, the mechanism with which we enforce L0's file count limit may be unappealing. When the limit is reached, RocksDB intentionally delays user writes. This slows down accumulation of files in L0, and frees up resources for compacting files down to lower levels. But adding delays will significantly increase user-visible write latency jitter. Also, due to how L0 files can span the entire key-range, compaction parallelization is limited. Files at L0 or L1 may be locked due to involvement in pending L0->L1 or L1->L2 compactions. We can only schedule a parallel L0->L1 compaction if it does not require any of the locked files, which is typically not the case. To handle these constraints better, we added a new type of compaction, L0->L0. It quickly reduces file count in L0 and can be scheduled even when L1 files are locked, unlike L0->L1. We also changed the L0->L1 picking algorithm to increase opportunities for parallelism. ### Old L0->L1 Picking Logic Previously, our logic for picking which L0 file to compact was the same as every other level: pick the largest file in the level. One special property of L0->L1 compaction is that files can overlap in the input level, so those overlapping files must be pulled in as well. For example, a compaction may look like this: ![full-range.png](/static/images/compaction/full-range.png) This compaction pulls in every L0 and L1 file. This happens regardless of which L0 file is initially chosen as each file overlaps with every other file. Users may insert their data less uniformly in the key-range. For example, a database may look like this during L0->L1 compaction: ![part-range-old.png](/static/images/compaction/part-range-old.png) Let's say the third file from the top is the largest, and let's say the top two files are created after the compaction started. When the compaction is picked, the fourth L0 file and six rightmost L1 files are pulled in due to overlap. Notice this leaves the database in a state where we might not be able to schedule parallel compactions. For example, if the sixth file from the top is the next largest, we can't compact it because it overlaps with the top two files, which overlap with the locked L0 files. We can now see the high-level problems with this approach more clearly. First, locked files in L0 or L1 prevent us from parallelizing compactions. When locked files block L0->L1 compaction, there is nothing we can do to eliminate L0 files. Second, L0->L1 compactions are relatively slow. As we saw, when keys are uniformly distributed, L0->L1 compacts two entire levels. While this is happening, new files are being flushed to L0, advancing towards the file count limit. ### New L0->L0 Algorithm We introduced compaction within L0 to improve both parallelization and speed of reducing L0 file count. An L0->L0 compaction may look like this: ![l1-l2-contend.png](/static/images/compaction/l1-l2-contend.png) Say the L1->L2 compaction started first. Now L0->L1 is prevented by the locked L1 file. In this case, we compact files within L0. This allows us to start the work for eliminating L0 files earlier. It also lets us do less work since we don't pull in any L1 files, whereas L0->L1 compaction would've pulled in all of them. This lets us quickly reduce L0 file count to keep read-amp low while sustaining large bursts of writes (i.e., fast accumulation of L0 files). The tradeoff is this increases total compaction work, as we're now compacting files without contributing towards our eventual goal of moving them towards lower levels. Our benchmarks, though, consistently show less compaction stalls and improved write throughput. One justification is that L0 file data is highly likely in page cache and/or block cache due to it being recently written and frequently accessed. So, this type of compaction is relatively cheap compared to compactions at lower levels. This feature is available since RocksDB 5.4. ### New L0->L1 Picking Logic Recall how the old L0->L1 picking algorithm chose the largest L0 file for compaction. This didn't fit well with L0->L0 compaction, which operates on a span of files. That span begins at the newest L0 file, and expands towards older files as long as they're not being compacted. Since the largest file may be anywhere, the old L0->L1 picking logic could arbitrarily prevent us from getting a long span of files. See the second illustration in this post for a scenario where this would happen. So, we changed the L0->L1 picking algorithm to start from the oldest file and expand towards newer files as long as they're not being compacted. For example: ![l0-l1-contend.png](/static/images/compaction/l0-l1-contend.png) Now, there can never be L0 files unreachable for L0->L0 due to L0->L1 selecting files in the middle. When longer spans of files are available for L0->L0, we perform less compaction work per deleted L0 file, thus improving efficiency. This feature will be available in RocksDB 5.7. ### Performance Changes Mark Callaghan did the most extensive benchmarking of this feature's impact on MyRocks. See his results [here](http://smalldatum.blogspot.com/2017/05/innodb-myrocks-and-tokudb-on-insert.html). Note the primary change between his March 17 and April 14 builds is the latter performs L0->L0 compaction. rocksdb-5.17.2/docs/_posts/2017-06-29-rocksdb-5-5-1-released.markdown000066400000000000000000000020461337235545400241720ustar00rootroot00000000000000--- title: RocksDB 5.5.1 Released! layout: post author: lightmark category: blog --- ### New Features * FIFO compaction to support Intra L0 compaction too with CompactionOptionsFIFO.allow_compaction=true. * Statistics::Reset() to reset user stats. * ldb add option --try_load_options, which will open DB with its own option file. * Introduce WriteBatch::PopSavePoint to pop the most recent save point explicitly. * Support dynamically change `max_open_files` option via SetDBOptions() * Added DB::CreateColumnFamilie() and DB::DropColumnFamilies() to bulk create/drop column families. * Add debugging function `GetAllKeyVersions` to see internal versions of a range of keys. * Support file ingestion with universal compaction style * Support file ingestion behind with option `allow_ingest_behind` * New option enable_pipelined_write which may improve write throughput in case writing from multiple threads and WAL enabled. ### Bug Fixes * Fix the bug that Direct I/O uses direct reads for non-SST file * Fix the bug that flush doesn't respond to fsync result rocksdb-5.17.2/docs/_posts/2017-07-25-rocksdb-5-6-1-released.markdown000066400000000000000000000037131337235545400241720ustar00rootroot00000000000000--- title: RocksDB 5.6.1 Released! layout: post author: yiwu category: blog --- ### Public API Change * Scheduling flushes and compactions in the same thread pool is no longer supported by setting `max_background_flushes=0`. Instead, users can achieve this by configuring their high-pri thread pool to have zero threads. See https://github.com/facebook/rocksdb/wiki/Thread-Pool for more details. * Replace `Options::max_background_flushes`, `Options::max_background_compactions`, and `Options::base_background_compactions` all with `Options::max_background_jobs`, which automatically decides how many threads to allocate towards flush/compaction. * options.delayed_write_rate by default take the value of options.rate_limiter rate. * Replace global variable `IOStatsContext iostats_context` with `IOStatsContext* get_iostats_context()`; replace global variable `PerfContext perf_context` with `PerfContext* get_perf_context()`. ### New Features * Change ticker/histogram statistics implementations to use core-local storage. This improves aggregation speed compared to our previous thread-local approach, particularly for applications with many threads. See http://rocksdb.org/blog/2017/05/14/core-local-stats.html for more details. * Users can pass a cache object to write buffer manager, so that they can cap memory usage for memtable and block cache using one single limit. * Flush will be triggered when 7/8 of the limit introduced by write_buffer_manager or db_write_buffer_size is triggered, so that the hard threshold is hard to hit. See https://github.com/facebook/rocksdb/wiki/Write-Buffer-Manager for more details. * Introduce WriteOptions.low_pri. If it is true, low priority writes will be throttled if the compaction is behind. See https://github.com/facebook/rocksdb/wiki/Low-Priority-Write for more details. * `DB::IngestExternalFile()` now supports ingesting files into a database containing range deletions. ### Bug Fixes * Shouldn't ignore return value of fsync() in flush. rocksdb-5.17.2/docs/_posts/2017-08-24-pinnableslice.markdown000066400000000000000000000042511337235545400231240ustar00rootroot00000000000000--- title: PinnableSlice; less memcpy with point lookups layout: post author: maysamyabandeh category: blog --- The classic API for [DB::Get](https://github.com/facebook/rocksdb/blob/9e583711144f580390ce21a49a8ceacca338fcd5/include/rocksdb/db.h#L310) receives a std::string as argument to which it will copy the value. The memcpy overhead could be non-trivial when the value is large. The [new API](https://github.com/facebook/rocksdb/blob/9e583711144f580390ce21a49a8ceacca338fcd5/include/rocksdb/db.h#L322) receives a PinnableSlice instead, which avoids memcpy in most of the cases. ### What is PinnableSlice? Similarly to Slice, PinnableSlice refers to some in-memory data so it does not incur the memcpy cost. To ensure that the data will not be erased while it is being processed by the user, PinnableSlice, as its name suggests, has the data pinned in memory. The pinned data are released when PinnableSlice object is destructed or when ::Reset is invoked explicitly on it. ### How good is it? Here are the improvements in throughput for an [in-memory benchmark](https://github.com/facebook/rocksdb/pull/1756#issuecomment-286201693): * value 1k byte: 14% * value 10k byte: 34% ### Any limitations? PinnableSlice tries to avoid memcpy as much as possible. The primary gain is when reading large values from the block cache. There are however cases that it would still have to copy the data into its internal buffer. The reason is mainly the complexity of implementation and if there is enough motivation on the application side. the scope of PinnableSlice could be extended to such cases too. These include: * Merged values * Reads from memtables ### How to use it? ```cpp PinnableSlice pinnable_val; while (!stopped) { auto s = db->Get(opt, cf, key, &pinnable_val); // ... use it pinnable_val.Reset(); // then release it immediately } ``` You can also [initialize the internal buffer](https://github.com/facebook/rocksdb/blob/9e583711144f580390ce21a49a8ceacca338fcd5/include/rocksdb/db.h#L314) of PinnableSlice by passing your own string in the constructor. [simple_example.cc](https://github.com/facebook/rocksdb/blob/master/examples/simple_example.cc) demonstrates that with more examples. rocksdb-5.17.2/docs/_posts/2017-08-25-flushwal.markdown000066400000000000000000000055641337235545400221520ustar00rootroot00000000000000--- title: FlushWAL; less fwrite, faster writes layout: post author: maysamyabandeh category: blog --- When `DB::Put` is called, the data is written to both memtable (to be flushed to SST files later) and the WAL (write-ahead log) if it is enabled. In the case of a crash, RocksDB can recover as much as the memtable state that is reflected into the WAL. By default RocksDB automatically flushes the WAL from the application memory to the OS buffer after each `::Put`. It however can be configured to perform the flush manually after an explicit call to `::FlushWAL`. Not doing fwrite syscall after each `::Put` offers a tradeoff between reliability and write latency for the general case. As we explain below, some applications such as MyRocks benefit from this API to gain higher write throughput with however no compromise in reliability. ### How much is the gain? Using `::FlushWAL` API along with setting `DBOptions.concurrent_prepare`, MyRocks achieves 40% higher throughput in Sysbench's [update-nonindex](https://github.com/akopytov/sysbench/blob/master/src/lua/oltp_update_non_index.lua) benchmark. ### Write, Flush, and Sync The write to the WAL is first written to the application memory buffer. The buffer in the next step is "flushed" to OS buffer by calling fwrite syscall. The OS buffer is later "synced" to the persistent storage. The data in the OS buffer, although not persisted yet, will survive the application crash. By default, the flush occurs automatically upon each call to `DB::Put` or `DB::Write`. The user can additionally request sync after each write by setting `WriteOptions::sync`. ### FlushWAL API The user can turn off the automatic flush of the WAL by setting `DBOptions::manual_wal_flush`. In that case, the WAL buffer is flushed when it is either full or `DB::FlushWAL` is called by the user. The API also accepts a boolean argument should we want to sync right after the flush: `::FlushWAL(true)`. ### Success story: MyRocks Some applications that use RocksDB, already have other machinsims in place to provide reliability. MySQL for example uses 2PC (two-phase commit) to write to both binlog as well as the storage engine such as InnoDB and MyRocks. The group commit logic in MySQL allows the 1st phase (Prepare) to be run in parallel but after a commit group is formed performs the 2nd phase (Commit) in a serial manner. This makes low commit latency in the storage engine essential for acheiving high throughput. The commit in MyRocks includes writing to the RocksDB WAL, which as explaiend above, by default incures the latency of flushing the WAL new appends to the OS buffer. Since binlog helps in recovering from some failure scenarios, MySQL can provide reliability without however needing a storage WAL flush after each individual commit. MyRocks benefits from this property, disables automatic WAL flush in RocksDB, and manually calls `::FlushWAL` when requested by MySQL. rocksdb-5.17.2/docs/_posts/2017-09-28-rocksdb-5-8-released.markdown000066400000000000000000000035651337235545400240500ustar00rootroot00000000000000--- title: RocksDB 5.8 Released! layout: post author: maysamyabandeh category: blog --- ### Public API Change * Users of `Statistics::getHistogramString()` will see fewer histogram buckets and different bucket endpoints. * `Slice::compare` and BytewiseComparator `Compare` no longer accept `Slice`s containing nullptr. * `Transaction::Get` and `Transaction::GetForUpdate` variants with `PinnableSlice` added. ### New Features * Add Iterator::Refresh(), which allows users to update the iterator state so that they can avoid some initialization costs of recreating iterators. * Replace dynamic_cast<> (except unit test) so people can choose to build with RTTI off. With make, release mode is by default built with -fno-rtti and debug mode is built without it. Users can override it by setting USE_RTTI=0 or 1. * Universal compactions including the bottom level can be executed in a dedicated thread pool. This alleviates head-of-line blocking in the compaction queue, which cause write stalling, particularly in multi-instance use cases. Users can enable this feature via `Env::SetBackgroundThreads(N, Env::Priority::BOTTOM)`, where `N > 0`. * Allow merge operator to be called even with a single merge operand during compactions, by appropriately overriding `MergeOperator::AllowSingleOperand`. * Add `DB::VerifyChecksum()`, which verifies the checksums in all SST files in a running DB. * Block-based table support for disabling checksums by setting `BlockBasedTableOptions::checksum = kNoChecksum`. ### Bug Fixes * Fix wrong latencies in `rocksdb.db.get.micros`, `rocksdb.db.write.micros`, and `rocksdb.sst.read.micros`. * Fix incorrect dropping of deletions during intra-L0 compaction. * Fix transient reappearance of keys covered by range deletions when memtable prefix bloom filter is enabled. * Fix potentially wrong file smallest key when range deletions separated by snapshot are written together. rocksdb-5.17.2/docs/_posts/2017-12-18-17-auto-tuned-rate-limiter.markdown000066400000000000000000000045311337235545400252210ustar00rootroot00000000000000--- title: Auto-tuned Rate Limiter layout: post author: ajkr category: blog --- ### Introduction Our rate limiter has been hard to configure since users need to pick a value that is low enough to prevent background I/O spikes, which can impact user-visible read/write latencies. Meanwhile, picking too low a value can cause memtables and L0 files to pile up, eventually leading to writes stalling. Tuning the rate limiter has been especially difficult for users whose DB instances have different workloads, or have workloads that vary over time, or commonly both. To address this, in RocksDB 5.9 we released a dynamic rate limiter that adjusts itself over time according to demand for background I/O. It can be enabled simply by passing `auto_tuned=true` in the `NewGenericRateLimiter()` call. In this case `rate_bytes_per_sec` will indicate the upper-bound of the window within which a rate limit will be picked dynamically. The chosen rate limit will be much lower unless absolutely necessary, so setting this to the device's maximum throughput is a reasonable choice on dedicated hosts. ### Algorithm We use a simple multiplicative-increase, multiplicative-decrease algorithm. We measure demand for background I/O as the ratio of intervals where the rate limiter is drained. There are low and high watermarks for this ratio, which will trigger a change in rate limit when breached. The rate limit can move within a window bounded by the user-specified upper-bound, and a lower-bound that we derive internally. Users can expect this lower bound to be 1-2 orders of magnitude less than the provided upper-bound (so don't provide INT64_MAX as your upper-bound), although it's subject to change. ### Benchmark Results Data is ingested at 10MB/s and the rate limiter was created with 1000MB/s as its upper bound. The dynamically chosen rate limit hovers around 125MB/s. The other clustering of points at 50MB/s is due to number of compaction threads being reduced to one when there's no compaction pressure. ![](/static/images/rate-limiter/write-KBps-series.png) ![](/static/images/rate-limiter/auto-tuned-write-KBps-series.png) The following graph summarizes the above two time series graphs in CDF form. In particular, notice the p90 - p100 for background write rate are significantly lower with auto-tuned rate limiter enabled. ![](/static/images/rate-limiter/write-KBps-cdf.png) rocksdb-5.17.2/docs/_posts/2017-12-19-write-prepared-txn.markdown000066400000000000000000000123651337235545400240610ustar00rootroot00000000000000--- title: WritePrepared Transactions layout: post author: maysamyabandeh category: blog --- RocksDB supports both optimistic and pessimistic concurrency controls. The pessimistic transactions make use of locks to provide isolation between the transactions. The default write policy in pessimistic transactions is _WriteCommitted_, which means that the data is written to the DB, i.e., the memtable, only after the transaction is committed. This policy simplified the implementation but came with some limitations in throughput, transaction size, and variety in supported isolation levels. In the below, we explain these in detail and present the other write policies, _WritePrepared_ and _WriteUnprepared_. We then dive into the design of _WritePrepared_ transactions. > _WritePrepared_ are to be announced as production-ready soon. ### WriteCommitted, Pros and Cons With _WriteCommitted_ write policy, the data is written to the memtable only after the transaction commits. This greatly simplifies the read path as any data that is read by other transactions can be assumed to be committed. This write policy, however, implies that the writes are buffered in memory in the meanwhile. This makes memory a bottleneck for large transactions. The delay of the commit phase in 2PC (two-phase commit) also becomes noticeable since most of the work, i.e., writing to memtable, is done at the commit phase. When the commit of multiple transactions are done in a serial fashion, such as in 2PC implementation of MySQL, the lengthy commit latency becomes a major contributor to lower throughput. Moreover this write policy cannot provide weaker isolation levels, such as READ UNCOMMITTED, that could potentially provide higher throughput for some applications. ### Alternatives: _WritePrepared_ and _WriteUnprepared_ To tackle the lengthy commit issue, we should do memtable writes at earlier phases of 2PC so that the commit phase become lightweight and fast. 2PC is composed of Write stage, where the transaction `::Put` is invoked, the prepare phase, where `::Prepare` is invoked (upon which the DB promises to commit the transaction if later is requested), and commit phase, where `::Commit` is invoked and the transaction writes become visible to all readers. To make the commit phase lightweight, the memtable write could be done at either `::Prepare` or `::Put` stages, resulting into _WritePrepared_ and _WriteUnprepared_ write policies respectively. The downside is that when another transaction is reading data, it would need a way to tell apart which data is committed, and if they are, whether they are committed before the transaction's start, i.e., in the read snapshot of the transaction. _WritePrepared_ would still have the issue of buffering the data, which makes the memory the bottleneck for large transactions. It however provides a good milestone for transitioning from _WriteCommitted_ to _WriteUnprepared_ write policy. Here we explain the design of _WritePrepared_ policy. We will cover the changes that make the design to also supported _WriteUnprepared_ in an upcoming post. ### _WritePrepared_ in a nutshell These are the primary design questions that needs to be addressed: 1) How do we identify the key/values in the DB with transactions that wrote them? 2) How do we figure if a key/value written by transaction Txn_w is in the read snapshot of the reading transaction Txn_r? 3) How do we rollback the data written by aborted transactions? With _WritePrepared_, a transaction still buffers the writes in a write batch object in memory. When 2PC `::Prepare` is called, it writes the in-memory write batch to the WAL (write-ahead log) as well as to the memtable(s) (one memtable per column family); We reuse the existing notion of sequence numbers in RocksDB to tag all the key/values in the same write batch with the same sequence number, `prepare_seq`, which is also used as the identifier for the transaction. At commit time, it writes a commit marker to the WAL, whose sequence number, `commit_seq`, will be used as the commit timestamp of the transaction. Before releasing the commit sequence number to the readers, it stores a mapping from `prepare_seq` to `commit_seq` in an in-memory data structure that we call _CommitCache_. When a transaction reading values from the DB (tagged with `prepare_seq`) it makes use of the _CommitCache_ to figure if `commit_seq` of the value is in its read snapshot. To rollback an aborted transaction, we apply the status before the transaction by making another write that cancels out the writes of the aborted transaction. The _CommitCache_ is a lock-free data structure that caches the recent commit entries. Looking up the entries in the cache must be enough for almost all th transactions that commit in a timely manner. When evicting the older entries from the cache, it still maintains some other data structures to cover the corner cases for transactions that takes abnormally too long to finish. We will cover them in the design details below. ### Preliminary Results The full experimental results are to be reported soon. Here we present the improvement in tps observed in some preliminary experiments with MyRocks: * sysbench update-noindex: 25% * sysbench read-write: 7.6% * linkbench: 3.7% Learn more [here](https://github.com/facebook/rocksdb/wiki/WritePrepared-Transactions). rocksdb-5.17.2/docs/_posts/2018-02-05-rocksdb-5-10-2-released.markdown000066400000000000000000000027751337235545400242470ustar00rootroot00000000000000--- title: RocksDB 5.10.2 Released! layout: post author: siying category: blog --- ### Public API Change * When running `make` with environment variable `USE_SSE` set and `PORTABLE` unset, will use all machine features available locally. Previously this combination only compiled SSE-related features. ### New Features * CRC32C is now using the 3-way pipelined SSE algorithm `crc32c_3way` on supported platforms to improve performance. The system will choose to use this algorithm on supported platforms automatically whenever possible. If PCLMULQDQ is not supported it will fall back to the old Fast_CRC32 algorithm. * Provide lifetime hints when writing files on Linux. This reduces hardware write-amp on storage devices supporting multiple streams. * Add a DB stat, `NUMBER_ITER_SKIP`, which returns how many internal keys were skipped during iterations (e.g., due to being tombstones or duplicate versions of a key). * Add PerfContext counters, `key_lock_wait_count` and `key_lock_wait_time`, which measure the number of times transactions wait on key locks and total amount of time waiting. ### Bug Fixes * Fix IOError on WAL write doesn't propagate to write group follower * Make iterator invalid on merge error. * Fix performance issue in `IngestExternalFile()` affecting databases with large number of SST files. * Fix possible corruption to LSM structure when `DeleteFilesInRange()` deletes a subset of files spanned by a `DeleteRange()` marker. * Fix DB::Flush() keep waiting after flush finish under certain condition. rocksdb-5.17.2/docs/_posts/2018-08-01-rocksdb-tuning-advisor.markdown000066400000000000000000000054661337235545400247170ustar00rootroot00000000000000--- title: Rocksdb Tuning Advisor layout: post author: poojam23 category: blog --- The performance of Rocksdb is contingent on its tuning. However, because of the complexity of its underlying technology and a large number of configurable parameters, a good configuration is sometimes hard to obtain. The aim of the python command-line tool, Rocksdb Advisor, is to automate the process of suggesting improvements in the configuration based on advice from Rocksdb experts. ### Overview Experts share their wisdom as rules comprising of conditions and suggestions in the INI format (refer [rules.ini](https://github.com/facebook/rocksdb/blob/master/tools/advisor/advisor/rules.ini)). Users provide the Rocksdb configuration that they want to improve upon (as the familiar Rocksdb OPTIONS file — [example](https://github.com/facebook/rocksdb/blob/master/examples/rocksdb_option_file_example.ini)) and the path of the file which contains Rocksdb logs and statistics. The [Advisor](https://github.com/facebook/rocksdb/blob/master/tools/advisor/advisor/rule_parser_example.py) creates appropriate DataSource objects (for Rocksdb [logs](https://github.com/facebook/rocksdb/blob/master/tools/advisor/advisor/db_log_parser.py), [options](https://github.com/facebook/rocksdb/blob/master/tools/advisor/advisor/db_options_parser.py), [statistics](https://github.com/facebook/rocksdb/blob/master/tools/advisor/advisor/db_stats_fetcher.py) etc.) and provides them to the [Rules Engine](https://github.com/facebook/rocksdb/blob/master/tools/advisor/advisor/rule_parser.py). The Rules uses rules from experts to parse data-sources and trigger appropriate rules. The Advisor's output gives information about which rules were triggered, why they were triggered and what each of them suggests. Each suggestion provided by a triggered rule advises some action on a Rocksdb configuration option, for example, increase CFOptions.write_buffer_size, set bloom_bits to 2 etc. ### Usage An example command to run the tool: ```shell cd rocksdb/tools/advisor python3 -m advisor.rule_parser_example --rules_spec=advisor/rules.ini --rocksdb_options=test/input_files/OPTIONS-000005 --log_files_path_prefix=test/input_files/LOG-0 --stats_dump_period_sec=20 ``` Sample output where a Rocksdb log-based rule has been triggered : ```shell Rule: stall-too-many-memtables LogCondition: stall-too-many-memtables regex: Stopping writes because we have \d+ immutable memtables \(waiting for flush\), max_write_buffer_number is set to \d+ Suggestion: inc-bg-flush option : DBOptions.max_background_flushes action : increase suggested_values : ['2'] Suggestion: inc-write-buffer option : CFOptions.max_write_buffer_number action : increase scope: col_fam: {'default'} ``` ### Read more For more information, refer to [advisor](https://github.com/facebook/rocksdb/tree/master/tools/advisor/README.md). rocksdb-5.17.2/docs/_posts/2018-08-23-data-block-hash-index.markdown000066400000000000000000000217241337235545400243470ustar00rootroot00000000000000--- title: Improving Point-Lookup Using Data Block Hash Index layout: post author: fgwu category: blog --- We've designed and implemented a _data block hash index_ in RocksDB that has the benefit of both reducing the CPU util and increasing the throughput for point lookup queries with a reasonable and tunable space overhead. Specifially, we append a compact hash table to the end of the data block for efficient indexing. It is backward compatible with the data base created without this feature. After turned on the hash index feature, existing data will be gradually converted to the hash index format. Benchmarks with `db_bench` show the CPU utilization of one of the main functions in the point lookup code path, `DataBlockIter::Seek()`, is reduced by 21.8%, and the overall RocksDB throughput is increased by 10% under purely cached workloads, at an overhead of 4.6% more space. Shadow testing with Facebook production traffic shows good CPU improvements too. ### How to use it Two new options are added as part of this feature: `BlockBasedTableOptions::data_block_index_type` and `BlockBasedTableOptions::data_block_hash_table_util_ratio`. The hash index is disabled by default unless `BlockBasedTableOptions::data_block_index_type` is set to `data_block_index_type = kDataBlockBinaryAndHash`. The hash table utilization ratio is adjustable using `BlockBasedTableOptions::data_block_hash_table_util_ratio`, which is valid only if `data_block_index_type = kDataBlockBinaryAndHash`. ``` // the definitions can be found in include/rocksdb/table.h // The index type that will be used for the data block. enum DataBlockIndexType : char { kDataBlockBinarySearch = 0, // traditional block type kDataBlockBinaryAndHash = 1, // additional hash index }; // Set to kDataBlockBinaryAndHash to enable hash index DataBlockIndexType data_block_index_type = kDataBlockBinarySearch; // #entries/#buckets. It is valid only when data_block_hash_index_type is // kDataBlockBinaryAndHash. double data_block_hash_table_util_ratio = 0.75; ``` ### Data Block Hash Index Design Current data block format groups adjacent keys together as a restart interval. One block consists of multiple restart intervals. The byte offset of the beginning of each restart interval, i.e. a restart point, is stored in an array called restart interval index or binary seek index. RocksDB does a binary search when performing point lookup for keys in data blocks to find the right restart interval the key may reside. We will use binary seek and binary search interchangeably in this post. In order to find the right location where the key may reside using binary search, multiple key parsing and comparison are needed. Each binary search branching triggers CPU cache miss, causing much CPU utilization. We have seen that this binary search takes up considerable CPU in production use-cases. ![](/static/images/data-block-hash-index/block-format-binary-seek.png) We implemented a hash map at the end of the block to index the key to reduce the CPU overhead of the binary search. The hash index is just an array of pointers pointing into the binary seek index. ![](/static/images/data-block-hash-index/block-format-hash-index.png) Each array element is considered as a hash bucket when storing the location of a key (or more precisely, the restart index of the restart interval where the key resides). When multiple keys happen to hash into the same bucket (hash collision), we just mark the bucket as “collisionâ€. So that when later querying on that key, the hash table lookup knows that there was a hash collision happened so it can fall back to the traditional binary search to find the location of the key. We define hash table utilization ratio as the #keys/#buckets. If a utilization ratio is 0.5 and there are 100 buckets, 50 keys are stored in the bucket. The less the util ratio, the less hash collision, and the less chance for a point lookup falls back to binary seek (fall back ratio) due to the collision. So a small util ratio has more benefit to reduce the CPU time but introduces more space overhead. Space overhead depends on the util ratio. Each bucket is a `uint8_t` (i.e. one byte). For a util ratio of 1, the space overhead is 1Byte per key, the fall back ratio observed is ~52%. ![](/static/images/data-block-hash-index/hash-index-data-structure.png) ### Things that Need Attention **Customized Comparator** Hash index will hash different keys (keys with different content, or byte sequence) into different hash values. This assumes the comparator will not treat different keys as equal if they have different content. The default bytewise comparator orders the keys in alphabetical order and works well with hash index, as different keys will never be regarded as equal. However, some specially crafted comparators will do. For example, say, a `StringToIntComparator` can convert a string into an integer, and use the integer to perform the comparison. Key string “16†and “0x10†is equal to each other as seen by this `StringToIntComparator`, but they probably hash to different value. Later queries to one form of the key will not be able to find the existing key been stored in the other format. We add a new function member to the comparator interface: ``` virtual bool CanKeysWithDifferentByteContentsBeEqual() const { return true; } ``` Every comparator implementation should override this function and specify the behavior of the comparator. If a comparator can regard different keys equal, the function returns true, and as a result the hash index feature will not be enabled, and vice versa. NOTE: to use the hash index feature, one should 1) have a comparator that can never treat different keys as equal; and 2) override the `CanKeysWithDifferentByteContentsBeEqual()` function to return `false`, so the hash index can be enabled. **Util Ratio's Impact on Data Block Cache** Adding the hash index to the end of the data block essentially takes up the data block cache space, making the effective data block cache size smaller and increasing the data block cache miss ratio. Therefore, a very small util ratio will result in a large data block cache miss ratio, and the extra I/O may drag down the throughput gain achieved by the hash index lookup. Besides, when compression is enabled, cache miss also incurs data block decompression, which is CPU-consuming. Therefore the CPU may even increase if using a too small util ratio. The best util ratio depends on workloads, cache to data ratio, disk bandwidth/latency etc. In our experiment, we found util ratio = 0.5 ~ 1 is a good range to explore that brings both CPU and throughput gains. ### Limitations As we use `uint8_t` to store binary seek index, i.e. restart interval index, the total number of restart intervals cannot be more than 253 (we reserved 255 and 254 as special flags). For blocks having a larger number of restart intervals, the hash index will not be created and the point lookup will be done by traditional binary seek. Data block hash index only supports point lookup. We do not support range lookup. Range lookup request will fall back to BinarySeek. RocksDB supports many types of records, such as `Put`, `Delete`, `Merge`, etc (visit [here](https://github.com/facebook/rocksdb/wiki/rocksdb-basics) for more information). Currently we only support `Put` and `Delete`, but not `Merge`. Internally we have a limited set of supported record types: ``` kPutRecord, <=== supported kDeleteRecord, <=== supported kSingleDeleteRecord, <=== supported kTypeBlobIndex, <=== supported ``` For records not supported, the searching process will fall back to the traditional binary seek. ### Evaluation To evaluate the CPU util reduction and isolate other factors such as disk I/O and block decompression, we first evaluate the hash idnex in a purely cached workload. We observe that the CPU utilization of one of the main functions in the point lookup code path, DataBlockIter::Seek(), is reduced by 21.8% and the overall throughput is increased by 10% at an overhead of 4.6% more space. However, general worload is not always purely cached. So we also evaluate the performance under different cache space pressure. In the following test, we use `db_bench` with RocksDB deployed on SSDs. The total DB size is 5~6GB, and it is about 14GB if decompressed. Different block cache sizes are used, ranging from 14GB down to 2GB, with an increasing cache miss ratio. Orange bars are representing our hash index performance. We use a hash util ratio of 1.0 in this test. Block size are set to 16KiB with the restart interval as 16. ![](/static/images/data-block-hash-index/perf-throughput.png) ![](/static/images/data-block-hash-index/perf-cache-miss.png) We can see that if cache size is greater than 8GB, hash index can bring throughput gain. Cache size greater than 8GB can be translated to a cache miss ratio smaller than 40%. So if the workload has a cache miss ratio smaller than 40%, hash index is able to increase the throughput. 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} tbody { display: table-row-group; } tr { display: table-row; &:nth-of-type(odd) { background: $greyish; } th, td { border-right: 1px dotted $lightgrey; display: table-cell; font-size: 14px; line-height: 1.3em; padding: 10px; text-align: left; &:last-of-type { border-right: 0; } code { color: $green; display: inline-block; font-size: 12px; } } th { color: #000000; font-weight: bold; font-family: $header-font-family; text-transform: uppercase; } } }rocksdb-5.17.2/docs/_top-level/000077500000000000000000000000001337235545400162465ustar00rootroot00000000000000rocksdb-5.17.2/docs/_top-level/support.md000066400000000000000000000010551337235545400203050ustar00rootroot00000000000000--- layout: top-level title: Support id: support category: support --- ## Need help? Do not hesitate to ask questions if you are having trouble with RocksDB. ### GitHub issues Use [GitHub issues](https://github.com/facebook/rocksdb/issues) to report bugs, issues and feature requests for the RocksDB codebase. ### Facebook Group Use the [RocksDB Facebook group](https://www.facebook.com/groups/rocksdb.dev/) for general questions and discussion about RocksDB. ### FAQ Check out a list of [commonly asked questions](/docs/support/faq) about RocksDB. rocksdb-5.17.2/docs/blog/000077500000000000000000000000001337235545400151235ustar00rootroot00000000000000rocksdb-5.17.2/docs/blog/all.html000066400000000000000000000006501337235545400165620ustar00rootroot00000000000000--- id: all layout: blog category: blog ---

    All Posts

    {% for post in site.posts %} {% assign author = site.data.authors[post.author] %}

    {{ post.title }} on {{ post.date | date: "%B %e, %Y" }} by {{ author.display_name }}

    {% endfor %}
    rocksdb-5.17.2/docs/blog/index.html000066400000000000000000000002571337235545400171240ustar00rootroot00000000000000--- id: blog title: Blog layout: blog category: blog ---
    {% for page in site.posts %} {% include post.html truncate=true %} {% endfor %}
    rocksdb-5.17.2/docs/css/000077500000000000000000000000001337235545400147705ustar00rootroot00000000000000rocksdb-5.17.2/docs/css/main.scss000066400000000000000000000071361337235545400166200ustar00rootroot00000000000000--- # Only the main Sass file needs front matter (the dashes are enough) --- @charset "utf-8"; @font-face { font-family: 'Lato'; src: url("{{ '/static/fonts/LatoLatin-Italic.woff2' }}") format('woff2'), url("{{ '/static/fonts/LatoLatin-Italic.woff' }}") format('woff'); font-weight: normal; font-style: italic; } @font-face { font-family: 'Lato'; src: url("{{ '/static/fonts/LatoLatin-Black.woff2' }}") format('woff2'), url("{{ '/static/fonts/LatoLatin-Black.woff' }}") format('woff'); font-weight: 900; font-style: normal; } @font-face { font-family: 'Lato'; src: url("{{ '/static/fonts/LatoLatin-BlackItalic.woff2' }}") format('woff2'), url("{{ '/static/fonts/LatoLatin-BlackItalic.woff' }}") format('woff'); font-weight: 900; font-style: italic; } @font-face { font-family: 'Lato'; src: url("{{ '/static/fonts/LatoLatin-Light.woff2' }}") format('woff2'), url("{{ '/static/fonts/LatoLatin-Light.woff' }}") format('woff'); font-weight: 300; font-style: normal; } @font-face { font-family: 'Lato'; src: url("{{ '/static/fonts/LatoLatin-Regular.woff2' }}") format('woff2'), url("{{ '/static/fonts/LatoLatin-Regular.woff' }}") format('woff'); font-weight: normal; font-style: normal; } // Our variables $base-font-family: 'Lato', Calibri, Arial, sans-serif; $header-font-family: 'Lato', 'Helvetica Neue', Arial, sans-serif; $base-font-size: 18px; $small-font-size: $base-font-size * 0.875; $base-line-height: 1.4em; $spacing-unit: 12px; // Two configured colors (see _config.yml) $primary-bg: {{ site.color.primary }}; $secondary-bg: {{ site.color.secondary }}; // $primary-bg overlays {% if site.color.primary-overlay == 'light' %} $primary-overlay: darken($primary-bg, 70%); $primary-overlay-special: darken($primary-bg, 40%); {% else %} $primary-overlay: #fff; $primary-overlay-special: lighten($primary-bg, 30%); {% endif %} // $secondary-bg overlays {% if site.color.secondary-overlay == 'light' %} $text: #393939; $sidenav: darken($secondary-bg, 20%); $sidenav-text: $text; $sidenav-overlay: darken($sidenav, 10%); $sidenav-active: lighten($sidenav, 10%); {% else %} $text: #fff; $sidenav: lighten($secondary-bg, 20%); $sidenav-text: $text; $sidenav-overlay: lighten($sidenav, 10%); $sidenav-active: darken($sidenav, 10%); {% endif %} $code-bg: #002b36; $header-height: 34px; $header-ptop: 10px; $header-pbot: 8px; // Width of the content area $content-width: 900px; // Table setting variables $lightergrey: #F8F8F8; $greyish: #E8E8E8; $lightgrey: #B0B0B0; $green: #2db04b; // Using media queries with like this: // @include media-query($on-palm) { // .wrapper { // padding-right: $spacing-unit / 2; // padding-left: $spacing-unit / 2; // } // } @mixin media-query($device) { @media screen and (max-width: $device) { @content; } } // Import partials from `sass_dir` (defaults to `_sass`) @import "reset", "base", "header", "search", "syntax-highlighting", "promo", "buttons", "gridBlock", "poweredby", "footer", "react_header_nav", "react_docs_nav", "tables", "blog" ; // Anchor links // http://ben.balter.com/2014/03/13/pages-anchor-links/ .header-link { position: absolute; margin-left: 0.2em; opacity: 0; -webkit-transition: opacity 0.2s ease-in-out 0.1s; -moz-transition: opacity 0.2s ease-in-out 0.1s; -ms-transition: opacity 0.2s ease-in-out 0.1s; } h2:hover .header-link, h3:hover .header-link, h4:hover .header-link, h5:hover .header-link, h6:hover .header-link { opacity: 1; } rocksdb-5.17.2/docs/doc-type-examples/000077500000000000000000000000001337235545400175405ustar00rootroot00000000000000rocksdb-5.17.2/docs/doc-type-examples/2016-04-07-blog-post-example.md000066400000000000000000000011741337235545400244570ustar00rootroot00000000000000--- title: Blog Post Example layout: post author: exampleauthor category: blog --- Any local blog posts would go in the `_posts` directory. This is an example blog post introduction, try to keep it short and about a paragraph long, to encourage people to click through to read the entire post. Everything below the `` tag will only show on the actual blog post page, not on the `/blog/` index. Author is defined in `_data/authors.yml` ## No posts? If you have no blog for your site, you can remove the entire `_posts` folder. Otherwise add markdown files in here. See CONTRIBUTING.md for details. rocksdb-5.17.2/docs/doc-type-examples/docs-hello-world.md000066400000000000000000000005061337235545400232410ustar00rootroot00000000000000--- docid: hello-world title: Hello, World! layout: docs permalink: /docs/hello-world.html --- Any local docs would go in the `_docs` directory. ## No documentation? If you have no documentation for your site, you can remove the entire `_docs` folder. Otherwise add markdown files in here. 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case Env::Priority::LOW: return "Low"; case Env::Priority::HIGH: return "High"; case Env::Priority::TOTAL: assert(false); } return "Invalid"; } uint64_t Env::GetThreadID() const { std::hash hasher; return hasher(std::this_thread::get_id()); } Status Env::ReuseWritableFile(const std::string& fname, const std::string& old_fname, unique_ptr* result, const EnvOptions& options) { Status s = RenameFile(old_fname, fname); if (!s.ok()) { return s; } return NewWritableFile(fname, result, options); } Status Env::GetChildrenFileAttributes(const std::string& dir, std::vector* result) { assert(result != nullptr); std::vector child_fnames; Status s = GetChildren(dir, &child_fnames); if (!s.ok()) { return s; } result->resize(child_fnames.size()); size_t result_size = 0; for (size_t i = 0; i < child_fnames.size(); ++i) { const std::string path = dir + "/" + child_fnames[i]; if (!(s = GetFileSize(path, &(*result)[result_size].size_bytes)).ok()) { if (FileExists(path).IsNotFound()) { // The file may have been deleted since we listed the directory continue; } return s; } (*result)[result_size].name = std::move(child_fnames[i]); result_size++; } result->resize(result_size); return Status::OK(); } SequentialFile::~SequentialFile() { } RandomAccessFile::~RandomAccessFile() { } WritableFile::~WritableFile() { } MemoryMappedFileBuffer::~MemoryMappedFileBuffer() {} Logger::~Logger() {} Status Logger::Close() { if (!closed_) { closed_ = true; return CloseImpl(); } else { return Status::OK(); } } Status Logger::CloseImpl() { return Status::NotSupported(); } FileLock::~FileLock() { } void LogFlush(Logger *info_log) { if (info_log) { info_log->Flush(); } } static void Logv(Logger *info_log, const char* format, va_list ap) { if (info_log && info_log->GetInfoLogLevel() <= InfoLogLevel::INFO_LEVEL) { info_log->Logv(InfoLogLevel::INFO_LEVEL, format, ap); } } void Log(Logger* info_log, const char* format, ...) { va_list ap; va_start(ap, format); Logv(info_log, format, ap); va_end(ap); } void Logger::Logv(const InfoLogLevel log_level, const char* format, va_list ap) { static const char* kInfoLogLevelNames[5] = { "DEBUG", "INFO", "WARN", "ERROR", "FATAL" }; if (log_level < log_level_) { return; } if (log_level == InfoLogLevel::INFO_LEVEL) { // Doesn't print log level if it is INFO level. // This is to avoid unexpected performance regression after we add // the feature of log level. All the logs before we add the feature // are INFO level. We don't want to add extra costs to those existing // logging. Logv(format, ap); } else { char new_format[500]; snprintf(new_format, sizeof(new_format) - 1, "[%s] %s", kInfoLogLevelNames[log_level], format); Logv(new_format, ap); } } static void Logv(const InfoLogLevel log_level, Logger *info_log, const char *format, va_list ap) { if (info_log && info_log->GetInfoLogLevel() <= log_level) { if (log_level == InfoLogLevel::HEADER_LEVEL) { info_log->LogHeader(format, ap); } else { info_log->Logv(log_level, format, ap); } } } void Log(const InfoLogLevel log_level, Logger* info_log, const char* format, ...) { va_list ap; va_start(ap, format); Logv(log_level, info_log, format, ap); va_end(ap); } static void Headerv(Logger *info_log, const char *format, va_list ap) { if (info_log) { info_log->LogHeader(format, ap); } } void Header(Logger* info_log, const char* format, ...) { va_list ap; va_start(ap, format); Headerv(info_log, format, ap); va_end(ap); } static void Debugv(Logger* info_log, const char* format, va_list ap) { if (info_log && info_log->GetInfoLogLevel() <= InfoLogLevel::DEBUG_LEVEL) { info_log->Logv(InfoLogLevel::DEBUG_LEVEL, format, ap); } } void Debug(Logger* info_log, const char* format, ...) { va_list ap; va_start(ap, format); Debugv(info_log, format, ap); va_end(ap); } static void Infov(Logger* info_log, const char* format, va_list ap) { if (info_log && info_log->GetInfoLogLevel() <= InfoLogLevel::INFO_LEVEL) { info_log->Logv(InfoLogLevel::INFO_LEVEL, format, ap); } } void Info(Logger* info_log, const char* format, ...) { va_list ap; va_start(ap, format); Infov(info_log, format, ap); va_end(ap); } static void Warnv(Logger* info_log, const char* format, va_list ap) { if (info_log && info_log->GetInfoLogLevel() <= InfoLogLevel::WARN_LEVEL) { info_log->Logv(InfoLogLevel::WARN_LEVEL, format, ap); } } void Warn(Logger* info_log, const char* format, ...) { va_list ap; va_start(ap, format); Warnv(info_log, format, ap); va_end(ap); } static void Errorv(Logger* info_log, const char* format, va_list ap) { if (info_log && info_log->GetInfoLogLevel() <= InfoLogLevel::ERROR_LEVEL) { info_log->Logv(InfoLogLevel::ERROR_LEVEL, format, ap); } } void Error(Logger* info_log, const char* format, ...) { va_list ap; va_start(ap, format); Errorv(info_log, format, ap); va_end(ap); } static void Fatalv(Logger* info_log, const char* format, va_list ap) { if (info_log && info_log->GetInfoLogLevel() <= InfoLogLevel::FATAL_LEVEL) { info_log->Logv(InfoLogLevel::FATAL_LEVEL, format, ap); } } void Fatal(Logger* info_log, const char* format, ...) { va_list ap; va_start(ap, format); Fatalv(info_log, format, ap); va_end(ap); } void LogFlush(const shared_ptr& info_log) { LogFlush(info_log.get()); } void Log(const InfoLogLevel log_level, const shared_ptr& info_log, const char* format, ...) { va_list ap; va_start(ap, format); Logv(log_level, info_log.get(), format, ap); va_end(ap); } void Header(const shared_ptr& info_log, const char* format, ...) { va_list ap; va_start(ap, format); Headerv(info_log.get(), format, ap); va_end(ap); } void Debug(const shared_ptr& info_log, const char* format, ...) { va_list ap; va_start(ap, format); Debugv(info_log.get(), format, ap); va_end(ap); } void Info(const shared_ptr& info_log, const char* format, ...) { va_list ap; va_start(ap, format); Infov(info_log.get(), format, ap); va_end(ap); } void Warn(const shared_ptr& info_log, const char* format, ...) { va_list ap; va_start(ap, format); Warnv(info_log.get(), format, ap); va_end(ap); } void Error(const shared_ptr& info_log, const char* format, ...) { va_list ap; va_start(ap, format); Errorv(info_log.get(), format, ap); va_end(ap); } void Fatal(const shared_ptr& info_log, const char* format, ...) { va_list ap; va_start(ap, format); Fatalv(info_log.get(), format, ap); va_end(ap); } void Log(const shared_ptr& info_log, const char* format, ...) { va_list ap; va_start(ap, format); Logv(info_log.get(), format, ap); va_end(ap); } Status WriteStringToFile(Env* env, const Slice& data, const std::string& fname, bool should_sync) { unique_ptr file; EnvOptions soptions; Status s = env->NewWritableFile(fname, &file, soptions); if (!s.ok()) { return s; } s = file->Append(data); if (s.ok() && should_sync) { s = file->Sync(); } if (!s.ok()) { env->DeleteFile(fname); } return s; } Status ReadFileToString(Env* env, const std::string& fname, std::string* data) { EnvOptions soptions; data->clear(); unique_ptr file; Status s = env->NewSequentialFile(fname, &file, soptions); if (!s.ok()) { return s; } static const int kBufferSize = 8192; char* space = new char[kBufferSize]; while (true) { Slice fragment; s = file->Read(kBufferSize, &fragment, space); if (!s.ok()) { break; } data->append(fragment.data(), fragment.size()); if (fragment.empty()) { break; } } delete[] space; return s; } EnvWrapper::~EnvWrapper() { } namespace { // anonymous namespace void AssignEnvOptions(EnvOptions* env_options, const DBOptions& options) { env_options->use_mmap_reads = options.allow_mmap_reads; env_options->use_mmap_writes = options.allow_mmap_writes; env_options->use_direct_reads = options.use_direct_reads; env_options->set_fd_cloexec = options.is_fd_close_on_exec; env_options->bytes_per_sync = options.bytes_per_sync; env_options->compaction_readahead_size = options.compaction_readahead_size; env_options->random_access_max_buffer_size = options.random_access_max_buffer_size; env_options->rate_limiter = options.rate_limiter.get(); env_options->writable_file_max_buffer_size = options.writable_file_max_buffer_size; env_options->allow_fallocate = options.allow_fallocate; } } EnvOptions Env::OptimizeForLogWrite(const EnvOptions& env_options, const DBOptions& db_options) const { EnvOptions optimized_env_options(env_options); optimized_env_options.bytes_per_sync = db_options.wal_bytes_per_sync; optimized_env_options.writable_file_max_buffer_size = db_options.writable_file_max_buffer_size; return optimized_env_options; } EnvOptions Env::OptimizeForManifestWrite(const EnvOptions& env_options) const { return env_options; } EnvOptions Env::OptimizeForLogRead(const EnvOptions& env_options) const { EnvOptions optimized_env_options(env_options); optimized_env_options.use_direct_reads = false; return optimized_env_options; } EnvOptions Env::OptimizeForManifestRead(const EnvOptions& env_options) const { EnvOptions optimized_env_options(env_options); optimized_env_options.use_direct_reads = false; return optimized_env_options; } EnvOptions Env::OptimizeForCompactionTableWrite( const EnvOptions& env_options, const ImmutableDBOptions& db_options) const { EnvOptions optimized_env_options(env_options); optimized_env_options.use_direct_writes = db_options.use_direct_io_for_flush_and_compaction; return optimized_env_options; } EnvOptions Env::OptimizeForCompactionTableRead( const EnvOptions& env_options, const ImmutableDBOptions& db_options) const { EnvOptions optimized_env_options(env_options); optimized_env_options.use_direct_reads = db_options.use_direct_reads; return optimized_env_options; } EnvOptions::EnvOptions(const DBOptions& options) { AssignEnvOptions(this, options); } EnvOptions::EnvOptions() { DBOptions options; AssignEnvOptions(this, options); } } // namespace rocksdb rocksdb-5.17.2/env/env_basic_test.cc000066400000000000000000000310731337235545400173430ustar00rootroot00000000000000// Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include #include #include #include #include "env/mock_env.h" #include "rocksdb/env.h" #include "rocksdb/utilities/object_registry.h" #include "util/testharness.h" namespace rocksdb { // Normalizes trivial differences across Envs such that these test cases can // run on all Envs. class NormalizingEnvWrapper : public EnvWrapper { public: explicit NormalizingEnvWrapper(Env* base) : EnvWrapper(base) {} // Removes . and .. from directory listing virtual Status GetChildren(const std::string& dir, std::vector* result) override { Status status = EnvWrapper::GetChildren(dir, result); if (status.ok()) { result->erase(std::remove_if(result->begin(), result->end(), [](const std::string& s) { return s == "." || s == ".."; }), result->end()); } return status; } // Removes . and .. from directory listing virtual Status GetChildrenFileAttributes( const std::string& dir, std::vector* result) override { Status status = EnvWrapper::GetChildrenFileAttributes(dir, result); if (status.ok()) { result->erase(std::remove_if(result->begin(), result->end(), [](const FileAttributes& fa) { return fa.name == "." || fa.name == ".."; }), result->end()); } return status; } }; class EnvBasicTestWithParam : public testing::Test, public ::testing::WithParamInterface { public: Env* env_; const EnvOptions soptions_; std::string test_dir_; EnvBasicTestWithParam() : env_(GetParam()) { test_dir_ = test::PerThreadDBPath(env_, "env_basic_test"); } void SetUp() { env_->CreateDirIfMissing(test_dir_); } void TearDown() { std::vector files; env_->GetChildren(test_dir_, &files); for (const auto& file : files) { // don't know whether it's file or directory, try both. The tests must // only create files or empty directories, so one must succeed, else the // directory's corrupted. Status s = env_->DeleteFile(test_dir_ + "/" + file); if (!s.ok()) { ASSERT_OK(env_->DeleteDir(test_dir_ + "/" + file)); } } } }; class EnvMoreTestWithParam : public EnvBasicTestWithParam {}; static std::unique_ptr def_env(new NormalizingEnvWrapper(Env::Default())); INSTANTIATE_TEST_CASE_P(EnvDefault, EnvBasicTestWithParam, ::testing::Values(def_env.get())); INSTANTIATE_TEST_CASE_P(EnvDefault, EnvMoreTestWithParam, ::testing::Values(def_env.get())); static std::unique_ptr mock_env(new MockEnv(Env::Default())); INSTANTIATE_TEST_CASE_P(MockEnv, EnvBasicTestWithParam, ::testing::Values(mock_env.get())); #ifndef ROCKSDB_LITE static std::unique_ptr mem_env(NewMemEnv(Env::Default())); INSTANTIATE_TEST_CASE_P(MemEnv, EnvBasicTestWithParam, ::testing::Values(mem_env.get())); namespace { // Returns a vector of 0 or 1 Env*, depending whether an Env is registered for // TEST_ENV_URI. // // The purpose of returning an empty vector (instead of nullptr) is that gtest // ValuesIn() will skip running tests when given an empty collection. std::vector GetCustomEnvs() { static Env* custom_env; static std::unique_ptr custom_env_guard; static bool init = false; if (!init) { init = true; const char* uri = getenv("TEST_ENV_URI"); if (uri != nullptr) { custom_env = NewCustomObject(uri, &custom_env_guard); } } std::vector res; if (custom_env != nullptr) { res.emplace_back(custom_env); } return res; } } // anonymous namespace INSTANTIATE_TEST_CASE_P(CustomEnv, EnvBasicTestWithParam, ::testing::ValuesIn(GetCustomEnvs())); INSTANTIATE_TEST_CASE_P(CustomEnv, EnvMoreTestWithParam, ::testing::ValuesIn(GetCustomEnvs())); #endif // ROCKSDB_LITE TEST_P(EnvBasicTestWithParam, Basics) { uint64_t file_size; unique_ptr writable_file; std::vector children; // Check that the directory is empty. ASSERT_EQ(Status::NotFound(), env_->FileExists(test_dir_ + "/non_existent")); ASSERT_TRUE(!env_->GetFileSize(test_dir_ + "/non_existent", &file_size).ok()); ASSERT_OK(env_->GetChildren(test_dir_, &children)); ASSERT_EQ(0U, children.size()); // Create a file. ASSERT_OK(env_->NewWritableFile(test_dir_ + "/f", &writable_file, soptions_)); ASSERT_OK(writable_file->Close()); writable_file.reset(); // Check that the file exists. ASSERT_OK(env_->FileExists(test_dir_ + "/f")); ASSERT_OK(env_->GetFileSize(test_dir_ + "/f", &file_size)); ASSERT_EQ(0U, file_size); ASSERT_OK(env_->GetChildren(test_dir_, &children)); ASSERT_EQ(1U, children.size()); ASSERT_EQ("f", children[0]); ASSERT_OK(env_->DeleteFile(test_dir_ + "/f")); // Write to the file. ASSERT_OK( env_->NewWritableFile(test_dir_ + "/f1", &writable_file, soptions_)); ASSERT_OK(writable_file->Append("abc")); ASSERT_OK(writable_file->Close()); writable_file.reset(); ASSERT_OK( env_->NewWritableFile(test_dir_ + "/f2", &writable_file, soptions_)); ASSERT_OK(writable_file->Close()); writable_file.reset(); // Check for expected size. ASSERT_OK(env_->GetFileSize(test_dir_ + "/f1", &file_size)); ASSERT_EQ(3U, file_size); // Check that renaming works. ASSERT_TRUE( !env_->RenameFile(test_dir_ + "/non_existent", test_dir_ + "/g").ok()); ASSERT_OK(env_->RenameFile(test_dir_ + "/f1", test_dir_ + "/g")); ASSERT_EQ(Status::NotFound(), env_->FileExists(test_dir_ + "/f1")); ASSERT_OK(env_->FileExists(test_dir_ + "/g")); ASSERT_OK(env_->GetFileSize(test_dir_ + "/g", &file_size)); ASSERT_EQ(3U, file_size); // Check that renaming overwriting works ASSERT_OK(env_->RenameFile(test_dir_ + "/f2", test_dir_ + "/g")); ASSERT_OK(env_->GetFileSize(test_dir_ + "/g", &file_size)); ASSERT_EQ(0U, file_size); // Check that opening non-existent file fails. unique_ptr seq_file; unique_ptr rand_file; ASSERT_TRUE(!env_->NewSequentialFile(test_dir_ + "/non_existent", &seq_file, soptions_) .ok()); ASSERT_TRUE(!seq_file); ASSERT_TRUE(!env_->NewRandomAccessFile(test_dir_ + "/non_existent", &rand_file, soptions_) .ok()); ASSERT_TRUE(!rand_file); // Check that deleting works. ASSERT_TRUE(!env_->DeleteFile(test_dir_ + "/non_existent").ok()); ASSERT_OK(env_->DeleteFile(test_dir_ + "/g")); ASSERT_EQ(Status::NotFound(), env_->FileExists(test_dir_ + "/g")); ASSERT_OK(env_->GetChildren(test_dir_, &children)); ASSERT_EQ(0U, children.size()); ASSERT_TRUE( env_->GetChildren(test_dir_ + "/non_existent", &children).IsNotFound()); } TEST_P(EnvBasicTestWithParam, ReadWrite) { unique_ptr writable_file; unique_ptr seq_file; unique_ptr rand_file; Slice result; char scratch[100]; ASSERT_OK(env_->NewWritableFile(test_dir_ + "/f", &writable_file, soptions_)); ASSERT_OK(writable_file->Append("hello ")); ASSERT_OK(writable_file->Append("world")); ASSERT_OK(writable_file->Close()); writable_file.reset(); // Read sequentially. ASSERT_OK(env_->NewSequentialFile(test_dir_ + "/f", &seq_file, soptions_)); ASSERT_OK(seq_file->Read(5, &result, scratch)); // Read "hello". ASSERT_EQ(0, result.compare("hello")); ASSERT_OK(seq_file->Skip(1)); ASSERT_OK(seq_file->Read(1000, &result, scratch)); // Read "world". ASSERT_EQ(0, result.compare("world")); ASSERT_OK(seq_file->Read(1000, &result, scratch)); // Try reading past EOF. ASSERT_EQ(0U, result.size()); ASSERT_OK(seq_file->Skip(100)); // Try to skip past end of file. ASSERT_OK(seq_file->Read(1000, &result, scratch)); ASSERT_EQ(0U, result.size()); // Random reads. ASSERT_OK(env_->NewRandomAccessFile(test_dir_ + "/f", &rand_file, soptions_)); ASSERT_OK(rand_file->Read(6, 5, &result, scratch)); // Read "world". ASSERT_EQ(0, result.compare("world")); ASSERT_OK(rand_file->Read(0, 5, &result, scratch)); // Read "hello". ASSERT_EQ(0, result.compare("hello")); ASSERT_OK(rand_file->Read(10, 100, &result, scratch)); // Read "d". ASSERT_EQ(0, result.compare("d")); // Too high offset. ASSERT_TRUE(rand_file->Read(1000, 5, &result, scratch).ok()); } TEST_P(EnvBasicTestWithParam, Misc) { unique_ptr writable_file; ASSERT_OK(env_->NewWritableFile(test_dir_ + "/b", &writable_file, soptions_)); // These are no-ops, but we test they return success. ASSERT_OK(writable_file->Sync()); ASSERT_OK(writable_file->Flush()); ASSERT_OK(writable_file->Close()); writable_file.reset(); } TEST_P(EnvBasicTestWithParam, LargeWrite) { const size_t kWriteSize = 300 * 1024; char* scratch = new char[kWriteSize * 2]; std::string write_data; for (size_t i = 0; i < kWriteSize; ++i) { write_data.append(1, static_cast(i)); } unique_ptr writable_file; ASSERT_OK(env_->NewWritableFile(test_dir_ + "/f", &writable_file, soptions_)); ASSERT_OK(writable_file->Append("foo")); ASSERT_OK(writable_file->Append(write_data)); ASSERT_OK(writable_file->Close()); writable_file.reset(); unique_ptr seq_file; Slice result; ASSERT_OK(env_->NewSequentialFile(test_dir_ + "/f", &seq_file, soptions_)); ASSERT_OK(seq_file->Read(3, &result, scratch)); // Read "foo". ASSERT_EQ(0, result.compare("foo")); size_t read = 0; std::string read_data; while (read < kWriteSize) { ASSERT_OK(seq_file->Read(kWriteSize - read, &result, scratch)); read_data.append(result.data(), result.size()); read += result.size(); } ASSERT_TRUE(write_data == read_data); delete [] scratch; } TEST_P(EnvMoreTestWithParam, GetModTime) { ASSERT_OK(env_->CreateDirIfMissing(test_dir_ + "/dir1")); uint64_t mtime1 = 0x0; ASSERT_OK(env_->GetFileModificationTime(test_dir_ + "/dir1", &mtime1)); } TEST_P(EnvMoreTestWithParam, MakeDir) { ASSERT_OK(env_->CreateDir(test_dir_ + "/j")); ASSERT_OK(env_->FileExists(test_dir_ + "/j")); std::vector children; env_->GetChildren(test_dir_, &children); ASSERT_EQ(1U, children.size()); // fail because file already exists ASSERT_TRUE(!env_->CreateDir(test_dir_ + "/j").ok()); ASSERT_OK(env_->CreateDirIfMissing(test_dir_ + "/j")); ASSERT_OK(env_->DeleteDir(test_dir_ + "/j")); ASSERT_EQ(Status::NotFound(), env_->FileExists(test_dir_ + "/j")); } TEST_P(EnvMoreTestWithParam, GetChildren) { // empty folder returns empty vector std::vector children; std::vector childAttr; ASSERT_OK(env_->CreateDirIfMissing(test_dir_)); ASSERT_OK(env_->GetChildren(test_dir_, &children)); ASSERT_OK(env_->FileExists(test_dir_)); ASSERT_OK(env_->GetChildrenFileAttributes(test_dir_, &childAttr)); ASSERT_EQ(0U, children.size()); ASSERT_EQ(0U, childAttr.size()); // folder with contents returns relative path to test dir ASSERT_OK(env_->CreateDirIfMissing(test_dir_ + "/niu")); ASSERT_OK(env_->CreateDirIfMissing(test_dir_ + "/you")); ASSERT_OK(env_->CreateDirIfMissing(test_dir_ + "/guo")); ASSERT_OK(env_->GetChildren(test_dir_, &children)); ASSERT_OK(env_->GetChildrenFileAttributes(test_dir_, &childAttr)); ASSERT_EQ(3U, children.size()); ASSERT_EQ(3U, childAttr.size()); for (auto each : children) { env_->DeleteDir(test_dir_ + "/" + each); } // necessary for default POSIX env // non-exist directory returns IOError ASSERT_OK(env_->DeleteDir(test_dir_)); ASSERT_TRUE(!env_->FileExists(test_dir_).ok()); ASSERT_TRUE(!env_->GetChildren(test_dir_, &children).ok()); ASSERT_TRUE(!env_->GetChildrenFileAttributes(test_dir_, &childAttr).ok()); // if dir is a file, returns IOError ASSERT_OK(env_->CreateDir(test_dir_)); unique_ptr writable_file; ASSERT_OK( env_->NewWritableFile(test_dir_ + "/file", &writable_file, soptions_)); ASSERT_OK(writable_file->Close()); writable_file.reset(); ASSERT_TRUE(!env_->GetChildren(test_dir_ + "/file", &children).ok()); ASSERT_EQ(0U, children.size()); } } // namespace rocksdb int main(int argc, char** argv) { ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/env/env_chroot.cc000066400000000000000000000277271337235545400165340ustar00rootroot00000000000000// Copyright (c) 2016-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #if !defined(ROCKSDB_LITE) && !defined(OS_WIN) #include "env/env_chroot.h" #include #include #include #include #include #include #include #include "rocksdb/status.h" namespace rocksdb { class ChrootEnv : public EnvWrapper { public: ChrootEnv(Env* base_env, const std::string& chroot_dir) : EnvWrapper(base_env) { #if defined(OS_AIX) char resolvedName[PATH_MAX]; char* real_chroot_dir = realpath(chroot_dir.c_str(), resolvedName); #else char* real_chroot_dir = realpath(chroot_dir.c_str(), nullptr); #endif // chroot_dir must exist so realpath() returns non-nullptr. assert(real_chroot_dir != nullptr); chroot_dir_ = real_chroot_dir; #if !defined(OS_AIX) free(real_chroot_dir); #endif } virtual Status NewSequentialFile(const std::string& fname, std::unique_ptr* result, const EnvOptions& options) override { auto status_and_enc_path = EncodePathWithNewBasename(fname); if (!status_and_enc_path.first.ok()) { return status_and_enc_path.first; } return EnvWrapper::NewSequentialFile(status_and_enc_path.second, result, options); } virtual Status NewRandomAccessFile(const std::string& fname, unique_ptr* result, const EnvOptions& options) override { auto status_and_enc_path = EncodePathWithNewBasename(fname); if (!status_and_enc_path.first.ok()) { return status_and_enc_path.first; } return EnvWrapper::NewRandomAccessFile(status_and_enc_path.second, result, options); } virtual Status NewWritableFile(const std::string& fname, unique_ptr* result, const EnvOptions& options) override { auto status_and_enc_path = EncodePathWithNewBasename(fname); if (!status_and_enc_path.first.ok()) { return status_and_enc_path.first; } return EnvWrapper::NewWritableFile(status_and_enc_path.second, result, options); } virtual Status ReuseWritableFile(const std::string& fname, const std::string& old_fname, unique_ptr* result, const EnvOptions& options) override { auto status_and_enc_path = EncodePathWithNewBasename(fname); if (!status_and_enc_path.first.ok()) { return status_and_enc_path.first; } auto status_and_old_enc_path = EncodePath(old_fname); if (!status_and_old_enc_path.first.ok()) { return status_and_old_enc_path.first; } return EnvWrapper::ReuseWritableFile(status_and_old_enc_path.second, status_and_old_enc_path.second, result, options); } virtual Status NewRandomRWFile(const std::string& fname, unique_ptr* result, const EnvOptions& options) override { auto status_and_enc_path = EncodePathWithNewBasename(fname); if (!status_and_enc_path.first.ok()) { return status_and_enc_path.first; } return EnvWrapper::NewRandomRWFile(status_and_enc_path.second, result, options); } virtual Status NewDirectory(const std::string& dir, unique_ptr* result) override { auto status_and_enc_path = EncodePathWithNewBasename(dir); if (!status_and_enc_path.first.ok()) { return status_and_enc_path.first; } return EnvWrapper::NewDirectory(status_and_enc_path.second, result); } virtual Status FileExists(const std::string& fname) override { auto status_and_enc_path = EncodePathWithNewBasename(fname); if (!status_and_enc_path.first.ok()) { return status_and_enc_path.first; } return EnvWrapper::FileExists(status_and_enc_path.second); } virtual Status GetChildren(const std::string& dir, std::vector* result) override { auto status_and_enc_path = EncodePath(dir); if (!status_and_enc_path.first.ok()) { return status_and_enc_path.first; } return EnvWrapper::GetChildren(status_and_enc_path.second, result); } virtual Status GetChildrenFileAttributes( const std::string& dir, std::vector* result) override { auto status_and_enc_path = EncodePath(dir); if (!status_and_enc_path.first.ok()) { return status_and_enc_path.first; } return EnvWrapper::GetChildrenFileAttributes(status_and_enc_path.second, result); } virtual Status DeleteFile(const std::string& fname) override { auto status_and_enc_path = EncodePath(fname); if (!status_and_enc_path.first.ok()) { return status_and_enc_path.first; } return EnvWrapper::DeleteFile(status_and_enc_path.second); } virtual Status CreateDir(const std::string& dirname) override { auto status_and_enc_path = EncodePathWithNewBasename(dirname); if (!status_and_enc_path.first.ok()) { return status_and_enc_path.first; } return EnvWrapper::CreateDir(status_and_enc_path.second); } virtual Status CreateDirIfMissing(const std::string& dirname) override { auto status_and_enc_path = EncodePathWithNewBasename(dirname); if (!status_and_enc_path.first.ok()) { return status_and_enc_path.first; } return EnvWrapper::CreateDirIfMissing(status_and_enc_path.second); } virtual Status DeleteDir(const std::string& dirname) override { auto status_and_enc_path = EncodePath(dirname); if (!status_and_enc_path.first.ok()) { return status_and_enc_path.first; } return EnvWrapper::DeleteDir(status_and_enc_path.second); } virtual Status GetFileSize(const std::string& fname, uint64_t* file_size) override { auto status_and_enc_path = EncodePath(fname); if (!status_and_enc_path.first.ok()) { return status_and_enc_path.first; } return EnvWrapper::GetFileSize(status_and_enc_path.second, file_size); } virtual Status GetFileModificationTime(const std::string& fname, uint64_t* file_mtime) override { auto status_and_enc_path = EncodePath(fname); if (!status_and_enc_path.first.ok()) { return status_and_enc_path.first; } return EnvWrapper::GetFileModificationTime(status_and_enc_path.second, file_mtime); } virtual Status RenameFile(const std::string& src, const std::string& dest) override { auto status_and_src_enc_path = EncodePath(src); if (!status_and_src_enc_path.first.ok()) { return status_and_src_enc_path.first; } auto status_and_dest_enc_path = EncodePathWithNewBasename(dest); if (!status_and_dest_enc_path.first.ok()) { return status_and_dest_enc_path.first; } return EnvWrapper::RenameFile(status_and_src_enc_path.second, status_and_dest_enc_path.second); } virtual Status LinkFile(const std::string& src, const std::string& dest) override { auto status_and_src_enc_path = EncodePath(src); if (!status_and_src_enc_path.first.ok()) { return status_and_src_enc_path.first; } auto status_and_dest_enc_path = EncodePathWithNewBasename(dest); if (!status_and_dest_enc_path.first.ok()) { return status_and_dest_enc_path.first; } return EnvWrapper::LinkFile(status_and_src_enc_path.second, status_and_dest_enc_path.second); } virtual Status LockFile(const std::string& fname, FileLock** lock) override { auto status_and_enc_path = EncodePathWithNewBasename(fname); if (!status_and_enc_path.first.ok()) { return status_and_enc_path.first; } // FileLock subclasses may store path (e.g., PosixFileLock stores it). We // can skip stripping the chroot directory from this path because callers // shouldn't use it. return EnvWrapper::LockFile(status_and_enc_path.second, lock); } virtual Status GetTestDirectory(std::string* path) override { // Adapted from PosixEnv's implementation since it doesn't provide a way to // create directory in the chroot. char buf[256]; snprintf(buf, sizeof(buf), "/rocksdbtest-%d", static_cast(geteuid())); *path = buf; // Directory may already exist, so ignore return CreateDir(*path); return Status::OK(); } virtual Status NewLogger(const std::string& fname, shared_ptr* result) override { auto status_and_enc_path = EncodePathWithNewBasename(fname); if (!status_and_enc_path.first.ok()) { return status_and_enc_path.first; } return EnvWrapper::NewLogger(status_and_enc_path.second, result); } virtual Status GetAbsolutePath(const std::string& db_path, std::string* output_path) override { auto status_and_enc_path = EncodePath(db_path); if (!status_and_enc_path.first.ok()) { return status_and_enc_path.first; } return EnvWrapper::GetAbsolutePath(status_and_enc_path.second, output_path); } private: // Returns status and expanded absolute path including the chroot directory. // Checks whether the provided path breaks out of the chroot. If it returns // non-OK status, the returned path should not be used. std::pair EncodePath(const std::string& path) { if (path.empty() || path[0] != '/') { return {Status::InvalidArgument(path, "Not an absolute path"), ""}; } std::pair res; res.second = chroot_dir_ + path; #if defined(OS_AIX) char resolvedName[PATH_MAX]; char* normalized_path = realpath(res.second.c_str(), resolvedName); #else char* normalized_path = realpath(res.second.c_str(), nullptr); #endif if (normalized_path == nullptr) { res.first = Status::NotFound(res.second, strerror(errno)); } else if (strlen(normalized_path) < chroot_dir_.size() || strncmp(normalized_path, chroot_dir_.c_str(), chroot_dir_.size()) != 0) { res.first = Status::IOError(res.second, "Attempted to access path outside chroot"); } else { res.first = Status::OK(); } #if !defined(OS_AIX) free(normalized_path); #endif return res; } // Similar to EncodePath() except assumes the basename in the path hasn't been // created yet. std::pair EncodePathWithNewBasename( const std::string& path) { if (path.empty() || path[0] != '/') { return {Status::InvalidArgument(path, "Not an absolute path"), ""}; } // Basename may be followed by trailing slashes size_t final_idx = path.find_last_not_of('/'); if (final_idx == std::string::npos) { // It's only slashes so no basename to extract return EncodePath(path); } // Pull off the basename temporarily since realname(3) (used by // EncodePath()) requires a path that exists size_t base_sep = path.rfind('/', final_idx); auto status_and_enc_path = EncodePath(path.substr(0, base_sep + 1)); status_and_enc_path.second.append(path.substr(base_sep + 1)); return status_and_enc_path; } std::string chroot_dir_; }; Env* NewChrootEnv(Env* base_env, const std::string& chroot_dir) { if (!base_env->FileExists(chroot_dir).ok()) { return nullptr; } return new ChrootEnv(base_env, chroot_dir); } } // namespace rocksdb #endif // !defined(ROCKSDB_LITE) && !defined(OS_WIN) rocksdb-5.17.2/env/env_chroot.h000066400000000000000000000012541337235545400163610ustar00rootroot00000000000000// Copyright (c) 2016-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #if !defined(ROCKSDB_LITE) && !defined(OS_WIN) #include #include "rocksdb/env.h" namespace rocksdb { // Returns an Env that translates paths such that the root directory appears to // be chroot_dir. chroot_dir should refer to an existing directory. Env* NewChrootEnv(Env* base_env, const std::string& chroot_dir); } // namespace rocksdb #endif // !defined(ROCKSDB_LITE) && !defined(OS_WIN) rocksdb-5.17.2/env/env_encryption.cc000066400000000000000000001021001337235545400174030ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #ifndef ROCKSDB_LITE #include #include #include #include "rocksdb/env_encryption.h" #include "util/aligned_buffer.h" #include "util/coding.h" #include "util/random.h" #endif namespace rocksdb { #ifndef ROCKSDB_LITE class EncryptedSequentialFile : public SequentialFile { private: std::unique_ptr file_; std::unique_ptr stream_; uint64_t offset_; size_t prefixLength_; public: // Default ctor. Given underlying sequential file is supposed to be at // offset == prefixLength. EncryptedSequentialFile(SequentialFile* f, BlockAccessCipherStream* s, size_t prefixLength) : file_(f), stream_(s), offset_(prefixLength), prefixLength_(prefixLength) { } // Read up to "n" bytes from the file. "scratch[0..n-1]" may be // written by this routine. Sets "*result" to the data that was // read (including if fewer than "n" bytes were successfully read). // May set "*result" to point at data in "scratch[0..n-1]", so // "scratch[0..n-1]" must be live when "*result" is used. // If an error was encountered, returns a non-OK status. // // REQUIRES: External synchronization virtual Status Read(size_t n, Slice* result, char* scratch) override { assert(scratch); Status status = file_->Read(n, result, scratch); if (!status.ok()) { return status; } status = stream_->Decrypt(offset_, (char*)result->data(), result->size()); offset_ += result->size(); // We've already ready data from disk, so update offset_ even if decryption fails. return status; } // Skip "n" bytes from the file. This is guaranteed to be no // slower that reading the same data, but may be faster. // // If end of file is reached, skipping will stop at the end of the // file, and Skip will return OK. // // REQUIRES: External synchronization virtual Status Skip(uint64_t n) override { auto status = file_->Skip(n); if (!status.ok()) { return status; } offset_ += n; return status; } // Indicates the upper layers if the current SequentialFile implementation // uses direct IO. virtual bool use_direct_io() const override { return file_->use_direct_io(); } // Use the returned alignment value to allocate // aligned buffer for Direct I/O virtual size_t GetRequiredBufferAlignment() const override { return file_->GetRequiredBufferAlignment(); } // Remove any kind of caching of data from the offset to offset+length // of this file. If the length is 0, then it refers to the end of file. // If the system is not caching the file contents, then this is a noop. virtual Status InvalidateCache(size_t offset, size_t length) override { return file_->InvalidateCache(offset + prefixLength_, length); } // Positioned Read for direct I/O // If Direct I/O enabled, offset, n, and scratch should be properly aligned virtual Status PositionedRead(uint64_t offset, size_t n, Slice* result, char* scratch) override { assert(scratch); offset += prefixLength_; // Skip prefix auto status = file_->PositionedRead(offset, n, result, scratch); if (!status.ok()) { return status; } offset_ = offset + result->size(); status = stream_->Decrypt(offset, (char*)result->data(), result->size()); return status; } }; // A file abstraction for randomly reading the contents of a file. class EncryptedRandomAccessFile : public RandomAccessFile { private: std::unique_ptr file_; std::unique_ptr stream_; size_t prefixLength_; public: EncryptedRandomAccessFile(RandomAccessFile* f, BlockAccessCipherStream* s, size_t prefixLength) : file_(f), stream_(s), prefixLength_(prefixLength) { } // Read up to "n" bytes from the file starting at "offset". // "scratch[0..n-1]" may be written by this routine. Sets "*result" // to the data that was read (including if fewer than "n" bytes were // successfully read). May set "*result" to point at data in // "scratch[0..n-1]", so "scratch[0..n-1]" must be live when // "*result" is used. If an error was encountered, returns a non-OK // status. // // Safe for concurrent use by multiple threads. // If Direct I/O enabled, offset, n, and scratch should be aligned properly. virtual Status Read(uint64_t offset, size_t n, Slice* result, char* scratch) const override { assert(scratch); offset += prefixLength_; auto status = file_->Read(offset, n, result, scratch); if (!status.ok()) { return status; } status = stream_->Decrypt(offset, (char*)result->data(), result->size()); return status; } // Readahead the file starting from offset by n bytes for caching. virtual Status Prefetch(uint64_t offset, size_t n) override { //return Status::OK(); return file_->Prefetch(offset + prefixLength_, n); } // Tries to get an unique ID for this file that will be the same each time // the file is opened (and will stay the same while the file is open). // Furthermore, it tries to make this ID at most "max_size" bytes. If such an // ID can be created this function returns the length of the ID and places it // in "id"; otherwise, this function returns 0, in which case "id" // may not have been modified. // // This function guarantees, for IDs from a given environment, two unique ids // cannot be made equal to each other by adding arbitrary bytes to one of // them. That is, no unique ID is the prefix of another. // // This function guarantees that the returned ID will not be interpretable as // a single varint. // // Note: these IDs are only valid for the duration of the process. virtual size_t GetUniqueId(char* id, size_t max_size) const override { return file_->GetUniqueId(id, max_size); }; virtual void Hint(AccessPattern pattern) override { file_->Hint(pattern); } // Indicates the upper layers if the current RandomAccessFile implementation // uses direct IO. virtual bool use_direct_io() const override { return file_->use_direct_io(); } // Use the returned alignment value to allocate // aligned buffer for Direct I/O virtual size_t GetRequiredBufferAlignment() const override { return file_->GetRequiredBufferAlignment(); } // Remove any kind of caching of data from the offset to offset+length // of this file. If the length is 0, then it refers to the end of file. // If the system is not caching the file contents, then this is a noop. virtual Status InvalidateCache(size_t offset, size_t length) override { return file_->InvalidateCache(offset + prefixLength_, length); } }; // A file abstraction for sequential writing. The implementation // must provide buffering since callers may append small fragments // at a time to the file. class EncryptedWritableFile : public WritableFileWrapper { private: std::unique_ptr file_; std::unique_ptr stream_; size_t prefixLength_; public: // Default ctor. Prefix is assumed to be written already. EncryptedWritableFile(WritableFile* f, BlockAccessCipherStream* s, size_t prefixLength) : WritableFileWrapper(f), file_(f), stream_(s), prefixLength_(prefixLength) { } Status Append(const Slice& data) override { AlignedBuffer buf; Status status; Slice dataToAppend(data); if (data.size() > 0) { auto offset = file_->GetFileSize(); // size including prefix // Encrypt in cloned buffer buf.Alignment(GetRequiredBufferAlignment()); buf.AllocateNewBuffer(data.size()); memmove(buf.BufferStart(), data.data(), data.size()); status = stream_->Encrypt(offset, buf.BufferStart(), data.size()); if (!status.ok()) { return status; } dataToAppend = Slice(buf.BufferStart(), data.size()); } status = file_->Append(dataToAppend); if (!status.ok()) { return status; } return status; } Status PositionedAppend(const Slice& data, uint64_t offset) override { AlignedBuffer buf; Status status; Slice dataToAppend(data); offset += prefixLength_; if (data.size() > 0) { // Encrypt in cloned buffer buf.Alignment(GetRequiredBufferAlignment()); buf.AllocateNewBuffer(data.size()); memmove(buf.BufferStart(), data.data(), data.size()); status = stream_->Encrypt(offset, buf.BufferStart(), data.size()); if (!status.ok()) { return status; } dataToAppend = Slice(buf.BufferStart(), data.size()); } status = file_->PositionedAppend(dataToAppend, offset); if (!status.ok()) { return status; } return status; } // Indicates the upper layers if the current WritableFile implementation // uses direct IO. virtual bool use_direct_io() const override { return file_->use_direct_io(); } // Use the returned alignment value to allocate // aligned buffer for Direct I/O virtual size_t GetRequiredBufferAlignment() const override { return file_->GetRequiredBufferAlignment(); } /* * Get the size of valid data in the file. */ virtual uint64_t GetFileSize() override { return file_->GetFileSize() - prefixLength_; } // Truncate is necessary to trim the file to the correct size // before closing. It is not always possible to keep track of the file // size due to whole pages writes. The behavior is undefined if called // with other writes to follow. virtual Status Truncate(uint64_t size) override { return file_->Truncate(size + prefixLength_); } // Remove any kind of caching of data from the offset to offset+length // of this file. If the length is 0, then it refers to the end of file. // If the system is not caching the file contents, then this is a noop. // This call has no effect on dirty pages in the cache. virtual Status InvalidateCache(size_t offset, size_t length) override { return file_->InvalidateCache(offset + prefixLength_, length); } // Sync a file range with disk. // offset is the starting byte of the file range to be synchronized. // nbytes specifies the length of the range to be synchronized. // This asks the OS to initiate flushing the cached data to disk, // without waiting for completion. // Default implementation does nothing. virtual Status RangeSync(uint64_t offset, uint64_t nbytes) override { return file_->RangeSync(offset + prefixLength_, nbytes); } // PrepareWrite performs any necessary preparation for a write // before the write actually occurs. This allows for pre-allocation // of space on devices where it can result in less file // fragmentation and/or less waste from over-zealous filesystem // pre-allocation. virtual void PrepareWrite(size_t offset, size_t len) override { file_->PrepareWrite(offset + prefixLength_, len); } // Pre-allocates space for a file. virtual Status Allocate(uint64_t offset, uint64_t len) override { return file_->Allocate(offset + prefixLength_, len); } }; // A file abstraction for random reading and writing. class EncryptedRandomRWFile : public RandomRWFile { private: std::unique_ptr file_; std::unique_ptr stream_; size_t prefixLength_; public: EncryptedRandomRWFile(RandomRWFile* f, BlockAccessCipherStream* s, size_t prefixLength) : file_(f), stream_(s), prefixLength_(prefixLength) {} // Indicates if the class makes use of direct I/O // If false you must pass aligned buffer to Write() virtual bool use_direct_io() const override { return file_->use_direct_io(); } // Use the returned alignment value to allocate // aligned buffer for Direct I/O virtual size_t GetRequiredBufferAlignment() const override { return file_->GetRequiredBufferAlignment(); } // Write bytes in `data` at offset `offset`, Returns Status::OK() on success. // Pass aligned buffer when use_direct_io() returns true. virtual Status Write(uint64_t offset, const Slice& data) override { AlignedBuffer buf; Status status; Slice dataToWrite(data); offset += prefixLength_; if (data.size() > 0) { // Encrypt in cloned buffer buf.Alignment(GetRequiredBufferAlignment()); buf.AllocateNewBuffer(data.size()); memmove(buf.BufferStart(), data.data(), data.size()); status = stream_->Encrypt(offset, buf.BufferStart(), data.size()); if (!status.ok()) { return status; } dataToWrite = Slice(buf.BufferStart(), data.size()); } status = file_->Write(offset, dataToWrite); return status; } // Read up to `n` bytes starting from offset `offset` and store them in // result, provided `scratch` size should be at least `n`. // Returns Status::OK() on success. virtual Status Read(uint64_t offset, size_t n, Slice* result, char* scratch) const override { assert(scratch); offset += prefixLength_; auto status = file_->Read(offset, n, result, scratch); if (!status.ok()) { return status; } status = stream_->Decrypt(offset, (char*)result->data(), result->size()); return status; } virtual Status Flush() override { return file_->Flush(); } virtual Status Sync() override { return file_->Sync(); } virtual Status Fsync() override { return file_->Fsync(); } virtual Status Close() override { return file_->Close(); } }; // EncryptedEnv implements an Env wrapper that adds encryption to files stored on disk. class EncryptedEnv : public EnvWrapper { public: EncryptedEnv(Env* base_env, EncryptionProvider *provider) : EnvWrapper(base_env) { provider_ = provider; } // NewSequentialFile opens a file for sequential reading. virtual Status NewSequentialFile(const std::string& fname, std::unique_ptr* result, const EnvOptions& options) override { result->reset(); if (options.use_mmap_reads) { return Status::InvalidArgument(); } // Open file using underlying Env implementation std::unique_ptr underlying; auto status = EnvWrapper::NewSequentialFile(fname, &underlying, options); if (!status.ok()) { return status; } // Read prefix (if needed) AlignedBuffer prefixBuf; Slice prefixSlice; size_t prefixLength = provider_->GetPrefixLength(); if (prefixLength > 0) { // Read prefix prefixBuf.Alignment(underlying->GetRequiredBufferAlignment()); prefixBuf.AllocateNewBuffer(prefixLength); status = underlying->Read(prefixLength, &prefixSlice, prefixBuf.BufferStart()); if (!status.ok()) { return status; } } // Create cipher stream std::unique_ptr stream; status = provider_->CreateCipherStream(fname, options, prefixSlice, &stream); if (!status.ok()) { return status; } (*result) = std::unique_ptr(new EncryptedSequentialFile(underlying.release(), stream.release(), prefixLength)); return Status::OK(); } // NewRandomAccessFile opens a file for random read access. virtual Status NewRandomAccessFile(const std::string& fname, unique_ptr* result, const EnvOptions& options) override { result->reset(); if (options.use_mmap_reads) { return Status::InvalidArgument(); } // Open file using underlying Env implementation std::unique_ptr underlying; auto status = EnvWrapper::NewRandomAccessFile(fname, &underlying, options); if (!status.ok()) { return status; } // Read prefix (if needed) AlignedBuffer prefixBuf; Slice prefixSlice; size_t prefixLength = provider_->GetPrefixLength(); if (prefixLength > 0) { // Read prefix prefixBuf.Alignment(underlying->GetRequiredBufferAlignment()); prefixBuf.AllocateNewBuffer(prefixLength); status = underlying->Read(0, prefixLength, &prefixSlice, prefixBuf.BufferStart()); if (!status.ok()) { return status; } } // Create cipher stream std::unique_ptr stream; status = provider_->CreateCipherStream(fname, options, prefixSlice, &stream); if (!status.ok()) { return status; } (*result) = std::unique_ptr(new EncryptedRandomAccessFile(underlying.release(), stream.release(), prefixLength)); return Status::OK(); } // NewWritableFile opens a file for sequential writing. virtual Status NewWritableFile(const std::string& fname, unique_ptr* result, const EnvOptions& options) override { result->reset(); if (options.use_mmap_writes) { return Status::InvalidArgument(); } // Open file using underlying Env implementation std::unique_ptr underlying; Status status = EnvWrapper::NewWritableFile(fname, &underlying, options); if (!status.ok()) { return status; } // Initialize & write prefix (if needed) AlignedBuffer prefixBuf; Slice prefixSlice; size_t prefixLength = provider_->GetPrefixLength(); if (prefixLength > 0) { // Initialize prefix prefixBuf.Alignment(underlying->GetRequiredBufferAlignment()); prefixBuf.AllocateNewBuffer(prefixLength); provider_->CreateNewPrefix(fname, prefixBuf.BufferStart(), prefixLength); prefixSlice = Slice(prefixBuf.BufferStart(), prefixLength); // Write prefix status = underlying->Append(prefixSlice); if (!status.ok()) { return status; } } // Create cipher stream std::unique_ptr stream; status = provider_->CreateCipherStream(fname, options, prefixSlice, &stream); if (!status.ok()) { return status; } (*result) = std::unique_ptr(new EncryptedWritableFile(underlying.release(), stream.release(), prefixLength)); return Status::OK(); } // Create an object that writes to a new file with the specified // name. Deletes any existing file with the same name and creates a // new file. On success, stores a pointer to the new file in // *result and returns OK. On failure stores nullptr in *result and // returns non-OK. // // The returned file will only be accessed by one thread at a time. virtual Status ReopenWritableFile(const std::string& fname, unique_ptr* result, const EnvOptions& options) override { result->reset(); if (options.use_mmap_writes) { return Status::InvalidArgument(); } // Open file using underlying Env implementation std::unique_ptr underlying; Status status = EnvWrapper::ReopenWritableFile(fname, &underlying, options); if (!status.ok()) { return status; } // Initialize & write prefix (if needed) AlignedBuffer prefixBuf; Slice prefixSlice; size_t prefixLength = provider_->GetPrefixLength(); if (prefixLength > 0) { // Initialize prefix prefixBuf.Alignment(underlying->GetRequiredBufferAlignment()); prefixBuf.AllocateNewBuffer(prefixLength); provider_->CreateNewPrefix(fname, prefixBuf.BufferStart(), prefixLength); prefixSlice = Slice(prefixBuf.BufferStart(), prefixLength); // Write prefix status = underlying->Append(prefixSlice); if (!status.ok()) { return status; } } // Create cipher stream std::unique_ptr stream; status = provider_->CreateCipherStream(fname, options, prefixSlice, &stream); if (!status.ok()) { return status; } (*result) = std::unique_ptr(new EncryptedWritableFile(underlying.release(), stream.release(), prefixLength)); return Status::OK(); } // Reuse an existing file by renaming it and opening it as writable. virtual Status ReuseWritableFile(const std::string& fname, const std::string& old_fname, unique_ptr* result, const EnvOptions& options) override { result->reset(); if (options.use_mmap_writes) { return Status::InvalidArgument(); } // Open file using underlying Env implementation std::unique_ptr underlying; Status status = EnvWrapper::ReuseWritableFile(fname, old_fname, &underlying, options); if (!status.ok()) { return status; } // Initialize & write prefix (if needed) AlignedBuffer prefixBuf; Slice prefixSlice; size_t prefixLength = provider_->GetPrefixLength(); if (prefixLength > 0) { // Initialize prefix prefixBuf.Alignment(underlying->GetRequiredBufferAlignment()); prefixBuf.AllocateNewBuffer(prefixLength); provider_->CreateNewPrefix(fname, prefixBuf.BufferStart(), prefixLength); prefixSlice = Slice(prefixBuf.BufferStart(), prefixLength); // Write prefix status = underlying->Append(prefixSlice); if (!status.ok()) { return status; } } // Create cipher stream std::unique_ptr stream; status = provider_->CreateCipherStream(fname, options, prefixSlice, &stream); if (!status.ok()) { return status; } (*result) = std::unique_ptr(new EncryptedWritableFile(underlying.release(), stream.release(), prefixLength)); return Status::OK(); } // Open `fname` for random read and write, if file doesn't exist the file // will be created. On success, stores a pointer to the new file in // *result and returns OK. On failure returns non-OK. // // The returned file will only be accessed by one thread at a time. virtual Status NewRandomRWFile(const std::string& fname, unique_ptr* result, const EnvOptions& options) override { result->reset(); if (options.use_mmap_reads || options.use_mmap_writes) { return Status::InvalidArgument(); } // Check file exists bool isNewFile = !FileExists(fname).ok(); // Open file using underlying Env implementation std::unique_ptr underlying; Status status = EnvWrapper::NewRandomRWFile(fname, &underlying, options); if (!status.ok()) { return status; } // Read or Initialize & write prefix (if needed) AlignedBuffer prefixBuf; Slice prefixSlice; size_t prefixLength = provider_->GetPrefixLength(); if (prefixLength > 0) { prefixBuf.Alignment(underlying->GetRequiredBufferAlignment()); prefixBuf.AllocateNewBuffer(prefixLength); if (!isNewFile) { // File already exists, read prefix status = underlying->Read(0, prefixLength, &prefixSlice, prefixBuf.BufferStart()); if (!status.ok()) { return status; } } else { // File is new, initialize & write prefix provider_->CreateNewPrefix(fname, prefixBuf.BufferStart(), prefixLength); prefixSlice = Slice(prefixBuf.BufferStart(), prefixLength); // Write prefix status = underlying->Write(0, prefixSlice); if (!status.ok()) { return status; } } } // Create cipher stream std::unique_ptr stream; status = provider_->CreateCipherStream(fname, options, prefixSlice, &stream); if (!status.ok()) { return status; } (*result) = std::unique_ptr(new EncryptedRandomRWFile(underlying.release(), stream.release(), prefixLength)); return Status::OK(); } // Store in *result the attributes of the children of the specified directory. // In case the implementation lists the directory prior to iterating the files // and files are concurrently deleted, the deleted files will be omitted from // result. // The name attributes are relative to "dir". // Original contents of *results are dropped. // Returns OK if "dir" exists and "*result" contains its children. // NotFound if "dir" does not exist, the calling process does not have // permission to access "dir", or if "dir" is invalid. // IOError if an IO Error was encountered virtual Status GetChildrenFileAttributes(const std::string& dir, std::vector* result) override { auto status = EnvWrapper::GetChildrenFileAttributes(dir, result); if (!status.ok()) { return status; } size_t prefixLength = provider_->GetPrefixLength(); for (auto it = std::begin(*result); it!=std::end(*result); ++it) { assert(it->size_bytes >= prefixLength); it->size_bytes -= prefixLength; } return Status::OK(); } // Store the size of fname in *file_size. virtual Status GetFileSize(const std::string& fname, uint64_t* file_size) override { auto status = EnvWrapper::GetFileSize(fname, file_size); if (!status.ok()) { return status; } size_t prefixLength = provider_->GetPrefixLength(); assert(*file_size >= prefixLength); *file_size -= prefixLength; return Status::OK(); } private: EncryptionProvider *provider_; }; // Returns an Env that encrypts data when stored on disk and decrypts data when // read from disk. Env* NewEncryptedEnv(Env* base_env, EncryptionProvider* provider) { return new EncryptedEnv(base_env, provider); } // Encrypt one or more (partial) blocks of data at the file offset. // Length of data is given in dataSize. Status BlockAccessCipherStream::Encrypt(uint64_t fileOffset, char *data, size_t dataSize) { // Calculate block index auto blockSize = BlockSize(); uint64_t blockIndex = fileOffset / blockSize; size_t blockOffset = fileOffset % blockSize; unique_ptr blockBuffer; std::string scratch; AllocateScratch(scratch); // Encrypt individual blocks. while (1) { char *block = data; size_t n = std::min(dataSize, blockSize - blockOffset); if (n != blockSize) { // We're not encrypting a full block. // Copy data to blockBuffer if (!blockBuffer.get()) { // Allocate buffer blockBuffer = unique_ptr(new char[blockSize]); } block = blockBuffer.get(); // Copy plain data to block buffer memmove(block + blockOffset, data, n); } auto status = EncryptBlock(blockIndex, block, (char*)scratch.data()); if (!status.ok()) { return status; } if (block != data) { // Copy encrypted data back to `data`. memmove(data, block + blockOffset, n); } dataSize -= n; if (dataSize == 0) { return Status::OK(); } data += n; blockOffset = 0; blockIndex++; } } // Decrypt one or more (partial) blocks of data at the file offset. // Length of data is given in dataSize. Status BlockAccessCipherStream::Decrypt(uint64_t fileOffset, char *data, size_t dataSize) { // Calculate block index auto blockSize = BlockSize(); uint64_t blockIndex = fileOffset / blockSize; size_t blockOffset = fileOffset % blockSize; unique_ptr blockBuffer; std::string scratch; AllocateScratch(scratch); // Decrypt individual blocks. while (1) { char *block = data; size_t n = std::min(dataSize, blockSize - blockOffset); if (n != blockSize) { // We're not decrypting a full block. // Copy data to blockBuffer if (!blockBuffer.get()) { // Allocate buffer blockBuffer = unique_ptr(new char[blockSize]); } block = blockBuffer.get(); // Copy encrypted data to block buffer memmove(block + blockOffset, data, n); } auto status = DecryptBlock(blockIndex, block, (char*)scratch.data()); if (!status.ok()) { return status; } if (block != data) { // Copy decrypted data back to `data`. memmove(data, block + blockOffset, n); } dataSize -= n; if (dataSize == 0) { return Status::OK(); } data += n; blockOffset = 0; blockIndex++; } } // Encrypt a block of data. // Length of data is equal to BlockSize(). Status ROT13BlockCipher::Encrypt(char *data) { for (size_t i = 0; i < blockSize_; ++i) { data[i] += 13; } return Status::OK(); } // Decrypt a block of data. // Length of data is equal to BlockSize(). Status ROT13BlockCipher::Decrypt(char *data) { return Encrypt(data); } // Allocate scratch space which is passed to EncryptBlock/DecryptBlock. void CTRCipherStream::AllocateScratch(std::string& scratch) { auto blockSize = cipher_.BlockSize(); scratch.reserve(blockSize); } // Encrypt a block of data at the given block index. // Length of data is equal to BlockSize(); Status CTRCipherStream::EncryptBlock(uint64_t blockIndex, char *data, char* scratch) { // Create nonce + counter auto blockSize = cipher_.BlockSize(); memmove(scratch, iv_.data(), blockSize); EncodeFixed64(scratch, blockIndex + initialCounter_); // Encrypt nonce+counter auto status = cipher_.Encrypt(scratch); if (!status.ok()) { return status; } // XOR data with ciphertext. for (size_t i = 0; i < blockSize; i++) { data[i] = data[i] ^ scratch[i]; } return Status::OK(); } // Decrypt a block of data at the given block index. // Length of data is equal to BlockSize(); Status CTRCipherStream::DecryptBlock(uint64_t blockIndex, char *data, char* scratch) { // For CTR decryption & encryption are the same return EncryptBlock(blockIndex, data, scratch); } // GetPrefixLength returns the length of the prefix that is added to every file // and used for storing encryption options. // For optimal performance, the prefix length should be a multiple of // the page size. size_t CTREncryptionProvider::GetPrefixLength() { return defaultPrefixLength; } // decodeCTRParameters decodes the initial counter & IV from the given // (plain text) prefix. static void decodeCTRParameters(const char *prefix, size_t blockSize, uint64_t &initialCounter, Slice &iv) { // First block contains 64-bit initial counter initialCounter = DecodeFixed64(prefix); // Second block contains IV iv = Slice(prefix + blockSize, blockSize); } // CreateNewPrefix initialized an allocated block of prefix memory // for a new file. Status CTREncryptionProvider::CreateNewPrefix(const std::string& /*fname*/, char* prefix, size_t prefixLength) { // Create & seed rnd. Random rnd((uint32_t)Env::Default()->NowMicros()); // Fill entire prefix block with random values. for (size_t i = 0; i < prefixLength; i++) { prefix[i] = rnd.Uniform(256) & 0xFF; } // Take random data to extract initial counter & IV auto blockSize = cipher_.BlockSize(); uint64_t initialCounter; Slice prefixIV; decodeCTRParameters(prefix, blockSize, initialCounter, prefixIV); // Now populate the rest of the prefix, starting from the third block. PopulateSecretPrefixPart(prefix + (2 * blockSize), prefixLength - (2 * blockSize), blockSize); // Encrypt the prefix, starting from block 2 (leave block 0, 1 with initial counter & IV unencrypted) CTRCipherStream cipherStream(cipher_, prefixIV.data(), initialCounter); auto status = cipherStream.Encrypt(0, prefix + (2 * blockSize), prefixLength - (2 * blockSize)); if (!status.ok()) { return status; } return Status::OK(); } // PopulateSecretPrefixPart initializes the data into a new prefix block // in plain text. // Returns the amount of space (starting from the start of the prefix) // that has been initialized. size_t CTREncryptionProvider::PopulateSecretPrefixPart(char* /*prefix*/, size_t /*prefixLength*/, size_t /*blockSize*/) { // Nothing to do here, put in custom data in override when needed. return 0; } Status CTREncryptionProvider::CreateCipherStream(const std::string& fname, const EnvOptions& options, Slice &prefix, unique_ptr* result) { // Read plain text part of prefix. auto blockSize = cipher_.BlockSize(); uint64_t initialCounter; Slice iv; decodeCTRParameters(prefix.data(), blockSize, initialCounter, iv); // Decrypt the encrypted part of the prefix, starting from block 2 (block 0, 1 with initial counter & IV are unencrypted) CTRCipherStream cipherStream(cipher_, iv.data(), initialCounter); auto status = cipherStream.Decrypt(0, (char*)prefix.data() + (2 * blockSize), prefix.size() - (2 * blockSize)); if (!status.ok()) { return status; } // Create cipher stream return CreateCipherStreamFromPrefix(fname, options, initialCounter, iv, prefix, result); } // CreateCipherStreamFromPrefix creates a block access cipher stream for a file given // given name and options. The given prefix is already decrypted. Status CTREncryptionProvider::CreateCipherStreamFromPrefix( const std::string& /*fname*/, const EnvOptions& /*options*/, uint64_t initialCounter, const Slice& iv, const Slice& /*prefix*/, unique_ptr* result) { (*result) = unique_ptr(new CTRCipherStream(cipher_, iv.data(), initialCounter)); return Status::OK(); } #endif // ROCKSDB_LITE } // namespace rocksdb rocksdb-5.17.2/env/env_hdfs.cc000066400000000000000000000450661337235545400161560ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // #include "rocksdb/env.h" #include "hdfs/env_hdfs.h" #ifdef USE_HDFS #ifndef ROCKSDB_HDFS_FILE_C #define ROCKSDB_HDFS_FILE_C #include #include #include #include #include #include #include "rocksdb/status.h" #include "util/string_util.h" #define HDFS_EXISTS 0 #define HDFS_DOESNT_EXIST -1 #define HDFS_SUCCESS 0 // // This file defines an HDFS environment for rocksdb. It uses the libhdfs // api to access HDFS. All HDFS files created by one instance of rocksdb // will reside on the same HDFS cluster. // namespace rocksdb { namespace { // Log error message static Status IOError(const std::string& context, int err_number) { return (err_number == ENOSPC) ? Status::NoSpace(context, strerror(err_number)) : Status::IOError(context, strerror(err_number)); } // assume that there is one global logger for now. It is not thread-safe, // but need not be because the logger is initialized at db-open time. static Logger* mylog = nullptr; // Used for reading a file from HDFS. It implements both sequential-read // access methods as well as random read access methods. class HdfsReadableFile : virtual public SequentialFile, virtual public RandomAccessFile { private: hdfsFS fileSys_; std::string filename_; hdfsFile hfile_; public: HdfsReadableFile(hdfsFS fileSys, const std::string& fname) : fileSys_(fileSys), filename_(fname), hfile_(nullptr) { ROCKS_LOG_DEBUG(mylog, "[hdfs] HdfsReadableFile opening file %s\n", filename_.c_str()); hfile_ = hdfsOpenFile(fileSys_, filename_.c_str(), O_RDONLY, 0, 0, 0); ROCKS_LOG_DEBUG(mylog, "[hdfs] HdfsReadableFile opened file %s hfile_=0x%p\n", filename_.c_str(), hfile_); } virtual ~HdfsReadableFile() { ROCKS_LOG_DEBUG(mylog, "[hdfs] HdfsReadableFile closing file %s\n", filename_.c_str()); hdfsCloseFile(fileSys_, hfile_); ROCKS_LOG_DEBUG(mylog, "[hdfs] HdfsReadableFile closed file %s\n", filename_.c_str()); hfile_ = nullptr; } bool isValid() { return hfile_ != nullptr; } // sequential access, read data at current offset in file virtual Status Read(size_t n, Slice* result, char* scratch) { Status s; ROCKS_LOG_DEBUG(mylog, "[hdfs] HdfsReadableFile reading %s %ld\n", filename_.c_str(), n); char* buffer = scratch; size_t total_bytes_read = 0; tSize bytes_read = 0; tSize remaining_bytes = (tSize)n; // Read a total of n bytes repeatedly until we hit error or eof while (remaining_bytes > 0) { bytes_read = hdfsRead(fileSys_, hfile_, buffer, remaining_bytes); if (bytes_read <= 0) { break; } assert(bytes_read <= remaining_bytes); total_bytes_read += bytes_read; remaining_bytes -= bytes_read; buffer += bytes_read; } assert(total_bytes_read <= n); ROCKS_LOG_DEBUG(mylog, "[hdfs] HdfsReadableFile read %s\n", filename_.c_str()); if (bytes_read < 0) { s = IOError(filename_, errno); } else { *result = Slice(scratch, total_bytes_read); } return s; } // random access, read data from specified offset in file virtual Status Read(uint64_t offset, size_t n, Slice* result, char* scratch) const { Status s; ROCKS_LOG_DEBUG(mylog, "[hdfs] HdfsReadableFile preading %s\n", filename_.c_str()); ssize_t bytes_read = hdfsPread(fileSys_, hfile_, offset, (void*)scratch, (tSize)n); ROCKS_LOG_DEBUG(mylog, "[hdfs] HdfsReadableFile pread %s\n", filename_.c_str()); *result = Slice(scratch, (bytes_read < 0) ? 0 : bytes_read); if (bytes_read < 0) { // An error: return a non-ok status s = IOError(filename_, errno); } return s; } virtual Status Skip(uint64_t n) { ROCKS_LOG_DEBUG(mylog, "[hdfs] HdfsReadableFile skip %s\n", filename_.c_str()); // get current offset from file tOffset current = hdfsTell(fileSys_, hfile_); if (current < 0) { return IOError(filename_, errno); } // seek to new offset in file tOffset newoffset = current + n; int val = hdfsSeek(fileSys_, hfile_, newoffset); if (val < 0) { return IOError(filename_, errno); } return Status::OK(); } private: // returns true if we are at the end of file, false otherwise bool feof() { ROCKS_LOG_DEBUG(mylog, "[hdfs] HdfsReadableFile feof %s\n", filename_.c_str()); if (hdfsTell(fileSys_, hfile_) == fileSize()) { return true; } return false; } // the current size of the file tOffset fileSize() { ROCKS_LOG_DEBUG(mylog, "[hdfs] HdfsReadableFile fileSize %s\n", filename_.c_str()); hdfsFileInfo* pFileInfo = hdfsGetPathInfo(fileSys_, filename_.c_str()); tOffset size = 0L; if (pFileInfo != nullptr) { size = pFileInfo->mSize; hdfsFreeFileInfo(pFileInfo, 1); } else { throw HdfsFatalException("fileSize on unknown file " + filename_); } return size; } }; // Appends to an existing file in HDFS. class HdfsWritableFile: public WritableFile { private: hdfsFS fileSys_; std::string filename_; hdfsFile hfile_; public: HdfsWritableFile(hdfsFS fileSys, const std::string& fname) : fileSys_(fileSys), filename_(fname) , hfile_(nullptr) { ROCKS_LOG_DEBUG(mylog, "[hdfs] HdfsWritableFile opening %s\n", filename_.c_str()); hfile_ = hdfsOpenFile(fileSys_, filename_.c_str(), O_WRONLY, 0, 0, 0); ROCKS_LOG_DEBUG(mylog, "[hdfs] HdfsWritableFile opened %s\n", filename_.c_str()); assert(hfile_ != nullptr); } virtual ~HdfsWritableFile() { if (hfile_ != nullptr) { ROCKS_LOG_DEBUG(mylog, "[hdfs] HdfsWritableFile closing %s\n", filename_.c_str()); hdfsCloseFile(fileSys_, hfile_); ROCKS_LOG_DEBUG(mylog, "[hdfs] HdfsWritableFile closed %s\n", filename_.c_str()); hfile_ = nullptr; } } // If the file was successfully created, then this returns true. // Otherwise returns false. bool isValid() { return hfile_ != nullptr; } // The name of the file, mostly needed for debug logging. const std::string& getName() { return filename_; } virtual Status Append(const Slice& data) { ROCKS_LOG_DEBUG(mylog, "[hdfs] HdfsWritableFile Append %s\n", filename_.c_str()); const char* src = data.data(); size_t left = data.size(); size_t ret = hdfsWrite(fileSys_, hfile_, src, left); ROCKS_LOG_DEBUG(mylog, "[hdfs] HdfsWritableFile Appended %s\n", filename_.c_str()); if (ret != left) { return IOError(filename_, errno); } return Status::OK(); } virtual Status Flush() { return Status::OK(); } virtual Status Sync() { Status s; ROCKS_LOG_DEBUG(mylog, "[hdfs] HdfsWritableFile Sync %s\n", filename_.c_str()); if (hdfsFlush(fileSys_, hfile_) == -1) { return IOError(filename_, errno); } if (hdfsHSync(fileSys_, hfile_) == -1) { return IOError(filename_, errno); } ROCKS_LOG_DEBUG(mylog, "[hdfs] HdfsWritableFile Synced %s\n", filename_.c_str()); return Status::OK(); } // This is used by HdfsLogger to write data to the debug log file virtual Status Append(const char* src, size_t size) { if (hdfsWrite(fileSys_, hfile_, src, size) != (tSize)size) { return IOError(filename_, errno); } return Status::OK(); } virtual Status Close() { ROCKS_LOG_DEBUG(mylog, "[hdfs] HdfsWritableFile closing %s\n", filename_.c_str()); if (hdfsCloseFile(fileSys_, hfile_) != 0) { return IOError(filename_, errno); } ROCKS_LOG_DEBUG(mylog, "[hdfs] HdfsWritableFile closed %s\n", filename_.c_str()); hfile_ = nullptr; return Status::OK(); } }; // The object that implements the debug logs to reside in HDFS. class HdfsLogger : public Logger { private: HdfsWritableFile* file_; uint64_t (*gettid_)(); // Return the thread id for the current thread Status HdfsCloseHelper() { ROCKS_LOG_DEBUG(mylog, "[hdfs] HdfsLogger closed %s\n", file_->getName().c_str()); Status s = file_->Close(); if (mylog != nullptr && mylog == this) { mylog = nullptr; } return s; } protected: virtual Status CloseImpl() override { return HdfsCloseHelper(); } public: HdfsLogger(HdfsWritableFile* f, uint64_t (*gettid)()) : file_(f), gettid_(gettid) { ROCKS_LOG_DEBUG(mylog, "[hdfs] HdfsLogger opened %s\n", file_->getName().c_str()); } virtual ~HdfsLogger() { if (!closed_) { closed_ = true; HdfsCloseHelper(); } } virtual void Logv(const char* format, va_list ap) { const uint64_t thread_id = (*gettid_)(); // We try twice: the first time with a fixed-size stack allocated buffer, // and the second time with a much larger dynamically allocated buffer. char buffer[500]; for (int iter = 0; iter < 2; iter++) { char* base; int bufsize; if (iter == 0) { bufsize = sizeof(buffer); base = buffer; } else { bufsize = 30000; base = new char[bufsize]; } char* p = base; char* limit = base + bufsize; struct timeval now_tv; gettimeofday(&now_tv, nullptr); const time_t seconds = now_tv.tv_sec; struct tm t; localtime_r(&seconds, &t); p += snprintf(p, limit - p, "%04d/%02d/%02d-%02d:%02d:%02d.%06d %llx ", t.tm_year + 1900, t.tm_mon + 1, t.tm_mday, t.tm_hour, t.tm_min, t.tm_sec, static_cast(now_tv.tv_usec), static_cast(thread_id)); // Print the message if (p < limit) { va_list backup_ap; va_copy(backup_ap, ap); p += vsnprintf(p, limit - p, format, backup_ap); va_end(backup_ap); } // Truncate to available space if necessary if (p >= limit) { if (iter == 0) { continue; // Try again with larger buffer } else { p = limit - 1; } } // Add newline if necessary if (p == base || p[-1] != '\n') { *p++ = '\n'; } assert(p <= limit); file_->Append(base, p-base); file_->Flush(); if (base != buffer) { delete[] base; } break; } } }; } // namespace // Finally, the hdfs environment const std::string HdfsEnv::kProto = "hdfs://"; const std::string HdfsEnv::pathsep = "/"; // open a file for sequential reading Status HdfsEnv::NewSequentialFile(const std::string& fname, unique_ptr* result, const EnvOptions& options) { result->reset(); HdfsReadableFile* f = new HdfsReadableFile(fileSys_, fname); if (f == nullptr || !f->isValid()) { delete f; *result = nullptr; return IOError(fname, errno); } result->reset(dynamic_cast(f)); return Status::OK(); } // open a file for random reading Status HdfsEnv::NewRandomAccessFile(const std::string& fname, unique_ptr* result, const EnvOptions& options) { result->reset(); HdfsReadableFile* f = new HdfsReadableFile(fileSys_, fname); if (f == nullptr || !f->isValid()) { delete f; *result = nullptr; return IOError(fname, errno); } result->reset(dynamic_cast(f)); return Status::OK(); } // create a new file for writing Status HdfsEnv::NewWritableFile(const std::string& fname, unique_ptr* result, const EnvOptions& options) { result->reset(); Status s; HdfsWritableFile* f = new HdfsWritableFile(fileSys_, fname); if (f == nullptr || !f->isValid()) { delete f; *result = nullptr; return IOError(fname, errno); } result->reset(dynamic_cast(f)); return Status::OK(); } class HdfsDirectory : public Directory { public: explicit HdfsDirectory(int fd) : fd_(fd) {} ~HdfsDirectory() {} virtual Status Fsync() { return Status::OK(); } private: int fd_; }; Status HdfsEnv::NewDirectory(const std::string& name, unique_ptr* result) { int value = hdfsExists(fileSys_, name.c_str()); switch (value) { case HDFS_EXISTS: result->reset(new HdfsDirectory(0)); return Status::OK(); default: // fail if the directory doesn't exist ROCKS_LOG_FATAL(mylog, "NewDirectory hdfsExists call failed"); throw HdfsFatalException("hdfsExists call failed with error " + ToString(value) + " on path " + name + ".\n"); } } Status HdfsEnv::FileExists(const std::string& fname) { int value = hdfsExists(fileSys_, fname.c_str()); switch (value) { case HDFS_EXISTS: return Status::OK(); case HDFS_DOESNT_EXIST: return Status::NotFound(); default: // anything else should be an error ROCKS_LOG_FATAL(mylog, "FileExists hdfsExists call failed"); return Status::IOError("hdfsExists call failed with error " + ToString(value) + " on path " + fname + ".\n"); } } Status HdfsEnv::GetChildren(const std::string& path, std::vector* result) { int value = hdfsExists(fileSys_, path.c_str()); switch (value) { case HDFS_EXISTS: { // directory exists int numEntries = 0; hdfsFileInfo* pHdfsFileInfo = 0; pHdfsFileInfo = hdfsListDirectory(fileSys_, path.c_str(), &numEntries); if (numEntries >= 0) { for(int i = 0; i < numEntries; i++) { char* pathname = pHdfsFileInfo[i].mName; char* filename = std::rindex(pathname, '/'); if (filename != nullptr) { result->push_back(filename+1); } } if (pHdfsFileInfo != nullptr) { hdfsFreeFileInfo(pHdfsFileInfo, numEntries); } } else { // numEntries < 0 indicates error ROCKS_LOG_FATAL(mylog, "hdfsListDirectory call failed with error "); throw HdfsFatalException( "hdfsListDirectory call failed negative error.\n"); } break; } case HDFS_DOESNT_EXIST: // directory does not exist, exit return Status::NotFound(); default: // anything else should be an error ROCKS_LOG_FATAL(mylog, "GetChildren hdfsExists call failed"); throw HdfsFatalException("hdfsExists call failed with error " + ToString(value) + ".\n"); } return Status::OK(); } Status HdfsEnv::DeleteFile(const std::string& fname) { if (hdfsDelete(fileSys_, fname.c_str(), 1) == 0) { return Status::OK(); } return IOError(fname, errno); }; Status HdfsEnv::CreateDir(const std::string& name) { if (hdfsCreateDirectory(fileSys_, name.c_str()) == 0) { return Status::OK(); } return IOError(name, errno); }; Status HdfsEnv::CreateDirIfMissing(const std::string& name) { const int value = hdfsExists(fileSys_, name.c_str()); // Not atomic. state might change b/w hdfsExists and CreateDir. switch (value) { case HDFS_EXISTS: return Status::OK(); case HDFS_DOESNT_EXIST: return CreateDir(name); default: // anything else should be an error ROCKS_LOG_FATAL(mylog, "CreateDirIfMissing hdfsExists call failed"); throw HdfsFatalException("hdfsExists call failed with error " + ToString(value) + ".\n"); } }; Status HdfsEnv::DeleteDir(const std::string& name) { return DeleteFile(name); }; Status HdfsEnv::GetFileSize(const std::string& fname, uint64_t* size) { *size = 0L; hdfsFileInfo* pFileInfo = hdfsGetPathInfo(fileSys_, fname.c_str()); if (pFileInfo != nullptr) { *size = pFileInfo->mSize; hdfsFreeFileInfo(pFileInfo, 1); return Status::OK(); } return IOError(fname, errno); } Status HdfsEnv::GetFileModificationTime(const std::string& fname, uint64_t* time) { hdfsFileInfo* pFileInfo = hdfsGetPathInfo(fileSys_, fname.c_str()); if (pFileInfo != nullptr) { *time = static_cast(pFileInfo->mLastMod); hdfsFreeFileInfo(pFileInfo, 1); return Status::OK(); } return IOError(fname, errno); } // The rename is not atomic. HDFS does not allow a renaming if the // target already exists. So, we delete the target before attempting the // rename. Status HdfsEnv::RenameFile(const std::string& src, const std::string& target) { hdfsDelete(fileSys_, target.c_str(), 1); if (hdfsRename(fileSys_, src.c_str(), target.c_str()) == 0) { return Status::OK(); } return IOError(src, errno); } Status HdfsEnv::LockFile(const std::string& fname, FileLock** lock) { // there isn's a very good way to atomically check and create // a file via libhdfs *lock = nullptr; return Status::OK(); } Status HdfsEnv::UnlockFile(FileLock* lock) { return Status::OK(); } Status HdfsEnv::NewLogger(const std::string& fname, shared_ptr* result) { HdfsWritableFile* f = new HdfsWritableFile(fileSys_, fname); if (f == nullptr || !f->isValid()) { delete f; *result = nullptr; return IOError(fname, errno); } HdfsLogger* h = new HdfsLogger(f, &HdfsEnv::gettid); result->reset(h); if (mylog == nullptr) { // mylog = h; // uncomment this for detailed logging } return Status::OK(); } // The factory method for creating an HDFS Env Status NewHdfsEnv(Env** hdfs_env, const std::string& fsname) { *hdfs_env = new HdfsEnv(fsname); return Status::OK(); } } // namespace rocksdb #endif // ROCKSDB_HDFS_FILE_C #else // USE_HDFS // dummy placeholders used when HDFS is not available namespace rocksdb { Status HdfsEnv::NewSequentialFile(const std::string& /*fname*/, unique_ptr* /*result*/, const EnvOptions& /*options*/) { return Status::NotSupported("Not compiled with hdfs support"); } Status NewHdfsEnv(Env** /*hdfs_env*/, const std::string& /*fsname*/) { return Status::NotSupported("Not compiled with hdfs support"); } } #endif rocksdb-5.17.2/env/env_posix.cc000066400000000000000000001045461337235545400163730ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors #include #include #include #if defined(OS_LINUX) #include #endif #include #include #include #include #include #include #include #include #if defined(OS_LINUX) || defined(OS_SOLARIS) || defined(OS_ANDROID) #include #include #include #endif #include #include #include #include #include // Get nano time includes #if defined(OS_LINUX) || defined(OS_FREEBSD) #elif defined(__MACH__) #include #include #else #include #endif #include #include #include #include "env/io_posix.h" #include "env/posix_logger.h" #include "monitoring/iostats_context_imp.h" #include "monitoring/thread_status_updater.h" #include "port/port.h" #include "rocksdb/options.h" #include "rocksdb/slice.h" #include "util/coding.h" #include "util/compression_context_cache.h" #include "util/logging.h" #include "util/random.h" #include "util/string_util.h" #include "util/sync_point.h" #include "util/thread_local.h" #include "util/threadpool_imp.h" #if !defined(TMPFS_MAGIC) #define TMPFS_MAGIC 0x01021994 #endif #if !defined(XFS_SUPER_MAGIC) #define XFS_SUPER_MAGIC 0x58465342 #endif #if !defined(EXT4_SUPER_MAGIC) #define EXT4_SUPER_MAGIC 0xEF53 #endif namespace rocksdb { namespace { ThreadStatusUpdater* CreateThreadStatusUpdater() { return new ThreadStatusUpdater(); } inline mode_t GetDBFileMode(bool allow_non_owner_access) { return allow_non_owner_access ? 0644 : 0600; } // list of pathnames that are locked static std::set lockedFiles; static port::Mutex mutex_lockedFiles; static int LockOrUnlock(int fd, bool lock) { errno = 0; struct flock f; memset(&f, 0, sizeof(f)); f.l_type = (lock ? F_WRLCK : F_UNLCK); f.l_whence = SEEK_SET; f.l_start = 0; f.l_len = 0; // Lock/unlock entire file int value = fcntl(fd, F_SETLK, &f); return value; } class PosixFileLock : public FileLock { public: int fd_; std::string filename; }; int cloexec_flags(int flags, const EnvOptions* options) { // If the system supports opening the file with cloexec enabled, // do so, as this avoids a race condition if a db is opened around // the same time that a child process is forked #ifdef O_CLOEXEC if (options == nullptr || options->set_fd_cloexec) { flags |= O_CLOEXEC; } #endif return flags; } class PosixEnv : public Env { public: PosixEnv(); virtual ~PosixEnv() { for (const auto tid : threads_to_join_) { pthread_join(tid, nullptr); } for (int pool_id = 0; pool_id < Env::Priority::TOTAL; ++pool_id) { thread_pools_[pool_id].JoinAllThreads(); } // Delete the thread_status_updater_ only when the current Env is not // Env::Default(). This is to avoid the free-after-use error when // Env::Default() is destructed while some other child threads are // still trying to update thread status. if (this != Env::Default()) { delete thread_status_updater_; } } void SetFD_CLOEXEC(int fd, const EnvOptions* options) { if ((options == nullptr || options->set_fd_cloexec) && fd > 0) { fcntl(fd, F_SETFD, fcntl(fd, F_GETFD) | FD_CLOEXEC); } } virtual Status NewSequentialFile(const std::string& fname, unique_ptr* result, const EnvOptions& options) override { result->reset(); int fd = -1; int flags = cloexec_flags(O_RDONLY, &options); FILE* file = nullptr; if (options.use_direct_reads && !options.use_mmap_reads) { #ifdef ROCKSDB_LITE return Status::IOError(fname, "Direct I/O not supported in RocksDB lite"); #endif // !ROCKSDB_LITE #if !defined(OS_MACOSX) && !defined(OS_OPENBSD) && !defined(OS_SOLARIS) flags |= O_DIRECT; #endif } do { IOSTATS_TIMER_GUARD(open_nanos); fd = open(fname.c_str(), flags, GetDBFileMode(allow_non_owner_access_)); } while (fd < 0 && errno == EINTR); if (fd < 0) { return IOError("While opening a file for sequentially reading", fname, errno); } SetFD_CLOEXEC(fd, &options); if (options.use_direct_reads && !options.use_mmap_reads) { #ifdef OS_MACOSX if (fcntl(fd, F_NOCACHE, 1) == -1) { close(fd); return IOError("While fcntl NoCache", fname, errno); } #endif } else { do { IOSTATS_TIMER_GUARD(open_nanos); file = fdopen(fd, "r"); } while (file == nullptr && errno == EINTR); if (file == nullptr) { close(fd); return IOError("While opening file for sequentially read", fname, errno); } } result->reset(new PosixSequentialFile(fname, file, fd, options)); return Status::OK(); } virtual Status NewRandomAccessFile(const std::string& fname, unique_ptr* result, const EnvOptions& options) override { result->reset(); Status s; int fd; int flags = cloexec_flags(O_RDONLY, &options); if (options.use_direct_reads && !options.use_mmap_reads) { #ifdef ROCKSDB_LITE return Status::IOError(fname, "Direct I/O not supported in RocksDB lite"); #endif // !ROCKSDB_LITE #if !defined(OS_MACOSX) && !defined(OS_OPENBSD) && !defined(OS_SOLARIS) flags |= O_DIRECT; TEST_SYNC_POINT_CALLBACK("NewRandomAccessFile:O_DIRECT", &flags); #endif } do { IOSTATS_TIMER_GUARD(open_nanos); fd = open(fname.c_str(), flags, GetDBFileMode(allow_non_owner_access_)); } while (fd < 0 && errno == EINTR); if (fd < 0) { return IOError("While open a file for random read", fname, errno); } SetFD_CLOEXEC(fd, &options); if (options.use_mmap_reads && sizeof(void*) >= 8) { // Use of mmap for random reads has been removed because it // kills performance when storage is fast. // Use mmap when virtual address-space is plentiful. uint64_t size; s = GetFileSize(fname, &size); if (s.ok()) { void* base = mmap(nullptr, size, PROT_READ, MAP_SHARED, fd, 0); if (base != MAP_FAILED) { result->reset(new PosixMmapReadableFile(fd, fname, base, size, options)); } else { s = IOError("while mmap file for read", fname, errno); close(fd); } } } else { if (options.use_direct_reads && !options.use_mmap_reads) { #ifdef OS_MACOSX if (fcntl(fd, F_NOCACHE, 1) == -1) { close(fd); return IOError("while fcntl NoCache", fname, errno); } #endif } result->reset(new PosixRandomAccessFile(fname, fd, options)); } return s; } virtual Status OpenWritableFile(const std::string& fname, unique_ptr* result, const EnvOptions& options, bool reopen = false) { result->reset(); Status s; int fd = -1; int flags = (reopen) ? (O_CREAT | O_APPEND) : (O_CREAT | O_TRUNC); // Direct IO mode with O_DIRECT flag or F_NOCAHCE (MAC OSX) if (options.use_direct_writes && !options.use_mmap_writes) { // Note: we should avoid O_APPEND here due to ta the following bug: // POSIX requires that opening a file with the O_APPEND flag should // have no affect on the location at which pwrite() writes data. // However, on Linux, if a file is opened with O_APPEND, pwrite() // appends data to the end of the file, regardless of the value of // offset. // More info here: https://linux.die.net/man/2/pwrite #ifdef ROCKSDB_LITE return Status::IOError(fname, "Direct I/O not supported in RocksDB lite"); #endif // ROCKSDB_LITE flags |= O_WRONLY; #if !defined(OS_MACOSX) && !defined(OS_OPENBSD) && !defined(OS_SOLARIS) flags |= O_DIRECT; #endif TEST_SYNC_POINT_CALLBACK("NewWritableFile:O_DIRECT", &flags); } else if (options.use_mmap_writes) { // non-direct I/O flags |= O_RDWR; } else { flags |= O_WRONLY; } flags = cloexec_flags(flags, &options); do { IOSTATS_TIMER_GUARD(open_nanos); fd = open(fname.c_str(), flags, GetDBFileMode(allow_non_owner_access_)); } while (fd < 0 && errno == EINTR); if (fd < 0) { s = IOError("While open a file for appending", fname, errno); return s; } SetFD_CLOEXEC(fd, &options); if (options.use_mmap_writes) { if (!checkedDiskForMmap_) { // this will be executed once in the program's lifetime. // do not use mmapWrite on non ext-3/xfs/tmpfs systems. if (!SupportsFastAllocate(fname)) { forceMmapOff_ = true; } checkedDiskForMmap_ = true; } } if (options.use_mmap_writes && !forceMmapOff_) { result->reset(new PosixMmapFile(fname, fd, page_size_, options)); } else if (options.use_direct_writes && !options.use_mmap_writes) { #ifdef OS_MACOSX if (fcntl(fd, F_NOCACHE, 1) == -1) { close(fd); s = IOError("While fcntl NoCache an opened file for appending", fname, errno); return s; } #elif defined(OS_SOLARIS) if (directio(fd, DIRECTIO_ON) == -1) { if (errno != ENOTTY) { // ZFS filesystems don't support DIRECTIO_ON close(fd); s = IOError("While calling directio()", fname, errno); return s; } } #endif result->reset(new PosixWritableFile(fname, fd, options)); } else { // disable mmap writes EnvOptions no_mmap_writes_options = options; no_mmap_writes_options.use_mmap_writes = false; result->reset(new PosixWritableFile(fname, fd, no_mmap_writes_options)); } return s; } virtual Status NewWritableFile(const std::string& fname, unique_ptr* result, const EnvOptions& options) override { return OpenWritableFile(fname, result, options, false); } virtual Status ReopenWritableFile(const std::string& fname, unique_ptr* result, const EnvOptions& options) override { return OpenWritableFile(fname, result, options, true); } virtual Status ReuseWritableFile(const std::string& fname, const std::string& old_fname, unique_ptr* result, const EnvOptions& options) override { result->reset(); Status s; int fd = -1; int flags = 0; // Direct IO mode with O_DIRECT flag or F_NOCAHCE (MAC OSX) if (options.use_direct_writes && !options.use_mmap_writes) { #ifdef ROCKSDB_LITE return Status::IOError(fname, "Direct I/O not supported in RocksDB lite"); #endif // !ROCKSDB_LITE flags |= O_WRONLY; #if !defined(OS_MACOSX) && !defined(OS_OPENBSD) && !defined(OS_SOLARIS) flags |= O_DIRECT; #endif TEST_SYNC_POINT_CALLBACK("NewWritableFile:O_DIRECT", &flags); } else if (options.use_mmap_writes) { // mmap needs O_RDWR mode flags |= O_RDWR; } else { flags |= O_WRONLY; } flags = cloexec_flags(flags, &options); do { IOSTATS_TIMER_GUARD(open_nanos); fd = open(old_fname.c_str(), flags, GetDBFileMode(allow_non_owner_access_)); } while (fd < 0 && errno == EINTR); if (fd < 0) { s = IOError("while reopen file for write", fname, errno); return s; } SetFD_CLOEXEC(fd, &options); // rename into place if (rename(old_fname.c_str(), fname.c_str()) != 0) { s = IOError("while rename file to " + fname, old_fname, errno); close(fd); return s; } if (options.use_mmap_writes) { if (!checkedDiskForMmap_) { // this will be executed once in the program's lifetime. // do not use mmapWrite on non ext-3/xfs/tmpfs systems. if (!SupportsFastAllocate(fname)) { forceMmapOff_ = true; } checkedDiskForMmap_ = true; } } if (options.use_mmap_writes && !forceMmapOff_) { result->reset(new PosixMmapFile(fname, fd, page_size_, options)); } else if (options.use_direct_writes && !options.use_mmap_writes) { #ifdef OS_MACOSX if (fcntl(fd, F_NOCACHE, 1) == -1) { close(fd); s = IOError("while fcntl NoCache for reopened file for append", fname, errno); return s; } #elif defined(OS_SOLARIS) if (directio(fd, DIRECTIO_ON) == -1) { if (errno != ENOTTY) { // ZFS filesystems don't support DIRECTIO_ON close(fd); s = IOError("while calling directio()", fname, errno); return s; } } #endif result->reset(new PosixWritableFile(fname, fd, options)); } else { // disable mmap writes EnvOptions no_mmap_writes_options = options; no_mmap_writes_options.use_mmap_writes = false; result->reset(new PosixWritableFile(fname, fd, no_mmap_writes_options)); } return s; } virtual Status NewRandomRWFile(const std::string& fname, unique_ptr* result, const EnvOptions& options) override { int fd = -1; int flags = cloexec_flags(O_RDWR, &options); while (fd < 0) { IOSTATS_TIMER_GUARD(open_nanos); fd = open(fname.c_str(), flags, GetDBFileMode(allow_non_owner_access_)); if (fd < 0) { // Error while opening the file if (errno == EINTR) { continue; } return IOError("While open file for random read/write", fname, errno); } } SetFD_CLOEXEC(fd, &options); result->reset(new PosixRandomRWFile(fname, fd, options)); return Status::OK(); } virtual Status NewMemoryMappedFileBuffer( const std::string& fname, unique_ptr* result) override { int fd = -1; Status status; int flags = cloexec_flags(O_RDWR, nullptr); while (fd < 0) { IOSTATS_TIMER_GUARD(open_nanos); fd = open(fname.c_str(), flags, 0644); if (fd < 0) { // Error while opening the file if (errno == EINTR) { continue; } status = IOError("While open file for raw mmap buffer access", fname, errno); break; } } uint64_t size; if (status.ok()) { status = GetFileSize(fname, &size); } void* base = nullptr; if (status.ok()) { base = mmap(nullptr, static_cast(size), PROT_READ | PROT_WRITE, MAP_SHARED, fd, 0); if (base == MAP_FAILED) { status = IOError("while mmap file for read", fname, errno); } } if (status.ok()) { result->reset( new PosixMemoryMappedFileBuffer(base, static_cast(size))); } if (fd >= 0) { // don't need to keep it open after mmap has been called close(fd); } return status; } virtual Status NewDirectory(const std::string& name, unique_ptr* result) override { result->reset(); int fd; int flags = cloexec_flags(0, nullptr); { IOSTATS_TIMER_GUARD(open_nanos); fd = open(name.c_str(), flags); } if (fd < 0) { return IOError("While open directory", name, errno); } else { result->reset(new PosixDirectory(fd)); } return Status::OK(); } virtual Status FileExists(const std::string& fname) override { int result = access(fname.c_str(), F_OK); if (result == 0) { return Status::OK(); } int err = errno; switch (err) { case EACCES: case ELOOP: case ENAMETOOLONG: case ENOENT: case ENOTDIR: return Status::NotFound(); default: assert(err == EIO || err == ENOMEM); return Status::IOError("Unexpected error(" + ToString(err) + ") accessing file `" + fname + "' "); } } virtual Status GetChildren(const std::string& dir, std::vector* result) override { result->clear(); DIR* d = opendir(dir.c_str()); if (d == nullptr) { switch (errno) { case EACCES: case ENOENT: case ENOTDIR: return Status::NotFound(); default: return IOError("While opendir", dir, errno); } } struct dirent* entry; while ((entry = readdir(d)) != nullptr) { result->push_back(entry->d_name); } closedir(d); return Status::OK(); } virtual Status DeleteFile(const std::string& fname) override { Status result; if (unlink(fname.c_str()) != 0) { result = IOError("while unlink() file", fname, errno); } return result; }; virtual Status CreateDir(const std::string& name) override { Status result; if (mkdir(name.c_str(), 0755) != 0) { result = IOError("While mkdir", name, errno); } return result; }; virtual Status CreateDirIfMissing(const std::string& name) override { Status result; if (mkdir(name.c_str(), 0755) != 0) { if (errno != EEXIST) { result = IOError("While mkdir if missing", name, errno); } else if (!DirExists(name)) { // Check that name is actually a // directory. // Message is taken from mkdir result = Status::IOError("`"+name+"' exists but is not a directory"); } } return result; }; virtual Status DeleteDir(const std::string& name) override { Status result; if (rmdir(name.c_str()) != 0) { result = IOError("file rmdir", name, errno); } return result; }; virtual Status GetFileSize(const std::string& fname, uint64_t* size) override { Status s; struct stat sbuf; if (stat(fname.c_str(), &sbuf) != 0) { *size = 0; s = IOError("while stat a file for size", fname, errno); } else { *size = sbuf.st_size; } return s; } virtual Status GetFileModificationTime(const std::string& fname, uint64_t* file_mtime) override { struct stat s; if (stat(fname.c_str(), &s) !=0) { return IOError("while stat a file for modification time", fname, errno); } *file_mtime = static_cast(s.st_mtime); return Status::OK(); } virtual Status RenameFile(const std::string& src, const std::string& target) override { Status result; if (rename(src.c_str(), target.c_str()) != 0) { result = IOError("While renaming a file to " + target, src, errno); } return result; } virtual Status LinkFile(const std::string& src, const std::string& target) override { Status result; if (link(src.c_str(), target.c_str()) != 0) { if (errno == EXDEV) { return Status::NotSupported("No cross FS links allowed"); } result = IOError("while link file to " + target, src, errno); } return result; } Status NumFileLinks(const std::string& fname, uint64_t* count) override { struct stat s; if (stat(fname.c_str(), &s) != 0) { return IOError("while stat a file for num file links", fname, errno); } *count = static_cast(s.st_nlink); return Status::OK(); } virtual Status AreFilesSame(const std::string& first, const std::string& second, bool* res) override { struct stat statbuf[2]; if (stat(first.c_str(), &statbuf[0]) != 0) { return IOError("stat file", first, errno); } if (stat(second.c_str(), &statbuf[1]) != 0) { return IOError("stat file", second, errno); } if (major(statbuf[0].st_dev) != major(statbuf[1].st_dev) || minor(statbuf[0].st_dev) != minor(statbuf[1].st_dev) || statbuf[0].st_ino != statbuf[1].st_ino) { *res = false; } else { *res = true; } return Status::OK(); } virtual Status LockFile(const std::string& fname, FileLock** lock) override { *lock = nullptr; Status result; mutex_lockedFiles.Lock(); // If it already exists in the lockedFiles set, then it is already locked, // and fail this lock attempt. Otherwise, insert it into lockedFiles. // This check is needed because fcntl() does not detect lock conflict // if the fcntl is issued by the same thread that earlier acquired // this lock. // We must do this check *before* opening the file: // Otherwise, we will open a new file descriptor. Locks are associated with // a process, not a file descriptor and when *any* file descriptor is closed, // all locks the process holds for that *file* are released if (lockedFiles.insert(fname).second == false) { mutex_lockedFiles.Unlock(); errno = ENOLCK; return IOError("lock ", fname, errno); } int fd; int flags = cloexec_flags(O_RDWR | O_CREAT, nullptr); { IOSTATS_TIMER_GUARD(open_nanos); fd = open(fname.c_str(), flags, 0644); } if (fd < 0) { result = IOError("while open a file for lock", fname, errno); } else if (LockOrUnlock(fd, true) == -1) { // if there is an error in locking, then remove the pathname from lockedfiles lockedFiles.erase(fname); result = IOError("While lock file", fname, errno); close(fd); } else { SetFD_CLOEXEC(fd, nullptr); PosixFileLock* my_lock = new PosixFileLock; my_lock->fd_ = fd; my_lock->filename = fname; *lock = my_lock; } mutex_lockedFiles.Unlock(); return result; } virtual Status UnlockFile(FileLock* lock) override { PosixFileLock* my_lock = reinterpret_cast(lock); Status result; mutex_lockedFiles.Lock(); // If we are unlocking, then verify that we had locked it earlier, // it should already exist in lockedFiles. Remove it from lockedFiles. if (lockedFiles.erase(my_lock->filename) != 1) { errno = ENOLCK; result = IOError("unlock", my_lock->filename, errno); } else if (LockOrUnlock(my_lock->fd_, false) == -1) { result = IOError("unlock", my_lock->filename, errno); } close(my_lock->fd_); delete my_lock; mutex_lockedFiles.Unlock(); return result; } virtual void Schedule(void (*function)(void* arg1), void* arg, Priority pri = LOW, void* tag = nullptr, void (*unschedFunction)(void* arg) = nullptr) override; virtual int UnSchedule(void* arg, Priority pri) override; virtual void StartThread(void (*function)(void* arg), void* arg) override; virtual void WaitForJoin() override; virtual unsigned int GetThreadPoolQueueLen(Priority pri = LOW) const override; virtual Status GetTestDirectory(std::string* result) override { const char* env = getenv("TEST_TMPDIR"); if (env && env[0] != '\0') { *result = env; } else { char buf[100]; snprintf(buf, sizeof(buf), "/tmp/rocksdbtest-%d", int(geteuid())); *result = buf; } // Directory may already exist CreateDir(*result); return Status::OK(); } virtual Status GetThreadList( std::vector* thread_list) override { assert(thread_status_updater_); return thread_status_updater_->GetThreadList(thread_list); } static uint64_t gettid(pthread_t tid) { uint64_t thread_id = 0; memcpy(&thread_id, &tid, std::min(sizeof(thread_id), sizeof(tid))); return thread_id; } static uint64_t gettid() { pthread_t tid = pthread_self(); return gettid(tid); } virtual uint64_t GetThreadID() const override { return gettid(pthread_self()); } virtual Status GetFreeSpace(const std::string& fname, uint64_t* free_space) override { struct statvfs sbuf; if (statvfs(fname.c_str(), &sbuf) < 0) { return IOError("While doing statvfs", fname, errno); } *free_space = ((uint64_t)sbuf.f_bsize * sbuf.f_bfree); return Status::OK(); } virtual Status NewLogger(const std::string& fname, shared_ptr* result) override { FILE* f; { IOSTATS_TIMER_GUARD(open_nanos); f = fopen(fname.c_str(), "w" #ifdef __GLIBC_PREREQ #if __GLIBC_PREREQ(2, 7) "e" // glibc extension to enable O_CLOEXEC #endif #endif ); } if (f == nullptr) { result->reset(); return IOError("when fopen a file for new logger", fname, errno); } else { int fd = fileno(f); #ifdef ROCKSDB_FALLOCATE_PRESENT fallocate(fd, FALLOC_FL_KEEP_SIZE, 0, 4 * 1024); #endif SetFD_CLOEXEC(fd, nullptr); result->reset(new PosixLogger(f, &PosixEnv::gettid, this)); return Status::OK(); } } virtual uint64_t NowMicros() override { struct timeval tv; gettimeofday(&tv, nullptr); return static_cast(tv.tv_sec) * 1000000 + tv.tv_usec; } virtual uint64_t NowNanos() override { #if defined(OS_LINUX) || defined(OS_FREEBSD) || defined(OS_AIX) struct timespec ts; clock_gettime(CLOCK_MONOTONIC, &ts); return static_cast(ts.tv_sec) * 1000000000 + ts.tv_nsec; #elif defined(OS_SOLARIS) return gethrtime(); #elif defined(__MACH__) clock_serv_t cclock; mach_timespec_t ts; host_get_clock_service(mach_host_self(), CALENDAR_CLOCK, &cclock); clock_get_time(cclock, &ts); mach_port_deallocate(mach_task_self(), cclock); return static_cast(ts.tv_sec) * 1000000000 + ts.tv_nsec; #else return std::chrono::duration_cast( std::chrono::steady_clock::now().time_since_epoch()).count(); #endif } virtual void SleepForMicroseconds(int micros) override { usleep(micros); } virtual Status GetHostName(char* name, uint64_t len) override { int ret = gethostname(name, static_cast(len)); if (ret < 0) { if (errno == EFAULT || errno == EINVAL) return Status::InvalidArgument(strerror(errno)); else return IOError("GetHostName", name, errno); } return Status::OK(); } virtual Status GetCurrentTime(int64_t* unix_time) override { time_t ret = time(nullptr); if (ret == (time_t) -1) { return IOError("GetCurrentTime", "", errno); } *unix_time = (int64_t) ret; return Status::OK(); } virtual Status GetAbsolutePath(const std::string& db_path, std::string* output_path) override { if (!db_path.empty() && db_path[0] == '/') { *output_path = db_path; return Status::OK(); } char the_path[256]; char* ret = getcwd(the_path, 256); if (ret == nullptr) { return Status::IOError(strerror(errno)); } *output_path = ret; return Status::OK(); } // Allow increasing the number of worker threads. virtual void SetBackgroundThreads(int num, Priority pri) override { assert(pri >= Priority::BOTTOM && pri <= Priority::HIGH); thread_pools_[pri].SetBackgroundThreads(num); } virtual int GetBackgroundThreads(Priority pri) override { assert(pri >= Priority::BOTTOM && pri <= Priority::HIGH); return thread_pools_[pri].GetBackgroundThreads(); } virtual Status SetAllowNonOwnerAccess(bool allow_non_owner_access) override { allow_non_owner_access_ = allow_non_owner_access; return Status::OK(); } // Allow increasing the number of worker threads. virtual void IncBackgroundThreadsIfNeeded(int num, Priority pri) override { assert(pri >= Priority::BOTTOM && pri <= Priority::HIGH); thread_pools_[pri].IncBackgroundThreadsIfNeeded(num); } virtual void LowerThreadPoolIOPriority(Priority pool = LOW) override { assert(pool >= Priority::BOTTOM && pool <= Priority::HIGH); #ifdef OS_LINUX thread_pools_[pool].LowerIOPriority(); #else (void)pool; #endif } virtual void LowerThreadPoolCPUPriority(Priority pool = LOW) override { assert(pool >= Priority::BOTTOM && pool <= Priority::HIGH); #ifdef OS_LINUX thread_pools_[pool].LowerCPUPriority(); #else (void)pool; #endif } virtual std::string TimeToString(uint64_t secondsSince1970) override { const time_t seconds = (time_t)secondsSince1970; struct tm t; int maxsize = 64; std::string dummy; dummy.reserve(maxsize); dummy.resize(maxsize); char* p = &dummy[0]; localtime_r(&seconds, &t); snprintf(p, maxsize, "%04d/%02d/%02d-%02d:%02d:%02d ", t.tm_year + 1900, t.tm_mon + 1, t.tm_mday, t.tm_hour, t.tm_min, t.tm_sec); return dummy; } EnvOptions OptimizeForLogWrite(const EnvOptions& env_options, const DBOptions& db_options) const override { EnvOptions optimized = env_options; optimized.use_mmap_writes = false; optimized.use_direct_writes = false; optimized.bytes_per_sync = db_options.wal_bytes_per_sync; // TODO(icanadi) it's faster if fallocate_with_keep_size is false, but it // breaks TransactionLogIteratorStallAtLastRecord unit test. Fix the unit // test and make this false optimized.fallocate_with_keep_size = true; optimized.writable_file_max_buffer_size = db_options.writable_file_max_buffer_size; return optimized; } EnvOptions OptimizeForManifestWrite( const EnvOptions& env_options) const override { EnvOptions optimized = env_options; optimized.use_mmap_writes = false; optimized.use_direct_writes = false; optimized.fallocate_with_keep_size = true; return optimized; } private: bool checkedDiskForMmap_; bool forceMmapOff_; // do we override Env options? // Returns true iff the named directory exists and is a directory. virtual bool DirExists(const std::string& dname) { struct stat statbuf; if (stat(dname.c_str(), &statbuf) == 0) { return S_ISDIR(statbuf.st_mode); } return false; // stat() failed return false } bool SupportsFastAllocate(const std::string& path) { #ifdef ROCKSDB_FALLOCATE_PRESENT struct statfs s; if (statfs(path.c_str(), &s)){ return false; } switch (s.f_type) { case EXT4_SUPER_MAGIC: return true; case XFS_SUPER_MAGIC: return true; case TMPFS_MAGIC: return true; default: return false; } #else (void)path; return false; #endif } size_t page_size_; std::vector thread_pools_; pthread_mutex_t mu_; std::vector threads_to_join_; // If true, allow non owner read access for db files. Otherwise, non-owner // has no access to db files. bool allow_non_owner_access_; }; PosixEnv::PosixEnv() : checkedDiskForMmap_(false), forceMmapOff_(false), page_size_(getpagesize()), thread_pools_(Priority::TOTAL), allow_non_owner_access_(true) { ThreadPoolImpl::PthreadCall("mutex_init", pthread_mutex_init(&mu_, nullptr)); for (int pool_id = 0; pool_id < Env::Priority::TOTAL; ++pool_id) { thread_pools_[pool_id].SetThreadPriority( static_cast(pool_id)); // This allows later initializing the thread-local-env of each thread. thread_pools_[pool_id].SetHostEnv(this); } thread_status_updater_ = CreateThreadStatusUpdater(); } void PosixEnv::Schedule(void (*function)(void* arg1), void* arg, Priority pri, void* tag, void (*unschedFunction)(void* arg)) { assert(pri >= Priority::BOTTOM && pri <= Priority::HIGH); thread_pools_[pri].Schedule(function, arg, tag, unschedFunction); } int PosixEnv::UnSchedule(void* arg, Priority pri) { return thread_pools_[pri].UnSchedule(arg); } unsigned int PosixEnv::GetThreadPoolQueueLen(Priority pri) const { assert(pri >= Priority::BOTTOM && pri <= Priority::HIGH); return thread_pools_[pri].GetQueueLen(); } struct StartThreadState { void (*user_function)(void*); void* arg; }; static void* StartThreadWrapper(void* arg) { StartThreadState* state = reinterpret_cast(arg); state->user_function(state->arg); delete state; return nullptr; } void PosixEnv::StartThread(void (*function)(void* arg), void* arg) { pthread_t t; StartThreadState* state = new StartThreadState; state->user_function = function; state->arg = arg; ThreadPoolImpl::PthreadCall( "start thread", pthread_create(&t, nullptr, &StartThreadWrapper, state)); ThreadPoolImpl::PthreadCall("lock", pthread_mutex_lock(&mu_)); threads_to_join_.push_back(t); ThreadPoolImpl::PthreadCall("unlock", pthread_mutex_unlock(&mu_)); } void PosixEnv::WaitForJoin() { for (const auto tid : threads_to_join_) { pthread_join(tid, nullptr); } threads_to_join_.clear(); } } // namespace std::string Env::GenerateUniqueId() { std::string uuid_file = "/proc/sys/kernel/random/uuid"; Status s = FileExists(uuid_file); if (s.ok()) { std::string uuid; s = ReadFileToString(this, uuid_file, &uuid); if (s.ok()) { return uuid; } } // Could not read uuid_file - generate uuid using "nanos-random" Random64 r(time(nullptr)); uint64_t random_uuid_portion = r.Uniform(std::numeric_limits::max()); uint64_t nanos_uuid_portion = NowNanos(); char uuid2[200]; snprintf(uuid2, 200, "%lx-%lx", (unsigned long)nanos_uuid_portion, (unsigned long)random_uuid_portion); return uuid2; } // // Default Posix Env // Env* Env::Default() { // The following function call initializes the singletons of ThreadLocalPtr // right before the static default_env. This guarantees default_env will // always being destructed before the ThreadLocalPtr singletons get // destructed as C++ guarantees that the destructions of static variables // is in the reverse order of their constructions. // // Since static members are destructed in the reverse order // of their construction, having this call here guarantees that // the destructor of static PosixEnv will go first, then the // the singletons of ThreadLocalPtr. ThreadLocalPtr::InitSingletons(); CompressionContextCache::InitSingleton(); INIT_SYNC_POINT_SINGLETONS(); static PosixEnv default_env; return &default_env; } } // namespace rocksdb rocksdb-5.17.2/env/env_test.cc000066400000000000000000001506261337235545400162100ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #ifndef OS_WIN #include #endif #ifdef ROCKSDB_MALLOC_USABLE_SIZE #ifdef OS_FREEBSD #include #else #include #endif #endif #include #include #include #include #include #ifdef OS_LINUX #include #include #include #include #include #endif #ifdef ROCKSDB_FALLOCATE_PRESENT #include #endif #include "env/env_chroot.h" #include "port/port.h" #include "rocksdb/env.h" #include "util/coding.h" #include "util/log_buffer.h" #include "util/mutexlock.h" #include "util/string_util.h" #include "util/sync_point.h" #include "util/testharness.h" #include "util/testutil.h" #ifdef OS_LINUX static const size_t kPageSize = sysconf(_SC_PAGESIZE); #else static const size_t kPageSize = 4 * 1024; #endif namespace rocksdb { static const int kDelayMicros = 100000; struct Deleter { explicit Deleter(void (*fn)(void*)) : fn_(fn) {} void operator()(void* ptr) { assert(fn_); assert(ptr); (*fn_)(ptr); } void (*fn_)(void*); }; std::unique_ptr NewAligned(const size_t size, const char ch) { char* ptr = nullptr; #ifdef OS_WIN if (nullptr == (ptr = reinterpret_cast(_aligned_malloc(size, kPageSize)))) { return std::unique_ptr(nullptr, Deleter(_aligned_free)); } std::unique_ptr uptr(ptr, Deleter(_aligned_free)); #else if (posix_memalign(reinterpret_cast(&ptr), kPageSize, size) != 0) { return std::unique_ptr(nullptr, Deleter(free)); } std::unique_ptr uptr(ptr, Deleter(free)); #endif memset(uptr.get(), ch, size); return uptr; } class EnvPosixTest : public testing::Test { private: port::Mutex mu_; std::string events_; public: Env* env_; bool direct_io_; EnvPosixTest() : env_(Env::Default()), direct_io_(false) {} }; class EnvPosixTestWithParam : public EnvPosixTest, public ::testing::WithParamInterface> { public: EnvPosixTestWithParam() { std::pair param_pair = GetParam(); env_ = param_pair.first; direct_io_ = param_pair.second; } void WaitThreadPoolsEmpty() { // Wait until the thread pools are empty. while (env_->GetThreadPoolQueueLen(Env::Priority::LOW) != 0) { Env::Default()->SleepForMicroseconds(kDelayMicros); } while (env_->GetThreadPoolQueueLen(Env::Priority::HIGH) != 0) { Env::Default()->SleepForMicroseconds(kDelayMicros); } } ~EnvPosixTestWithParam() { WaitThreadPoolsEmpty(); } }; static void SetBool(void* ptr) { reinterpret_cast*>(ptr)->store(true); } TEST_F(EnvPosixTest, DISABLED_RunImmediately) { for (int pri = Env::BOTTOM; pri < Env::TOTAL; ++pri) { std::atomic called(false); env_->SetBackgroundThreads(1, static_cast(pri)); env_->Schedule(&SetBool, &called, static_cast(pri)); Env::Default()->SleepForMicroseconds(kDelayMicros); ASSERT_TRUE(called.load()); } } TEST_F(EnvPosixTest, RunEventually) { std::atomic called(false); env_->StartThread(&SetBool, &called); env_->WaitForJoin(); ASSERT_TRUE(called.load()); } #ifdef OS_WIN TEST_F(EnvPosixTest, AreFilesSame) { { bool tmp; if (env_->AreFilesSame("", "", &tmp).IsNotSupported()) { fprintf(stderr, "skipping EnvBasicTestWithParam.AreFilesSame due to " "unsupported Env::AreFilesSame\n"); return; } } const EnvOptions soptions; auto* env = Env::Default(); std::string same_file_name = test::PerThreadDBPath(env, "same_file"); std::string same_file_link_name = same_file_name + "_link"; std::unique_ptr same_file; ASSERT_OK(env->NewWritableFile(same_file_name, &same_file, soptions)); same_file->Append("random_data"); ASSERT_OK(same_file->Flush()); same_file.reset(); ASSERT_OK(env->LinkFile(same_file_name, same_file_link_name)); bool result = false; ASSERT_OK(env->AreFilesSame(same_file_name, same_file_link_name, &result)); ASSERT_TRUE(result); } #endif #ifdef OS_LINUX TEST_F(EnvPosixTest, DISABLED_FilePermission) { // Only works for Linux environment if (env_ == Env::Default()) { EnvOptions soptions; std::vector fileNames{ test::PerThreadDBPath(env_, "testfile"), test::PerThreadDBPath(env_, "testfile1")}; unique_ptr wfile; ASSERT_OK(env_->NewWritableFile(fileNames[0], &wfile, soptions)); ASSERT_OK(env_->NewWritableFile(fileNames[1], &wfile, soptions)); wfile.reset(); unique_ptr rwfile; ASSERT_OK(env_->NewRandomRWFile(fileNames[1], &rwfile, soptions)); struct stat sb; for (const auto& filename : fileNames) { if (::stat(filename.c_str(), &sb) == 0) { ASSERT_EQ(sb.st_mode & 0777, 0644); } env_->DeleteFile(filename); } env_->SetAllowNonOwnerAccess(false); ASSERT_OK(env_->NewWritableFile(fileNames[0], &wfile, soptions)); ASSERT_OK(env_->NewWritableFile(fileNames[1], &wfile, soptions)); wfile.reset(); ASSERT_OK(env_->NewRandomRWFile(fileNames[1], &rwfile, soptions)); for (const auto& filename : fileNames) { if (::stat(filename.c_str(), &sb) == 0) { ASSERT_EQ(sb.st_mode & 0777, 0600); } env_->DeleteFile(filename); } } } #endif TEST_F(EnvPosixTest, MemoryMappedFileBuffer) { const int kFileBytes = 1 << 15; // 32 KB std::string expected_data; std::string fname = test::PerThreadDBPath(env_, "testfile"); { unique_ptr wfile; const EnvOptions soptions; ASSERT_OK(env_->NewWritableFile(fname, &wfile, soptions)); Random rnd(301); test::RandomString(&rnd, kFileBytes, &expected_data); ASSERT_OK(wfile->Append(expected_data)); } std::unique_ptr mmap_buffer; Status status = env_->NewMemoryMappedFileBuffer(fname, &mmap_buffer); // it should be supported at least on linux #if !defined(OS_LINUX) if (status.IsNotSupported()) { fprintf(stderr, "skipping EnvPosixTest.MemoryMappedFileBuffer due to " "unsupported Env::NewMemoryMappedFileBuffer\n"); return; } #endif // !defined(OS_LINUX) ASSERT_OK(status); ASSERT_NE(nullptr, mmap_buffer.get()); ASSERT_NE(nullptr, mmap_buffer->GetBase()); ASSERT_EQ(kFileBytes, mmap_buffer->GetLen()); std::string actual_data(reinterpret_cast(mmap_buffer->GetBase()), mmap_buffer->GetLen()); ASSERT_EQ(expected_data, actual_data); } TEST_P(EnvPosixTestWithParam, UnSchedule) { std::atomic called(false); env_->SetBackgroundThreads(1, Env::LOW); /* Block the low priority queue */ test::SleepingBackgroundTask sleeping_task, sleeping_task1; env_->Schedule(&test::SleepingBackgroundTask::DoSleepTask, &sleeping_task, Env::Priority::LOW); /* Schedule another task */ env_->Schedule(&test::SleepingBackgroundTask::DoSleepTask, &sleeping_task1, Env::Priority::LOW, &sleeping_task1); /* Remove it with a different tag */ ASSERT_EQ(0, env_->UnSchedule(&called, Env::Priority::LOW)); /* Remove it from the queue with the right tag */ ASSERT_EQ(1, env_->UnSchedule(&sleeping_task1, Env::Priority::LOW)); // Unblock background thread sleeping_task.WakeUp(); /* Schedule another task */ env_->Schedule(&SetBool, &called); for (int i = 0; i < kDelayMicros; i++) { if (called.load()) { break; } Env::Default()->SleepForMicroseconds(1); } ASSERT_TRUE(called.load()); ASSERT_TRUE(!sleeping_task.IsSleeping() && !sleeping_task1.IsSleeping()); WaitThreadPoolsEmpty(); } // This tests assumes that the last scheduled // task will run last. In fact, in the allotted // sleeping time nothing may actually run or they may // run in any order. The purpose of the test is unclear. #ifndef OS_WIN TEST_P(EnvPosixTestWithParam, RunMany) { std::atomic last_id(0); struct CB { std::atomic* last_id_ptr; // Pointer to shared slot int id; // Order# for the execution of this callback CB(std::atomic* p, int i) : last_id_ptr(p), id(i) {} static void Run(void* v) { CB* cb = reinterpret_cast(v); int cur = cb->last_id_ptr->load(); ASSERT_EQ(cb->id - 1, cur); cb->last_id_ptr->store(cb->id); } }; // Schedule in different order than start time CB cb1(&last_id, 1); CB cb2(&last_id, 2); CB cb3(&last_id, 3); CB cb4(&last_id, 4); env_->Schedule(&CB::Run, &cb1); env_->Schedule(&CB::Run, &cb2); env_->Schedule(&CB::Run, &cb3); env_->Schedule(&CB::Run, &cb4); Env::Default()->SleepForMicroseconds(kDelayMicros); int cur = last_id.load(std::memory_order_acquire); ASSERT_EQ(4, cur); WaitThreadPoolsEmpty(); } #endif struct State { port::Mutex mu; int val; int num_running; }; static void ThreadBody(void* arg) { State* s = reinterpret_cast(arg); s->mu.Lock(); s->val += 1; s->num_running -= 1; s->mu.Unlock(); } TEST_P(EnvPosixTestWithParam, StartThread) { State state; state.val = 0; state.num_running = 3; for (int i = 0; i < 3; i++) { env_->StartThread(&ThreadBody, &state); } while (true) { state.mu.Lock(); int num = state.num_running; state.mu.Unlock(); if (num == 0) { break; } Env::Default()->SleepForMicroseconds(kDelayMicros); } ASSERT_EQ(state.val, 3); WaitThreadPoolsEmpty(); } TEST_P(EnvPosixTestWithParam, TwoPools) { // Data structures to signal tasks to run. port::Mutex mutex; port::CondVar cv(&mutex); bool should_start = false; class CB { public: CB(const std::string& pool_name, int pool_size, port::Mutex* trigger_mu, port::CondVar* trigger_cv, bool* _should_start) : mu_(), num_running_(0), num_finished_(0), pool_size_(pool_size), pool_name_(pool_name), trigger_mu_(trigger_mu), trigger_cv_(trigger_cv), should_start_(_should_start) {} static void Run(void* v) { CB* cb = reinterpret_cast(v); cb->Run(); } void Run() { { MutexLock l(&mu_); num_running_++; // make sure we don't have more than pool_size_ jobs running. ASSERT_LE(num_running_, pool_size_.load()); } { MutexLock l(trigger_mu_); while (!(*should_start_)) { trigger_cv_->Wait(); } } { MutexLock l(&mu_); num_running_--; num_finished_++; } } int NumFinished() { MutexLock l(&mu_); return num_finished_; } void Reset(int pool_size) { pool_size_.store(pool_size); num_finished_ = 0; } private: port::Mutex mu_; int num_running_; int num_finished_; std::atomic pool_size_; std::string pool_name_; port::Mutex* trigger_mu_; port::CondVar* trigger_cv_; bool* should_start_; }; const int kLowPoolSize = 2; const int kHighPoolSize = 4; const int kJobs = 8; CB low_pool_job("low", kLowPoolSize, &mutex, &cv, &should_start); CB high_pool_job("high", kHighPoolSize, &mutex, &cv, &should_start); env_->SetBackgroundThreads(kLowPoolSize); env_->SetBackgroundThreads(kHighPoolSize, Env::Priority::HIGH); ASSERT_EQ(0U, env_->GetThreadPoolQueueLen(Env::Priority::LOW)); ASSERT_EQ(0U, env_->GetThreadPoolQueueLen(Env::Priority::HIGH)); // schedule same number of jobs in each pool for (int i = 0; i < kJobs; i++) { env_->Schedule(&CB::Run, &low_pool_job); env_->Schedule(&CB::Run, &high_pool_job, Env::Priority::HIGH); } // Wait a short while for the jobs to be dispatched. int sleep_count = 0; while ((unsigned int)(kJobs - kLowPoolSize) != env_->GetThreadPoolQueueLen(Env::Priority::LOW) || (unsigned int)(kJobs - kHighPoolSize) != env_->GetThreadPoolQueueLen(Env::Priority::HIGH)) { env_->SleepForMicroseconds(kDelayMicros); if (++sleep_count > 100) { break; } } ASSERT_EQ((unsigned int)(kJobs - kLowPoolSize), env_->GetThreadPoolQueueLen()); ASSERT_EQ((unsigned int)(kJobs - kLowPoolSize), env_->GetThreadPoolQueueLen(Env::Priority::LOW)); ASSERT_EQ((unsigned int)(kJobs - kHighPoolSize), env_->GetThreadPoolQueueLen(Env::Priority::HIGH)); // Trigger jobs to run. { MutexLock l(&mutex); should_start = true; cv.SignalAll(); } // wait for all jobs to finish while (low_pool_job.NumFinished() < kJobs || high_pool_job.NumFinished() < kJobs) { env_->SleepForMicroseconds(kDelayMicros); } ASSERT_EQ(0U, env_->GetThreadPoolQueueLen(Env::Priority::LOW)); ASSERT_EQ(0U, env_->GetThreadPoolQueueLen(Env::Priority::HIGH)); // Hold jobs to schedule; should_start = false; // call IncBackgroundThreadsIfNeeded to two pools. One increasing and // the other decreasing env_->IncBackgroundThreadsIfNeeded(kLowPoolSize - 1, Env::Priority::LOW); env_->IncBackgroundThreadsIfNeeded(kHighPoolSize + 1, Env::Priority::HIGH); high_pool_job.Reset(kHighPoolSize + 1); low_pool_job.Reset(kLowPoolSize); // schedule same number of jobs in each pool for (int i = 0; i < kJobs; i++) { env_->Schedule(&CB::Run, &low_pool_job); env_->Schedule(&CB::Run, &high_pool_job, Env::Priority::HIGH); } // Wait a short while for the jobs to be dispatched. sleep_count = 0; while ((unsigned int)(kJobs - kLowPoolSize) != env_->GetThreadPoolQueueLen(Env::Priority::LOW) || (unsigned int)(kJobs - (kHighPoolSize + 1)) != env_->GetThreadPoolQueueLen(Env::Priority::HIGH)) { env_->SleepForMicroseconds(kDelayMicros); if (++sleep_count > 100) { break; } } ASSERT_EQ((unsigned int)(kJobs - kLowPoolSize), env_->GetThreadPoolQueueLen()); ASSERT_EQ((unsigned int)(kJobs - kLowPoolSize), env_->GetThreadPoolQueueLen(Env::Priority::LOW)); ASSERT_EQ((unsigned int)(kJobs - (kHighPoolSize + 1)), env_->GetThreadPoolQueueLen(Env::Priority::HIGH)); // Trigger jobs to run. { MutexLock l(&mutex); should_start = true; cv.SignalAll(); } // wait for all jobs to finish while (low_pool_job.NumFinished() < kJobs || high_pool_job.NumFinished() < kJobs) { env_->SleepForMicroseconds(kDelayMicros); } env_->SetBackgroundThreads(kHighPoolSize, Env::Priority::HIGH); WaitThreadPoolsEmpty(); } TEST_P(EnvPosixTestWithParam, DecreaseNumBgThreads) { std::vector tasks(10); // Set number of thread to 1 first. env_->SetBackgroundThreads(1, Env::Priority::HIGH); Env::Default()->SleepForMicroseconds(kDelayMicros); // Schedule 3 tasks. 0 running; Task 1, 2 waiting. for (size_t i = 0; i < 3; i++) { env_->Schedule(&test::SleepingBackgroundTask::DoSleepTask, &tasks[i], Env::Priority::HIGH); Env::Default()->SleepForMicroseconds(kDelayMicros); } ASSERT_EQ(2U, env_->GetThreadPoolQueueLen(Env::Priority::HIGH)); ASSERT_TRUE(tasks[0].IsSleeping()); ASSERT_TRUE(!tasks[1].IsSleeping()); ASSERT_TRUE(!tasks[2].IsSleeping()); // Increase to 2 threads. Task 0, 1 running; 2 waiting env_->SetBackgroundThreads(2, Env::Priority::HIGH); Env::Default()->SleepForMicroseconds(kDelayMicros); ASSERT_EQ(1U, env_->GetThreadPoolQueueLen(Env::Priority::HIGH)); ASSERT_TRUE(tasks[0].IsSleeping()); ASSERT_TRUE(tasks[1].IsSleeping()); ASSERT_TRUE(!tasks[2].IsSleeping()); // Shrink back to 1 thread. Still task 0, 1 running, 2 waiting env_->SetBackgroundThreads(1, Env::Priority::HIGH); Env::Default()->SleepForMicroseconds(kDelayMicros); ASSERT_EQ(1U, env_->GetThreadPoolQueueLen(Env::Priority::HIGH)); ASSERT_TRUE(tasks[0].IsSleeping()); ASSERT_TRUE(tasks[1].IsSleeping()); ASSERT_TRUE(!tasks[2].IsSleeping()); // The last task finishes. Task 0 running, 2 waiting. tasks[1].WakeUp(); Env::Default()->SleepForMicroseconds(kDelayMicros); ASSERT_EQ(1U, env_->GetThreadPoolQueueLen(Env::Priority::HIGH)); ASSERT_TRUE(tasks[0].IsSleeping()); ASSERT_TRUE(!tasks[1].IsSleeping()); ASSERT_TRUE(!tasks[2].IsSleeping()); // Increase to 5 threads. Task 0 and 2 running. env_->SetBackgroundThreads(5, Env::Priority::HIGH); Env::Default()->SleepForMicroseconds(kDelayMicros); ASSERT_EQ((unsigned int)0, env_->GetThreadPoolQueueLen(Env::Priority::HIGH)); ASSERT_TRUE(tasks[0].IsSleeping()); ASSERT_TRUE(tasks[2].IsSleeping()); // Change number of threads a couple of times while there is no sufficient // tasks. env_->SetBackgroundThreads(7, Env::Priority::HIGH); Env::Default()->SleepForMicroseconds(kDelayMicros); tasks[2].WakeUp(); ASSERT_EQ(0U, env_->GetThreadPoolQueueLen(Env::Priority::HIGH)); env_->SetBackgroundThreads(3, Env::Priority::HIGH); Env::Default()->SleepForMicroseconds(kDelayMicros); ASSERT_EQ(0U, env_->GetThreadPoolQueueLen(Env::Priority::HIGH)); env_->SetBackgroundThreads(4, Env::Priority::HIGH); Env::Default()->SleepForMicroseconds(kDelayMicros); ASSERT_EQ(0U, env_->GetThreadPoolQueueLen(Env::Priority::HIGH)); env_->SetBackgroundThreads(5, Env::Priority::HIGH); Env::Default()->SleepForMicroseconds(kDelayMicros); ASSERT_EQ(0U, env_->GetThreadPoolQueueLen(Env::Priority::HIGH)); env_->SetBackgroundThreads(4, Env::Priority::HIGH); Env::Default()->SleepForMicroseconds(kDelayMicros); ASSERT_EQ(0U, env_->GetThreadPoolQueueLen(Env::Priority::HIGH)); Env::Default()->SleepForMicroseconds(kDelayMicros * 50); // Enqueue 5 more tasks. Thread pool size now is 4. // Task 0, 3, 4, 5 running;6, 7 waiting. for (size_t i = 3; i < 8; i++) { env_->Schedule(&test::SleepingBackgroundTask::DoSleepTask, &tasks[i], Env::Priority::HIGH); } Env::Default()->SleepForMicroseconds(kDelayMicros); ASSERT_EQ(2U, env_->GetThreadPoolQueueLen(Env::Priority::HIGH)); ASSERT_TRUE(tasks[3].IsSleeping()); ASSERT_TRUE(tasks[4].IsSleeping()); ASSERT_TRUE(tasks[5].IsSleeping()); ASSERT_TRUE(!tasks[6].IsSleeping()); ASSERT_TRUE(!tasks[7].IsSleeping()); // Wake up task 0, 3 and 4. Task 5, 6, 7 running. tasks[0].WakeUp(); tasks[3].WakeUp(); tasks[4].WakeUp(); Env::Default()->SleepForMicroseconds(kDelayMicros); ASSERT_EQ((unsigned int)0, env_->GetThreadPoolQueueLen(Env::Priority::HIGH)); for (size_t i = 5; i < 8; i++) { ASSERT_TRUE(tasks[i].IsSleeping()); } // Shrink back to 1 thread. Still task 5, 6, 7 running env_->SetBackgroundThreads(1, Env::Priority::HIGH); Env::Default()->SleepForMicroseconds(kDelayMicros); ASSERT_TRUE(tasks[5].IsSleeping()); ASSERT_TRUE(tasks[6].IsSleeping()); ASSERT_TRUE(tasks[7].IsSleeping()); // Wake up task 6. Task 5, 7 running tasks[6].WakeUp(); Env::Default()->SleepForMicroseconds(kDelayMicros); ASSERT_TRUE(tasks[5].IsSleeping()); ASSERT_TRUE(!tasks[6].IsSleeping()); ASSERT_TRUE(tasks[7].IsSleeping()); // Wake up threads 7. Task 5 running tasks[7].WakeUp(); Env::Default()->SleepForMicroseconds(kDelayMicros); ASSERT_TRUE(!tasks[7].IsSleeping()); // Enqueue thread 8 and 9. Task 5 running; one of 8, 9 might be running. env_->Schedule(&test::SleepingBackgroundTask::DoSleepTask, &tasks[8], Env::Priority::HIGH); env_->Schedule(&test::SleepingBackgroundTask::DoSleepTask, &tasks[9], Env::Priority::HIGH); Env::Default()->SleepForMicroseconds(kDelayMicros); ASSERT_GT(env_->GetThreadPoolQueueLen(Env::Priority::HIGH), (unsigned int)0); ASSERT_TRUE(!tasks[8].IsSleeping() || !tasks[9].IsSleeping()); // Increase to 4 threads. Task 5, 8, 9 running. env_->SetBackgroundThreads(4, Env::Priority::HIGH); Env::Default()->SleepForMicroseconds(kDelayMicros); ASSERT_EQ((unsigned int)0, env_->GetThreadPoolQueueLen(Env::Priority::HIGH)); ASSERT_TRUE(tasks[8].IsSleeping()); ASSERT_TRUE(tasks[9].IsSleeping()); // Shrink to 1 thread env_->SetBackgroundThreads(1, Env::Priority::HIGH); // Wake up thread 9. tasks[9].WakeUp(); Env::Default()->SleepForMicroseconds(kDelayMicros); ASSERT_TRUE(!tasks[9].IsSleeping()); ASSERT_TRUE(tasks[8].IsSleeping()); // Wake up thread 8 tasks[8].WakeUp(); Env::Default()->SleepForMicroseconds(kDelayMicros); ASSERT_TRUE(!tasks[8].IsSleeping()); // Wake up the last thread tasks[5].WakeUp(); Env::Default()->SleepForMicroseconds(kDelayMicros); ASSERT_TRUE(!tasks[5].IsSleeping()); WaitThreadPoolsEmpty(); } #if (defined OS_LINUX || defined OS_WIN) // Travis doesn't support fallocate or getting unique ID from files for whatever // reason. #ifndef TRAVIS namespace { bool IsSingleVarint(const std::string& s) { Slice slice(s); uint64_t v; if (!GetVarint64(&slice, &v)) { return false; } return slice.size() == 0; } bool IsUniqueIDValid(const std::string& s) { return !s.empty() && !IsSingleVarint(s); } const size_t MAX_ID_SIZE = 100; char temp_id[MAX_ID_SIZE]; } // namespace // Determine whether we can use the FS_IOC_GETVERSION ioctl // on a file in directory DIR. Create a temporary file therein, // try to apply the ioctl (save that result), cleanup and // return the result. Return true if it is supported, and // false if anything fails. // Note that this function "knows" that dir has just been created // and is empty, so we create a simply-named test file: "f". bool ioctl_support__FS_IOC_GETVERSION(const std::string& dir) { #ifdef OS_WIN return true; #else const std::string file = dir + "/f"; int fd; do { fd = open(file.c_str(), O_CREAT | O_RDWR | O_TRUNC, 0644); } while (fd < 0 && errno == EINTR); long int version; bool ok = (fd >= 0 && ioctl(fd, FS_IOC_GETVERSION, &version) >= 0); close(fd); unlink(file.c_str()); return ok; #endif } // To ensure that Env::GetUniqueId-related tests work correctly, the files // should be stored in regular storage like "hard disk" or "flash device", // and not on a tmpfs file system (like /dev/shm and /tmp on some systems). // Otherwise we cannot get the correct id. // // This function serves as the replacement for test::TmpDir(), which may be // customized to be on a file system that doesn't work with GetUniqueId(). class IoctlFriendlyTmpdir { public: explicit IoctlFriendlyTmpdir() { char dir_buf[100]; const char *fmt = "%s/rocksdb.XXXXXX"; const char *tmp = getenv("TEST_IOCTL_FRIENDLY_TMPDIR"); #ifdef OS_WIN #define rmdir _rmdir if(tmp == nullptr) { tmp = getenv("TMP"); } snprintf(dir_buf, sizeof dir_buf, fmt, tmp); auto result = _mktemp(dir_buf); assert(result != nullptr); BOOL ret = CreateDirectory(dir_buf, NULL); assert(ret == TRUE); dir_ = dir_buf; #else std::list candidate_dir_list = {"/var/tmp", "/tmp"}; // If $TEST_IOCTL_FRIENDLY_TMPDIR/rocksdb.XXXXXX fits, use // $TEST_IOCTL_FRIENDLY_TMPDIR; subtract 2 for the "%s", and // add 1 for the trailing NUL byte. if (tmp && strlen(tmp) + strlen(fmt) - 2 + 1 <= sizeof dir_buf) { // use $TEST_IOCTL_FRIENDLY_TMPDIR value candidate_dir_list.push_front(tmp); } for (const std::string& d : candidate_dir_list) { snprintf(dir_buf, sizeof dir_buf, fmt, d.c_str()); if (mkdtemp(dir_buf)) { if (ioctl_support__FS_IOC_GETVERSION(dir_buf)) { dir_ = dir_buf; return; } else { // Diagnose ioctl-related failure only if this is the // directory specified via that envvar. if (tmp && tmp == d) { fprintf(stderr, "TEST_IOCTL_FRIENDLY_TMPDIR-specified directory is " "not suitable: %s\n", d.c_str()); } rmdir(dir_buf); // ignore failure } } else { // mkdtemp failed: diagnose it, but don't give up. fprintf(stderr, "mkdtemp(%s/...) failed: %s\n", d.c_str(), strerror(errno)); } } fprintf(stderr, "failed to find an ioctl-friendly temporary directory;" " specify one via the TEST_IOCTL_FRIENDLY_TMPDIR envvar\n"); std::abort(); #endif } ~IoctlFriendlyTmpdir() { rmdir(dir_.c_str()); } const std::string& name() const { return dir_; } private: std::string dir_; }; #ifndef ROCKSDB_LITE TEST_F(EnvPosixTest, PositionedAppend) { unique_ptr writable_file; EnvOptions options; options.use_direct_writes = true; options.use_mmap_writes = false; IoctlFriendlyTmpdir ift; ASSERT_OK(env_->NewWritableFile(ift.name() + "/f", &writable_file, options)); const size_t kBlockSize = 4096; const size_t kDataSize = kPageSize; // Write a page worth of 'a' auto data_ptr = NewAligned(kDataSize, 'a'); Slice data_a(data_ptr.get(), kDataSize); ASSERT_OK(writable_file->PositionedAppend(data_a, 0U)); // Write a page worth of 'b' right after the first sector data_ptr = NewAligned(kDataSize, 'b'); Slice data_b(data_ptr.get(), kDataSize); ASSERT_OK(writable_file->PositionedAppend(data_b, kBlockSize)); ASSERT_OK(writable_file->Close()); // The file now has 1 sector worth of a followed by a page worth of b // Verify the above unique_ptr seq_file; ASSERT_OK(env_->NewSequentialFile(ift.name() + "/f", &seq_file, options)); char scratch[kPageSize * 2]; Slice result; ASSERT_OK(seq_file->Read(sizeof(scratch), &result, scratch)); ASSERT_EQ(kPageSize + kBlockSize, result.size()); ASSERT_EQ('a', result[kBlockSize - 1]); ASSERT_EQ('b', result[kBlockSize]); } #endif // !ROCKSDB_LITE // Only works in linux platforms TEST_P(EnvPosixTestWithParam, RandomAccessUniqueID) { // Create file. if (env_ == Env::Default()) { EnvOptions soptions; soptions.use_direct_reads = soptions.use_direct_writes = direct_io_; IoctlFriendlyTmpdir ift; std::string fname = ift.name() + "/testfile"; unique_ptr wfile; ASSERT_OK(env_->NewWritableFile(fname, &wfile, soptions)); unique_ptr file; // Get Unique ID ASSERT_OK(env_->NewRandomAccessFile(fname, &file, soptions)); size_t id_size = file->GetUniqueId(temp_id, MAX_ID_SIZE); ASSERT_TRUE(id_size > 0); std::string unique_id1(temp_id, id_size); ASSERT_TRUE(IsUniqueIDValid(unique_id1)); // Get Unique ID again ASSERT_OK(env_->NewRandomAccessFile(fname, &file, soptions)); id_size = file->GetUniqueId(temp_id, MAX_ID_SIZE); ASSERT_TRUE(id_size > 0); std::string unique_id2(temp_id, id_size); ASSERT_TRUE(IsUniqueIDValid(unique_id2)); // Get Unique ID again after waiting some time. env_->SleepForMicroseconds(1000000); ASSERT_OK(env_->NewRandomAccessFile(fname, &file, soptions)); id_size = file->GetUniqueId(temp_id, MAX_ID_SIZE); ASSERT_TRUE(id_size > 0); std::string unique_id3(temp_id, id_size); ASSERT_TRUE(IsUniqueIDValid(unique_id3)); // Check IDs are the same. ASSERT_EQ(unique_id1, unique_id2); ASSERT_EQ(unique_id2, unique_id3); // Delete the file env_->DeleteFile(fname); } } // only works in linux platforms #ifdef ROCKSDB_FALLOCATE_PRESENT TEST_P(EnvPosixTestWithParam, AllocateTest) { if (env_ == Env::Default()) { IoctlFriendlyTmpdir ift; std::string fname = ift.name() + "/preallocate_testfile"; // Try fallocate in a file to see whether the target file system supports // it. // Skip the test if fallocate is not supported. std::string fname_test_fallocate = ift.name() + "/preallocate_testfile_2"; int fd = -1; do { fd = open(fname_test_fallocate.c_str(), O_CREAT | O_RDWR | O_TRUNC, 0644); } while (fd < 0 && errno == EINTR); ASSERT_GT(fd, 0); int alloc_status = fallocate(fd, 0, 0, 1); int err_number = 0; if (alloc_status != 0) { err_number = errno; fprintf(stderr, "Warning: fallocate() fails, %s\n", strerror(err_number)); } close(fd); ASSERT_OK(env_->DeleteFile(fname_test_fallocate)); if (alloc_status != 0 && err_number == EOPNOTSUPP) { // The filesystem containing the file does not support fallocate return; } EnvOptions soptions; soptions.use_mmap_writes = false; soptions.use_direct_reads = soptions.use_direct_writes = direct_io_; unique_ptr wfile; ASSERT_OK(env_->NewWritableFile(fname, &wfile, soptions)); // allocate 100 MB size_t kPreallocateSize = 100 * 1024 * 1024; size_t kBlockSize = 512; size_t kPageSize = 4096; size_t kDataSize = 1024 * 1024; auto data_ptr = NewAligned(kDataSize, 'A'); Slice data(data_ptr.get(), kDataSize); wfile->SetPreallocationBlockSize(kPreallocateSize); wfile->PrepareWrite(wfile->GetFileSize(), kDataSize); ASSERT_OK(wfile->Append(data)); ASSERT_OK(wfile->Flush()); struct stat f_stat; ASSERT_EQ(stat(fname.c_str(), &f_stat), 0); ASSERT_EQ((unsigned int)kDataSize, f_stat.st_size); // verify that blocks are preallocated // Note here that we don't check the exact number of blocks preallocated -- // we only require that number of allocated blocks is at least what we // expect. // It looks like some FS give us more blocks that we asked for. That's fine. // It might be worth investigating further. ASSERT_LE((unsigned int)(kPreallocateSize / kBlockSize), f_stat.st_blocks); // close the file, should deallocate the blocks wfile.reset(); stat(fname.c_str(), &f_stat); ASSERT_EQ((unsigned int)kDataSize, f_stat.st_size); // verify that preallocated blocks were deallocated on file close // Because the FS might give us more blocks, we add a full page to the size // and expect the number of blocks to be less or equal to that. ASSERT_GE((f_stat.st_size + kPageSize + kBlockSize - 1) / kBlockSize, (unsigned int)f_stat.st_blocks); } } #endif // ROCKSDB_FALLOCATE_PRESENT // Returns true if any of the strings in ss are the prefix of another string. bool HasPrefix(const std::unordered_set& ss) { for (const std::string& s: ss) { if (s.empty()) { return true; } for (size_t i = 1; i < s.size(); ++i) { if (ss.count(s.substr(0, i)) != 0) { return true; } } } return false; } // Only works in linux and WIN platforms TEST_P(EnvPosixTestWithParam, RandomAccessUniqueIDConcurrent) { if (env_ == Env::Default()) { // Check whether a bunch of concurrently existing files have unique IDs. EnvOptions soptions; soptions.use_direct_reads = soptions.use_direct_writes = direct_io_; // Create the files IoctlFriendlyTmpdir ift; std::vector fnames; for (int i = 0; i < 1000; ++i) { fnames.push_back(ift.name() + "/" + "testfile" + ToString(i)); // Create file. unique_ptr wfile; ASSERT_OK(env_->NewWritableFile(fnames[i], &wfile, soptions)); } // Collect and check whether the IDs are unique. std::unordered_set ids; for (const std::string fname : fnames) { unique_ptr file; std::string unique_id; ASSERT_OK(env_->NewRandomAccessFile(fname, &file, soptions)); size_t id_size = file->GetUniqueId(temp_id, MAX_ID_SIZE); ASSERT_TRUE(id_size > 0); unique_id = std::string(temp_id, id_size); ASSERT_TRUE(IsUniqueIDValid(unique_id)); ASSERT_TRUE(ids.count(unique_id) == 0); ids.insert(unique_id); } // Delete the files for (const std::string fname : fnames) { ASSERT_OK(env_->DeleteFile(fname)); } ASSERT_TRUE(!HasPrefix(ids)); } } // Only works in linux and WIN platforms TEST_P(EnvPosixTestWithParam, RandomAccessUniqueIDDeletes) { if (env_ == Env::Default()) { EnvOptions soptions; soptions.use_direct_reads = soptions.use_direct_writes = direct_io_; IoctlFriendlyTmpdir ift; std::string fname = ift.name() + "/" + "testfile"; // Check that after file is deleted we don't get same ID again in a new // file. std::unordered_set ids; for (int i = 0; i < 1000; ++i) { // Create file. { unique_ptr wfile; ASSERT_OK(env_->NewWritableFile(fname, &wfile, soptions)); } // Get Unique ID std::string unique_id; { unique_ptr file; ASSERT_OK(env_->NewRandomAccessFile(fname, &file, soptions)); size_t id_size = file->GetUniqueId(temp_id, MAX_ID_SIZE); ASSERT_TRUE(id_size > 0); unique_id = std::string(temp_id, id_size); } ASSERT_TRUE(IsUniqueIDValid(unique_id)); ASSERT_TRUE(ids.count(unique_id) == 0); ids.insert(unique_id); // Delete the file ASSERT_OK(env_->DeleteFile(fname)); } ASSERT_TRUE(!HasPrefix(ids)); } } // Only works in linux platforms #ifdef OS_WIN TEST_P(EnvPosixTestWithParam, DISABLED_InvalidateCache) { #else TEST_P(EnvPosixTestWithParam, InvalidateCache) { #endif rocksdb::SyncPoint::GetInstance()->EnableProcessing(); EnvOptions soptions; soptions.use_direct_reads = soptions.use_direct_writes = direct_io_; std::string fname = test::PerThreadDBPath(env_, "testfile"); const size_t kSectorSize = 512; auto data = NewAligned(kSectorSize, 0); Slice slice(data.get(), kSectorSize); // Create file. { unique_ptr wfile; #if !defined(OS_MACOSX) && !defined(OS_WIN) && !defined(OS_SOLARIS) && !defined(OS_AIX) if (soptions.use_direct_writes) { soptions.use_direct_writes = false; } #endif ASSERT_OK(env_->NewWritableFile(fname, &wfile, soptions)); ASSERT_OK(wfile->Append(slice)); ASSERT_OK(wfile->InvalidateCache(0, 0)); ASSERT_OK(wfile->Close()); } // Random Read { unique_ptr file; auto scratch = NewAligned(kSectorSize, 0); Slice result; #if !defined(OS_MACOSX) && !defined(OS_WIN) && !defined(OS_SOLARIS) && !defined(OS_AIX) if (soptions.use_direct_reads) { soptions.use_direct_reads = false; } #endif ASSERT_OK(env_->NewRandomAccessFile(fname, &file, soptions)); ASSERT_OK(file->Read(0, kSectorSize, &result, scratch.get())); ASSERT_EQ(memcmp(scratch.get(), data.get(), kSectorSize), 0); ASSERT_OK(file->InvalidateCache(0, 11)); ASSERT_OK(file->InvalidateCache(0, 0)); } // Sequential Read { unique_ptr file; auto scratch = NewAligned(kSectorSize, 0); Slice result; #if !defined(OS_MACOSX) && !defined(OS_WIN) && !defined(OS_SOLARIS) && !defined(OS_AIX) if (soptions.use_direct_reads) { soptions.use_direct_reads = false; } #endif ASSERT_OK(env_->NewSequentialFile(fname, &file, soptions)); if (file->use_direct_io()) { ASSERT_OK(file->PositionedRead(0, kSectorSize, &result, scratch.get())); } else { ASSERT_OK(file->Read(kSectorSize, &result, scratch.get())); } ASSERT_EQ(memcmp(scratch.get(), data.get(), kSectorSize), 0); ASSERT_OK(file->InvalidateCache(0, 11)); ASSERT_OK(file->InvalidateCache(0, 0)); } // Delete the file ASSERT_OK(env_->DeleteFile(fname)); rocksdb::SyncPoint::GetInstance()->ClearTrace(); } #endif // not TRAVIS #endif // OS_LINUX || OS_WIN class TestLogger : public Logger { public: using Logger::Logv; virtual void Logv(const char* format, va_list ap) override { log_count++; char new_format[550]; std::fill_n(new_format, sizeof(new_format), '2'); { va_list backup_ap; va_copy(backup_ap, ap); int n = vsnprintf(new_format, sizeof(new_format) - 1, format, backup_ap); // 48 bytes for extra information + bytes allocated // When we have n == -1 there is not a terminating zero expected #ifdef OS_WIN if (n < 0) { char_0_count++; } #endif if (new_format[0] == '[') { // "[DEBUG] " ASSERT_TRUE(n <= 56 + (512 - static_cast(sizeof(struct timeval)))); } else { ASSERT_TRUE(n <= 48 + (512 - static_cast(sizeof(struct timeval)))); } va_end(backup_ap); } for (size_t i = 0; i < sizeof(new_format); i++) { if (new_format[i] == 'x') { char_x_count++; } else if (new_format[i] == '\0') { char_0_count++; } } } int log_count; int char_x_count; int char_0_count; }; TEST_P(EnvPosixTestWithParam, LogBufferTest) { TestLogger test_logger; test_logger.SetInfoLogLevel(InfoLogLevel::INFO_LEVEL); test_logger.log_count = 0; test_logger.char_x_count = 0; test_logger.char_0_count = 0; LogBuffer log_buffer(InfoLogLevel::INFO_LEVEL, &test_logger); LogBuffer log_buffer_debug(DEBUG_LEVEL, &test_logger); char bytes200[200]; std::fill_n(bytes200, sizeof(bytes200), '1'); bytes200[sizeof(bytes200) - 1] = '\0'; char bytes600[600]; std::fill_n(bytes600, sizeof(bytes600), '1'); bytes600[sizeof(bytes600) - 1] = '\0'; char bytes9000[9000]; std::fill_n(bytes9000, sizeof(bytes9000), '1'); bytes9000[sizeof(bytes9000) - 1] = '\0'; ROCKS_LOG_BUFFER(&log_buffer, "x%sx", bytes200); ROCKS_LOG_BUFFER(&log_buffer, "x%sx", bytes600); ROCKS_LOG_BUFFER(&log_buffer, "x%sx%sx%sx", bytes200, bytes200, bytes200); ROCKS_LOG_BUFFER(&log_buffer, "x%sx%sx", bytes200, bytes600); ROCKS_LOG_BUFFER(&log_buffer, "x%sx%sx", bytes600, bytes9000); ROCKS_LOG_BUFFER(&log_buffer_debug, "x%sx", bytes200); test_logger.SetInfoLogLevel(DEBUG_LEVEL); ROCKS_LOG_BUFFER(&log_buffer_debug, "x%sx%sx%sx", bytes600, bytes9000, bytes200); ASSERT_EQ(0, test_logger.log_count); log_buffer.FlushBufferToLog(); log_buffer_debug.FlushBufferToLog(); ASSERT_EQ(6, test_logger.log_count); ASSERT_EQ(6, test_logger.char_0_count); ASSERT_EQ(10, test_logger.char_x_count); } class TestLogger2 : public Logger { public: explicit TestLogger2(size_t max_log_size) : max_log_size_(max_log_size) {} using Logger::Logv; virtual void Logv(const char* format, va_list ap) override { char new_format[2000]; std::fill_n(new_format, sizeof(new_format), '2'); { va_list backup_ap; va_copy(backup_ap, ap); int n = vsnprintf(new_format, sizeof(new_format) - 1, format, backup_ap); // 48 bytes for extra information + bytes allocated ASSERT_TRUE( n <= 48 + static_cast(max_log_size_ - sizeof(struct timeval))); ASSERT_TRUE(n > static_cast(max_log_size_ - sizeof(struct timeval))); va_end(backup_ap); } } size_t max_log_size_; }; TEST_P(EnvPosixTestWithParam, LogBufferMaxSizeTest) { char bytes9000[9000]; std::fill_n(bytes9000, sizeof(bytes9000), '1'); bytes9000[sizeof(bytes9000) - 1] = '\0'; for (size_t max_log_size = 256; max_log_size <= 1024; max_log_size += 1024 - 256) { TestLogger2 test_logger(max_log_size); test_logger.SetInfoLogLevel(InfoLogLevel::INFO_LEVEL); LogBuffer log_buffer(InfoLogLevel::INFO_LEVEL, &test_logger); ROCKS_LOG_BUFFER_MAX_SZ(&log_buffer, max_log_size, "%s", bytes9000); log_buffer.FlushBufferToLog(); } } TEST_P(EnvPosixTestWithParam, Preallocation) { rocksdb::SyncPoint::GetInstance()->EnableProcessing(); const std::string src = test::PerThreadDBPath(env_, "testfile"); unique_ptr srcfile; EnvOptions soptions; soptions.use_direct_reads = soptions.use_direct_writes = direct_io_; #if !defined(OS_MACOSX) && !defined(OS_WIN) && !defined(OS_SOLARIS) && !defined(OS_AIX) && !defined(OS_OPENBSD) && !defined(OS_FREEBSD) if (soptions.use_direct_writes) { rocksdb::SyncPoint::GetInstance()->SetCallBack( "NewWritableFile:O_DIRECT", [&](void* arg) { int* val = static_cast(arg); *val &= ~O_DIRECT; }); } #endif ASSERT_OK(env_->NewWritableFile(src, &srcfile, soptions)); srcfile->SetPreallocationBlockSize(1024 * 1024); // No writes should mean no preallocation size_t block_size, last_allocated_block; srcfile->GetPreallocationStatus(&block_size, &last_allocated_block); ASSERT_EQ(last_allocated_block, 0UL); // Small write should preallocate one block size_t kStrSize = 4096; auto data = NewAligned(kStrSize, 'A'); Slice str(data.get(), kStrSize); srcfile->PrepareWrite(srcfile->GetFileSize(), kStrSize); srcfile->Append(str); srcfile->GetPreallocationStatus(&block_size, &last_allocated_block); ASSERT_EQ(last_allocated_block, 1UL); // Write an entire preallocation block, make sure we increased by two. { auto buf_ptr = NewAligned(block_size, ' '); Slice buf(buf_ptr.get(), block_size); srcfile->PrepareWrite(srcfile->GetFileSize(), block_size); srcfile->Append(buf); srcfile->GetPreallocationStatus(&block_size, &last_allocated_block); ASSERT_EQ(last_allocated_block, 2UL); } // Write five more blocks at once, ensure we're where we need to be. { auto buf_ptr = NewAligned(block_size * 5, ' '); Slice buf = Slice(buf_ptr.get(), block_size * 5); srcfile->PrepareWrite(srcfile->GetFileSize(), buf.size()); srcfile->Append(buf); srcfile->GetPreallocationStatus(&block_size, &last_allocated_block); ASSERT_EQ(last_allocated_block, 7UL); } rocksdb::SyncPoint::GetInstance()->ClearTrace(); } // Test that the two ways to get children file attributes (in bulk or // individually) behave consistently. TEST_P(EnvPosixTestWithParam, ConsistentChildrenAttributes) { rocksdb::SyncPoint::GetInstance()->EnableProcessing(); EnvOptions soptions; soptions.use_direct_reads = soptions.use_direct_writes = direct_io_; const int kNumChildren = 10; std::string data; for (int i = 0; i < kNumChildren; ++i) { const std::string path = test::TmpDir(env_) + "/" + "testfile_" + std::to_string(i); unique_ptr file; #if !defined(OS_MACOSX) && !defined(OS_WIN) && !defined(OS_SOLARIS) && !defined(OS_AIX) && !defined(OS_OPENBSD) && !defined(OS_FREEBSD) if (soptions.use_direct_writes) { rocksdb::SyncPoint::GetInstance()->SetCallBack( "NewWritableFile:O_DIRECT", [&](void* arg) { int* val = static_cast(arg); *val &= ~O_DIRECT; }); } #endif ASSERT_OK(env_->NewWritableFile(path, &file, soptions)); auto buf_ptr = NewAligned(data.size(), 'T'); Slice buf(buf_ptr.get(), data.size()); file->Append(buf); data.append(std::string(4096, 'T')); } std::vector file_attrs; ASSERT_OK(env_->GetChildrenFileAttributes(test::TmpDir(env_), &file_attrs)); for (int i = 0; i < kNumChildren; ++i) { const std::string name = "testfile_" + std::to_string(i); const std::string path = test::TmpDir(env_) + "/" + name; auto file_attrs_iter = std::find_if( file_attrs.begin(), file_attrs.end(), [&name](const Env::FileAttributes& fm) { return fm.name == name; }); ASSERT_TRUE(file_attrs_iter != file_attrs.end()); uint64_t size; ASSERT_OK(env_->GetFileSize(path, &size)); ASSERT_EQ(size, 4096 * i); ASSERT_EQ(size, file_attrs_iter->size_bytes); } rocksdb::SyncPoint::GetInstance()->ClearTrace(); } // Test that all WritableFileWrapper forwards all calls to WritableFile. TEST_P(EnvPosixTestWithParam, WritableFileWrapper) { class Base : public WritableFile { public: mutable int *step_; void inc(int x) const { EXPECT_EQ(x, (*step_)++); } explicit Base(int* step) : step_(step) { inc(0); } Status Append(const Slice& /*data*/) override { inc(1); return Status::OK(); } Status Truncate(uint64_t /*size*/) override { return Status::OK(); } Status Close() override { inc(2); return Status::OK(); } Status Flush() override { inc(3); return Status::OK(); } Status Sync() override { inc(4); return Status::OK(); } Status Fsync() override { inc(5); return Status::OK(); } void SetIOPriority(Env::IOPriority /*pri*/) override { inc(6); } uint64_t GetFileSize() override { inc(7); return 0; } void GetPreallocationStatus(size_t* /*block_size*/, size_t* /*last_allocated_block*/) override { inc(8); } size_t GetUniqueId(char* /*id*/, size_t /*max_size*/) const override { inc(9); return 0; } Status InvalidateCache(size_t /*offset*/, size_t /*length*/) override { inc(10); return Status::OK(); } protected: Status Allocate(uint64_t /*offset*/, uint64_t /*len*/) override { inc(11); return Status::OK(); } Status RangeSync(uint64_t /*offset*/, uint64_t /*nbytes*/) override { inc(12); return Status::OK(); } public: ~Base() { inc(13); } }; class Wrapper : public WritableFileWrapper { public: explicit Wrapper(WritableFile* target) : WritableFileWrapper(target) {} void CallProtectedMethods() { Allocate(0, 0); RangeSync(0, 0); } }; int step = 0; { Base b(&step); Wrapper w(&b); w.Append(Slice()); w.Close(); w.Flush(); w.Sync(); w.Fsync(); w.SetIOPriority(Env::IOPriority::IO_HIGH); w.GetFileSize(); w.GetPreallocationStatus(nullptr, nullptr); w.GetUniqueId(nullptr, 0); w.InvalidateCache(0, 0); w.CallProtectedMethods(); } EXPECT_EQ(14, step); } TEST_P(EnvPosixTestWithParam, PosixRandomRWFile) { const std::string path = test::PerThreadDBPath(env_, "random_rw_file"); env_->DeleteFile(path); std::unique_ptr file; // Cannot open non-existing file. ASSERT_NOK(env_->NewRandomRWFile(path, &file, EnvOptions())); // Create the file using WriteableFile { std::unique_ptr wf; ASSERT_OK(env_->NewWritableFile(path, &wf, EnvOptions())); } ASSERT_OK(env_->NewRandomRWFile(path, &file, EnvOptions())); char buf[10000]; Slice read_res; ASSERT_OK(file->Write(0, "ABCD")); ASSERT_OK(file->Read(0, 10, &read_res, buf)); ASSERT_EQ(read_res.ToString(), "ABCD"); ASSERT_OK(file->Write(2, "XXXX")); ASSERT_OK(file->Read(0, 10, &read_res, buf)); ASSERT_EQ(read_res.ToString(), "ABXXXX"); ASSERT_OK(file->Write(10, "ZZZ")); ASSERT_OK(file->Read(10, 10, &read_res, buf)); ASSERT_EQ(read_res.ToString(), "ZZZ"); ASSERT_OK(file->Write(11, "Y")); ASSERT_OK(file->Read(10, 10, &read_res, buf)); ASSERT_EQ(read_res.ToString(), "ZYZ"); ASSERT_OK(file->Write(200, "FFFFF")); ASSERT_OK(file->Read(200, 10, &read_res, buf)); ASSERT_EQ(read_res.ToString(), "FFFFF"); ASSERT_OK(file->Write(205, "XXXX")); ASSERT_OK(file->Read(200, 10, &read_res, buf)); ASSERT_EQ(read_res.ToString(), "FFFFFXXXX"); ASSERT_OK(file->Write(5, "QQQQ")); ASSERT_OK(file->Read(0, 9, &read_res, buf)); ASSERT_EQ(read_res.ToString(), "ABXXXQQQQ"); ASSERT_OK(file->Read(2, 4, &read_res, buf)); ASSERT_EQ(read_res.ToString(), "XXXQ"); // Close file and reopen it file->Close(); ASSERT_OK(env_->NewRandomRWFile(path, &file, EnvOptions())); ASSERT_OK(file->Read(0, 9, &read_res, buf)); ASSERT_EQ(read_res.ToString(), "ABXXXQQQQ"); ASSERT_OK(file->Read(10, 3, &read_res, buf)); ASSERT_EQ(read_res.ToString(), "ZYZ"); ASSERT_OK(file->Read(200, 9, &read_res, buf)); ASSERT_EQ(read_res.ToString(), "FFFFFXXXX"); ASSERT_OK(file->Write(4, "TTTTTTTTTTTTTTTT")); ASSERT_OK(file->Read(0, 10, &read_res, buf)); ASSERT_EQ(read_res.ToString(), "ABXXTTTTTT"); // Clean up env_->DeleteFile(path); } class RandomRWFileWithMirrorString { public: explicit RandomRWFileWithMirrorString(RandomRWFile* _file) : file_(_file) {} void Write(size_t offset, const std::string& data) { // Write to mirror string StringWrite(offset, data); // Write to file Status s = file_->Write(offset, data); ASSERT_OK(s) << s.ToString(); } void Read(size_t offset = 0, size_t n = 1000000) { Slice str_res(nullptr, 0); if (offset < file_mirror_.size()) { size_t str_res_sz = std::min(file_mirror_.size() - offset, n); str_res = Slice(file_mirror_.data() + offset, str_res_sz); StopSliceAtNull(&str_res); } Slice file_res; Status s = file_->Read(offset, n, &file_res, buf_); ASSERT_OK(s) << s.ToString(); StopSliceAtNull(&file_res); ASSERT_EQ(str_res.ToString(), file_res.ToString()) << offset << " " << n; } void SetFile(RandomRWFile* _file) { file_ = _file; } private: void StringWrite(size_t offset, const std::string& src) { if (offset + src.size() > file_mirror_.size()) { file_mirror_.resize(offset + src.size(), '\0'); } char* pos = const_cast(file_mirror_.data() + offset); memcpy(pos, src.data(), src.size()); } void StopSliceAtNull(Slice* slc) { for (size_t i = 0; i < slc->size(); i++) { if ((*slc)[i] == '\0') { *slc = Slice(slc->data(), i); break; } } } char buf_[10000]; RandomRWFile* file_; std::string file_mirror_; }; TEST_P(EnvPosixTestWithParam, PosixRandomRWFileRandomized) { const std::string path = test::PerThreadDBPath(env_, "random_rw_file_rand"); env_->DeleteFile(path); unique_ptr file; #ifdef OS_LINUX // Cannot open non-existing file. ASSERT_NOK(env_->NewRandomRWFile(path, &file, EnvOptions())); #endif // Create the file using WriteableFile { std::unique_ptr wf; ASSERT_OK(env_->NewWritableFile(path, &wf, EnvOptions())); } ASSERT_OK(env_->NewRandomRWFile(path, &file, EnvOptions())); RandomRWFileWithMirrorString file_with_mirror(file.get()); Random rnd(301); std::string buf; for (int i = 0; i < 10000; i++) { // Genrate random data test::RandomString(&rnd, 10, &buf); // Pick random offset for write size_t write_off = rnd.Next() % 1000; file_with_mirror.Write(write_off, buf); // Pick random offset for read size_t read_off = rnd.Next() % 1000; size_t read_sz = rnd.Next() % 20; file_with_mirror.Read(read_off, read_sz); if (i % 500 == 0) { // Reopen the file every 500 iters ASSERT_OK(env_->NewRandomRWFile(path, &file, EnvOptions())); file_with_mirror.SetFile(file.get()); } } // clean up env_->DeleteFile(path); } class TestEnv : public EnvWrapper { public: explicit TestEnv() : EnvWrapper(Env::Default()), close_count(0) { } class TestLogger : public Logger { public: using Logger::Logv; TestLogger(TestEnv* env_ptr) : Logger() { env = env_ptr; } ~TestLogger() { if (!closed_) { CloseHelper(); } } virtual void Logv(const char* /*format*/, va_list /*ap*/) override{}; protected: virtual Status CloseImpl() override { return CloseHelper(); } private: Status CloseHelper() { env->CloseCountInc();; return Status::OK(); } TestEnv* env; }; void CloseCountInc() { close_count++; } int GetCloseCount() { return close_count; } virtual Status NewLogger(const std::string& /*fname*/, shared_ptr* result) { result->reset(new TestLogger(this)); return Status::OK(); } private: int close_count; }; class EnvTest : public testing::Test {}; TEST_F(EnvTest, Close) { TestEnv* env = new TestEnv(); std::shared_ptr logger; Status s; s = env->NewLogger("", &logger); ASSERT_EQ(s, Status::OK()); logger.get()->Close(); ASSERT_EQ(env->GetCloseCount(), 1); // Call Close() again. CloseHelper() should not be called again logger.get()->Close(); ASSERT_EQ(env->GetCloseCount(), 1); logger.reset(); ASSERT_EQ(env->GetCloseCount(), 1); s = env->NewLogger("", &logger); ASSERT_EQ(s, Status::OK()); logger.reset(); ASSERT_EQ(env->GetCloseCount(), 2); delete env; } INSTANTIATE_TEST_CASE_P(DefaultEnvWithoutDirectIO, EnvPosixTestWithParam, ::testing::Values(std::pair(Env::Default(), false))); #if !defined(ROCKSDB_LITE) INSTANTIATE_TEST_CASE_P(DefaultEnvWithDirectIO, EnvPosixTestWithParam, ::testing::Values(std::pair(Env::Default(), true))); #endif // !defined(ROCKSDB_LITE) #if !defined(ROCKSDB_LITE) && !defined(OS_WIN) static unique_ptr chroot_env(NewChrootEnv(Env::Default(), test::TmpDir(Env::Default()))); INSTANTIATE_TEST_CASE_P( ChrootEnvWithoutDirectIO, EnvPosixTestWithParam, ::testing::Values(std::pair(chroot_env.get(), false))); INSTANTIATE_TEST_CASE_P( ChrootEnvWithDirectIO, EnvPosixTestWithParam, ::testing::Values(std::pair(chroot_env.get(), true))); #endif // !defined(ROCKSDB_LITE) && !defined(OS_WIN) } // namespace rocksdb int main(int argc, char** argv) { ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/env/io_posix.cc000066400000000000000000000724071337235545400162120ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #ifdef ROCKSDB_LIB_IO_POSIX #include "env/io_posix.h" #include #include #include #if defined(OS_LINUX) #include #endif #include #include #include #include #include #include #include #ifdef OS_LINUX #include #include #include #endif #include "env/posix_logger.h" #include "monitoring/iostats_context_imp.h" #include "port/port.h" #include "rocksdb/slice.h" #include "util/coding.h" #include "util/string_util.h" #include "util/sync_point.h" #if defined(OS_LINUX) && !defined(F_SET_RW_HINT) #define F_LINUX_SPECIFIC_BASE 1024 #define F_SET_RW_HINT (F_LINUX_SPECIFIC_BASE + 12) #endif namespace rocksdb { // A wrapper for fadvise, if the platform doesn't support fadvise, // it will simply return 0. int Fadvise(int fd, off_t offset, size_t len, int advice) { #ifdef OS_LINUX return posix_fadvise(fd, offset, len, advice); #else (void)fd; (void)offset; (void)len; (void)advice; return 0; // simply do nothing. #endif } namespace { size_t GetLogicalBufferSize(int __attribute__((__unused__)) fd) { #ifdef OS_LINUX struct stat buf; int result = fstat(fd, &buf); if (result == -1) { return kDefaultPageSize; } if (major(buf.st_dev) == 0) { // Unnamed devices (e.g. non-device mounts), reserved as null device number. // These don't have an entry in /sys/dev/block/. Return a sensible default. return kDefaultPageSize; } // Reading queue/logical_block_size does not require special permissions. const int kBufferSize = 100; char path[kBufferSize]; char real_path[PATH_MAX + 1]; snprintf(path, kBufferSize, "/sys/dev/block/%u:%u", major(buf.st_dev), minor(buf.st_dev)); if (realpath(path, real_path) == nullptr) { return kDefaultPageSize; } std::string device_dir(real_path); if (!device_dir.empty() && device_dir.back() == '/') { device_dir.pop_back(); } // NOTE: sda3 does not have a `queue/` subdir, only the parent sda has it. // $ ls -al '/sys/dev/block/8:3' // lrwxrwxrwx. 1 root root 0 Jun 26 01:38 /sys/dev/block/8:3 -> // ../../block/sda/sda3 size_t parent_end = device_dir.rfind('/', device_dir.length() - 1); if (parent_end == std::string::npos) { return kDefaultPageSize; } size_t parent_begin = device_dir.rfind('/', parent_end - 1); if (parent_begin == std::string::npos) { return kDefaultPageSize; } if (device_dir.substr(parent_begin + 1, parent_end - parent_begin - 1) != "block") { device_dir = device_dir.substr(0, parent_end); } std::string fname = device_dir + "/queue/logical_block_size"; FILE* fp; size_t size = 0; fp = fopen(fname.c_str(), "r"); if (fp != nullptr) { char* line = nullptr; size_t len = 0; if (getline(&line, &len, fp) != -1) { sscanf(line, "%zu", &size); } free(line); fclose(fp); } if (size != 0 && (size & (size - 1)) == 0) { return size; } #endif return kDefaultPageSize; } } // namespace /* * DirectIOHelper */ #ifndef NDEBUG namespace { bool IsSectorAligned(const size_t off, size_t sector_size) { return off % sector_size == 0; } bool IsSectorAligned(const void* ptr, size_t sector_size) { return uintptr_t(ptr) % sector_size == 0; } } #endif /* * PosixSequentialFile */ PosixSequentialFile::PosixSequentialFile(const std::string& fname, FILE* file, int fd, const EnvOptions& options) : filename_(fname), file_(file), fd_(fd), use_direct_io_(options.use_direct_reads), logical_sector_size_(GetLogicalBufferSize(fd_)) { assert(!options.use_direct_reads || !options.use_mmap_reads); } PosixSequentialFile::~PosixSequentialFile() { if (!use_direct_io()) { assert(file_); fclose(file_); } else { assert(fd_); close(fd_); } } Status PosixSequentialFile::Read(size_t n, Slice* result, char* scratch) { assert(result != nullptr && !use_direct_io()); Status s; size_t r = 0; do { r = fread_unlocked(scratch, 1, n, file_); } while (r == 0 && ferror(file_) && errno == EINTR); *result = Slice(scratch, r); if (r < n) { if (feof(file_)) { // We leave status as ok if we hit the end of the file // We also clear the error so that the reads can continue // if a new data is written to the file clearerr(file_); } else { // A partial read with an error: return a non-ok status s = IOError("While reading file sequentially", filename_, errno); } } return s; } Status PosixSequentialFile::PositionedRead(uint64_t offset, size_t n, Slice* result, char* scratch) { assert(use_direct_io()); assert(IsSectorAligned(offset, GetRequiredBufferAlignment())); assert(IsSectorAligned(n, GetRequiredBufferAlignment())); assert(IsSectorAligned(scratch, GetRequiredBufferAlignment())); Status s; ssize_t r = -1; size_t left = n; char* ptr = scratch; while (left > 0) { r = pread(fd_, ptr, left, static_cast(offset)); if (r <= 0) { if (r == -1 && errno == EINTR) { continue; } break; } ptr += r; offset += r; left -= r; if (r % static_cast(GetRequiredBufferAlignment()) != 0) { // Bytes reads don't fill sectors. Should only happen at the end // of the file. break; } } if (r < 0) { // An error: return a non-ok status s = IOError( "While pread " + ToString(n) + " bytes from offset " + ToString(offset), filename_, errno); } *result = Slice(scratch, (r < 0) ? 0 : n - left); return s; } Status PosixSequentialFile::Skip(uint64_t n) { if (fseek(file_, static_cast(n), SEEK_CUR)) { return IOError("While fseek to skip " + ToString(n) + " bytes", filename_, errno); } return Status::OK(); } Status PosixSequentialFile::InvalidateCache(size_t offset, size_t length) { #ifndef OS_LINUX (void)offset; (void)length; return Status::OK(); #else if (!use_direct_io()) { // free OS pages int ret = Fadvise(fd_, offset, length, POSIX_FADV_DONTNEED); if (ret != 0) { return IOError("While fadvise NotNeeded offset " + ToString(offset) + " len " + ToString(length), filename_, errno); } } return Status::OK(); #endif } /* * PosixRandomAccessFile */ #if defined(OS_LINUX) size_t PosixHelper::GetUniqueIdFromFile(int fd, char* id, size_t max_size) { if (max_size < kMaxVarint64Length * 3) { return 0; } struct stat buf; int result = fstat(fd, &buf); assert(result != -1); if (result == -1) { return 0; } long version = 0; result = ioctl(fd, FS_IOC_GETVERSION, &version); TEST_SYNC_POINT_CALLBACK("GetUniqueIdFromFile:FS_IOC_GETVERSION", &result); if (result == -1) { return 0; } uint64_t uversion = (uint64_t)version; char* rid = id; rid = EncodeVarint64(rid, buf.st_dev); rid = EncodeVarint64(rid, buf.st_ino); rid = EncodeVarint64(rid, uversion); assert(rid >= id); return static_cast(rid - id); } #endif #if defined(OS_MACOSX) || defined(OS_AIX) size_t PosixHelper::GetUniqueIdFromFile(int fd, char* id, size_t max_size) { if (max_size < kMaxVarint64Length * 3) { return 0; } struct stat buf; int result = fstat(fd, &buf); if (result == -1) { return 0; } char* rid = id; rid = EncodeVarint64(rid, buf.st_dev); rid = EncodeVarint64(rid, buf.st_ino); rid = EncodeVarint64(rid, buf.st_gen); assert(rid >= id); return static_cast(rid - id); } #endif /* * PosixRandomAccessFile * * pread() based random-access */ PosixRandomAccessFile::PosixRandomAccessFile(const std::string& fname, int fd, const EnvOptions& options) : filename_(fname), fd_(fd), use_direct_io_(options.use_direct_reads), logical_sector_size_(GetLogicalBufferSize(fd_)) { assert(!options.use_direct_reads || !options.use_mmap_reads); assert(!options.use_mmap_reads || sizeof(void*) < 8); } PosixRandomAccessFile::~PosixRandomAccessFile() { close(fd_); } Status PosixRandomAccessFile::Read(uint64_t offset, size_t n, Slice* result, char* scratch) const { if (use_direct_io()) { assert(IsSectorAligned(offset, GetRequiredBufferAlignment())); assert(IsSectorAligned(n, GetRequiredBufferAlignment())); assert(IsSectorAligned(scratch, GetRequiredBufferAlignment())); } Status s; ssize_t r = -1; size_t left = n; char* ptr = scratch; while (left > 0) { r = pread(fd_, ptr, left, static_cast(offset)); if (r <= 0) { if (r == -1 && errno == EINTR) { continue; } break; } ptr += r; offset += r; left -= r; if (use_direct_io() && r % static_cast(GetRequiredBufferAlignment()) != 0) { // Bytes reads don't fill sectors. Should only happen at the end // of the file. break; } } if (r < 0) { // An error: return a non-ok status s = IOError( "While pread offset " + ToString(offset) + " len " + ToString(n), filename_, errno); } *result = Slice(scratch, (r < 0) ? 0 : n - left); return s; } Status PosixRandomAccessFile::Prefetch(uint64_t offset, size_t n) { Status s; if (!use_direct_io()) { ssize_t r = 0; #ifdef OS_LINUX r = readahead(fd_, offset, n); #endif #ifdef OS_MACOSX radvisory advice; advice.ra_offset = static_cast(offset); advice.ra_count = static_cast(n); r = fcntl(fd_, F_RDADVISE, &advice); #endif if (r == -1) { s = IOError("While prefetching offset " + ToString(offset) + " len " + ToString(n), filename_, errno); } } return s; } #if defined(OS_LINUX) || defined(OS_MACOSX) || defined(OS_AIX) size_t PosixRandomAccessFile::GetUniqueId(char* id, size_t max_size) const { return PosixHelper::GetUniqueIdFromFile(fd_, id, max_size); } #endif void PosixRandomAccessFile::Hint(AccessPattern pattern) { if (use_direct_io()) { return; } switch (pattern) { case NORMAL: Fadvise(fd_, 0, 0, POSIX_FADV_NORMAL); break; case RANDOM: Fadvise(fd_, 0, 0, POSIX_FADV_RANDOM); break; case SEQUENTIAL: Fadvise(fd_, 0, 0, POSIX_FADV_SEQUENTIAL); break; case WILLNEED: Fadvise(fd_, 0, 0, POSIX_FADV_WILLNEED); break; case DONTNEED: Fadvise(fd_, 0, 0, POSIX_FADV_DONTNEED); break; default: assert(false); break; } } Status PosixRandomAccessFile::InvalidateCache(size_t offset, size_t length) { if (use_direct_io()) { return Status::OK(); } #ifndef OS_LINUX (void)offset; (void)length; return Status::OK(); #else // free OS pages int ret = Fadvise(fd_, offset, length, POSIX_FADV_DONTNEED); if (ret == 0) { return Status::OK(); } return IOError("While fadvise NotNeeded offset " + ToString(offset) + " len " + ToString(length), filename_, errno); #endif } /* * PosixMmapReadableFile * * mmap() based random-access */ // base[0,length-1] contains the mmapped contents of the file. PosixMmapReadableFile::PosixMmapReadableFile(const int fd, const std::string& fname, void* base, size_t length, const EnvOptions& options) : fd_(fd), filename_(fname), mmapped_region_(base), length_(length) { #ifdef NDEBUG (void)options; #endif fd_ = fd_ + 0; // suppress the warning for used variables assert(options.use_mmap_reads); assert(!options.use_direct_reads); } PosixMmapReadableFile::~PosixMmapReadableFile() { int ret = munmap(mmapped_region_, length_); if (ret != 0) { fprintf(stdout, "failed to munmap %p length %" ROCKSDB_PRIszt " \n", mmapped_region_, length_); } close(fd_); } Status PosixMmapReadableFile::Read(uint64_t offset, size_t n, Slice* result, char* /*scratch*/) const { Status s; if (offset > length_) { *result = Slice(); return IOError("While mmap read offset " + ToString(offset) + " larger than file length " + ToString(length_), filename_, EINVAL); } else if (offset + n > length_) { n = static_cast(length_ - offset); } *result = Slice(reinterpret_cast(mmapped_region_) + offset, n); return s; } Status PosixMmapReadableFile::InvalidateCache(size_t offset, size_t length) { #ifndef OS_LINUX (void)offset; (void)length; return Status::OK(); #else // free OS pages int ret = Fadvise(fd_, offset, length, POSIX_FADV_DONTNEED); if (ret == 0) { return Status::OK(); } return IOError("While fadvise not needed. Offset " + ToString(offset) + " len" + ToString(length), filename_, errno); #endif } /* * PosixMmapFile * * We preallocate up to an extra megabyte and use memcpy to append new * data to the file. This is safe since we either properly close the * file before reading from it, or for log files, the reading code * knows enough to skip zero suffixes. */ Status PosixMmapFile::UnmapCurrentRegion() { TEST_KILL_RANDOM("PosixMmapFile::UnmapCurrentRegion:0", rocksdb_kill_odds); if (base_ != nullptr) { int munmap_status = munmap(base_, limit_ - base_); if (munmap_status != 0) { return IOError("While munmap", filename_, munmap_status); } file_offset_ += limit_ - base_; base_ = nullptr; limit_ = nullptr; last_sync_ = nullptr; dst_ = nullptr; // Increase the amount we map the next time, but capped at 1MB if (map_size_ < (1 << 20)) { map_size_ *= 2; } } return Status::OK(); } Status PosixMmapFile::MapNewRegion() { #ifdef ROCKSDB_FALLOCATE_PRESENT assert(base_ == nullptr); TEST_KILL_RANDOM("PosixMmapFile::UnmapCurrentRegion:0", rocksdb_kill_odds); // we can't fallocate with FALLOC_FL_KEEP_SIZE here if (allow_fallocate_) { IOSTATS_TIMER_GUARD(allocate_nanos); int alloc_status = fallocate(fd_, 0, file_offset_, map_size_); if (alloc_status != 0) { // fallback to posix_fallocate alloc_status = posix_fallocate(fd_, file_offset_, map_size_); } if (alloc_status != 0) { return Status::IOError("Error allocating space to file : " + filename_ + "Error : " + strerror(alloc_status)); } } TEST_KILL_RANDOM("PosixMmapFile::Append:1", rocksdb_kill_odds); void* ptr = mmap(nullptr, map_size_, PROT_READ | PROT_WRITE, MAP_SHARED, fd_, file_offset_); if (ptr == MAP_FAILED) { return Status::IOError("MMap failed on " + filename_); } TEST_KILL_RANDOM("PosixMmapFile::Append:2", rocksdb_kill_odds); base_ = reinterpret_cast(ptr); limit_ = base_ + map_size_; dst_ = base_; last_sync_ = base_; return Status::OK(); #else return Status::NotSupported("This platform doesn't support fallocate()"); #endif } Status PosixMmapFile::Msync() { if (dst_ == last_sync_) { return Status::OK(); } // Find the beginnings of the pages that contain the first and last // bytes to be synced. size_t p1 = TruncateToPageBoundary(last_sync_ - base_); size_t p2 = TruncateToPageBoundary(dst_ - base_ - 1); last_sync_ = dst_; TEST_KILL_RANDOM("PosixMmapFile::Msync:0", rocksdb_kill_odds); if (msync(base_ + p1, p2 - p1 + page_size_, MS_SYNC) < 0) { return IOError("While msync", filename_, errno); } return Status::OK(); } PosixMmapFile::PosixMmapFile(const std::string& fname, int fd, size_t page_size, const EnvOptions& options) : filename_(fname), fd_(fd), page_size_(page_size), map_size_(Roundup(65536, page_size)), base_(nullptr), limit_(nullptr), dst_(nullptr), last_sync_(nullptr), file_offset_(0) { #ifdef ROCKSDB_FALLOCATE_PRESENT allow_fallocate_ = options.allow_fallocate; fallocate_with_keep_size_ = options.fallocate_with_keep_size; #else (void)options; #endif assert((page_size & (page_size - 1)) == 0); assert(options.use_mmap_writes); assert(!options.use_direct_writes); } PosixMmapFile::~PosixMmapFile() { if (fd_ >= 0) { PosixMmapFile::Close(); } } Status PosixMmapFile::Append(const Slice& data) { const char* src = data.data(); size_t left = data.size(); while (left > 0) { assert(base_ <= dst_); assert(dst_ <= limit_); size_t avail = limit_ - dst_; if (avail == 0) { Status s = UnmapCurrentRegion(); if (!s.ok()) { return s; } s = MapNewRegion(); if (!s.ok()) { return s; } TEST_KILL_RANDOM("PosixMmapFile::Append:0", rocksdb_kill_odds); } size_t n = (left <= avail) ? left : avail; assert(dst_); memcpy(dst_, src, n); dst_ += n; src += n; left -= n; } return Status::OK(); } Status PosixMmapFile::Close() { Status s; size_t unused = limit_ - dst_; s = UnmapCurrentRegion(); if (!s.ok()) { s = IOError("While closing mmapped file", filename_, errno); } else if (unused > 0) { // Trim the extra space at the end of the file if (ftruncate(fd_, file_offset_ - unused) < 0) { s = IOError("While ftruncating mmaped file", filename_, errno); } } if (close(fd_) < 0) { if (s.ok()) { s = IOError("While closing mmapped file", filename_, errno); } } fd_ = -1; base_ = nullptr; limit_ = nullptr; return s; } Status PosixMmapFile::Flush() { return Status::OK(); } Status PosixMmapFile::Sync() { if (fdatasync(fd_) < 0) { return IOError("While fdatasync mmapped file", filename_, errno); } return Msync(); } /** * Flush data as well as metadata to stable storage. */ Status PosixMmapFile::Fsync() { if (fsync(fd_) < 0) { return IOError("While fsync mmaped file", filename_, errno); } return Msync(); } /** * Get the size of valid data in the file. This will not match the * size that is returned from the filesystem because we use mmap * to extend file by map_size every time. */ uint64_t PosixMmapFile::GetFileSize() { size_t used = dst_ - base_; return file_offset_ + used; } Status PosixMmapFile::InvalidateCache(size_t offset, size_t length) { #ifndef OS_LINUX (void)offset; (void)length; return Status::OK(); #else // free OS pages int ret = Fadvise(fd_, offset, length, POSIX_FADV_DONTNEED); if (ret == 0) { return Status::OK(); } return IOError("While fadvise NotNeeded mmapped file", filename_, errno); #endif } #ifdef ROCKSDB_FALLOCATE_PRESENT Status PosixMmapFile::Allocate(uint64_t offset, uint64_t len) { assert(offset <= std::numeric_limits::max()); assert(len <= std::numeric_limits::max()); TEST_KILL_RANDOM("PosixMmapFile::Allocate:0", rocksdb_kill_odds); int alloc_status = 0; if (allow_fallocate_) { alloc_status = fallocate( fd_, fallocate_with_keep_size_ ? FALLOC_FL_KEEP_SIZE : 0, static_cast(offset), static_cast(len)); } if (alloc_status == 0) { return Status::OK(); } else { return IOError( "While fallocate offset " + ToString(offset) + " len " + ToString(len), filename_, errno); } } #endif /* * PosixWritableFile * * Use posix write to write data to a file. */ PosixWritableFile::PosixWritableFile(const std::string& fname, int fd, const EnvOptions& options) : filename_(fname), use_direct_io_(options.use_direct_writes), fd_(fd), filesize_(0), logical_sector_size_(GetLogicalBufferSize(fd_)) { #ifdef ROCKSDB_FALLOCATE_PRESENT allow_fallocate_ = options.allow_fallocate; fallocate_with_keep_size_ = options.fallocate_with_keep_size; #endif assert(!options.use_mmap_writes); } PosixWritableFile::~PosixWritableFile() { if (fd_ >= 0) { PosixWritableFile::Close(); } } Status PosixWritableFile::Append(const Slice& data) { if (use_direct_io()) { assert(IsSectorAligned(data.size(), GetRequiredBufferAlignment())); assert(IsSectorAligned(data.data(), GetRequiredBufferAlignment())); } const char* src = data.data(); size_t left = data.size(); while (left != 0) { ssize_t done = write(fd_, src, left); if (done < 0) { if (errno == EINTR) { continue; } return IOError("While appending to file", filename_, errno); } left -= done; src += done; } filesize_ += data.size(); return Status::OK(); } Status PosixWritableFile::PositionedAppend(const Slice& data, uint64_t offset) { if (use_direct_io()) { assert(IsSectorAligned(offset, GetRequiredBufferAlignment())); assert(IsSectorAligned(data.size(), GetRequiredBufferAlignment())); assert(IsSectorAligned(data.data(), GetRequiredBufferAlignment())); } assert(offset <= std::numeric_limits::max()); const char* src = data.data(); size_t left = data.size(); while (left != 0) { ssize_t done = pwrite(fd_, src, left, static_cast(offset)); if (done < 0) { if (errno == EINTR) { continue; } return IOError("While pwrite to file at offset " + ToString(offset), filename_, errno); } left -= done; offset += done; src += done; } filesize_ = offset; return Status::OK(); } Status PosixWritableFile::Truncate(uint64_t size) { Status s; int r = ftruncate(fd_, size); if (r < 0) { s = IOError("While ftruncate file to size " + ToString(size), filename_, errno); } else { filesize_ = size; } return s; } Status PosixWritableFile::Close() { Status s; size_t block_size; size_t last_allocated_block; GetPreallocationStatus(&block_size, &last_allocated_block); if (last_allocated_block > 0) { // trim the extra space preallocated at the end of the file // NOTE(ljin): we probably don't want to surface failure as an IOError, // but it will be nice to log these errors. int dummy __attribute__((__unused__)); dummy = ftruncate(fd_, filesize_); #if defined(ROCKSDB_FALLOCATE_PRESENT) && !defined(TRAVIS) // in some file systems, ftruncate only trims trailing space if the // new file size is smaller than the current size. Calling fallocate // with FALLOC_FL_PUNCH_HOLE flag to explicitly release these unused // blocks. FALLOC_FL_PUNCH_HOLE is supported on at least the following // filesystems: // XFS (since Linux 2.6.38) // ext4 (since Linux 3.0) // Btrfs (since Linux 3.7) // tmpfs (since Linux 3.5) // We ignore error since failure of this operation does not affect // correctness. // TRAVIS - this code does not work on TRAVIS filesystems. // the FALLOC_FL_KEEP_SIZE option is expected to not change the size // of the file, but it does. Simple strace report will show that. // While we work with Travis-CI team to figure out if this is a // quirk of Docker/AUFS, we will comment this out. struct stat file_stats; int result = fstat(fd_, &file_stats); // After ftruncate, we check whether ftruncate has the correct behavior. // If not, we should hack it with FALLOC_FL_PUNCH_HOLE if (result == 0 && (file_stats.st_size + file_stats.st_blksize - 1) / file_stats.st_blksize != file_stats.st_blocks / (file_stats.st_blksize / 512)) { IOSTATS_TIMER_GUARD(allocate_nanos); if (allow_fallocate_) { fallocate(fd_, FALLOC_FL_KEEP_SIZE | FALLOC_FL_PUNCH_HOLE, filesize_, block_size * last_allocated_block - filesize_); } } #endif } if (close(fd_) < 0) { s = IOError("While closing file after writing", filename_, errno); } fd_ = -1; return s; } // write out the cached data to the OS cache Status PosixWritableFile::Flush() { return Status::OK(); } Status PosixWritableFile::Sync() { if (fdatasync(fd_) < 0) { return IOError("While fdatasync", filename_, errno); } return Status::OK(); } Status PosixWritableFile::Fsync() { if (fsync(fd_) < 0) { return IOError("While fsync", filename_, errno); } return Status::OK(); } bool PosixWritableFile::IsSyncThreadSafe() const { return true; } uint64_t PosixWritableFile::GetFileSize() { return filesize_; } void PosixWritableFile::SetWriteLifeTimeHint(Env::WriteLifeTimeHint hint) { #ifdef OS_LINUX // Suppress Valgrind "Unimplemented functionality" error. #ifndef ROCKSDB_VALGRIND_RUN if (hint == write_hint_) { return; } if (fcntl(fd_, F_SET_RW_HINT, &hint) == 0) { write_hint_ = hint; } #else (void)hint; #endif // ROCKSDB_VALGRIND_RUN #else (void)hint; #endif // OS_LINUX } Status PosixWritableFile::InvalidateCache(size_t offset, size_t length) { if (use_direct_io()) { return Status::OK(); } #ifndef OS_LINUX (void)offset; (void)length; return Status::OK(); #else // free OS pages int ret = Fadvise(fd_, offset, length, POSIX_FADV_DONTNEED); if (ret == 0) { return Status::OK(); } return IOError("While fadvise NotNeeded", filename_, errno); #endif } #ifdef ROCKSDB_FALLOCATE_PRESENT Status PosixWritableFile::Allocate(uint64_t offset, uint64_t len) { assert(offset <= std::numeric_limits::max()); assert(len <= std::numeric_limits::max()); TEST_KILL_RANDOM("PosixWritableFile::Allocate:0", rocksdb_kill_odds); IOSTATS_TIMER_GUARD(allocate_nanos); int alloc_status = 0; if (allow_fallocate_) { alloc_status = fallocate( fd_, fallocate_with_keep_size_ ? FALLOC_FL_KEEP_SIZE : 0, static_cast(offset), static_cast(len)); } if (alloc_status == 0) { return Status::OK(); } else { return IOError( "While fallocate offset " + ToString(offset) + " len " + ToString(len), filename_, errno); } } #endif #ifdef ROCKSDB_RANGESYNC_PRESENT Status PosixWritableFile::RangeSync(uint64_t offset, uint64_t nbytes) { assert(offset <= std::numeric_limits::max()); assert(nbytes <= std::numeric_limits::max()); if (sync_file_range(fd_, static_cast(offset), static_cast(nbytes), SYNC_FILE_RANGE_WRITE) == 0) { return Status::OK(); } else { return IOError("While sync_file_range offset " + ToString(offset) + " bytes " + ToString(nbytes), filename_, errno); } } #endif #ifdef OS_LINUX size_t PosixWritableFile::GetUniqueId(char* id, size_t max_size) const { return PosixHelper::GetUniqueIdFromFile(fd_, id, max_size); } #endif /* * PosixRandomRWFile */ PosixRandomRWFile::PosixRandomRWFile(const std::string& fname, int fd, const EnvOptions& /*options*/) : filename_(fname), fd_(fd) {} PosixRandomRWFile::~PosixRandomRWFile() { if (fd_ >= 0) { Close(); } } Status PosixRandomRWFile::Write(uint64_t offset, const Slice& data) { const char* src = data.data(); size_t left = data.size(); while (left != 0) { ssize_t done = pwrite(fd_, src, left, offset); if (done < 0) { // error while writing to file if (errno == EINTR) { // write was interrupted, try again. continue; } return IOError( "While write random read/write file at offset " + ToString(offset), filename_, errno); } // Wrote `done` bytes left -= done; offset += done; src += done; } return Status::OK(); } Status PosixRandomRWFile::Read(uint64_t offset, size_t n, Slice* result, char* scratch) const { size_t left = n; char* ptr = scratch; while (left > 0) { ssize_t done = pread(fd_, ptr, left, offset); if (done < 0) { // error while reading from file if (errno == EINTR) { // read was interrupted, try again. continue; } return IOError("While reading random read/write file offset " + ToString(offset) + " len " + ToString(n), filename_, errno); } else if (done == 0) { // Nothing more to read break; } // Read `done` bytes ptr += done; offset += done; left -= done; } *result = Slice(scratch, n - left); return Status::OK(); } Status PosixRandomRWFile::Flush() { return Status::OK(); } Status PosixRandomRWFile::Sync() { if (fdatasync(fd_) < 0) { return IOError("While fdatasync random read/write file", filename_, errno); } return Status::OK(); } Status PosixRandomRWFile::Fsync() { if (fsync(fd_) < 0) { return IOError("While fsync random read/write file", filename_, errno); } return Status::OK(); } Status PosixRandomRWFile::Close() { if (close(fd_) < 0) { return IOError("While close random read/write file", filename_, errno); } fd_ = -1; return Status::OK(); } PosixMemoryMappedFileBuffer::~PosixMemoryMappedFileBuffer() { // TODO should have error handling though not much we can do... munmap(this->base_, length_); } /* * PosixDirectory */ PosixDirectory::~PosixDirectory() { close(fd_); } Status PosixDirectory::Fsync() { #ifndef OS_AIX if (fsync(fd_) == -1) { return IOError("While fsync", "a directory", errno); } #endif return Status::OK(); } } // namespace rocksdb #endif rocksdb-5.17.2/env/io_posix.h000066400000000000000000000205501337235545400160440ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #include #include #include #include #include "rocksdb/env.h" // For non linux platform, the following macros are used only as place // holder. #if !(defined OS_LINUX) && !(defined CYGWIN) && !(defined OS_AIX) #define POSIX_FADV_NORMAL 0 /* [MC1] no further special treatment */ #define POSIX_FADV_RANDOM 1 /* [MC1] expect random page refs */ #define POSIX_FADV_SEQUENTIAL 2 /* [MC1] expect sequential page refs */ #define POSIX_FADV_WILLNEED 3 /* [MC1] will need these pages */ #define POSIX_FADV_DONTNEED 4 /* [MC1] dont need these pages */ #endif namespace rocksdb { static std::string IOErrorMsg(const std::string& context, const std::string& file_name) { if (file_name.empty()) { return context; } return context + ": " + file_name; } // file_name can be left empty if it is not unkown. static Status IOError(const std::string& context, const std::string& file_name, int err_number) { switch (err_number) { case ENOSPC: return Status::NoSpace(IOErrorMsg(context, file_name), strerror(err_number)); case ESTALE: return Status::IOError(Status::kStaleFile); default: return Status::IOError(IOErrorMsg(context, file_name), strerror(err_number)); } } class PosixHelper { public: static size_t GetUniqueIdFromFile(int fd, char* id, size_t max_size); }; class PosixSequentialFile : public SequentialFile { private: std::string filename_; FILE* file_; int fd_; bool use_direct_io_; size_t logical_sector_size_; public: PosixSequentialFile(const std::string& fname, FILE* file, int fd, const EnvOptions& options); virtual ~PosixSequentialFile(); virtual Status Read(size_t n, Slice* result, char* scratch) override; virtual Status PositionedRead(uint64_t offset, size_t n, Slice* result, char* scratch) override; virtual Status Skip(uint64_t n) override; virtual Status InvalidateCache(size_t offset, size_t length) override; virtual bool use_direct_io() const override { return use_direct_io_; } virtual size_t GetRequiredBufferAlignment() const override { return logical_sector_size_; } }; class PosixRandomAccessFile : public RandomAccessFile { protected: std::string filename_; int fd_; bool use_direct_io_; size_t logical_sector_size_; public: PosixRandomAccessFile(const std::string& fname, int fd, const EnvOptions& options); virtual ~PosixRandomAccessFile(); virtual Status Read(uint64_t offset, size_t n, Slice* result, char* scratch) const override; virtual Status Prefetch(uint64_t offset, size_t n) override; #if defined(OS_LINUX) || defined(OS_MACOSX) || defined(OS_AIX) virtual size_t GetUniqueId(char* id, size_t max_size) const override; #endif virtual void Hint(AccessPattern pattern) override; virtual Status InvalidateCache(size_t offset, size_t length) override; virtual bool use_direct_io() const override { return use_direct_io_; } virtual size_t GetRequiredBufferAlignment() const override { return logical_sector_size_; } }; class PosixWritableFile : public WritableFile { protected: const std::string filename_; const bool use_direct_io_; int fd_; uint64_t filesize_; size_t logical_sector_size_; #ifdef ROCKSDB_FALLOCATE_PRESENT bool allow_fallocate_; bool fallocate_with_keep_size_; #endif public: explicit PosixWritableFile(const std::string& fname, int fd, const EnvOptions& options); virtual ~PosixWritableFile(); // Need to implement this so the file is truncated correctly // with direct I/O virtual Status Truncate(uint64_t size) override; virtual Status Close() override; virtual Status Append(const Slice& data) override; virtual Status PositionedAppend(const Slice& data, uint64_t offset) override; virtual Status Flush() override; virtual Status Sync() override; virtual Status Fsync() override; virtual bool IsSyncThreadSafe() const override; virtual bool use_direct_io() const override { return use_direct_io_; } virtual void SetWriteLifeTimeHint(Env::WriteLifeTimeHint hint) override; virtual uint64_t GetFileSize() override; virtual Status InvalidateCache(size_t offset, size_t length) override; virtual size_t GetRequiredBufferAlignment() const override { return logical_sector_size_; } #ifdef ROCKSDB_FALLOCATE_PRESENT virtual Status Allocate(uint64_t offset, uint64_t len) override; #endif #ifdef ROCKSDB_RANGESYNC_PRESENT virtual Status RangeSync(uint64_t offset, uint64_t nbytes) override; #endif #ifdef OS_LINUX virtual size_t GetUniqueId(char* id, size_t max_size) const override; #endif }; // mmap() based random-access class PosixMmapReadableFile : public RandomAccessFile { private: int fd_; std::string filename_; void* mmapped_region_; size_t length_; public: PosixMmapReadableFile(const int fd, const std::string& fname, void* base, size_t length, const EnvOptions& options); virtual ~PosixMmapReadableFile(); virtual Status Read(uint64_t offset, size_t n, Slice* result, char* scratch) const override; virtual Status InvalidateCache(size_t offset, size_t length) override; }; class PosixMmapFile : public WritableFile { private: std::string filename_; int fd_; size_t page_size_; size_t map_size_; // How much extra memory to map at a time char* base_; // The mapped region char* limit_; // Limit of the mapped region char* dst_; // Where to write next (in range [base_,limit_]) char* last_sync_; // Where have we synced up to uint64_t file_offset_; // Offset of base_ in file #ifdef ROCKSDB_FALLOCATE_PRESENT bool allow_fallocate_; // If false, fallocate calls are bypassed bool fallocate_with_keep_size_; #endif // Roundup x to a multiple of y static size_t Roundup(size_t x, size_t y) { return ((x + y - 1) / y) * y; } size_t TruncateToPageBoundary(size_t s) { s -= (s & (page_size_ - 1)); assert((s % page_size_) == 0); return s; } Status MapNewRegion(); Status UnmapCurrentRegion(); Status Msync(); public: PosixMmapFile(const std::string& fname, int fd, size_t page_size, const EnvOptions& options); ~PosixMmapFile(); // Means Close() will properly take care of truncate // and it does not need any additional information virtual Status Truncate(uint64_t /*size*/) override { return Status::OK(); } virtual Status Close() override; virtual Status Append(const Slice& data) override; virtual Status Flush() override; virtual Status Sync() override; virtual Status Fsync() override; virtual uint64_t GetFileSize() override; virtual Status InvalidateCache(size_t offset, size_t length) override; #ifdef ROCKSDB_FALLOCATE_PRESENT virtual Status Allocate(uint64_t offset, uint64_t len) override; #endif }; class PosixRandomRWFile : public RandomRWFile { public: explicit PosixRandomRWFile(const std::string& fname, int fd, const EnvOptions& options); virtual ~PosixRandomRWFile(); virtual Status Write(uint64_t offset, const Slice& data) override; virtual Status Read(uint64_t offset, size_t n, Slice* result, char* scratch) const override; virtual Status Flush() override; virtual Status Sync() override; virtual Status Fsync() override; virtual Status Close() override; private: const std::string filename_; int fd_; }; struct PosixMemoryMappedFileBuffer : public MemoryMappedFileBuffer { PosixMemoryMappedFileBuffer(void* _base, size_t _length) : MemoryMappedFileBuffer(_base, _length) {} virtual ~PosixMemoryMappedFileBuffer(); }; class PosixDirectory : public Directory { public: explicit PosixDirectory(int fd) : fd_(fd) {} ~PosixDirectory(); virtual Status Fsync() override; private: int fd_; }; } // namespace rocksdb rocksdb-5.17.2/env/mock_env.cc000066400000000000000000000513721337235545400161600ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "env/mock_env.h" #include #include #include "port/sys_time.h" #include "util/cast_util.h" #include "util/murmurhash.h" #include "util/random.h" #include "util/rate_limiter.h" namespace rocksdb { class MemFile { public: explicit MemFile(Env* env, const std::string& fn, bool _is_lock_file = false) : env_(env), fn_(fn), refs_(0), is_lock_file_(_is_lock_file), locked_(false), size_(0), modified_time_(Now()), rnd_(static_cast( MurmurHash(fn.data(), static_cast(fn.size()), 0))), fsynced_bytes_(0) {} void Ref() { MutexLock lock(&mutex_); ++refs_; } bool is_lock_file() const { return is_lock_file_; } bool Lock() { assert(is_lock_file_); MutexLock lock(&mutex_); if (locked_) { return false; } else { locked_ = true; return true; } } void Unlock() { assert(is_lock_file_); MutexLock lock(&mutex_); locked_ = false; } void Unref() { bool do_delete = false; { MutexLock lock(&mutex_); --refs_; assert(refs_ >= 0); if (refs_ <= 0) { do_delete = true; } } if (do_delete) { delete this; } } uint64_t Size() const { return size_; } void Truncate(size_t size) { MutexLock lock(&mutex_); if (size < size_) { data_.resize(size); size_ = size; } } void CorruptBuffer() { if (fsynced_bytes_ >= size_) { return; } uint64_t buffered_bytes = size_ - fsynced_bytes_; uint64_t start = fsynced_bytes_ + rnd_.Uniform(static_cast(buffered_bytes)); uint64_t end = std::min(start + 512, size_.load()); MutexLock lock(&mutex_); for (uint64_t pos = start; pos < end; ++pos) { data_[static_cast(pos)] = static_cast(rnd_.Uniform(256)); } } Status Read(uint64_t offset, size_t n, Slice* result, char* scratch) const { MutexLock lock(&mutex_); const uint64_t available = Size() - std::min(Size(), offset); size_t offset_ = static_cast(offset); if (n > available) { n = static_cast(available); } if (n == 0) { *result = Slice(); return Status::OK(); } if (scratch) { memcpy(scratch, &(data_[offset_]), n); *result = Slice(scratch, n); } else { *result = Slice(&(data_[offset_]), n); } return Status::OK(); } Status Write(uint64_t offset, const Slice& data) { MutexLock lock(&mutex_); size_t offset_ = static_cast(offset); if (offset + data.size() > data_.size()) { data_.resize(offset_ + data.size()); } data_.replace(offset_, data.size(), data.data(), data.size()); size_ = data_.size(); modified_time_ = Now(); return Status::OK(); } Status Append(const Slice& data) { MutexLock lock(&mutex_); data_.append(data.data(), data.size()); size_ = data_.size(); modified_time_ = Now(); return Status::OK(); } Status Fsync() { fsynced_bytes_ = size_.load(); return Status::OK(); } uint64_t ModifiedTime() const { return modified_time_; } private: uint64_t Now() { int64_t unix_time = 0; auto s = env_->GetCurrentTime(&unix_time); assert(s.ok()); return static_cast(unix_time); } // Private since only Unref() should be used to delete it. ~MemFile() { assert(refs_ == 0); } // No copying allowed. MemFile(const MemFile&); void operator=(const MemFile&); Env* env_; const std::string fn_; mutable port::Mutex mutex_; int refs_; bool is_lock_file_; bool locked_; // Data written into this file, all bytes before fsynced_bytes are // persistent. std::string data_; std::atomic size_; std::atomic modified_time_; Random rnd_; std::atomic fsynced_bytes_; }; namespace { class MockSequentialFile : public SequentialFile { public: explicit MockSequentialFile(MemFile* file) : file_(file), pos_(0) { file_->Ref(); } ~MockSequentialFile() { file_->Unref(); } virtual Status Read(size_t n, Slice* result, char* scratch) override { Status s = file_->Read(pos_, n, result, scratch); if (s.ok()) { pos_ += result->size(); } return s; } virtual Status Skip(uint64_t n) override { if (pos_ > file_->Size()) { return Status::IOError("pos_ > file_->Size()"); } const uint64_t available = file_->Size() - pos_; if (n > available) { n = available; } pos_ += static_cast(n); return Status::OK(); } private: MemFile* file_; size_t pos_; }; class MockRandomAccessFile : public RandomAccessFile { public: explicit MockRandomAccessFile(MemFile* file) : file_(file) { file_->Ref(); } ~MockRandomAccessFile() { file_->Unref(); } virtual Status Read(uint64_t offset, size_t n, Slice* result, char* scratch) const override { return file_->Read(offset, n, result, scratch); } private: MemFile* file_; }; class MockRandomRWFile : public RandomRWFile { public: explicit MockRandomRWFile(MemFile* file) : file_(file) { file_->Ref(); } ~MockRandomRWFile() { file_->Unref(); } virtual Status Write(uint64_t offset, const Slice& data) override { return file_->Write(offset, data); } virtual Status Read(uint64_t offset, size_t n, Slice* result, char* scratch) const override { return file_->Read(offset, n, result, scratch); } virtual Status Close() override { return file_->Fsync(); } virtual Status Flush() override { return Status::OK(); } virtual Status Sync() override { return file_->Fsync(); } private: MemFile* file_; }; class MockWritableFile : public WritableFile { public: MockWritableFile(MemFile* file, RateLimiter* rate_limiter) : file_(file), rate_limiter_(rate_limiter) { file_->Ref(); } ~MockWritableFile() { file_->Unref(); } virtual Status Append(const Slice& data) override { size_t bytes_written = 0; while (bytes_written < data.size()) { auto bytes = RequestToken(data.size() - bytes_written); Status s = file_->Append(Slice(data.data() + bytes_written, bytes)); if (!s.ok()) { return s; } bytes_written += bytes; } return Status::OK(); } virtual Status Truncate(uint64_t size) override { file_->Truncate(static_cast(size)); return Status::OK(); } virtual Status Close() override { return file_->Fsync(); } virtual Status Flush() override { return Status::OK(); } virtual Status Sync() override { return file_->Fsync(); } virtual uint64_t GetFileSize() override { return file_->Size(); } private: inline size_t RequestToken(size_t bytes) { if (rate_limiter_ && io_priority_ < Env::IO_TOTAL) { bytes = std::min( bytes, static_cast(rate_limiter_->GetSingleBurstBytes())); rate_limiter_->Request(bytes, io_priority_); } return bytes; } MemFile* file_; RateLimiter* rate_limiter_; }; class MockEnvDirectory : public Directory { public: virtual Status Fsync() override { return Status::OK(); } }; class MockEnvFileLock : public FileLock { public: explicit MockEnvFileLock(const std::string& fname) : fname_(fname) {} std::string FileName() const { return fname_; } private: const std::string fname_; }; class TestMemLogger : public Logger { private: std::unique_ptr file_; std::atomic_size_t log_size_; static const uint64_t flush_every_seconds_ = 5; std::atomic_uint_fast64_t last_flush_micros_; Env* env_; bool flush_pending_; public: TestMemLogger(std::unique_ptr f, Env* env, const InfoLogLevel log_level = InfoLogLevel::ERROR_LEVEL) : Logger(log_level), file_(std::move(f)), log_size_(0), last_flush_micros_(0), env_(env), flush_pending_(false) {} virtual ~TestMemLogger() {} virtual void Flush() override { if (flush_pending_) { flush_pending_ = false; } last_flush_micros_ = env_->NowMicros(); } using Logger::Logv; virtual void Logv(const char* format, va_list ap) override { // We try twice: the first time with a fixed-size stack allocated buffer, // and the second time with a much larger dynamically allocated buffer. char buffer[500]; for (int iter = 0; iter < 2; iter++) { char* base; int bufsize; if (iter == 0) { bufsize = sizeof(buffer); base = buffer; } else { bufsize = 30000; base = new char[bufsize]; } char* p = base; char* limit = base + bufsize; struct timeval now_tv; gettimeofday(&now_tv, nullptr); const time_t seconds = now_tv.tv_sec; struct tm t; memset(&t, 0, sizeof(t)); struct tm* ret __attribute__((__unused__)); ret = localtime_r(&seconds, &t); assert(ret); p += snprintf(p, limit - p, "%04d/%02d/%02d-%02d:%02d:%02d.%06d ", t.tm_year + 1900, t.tm_mon + 1, t.tm_mday, t.tm_hour, t.tm_min, t.tm_sec, static_cast(now_tv.tv_usec)); // Print the message if (p < limit) { va_list backup_ap; va_copy(backup_ap, ap); p += vsnprintf(p, limit - p, format, backup_ap); va_end(backup_ap); } // Truncate to available space if necessary if (p >= limit) { if (iter == 0) { continue; // Try again with larger buffer } else { p = limit - 1; } } // Add newline if necessary if (p == base || p[-1] != '\n') { *p++ = '\n'; } assert(p <= limit); const size_t write_size = p - base; file_->Append(Slice(base, write_size)); flush_pending_ = true; log_size_ += write_size; uint64_t now_micros = static_cast(now_tv.tv_sec) * 1000000 + now_tv.tv_usec; if (now_micros - last_flush_micros_ >= flush_every_seconds_ * 1000000) { flush_pending_ = false; last_flush_micros_ = now_micros; } if (base != buffer) { delete[] base; } break; } } size_t GetLogFileSize() const override { return log_size_; } }; } // Anonymous namespace MockEnv::MockEnv(Env* base_env) : EnvWrapper(base_env), fake_sleep_micros_(0) {} MockEnv::~MockEnv() { for (FileSystem::iterator i = file_map_.begin(); i != file_map_.end(); ++i) { i->second->Unref(); } } // Partial implementation of the Env interface. Status MockEnv::NewSequentialFile(const std::string& fname, unique_ptr* result, const EnvOptions& /*soptions*/) { auto fn = NormalizePath(fname); MutexLock lock(&mutex_); if (file_map_.find(fn) == file_map_.end()) { *result = nullptr; return Status::IOError(fn, "File not found"); } auto* f = file_map_[fn]; if (f->is_lock_file()) { return Status::InvalidArgument(fn, "Cannot open a lock file."); } result->reset(new MockSequentialFile(f)); return Status::OK(); } Status MockEnv::NewRandomAccessFile(const std::string& fname, unique_ptr* result, const EnvOptions& /*soptions*/) { auto fn = NormalizePath(fname); MutexLock lock(&mutex_); if (file_map_.find(fn) == file_map_.end()) { *result = nullptr; return Status::IOError(fn, "File not found"); } auto* f = file_map_[fn]; if (f->is_lock_file()) { return Status::InvalidArgument(fn, "Cannot open a lock file."); } result->reset(new MockRandomAccessFile(f)); return Status::OK(); } Status MockEnv::NewRandomRWFile(const std::string& fname, unique_ptr* result, const EnvOptions& /*soptions*/) { auto fn = NormalizePath(fname); MutexLock lock(&mutex_); if (file_map_.find(fn) == file_map_.end()) { *result = nullptr; return Status::IOError(fn, "File not found"); } auto* f = file_map_[fn]; if (f->is_lock_file()) { return Status::InvalidArgument(fn, "Cannot open a lock file."); } result->reset(new MockRandomRWFile(f)); return Status::OK(); } Status MockEnv::ReuseWritableFile(const std::string& fname, const std::string& old_fname, unique_ptr* result, const EnvOptions& options) { auto s = RenameFile(old_fname, fname); if (!s.ok()) { return s; } result->reset(); return NewWritableFile(fname, result, options); } Status MockEnv::NewWritableFile(const std::string& fname, unique_ptr* result, const EnvOptions& env_options) { auto fn = NormalizePath(fname); MutexLock lock(&mutex_); if (file_map_.find(fn) != file_map_.end()) { DeleteFileInternal(fn); } MemFile* file = new MemFile(this, fn, false); file->Ref(); file_map_[fn] = file; result->reset(new MockWritableFile(file, env_options.rate_limiter)); return Status::OK(); } Status MockEnv::NewDirectory(const std::string& /*name*/, unique_ptr* result) { result->reset(new MockEnvDirectory()); return Status::OK(); } Status MockEnv::FileExists(const std::string& fname) { auto fn = NormalizePath(fname); MutexLock lock(&mutex_); if (file_map_.find(fn) != file_map_.end()) { // File exists return Status::OK(); } // Now also check if fn exists as a dir for (const auto& iter : file_map_) { const std::string& filename = iter.first; if (filename.size() >= fn.size() + 1 && filename[fn.size()] == '/' && Slice(filename).starts_with(Slice(fn))) { return Status::OK(); } } return Status::NotFound(); } Status MockEnv::GetChildren(const std::string& dir, std::vector* result) { auto d = NormalizePath(dir); bool found_dir = false; { MutexLock lock(&mutex_); result->clear(); for (const auto& iter : file_map_) { const std::string& filename = iter.first; if (filename == d) { found_dir = true; } else if (filename.size() >= d.size() + 1 && filename[d.size()] == '/' && Slice(filename).starts_with(Slice(d))) { found_dir = true; size_t next_slash = filename.find('/', d.size() + 1); if (next_slash != std::string::npos) { result->push_back( filename.substr(d.size() + 1, next_slash - d.size() - 1)); } else { result->push_back(filename.substr(d.size() + 1)); } } } } result->erase(std::unique(result->begin(), result->end()), result->end()); return found_dir ? Status::OK() : Status::NotFound(); } void MockEnv::DeleteFileInternal(const std::string& fname) { assert(fname == NormalizePath(fname)); const auto& pair = file_map_.find(fname); if (pair != file_map_.end()) { pair->second->Unref(); file_map_.erase(fname); } } Status MockEnv::DeleteFile(const std::string& fname) { auto fn = NormalizePath(fname); MutexLock lock(&mutex_); if (file_map_.find(fn) == file_map_.end()) { return Status::IOError(fn, "File not found"); } DeleteFileInternal(fn); return Status::OK(); } Status MockEnv::Truncate(const std::string& fname, size_t size) { auto fn = NormalizePath(fname); MutexLock lock(&mutex_); auto iter = file_map_.find(fn); if (iter == file_map_.end()) { return Status::IOError(fn, "File not found"); } iter->second->Truncate(size); return Status::OK(); } Status MockEnv::CreateDir(const std::string& dirname) { auto dn = NormalizePath(dirname); if (file_map_.find(dn) == file_map_.end()) { MemFile* file = new MemFile(this, dn, false); file->Ref(); file_map_[dn] = file; } else { return Status::IOError(); } return Status::OK(); } Status MockEnv::CreateDirIfMissing(const std::string& dirname) { CreateDir(dirname); return Status::OK(); } Status MockEnv::DeleteDir(const std::string& dirname) { return DeleteFile(dirname); } Status MockEnv::GetFileSize(const std::string& fname, uint64_t* file_size) { auto fn = NormalizePath(fname); MutexLock lock(&mutex_); auto iter = file_map_.find(fn); if (iter == file_map_.end()) { return Status::IOError(fn, "File not found"); } *file_size = iter->second->Size(); return Status::OK(); } Status MockEnv::GetFileModificationTime(const std::string& fname, uint64_t* time) { auto fn = NormalizePath(fname); MutexLock lock(&mutex_); auto iter = file_map_.find(fn); if (iter == file_map_.end()) { return Status::IOError(fn, "File not found"); } *time = iter->second->ModifiedTime(); return Status::OK(); } Status MockEnv::RenameFile(const std::string& src, const std::string& dest) { auto s = NormalizePath(src); auto t = NormalizePath(dest); MutexLock lock(&mutex_); if (file_map_.find(s) == file_map_.end()) { return Status::IOError(s, "File not found"); } DeleteFileInternal(t); file_map_[t] = file_map_[s]; file_map_.erase(s); return Status::OK(); } Status MockEnv::LinkFile(const std::string& src, const std::string& dest) { auto s = NormalizePath(src); auto t = NormalizePath(dest); MutexLock lock(&mutex_); if (file_map_.find(s) == file_map_.end()) { return Status::IOError(s, "File not found"); } DeleteFileInternal(t); file_map_[t] = file_map_[s]; file_map_[t]->Ref(); // Otherwise it might get deleted when noone uses s return Status::OK(); } Status MockEnv::NewLogger(const std::string& fname, shared_ptr* result) { auto fn = NormalizePath(fname); MutexLock lock(&mutex_); auto iter = file_map_.find(fn); MemFile* file = nullptr; if (iter == file_map_.end()) { file = new MemFile(this, fn, false); file->Ref(); file_map_[fn] = file; } else { file = iter->second; } std::unique_ptr f(new MockWritableFile(file, nullptr)); result->reset(new TestMemLogger(std::move(f), this)); return Status::OK(); } Status MockEnv::LockFile(const std::string& fname, FileLock** flock) { auto fn = NormalizePath(fname); { MutexLock lock(&mutex_); if (file_map_.find(fn) != file_map_.end()) { if (!file_map_[fn]->is_lock_file()) { return Status::InvalidArgument(fname, "Not a lock file."); } if (!file_map_[fn]->Lock()) { return Status::IOError(fn, "Lock is already held."); } } else { auto* file = new MemFile(this, fn, true); file->Ref(); file->Lock(); file_map_[fn] = file; } } *flock = new MockEnvFileLock(fn); return Status::OK(); } Status MockEnv::UnlockFile(FileLock* flock) { std::string fn = static_cast_with_check(flock)->FileName(); { MutexLock lock(&mutex_); if (file_map_.find(fn) != file_map_.end()) { if (!file_map_[fn]->is_lock_file()) { return Status::InvalidArgument(fn, "Not a lock file."); } file_map_[fn]->Unlock(); } } delete flock; return Status::OK(); } Status MockEnv::GetTestDirectory(std::string* path) { *path = "/test"; return Status::OK(); } Status MockEnv::GetCurrentTime(int64_t* unix_time) { auto s = EnvWrapper::GetCurrentTime(unix_time); if (s.ok()) { *unix_time += fake_sleep_micros_.load() / (1000 * 1000); } return s; } uint64_t MockEnv::NowMicros() { return EnvWrapper::NowMicros() + fake_sleep_micros_.load(); } uint64_t MockEnv::NowNanos() { return EnvWrapper::NowNanos() + fake_sleep_micros_.load() * 1000; } Status MockEnv::CorruptBuffer(const std::string& fname) { auto fn = NormalizePath(fname); MutexLock lock(&mutex_); auto iter = file_map_.find(fn); if (iter == file_map_.end()) { return Status::IOError(fn, "File not found"); } iter->second->CorruptBuffer(); return Status::OK(); } std::string MockEnv::NormalizePath(const std::string path) { std::string dst; for (auto c : path) { if (!dst.empty() && c == '/' && dst.back() == '/') { continue; } dst.push_back(c); } return dst; } void MockEnv::FakeSleepForMicroseconds(int64_t micros) { fake_sleep_micros_.fetch_add(micros); } #ifndef ROCKSDB_LITE // This is to maintain the behavior before swithcing from InMemoryEnv to MockEnv Env* NewMemEnv(Env* base_env) { return new MockEnv(base_env); } #else // ROCKSDB_LITE Env* NewMemEnv(Env* /*base_env*/) { return nullptr; } #endif // !ROCKSDB_LITE } // namespace rocksdb rocksdb-5.17.2/env/mock_env.h000066400000000000000000000101761337235545400160170ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #include #include #include #include #include "rocksdb/env.h" #include "rocksdb/status.h" #include "port/port.h" #include "util/mutexlock.h" namespace rocksdb { class MemFile; class MockEnv : public EnvWrapper { public: explicit MockEnv(Env* base_env); virtual ~MockEnv(); // Partial implementation of the Env interface. virtual Status NewSequentialFile(const std::string& fname, unique_ptr* result, const EnvOptions& soptions) override; virtual Status NewRandomAccessFile(const std::string& fname, unique_ptr* result, const EnvOptions& soptions) override; virtual Status NewRandomRWFile(const std::string& fname, unique_ptr* result, const EnvOptions& options) override; virtual Status ReuseWritableFile(const std::string& fname, const std::string& old_fname, unique_ptr* result, const EnvOptions& options) override; virtual Status NewWritableFile(const std::string& fname, unique_ptr* result, const EnvOptions& env_options) override; virtual Status NewDirectory(const std::string& name, unique_ptr* result) override; virtual Status FileExists(const std::string& fname) override; virtual Status GetChildren(const std::string& dir, std::vector* result) override; void DeleteFileInternal(const std::string& fname); virtual Status DeleteFile(const std::string& fname) override; virtual Status Truncate(const std::string& fname, size_t size) override; virtual Status CreateDir(const std::string& dirname) override; virtual Status CreateDirIfMissing(const std::string& dirname) override; virtual Status DeleteDir(const std::string& dirname) override; virtual Status GetFileSize(const std::string& fname, uint64_t* file_size) override; virtual Status GetFileModificationTime(const std::string& fname, uint64_t* time) override; virtual Status RenameFile(const std::string& src, const std::string& target) override; virtual Status LinkFile(const std::string& src, const std::string& target) override; virtual Status NewLogger(const std::string& fname, shared_ptr* result) override; virtual Status LockFile(const std::string& fname, FileLock** flock) override; virtual Status UnlockFile(FileLock* flock) override; virtual Status GetTestDirectory(std::string* path) override; // Results of these can be affected by FakeSleepForMicroseconds() virtual Status GetCurrentTime(int64_t* unix_time) override; virtual uint64_t NowMicros() override; virtual uint64_t NowNanos() override; Status CorruptBuffer(const std::string& fname); // Doesn't really sleep, just affects output of GetCurrentTime(), NowMicros() // and NowNanos() void FakeSleepForMicroseconds(int64_t micros); private: std::string NormalizePath(const std::string path); // Map from filenames to MemFile objects, representing a simple file system. typedef std::map FileSystem; port::Mutex mutex_; FileSystem file_map_; // Protected by mutex_. std::atomic fake_sleep_micros_; }; } // namespace rocksdb rocksdb-5.17.2/env/mock_env_test.cc000066400000000000000000000051451337235545400172140ustar00rootroot00000000000000// Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "env/mock_env.h" #include #include #include "rocksdb/env.h" #include "util/testharness.h" namespace rocksdb { class MockEnvTest : public testing::Test { public: MockEnv* env_; const EnvOptions soptions_; MockEnvTest() : env_(new MockEnv(Env::Default())) { } ~MockEnvTest() { delete env_; } }; TEST_F(MockEnvTest, Corrupt) { const std::string kGood = "this is a good string, synced to disk"; const std::string kCorrupted = "this part may be corrupted"; const std::string kFileName = "/dir/f"; unique_ptr writable_file; ASSERT_OK(env_->NewWritableFile(kFileName, &writable_file, soptions_)); ASSERT_OK(writable_file->Append(kGood)); ASSERT_TRUE(writable_file->GetFileSize() == kGood.size()); std::string scratch; scratch.resize(kGood.size() + kCorrupted.size() + 16); Slice result; unique_ptr rand_file; ASSERT_OK(env_->NewRandomAccessFile(kFileName, &rand_file, soptions_)); ASSERT_OK(rand_file->Read(0, kGood.size(), &result, &(scratch[0]))); ASSERT_EQ(result.compare(kGood), 0); // Sync + corrupt => no change ASSERT_OK(writable_file->Fsync()); ASSERT_OK(dynamic_cast(env_)->CorruptBuffer(kFileName)); result.clear(); ASSERT_OK(rand_file->Read(0, kGood.size(), &result, &(scratch[0]))); ASSERT_EQ(result.compare(kGood), 0); // Add new data and corrupt it ASSERT_OK(writable_file->Append(kCorrupted)); ASSERT_TRUE(writable_file->GetFileSize() == kGood.size() + kCorrupted.size()); result.clear(); ASSERT_OK(rand_file->Read(kGood.size(), kCorrupted.size(), &result, &(scratch[0]))); ASSERT_EQ(result.compare(kCorrupted), 0); // Corrupted ASSERT_OK(dynamic_cast(env_)->CorruptBuffer(kFileName)); result.clear(); ASSERT_OK(rand_file->Read(kGood.size(), kCorrupted.size(), &result, &(scratch[0]))); ASSERT_NE(result.compare(kCorrupted), 0); } TEST_F(MockEnvTest, FakeSleeping) { int64_t now = 0; auto s = env_->GetCurrentTime(&now); ASSERT_OK(s); env_->FakeSleepForMicroseconds(3 * 1000 * 1000); int64_t after_sleep = 0; s = env_->GetCurrentTime(&after_sleep); ASSERT_OK(s); auto delta = after_sleep - now; // this will be true unless test runs for 2 seconds ASSERT_TRUE(delta == 3 || delta == 4); } } // namespace rocksdb int main(int argc, char** argv) { ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/env/posix_logger.h000066400000000000000000000124011337235545400167100ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. // // Logger implementation that can be shared by all environments // where enough posix functionality is available. #pragma once #include #include #include "port/sys_time.h" #include #include #ifdef OS_LINUX #ifndef FALLOC_FL_KEEP_SIZE #include #endif #endif #include #include "env/io_posix.h" #include "monitoring/iostats_context_imp.h" #include "rocksdb/env.h" #include "util/sync_point.h" namespace rocksdb { class PosixLogger : public Logger { private: Status PosixCloseHelper() { int ret; ret = fclose(file_); if (ret) { return IOError("Unable to close log file", "", ret); } return Status::OK(); } FILE* file_; uint64_t (*gettid_)(); // Return the thread id for the current thread std::atomic_size_t log_size_; int fd_; const static uint64_t flush_every_seconds_ = 5; std::atomic_uint_fast64_t last_flush_micros_; Env* env_; std::atomic flush_pending_; protected: virtual Status CloseImpl() override { return PosixCloseHelper(); } public: PosixLogger(FILE* f, uint64_t (*gettid)(), Env* env, const InfoLogLevel log_level = InfoLogLevel::ERROR_LEVEL) : Logger(log_level), file_(f), gettid_(gettid), log_size_(0), fd_(fileno(f)), last_flush_micros_(0), env_(env), flush_pending_(false) {} virtual ~PosixLogger() { if (!closed_) { closed_ = true; PosixCloseHelper(); } } virtual void Flush() override { TEST_SYNC_POINT("PosixLogger::Flush:Begin1"); TEST_SYNC_POINT("PosixLogger::Flush:Begin2"); if (flush_pending_) { flush_pending_ = false; fflush(file_); } last_flush_micros_ = env_->NowMicros(); } using Logger::Logv; virtual void Logv(const char* format, va_list ap) override { IOSTATS_TIMER_GUARD(logger_nanos); const uint64_t thread_id = (*gettid_)(); // We try twice: the first time with a fixed-size stack allocated buffer, // and the second time with a much larger dynamically allocated buffer. char buffer[500]; for (int iter = 0; iter < 2; iter++) { char* base; int bufsize; if (iter == 0) { bufsize = sizeof(buffer); base = buffer; } else { bufsize = 65536; base = new char[bufsize]; } char* p = base; char* limit = base + bufsize; struct timeval now_tv; gettimeofday(&now_tv, nullptr); const time_t seconds = now_tv.tv_sec; struct tm t; localtime_r(&seconds, &t); p += snprintf(p, limit - p, "%04d/%02d/%02d-%02d:%02d:%02d.%06d %llx ", t.tm_year + 1900, t.tm_mon + 1, t.tm_mday, t.tm_hour, t.tm_min, t.tm_sec, static_cast(now_tv.tv_usec), static_cast(thread_id)); // Print the message if (p < limit) { va_list backup_ap; va_copy(backup_ap, ap); p += vsnprintf(p, limit - p, format, backup_ap); va_end(backup_ap); } // Truncate to available space if necessary if (p >= limit) { if (iter == 0) { continue; // Try again with larger buffer } else { p = limit - 1; } } // Add newline if necessary if (p == base || p[-1] != '\n') { *p++ = '\n'; } assert(p <= limit); const size_t write_size = p - base; #ifdef ROCKSDB_FALLOCATE_PRESENT const int kDebugLogChunkSize = 128 * 1024; // If this write would cross a boundary of kDebugLogChunkSize // space, pre-allocate more space to avoid overly large // allocations from filesystem allocsize options. const size_t log_size = log_size_; const size_t last_allocation_chunk = ((kDebugLogChunkSize - 1 + log_size) / kDebugLogChunkSize); const size_t desired_allocation_chunk = ((kDebugLogChunkSize - 1 + log_size + write_size) / kDebugLogChunkSize); if (last_allocation_chunk != desired_allocation_chunk) { fallocate( fd_, FALLOC_FL_KEEP_SIZE, 0, static_cast(desired_allocation_chunk * kDebugLogChunkSize)); } #endif size_t sz = fwrite(base, 1, write_size, file_); flush_pending_ = true; if (sz > 0) { log_size_ += write_size; } uint64_t now_micros = static_cast(now_tv.tv_sec) * 1000000 + now_tv.tv_usec; if (now_micros - last_flush_micros_ >= flush_every_seconds_ * 1000000) { Flush(); } if (base != buffer) { delete[] base; } break; } } size_t GetLogFileSize() const override { return log_size_; } }; } // namespace rocksdb rocksdb-5.17.2/examples/000077500000000000000000000000001337235545400150665ustar00rootroot00000000000000rocksdb-5.17.2/examples/.gitignore000066400000000000000000000002601337235545400170540ustar00rootroot00000000000000c_simple_example column_families_example compact_files_example compaction_filter_example optimistic_transaction_example options_file_example simple_example transaction_example rocksdb-5.17.2/examples/Makefile000066400000000000000000000043721337235545400165340ustar00rootroot00000000000000include ../make_config.mk ifndef DISABLE_JEMALLOC ifdef JEMALLOC PLATFORM_CXXFLAGS += -DROCKSDB_JEMALLOC -DJEMALLOC_NO_DEMANGLE endif EXEC_LDFLAGS := $(JEMALLOC_LIB) $(EXEC_LDFLAGS) -lpthread PLATFORM_CXXFLAGS += $(JEMALLOC_INCLUDE) endif ifneq ($(USE_RTTI), 1) CXXFLAGS += -fno-rtti endif .PHONY: clean librocksdb all: simple_example column_families_example compact_files_example c_simple_example optimistic_transaction_example transaction_example compaction_filter_example options_file_example simple_example: librocksdb simple_example.cc $(CXX) $(CXXFLAGS) $@.cc -o$@ ../librocksdb.a -I../include -O2 -std=c++11 $(PLATFORM_LDFLAGS) $(PLATFORM_CXXFLAGS) $(EXEC_LDFLAGS) column_families_example: librocksdb column_families_example.cc $(CXX) $(CXXFLAGS) $@.cc -o$@ ../librocksdb.a -I../include -O2 -std=c++11 $(PLATFORM_LDFLAGS) $(PLATFORM_CXXFLAGS) $(EXEC_LDFLAGS) compaction_filter_example: librocksdb compaction_filter_example.cc $(CXX) $(CXXFLAGS) $@.cc -o$@ ../librocksdb.a -I../include -O2 -std=c++11 $(PLATFORM_LDFLAGS) $(PLATFORM_CXXFLAGS) $(EXEC_LDFLAGS) compact_files_example: librocksdb compact_files_example.cc $(CXX) $(CXXFLAGS) $@.cc -o$@ ../librocksdb.a -I../include -O2 -std=c++11 $(PLATFORM_LDFLAGS) $(PLATFORM_CXXFLAGS) $(EXEC_LDFLAGS) .c.o: $(CC) $(CFLAGS) -c $< -o $@ -I../include c_simple_example: librocksdb c_simple_example.o $(CXX) $@.o -o$@ ../librocksdb.a $(PLATFORM_LDFLAGS) $(EXEC_LDFLAGS) optimistic_transaction_example: librocksdb optimistic_transaction_example.cc $(CXX) $(CXXFLAGS) $@.cc -o$@ ../librocksdb.a -I../include -O2 -std=c++11 $(PLATFORM_LDFLAGS) $(PLATFORM_CXXFLAGS) $(EXEC_LDFLAGS) transaction_example: librocksdb transaction_example.cc $(CXX) $(CXXFLAGS) $@.cc -o$@ ../librocksdb.a -I../include -O2 -std=c++11 $(PLATFORM_LDFLAGS) $(PLATFORM_CXXFLAGS) $(EXEC_LDFLAGS) options_file_example: librocksdb options_file_example.cc $(CXX) $(CXXFLAGS) $@.cc -o$@ ../librocksdb.a -I../include -O2 -std=c++11 $(PLATFORM_LDFLAGS) $(PLATFORM_CXXFLAGS) $(EXEC_LDFLAGS) clean: rm -rf ./simple_example ./column_families_example ./compact_files_example ./compaction_filter_example ./c_simple_example c_simple_example.o ./optimistic_transaction_example ./transaction_example ./options_file_example librocksdb: cd .. && $(MAKE) static_lib rocksdb-5.17.2/examples/README.md000066400000000000000000000001701337235545400163430ustar00rootroot000000000000001. Compile RocksDB first by executing `make static_lib` in parent dir 2. Compile all examples: `cd examples/; make all` rocksdb-5.17.2/examples/c_simple_example.c000066400000000000000000000051331337235545400205420ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include #include #include #include #include "rocksdb/c.h" #include // sysconf() - get CPU count const char DBPath[] = "/tmp/rocksdb_simple_example"; const char DBBackupPath[] = "/tmp/rocksdb_simple_example_backup"; int main(int argc, char **argv) { rocksdb_t *db; rocksdb_backup_engine_t *be; rocksdb_options_t *options = rocksdb_options_create(); // Optimize RocksDB. This is the easiest way to // get RocksDB to perform well long cpus = sysconf(_SC_NPROCESSORS_ONLN); // get # of online cores rocksdb_options_increase_parallelism(options, (int)(cpus)); rocksdb_options_optimize_level_style_compaction(options, 0); // create the DB if it's not already present rocksdb_options_set_create_if_missing(options, 1); // open DB char *err = NULL; db = rocksdb_open(options, DBPath, &err); assert(!err); // open Backup Engine that we will use for backing up our database be = rocksdb_backup_engine_open(options, DBBackupPath, &err); assert(!err); // Put key-value rocksdb_writeoptions_t *writeoptions = rocksdb_writeoptions_create(); const char key[] = "key"; const char *value = "value"; rocksdb_put(db, writeoptions, key, strlen(key), value, strlen(value) + 1, &err); assert(!err); // Get value rocksdb_readoptions_t *readoptions = rocksdb_readoptions_create(); size_t len; char *returned_value = rocksdb_get(db, readoptions, key, strlen(key), &len, &err); assert(!err); assert(strcmp(returned_value, "value") == 0); free(returned_value); // create new backup in a directory specified by DBBackupPath rocksdb_backup_engine_create_new_backup(be, db, &err); assert(!err); rocksdb_close(db); // If something is wrong, you might want to restore data from last backup rocksdb_restore_options_t *restore_options = rocksdb_restore_options_create(); rocksdb_backup_engine_restore_db_from_latest_backup(be, DBPath, DBPath, restore_options, &err); assert(!err); rocksdb_restore_options_destroy(restore_options); db = rocksdb_open(options, DBPath, &err); assert(!err); // cleanup rocksdb_writeoptions_destroy(writeoptions); rocksdb_readoptions_destroy(readoptions); rocksdb_options_destroy(options); rocksdb_backup_engine_close(be); rocksdb_close(db); return 0; } rocksdb-5.17.2/examples/column_families_example.cc000066400000000000000000000037121337235545400222610ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include #include #include #include "rocksdb/db.h" #include "rocksdb/slice.h" #include "rocksdb/options.h" using namespace rocksdb; std::string kDBPath = "/tmp/rocksdb_column_families_example"; int main() { // open DB Options options; options.create_if_missing = true; DB* db; Status s = DB::Open(options, kDBPath, &db); assert(s.ok()); // create column family ColumnFamilyHandle* cf; s = db->CreateColumnFamily(ColumnFamilyOptions(), "new_cf", &cf); assert(s.ok()); // close DB delete cf; delete db; // open DB with two column families std::vector column_families; // have to open default column family column_families.push_back(ColumnFamilyDescriptor( kDefaultColumnFamilyName, ColumnFamilyOptions())); // open the new one, too column_families.push_back(ColumnFamilyDescriptor( "new_cf", ColumnFamilyOptions())); std::vector handles; s = DB::Open(DBOptions(), kDBPath, column_families, &handles, &db); assert(s.ok()); // put and get from non-default column family s = db->Put(WriteOptions(), handles[1], Slice("key"), Slice("value")); assert(s.ok()); std::string value; s = db->Get(ReadOptions(), handles[1], Slice("key"), &value); assert(s.ok()); // atomic write WriteBatch batch; batch.Put(handles[0], Slice("key2"), Slice("value2")); batch.Put(handles[1], Slice("key3"), Slice("value3")); batch.Delete(handles[0], Slice("key")); s = db->Write(WriteOptions(), &batch); assert(s.ok()); // drop column family s = db->DropColumnFamily(handles[1]); assert(s.ok()); // close db for (auto handle : handles) { delete handle; } delete db; return 0; } rocksdb-5.17.2/examples/compact_files_example.cc000066400000000000000000000133331337235545400217230ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // An example code demonstrating how to use CompactFiles, EventListener, // and GetColumnFamilyMetaData APIs to implement custom compaction algorithm. #include #include #include "rocksdb/db.h" #include "rocksdb/env.h" #include "rocksdb/options.h" using namespace rocksdb; std::string kDBPath = "/tmp/rocksdb_compact_files_example"; struct CompactionTask; // This is an example interface of external-compaction algorithm. // Compaction algorithm can be implemented outside the core-RocksDB // code by using the pluggable compaction APIs that RocksDb provides. class Compactor : public EventListener { public: // Picks and returns a compaction task given the specified DB // and column family. It is the caller's responsibility to // destroy the returned CompactionTask. Returns "nullptr" // if it cannot find a proper compaction task. virtual CompactionTask* PickCompaction( DB* db, const std::string& cf_name) = 0; // Schedule and run the specified compaction task in background. virtual void ScheduleCompaction(CompactionTask *task) = 0; }; // Example structure that describes a compaction task. struct CompactionTask { CompactionTask( DB* _db, Compactor* _compactor, const std::string& _column_family_name, const std::vector& _input_file_names, const int _output_level, const CompactionOptions& _compact_options, bool _retry_on_fail) : db(_db), compactor(_compactor), column_family_name(_column_family_name), input_file_names(_input_file_names), output_level(_output_level), compact_options(_compact_options), retry_on_fail(_retry_on_fail) {} DB* db; Compactor* compactor; const std::string& column_family_name; std::vector input_file_names; int output_level; CompactionOptions compact_options; bool retry_on_fail; }; // A simple compaction algorithm that always compacts everything // to the highest level whenever possible. class FullCompactor : public Compactor { public: explicit FullCompactor(const Options options) : options_(options) { compact_options_.compression = options_.compression; compact_options_.output_file_size_limit = options_.target_file_size_base; } // When flush happens, it determines whether to trigger compaction. If // triggered_writes_stop is true, it will also set the retry flag of // compaction-task to true. void OnFlushCompleted( DB* db, const FlushJobInfo& info) override { CompactionTask* task = PickCompaction(db, info.cf_name); if (task != nullptr) { if (info.triggered_writes_stop) { task->retry_on_fail = true; } // Schedule compaction in a different thread. ScheduleCompaction(task); } } // Always pick a compaction which includes all files whenever possible. CompactionTask* PickCompaction( DB* db, const std::string& cf_name) override { ColumnFamilyMetaData cf_meta; db->GetColumnFamilyMetaData(&cf_meta); std::vector input_file_names; for (auto level : cf_meta.levels) { for (auto file : level.files) { if (file.being_compacted) { return nullptr; } input_file_names.push_back(file.name); } } return new CompactionTask( db, this, cf_name, input_file_names, options_.num_levels - 1, compact_options_, false); } // Schedule the specified compaction task in background. void ScheduleCompaction(CompactionTask* task) override { options_.env->Schedule(&FullCompactor::CompactFiles, task); } static void CompactFiles(void* arg) { std::unique_ptr task( reinterpret_cast(arg)); assert(task); assert(task->db); Status s = task->db->CompactFiles( task->compact_options, task->input_file_names, task->output_level); printf("CompactFiles() finished with status %s\n", s.ToString().c_str()); if (!s.ok() && !s.IsIOError() && task->retry_on_fail) { // If a compaction task with its retry_on_fail=true failed, // try to schedule another compaction in case the reason // is not an IO error. CompactionTask* new_task = task->compactor->PickCompaction( task->db, task->column_family_name); task->compactor->ScheduleCompaction(new_task); } } private: Options options_; CompactionOptions compact_options_; }; int main() { Options options; options.create_if_missing = true; // Disable RocksDB background compaction. options.compaction_style = kCompactionStyleNone; // Small slowdown and stop trigger for experimental purpose. options.level0_slowdown_writes_trigger = 3; options.level0_stop_writes_trigger = 5; options.IncreaseParallelism(5); options.listeners.emplace_back(new FullCompactor(options)); DB* db = nullptr; DestroyDB(kDBPath, options); Status s = DB::Open(options, kDBPath, &db); assert(s.ok()); assert(db); // if background compaction is not working, write will stall // because of options.level0_stop_writes_trigger for (int i = 1000; i < 99999; ++i) { db->Put(WriteOptions(), std::to_string(i), std::string(500, 'a' + (i % 26))); } // verify the values are still there std::string value; for (int i = 1000; i < 99999; ++i) { db->Get(ReadOptions(), std::to_string(i), &value); assert(value == std::string(500, 'a' + (i % 26))); } // close the db. delete db; return 0; } rocksdb-5.17.2/examples/compaction_filter_example.cc000066400000000000000000000056551337235545400226240ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include #include #include #include class MyMerge : public rocksdb::MergeOperator { public: virtual bool FullMergeV2(const MergeOperationInput& merge_in, MergeOperationOutput* merge_out) const override { merge_out->new_value.clear(); if (merge_in.existing_value != nullptr) { merge_out->new_value.assign(merge_in.existing_value->data(), merge_in.existing_value->size()); } for (const rocksdb::Slice& m : merge_in.operand_list) { fprintf(stderr, "Merge(%s)\n", m.ToString().c_str()); // the compaction filter filters out bad values assert(m.ToString() != "bad"); merge_out->new_value.assign(m.data(), m.size()); } return true; } const char* Name() const override { return "MyMerge"; } }; class MyFilter : public rocksdb::CompactionFilter { public: bool Filter(int level, const rocksdb::Slice& key, const rocksdb::Slice& existing_value, std::string* new_value, bool* value_changed) const override { fprintf(stderr, "Filter(%s)\n", key.ToString().c_str()); ++count_; assert(*value_changed == false); return false; } bool FilterMergeOperand(int level, const rocksdb::Slice& key, const rocksdb::Slice& existing_value) const override { fprintf(stderr, "FilterMerge(%s)\n", key.ToString().c_str()); ++merge_count_; return existing_value == "bad"; } const char* Name() const override { return "MyFilter"; } mutable int count_ = 0; mutable int merge_count_ = 0; }; int main() { rocksdb::DB* raw_db; rocksdb::Status status; MyFilter filter; int ret = system("rm -rf /tmp/rocksmergetest"); if (ret != 0) { fprintf(stderr, "Error deleting /tmp/rocksmergetest, code: %d\n", ret); return ret; } rocksdb::Options options; options.create_if_missing = true; options.merge_operator.reset(new MyMerge); options.compaction_filter = &filter; status = rocksdb::DB::Open(options, "/tmp/rocksmergetest", &raw_db); assert(status.ok()); std::unique_ptr db(raw_db); rocksdb::WriteOptions wopts; db->Merge(wopts, "0", "bad"); // This is filtered out db->Merge(wopts, "1", "data1"); db->Merge(wopts, "1", "bad"); db->Merge(wopts, "1", "data2"); db->Merge(wopts, "1", "bad"); db->Merge(wopts, "3", "data3"); db->CompactRange(rocksdb::CompactRangeOptions(), nullptr, nullptr); fprintf(stderr, "filter.count_ = %d\n", filter.count_); assert(filter.count_ == 0); fprintf(stderr, "filter.merge_count_ = %d\n", filter.merge_count_); assert(filter.merge_count_ == 6); } rocksdb-5.17.2/examples/optimistic_transaction_example.cc000066400000000000000000000101161337235545400237000ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #ifndef ROCKSDB_LITE #include "rocksdb/db.h" #include "rocksdb/options.h" #include "rocksdb/slice.h" #include "rocksdb/utilities/transaction.h" #include "rocksdb/utilities/optimistic_transaction_db.h" using namespace rocksdb; std::string kDBPath = "/tmp/rocksdb_transaction_example"; int main() { // open DB Options options; options.create_if_missing = true; DB* db; OptimisticTransactionDB* txn_db; Status s = OptimisticTransactionDB::Open(options, kDBPath, &txn_db); assert(s.ok()); db = txn_db->GetBaseDB(); WriteOptions write_options; ReadOptions read_options; OptimisticTransactionOptions txn_options; std::string value; //////////////////////////////////////////////////////// // // Simple OptimisticTransaction Example ("Read Committed") // //////////////////////////////////////////////////////// // Start a transaction Transaction* txn = txn_db->BeginTransaction(write_options); assert(txn); // Read a key in this transaction s = txn->Get(read_options, "abc", &value); assert(s.IsNotFound()); // Write a key in this transaction txn->Put("abc", "def"); // Read a key OUTSIDE this transaction. Does not affect txn. s = db->Get(read_options, "abc", &value); // Write a key OUTSIDE of this transaction. // Does not affect txn since this is an unrelated key. If we wrote key 'abc' // here, the transaction would fail to commit. s = db->Put(write_options, "xyz", "zzz"); // Commit transaction s = txn->Commit(); assert(s.ok()); delete txn; //////////////////////////////////////////////////////// // // "Repeatable Read" (Snapshot Isolation) Example // -- Using a single Snapshot // //////////////////////////////////////////////////////// // Set a snapshot at start of transaction by setting set_snapshot=true txn_options.set_snapshot = true; txn = txn_db->BeginTransaction(write_options, txn_options); const Snapshot* snapshot = txn->GetSnapshot(); // Write a key OUTSIDE of transaction db->Put(write_options, "abc", "xyz"); // Read a key using the snapshot read_options.snapshot = snapshot; s = txn->GetForUpdate(read_options, "abc", &value); assert(value == "def"); // Attempt to commit transaction s = txn->Commit(); // Transaction could not commit since the write outside of the txn conflicted // with the read! assert(s.IsBusy()); delete txn; // Clear snapshot from read options since it is no longer valid read_options.snapshot = nullptr; snapshot = nullptr; //////////////////////////////////////////////////////// // // "Read Committed" (Monotonic Atomic Views) Example // --Using multiple Snapshots // //////////////////////////////////////////////////////// // In this example, we set the snapshot multiple times. This is probably // only necessary if you have very strict isolation requirements to // implement. // Set a snapshot at start of transaction txn_options.set_snapshot = true; txn = txn_db->BeginTransaction(write_options, txn_options); // Do some reads and writes to key "x" read_options.snapshot = db->GetSnapshot(); s = txn->Get(read_options, "x", &value); txn->Put("x", "x"); // Do a write outside of the transaction to key "y" s = db->Put(write_options, "y", "y"); // Set a new snapshot in the transaction txn->SetSnapshot(); read_options.snapshot = db->GetSnapshot(); // Do some reads and writes to key "y" s = txn->GetForUpdate(read_options, "y", &value); txn->Put("y", "y"); // Commit. Since the snapshot was advanced, the write done outside of the // transaction does not prevent this transaction from Committing. s = txn->Commit(); assert(s.ok()); delete txn; // Clear snapshot from read options since it is no longer valid read_options.snapshot = nullptr; // Cleanup delete txn_db; DestroyDB(kDBPath, options); return 0; } #endif // ROCKSDB_LITE rocksdb-5.17.2/examples/options_file_example.cc000066400000000000000000000077211337235545400216110ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file demonstrates how to use the utility functions defined in // rocksdb/utilities/options_util.h to open a rocksdb database without // remembering all the rocksdb options. #include #include #include #include "rocksdb/cache.h" #include "rocksdb/compaction_filter.h" #include "rocksdb/db.h" #include "rocksdb/options.h" #include "rocksdb/slice.h" #include "rocksdb/table.h" #include "rocksdb/utilities/options_util.h" using namespace rocksdb; std::string kDBPath = "/tmp/rocksdb_options_file_example"; namespace { // A dummy compaction filter class DummyCompactionFilter : public CompactionFilter { public: virtual ~DummyCompactionFilter() {} virtual bool Filter(int level, const Slice& key, const Slice& existing_value, std::string* new_value, bool* value_changed) const { return false; } virtual const char* Name() const { return "DummyCompactionFilter"; } }; } // namespace int main() { DBOptions db_opt; db_opt.create_if_missing = true; std::vector cf_descs; cf_descs.push_back({kDefaultColumnFamilyName, ColumnFamilyOptions()}); cf_descs.push_back({"new_cf", ColumnFamilyOptions()}); // initialize BlockBasedTableOptions auto cache = NewLRUCache(1 * 1024 * 1024 * 1024); BlockBasedTableOptions bbt_opts; bbt_opts.block_size = 32 * 1024; bbt_opts.block_cache = cache; // initialize column families options std::unique_ptr compaction_filter; compaction_filter.reset(new DummyCompactionFilter()); cf_descs[0].options.table_factory.reset(NewBlockBasedTableFactory(bbt_opts)); cf_descs[0].options.compaction_filter = compaction_filter.get(); cf_descs[1].options.table_factory.reset(NewBlockBasedTableFactory(bbt_opts)); // destroy and open DB DB* db; Status s = DestroyDB(kDBPath, Options(db_opt, cf_descs[0].options)); assert(s.ok()); s = DB::Open(Options(db_opt, cf_descs[0].options), kDBPath, &db); assert(s.ok()); // Create column family, and rocksdb will persist the options. ColumnFamilyHandle* cf; s = db->CreateColumnFamily(ColumnFamilyOptions(), "new_cf", &cf); assert(s.ok()); // close DB delete cf; delete db; // In the following code, we will reopen the rocksdb instance using // the options file stored in the db directory. // Load the options file. DBOptions loaded_db_opt; std::vector loaded_cf_descs; s = LoadLatestOptions(kDBPath, Env::Default(), &loaded_db_opt, &loaded_cf_descs); assert(s.ok()); assert(loaded_db_opt.create_if_missing == db_opt.create_if_missing); // Initialize pointer options for each column family for (size_t i = 0; i < loaded_cf_descs.size(); ++i) { auto* loaded_bbt_opt = reinterpret_cast( loaded_cf_descs[0].options.table_factory->GetOptions()); // Expect the same as BlockBasedTableOptions will be loaded form file. assert(loaded_bbt_opt->block_size == bbt_opts.block_size); // However, block_cache needs to be manually initialized as documented // in rocksdb/utilities/options_util.h. loaded_bbt_opt->block_cache = cache; } // In addition, as pointer options are initialized with default value, // we need to properly initialized all the pointer options if non-defalut // values are used before calling DB::Open(). assert(loaded_cf_descs[0].options.compaction_filter == nullptr); loaded_cf_descs[0].options.compaction_filter = compaction_filter.get(); // reopen the db using the loaded options. std::vector handles; s = DB::Open(loaded_db_opt, kDBPath, loaded_cf_descs, &handles, &db); assert(s.ok()); // close DB for (auto* handle : handles) { delete handle; } delete db; } rocksdb-5.17.2/examples/rocksdb_option_file_example.ini000066400000000000000000000110671337235545400233250ustar00rootroot00000000000000# This is a RocksDB option file. # # A typical RocksDB options file has four sections, which are # Version section, DBOptions section, at least one CFOptions # section, and one TableOptions section for each column family. # The RocksDB options file in general follows the basic INI # file format with the following extensions / modifications: # # * Escaped characters # We escaped the following characters: # - \n -- line feed - new line # - \r -- carriage return # - \\ -- backslash \ # - \: -- colon symbol : # - \# -- hash tag # # * Comments # We support # style comments. Comments can appear at the ending # part of a line. # * Statements # A statement is of the form option_name = value. # Each statement contains a '=', where extra white-spaces # are supported. However, we don't support multi-lined statement. # Furthermore, each line can only contain at most one statement. # * Sections # Sections are of the form [SecitonTitle "SectionArgument"], # where section argument is optional. # * List # We use colon-separated string to represent a list. # For instance, n1:n2:n3:n4 is a list containing four values. # # Below is an example of a RocksDB options file: [Version] rocksdb_version=4.3.0 options_file_version=1.1 [DBOptions] stats_dump_period_sec=600 max_manifest_file_size=18446744073709551615 bytes_per_sync=8388608 delayed_write_rate=2097152 WAL_ttl_seconds=0 WAL_size_limit_MB=0 max_subcompactions=1 wal_dir= wal_bytes_per_sync=0 db_write_buffer_size=0 keep_log_file_num=1000 table_cache_numshardbits=4 max_file_opening_threads=1 writable_file_max_buffer_size=1048576 random_access_max_buffer_size=1048576 use_fsync=false max_total_wal_size=0 max_open_files=-1 skip_stats_update_on_db_open=false max_background_compactions=16 manifest_preallocation_size=4194304 max_background_flushes=7 is_fd_close_on_exec=true max_log_file_size=0 advise_random_on_open=true create_missing_column_families=false paranoid_checks=true delete_obsolete_files_period_micros=21600000000 log_file_time_to_roll=0 compaction_readahead_size=0 create_if_missing=false use_adaptive_mutex=false enable_thread_tracking=false allow_fallocate=true error_if_exists=false recycle_log_file_num=0 skip_log_error_on_recovery=false db_log_dir= new_table_reader_for_compaction_inputs=true allow_mmap_reads=false allow_mmap_writes=false use_direct_reads=false use_direct_writes=false [CFOptions "default"] compaction_style=kCompactionStyleLevel compaction_filter=nullptr num_levels=6 table_factory=BlockBasedTable comparator=leveldb.BytewiseComparator max_sequential_skip_in_iterations=8 soft_rate_limit=0.000000 max_bytes_for_level_base=1073741824 memtable_prefix_bloom_probes=6 memtable_prefix_bloom_bits=0 memtable_prefix_bloom_huge_page_tlb_size=0 max_successive_merges=0 arena_block_size=16777216 min_write_buffer_number_to_merge=1 target_file_size_multiplier=1 source_compaction_factor=1 max_bytes_for_level_multiplier=8 max_bytes_for_level_multiplier_additional=2:3:5 compaction_filter_factory=nullptr max_write_buffer_number=8 level0_stop_writes_trigger=20 compression=kSnappyCompression level0_file_num_compaction_trigger=4 purge_redundant_kvs_while_flush=true max_write_buffer_number_to_maintain=0 memtable_factory=SkipListFactory max_grandparent_overlap_factor=8 expanded_compaction_factor=25 hard_pending_compaction_bytes_limit=137438953472 inplace_update_num_locks=10000 level_compaction_dynamic_level_bytes=true level0_slowdown_writes_trigger=12 filter_deletes=false verify_checksums_in_compaction=true min_partial_merge_operands=2 paranoid_file_checks=false target_file_size_base=134217728 optimize_filters_for_hits=false merge_operator=PutOperator compression_per_level=kNoCompression:kNoCompression:kNoCompression:kSnappyCompression:kSnappyCompression:kSnappyCompression compaction_measure_io_stats=false prefix_extractor=nullptr bloom_locality=0 write_buffer_size=134217728 disable_auto_compactions=false inplace_update_support=false [TableOptions/BlockBasedTable "default"] format_version=2 whole_key_filtering=true no_block_cache=false checksum=kCRC32c filter_policy=rocksdb.BuiltinBloomFilter block_size_deviation=10 block_size=8192 block_restart_interval=16 cache_index_and_filter_blocks=false pin_l0_filter_and_index_blocks_in_cache=false pin_top_level_index_and_filter=false index_type=kBinarySearch hash_index_allow_collision=true flush_block_policy_factory=FlushBlockBySizePolicyFactory rocksdb-5.17.2/examples/simple_example.cc000066400000000000000000000045721337235545400204110ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include #include #include "rocksdb/db.h" #include "rocksdb/slice.h" #include "rocksdb/options.h" using namespace rocksdb; std::string kDBPath = "/tmp/rocksdb_simple_example"; int main() { DB* db; Options options; // Optimize RocksDB. This is the easiest way to get RocksDB to perform well options.IncreaseParallelism(); options.OptimizeLevelStyleCompaction(); // create the DB if it's not already present options.create_if_missing = true; // open DB Status s = DB::Open(options, kDBPath, &db); assert(s.ok()); // Put key-value s = db->Put(WriteOptions(), "key1", "value"); assert(s.ok()); std::string value; // get value s = db->Get(ReadOptions(), "key1", &value); assert(s.ok()); assert(value == "value"); // atomically apply a set of updates { WriteBatch batch; batch.Delete("key1"); batch.Put("key2", value); s = db->Write(WriteOptions(), &batch); } s = db->Get(ReadOptions(), "key1", &value); assert(s.IsNotFound()); db->Get(ReadOptions(), "key2", &value); assert(value == "value"); { PinnableSlice pinnable_val; db->Get(ReadOptions(), db->DefaultColumnFamily(), "key2", &pinnable_val); assert(pinnable_val == "value"); } { std::string string_val; // If it cannot pin the value, it copies the value to its internal buffer. // The intenral buffer could be set during construction. PinnableSlice pinnable_val(&string_val); db->Get(ReadOptions(), db->DefaultColumnFamily(), "key2", &pinnable_val); assert(pinnable_val == "value"); // If the value is not pinned, the internal buffer must have the value. assert(pinnable_val.IsPinned() || string_val == "value"); } PinnableSlice pinnable_val; db->Get(ReadOptions(), db->DefaultColumnFamily(), "key1", &pinnable_val); assert(s.IsNotFound()); // Reset PinnableSlice after each use and before each reuse pinnable_val.Reset(); db->Get(ReadOptions(), db->DefaultColumnFamily(), "key2", &pinnable_val); assert(pinnable_val == "value"); pinnable_val.Reset(); // The Slice pointed by pinnable_val is not valid after this point delete db; return 0; } rocksdb-5.17.2/examples/transaction_example.cc000066400000000000000000000102171337235545400214360ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #ifndef ROCKSDB_LITE #include "rocksdb/db.h" #include "rocksdb/options.h" #include "rocksdb/slice.h" #include "rocksdb/utilities/transaction.h" #include "rocksdb/utilities/transaction_db.h" using namespace rocksdb; std::string kDBPath = "/tmp/rocksdb_transaction_example"; int main() { // open DB Options options; TransactionDBOptions txn_db_options; options.create_if_missing = true; TransactionDB* txn_db; Status s = TransactionDB::Open(options, txn_db_options, kDBPath, &txn_db); assert(s.ok()); WriteOptions write_options; ReadOptions read_options; TransactionOptions txn_options; std::string value; //////////////////////////////////////////////////////// // // Simple Transaction Example ("Read Committed") // //////////////////////////////////////////////////////// // Start a transaction Transaction* txn = txn_db->BeginTransaction(write_options); assert(txn); // Read a key in this transaction s = txn->Get(read_options, "abc", &value); assert(s.IsNotFound()); // Write a key in this transaction s = txn->Put("abc", "def"); assert(s.ok()); // Read a key OUTSIDE this transaction. Does not affect txn. s = txn_db->Get(read_options, "abc", &value); // Write a key OUTSIDE of this transaction. // Does not affect txn since this is an unrelated key. If we wrote key 'abc' // here, the transaction would fail to commit. s = txn_db->Put(write_options, "xyz", "zzz"); // Commit transaction s = txn->Commit(); assert(s.ok()); delete txn; //////////////////////////////////////////////////////// // // "Repeatable Read" (Snapshot Isolation) Example // -- Using a single Snapshot // //////////////////////////////////////////////////////// // Set a snapshot at start of transaction by setting set_snapshot=true txn_options.set_snapshot = true; txn = txn_db->BeginTransaction(write_options, txn_options); const Snapshot* snapshot = txn->GetSnapshot(); // Write a key OUTSIDE of transaction s = txn_db->Put(write_options, "abc", "xyz"); assert(s.ok()); // Attempt to read a key using the snapshot. This will fail since // the previous write outside this txn conflicts with this read. read_options.snapshot = snapshot; s = txn->GetForUpdate(read_options, "abc", &value); assert(s.IsBusy()); txn->Rollback(); delete txn; // Clear snapshot from read options since it is no longer valid read_options.snapshot = nullptr; snapshot = nullptr; //////////////////////////////////////////////////////// // // "Read Committed" (Monotonic Atomic Views) Example // --Using multiple Snapshots // //////////////////////////////////////////////////////// // In this example, we set the snapshot multiple times. This is probably // only necessary if you have very strict isolation requirements to // implement. // Set a snapshot at start of transaction txn_options.set_snapshot = true; txn = txn_db->BeginTransaction(write_options, txn_options); // Do some reads and writes to key "x" read_options.snapshot = txn_db->GetSnapshot(); s = txn->Get(read_options, "x", &value); txn->Put("x", "x"); // Do a write outside of the transaction to key "y" s = txn_db->Put(write_options, "y", "y"); // Set a new snapshot in the transaction txn->SetSnapshot(); txn->SetSavePoint(); read_options.snapshot = txn_db->GetSnapshot(); // Do some reads and writes to key "y" // Since the snapshot was advanced, the write done outside of the // transaction does not conflict. s = txn->GetForUpdate(read_options, "y", &value); txn->Put("y", "y"); // Decide we want to revert the last write from this transaction. txn->RollbackToSavePoint(); // Commit. s = txn->Commit(); assert(s.ok()); delete txn; // Clear snapshot from read options since it is no longer valid read_options.snapshot = nullptr; // Cleanup delete txn_db; DestroyDB(kDBPath, options); return 0; } #endif // ROCKSDB_LITE rocksdb-5.17.2/hdfs/000077500000000000000000000000001337235545400141745ustar00rootroot00000000000000rocksdb-5.17.2/hdfs/README000066400000000000000000000016621337235545400150610ustar00rootroot00000000000000This directory contains the hdfs extensions needed to make rocksdb store files in HDFS. It has been compiled and testing against CDH 4.4 (2.0.0+1475-1.cdh4.4.0.p0.23~precise-cdh4.4.0). The configuration assumes that packages libhdfs0, libhdfs0-dev are installed which basically means that hdfs.h is in /usr/include and libhdfs in /usr/lib The env_hdfs.h file defines the rocksdb objects that are needed to talk to an underlying filesystem. If you want to compile rocksdb with hdfs support, please set the following environment variables appropriately (also defined in setup.sh for convenience) USE_HDFS=1 JAVA_HOME=/usr/local/jdk-7u79-64 LD_LIBRARY_PATH=$LD_LIBRARY_PATH:/usr/local/jdk-7u79-64/jre/lib/amd64/server:/usr/local/jdk-7u79-64/jre/lib/amd64/:./snappy/libs make clean all db_bench To run dbbench, set CLASSPATH to include your hadoop distribution db_bench --hdfs="hdfs://hbaseudbperf001.snc1.facebook.com:9000" rocksdb-5.17.2/hdfs/env_hdfs.h000066400000000000000000000270531337235545400161500ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // #pragma once #include #include #include #include #include "port/sys_time.h" #include "rocksdb/env.h" #include "rocksdb/status.h" #ifdef USE_HDFS #include namespace rocksdb { // Thrown during execution when there is an issue with the supplied // arguments. class HdfsUsageException : public std::exception { }; // A simple exception that indicates something went wrong that is not // recoverable. The intention is for the message to be printed (with // nothing else) and the process terminate. class HdfsFatalException : public std::exception { public: explicit HdfsFatalException(const std::string& s) : what_(s) { } virtual ~HdfsFatalException() throw() { } virtual const char* what() const throw() { return what_.c_str(); } private: const std::string what_; }; // // The HDFS environment for rocksdb. This class overrides all the // file/dir access methods and delegates the thread-mgmt methods to the // default posix environment. // class HdfsEnv : public Env { public: explicit HdfsEnv(const std::string& fsname) : fsname_(fsname) { posixEnv = Env::Default(); fileSys_ = connectToPath(fsname_); } virtual ~HdfsEnv() { fprintf(stderr, "Destroying HdfsEnv::Default()\n"); hdfsDisconnect(fileSys_); } virtual Status NewSequentialFile(const std::string& fname, std::unique_ptr* result, const EnvOptions& options); virtual Status NewRandomAccessFile(const std::string& fname, std::unique_ptr* result, const EnvOptions& options); virtual Status NewWritableFile(const std::string& fname, std::unique_ptr* result, const EnvOptions& options); virtual Status NewDirectory(const std::string& name, std::unique_ptr* result); virtual Status FileExists(const std::string& fname); virtual Status GetChildren(const std::string& path, std::vector* result); virtual Status DeleteFile(const std::string& fname); virtual Status CreateDir(const std::string& name); virtual Status CreateDirIfMissing(const std::string& name); virtual Status DeleteDir(const std::string& name); virtual Status GetFileSize(const std::string& fname, uint64_t* size); virtual Status GetFileModificationTime(const std::string& fname, uint64_t* file_mtime); virtual Status RenameFile(const std::string& src, const std::string& target); virtual Status LinkFile(const std::string& src, const std::string& target) { return Status::NotSupported(); // not supported } virtual Status LockFile(const std::string& fname, FileLock** lock); virtual Status UnlockFile(FileLock* lock); virtual Status NewLogger(const std::string& fname, std::shared_ptr* result); virtual void Schedule(void (*function)(void* arg), void* arg, Priority pri = LOW, void* tag = nullptr, void (*unschedFunction)(void* arg) = 0) { posixEnv->Schedule(function, arg, pri, tag, unschedFunction); } virtual int UnSchedule(void* tag, Priority pri) { return posixEnv->UnSchedule(tag, pri); } virtual void StartThread(void (*function)(void* arg), void* arg) { posixEnv->StartThread(function, arg); } virtual void WaitForJoin() { posixEnv->WaitForJoin(); } virtual unsigned int GetThreadPoolQueueLen(Priority pri = LOW) const override { return posixEnv->GetThreadPoolQueueLen(pri); } virtual Status GetTestDirectory(std::string* path) { return posixEnv->GetTestDirectory(path); } virtual uint64_t NowMicros() { return posixEnv->NowMicros(); } virtual void SleepForMicroseconds(int micros) { posixEnv->SleepForMicroseconds(micros); } virtual Status GetHostName(char* name, uint64_t len) { return posixEnv->GetHostName(name, len); } virtual Status GetCurrentTime(int64_t* unix_time) { return posixEnv->GetCurrentTime(unix_time); } virtual Status GetAbsolutePath(const std::string& db_path, std::string* output_path) { return posixEnv->GetAbsolutePath(db_path, output_path); } virtual void SetBackgroundThreads(int number, Priority pri = LOW) { posixEnv->SetBackgroundThreads(number, pri); } virtual int GetBackgroundThreads(Priority pri = LOW) { return posixEnv->GetBackgroundThreads(pri); } virtual void IncBackgroundThreadsIfNeeded(int number, Priority pri) override { posixEnv->IncBackgroundThreadsIfNeeded(number, pri); } virtual std::string TimeToString(uint64_t number) { return posixEnv->TimeToString(number); } static uint64_t gettid() { assert(sizeof(pthread_t) <= sizeof(uint64_t)); return (uint64_t)pthread_self(); } virtual uint64_t GetThreadID() const override { return HdfsEnv::gettid(); } private: std::string fsname_; // string of the form "hdfs://hostname:port/" hdfsFS fileSys_; // a single FileSystem object for all files Env* posixEnv; // This object is derived from Env, but not from // posixEnv. We have posixnv as an encapsulated // object here so that we can use posix timers, // posix threads, etc. static const std::string kProto; static const std::string pathsep; /** * If the URI is specified of the form hdfs://server:port/path, * then connect to the specified cluster * else connect to default. */ hdfsFS connectToPath(const std::string& uri) { if (uri.empty()) { return nullptr; } if (uri.find(kProto) != 0) { // uri doesn't start with hdfs:// -> use default:0, which is special // to libhdfs. return hdfsConnectNewInstance("default", 0); } const std::string hostport = uri.substr(kProto.length()); std::vector parts; split(hostport, ':', parts); if (parts.size() != 2) { throw HdfsFatalException("Bad uri for hdfs " + uri); } // parts[0] = hosts, parts[1] = port/xxx/yyy std::string host(parts[0]); std::string remaining(parts[1]); int rem = remaining.find(pathsep); std::string portStr = (rem == 0 ? remaining : remaining.substr(0, rem)); tPort port; port = atoi(portStr.c_str()); if (port == 0) { throw HdfsFatalException("Bad host-port for hdfs " + uri); } hdfsFS fs = hdfsConnectNewInstance(host.c_str(), port); return fs; } void split(const std::string &s, char delim, std::vector &elems) { elems.clear(); size_t prev = 0; size_t pos = s.find(delim); while (pos != std::string::npos) { elems.push_back(s.substr(prev, pos)); prev = pos + 1; pos = s.find(delim, prev); } elems.push_back(s.substr(prev, s.size())); } }; } // namespace rocksdb #else // USE_HDFS namespace rocksdb { static const Status notsup; class HdfsEnv : public Env { public: explicit HdfsEnv(const std::string& /*fsname*/) { fprintf(stderr, "You have not build rocksdb with HDFS support\n"); fprintf(stderr, "Please see hdfs/README for details\n"); abort(); } virtual ~HdfsEnv() { } virtual Status NewSequentialFile(const std::string& fname, unique_ptr* result, const EnvOptions& options) override; virtual Status NewRandomAccessFile(const std::string& /*fname*/, unique_ptr* /*result*/, const EnvOptions& /*options*/) override { return notsup; } virtual Status NewWritableFile(const std::string& /*fname*/, unique_ptr* /*result*/, const EnvOptions& /*options*/) override { return notsup; } virtual Status NewDirectory(const std::string& /*name*/, unique_ptr* /*result*/) override { return notsup; } virtual Status FileExists(const std::string& /*fname*/) override { return notsup; } virtual Status GetChildren(const std::string& /*path*/, std::vector* /*result*/) override { return notsup; } virtual Status DeleteFile(const std::string& /*fname*/) override { return notsup; } virtual Status CreateDir(const std::string& /*name*/) override { return notsup; } virtual Status CreateDirIfMissing(const std::string& /*name*/) override { return notsup; } virtual Status DeleteDir(const std::string& /*name*/) override { return notsup; } virtual Status GetFileSize(const std::string& /*fname*/, uint64_t* /*size*/) override { return notsup; } virtual Status GetFileModificationTime(const std::string& /*fname*/, uint64_t* /*time*/) override { return notsup; } virtual Status RenameFile(const std::string& /*src*/, const std::string& /*target*/) override { return notsup; } virtual Status LinkFile(const std::string& /*src*/, const std::string& /*target*/) override { return notsup; } virtual Status LockFile(const std::string& /*fname*/, FileLock** /*lock*/) override { return notsup; } virtual Status UnlockFile(FileLock* /*lock*/) override { return notsup; } virtual Status NewLogger(const std::string& /*fname*/, shared_ptr* /*result*/) override { return notsup; } virtual void Schedule(void (* /*function*/)(void* arg), void* /*arg*/, Priority /*pri*/ = LOW, void* /*tag*/ = nullptr, void (* /*unschedFunction*/)(void* arg) = 0) override {} virtual int UnSchedule(void* /*tag*/, Priority /*pri*/) override { return 0; } virtual void StartThread(void (* /*function*/)(void* arg), void* /*arg*/) override {} virtual void WaitForJoin() override {} virtual unsigned int GetThreadPoolQueueLen( Priority /*pri*/ = LOW) const override { return 0; } virtual Status GetTestDirectory(std::string* /*path*/) override { return notsup; } virtual uint64_t NowMicros() override { return 0; } virtual void SleepForMicroseconds(int /*micros*/) override {} virtual Status GetHostName(char* /*name*/, uint64_t /*len*/) override { return notsup; } virtual Status GetCurrentTime(int64_t* /*unix_time*/) override { return notsup; } virtual Status GetAbsolutePath(const std::string& /*db_path*/, std::string* /*outputpath*/) override { return notsup; } virtual void SetBackgroundThreads(int /*number*/, Priority /*pri*/ = LOW) override {} virtual int GetBackgroundThreads(Priority /*pri*/ = LOW) override { return 0; } virtual void IncBackgroundThreadsIfNeeded(int /*number*/, Priority /*pri*/) override {} virtual std::string TimeToString(uint64_t /*number*/) override { return ""; } virtual uint64_t GetThreadID() const override { return 0; } }; } #endif // USE_HDFS rocksdb-5.17.2/hdfs/setup.sh000066400000000000000000000006641337235545400156760ustar00rootroot00000000000000# shellcheck disable=SC2148 export USE_HDFS=1 export LD_LIBRARY_PATH=$JAVA_HOME/jre/lib/amd64/server:$JAVA_HOME/jre/lib/amd64:/usr/lib/hadoop/lib/native export CLASSPATH= for f in `find /usr/lib/hadoop-hdfs | grep jar`; do export CLASSPATH=$CLASSPATH:$f; done for f in `find /usr/lib/hadoop | grep jar`; do export CLASSPATH=$CLASSPATH:$f; done for f in `find /usr/lib/hadoop/client | grep jar`; do export CLASSPATH=$CLASSPATH:$f; done rocksdb-5.17.2/include/000077500000000000000000000000001337235545400146735ustar00rootroot00000000000000rocksdb-5.17.2/include/rocksdb/000077500000000000000000000000001337235545400163225ustar00rootroot00000000000000rocksdb-5.17.2/include/rocksdb/advanced_options.h000066400000000000000000000647651337235545400220350ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #include #include "rocksdb/memtablerep.h" #include "rocksdb/universal_compaction.h" namespace rocksdb { class Slice; class SliceTransform; enum CompressionType : unsigned char; class TablePropertiesCollectorFactory; class TableFactory; struct Options; enum CompactionStyle : char { // level based compaction style kCompactionStyleLevel = 0x0, // Universal compaction style // Not supported in ROCKSDB_LITE. kCompactionStyleUniversal = 0x1, // FIFO compaction style // Not supported in ROCKSDB_LITE kCompactionStyleFIFO = 0x2, // Disable background compaction. Compaction jobs are submitted // via CompactFiles(). // Not supported in ROCKSDB_LITE kCompactionStyleNone = 0x3, }; // In Level-based compaction, it Determines which file from a level to be // picked to merge to the next level. We suggest people try // kMinOverlappingRatio first when you tune your database. enum CompactionPri : char { // Slightly prioritize larger files by size compensated by #deletes kByCompensatedSize = 0x0, // First compact files whose data's latest update time is oldest. // Try this if you only update some hot keys in small ranges. kOldestLargestSeqFirst = 0x1, // First compact files whose range hasn't been compacted to the next level // for the longest. If your updates are random across the key space, // write amplification is slightly better with this option. kOldestSmallestSeqFirst = 0x2, // First compact files whose ratio between overlapping size in next level // and its size is the smallest. It in many cases can optimize write // amplification. kMinOverlappingRatio = 0x3, }; struct CompactionOptionsFIFO { // once the total sum of table files reaches this, we will delete the oldest // table file // Default: 1GB uint64_t max_table_files_size; // Drop files older than TTL. TTL based deletion will take precedence over // size based deletion if ttl > 0. // delete if sst_file_creation_time < (current_time - ttl) // unit: seconds. Ex: 1 day = 1 * 24 * 60 * 60 // Default: 0 (disabled) uint64_t ttl = 0; // If true, try to do compaction to compact smaller files into larger ones. // Minimum files to compact follows options.level0_file_num_compaction_trigger // and compaction won't trigger if average compact bytes per del file is // larger than options.write_buffer_size. This is to protect large files // from being compacted again. // Default: false; bool allow_compaction = false; CompactionOptionsFIFO() : max_table_files_size(1 * 1024 * 1024 * 1024) {} CompactionOptionsFIFO(uint64_t _max_table_files_size, bool _allow_compaction, uint64_t _ttl = 0) : max_table_files_size(_max_table_files_size), ttl(_ttl), allow_compaction(_allow_compaction) {} }; // Compression options for different compression algorithms like Zlib struct CompressionOptions { // RocksDB's generic default compression level. Internally it'll be translated // to the default compression level specific to the library being used (see // comment above `ColumnFamilyOptions::compression`). // // The default value is the max 16-bit int as it'll be written out in OPTIONS // file, which should be portable. const static int kDefaultCompressionLevel = 32767; int window_bits; int level; int strategy; // Maximum size of dictionaries used to prime the compression library. // Enabling dictionary can improve compression ratios when there are // repetitions across data blocks. // // The dictionary is created by sampling the SST file data. If // `zstd_max_train_bytes` is nonzero, the samples are passed through zstd's // dictionary generator. Otherwise, the random samples are used directly as // the dictionary. // // When compression dictionary is disabled, we compress and write each block // before buffering data for the next one. When compression dictionary is // enabled, we buffer all SST file data in-memory so we can sample it, as data // can only be compressed and written after the dictionary has been finalized. // So users of this feature may see increased memory usage. // // Default: 0. uint32_t max_dict_bytes; // Maximum size of training data passed to zstd's dictionary trainer. Using // zstd's dictionary trainer can achieve even better compression ratio // improvements than using `max_dict_bytes` alone. // // The training data will be used to generate a dictionary of max_dict_bytes. // // Default: 0. uint32_t zstd_max_train_bytes; // When the compression options are set by the user, it will be set to "true". // For bottommost_compression_opts, to enable it, user must set enabled=true. // Otherwise, bottommost compression will use compression_opts as default // compression options. // // For compression_opts, if compression_opts.enabled=false, it is still // used as compression options for compression process. // // Default: false. bool enabled; CompressionOptions() : window_bits(-14), level(kDefaultCompressionLevel), strategy(0), max_dict_bytes(0), zstd_max_train_bytes(0), enabled(false) {} CompressionOptions(int wbits, int _lev, int _strategy, int _max_dict_bytes, int _zstd_max_train_bytes, bool _enabled) : window_bits(wbits), level(_lev), strategy(_strategy), max_dict_bytes(_max_dict_bytes), zstd_max_train_bytes(_zstd_max_train_bytes), enabled(_enabled) {} }; enum UpdateStatus { // Return status For inplace update callback UPDATE_FAILED = 0, // Nothing to update UPDATED_INPLACE = 1, // Value updated inplace UPDATED = 2, // No inplace update. Merged value set }; struct AdvancedColumnFamilyOptions { // The maximum number of write buffers that are built up in memory. // The default and the minimum number is 2, so that when 1 write buffer // is being flushed to storage, new writes can continue to the other // write buffer. // If max_write_buffer_number > 3, writing will be slowed down to // options.delayed_write_rate if we are writing to the last write buffer // allowed. // // Default: 2 // // Dynamically changeable through SetOptions() API int max_write_buffer_number = 2; // The minimum number of write buffers that will be merged together // before writing to storage. If set to 1, then // all write buffers are flushed to L0 as individual files and this increases // read amplification because a get request has to check in all of these // files. Also, an in-memory merge may result in writing lesser // data to storage if there are duplicate records in each of these // individual write buffers. Default: 1 int min_write_buffer_number_to_merge = 1; // The total maximum number of write buffers to maintain in memory including // copies of buffers that have already been flushed. Unlike // max_write_buffer_number, this parameter does not affect flushing. // This controls the minimum amount of write history that will be available // in memory for conflict checking when Transactions are used. // // When using an OptimisticTransactionDB: // If this value is too low, some transactions may fail at commit time due // to not being able to determine whether there were any write conflicts. // // When using a TransactionDB: // If Transaction::SetSnapshot is used, TransactionDB will read either // in-memory write buffers or SST files to do write-conflict checking. // Increasing this value can reduce the number of reads to SST files // done for conflict detection. // // Setting this value to 0 will cause write buffers to be freed immediately // after they are flushed. // If this value is set to -1, 'max_write_buffer_number' will be used. // // Default: // If using a TransactionDB/OptimisticTransactionDB, the default value will // be set to the value of 'max_write_buffer_number' if it is not explicitly // set by the user. Otherwise, the default is 0. int max_write_buffer_number_to_maintain = 0; // Allows thread-safe inplace updates. If this is true, there is no way to // achieve point-in-time consistency using snapshot or iterator (assuming // concurrent updates). Hence iterator and multi-get will return results // which are not consistent as of any point-in-time. // If inplace_callback function is not set, // Put(key, new_value) will update inplace the existing_value iff // * key exists in current memtable // * new sizeof(new_value) <= sizeof(existing_value) // * existing_value for that key is a put i.e. kTypeValue // If inplace_callback function is set, check doc for inplace_callback. // Default: false. bool inplace_update_support = false; // Number of locks used for inplace update // Default: 10000, if inplace_update_support = true, else 0. // // Dynamically changeable through SetOptions() API size_t inplace_update_num_locks = 10000; // existing_value - pointer to previous value (from both memtable and sst). // nullptr if key doesn't exist // existing_value_size - pointer to size of existing_value). // nullptr if key doesn't exist // delta_value - Delta value to be merged with the existing_value. // Stored in transaction logs. // merged_value - Set when delta is applied on the previous value. // Applicable only when inplace_update_support is true, // this callback function is called at the time of updating the memtable // as part of a Put operation, lets say Put(key, delta_value). It allows the // 'delta_value' specified as part of the Put operation to be merged with // an 'existing_value' of the key in the database. // If the merged value is smaller in size that the 'existing_value', // then this function can update the 'existing_value' buffer inplace and // the corresponding 'existing_value'_size pointer, if it wishes to. // The callback should return UpdateStatus::UPDATED_INPLACE. // In this case. (In this case, the snapshot-semantics of the rocksdb // Iterator is not atomic anymore). // If the merged value is larger in size than the 'existing_value' or the // application does not wish to modify the 'existing_value' buffer inplace, // then the merged value should be returned via *merge_value. It is set by // merging the 'existing_value' and the Put 'delta_value'. The callback should // return UpdateStatus::UPDATED in this case. This merged value will be added // to the memtable. // If merging fails or the application does not wish to take any action, // then the callback should return UpdateStatus::UPDATE_FAILED. // Please remember that the original call from the application is Put(key, // delta_value). So the transaction log (if enabled) will still contain (key, // delta_value). The 'merged_value' is not stored in the transaction log. // Hence the inplace_callback function should be consistent across db reopens. // Default: nullptr UpdateStatus (*inplace_callback)(char* existing_value, uint32_t* existing_value_size, Slice delta_value, std::string* merged_value) = nullptr; // if prefix_extractor is set and memtable_prefix_bloom_size_ratio is not 0, // create prefix bloom for memtable with the size of // write_buffer_size * memtable_prefix_bloom_size_ratio. // If it is larger than 0.25, it is sanitized to 0.25. // // Default: 0 (disable) // // Dynamically changeable through SetOptions() API double memtable_prefix_bloom_size_ratio = 0.0; // Page size for huge page for the arena used by the memtable. If <=0, it // won't allocate from huge page but from malloc. // Users are responsible to reserve huge pages for it to be allocated. For // example: // sysctl -w vm.nr_hugepages=20 // See linux doc Documentation/vm/hugetlbpage.txt // If there isn't enough free huge page available, it will fall back to // malloc. // // Dynamically changeable through SetOptions() API size_t memtable_huge_page_size = 0; // If non-nullptr, memtable will use the specified function to extract // prefixes for keys, and for each prefix maintain a hint of insert location // to reduce CPU usage for inserting keys with the prefix. Keys out of // domain of the prefix extractor will be insert without using hints. // // Currently only the default skiplist based memtable implements the feature. // All other memtable implementation will ignore the option. It incurs ~250 // additional bytes of memory overhead to store a hint for each prefix. // Also concurrent writes (when allow_concurrent_memtable_write is true) will // ignore the option. // // The option is best suited for workloads where keys will likely to insert // to a location close the last inserted key with the same prefix. // One example could be inserting keys of the form (prefix + timestamp), // and keys of the same prefix always comes in with time order. Another // example would be updating the same key over and over again, in which case // the prefix can be the key itself. // // Default: nullptr (disable) std::shared_ptr memtable_insert_with_hint_prefix_extractor = nullptr; // Control locality of bloom filter probes to improve cache miss rate. // This option only applies to memtable prefix bloom and plaintable // prefix bloom. It essentially limits every bloom checking to one cache line. // This optimization is turned off when set to 0, and positive number to turn // it on. // Default: 0 uint32_t bloom_locality = 0; // size of one block in arena memory allocation. // If <= 0, a proper value is automatically calculated (usually 1/8 of // writer_buffer_size, rounded up to a multiple of 4KB). // // There are two additional restriction of the specified size: // (1) size should be in the range of [4096, 2 << 30] and // (2) be the multiple of the CPU word (which helps with the memory // alignment). // // We'll automatically check and adjust the size number to make sure it // conforms to the restrictions. // // Default: 0 // // Dynamically changeable through SetOptions() API size_t arena_block_size = 0; // Different levels can have different compression policies. There // are cases where most lower levels would like to use quick compression // algorithms while the higher levels (which have more data) use // compression algorithms that have better compression but could // be slower. This array, if non-empty, should have an entry for // each level of the database; these override the value specified in // the previous field 'compression'. // // NOTICE if level_compaction_dynamic_level_bytes=true, // compression_per_level[0] still determines L0, but other elements // of the array are based on base level (the level L0 files are merged // to), and may not match the level users see from info log for metadata. // If L0 files are merged to level-n, then, for i>0, compression_per_level[i] // determines compaction type for level n+i-1. // For example, if we have three 5 levels, and we determine to merge L0 // data to L4 (which means L1..L3 will be empty), then the new files go to // L4 uses compression type compression_per_level[1]. // If now L0 is merged to L2. Data goes to L2 will be compressed // according to compression_per_level[1], L3 using compression_per_level[2] // and L4 using compression_per_level[3]. Compaction for each level can // change when data grows. std::vector compression_per_level; // Number of levels for this database int num_levels = 7; // Soft limit on number of level-0 files. We start slowing down writes at this // point. A value <0 means that no writing slow down will be triggered by // number of files in level-0. // // Default: 20 // // Dynamically changeable through SetOptions() API int level0_slowdown_writes_trigger = 20; // Maximum number of level-0 files. We stop writes at this point. // // Default: 36 // // Dynamically changeable through SetOptions() API int level0_stop_writes_trigger = 36; // Target file size for compaction. // target_file_size_base is per-file size for level-1. // Target file size for level L can be calculated by // target_file_size_base * (target_file_size_multiplier ^ (L-1)) // For example, if target_file_size_base is 2MB and // target_file_size_multiplier is 10, then each file on level-1 will // be 2MB, and each file on level 2 will be 20MB, // and each file on level-3 will be 200MB. // // Default: 64MB. // // Dynamically changeable through SetOptions() API uint64_t target_file_size_base = 64 * 1048576; // By default target_file_size_multiplier is 1, which means // by default files in different levels will have similar size. // // Dynamically changeable through SetOptions() API int target_file_size_multiplier = 1; // If true, RocksDB will pick target size of each level dynamically. // We will pick a base level b >= 1. L0 will be directly merged into level b, // instead of always into level 1. Level 1 to b-1 need to be empty. // We try to pick b and its target size so that // 1. target size is in the range of // (max_bytes_for_level_base / max_bytes_for_level_multiplier, // max_bytes_for_level_base] // 2. target size of the last level (level num_levels-1) equals to extra size // of the level. // At the same time max_bytes_for_level_multiplier and // max_bytes_for_level_multiplier_additional are still satisfied. // // With this option on, from an empty DB, we make last level the base level, // which means merging L0 data into the last level, until it exceeds // max_bytes_for_level_base. And then we make the second last level to be // base level, to start to merge L0 data to second last level, with its // target size to be 1/max_bytes_for_level_multiplier of the last level's // extra size. After the data accumulates more so that we need to move the // base level to the third last one, and so on. // // For example, assume max_bytes_for_level_multiplier=10, num_levels=6, // and max_bytes_for_level_base=10MB. // Target sizes of level 1 to 5 starts with: // [- - - - 10MB] // with base level is level. Target sizes of level 1 to 4 are not applicable // because they will not be used. // Until the size of Level 5 grows to more than 10MB, say 11MB, we make // base target to level 4 and now the targets looks like: // [- - - 1.1MB 11MB] // While data are accumulated, size targets are tuned based on actual data // of level 5. When level 5 has 50MB of data, the target is like: // [- - - 5MB 50MB] // Until level 5's actual size is more than 100MB, say 101MB. Now if we keep // level 4 to be the base level, its target size needs to be 10.1MB, which // doesn't satisfy the target size range. So now we make level 3 the target // size and the target sizes of the levels look like: // [- - 1.01MB 10.1MB 101MB] // In the same way, while level 5 further grows, all levels' targets grow, // like // [- - 5MB 50MB 500MB] // Until level 5 exceeds 1000MB and becomes 1001MB, we make level 2 the // base level and make levels' target sizes like this: // [- 1.001MB 10.01MB 100.1MB 1001MB] // and go on... // // By doing it, we give max_bytes_for_level_multiplier a priority against // max_bytes_for_level_base, for a more predictable LSM tree shape. It is // useful to limit worse case space amplification. // // max_bytes_for_level_multiplier_additional is ignored with this flag on. // // Turning this feature on or off for an existing DB can cause unexpected // LSM tree structure so it's not recommended. // // Default: false bool level_compaction_dynamic_level_bytes = false; // Default: 10. // // Dynamically changeable through SetOptions() API double max_bytes_for_level_multiplier = 10; // Different max-size multipliers for different levels. // These are multiplied by max_bytes_for_level_multiplier to arrive // at the max-size of each level. // // Default: 1 // // Dynamically changeable through SetOptions() API std::vector max_bytes_for_level_multiplier_additional = std::vector(num_levels, 1); // We try to limit number of bytes in one compaction to be lower than this // threshold. But it's not guaranteed. // Value 0 will be sanitized. // // Default: result.target_file_size_base * 25 uint64_t max_compaction_bytes = 0; // All writes will be slowed down to at least delayed_write_rate if estimated // bytes needed to be compaction exceed this threshold. // // Default: 64GB uint64_t soft_pending_compaction_bytes_limit = 64 * 1073741824ull; // All writes are stopped if estimated bytes needed to be compaction exceed // this threshold. // // Default: 256GB uint64_t hard_pending_compaction_bytes_limit = 256 * 1073741824ull; // The compaction style. Default: kCompactionStyleLevel CompactionStyle compaction_style = kCompactionStyleLevel; // If level compaction_style = kCompactionStyleLevel, for each level, // which files are prioritized to be picked to compact. // Default: kByCompensatedSize CompactionPri compaction_pri = kByCompensatedSize; // The options needed to support Universal Style compactions CompactionOptionsUniversal compaction_options_universal; // The options for FIFO compaction style // // Dynamically changeable through SetOptions() API // Dynamic change example: // SetOption("compaction_options_fifo", "{max_table_files_size=100;ttl=2;}") CompactionOptionsFIFO compaction_options_fifo; // An iteration->Next() sequentially skips over keys with the same // user-key unless this option is set. This number specifies the number // of keys (with the same userkey) that will be sequentially // skipped before a reseek is issued. // // Default: 8 // // Dynamically changeable through SetOptions() API uint64_t max_sequential_skip_in_iterations = 8; // This is a factory that provides MemTableRep objects. // Default: a factory that provides a skip-list-based implementation of // MemTableRep. std::shared_ptr memtable_factory = std::shared_ptr(new SkipListFactory); // Block-based table related options are moved to BlockBasedTableOptions. // Related options that were originally here but now moved include: // no_block_cache // block_cache // block_cache_compressed // block_size // block_size_deviation // block_restart_interval // filter_policy // whole_key_filtering // If you'd like to customize some of these options, you will need to // use NewBlockBasedTableFactory() to construct a new table factory. // This option allows user to collect their own interested statistics of // the tables. // Default: empty vector -- no user-defined statistics collection will be // performed. typedef std::vector> TablePropertiesCollectorFactories; TablePropertiesCollectorFactories table_properties_collector_factories; // Maximum number of successive merge operations on a key in the memtable. // // When a merge operation is added to the memtable and the maximum number of // successive merges is reached, the value of the key will be calculated and // inserted into the memtable instead of the merge operation. This will // ensure that there are never more than max_successive_merges merge // operations in the memtable. // // Default: 0 (disabled) // // Dynamically changeable through SetOptions() API size_t max_successive_merges = 0; // This flag specifies that the implementation should optimize the filters // mainly for cases where keys are found rather than also optimize for keys // missed. This would be used in cases where the application knows that // there are very few misses or the performance in the case of misses is not // important. // // For now, this flag allows us to not store filters for the last level i.e // the largest level which contains data of the LSM store. For keys which // are hits, the filters in this level are not useful because we will search // for the data anyway. NOTE: the filters in other levels are still useful // even for key hit because they tell us whether to look in that level or go // to the higher level. // // Default: false bool optimize_filters_for_hits = false; // After writing every SST file, reopen it and read all the keys. // Default: false bool paranoid_file_checks = false; // In debug mode, RocksDB run consistency checks on the LSM every time the LSM // change (Flush, Compaction, AddFile). These checks are disabled in release // mode, use this option to enable them in release mode as well. // Default: false bool force_consistency_checks = false; // Measure IO stats in compactions and flushes, if true. // Default: false bool report_bg_io_stats = false; // Non-bottom-level files older than TTL will go through the compaction // process. This needs max_open_files to be set to -1. // Enabled only for level compaction for now. // // Default: 0 (disabled) // // Dynamically changeable through SetOptions() API uint64_t ttl = 0; // Create ColumnFamilyOptions with default values for all fields AdvancedColumnFamilyOptions(); // Create ColumnFamilyOptions from Options explicit AdvancedColumnFamilyOptions(const Options& options); // ---------------- OPTIONS NOT SUPPORTED ANYMORE ---------------- // NOT SUPPORTED ANYMORE // This does not do anything anymore. int max_mem_compaction_level; // NOT SUPPORTED ANYMORE -- this options is no longer used // Puts are delayed to options.delayed_write_rate when any level has a // compaction score that exceeds soft_rate_limit. This is ignored when == 0.0. // // Default: 0 (disabled) // // Dynamically changeable through SetOptions() API double soft_rate_limit = 0.0; // NOT SUPPORTED ANYMORE -- this options is no longer used double hard_rate_limit = 0.0; // NOT SUPPORTED ANYMORE -- this options is no longer used unsigned int rate_limit_delay_max_milliseconds = 100; // NOT SUPPORTED ANYMORE // Does not have any effect. bool purge_redundant_kvs_while_flush = true; }; } // namespace rocksdb rocksdb-5.17.2/include/rocksdb/c.h000066400000000000000000002374121337235545400167260ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). /* Copyright (c) 2011 The LevelDB Authors. All rights reserved. Use of this source code is governed by a BSD-style license that can be found in the LICENSE file. See the AUTHORS file for names of contributors. C bindings for rocksdb. May be useful as a stable ABI that can be used by programs that keep rocksdb in a shared library, or for a JNI api. Does not support: . getters for the option types . custom comparators that implement key shortening . capturing post-write-snapshot . custom iter, db, env, cache implementations using just the C bindings Some conventions: (1) We expose just opaque struct pointers and functions to clients. This allows us to change internal representations without having to recompile clients. (2) For simplicity, there is no equivalent to the Slice type. Instead, the caller has to pass the pointer and length as separate arguments. (3) Errors are represented by a null-terminated c string. NULL means no error. All operations that can raise an error are passed a "char** errptr" as the last argument. One of the following must be true on entry: *errptr == NULL *errptr points to a malloc()ed null-terminated error message On success, a leveldb routine leaves *errptr unchanged. On failure, leveldb frees the old value of *errptr and set *errptr to a malloc()ed error message. (4) Bools have the type unsigned char (0 == false; rest == true) (5) All of the pointer arguments must be non-NULL. */ #pragma once #ifdef _WIN32 #ifdef ROCKSDB_DLL #ifdef ROCKSDB_LIBRARY_EXPORTS #define ROCKSDB_LIBRARY_API __declspec(dllexport) #else #define ROCKSDB_LIBRARY_API __declspec(dllimport) #endif #else #define ROCKSDB_LIBRARY_API #endif #else #define ROCKSDB_LIBRARY_API #endif #ifdef __cplusplus extern "C" { #endif #include #include #include /* Exported types */ typedef struct rocksdb_t rocksdb_t; typedef struct rocksdb_backup_engine_t rocksdb_backup_engine_t; typedef struct rocksdb_backup_engine_info_t rocksdb_backup_engine_info_t; typedef struct rocksdb_restore_options_t rocksdb_restore_options_t; typedef struct rocksdb_cache_t rocksdb_cache_t; typedef struct rocksdb_compactionfilter_t rocksdb_compactionfilter_t; typedef struct rocksdb_compactionfiltercontext_t rocksdb_compactionfiltercontext_t; typedef struct rocksdb_compactionfilterfactory_t rocksdb_compactionfilterfactory_t; typedef struct rocksdb_comparator_t rocksdb_comparator_t; typedef struct rocksdb_dbpath_t rocksdb_dbpath_t; typedef struct rocksdb_env_t rocksdb_env_t; typedef struct rocksdb_fifo_compaction_options_t rocksdb_fifo_compaction_options_t; typedef struct rocksdb_filelock_t rocksdb_filelock_t; typedef struct rocksdb_filterpolicy_t rocksdb_filterpolicy_t; typedef struct rocksdb_flushoptions_t rocksdb_flushoptions_t; typedef struct rocksdb_iterator_t rocksdb_iterator_t; typedef struct rocksdb_logger_t rocksdb_logger_t; typedef struct rocksdb_mergeoperator_t rocksdb_mergeoperator_t; typedef struct rocksdb_options_t rocksdb_options_t; typedef struct rocksdb_compactoptions_t rocksdb_compactoptions_t; typedef struct rocksdb_block_based_table_options_t rocksdb_block_based_table_options_t; typedef struct rocksdb_cuckoo_table_options_t rocksdb_cuckoo_table_options_t; typedef struct rocksdb_randomfile_t rocksdb_randomfile_t; typedef struct rocksdb_readoptions_t rocksdb_readoptions_t; typedef struct rocksdb_seqfile_t rocksdb_seqfile_t; typedef struct rocksdb_slicetransform_t rocksdb_slicetransform_t; typedef struct rocksdb_snapshot_t rocksdb_snapshot_t; typedef struct rocksdb_writablefile_t rocksdb_writablefile_t; typedef struct rocksdb_writebatch_t rocksdb_writebatch_t; typedef struct rocksdb_writebatch_wi_t rocksdb_writebatch_wi_t; typedef struct rocksdb_writeoptions_t rocksdb_writeoptions_t; typedef struct rocksdb_universal_compaction_options_t rocksdb_universal_compaction_options_t; typedef struct rocksdb_livefiles_t rocksdb_livefiles_t; typedef struct rocksdb_column_family_handle_t rocksdb_column_family_handle_t; typedef struct rocksdb_envoptions_t rocksdb_envoptions_t; typedef struct rocksdb_ingestexternalfileoptions_t rocksdb_ingestexternalfileoptions_t; typedef struct rocksdb_sstfilewriter_t rocksdb_sstfilewriter_t; typedef struct rocksdb_ratelimiter_t rocksdb_ratelimiter_t; typedef struct rocksdb_perfcontext_t rocksdb_perfcontext_t; typedef struct rocksdb_pinnableslice_t rocksdb_pinnableslice_t; typedef struct rocksdb_transactiondb_options_t rocksdb_transactiondb_options_t; typedef struct rocksdb_transactiondb_t rocksdb_transactiondb_t; typedef struct rocksdb_transaction_options_t rocksdb_transaction_options_t; typedef struct rocksdb_optimistictransactiondb_t rocksdb_optimistictransactiondb_t; typedef struct rocksdb_optimistictransaction_options_t rocksdb_optimistictransaction_options_t; typedef struct rocksdb_transaction_t rocksdb_transaction_t; typedef struct rocksdb_checkpoint_t rocksdb_checkpoint_t; typedef struct rocksdb_wal_iterator_t rocksdb_wal_iterator_t; typedef struct rocksdb_wal_readoptions_t rocksdb_wal_readoptions_t; typedef struct rocksdb_memory_consumers_t rocksdb_memory_consumers_t; typedef struct rocksdb_memory_usage_t rocksdb_memory_usage_t; /* DB operations */ extern ROCKSDB_LIBRARY_API rocksdb_t* rocksdb_open( const rocksdb_options_t* options, const char* name, char** errptr); extern ROCKSDB_LIBRARY_API rocksdb_t* rocksdb_open_with_ttl( const rocksdb_options_t* options, const char* name, int ttl, char** errptr); extern ROCKSDB_LIBRARY_API rocksdb_t* rocksdb_open_for_read_only( const rocksdb_options_t* options, const char* name, unsigned char error_if_log_file_exist, char** errptr); extern ROCKSDB_LIBRARY_API rocksdb_backup_engine_t* rocksdb_backup_engine_open( const rocksdb_options_t* options, const char* path, char** errptr); extern ROCKSDB_LIBRARY_API void rocksdb_backup_engine_create_new_backup( rocksdb_backup_engine_t* be, rocksdb_t* db, char** errptr); extern ROCKSDB_LIBRARY_API void rocksdb_backup_engine_create_new_backup_flush( rocksdb_backup_engine_t* be, rocksdb_t* db, unsigned char flush_before_backup, char** errptr); extern ROCKSDB_LIBRARY_API void rocksdb_backup_engine_purge_old_backups( rocksdb_backup_engine_t* be, uint32_t num_backups_to_keep, char** errptr); extern ROCKSDB_LIBRARY_API rocksdb_restore_options_t* rocksdb_restore_options_create(); extern ROCKSDB_LIBRARY_API void rocksdb_restore_options_destroy( rocksdb_restore_options_t* opt); extern ROCKSDB_LIBRARY_API void rocksdb_restore_options_set_keep_log_files( rocksdb_restore_options_t* opt, int v); extern ROCKSDB_LIBRARY_API void rocksdb_backup_engine_verify_backup(rocksdb_backup_engine_t* be, uint32_t backup_id, char** errptr); extern ROCKSDB_LIBRARY_API void rocksdb_backup_engine_restore_db_from_latest_backup( rocksdb_backup_engine_t* be, const char* db_dir, const char* wal_dir, const rocksdb_restore_options_t* restore_options, char** errptr); extern ROCKSDB_LIBRARY_API const rocksdb_backup_engine_info_t* rocksdb_backup_engine_get_backup_info(rocksdb_backup_engine_t* be); extern ROCKSDB_LIBRARY_API int rocksdb_backup_engine_info_count( const rocksdb_backup_engine_info_t* info); extern ROCKSDB_LIBRARY_API int64_t rocksdb_backup_engine_info_timestamp(const rocksdb_backup_engine_info_t* info, int index); extern ROCKSDB_LIBRARY_API uint32_t rocksdb_backup_engine_info_backup_id(const rocksdb_backup_engine_info_t* info, int index); extern ROCKSDB_LIBRARY_API uint64_t rocksdb_backup_engine_info_size(const rocksdb_backup_engine_info_t* info, int index); extern ROCKSDB_LIBRARY_API uint32_t rocksdb_backup_engine_info_number_files( const rocksdb_backup_engine_info_t* info, int index); extern ROCKSDB_LIBRARY_API void rocksdb_backup_engine_info_destroy( const rocksdb_backup_engine_info_t* info); extern ROCKSDB_LIBRARY_API void rocksdb_backup_engine_close( rocksdb_backup_engine_t* be); extern ROCKSDB_LIBRARY_API rocksdb_checkpoint_t* rocksdb_checkpoint_object_create(rocksdb_t* db, char** errptr); extern ROCKSDB_LIBRARY_API void rocksdb_checkpoint_create( rocksdb_checkpoint_t* checkpoint, const char* checkpoint_dir, uint64_t log_size_for_flush, char** errptr); extern ROCKSDB_LIBRARY_API void rocksdb_checkpoint_object_destroy( rocksdb_checkpoint_t* checkpoint); extern ROCKSDB_LIBRARY_API rocksdb_t* rocksdb_open_column_families( const rocksdb_options_t* options, const char* name, int num_column_families, const char** column_family_names, const rocksdb_options_t** column_family_options, rocksdb_column_family_handle_t** column_family_handles, char** errptr); extern ROCKSDB_LIBRARY_API rocksdb_t* rocksdb_open_for_read_only_column_families( const rocksdb_options_t* options, const char* name, int num_column_families, const char** column_family_names, const rocksdb_options_t** column_family_options, rocksdb_column_family_handle_t** column_family_handles, unsigned char error_if_log_file_exist, char** errptr); extern ROCKSDB_LIBRARY_API char** rocksdb_list_column_families( const rocksdb_options_t* options, const char* name, size_t* lencf, char** errptr); extern ROCKSDB_LIBRARY_API void rocksdb_list_column_families_destroy( char** list, size_t len); extern ROCKSDB_LIBRARY_API rocksdb_column_family_handle_t* rocksdb_create_column_family(rocksdb_t* db, const rocksdb_options_t* column_family_options, const char* column_family_name, char** errptr); extern ROCKSDB_LIBRARY_API void rocksdb_drop_column_family( rocksdb_t* db, rocksdb_column_family_handle_t* handle, char** errptr); extern ROCKSDB_LIBRARY_API void rocksdb_column_family_handle_destroy( rocksdb_column_family_handle_t*); extern ROCKSDB_LIBRARY_API void rocksdb_close(rocksdb_t* db); extern ROCKSDB_LIBRARY_API void rocksdb_put( rocksdb_t* db, const rocksdb_writeoptions_t* options, const char* key, size_t keylen, const char* val, size_t vallen, char** errptr); extern ROCKSDB_LIBRARY_API void rocksdb_put_cf( rocksdb_t* db, const rocksdb_writeoptions_t* options, rocksdb_column_family_handle_t* column_family, const char* key, size_t keylen, const char* val, size_t vallen, char** errptr); extern ROCKSDB_LIBRARY_API void rocksdb_delete( rocksdb_t* db, const rocksdb_writeoptions_t* options, const char* key, size_t keylen, char** errptr); extern ROCKSDB_LIBRARY_API void rocksdb_delete_cf( rocksdb_t* db, const rocksdb_writeoptions_t* options, rocksdb_column_family_handle_t* column_family, const char* key, size_t keylen, char** errptr); extern ROCKSDB_LIBRARY_API void rocksdb_merge( rocksdb_t* db, const rocksdb_writeoptions_t* options, const char* key, size_t keylen, const char* val, size_t vallen, char** errptr); extern ROCKSDB_LIBRARY_API void rocksdb_merge_cf( rocksdb_t* db, const rocksdb_writeoptions_t* options, rocksdb_column_family_handle_t* column_family, const char* key, size_t keylen, const char* val, size_t vallen, char** errptr); extern ROCKSDB_LIBRARY_API void rocksdb_write( rocksdb_t* db, const rocksdb_writeoptions_t* options, rocksdb_writebatch_t* batch, char** errptr); /* Returns NULL if not found. A malloc()ed array otherwise. Stores the length of the array in *vallen. */ extern ROCKSDB_LIBRARY_API char* rocksdb_get( rocksdb_t* db, const rocksdb_readoptions_t* options, const char* key, size_t keylen, size_t* vallen, char** errptr); extern ROCKSDB_LIBRARY_API char* rocksdb_get_cf( rocksdb_t* db, const rocksdb_readoptions_t* options, rocksdb_column_family_handle_t* column_family, const char* key, size_t keylen, size_t* vallen, char** errptr); // if values_list[i] == NULL and errs[i] == NULL, // then we got status.IsNotFound(), which we will not return. // all errors except status status.ok() and status.IsNotFound() are returned. // // errs, values_list and values_list_sizes must be num_keys in length, // allocated by the caller. // errs is a list of strings as opposed to the conventional one error, // where errs[i] is the status for retrieval of keys_list[i]. // each non-NULL errs entry is a malloc()ed, null terminated string. // each non-NULL values_list entry is a malloc()ed array, with // the length for each stored in values_list_sizes[i]. extern ROCKSDB_LIBRARY_API void rocksdb_multi_get( rocksdb_t* db, const rocksdb_readoptions_t* options, size_t num_keys, const char* const* keys_list, const size_t* keys_list_sizes, char** values_list, size_t* values_list_sizes, char** errs); extern ROCKSDB_LIBRARY_API void rocksdb_multi_get_cf( rocksdb_t* db, const rocksdb_readoptions_t* options, const rocksdb_column_family_handle_t* const* column_families, size_t num_keys, const char* const* keys_list, const size_t* keys_list_sizes, char** values_list, size_t* values_list_sizes, char** errs); extern ROCKSDB_LIBRARY_API rocksdb_iterator_t* rocksdb_create_iterator( rocksdb_t* db, const rocksdb_readoptions_t* options); extern ROCKSDB_LIBRARY_API rocksdb_wal_iterator_t* rocksdb_get_updates_since( rocksdb_t* db, uint64_t seq_number, const rocksdb_wal_readoptions_t* options, char** errptr ); extern ROCKSDB_LIBRARY_API rocksdb_iterator_t* rocksdb_create_iterator_cf( rocksdb_t* db, const rocksdb_readoptions_t* options, rocksdb_column_family_handle_t* column_family); extern ROCKSDB_LIBRARY_API void rocksdb_create_iterators( rocksdb_t *db, rocksdb_readoptions_t* opts, rocksdb_column_family_handle_t** column_families, rocksdb_iterator_t** iterators, size_t size, char** errptr); extern ROCKSDB_LIBRARY_API const rocksdb_snapshot_t* rocksdb_create_snapshot( rocksdb_t* db); extern ROCKSDB_LIBRARY_API void rocksdb_release_snapshot( rocksdb_t* db, const rocksdb_snapshot_t* snapshot); /* Returns NULL if property name is unknown. Else returns a pointer to a malloc()-ed null-terminated value. */ extern ROCKSDB_LIBRARY_API char* rocksdb_property_value(rocksdb_t* db, const char* propname); /* returns 0 on success, -1 otherwise */ int rocksdb_property_int( rocksdb_t* db, const char* propname, uint64_t *out_val); extern ROCKSDB_LIBRARY_API char* rocksdb_property_value_cf( rocksdb_t* db, rocksdb_column_family_handle_t* column_family, const char* propname); extern ROCKSDB_LIBRARY_API void rocksdb_approximate_sizes( rocksdb_t* db, int num_ranges, const char* const* range_start_key, const size_t* range_start_key_len, const char* const* range_limit_key, const size_t* range_limit_key_len, uint64_t* sizes); extern ROCKSDB_LIBRARY_API void rocksdb_approximate_sizes_cf( rocksdb_t* db, rocksdb_column_family_handle_t* column_family, int num_ranges, const char* const* range_start_key, const size_t* range_start_key_len, const char* const* range_limit_key, const size_t* range_limit_key_len, uint64_t* sizes); extern ROCKSDB_LIBRARY_API void rocksdb_compact_range(rocksdb_t* db, const char* start_key, size_t start_key_len, const char* limit_key, size_t limit_key_len); extern ROCKSDB_LIBRARY_API void rocksdb_compact_range_cf( rocksdb_t* db, rocksdb_column_family_handle_t* column_family, const char* start_key, size_t start_key_len, const char* limit_key, size_t limit_key_len); extern ROCKSDB_LIBRARY_API void rocksdb_compact_range_opt( rocksdb_t* db, rocksdb_compactoptions_t* opt, const char* start_key, size_t start_key_len, const char* limit_key, size_t limit_key_len); extern ROCKSDB_LIBRARY_API void rocksdb_compact_range_cf_opt( rocksdb_t* db, rocksdb_column_family_handle_t* column_family, rocksdb_compactoptions_t* opt, const char* start_key, size_t start_key_len, const char* limit_key, size_t limit_key_len); extern ROCKSDB_LIBRARY_API void rocksdb_delete_file(rocksdb_t* db, const char* name); extern ROCKSDB_LIBRARY_API const rocksdb_livefiles_t* rocksdb_livefiles( rocksdb_t* db); extern ROCKSDB_LIBRARY_API void rocksdb_flush( rocksdb_t* db, const rocksdb_flushoptions_t* options, char** errptr); extern ROCKSDB_LIBRARY_API void rocksdb_disable_file_deletions(rocksdb_t* db, char** errptr); extern ROCKSDB_LIBRARY_API void rocksdb_enable_file_deletions( rocksdb_t* db, unsigned char force, char** errptr); /* Management operations */ extern ROCKSDB_LIBRARY_API void rocksdb_destroy_db( const rocksdb_options_t* options, const char* name, char** errptr); extern ROCKSDB_LIBRARY_API void rocksdb_repair_db( const rocksdb_options_t* options, const char* name, char** errptr); /* Iterator */ extern ROCKSDB_LIBRARY_API void rocksdb_iter_destroy(rocksdb_iterator_t*); extern ROCKSDB_LIBRARY_API unsigned char rocksdb_iter_valid( const rocksdb_iterator_t*); extern ROCKSDB_LIBRARY_API void rocksdb_iter_seek_to_first(rocksdb_iterator_t*); extern ROCKSDB_LIBRARY_API void rocksdb_iter_seek_to_last(rocksdb_iterator_t*); extern ROCKSDB_LIBRARY_API void rocksdb_iter_seek(rocksdb_iterator_t*, const char* k, size_t klen); extern ROCKSDB_LIBRARY_API void rocksdb_iter_seek_for_prev(rocksdb_iterator_t*, const char* k, size_t klen); extern ROCKSDB_LIBRARY_API void rocksdb_iter_next(rocksdb_iterator_t*); extern ROCKSDB_LIBRARY_API void rocksdb_iter_prev(rocksdb_iterator_t*); extern ROCKSDB_LIBRARY_API const char* rocksdb_iter_key( const rocksdb_iterator_t*, size_t* klen); extern ROCKSDB_LIBRARY_API const char* rocksdb_iter_value( const rocksdb_iterator_t*, size_t* vlen); extern ROCKSDB_LIBRARY_API void rocksdb_iter_get_error( const rocksdb_iterator_t*, char** errptr); extern ROCKSDB_LIBRARY_API void rocksdb_wal_iter_next(rocksdb_wal_iterator_t* iter); extern ROCKSDB_LIBRARY_API unsigned char rocksdb_wal_iter_valid( const rocksdb_wal_iterator_t*); extern ROCKSDB_LIBRARY_API void rocksdb_wal_iter_status (const rocksdb_wal_iterator_t* iter, char** errptr) ; extern ROCKSDB_LIBRARY_API rocksdb_writebatch_t* rocksdb_wal_iter_get_batch (const rocksdb_wal_iterator_t* iter, uint64_t* seq) ; extern ROCKSDB_LIBRARY_API uint64_t rocksdb_get_latest_sequence_number (rocksdb_t *db); extern ROCKSDB_LIBRARY_API void rocksdb_wal_iter_destroy (const rocksdb_wal_iterator_t* iter) ; /* Write batch */ extern ROCKSDB_LIBRARY_API rocksdb_writebatch_t* rocksdb_writebatch_create(); extern ROCKSDB_LIBRARY_API rocksdb_writebatch_t* rocksdb_writebatch_create_from( const char* rep, size_t size); extern ROCKSDB_LIBRARY_API void rocksdb_writebatch_destroy( rocksdb_writebatch_t*); extern ROCKSDB_LIBRARY_API void rocksdb_writebatch_clear(rocksdb_writebatch_t*); extern ROCKSDB_LIBRARY_API int rocksdb_writebatch_count(rocksdb_writebatch_t*); extern ROCKSDB_LIBRARY_API void rocksdb_writebatch_put(rocksdb_writebatch_t*, const char* key, size_t klen, const char* val, size_t vlen); extern ROCKSDB_LIBRARY_API void rocksdb_writebatch_put_cf( rocksdb_writebatch_t*, rocksdb_column_family_handle_t* column_family, const char* key, size_t klen, const char* val, size_t vlen); extern ROCKSDB_LIBRARY_API void rocksdb_writebatch_putv( rocksdb_writebatch_t* b, int num_keys, const char* const* keys_list, const size_t* keys_list_sizes, int num_values, const char* const* values_list, const size_t* values_list_sizes); extern ROCKSDB_LIBRARY_API void rocksdb_writebatch_putv_cf( rocksdb_writebatch_t* b, rocksdb_column_family_handle_t* column_family, int num_keys, const char* const* keys_list, const size_t* keys_list_sizes, int num_values, const char* const* values_list, const size_t* values_list_sizes); extern ROCKSDB_LIBRARY_API void rocksdb_writebatch_merge(rocksdb_writebatch_t*, const char* key, size_t klen, const char* val, size_t vlen); extern ROCKSDB_LIBRARY_API void rocksdb_writebatch_merge_cf( rocksdb_writebatch_t*, rocksdb_column_family_handle_t* column_family, const char* key, size_t klen, const char* val, size_t vlen); extern ROCKSDB_LIBRARY_API void rocksdb_writebatch_mergev( rocksdb_writebatch_t* b, int num_keys, const char* const* keys_list, const size_t* keys_list_sizes, int num_values, const char* const* values_list, const size_t* values_list_sizes); extern ROCKSDB_LIBRARY_API void rocksdb_writebatch_mergev_cf( rocksdb_writebatch_t* b, rocksdb_column_family_handle_t* column_family, int num_keys, const char* const* keys_list, const size_t* keys_list_sizes, int num_values, const char* const* values_list, const size_t* values_list_sizes); extern ROCKSDB_LIBRARY_API void rocksdb_writebatch_delete(rocksdb_writebatch_t*, const char* key, size_t klen); extern ROCKSDB_LIBRARY_API void rocksdb_writebatch_delete_cf( rocksdb_writebatch_t*, rocksdb_column_family_handle_t* column_family, const char* key, size_t klen); extern ROCKSDB_LIBRARY_API void rocksdb_writebatch_deletev( rocksdb_writebatch_t* b, int num_keys, const char* const* keys_list, const size_t* keys_list_sizes); extern ROCKSDB_LIBRARY_API void rocksdb_writebatch_deletev_cf( rocksdb_writebatch_t* b, rocksdb_column_family_handle_t* column_family, int num_keys, const char* const* keys_list, const size_t* keys_list_sizes); extern ROCKSDB_LIBRARY_API void rocksdb_writebatch_delete_range( rocksdb_writebatch_t* b, const char* start_key, size_t start_key_len, const char* end_key, size_t end_key_len); extern ROCKSDB_LIBRARY_API void rocksdb_writebatch_delete_range_cf( rocksdb_writebatch_t* b, rocksdb_column_family_handle_t* column_family, const char* start_key, size_t start_key_len, const char* end_key, size_t end_key_len); extern ROCKSDB_LIBRARY_API void rocksdb_writebatch_delete_rangev( rocksdb_writebatch_t* b, int num_keys, const char* const* start_keys_list, const size_t* start_keys_list_sizes, const char* const* end_keys_list, const size_t* end_keys_list_sizes); extern ROCKSDB_LIBRARY_API void rocksdb_writebatch_delete_rangev_cf( rocksdb_writebatch_t* b, rocksdb_column_family_handle_t* column_family, int num_keys, const char* const* start_keys_list, const size_t* start_keys_list_sizes, const char* const* end_keys_list, const size_t* end_keys_list_sizes); extern ROCKSDB_LIBRARY_API void rocksdb_writebatch_put_log_data( rocksdb_writebatch_t*, const char* blob, size_t len); extern ROCKSDB_LIBRARY_API void rocksdb_writebatch_iterate( rocksdb_writebatch_t*, void* state, void (*put)(void*, const char* k, size_t klen, const char* v, size_t vlen), void (*deleted)(void*, const char* k, size_t klen)); extern ROCKSDB_LIBRARY_API const char* rocksdb_writebatch_data( rocksdb_writebatch_t*, size_t* size); extern ROCKSDB_LIBRARY_API void rocksdb_writebatch_set_save_point( rocksdb_writebatch_t*); extern ROCKSDB_LIBRARY_API void rocksdb_writebatch_rollback_to_save_point( rocksdb_writebatch_t*, char** errptr); extern ROCKSDB_LIBRARY_API void rocksdb_writebatch_pop_save_point( rocksdb_writebatch_t*, char** errptr); /* Write batch with index */ extern ROCKSDB_LIBRARY_API rocksdb_writebatch_wi_t* rocksdb_writebatch_wi_create( size_t reserved_bytes, unsigned char overwrite_keys); extern ROCKSDB_LIBRARY_API rocksdb_writebatch_wi_t* rocksdb_writebatch_wi_create_from( const char* rep, size_t size); extern ROCKSDB_LIBRARY_API void rocksdb_writebatch_wi_destroy( rocksdb_writebatch_wi_t*); extern ROCKSDB_LIBRARY_API void rocksdb_writebatch_wi_clear(rocksdb_writebatch_wi_t*); extern ROCKSDB_LIBRARY_API int rocksdb_writebatch_wi_count(rocksdb_writebatch_wi_t* b); extern ROCKSDB_LIBRARY_API void rocksdb_writebatch_wi_put(rocksdb_writebatch_wi_t*, const char* key, size_t klen, const char* val, size_t vlen); extern ROCKSDB_LIBRARY_API void rocksdb_writebatch_wi_put_cf( rocksdb_writebatch_wi_t*, rocksdb_column_family_handle_t* column_family, const char* key, size_t klen, const char* val, size_t vlen); extern ROCKSDB_LIBRARY_API void rocksdb_writebatch_wi_putv( rocksdb_writebatch_wi_t* b, int num_keys, const char* const* keys_list, const size_t* keys_list_sizes, int num_values, const char* const* values_list, const size_t* values_list_sizes); extern ROCKSDB_LIBRARY_API void rocksdb_writebatch_wi_putv_cf( rocksdb_writebatch_wi_t* b, rocksdb_column_family_handle_t* column_family, int num_keys, const char* const* keys_list, const size_t* keys_list_sizes, int num_values, const char* const* values_list, const size_t* values_list_sizes); extern ROCKSDB_LIBRARY_API void rocksdb_writebatch_wi_merge(rocksdb_writebatch_wi_t*, const char* key, size_t klen, const char* val, size_t vlen); extern ROCKSDB_LIBRARY_API void rocksdb_writebatch_wi_merge_cf( rocksdb_writebatch_wi_t*, rocksdb_column_family_handle_t* column_family, const char* key, size_t klen, const char* val, size_t vlen); extern ROCKSDB_LIBRARY_API void rocksdb_writebatch_wi_mergev( rocksdb_writebatch_wi_t* b, int num_keys, const char* const* keys_list, const size_t* keys_list_sizes, int num_values, const char* const* values_list, const size_t* values_list_sizes); extern ROCKSDB_LIBRARY_API void rocksdb_writebatch_wi_mergev_cf( rocksdb_writebatch_wi_t* b, rocksdb_column_family_handle_t* column_family, int num_keys, const char* const* keys_list, const size_t* keys_list_sizes, int num_values, const char* const* values_list, const size_t* values_list_sizes); extern ROCKSDB_LIBRARY_API void rocksdb_writebatch_wi_delete(rocksdb_writebatch_wi_t*, const char* key, size_t klen); extern ROCKSDB_LIBRARY_API void rocksdb_writebatch_wi_delete_cf( rocksdb_writebatch_wi_t*, rocksdb_column_family_handle_t* column_family, const char* key, size_t klen); extern ROCKSDB_LIBRARY_API void rocksdb_writebatch_wi_deletev( rocksdb_writebatch_wi_t* b, int num_keys, const char* const* keys_list, const size_t* keys_list_sizes); extern ROCKSDB_LIBRARY_API void rocksdb_writebatch_wi_deletev_cf( rocksdb_writebatch_wi_t* b, rocksdb_column_family_handle_t* column_family, int num_keys, const char* const* keys_list, const size_t* keys_list_sizes); extern ROCKSDB_LIBRARY_API void rocksdb_writebatch_wi_delete_range( rocksdb_writebatch_wi_t* b, const char* start_key, size_t start_key_len, const char* end_key, size_t end_key_len); extern ROCKSDB_LIBRARY_API void rocksdb_writebatch_wi_delete_range_cf( rocksdb_writebatch_wi_t* b, rocksdb_column_family_handle_t* column_family, const char* start_key, size_t start_key_len, const char* end_key, size_t end_key_len); extern ROCKSDB_LIBRARY_API void rocksdb_writebatch_wi_delete_rangev( rocksdb_writebatch_wi_t* b, int num_keys, const char* const* start_keys_list, const size_t* start_keys_list_sizes, const char* const* end_keys_list, const size_t* end_keys_list_sizes); extern ROCKSDB_LIBRARY_API void rocksdb_writebatch_wi_delete_rangev_cf( rocksdb_writebatch_wi_t* b, rocksdb_column_family_handle_t* column_family, int num_keys, const char* const* start_keys_list, const size_t* start_keys_list_sizes, const char* const* end_keys_list, const size_t* end_keys_list_sizes); extern ROCKSDB_LIBRARY_API void rocksdb_writebatch_wi_put_log_data( rocksdb_writebatch_wi_t*, const char* blob, size_t len); extern ROCKSDB_LIBRARY_API void rocksdb_writebatch_wi_iterate( rocksdb_writebatch_wi_t* b, void* state, void (*put)(void*, const char* k, size_t klen, const char* v, size_t vlen), void (*deleted)(void*, const char* k, size_t klen)); extern ROCKSDB_LIBRARY_API const char* rocksdb_writebatch_wi_data( rocksdb_writebatch_wi_t* b, size_t* size); extern ROCKSDB_LIBRARY_API void rocksdb_writebatch_wi_set_save_point( rocksdb_writebatch_wi_t*); extern ROCKSDB_LIBRARY_API void rocksdb_writebatch_wi_rollback_to_save_point( rocksdb_writebatch_wi_t*, char** errptr); extern ROCKSDB_LIBRARY_API char* rocksdb_writebatch_wi_get_from_batch( rocksdb_writebatch_wi_t* wbwi, const rocksdb_options_t* options, const char* key, size_t keylen, size_t* vallen, char** errptr); extern ROCKSDB_LIBRARY_API char* rocksdb_writebatch_wi_get_from_batch_cf( rocksdb_writebatch_wi_t* wbwi, const rocksdb_options_t* options, rocksdb_column_family_handle_t* column_family, const char* key, size_t keylen, size_t* vallen, char** errptr); extern ROCKSDB_LIBRARY_API char* rocksdb_writebatch_wi_get_from_batch_and_db( rocksdb_writebatch_wi_t* wbwi, rocksdb_t* db, const rocksdb_readoptions_t* options, const char* key, size_t keylen, size_t* vallen, char** errptr); extern ROCKSDB_LIBRARY_API char* rocksdb_writebatch_wi_get_from_batch_and_db_cf( rocksdb_writebatch_wi_t* wbwi, rocksdb_t* db, const rocksdb_readoptions_t* options, rocksdb_column_family_handle_t* column_family, const char* key, size_t keylen, size_t* vallen, char** errptr); extern ROCKSDB_LIBRARY_API void rocksdb_write_writebatch_wi( rocksdb_t* db, const rocksdb_writeoptions_t* options, rocksdb_writebatch_wi_t* wbwi, char** errptr); extern ROCKSDB_LIBRARY_API rocksdb_iterator_t* rocksdb_writebatch_wi_create_iterator_with_base( rocksdb_writebatch_wi_t* wbwi, rocksdb_iterator_t* base_iterator); extern ROCKSDB_LIBRARY_API rocksdb_iterator_t* rocksdb_writebatch_wi_create_iterator_with_base_cf( rocksdb_writebatch_wi_t* wbwi, rocksdb_iterator_t* base_iterator, rocksdb_column_family_handle_t* cf); /* Block based table options */ extern ROCKSDB_LIBRARY_API rocksdb_block_based_table_options_t* rocksdb_block_based_options_create(); extern ROCKSDB_LIBRARY_API void rocksdb_block_based_options_destroy( rocksdb_block_based_table_options_t* options); extern ROCKSDB_LIBRARY_API void rocksdb_block_based_options_set_block_size( rocksdb_block_based_table_options_t* options, size_t block_size); extern ROCKSDB_LIBRARY_API void rocksdb_block_based_options_set_block_size_deviation( rocksdb_block_based_table_options_t* options, int block_size_deviation); extern ROCKSDB_LIBRARY_API void rocksdb_block_based_options_set_block_restart_interval( rocksdb_block_based_table_options_t* options, int block_restart_interval); extern ROCKSDB_LIBRARY_API void rocksdb_block_based_options_set_index_block_restart_interval( rocksdb_block_based_table_options_t* options, int index_block_restart_interval); extern ROCKSDB_LIBRARY_API void rocksdb_block_based_options_set_metadata_block_size( rocksdb_block_based_table_options_t* options, uint64_t metadata_block_size); extern ROCKSDB_LIBRARY_API void rocksdb_block_based_options_set_partition_filters( rocksdb_block_based_table_options_t* options, unsigned char partition_filters); extern ROCKSDB_LIBRARY_API void rocksdb_block_based_options_set_use_delta_encoding( rocksdb_block_based_table_options_t* options, unsigned char use_delta_encoding); extern ROCKSDB_LIBRARY_API void rocksdb_block_based_options_set_filter_policy( rocksdb_block_based_table_options_t* options, rocksdb_filterpolicy_t* filter_policy); extern ROCKSDB_LIBRARY_API void rocksdb_block_based_options_set_no_block_cache( rocksdb_block_based_table_options_t* options, unsigned char no_block_cache); extern ROCKSDB_LIBRARY_API void rocksdb_block_based_options_set_block_cache( rocksdb_block_based_table_options_t* options, rocksdb_cache_t* block_cache); extern ROCKSDB_LIBRARY_API void rocksdb_block_based_options_set_block_cache_compressed( rocksdb_block_based_table_options_t* options, rocksdb_cache_t* block_cache_compressed); extern ROCKSDB_LIBRARY_API void rocksdb_block_based_options_set_whole_key_filtering( rocksdb_block_based_table_options_t*, unsigned char); extern ROCKSDB_LIBRARY_API void rocksdb_block_based_options_set_format_version( rocksdb_block_based_table_options_t*, int); enum { rocksdb_block_based_table_index_type_binary_search = 0, rocksdb_block_based_table_index_type_hash_search = 1, rocksdb_block_based_table_index_type_two_level_index_search = 2, }; extern ROCKSDB_LIBRARY_API void rocksdb_block_based_options_set_index_type( rocksdb_block_based_table_options_t*, int); // uses one of the above enums extern ROCKSDB_LIBRARY_API void rocksdb_block_based_options_set_hash_index_allow_collision( rocksdb_block_based_table_options_t*, unsigned char); extern ROCKSDB_LIBRARY_API void rocksdb_block_based_options_set_cache_index_and_filter_blocks( rocksdb_block_based_table_options_t*, unsigned char); extern ROCKSDB_LIBRARY_API void rocksdb_block_based_options_set_cache_index_and_filter_blocks_with_high_priority( rocksdb_block_based_table_options_t*, unsigned char); extern ROCKSDB_LIBRARY_API void rocksdb_block_based_options_set_pin_l0_filter_and_index_blocks_in_cache( rocksdb_block_based_table_options_t*, unsigned char); extern ROCKSDB_LIBRARY_API void rocksdb_block_based_options_set_pin_top_level_index_and_filter( rocksdb_block_based_table_options_t*, unsigned char); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_block_based_table_factory( rocksdb_options_t* opt, rocksdb_block_based_table_options_t* table_options); /* Cuckoo table options */ extern ROCKSDB_LIBRARY_API rocksdb_cuckoo_table_options_t* rocksdb_cuckoo_options_create(); extern ROCKSDB_LIBRARY_API void rocksdb_cuckoo_options_destroy( rocksdb_cuckoo_table_options_t* options); extern ROCKSDB_LIBRARY_API void rocksdb_cuckoo_options_set_hash_ratio( rocksdb_cuckoo_table_options_t* options, double v); extern ROCKSDB_LIBRARY_API void rocksdb_cuckoo_options_set_max_search_depth( rocksdb_cuckoo_table_options_t* options, uint32_t v); extern ROCKSDB_LIBRARY_API void rocksdb_cuckoo_options_set_cuckoo_block_size( rocksdb_cuckoo_table_options_t* options, uint32_t v); extern ROCKSDB_LIBRARY_API void rocksdb_cuckoo_options_set_identity_as_first_hash( rocksdb_cuckoo_table_options_t* options, unsigned char v); extern ROCKSDB_LIBRARY_API void rocksdb_cuckoo_options_set_use_module_hash( rocksdb_cuckoo_table_options_t* options, unsigned char v); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_cuckoo_table_factory( rocksdb_options_t* opt, rocksdb_cuckoo_table_options_t* table_options); /* Options */ extern ROCKSDB_LIBRARY_API void rocksdb_set_options( rocksdb_t* db, int count, const char* const keys[], const char* const values[], char** errptr); extern ROCKSDB_LIBRARY_API rocksdb_options_t* rocksdb_options_create(); extern ROCKSDB_LIBRARY_API void rocksdb_options_destroy(rocksdb_options_t*); extern ROCKSDB_LIBRARY_API void rocksdb_options_increase_parallelism( rocksdb_options_t* opt, int total_threads); extern ROCKSDB_LIBRARY_API void rocksdb_options_optimize_for_point_lookup( rocksdb_options_t* opt, uint64_t block_cache_size_mb); extern ROCKSDB_LIBRARY_API void rocksdb_options_optimize_level_style_compaction( rocksdb_options_t* opt, uint64_t memtable_memory_budget); extern ROCKSDB_LIBRARY_API void rocksdb_options_optimize_universal_style_compaction( rocksdb_options_t* opt, uint64_t memtable_memory_budget); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_allow_ingest_behind(rocksdb_options_t*, unsigned char); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_compaction_filter( rocksdb_options_t*, rocksdb_compactionfilter_t*); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_compaction_filter_factory( rocksdb_options_t*, rocksdb_compactionfilterfactory_t*); extern ROCKSDB_LIBRARY_API void rocksdb_options_compaction_readahead_size( rocksdb_options_t*, size_t); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_comparator( rocksdb_options_t*, rocksdb_comparator_t*); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_merge_operator( rocksdb_options_t*, rocksdb_mergeoperator_t*); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_uint64add_merge_operator( rocksdb_options_t*); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_compression_per_level( rocksdb_options_t* opt, int* level_values, size_t num_levels); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_create_if_missing( rocksdb_options_t*, unsigned char); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_create_missing_column_families(rocksdb_options_t*, unsigned char); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_error_if_exists( rocksdb_options_t*, unsigned char); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_paranoid_checks( rocksdb_options_t*, unsigned char); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_db_paths(rocksdb_options_t*, const rocksdb_dbpath_t** path_values, size_t num_paths); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_env(rocksdb_options_t*, rocksdb_env_t*); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_info_log(rocksdb_options_t*, rocksdb_logger_t*); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_info_log_level( rocksdb_options_t*, int); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_write_buffer_size( rocksdb_options_t*, size_t); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_db_write_buffer_size( rocksdb_options_t*, size_t); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_max_open_files( rocksdb_options_t*, int); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_max_file_opening_threads( rocksdb_options_t*, int); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_max_total_wal_size( rocksdb_options_t* opt, uint64_t n); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_compression_options( rocksdb_options_t*, int, int, int, int); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_prefix_extractor( rocksdb_options_t*, rocksdb_slicetransform_t*); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_num_levels( rocksdb_options_t*, int); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_level0_file_num_compaction_trigger(rocksdb_options_t*, int); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_level0_slowdown_writes_trigger(rocksdb_options_t*, int); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_level0_stop_writes_trigger( rocksdb_options_t*, int); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_max_mem_compaction_level( rocksdb_options_t*, int); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_target_file_size_base( rocksdb_options_t*, uint64_t); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_target_file_size_multiplier( rocksdb_options_t*, int); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_max_bytes_for_level_base( rocksdb_options_t*, uint64_t); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_level_compaction_dynamic_level_bytes(rocksdb_options_t*, unsigned char); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_max_bytes_for_level_multiplier(rocksdb_options_t*, double); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_max_bytes_for_level_multiplier_additional( rocksdb_options_t*, int* level_values, size_t num_levels); extern ROCKSDB_LIBRARY_API void rocksdb_options_enable_statistics( rocksdb_options_t*); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_skip_stats_update_on_db_open(rocksdb_options_t* opt, unsigned char val); /* returns a pointer to a malloc()-ed, null terminated string */ extern ROCKSDB_LIBRARY_API char* rocksdb_options_statistics_get_string( rocksdb_options_t* opt); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_max_write_buffer_number( rocksdb_options_t*, int); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_min_write_buffer_number_to_merge(rocksdb_options_t*, int); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_max_write_buffer_number_to_maintain(rocksdb_options_t*, int); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_enable_pipelined_write( rocksdb_options_t*, unsigned char); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_max_subcompactions( rocksdb_options_t*, uint32_t); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_max_background_jobs( rocksdb_options_t*, int); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_max_background_compactions( rocksdb_options_t*, int); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_base_background_compactions( rocksdb_options_t*, int); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_max_background_flushes( rocksdb_options_t*, int); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_max_log_file_size( rocksdb_options_t*, size_t); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_log_file_time_to_roll( rocksdb_options_t*, size_t); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_keep_log_file_num( rocksdb_options_t*, size_t); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_recycle_log_file_num( rocksdb_options_t*, size_t); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_soft_rate_limit( rocksdb_options_t*, double); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_hard_rate_limit( rocksdb_options_t*, double); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_soft_pending_compaction_bytes_limit( rocksdb_options_t* opt, size_t v); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_hard_pending_compaction_bytes_limit( rocksdb_options_t* opt, size_t v); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_rate_limit_delay_max_milliseconds(rocksdb_options_t*, unsigned int); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_max_manifest_file_size( rocksdb_options_t*, size_t); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_table_cache_numshardbits( rocksdb_options_t*, int); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_table_cache_remove_scan_count_limit(rocksdb_options_t*, int); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_arena_block_size( rocksdb_options_t*, size_t); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_use_fsync( rocksdb_options_t*, int); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_db_log_dir( rocksdb_options_t*, const char*); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_wal_dir(rocksdb_options_t*, const char*); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_WAL_ttl_seconds( rocksdb_options_t*, uint64_t); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_WAL_size_limit_MB( rocksdb_options_t*, uint64_t); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_manifest_preallocation_size( rocksdb_options_t*, size_t); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_purge_redundant_kvs_while_flush(rocksdb_options_t*, unsigned char); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_allow_mmap_reads( rocksdb_options_t*, unsigned char); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_allow_mmap_writes( rocksdb_options_t*, unsigned char); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_use_direct_reads( rocksdb_options_t*, unsigned char); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_use_direct_io_for_flush_and_compaction(rocksdb_options_t*, unsigned char); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_is_fd_close_on_exec( rocksdb_options_t*, unsigned char); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_skip_log_error_on_recovery( rocksdb_options_t*, unsigned char); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_stats_dump_period_sec( rocksdb_options_t*, unsigned int); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_advise_random_on_open( rocksdb_options_t*, unsigned char); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_access_hint_on_compaction_start(rocksdb_options_t*, int); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_use_adaptive_mutex( rocksdb_options_t*, unsigned char); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_bytes_per_sync( rocksdb_options_t*, uint64_t); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_wal_bytes_per_sync( rocksdb_options_t*, uint64_t); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_writable_file_max_buffer_size(rocksdb_options_t*, uint64_t); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_allow_concurrent_memtable_write(rocksdb_options_t*, unsigned char); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_enable_write_thread_adaptive_yield(rocksdb_options_t*, unsigned char); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_max_sequential_skip_in_iterations(rocksdb_options_t*, uint64_t); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_disable_auto_compactions( rocksdb_options_t*, int); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_optimize_filters_for_hits( rocksdb_options_t*, int); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_delete_obsolete_files_period_micros(rocksdb_options_t*, uint64_t); extern ROCKSDB_LIBRARY_API void rocksdb_options_prepare_for_bulk_load( rocksdb_options_t*); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_memtable_vector_rep( rocksdb_options_t*); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_memtable_prefix_bloom_size_ratio( rocksdb_options_t*, double); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_max_compaction_bytes( rocksdb_options_t*, uint64_t); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_hash_skip_list_rep( rocksdb_options_t*, size_t, int32_t, int32_t); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_hash_link_list_rep( rocksdb_options_t*, size_t); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_plain_table_factory( rocksdb_options_t*, uint32_t, int, double, size_t); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_min_level_to_compress( rocksdb_options_t* opt, int level); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_memtable_huge_page_size( rocksdb_options_t*, size_t); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_max_successive_merges( rocksdb_options_t*, size_t); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_bloom_locality( rocksdb_options_t*, uint32_t); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_inplace_update_support( rocksdb_options_t*, unsigned char); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_inplace_update_num_locks( rocksdb_options_t*, size_t); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_report_bg_io_stats( rocksdb_options_t*, int); enum { rocksdb_tolerate_corrupted_tail_records_recovery = 0, rocksdb_absolute_consistency_recovery = 1, rocksdb_point_in_time_recovery = 2, rocksdb_skip_any_corrupted_records_recovery = 3 }; extern ROCKSDB_LIBRARY_API void rocksdb_options_set_wal_recovery_mode( rocksdb_options_t*, int); enum { rocksdb_no_compression = 0, rocksdb_snappy_compression = 1, rocksdb_zlib_compression = 2, rocksdb_bz2_compression = 3, rocksdb_lz4_compression = 4, rocksdb_lz4hc_compression = 5, rocksdb_xpress_compression = 6, rocksdb_zstd_compression = 7 }; extern ROCKSDB_LIBRARY_API void rocksdb_options_set_compression( rocksdb_options_t*, int); enum { rocksdb_level_compaction = 0, rocksdb_universal_compaction = 1, rocksdb_fifo_compaction = 2 }; extern ROCKSDB_LIBRARY_API void rocksdb_options_set_compaction_style( rocksdb_options_t*, int); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_universal_compaction_options( rocksdb_options_t*, rocksdb_universal_compaction_options_t*); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_fifo_compaction_options( rocksdb_options_t* opt, rocksdb_fifo_compaction_options_t* fifo); extern ROCKSDB_LIBRARY_API void rocksdb_options_set_ratelimiter( rocksdb_options_t* opt, rocksdb_ratelimiter_t* limiter); /* RateLimiter */ extern ROCKSDB_LIBRARY_API rocksdb_ratelimiter_t* rocksdb_ratelimiter_create( int64_t rate_bytes_per_sec, int64_t refill_period_us, int32_t fairness); extern ROCKSDB_LIBRARY_API void rocksdb_ratelimiter_destroy(rocksdb_ratelimiter_t*); /* PerfContext */ enum { rocksdb_uninitialized = 0, rocksdb_disable = 1, rocksdb_enable_count = 2, rocksdb_enable_time_except_for_mutex = 3, rocksdb_enable_time = 4, rocksdb_out_of_bounds = 5 }; enum { rocksdb_user_key_comparison_count = 0, rocksdb_block_cache_hit_count, rocksdb_block_read_count, rocksdb_block_read_byte, rocksdb_block_read_time, rocksdb_block_checksum_time, rocksdb_block_decompress_time, rocksdb_get_read_bytes, rocksdb_multiget_read_bytes, rocksdb_iter_read_bytes, rocksdb_internal_key_skipped_count, rocksdb_internal_delete_skipped_count, rocksdb_internal_recent_skipped_count, rocksdb_internal_merge_count, rocksdb_get_snapshot_time, rocksdb_get_from_memtable_time, rocksdb_get_from_memtable_count, rocksdb_get_post_process_time, rocksdb_get_from_output_files_time, rocksdb_seek_on_memtable_time, rocksdb_seek_on_memtable_count, rocksdb_next_on_memtable_count, rocksdb_prev_on_memtable_count, rocksdb_seek_child_seek_time, rocksdb_seek_child_seek_count, rocksdb_seek_min_heap_time, rocksdb_seek_max_heap_time, rocksdb_seek_internal_seek_time, rocksdb_find_next_user_entry_time, rocksdb_write_wal_time, rocksdb_write_memtable_time, rocksdb_write_delay_time, rocksdb_write_pre_and_post_process_time, rocksdb_db_mutex_lock_nanos, rocksdb_db_condition_wait_nanos, rocksdb_merge_operator_time_nanos, rocksdb_read_index_block_nanos, rocksdb_read_filter_block_nanos, rocksdb_new_table_block_iter_nanos, rocksdb_new_table_iterator_nanos, rocksdb_block_seek_nanos, rocksdb_find_table_nanos, rocksdb_bloom_memtable_hit_count, rocksdb_bloom_memtable_miss_count, rocksdb_bloom_sst_hit_count, rocksdb_bloom_sst_miss_count, rocksdb_key_lock_wait_time, rocksdb_key_lock_wait_count, rocksdb_env_new_sequential_file_nanos, rocksdb_env_new_random_access_file_nanos, rocksdb_env_new_writable_file_nanos, rocksdb_env_reuse_writable_file_nanos, rocksdb_env_new_random_rw_file_nanos, rocksdb_env_new_directory_nanos, rocksdb_env_file_exists_nanos, rocksdb_env_get_children_nanos, rocksdb_env_get_children_file_attributes_nanos, rocksdb_env_delete_file_nanos, rocksdb_env_create_dir_nanos, rocksdb_env_create_dir_if_missing_nanos, rocksdb_env_delete_dir_nanos, rocksdb_env_get_file_size_nanos, rocksdb_env_get_file_modification_time_nanos, rocksdb_env_rename_file_nanos, rocksdb_env_link_file_nanos, rocksdb_env_lock_file_nanos, rocksdb_env_unlock_file_nanos, rocksdb_env_new_logger_nanos, rocksdb_total_metric_count = 68 }; extern ROCKSDB_LIBRARY_API void rocksdb_set_perf_level(int); extern ROCKSDB_LIBRARY_API rocksdb_perfcontext_t* rocksdb_perfcontext_create(); extern ROCKSDB_LIBRARY_API void rocksdb_perfcontext_reset( rocksdb_perfcontext_t* context); extern ROCKSDB_LIBRARY_API char* rocksdb_perfcontext_report( rocksdb_perfcontext_t* context, unsigned char exclude_zero_counters); extern ROCKSDB_LIBRARY_API uint64_t rocksdb_perfcontext_metric( rocksdb_perfcontext_t* context, int metric); extern ROCKSDB_LIBRARY_API void rocksdb_perfcontext_destroy( rocksdb_perfcontext_t* context); /* Compaction Filter */ extern ROCKSDB_LIBRARY_API rocksdb_compactionfilter_t* rocksdb_compactionfilter_create( void* state, void (*destructor)(void*), unsigned char (*filter)(void*, int level, const char* key, size_t key_length, const char* existing_value, size_t value_length, char** new_value, size_t* new_value_length, unsigned char* value_changed), const char* (*name)(void*)); extern ROCKSDB_LIBRARY_API void rocksdb_compactionfilter_set_ignore_snapshots( rocksdb_compactionfilter_t*, unsigned char); extern ROCKSDB_LIBRARY_API void rocksdb_compactionfilter_destroy( rocksdb_compactionfilter_t*); /* Compaction Filter Context */ extern ROCKSDB_LIBRARY_API unsigned char rocksdb_compactionfiltercontext_is_full_compaction( rocksdb_compactionfiltercontext_t* context); extern ROCKSDB_LIBRARY_API unsigned char rocksdb_compactionfiltercontext_is_manual_compaction( rocksdb_compactionfiltercontext_t* context); /* Compaction Filter Factory */ extern ROCKSDB_LIBRARY_API rocksdb_compactionfilterfactory_t* rocksdb_compactionfilterfactory_create( void* state, void (*destructor)(void*), rocksdb_compactionfilter_t* (*create_compaction_filter)( void*, rocksdb_compactionfiltercontext_t* context), const char* (*name)(void*)); extern ROCKSDB_LIBRARY_API void rocksdb_compactionfilterfactory_destroy( rocksdb_compactionfilterfactory_t*); /* Comparator */ extern ROCKSDB_LIBRARY_API rocksdb_comparator_t* rocksdb_comparator_create( void* state, void (*destructor)(void*), int (*compare)(void*, const char* a, size_t alen, const char* b, size_t blen), const char* (*name)(void*)); extern ROCKSDB_LIBRARY_API void rocksdb_comparator_destroy( rocksdb_comparator_t*); /* Filter policy */ extern ROCKSDB_LIBRARY_API rocksdb_filterpolicy_t* rocksdb_filterpolicy_create( void* state, void (*destructor)(void*), char* (*create_filter)(void*, const char* const* key_array, const size_t* key_length_array, int num_keys, size_t* filter_length), unsigned char (*key_may_match)(void*, const char* key, size_t length, const char* filter, size_t filter_length), void (*delete_filter)(void*, const char* filter, size_t filter_length), const char* (*name)(void*)); extern ROCKSDB_LIBRARY_API void rocksdb_filterpolicy_destroy( rocksdb_filterpolicy_t*); extern ROCKSDB_LIBRARY_API rocksdb_filterpolicy_t* rocksdb_filterpolicy_create_bloom(int bits_per_key); extern ROCKSDB_LIBRARY_API rocksdb_filterpolicy_t* rocksdb_filterpolicy_create_bloom_full(int bits_per_key); /* Merge Operator */ extern ROCKSDB_LIBRARY_API rocksdb_mergeoperator_t* rocksdb_mergeoperator_create( void* state, void (*destructor)(void*), char* (*full_merge)(void*, const char* key, size_t key_length, const char* existing_value, size_t existing_value_length, const char* const* operands_list, const size_t* operands_list_length, int num_operands, unsigned char* success, size_t* new_value_length), char* (*partial_merge)(void*, const char* key, size_t key_length, const char* const* operands_list, const size_t* operands_list_length, int num_operands, unsigned char* success, size_t* new_value_length), void (*delete_value)(void*, const char* value, size_t value_length), const char* (*name)(void*)); extern ROCKSDB_LIBRARY_API void rocksdb_mergeoperator_destroy( rocksdb_mergeoperator_t*); /* Read options */ extern ROCKSDB_LIBRARY_API rocksdb_readoptions_t* rocksdb_readoptions_create(); extern ROCKSDB_LIBRARY_API void rocksdb_readoptions_destroy( rocksdb_readoptions_t*); extern ROCKSDB_LIBRARY_API void rocksdb_readoptions_set_verify_checksums( rocksdb_readoptions_t*, unsigned char); extern ROCKSDB_LIBRARY_API void rocksdb_readoptions_set_fill_cache( rocksdb_readoptions_t*, unsigned char); extern ROCKSDB_LIBRARY_API void rocksdb_readoptions_set_snapshot( rocksdb_readoptions_t*, const rocksdb_snapshot_t*); extern ROCKSDB_LIBRARY_API void rocksdb_readoptions_set_iterate_upper_bound( rocksdb_readoptions_t*, const char* key, size_t keylen); extern ROCKSDB_LIBRARY_API void rocksdb_readoptions_set_iterate_lower_bound( rocksdb_readoptions_t*, const char* key, size_t keylen); extern ROCKSDB_LIBRARY_API void rocksdb_readoptions_set_read_tier( rocksdb_readoptions_t*, int); extern ROCKSDB_LIBRARY_API void rocksdb_readoptions_set_tailing( rocksdb_readoptions_t*, unsigned char); // The functionality that this option controlled has been removed. extern ROCKSDB_LIBRARY_API void rocksdb_readoptions_set_managed( rocksdb_readoptions_t*, unsigned char); extern ROCKSDB_LIBRARY_API void rocksdb_readoptions_set_readahead_size( rocksdb_readoptions_t*, size_t); extern ROCKSDB_LIBRARY_API void rocksdb_readoptions_set_prefix_same_as_start( rocksdb_readoptions_t*, unsigned char); extern ROCKSDB_LIBRARY_API void rocksdb_readoptions_set_pin_data( rocksdb_readoptions_t*, unsigned char); extern ROCKSDB_LIBRARY_API void rocksdb_readoptions_set_total_order_seek( rocksdb_readoptions_t*, unsigned char); extern ROCKSDB_LIBRARY_API void rocksdb_readoptions_set_max_skippable_internal_keys( rocksdb_readoptions_t*, uint64_t); extern ROCKSDB_LIBRARY_API void rocksdb_readoptions_set_background_purge_on_iterator_cleanup( rocksdb_readoptions_t*, unsigned char); extern ROCKSDB_LIBRARY_API void rocksdb_readoptions_set_ignore_range_deletions( rocksdb_readoptions_t*, unsigned char); /* Write options */ extern ROCKSDB_LIBRARY_API rocksdb_writeoptions_t* rocksdb_writeoptions_create(); extern ROCKSDB_LIBRARY_API void rocksdb_writeoptions_destroy( rocksdb_writeoptions_t*); extern ROCKSDB_LIBRARY_API void rocksdb_writeoptions_set_sync( rocksdb_writeoptions_t*, unsigned char); extern ROCKSDB_LIBRARY_API void rocksdb_writeoptions_disable_WAL( rocksdb_writeoptions_t* opt, int disable); extern ROCKSDB_LIBRARY_API void rocksdb_writeoptions_set_ignore_missing_column_families( rocksdb_writeoptions_t*, unsigned char); extern ROCKSDB_LIBRARY_API void rocksdb_writeoptions_set_no_slowdown( rocksdb_writeoptions_t*, unsigned char); extern ROCKSDB_LIBRARY_API void rocksdb_writeoptions_set_low_pri( rocksdb_writeoptions_t*, unsigned char); /* Compact range options */ extern ROCKSDB_LIBRARY_API rocksdb_compactoptions_t* rocksdb_compactoptions_create(); extern ROCKSDB_LIBRARY_API void rocksdb_compactoptions_destroy( rocksdb_compactoptions_t*); extern ROCKSDB_LIBRARY_API void rocksdb_compactoptions_set_exclusive_manual_compaction( rocksdb_compactoptions_t*, unsigned char); extern ROCKSDB_LIBRARY_API void rocksdb_compactoptions_set_bottommost_level_compaction( rocksdb_compactoptions_t*, unsigned char); extern ROCKSDB_LIBRARY_API void rocksdb_compactoptions_set_change_level( rocksdb_compactoptions_t*, unsigned char); extern ROCKSDB_LIBRARY_API void rocksdb_compactoptions_set_target_level( rocksdb_compactoptions_t*, int); /* Flush options */ extern ROCKSDB_LIBRARY_API rocksdb_flushoptions_t* rocksdb_flushoptions_create(); extern ROCKSDB_LIBRARY_API void rocksdb_flushoptions_destroy( rocksdb_flushoptions_t*); extern ROCKSDB_LIBRARY_API void rocksdb_flushoptions_set_wait( rocksdb_flushoptions_t*, unsigned char); /* Cache */ extern ROCKSDB_LIBRARY_API rocksdb_cache_t* rocksdb_cache_create_lru( size_t capacity); extern ROCKSDB_LIBRARY_API void rocksdb_cache_destroy(rocksdb_cache_t* cache); extern ROCKSDB_LIBRARY_API void rocksdb_cache_set_capacity( rocksdb_cache_t* cache, size_t capacity); extern ROCKSDB_LIBRARY_API size_t rocksdb_cache_get_usage(rocksdb_cache_t* cache); extern ROCKSDB_LIBRARY_API size_t rocksdb_cache_get_pinned_usage(rocksdb_cache_t* cache); /* DBPath */ extern ROCKSDB_LIBRARY_API rocksdb_dbpath_t* rocksdb_dbpath_create(const char* path, uint64_t target_size); extern ROCKSDB_LIBRARY_API void rocksdb_dbpath_destroy(rocksdb_dbpath_t*); /* Env */ extern ROCKSDB_LIBRARY_API rocksdb_env_t* rocksdb_create_default_env(); extern ROCKSDB_LIBRARY_API rocksdb_env_t* rocksdb_create_mem_env(); extern ROCKSDB_LIBRARY_API void rocksdb_env_set_background_threads( rocksdb_env_t* env, int n); extern ROCKSDB_LIBRARY_API void rocksdb_env_set_high_priority_background_threads(rocksdb_env_t* env, int n); extern ROCKSDB_LIBRARY_API void rocksdb_env_join_all_threads( rocksdb_env_t* env); extern ROCKSDB_LIBRARY_API void rocksdb_env_destroy(rocksdb_env_t*); extern ROCKSDB_LIBRARY_API rocksdb_envoptions_t* rocksdb_envoptions_create(); extern ROCKSDB_LIBRARY_API void rocksdb_envoptions_destroy( rocksdb_envoptions_t* opt); /* SstFile */ extern ROCKSDB_LIBRARY_API rocksdb_sstfilewriter_t* rocksdb_sstfilewriter_create(const rocksdb_envoptions_t* env, const rocksdb_options_t* io_options); extern ROCKSDB_LIBRARY_API rocksdb_sstfilewriter_t* rocksdb_sstfilewriter_create_with_comparator( const rocksdb_envoptions_t* env, const rocksdb_options_t* io_options, const rocksdb_comparator_t* comparator); extern ROCKSDB_LIBRARY_API void rocksdb_sstfilewriter_open( rocksdb_sstfilewriter_t* writer, const char* name, char** errptr); extern ROCKSDB_LIBRARY_API void rocksdb_sstfilewriter_add( rocksdb_sstfilewriter_t* writer, const char* key, size_t keylen, const char* val, size_t vallen, char** errptr); extern ROCKSDB_LIBRARY_API void rocksdb_sstfilewriter_put( rocksdb_sstfilewriter_t* writer, const char* key, size_t keylen, const char* val, size_t vallen, char** errptr); extern ROCKSDB_LIBRARY_API void rocksdb_sstfilewriter_merge( rocksdb_sstfilewriter_t* writer, const char* key, size_t keylen, const char* val, size_t vallen, char** errptr); extern ROCKSDB_LIBRARY_API void rocksdb_sstfilewriter_delete( rocksdb_sstfilewriter_t* writer, const char* key, size_t keylen, char** errptr); extern ROCKSDB_LIBRARY_API void rocksdb_sstfilewriter_finish( rocksdb_sstfilewriter_t* writer, char** errptr); extern ROCKSDB_LIBRARY_API void rocksdb_sstfilewriter_file_size( rocksdb_sstfilewriter_t* writer, uint64_t* file_size); extern ROCKSDB_LIBRARY_API void rocksdb_sstfilewriter_destroy( rocksdb_sstfilewriter_t* writer); extern ROCKSDB_LIBRARY_API rocksdb_ingestexternalfileoptions_t* rocksdb_ingestexternalfileoptions_create(); extern ROCKSDB_LIBRARY_API void rocksdb_ingestexternalfileoptions_set_move_files( rocksdb_ingestexternalfileoptions_t* opt, unsigned char move_files); extern ROCKSDB_LIBRARY_API void rocksdb_ingestexternalfileoptions_set_snapshot_consistency( rocksdb_ingestexternalfileoptions_t* opt, unsigned char snapshot_consistency); extern ROCKSDB_LIBRARY_API void rocksdb_ingestexternalfileoptions_set_allow_global_seqno( rocksdb_ingestexternalfileoptions_t* opt, unsigned char allow_global_seqno); extern ROCKSDB_LIBRARY_API void rocksdb_ingestexternalfileoptions_set_allow_blocking_flush( rocksdb_ingestexternalfileoptions_t* opt, unsigned char allow_blocking_flush); extern ROCKSDB_LIBRARY_API void rocksdb_ingestexternalfileoptions_set_ingest_behind( rocksdb_ingestexternalfileoptions_t* opt, unsigned char ingest_behind); extern ROCKSDB_LIBRARY_API void rocksdb_ingestexternalfileoptions_destroy( rocksdb_ingestexternalfileoptions_t* opt); extern ROCKSDB_LIBRARY_API void rocksdb_ingest_external_file( rocksdb_t* db, const char* const* file_list, const size_t list_len, const rocksdb_ingestexternalfileoptions_t* opt, char** errptr); extern ROCKSDB_LIBRARY_API void rocksdb_ingest_external_file_cf( rocksdb_t* db, rocksdb_column_family_handle_t* handle, const char* const* file_list, const size_t list_len, const rocksdb_ingestexternalfileoptions_t* opt, char** errptr); /* SliceTransform */ extern ROCKSDB_LIBRARY_API rocksdb_slicetransform_t* rocksdb_slicetransform_create( void* state, void (*destructor)(void*), char* (*transform)(void*, const char* key, size_t length, size_t* dst_length), unsigned char (*in_domain)(void*, const char* key, size_t length), unsigned char (*in_range)(void*, const char* key, size_t length), const char* (*name)(void*)); extern ROCKSDB_LIBRARY_API rocksdb_slicetransform_t* rocksdb_slicetransform_create_fixed_prefix(size_t); extern ROCKSDB_LIBRARY_API rocksdb_slicetransform_t* rocksdb_slicetransform_create_noop(); extern ROCKSDB_LIBRARY_API void rocksdb_slicetransform_destroy( rocksdb_slicetransform_t*); /* Universal Compaction options */ enum { rocksdb_similar_size_compaction_stop_style = 0, rocksdb_total_size_compaction_stop_style = 1 }; extern ROCKSDB_LIBRARY_API rocksdb_universal_compaction_options_t* rocksdb_universal_compaction_options_create(); extern ROCKSDB_LIBRARY_API void rocksdb_universal_compaction_options_set_size_ratio( rocksdb_universal_compaction_options_t*, int); extern ROCKSDB_LIBRARY_API void rocksdb_universal_compaction_options_set_min_merge_width( rocksdb_universal_compaction_options_t*, int); extern ROCKSDB_LIBRARY_API void rocksdb_universal_compaction_options_set_max_merge_width( rocksdb_universal_compaction_options_t*, int); extern ROCKSDB_LIBRARY_API void rocksdb_universal_compaction_options_set_max_size_amplification_percent( rocksdb_universal_compaction_options_t*, int); extern ROCKSDB_LIBRARY_API void rocksdb_universal_compaction_options_set_compression_size_percent( rocksdb_universal_compaction_options_t*, int); extern ROCKSDB_LIBRARY_API void rocksdb_universal_compaction_options_set_stop_style( rocksdb_universal_compaction_options_t*, int); extern ROCKSDB_LIBRARY_API void rocksdb_universal_compaction_options_destroy( rocksdb_universal_compaction_options_t*); extern ROCKSDB_LIBRARY_API rocksdb_fifo_compaction_options_t* rocksdb_fifo_compaction_options_create(); extern ROCKSDB_LIBRARY_API void rocksdb_fifo_compaction_options_set_max_table_files_size( rocksdb_fifo_compaction_options_t* fifo_opts, uint64_t size); extern ROCKSDB_LIBRARY_API void rocksdb_fifo_compaction_options_destroy( rocksdb_fifo_compaction_options_t* fifo_opts); extern ROCKSDB_LIBRARY_API int rocksdb_livefiles_count( const rocksdb_livefiles_t*); extern ROCKSDB_LIBRARY_API const char* rocksdb_livefiles_name( const rocksdb_livefiles_t*, int index); extern ROCKSDB_LIBRARY_API int rocksdb_livefiles_level( const rocksdb_livefiles_t*, int index); extern ROCKSDB_LIBRARY_API size_t rocksdb_livefiles_size(const rocksdb_livefiles_t*, int index); extern ROCKSDB_LIBRARY_API const char* rocksdb_livefiles_smallestkey( const rocksdb_livefiles_t*, int index, size_t* size); extern ROCKSDB_LIBRARY_API const char* rocksdb_livefiles_largestkey( const rocksdb_livefiles_t*, int index, size_t* size); extern ROCKSDB_LIBRARY_API void rocksdb_livefiles_destroy( const rocksdb_livefiles_t*); /* Utility Helpers */ extern ROCKSDB_LIBRARY_API void rocksdb_get_options_from_string( const rocksdb_options_t* base_options, const char* opts_str, rocksdb_options_t* new_options, char** errptr); extern ROCKSDB_LIBRARY_API void rocksdb_delete_file_in_range( rocksdb_t* db, const char* start_key, size_t start_key_len, const char* limit_key, size_t limit_key_len, char** errptr); extern ROCKSDB_LIBRARY_API void rocksdb_delete_file_in_range_cf( rocksdb_t* db, rocksdb_column_family_handle_t* column_family, const char* start_key, size_t start_key_len, const char* limit_key, size_t limit_key_len, char** errptr); /* Transactions */ extern ROCKSDB_LIBRARY_API rocksdb_column_family_handle_t* rocksdb_transactiondb_create_column_family( rocksdb_transactiondb_t* txn_db, const rocksdb_options_t* column_family_options, const char* column_family_name, char** errptr); extern ROCKSDB_LIBRARY_API rocksdb_transactiondb_t* rocksdb_transactiondb_open( const rocksdb_options_t* options, const rocksdb_transactiondb_options_t* txn_db_options, const char* name, char** errptr); extern ROCKSDB_LIBRARY_API const rocksdb_snapshot_t* rocksdb_transactiondb_create_snapshot(rocksdb_transactiondb_t* txn_db); extern ROCKSDB_LIBRARY_API void rocksdb_transactiondb_release_snapshot( rocksdb_transactiondb_t* txn_db, const rocksdb_snapshot_t* snapshot); extern ROCKSDB_LIBRARY_API rocksdb_transaction_t* rocksdb_transaction_begin( rocksdb_transactiondb_t* txn_db, const rocksdb_writeoptions_t* write_options, const rocksdb_transaction_options_t* txn_options, rocksdb_transaction_t* old_txn); extern ROCKSDB_LIBRARY_API void rocksdb_transaction_commit( rocksdb_transaction_t* txn, char** errptr); extern ROCKSDB_LIBRARY_API void rocksdb_transaction_rollback( rocksdb_transaction_t* txn, char** errptr); extern ROCKSDB_LIBRARY_API void rocksdb_transaction_set_savepoint( rocksdb_transaction_t* txn); extern ROCKSDB_LIBRARY_API void rocksdb_transaction_rollback_to_savepoint( rocksdb_transaction_t* txn, char** errptr); extern ROCKSDB_LIBRARY_API void rocksdb_transaction_destroy( rocksdb_transaction_t* txn); // This snapshot should be freed using rocksdb_free extern ROCKSDB_LIBRARY_API const rocksdb_snapshot_t* rocksdb_transaction_get_snapshot(rocksdb_transaction_t* txn); extern ROCKSDB_LIBRARY_API char* rocksdb_transaction_get( rocksdb_transaction_t* txn, const rocksdb_readoptions_t* options, const char* key, size_t klen, size_t* vlen, char** errptr); extern ROCKSDB_LIBRARY_API char* rocksdb_transaction_get_cf( rocksdb_transaction_t* txn, const rocksdb_readoptions_t* options, rocksdb_column_family_handle_t* column_family, const char* key, size_t klen, size_t* vlen, char** errptr); extern ROCKSDB_LIBRARY_API char* rocksdb_transaction_get_for_update( rocksdb_transaction_t* txn, const rocksdb_readoptions_t* options, const char* key, size_t klen, size_t* vlen, unsigned char exclusive, char** errptr); extern ROCKSDB_LIBRARY_API char* rocksdb_transactiondb_get( rocksdb_transactiondb_t* txn_db, const rocksdb_readoptions_t* options, const char* key, size_t klen, size_t* vlen, char** errptr); extern ROCKSDB_LIBRARY_API char* rocksdb_transactiondb_get_cf( rocksdb_transactiondb_t* txn_db, const rocksdb_readoptions_t* options, rocksdb_column_family_handle_t* column_family, const char* key, size_t keylen, size_t* vallen, char** errptr); extern ROCKSDB_LIBRARY_API void rocksdb_transaction_put( rocksdb_transaction_t* txn, const char* key, size_t klen, const char* val, size_t vlen, char** errptr); extern ROCKSDB_LIBRARY_API void rocksdb_transaction_put_cf( rocksdb_transaction_t* txn, rocksdb_column_family_handle_t* column_family, const char* key, size_t klen, const char* val, size_t vlen, char** errptr); extern ROCKSDB_LIBRARY_API void rocksdb_transactiondb_put( rocksdb_transactiondb_t* txn_db, const rocksdb_writeoptions_t* options, const char* key, size_t klen, const char* val, size_t vlen, char** errptr); extern ROCKSDB_LIBRARY_API void rocksdb_transactiondb_put_cf( rocksdb_transactiondb_t* txn_db, const rocksdb_writeoptions_t* options, rocksdb_column_family_handle_t* column_family, const char* key, size_t keylen, const char* val, size_t vallen, char** errptr); extern ROCKSDB_LIBRARY_API void rocksdb_transactiondb_write( rocksdb_transactiondb_t* txn_db, const rocksdb_writeoptions_t* options, rocksdb_writebatch_t *batch, char** errptr); extern ROCKSDB_LIBRARY_API void rocksdb_transaction_merge( rocksdb_transaction_t* txn, const char* key, size_t klen, const char* val, size_t vlen, char** errptr); extern ROCKSDB_LIBRARY_API void rocksdb_transactiondb_merge( rocksdb_transactiondb_t* txn_db, const rocksdb_writeoptions_t* options, const char* key, size_t klen, const char* val, size_t vlen, char** errptr); extern ROCKSDB_LIBRARY_API void rocksdb_transaction_delete( rocksdb_transaction_t* txn, const char* key, size_t klen, char** errptr); extern ROCKSDB_LIBRARY_API void rocksdb_transaction_delete_cf( rocksdb_transaction_t* txn, rocksdb_column_family_handle_t* column_family, const char* key, size_t klen, char** errptr); extern ROCKSDB_LIBRARY_API void rocksdb_transactiondb_delete( rocksdb_transactiondb_t* txn_db, const rocksdb_writeoptions_t* options, const char* key, size_t klen, char** errptr); extern ROCKSDB_LIBRARY_API void rocksdb_transactiondb_delete_cf( rocksdb_transactiondb_t* txn_db, const rocksdb_writeoptions_t* options, rocksdb_column_family_handle_t* column_family, const char* key, size_t keylen, char** errptr); extern ROCKSDB_LIBRARY_API rocksdb_iterator_t* rocksdb_transaction_create_iterator(rocksdb_transaction_t* txn, const rocksdb_readoptions_t* options); extern ROCKSDB_LIBRARY_API rocksdb_iterator_t* rocksdb_transaction_create_iterator_cf( rocksdb_transaction_t* txn, const rocksdb_readoptions_t* options, rocksdb_column_family_handle_t* column_family); extern ROCKSDB_LIBRARY_API rocksdb_iterator_t* rocksdb_transactiondb_create_iterator(rocksdb_transactiondb_t* txn_db, const rocksdb_readoptions_t* options); extern ROCKSDB_LIBRARY_API void rocksdb_transactiondb_close( rocksdb_transactiondb_t* txn_db); extern ROCKSDB_LIBRARY_API rocksdb_checkpoint_t* rocksdb_transactiondb_checkpoint_object_create(rocksdb_transactiondb_t* txn_db, char** errptr); extern ROCKSDB_LIBRARY_API rocksdb_optimistictransactiondb_t* rocksdb_optimistictransactiondb_open(const rocksdb_options_t* options, const char* name, char** errptr); extern ROCKSDB_LIBRARY_API rocksdb_optimistictransactiondb_t* rocksdb_optimistictransactiondb_open_column_families( const rocksdb_options_t* options, const char* name, int num_column_families, const char** column_family_names, const rocksdb_options_t** column_family_options, rocksdb_column_family_handle_t** column_family_handles, char** errptr); extern ROCKSDB_LIBRARY_API rocksdb_t* rocksdb_optimistictransactiondb_get_base_db( rocksdb_optimistictransactiondb_t* otxn_db); extern ROCKSDB_LIBRARY_API void rocksdb_optimistictransactiondb_close_base_db( rocksdb_t* base_db); extern ROCKSDB_LIBRARY_API rocksdb_transaction_t* rocksdb_optimistictransaction_begin( rocksdb_optimistictransactiondb_t* otxn_db, const rocksdb_writeoptions_t* write_options, const rocksdb_optimistictransaction_options_t* otxn_options, rocksdb_transaction_t* old_txn); extern ROCKSDB_LIBRARY_API void rocksdb_optimistictransactiondb_close( rocksdb_optimistictransactiondb_t* otxn_db); /* Transaction Options */ extern ROCKSDB_LIBRARY_API rocksdb_transactiondb_options_t* rocksdb_transactiondb_options_create(); extern ROCKSDB_LIBRARY_API void rocksdb_transactiondb_options_destroy( rocksdb_transactiondb_options_t* opt); extern ROCKSDB_LIBRARY_API void rocksdb_transactiondb_options_set_max_num_locks( rocksdb_transactiondb_options_t* opt, int64_t max_num_locks); extern ROCKSDB_LIBRARY_API void rocksdb_transactiondb_options_set_num_stripes( rocksdb_transactiondb_options_t* opt, size_t num_stripes); extern ROCKSDB_LIBRARY_API void rocksdb_transactiondb_options_set_transaction_lock_timeout( rocksdb_transactiondb_options_t* opt, int64_t txn_lock_timeout); extern ROCKSDB_LIBRARY_API void rocksdb_transactiondb_options_set_default_lock_timeout( rocksdb_transactiondb_options_t* opt, int64_t default_lock_timeout); extern ROCKSDB_LIBRARY_API rocksdb_transaction_options_t* rocksdb_transaction_options_create(); extern ROCKSDB_LIBRARY_API void rocksdb_transaction_options_destroy( rocksdb_transaction_options_t* opt); extern ROCKSDB_LIBRARY_API void rocksdb_transaction_options_set_set_snapshot( rocksdb_transaction_options_t* opt, unsigned char v); extern ROCKSDB_LIBRARY_API void rocksdb_transaction_options_set_deadlock_detect( rocksdb_transaction_options_t* opt, unsigned char v); extern ROCKSDB_LIBRARY_API void rocksdb_transaction_options_set_lock_timeout( rocksdb_transaction_options_t* opt, int64_t lock_timeout); extern ROCKSDB_LIBRARY_API void rocksdb_transaction_options_set_expiration( rocksdb_transaction_options_t* opt, int64_t expiration); extern ROCKSDB_LIBRARY_API void rocksdb_transaction_options_set_deadlock_detect_depth( rocksdb_transaction_options_t* opt, int64_t depth); extern ROCKSDB_LIBRARY_API void rocksdb_transaction_options_set_max_write_batch_size( rocksdb_transaction_options_t* opt, size_t size); extern ROCKSDB_LIBRARY_API rocksdb_optimistictransaction_options_t* rocksdb_optimistictransaction_options_create(); extern ROCKSDB_LIBRARY_API void rocksdb_optimistictransaction_options_destroy( rocksdb_optimistictransaction_options_t* opt); extern ROCKSDB_LIBRARY_API void rocksdb_optimistictransaction_options_set_set_snapshot( rocksdb_optimistictransaction_options_t* opt, unsigned char v); // referring to convention (3), this should be used by client // to free memory that was malloc()ed extern ROCKSDB_LIBRARY_API void rocksdb_free(void* ptr); extern ROCKSDB_LIBRARY_API rocksdb_pinnableslice_t* rocksdb_get_pinned( rocksdb_t* db, const rocksdb_readoptions_t* options, const char* key, size_t keylen, char** errptr); extern ROCKSDB_LIBRARY_API rocksdb_pinnableslice_t* rocksdb_get_pinned_cf( rocksdb_t* db, const rocksdb_readoptions_t* options, rocksdb_column_family_handle_t* column_family, const char* key, size_t keylen, char** errptr); extern ROCKSDB_LIBRARY_API void rocksdb_pinnableslice_destroy( rocksdb_pinnableslice_t* v); extern ROCKSDB_LIBRARY_API const char* rocksdb_pinnableslice_value( const rocksdb_pinnableslice_t* t, size_t* vlen); extern ROCKSDB_LIBRARY_API rocksdb_memory_consumers_t* rocksdb_memory_consumers_create(); extern ROCKSDB_LIBRARY_API void rocksdb_memory_consumers_add_db( rocksdb_memory_consumers_t* consumers, rocksdb_t* db); extern ROCKSDB_LIBRARY_API void rocksdb_memory_consumers_add_cache( rocksdb_memory_consumers_t* consumers, rocksdb_cache_t* cache); extern ROCKSDB_LIBRARY_API void rocksdb_memory_consumers_destroy( rocksdb_memory_consumers_t* consumers); extern ROCKSDB_LIBRARY_API rocksdb_memory_usage_t* rocksdb_approximate_memory_usage_create(rocksdb_memory_consumers_t* consumers, char** errptr); extern ROCKSDB_LIBRARY_API void rocksdb_approximate_memory_usage_destroy( rocksdb_memory_usage_t* usage); extern ROCKSDB_LIBRARY_API uint64_t rocksdb_approximate_memory_usage_get_mem_table_total( rocksdb_memory_usage_t* memory_usage); extern ROCKSDB_LIBRARY_API uint64_t rocksdb_approximate_memory_usage_get_mem_table_unflushed( rocksdb_memory_usage_t* memory_usage); extern ROCKSDB_LIBRARY_API uint64_t rocksdb_approximate_memory_usage_get_mem_table_readers_total( rocksdb_memory_usage_t* memory_usage); extern ROCKSDB_LIBRARY_API uint64_t rocksdb_approximate_memory_usage_get_cache_total( rocksdb_memory_usage_t* memory_usage); #ifdef __cplusplus } /* end extern "C" */ #endif rocksdb-5.17.2/include/rocksdb/cache.h000066400000000000000000000231641337235545400175440ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. // // A Cache is an interface that maps keys to values. It has internal // synchronization and may be safely accessed concurrently from // multiple threads. It may automatically evict entries to make room // for new entries. Values have a specified charge against the cache // capacity. For example, a cache where the values are variable // length strings, may use the length of the string as the charge for // the string. // // A builtin cache implementation with a least-recently-used eviction // policy is provided. Clients may use their own implementations if // they want something more sophisticated (like scan-resistance, a // custom eviction policy, variable cache sizing, etc.) #pragma once #include #include #include #include "rocksdb/slice.h" #include "rocksdb/statistics.h" #include "rocksdb/status.h" namespace rocksdb { class Cache; struct LRUCacheOptions { // Capacity of the cache. size_t capacity = 0; // Cache is sharded into 2^num_shard_bits shards, // by hash of key. Refer to NewLRUCache for further // information. int num_shard_bits = -1; // If strict_capacity_limit is set, // insert to the cache will fail when cache is full. bool strict_capacity_limit = false; // Percentage of cache reserved for high priority entries. // If greater than zero, the LRU list will be split into a high-pri // list and a low-pri list. High-pri entries will be insert to the // tail of high-pri list, while low-pri entries will be first inserted to // the low-pri list (the midpoint). This is refered to as // midpoint insertion strategy to make entries never get hit in cache // age out faster. // // See also // BlockBasedTableOptions::cache_index_and_filter_blocks_with_high_priority. double high_pri_pool_ratio = 0.0; LRUCacheOptions() {} LRUCacheOptions(size_t _capacity, int _num_shard_bits, bool _strict_capacity_limit, double _high_pri_pool_ratio) : capacity(_capacity), num_shard_bits(_num_shard_bits), strict_capacity_limit(_strict_capacity_limit), high_pri_pool_ratio(_high_pri_pool_ratio) {} }; // Create a new cache with a fixed size capacity. The cache is sharded // to 2^num_shard_bits shards, by hash of the key. The total capacity // is divided and evenly assigned to each shard. If strict_capacity_limit // is set, insert to the cache will fail when cache is full. User can also // set percentage of the cache reserves for high priority entries via // high_pri_pool_pct. // num_shard_bits = -1 means it is automatically determined: every shard // will be at least 512KB and number of shard bits will not exceed 6. extern std::shared_ptr NewLRUCache(size_t capacity, int num_shard_bits = -1, bool strict_capacity_limit = false, double high_pri_pool_ratio = 0.0); extern std::shared_ptr NewLRUCache(const LRUCacheOptions& cache_opts); // Similar to NewLRUCache, but create a cache based on CLOCK algorithm with // better concurrent performance in some cases. See util/clock_cache.cc for // more detail. // // Return nullptr if it is not supported. extern std::shared_ptr NewClockCache(size_t capacity, int num_shard_bits = -1, bool strict_capacity_limit = false); class Cache { public: // Depending on implementation, cache entries with high priority could be less // likely to get evicted than low priority entries. enum class Priority { HIGH, LOW }; Cache() {} // Destroys all existing entries by calling the "deleter" // function that was passed via the Insert() function. // // @See Insert virtual ~Cache() {} // Opaque handle to an entry stored in the cache. struct Handle {}; // The type of the Cache virtual const char* Name() const = 0; // Insert a mapping from key->value into the cache and assign it // the specified charge against the total cache capacity. // If strict_capacity_limit is true and cache reaches its full capacity, // return Status::Incomplete. // // If handle is not nullptr, returns a handle that corresponds to the // mapping. The caller must call this->Release(handle) when the returned // mapping is no longer needed. In case of error caller is responsible to // cleanup the value (i.e. calling "deleter"). // // If handle is nullptr, it is as if Release is called immediately after // insert. In case of error value will be cleanup. // // When the inserted entry is no longer needed, the key and // value will be passed to "deleter". virtual Status Insert(const Slice& key, void* value, size_t charge, void (*deleter)(const Slice& key, void* value), Handle** handle = nullptr, Priority priority = Priority::LOW) = 0; // If the cache has no mapping for "key", returns nullptr. // // Else return a handle that corresponds to the mapping. The caller // must call this->Release(handle) when the returned mapping is no // longer needed. // If stats is not nullptr, relative tickers could be used inside the // function. virtual Handle* Lookup(const Slice& key, Statistics* stats = nullptr) = 0; // Increments the reference count for the handle if it refers to an entry in // the cache. Returns true if refcount was incremented; otherwise, returns // false. // REQUIRES: handle must have been returned by a method on *this. virtual bool Ref(Handle* handle) = 0; /** * Release a mapping returned by a previous Lookup(). A released entry might * still remain in cache in case it is later looked up by others. If * force_erase is set then it also erase it from the cache if there is no * other reference to it. Erasing it should call the deleter function that * was provided when the * entry was inserted. * * Returns true if the entry was also erased. */ // REQUIRES: handle must not have been released yet. // REQUIRES: handle must have been returned by a method on *this. virtual bool Release(Handle* handle, bool force_erase = false) = 0; // Return the value encapsulated in a handle returned by a // successful Lookup(). // REQUIRES: handle must not have been released yet. // REQUIRES: handle must have been returned by a method on *this. virtual void* Value(Handle* handle) = 0; // If the cache contains entry for key, erase it. Note that the // underlying entry will be kept around until all existing handles // to it have been released. virtual void Erase(const Slice& key) = 0; // Return a new numeric id. May be used by multiple clients who are // sharding the same cache to partition the key space. Typically the // client will allocate a new id at startup and prepend the id to // its cache keys. virtual uint64_t NewId() = 0; // sets the maximum configured capacity of the cache. When the new // capacity is less than the old capacity and the existing usage is // greater than new capacity, the implementation will do its best job to // purge the released entries from the cache in order to lower the usage virtual void SetCapacity(size_t capacity) = 0; // Set whether to return error on insertion when cache reaches its full // capacity. virtual void SetStrictCapacityLimit(bool strict_capacity_limit) = 0; // Get the flag whether to return error on insertion when cache reaches its // full capacity. virtual bool HasStrictCapacityLimit() const = 0; // returns the maximum configured capacity of the cache virtual size_t GetCapacity() const = 0; // returns the memory size for the entries residing in the cache. virtual size_t GetUsage() const = 0; // returns the memory size for a specific entry in the cache. virtual size_t GetUsage(Handle* handle) const = 0; // returns the memory size for the entries in use by the system virtual size_t GetPinnedUsage() const = 0; // Call this on shutdown if you want to speed it up. Cache will disown // any underlying data and will not free it on delete. This call will leak // memory - call this only if you're shutting down the process. // Any attempts of using cache after this call will fail terribly. // Always delete the DB object before calling this method! virtual void DisownData(){ // default implementation is noop }; // Apply callback to all entries in the cache // If thread_safe is true, it will also lock the accesses. Otherwise, it will // access the cache without the lock held virtual void ApplyToAllCacheEntries(void (*callback)(void*, size_t), bool thread_safe) = 0; // Remove all entries. // Prerequisite: no entry is referenced. virtual void EraseUnRefEntries() = 0; virtual std::string GetPrintableOptions() const { return ""; } // Mark the last inserted object as being a raw data block. This will be used // in tests. The default implementation does nothing. virtual void TEST_mark_as_data_block(const Slice& /*key*/, size_t /*charge*/) {} private: // No copying allowed Cache(const Cache&); Cache& operator=(const Cache&); }; } // namespace rocksdb rocksdb-5.17.2/include/rocksdb/cleanable.h000066400000000000000000000050341337235545400204030ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. // // An iterator yields a sequence of key/value pairs from a source. // The following class defines the interface. Multiple implementations // are provided by this library. In particular, iterators are provided // to access the contents of a Table or a DB. // // Multiple threads can invoke const methods on an Iterator without // external synchronization, but if any of the threads may call a // non-const method, all threads accessing the same Iterator must use // external synchronization. #pragma once namespace rocksdb { class Cleanable { public: Cleanable(); ~Cleanable(); // No copy constructor and copy assignment allowed. Cleanable(Cleanable&) = delete; Cleanable& operator=(Cleanable&) = delete; // Move constructor and move assignment is allowed. Cleanable(Cleanable&&); Cleanable& operator=(Cleanable&&); // Clients are allowed to register function/arg1/arg2 triples that // will be invoked when this iterator is destroyed. // // Note that unlike all of the preceding methods, this method is // not abstract and therefore clients should not override it. typedef void (*CleanupFunction)(void* arg1, void* arg2); void RegisterCleanup(CleanupFunction function, void* arg1, void* arg2); void DelegateCleanupsTo(Cleanable* other); // DoCleanup and also resets the pointers for reuse inline void Reset() { DoCleanup(); cleanup_.function = nullptr; cleanup_.next = nullptr; } protected: struct Cleanup { CleanupFunction function; void* arg1; void* arg2; Cleanup* next; }; Cleanup cleanup_; // It also becomes the owner of c void RegisterCleanup(Cleanup* c); private: // Performs all the cleanups. It does not reset the pointers. Making it // private // to prevent misuse inline void DoCleanup() { if (cleanup_.function != nullptr) { (*cleanup_.function)(cleanup_.arg1, cleanup_.arg2); for (Cleanup* c = cleanup_.next; c != nullptr;) { (*c->function)(c->arg1, c->arg2); Cleanup* next = c->next; delete c; c = next; } } } }; } // namespace rocksdb rocksdb-5.17.2/include/rocksdb/compaction_filter.h000066400000000000000000000216121337235545400221760ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // Copyright (c) 2013 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #include #include #include #include namespace rocksdb { class Slice; class SliceTransform; // Context information of a compaction run struct CompactionFilterContext { // Does this compaction run include all data files bool is_full_compaction; // Is this compaction requested by the client (true), // or is it occurring as an automatic compaction process bool is_manual_compaction; }; // CompactionFilter allows an application to modify/delete a key-value at // the time of compaction. class CompactionFilter { public: enum ValueType { kValue, kMergeOperand, kBlobIndex, // used internally by BlobDB. }; enum class Decision { kKeep, kRemove, kChangeValue, kRemoveAndSkipUntil, }; // Context information of a compaction run struct Context { // Does this compaction run include all data files bool is_full_compaction; // Is this compaction requested by the client (true), // or is it occurring as an automatic compaction process bool is_manual_compaction; // Which column family this compaction is for. uint32_t column_family_id; }; virtual ~CompactionFilter() {} // The compaction process invokes this // method for kv that is being compacted. A return value // of false indicates that the kv should be preserved in the // output of this compaction run and a return value of true // indicates that this key-value should be removed from the // output of the compaction. The application can inspect // the existing value of the key and make decision based on it. // // Key-Values that are results of merge operation during compaction are not // passed into this function. Currently, when you have a mix of Put()s and // Merge()s on a same key, we only guarantee to process the merge operands // through the compaction filters. Put()s might be processed, or might not. // // When the value is to be preserved, the application has the option // to modify the existing_value and pass it back through new_value. // value_changed needs to be set to true in this case. // // If you use snapshot feature of RocksDB (i.e. call GetSnapshot() API on a // DB* object), CompactionFilter might not be very useful for you. Due to // guarantees we need to maintain, compaction process will not call Filter() // on any keys that were written before the latest snapshot. In other words, // compaction will only call Filter() on keys written after your most recent // call to GetSnapshot(). In most cases, Filter() will not be called very // often. This is something we're fixing. See the discussion at: // https://www.facebook.com/groups/mysqlonrocksdb/permalink/999723240091865/ // // If multithreaded compaction is being used *and* a single CompactionFilter // instance was supplied via Options::compaction_filter, this method may be // called from different threads concurrently. The application must ensure // that the call is thread-safe. // // If the CompactionFilter was created by a factory, then it will only ever // be used by a single thread that is doing the compaction run, and this // call does not need to be thread-safe. However, multiple filters may be // in existence and operating concurrently. virtual bool Filter(int /*level*/, const Slice& /*key*/, const Slice& /*existing_value*/, std::string* /*new_value*/, bool* /*value_changed*/) const { return false; } // The compaction process invokes this method on every merge operand. If this // method returns true, the merge operand will be ignored and not written out // in the compaction output // // Note: If you are using a TransactionDB, it is not recommended to implement // FilterMergeOperand(). If a Merge operation is filtered out, TransactionDB // may not realize there is a write conflict and may allow a Transaction to // Commit that should have failed. Instead, it is better to implement any // Merge filtering inside the MergeOperator. virtual bool FilterMergeOperand(int /*level*/, const Slice& /*key*/, const Slice& /*operand*/) const { return false; } // An extended API. Called for both values and merge operands. // Allows changing value and skipping ranges of keys. // The default implementation uses Filter() and FilterMergeOperand(). // If you're overriding this method, no need to override the other two. // `value_type` indicates whether this key-value corresponds to a normal // value (e.g. written with Put()) or a merge operand (written with Merge()). // // Possible return values: // * kKeep - keep the key-value pair. // * kRemove - remove the key-value pair or merge operand. // * kChangeValue - keep the key and change the value/operand to *new_value. // * kRemoveAndSkipUntil - remove this key-value pair, and also remove // all key-value pairs with key in [key, *skip_until). This range // of keys will be skipped without reading, potentially saving some // IO operations compared to removing the keys one by one. // // *skip_until <= key is treated the same as Decision::kKeep // (since the range [key, *skip_until) is empty). // // Caveats: // - The keys are skipped even if there are snapshots containing them, // as if IgnoreSnapshots() was true; i.e. values removed // by kRemoveAndSkipUntil can disappear from a snapshot - beware // if you're using TransactionDB or DB::GetSnapshot(). // - If value for a key was overwritten or merged into (multiple Put()s // or Merge()s), and compaction filter skips this key with // kRemoveAndSkipUntil, it's possible that it will remove only // the new value, exposing the old value that was supposed to be // overwritten. // - Doesn't work with PlainTableFactory in prefix mode. // - If you use kRemoveAndSkipUntil, consider also reducing // compaction_readahead_size option. // // Note: If you are using a TransactionDB, it is not recommended to filter // out or modify merge operands (ValueType::kMergeOperand). // If a merge operation is filtered out, TransactionDB may not realize there // is a write conflict and may allow a Transaction to Commit that should have // failed. Instead, it is better to implement any Merge filtering inside the // MergeOperator. virtual Decision FilterV2(int level, const Slice& key, ValueType value_type, const Slice& existing_value, std::string* new_value, std::string* /*skip_until*/) const { switch (value_type) { case ValueType::kValue: { bool value_changed = false; bool rv = Filter(level, key, existing_value, new_value, &value_changed); if (rv) { return Decision::kRemove; } return value_changed ? Decision::kChangeValue : Decision::kKeep; } case ValueType::kMergeOperand: { bool rv = FilterMergeOperand(level, key, existing_value); return rv ? Decision::kRemove : Decision::kKeep; } case ValueType::kBlobIndex: return Decision::kKeep; } assert(false); return Decision::kKeep; } // By default, compaction will only call Filter() on keys written after the // most recent call to GetSnapshot(). However, if the compaction filter // overrides IgnoreSnapshots to make it return true, the compaction filter // will be called even if the keys were written before the last snapshot. // This behavior is to be used only when we want to delete a set of keys // irrespective of snapshots. In particular, care should be taken // to understand that the values of these keys will change even if we are // using a snapshot. virtual bool IgnoreSnapshots() const { return false; } // Returns a name that identifies this compaction filter. // The name will be printed to LOG file on start up for diagnosis. virtual const char* Name() const = 0; }; // Each compaction will create a new CompactionFilter allowing the // application to know about different compactions class CompactionFilterFactory { public: virtual ~CompactionFilterFactory() { } virtual std::unique_ptr CreateCompactionFilter( const CompactionFilter::Context& context) = 0; // Returns a name that identifies this compaction filter factory. virtual const char* Name() const = 0; }; } // namespace rocksdb rocksdb-5.17.2/include/rocksdb/compaction_job_stats.h000066400000000000000000000060561337235545400227060ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #include #include #include namespace rocksdb { struct CompactionJobStats { CompactionJobStats() { Reset(); } void Reset(); // Aggregate the CompactionJobStats from another instance with this one void Add(const CompactionJobStats& stats); // the elapsed time of this compaction in microseconds. uint64_t elapsed_micros; // the number of compaction input records. uint64_t num_input_records; // the number of compaction input files. size_t num_input_files; // the number of compaction input files at the output level. size_t num_input_files_at_output_level; // the number of compaction output records. uint64_t num_output_records; // the number of compaction output files. size_t num_output_files; // true if the compaction is a manual compaction bool is_manual_compaction; // the size of the compaction input in bytes. uint64_t total_input_bytes; // the size of the compaction output in bytes. uint64_t total_output_bytes; // number of records being replaced by newer record associated with same key. // this could be a new value or a deletion entry for that key so this field // sums up all updated and deleted keys uint64_t num_records_replaced; // the sum of the uncompressed input keys in bytes. uint64_t total_input_raw_key_bytes; // the sum of the uncompressed input values in bytes. uint64_t total_input_raw_value_bytes; // the number of deletion entries before compaction. Deletion entries // can disappear after compaction because they expired uint64_t num_input_deletion_records; // number of deletion records that were found obsolete and discarded // because it is not possible to delete any more keys with this entry // (i.e. all possible deletions resulting from it have been completed) uint64_t num_expired_deletion_records; // number of corrupt keys (ParseInternalKey returned false when applied to // the key) encountered and written out. uint64_t num_corrupt_keys; // Following counters are only populated if // options.report_bg_io_stats = true; // Time spent on file's Append() call. uint64_t file_write_nanos; // Time spent on sync file range. uint64_t file_range_sync_nanos; // Time spent on file fsync. uint64_t file_fsync_nanos; // Time spent on preparing file write (fallocate, etc) uint64_t file_prepare_write_nanos; // 0-terminated strings storing the first 8 bytes of the smallest and // largest key in the output. static const size_t kMaxPrefixLength = 8; std::string smallest_output_key_prefix; std::string largest_output_key_prefix; // number of single-deletes which do not meet a put uint64_t num_single_del_fallthru; // number of single-deletes which meet something other than a put uint64_t num_single_del_mismatch; }; } // namespace rocksdb rocksdb-5.17.2/include/rocksdb/comparator.h000066400000000000000000000071501337235545400206450ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #include namespace rocksdb { class Slice; // A Comparator object provides a total order across slices that are // used as keys in an sstable or a database. A Comparator implementation // must be thread-safe since rocksdb may invoke its methods concurrently // from multiple threads. class Comparator { public: virtual ~Comparator() {} // Three-way comparison. Returns value: // < 0 iff "a" < "b", // == 0 iff "a" == "b", // > 0 iff "a" > "b" virtual int Compare(const Slice& a, const Slice& b) const = 0; // Compares two slices for equality. The following invariant should always // hold (and is the default implementation): // Equal(a, b) iff Compare(a, b) == 0 // Overwrite only if equality comparisons can be done more efficiently than // three-way comparisons. virtual bool Equal(const Slice& a, const Slice& b) const { return Compare(a, b) == 0; } // The name of the comparator. Used to check for comparator // mismatches (i.e., a DB created with one comparator is // accessed using a different comparator. // // The client of this package should switch to a new name whenever // the comparator implementation changes in a way that will cause // the relative ordering of any two keys to change. // // Names starting with "rocksdb." are reserved and should not be used // by any clients of this package. virtual const char* Name() const = 0; // Advanced functions: these are used to reduce the space requirements // for internal data structures like index blocks. // If *start < limit, changes *start to a short string in [start,limit). // Simple comparator implementations may return with *start unchanged, // i.e., an implementation of this method that does nothing is correct. virtual void FindShortestSeparator( std::string* start, const Slice& limit) const = 0; // Changes *key to a short string >= *key. // Simple comparator implementations may return with *key unchanged, // i.e., an implementation of this method that does nothing is correct. virtual void FindShortSuccessor(std::string* key) const = 0; // if it is a wrapped comparator, may return the root one. // return itself it is not wrapped. virtual const Comparator* GetRootComparator() const { return this; } // given two keys, determine if t is the successor of s virtual bool IsSameLengthImmediateSuccessor(const Slice& /*s*/, const Slice& /*t*/) const { return false; } // return true if two keys with different byte sequences can be regarded // as equal by this comparator. // The major use case is to determine if DataBlockHashIndex is compatible // with the customized comparator. virtual bool CanKeysWithDifferentByteContentsBeEqual() const { return true; } }; // Return a builtin comparator that uses lexicographic byte-wise // ordering. The result remains the property of this module and // must not be deleted. extern const Comparator* BytewiseComparator(); // Return a builtin comparator that uses reverse lexicographic byte-wise // ordering. extern const Comparator* ReverseBytewiseComparator(); } // namespace rocksdb rocksdb-5.17.2/include/rocksdb/convenience.h000066400000000000000000000374621337235545400210030ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #include #include #include #include "rocksdb/db.h" #include "rocksdb/options.h" #include "rocksdb/table.h" namespace rocksdb { #ifndef ROCKSDB_LITE // The following set of functions provide a way to construct RocksDB Options // from a string or a string-to-string map. Here're the general rule of // setting option values from strings by type. Some RocksDB types are also // supported in these APIs. Please refer to the comment of the function itself // to find more information about how to config those RocksDB types. // // * Strings: // Strings will be used as values directly without any truncating or // trimming. // // * Booleans: // - "true" or "1" => true // - "false" or "0" => false. // [Example]: // - {"optimize_filters_for_hits", "1"} in GetColumnFamilyOptionsFromMap, or // - "optimize_filters_for_hits=true" in GetColumnFamilyOptionsFromString. // // * Integers: // Integers are converted directly from string, in addition to the following // units that we support: // - 'k' or 'K' => 2^10 // - 'm' or 'M' => 2^20 // - 'g' or 'G' => 2^30 // - 't' or 'T' => 2^40 // only for unsigned int with sufficient bits. // [Example]: // - {"arena_block_size", "19G"} in GetColumnFamilyOptionsFromMap, or // - "arena_block_size=19G" in GetColumnFamilyOptionsFromString. // // * Doubles / Floating Points: // Doubles / Floating Points are converted directly from string. Note that // currently we do not support units. // [Example]: // - {"hard_rate_limit", "2.1"} in GetColumnFamilyOptionsFromMap, or // - "hard_rate_limit=2.1" in GetColumnFamilyOptionsFromString. // * Array / Vectors: // An array is specified by a list of values, where ':' is used as // the delimiter to separate each value. // [Example]: // - {"compression_per_level", "kNoCompression:kSnappyCompression"} // in GetColumnFamilyOptionsFromMap, or // - "compression_per_level=kNoCompression:kSnappyCompression" in // GetColumnFamilyOptionsFromMapString // * Enums: // The valid values of each enum are identical to the names of its constants. // [Example]: // - CompressionType: valid values are "kNoCompression", // "kSnappyCompression", "kZlibCompression", "kBZip2Compression", ... // - CompactionStyle: valid values are "kCompactionStyleLevel", // "kCompactionStyleUniversal", "kCompactionStyleFIFO", and // "kCompactionStyleNone". // // Take a default ColumnFamilyOptions "base_options" in addition to a // map "opts_map" of option name to option value to construct the new // ColumnFamilyOptions "new_options". // // Below are the instructions of how to config some non-primitive-typed // options in ColumnFOptions: // // * table_factory: // table_factory can be configured using our custom nested-option syntax. // // {option_a=value_a; option_b=value_b; option_c=value_c; ... } // // A nested option is enclosed by two curly braces, within which there are // multiple option assignments. Each assignment is of the form // "variable_name=value;". // // Currently we support the following types of TableFactory: // - BlockBasedTableFactory: // Use name "block_based_table_factory" to initialize table_factory with // BlockBasedTableFactory. Its BlockBasedTableFactoryOptions can be // configured using the nested-option syntax. // [Example]: // * {"block_based_table_factory", "{block_cache=1M;block_size=4k;}"} // is equivalent to assigning table_factory with a BlockBasedTableFactory // that has 1M LRU block-cache with block size equals to 4k: // ColumnFamilyOptions cf_opt; // BlockBasedTableOptions blk_opt; // blk_opt.block_cache = NewLRUCache(1 * 1024 * 1024); // blk_opt.block_size = 4 * 1024; // cf_opt.table_factory.reset(NewBlockBasedTableFactory(blk_opt)); // - PlainTableFactory: // Use name "plain_table_factory" to initialize table_factory with // PlainTableFactory. Its PlainTableFactoryOptions can be configured using // the nested-option syntax. // [Example]: // * {"plain_table_factory", "{user_key_len=66;bloom_bits_per_key=20;}"} // // * memtable_factory: // Use "memtable" to config memtable_factory. Here are the supported // memtable factories: // - SkipList: // Pass "skip_list:" to config memtable to use SkipList, // or simply "skip_list" to use the default SkipList. // [Example]: // * {"memtable", "skip_list:5"} is equivalent to setting // memtable to SkipListFactory(5). // - PrefixHash: // Pass "prfix_hash:" to config memtable // to use PrefixHash, or simply "prefix_hash" to use the default // PrefixHash. // [Example]: // * {"memtable", "prefix_hash:1000"} is equivalent to setting // memtable to NewHashSkipListRepFactory(hash_bucket_count). // - HashLinkedList: // Pass "hash_linkedlist:" to config memtable // to use HashLinkedList, or simply "hash_linkedlist" to use the default // HashLinkedList. // [Example]: // * {"memtable", "hash_linkedlist:1000"} is equivalent to // setting memtable to NewHashLinkListRepFactory(1000). // - VectorRepFactory: // Pass "vector:" to config memtable to use VectorRepFactory, // or simply "vector" to use the default Vector memtable. // [Example]: // * {"memtable", "vector:1024"} is equivalent to setting memtable // to VectorRepFactory(1024). // - HashCuckooRepFactory: // Pass "cuckoo:" to use HashCuckooRepFactory with the // specified write buffer size, or simply "cuckoo" to use the default // HashCuckooRepFactory. // [Example]: // * {"memtable", "cuckoo:1024"} is equivalent to setting memtable // to NewHashCuckooRepFactory(1024). // // * compression_opts: // Use "compression_opts" to config compression_opts. The value format // is of the form ":::". // [Example]: // * {"compression_opts", "4:5:6:7"} is equivalent to setting: // ColumnFamilyOptions cf_opt; // cf_opt.compression_opts.window_bits = 4; // cf_opt.compression_opts.level = 5; // cf_opt.compression_opts.strategy = 6; // cf_opt.compression_opts.max_dict_bytes = 7; // // @param base_options the default options of the output "new_options". // @param opts_map an option name to value map for specifying how "new_options" // should be set. // @param new_options the resulting options based on "base_options" with the // change specified in "opts_map". // @param input_strings_escaped when set to true, each escaped characters // prefixed by '\' in the values of the opts_map will be further converted // back to the raw string before assigning to the associated options. // @param ignore_unknown_options when set to true, unknown options are ignored // instead of resulting in an unknown-option error. // @return Status::OK() on success. Otherwise, a non-ok status indicating // error will be returned, and "new_options" will be set to "base_options". Status GetColumnFamilyOptionsFromMap( const ColumnFamilyOptions& base_options, const std::unordered_map& opts_map, ColumnFamilyOptions* new_options, bool input_strings_escaped = false, bool ignore_unknown_options = false); // Take a default DBOptions "base_options" in addition to a // map "opts_map" of option name to option value to construct the new // DBOptions "new_options". // // Below are the instructions of how to config some non-primitive-typed // options in DBOptions: // // * rate_limiter_bytes_per_sec: // RateLimiter can be configured directly by specifying its bytes_per_sec. // [Example]: // - Passing {"rate_limiter_bytes_per_sec", "1024"} is equivalent to // passing NewGenericRateLimiter(1024) to rate_limiter_bytes_per_sec. // // @param base_options the default options of the output "new_options". // @param opts_map an option name to value map for specifying how "new_options" // should be set. // @param new_options the resulting options based on "base_options" with the // change specified in "opts_map". // @param input_strings_escaped when set to true, each escaped characters // prefixed by '\' in the values of the opts_map will be further converted // back to the raw string before assigning to the associated options. // @param ignore_unknown_options when set to true, unknown options are ignored // instead of resulting in an unknown-option error. // @return Status::OK() on success. Otherwise, a non-ok status indicating // error will be returned, and "new_options" will be set to "base_options". Status GetDBOptionsFromMap( const DBOptions& base_options, const std::unordered_map& opts_map, DBOptions* new_options, bool input_strings_escaped = false, bool ignore_unknown_options = false); // Take a default BlockBasedTableOptions "table_options" in addition to a // map "opts_map" of option name to option value to construct the new // BlockBasedTableOptions "new_table_options". // // Below are the instructions of how to config some non-primitive-typed // options in BlockBasedTableOptions: // // * filter_policy: // We currently only support the following FilterPolicy in the convenience // functions: // - BloomFilter: use "bloomfilter:[bits_per_key]:[use_block_based_builder]" // to specify BloomFilter. The above string is equivalent to calling // NewBloomFilterPolicy(bits_per_key, use_block_based_builder). // [Example]: // - Pass {"filter_policy", "bloomfilter:4:true"} in // GetBlockBasedTableOptionsFromMap to use a BloomFilter with 4-bits // per key and use_block_based_builder enabled. // // * block_cache / block_cache_compressed: // We currently only support LRU cache in the GetOptions API. The LRU // cache can be set by directly specifying its size. // [Example]: // - Passing {"block_cache", "1M"} in GetBlockBasedTableOptionsFromMap is // equivalent to setting block_cache using NewLRUCache(1024 * 1024). // // @param table_options the default options of the output "new_table_options". // @param opts_map an option name to value map for specifying how // "new_table_options" should be set. // @param new_table_options the resulting options based on "table_options" // with the change specified in "opts_map". // @param input_strings_escaped when set to true, each escaped characters // prefixed by '\' in the values of the opts_map will be further converted // back to the raw string before assigning to the associated options. // @param ignore_unknown_options when set to true, unknown options are ignored // instead of resulting in an unknown-option error. // @return Status::OK() on success. Otherwise, a non-ok status indicating // error will be returned, and "new_table_options" will be set to // "table_options". Status GetBlockBasedTableOptionsFromMap( const BlockBasedTableOptions& table_options, const std::unordered_map& opts_map, BlockBasedTableOptions* new_table_options, bool input_strings_escaped = false, bool ignore_unknown_options = false); // Take a default PlainTableOptions "table_options" in addition to a // map "opts_map" of option name to option value to construct the new // PlainTableOptions "new_table_options". // // @param table_options the default options of the output "new_table_options". // @param opts_map an option name to value map for specifying how // "new_table_options" should be set. // @param new_table_options the resulting options based on "table_options" // with the change specified in "opts_map". // @param input_strings_escaped when set to true, each escaped characters // prefixed by '\' in the values of the opts_map will be further converted // back to the raw string before assigning to the associated options. // @param ignore_unknown_options when set to true, unknown options are ignored // instead of resulting in an unknown-option error. // @return Status::OK() on success. Otherwise, a non-ok status indicating // error will be returned, and "new_table_options" will be set to // "table_options". Status GetPlainTableOptionsFromMap( const PlainTableOptions& table_options, const std::unordered_map& opts_map, PlainTableOptions* new_table_options, bool input_strings_escaped = false, bool ignore_unknown_options = false); // Take a string representation of option names and values, apply them into the // base_options, and return the new options as a result. The string has the // following format: // "write_buffer_size=1024;max_write_buffer_number=2" // Nested options config is also possible. For example, you can define // BlockBasedTableOptions as part of the string for block-based table factory: // "write_buffer_size=1024;block_based_table_factory={block_size=4k};" // "max_write_buffer_num=2" Status GetColumnFamilyOptionsFromString( const ColumnFamilyOptions& base_options, const std::string& opts_str, ColumnFamilyOptions* new_options); Status GetDBOptionsFromString( const DBOptions& base_options, const std::string& opts_str, DBOptions* new_options); Status GetStringFromDBOptions(std::string* opts_str, const DBOptions& db_options, const std::string& delimiter = "; "); Status GetStringFromColumnFamilyOptions(std::string* opts_str, const ColumnFamilyOptions& cf_options, const std::string& delimiter = "; "); Status GetStringFromCompressionType(std::string* compression_str, CompressionType compression_type); std::vector GetSupportedCompressions(); Status GetBlockBasedTableOptionsFromString( const BlockBasedTableOptions& table_options, const std::string& opts_str, BlockBasedTableOptions* new_table_options); Status GetPlainTableOptionsFromString( const PlainTableOptions& table_options, const std::string& opts_str, PlainTableOptions* new_table_options); Status GetMemTableRepFactoryFromString( const std::string& opts_str, std::unique_ptr* new_mem_factory); Status GetOptionsFromString(const Options& base_options, const std::string& opts_str, Options* new_options); Status StringToMap(const std::string& opts_str, std::unordered_map* opts_map); // Request stopping background work, if wait is true wait until it's done void CancelAllBackgroundWork(DB* db, bool wait = false); // Delete files which are entirely in the given range // Could leave some keys in the range which are in files which are not // entirely in the range. Also leaves L0 files regardless of whether they're // in the range. // Snapshots before the delete might not see the data in the given range. Status DeleteFilesInRange(DB* db, ColumnFamilyHandle* column_family, const Slice* begin, const Slice* end, bool include_end = true); // Delete files in multiple ranges at once // Delete files in a lot of ranges one at a time can be slow, use this API for // better performance in that case. Status DeleteFilesInRanges(DB* db, ColumnFamilyHandle* column_family, const RangePtr* ranges, size_t n, bool include_end = true); // Verify the checksum of file Status VerifySstFileChecksum(const Options& options, const EnvOptions& env_options, const std::string& file_path); #endif // ROCKSDB_LITE } // namespace rocksdb rocksdb-5.17.2/include/rocksdb/db.h000066400000000000000000001551101337235545400170630ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #include #include #include #include #include #include #include #include "rocksdb/iterator.h" #include "rocksdb/listener.h" #include "rocksdb/metadata.h" #include "rocksdb/options.h" #include "rocksdb/snapshot.h" #include "rocksdb/sst_file_writer.h" #include "rocksdb/thread_status.h" #include "rocksdb/transaction_log.h" #include "rocksdb/types.h" #include "rocksdb/version.h" #ifdef _WIN32 // Windows API macro interference #undef DeleteFile #endif #if defined(__GNUC__) || defined(__clang__) #define ROCKSDB_DEPRECATED_FUNC __attribute__((__deprecated__)) #elif _WIN32 #define ROCKSDB_DEPRECATED_FUNC __declspec(deprecated) #endif namespace rocksdb { struct Options; struct DBOptions; struct ColumnFamilyOptions; struct ReadOptions; struct WriteOptions; struct FlushOptions; struct CompactionOptions; struct CompactRangeOptions; struct TableProperties; struct ExternalSstFileInfo; class WriteBatch; class Env; class EventListener; class TraceWriter; using std::unique_ptr; extern const std::string kDefaultColumnFamilyName; struct ColumnFamilyDescriptor { std::string name; ColumnFamilyOptions options; ColumnFamilyDescriptor() : name(kDefaultColumnFamilyName), options(ColumnFamilyOptions()) {} ColumnFamilyDescriptor(const std::string& _name, const ColumnFamilyOptions& _options) : name(_name), options(_options) {} }; class ColumnFamilyHandle { public: virtual ~ColumnFamilyHandle() {} // Returns the name of the column family associated with the current handle. virtual const std::string& GetName() const = 0; // Returns the ID of the column family associated with the current handle. virtual uint32_t GetID() const = 0; // Fills "*desc" with the up-to-date descriptor of the column family // associated with this handle. Since it fills "*desc" with the up-to-date // information, this call might internally lock and release DB mutex to // access the up-to-date CF options. In addition, all the pointer-typed // options cannot be referenced any longer than the original options exist. // // Note that this function is not supported in RocksDBLite. virtual Status GetDescriptor(ColumnFamilyDescriptor* desc) = 0; // Returns the comparator of the column family associated with the // current handle. virtual const Comparator* GetComparator() const = 0; }; static const int kMajorVersion = __ROCKSDB_MAJOR__; static const int kMinorVersion = __ROCKSDB_MINOR__; // A range of keys struct Range { Slice start; Slice limit; Range() { } Range(const Slice& s, const Slice& l) : start(s), limit(l) { } }; struct RangePtr { const Slice* start; const Slice* limit; RangePtr() : start(nullptr), limit(nullptr) { } RangePtr(const Slice* s, const Slice* l) : start(s), limit(l) { } }; // A collections of table properties objects, where // key: is the table's file name. // value: the table properties object of the given table. typedef std::unordered_map> TablePropertiesCollection; // A DB is a persistent ordered map from keys to values. // A DB is safe for concurrent access from multiple threads without // any external synchronization. class DB { public: // Open the database with the specified "name". // Stores a pointer to a heap-allocated database in *dbptr and returns // OK on success. // Stores nullptr in *dbptr and returns a non-OK status on error. // Caller should delete *dbptr when it is no longer needed. static Status Open(const Options& options, const std::string& name, DB** dbptr); // Open the database for read only. All DB interfaces // that modify data, like put/delete, will return error. // If the db is opened in read only mode, then no compactions // will happen. // // Not supported in ROCKSDB_LITE, in which case the function will // return Status::NotSupported. static Status OpenForReadOnly(const Options& options, const std::string& name, DB** dbptr, bool error_if_log_file_exist = false); // Open the database for read only with column families. When opening DB with // read only, you can specify only a subset of column families in the // database that should be opened. However, you always need to specify default // column family. The default column family name is 'default' and it's stored // in rocksdb::kDefaultColumnFamilyName // // Not supported in ROCKSDB_LITE, in which case the function will // return Status::NotSupported. static Status OpenForReadOnly( const DBOptions& db_options, const std::string& name, const std::vector& column_families, std::vector* handles, DB** dbptr, bool error_if_log_file_exist = false); // Open DB with column families. // db_options specify database specific options // column_families is the vector of all column families in the database, // containing column family name and options. You need to open ALL column // families in the database. To get the list of column families, you can use // ListColumnFamilies(). Also, you can open only a subset of column families // for read-only access. // The default column family name is 'default' and it's stored // in rocksdb::kDefaultColumnFamilyName. // If everything is OK, handles will on return be the same size // as column_families --- handles[i] will be a handle that you // will use to operate on column family column_family[i]. // Before delete DB, you have to close All column families by calling // DestroyColumnFamilyHandle() with all the handles. static Status Open(const DBOptions& db_options, const std::string& name, const std::vector& column_families, std::vector* handles, DB** dbptr); virtual Status Resume() { return Status::NotSupported(); } // Close the DB by releasing resources, closing files etc. This should be // called before calling the destructor so that the caller can get back a // status in case there are any errors. This will not fsync the WAL files. // If syncing is required, the caller must first call SyncWAL(), or Write() // using an empty write batch with WriteOptions.sync=true. // Regardless of the return status, the DB must be freed. If the return // status is NotSupported(), then the DB implementation does cleanup in the // destructor virtual Status Close() { return Status::NotSupported(); } // ListColumnFamilies will open the DB specified by argument name // and return the list of all column families in that DB // through column_families argument. The ordering of // column families in column_families is unspecified. static Status ListColumnFamilies(const DBOptions& db_options, const std::string& name, std::vector* column_families); DB() { } virtual ~DB(); // Create a column_family and return the handle of column family // through the argument handle. virtual Status CreateColumnFamily(const ColumnFamilyOptions& options, const std::string& column_family_name, ColumnFamilyHandle** handle); // Bulk create column families with the same column family options. // Return the handles of the column families through the argument handles. // In case of error, the request may succeed partially, and handles will // contain column family handles that it managed to create, and have size // equal to the number of created column families. virtual Status CreateColumnFamilies( const ColumnFamilyOptions& options, const std::vector& column_family_names, std::vector* handles); // Bulk create column families. // Return the handles of the column families through the argument handles. // In case of error, the request may succeed partially, and handles will // contain column family handles that it managed to create, and have size // equal to the number of created column families. virtual Status CreateColumnFamilies( const std::vector& column_families, std::vector* handles); // Drop a column family specified by column_family handle. This call // only records a drop record in the manifest and prevents the column // family from flushing and compacting. virtual Status DropColumnFamily(ColumnFamilyHandle* column_family); // Bulk drop column families. This call only records drop records in the // manifest and prevents the column families from flushing and compacting. // In case of error, the request may succeed partially. User may call // ListColumnFamilies to check the result. virtual Status DropColumnFamilies( const std::vector& column_families); // Close a column family specified by column_family handle and destroy // the column family handle specified to avoid double deletion. This call // deletes the column family handle by default. Use this method to // close column family instead of deleting column family handle directly virtual Status DestroyColumnFamilyHandle(ColumnFamilyHandle* column_family); // Set the database entry for "key" to "value". // If "key" already exists, it will be overwritten. // Returns OK on success, and a non-OK status on error. // Note: consider setting options.sync = true. virtual Status Put(const WriteOptions& options, ColumnFamilyHandle* column_family, const Slice& key, const Slice& value) = 0; virtual Status Put(const WriteOptions& options, const Slice& key, const Slice& value) { return Put(options, DefaultColumnFamily(), key, value); } // Remove the database entry (if any) for "key". Returns OK on // success, and a non-OK status on error. It is not an error if "key" // did not exist in the database. // Note: consider setting options.sync = true. virtual Status Delete(const WriteOptions& options, ColumnFamilyHandle* column_family, const Slice& key) = 0; virtual Status Delete(const WriteOptions& options, const Slice& key) { return Delete(options, DefaultColumnFamily(), key); } // Remove the database entry for "key". Requires that the key exists // and was not overwritten. Returns OK on success, and a non-OK status // on error. It is not an error if "key" did not exist in the database. // // If a key is overwritten (by calling Put() multiple times), then the result // of calling SingleDelete() on this key is undefined. SingleDelete() only // behaves correctly if there has been only one Put() for this key since the // previous call to SingleDelete() for this key. // // This feature is currently an experimental performance optimization // for a very specific workload. It is up to the caller to ensure that // SingleDelete is only used for a key that is not deleted using Delete() or // written using Merge(). Mixing SingleDelete operations with Deletes and // Merges can result in undefined behavior. // // Note: consider setting options.sync = true. virtual Status SingleDelete(const WriteOptions& options, ColumnFamilyHandle* column_family, const Slice& key) = 0; virtual Status SingleDelete(const WriteOptions& options, const Slice& key) { return SingleDelete(options, DefaultColumnFamily(), key); } // Removes the database entries in the range ["begin_key", "end_key"), i.e., // including "begin_key" and excluding "end_key". Returns OK on success, and // a non-OK status on error. It is not an error if no keys exist in the range // ["begin_key", "end_key"). // // This feature is currently an experimental performance optimization for // deleting very large ranges of contiguous keys. Invoking it many times or on // small ranges may severely degrade read performance; in particular, the // resulting performance can be worse than calling Delete() for each key in // the range. Note also the degraded read performance affects keys outside the // deleted ranges, and affects database operations involving scans, like flush // and compaction. // // Consider setting ReadOptions::ignore_range_deletions = true to speed // up reads for key(s) that are known to be unaffected by range deletions. virtual Status DeleteRange(const WriteOptions& options, ColumnFamilyHandle* column_family, const Slice& begin_key, const Slice& end_key); // Merge the database entry for "key" with "value". Returns OK on success, // and a non-OK status on error. The semantics of this operation is // determined by the user provided merge_operator when opening DB. // Note: consider setting options.sync = true. virtual Status Merge(const WriteOptions& options, ColumnFamilyHandle* column_family, const Slice& key, const Slice& value) = 0; virtual Status Merge(const WriteOptions& options, const Slice& key, const Slice& value) { return Merge(options, DefaultColumnFamily(), key, value); } // Apply the specified updates to the database. // If `updates` contains no update, WAL will still be synced if // options.sync=true. // Returns OK on success, non-OK on failure. // Note: consider setting options.sync = true. virtual Status Write(const WriteOptions& options, WriteBatch* updates) = 0; // If the database contains an entry for "key" store the // corresponding value in *value and return OK. // // If there is no entry for "key" leave *value unchanged and return // a status for which Status::IsNotFound() returns true. // // May return some other Status on an error. virtual inline Status Get(const ReadOptions& options, ColumnFamilyHandle* column_family, const Slice& key, std::string* value) { assert(value != nullptr); PinnableSlice pinnable_val(value); assert(!pinnable_val.IsPinned()); auto s = Get(options, column_family, key, &pinnable_val); if (s.ok() && pinnable_val.IsPinned()) { value->assign(pinnable_val.data(), pinnable_val.size()); } // else value is already assigned return s; } virtual Status Get(const ReadOptions& options, ColumnFamilyHandle* column_family, const Slice& key, PinnableSlice* value) = 0; virtual Status Get(const ReadOptions& options, const Slice& key, std::string* value) { return Get(options, DefaultColumnFamily(), key, value); } // If keys[i] does not exist in the database, then the i'th returned // status will be one for which Status::IsNotFound() is true, and // (*values)[i] will be set to some arbitrary value (often ""). Otherwise, // the i'th returned status will have Status::ok() true, and (*values)[i] // will store the value associated with keys[i]. // // (*values) will always be resized to be the same size as (keys). // Similarly, the number of returned statuses will be the number of keys. // Note: keys will not be "de-duplicated". Duplicate keys will return // duplicate values in order. virtual std::vector MultiGet( const ReadOptions& options, const std::vector& column_family, const std::vector& keys, std::vector* values) = 0; virtual std::vector MultiGet(const ReadOptions& options, const std::vector& keys, std::vector* values) { return MultiGet(options, std::vector( keys.size(), DefaultColumnFamily()), keys, values); } // If the key definitely does not exist in the database, then this method // returns false, else true. If the caller wants to obtain value when the key // is found in memory, a bool for 'value_found' must be passed. 'value_found' // will be true on return if value has been set properly. // This check is potentially lighter-weight than invoking DB::Get(). One way // to make this lighter weight is to avoid doing any IOs. // Default implementation here returns true and sets 'value_found' to false virtual bool KeyMayExist(const ReadOptions& /*options*/, ColumnFamilyHandle* /*column_family*/, const Slice& /*key*/, std::string* /*value*/, bool* value_found = nullptr) { if (value_found != nullptr) { *value_found = false; } return true; } virtual bool KeyMayExist(const ReadOptions& options, const Slice& key, std::string* value, bool* value_found = nullptr) { return KeyMayExist(options, DefaultColumnFamily(), key, value, value_found); } // Return a heap-allocated iterator over the contents of the database. // The result of NewIterator() is initially invalid (caller must // call one of the Seek methods on the iterator before using it). // // Caller should delete the iterator when it is no longer needed. // The returned iterator should be deleted before this db is deleted. virtual Iterator* NewIterator(const ReadOptions& options, ColumnFamilyHandle* column_family) = 0; virtual Iterator* NewIterator(const ReadOptions& options) { return NewIterator(options, DefaultColumnFamily()); } // Returns iterators from a consistent database state across multiple // column families. Iterators are heap allocated and need to be deleted // before the db is deleted virtual Status NewIterators( const ReadOptions& options, const std::vector& column_families, std::vector* iterators) = 0; // Return a handle to the current DB state. Iterators created with // this handle will all observe a stable snapshot of the current DB // state. The caller must call ReleaseSnapshot(result) when the // snapshot is no longer needed. // // nullptr will be returned if the DB fails to take a snapshot or does // not support snapshot. virtual const Snapshot* GetSnapshot() = 0; // Release a previously acquired snapshot. The caller must not // use "snapshot" after this call. virtual void ReleaseSnapshot(const Snapshot* snapshot) = 0; #ifndef ROCKSDB_LITE // Contains all valid property arguments for GetProperty(). // // NOTE: Property names cannot end in numbers since those are interpreted as // arguments, e.g., see kNumFilesAtLevelPrefix. struct Properties { // "rocksdb.num-files-at-level" - returns string containing the number // of files at level , where is an ASCII representation of a // level number (e.g., "0"). static const std::string kNumFilesAtLevelPrefix; // "rocksdb.compression-ratio-at-level" - returns string containing the // compression ratio of data at level , where is an ASCII // representation of a level number (e.g., "0"). Here, compression // ratio is defined as uncompressed data size / compressed file size. // Returns "-1.0" if no open files at level . static const std::string kCompressionRatioAtLevelPrefix; // "rocksdb.stats" - returns a multi-line string containing the data // described by kCFStats followed by the data described by kDBStats. static const std::string kStats; // "rocksdb.sstables" - returns a multi-line string summarizing current // SST files. static const std::string kSSTables; // "rocksdb.cfstats" - Both of "rocksdb.cfstats-no-file-histogram" and // "rocksdb.cf-file-histogram" together. See below for description // of the two. static const std::string kCFStats; // "rocksdb.cfstats-no-file-histogram" - returns a multi-line string with // general columm family stats per-level over db's lifetime ("L"), // aggregated over db's lifetime ("Sum"), and aggregated over the // interval since the last retrieval ("Int"). // It could also be used to return the stats in the format of the map. // In this case there will a pair of string to array of double for // each level as well as for "Sum". "Int" stats will not be affected // when this form of stats are retrieved. static const std::string kCFStatsNoFileHistogram; // "rocksdb.cf-file-histogram" - print out how many file reads to every // level, as well as the histogram of latency of single requests. static const std::string kCFFileHistogram; // "rocksdb.dbstats" - returns a multi-line string with general database // stats, both cumulative (over the db's lifetime) and interval (since // the last retrieval of kDBStats). static const std::string kDBStats; // "rocksdb.levelstats" - returns multi-line string containing the number // of files per level and total size of each level (MB). static const std::string kLevelStats; // "rocksdb.num-immutable-mem-table" - returns number of immutable // memtables that have not yet been flushed. static const std::string kNumImmutableMemTable; // "rocksdb.num-immutable-mem-table-flushed" - returns number of immutable // memtables that have already been flushed. static const std::string kNumImmutableMemTableFlushed; // "rocksdb.mem-table-flush-pending" - returns 1 if a memtable flush is // pending; otherwise, returns 0. static const std::string kMemTableFlushPending; // "rocksdb.num-running-flushes" - returns the number of currently running // flushes. static const std::string kNumRunningFlushes; // "rocksdb.compaction-pending" - returns 1 if at least one compaction is // pending; otherwise, returns 0. static const std::string kCompactionPending; // "rocksdb.num-running-compactions" - returns the number of currently // running compactions. static const std::string kNumRunningCompactions; // "rocksdb.background-errors" - returns accumulated number of background // errors. static const std::string kBackgroundErrors; // "rocksdb.cur-size-active-mem-table" - returns approximate size of active // memtable (bytes). static const std::string kCurSizeActiveMemTable; // "rocksdb.cur-size-all-mem-tables" - returns approximate size of active // and unflushed immutable memtables (bytes). static const std::string kCurSizeAllMemTables; // "rocksdb.size-all-mem-tables" - returns approximate size of active, // unflushed immutable, and pinned immutable memtables (bytes). static const std::string kSizeAllMemTables; // "rocksdb.num-entries-active-mem-table" - returns total number of entries // in the active memtable. static const std::string kNumEntriesActiveMemTable; // "rocksdb.num-entries-imm-mem-tables" - returns total number of entries // in the unflushed immutable memtables. static const std::string kNumEntriesImmMemTables; // "rocksdb.num-deletes-active-mem-table" - returns total number of delete // entries in the active memtable. static const std::string kNumDeletesActiveMemTable; // "rocksdb.num-deletes-imm-mem-tables" - returns total number of delete // entries in the unflushed immutable memtables. static const std::string kNumDeletesImmMemTables; // "rocksdb.estimate-num-keys" - returns estimated number of total keys in // the active and unflushed immutable memtables and storage. static const std::string kEstimateNumKeys; // "rocksdb.estimate-table-readers-mem" - returns estimated memory used for // reading SST tables, excluding memory used in block cache (e.g., // filter and index blocks). static const std::string kEstimateTableReadersMem; // "rocksdb.is-file-deletions-enabled" - returns 0 if deletion of obsolete // files is enabled; otherwise, returns a non-zero number. static const std::string kIsFileDeletionsEnabled; // "rocksdb.num-snapshots" - returns number of unreleased snapshots of the // database. static const std::string kNumSnapshots; // "rocksdb.oldest-snapshot-time" - returns number representing unix // timestamp of oldest unreleased snapshot. static const std::string kOldestSnapshotTime; // "rocksdb.num-live-versions" - returns number of live versions. `Version` // is an internal data structure. See version_set.h for details. More // live versions often mean more SST files are held from being deleted, // by iterators or unfinished compactions. static const std::string kNumLiveVersions; // "rocksdb.current-super-version-number" - returns number of current LSM // version. It is a uint64_t integer number, incremented after there is // any change to the LSM tree. The number is not preserved after restarting // the DB. After DB restart, it will start from 0 again. static const std::string kCurrentSuperVersionNumber; // "rocksdb.estimate-live-data-size" - returns an estimate of the amount of // live data in bytes. static const std::string kEstimateLiveDataSize; // "rocksdb.min-log-number-to-keep" - return the minimum log number of the // log files that should be kept. static const std::string kMinLogNumberToKeep; // "rocksdb.total-sst-files-size" - returns total size (bytes) of all SST // files. // WARNING: may slow down online queries if there are too many files. static const std::string kTotalSstFilesSize; // "rocksdb.live-sst-files-size" - returns total size (bytes) of all SST // files belong to the latest LSM tree. static const std::string kLiveSstFilesSize; // "rocksdb.base-level" - returns number of level to which L0 data will be // compacted. static const std::string kBaseLevel; // "rocksdb.estimate-pending-compaction-bytes" - returns estimated total // number of bytes compaction needs to rewrite to get all levels down // to under target size. Not valid for other compactions than level- // based. static const std::string kEstimatePendingCompactionBytes; // "rocksdb.aggregated-table-properties" - returns a string representation // of the aggregated table properties of the target column family. static const std::string kAggregatedTableProperties; // "rocksdb.aggregated-table-properties-at-level", same as the previous // one but only returns the aggregated table properties of the // specified level "N" at the target column family. static const std::string kAggregatedTablePropertiesAtLevel; // "rocksdb.actual-delayed-write-rate" - returns the current actual delayed // write rate. 0 means no delay. static const std::string kActualDelayedWriteRate; // "rocksdb.is-write-stopped" - Return 1 if write has been stopped. static const std::string kIsWriteStopped; // "rocksdb.estimate-oldest-key-time" - returns an estimation of // oldest key timestamp in the DB. Currently only available for // FIFO compaction with // compaction_options_fifo.allow_compaction = false. static const std::string kEstimateOldestKeyTime; // "rocksdb.block-cache-capacity" - returns block cache capacity. static const std::string kBlockCacheCapacity; // "rocksdb.block-cache-usage" - returns the memory size for the entries // residing in block cache. static const std::string kBlockCacheUsage; // "rocksdb.block-cache-pinned-usage" - returns the memory size for the // entries being pinned. static const std::string kBlockCachePinnedUsage; // "rocksdb.options-statistics" - returns multi-line string // of options.statistics static const std::string kOptionsStatistics; }; #endif /* ROCKSDB_LITE */ // DB implementations can export properties about their state via this method. // If "property" is a valid property understood by this DB implementation (see // Properties struct above for valid options), fills "*value" with its current // value and returns true. Otherwise, returns false. virtual bool GetProperty(ColumnFamilyHandle* column_family, const Slice& property, std::string* value) = 0; virtual bool GetProperty(const Slice& property, std::string* value) { return GetProperty(DefaultColumnFamily(), property, value); } virtual bool GetMapProperty(ColumnFamilyHandle* column_family, const Slice& property, std::map* value) = 0; virtual bool GetMapProperty(const Slice& property, std::map* value) { return GetMapProperty(DefaultColumnFamily(), property, value); } // Similar to GetProperty(), but only works for a subset of properties whose // return value is an integer. Return the value by integer. Supported // properties: // "rocksdb.num-immutable-mem-table" // "rocksdb.mem-table-flush-pending" // "rocksdb.compaction-pending" // "rocksdb.background-errors" // "rocksdb.cur-size-active-mem-table" // "rocksdb.cur-size-all-mem-tables" // "rocksdb.size-all-mem-tables" // "rocksdb.num-entries-active-mem-table" // "rocksdb.num-entries-imm-mem-tables" // "rocksdb.num-deletes-active-mem-table" // "rocksdb.num-deletes-imm-mem-tables" // "rocksdb.estimate-num-keys" // "rocksdb.estimate-table-readers-mem" // "rocksdb.is-file-deletions-enabled" // "rocksdb.num-snapshots" // "rocksdb.oldest-snapshot-time" // "rocksdb.num-live-versions" // "rocksdb.current-super-version-number" // "rocksdb.estimate-live-data-size" // "rocksdb.min-log-number-to-keep" // "rocksdb.total-sst-files-size" // "rocksdb.live-sst-files-size" // "rocksdb.base-level" // "rocksdb.estimate-pending-compaction-bytes" // "rocksdb.num-running-compactions" // "rocksdb.num-running-flushes" // "rocksdb.actual-delayed-write-rate" // "rocksdb.is-write-stopped" // "rocksdb.estimate-oldest-key-time" // "rocksdb.block-cache-capacity" // "rocksdb.block-cache-usage" // "rocksdb.block-cache-pinned-usage" virtual bool GetIntProperty(ColumnFamilyHandle* column_family, const Slice& property, uint64_t* value) = 0; virtual bool GetIntProperty(const Slice& property, uint64_t* value) { return GetIntProperty(DefaultColumnFamily(), property, value); } // Reset internal stats for DB and all column families. // Note this doesn't reset options.statistics as it is not owned by // DB. virtual Status ResetStats() { return Status::NotSupported("Not implemented"); } // Same as GetIntProperty(), but this one returns the aggregated int // property from all column families. virtual bool GetAggregatedIntProperty(const Slice& property, uint64_t* value) = 0; // Flags for DB::GetSizeApproximation that specify whether memtable // stats should be included, or file stats approximation or both enum SizeApproximationFlags : uint8_t { NONE = 0, INCLUDE_MEMTABLES = 1, INCLUDE_FILES = 1 << 1 }; // For each i in [0,n-1], store in "sizes[i]", the approximate // file system space used by keys in "[range[i].start .. range[i].limit)". // // Note that the returned sizes measure file system space usage, so // if the user data compresses by a factor of ten, the returned // sizes will be one-tenth the size of the corresponding user data size. // // If include_flags defines whether the returned size should include // the recently written data in the mem-tables (if // the mem-table type supports it), data serialized to disk, or both. // include_flags should be of type DB::SizeApproximationFlags virtual void GetApproximateSizes(ColumnFamilyHandle* column_family, const Range* range, int n, uint64_t* sizes, uint8_t include_flags = INCLUDE_FILES) = 0; virtual void GetApproximateSizes(const Range* range, int n, uint64_t* sizes, uint8_t include_flags = INCLUDE_FILES) { GetApproximateSizes(DefaultColumnFamily(), range, n, sizes, include_flags); } // The method is similar to GetApproximateSizes, except it // returns approximate number of records in memtables. virtual void GetApproximateMemTableStats(ColumnFamilyHandle* column_family, const Range& range, uint64_t* const count, uint64_t* const size) = 0; virtual void GetApproximateMemTableStats(const Range& range, uint64_t* const count, uint64_t* const size) { GetApproximateMemTableStats(DefaultColumnFamily(), range, count, size); } // Deprecated versions of GetApproximateSizes ROCKSDB_DEPRECATED_FUNC virtual void GetApproximateSizes( const Range* range, int n, uint64_t* sizes, bool include_memtable) { uint8_t include_flags = SizeApproximationFlags::INCLUDE_FILES; if (include_memtable) { include_flags |= SizeApproximationFlags::INCLUDE_MEMTABLES; } GetApproximateSizes(DefaultColumnFamily(), range, n, sizes, include_flags); } ROCKSDB_DEPRECATED_FUNC virtual void GetApproximateSizes( ColumnFamilyHandle* column_family, const Range* range, int n, uint64_t* sizes, bool include_memtable) { uint8_t include_flags = SizeApproximationFlags::INCLUDE_FILES; if (include_memtable) { include_flags |= SizeApproximationFlags::INCLUDE_MEMTABLES; } GetApproximateSizes(column_family, range, n, sizes, include_flags); } // Compact the underlying storage for the key range [*begin,*end]. // The actual compaction interval might be superset of [*begin, *end]. // In particular, deleted and overwritten versions are discarded, // and the data is rearranged to reduce the cost of operations // needed to access the data. This operation should typically only // be invoked by users who understand the underlying implementation. // // begin==nullptr is treated as a key before all keys in the database. // end==nullptr is treated as a key after all keys in the database. // Therefore the following call will compact the entire database: // db->CompactRange(options, nullptr, nullptr); // Note that after the entire database is compacted, all data are pushed // down to the last level containing any data. If the total data size after // compaction is reduced, that level might not be appropriate for hosting all // the files. In this case, client could set options.change_level to true, to // move the files back to the minimum level capable of holding the data set // or a given level (specified by non-negative options.target_level). virtual Status CompactRange(const CompactRangeOptions& options, ColumnFamilyHandle* column_family, const Slice* begin, const Slice* end) = 0; virtual Status CompactRange(const CompactRangeOptions& options, const Slice* begin, const Slice* end) { return CompactRange(options, DefaultColumnFamily(), begin, end); } ROCKSDB_DEPRECATED_FUNC virtual Status CompactRange( ColumnFamilyHandle* column_family, const Slice* begin, const Slice* end, bool change_level = false, int target_level = -1, uint32_t target_path_id = 0) { CompactRangeOptions options; options.change_level = change_level; options.target_level = target_level; options.target_path_id = target_path_id; return CompactRange(options, column_family, begin, end); } ROCKSDB_DEPRECATED_FUNC virtual Status CompactRange( const Slice* begin, const Slice* end, bool change_level = false, int target_level = -1, uint32_t target_path_id = 0) { CompactRangeOptions options; options.change_level = change_level; options.target_level = target_level; options.target_path_id = target_path_id; return CompactRange(options, DefaultColumnFamily(), begin, end); } virtual Status SetOptions( ColumnFamilyHandle* /*column_family*/, const std::unordered_map& /*new_options*/) { return Status::NotSupported("Not implemented"); } virtual Status SetOptions( const std::unordered_map& new_options) { return SetOptions(DefaultColumnFamily(), new_options); } virtual Status SetDBOptions( const std::unordered_map& new_options) = 0; // CompactFiles() inputs a list of files specified by file numbers and // compacts them to the specified level. Note that the behavior is different // from CompactRange() in that CompactFiles() performs the compaction job // using the CURRENT thread. // // @see GetDataBaseMetaData // @see GetColumnFamilyMetaData virtual Status CompactFiles( const CompactionOptions& compact_options, ColumnFamilyHandle* column_family, const std::vector& input_file_names, const int output_level, const int output_path_id = -1, std::vector* const output_file_names = nullptr) = 0; virtual Status CompactFiles( const CompactionOptions& compact_options, const std::vector& input_file_names, const int output_level, const int output_path_id = -1, std::vector* const output_file_names = nullptr) { return CompactFiles(compact_options, DefaultColumnFamily(), input_file_names, output_level, output_path_id, output_file_names); } // This function will wait until all currently running background processes // finish. After it returns, no background process will be run until // ContinueBackgroundWork is called virtual Status PauseBackgroundWork() = 0; virtual Status ContinueBackgroundWork() = 0; // This function will enable automatic compactions for the given column // families if they were previously disabled. The function will first set the // disable_auto_compactions option for each column family to 'false', after // which it will schedule a flush/compaction. // // NOTE: Setting disable_auto_compactions to 'false' through SetOptions() API // does NOT schedule a flush/compaction afterwards, and only changes the // parameter itself within the column family option. // virtual Status EnableAutoCompaction( const std::vector& column_family_handles) = 0; // Number of levels used for this DB. virtual int NumberLevels(ColumnFamilyHandle* column_family) = 0; virtual int NumberLevels() { return NumberLevels(DefaultColumnFamily()); } // Maximum level to which a new compacted memtable is pushed if it // does not create overlap. virtual int MaxMemCompactionLevel(ColumnFamilyHandle* column_family) = 0; virtual int MaxMemCompactionLevel() { return MaxMemCompactionLevel(DefaultColumnFamily()); } // Number of files in level-0 that would stop writes. virtual int Level0StopWriteTrigger(ColumnFamilyHandle* column_family) = 0; virtual int Level0StopWriteTrigger() { return Level0StopWriteTrigger(DefaultColumnFamily()); } // Get DB name -- the exact same name that was provided as an argument to // DB::Open() virtual const std::string& GetName() const = 0; // Get Env object from the DB virtual Env* GetEnv() const = 0; // Get DB Options that we use. During the process of opening the // column family, the options provided when calling DB::Open() or // DB::CreateColumnFamily() will have been "sanitized" and transformed // in an implementation-defined manner. virtual Options GetOptions(ColumnFamilyHandle* column_family) const = 0; virtual Options GetOptions() const { return GetOptions(DefaultColumnFamily()); } virtual DBOptions GetDBOptions() const = 0; // Flush all mem-table data. virtual Status Flush(const FlushOptions& options, ColumnFamilyHandle* column_family) = 0; virtual Status Flush(const FlushOptions& options) { return Flush(options, DefaultColumnFamily()); } // Flush the WAL memory buffer to the file. If sync is true, it calls SyncWAL // afterwards. virtual Status FlushWAL(bool /*sync*/) { return Status::NotSupported("FlushWAL not implemented"); } // Sync the wal. Note that Write() followed by SyncWAL() is not exactly the // same as Write() with sync=true: in the latter case the changes won't be // visible until the sync is done. // Currently only works if allow_mmap_writes = false in Options. virtual Status SyncWAL() = 0; // The sequence number of the most recent transaction. virtual SequenceNumber GetLatestSequenceNumber() const = 0; // Instructs DB to preserve deletes with sequence numbers >= passed seqnum. // Has no effect if DBOptions.preserve_deletes is set to false. // This function assumes that user calls this function with monotonically // increasing seqnums (otherwise we can't guarantee that a particular delete // hasn't been already processed); returns true if the value was successfully // updated, false if user attempted to call if with seqnum <= current value. virtual bool SetPreserveDeletesSequenceNumber(SequenceNumber seqnum) = 0; #ifndef ROCKSDB_LITE // Prevent file deletions. Compactions will continue to occur, // but no obsolete files will be deleted. Calling this multiple // times have the same effect as calling it once. virtual Status DisableFileDeletions() = 0; // Allow compactions to delete obsolete files. // If force == true, the call to EnableFileDeletions() will guarantee that // file deletions are enabled after the call, even if DisableFileDeletions() // was called multiple times before. // If force == false, EnableFileDeletions will only enable file deletion // after it's been called at least as many times as DisableFileDeletions(), // enabling the two methods to be called by two threads concurrently without // synchronization -- i.e., file deletions will be enabled only after both // threads call EnableFileDeletions() virtual Status EnableFileDeletions(bool force = true) = 0; // GetLiveFiles followed by GetSortedWalFiles can generate a lossless backup // Retrieve the list of all files in the database. The files are // relative to the dbname and are not absolute paths. Despite being relative // paths, the file names begin with "/". The valid size of the manifest file // is returned in manifest_file_size. The manifest file is an ever growing // file, but only the portion specified by manifest_file_size is valid for // this snapshot. Setting flush_memtable to true does Flush before recording // the live files. Setting flush_memtable to false is useful when we don't // want to wait for flush which may have to wait for compaction to complete // taking an indeterminate time. // // In case you have multiple column families, even if flush_memtable is true, // you still need to call GetSortedWalFiles after GetLiveFiles to compensate // for new data that arrived to already-flushed column families while other // column families were flushing virtual Status GetLiveFiles(std::vector&, uint64_t* manifest_file_size, bool flush_memtable = true) = 0; // Retrieve the sorted list of all wal files with earliest file first virtual Status GetSortedWalFiles(VectorLogPtr& files) = 0; // Note: this API is not yet consistent with WritePrepared transactions. // Sets iter to an iterator that is positioned at a write-batch containing // seq_number. If the sequence number is non existent, it returns an iterator // at the first available seq_no after the requested seq_no // Returns Status::OK if iterator is valid // Must set WAL_ttl_seconds or WAL_size_limit_MB to large values to // use this api, else the WAL files will get // cleared aggressively and the iterator might keep getting invalid before // an update is read. virtual Status GetUpdatesSince( SequenceNumber seq_number, unique_ptr* iter, const TransactionLogIterator::ReadOptions& read_options = TransactionLogIterator::ReadOptions()) = 0; // Windows API macro interference #undef DeleteFile // Delete the file name from the db directory and update the internal state to // reflect that. Supports deletion of sst and log files only. 'name' must be // path relative to the db directory. eg. 000001.sst, /archive/000003.log virtual Status DeleteFile(std::string name) = 0; // Returns a list of all table files with their level, start key // and end key virtual void GetLiveFilesMetaData( std::vector* /*metadata*/) {} // Obtains the meta data of the specified column family of the DB. virtual void GetColumnFamilyMetaData(ColumnFamilyHandle* /*column_family*/, ColumnFamilyMetaData* /*metadata*/) {} // Get the metadata of the default column family. void GetColumnFamilyMetaData( ColumnFamilyMetaData* metadata) { GetColumnFamilyMetaData(DefaultColumnFamily(), metadata); } // IngestExternalFile() will load a list of external SST files (1) into the DB // Two primary modes are supported: // - Duplicate keys in the new files will overwrite exiting keys (default) // - Duplicate keys will be skipped (set ingest_behind=true) // In the first mode we will try to find the lowest possible level that // the file can fit in, and ingest the file into this level (2). A file that // have a key range that overlap with the memtable key range will require us // to Flush the memtable first before ingesting the file. // In the second mode we will always ingest in the bottom most level (see // docs to IngestExternalFileOptions::ingest_behind). // // (1) External SST files can be created using SstFileWriter // (2) We will try to ingest the files to the lowest possible level // even if the file compression doesn't match the level compression // (3) If IngestExternalFileOptions->ingest_behind is set to true, // we always ingest at the bottommost level, which should be reserved // for this purpose (see DBOPtions::allow_ingest_behind flag). virtual Status IngestExternalFile( ColumnFamilyHandle* column_family, const std::vector& external_files, const IngestExternalFileOptions& options) = 0; virtual Status IngestExternalFile( const std::vector& external_files, const IngestExternalFileOptions& options) { return IngestExternalFile(DefaultColumnFamily(), external_files, options); } virtual Status VerifyChecksum() = 0; // AddFile() is deprecated, please use IngestExternalFile() ROCKSDB_DEPRECATED_FUNC virtual Status AddFile( ColumnFamilyHandle* column_family, const std::vector& file_path_list, bool move_file = false, bool skip_snapshot_check = false) { IngestExternalFileOptions ifo; ifo.move_files = move_file; ifo.snapshot_consistency = !skip_snapshot_check; ifo.allow_global_seqno = false; ifo.allow_blocking_flush = false; return IngestExternalFile(column_family, file_path_list, ifo); } ROCKSDB_DEPRECATED_FUNC virtual Status AddFile( const std::vector& file_path_list, bool move_file = false, bool skip_snapshot_check = false) { IngestExternalFileOptions ifo; ifo.move_files = move_file; ifo.snapshot_consistency = !skip_snapshot_check; ifo.allow_global_seqno = false; ifo.allow_blocking_flush = false; return IngestExternalFile(DefaultColumnFamily(), file_path_list, ifo); } // AddFile() is deprecated, please use IngestExternalFile() ROCKSDB_DEPRECATED_FUNC virtual Status AddFile( ColumnFamilyHandle* column_family, const std::string& file_path, bool move_file = false, bool skip_snapshot_check = false) { IngestExternalFileOptions ifo; ifo.move_files = move_file; ifo.snapshot_consistency = !skip_snapshot_check; ifo.allow_global_seqno = false; ifo.allow_blocking_flush = false; return IngestExternalFile(column_family, {file_path}, ifo); } ROCKSDB_DEPRECATED_FUNC virtual Status AddFile( const std::string& file_path, bool move_file = false, bool skip_snapshot_check = false) { IngestExternalFileOptions ifo; ifo.move_files = move_file; ifo.snapshot_consistency = !skip_snapshot_check; ifo.allow_global_seqno = false; ifo.allow_blocking_flush = false; return IngestExternalFile(DefaultColumnFamily(), {file_path}, ifo); } // Load table file with information "file_info" into "column_family" ROCKSDB_DEPRECATED_FUNC virtual Status AddFile( ColumnFamilyHandle* column_family, const std::vector& file_info_list, bool move_file = false, bool skip_snapshot_check = false) { std::vector external_files; for (const ExternalSstFileInfo& file_info : file_info_list) { external_files.push_back(file_info.file_path); } IngestExternalFileOptions ifo; ifo.move_files = move_file; ifo.snapshot_consistency = !skip_snapshot_check; ifo.allow_global_seqno = false; ifo.allow_blocking_flush = false; return IngestExternalFile(column_family, external_files, ifo); } ROCKSDB_DEPRECATED_FUNC virtual Status AddFile( const std::vector& file_info_list, bool move_file = false, bool skip_snapshot_check = false) { std::vector external_files; for (const ExternalSstFileInfo& file_info : file_info_list) { external_files.push_back(file_info.file_path); } IngestExternalFileOptions ifo; ifo.move_files = move_file; ifo.snapshot_consistency = !skip_snapshot_check; ifo.allow_global_seqno = false; ifo.allow_blocking_flush = false; return IngestExternalFile(DefaultColumnFamily(), external_files, ifo); } ROCKSDB_DEPRECATED_FUNC virtual Status AddFile( ColumnFamilyHandle* column_family, const ExternalSstFileInfo* file_info, bool move_file = false, bool skip_snapshot_check = false) { IngestExternalFileOptions ifo; ifo.move_files = move_file; ifo.snapshot_consistency = !skip_snapshot_check; ifo.allow_global_seqno = false; ifo.allow_blocking_flush = false; return IngestExternalFile(column_family, {file_info->file_path}, ifo); } ROCKSDB_DEPRECATED_FUNC virtual Status AddFile( const ExternalSstFileInfo* file_info, bool move_file = false, bool skip_snapshot_check = false) { IngestExternalFileOptions ifo; ifo.move_files = move_file; ifo.snapshot_consistency = !skip_snapshot_check; ifo.allow_global_seqno = false; ifo.allow_blocking_flush = false; return IngestExternalFile(DefaultColumnFamily(), {file_info->file_path}, ifo); } #endif // ROCKSDB_LITE // Sets the globally unique ID created at database creation time by invoking // Env::GenerateUniqueId(), in identity. Returns Status::OK if identity could // be set properly virtual Status GetDbIdentity(std::string& identity) const = 0; // Returns default column family handle virtual ColumnFamilyHandle* DefaultColumnFamily() const = 0; #ifndef ROCKSDB_LITE virtual Status GetPropertiesOfAllTables(ColumnFamilyHandle* column_family, TablePropertiesCollection* props) = 0; virtual Status GetPropertiesOfAllTables(TablePropertiesCollection* props) { return GetPropertiesOfAllTables(DefaultColumnFamily(), props); } virtual Status GetPropertiesOfTablesInRange( ColumnFamilyHandle* column_family, const Range* range, std::size_t n, TablePropertiesCollection* props) = 0; virtual Status SuggestCompactRange(ColumnFamilyHandle* /*column_family*/, const Slice* /*begin*/, const Slice* /*end*/) { return Status::NotSupported("SuggestCompactRange() is not implemented."); } virtual Status PromoteL0(ColumnFamilyHandle* /*column_family*/, int /*target_level*/) { return Status::NotSupported("PromoteL0() is not implemented."); } // Trace DB operations. Use EndTrace() to stop tracing. virtual Status StartTrace(const TraceOptions& /*options*/, std::unique_ptr&& /*trace_writer*/) { return Status::NotSupported("StartTrace() is not implemented."); } virtual Status EndTrace() { return Status::NotSupported("EndTrace() is not implemented."); } #endif // ROCKSDB_LITE // Needed for StackableDB virtual DB* GetRootDB() { return this; } private: // No copying allowed DB(const DB&); void operator=(const DB&); }; // Destroy the contents of the specified database. // Be very careful using this method. Status DestroyDB(const std::string& name, const Options& options, const std::vector& column_families = std::vector()); #ifndef ROCKSDB_LITE // If a DB cannot be opened, you may attempt to call this method to // resurrect as much of the contents of the database as possible. // Some data may be lost, so be careful when calling this function // on a database that contains important information. // // With this API, we will warn and skip data associated with column families not // specified in column_families. // // @param column_families Descriptors for known column families Status RepairDB(const std::string& dbname, const DBOptions& db_options, const std::vector& column_families); // @param unknown_cf_opts Options for column families encountered during the // repair that were not specified in column_families. Status RepairDB(const std::string& dbname, const DBOptions& db_options, const std::vector& column_families, const ColumnFamilyOptions& unknown_cf_opts); // @param options These options will be used for the database and for ALL column // families encountered during the repair Status RepairDB(const std::string& dbname, const Options& options); #endif } // namespace rocksdb rocksdb-5.17.2/include/rocksdb/db_bench_tool.h000066400000000000000000000005511337235545400212550ustar00rootroot00000000000000// Copyright (c) 2013-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once namespace rocksdb { int db_bench_tool(int argc, char** argv); } // namespace rocksdb rocksdb-5.17.2/include/rocksdb/db_dump_tool.h000066400000000000000000000022501337235545400211410ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #ifndef ROCKSDB_LITE #include #include "rocksdb/db.h" namespace rocksdb { struct DumpOptions { // Database that will be dumped std::string db_path; // File location that will contain dump output std::string dump_location; // Don't include db information header in the dump bool anonymous = false; }; class DbDumpTool { public: bool Run(const DumpOptions& dump_options, rocksdb::Options options = rocksdb::Options()); }; struct UndumpOptions { // Database that we will load the dumped file into std::string db_path; // File location of the dumped file that will be loaded std::string dump_location; // Compact the db after loading the dumped file bool compact_db = false; }; class DbUndumpTool { public: bool Run(const UndumpOptions& undump_options, rocksdb::Options options = rocksdb::Options()); }; } // namespace rocksdb #endif // ROCKSDB_LITE rocksdb-5.17.2/include/rocksdb/env.h000066400000000000000000001410661337235545400172730ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. // // An Env is an interface used by the rocksdb implementation to access // operating system functionality like the filesystem etc. Callers // may wish to provide a custom Env object when opening a database to // get fine gain control; e.g., to rate limit file system operations. // // All Env implementations are safe for concurrent access from // multiple threads without any external synchronization. #pragma once #include #include #include #include #include #include #include #include "rocksdb/status.h" #include "rocksdb/thread_status.h" #ifdef _WIN32 // Windows API macro interference #undef DeleteFile #undef GetCurrentTime #endif namespace rocksdb { class FileLock; class Logger; class RandomAccessFile; class SequentialFile; class Slice; class WritableFile; class RandomRWFile; class MemoryMappedFileBuffer; class Directory; struct DBOptions; struct ImmutableDBOptions; struct MutableDBOptions; class RateLimiter; class ThreadStatusUpdater; struct ThreadStatus; using std::unique_ptr; using std::shared_ptr; const size_t kDefaultPageSize = 4 * 1024; // Options while opening a file to read/write struct EnvOptions { // Construct with default Options EnvOptions(); // Construct from Options explicit EnvOptions(const DBOptions& options); // If true, then use mmap to read data bool use_mmap_reads = false; // If true, then use mmap to write data bool use_mmap_writes = true; // If true, then use O_DIRECT for reading data bool use_direct_reads = false; // If true, then use O_DIRECT for writing data bool use_direct_writes = false; // If false, fallocate() calls are bypassed bool allow_fallocate = true; // If true, set the FD_CLOEXEC on open fd. bool set_fd_cloexec = true; // Allows OS to incrementally sync files to disk while they are being // written, in the background. Issue one request for every bytes_per_sync // written. 0 turns it off. // Default: 0 uint64_t bytes_per_sync = 0; // If true, we will preallocate the file with FALLOC_FL_KEEP_SIZE flag, which // means that file size won't change as part of preallocation. // If false, preallocation will also change the file size. This option will // improve the performance in workloads where you sync the data on every // write. By default, we set it to true for MANIFEST writes and false for // WAL writes bool fallocate_with_keep_size = true; // See DBOptions doc size_t compaction_readahead_size; // See DBOptions doc size_t random_access_max_buffer_size; // See DBOptions doc size_t writable_file_max_buffer_size = 1024 * 1024; // If not nullptr, write rate limiting is enabled for flush and compaction RateLimiter* rate_limiter = nullptr; }; class Env { public: struct FileAttributes { // File name std::string name; // Size of file in bytes uint64_t size_bytes; }; Env() : thread_status_updater_(nullptr) {} virtual ~Env(); // Return a default environment suitable for the current operating // system. Sophisticated users may wish to provide their own Env // implementation instead of relying on this default environment. // // The result of Default() belongs to rocksdb and must never be deleted. static Env* Default(); // Create a brand new sequentially-readable file with the specified name. // On success, stores a pointer to the new file in *result and returns OK. // On failure stores nullptr in *result and returns non-OK. If the file does // not exist, returns a non-OK status. // // The returned file will only be accessed by one thread at a time. virtual Status NewSequentialFile(const std::string& fname, unique_ptr* result, const EnvOptions& options) = 0; // Create a brand new random access read-only file with the // specified name. On success, stores a pointer to the new file in // *result and returns OK. On failure stores nullptr in *result and // returns non-OK. If the file does not exist, returns a non-OK // status. // // The returned file may be concurrently accessed by multiple threads. virtual Status NewRandomAccessFile(const std::string& fname, unique_ptr* result, const EnvOptions& options) = 0; // These values match Linux definition // https://git.kernel.org/pub/scm/linux/kernel/git/torvalds/linux.git/tree/include/uapi/linux/fcntl.h#n56 enum WriteLifeTimeHint { WLTH_NOT_SET = 0, // No hint information set WLTH_NONE, // No hints about write life time WLTH_SHORT, // Data written has a short life time WLTH_MEDIUM, // Data written has a medium life time WLTH_LONG, // Data written has a long life time WLTH_EXTREME, // Data written has an extremely long life time }; // Create an object that writes to a new file with the specified // name. Deletes any existing file with the same name and creates a // new file. On success, stores a pointer to the new file in // *result and returns OK. On failure stores nullptr in *result and // returns non-OK. // // The returned file will only be accessed by one thread at a time. virtual Status NewWritableFile(const std::string& fname, unique_ptr* result, const EnvOptions& options) = 0; // Create an object that writes to a new file with the specified // name. Deletes any existing file with the same name and creates a // new file. On success, stores a pointer to the new file in // *result and returns OK. On failure stores nullptr in *result and // returns non-OK. // // The returned file will only be accessed by one thread at a time. virtual Status ReopenWritableFile(const std::string& /*fname*/, unique_ptr* /*result*/, const EnvOptions& /*options*/) { return Status::NotSupported(); } // Reuse an existing file by renaming it and opening it as writable. virtual Status ReuseWritableFile(const std::string& fname, const std::string& old_fname, unique_ptr* result, const EnvOptions& options); // Open `fname` for random read and write, if file doesn't exist the file // will be created. On success, stores a pointer to the new file in // *result and returns OK. On failure returns non-OK. // // The returned file will only be accessed by one thread at a time. virtual Status NewRandomRWFile(const std::string& /*fname*/, unique_ptr* /*result*/, const EnvOptions& /*options*/) { return Status::NotSupported("RandomRWFile is not implemented in this Env"); } // Opens `fname` as a memory-mapped file for read and write (in-place updates // only, i.e., no appends). On success, stores a raw buffer covering the whole // file in `*result`. The file must exist prior to this call. virtual Status NewMemoryMappedFileBuffer( const std::string& /*fname*/, unique_ptr* /*result*/) { return Status::NotSupported( "MemoryMappedFileBuffer is not implemented in this Env"); } // Create an object that represents a directory. Will fail if directory // doesn't exist. If the directory exists, it will open the directory // and create a new Directory object. // // On success, stores a pointer to the new Directory in // *result and returns OK. On failure stores nullptr in *result and // returns non-OK. virtual Status NewDirectory(const std::string& name, unique_ptr* result) = 0; // Returns OK if the named file exists. // NotFound if the named file does not exist, // the calling process does not have permission to determine // whether this file exists, or if the path is invalid. // IOError if an IO Error was encountered virtual Status FileExists(const std::string& fname) = 0; // Store in *result the names of the children of the specified directory. // The names are relative to "dir". // Original contents of *results are dropped. // Returns OK if "dir" exists and "*result" contains its children. // NotFound if "dir" does not exist, the calling process does not have // permission to access "dir", or if "dir" is invalid. // IOError if an IO Error was encountered virtual Status GetChildren(const std::string& dir, std::vector* result) = 0; // Store in *result the attributes of the children of the specified directory. // In case the implementation lists the directory prior to iterating the files // and files are concurrently deleted, the deleted files will be omitted from // result. // The name attributes are relative to "dir". // Original contents of *results are dropped. // Returns OK if "dir" exists and "*result" contains its children. // NotFound if "dir" does not exist, the calling process does not have // permission to access "dir", or if "dir" is invalid. // IOError if an IO Error was encountered virtual Status GetChildrenFileAttributes(const std::string& dir, std::vector* result); // Delete the named file. virtual Status DeleteFile(const std::string& fname) = 0; // Truncate the named file to the specified size. virtual Status Truncate(const std::string& /*fname*/, size_t /*size*/) { return Status::NotSupported("Truncate is not supported for this Env"); } // Create the specified directory. Returns error if directory exists. virtual Status CreateDir(const std::string& dirname) = 0; // Creates directory if missing. Return Ok if it exists, or successful in // Creating. virtual Status CreateDirIfMissing(const std::string& dirname) = 0; // Delete the specified directory. virtual Status DeleteDir(const std::string& dirname) = 0; // Store the size of fname in *file_size. virtual Status GetFileSize(const std::string& fname, uint64_t* file_size) = 0; // Store the last modification time of fname in *file_mtime. virtual Status GetFileModificationTime(const std::string& fname, uint64_t* file_mtime) = 0; // Rename file src to target. virtual Status RenameFile(const std::string& src, const std::string& target) = 0; // Hard Link file src to target. virtual Status LinkFile(const std::string& /*src*/, const std::string& /*target*/) { return Status::NotSupported("LinkFile is not supported for this Env"); } virtual Status NumFileLinks(const std::string& /*fname*/, uint64_t* /*count*/) { return Status::NotSupported( "Getting number of file links is not supported for this Env"); } virtual Status AreFilesSame(const std::string& /*first*/, const std::string& /*second*/, bool* /*res*/) { return Status::NotSupported("AreFilesSame is not supported for this Env"); } // Lock the specified file. Used to prevent concurrent access to // the same db by multiple processes. On failure, stores nullptr in // *lock and returns non-OK. // // On success, stores a pointer to the object that represents the // acquired lock in *lock and returns OK. The caller should call // UnlockFile(*lock) to release the lock. If the process exits, // the lock will be automatically released. // // If somebody else already holds the lock, finishes immediately // with a failure. I.e., this call does not wait for existing locks // to go away. // // May create the named file if it does not already exist. virtual Status LockFile(const std::string& fname, FileLock** lock) = 0; // Release the lock acquired by a previous successful call to LockFile. // REQUIRES: lock was returned by a successful LockFile() call // REQUIRES: lock has not already been unlocked. virtual Status UnlockFile(FileLock* lock) = 0; // Priority for scheduling job in thread pool enum Priority { BOTTOM, LOW, HIGH, TOTAL }; static std::string PriorityToString(Priority priority); // Priority for requesting bytes in rate limiter scheduler enum IOPriority { IO_LOW = 0, IO_HIGH = 1, IO_TOTAL = 2 }; // Arrange to run "(*function)(arg)" once in a background thread, in // the thread pool specified by pri. By default, jobs go to the 'LOW' // priority thread pool. // "function" may run in an unspecified thread. Multiple functions // added to the same Env may run concurrently in different threads. // I.e., the caller may not assume that background work items are // serialized. // When the UnSchedule function is called, the unschedFunction // registered at the time of Schedule is invoked with arg as a parameter. virtual void Schedule(void (*function)(void* arg), void* arg, Priority pri = LOW, void* tag = nullptr, void (*unschedFunction)(void* arg) = nullptr) = 0; // Arrange to remove jobs for given arg from the queue_ if they are not // already scheduled. Caller is expected to have exclusive lock on arg. virtual int UnSchedule(void* /*arg*/, Priority /*pri*/) { return 0; } // Start a new thread, invoking "function(arg)" within the new thread. // When "function(arg)" returns, the thread will be destroyed. virtual void StartThread(void (*function)(void* arg), void* arg) = 0; // Wait for all threads started by StartThread to terminate. virtual void WaitForJoin() {} // Get thread pool queue length for specific thread pool. virtual unsigned int GetThreadPoolQueueLen(Priority /*pri*/ = LOW) const { return 0; } // *path is set to a temporary directory that can be used for testing. It may // or many not have just been created. The directory may or may not differ // between runs of the same process, but subsequent calls will return the // same directory. virtual Status GetTestDirectory(std::string* path) = 0; // Create and return a log file for storing informational messages. virtual Status NewLogger(const std::string& fname, shared_ptr* result) = 0; // Returns the number of micro-seconds since some fixed point in time. // It is often used as system time such as in GenericRateLimiter // and other places so a port needs to return system time in order to work. virtual uint64_t NowMicros() = 0; // Returns the number of nano-seconds since some fixed point in time. Only // useful for computing deltas of time in one run. // Default implementation simply relies on NowMicros. // In platform-specific implementations, NowNanos() should return time points // that are MONOTONIC. virtual uint64_t NowNanos() { return NowMicros() * 1000; } // Sleep/delay the thread for the prescribed number of micro-seconds. virtual void SleepForMicroseconds(int micros) = 0; // Get the current host name. virtual Status GetHostName(char* name, uint64_t len) = 0; // Get the number of seconds since the Epoch, 1970-01-01 00:00:00 (UTC). // Only overwrites *unix_time on success. virtual Status GetCurrentTime(int64_t* unix_time) = 0; // Get full directory name for this db. virtual Status GetAbsolutePath(const std::string& db_path, std::string* output_path) = 0; // The number of background worker threads of a specific thread pool // for this environment. 'LOW' is the default pool. // default number: 1 virtual void SetBackgroundThreads(int number, Priority pri = LOW) = 0; virtual int GetBackgroundThreads(Priority pri = LOW) = 0; virtual Status SetAllowNonOwnerAccess(bool /*allow_non_owner_access*/) { return Status::NotSupported("Not supported."); } // Enlarge number of background worker threads of a specific thread pool // for this environment if it is smaller than specified. 'LOW' is the default // pool. virtual void IncBackgroundThreadsIfNeeded(int number, Priority pri) = 0; // Lower IO priority for threads from the specified pool. virtual void LowerThreadPoolIOPriority(Priority /*pool*/ = LOW) {} // Lower CPU priority for threads from the specified pool. virtual void LowerThreadPoolCPUPriority(Priority /*pool*/ = LOW) {} // Converts seconds-since-Jan-01-1970 to a printable string virtual std::string TimeToString(uint64_t time) = 0; // Generates a unique id that can be used to identify a db virtual std::string GenerateUniqueId(); // OptimizeForLogWrite will create a new EnvOptions object that is a copy of // the EnvOptions in the parameters, but is optimized for reading log files. virtual EnvOptions OptimizeForLogRead(const EnvOptions& env_options) const; // OptimizeForManifestRead will create a new EnvOptions object that is a copy // of the EnvOptions in the parameters, but is optimized for reading manifest // files. virtual EnvOptions OptimizeForManifestRead( const EnvOptions& env_options) const; // OptimizeForLogWrite will create a new EnvOptions object that is a copy of // the EnvOptions in the parameters, but is optimized for writing log files. // Default implementation returns the copy of the same object. virtual EnvOptions OptimizeForLogWrite(const EnvOptions& env_options, const DBOptions& db_options) const; // OptimizeForManifestWrite will create a new EnvOptions object that is a copy // of the EnvOptions in the parameters, but is optimized for writing manifest // files. Default implementation returns the copy of the same object. virtual EnvOptions OptimizeForManifestWrite( const EnvOptions& env_options) const; // OptimizeForCompactionTableWrite will create a new EnvOptions object that is // a copy of the EnvOptions in the parameters, but is optimized for writing // table files. virtual EnvOptions OptimizeForCompactionTableWrite( const EnvOptions& env_options, const ImmutableDBOptions& immutable_ops) const; // OptimizeForCompactionTableWrite will create a new EnvOptions object that // is a copy of the EnvOptions in the parameters, but is optimized for reading // table files. virtual EnvOptions OptimizeForCompactionTableRead( const EnvOptions& env_options, const ImmutableDBOptions& db_options) const; // Returns the status of all threads that belong to the current Env. virtual Status GetThreadList(std::vector* /*thread_list*/) { return Status::NotSupported("Not supported."); } // Returns the pointer to ThreadStatusUpdater. This function will be // used in RocksDB internally to update thread status and supports // GetThreadList(). virtual ThreadStatusUpdater* GetThreadStatusUpdater() const { return thread_status_updater_; } // Returns the ID of the current thread. virtual uint64_t GetThreadID() const; // This seems to clash with a macro on Windows, so #undef it here #undef GetFreeSpace // Get the amount of free disk space virtual Status GetFreeSpace(const std::string& /*path*/, uint64_t* /*diskfree*/) { return Status::NotSupported(); } protected: // The pointer to an internal structure that will update the // status of each thread. ThreadStatusUpdater* thread_status_updater_; private: // No copying allowed Env(const Env&); void operator=(const Env&); }; // The factory function to construct a ThreadStatusUpdater. Any Env // that supports GetThreadList() feature should call this function in its // constructor to initialize thread_status_updater_. ThreadStatusUpdater* CreateThreadStatusUpdater(); // A file abstraction for reading sequentially through a file class SequentialFile { public: SequentialFile() { } virtual ~SequentialFile(); // Read up to "n" bytes from the file. "scratch[0..n-1]" may be // written by this routine. Sets "*result" to the data that was // read (including if fewer than "n" bytes were successfully read). // May set "*result" to point at data in "scratch[0..n-1]", so // "scratch[0..n-1]" must be live when "*result" is used. // If an error was encountered, returns a non-OK status. // // REQUIRES: External synchronization virtual Status Read(size_t n, Slice* result, char* scratch) = 0; // Skip "n" bytes from the file. This is guaranteed to be no // slower that reading the same data, but may be faster. // // If end of file is reached, skipping will stop at the end of the // file, and Skip will return OK. // // REQUIRES: External synchronization virtual Status Skip(uint64_t n) = 0; // Indicates the upper layers if the current SequentialFile implementation // uses direct IO. virtual bool use_direct_io() const { return false; } // Use the returned alignment value to allocate // aligned buffer for Direct I/O virtual size_t GetRequiredBufferAlignment() const { return kDefaultPageSize; } // Remove any kind of caching of data from the offset to offset+length // of this file. If the length is 0, then it refers to the end of file. // If the system is not caching the file contents, then this is a noop. virtual Status InvalidateCache(size_t /*offset*/, size_t /*length*/) { return Status::NotSupported("InvalidateCache not supported."); } // Positioned Read for direct I/O // If Direct I/O enabled, offset, n, and scratch should be properly aligned virtual Status PositionedRead(uint64_t /*offset*/, size_t /*n*/, Slice* /*result*/, char* /*scratch*/) { return Status::NotSupported(); } }; // A file abstraction for randomly reading the contents of a file. class RandomAccessFile { public: RandomAccessFile() { } virtual ~RandomAccessFile(); // Read up to "n" bytes from the file starting at "offset". // "scratch[0..n-1]" may be written by this routine. Sets "*result" // to the data that was read (including if fewer than "n" bytes were // successfully read). May set "*result" to point at data in // "scratch[0..n-1]", so "scratch[0..n-1]" must be live when // "*result" is used. If an error was encountered, returns a non-OK // status. // // Safe for concurrent use by multiple threads. // If Direct I/O enabled, offset, n, and scratch should be aligned properly. virtual Status Read(uint64_t offset, size_t n, Slice* result, char* scratch) const = 0; // Readahead the file starting from offset by n bytes for caching. virtual Status Prefetch(uint64_t /*offset*/, size_t /*n*/) { return Status::OK(); } // Tries to get an unique ID for this file that will be the same each time // the file is opened (and will stay the same while the file is open). // Furthermore, it tries to make this ID at most "max_size" bytes. If such an // ID can be created this function returns the length of the ID and places it // in "id"; otherwise, this function returns 0, in which case "id" // may not have been modified. // // This function guarantees, for IDs from a given environment, two unique ids // cannot be made equal to each other by adding arbitrary bytes to one of // them. That is, no unique ID is the prefix of another. // // This function guarantees that the returned ID will not be interpretable as // a single varint. // // Note: these IDs are only valid for the duration of the process. virtual size_t GetUniqueId(char* /*id*/, size_t /*max_size*/) const { return 0; // Default implementation to prevent issues with backwards // compatibility. }; enum AccessPattern { NORMAL, RANDOM, SEQUENTIAL, WILLNEED, DONTNEED }; virtual void Hint(AccessPattern /*pattern*/) {} // Indicates the upper layers if the current RandomAccessFile implementation // uses direct IO. virtual bool use_direct_io() const { return false; } // Use the returned alignment value to allocate // aligned buffer for Direct I/O virtual size_t GetRequiredBufferAlignment() const { return kDefaultPageSize; } // Remove any kind of caching of data from the offset to offset+length // of this file. If the length is 0, then it refers to the end of file. // If the system is not caching the file contents, then this is a noop. virtual Status InvalidateCache(size_t /*offset*/, size_t /*length*/) { return Status::NotSupported("InvalidateCache not supported."); } }; // A file abstraction for sequential writing. The implementation // must provide buffering since callers may append small fragments // at a time to the file. class WritableFile { public: WritableFile() : last_preallocated_block_(0), preallocation_block_size_(0), io_priority_(Env::IO_TOTAL), write_hint_(Env::WLTH_NOT_SET) { } virtual ~WritableFile(); // Append data to the end of the file // Note: A WriteabelFile object must support either Append or // PositionedAppend, so the users cannot mix the two. virtual Status Append(const Slice& data) = 0; // PositionedAppend data to the specified offset. The new EOF after append // must be larger than the previous EOF. This is to be used when writes are // not backed by OS buffers and hence has to always start from the start of // the sector. The implementation thus needs to also rewrite the last // partial sector. // Note: PositionAppend does not guarantee moving the file offset after the // write. A WritableFile object must support either Append or // PositionedAppend, so the users cannot mix the two. // // PositionedAppend() can only happen on the page/sector boundaries. For that // reason, if the last write was an incomplete sector we still need to rewind // back to the nearest sector/page and rewrite the portion of it with whatever // we need to add. We need to keep where we stop writing. // // PositionedAppend() can only write whole sectors. For that reason we have to // pad with zeros for the last write and trim the file when closing according // to the position we keep in the previous step. // // PositionedAppend() requires aligned buffer to be passed in. The alignment // required is queried via GetRequiredBufferAlignment() virtual Status PositionedAppend(const Slice& /* data */, uint64_t /* offset */) { return Status::NotSupported(); } // Truncate is necessary to trim the file to the correct size // before closing. It is not always possible to keep track of the file // size due to whole pages writes. The behavior is undefined if called // with other writes to follow. virtual Status Truncate(uint64_t /*size*/) { return Status::OK(); } virtual Status Close() = 0; virtual Status Flush() = 0; virtual Status Sync() = 0; // sync data /* * Sync data and/or metadata as well. * By default, sync only data. * Override this method for environments where we need to sync * metadata as well. */ virtual Status Fsync() { return Sync(); } // true if Sync() and Fsync() are safe to call concurrently with Append() // and Flush(). virtual bool IsSyncThreadSafe() const { return false; } // Indicates the upper layers if the current WritableFile implementation // uses direct IO. virtual bool use_direct_io() const { return false; } // Use the returned alignment value to allocate // aligned buffer for Direct I/O virtual size_t GetRequiredBufferAlignment() const { return kDefaultPageSize; } /* * Change the priority in rate limiter if rate limiting is enabled. * If rate limiting is not enabled, this call has no effect. */ virtual void SetIOPriority(Env::IOPriority pri) { io_priority_ = pri; } virtual Env::IOPriority GetIOPriority() { return io_priority_; } virtual void SetWriteLifeTimeHint(Env::WriteLifeTimeHint hint) { write_hint_ = hint; } virtual Env::WriteLifeTimeHint GetWriteLifeTimeHint() { return write_hint_; } /* * Get the size of valid data in the file. */ virtual uint64_t GetFileSize() { return 0; } /* * Get and set the default pre-allocation block size for writes to * this file. If non-zero, then Allocate will be used to extend the * underlying storage of a file (generally via fallocate) if the Env * instance supports it. */ virtual void SetPreallocationBlockSize(size_t size) { preallocation_block_size_ = size; } virtual void GetPreallocationStatus(size_t* block_size, size_t* last_allocated_block) { *last_allocated_block = last_preallocated_block_; *block_size = preallocation_block_size_; } // For documentation, refer to RandomAccessFile::GetUniqueId() virtual size_t GetUniqueId(char* /*id*/, size_t /*max_size*/) const { return 0; // Default implementation to prevent issues with backwards } // Remove any kind of caching of data from the offset to offset+length // of this file. If the length is 0, then it refers to the end of file. // If the system is not caching the file contents, then this is a noop. // This call has no effect on dirty pages in the cache. virtual Status InvalidateCache(size_t /*offset*/, size_t /*length*/) { return Status::NotSupported("InvalidateCache not supported."); } // Sync a file range with disk. // offset is the starting byte of the file range to be synchronized. // nbytes specifies the length of the range to be synchronized. // This asks the OS to initiate flushing the cached data to disk, // without waiting for completion. // Default implementation does nothing. virtual Status RangeSync(uint64_t /*offset*/, uint64_t /*nbytes*/) { return Status::OK(); } // PrepareWrite performs any necessary preparation for a write // before the write actually occurs. This allows for pre-allocation // of space on devices where it can result in less file // fragmentation and/or less waste from over-zealous filesystem // pre-allocation. virtual void PrepareWrite(size_t offset, size_t len) { if (preallocation_block_size_ == 0) { return; } // If this write would cross one or more preallocation blocks, // determine what the last preallocation block necessary to // cover this write would be and Allocate to that point. const auto block_size = preallocation_block_size_; size_t new_last_preallocated_block = (offset + len + block_size - 1) / block_size; if (new_last_preallocated_block > last_preallocated_block_) { size_t num_spanned_blocks = new_last_preallocated_block - last_preallocated_block_; Allocate(block_size * last_preallocated_block_, block_size * num_spanned_blocks); last_preallocated_block_ = new_last_preallocated_block; } } // Pre-allocates space for a file. virtual Status Allocate(uint64_t /*offset*/, uint64_t /*len*/) { return Status::OK(); } protected: size_t preallocation_block_size() { return preallocation_block_size_; } private: size_t last_preallocated_block_; size_t preallocation_block_size_; // No copying allowed WritableFile(const WritableFile&); void operator=(const WritableFile&); protected: friend class WritableFileWrapper; friend class WritableFileMirror; Env::IOPriority io_priority_; Env::WriteLifeTimeHint write_hint_; }; // A file abstraction for random reading and writing. class RandomRWFile { public: RandomRWFile() {} virtual ~RandomRWFile() {} // Indicates if the class makes use of direct I/O // If false you must pass aligned buffer to Write() virtual bool use_direct_io() const { return false; } // Use the returned alignment value to allocate // aligned buffer for Direct I/O virtual size_t GetRequiredBufferAlignment() const { return kDefaultPageSize; } // Write bytes in `data` at offset `offset`, Returns Status::OK() on success. // Pass aligned buffer when use_direct_io() returns true. virtual Status Write(uint64_t offset, const Slice& data) = 0; // Read up to `n` bytes starting from offset `offset` and store them in // result, provided `scratch` size should be at least `n`. // Returns Status::OK() on success. virtual Status Read(uint64_t offset, size_t n, Slice* result, char* scratch) const = 0; virtual Status Flush() = 0; virtual Status Sync() = 0; virtual Status Fsync() { return Sync(); } virtual Status Close() = 0; // No copying allowed RandomRWFile(const RandomRWFile&) = delete; RandomRWFile& operator=(const RandomRWFile&) = delete; }; // MemoryMappedFileBuffer object represents a memory-mapped file's raw buffer. // Subclasses should release the mapping upon destruction. class MemoryMappedFileBuffer { public: MemoryMappedFileBuffer(void* _base, size_t _length) : base_(_base), length_(_length) {} virtual ~MemoryMappedFileBuffer() = 0; // We do not want to unmap this twice. We can make this class // movable if desired, however, since MemoryMappedFileBuffer(const MemoryMappedFileBuffer&) = delete; MemoryMappedFileBuffer& operator=(const MemoryMappedFileBuffer&) = delete; void* GetBase() const { return base_; } size_t GetLen() const { return length_; } protected: void* base_; const size_t length_; }; // Directory object represents collection of files and implements // filesystem operations that can be executed on directories. class Directory { public: virtual ~Directory() {} // Fsync directory. Can be called concurrently from multiple threads. virtual Status Fsync() = 0; virtual size_t GetUniqueId(char* /*id*/, size_t /*max_size*/) const { return 0; } }; enum InfoLogLevel : unsigned char { DEBUG_LEVEL = 0, INFO_LEVEL, WARN_LEVEL, ERROR_LEVEL, FATAL_LEVEL, HEADER_LEVEL, NUM_INFO_LOG_LEVELS, }; // An interface for writing log messages. class Logger { public: size_t kDoNotSupportGetLogFileSize = (std::numeric_limits::max)(); explicit Logger(const InfoLogLevel log_level = InfoLogLevel::INFO_LEVEL) : closed_(false), log_level_(log_level) {} virtual ~Logger(); // Close the log file. Must be called before destructor. If the return // status is NotSupported(), it means the implementation does cleanup in // the destructor virtual Status Close(); // Write a header to the log file with the specified format // It is recommended that you log all header information at the start of the // application. But it is not enforced. virtual void LogHeader(const char* format, va_list ap) { // Default implementation does a simple INFO level log write. // Please override as per the logger class requirement. Logv(format, ap); } // Write an entry to the log file with the specified format. virtual void Logv(const char* format, va_list ap) = 0; // Write an entry to the log file with the specified log level // and format. Any log with level under the internal log level // of *this (see @SetInfoLogLevel and @GetInfoLogLevel) will not be // printed. virtual void Logv(const InfoLogLevel log_level, const char* format, va_list ap); virtual size_t GetLogFileSize() const { return kDoNotSupportGetLogFileSize; } // Flush to the OS buffers virtual void Flush() {} virtual InfoLogLevel GetInfoLogLevel() const { return log_level_; } virtual void SetInfoLogLevel(const InfoLogLevel log_level) { log_level_ = log_level; } protected: virtual Status CloseImpl(); bool closed_; private: // No copying allowed Logger(const Logger&); void operator=(const Logger&); InfoLogLevel log_level_; }; // Identifies a locked file. class FileLock { public: FileLock() { } virtual ~FileLock(); private: // No copying allowed FileLock(const FileLock&); void operator=(const FileLock&); }; extern void LogFlush(const shared_ptr& info_log); extern void Log(const InfoLogLevel log_level, const shared_ptr& info_log, const char* format, ...); // a set of log functions with different log levels. extern void Header(const shared_ptr& info_log, const char* format, ...); extern void Debug(const shared_ptr& info_log, const char* format, ...); extern void Info(const shared_ptr& info_log, const char* format, ...); extern void Warn(const shared_ptr& info_log, const char* format, ...); extern void Error(const shared_ptr& info_log, const char* format, ...); extern void Fatal(const shared_ptr& info_log, const char* format, ...); // Log the specified data to *info_log if info_log is non-nullptr. // The default info log level is InfoLogLevel::INFO_LEVEL. extern void Log(const shared_ptr& info_log, const char* format, ...) # if defined(__GNUC__) || defined(__clang__) __attribute__((__format__ (__printf__, 2, 3))) # endif ; extern void LogFlush(Logger *info_log); extern void Log(const InfoLogLevel log_level, Logger* info_log, const char* format, ...); // The default info log level is InfoLogLevel::INFO_LEVEL. extern void Log(Logger* info_log, const char* format, ...) # if defined(__GNUC__) || defined(__clang__) __attribute__((__format__ (__printf__, 2, 3))) # endif ; // a set of log functions with different log levels. extern void Header(Logger* info_log, const char* format, ...); extern void Debug(Logger* info_log, const char* format, ...); extern void Info(Logger* info_log, const char* format, ...); extern void Warn(Logger* info_log, const char* format, ...); extern void Error(Logger* info_log, const char* format, ...); extern void Fatal(Logger* info_log, const char* format, ...); // A utility routine: write "data" to the named file. extern Status WriteStringToFile(Env* env, const Slice& data, const std::string& fname, bool should_sync = false); // A utility routine: read contents of named file into *data extern Status ReadFileToString(Env* env, const std::string& fname, std::string* data); // An implementation of Env that forwards all calls to another Env. // May be useful to clients who wish to override just part of the // functionality of another Env. class EnvWrapper : public Env { public: // Initialize an EnvWrapper that delegates all calls to *t explicit EnvWrapper(Env* t) : target_(t) { } ~EnvWrapper() override; // Return the target to which this Env forwards all calls Env* target() const { return target_; } // The following text is boilerplate that forwards all methods to target() Status NewSequentialFile(const std::string& f, unique_ptr* r, const EnvOptions& options) override { return target_->NewSequentialFile(f, r, options); } Status NewRandomAccessFile(const std::string& f, unique_ptr* r, const EnvOptions& options) override { return target_->NewRandomAccessFile(f, r, options); } Status NewWritableFile(const std::string& f, unique_ptr* r, const EnvOptions& options) override { return target_->NewWritableFile(f, r, options); } Status ReopenWritableFile(const std::string& fname, unique_ptr* result, const EnvOptions& options) override { return target_->ReopenWritableFile(fname, result, options); } Status ReuseWritableFile(const std::string& fname, const std::string& old_fname, unique_ptr* r, const EnvOptions& options) override { return target_->ReuseWritableFile(fname, old_fname, r, options); } Status NewRandomRWFile(const std::string& fname, unique_ptr* result, const EnvOptions& options) override { return target_->NewRandomRWFile(fname, result, options); } Status NewDirectory(const std::string& name, unique_ptr* result) override { return target_->NewDirectory(name, result); } Status FileExists(const std::string& f) override { return target_->FileExists(f); } Status GetChildren(const std::string& dir, std::vector* r) override { return target_->GetChildren(dir, r); } Status GetChildrenFileAttributes( const std::string& dir, std::vector* result) override { return target_->GetChildrenFileAttributes(dir, result); } Status DeleteFile(const std::string& f) override { return target_->DeleteFile(f); } Status CreateDir(const std::string& d) override { return target_->CreateDir(d); } Status CreateDirIfMissing(const std::string& d) override { return target_->CreateDirIfMissing(d); } Status DeleteDir(const std::string& d) override { return target_->DeleteDir(d); } Status GetFileSize(const std::string& f, uint64_t* s) override { return target_->GetFileSize(f, s); } Status GetFileModificationTime(const std::string& fname, uint64_t* file_mtime) override { return target_->GetFileModificationTime(fname, file_mtime); } Status RenameFile(const std::string& s, const std::string& t) override { return target_->RenameFile(s, t); } Status LinkFile(const std::string& s, const std::string& t) override { return target_->LinkFile(s, t); } Status NumFileLinks(const std::string& fname, uint64_t* count) override { return target_->NumFileLinks(fname, count); } Status AreFilesSame(const std::string& first, const std::string& second, bool* res) override { return target_->AreFilesSame(first, second, res); } Status LockFile(const std::string& f, FileLock** l) override { return target_->LockFile(f, l); } Status UnlockFile(FileLock* l) override { return target_->UnlockFile(l); } void Schedule(void (*f)(void* arg), void* a, Priority pri, void* tag = nullptr, void (*u)(void* arg) = nullptr) override { return target_->Schedule(f, a, pri, tag, u); } int UnSchedule(void* tag, Priority pri) override { return target_->UnSchedule(tag, pri); } void StartThread(void (*f)(void*), void* a) override { return target_->StartThread(f, a); } void WaitForJoin() override { return target_->WaitForJoin(); } unsigned int GetThreadPoolQueueLen(Priority pri = LOW) const override { return target_->GetThreadPoolQueueLen(pri); } Status GetTestDirectory(std::string* path) override { return target_->GetTestDirectory(path); } Status NewLogger(const std::string& fname, shared_ptr* result) override { return target_->NewLogger(fname, result); } uint64_t NowMicros() override { return target_->NowMicros(); } uint64_t NowNanos() override { return target_->NowNanos(); } void SleepForMicroseconds(int micros) override { target_->SleepForMicroseconds(micros); } Status GetHostName(char* name, uint64_t len) override { return target_->GetHostName(name, len); } Status GetCurrentTime(int64_t* unix_time) override { return target_->GetCurrentTime(unix_time); } Status GetAbsolutePath(const std::string& db_path, std::string* output_path) override { return target_->GetAbsolutePath(db_path, output_path); } void SetBackgroundThreads(int num, Priority pri) override { return target_->SetBackgroundThreads(num, pri); } int GetBackgroundThreads(Priority pri) override { return target_->GetBackgroundThreads(pri); } Status SetAllowNonOwnerAccess(bool allow_non_owner_access) override { return target_->SetAllowNonOwnerAccess(allow_non_owner_access); } void IncBackgroundThreadsIfNeeded(int num, Priority pri) override { return target_->IncBackgroundThreadsIfNeeded(num, pri); } void LowerThreadPoolIOPriority(Priority pool = LOW) override { target_->LowerThreadPoolIOPriority(pool); } void LowerThreadPoolCPUPriority(Priority pool = LOW) override { target_->LowerThreadPoolCPUPriority(pool); } std::string TimeToString(uint64_t time) override { return target_->TimeToString(time); } Status GetThreadList(std::vector* thread_list) override { return target_->GetThreadList(thread_list); } ThreadStatusUpdater* GetThreadStatusUpdater() const override { return target_->GetThreadStatusUpdater(); } uint64_t GetThreadID() const override { return target_->GetThreadID(); } std::string GenerateUniqueId() override { return target_->GenerateUniqueId(); } EnvOptions OptimizeForLogRead(const EnvOptions& env_options) const override { return target_->OptimizeForLogRead(env_options); } EnvOptions OptimizeForManifestRead( const EnvOptions& env_options) const override { return target_->OptimizeForManifestRead(env_options); } EnvOptions OptimizeForLogWrite(const EnvOptions& env_options, const DBOptions& db_options) const override { return target_->OptimizeForLogWrite(env_options, db_options); } EnvOptions OptimizeForManifestWrite( const EnvOptions& env_options) const override { return target_->OptimizeForManifestWrite(env_options); } EnvOptions OptimizeForCompactionTableWrite( const EnvOptions& env_options, const ImmutableDBOptions& immutable_ops) const override { return target_->OptimizeForCompactionTableWrite(env_options, immutable_ops); } EnvOptions OptimizeForCompactionTableRead( const EnvOptions& env_options, const ImmutableDBOptions& db_options) const override { return target_->OptimizeForCompactionTableRead(env_options, db_options); } private: Env* target_; }; // An implementation of WritableFile that forwards all calls to another // WritableFile. May be useful to clients who wish to override just part of the // functionality of another WritableFile. // It's declared as friend of WritableFile to allow forwarding calls to // protected virtual methods. class WritableFileWrapper : public WritableFile { public: explicit WritableFileWrapper(WritableFile* t) : target_(t) { } Status Append(const Slice& data) override { return target_->Append(data); } Status PositionedAppend(const Slice& data, uint64_t offset) override { return target_->PositionedAppend(data, offset); } Status Truncate(uint64_t size) override { return target_->Truncate(size); } Status Close() override { return target_->Close(); } Status Flush() override { return target_->Flush(); } Status Sync() override { return target_->Sync(); } Status Fsync() override { return target_->Fsync(); } bool IsSyncThreadSafe() const override { return target_->IsSyncThreadSafe(); } void SetIOPriority(Env::IOPriority pri) override { target_->SetIOPriority(pri); } Env::IOPriority GetIOPriority() override { return target_->GetIOPriority(); } uint64_t GetFileSize() override { return target_->GetFileSize(); } void GetPreallocationStatus(size_t* block_size, size_t* last_allocated_block) override { target_->GetPreallocationStatus(block_size, last_allocated_block); } size_t GetUniqueId(char* id, size_t max_size) const override { return target_->GetUniqueId(id, max_size); } Status InvalidateCache(size_t offset, size_t length) override { return target_->InvalidateCache(offset, length); } void SetPreallocationBlockSize(size_t size) override { target_->SetPreallocationBlockSize(size); } void PrepareWrite(size_t offset, size_t len) override { target_->PrepareWrite(offset, len); } protected: Status Allocate(uint64_t offset, uint64_t len) override { return target_->Allocate(offset, len); } Status RangeSync(uint64_t offset, uint64_t nbytes) override { return target_->RangeSync(offset, nbytes); } private: WritableFile* target_; }; // Returns a new environment that stores its data in memory and delegates // all non-file-storage tasks to base_env. The caller must delete the result // when it is no longer needed. // *base_env must remain live while the result is in use. Env* NewMemEnv(Env* base_env); // Returns a new environment that is used for HDFS environment. // This is a factory method for HdfsEnv declared in hdfs/env_hdfs.h Status NewHdfsEnv(Env** hdfs_env, const std::string& fsname); // Returns a new environment that measures function call times for filesystem // operations, reporting results to variables in PerfContext. // This is a factory method for TimedEnv defined in utilities/env_timed.cc. Env* NewTimedEnv(Env* base_env); } // namespace rocksdb rocksdb-5.17.2/include/rocksdb/env_encryption.h000066400000000000000000000170551337235545400215450ustar00rootroot00000000000000// Copyright (c) 2016-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #if !defined(ROCKSDB_LITE) #include #include "env.h" namespace rocksdb { class EncryptionProvider; // Returns an Env that encrypts data when stored on disk and decrypts data when // read from disk. Env* NewEncryptedEnv(Env* base_env, EncryptionProvider* provider); // BlockAccessCipherStream is the base class for any cipher stream that // supports random access at block level (without requiring data from other blocks). // E.g. CTR (Counter operation mode) supports this requirement. class BlockAccessCipherStream { public: virtual ~BlockAccessCipherStream() {}; // BlockSize returns the size of each block supported by this cipher stream. virtual size_t BlockSize() = 0; // Encrypt one or more (partial) blocks of data at the file offset. // Length of data is given in dataSize. virtual Status Encrypt(uint64_t fileOffset, char *data, size_t dataSize); // Decrypt one or more (partial) blocks of data at the file offset. // Length of data is given in dataSize. virtual Status Decrypt(uint64_t fileOffset, char *data, size_t dataSize); protected: // Allocate scratch space which is passed to EncryptBlock/DecryptBlock. virtual void AllocateScratch(std::string&) = 0; // Encrypt a block of data at the given block index. // Length of data is equal to BlockSize(); virtual Status EncryptBlock(uint64_t blockIndex, char *data, char* scratch) = 0; // Decrypt a block of data at the given block index. // Length of data is equal to BlockSize(); virtual Status DecryptBlock(uint64_t blockIndex, char *data, char* scratch) = 0; }; // BlockCipher class BlockCipher { public: virtual ~BlockCipher() {}; // BlockSize returns the size of each block supported by this cipher stream. virtual size_t BlockSize() = 0; // Encrypt a block of data. // Length of data is equal to BlockSize(). virtual Status Encrypt(char *data) = 0; // Decrypt a block of data. // Length of data is equal to BlockSize(). virtual Status Decrypt(char *data) = 0; }; // Implements a BlockCipher using ROT13. // // Note: This is a sample implementation of BlockCipher, // it is NOT considered safe and should NOT be used in production. class ROT13BlockCipher : public BlockCipher { private: size_t blockSize_; public: ROT13BlockCipher(size_t blockSize) : blockSize_(blockSize) {} virtual ~ROT13BlockCipher() {}; // BlockSize returns the size of each block supported by this cipher stream. virtual size_t BlockSize() override { return blockSize_; } // Encrypt a block of data. // Length of data is equal to BlockSize(). virtual Status Encrypt(char *data) override; // Decrypt a block of data. // Length of data is equal to BlockSize(). virtual Status Decrypt(char *data) override; }; // CTRCipherStream implements BlockAccessCipherStream using an // Counter operations mode. // See https://en.wikipedia.org/wiki/Block_cipher_mode_of_operation // // Note: This is a possible implementation of BlockAccessCipherStream, // it is considered suitable for use. class CTRCipherStream final : public BlockAccessCipherStream { private: BlockCipher& cipher_; std::string iv_; uint64_t initialCounter_; public: CTRCipherStream(BlockCipher& c, const char *iv, uint64_t initialCounter) : cipher_(c), iv_(iv, c.BlockSize()), initialCounter_(initialCounter) {}; virtual ~CTRCipherStream() {}; // BlockSize returns the size of each block supported by this cipher stream. virtual size_t BlockSize() override { return cipher_.BlockSize(); } protected: // Allocate scratch space which is passed to EncryptBlock/DecryptBlock. virtual void AllocateScratch(std::string&) override; // Encrypt a block of data at the given block index. // Length of data is equal to BlockSize(); virtual Status EncryptBlock(uint64_t blockIndex, char *data, char *scratch) override; // Decrypt a block of data at the given block index. // Length of data is equal to BlockSize(); virtual Status DecryptBlock(uint64_t blockIndex, char *data, char *scratch) override; }; // The encryption provider is used to create a cipher stream for a specific file. // The returned cipher stream will be used for actual encryption/decryption // actions. class EncryptionProvider { public: virtual ~EncryptionProvider() {}; // GetPrefixLength returns the length of the prefix that is added to every file // and used for storing encryption options. // For optimal performance, the prefix length should be a multiple of // the page size. virtual size_t GetPrefixLength() = 0; // CreateNewPrefix initialized an allocated block of prefix memory // for a new file. virtual Status CreateNewPrefix(const std::string& fname, char *prefix, size_t prefixLength) = 0; // CreateCipherStream creates a block access cipher stream for a file given // given name and options. virtual Status CreateCipherStream(const std::string& fname, const EnvOptions& options, Slice& prefix, unique_ptr* result) = 0; }; // This encryption provider uses a CTR cipher stream, with a given block cipher // and IV. // // Note: This is a possible implementation of EncryptionProvider, // it is considered suitable for use, provided a safe BlockCipher is used. class CTREncryptionProvider : public EncryptionProvider { private: BlockCipher& cipher_; protected: const static size_t defaultPrefixLength = 4096; public: CTREncryptionProvider(BlockCipher& c) : cipher_(c) {}; virtual ~CTREncryptionProvider() {} // GetPrefixLength returns the length of the prefix that is added to every file // and used for storing encryption options. // For optimal performance, the prefix length should be a multiple of // the page size. virtual size_t GetPrefixLength() override; // CreateNewPrefix initialized an allocated block of prefix memory // for a new file. virtual Status CreateNewPrefix(const std::string& fname, char *prefix, size_t prefixLength) override; // CreateCipherStream creates a block access cipher stream for a file given // given name and options. virtual Status CreateCipherStream(const std::string& fname, const EnvOptions& options, Slice& prefix, unique_ptr* result) override; protected: // PopulateSecretPrefixPart initializes the data into a new prefix block // that will be encrypted. This function will store the data in plain text. // It will be encrypted later (before written to disk). // Returns the amount of space (starting from the start of the prefix) // that has been initialized. virtual size_t PopulateSecretPrefixPart(char *prefix, size_t prefixLength, size_t blockSize); // CreateCipherStreamFromPrefix creates a block access cipher stream for a file given // given name and options. The given prefix is already decrypted. virtual Status CreateCipherStreamFromPrefix(const std::string& fname, const EnvOptions& options, uint64_t initialCounter, const Slice& iv, const Slice& prefix, unique_ptr* result); }; } // namespace rocksdb #endif // !defined(ROCKSDB_LITE) rocksdb-5.17.2/include/rocksdb/experimental.h000066400000000000000000000021751337235545400211750ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #include "rocksdb/db.h" #include "rocksdb/status.h" namespace rocksdb { namespace experimental { // Supported only for Leveled compaction Status SuggestCompactRange(DB* db, ColumnFamilyHandle* column_family, const Slice* begin, const Slice* end); Status SuggestCompactRange(DB* db, const Slice* begin, const Slice* end); // Move all L0 files to target_level skipping compaction. // This operation succeeds only if the files in L0 have disjoint ranges; this // is guaranteed to happen, for instance, if keys are inserted in sorted // order. Furthermore, all levels between 1 and target_level must be empty. // If any of the above condition is violated, InvalidArgument will be // returned. Status PromoteL0(DB* db, ColumnFamilyHandle* column_family, int target_level = 1); } // namespace experimental } // namespace rocksdb rocksdb-5.17.2/include/rocksdb/filter_policy.h000066400000000000000000000133011337235545400213350ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // Copyright (c) 2012 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. // // A database can be configured with a custom FilterPolicy object. // This object is responsible for creating a small filter from a set // of keys. These filters are stored in rocksdb and are consulted // automatically by rocksdb to decide whether or not to read some // information from disk. In many cases, a filter can cut down the // number of disk seeks form a handful to a single disk seek per // DB::Get() call. // // Most people will want to use the builtin bloom filter support (see // NewBloomFilterPolicy() below). #pragma once #include #include #include #include #include namespace rocksdb { class Slice; // A class that takes a bunch of keys, then generates filter class FilterBitsBuilder { public: virtual ~FilterBitsBuilder() {} // Add Key to filter, you could use any way to store the key. // Such as: storing hashes or original keys // Keys are in sorted order and duplicated keys are possible. virtual void AddKey(const Slice& key) = 0; // Generate the filter using the keys that are added // The return value of this function would be the filter bits, // The ownership of actual data is set to buf virtual Slice Finish(std::unique_ptr* buf) = 0; // Calculate num of entries fit into a space. #if defined(_MSC_VER) #pragma warning(push) #pragma warning(disable : 4702) // unreachable code #endif virtual int CalculateNumEntry(const uint32_t /*space*/) { #ifndef ROCKSDB_LITE throw std::runtime_error("CalculateNumEntry not Implemented"); #else abort(); #endif return 0; } #if defined(_MSC_VER) #pragma warning(pop) #endif }; // A class that checks if a key can be in filter // It should be initialized by Slice generated by BitsBuilder class FilterBitsReader { public: virtual ~FilterBitsReader() {} // Check if the entry match the bits in filter virtual bool MayMatch(const Slice& entry) = 0; }; // We add a new format of filter block called full filter block // This new interface gives you more space of customization // // For the full filter block, you can plug in your version by implement // the FilterBitsBuilder and FilterBitsReader // // There are two sets of interface in FilterPolicy // Set 1: CreateFilter, KeyMayMatch: used for blockbased filter // Set 2: GetFilterBitsBuilder, GetFilterBitsReader, they are used for // full filter. // Set 1 MUST be implemented correctly, Set 2 is optional // RocksDB would first try using functions in Set 2. if they return nullptr, // it would use Set 1 instead. // You can choose filter type in NewBloomFilterPolicy class FilterPolicy { public: virtual ~FilterPolicy(); // Return the name of this policy. Note that if the filter encoding // changes in an incompatible way, the name returned by this method // must be changed. Otherwise, old incompatible filters may be // passed to methods of this type. virtual const char* Name() const = 0; // keys[0,n-1] contains a list of keys (potentially with duplicates) // that are ordered according to the user supplied comparator. // Append a filter that summarizes keys[0,n-1] to *dst. // // Warning: do not change the initial contents of *dst. Instead, // append the newly constructed filter to *dst. virtual void CreateFilter(const Slice* keys, int n, std::string* dst) const = 0; // "filter" contains the data appended by a preceding call to // CreateFilter() on this class. This method must return true if // the key was in the list of keys passed to CreateFilter(). // This method may return true or false if the key was not on the // list, but it should aim to return false with a high probability. virtual bool KeyMayMatch(const Slice& key, const Slice& filter) const = 0; // Get the FilterBitsBuilder, which is ONLY used for full filter block // It contains interface to take individual key, then generate filter virtual FilterBitsBuilder* GetFilterBitsBuilder() const { return nullptr; } // Get the FilterBitsReader, which is ONLY used for full filter block // It contains interface to tell if key can be in filter // The input slice should NOT be deleted by FilterPolicy virtual FilterBitsReader* GetFilterBitsReader( const Slice& /*contents*/) const { return nullptr; } }; // Return a new filter policy that uses a bloom filter with approximately // the specified number of bits per key. // // bits_per_key: bits per key in bloom filter. A good value for bits_per_key // is 10, which yields a filter with ~ 1% false positive rate. // use_block_based_builder: use block based filter rather than full filter. // If you want to builder full filter, it needs to be set to false. // // Callers must delete the result after any database that is using the // result has been closed. // // Note: if you are using a custom comparator that ignores some parts // of the keys being compared, you must not use NewBloomFilterPolicy() // and must provide your own FilterPolicy that also ignores the // corresponding parts of the keys. For example, if the comparator // ignores trailing spaces, it would be incorrect to use a // FilterPolicy (like NewBloomFilterPolicy) that does not ignore // trailing spaces in keys. extern const FilterPolicy* NewBloomFilterPolicy(int bits_per_key, bool use_block_based_builder = true); } rocksdb-5.17.2/include/rocksdb/flush_block_policy.h000066400000000000000000000036511337235545400223520ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #include #include "rocksdb/table.h" namespace rocksdb { class Slice; class BlockBuilder; struct Options; // FlushBlockPolicy provides a configurable way to determine when to flush a // block in the block based tables, class FlushBlockPolicy { public: // Keep track of the key/value sequences and return the boolean value to // determine if table builder should flush current data block. virtual bool Update(const Slice& key, const Slice& value) = 0; virtual ~FlushBlockPolicy() { } }; class FlushBlockPolicyFactory { public: // Return the name of the flush block policy. virtual const char* Name() const = 0; // Return a new block flush policy that flushes data blocks by data size. // FlushBlockPolicy may need to access the metadata of the data block // builder to determine when to flush the blocks. // // Callers must delete the result after any database that is using the // result has been closed. virtual FlushBlockPolicy* NewFlushBlockPolicy( const BlockBasedTableOptions& table_options, const BlockBuilder& data_block_builder) const = 0; virtual ~FlushBlockPolicyFactory() { } }; class FlushBlockBySizePolicyFactory : public FlushBlockPolicyFactory { public: FlushBlockBySizePolicyFactory() {} const char* Name() const override { return "FlushBlockBySizePolicyFactory"; } FlushBlockPolicy* NewFlushBlockPolicy( const BlockBasedTableOptions& table_options, const BlockBuilder& data_block_builder) const override; static FlushBlockPolicy* NewFlushBlockPolicy( const uint64_t size, const int deviation, const BlockBuilder& data_block_builder); }; } // rocksdb rocksdb-5.17.2/include/rocksdb/iostats_context.h000066400000000000000000000027031337235545400217270ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #include #include #include "rocksdb/perf_level.h" // A thread local context for gathering io-stats efficiently and transparently. // Use SetPerfLevel(PerfLevel::kEnableTime) to enable time stats. namespace rocksdb { struct IOStatsContext { // reset all io-stats counter to zero void Reset(); std::string ToString(bool exclude_zero_counters = false) const; // the thread pool id uint64_t thread_pool_id; // number of bytes that has been written. uint64_t bytes_written; // number of bytes that has been read. uint64_t bytes_read; // time spent in open() and fopen(). uint64_t open_nanos; // time spent in fallocate(). uint64_t allocate_nanos; // time spent in write() and pwrite(). uint64_t write_nanos; // time spent in read() and pread() uint64_t read_nanos; // time spent in sync_file_range(). uint64_t range_sync_nanos; // time spent in fsync uint64_t fsync_nanos; // time spent in preparing write (fallocate etc). uint64_t prepare_write_nanos; // time spent in Logger::Logv(). uint64_t logger_nanos; }; // Get Thread-local IOStatsContext object pointer IOStatsContext* get_iostats_context(); } // namespace rocksdb rocksdb-5.17.2/include/rocksdb/iterator.h000066400000000000000000000114661337235545400203340ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. // // An iterator yields a sequence of key/value pairs from a source. // The following class defines the interface. Multiple implementations // are provided by this library. In particular, iterators are provided // to access the contents of a Table or a DB. // // Multiple threads can invoke const methods on an Iterator without // external synchronization, but if any of the threads may call a // non-const method, all threads accessing the same Iterator must use // external synchronization. #pragma once #include #include "rocksdb/cleanable.h" #include "rocksdb/slice.h" #include "rocksdb/status.h" namespace rocksdb { class Iterator : public Cleanable { public: Iterator() {} virtual ~Iterator() {} // An iterator is either positioned at a key/value pair, or // not valid. This method returns true iff the iterator is valid. // Always returns false if !status().ok(). virtual bool Valid() const = 0; // Position at the first key in the source. The iterator is Valid() // after this call iff the source is not empty. virtual void SeekToFirst() = 0; // Position at the last key in the source. The iterator is // Valid() after this call iff the source is not empty. virtual void SeekToLast() = 0; // Position at the first key in the source that at or past target. // The iterator is Valid() after this call iff the source contains // an entry that comes at or past target. // All Seek*() methods clear any error status() that the iterator had prior to // the call; after the seek, status() indicates only the error (if any) that // happened during the seek, not any past errors. virtual void Seek(const Slice& target) = 0; // Position at the last key in the source that at or before target. // The iterator is Valid() after this call iff the source contains // an entry that comes at or before target. virtual void SeekForPrev(const Slice& target) = 0; // Moves to the next entry in the source. After this call, Valid() is // true iff the iterator was not positioned at the last entry in the source. // REQUIRES: Valid() virtual void Next() = 0; // Moves to the previous entry in the source. After this call, Valid() is // true iff the iterator was not positioned at the first entry in source. // REQUIRES: Valid() virtual void Prev() = 0; // Return the key for the current entry. The underlying storage for // the returned slice is valid only until the next modification of // the iterator. // REQUIRES: Valid() virtual Slice key() const = 0; // Return the value for the current entry. The underlying storage for // the returned slice is valid only until the next modification of // the iterator. // REQUIRES: Valid() virtual Slice value() const = 0; // If an error has occurred, return it. Else return an ok status. // If non-blocking IO is requested and this operation cannot be // satisfied without doing some IO, then this returns Status::Incomplete(). virtual Status status() const = 0; // If supported, renew the iterator to represent the latest state. The // iterator will be invalidated after the call. Not supported if // ReadOptions.snapshot is given when creating the iterator. virtual Status Refresh() { return Status::NotSupported("Refresh() is not supported"); } // Property "rocksdb.iterator.is-key-pinned": // If returning "1", this means that the Slice returned by key() is valid // as long as the iterator is not deleted. // It is guaranteed to always return "1" if // - Iterator created with ReadOptions::pin_data = true // - DB tables were created with // BlockBasedTableOptions::use_delta_encoding = false. // Property "rocksdb.iterator.super-version-number": // LSM version used by the iterator. The same format as DB Property // kCurrentSuperVersionNumber. See its comment for more information. // Property "rocksdb.iterator.internal-key": // Get the user-key portion of the internal key at which the iteration // stopped. virtual Status GetProperty(std::string prop_name, std::string* prop); private: // No copying allowed Iterator(const Iterator&); void operator=(const Iterator&); }; // Return an empty iterator (yields nothing). extern Iterator* NewEmptyIterator(); // Return an empty iterator with the specified status. extern Iterator* NewErrorIterator(const Status& status); } // namespace rocksdb rocksdb-5.17.2/include/rocksdb/ldb_tool.h000066400000000000000000000023141337235545400202710ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #ifndef ROCKSDB_LITE #include #include #include "rocksdb/db.h" #include "rocksdb/options.h" namespace rocksdb { // An interface for converting a slice to a readable string class SliceFormatter { public: virtual ~SliceFormatter() {} virtual std::string Format(const Slice& s) const = 0; }; // Options for customizing ldb tool (beyond the DB Options) struct LDBOptions { // Create LDBOptions with default values for all fields LDBOptions(); // Key formatter that converts a slice to a readable string. // Default: Slice::ToString() std::shared_ptr key_formatter; std::string print_help_header = "ldb - RocksDB Tool"; }; class LDBTool { public: void Run( int argc, char** argv, Options db_options = Options(), const LDBOptions& ldb_options = LDBOptions(), const std::vector* column_families = nullptr); }; } // namespace rocksdb #endif // ROCKSDB_LITE rocksdb-5.17.2/include/rocksdb/listener.h000066400000000000000000000374031337235545400203270ustar00rootroot00000000000000// Copyright (c) 2014 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #include #include #include #include #include "rocksdb/compaction_job_stats.h" #include "rocksdb/status.h" #include "rocksdb/table_properties.h" namespace rocksdb { typedef std::unordered_map> TablePropertiesCollection; class DB; class ColumnFamilyHandle; class Status; struct CompactionJobStats; enum CompressionType : unsigned char; enum class TableFileCreationReason { kFlush, kCompaction, kRecovery, kMisc, }; struct TableFileCreationBriefInfo { // the name of the database where the file was created std::string db_name; // the name of the column family where the file was created. std::string cf_name; // the path to the created file. std::string file_path; // the id of the job (which could be flush or compaction) that // created the file. int job_id; // reason of creating the table. TableFileCreationReason reason; }; struct TableFileCreationInfo : public TableFileCreationBriefInfo { TableFileCreationInfo() = default; explicit TableFileCreationInfo(TableProperties&& prop) : table_properties(prop) {} // the size of the file. uint64_t file_size; // Detailed properties of the created file. TableProperties table_properties; // The status indicating whether the creation was successful or not. Status status; }; enum class CompactionReason : int { kUnknown = 0, // [Level] number of L0 files > level0_file_num_compaction_trigger kLevelL0FilesNum, // [Level] total size of level > MaxBytesForLevel() kLevelMaxLevelSize, // [Universal] Compacting for size amplification kUniversalSizeAmplification, // [Universal] Compacting for size ratio kUniversalSizeRatio, // [Universal] number of sorted runs > level0_file_num_compaction_trigger kUniversalSortedRunNum, // [FIFO] total size > max_table_files_size kFIFOMaxSize, // [FIFO] reduce number of files. kFIFOReduceNumFiles, // [FIFO] files with creation time < (current_time - interval) kFIFOTtl, // Manual compaction kManualCompaction, // DB::SuggestCompactRange() marked files for compaction kFilesMarkedForCompaction, // [Level] Automatic compaction within bottommost level to cleanup duplicate // versions of same user key, usually due to a released snapshot. kBottommostFiles, // Compaction based on TTL kTtl, // According to the comments in flush_job.cc, RocksDB treats flush as // a level 0 compaction in internal stats. kFlush, // Compaction caused by external sst file ingestion kExternalSstIngestion, // total number of compaction reasons, new reasons must be added above this. kNumOfReasons, }; enum class FlushReason : int { kOthers = 0x00, kGetLiveFiles = 0x01, kShutDown = 0x02, kExternalFileIngestion = 0x03, kManualCompaction = 0x04, kWriteBufferManager = 0x05, kWriteBufferFull = 0x06, kTest = 0x07, kDeleteFiles = 0x08, kAutoCompaction = 0x09, kManualFlush = 0x0a, kErrorRecovery = 0xb, }; enum class BackgroundErrorReason { kFlush, kCompaction, kWriteCallback, kMemTable, }; enum class WriteStallCondition { kNormal, kDelayed, kStopped, }; struct WriteStallInfo { // the name of the column family std::string cf_name; // state of the write controller struct { WriteStallCondition cur; WriteStallCondition prev; } condition; }; #ifndef ROCKSDB_LITE struct TableFileDeletionInfo { // The name of the database where the file was deleted. std::string db_name; // The path to the deleted file. std::string file_path; // The id of the job which deleted the file. int job_id; // The status indicating whether the deletion was successful or not. Status status; }; struct FlushJobInfo { // the name of the column family std::string cf_name; // the path to the newly created file std::string file_path; // the id of the thread that completed this flush job. uint64_t thread_id; // the job id, which is unique in the same thread. int job_id; // If true, then rocksdb is currently slowing-down all writes to prevent // creating too many Level 0 files as compaction seems not able to // catch up the write request speed. This indicates that there are // too many files in Level 0. bool triggered_writes_slowdown; // If true, then rocksdb is currently blocking any writes to prevent // creating more L0 files. This indicates that there are too many // files in level 0. Compactions should try to compact L0 files down // to lower levels as soon as possible. bool triggered_writes_stop; // The smallest sequence number in the newly created file SequenceNumber smallest_seqno; // The largest sequence number in the newly created file SequenceNumber largest_seqno; // Table properties of the table being flushed TableProperties table_properties; FlushReason flush_reason; }; struct CompactionJobInfo { CompactionJobInfo() = default; explicit CompactionJobInfo(const CompactionJobStats& _stats) : stats(_stats) {} // the name of the column family where the compaction happened. std::string cf_name; // the status indicating whether the compaction was successful or not. Status status; // the id of the thread that completed this compaction job. uint64_t thread_id; // the job id, which is unique in the same thread. int job_id; // the smallest input level of the compaction. int base_input_level; // the output level of the compaction. int output_level; // the names of the compaction input files. std::vector input_files; // the names of the compaction output files. std::vector output_files; // Table properties for input and output tables. // The map is keyed by values from input_files and output_files. TablePropertiesCollection table_properties; // Reason to run the compaction CompactionReason compaction_reason; // Compression algorithm used for output files CompressionType compression; // If non-null, this variable stores detailed information // about this compaction. CompactionJobStats stats; }; struct MemTableInfo { // the name of the column family to which memtable belongs std::string cf_name; // Sequence number of the first element that was inserted // into the memtable. SequenceNumber first_seqno; // Sequence number that is guaranteed to be smaller than or equal // to the sequence number of any key that could be inserted into this // memtable. It can then be assumed that any write with a larger(or equal) // sequence number will be present in this memtable or a later memtable. SequenceNumber earliest_seqno; // Total number of entries in memtable uint64_t num_entries; // Total number of deletes in memtable uint64_t num_deletes; }; struct ExternalFileIngestionInfo { // the name of the column family std::string cf_name; // Path of the file outside the DB std::string external_file_path; // Path of the file inside the DB std::string internal_file_path; // The global sequence number assigned to keys in this file SequenceNumber global_seqno; // Table properties of the table being flushed TableProperties table_properties; }; // EventListener class contains a set of callback functions that will // be called when specific RocksDB event happens such as flush. It can // be used as a building block for developing custom features such as // stats-collector or external compaction algorithm. // // Note that callback functions should not run for an extended period of // time before the function returns, otherwise RocksDB may be blocked. // For example, it is not suggested to do DB::CompactFiles() (as it may // run for a long while) or issue many of DB::Put() (as Put may be blocked // in certain cases) in the same thread in the EventListener callback. // However, doing DB::CompactFiles() and DB::Put() in another thread is // considered safe. // // [Threading] All EventListener callback will be called using the // actual thread that involves in that specific event. For example, it // is the RocksDB background flush thread that does the actual flush to // call EventListener::OnFlushCompleted(). // // [Locking] All EventListener callbacks are designed to be called without // the current thread holding any DB mutex. This is to prevent potential // deadlock and performance issue when using EventListener callback // in a complex way. class EventListener { public: // A callback function to RocksDB which will be called whenever a // registered RocksDB flushes a file. The default implementation is // no-op. // // Note that the this function must be implemented in a way such that // it should not run for an extended period of time before the function // returns. Otherwise, RocksDB may be blocked. virtual void OnFlushCompleted(DB* /*db*/, const FlushJobInfo& /*flush_job_info*/) {} // A callback function to RocksDB which will be called before a // RocksDB starts to flush memtables. The default implementation is // no-op. // // Note that the this function must be implemented in a way such that // it should not run for an extended period of time before the function // returns. Otherwise, RocksDB may be blocked. virtual void OnFlushBegin(DB* /*db*/, const FlushJobInfo& /*flush_job_info*/) {} // A callback function for RocksDB which will be called whenever // a SST file is deleted. Different from OnCompactionCompleted and // OnFlushCompleted, this callback is designed for external logging // service and thus only provide string parameters instead // of a pointer to DB. Applications that build logic basic based // on file creations and deletions is suggested to implement // OnFlushCompleted and OnCompactionCompleted. // // Note that if applications would like to use the passed reference // outside this function call, they should make copies from the // returned value. virtual void OnTableFileDeleted(const TableFileDeletionInfo& /*info*/) {} // A callback function for RocksDB which will be called whenever // a registered RocksDB compacts a file. The default implementation // is a no-op. // // Note that this function must be implemented in a way such that // it should not run for an extended period of time before the function // returns. Otherwise, RocksDB may be blocked. // // @param db a pointer to the rocksdb instance which just compacted // a file. // @param ci a reference to a CompactionJobInfo struct. 'ci' is released // after this function is returned, and must be copied if it is needed // outside of this function. virtual void OnCompactionCompleted(DB* /*db*/, const CompactionJobInfo& /*ci*/) {} // A callback function for RocksDB which will be called whenever // a SST file is created. Different from OnCompactionCompleted and // OnFlushCompleted, this callback is designed for external logging // service and thus only provide string parameters instead // of a pointer to DB. Applications that build logic basic based // on file creations and deletions is suggested to implement // OnFlushCompleted and OnCompactionCompleted. // // Historically it will only be called if the file is successfully created. // Now it will also be called on failure case. User can check info.status // to see if it succeeded or not. // // Note that if applications would like to use the passed reference // outside this function call, they should make copies from these // returned value. virtual void OnTableFileCreated(const TableFileCreationInfo& /*info*/) {} // A callback function for RocksDB which will be called before // a SST file is being created. It will follow by OnTableFileCreated after // the creation finishes. // // Note that if applications would like to use the passed reference // outside this function call, they should make copies from these // returned value. virtual void OnTableFileCreationStarted( const TableFileCreationBriefInfo& /*info*/) {} // A callback function for RocksDB which will be called before // a memtable is made immutable. // // Note that the this function must be implemented in a way such that // it should not run for an extended period of time before the function // returns. Otherwise, RocksDB may be blocked. // // Note that if applications would like to use the passed reference // outside this function call, they should make copies from these // returned value. virtual void OnMemTableSealed( const MemTableInfo& /*info*/) {} // A callback function for RocksDB which will be called before // a column family handle is deleted. // // Note that the this function must be implemented in a way such that // it should not run for an extended period of time before the function // returns. Otherwise, RocksDB may be blocked. // @param handle is a pointer to the column family handle to be deleted // which will become a dangling pointer after the deletion. virtual void OnColumnFamilyHandleDeletionStarted( ColumnFamilyHandle* /*handle*/) {} // A callback function for RocksDB which will be called after an external // file is ingested using IngestExternalFile. // // Note that the this function will run on the same thread as // IngestExternalFile(), if this function is blocked, IngestExternalFile() // will be blocked from finishing. virtual void OnExternalFileIngested( DB* /*db*/, const ExternalFileIngestionInfo& /*info*/) {} // A callback function for RocksDB which will be called before setting the // background error status to a non-OK value. The new background error status // is provided in `bg_error` and can be modified by the callback. E.g., a // callback can suppress errors by resetting it to Status::OK(), thus // preventing the database from entering read-only mode. We do not provide any // guarantee when failed flushes/compactions will be rescheduled if the user // suppresses an error. // // Note that this function can run on the same threads as flush, compaction, // and user writes. So, it is extremely important not to perform heavy // computations or blocking calls in this function. virtual void OnBackgroundError(BackgroundErrorReason /* reason */, Status* /* bg_error */) {} // A callback function for RocksDB which will be called whenever a change // of superversion triggers a change of the stall conditions. // // Note that the this function must be implemented in a way such that // it should not run for an extended period of time before the function // returns. Otherwise, RocksDB may be blocked. virtual void OnStallConditionsChanged(const WriteStallInfo& /*info*/) {} // A callback function for RocksDB which will be called just before // starting the automatic recovery process for recoverable background // errors, such as NoSpace(). The callback can suppress the automatic // recovery by setting *auto_recovery to false. The database will then // have to be transitioned out of read-only mode by calling DB::Resume() virtual void OnErrorRecoveryBegin(BackgroundErrorReason /* reason */, Status /* bg_error */, bool* /* auto_recovery */) {} // A callback function for RocksDB which will be called once the database // is recovered from read-only mode after an error. When this is called, it // means normal writes to the database can be issued and the user can // initiate any further recovery actions needed virtual void OnErrorRecoveryCompleted(Status /* old_bg_error */) {} virtual ~EventListener() {} }; #else class EventListener { }; #endif // ROCKSDB_LITE } // namespace rocksdb rocksdb-5.17.2/include/rocksdb/memtablerep.h000066400000000000000000000410631337235545400207740ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file contains the interface that must be implemented by any collection // to be used as the backing store for a MemTable. Such a collection must // satisfy the following properties: // (1) It does not store duplicate items. // (2) It uses MemTableRep::KeyComparator to compare items for iteration and // equality. // (3) It can be accessed concurrently by multiple readers and can support // during reads. However, it needn't support multiple concurrent writes. // (4) Items are never deleted. // The liberal use of assertions is encouraged to enforce (1). // // The factory will be passed an MemTableAllocator object when a new MemTableRep // is requested. // // Users can implement their own memtable representations. We include three // types built in: // - SkipListRep: This is the default; it is backed by a skip list. // - HashSkipListRep: The memtable rep that is best used for keys that are // structured like "prefix:suffix" where iteration within a prefix is // common and iteration across different prefixes is rare. It is backed by // a hash map where each bucket is a skip list. // - VectorRep: This is backed by an unordered std::vector. On iteration, the // vector is sorted. It is intelligent about sorting; once the MarkReadOnly() // has been called, the vector will only be sorted once. It is optimized for // random-write-heavy workloads. // // The last four implementations are designed for situations in which // iteration over the entire collection is rare since doing so requires all the // keys to be copied into a sorted data structure. #pragma once #include #include #include #include #include namespace rocksdb { class Arena; class Allocator; class LookupKey; class SliceTransform; class Logger; typedef void* KeyHandle; extern Slice GetLengthPrefixedSlice(const char* data); class MemTableRep { public: // KeyComparator provides a means to compare keys, which are internal keys // concatenated with values. class KeyComparator { public: typedef rocksdb::Slice DecodedType; virtual DecodedType decode_key(const char* key) const { // The format of key is frozen and can be terated as a part of the API // contract. Refer to MemTable::Add for details. return GetLengthPrefixedSlice(key); } // Compare a and b. Return a negative value if a is less than b, 0 if they // are equal, and a positive value if a is greater than b virtual int operator()(const char* prefix_len_key1, const char* prefix_len_key2) const = 0; virtual int operator()(const char* prefix_len_key, const Slice& key) const = 0; virtual ~KeyComparator() { } }; explicit MemTableRep(Allocator* allocator) : allocator_(allocator) {} // Allocate a buf of len size for storing key. The idea is that a // specific memtable representation knows its underlying data structure // better. By allowing it to allocate memory, it can possibly put // correlated stuff in consecutive memory area to make processor // prefetching more efficient. virtual KeyHandle Allocate(const size_t len, char** buf); // Insert key into the collection. (The caller will pack key and value into a // single buffer and pass that in as the parameter to Insert). // REQUIRES: nothing that compares equal to key is currently in the // collection, and no concurrent modifications to the table in progress virtual void Insert(KeyHandle handle) = 0; // Same as ::Insert // Returns false if MemTableRepFactory::CanHandleDuplicatedKey() is true and // the already exists. virtual bool InsertKey(KeyHandle handle) { Insert(handle); return true; } // Same as Insert(), but in additional pass a hint to insert location for // the key. If hint points to nullptr, a new hint will be populated. // otherwise the hint will be updated to reflect the last insert location. // // Currently only skip-list based memtable implement the interface. Other // implementations will fallback to Insert() by default. virtual void InsertWithHint(KeyHandle handle, void** /*hint*/) { // Ignore the hint by default. Insert(handle); } // Same as ::InsertWithHint // Returns false if MemTableRepFactory::CanHandleDuplicatedKey() is true and // the already exists. virtual bool InsertKeyWithHint(KeyHandle handle, void** hint) { InsertWithHint(handle, hint); return true; } // Like Insert(handle), but may be called concurrent with other calls // to InsertConcurrently for other handles. // // Returns false if MemTableRepFactory::CanHandleDuplicatedKey() is true and // the already exists. virtual void InsertConcurrently(KeyHandle handle); // Same as ::InsertConcurrently // Returns false if MemTableRepFactory::CanHandleDuplicatedKey() is true and // the already exists. virtual bool InsertKeyConcurrently(KeyHandle handle) { InsertConcurrently(handle); return true; } // Returns true iff an entry that compares equal to key is in the collection. virtual bool Contains(const char* key) const = 0; // Notify this table rep that it will no longer be added to. By default, // does nothing. After MarkReadOnly() is called, this table rep will // not be written to (ie No more calls to Allocate(), Insert(), // or any writes done directly to entries accessed through the iterator.) virtual void MarkReadOnly() { } // Notify this table rep that it has been flushed to stable storage. // By default, does nothing. // // Invariant: MarkReadOnly() is called, before MarkFlushed(). // Note that this method if overridden, should not run for an extended period // of time. Otherwise, RocksDB may be blocked. virtual void MarkFlushed() { } // Look up key from the mem table, since the first key in the mem table whose // user_key matches the one given k, call the function callback_func(), with // callback_args directly forwarded as the first parameter, and the mem table // key as the second parameter. If the return value is false, then terminates. // Otherwise, go through the next key. // // It's safe for Get() to terminate after having finished all the potential // key for the k.user_key(), or not. // // Default: // Get() function with a default value of dynamically construct an iterator, // seek and call the call back function. virtual void Get(const LookupKey& k, void* callback_args, bool (*callback_func)(void* arg, const char* entry)); virtual uint64_t ApproximateNumEntries(const Slice& /*start_ikey*/, const Slice& /*end_key*/) { return 0; } // Report an approximation of how much memory has been used other than memory // that was allocated through the allocator. Safe to call from any thread. virtual size_t ApproximateMemoryUsage() = 0; virtual ~MemTableRep() { } // Iteration over the contents of a skip collection class Iterator { public: // Initialize an iterator over the specified collection. // The returned iterator is not valid. // explicit Iterator(const MemTableRep* collection); virtual ~Iterator() {} // Returns true iff the iterator is positioned at a valid node. virtual bool Valid() const = 0; // Returns the key at the current position. // REQUIRES: Valid() virtual const char* key() const = 0; // Advances to the next position. // REQUIRES: Valid() virtual void Next() = 0; // Advances to the previous position. // REQUIRES: Valid() virtual void Prev() = 0; // Advance to the first entry with a key >= target virtual void Seek(const Slice& internal_key, const char* memtable_key) = 0; // retreat to the first entry with a key <= target virtual void SeekForPrev(const Slice& internal_key, const char* memtable_key) = 0; // Position at the first entry in collection. // Final state of iterator is Valid() iff collection is not empty. virtual void SeekToFirst() = 0; // Position at the last entry in collection. // Final state of iterator is Valid() iff collection is not empty. virtual void SeekToLast() = 0; }; // Return an iterator over the keys in this representation. // arena: If not null, the arena needs to be used to allocate the Iterator. // When destroying the iterator, the caller will not call "delete" // but Iterator::~Iterator() directly. The destructor needs to destroy // all the states but those allocated in arena. virtual Iterator* GetIterator(Arena* arena = nullptr) = 0; // Return an iterator that has a special Seek semantics. The result of // a Seek might only include keys with the same prefix as the target key. // arena: If not null, the arena is used to allocate the Iterator. // When destroying the iterator, the caller will not call "delete" // but Iterator::~Iterator() directly. The destructor needs to destroy // all the states but those allocated in arena. virtual Iterator* GetDynamicPrefixIterator(Arena* arena = nullptr) { return GetIterator(arena); } // Return true if the current MemTableRep supports merge operator. // Default: true virtual bool IsMergeOperatorSupported() const { return true; } // Return true if the current MemTableRep supports snapshot // Default: true virtual bool IsSnapshotSupported() const { return true; } protected: // When *key is an internal key concatenated with the value, returns the // user key. virtual Slice UserKey(const char* key) const; Allocator* allocator_; }; // This is the base class for all factories that are used by RocksDB to create // new MemTableRep objects class MemTableRepFactory { public: virtual ~MemTableRepFactory() {} virtual MemTableRep* CreateMemTableRep(const MemTableRep::KeyComparator&, Allocator*, const SliceTransform*, Logger* logger) = 0; virtual MemTableRep* CreateMemTableRep( const MemTableRep::KeyComparator& key_cmp, Allocator* allocator, const SliceTransform* slice_transform, Logger* logger, uint32_t /* column_family_id */) { return CreateMemTableRep(key_cmp, allocator, slice_transform, logger); } virtual const char* Name() const = 0; // Return true if the current MemTableRep supports concurrent inserts // Default: false virtual bool IsInsertConcurrentlySupported() const { return false; } // Return true if the current MemTableRep supports detecting duplicate // at insertion time. If true, then MemTableRep::Insert* returns // false when if the already exists. // Default: false virtual bool CanHandleDuplicatedKey() const { return false; } }; // This uses a skip list to store keys. It is the default. // // Parameters: // lookahead: If non-zero, each iterator's seek operation will start the // search from the previously visited record (doing at most 'lookahead' // steps). This is an optimization for the access pattern including many // seeks with consecutive keys. class SkipListFactory : public MemTableRepFactory { public: explicit SkipListFactory(size_t lookahead = 0) : lookahead_(lookahead) {} using MemTableRepFactory::CreateMemTableRep; virtual MemTableRep* CreateMemTableRep(const MemTableRep::KeyComparator&, Allocator*, const SliceTransform*, Logger* logger) override; virtual const char* Name() const override { return "SkipListFactory"; } bool IsInsertConcurrentlySupported() const override { return true; } bool CanHandleDuplicatedKey() const override { return true; } private: const size_t lookahead_; }; #ifndef ROCKSDB_LITE // This creates MemTableReps that are backed by an std::vector. On iteration, // the vector is sorted. This is useful for workloads where iteration is very // rare and writes are generally not issued after reads begin. // // Parameters: // count: Passed to the constructor of the underlying std::vector of each // VectorRep. On initialization, the underlying array will be at least count // bytes reserved for usage. class VectorRepFactory : public MemTableRepFactory { const size_t count_; public: explicit VectorRepFactory(size_t count = 0) : count_(count) { } using MemTableRepFactory::CreateMemTableRep; virtual MemTableRep* CreateMemTableRep(const MemTableRep::KeyComparator&, Allocator*, const SliceTransform*, Logger* logger) override; virtual const char* Name() const override { return "VectorRepFactory"; } }; // This class contains a fixed array of buckets, each // pointing to a skiplist (null if the bucket is empty). // bucket_count: number of fixed array buckets // skiplist_height: the max height of the skiplist // skiplist_branching_factor: probabilistic size ratio between adjacent // link lists in the skiplist extern MemTableRepFactory* NewHashSkipListRepFactory( size_t bucket_count = 1000000, int32_t skiplist_height = 4, int32_t skiplist_branching_factor = 4 ); // The factory is to create memtables based on a hash table: // it contains a fixed array of buckets, each pointing to either a linked list // or a skip list if number of entries inside the bucket exceeds // threshold_use_skiplist. // @bucket_count: number of fixed array buckets // @huge_page_tlb_size: if <=0, allocate the hash table bytes from malloc. // Otherwise from huge page TLB. The user needs to reserve // huge pages for it to be allocated, like: // sysctl -w vm.nr_hugepages=20 // See linux doc Documentation/vm/hugetlbpage.txt // @bucket_entries_logging_threshold: if number of entries in one bucket // exceeds this number, log about it. // @if_log_bucket_dist_when_flash: if true, log distribution of number of // entries when flushing. // @threshold_use_skiplist: a bucket switches to skip list if number of // entries exceed this parameter. extern MemTableRepFactory* NewHashLinkListRepFactory( size_t bucket_count = 50000, size_t huge_page_tlb_size = 0, int bucket_entries_logging_threshold = 4096, bool if_log_bucket_dist_when_flash = true, uint32_t threshold_use_skiplist = 256); // This factory creates a cuckoo-hashing based mem-table representation. // Cuckoo-hash is a closed-hash strategy, in which all key/value pairs // are stored in the bucket array itself instead of in some data structures // external to the bucket array. In addition, each key in cuckoo hash // has a constant number of possible buckets in the bucket array. These // two properties together makes cuckoo hash more memory efficient and // a constant worst-case read time. Cuckoo hash is best suitable for // point-lookup workload. // // When inserting a key / value, it first checks whether one of its possible // buckets is empty. If so, the key / value will be inserted to that vacant // bucket. Otherwise, one of the keys originally stored in one of these // possible buckets will be "kicked out" and move to one of its possible // buckets (and possibly kicks out another victim.) In the current // implementation, such "kick-out" path is bounded. If it cannot find a // "kick-out" path for a specific key, this key will be stored in a backup // structure, and the current memtable to be forced to immutable. // // Note that currently this mem-table representation does not support // snapshot (i.e., it only queries latest state) and iterators. In addition, // MultiGet operation might also lose its atomicity due to the lack of // snapshot support. // // Parameters: // write_buffer_size: the write buffer size in bytes. // average_data_size: the average size of key + value in bytes. This value // together with write_buffer_size will be used to compute the number // of buckets. // hash_function_count: the number of hash functions that will be used by // the cuckoo-hash. The number also equals to the number of possible // buckets each key will have. extern MemTableRepFactory* NewHashCuckooRepFactory( size_t write_buffer_size, size_t average_data_size = 64, unsigned int hash_function_count = 4); #endif // ROCKSDB_LITE } // namespace rocksdb rocksdb-5.17.2/include/rocksdb/merge_operator.h000066400000000000000000000255621337235545400215170ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #include #include #include #include #include "rocksdb/slice.h" namespace rocksdb { class Slice; class Logger; // The Merge Operator // // Essentially, a MergeOperator specifies the SEMANTICS of a merge, which only // client knows. It could be numeric addition, list append, string // concatenation, edit data structure, ... , anything. // The library, on the other hand, is concerned with the exercise of this // interface, at the right time (during get, iteration, compaction...) // // To use merge, the client needs to provide an object implementing one of // the following interfaces: // a) AssociativeMergeOperator - for most simple semantics (always take // two values, and merge them into one value, which is then put back // into rocksdb); numeric addition and string concatenation are examples; // // b) MergeOperator - the generic class for all the more abstract / complex // operations; one method (FullMergeV2) to merge a Put/Delete value with a // merge operand; and another method (PartialMerge) that merges multiple // operands together. this is especially useful if your key values have // complex structures but you would still like to support client-specific // incremental updates. // // AssociativeMergeOperator is simpler to implement. MergeOperator is simply // more powerful. // // Refer to rocksdb-merge wiki for more details and example implementations. // class MergeOperator { public: virtual ~MergeOperator() {} // Gives the client a way to express the read -> modify -> write semantics // key: (IN) The key that's associated with this merge operation. // Client could multiplex the merge operator based on it // if the key space is partitioned and different subspaces // refer to different types of data which have different // merge operation semantics // existing: (IN) null indicates that the key does not exist before this op // operand_list:(IN) the sequence of merge operations to apply, front() first. // new_value:(OUT) Client is responsible for filling the merge result here. // The string that new_value is pointing to will be empty. // logger: (IN) Client could use this to log errors during merge. // // Return true on success. // All values passed in will be client-specific values. So if this method // returns false, it is because client specified bad data or there was // internal corruption. This will be treated as an error by the library. // // Also make use of the *logger for error messages. virtual bool FullMerge(const Slice& /*key*/, const Slice* /*existing_value*/, const std::deque& /*operand_list*/, std::string* /*new_value*/, Logger* /*logger*/) const { // deprecated, please use FullMergeV2() assert(false); return false; } struct MergeOperationInput { explicit MergeOperationInput(const Slice& _key, const Slice* _existing_value, const std::vector& _operand_list, Logger* _logger) : key(_key), existing_value(_existing_value), operand_list(_operand_list), logger(_logger) {} // The key associated with the merge operation. const Slice& key; // The existing value of the current key, nullptr means that the // value doesn't exist. const Slice* existing_value; // A list of operands to apply. const std::vector& operand_list; // Logger could be used by client to log any errors that happen during // the merge operation. Logger* logger; }; struct MergeOperationOutput { explicit MergeOperationOutput(std::string& _new_value, Slice& _existing_operand) : new_value(_new_value), existing_operand(_existing_operand) {} // Client is responsible for filling the merge result here. std::string& new_value; // If the merge result is one of the existing operands (or existing_value), // client can set this field to the operand (or existing_value) instead of // using new_value. Slice& existing_operand; }; virtual bool FullMergeV2(const MergeOperationInput& merge_in, MergeOperationOutput* merge_out) const; // This function performs merge(left_op, right_op) // when both the operands are themselves merge operation types // that you would have passed to a DB::Merge() call in the same order // (i.e.: DB::Merge(key,left_op), followed by DB::Merge(key,right_op)). // // PartialMerge should combine them into a single merge operation that is // saved into *new_value, and then it should return true. // *new_value should be constructed such that a call to // DB::Merge(key, *new_value) would yield the same result as a call // to DB::Merge(key, left_op) followed by DB::Merge(key, right_op). // // The string that new_value is pointing to will be empty. // // The default implementation of PartialMergeMulti will use this function // as a helper, for backward compatibility. Any successor class of // MergeOperator should either implement PartialMerge or PartialMergeMulti, // although implementing PartialMergeMulti is suggested as it is in general // more effective to merge multiple operands at a time instead of two // operands at a time. // // If it is impossible or infeasible to combine the two operations, // leave new_value unchanged and return false. The library will // internally keep track of the operations, and apply them in the // correct order once a base-value (a Put/Delete/End-of-Database) is seen. // // TODO: Presently there is no way to differentiate between error/corruption // and simply "return false". For now, the client should simply return // false in any case it cannot perform partial-merge, regardless of reason. // If there is corruption in the data, handle it in the FullMergeV2() function // and return false there. The default implementation of PartialMerge will // always return false. virtual bool PartialMerge(const Slice& /*key*/, const Slice& /*left_operand*/, const Slice& /*right_operand*/, std::string* /*new_value*/, Logger* /*logger*/) const { return false; } // This function performs merge when all the operands are themselves merge // operation types that you would have passed to a DB::Merge() call in the // same order (front() first) // (i.e. DB::Merge(key, operand_list[0]), followed by // DB::Merge(key, operand_list[1]), ...) // // PartialMergeMulti should combine them into a single merge operation that is // saved into *new_value, and then it should return true. *new_value should // be constructed such that a call to DB::Merge(key, *new_value) would yield // the same result as subquential individual calls to DB::Merge(key, operand) // for each operand in operand_list from front() to back(). // // The string that new_value is pointing to will be empty. // // The PartialMergeMulti function will be called when there are at least two // operands. // // In the default implementation, PartialMergeMulti will invoke PartialMerge // multiple times, where each time it only merges two operands. Developers // should either implement PartialMergeMulti, or implement PartialMerge which // is served as the helper function of the default PartialMergeMulti. virtual bool PartialMergeMulti(const Slice& key, const std::deque& operand_list, std::string* new_value, Logger* logger) const; // The name of the MergeOperator. Used to check for MergeOperator // mismatches (i.e., a DB created with one MergeOperator is // accessed using a different MergeOperator) // TODO: the name is currently not stored persistently and thus // no checking is enforced. Client is responsible for providing // consistent MergeOperator between DB opens. virtual const char* Name() const = 0; // Determines whether the MergeOperator can be called with just a single // merge operand. // Override and return true for allowing a single operand. Both FullMergeV2 // and PartialMerge/PartialMergeMulti should be overridden and implemented // correctly to handle a single operand. virtual bool AllowSingleOperand() const { return false; } // Allows to control when to invoke a full merge during Get. // This could be used to limit the number of merge operands that are looked at // during a point lookup, thereby helping in limiting the number of levels to // read from. // Doesn't help with iterators. // // Note: the merge operands are passed to this function in the reversed order // relative to how they were merged (passed to FullMerge or FullMergeV2) // for performance reasons, see also: // https://github.com/facebook/rocksdb/issues/3865 virtual bool ShouldMerge(const std::vector& /*operands*/) const { return false; } }; // The simpler, associative merge operator. class AssociativeMergeOperator : public MergeOperator { public: ~AssociativeMergeOperator() override {} // Gives the client a way to express the read -> modify -> write semantics // key: (IN) The key that's associated with this merge operation. // existing_value:(IN) null indicates the key does not exist before this op // value: (IN) the value to update/merge the existing_value with // new_value: (OUT) Client is responsible for filling the merge result // here. The string that new_value is pointing to will be empty. // logger: (IN) Client could use this to log errors during merge. // // Return true on success. // All values passed in will be client-specific values. So if this method // returns false, it is because client specified bad data or there was // internal corruption. The client should assume that this will be treated // as an error by the library. virtual bool Merge(const Slice& key, const Slice* existing_value, const Slice& value, std::string* new_value, Logger* logger) const = 0; private: // Default implementations of the MergeOperator functions bool FullMergeV2(const MergeOperationInput& merge_in, MergeOperationOutput* merge_out) const override; bool PartialMerge(const Slice& key, const Slice& left_operand, const Slice& right_operand, std::string* new_value, Logger* logger) const override; }; } // namespace rocksdb rocksdb-5.17.2/include/rocksdb/metadata.h000066400000000000000000000066461337235545400202670ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #include #include #include #include #include "rocksdb/types.h" namespace rocksdb { struct ColumnFamilyMetaData; struct LevelMetaData; struct SstFileMetaData; // The metadata that describes a column family. struct ColumnFamilyMetaData { ColumnFamilyMetaData() : size(0), file_count(0), name("") {} ColumnFamilyMetaData(const std::string& _name, uint64_t _size, const std::vector&& _levels) : size(_size), name(_name), levels(_levels) {} // The size of this column family in bytes, which is equal to the sum of // the file size of its "levels". uint64_t size; // The number of files in this column family. size_t file_count; // The name of the column family. std::string name; // The metadata of all levels in this column family. std::vector levels; }; // The metadata that describes a level. struct LevelMetaData { LevelMetaData(int _level, uint64_t _size, const std::vector&& _files) : level(_level), size(_size), files(_files) {} // The level which this meta data describes. const int level; // The size of this level in bytes, which is equal to the sum of // the file size of its "files". const uint64_t size; // The metadata of all sst files in this level. const std::vector files; }; // The metadata that describes a SST file. struct SstFileMetaData { SstFileMetaData() : size(0), name(""), db_path(""), smallest_seqno(0), largest_seqno(0), smallestkey(""), largestkey(""), num_reads_sampled(0), being_compacted(false) {} SstFileMetaData(const std::string& _file_name, const std::string& _path, size_t _size, SequenceNumber _smallest_seqno, SequenceNumber _largest_seqno, const std::string& _smallestkey, const std::string& _largestkey, uint64_t _num_reads_sampled, bool _being_compacted) : size(_size), name(_file_name), db_path(_path), smallest_seqno(_smallest_seqno), largest_seqno(_largest_seqno), smallestkey(_smallestkey), largestkey(_largestkey), num_reads_sampled(_num_reads_sampled), being_compacted(_being_compacted) {} // File size in bytes. size_t size; // The name of the file. std::string name; // The full path where the file locates. std::string db_path; SequenceNumber smallest_seqno; // Smallest sequence number in file. SequenceNumber largest_seqno; // Largest sequence number in file. std::string smallestkey; // Smallest user defined key in the file. std::string largestkey; // Largest user defined key in the file. uint64_t num_reads_sampled; // How many times the file is read. bool being_compacted; // true if the file is currently being compacted. }; // The full set of metadata associated with each SST file. struct LiveFileMetaData : SstFileMetaData { std::string column_family_name; // Name of the column family int level; // Level at which this file resides. }; } // namespace rocksdb rocksdb-5.17.2/include/rocksdb/options.h000066400000000000000000001533601337235545400201760ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #include #include #include #include #include #include #include #include "rocksdb/advanced_options.h" #include "rocksdb/comparator.h" #include "rocksdb/env.h" #include "rocksdb/listener.h" #include "rocksdb/universal_compaction.h" #include "rocksdb/version.h" #include "rocksdb/write_buffer_manager.h" #ifdef max #undef max #endif namespace rocksdb { class Cache; class CompactionFilter; class CompactionFilterFactory; class Comparator; class Env; enum InfoLogLevel : unsigned char; class SstFileManager; class FilterPolicy; class Logger; class MergeOperator; class Snapshot; class MemTableRepFactory; class RateLimiter; class Slice; class Statistics; class InternalKeyComparator; class WalFilter; // DB contents are stored in a set of blocks, each of which holds a // sequence of key,value pairs. Each block may be compressed before // being stored in a file. The following enum describes which // compression method (if any) is used to compress a block. enum CompressionType : unsigned char { // NOTE: do not change the values of existing entries, as these are // part of the persistent format on disk. kNoCompression = 0x0, kSnappyCompression = 0x1, kZlibCompression = 0x2, kBZip2Compression = 0x3, kLZ4Compression = 0x4, kLZ4HCCompression = 0x5, kXpressCompression = 0x6, kZSTD = 0x7, // Only use kZSTDNotFinalCompression if you have to use ZSTD lib older than // 0.8.0 or consider a possibility of downgrading the service or copying // the database files to another service running with an older version of // RocksDB that doesn't have kZSTD. Otherwise, you should use kZSTD. We will // eventually remove the option from the public API. kZSTDNotFinalCompression = 0x40, // kDisableCompressionOption is used to disable some compression options. kDisableCompressionOption = 0xff, }; struct Options; struct DbPath; struct ColumnFamilyOptions : public AdvancedColumnFamilyOptions { // The function recovers options to a previous version. Only 4.6 or later // versions are supported. ColumnFamilyOptions* OldDefaults(int rocksdb_major_version = 4, int rocksdb_minor_version = 6); // Some functions that make it easier to optimize RocksDB // Use this if your DB is very small (like under 1GB) and you don't want to // spend lots of memory for memtables. ColumnFamilyOptions* OptimizeForSmallDb(); // Use this if you don't need to keep the data sorted, i.e. you'll never use // an iterator, only Put() and Get() API calls // // Not supported in ROCKSDB_LITE ColumnFamilyOptions* OptimizeForPointLookup( uint64_t block_cache_size_mb); // Default values for some parameters in ColumnFamilyOptions are not // optimized for heavy workloads and big datasets, which means you might // observe write stalls under some conditions. As a starting point for tuning // RocksDB options, use the following two functions: // * OptimizeLevelStyleCompaction -- optimizes level style compaction // * OptimizeUniversalStyleCompaction -- optimizes universal style compaction // Universal style compaction is focused on reducing Write Amplification // Factor for big data sets, but increases Space Amplification. You can learn // more about the different styles here: // https://github.com/facebook/rocksdb/wiki/Rocksdb-Architecture-Guide // Make sure to also call IncreaseParallelism(), which will provide the // biggest performance gains. // Note: we might use more memory than memtable_memory_budget during high // write rate period // // OptimizeUniversalStyleCompaction is not supported in ROCKSDB_LITE ColumnFamilyOptions* OptimizeLevelStyleCompaction( uint64_t memtable_memory_budget = 512 * 1024 * 1024); ColumnFamilyOptions* OptimizeUniversalStyleCompaction( uint64_t memtable_memory_budget = 512 * 1024 * 1024); // ------------------- // Parameters that affect behavior // Comparator used to define the order of keys in the table. // Default: a comparator that uses lexicographic byte-wise ordering // // REQUIRES: The client must ensure that the comparator supplied // here has the same name and orders keys *exactly* the same as the // comparator provided to previous open calls on the same DB. const Comparator* comparator = BytewiseComparator(); // REQUIRES: The client must provide a merge operator if Merge operation // needs to be accessed. Calling Merge on a DB without a merge operator // would result in Status::NotSupported. The client must ensure that the // merge operator supplied here has the same name and *exactly* the same // semantics as the merge operator provided to previous open calls on // the same DB. The only exception is reserved for upgrade, where a DB // previously without a merge operator is introduced to Merge operation // for the first time. It's necessary to specify a merge operator when // opening the DB in this case. // Default: nullptr std::shared_ptr merge_operator = nullptr; // A single CompactionFilter instance to call into during compaction. // Allows an application to modify/delete a key-value during background // compaction. // // If the client requires a new compaction filter to be used for different // compaction runs, it can specify compaction_filter_factory instead of this // option. The client should specify only one of the two. // compaction_filter takes precedence over compaction_filter_factory if // client specifies both. // // If multithreaded compaction is being used, the supplied CompactionFilter // instance may be used from different threads concurrently and so should be // thread-safe. // // Default: nullptr const CompactionFilter* compaction_filter = nullptr; // This is a factory that provides compaction filter objects which allow // an application to modify/delete a key-value during background compaction. // // A new filter will be created on each compaction run. If multithreaded // compaction is being used, each created CompactionFilter will only be used // from a single thread and so does not need to be thread-safe. // // Default: nullptr std::shared_ptr compaction_filter_factory = nullptr; // ------------------- // Parameters that affect performance // Amount of data to build up in memory (backed by an unsorted log // on disk) before converting to a sorted on-disk file. // // Larger values increase performance, especially during bulk loads. // Up to max_write_buffer_number write buffers may be held in memory // at the same time, // so you may wish to adjust this parameter to control memory usage. // Also, a larger write buffer will result in a longer recovery time // the next time the database is opened. // // Note that write_buffer_size is enforced per column family. // See db_write_buffer_size for sharing memory across column families. // // Default: 64MB // // Dynamically changeable through SetOptions() API size_t write_buffer_size = 64 << 20; // Compress blocks using the specified compression algorithm. This // parameter can be changed dynamically. // // Default: kSnappyCompression, if it's supported. If snappy is not linked // with the library, the default is kNoCompression. // // Typical speeds of kSnappyCompression on an Intel(R) Core(TM)2 2.4GHz: // ~200-500MB/s compression // ~400-800MB/s decompression // // Note that these speeds are significantly faster than most // persistent storage speeds, and therefore it is typically never // worth switching to kNoCompression. Even if the input data is // incompressible, the kSnappyCompression implementation will // efficiently detect that and will switch to uncompressed mode. // // If you do not set `compression_opts.level`, or set it to // `CompressionOptions::kDefaultCompressionLevel`, we will attempt to pick the // default corresponding to `compression` as follows: // // - kZSTD: 3 // - kZlibCompression: Z_DEFAULT_COMPRESSION (currently -1) // - kLZ4HCCompression: 0 // - For all others, we do not specify a compression level CompressionType compression; // Compression algorithm that will be used for the bottommost level that // contain files. // // Default: kDisableCompressionOption (Disabled) CompressionType bottommost_compression = kDisableCompressionOption; // different options for compression algorithms used by bottommost_compression // if it is enabled. To enable it, please see the definition of // CompressionOptions. CompressionOptions bottommost_compression_opts; // different options for compression algorithms CompressionOptions compression_opts; // Number of files to trigger level-0 compaction. A value <0 means that // level-0 compaction will not be triggered by number of files at all. // // Default: 4 // // Dynamically changeable through SetOptions() API int level0_file_num_compaction_trigger = 4; // If non-nullptr, use the specified function to determine the // prefixes for keys. These prefixes will be placed in the filter. // Depending on the workload, this can reduce the number of read-IOP // cost for scans when a prefix is passed via ReadOptions to // db.NewIterator(). For prefix filtering to work properly, // "prefix_extractor" and "comparator" must be such that the following // properties hold: // // 1) key.starts_with(prefix(key)) // 2) Compare(prefix(key), key) <= 0. // 3) If Compare(k1, k2) <= 0, then Compare(prefix(k1), prefix(k2)) <= 0 // 4) prefix(prefix(key)) == prefix(key) // // Default: nullptr std::shared_ptr prefix_extractor = nullptr; // Control maximum total data size for a level. // max_bytes_for_level_base is the max total for level-1. // Maximum number of bytes for level L can be calculated as // (max_bytes_for_level_base) * (max_bytes_for_level_multiplier ^ (L-1)) // For example, if max_bytes_for_level_base is 200MB, and if // max_bytes_for_level_multiplier is 10, total data size for level-1 // will be 200MB, total file size for level-2 will be 2GB, // and total file size for level-3 will be 20GB. // // Default: 256MB. // // Dynamically changeable through SetOptions() API uint64_t max_bytes_for_level_base = 256 * 1048576; // Disable automatic compactions. Manual compactions can still // be issued on this column family // // Dynamically changeable through SetOptions() API bool disable_auto_compactions = false; // This is a factory that provides TableFactory objects. // Default: a block-based table factory that provides a default // implementation of TableBuilder and TableReader with default // BlockBasedTableOptions. std::shared_ptr table_factory; // A list of paths where SST files for this column family // can be put into, with its target size. Similar to db_paths, // newer data is placed into paths specified earlier in the // vector while older data gradually moves to paths specified // later in the vector. // Note that, if a path is supplied to multiple column // families, it would have files and total size from all // the column families combined. User should provision for the // total size(from all the column families) in such cases. // // If left empty, db_paths will be used. // Default: empty std::vector cf_paths; // Create ColumnFamilyOptions with default values for all fields ColumnFamilyOptions(); // Create ColumnFamilyOptions from Options explicit ColumnFamilyOptions(const Options& options); void Dump(Logger* log) const; }; enum class WALRecoveryMode : char { // Original levelDB recovery // We tolerate incomplete record in trailing data on all logs // Use case : This is legacy behavior kTolerateCorruptedTailRecords = 0x00, // Recover from clean shutdown // We don't expect to find any corruption in the WAL // Use case : This is ideal for unit tests and rare applications that // can require high consistency guarantee kAbsoluteConsistency = 0x01, // Recover to point-in-time consistency (default) // We stop the WAL playback on discovering WAL inconsistency // Use case : Ideal for systems that have disk controller cache like // hard disk, SSD without super capacitor that store related data kPointInTimeRecovery = 0x02, // Recovery after a disaster // We ignore any corruption in the WAL and try to salvage as much data as // possible // Use case : Ideal for last ditch effort to recover data or systems that // operate with low grade unrelated data kSkipAnyCorruptedRecords = 0x03, }; struct DbPath { std::string path; uint64_t target_size; // Target size of total files under the path, in byte. DbPath() : target_size(0) {} DbPath(const std::string& p, uint64_t t) : path(p), target_size(t) {} }; struct DBOptions { // The function recovers options to the option as in version 4.6. DBOptions* OldDefaults(int rocksdb_major_version = 4, int rocksdb_minor_version = 6); // Some functions that make it easier to optimize RocksDB // Use this if your DB is very small (like under 1GB) and you don't want to // spend lots of memory for memtables. DBOptions* OptimizeForSmallDb(); #ifndef ROCKSDB_LITE // By default, RocksDB uses only one background thread for flush and // compaction. Calling this function will set it up such that total of // `total_threads` is used. Good value for `total_threads` is the number of // cores. You almost definitely want to call this function if your system is // bottlenecked by RocksDB. DBOptions* IncreaseParallelism(int total_threads = 16); #endif // ROCKSDB_LITE // If true, the database will be created if it is missing. // Default: false bool create_if_missing = false; // If true, missing column families will be automatically created. // Default: false bool create_missing_column_families = false; // If true, an error is raised if the database already exists. // Default: false bool error_if_exists = false; // If true, RocksDB will aggressively check consistency of the data. // Also, if any of the writes to the database fails (Put, Delete, Merge, // Write), the database will switch to read-only mode and fail all other // Write operations. // In most cases you want this to be set to true. // Default: true bool paranoid_checks = true; // Use the specified object to interact with the environment, // e.g. to read/write files, schedule background work, etc. // Default: Env::Default() Env* env = Env::Default(); // Use to control write rate of flush and compaction. Flush has higher // priority than compaction. Rate limiting is disabled if nullptr. // If rate limiter is enabled, bytes_per_sync is set to 1MB by default. // Default: nullptr std::shared_ptr rate_limiter = nullptr; // Use to track SST files and control their file deletion rate. // // Features: // - Throttle the deletion rate of the SST files. // - Keep track the total size of all SST files. // - Set a maximum allowed space limit for SST files that when reached // the DB wont do any further flushes or compactions and will set the // background error. // - Can be shared between multiple dbs. // Limitations: // - Only track and throttle deletes of SST files in // first db_path (db_name if db_paths is empty). // // Default: nullptr std::shared_ptr sst_file_manager = nullptr; // Any internal progress/error information generated by the db will // be written to info_log if it is non-nullptr, or to a file stored // in the same directory as the DB contents if info_log is nullptr. // Default: nullptr std::shared_ptr info_log = nullptr; #ifdef NDEBUG InfoLogLevel info_log_level = INFO_LEVEL; #else InfoLogLevel info_log_level = DEBUG_LEVEL; #endif // NDEBUG // Number of open files that can be used by the DB. You may need to // increase this if your database has a large working set. Value -1 means // files opened are always kept open. You can estimate number of files based // on target_file_size_base and target_file_size_multiplier for level-based // compaction. For universal-style compaction, you can usually set it to -1. // Default: -1 int max_open_files = -1; // If max_open_files is -1, DB will open all files on DB::Open(). You can // use this option to increase the number of threads used to open the files. // Default: 16 int max_file_opening_threads = 16; // Once write-ahead logs exceed this size, we will start forcing the flush of // column families whose memtables are backed by the oldest live WAL file // (i.e. the ones that are causing all the space amplification). If set to 0 // (default), we will dynamically choose the WAL size limit to be // [sum of all write_buffer_size * max_write_buffer_number] * 4 // This option takes effect only when there are more than one column family as // otherwise the wal size is dictated by the write_buffer_size. // Default: 0 uint64_t max_total_wal_size = 0; // If non-null, then we should collect metrics about database operations std::shared_ptr statistics = nullptr; // By default, writes to stable storage use fdatasync (on platforms // where this function is available). If this option is true, // fsync is used instead. // // fsync and fdatasync are equally safe for our purposes and fdatasync is // faster, so it is rarely necessary to set this option. It is provided // as a workaround for kernel/filesystem bugs, such as one that affected // fdatasync with ext4 in kernel versions prior to 3.7. bool use_fsync = false; // A list of paths where SST files can be put into, with its target size. // Newer data is placed into paths specified earlier in the vector while // older data gradually moves to paths specified later in the vector. // // For example, you have a flash device with 10GB allocated for the DB, // as well as a hard drive of 2TB, you should config it to be: // [{"/flash_path", 10GB}, {"/hard_drive", 2TB}] // // The system will try to guarantee data under each path is close to but // not larger than the target size. But current and future file sizes used // by determining where to place a file are based on best-effort estimation, // which means there is a chance that the actual size under the directory // is slightly more than target size under some workloads. User should give // some buffer room for those cases. // // If none of the paths has sufficient room to place a file, the file will // be placed to the last path anyway, despite to the target size. // // Placing newer data to earlier paths is also best-efforts. User should // expect user files to be placed in higher levels in some extreme cases. // // If left empty, only one path will be used, which is db_name passed when // opening the DB. // Default: empty std::vector db_paths; // This specifies the info LOG dir. // If it is empty, the log files will be in the same dir as data. // If it is non empty, the log files will be in the specified dir, // and the db data dir's absolute path will be used as the log file // name's prefix. std::string db_log_dir = ""; // This specifies the absolute dir path for write-ahead logs (WAL). // If it is empty, the log files will be in the same dir as data, // dbname is used as the data dir by default // If it is non empty, the log files will be in kept the specified dir. // When destroying the db, // all log files in wal_dir and the dir itself is deleted std::string wal_dir = ""; // The periodicity when obsolete files get deleted. The default // value is 6 hours. The files that get out of scope by compaction // process will still get automatically delete on every compaction, // regardless of this setting uint64_t delete_obsolete_files_period_micros = 6ULL * 60 * 60 * 1000000; // Maximum number of concurrent background jobs (compactions and flushes). int max_background_jobs = 2; // NOT SUPPORTED ANYMORE: RocksDB automatically decides this based on the // value of max_background_jobs. This option is ignored. int base_background_compactions = -1; // NOT SUPPORTED ANYMORE: RocksDB automatically decides this based on the // value of max_background_jobs. For backwards compatibility we will set // `max_background_jobs = max_background_compactions + max_background_flushes` // in the case where user sets at least one of `max_background_compactions` or // `max_background_flushes` (we replace -1 by 1 in case one option is unset). // // Maximum number of concurrent background compaction jobs, submitted to // the default LOW priority thread pool. // // If you're increasing this, also consider increasing number of threads in // LOW priority thread pool. For more information, see // Env::SetBackgroundThreads // Default: -1 int max_background_compactions = -1; // This value represents the maximum number of threads that will // concurrently perform a compaction job by breaking it into multiple, // smaller ones that are run simultaneously. // Default: 1 (i.e. no subcompactions) uint32_t max_subcompactions = 1; // NOT SUPPORTED ANYMORE: RocksDB automatically decides this based on the // value of max_background_jobs. For backwards compatibility we will set // `max_background_jobs = max_background_compactions + max_background_flushes` // in the case where user sets at least one of `max_background_compactions` or // `max_background_flushes`. // // Maximum number of concurrent background memtable flush jobs, submitted by // default to the HIGH priority thread pool. If the HIGH priority thread pool // is configured to have zero threads, flush jobs will share the LOW priority // thread pool with compaction jobs. // // It is important to use both thread pools when the same Env is shared by // multiple db instances. Without a separate pool, long running compaction // jobs could potentially block memtable flush jobs of other db instances, // leading to unnecessary Put stalls. // // If you're increasing this, also consider increasing number of threads in // HIGH priority thread pool. For more information, see // Env::SetBackgroundThreads // Default: -1 int max_background_flushes = -1; // Specify the maximal size of the info log file. If the log file // is larger than `max_log_file_size`, a new info log file will // be created. // If max_log_file_size == 0, all logs will be written to one // log file. size_t max_log_file_size = 0; // Time for the info log file to roll (in seconds). // If specified with non-zero value, log file will be rolled // if it has been active longer than `log_file_time_to_roll`. // Default: 0 (disabled) // Not supported in ROCKSDB_LITE mode! size_t log_file_time_to_roll = 0; // Maximal info log files to be kept. // Default: 1000 size_t keep_log_file_num = 1000; // Recycle log files. // If non-zero, we will reuse previously written log files for new // logs, overwriting the old data. The value indicates how many // such files we will keep around at any point in time for later // use. This is more efficient because the blocks are already // allocated and fdatasync does not need to update the inode after // each write. // Default: 0 size_t recycle_log_file_num = 0; // manifest file is rolled over on reaching this limit. // The older manifest file be deleted. // The default value is 1GB so that the manifest file can grow, but not // reach the limit of storage capacity. uint64_t max_manifest_file_size = 1024 * 1024 * 1024; // Number of shards used for table cache. int table_cache_numshardbits = 6; // NOT SUPPORTED ANYMORE // int table_cache_remove_scan_count_limit; // The following two fields affect how archived logs will be deleted. // 1. If both set to 0, logs will be deleted asap and will not get into // the archive. // 2. If WAL_ttl_seconds is 0 and WAL_size_limit_MB is not 0, // WAL files will be checked every 10 min and if total size is greater // then WAL_size_limit_MB, they will be deleted starting with the // earliest until size_limit is met. All empty files will be deleted. // 3. If WAL_ttl_seconds is not 0 and WAL_size_limit_MB is 0, then // WAL files will be checked every WAL_ttl_seconds / 2 and those that // are older than WAL_ttl_seconds will be deleted. // 4. If both are not 0, WAL files will be checked every 10 min and both // checks will be performed with ttl being first. uint64_t WAL_ttl_seconds = 0; uint64_t WAL_size_limit_MB = 0; // Number of bytes to preallocate (via fallocate) the manifest // files. Default is 4mb, which is reasonable to reduce random IO // as well as prevent overallocation for mounts that preallocate // large amounts of data (such as xfs's allocsize option). size_t manifest_preallocation_size = 4 * 1024 * 1024; // Allow the OS to mmap file for reading sst tables. Default: false bool allow_mmap_reads = false; // Allow the OS to mmap file for writing. // DB::SyncWAL() only works if this is set to false. // Default: false bool allow_mmap_writes = false; // Enable direct I/O mode for read/write // they may or may not improve performance depending on the use case // // Files will be opened in "direct I/O" mode // which means that data r/w from the disk will not be cached or // buffered. The hardware buffer of the devices may however still // be used. Memory mapped files are not impacted by these parameters. // Use O_DIRECT for user and compaction reads. // When true, we also force new_table_reader_for_compaction_inputs to true. // Default: false // Not supported in ROCKSDB_LITE mode! bool use_direct_reads = false; // Use O_DIRECT for writes in background flush and compactions. // Default: false // Not supported in ROCKSDB_LITE mode! bool use_direct_io_for_flush_and_compaction = false; // If false, fallocate() calls are bypassed bool allow_fallocate = true; // Disable child process inherit open files. Default: true bool is_fd_close_on_exec = true; // NOT SUPPORTED ANYMORE -- this options is no longer used bool skip_log_error_on_recovery = false; // if not zero, dump rocksdb.stats to LOG every stats_dump_period_sec // Default: 600 (10 min) unsigned int stats_dump_period_sec = 600; // If set true, will hint the underlying file system that the file // access pattern is random, when a sst file is opened. // Default: true bool advise_random_on_open = true; // Amount of data to build up in memtables across all column // families before writing to disk. // // This is distinct from write_buffer_size, which enforces a limit // for a single memtable. // // This feature is disabled by default. Specify a non-zero value // to enable it. // // Default: 0 (disabled) size_t db_write_buffer_size = 0; // The memory usage of memtable will report to this object. The same object // can be passed into multiple DBs and it will track the sum of size of all // the DBs. If the total size of all live memtables of all the DBs exceeds // a limit, a flush will be triggered in the next DB to which the next write // is issued. // // If the object is only passed to on DB, the behavior is the same as // db_write_buffer_size. When write_buffer_manager is set, the value set will // override db_write_buffer_size. // // This feature is disabled by default. Specify a non-zero value // to enable it. // // Default: null std::shared_ptr write_buffer_manager = nullptr; // Specify the file access pattern once a compaction is started. // It will be applied to all input files of a compaction. // Default: NORMAL enum AccessHint { NONE, NORMAL, SEQUENTIAL, WILLNEED }; AccessHint access_hint_on_compaction_start = NORMAL; // If true, always create a new file descriptor and new table reader // for compaction inputs. Turn this parameter on may introduce extra // memory usage in the table reader, if it allocates extra memory // for indexes. This will allow file descriptor prefetch options // to be set for compaction input files and not to impact file // descriptors for the same file used by user queries. // Suggest to enable BlockBasedTableOptions.cache_index_and_filter_blocks // for this mode if using block-based table. // // Default: false bool new_table_reader_for_compaction_inputs = false; // If non-zero, we perform bigger reads when doing compaction. If you're // running RocksDB on spinning disks, you should set this to at least 2MB. // That way RocksDB's compaction is doing sequential instead of random reads. // // When non-zero, we also force new_table_reader_for_compaction_inputs to // true. // // Default: 0 size_t compaction_readahead_size = 0; // This is a maximum buffer size that is used by WinMmapReadableFile in // unbuffered disk I/O mode. We need to maintain an aligned buffer for // reads. We allow the buffer to grow until the specified value and then // for bigger requests allocate one shot buffers. In unbuffered mode we // always bypass read-ahead buffer at ReadaheadRandomAccessFile // When read-ahead is required we then make use of compaction_readahead_size // value and always try to read ahead. With read-ahead we always // pre-allocate buffer to the size instead of growing it up to a limit. // // This option is currently honored only on Windows // // Default: 1 Mb // // Special value: 0 - means do not maintain per instance buffer. Allocate // per request buffer and avoid locking. size_t random_access_max_buffer_size = 1024 * 1024; // This is the maximum buffer size that is used by WritableFileWriter. // On Windows, we need to maintain an aligned buffer for writes. // We allow the buffer to grow until it's size hits the limit in buffered // IO and fix the buffer size when using direct IO to ensure alignment of // write requests if the logical sector size is unusual // // Default: 1024 * 1024 (1 MB) size_t writable_file_max_buffer_size = 1024 * 1024; // Use adaptive mutex, which spins in the user space before resorting // to kernel. This could reduce context switch when the mutex is not // heavily contended. However, if the mutex is hot, we could end up // wasting spin time. // Default: false bool use_adaptive_mutex = false; // Create DBOptions with default values for all fields DBOptions(); // Create DBOptions from Options explicit DBOptions(const Options& options); void Dump(Logger* log) const; // Allows OS to incrementally sync files to disk while they are being // written, asynchronously, in the background. This operation can be used // to smooth out write I/Os over time. Users shouldn't rely on it for // persistency guarantee. // Issue one request for every bytes_per_sync written. 0 turns it off. // Default: 0 // // You may consider using rate_limiter to regulate write rate to device. // When rate limiter is enabled, it automatically enables bytes_per_sync // to 1MB. // // This option applies to table files uint64_t bytes_per_sync = 0; // Same as bytes_per_sync, but applies to WAL files // Default: 0, turned off uint64_t wal_bytes_per_sync = 0; // A vector of EventListeners which callback functions will be called // when specific RocksDB event happens. std::vector> listeners; // If true, then the status of the threads involved in this DB will // be tracked and available via GetThreadList() API. // // Default: false bool enable_thread_tracking = false; // The limited write rate to DB if soft_pending_compaction_bytes_limit or // level0_slowdown_writes_trigger is triggered, or we are writing to the // last mem table allowed and we allow more than 3 mem tables. It is // calculated using size of user write requests before compression. // RocksDB may decide to slow down more if the compaction still // gets behind further. // If the value is 0, we will infer a value from `rater_limiter` value // if it is not empty, or 16MB if `rater_limiter` is empty. Note that // if users change the rate in `rate_limiter` after DB is opened, // `delayed_write_rate` won't be adjusted. // // Unit: byte per second. // // Default: 0 uint64_t delayed_write_rate = 0; // By default, a single write thread queue is maintained. The thread gets // to the head of the queue becomes write batch group leader and responsible // for writing to WAL and memtable for the batch group. // // If enable_pipelined_write is true, separate write thread queue is // maintained for WAL write and memtable write. A write thread first enter WAL // writer queue and then memtable writer queue. Pending thread on the WAL // writer queue thus only have to wait for previous writers to finish their // WAL writing but not the memtable writing. Enabling the feature may improve // write throughput and reduce latency of the prepare phase of two-phase // commit. // // Default: false bool enable_pipelined_write = false; // If true, allow multi-writers to update mem tables in parallel. // Only some memtable_factory-s support concurrent writes; currently it // is implemented only for SkipListFactory. Concurrent memtable writes // are not compatible with inplace_update_support or filter_deletes. // It is strongly recommended to set enable_write_thread_adaptive_yield // if you are going to use this feature. // // Default: true bool allow_concurrent_memtable_write = true; // If true, threads synchronizing with the write batch group leader will // wait for up to write_thread_max_yield_usec before blocking on a mutex. // This can substantially improve throughput for concurrent workloads, // regardless of whether allow_concurrent_memtable_write is enabled. // // Default: true bool enable_write_thread_adaptive_yield = true; // The maximum number of microseconds that a write operation will use // a yielding spin loop to coordinate with other write threads before // blocking on a mutex. (Assuming write_thread_slow_yield_usec is // set properly) increasing this value is likely to increase RocksDB // throughput at the expense of increased CPU usage. // // Default: 100 uint64_t write_thread_max_yield_usec = 100; // The latency in microseconds after which a std::this_thread::yield // call (sched_yield on Linux) is considered to be a signal that // other processes or threads would like to use the current core. // Increasing this makes writer threads more likely to take CPU // by spinning, which will show up as an increase in the number of // involuntary context switches. // // Default: 3 uint64_t write_thread_slow_yield_usec = 3; // If true, then DB::Open() will not update the statistics used to optimize // compaction decision by loading table properties from many files. // Turning off this feature will improve DBOpen time especially in // disk environment. // // Default: false bool skip_stats_update_on_db_open = false; // Recovery mode to control the consistency while replaying WAL // Default: kPointInTimeRecovery WALRecoveryMode wal_recovery_mode = WALRecoveryMode::kPointInTimeRecovery; // if set to false then recovery will fail when a prepared // transaction is encountered in the WAL bool allow_2pc = false; // A global cache for table-level rows. // Default: nullptr (disabled) // Not supported in ROCKSDB_LITE mode! std::shared_ptr row_cache = nullptr; #ifndef ROCKSDB_LITE // A filter object supplied to be invoked while processing write-ahead-logs // (WALs) during recovery. The filter provides a way to inspect log // records, ignoring a particular record or skipping replay. // The filter is invoked at startup and is invoked from a single-thread // currently. WalFilter* wal_filter = nullptr; #endif // ROCKSDB_LITE // If true, then DB::Open / CreateColumnFamily / DropColumnFamily // / SetOptions will fail if options file is not detected or properly // persisted. // // DEFAULT: false bool fail_if_options_file_error = false; // If true, then print malloc stats together with rocksdb.stats // when printing to LOG. // DEFAULT: false bool dump_malloc_stats = false; // By default RocksDB replay WAL logs and flush them on DB open, which may // create very small SST files. If this option is enabled, RocksDB will try // to avoid (but not guarantee not to) flush during recovery. Also, existing // WAL logs will be kept, so that if crash happened before flush, we still // have logs to recover from. // // DEFAULT: false bool avoid_flush_during_recovery = false; // By default RocksDB will flush all memtables on DB close if there are // unpersisted data (i.e. with WAL disabled) The flush can be skip to speedup // DB close. Unpersisted data WILL BE LOST. // // DEFAULT: false // // Dynamically changeable through SetDBOptions() API. bool avoid_flush_during_shutdown = false; // Set this option to true during creation of database if you want // to be able to ingest behind (call IngestExternalFile() skipping keys // that already exist, rather than overwriting matching keys). // Setting this option to true will affect 2 things: // 1) Disable some internal optimizations around SST file compression // 2) Reserve bottom-most level for ingested files only. // 3) Note that num_levels should be >= 3 if this option is turned on. // // DEFAULT: false // Immutable. bool allow_ingest_behind = false; // Needed to support differential snapshots. // If set to true then DB will only process deletes with sequence number // less than what was set by SetPreserveDeletesSequenceNumber(uint64_t ts). // Clients are responsible to periodically call this method to advance // the cutoff time. If this method is never called and preserve_deletes // is set to true NO deletes will ever be processed. // At the moment this only keeps normal deletes, SingleDeletes will // not be preserved. // DEFAULT: false // Immutable (TODO: make it dynamically changeable) bool preserve_deletes = false; // If enabled it uses two queues for writes, one for the ones with // disable_memtable and one for the ones that also write to memtable. This // allows the memtable writes not to lag behind other writes. It can be used // to optimize MySQL 2PC in which only the commits, which are serial, write to // memtable. bool two_write_queues = false; // If true WAL is not flushed automatically after each write. Instead it // relies on manual invocation of FlushWAL to write the WAL buffer to its // file. bool manual_wal_flush = false; }; // Options to control the behavior of a database (passed to DB::Open) struct Options : public DBOptions, public ColumnFamilyOptions { // Create an Options object with default values for all fields. Options() : DBOptions(), ColumnFamilyOptions() {} Options(const DBOptions& db_options, const ColumnFamilyOptions& column_family_options) : DBOptions(db_options), ColumnFamilyOptions(column_family_options) {} // The function recovers options to the option as in version 4.6. Options* OldDefaults(int rocksdb_major_version = 4, int rocksdb_minor_version = 6); void Dump(Logger* log) const; void DumpCFOptions(Logger* log) const; // Some functions that make it easier to optimize RocksDB // Set appropriate parameters for bulk loading. // The reason that this is a function that returns "this" instead of a // constructor is to enable chaining of multiple similar calls in the future. // // All data will be in level 0 without any automatic compaction. // It's recommended to manually call CompactRange(NULL, NULL) before reading // from the database, because otherwise the read can be very slow. Options* PrepareForBulkLoad(); // Use this if your DB is very small (like under 1GB) and you don't want to // spend lots of memory for memtables. Options* OptimizeForSmallDb(); }; // // An application can issue a read request (via Get/Iterators) and specify // if that read should process data that ALREADY resides on a specified cache // level. For example, if an application specifies kBlockCacheTier then the // Get call will process data that is already processed in the memtable or // the block cache. It will not page in data from the OS cache or data that // resides in storage. enum ReadTier { kReadAllTier = 0x0, // data in memtable, block cache, OS cache or storage kBlockCacheTier = 0x1, // data in memtable or block cache kPersistedTier = 0x2, // persisted data. When WAL is disabled, this option // will skip data in memtable. // Note that this ReadTier currently only supports // Get and MultiGet and does not support iterators. kMemtableTier = 0x3 // data in memtable. used for memtable-only iterators. }; // Options that control read operations struct ReadOptions { // If "snapshot" is non-nullptr, read as of the supplied snapshot // (which must belong to the DB that is being read and which must // not have been released). If "snapshot" is nullptr, use an implicit // snapshot of the state at the beginning of this read operation. // Default: nullptr const Snapshot* snapshot; // `iterate_lower_bound` defines the smallest key at which the backward // iterator can return an entry. Once the bound is passed, Valid() will be // false. `iterate_lower_bound` is inclusive ie the bound value is a valid // entry. // // If prefix_extractor is not null, the Seek target and `iterate_lower_bound` // need to have the same prefix. This is because ordering is not guaranteed // outside of prefix domain. // // Default: nullptr const Slice* iterate_lower_bound; // "iterate_upper_bound" defines the extent upto which the forward iterator // can returns entries. Once the bound is reached, Valid() will be false. // "iterate_upper_bound" is exclusive ie the bound value is // not a valid entry. If iterator_extractor is not null, the Seek target // and iterate_upper_bound need to have the same prefix. // This is because ordering is not guaranteed outside of prefix domain. // // Default: nullptr const Slice* iterate_upper_bound; // If non-zero, NewIterator will create a new table reader which // performs reads of the given size. Using a large size (> 2MB) can // improve the performance of forward iteration on spinning disks. // Default: 0 size_t readahead_size; // A threshold for the number of keys that can be skipped before failing an // iterator seek as incomplete. The default value of 0 should be used to // never fail a request as incomplete, even on skipping too many keys. // Default: 0 uint64_t max_skippable_internal_keys; // Specify if this read request should process data that ALREADY // resides on a particular cache. If the required data is not // found at the specified cache, then Status::Incomplete is returned. // Default: kReadAllTier ReadTier read_tier; // If true, all data read from underlying storage will be // verified against corresponding checksums. // Default: true bool verify_checksums; // Should the "data block"/"index block"" read for this iteration be placed in // block cache? // Callers may wish to set this field to false for bulk scans. // This would help not to the change eviction order of existing items in the // block cache. Default: true bool fill_cache; // Specify to create a tailing iterator -- a special iterator that has a // view of the complete database (i.e. it can also be used to read newly // added data) and is optimized for sequential reads. It will return records // that were inserted into the database after the creation of the iterator. // Default: false // Not supported in ROCKSDB_LITE mode! bool tailing; // This options is not used anymore. It was to turn on a functionality that // has been removed. bool managed; // Enable a total order seek regardless of index format (e.g. hash index) // used in the table. Some table format (e.g. plain table) may not support // this option. // If true when calling Get(), we also skip prefix bloom when reading from // block based table. It provides a way to read existing data after // changing implementation of prefix extractor. bool total_order_seek; // Enforce that the iterator only iterates over the same prefix as the seek. // This option is effective only for prefix seeks, i.e. prefix_extractor is // non-null for the column family and total_order_seek is false. Unlike // iterate_upper_bound, prefix_same_as_start only works within a prefix // but in both directions. // Default: false bool prefix_same_as_start; // Keep the blocks loaded by the iterator pinned in memory as long as the // iterator is not deleted, If used when reading from tables created with // BlockBasedTableOptions::use_delta_encoding = false, // Iterator's property "rocksdb.iterator.is-key-pinned" is guaranteed to // return 1. // Default: false bool pin_data; // If true, when PurgeObsoleteFile is called in CleanupIteratorState, we // schedule a background job in the flush job queue and delete obsolete files // in background. // Default: false bool background_purge_on_iterator_cleanup; // If true, keys deleted using the DeleteRange() API will be visible to // readers until they are naturally deleted during compaction. This improves // read performance in DBs with many range deletions. // Default: false bool ignore_range_deletions; // A callback to determine whether relevant keys for this scan exist in a // given table based on the table's properties. The callback is passed the // properties of each table during iteration. If the callback returns false, // the table will not be scanned. This option only affects Iterators and has // no impact on point lookups. // Default: empty (every table will be scanned) std::function table_filter; // Needed to support differential snapshots. Has 2 effects: // 1) Iterator will skip all internal keys with seqnum < iter_start_seqnum // 2) if this param > 0 iterator will return INTERNAL keys instead of // user keys; e.g. return tombstones as well. // Default: 0 (don't filter by seqnum, return user keys) SequenceNumber iter_start_seqnum; ReadOptions(); ReadOptions(bool cksum, bool cache); }; // Options that control write operations struct WriteOptions { // If true, the write will be flushed from the operating system // buffer cache (by calling WritableFile::Sync()) before the write // is considered complete. If this flag is true, writes will be // slower. // // If this flag is false, and the machine crashes, some recent // writes may be lost. Note that if it is just the process that // crashes (i.e., the machine does not reboot), no writes will be // lost even if sync==false. // // In other words, a DB write with sync==false has similar // crash semantics as the "write()" system call. A DB write // with sync==true has similar crash semantics to a "write()" // system call followed by "fdatasync()". // // Default: false bool sync; // If true, writes will not first go to the write ahead log, // and the write may got lost after a crash. // Default: false bool disableWAL; // If true and if user is trying to write to column families that don't exist // (they were dropped), ignore the write (don't return an error). If there // are multiple writes in a WriteBatch, other writes will succeed. // Default: false bool ignore_missing_column_families; // If true and we need to wait or sleep for the write request, fails // immediately with Status::Incomplete(). // Default: false bool no_slowdown; // If true, this write request is of lower priority if compaction is // behind. In this case, no_slowdown = true, the request will be cancelled // immediately with Status::Incomplete() returned. Otherwise, it will be // slowed down. The slowdown value is determined by RocksDB to guarantee // it introduces minimum impacts to high priority writes. // // Default: false bool low_pri; WriteOptions() : sync(false), disableWAL(false), ignore_missing_column_families(false), no_slowdown(false), low_pri(false) {} }; // Options that control flush operations struct FlushOptions { // If true, the flush will wait until the flush is done. // Default: true bool wait; // If true, the flush would proceed immediately even it means writes will // stall for the duration of the flush; if false the operation will wait // until it's possible to do flush w/o causing stall or until required flush // is performed by someone else (foreground call or background thread). // Default: false bool allow_write_stall; FlushOptions() : wait(true), allow_write_stall(false) {} }; // Create a Logger from provided DBOptions extern Status CreateLoggerFromOptions(const std::string& dbname, const DBOptions& options, std::shared_ptr* logger); // CompactionOptions are used in CompactFiles() call. struct CompactionOptions { // Compaction output compression type // Default: snappy // If set to `kDisableCompressionOption`, RocksDB will choose compression type // according to the `ColumnFamilyOptions`, taking into account the output // level if `compression_per_level` is specified. CompressionType compression; // Compaction will create files of size `output_file_size_limit`. // Default: MAX, which means that compaction will create a single file uint64_t output_file_size_limit; // If > 0, it will replace the option in the DBOptions for this compaction. uint32_t max_subcompactions; CompactionOptions() : compression(kSnappyCompression), output_file_size_limit(std::numeric_limits::max()), max_subcompactions(0) {} }; // For level based compaction, we can configure if we want to skip/force // bottommost level compaction. enum class BottommostLevelCompaction { // Skip bottommost level compaction kSkip, // Only compact bottommost level if there is a compaction filter // This is the default option kIfHaveCompactionFilter, // Always compact bottommost level kForce, }; // CompactRangeOptions is used by CompactRange() call. struct CompactRangeOptions { // If true, no other compaction will run at the same time as this // manual compaction bool exclusive_manual_compaction = true; // If true, compacted files will be moved to the minimum level capable // of holding the data or given level (specified non-negative target_level). bool change_level = false; // If change_level is true and target_level have non-negative value, compacted // files will be moved to target_level. int target_level = -1; // Compaction outputs will be placed in options.db_paths[target_path_id]. // Behavior is undefined if target_path_id is out of range. uint32_t target_path_id = 0; // By default level based compaction will only compact the bottommost level // if there is a compaction filter BottommostLevelCompaction bottommost_level_compaction = BottommostLevelCompaction::kIfHaveCompactionFilter; // If true, will execute immediately even if doing so would cause the DB to // enter write stall mode. Otherwise, it'll sleep until load is low enough. bool allow_write_stall = false; // If > 0, it will replace the option in the DBOptions for this compaction. uint32_t max_subcompactions = 0; }; // IngestExternalFileOptions is used by IngestExternalFile() struct IngestExternalFileOptions { // Can be set to true to move the files instead of copying them. bool move_files = false; // If set to false, an ingested file keys could appear in existing snapshots // that where created before the file was ingested. bool snapshot_consistency = true; // If set to false, IngestExternalFile() will fail if the file key range // overlaps with existing keys or tombstones in the DB. bool allow_global_seqno = true; // If set to false and the file key range overlaps with the memtable key range // (memtable flush required), IngestExternalFile will fail. bool allow_blocking_flush = true; // Set to true if you would like duplicate keys in the file being ingested // to be skipped rather than overwriting existing data under that key. // Usecase: back-fill of some historical data in the database without // over-writing existing newer version of data. // This option could only be used if the DB has been running // with allow_ingest_behind=true since the dawn of time. // All files will be ingested at the bottommost level with seqno=0. bool ingest_behind = false; // Set to true if you would like to write global_seqno to a given offset in // the external SST file for backward compatibility. Older versions of // RocksDB writes a global_seqno to a given offset within ingested SST files, // and new versions of RocksDB do not. If you ingest an external SST using // new version of RocksDB and would like to be able to downgrade to an // older version of RocksDB, you should set 'write_global_seqno' to true. If // your service is just starting to use the new RocksDB, we recommend that // you set this option to false, which brings two benefits: // 1. No extra random write for global_seqno during ingestion. // 2. Without writing external SST file, it's possible to do checksum. // We have a plan to set this option to false by default in the future. bool write_global_seqno = true; }; struct TraceOptions {}; } // namespace rocksdb rocksdb-5.17.2/include/rocksdb/perf_context.h000066400000000000000000000167711337235545400212070ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #include #include #include "rocksdb/perf_level.h" namespace rocksdb { // A thread local context for gathering performance counter efficiently // and transparently. // Use SetPerfLevel(PerfLevel::kEnableTime) to enable time stats. struct PerfContext { void Reset(); // reset all performance counters to zero std::string ToString(bool exclude_zero_counters = false) const; uint64_t user_key_comparison_count; // total number of user key comparisons uint64_t block_cache_hit_count; // total number of block cache hits uint64_t block_read_count; // total number of block reads (with IO) uint64_t block_read_byte; // total number of bytes from block reads uint64_t block_read_time; // total nanos spent on block reads uint64_t block_checksum_time; // total nanos spent on block checksum uint64_t block_decompress_time; // total nanos spent on block decompression uint64_t get_read_bytes; // bytes for vals returned by Get uint64_t multiget_read_bytes; // bytes for vals returned by MultiGet uint64_t iter_read_bytes; // bytes for keys/vals decoded by iterator // total number of internal keys skipped over during iteration. // There are several reasons for it: // 1. when calling Next(), the iterator is in the position of the previous // key, so that we'll need to skip it. It means this counter will always // be incremented in Next(). // 2. when calling Next(), we need to skip internal entries for the previous // keys that are overwritten. // 3. when calling Next(), Seek() or SeekToFirst(), after previous key // before calling Next(), the seek key in Seek() or the beginning for // SeekToFirst(), there may be one or more deleted keys before the next // valid key that the operation should place the iterator to. We need // to skip both of the tombstone and updates hidden by the tombstones. The // tombstones are not included in this counter, while previous updates // hidden by the tombstones will be included here. // 4. symmetric cases for Prev() and SeekToLast() // internal_recent_skipped_count is not included in this counter. // uint64_t internal_key_skipped_count; // Total number of deletes and single deletes skipped over during iteration // When calling Next(), Seek() or SeekToFirst(), after previous position // before calling Next(), the seek key in Seek() or the beginning for // SeekToFirst(), there may be one or more deleted keys before the next valid // key. Every deleted key is counted once. We don't recount here if there are // still older updates invalidated by the tombstones. // uint64_t internal_delete_skipped_count; // How many times iterators skipped over internal keys that are more recent // than the snapshot that iterator is using. // uint64_t internal_recent_skipped_count; // How many values were fed into merge operator by iterators. // uint64_t internal_merge_count; uint64_t get_snapshot_time; // total nanos spent on getting snapshot uint64_t get_from_memtable_time; // total nanos spent on querying memtables uint64_t get_from_memtable_count; // number of mem tables queried // total nanos spent after Get() finds a key uint64_t get_post_process_time; uint64_t get_from_output_files_time; // total nanos reading from output files // total nanos spent on seeking memtable uint64_t seek_on_memtable_time; // number of seeks issued on memtable // (including SeekForPrev but not SeekToFirst and SeekToLast) uint64_t seek_on_memtable_count; // number of Next()s issued on memtable uint64_t next_on_memtable_count; // number of Prev()s issued on memtable uint64_t prev_on_memtable_count; // total nanos spent on seeking child iters uint64_t seek_child_seek_time; // number of seek issued in child iterators uint64_t seek_child_seek_count; uint64_t seek_min_heap_time; // total nanos spent on the merge min heap uint64_t seek_max_heap_time; // total nanos spent on the merge max heap // total nanos spent on seeking the internal entries uint64_t seek_internal_seek_time; // total nanos spent on iterating internal entries to find the next user entry uint64_t find_next_user_entry_time; // This group of stats provide a breakdown of time spent by Write(). // May be inaccurate when 2PC, two_write_queues or enable_pipelined_write // are enabled. // // total nanos spent on writing to WAL uint64_t write_wal_time; // total nanos spent on writing to mem tables uint64_t write_memtable_time; // total nanos spent on delaying or throttling write uint64_t write_delay_time; // total nanos spent on switching memtable/wal and scheduling // flushes/compactions. uint64_t write_scheduling_flushes_compactions_time; // total nanos spent on writing a record, excluding the above four things uint64_t write_pre_and_post_process_time; // time spent waiting for other threads of the batch group uint64_t write_thread_wait_nanos; // time spent on acquiring DB mutex. uint64_t db_mutex_lock_nanos; // Time spent on waiting with a condition variable created with DB mutex. uint64_t db_condition_wait_nanos; // Time spent on merge operator. uint64_t merge_operator_time_nanos; // Time spent on reading index block from block cache or SST file uint64_t read_index_block_nanos; // Time spent on reading filter block from block cache or SST file uint64_t read_filter_block_nanos; // Time spent on creating data block iterator uint64_t new_table_block_iter_nanos; // Time spent on creating a iterator of an SST file. uint64_t new_table_iterator_nanos; // Time spent on seeking a key in data/index blocks uint64_t block_seek_nanos; // Time spent on finding or creating a table reader uint64_t find_table_nanos; // total number of mem table bloom hits uint64_t bloom_memtable_hit_count; // total number of mem table bloom misses uint64_t bloom_memtable_miss_count; // total number of SST table bloom hits uint64_t bloom_sst_hit_count; // total number of SST table bloom misses uint64_t bloom_sst_miss_count; // Time spent waiting on key locks in transaction lock manager. uint64_t key_lock_wait_time; // number of times acquiring a lock was blocked by another transaction. uint64_t key_lock_wait_count; // Total time spent in Env filesystem operations. These are only populated // when TimedEnv is used. uint64_t env_new_sequential_file_nanos; uint64_t env_new_random_access_file_nanos; uint64_t env_new_writable_file_nanos; uint64_t env_reuse_writable_file_nanos; uint64_t env_new_random_rw_file_nanos; uint64_t env_new_directory_nanos; uint64_t env_file_exists_nanos; uint64_t env_get_children_nanos; uint64_t env_get_children_file_attributes_nanos; uint64_t env_delete_file_nanos; uint64_t env_create_dir_nanos; uint64_t env_create_dir_if_missing_nanos; uint64_t env_delete_dir_nanos; uint64_t env_get_file_size_nanos; uint64_t env_get_file_modification_time_nanos; uint64_t env_rename_file_nanos; uint64_t env_link_file_nanos; uint64_t env_lock_file_nanos; uint64_t env_unlock_file_nanos; uint64_t env_new_logger_nanos; }; // Get Thread-local PerfContext object pointer // if defined(NPERF_CONTEXT), then the pointer is not thread-local PerfContext* get_perf_context(); } rocksdb-5.17.2/include/rocksdb/perf_level.h000066400000000000000000000020741337235545400206210ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #include #include namespace rocksdb { // How much perf stats to collect. Affects perf_context and iostats_context. enum PerfLevel : unsigned char { kUninitialized = 0, // unknown setting kDisable = 1, // disable perf stats kEnableCount = 2, // enable only count stats kEnableTimeExceptForMutex = 3, // Other than count stats, also enable time // stats except for mutexes kEnableTime = 4, // enable count and time stats kOutOfBounds = 5 // N.B. Must always be the last value! }; // set the perf stats level for current thread void SetPerfLevel(PerfLevel level); // get current perf stats level for current thread PerfLevel GetPerfLevel(); } // namespace rocksdb rocksdb-5.17.2/include/rocksdb/persistent_cache.h000066400000000000000000000044121337235545400220170ustar00rootroot00000000000000// Copyright (c) 2013, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #include #include #include #include "rocksdb/env.h" #include "rocksdb/slice.h" #include "rocksdb/statistics.h" #include "rocksdb/status.h" namespace rocksdb { // PersistentCache // // Persistent cache interface for caching IO pages on a persistent medium. The // cache interface is specifically designed for persistent read cache. class PersistentCache { public: typedef std::vector> StatsType; virtual ~PersistentCache() {} // Insert to page cache // // page_key Identifier to identify a page uniquely across restarts // data Page data // size Size of the page virtual Status Insert(const Slice& key, const char* data, const size_t size) = 0; // Lookup page cache by page identifier // // page_key Page identifier // buf Buffer where the data should be copied // size Size of the page virtual Status Lookup(const Slice& key, std::unique_ptr* data, size_t* size) = 0; // Is cache storing uncompressed data ? // // True if the cache is configured to store uncompressed data else false virtual bool IsCompressed() = 0; // Return stats as map of {string, double} per-tier // // Persistent cache can be initialized as a tier of caches. The stats are per // tire top-down virtual StatsType Stats() = 0; virtual std::string GetPrintableOptions() const = 0; }; // Factor method to create a new persistent cache Status NewPersistentCache(Env* const env, const std::string& path, const uint64_t size, const std::shared_ptr& log, const bool optimized_for_nvm, std::shared_ptr* cache); } // namespace rocksdb rocksdb-5.17.2/include/rocksdb/rate_limiter.h000066400000000000000000000131631337235545400211570ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #include "rocksdb/env.h" #include "rocksdb/statistics.h" namespace rocksdb { class RateLimiter { public: enum class OpType { // Limitation: we currently only invoke Request() with OpType::kRead for // compactions when DBOptions::new_table_reader_for_compaction_inputs is set kRead, kWrite, }; enum class Mode { kReadsOnly, kWritesOnly, kAllIo, }; // For API compatibility, default to rate-limiting writes only. explicit RateLimiter(Mode mode = Mode::kWritesOnly) : mode_(mode) {} virtual ~RateLimiter() {} // This API allows user to dynamically change rate limiter's bytes per second. // REQUIRED: bytes_per_second > 0 virtual void SetBytesPerSecond(int64_t bytes_per_second) = 0; // Deprecated. New RateLimiter derived classes should override // Request(const int64_t, const Env::IOPriority, Statistics*) or // Request(const int64_t, const Env::IOPriority, Statistics*, OpType) // instead. // // Request for token for bytes. If this request can not be satisfied, the call // is blocked. Caller is responsible to make sure // bytes <= GetSingleBurstBytes() virtual void Request(const int64_t /*bytes*/, const Env::IOPriority /*pri*/) { assert(false); } // Request for token for bytes and potentially update statistics. If this // request can not be satisfied, the call is blocked. Caller is responsible to // make sure bytes <= GetSingleBurstBytes(). virtual void Request(const int64_t bytes, const Env::IOPriority pri, Statistics* /* stats */) { // For API compatibility, default implementation calls the older API in // which statistics are unsupported. Request(bytes, pri); } // Requests token to read or write bytes and potentially updates statistics. // // If this request can not be satisfied, the call is blocked. Caller is // responsible to make sure bytes <= GetSingleBurstBytes(). virtual void Request(const int64_t bytes, const Env::IOPriority pri, Statistics* stats, OpType op_type) { if (IsRateLimited(op_type)) { Request(bytes, pri, stats); } } // Requests token to read or write bytes and potentially updates statistics. // Takes into account GetSingleBurstBytes() and alignment (e.g., in case of // direct I/O) to allocate an appropriate number of bytes, which may be less // than the number of bytes requested. virtual size_t RequestToken(size_t bytes, size_t alignment, Env::IOPriority io_priority, Statistics* stats, RateLimiter::OpType op_type); // Max bytes can be granted in a single burst virtual int64_t GetSingleBurstBytes() const = 0; // Total bytes that go though rate limiter virtual int64_t GetTotalBytesThrough( const Env::IOPriority pri = Env::IO_TOTAL) const = 0; // Total # of requests that go though rate limiter virtual int64_t GetTotalRequests( const Env::IOPriority pri = Env::IO_TOTAL) const = 0; virtual int64_t GetBytesPerSecond() const = 0; virtual bool IsRateLimited(OpType op_type) { if ((mode_ == RateLimiter::Mode::kWritesOnly && op_type == RateLimiter::OpType::kRead) || (mode_ == RateLimiter::Mode::kReadsOnly && op_type == RateLimiter::OpType::kWrite)) { return false; } return true; } protected: Mode GetMode() { return mode_; } private: const Mode mode_; }; // Create a RateLimiter object, which can be shared among RocksDB instances to // control write rate of flush and compaction. // @rate_bytes_per_sec: this is the only parameter you want to set most of the // time. It controls the total write rate of compaction and flush in bytes per // second. Currently, RocksDB does not enforce rate limit for anything other // than flush and compaction, e.g. write to WAL. // @refill_period_us: this controls how often tokens are refilled. For example, // when rate_bytes_per_sec is set to 10MB/s and refill_period_us is set to // 100ms, then 1MB is refilled every 100ms internally. Larger value can lead to // burstier writes while smaller value introduces more CPU overhead. // The default should work for most cases. // @fairness: RateLimiter accepts high-pri requests and low-pri requests. // A low-pri request is usually blocked in favor of hi-pri request. Currently, // RocksDB assigns low-pri to request from compaction and high-pri to request // from flush. Low-pri requests can get blocked if flush requests come in // continuously. This fairness parameter grants low-pri requests permission by // 1/fairness chance even though high-pri requests exist to avoid starvation. // You should be good by leaving it at default 10. // @mode: Mode indicates which types of operations count against the limit. // @auto_tuned: Enables dynamic adjustment of rate limit within the range // `[rate_bytes_per_sec / 20, rate_bytes_per_sec]`, according to // the recent demand for background I/O. extern RateLimiter* NewGenericRateLimiter( int64_t rate_bytes_per_sec, int64_t refill_period_us = 100 * 1000, int32_t fairness = 10, RateLimiter::Mode mode = RateLimiter::Mode::kWritesOnly, bool auto_tuned = false); } // namespace rocksdb rocksdb-5.17.2/include/rocksdb/slice.h000066400000000000000000000164251337235545400176020ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. // // Slice is a simple structure containing a pointer into some external // storage and a size. The user of a Slice must ensure that the slice // is not used after the corresponding external storage has been // deallocated. // // Multiple threads can invoke const methods on a Slice without // external synchronization, but if any of the threads may call a // non-const method, all threads accessing the same Slice must use // external synchronization. #pragma once #include #include #include #include #include #ifdef __cpp_lib_string_view #include #endif #include "rocksdb/cleanable.h" namespace rocksdb { class Slice { public: // Create an empty slice. Slice() : data_(""), size_(0) { } // Create a slice that refers to d[0,n-1]. Slice(const char* d, size_t n) : data_(d), size_(n) { } // Create a slice that refers to the contents of "s" /* implicit */ Slice(const std::string& s) : data_(s.data()), size_(s.size()) { } #ifdef __cpp_lib_string_view // Create a slice that refers to the same contents as "sv" /* implicit */ Slice(std::string_view sv) : data_(sv.data()), size_(sv.size()) {} #endif // Create a slice that refers to s[0,strlen(s)-1] /* implicit */ Slice(const char* s) : data_(s) { size_ = (s == nullptr) ? 0 : strlen(s); } // Create a single slice from SliceParts using buf as storage. // buf must exist as long as the returned Slice exists. Slice(const struct SliceParts& parts, std::string* buf); // Return a pointer to the beginning of the referenced data const char* data() const { return data_; } // Return the length (in bytes) of the referenced data size_t size() const { return size_; } // Return true iff the length of the referenced data is zero bool empty() const { return size_ == 0; } // Return the ith byte in the referenced data. // REQUIRES: n < size() char operator[](size_t n) const { assert(n < size()); return data_[n]; } // Change this slice to refer to an empty array void clear() { data_ = ""; size_ = 0; } // Drop the first "n" bytes from this slice. void remove_prefix(size_t n) { assert(n <= size()); data_ += n; size_ -= n; } void remove_suffix(size_t n) { assert(n <= size()); size_ -= n; } // Return a string that contains the copy of the referenced data. // when hex is true, returns a string of twice the length hex encoded (0-9A-F) std::string ToString(bool hex = false) const; #ifdef __cpp_lib_string_view // Return a string_view that references the same data as this slice. std::string_view ToStringView() const { return std::string_view(data_, size_); } #endif // Decodes the current slice interpreted as an hexadecimal string into result, // if successful returns true, if this isn't a valid hex string // (e.g not coming from Slice::ToString(true)) DecodeHex returns false. // This slice is expected to have an even number of 0-9A-F characters // also accepts lowercase (a-f) bool DecodeHex(std::string* result) const; // Three-way comparison. Returns value: // < 0 iff "*this" < "b", // == 0 iff "*this" == "b", // > 0 iff "*this" > "b" int compare(const Slice& b) const; // Return true iff "x" is a prefix of "*this" bool starts_with(const Slice& x) const { return ((size_ >= x.size_) && (memcmp(data_, x.data_, x.size_) == 0)); } bool ends_with(const Slice& x) const { return ((size_ >= x.size_) && (memcmp(data_ + size_ - x.size_, x.data_, x.size_) == 0)); } // Compare two slices and returns the first byte where they differ size_t difference_offset(const Slice& b) const; // private: make these public for rocksdbjni access const char* data_; size_t size_; // Intentionally copyable }; /** * A Slice that can be pinned with some cleanup tasks, which will be run upon * ::Reset() or object destruction, whichever is invoked first. This can be used * to avoid memcpy by having the PinnableSlice object referring to the data * that is locked in the memory and release them after the data is consumed. */ class PinnableSlice : public Slice, public Cleanable { public: PinnableSlice() { buf_ = &self_space_; } explicit PinnableSlice(std::string* buf) { buf_ = buf; } // No copy constructor and copy assignment allowed. PinnableSlice(PinnableSlice&) = delete; PinnableSlice& operator=(PinnableSlice&) = delete; inline void PinSlice(const Slice& s, CleanupFunction f, void* arg1, void* arg2) { assert(!pinned_); pinned_ = true; data_ = s.data(); size_ = s.size(); RegisterCleanup(f, arg1, arg2); assert(pinned_); } inline void PinSlice(const Slice& s, Cleanable* cleanable) { assert(!pinned_); pinned_ = true; data_ = s.data(); size_ = s.size(); cleanable->DelegateCleanupsTo(this); assert(pinned_); } inline void PinSelf(const Slice& slice) { assert(!pinned_); buf_->assign(slice.data(), slice.size()); data_ = buf_->data(); size_ = buf_->size(); assert(!pinned_); } inline void PinSelf() { assert(!pinned_); data_ = buf_->data(); size_ = buf_->size(); assert(!pinned_); } void remove_suffix(size_t n) { assert(n <= size()); if (pinned_) { size_ -= n; } else { buf_->erase(size() - n, n); PinSelf(); } } void remove_prefix(size_t /*n*/) { assert(0); // Not implemented } void Reset() { Cleanable::Reset(); pinned_ = false; } inline std::string* GetSelf() { return buf_; } inline bool IsPinned() { return pinned_; } private: friend class PinnableSlice4Test; std::string self_space_; std::string* buf_; bool pinned_ = false; }; // A set of Slices that are virtually concatenated together. 'parts' points // to an array of Slices. The number of elements in the array is 'num_parts'. struct SliceParts { SliceParts(const Slice* _parts, int _num_parts) : parts(_parts), num_parts(_num_parts) { } SliceParts() : parts(nullptr), num_parts(0) {} const Slice* parts; int num_parts; }; inline bool operator==(const Slice& x, const Slice& y) { return ((x.size() == y.size()) && (memcmp(x.data(), y.data(), x.size()) == 0)); } inline bool operator!=(const Slice& x, const Slice& y) { return !(x == y); } inline int Slice::compare(const Slice& b) const { assert(data_ != nullptr && b.data_ != nullptr); const size_t min_len = (size_ < b.size_) ? size_ : b.size_; int r = memcmp(data_, b.data_, min_len); if (r == 0) { if (size_ < b.size_) r = -1; else if (size_ > b.size_) r = +1; } return r; } inline size_t Slice::difference_offset(const Slice& b) const { size_t off = 0; const size_t len = (size_ < b.size_) ? size_ : b.size_; for (; off < len; off++) { if (data_[off] != b.data_[off]) break; } return off; } } // namespace rocksdbrocksdb-5.17.2/include/rocksdb/slice_transform.h000066400000000000000000000105141337235545400216660ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // Copyright (c) 2012 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. // // Class for specifying user-defined functions which perform a // transformation on a slice. It is not required that every slice // belong to the domain and/or range of a function. Subclasses should // define InDomain and InRange to determine which slices are in either // of these sets respectively. #pragma once #include namespace rocksdb { class Slice; /* * A SliceTransform is a generic pluggable way of transforming one string * to another. Its primary use-case is in configuring rocksdb * to store prefix blooms by setting prefix_extractor in * ColumnFamilyOptions. */ class SliceTransform { public: virtual ~SliceTransform() {}; // Return the name of this transformation. virtual const char* Name() const = 0; // Extract a prefix from a specified key. This method is called when // a key is inserted into the db, and the returned slice is used to // create a bloom filter. virtual Slice Transform(const Slice& key) const = 0; // Determine whether the specified key is compatible with the logic // specified in the Transform method. This method is invoked for every // key that is inserted into the db. If this method returns true, // then Transform is called to translate the key to its prefix and // that returned prefix is inserted into the bloom filter. If this // method returns false, then the call to Transform is skipped and // no prefix is inserted into the bloom filters. // // For example, if the Transform method operates on a fixed length // prefix of size 4, then an invocation to InDomain("abc") returns // false because the specified key length(3) is shorter than the // prefix size of 4. // // Wiki documentation here: // https://github.com/facebook/rocksdb/wiki/Prefix-Seek-API-Changes // virtual bool InDomain(const Slice& key) const = 0; // This is currently not used and remains here for backward compatibility. virtual bool InRange(const Slice& /*dst*/) const { return false; } // Some SliceTransform will have a full length which can be used to // determine if two keys are consecuitive. Can be disabled by always // returning 0 virtual bool FullLengthEnabled(size_t* /*len*/) const { return false; } // Transform(s)=Transform(`prefix`) for any s with `prefix` as a prefix. // // This function is not used by RocksDB, but for users. If users pass // Options by string to RocksDB, they might not know what prefix extractor // they are using. This function is to help users can determine: // if they want to iterate all keys prefixing `prefix`, whether it is // safe to use prefix bloom filter and seek to key `prefix`. // If this function returns true, this means a user can Seek() to a prefix // using the bloom filter. Otherwise, user needs to skip the bloom filter // by setting ReadOptions.total_order_seek = true. // // Here is an example: Suppose we implement a slice transform that returns // the first part of the string after splitting it using delimiter ",": // 1. SameResultWhenAppended("abc,") should return true. If applying prefix // bloom filter using it, all slices matching "abc:.*" will be extracted // to "abc,", so any SST file or memtable containing any of those key // will not be filtered out. // 2. SameResultWhenAppended("abc") should return false. A user will not // guaranteed to see all the keys matching "abc.*" if a user seek to "abc" // against a DB with the same setting. If one SST file only contains // "abcd,e", the file can be filtered out and the key will be invisible. // // i.e., an implementation always returning false is safe. virtual bool SameResultWhenAppended(const Slice& /*prefix*/) const { return false; } }; extern const SliceTransform* NewFixedPrefixTransform(size_t prefix_len); extern const SliceTransform* NewCappedPrefixTransform(size_t cap_len); extern const SliceTransform* NewNoopTransform(); } rocksdb-5.17.2/include/rocksdb/snapshot.h000066400000000000000000000023641337235545400203370ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #include "rocksdb/types.h" namespace rocksdb { class DB; // Abstract handle to particular state of a DB. // A Snapshot is an immutable object and can therefore be safely // accessed from multiple threads without any external synchronization. // // To Create a Snapshot, call DB::GetSnapshot(). // To Destroy a Snapshot, call DB::ReleaseSnapshot(snapshot). class Snapshot { public: // returns Snapshot's sequence number virtual SequenceNumber GetSequenceNumber() const = 0; protected: virtual ~Snapshot(); }; // Simple RAII wrapper class for Snapshot. // Constructing this object will create a snapshot. Destructing will // release the snapshot. class ManagedSnapshot { public: explicit ManagedSnapshot(DB* db); // Instead of creating a snapshot, take ownership of the input snapshot. ManagedSnapshot(DB* db, const Snapshot* _snapshot); ~ManagedSnapshot(); const Snapshot* snapshot(); private: DB* db_; const Snapshot* snapshot_; }; } // namespace rocksdb rocksdb-5.17.2/include/rocksdb/sst_dump_tool.h000066400000000000000000000006611337235545400213710ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #ifndef ROCKSDB_LITE #pragma once namespace rocksdb { class SSTDumpTool { public: int Run(int argc, char** argv); }; } // namespace rocksdb #endif // ROCKSDB_LITE rocksdb-5.17.2/include/rocksdb/sst_file_manager.h000066400000000000000000000114451337235545400220020ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #include #include #include #include #include "rocksdb/status.h" namespace rocksdb { class Env; class Logger; // SstFileManager is used to track SST files in the DB and control their // deletion rate. // All SstFileManager public functions are thread-safe. // SstFileManager is not extensible. class SstFileManager { public: virtual ~SstFileManager() {} // Update the maximum allowed space that should be used by RocksDB, if // the total size of the SST files exceeds max_allowed_space, writes to // RocksDB will fail. // // Setting max_allowed_space to 0 will disable this feature; maximum allowed // space will be infinite (Default value). // // thread-safe. virtual void SetMaxAllowedSpaceUsage(uint64_t max_allowed_space) = 0; // Set the amount of buffer room each compaction should be able to leave. // In other words, at its maximum disk space consumption, the compaction // should still leave compaction_buffer_size available on the disk so that // other background functions may continue, such as logging and flushing. virtual void SetCompactionBufferSize(uint64_t compaction_buffer_size) = 0; // Return true if the total size of SST files exceeded the maximum allowed // space usage. // // thread-safe. virtual bool IsMaxAllowedSpaceReached() = 0; // Returns true if the total size of SST files as well as estimated size // of ongoing compactions exceeds the maximums allowed space usage. virtual bool IsMaxAllowedSpaceReachedIncludingCompactions() = 0; // Return the total size of all tracked files. // thread-safe virtual uint64_t GetTotalSize() = 0; // Return a map containing all tracked files and their corresponding sizes. // thread-safe virtual std::unordered_map GetTrackedFiles() = 0; // Return delete rate limit in bytes per second. // thread-safe virtual int64_t GetDeleteRateBytesPerSecond() = 0; // Update the delete rate limit in bytes per second. // zero means disable delete rate limiting and delete files immediately // thread-safe virtual void SetDeleteRateBytesPerSecond(int64_t delete_rate) = 0; // Return trash/DB size ratio where new files will be deleted immediately // thread-safe virtual double GetMaxTrashDBRatio() = 0; // Update trash/DB size ratio where new files will be deleted immediately // thread-safe virtual void SetMaxTrashDBRatio(double ratio) = 0; // Return the total size of trash files // thread-safe virtual uint64_t GetTotalTrashSize() = 0; }; // Create a new SstFileManager that can be shared among multiple RocksDB // instances to track SST file and control there deletion rate. // // @param env: Pointer to Env object, please see "rocksdb/env.h". // @param info_log: If not nullptr, info_log will be used to log errors. // // == Deletion rate limiting specific arguments == // @param trash_dir: Deprecated, this argument have no effect // @param rate_bytes_per_sec: How many bytes should be deleted per second, If // this value is set to 1024 (1 Kb / sec) and we deleted a file of size 4 Kb // in 1 second, we will wait for another 3 seconds before we delete other // files, Set to 0 to disable deletion rate limiting. // @param delete_existing_trash: Deprecated, this argument have no effect, but // if user provide trash_dir we will schedule deletes for files in the dir // @param status: If not nullptr, status will contain any errors that happened // during creating the missing trash_dir or deleting existing files in trash. // @param max_trash_db_ratio: If the trash size constitutes for more than this // fraction of the total DB size we will start deleting new files passed to // DeleteScheduler immediately // @param bytes_max_delete_chunk: if a file to delete is larger than delete // chunk, ftruncate the file by this size each time, rather than dropping the // whole file. 0 means to always delete the whole file. If the file has more // than one linked names, the file will be deleted as a whole. Either way, // `rate_bytes_per_sec` will be appreciated. NOTE that with this option, // files already renamed as a trash may be partial, so users should not // directly recover them without checking. extern SstFileManager* NewSstFileManager( Env* env, std::shared_ptr info_log = nullptr, std::string trash_dir = "", int64_t rate_bytes_per_sec = 0, bool delete_existing_trash = true, Status* status = nullptr, double max_trash_db_ratio = 0.25, uint64_t bytes_max_delete_chunk = 64 * 1024 * 1024); } // namespace rocksdb rocksdb-5.17.2/include/rocksdb/sst_file_writer.h000066400000000000000000000124231337235545400217010ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #ifndef ROCKSDB_LITE #include #include #include "rocksdb/env.h" #include "rocksdb/options.h" #include "rocksdb/table_properties.h" #include "rocksdb/types.h" #if defined(__GNUC__) || defined(__clang__) #define ROCKSDB_DEPRECATED_FUNC __attribute__((__deprecated__)) #elif _WIN32 #define ROCKSDB_DEPRECATED_FUNC __declspec(deprecated) #endif namespace rocksdb { class Comparator; // ExternalSstFileInfo include information about sst files created // using SstFileWriter. struct ExternalSstFileInfo { ExternalSstFileInfo() : file_path(""), smallest_key(""), largest_key(""), smallest_range_del_key(""), largest_range_del_key(""), sequence_number(0), file_size(0), num_entries(0), num_range_del_entries(0), version(0) {} ExternalSstFileInfo(const std::string& _file_path, const std::string& _smallest_key, const std::string& _largest_key, SequenceNumber _sequence_number, uint64_t _file_size, int32_t _num_entries, int32_t _version) : file_path(_file_path), smallest_key(_smallest_key), largest_key(_largest_key), smallest_range_del_key(""), largest_range_del_key(""), sequence_number(_sequence_number), file_size(_file_size), num_entries(_num_entries), num_range_del_entries(0), version(_version) {} std::string file_path; // external sst file path std::string smallest_key; // smallest user key in file std::string largest_key; // largest user key in file std::string smallest_range_del_key; // smallest range deletion user key in file std::string largest_range_del_key; // largest range deletion user key in file SequenceNumber sequence_number; // sequence number of all keys in file uint64_t file_size; // file size in bytes uint64_t num_entries; // number of entries in file uint64_t num_range_del_entries; // number of range deletion entries in file int32_t version; // file version }; // SstFileWriter is used to create sst files that can be added to database later // All keys in files generated by SstFileWriter will have sequence number = 0. class SstFileWriter { public: // User can pass `column_family` to specify that the generated file will // be ingested into this column_family, note that passing nullptr means that // the column_family is unknown. // If invalidate_page_cache is set to true, SstFileWriter will give the OS a // hint that this file pages is not needed every time we write 1MB to the file. // To use the rate limiter an io_priority smaller than IO_TOTAL can be passed. SstFileWriter(const EnvOptions& env_options, const Options& options, ColumnFamilyHandle* column_family = nullptr, bool invalidate_page_cache = true, Env::IOPriority io_priority = Env::IOPriority::IO_TOTAL, bool skip_filters = false) : SstFileWriter(env_options, options, options.comparator, column_family, invalidate_page_cache, io_priority, skip_filters) {} // Deprecated API SstFileWriter(const EnvOptions& env_options, const Options& options, const Comparator* user_comparator, ColumnFamilyHandle* column_family = nullptr, bool invalidate_page_cache = true, Env::IOPriority io_priority = Env::IOPriority::IO_TOTAL, bool skip_filters = false); ~SstFileWriter(); // Prepare SstFileWriter to write into file located at "file_path". Status Open(const std::string& file_path); // Add a Put key with value to currently opened file (deprecated) // REQUIRES: key is after any previously added key according to comparator. ROCKSDB_DEPRECATED_FUNC Status Add(const Slice& user_key, const Slice& value); // Add a Put key with value to currently opened file // REQUIRES: key is after any previously added key according to comparator. Status Put(const Slice& user_key, const Slice& value); // Add a Merge key with value to currently opened file // REQUIRES: key is after any previously added key according to comparator. Status Merge(const Slice& user_key, const Slice& value); // Add a deletion key to currently opened file // REQUIRES: key is after any previously added key according to comparator. Status Delete(const Slice& user_key); // Add a range deletion tombstone to currently opened file Status DeleteRange(const Slice& begin_key, const Slice& end_key); // Finalize writing to sst file and close file. // // An optional ExternalSstFileInfo pointer can be passed to the function // which will be populated with information about the created sst file. Status Finish(ExternalSstFileInfo* file_info = nullptr); // Return the current file size. uint64_t FileSize(); private: void InvalidatePageCache(bool closing); struct Rep; std::unique_ptr rep_; }; } // namespace rocksdb #endif // !ROCKSDB_LITE rocksdb-5.17.2/include/rocksdb/statistics.h000066400000000000000000000700751337235545400206760ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #include #include #include #include #include #include #include "rocksdb/status.h" namespace rocksdb { /** * Keep adding ticker's here. * 1. Any ticker should be added before TICKER_ENUM_MAX. * 2. Add a readable string in TickersNameMap below for the newly added ticker. * 3. Add a corresponding enum value to TickerType.java in the java API */ enum Tickers : uint32_t { // total block cache misses // REQUIRES: BLOCK_CACHE_MISS == BLOCK_CACHE_INDEX_MISS + // BLOCK_CACHE_FILTER_MISS + // BLOCK_CACHE_DATA_MISS; BLOCK_CACHE_MISS = 0, // total block cache hit // REQUIRES: BLOCK_CACHE_HIT == BLOCK_CACHE_INDEX_HIT + // BLOCK_CACHE_FILTER_HIT + // BLOCK_CACHE_DATA_HIT; BLOCK_CACHE_HIT, // # of blocks added to block cache. BLOCK_CACHE_ADD, // # of failures when adding blocks to block cache. BLOCK_CACHE_ADD_FAILURES, // # of times cache miss when accessing index block from block cache. BLOCK_CACHE_INDEX_MISS, // # of times cache hit when accessing index block from block cache. BLOCK_CACHE_INDEX_HIT, // # of index blocks added to block cache. BLOCK_CACHE_INDEX_ADD, // # of bytes of index blocks inserted into cache BLOCK_CACHE_INDEX_BYTES_INSERT, // # of bytes of index block erased from cache BLOCK_CACHE_INDEX_BYTES_EVICT, // # of times cache miss when accessing filter block from block cache. BLOCK_CACHE_FILTER_MISS, // # of times cache hit when accessing filter block from block cache. BLOCK_CACHE_FILTER_HIT, // # of filter blocks added to block cache. BLOCK_CACHE_FILTER_ADD, // # of bytes of bloom filter blocks inserted into cache BLOCK_CACHE_FILTER_BYTES_INSERT, // # of bytes of bloom filter block erased from cache BLOCK_CACHE_FILTER_BYTES_EVICT, // # of times cache miss when accessing data block from block cache. BLOCK_CACHE_DATA_MISS, // # of times cache hit when accessing data block from block cache. BLOCK_CACHE_DATA_HIT, // # of data blocks added to block cache. BLOCK_CACHE_DATA_ADD, // # of bytes of data blocks inserted into cache BLOCK_CACHE_DATA_BYTES_INSERT, // # of bytes read from cache. BLOCK_CACHE_BYTES_READ, // # of bytes written into cache. BLOCK_CACHE_BYTES_WRITE, // # of times bloom filter has avoided file reads, i.e., negatives. BLOOM_FILTER_USEFUL, // # of times bloom FullFilter has not avoided the reads. BLOOM_FILTER_FULL_POSITIVE, // # of times bloom FullFilter has not avoided the reads and data actually // exist. BLOOM_FILTER_FULL_TRUE_POSITIVE, // # persistent cache hit PERSISTENT_CACHE_HIT, // # persistent cache miss PERSISTENT_CACHE_MISS, // # total simulation block cache hits SIM_BLOCK_CACHE_HIT, // # total simulation block cache misses SIM_BLOCK_CACHE_MISS, // # of memtable hits. MEMTABLE_HIT, // # of memtable misses. MEMTABLE_MISS, // # of Get() queries served by L0 GET_HIT_L0, // # of Get() queries served by L1 GET_HIT_L1, // # of Get() queries served by L2 and up GET_HIT_L2_AND_UP, /** * COMPACTION_KEY_DROP_* count the reasons for key drop during compaction * There are 4 reasons currently. */ COMPACTION_KEY_DROP_NEWER_ENTRY, // key was written with a newer value. // Also includes keys dropped for range del. COMPACTION_KEY_DROP_OBSOLETE, // The key is obsolete. COMPACTION_KEY_DROP_RANGE_DEL, // key was covered by a range tombstone. COMPACTION_KEY_DROP_USER, // user compaction function has dropped the key. COMPACTION_RANGE_DEL_DROP_OBSOLETE, // all keys in range were deleted. // Deletions obsoleted before bottom level due to file gap optimization. COMPACTION_OPTIMIZED_DEL_DROP_OBSOLETE, // If a compaction was cancelled in sfm to prevent ENOSPC COMPACTION_CANCELLED, // Number of keys written to the database via the Put and Write call's NUMBER_KEYS_WRITTEN, // Number of Keys read, NUMBER_KEYS_READ, // Number keys updated, if inplace update is enabled NUMBER_KEYS_UPDATED, // The number of uncompressed bytes issued by DB::Put(), DB::Delete(), // DB::Merge(), and DB::Write(). BYTES_WRITTEN, // The number of uncompressed bytes read from DB::Get(). It could be // either from memtables, cache, or table files. // For the number of logical bytes read from DB::MultiGet(), // please use NUMBER_MULTIGET_BYTES_READ. BYTES_READ, // The number of calls to seek/next/prev NUMBER_DB_SEEK, NUMBER_DB_NEXT, NUMBER_DB_PREV, // The number of calls to seek/next/prev that returned data NUMBER_DB_SEEK_FOUND, NUMBER_DB_NEXT_FOUND, NUMBER_DB_PREV_FOUND, // The number of uncompressed bytes read from an iterator. // Includes size of key and value. ITER_BYTES_READ, NO_FILE_CLOSES, NO_FILE_OPENS, NO_FILE_ERRORS, // DEPRECATED Time system had to wait to do LO-L1 compactions STALL_L0_SLOWDOWN_MICROS, // DEPRECATED Time system had to wait to move memtable to L1. STALL_MEMTABLE_COMPACTION_MICROS, // DEPRECATED write throttle because of too many files in L0 STALL_L0_NUM_FILES_MICROS, // Writer has to wait for compaction or flush to finish. STALL_MICROS, // The wait time for db mutex. // Disabled by default. To enable it set stats level to kAll DB_MUTEX_WAIT_MICROS, RATE_LIMIT_DELAY_MILLIS, NO_ITERATORS, // number of iterators currently open // Number of MultiGet calls, keys read, and bytes read NUMBER_MULTIGET_CALLS, NUMBER_MULTIGET_KEYS_READ, NUMBER_MULTIGET_BYTES_READ, // Number of deletes records that were not required to be // written to storage because key does not exist NUMBER_FILTERED_DELETES, NUMBER_MERGE_FAILURES, // number of times bloom was checked before creating iterator on a // file, and the number of times the check was useful in avoiding // iterator creation (and thus likely IOPs). BLOOM_FILTER_PREFIX_CHECKED, BLOOM_FILTER_PREFIX_USEFUL, // Number of times we had to reseek inside an iteration to skip // over large number of keys with same userkey. NUMBER_OF_RESEEKS_IN_ITERATION, // Record the number of calls to GetUpadtesSince. Useful to keep track of // transaction log iterator refreshes GET_UPDATES_SINCE_CALLS, BLOCK_CACHE_COMPRESSED_MISS, // miss in the compressed block cache BLOCK_CACHE_COMPRESSED_HIT, // hit in the compressed block cache // Number of blocks added to compressed block cache BLOCK_CACHE_COMPRESSED_ADD, // Number of failures when adding blocks to compressed block cache BLOCK_CACHE_COMPRESSED_ADD_FAILURES, WAL_FILE_SYNCED, // Number of times WAL sync is done WAL_FILE_BYTES, // Number of bytes written to WAL // Writes can be processed by requesting thread or by the thread at the // head of the writers queue. WRITE_DONE_BY_SELF, WRITE_DONE_BY_OTHER, // Equivalent to writes done for others WRITE_TIMEDOUT, // Number of writes ending up with timed-out. WRITE_WITH_WAL, // Number of Write calls that request WAL COMPACT_READ_BYTES, // Bytes read during compaction COMPACT_WRITE_BYTES, // Bytes written during compaction FLUSH_WRITE_BYTES, // Bytes written during flush // Number of table's properties loaded directly from file, without creating // table reader object. NUMBER_DIRECT_LOAD_TABLE_PROPERTIES, NUMBER_SUPERVERSION_ACQUIRES, NUMBER_SUPERVERSION_RELEASES, NUMBER_SUPERVERSION_CLEANUPS, // # of compressions/decompressions executed NUMBER_BLOCK_COMPRESSED, NUMBER_BLOCK_DECOMPRESSED, NUMBER_BLOCK_NOT_COMPRESSED, MERGE_OPERATION_TOTAL_TIME, FILTER_OPERATION_TOTAL_TIME, // Row cache. ROW_CACHE_HIT, ROW_CACHE_MISS, // Read amplification statistics. // Read amplification can be calculated using this formula // (READ_AMP_TOTAL_READ_BYTES / READ_AMP_ESTIMATE_USEFUL_BYTES) // // REQUIRES: ReadOptions::read_amp_bytes_per_bit to be enabled READ_AMP_ESTIMATE_USEFUL_BYTES, // Estimate of total bytes actually used. READ_AMP_TOTAL_READ_BYTES, // Total size of loaded data blocks. // Number of refill intervals where rate limiter's bytes are fully consumed. NUMBER_RATE_LIMITER_DRAINS, // Number of internal keys skipped by Iterator NUMBER_ITER_SKIP, // BlobDB specific stats // # of Put/PutTTL/PutUntil to BlobDB. BLOB_DB_NUM_PUT, // # of Write to BlobDB. BLOB_DB_NUM_WRITE, // # of Get to BlobDB. BLOB_DB_NUM_GET, // # of MultiGet to BlobDB. BLOB_DB_NUM_MULTIGET, // # of Seek/SeekToFirst/SeekToLast/SeekForPrev to BlobDB iterator. BLOB_DB_NUM_SEEK, // # of Next to BlobDB iterator. BLOB_DB_NUM_NEXT, // # of Prev to BlobDB iterator. BLOB_DB_NUM_PREV, // # of keys written to BlobDB. BLOB_DB_NUM_KEYS_WRITTEN, // # of keys read from BlobDB. BLOB_DB_NUM_KEYS_READ, // # of bytes (key + value) written to BlobDB. BLOB_DB_BYTES_WRITTEN, // # of bytes (keys + value) read from BlobDB. BLOB_DB_BYTES_READ, // # of keys written by BlobDB as non-TTL inlined value. BLOB_DB_WRITE_INLINED, // # of keys written by BlobDB as TTL inlined value. BLOB_DB_WRITE_INLINED_TTL, // # of keys written by BlobDB as non-TTL blob value. BLOB_DB_WRITE_BLOB, // # of keys written by BlobDB as TTL blob value. BLOB_DB_WRITE_BLOB_TTL, // # of bytes written to blob file. BLOB_DB_BLOB_FILE_BYTES_WRITTEN, // # of bytes read from blob file. BLOB_DB_BLOB_FILE_BYTES_READ, // # of times a blob files being synced. BLOB_DB_BLOB_FILE_SYNCED, // # of blob index evicted from base DB by BlobDB compaction filter because // of expiration. BLOB_DB_BLOB_INDEX_EXPIRED_COUNT, // size of blob index evicted from base DB by BlobDB compaction filter // because of expiration. BLOB_DB_BLOB_INDEX_EXPIRED_SIZE, // # of blob index evicted from base DB by BlobDB compaction filter because // of corresponding file deleted. BLOB_DB_BLOB_INDEX_EVICTED_COUNT, // size of blob index evicted from base DB by BlobDB compaction filter // because of corresponding file deleted. BLOB_DB_BLOB_INDEX_EVICTED_SIZE, // # of blob files being garbage collected. BLOB_DB_GC_NUM_FILES, // # of blob files generated by garbage collection. BLOB_DB_GC_NUM_NEW_FILES, // # of BlobDB garbage collection failures. BLOB_DB_GC_FAILURES, // # of keys drop by BlobDB garbage collection because they had been // overwritten. BLOB_DB_GC_NUM_KEYS_OVERWRITTEN, // # of keys drop by BlobDB garbage collection because of expiration. BLOB_DB_GC_NUM_KEYS_EXPIRED, // # of keys relocated to new blob file by garbage collection. BLOB_DB_GC_NUM_KEYS_RELOCATED, // # of bytes drop by BlobDB garbage collection because they had been // overwritten. BLOB_DB_GC_BYTES_OVERWRITTEN, // # of bytes drop by BlobDB garbage collection because of expiration. BLOB_DB_GC_BYTES_EXPIRED, // # of bytes relocated to new blob file by garbage collection. BLOB_DB_GC_BYTES_RELOCATED, // # of blob files evicted because of BlobDB is full. BLOB_DB_FIFO_NUM_FILES_EVICTED, // # of keys in the blob files evicted because of BlobDB is full. BLOB_DB_FIFO_NUM_KEYS_EVICTED, // # of bytes in the blob files evicted because of BlobDB is full. BLOB_DB_FIFO_BYTES_EVICTED, // These coutners indicate a performance issue in WritePrepared transactions. // We should not seem them ticking them much. // # of times prepare_mutex_ is acquired in the fast path. TXN_PREPARE_MUTEX_OVERHEAD, // # of times old_commit_map_mutex_ is acquired in the fast path. TXN_OLD_COMMIT_MAP_MUTEX_OVERHEAD, // # of times we checked a batch for duplicate keys. TXN_DUPLICATE_KEY_OVERHEAD, // # of times snapshot_mutex_ is acquired in the fast path. TXN_SNAPSHOT_MUTEX_OVERHEAD, // Number of keys actually found in MultiGet calls (vs number requested by caller) // NUMBER_MULTIGET_KEYS_READ gives the number requested by caller NUMBER_MULTIGET_KEYS_FOUND, TICKER_ENUM_MAX }; // The order of items listed in Tickers should be the same as // the order listed in TickersNameMap const std::vector> TickersNameMap = { {BLOCK_CACHE_MISS, "rocksdb.block.cache.miss"}, {BLOCK_CACHE_HIT, "rocksdb.block.cache.hit"}, {BLOCK_CACHE_ADD, "rocksdb.block.cache.add"}, {BLOCK_CACHE_ADD_FAILURES, "rocksdb.block.cache.add.failures"}, {BLOCK_CACHE_INDEX_MISS, "rocksdb.block.cache.index.miss"}, {BLOCK_CACHE_INDEX_HIT, "rocksdb.block.cache.index.hit"}, {BLOCK_CACHE_INDEX_ADD, "rocksdb.block.cache.index.add"}, {BLOCK_CACHE_INDEX_BYTES_INSERT, "rocksdb.block.cache.index.bytes.insert"}, {BLOCK_CACHE_INDEX_BYTES_EVICT, "rocksdb.block.cache.index.bytes.evict"}, {BLOCK_CACHE_FILTER_MISS, "rocksdb.block.cache.filter.miss"}, {BLOCK_CACHE_FILTER_HIT, "rocksdb.block.cache.filter.hit"}, {BLOCK_CACHE_FILTER_ADD, "rocksdb.block.cache.filter.add"}, {BLOCK_CACHE_FILTER_BYTES_INSERT, "rocksdb.block.cache.filter.bytes.insert"}, {BLOCK_CACHE_FILTER_BYTES_EVICT, "rocksdb.block.cache.filter.bytes.evict"}, {BLOCK_CACHE_DATA_MISS, "rocksdb.block.cache.data.miss"}, {BLOCK_CACHE_DATA_HIT, "rocksdb.block.cache.data.hit"}, {BLOCK_CACHE_DATA_ADD, "rocksdb.block.cache.data.add"}, {BLOCK_CACHE_DATA_BYTES_INSERT, "rocksdb.block.cache.data.bytes.insert"}, {BLOCK_CACHE_BYTES_READ, "rocksdb.block.cache.bytes.read"}, {BLOCK_CACHE_BYTES_WRITE, "rocksdb.block.cache.bytes.write"}, {BLOOM_FILTER_USEFUL, "rocksdb.bloom.filter.useful"}, {BLOOM_FILTER_FULL_POSITIVE, "rocksdb.bloom.filter.full.positive"}, {BLOOM_FILTER_FULL_TRUE_POSITIVE, "rocksdb.bloom.filter.full.true.positive"}, {PERSISTENT_CACHE_HIT, "rocksdb.persistent.cache.hit"}, {PERSISTENT_CACHE_MISS, "rocksdb.persistent.cache.miss"}, {SIM_BLOCK_CACHE_HIT, "rocksdb.sim.block.cache.hit"}, {SIM_BLOCK_CACHE_MISS, "rocksdb.sim.block.cache.miss"}, {MEMTABLE_HIT, "rocksdb.memtable.hit"}, {MEMTABLE_MISS, "rocksdb.memtable.miss"}, {GET_HIT_L0, "rocksdb.l0.hit"}, {GET_HIT_L1, "rocksdb.l1.hit"}, {GET_HIT_L2_AND_UP, "rocksdb.l2andup.hit"}, {COMPACTION_KEY_DROP_NEWER_ENTRY, "rocksdb.compaction.key.drop.new"}, {COMPACTION_KEY_DROP_OBSOLETE, "rocksdb.compaction.key.drop.obsolete"}, {COMPACTION_KEY_DROP_RANGE_DEL, "rocksdb.compaction.key.drop.range_del"}, {COMPACTION_KEY_DROP_USER, "rocksdb.compaction.key.drop.user"}, {COMPACTION_RANGE_DEL_DROP_OBSOLETE, "rocksdb.compaction.range_del.drop.obsolete"}, {COMPACTION_OPTIMIZED_DEL_DROP_OBSOLETE, "rocksdb.compaction.optimized.del.drop.obsolete"}, {COMPACTION_CANCELLED, "rocksdb.compaction.cancelled"}, {NUMBER_KEYS_WRITTEN, "rocksdb.number.keys.written"}, {NUMBER_KEYS_READ, "rocksdb.number.keys.read"}, {NUMBER_KEYS_UPDATED, "rocksdb.number.keys.updated"}, {BYTES_WRITTEN, "rocksdb.bytes.written"}, {BYTES_READ, "rocksdb.bytes.read"}, {NUMBER_DB_SEEK, "rocksdb.number.db.seek"}, {NUMBER_DB_NEXT, "rocksdb.number.db.next"}, {NUMBER_DB_PREV, "rocksdb.number.db.prev"}, {NUMBER_DB_SEEK_FOUND, "rocksdb.number.db.seek.found"}, {NUMBER_DB_NEXT_FOUND, "rocksdb.number.db.next.found"}, {NUMBER_DB_PREV_FOUND, "rocksdb.number.db.prev.found"}, {ITER_BYTES_READ, "rocksdb.db.iter.bytes.read"}, {NO_FILE_CLOSES, "rocksdb.no.file.closes"}, {NO_FILE_OPENS, "rocksdb.no.file.opens"}, {NO_FILE_ERRORS, "rocksdb.no.file.errors"}, {STALL_L0_SLOWDOWN_MICROS, "rocksdb.l0.slowdown.micros"}, {STALL_MEMTABLE_COMPACTION_MICROS, "rocksdb.memtable.compaction.micros"}, {STALL_L0_NUM_FILES_MICROS, "rocksdb.l0.num.files.stall.micros"}, {STALL_MICROS, "rocksdb.stall.micros"}, {DB_MUTEX_WAIT_MICROS, "rocksdb.db.mutex.wait.micros"}, {RATE_LIMIT_DELAY_MILLIS, "rocksdb.rate.limit.delay.millis"}, {NO_ITERATORS, "rocksdb.num.iterators"}, {NUMBER_MULTIGET_CALLS, "rocksdb.number.multiget.get"}, {NUMBER_MULTIGET_KEYS_READ, "rocksdb.number.multiget.keys.read"}, {NUMBER_MULTIGET_BYTES_READ, "rocksdb.number.multiget.bytes.read"}, {NUMBER_FILTERED_DELETES, "rocksdb.number.deletes.filtered"}, {NUMBER_MERGE_FAILURES, "rocksdb.number.merge.failures"}, {BLOOM_FILTER_PREFIX_CHECKED, "rocksdb.bloom.filter.prefix.checked"}, {BLOOM_FILTER_PREFIX_USEFUL, "rocksdb.bloom.filter.prefix.useful"}, {NUMBER_OF_RESEEKS_IN_ITERATION, "rocksdb.number.reseeks.iteration"}, {GET_UPDATES_SINCE_CALLS, "rocksdb.getupdatessince.calls"}, {BLOCK_CACHE_COMPRESSED_MISS, "rocksdb.block.cachecompressed.miss"}, {BLOCK_CACHE_COMPRESSED_HIT, "rocksdb.block.cachecompressed.hit"}, {BLOCK_CACHE_COMPRESSED_ADD, "rocksdb.block.cachecompressed.add"}, {BLOCK_CACHE_COMPRESSED_ADD_FAILURES, "rocksdb.block.cachecompressed.add.failures"}, {WAL_FILE_SYNCED, "rocksdb.wal.synced"}, {WAL_FILE_BYTES, "rocksdb.wal.bytes"}, {WRITE_DONE_BY_SELF, "rocksdb.write.self"}, {WRITE_DONE_BY_OTHER, "rocksdb.write.other"}, {WRITE_TIMEDOUT, "rocksdb.write.timeout"}, {WRITE_WITH_WAL, "rocksdb.write.wal"}, {COMPACT_READ_BYTES, "rocksdb.compact.read.bytes"}, {COMPACT_WRITE_BYTES, "rocksdb.compact.write.bytes"}, {FLUSH_WRITE_BYTES, "rocksdb.flush.write.bytes"}, {NUMBER_DIRECT_LOAD_TABLE_PROPERTIES, "rocksdb.number.direct.load.table.properties"}, {NUMBER_SUPERVERSION_ACQUIRES, "rocksdb.number.superversion_acquires"}, {NUMBER_SUPERVERSION_RELEASES, "rocksdb.number.superversion_releases"}, {NUMBER_SUPERVERSION_CLEANUPS, "rocksdb.number.superversion_cleanups"}, {NUMBER_BLOCK_COMPRESSED, "rocksdb.number.block.compressed"}, {NUMBER_BLOCK_DECOMPRESSED, "rocksdb.number.block.decompressed"}, {NUMBER_BLOCK_NOT_COMPRESSED, "rocksdb.number.block.not_compressed"}, {MERGE_OPERATION_TOTAL_TIME, "rocksdb.merge.operation.time.nanos"}, {FILTER_OPERATION_TOTAL_TIME, "rocksdb.filter.operation.time.nanos"}, {ROW_CACHE_HIT, "rocksdb.row.cache.hit"}, {ROW_CACHE_MISS, "rocksdb.row.cache.miss"}, {READ_AMP_ESTIMATE_USEFUL_BYTES, "rocksdb.read.amp.estimate.useful.bytes"}, {READ_AMP_TOTAL_READ_BYTES, "rocksdb.read.amp.total.read.bytes"}, {NUMBER_RATE_LIMITER_DRAINS, "rocksdb.number.rate_limiter.drains"}, {NUMBER_ITER_SKIP, "rocksdb.number.iter.skip"}, {BLOB_DB_NUM_PUT, "rocksdb.blobdb.num.put"}, {BLOB_DB_NUM_WRITE, "rocksdb.blobdb.num.write"}, {BLOB_DB_NUM_GET, "rocksdb.blobdb.num.get"}, {BLOB_DB_NUM_MULTIGET, "rocksdb.blobdb.num.multiget"}, {BLOB_DB_NUM_SEEK, "rocksdb.blobdb.num.seek"}, {BLOB_DB_NUM_NEXT, "rocksdb.blobdb.num.next"}, {BLOB_DB_NUM_PREV, "rocksdb.blobdb.num.prev"}, {BLOB_DB_NUM_KEYS_WRITTEN, "rocksdb.blobdb.num.keys.written"}, {BLOB_DB_NUM_KEYS_READ, "rocksdb.blobdb.num.keys.read"}, {BLOB_DB_BYTES_WRITTEN, "rocksdb.blobdb.bytes.written"}, {BLOB_DB_BYTES_READ, "rocksdb.blobdb.bytes.read"}, {BLOB_DB_WRITE_INLINED, "rocksdb.blobdb.write.inlined"}, {BLOB_DB_WRITE_INLINED_TTL, "rocksdb.blobdb.write.inlined.ttl"}, {BLOB_DB_WRITE_BLOB, "rocksdb.blobdb.write.blob"}, {BLOB_DB_WRITE_BLOB_TTL, "rocksdb.blobdb.write.blob.ttl"}, {BLOB_DB_BLOB_FILE_BYTES_WRITTEN, "rocksdb.blobdb.blob.file.bytes.written"}, {BLOB_DB_BLOB_FILE_BYTES_READ, "rocksdb.blobdb.blob.file.bytes.read"}, {BLOB_DB_BLOB_FILE_SYNCED, "rocksdb.blobdb.blob.file.synced"}, {BLOB_DB_BLOB_INDEX_EXPIRED_COUNT, "rocksdb.blobdb.blob.index.expired.count"}, {BLOB_DB_BLOB_INDEX_EXPIRED_SIZE, "rocksdb.blobdb.blob.index.expired.size"}, {BLOB_DB_BLOB_INDEX_EVICTED_COUNT, "rocksdb.blobdb.blob.index.evicted.count"}, {BLOB_DB_BLOB_INDEX_EVICTED_SIZE, "rocksdb.blobdb.blob.index.evicted.size"}, {BLOB_DB_GC_NUM_FILES, "rocksdb.blobdb.gc.num.files"}, {BLOB_DB_GC_NUM_NEW_FILES, "rocksdb.blobdb.gc.num.new.files"}, {BLOB_DB_GC_FAILURES, "rocksdb.blobdb.gc.failures"}, {BLOB_DB_GC_NUM_KEYS_OVERWRITTEN, "rocksdb.blobdb.gc.num.keys.overwritten"}, {BLOB_DB_GC_NUM_KEYS_EXPIRED, "rocksdb.blobdb.gc.num.keys.expired"}, {BLOB_DB_GC_NUM_KEYS_RELOCATED, "rocksdb.blobdb.gc.num.keys.relocated"}, {BLOB_DB_GC_BYTES_OVERWRITTEN, "rocksdb.blobdb.gc.bytes.overwritten"}, {BLOB_DB_GC_BYTES_EXPIRED, "rocksdb.blobdb.gc.bytes.expired"}, {BLOB_DB_GC_BYTES_RELOCATED, "rocksdb.blobdb.gc.bytes.relocated"}, {BLOB_DB_FIFO_NUM_FILES_EVICTED, "rocksdb.blobdb.fifo.num.files.evicted"}, {BLOB_DB_FIFO_NUM_KEYS_EVICTED, "rocksdb.blobdb.fifo.num.keys.evicted"}, {BLOB_DB_FIFO_BYTES_EVICTED, "rocksdb.blobdb.fifo.bytes.evicted"}, {TXN_PREPARE_MUTEX_OVERHEAD, "rocksdb.txn.overhead.mutex.prepare"}, {TXN_OLD_COMMIT_MAP_MUTEX_OVERHEAD, "rocksdb.txn.overhead.mutex.old.commit.map"}, {TXN_DUPLICATE_KEY_OVERHEAD, "rocksdb.txn.overhead.duplicate.key"}, {TXN_SNAPSHOT_MUTEX_OVERHEAD, "rocksdb.txn.overhead.mutex.snapshot"}, {NUMBER_MULTIGET_KEYS_FOUND, "rocksdb.number.multiget.keys.found"}, }; /** * Keep adding histogram's here. * Any histogram should have value less than HISTOGRAM_ENUM_MAX * Add a new Histogram by assigning it the current value of HISTOGRAM_ENUM_MAX * Add a string representation in HistogramsNameMap below * And increment HISTOGRAM_ENUM_MAX * Add a corresponding enum value to HistogramType.java in the java API */ enum Histograms : uint32_t { DB_GET = 0, DB_WRITE, COMPACTION_TIME, SUBCOMPACTION_SETUP_TIME, TABLE_SYNC_MICROS, COMPACTION_OUTFILE_SYNC_MICROS, WAL_FILE_SYNC_MICROS, MANIFEST_FILE_SYNC_MICROS, // TIME SPENT IN IO DURING TABLE OPEN TABLE_OPEN_IO_MICROS, DB_MULTIGET, READ_BLOCK_COMPACTION_MICROS, READ_BLOCK_GET_MICROS, WRITE_RAW_BLOCK_MICROS, STALL_L0_SLOWDOWN_COUNT, STALL_MEMTABLE_COMPACTION_COUNT, STALL_L0_NUM_FILES_COUNT, HARD_RATE_LIMIT_DELAY_COUNT, SOFT_RATE_LIMIT_DELAY_COUNT, NUM_FILES_IN_SINGLE_COMPACTION, DB_SEEK, WRITE_STALL, SST_READ_MICROS, // The number of subcompactions actually scheduled during a compaction NUM_SUBCOMPACTIONS_SCHEDULED, // Value size distribution in each operation BYTES_PER_READ, BYTES_PER_WRITE, BYTES_PER_MULTIGET, // number of bytes compressed/decompressed // number of bytes is when uncompressed; i.e. before/after respectively BYTES_COMPRESSED, BYTES_DECOMPRESSED, COMPRESSION_TIMES_NANOS, DECOMPRESSION_TIMES_NANOS, // Number of merge operands passed to the merge operator in user read // requests. READ_NUM_MERGE_OPERANDS, // BlobDB specific stats // Size of keys written to BlobDB. BLOB_DB_KEY_SIZE, // Size of values written to BlobDB. BLOB_DB_VALUE_SIZE, // BlobDB Put/PutWithTTL/PutUntil/Write latency. BLOB_DB_WRITE_MICROS, // BlobDB Get lagency. BLOB_DB_GET_MICROS, // BlobDB MultiGet latency. BLOB_DB_MULTIGET_MICROS, // BlobDB Seek/SeekToFirst/SeekToLast/SeekForPrev latency. BLOB_DB_SEEK_MICROS, // BlobDB Next latency. BLOB_DB_NEXT_MICROS, // BlobDB Prev latency. BLOB_DB_PREV_MICROS, // Blob file write latency. BLOB_DB_BLOB_FILE_WRITE_MICROS, // Blob file read latency. BLOB_DB_BLOB_FILE_READ_MICROS, // Blob file sync latency. BLOB_DB_BLOB_FILE_SYNC_MICROS, // BlobDB garbage collection time. BLOB_DB_GC_MICROS, // BlobDB compression time. BLOB_DB_COMPRESSION_MICROS, // BlobDB decompression time. BLOB_DB_DECOMPRESSION_MICROS, // Time spent flushing memtable to disk FLUSH_TIME, HISTOGRAM_ENUM_MAX, // TODO(ldemailly): enforce HistogramsNameMap match }; const std::vector> HistogramsNameMap = { {DB_GET, "rocksdb.db.get.micros"}, {DB_WRITE, "rocksdb.db.write.micros"}, {COMPACTION_TIME, "rocksdb.compaction.times.micros"}, {SUBCOMPACTION_SETUP_TIME, "rocksdb.subcompaction.setup.times.micros"}, {TABLE_SYNC_MICROS, "rocksdb.table.sync.micros"}, {COMPACTION_OUTFILE_SYNC_MICROS, "rocksdb.compaction.outfile.sync.micros"}, {WAL_FILE_SYNC_MICROS, "rocksdb.wal.file.sync.micros"}, {MANIFEST_FILE_SYNC_MICROS, "rocksdb.manifest.file.sync.micros"}, {TABLE_OPEN_IO_MICROS, "rocksdb.table.open.io.micros"}, {DB_MULTIGET, "rocksdb.db.multiget.micros"}, {READ_BLOCK_COMPACTION_MICROS, "rocksdb.read.block.compaction.micros"}, {READ_BLOCK_GET_MICROS, "rocksdb.read.block.get.micros"}, {WRITE_RAW_BLOCK_MICROS, "rocksdb.write.raw.block.micros"}, {STALL_L0_SLOWDOWN_COUNT, "rocksdb.l0.slowdown.count"}, {STALL_MEMTABLE_COMPACTION_COUNT, "rocksdb.memtable.compaction.count"}, {STALL_L0_NUM_FILES_COUNT, "rocksdb.num.files.stall.count"}, {HARD_RATE_LIMIT_DELAY_COUNT, "rocksdb.hard.rate.limit.delay.count"}, {SOFT_RATE_LIMIT_DELAY_COUNT, "rocksdb.soft.rate.limit.delay.count"}, {NUM_FILES_IN_SINGLE_COMPACTION, "rocksdb.numfiles.in.singlecompaction"}, {DB_SEEK, "rocksdb.db.seek.micros"}, {WRITE_STALL, "rocksdb.db.write.stall"}, {SST_READ_MICROS, "rocksdb.sst.read.micros"}, {NUM_SUBCOMPACTIONS_SCHEDULED, "rocksdb.num.subcompactions.scheduled"}, {BYTES_PER_READ, "rocksdb.bytes.per.read"}, {BYTES_PER_WRITE, "rocksdb.bytes.per.write"}, {BYTES_PER_MULTIGET, "rocksdb.bytes.per.multiget"}, {BYTES_COMPRESSED, "rocksdb.bytes.compressed"}, {BYTES_DECOMPRESSED, "rocksdb.bytes.decompressed"}, {COMPRESSION_TIMES_NANOS, "rocksdb.compression.times.nanos"}, {DECOMPRESSION_TIMES_NANOS, "rocksdb.decompression.times.nanos"}, {READ_NUM_MERGE_OPERANDS, "rocksdb.read.num.merge_operands"}, {BLOB_DB_KEY_SIZE, "rocksdb.blobdb.key.size"}, {BLOB_DB_VALUE_SIZE, "rocksdb.blobdb.value.size"}, {BLOB_DB_WRITE_MICROS, "rocksdb.blobdb.write.micros"}, {BLOB_DB_GET_MICROS, "rocksdb.blobdb.get.micros"}, {BLOB_DB_MULTIGET_MICROS, "rocksdb.blobdb.multiget.micros"}, {BLOB_DB_SEEK_MICROS, "rocksdb.blobdb.seek.micros"}, {BLOB_DB_NEXT_MICROS, "rocksdb.blobdb.next.micros"}, {BLOB_DB_PREV_MICROS, "rocksdb.blobdb.prev.micros"}, {BLOB_DB_BLOB_FILE_WRITE_MICROS, "rocksdb.blobdb.blob.file.write.micros"}, {BLOB_DB_BLOB_FILE_READ_MICROS, "rocksdb.blobdb.blob.file.read.micros"}, {BLOB_DB_BLOB_FILE_SYNC_MICROS, "rocksdb.blobdb.blob.file.sync.micros"}, {BLOB_DB_GC_MICROS, "rocksdb.blobdb.gc.micros"}, {BLOB_DB_COMPRESSION_MICROS, "rocksdb.blobdb.compression.micros"}, {BLOB_DB_DECOMPRESSION_MICROS, "rocksdb.blobdb.decompression.micros"}, {FLUSH_TIME, "rocksdb.db.flush.micros"}, }; struct HistogramData { double median; double percentile95; double percentile99; double average; double standard_deviation; // zero-initialize new members since old Statistics::histogramData() // implementations won't write them. double max = 0.0; uint64_t count = 0; uint64_t sum = 0; }; enum StatsLevel { // Collect all stats except time inside mutex lock AND time spent on // compression. kExceptDetailedTimers, // Collect all stats except the counters requiring to get time inside the // mutex lock. kExceptTimeForMutex, // Collect all stats, including measuring duration of mutex operations. // If getting time is expensive on the platform to run, it can // reduce scalability to more threads, especially for writes. kAll, }; // Analyze the performance of a db class Statistics { public: virtual ~Statistics() {} virtual uint64_t getTickerCount(uint32_t tickerType) const = 0; virtual void histogramData(uint32_t type, HistogramData* const data) const = 0; virtual std::string getHistogramString(uint32_t /*type*/) const { return ""; } virtual void recordTick(uint32_t tickerType, uint64_t count = 0) = 0; virtual void setTickerCount(uint32_t tickerType, uint64_t count) = 0; virtual uint64_t getAndResetTickerCount(uint32_t tickerType) = 0; virtual void measureTime(uint32_t histogramType, uint64_t time) = 0; // Resets all ticker and histogram stats virtual Status Reset() { return Status::NotSupported("Not implemented"); } // String representation of the statistic object. virtual std::string ToString() const { // Do nothing by default return std::string("ToString(): not implemented"); } // Override this function to disable particular histogram collection virtual bool HistEnabledForType(uint32_t type) const { return type < HISTOGRAM_ENUM_MAX; } StatsLevel stats_level_ = kExceptDetailedTimers; }; // Create a concrete DBStatistics object std::shared_ptr CreateDBStatistics(); } // namespace rocksdb rocksdb-5.17.2/include/rocksdb/status.h000066400000000000000000000263631337235545400200300ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. // // A Status encapsulates the result of an operation. It may indicate success, // or it may indicate an error with an associated error message. // // Multiple threads can invoke const methods on a Status without // external synchronization, but if any of the threads may call a // non-const method, all threads accessing the same Status must use // external synchronization. #pragma once #include #include "rocksdb/slice.h" namespace rocksdb { class Status { public: // Create a success status. Status() : code_(kOk), subcode_(kNone), sev_(kNoError), state_(nullptr) {} ~Status() { delete[] state_; } // Copy the specified status. Status(const Status& s); Status& operator=(const Status& s); Status(Status&& s) #if !(defined _MSC_VER) || ((defined _MSC_VER) && (_MSC_VER >= 1900)) noexcept #endif ; Status& operator=(Status&& s) #if !(defined _MSC_VER) || ((defined _MSC_VER) && (_MSC_VER >= 1900)) noexcept #endif ; bool operator==(const Status& rhs) const; bool operator!=(const Status& rhs) const; enum Code : unsigned char { kOk = 0, kNotFound = 1, kCorruption = 2, kNotSupported = 3, kInvalidArgument = 4, kIOError = 5, kMergeInProgress = 6, kIncomplete = 7, kShutdownInProgress = 8, kTimedOut = 9, kAborted = 10, kBusy = 11, kExpired = 12, kTryAgain = 13, kCompactionTooLarge = 14 }; Code code() const { return code_; } enum SubCode : unsigned char { kNone = 0, kMutexTimeout = 1, kLockTimeout = 2, kLockLimit = 3, kNoSpace = 4, kDeadlock = 5, kStaleFile = 6, kMemoryLimit = 7, kSpaceLimit = 8, kMaxSubCode }; SubCode subcode() const { return subcode_; } enum Severity : unsigned char { kNoError = 0, kSoftError = 1, kHardError = 2, kFatalError = 3, kUnrecoverableError = 4, kMaxSeverity }; Status(const Status& s, Severity sev); Severity severity() const { return sev_; } // Returns a C style string indicating the message of the Status const char* getState() const { return state_; } // Return a success status. static Status OK() { return Status(); } // Return error status of an appropriate type. static Status NotFound(const Slice& msg, const Slice& msg2 = Slice()) { return Status(kNotFound, msg, msg2); } // Fast path for not found without malloc; static Status NotFound(SubCode msg = kNone) { return Status(kNotFound, msg); } static Status Corruption(const Slice& msg, const Slice& msg2 = Slice()) { return Status(kCorruption, msg, msg2); } static Status Corruption(SubCode msg = kNone) { return Status(kCorruption, msg); } static Status NotSupported(const Slice& msg, const Slice& msg2 = Slice()) { return Status(kNotSupported, msg, msg2); } static Status NotSupported(SubCode msg = kNone) { return Status(kNotSupported, msg); } static Status InvalidArgument(const Slice& msg, const Slice& msg2 = Slice()) { return Status(kInvalidArgument, msg, msg2); } static Status InvalidArgument(SubCode msg = kNone) { return Status(kInvalidArgument, msg); } static Status IOError(const Slice& msg, const Slice& msg2 = Slice()) { return Status(kIOError, msg, msg2); } static Status IOError(SubCode msg = kNone) { return Status(kIOError, msg); } static Status MergeInProgress(const Slice& msg, const Slice& msg2 = Slice()) { return Status(kMergeInProgress, msg, msg2); } static Status MergeInProgress(SubCode msg = kNone) { return Status(kMergeInProgress, msg); } static Status Incomplete(const Slice& msg, const Slice& msg2 = Slice()) { return Status(kIncomplete, msg, msg2); } static Status Incomplete(SubCode msg = kNone) { return Status(kIncomplete, msg); } static Status ShutdownInProgress(SubCode msg = kNone) { return Status(kShutdownInProgress, msg); } static Status ShutdownInProgress(const Slice& msg, const Slice& msg2 = Slice()) { return Status(kShutdownInProgress, msg, msg2); } static Status Aborted(SubCode msg = kNone) { return Status(kAborted, msg); } static Status Aborted(const Slice& msg, const Slice& msg2 = Slice()) { return Status(kAborted, msg, msg2); } static Status Busy(SubCode msg = kNone) { return Status(kBusy, msg); } static Status Busy(const Slice& msg, const Slice& msg2 = Slice()) { return Status(kBusy, msg, msg2); } static Status TimedOut(SubCode msg = kNone) { return Status(kTimedOut, msg); } static Status TimedOut(const Slice& msg, const Slice& msg2 = Slice()) { return Status(kTimedOut, msg, msg2); } static Status Expired(SubCode msg = kNone) { return Status(kExpired, msg); } static Status Expired(const Slice& msg, const Slice& msg2 = Slice()) { return Status(kExpired, msg, msg2); } static Status TryAgain(SubCode msg = kNone) { return Status(kTryAgain, msg); } static Status TryAgain(const Slice& msg, const Slice& msg2 = Slice()) { return Status(kTryAgain, msg, msg2); } static Status CompactionTooLarge(SubCode msg = kNone) { return Status(kCompactionTooLarge, msg); } static Status CompactionTooLarge(const Slice& msg, const Slice& msg2 = Slice()) { return Status(kCompactionTooLarge, msg, msg2); } static Status NoSpace() { return Status(kIOError, kNoSpace); } static Status NoSpace(const Slice& msg, const Slice& msg2 = Slice()) { return Status(kIOError, kNoSpace, msg, msg2); } static Status MemoryLimit() { return Status(kAborted, kMemoryLimit); } static Status MemoryLimit(const Slice& msg, const Slice& msg2 = Slice()) { return Status(kAborted, kMemoryLimit, msg, msg2); } static Status SpaceLimit() { return Status(kIOError, kSpaceLimit); } static Status SpaceLimit(const Slice& msg, const Slice& msg2 = Slice()) { return Status(kIOError, kSpaceLimit, msg, msg2); } // Returns true iff the status indicates success. bool ok() const { return code() == kOk; } // Returns true iff the status indicates a NotFound error. bool IsNotFound() const { return code() == kNotFound; } // Returns true iff the status indicates a Corruption error. bool IsCorruption() const { return code() == kCorruption; } // Returns true iff the status indicates a NotSupported error. bool IsNotSupported() const { return code() == kNotSupported; } // Returns true iff the status indicates an InvalidArgument error. bool IsInvalidArgument() const { return code() == kInvalidArgument; } // Returns true iff the status indicates an IOError. bool IsIOError() const { return code() == kIOError; } // Returns true iff the status indicates an MergeInProgress. bool IsMergeInProgress() const { return code() == kMergeInProgress; } // Returns true iff the status indicates Incomplete bool IsIncomplete() const { return code() == kIncomplete; } // Returns true iff the status indicates Shutdown In progress bool IsShutdownInProgress() const { return code() == kShutdownInProgress; } bool IsTimedOut() const { return code() == kTimedOut; } bool IsAborted() const { return code() == kAborted; } bool IsLockLimit() const { return code() == kAborted && subcode() == kLockLimit; } // Returns true iff the status indicates that a resource is Busy and // temporarily could not be acquired. bool IsBusy() const { return code() == kBusy; } bool IsDeadlock() const { return code() == kBusy && subcode() == kDeadlock; } // Returns true iff the status indicated that the operation has Expired. bool IsExpired() const { return code() == kExpired; } // Returns true iff the status indicates a TryAgain error. // This usually means that the operation failed, but may succeed if // re-attempted. bool IsTryAgain() const { return code() == kTryAgain; } // Returns true iff the status indicates the proposed compaction is too large bool IsCompactionTooLarge() const { return code() == kCompactionTooLarge; } // Returns true iff the status indicates a NoSpace error // This is caused by an I/O error returning the specific "out of space" // error condition. Stricto sensu, an NoSpace error is an I/O error // with a specific subcode, enabling users to take the appropriate action // if needed bool IsNoSpace() const { return (code() == kIOError) && (subcode() == kNoSpace); } // Returns true iff the status indicates a memory limit error. There may be // cases where we limit the memory used in certain operations (eg. the size // of a write batch) in order to avoid out of memory exceptions. bool IsMemoryLimit() const { return (code() == kAborted) && (subcode() == kMemoryLimit); } // Return a string representation of this status suitable for printing. // Returns the string "OK" for success. std::string ToString() const; private: // A nullptr state_ (which is always the case for OK) means the message // is empty. // of the following form: // state_[0..3] == length of message // state_[4..] == message Code code_; SubCode subcode_; Severity sev_; const char* state_; explicit Status(Code _code, SubCode _subcode = kNone) : code_(_code), subcode_(_subcode), sev_(kNoError), state_(nullptr) {} Status(Code _code, SubCode _subcode, const Slice& msg, const Slice& msg2); Status(Code _code, const Slice& msg, const Slice& msg2) : Status(_code, kNone, msg, msg2) {} static const char* CopyState(const char* s); }; inline Status::Status(const Status& s) : code_(s.code_), subcode_(s.subcode_), sev_(s.sev_) { state_ = (s.state_ == nullptr) ? nullptr : CopyState(s.state_); } inline Status::Status(const Status& s, Severity sev) : code_(s.code_), subcode_(s.subcode_), sev_(sev) { state_ = (s.state_ == nullptr) ? nullptr : CopyState(s.state_); } inline Status& Status::operator=(const Status& s) { // The following condition catches both aliasing (when this == &s), // and the common case where both s and *this are ok. if (this != &s) { code_ = s.code_; subcode_ = s.subcode_; sev_ = s.sev_; delete[] state_; state_ = (s.state_ == nullptr) ? nullptr : CopyState(s.state_); } return *this; } inline Status::Status(Status&& s) #if !(defined _MSC_VER) || ((defined _MSC_VER) && (_MSC_VER >= 1900)) noexcept #endif : Status() { *this = std::move(s); } inline Status& Status::operator=(Status&& s) #if !(defined _MSC_VER) || ((defined _MSC_VER) && (_MSC_VER >= 1900)) noexcept #endif { if (this != &s) { code_ = std::move(s.code_); s.code_ = kOk; subcode_ = std::move(s.subcode_); s.subcode_ = kNone; sev_ = std::move(s.sev_); s.sev_ = kNoError; delete[] state_; state_ = nullptr; std::swap(state_, s.state_); } return *this; } inline bool Status::operator==(const Status& rhs) const { return (code_ == rhs.code_); } inline bool Status::operator!=(const Status& rhs) const { return !(*this == rhs); } } // namespace rocksdb rocksdb-5.17.2/include/rocksdb/table.h000066400000000000000000000600521337235545400175650ustar00rootroot00000000000000// Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. // // Currently we support two types of tables: plain table and block-based table. // 1. Block-based table: this is the default table type that we inherited from // LevelDB, which was designed for storing data in hard disk or flash // device. // 2. Plain table: it is one of RocksDB's SST file format optimized // for low query latency on pure-memory or really low-latency media. // // A tutorial of rocksdb table formats is available here: // https://github.com/facebook/rocksdb/wiki/A-Tutorial-of-RocksDB-SST-formats // // Example code is also available // https://github.com/facebook/rocksdb/wiki/A-Tutorial-of-RocksDB-SST-formats#wiki-examples #pragma once #include #include #include #include "rocksdb/cache.h" #include "rocksdb/env.h" #include "rocksdb/iterator.h" #include "rocksdb/options.h" #include "rocksdb/status.h" namespace rocksdb { // -- Block-based Table class FlushBlockPolicyFactory; class PersistentCache; class RandomAccessFile; struct TableReaderOptions; struct TableBuilderOptions; class TableBuilder; class TableReader; class WritableFileWriter; struct EnvOptions; struct Options; using std::unique_ptr; enum ChecksumType : char { kNoChecksum = 0x0, kCRC32c = 0x1, kxxHash = 0x2, }; // For advanced user only struct BlockBasedTableOptions { // @flush_block_policy_factory creates the instances of flush block policy. // which provides a configurable way to determine when to flush a block in // the block based tables. If not set, table builder will use the default // block flush policy, which cut blocks by block size (please refer to // `FlushBlockBySizePolicy`). std::shared_ptr flush_block_policy_factory; // TODO(kailiu) Temporarily disable this feature by making the default value // to be false. // // Indicating if we'd put index/filter blocks to the block cache. // If not specified, each "table reader" object will pre-load index/filter // block during table initialization. bool cache_index_and_filter_blocks = false; // If cache_index_and_filter_blocks is enabled, cache index and filter // blocks with high priority. If set to true, depending on implementation of // block cache, index and filter blocks may be less likely to be evicted // than data blocks. bool cache_index_and_filter_blocks_with_high_priority = false; // if cache_index_and_filter_blocks is true and the below is true, then // filter and index blocks are stored in the cache, but a reference is // held in the "table reader" object so the blocks are pinned and only // evicted from cache when the table reader is freed. bool pin_l0_filter_and_index_blocks_in_cache = false; // If cache_index_and_filter_blocks is true and the below is true, then // the top-level index of partitioned filter and index blocks are stored in // the cache, but a reference is held in the "table reader" object so the // blocks are pinned and only evicted from cache when the table reader is // freed. This is not limited to l0 in LSM tree. bool pin_top_level_index_and_filter = true; // The index type that will be used for this table. enum IndexType : char { // A space efficient index block that is optimized for // binary-search-based index. kBinarySearch, // The hash index, if enabled, will do the hash lookup when // `Options.prefix_extractor` is provided. kHashSearch, // A two-level index implementation. Both levels are binary search indexes. kTwoLevelIndexSearch, }; IndexType index_type = kBinarySearch; // The index type that will be used for the data block. enum DataBlockIndexType : char { kDataBlockBinarySearch = 0, // traditional block type kDataBlockBinaryAndHash = 1, // additional hash index }; DataBlockIndexType data_block_index_type = kDataBlockBinarySearch; // #entries/#buckets. It is valid only when data_block_hash_index_type is // kDataBlockBinaryAndHash. double data_block_hash_table_util_ratio = 0.75; // This option is now deprecated. No matter what value it is set to, // it will behave as if hash_index_allow_collision=true. bool hash_index_allow_collision = true; // Use the specified checksum type. Newly created table files will be // protected with this checksum type. Old table files will still be readable, // even though they have different checksum type. ChecksumType checksum = kCRC32c; // Disable block cache. If this is set to true, // then no block cache should be used, and the block_cache should // point to a nullptr object. bool no_block_cache = false; // If non-NULL use the specified cache for blocks. // If NULL, rocksdb will automatically create and use an 8MB internal cache. std::shared_ptr block_cache = nullptr; // If non-NULL use the specified cache for pages read from device // IF NULL, no page cache is used std::shared_ptr persistent_cache = nullptr; // If non-NULL use the specified cache for compressed blocks. // If NULL, rocksdb will not use a compressed block cache. std::shared_ptr block_cache_compressed = nullptr; // Approximate size of user data packed per block. Note that the // block size specified here corresponds to uncompressed data. The // actual size of the unit read from disk may be smaller if // compression is enabled. This parameter can be changed dynamically. size_t block_size = 4 * 1024; // This is used to close a block before it reaches the configured // 'block_size'. If the percentage of free space in the current block is less // than this specified number and adding a new record to the block will // exceed the configured block size, then this block will be closed and the // new record will be written to the next block. int block_size_deviation = 10; // Number of keys between restart points for delta encoding of keys. // This parameter can be changed dynamically. Most clients should // leave this parameter alone. The minimum value allowed is 1. Any smaller // value will be silently overwritten with 1. int block_restart_interval = 16; // Same as block_restart_interval but used for the index block. int index_block_restart_interval = 1; // Block size for partitioned metadata. Currently applied to indexes when // kTwoLevelIndexSearch is used and to filters when partition_filters is used. // Note: Since in the current implementation the filters and index partitions // are aligned, an index/filter block is created when either index or filter // block size reaches the specified limit. // Note: this limit is currently applied to only index blocks; a filter // partition is cut right after an index block is cut // TODO(myabandeh): remove the note above when filter partitions are cut // separately uint64_t metadata_block_size = 4096; // Note: currently this option requires kTwoLevelIndexSearch to be set as // well. // TODO(myabandeh): remove the note above once the limitation is lifted // Use partitioned full filters for each SST file. This option is // incompatible with block-based filters. bool partition_filters = false; // Use delta encoding to compress keys in blocks. // ReadOptions::pin_data requires this option to be disabled. // // Default: true bool use_delta_encoding = true; // If non-nullptr, use the specified filter policy to reduce disk reads. // Many applications will benefit from passing the result of // NewBloomFilterPolicy() here. std::shared_ptr filter_policy = nullptr; // If true, place whole keys in the filter (not just prefixes). // This must generally be true for gets to be efficient. bool whole_key_filtering = true; // Verify that decompressing the compressed block gives back the input. This // is a verification mode that we use to detect bugs in compression // algorithms. bool verify_compression = false; // If used, For every data block we load into memory, we will create a bitmap // of size ((block_size / `read_amp_bytes_per_bit`) / 8) bytes. This bitmap // will be used to figure out the percentage we actually read of the blocks. // // When this feature is used Tickers::READ_AMP_ESTIMATE_USEFUL_BYTES and // Tickers::READ_AMP_TOTAL_READ_BYTES can be used to calculate the // read amplification using this formula // (READ_AMP_TOTAL_READ_BYTES / READ_AMP_ESTIMATE_USEFUL_BYTES) // // value => memory usage (percentage of loaded blocks memory) // 1 => 12.50 % // 2 => 06.25 % // 4 => 03.12 % // 8 => 01.56 % // 16 => 00.78 % // // Note: This number must be a power of 2, if not it will be sanitized // to be the next lowest power of 2, for example a value of 7 will be // treated as 4, a value of 19 will be treated as 16. // // Default: 0 (disabled) uint32_t read_amp_bytes_per_bit = 0; // We currently have three versions: // 0 -- This version is currently written out by all RocksDB's versions by // default. Can be read by really old RocksDB's. Doesn't support changing // checksum (default is CRC32). // 1 -- Can be read by RocksDB's versions since 3.0. Supports non-default // checksum, like xxHash. It is written by RocksDB when // BlockBasedTableOptions::checksum is something other than kCRC32c. (version // 0 is silently upconverted) // 2 -- Can be read by RocksDB's versions since 3.10. Changes the way we // encode compressed blocks with LZ4, BZip2 and Zlib compression. If you // don't plan to run RocksDB before version 3.10, you should probably use // this. // 3 -- Can be read by RocksDB's versions since 5.15. Changes the way we // encode the keys in index blocks. If you don't plan to run RocksDB before // version 5.15, you should probably use this. // This option only affects newly written tables. When reading existing // tables, the information about version is read from the footer. // 4 -- Can be read by RocksDB's versions since 5.16. Changes the way we // encode the values in index blocks. If you don't plan to run RocksDB before // version 5.16 and you are using index_block_restart_interval > 1, you should // probably use this as it would reduce the index size. // This option only affects newly written tables. When reading existing // tables, the information about version is read from the footer. uint32_t format_version = 2; // Store index blocks on disk in compressed format. Changing this option to // false will avoid the overhead of decompression if index blocks are evicted // and read back bool enable_index_compression = true; // Align data blocks on lesser of page size and block size bool block_align = false; }; // Table Properties that are specific to block-based table properties. struct BlockBasedTablePropertyNames { // value of this properties is a fixed int32 number. static const std::string kIndexType; // value is "1" for true and "0" for false. static const std::string kWholeKeyFiltering; // value is "1" for true and "0" for false. static const std::string kPrefixFiltering; }; // Create default block based table factory. extern TableFactory* NewBlockBasedTableFactory( const BlockBasedTableOptions& table_options = BlockBasedTableOptions()); #ifndef ROCKSDB_LITE enum EncodingType : char { // Always write full keys without any special encoding. kPlain, // Find opportunity to write the same prefix once for multiple rows. // In some cases, when a key follows a previous key with the same prefix, // instead of writing out the full key, it just writes out the size of the // shared prefix, as well as other bytes, to save some bytes. // // When using this option, the user is required to use the same prefix // extractor to make sure the same prefix will be extracted from the same key. // The Name() value of the prefix extractor will be stored in the file. When // reopening the file, the name of the options.prefix_extractor given will be // bitwise compared to the prefix extractors stored in the file. An error // will be returned if the two don't match. kPrefix, }; // Table Properties that are specific to plain table properties. struct PlainTablePropertyNames { static const std::string kEncodingType; static const std::string kBloomVersion; static const std::string kNumBloomBlocks; }; const uint32_t kPlainTableVariableLength = 0; struct PlainTableOptions { // @user_key_len: plain table has optimization for fix-sized keys, which can // be specified via user_key_len. Alternatively, you can pass // `kPlainTableVariableLength` if your keys have variable // lengths. uint32_t user_key_len = kPlainTableVariableLength; // @bloom_bits_per_key: the number of bits used for bloom filer per prefix. // You may disable it by passing a zero. int bloom_bits_per_key = 10; // @hash_table_ratio: the desired utilization of the hash table used for // prefix hashing. // hash_table_ratio = number of prefixes / #buckets in the // hash table double hash_table_ratio = 0.75; // @index_sparseness: inside each prefix, need to build one index record for // how many keys for binary search inside each hash bucket. // For encoding type kPrefix, the value will be used when // writing to determine an interval to rewrite the full // key. It will also be used as a suggestion and satisfied // when possible. size_t index_sparseness = 16; // @huge_page_tlb_size: if <=0, allocate hash indexes and blooms from malloc. // Otherwise from huge page TLB. The user needs to // reserve huge pages for it to be allocated, like: // sysctl -w vm.nr_hugepages=20 // See linux doc Documentation/vm/hugetlbpage.txt size_t huge_page_tlb_size = 0; // @encoding_type: how to encode the keys. See enum EncodingType above for // the choices. The value will determine how to encode keys // when writing to a new SST file. This value will be stored // inside the SST file which will be used when reading from // the file, which makes it possible for users to choose // different encoding type when reopening a DB. Files with // different encoding types can co-exist in the same DB and // can be read. EncodingType encoding_type = kPlain; // @full_scan_mode: mode for reading the whole file one record by one without // using the index. bool full_scan_mode = false; // @store_index_in_file: compute plain table index and bloom filter during // file building and store it in file. When reading // file, index will be mmaped instead of recomputation. bool store_index_in_file = false; }; // -- Plain Table with prefix-only seek // For this factory, you need to set Options.prefix_extractor properly to make it // work. Look-up will starts with prefix hash lookup for key prefix. Inside the // hash bucket found, a binary search is executed for hash conflicts. Finally, // a linear search is used. extern TableFactory* NewPlainTableFactory(const PlainTableOptions& options = PlainTableOptions()); struct CuckooTablePropertyNames { // The key that is used to fill empty buckets. static const std::string kEmptyKey; // Fixed length of value. static const std::string kValueLength; // Number of hash functions used in Cuckoo Hash. static const std::string kNumHashFunc; // It denotes the number of buckets in a Cuckoo Block. Given a key and a // particular hash function, a Cuckoo Block is a set of consecutive buckets, // where starting bucket id is given by the hash function on the key. In case // of a collision during inserting the key, the builder tries to insert the // key in other locations of the cuckoo block before using the next hash // function. This reduces cache miss during read operation in case of // collision. static const std::string kCuckooBlockSize; // Size of the hash table. Use this number to compute the modulo of hash // function. The actual number of buckets will be kMaxHashTableSize + // kCuckooBlockSize - 1. The last kCuckooBlockSize-1 buckets are used to // accommodate the Cuckoo Block from end of hash table, due to cache friendly // implementation. static const std::string kHashTableSize; // Denotes if the key sorted in the file is Internal Key (if false) // or User Key only (if true). static const std::string kIsLastLevel; // Indicate if using identity function for the first hash function. static const std::string kIdentityAsFirstHash; // Indicate if using module or bit and to calculate hash value static const std::string kUseModuleHash; // Fixed user key length static const std::string kUserKeyLength; }; struct CuckooTableOptions { // Determines the utilization of hash tables. Smaller values // result in larger hash tables with fewer collisions. double hash_table_ratio = 0.9; // A property used by builder to determine the depth to go to // to search for a path to displace elements in case of // collision. See Builder.MakeSpaceForKey method. Higher // values result in more efficient hash tables with fewer // lookups but take more time to build. uint32_t max_search_depth = 100; // In case of collision while inserting, the builder // attempts to insert in the next cuckoo_block_size // locations before skipping over to the next Cuckoo hash // function. This makes lookups more cache friendly in case // of collisions. uint32_t cuckoo_block_size = 5; // If this option is enabled, user key is treated as uint64_t and its value // is used as hash value directly. This option changes builder's behavior. // Reader ignore this option and behave according to what specified in table // property. bool identity_as_first_hash = false; // If this option is set to true, module is used during hash calculation. // This often yields better space efficiency at the cost of performance. // If this option is set to false, # of entries in table is constrained to be // power of two, and bit and is used to calculate hash, which is faster in // general. bool use_module_hash = true; }; // Cuckoo Table Factory for SST table format using Cache Friendly Cuckoo Hashing extern TableFactory* NewCuckooTableFactory( const CuckooTableOptions& table_options = CuckooTableOptions()); #endif // ROCKSDB_LITE class RandomAccessFileReader; // A base class for table factories. class TableFactory { public: virtual ~TableFactory() {} // The type of the table. // // The client of this package should switch to a new name whenever // the table format implementation changes. // // Names starting with "rocksdb." are reserved and should not be used // by any clients of this package. virtual const char* Name() const = 0; // Returns a Table object table that can fetch data from file specified // in parameter file. It's the caller's responsibility to make sure // file is in the correct format. // // NewTableReader() is called in three places: // (1) TableCache::FindTable() calls the function when table cache miss // and cache the table object returned. // (2) SstFileReader (for SST Dump) opens the table and dump the table // contents using the iterator of the table. // (3) DBImpl::IngestExternalFile() calls this function to read the contents of // the sst file it's attempting to add // // table_reader_options is a TableReaderOptions which contain all the // needed parameters and configuration to open the table. // file is a file handler to handle the file for the table. // file_size is the physical file size of the file. // table_reader is the output table reader. virtual Status NewTableReader( const TableReaderOptions& table_reader_options, unique_ptr&& file, uint64_t file_size, unique_ptr* table_reader, bool prefetch_index_and_filter_in_cache = true) const = 0; // Return a table builder to write to a file for this table type. // // It is called in several places: // (1) When flushing memtable to a level-0 output file, it creates a table // builder (In DBImpl::WriteLevel0Table(), by calling BuildTable()) // (2) During compaction, it gets the builder for writing compaction output // files in DBImpl::OpenCompactionOutputFile(). // (3) When recovering from transaction logs, it creates a table builder to // write to a level-0 output file (In DBImpl::WriteLevel0TableForRecovery, // by calling BuildTable()) // (4) When running Repairer, it creates a table builder to convert logs to // SST files (In Repairer::ConvertLogToTable() by calling BuildTable()) // // Multiple configured can be accessed from there, including and not limited // to compression options. file is a handle of a writable file. // It is the caller's responsibility to keep the file open and close the file // after closing the table builder. compression_type is the compression type // to use in this table. virtual TableBuilder* NewTableBuilder( const TableBuilderOptions& table_builder_options, uint32_t column_family_id, WritableFileWriter* file) const = 0; // Sanitizes the specified DB Options and ColumnFamilyOptions. // // If the function cannot find a way to sanitize the input DB Options, // a non-ok Status will be returned. virtual Status SanitizeOptions( const DBOptions& db_opts, const ColumnFamilyOptions& cf_opts) const = 0; // Return a string that contains printable format of table configurations. // RocksDB prints configurations at DB Open(). virtual std::string GetPrintableTableOptions() const = 0; virtual Status GetOptionString(std::string* /*opt_string*/, const std::string& /*delimiter*/) const { return Status::NotSupported( "The table factory doesn't implement GetOptionString()."); } // Returns the raw pointer of the table options that is used by this // TableFactory, or nullptr if this function is not supported. // Since the return value is a raw pointer, the TableFactory owns the // pointer and the caller should not delete the pointer. // // In certain case, it is desirable to alter the underlying options when the // TableFactory is not used by any open DB by casting the returned pointer // to the right class. For instance, if BlockBasedTableFactory is used, // then the pointer can be casted to BlockBasedTableOptions. // // Note that changing the underlying TableFactory options while the // TableFactory is currently used by any open DB is undefined behavior. // Developers should use DB::SetOption() instead to dynamically change // options while the DB is open. virtual void* GetOptions() { return nullptr; } // Return is delete range supported virtual bool IsDeleteRangeSupported() const { return false; } }; #ifndef ROCKSDB_LITE // Create a special table factory that can open either of the supported // table formats, based on setting inside the SST files. It should be used to // convert a DB from one table format to another. // @table_factory_to_write: the table factory used when writing to new files. // @block_based_table_factory: block based table factory to use. If NULL, use // a default one. // @plain_table_factory: plain table factory to use. If NULL, use a default one. // @cuckoo_table_factory: cuckoo table factory to use. If NULL, use a default one. extern TableFactory* NewAdaptiveTableFactory( std::shared_ptr table_factory_to_write = nullptr, std::shared_ptr block_based_table_factory = nullptr, std::shared_ptr plain_table_factory = nullptr, std::shared_ptr cuckoo_table_factory = nullptr); #endif // ROCKSDB_LITE } // namespace rocksdb rocksdb-5.17.2/include/rocksdb/table_properties.h000066400000000000000000000214101337235545400220340ustar00rootroot00000000000000// Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #include #include #include #include "rocksdb/status.h" #include "rocksdb/types.h" namespace rocksdb { // -- Table Properties // Other than basic table properties, each table may also have the user // collected properties. // The value of the user-collected properties are encoded as raw bytes -- // users have to interpret these values by themselves. // Note: To do prefix seek/scan in `UserCollectedProperties`, you can do // something similar to: // // UserCollectedProperties props = ...; // for (auto pos = props.lower_bound(prefix); // pos != props.end() && pos->first.compare(0, prefix.size(), prefix) == 0; // ++pos) { // ... // } typedef std::map UserCollectedProperties; // table properties' human-readable names in the property block. struct TablePropertiesNames { static const std::string kDataSize; static const std::string kIndexSize; static const std::string kIndexPartitions; static const std::string kTopLevelIndexSize; static const std::string kIndexKeyIsUserKey; static const std::string kIndexValueIsDeltaEncoded; static const std::string kFilterSize; static const std::string kRawKeySize; static const std::string kRawValueSize; static const std::string kNumDataBlocks; static const std::string kNumEntries; static const std::string kNumRangeDeletions; static const std::string kFormatVersion; static const std::string kFixedKeyLen; static const std::string kFilterPolicy; static const std::string kColumnFamilyName; static const std::string kColumnFamilyId; static const std::string kComparator; static const std::string kMergeOperator; static const std::string kPrefixExtractorName; static const std::string kPropertyCollectors; static const std::string kCompression; static const std::string kCreationTime; static const std::string kOldestKeyTime; }; extern const std::string kPropertiesBlock; extern const std::string kCompressionDictBlock; extern const std::string kRangeDelBlock; // `TablePropertiesCollector` provides the mechanism for users to collect // their own properties that they are interested in. This class is essentially // a collection of callback functions that will be invoked during table // building. It is constructed with TablePropertiesCollectorFactory. The methods // don't need to be thread-safe, as we will create exactly one // TablePropertiesCollector object per table and then call it sequentially class TablePropertiesCollector { public: virtual ~TablePropertiesCollector() {} // DEPRECATE User defined collector should implement AddUserKey(), though // this old function still works for backward compatible reason. // Add() will be called when a new key/value pair is inserted into the table. // @params key the user key that is inserted into the table. // @params value the value that is inserted into the table. virtual Status Add(const Slice& /*key*/, const Slice& /*value*/) { return Status::InvalidArgument( "TablePropertiesCollector::Add() deprecated."); } // AddUserKey() will be called when a new key/value pair is inserted into the // table. // @params key the user key that is inserted into the table. // @params value the value that is inserted into the table. virtual Status AddUserKey(const Slice& key, const Slice& value, EntryType /*type*/, SequenceNumber /*seq*/, uint64_t /*file_size*/) { // For backwards-compatibility. return Add(key, value); } // Finish() will be called when a table has already been built and is ready // for writing the properties block. // @params properties User will add their collected statistics to // `properties`. virtual Status Finish(UserCollectedProperties* properties) = 0; // Return the human-readable properties, where the key is property name and // the value is the human-readable form of value. virtual UserCollectedProperties GetReadableProperties() const = 0; // The name of the properties collector can be used for debugging purpose. virtual const char* Name() const = 0; // EXPERIMENTAL Return whether the output file should be further compacted virtual bool NeedCompact() const { return false; } }; // Constructs TablePropertiesCollector. Internals create a new // TablePropertiesCollector for each new table class TablePropertiesCollectorFactory { public: struct Context { uint32_t column_family_id; static const uint32_t kUnknownColumnFamily; }; virtual ~TablePropertiesCollectorFactory() {} // has to be thread-safe virtual TablePropertiesCollector* CreateTablePropertiesCollector( TablePropertiesCollectorFactory::Context context) = 0; // The name of the properties collector can be used for debugging purpose. virtual const char* Name() const = 0; }; // TableProperties contains a bunch of read-only properties of its associated // table. struct TableProperties { public: // the total size of all data blocks. uint64_t data_size = 0; // the size of index block. uint64_t index_size = 0; // Total number of index partitions if kTwoLevelIndexSearch is used uint64_t index_partitions = 0; // Size of the top-level index if kTwoLevelIndexSearch is used uint64_t top_level_index_size = 0; // Whether the index key is user key. Otherwise it includes 8 byte of sequence // number added by internal key format. uint64_t index_key_is_user_key = 0; // Whether delta encoding is used to encode the index values. uint64_t index_value_is_delta_encoded = 0; // the size of filter block. uint64_t filter_size = 0; // total raw key size uint64_t raw_key_size = 0; // total raw value size uint64_t raw_value_size = 0; // the number of blocks in this table uint64_t num_data_blocks = 0; // the number of entries in this table uint64_t num_entries = 0; // the number of range deletions in this table uint64_t num_range_deletions = 0; // format version, reserved for backward compatibility uint64_t format_version = 0; // If 0, key is variable length. Otherwise number of bytes for each key. uint64_t fixed_key_len = 0; // ID of column family for this SST file, corresponding to the CF identified // by column_family_name. uint64_t column_family_id = rocksdb::TablePropertiesCollectorFactory::Context::kUnknownColumnFamily; // The time when the SST file was created. // Since SST files are immutable, this is equivalent to last modified time. uint64_t creation_time = 0; // Timestamp of the earliest key. 0 means unknown. uint64_t oldest_key_time = 0; // Name of the column family with which this SST file is associated. // If column family is unknown, `column_family_name` will be an empty string. std::string column_family_name; // The name of the filter policy used in this table. // If no filter policy is used, `filter_policy_name` will be an empty string. std::string filter_policy_name; // The name of the comparator used in this table. std::string comparator_name; // The name of the merge operator used in this table. // If no merge operator is used, `merge_operator_name` will be "nullptr". std::string merge_operator_name; // The name of the prefix extractor used in this table // If no prefix extractor is used, `prefix_extractor_name` will be "nullptr". std::string prefix_extractor_name; // The names of the property collectors factories used in this table // separated by commas // {collector_name[1]},{collector_name[2]},{collector_name[3]} .. std::string property_collectors_names; // The compression algo used to compress the SST files. std::string compression_name; // user collected properties UserCollectedProperties user_collected_properties; UserCollectedProperties readable_properties; // The offset of the value of each property in the file. std::map properties_offsets; // convert this object to a human readable form // @prop_delim: delimiter for each property. std::string ToString(const std::string& prop_delim = "; ", const std::string& kv_delim = "=") const; // Aggregate the numerical member variables of the specified // TableProperties. void Add(const TableProperties& tp); }; // Extra properties // Below is a list of non-basic properties that are collected by database // itself. Especially some properties regarding to the internal keys (which // is unknown to `table`). extern uint64_t GetDeletedKeys(const UserCollectedProperties& props); extern uint64_t GetMergeOperands(const UserCollectedProperties& props, bool* property_present); } // namespace rocksdb rocksdb-5.17.2/include/rocksdb/thread_status.h000066400000000000000000000143611337235545400213520ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file defines the structures for exposing run-time status of any // rocksdb-related thread. Such run-time status can be obtained via // GetThreadList() API. // // Note that all thread-status features are still under-development, and // thus APIs and class definitions might subject to change at this point. // Will remove this comment once the APIs have been finalized. #pragma once #include #include #include #include #include #include #if !defined(ROCKSDB_LITE) && \ !defined(NROCKSDB_THREAD_STATUS) && \ defined(ROCKSDB_SUPPORT_THREAD_LOCAL) #define ROCKSDB_USING_THREAD_STATUS #endif namespace rocksdb { // TODO(yhchiang): remove this function once c++14 is available // as std::max will be able to cover this. // Current MS compiler does not support constexpr template struct constexpr_max { static const int result = (A > B) ? A : B; }; // A structure that describes the current status of a thread. // The status of active threads can be fetched using // rocksdb::GetThreadList(). struct ThreadStatus { // The type of a thread. enum ThreadType : int { HIGH_PRIORITY = 0, // RocksDB BG thread in high-pri thread pool LOW_PRIORITY, // RocksDB BG thread in low-pri thread pool USER, // User thread (Non-RocksDB BG thread) BOTTOM_PRIORITY, // RocksDB BG thread in bottom-pri thread pool NUM_THREAD_TYPES }; // The type used to refer to a thread operation. // A thread operation describes high-level action of a thread. // Examples include compaction and flush. enum OperationType : int { OP_UNKNOWN = 0, OP_COMPACTION, OP_FLUSH, NUM_OP_TYPES }; enum OperationStage : int { STAGE_UNKNOWN = 0, STAGE_FLUSH_RUN, STAGE_FLUSH_WRITE_L0, STAGE_COMPACTION_PREPARE, STAGE_COMPACTION_RUN, STAGE_COMPACTION_PROCESS_KV, STAGE_COMPACTION_INSTALL, STAGE_COMPACTION_SYNC_FILE, STAGE_PICK_MEMTABLES_TO_FLUSH, STAGE_MEMTABLE_ROLLBACK, STAGE_MEMTABLE_INSTALL_FLUSH_RESULTS, NUM_OP_STAGES }; enum CompactionPropertyType : int { COMPACTION_JOB_ID = 0, COMPACTION_INPUT_OUTPUT_LEVEL, COMPACTION_PROP_FLAGS, COMPACTION_TOTAL_INPUT_BYTES, COMPACTION_BYTES_READ, COMPACTION_BYTES_WRITTEN, NUM_COMPACTION_PROPERTIES }; enum FlushPropertyType : int { FLUSH_JOB_ID = 0, FLUSH_BYTES_MEMTABLES, FLUSH_BYTES_WRITTEN, NUM_FLUSH_PROPERTIES }; // The maximum number of properties of an operation. // This number should be set to the biggest NUM_XXX_PROPERTIES. static const int kNumOperationProperties = constexpr_max::result; // The type used to refer to a thread state. // A state describes lower-level action of a thread // such as reading / writing a file or waiting for a mutex. enum StateType : int { STATE_UNKNOWN = 0, STATE_MUTEX_WAIT = 1, NUM_STATE_TYPES }; ThreadStatus(const uint64_t _id, const ThreadType _thread_type, const std::string& _db_name, const std::string& _cf_name, const OperationType _operation_type, const uint64_t _op_elapsed_micros, const OperationStage _operation_stage, const uint64_t _op_props[], const StateType _state_type) : thread_id(_id), thread_type(_thread_type), db_name(_db_name), cf_name(_cf_name), operation_type(_operation_type), op_elapsed_micros(_op_elapsed_micros), operation_stage(_operation_stage), state_type(_state_type) { for (int i = 0; i < kNumOperationProperties; ++i) { op_properties[i] = _op_props[i]; } } // An unique ID for the thread. const uint64_t thread_id; // The type of the thread, it could be HIGH_PRIORITY, // LOW_PRIORITY, and USER const ThreadType thread_type; // The name of the DB instance where the thread is currently // involved with. It would be set to empty string if the thread // does not involve in any DB operation. const std::string db_name; // The name of the column family where the thread is currently // It would be set to empty string if the thread does not involve // in any column family. const std::string cf_name; // The operation (high-level action) that the current thread is involved. const OperationType operation_type; // The elapsed time of the current thread operation in microseconds. const uint64_t op_elapsed_micros; // An integer showing the current stage where the thread is involved // in the current operation. const OperationStage operation_stage; // A list of properties that describe some details about the current // operation. Same field in op_properties[] might have different // meanings for different operations. uint64_t op_properties[kNumOperationProperties]; // The state (lower-level action) that the current thread is involved. const StateType state_type; // The followings are a set of utility functions for interpreting // the information of ThreadStatus static std::string GetThreadTypeName(ThreadType thread_type); // Obtain the name of an operation given its type. static const std::string& GetOperationName(OperationType op_type); static const std::string MicrosToString(uint64_t op_elapsed_time); // Obtain a human-readable string describing the specified operation stage. static const std::string& GetOperationStageName( OperationStage stage); // Obtain the name of the "i"th operation property of the // specified operation. static const std::string& GetOperationPropertyName( OperationType op_type, int i); // Translate the "i"th property of the specified operation given // a property value. static std::map InterpretOperationProperties( OperationType op_type, const uint64_t* op_properties); // Obtain the name of a state given its type. static const std::string& GetStateName(StateType state_type); }; } // namespace rocksdb rocksdb-5.17.2/include/rocksdb/threadpool.h000066400000000000000000000037261337235545400206440ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #include namespace rocksdb { /* * ThreadPool is a component that will spawn N background threads that will * be used to execute scheduled work, The number of background threads could * be modified by calling SetBackgroundThreads(). * */ class ThreadPool { public: virtual ~ThreadPool() {} // Wait for all threads to finish. // Discard those threads that did not start // executing virtual void JoinAllThreads() = 0; // Set the number of background threads that will be executing the // scheduled jobs. virtual void SetBackgroundThreads(int num) = 0; virtual int GetBackgroundThreads() = 0; // Get the number of jobs scheduled in the ThreadPool queue. virtual unsigned int GetQueueLen() const = 0; // Waits for all jobs to complete those // that already started running and those that did not // start yet. This ensures that everything that was thrown // on the TP runs even though // we may not have specified enough threads for the amount // of jobs virtual void WaitForJobsAndJoinAllThreads() = 0; // Submit a fire and forget jobs // This allows to submit the same job multiple times virtual void SubmitJob(const std::function&) = 0; // This moves the function in for efficiency virtual void SubmitJob(std::function&&) = 0; }; // NewThreadPool() is a function that could be used to create a ThreadPool // with `num_threads` background threads. extern ThreadPool* NewThreadPool(int num_threads); } // namespace rocksdb rocksdb-5.17.2/include/rocksdb/trace_reader_writer.h000066400000000000000000000032131337235545400225060ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #include "rocksdb/env.h" namespace rocksdb { // Allow custom implementations of TraceWriter and TraceReader. // By default, RocksDB provides a way to capture the traces to a file using the // factory NewFileTraceWriter(). But users could also choose to export traces to // any other system by providing custom implementations of TraceWriter and // TraceReader. // TraceWriter allows exporting RocksDB traces to any system, one operation at // a time. class TraceWriter { public: TraceWriter() {} virtual ~TraceWriter() {} virtual Status Write(const Slice& data) = 0; virtual Status Close() = 0; }; // TraceReader allows reading RocksDB traces from any system, one operation at // a time. A RocksDB Replayer could depend on this to replay opertions. class TraceReader { public: TraceReader() {} virtual ~TraceReader() {} virtual Status Read(std::string* data) = 0; virtual Status Close() = 0; }; // Factory methods to read/write traces from/to a file. Status NewFileTraceWriter(Env* env, const EnvOptions& env_options, const std::string& trace_filename, std::unique_ptr* trace_writer); Status NewFileTraceReader(Env* env, const EnvOptions& env_options, const std::string& trace_filename, std::unique_ptr* trace_reader); } // namespace rocksdb rocksdb-5.17.2/include/rocksdb/transaction_log.h000066400000000000000000000073141337235545400216660ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #include "rocksdb/status.h" #include "rocksdb/types.h" #include "rocksdb/write_batch.h" #include #include namespace rocksdb { class LogFile; typedef std::vector> VectorLogPtr; enum WalFileType { /* Indicates that WAL file is in archive directory. WAL files are moved from * the main db directory to archive directory once they are not live and stay * there until cleaned up. Files are cleaned depending on archive size * (Options::WAL_size_limit_MB) and time since last cleaning * (Options::WAL_ttl_seconds). */ kArchivedLogFile = 0, /* Indicates that WAL file is live and resides in the main db directory */ kAliveLogFile = 1 } ; class LogFile { public: LogFile() {} virtual ~LogFile() {} // Returns log file's pathname relative to the main db dir // Eg. For a live-log-file = /000003.log // For an archived-log-file = /archive/000003.log virtual std::string PathName() const = 0; // Primary identifier for log file. // This is directly proportional to creation time of the log file virtual uint64_t LogNumber() const = 0; // Log file can be either alive or archived virtual WalFileType Type() const = 0; // Starting sequence number of writebatch written in this log file virtual SequenceNumber StartSequence() const = 0; // Size of log file on disk in Bytes virtual uint64_t SizeFileBytes() const = 0; }; struct BatchResult { SequenceNumber sequence = 0; std::unique_ptr writeBatchPtr; // Add empty __ctor and __dtor for the rule of five // However, preserve the original semantics and prohibit copying // as the unique_ptr member does not copy. BatchResult() {} ~BatchResult() {} BatchResult(const BatchResult&) = delete; BatchResult& operator=(const BatchResult&) = delete; BatchResult(BatchResult&& bResult) : sequence(std::move(bResult.sequence)), writeBatchPtr(std::move(bResult.writeBatchPtr)) {} BatchResult& operator=(BatchResult&& bResult) { sequence = std::move(bResult.sequence); writeBatchPtr = std::move(bResult.writeBatchPtr); return *this; } }; // A TransactionLogIterator is used to iterate over the transactions in a db. // One run of the iterator is continuous, i.e. the iterator will stop at the // beginning of any gap in sequences class TransactionLogIterator { public: TransactionLogIterator() {} virtual ~TransactionLogIterator() {} // An iterator is either positioned at a WriteBatch or not valid. // This method returns true if the iterator is valid. // Can read data from a valid iterator. virtual bool Valid() = 0; // Moves the iterator to the next WriteBatch. // REQUIRES: Valid() to be true. virtual void Next() = 0; // Returns ok if the iterator is valid. // Returns the Error when something has gone wrong. virtual Status status() = 0; // If valid return's the current write_batch and the sequence number of the // earliest transaction contained in the batch. // ONLY use if Valid() is true and status() is OK. virtual BatchResult GetBatch() = 0; // The read options for TransactionLogIterator. struct ReadOptions { // If true, all data read from underlying storage will be // verified against corresponding checksums. // Default: true bool verify_checksums_; ReadOptions() : verify_checksums_(true) {} explicit ReadOptions(bool verify_checksums) : verify_checksums_(verify_checksums) {} }; }; } // namespace rocksdb rocksdb-5.17.2/include/rocksdb/types.h000066400000000000000000000025511337235545400176420ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #include #include "rocksdb/slice.h" namespace rocksdb { // Define all public custom types here. // Represents a sequence number in a WAL file. typedef uint64_t SequenceNumber; // User-oriented representation of internal key types. enum EntryType { kEntryPut, kEntryDelete, kEntrySingleDelete, kEntryMerge, kEntryRangeDeletion, kEntryBlobIndex, kEntryOther, }; // tuple. struct FullKey { Slice user_key; SequenceNumber sequence; EntryType type; FullKey() : sequence(0) {} // Intentionally left uninitialized (for speed) FullKey(const Slice& u, const SequenceNumber& seq, EntryType t) : user_key(u), sequence(seq), type(t) { } std::string DebugString(bool hex = false) const; void clear() { user_key.clear(); sequence = 0; type = EntryType::kEntryPut; } }; // Parse slice representing internal key to FullKey // Parsed FullKey is valid for as long as the memory pointed to by // internal_key is alive. bool ParseFullKey(const Slice& internal_key, FullKey* result); } // namespace rocksdb rocksdb-5.17.2/include/rocksdb/universal_compaction.h000066400000000000000000000064671337235545400227340ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #include #include #include namespace rocksdb { // // Algorithm used to make a compaction request stop picking new files // into a single compaction run // enum CompactionStopStyle { kCompactionStopStyleSimilarSize, // pick files of similar size kCompactionStopStyleTotalSize // total size of picked files > next file }; class CompactionOptionsUniversal { public: // Percentage flexibility while comparing file size. If the candidate file(s) // size is 1% smaller than the next file's size, then include next file into // this candidate set. // Default: 1 unsigned int size_ratio; // The minimum number of files in a single compaction run. Default: 2 unsigned int min_merge_width; // The maximum number of files in a single compaction run. Default: UINT_MAX unsigned int max_merge_width; // The size amplification is defined as the amount (in percentage) of // additional storage needed to store a single byte of data in the database. // For example, a size amplification of 2% means that a database that // contains 100 bytes of user-data may occupy upto 102 bytes of // physical storage. By this definition, a fully compacted database has // a size amplification of 0%. Rocksdb uses the following heuristic // to calculate size amplification: it assumes that all files excluding // the earliest file contribute to the size amplification. // Default: 200, which means that a 100 byte database could require upto // 300 bytes of storage. unsigned int max_size_amplification_percent; // If this option is set to be -1 (the default value), all the output files // will follow compression type specified. // // If this option is not negative, we will try to make sure compressed // size is just above this value. In normal cases, at least this percentage // of data will be compressed. // When we are compacting to a new file, here is the criteria whether // it needs to be compressed: assuming here are the list of files sorted // by generation time: // A1...An B1...Bm C1...Ct // where A1 is the newest and Ct is the oldest, and we are going to compact // B1...Bm, we calculate the total size of all the files as total_size, as // well as the total size of C1...Ct as total_C, the compaction output file // will be compressed iff // total_C / total_size < this percentage // Default: -1 int compression_size_percent; // The algorithm used to stop picking files into a single compaction run // Default: kCompactionStopStyleTotalSize CompactionStopStyle stop_style; // Option to optimize the universal multi level compaction by enabling // trivial move for non overlapping files. // Default: false bool allow_trivial_move; // Default set of parameters CompactionOptionsUniversal() : size_ratio(1), min_merge_width(2), max_merge_width(UINT_MAX), max_size_amplification_percent(200), compression_size_percent(-1), stop_style(kCompactionStopStyleTotalSize), allow_trivial_move(false) {} }; } // namespace rocksdb rocksdb-5.17.2/include/rocksdb/utilities/000077500000000000000000000000001337235545400203355ustar00rootroot00000000000000rocksdb-5.17.2/include/rocksdb/utilities/backupable_db.h000066400000000000000000000305401337235545400232460ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #ifndef ROCKSDB_LITE #ifndef __STDC_FORMAT_MACROS #define __STDC_FORMAT_MACROS #endif #include #include #include #include #include #include "rocksdb/utilities/stackable_db.h" #include "rocksdb/env.h" #include "rocksdb/status.h" namespace rocksdb { struct BackupableDBOptions { // Where to keep the backup files. Has to be different than dbname_ // Best to set this to dbname_ + "/backups" // Required std::string backup_dir; // Backup Env object. It will be used for backup file I/O. If it's // nullptr, backups will be written out using DBs Env. If it's // non-nullptr, backup's I/O will be performed using this object. // If you want to have backups on HDFS, use HDFS Env here! // Default: nullptr Env* backup_env; // If share_table_files == true, backup will assume that table files with // same name have the same contents. This enables incremental backups and // avoids unnecessary data copies. // If share_table_files == false, each backup will be on its own and will // not share any data with other backups. // default: true bool share_table_files; // Backup info and error messages will be written to info_log // if non-nullptr. // Default: nullptr Logger* info_log; // If sync == true, we can guarantee you'll get consistent backup even // on a machine crash/reboot. Backup process is slower with sync enabled. // If sync == false, we don't guarantee anything on machine reboot. However, // chances are some of the backups are consistent. // Default: true bool sync; // If true, it will delete whatever backups there are already // Default: false bool destroy_old_data; // If false, we won't backup log files. This option can be useful for backing // up in-memory databases where log file are persisted, but table files are in // memory. // Default: true bool backup_log_files; // Max bytes that can be transferred in a second during backup. // If 0, go as fast as you can // Default: 0 uint64_t backup_rate_limit; // Backup rate limiter. Used to control transfer speed for backup. If this is // not null, backup_rate_limit is ignored. // Default: nullptr std::shared_ptr backup_rate_limiter{nullptr}; // Max bytes that can be transferred in a second during restore. // If 0, go as fast as you can // Default: 0 uint64_t restore_rate_limit; // Restore rate limiter. Used to control transfer speed during restore. If // this is not null, restore_rate_limit is ignored. // Default: nullptr std::shared_ptr restore_rate_limiter{nullptr}; // Only used if share_table_files is set to true. If true, will consider that // backups can come from different databases, hence a sst is not uniquely // identifed by its name, but by the triple (file name, crc32, file length) // Default: false // Note: this is an experimental option, and you'll need to set it manually // *turn it on only if you know what you're doing* bool share_files_with_checksum; // Up to this many background threads will copy files for CreateNewBackup() // and RestoreDBFromBackup() // Default: 1 int max_background_operations; // During backup user can get callback every time next // callback_trigger_interval_size bytes being copied. // Default: 4194304 uint64_t callback_trigger_interval_size; // When Open() is called, it will open at most this many of the latest // non-corrupted backups. // // Note setting this to a non-default value prevents old files from being // deleted in the shared directory, as we can't do proper ref-counting. If // using this option, make sure to occasionally disable it (by resetting to // INT_MAX) and run GarbageCollect to clean accumulated stale files. // // Default: INT_MAX int max_valid_backups_to_open; void Dump(Logger* logger) const; explicit BackupableDBOptions( const std::string& _backup_dir, Env* _backup_env = nullptr, bool _share_table_files = true, Logger* _info_log = nullptr, bool _sync = true, bool _destroy_old_data = false, bool _backup_log_files = true, uint64_t _backup_rate_limit = 0, uint64_t _restore_rate_limit = 0, int _max_background_operations = 1, uint64_t _callback_trigger_interval_size = 4 * 1024 * 1024, int _max_valid_backups_to_open = INT_MAX) : backup_dir(_backup_dir), backup_env(_backup_env), share_table_files(_share_table_files), info_log(_info_log), sync(_sync), destroy_old_data(_destroy_old_data), backup_log_files(_backup_log_files), backup_rate_limit(_backup_rate_limit), restore_rate_limit(_restore_rate_limit), share_files_with_checksum(false), max_background_operations(_max_background_operations), callback_trigger_interval_size(_callback_trigger_interval_size), max_valid_backups_to_open(_max_valid_backups_to_open) { assert(share_table_files || !share_files_with_checksum); } }; struct RestoreOptions { // If true, restore won't overwrite the existing log files in wal_dir. It will // also move all log files from archive directory to wal_dir. Use this option // in combination with BackupableDBOptions::backup_log_files = false for // persisting in-memory databases. // Default: false bool keep_log_files; explicit RestoreOptions(bool _keep_log_files = false) : keep_log_files(_keep_log_files) {} }; typedef uint32_t BackupID; struct BackupInfo { BackupID backup_id; int64_t timestamp; uint64_t size; uint32_t number_files; std::string app_metadata; BackupInfo() {} BackupInfo(BackupID _backup_id, int64_t _timestamp, uint64_t _size, uint32_t _number_files, const std::string& _app_metadata) : backup_id(_backup_id), timestamp(_timestamp), size(_size), number_files(_number_files), app_metadata(_app_metadata) {} }; class BackupStatistics { public: BackupStatistics() { number_success_backup = 0; number_fail_backup = 0; } BackupStatistics(uint32_t _number_success_backup, uint32_t _number_fail_backup) : number_success_backup(_number_success_backup), number_fail_backup(_number_fail_backup) {} ~BackupStatistics() {} void IncrementNumberSuccessBackup(); void IncrementNumberFailBackup(); uint32_t GetNumberSuccessBackup() const; uint32_t GetNumberFailBackup() const; std::string ToString() const; private: uint32_t number_success_backup; uint32_t number_fail_backup; }; // A backup engine for accessing information about backups and restoring from // them. class BackupEngineReadOnly { public: virtual ~BackupEngineReadOnly() {} static Status Open(Env* db_env, const BackupableDBOptions& options, BackupEngineReadOnly** backup_engine_ptr); // Returns info about backups in backup_info // You can GetBackupInfo safely, even with other BackupEngine performing // backups on the same directory virtual void GetBackupInfo(std::vector* backup_info) = 0; // Returns info about corrupt backups in corrupt_backups virtual void GetCorruptedBackups( std::vector* corrupt_backup_ids) = 0; // Restoring DB from backup is NOT safe when there is another BackupEngine // running that might call DeleteBackup() or PurgeOldBackups(). It is caller's // responsibility to synchronize the operation, i.e. don't delete the backup // when you're restoring from it // See also the corresponding doc in BackupEngine virtual Status RestoreDBFromBackup( BackupID backup_id, const std::string& db_dir, const std::string& wal_dir, const RestoreOptions& restore_options = RestoreOptions()) = 0; // See the corresponding doc in BackupEngine virtual Status RestoreDBFromLatestBackup( const std::string& db_dir, const std::string& wal_dir, const RestoreOptions& restore_options = RestoreOptions()) = 0; // checks that each file exists and that the size of the file matches our // expectations. it does not check file checksum. // // If this BackupEngine created the backup, it compares the files' current // sizes against the number of bytes written to them during creation. // Otherwise, it compares the files' current sizes against their sizes when // the BackupEngine was opened. // // Returns Status::OK() if all checks are good virtual Status VerifyBackup(BackupID backup_id) = 0; }; // A backup engine for creating new backups. class BackupEngine { public: virtual ~BackupEngine() {} // BackupableDBOptions have to be the same as the ones used in previous // BackupEngines for the same backup directory. static Status Open(Env* db_env, const BackupableDBOptions& options, BackupEngine** backup_engine_ptr); // same as CreateNewBackup, but stores extra application metadata // Flush will always trigger if 2PC is enabled. virtual Status CreateNewBackupWithMetadata( DB* db, const std::string& app_metadata, bool flush_before_backup = false, std::function progress_callback = []() {}) = 0; // Captures the state of the database in the latest backup // NOT a thread safe call // Flush will always trigger if 2PC is enabled. virtual Status CreateNewBackup(DB* db, bool flush_before_backup = false, std::function progress_callback = []() {}) { return CreateNewBackupWithMetadata(db, "", flush_before_backup, progress_callback); } // deletes old backups, keeping latest num_backups_to_keep alive virtual Status PurgeOldBackups(uint32_t num_backups_to_keep) = 0; // deletes a specific backup virtual Status DeleteBackup(BackupID backup_id) = 0; // Call this from another thread if you want to stop the backup // that is currently happening. It will return immediatelly, will // not wait for the backup to stop. // The backup will stop ASAP and the call to CreateNewBackup will // return Status::Incomplete(). It will not clean up after itself, but // the state will remain consistent. The state will be cleaned up // next time you create BackupableDB or RestoreBackupableDB. virtual void StopBackup() = 0; // Returns info about backups in backup_info virtual void GetBackupInfo(std::vector* backup_info) = 0; // Returns info about corrupt backups in corrupt_backups virtual void GetCorruptedBackups( std::vector* corrupt_backup_ids) = 0; // restore from backup with backup_id // IMPORTANT -- if options_.share_table_files == true, // options_.share_files_with_checksum == false, you restore DB from some // backup that is not the latest, and you start creating new backups from the // new DB, they will probably fail. // // Example: Let's say you have backups 1, 2, 3, 4, 5 and you restore 3. // If you add new data to the DB and try creating a new backup now, the // database will diverge from backups 4 and 5 and the new backup will fail. // If you want to create new backup, you will first have to delete backups 4 // and 5. virtual Status RestoreDBFromBackup( BackupID backup_id, const std::string& db_dir, const std::string& wal_dir, const RestoreOptions& restore_options = RestoreOptions()) = 0; // restore from the latest backup virtual Status RestoreDBFromLatestBackup( const std::string& db_dir, const std::string& wal_dir, const RestoreOptions& restore_options = RestoreOptions()) = 0; // checks that each file exists and that the size of the file matches our // expectations. it does not check file checksum. // Returns Status::OK() if all checks are good virtual Status VerifyBackup(BackupID backup_id) = 0; // Will delete all the files we don't need anymore // It will do the full scan of the files/ directory and delete all the // files that are not referenced. virtual Status GarbageCollect() = 0; }; } // namespace rocksdb #endif // ROCKSDB_LITE rocksdb-5.17.2/include/rocksdb/utilities/checkpoint.h000066400000000000000000000032271337235545400226410ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // A checkpoint is an openable snapshot of a database at a point in time. #pragma once #ifndef ROCKSDB_LITE #include #include "rocksdb/status.h" namespace rocksdb { class DB; class Checkpoint { public: // Creates a Checkpoint object to be used for creating openable snapshots static Status Create(DB* db, Checkpoint** checkpoint_ptr); // Builds an openable snapshot of RocksDB on the same disk, which // accepts an output directory on the same disk, and under the directory // (1) hard-linked SST files pointing to existing live SST files // SST files will be copied if output directory is on a different filesystem // (2) a copied manifest files and other files // The directory should not already exist and will be created by this API. // The directory will be an absolute path // log_size_for_flush: if the total log file size is equal or larger than // this value, then a flush is triggered for all the column families. The // default value is 0, which means flush is always triggered. If you move // away from the default, the checkpoint may not contain up-to-date data // if WAL writing is not always enabled. // Flush will always trigger if it is 2PC. virtual Status CreateCheckpoint(const std::string& checkpoint_dir, uint64_t log_size_for_flush = 0); virtual ~Checkpoint() {} }; } // namespace rocksdb #endif // !ROCKSDB_LITE rocksdb-5.17.2/include/rocksdb/utilities/convenience.h000066400000000000000000000005471337235545400230100ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once // This file was moved to rocksdb/convenience.h" #include "rocksdb/convenience.h" rocksdb-5.17.2/include/rocksdb/utilities/date_tiered_db.h000066400000000000000000000115351337235545400234310ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #ifndef ROCKSDB_LITE #include #include #include #include "rocksdb/db.h" namespace rocksdb { // Date tiered database is a wrapper of DB that implements // a simplified DateTieredCompactionStrategy by using multiple column famillies // as time windows. // // DateTieredDB provides an interface similar to DB, but it assumes that user // provides keys with last 8 bytes encoded as timestamp in seconds. DateTieredDB // is assigned with a TTL to declare when data should be deleted. // // DateTieredDB hides column families layer from standard RocksDB instance. It // uses multiple column families to manage time series data, each containing a // specific range of time. Column families are named by its maximum possible // timestamp. A column family is created automatically when data newer than // latest timestamp of all existing column families. The time range of a column // family is configurable by `column_family_interval`. By doing this, we // guarantee that compaction will only happen in a column family. // // DateTieredDB is assigned with a TTL. When all data in a column family are // expired (CF_Timestamp <= CUR_Timestamp - TTL), we directly drop the whole // column family. // // TODO(jhli): This is only a simplified version of DTCS. In a complete DTCS, // time windows can be merged over time, so that older time windows will have // larger time range. Also, compaction are executed only for adjacent SST files // to guarantee there is no time overlap between SST files. class DateTieredDB { public: // Open a DateTieredDB whose name is `dbname`. // Similar to DB::Open(), created database object is stored in dbptr. // // Two parameters can be configured: `ttl` to specify the length of time that // keys should exist in the database, and `column_family_interval` to specify // the time range of a column family interval. // // Open a read only database if read only is set as true. // TODO(jhli): Should use an option object that includes ttl and // column_family_interval. static Status Open(const Options& options, const std::string& dbname, DateTieredDB** dbptr, int64_t ttl, int64_t column_family_interval, bool read_only = false); explicit DateTieredDB() {} virtual ~DateTieredDB() {} // Wrapper for Put method. Similar to DB::Put(), but column family to be // inserted is decided by the timestamp in keys, i.e. the last 8 bytes of user // key. If key is already obsolete, it will not be inserted. // // When client put a key value pair in DateTieredDB, it assumes last 8 bytes // of keys are encoded as timestamp. Timestamp is a 64-bit signed integer // encoded as the number of seconds since 1970-01-01 00:00:00 (UTC) (Same as // Env::GetCurrentTime()). Timestamp should be encoded in big endian. virtual Status Put(const WriteOptions& options, const Slice& key, const Slice& val) = 0; // Wrapper for Get method. Similar to DB::Get() but column family is decided // by timestamp in keys. If key is already obsolete, it will not be found. virtual Status Get(const ReadOptions& options, const Slice& key, std::string* value) = 0; // Wrapper for Delete method. Similar to DB::Delete() but column family is // decided by timestamp in keys. If key is already obsolete, return NotFound // status. virtual Status Delete(const WriteOptions& options, const Slice& key) = 0; // Wrapper for KeyMayExist method. Similar to DB::KeyMayExist() but column // family is decided by timestamp in keys. Return false when key is already // obsolete. virtual bool KeyMayExist(const ReadOptions& options, const Slice& key, std::string* value, bool* value_found = nullptr) = 0; // Wrapper for Merge method. Similar to DB::Merge() but column family is // decided by timestamp in keys. virtual Status Merge(const WriteOptions& options, const Slice& key, const Slice& value) = 0; // Create an iterator that hides low level details. This iterator internally // merge results from all active time series column families. Note that // column families are not deleted until all data are obsolete, so this // iterator can possibly access obsolete key value pairs. virtual Iterator* NewIterator(const ReadOptions& opts) = 0; // Explicitly drop column families in which all keys are obsolete. This // process is also inplicitly done in Put() operation. virtual Status DropObsoleteColumnFamilies() = 0; static const uint64_t kTSLength = sizeof(int64_t); // size of timestamp }; } // namespace rocksdb #endif // ROCKSDB_LITE rocksdb-5.17.2/include/rocksdb/utilities/db_ttl.h000066400000000000000000000054631337235545400217660ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #ifndef ROCKSDB_LITE #include #include #include "rocksdb/utilities/stackable_db.h" #include "rocksdb/db.h" namespace rocksdb { // Database with TTL support. // // USE-CASES: // This API should be used to open the db when key-values inserted are // meant to be removed from the db in a non-strict 'ttl' amount of time // Therefore, this guarantees that key-values inserted will remain in the // db for >= ttl amount of time and the db will make efforts to remove the // key-values as soon as possible after ttl seconds of their insertion. // // BEHAVIOUR: // TTL is accepted in seconds // (int32_t)Timestamp(creation) is suffixed to values in Put internally // Expired TTL values deleted in compaction only:(Timestamp+ttl=5 // read_only=true opens in the usual read-only mode. Compactions will not be // triggered(neither manual nor automatic), so no expired entries removed // // CONSTRAINTS: // Not specifying/passing or non-positive TTL behaves like TTL = infinity // // !!!WARNING!!!: // Calling DB::Open directly to re-open a db created by this API will get // corrupt values(timestamp suffixed) and no ttl effect will be there // during the second Open, so use this API consistently to open the db // Be careful when passing ttl with a small positive value because the // whole database may be deleted in a small amount of time class DBWithTTL : public StackableDB { public: virtual Status CreateColumnFamilyWithTtl( const ColumnFamilyOptions& options, const std::string& column_family_name, ColumnFamilyHandle** handle, int ttl) = 0; static Status Open(const Options& options, const std::string& dbname, DBWithTTL** dbptr, int32_t ttl = 0, bool read_only = false); static Status Open(const DBOptions& db_options, const std::string& dbname, const std::vector& column_families, std::vector* handles, DBWithTTL** dbptr, std::vector ttls, bool read_only = false); virtual void SetTtl(int32_t ttl) = 0; virtual void SetTtl(ColumnFamilyHandle *h, int32_t ttl) = 0; protected: explicit DBWithTTL(DB* db) : StackableDB(db) {} }; } // namespace rocksdb #endif // ROCKSDB_LITE rocksdb-5.17.2/include/rocksdb/utilities/debug.h000066400000000000000000000032741337235545400216020ustar00rootroot00000000000000// Copyright (c) 2017-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #ifndef ROCKSDB_LITE #include "rocksdb/db.h" #include "rocksdb/types.h" namespace rocksdb { // Data associated with a particular version of a key. A database may internally // store multiple versions of a same user key due to snapshots, compaction not // happening yet, etc. struct KeyVersion { KeyVersion() : user_key(""), value(""), sequence(0), type(0) {} KeyVersion(const std::string& _user_key, const std::string& _value, SequenceNumber _sequence, int _type) : user_key(_user_key), value(_value), sequence(_sequence), type(_type) {} std::string user_key; std::string value; SequenceNumber sequence; // TODO(ajkr): we should provide a helper function that converts the int to a // string describing the type for easier debugging. int type; }; // Returns listing of all versions of keys in the provided user key range. // The range is inclusive-inclusive, i.e., [`begin_key`, `end_key`], or // `max_num_ikeys` has been reached. Since all those keys returned will be // copied to memory, if the range covers too many keys, the memory usage // may be huge. `max_num_ikeys` can be used to cap the memory usage. // The result is inserted into the provided vector, `key_versions`. Status GetAllKeyVersions(DB* db, Slice begin_key, Slice end_key, size_t max_num_ikeys, std::vector* key_versions); } // namespace rocksdb #endif // ROCKSDB_LITE rocksdb-5.17.2/include/rocksdb/utilities/document_db.h000066400000000000000000000137221337235545400227760ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #ifndef ROCKSDB_LITE #include #include #include "rocksdb/utilities/stackable_db.h" #include "rocksdb/utilities/json_document.h" #include "rocksdb/db.h" namespace rocksdb { // IMPORTANT: DocumentDB is a work in progress. It is unstable and we might // change the API without warning. Talk to RocksDB team before using this in // production ;) // DocumentDB is a layer on top of RocksDB that provides a very simple JSON API. // When creating a DB, you specify a list of indexes you want to keep on your // data. You can insert a JSON document to the DB, which is automatically // indexed. Every document added to the DB needs to have "_id" field which is // automatically indexed and is an unique primary key. All other indexes are // non-unique. // NOTE: field names in the JSON are NOT allowed to start with '$' or // contain '.'. We don't currently enforce that rule, but will start behaving // badly. // Cursor is what you get as a result of executing query. To get all // results from a query, call Next() on a Cursor while Valid() returns true class Cursor { public: Cursor() = default; virtual ~Cursor() {} virtual bool Valid() const = 0; virtual void Next() = 0; // Lifecycle of the returned JSONDocument is until the next Next() call virtual const JSONDocument& document() const = 0; virtual Status status() const = 0; private: // No copying allowed Cursor(const Cursor&); void operator=(const Cursor&); }; struct DocumentDBOptions { int background_threads = 4; uint64_t memtable_size = 128 * 1024 * 1024; // 128 MB uint64_t cache_size = 1 * 1024 * 1024 * 1024; // 1 GB }; // TODO(icanadi) Add `JSONDocument* info` parameter to all calls that can be // used by the caller to get more information about the call execution (number // of dropped records, number of updated records, etc.) class DocumentDB : public StackableDB { public: struct IndexDescriptor { // Currently, you can only define an index on a single field. To specify an // index on a field X, set index description to JSON "{X: 1}" // Currently the value needs to be 1, which means ascending. // In the future, we plan to also support indexes on multiple keys, where // you could mix ascending sorting (1) with descending sorting indexes (-1) JSONDocument* description; std::string name; }; // Open DocumentDB with specified indexes. The list of indexes has to be // complete, i.e. include all indexes present in the DB, except the primary // key index. // Otherwise, Open() will return an error static Status Open(const DocumentDBOptions& options, const std::string& name, const std::vector& indexes, DocumentDB** db, bool read_only = false); explicit DocumentDB(DB* db) : StackableDB(db) {} // Create a new index. It will stop all writes for the duration of the call. // All current documents in the DB are scanned and corresponding index entries // are created virtual Status CreateIndex(const WriteOptions& write_options, const IndexDescriptor& index) = 0; // Drop an index. Client is responsible to make sure that index is not being // used by currently executing queries virtual Status DropIndex(const std::string& name) = 0; // Insert a document to the DB. The document needs to have a primary key "_id" // which can either be a string or an integer. Otherwise the write will fail // with InvalidArgument. virtual Status Insert(const WriteOptions& options, const JSONDocument& document) = 0; // Deletes all documents matching a filter atomically virtual Status Remove(const ReadOptions& read_options, const WriteOptions& write_options, const JSONDocument& query) = 0; // Does this sequence of operations: // 1. Find all documents matching a filter // 2. For all documents, atomically: // 2.1. apply the update operators // 2.2. update the secondary indexes // // Currently only $set update operator is supported. // Syntax is: {$set: {key1: value1, key2: value2, etc...}} // This operator will change a document's key1 field to value1, key2 to // value2, etc. New values will be set even if a document didn't have an entry // for the specified key. // // You can not change a primary key of a document. // // Update example: Update({id: {$gt: 5}, $index: id}, {$set: {enabled: true}}) virtual Status Update(const ReadOptions& read_options, const WriteOptions& write_options, const JSONDocument& filter, const JSONDocument& updates) = 0; // query has to be an array in which every element is an operator. Currently // only $filter operator is supported. Syntax of $filter operator is: // {$filter: {key1: condition1, key2: condition2, etc.}} where conditions can // be either: // 1) a single value in which case the condition is equality condition, or // 2) a defined operators, like {$gt: 4}, which will match all documents that // have key greater than 4. // // Supported operators are: // 1) $gt -- greater than // 2) $gte -- greater than or equal // 3) $lt -- less than // 4) $lte -- less than or equal // If you want the filter to use an index, you need to specify it like this: // {$filter: {...(conditions)..., $index: index_name}} // // Example query: // * [{$filter: {name: John, age: {$gte: 18}, $index: age}}] // will return all Johns whose age is greater or equal to 18 and it will use // index "age" to satisfy the query. virtual Cursor* Query(const ReadOptions& read_options, const JSONDocument& query) = 0; }; } // namespace rocksdb #endif // ROCKSDB_LITE rocksdb-5.17.2/include/rocksdb/utilities/env_librados.h000066400000000000000000000165631337235545400231700ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #include #include #include "rocksdb/status.h" #include "rocksdb/utilities/env_mirror.h" #include namespace rocksdb { class LibradosWritableFile; class EnvLibrados : public EnvWrapper { public: // Create a brand new sequentially-readable file with the specified name. // On success, stores a pointer to the new file in *result and returns OK. // On failure stores nullptr in *result and returns non-OK. If the file does // not exist, returns a non-OK status. // // The returned file will only be accessed by one thread at a time. Status NewSequentialFile(const std::string& fname, std::unique_ptr* result, const EnvOptions& options) override; // Create a brand new random access read-only file with the // specified name. On success, stores a pointer to the new file in // *result and returns OK. On failure stores nullptr in *result and // returns non-OK. If the file does not exist, returns a non-OK // status. // // The returned file may be concurrently accessed by multiple threads. Status NewRandomAccessFile(const std::string& fname, std::unique_ptr* result, const EnvOptions& options) override; // Create an object that writes to a new file with the specified // name. Deletes any existing file with the same name and creates a // new file. On success, stores a pointer to the new file in // *result and returns OK. On failure stores nullptr in *result and // returns non-OK. // // The returned file will only be accessed by one thread at a time. Status NewWritableFile(const std::string& fname, std::unique_ptr* result, const EnvOptions& options) override; // Reuse an existing file by renaming it and opening it as writable. Status ReuseWritableFile(const std::string& fname, const std::string& old_fname, std::unique_ptr* result, const EnvOptions& options) override; // Create an object that represents a directory. Will fail if directory // doesn't exist. If the directory exists, it will open the directory // and create a new Directory object. // // On success, stores a pointer to the new Directory in // *result and returns OK. On failure stores nullptr in *result and // returns non-OK. Status NewDirectory(const std::string& name, std::unique_ptr* result) override; // Returns OK if the named file exists. // NotFound if the named file does not exist, // the calling process does not have permission to determine // whether this file exists, or if the path is invalid. // IOError if an IO Error was encountered Status FileExists(const std::string& fname) override; // Store in *result the names of the children of the specified directory. // The names are relative to "dir". // Original contents of *results are dropped. Status GetChildren(const std::string& dir, std::vector* result); // Delete the named file. Status DeleteFile(const std::string& fname) override; // Create the specified directory. Returns error if directory exists. Status CreateDir(const std::string& dirname) override; // Creates directory if missing. Return Ok if it exists, or successful in // Creating. Status CreateDirIfMissing(const std::string& dirname) override; // Delete the specified directory. Status DeleteDir(const std::string& dirname) override; // Store the size of fname in *file_size. Status GetFileSize(const std::string& fname, uint64_t* file_size) override; // Store the last modification time of fname in *file_mtime. Status GetFileModificationTime(const std::string& fname, uint64_t* file_mtime) override; // Rename file src to target. Status RenameFile(const std::string& src, const std::string& target) override; // Hard Link file src to target. Status LinkFile(const std::string& src, const std::string& target) override; // Lock the specified file. Used to prevent concurrent access to // the same db by multiple processes. On failure, stores nullptr in // *lock and returns non-OK. // // On success, stores a pointer to the object that represents the // acquired lock in *lock and returns OK. The caller should call // UnlockFile(*lock) to release the lock. If the process exits, // the lock will be automatically released. // // If somebody else already holds the lock, finishes immediately // with a failure. I.e., this call does not wait for existing locks // to go away. // // May create the named file if it does not already exist. Status LockFile(const std::string& fname, FileLock** lock); // Release the lock acquired by a previous successful call to LockFile. // REQUIRES: lock was returned by a successful LockFile() call // REQUIRES: lock has not already been unlocked. Status UnlockFile(FileLock* lock); // Get full directory name for this db. Status GetAbsolutePath(const std::string& db_path, std::string* output_path); // Generate unique id std::string GenerateUniqueId(); // Get default EnvLibrados static EnvLibrados* Default(); explicit EnvLibrados(const std::string& db_name, const std::string& config_path, const std::string& db_pool); explicit EnvLibrados( const std::string& client_name, // first 3 parameters are // for RADOS client init const std::string& cluster_name, const uint64_t flags, const std::string& db_name, const std::string& config_path, const std::string& db_pool, const std::string& wal_dir, const std::string& wal_pool, const uint64_t write_buffer_size); ~EnvLibrados() { _rados.shutdown(); } private: std::string _client_name; std::string _cluster_name; uint64_t _flags; std::string _db_name; // get from user, readable string; Also used as db_id // for db metadata std::string _config_path; librados::Rados _rados; // RADOS client std::string _db_pool_name; librados::IoCtx _db_pool_ioctx; // IoCtx for connecting db_pool std::string _wal_dir; // WAL dir path std::string _wal_pool_name; librados::IoCtx _wal_pool_ioctx; // IoCtx for connecting wal_pool uint64_t _write_buffer_size; // WritableFile buffer max size /* private function to communicate with rados */ std::string _CreateFid(); Status _GetFid(const std::string& fname, std::string& fid); Status _GetFid(const std::string& fname, std::string& fid, int fid_len); Status _RenameFid(const std::string& old_fname, const std::string& new_fname); Status _AddFid(const std::string& fname, const std::string& fid); Status _DelFid(const std::string& fname); Status _GetSubFnames(const std::string& dirname, std::vector* result); librados::IoCtx* _GetIoctx(const std::string& prefix); friend class LibradosWritableFile; }; } rocksdb-5.17.2/include/rocksdb/utilities/env_mirror.h000066400000000000000000000131211337235545400226660ustar00rootroot00000000000000// Copyright (c) 2015, Red Hat, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. // // MirrorEnv is an Env implementation that mirrors all file-related // operations to two backing Env's (provided at construction time). // Writes are mirrored. For read operations, we do the read from both // backends and assert that the results match. // // This is useful when implementing a new Env and ensuring that the // semantics and behavior are correct (in that they match that of an // existing, stable Env, like the default POSIX one). #pragma once #ifndef ROCKSDB_LITE #include #include #include #include "rocksdb/env.h" namespace rocksdb { class SequentialFileMirror; class RandomAccessFileMirror; class WritableFileMirror; class EnvMirror : public EnvWrapper { Env* a_, *b_; bool free_a_, free_b_; public: EnvMirror(Env* a, Env* b, bool free_a=false, bool free_b=false) : EnvWrapper(a), a_(a), b_(b), free_a_(free_a), free_b_(free_b) {} ~EnvMirror() { if (free_a_) delete a_; if (free_b_) delete b_; } Status NewSequentialFile(const std::string& f, unique_ptr* r, const EnvOptions& options) override; Status NewRandomAccessFile(const std::string& f, unique_ptr* r, const EnvOptions& options) override; Status NewWritableFile(const std::string& f, unique_ptr* r, const EnvOptions& options) override; Status ReuseWritableFile(const std::string& fname, const std::string& old_fname, unique_ptr* r, const EnvOptions& options) override; virtual Status NewDirectory(const std::string& name, unique_ptr* result) override { unique_ptr br; Status as = a_->NewDirectory(name, result); Status bs = b_->NewDirectory(name, &br); assert(as == bs); return as; } Status FileExists(const std::string& f) override { Status as = a_->FileExists(f); Status bs = b_->FileExists(f); assert(as == bs); return as; } #if defined(_MSC_VER) #pragma warning(push) // logical operation on address of string constant #pragma warning(disable : 4130) #endif Status GetChildren(const std::string& dir, std::vector* r) override { std::vector ar, br; Status as = a_->GetChildren(dir, &ar); Status bs = b_->GetChildren(dir, &br); assert(as == bs); std::sort(ar.begin(), ar.end()); std::sort(br.begin(), br.end()); if (!as.ok() || ar != br) { assert(0 == "getchildren results don't match"); } *r = ar; return as; } #if defined(_MSC_VER) #pragma warning(pop) #endif Status DeleteFile(const std::string& f) override { Status as = a_->DeleteFile(f); Status bs = b_->DeleteFile(f); assert(as == bs); return as; } Status CreateDir(const std::string& d) override { Status as = a_->CreateDir(d); Status bs = b_->CreateDir(d); assert(as == bs); return as; } Status CreateDirIfMissing(const std::string& d) override { Status as = a_->CreateDirIfMissing(d); Status bs = b_->CreateDirIfMissing(d); assert(as == bs); return as; } Status DeleteDir(const std::string& d) override { Status as = a_->DeleteDir(d); Status bs = b_->DeleteDir(d); assert(as == bs); return as; } Status GetFileSize(const std::string& f, uint64_t* s) override { uint64_t asize, bsize; Status as = a_->GetFileSize(f, &asize); Status bs = b_->GetFileSize(f, &bsize); assert(as == bs); assert(!as.ok() || asize == bsize); *s = asize; return as; } Status GetFileModificationTime(const std::string& fname, uint64_t* file_mtime) override { uint64_t amtime, bmtime; Status as = a_->GetFileModificationTime(fname, &amtime); Status bs = b_->GetFileModificationTime(fname, &bmtime); assert(as == bs); assert(!as.ok() || amtime - bmtime < 10000 || bmtime - amtime < 10000); *file_mtime = amtime; return as; } Status RenameFile(const std::string& s, const std::string& t) override { Status as = a_->RenameFile(s, t); Status bs = b_->RenameFile(s, t); assert(as == bs); return as; } Status LinkFile(const std::string& s, const std::string& t) override { Status as = a_->LinkFile(s, t); Status bs = b_->LinkFile(s, t); assert(as == bs); return as; } class FileLockMirror : public FileLock { public: FileLock* a_, *b_; FileLockMirror(FileLock* a, FileLock* b) : a_(a), b_(b) {} }; Status LockFile(const std::string& f, FileLock** l) override { FileLock* al, *bl; Status as = a_->LockFile(f, &al); Status bs = b_->LockFile(f, &bl); assert(as == bs); if (as.ok()) *l = new FileLockMirror(al, bl); return as; } Status UnlockFile(FileLock* l) override { FileLockMirror* ml = static_cast(l); Status as = a_->UnlockFile(ml->a_); Status bs = b_->UnlockFile(ml->b_); assert(as == bs); delete ml; return as; } }; } // namespace rocksdb #endif // ROCKSDB_LITE rocksdb-5.17.2/include/rocksdb/utilities/geo_db.h000066400000000000000000000066271337235545400217400ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // #ifndef ROCKSDB_LITE #pragma once #include #include #include "rocksdb/utilities/stackable_db.h" #include "rocksdb/status.h" namespace rocksdb { // // Configurable options needed for setting up a Geo database // struct GeoDBOptions { // Backup info and error messages will be written to info_log // if non-nullptr. // Default: nullptr Logger* info_log; explicit GeoDBOptions(Logger* _info_log = nullptr):info_log(_info_log) { } }; // // A position in the earth's geoid // class GeoPosition { public: double latitude; double longitude; explicit GeoPosition(double la = 0, double lo = 0) : latitude(la), longitude(lo) { } }; // // Description of an object on the Geoid. It is located by a GPS location, // and is identified by the id. The value associated with this object is // an opaque string 'value'. Different objects identified by unique id's // can have the same gps-location associated with them. // class GeoObject { public: GeoPosition position; std::string id; std::string value; GeoObject() {} GeoObject(const GeoPosition& pos, const std::string& i, const std::string& val) : position(pos), id(i), value(val) { } }; class GeoIterator { public: GeoIterator() = default; virtual ~GeoIterator() {} virtual void Next() = 0; virtual bool Valid() const = 0; virtual const GeoObject& geo_object() = 0; virtual Status status() const = 0; }; // // Stack your DB with GeoDB to be able to get geo-spatial support // class GeoDB : public StackableDB { public: // GeoDBOptions have to be the same as the ones used in a previous // incarnation of the DB // // GeoDB owns the pointer `DB* db` now. You should not delete it or // use it after the invocation of GeoDB // GeoDB(DB* db, const GeoDBOptions& options) : StackableDB(db) {} GeoDB(DB* db, const GeoDBOptions& /*options*/) : StackableDB(db) {} virtual ~GeoDB() {} // Insert a new object into the location database. The object is // uniquely identified by the id. If an object with the same id already // exists in the db, then the old one is overwritten by the new // object being inserted here. virtual Status Insert(const GeoObject& object) = 0; // Retrieve the value of the object located at the specified GPS // location and is identified by the 'id'. virtual Status GetByPosition(const GeoPosition& pos, const Slice& id, std::string* value) = 0; // Retrieve the value of the object identified by the 'id'. This method // could be potentially slower than GetByPosition virtual Status GetById(const Slice& id, GeoObject* object) = 0; // Delete the specified object virtual Status Remove(const Slice& id) = 0; // Returns an iterator for the items within a circular radius from the // specified gps location. If 'number_of_values' is specified, // then the iterator is capped to that number of objects. // The radius is specified in 'meters'. virtual GeoIterator* SearchRadial(const GeoPosition& pos, double radius, int number_of_values = INT_MAX) = 0; }; } // namespace rocksdb #endif // ROCKSDB_LITE rocksdb-5.17.2/include/rocksdb/utilities/info_log_finder.h000066400000000000000000000010701337235545400236270ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #include #include #include "rocksdb/db.h" #include "rocksdb/options.h" namespace rocksdb { // This function can be used to list the Information logs, // given the db pointer. Status GetInfoLogList(DB* db, std::vector* info_log_list); } // namespace rocksdb rocksdb-5.17.2/include/rocksdb/utilities/json_document.h000066400000000000000000000113411337235545400233550ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #ifndef ROCKSDB_LITE #include #include #include #include #include #include #include #include "rocksdb/slice.h" // We use JSONDocument for DocumentDB API // Implementation inspired by folly::dynamic, rapidjson and fbson namespace fbson { class FbsonValue; class ObjectVal; template class FbsonWriterT; class FbsonOutStream; typedef FbsonWriterT FbsonWriter; } // namespace fbson namespace rocksdb { // NOTE: none of this is thread-safe class JSONDocument { public: // return nullptr on parse failure static JSONDocument* ParseJSON(const char* json); enum Type { kNull, kArray, kBool, kDouble, kInt64, kObject, kString, }; /* implicit */ JSONDocument(); // null /* implicit */ JSONDocument(bool b); /* implicit */ JSONDocument(double d); /* implicit */ JSONDocument(int8_t i); /* implicit */ JSONDocument(int16_t i); /* implicit */ JSONDocument(int32_t i); /* implicit */ JSONDocument(int64_t i); /* implicit */ JSONDocument(const std::string& s); /* implicit */ JSONDocument(const char* s); // constructs JSONDocument of specific type with default value explicit JSONDocument(Type _type); JSONDocument(const JSONDocument& json_document); JSONDocument(JSONDocument&& json_document); Type type() const; // REQUIRES: IsObject() bool Contains(const std::string& key) const; // REQUIRES: IsObject() // Returns non-owner object JSONDocument operator[](const std::string& key) const; // REQUIRES: IsArray() == true || IsObject() == true size_t Count() const; // REQUIRES: IsArray() // Returns non-owner object JSONDocument operator[](size_t i) const; JSONDocument& operator=(JSONDocument jsonDocument); bool IsNull() const; bool IsArray() const; bool IsBool() const; bool IsDouble() const; bool IsInt64() const; bool IsObject() const; bool IsString() const; // REQUIRES: IsBool() == true bool GetBool() const; // REQUIRES: IsDouble() == true double GetDouble() const; // REQUIRES: IsInt64() == true int64_t GetInt64() const; // REQUIRES: IsString() == true std::string GetString() const; bool operator==(const JSONDocument& rhs) const; bool operator!=(const JSONDocument& rhs) const; JSONDocument Copy() const; bool IsOwner() const; std::string DebugString() const; private: class ItemsIteratorGenerator; public: // REQUIRES: IsObject() ItemsIteratorGenerator Items() const; // appends serialized object to dst void Serialize(std::string* dst) const; // returns nullptr if Slice doesn't represent valid serialized JSONDocument static JSONDocument* Deserialize(const Slice& src); private: friend class JSONDocumentBuilder; JSONDocument(fbson::FbsonValue* val, bool makeCopy); void InitFromValue(const fbson::FbsonValue* val); // iteration on objects class const_item_iterator { private: class Impl; public: typedef std::pair value_type; explicit const_item_iterator(Impl* impl); const_item_iterator(const_item_iterator&&); const_item_iterator& operator++(); bool operator!=(const const_item_iterator& other); value_type operator*(); ~const_item_iterator(); private: friend class ItemsIteratorGenerator; std::unique_ptr it_; }; class ItemsIteratorGenerator { public: explicit ItemsIteratorGenerator(const fbson::ObjectVal& object); const_item_iterator begin() const; const_item_iterator end() const; private: const fbson::ObjectVal& object_; }; std::unique_ptr data_; mutable fbson::FbsonValue* value_; // Our serialization format's first byte specifies the encoding version. That // way, we can easily change our format while providing backwards // compatibility. This constant specifies the current version of the // serialization format static const char kSerializationFormatVersion; }; class JSONDocumentBuilder { public: JSONDocumentBuilder(); explicit JSONDocumentBuilder(fbson::FbsonOutStream* out); void Reset(); bool WriteStartArray(); bool WriteEndArray(); bool WriteStartObject(); bool WriteEndObject(); bool WriteKeyValue(const std::string& key, const JSONDocument& value); bool WriteJSONDocument(const JSONDocument& value); JSONDocument GetJSONDocument(); ~JSONDocumentBuilder(); private: std::unique_ptr writer_; }; } // namespace rocksdb #endif // ROCKSDB_LITE rocksdb-5.17.2/include/rocksdb/utilities/ldb_cmd.h000066400000000000000000000177711337235545400221070ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // #pragma once #ifndef ROCKSDB_LITE #include #include #include #include #include #include #include #include #include "rocksdb/env.h" #include "rocksdb/iterator.h" #include "rocksdb/ldb_tool.h" #include "rocksdb/options.h" #include "rocksdb/slice.h" #include "rocksdb/utilities/db_ttl.h" #include "rocksdb/utilities/ldb_cmd_execute_result.h" namespace rocksdb { class LDBCommand { public: // Command-line arguments static const std::string ARG_DB; static const std::string ARG_PATH; static const std::string ARG_HEX; static const std::string ARG_KEY_HEX; static const std::string ARG_VALUE_HEX; static const std::string ARG_CF_NAME; static const std::string ARG_TTL; static const std::string ARG_TTL_START; static const std::string ARG_TTL_END; static const std::string ARG_TIMESTAMP; static const std::string ARG_TRY_LOAD_OPTIONS; static const std::string ARG_IGNORE_UNKNOWN_OPTIONS; static const std::string ARG_FROM; static const std::string ARG_TO; static const std::string ARG_MAX_KEYS; static const std::string ARG_BLOOM_BITS; static const std::string ARG_FIX_PREFIX_LEN; static const std::string ARG_COMPRESSION_TYPE; static const std::string ARG_COMPRESSION_MAX_DICT_BYTES; static const std::string ARG_BLOCK_SIZE; static const std::string ARG_AUTO_COMPACTION; static const std::string ARG_DB_WRITE_BUFFER_SIZE; static const std::string ARG_WRITE_BUFFER_SIZE; static const std::string ARG_FILE_SIZE; static const std::string ARG_CREATE_IF_MISSING; static const std::string ARG_NO_VALUE; struct ParsedParams { std::string cmd; std::vector cmd_params; std::map option_map; std::vector flags; }; static LDBCommand* SelectCommand(const ParsedParams& parsed_parms); static LDBCommand* InitFromCmdLineArgs( const std::vector& args, const Options& options, const LDBOptions& ldb_options, const std::vector* column_families, const std::function& selector = SelectCommand); static LDBCommand* InitFromCmdLineArgs( int argc, char** argv, const Options& options, const LDBOptions& ldb_options, const std::vector* column_families); bool ValidateCmdLineOptions(); virtual Options PrepareOptionsForOpenDB(); virtual void SetDBOptions(Options options) { options_ = options; } virtual void SetColumnFamilies( const std::vector* column_families) { if (column_families != nullptr) { column_families_ = *column_families; } else { column_families_.clear(); } } void SetLDBOptions(const LDBOptions& ldb_options) { ldb_options_ = ldb_options; } virtual bool NoDBOpen() { return false; } virtual ~LDBCommand() { CloseDB(); } /* Run the command, and return the execute result. */ void Run(); virtual void DoCommand() = 0; LDBCommandExecuteResult GetExecuteState() { return exec_state_; } void ClearPreviousRunState() { exec_state_.Reset(); } // Consider using Slice::DecodeHex directly instead if you don't need the // 0x prefix static std::string HexToString(const std::string& str); // Consider using Slice::ToString(true) directly instead if // you don't need the 0x prefix static std::string StringToHex(const std::string& str); static const char* DELIM; protected: LDBCommandExecuteResult exec_state_; std::string db_path_; std::string column_family_name_; DB* db_; DBWithTTL* db_ttl_; std::map cf_handles_; /** * true implies that this command can work if the db is opened in read-only * mode. */ bool is_read_only_; /** If true, the key is input/output as hex in get/put/scan/delete etc. */ bool is_key_hex_; /** If true, the value is input/output as hex in get/put/scan/delete etc. */ bool is_value_hex_; /** If true, the value is treated as timestamp suffixed */ bool is_db_ttl_; // If true, the kvs are output with their insert/modify timestamp in a ttl db bool timestamp_; // If true, try to construct options from DB's option files. bool try_load_options_; bool ignore_unknown_options_; bool create_if_missing_; /** * Map of options passed on the command-line. */ const std::map option_map_; /** * Flags passed on the command-line. */ const std::vector flags_; /** List of command-line options valid for this command */ const std::vector valid_cmd_line_options_; bool ParseKeyValue(const std::string& line, std::string* key, std::string* value, bool is_key_hex, bool is_value_hex); LDBCommand(const std::map& options, const std::vector& flags, bool is_read_only, const std::vector& valid_cmd_line_options); void OpenDB(); void CloseDB(); ColumnFamilyHandle* GetCfHandle(); static std::string PrintKeyValue(const std::string& key, const std::string& value, bool is_key_hex, bool is_value_hex); static std::string PrintKeyValue(const std::string& key, const std::string& value, bool is_hex); /** * Return true if the specified flag is present in the specified flags vector */ static bool IsFlagPresent(const std::vector& flags, const std::string& flag) { return (std::find(flags.begin(), flags.end(), flag) != flags.end()); } static std::string HelpRangeCmdArgs(); /** * A helper function that returns a list of command line options * used by this command. It includes the common options and the ones * passed in. */ static std::vector BuildCmdLineOptions( std::vector options); bool ParseIntOption(const std::map& options, const std::string& option, int& value, LDBCommandExecuteResult& exec_state); bool ParseStringOption(const std::map& options, const std::string& option, std::string* value); /** * Returns the value of the specified option as a boolean. * default_val is used if the option is not found in options. * Throws an exception if the value of the option is not * "true" or "false" (case insensitive). */ bool ParseBooleanOption(const std::map& options, const std::string& option, bool default_val); Options options_; std::vector column_families_; LDBOptions ldb_options_; private: /** * Interpret command line options and flags to determine if the key * should be input/output in hex. */ bool IsKeyHex(const std::map& options, const std::vector& flags); /** * Interpret command line options and flags to determine if the value * should be input/output in hex. */ bool IsValueHex(const std::map& options, const std::vector& flags); /** * Converts val to a boolean. * val must be either true or false (case insensitive). * Otherwise an exception is thrown. */ bool StringToBool(std::string val); }; class LDBCommandRunner { public: static void PrintHelp(const LDBOptions& ldb_options, const char* exec_name); static void RunCommand( int argc, char** argv, Options options, const LDBOptions& ldb_options, const std::vector* column_families); }; } // namespace rocksdb #endif // ROCKSDB_LITE rocksdb-5.17.2/include/rocksdb/utilities/ldb_cmd_execute_result.h000066400000000000000000000031061337235545400252120ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // #pragma once #ifdef FAILED #undef FAILED #endif namespace rocksdb { class LDBCommandExecuteResult { public: enum State { EXEC_NOT_STARTED = 0, EXEC_SUCCEED = 1, EXEC_FAILED = 2, }; LDBCommandExecuteResult() : state_(EXEC_NOT_STARTED), message_("") {} LDBCommandExecuteResult(State state, std::string& msg) : state_(state), message_(msg) {} std::string ToString() { std::string ret; switch (state_) { case EXEC_SUCCEED: break; case EXEC_FAILED: ret.append("Failed: "); break; case EXEC_NOT_STARTED: ret.append("Not started: "); } if (!message_.empty()) { ret.append(message_); } return ret; } void Reset() { state_ = EXEC_NOT_STARTED; message_ = ""; } bool IsSucceed() { return state_ == EXEC_SUCCEED; } bool IsNotStarted() { return state_ == EXEC_NOT_STARTED; } bool IsFailed() { return state_ == EXEC_FAILED; } static LDBCommandExecuteResult Succeed(std::string msg) { return LDBCommandExecuteResult(EXEC_SUCCEED, msg); } static LDBCommandExecuteResult Failed(std::string msg) { return LDBCommandExecuteResult(EXEC_FAILED, msg); } private: State state_; std::string message_; bool operator==(const LDBCommandExecuteResult&); bool operator!=(const LDBCommandExecuteResult&); }; } rocksdb-5.17.2/include/rocksdb/utilities/leveldb_options.h000066400000000000000000000121461337235545400237020ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #include namespace rocksdb { class Cache; class Comparator; class Env; class FilterPolicy; class Logger; struct Options; class Snapshot; enum CompressionType : unsigned char; // Options to control the behavior of a database (passed to // DB::Open). A LevelDBOptions object can be initialized as though // it were a LevelDB Options object, and then it can be converted into // a RocksDB Options object. struct LevelDBOptions { // ------------------- // Parameters that affect behavior // Comparator used to define the order of keys in the table. // Default: a comparator that uses lexicographic byte-wise ordering // // REQUIRES: The client must ensure that the comparator supplied // here has the same name and orders keys *exactly* the same as the // comparator provided to previous open calls on the same DB. const Comparator* comparator; // If true, the database will be created if it is missing. // Default: false bool create_if_missing; // If true, an error is raised if the database already exists. // Default: false bool error_if_exists; // If true, the implementation will do aggressive checking of the // data it is processing and will stop early if it detects any // errors. This may have unforeseen ramifications: for example, a // corruption of one DB entry may cause a large number of entries to // become unreadable or for the entire DB to become unopenable. // Default: false bool paranoid_checks; // Use the specified object to interact with the environment, // e.g. to read/write files, schedule background work, etc. // Default: Env::Default() Env* env; // Any internal progress/error information generated by the db will // be written to info_log if it is non-NULL, or to a file stored // in the same directory as the DB contents if info_log is NULL. // Default: NULL Logger* info_log; // ------------------- // Parameters that affect performance // Amount of data to build up in memory (backed by an unsorted log // on disk) before converting to a sorted on-disk file. // // Larger values increase performance, especially during bulk loads. // Up to two write buffers may be held in memory at the same time, // so you may wish to adjust this parameter to control memory usage. // Also, a larger write buffer will result in a longer recovery time // the next time the database is opened. // // Default: 4MB size_t write_buffer_size; // Number of open files that can be used by the DB. You may need to // increase this if your database has a large working set (budget // one open file per 2MB of working set). // // Default: 1000 int max_open_files; // Control over blocks (user data is stored in a set of blocks, and // a block is the unit of reading from disk). // If non-NULL, use the specified cache for blocks. // If NULL, leveldb will automatically create and use an 8MB internal cache. // Default: NULL Cache* block_cache; // Approximate size of user data packed per block. Note that the // block size specified here corresponds to uncompressed data. The // actual size of the unit read from disk may be smaller if // compression is enabled. This parameter can be changed dynamically. // // Default: 4K size_t block_size; // Number of keys between restart points for delta encoding of keys. // This parameter can be changed dynamically. Most clients should // leave this parameter alone. // // Default: 16 int block_restart_interval; // Compress blocks using the specified compression algorithm. This // parameter can be changed dynamically. // // Default: kSnappyCompression, which gives lightweight but fast // compression. // // Typical speeds of kSnappyCompression on an Intel(R) Core(TM)2 2.4GHz: // ~200-500MB/s compression // ~400-800MB/s decompression // Note that these speeds are significantly faster than most // persistent storage speeds, and therefore it is typically never // worth switching to kNoCompression. Even if the input data is // incompressible, the kSnappyCompression implementation will // efficiently detect that and will switch to uncompressed mode. CompressionType compression; // If non-NULL, use the specified filter policy to reduce disk reads. // Many applications will benefit from passing the result of // NewBloomFilterPolicy() here. // // Default: NULL const FilterPolicy* filter_policy; // Create a LevelDBOptions object with default values for all fields. LevelDBOptions(); }; // Converts a LevelDBOptions object into a RocksDB Options object. Options ConvertOptions(const LevelDBOptions& leveldb_options); } // namespace rocksdb rocksdb-5.17.2/include/rocksdb/utilities/lua/000077500000000000000000000000001337235545400211165ustar00rootroot00000000000000rocksdb-5.17.2/include/rocksdb/utilities/lua/rocks_lua_compaction_filter.h000066400000000000000000000146371337235545400270450ustar00rootroot00000000000000// Copyright (c) 2016, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #if defined(LUA) && !defined(ROCKSDB_LITE) // lua headers extern "C" { #include #include #include } #include #include #include #include "rocksdb/compaction_filter.h" #include "rocksdb/env.h" #include "rocksdb/slice.h" #include "rocksdb/utilities/lua/rocks_lua_custom_library.h" #include "rocksdb/utilities/lua/rocks_lua_util.h" namespace rocksdb { namespace lua { struct RocksLuaCompactionFilterOptions { // The lua script in string that implements all necessary CompactionFilter // virtual functions. The specified lua_script must implement the following // functions, which are Name and Filter, as described below. // // 0. The Name function simply returns a string representing the name of // the lua script. If there's any erorr in the Name function, an // empty string will be used. // --- Example // function Name() // return "DefaultLuaCompactionFilter" // end // // // 1. The script must contains a function called Filter, which implements // CompactionFilter::Filter() , takes three input arguments, and returns // three values as the following API: // // function Filter(level, key, existing_value) // ... // return is_filtered, is_changed, new_value // end // // Note that if ignore_value is set to true, then Filter should implement // the following API: // // function Filter(level, key) // ... // return is_filtered // end // // If there're any error in the Filter() function, then it will keep // the input key / value pair. // // -- Input // The function must take three arguments (integer, string, string), // which map to "level", "key", and "existing_value" passed from // RocksDB. // // -- Output // The function must return three values (boolean, boolean, string). // - is_filtered: if the first return value is true, then it indicates // the input key / value pair should be filtered. // - is_changed: if the second return value is true, then it indicates // the existing_value needs to be changed, and the resulting value // is stored in the third return value. // - new_value: if the second return value is true, then this third // return value stores the new value of the input key / value pair. // // -- Examples // -- a filter that keeps all key-value pairs // function Filter(level, key, existing_value) // return false, false, "" // end // // -- a filter that keeps all keys and change their values to "Rocks" // function Filter(level, key, existing_value) // return false, true, "Rocks" // end std::string lua_script; // If set to true, then existing_value will not be passed to the Filter // function, and the Filter function only needs to return a single boolean // flag indicating whether to filter out this key or not. // // function Filter(level, key) // ... // return is_filtered // end bool ignore_value = false; // A boolean flag to determine whether to ignore snapshots. bool ignore_snapshots = false; // When specified a non-null pointer, the first "error_limit_per_filter" // errors of each CompactionFilter that is lua related will be included // in this log. std::shared_ptr error_log; // The number of errors per CompactionFilter will be printed // to error_log. int error_limit_per_filter = 1; // A string to luaL_reg array map that allows the Lua CompactionFilter // to use custom C library. The string will be used as the library // name in Lua. std::vector> libraries; /////////////////////////////////////////////////////////////////////////// // NOT YET SUPPORTED // The name of the Lua function in "lua_script" that implements // CompactionFilter::FilterMergeOperand(). The function must take // three input arguments (integer, string, string), which map to "level", // "key", and "operand" passed from the RocksDB. In addition, the // function must return a single boolean value, indicating whether // to filter the input key / operand. // // DEFAULT: the default implementation always returns false. // @see CompactionFilter::FilterMergeOperand }; class RocksLuaCompactionFilterFactory : public CompactionFilterFactory { public: explicit RocksLuaCompactionFilterFactory( const RocksLuaCompactionFilterOptions opt); virtual ~RocksLuaCompactionFilterFactory() {} std::unique_ptr CreateCompactionFilter( const CompactionFilter::Context& context) override; // Change the Lua script so that the next compaction after this // function call will use the new Lua script. void SetScript(const std::string& new_script); // Obtain the current Lua script std::string GetScript(); const char* Name() const override; private: RocksLuaCompactionFilterOptions opt_; std::string name_; // A lock to protect "opt_" to make it dynamically changeable. std::mutex opt_mutex_; }; // A wrapper class that invokes Lua script to perform CompactionFilter // functions. class RocksLuaCompactionFilter : public rocksdb::CompactionFilter { public: explicit RocksLuaCompactionFilter(const RocksLuaCompactionFilterOptions& opt) : options_(opt), lua_state_wrapper_(opt.lua_script, opt.libraries), error_count_(0), name_("") {} virtual bool Filter(int level, const Slice& key, const Slice& existing_value, std::string* new_value, bool* value_changed) const override; // Not yet supported virtual bool FilterMergeOperand(int /*level*/, const Slice& /*key*/, const Slice& /*operand*/) const override { return false; } virtual bool IgnoreSnapshots() const override; virtual const char* Name() const override; protected: void LogLuaError(const char* format, ...) const; RocksLuaCompactionFilterOptions options_; LuaStateWrapper lua_state_wrapper_; mutable int error_count_; mutable std::string name_; }; } // namespace lua } // namespace rocksdb #endif // defined(LUA) && !defined(ROCKSDB_LITE) rocksdb-5.17.2/include/rocksdb/utilities/lua/rocks_lua_custom_library.h000066400000000000000000000027221337235545400263720ustar00rootroot00000000000000// Copyright (c) 2016, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #ifdef LUA // lua headers extern "C" { #include #include #include } namespace rocksdb { namespace lua { // A class that used to define custom C Library that is callable // from Lua script class RocksLuaCustomLibrary { public: virtual ~RocksLuaCustomLibrary() {} // The name of the C library. This name will also be used as the table // (namespace) in Lua that contains the C library. virtual const char* Name() const = 0; // Returns a "static const struct luaL_Reg[]", which includes a list of // C functions. Note that the last entry of this static array must be // {nullptr, nullptr} as required by Lua. // // More details about how to implement Lua C libraries can be found // in the official Lua document http://www.lua.org/pil/26.2.html virtual const struct luaL_Reg* Lib() const = 0; // A function that will be called right after the library has been created // and pushed on the top of the lua_State. This custom setup function // allows developers to put additional table or constant values inside // the same table / namespace. virtual void CustomSetup(lua_State* /*L*/) const {} }; } // namespace lua } // namespace rocksdb #endif // LUA rocksdb-5.17.2/include/rocksdb/utilities/lua/rocks_lua_util.h000066400000000000000000000027071337235545400243140ustar00rootroot00000000000000// Copyright (c) 2016, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once // lua headers extern "C" { #include #include #include } #ifdef LUA #include #include #include "rocksdb/utilities/lua/rocks_lua_custom_library.h" namespace rocksdb { namespace lua { class LuaStateWrapper { public: explicit LuaStateWrapper(const std::string& lua_script) { lua_state_ = luaL_newstate(); Init(lua_script, {}); } LuaStateWrapper( const std::string& lua_script, const std::vector>& libraries) { lua_state_ = luaL_newstate(); Init(lua_script, libraries); } lua_State* GetLuaState() const { return lua_state_; } ~LuaStateWrapper() { lua_close(lua_state_); } private: void Init( const std::string& lua_script, const std::vector>& libraries) { if (lua_state_) { luaL_openlibs(lua_state_); for (const auto& library : libraries) { luaL_openlib(lua_state_, library->Name(), library->Lib(), 0); library->CustomSetup(lua_state_); } luaL_dostring(lua_state_, lua_script.c_str()); } } lua_State* lua_state_; }; } // namespace lua } // namespace rocksdb #endif // LUA rocksdb-5.17.2/include/rocksdb/utilities/memory_util.h000066400000000000000000000031071337235545400230540ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #ifndef ROCKSDB_LITE #pragma once #include #include #include #include #include "rocksdb/cache.h" #include "rocksdb/db.h" namespace rocksdb { // Returns the current memory usage of the specified DB instances. class MemoryUtil { public: enum UsageType : int { // Memory usage of all the mem-tables. kMemTableTotal = 0, // Memory usage of those un-flushed mem-tables. kMemTableUnFlushed = 1, // Memory usage of all the table readers. kTableReadersTotal = 2, // Memory usage by Cache. kCacheTotal = 3, kNumUsageTypes = 4 }; // Returns the approximate memory usage of different types in the input // list of DBs and Cache set. For instance, in the output map // usage_by_type, usage_by_type[kMemTableTotal] will store the memory // usage of all the mem-tables from all the input rocksdb instances. // // Note that for memory usage inside Cache class, we will // only report the usage of the input "cache_set" without // including those Cache usage inside the input list "dbs" // of DBs. static Status GetApproximateMemoryUsageByType( const std::vector& dbs, const std::unordered_set cache_set, std::map* usage_by_type); }; } // namespace rocksdb #endif // !ROCKSDB_LITE rocksdb-5.17.2/include/rocksdb/utilities/object_registry.h000066400000000000000000000050361337235545400237100ustar00rootroot00000000000000// Copyright (c) 2016-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #ifndef ROCKSDB_LITE #include #include #include #include #include #include "rocksdb/env.h" namespace rocksdb { // Creates a new T using the factory function that was registered with a pattern // that matches the provided "target" string according to std::regex_match. // // If no registered functions match, returns nullptr. If multiple functions // match, the factory function used is unspecified. // // Populates res_guard with result pointer if caller is granted ownership. template T* NewCustomObject(const std::string& target, std::unique_ptr* res_guard); // Returns a new T when called with a string. Populates the unique_ptr argument // if granting ownership to caller. template using FactoryFunc = std::function*)>; // To register a factory function for a type T, initialize a Registrar object // with static storage duration. For example: // // static Registrar hdfs_reg("hdfs://.*", &CreateHdfsEnv); // // Then, calling NewCustomObject("hdfs://some_path", ...) will match the // regex provided above, so it returns the result of invoking CreateHdfsEnv. template class Registrar { public: explicit Registrar(std::string pattern, FactoryFunc factory); }; // Implementation details follow. namespace internal { template struct RegistryEntry { std::regex pattern; FactoryFunc factory; }; template struct Registry { static Registry* Get() { static Registry instance; return &instance; } std::vector> entries; private: Registry() = default; }; } // namespace internal template T* NewCustomObject(const std::string& target, std::unique_ptr* res_guard) { res_guard->reset(); for (const auto& entry : internal::Registry::Get()->entries) { if (std::regex_match(target, entry.pattern)) { return entry.factory(target, res_guard); } } return nullptr; } template Registrar::Registrar(std::string pattern, FactoryFunc factory) { internal::Registry::Get()->entries.emplace_back(internal::RegistryEntry{ std::regex(std::move(pattern)), std::move(factory)}); } } // namespace rocksdb #endif // ROCKSDB_LITE rocksdb-5.17.2/include/rocksdb/utilities/optimistic_transaction_db.h000066400000000000000000000045401337235545400257470ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #ifndef ROCKSDB_LITE #include #include #include "rocksdb/comparator.h" #include "rocksdb/db.h" #include "rocksdb/utilities/stackable_db.h" namespace rocksdb { class Transaction; // Database with Transaction support. // // See optimistic_transaction.h and examples/transaction_example.cc // Options to use when starting an Optimistic Transaction struct OptimisticTransactionOptions { // Setting set_snapshot=true is the same as calling SetSnapshot(). bool set_snapshot = false; // Should be set if the DB has a non-default comparator. // See comment in WriteBatchWithIndex constructor. const Comparator* cmp = BytewiseComparator(); }; class OptimisticTransactionDB : public StackableDB { public: // Open an OptimisticTransactionDB similar to DB::Open(). static Status Open(const Options& options, const std::string& dbname, OptimisticTransactionDB** dbptr); static Status Open(const DBOptions& db_options, const std::string& dbname, const std::vector& column_families, std::vector* handles, OptimisticTransactionDB** dbptr); virtual ~OptimisticTransactionDB() {} // Starts a new Transaction. // // Caller is responsible for deleting the returned transaction when no // longer needed. // // If old_txn is not null, BeginTransaction will reuse this Transaction // handle instead of allocating a new one. This is an optimization to avoid // extra allocations when repeatedly creating transactions. virtual Transaction* BeginTransaction( const WriteOptions& write_options, const OptimisticTransactionOptions& txn_options = OptimisticTransactionOptions(), Transaction* old_txn = nullptr) = 0; OptimisticTransactionDB(const OptimisticTransactionDB&) = delete; void operator=(const OptimisticTransactionDB&) = delete; protected: // To Create an OptimisticTransactionDB, call Open() explicit OptimisticTransactionDB(DB* db) : StackableDB(db) {} }; } // namespace rocksdb #endif // ROCKSDB_LITE rocksdb-5.17.2/include/rocksdb/utilities/option_change_migration.h000066400000000000000000000013201337235545400253700ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #include #include "rocksdb/options.h" #include "rocksdb/status.h" namespace rocksdb { // Try to migrate DB created with old_opts to be use new_opts. // Multiple column families is not supported. // It is best-effort. No guarantee to succeed. // A full compaction may be executed. Status OptionChangeMigration(std::string dbname, const Options& old_opts, const Options& new_opts); } // namespace rocksdb rocksdb-5.17.2/include/rocksdb/utilities/options_util.h000066400000000000000000000073701337235545400232450ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // This file contains utility functions for RocksDB Options. #pragma once #ifndef ROCKSDB_LITE #include #include #include "rocksdb/db.h" #include "rocksdb/env.h" #include "rocksdb/options.h" #include "rocksdb/status.h" namespace rocksdb { // Constructs the DBOptions and ColumnFamilyDescriptors by loading the // latest RocksDB options file stored in the specified rocksdb database. // // Note that the all the pointer options (except table_factory, which will // be described in more details below) will be initialized with the default // values. Developers can further initialize them after this function call. // Below is an example list of pointer options which will be initialized // // * env // * memtable_factory // * compaction_filter_factory // * prefix_extractor // * comparator // * merge_operator // * compaction_filter // // For table_factory, this function further supports deserializing // BlockBasedTableFactory and its BlockBasedTableOptions except the // pointer options of BlockBasedTableOptions (flush_block_policy_factory, // block_cache, and block_cache_compressed), which will be initialized with // default values. Developers can further specify these three options by // casting the return value of TableFactoroy::GetOptions() to // BlockBasedTableOptions and making necessary changes. // // ignore_unknown_options can be set to true if you want to ignore options // that are from a newer version of the db, esentially for forward // compatibility. // // examples/options_file_example.cc demonstrates how to use this function // to open a RocksDB instance. // // @return the function returns an OK status when it went successfully. If // the specified "dbpath" does not contain any option file, then a // Status::NotFound will be returned. A return value other than // Status::OK or Status::NotFound indicates there're some error related // to the options file itself. // // @see LoadOptionsFromFile Status LoadLatestOptions(const std::string& dbpath, Env* env, DBOptions* db_options, std::vector* cf_descs, bool ignore_unknown_options = false); // Similar to LoadLatestOptions, this function constructs the DBOptions // and ColumnFamilyDescriptors based on the specified RocksDB Options file. // // @see LoadLatestOptions Status LoadOptionsFromFile(const std::string& options_file_name, Env* env, DBOptions* db_options, std::vector* cf_descs, bool ignore_unknown_options = false); // Returns the latest options file name under the specified db path. Status GetLatestOptionsFileName(const std::string& dbpath, Env* env, std::string* options_file_name); // Returns Status::OK if the input DBOptions and ColumnFamilyDescriptors // are compatible with the latest options stored in the specified DB path. // // If the return status is non-ok, it means the specified RocksDB instance // might not be correctly opened with the input set of options. Currently, // changing one of the following options will fail the compatibility check: // // * comparator // * prefix_extractor // * table_factory // * merge_operator Status CheckOptionsCompatibility( const std::string& dbpath, Env* env, const DBOptions& db_options, const std::vector& cf_descs, bool ignore_unknown_options = false); } // namespace rocksdb #endif // !ROCKSDB_LITE rocksdb-5.17.2/include/rocksdb/utilities/sim_cache.h000066400000000000000000000066171337235545400224330ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #include #include #include #include "rocksdb/cache.h" #include "rocksdb/env.h" #include "rocksdb/slice.h" #include "rocksdb/statistics.h" #include "rocksdb/status.h" namespace rocksdb { class SimCache; // For instrumentation purpose, use NewSimCache instead of NewLRUCache API // NewSimCache is a wrapper function returning a SimCache instance that can // have additional interface provided in Simcache class besides Cache interface // to predict block cache hit rate without actually allocating the memory. It // can help users tune their current block cache size, and determine how // efficient they are using the memory. // // Since GetSimCapacity() returns the capacity for simulutation, it differs from // actual memory usage, which can be estimated as: // sim_capacity * entry_size / (entry_size + block_size), // where 76 <= entry_size <= 104, // BlockBasedTableOptions.block_size = 4096 by default but is configurable, // Therefore, generally the actual memory overhead of SimCache is Less than // sim_capacity * 2% extern std::shared_ptr NewSimCache(std::shared_ptr cache, size_t sim_capacity, int num_shard_bits); class SimCache : public Cache { public: SimCache() {} ~SimCache() override {} const char* Name() const override { return "SimCache"; } // returns the maximum configured capacity of the simcache for simulation virtual size_t GetSimCapacity() const = 0; // simcache doesn't provide internal handler reference to user, so always // PinnedUsage = 0 and the behavior will be not exactly consistent the // with real cache. // returns the memory size for the entries residing in the simcache. virtual size_t GetSimUsage() const = 0; // sets the maximum configured capacity of the simcache. When the new // capacity is less than the old capacity and the existing usage is // greater than new capacity, the implementation will purge old entries // to fit new capapicty. virtual void SetSimCapacity(size_t capacity) = 0; // returns the lookup times of simcache virtual uint64_t get_miss_counter() const = 0; // returns the hit times of simcache virtual uint64_t get_hit_counter() const = 0; // reset the lookup and hit counters virtual void reset_counter() = 0; // String representation of the statistics of the simcache virtual std::string ToString() const = 0; // Start storing logs of the cache activity (Add/Lookup) into // a file located at activity_log_file, max_logging_size option can be used to // stop logging to the file automatically after reaching a specific size in // bytes, a values of 0 disable this feature virtual Status StartActivityLogging(const std::string& activity_log_file, Env* env, uint64_t max_logging_size = 0) = 0; // Stop cache activity logging if any virtual void StopActivityLogging() = 0; // Status of cache logging happening in background virtual Status GetActivityLoggingStatus() = 0; private: SimCache(const SimCache&); SimCache& operator=(const SimCache&); }; } // namespace rocksdb rocksdb-5.17.2/include/rocksdb/utilities/spatial_db.h000066400000000000000000000214371337235545400226170ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #ifndef ROCKSDB_LITE #include #include #include "rocksdb/db.h" #include "rocksdb/slice.h" #include "rocksdb/utilities/stackable_db.h" namespace rocksdb { namespace spatial { // NOTE: SpatialDB is experimental and we might change its API without warning. // Please talk to us before developing against SpatialDB API. // // SpatialDB is a support for spatial indexes built on top of RocksDB. // When creating a new SpatialDB, clients specifies a list of spatial indexes to // build on their data. Each spatial index is defined by the area and // granularity. If you're storing map data, different spatial index // granularities can be used for different zoom levels. // // Each element inserted into SpatialDB has: // * a bounding box, which determines how will the element be indexed // * string blob, which will usually be WKB representation of the polygon // (http://en.wikipedia.org/wiki/Well-known_text) // * feature set, which is a map of key-value pairs, where value can be null, // int, double, bool, string // * a list of indexes to insert the element in // // Each query is executed on a single spatial index. Query guarantees that it // will return all elements intersecting the specified bounding box, but it // might also return some extra non-intersecting elements. // Variant is a class that can be many things: null, bool, int, double or string // It is used to store different value types in FeatureSet (see below) struct Variant { // Don't change the values here, they are persisted on disk enum Type { kNull = 0x0, kBool = 0x1, kInt = 0x2, kDouble = 0x3, kString = 0x4, }; Variant() : type_(kNull) {} /* implicit */ Variant(bool b) : type_(kBool) { data_.b = b; } /* implicit */ Variant(uint64_t i) : type_(kInt) { data_.i = i; } /* implicit */ Variant(double d) : type_(kDouble) { data_.d = d; } /* implicit */ Variant(const std::string& s) : type_(kString) { new (&data_.s) std::string(s); } Variant(const Variant& v) : type_(v.type_) { Init(v, data_); } Variant& operator=(const Variant& v); Variant(Variant&& rhs) : type_(kNull) { *this = std::move(rhs); } Variant& operator=(Variant&& v); ~Variant() { Destroy(type_, data_); } Type type() const { return type_; } bool get_bool() const { return data_.b; } uint64_t get_int() const { return data_.i; } double get_double() const { return data_.d; } const std::string& get_string() const { return *GetStringPtr(data_); } bool operator==(const Variant& other) const; bool operator!=(const Variant& other) const { return !(*this == other); } private: Type type_; union Data { bool b; uint64_t i; double d; // Current version of MS compiler not C++11 compliant so can not put // std::string // however, even then we still need the rest of the maintenance. char s[sizeof(std::string)]; } data_; // Avoid type_punned aliasing problem static std::string* GetStringPtr(Data& d) { void* p = d.s; return reinterpret_cast(p); } static const std::string* GetStringPtr(const Data& d) { const void* p = d.s; return reinterpret_cast(p); } static void Init(const Variant&, Data&); static void Destroy(Type t, Data& d) { if (t == kString) { using std::string; GetStringPtr(d)->~string(); } } }; // FeatureSet is a map of key-value pairs. One feature set is associated with // each element in SpatialDB. It can be used to add rich data about the element. class FeatureSet { private: typedef std::unordered_map map; public: class iterator { public: /* implicit */ iterator(const map::const_iterator itr) : itr_(itr) {} iterator& operator++() { ++itr_; return *this; } bool operator!=(const iterator& other) { return itr_ != other.itr_; } bool operator==(const iterator& other) { return itr_ == other.itr_; } map::value_type operator*() { return *itr_; } private: map::const_iterator itr_; }; FeatureSet() = default; FeatureSet* Set(const std::string& key, const Variant& value); bool Contains(const std::string& key) const; // REQUIRES: Contains(key) const Variant& Get(const std::string& key) const; iterator Find(const std::string& key) const; iterator begin() const { return map_.begin(); } iterator end() const { return map_.end(); } void Clear(); size_t Size() const { return map_.size(); } void Serialize(std::string* output) const; // REQUIRED: empty FeatureSet bool Deserialize(const Slice& input); std::string DebugString() const; private: map map_; }; // BoundingBox is a helper structure for defining rectangles representing // bounding boxes of spatial elements. template struct BoundingBox { T min_x, min_y, max_x, max_y; BoundingBox() = default; BoundingBox(T _min_x, T _min_y, T _max_x, T _max_y) : min_x(_min_x), min_y(_min_y), max_x(_max_x), max_y(_max_y) {} bool Intersects(const BoundingBox& a) const { return !(min_x > a.max_x || min_y > a.max_y || a.min_x > max_x || a.min_y > max_y); } }; struct SpatialDBOptions { uint64_t cache_size = 1 * 1024 * 1024 * 1024LL; // 1GB int num_threads = 16; bool bulk_load = true; }; // Cursor is used to return data from the query to the client. To get all the // data from the query, just call Next() while Valid() is true class Cursor { public: Cursor() = default; virtual ~Cursor() {} virtual bool Valid() const = 0; // REQUIRES: Valid() virtual void Next() = 0; // Lifetime of the underlying storage until the next call to Next() // REQUIRES: Valid() virtual const Slice blob() = 0; // Lifetime of the underlying storage until the next call to Next() // REQUIRES: Valid() virtual const FeatureSet& feature_set() = 0; virtual Status status() const = 0; private: // No copying allowed Cursor(const Cursor&); void operator=(const Cursor&); }; // SpatialIndexOptions defines a spatial index that will be built on the data struct SpatialIndexOptions { // Spatial indexes are referenced by names std::string name; // An area that is indexed. If the element is not intersecting with spatial // index's bbox, it will not be inserted into the index BoundingBox bbox; // tile_bits control the granularity of the spatial index. Each dimension of // the bbox will be split into (1 << tile_bits) tiles, so there will be a // total of (1 << tile_bits)^2 tiles. It is recommended to configure a size of // each tile to be approximately the size of the query on that spatial index uint32_t tile_bits; SpatialIndexOptions() {} SpatialIndexOptions(const std::string& _name, const BoundingBox& _bbox, uint32_t _tile_bits) : name(_name), bbox(_bbox), tile_bits(_tile_bits) {} }; class SpatialDB : public StackableDB { public: // Creates the SpatialDB with specified list of indexes. // REQUIRED: db doesn't exist static Status Create(const SpatialDBOptions& options, const std::string& name, const std::vector& spatial_indexes); // Open the existing SpatialDB. The resulting db object will be returned // through db parameter. // REQUIRED: db was created using SpatialDB::Create static Status Open(const SpatialDBOptions& options, const std::string& name, SpatialDB** db, bool read_only = false); explicit SpatialDB(DB* db) : StackableDB(db) {} // Insert the element into the DB. Element will be inserted into specified // spatial_indexes, based on specified bbox. // REQUIRES: spatial_indexes.size() > 0 virtual Status Insert(const WriteOptions& write_options, const BoundingBox& bbox, const Slice& blob, const FeatureSet& feature_set, const std::vector& spatial_indexes) = 0; // Calling Compact() after inserting a bunch of elements should speed up // reading. This is especially useful if you use SpatialDBOptions::bulk_load // Num threads determines how many threads we'll use for compactions. Setting // this to bigger number will use more IO and CPU, but finish faster virtual Status Compact(int num_threads = 1) = 0; // Query the specified spatial_index. Query will return all elements that // intersect bbox, but it may also return some extra elements. virtual Cursor* Query(const ReadOptions& read_options, const BoundingBox& bbox, const std::string& spatial_index) = 0; }; } // namespace spatial } // namespace rocksdb #endif // ROCKSDB_LITE rocksdb-5.17.2/include/rocksdb/utilities/stackable_db.h000066400000000000000000000315441337235545400231130ustar00rootroot00000000000000// Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #include #include #include #include "rocksdb/db.h" #ifdef _WIN32 // Windows API macro interference #undef DeleteFile #endif namespace rocksdb { // This class contains APIs to stack rocksdb wrappers.Eg. Stack TTL over base d class StackableDB : public DB { public: // StackableDB take sole ownership of the underlying db. explicit StackableDB(DB* db) : db_(db) {} // StackableDB take shared ownership of the underlying db. explicit StackableDB(std::shared_ptr db) : db_(db.get()), shared_db_ptr_(db) {} ~StackableDB() { if (shared_db_ptr_ == nullptr) { delete db_; } else { assert(shared_db_ptr_.get() == db_); } db_ = nullptr; } virtual Status Close() override { return db_->Close(); } virtual DB* GetBaseDB() { return db_; } virtual DB* GetRootDB() override { return db_->GetRootDB(); } virtual Status CreateColumnFamily(const ColumnFamilyOptions& options, const std::string& column_family_name, ColumnFamilyHandle** handle) override { return db_->CreateColumnFamily(options, column_family_name, handle); } virtual Status CreateColumnFamilies( const ColumnFamilyOptions& options, const std::vector& column_family_names, std::vector* handles) override { return db_->CreateColumnFamilies(options, column_family_names, handles); } virtual Status CreateColumnFamilies( const std::vector& column_families, std::vector* handles) override { return db_->CreateColumnFamilies(column_families, handles); } virtual Status DropColumnFamily(ColumnFamilyHandle* column_family) override { return db_->DropColumnFamily(column_family); } virtual Status DropColumnFamilies( const std::vector& column_families) override { return db_->DropColumnFamilies(column_families); } virtual Status DestroyColumnFamilyHandle( ColumnFamilyHandle* column_family) override { return db_->DestroyColumnFamilyHandle(column_family); } using DB::Put; virtual Status Put(const WriteOptions& options, ColumnFamilyHandle* column_family, const Slice& key, const Slice& val) override { return db_->Put(options, column_family, key, val); } using DB::Get; virtual Status Get(const ReadOptions& options, ColumnFamilyHandle* column_family, const Slice& key, PinnableSlice* value) override { return db_->Get(options, column_family, key, value); } using DB::MultiGet; virtual std::vector MultiGet( const ReadOptions& options, const std::vector& column_family, const std::vector& keys, std::vector* values) override { return db_->MultiGet(options, column_family, keys, values); } using DB::IngestExternalFile; virtual Status IngestExternalFile( ColumnFamilyHandle* column_family, const std::vector& external_files, const IngestExternalFileOptions& options) override { return db_->IngestExternalFile(column_family, external_files, options); } virtual Status VerifyChecksum() override { return db_->VerifyChecksum(); } using DB::KeyMayExist; virtual bool KeyMayExist(const ReadOptions& options, ColumnFamilyHandle* column_family, const Slice& key, std::string* value, bool* value_found = nullptr) override { return db_->KeyMayExist(options, column_family, key, value, value_found); } using DB::Delete; virtual Status Delete(const WriteOptions& wopts, ColumnFamilyHandle* column_family, const Slice& key) override { return db_->Delete(wopts, column_family, key); } using DB::SingleDelete; virtual Status SingleDelete(const WriteOptions& wopts, ColumnFamilyHandle* column_family, const Slice& key) override { return db_->SingleDelete(wopts, column_family, key); } using DB::Merge; virtual Status Merge(const WriteOptions& options, ColumnFamilyHandle* column_family, const Slice& key, const Slice& value) override { return db_->Merge(options, column_family, key, value); } virtual Status Write(const WriteOptions& opts, WriteBatch* updates) override { return db_->Write(opts, updates); } using DB::NewIterator; virtual Iterator* NewIterator(const ReadOptions& opts, ColumnFamilyHandle* column_family) override { return db_->NewIterator(opts, column_family); } virtual Status NewIterators( const ReadOptions& options, const std::vector& column_families, std::vector* iterators) override { return db_->NewIterators(options, column_families, iterators); } virtual const Snapshot* GetSnapshot() override { return db_->GetSnapshot(); } virtual void ReleaseSnapshot(const Snapshot* snapshot) override { return db_->ReleaseSnapshot(snapshot); } using DB::GetMapProperty; using DB::GetProperty; virtual bool GetProperty(ColumnFamilyHandle* column_family, const Slice& property, std::string* value) override { return db_->GetProperty(column_family, property, value); } virtual bool GetMapProperty( ColumnFamilyHandle* column_family, const Slice& property, std::map* value) override { return db_->GetMapProperty(column_family, property, value); } using DB::GetIntProperty; virtual bool GetIntProperty(ColumnFamilyHandle* column_family, const Slice& property, uint64_t* value) override { return db_->GetIntProperty(column_family, property, value); } using DB::GetAggregatedIntProperty; virtual bool GetAggregatedIntProperty(const Slice& property, uint64_t* value) override { return db_->GetAggregatedIntProperty(property, value); } using DB::GetApproximateSizes; virtual void GetApproximateSizes(ColumnFamilyHandle* column_family, const Range* r, int n, uint64_t* sizes, uint8_t include_flags = INCLUDE_FILES) override { return db_->GetApproximateSizes(column_family, r, n, sizes, include_flags); } using DB::GetApproximateMemTableStats; virtual void GetApproximateMemTableStats(ColumnFamilyHandle* column_family, const Range& range, uint64_t* const count, uint64_t* const size) override { return db_->GetApproximateMemTableStats(column_family, range, count, size); } using DB::CompactRange; virtual Status CompactRange(const CompactRangeOptions& options, ColumnFamilyHandle* column_family, const Slice* begin, const Slice* end) override { return db_->CompactRange(options, column_family, begin, end); } using DB::CompactFiles; virtual Status CompactFiles( const CompactionOptions& compact_options, ColumnFamilyHandle* column_family, const std::vector& input_file_names, const int output_level, const int output_path_id = -1, std::vector* const output_file_names = nullptr) override { return db_->CompactFiles( compact_options, column_family, input_file_names, output_level, output_path_id, output_file_names); } virtual Status PauseBackgroundWork() override { return db_->PauseBackgroundWork(); } virtual Status ContinueBackgroundWork() override { return db_->ContinueBackgroundWork(); } virtual Status EnableAutoCompaction( const std::vector& column_family_handles) override { return db_->EnableAutoCompaction(column_family_handles); } using DB::NumberLevels; virtual int NumberLevels(ColumnFamilyHandle* column_family) override { return db_->NumberLevels(column_family); } using DB::MaxMemCompactionLevel; virtual int MaxMemCompactionLevel(ColumnFamilyHandle* column_family) override { return db_->MaxMemCompactionLevel(column_family); } using DB::Level0StopWriteTrigger; virtual int Level0StopWriteTrigger(ColumnFamilyHandle* column_family) override { return db_->Level0StopWriteTrigger(column_family); } virtual const std::string& GetName() const override { return db_->GetName(); } virtual Env* GetEnv() const override { return db_->GetEnv(); } using DB::GetOptions; virtual Options GetOptions(ColumnFamilyHandle* column_family) const override { return db_->GetOptions(column_family); } using DB::GetDBOptions; virtual DBOptions GetDBOptions() const override { return db_->GetDBOptions(); } using DB::Flush; virtual Status Flush(const FlushOptions& fopts, ColumnFamilyHandle* column_family) override { return db_->Flush(fopts, column_family); } virtual Status SyncWAL() override { return db_->SyncWAL(); } virtual Status FlushWAL(bool sync) override { return db_->FlushWAL(sync); } #ifndef ROCKSDB_LITE virtual Status DisableFileDeletions() override { return db_->DisableFileDeletions(); } virtual Status EnableFileDeletions(bool force) override { return db_->EnableFileDeletions(force); } virtual void GetLiveFilesMetaData( std::vector* metadata) override { db_->GetLiveFilesMetaData(metadata); } virtual void GetColumnFamilyMetaData( ColumnFamilyHandle *column_family, ColumnFamilyMetaData* cf_meta) override { db_->GetColumnFamilyMetaData(column_family, cf_meta); } #endif // ROCKSDB_LITE virtual Status GetLiveFiles(std::vector& vec, uint64_t* mfs, bool flush_memtable = true) override { return db_->GetLiveFiles(vec, mfs, flush_memtable); } virtual SequenceNumber GetLatestSequenceNumber() const override { return db_->GetLatestSequenceNumber(); } virtual bool SetPreserveDeletesSequenceNumber(SequenceNumber seqnum) override { return db_->SetPreserveDeletesSequenceNumber(seqnum); } virtual Status GetSortedWalFiles(VectorLogPtr& files) override { return db_->GetSortedWalFiles(files); } virtual Status DeleteFile(std::string name) override { return db_->DeleteFile(name); } virtual Status GetDbIdentity(std::string& identity) const override { return db_->GetDbIdentity(identity); } using DB::SetOptions; virtual Status SetOptions(ColumnFamilyHandle* column_family_handle, const std::unordered_map& new_options) override { return db_->SetOptions(column_family_handle, new_options); } virtual Status SetDBOptions( const std::unordered_map& new_options) override { return db_->SetDBOptions(new_options); } using DB::ResetStats; virtual Status ResetStats() override { return db_->ResetStats(); } using DB::GetPropertiesOfAllTables; virtual Status GetPropertiesOfAllTables( ColumnFamilyHandle* column_family, TablePropertiesCollection* props) override { return db_->GetPropertiesOfAllTables(column_family, props); } using DB::GetPropertiesOfTablesInRange; virtual Status GetPropertiesOfTablesInRange( ColumnFamilyHandle* column_family, const Range* range, std::size_t n, TablePropertiesCollection* props) override { return db_->GetPropertiesOfTablesInRange(column_family, range, n, props); } virtual Status GetUpdatesSince( SequenceNumber seq_number, unique_ptr* iter, const TransactionLogIterator::ReadOptions& read_options) override { return db_->GetUpdatesSince(seq_number, iter, read_options); } virtual Status SuggestCompactRange(ColumnFamilyHandle* column_family, const Slice* begin, const Slice* end) override { return db_->SuggestCompactRange(column_family, begin, end); } virtual Status PromoteL0(ColumnFamilyHandle* column_family, int target_level) override { return db_->PromoteL0(column_family, target_level); } virtual ColumnFamilyHandle* DefaultColumnFamily() const override { return db_->DefaultColumnFamily(); } protected: DB* db_; std::shared_ptr shared_db_ptr_; }; } // namespace rocksdb rocksdb-5.17.2/include/rocksdb/utilities/table_properties_collectors.h000066400000000000000000000052371337235545400263110ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #ifndef ROCKSDB_LITE #include #include #include "rocksdb/table_properties.h" namespace rocksdb { // A factory of a table property collector that marks a SST // file as need-compaction when it observe at least "D" deletion // entries in any "N" consecutive entires. class CompactOnDeletionCollectorFactory : public TablePropertiesCollectorFactory { public: virtual ~CompactOnDeletionCollectorFactory() {} virtual TablePropertiesCollector* CreateTablePropertiesCollector( TablePropertiesCollectorFactory::Context context) override; // Change the value of sliding_window_size "N" // Setting it to 0 disables the delete triggered compaction void SetWindowSize(size_t sliding_window_size) { sliding_window_size_.store(sliding_window_size); } // Change the value of deletion_trigger "D" void SetDeletionTrigger(size_t deletion_trigger) { deletion_trigger_.store(deletion_trigger); } virtual const char* Name() const override { return "CompactOnDeletionCollector"; } private: friend std::shared_ptr NewCompactOnDeletionCollectorFactory( size_t sliding_window_size, size_t deletion_trigger); // A factory of a table property collector that marks a SST // file as need-compaction when it observe at least "D" deletion // entries in any "N" consecutive entires. // // @param sliding_window_size "N" // @param deletion_trigger "D" CompactOnDeletionCollectorFactory( size_t sliding_window_size, size_t deletion_trigger) : sliding_window_size_(sliding_window_size), deletion_trigger_(deletion_trigger) {} std::atomic sliding_window_size_; std::atomic deletion_trigger_; }; // Creates a factory of a table property collector that marks a SST // file as need-compaction when it observe at least "D" deletion // entries in any "N" consecutive entires. // // @param sliding_window_size "N". Note that this number will be // round up to the smallest multiple of 128 that is no less // than the specified size. // @param deletion_trigger "D". Note that even when "N" is changed, // the specified number for "D" will not be changed. extern std::shared_ptr NewCompactOnDeletionCollectorFactory( size_t sliding_window_size, size_t deletion_trigger); } // namespace rocksdb #endif // !ROCKSDB_LITE rocksdb-5.17.2/include/rocksdb/utilities/transaction.h000066400000000000000000000513461337235545400230440ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #ifndef ROCKSDB_LITE #include #include #include "rocksdb/comparator.h" #include "rocksdb/db.h" #include "rocksdb/status.h" namespace rocksdb { class Iterator; class TransactionDB; class WriteBatchWithIndex; using TransactionName = std::string; using TransactionID = uint64_t; // Provides notification to the caller of SetSnapshotOnNextOperation when // the actual snapshot gets created class TransactionNotifier { public: virtual ~TransactionNotifier() {} // Implement this method to receive notification when a snapshot is // requested via SetSnapshotOnNextOperation. virtual void SnapshotCreated(const Snapshot* newSnapshot) = 0; }; // Provides BEGIN/COMMIT/ROLLBACK transactions. // // To use transactions, you must first create either an OptimisticTransactionDB // or a TransactionDB. See examples/[optimistic_]transaction_example.cc for // more information. // // To create a transaction, use [Optimistic]TransactionDB::BeginTransaction(). // // It is up to the caller to synchronize access to this object. // // See examples/transaction_example.cc for some simple examples. // // TODO(agiardullo): Not yet implemented // -PerfContext statistics // -Support for using Transactions with DBWithTTL class Transaction { public: virtual ~Transaction() {} // If a transaction has a snapshot set, the transaction will ensure that // any keys successfully written(or fetched via GetForUpdate()) have not // been modified outside of this transaction since the time the snapshot was // set. // If a snapshot has not been set, the transaction guarantees that keys have // not been modified since the time each key was first written (or fetched via // GetForUpdate()). // // Using SetSnapshot() will provide stricter isolation guarantees at the // expense of potentially more transaction failures due to conflicts with // other writes. // // Calling SetSnapshot() has no effect on keys written before this function // has been called. // // SetSnapshot() may be called multiple times if you would like to change // the snapshot used for different operations in this transaction. // // Calling SetSnapshot will not affect the version of Data returned by Get() // methods. See Transaction::Get() for more details. virtual void SetSnapshot() = 0; // Similar to SetSnapshot(), but will not change the current snapshot // until Put/Merge/Delete/GetForUpdate/MultigetForUpdate is called. // By calling this function, the transaction will essentially call // SetSnapshot() for you right before performing the next write/GetForUpdate. // // Calling SetSnapshotOnNextOperation() will not affect what snapshot is // returned by GetSnapshot() until the next write/GetForUpdate is executed. // // When the snapshot is created the notifier's SnapshotCreated method will // be called so that the caller can get access to the snapshot. // // This is an optimization to reduce the likelihood of conflicts that // could occur in between the time SetSnapshot() is called and the first // write/GetForUpdate operation. Eg, this prevents the following // race-condition: // // txn1->SetSnapshot(); // txn2->Put("A", ...); // txn2->Commit(); // txn1->GetForUpdate(opts, "A", ...); // FAIL! virtual void SetSnapshotOnNextOperation( std::shared_ptr notifier = nullptr) = 0; // Returns the Snapshot created by the last call to SetSnapshot(). // // REQUIRED: The returned Snapshot is only valid up until the next time // SetSnapshot()/SetSnapshotOnNextSavePoint() is called, ClearSnapshot() // is called, or the Transaction is deleted. virtual const Snapshot* GetSnapshot() const = 0; // Clears the current snapshot (i.e. no snapshot will be 'set') // // This removes any snapshot that currently exists or is set to be created // on the next update operation (SetSnapshotOnNextOperation). // // Calling ClearSnapshot() has no effect on keys written before this function // has been called. // // If a reference to a snapshot was retrieved via GetSnapshot(), it will no // longer be valid and should be discarded after a call to ClearSnapshot(). virtual void ClearSnapshot() = 0; // Prepare the current transaction for 2PC virtual Status Prepare() = 0; // Write all batched keys to the db atomically. // // Returns OK on success. // // May return any error status that could be returned by DB:Write(). // // If this transaction was created by an OptimisticTransactionDB(), // Status::Busy() may be returned if the transaction could not guarantee // that there are no write conflicts. Status::TryAgain() may be returned // if the memtable history size is not large enough // (See max_write_buffer_number_to_maintain). // // If this transaction was created by a TransactionDB(), Status::Expired() // may be returned if this transaction has lived for longer than // TransactionOptions.expiration. virtual Status Commit() = 0; // Discard all batched writes in this transaction. virtual Status Rollback() = 0; // Records the state of the transaction for future calls to // RollbackToSavePoint(). May be called multiple times to set multiple save // points. virtual void SetSavePoint() = 0; // Undo all operations in this transaction (Put, Merge, Delete, PutLogData) // since the most recent call to SetSavePoint() and removes the most recent // SetSavePoint(). // If there is no previous call to SetSavePoint(), returns Status::NotFound() virtual Status RollbackToSavePoint() = 0; // Pop the most recent save point. // If there is no previous call to SetSavePoint(), Status::NotFound() // will be returned. // Otherwise returns Status::OK(). virtual Status PopSavePoint() = 0; // This function is similar to DB::Get() except it will also read pending // changes in this transaction. Currently, this function will return // Status::MergeInProgress if the most recent write to the queried key in // this batch is a Merge. // // If read_options.snapshot is not set, the current version of the key will // be read. Calling SetSnapshot() does not affect the version of the data // returned. // // Note that setting read_options.snapshot will affect what is read from the // DB but will NOT change which keys are read from this transaction (the keys // in this transaction do not yet belong to any snapshot and will be fetched // regardless). virtual Status Get(const ReadOptions& options, ColumnFamilyHandle* column_family, const Slice& key, std::string* value) = 0; // An overload of the above method that receives a PinnableSlice // For backward compatibility a default implementation is provided virtual Status Get(const ReadOptions& options, ColumnFamilyHandle* column_family, const Slice& key, PinnableSlice* pinnable_val) { assert(pinnable_val != nullptr); auto s = Get(options, column_family, key, pinnable_val->GetSelf()); pinnable_val->PinSelf(); return s; } virtual Status Get(const ReadOptions& options, const Slice& key, std::string* value) = 0; virtual Status Get(const ReadOptions& options, const Slice& key, PinnableSlice* pinnable_val) { assert(pinnable_val != nullptr); auto s = Get(options, key, pinnable_val->GetSelf()); pinnable_val->PinSelf(); return s; } virtual std::vector MultiGet( const ReadOptions& options, const std::vector& column_family, const std::vector& keys, std::vector* values) = 0; virtual std::vector MultiGet(const ReadOptions& options, const std::vector& keys, std::vector* values) = 0; // Read this key and ensure that this transaction will only // be able to be committed if this key is not written outside this // transaction after it has first been read (or after the snapshot if a // snapshot is set in this transaction). The transaction behavior is the // same regardless of whether the key exists or not. // // Note: Currently, this function will return Status::MergeInProgress // if the most recent write to the queried key in this batch is a Merge. // // The values returned by this function are similar to Transaction::Get(). // If value==nullptr, then this function will not read any data, but will // still ensure that this key cannot be written to by outside of this // transaction. // // If this transaction was created by an OptimisticTransaction, GetForUpdate() // could cause commit() to fail. Otherwise, it could return any error // that could be returned by DB::Get(). // // If this transaction was created by a TransactionDB, it can return // Status::OK() on success, // Status::Busy() if there is a write conflict, // Status::TimedOut() if a lock could not be acquired, // Status::TryAgain() if the memtable history size is not large enough // (See max_write_buffer_number_to_maintain) // Status::MergeInProgress() if merge operations cannot be resolved. // or other errors if this key could not be read. virtual Status GetForUpdate(const ReadOptions& options, ColumnFamilyHandle* column_family, const Slice& key, std::string* value, bool exclusive = true) = 0; // An overload of the above method that receives a PinnableSlice // For backward compatibility a default implementation is provided virtual Status GetForUpdate(const ReadOptions& options, ColumnFamilyHandle* /*column_family*/, const Slice& key, PinnableSlice* pinnable_val, bool /*exclusive*/ = true) { if (pinnable_val == nullptr) { std::string* null_str = nullptr; return GetForUpdate(options, key, null_str); } else { auto s = GetForUpdate(options, key, pinnable_val->GetSelf()); pinnable_val->PinSelf(); return s; } } virtual Status GetForUpdate(const ReadOptions& options, const Slice& key, std::string* value, bool exclusive = true) = 0; virtual std::vector MultiGetForUpdate( const ReadOptions& options, const std::vector& column_family, const std::vector& keys, std::vector* values) = 0; virtual std::vector MultiGetForUpdate( const ReadOptions& options, const std::vector& keys, std::vector* values) = 0; // Returns an iterator that will iterate on all keys in the default // column family including both keys in the DB and uncommitted keys in this // transaction. // // Setting read_options.snapshot will affect what is read from the // DB but will NOT change which keys are read from this transaction (the keys // in this transaction do not yet belong to any snapshot and will be fetched // regardless). // // Caller is responsible for deleting the returned Iterator. // // The returned iterator is only valid until Commit(), Rollback(), or // RollbackToSavePoint() is called. virtual Iterator* GetIterator(const ReadOptions& read_options) = 0; virtual Iterator* GetIterator(const ReadOptions& read_options, ColumnFamilyHandle* column_family) = 0; // Put, Merge, Delete, and SingleDelete behave similarly to the corresponding // functions in WriteBatch, but will also do conflict checking on the // keys being written. // // If this Transaction was created on an OptimisticTransactionDB, these // functions should always return Status::OK(). // // If this Transaction was created on a TransactionDB, the status returned // can be: // Status::OK() on success, // Status::Busy() if there is a write conflict, // Status::TimedOut() if a lock could not be acquired, // Status::TryAgain() if the memtable history size is not large enough // (See max_write_buffer_number_to_maintain) // or other errors on unexpected failures. virtual Status Put(ColumnFamilyHandle* column_family, const Slice& key, const Slice& value) = 0; virtual Status Put(const Slice& key, const Slice& value) = 0; virtual Status Put(ColumnFamilyHandle* column_family, const SliceParts& key, const SliceParts& value) = 0; virtual Status Put(const SliceParts& key, const SliceParts& value) = 0; virtual Status Merge(ColumnFamilyHandle* column_family, const Slice& key, const Slice& value) = 0; virtual Status Merge(const Slice& key, const Slice& value) = 0; virtual Status Delete(ColumnFamilyHandle* column_family, const Slice& key) = 0; virtual Status Delete(const Slice& key) = 0; virtual Status Delete(ColumnFamilyHandle* column_family, const SliceParts& key) = 0; virtual Status Delete(const SliceParts& key) = 0; virtual Status SingleDelete(ColumnFamilyHandle* column_family, const Slice& key) = 0; virtual Status SingleDelete(const Slice& key) = 0; virtual Status SingleDelete(ColumnFamilyHandle* column_family, const SliceParts& key) = 0; virtual Status SingleDelete(const SliceParts& key) = 0; // PutUntracked() will write a Put to the batch of operations to be committed // in this transaction. This write will only happen if this transaction // gets committed successfully. But unlike Transaction::Put(), // no conflict checking will be done for this key. // // If this Transaction was created on a PessimisticTransactionDB, this // function will still acquire locks necessary to make sure this write doesn't // cause conflicts in other transactions and may return Status::Busy(). virtual Status PutUntracked(ColumnFamilyHandle* column_family, const Slice& key, const Slice& value) = 0; virtual Status PutUntracked(const Slice& key, const Slice& value) = 0; virtual Status PutUntracked(ColumnFamilyHandle* column_family, const SliceParts& key, const SliceParts& value) = 0; virtual Status PutUntracked(const SliceParts& key, const SliceParts& value) = 0; virtual Status MergeUntracked(ColumnFamilyHandle* column_family, const Slice& key, const Slice& value) = 0; virtual Status MergeUntracked(const Slice& key, const Slice& value) = 0; virtual Status DeleteUntracked(ColumnFamilyHandle* column_family, const Slice& key) = 0; virtual Status DeleteUntracked(const Slice& key) = 0; virtual Status DeleteUntracked(ColumnFamilyHandle* column_family, const SliceParts& key) = 0; virtual Status DeleteUntracked(const SliceParts& key) = 0; virtual Status SingleDeleteUntracked(ColumnFamilyHandle* column_family, const Slice& key) = 0; virtual Status SingleDeleteUntracked(const Slice& key) = 0; // Similar to WriteBatch::PutLogData virtual void PutLogData(const Slice& blob) = 0; // By default, all Put/Merge/Delete operations will be indexed in the // transaction so that Get/GetForUpdate/GetIterator can search for these // keys. // // If the caller does not want to fetch the keys about to be written, // they may want to avoid indexing as a performance optimization. // Calling DisableIndexing() will turn off indexing for all future // Put/Merge/Delete operations until EnableIndexing() is called. // // If a key is Put/Merge/Deleted after DisableIndexing is called and then // is fetched via Get/GetForUpdate/GetIterator, the result of the fetch is // undefined. virtual void DisableIndexing() = 0; virtual void EnableIndexing() = 0; // Returns the number of distinct Keys being tracked by this transaction. // If this transaction was created by a TransactionDB, this is the number of // keys that are currently locked by this transaction. // If this transaction was created by an OptimisticTransactionDB, this is the // number of keys that need to be checked for conflicts at commit time. virtual uint64_t GetNumKeys() const = 0; // Returns the number of Puts/Deletes/Merges that have been applied to this // transaction so far. virtual uint64_t GetNumPuts() const = 0; virtual uint64_t GetNumDeletes() const = 0; virtual uint64_t GetNumMerges() const = 0; // Returns the elapsed time in milliseconds since this Transaction began. virtual uint64_t GetElapsedTime() const = 0; // Fetch the underlying write batch that contains all pending changes to be // committed. // // Note: You should not write or delete anything from the batch directly and // should only use the functions in the Transaction class to // write to this transaction. virtual WriteBatchWithIndex* GetWriteBatch() = 0; // Change the value of TransactionOptions.lock_timeout (in milliseconds) for // this transaction. // Has no effect on OptimisticTransactions. virtual void SetLockTimeout(int64_t timeout) = 0; // Return the WriteOptions that will be used during Commit() virtual WriteOptions* GetWriteOptions() = 0; // Reset the WriteOptions that will be used during Commit(). virtual void SetWriteOptions(const WriteOptions& write_options) = 0; // If this key was previously fetched in this transaction using // GetForUpdate/MultigetForUpdate(), calling UndoGetForUpdate will tell // the transaction that it no longer needs to do any conflict checking // for this key. // // If a key has been fetched N times via GetForUpdate/MultigetForUpdate(), // then UndoGetForUpdate will only have an effect if it is also called N // times. If this key has been written to in this transaction, // UndoGetForUpdate() will have no effect. // // If SetSavePoint() has been called after the GetForUpdate(), // UndoGetForUpdate() will not have any effect. // // If this Transaction was created by an OptimisticTransactionDB, // calling UndoGetForUpdate can affect whether this key is conflict checked // at commit time. // If this Transaction was created by a TransactionDB, // calling UndoGetForUpdate may release any held locks for this key. virtual void UndoGetForUpdate(ColumnFamilyHandle* column_family, const Slice& key) = 0; virtual void UndoGetForUpdate(const Slice& key) = 0; virtual Status RebuildFromWriteBatch(WriteBatch* src_batch) = 0; virtual WriteBatch* GetCommitTimeWriteBatch() = 0; virtual void SetLogNumber(uint64_t log) { log_number_ = log; } virtual uint64_t GetLogNumber() const { return log_number_; } virtual Status SetName(const TransactionName& name) = 0; virtual TransactionName GetName() const { return name_; } virtual TransactionID GetID() const { return 0; } virtual bool IsDeadlockDetect() const { return false; } virtual std::vector GetWaitingTxns( uint32_t* /*column_family_id*/, std::string* /*key*/) const { assert(false); return std::vector(); } enum TransactionState { STARTED = 0, AWAITING_PREPARE = 1, PREPARED = 2, AWAITING_COMMIT = 3, COMMITED = 4, AWAITING_ROLLBACK = 5, ROLLEDBACK = 6, LOCKS_STOLEN = 7, }; TransactionState GetState() const { return txn_state_; } void SetState(TransactionState state) { txn_state_ = state; } // NOTE: Experimental feature // The globally unique id with which the transaction is identified. This id // might or might not be set depending on the implementation. Similarly the // implementation decides the point in lifetime of a transaction at which it // assigns the id. Although currently it is the case, the id is not guaranteed // to remain the same across restarts. uint64_t GetId() { return id_; } protected: explicit Transaction(const TransactionDB* /*db*/) {} Transaction() : log_number_(0), txn_state_(STARTED) {} // the log in which the prepared section for this txn resides // (for two phase commit) uint64_t log_number_; TransactionName name_; // Execution status of the transaction. std::atomic txn_state_; uint64_t id_ = 0; virtual void SetId(uint64_t id) { assert(id_ == 0); id_ = id; } private: friend class PessimisticTransactionDB; friend class WriteUnpreparedTxnDB; // No copying allowed Transaction(const Transaction&); void operator=(const Transaction&); }; } // namespace rocksdb #endif // ROCKSDB_LITE rocksdb-5.17.2/include/rocksdb/utilities/transaction_db.h000066400000000000000000000273201337235545400235040ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #ifndef ROCKSDB_LITE #include #include #include #include "rocksdb/comparator.h" #include "rocksdb/db.h" #include "rocksdb/utilities/stackable_db.h" #include "rocksdb/utilities/transaction.h" // Database with Transaction support. // // See transaction.h and examples/transaction_example.cc namespace rocksdb { class TransactionDBMutexFactory; enum TxnDBWritePolicy { WRITE_COMMITTED = 0, // write only the committed data // TODO(myabandeh): Not implemented yet WRITE_PREPARED, // write data after the prepare phase of 2pc // TODO(myabandeh): Not implemented yet WRITE_UNPREPARED // write data before the prepare phase of 2pc }; const uint32_t kInitialMaxDeadlocks = 5; struct TransactionDBOptions { // Specifies the maximum number of keys that can be locked at the same time // per column family. // If the number of locked keys is greater than max_num_locks, transaction // writes (or GetForUpdate) will return an error. // If this value is not positive, no limit will be enforced. int64_t max_num_locks = -1; // Stores the number of latest deadlocks to track uint32_t max_num_deadlocks = kInitialMaxDeadlocks; // Increasing this value will increase the concurrency by dividing the lock // table (per column family) into more sub-tables, each with their own // separate // mutex. size_t num_stripes = 16; // If positive, specifies the default wait timeout in milliseconds when // a transaction attempts to lock a key if not specified by // TransactionOptions::lock_timeout. // // If 0, no waiting is done if a lock cannot instantly be acquired. // If negative, there is no timeout. Not using a timeout is not recommended // as it can lead to deadlocks. Currently, there is no deadlock-detection to // recover // from a deadlock. int64_t transaction_lock_timeout = 1000; // 1 second // If positive, specifies the wait timeout in milliseconds when writing a key // OUTSIDE of a transaction (ie by calling DB::Put(),Merge(),Delete(),Write() // directly). // If 0, no waiting is done if a lock cannot instantly be acquired. // If negative, there is no timeout and will block indefinitely when acquiring // a lock. // // Not using a timeout can lead to deadlocks. Currently, there // is no deadlock-detection to recover from a deadlock. While DB writes // cannot deadlock with other DB writes, they can deadlock with a transaction. // A negative timeout should only be used if all transactions have a small // expiration set. int64_t default_lock_timeout = 1000; // 1 second // If set, the TransactionDB will use this implementation of a mutex and // condition variable for all transaction locking instead of the default // mutex/condvar implementation. std::shared_ptr custom_mutex_factory; // The policy for when to write the data into the DB. The default policy is to // write only the committed data (WRITE_COMMITTED). The data could be written // before the commit phase. The DB then needs to provide the mechanisms to // tell apart committed from uncommitted data. TxnDBWritePolicy write_policy = TxnDBWritePolicy::WRITE_COMMITTED; // TODO(myabandeh): remove this option // Note: this is a temporary option as a hot fix in rollback of writeprepared // txns in myrocks. MyRocks uses merge operands for autoinc column id without // however obtaining locks. This breaks the assumption behind the rollback // logic in myrocks. This hack of simply not rolling back merge operands works // for the special way that myrocks uses this operands. bool rollback_merge_operands = false; }; struct TransactionOptions { // Setting set_snapshot=true is the same as calling // Transaction::SetSnapshot(). bool set_snapshot = false; // Setting to true means that before acquiring locks, this transaction will // check if doing so will cause a deadlock. If so, it will return with // Status::Busy. The user should retry their transaction. bool deadlock_detect = false; // If set, it states that the CommitTimeWriteBatch represents the latest state // of the application, has only one sub-batch, i.e., no duplicate keys, and // meant to be used later during recovery. It enables an optimization to // postpone updating the memtable with CommitTimeWriteBatch to only // SwitchMemtable or recovery. bool use_only_the_last_commit_time_batch_for_recovery = false; // TODO(agiardullo): TransactionDB does not yet support comparators that allow // two non-equal keys to be equivalent. Ie, cmp->Compare(a,b) should only // return 0 if // a.compare(b) returns 0. // If positive, specifies the wait timeout in milliseconds when // a transaction attempts to lock a key. // // If 0, no waiting is done if a lock cannot instantly be acquired. // If negative, TransactionDBOptions::transaction_lock_timeout will be used. int64_t lock_timeout = -1; // Expiration duration in milliseconds. If non-negative, transactions that // last longer than this many milliseconds will fail to commit. If not set, // a forgotten transaction that is never committed, rolled back, or deleted // will never relinquish any locks it holds. This could prevent keys from // being written by other writers. int64_t expiration = -1; // The number of traversals to make during deadlock detection. int64_t deadlock_detect_depth = 50; // The maximum number of bytes used for the write batch. 0 means no limit. size_t max_write_batch_size = 0; // Skip Concurrency Control. This could be as an optimization if the // application knows that the transaction would not have any conflict with // concurrent transactions. It could also be used during recovery if (i) // application guarantees no conflict between prepared transactions in the WAL // (ii) application guarantees that recovered transactions will be rolled // back/commit before new transactions start. // Default: false bool skip_concurrency_control = false; }; // The per-write optimizations that do not involve transactions. TransactionDB // implementation might or might not make use of the specified optimizations. struct TransactionDBWriteOptimizations { // If it is true it means that the application guarantees that the // key-set in the write batch do not conflict with any concurrent transaction // and hence the concurrency control mechanism could be skipped for this // write. bool skip_concurrency_control = false; // If true, the application guarantees that there is no duplicate in the write batch and any employed mechanism to handle // duplicate keys could be skipped. bool skip_duplicate_key_check = false; }; struct KeyLockInfo { std::string key; std::vector ids; bool exclusive; }; struct DeadlockInfo { TransactionID m_txn_id; uint32_t m_cf_id; std::string m_waiting_key; bool m_exclusive; }; struct DeadlockPath { std::vector path; bool limit_exceeded; int64_t deadlock_time; explicit DeadlockPath(std::vector path_entry, const int64_t& dl_time) : path(path_entry), limit_exceeded(false), deadlock_time(dl_time) {} // empty path, limit exceeded constructor and default constructor explicit DeadlockPath(const int64_t& dl_time = 0, bool limit = false) : path(0), limit_exceeded(limit), deadlock_time(dl_time) {} bool empty() { return path.empty() && !limit_exceeded; } }; class TransactionDB : public StackableDB { public: // Optimized version of ::Write that receives more optimization request such // as skip_concurrency_control. using StackableDB::Write; virtual Status Write(const WriteOptions& opts, const TransactionDBWriteOptimizations&, WriteBatch* updates) { // The default implementation ignores TransactionDBWriteOptimizations and // falls back to the un-optimized version of ::Write return Write(opts, updates); } // Open a TransactionDB similar to DB::Open(). // Internally call PrepareWrap() and WrapDB() // If the return status is not ok, then dbptr is set to nullptr. static Status Open(const Options& options, const TransactionDBOptions& txn_db_options, const std::string& dbname, TransactionDB** dbptr); static Status Open(const DBOptions& db_options, const TransactionDBOptions& txn_db_options, const std::string& dbname, const std::vector& column_families, std::vector* handles, TransactionDB** dbptr); // Note: PrepareWrap() may change parameters, make copies before the // invocation if needed. static void PrepareWrap(DBOptions* db_options, std::vector* column_families, std::vector* compaction_enabled_cf_indices); // If the return status is not ok, then dbptr will bet set to nullptr. The // input db parameter might or might not be deleted as a result of the // failure. If it is properly deleted it will be set to nullptr. If the return // status is ok, the ownership of db is transferred to dbptr. static Status WrapDB(DB* db, const TransactionDBOptions& txn_db_options, const std::vector& compaction_enabled_cf_indices, const std::vector& handles, TransactionDB** dbptr); // If the return status is not ok, then dbptr will bet set to nullptr. The // input db parameter might or might not be deleted as a result of the // failure. If it is properly deleted it will be set to nullptr. If the return // status is ok, the ownership of db is transferred to dbptr. static Status WrapStackableDB( StackableDB* db, const TransactionDBOptions& txn_db_options, const std::vector& compaction_enabled_cf_indices, const std::vector& handles, TransactionDB** dbptr); // Since the destructor in StackableDB is virtual, this destructor is virtual // too. The root db will be deleted by the base's destructor. ~TransactionDB() override {} // Starts a new Transaction. // // Caller is responsible for deleting the returned transaction when no // longer needed. // // If old_txn is not null, BeginTransaction will reuse this Transaction // handle instead of allocating a new one. This is an optimization to avoid // extra allocations when repeatedly creating transactions. virtual Transaction* BeginTransaction( const WriteOptions& write_options, const TransactionOptions& txn_options = TransactionOptions(), Transaction* old_txn = nullptr) = 0; virtual Transaction* GetTransactionByName(const TransactionName& name) = 0; virtual void GetAllPreparedTransactions(std::vector* trans) = 0; // Returns set of all locks held. // // The mapping is column family id -> KeyLockInfo virtual std::unordered_multimap GetLockStatusData() = 0; virtual std::vector GetDeadlockInfoBuffer() = 0; virtual void SetDeadlockInfoBufferSize(uint32_t target_size) = 0; protected: // To Create an TransactionDB, call Open() // The ownership of db is transferred to the base StackableDB explicit TransactionDB(DB* db) : StackableDB(db) {} private: // No copying allowed TransactionDB(const TransactionDB&); void operator=(const TransactionDB&); }; } // namespace rocksdb #endif // ROCKSDB_LITE rocksdb-5.17.2/include/rocksdb/utilities/transaction_db_mutex.h000066400000000000000000000062321337235545400247250ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #ifndef ROCKSDB_LITE #include #include "rocksdb/status.h" namespace rocksdb { // TransactionDBMutex and TransactionDBCondVar APIs allows applications to // implement custom mutexes and condition variables to be used by a // TransactionDB when locking keys. // // To open a TransactionDB with a custom TransactionDBMutexFactory, set // TransactionDBOptions.custom_mutex_factory. class TransactionDBMutex { public: virtual ~TransactionDBMutex() {} // Attempt to acquire lock. Return OK on success, or other Status on failure. // If returned status is OK, TransactionDB will eventually call UnLock(). virtual Status Lock() = 0; // Attempt to acquire lock. If timeout is non-negative, operation may be // failed after this many microseconds. // Returns OK on success, // TimedOut if timed out, // or other Status on failure. // If returned status is OK, TransactionDB will eventually call UnLock(). virtual Status TryLockFor(int64_t timeout_time) = 0; // Unlock Mutex that was successfully locked by Lock() or TryLockUntil() virtual void UnLock() = 0; }; class TransactionDBCondVar { public: virtual ~TransactionDBCondVar() {} // Block current thread until condition variable is notified by a call to // Notify() or NotifyAll(). Wait() will be called with mutex locked. // Returns OK if notified. // Returns non-OK if TransactionDB should stop waiting and fail the operation. // May return OK spuriously even if not notified. virtual Status Wait(std::shared_ptr mutex) = 0; // Block current thread until condition variable is notified by a call to // Notify() or NotifyAll(), or if the timeout is reached. // Wait() will be called with mutex locked. // // If timeout is non-negative, operation should be failed after this many // microseconds. // If implementing a custom version of this class, the implementation may // choose to ignore the timeout. // // Returns OK if notified. // Returns TimedOut if timeout is reached. // Returns other status if TransactionDB should otherwis stop waiting and // fail the operation. // May return OK spuriously even if not notified. virtual Status WaitFor(std::shared_ptr mutex, int64_t timeout_time) = 0; // If any threads are waiting on *this, unblock at least one of the // waiting threads. virtual void Notify() = 0; // Unblocks all threads waiting on *this. virtual void NotifyAll() = 0; }; // Factory class that can allocate mutexes and condition variables. class TransactionDBMutexFactory { public: // Create a TransactionDBMutex object. virtual std::shared_ptr AllocateMutex() = 0; // Create a TransactionDBCondVar object. virtual std::shared_ptr AllocateCondVar() = 0; virtual ~TransactionDBMutexFactory() {} }; } // namespace rocksdb #endif // ROCKSDB_LITE rocksdb-5.17.2/include/rocksdb/utilities/utility_db.h000066400000000000000000000022321337235545400226550ustar00rootroot00000000000000// Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #ifndef ROCKSDB_LITE #include #include #include "rocksdb/utilities/stackable_db.h" #include "rocksdb/utilities/db_ttl.h" #include "rocksdb/db.h" namespace rocksdb { // Please don't use this class. It's deprecated class UtilityDB { public: // This function is here only for backwards compatibility. Please use the // functions defined in DBWithTTl (rocksdb/utilities/db_ttl.h) // (deprecated) #if defined(__GNUC__) || defined(__clang__) __attribute__((deprecated)) #elif _WIN32 __declspec(deprecated) #endif static Status OpenTtlDB(const Options& options, const std::string& name, StackableDB** dbptr, int32_t ttl = 0, bool read_only = false); }; } // namespace rocksdb #endif // ROCKSDB_LITE rocksdb-5.17.2/include/rocksdb/utilities/write_batch_with_index.h000066400000000000000000000226131337235545400252270ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. // // A WriteBatchWithIndex with a binary searchable index built for all the keys // inserted. #pragma once #ifndef ROCKSDB_LITE #include #include #include "rocksdb/comparator.h" #include "rocksdb/iterator.h" #include "rocksdb/slice.h" #include "rocksdb/status.h" #include "rocksdb/write_batch.h" #include "rocksdb/write_batch_base.h" namespace rocksdb { class ColumnFamilyHandle; class Comparator; class DB; class ReadCallback; struct ReadOptions; struct DBOptions; enum WriteType { kPutRecord, kMergeRecord, kDeleteRecord, kSingleDeleteRecord, kDeleteRangeRecord, kLogDataRecord, kXIDRecord, }; // an entry for Put, Merge, Delete, or SingleDelete entry for write batches. // Used in WBWIIterator. struct WriteEntry { WriteType type; Slice key; Slice value; }; // Iterator of one column family out of a WriteBatchWithIndex. class WBWIIterator { public: virtual ~WBWIIterator() {} virtual bool Valid() const = 0; virtual void SeekToFirst() = 0; virtual void SeekToLast() = 0; virtual void Seek(const Slice& key) = 0; virtual void SeekForPrev(const Slice& key) = 0; virtual void Next() = 0; virtual void Prev() = 0; // the return WriteEntry is only valid until the next mutation of // WriteBatchWithIndex virtual WriteEntry Entry() const = 0; virtual Status status() const = 0; }; // A WriteBatchWithIndex with a binary searchable index built for all the keys // inserted. // In Put(), Merge() Delete(), or SingleDelete(), the same function of the // wrapped will be called. At the same time, indexes will be built. // By calling GetWriteBatch(), a user will get the WriteBatch for the data // they inserted, which can be used for DB::Write(). // A user can call NewIterator() to create an iterator. class WriteBatchWithIndex : public WriteBatchBase { public: // backup_index_comparator: the backup comparator used to compare keys // within the same column family, if column family is not given in the // interface, or we can't find a column family from the column family handle // passed in, backup_index_comparator will be used for the column family. // reserved_bytes: reserved bytes in underlying WriteBatch // max_bytes: maximum size of underlying WriteBatch in bytes // overwrite_key: if true, overwrite the key in the index when inserting // the same key as previously, so iterator will never // show two entries with the same key. explicit WriteBatchWithIndex( const Comparator* backup_index_comparator = BytewiseComparator(), size_t reserved_bytes = 0, bool overwrite_key = false, size_t max_bytes = 0); ~WriteBatchWithIndex() override; using WriteBatchBase::Put; Status Put(ColumnFamilyHandle* column_family, const Slice& key, const Slice& value) override; Status Put(const Slice& key, const Slice& value) override; using WriteBatchBase::Merge; Status Merge(ColumnFamilyHandle* column_family, const Slice& key, const Slice& value) override; Status Merge(const Slice& key, const Slice& value) override; using WriteBatchBase::Delete; Status Delete(ColumnFamilyHandle* column_family, const Slice& key) override; Status Delete(const Slice& key) override; using WriteBatchBase::SingleDelete; Status SingleDelete(ColumnFamilyHandle* column_family, const Slice& key) override; Status SingleDelete(const Slice& key) override; using WriteBatchBase::DeleteRange; Status DeleteRange(ColumnFamilyHandle* column_family, const Slice& begin_key, const Slice& end_key) override; Status DeleteRange(const Slice& begin_key, const Slice& end_key) override; using WriteBatchBase::PutLogData; Status PutLogData(const Slice& blob) override; using WriteBatchBase::Clear; void Clear() override; using WriteBatchBase::GetWriteBatch; WriteBatch* GetWriteBatch() override; // Create an iterator of a column family. User can call iterator.Seek() to // search to the next entry of or after a key. Keys will be iterated in the // order given by index_comparator. For multiple updates on the same key, // each update will be returned as a separate entry, in the order of update // time. // // The returned iterator should be deleted by the caller. WBWIIterator* NewIterator(ColumnFamilyHandle* column_family); // Create an iterator of the default column family. WBWIIterator* NewIterator(); // Will create a new Iterator that will use WBWIIterator as a delta and // base_iterator as base. // // This function is only supported if the WriteBatchWithIndex was // constructed with overwrite_key=true. // // The returned iterator should be deleted by the caller. // The base_iterator is now 'owned' by the returned iterator. Deleting the // returned iterator will also delete the base_iterator. // // Updating write batch with the current key of the iterator is not safe. // We strongly recommand users not to do it. It will invalidate the current // key() and value() of the iterator. This invalidation happens even before // the write batch update finishes. The state may recover after Next() is // called. Iterator* NewIteratorWithBase(ColumnFamilyHandle* column_family, Iterator* base_iterator); // default column family Iterator* NewIteratorWithBase(Iterator* base_iterator); // Similar to DB::Get() but will only read the key from this batch. // If the batch does not have enough data to resolve Merge operations, // MergeInProgress status may be returned. Status GetFromBatch(ColumnFamilyHandle* column_family, const DBOptions& options, const Slice& key, std::string* value); // Similar to previous function but does not require a column_family. // Note: An InvalidArgument status will be returned if there are any Merge // operators for this key. Use previous method instead. Status GetFromBatch(const DBOptions& options, const Slice& key, std::string* value) { return GetFromBatch(nullptr, options, key, value); } // Similar to DB::Get() but will also read writes from this batch. // // This function will query both this batch and the DB and then merge // the results using the DB's merge operator (if the batch contains any // merge requests). // // Setting read_options.snapshot will affect what is read from the DB // but will NOT change which keys are read from the batch (the keys in // this batch do not yet belong to any snapshot and will be fetched // regardless). Status GetFromBatchAndDB(DB* db, const ReadOptions& read_options, const Slice& key, std::string* value); // An overload of the above method that receives a PinnableSlice Status GetFromBatchAndDB(DB* db, const ReadOptions& read_options, const Slice& key, PinnableSlice* value); Status GetFromBatchAndDB(DB* db, const ReadOptions& read_options, ColumnFamilyHandle* column_family, const Slice& key, std::string* value); // An overload of the above method that receives a PinnableSlice Status GetFromBatchAndDB(DB* db, const ReadOptions& read_options, ColumnFamilyHandle* column_family, const Slice& key, PinnableSlice* value); // Records the state of the batch for future calls to RollbackToSavePoint(). // May be called multiple times to set multiple save points. void SetSavePoint() override; // Remove all entries in this batch (Put, Merge, Delete, SingleDelete, // PutLogData) since the most recent call to SetSavePoint() and removes the // most recent save point. // If there is no previous call to SetSavePoint(), behaves the same as // Clear(). // // Calling RollbackToSavePoint invalidates any open iterators on this batch. // // Returns Status::OK() on success, // Status::NotFound() if no previous call to SetSavePoint(), // or other Status on corruption. Status RollbackToSavePoint() override; // Pop the most recent save point. // If there is no previous call to SetSavePoint(), Status::NotFound() // will be returned. // Otherwise returns Status::OK(). Status PopSavePoint() override; void SetMaxBytes(size_t max_bytes) override; size_t GetDataSize() const; private: friend class PessimisticTransactionDB; friend class WritePreparedTxn; friend class WriteUnpreparedTxn; friend class WriteBatchWithIndex_SubBatchCnt_Test; // Returns the number of sub-batches inside the write batch. A sub-batch // starts right before inserting a key that is a duplicate of a key in the // last sub-batch. size_t SubBatchCnt(); Status GetFromBatchAndDB(DB* db, const ReadOptions& read_options, ColumnFamilyHandle* column_family, const Slice& key, PinnableSlice* value, ReadCallback* callback); struct Rep; std::unique_ptr rep; }; } // namespace rocksdb #endif // !ROCKSDB_LITE rocksdb-5.17.2/include/rocksdb/version.h000066400000000000000000000012021337235545400201530ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #define ROCKSDB_MAJOR 5 #define ROCKSDB_MINOR 17 #define ROCKSDB_PATCH 2 // Do not use these. We made the mistake of declaring macros starting with // double underscore. Now we have to live with our choice. We'll deprecate these // at some point #define __ROCKSDB_MAJOR__ ROCKSDB_MAJOR #define __ROCKSDB_MINOR__ ROCKSDB_MINOR #define __ROCKSDB_PATCH__ ROCKSDB_PATCH rocksdb-5.17.2/include/rocksdb/wal_filter.h000066400000000000000000000104561337235545400206310ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #include #include namespace rocksdb { class WriteBatch; // WALFilter allows an application to inspect write-ahead-log (WAL) // records or modify their processing on recovery. // Please see the details below. class WalFilter { public: enum class WalProcessingOption { // Continue processing as usual kContinueProcessing = 0, // Ignore the current record but continue processing of log(s) kIgnoreCurrentRecord = 1, // Stop replay of logs and discard logs // Logs won't be replayed on subsequent recovery kStopReplay = 2, // Corrupted record detected by filter kCorruptedRecord = 3, // Marker for enum count kWalProcessingOptionMax = 4 }; virtual ~WalFilter() {} // Provide ColumnFamily->LogNumber map to filter // so that filter can determine whether a log number applies to a given // column family (i.e. that log hasn't been flushed to SST already for the // column family). // We also pass in name->id map as only name is known during // recovery (as handles are opened post-recovery). // while write batch callbacks happen in terms of column family id. // // @params cf_lognumber_map column_family_id to lognumber map // @params cf_name_id_map column_family_name to column_family_id map virtual void ColumnFamilyLogNumberMap( const std::map& /*cf_lognumber_map*/, const std::map& /*cf_name_id_map*/) {} // LogRecord is invoked for each log record encountered for all the logs // during replay on logs on recovery. This method can be used to: // * inspect the record (using the batch parameter) // * ignoring current record // (by returning WalProcessingOption::kIgnoreCurrentRecord) // * reporting corrupted record // (by returning WalProcessingOption::kCorruptedRecord) // * stop log replay // (by returning kStop replay) - please note that this implies // discarding the logs from current record onwards. // // @params log_number log_number of the current log. // Filter might use this to determine if the log // record is applicable to a certain column family. // @params log_file_name log file name - only for informational purposes // @params batch batch encountered in the log during recovery // @params new_batch new_batch to populate if filter wants to change // the batch (for example to filter some records out, // or alter some records). // Please note that the new batch MUST NOT contain // more records than original, else recovery would // be failed. // @params batch_changed Whether batch was changed by the filter. // It must be set to true if new_batch was populated, // else new_batch has no effect. // @returns Processing option for the current record. // Please see WalProcessingOption enum above for // details. virtual WalProcessingOption LogRecordFound( unsigned long long /*log_number*/, const std::string& /*log_file_name*/, const WriteBatch& batch, WriteBatch* new_batch, bool* batch_changed) { // Default implementation falls back to older function for compatibility return LogRecord(batch, new_batch, batch_changed); } // Please see the comments for LogRecord above. This function is for // compatibility only and contains a subset of parameters. // New code should use the function above. virtual WalProcessingOption LogRecord(const WriteBatch& /*batch*/, WriteBatch* /*new_batch*/, bool* /*batch_changed*/) const { return WalProcessingOption::kContinueProcessing; } // Returns a name that identifies this WAL filter. // The name will be printed to LOG file on start up for diagnosis. virtual const char* Name() const = 0; }; } // namespace rocksdb rocksdb-5.17.2/include/rocksdb/write_batch.h000066400000000000000000000323271337235545400207750ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. // // WriteBatch holds a collection of updates to apply atomically to a DB. // // The updates are applied in the order in which they are added // to the WriteBatch. For example, the value of "key" will be "v3" // after the following batch is written: // // batch.Put("key", "v1"); // batch.Delete("key"); // batch.Put("key", "v2"); // batch.Put("key", "v3"); // // Multiple threads can invoke const methods on a WriteBatch without // external synchronization, but if any of the threads may call a // non-const method, all threads accessing the same WriteBatch must use // external synchronization. #pragma once #include #include #include #include #include "rocksdb/status.h" #include "rocksdb/write_batch_base.h" namespace rocksdb { class Slice; class ColumnFamilyHandle; struct SavePoints; struct SliceParts; struct SavePoint { size_t size; // size of rep_ int count; // count of elements in rep_ uint32_t content_flags; SavePoint() : size(0), count(0), content_flags(0) {} SavePoint(size_t _size, int _count, uint32_t _flags) : size(_size), count(_count), content_flags(_flags) {} void clear() { size = 0; count = 0; content_flags = 0; } bool is_cleared() const { return (size | count | content_flags) == 0; } }; class WriteBatch : public WriteBatchBase { public: explicit WriteBatch(size_t reserved_bytes = 0, size_t max_bytes = 0); ~WriteBatch() override; using WriteBatchBase::Put; // Store the mapping "key->value" in the database. Status Put(ColumnFamilyHandle* column_family, const Slice& key, const Slice& value) override; Status Put(const Slice& key, const Slice& value) override { return Put(nullptr, key, value); } // Variant of Put() that gathers output like writev(2). The key and value // that will be written to the database are concatenations of arrays of // slices. Status Put(ColumnFamilyHandle* column_family, const SliceParts& key, const SliceParts& value) override; Status Put(const SliceParts& key, const SliceParts& value) override { return Put(nullptr, key, value); } using WriteBatchBase::Delete; // If the database contains a mapping for "key", erase it. Else do nothing. Status Delete(ColumnFamilyHandle* column_family, const Slice& key) override; Status Delete(const Slice& key) override { return Delete(nullptr, key); } // variant that takes SliceParts Status Delete(ColumnFamilyHandle* column_family, const SliceParts& key) override; Status Delete(const SliceParts& key) override { return Delete(nullptr, key); } using WriteBatchBase::SingleDelete; // WriteBatch implementation of DB::SingleDelete(). See db.h. Status SingleDelete(ColumnFamilyHandle* column_family, const Slice& key) override; Status SingleDelete(const Slice& key) override { return SingleDelete(nullptr, key); } // variant that takes SliceParts Status SingleDelete(ColumnFamilyHandle* column_family, const SliceParts& key) override; Status SingleDelete(const SliceParts& key) override { return SingleDelete(nullptr, key); } using WriteBatchBase::DeleteRange; // WriteBatch implementation of DB::DeleteRange(). See db.h. Status DeleteRange(ColumnFamilyHandle* column_family, const Slice& begin_key, const Slice& end_key) override; Status DeleteRange(const Slice& begin_key, const Slice& end_key) override { return DeleteRange(nullptr, begin_key, end_key); } // variant that takes SliceParts Status DeleteRange(ColumnFamilyHandle* column_family, const SliceParts& begin_key, const SliceParts& end_key) override; Status DeleteRange(const SliceParts& begin_key, const SliceParts& end_key) override { return DeleteRange(nullptr, begin_key, end_key); } using WriteBatchBase::Merge; // Merge "value" with the existing value of "key" in the database. // "key->merge(existing, value)" Status Merge(ColumnFamilyHandle* column_family, const Slice& key, const Slice& value) override; Status Merge(const Slice& key, const Slice& value) override { return Merge(nullptr, key, value); } // variant that takes SliceParts Status Merge(ColumnFamilyHandle* column_family, const SliceParts& key, const SliceParts& value) override; Status Merge(const SliceParts& key, const SliceParts& value) override { return Merge(nullptr, key, value); } using WriteBatchBase::PutLogData; // Append a blob of arbitrary size to the records in this batch. The blob will // be stored in the transaction log but not in any other file. In particular, // it will not be persisted to the SST files. When iterating over this // WriteBatch, WriteBatch::Handler::LogData will be called with the contents // of the blob as it is encountered. Blobs, puts, deletes, and merges will be // encountered in the same order in which they were inserted. The blob will // NOT consume sequence number(s) and will NOT increase the count of the batch // // Example application: add timestamps to the transaction log for use in // replication. Status PutLogData(const Slice& blob) override; using WriteBatchBase::Clear; // Clear all updates buffered in this batch. void Clear() override; // Records the state of the batch for future calls to RollbackToSavePoint(). // May be called multiple times to set multiple save points. void SetSavePoint() override; // Remove all entries in this batch (Put, Merge, Delete, PutLogData) since the // most recent call to SetSavePoint() and removes the most recent save point. // If there is no previous call to SetSavePoint(), Status::NotFound() // will be returned. // Otherwise returns Status::OK(). Status RollbackToSavePoint() override; // Pop the most recent save point. // If there is no previous call to SetSavePoint(), Status::NotFound() // will be returned. // Otherwise returns Status::OK(). Status PopSavePoint() override; // Support for iterating over the contents of a batch. class Handler { public: virtual ~Handler(); // All handler functions in this class provide default implementations so // we won't break existing clients of Handler on a source code level when // adding a new member function. // default implementation will just call Put without column family for // backwards compatibility. If the column family is not default, // the function is noop virtual Status PutCF(uint32_t column_family_id, const Slice& key, const Slice& value) { if (column_family_id == 0) { // Put() historically doesn't return status. We didn't want to be // backwards incompatible so we didn't change the return status // (this is a public API). We do an ordinary get and return Status::OK() Put(key, value); return Status::OK(); } return Status::InvalidArgument( "non-default column family and PutCF not implemented"); } virtual void Put(const Slice& /*key*/, const Slice& /*value*/) {} virtual Status DeleteCF(uint32_t column_family_id, const Slice& key) { if (column_family_id == 0) { Delete(key); return Status::OK(); } return Status::InvalidArgument( "non-default column family and DeleteCF not implemented"); } virtual void Delete(const Slice& /*key*/) {} virtual Status SingleDeleteCF(uint32_t column_family_id, const Slice& key) { if (column_family_id == 0) { SingleDelete(key); return Status::OK(); } return Status::InvalidArgument( "non-default column family and SingleDeleteCF not implemented"); } virtual void SingleDelete(const Slice& /*key*/) {} virtual Status DeleteRangeCF(uint32_t /*column_family_id*/, const Slice& /*begin_key*/, const Slice& /*end_key*/) { return Status::InvalidArgument("DeleteRangeCF not implemented"); } virtual Status MergeCF(uint32_t column_family_id, const Slice& key, const Slice& value) { if (column_family_id == 0) { Merge(key, value); return Status::OK(); } return Status::InvalidArgument( "non-default column family and MergeCF not implemented"); } virtual void Merge(const Slice& /*key*/, const Slice& /*value*/) {} virtual Status PutBlobIndexCF(uint32_t /*column_family_id*/, const Slice& /*key*/, const Slice& /*value*/) { return Status::InvalidArgument("PutBlobIndexCF not implemented"); } // The default implementation of LogData does nothing. virtual void LogData(const Slice& blob); virtual Status MarkBeginPrepare(bool = false) { return Status::InvalidArgument("MarkBeginPrepare() handler not defined."); } virtual Status MarkEndPrepare(const Slice& /*xid*/) { return Status::InvalidArgument("MarkEndPrepare() handler not defined."); } virtual Status MarkNoop(bool /*empty_batch*/) { return Status::InvalidArgument("MarkNoop() handler not defined."); } virtual Status MarkRollback(const Slice& /*xid*/) { return Status::InvalidArgument( "MarkRollbackPrepare() handler not defined."); } virtual Status MarkCommit(const Slice& /*xid*/) { return Status::InvalidArgument("MarkCommit() handler not defined."); } // Continue is called by WriteBatch::Iterate. If it returns false, // iteration is halted. Otherwise, it continues iterating. The default // implementation always returns true. virtual bool Continue(); protected: friend class WriteBatch; virtual bool WriteAfterCommit() const { return true; } virtual bool WriteBeforePrepare() const { return false; } }; Status Iterate(Handler* handler) const; // Retrieve the serialized version of this batch. const std::string& Data() const { return rep_; } // Retrieve data size of the batch. size_t GetDataSize() const { return rep_.size(); } // Returns the number of updates in the batch int Count() const; // Returns true if PutCF will be called during Iterate bool HasPut() const; // Returns true if DeleteCF will be called during Iterate bool HasDelete() const; // Returns true if SingleDeleteCF will be called during Iterate bool HasSingleDelete() const; // Returns true if DeleteRangeCF will be called during Iterate bool HasDeleteRange() const; // Returns true if MergeCF will be called during Iterate bool HasMerge() const; // Returns true if MarkBeginPrepare will be called during Iterate bool HasBeginPrepare() const; // Returns true if MarkEndPrepare will be called during Iterate bool HasEndPrepare() const; // Returns trie if MarkCommit will be called during Iterate bool HasCommit() const; // Returns trie if MarkRollback will be called during Iterate bool HasRollback() const; using WriteBatchBase::GetWriteBatch; WriteBatch* GetWriteBatch() override { return this; } // Constructor with a serialized string object explicit WriteBatch(const std::string& rep); explicit WriteBatch(std::string&& rep); WriteBatch(const WriteBatch& src); WriteBatch(WriteBatch&& src) noexcept; WriteBatch& operator=(const WriteBatch& src); WriteBatch& operator=(WriteBatch&& src); // marks this point in the WriteBatch as the last record to // be inserted into the WAL, provided the WAL is enabled void MarkWalTerminationPoint(); const SavePoint& GetWalTerminationPoint() const { return wal_term_point_; } void SetMaxBytes(size_t max_bytes) override { max_bytes_ = max_bytes; } private: friend class WriteBatchInternal; friend class LocalSavePoint; // TODO(myabandeh): this is needed for a hack to collapse the write batch and // remove duplicate keys. Remove it when the hack is replaced with a proper // solution. friend class WriteBatchWithIndex; SavePoints* save_points_; // When sending a WriteBatch through WriteImpl we might want to // specify that only the first x records of the batch be written to // the WAL. SavePoint wal_term_point_; // For HasXYZ. Mutable to allow lazy computation of results mutable std::atomic content_flags_; // Performs deferred computation of content_flags if necessary uint32_t ComputeContentFlags() const; // Maximum size of rep_. size_t max_bytes_; // Is the content of the batch the application's latest state that meant only // to be used for recovery? Refer to // TransactionOptions::use_only_the_last_commit_time_batch_for_recovery for // more details. bool is_latest_persistent_state_ = false; protected: std::string rep_; // See comment in write_batch.cc for the format of rep_ // Intentionally copyable }; } // namespace rocksdb rocksdb-5.17.2/include/rocksdb/write_batch_base.h000066400000000000000000000124411337235545400217620ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #include namespace rocksdb { class Slice; class Status; class ColumnFamilyHandle; class WriteBatch; struct SliceParts; // Abstract base class that defines the basic interface for a write batch. // See WriteBatch for a basic implementation and WrithBatchWithIndex for an // indexed implementation. class WriteBatchBase { public: virtual ~WriteBatchBase() {} // Store the mapping "key->value" in the database. virtual Status Put(ColumnFamilyHandle* column_family, const Slice& key, const Slice& value) = 0; virtual Status Put(const Slice& key, const Slice& value) = 0; // Variant of Put() that gathers output like writev(2). The key and value // that will be written to the database are concatenations of arrays of // slices. virtual Status Put(ColumnFamilyHandle* column_family, const SliceParts& key, const SliceParts& value); virtual Status Put(const SliceParts& key, const SliceParts& value); // Merge "value" with the existing value of "key" in the database. // "key->merge(existing, value)" virtual Status Merge(ColumnFamilyHandle* column_family, const Slice& key, const Slice& value) = 0; virtual Status Merge(const Slice& key, const Slice& value) = 0; // variant that takes SliceParts virtual Status Merge(ColumnFamilyHandle* column_family, const SliceParts& key, const SliceParts& value); virtual Status Merge(const SliceParts& key, const SliceParts& value); // If the database contains a mapping for "key", erase it. Else do nothing. virtual Status Delete(ColumnFamilyHandle* column_family, const Slice& key) = 0; virtual Status Delete(const Slice& key) = 0; // variant that takes SliceParts virtual Status Delete(ColumnFamilyHandle* column_family, const SliceParts& key); virtual Status Delete(const SliceParts& key); // If the database contains a mapping for "key", erase it. Expects that the // key was not overwritten. Else do nothing. virtual Status SingleDelete(ColumnFamilyHandle* column_family, const Slice& key) = 0; virtual Status SingleDelete(const Slice& key) = 0; // variant that takes SliceParts virtual Status SingleDelete(ColumnFamilyHandle* column_family, const SliceParts& key); virtual Status SingleDelete(const SliceParts& key); // If the database contains mappings in the range ["begin_key", "end_key"], // erase them. Else do nothing. virtual Status DeleteRange(ColumnFamilyHandle* column_family, const Slice& begin_key, const Slice& end_key) = 0; virtual Status DeleteRange(const Slice& begin_key, const Slice& end_key) = 0; // variant that takes SliceParts virtual Status DeleteRange(ColumnFamilyHandle* column_family, const SliceParts& begin_key, const SliceParts& end_key); virtual Status DeleteRange(const SliceParts& begin_key, const SliceParts& end_key); // Append a blob of arbitrary size to the records in this batch. The blob will // be stored in the transaction log but not in any other file. In particular, // it will not be persisted to the SST files. When iterating over this // WriteBatch, WriteBatch::Handler::LogData will be called with the contents // of the blob as it is encountered. Blobs, puts, deletes, and merges will be // encountered in the same order in which they were inserted. The blob will // NOT consume sequence number(s) and will NOT increase the count of the batch // // Example application: add timestamps to the transaction log for use in // replication. virtual Status PutLogData(const Slice& blob) = 0; // Clear all updates buffered in this batch. virtual void Clear() = 0; // Covert this batch into a WriteBatch. This is an abstracted way of // converting any WriteBatchBase(eg WriteBatchWithIndex) into a basic // WriteBatch. virtual WriteBatch* GetWriteBatch() = 0; // Records the state of the batch for future calls to RollbackToSavePoint(). // May be called multiple times to set multiple save points. virtual void SetSavePoint() = 0; // Remove all entries in this batch (Put, Merge, Delete, PutLogData) since the // most recent call to SetSavePoint() and removes the most recent save point. // If there is no previous call to SetSavePoint(), behaves the same as // Clear(). virtual Status RollbackToSavePoint() = 0; // Pop the most recent save point. // If there is no previous call to SetSavePoint(), Status::NotFound() // will be returned. // Otherwise returns Status::OK(). virtual Status PopSavePoint() = 0; // Sets the maximum size of the write batch in bytes. 0 means no limit. virtual void SetMaxBytes(size_t max_bytes) = 0; }; } // namespace rocksdb rocksdb-5.17.2/include/rocksdb/write_buffer_manager.h000066400000000000000000000063421337235545400226550ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. // // WriteBufferManager is for managing memory allocation for one or more // MemTables. #pragma once #include #include #include "rocksdb/cache.h" namespace rocksdb { class WriteBufferManager { public: // _buffer_size = 0 indicates no limit. Memory won't be capped. // memory_usage() won't be valid and ShouldFlush() will always return true. // if `cache` is provided, we'll put dummy entries in the cache and cost // the memory allocated to the cache. It can be used even if _buffer_size = 0. explicit WriteBufferManager(size_t _buffer_size, std::shared_ptr cache = {}); ~WriteBufferManager(); bool enabled() const { return buffer_size_ != 0; } // Only valid if enabled() size_t memory_usage() const { return memory_used_.load(std::memory_order_relaxed); } size_t mutable_memtable_memory_usage() const { return memory_active_.load(std::memory_order_relaxed); } size_t buffer_size() const { return buffer_size_; } // Should only be called from write thread bool ShouldFlush() const { if (enabled()) { if (mutable_memtable_memory_usage() > mutable_limit_) { return true; } if (memory_usage() >= buffer_size_ && mutable_memtable_memory_usage() >= buffer_size_ / 2) { // If the memory exceeds the buffer size, we trigger more aggressive // flush. But if already more than half memory is being flushed, // triggering more flush may not help. We will hold it instead. return true; } } return false; } void ReserveMem(size_t mem) { if (cache_rep_ != nullptr) { ReserveMemWithCache(mem); } else if (enabled()) { memory_used_.fetch_add(mem, std::memory_order_relaxed); } if (enabled()) { memory_active_.fetch_add(mem, std::memory_order_relaxed); } } // We are in the process of freeing `mem` bytes, so it is not considered // when checking the soft limit. void ScheduleFreeMem(size_t mem) { if (enabled()) { memory_active_.fetch_sub(mem, std::memory_order_relaxed); } } void FreeMem(size_t mem) { if (cache_rep_ != nullptr) { FreeMemWithCache(mem); } else if (enabled()) { memory_used_.fetch_sub(mem, std::memory_order_relaxed); } } private: const size_t buffer_size_; const size_t mutable_limit_; std::atomic memory_used_; // Memory that hasn't been scheduled to free. std::atomic memory_active_; struct CacheRep; std::unique_ptr cache_rep_; void ReserveMemWithCache(size_t mem); void FreeMemWithCache(size_t mem); // No copying allowed WriteBufferManager(const WriteBufferManager&) = delete; WriteBufferManager& operator=(const WriteBufferManager&) = delete; }; } // namespace rocksdb rocksdb-5.17.2/issue_template.md000066400000000000000000000003631337235545400166170ustar00rootroot00000000000000> Note: Please use Issues only for bug reports. For questions, discussions, feature requests, etc. post to dev group: https://www.facebook.com/groups/rocksdb.dev ### Expected behavior ### Actual behavior ### Steps to reproduce the behavior rocksdb-5.17.2/java/000077500000000000000000000000001337235545400141715ustar00rootroot00000000000000rocksdb-5.17.2/java/CMakeLists.txt000066400000000000000000000375611337235545400167450ustar00rootroot00000000000000cmake_minimum_required(VERSION 3.4) set(JNI_NATIVE_SOURCES rocksjni/backupablejni.cc rocksjni/backupenginejni.cc rocksjni/cassandra_compactionfilterjni.cc rocksjni/cassandra_value_operator.cc rocksjni/checkpoint.cc rocksjni/clock_cache.cc rocksjni/columnfamilyhandle.cc rocksjni/compaction_filter.cc rocksjni/compaction_filter_factory.cc rocksjni/compaction_filter_factory_jnicallback.cc rocksjni/compaction_options_fifo.cc rocksjni/compaction_options_universal.cc rocksjni/compact_range_options.cc rocksjni/comparator.cc rocksjni/comparatorjnicallback.cc rocksjni/compression_options.cc rocksjni/env.cc rocksjni/env_options.cc rocksjni/filter.cc rocksjni/ingest_external_file_options.cc rocksjni/iterator.cc rocksjni/jnicallback.cc rocksjni/loggerjnicallback.cc rocksjni/lru_cache.cc rocksjni/memtablejni.cc rocksjni/merge_operator.cc rocksjni/native_comparator_wrapper_test.cc rocksjni/optimistic_transaction_db.cc rocksjni/optimistic_transaction_options.cc rocksjni/options.cc rocksjni/options_util.cc rocksjni/ratelimiterjni.cc rocksjni/remove_emptyvalue_compactionfilterjni.cc rocksjni/restorejni.cc rocksjni/rocks_callback_object.cc rocksjni/rocksdb_exception_test.cc rocksjni/rocksjni.cc rocksjni/slice.cc rocksjni/snapshot.cc rocksjni/sst_file_manager.cc rocksjni/sst_file_writerjni.cc rocksjni/statistics.cc rocksjni/statisticsjni.cc rocksjni/table.cc rocksjni/transaction.cc rocksjni/transaction_db.cc rocksjni/transaction_db_options.cc rocksjni/transaction_log.cc rocksjni/transaction_notifier.cc rocksjni/transaction_notifier_jnicallback.cc rocksjni/transaction_options.cc rocksjni/ttl.cc rocksjni/write_batch.cc rocksjni/writebatchhandlerjnicallback.cc rocksjni/write_batch_test.cc rocksjni/write_batch_with_index.cc ) set(NATIVE_JAVA_CLASSES org.rocksdb.AbstractCompactionFilter org.rocksdb.AbstractCompactionFilterFactory org.rocksdb.AbstractComparator org.rocksdb.AbstractImmutableNativeReference org.rocksdb.AbstractNativeReference org.rocksdb.AbstractRocksIterator org.rocksdb.AbstractSlice org.rocksdb.AbstractTransactionNotifier org.rocksdb.BackupableDBOptions org.rocksdb.BackupEngine org.rocksdb.BlockBasedTableConfig org.rocksdb.BloomFilter org.rocksdb.CassandraCompactionFilter org.rocksdb.CassandraValueMergeOperator org.rocksdb.Checkpoint org.rocksdb.ClockCache org.rocksdb.ColumnFamilyHandle org.rocksdb.ColumnFamilyOptions org.rocksdb.CompactionOptionsFIFO org.rocksdb.CompactionOptionsUniversal org.rocksdb.CompactRangeOptions org.rocksdb.Comparator org.rocksdb.ComparatorOptions org.rocksdb.CompressionOptions org.rocksdb.DBOptions org.rocksdb.DirectComparator org.rocksdb.DirectSlice org.rocksdb.Env org.rocksdb.EnvOptions org.rocksdb.Filter org.rocksdb.FlushOptions org.rocksdb.HashLinkedListMemTableConfig org.rocksdb.HashSkipListMemTableConfig org.rocksdb.IngestExternalFileOptions org.rocksdb.Logger org.rocksdb.LRUCache org.rocksdb.MemTableConfig org.rocksdb.NativeComparatorWrapper org.rocksdb.NativeLibraryLoader org.rocksdb.OptimisticTransactionDB org.rocksdb.OptimisticTransactionOptions org.rocksdb.Options org.rocksdb.OptionsUtil org.rocksdb.PlainTableConfig org.rocksdb.RateLimiter org.rocksdb.ReadOptions org.rocksdb.RemoveEmptyValueCompactionFilter org.rocksdb.RestoreOptions org.rocksdb.RocksCallbackObject org.rocksdb.RocksDB org.rocksdb.RocksEnv org.rocksdb.RocksIterator org.rocksdb.RocksIteratorInterface org.rocksdb.RocksMemEnv org.rocksdb.RocksMutableObject org.rocksdb.RocksObject org.rocksdb.SkipListMemTableConfig org.rocksdb.Slice org.rocksdb.Snapshot org.rocksdb.SstFileManager org.rocksdb.SstFileWriter org.rocksdb.Statistics org.rocksdb.StringAppendOperator org.rocksdb.TableFormatConfig org.rocksdb.Transaction org.rocksdb.TransactionDB org.rocksdb.TransactionDBOptions org.rocksdb.TransactionLogIterator org.rocksdb.TransactionOptions org.rocksdb.TtlDB org.rocksdb.VectorMemTableConfig org.rocksdb.WBWIRocksIterator org.rocksdb.WriteBatch org.rocksdb.WriteBatch.Handler org.rocksdb.WriteBatchInterface org.rocksdb.WriteBatchWithIndex org.rocksdb.WriteOptions org.rocksdb.NativeComparatorWrapperTest org.rocksdb.RocksDBExceptionTest org.rocksdb.SnapshotTest org.rocksdb.WriteBatchTest org.rocksdb.WriteBatchTestInternalHelper ) include(FindJava) include(UseJava) include(FindJNI) include_directories(${JNI_INCLUDE_DIRS}) include_directories(${PROJECT_SOURCE_DIR}/java) set(JAVA_TEST_LIBDIR ${PROJECT_SOURCE_DIR}/java/test-libs) set(JAVA_TMP_JAR ${JAVA_TEST_LIBDIR}/tmp.jar) set(JAVA_JUNIT_JAR ${JAVA_TEST_LIBDIR}/junit-4.12.jar) set(JAVA_HAMCR_JAR ${JAVA_TEST_LIBDIR}/hamcrest-core-1.3.jar) set(JAVA_MOCKITO_JAR ${JAVA_TEST_LIBDIR}/mockito-all-1.10.19.jar) set(JAVA_CGLIB_JAR ${JAVA_TEST_LIBDIR}/cglib-2.2.2.jar) set(JAVA_ASSERTJ_JAR ${JAVA_TEST_LIBDIR}/assertj-core-1.7.1.jar) set(JAVA_TESTCLASSPATH ${JAVA_JUNIT_JAR} ${JAVA_HAMCR_JAR} ${JAVA_MOCKITO_JAR} ${JAVA_CGLIB_JAR} ${JAVA_ASSERTJ_JAR}) add_jar( rocksdbjni_classes SOURCES src/main/java/org/rocksdb/AbstractCompactionFilterFactory.java src/main/java/org/rocksdb/AbstractCompactionFilter.java src/main/java/org/rocksdb/AbstractComparator.java src/main/java/org/rocksdb/AbstractImmutableNativeReference.java src/main/java/org/rocksdb/AbstractNativeReference.java src/main/java/org/rocksdb/AbstractRocksIterator.java src/main/java/org/rocksdb/AbstractSlice.java src/main/java/org/rocksdb/AbstractTransactionNotifier.java src/main/java/org/rocksdb/AbstractWriteBatch.java src/main/java/org/rocksdb/AccessHint.java src/main/java/org/rocksdb/AdvancedColumnFamilyOptionsInterface.java src/main/java/org/rocksdb/AdvancedMutableColumnFamilyOptionsInterface.java src/main/java/org/rocksdb/BackupableDBOptions.java src/main/java/org/rocksdb/BackupEngine.java src/main/java/org/rocksdb/BackupInfo.java src/main/java/org/rocksdb/BlockBasedTableConfig.java src/main/java/org/rocksdb/BloomFilter.java src/main/java/org/rocksdb/BuiltinComparator.java src/main/java/org/rocksdb/Cache.java src/main/java/org/rocksdb/CassandraCompactionFilter.java src/main/java/org/rocksdb/CassandraValueMergeOperator.java src/main/java/org/rocksdb/Checkpoint.java src/main/java/org/rocksdb/ChecksumType.java src/main/java/org/rocksdb/ClockCache.java src/main/java/org/rocksdb/ColumnFamilyDescriptor.java src/main/java/org/rocksdb/ColumnFamilyHandle.java src/main/java/org/rocksdb/ColumnFamilyOptionsInterface.java src/main/java/org/rocksdb/ColumnFamilyOptions.java src/main/java/org/rocksdb/CompactionOptionsFIFO.java src/main/java/org/rocksdb/CompactionOptionsUniversal.java src/main/java/org/rocksdb/CompactionPriority.java src/main/java/org/rocksdb/CompactRangeOptions.java src/main/java/org/rocksdb/CompactionStopStyle.java src/main/java/org/rocksdb/CompactionStyle.java src/main/java/org/rocksdb/Comparator.java src/main/java/org/rocksdb/ComparatorOptions.java src/main/java/org/rocksdb/ComparatorType.java src/main/java/org/rocksdb/CompressionOptions.java src/main/java/org/rocksdb/CompressionType.java src/main/java/org/rocksdb/DBOptionsInterface.java src/main/java/org/rocksdb/DBOptions.java src/main/java/org/rocksdb/DbPath.java src/main/java/org/rocksdb/DirectComparator.java src/main/java/org/rocksdb/DirectSlice.java src/main/java/org/rocksdb/EncodingType.java src/main/java/org/rocksdb/Env.java src/main/java/org/rocksdb/EnvOptions.java src/main/java/org/rocksdb/Experimental.java src/main/java/org/rocksdb/Filter.java src/main/java/org/rocksdb/FlushOptions.java src/main/java/org/rocksdb/HashLinkedListMemTableConfig.java src/main/java/org/rocksdb/HashSkipListMemTableConfig.java src/main/java/org/rocksdb/HistogramData.java src/main/java/org/rocksdb/HistogramType.java src/main/java/org/rocksdb/IndexType.java src/main/java/org/rocksdb/InfoLogLevel.java src/main/java/org/rocksdb/IngestExternalFileOptions.java src/main/java/org/rocksdb/Logger.java src/main/java/org/rocksdb/LRUCache.java src/main/java/org/rocksdb/MemTableConfig.java src/main/java/org/rocksdb/MergeOperator.java src/main/java/org/rocksdb/MutableColumnFamilyOptionsInterface.java src/main/java/org/rocksdb/MutableColumnFamilyOptions.java src/main/java/org/rocksdb/NativeComparatorWrapper.java src/main/java/org/rocksdb/NativeLibraryLoader.java src/main/java/org/rocksdb/OptimisticTransactionDB.java src/main/java/org/rocksdb/OptimisticTransactionOptions.java src/main/java/org/rocksdb/Options.java src/main/java/org/rocksdb/OptionsUtil.java src/main/java/org/rocksdb/PlainTableConfig.java src/main/java/org/rocksdb/RateLimiter.java src/main/java/org/rocksdb/RateLimiterMode.java src/main/java/org/rocksdb/ReadOptions.java src/main/java/org/rocksdb/ReadTier.java src/main/java/org/rocksdb/RemoveEmptyValueCompactionFilter.java src/main/java/org/rocksdb/RestoreOptions.java src/main/java/org/rocksdb/RocksCallbackObject.java src/main/java/org/rocksdb/RocksDBException.java src/main/java/org/rocksdb/RocksDB.java src/main/java/org/rocksdb/RocksEnv.java src/main/java/org/rocksdb/RocksIteratorInterface.java src/main/java/org/rocksdb/RocksIterator.java src/main/java/org/rocksdb/RocksMemEnv.java src/main/java/org/rocksdb/RocksMutableObject.java src/main/java/org/rocksdb/RocksObject.java src/main/java/org/rocksdb/SkipListMemTableConfig.java src/main/java/org/rocksdb/Slice.java src/main/java/org/rocksdb/Snapshot.java src/main/java/org/rocksdb/SstFileManager.java src/main/java/org/rocksdb/SstFileWriter.java src/main/java/org/rocksdb/StatisticsCollectorCallback.java src/main/java/org/rocksdb/StatisticsCollector.java src/main/java/org/rocksdb/Statistics.java src/main/java/org/rocksdb/StatsCollectorInput.java src/main/java/org/rocksdb/StatsLevel.java src/main/java/org/rocksdb/Status.java src/main/java/org/rocksdb/StringAppendOperator.java src/main/java/org/rocksdb/TableFormatConfig.java src/main/java/org/rocksdb/TickerType.java src/main/java/org/rocksdb/TransactionalDB.java src/main/java/org/rocksdb/TransactionalOptions.java src/main/java/org/rocksdb/TransactionDB.java src/main/java/org/rocksdb/TransactionDBOptions.java src/main/java/org/rocksdb/Transaction.java src/main/java/org/rocksdb/TransactionLogIterator.java src/main/java/org/rocksdb/TransactionOptions.java src/main/java/org/rocksdb/TtlDB.java src/main/java/org/rocksdb/TxnDBWritePolicy.java src/main/java/org/rocksdb/VectorMemTableConfig.java src/main/java/org/rocksdb/WALRecoveryMode.java src/main/java/org/rocksdb/WBWIRocksIterator.java src/main/java/org/rocksdb/WriteBatchInterface.java src/main/java/org/rocksdb/WriteBatch.java src/main/java/org/rocksdb/WriteBatchWithIndex.java src/main/java/org/rocksdb/WriteOptions.java src/main/java/org/rocksdb/util/BytewiseComparator.java src/main/java/org/rocksdb/util/DirectBytewiseComparator.java src/main/java/org/rocksdb/util/Environment.java src/main/java/org/rocksdb/util/ReverseBytewiseComparator.java src/main/java/org/rocksdb/util/SizeUnit.java src/test/java/org/rocksdb/BackupEngineTest.java src/test/java/org/rocksdb/IngestExternalFileOptionsTest.java src/test/java/org/rocksdb/NativeComparatorWrapperTest.java src/test/java/org/rocksdb/PlatformRandomHelper.java src/test/java/org/rocksdb/RocksDBExceptionTest.java src/test/java/org/rocksdb/RocksMemoryResource.java src/test/java/org/rocksdb/SnapshotTest.java src/test/java/org/rocksdb/WriteBatchTest.java src/test/java/org/rocksdb/util/CapturingWriteBatchHandler.java src/test/java/org/rocksdb/util/WriteBatchGetter.java INCLUDE_JARS ${JAVA_TESTCLASSPATH} ) if(NOT EXISTS ${PROJECT_SOURCE_DIR}/java/classes) file(MAKE_DIRECTORY ${PROJECT_SOURCE_DIR}/java/classes) endif() if(NOT EXISTS ${JAVA_TEST_LIBDIR}) file(MAKE_DIRECTORY mkdir ${JAVA_TEST_LIBDIR}) endif() if (DEFINED CUSTOM_REPO_URL) set(SEARCH_REPO_URL ${CUSTOM_REPO_URL}/) set(CENTRAL_REPO_URL ${CUSTOM_REPO_URL}/) else () set(SEARCH_REPO_URL "http://search.maven.org/remotecontent?filepath=") set(CENTRAL_REPO_URL "http://central.maven.org/maven2/") endif() if(NOT EXISTS ${JAVA_JUNIT_JAR}) message("Downloading ${JAVA_JUNIT_JAR}") file(DOWNLOAD ${SEARCH_REPO_URL}junit/junit/4.12/junit-4.12.jar ${JAVA_TMP_JAR} STATUS downloadStatus) list(GET downloadStatus 0 error_code) if(NOT error_code EQUAL 0) message(FATAL_ERROR "Failed downloading ${JAVA_JUNIT_JAR}") endif() file(RENAME ${JAVA_TMP_JAR} ${JAVA_JUNIT_JAR}) endif() if(NOT EXISTS ${JAVA_HAMCR_JAR}) message("Downloading ${JAVA_HAMCR_JAR}") file(DOWNLOAD ${SEARCH_REPO_URL}org/hamcrest/hamcrest-core/1.3/hamcrest-core-1.3.jar ${JAVA_TMP_JAR} STATUS downloadStatus) list(GET downloadStatus 0 error_code) if(NOT error_code EQUAL 0) message(FATAL_ERROR "Failed downloading ${JAVA_HAMCR_JAR}") endif() file(RENAME ${JAVA_TMP_JAR} ${JAVA_HAMCR_JAR}) endif() if(NOT EXISTS ${JAVA_MOCKITO_JAR}) message("Downloading ${JAVA_MOCKITO_JAR}") file(DOWNLOAD ${SEARCH_REPO_URL}org/mockito/mockito-all/1.10.19/mockito-all-1.10.19.jar ${JAVA_TMP_JAR} STATUS downloadStatus) list(GET downloadStatus 0 error_code) if(NOT error_code EQUAL 0) message(FATAL_ERROR "Failed downloading ${JAVA_MOCKITO_JAR}") endif() file(RENAME ${JAVA_TMP_JAR} ${JAVA_MOCKITO_JAR}) endif() if(NOT EXISTS ${JAVA_CGLIB_JAR}) message("Downloading ${JAVA_CGLIB_JAR}") file(DOWNLOAD ${SEARCH_REPO_URL}cglib/cglib/2.2.2/cglib-2.2.2.jar ${JAVA_TMP_JAR} STATUS downloadStatus) list(GET downloadStatus 0 error_code) if(NOT error_code EQUAL 0) message(FATAL_ERROR "Failed downloading ${JAVA_CGLIB_JAR}") endif() file(RENAME ${JAVA_TMP_JAR} ${JAVA_CGLIB_JAR}) endif() if(NOT EXISTS ${JAVA_ASSERTJ_JAR}) message("Downloading ${JAVA_ASSERTJ_JAR}") file(DOWNLOAD ${CENTRAL_REPO_URL}org/assertj/assertj-core/1.7.1/assertj-core-1.7.1.jar ${JAVA_TMP_JAR} STATUS downloadStatus) list(GET downloadStatus 0 error_code) if(NOT error_code EQUAL 0) message(FATAL_ERROR "Failed downloading ${JAVA_ASSERTJ_JAR}") endif() file(RENAME ${JAVA_TMP_JAR} ${JAVA_ASSERTJ_JAR}) endif() set(JNI_OUTPUT_DIR ${PROJECT_SOURCE_DIR}/java/include) file(MAKE_DIRECTORY ${JNI_OUTPUT_DIR}) create_javah( TARGET rocksdbjni_headers CLASSES ${NATIVE_JAVA_CLASSES} CLASSPATH rocksdbjni_classes ${JAVA_TESTCLASSPATH} OUTPUT_DIR ${JNI_OUTPUT_DIR} ) if(NOT MSVC) set_property(TARGET ${ROCKSDB_STATIC_LIB} PROPERTY POSITION_INDEPENDENT_CODE ON) endif() set(ROCKSDBJNI_STATIC_LIB rocksdbjni${ARTIFACT_SUFFIX}) add_library(${ROCKSDBJNI_STATIC_LIB} ${JNI_NATIVE_SOURCES}) add_dependencies(${ROCKSDBJNI_STATIC_LIB} rocksdbjni_headers) target_link_libraries(${ROCKSDBJNI_STATIC_LIB} ${ROCKSDB_STATIC_LIB} ${LIBS}) if(NOT MINGW) set(ROCKSDBJNI_SHARED_LIB rocksdbjni-shared${ARTIFACT_SUFFIX}) add_library(${ROCKSDBJNI_SHARED_LIB} SHARED ${JNI_NATIVE_SOURCES}) add_dependencies(${ROCKSDBJNI_SHARED_LIB} rocksdbjni_headers) target_link_libraries(${ROCKSDBJNI_SHARED_LIB} ${ROCKSDB_STATIC_LIB} ${LIBS}) set_target_properties( ${ROCKSDBJNI_SHARED_LIB} PROPERTIES COMPILE_PDB_OUTPUT_DIRECTORY ${CMAKE_CFG_INTDIR} COMPILE_PDB_NAME ${ROCKSDBJNI_STATIC_LIB}.pdb ) endif() rocksdb-5.17.2/java/HISTORY-JAVA.md000066400000000000000000000062341337235545400164000ustar00rootroot00000000000000# RocksJava Change Log ## 3.13 (8/4/2015) ### New Features * Exposed BackupEngine API. * Added CappedPrefixExtractor support. To use such extractor, simply call useCappedPrefixExtractor in either Options or ColumnFamilyOptions. * Added RemoveEmptyValueCompactionFilter. ## 3.10.0 (3/24/2015) ### New Features * Added compression per level API. * MemEnv is now available in RocksJava via RocksMemEnv class. * lz4 compression is now included in rocksjava static library when running `make rocksdbjavastatic`. ### Public API Changes * Overflowing a size_t when setting rocksdb options now throws an IllegalArgumentException, which removes the necessity for a developer to catch these Exceptions explicitly. * The set and get functions for tableCacheRemoveScanCountLimit are deprecated. ## By 01/31/2015 ### New Features * WriteBatchWithIndex support. * Iterator support for WriteBatch and WriteBatchWithIndex * GetUpdatesSince support. * Snapshots carry now information about the related sequence number. * TTL DB support. ## By 11/14/2014 ### New Features * Full support for Column Family. * Slice and Comparator support. * Default merge operator support. * RateLimiter support. ## By 06/15/2014 ### New Features * Added basic Java binding for rocksdb::Env such that multiple RocksDB can share the same thread pool and environment. * Added RestoreBackupableDB ## By 05/30/2014 ### Internal Framework Improvement * Added disOwnNativeHandle to RocksObject, which allows a RocksObject to give-up the ownership of its native handle. This method is useful when sharing and transferring the ownership of RocksDB C++ resources. ## By 05/15/2014 ### New Features * Added RocksObject --- the base class of all RocksDB classes which holds some RocksDB resources in the C++ side. * Use environmental variable JAVA_HOME in Makefile for RocksJava ### Public API changes * Renamed org.rocksdb.Iterator to org.rocksdb.RocksIterator to avoid potential confliction with Java built-in Iterator. ## By 04/30/2014 ### New Features * Added Java binding for MultiGet. * Added static method RocksDB.loadLibrary(), which loads necessary library files. * Added Java bindings for 60+ rocksdb::Options. * Added Java binding for BloomFilter. * Added Java binding for ReadOptions. * Added Java binding for memtables. * Added Java binding for sst formats. * Added Java binding for RocksDB Iterator which enables sequential scan operation. * Added Java binding for Statistics * Added Java binding for BackupableDB. ### DB Benchmark * Added filluniquerandom, readseq benchmark. * 70+ command-line options. * Enabled BloomFilter configuration. ## By 04/15/2014 ### New Features * Added Java binding for WriteOptions. * Added Java binding for WriteBatch, which enables batch-write. * Added Java binding for rocksdb::Options. * Added Java binding for block cache. * Added Java version DB Benchmark. ### DB Benchmark * Added readwhilewriting benchmark. ### Internal Framework Improvement * Avoid a potential byte-array-copy between c++ and Java in RocksDB.get. * Added SizeUnit in org.rocksdb.util to store consts like KB and GB. ### 03/28/2014 * RocksJava project started. * Added Java binding for RocksDB, which supports Open, Close, Get and Put. rocksdb-5.17.2/java/Makefile000066400000000000000000000246321337235545400156400ustar00rootroot00000000000000NATIVE_JAVA_CLASSES = org.rocksdb.AbstractCompactionFilter\ org.rocksdb.AbstractCompactionFilterFactory\ org.rocksdb.AbstractSlice\ org.rocksdb.AbstractTransactionNotifier\ org.rocksdb.BackupEngine\ org.rocksdb.BackupableDBOptions\ org.rocksdb.BlockBasedTableConfig\ org.rocksdb.BloomFilter\ org.rocksdb.Checkpoint\ org.rocksdb.ClockCache\ org.rocksdb.CassandraCompactionFilter\ org.rocksdb.CassandraValueMergeOperator\ org.rocksdb.ColumnFamilyHandle\ org.rocksdb.ColumnFamilyOptions\ org.rocksdb.CompactionOptionsFIFO\ org.rocksdb.CompactionOptionsUniversal\ org.rocksdb.CompactRangeOptions\ org.rocksdb.Comparator\ org.rocksdb.ComparatorOptions\ org.rocksdb.CompressionOptions\ org.rocksdb.DBOptions\ org.rocksdb.DirectComparator\ org.rocksdb.DirectSlice\ org.rocksdb.Env\ org.rocksdb.EnvOptions\ org.rocksdb.FlushOptions\ org.rocksdb.Filter\ org.rocksdb.IngestExternalFileOptions\ org.rocksdb.HashLinkedListMemTableConfig\ org.rocksdb.HashSkipListMemTableConfig\ org.rocksdb.Logger\ org.rocksdb.LRUCache\ org.rocksdb.MergeOperator\ org.rocksdb.NativeComparatorWrapper\ org.rocksdb.OptimisticTransactionDB\ org.rocksdb.OptimisticTransactionOptions\ org.rocksdb.Options\ org.rocksdb.OptionsUtil\ org.rocksdb.PlainTableConfig\ org.rocksdb.RateLimiter\ org.rocksdb.ReadOptions\ org.rocksdb.RemoveEmptyValueCompactionFilter\ org.rocksdb.RestoreOptions\ org.rocksdb.RocksCallbackObject\ org.rocksdb.RocksDB\ org.rocksdb.RocksEnv\ org.rocksdb.RocksIterator\ org.rocksdb.RocksMemEnv\ org.rocksdb.SkipListMemTableConfig\ org.rocksdb.Slice\ org.rocksdb.SstFileManager\ org.rocksdb.SstFileWriter\ org.rocksdb.Statistics\ org.rocksdb.Transaction\ org.rocksdb.TransactionDB\ org.rocksdb.TransactionDBOptions\ org.rocksdb.TransactionOptions\ org.rocksdb.TransactionLogIterator\ org.rocksdb.TtlDB\ org.rocksdb.VectorMemTableConfig\ org.rocksdb.Snapshot\ org.rocksdb.StringAppendOperator\ org.rocksdb.WriteBatch\ org.rocksdb.WriteBatch.Handler\ org.rocksdb.WriteOptions\ org.rocksdb.WriteBatchWithIndex\ org.rocksdb.WBWIRocksIterator NATIVE_JAVA_TEST_CLASSES = org.rocksdb.RocksDBExceptionTest\ org.rocksdb.NativeComparatorWrapperTest.NativeStringComparatorWrapper\ org.rocksdb.WriteBatchTest\ org.rocksdb.WriteBatchTestInternalHelper ROCKSDB_MAJOR = $(shell egrep "ROCKSDB_MAJOR.[0-9]" ../include/rocksdb/version.h | cut -d ' ' -f 3) ROCKSDB_MINOR = $(shell egrep "ROCKSDB_MINOR.[0-9]" ../include/rocksdb/version.h | cut -d ' ' -f 3) ROCKSDB_PATCH = $(shell egrep "ROCKSDB_PATCH.[0-9]" ../include/rocksdb/version.h | cut -d ' ' -f 3) NATIVE_INCLUDE = ./include ARCH := $(shell getconf LONG_BIT) ROCKSDB_JAR = rocksdbjni-$(ROCKSDB_MAJOR).$(ROCKSDB_MINOR).$(ROCKSDB_PATCH)-linux$(ARCH).jar ifeq ($(PLATFORM), OS_MACOSX) ROCKSDB_JAR = rocksdbjni-$(ROCKSDB_MAJOR).$(ROCKSDB_MINOR).$(ROCKSDB_PATCH)-osx.jar endif JAVA_TESTS = org.rocksdb.BackupableDBOptionsTest\ org.rocksdb.BackupEngineTest\ org.rocksdb.BlockBasedTableConfigTest\ org.rocksdb.util.BytewiseComparatorTest\ org.rocksdb.CheckPointTest\ org.rocksdb.ClockCacheTest\ org.rocksdb.ColumnFamilyOptionsTest\ org.rocksdb.ColumnFamilyTest\ org.rocksdb.CompactionFilterFactoryTest\ org.rocksdb.CompactionOptionsFIFOTest\ org.rocksdb.CompactionOptionsUniversalTest\ org.rocksdb.CompactionPriorityTest\ org.rocksdb.CompactionStopStyleTest\ org.rocksdb.ComparatorOptionsTest\ org.rocksdb.ComparatorTest\ org.rocksdb.CompressionOptionsTest\ org.rocksdb.CompressionTypesTest\ org.rocksdb.DBOptionsTest\ org.rocksdb.DirectComparatorTest\ org.rocksdb.DirectSliceTest\ org.rocksdb.EnvOptionsTest\ org.rocksdb.IngestExternalFileOptionsTest\ org.rocksdb.util.EnvironmentTest\ org.rocksdb.FilterTest\ org.rocksdb.FlushTest\ org.rocksdb.InfoLogLevelTest\ org.rocksdb.KeyMayExistTest\ org.rocksdb.LoggerTest\ org.rocksdb.LRUCacheTest\ org.rocksdb.MemTableTest\ org.rocksdb.MergeTest\ org.rocksdb.MixedOptionsTest\ org.rocksdb.MutableColumnFamilyOptionsTest\ org.rocksdb.NativeComparatorWrapperTest\ org.rocksdb.NativeLibraryLoaderTest\ org.rocksdb.OptimisticTransactionTest\ org.rocksdb.OptimisticTransactionDBTest\ org.rocksdb.OptimisticTransactionOptionsTest\ org.rocksdb.OptionsUtilTest\ org.rocksdb.OptionsTest\ org.rocksdb.PlainTableConfigTest\ org.rocksdb.RateLimiterTest\ org.rocksdb.ReadOnlyTest\ org.rocksdb.ReadOptionsTest\ org.rocksdb.RocksDBTest\ org.rocksdb.RocksDBExceptionTest\ org.rocksdb.RocksEnvTest\ org.rocksdb.RocksIteratorTest\ org.rocksdb.RocksMemEnvTest\ org.rocksdb.util.SizeUnitTest\ org.rocksdb.SliceTest\ org.rocksdb.SnapshotTest\ org.rocksdb.SstFileManagerTest\ org.rocksdb.SstFileWriterTest\ org.rocksdb.TransactionTest\ org.rocksdb.TransactionDBTest\ org.rocksdb.TransactionOptionsTest\ org.rocksdb.TransactionDBOptionsTest\ org.rocksdb.TransactionLogIteratorTest\ org.rocksdb.TtlDBTest\ org.rocksdb.StatisticsTest\ org.rocksdb.StatisticsCollectorTest\ org.rocksdb.WALRecoveryModeTest\ org.rocksdb.WriteBatchHandlerTest\ org.rocksdb.WriteBatchTest\ org.rocksdb.WriteBatchThreadedTest\ org.rocksdb.WriteOptionsTest\ org.rocksdb.WriteBatchWithIndexTest MAIN_SRC = src/main/java TEST_SRC = src/test/java OUTPUT = target MAIN_CLASSES = $(OUTPUT)/classes TEST_CLASSES = $(OUTPUT)/test-classes JAVADOC = $(OUTPUT)/apidocs BENCHMARK_MAIN_SRC = benchmark/src/main/java BENCHMARK_OUTPUT = benchmark/target BENCHMARK_MAIN_CLASSES = $(BENCHMARK_OUTPUT)/classes SAMPLES_MAIN_SRC = samples/src/main/java SAMPLES_OUTPUT = samples/target SAMPLES_MAIN_CLASSES = $(SAMPLES_OUTPUT)/classes JAVA_TEST_LIBDIR = test-libs JAVA_JUNIT_JAR = $(JAVA_TEST_LIBDIR)/junit-4.12.jar JAVA_HAMCR_JAR = $(JAVA_TEST_LIBDIR)/hamcrest-core-1.3.jar JAVA_MOCKITO_JAR = $(JAVA_TEST_LIBDIR)/mockito-all-1.10.19.jar JAVA_CGLIB_JAR = $(JAVA_TEST_LIBDIR)/cglib-2.2.2.jar JAVA_ASSERTJ_JAR = $(JAVA_TEST_LIBDIR)/assertj-core-1.7.1.jar JAVA_TESTCLASSPATH = $(JAVA_JUNIT_JAR):$(JAVA_HAMCR_JAR):$(JAVA_MOCKITO_JAR):$(JAVA_CGLIB_JAR):$(JAVA_ASSERTJ_JAR) MVN_LOCAL = ~/.m2/repository # Set the default JAVA_ARGS to "" for DEBUG_LEVEL=0 JAVA_ARGS? = JAVAC_ARGS? = # When debugging add -Xcheck:jni to the java args ifneq ($(DEBUG_LEVEL),0) JAVA_ARGS = -ea -Xcheck:jni JAVAC_ARGS = -Xlint:deprecation -Xlint:unchecked endif SEARCH_REPO_URL?=http://search.maven.org/remotecontent?filepath= CENTRAL_REPO_URL?=http://central.maven.org/maven2/ clean: $(AM_V_at)rm -rf include/* $(AM_V_at)rm -rf test-libs/ $(AM_V_at)rm -rf $(OUTPUT) $(AM_V_at)rm -rf $(BENCHMARK_OUTPUT) $(AM_V_at)rm -rf $(SAMPLES_OUTPUT) javadocs: java $(AM_V_GEN)mkdir -p $(JAVADOC) $(AM_V_at)javadoc -d $(JAVADOC) -sourcepath $(MAIN_SRC) -subpackages org javalib: java java_test javadocs java: $(AM_V_GEN)mkdir -p $(MAIN_CLASSES) $(AM_V_at)javac $(JAVAC_ARGS) -d $(MAIN_CLASSES)\ $(MAIN_SRC)/org/rocksdb/util/*.java\ $(MAIN_SRC)/org/rocksdb/*.java $(AM_V_at)@cp ../HISTORY.md ./HISTORY-CPP.md $(AM_V_at)@rm -f ./HISTORY-CPP.md $(AM_V_at)javah -cp $(MAIN_CLASSES) -d $(NATIVE_INCLUDE) -jni $(NATIVE_JAVA_CLASSES) sample: java $(AM_V_GEN)mkdir -p $(SAMPLES_MAIN_CLASSES) $(AM_V_at)javac $(JAVAC_ARGS) -cp $(MAIN_CLASSES) -d $(SAMPLES_MAIN_CLASSES) $(SAMPLES_MAIN_SRC)/RocksDBSample.java $(AM_V_at)@rm -rf /tmp/rocksdbjni $(AM_V_at)@rm -rf /tmp/rocksdbjni_not_found java $(JAVA_ARGS) -Djava.library.path=target -cp $(MAIN_CLASSES):$(SAMPLES_MAIN_CLASSES) RocksDBSample /tmp/rocksdbjni $(AM_V_at)@rm -rf /tmp/rocksdbjni $(AM_V_at)@rm -rf /tmp/rocksdbjni_not_found column_family_sample: java $(AM_V_GEN)mkdir -p $(SAMPLES_MAIN_CLASSES) $(AM_V_at)javac $(JAVAC_ARGS) -cp $(MAIN_CLASSES) -d $(SAMPLES_MAIN_CLASSES) $(SAMPLES_MAIN_SRC)/RocksDBColumnFamilySample.java $(AM_V_at)@rm -rf /tmp/rocksdbjni java $(JAVA_ARGS) -Djava.library.path=target -cp $(MAIN_CLASSES):$(SAMPLES_MAIN_CLASSES) RocksDBColumnFamilySample /tmp/rocksdbjni $(AM_V_at)@rm -rf /tmp/rocksdbjni transaction_sample: java $(AM_V_GEN)mkdir -p $(SAMPLES_MAIN_CLASSES) $(AM_V_at)javac -cp $(MAIN_CLASSES) -d $(SAMPLES_MAIN_CLASSES) $(SAMPLES_MAIN_SRC)/TransactionSample.java $(AM_V_at)@rm -rf /tmp/rocksdbjni java -ea -Xcheck:jni -Djava.library.path=target -cp $(MAIN_CLASSES):$(SAMPLES_MAIN_CLASSES) TransactionSample /tmp/rocksdbjni $(AM_V_at)@rm -rf /tmp/rocksdbjni optimistic_transaction_sample: java $(AM_V_GEN)mkdir -p $(SAMPLES_MAIN_CLASSES) $(AM_V_at)javac -cp $(MAIN_CLASSES) -d $(SAMPLES_MAIN_CLASSES) $(SAMPLES_MAIN_SRC)/OptimisticTransactionSample.java $(AM_V_at)@rm -rf /tmp/rocksdbjni java -ea -Xcheck:jni -Djava.library.path=target -cp $(MAIN_CLASSES):$(SAMPLES_MAIN_CLASSES) OptimisticTransactionSample /tmp/rocksdbjni $(AM_V_at)@rm -rf /tmp/rocksdbjni resolve_test_deps: test -d "$(JAVA_TEST_LIBDIR)" || mkdir -p "$(JAVA_TEST_LIBDIR)" test -s "$(JAVA_JUNIT_JAR)" || cp $(MVN_LOCAL)/junit/junit/4.12/junit-4.12.jar $(JAVA_TEST_LIBDIR) || curl -k -L -o $(JAVA_JUNIT_JAR) $(SEARCH_REPO_URL)junit/junit/4.12/junit-4.12.jar test -s "$(JAVA_HAMCR_JAR)" || cp $(MVN_LOCAL)/org/hamcrest/hamcrest-core/1.3/hamcrest-core-1.3.jar $(JAVA_TEST_LIBDIR) || curl -k -L -o $(JAVA_HAMCR_JAR) $(SEARCH_REPO_URL)org/hamcrest/hamcrest-core/1.3/hamcrest-core-1.3.jar test -s "$(JAVA_MOCKITO_JAR)" || cp $(MVN_LOCAL)/org/mockito/mockito-all/1.10.19/mockito-all-1.10.19.jar $(JAVA_TEST_LIBDIR) || curl -k -L -o "$(JAVA_MOCKITO_JAR)" $(SEARCH_REPO_URL)org/mockito/mockito-all/1.10.19/mockito-all-1.10.19.jar test -s "$(JAVA_CGLIB_JAR)" || cp $(MVN_LOCAL)/cglib/cglib/2.2.2/cglib-2.2.2.jar $(JAVA_TEST_LIBDIR) || curl -k -L -o "$(JAVA_CGLIB_JAR)" $(SEARCH_REPO_URL)cglib/cglib/2.2.2/cglib-2.2.2.jar test -s "$(JAVA_ASSERTJ_JAR)" || cp $(MVN_LOCAL)/org/assertj/assertj-core/1.7.1/assertj-core-1.7.1.jar $(JAVA_TEST_LIBDIR) || curl -k -L -o "$(JAVA_ASSERTJ_JAR)" $(CENTRAL_REPO_URL)org/assertj/assertj-core/1.7.1/assertj-core-1.7.1.jar java_test: java resolve_test_deps $(AM_V_GEN)mkdir -p $(TEST_CLASSES) $(AM_V_at)javac $(JAVAC_ARGS) -cp $(MAIN_CLASSES):$(JAVA_TESTCLASSPATH) -d $(TEST_CLASSES)\ $(TEST_SRC)/org/rocksdb/test/*.java\ $(TEST_SRC)/org/rocksdb/util/*.java\ $(TEST_SRC)/org/rocksdb/*.java $(AM_V_at)javah -cp $(MAIN_CLASSES):$(TEST_CLASSES) -d $(NATIVE_INCLUDE) -jni $(NATIVE_JAVA_TEST_CLASSES) test: java java_test run_test run_test: java $(JAVA_ARGS) -Djava.library.path=target -cp "$(MAIN_CLASSES):$(TEST_CLASSES):$(JAVA_TESTCLASSPATH):target/*" org.rocksdb.test.RocksJunitRunner $(JAVA_TESTS) db_bench: java $(AM_V_GEN)mkdir -p $(BENCHMARK_MAIN_CLASSES) $(AM_V_at)javac $(JAVAC_ARGS) -cp $(MAIN_CLASSES) -d $(BENCHMARK_MAIN_CLASSES) $(BENCHMARK_MAIN_SRC)/org/rocksdb/benchmark/*.java rocksdb-5.17.2/java/RELEASE.md000066400000000000000000000044631337235545400156020ustar00rootroot00000000000000## Cross-building RocksDB can be built as a single self contained cross-platform JAR. The cross-platform jar can be usd on any 64-bit OSX system, 32-bit Linux system, or 64-bit Linux system. Building a cross-platform JAR requires: * [Vagrant](https://www.vagrantup.com/) * [Virtualbox](https://www.virtualbox.org/) * A Mac OSX machine that can compile RocksDB. * Java 7 set as JAVA_HOME. Once you have these items, run this make command from RocksDB's root source directory: make jclean clean rocksdbjavastaticrelease This command will build RocksDB natively on OSX, and will then spin up two Vagrant Virtualbox Ubuntu images to build RocksDB for both 32-bit and 64-bit Linux. You can find all native binaries and JARs in the java/target directory upon completion: librocksdbjni-linux32.so librocksdbjni-linux64.so librocksdbjni-osx.jnilib rocksdbjni-3.5.0-javadoc.jar rocksdbjni-3.5.0-linux32.jar rocksdbjni-3.5.0-linux64.jar rocksdbjni-3.5.0-osx.jar rocksdbjni-3.5.0-sources.jar rocksdbjni-3.5.0.jar ## Maven publication Set ~/.m2/settings.xml to contain: sonatype-nexus-staging your-sonatype-jira-username your-sonatype-jira-password From RocksDB's root directory, first build the Java static JARs: make jclean clean rocksdbjavastaticpublish This command will [stage the JAR artifacts on the Sonatype staging repository](http://central.sonatype.org/pages/manual-staging-bundle-creation-and-deployment.html). To release the staged artifacts. 1. Go to [https://oss.sonatype.org/#stagingRepositories](https://oss.sonatype.org/#stagingRepositories) and search for "rocksdb" in the upper right hand search box. 2. Select the rocksdb staging repository, and inspect its contents. 3. If all is well, follow [these steps](https://oss.sonatype.org/#stagingRepositories) to close the repository and release it. After the release has occurred, the artifacts will be synced to Maven central within 24-48 hours. rocksdb-5.17.2/java/benchmark/000077500000000000000000000000001337235545400161235ustar00rootroot00000000000000rocksdb-5.17.2/java/benchmark/src/000077500000000000000000000000001337235545400167125ustar00rootroot00000000000000rocksdb-5.17.2/java/benchmark/src/main/000077500000000000000000000000001337235545400176365ustar00rootroot00000000000000rocksdb-5.17.2/java/benchmark/src/main/java/000077500000000000000000000000001337235545400205575ustar00rootroot00000000000000rocksdb-5.17.2/java/benchmark/src/main/java/org/000077500000000000000000000000001337235545400213465ustar00rootroot00000000000000rocksdb-5.17.2/java/benchmark/src/main/java/org/rocksdb/000077500000000000000000000000001337235545400227755ustar00rootroot00000000000000rocksdb-5.17.2/java/benchmark/src/main/java/org/rocksdb/benchmark/000077500000000000000000000000001337235545400247275ustar00rootroot00000000000000rocksdb-5.17.2/java/benchmark/src/main/java/org/rocksdb/benchmark/DbBenchmark.java000066400000000000000000001631641337235545400277450ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). /** * Copyright (C) 2011 the original author or authors. * See the notice.md file distributed with this work for additional * information regarding copyright ownership. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package org.rocksdb.benchmark; import java.io.IOException; import java.lang.Runnable; import java.lang.Math; import java.io.File; import java.lang.reflect.Constructor; import java.lang.reflect.InvocationTargetException; import java.nio.ByteBuffer; import java.nio.file.Files; import java.util.Collection; import java.util.Date; import java.util.EnumMap; import java.util.List; import java.util.Map; import java.util.Random; import java.util.concurrent.TimeUnit; import java.util.Arrays; import java.util.ArrayList; import java.util.concurrent.Callable; import java.util.concurrent.Executors; import java.util.concurrent.ExecutorService; import java.util.concurrent.Future; import java.util.concurrent.TimeUnit; import org.rocksdb.*; import org.rocksdb.RocksMemEnv; import org.rocksdb.util.SizeUnit; class Stats { int id_; long start_; long finish_; double seconds_; long done_; long found_; long lastOpTime_; long nextReport_; long bytes_; StringBuilder message_; boolean excludeFromMerge_; // TODO(yhchiang): use the following arguments: // (Long)Flag.stats_interval // (Integer)Flag.stats_per_interval Stats(int id) { id_ = id; nextReport_ = 100; done_ = 0; bytes_ = 0; seconds_ = 0; start_ = System.nanoTime(); lastOpTime_ = start_; finish_ = start_; found_ = 0; message_ = new StringBuilder(""); excludeFromMerge_ = false; } void merge(final Stats other) { if (other.excludeFromMerge_) { return; } done_ += other.done_; found_ += other.found_; bytes_ += other.bytes_; seconds_ += other.seconds_; if (other.start_ < start_) start_ = other.start_; if (other.finish_ > finish_) finish_ = other.finish_; // Just keep the messages from one thread if (message_.length() == 0) { message_ = other.message_; } } void stop() { finish_ = System.nanoTime(); seconds_ = (double) (finish_ - start_) * 1e-9; } void addMessage(String msg) { if (message_.length() > 0) { message_.append(" "); } message_.append(msg); } void setId(int id) { id_ = id; } void setExcludeFromMerge() { excludeFromMerge_ = true; } void finishedSingleOp(int bytes) { done_++; lastOpTime_ = System.nanoTime(); bytes_ += bytes; if (done_ >= nextReport_) { if (nextReport_ < 1000) { nextReport_ += 100; } else if (nextReport_ < 5000) { nextReport_ += 500; } else if (nextReport_ < 10000) { nextReport_ += 1000; } else if (nextReport_ < 50000) { nextReport_ += 5000; } else if (nextReport_ < 100000) { nextReport_ += 10000; } else if (nextReport_ < 500000) { nextReport_ += 50000; } else { nextReport_ += 100000; } System.err.printf("... Task %s finished %d ops%30s\r", id_, done_, ""); } } void report(String name) { // Pretend at least one op was done in case we are running a benchmark // that does not call FinishedSingleOp(). if (done_ < 1) done_ = 1; StringBuilder extra = new StringBuilder(""); if (bytes_ > 0) { // Rate is computed on actual elapsed time, not the sum of per-thread // elapsed times. double elapsed = (finish_ - start_) * 1e-9; extra.append(String.format("%6.1f MB/s", (bytes_ / 1048576.0) / elapsed)); } extra.append(message_.toString()); double elapsed = (finish_ - start_); double throughput = (double) done_ / (elapsed * 1e-9); System.out.format("%-12s : %11.3f micros/op %d ops/sec;%s%s\n", name, (elapsed * 1e-6) / done_, (long) throughput, (extra.length() == 0 ? "" : " "), extra.toString()); } } public class DbBenchmark { enum Order { SEQUENTIAL, RANDOM } enum DBState { FRESH, EXISTING } static { RocksDB.loadLibrary(); } abstract class BenchmarkTask implements Callable { // TODO(yhchiang): use (Integer)Flag.perf_level. public BenchmarkTask( int tid, long randSeed, long numEntries, long keyRange) { tid_ = tid; rand_ = new Random(randSeed + tid * 1000); numEntries_ = numEntries; keyRange_ = keyRange; stats_ = new Stats(tid); } @Override public Stats call() throws RocksDBException { stats_.start_ = System.nanoTime(); runTask(); stats_.finish_ = System.nanoTime(); return stats_; } abstract protected void runTask() throws RocksDBException; protected int tid_; protected Random rand_; protected long numEntries_; protected long keyRange_; protected Stats stats_; protected void getFixedKey(byte[] key, long sn) { generateKeyFromLong(key, sn); } protected void getRandomKey(byte[] key, long range) { generateKeyFromLong(key, Math.abs(rand_.nextLong() % range)); } } abstract class WriteTask extends BenchmarkTask { public WriteTask( int tid, long randSeed, long numEntries, long keyRange, WriteOptions writeOpt, long entriesPerBatch) { super(tid, randSeed, numEntries, keyRange); writeOpt_ = writeOpt; entriesPerBatch_ = entriesPerBatch; maxWritesPerSecond_ = -1; } public WriteTask( int tid, long randSeed, long numEntries, long keyRange, WriteOptions writeOpt, long entriesPerBatch, long maxWritesPerSecond) { super(tid, randSeed, numEntries, keyRange); writeOpt_ = writeOpt; entriesPerBatch_ = entriesPerBatch; maxWritesPerSecond_ = maxWritesPerSecond; } @Override public void runTask() throws RocksDBException { if (numEntries_ != DbBenchmark.this.num_) { stats_.message_.append(String.format(" (%d ops)", numEntries_)); } byte[] key = new byte[keySize_]; byte[] value = new byte[valueSize_]; try { if (entriesPerBatch_ == 1) { for (long i = 0; i < numEntries_; ++i) { getKey(key, i, keyRange_); DbBenchmark.this.gen_.generate(value); db_.put(writeOpt_, key, value); stats_.finishedSingleOp(keySize_ + valueSize_); writeRateControl(i); if (isFinished()) { return; } } } else { for (long i = 0; i < numEntries_; i += entriesPerBatch_) { WriteBatch batch = new WriteBatch(); for (long j = 0; j < entriesPerBatch_; j++) { getKey(key, i + j, keyRange_); DbBenchmark.this.gen_.generate(value); batch.put(key, value); stats_.finishedSingleOp(keySize_ + valueSize_); } db_.write(writeOpt_, batch); batch.dispose(); writeRateControl(i); if (isFinished()) { return; } } } } catch (InterruptedException e) { // thread has been terminated. } } protected void writeRateControl(long writeCount) throws InterruptedException { if (maxWritesPerSecond_ <= 0) return; long minInterval = writeCount * TimeUnit.SECONDS.toNanos(1) / maxWritesPerSecond_; long interval = System.nanoTime() - stats_.start_; if (minInterval - interval > TimeUnit.MILLISECONDS.toNanos(1)) { TimeUnit.NANOSECONDS.sleep(minInterval - interval); } } abstract protected void getKey(byte[] key, long id, long range); protected WriteOptions writeOpt_; protected long entriesPerBatch_; protected long maxWritesPerSecond_; } class WriteSequentialTask extends WriteTask { public WriteSequentialTask( int tid, long randSeed, long numEntries, long keyRange, WriteOptions writeOpt, long entriesPerBatch) { super(tid, randSeed, numEntries, keyRange, writeOpt, entriesPerBatch); } public WriteSequentialTask( int tid, long randSeed, long numEntries, long keyRange, WriteOptions writeOpt, long entriesPerBatch, long maxWritesPerSecond) { super(tid, randSeed, numEntries, keyRange, writeOpt, entriesPerBatch, maxWritesPerSecond); } @Override protected void getKey(byte[] key, long id, long range) { getFixedKey(key, id); } } class WriteRandomTask extends WriteTask { public WriteRandomTask( int tid, long randSeed, long numEntries, long keyRange, WriteOptions writeOpt, long entriesPerBatch) { super(tid, randSeed, numEntries, keyRange, writeOpt, entriesPerBatch); } public WriteRandomTask( int tid, long randSeed, long numEntries, long keyRange, WriteOptions writeOpt, long entriesPerBatch, long maxWritesPerSecond) { super(tid, randSeed, numEntries, keyRange, writeOpt, entriesPerBatch, maxWritesPerSecond); } @Override protected void getKey(byte[] key, long id, long range) { getRandomKey(key, range); } } class WriteUniqueRandomTask extends WriteTask { static final int MAX_BUFFER_SIZE = 10000000; public WriteUniqueRandomTask( int tid, long randSeed, long numEntries, long keyRange, WriteOptions writeOpt, long entriesPerBatch) { super(tid, randSeed, numEntries, keyRange, writeOpt, entriesPerBatch); initRandomKeySequence(); } public WriteUniqueRandomTask( int tid, long randSeed, long numEntries, long keyRange, WriteOptions writeOpt, long entriesPerBatch, long maxWritesPerSecond) { super(tid, randSeed, numEntries, keyRange, writeOpt, entriesPerBatch, maxWritesPerSecond); initRandomKeySequence(); } @Override protected void getKey(byte[] key, long id, long range) { generateKeyFromLong(key, nextUniqueRandom()); } protected void initRandomKeySequence() { bufferSize_ = MAX_BUFFER_SIZE; if (bufferSize_ > keyRange_) { bufferSize_ = (int) keyRange_; } currentKeyCount_ = bufferSize_; keyBuffer_ = new long[MAX_BUFFER_SIZE]; for (int k = 0; k < bufferSize_; ++k) { keyBuffer_[k] = k; } } /** * Semi-randomly return the next unique key. It is guaranteed to be * fully random if keyRange_ <= MAX_BUFFER_SIZE. */ long nextUniqueRandom() { if (bufferSize_ == 0) { System.err.println("bufferSize_ == 0."); return 0; } int r = rand_.nextInt(bufferSize_); // randomly pick one from the keyBuffer long randKey = keyBuffer_[r]; if (currentKeyCount_ < keyRange_) { // if we have not yet inserted all keys, insert next new key to [r]. keyBuffer_[r] = currentKeyCount_++; } else { // move the last element to [r] and decrease the size by 1. keyBuffer_[r] = keyBuffer_[--bufferSize_]; } return randKey; } int bufferSize_; long currentKeyCount_; long[] keyBuffer_; } class ReadRandomTask extends BenchmarkTask { public ReadRandomTask( int tid, long randSeed, long numEntries, long keyRange) { super(tid, randSeed, numEntries, keyRange); } @Override public void runTask() throws RocksDBException { byte[] key = new byte[keySize_]; byte[] value = new byte[valueSize_]; for (long i = 0; i < numEntries_; i++) { getRandomKey(key, keyRange_); int len = db_.get(key, value); if (len != RocksDB.NOT_FOUND) { stats_.found_++; stats_.finishedSingleOp(keySize_ + valueSize_); } else { stats_.finishedSingleOp(keySize_); } if (isFinished()) { return; } } } } class ReadSequentialTask extends BenchmarkTask { public ReadSequentialTask( int tid, long randSeed, long numEntries, long keyRange) { super(tid, randSeed, numEntries, keyRange); } @Override public void runTask() throws RocksDBException { RocksIterator iter = db_.newIterator(); long i; for (iter.seekToFirst(), i = 0; iter.isValid() && i < numEntries_; iter.next(), ++i) { stats_.found_++; stats_.finishedSingleOp(iter.key().length + iter.value().length); if (isFinished()) { iter.dispose(); return; } } iter.dispose(); } } public DbBenchmark(Map flags) throws Exception { benchmarks_ = (List) flags.get(Flag.benchmarks); num_ = (Integer) flags.get(Flag.num); threadNum_ = (Integer) flags.get(Flag.threads); reads_ = (Integer) (flags.get(Flag.reads) == null ? flags.get(Flag.num) : flags.get(Flag.reads)); keySize_ = (Integer) flags.get(Flag.key_size); valueSize_ = (Integer) flags.get(Flag.value_size); compressionRatio_ = (Double) flags.get(Flag.compression_ratio); useExisting_ = (Boolean) flags.get(Flag.use_existing_db); randSeed_ = (Long) flags.get(Flag.seed); databaseDir_ = (String) flags.get(Flag.db); writesPerSeconds_ = (Integer) flags.get(Flag.writes_per_second); memtable_ = (String) flags.get(Flag.memtablerep); maxWriteBufferNumber_ = (Integer) flags.get(Flag.max_write_buffer_number); prefixSize_ = (Integer) flags.get(Flag.prefix_size); keysPerPrefix_ = (Integer) flags.get(Flag.keys_per_prefix); hashBucketCount_ = (Long) flags.get(Flag.hash_bucket_count); usePlainTable_ = (Boolean) flags.get(Flag.use_plain_table); useMemenv_ = (Boolean) flags.get(Flag.use_mem_env); flags_ = flags; finishLock_ = new Object(); // options.setPrefixSize((Integer)flags_.get(Flag.prefix_size)); // options.setKeysPerPrefix((Long)flags_.get(Flag.keys_per_prefix)); compressionType_ = (String) flags.get(Flag.compression_type); compression_ = CompressionType.NO_COMPRESSION; try { if (compressionType_!=null) { final CompressionType compressionType = CompressionType.getCompressionType(compressionType_); if (compressionType != null && compressionType != CompressionType.NO_COMPRESSION) { System.loadLibrary(compressionType.getLibraryName()); } } } catch (UnsatisfiedLinkError e) { System.err.format("Unable to load %s library:%s%n" + "No compression is used.%n", compressionType_, e.toString()); compressionType_ = "none"; } gen_ = new RandomGenerator(randSeed_, compressionRatio_); } private void prepareReadOptions(ReadOptions options) { options.setVerifyChecksums((Boolean)flags_.get(Flag.verify_checksum)); options.setTailing((Boolean)flags_.get(Flag.use_tailing_iterator)); } private void prepareWriteOptions(WriteOptions options) { options.setSync((Boolean)flags_.get(Flag.sync)); options.setDisableWAL((Boolean)flags_.get(Flag.disable_wal)); } private void prepareOptions(Options options) throws RocksDBException { if (!useExisting_) { options.setCreateIfMissing(true); } else { options.setCreateIfMissing(false); } if (useMemenv_) { options.setEnv(new RocksMemEnv()); } switch (memtable_) { case "skip_list": options.setMemTableConfig(new SkipListMemTableConfig()); break; case "vector": options.setMemTableConfig(new VectorMemTableConfig()); break; case "hash_linkedlist": options.setMemTableConfig( new HashLinkedListMemTableConfig() .setBucketCount(hashBucketCount_)); options.useFixedLengthPrefixExtractor(prefixSize_); break; case "hash_skiplist": case "prefix_hash": options.setMemTableConfig( new HashSkipListMemTableConfig() .setBucketCount(hashBucketCount_)); options.useFixedLengthPrefixExtractor(prefixSize_); break; default: System.err.format( "unable to detect the specified memtable, " + "use the default memtable factory %s%n", options.memTableFactoryName()); break; } if (usePlainTable_) { options.setTableFormatConfig( new PlainTableConfig().setKeySize(keySize_)); } else { BlockBasedTableConfig table_options = new BlockBasedTableConfig(); table_options.setBlockSize((Long)flags_.get(Flag.block_size)) .setBlockCacheSize((Long)flags_.get(Flag.cache_size)) .setCacheNumShardBits( (Integer)flags_.get(Flag.cache_numshardbits)); options.setTableFormatConfig(table_options); } options.setWriteBufferSize( (Long)flags_.get(Flag.write_buffer_size)); options.setMaxWriteBufferNumber( (Integer)flags_.get(Flag.max_write_buffer_number)); options.setMaxBackgroundCompactions( (Integer)flags_.get(Flag.max_background_compactions)); options.getEnv().setBackgroundThreads( (Integer)flags_.get(Flag.max_background_compactions)); options.setMaxBackgroundFlushes( (Integer)flags_.get(Flag.max_background_flushes)); options.setMaxBackgroundJobs((Integer) flags_.get(Flag.max_background_jobs)); options.setMaxOpenFiles( (Integer)flags_.get(Flag.open_files)); options.setUseFsync( (Boolean)flags_.get(Flag.use_fsync)); options.setWalDir( (String)flags_.get(Flag.wal_dir)); options.setDeleteObsoleteFilesPeriodMicros( (Integer)flags_.get(Flag.delete_obsolete_files_period_micros)); options.setTableCacheNumshardbits( (Integer)flags_.get(Flag.table_cache_numshardbits)); options.setAllowMmapReads( (Boolean)flags_.get(Flag.mmap_read)); options.setAllowMmapWrites( (Boolean)flags_.get(Flag.mmap_write)); options.setAdviseRandomOnOpen( (Boolean)flags_.get(Flag.advise_random_on_open)); options.setUseAdaptiveMutex( (Boolean)flags_.get(Flag.use_adaptive_mutex)); options.setBytesPerSync( (Long)flags_.get(Flag.bytes_per_sync)); options.setBloomLocality( (Integer)flags_.get(Flag.bloom_locality)); options.setMinWriteBufferNumberToMerge( (Integer)flags_.get(Flag.min_write_buffer_number_to_merge)); options.setMemtablePrefixBloomSizeRatio((Double) flags_.get(Flag.memtable_bloom_size_ratio)); options.setNumLevels( (Integer)flags_.get(Flag.num_levels)); options.setTargetFileSizeBase( (Integer)flags_.get(Flag.target_file_size_base)); options.setTargetFileSizeMultiplier((Integer)flags_.get(Flag.target_file_size_multiplier)); options.setMaxBytesForLevelBase( (Integer)flags_.get(Flag.max_bytes_for_level_base)); options.setMaxBytesForLevelMultiplier((Double) flags_.get(Flag.max_bytes_for_level_multiplier)); options.setLevelZeroStopWritesTrigger( (Integer)flags_.get(Flag.level0_stop_writes_trigger)); options.setLevelZeroSlowdownWritesTrigger( (Integer)flags_.get(Flag.level0_slowdown_writes_trigger)); options.setLevelZeroFileNumCompactionTrigger( (Integer)flags_.get(Flag.level0_file_num_compaction_trigger)); options.setMaxCompactionBytes( (Long) flags_.get(Flag.max_compaction_bytes)); options.setDisableAutoCompactions( (Boolean)flags_.get(Flag.disable_auto_compactions)); options.setMaxSuccessiveMerges( (Integer)flags_.get(Flag.max_successive_merges)); options.setWalTtlSeconds((Long)flags_.get(Flag.wal_ttl_seconds)); options.setWalSizeLimitMB((Long)flags_.get(Flag.wal_size_limit_MB)); if(flags_.get(Flag.java_comparator) != null) { options.setComparator( (AbstractComparator)flags_.get(Flag.java_comparator)); } /* TODO(yhchiang): enable the following parameters options.setCompressionType((String)flags_.get(Flag.compression_type)); options.setCompressionLevel((Integer)flags_.get(Flag.compression_level)); options.setMinLevelToCompress((Integer)flags_.get(Flag.min_level_to_compress)); options.setHdfs((String)flags_.get(Flag.hdfs)); // env options.setStatistics((Boolean)flags_.get(Flag.statistics)); options.setUniversalSizeRatio( (Integer)flags_.get(Flag.universal_size_ratio)); options.setUniversalMinMergeWidth( (Integer)flags_.get(Flag.universal_min_merge_width)); options.setUniversalMaxMergeWidth( (Integer)flags_.get(Flag.universal_max_merge_width)); options.setUniversalMaxSizeAmplificationPercent( (Integer)flags_.get(Flag.universal_max_size_amplification_percent)); options.setUniversalCompressionSizePercent( (Integer)flags_.get(Flag.universal_compression_size_percent)); // TODO(yhchiang): add RocksDB.openForReadOnly() to enable Flag.readonly // TODO(yhchiang): enable Flag.merge_operator by switch options.setAccessHintOnCompactionStart( (String)flags_.get(Flag.compaction_fadvice)); // available values of fadvice are "NONE", "NORMAL", "SEQUENTIAL", "WILLNEED" for fadvice */ } private void run() throws RocksDBException { if (!useExisting_) { destroyDb(); } Options options = new Options(); prepareOptions(options); open(options); printHeader(options); for (String benchmark : benchmarks_) { List> tasks = new ArrayList>(); List> bgTasks = new ArrayList>(); WriteOptions writeOpt = new WriteOptions(); prepareWriteOptions(writeOpt); ReadOptions readOpt = new ReadOptions(); prepareReadOptions(readOpt); int currentTaskId = 0; boolean known = true; switch (benchmark) { case "fillseq": tasks.add(new WriteSequentialTask( currentTaskId++, randSeed_, num_, num_, writeOpt, 1)); break; case "fillbatch": tasks.add(new WriteRandomTask( currentTaskId++, randSeed_, num_ / 1000, num_, writeOpt, 1000)); break; case "fillrandom": tasks.add(new WriteRandomTask( currentTaskId++, randSeed_, num_, num_, writeOpt, 1)); break; case "filluniquerandom": tasks.add(new WriteUniqueRandomTask( currentTaskId++, randSeed_, num_, num_, writeOpt, 1)); break; case "fillsync": writeOpt.setSync(true); tasks.add(new WriteRandomTask( currentTaskId++, randSeed_, num_ / 1000, num_ / 1000, writeOpt, 1)); break; case "readseq": for (int t = 0; t < threadNum_; ++t) { tasks.add(new ReadSequentialTask( currentTaskId++, randSeed_, reads_ / threadNum_, num_)); } break; case "readrandom": for (int t = 0; t < threadNum_; ++t) { tasks.add(new ReadRandomTask( currentTaskId++, randSeed_, reads_ / threadNum_, num_)); } break; case "readwhilewriting": WriteTask writeTask = new WriteRandomTask( -1, randSeed_, Long.MAX_VALUE, num_, writeOpt, 1, writesPerSeconds_); writeTask.stats_.setExcludeFromMerge(); bgTasks.add(writeTask); for (int t = 0; t < threadNum_; ++t) { tasks.add(new ReadRandomTask( currentTaskId++, randSeed_, reads_ / threadNum_, num_)); } break; case "readhot": for (int t = 0; t < threadNum_; ++t) { tasks.add(new ReadRandomTask( currentTaskId++, randSeed_, reads_ / threadNum_, num_ / 100)); } break; case "delete": destroyDb(); open(options); break; default: known = false; System.err.println("Unknown benchmark: " + benchmark); break; } if (known) { ExecutorService executor = Executors.newCachedThreadPool(); ExecutorService bgExecutor = Executors.newCachedThreadPool(); try { // measure only the main executor time List> bgResults = new ArrayList>(); for (Callable bgTask : bgTasks) { bgResults.add(bgExecutor.submit(bgTask)); } start(); List> results = executor.invokeAll(tasks); executor.shutdown(); boolean finished = executor.awaitTermination(10, TimeUnit.SECONDS); if (!finished) { System.out.format( "Benchmark %s was not finished before timeout.", benchmark); executor.shutdownNow(); } setFinished(true); bgExecutor.shutdown(); finished = bgExecutor.awaitTermination(10, TimeUnit.SECONDS); if (!finished) { System.out.format( "Benchmark %s was not finished before timeout.", benchmark); bgExecutor.shutdownNow(); } stop(benchmark, results, currentTaskId); } catch (InterruptedException e) { System.err.println(e); } } writeOpt.dispose(); readOpt.dispose(); } options.dispose(); db_.close(); } private void printHeader(Options options) { int kKeySize = 16; System.out.printf("Keys: %d bytes each\n", kKeySize); System.out.printf("Values: %d bytes each (%d bytes after compression)\n", valueSize_, (int) (valueSize_ * compressionRatio_ + 0.5)); System.out.printf("Entries: %d\n", num_); System.out.printf("RawSize: %.1f MB (estimated)\n", ((double)(kKeySize + valueSize_) * num_) / SizeUnit.MB); System.out.printf("FileSize: %.1f MB (estimated)\n", (((kKeySize + valueSize_ * compressionRatio_) * num_) / SizeUnit.MB)); System.out.format("Memtable Factory: %s%n", options.memTableFactoryName()); System.out.format("Prefix: %d bytes%n", prefixSize_); System.out.format("Compression: %s%n", compressionType_); printWarnings(); System.out.printf("------------------------------------------------\n"); } void printWarnings() { boolean assertsEnabled = false; assert assertsEnabled = true; // Intentional side effect!!! if (assertsEnabled) { System.out.printf( "WARNING: Assertions are enabled; benchmarks unnecessarily slow\n"); } } private void open(Options options) throws RocksDBException { System.out.println("Using database directory: " + databaseDir_); db_ = RocksDB.open(options, databaseDir_); } private void start() { setFinished(false); startTime_ = System.nanoTime(); } private void stop( String benchmark, List> results, int concurrentThreads) { long endTime = System.nanoTime(); double elapsedSeconds = 1.0d * (endTime - startTime_) / TimeUnit.SECONDS.toNanos(1); Stats stats = new Stats(-1); int taskFinishedCount = 0; for (Future result : results) { if (result.isDone()) { try { Stats taskStats = result.get(3, TimeUnit.SECONDS); if (!result.isCancelled()) { taskFinishedCount++; } stats.merge(taskStats); } catch (Exception e) { // then it's not successful, the output will indicate this } } } String extra = ""; if (benchmark.indexOf("read") >= 0) { extra = String.format(" %d / %d found; ", stats.found_, stats.done_); } else { extra = String.format(" %d ops done; ", stats.done_); } System.out.printf( "%-16s : %11.5f micros/op; %6.1f MB/s;%s %d / %d task(s) finished.\n", benchmark, elapsedSeconds / stats.done_ * 1e6, (stats.bytes_ / 1048576.0) / elapsedSeconds, extra, taskFinishedCount, concurrentThreads); } public void generateKeyFromLong(byte[] slice, long n) { assert(n >= 0); int startPos = 0; if (keysPerPrefix_ > 0) { long numPrefix = (num_ + keysPerPrefix_ - 1) / keysPerPrefix_; long prefix = n % numPrefix; int bytesToFill = Math.min(prefixSize_, 8); for (int i = 0; i < bytesToFill; ++i) { slice[i] = (byte) (prefix % 256); prefix /= 256; } for (int i = 8; i < bytesToFill; ++i) { slice[i] = '0'; } startPos = bytesToFill; } for (int i = slice.length - 1; i >= startPos; --i) { slice[i] = (byte) ('0' + (n % 10)); n /= 10; } } private void destroyDb() { if (db_ != null) { db_.close(); } // TODO(yhchiang): develop our own FileUtil // FileUtil.deleteDir(databaseDir_); } private void printStats() { } static void printHelp() { System.out.println("usage:"); for (Flag flag : Flag.values()) { System.out.format(" --%s%n\t%s%n", flag.name(), flag.desc()); if (flag.getDefaultValue() != null) { System.out.format("\tDEFAULT: %s%n", flag.getDefaultValue().toString()); } } } public static void main(String[] args) throws Exception { Map flags = new EnumMap(Flag.class); for (Flag flag : Flag.values()) { if (flag.getDefaultValue() != null) { flags.put(flag, flag.getDefaultValue()); } } for (String arg : args) { boolean valid = false; if (arg.equals("--help") || arg.equals("-h")) { printHelp(); System.exit(0); } if (arg.startsWith("--")) { try { String[] parts = arg.substring(2).split("="); if (parts.length >= 1) { Flag key = Flag.valueOf(parts[0]); if (key != null) { Object value = null; if (parts.length >= 2) { value = key.parseValue(parts[1]); } flags.put(key, value); valid = true; } } } catch (Exception e) { } } if (!valid) { System.err.println("Invalid argument " + arg); System.exit(1); } } new DbBenchmark(flags).run(); } private enum Flag { benchmarks( Arrays.asList( "fillseq", "readrandom", "fillrandom"), "Comma-separated list of operations to run in the specified order\n" + "\tActual benchmarks:\n" + "\t\tfillseq -- write N values in sequential key order in async mode.\n" + "\t\tfillrandom -- write N values in random key order in async mode.\n" + "\t\tfillbatch -- write N/1000 batch where each batch has 1000 values\n" + "\t\t in random key order in sync mode.\n" + "\t\tfillsync -- write N/100 values in random key order in sync mode.\n" + "\t\tfill100K -- write N/1000 100K values in random order in async mode.\n" + "\t\treadseq -- read N times sequentially.\n" + "\t\treadrandom -- read N times in random order.\n" + "\t\treadhot -- read N times in random order from 1% section of DB.\n" + "\t\treadwhilewriting -- measure the read performance of multiple readers\n" + "\t\t with a bg single writer. The write rate of the bg\n" + "\t\t is capped by --writes_per_second.\n" + "\tMeta Operations:\n" + "\t\tdelete -- delete DB") { @Override public Object parseValue(String value) { return new ArrayList(Arrays.asList(value.split(","))); } }, compression_ratio(0.5d, "Arrange to generate values that shrink to this fraction of\n" + "\ttheir original size after compression.") { @Override public Object parseValue(String value) { return Double.parseDouble(value); } }, use_existing_db(false, "If true, do not destroy the existing database. If you set this\n" + "\tflag and also specify a benchmark that wants a fresh database,\n" + "\tthat benchmark will fail.") { @Override public Object parseValue(String value) { return parseBoolean(value); } }, num(1000000, "Number of key/values to place in database.") { @Override public Object parseValue(String value) { return Integer.parseInt(value); } }, threads(1, "Number of concurrent threads to run.") { @Override public Object parseValue(String value) { return Integer.parseInt(value); } }, reads(null, "Number of read operations to do. If negative, do --nums reads.") { @Override public Object parseValue(String value) { return Integer.parseInt(value); } }, key_size(16, "The size of each key in bytes.") { @Override public Object parseValue(String value) { return Integer.parseInt(value); } }, value_size(100, "The size of each value in bytes.") { @Override public Object parseValue(String value) { return Integer.parseInt(value); } }, write_buffer_size(4L * SizeUnit.MB, "Number of bytes to buffer in memtable before compacting\n" + "\t(initialized to default value by 'main'.)") { @Override public Object parseValue(String value) { return Long.parseLong(value); } }, max_write_buffer_number(2, "The number of in-memory memtables. Each memtable is of size\n" + "\twrite_buffer_size.") { @Override public Object parseValue(String value) { return Integer.parseInt(value); } }, prefix_size(0, "Controls the prefix size for HashSkipList, HashLinkedList,\n" + "\tand plain table.") { @Override public Object parseValue(String value) { return Integer.parseInt(value); } }, keys_per_prefix(0, "Controls the average number of keys generated\n" + "\tper prefix, 0 means no special handling of the prefix,\n" + "\ti.e. use the prefix comes with the generated random number.") { @Override public Object parseValue(String value) { return Integer.parseInt(value); } }, memtablerep("skip_list", "The memtable format. Available options are\n" + "\tskip_list,\n" + "\tvector,\n" + "\thash_linkedlist,\n" + "\thash_skiplist (prefix_hash.)") { @Override public Object parseValue(String value) { return value; } }, hash_bucket_count(SizeUnit.MB, "The number of hash buckets used in the hash-bucket-based\n" + "\tmemtables. Memtables that currently support this argument are\n" + "\thash_linkedlist and hash_skiplist.") { @Override public Object parseValue(String value) { return Long.parseLong(value); } }, writes_per_second(10000, "The write-rate of the background writer used in the\n" + "\t`readwhilewriting` benchmark. Non-positive number indicates\n" + "\tusing an unbounded write-rate in `readwhilewriting` benchmark.") { @Override public Object parseValue(String value) { return Integer.parseInt(value); } }, use_plain_table(false, "Use plain-table sst format.") { @Override public Object parseValue(String value) { return parseBoolean(value); } }, cache_size(-1L, "Number of bytes to use as a cache of uncompressed data.\n" + "\tNegative means use default settings.") { @Override public Object parseValue(String value) { return Long.parseLong(value); } }, seed(0L, "Seed base for random number generators.") { @Override public Object parseValue(String value) { return Long.parseLong(value); } }, num_levels(7, "The total number of levels.") { @Override public Object parseValue(String value) { return Integer.parseInt(value); } }, numdistinct(1000L, "Number of distinct keys to use. Used in RandomWithVerify to\n" + "\tread/write on fewer keys so that gets are more likely to find the\n" + "\tkey and puts are more likely to update the same key.") { @Override public Object parseValue(String value) { return Long.parseLong(value); } }, merge_keys(-1L, "Number of distinct keys to use for MergeRandom and\n" + "\tReadRandomMergeRandom.\n" + "\tIf negative, there will be FLAGS_num keys.") { @Override public Object parseValue(String value) { return Long.parseLong(value); } }, bloom_locality(0,"Control bloom filter probes locality.") { @Override public Object parseValue(String value) { return Integer.parseInt(value); } }, duration(0,"Time in seconds for the random-ops tests to run.\n" + "\tWhen 0 then num & reads determine the test duration.") { @Override public Object parseValue(String value) { return Integer.parseInt(value); } }, num_multi_db(0, "Number of DBs used in the benchmark. 0 means single DB.") { @Override public Object parseValue(String value) { return Integer.parseInt(value); } }, histogram(false,"Print histogram of operation timings.") { @Override public Object parseValue(String value) { return parseBoolean(value); } }, min_write_buffer_number_to_merge( defaultOptions_.minWriteBufferNumberToMerge(), "The minimum number of write buffers that will be merged together\n" + "\tbefore writing to storage. This is cheap because it is an\n" + "\tin-memory merge. If this feature is not enabled, then all these\n" + "\twrite buffers are flushed to L0 as separate files and this\n" + "\tincreases read amplification because a get request has to check\n" + "\tin all of these files. Also, an in-memory merge may result in\n" + "\twriting less data to storage if there are duplicate records\n" + "\tin each of these individual write buffers.") { @Override public Object parseValue(String value) { return Integer.parseInt(value); } }, max_background_compactions( defaultOptions_.maxBackgroundCompactions(), "The maximum number of concurrent background compactions\n" + "\tthat can occur in parallel.") { @Override public Object parseValue(String value) { return Integer.parseInt(value); } }, max_background_flushes( defaultOptions_.maxBackgroundFlushes(), "The maximum number of concurrent background flushes\n" + "\tthat can occur in parallel.") { @Override public Object parseValue(String value) { return Integer.parseInt(value); } }, max_background_jobs(defaultOptions_.maxBackgroundJobs(), "The maximum number of concurrent background jobs\n" + "\tthat can occur in parallel.") { @Override public Object parseValue(String value) { return Integer.parseInt(value); } }, /* TODO(yhchiang): enable the following compaction_style((int32_t) defaultOptions_.compactionStyle(), "style of compaction: level-based vs universal.") { @Override public Object parseValue(String value) { return Integer.parseInt(value); } },*/ universal_size_ratio(0, "Percentage flexibility while comparing file size\n" + "\t(for universal compaction only).") { @Override public Object parseValue(String value) { return Integer.parseInt(value); } }, universal_min_merge_width(0,"The minimum number of files in a\n" + "\tsingle compaction run (for universal compaction only).") { @Override public Object parseValue(String value) { return Integer.parseInt(value); } }, universal_max_merge_width(0,"The max number of files to compact\n" + "\tin universal style compaction.") { @Override public Object parseValue(String value) { return Integer.parseInt(value); } }, universal_max_size_amplification_percent(0, "The max size amplification for universal style compaction.") { @Override public Object parseValue(String value) { return Integer.parseInt(value); } }, universal_compression_size_percent(-1, "The percentage of the database to compress for universal\n" + "\tcompaction. -1 means compress everything.") { @Override public Object parseValue(String value) { return Integer.parseInt(value); } }, block_size(defaultBlockBasedTableOptions_.blockSize(), "Number of bytes in a block.") { @Override public Object parseValue(String value) { return Long.parseLong(value); } }, compressed_cache_size(-1L, "Number of bytes to use as a cache of compressed data.") { @Override public Object parseValue(String value) { return Long.parseLong(value); } }, open_files(defaultOptions_.maxOpenFiles(), "Maximum number of files to keep open at the same time\n" + "\t(use default if == 0)") { @Override public Object parseValue(String value) { return Integer.parseInt(value); } }, bloom_bits(-1,"Bloom filter bits per key. Negative means\n" + "\tuse default settings.") { @Override public Object parseValue(String value) { return Integer.parseInt(value); } }, memtable_bloom_size_ratio(0.0d, "Ratio of memtable used by the bloom filter.\n" + "\t0 means no bloom filter.") { @Override public Object parseValue(String value) { return Double.parseDouble(value); } }, cache_numshardbits(-1,"Number of shards for the block cache\n" + "\tis 2 ** cache_numshardbits. Negative means use default settings.\n" + "\tThis is applied only if FLAGS_cache_size is non-negative.") { @Override public Object parseValue(String value) { return Integer.parseInt(value); } }, verify_checksum(false,"Verify checksum for every block read\n" + "\tfrom storage.") { @Override public Object parseValue(String value) { return parseBoolean(value); } }, statistics(false,"Database statistics.") { @Override public Object parseValue(String value) { return parseBoolean(value); } }, writes(-1L, "Number of write operations to do. If negative, do\n" + "\t--num reads.") { @Override public Object parseValue(String value) { return Long.parseLong(value); } }, sync(false,"Sync all writes to disk.") { @Override public Object parseValue(String value) { return parseBoolean(value); } }, use_fsync(false,"If true, issue fsync instead of fdatasync.") { @Override public Object parseValue(String value) { return parseBoolean(value); } }, disable_wal(false,"If true, do not write WAL for write.") { @Override public Object parseValue(String value) { return parseBoolean(value); } }, wal_dir("", "If not empty, use the given dir for WAL.") { @Override public Object parseValue(String value) { return value; } }, target_file_size_base(2 * 1048576,"Target file size at level-1") { @Override public Object parseValue(String value) { return Integer.parseInt(value); } }, target_file_size_multiplier(1, "A multiplier to compute target level-N file size (N >= 2)") { @Override public Object parseValue(String value) { return Integer.parseInt(value); } }, max_bytes_for_level_base(10 * 1048576, "Max bytes for level-1") { @Override public Object parseValue(String value) { return Integer.parseInt(value); } }, max_bytes_for_level_multiplier(10.0d, "A multiplier to compute max bytes for level-N (N >= 2)") { @Override public Object parseValue(String value) { return Double.parseDouble(value); } }, level0_stop_writes_trigger(12,"Number of files in level-0\n" + "\tthat will trigger put stop.") { @Override public Object parseValue(String value) { return Integer.parseInt(value); } }, level0_slowdown_writes_trigger(8,"Number of files in level-0\n" + "\tthat will slow down writes.") { @Override public Object parseValue(String value) { return Integer.parseInt(value); } }, level0_file_num_compaction_trigger(4,"Number of files in level-0\n" + "\twhen compactions start.") { @Override public Object parseValue(String value) { return Integer.parseInt(value); } }, readwritepercent(90,"Ratio of reads to reads/writes (expressed\n" + "\tas percentage) for the ReadRandomWriteRandom workload. The\n" + "\tdefault value 90 means 90% operations out of all reads and writes\n" + "\toperations are reads. In other words, 9 gets for every 1 put.") { @Override public Object parseValue(String value) { return Integer.parseInt(value); } }, mergereadpercent(70,"Ratio of merges to merges&reads (expressed\n" + "\tas percentage) for the ReadRandomMergeRandom workload. The\n" + "\tdefault value 70 means 70% out of all read and merge operations\n" + "\tare merges. In other words, 7 merges for every 3 gets.") { @Override public Object parseValue(String value) { return Integer.parseInt(value); } }, deletepercent(2,"Percentage of deletes out of reads/writes/\n" + "\tdeletes (used in RandomWithVerify only). RandomWithVerify\n" + "\tcalculates writepercent as (100 - FLAGS_readwritepercent -\n" + "\tdeletepercent), so deletepercent must be smaller than (100 -\n" + "\tFLAGS_readwritepercent)") { @Override public Object parseValue(String value) { return Integer.parseInt(value); } }, delete_obsolete_files_period_micros(0,"Option to delete\n" + "\tobsolete files periodically. 0 means that obsolete files are\n" + "\tdeleted after every compaction run.") { @Override public Object parseValue(String value) { return Integer.parseInt(value); } }, compression_type("snappy", "Algorithm used to compress the database.") { @Override public Object parseValue(String value) { return value; } }, compression_level(-1, "Compression level. For zlib this should be -1 for the\n" + "\tdefault level, or between 0 and 9.") { @Override public Object parseValue(String value) { return Integer.parseInt(value); } }, min_level_to_compress(-1,"If non-negative, compression starts\n" + "\tfrom this level. Levels with number < min_level_to_compress are\n" + "\tnot compressed. Otherwise, apply compression_type to\n" + "\tall levels.") { @Override public Object parseValue(String value) { return Integer.parseInt(value); } }, table_cache_numshardbits(4,"") { @Override public Object parseValue(String value) { return Integer.parseInt(value); } }, stats_interval(0L, "Stats are reported every N operations when\n" + "\tthis is greater than zero. When 0 the interval grows over time.") { @Override public Object parseValue(String value) { return Long.parseLong(value); } }, stats_per_interval(0,"Reports additional stats per interval when\n" + "\tthis is greater than 0.") { @Override public Object parseValue(String value) { return Integer.parseInt(value); } }, perf_level(0,"Level of perf collection.") { @Override public Object parseValue(String value) { return Integer.parseInt(value); } }, soft_rate_limit(0.0d,"") { @Override public Object parseValue(String value) { return Double.parseDouble(value); } }, hard_rate_limit(0.0d,"When not equal to 0 this make threads\n" + "\tsleep at each stats reporting interval until the compaction\n" + "\tscore for all levels is less than or equal to this value.") { @Override public Object parseValue(String value) { return Double.parseDouble(value); } }, rate_limit_delay_max_milliseconds(1000, "When hard_rate_limit is set then this is the max time a put will\n" + "\tbe stalled.") { @Override public Object parseValue(String value) { return Integer.parseInt(value); } }, max_compaction_bytes(0L, "Limit number of bytes in one compaction to be lower than this\n" + "\threshold. But it's not guaranteed.") { @Override public Object parseValue(String value) { return Long.parseLong(value); } }, readonly(false,"Run read only benchmarks.") { @Override public Object parseValue(String value) { return parseBoolean(value); } }, disable_auto_compactions(false,"Do not auto trigger compactions.") { @Override public Object parseValue(String value) { return parseBoolean(value); } }, wal_ttl_seconds(0L,"Set the TTL for the WAL Files in seconds.") { @Override public Object parseValue(String value) { return Long.parseLong(value); } }, wal_size_limit_MB(0L,"Set the size limit for the WAL Files\n" + "\tin MB.") { @Override public Object parseValue(String value) { return Long.parseLong(value); } }, /* TODO(yhchiang): enable the following direct_reads(rocksdb::EnvOptions().use_direct_reads, "Allow direct I/O reads.") { @Override public Object parseValue(String value) { return parseBoolean(value); } }, direct_writes(rocksdb::EnvOptions().use_direct_reads, "Allow direct I/O reads.") { @Override public Object parseValue(String value) { return parseBoolean(value); } }, */ mmap_read(false, "Allow reads to occur via mmap-ing files.") { @Override public Object parseValue(String value) { return parseBoolean(value); } }, mmap_write(false, "Allow writes to occur via mmap-ing files.") { @Override public Object parseValue(String value) { return parseBoolean(value); } }, advise_random_on_open(defaultOptions_.adviseRandomOnOpen(), "Advise random access on table file open.") { @Override public Object parseValue(String value) { return parseBoolean(value); } }, compaction_fadvice("NORMAL", "Access pattern advice when a file is compacted.") { @Override public Object parseValue(String value) { return value; } }, use_tailing_iterator(false, "Use tailing iterator to access a series of keys instead of get.") { @Override public Object parseValue(String value) { return parseBoolean(value); } }, use_adaptive_mutex(defaultOptions_.useAdaptiveMutex(), "Use adaptive mutex.") { @Override public Object parseValue(String value) { return parseBoolean(value); } }, bytes_per_sync(defaultOptions_.bytesPerSync(), "Allows OS to incrementally sync files to disk while they are\n" + "\tbeing written, in the background. Issue one request for every\n" + "\tbytes_per_sync written. 0 turns it off.") { @Override public Object parseValue(String value) { return Long.parseLong(value); } }, filter_deletes(false," On true, deletes use bloom-filter and drop\n" + "\tthe delete if key not present.") { @Override public Object parseValue(String value) { return parseBoolean(value); } }, max_successive_merges(0,"Maximum number of successive merge\n" + "\toperations on a key in the memtable.") { @Override public Object parseValue(String value) { return Integer.parseInt(value); } }, db(getTempDir("rocksdb-jni"), "Use the db with the following name.") { @Override public Object parseValue(String value) { return value; } }, use_mem_env(false, "Use RocksMemEnv instead of default filesystem based\n" + "environment.") { @Override public Object parseValue(String value) { return parseBoolean(value); } }, java_comparator(null, "Class name of a Java Comparator to use instead\n" + "\tof the default C++ ByteWiseComparatorImpl. Must be available on\n" + "\tthe classpath") { @Override protected Object parseValue(final String value) { try { final ComparatorOptions copt = new ComparatorOptions(); final Class clsComparator = (Class)Class.forName(value); final Constructor cstr = clsComparator.getConstructor(ComparatorOptions.class); return cstr.newInstance(copt); } catch(final ClassNotFoundException cnfe) { throw new IllegalArgumentException("Java Comparator '" + value + "'" + " not found on the classpath", cnfe); } catch(final NoSuchMethodException nsme) { throw new IllegalArgumentException("Java Comparator '" + value + "'" + " does not have a public ComparatorOptions constructor", nsme); } catch(final IllegalAccessException | InstantiationException | InvocationTargetException ie) { throw new IllegalArgumentException("Unable to construct Java" + " Comparator '" + value + "'", ie); } } }; private Flag(Object defaultValue, String desc) { defaultValue_ = defaultValue; desc_ = desc; } public Object getDefaultValue() { return defaultValue_; } public String desc() { return desc_; } public boolean parseBoolean(String value) { if (value.equals("1")) { return true; } else if (value.equals("0")) { return false; } return Boolean.parseBoolean(value); } protected abstract Object parseValue(String value); private final Object defaultValue_; private final String desc_; } private final static String DEFAULT_TEMP_DIR = "/tmp"; private static String getTempDir(final String dirName) { try { return Files.createTempDirectory(dirName).toAbsolutePath().toString(); } catch(final IOException ioe) { System.err.println("Unable to create temp directory, defaulting to: " + DEFAULT_TEMP_DIR); return DEFAULT_TEMP_DIR + File.pathSeparator + dirName; } } private static class RandomGenerator { private final byte[] data_; private int dataLength_; private int position_; private double compressionRatio_; Random rand_; private RandomGenerator(long seed, double compressionRatio) { // We use a limited amount of data over and over again and ensure // that it is larger than the compression window (32KB), and also byte[] value = new byte[100]; // large enough to serve all typical value sizes we want to write. rand_ = new Random(seed); dataLength_ = value.length * 10000; data_ = new byte[dataLength_]; compressionRatio_ = compressionRatio; int pos = 0; while (pos < dataLength_) { compressibleBytes(value); System.arraycopy(value, 0, data_, pos, Math.min(value.length, dataLength_ - pos)); pos += value.length; } } private void compressibleBytes(byte[] value) { int baseLength = value.length; if (compressionRatio_ < 1.0d) { baseLength = (int) (compressionRatio_ * value.length + 0.5); } if (baseLength <= 0) { baseLength = 1; } int pos; for (pos = 0; pos < baseLength; ++pos) { value[pos] = (byte) (' ' + rand_.nextInt(95)); // ' ' .. '~' } while (pos < value.length) { System.arraycopy(value, 0, value, pos, Math.min(baseLength, value.length - pos)); pos += baseLength; } } private void generate(byte[] value) { if (position_ + value.length > data_.length) { position_ = 0; assert(value.length <= data_.length); } position_ += value.length; System.arraycopy(data_, position_ - value.length, value, 0, value.length); } } boolean isFinished() { synchronized(finishLock_) { return isFinished_; } } void setFinished(boolean flag) { synchronized(finishLock_) { isFinished_ = flag; } } RocksDB db_; final List benchmarks_; final int num_; final int reads_; final int keySize_; final int valueSize_; final int threadNum_; final int writesPerSeconds_; final long randSeed_; final boolean useExisting_; final String databaseDir_; double compressionRatio_; RandomGenerator gen_; long startTime_; // env boolean useMemenv_; // memtable related final int maxWriteBufferNumber_; final int prefixSize_; final int keysPerPrefix_; final String memtable_; final long hashBucketCount_; // sst format related boolean usePlainTable_; Object finishLock_; boolean isFinished_; Map flags_; // as the scope of a static member equals to the scope of the problem, // we let its c++ pointer to be disposed in its finalizer. static Options defaultOptions_ = new Options(); static BlockBasedTableConfig defaultBlockBasedTableOptions_ = new BlockBasedTableConfig(); String compressionType_; CompressionType compression_; } rocksdb-5.17.2/java/crossbuild/000077500000000000000000000000001337235545400163425ustar00rootroot00000000000000rocksdb-5.17.2/java/crossbuild/Vagrantfile000066400000000000000000000013671337235545400205360ustar00rootroot00000000000000# -*- mode: ruby -*- # vi: set ft=ruby : # Vagrantfile API/syntax version. Don't touch unless you know what you're doing! VAGRANTFILE_API_VERSION = "2" Vagrant.configure(VAGRANTFILE_API_VERSION) do |config| config.vm.define "linux32" do |linux32| linux32.vm.box = "hansode/centos-6.7-i386" end config.vm.define "linux64" do |linux64| linux64.vm.box = "hansode/centos-6.7-x86_64" end config.vm.provider "virtualbox" do |v| v.memory = 2048 v.cpus = 4 v.customize ["modifyvm", :id, "--nictype1", "virtio" ] end config.vm.provision :shell, path: "build-linux-centos.sh" config.vm.synced_folder "../target", "/rocksdb-build" config.vm.synced_folder "../..", "/rocksdb", type: "rsync" config.vm.boot_timeout = 1200 end rocksdb-5.17.2/java/crossbuild/build-linux-centos.sh000077500000000000000000000023041337235545400224250ustar00rootroot00000000000000#!/usr/bin/env bash set -e # remove fixed relesever variable present in the hanscode boxes sudo rm -f /etc/yum/vars/releasever # enable EPEL sudo yum -y install epel-release # install all required packages for rocksdb that are available through yum sudo yum -y install openssl java-1.7.0-openjdk-devel zlib-devel bzip2-devel lz4-devel snappy-devel libzstd-devel jemalloc-devel # install gcc/g++ 4.8.2 from tru/devtools-2 sudo wget -O /etc/yum.repos.d/devtools-2.repo https://people.centos.org/tru/devtools-2/devtools-2.repo sudo yum -y install devtoolset-2-binutils devtoolset-2-gcc devtoolset-2-gcc-c++ # install gflags wget https://github.com/gflags/gflags/archive/v2.0.tar.gz -O gflags-2.0.tar.gz tar xvfz gflags-2.0.tar.gz; cd gflags-2.0; scl enable devtoolset-2 ./configure; scl enable devtoolset-2 make; sudo make install export LD_LIBRARY_PATH=$LD_LIBRARY_PATH:/usr/local/lib # set java home so we can build rocksdb jars export JAVA_HOME=/usr/lib/jvm/java-1.7.0 # build rocksdb cd /rocksdb scl enable devtoolset-2 'make jclean clean' scl enable devtoolset-2 'PORTABLE=1 make -j8 rocksdbjavastatic' cp /rocksdb/java/target/librocksdbjni-* /rocksdb-build cp /rocksdb/java/target/rocksdbjni-* /rocksdb-build rocksdb-5.17.2/java/crossbuild/build-linux.sh000077500000000000000000000007321337235545400211370ustar00rootroot00000000000000#!/usr/bin/env bash # install all required packages for rocksdb sudo apt-get update sudo apt-get -y install git make gcc g++ libgflags-dev libsnappy-dev zlib1g-dev libbz2-dev default-jdk # set java home so we can build rocksdb jars export JAVA_HOME=$(echo /usr/lib/jvm/java-7-openjdk*) cd /rocksdb make jclean clean make -j 4 rocksdbjavastatic cp /rocksdb/java/target/librocksdbjni-* /rocksdb-build cp /rocksdb/java/target/rocksdbjni-* /rocksdb-build sudo shutdown -h now rocksdb-5.17.2/java/crossbuild/docker-build-linux-centos.sh000077500000000000000000000007301337235545400236730ustar00rootroot00000000000000#!/usr/bin/env bash set -e rm -rf /rocksdb-local cp -r /rocksdb-host /rocksdb-local cd /rocksdb-local # Use scl devtoolset if available (i.e. CentOS <7) if hash scl 2>/dev/null; then scl enable devtoolset-2 'make jclean clean' scl enable devtoolset-2 'PORTABLE=1 make -j8 rocksdbjavastatic' else make jclean clean PORTABLE=1 make -j8 rocksdbjavastatic fi cp java/target/librocksdbjni-linux*.so java/target/rocksdbjni-*-linux*.jar /rocksdb-host/java/target rocksdb-5.17.2/java/jdb_bench.sh000077500000000000000000000006041337235545400164260ustar00rootroot00000000000000# shellcheck disable=SC2148 PLATFORM=64 if [ `getconf LONG_BIT` != "64" ] then PLATFORM=32 fi ROCKS_JAR=`find target -name rocksdbjni*.jar` echo "Running benchmark in $PLATFORM-Bit mode." # shellcheck disable=SC2068 java -server -d$PLATFORM -XX:NewSize=4m -XX:+AggressiveOpts -Djava.library.path=target -cp "${ROCKS_JAR}:benchmark/target/classes" org.rocksdb.benchmark.DbBenchmark $@ rocksdb-5.17.2/java/rocksjni.pom000066400000000000000000000144171337235545400165370ustar00rootroot00000000000000 4.0.0 RocksDB JNI http://rocksdb.org/ org.rocksdb rocksdbjni - RocksDB fat jar that contains .so files for linux32 and linux64, jnilib files for Mac OSX, and a .dll for Windows x64. Apache License 2.0 http://www.apache.org/licenses/LICENSE-2.0.html repo GNU General Public License, version 2 http://www.gnu.org/licenses/gpl-2.0.html repo scm:git:git://github.com/dropwizard/metrics.git scm:git:git@github.com:dropwizard/metrics.git http://github.com/dropwizard/metrics/ HEAD Facebook help@facebook.com America/New_York architect 1.7 1.7 UTF-8 org.apache.maven.plugins maven-compiler-plugin 3.2 ${project.build.source} ${project.build.target} ${project.build.sourceEncoding} org.apache.maven.plugins maven-surefire-plugin 2.18.1 ${argLine} -ea -Xcheck:jni -Djava.library.path=${project.build.directory} false false ${project.build.directory}/* org.jacoco jacoco-maven-plugin 0.7.2.201409121644 prepare-agent report prepare-package report org.codehaus.gmaven groovy-maven-plugin 2.0 process-classes execute Xenu String fileContents = new File(project.basedir.absolutePath + '/../include/rocksdb/version.h').getText('UTF-8') matcher = (fileContents =~ /(?s).*ROCKSDB_MAJOR ([0-9]+).*?/) String major_version = matcher.getAt(0).getAt(1) matcher = (fileContents =~ /(?s).*ROCKSDB_MINOR ([0-9]+).*?/) String minor_version = matcher.getAt(0).getAt(1) matcher = (fileContents =~ /(?s).*ROCKSDB_PATCH ([0-9]+).*?/) String patch_version = matcher.getAt(0).getAt(1) String version = String.format('%s.%s.%s', major_version, minor_version, patch_version) // Set version to be used in pom.properties project.version = version // Set version to be set as jar name project.build.finalName = project.artifactId + "-" + version junit junit 4.12 test org.assertj assertj-core 1.7.1 test org.mockito mockito-all 1.10.19 test rocksdb-5.17.2/java/rocksjni/000077500000000000000000000000001337235545400160135ustar00rootroot00000000000000rocksdb-5.17.2/java/rocksjni/backupablejni.cc000066400000000000000000000273671337235545400211330ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file implements the "bridge" between Java and C++ and enables // calling c++ rocksdb::BackupEnginge and rocksdb::BackupableDBOptions methods // from Java side. #include #include #include #include #include #include "include/org_rocksdb_BackupableDBOptions.h" #include "rocksdb/utilities/backupable_db.h" #include "rocksjni/portal.h" /////////////////////////////////////////////////////////////////////////// // BackupDBOptions /* * Class: org_rocksdb_BackupableDBOptions * Method: newBackupableDBOptions * Signature: (Ljava/lang/String;)J */ jlong Java_org_rocksdb_BackupableDBOptions_newBackupableDBOptions( JNIEnv* env, jclass /*jcls*/, jstring jpath) { const char* cpath = env->GetStringUTFChars(jpath, nullptr); if (cpath == nullptr) { // exception thrown: OutOfMemoryError return 0; } auto* bopt = new rocksdb::BackupableDBOptions(cpath); env->ReleaseStringUTFChars(jpath, cpath); return reinterpret_cast(bopt); } /* * Class: org_rocksdb_BackupableDBOptions * Method: backupDir * Signature: (J)Ljava/lang/String; */ jstring Java_org_rocksdb_BackupableDBOptions_backupDir(JNIEnv* env, jobject /*jopt*/, jlong jhandle) { auto* bopt = reinterpret_cast(jhandle); return env->NewStringUTF(bopt->backup_dir.c_str()); } /* * Class: org_rocksdb_BackupableDBOptions * Method: setBackupEnv * Signature: (JJ)V */ void Java_org_rocksdb_BackupableDBOptions_setBackupEnv( JNIEnv* /*env*/, jobject /*jopt*/, jlong jhandle, jlong jrocks_env_handle) { auto* bopt = reinterpret_cast(jhandle); auto* rocks_env = reinterpret_cast(jrocks_env_handle); bopt->backup_env = rocks_env; } /* * Class: org_rocksdb_BackupableDBOptions * Method: setShareTableFiles * Signature: (JZ)V */ void Java_org_rocksdb_BackupableDBOptions_setShareTableFiles(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean flag) { auto* bopt = reinterpret_cast(jhandle); bopt->share_table_files = flag; } /* * Class: org_rocksdb_BackupableDBOptions * Method: shareTableFiles * Signature: (J)Z */ jboolean Java_org_rocksdb_BackupableDBOptions_shareTableFiles(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* bopt = reinterpret_cast(jhandle); return bopt->share_table_files; } /* * Class: org_rocksdb_BackupableDBOptions * Method: setInfoLog * Signature: (JJ)V */ void Java_org_rocksdb_BackupableDBOptions_setInfoLog(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong /*jlogger_handle*/) { auto* bopt = reinterpret_cast(jhandle); auto* sptr_logger = reinterpret_cast*>(jhandle); bopt->info_log = sptr_logger->get(); } /* * Class: org_rocksdb_BackupableDBOptions * Method: setSync * Signature: (JZ)V */ void Java_org_rocksdb_BackupableDBOptions_setSync(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean flag) { auto* bopt = reinterpret_cast(jhandle); bopt->sync = flag; } /* * Class: org_rocksdb_BackupableDBOptions * Method: sync * Signature: (J)Z */ jboolean Java_org_rocksdb_BackupableDBOptions_sync(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* bopt = reinterpret_cast(jhandle); return bopt->sync; } /* * Class: org_rocksdb_BackupableDBOptions * Method: setDestroyOldData * Signature: (JZ)V */ void Java_org_rocksdb_BackupableDBOptions_setDestroyOldData(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean flag) { auto* bopt = reinterpret_cast(jhandle); bopt->destroy_old_data = flag; } /* * Class: org_rocksdb_BackupableDBOptions * Method: destroyOldData * Signature: (J)Z */ jboolean Java_org_rocksdb_BackupableDBOptions_destroyOldData(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* bopt = reinterpret_cast(jhandle); return bopt->destroy_old_data; } /* * Class: org_rocksdb_BackupableDBOptions * Method: setBackupLogFiles * Signature: (JZ)V */ void Java_org_rocksdb_BackupableDBOptions_setBackupLogFiles(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean flag) { auto* bopt = reinterpret_cast(jhandle); bopt->backup_log_files = flag; } /* * Class: org_rocksdb_BackupableDBOptions * Method: backupLogFiles * Signature: (J)Z */ jboolean Java_org_rocksdb_BackupableDBOptions_backupLogFiles(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* bopt = reinterpret_cast(jhandle); return bopt->backup_log_files; } /* * Class: org_rocksdb_BackupableDBOptions * Method: setBackupRateLimit * Signature: (JJ)V */ void Java_org_rocksdb_BackupableDBOptions_setBackupRateLimit( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jbackup_rate_limit) { auto* bopt = reinterpret_cast(jhandle); bopt->backup_rate_limit = jbackup_rate_limit; } /* * Class: org_rocksdb_BackupableDBOptions * Method: backupRateLimit * Signature: (J)J */ jlong Java_org_rocksdb_BackupableDBOptions_backupRateLimit(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* bopt = reinterpret_cast(jhandle); return bopt->backup_rate_limit; } /* * Class: org_rocksdb_BackupableDBOptions * Method: setBackupRateLimiter * Signature: (JJ)V */ void Java_org_rocksdb_BackupableDBOptions_setBackupRateLimiter( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jrate_limiter_handle) { auto* bopt = reinterpret_cast(jhandle); auto* sptr_rate_limiter = reinterpret_cast*>( jrate_limiter_handle); bopt->backup_rate_limiter = *sptr_rate_limiter; } /* * Class: org_rocksdb_BackupableDBOptions * Method: setRestoreRateLimit * Signature: (JJ)V */ void Java_org_rocksdb_BackupableDBOptions_setRestoreRateLimit( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jrestore_rate_limit) { auto* bopt = reinterpret_cast(jhandle); bopt->restore_rate_limit = jrestore_rate_limit; } /* * Class: org_rocksdb_BackupableDBOptions * Method: restoreRateLimit * Signature: (J)J */ jlong Java_org_rocksdb_BackupableDBOptions_restoreRateLimit(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* bopt = reinterpret_cast(jhandle); return bopt->restore_rate_limit; } /* * Class: org_rocksdb_BackupableDBOptions * Method: setRestoreRateLimiter * Signature: (JJ)V */ void Java_org_rocksdb_BackupableDBOptions_setRestoreRateLimiter( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jrate_limiter_handle) { auto* bopt = reinterpret_cast(jhandle); auto* sptr_rate_limiter = reinterpret_cast*>( jrate_limiter_handle); bopt->restore_rate_limiter = *sptr_rate_limiter; } /* * Class: org_rocksdb_BackupableDBOptions * Method: setShareFilesWithChecksum * Signature: (JZ)V */ void Java_org_rocksdb_BackupableDBOptions_setShareFilesWithChecksum( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean flag) { auto* bopt = reinterpret_cast(jhandle); bopt->share_files_with_checksum = flag; } /* * Class: org_rocksdb_BackupableDBOptions * Method: shareFilesWithChecksum * Signature: (J)Z */ jboolean Java_org_rocksdb_BackupableDBOptions_shareFilesWithChecksum( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* bopt = reinterpret_cast(jhandle); return bopt->share_files_with_checksum; } /* * Class: org_rocksdb_BackupableDBOptions * Method: setMaxBackgroundOperations * Signature: (JI)V */ void Java_org_rocksdb_BackupableDBOptions_setMaxBackgroundOperations( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint max_background_operations) { auto* bopt = reinterpret_cast(jhandle); bopt->max_background_operations = static_cast(max_background_operations); } /* * Class: org_rocksdb_BackupableDBOptions * Method: maxBackgroundOperations * Signature: (J)I */ jint Java_org_rocksdb_BackupableDBOptions_maxBackgroundOperations( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* bopt = reinterpret_cast(jhandle); return static_cast(bopt->max_background_operations); } /* * Class: org_rocksdb_BackupableDBOptions * Method: setCallbackTriggerIntervalSize * Signature: (JJ)V */ void Java_org_rocksdb_BackupableDBOptions_setCallbackTriggerIntervalSize( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jcallback_trigger_interval_size) { auto* bopt = reinterpret_cast(jhandle); bopt->callback_trigger_interval_size = static_cast(jcallback_trigger_interval_size); } /* * Class: org_rocksdb_BackupableDBOptions * Method: callbackTriggerIntervalSize * Signature: (J)J */ jlong Java_org_rocksdb_BackupableDBOptions_callbackTriggerIntervalSize( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* bopt = reinterpret_cast(jhandle); return static_cast(bopt->callback_trigger_interval_size); } /* * Class: org_rocksdb_BackupableDBOptions * Method: disposeInternal * Signature: (J)V */ void Java_org_rocksdb_BackupableDBOptions_disposeInternal(JNIEnv* /*env*/, jobject /*jopt*/, jlong jhandle) { auto* bopt = reinterpret_cast(jhandle); assert(bopt != nullptr); delete bopt; } rocksdb-5.17.2/java/rocksjni/backupenginejni.cc000066400000000000000000000214751337235545400214670ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file implements the "bridge" between Java and C++ and enables // calling C++ rocksdb::BackupEngine methods from the Java side. #include #include #include "include/org_rocksdb_BackupEngine.h" #include "rocksdb/utilities/backupable_db.h" #include "rocksjni/portal.h" /* * Class: org_rocksdb_BackupEngine * Method: open * Signature: (JJ)J */ jlong Java_org_rocksdb_BackupEngine_open(JNIEnv* env, jclass /*jcls*/, jlong env_handle, jlong backupable_db_options_handle) { auto* rocks_env = reinterpret_cast(env_handle); auto* backupable_db_options = reinterpret_cast( backupable_db_options_handle); rocksdb::BackupEngine* backup_engine; auto status = rocksdb::BackupEngine::Open(rocks_env, *backupable_db_options, &backup_engine); if (status.ok()) { return reinterpret_cast(backup_engine); } else { rocksdb::RocksDBExceptionJni::ThrowNew(env, status); return 0; } } /* * Class: org_rocksdb_BackupEngine * Method: createNewBackup * Signature: (JJZ)V */ void Java_org_rocksdb_BackupEngine_createNewBackup( JNIEnv* env, jobject /*jbe*/, jlong jbe_handle, jlong db_handle, jboolean jflush_before_backup) { auto* db = reinterpret_cast(db_handle); auto* backup_engine = reinterpret_cast(jbe_handle); auto status = backup_engine->CreateNewBackup( db, static_cast(jflush_before_backup)); if (status.ok()) { return; } rocksdb::RocksDBExceptionJni::ThrowNew(env, status); } /* * Class: org_rocksdb_BackupEngine * Method: createNewBackupWithMetadata * Signature: (JJLjava/lang/String;Z)V */ void Java_org_rocksdb_BackupEngine_createNewBackupWithMetadata( JNIEnv* env, jobject /*jbe*/, jlong jbe_handle, jlong db_handle, jstring japp_metadata, jboolean jflush_before_backup) { auto* db = reinterpret_cast(db_handle); auto* backup_engine = reinterpret_cast(jbe_handle); jboolean has_exception = JNI_FALSE; std::string app_metadata = rocksdb::JniUtil::copyStdString(env, japp_metadata, &has_exception); if (has_exception == JNI_TRUE) { rocksdb::RocksDBExceptionJni::ThrowNew( env, "Could not copy jstring to std::string"); return; } auto status = backup_engine->CreateNewBackupWithMetadata( db, app_metadata, static_cast(jflush_before_backup)); if (status.ok()) { return; } rocksdb::RocksDBExceptionJni::ThrowNew(env, status); } /* * Class: org_rocksdb_BackupEngine * Method: getBackupInfo * Signature: (J)Ljava/util/List; */ jobject Java_org_rocksdb_BackupEngine_getBackupInfo(JNIEnv* env, jobject /*jbe*/, jlong jbe_handle) { auto* backup_engine = reinterpret_cast(jbe_handle); std::vector backup_infos; backup_engine->GetBackupInfo(&backup_infos); return rocksdb::BackupInfoListJni::getBackupInfo(env, backup_infos); } /* * Class: org_rocksdb_BackupEngine * Method: getCorruptedBackups * Signature: (J)[I */ jintArray Java_org_rocksdb_BackupEngine_getCorruptedBackups(JNIEnv* env, jobject /*jbe*/, jlong jbe_handle) { auto* backup_engine = reinterpret_cast(jbe_handle); std::vector backup_ids; backup_engine->GetCorruptedBackups(&backup_ids); // store backupids in int array std::vector int_backup_ids(backup_ids.begin(), backup_ids.end()); // Store ints in java array // Its ok to loose precision here (64->32) jsize ret_backup_ids_size = static_cast(backup_ids.size()); jintArray ret_backup_ids = env->NewIntArray(ret_backup_ids_size); if (ret_backup_ids == nullptr) { // exception thrown: OutOfMemoryError return nullptr; } env->SetIntArrayRegion(ret_backup_ids, 0, ret_backup_ids_size, int_backup_ids.data()); return ret_backup_ids; } /* * Class: org_rocksdb_BackupEngine * Method: garbageCollect * Signature: (J)V */ void Java_org_rocksdb_BackupEngine_garbageCollect(JNIEnv* env, jobject /*jbe*/, jlong jbe_handle) { auto* backup_engine = reinterpret_cast(jbe_handle); auto status = backup_engine->GarbageCollect(); if (status.ok()) { return; } rocksdb::RocksDBExceptionJni::ThrowNew(env, status); } /* * Class: org_rocksdb_BackupEngine * Method: purgeOldBackups * Signature: (JI)V */ void Java_org_rocksdb_BackupEngine_purgeOldBackups(JNIEnv* env, jobject /*jbe*/, jlong jbe_handle, jint jnum_backups_to_keep) { auto* backup_engine = reinterpret_cast(jbe_handle); auto status = backup_engine->PurgeOldBackups( static_cast(jnum_backups_to_keep)); if (status.ok()) { return; } rocksdb::RocksDBExceptionJni::ThrowNew(env, status); } /* * Class: org_rocksdb_BackupEngine * Method: deleteBackup * Signature: (JI)V */ void Java_org_rocksdb_BackupEngine_deleteBackup(JNIEnv* env, jobject /*jbe*/, jlong jbe_handle, jint jbackup_id) { auto* backup_engine = reinterpret_cast(jbe_handle); auto status = backup_engine->DeleteBackup(static_cast(jbackup_id)); if (status.ok()) { return; } rocksdb::RocksDBExceptionJni::ThrowNew(env, status); } /* * Class: org_rocksdb_BackupEngine * Method: restoreDbFromBackup * Signature: (JILjava/lang/String;Ljava/lang/String;J)V */ void Java_org_rocksdb_BackupEngine_restoreDbFromBackup( JNIEnv* env, jobject /*jbe*/, jlong jbe_handle, jint jbackup_id, jstring jdb_dir, jstring jwal_dir, jlong jrestore_options_handle) { auto* backup_engine = reinterpret_cast(jbe_handle); const char* db_dir = env->GetStringUTFChars(jdb_dir, nullptr); if (db_dir == nullptr) { // exception thrown: OutOfMemoryError return; } const char* wal_dir = env->GetStringUTFChars(jwal_dir, nullptr); if (wal_dir == nullptr) { // exception thrown: OutOfMemoryError env->ReleaseStringUTFChars(jdb_dir, db_dir); return; } auto* restore_options = reinterpret_cast(jrestore_options_handle); auto status = backup_engine->RestoreDBFromBackup( static_cast(jbackup_id), db_dir, wal_dir, *restore_options); env->ReleaseStringUTFChars(jwal_dir, wal_dir); env->ReleaseStringUTFChars(jdb_dir, db_dir); if (status.ok()) { return; } rocksdb::RocksDBExceptionJni::ThrowNew(env, status); } /* * Class: org_rocksdb_BackupEngine * Method: restoreDbFromLatestBackup * Signature: (JLjava/lang/String;Ljava/lang/String;J)V */ void Java_org_rocksdb_BackupEngine_restoreDbFromLatestBackup( JNIEnv* env, jobject /*jbe*/, jlong jbe_handle, jstring jdb_dir, jstring jwal_dir, jlong jrestore_options_handle) { auto* backup_engine = reinterpret_cast(jbe_handle); const char* db_dir = env->GetStringUTFChars(jdb_dir, nullptr); if (db_dir == nullptr) { // exception thrown: OutOfMemoryError return; } const char* wal_dir = env->GetStringUTFChars(jwal_dir, nullptr); if (wal_dir == nullptr) { // exception thrown: OutOfMemoryError env->ReleaseStringUTFChars(jdb_dir, db_dir); return; } auto* restore_options = reinterpret_cast(jrestore_options_handle); auto status = backup_engine->RestoreDBFromLatestBackup(db_dir, wal_dir, *restore_options); env->ReleaseStringUTFChars(jwal_dir, wal_dir); env->ReleaseStringUTFChars(jdb_dir, db_dir); if (status.ok()) { return; } rocksdb::RocksDBExceptionJni::ThrowNew(env, status); } /* * Class: org_rocksdb_BackupEngine * Method: disposeInternal * Signature: (J)V */ void Java_org_rocksdb_BackupEngine_disposeInternal(JNIEnv* /*env*/, jobject /*jbe*/, jlong jbe_handle) { auto* be = reinterpret_cast(jbe_handle); assert(be != nullptr); delete be; } rocksdb-5.17.2/java/rocksjni/cassandra_compactionfilterjni.cc000066400000000000000000000017241337235545400244100ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include #include "include/org_rocksdb_CassandraCompactionFilter.h" #include "utilities/cassandra/cassandra_compaction_filter.h" /* * Class: org_rocksdb_CassandraCompactionFilter * Method: createNewCassandraCompactionFilter0 * Signature: (ZI)J */ jlong Java_org_rocksdb_CassandraCompactionFilter_createNewCassandraCompactionFilter0( JNIEnv* /*env*/, jclass /*jcls*/, jboolean purge_ttl_on_expiration, jint gc_grace_period_in_seconds) { auto* compaction_filter = new rocksdb::cassandra::CassandraCompactionFilter( purge_ttl_on_expiration, gc_grace_period_in_seconds); // set the native handle to our native compaction filter return reinterpret_cast(compaction_filter); } rocksdb-5.17.2/java/rocksjni/cassandra_value_operator.cc000066400000000000000000000030501337235545400233660ustar00rootroot00000000000000// Copyright (c) 2017-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include #include #include #include #include #include "include/org_rocksdb_CassandraValueMergeOperator.h" #include "rocksdb/db.h" #include "rocksdb/memtablerep.h" #include "rocksdb/merge_operator.h" #include "rocksdb/options.h" #include "rocksdb/slice_transform.h" #include "rocksdb/statistics.h" #include "rocksdb/table.h" #include "rocksjni/portal.h" #include "utilities/cassandra/merge_operator.h" /* * Class: org_rocksdb_CassandraValueMergeOperator * Method: newSharedCassandraValueMergeOperator * Signature: (II)J */ jlong Java_org_rocksdb_CassandraValueMergeOperator_newSharedCassandraValueMergeOperator( JNIEnv* /*env*/, jclass /*jclazz*/, jint gcGracePeriodInSeconds, jint operands_limit) { auto* op = new std::shared_ptr( new rocksdb::cassandra::CassandraValueMergeOperator( gcGracePeriodInSeconds, operands_limit)); return reinterpret_cast(op); } /* * Class: org_rocksdb_CassandraValueMergeOperator * Method: disposeInternal * Signature: (J)V */ void Java_org_rocksdb_CassandraValueMergeOperator_disposeInternal( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* op = reinterpret_cast*>(jhandle); delete op; } rocksdb-5.17.2/java/rocksjni/checkpoint.cc000066400000000000000000000044061337235545400204550ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file implements the "bridge" between Java and C++ and enables // calling c++ rocksdb::Checkpoint methods from Java side. #include #include #include #include #include "include/org_rocksdb_Checkpoint.h" #include "rocksdb/db.h" #include "rocksdb/utilities/checkpoint.h" #include "rocksjni/portal.h" /* * Class: org_rocksdb_Checkpoint * Method: newCheckpoint * Signature: (J)J */ jlong Java_org_rocksdb_Checkpoint_newCheckpoint(JNIEnv* /*env*/, jclass /*jclazz*/, jlong jdb_handle) { auto* db = reinterpret_cast(jdb_handle); rocksdb::Checkpoint* checkpoint; rocksdb::Checkpoint::Create(db, &checkpoint); return reinterpret_cast(checkpoint); } /* * Class: org_rocksdb_Checkpoint * Method: dispose * Signature: (J)V */ void Java_org_rocksdb_Checkpoint_disposeInternal(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* checkpoint = reinterpret_cast(jhandle); assert(checkpoint != nullptr); delete checkpoint; } /* * Class: org_rocksdb_Checkpoint * Method: createCheckpoint * Signature: (JLjava/lang/String;)V */ void Java_org_rocksdb_Checkpoint_createCheckpoint(JNIEnv* env, jobject /*jobj*/, jlong jcheckpoint_handle, jstring jcheckpoint_path) { const char* checkpoint_path = env->GetStringUTFChars(jcheckpoint_path, 0); if (checkpoint_path == nullptr) { // exception thrown: OutOfMemoryError return; } auto* checkpoint = reinterpret_cast(jcheckpoint_handle); rocksdb::Status s = checkpoint->CreateCheckpoint(checkpoint_path); env->ReleaseStringUTFChars(jcheckpoint_path, checkpoint_path); if (!s.ok()) { rocksdb::RocksDBExceptionJni::ThrowNew(env, s); } } rocksdb-5.17.2/java/rocksjni/clock_cache.cc000066400000000000000000000026211337235545400205410ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file implements the "bridge" between Java and C++ for // rocksdb::ClockCache. #include #include "cache/clock_cache.h" #include "include/org_rocksdb_ClockCache.h" /* * Class: org_rocksdb_ClockCache * Method: newClockCache * Signature: (JIZ)J */ jlong Java_org_rocksdb_ClockCache_newClockCache( JNIEnv* /*env*/, jclass /*jcls*/, jlong jcapacity, jint jnum_shard_bits, jboolean jstrict_capacity_limit) { auto* sptr_clock_cache = new std::shared_ptr(rocksdb::NewClockCache( static_cast(jcapacity), static_cast(jnum_shard_bits), static_cast(jstrict_capacity_limit))); return reinterpret_cast(sptr_clock_cache); } /* * Class: org_rocksdb_ClockCache * Method: disposeInternal * Signature: (J)V */ void Java_org_rocksdb_ClockCache_disposeInternal(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* sptr_clock_cache = reinterpret_cast*>(jhandle); delete sptr_clock_cache; // delete std::shared_ptr } rocksdb-5.17.2/java/rocksjni/columnfamilyhandle.cc000066400000000000000000000047351337235545400222060ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file implements the "bridge" between Java and C++ for // rocksdb::ColumnFamilyHandle. #include #include #include #include "include/org_rocksdb_ColumnFamilyHandle.h" #include "rocksjni/portal.h" /* * Class: org_rocksdb_ColumnFamilyHandle * Method: getName * Signature: (J)[B */ jbyteArray Java_org_rocksdb_ColumnFamilyHandle_getName(JNIEnv* env, jobject /*jobj*/, jlong jhandle) { auto* cfh = reinterpret_cast(jhandle); std::string cf_name = cfh->GetName(); return rocksdb::JniUtil::copyBytes(env, cf_name); } /* * Class: org_rocksdb_ColumnFamilyHandle * Method: getID * Signature: (J)I */ jint Java_org_rocksdb_ColumnFamilyHandle_getID(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* cfh = reinterpret_cast(jhandle); const int32_t id = cfh->GetID(); return static_cast(id); } /* * Class: org_rocksdb_ColumnFamilyHandle * Method: getDescriptor * Signature: (J)Lorg/rocksdb/ColumnFamilyDescriptor; */ jobject Java_org_rocksdb_ColumnFamilyHandle_getDescriptor(JNIEnv* env, jobject /*jobj*/, jlong jhandle) { auto* cfh = reinterpret_cast(jhandle); rocksdb::ColumnFamilyDescriptor desc; rocksdb::Status s = cfh->GetDescriptor(&desc); if (s.ok()) { return rocksdb::ColumnFamilyDescriptorJni::construct(env, &desc); } else { rocksdb::RocksDBExceptionJni::ThrowNew(env, s); return nullptr; } } /* * Class: org_rocksdb_ColumnFamilyHandle * Method: disposeInternal * Signature: (J)V */ void Java_org_rocksdb_ColumnFamilyHandle_disposeInternal(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* cfh = reinterpret_cast(jhandle); assert(cfh != nullptr); delete cfh; } rocksdb-5.17.2/java/rocksjni/compact_range_options.cc000066400000000000000000000146661337235545400227140ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file implements the "bridge" between Java and C++ for // rocksdb::CompactRangeOptions. #include #include "include/org_rocksdb_CompactRangeOptions.h" #include "rocksdb/options.h" #include "rocksjni/portal.h" /* * Class: org_rocksdb_CompactRangeOptions * Method: newCompactRangeOptions * Signature: ()J */ jlong Java_org_rocksdb_CompactRangeOptions_newCompactRangeOptions( JNIEnv* /*env*/, jclass /*jclazz*/) { auto* options = new rocksdb::CompactRangeOptions(); return reinterpret_cast(options); } /* * Class: org_rocksdb_CompactRangeOptions * Method: exclusiveManualCompaction * Signature: (J)Z */ jboolean Java_org_rocksdb_CompactRangeOptions_exclusiveManualCompaction( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* options = reinterpret_cast(jhandle); return static_cast(options->exclusive_manual_compaction); } /* * Class: org_rocksdb_CompactRangeOptions * Method: setExclusiveManualCompaction * Signature: (JZ)V */ void Java_org_rocksdb_CompactRangeOptions_setExclusiveManualCompaction( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean exclusive_manual_compaction) { auto* options = reinterpret_cast(jhandle); options->exclusive_manual_compaction = static_cast(exclusive_manual_compaction); } /* * Class: org_rocksdb_CompactRangeOptions * Method: bottommostLevelCompaction * Signature: (J)I */ jint Java_org_rocksdb_CompactRangeOptions_bottommostLevelCompaction( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* options = reinterpret_cast(jhandle); return rocksdb::BottommostLevelCompactionJni::toJavaBottommostLevelCompaction( options->bottommost_level_compaction); } /* * Class: org_rocksdb_CompactRangeOptions * Method: setBottommostLevelCompaction * Signature: (JI)V */ void Java_org_rocksdb_CompactRangeOptions_setBottommostLevelCompaction( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint bottommost_level_compaction) { auto* options = reinterpret_cast(jhandle); options->bottommost_level_compaction = rocksdb::BottommostLevelCompactionJni::toCppBottommostLevelCompaction(bottommost_level_compaction); } /* * Class: org_rocksdb_CompactRangeOptions * Method: changeLevel * Signature: (J)Z */ jboolean Java_org_rocksdb_CompactRangeOptions_changeLevel (JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* options = reinterpret_cast(jhandle); return static_cast(options->change_level); } /* * Class: org_rocksdb_CompactRangeOptions * Method: setChangeLevel * Signature: (JZ)V */ void Java_org_rocksdb_CompactRangeOptions_setChangeLevel (JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean change_level) { auto* options = reinterpret_cast(jhandle); options->change_level = static_cast(change_level); } /* * Class: org_rocksdb_CompactRangeOptions * Method: targetLevel * Signature: (J)I */ jint Java_org_rocksdb_CompactRangeOptions_targetLevel (JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* options = reinterpret_cast(jhandle); return static_cast(options->target_level); } /* * Class: org_rocksdb_CompactRangeOptions * Method: setTargetLevel * Signature: (JI)V */ void Java_org_rocksdb_CompactRangeOptions_setTargetLevel (JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint target_level) { auto* options = reinterpret_cast(jhandle); options->target_level = static_cast(target_level); } /* * Class: org_rocksdb_CompactRangeOptions * Method: targetPathId * Signature: (J)I */ jint Java_org_rocksdb_CompactRangeOptions_targetPathId (JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* options = reinterpret_cast(jhandle); return static_cast(options->target_path_id); } /* * Class: org_rocksdb_CompactRangeOptions * Method: setTargetPathId * Signature: (JI)V */ void Java_org_rocksdb_CompactRangeOptions_setTargetPathId (JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint target_path_id) { auto* options = reinterpret_cast(jhandle); options->target_path_id = static_cast(target_path_id); } /* * Class: org_rocksdb_CompactRangeOptions * Method: allowWriteStall * Signature: (J)Z */ jboolean Java_org_rocksdb_CompactRangeOptions_allowWriteStall (JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* options = reinterpret_cast(jhandle); return static_cast(options->allow_write_stall); } /* * Class: org_rocksdb_CompactRangeOptions * Method: setAllowWriteStall * Signature: (JZ)V */ void Java_org_rocksdb_CompactRangeOptions_setAllowWriteStall (JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean allow_write_stall) { auto* options = reinterpret_cast(jhandle); options->allow_write_stall = static_cast(allow_write_stall); } /* * Class: org_rocksdb_CompactRangeOptions * Method: maxSubcompactions * Signature: (J)I */ jint Java_org_rocksdb_CompactRangeOptions_maxSubcompactions (JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* options = reinterpret_cast(jhandle); return static_cast(options->max_subcompactions); } /* * Class: org_rocksdb_CompactRangeOptions * Method: setMaxSubcompactions * Signature: (JI)V */ void Java_org_rocksdb_CompactRangeOptions_setMaxSubcompactions (JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint max_subcompactions) { auto* options = reinterpret_cast(jhandle); options->max_subcompactions = static_cast(max_subcompactions); } /* * Class: org_rocksdb_CompactRangeOptions * Method: disposeInternal * Signature: (J)V */ void Java_org_rocksdb_CompactRangeOptions_disposeInternal( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* options = reinterpret_cast(jhandle); delete options; } rocksdb-5.17.2/java/rocksjni/compaction_filter.cc000066400000000000000000000017571337235545400220350ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file implements the "bridge" between Java and C++ for // rocksdb::CompactionFilter. #include #include "include/org_rocksdb_AbstractCompactionFilter.h" #include "rocksdb/compaction_filter.h" // /* * Class: org_rocksdb_AbstractCompactionFilter * Method: disposeInternal * Signature: (J)V */ void Java_org_rocksdb_AbstractCompactionFilter_disposeInternal(JNIEnv* /*env*/, jobject /*jobj*/, jlong handle) { auto* cf = reinterpret_cast(handle); assert(cf != nullptr); delete cf; } // rocksdb-5.17.2/java/rocksjni/compaction_filter_factory.cc000066400000000000000000000026421337235545400235560ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file implements the "bridge" between Java and C++ for // rocksdb::CompactionFilterFactory. #include #include #include "include/org_rocksdb_AbstractCompactionFilterFactory.h" #include "rocksjni/compaction_filter_factory_jnicallback.h" /* * Class: org_rocksdb_AbstractCompactionFilterFactory * Method: createNewCompactionFilterFactory0 * Signature: ()J */ jlong Java_org_rocksdb_AbstractCompactionFilterFactory_createNewCompactionFilterFactory0( JNIEnv* env, jobject jobj) { auto* cff = new rocksdb::CompactionFilterFactoryJniCallback(env, jobj); auto* ptr_sptr_cff = new std::shared_ptr(cff); return reinterpret_cast(ptr_sptr_cff); } /* * Class: org_rocksdb_AbstractCompactionFilterFactory * Method: disposeInternal * Signature: (J)V */ void Java_org_rocksdb_AbstractCompactionFilterFactory_disposeInternal( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* ptr_sptr_cff = reinterpret_cast< std::shared_ptr*>(jhandle); delete ptr_sptr_cff; // @lint-ignore TXT4 T25377293 Grandfathered in } rocksdb-5.17.2/java/rocksjni/compaction_filter_factory_jnicallback.cc000066400000000000000000000050311337235545400260660ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file implements the callback "bridge" between Java and C++ for // rocksdb::CompactionFilterFactory. #include "rocksjni/compaction_filter_factory_jnicallback.h" #include "rocksjni/portal.h" namespace rocksdb { CompactionFilterFactoryJniCallback::CompactionFilterFactoryJniCallback( JNIEnv* env, jobject jcompaction_filter_factory) : JniCallback(env, jcompaction_filter_factory) { // Note: The name of a CompactionFilterFactory will not change during // it's lifetime, so we cache it in a global var jmethodID jname_method_id = AbstractCompactionFilterFactoryJni::getNameMethodId(env); if(jname_method_id == nullptr) { // exception thrown: NoSuchMethodException or OutOfMemoryError return; } jstring jname = (jstring)env->CallObjectMethod(m_jcallback_obj, jname_method_id); if(env->ExceptionCheck()) { // exception thrown return; } jboolean has_exception = JNI_FALSE; m_name = JniUtil::copyString(env, jname, &has_exception); // also releases jname if (has_exception == JNI_TRUE) { // exception thrown return; } m_jcreate_compaction_filter_methodid = AbstractCompactionFilterFactoryJni::getCreateCompactionFilterMethodId(env); if(m_jcreate_compaction_filter_methodid == nullptr) { // exception thrown: NoSuchMethodException or OutOfMemoryError return; } } const char* CompactionFilterFactoryJniCallback::Name() const { return m_name.get(); } std::unique_ptr CompactionFilterFactoryJniCallback::CreateCompactionFilter( const CompactionFilter::Context& context) { jboolean attached_thread = JNI_FALSE; JNIEnv* env = getJniEnv(&attached_thread); assert(env != nullptr); jlong addr_compaction_filter = env->CallLongMethod(m_jcallback_obj, m_jcreate_compaction_filter_methodid, static_cast(context.is_full_compaction), static_cast(context.is_manual_compaction)); if(env->ExceptionCheck()) { // exception thrown from CallLongMethod env->ExceptionDescribe(); // print out exception to stderr releaseJniEnv(attached_thread); return nullptr; } auto* cff = reinterpret_cast(addr_compaction_filter); releaseJniEnv(attached_thread); return std::unique_ptr(cff); } } // namespace rocksdb rocksdb-5.17.2/java/rocksjni/compaction_filter_factory_jnicallback.h000066400000000000000000000022471337235545400257360ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file implements the callback "bridge" between Java and C++ for // rocksdb::CompactionFilterFactory. #ifndef JAVA_ROCKSJNI_COMPACTION_FILTER_FACTORY_JNICALLBACK_H_ #define JAVA_ROCKSJNI_COMPACTION_FILTER_FACTORY_JNICALLBACK_H_ #include #include #include "rocksdb/compaction_filter.h" #include "rocksjni/jnicallback.h" namespace rocksdb { class CompactionFilterFactoryJniCallback : public JniCallback, public CompactionFilterFactory { public: CompactionFilterFactoryJniCallback( JNIEnv* env, jobject jcompaction_filter_factory); virtual std::unique_ptr CreateCompactionFilter( const CompactionFilter::Context& context); virtual const char* Name() const; private: std::unique_ptr m_name; jmethodID m_jcreate_compaction_filter_methodid; }; } //namespace rocksdb #endif // JAVA_ROCKSJNI_COMPACTION_FILTER_FACTORY_JNICALLBACK_H_ rocksdb-5.17.2/java/rocksjni/compaction_options_fifo.cc000066400000000000000000000040661337235545400232420ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file implements the "bridge" between Java and C++ for // rocksdb::CompactionOptionsFIFO. #include #include "include/org_rocksdb_CompactionOptionsFIFO.h" #include "rocksdb/advanced_options.h" /* * Class: org_rocksdb_CompactionOptionsFIFO * Method: newCompactionOptionsFIFO * Signature: ()J */ jlong Java_org_rocksdb_CompactionOptionsFIFO_newCompactionOptionsFIFO( JNIEnv* /*env*/, jclass /*jcls*/) { const auto* opt = new rocksdb::CompactionOptionsFIFO(); return reinterpret_cast(opt); } /* * Class: org_rocksdb_CompactionOptionsFIFO * Method: setMaxTableFilesSize * Signature: (JJ)V */ void Java_org_rocksdb_CompactionOptionsFIFO_setMaxTableFilesSize( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jmax_table_files_size) { auto* opt = reinterpret_cast(jhandle); opt->max_table_files_size = static_cast(jmax_table_files_size); } /* * Class: org_rocksdb_CompactionOptionsFIFO * Method: maxTableFilesSize * Signature: (J)J */ jlong Java_org_rocksdb_CompactionOptionsFIFO_maxTableFilesSize(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); return static_cast(opt->max_table_files_size); } /* * Class: org_rocksdb_CompactionOptionsFIFO * Method: disposeInternal * Signature: (J)V */ void Java_org_rocksdb_CompactionOptionsFIFO_disposeInternal(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { delete reinterpret_cast(jhandle); } rocksdb-5.17.2/java/rocksjni/compaction_options_universal.cc000066400000000000000000000161341337235545400243260ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file implements the "bridge" between Java and C++ for // rocksdb::CompactionOptionsUniversal. #include #include "include/org_rocksdb_CompactionOptionsUniversal.h" #include "rocksdb/advanced_options.h" #include "rocksjni/portal.h" /* * Class: org_rocksdb_CompactionOptionsUniversal * Method: newCompactionOptionsUniversal * Signature: ()J */ jlong Java_org_rocksdb_CompactionOptionsUniversal_newCompactionOptionsUniversal( JNIEnv* /*env*/, jclass /*jcls*/) { const auto* opt = new rocksdb::CompactionOptionsUniversal(); return reinterpret_cast(opt); } /* * Class: org_rocksdb_CompactionOptionsUniversal * Method: setSizeRatio * Signature: (JI)V */ void Java_org_rocksdb_CompactionOptionsUniversal_setSizeRatio( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint jsize_ratio) { auto* opt = reinterpret_cast(jhandle); opt->size_ratio = static_cast(jsize_ratio); } /* * Class: org_rocksdb_CompactionOptionsUniversal * Method: sizeRatio * Signature: (J)I */ jint Java_org_rocksdb_CompactionOptionsUniversal_sizeRatio(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); return static_cast(opt->size_ratio); } /* * Class: org_rocksdb_CompactionOptionsUniversal * Method: setMinMergeWidth * Signature: (JI)V */ void Java_org_rocksdb_CompactionOptionsUniversal_setMinMergeWidth( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint jmin_merge_width) { auto* opt = reinterpret_cast(jhandle); opt->min_merge_width = static_cast(jmin_merge_width); } /* * Class: org_rocksdb_CompactionOptionsUniversal * Method: minMergeWidth * Signature: (J)I */ jint Java_org_rocksdb_CompactionOptionsUniversal_minMergeWidth(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); return static_cast(opt->min_merge_width); } /* * Class: org_rocksdb_CompactionOptionsUniversal * Method: setMaxMergeWidth * Signature: (JI)V */ void Java_org_rocksdb_CompactionOptionsUniversal_setMaxMergeWidth( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint jmax_merge_width) { auto* opt = reinterpret_cast(jhandle); opt->max_merge_width = static_cast(jmax_merge_width); } /* * Class: org_rocksdb_CompactionOptionsUniversal * Method: maxMergeWidth * Signature: (J)I */ jint Java_org_rocksdb_CompactionOptionsUniversal_maxMergeWidth(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); return static_cast(opt->max_merge_width); } /* * Class: org_rocksdb_CompactionOptionsUniversal * Method: setMaxSizeAmplificationPercent * Signature: (JI)V */ void Java_org_rocksdb_CompactionOptionsUniversal_setMaxSizeAmplificationPercent( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint jmax_size_amplification_percent) { auto* opt = reinterpret_cast(jhandle); opt->max_size_amplification_percent = static_cast(jmax_size_amplification_percent); } /* * Class: org_rocksdb_CompactionOptionsUniversal * Method: maxSizeAmplificationPercent * Signature: (J)I */ jint Java_org_rocksdb_CompactionOptionsUniversal_maxSizeAmplificationPercent( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); return static_cast(opt->max_size_amplification_percent); } /* * Class: org_rocksdb_CompactionOptionsUniversal * Method: setCompressionSizePercent * Signature: (JI)V */ void Java_org_rocksdb_CompactionOptionsUniversal_setCompressionSizePercent( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint jcompression_size_percent) { auto* opt = reinterpret_cast(jhandle); opt->compression_size_percent = static_cast(jcompression_size_percent); } /* * Class: org_rocksdb_CompactionOptionsUniversal * Method: compressionSizePercent * Signature: (J)I */ jint Java_org_rocksdb_CompactionOptionsUniversal_compressionSizePercent( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); return static_cast(opt->compression_size_percent); } /* * Class: org_rocksdb_CompactionOptionsUniversal * Method: setStopStyle * Signature: (JB)V */ void Java_org_rocksdb_CompactionOptionsUniversal_setStopStyle( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jbyte jstop_style_value) { auto* opt = reinterpret_cast(jhandle); opt->stop_style = rocksdb::CompactionStopStyleJni::toCppCompactionStopStyle( jstop_style_value); } /* * Class: org_rocksdb_CompactionOptionsUniversal * Method: stopStyle * Signature: (J)B */ jbyte Java_org_rocksdb_CompactionOptionsUniversal_stopStyle(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); return rocksdb::CompactionStopStyleJni::toJavaCompactionStopStyle( opt->stop_style); } /* * Class: org_rocksdb_CompactionOptionsUniversal * Method: setAllowTrivialMove * Signature: (JZ)V */ void Java_org_rocksdb_CompactionOptionsUniversal_setAllowTrivialMove( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean jallow_trivial_move) { auto* opt = reinterpret_cast(jhandle); opt->allow_trivial_move = static_cast(jallow_trivial_move); } /* * Class: org_rocksdb_CompactionOptionsUniversal * Method: allowTrivialMove * Signature: (J)Z */ jboolean Java_org_rocksdb_CompactionOptionsUniversal_allowTrivialMove( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); return opt->allow_trivial_move; } /* * Class: org_rocksdb_CompactionOptionsUniversal * Method: disposeInternal * Signature: (J)V */ void Java_org_rocksdb_CompactionOptionsUniversal_disposeInternal( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { delete reinterpret_cast(jhandle); } rocksdb-5.17.2/java/rocksjni/comparator.cc000066400000000000000000000040501337235545400204700ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file implements the "bridge" between Java and C++ for // rocksdb::Comparator. #include #include #include #include #include #include "include/org_rocksdb_Comparator.h" #include "include/org_rocksdb_DirectComparator.h" #include "include/org_rocksdb_NativeComparatorWrapper.h" #include "rocksjni/comparatorjnicallback.h" #include "rocksjni/portal.h" // /* * Class: org_rocksdb_DirectComparator * Method: createNewDirectComparator0 * Signature: ()J */ jlong Java_org_rocksdb_DirectComparator_createNewDirectComparator0( JNIEnv* env, jobject jobj, jlong copt_handle) { auto* copt = reinterpret_cast(copt_handle); auto* c = new rocksdb::DirectComparatorJniCallback(env, jobj, copt); return reinterpret_cast(c); } /* * Class: org_rocksdb_NativeComparatorWrapper * Method: disposeInternal * Signature: (J)V */ void Java_org_rocksdb_NativeComparatorWrapper_disposeInternal( JNIEnv* /*env*/, jobject /*jobj*/, jlong jcomparator_handle) { auto* comparator = reinterpret_cast(jcomparator_handle); delete comparator; } // rocksdb-5.17.2/java/rocksjni/comparatorjnicallback.cc000066400000000000000000000232671337235545400226610ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file implements the callback "bridge" between Java and C++ for // rocksdb::Comparator. #include "rocksjni/comparatorjnicallback.h" #include "rocksjni/portal.h" namespace rocksdb { BaseComparatorJniCallback::BaseComparatorJniCallback( JNIEnv* env, jobject jComparator, const ComparatorJniCallbackOptions* copt) : JniCallback(env, jComparator), mtx_compare(new port::Mutex(copt->use_adaptive_mutex)), mtx_findShortestSeparator(new port::Mutex(copt->use_adaptive_mutex)) { // Note: The name of a Comparator will not change during it's lifetime, // so we cache it in a global var jmethodID jNameMethodId = AbstractComparatorJni::getNameMethodId(env); if(jNameMethodId == nullptr) { // exception thrown: NoSuchMethodException or OutOfMemoryError return; } jstring jsName = (jstring)env->CallObjectMethod(m_jcallback_obj, jNameMethodId); if(env->ExceptionCheck()) { // exception thrown return; } jboolean has_exception = JNI_FALSE; m_name = JniUtil::copyString(env, jsName, &has_exception); // also releases jsName if (has_exception == JNI_TRUE) { // exception thrown return; } m_jCompareMethodId = AbstractComparatorJni::getCompareMethodId(env); if(m_jCompareMethodId == nullptr) { // exception thrown: NoSuchMethodException or OutOfMemoryError return; } m_jFindShortestSeparatorMethodId = AbstractComparatorJni::getFindShortestSeparatorMethodId(env); if(m_jFindShortestSeparatorMethodId == nullptr) { // exception thrown: NoSuchMethodException or OutOfMemoryError return; } m_jFindShortSuccessorMethodId = AbstractComparatorJni::getFindShortSuccessorMethodId(env); if(m_jFindShortSuccessorMethodId == nullptr) { // exception thrown: NoSuchMethodException or OutOfMemoryError return; } } const char* BaseComparatorJniCallback::Name() const { return m_name.get(); } int BaseComparatorJniCallback::Compare(const Slice& a, const Slice& b) const { jboolean attached_thread = JNI_FALSE; JNIEnv* env = getJniEnv(&attached_thread); assert(env != nullptr); // TODO(adamretter): slice objects can potentially be cached using thread // local variables to avoid locking. Could make this configurable depending on // performance. mtx_compare.get()->Lock(); bool pending_exception = AbstractSliceJni::setHandle(env, m_jSliceA, &a, JNI_FALSE); if(pending_exception) { if(env->ExceptionCheck()) { // exception thrown from setHandle or descendant env->ExceptionDescribe(); // print out exception to stderr } releaseJniEnv(attached_thread); return 0; } pending_exception = AbstractSliceJni::setHandle(env, m_jSliceB, &b, JNI_FALSE); if(pending_exception) { if(env->ExceptionCheck()) { // exception thrown from setHandle or descendant env->ExceptionDescribe(); // print out exception to stderr } releaseJniEnv(attached_thread); return 0; } jint result = env->CallIntMethod(m_jcallback_obj, m_jCompareMethodId, m_jSliceA, m_jSliceB); mtx_compare.get()->Unlock(); if(env->ExceptionCheck()) { // exception thrown from CallIntMethod env->ExceptionDescribe(); // print out exception to stderr result = 0; // we could not get a result from java callback so use 0 } releaseJniEnv(attached_thread); return result; } void BaseComparatorJniCallback::FindShortestSeparator( std::string* start, const Slice& limit) const { if (start == nullptr) { return; } jboolean attached_thread = JNI_FALSE; JNIEnv* env = getJniEnv(&attached_thread); assert(env != nullptr); const char* startUtf = start->c_str(); jstring jsStart = env->NewStringUTF(startUtf); if(jsStart == nullptr) { // unable to construct string if(env->ExceptionCheck()) { env->ExceptionDescribe(); // print out exception to stderr } releaseJniEnv(attached_thread); return; } if(env->ExceptionCheck()) { // exception thrown: OutOfMemoryError env->ExceptionDescribe(); // print out exception to stderr env->DeleteLocalRef(jsStart); releaseJniEnv(attached_thread); return; } // TODO(adamretter): slice object can potentially be cached using thread local // variable to avoid locking. Could make this configurable depending on // performance. mtx_findShortestSeparator.get()->Lock(); bool pending_exception = AbstractSliceJni::setHandle(env, m_jSliceLimit, &limit, JNI_FALSE); if(pending_exception) { if(env->ExceptionCheck()) { // exception thrown from setHandle or descendant env->ExceptionDescribe(); // print out exception to stderr } if(jsStart != nullptr) { env->DeleteLocalRef(jsStart); } releaseJniEnv(attached_thread); return; } jstring jsResultStart = (jstring)env->CallObjectMethod(m_jcallback_obj, m_jFindShortestSeparatorMethodId, jsStart, m_jSliceLimit); mtx_findShortestSeparator.get()->Unlock(); if(env->ExceptionCheck()) { // exception thrown from CallObjectMethod env->ExceptionDescribe(); // print out exception to stderr env->DeleteLocalRef(jsStart); releaseJniEnv(attached_thread); return; } env->DeleteLocalRef(jsStart); if (jsResultStart != nullptr) { // update start with result jboolean has_exception = JNI_FALSE; std::unique_ptr result_start = JniUtil::copyString(env, jsResultStart, &has_exception); // also releases jsResultStart if (has_exception == JNI_TRUE) { if (env->ExceptionCheck()) { env->ExceptionDescribe(); // print out exception to stderr } releaseJniEnv(attached_thread); return; } start->assign(result_start.get()); } releaseJniEnv(attached_thread); } void BaseComparatorJniCallback::FindShortSuccessor( std::string* key) const { if (key == nullptr) { return; } jboolean attached_thread = JNI_FALSE; JNIEnv* env = getJniEnv(&attached_thread); assert(env != nullptr); const char* keyUtf = key->c_str(); jstring jsKey = env->NewStringUTF(keyUtf); if(jsKey == nullptr) { // unable to construct string if(env->ExceptionCheck()) { env->ExceptionDescribe(); // print out exception to stderr } releaseJniEnv(attached_thread); return; } else if(env->ExceptionCheck()) { // exception thrown: OutOfMemoryError env->ExceptionDescribe(); // print out exception to stderr env->DeleteLocalRef(jsKey); releaseJniEnv(attached_thread); return; } jstring jsResultKey = (jstring)env->CallObjectMethod(m_jcallback_obj, m_jFindShortSuccessorMethodId, jsKey); if(env->ExceptionCheck()) { // exception thrown from CallObjectMethod env->ExceptionDescribe(); // print out exception to stderr env->DeleteLocalRef(jsKey); releaseJniEnv(attached_thread); return; } env->DeleteLocalRef(jsKey); if (jsResultKey != nullptr) { // updates key with result, also releases jsResultKey. jboolean has_exception = JNI_FALSE; std::unique_ptr result_key = JniUtil::copyString(env, jsResultKey, &has_exception); // also releases jsResultKey if (has_exception == JNI_TRUE) { if (env->ExceptionCheck()) { env->ExceptionDescribe(); // print out exception to stderr } releaseJniEnv(attached_thread); return; } key->assign(result_key.get()); } releaseJniEnv(attached_thread); } ComparatorJniCallback::ComparatorJniCallback( JNIEnv* env, jobject jComparator, const ComparatorJniCallbackOptions* copt) : BaseComparatorJniCallback(env, jComparator, copt) { m_jSliceA = env->NewGlobalRef(SliceJni::construct0(env)); if(m_jSliceA == nullptr) { // exception thrown: OutOfMemoryError return; } m_jSliceB = env->NewGlobalRef(SliceJni::construct0(env)); if(m_jSliceB == nullptr) { // exception thrown: OutOfMemoryError return; } m_jSliceLimit = env->NewGlobalRef(SliceJni::construct0(env)); if(m_jSliceLimit == nullptr) { // exception thrown: OutOfMemoryError return; } } ComparatorJniCallback::~ComparatorJniCallback() { jboolean attached_thread = JNI_FALSE; JNIEnv* env = getJniEnv(&attached_thread); assert(env != nullptr); if(m_jSliceA != nullptr) { env->DeleteGlobalRef(m_jSliceA); } if(m_jSliceB != nullptr) { env->DeleteGlobalRef(m_jSliceB); } if(m_jSliceLimit != nullptr) { env->DeleteGlobalRef(m_jSliceLimit); } releaseJniEnv(attached_thread); } DirectComparatorJniCallback::DirectComparatorJniCallback( JNIEnv* env, jobject jComparator, const ComparatorJniCallbackOptions* copt) : BaseComparatorJniCallback(env, jComparator, copt) { m_jSliceA = env->NewGlobalRef(DirectSliceJni::construct0(env)); if(m_jSliceA == nullptr) { // exception thrown: OutOfMemoryError return; } m_jSliceB = env->NewGlobalRef(DirectSliceJni::construct0(env)); if(m_jSliceB == nullptr) { // exception thrown: OutOfMemoryError return; } m_jSliceLimit = env->NewGlobalRef(DirectSliceJni::construct0(env)); if(m_jSliceLimit == nullptr) { // exception thrown: OutOfMemoryError return; } } DirectComparatorJniCallback::~DirectComparatorJniCallback() { jboolean attached_thread = JNI_FALSE; JNIEnv* env = getJniEnv(&attached_thread); assert(env != nullptr); if(m_jSliceA != nullptr) { env->DeleteGlobalRef(m_jSliceA); } if(m_jSliceB != nullptr) { env->DeleteGlobalRef(m_jSliceB); } if(m_jSliceLimit != nullptr) { env->DeleteGlobalRef(m_jSliceLimit); } releaseJniEnv(attached_thread); } } // namespace rocksdb rocksdb-5.17.2/java/rocksjni/comparatorjnicallback.h000066400000000000000000000063171337235545400225200ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file implements the callback "bridge" between Java and C++ for // rocksdb::Comparator and rocksdb::DirectComparator. #ifndef JAVA_ROCKSJNI_COMPARATORJNICALLBACK_H_ #define JAVA_ROCKSJNI_COMPARATORJNICALLBACK_H_ #include #include #include #include "rocksjni/jnicallback.h" #include "rocksdb/comparator.h" #include "rocksdb/slice.h" #include "port/port.h" namespace rocksdb { struct ComparatorJniCallbackOptions { // Use adaptive mutex, which spins in the user space before resorting // to kernel. This could reduce context switch when the mutex is not // heavily contended. However, if the mutex is hot, we could end up // wasting spin time. // Default: false bool use_adaptive_mutex; ComparatorJniCallbackOptions() : use_adaptive_mutex(false) { } }; /** * This class acts as a bridge between C++ * and Java. The methods in this class will be * called back from the RocksDB storage engine (C++) * we then callback to the appropriate Java method * this enables Comparators to be implemented in Java. * * The design of this Comparator caches the Java Slice * objects that are used in the compare and findShortestSeparator * method callbacks. Instead of creating new objects for each callback * of those functions, by reuse via setHandle we are a lot * faster; Unfortunately this means that we have to * introduce independent locking in regions of each of those methods * via the mutexs mtx_compare and mtx_findShortestSeparator respectively */ class BaseComparatorJniCallback : public JniCallback, public Comparator { public: BaseComparatorJniCallback( JNIEnv* env, jobject jComparator, const ComparatorJniCallbackOptions* copt); virtual const char* Name() const; virtual int Compare(const Slice& a, const Slice& b) const; virtual void FindShortestSeparator( std::string* start, const Slice& limit) const; virtual void FindShortSuccessor(std::string* key) const; private: // used for synchronisation in compare method std::unique_ptr mtx_compare; // used for synchronisation in findShortestSeparator method std::unique_ptr mtx_findShortestSeparator; std::unique_ptr m_name; jmethodID m_jCompareMethodId; jmethodID m_jFindShortestSeparatorMethodId; jmethodID m_jFindShortSuccessorMethodId; protected: jobject m_jSliceA; jobject m_jSliceB; jobject m_jSliceLimit; }; class ComparatorJniCallback : public BaseComparatorJniCallback { public: ComparatorJniCallback( JNIEnv* env, jobject jComparator, const ComparatorJniCallbackOptions* copt); ~ComparatorJniCallback(); }; class DirectComparatorJniCallback : public BaseComparatorJniCallback { public: DirectComparatorJniCallback( JNIEnv* env, jobject jComparator, const ComparatorJniCallbackOptions* copt); ~DirectComparatorJniCallback(); }; } // namespace rocksdb #endif // JAVA_ROCKSJNI_COMPARATORJNICALLBACK_H_ rocksdb-5.17.2/java/rocksjni/compression_options.cc000066400000000000000000000131271337235545400224420ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file implements the "bridge" between Java and C++ for // rocksdb::CompressionOptions. #include #include "include/org_rocksdb_CompressionOptions.h" #include "rocksdb/advanced_options.h" /* * Class: org_rocksdb_CompressionOptions * Method: newCompressionOptions * Signature: ()J */ jlong Java_org_rocksdb_CompressionOptions_newCompressionOptions( JNIEnv* /*env*/, jclass /*jcls*/) { const auto* opt = new rocksdb::CompressionOptions(); return reinterpret_cast(opt); } /* * Class: org_rocksdb_CompressionOptions * Method: setWindowBits * Signature: (JI)V */ void Java_org_rocksdb_CompressionOptions_setWindowBits(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint jwindow_bits) { auto* opt = reinterpret_cast(jhandle); opt->window_bits = static_cast(jwindow_bits); } /* * Class: org_rocksdb_CompressionOptions * Method: windowBits * Signature: (J)I */ jint Java_org_rocksdb_CompressionOptions_windowBits(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); return static_cast(opt->window_bits); } /* * Class: org_rocksdb_CompressionOptions * Method: setLevel * Signature: (JI)V */ void Java_org_rocksdb_CompressionOptions_setLevel(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint jlevel) { auto* opt = reinterpret_cast(jhandle); opt->level = static_cast(jlevel); } /* * Class: org_rocksdb_CompressionOptions * Method: level * Signature: (J)I */ jint Java_org_rocksdb_CompressionOptions_level(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); return static_cast(opt->level); } /* * Class: org_rocksdb_CompressionOptions * Method: setStrategy * Signature: (JI)V */ void Java_org_rocksdb_CompressionOptions_setStrategy(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint jstrategy) { auto* opt = reinterpret_cast(jhandle); opt->strategy = static_cast(jstrategy); } /* * Class: org_rocksdb_CompressionOptions * Method: strategy * Signature: (J)I */ jint Java_org_rocksdb_CompressionOptions_strategy(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); return static_cast(opt->strategy); } /* * Class: org_rocksdb_CompressionOptions * Method: setMaxDictBytes * Signature: (JI)V */ void Java_org_rocksdb_CompressionOptions_setMaxDictBytes(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint jmax_dict_bytes) { auto* opt = reinterpret_cast(jhandle); opt->max_dict_bytes = static_cast(jmax_dict_bytes); } /* * Class: org_rocksdb_CompressionOptions * Method: maxDictBytes * Signature: (J)I */ jint Java_org_rocksdb_CompressionOptions_maxDictBytes(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); return static_cast(opt->max_dict_bytes); } /* * Class: org_rocksdb_CompressionOptions * Method: setEnabled * Signature: (JI)V */ void Java_org_rocksdb_CompressionOptions_setEnabled(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean jenabled) { auto* opt = reinterpret_cast(jhandle); opt->enabled = static_cast(jenabled); } /* * Class: org_rocksdb_CompressionOptions * Method: Enabled * Signature: (J)I */ jint Java_org_rocksdb_CompressionOptions_enabled(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); return static_cast(opt->enabled); } /* * Class: org_rocksdb_CompressionOptions * Method: disposeInternal * Signature: (J)V */ void Java_org_rocksdb_CompressionOptions_disposeInternal(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { delete reinterpret_cast(jhandle); } rocksdb-5.17.2/java/rocksjni/env.cc000066400000000000000000000054061337235545400171170ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file implements the "bridge" between Java and C++ and enables // calling c++ rocksdb::Env methods from Java side. #include "rocksdb/env.h" #include "include/org_rocksdb_Env.h" #include "include/org_rocksdb_RocksEnv.h" #include "include/org_rocksdb_RocksMemEnv.h" /* * Class: org_rocksdb_Env * Method: getDefaultEnvInternal * Signature: ()J */ jlong Java_org_rocksdb_Env_getDefaultEnvInternal(JNIEnv* /*env*/, jclass /*jclazz*/) { return reinterpret_cast(rocksdb::Env::Default()); } /* * Class: org_rocksdb_Env * Method: setBackgroundThreads * Signature: (JII)V */ void Java_org_rocksdb_Env_setBackgroundThreads(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint num, jint priority) { auto* rocks_env = reinterpret_cast(jhandle); switch (priority) { case org_rocksdb_Env_FLUSH_POOL: rocks_env->SetBackgroundThreads(num, rocksdb::Env::Priority::LOW); break; case org_rocksdb_Env_COMPACTION_POOL: rocks_env->SetBackgroundThreads(num, rocksdb::Env::Priority::HIGH); break; } } /* * Class: org_rocksdb_sEnv * Method: getThreadPoolQueueLen * Signature: (JI)I */ jint Java_org_rocksdb_Env_getThreadPoolQueueLen(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint pool_id) { auto* rocks_env = reinterpret_cast(jhandle); switch (pool_id) { case org_rocksdb_RocksEnv_FLUSH_POOL: return rocks_env->GetThreadPoolQueueLen(rocksdb::Env::Priority::LOW); case org_rocksdb_RocksEnv_COMPACTION_POOL: return rocks_env->GetThreadPoolQueueLen(rocksdb::Env::Priority::HIGH); } return 0; } /* * Class: org_rocksdb_RocksMemEnv * Method: createMemEnv * Signature: ()J */ jlong Java_org_rocksdb_RocksMemEnv_createMemEnv(JNIEnv* /*env*/, jclass /*jclazz*/) { return reinterpret_cast(rocksdb::NewMemEnv(rocksdb::Env::Default())); } /* * Class: org_rocksdb_RocksMemEnv * Method: disposeInternal * Signature: (J)V */ void Java_org_rocksdb_RocksMemEnv_disposeInternal(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* e = reinterpret_cast(jhandle); assert(e != nullptr); delete e; } rocksdb-5.17.2/java/rocksjni/env_options.cc000066400000000000000000000244331337235545400206730ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file implements the "bridge" between Java and C++ and enables // calling C++ rocksdb::EnvOptions methods // from Java side. #include #include "include/org_rocksdb_EnvOptions.h" #include "rocksdb/env.h" #define ENV_OPTIONS_SET_BOOL(_jhandle, _opt) \ reinterpret_cast(_jhandle)->_opt = \ static_cast(_opt) #define ENV_OPTIONS_SET_SIZE_T(_jhandle, _opt) \ reinterpret_cast(_jhandle)->_opt = \ static_cast(_opt) #define ENV_OPTIONS_SET_UINT64_T(_jhandle, _opt) \ reinterpret_cast(_jhandle)->_opt = \ static_cast(_opt) #define ENV_OPTIONS_GET(_jhandle, _opt) \ reinterpret_cast(_jhandle)->_opt /* * Class: org_rocksdb_EnvOptions * Method: newEnvOptions * Signature: ()J */ jlong Java_org_rocksdb_EnvOptions_newEnvOptions(JNIEnv * /*env*/, jclass /*jcls*/) { auto *env_opt = new rocksdb::EnvOptions(); return reinterpret_cast(env_opt); } /* * Class: org_rocksdb_EnvOptions * Method: disposeInternal * Signature: (J)V */ void Java_org_rocksdb_EnvOptions_disposeInternal(JNIEnv * /*env*/, jobject /*jobj*/, jlong jhandle) { auto *eo = reinterpret_cast(jhandle); assert(eo != nullptr); delete eo; } /* * Class: org_rocksdb_EnvOptions * Method: setUseDirectReads * Signature: (JZ)V */ void Java_org_rocksdb_EnvOptions_setUseDirectReads(JNIEnv * /*env*/, jobject /*jobj*/, jlong jhandle, jboolean use_direct_reads) { ENV_OPTIONS_SET_BOOL(jhandle, use_direct_reads); } /* * Class: org_rocksdb_EnvOptions * Method: useDirectReads * Signature: (J)Z */ jboolean Java_org_rocksdb_EnvOptions_useDirectReads(JNIEnv * /*env*/, jobject /*jobj*/, jlong jhandle) { return ENV_OPTIONS_GET(jhandle, use_direct_reads); } /* * Class: org_rocksdb_EnvOptions * Method: setUseDirectWrites * Signature: (JZ)V */ void Java_org_rocksdb_EnvOptions_setUseDirectWrites( JNIEnv * /*env*/, jobject /*jobj*/, jlong jhandle, jboolean use_direct_writes) { ENV_OPTIONS_SET_BOOL(jhandle, use_direct_writes); } /* * Class: org_rocksdb_EnvOptions * Method: useDirectWrites * Signature: (J)Z */ jboolean Java_org_rocksdb_EnvOptions_useDirectWrites(JNIEnv * /*env*/, jobject /*jobj*/, jlong jhandle) { return ENV_OPTIONS_GET(jhandle, use_direct_writes); } /* * Class: org_rocksdb_EnvOptions * Method: setUseMmapReads * Signature: (JZ)V */ void Java_org_rocksdb_EnvOptions_setUseMmapReads(JNIEnv * /*env*/, jobject /*jobj*/, jlong jhandle, jboolean use_mmap_reads) { ENV_OPTIONS_SET_BOOL(jhandle, use_mmap_reads); } /* * Class: org_rocksdb_EnvOptions * Method: useMmapReads * Signature: (J)Z */ jboolean Java_org_rocksdb_EnvOptions_useMmapReads(JNIEnv * /*env*/, jobject /*jobj*/, jlong jhandle) { return ENV_OPTIONS_GET(jhandle, use_mmap_reads); } /* * Class: org_rocksdb_EnvOptions * Method: setUseMmapWrites * Signature: (JZ)V */ void Java_org_rocksdb_EnvOptions_setUseMmapWrites(JNIEnv * /*env*/, jobject /*jobj*/, jlong jhandle, jboolean use_mmap_writes) { ENV_OPTIONS_SET_BOOL(jhandle, use_mmap_writes); } /* * Class: org_rocksdb_EnvOptions * Method: useMmapWrites * Signature: (J)Z */ jboolean Java_org_rocksdb_EnvOptions_useMmapWrites(JNIEnv * /*env*/, jobject /*jobj*/, jlong jhandle) { return ENV_OPTIONS_GET(jhandle, use_mmap_writes); } /* * Class: org_rocksdb_EnvOptions * Method: setAllowFallocate * Signature: (JZ)V */ void Java_org_rocksdb_EnvOptions_setAllowFallocate(JNIEnv * /*env*/, jobject /*jobj*/, jlong jhandle, jboolean allow_fallocate) { ENV_OPTIONS_SET_BOOL(jhandle, allow_fallocate); } /* * Class: org_rocksdb_EnvOptions * Method: allowFallocate * Signature: (J)Z */ jboolean Java_org_rocksdb_EnvOptions_allowFallocate(JNIEnv * /*env*/, jobject /*jobj*/, jlong jhandle) { return ENV_OPTIONS_GET(jhandle, allow_fallocate); } /* * Class: org_rocksdb_EnvOptions * Method: setSetFdCloexec * Signature: (JZ)V */ void Java_org_rocksdb_EnvOptions_setSetFdCloexec(JNIEnv * /*env*/, jobject /*jobj*/, jlong jhandle, jboolean set_fd_cloexec) { ENV_OPTIONS_SET_BOOL(jhandle, set_fd_cloexec); } /* * Class: org_rocksdb_EnvOptions * Method: setFdCloexec * Signature: (J)Z */ jboolean Java_org_rocksdb_EnvOptions_setFdCloexec(JNIEnv * /*env*/, jobject /*jobj*/, jlong jhandle) { return ENV_OPTIONS_GET(jhandle, set_fd_cloexec); } /* * Class: org_rocksdb_EnvOptions * Method: setBytesPerSync * Signature: (JJ)V */ void Java_org_rocksdb_EnvOptions_setBytesPerSync(JNIEnv * /*env*/, jobject /*jobj*/, jlong jhandle, jlong bytes_per_sync) { ENV_OPTIONS_SET_UINT64_T(jhandle, bytes_per_sync); } /* * Class: org_rocksdb_EnvOptions * Method: bytesPerSync * Signature: (J)J */ jlong Java_org_rocksdb_EnvOptions_bytesPerSync(JNIEnv * /*env*/, jobject /*jobj*/, jlong jhandle) { return ENV_OPTIONS_GET(jhandle, bytes_per_sync); } /* * Class: org_rocksdb_EnvOptions * Method: setFallocateWithKeepSize * Signature: (JZ)V */ void Java_org_rocksdb_EnvOptions_setFallocateWithKeepSize( JNIEnv * /*env*/, jobject /*jobj*/, jlong jhandle, jboolean fallocate_with_keep_size) { ENV_OPTIONS_SET_BOOL(jhandle, fallocate_with_keep_size); } /* * Class: org_rocksdb_EnvOptions * Method: fallocateWithKeepSize * Signature: (J)Z */ jboolean Java_org_rocksdb_EnvOptions_fallocateWithKeepSize(JNIEnv * /*env*/, jobject /*jobj*/, jlong jhandle) { return ENV_OPTIONS_GET(jhandle, fallocate_with_keep_size); } /* * Class: org_rocksdb_EnvOptions * Method: setCompactionReadaheadSize * Signature: (JJ)V */ void Java_org_rocksdb_EnvOptions_setCompactionReadaheadSize( JNIEnv * /*env*/, jobject /*jobj*/, jlong jhandle, jlong compaction_readahead_size) { ENV_OPTIONS_SET_SIZE_T(jhandle, compaction_readahead_size); } /* * Class: org_rocksdb_EnvOptions * Method: compactionReadaheadSize * Signature: (J)J */ jlong Java_org_rocksdb_EnvOptions_compactionReadaheadSize(JNIEnv * /*env*/, jobject /*jobj*/, jlong jhandle) { return ENV_OPTIONS_GET(jhandle, compaction_readahead_size); } /* * Class: org_rocksdb_EnvOptions * Method: setRandomAccessMaxBufferSize * Signature: (JJ)V */ void Java_org_rocksdb_EnvOptions_setRandomAccessMaxBufferSize( JNIEnv * /*env*/, jobject /*jobj*/, jlong jhandle, jlong random_access_max_buffer_size) { ENV_OPTIONS_SET_SIZE_T(jhandle, random_access_max_buffer_size); } /* * Class: org_rocksdb_EnvOptions * Method: randomAccessMaxBufferSize * Signature: (J)J */ jlong Java_org_rocksdb_EnvOptions_randomAccessMaxBufferSize(JNIEnv * /*env*/, jobject /*jobj*/, jlong jhandle) { return ENV_OPTIONS_GET(jhandle, random_access_max_buffer_size); } /* * Class: org_rocksdb_EnvOptions * Method: setWritableFileMaxBufferSize * Signature: (JJ)V */ void Java_org_rocksdb_EnvOptions_setWritableFileMaxBufferSize( JNIEnv * /*env*/, jobject /*jobj*/, jlong jhandle, jlong writable_file_max_buffer_size) { ENV_OPTIONS_SET_SIZE_T(jhandle, writable_file_max_buffer_size); } /* * Class: org_rocksdb_EnvOptions * Method: writableFileMaxBufferSize * Signature: (J)J */ jlong Java_org_rocksdb_EnvOptions_writableFileMaxBufferSize(JNIEnv * /*env*/, jobject /*jobj*/, jlong jhandle) { return ENV_OPTIONS_GET(jhandle, writable_file_max_buffer_size); } /* * Class: org_rocksdb_EnvOptions * Method: setRateLimiter * Signature: (JJ)V */ void Java_org_rocksdb_EnvOptions_setRateLimiter(JNIEnv * /*env*/, jobject /*jobj*/, jlong jhandle, jlong rl_handle) { auto *sptr_rate_limiter = reinterpret_cast *>(rl_handle); auto *env_opt = reinterpret_cast(jhandle); env_opt->rate_limiter = sptr_rate_limiter->get(); } rocksdb-5.17.2/java/rocksjni/filter.cc000066400000000000000000000025701337235545400176130ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file implements the "bridge" between Java and C++ for // rocksdb::FilterPolicy. #include #include #include #include #include "include/org_rocksdb_BloomFilter.h" #include "include/org_rocksdb_Filter.h" #include "rocksdb/filter_policy.h" #include "rocksjni/portal.h" /* * Class: org_rocksdb_BloomFilter * Method: createBloomFilter * Signature: (IZ)J */ jlong Java_org_rocksdb_BloomFilter_createNewBloomFilter( JNIEnv* /*env*/, jclass /*jcls*/, jint bits_per_key, jboolean use_block_base_builder) { auto* sptr_filter = new std::shared_ptr( rocksdb::NewBloomFilterPolicy(bits_per_key, use_block_base_builder)); return reinterpret_cast(sptr_filter); } /* * Class: org_rocksdb_Filter * Method: disposeInternal * Signature: (J)V */ void Java_org_rocksdb_Filter_disposeInternal(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* handle = reinterpret_cast*>(jhandle); delete handle; // delete std::shared_ptr } rocksdb-5.17.2/java/rocksjni/ingest_external_file_options.cc000066400000000000000000000123251337235545400242720ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file implements the "bridge" between Java and C++ for // rocksdb::FilterPolicy. #include #include "include/org_rocksdb_IngestExternalFileOptions.h" #include "rocksdb/options.h" /* * Class: org_rocksdb_IngestExternalFileOptions * Method: newIngestExternalFileOptions * Signature: ()J */ jlong Java_org_rocksdb_IngestExternalFileOptions_newIngestExternalFileOptions__( JNIEnv* /*env*/, jclass /*jclazz*/) { auto* options = new rocksdb::IngestExternalFileOptions(); return reinterpret_cast(options); } /* * Class: org_rocksdb_IngestExternalFileOptions * Method: newIngestExternalFileOptions * Signature: (ZZZZ)J */ jlong Java_org_rocksdb_IngestExternalFileOptions_newIngestExternalFileOptions__ZZZZ( JNIEnv* /*env*/, jclass /*jcls*/, jboolean jmove_files, jboolean jsnapshot_consistency, jboolean jallow_global_seqno, jboolean jallow_blocking_flush) { auto* options = new rocksdb::IngestExternalFileOptions(); options->move_files = static_cast(jmove_files); options->snapshot_consistency = static_cast(jsnapshot_consistency); options->allow_global_seqno = static_cast(jallow_global_seqno); options->allow_blocking_flush = static_cast(jallow_blocking_flush); return reinterpret_cast(options); } /* * Class: org_rocksdb_IngestExternalFileOptions * Method: moveFiles * Signature: (J)Z */ jboolean Java_org_rocksdb_IngestExternalFileOptions_moveFiles(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* options = reinterpret_cast(jhandle); return static_cast(options->move_files); } /* * Class: org_rocksdb_IngestExternalFileOptions * Method: setMoveFiles * Signature: (JZ)V */ void Java_org_rocksdb_IngestExternalFileOptions_setMoveFiles( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean jmove_files) { auto* options = reinterpret_cast(jhandle); options->move_files = static_cast(jmove_files); } /* * Class: org_rocksdb_IngestExternalFileOptions * Method: snapshotConsistency * Signature: (J)Z */ jboolean Java_org_rocksdb_IngestExternalFileOptions_snapshotConsistency( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* options = reinterpret_cast(jhandle); return static_cast(options->snapshot_consistency); } /* * Class: org_rocksdb_IngestExternalFileOptions * Method: setSnapshotConsistency * Signature: (JZ)V */ void Java_org_rocksdb_IngestExternalFileOptions_setSnapshotConsistency( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean jsnapshot_consistency) { auto* options = reinterpret_cast(jhandle); options->snapshot_consistency = static_cast(jsnapshot_consistency); } /* * Class: org_rocksdb_IngestExternalFileOptions * Method: allowGlobalSeqNo * Signature: (J)Z */ jboolean Java_org_rocksdb_IngestExternalFileOptions_allowGlobalSeqNo( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* options = reinterpret_cast(jhandle); return static_cast(options->allow_global_seqno); } /* * Class: org_rocksdb_IngestExternalFileOptions * Method: setAllowGlobalSeqNo * Signature: (JZ)V */ void Java_org_rocksdb_IngestExternalFileOptions_setAllowGlobalSeqNo( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean jallow_global_seqno) { auto* options = reinterpret_cast(jhandle); options->allow_global_seqno = static_cast(jallow_global_seqno); } /* * Class: org_rocksdb_IngestExternalFileOptions * Method: allowBlockingFlush * Signature: (J)Z */ jboolean Java_org_rocksdb_IngestExternalFileOptions_allowBlockingFlush( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* options = reinterpret_cast(jhandle); return static_cast(options->allow_blocking_flush); } /* * Class: org_rocksdb_IngestExternalFileOptions * Method: setAllowBlockingFlush * Signature: (JZ)V */ void Java_org_rocksdb_IngestExternalFileOptions_setAllowBlockingFlush( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean jallow_blocking_flush) { auto* options = reinterpret_cast(jhandle); options->allow_blocking_flush = static_cast(jallow_blocking_flush); } /* * Class: org_rocksdb_IngestExternalFileOptions * Method: disposeInternal * Signature: (J)V */ void Java_org_rocksdb_IngestExternalFileOptions_disposeInternal( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* options = reinterpret_cast(jhandle); delete options; // @lint-ignore TXT4 T25377293 Grandfathered in }rocksdb-5.17.2/java/rocksjni/iterator.cc000066400000000000000000000132561337235545400201620ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file implements the "bridge" between Java and C++ and enables // calling c++ rocksdb::Iterator methods from Java side. #include #include #include #include "include/org_rocksdb_RocksIterator.h" #include "rocksdb/iterator.h" #include "rocksjni/portal.h" /* * Class: org_rocksdb_RocksIterator * Method: disposeInternal * Signature: (J)V */ void Java_org_rocksdb_RocksIterator_disposeInternal(JNIEnv* /*env*/, jobject /*jobj*/, jlong handle) { auto* it = reinterpret_cast(handle); assert(it != nullptr); delete it; } /* * Class: org_rocksdb_RocksIterator * Method: isValid0 * Signature: (J)Z */ jboolean Java_org_rocksdb_RocksIterator_isValid0(JNIEnv* /*env*/, jobject /*jobj*/, jlong handle) { return reinterpret_cast(handle)->Valid(); } /* * Class: org_rocksdb_RocksIterator * Method: seekToFirst0 * Signature: (J)V */ void Java_org_rocksdb_RocksIterator_seekToFirst0(JNIEnv* /*env*/, jobject /*jobj*/, jlong handle) { reinterpret_cast(handle)->SeekToFirst(); } /* * Class: org_rocksdb_RocksIterator * Method: seekToLast0 * Signature: (J)V */ void Java_org_rocksdb_RocksIterator_seekToLast0(JNIEnv* /*env*/, jobject /*jobj*/, jlong handle) { reinterpret_cast(handle)->SeekToLast(); } /* * Class: org_rocksdb_RocksIterator * Method: next0 * Signature: (J)V */ void Java_org_rocksdb_RocksIterator_next0(JNIEnv* /*env*/, jobject /*jobj*/, jlong handle) { reinterpret_cast(handle)->Next(); } /* * Class: org_rocksdb_RocksIterator * Method: prev0 * Signature: (J)V */ void Java_org_rocksdb_RocksIterator_prev0(JNIEnv* /*env*/, jobject /*jobj*/, jlong handle) { reinterpret_cast(handle)->Prev(); } /* * Class: org_rocksdb_RocksIterator * Method: seek0 * Signature: (J[BI)V */ void Java_org_rocksdb_RocksIterator_seek0(JNIEnv* env, jobject /*jobj*/, jlong handle, jbyteArray jtarget, jint jtarget_len) { jbyte* target = env->GetByteArrayElements(jtarget, nullptr); if (target == nullptr) { // exception thrown: OutOfMemoryError return; } rocksdb::Slice target_slice(reinterpret_cast(target), jtarget_len); auto* it = reinterpret_cast(handle); it->Seek(target_slice); env->ReleaseByteArrayElements(jtarget, target, JNI_ABORT); } /* * Class: org_rocksdb_RocksIterator * Method: seekForPrev0 * Signature: (J[BI)V */ void Java_org_rocksdb_RocksIterator_seekForPrev0(JNIEnv* env, jobject /*jobj*/, jlong handle, jbyteArray jtarget, jint jtarget_len) { jbyte* target = env->GetByteArrayElements(jtarget, nullptr); if (target == nullptr) { // exception thrown: OutOfMemoryError return; } rocksdb::Slice target_slice(reinterpret_cast(target), jtarget_len); auto* it = reinterpret_cast(handle); it->SeekForPrev(target_slice); env->ReleaseByteArrayElements(jtarget, target, JNI_ABORT); } /* * Class: org_rocksdb_RocksIterator * Method: status0 * Signature: (J)V */ void Java_org_rocksdb_RocksIterator_status0(JNIEnv* env, jobject /*jobj*/, jlong handle) { auto* it = reinterpret_cast(handle); rocksdb::Status s = it->status(); if (s.ok()) { return; } rocksdb::RocksDBExceptionJni::ThrowNew(env, s); } /* * Class: org_rocksdb_RocksIterator * Method: key0 * Signature: (J)[B */ jbyteArray Java_org_rocksdb_RocksIterator_key0(JNIEnv* env, jobject /*jobj*/, jlong handle) { auto* it = reinterpret_cast(handle); rocksdb::Slice key_slice = it->key(); jbyteArray jkey = env->NewByteArray(static_cast(key_slice.size())); if (jkey == nullptr) { // exception thrown: OutOfMemoryError return nullptr; } env->SetByteArrayRegion( jkey, 0, static_cast(key_slice.size()), const_cast(reinterpret_cast(key_slice.data()))); return jkey; } /* * Class: org_rocksdb_RocksIterator * Method: value0 * Signature: (J)[B */ jbyteArray Java_org_rocksdb_RocksIterator_value0(JNIEnv* env, jobject /*jobj*/, jlong handle) { auto* it = reinterpret_cast(handle); rocksdb::Slice value_slice = it->value(); jbyteArray jkeyValue = env->NewByteArray(static_cast(value_slice.size())); if (jkeyValue == nullptr) { // exception thrown: OutOfMemoryError return nullptr; } env->SetByteArrayRegion( jkeyValue, 0, static_cast(value_slice.size()), const_cast(reinterpret_cast(value_slice.data()))); return jkeyValue; } rocksdb-5.17.2/java/rocksjni/jnicallback.cc000066400000000000000000000031531337235545400205610ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file implements the callback "bridge" between Java and C++ for // JNI Callbacks from C++ to sub-classes or org.rocksdb.RocksCallbackObject #include #include "rocksjni/jnicallback.h" #include "rocksjni/portal.h" namespace rocksdb { JniCallback::JniCallback(JNIEnv* env, jobject jcallback_obj) { // Note: jcallback_obj may be accessed by multiple threads, // so we ref the jvm not the env const jint rs = env->GetJavaVM(&m_jvm); if(rs != JNI_OK) { // exception thrown return; } // Note: we may want to access the Java callback object instance // across multiple method calls, so we create a global ref assert(jcallback_obj != nullptr); m_jcallback_obj = env->NewGlobalRef(jcallback_obj); if(jcallback_obj == nullptr) { // exception thrown: OutOfMemoryError return; } } JNIEnv* JniCallback::getJniEnv(jboolean* attached) const { return JniUtil::getJniEnv(m_jvm, attached); } void JniCallback::releaseJniEnv(jboolean& attached) const { JniUtil::releaseJniEnv(m_jvm, attached); } JniCallback::~JniCallback() { jboolean attached_thread = JNI_FALSE; JNIEnv* env = getJniEnv(&attached_thread); assert(env != nullptr); if(m_jcallback_obj != nullptr) { env->DeleteGlobalRef(m_jcallback_obj); } releaseJniEnv(attached_thread); } // @lint-ignore TXT4 T25377293 Grandfathered in } // namespace rocksdbrocksdb-5.17.2/java/rocksjni/jnicallback.h000066400000000000000000000016011337235545400204170ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file implements the callback "bridge" between Java and C++ for // JNI Callbacks from C++ to sub-classes or org.rocksdb.RocksCallbackObject #ifndef JAVA_ROCKSJNI_JNICALLBACK_H_ #define JAVA_ROCKSJNI_JNICALLBACK_H_ #include namespace rocksdb { class JniCallback { public: JniCallback(JNIEnv* env, jobject jcallback_obj); virtual ~JniCallback(); protected: JavaVM* m_jvm; jobject m_jcallback_obj; JNIEnv* getJniEnv(jboolean* attached) const; void releaseJniEnv(jboolean& attached) const; }; } // @lint-ignore TXT4 T25377293 Grandfathered in #endif // JAVA_ROCKSJNI_JNICALLBACK_H_rocksdb-5.17.2/java/rocksjni/loggerjnicallback.cc000066400000000000000000000211231337235545400217560ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file implements the callback "bridge" between Java and C++ for // rocksdb::Logger. #include "include/org_rocksdb_Logger.h" #include #include #include "rocksjni/loggerjnicallback.h" #include "rocksjni/portal.h" namespace rocksdb { LoggerJniCallback::LoggerJniCallback(JNIEnv* env, jobject jlogger) : JniCallback(env, jlogger) { m_jLogMethodId = LoggerJni::getLogMethodId(env); if (m_jLogMethodId == nullptr) { // exception thrown: NoSuchMethodException or OutOfMemoryError return; } jobject jdebug_level = InfoLogLevelJni::DEBUG_LEVEL(env); if (jdebug_level == nullptr) { // exception thrown: NoSuchFieldError, ExceptionInInitializerError // or OutOfMemoryError return; } m_jdebug_level = env->NewGlobalRef(jdebug_level); if (m_jdebug_level == nullptr) { // exception thrown: OutOfMemoryError return; } jobject jinfo_level = InfoLogLevelJni::INFO_LEVEL(env); if (jinfo_level == nullptr) { // exception thrown: NoSuchFieldError, ExceptionInInitializerError // or OutOfMemoryError return; } m_jinfo_level = env->NewGlobalRef(jinfo_level); if (m_jinfo_level == nullptr) { // exception thrown: OutOfMemoryError return; } jobject jwarn_level = InfoLogLevelJni::WARN_LEVEL(env); if (jwarn_level == nullptr) { // exception thrown: NoSuchFieldError, ExceptionInInitializerError // or OutOfMemoryError return; } m_jwarn_level = env->NewGlobalRef(jwarn_level); if (m_jwarn_level == nullptr) { // exception thrown: OutOfMemoryError return; } jobject jerror_level = InfoLogLevelJni::ERROR_LEVEL(env); if (jerror_level == nullptr) { // exception thrown: NoSuchFieldError, ExceptionInInitializerError // or OutOfMemoryError return; } m_jerror_level = env->NewGlobalRef(jerror_level); if (m_jerror_level == nullptr) { // exception thrown: OutOfMemoryError return; } jobject jfatal_level = InfoLogLevelJni::FATAL_LEVEL(env); if (jfatal_level == nullptr) { // exception thrown: NoSuchFieldError, ExceptionInInitializerError // or OutOfMemoryError return; } m_jfatal_level = env->NewGlobalRef(jfatal_level); if (m_jfatal_level == nullptr) { // exception thrown: OutOfMemoryError return; } jobject jheader_level = InfoLogLevelJni::HEADER_LEVEL(env); if (jheader_level == nullptr) { // exception thrown: NoSuchFieldError, ExceptionInInitializerError // or OutOfMemoryError return; } m_jheader_level = env->NewGlobalRef(jheader_level); if (m_jheader_level == nullptr) { // exception thrown: OutOfMemoryError return; } } void LoggerJniCallback::Logv(const char* /*format*/, va_list /*ap*/) { // We implement this method because it is virtual but we don't // use it because we need to know about the log level. } void LoggerJniCallback::Logv(const InfoLogLevel log_level, const char* format, va_list ap) { if (GetInfoLogLevel() <= log_level) { // determine InfoLogLevel java enum instance jobject jlog_level; switch (log_level) { case rocksdb::InfoLogLevel::DEBUG_LEVEL: jlog_level = m_jdebug_level; break; case rocksdb::InfoLogLevel::INFO_LEVEL: jlog_level = m_jinfo_level; break; case rocksdb::InfoLogLevel::WARN_LEVEL: jlog_level = m_jwarn_level; break; case rocksdb::InfoLogLevel::ERROR_LEVEL: jlog_level = m_jerror_level; break; case rocksdb::InfoLogLevel::FATAL_LEVEL: jlog_level = m_jfatal_level; break; case rocksdb::InfoLogLevel::HEADER_LEVEL: jlog_level = m_jheader_level; break; default: jlog_level = m_jfatal_level; break; } assert(format != nullptr); assert(ap != nullptr); const std::unique_ptr msg = format_str(format, ap); // pass msg to java callback handler jboolean attached_thread = JNI_FALSE; JNIEnv* env = getJniEnv(&attached_thread); assert(env != nullptr); jstring jmsg = env->NewStringUTF(msg.get()); if (jmsg == nullptr) { // unable to construct string if (env->ExceptionCheck()) { env->ExceptionDescribe(); // print out exception to stderr } releaseJniEnv(attached_thread); return; } if (env->ExceptionCheck()) { // exception thrown: OutOfMemoryError env->ExceptionDescribe(); // print out exception to stderr env->DeleteLocalRef(jmsg); releaseJniEnv(attached_thread); return; } env->CallVoidMethod(m_jcallback_obj, m_jLogMethodId, jlog_level, jmsg); if (env->ExceptionCheck()) { // exception thrown env->ExceptionDescribe(); // print out exception to stderr env->DeleteLocalRef(jmsg); releaseJniEnv(attached_thread); return; } env->DeleteLocalRef(jmsg); releaseJniEnv(attached_thread); } } std::unique_ptr LoggerJniCallback::format_str(const char* format, va_list ap) const { va_list ap_copy; va_copy(ap_copy, ap); const size_t required = vsnprintf(nullptr, 0, format, ap_copy) + 1; // Extra space for '\0' va_end(ap_copy); std::unique_ptr buf(new char[required]); va_copy(ap_copy, ap); vsnprintf(buf.get(), required, format, ap_copy); va_end(ap_copy); return buf; } LoggerJniCallback::~LoggerJniCallback() { jboolean attached_thread = JNI_FALSE; JNIEnv* env = getJniEnv(&attached_thread); assert(env != nullptr); if (m_jdebug_level != nullptr) { env->DeleteGlobalRef(m_jdebug_level); } if (m_jinfo_level != nullptr) { env->DeleteGlobalRef(m_jinfo_level); } if (m_jwarn_level != nullptr) { env->DeleteGlobalRef(m_jwarn_level); } if (m_jerror_level != nullptr) { env->DeleteGlobalRef(m_jerror_level); } if (m_jfatal_level != nullptr) { env->DeleteGlobalRef(m_jfatal_level); } if (m_jheader_level != nullptr) { env->DeleteGlobalRef(m_jheader_level); } releaseJniEnv(attached_thread); } } // namespace rocksdb /* * Class: org_rocksdb_Logger * Method: createNewLoggerOptions * Signature: (J)J */ jlong Java_org_rocksdb_Logger_createNewLoggerOptions(JNIEnv* env, jobject jobj, jlong joptions) { auto* sptr_logger = new std::shared_ptr( new rocksdb::LoggerJniCallback(env, jobj)); // set log level auto* options = reinterpret_cast(joptions); sptr_logger->get()->SetInfoLogLevel(options->info_log_level); return reinterpret_cast(sptr_logger); } /* * Class: org_rocksdb_Logger * Method: createNewLoggerDbOptions * Signature: (J)J */ jlong Java_org_rocksdb_Logger_createNewLoggerDbOptions(JNIEnv* env, jobject jobj, jlong jdb_options) { auto* sptr_logger = new std::shared_ptr( new rocksdb::LoggerJniCallback(env, jobj)); // set log level auto* db_options = reinterpret_cast(jdb_options); sptr_logger->get()->SetInfoLogLevel(db_options->info_log_level); return reinterpret_cast(sptr_logger); } /* * Class: org_rocksdb_Logger * Method: setInfoLogLevel * Signature: (JB)V */ void Java_org_rocksdb_Logger_setInfoLogLevel(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jbyte jlog_level) { auto* handle = reinterpret_cast*>(jhandle); handle->get()->SetInfoLogLevel( static_cast(jlog_level)); } /* * Class: org_rocksdb_Logger * Method: infoLogLevel * Signature: (J)B */ jbyte Java_org_rocksdb_Logger_infoLogLevel(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* handle = reinterpret_cast*>(jhandle); return static_cast(handle->get()->GetInfoLogLevel()); } /* * Class: org_rocksdb_Logger * Method: disposeInternal * Signature: (J)V */ void Java_org_rocksdb_Logger_disposeInternal(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* handle = reinterpret_cast*>(jhandle); delete handle; // delete std::shared_ptr } rocksdb-5.17.2/java/rocksjni/loggerjnicallback.h000066400000000000000000000031541337235545400216240ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file implements the callback "bridge" between Java and C++ for // rocksdb::Logger #ifndef JAVA_ROCKSJNI_LOGGERJNICALLBACK_H_ #define JAVA_ROCKSJNI_LOGGERJNICALLBACK_H_ #include #include #include #include "rocksjni/jnicallback.h" #include "port/port.h" #include "rocksdb/env.h" namespace rocksdb { class LoggerJniCallback : public JniCallback, public Logger { public: LoggerJniCallback(JNIEnv* env, jobject jLogger); ~LoggerJniCallback(); using Logger::SetInfoLogLevel; using Logger::GetInfoLogLevel; // Write an entry to the log file with the specified format. virtual void Logv(const char* format, va_list ap); // Write an entry to the log file with the specified log level // and format. Any log with level under the internal log level // of *this (see @SetInfoLogLevel and @GetInfoLogLevel) will not be // printed. virtual void Logv(const InfoLogLevel log_level, const char* format, va_list ap); private: jmethodID m_jLogMethodId; jobject m_jdebug_level; jobject m_jinfo_level; jobject m_jwarn_level; jobject m_jerror_level; jobject m_jfatal_level; jobject m_jheader_level; std::unique_ptr format_str(const char* format, va_list ap) const; }; } // namespace rocksdb #endif // JAVA_ROCKSJNI_LOGGERJNICALLBACK_H_ rocksdb-5.17.2/java/rocksjni/lru_cache.cc000066400000000000000000000031541337235545400202520ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file implements the "bridge" between Java and C++ for // rocksdb::LRUCache. #include #include "cache/lru_cache.h" #include "include/org_rocksdb_LRUCache.h" /* * Class: org_rocksdb_LRUCache * Method: newLRUCache * Signature: (JIZD)J */ jlong Java_org_rocksdb_LRUCache_newLRUCache(JNIEnv* /*env*/, jclass /*jcls*/, jlong jcapacity, jint jnum_shard_bits, jboolean jstrict_capacity_limit, jdouble jhigh_pri_pool_ratio) { auto* sptr_lru_cache = new std::shared_ptr(rocksdb::NewLRUCache( static_cast(jcapacity), static_cast(jnum_shard_bits), static_cast(jstrict_capacity_limit), static_cast(jhigh_pri_pool_ratio))); return reinterpret_cast(sptr_lru_cache); } /* * Class: org_rocksdb_LRUCache * Method: disposeInternal * Signature: (J)V */ void Java_org_rocksdb_LRUCache_disposeInternal(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* sptr_lru_cache = reinterpret_cast*>(jhandle); delete sptr_lru_cache; // delete std::shared_ptr } rocksdb-5.17.2/java/rocksjni/memtablejni.cc000066400000000000000000000066331337235545400206210ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file implements the "bridge" between Java and C++ for MemTables. #include "include/org_rocksdb_HashLinkedListMemTableConfig.h" #include "include/org_rocksdb_HashSkipListMemTableConfig.h" #include "include/org_rocksdb_SkipListMemTableConfig.h" #include "include/org_rocksdb_VectorMemTableConfig.h" #include "rocksdb/memtablerep.h" #include "rocksjni/portal.h" /* * Class: org_rocksdb_HashSkipListMemTableConfig * Method: newMemTableFactoryHandle * Signature: (JII)J */ jlong Java_org_rocksdb_HashSkipListMemTableConfig_newMemTableFactoryHandle( JNIEnv* env, jobject /*jobj*/, jlong jbucket_count, jint jheight, jint jbranching_factor) { rocksdb::Status s = rocksdb::check_if_jlong_fits_size_t(jbucket_count); if (s.ok()) { return reinterpret_cast(rocksdb::NewHashSkipListRepFactory( static_cast(jbucket_count), static_cast(jheight), static_cast(jbranching_factor))); } rocksdb::IllegalArgumentExceptionJni::ThrowNew(env, s); return 0; } /* * Class: org_rocksdb_HashLinkedListMemTableConfig * Method: newMemTableFactoryHandle * Signature: (JJIZI)J */ jlong Java_org_rocksdb_HashLinkedListMemTableConfig_newMemTableFactoryHandle( JNIEnv* env, jobject /*jobj*/, jlong jbucket_count, jlong jhuge_page_tlb_size, jint jbucket_entries_logging_threshold, jboolean jif_log_bucket_dist_when_flash, jint jthreshold_use_skiplist) { rocksdb::Status statusBucketCount = rocksdb::check_if_jlong_fits_size_t(jbucket_count); rocksdb::Status statusHugePageTlb = rocksdb::check_if_jlong_fits_size_t(jhuge_page_tlb_size); if (statusBucketCount.ok() && statusHugePageTlb.ok()) { return reinterpret_cast(rocksdb::NewHashLinkListRepFactory( static_cast(jbucket_count), static_cast(jhuge_page_tlb_size), static_cast(jbucket_entries_logging_threshold), static_cast(jif_log_bucket_dist_when_flash), static_cast(jthreshold_use_skiplist))); } rocksdb::IllegalArgumentExceptionJni::ThrowNew( env, !statusBucketCount.ok() ? statusBucketCount : statusHugePageTlb); return 0; } /* * Class: org_rocksdb_VectorMemTableConfig * Method: newMemTableFactoryHandle * Signature: (J)J */ jlong Java_org_rocksdb_VectorMemTableConfig_newMemTableFactoryHandle( JNIEnv* env, jobject /*jobj*/, jlong jreserved_size) { rocksdb::Status s = rocksdb::check_if_jlong_fits_size_t(jreserved_size); if (s.ok()) { return reinterpret_cast( new rocksdb::VectorRepFactory(static_cast(jreserved_size))); } rocksdb::IllegalArgumentExceptionJni::ThrowNew(env, s); return 0; } /* * Class: org_rocksdb_SkipListMemTableConfig * Method: newMemTableFactoryHandle0 * Signature: (J)J */ jlong Java_org_rocksdb_SkipListMemTableConfig_newMemTableFactoryHandle0( JNIEnv* env, jobject /*jobj*/, jlong jlookahead) { rocksdb::Status s = rocksdb::check_if_jlong_fits_size_t(jlookahead); if (s.ok()) { return reinterpret_cast( new rocksdb::SkipListFactory(static_cast(jlookahead))); } rocksdb::IllegalArgumentExceptionJni::ThrowNew(env, s); return 0; } rocksdb-5.17.2/java/rocksjni/merge_operator.cc000066400000000000000000000033341337235545400213370ustar00rootroot00000000000000// Copyright (c) 2014, Vlad Balan (vlad.gm@gmail.com). All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file implements the "bridge" between Java and C++ // for rocksdb::MergeOperator. #include #include #include #include #include #include "include/org_rocksdb_StringAppendOperator.h" #include "rocksdb/db.h" #include "rocksdb/memtablerep.h" #include "rocksdb/merge_operator.h" #include "rocksdb/options.h" #include "rocksdb/slice_transform.h" #include "rocksdb/statistics.h" #include "rocksdb/table.h" #include "rocksjni/portal.h" #include "utilities/merge_operators.h" /* * Class: org_rocksdb_StringAppendOperator * Method: newSharedStringAppendOperator * Signature: (C)J */ jlong Java_org_rocksdb_StringAppendOperator_newSharedStringAppendOperator( JNIEnv* /*env*/, jclass /*jclazz*/, jchar jdelim) { auto* sptr_string_append_op = new std::shared_ptr( rocksdb::MergeOperators::CreateStringAppendOperator((char)jdelim)); return reinterpret_cast(sptr_string_append_op); } /* * Class: org_rocksdb_StringAppendOperator * Method: disposeInternal * Signature: (J)V */ void Java_org_rocksdb_StringAppendOperator_disposeInternal(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* sptr_string_append_op = reinterpret_cast*>(jhandle); delete sptr_string_append_op; // delete std::shared_ptr } rocksdb-5.17.2/java/rocksjni/native_comparator_wrapper_test.cc000066400000000000000000000025461337235545400246450ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include #include #include "rocksdb/comparator.h" #include "rocksdb/slice.h" #include "include/org_rocksdb_NativeComparatorWrapperTest_NativeStringComparatorWrapper.h" namespace rocksdb { class NativeComparatorWrapperTestStringComparator : public Comparator { const char* Name() const { return "NativeComparatorWrapperTestStringComparator"; } int Compare(const Slice& a, const Slice& b) const { return a.ToString().compare(b.ToString()); } void FindShortestSeparator(std::string* /*start*/, const Slice& /*limit*/) const { return; } void FindShortSuccessor(std::string* /*key*/) const { return; } }; } // namespace rocksdb /* * Class: org_rocksdb_NativeComparatorWrapperTest_NativeStringComparatorWrapper * Method: newStringComparator * Signature: ()J */ jlong Java_org_rocksdb_NativeComparatorWrapperTest_00024NativeStringComparatorWrapper_newStringComparator( JNIEnv* /*env*/, jobject /*jobj*/) { auto* comparator = new rocksdb::NativeComparatorWrapperTestStringComparator(); return reinterpret_cast(comparator); } rocksdb-5.17.2/java/rocksjni/optimistic_transaction_db.cc000066400000000000000000000227171337235545400235710ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file implements the "bridge" between Java and C++ // for rocksdb::TransactionDB. #include #include "include/org_rocksdb_OptimisticTransactionDB.h" #include "rocksdb/options.h" #include "rocksdb/utilities/optimistic_transaction_db.h" #include "rocksdb/utilities/transaction.h" #include "rocksjni/portal.h" /* * Class: org_rocksdb_OptimisticTransactionDB * Method: open * Signature: (JLjava/lang/String;)J */ jlong Java_org_rocksdb_OptimisticTransactionDB_open__JLjava_lang_String_2( JNIEnv* env, jclass /*jcls*/, jlong joptions_handle, jstring jdb_path) { const char* db_path = env->GetStringUTFChars(jdb_path, nullptr); if (db_path == nullptr) { // exception thrown: OutOfMemoryError return 0; } auto* options = reinterpret_cast(joptions_handle); rocksdb::OptimisticTransactionDB* otdb = nullptr; rocksdb::Status s = rocksdb::OptimisticTransactionDB::Open(*options, db_path, &otdb); env->ReleaseStringUTFChars(jdb_path, db_path); if (s.ok()) { return reinterpret_cast(otdb); } else { rocksdb::RocksDBExceptionJni::ThrowNew(env, s); return 0; } } /* * Class: org_rocksdb_OptimisticTransactionDB * Method: open * Signature: (JLjava/lang/String;[[B[J)[J */ jlongArray Java_org_rocksdb_OptimisticTransactionDB_open__JLjava_lang_String_2_3_3B_3J( JNIEnv* env, jclass /*jcls*/, jlong jdb_options_handle, jstring jdb_path, jobjectArray jcolumn_names, jlongArray jcolumn_options_handles) { const char* db_path = env->GetStringUTFChars(jdb_path, nullptr); if (db_path == nullptr) { // exception thrown: OutOfMemoryError return nullptr; } std::vector column_families; const jsize len_cols = env->GetArrayLength(jcolumn_names); if (len_cols > 0) { if (env->EnsureLocalCapacity(len_cols) != 0) { // out of memory env->ReleaseStringUTFChars(jdb_path, db_path); return nullptr; } jlong* jco = env->GetLongArrayElements(jcolumn_options_handles, nullptr); if (jco == nullptr) { // exception thrown: OutOfMemoryError env->ReleaseStringUTFChars(jdb_path, db_path); return nullptr; } for (int i = 0; i < len_cols; i++) { const jobject jcn = env->GetObjectArrayElement(jcolumn_names, i); if (env->ExceptionCheck()) { // exception thrown: ArrayIndexOutOfBoundsException env->ReleaseLongArrayElements(jcolumn_options_handles, jco, JNI_ABORT); env->ReleaseStringUTFChars(jdb_path, db_path); return nullptr; } const jbyteArray jcn_ba = reinterpret_cast(jcn); const jsize jcf_name_len = env->GetArrayLength(jcn_ba); if (env->EnsureLocalCapacity(jcf_name_len) != 0) { // out of memory env->DeleteLocalRef(jcn); env->ReleaseLongArrayElements(jcolumn_options_handles, jco, JNI_ABORT); env->ReleaseStringUTFChars(jdb_path, db_path); return nullptr; } jbyte* jcf_name = env->GetByteArrayElements(jcn_ba, nullptr); if (jcf_name == nullptr) { // exception thrown: OutOfMemoryError env->DeleteLocalRef(jcn); env->ReleaseLongArrayElements(jcolumn_options_handles, jco, JNI_ABORT); env->ReleaseStringUTFChars(jdb_path, db_path); return nullptr; } const std::string cf_name(reinterpret_cast(jcf_name), jcf_name_len); const rocksdb::ColumnFamilyOptions* cf_options = reinterpret_cast(jco[i]); column_families.push_back( rocksdb::ColumnFamilyDescriptor(cf_name, *cf_options)); env->ReleaseByteArrayElements(jcn_ba, jcf_name, JNI_ABORT); env->DeleteLocalRef(jcn); } env->ReleaseLongArrayElements(jcolumn_options_handles, jco, JNI_ABORT); } auto* db_options = reinterpret_cast(jdb_options_handle); std::vector handles; rocksdb::OptimisticTransactionDB* otdb = nullptr; const rocksdb::Status s = rocksdb::OptimisticTransactionDB::Open( *db_options, db_path, column_families, &handles, &otdb); env->ReleaseStringUTFChars(jdb_path, db_path); // check if open operation was successful if (s.ok()) { const jsize resultsLen = 1 + len_cols; // db handle + column family handles std::unique_ptr results = std::unique_ptr(new jlong[resultsLen]); results[0] = reinterpret_cast(otdb); for (int i = 1; i <= len_cols; i++) { results[i] = reinterpret_cast(handles[i - 1]); } jlongArray jresults = env->NewLongArray(resultsLen); if (jresults == nullptr) { // exception thrown: OutOfMemoryError return nullptr; } env->SetLongArrayRegion(jresults, 0, resultsLen, results.get()); if (env->ExceptionCheck()) { // exception thrown: ArrayIndexOutOfBoundsException return nullptr; } return jresults; } rocksdb::RocksDBExceptionJni::ThrowNew(env, s); return nullptr; } /* * Class: org_rocksdb_OptimisticTransactionDB * Method: beginTransaction * Signature: (JJ)J */ jlong Java_org_rocksdb_OptimisticTransactionDB_beginTransaction__JJ( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jwrite_options_handle) { auto* optimistic_txn_db = reinterpret_cast(jhandle); auto* write_options = reinterpret_cast(jwrite_options_handle); rocksdb::Transaction* txn = optimistic_txn_db->BeginTransaction(*write_options); return reinterpret_cast(txn); } /* * Class: org_rocksdb_OptimisticTransactionDB * Method: beginTransaction * Signature: (JJJ)J */ jlong Java_org_rocksdb_OptimisticTransactionDB_beginTransaction__JJJ( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jwrite_options_handle, jlong joptimistic_txn_options_handle) { auto* optimistic_txn_db = reinterpret_cast(jhandle); auto* write_options = reinterpret_cast(jwrite_options_handle); auto* optimistic_txn_options = reinterpret_cast( joptimistic_txn_options_handle); rocksdb::Transaction* txn = optimistic_txn_db->BeginTransaction( *write_options, *optimistic_txn_options); return reinterpret_cast(txn); } /* * Class: org_rocksdb_OptimisticTransactionDB * Method: beginTransaction_withOld * Signature: (JJJ)J */ jlong Java_org_rocksdb_OptimisticTransactionDB_beginTransaction_1withOld__JJJ( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jwrite_options_handle, jlong jold_txn_handle) { auto* optimistic_txn_db = reinterpret_cast(jhandle); auto* write_options = reinterpret_cast(jwrite_options_handle); auto* old_txn = reinterpret_cast(jold_txn_handle); rocksdb::OptimisticTransactionOptions optimistic_txn_options; rocksdb::Transaction* txn = optimistic_txn_db->BeginTransaction( *write_options, optimistic_txn_options, old_txn); // RocksJava relies on the assumption that // we do not allocate a new Transaction object // when providing an old_optimistic_txn assert(txn == old_txn); return reinterpret_cast(txn); } /* * Class: org_rocksdb_OptimisticTransactionDB * Method: beginTransaction_withOld * Signature: (JJJJ)J */ jlong Java_org_rocksdb_OptimisticTransactionDB_beginTransaction_1withOld__JJJJ( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jwrite_options_handle, jlong joptimistic_txn_options_handle, jlong jold_txn_handle) { auto* optimistic_txn_db = reinterpret_cast(jhandle); auto* write_options = reinterpret_cast(jwrite_options_handle); auto* optimistic_txn_options = reinterpret_cast( joptimistic_txn_options_handle); auto* old_txn = reinterpret_cast(jold_txn_handle); rocksdb::Transaction* txn = optimistic_txn_db->BeginTransaction( *write_options, *optimistic_txn_options, old_txn); // RocksJava relies on the assumption that // we do not allocate a new Transaction object // when providing an old_optimisic_txn assert(txn == old_txn); return reinterpret_cast(txn); } /* * Class: org_rocksdb_OptimisticTransactionDB * Method: getBaseDB * Signature: (J)J */ jlong Java_org_rocksdb_OptimisticTransactionDB_getBaseDB(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* optimistic_txn_db = reinterpret_cast(jhandle); return reinterpret_cast(optimistic_txn_db->GetBaseDB()); } /* * Class: org_rocksdb_OptimisticTransactionDB * Method: disposeInternal * Signature: (J)V */ void Java_org_rocksdb_OptimisticTransactionDB_disposeInternal(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { delete reinterpret_cast(jhandle); } rocksdb-5.17.2/java/rocksjni/optimistic_transaction_options.cc000066400000000000000000000045571337235545400247010ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file implements the "bridge" between Java and C++ // for rocksdb::OptimisticTransactionOptions. #include #include "include/org_rocksdb_OptimisticTransactionOptions.h" #include "rocksdb/comparator.h" #include "rocksdb/utilities/optimistic_transaction_db.h" /* * Class: org_rocksdb_OptimisticTransactionOptions * Method: newOptimisticTransactionOptions * Signature: ()J */ jlong Java_org_rocksdb_OptimisticTransactionOptions_newOptimisticTransactionOptions( JNIEnv* /*env*/, jclass /*jcls*/) { rocksdb::OptimisticTransactionOptions* opts = new rocksdb::OptimisticTransactionOptions(); return reinterpret_cast(opts); } /* * Class: org_rocksdb_OptimisticTransactionOptions * Method: isSetSnapshot * Signature: (J)Z */ jboolean Java_org_rocksdb_OptimisticTransactionOptions_isSetSnapshot( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opts = reinterpret_cast(jhandle); return opts->set_snapshot; } /* * Class: org_rocksdb_OptimisticTransactionOptions * Method: setSetSnapshot * Signature: (JZ)V */ void Java_org_rocksdb_OptimisticTransactionOptions_setSetSnapshot( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean jset_snapshot) { auto* opts = reinterpret_cast(jhandle); opts->set_snapshot = jset_snapshot; } /* * Class: org_rocksdb_OptimisticTransactionOptions * Method: setComparator * Signature: (JJ)V */ void Java_org_rocksdb_OptimisticTransactionOptions_setComparator( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jcomparator_handle) { auto* opts = reinterpret_cast(jhandle); opts->cmp = reinterpret_cast(jcomparator_handle); } /* * Class: org_rocksdb_OptimisticTransactionOptions * Method: disposeInternal * Signature: (J)V */ void Java_org_rocksdb_OptimisticTransactionOptions_disposeInternal( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { delete reinterpret_cast(jhandle); } rocksdb-5.17.2/java/rocksjni/options.cc000066400000000000000000006674231337235545400200370ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file implements the "bridge" between Java and C++ for rocksdb::Options. #include #include #include #include #include #include "include/org_rocksdb_ColumnFamilyOptions.h" #include "include/org_rocksdb_ComparatorOptions.h" #include "include/org_rocksdb_DBOptions.h" #include "include/org_rocksdb_FlushOptions.h" #include "include/org_rocksdb_Options.h" #include "include/org_rocksdb_ReadOptions.h" #include "include/org_rocksdb_WriteOptions.h" #include "rocksjni/comparatorjnicallback.h" #include "rocksjni/portal.h" #include "rocksjni/statisticsjni.h" #include "rocksdb/comparator.h" #include "rocksdb/convenience.h" #include "rocksdb/db.h" #include "rocksdb/memtablerep.h" #include "rocksdb/merge_operator.h" #include "rocksdb/options.h" #include "rocksdb/rate_limiter.h" #include "rocksdb/slice_transform.h" #include "rocksdb/statistics.h" #include "rocksdb/table.h" #include "utilities/merge_operators.h" /* * Class: org_rocksdb_Options * Method: newOptions * Signature: ()J */ jlong Java_org_rocksdb_Options_newOptions__(JNIEnv* /*env*/, jclass /*jcls*/) { auto* op = new rocksdb::Options(); return reinterpret_cast(op); } /* * Class: org_rocksdb_Options * Method: newOptions * Signature: (JJ)J */ jlong Java_org_rocksdb_Options_newOptions__JJ(JNIEnv* /*env*/, jclass /*jcls*/, jlong jdboptions, jlong jcfoptions) { auto* dbOpt = reinterpret_cast(jdboptions); auto* cfOpt = reinterpret_cast(jcfoptions); auto* op = new rocksdb::Options(*dbOpt, *cfOpt); return reinterpret_cast(op); } /* * Class: org_rocksdb_Options * Method: copyOptions * Signature: (J)J */ jlong Java_org_rocksdb_Options_copyOptions(JNIEnv* /*env*/, jclass /*jcls*/, jlong jhandle) { auto new_opt = new rocksdb::Options(*(reinterpret_cast(jhandle))); return reinterpret_cast(new_opt); } /* * Class: org_rocksdb_Options * Method: disposeInternal * Signature: (J)V */ void Java_org_rocksdb_Options_disposeInternal(JNIEnv* /*env*/, jobject /*jobj*/, jlong handle) { auto* op = reinterpret_cast(handle); assert(op != nullptr); delete op; } /* * Class: org_rocksdb_Options * Method: setIncreaseParallelism * Signature: (JI)V */ void Java_org_rocksdb_Options_setIncreaseParallelism(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint totalThreads) { reinterpret_cast(jhandle)->IncreaseParallelism( static_cast(totalThreads)); } /* * Class: org_rocksdb_Options * Method: setCreateIfMissing * Signature: (JZ)V */ void Java_org_rocksdb_Options_setCreateIfMissing(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean flag) { reinterpret_cast(jhandle)->create_if_missing = flag; } /* * Class: org_rocksdb_Options * Method: createIfMissing * Signature: (J)Z */ jboolean Java_org_rocksdb_Options_createIfMissing(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->create_if_missing; } /* * Class: org_rocksdb_Options * Method: setCreateMissingColumnFamilies * Signature: (JZ)V */ void Java_org_rocksdb_Options_setCreateMissingColumnFamilies(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean flag) { reinterpret_cast(jhandle)->create_missing_column_families = flag; } /* * Class: org_rocksdb_Options * Method: createMissingColumnFamilies * Signature: (J)Z */ jboolean Java_org_rocksdb_Options_createMissingColumnFamilies(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->create_missing_column_families; } /* * Class: org_rocksdb_Options * Method: setComparatorHandle * Signature: (JI)V */ void Java_org_rocksdb_Options_setComparatorHandle__JI(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint builtinComparator) { switch (builtinComparator) { case 1: reinterpret_cast(jhandle)->comparator = rocksdb::ReverseBytewiseComparator(); break; default: reinterpret_cast(jhandle)->comparator = rocksdb::BytewiseComparator(); break; } } /* * Class: org_rocksdb_Options * Method: setComparatorHandle * Signature: (JJB)V */ void Java_org_rocksdb_Options_setComparatorHandle__JJB(JNIEnv* /*env*/, jobject /*jobj*/, jlong jopt_handle, jlong jcomparator_handle, jbyte jcomparator_type) { rocksdb::Comparator* comparator = nullptr; switch (jcomparator_type) { // JAVA_COMPARATOR case 0x0: comparator = reinterpret_cast(jcomparator_handle); break; // JAVA_DIRECT_COMPARATOR case 0x1: comparator = reinterpret_cast( jcomparator_handle); break; // JAVA_NATIVE_COMPARATOR_WRAPPER case 0x2: comparator = reinterpret_cast(jcomparator_handle); break; } auto* opt = reinterpret_cast(jopt_handle); opt->comparator = comparator; } /* * Class: org_rocksdb_Options * Method: setMergeOperatorName * Signature: (JJjava/lang/String)V */ void Java_org_rocksdb_Options_setMergeOperatorName(JNIEnv* env, jobject /*jobj*/, jlong jhandle, jstring jop_name) { const char* op_name = env->GetStringUTFChars(jop_name, nullptr); if (op_name == nullptr) { // exception thrown: OutOfMemoryError return; } auto* options = reinterpret_cast(jhandle); options->merge_operator = rocksdb::MergeOperators::CreateFromStringId(op_name); env->ReleaseStringUTFChars(jop_name, op_name); } /* * Class: org_rocksdb_Options * Method: setMergeOperator * Signature: (JJjava/lang/String)V */ void Java_org_rocksdb_Options_setMergeOperator(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong mergeOperatorHandle) { reinterpret_cast(jhandle)->merge_operator = *(reinterpret_cast*>( mergeOperatorHandle)); } /* * Class: org_rocksdb_Options * Method: setWriteBufferSize * Signature: (JJ)I */ void Java_org_rocksdb_Options_setWriteBufferSize(JNIEnv* env, jobject /*jobj*/, jlong jhandle, jlong jwrite_buffer_size) { rocksdb::Status s = rocksdb::check_if_jlong_fits_size_t(jwrite_buffer_size); if (s.ok()) { reinterpret_cast(jhandle)->write_buffer_size = jwrite_buffer_size; } else { rocksdb::IllegalArgumentExceptionJni::ThrowNew(env, s); } } /* * Class: org_rocksdb_Options * Method: writeBufferSize * Signature: (J)J */ jlong Java_org_rocksdb_Options_writeBufferSize(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->write_buffer_size; } /* * Class: org_rocksdb_Options * Method: setMaxWriteBufferNumber * Signature: (JI)V */ void Java_org_rocksdb_Options_setMaxWriteBufferNumber( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint jmax_write_buffer_number) { reinterpret_cast(jhandle)->max_write_buffer_number = jmax_write_buffer_number; } /* * Class: org_rocksdb_Options * Method: setStatistics * Signature: (JJ)V */ void Java_org_rocksdb_Options_setStatistics(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jstatistics_handle) { auto* opt = reinterpret_cast(jhandle); auto* pSptr = reinterpret_cast*>( jstatistics_handle); opt->statistics = *pSptr; } /* * Class: org_rocksdb_Options * Method: statistics * Signature: (J)J */ jlong Java_org_rocksdb_Options_statistics(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); std::shared_ptr sptr = opt->statistics; if (sptr == nullptr) { return 0; } else { std::shared_ptr* pSptr = new std::shared_ptr(sptr); return reinterpret_cast(pSptr); } } /* * Class: org_rocksdb_Options * Method: maxWriteBufferNumber * Signature: (J)I */ jint Java_org_rocksdb_Options_maxWriteBufferNumber(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->max_write_buffer_number; } /* * Class: org_rocksdb_Options * Method: errorIfExists * Signature: (J)Z */ jboolean Java_org_rocksdb_Options_errorIfExists(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->error_if_exists; } /* * Class: org_rocksdb_Options * Method: setErrorIfExists * Signature: (JZ)V */ void Java_org_rocksdb_Options_setErrorIfExists(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean error_if_exists) { reinterpret_cast(jhandle)->error_if_exists = static_cast(error_if_exists); } /* * Class: org_rocksdb_Options * Method: paranoidChecks * Signature: (J)Z */ jboolean Java_org_rocksdb_Options_paranoidChecks(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->paranoid_checks; } /* * Class: org_rocksdb_Options * Method: setParanoidChecks * Signature: (JZ)V */ void Java_org_rocksdb_Options_setParanoidChecks(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean paranoid_checks) { reinterpret_cast(jhandle)->paranoid_checks = static_cast(paranoid_checks); } /* * Class: org_rocksdb_Options * Method: setEnv * Signature: (JJ)V */ void Java_org_rocksdb_Options_setEnv(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jenv) { reinterpret_cast(jhandle)->env = reinterpret_cast(jenv); } /* * Class: org_rocksdb_Options * Method: setMaxTotalWalSize * Signature: (JJ)V */ void Java_org_rocksdb_Options_setMaxTotalWalSize(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jmax_total_wal_size) { reinterpret_cast(jhandle)->max_total_wal_size = static_cast(jmax_total_wal_size); } /* * Class: org_rocksdb_Options * Method: maxTotalWalSize * Signature: (J)J */ jlong Java_org_rocksdb_Options_maxTotalWalSize(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->max_total_wal_size; } /* * Class: org_rocksdb_Options * Method: maxOpenFiles * Signature: (J)I */ jint Java_org_rocksdb_Options_maxOpenFiles(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->max_open_files; } /* * Class: org_rocksdb_Options * Method: setMaxOpenFiles * Signature: (JI)V */ void Java_org_rocksdb_Options_setMaxOpenFiles(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint max_open_files) { reinterpret_cast(jhandle)->max_open_files = static_cast(max_open_files); } /* * Class: org_rocksdb_Options * Method: setMaxFileOpeningThreads * Signature: (JI)V */ void Java_org_rocksdb_Options_setMaxFileOpeningThreads( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint jmax_file_opening_threads) { reinterpret_cast(jhandle)->max_file_opening_threads = static_cast(jmax_file_opening_threads); } /* * Class: org_rocksdb_Options * Method: maxFileOpeningThreads * Signature: (J)I */ jint Java_org_rocksdb_Options_maxFileOpeningThreads(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); return static_cast(opt->max_file_opening_threads); } /* * Class: org_rocksdb_Options * Method: useFsync * Signature: (J)Z */ jboolean Java_org_rocksdb_Options_useFsync(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->use_fsync; } /* * Class: org_rocksdb_Options * Method: setUseFsync * Signature: (JZ)V */ void Java_org_rocksdb_Options_setUseFsync(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean use_fsync) { reinterpret_cast(jhandle)->use_fsync = static_cast(use_fsync); } /* * Class: org_rocksdb_Options * Method: setDbPaths * Signature: (J[Ljava/lang/String;[J)V */ void Java_org_rocksdb_Options_setDbPaths(JNIEnv* env, jobject /*jobj*/, jlong jhandle, jobjectArray jpaths, jlongArray jtarget_sizes) { std::vector db_paths; jlong* ptr_jtarget_size = env->GetLongArrayElements(jtarget_sizes, nullptr); if (ptr_jtarget_size == nullptr) { // exception thrown: OutOfMemoryError return; } jboolean has_exception = JNI_FALSE; const jsize len = env->GetArrayLength(jpaths); for (jsize i = 0; i < len; i++) { jobject jpath = reinterpret_cast(env->GetObjectArrayElement(jpaths, i)); if (env->ExceptionCheck()) { // exception thrown: ArrayIndexOutOfBoundsException env->ReleaseLongArrayElements(jtarget_sizes, ptr_jtarget_size, JNI_ABORT); return; } std::string path = rocksdb::JniUtil::copyStdString( env, static_cast(jpath), &has_exception); env->DeleteLocalRef(jpath); if (has_exception == JNI_TRUE) { env->ReleaseLongArrayElements(jtarget_sizes, ptr_jtarget_size, JNI_ABORT); return; } jlong jtarget_size = ptr_jtarget_size[i]; db_paths.push_back( rocksdb::DbPath(path, static_cast(jtarget_size))); } env->ReleaseLongArrayElements(jtarget_sizes, ptr_jtarget_size, JNI_ABORT); auto* opt = reinterpret_cast(jhandle); opt->db_paths = db_paths; } /* * Class: org_rocksdb_Options * Method: dbPathsLen * Signature: (J)J */ jlong Java_org_rocksdb_Options_dbPathsLen(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); return static_cast(opt->db_paths.size()); } /* * Class: org_rocksdb_Options * Method: dbPaths * Signature: (J[Ljava/lang/String;[J)V */ void Java_org_rocksdb_Options_dbPaths(JNIEnv* env, jobject /*jobj*/, jlong jhandle, jobjectArray jpaths, jlongArray jtarget_sizes) { jlong* ptr_jtarget_size = env->GetLongArrayElements(jtarget_sizes, nullptr); if (ptr_jtarget_size == nullptr) { // exception thrown: OutOfMemoryError return; } auto* opt = reinterpret_cast(jhandle); const jsize len = env->GetArrayLength(jpaths); for (jsize i = 0; i < len; i++) { rocksdb::DbPath db_path = opt->db_paths[i]; jstring jpath = env->NewStringUTF(db_path.path.c_str()); if (jpath == nullptr) { // exception thrown: OutOfMemoryError env->ReleaseLongArrayElements(jtarget_sizes, ptr_jtarget_size, JNI_ABORT); return; } env->SetObjectArrayElement(jpaths, i, jpath); if (env->ExceptionCheck()) { // exception thrown: ArrayIndexOutOfBoundsException env->DeleteLocalRef(jpath); env->ReleaseLongArrayElements(jtarget_sizes, ptr_jtarget_size, JNI_ABORT); return; } ptr_jtarget_size[i] = static_cast(db_path.target_size); } env->ReleaseLongArrayElements(jtarget_sizes, ptr_jtarget_size, JNI_COMMIT); } /* * Class: org_rocksdb_Options * Method: dbLogDir * Signature: (J)Ljava/lang/String */ jstring Java_org_rocksdb_Options_dbLogDir(JNIEnv* env, jobject /*jobj*/, jlong jhandle) { return env->NewStringUTF( reinterpret_cast(jhandle)->db_log_dir.c_str()); } /* * Class: org_rocksdb_Options * Method: setDbLogDir * Signature: (JLjava/lang/String)V */ void Java_org_rocksdb_Options_setDbLogDir(JNIEnv* env, jobject /*jobj*/, jlong jhandle, jstring jdb_log_dir) { const char* log_dir = env->GetStringUTFChars(jdb_log_dir, nullptr); if (log_dir == nullptr) { // exception thrown: OutOfMemoryError return; } reinterpret_cast(jhandle)->db_log_dir.assign(log_dir); env->ReleaseStringUTFChars(jdb_log_dir, log_dir); } /* * Class: org_rocksdb_Options * Method: walDir * Signature: (J)Ljava/lang/String */ jstring Java_org_rocksdb_Options_walDir(JNIEnv* env, jobject /*jobj*/, jlong jhandle) { return env->NewStringUTF( reinterpret_cast(jhandle)->wal_dir.c_str()); } /* * Class: org_rocksdb_Options * Method: setWalDir * Signature: (JLjava/lang/String)V */ void Java_org_rocksdb_Options_setWalDir(JNIEnv* env, jobject /*jobj*/, jlong jhandle, jstring jwal_dir) { const char* wal_dir = env->GetStringUTFChars(jwal_dir, nullptr); if (wal_dir == nullptr) { // exception thrown: OutOfMemoryError return; } reinterpret_cast(jhandle)->wal_dir.assign(wal_dir); env->ReleaseStringUTFChars(jwal_dir, wal_dir); } /* * Class: org_rocksdb_Options * Method: deleteObsoleteFilesPeriodMicros * Signature: (J)J */ jlong Java_org_rocksdb_Options_deleteObsoleteFilesPeriodMicros(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->delete_obsolete_files_period_micros; } /* * Class: org_rocksdb_Options * Method: setDeleteObsoleteFilesPeriodMicros * Signature: (JJ)V */ void Java_org_rocksdb_Options_setDeleteObsoleteFilesPeriodMicros( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong micros) { reinterpret_cast(jhandle) ->delete_obsolete_files_period_micros = static_cast(micros); } /* * Class: org_rocksdb_Options * Method: setBaseBackgroundCompactions * Signature: (JI)V */ void Java_org_rocksdb_Options_setBaseBackgroundCompactions(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint max) { reinterpret_cast(jhandle)->base_background_compactions = static_cast(max); } /* * Class: org_rocksdb_Options * Method: baseBackgroundCompactions * Signature: (J)I */ jint Java_org_rocksdb_Options_baseBackgroundCompactions(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->base_background_compactions; } /* * Class: org_rocksdb_Options * Method: maxBackgroundCompactions * Signature: (J)I */ jint Java_org_rocksdb_Options_maxBackgroundCompactions(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->max_background_compactions; } /* * Class: org_rocksdb_Options * Method: setMaxBackgroundCompactions * Signature: (JI)V */ void Java_org_rocksdb_Options_setMaxBackgroundCompactions(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint max) { reinterpret_cast(jhandle)->max_background_compactions = static_cast(max); } /* * Class: org_rocksdb_Options * Method: setMaxSubcompactions * Signature: (JI)V */ void Java_org_rocksdb_Options_setMaxSubcompactions(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint max) { reinterpret_cast(jhandle)->max_subcompactions = static_cast(max); } /* * Class: org_rocksdb_Options * Method: maxSubcompactions * Signature: (J)I */ jint Java_org_rocksdb_Options_maxSubcompactions(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->max_subcompactions; } /* * Class: org_rocksdb_Options * Method: maxBackgroundFlushes * Signature: (J)I */ jint Java_org_rocksdb_Options_maxBackgroundFlushes(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->max_background_flushes; } /* * Class: org_rocksdb_Options * Method: setMaxBackgroundFlushes * Signature: (JI)V */ void Java_org_rocksdb_Options_setMaxBackgroundFlushes( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint max_background_flushes) { reinterpret_cast(jhandle)->max_background_flushes = static_cast(max_background_flushes); } /* * Class: org_rocksdb_Options * Method: maxBackgroundJobs * Signature: (J)I */ jint Java_org_rocksdb_Options_maxBackgroundJobs(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->max_background_jobs; } /* * Class: org_rocksdb_Options * Method: setMaxBackgroundJobs * Signature: (JI)V */ void Java_org_rocksdb_Options_setMaxBackgroundJobs(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint max_background_jobs) { reinterpret_cast(jhandle)->max_background_jobs = static_cast(max_background_jobs); } /* * Class: org_rocksdb_Options * Method: maxLogFileSize * Signature: (J)J */ jlong Java_org_rocksdb_Options_maxLogFileSize(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->max_log_file_size; } /* * Class: org_rocksdb_Options * Method: setMaxLogFileSize * Signature: (JJ)V */ void Java_org_rocksdb_Options_setMaxLogFileSize(JNIEnv* env, jobject /*jobj*/, jlong jhandle, jlong max_log_file_size) { rocksdb::Status s = rocksdb::check_if_jlong_fits_size_t(max_log_file_size); if (s.ok()) { reinterpret_cast(jhandle)->max_log_file_size = max_log_file_size; } else { rocksdb::IllegalArgumentExceptionJni::ThrowNew(env, s); } } /* * Class: org_rocksdb_Options * Method: logFileTimeToRoll * Signature: (J)J */ jlong Java_org_rocksdb_Options_logFileTimeToRoll(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->log_file_time_to_roll; } /* * Class: org_rocksdb_Options * Method: setLogFileTimeToRoll * Signature: (JJ)V */ void Java_org_rocksdb_Options_setLogFileTimeToRoll( JNIEnv* env, jobject /*jobj*/, jlong jhandle, jlong log_file_time_to_roll) { rocksdb::Status s = rocksdb::check_if_jlong_fits_size_t(log_file_time_to_roll); if (s.ok()) { reinterpret_cast(jhandle)->log_file_time_to_roll = log_file_time_to_roll; } else { rocksdb::IllegalArgumentExceptionJni::ThrowNew(env, s); } } /* * Class: org_rocksdb_Options * Method: keepLogFileNum * Signature: (J)J */ jlong Java_org_rocksdb_Options_keepLogFileNum(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->keep_log_file_num; } /* * Class: org_rocksdb_Options * Method: setKeepLogFileNum * Signature: (JJ)V */ void Java_org_rocksdb_Options_setKeepLogFileNum(JNIEnv* env, jobject /*jobj*/, jlong jhandle, jlong keep_log_file_num) { rocksdb::Status s = rocksdb::check_if_jlong_fits_size_t(keep_log_file_num); if (s.ok()) { reinterpret_cast(jhandle)->keep_log_file_num = keep_log_file_num; } else { rocksdb::IllegalArgumentExceptionJni::ThrowNew(env, s); } } /* * Class: org_rocksdb_Options * Method: recycleLogFileNum * Signature: (J)J */ jlong Java_org_rocksdb_Options_recycleLogFileNum(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->recycle_log_file_num; } /* * Class: org_rocksdb_Options * Method: setRecycleLogFileNum * Signature: (JJ)V */ void Java_org_rocksdb_Options_setRecycleLogFileNum(JNIEnv* env, jobject /*jobj*/, jlong jhandle, jlong recycle_log_file_num) { rocksdb::Status s = rocksdb::check_if_jlong_fits_size_t(recycle_log_file_num); if (s.ok()) { reinterpret_cast(jhandle)->recycle_log_file_num = recycle_log_file_num; } else { rocksdb::IllegalArgumentExceptionJni::ThrowNew(env, s); } } /* * Class: org_rocksdb_Options * Method: maxManifestFileSize * Signature: (J)J */ jlong Java_org_rocksdb_Options_maxManifestFileSize(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->max_manifest_file_size; } /* * Method: memTableFactoryName * Signature: (J)Ljava/lang/String */ jstring Java_org_rocksdb_Options_memTableFactoryName(JNIEnv* env, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); rocksdb::MemTableRepFactory* tf = opt->memtable_factory.get(); // Should never be nullptr. // Default memtable factory is SkipListFactory assert(tf); // temporarly fix for the historical typo if (strcmp(tf->Name(), "HashLinkListRepFactory") == 0) { return env->NewStringUTF("HashLinkedListRepFactory"); } return env->NewStringUTF(tf->Name()); } /* * Class: org_rocksdb_Options * Method: setMaxManifestFileSize * Signature: (JJ)V */ void Java_org_rocksdb_Options_setMaxManifestFileSize( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong max_manifest_file_size) { reinterpret_cast(jhandle)->max_manifest_file_size = static_cast(max_manifest_file_size); } /* * Method: setMemTableFactory * Signature: (JJ)V */ void Java_org_rocksdb_Options_setMemTableFactory(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jfactory_handle) { reinterpret_cast(jhandle)->memtable_factory.reset( reinterpret_cast(jfactory_handle)); } /* * Class: org_rocksdb_Options * Method: setRateLimiter * Signature: (JJ)V */ void Java_org_rocksdb_Options_setRateLimiter(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jrate_limiter_handle) { std::shared_ptr* pRateLimiter = reinterpret_cast*>( jrate_limiter_handle); reinterpret_cast(jhandle)->rate_limiter = *pRateLimiter; } /* * Class: org_rocksdb_Options * Method: setSstFileManager * Signature: (JJ)V */ void Java_org_rocksdb_Options_setSstFileManager( JNIEnv* /*env*/, jobject /*job*/, jlong jhandle, jlong jsst_file_manager_handle) { auto* sptr_sst_file_manager = reinterpret_cast*>( jsst_file_manager_handle); reinterpret_cast(jhandle)->sst_file_manager = *sptr_sst_file_manager; } /* * Class: org_rocksdb_Options * Method: setLogger * Signature: (JJ)V */ void Java_org_rocksdb_Options_setLogger(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jlogger_handle) { std::shared_ptr* pLogger = reinterpret_cast*>( jlogger_handle); reinterpret_cast(jhandle)->info_log = *pLogger; } /* * Class: org_rocksdb_Options * Method: setInfoLogLevel * Signature: (JB)V */ void Java_org_rocksdb_Options_setInfoLogLevel(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jbyte jlog_level) { reinterpret_cast(jhandle)->info_log_level = static_cast(jlog_level); } /* * Class: org_rocksdb_Options * Method: infoLogLevel * Signature: (J)B */ jbyte Java_org_rocksdb_Options_infoLogLevel(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return static_cast( reinterpret_cast(jhandle)->info_log_level); } /* * Class: org_rocksdb_Options * Method: tableCacheNumshardbits * Signature: (J)I */ jint Java_org_rocksdb_Options_tableCacheNumshardbits(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->table_cache_numshardbits; } /* * Class: org_rocksdb_Options * Method: setTableCacheNumshardbits * Signature: (JI)V */ void Java_org_rocksdb_Options_setTableCacheNumshardbits( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint table_cache_numshardbits) { reinterpret_cast(jhandle)->table_cache_numshardbits = static_cast(table_cache_numshardbits); } /* * Method: useFixedLengthPrefixExtractor * Signature: (JI)V */ void Java_org_rocksdb_Options_useFixedLengthPrefixExtractor( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint jprefix_length) { reinterpret_cast(jhandle)->prefix_extractor.reset( rocksdb::NewFixedPrefixTransform(static_cast(jprefix_length))); } /* * Method: useCappedPrefixExtractor * Signature: (JI)V */ void Java_org_rocksdb_Options_useCappedPrefixExtractor(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint jprefix_length) { reinterpret_cast(jhandle)->prefix_extractor.reset( rocksdb::NewCappedPrefixTransform(static_cast(jprefix_length))); } /* * Class: org_rocksdb_Options * Method: walTtlSeconds * Signature: (J)J */ jlong Java_org_rocksdb_Options_walTtlSeconds(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->WAL_ttl_seconds; } /* * Class: org_rocksdb_Options * Method: setWalTtlSeconds * Signature: (JJ)V */ void Java_org_rocksdb_Options_setWalTtlSeconds(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong WAL_ttl_seconds) { reinterpret_cast(jhandle)->WAL_ttl_seconds = static_cast(WAL_ttl_seconds); } /* * Class: org_rocksdb_Options * Method: walTtlSeconds * Signature: (J)J */ jlong Java_org_rocksdb_Options_walSizeLimitMB(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->WAL_size_limit_MB; } /* * Class: org_rocksdb_Options * Method: setWalSizeLimitMB * Signature: (JJ)V */ void Java_org_rocksdb_Options_setWalSizeLimitMB(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong WAL_size_limit_MB) { reinterpret_cast(jhandle)->WAL_size_limit_MB = static_cast(WAL_size_limit_MB); } /* * Class: org_rocksdb_Options * Method: manifestPreallocationSize * Signature: (J)J */ jlong Java_org_rocksdb_Options_manifestPreallocationSize(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->manifest_preallocation_size; } /* * Class: org_rocksdb_Options * Method: setManifestPreallocationSize * Signature: (JJ)V */ void Java_org_rocksdb_Options_setManifestPreallocationSize( JNIEnv* env, jobject /*jobj*/, jlong jhandle, jlong preallocation_size) { rocksdb::Status s = rocksdb::check_if_jlong_fits_size_t(preallocation_size); if (s.ok()) { reinterpret_cast(jhandle)->manifest_preallocation_size = preallocation_size; } else { rocksdb::IllegalArgumentExceptionJni::ThrowNew(env, s); } } /* * Method: setTableFactory * Signature: (JJ)V */ void Java_org_rocksdb_Options_setTableFactory(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jfactory_handle) { reinterpret_cast(jhandle)->table_factory.reset( reinterpret_cast(jfactory_handle)); } /* * Class: org_rocksdb_Options * Method: allowMmapReads * Signature: (J)Z */ jboolean Java_org_rocksdb_Options_allowMmapReads(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->allow_mmap_reads; } /* * Class: org_rocksdb_Options * Method: setAllowMmapReads * Signature: (JZ)V */ void Java_org_rocksdb_Options_setAllowMmapReads(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean allow_mmap_reads) { reinterpret_cast(jhandle)->allow_mmap_reads = static_cast(allow_mmap_reads); } /* * Class: org_rocksdb_Options * Method: allowMmapWrites * Signature: (J)Z */ jboolean Java_org_rocksdb_Options_allowMmapWrites(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->allow_mmap_writes; } /* * Class: org_rocksdb_Options * Method: setAllowMmapWrites * Signature: (JZ)V */ void Java_org_rocksdb_Options_setAllowMmapWrites(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean allow_mmap_writes) { reinterpret_cast(jhandle)->allow_mmap_writes = static_cast(allow_mmap_writes); } /* * Class: org_rocksdb_Options * Method: useDirectReads * Signature: (J)Z */ jboolean Java_org_rocksdb_Options_useDirectReads(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->use_direct_reads; } /* * Class: org_rocksdb_Options * Method: setUseDirectReads * Signature: (JZ)V */ void Java_org_rocksdb_Options_setUseDirectReads(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean use_direct_reads) { reinterpret_cast(jhandle)->use_direct_reads = static_cast(use_direct_reads); } /* * Class: org_rocksdb_Options * Method: useDirectIoForFlushAndCompaction * Signature: (J)Z */ jboolean Java_org_rocksdb_Options_useDirectIoForFlushAndCompaction( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->use_direct_io_for_flush_and_compaction; } /* * Class: org_rocksdb_Options * Method: setUseDirectIoForFlushAndCompaction * Signature: (JZ)V */ void Java_org_rocksdb_Options_setUseDirectIoForFlushAndCompaction( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean use_direct_io_for_flush_and_compaction) { reinterpret_cast(jhandle) ->use_direct_io_for_flush_and_compaction = static_cast(use_direct_io_for_flush_and_compaction); } /* * Class: org_rocksdb_Options * Method: setAllowFAllocate * Signature: (JZ)V */ void Java_org_rocksdb_Options_setAllowFAllocate(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean jallow_fallocate) { reinterpret_cast(jhandle)->allow_fallocate = static_cast(jallow_fallocate); } /* * Class: org_rocksdb_Options * Method: allowFAllocate * Signature: (J)Z */ jboolean Java_org_rocksdb_Options_allowFAllocate(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); return static_cast(opt->allow_fallocate); } /* * Class: org_rocksdb_Options * Method: isFdCloseOnExec * Signature: (J)Z */ jboolean Java_org_rocksdb_Options_isFdCloseOnExec(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->is_fd_close_on_exec; } /* * Class: org_rocksdb_Options * Method: setIsFdCloseOnExec * Signature: (JZ)V */ void Java_org_rocksdb_Options_setIsFdCloseOnExec(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean is_fd_close_on_exec) { reinterpret_cast(jhandle)->is_fd_close_on_exec = static_cast(is_fd_close_on_exec); } /* * Class: org_rocksdb_Options * Method: statsDumpPeriodSec * Signature: (J)I */ jint Java_org_rocksdb_Options_statsDumpPeriodSec(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->stats_dump_period_sec; } /* * Class: org_rocksdb_Options * Method: setStatsDumpPeriodSec * Signature: (JI)V */ void Java_org_rocksdb_Options_setStatsDumpPeriodSec( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint stats_dump_period_sec) { reinterpret_cast(jhandle)->stats_dump_period_sec = static_cast(stats_dump_period_sec); } /* * Class: org_rocksdb_Options * Method: adviseRandomOnOpen * Signature: (J)Z */ jboolean Java_org_rocksdb_Options_adviseRandomOnOpen(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->advise_random_on_open; } /* * Class: org_rocksdb_Options * Method: setAdviseRandomOnOpen * Signature: (JZ)V */ void Java_org_rocksdb_Options_setAdviseRandomOnOpen( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean advise_random_on_open) { reinterpret_cast(jhandle)->advise_random_on_open = static_cast(advise_random_on_open); } /* * Class: org_rocksdb_Options * Method: setDbWriteBufferSize * Signature: (JJ)V */ void Java_org_rocksdb_Options_setDbWriteBufferSize( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jdb_write_buffer_size) { auto* opt = reinterpret_cast(jhandle); opt->db_write_buffer_size = static_cast(jdb_write_buffer_size); } /* * Class: org_rocksdb_Options * Method: dbWriteBufferSize * Signature: (J)J */ jlong Java_org_rocksdb_Options_dbWriteBufferSize(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); return static_cast(opt->db_write_buffer_size); } /* * Class: org_rocksdb_Options * Method: setAccessHintOnCompactionStart * Signature: (JB)V */ void Java_org_rocksdb_Options_setAccessHintOnCompactionStart( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jbyte jaccess_hint_value) { auto* opt = reinterpret_cast(jhandle); opt->access_hint_on_compaction_start = rocksdb::AccessHintJni::toCppAccessHint(jaccess_hint_value); } /* * Class: org_rocksdb_Options * Method: accessHintOnCompactionStart * Signature: (J)B */ jbyte Java_org_rocksdb_Options_accessHintOnCompactionStart(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); return rocksdb::AccessHintJni::toJavaAccessHint( opt->access_hint_on_compaction_start); } /* * Class: org_rocksdb_Options * Method: setNewTableReaderForCompactionInputs * Signature: (JZ)V */ void Java_org_rocksdb_Options_setNewTableReaderForCompactionInputs( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean jnew_table_reader_for_compaction_inputs) { auto* opt = reinterpret_cast(jhandle); opt->new_table_reader_for_compaction_inputs = static_cast(jnew_table_reader_for_compaction_inputs); } /* * Class: org_rocksdb_Options * Method: newTableReaderForCompactionInputs * Signature: (J)Z */ jboolean Java_org_rocksdb_Options_newTableReaderForCompactionInputs( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); return static_cast(opt->new_table_reader_for_compaction_inputs); } /* * Class: org_rocksdb_Options * Method: setCompactionReadaheadSize * Signature: (JJ)V */ void Java_org_rocksdb_Options_setCompactionReadaheadSize( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jcompaction_readahead_size) { auto* opt = reinterpret_cast(jhandle); opt->compaction_readahead_size = static_cast(jcompaction_readahead_size); } /* * Class: org_rocksdb_Options * Method: compactionReadaheadSize * Signature: (J)J */ jlong Java_org_rocksdb_Options_compactionReadaheadSize(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); return static_cast(opt->compaction_readahead_size); } /* * Class: org_rocksdb_Options * Method: setRandomAccessMaxBufferSize * Signature: (JJ)V */ void Java_org_rocksdb_Options_setRandomAccessMaxBufferSize( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jrandom_access_max_buffer_size) { auto* opt = reinterpret_cast(jhandle); opt->random_access_max_buffer_size = static_cast(jrandom_access_max_buffer_size); } /* * Class: org_rocksdb_Options * Method: randomAccessMaxBufferSize * Signature: (J)J */ jlong Java_org_rocksdb_Options_randomAccessMaxBufferSize(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); return static_cast(opt->random_access_max_buffer_size); } /* * Class: org_rocksdb_Options * Method: setWritableFileMaxBufferSize * Signature: (JJ)V */ void Java_org_rocksdb_Options_setWritableFileMaxBufferSize( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jwritable_file_max_buffer_size) { auto* opt = reinterpret_cast(jhandle); opt->writable_file_max_buffer_size = static_cast(jwritable_file_max_buffer_size); } /* * Class: org_rocksdb_Options * Method: writableFileMaxBufferSize * Signature: (J)J */ jlong Java_org_rocksdb_Options_writableFileMaxBufferSize(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); return static_cast(opt->writable_file_max_buffer_size); } /* * Class: org_rocksdb_Options * Method: useAdaptiveMutex * Signature: (J)Z */ jboolean Java_org_rocksdb_Options_useAdaptiveMutex(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->use_adaptive_mutex; } /* * Class: org_rocksdb_Options * Method: setUseAdaptiveMutex * Signature: (JZ)V */ void Java_org_rocksdb_Options_setUseAdaptiveMutex(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean use_adaptive_mutex) { reinterpret_cast(jhandle)->use_adaptive_mutex = static_cast(use_adaptive_mutex); } /* * Class: org_rocksdb_Options * Method: bytesPerSync * Signature: (J)J */ jlong Java_org_rocksdb_Options_bytesPerSync(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->bytes_per_sync; } /* * Class: org_rocksdb_Options * Method: setBytesPerSync * Signature: (JJ)V */ void Java_org_rocksdb_Options_setBytesPerSync(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong bytes_per_sync) { reinterpret_cast(jhandle)->bytes_per_sync = static_cast(bytes_per_sync); } /* * Class: org_rocksdb_Options * Method: setWalBytesPerSync * Signature: (JJ)V */ void Java_org_rocksdb_Options_setWalBytesPerSync(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jwal_bytes_per_sync) { reinterpret_cast(jhandle)->wal_bytes_per_sync = static_cast(jwal_bytes_per_sync); } /* * Class: org_rocksdb_Options * Method: walBytesPerSync * Signature: (J)J */ jlong Java_org_rocksdb_Options_walBytesPerSync(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); return static_cast(opt->wal_bytes_per_sync); } /* * Class: org_rocksdb_Options * Method: setEnableThreadTracking * Signature: (JZ)V */ void Java_org_rocksdb_Options_setEnableThreadTracking( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean jenable_thread_tracking) { auto* opt = reinterpret_cast(jhandle); opt->enable_thread_tracking = static_cast(jenable_thread_tracking); } /* * Class: org_rocksdb_Options * Method: enableThreadTracking * Signature: (J)Z */ jboolean Java_org_rocksdb_Options_enableThreadTracking(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); return static_cast(opt->enable_thread_tracking); } /* * Class: org_rocksdb_Options * Method: setDelayedWriteRate * Signature: (JJ)V */ void Java_org_rocksdb_Options_setDelayedWriteRate(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jdelayed_write_rate) { auto* opt = reinterpret_cast(jhandle); opt->delayed_write_rate = static_cast(jdelayed_write_rate); } /* * Class: org_rocksdb_Options * Method: delayedWriteRate * Signature: (J)J */ jlong Java_org_rocksdb_Options_delayedWriteRate(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); return static_cast(opt->delayed_write_rate); } /* * Class: org_rocksdb_Options * Method: setAllowConcurrentMemtableWrite * Signature: (JZ)V */ void Java_org_rocksdb_Options_setAllowConcurrentMemtableWrite(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean allow) { reinterpret_cast(jhandle) ->allow_concurrent_memtable_write = static_cast(allow); } /* * Class: org_rocksdb_Options * Method: allowConcurrentMemtableWrite * Signature: (J)Z */ jboolean Java_org_rocksdb_Options_allowConcurrentMemtableWrite(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->allow_concurrent_memtable_write; } /* * Class: org_rocksdb_Options * Method: setEnableWriteThreadAdaptiveYield * Signature: (JZ)V */ void Java_org_rocksdb_Options_setEnableWriteThreadAdaptiveYield( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean yield) { reinterpret_cast(jhandle) ->enable_write_thread_adaptive_yield = static_cast(yield); } /* * Class: org_rocksdb_Options * Method: enableWriteThreadAdaptiveYield * Signature: (J)Z */ jboolean Java_org_rocksdb_Options_enableWriteThreadAdaptiveYield( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->enable_write_thread_adaptive_yield; } /* * Class: org_rocksdb_Options * Method: setWriteThreadMaxYieldUsec * Signature: (JJ)V */ void Java_org_rocksdb_Options_setWriteThreadMaxYieldUsec(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong max) { reinterpret_cast(jhandle)->write_thread_max_yield_usec = static_cast(max); } /* * Class: org_rocksdb_Options * Method: writeThreadMaxYieldUsec * Signature: (J)J */ jlong Java_org_rocksdb_Options_writeThreadMaxYieldUsec(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->write_thread_max_yield_usec; } /* * Class: org_rocksdb_Options * Method: setWriteThreadSlowYieldUsec * Signature: (JJ)V */ void Java_org_rocksdb_Options_setWriteThreadSlowYieldUsec(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong slow) { reinterpret_cast(jhandle)->write_thread_slow_yield_usec = static_cast(slow); } /* * Class: org_rocksdb_Options * Method: writeThreadSlowYieldUsec * Signature: (J)J */ jlong Java_org_rocksdb_Options_writeThreadSlowYieldUsec(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->write_thread_slow_yield_usec; } /* * Class: org_rocksdb_Options * Method: setSkipStatsUpdateOnDbOpen * Signature: (JZ)V */ void Java_org_rocksdb_Options_setSkipStatsUpdateOnDbOpen( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean jskip_stats_update_on_db_open) { auto* opt = reinterpret_cast(jhandle); opt->skip_stats_update_on_db_open = static_cast(jskip_stats_update_on_db_open); } /* * Class: org_rocksdb_Options * Method: skipStatsUpdateOnDbOpen * Signature: (J)Z */ jboolean Java_org_rocksdb_Options_skipStatsUpdateOnDbOpen(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); return static_cast(opt->skip_stats_update_on_db_open); } /* * Class: org_rocksdb_Options * Method: setWalRecoveryMode * Signature: (JB)V */ void Java_org_rocksdb_Options_setWalRecoveryMode( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jbyte jwal_recovery_mode_value) { auto* opt = reinterpret_cast(jhandle); opt->wal_recovery_mode = rocksdb::WALRecoveryModeJni::toCppWALRecoveryMode( jwal_recovery_mode_value); } /* * Class: org_rocksdb_Options * Method: walRecoveryMode * Signature: (J)B */ jbyte Java_org_rocksdb_Options_walRecoveryMode(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); return rocksdb::WALRecoveryModeJni::toJavaWALRecoveryMode( opt->wal_recovery_mode); } /* * Class: org_rocksdb_Options * Method: setAllow2pc * Signature: (JZ)V */ void Java_org_rocksdb_Options_setAllow2pc(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean jallow_2pc) { auto* opt = reinterpret_cast(jhandle); opt->allow_2pc = static_cast(jallow_2pc); } /* * Class: org_rocksdb_Options * Method: allow2pc * Signature: (J)Z */ jboolean Java_org_rocksdb_Options_allow2pc(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); return static_cast(opt->allow_2pc); } /* * Class: org_rocksdb_Options * Method: setRowCache * Signature: (JJ)V */ void Java_org_rocksdb_Options_setRowCache(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jrow_cache_handle) { auto* opt = reinterpret_cast(jhandle); auto* row_cache = reinterpret_cast*>(jrow_cache_handle); opt->row_cache = *row_cache; } /* * Class: org_rocksdb_Options * Method: setFailIfOptionsFileError * Signature: (JZ)V */ void Java_org_rocksdb_Options_setFailIfOptionsFileError( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean jfail_if_options_file_error) { auto* opt = reinterpret_cast(jhandle); opt->fail_if_options_file_error = static_cast(jfail_if_options_file_error); } /* * Class: org_rocksdb_Options * Method: failIfOptionsFileError * Signature: (J)Z */ jboolean Java_org_rocksdb_Options_failIfOptionsFileError(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); return static_cast(opt->fail_if_options_file_error); } /* * Class: org_rocksdb_Options * Method: setDumpMallocStats * Signature: (JZ)V */ void Java_org_rocksdb_Options_setDumpMallocStats(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean jdump_malloc_stats) { auto* opt = reinterpret_cast(jhandle); opt->dump_malloc_stats = static_cast(jdump_malloc_stats); } /* * Class: org_rocksdb_Options * Method: dumpMallocStats * Signature: (J)Z */ jboolean Java_org_rocksdb_Options_dumpMallocStats(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); return static_cast(opt->dump_malloc_stats); } /* * Class: org_rocksdb_Options * Method: setAvoidFlushDuringRecovery * Signature: (JZ)V */ void Java_org_rocksdb_Options_setAvoidFlushDuringRecovery( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean javoid_flush_during_recovery) { auto* opt = reinterpret_cast(jhandle); opt->avoid_flush_during_recovery = static_cast(javoid_flush_during_recovery); } /* * Class: org_rocksdb_Options * Method: avoidFlushDuringRecovery * Signature: (J)Z */ jboolean Java_org_rocksdb_Options_avoidFlushDuringRecovery(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); return static_cast(opt->avoid_flush_during_recovery); } /* * Class: org_rocksdb_Options * Method: setAvoidFlushDuringShutdown * Signature: (JZ)V */ void Java_org_rocksdb_Options_setAvoidFlushDuringShutdown( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean javoid_flush_during_shutdown) { auto* opt = reinterpret_cast(jhandle); opt->avoid_flush_during_shutdown = static_cast(javoid_flush_during_shutdown); } /* * Class: org_rocksdb_Options * Method: avoidFlushDuringShutdown * Signature: (J)Z */ jboolean Java_org_rocksdb_Options_avoidFlushDuringShutdown(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); return static_cast(opt->avoid_flush_during_shutdown); } /* * Method: tableFactoryName * Signature: (J)Ljava/lang/String */ jstring Java_org_rocksdb_Options_tableFactoryName(JNIEnv* env, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); rocksdb::TableFactory* tf = opt->table_factory.get(); // Should never be nullptr. // Default memtable factory is SkipListFactory assert(tf); return env->NewStringUTF(tf->Name()); } /* * Class: org_rocksdb_Options * Method: minWriteBufferNumberToMerge * Signature: (J)I */ jint Java_org_rocksdb_Options_minWriteBufferNumberToMerge(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->min_write_buffer_number_to_merge; } /* * Class: org_rocksdb_Options * Method: setMinWriteBufferNumberToMerge * Signature: (JI)V */ void Java_org_rocksdb_Options_setMinWriteBufferNumberToMerge( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint jmin_write_buffer_number_to_merge) { reinterpret_cast(jhandle) ->min_write_buffer_number_to_merge = static_cast(jmin_write_buffer_number_to_merge); } /* * Class: org_rocksdb_Options * Method: maxWriteBufferNumberToMaintain * Signature: (J)I */ jint Java_org_rocksdb_Options_maxWriteBufferNumberToMaintain(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->max_write_buffer_number_to_maintain; } /* * Class: org_rocksdb_Options * Method: setMaxWriteBufferNumberToMaintain * Signature: (JI)V */ void Java_org_rocksdb_Options_setMaxWriteBufferNumberToMaintain( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint jmax_write_buffer_number_to_maintain) { reinterpret_cast(jhandle) ->max_write_buffer_number_to_maintain = static_cast(jmax_write_buffer_number_to_maintain); } /* * Class: org_rocksdb_Options * Method: setCompressionType * Signature: (JB)V */ void Java_org_rocksdb_Options_setCompressionType( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jbyte jcompression_type_value) { auto* opts = reinterpret_cast(jhandle); opts->compression = rocksdb::CompressionTypeJni::toCppCompressionType( jcompression_type_value); } /* * Class: org_rocksdb_Options * Method: compressionType * Signature: (J)B */ jbyte Java_org_rocksdb_Options_compressionType(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opts = reinterpret_cast(jhandle); return rocksdb::CompressionTypeJni::toJavaCompressionType(opts->compression); } /** * Helper method to convert a Java byte array of compression levels * to a C++ vector of rocksdb::CompressionType * * @param env A pointer to the Java environment * @param jcompression_levels A reference to a java byte array * where each byte indicates a compression level * * @return A unique_ptr to the vector, or unique_ptr(nullptr) if a JNI exception * occurs */ std::unique_ptr> rocksdb_compression_vector_helper(JNIEnv* env, jbyteArray jcompression_levels) { jsize len = env->GetArrayLength(jcompression_levels); jbyte* jcompression_level = env->GetByteArrayElements(jcompression_levels, nullptr); if (jcompression_level == nullptr) { // exception thrown: OutOfMemoryError return std::unique_ptr>(); } auto* compression_levels = new std::vector(); std::unique_ptr> uptr_compression_levels(compression_levels); for (jsize i = 0; i < len; i++) { jbyte jcl = jcompression_level[i]; compression_levels->push_back(static_cast(jcl)); } env->ReleaseByteArrayElements(jcompression_levels, jcompression_level, JNI_ABORT); return uptr_compression_levels; } /** * Helper method to convert a C++ vector of rocksdb::CompressionType * to a Java byte array of compression levels * * @param env A pointer to the Java environment * @param jcompression_levels A reference to a java byte array * where each byte indicates a compression level * * @return A jbytearray or nullptr if an exception occurs */ jbyteArray rocksdb_compression_list_helper( JNIEnv* env, std::vector compression_levels) { const size_t len = compression_levels.size(); jbyte* jbuf = new jbyte[len]; for (size_t i = 0; i < len; i++) { jbuf[i] = compression_levels[i]; } // insert in java array jbyteArray jcompression_levels = env->NewByteArray(static_cast(len)); if (jcompression_levels == nullptr) { // exception thrown: OutOfMemoryError delete[] jbuf; return nullptr; } env->SetByteArrayRegion(jcompression_levels, 0, static_cast(len), jbuf); if (env->ExceptionCheck()) { // exception thrown: ArrayIndexOutOfBoundsException env->DeleteLocalRef(jcompression_levels); delete[] jbuf; return nullptr; } delete[] jbuf; return jcompression_levels; } /* * Class: org_rocksdb_Options * Method: setCompressionPerLevel * Signature: (J[B)V */ void Java_org_rocksdb_Options_setCompressionPerLevel( JNIEnv* env, jobject /*jobj*/, jlong jhandle, jbyteArray jcompressionLevels) { auto uptr_compression_levels = rocksdb_compression_vector_helper(env, jcompressionLevels); if (!uptr_compression_levels) { // exception occurred return; } auto* options = reinterpret_cast(jhandle); options->compression_per_level = *(uptr_compression_levels.get()); } /* * Class: org_rocksdb_Options * Method: compressionPerLevel * Signature: (J)[B */ jbyteArray Java_org_rocksdb_Options_compressionPerLevel(JNIEnv* env, jobject /*jobj*/, jlong jhandle) { auto* options = reinterpret_cast(jhandle); return rocksdb_compression_list_helper(env, options->compression_per_level); } /* * Class: org_rocksdb_Options * Method: setBottommostCompressionType * Signature: (JB)V */ void Java_org_rocksdb_Options_setBottommostCompressionType( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jbyte jcompression_type_value) { auto* options = reinterpret_cast(jhandle); options->bottommost_compression = rocksdb::CompressionTypeJni::toCppCompressionType( jcompression_type_value); } /* * Class: org_rocksdb_Options * Method: bottommostCompressionType * Signature: (J)B */ jbyte Java_org_rocksdb_Options_bottommostCompressionType(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* options = reinterpret_cast(jhandle); return rocksdb::CompressionTypeJni::toJavaCompressionType( options->bottommost_compression); } /* * Class: org_rocksdb_Options * Method: setBottommostCompressionOptions * Signature: (JJ)V */ void Java_org_rocksdb_Options_setBottommostCompressionOptions( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jbottommost_compression_options_handle) { auto* options = reinterpret_cast(jhandle); auto* bottommost_compression_options = reinterpret_cast( jbottommost_compression_options_handle); options->bottommost_compression_opts = *bottommost_compression_options; } /* * Class: org_rocksdb_Options * Method: setCompressionOptions * Signature: (JJ)V */ void Java_org_rocksdb_Options_setCompressionOptions( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jcompression_options_handle) { auto* options = reinterpret_cast(jhandle); auto* compression_options = reinterpret_cast( jcompression_options_handle); options->compression_opts = *compression_options; } /* * Class: org_rocksdb_Options * Method: setCompactionStyle * Signature: (JB)V */ void Java_org_rocksdb_Options_setCompactionStyle(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jbyte compaction_style) { reinterpret_cast(jhandle)->compaction_style = static_cast(compaction_style); } /* * Class: org_rocksdb_Options * Method: compactionStyle * Signature: (J)B */ jbyte Java_org_rocksdb_Options_compactionStyle(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->compaction_style; } /* * Class: org_rocksdb_Options * Method: setMaxTableFilesSizeFIFO * Signature: (JJ)V */ void Java_org_rocksdb_Options_setMaxTableFilesSizeFIFO( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jmax_table_files_size) { reinterpret_cast(jhandle) ->compaction_options_fifo.max_table_files_size = static_cast(jmax_table_files_size); } /* * Class: org_rocksdb_Options * Method: maxTableFilesSizeFIFO * Signature: (J)J */ jlong Java_org_rocksdb_Options_maxTableFilesSizeFIFO(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->compaction_options_fifo.max_table_files_size; } /* * Class: org_rocksdb_Options * Method: numLevels * Signature: (J)I */ jint Java_org_rocksdb_Options_numLevels(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->num_levels; } /* * Class: org_rocksdb_Options * Method: setNumLevels * Signature: (JI)V */ void Java_org_rocksdb_Options_setNumLevels(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint jnum_levels) { reinterpret_cast(jhandle)->num_levels = static_cast(jnum_levels); } /* * Class: org_rocksdb_Options * Method: levelZeroFileNumCompactionTrigger * Signature: (J)I */ jint Java_org_rocksdb_Options_levelZeroFileNumCompactionTrigger( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->level0_file_num_compaction_trigger; } /* * Class: org_rocksdb_Options * Method: setLevelZeroFileNumCompactionTrigger * Signature: (JI)V */ void Java_org_rocksdb_Options_setLevelZeroFileNumCompactionTrigger( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint jlevel0_file_num_compaction_trigger) { reinterpret_cast(jhandle) ->level0_file_num_compaction_trigger = static_cast(jlevel0_file_num_compaction_trigger); } /* * Class: org_rocksdb_Options * Method: levelZeroSlowdownWritesTrigger * Signature: (J)I */ jint Java_org_rocksdb_Options_levelZeroSlowdownWritesTrigger(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->level0_slowdown_writes_trigger; } /* * Class: org_rocksdb_Options * Method: setLevelSlowdownWritesTrigger * Signature: (JI)V */ void Java_org_rocksdb_Options_setLevelZeroSlowdownWritesTrigger( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint jlevel0_slowdown_writes_trigger) { reinterpret_cast(jhandle)->level0_slowdown_writes_trigger = static_cast(jlevel0_slowdown_writes_trigger); } /* * Class: org_rocksdb_Options * Method: levelZeroStopWritesTrigger * Signature: (J)I */ jint Java_org_rocksdb_Options_levelZeroStopWritesTrigger(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->level0_stop_writes_trigger; } /* * Class: org_rocksdb_Options * Method: setLevelStopWritesTrigger * Signature: (JI)V */ void Java_org_rocksdb_Options_setLevelZeroStopWritesTrigger( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint jlevel0_stop_writes_trigger) { reinterpret_cast(jhandle)->level0_stop_writes_trigger = static_cast(jlevel0_stop_writes_trigger); } /* * Class: org_rocksdb_Options * Method: targetFileSizeBase * Signature: (J)J */ jlong Java_org_rocksdb_Options_targetFileSizeBase(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->target_file_size_base; } /* * Class: org_rocksdb_Options * Method: setTargetFileSizeBase * Signature: (JJ)V */ void Java_org_rocksdb_Options_setTargetFileSizeBase( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jtarget_file_size_base) { reinterpret_cast(jhandle)->target_file_size_base = static_cast(jtarget_file_size_base); } /* * Class: org_rocksdb_Options * Method: targetFileSizeMultiplier * Signature: (J)I */ jint Java_org_rocksdb_Options_targetFileSizeMultiplier(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->target_file_size_multiplier; } /* * Class: org_rocksdb_Options * Method: setTargetFileSizeMultiplier * Signature: (JI)V */ void Java_org_rocksdb_Options_setTargetFileSizeMultiplier( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint jtarget_file_size_multiplier) { reinterpret_cast(jhandle)->target_file_size_multiplier = static_cast(jtarget_file_size_multiplier); } /* * Class: org_rocksdb_Options * Method: maxBytesForLevelBase * Signature: (J)J */ jlong Java_org_rocksdb_Options_maxBytesForLevelBase(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->max_bytes_for_level_base; } /* * Class: org_rocksdb_Options * Method: setMaxBytesForLevelBase * Signature: (JJ)V */ void Java_org_rocksdb_Options_setMaxBytesForLevelBase( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jmax_bytes_for_level_base) { reinterpret_cast(jhandle)->max_bytes_for_level_base = static_cast(jmax_bytes_for_level_base); } /* * Class: org_rocksdb_Options * Method: levelCompactionDynamicLevelBytes * Signature: (J)Z */ jboolean Java_org_rocksdb_Options_levelCompactionDynamicLevelBytes( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->level_compaction_dynamic_level_bytes; } /* * Class: org_rocksdb_Options * Method: setLevelCompactionDynamicLevelBytes * Signature: (JZ)V */ void Java_org_rocksdb_Options_setLevelCompactionDynamicLevelBytes( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean jenable_dynamic_level_bytes) { reinterpret_cast(jhandle) ->level_compaction_dynamic_level_bytes = (jenable_dynamic_level_bytes); } /* * Class: org_rocksdb_Options * Method: maxBytesForLevelMultiplier * Signature: (J)D */ jdouble Java_org_rocksdb_Options_maxBytesForLevelMultiplier(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->max_bytes_for_level_multiplier; } /* * Class: org_rocksdb_Options * Method: setMaxBytesForLevelMultiplier * Signature: (JD)V */ void Java_org_rocksdb_Options_setMaxBytesForLevelMultiplier( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jdouble jmax_bytes_for_level_multiplier) { reinterpret_cast(jhandle)->max_bytes_for_level_multiplier = static_cast(jmax_bytes_for_level_multiplier); } /* * Class: org_rocksdb_Options * Method: maxCompactionBytes * Signature: (J)I */ jlong Java_org_rocksdb_Options_maxCompactionBytes(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return static_cast( reinterpret_cast(jhandle)->max_compaction_bytes); } /* * Class: org_rocksdb_Options * Method: setMaxCompactionBytes * Signature: (JI)V */ void Java_org_rocksdb_Options_setMaxCompactionBytes( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jmax_compaction_bytes) { reinterpret_cast(jhandle)->max_compaction_bytes = static_cast(jmax_compaction_bytes); } /* * Class: org_rocksdb_Options * Method: arenaBlockSize * Signature: (J)J */ jlong Java_org_rocksdb_Options_arenaBlockSize(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->arena_block_size; } /* * Class: org_rocksdb_Options * Method: setArenaBlockSize * Signature: (JJ)V */ void Java_org_rocksdb_Options_setArenaBlockSize(JNIEnv* env, jobject /*jobj*/, jlong jhandle, jlong jarena_block_size) { rocksdb::Status s = rocksdb::check_if_jlong_fits_size_t(jarena_block_size); if (s.ok()) { reinterpret_cast(jhandle)->arena_block_size = jarena_block_size; } else { rocksdb::IllegalArgumentExceptionJni::ThrowNew(env, s); } } /* * Class: org_rocksdb_Options * Method: disableAutoCompactions * Signature: (J)Z */ jboolean Java_org_rocksdb_Options_disableAutoCompactions(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->disable_auto_compactions; } /* * Class: org_rocksdb_Options * Method: setDisableAutoCompactions * Signature: (JZ)V */ void Java_org_rocksdb_Options_setDisableAutoCompactions( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean jdisable_auto_compactions) { reinterpret_cast(jhandle)->disable_auto_compactions = static_cast(jdisable_auto_compactions); } /* * Class: org_rocksdb_Options * Method: maxSequentialSkipInIterations * Signature: (J)J */ jlong Java_org_rocksdb_Options_maxSequentialSkipInIterations(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->max_sequential_skip_in_iterations; } /* * Class: org_rocksdb_Options * Method: setMaxSequentialSkipInIterations * Signature: (JJ)V */ void Java_org_rocksdb_Options_setMaxSequentialSkipInIterations( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jmax_sequential_skip_in_iterations) { reinterpret_cast(jhandle) ->max_sequential_skip_in_iterations = static_cast(jmax_sequential_skip_in_iterations); } /* * Class: org_rocksdb_Options * Method: inplaceUpdateSupport * Signature: (J)Z */ jboolean Java_org_rocksdb_Options_inplaceUpdateSupport(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->inplace_update_support; } /* * Class: org_rocksdb_Options * Method: setInplaceUpdateSupport * Signature: (JZ)V */ void Java_org_rocksdb_Options_setInplaceUpdateSupport( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean jinplace_update_support) { reinterpret_cast(jhandle)->inplace_update_support = static_cast(jinplace_update_support); } /* * Class: org_rocksdb_Options * Method: inplaceUpdateNumLocks * Signature: (J)J */ jlong Java_org_rocksdb_Options_inplaceUpdateNumLocks(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->inplace_update_num_locks; } /* * Class: org_rocksdb_Options * Method: setInplaceUpdateNumLocks * Signature: (JJ)V */ void Java_org_rocksdb_Options_setInplaceUpdateNumLocks( JNIEnv* env, jobject /*jobj*/, jlong jhandle, jlong jinplace_update_num_locks) { rocksdb::Status s = rocksdb::check_if_jlong_fits_size_t(jinplace_update_num_locks); if (s.ok()) { reinterpret_cast(jhandle)->inplace_update_num_locks = jinplace_update_num_locks; } else { rocksdb::IllegalArgumentExceptionJni::ThrowNew(env, s); } } /* * Class: org_rocksdb_Options * Method: memtablePrefixBloomSizeRatio * Signature: (J)I */ jdouble Java_org_rocksdb_Options_memtablePrefixBloomSizeRatio(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->memtable_prefix_bloom_size_ratio; } /* * Class: org_rocksdb_Options * Method: setMemtablePrefixBloomSizeRatio * Signature: (JI)V */ void Java_org_rocksdb_Options_setMemtablePrefixBloomSizeRatio( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jdouble jmemtable_prefix_bloom_size_ratio) { reinterpret_cast(jhandle) ->memtable_prefix_bloom_size_ratio = static_cast(jmemtable_prefix_bloom_size_ratio); } /* * Class: org_rocksdb_Options * Method: bloomLocality * Signature: (J)I */ jint Java_org_rocksdb_Options_bloomLocality(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->bloom_locality; } /* * Class: org_rocksdb_Options * Method: setBloomLocality * Signature: (JI)V */ void Java_org_rocksdb_Options_setBloomLocality(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint jbloom_locality) { reinterpret_cast(jhandle)->bloom_locality = static_cast(jbloom_locality); } /* * Class: org_rocksdb_Options * Method: maxSuccessiveMerges * Signature: (J)J */ jlong Java_org_rocksdb_Options_maxSuccessiveMerges(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->max_successive_merges; } /* * Class: org_rocksdb_Options * Method: setMaxSuccessiveMerges * Signature: (JJ)V */ void Java_org_rocksdb_Options_setMaxSuccessiveMerges( JNIEnv* env, jobject /*jobj*/, jlong jhandle, jlong jmax_successive_merges) { rocksdb::Status s = rocksdb::check_if_jlong_fits_size_t(jmax_successive_merges); if (s.ok()) { reinterpret_cast(jhandle)->max_successive_merges = jmax_successive_merges; } else { rocksdb::IllegalArgumentExceptionJni::ThrowNew(env, s); } } /* * Class: org_rocksdb_Options * Method: optimizeFiltersForHits * Signature: (J)Z */ jboolean Java_org_rocksdb_Options_optimizeFiltersForHits(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->optimize_filters_for_hits; } /* * Class: org_rocksdb_Options * Method: setOptimizeFiltersForHits * Signature: (JZ)V */ void Java_org_rocksdb_Options_setOptimizeFiltersForHits( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean joptimize_filters_for_hits) { reinterpret_cast(jhandle)->optimize_filters_for_hits = static_cast(joptimize_filters_for_hits); } /* * Class: org_rocksdb_Options * Method: optimizeForSmallDb * Signature: (J)V */ void Java_org_rocksdb_Options_optimizeForSmallDb(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { reinterpret_cast(jhandle)->OptimizeForSmallDb(); } /* * Class: org_rocksdb_Options * Method: optimizeForPointLookup * Signature: (JJ)V */ void Java_org_rocksdb_Options_optimizeForPointLookup( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong block_cache_size_mb) { reinterpret_cast(jhandle)->OptimizeForPointLookup( block_cache_size_mb); } /* * Class: org_rocksdb_Options * Method: optimizeLevelStyleCompaction * Signature: (JJ)V */ void Java_org_rocksdb_Options_optimizeLevelStyleCompaction( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong memtable_memory_budget) { reinterpret_cast(jhandle)->OptimizeLevelStyleCompaction( memtable_memory_budget); } /* * Class: org_rocksdb_Options * Method: optimizeUniversalStyleCompaction * Signature: (JJ)V */ void Java_org_rocksdb_Options_optimizeUniversalStyleCompaction( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong memtable_memory_budget) { reinterpret_cast(jhandle) ->OptimizeUniversalStyleCompaction(memtable_memory_budget); } /* * Class: org_rocksdb_Options * Method: prepareForBulkLoad * Signature: (J)V */ void Java_org_rocksdb_Options_prepareForBulkLoad(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { reinterpret_cast(jhandle)->PrepareForBulkLoad(); } /* * Class: org_rocksdb_Options * Method: memtableHugePageSize * Signature: (J)J */ jlong Java_org_rocksdb_Options_memtableHugePageSize(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->memtable_huge_page_size; } /* * Class: org_rocksdb_Options * Method: setMemtableHugePageSize * Signature: (JJ)V */ void Java_org_rocksdb_Options_setMemtableHugePageSize( JNIEnv* env, jobject /*jobj*/, jlong jhandle, jlong jmemtable_huge_page_size) { rocksdb::Status s = rocksdb::check_if_jlong_fits_size_t(jmemtable_huge_page_size); if (s.ok()) { reinterpret_cast(jhandle)->memtable_huge_page_size = jmemtable_huge_page_size; } else { rocksdb::IllegalArgumentExceptionJni::ThrowNew(env, s); } } /* * Class: org_rocksdb_Options * Method: softPendingCompactionBytesLimit * Signature: (J)J */ jlong Java_org_rocksdb_Options_softPendingCompactionBytesLimit(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->soft_pending_compaction_bytes_limit; } /* * Class: org_rocksdb_Options * Method: setSoftPendingCompactionBytesLimit * Signature: (JJ)V */ void Java_org_rocksdb_Options_setSoftPendingCompactionBytesLimit( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jsoft_pending_compaction_bytes_limit) { reinterpret_cast(jhandle) ->soft_pending_compaction_bytes_limit = static_cast(jsoft_pending_compaction_bytes_limit); } /* * Class: org_rocksdb_Options * Method: softHardCompactionBytesLimit * Signature: (J)J */ jlong Java_org_rocksdb_Options_hardPendingCompactionBytesLimit(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->hard_pending_compaction_bytes_limit; } /* * Class: org_rocksdb_Options * Method: setHardPendingCompactionBytesLimit * Signature: (JJ)V */ void Java_org_rocksdb_Options_setHardPendingCompactionBytesLimit( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jhard_pending_compaction_bytes_limit) { reinterpret_cast(jhandle) ->hard_pending_compaction_bytes_limit = static_cast(jhard_pending_compaction_bytes_limit); } /* * Class: org_rocksdb_Options * Method: level0FileNumCompactionTrigger * Signature: (J)I */ jint Java_org_rocksdb_Options_level0FileNumCompactionTrigger(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->level0_file_num_compaction_trigger; } /* * Class: org_rocksdb_Options * Method: setLevel0FileNumCompactionTrigger * Signature: (JI)V */ void Java_org_rocksdb_Options_setLevel0FileNumCompactionTrigger( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint jlevel0_file_num_compaction_trigger) { reinterpret_cast(jhandle) ->level0_file_num_compaction_trigger = static_cast(jlevel0_file_num_compaction_trigger); } /* * Class: org_rocksdb_Options * Method: level0SlowdownWritesTrigger * Signature: (J)I */ jint Java_org_rocksdb_Options_level0SlowdownWritesTrigger(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->level0_slowdown_writes_trigger; } /* * Class: org_rocksdb_Options * Method: setLevel0SlowdownWritesTrigger * Signature: (JI)V */ void Java_org_rocksdb_Options_setLevel0SlowdownWritesTrigger( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint jlevel0_slowdown_writes_trigger) { reinterpret_cast(jhandle)->level0_slowdown_writes_trigger = static_cast(jlevel0_slowdown_writes_trigger); } /* * Class: org_rocksdb_Options * Method: level0StopWritesTrigger * Signature: (J)I */ jint Java_org_rocksdb_Options_level0StopWritesTrigger(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->level0_stop_writes_trigger; } /* * Class: org_rocksdb_Options * Method: setLevel0StopWritesTrigger * Signature: (JI)V */ void Java_org_rocksdb_Options_setLevel0StopWritesTrigger( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint jlevel0_stop_writes_trigger) { reinterpret_cast(jhandle)->level0_stop_writes_trigger = static_cast(jlevel0_stop_writes_trigger); } /* * Class: org_rocksdb_Options * Method: maxBytesForLevelMultiplierAdditional * Signature: (J)[I */ jintArray Java_org_rocksdb_Options_maxBytesForLevelMultiplierAdditional( JNIEnv* env, jobject /*jobj*/, jlong jhandle) { auto mbflma = reinterpret_cast(jhandle) ->max_bytes_for_level_multiplier_additional; const size_t size = mbflma.size(); jint* additionals = new jint[size]; for (size_t i = 0; i < size; i++) { additionals[i] = static_cast(mbflma[i]); } jsize jlen = static_cast(size); jintArray result = env->NewIntArray(jlen); if (result == nullptr) { // exception thrown: OutOfMemoryError delete[] additionals; return nullptr; } env->SetIntArrayRegion(result, 0, jlen, additionals); if (env->ExceptionCheck()) { // exception thrown: ArrayIndexOutOfBoundsException env->DeleteLocalRef(result); delete[] additionals; return nullptr; } delete[] additionals; return result; } /* * Class: org_rocksdb_Options * Method: setMaxBytesForLevelMultiplierAdditional * Signature: (J[I)V */ void Java_org_rocksdb_Options_setMaxBytesForLevelMultiplierAdditional( JNIEnv* env, jobject /*jobj*/, jlong jhandle, jintArray jmax_bytes_for_level_multiplier_additional) { jsize len = env->GetArrayLength(jmax_bytes_for_level_multiplier_additional); jint* additionals = env->GetIntArrayElements( jmax_bytes_for_level_multiplier_additional, nullptr); if (additionals == nullptr) { // exception thrown: OutOfMemoryError return; } auto* opt = reinterpret_cast(jhandle); opt->max_bytes_for_level_multiplier_additional.clear(); for (jsize i = 0; i < len; i++) { opt->max_bytes_for_level_multiplier_additional.push_back( static_cast(additionals[i])); } env->ReleaseIntArrayElements(jmax_bytes_for_level_multiplier_additional, additionals, JNI_ABORT); } /* * Class: org_rocksdb_Options * Method: paranoidFileChecks * Signature: (J)Z */ jboolean Java_org_rocksdb_Options_paranoidFileChecks(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->paranoid_file_checks; } /* * Class: org_rocksdb_Options * Method: setParanoidFileChecks * Signature: (JZ)V */ void Java_org_rocksdb_Options_setParanoidFileChecks( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean jparanoid_file_checks) { reinterpret_cast(jhandle)->paranoid_file_checks = static_cast(jparanoid_file_checks); } /* * Class: org_rocksdb_Options * Method: setCompactionPriority * Signature: (JB)V */ void Java_org_rocksdb_Options_setCompactionPriority( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jbyte jcompaction_priority_value) { auto* opts = reinterpret_cast(jhandle); opts->compaction_pri = rocksdb::CompactionPriorityJni::toCppCompactionPriority( jcompaction_priority_value); } /* * Class: org_rocksdb_Options * Method: compactionPriority * Signature: (J)B */ jbyte Java_org_rocksdb_Options_compactionPriority(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opts = reinterpret_cast(jhandle); return rocksdb::CompactionPriorityJni::toJavaCompactionPriority( opts->compaction_pri); } /* * Class: org_rocksdb_Options * Method: setReportBgIoStats * Signature: (JZ)V */ void Java_org_rocksdb_Options_setReportBgIoStats(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean jreport_bg_io_stats) { auto* opts = reinterpret_cast(jhandle); opts->report_bg_io_stats = static_cast(jreport_bg_io_stats); } /* * Class: org_rocksdb_Options * Method: reportBgIoStats * Signature: (J)Z */ jboolean Java_org_rocksdb_Options_reportBgIoStats(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opts = reinterpret_cast(jhandle); return static_cast(opts->report_bg_io_stats); } /* * Class: org_rocksdb_Options * Method: setCompactionOptionsUniversal * Signature: (JJ)V */ void Java_org_rocksdb_Options_setCompactionOptionsUniversal( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jcompaction_options_universal_handle) { auto* opts = reinterpret_cast(jhandle); auto* opts_uni = reinterpret_cast( jcompaction_options_universal_handle); opts->compaction_options_universal = *opts_uni; } /* * Class: org_rocksdb_Options * Method: setCompactionOptionsFIFO * Signature: (JJ)V */ void Java_org_rocksdb_Options_setCompactionOptionsFIFO( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jcompaction_options_fifo_handle) { auto* opts = reinterpret_cast(jhandle); auto* opts_fifo = reinterpret_cast( jcompaction_options_fifo_handle); opts->compaction_options_fifo = *opts_fifo; } /* * Class: org_rocksdb_Options * Method: setForceConsistencyChecks * Signature: (JZ)V */ void Java_org_rocksdb_Options_setForceConsistencyChecks( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean jforce_consistency_checks) { auto* opts = reinterpret_cast(jhandle); opts->force_consistency_checks = static_cast(jforce_consistency_checks); } /* * Class: org_rocksdb_Options * Method: forceConsistencyChecks * Signature: (J)Z */ jboolean Java_org_rocksdb_Options_forceConsistencyChecks(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opts = reinterpret_cast(jhandle); return static_cast(opts->force_consistency_checks); } ////////////////////////////////////////////////////////////////////////////// // rocksdb::ColumnFamilyOptions /* * Class: org_rocksdb_ColumnFamilyOptions * Method: newColumnFamilyOptions * Signature: ()J */ jlong Java_org_rocksdb_ColumnFamilyOptions_newColumnFamilyOptions( JNIEnv* /*env*/, jclass /*jcls*/) { auto* op = new rocksdb::ColumnFamilyOptions(); return reinterpret_cast(op); } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: copyColumnFamilyOptions * Signature: (J)J */ jlong Java_org_rocksdb_ColumnFamilyOptions_copyColumnFamilyOptions( JNIEnv* /*env*/, jclass /*jcls*/, jlong jhandle) { auto new_opt = new rocksdb::ColumnFamilyOptions( *(reinterpret_cast(jhandle))); return reinterpret_cast(new_opt); } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: getColumnFamilyOptionsFromProps * Signature: (Ljava/util/String;)J */ jlong Java_org_rocksdb_ColumnFamilyOptions_getColumnFamilyOptionsFromProps( JNIEnv* env, jclass /*jclazz*/, jstring jopt_string) { const char* opt_string = env->GetStringUTFChars(jopt_string, nullptr); if (opt_string == nullptr) { // exception thrown: OutOfMemoryError return 0; } auto* cf_options = new rocksdb::ColumnFamilyOptions(); rocksdb::Status status = rocksdb::GetColumnFamilyOptionsFromString( rocksdb::ColumnFamilyOptions(), opt_string, cf_options); env->ReleaseStringUTFChars(jopt_string, opt_string); // Check if ColumnFamilyOptions creation was possible. jlong ret_value = 0; if (status.ok()) { ret_value = reinterpret_cast(cf_options); } else { // if operation failed the ColumnFamilyOptions need to be deleted // again to prevent a memory leak. delete cf_options; } return ret_value; } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: disposeInternal * Signature: (J)V */ void Java_org_rocksdb_ColumnFamilyOptions_disposeInternal(JNIEnv* /*env*/, jobject /*jobj*/, jlong handle) { auto* cfo = reinterpret_cast(handle); assert(cfo != nullptr); delete cfo; } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: optimizeForSmallDb * Signature: (J)V */ void Java_org_rocksdb_ColumnFamilyOptions_optimizeForSmallDb(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { reinterpret_cast(jhandle) ->OptimizeForSmallDb(); } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: optimizeForPointLookup * Signature: (JJ)V */ void Java_org_rocksdb_ColumnFamilyOptions_optimizeForPointLookup( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong block_cache_size_mb) { reinterpret_cast(jhandle) ->OptimizeForPointLookup(block_cache_size_mb); } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: optimizeLevelStyleCompaction * Signature: (JJ)V */ void Java_org_rocksdb_ColumnFamilyOptions_optimizeLevelStyleCompaction( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong memtable_memory_budget) { reinterpret_cast(jhandle) ->OptimizeLevelStyleCompaction(memtable_memory_budget); } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: optimizeUniversalStyleCompaction * Signature: (JJ)V */ void Java_org_rocksdb_ColumnFamilyOptions_optimizeUniversalStyleCompaction( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong memtable_memory_budget) { reinterpret_cast(jhandle) ->OptimizeUniversalStyleCompaction(memtable_memory_budget); } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: setComparatorHandle * Signature: (JI)V */ void Java_org_rocksdb_ColumnFamilyOptions_setComparatorHandle__JI( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint builtinComparator) { switch (builtinComparator) { case 1: reinterpret_cast(jhandle)->comparator = rocksdb::ReverseBytewiseComparator(); break; default: reinterpret_cast(jhandle)->comparator = rocksdb::BytewiseComparator(); break; } } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: setComparatorHandle * Signature: (JJB)V */ void Java_org_rocksdb_ColumnFamilyOptions_setComparatorHandle__JJB( JNIEnv* /*env*/, jobject /*jobj*/, jlong jopt_handle, jlong jcomparator_handle, jbyte jcomparator_type) { rocksdb::Comparator* comparator = nullptr; switch (jcomparator_type) { // JAVA_COMPARATOR case 0x0: comparator = reinterpret_cast(jcomparator_handle); break; // JAVA_DIRECT_COMPARATOR case 0x1: comparator = reinterpret_cast( jcomparator_handle); break; // JAVA_NATIVE_COMPARATOR_WRAPPER case 0x2: comparator = reinterpret_cast(jcomparator_handle); break; } auto* opt = reinterpret_cast(jopt_handle); opt->comparator = comparator; } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: setMergeOperatorName * Signature: (JJjava/lang/String)V */ void Java_org_rocksdb_ColumnFamilyOptions_setMergeOperatorName( JNIEnv* env, jobject /*jobj*/, jlong jhandle, jstring jop_name) { auto* options = reinterpret_cast(jhandle); const char* op_name = env->GetStringUTFChars(jop_name, nullptr); if (op_name == nullptr) { // exception thrown: OutOfMemoryError return; } options->merge_operator = rocksdb::MergeOperators::CreateFromStringId(op_name); env->ReleaseStringUTFChars(jop_name, op_name); } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: setMergeOperator * Signature: (JJjava/lang/String)V */ void Java_org_rocksdb_ColumnFamilyOptions_setMergeOperator( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong mergeOperatorHandle) { reinterpret_cast(jhandle)->merge_operator = *(reinterpret_cast*>( mergeOperatorHandle)); } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: setCompactionFilterHandle * Signature: (JJ)V */ void Java_org_rocksdb_ColumnFamilyOptions_setCompactionFilterHandle( JNIEnv* /*env*/, jobject /*jobj*/, jlong jopt_handle, jlong jcompactionfilter_handle) { reinterpret_cast(jopt_handle) ->compaction_filter = reinterpret_cast(jcompactionfilter_handle); } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: setCompactionFilterFactoryHandle * Signature: (JJ)V */ void JNICALL Java_org_rocksdb_ColumnFamilyOptions_setCompactionFilterFactoryHandle( JNIEnv* /*env*/, jobject /*jobj*/, jlong jopt_handle, jlong jcompactionfilterfactory_handle) { auto* cff_factory = reinterpret_cast*>( jcompactionfilterfactory_handle); reinterpret_cast(jopt_handle) ->compaction_filter_factory = *cff_factory; } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: setWriteBufferSize * Signature: (JJ)I */ void Java_org_rocksdb_ColumnFamilyOptions_setWriteBufferSize( JNIEnv* env, jobject /*jobj*/, jlong jhandle, jlong jwrite_buffer_size) { rocksdb::Status s = rocksdb::check_if_jlong_fits_size_t(jwrite_buffer_size); if (s.ok()) { reinterpret_cast(jhandle) ->write_buffer_size = jwrite_buffer_size; } else { rocksdb::IllegalArgumentExceptionJni::ThrowNew(env, s); } } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: writeBufferSize * Signature: (J)J */ jlong Java_org_rocksdb_ColumnFamilyOptions_writeBufferSize(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->write_buffer_size; } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: setMaxWriteBufferNumber * Signature: (JI)V */ void Java_org_rocksdb_ColumnFamilyOptions_setMaxWriteBufferNumber( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint jmax_write_buffer_number) { reinterpret_cast(jhandle) ->max_write_buffer_number = jmax_write_buffer_number; } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: maxWriteBufferNumber * Signature: (J)I */ jint Java_org_rocksdb_ColumnFamilyOptions_maxWriteBufferNumber(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->max_write_buffer_number; } /* * Method: setMemTableFactory * Signature: (JJ)V */ void Java_org_rocksdb_ColumnFamilyOptions_setMemTableFactory( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jfactory_handle) { reinterpret_cast(jhandle) ->memtable_factory.reset( reinterpret_cast(jfactory_handle)); } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: memTableFactoryName * Signature: (J)Ljava/lang/String */ jstring Java_org_rocksdb_ColumnFamilyOptions_memTableFactoryName( JNIEnv* env, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); rocksdb::MemTableRepFactory* tf = opt->memtable_factory.get(); // Should never be nullptr. // Default memtable factory is SkipListFactory assert(tf); // temporarly fix for the historical typo if (strcmp(tf->Name(), "HashLinkListRepFactory") == 0) { return env->NewStringUTF("HashLinkedListRepFactory"); } return env->NewStringUTF(tf->Name()); } /* * Method: useFixedLengthPrefixExtractor * Signature: (JI)V */ void Java_org_rocksdb_ColumnFamilyOptions_useFixedLengthPrefixExtractor( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint jprefix_length) { reinterpret_cast(jhandle) ->prefix_extractor.reset( rocksdb::NewFixedPrefixTransform(static_cast(jprefix_length))); } /* * Method: useCappedPrefixExtractor * Signature: (JI)V */ void Java_org_rocksdb_ColumnFamilyOptions_useCappedPrefixExtractor( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint jprefix_length) { reinterpret_cast(jhandle) ->prefix_extractor.reset( rocksdb::NewCappedPrefixTransform(static_cast(jprefix_length))); } /* * Method: setTableFactory * Signature: (JJ)V */ void Java_org_rocksdb_ColumnFamilyOptions_setTableFactory( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jfactory_handle) { reinterpret_cast(jhandle)->table_factory.reset( reinterpret_cast(jfactory_handle)); } /* * Method: tableFactoryName * Signature: (J)Ljava/lang/String */ jstring Java_org_rocksdb_ColumnFamilyOptions_tableFactoryName(JNIEnv* env, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); rocksdb::TableFactory* tf = opt->table_factory.get(); // Should never be nullptr. // Default memtable factory is SkipListFactory assert(tf); return env->NewStringUTF(tf->Name()); } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: minWriteBufferNumberToMerge * Signature: (J)I */ jint Java_org_rocksdb_ColumnFamilyOptions_minWriteBufferNumberToMerge( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->min_write_buffer_number_to_merge; } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: setMinWriteBufferNumberToMerge * Signature: (JI)V */ void Java_org_rocksdb_ColumnFamilyOptions_setMinWriteBufferNumberToMerge( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint jmin_write_buffer_number_to_merge) { reinterpret_cast(jhandle) ->min_write_buffer_number_to_merge = static_cast(jmin_write_buffer_number_to_merge); } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: maxWriteBufferNumberToMaintain * Signature: (J)I */ jint Java_org_rocksdb_ColumnFamilyOptions_maxWriteBufferNumberToMaintain( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->max_write_buffer_number_to_maintain; } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: setMaxWriteBufferNumberToMaintain * Signature: (JI)V */ void Java_org_rocksdb_ColumnFamilyOptions_setMaxWriteBufferNumberToMaintain( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint jmax_write_buffer_number_to_maintain) { reinterpret_cast(jhandle) ->max_write_buffer_number_to_maintain = static_cast(jmax_write_buffer_number_to_maintain); } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: setCompressionType * Signature: (JB)V */ void Java_org_rocksdb_ColumnFamilyOptions_setCompressionType( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jbyte jcompression_type_value) { auto* cf_opts = reinterpret_cast(jhandle); cf_opts->compression = rocksdb::CompressionTypeJni::toCppCompressionType( jcompression_type_value); } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: compressionType * Signature: (J)B */ jbyte Java_org_rocksdb_ColumnFamilyOptions_compressionType(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* cf_opts = reinterpret_cast(jhandle); return rocksdb::CompressionTypeJni::toJavaCompressionType( cf_opts->compression); } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: setCompressionPerLevel * Signature: (J[B)V */ void Java_org_rocksdb_ColumnFamilyOptions_setCompressionPerLevel( JNIEnv* env, jobject /*jobj*/, jlong jhandle, jbyteArray jcompressionLevels) { auto* options = reinterpret_cast(jhandle); auto uptr_compression_levels = rocksdb_compression_vector_helper(env, jcompressionLevels); if (!uptr_compression_levels) { // exception occurred return; } options->compression_per_level = *(uptr_compression_levels.get()); } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: compressionPerLevel * Signature: (J)[B */ jbyteArray Java_org_rocksdb_ColumnFamilyOptions_compressionPerLevel( JNIEnv* env, jobject /*jobj*/, jlong jhandle) { auto* cf_options = reinterpret_cast(jhandle); return rocksdb_compression_list_helper(env, cf_options->compression_per_level); } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: setBottommostCompressionType * Signature: (JB)V */ void Java_org_rocksdb_ColumnFamilyOptions_setBottommostCompressionType( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jbyte jcompression_type_value) { auto* cf_options = reinterpret_cast(jhandle); cf_options->bottommost_compression = rocksdb::CompressionTypeJni::toCppCompressionType( jcompression_type_value); } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: bottommostCompressionType * Signature: (J)B */ jbyte Java_org_rocksdb_ColumnFamilyOptions_bottommostCompressionType( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* cf_options = reinterpret_cast(jhandle); return rocksdb::CompressionTypeJni::toJavaCompressionType( cf_options->bottommost_compression); } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: setBottommostCompressionOptions * Signature: (JJ)V */ void Java_org_rocksdb_ColumnFamilyOptions_setBottommostCompressionOptions( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jbottommost_compression_options_handle) { auto* cf_options = reinterpret_cast(jhandle); auto* bottommost_compression_options = reinterpret_cast( jbottommost_compression_options_handle); cf_options->bottommost_compression_opts = *bottommost_compression_options; } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: setCompressionOptions * Signature: (JJ)V */ void Java_org_rocksdb_ColumnFamilyOptions_setCompressionOptions( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jcompression_options_handle) { auto* cf_options = reinterpret_cast(jhandle); auto* compression_options = reinterpret_cast( jcompression_options_handle); cf_options->compression_opts = *compression_options; } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: setCompactionStyle * Signature: (JB)V */ void Java_org_rocksdb_ColumnFamilyOptions_setCompactionStyle( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jbyte compaction_style) { reinterpret_cast(jhandle)->compaction_style = static_cast(compaction_style); } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: compactionStyle * Signature: (J)B */ jbyte Java_org_rocksdb_ColumnFamilyOptions_compactionStyle(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->compaction_style; } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: setMaxTableFilesSizeFIFO * Signature: (JJ)V */ void Java_org_rocksdb_ColumnFamilyOptions_setMaxTableFilesSizeFIFO( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jmax_table_files_size) { reinterpret_cast(jhandle) ->compaction_options_fifo.max_table_files_size = static_cast(jmax_table_files_size); } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: maxTableFilesSizeFIFO * Signature: (J)J */ jlong Java_org_rocksdb_ColumnFamilyOptions_maxTableFilesSizeFIFO( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->compaction_options_fifo.max_table_files_size; } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: numLevels * Signature: (J)I */ jint Java_org_rocksdb_ColumnFamilyOptions_numLevels(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->num_levels; } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: setNumLevels * Signature: (JI)V */ void Java_org_rocksdb_ColumnFamilyOptions_setNumLevels(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint jnum_levels) { reinterpret_cast(jhandle)->num_levels = static_cast(jnum_levels); } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: levelZeroFileNumCompactionTrigger * Signature: (J)I */ jint Java_org_rocksdb_ColumnFamilyOptions_levelZeroFileNumCompactionTrigger( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->level0_file_num_compaction_trigger; } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: setLevelZeroFileNumCompactionTrigger * Signature: (JI)V */ void Java_org_rocksdb_ColumnFamilyOptions_setLevelZeroFileNumCompactionTrigger( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint jlevel0_file_num_compaction_trigger) { reinterpret_cast(jhandle) ->level0_file_num_compaction_trigger = static_cast(jlevel0_file_num_compaction_trigger); } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: levelZeroSlowdownWritesTrigger * Signature: (J)I */ jint Java_org_rocksdb_ColumnFamilyOptions_levelZeroSlowdownWritesTrigger( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->level0_slowdown_writes_trigger; } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: setLevelSlowdownWritesTrigger * Signature: (JI)V */ void Java_org_rocksdb_ColumnFamilyOptions_setLevelZeroSlowdownWritesTrigger( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint jlevel0_slowdown_writes_trigger) { reinterpret_cast(jhandle) ->level0_slowdown_writes_trigger = static_cast(jlevel0_slowdown_writes_trigger); } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: levelZeroStopWritesTrigger * Signature: (J)I */ jint Java_org_rocksdb_ColumnFamilyOptions_levelZeroStopWritesTrigger( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->level0_stop_writes_trigger; } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: setLevelStopWritesTrigger * Signature: (JI)V */ void Java_org_rocksdb_ColumnFamilyOptions_setLevelZeroStopWritesTrigger( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint jlevel0_stop_writes_trigger) { reinterpret_cast(jhandle) ->level0_stop_writes_trigger = static_cast(jlevel0_stop_writes_trigger); } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: targetFileSizeBase * Signature: (J)J */ jlong Java_org_rocksdb_ColumnFamilyOptions_targetFileSizeBase(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->target_file_size_base; } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: setTargetFileSizeBase * Signature: (JJ)V */ void Java_org_rocksdb_ColumnFamilyOptions_setTargetFileSizeBase( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jtarget_file_size_base) { reinterpret_cast(jhandle) ->target_file_size_base = static_cast(jtarget_file_size_base); } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: targetFileSizeMultiplier * Signature: (J)I */ jint Java_org_rocksdb_ColumnFamilyOptions_targetFileSizeMultiplier( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->target_file_size_multiplier; } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: setTargetFileSizeMultiplier * Signature: (JI)V */ void Java_org_rocksdb_ColumnFamilyOptions_setTargetFileSizeMultiplier( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint jtarget_file_size_multiplier) { reinterpret_cast(jhandle) ->target_file_size_multiplier = static_cast(jtarget_file_size_multiplier); } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: maxBytesForLevelBase * Signature: (J)J */ jlong Java_org_rocksdb_ColumnFamilyOptions_maxBytesForLevelBase( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->max_bytes_for_level_base; } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: setMaxBytesForLevelBase * Signature: (JJ)V */ void Java_org_rocksdb_ColumnFamilyOptions_setMaxBytesForLevelBase( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jmax_bytes_for_level_base) { reinterpret_cast(jhandle) ->max_bytes_for_level_base = static_cast(jmax_bytes_for_level_base); } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: levelCompactionDynamicLevelBytes * Signature: (J)Z */ jboolean Java_org_rocksdb_ColumnFamilyOptions_levelCompactionDynamicLevelBytes( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->level_compaction_dynamic_level_bytes; } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: setLevelCompactionDynamicLevelBytes * Signature: (JZ)V */ void Java_org_rocksdb_ColumnFamilyOptions_setLevelCompactionDynamicLevelBytes( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean jenable_dynamic_level_bytes) { reinterpret_cast(jhandle) ->level_compaction_dynamic_level_bytes = (jenable_dynamic_level_bytes); } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: maxBytesForLevelMultiplier * Signature: (J)D */ jdouble Java_org_rocksdb_ColumnFamilyOptions_maxBytesForLevelMultiplier( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->max_bytes_for_level_multiplier; } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: setMaxBytesForLevelMultiplier * Signature: (JD)V */ void Java_org_rocksdb_ColumnFamilyOptions_setMaxBytesForLevelMultiplier( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jdouble jmax_bytes_for_level_multiplier) { reinterpret_cast(jhandle) ->max_bytes_for_level_multiplier = static_cast(jmax_bytes_for_level_multiplier); } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: maxCompactionBytes * Signature: (J)I */ jlong Java_org_rocksdb_ColumnFamilyOptions_maxCompactionBytes(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return static_cast( reinterpret_cast(jhandle) ->max_compaction_bytes); } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: setMaxCompactionBytes * Signature: (JI)V */ void Java_org_rocksdb_ColumnFamilyOptions_setMaxCompactionBytes( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jmax_compaction_bytes) { reinterpret_cast(jhandle) ->max_compaction_bytes = static_cast(jmax_compaction_bytes); } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: arenaBlockSize * Signature: (J)J */ jlong Java_org_rocksdb_ColumnFamilyOptions_arenaBlockSize(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->arena_block_size; } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: setArenaBlockSize * Signature: (JJ)V */ void Java_org_rocksdb_ColumnFamilyOptions_setArenaBlockSize( JNIEnv* env, jobject /*jobj*/, jlong jhandle, jlong jarena_block_size) { rocksdb::Status s = rocksdb::check_if_jlong_fits_size_t(jarena_block_size); if (s.ok()) { reinterpret_cast(jhandle)->arena_block_size = jarena_block_size; } else { rocksdb::IllegalArgumentExceptionJni::ThrowNew(env, s); } } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: disableAutoCompactions * Signature: (J)Z */ jboolean Java_org_rocksdb_ColumnFamilyOptions_disableAutoCompactions( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->disable_auto_compactions; } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: setDisableAutoCompactions * Signature: (JZ)V */ void Java_org_rocksdb_ColumnFamilyOptions_setDisableAutoCompactions( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean jdisable_auto_compactions) { reinterpret_cast(jhandle) ->disable_auto_compactions = static_cast(jdisable_auto_compactions); } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: maxSequentialSkipInIterations * Signature: (J)J */ jlong Java_org_rocksdb_ColumnFamilyOptions_maxSequentialSkipInIterations( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->max_sequential_skip_in_iterations; } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: setMaxSequentialSkipInIterations * Signature: (JJ)V */ void Java_org_rocksdb_ColumnFamilyOptions_setMaxSequentialSkipInIterations( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jmax_sequential_skip_in_iterations) { reinterpret_cast(jhandle) ->max_sequential_skip_in_iterations = static_cast(jmax_sequential_skip_in_iterations); } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: inplaceUpdateSupport * Signature: (J)Z */ jboolean Java_org_rocksdb_ColumnFamilyOptions_inplaceUpdateSupport( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->inplace_update_support; } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: setInplaceUpdateSupport * Signature: (JZ)V */ void Java_org_rocksdb_ColumnFamilyOptions_setInplaceUpdateSupport( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean jinplace_update_support) { reinterpret_cast(jhandle) ->inplace_update_support = static_cast(jinplace_update_support); } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: inplaceUpdateNumLocks * Signature: (J)J */ jlong Java_org_rocksdb_ColumnFamilyOptions_inplaceUpdateNumLocks( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->inplace_update_num_locks; } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: setInplaceUpdateNumLocks * Signature: (JJ)V */ void Java_org_rocksdb_ColumnFamilyOptions_setInplaceUpdateNumLocks( JNIEnv* env, jobject /*jobj*/, jlong jhandle, jlong jinplace_update_num_locks) { rocksdb::Status s = rocksdb::check_if_jlong_fits_size_t(jinplace_update_num_locks); if (s.ok()) { reinterpret_cast(jhandle) ->inplace_update_num_locks = jinplace_update_num_locks; } else { rocksdb::IllegalArgumentExceptionJni::ThrowNew(env, s); } } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: memtablePrefixBloomSizeRatio * Signature: (J)I */ jdouble Java_org_rocksdb_ColumnFamilyOptions_memtablePrefixBloomSizeRatio( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->memtable_prefix_bloom_size_ratio; } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: setMemtablePrefixBloomSizeRatio * Signature: (JI)V */ void Java_org_rocksdb_ColumnFamilyOptions_setMemtablePrefixBloomSizeRatio( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jdouble jmemtable_prefix_bloom_size_ratio) { reinterpret_cast(jhandle) ->memtable_prefix_bloom_size_ratio = static_cast(jmemtable_prefix_bloom_size_ratio); } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: bloomLocality * Signature: (J)I */ jint Java_org_rocksdb_ColumnFamilyOptions_bloomLocality(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->bloom_locality; } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: setBloomLocality * Signature: (JI)V */ void Java_org_rocksdb_ColumnFamilyOptions_setBloomLocality( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint jbloom_locality) { reinterpret_cast(jhandle)->bloom_locality = static_cast(jbloom_locality); } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: maxSuccessiveMerges * Signature: (J)J */ jlong Java_org_rocksdb_ColumnFamilyOptions_maxSuccessiveMerges(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->max_successive_merges; } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: setMaxSuccessiveMerges * Signature: (JJ)V */ void Java_org_rocksdb_ColumnFamilyOptions_setMaxSuccessiveMerges( JNIEnv* env, jobject /*jobj*/, jlong jhandle, jlong jmax_successive_merges) { rocksdb::Status s = rocksdb::check_if_jlong_fits_size_t(jmax_successive_merges); if (s.ok()) { reinterpret_cast(jhandle) ->max_successive_merges = jmax_successive_merges; } else { rocksdb::IllegalArgumentExceptionJni::ThrowNew(env, s); } } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: optimizeFiltersForHits * Signature: (J)Z */ jboolean Java_org_rocksdb_ColumnFamilyOptions_optimizeFiltersForHits( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->optimize_filters_for_hits; } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: setOptimizeFiltersForHits * Signature: (JZ)V */ void Java_org_rocksdb_ColumnFamilyOptions_setOptimizeFiltersForHits( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean joptimize_filters_for_hits) { reinterpret_cast(jhandle) ->optimize_filters_for_hits = static_cast(joptimize_filters_for_hits); } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: memtableHugePageSize * Signature: (J)J */ jlong Java_org_rocksdb_ColumnFamilyOptions_memtableHugePageSize( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->memtable_huge_page_size; } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: setMemtableHugePageSize * Signature: (JJ)V */ void Java_org_rocksdb_ColumnFamilyOptions_setMemtableHugePageSize( JNIEnv* env, jobject /*jobj*/, jlong jhandle, jlong jmemtable_huge_page_size) { rocksdb::Status s = rocksdb::check_if_jlong_fits_size_t(jmemtable_huge_page_size); if (s.ok()) { reinterpret_cast(jhandle) ->memtable_huge_page_size = jmemtable_huge_page_size; } else { rocksdb::IllegalArgumentExceptionJni::ThrowNew(env, s); } } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: softPendingCompactionBytesLimit * Signature: (J)J */ jlong Java_org_rocksdb_ColumnFamilyOptions_softPendingCompactionBytesLimit( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->soft_pending_compaction_bytes_limit; } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: setSoftPendingCompactionBytesLimit * Signature: (JJ)V */ void Java_org_rocksdb_ColumnFamilyOptions_setSoftPendingCompactionBytesLimit( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jsoft_pending_compaction_bytes_limit) { reinterpret_cast(jhandle) ->soft_pending_compaction_bytes_limit = static_cast(jsoft_pending_compaction_bytes_limit); } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: softHardCompactionBytesLimit * Signature: (J)J */ jlong Java_org_rocksdb_ColumnFamilyOptions_hardPendingCompactionBytesLimit( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->hard_pending_compaction_bytes_limit; } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: setHardPendingCompactionBytesLimit * Signature: (JJ)V */ void Java_org_rocksdb_ColumnFamilyOptions_setHardPendingCompactionBytesLimit( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jhard_pending_compaction_bytes_limit) { reinterpret_cast(jhandle) ->hard_pending_compaction_bytes_limit = static_cast(jhard_pending_compaction_bytes_limit); } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: level0FileNumCompactionTrigger * Signature: (J)I */ jint Java_org_rocksdb_ColumnFamilyOptions_level0FileNumCompactionTrigger( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->level0_file_num_compaction_trigger; } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: setLevel0FileNumCompactionTrigger * Signature: (JI)V */ void Java_org_rocksdb_ColumnFamilyOptions_setLevel0FileNumCompactionTrigger( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint jlevel0_file_num_compaction_trigger) { reinterpret_cast(jhandle) ->level0_file_num_compaction_trigger = static_cast(jlevel0_file_num_compaction_trigger); } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: level0SlowdownWritesTrigger * Signature: (J)I */ jint Java_org_rocksdb_ColumnFamilyOptions_level0SlowdownWritesTrigger( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->level0_slowdown_writes_trigger; } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: setLevel0SlowdownWritesTrigger * Signature: (JI)V */ void Java_org_rocksdb_ColumnFamilyOptions_setLevel0SlowdownWritesTrigger( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint jlevel0_slowdown_writes_trigger) { reinterpret_cast(jhandle) ->level0_slowdown_writes_trigger = static_cast(jlevel0_slowdown_writes_trigger); } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: level0StopWritesTrigger * Signature: (J)I */ jint Java_org_rocksdb_ColumnFamilyOptions_level0StopWritesTrigger( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->level0_stop_writes_trigger; } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: setLevel0StopWritesTrigger * Signature: (JI)V */ void Java_org_rocksdb_ColumnFamilyOptions_setLevel0StopWritesTrigger( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint jlevel0_stop_writes_trigger) { reinterpret_cast(jhandle) ->level0_stop_writes_trigger = static_cast(jlevel0_stop_writes_trigger); } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: maxBytesForLevelMultiplierAdditional * Signature: (J)[I */ jintArray Java_org_rocksdb_ColumnFamilyOptions_maxBytesForLevelMultiplierAdditional( JNIEnv* env, jobject /*jobj*/, jlong jhandle) { auto mbflma = reinterpret_cast(jhandle) ->max_bytes_for_level_multiplier_additional; const size_t size = mbflma.size(); jint* additionals = new jint[size]; for (size_t i = 0; i < size; i++) { additionals[i] = static_cast(mbflma[i]); } jsize jlen = static_cast(size); jintArray result = env->NewIntArray(jlen); if (result == nullptr) { // exception thrown: OutOfMemoryError delete[] additionals; return nullptr; } env->SetIntArrayRegion(result, 0, jlen, additionals); if (env->ExceptionCheck()) { // exception thrown: ArrayIndexOutOfBoundsException env->DeleteLocalRef(result); delete[] additionals; return nullptr; } delete[] additionals; return result; } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: setMaxBytesForLevelMultiplierAdditional * Signature: (J[I)V */ void Java_org_rocksdb_ColumnFamilyOptions_setMaxBytesForLevelMultiplierAdditional( JNIEnv* env, jobject /*jobj*/, jlong jhandle, jintArray jmax_bytes_for_level_multiplier_additional) { jsize len = env->GetArrayLength(jmax_bytes_for_level_multiplier_additional); jint* additionals = env->GetIntArrayElements(jmax_bytes_for_level_multiplier_additional, 0); if (additionals == nullptr) { // exception thrown: OutOfMemoryError return; } auto* cf_opt = reinterpret_cast(jhandle); cf_opt->max_bytes_for_level_multiplier_additional.clear(); for (jsize i = 0; i < len; i++) { cf_opt->max_bytes_for_level_multiplier_additional.push_back( static_cast(additionals[i])); } env->ReleaseIntArrayElements(jmax_bytes_for_level_multiplier_additional, additionals, JNI_ABORT); } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: paranoidFileChecks * Signature: (J)Z */ jboolean Java_org_rocksdb_ColumnFamilyOptions_paranoidFileChecks( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->paranoid_file_checks; } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: setParanoidFileChecks * Signature: (JZ)V */ void Java_org_rocksdb_ColumnFamilyOptions_setParanoidFileChecks( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean jparanoid_file_checks) { reinterpret_cast(jhandle) ->paranoid_file_checks = static_cast(jparanoid_file_checks); } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: setCompactionPriority * Signature: (JB)V */ void Java_org_rocksdb_ColumnFamilyOptions_setCompactionPriority( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jbyte jcompaction_priority_value) { auto* cf_opts = reinterpret_cast(jhandle); cf_opts->compaction_pri = rocksdb::CompactionPriorityJni::toCppCompactionPriority( jcompaction_priority_value); } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: compactionPriority * Signature: (J)B */ jbyte Java_org_rocksdb_ColumnFamilyOptions_compactionPriority(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* cf_opts = reinterpret_cast(jhandle); return rocksdb::CompactionPriorityJni::toJavaCompactionPriority( cf_opts->compaction_pri); } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: setReportBgIoStats * Signature: (JZ)V */ void Java_org_rocksdb_ColumnFamilyOptions_setReportBgIoStats( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean jreport_bg_io_stats) { auto* cf_opts = reinterpret_cast(jhandle); cf_opts->report_bg_io_stats = static_cast(jreport_bg_io_stats); } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: reportBgIoStats * Signature: (J)Z */ jboolean Java_org_rocksdb_ColumnFamilyOptions_reportBgIoStats(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* cf_opts = reinterpret_cast(jhandle); return static_cast(cf_opts->report_bg_io_stats); } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: setCompactionOptionsUniversal * Signature: (JJ)V */ void Java_org_rocksdb_ColumnFamilyOptions_setCompactionOptionsUniversal( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jcompaction_options_universal_handle) { auto* cf_opts = reinterpret_cast(jhandle); auto* opts_uni = reinterpret_cast( jcompaction_options_universal_handle); cf_opts->compaction_options_universal = *opts_uni; } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: setCompactionOptionsFIFO * Signature: (JJ)V */ void Java_org_rocksdb_ColumnFamilyOptions_setCompactionOptionsFIFO( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jcompaction_options_fifo_handle) { auto* cf_opts = reinterpret_cast(jhandle); auto* opts_fifo = reinterpret_cast( jcompaction_options_fifo_handle); cf_opts->compaction_options_fifo = *opts_fifo; } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: setForceConsistencyChecks * Signature: (JZ)V */ void Java_org_rocksdb_ColumnFamilyOptions_setForceConsistencyChecks( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean jforce_consistency_checks) { auto* cf_opts = reinterpret_cast(jhandle); cf_opts->force_consistency_checks = static_cast(jforce_consistency_checks); } /* * Class: org_rocksdb_ColumnFamilyOptions * Method: forceConsistencyChecks * Signature: (J)Z */ jboolean Java_org_rocksdb_ColumnFamilyOptions_forceConsistencyChecks( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* cf_opts = reinterpret_cast(jhandle); return static_cast(cf_opts->force_consistency_checks); } ///////////////////////////////////////////////////////////////////// // rocksdb::DBOptions /* * Class: org_rocksdb_DBOptions * Method: newDBOptions * Signature: ()J */ jlong Java_org_rocksdb_DBOptions_newDBOptions(JNIEnv* /*env*/, jclass /*jcls*/) { auto* dbop = new rocksdb::DBOptions(); return reinterpret_cast(dbop); } /* * Class: org_rocksdb_DBOptions * Method: copyDBOptions * Signature: (J)J */ jlong Java_org_rocksdb_DBOptions_copyDBOptions(JNIEnv* /*env*/, jclass /*jcls*/, jlong jhandle) { auto new_opt = new rocksdb::DBOptions(*(reinterpret_cast(jhandle))); return reinterpret_cast(new_opt); } /* * Class: org_rocksdb_DBOptions * Method: getDBOptionsFromProps * Signature: (Ljava/util/String;)J */ jlong Java_org_rocksdb_DBOptions_getDBOptionsFromProps(JNIEnv* env, jclass /*jclazz*/, jstring jopt_string) { const char* opt_string = env->GetStringUTFChars(jopt_string, nullptr); if (opt_string == nullptr) { // exception thrown: OutOfMemoryError return 0; } auto* db_options = new rocksdb::DBOptions(); rocksdb::Status status = rocksdb::GetDBOptionsFromString( rocksdb::DBOptions(), opt_string, db_options); env->ReleaseStringUTFChars(jopt_string, opt_string); // Check if DBOptions creation was possible. jlong ret_value = 0; if (status.ok()) { ret_value = reinterpret_cast(db_options); } else { // if operation failed the DBOptions need to be deleted // again to prevent a memory leak. delete db_options; } return ret_value; } /* * Class: org_rocksdb_DBOptions * Method: disposeInternal * Signature: (J)V */ void Java_org_rocksdb_DBOptions_disposeInternal(JNIEnv* /*env*/, jobject /*jobj*/, jlong handle) { auto* dbo = reinterpret_cast(handle); assert(dbo != nullptr); delete dbo; } /* * Class: org_rocksdb_DBOptions * Method: optimizeForSmallDb * Signature: (J)V */ void Java_org_rocksdb_DBOptions_optimizeForSmallDb(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { reinterpret_cast(jhandle)->OptimizeForSmallDb(); } /* * Class: org_rocksdb_DBOptions * Method: setEnv * Signature: (JJ)V */ void Java_org_rocksdb_DBOptions_setEnv(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jenv_handle) { reinterpret_cast(jhandle)->env = reinterpret_cast(jenv_handle); } /* * Class: org_rocksdb_DBOptions * Method: setIncreaseParallelism * Signature: (JI)V */ void Java_org_rocksdb_DBOptions_setIncreaseParallelism(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint totalThreads) { reinterpret_cast(jhandle)->IncreaseParallelism( static_cast(totalThreads)); } /* * Class: org_rocksdb_DBOptions * Method: setCreateIfMissing * Signature: (JZ)V */ void Java_org_rocksdb_DBOptions_setCreateIfMissing(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean flag) { reinterpret_cast(jhandle)->create_if_missing = flag; } /* * Class: org_rocksdb_DBOptions * Method: createIfMissing * Signature: (J)Z */ jboolean Java_org_rocksdb_DBOptions_createIfMissing(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->create_if_missing; } /* * Class: org_rocksdb_DBOptions * Method: setCreateMissingColumnFamilies * Signature: (JZ)V */ void Java_org_rocksdb_DBOptions_setCreateMissingColumnFamilies(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean flag) { reinterpret_cast(jhandle) ->create_missing_column_families = flag; } /* * Class: org_rocksdb_DBOptions * Method: createMissingColumnFamilies * Signature: (J)Z */ jboolean Java_org_rocksdb_DBOptions_createMissingColumnFamilies( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->create_missing_column_families; } /* * Class: org_rocksdb_DBOptions * Method: setErrorIfExists * Signature: (JZ)V */ void Java_org_rocksdb_DBOptions_setErrorIfExists(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean error_if_exists) { reinterpret_cast(jhandle)->error_if_exists = static_cast(error_if_exists); } /* * Class: org_rocksdb_DBOptions * Method: errorIfExists * Signature: (J)Z */ jboolean Java_org_rocksdb_DBOptions_errorIfExists(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->error_if_exists; } /* * Class: org_rocksdb_DBOptions * Method: setParanoidChecks * Signature: (JZ)V */ void Java_org_rocksdb_DBOptions_setParanoidChecks(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean paranoid_checks) { reinterpret_cast(jhandle)->paranoid_checks = static_cast(paranoid_checks); } /* * Class: org_rocksdb_DBOptions * Method: paranoidChecks * Signature: (J)Z */ jboolean Java_org_rocksdb_DBOptions_paranoidChecks(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->paranoid_checks; } /* * Class: org_rocksdb_DBOptions * Method: setRateLimiter * Signature: (JJ)V */ void Java_org_rocksdb_DBOptions_setRateLimiter(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jrate_limiter_handle) { std::shared_ptr* pRateLimiter = reinterpret_cast*>( jrate_limiter_handle); reinterpret_cast(jhandle)->rate_limiter = *pRateLimiter; } /* * Class: org_rocksdb_DBOptions * Method: setSstFileManager * Signature: (JJ)V */ void Java_org_rocksdb_DBOptions_setSstFileManager( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jsst_file_manager_handle) { auto* sptr_sst_file_manager = reinterpret_cast*>( jsst_file_manager_handle); reinterpret_cast(jhandle)->sst_file_manager = *sptr_sst_file_manager; } /* * Class: org_rocksdb_DBOptions * Method: setLogger * Signature: (JJ)V */ void Java_org_rocksdb_DBOptions_setLogger(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jlogger_handle) { std::shared_ptr* pLogger = reinterpret_cast*>( jlogger_handle); reinterpret_cast(jhandle)->info_log = *pLogger; } /* * Class: org_rocksdb_DBOptions * Method: setInfoLogLevel * Signature: (JB)V */ void Java_org_rocksdb_DBOptions_setInfoLogLevel(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jbyte jlog_level) { reinterpret_cast(jhandle)->info_log_level = static_cast(jlog_level); } /* * Class: org_rocksdb_DBOptions * Method: infoLogLevel * Signature: (J)B */ jbyte Java_org_rocksdb_DBOptions_infoLogLevel(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return static_cast( reinterpret_cast(jhandle)->info_log_level); } /* * Class: org_rocksdb_DBOptions * Method: setMaxTotalWalSize * Signature: (JJ)V */ void Java_org_rocksdb_DBOptions_setMaxTotalWalSize(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jmax_total_wal_size) { reinterpret_cast(jhandle)->max_total_wal_size = static_cast(jmax_total_wal_size); } /* * Class: org_rocksdb_DBOptions * Method: maxTotalWalSize * Signature: (J)J */ jlong Java_org_rocksdb_DBOptions_maxTotalWalSize(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->max_total_wal_size; } /* * Class: org_rocksdb_DBOptions * Method: setMaxOpenFiles * Signature: (JI)V */ void Java_org_rocksdb_DBOptions_setMaxOpenFiles(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint max_open_files) { reinterpret_cast(jhandle)->max_open_files = static_cast(max_open_files); } /* * Class: org_rocksdb_DBOptions * Method: maxOpenFiles * Signature: (J)I */ jint Java_org_rocksdb_DBOptions_maxOpenFiles(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->max_open_files; } /* * Class: org_rocksdb_DBOptions * Method: setMaxFileOpeningThreads * Signature: (JI)V */ void Java_org_rocksdb_DBOptions_setMaxFileOpeningThreads( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint jmax_file_opening_threads) { reinterpret_cast(jhandle)->max_file_opening_threads = static_cast(jmax_file_opening_threads); } /* * Class: org_rocksdb_DBOptions * Method: maxFileOpeningThreads * Signature: (J)I */ jint Java_org_rocksdb_DBOptions_maxFileOpeningThreads(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); return static_cast(opt->max_file_opening_threads); } /* * Class: org_rocksdb_DBOptions * Method: setStatistics * Signature: (JJ)V */ void Java_org_rocksdb_DBOptions_setStatistics(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jstatistics_handle) { auto* opt = reinterpret_cast(jhandle); auto* pSptr = reinterpret_cast*>( jstatistics_handle); opt->statistics = *pSptr; } /* * Class: org_rocksdb_DBOptions * Method: statistics * Signature: (J)J */ jlong Java_org_rocksdb_DBOptions_statistics(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); std::shared_ptr sptr = opt->statistics; if (sptr == nullptr) { return 0; } else { std::shared_ptr* pSptr = new std::shared_ptr(sptr); return reinterpret_cast(pSptr); } } /* * Class: org_rocksdb_DBOptions * Method: setUseFsync * Signature: (JZ)V */ void Java_org_rocksdb_DBOptions_setUseFsync(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean use_fsync) { reinterpret_cast(jhandle)->use_fsync = static_cast(use_fsync); } /* * Class: org_rocksdb_DBOptions * Method: useFsync * Signature: (J)Z */ jboolean Java_org_rocksdb_DBOptions_useFsync(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->use_fsync; } /* * Class: org_rocksdb_DBOptions * Method: setDbPaths * Signature: (J[Ljava/lang/String;[J)V */ void Java_org_rocksdb_DBOptions_setDbPaths(JNIEnv* env, jobject /*jobj*/, jlong jhandle, jobjectArray jpaths, jlongArray jtarget_sizes) { std::vector db_paths; jlong* ptr_jtarget_size = env->GetLongArrayElements(jtarget_sizes, nullptr); if (ptr_jtarget_size == nullptr) { // exception thrown: OutOfMemoryError return; } jboolean has_exception = JNI_FALSE; const jsize len = env->GetArrayLength(jpaths); for (jsize i = 0; i < len; i++) { jobject jpath = reinterpret_cast(env->GetObjectArrayElement(jpaths, i)); if (env->ExceptionCheck()) { // exception thrown: ArrayIndexOutOfBoundsException env->ReleaseLongArrayElements(jtarget_sizes, ptr_jtarget_size, JNI_ABORT); return; } std::string path = rocksdb::JniUtil::copyStdString( env, static_cast(jpath), &has_exception); env->DeleteLocalRef(jpath); if (has_exception == JNI_TRUE) { env->ReleaseLongArrayElements(jtarget_sizes, ptr_jtarget_size, JNI_ABORT); return; } jlong jtarget_size = ptr_jtarget_size[i]; db_paths.push_back( rocksdb::DbPath(path, static_cast(jtarget_size))); } env->ReleaseLongArrayElements(jtarget_sizes, ptr_jtarget_size, JNI_ABORT); auto* opt = reinterpret_cast(jhandle); opt->db_paths = db_paths; } /* * Class: org_rocksdb_DBOptions * Method: dbPathsLen * Signature: (J)J */ jlong Java_org_rocksdb_DBOptions_dbPathsLen(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); return static_cast(opt->db_paths.size()); } /* * Class: org_rocksdb_DBOptions * Method: dbPaths * Signature: (J[Ljava/lang/String;[J)V */ void Java_org_rocksdb_DBOptions_dbPaths(JNIEnv* env, jobject /*jobj*/, jlong jhandle, jobjectArray jpaths, jlongArray jtarget_sizes) { jlong* ptr_jtarget_size = env->GetLongArrayElements(jtarget_sizes, nullptr); if (ptr_jtarget_size == nullptr) { // exception thrown: OutOfMemoryError return; } auto* opt = reinterpret_cast(jhandle); const jsize len = env->GetArrayLength(jpaths); for (jsize i = 0; i < len; i++) { rocksdb::DbPath db_path = opt->db_paths[i]; jstring jpath = env->NewStringUTF(db_path.path.c_str()); if (jpath == nullptr) { // exception thrown: OutOfMemoryError env->ReleaseLongArrayElements(jtarget_sizes, ptr_jtarget_size, JNI_ABORT); return; } env->SetObjectArrayElement(jpaths, i, jpath); if (env->ExceptionCheck()) { // exception thrown: ArrayIndexOutOfBoundsException env->DeleteLocalRef(jpath); env->ReleaseLongArrayElements(jtarget_sizes, ptr_jtarget_size, JNI_ABORT); return; } ptr_jtarget_size[i] = static_cast(db_path.target_size); } env->ReleaseLongArrayElements(jtarget_sizes, ptr_jtarget_size, JNI_COMMIT); } /* * Class: org_rocksdb_DBOptions * Method: setDbLogDir * Signature: (JLjava/lang/String)V */ void Java_org_rocksdb_DBOptions_setDbLogDir(JNIEnv* env, jobject /*jobj*/, jlong jhandle, jstring jdb_log_dir) { const char* log_dir = env->GetStringUTFChars(jdb_log_dir, nullptr); if (log_dir == nullptr) { // exception thrown: OutOfMemoryError return; } reinterpret_cast(jhandle)->db_log_dir.assign(log_dir); env->ReleaseStringUTFChars(jdb_log_dir, log_dir); } /* * Class: org_rocksdb_DBOptions * Method: dbLogDir * Signature: (J)Ljava/lang/String */ jstring Java_org_rocksdb_DBOptions_dbLogDir(JNIEnv* env, jobject /*jobj*/, jlong jhandle) { return env->NewStringUTF( reinterpret_cast(jhandle)->db_log_dir.c_str()); } /* * Class: org_rocksdb_DBOptions * Method: setWalDir * Signature: (JLjava/lang/String)V */ void Java_org_rocksdb_DBOptions_setWalDir(JNIEnv* env, jobject /*jobj*/, jlong jhandle, jstring jwal_dir) { const char* wal_dir = env->GetStringUTFChars(jwal_dir, 0); reinterpret_cast(jhandle)->wal_dir.assign(wal_dir); env->ReleaseStringUTFChars(jwal_dir, wal_dir); } /* * Class: org_rocksdb_DBOptions * Method: walDir * Signature: (J)Ljava/lang/String */ jstring Java_org_rocksdb_DBOptions_walDir(JNIEnv* env, jobject /*jobj*/, jlong jhandle) { return env->NewStringUTF( reinterpret_cast(jhandle)->wal_dir.c_str()); } /* * Class: org_rocksdb_DBOptions * Method: setDeleteObsoleteFilesPeriodMicros * Signature: (JJ)V */ void Java_org_rocksdb_DBOptions_setDeleteObsoleteFilesPeriodMicros( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong micros) { reinterpret_cast(jhandle) ->delete_obsolete_files_period_micros = static_cast(micros); } /* * Class: org_rocksdb_DBOptions * Method: deleteObsoleteFilesPeriodMicros * Signature: (J)J */ jlong Java_org_rocksdb_DBOptions_deleteObsoleteFilesPeriodMicros( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->delete_obsolete_files_period_micros; } /* * Class: org_rocksdb_DBOptions * Method: setBaseBackgroundCompactions * Signature: (JI)V */ void Java_org_rocksdb_DBOptions_setBaseBackgroundCompactions(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint max) { reinterpret_cast(jhandle)->base_background_compactions = static_cast(max); } /* * Class: org_rocksdb_DBOptions * Method: baseBackgroundCompactions * Signature: (J)I */ jint Java_org_rocksdb_DBOptions_baseBackgroundCompactions(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->base_background_compactions; } /* * Class: org_rocksdb_DBOptions * Method: setMaxBackgroundCompactions * Signature: (JI)V */ void Java_org_rocksdb_DBOptions_setMaxBackgroundCompactions(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint max) { reinterpret_cast(jhandle)->max_background_compactions = static_cast(max); } /* * Class: org_rocksdb_DBOptions * Method: maxBackgroundCompactions * Signature: (J)I */ jint Java_org_rocksdb_DBOptions_maxBackgroundCompactions(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->max_background_compactions; } /* * Class: org_rocksdb_DBOptions * Method: setMaxSubcompactions * Signature: (JI)V */ void Java_org_rocksdb_DBOptions_setMaxSubcompactions(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint max) { reinterpret_cast(jhandle)->max_subcompactions = static_cast(max); } /* * Class: org_rocksdb_DBOptions * Method: maxSubcompactions * Signature: (J)I */ jint Java_org_rocksdb_DBOptions_maxSubcompactions(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->max_subcompactions; } /* * Class: org_rocksdb_DBOptions * Method: setMaxBackgroundFlushes * Signature: (JI)V */ void Java_org_rocksdb_DBOptions_setMaxBackgroundFlushes( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint max_background_flushes) { reinterpret_cast(jhandle)->max_background_flushes = static_cast(max_background_flushes); } /* * Class: org_rocksdb_DBOptions * Method: maxBackgroundFlushes * Signature: (J)I */ jint Java_org_rocksdb_DBOptions_maxBackgroundFlushes(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->max_background_flushes; } /* * Class: org_rocksdb_DBOptions * Method: setMaxBackgroundJobs * Signature: (JI)V */ void Java_org_rocksdb_DBOptions_setMaxBackgroundJobs(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint max_background_jobs) { reinterpret_cast(jhandle)->max_background_jobs = static_cast(max_background_jobs); } /* * Class: org_rocksdb_DBOptions * Method: maxBackgroundJobs * Signature: (J)I */ jint Java_org_rocksdb_DBOptions_maxBackgroundJobs(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->max_background_jobs; } /* * Class: org_rocksdb_DBOptions * Method: setMaxLogFileSize * Signature: (JJ)V */ void Java_org_rocksdb_DBOptions_setMaxLogFileSize(JNIEnv* env, jobject /*jobj*/, jlong jhandle, jlong max_log_file_size) { rocksdb::Status s = rocksdb::check_if_jlong_fits_size_t(max_log_file_size); if (s.ok()) { reinterpret_cast(jhandle)->max_log_file_size = max_log_file_size; } else { rocksdb::IllegalArgumentExceptionJni::ThrowNew(env, s); } } /* * Class: org_rocksdb_DBOptions * Method: maxLogFileSize * Signature: (J)J */ jlong Java_org_rocksdb_DBOptions_maxLogFileSize(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->max_log_file_size; } /* * Class: org_rocksdb_DBOptions * Method: setLogFileTimeToRoll * Signature: (JJ)V */ void Java_org_rocksdb_DBOptions_setLogFileTimeToRoll( JNIEnv* env, jobject /*jobj*/, jlong jhandle, jlong log_file_time_to_roll) { rocksdb::Status s = rocksdb::check_if_jlong_fits_size_t(log_file_time_to_roll); if (s.ok()) { reinterpret_cast(jhandle)->log_file_time_to_roll = log_file_time_to_roll; } else { rocksdb::IllegalArgumentExceptionJni::ThrowNew(env, s); } } /* * Class: org_rocksdb_DBOptions * Method: logFileTimeToRoll * Signature: (J)J */ jlong Java_org_rocksdb_DBOptions_logFileTimeToRoll(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->log_file_time_to_roll; } /* * Class: org_rocksdb_DBOptions * Method: setKeepLogFileNum * Signature: (JJ)V */ void Java_org_rocksdb_DBOptions_setKeepLogFileNum(JNIEnv* env, jobject /*jobj*/, jlong jhandle, jlong keep_log_file_num) { rocksdb::Status s = rocksdb::check_if_jlong_fits_size_t(keep_log_file_num); if (s.ok()) { reinterpret_cast(jhandle)->keep_log_file_num = keep_log_file_num; } else { rocksdb::IllegalArgumentExceptionJni::ThrowNew(env, s); } } /* * Class: org_rocksdb_DBOptions * Method: keepLogFileNum * Signature: (J)J */ jlong Java_org_rocksdb_DBOptions_keepLogFileNum(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->keep_log_file_num; } /* * Class: org_rocksdb_DBOptions * Method: setRecycleLogFileNum * Signature: (JJ)V */ void Java_org_rocksdb_DBOptions_setRecycleLogFileNum( JNIEnv* env, jobject /*jobj*/, jlong jhandle, jlong recycle_log_file_num) { rocksdb::Status s = rocksdb::check_if_jlong_fits_size_t(recycle_log_file_num); if (s.ok()) { reinterpret_cast(jhandle)->recycle_log_file_num = recycle_log_file_num; } else { rocksdb::IllegalArgumentExceptionJni::ThrowNew(env, s); } } /* * Class: org_rocksdb_DBOptions * Method: recycleLogFileNum * Signature: (J)J */ jlong Java_org_rocksdb_DBOptions_recycleLogFileNum(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->recycle_log_file_num; } /* * Class: org_rocksdb_DBOptions * Method: setMaxManifestFileSize * Signature: (JJ)V */ void Java_org_rocksdb_DBOptions_setMaxManifestFileSize( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong max_manifest_file_size) { reinterpret_cast(jhandle)->max_manifest_file_size = static_cast(max_manifest_file_size); } /* * Class: org_rocksdb_DBOptions * Method: maxManifestFileSize * Signature: (J)J */ jlong Java_org_rocksdb_DBOptions_maxManifestFileSize(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->max_manifest_file_size; } /* * Class: org_rocksdb_DBOptions * Method: setTableCacheNumshardbits * Signature: (JI)V */ void Java_org_rocksdb_DBOptions_setTableCacheNumshardbits( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint table_cache_numshardbits) { reinterpret_cast(jhandle)->table_cache_numshardbits = static_cast(table_cache_numshardbits); } /* * Class: org_rocksdb_DBOptions * Method: tableCacheNumshardbits * Signature: (J)I */ jint Java_org_rocksdb_DBOptions_tableCacheNumshardbits(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->table_cache_numshardbits; } /* * Class: org_rocksdb_DBOptions * Method: setWalTtlSeconds * Signature: (JJ)V */ void Java_org_rocksdb_DBOptions_setWalTtlSeconds(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong WAL_ttl_seconds) { reinterpret_cast(jhandle)->WAL_ttl_seconds = static_cast(WAL_ttl_seconds); } /* * Class: org_rocksdb_DBOptions * Method: walTtlSeconds * Signature: (J)J */ jlong Java_org_rocksdb_DBOptions_walTtlSeconds(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->WAL_ttl_seconds; } /* * Class: org_rocksdb_DBOptions * Method: setWalSizeLimitMB * Signature: (JJ)V */ void Java_org_rocksdb_DBOptions_setWalSizeLimitMB(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong WAL_size_limit_MB) { reinterpret_cast(jhandle)->WAL_size_limit_MB = static_cast(WAL_size_limit_MB); } /* * Class: org_rocksdb_DBOptions * Method: walTtlSeconds * Signature: (J)J */ jlong Java_org_rocksdb_DBOptions_walSizeLimitMB(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->WAL_size_limit_MB; } /* * Class: org_rocksdb_DBOptions * Method: setManifestPreallocationSize * Signature: (JJ)V */ void Java_org_rocksdb_DBOptions_setManifestPreallocationSize( JNIEnv* env, jobject /*jobj*/, jlong jhandle, jlong preallocation_size) { rocksdb::Status s = rocksdb::check_if_jlong_fits_size_t(preallocation_size); if (s.ok()) { reinterpret_cast(jhandle) ->manifest_preallocation_size = preallocation_size; } else { rocksdb::IllegalArgumentExceptionJni::ThrowNew(env, s); } } /* * Class: org_rocksdb_DBOptions * Method: manifestPreallocationSize * Signature: (J)J */ jlong Java_org_rocksdb_DBOptions_manifestPreallocationSize(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->manifest_preallocation_size; } /* * Class: org_rocksdb_DBOptions * Method: useDirectReads * Signature: (J)Z */ jboolean Java_org_rocksdb_DBOptions_useDirectReads(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->use_direct_reads; } /* * Class: org_rocksdb_DBOptions * Method: setUseDirectReads * Signature: (JZ)V */ void Java_org_rocksdb_DBOptions_setUseDirectReads(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean use_direct_reads) { reinterpret_cast(jhandle)->use_direct_reads = static_cast(use_direct_reads); } /* * Class: org_rocksdb_DBOptions * Method: useDirectIoForFlushAndCompaction * Signature: (J)Z */ jboolean Java_org_rocksdb_DBOptions_useDirectIoForFlushAndCompaction( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->use_direct_io_for_flush_and_compaction; } /* * Class: org_rocksdb_DBOptions * Method: setUseDirectReads * Signature: (JZ)V */ void Java_org_rocksdb_DBOptions_setUseDirectIoForFlushAndCompaction( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean use_direct_io_for_flush_and_compaction) { reinterpret_cast(jhandle) ->use_direct_io_for_flush_and_compaction = static_cast(use_direct_io_for_flush_and_compaction); } /* * Class: org_rocksdb_DBOptions * Method: setAllowFAllocate * Signature: (JZ)V */ void Java_org_rocksdb_DBOptions_setAllowFAllocate(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean jallow_fallocate) { reinterpret_cast(jhandle)->allow_fallocate = static_cast(jallow_fallocate); } /* * Class: org_rocksdb_DBOptions * Method: allowFAllocate * Signature: (J)Z */ jboolean Java_org_rocksdb_DBOptions_allowFAllocate(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); return static_cast(opt->allow_fallocate); } /* * Class: org_rocksdb_DBOptions * Method: setAllowMmapReads * Signature: (JZ)V */ void Java_org_rocksdb_DBOptions_setAllowMmapReads(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean allow_mmap_reads) { reinterpret_cast(jhandle)->allow_mmap_reads = static_cast(allow_mmap_reads); } /* * Class: org_rocksdb_DBOptions * Method: allowMmapReads * Signature: (J)Z */ jboolean Java_org_rocksdb_DBOptions_allowMmapReads(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->allow_mmap_reads; } /* * Class: org_rocksdb_DBOptions * Method: setAllowMmapWrites * Signature: (JZ)V */ void Java_org_rocksdb_DBOptions_setAllowMmapWrites(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean allow_mmap_writes) { reinterpret_cast(jhandle)->allow_mmap_writes = static_cast(allow_mmap_writes); } /* * Class: org_rocksdb_DBOptions * Method: allowMmapWrites * Signature: (J)Z */ jboolean Java_org_rocksdb_DBOptions_allowMmapWrites(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->allow_mmap_writes; } /* * Class: org_rocksdb_DBOptions * Method: setIsFdCloseOnExec * Signature: (JZ)V */ void Java_org_rocksdb_DBOptions_setIsFdCloseOnExec( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean is_fd_close_on_exec) { reinterpret_cast(jhandle)->is_fd_close_on_exec = static_cast(is_fd_close_on_exec); } /* * Class: org_rocksdb_DBOptions * Method: isFdCloseOnExec * Signature: (J)Z */ jboolean Java_org_rocksdb_DBOptions_isFdCloseOnExec(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->is_fd_close_on_exec; } /* * Class: org_rocksdb_DBOptions * Method: setStatsDumpPeriodSec * Signature: (JI)V */ void Java_org_rocksdb_DBOptions_setStatsDumpPeriodSec( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint stats_dump_period_sec) { reinterpret_cast(jhandle)->stats_dump_period_sec = static_cast(stats_dump_period_sec); } /* * Class: org_rocksdb_DBOptions * Method: statsDumpPeriodSec * Signature: (J)I */ jint Java_org_rocksdb_DBOptions_statsDumpPeriodSec(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->stats_dump_period_sec; } /* * Class: org_rocksdb_DBOptions * Method: setAdviseRandomOnOpen * Signature: (JZ)V */ void Java_org_rocksdb_DBOptions_setAdviseRandomOnOpen( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean advise_random_on_open) { reinterpret_cast(jhandle)->advise_random_on_open = static_cast(advise_random_on_open); } /* * Class: org_rocksdb_DBOptions * Method: adviseRandomOnOpen * Signature: (J)Z */ jboolean Java_org_rocksdb_DBOptions_adviseRandomOnOpen(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->advise_random_on_open; } /* * Class: org_rocksdb_DBOptions * Method: setDbWriteBufferSize * Signature: (JJ)V */ void Java_org_rocksdb_DBOptions_setDbWriteBufferSize( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jdb_write_buffer_size) { auto* opt = reinterpret_cast(jhandle); opt->db_write_buffer_size = static_cast(jdb_write_buffer_size); } /* * Class: org_rocksdb_DBOptions * Method: dbWriteBufferSize * Signature: (J)J */ jlong Java_org_rocksdb_DBOptions_dbWriteBufferSize(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); return static_cast(opt->db_write_buffer_size); } /* * Class: org_rocksdb_DBOptions * Method: setAccessHintOnCompactionStart * Signature: (JB)V */ void Java_org_rocksdb_DBOptions_setAccessHintOnCompactionStart( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jbyte jaccess_hint_value) { auto* opt = reinterpret_cast(jhandle); opt->access_hint_on_compaction_start = rocksdb::AccessHintJni::toCppAccessHint(jaccess_hint_value); } /* * Class: org_rocksdb_DBOptions * Method: accessHintOnCompactionStart * Signature: (J)B */ jbyte Java_org_rocksdb_DBOptions_accessHintOnCompactionStart(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); return rocksdb::AccessHintJni::toJavaAccessHint( opt->access_hint_on_compaction_start); } /* * Class: org_rocksdb_DBOptions * Method: setNewTableReaderForCompactionInputs * Signature: (JZ)V */ void Java_org_rocksdb_DBOptions_setNewTableReaderForCompactionInputs( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean jnew_table_reader_for_compaction_inputs) { auto* opt = reinterpret_cast(jhandle); opt->new_table_reader_for_compaction_inputs = static_cast(jnew_table_reader_for_compaction_inputs); } /* * Class: org_rocksdb_DBOptions * Method: newTableReaderForCompactionInputs * Signature: (J)Z */ jboolean Java_org_rocksdb_DBOptions_newTableReaderForCompactionInputs( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); return static_cast(opt->new_table_reader_for_compaction_inputs); } /* * Class: org_rocksdb_DBOptions * Method: setCompactionReadaheadSize * Signature: (JJ)V */ void Java_org_rocksdb_DBOptions_setCompactionReadaheadSize( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jcompaction_readahead_size) { auto* opt = reinterpret_cast(jhandle); opt->compaction_readahead_size = static_cast(jcompaction_readahead_size); } /* * Class: org_rocksdb_DBOptions * Method: compactionReadaheadSize * Signature: (J)J */ jlong Java_org_rocksdb_DBOptions_compactionReadaheadSize(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); return static_cast(opt->compaction_readahead_size); } /* * Class: org_rocksdb_DBOptions * Method: setRandomAccessMaxBufferSize * Signature: (JJ)V */ void Java_org_rocksdb_DBOptions_setRandomAccessMaxBufferSize( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jrandom_access_max_buffer_size) { auto* opt = reinterpret_cast(jhandle); opt->random_access_max_buffer_size = static_cast(jrandom_access_max_buffer_size); } /* * Class: org_rocksdb_DBOptions * Method: randomAccessMaxBufferSize * Signature: (J)J */ jlong Java_org_rocksdb_DBOptions_randomAccessMaxBufferSize(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); return static_cast(opt->random_access_max_buffer_size); } /* * Class: org_rocksdb_DBOptions * Method: setWritableFileMaxBufferSize * Signature: (JJ)V */ void Java_org_rocksdb_DBOptions_setWritableFileMaxBufferSize( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jwritable_file_max_buffer_size) { auto* opt = reinterpret_cast(jhandle); opt->writable_file_max_buffer_size = static_cast(jwritable_file_max_buffer_size); } /* * Class: org_rocksdb_DBOptions * Method: writableFileMaxBufferSize * Signature: (J)J */ jlong Java_org_rocksdb_DBOptions_writableFileMaxBufferSize(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); return static_cast(opt->writable_file_max_buffer_size); } /* * Class: org_rocksdb_DBOptions * Method: setUseAdaptiveMutex * Signature: (JZ)V */ void Java_org_rocksdb_DBOptions_setUseAdaptiveMutex( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean use_adaptive_mutex) { reinterpret_cast(jhandle)->use_adaptive_mutex = static_cast(use_adaptive_mutex); } /* * Class: org_rocksdb_DBOptions * Method: useAdaptiveMutex * Signature: (J)Z */ jboolean Java_org_rocksdb_DBOptions_useAdaptiveMutex(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->use_adaptive_mutex; } /* * Class: org_rocksdb_DBOptions * Method: setBytesPerSync * Signature: (JJ)V */ void Java_org_rocksdb_DBOptions_setBytesPerSync(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong bytes_per_sync) { reinterpret_cast(jhandle)->bytes_per_sync = static_cast(bytes_per_sync); } /* * Class: org_rocksdb_DBOptions * Method: bytesPerSync * Signature: (J)J */ jlong Java_org_rocksdb_DBOptions_bytesPerSync(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->bytes_per_sync; } /* * Class: org_rocksdb_DBOptions * Method: setWalBytesPerSync * Signature: (JJ)V */ void Java_org_rocksdb_DBOptions_setWalBytesPerSync(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jwal_bytes_per_sync) { reinterpret_cast(jhandle)->wal_bytes_per_sync = static_cast(jwal_bytes_per_sync); } /* * Class: org_rocksdb_DBOptions * Method: walBytesPerSync * Signature: (J)J */ jlong Java_org_rocksdb_DBOptions_walBytesPerSync(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); return static_cast(opt->wal_bytes_per_sync); } /* * Class: org_rocksdb_DBOptions * Method: setEnableThreadTracking * Signature: (JZ)V */ void Java_org_rocksdb_DBOptions_setEnableThreadTracking( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean jenable_thread_tracking) { auto* opt = reinterpret_cast(jhandle); opt->enable_thread_tracking = static_cast(jenable_thread_tracking); } /* * Class: org_rocksdb_DBOptions * Method: enableThreadTracking * Signature: (J)Z */ jboolean Java_org_rocksdb_DBOptions_enableThreadTracking(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); return static_cast(opt->enable_thread_tracking); } /* * Class: org_rocksdb_DBOptions * Method: setDelayedWriteRate * Signature: (JJ)V */ void Java_org_rocksdb_DBOptions_setDelayedWriteRate(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jdelayed_write_rate) { auto* opt = reinterpret_cast(jhandle); opt->delayed_write_rate = static_cast(jdelayed_write_rate); } /* * Class: org_rocksdb_DBOptions * Method: delayedWriteRate * Signature: (J)J */ jlong Java_org_rocksdb_DBOptions_delayedWriteRate(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); return static_cast(opt->delayed_write_rate); } /* * Class: org_rocksdb_DBOptions * Method: setAllowConcurrentMemtableWrite * Signature: (JZ)V */ void Java_org_rocksdb_DBOptions_setAllowConcurrentMemtableWrite( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean allow) { reinterpret_cast(jhandle) ->allow_concurrent_memtable_write = static_cast(allow); } /* * Class: org_rocksdb_DBOptions * Method: allowConcurrentMemtableWrite * Signature: (J)Z */ jboolean Java_org_rocksdb_DBOptions_allowConcurrentMemtableWrite( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->allow_concurrent_memtable_write; } /* * Class: org_rocksdb_DBOptions * Method: setEnableWriteThreadAdaptiveYield * Signature: (JZ)V */ void Java_org_rocksdb_DBOptions_setEnableWriteThreadAdaptiveYield( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean yield) { reinterpret_cast(jhandle) ->enable_write_thread_adaptive_yield = static_cast(yield); } /* * Class: org_rocksdb_DBOptions * Method: enableWriteThreadAdaptiveYield * Signature: (J)Z */ jboolean Java_org_rocksdb_DBOptions_enableWriteThreadAdaptiveYield( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->enable_write_thread_adaptive_yield; } /* * Class: org_rocksdb_DBOptions * Method: setWriteThreadMaxYieldUsec * Signature: (JJ)V */ void Java_org_rocksdb_DBOptions_setWriteThreadMaxYieldUsec(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong max) { reinterpret_cast(jhandle)->write_thread_max_yield_usec = static_cast(max); } /* * Class: org_rocksdb_DBOptions * Method: writeThreadMaxYieldUsec * Signature: (J)J */ jlong Java_org_rocksdb_DBOptions_writeThreadMaxYieldUsec(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->write_thread_max_yield_usec; } /* * Class: org_rocksdb_DBOptions * Method: setWriteThreadSlowYieldUsec * Signature: (JJ)V */ void Java_org_rocksdb_DBOptions_setWriteThreadSlowYieldUsec(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong slow) { reinterpret_cast(jhandle)->write_thread_slow_yield_usec = static_cast(slow); } /* * Class: org_rocksdb_DBOptions * Method: writeThreadSlowYieldUsec * Signature: (J)J */ jlong Java_org_rocksdb_DBOptions_writeThreadSlowYieldUsec(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->write_thread_slow_yield_usec; } /* * Class: org_rocksdb_DBOptions * Method: setSkipStatsUpdateOnDbOpen * Signature: (JZ)V */ void Java_org_rocksdb_DBOptions_setSkipStatsUpdateOnDbOpen( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean jskip_stats_update_on_db_open) { auto* opt = reinterpret_cast(jhandle); opt->skip_stats_update_on_db_open = static_cast(jskip_stats_update_on_db_open); } /* * Class: org_rocksdb_DBOptions * Method: skipStatsUpdateOnDbOpen * Signature: (J)Z */ jboolean Java_org_rocksdb_DBOptions_skipStatsUpdateOnDbOpen(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); return static_cast(opt->skip_stats_update_on_db_open); } /* * Class: org_rocksdb_DBOptions * Method: setWalRecoveryMode * Signature: (JB)V */ void Java_org_rocksdb_DBOptions_setWalRecoveryMode( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jbyte jwal_recovery_mode_value) { auto* opt = reinterpret_cast(jhandle); opt->wal_recovery_mode = rocksdb::WALRecoveryModeJni::toCppWALRecoveryMode( jwal_recovery_mode_value); } /* * Class: org_rocksdb_DBOptions * Method: walRecoveryMode * Signature: (J)B */ jbyte Java_org_rocksdb_DBOptions_walRecoveryMode(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); return rocksdb::WALRecoveryModeJni::toJavaWALRecoveryMode( opt->wal_recovery_mode); } /* * Class: org_rocksdb_DBOptions * Method: setAllow2pc * Signature: (JZ)V */ void Java_org_rocksdb_DBOptions_setAllow2pc(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean jallow_2pc) { auto* opt = reinterpret_cast(jhandle); opt->allow_2pc = static_cast(jallow_2pc); } /* * Class: org_rocksdb_DBOptions * Method: allow2pc * Signature: (J)Z */ jboolean Java_org_rocksdb_DBOptions_allow2pc(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); return static_cast(opt->allow_2pc); } /* * Class: org_rocksdb_DBOptions * Method: setRowCache * Signature: (JJ)V */ void Java_org_rocksdb_DBOptions_setRowCache(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jrow_cache_handle) { auto* opt = reinterpret_cast(jhandle); auto* row_cache = reinterpret_cast*>(jrow_cache_handle); opt->row_cache = *row_cache; } /* * Class: org_rocksdb_DBOptions * Method: setFailIfOptionsFileError * Signature: (JZ)V */ void Java_org_rocksdb_DBOptions_setFailIfOptionsFileError( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean jfail_if_options_file_error) { auto* opt = reinterpret_cast(jhandle); opt->fail_if_options_file_error = static_cast(jfail_if_options_file_error); } /* * Class: org_rocksdb_DBOptions * Method: failIfOptionsFileError * Signature: (J)Z */ jboolean Java_org_rocksdb_DBOptions_failIfOptionsFileError(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); return static_cast(opt->fail_if_options_file_error); } /* * Class: org_rocksdb_DBOptions * Method: setDumpMallocStats * Signature: (JZ)V */ void Java_org_rocksdb_DBOptions_setDumpMallocStats( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean jdump_malloc_stats) { auto* opt = reinterpret_cast(jhandle); opt->dump_malloc_stats = static_cast(jdump_malloc_stats); } /* * Class: org_rocksdb_DBOptions * Method: dumpMallocStats * Signature: (J)Z */ jboolean Java_org_rocksdb_DBOptions_dumpMallocStats(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); return static_cast(opt->dump_malloc_stats); } /* * Class: org_rocksdb_DBOptions * Method: setAvoidFlushDuringRecovery * Signature: (JZ)V */ void Java_org_rocksdb_DBOptions_setAvoidFlushDuringRecovery( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean javoid_flush_during_recovery) { auto* opt = reinterpret_cast(jhandle); opt->avoid_flush_during_recovery = static_cast(javoid_flush_during_recovery); } /* * Class: org_rocksdb_DBOptions * Method: avoidFlushDuringRecovery * Signature: (J)Z */ jboolean Java_org_rocksdb_DBOptions_avoidFlushDuringRecovery(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); return static_cast(opt->avoid_flush_during_recovery); } /* * Class: org_rocksdb_DBOptions * Method: setAvoidFlushDuringShutdown * Signature: (JZ)V */ void Java_org_rocksdb_DBOptions_setAvoidFlushDuringShutdown( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean javoid_flush_during_shutdown) { auto* opt = reinterpret_cast(jhandle); opt->avoid_flush_during_shutdown = static_cast(javoid_flush_during_shutdown); } /* * Class: org_rocksdb_DBOptions * Method: avoidFlushDuringShutdown * Signature: (J)Z */ jboolean Java_org_rocksdb_DBOptions_avoidFlushDuringShutdown(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); return static_cast(opt->avoid_flush_during_shutdown); } ////////////////////////////////////////////////////////////////////////////// // rocksdb::WriteOptions /* * Class: org_rocksdb_WriteOptions * Method: newWriteOptions * Signature: ()J */ jlong Java_org_rocksdb_WriteOptions_newWriteOptions(JNIEnv* /*env*/, jclass /*jcls*/) { auto* op = new rocksdb::WriteOptions(); return reinterpret_cast(op); } /* * Class: org_rocksdb_WriteOptions * Method: copyWriteOptions * Signature: (J)J */ jlong Java_org_rocksdb_WriteOptions_copyWriteOptions(JNIEnv* /*env*/, jclass /*jcls*/, jlong jhandle) { auto new_opt = new rocksdb::WriteOptions( *(reinterpret_cast(jhandle))); return reinterpret_cast(new_opt); } /* * Class: org_rocksdb_WriteOptions * Method: disposeInternal * Signature: ()V */ void Java_org_rocksdb_WriteOptions_disposeInternal(JNIEnv* /*env*/, jobject /*jwrite_options*/, jlong jhandle) { auto* write_options = reinterpret_cast(jhandle); assert(write_options != nullptr); delete write_options; } /* * Class: org_rocksdb_WriteOptions * Method: setSync * Signature: (JZ)V */ void Java_org_rocksdb_WriteOptions_setSync(JNIEnv* /*env*/, jobject /*jwrite_options*/, jlong jhandle, jboolean jflag) { reinterpret_cast(jhandle)->sync = jflag; } /* * Class: org_rocksdb_WriteOptions * Method: sync * Signature: (J)Z */ jboolean Java_org_rocksdb_WriteOptions_sync(JNIEnv* /*env*/, jobject /*jwrite_options*/, jlong jhandle) { return reinterpret_cast(jhandle)->sync; } /* * Class: org_rocksdb_WriteOptions * Method: setDisableWAL * Signature: (JZ)V */ void Java_org_rocksdb_WriteOptions_setDisableWAL(JNIEnv* /*env*/, jobject /*jwrite_options*/, jlong jhandle, jboolean jflag) { reinterpret_cast(jhandle)->disableWAL = jflag; } /* * Class: org_rocksdb_WriteOptions * Method: disableWAL * Signature: (J)Z */ jboolean Java_org_rocksdb_WriteOptions_disableWAL(JNIEnv* /*env*/, jobject /*jwrite_options*/, jlong jhandle) { return reinterpret_cast(jhandle)->disableWAL; } /* * Class: org_rocksdb_WriteOptions * Method: setIgnoreMissingColumnFamilies * Signature: (JZ)V */ void Java_org_rocksdb_WriteOptions_setIgnoreMissingColumnFamilies( JNIEnv* /*env*/, jobject /*jwrite_options*/, jlong jhandle, jboolean jignore_missing_column_families) { reinterpret_cast(jhandle) ->ignore_missing_column_families = static_cast(jignore_missing_column_families); } /* * Class: org_rocksdb_WriteOptions * Method: ignoreMissingColumnFamilies * Signature: (J)Z */ jboolean Java_org_rocksdb_WriteOptions_ignoreMissingColumnFamilies( JNIEnv* /*env*/, jobject /*jwrite_options*/, jlong jhandle) { return reinterpret_cast(jhandle) ->ignore_missing_column_families; } /* * Class: org_rocksdb_WriteOptions * Method: setNoSlowdown * Signature: (JZ)V */ void Java_org_rocksdb_WriteOptions_setNoSlowdown(JNIEnv* /*env*/, jobject /*jwrite_options*/, jlong jhandle, jboolean jno_slowdown) { reinterpret_cast(jhandle)->no_slowdown = static_cast(jno_slowdown); } /* * Class: org_rocksdb_WriteOptions * Method: noSlowdown * Signature: (J)Z */ jboolean Java_org_rocksdb_WriteOptions_noSlowdown(JNIEnv* /*env*/, jobject /*jwrite_options*/, jlong jhandle) { return reinterpret_cast(jhandle)->no_slowdown; } ///////////////////////////////////////////////////////////////////// // rocksdb::ReadOptions /* * Class: org_rocksdb_ReadOptions * Method: newReadOptions * Signature: ()J */ jlong Java_org_rocksdb_ReadOptions_newReadOptions(JNIEnv* /*env*/, jclass /*jcls*/) { auto* read_options = new rocksdb::ReadOptions(); return reinterpret_cast(read_options); } /* * Class: org_rocksdb_ReadOptions * Method: copyReadOptions * Signature: (J)J */ jlong Java_org_rocksdb_ReadOptions_copyReadOptions(JNIEnv* /*env*/, jclass /*jcls*/, jlong jhandle) { auto new_opt = new rocksdb::ReadOptions( *(reinterpret_cast(jhandle))); return reinterpret_cast(new_opt); } /* * Class: org_rocksdb_ReadOptions * Method: disposeInternal * Signature: (J)V */ void Java_org_rocksdb_ReadOptions_disposeInternal(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* read_options = reinterpret_cast(jhandle); assert(read_options != nullptr); delete read_options; } /* * Class: org_rocksdb_ReadOptions * Method: setVerifyChecksums * Signature: (JZ)V */ void Java_org_rocksdb_ReadOptions_setVerifyChecksums( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean jverify_checksums) { reinterpret_cast(jhandle)->verify_checksums = static_cast(jverify_checksums); } /* * Class: org_rocksdb_ReadOptions * Method: verifyChecksums * Signature: (J)Z */ jboolean Java_org_rocksdb_ReadOptions_verifyChecksums(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->verify_checksums; } /* * Class: org_rocksdb_ReadOptions * Method: setFillCache * Signature: (JZ)V */ void Java_org_rocksdb_ReadOptions_setFillCache(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean jfill_cache) { reinterpret_cast(jhandle)->fill_cache = static_cast(jfill_cache); } /* * Class: org_rocksdb_ReadOptions * Method: fillCache * Signature: (J)Z */ jboolean Java_org_rocksdb_ReadOptions_fillCache(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->fill_cache; } /* * Class: org_rocksdb_ReadOptions * Method: setTailing * Signature: (JZ)V */ void Java_org_rocksdb_ReadOptions_setTailing(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean jtailing) { reinterpret_cast(jhandle)->tailing = static_cast(jtailing); } /* * Class: org_rocksdb_ReadOptions * Method: tailing * Signature: (J)Z */ jboolean Java_org_rocksdb_ReadOptions_tailing(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->tailing; } /* * Class: org_rocksdb_ReadOptions * Method: managed * Signature: (J)Z */ jboolean Java_org_rocksdb_ReadOptions_managed(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->managed; } /* * Class: org_rocksdb_ReadOptions * Method: setManaged * Signature: (JZ)V */ void Java_org_rocksdb_ReadOptions_setManaged(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean jmanaged) { reinterpret_cast(jhandle)->managed = static_cast(jmanaged); } /* * Class: org_rocksdb_ReadOptions * Method: totalOrderSeek * Signature: (J)Z */ jboolean Java_org_rocksdb_ReadOptions_totalOrderSeek(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->total_order_seek; } /* * Class: org_rocksdb_ReadOptions * Method: setTotalOrderSeek * Signature: (JZ)V */ void Java_org_rocksdb_ReadOptions_setTotalOrderSeek( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean jtotal_order_seek) { reinterpret_cast(jhandle)->total_order_seek = static_cast(jtotal_order_seek); } /* * Class: org_rocksdb_ReadOptions * Method: prefixSameAsStart * Signature: (J)Z */ jboolean Java_org_rocksdb_ReadOptions_prefixSameAsStart(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->prefix_same_as_start; } /* * Class: org_rocksdb_ReadOptions * Method: setPrefixSameAsStart * Signature: (JZ)V */ void Java_org_rocksdb_ReadOptions_setPrefixSameAsStart( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean jprefix_same_as_start) { reinterpret_cast(jhandle)->prefix_same_as_start = static_cast(jprefix_same_as_start); } /* * Class: org_rocksdb_ReadOptions * Method: pinData * Signature: (J)Z */ jboolean Java_org_rocksdb_ReadOptions_pinData(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->pin_data; } /* * Class: org_rocksdb_ReadOptions * Method: setPinData * Signature: (JZ)V */ void Java_org_rocksdb_ReadOptions_setPinData(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean jpin_data) { reinterpret_cast(jhandle)->pin_data = static_cast(jpin_data); } /* * Class: org_rocksdb_ReadOptions * Method: backgroundPurgeOnIteratorCleanup * Signature: (J)Z */ jboolean Java_org_rocksdb_ReadOptions_backgroundPurgeOnIteratorCleanup( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); return static_cast(opt->background_purge_on_iterator_cleanup); } /* * Class: org_rocksdb_ReadOptions * Method: setBackgroundPurgeOnIteratorCleanup * Signature: (JZ)V */ void Java_org_rocksdb_ReadOptions_setBackgroundPurgeOnIteratorCleanup( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean jbackground_purge_on_iterator_cleanup) { auto* opt = reinterpret_cast(jhandle); opt->background_purge_on_iterator_cleanup = static_cast(jbackground_purge_on_iterator_cleanup); } /* * Class: org_rocksdb_ReadOptions * Method: readaheadSize * Signature: (J)J */ jlong Java_org_rocksdb_ReadOptions_readaheadSize(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); return static_cast(opt->readahead_size); } /* * Class: org_rocksdb_ReadOptions * Method: setReadaheadSize * Signature: (JJ)V */ void Java_org_rocksdb_ReadOptions_setReadaheadSize(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jreadahead_size) { auto* opt = reinterpret_cast(jhandle); opt->readahead_size = static_cast(jreadahead_size); } /* * Class: org_rocksdb_ReadOptions * Method: ignoreRangeDeletions * Signature: (J)Z */ jboolean Java_org_rocksdb_ReadOptions_ignoreRangeDeletions(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opt = reinterpret_cast(jhandle); return static_cast(opt->ignore_range_deletions); } /* * Class: org_rocksdb_ReadOptions * Method: setIgnoreRangeDeletions * Signature: (JZ)V */ void Java_org_rocksdb_ReadOptions_setIgnoreRangeDeletions( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean jignore_range_deletions) { auto* opt = reinterpret_cast(jhandle); opt->ignore_range_deletions = static_cast(jignore_range_deletions); } /* * Class: org_rocksdb_ReadOptions * Method: setSnapshot * Signature: (JJ)V */ void Java_org_rocksdb_ReadOptions_setSnapshot(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jsnapshot) { reinterpret_cast(jhandle)->snapshot = reinterpret_cast(jsnapshot); } /* * Class: org_rocksdb_ReadOptions * Method: snapshot * Signature: (J)J */ jlong Java_org_rocksdb_ReadOptions_snapshot(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto& snapshot = reinterpret_cast(jhandle)->snapshot; return reinterpret_cast(snapshot); } /* * Class: org_rocksdb_ReadOptions * Method: readTier * Signature: (J)B */ jbyte Java_org_rocksdb_ReadOptions_readTier(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return static_cast( reinterpret_cast(jhandle)->read_tier); } /* * Class: org_rocksdb_ReadOptions * Method: setReadTier * Signature: (JB)V */ void Java_org_rocksdb_ReadOptions_setReadTier(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jbyte jread_tier) { reinterpret_cast(jhandle)->read_tier = static_cast(jread_tier); } /* * Class: org_rocksdb_ReadOptions * Method: setIterateUpperBound * Signature: (JJ)I */ void Java_org_rocksdb_ReadOptions_setIterateUpperBound( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jupper_bound_slice_handle) { reinterpret_cast(jhandle)->iterate_upper_bound = reinterpret_cast(jupper_bound_slice_handle); } /* * Class: org_rocksdb_ReadOptions * Method: iterateUpperBound * Signature: (J)J */ jlong Java_org_rocksdb_ReadOptions_iterateUpperBound(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto& upper_bound_slice_handle = reinterpret_cast(jhandle)->iterate_upper_bound; return reinterpret_cast(upper_bound_slice_handle); } ///////////////////////////////////////////////////////////////////// // rocksdb::ComparatorOptions /* * Class: org_rocksdb_ComparatorOptions * Method: newComparatorOptions * Signature: ()J */ jlong Java_org_rocksdb_ComparatorOptions_newComparatorOptions(JNIEnv* /*env*/, jclass /*jcls*/) { auto* comparator_opt = new rocksdb::ComparatorJniCallbackOptions(); return reinterpret_cast(comparator_opt); } /* * Class: org_rocksdb_ComparatorOptions * Method: useAdaptiveMutex * Signature: (J)Z */ jboolean Java_org_rocksdb_ComparatorOptions_useAdaptiveMutex(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle) ->use_adaptive_mutex; } /* * Class: org_rocksdb_ComparatorOptions * Method: setUseAdaptiveMutex * Signature: (JZ)V */ void Java_org_rocksdb_ComparatorOptions_setUseAdaptiveMutex( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean juse_adaptive_mutex) { reinterpret_cast(jhandle) ->use_adaptive_mutex = static_cast(juse_adaptive_mutex); } /* * Class: org_rocksdb_ComparatorOptions * Method: disposeInternal * Signature: (J)V */ void Java_org_rocksdb_ComparatorOptions_disposeInternal(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* comparator_opt = reinterpret_cast(jhandle); assert(comparator_opt != nullptr); delete comparator_opt; } ///////////////////////////////////////////////////////////////////// // rocksdb::FlushOptions /* * Class: org_rocksdb_FlushOptions * Method: newFlushOptions * Signature: ()J */ jlong Java_org_rocksdb_FlushOptions_newFlushOptions(JNIEnv* /*env*/, jclass /*jcls*/) { auto* flush_opt = new rocksdb::FlushOptions(); return reinterpret_cast(flush_opt); } /* * Class: org_rocksdb_FlushOptions * Method: setWaitForFlush * Signature: (JZ)V */ void Java_org_rocksdb_FlushOptions_setWaitForFlush(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean jwait) { reinterpret_cast(jhandle)->wait = static_cast(jwait); } /* * Class: org_rocksdb_FlushOptions * Method: waitForFlush * Signature: (J)Z */ jboolean Java_org_rocksdb_FlushOptions_waitForFlush(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { return reinterpret_cast(jhandle)->wait; } /* * Class: org_rocksdb_FlushOptions * Method: disposeInternal * Signature: (J)V */ void Java_org_rocksdb_FlushOptions_disposeInternal(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* flush_opt = reinterpret_cast(jhandle); assert(flush_opt != nullptr); delete flush_opt; } rocksdb-5.17.2/java/rocksjni/options_util.cc000066400000000000000000000076151337235545400210630ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file implements the "bridge" between Java and C++ and enables // calling C++ rocksdb::OptionsUtil methods from Java side. #include #include "include/org_rocksdb_OptionsUtil.h" #include "rocksdb/db.h" #include "rocksdb/env.h" #include "rocksdb/utilities/options_util.h" #include "rocksjni/portal.h" void build_column_family_descriptor_list( JNIEnv* env, jobject jcfds, std::vector& cf_descs) { jmethodID add_mid = rocksdb::ListJni::getListAddMethodId(env); if (add_mid == nullptr) { // exception occurred accessing method return; } // Column family descriptor for (rocksdb::ColumnFamilyDescriptor& cfd : cf_descs) { // Construct a ColumnFamilyDescriptor java object jobject jcfd = rocksdb::ColumnFamilyDescriptorJni::construct(env, &cfd); if (env->ExceptionCheck()) { // exception occurred constructing object if (jcfd != nullptr) { env->DeleteLocalRef(jcfd); } return; } // Add the object to java list. jboolean rs = env->CallBooleanMethod(jcfds, add_mid, jcfd); if (env->ExceptionCheck() || rs == JNI_FALSE) { // exception occurred calling method, or could not add if (jcfd != nullptr) { env->DeleteLocalRef(jcfd); } return; } } } /* * Class: org_rocksdb_OptionsUtil * Method: loadLatestOptions * Signature: (Ljava/lang/String;JLjava/util/List;Z)V */ void Java_org_rocksdb_OptionsUtil_loadLatestOptions( JNIEnv* env, jclass /*jcls*/, jstring jdbpath, jlong jenv_handle, jlong jdb_opts_handle, jobject jcfds, jboolean ignore_unknown_options) { const char* db_path = env->GetStringUTFChars(jdbpath, nullptr); std::vector cf_descs; rocksdb::Status s = rocksdb::LoadLatestOptions( db_path, reinterpret_cast(jenv_handle), reinterpret_cast(jdb_opts_handle), &cf_descs, ignore_unknown_options); env->ReleaseStringUTFChars(jdbpath, db_path); if (!s.ok()) { rocksdb::RocksDBExceptionJni::ThrowNew(env, s); } build_column_family_descriptor_list(env, jcfds, cf_descs); } /* * Class: org_rocksdb_OptionsUtil * Method: loadOptionsFromFile * Signature: (Ljava/lang/String;JJLjava/util/List;Z)V */ void Java_org_rocksdb_OptionsUtil_loadOptionsFromFile( JNIEnv* env, jclass /*jcls*/, jstring jopts_file_name, jlong jenv_handle, jlong jdb_opts_handle, jobject jcfds, jboolean ignore_unknown_options) { const char* opts_file_name = env->GetStringUTFChars(jopts_file_name, nullptr); std::vector cf_descs; rocksdb::Status s = rocksdb::LoadOptionsFromFile( opts_file_name, reinterpret_cast(jenv_handle), reinterpret_cast(jdb_opts_handle), &cf_descs, ignore_unknown_options); env->ReleaseStringUTFChars(jopts_file_name, opts_file_name); if (!s.ok()) { rocksdb::RocksDBExceptionJni::ThrowNew(env, s); } build_column_family_descriptor_list(env, jcfds, cf_descs); } /* * Class: org_rocksdb_OptionsUtil * Method: getLatestOptionsFileName * Signature: (Ljava/lang/String;J)Ljava/lang/String; */ jstring Java_org_rocksdb_OptionsUtil_getLatestOptionsFileName( JNIEnv* env, jclass /*jcls*/, jstring jdbpath, jlong jenv_handle) { const char* db_path = env->GetStringUTFChars(jdbpath, nullptr); std::string options_file_name; if (db_path != nullptr) { rocksdb::GetLatestOptionsFileName( db_path, reinterpret_cast(jenv_handle), &options_file_name); } env->ReleaseStringUTFChars(jdbpath, db_path); return env->NewStringUTF(options_file_name.c_str()); } rocksdb-5.17.2/java/rocksjni/portal.h000066400000000000000000004645151337235545400175040ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // This file is designed for caching those frequently used IDs and provide // efficient portal (i.e, a set of static functions) to access java code // from c++. #ifndef JAVA_ROCKSJNI_PORTAL_H_ #define JAVA_ROCKSJNI_PORTAL_H_ #include #include #include #include #include #include #include #include #include #include #include "rocksdb/db.h" #include "rocksdb/filter_policy.h" #include "rocksdb/rate_limiter.h" #include "rocksdb/status.h" #include "rocksdb/utilities/backupable_db.h" #include "rocksdb/utilities/transaction_db.h" #include "rocksdb/utilities/write_batch_with_index.h" #include "rocksjni/compaction_filter_factory_jnicallback.h" #include "rocksjni/comparatorjnicallback.h" #include "rocksjni/loggerjnicallback.h" #include "rocksjni/transaction_notifier_jnicallback.h" #include "rocksjni/writebatchhandlerjnicallback.h" // Remove macro on windows #ifdef DELETE #undef DELETE #endif namespace rocksdb { // Detect if jlong overflows size_t inline Status check_if_jlong_fits_size_t(const jlong& jvalue) { Status s = Status::OK(); if (static_cast(jvalue) > std::numeric_limits::max()) { s = Status::InvalidArgument(Slice("jlong overflows 32 bit value.")); } return s; } class JavaClass { public: /** * Gets and initializes a Java Class * * @param env A pointer to the Java environment * @param jclazz_name The fully qualified JNI name of the Java Class * e.g. "java/lang/String" * * @return The Java Class or nullptr if one of the * ClassFormatError, ClassCircularityError, NoClassDefFoundError, * OutOfMemoryError or ExceptionInInitializerError exceptions is thrown */ static jclass getJClass(JNIEnv* env, const char* jclazz_name) { jclass jclazz = env->FindClass(jclazz_name); assert(jclazz != nullptr); return jclazz; } }; // Native class template template class RocksDBNativeClass : public JavaClass { }; // Native class template for sub-classes of RocksMutableObject template class NativeRocksMutableObject : public RocksDBNativeClass { public: /** * Gets the Java Method ID for the * RocksMutableObject#setNativeHandle(long, boolean) method * * @param env A pointer to the Java environment * @return The Java Method ID or nullptr the RocksMutableObject class cannot * be accessed, or if one of the NoSuchMethodError, * ExceptionInInitializerError or OutOfMemoryError exceptions is thrown */ static jmethodID getSetNativeHandleMethod(JNIEnv* env) { static jclass jclazz = DERIVED::getJClass(env); if(jclazz == nullptr) { return nullptr; } static jmethodID mid = env->GetMethodID( jclazz, "setNativeHandle", "(JZ)V"); assert(mid != nullptr); return mid; } /** * Sets the C++ object pointer handle in the Java object * * @param env A pointer to the Java environment * @param jobj The Java object on which to set the pointer handle * @param ptr The C++ object pointer * @param java_owns_handle JNI_TRUE if ownership of the C++ object is * managed by the Java object * * @return true if a Java exception is pending, false otherwise */ static bool setHandle(JNIEnv* env, jobject jobj, PTR ptr, jboolean java_owns_handle) { assert(jobj != nullptr); static jmethodID mid = getSetNativeHandleMethod(env); if(mid == nullptr) { return true; // signal exception } env->CallVoidMethod(jobj, mid, reinterpret_cast(ptr), java_owns_handle); if(env->ExceptionCheck()) { return true; // signal exception } return false; } }; // Java Exception template template class JavaException : public JavaClass { public: /** * Create and throw a java exception with the provided message * * @param env A pointer to the Java environment * @param msg The message for the exception * * @return true if an exception was thrown, false otherwise */ static bool ThrowNew(JNIEnv* env, const std::string& msg) { jclass jclazz = DERIVED::getJClass(env); if(jclazz == nullptr) { // exception occurred accessing class std::cerr << "JavaException::ThrowNew - Error: unexpected exception!" << std::endl; return env->ExceptionCheck(); } const jint rs = env->ThrowNew(jclazz, msg.c_str()); if(rs != JNI_OK) { // exception could not be thrown std::cerr << "JavaException::ThrowNew - Fatal: could not throw exception!" << std::endl; return env->ExceptionCheck(); } return true; } }; // The portal class for org.rocksdb.RocksDB class RocksDBJni : public RocksDBNativeClass { public: /** * Get the Java Class org.rocksdb.RocksDB * * @param env A pointer to the Java environment * * @return The Java Class or nullptr if one of the * ClassFormatError, ClassCircularityError, NoClassDefFoundError, * OutOfMemoryError or ExceptionInInitializerError exceptions is thrown */ static jclass getJClass(JNIEnv* env) { return RocksDBNativeClass::getJClass(env, "org/rocksdb/RocksDB"); } }; // The portal class for org.rocksdb.Status.Code class CodeJni : public JavaClass { public: /** * Get the Java Class org.rocksdb.Status.Code * * @param env A pointer to the Java environment * * @return The Java Class or nullptr if one of the * ClassFormatError, ClassCircularityError, NoClassDefFoundError, * OutOfMemoryError or ExceptionInInitializerError exceptions is thrown */ static jclass getJClass(JNIEnv* env) { return JavaClass::getJClass(env, "org/rocksdb/Status$Code"); } /** * Get the Java Method: Status.Code#getValue * * @param env A pointer to the Java environment * * @return The Java Method ID or nullptr if the class or method id could not * be retieved */ static jmethodID getValueMethod(JNIEnv* env) { jclass jclazz = getJClass(env); if(jclazz == nullptr) { // exception occurred accessing class return nullptr; } static jmethodID mid = env->GetMethodID(jclazz, "getValue", "()b"); assert(mid != nullptr); return mid; } }; // The portal class for org.rocksdb.Status.SubCode class SubCodeJni : public JavaClass { public: /** * Get the Java Class org.rocksdb.Status.SubCode * * @param env A pointer to the Java environment * * @return The Java Class or nullptr if one of the * ClassFormatError, ClassCircularityError, NoClassDefFoundError, * OutOfMemoryError or ExceptionInInitializerError exceptions is thrown */ static jclass getJClass(JNIEnv* env) { return JavaClass::getJClass(env, "org/rocksdb/Status$SubCode"); } /** * Get the Java Method: Status.SubCode#getValue * * @param env A pointer to the Java environment * * @return The Java Method ID or nullptr if the class or method id could not * be retieved */ static jmethodID getValueMethod(JNIEnv* env) { jclass jclazz = getJClass(env); if(jclazz == nullptr) { // exception occurred accessing class return nullptr; } static jmethodID mid = env->GetMethodID(jclazz, "getValue", "()b"); assert(mid != nullptr); return mid; } static rocksdb::Status::SubCode toCppSubCode(const jbyte jsub_code) { switch (jsub_code) { case 0x0: return rocksdb::Status::SubCode::kNone; case 0x1: return rocksdb::Status::SubCode::kMutexTimeout; case 0x2: return rocksdb::Status::SubCode::kLockTimeout; case 0x3: return rocksdb::Status::SubCode::kLockLimit; case 0x4: return rocksdb::Status::SubCode::kNoSpace; case 0x5: return rocksdb::Status::SubCode::kDeadlock; case 0x6: return rocksdb::Status::SubCode::kStaleFile; case 0x7: return rocksdb::Status::SubCode::kMemoryLimit; case 0x7F: default: return rocksdb::Status::SubCode::kNone; } } }; // The portal class for org.rocksdb.Status class StatusJni : public RocksDBNativeClass { public: /** * Get the Java Class org.rocksdb.Status * * @param env A pointer to the Java environment * * @return The Java Class or nullptr if one of the * ClassFormatError, ClassCircularityError, NoClassDefFoundError, * OutOfMemoryError or ExceptionInInitializerError exceptions is thrown */ static jclass getJClass(JNIEnv* env) { return RocksDBNativeClass::getJClass(env, "org/rocksdb/Status"); } /** * Get the Java Method: Status#getCode * * @param env A pointer to the Java environment * * @return The Java Method ID or nullptr if the class or method id could not * be retieved */ static jmethodID getCodeMethod(JNIEnv* env) { jclass jclazz = getJClass(env); if(jclazz == nullptr) { // exception occurred accessing class return nullptr; } static jmethodID mid = env->GetMethodID(jclazz, "getCode", "()Lorg/rocksdb/Status$Code;"); assert(mid != nullptr); return mid; } /** * Get the Java Method: Status#getSubCode * * @param env A pointer to the Java environment * * @return The Java Method ID or nullptr if the class or method id could not * be retieved */ static jmethodID getSubCodeMethod(JNIEnv* env) { jclass jclazz = getJClass(env); if(jclazz == nullptr) { // exception occurred accessing class return nullptr; } static jmethodID mid = env->GetMethodID(jclazz, "getSubCode", "()Lorg/rocksdb/Status$SubCode;"); assert(mid != nullptr); return mid; } /** * Get the Java Method: Status#getState * * @param env A pointer to the Java environment * * @return The Java Method ID or nullptr if the class or method id could not * be retieved */ static jmethodID getStateMethod(JNIEnv* env) { jclass jclazz = getJClass(env); if(jclazz == nullptr) { // exception occurred accessing class return nullptr; } static jmethodID mid = env->GetMethodID(jclazz, "getState", "()Ljava/lang/String;"); assert(mid != nullptr); return mid; } /** * Create a new Java org.rocksdb.Status object with the same properties as * the provided C++ rocksdb::Status object * * @param env A pointer to the Java environment * @param status The rocksdb::Status object * * @return A reference to a Java org.rocksdb.Status object, or nullptr * if an an exception occurs */ static jobject construct(JNIEnv* env, const Status& status) { jclass jclazz = getJClass(env); if(jclazz == nullptr) { // exception occurred accessing class return nullptr; } jmethodID mid = env->GetMethodID(jclazz, "", "(BBLjava/lang/String;)V"); if(mid == nullptr) { // exception thrown: NoSuchMethodException or OutOfMemoryError return nullptr; } // convert the Status state for Java jstring jstate = nullptr; if (status.getState() != nullptr) { const char* const state = status.getState(); jstate = env->NewStringUTF(state); if(env->ExceptionCheck()) { if(jstate != nullptr) { env->DeleteLocalRef(jstate); } return nullptr; } } jobject jstatus = env->NewObject(jclazz, mid, toJavaStatusCode(status.code()), toJavaStatusSubCode(status.subcode()), jstate); if(env->ExceptionCheck()) { // exception occurred if(jstate != nullptr) { env->DeleteLocalRef(jstate); } return nullptr; } if(jstate != nullptr) { env->DeleteLocalRef(jstate); } return jstatus; } // Returns the equivalent org.rocksdb.Status.Code for the provided // C++ rocksdb::Status::Code enum static jbyte toJavaStatusCode(const rocksdb::Status::Code& code) { switch (code) { case rocksdb::Status::Code::kOk: return 0x0; case rocksdb::Status::Code::kNotFound: return 0x1; case rocksdb::Status::Code::kCorruption: return 0x2; case rocksdb::Status::Code::kNotSupported: return 0x3; case rocksdb::Status::Code::kInvalidArgument: return 0x4; case rocksdb::Status::Code::kIOError: return 0x5; case rocksdb::Status::Code::kMergeInProgress: return 0x6; case rocksdb::Status::Code::kIncomplete: return 0x7; case rocksdb::Status::Code::kShutdownInProgress: return 0x8; case rocksdb::Status::Code::kTimedOut: return 0x9; case rocksdb::Status::Code::kAborted: return 0xA; case rocksdb::Status::Code::kBusy: return 0xB; case rocksdb::Status::Code::kExpired: return 0xC; case rocksdb::Status::Code::kTryAgain: return 0xD; default: return 0x7F; // undefined } } // Returns the equivalent org.rocksdb.Status.SubCode for the provided // C++ rocksdb::Status::SubCode enum static jbyte toJavaStatusSubCode(const rocksdb::Status::SubCode& subCode) { switch (subCode) { case rocksdb::Status::SubCode::kNone: return 0x0; case rocksdb::Status::SubCode::kMutexTimeout: return 0x1; case rocksdb::Status::SubCode::kLockTimeout: return 0x2; case rocksdb::Status::SubCode::kLockLimit: return 0x3; case rocksdb::Status::SubCode::kNoSpace: return 0x4; case rocksdb::Status::SubCode::kDeadlock: return 0x5; case rocksdb::Status::SubCode::kStaleFile: return 0x6; case rocksdb::Status::SubCode::kMemoryLimit: return 0x7; default: return 0x7F; // undefined } } // Returns the equivalent rocksdb::Status for the Java org.rocksdb.Status static std::unique_ptr toCppStatus(JNIEnv* env, const jobject jstatus) { jmethodID mid_code = getCodeMethod(env); if (mid_code == nullptr) { // exception occurred return nullptr; } jobject jcode = env->CallObjectMethod(jstatus, mid_code); if (env->ExceptionCheck()) { // exception occurred return nullptr; } jmethodID mid_code_value = rocksdb::CodeJni::getValueMethod(env); if (mid_code_value == nullptr) { // exception occurred return nullptr; } jbyte jcode_value = env->CallByteMethod(jcode, mid_code_value); if (env->ExceptionCheck()) { // exception occurred if (jcode != nullptr) { env->DeleteLocalRef(jcode); } return nullptr; } jmethodID mid_subCode = getSubCodeMethod(env); if (mid_subCode == nullptr) { // exception occurred return nullptr; } jobject jsubCode = env->CallObjectMethod(jstatus, mid_subCode); if (env->ExceptionCheck()) { // exception occurred if (jcode != nullptr) { env->DeleteLocalRef(jcode); } return nullptr; } jbyte jsubCode_value = 0x0; // None if (jsubCode != nullptr) { jmethodID mid_subCode_value = rocksdb::SubCodeJni::getValueMethod(env); if (mid_subCode_value == nullptr) { // exception occurred return nullptr; } jsubCode_value =env->CallByteMethod(jsubCode, mid_subCode_value); if (env->ExceptionCheck()) { // exception occurred if (jcode != nullptr) { env->DeleteLocalRef(jcode); } return nullptr; } } jmethodID mid_state = getStateMethod(env); if (mid_state == nullptr) { // exception occurred return nullptr; } jobject jstate = env->CallObjectMethod(jstatus, mid_state); if (env->ExceptionCheck()) { // exception occurred if (jsubCode != nullptr) { env->DeleteLocalRef(jsubCode); } if (jcode != nullptr) { env->DeleteLocalRef(jcode); } return nullptr; } std::unique_ptr status; switch (jcode_value) { case 0x0: //Ok status = std::unique_ptr(new rocksdb::Status(rocksdb::Status::OK())); break; case 0x1: //NotFound status = std::unique_ptr(new rocksdb::Status(rocksdb::Status::NotFound(rocksdb::SubCodeJni::toCppSubCode(jsubCode_value)))); break; case 0x2: //Corruption status = std::unique_ptr(new rocksdb::Status(rocksdb::Status::Corruption(rocksdb::SubCodeJni::toCppSubCode(jsubCode_value)))); break; case 0x3: //NotSupported status = std::unique_ptr(new rocksdb::Status(rocksdb::Status::NotSupported(rocksdb::SubCodeJni::toCppSubCode(jsubCode_value)))); break; case 0x4: //InvalidArgument status = std::unique_ptr(new rocksdb::Status(rocksdb::Status::InvalidArgument(rocksdb::SubCodeJni::toCppSubCode(jsubCode_value)))); break; case 0x5: //IOError status = std::unique_ptr(new rocksdb::Status(rocksdb::Status::IOError(rocksdb::SubCodeJni::toCppSubCode(jsubCode_value)))); break; case 0x6: //MergeInProgress status = std::unique_ptr(new rocksdb::Status(rocksdb::Status::MergeInProgress(rocksdb::SubCodeJni::toCppSubCode(jsubCode_value)))); break; case 0x7: //Incomplete status = std::unique_ptr(new rocksdb::Status(rocksdb::Status::Incomplete(rocksdb::SubCodeJni::toCppSubCode(jsubCode_value)))); break; case 0x8: //ShutdownInProgress status = std::unique_ptr(new rocksdb::Status(rocksdb::Status::ShutdownInProgress(rocksdb::SubCodeJni::toCppSubCode(jsubCode_value)))); break; case 0x9: //TimedOut status = std::unique_ptr(new rocksdb::Status(rocksdb::Status::TimedOut(rocksdb::SubCodeJni::toCppSubCode(jsubCode_value)))); break; case 0xA: //Aborted status = std::unique_ptr(new rocksdb::Status(rocksdb::Status::Aborted(rocksdb::SubCodeJni::toCppSubCode(jsubCode_value)))); break; case 0xB: //Busy status = std::unique_ptr(new rocksdb::Status(rocksdb::Status::Busy(rocksdb::SubCodeJni::toCppSubCode(jsubCode_value)))); break; case 0xC: //Expired status = std::unique_ptr(new rocksdb::Status(rocksdb::Status::Expired(rocksdb::SubCodeJni::toCppSubCode(jsubCode_value)))); break; case 0xD: //TryAgain status = std::unique_ptr(new rocksdb::Status(rocksdb::Status::TryAgain(rocksdb::SubCodeJni::toCppSubCode(jsubCode_value)))); break; case 0x7F: default: return nullptr; } // delete all local refs if (jstate != nullptr) { env->DeleteLocalRef(jstate); } if (jsubCode != nullptr) { env->DeleteLocalRef(jsubCode); } if (jcode != nullptr) { env->DeleteLocalRef(jcode); } return status; } }; // The portal class for org.rocksdb.RocksDBException class RocksDBExceptionJni : public JavaException { public: /** * Get the Java Class org.rocksdb.RocksDBException * * @param env A pointer to the Java environment * * @return The Java Class or nullptr if one of the * ClassFormatError, ClassCircularityError, NoClassDefFoundError, * OutOfMemoryError or ExceptionInInitializerError exceptions is thrown */ static jclass getJClass(JNIEnv* env) { return JavaException::getJClass(env, "org/rocksdb/RocksDBException"); } /** * Create and throw a Java RocksDBException with the provided message * * @param env A pointer to the Java environment * @param msg The message for the exception * * @return true if an exception was thrown, false otherwise */ static bool ThrowNew(JNIEnv* env, const std::string& msg) { return JavaException::ThrowNew(env, msg); } /** * Create and throw a Java RocksDBException with the provided status * * If s->ok() == true, then this function will not throw any exception. * * @param env A pointer to the Java environment * @param s The status for the exception * * @return true if an exception was thrown, false otherwise */ static bool ThrowNew(JNIEnv* env, std::unique_ptr& s) { return rocksdb::RocksDBExceptionJni::ThrowNew(env, *(s.get())); } /** * Create and throw a Java RocksDBException with the provided status * * If s.ok() == true, then this function will not throw any exception. * * @param env A pointer to the Java environment * @param s The status for the exception * * @return true if an exception was thrown, false otherwise */ static bool ThrowNew(JNIEnv* env, const Status& s) { assert(!s.ok()); if (s.ok()) { return false; } // get the RocksDBException class jclass jclazz = getJClass(env); if(jclazz == nullptr) { // exception occurred accessing class std::cerr << "RocksDBExceptionJni::ThrowNew/class - Error: unexpected exception!" << std::endl; return env->ExceptionCheck(); } // get the constructor of org.rocksdb.RocksDBException jmethodID mid = env->GetMethodID(jclazz, "", "(Lorg/rocksdb/Status;)V"); if(mid == nullptr) { // exception thrown: NoSuchMethodException or OutOfMemoryError std::cerr << "RocksDBExceptionJni::ThrowNew/cstr - Error: unexpected exception!" << std::endl; return env->ExceptionCheck(); } // get the Java status object jobject jstatus = StatusJni::construct(env, s); if(jstatus == nullptr) { // exception occcurred std::cerr << "RocksDBExceptionJni::ThrowNew/StatusJni - Error: unexpected exception!" << std::endl; return env->ExceptionCheck(); } // construct the RocksDBException jthrowable rocksdb_exception = reinterpret_cast(env->NewObject(jclazz, mid, jstatus)); if(env->ExceptionCheck()) { if(jstatus != nullptr) { env->DeleteLocalRef(jstatus); } if(rocksdb_exception != nullptr) { env->DeleteLocalRef(rocksdb_exception); } std::cerr << "RocksDBExceptionJni::ThrowNew/NewObject - Error: unexpected exception!" << std::endl; return true; } // throw the RocksDBException const jint rs = env->Throw(rocksdb_exception); if(rs != JNI_OK) { // exception could not be thrown std::cerr << "RocksDBExceptionJni::ThrowNew - Fatal: could not throw exception!" << std::endl; if(jstatus != nullptr) { env->DeleteLocalRef(jstatus); } if(rocksdb_exception != nullptr) { env->DeleteLocalRef(rocksdb_exception); } return env->ExceptionCheck(); } if(jstatus != nullptr) { env->DeleteLocalRef(jstatus); } if(rocksdb_exception != nullptr) { env->DeleteLocalRef(rocksdb_exception); } return true; } /** * Create and throw a Java RocksDBException with the provided message * and status * * If s.ok() == true, then this function will not throw any exception. * * @param env A pointer to the Java environment * @param msg The message for the exception * @param s The status for the exception * * @return true if an exception was thrown, false otherwise */ static bool ThrowNew(JNIEnv* env, const std::string& msg, const Status& s) { assert(!s.ok()); if (s.ok()) { return false; } // get the RocksDBException class jclass jclazz = getJClass(env); if(jclazz == nullptr) { // exception occurred accessing class std::cerr << "RocksDBExceptionJni::ThrowNew/class - Error: unexpected exception!" << std::endl; return env->ExceptionCheck(); } // get the constructor of org.rocksdb.RocksDBException jmethodID mid = env->GetMethodID(jclazz, "", "(Ljava/lang/String;Lorg/rocksdb/Status;)V"); if(mid == nullptr) { // exception thrown: NoSuchMethodException or OutOfMemoryError std::cerr << "RocksDBExceptionJni::ThrowNew/cstr - Error: unexpected exception!" << std::endl; return env->ExceptionCheck(); } jstring jmsg = env->NewStringUTF(msg.c_str()); if(jmsg == nullptr) { // exception thrown: OutOfMemoryError std::cerr << "RocksDBExceptionJni::ThrowNew/msg - Error: unexpected exception!" << std::endl; return env->ExceptionCheck(); } // get the Java status object jobject jstatus = StatusJni::construct(env, s); if(jstatus == nullptr) { // exception occcurred std::cerr << "RocksDBExceptionJni::ThrowNew/StatusJni - Error: unexpected exception!" << std::endl; if(jmsg != nullptr) { env->DeleteLocalRef(jmsg); } return env->ExceptionCheck(); } // construct the RocksDBException jthrowable rocksdb_exception = reinterpret_cast(env->NewObject(jclazz, mid, jmsg, jstatus)); if(env->ExceptionCheck()) { if(jstatus != nullptr) { env->DeleteLocalRef(jstatus); } if(jmsg != nullptr) { env->DeleteLocalRef(jmsg); } if(rocksdb_exception != nullptr) { env->DeleteLocalRef(rocksdb_exception); } std::cerr << "RocksDBExceptionJni::ThrowNew/NewObject - Error: unexpected exception!" << std::endl; return true; } // throw the RocksDBException const jint rs = env->Throw(rocksdb_exception); if(rs != JNI_OK) { // exception could not be thrown std::cerr << "RocksDBExceptionJni::ThrowNew - Fatal: could not throw exception!" << std::endl; if(jstatus != nullptr) { env->DeleteLocalRef(jstatus); } if(jmsg != nullptr) { env->DeleteLocalRef(jmsg); } if(rocksdb_exception != nullptr) { env->DeleteLocalRef(rocksdb_exception); } return env->ExceptionCheck(); } if(jstatus != nullptr) { env->DeleteLocalRef(jstatus); } if(jmsg != nullptr) { env->DeleteLocalRef(jmsg); } if(rocksdb_exception != nullptr) { env->DeleteLocalRef(rocksdb_exception); } return true; } /** * Get the Java Method: RocksDBException#getStatus * * @param env A pointer to the Java environment * * @return The Java Method ID or nullptr if the class or method id could not * be retieved */ static jmethodID getStatusMethod(JNIEnv* env) { jclass jclazz = getJClass(env); if(jclazz == nullptr) { // exception occurred accessing class return nullptr; } static jmethodID mid = env->GetMethodID(jclazz, "getStatus", "()Lorg/rocksdb/Status;"); assert(mid != nullptr); return mid; } static std::unique_ptr toCppStatus( JNIEnv* env, jthrowable jrocksdb_exception) { if(!env->IsInstanceOf(jrocksdb_exception, getJClass(env))) { // not an instance of RocksDBException return nullptr; } // get the java status object jmethodID mid = getStatusMethod(env); if(mid == nullptr) { // exception occurred accessing class or method return nullptr; } jobject jstatus = env->CallObjectMethod(jrocksdb_exception, mid); if(env->ExceptionCheck()) { // exception occurred return nullptr; } if(jstatus == nullptr) { return nullptr; // no status available } return rocksdb::StatusJni::toCppStatus(env, jstatus); } }; // The portal class for java.lang.IllegalArgumentException class IllegalArgumentExceptionJni : public JavaException { public: /** * Get the Java Class java.lang.IllegalArgumentException * * @param env A pointer to the Java environment * * @return The Java Class or nullptr if one of the * ClassFormatError, ClassCircularityError, NoClassDefFoundError, * OutOfMemoryError or ExceptionInInitializerError exceptions is thrown */ static jclass getJClass(JNIEnv* env) { return JavaException::getJClass(env, "java/lang/IllegalArgumentException"); } /** * Create and throw a Java IllegalArgumentException with the provided status * * If s.ok() == true, then this function will not throw any exception. * * @param env A pointer to the Java environment * @param s The status for the exception * * @return true if an exception was thrown, false otherwise */ static bool ThrowNew(JNIEnv* env, const Status& s) { assert(!s.ok()); if (s.ok()) { return false; } // get the IllegalArgumentException class jclass jclazz = getJClass(env); if(jclazz == nullptr) { // exception occurred accessing class std::cerr << "IllegalArgumentExceptionJni::ThrowNew/class - Error: unexpected exception!" << std::endl; return env->ExceptionCheck(); } return JavaException::ThrowNew(env, s.ToString()); } }; // The portal class for org.rocksdb.Options class OptionsJni : public RocksDBNativeClass< rocksdb::Options*, OptionsJni> { public: /** * Get the Java Class org.rocksdb.Options * * @param env A pointer to the Java environment * * @return The Java Class or nullptr if one of the * ClassFormatError, ClassCircularityError, NoClassDefFoundError, * OutOfMemoryError or ExceptionInInitializerError exceptions is thrown */ static jclass getJClass(JNIEnv* env) { return RocksDBNativeClass::getJClass(env, "org/rocksdb/Options"); } }; // The portal class for org.rocksdb.DBOptions class DBOptionsJni : public RocksDBNativeClass< rocksdb::DBOptions*, DBOptionsJni> { public: /** * Get the Java Class org.rocksdb.DBOptions * * @param env A pointer to the Java environment * * @return The Java Class or nullptr if one of the * ClassFormatError, ClassCircularityError, NoClassDefFoundError, * OutOfMemoryError or ExceptionInInitializerError exceptions is thrown */ static jclass getJClass(JNIEnv* env) { return RocksDBNativeClass::getJClass(env, "org/rocksdb/DBOptions"); } }; // The portal class for org.rocksdb.ColumnFamilyOptions class ColumnFamilyOptionsJni : public RocksDBNativeClass { public: /** * Get the Java Class org.rocksdb.ColumnFamilyOptions * * @param env A pointer to the Java environment * * @return The Java Class or nullptr if one of the * ClassFormatError, ClassCircularityError, NoClassDefFoundError, * OutOfMemoryError or ExceptionInInitializerError exceptions is thrown */ static jclass getJClass(JNIEnv* env) { return RocksDBNativeClass::getJClass(env, "org/rocksdb/ColumnFamilyOptions"); } /** * Create a new Java org.rocksdb.ColumnFamilyOptions object with the same * properties as the provided C++ rocksdb::ColumnFamilyOptions object * * @param env A pointer to the Java environment * @param cfoptions A pointer to rocksdb::ColumnFamilyOptions object * * @return A reference to a Java org.rocksdb.ColumnFamilyOptions object, or * nullptr if an an exception occurs */ static jobject construct(JNIEnv* env, const ColumnFamilyOptions* cfoptions) { auto* cfo = new rocksdb::ColumnFamilyOptions(*cfoptions); jclass jclazz = getJClass(env); if(jclazz == nullptr) { // exception occurred accessing class return nullptr; } jmethodID mid = env->GetMethodID(jclazz, "", "(J)V"); if (mid == nullptr) { // exception thrown: NoSuchMethodException or OutOfMemoryError return nullptr; } jobject jcfd = env->NewObject(jclazz, mid, reinterpret_cast(cfo)); if (env->ExceptionCheck()) { return nullptr; } return jcfd; } }; // The portal class for org.rocksdb.WriteOptions class WriteOptionsJni : public RocksDBNativeClass< rocksdb::WriteOptions*, WriteOptionsJni> { public: /** * Get the Java Class org.rocksdb.WriteOptions * * @param env A pointer to the Java environment * * @return The Java Class or nullptr if one of the * ClassFormatError, ClassCircularityError, NoClassDefFoundError, * OutOfMemoryError or ExceptionInInitializerError exceptions is thrown */ static jclass getJClass(JNIEnv* env) { return RocksDBNativeClass::getJClass(env, "org/rocksdb/WriteOptions"); } }; // The portal class for org.rocksdb.ReadOptions class ReadOptionsJni : public RocksDBNativeClass< rocksdb::ReadOptions*, ReadOptionsJni> { public: /** * Get the Java Class org.rocksdb.ReadOptions * * @param env A pointer to the Java environment * * @return The Java Class or nullptr if one of the * ClassFormatError, ClassCircularityError, NoClassDefFoundError, * OutOfMemoryError or ExceptionInInitializerError exceptions is thrown */ static jclass getJClass(JNIEnv* env) { return RocksDBNativeClass::getJClass(env, "org/rocksdb/ReadOptions"); } }; // The portal class for org.rocksdb.WriteBatch class WriteBatchJni : public RocksDBNativeClass< rocksdb::WriteBatch*, WriteBatchJni> { public: /** * Get the Java Class org.rocksdb.WriteBatch * * @param env A pointer to the Java environment * * @return The Java Class or nullptr if one of the * ClassFormatError, ClassCircularityError, NoClassDefFoundError, * OutOfMemoryError or ExceptionInInitializerError exceptions is thrown */ static jclass getJClass(JNIEnv* env) { return RocksDBNativeClass::getJClass(env, "org/rocksdb/WriteBatch"); } /** * Create a new Java org.rocksdb.WriteBatch object * * @param env A pointer to the Java environment * @param wb A pointer to rocksdb::WriteBatch object * * @return A reference to a Java org.rocksdb.WriteBatch object, or * nullptr if an an exception occurs */ static jobject construct(JNIEnv* env, const WriteBatch* wb) { jclass jclazz = getJClass(env); if(jclazz == nullptr) { // exception occurred accessing class return nullptr; } jmethodID mid = env->GetMethodID(jclazz, "", "(J)V"); if (mid == nullptr) { // exception thrown: NoSuchMethodException or OutOfMemoryError return nullptr; } jobject jwb = env->NewObject(jclazz, mid, reinterpret_cast(wb)); if (env->ExceptionCheck()) { return nullptr; } return jwb; } }; // The portal class for org.rocksdb.WriteBatch.Handler class WriteBatchHandlerJni : public RocksDBNativeClass< const rocksdb::WriteBatchHandlerJniCallback*, WriteBatchHandlerJni> { public: /** * Get the Java Class org.rocksdb.WriteBatch.Handler * * @param env A pointer to the Java environment * * @return The Java Class or nullptr if one of the * ClassFormatError, ClassCircularityError, NoClassDefFoundError, * OutOfMemoryError or ExceptionInInitializerError exceptions is thrown */ static jclass getJClass(JNIEnv* env) { return RocksDBNativeClass::getJClass(env, "org/rocksdb/WriteBatch$Handler"); } /** * Get the Java Method: WriteBatch.Handler#put * * @param env A pointer to the Java environment * * @return The Java Method ID or nullptr if the class or method id could not * be retieved */ static jmethodID getPutCfMethodId(JNIEnv* env) { jclass jclazz = getJClass(env); if(jclazz == nullptr) { // exception occurred accessing class return nullptr; } static jmethodID mid = env->GetMethodID(jclazz, "put", "(I[B[B)V"); assert(mid != nullptr); return mid; } /** * Get the Java Method: WriteBatch.Handler#put * * @param env A pointer to the Java environment * * @return The Java Method ID or nullptr if the class or method id could not * be retieved */ static jmethodID getPutMethodId(JNIEnv* env) { jclass jclazz = getJClass(env); if(jclazz == nullptr) { // exception occurred accessing class return nullptr; } static jmethodID mid = env->GetMethodID(jclazz, "put", "([B[B)V"); assert(mid != nullptr); return mid; } /** * Get the Java Method: WriteBatch.Handler#merge * * @param env A pointer to the Java environment * * @return The Java Method ID or nullptr if the class or method id could not * be retieved */ static jmethodID getMergeCfMethodId(JNIEnv* env) { jclass jclazz = getJClass(env); if(jclazz == nullptr) { // exception occurred accessing class return nullptr; } static jmethodID mid = env->GetMethodID(jclazz, "merge", "(I[B[B)V"); assert(mid != nullptr); return mid; } /** * Get the Java Method: WriteBatch.Handler#merge * * @param env A pointer to the Java environment * * @return The Java Method ID or nullptr if the class or method id could not * be retieved */ static jmethodID getMergeMethodId(JNIEnv* env) { jclass jclazz = getJClass(env); if(jclazz == nullptr) { // exception occurred accessing class return nullptr; } static jmethodID mid = env->GetMethodID(jclazz, "merge", "([B[B)V"); assert(mid != nullptr); return mid; } /** * Get the Java Method: WriteBatch.Handler#delete * * @param env A pointer to the Java environment * * @return The Java Method ID or nullptr if the class or method id could not * be retieved */ static jmethodID getDeleteCfMethodId(JNIEnv* env) { jclass jclazz = getJClass(env); if(jclazz == nullptr) { // exception occurred accessing class return nullptr; } static jmethodID mid = env->GetMethodID(jclazz, "delete", "(I[B)V"); assert(mid != nullptr); return mid; } /** * Get the Java Method: WriteBatch.Handler#delete * * @param env A pointer to the Java environment * * @return The Java Method ID or nullptr if the class or method id could not * be retieved */ static jmethodID getDeleteMethodId(JNIEnv* env) { jclass jclazz = getJClass(env); if(jclazz == nullptr) { // exception occurred accessing class return nullptr; } static jmethodID mid = env->GetMethodID(jclazz, "delete", "([B)V"); assert(mid != nullptr); return mid; } /** * Get the Java Method: WriteBatch.Handler#singleDelete * * @param env A pointer to the Java environment * * @return The Java Method ID or nullptr if the class or method id could not * be retieved */ static jmethodID getSingleDeleteCfMethodId(JNIEnv* env) { jclass jclazz = getJClass(env); if(jclazz == nullptr) { // exception occurred accessing class return nullptr; } static jmethodID mid = env->GetMethodID(jclazz, "singleDelete", "(I[B)V"); assert(mid != nullptr); return mid; } /** * Get the Java Method: WriteBatch.Handler#singleDelete * * @param env A pointer to the Java environment * * @return The Java Method ID or nullptr if the class or method id could not * be retieved */ static jmethodID getSingleDeleteMethodId(JNIEnv* env) { jclass jclazz = getJClass(env); if(jclazz == nullptr) { // exception occurred accessing class return nullptr; } static jmethodID mid = env->GetMethodID(jclazz, "singleDelete", "([B)V"); assert(mid != nullptr); return mid; } /** * Get the Java Method: WriteBatch.Handler#deleteRange * * @param env A pointer to the Java environment * * @return The Java Method ID or nullptr if the class or method id could not * be retieved */ static jmethodID getDeleteRangeCfMethodId(JNIEnv* env) { jclass jclazz = getJClass(env); if (jclazz == nullptr) { // exception occurred accessing class return nullptr; } static jmethodID mid = env->GetMethodID(jclazz, "deleteRange", "(I[B[B)V"); assert(mid != nullptr); return mid; } /** * Get the Java Method: WriteBatch.Handler#deleteRange * * @param env A pointer to the Java environment * * @return The Java Method ID or nullptr if the class or method id could not * be retieved */ static jmethodID getDeleteRangeMethodId(JNIEnv* env) { jclass jclazz = getJClass(env); if (jclazz == nullptr) { // exception occurred accessing class return nullptr; } static jmethodID mid = env->GetMethodID(jclazz, "deleteRange", "([B[B)V"); assert(mid != nullptr); return mid; } /** * Get the Java Method: WriteBatch.Handler#logData * * @param env A pointer to the Java environment * * @return The Java Method ID or nullptr if the class or method id could not * be retieved */ static jmethodID getLogDataMethodId(JNIEnv* env) { jclass jclazz = getJClass(env); if(jclazz == nullptr) { // exception occurred accessing class return nullptr; } static jmethodID mid = env->GetMethodID(jclazz, "logData", "([B)V"); assert(mid != nullptr); return mid; } /** * Get the Java Method: WriteBatch.Handler#putBlobIndex * * @param env A pointer to the Java environment * * @return The Java Method ID or nullptr if the class or method id could not * be retieved */ static jmethodID getPutBlobIndexCfMethodId(JNIEnv* env) { jclass jclazz = getJClass(env); if(jclazz == nullptr) { // exception occurred accessing class return nullptr; } static jmethodID mid = env->GetMethodID(jclazz, "putBlobIndex", "(I[B[B)V"); assert(mid != nullptr); return mid; } /** * Get the Java Method: WriteBatch.Handler#markBeginPrepare * * @param env A pointer to the Java environment * * @return The Java Method ID or nullptr if the class or method id could not * be retieved */ static jmethodID getMarkBeginPrepareMethodId(JNIEnv* env) { jclass jclazz = getJClass(env); if(jclazz == nullptr) { // exception occurred accessing class return nullptr; } static jmethodID mid = env->GetMethodID(jclazz, "markBeginPrepare", "()V"); assert(mid != nullptr); return mid; } /** * Get the Java Method: WriteBatch.Handler#markEndPrepare * * @param env A pointer to the Java environment * * @return The Java Method ID or nullptr if the class or method id could not * be retieved */ static jmethodID getMarkEndPrepareMethodId(JNIEnv* env) { jclass jclazz = getJClass(env); if(jclazz == nullptr) { // exception occurred accessing class return nullptr; } static jmethodID mid = env->GetMethodID(jclazz, "markEndPrepare", "([B)V"); assert(mid != nullptr); return mid; } /** * Get the Java Method: WriteBatch.Handler#markNoop * * @param env A pointer to the Java environment * * @return The Java Method ID or nullptr if the class or method id could not * be retieved */ static jmethodID getMarkNoopMethodId(JNIEnv* env) { jclass jclazz = getJClass(env); if(jclazz == nullptr) { // exception occurred accessing class return nullptr; } static jmethodID mid = env->GetMethodID(jclazz, "markNoop", "(Z)V"); assert(mid != nullptr); return mid; } /** * Get the Java Method: WriteBatch.Handler#markRollback * * @param env A pointer to the Java environment * * @return The Java Method ID or nullptr if the class or method id could not * be retieved */ static jmethodID getMarkRollbackMethodId(JNIEnv* env) { jclass jclazz = getJClass(env); if(jclazz == nullptr) { // exception occurred accessing class return nullptr; } static jmethodID mid = env->GetMethodID(jclazz, "markRollback", "([B)V"); assert(mid != nullptr); return mid; } /** * Get the Java Method: WriteBatch.Handler#markCommit * * @param env A pointer to the Java environment * * @return The Java Method ID or nullptr if the class or method id could not * be retieved */ static jmethodID getMarkCommitMethodId(JNIEnv* env) { jclass jclazz = getJClass(env); if(jclazz == nullptr) { // exception occurred accessing class return nullptr; } static jmethodID mid = env->GetMethodID(jclazz, "markCommit", "([B)V"); assert(mid != nullptr); return mid; } /** * Get the Java Method: WriteBatch.Handler#shouldContinue * * @param env A pointer to the Java environment * * @return The Java Method ID or nullptr if the class or method id could not * be retieved */ static jmethodID getContinueMethodId(JNIEnv* env) { jclass jclazz = getJClass(env); if(jclazz == nullptr) { // exception occurred accessing class return nullptr; } static jmethodID mid = env->GetMethodID(jclazz, "shouldContinue", "()Z"); assert(mid != nullptr); return mid; } }; class WriteBatchSavePointJni : public JavaClass { public: /** * Get the Java Class org.rocksdb.WriteBatch.SavePoint * * @param env A pointer to the Java environment * * @return The Java Class or nullptr if one of the * ClassFormatError, ClassCircularityError, NoClassDefFoundError, * OutOfMemoryError or ExceptionInInitializerError exceptions is thrown */ static jclass getJClass(JNIEnv* env) { return JavaClass::getJClass(env, "org/rocksdb/WriteBatch$SavePoint"); } /** * Get the Java Method: HistogramData constructor * * @param env A pointer to the Java environment * * @return The Java Method ID or nullptr if the class or method id could not * be retieved */ static jmethodID getConstructorMethodId(JNIEnv* env) { jclass jclazz = getJClass(env); if(jclazz == nullptr) { // exception occurred accessing class return nullptr; } static jmethodID mid = env->GetMethodID(jclazz, "", "(JJJ)V"); assert(mid != nullptr); return mid; } /** * Create a new Java org.rocksdb.WriteBatch.SavePoint object * * @param env A pointer to the Java environment * @param savePoint A pointer to rocksdb::WriteBatch::SavePoint object * * @return A reference to a Java org.rocksdb.WriteBatch.SavePoint object, or * nullptr if an an exception occurs */ static jobject construct(JNIEnv* env, const SavePoint &save_point) { jclass jclazz = getJClass(env); if(jclazz == nullptr) { // exception occurred accessing class return nullptr; } jmethodID mid = getConstructorMethodId(env); if (mid == nullptr) { // exception thrown: NoSuchMethodException or OutOfMemoryError return nullptr; } jobject jsave_point = env->NewObject(jclazz, mid, static_cast(save_point.size), static_cast(save_point.count), static_cast(save_point.content_flags)); if (env->ExceptionCheck()) { return nullptr; } return jsave_point; } }; // The portal class for org.rocksdb.WriteBatchWithIndex class WriteBatchWithIndexJni : public RocksDBNativeClass< rocksdb::WriteBatchWithIndex*, WriteBatchWithIndexJni> { public: /** * Get the Java Class org.rocksdb.WriteBatchWithIndex * * @param env A pointer to the Java environment * * @return The Java Class or nullptr if one of the * ClassFormatError, ClassCircularityError, NoClassDefFoundError, * OutOfMemoryError or ExceptionInInitializerError exceptions is thrown */ static jclass getJClass(JNIEnv* env) { return RocksDBNativeClass::getJClass(env, "org/rocksdb/WriteBatchWithIndex"); } }; // The portal class for org.rocksdb.HistogramData class HistogramDataJni : public JavaClass { public: /** * Get the Java Class org.rocksdb.HistogramData * * @param env A pointer to the Java environment * * @return The Java Class or nullptr if one of the * ClassFormatError, ClassCircularityError, NoClassDefFoundError, * OutOfMemoryError or ExceptionInInitializerError exceptions is thrown */ static jclass getJClass(JNIEnv* env) { return JavaClass::getJClass(env, "org/rocksdb/HistogramData"); } /** * Get the Java Method: HistogramData constructor * * @param env A pointer to the Java environment * * @return The Java Method ID or nullptr if the class or method id could not * be retieved */ static jmethodID getConstructorMethodId(JNIEnv* env) { jclass jclazz = getJClass(env); if(jclazz == nullptr) { // exception occurred accessing class return nullptr; } static jmethodID mid = env->GetMethodID(jclazz, "", "(DDDDD)V"); assert(mid != nullptr); return mid; } }; // The portal class for org.rocksdb.BackupableDBOptions class BackupableDBOptionsJni : public RocksDBNativeClass< rocksdb::BackupableDBOptions*, BackupableDBOptionsJni> { public: /** * Get the Java Class org.rocksdb.BackupableDBOptions * * @param env A pointer to the Java environment * * @return The Java Class or nullptr if one of the * ClassFormatError, ClassCircularityError, NoClassDefFoundError, * OutOfMemoryError or ExceptionInInitializerError exceptions is thrown */ static jclass getJClass(JNIEnv* env) { return RocksDBNativeClass::getJClass(env, "org/rocksdb/BackupableDBOptions"); } }; // The portal class for org.rocksdb.BackupEngine class BackupEngineJni : public RocksDBNativeClass< rocksdb::BackupEngine*, BackupEngineJni> { public: /** * Get the Java Class org.rocksdb.BackupableEngine * * @param env A pointer to the Java environment * * @return The Java Class or nullptr if one of the * ClassFormatError, ClassCircularityError, NoClassDefFoundError, * OutOfMemoryError or ExceptionInInitializerError exceptions is thrown */ static jclass getJClass(JNIEnv* env) { return RocksDBNativeClass::getJClass(env, "org/rocksdb/BackupEngine"); } }; // The portal class for org.rocksdb.RocksIterator class IteratorJni : public RocksDBNativeClass< rocksdb::Iterator*, IteratorJni> { public: /** * Get the Java Class org.rocksdb.RocksIterator * * @param env A pointer to the Java environment * * @return The Java Class or nullptr if one of the * ClassFormatError, ClassCircularityError, NoClassDefFoundError, * OutOfMemoryError or ExceptionInInitializerError exceptions is thrown */ static jclass getJClass(JNIEnv* env) { return RocksDBNativeClass::getJClass(env, "org/rocksdb/RocksIterator"); } }; // The portal class for org.rocksdb.Filter class FilterJni : public RocksDBNativeClass< std::shared_ptr*, FilterJni> { public: /** * Get the Java Class org.rocksdb.Filter * * @param env A pointer to the Java environment * * @return The Java Class or nullptr if one of the * ClassFormatError, ClassCircularityError, NoClassDefFoundError, * OutOfMemoryError or ExceptionInInitializerError exceptions is thrown */ static jclass getJClass(JNIEnv* env) { return RocksDBNativeClass::getJClass(env, "org/rocksdb/Filter"); } }; // The portal class for org.rocksdb.ColumnFamilyHandle class ColumnFamilyHandleJni : public RocksDBNativeClass< rocksdb::ColumnFamilyHandle*, ColumnFamilyHandleJni> { public: /** * Get the Java Class org.rocksdb.ColumnFamilyHandle * * @param env A pointer to the Java environment * * @return The Java Class or nullptr if one of the * ClassFormatError, ClassCircularityError, NoClassDefFoundError, * OutOfMemoryError or ExceptionInInitializerError exceptions is thrown */ static jclass getJClass(JNIEnv* env) { return RocksDBNativeClass::getJClass(env, "org/rocksdb/ColumnFamilyHandle"); } }; // The portal class for org.rocksdb.FlushOptions class FlushOptionsJni : public RocksDBNativeClass< rocksdb::FlushOptions*, FlushOptionsJni> { public: /** * Get the Java Class org.rocksdb.FlushOptions * * @param env A pointer to the Java environment * * @return The Java Class or nullptr if one of the * ClassFormatError, ClassCircularityError, NoClassDefFoundError, * OutOfMemoryError or ExceptionInInitializerError exceptions is thrown */ static jclass getJClass(JNIEnv* env) { return RocksDBNativeClass::getJClass(env, "org/rocksdb/FlushOptions"); } }; // The portal class for org.rocksdb.ComparatorOptions class ComparatorOptionsJni : public RocksDBNativeClass< rocksdb::ComparatorJniCallbackOptions*, ComparatorOptionsJni> { public: /** * Get the Java Class org.rocksdb.ComparatorOptions * * @param env A pointer to the Java environment * * @return The Java Class or nullptr if one of the * ClassFormatError, ClassCircularityError, NoClassDefFoundError, * OutOfMemoryError or ExceptionInInitializerError exceptions is thrown */ static jclass getJClass(JNIEnv* env) { return RocksDBNativeClass::getJClass(env, "org/rocksdb/ComparatorOptions"); } }; // The portal class for org.rocksdb.AbstractCompactionFilterFactory class AbstractCompactionFilterFactoryJni : public RocksDBNativeClass< const rocksdb::CompactionFilterFactoryJniCallback*, AbstractCompactionFilterFactoryJni> { public: /** * Get the Java Class org.rocksdb.AbstractCompactionFilterFactory * * @param env A pointer to the Java environment * * @return The Java Class or nullptr if one of the * ClassFormatError, ClassCircularityError, NoClassDefFoundError, * OutOfMemoryError or ExceptionInInitializerError exceptions is thrown */ static jclass getJClass(JNIEnv* env) { return RocksDBNativeClass::getJClass(env, "org/rocksdb/AbstractCompactionFilterFactory"); } /** * Get the Java Method: AbstractCompactionFilterFactory#name * * @param env A pointer to the Java environment * * @return The Java Method ID or nullptr if the class or method id could not * be retieved */ static jmethodID getNameMethodId(JNIEnv* env) { jclass jclazz = getJClass(env); if(jclazz == nullptr) { // exception occurred accessing class return nullptr; } static jmethodID mid = env->GetMethodID( jclazz, "name", "()Ljava/lang/String;"); assert(mid != nullptr); return mid; } /** * Get the Java Method: AbstractCompactionFilterFactory#createCompactionFilter * * @param env A pointer to the Java environment * * @return The Java Method ID or nullptr if the class or method id could not * be retieved */ static jmethodID getCreateCompactionFilterMethodId(JNIEnv* env) { jclass jclazz = getJClass(env); if(jclazz == nullptr) { // exception occurred accessing class return nullptr; } static jmethodID mid = env->GetMethodID(jclazz, "createCompactionFilter", "(ZZ)J"); assert(mid != nullptr); return mid; } }; // The portal class for org.rocksdb.AbstractTransactionNotifier class AbstractTransactionNotifierJni : public RocksDBNativeClass< const rocksdb::TransactionNotifierJniCallback*, AbstractTransactionNotifierJni> { public: static jclass getJClass(JNIEnv* env) { return RocksDBNativeClass::getJClass(env, "org/rocksdb/AbstractTransactionNotifier"); } // Get the java method `snapshotCreated` // of org.rocksdb.AbstractTransactionNotifier. static jmethodID getSnapshotCreatedMethodId(JNIEnv* env) { jclass jclazz = getJClass(env); if(jclazz == nullptr) { // exception occurred accessing class return nullptr; } static jmethodID mid = env->GetMethodID(jclazz, "snapshotCreated", "(J)V"); assert(mid != nullptr); return mid; } }; // The portal class for org.rocksdb.AbstractComparator class AbstractComparatorJni : public RocksDBNativeClass< const rocksdb::BaseComparatorJniCallback*, AbstractComparatorJni> { public: /** * Get the Java Class org.rocksdb.AbstractComparator * * @param env A pointer to the Java environment * * @return The Java Class or nullptr if one of the * ClassFormatError, ClassCircularityError, NoClassDefFoundError, * OutOfMemoryError or ExceptionInInitializerError exceptions is thrown */ static jclass getJClass(JNIEnv* env) { return RocksDBNativeClass::getJClass(env, "org/rocksdb/AbstractComparator"); } /** * Get the Java Method: Comparator#name * * @param env A pointer to the Java environment * * @return The Java Method ID or nullptr if the class or method id could not * be retieved */ static jmethodID getNameMethodId(JNIEnv* env) { jclass jclazz = getJClass(env); if(jclazz == nullptr) { // exception occurred accessing class return nullptr; } static jmethodID mid = env->GetMethodID(jclazz, "name", "()Ljava/lang/String;"); assert(mid != nullptr); return mid; } /** * Get the Java Method: Comparator#compare * * @param env A pointer to the Java environment * * @return The Java Method ID or nullptr if the class or method id could not * be retieved */ static jmethodID getCompareMethodId(JNIEnv* env) { jclass jclazz = getJClass(env); if(jclazz == nullptr) { // exception occurred accessing class return nullptr; } static jmethodID mid = env->GetMethodID(jclazz, "compare", "(Lorg/rocksdb/AbstractSlice;Lorg/rocksdb/AbstractSlice;)I"); assert(mid != nullptr); return mid; } /** * Get the Java Method: Comparator#findShortestSeparator * * @param env A pointer to the Java environment * * @return The Java Method ID or nullptr if the class or method id could not * be retieved */ static jmethodID getFindShortestSeparatorMethodId(JNIEnv* env) { jclass jclazz = getJClass(env); if(jclazz == nullptr) { // exception occurred accessing class return nullptr; } static jmethodID mid = env->GetMethodID(jclazz, "findShortestSeparator", "(Ljava/lang/String;Lorg/rocksdb/AbstractSlice;)Ljava/lang/String;"); assert(mid != nullptr); return mid; } /** * Get the Java Method: Comparator#findShortSuccessor * * @param env A pointer to the Java environment * * @return The Java Method ID or nullptr if the class or method id could not * be retieved */ static jmethodID getFindShortSuccessorMethodId(JNIEnv* env) { jclass jclazz = getJClass(env); if(jclazz == nullptr) { // exception occurred accessing class return nullptr; } static jmethodID mid = env->GetMethodID(jclazz, "findShortSuccessor", "(Ljava/lang/String;)Ljava/lang/String;"); assert(mid != nullptr); return mid; } }; // The portal class for org.rocksdb.AbstractSlice class AbstractSliceJni : public NativeRocksMutableObject< const rocksdb::Slice*, AbstractSliceJni> { public: /** * Get the Java Class org.rocksdb.AbstractSlice * * @param env A pointer to the Java environment * * @return The Java Class or nullptr if one of the * ClassFormatError, ClassCircularityError, NoClassDefFoundError, * OutOfMemoryError or ExceptionInInitializerError exceptions is thrown */ static jclass getJClass(JNIEnv* env) { return RocksDBNativeClass::getJClass(env, "org/rocksdb/AbstractSlice"); } }; // The portal class for org.rocksdb.Slice class SliceJni : public NativeRocksMutableObject< const rocksdb::Slice*, AbstractSliceJni> { public: /** * Get the Java Class org.rocksdb.Slice * * @param env A pointer to the Java environment * * @return The Java Class or nullptr if one of the * ClassFormatError, ClassCircularityError, NoClassDefFoundError, * OutOfMemoryError or ExceptionInInitializerError exceptions is thrown */ static jclass getJClass(JNIEnv* env) { return RocksDBNativeClass::getJClass(env, "org/rocksdb/Slice"); } /** * Constructs a Slice object * * @param env A pointer to the Java environment * * @return A reference to a Java Slice object, or a nullptr if an * exception occurs */ static jobject construct0(JNIEnv* env) { jclass jclazz = getJClass(env); if(jclazz == nullptr) { // exception occurred accessing class return nullptr; } static jmethodID mid = env->GetMethodID(jclazz, "", "()V"); if(mid == nullptr) { // exception occurred accessing method return nullptr; } jobject jslice = env->NewObject(jclazz, mid); if(env->ExceptionCheck()) { return nullptr; } return jslice; } }; // The portal class for org.rocksdb.DirectSlice class DirectSliceJni : public NativeRocksMutableObject< const rocksdb::Slice*, AbstractSliceJni> { public: /** * Get the Java Class org.rocksdb.DirectSlice * * @param env A pointer to the Java environment * * @return The Java Class or nullptr if one of the * ClassFormatError, ClassCircularityError, NoClassDefFoundError, * OutOfMemoryError or ExceptionInInitializerError exceptions is thrown */ static jclass getJClass(JNIEnv* env) { return RocksDBNativeClass::getJClass(env, "org/rocksdb/DirectSlice"); } /** * Constructs a DirectSlice object * * @param env A pointer to the Java environment * * @return A reference to a Java DirectSlice object, or a nullptr if an * exception occurs */ static jobject construct0(JNIEnv* env) { jclass jclazz = getJClass(env); if(jclazz == nullptr) { // exception occurred accessing class return nullptr; } static jmethodID mid = env->GetMethodID(jclazz, "", "()V"); if(mid == nullptr) { // exception occurred accessing method return nullptr; } jobject jdirect_slice = env->NewObject(jclazz, mid); if(env->ExceptionCheck()) { return nullptr; } return jdirect_slice; } }; // The portal class for java.util.List class ListJni : public JavaClass { public: /** * Get the Java Class java.util.List * * @param env A pointer to the Java environment * * @return The Java Class or nullptr if one of the * ClassFormatError, ClassCircularityError, NoClassDefFoundError, * OutOfMemoryError or ExceptionInInitializerError exceptions is thrown */ static jclass getListClass(JNIEnv* env) { return JavaClass::getJClass(env, "java/util/List"); } /** * Get the Java Class java.util.ArrayList * * @param env A pointer to the Java environment * * @return The Java Class or nullptr if one of the * ClassFormatError, ClassCircularityError, NoClassDefFoundError, * OutOfMemoryError or ExceptionInInitializerError exceptions is thrown */ static jclass getArrayListClass(JNIEnv* env) { return JavaClass::getJClass(env, "java/util/ArrayList"); } /** * Get the Java Class java.util.Iterator * * @param env A pointer to the Java environment * * @return The Java Class or nullptr if one of the * ClassFormatError, ClassCircularityError, NoClassDefFoundError, * OutOfMemoryError or ExceptionInInitializerError exceptions is thrown */ static jclass getIteratorClass(JNIEnv* env) { return JavaClass::getJClass(env, "java/util/Iterator"); } /** * Get the Java Method: List#iterator * * @param env A pointer to the Java environment * * @return The Java Method ID or nullptr if the class or method id could not * be retieved */ static jmethodID getIteratorMethod(JNIEnv* env) { jclass jlist_clazz = getListClass(env); if(jlist_clazz == nullptr) { // exception occurred accessing class return nullptr; } static jmethodID mid = env->GetMethodID(jlist_clazz, "iterator", "()Ljava/util/Iterator;"); assert(mid != nullptr); return mid; } /** * Get the Java Method: Iterator#hasNext * * @param env A pointer to the Java environment * * @return The Java Method ID or nullptr if the class or method id could not * be retieved */ static jmethodID getHasNextMethod(JNIEnv* env) { jclass jiterator_clazz = getIteratorClass(env); if(jiterator_clazz == nullptr) { // exception occurred accessing class return nullptr; } static jmethodID mid = env->GetMethodID(jiterator_clazz, "hasNext", "()Z"); assert(mid != nullptr); return mid; } /** * Get the Java Method: Iterator#next * * @param env A pointer to the Java environment * * @return The Java Method ID or nullptr if the class or method id could not * be retieved */ static jmethodID getNextMethod(JNIEnv* env) { jclass jiterator_clazz = getIteratorClass(env); if(jiterator_clazz == nullptr) { // exception occurred accessing class return nullptr; } static jmethodID mid = env->GetMethodID(jiterator_clazz, "next", "()Ljava/lang/Object;"); assert(mid != nullptr); return mid; } /** * Get the Java Method: ArrayList constructor * * @param env A pointer to the Java environment * * @return The Java Method ID or nullptr if the class or method id could not * be retieved */ static jmethodID getArrayListConstructorMethodId(JNIEnv* env) { jclass jarray_list_clazz = getArrayListClass(env); if(jarray_list_clazz == nullptr) { // exception occurred accessing class return nullptr; } static jmethodID mid = env->GetMethodID(jarray_list_clazz, "", "(I)V"); assert(mid != nullptr); return mid; } /** * Get the Java Method: List#add * * @param env A pointer to the Java environment * * @return The Java Method ID or nullptr if the class or method id could not * be retieved */ static jmethodID getListAddMethodId(JNIEnv* env) { jclass jlist_clazz = getListClass(env); if(jlist_clazz == nullptr) { // exception occurred accessing class return nullptr; } static jmethodID mid = env->GetMethodID(jlist_clazz, "add", "(Ljava/lang/Object;)Z"); assert(mid != nullptr); return mid; } }; // The portal class for java.lang.Byte class ByteJni : public JavaClass { public: /** * Get the Java Class java.lang.Byte * * @param env A pointer to the Java environment * * @return The Java Class or nullptr if one of the * ClassFormatError, ClassCircularityError, NoClassDefFoundError, * OutOfMemoryError or ExceptionInInitializerError exceptions is thrown */ static jclass getJClass(JNIEnv* env) { return JavaClass::getJClass(env, "java/lang/Byte"); } /** * Get the Java Class byte[] * * @param env A pointer to the Java environment * * @return The Java Class or nullptr if one of the * ClassFormatError, ClassCircularityError, NoClassDefFoundError, * OutOfMemoryError or ExceptionInInitializerError exceptions is thrown */ static jclass getArrayJClass(JNIEnv* env) { return JavaClass::getJClass(env, "[B"); } /** * Creates a new 2-dimensional Java Byte Array byte[][] * * @param env A pointer to the Java environment * @param len The size of the first dimension * * @return A reference to the Java byte[][] or nullptr if an exception occurs */ static jobjectArray new2dByteArray(JNIEnv* env, const jsize len) { jclass clazz = getArrayJClass(env); if(clazz == nullptr) { // exception occurred accessing class return nullptr; } return env->NewObjectArray(len, clazz, nullptr); } /** * Get the Java Method: Byte#byteValue * * @param env A pointer to the Java environment * * @return The Java Method ID or nullptr if the class or method id could not * be retieved */ static jmethodID getByteValueMethod(JNIEnv* env) { jclass clazz = getJClass(env); if(clazz == nullptr) { // exception occurred accessing class return nullptr; } static jmethodID mid = env->GetMethodID(clazz, "byteValue", "()B"); assert(mid != nullptr); return mid; } }; // The portal class for java.lang.StringBuilder class StringBuilderJni : public JavaClass { public: /** * Get the Java Class java.lang.StringBuilder * * @param env A pointer to the Java environment * * @return The Java Class or nullptr if one of the * ClassFormatError, ClassCircularityError, NoClassDefFoundError, * OutOfMemoryError or ExceptionInInitializerError exceptions is thrown */ static jclass getJClass(JNIEnv* env) { return JavaClass::getJClass(env, "java/lang/StringBuilder"); } /** * Get the Java Method: StringBuilder#append * * @param env A pointer to the Java environment * * @return The Java Method ID or nullptr if the class or method id could not * be retieved */ static jmethodID getListAddMethodId(JNIEnv* env) { jclass jclazz = getJClass(env); if(jclazz == nullptr) { // exception occurred accessing class return nullptr; } static jmethodID mid = env->GetMethodID(jclazz, "append", "(Ljava/lang/String;)Ljava/lang/StringBuilder;"); assert(mid != nullptr); return mid; } /** * Appends a C-style string to a StringBuilder * * @param env A pointer to the Java environment * @param jstring_builder Reference to a java.lang.StringBuilder * @param c_str A C-style string to append to the StringBuilder * * @return A reference to the updated StringBuilder, or a nullptr if * an exception occurs */ static jobject append(JNIEnv* env, jobject jstring_builder, const char* c_str) { jmethodID mid = getListAddMethodId(env); if(mid == nullptr) { // exception occurred accessing class or method return nullptr; } jstring new_value_str = env->NewStringUTF(c_str); if(new_value_str == nullptr) { // exception thrown: OutOfMemoryError return nullptr; } jobject jresult_string_builder = env->CallObjectMethod(jstring_builder, mid, new_value_str); if(env->ExceptionCheck()) { // exception occurred env->DeleteLocalRef(new_value_str); return nullptr; } return jresult_string_builder; } }; // The portal class for org.rocksdb.BackupInfo class BackupInfoJni : public JavaClass { public: /** * Get the Java Class org.rocksdb.BackupInfo * * @param env A pointer to the Java environment * * @return The Java Class or nullptr if one of the * ClassFormatError, ClassCircularityError, NoClassDefFoundError, * OutOfMemoryError or ExceptionInInitializerError exceptions is thrown */ static jclass getJClass(JNIEnv* env) { return JavaClass::getJClass(env, "org/rocksdb/BackupInfo"); } /** * Constructs a BackupInfo object * * @param env A pointer to the Java environment * @param backup_id id of the backup * @param timestamp timestamp of the backup * @param size size of the backup * @param number_files number of files related to the backup * @param app_metadata application specific metadata * * @return A reference to a Java BackupInfo object, or a nullptr if an * exception occurs */ static jobject construct0(JNIEnv* env, uint32_t backup_id, int64_t timestamp, uint64_t size, uint32_t number_files, const std::string& app_metadata) { jclass jclazz = getJClass(env); if(jclazz == nullptr) { // exception occurred accessing class return nullptr; } static jmethodID mid = env->GetMethodID(jclazz, "", "(IJJILjava/lang/String;)V"); if(mid == nullptr) { // exception occurred accessing method return nullptr; } jstring japp_metadata = nullptr; if (app_metadata != nullptr) { japp_metadata = env->NewStringUTF(app_metadata.c_str()); if (japp_metadata == nullptr) { // exception occurred creating java string return nullptr; } } jobject jbackup_info = env->NewObject(jclazz, mid, backup_id, timestamp, size, number_files, japp_metadata); if(env->ExceptionCheck()) { env->DeleteLocalRef(japp_metadata); return nullptr; } return jbackup_info; } }; class BackupInfoListJni { public: /** * Converts a C++ std::vector object to * a Java ArrayList object * * @param env A pointer to the Java environment * @param backup_infos A vector of BackupInfo * * @return Either a reference to a Java ArrayList object, or a nullptr * if an exception occurs */ static jobject getBackupInfo(JNIEnv* env, std::vector backup_infos) { jclass jarray_list_clazz = rocksdb::ListJni::getArrayListClass(env); if(jarray_list_clazz == nullptr) { // exception occurred accessing class return nullptr; } jmethodID cstr_mid = rocksdb::ListJni::getArrayListConstructorMethodId(env); if(cstr_mid == nullptr) { // exception occurred accessing method return nullptr; } jmethodID add_mid = rocksdb::ListJni::getListAddMethodId(env); if(add_mid == nullptr) { // exception occurred accessing method return nullptr; } // create java list jobject jbackup_info_handle_list = env->NewObject(jarray_list_clazz, cstr_mid, backup_infos.size()); if(env->ExceptionCheck()) { // exception occurred constructing object return nullptr; } // insert in java list auto end = backup_infos.end(); for (auto it = backup_infos.begin(); it != end; ++it) { auto backup_info = *it; jobject obj = rocksdb::BackupInfoJni::construct0( env, backup_info.backup_id, backup_info.timestamp, backup_info.size, backup_info.number_files, backup_info.app_metadata); if(env->ExceptionCheck()) { // exception occurred constructing object if(obj != nullptr) { env->DeleteLocalRef(obj); } if(jbackup_info_handle_list != nullptr) { env->DeleteLocalRef(jbackup_info_handle_list); } return nullptr; } jboolean rs = env->CallBooleanMethod(jbackup_info_handle_list, add_mid, obj); if(env->ExceptionCheck() || rs == JNI_FALSE) { // exception occurred calling method, or could not add if(obj != nullptr) { env->DeleteLocalRef(obj); } if(jbackup_info_handle_list != nullptr) { env->DeleteLocalRef(jbackup_info_handle_list); } return nullptr; } } return jbackup_info_handle_list; } }; // The portal class for org.rocksdb.WBWIRocksIterator class WBWIRocksIteratorJni : public JavaClass { public: /** * Get the Java Class org.rocksdb.WBWIRocksIterator * * @param env A pointer to the Java environment * * @return The Java Class or nullptr if one of the * ClassFormatError, ClassCircularityError, NoClassDefFoundError, * OutOfMemoryError or ExceptionInInitializerError exceptions is thrown */ static jclass getJClass(JNIEnv* env) { return JavaClass::getJClass(env, "org/rocksdb/WBWIRocksIterator"); } /** * Get the Java Field: WBWIRocksIterator#entry * * @param env A pointer to the Java environment * * @return The Java Field ID or nullptr if the class or field id could not * be retieved */ static jfieldID getWriteEntryField(JNIEnv* env) { jclass jclazz = getJClass(env); if(jclazz == nullptr) { // exception occurred accessing class return nullptr; } static jfieldID fid = env->GetFieldID(jclazz, "entry", "Lorg/rocksdb/WBWIRocksIterator$WriteEntry;"); assert(fid != nullptr); return fid; } /** * Gets the value of the WBWIRocksIterator#entry * * @param env A pointer to the Java environment * @param jwbwi_rocks_iterator A reference to a WBWIIterator * * @return A reference to a Java WBWIRocksIterator.WriteEntry object, or * a nullptr if an exception occurs */ static jobject getWriteEntry(JNIEnv* env, jobject jwbwi_rocks_iterator) { assert(jwbwi_rocks_iterator != nullptr); jfieldID jwrite_entry_field = getWriteEntryField(env); if(jwrite_entry_field == nullptr) { // exception occurred accessing the field return nullptr; } jobject jwe = env->GetObjectField(jwbwi_rocks_iterator, jwrite_entry_field); assert(jwe != nullptr); return jwe; } }; // The portal class for org.rocksdb.WBWIRocksIterator.WriteType class WriteTypeJni : public JavaClass { public: /** * Get the PUT enum field value of WBWIRocksIterator.WriteType * * @param env A pointer to the Java environment * * @return A reference to the enum field value or a nullptr if * the enum field value could not be retrieved */ static jobject PUT(JNIEnv* env) { return getEnum(env, "PUT"); } /** * Get the MERGE enum field value of WBWIRocksIterator.WriteType * * @param env A pointer to the Java environment * * @return A reference to the enum field value or a nullptr if * the enum field value could not be retrieved */ static jobject MERGE(JNIEnv* env) { return getEnum(env, "MERGE"); } /** * Get the DELETE enum field value of WBWIRocksIterator.WriteType * * @param env A pointer to the Java environment * * @return A reference to the enum field value or a nullptr if * the enum field value could not be retrieved */ static jobject DELETE(JNIEnv* env) { return getEnum(env, "DELETE"); } /** * Get the LOG enum field value of WBWIRocksIterator.WriteType * * @param env A pointer to the Java environment * * @return A reference to the enum field value or a nullptr if * the enum field value could not be retrieved */ static jobject LOG(JNIEnv* env) { return getEnum(env, "LOG"); } // Returns the equivalent org.rocksdb.WBWIRocksIterator.WriteType for the // provided C++ rocksdb::WriteType enum static jbyte toJavaWriteType(const rocksdb::WriteType& writeType) { switch (writeType) { case rocksdb::WriteType::kPutRecord: return 0x0; case rocksdb::WriteType::kMergeRecord: return 0x1; case rocksdb::WriteType::kDeleteRecord: return 0x2; case rocksdb::WriteType::kSingleDeleteRecord: return 0x3; case rocksdb::WriteType::kDeleteRangeRecord: return 0x4; case rocksdb::WriteType::kLogDataRecord: return 0x5; case rocksdb::WriteType::kXIDRecord: return 0x6; default: return 0x7F; // undefined } } private: /** * Get the Java Class org.rocksdb.WBWIRocksIterator.WriteType * * @param env A pointer to the Java environment * * @return The Java Class or nullptr if one of the * ClassFormatError, ClassCircularityError, NoClassDefFoundError, * OutOfMemoryError or ExceptionInInitializerError exceptions is thrown */ static jclass getJClass(JNIEnv* env) { return JavaClass::getJClass(env, "org/rocksdb/WBWIRocksIterator$WriteType"); } /** * Get an enum field of org.rocksdb.WBWIRocksIterator.WriteType * * @param env A pointer to the Java environment * @param name The name of the enum field * * @return A reference to the enum field value or a nullptr if * the enum field value could not be retrieved */ static jobject getEnum(JNIEnv* env, const char name[]) { jclass jclazz = getJClass(env); if(jclazz == nullptr) { // exception occurred accessing class return nullptr; } jfieldID jfid = env->GetStaticFieldID(jclazz, name, "Lorg/rocksdb/WBWIRocksIterator$WriteType;"); if(env->ExceptionCheck()) { // exception occurred while getting field return nullptr; } else if(jfid == nullptr) { return nullptr; } jobject jwrite_type = env->GetStaticObjectField(jclazz, jfid); assert(jwrite_type != nullptr); return jwrite_type; } }; // The portal class for org.rocksdb.WBWIRocksIterator.WriteEntry class WriteEntryJni : public JavaClass { public: /** * Get the Java Class org.rocksdb.WBWIRocksIterator.WriteEntry * * @param env A pointer to the Java environment * * @return The Java Class or nullptr if one of the * ClassFormatError, ClassCircularityError, NoClassDefFoundError, * OutOfMemoryError or ExceptionInInitializerError exceptions is thrown */ static jclass getJClass(JNIEnv* env) { return JavaClass::getJClass(env, "org/rocksdb/WBWIRocksIterator$WriteEntry"); } }; // The portal class for org.rocksdb.InfoLogLevel class InfoLogLevelJni : public JavaClass { public: /** * Get the DEBUG_LEVEL enum field value of InfoLogLevel * * @param env A pointer to the Java environment * * @return A reference to the enum field value or a nullptr if * the enum field value could not be retrieved */ static jobject DEBUG_LEVEL(JNIEnv* env) { return getEnum(env, "DEBUG_LEVEL"); } /** * Get the INFO_LEVEL enum field value of InfoLogLevel * * @param env A pointer to the Java environment * * @return A reference to the enum field value or a nullptr if * the enum field value could not be retrieved */ static jobject INFO_LEVEL(JNIEnv* env) { return getEnum(env, "INFO_LEVEL"); } /** * Get the WARN_LEVEL enum field value of InfoLogLevel * * @param env A pointer to the Java environment * * @return A reference to the enum field value or a nullptr if * the enum field value could not be retrieved */ static jobject WARN_LEVEL(JNIEnv* env) { return getEnum(env, "WARN_LEVEL"); } /** * Get the ERROR_LEVEL enum field value of InfoLogLevel * * @param env A pointer to the Java environment * * @return A reference to the enum field value or a nullptr if * the enum field value could not be retrieved */ static jobject ERROR_LEVEL(JNIEnv* env) { return getEnum(env, "ERROR_LEVEL"); } /** * Get the FATAL_LEVEL enum field value of InfoLogLevel * * @param env A pointer to the Java environment * * @return A reference to the enum field value or a nullptr if * the enum field value could not be retrieved */ static jobject FATAL_LEVEL(JNIEnv* env) { return getEnum(env, "FATAL_LEVEL"); } /** * Get the HEADER_LEVEL enum field value of InfoLogLevel * * @param env A pointer to the Java environment * * @return A reference to the enum field value or a nullptr if * the enum field value could not be retrieved */ static jobject HEADER_LEVEL(JNIEnv* env) { return getEnum(env, "HEADER_LEVEL"); } private: /** * Get the Java Class org.rocksdb.InfoLogLevel * * @param env A pointer to the Java environment * * @return The Java Class or nullptr if one of the * ClassFormatError, ClassCircularityError, NoClassDefFoundError, * OutOfMemoryError or ExceptionInInitializerError exceptions is thrown */ static jclass getJClass(JNIEnv* env) { return JavaClass::getJClass(env, "org/rocksdb/InfoLogLevel"); } /** * Get an enum field of org.rocksdb.InfoLogLevel * * @param env A pointer to the Java environment * @param name The name of the enum field * * @return A reference to the enum field value or a nullptr if * the enum field value could not be retrieved */ static jobject getEnum(JNIEnv* env, const char name[]) { jclass jclazz = getJClass(env); if(jclazz == nullptr) { // exception occurred accessing class return nullptr; } jfieldID jfid = env->GetStaticFieldID(jclazz, name, "Lorg/rocksdb/InfoLogLevel;"); if(env->ExceptionCheck()) { // exception occurred while getting field return nullptr; } else if(jfid == nullptr) { return nullptr; } jobject jinfo_log_level = env->GetStaticObjectField(jclazz, jfid); assert(jinfo_log_level != nullptr); return jinfo_log_level; } }; // The portal class for org.rocksdb.Logger class LoggerJni : public RocksDBNativeClass< std::shared_ptr*, LoggerJni> { public: /** * Get the Java Class org/rocksdb/Logger * * @param env A pointer to the Java environment * * @return The Java Class or nullptr if one of the * ClassFormatError, ClassCircularityError, NoClassDefFoundError, * OutOfMemoryError or ExceptionInInitializerError exceptions is thrown */ static jclass getJClass(JNIEnv* env) { return RocksDBNativeClass::getJClass(env, "org/rocksdb/Logger"); } /** * Get the Java Method: Logger#log * * @param env A pointer to the Java environment * * @return The Java Method ID or nullptr if the class or method id could not * be retieved */ static jmethodID getLogMethodId(JNIEnv* env) { jclass jclazz = getJClass(env); if(jclazz == nullptr) { // exception occurred accessing class return nullptr; } static jmethodID mid = env->GetMethodID(jclazz, "log", "(Lorg/rocksdb/InfoLogLevel;Ljava/lang/String;)V"); assert(mid != nullptr); return mid; } }; // The portal class for org.rocksdb.TransactionLogIterator.BatchResult class BatchResultJni : public JavaClass { public: /** * Get the Java Class org.rocksdb.TransactionLogIterator.BatchResult * * @param env A pointer to the Java environment * * @return The Java Class or nullptr if one of the * ClassFormatError, ClassCircularityError, NoClassDefFoundError, * OutOfMemoryError or ExceptionInInitializerError exceptions is thrown */ static jclass getJClass(JNIEnv* env) { return JavaClass::getJClass(env, "org/rocksdb/TransactionLogIterator$BatchResult"); } /** * Create a new Java org.rocksdb.TransactionLogIterator.BatchResult object * with the same properties as the provided C++ rocksdb::BatchResult object * * @param env A pointer to the Java environment * @param batch_result The rocksdb::BatchResult object * * @return A reference to a Java * org.rocksdb.TransactionLogIterator.BatchResult object, * or nullptr if an an exception occurs */ static jobject construct(JNIEnv* env, rocksdb::BatchResult& batch_result) { jclass jclazz = getJClass(env); if(jclazz == nullptr) { // exception occurred accessing class return nullptr; } jmethodID mid = env->GetMethodID( jclazz, "", "(JJ)V"); if(mid == nullptr) { // exception thrown: NoSuchMethodException or OutOfMemoryError return nullptr; } jobject jbatch_result = env->NewObject(jclazz, mid, batch_result.sequence, batch_result.writeBatchPtr.get()); if(jbatch_result == nullptr) { // exception thrown: InstantiationException or OutOfMemoryError return nullptr; } batch_result.writeBatchPtr.release(); return jbatch_result; } }; // The portal class for org.rocksdb.BottommostLevelCompaction class BottommostLevelCompactionJni { public: // Returns the equivalent org.rocksdb.BottommostLevelCompaction for the provided // C++ rocksdb::BottommostLevelCompaction enum static jint toJavaBottommostLevelCompaction( const rocksdb::BottommostLevelCompaction& bottommost_level_compaction) { switch(bottommost_level_compaction) { case rocksdb::BottommostLevelCompaction::kSkip: return 0x0; case rocksdb::BottommostLevelCompaction::kIfHaveCompactionFilter: return 0x1; case rocksdb::BottommostLevelCompaction::kForce: return 0x2; default: return 0x7F; // undefined } } // Returns the equivalent C++ rocksdb::BottommostLevelCompaction enum for the // provided Java org.rocksdb.BottommostLevelCompaction static rocksdb::BottommostLevelCompaction toCppBottommostLevelCompaction( jint bottommost_level_compaction) { switch(bottommost_level_compaction) { case 0x0: return rocksdb::BottommostLevelCompaction::kSkip; case 0x1: return rocksdb::BottommostLevelCompaction::kIfHaveCompactionFilter; case 0x2: return rocksdb::BottommostLevelCompaction::kForce; default: // undefined/default return rocksdb::BottommostLevelCompaction::kIfHaveCompactionFilter; } } }; // The portal class for org.rocksdb.CompactionStopStyle class CompactionStopStyleJni { public: // Returns the equivalent org.rocksdb.CompactionStopStyle for the provided // C++ rocksdb::CompactionStopStyle enum static jbyte toJavaCompactionStopStyle( const rocksdb::CompactionStopStyle& compaction_stop_style) { switch(compaction_stop_style) { case rocksdb::CompactionStopStyle::kCompactionStopStyleSimilarSize: return 0x0; case rocksdb::CompactionStopStyle::kCompactionStopStyleTotalSize: return 0x1; default: return 0x7F; // undefined } } // Returns the equivalent C++ rocksdb::CompactionStopStyle enum for the // provided Java org.rocksdb.CompactionStopStyle static rocksdb::CompactionStopStyle toCppCompactionStopStyle( jbyte jcompaction_stop_style) { switch(jcompaction_stop_style) { case 0x0: return rocksdb::CompactionStopStyle::kCompactionStopStyleSimilarSize; case 0x1: return rocksdb::CompactionStopStyle::kCompactionStopStyleTotalSize; default: // undefined/default return rocksdb::CompactionStopStyle::kCompactionStopStyleSimilarSize; } } }; // The portal class for org.rocksdb.CompressionType class CompressionTypeJni { public: // Returns the equivalent org.rocksdb.CompressionType for the provided // C++ rocksdb::CompressionType enum static jbyte toJavaCompressionType( const rocksdb::CompressionType& compression_type) { switch(compression_type) { case rocksdb::CompressionType::kNoCompression: return 0x0; case rocksdb::CompressionType::kSnappyCompression: return 0x1; case rocksdb::CompressionType::kZlibCompression: return 0x2; case rocksdb::CompressionType::kBZip2Compression: return 0x3; case rocksdb::CompressionType::kLZ4Compression: return 0x4; case rocksdb::CompressionType::kLZ4HCCompression: return 0x5; case rocksdb::CompressionType::kXpressCompression: return 0x6; case rocksdb::CompressionType::kZSTD: return 0x7; case rocksdb::CompressionType::kDisableCompressionOption: default: return 0x7F; } } // Returns the equivalent C++ rocksdb::CompressionType enum for the // provided Java org.rocksdb.CompressionType static rocksdb::CompressionType toCppCompressionType( jbyte jcompression_type) { switch(jcompression_type) { case 0x0: return rocksdb::CompressionType::kNoCompression; case 0x1: return rocksdb::CompressionType::kSnappyCompression; case 0x2: return rocksdb::CompressionType::kZlibCompression; case 0x3: return rocksdb::CompressionType::kBZip2Compression; case 0x4: return rocksdb::CompressionType::kLZ4Compression; case 0x5: return rocksdb::CompressionType::kLZ4HCCompression; case 0x6: return rocksdb::CompressionType::kXpressCompression; case 0x7: return rocksdb::CompressionType::kZSTD; case 0x7F: default: return rocksdb::CompressionType::kDisableCompressionOption; } } }; // The portal class for org.rocksdb.CompactionPriority class CompactionPriorityJni { public: // Returns the equivalent org.rocksdb.CompactionPriority for the provided // C++ rocksdb::CompactionPri enum static jbyte toJavaCompactionPriority( const rocksdb::CompactionPri& compaction_priority) { switch(compaction_priority) { case rocksdb::CompactionPri::kByCompensatedSize: return 0x0; case rocksdb::CompactionPri::kOldestLargestSeqFirst: return 0x1; case rocksdb::CompactionPri::kOldestSmallestSeqFirst: return 0x2; case rocksdb::CompactionPri::kMinOverlappingRatio: return 0x3; default: return 0x0; // undefined } } // Returns the equivalent C++ rocksdb::CompactionPri enum for the // provided Java org.rocksdb.CompactionPriority static rocksdb::CompactionPri toCppCompactionPriority( jbyte jcompaction_priority) { switch(jcompaction_priority) { case 0x0: return rocksdb::CompactionPri::kByCompensatedSize; case 0x1: return rocksdb::CompactionPri::kOldestLargestSeqFirst; case 0x2: return rocksdb::CompactionPri::kOldestSmallestSeqFirst; case 0x3: return rocksdb::CompactionPri::kMinOverlappingRatio; default: // undefined/default return rocksdb::CompactionPri::kByCompensatedSize; } } }; // The portal class for org.rocksdb.AccessHint class AccessHintJni { public: // Returns the equivalent org.rocksdb.AccessHint for the provided // C++ rocksdb::DBOptions::AccessHint enum static jbyte toJavaAccessHint( const rocksdb::DBOptions::AccessHint& access_hint) { switch(access_hint) { case rocksdb::DBOptions::AccessHint::NONE: return 0x0; case rocksdb::DBOptions::AccessHint::NORMAL: return 0x1; case rocksdb::DBOptions::AccessHint::SEQUENTIAL: return 0x2; case rocksdb::DBOptions::AccessHint::WILLNEED: return 0x3; default: // undefined/default return 0x1; } } // Returns the equivalent C++ rocksdb::DBOptions::AccessHint enum for the // provided Java org.rocksdb.AccessHint static rocksdb::DBOptions::AccessHint toCppAccessHint(jbyte jaccess_hint) { switch(jaccess_hint) { case 0x0: return rocksdb::DBOptions::AccessHint::NONE; case 0x1: return rocksdb::DBOptions::AccessHint::NORMAL; case 0x2: return rocksdb::DBOptions::AccessHint::SEQUENTIAL; case 0x3: return rocksdb::DBOptions::AccessHint::WILLNEED; default: // undefined/default return rocksdb::DBOptions::AccessHint::NORMAL; } } }; // The portal class for org.rocksdb.WALRecoveryMode class WALRecoveryModeJni { public: // Returns the equivalent org.rocksdb.WALRecoveryMode for the provided // C++ rocksdb::WALRecoveryMode enum static jbyte toJavaWALRecoveryMode( const rocksdb::WALRecoveryMode& wal_recovery_mode) { switch(wal_recovery_mode) { case rocksdb::WALRecoveryMode::kTolerateCorruptedTailRecords: return 0x0; case rocksdb::WALRecoveryMode::kAbsoluteConsistency: return 0x1; case rocksdb::WALRecoveryMode::kPointInTimeRecovery: return 0x2; case rocksdb::WALRecoveryMode::kSkipAnyCorruptedRecords: return 0x3; default: // undefined/default return 0x2; } } // Returns the equivalent C++ rocksdb::WALRecoveryMode enum for the // provided Java org.rocksdb.WALRecoveryMode static rocksdb::WALRecoveryMode toCppWALRecoveryMode(jbyte jwal_recovery_mode) { switch(jwal_recovery_mode) { case 0x0: return rocksdb::WALRecoveryMode::kTolerateCorruptedTailRecords; case 0x1: return rocksdb::WALRecoveryMode::kAbsoluteConsistency; case 0x2: return rocksdb::WALRecoveryMode::kPointInTimeRecovery; case 0x3: return rocksdb::WALRecoveryMode::kSkipAnyCorruptedRecords; default: // undefined/default return rocksdb::WALRecoveryMode::kPointInTimeRecovery; } } }; // The portal class for org.rocksdb.TickerType class TickerTypeJni { public: // Returns the equivalent org.rocksdb.TickerType for the provided // C++ rocksdb::Tickers enum static jbyte toJavaTickerType( const rocksdb::Tickers& tickers) { switch(tickers) { case rocksdb::Tickers::BLOCK_CACHE_MISS: return 0x0; case rocksdb::Tickers::BLOCK_CACHE_HIT: return 0x1; case rocksdb::Tickers::BLOCK_CACHE_ADD: return 0x2; case rocksdb::Tickers::BLOCK_CACHE_ADD_FAILURES: return 0x3; case rocksdb::Tickers::BLOCK_CACHE_INDEX_MISS: return 0x4; case rocksdb::Tickers::BLOCK_CACHE_INDEX_HIT: return 0x5; case rocksdb::Tickers::BLOCK_CACHE_INDEX_ADD: return 0x6; case rocksdb::Tickers::BLOCK_CACHE_INDEX_BYTES_INSERT: return 0x7; case rocksdb::Tickers::BLOCK_CACHE_INDEX_BYTES_EVICT: return 0x8; case rocksdb::Tickers::BLOCK_CACHE_FILTER_MISS: return 0x9; case rocksdb::Tickers::BLOCK_CACHE_FILTER_HIT: return 0xA; case rocksdb::Tickers::BLOCK_CACHE_FILTER_ADD: return 0xB; case rocksdb::Tickers::BLOCK_CACHE_FILTER_BYTES_INSERT: return 0xC; case rocksdb::Tickers::BLOCK_CACHE_FILTER_BYTES_EVICT: return 0xD; case rocksdb::Tickers::BLOCK_CACHE_DATA_MISS: return 0xE; case rocksdb::Tickers::BLOCK_CACHE_DATA_HIT: return 0xF; case rocksdb::Tickers::BLOCK_CACHE_DATA_ADD: return 0x10; case rocksdb::Tickers::BLOCK_CACHE_DATA_BYTES_INSERT: return 0x11; case rocksdb::Tickers::BLOCK_CACHE_BYTES_READ: return 0x12; case rocksdb::Tickers::BLOCK_CACHE_BYTES_WRITE: return 0x13; case rocksdb::Tickers::BLOOM_FILTER_USEFUL: return 0x14; case rocksdb::Tickers::PERSISTENT_CACHE_HIT: return 0x15; case rocksdb::Tickers::PERSISTENT_CACHE_MISS: return 0x16; case rocksdb::Tickers::SIM_BLOCK_CACHE_HIT: return 0x17; case rocksdb::Tickers::SIM_BLOCK_CACHE_MISS: return 0x18; case rocksdb::Tickers::MEMTABLE_HIT: return 0x19; case rocksdb::Tickers::MEMTABLE_MISS: return 0x1A; case rocksdb::Tickers::GET_HIT_L0: return 0x1B; case rocksdb::Tickers::GET_HIT_L1: return 0x1C; case rocksdb::Tickers::GET_HIT_L2_AND_UP: return 0x1D; case rocksdb::Tickers::COMPACTION_KEY_DROP_NEWER_ENTRY: return 0x1E; case rocksdb::Tickers::COMPACTION_KEY_DROP_OBSOLETE: return 0x1F; case rocksdb::Tickers::COMPACTION_KEY_DROP_RANGE_DEL: return 0x20; case rocksdb::Tickers::COMPACTION_KEY_DROP_USER: return 0x21; case rocksdb::Tickers::COMPACTION_RANGE_DEL_DROP_OBSOLETE: return 0x22; case rocksdb::Tickers::NUMBER_KEYS_WRITTEN: return 0x23; case rocksdb::Tickers::NUMBER_KEYS_READ: return 0x24; case rocksdb::Tickers::NUMBER_KEYS_UPDATED: return 0x25; case rocksdb::Tickers::BYTES_WRITTEN: return 0x26; case rocksdb::Tickers::BYTES_READ: return 0x27; case rocksdb::Tickers::NUMBER_DB_SEEK: return 0x28; case rocksdb::Tickers::NUMBER_DB_NEXT: return 0x29; case rocksdb::Tickers::NUMBER_DB_PREV: return 0x2A; case rocksdb::Tickers::NUMBER_DB_SEEK_FOUND: return 0x2B; case rocksdb::Tickers::NUMBER_DB_NEXT_FOUND: return 0x2C; case rocksdb::Tickers::NUMBER_DB_PREV_FOUND: return 0x2D; case rocksdb::Tickers::ITER_BYTES_READ: return 0x2E; case rocksdb::Tickers::NO_FILE_CLOSES: return 0x2F; case rocksdb::Tickers::NO_FILE_OPENS: return 0x30; case rocksdb::Tickers::NO_FILE_ERRORS: return 0x31; case rocksdb::Tickers::STALL_L0_SLOWDOWN_MICROS: return 0x32; case rocksdb::Tickers::STALL_MEMTABLE_COMPACTION_MICROS: return 0x33; case rocksdb::Tickers::STALL_L0_NUM_FILES_MICROS: return 0x34; case rocksdb::Tickers::STALL_MICROS: return 0x35; case rocksdb::Tickers::DB_MUTEX_WAIT_MICROS: return 0x36; case rocksdb::Tickers::RATE_LIMIT_DELAY_MILLIS: return 0x37; case rocksdb::Tickers::NO_ITERATORS: return 0x38; case rocksdb::Tickers::NUMBER_MULTIGET_CALLS: return 0x39; case rocksdb::Tickers::NUMBER_MULTIGET_KEYS_READ: return 0x3A; case rocksdb::Tickers::NUMBER_MULTIGET_BYTES_READ: return 0x3B; case rocksdb::Tickers::NUMBER_FILTERED_DELETES: return 0x3C; case rocksdb::Tickers::NUMBER_MERGE_FAILURES: return 0x3D; case rocksdb::Tickers::BLOOM_FILTER_PREFIX_CHECKED: return 0x3E; case rocksdb::Tickers::BLOOM_FILTER_PREFIX_USEFUL: return 0x3F; case rocksdb::Tickers::NUMBER_OF_RESEEKS_IN_ITERATION: return 0x40; case rocksdb::Tickers::GET_UPDATES_SINCE_CALLS: return 0x41; case rocksdb::Tickers::BLOCK_CACHE_COMPRESSED_MISS: return 0x42; case rocksdb::Tickers::BLOCK_CACHE_COMPRESSED_HIT: return 0x43; case rocksdb::Tickers::BLOCK_CACHE_COMPRESSED_ADD: return 0x44; case rocksdb::Tickers::BLOCK_CACHE_COMPRESSED_ADD_FAILURES: return 0x45; case rocksdb::Tickers::WAL_FILE_SYNCED: return 0x46; case rocksdb::Tickers::WAL_FILE_BYTES: return 0x47; case rocksdb::Tickers::WRITE_DONE_BY_SELF: return 0x48; case rocksdb::Tickers::WRITE_DONE_BY_OTHER: return 0x49; case rocksdb::Tickers::WRITE_TIMEDOUT: return 0x4A; case rocksdb::Tickers::WRITE_WITH_WAL: return 0x4B; case rocksdb::Tickers::COMPACT_READ_BYTES: return 0x4C; case rocksdb::Tickers::COMPACT_WRITE_BYTES: return 0x4D; case rocksdb::Tickers::FLUSH_WRITE_BYTES: return 0x4E; case rocksdb::Tickers::NUMBER_DIRECT_LOAD_TABLE_PROPERTIES: return 0x4F; case rocksdb::Tickers::NUMBER_SUPERVERSION_ACQUIRES: return 0x50; case rocksdb::Tickers::NUMBER_SUPERVERSION_RELEASES: return 0x51; case rocksdb::Tickers::NUMBER_SUPERVERSION_CLEANUPS: return 0x52; case rocksdb::Tickers::NUMBER_BLOCK_COMPRESSED: return 0x53; case rocksdb::Tickers::NUMBER_BLOCK_DECOMPRESSED: return 0x54; case rocksdb::Tickers::NUMBER_BLOCK_NOT_COMPRESSED: return 0x55; case rocksdb::Tickers::MERGE_OPERATION_TOTAL_TIME: return 0x56; case rocksdb::Tickers::FILTER_OPERATION_TOTAL_TIME: return 0x57; case rocksdb::Tickers::ROW_CACHE_HIT: return 0x58; case rocksdb::Tickers::ROW_CACHE_MISS: return 0x59; case rocksdb::Tickers::READ_AMP_ESTIMATE_USEFUL_BYTES: return 0x5A; case rocksdb::Tickers::READ_AMP_TOTAL_READ_BYTES: return 0x5B; case rocksdb::Tickers::NUMBER_RATE_LIMITER_DRAINS: return 0x5C; case rocksdb::Tickers::NUMBER_ITER_SKIP: return 0x5D; case rocksdb::Tickers::NUMBER_MULTIGET_KEYS_FOUND: return 0x5E; case rocksdb::Tickers::TICKER_ENUM_MAX: return 0x5F; default: // undefined/default return 0x0; } } // Returns the equivalent C++ rocksdb::Tickers enum for the // provided Java org.rocksdb.TickerType static rocksdb::Tickers toCppTickers(jbyte jticker_type) { switch(jticker_type) { case 0x0: return rocksdb::Tickers::BLOCK_CACHE_MISS; case 0x1: return rocksdb::Tickers::BLOCK_CACHE_HIT; case 0x2: return rocksdb::Tickers::BLOCK_CACHE_ADD; case 0x3: return rocksdb::Tickers::BLOCK_CACHE_ADD_FAILURES; case 0x4: return rocksdb::Tickers::BLOCK_CACHE_INDEX_MISS; case 0x5: return rocksdb::Tickers::BLOCK_CACHE_INDEX_HIT; case 0x6: return rocksdb::Tickers::BLOCK_CACHE_INDEX_ADD; case 0x7: return rocksdb::Tickers::BLOCK_CACHE_INDEX_BYTES_INSERT; case 0x8: return rocksdb::Tickers::BLOCK_CACHE_INDEX_BYTES_EVICT; case 0x9: return rocksdb::Tickers::BLOCK_CACHE_FILTER_MISS; case 0xA: return rocksdb::Tickers::BLOCK_CACHE_FILTER_HIT; case 0xB: return rocksdb::Tickers::BLOCK_CACHE_FILTER_ADD; case 0xC: return rocksdb::Tickers::BLOCK_CACHE_FILTER_BYTES_INSERT; case 0xD: return rocksdb::Tickers::BLOCK_CACHE_FILTER_BYTES_EVICT; case 0xE: return rocksdb::Tickers::BLOCK_CACHE_DATA_MISS; case 0xF: return rocksdb::Tickers::BLOCK_CACHE_DATA_HIT; case 0x10: return rocksdb::Tickers::BLOCK_CACHE_DATA_ADD; case 0x11: return rocksdb::Tickers::BLOCK_CACHE_DATA_BYTES_INSERT; case 0x12: return rocksdb::Tickers::BLOCK_CACHE_BYTES_READ; case 0x13: return rocksdb::Tickers::BLOCK_CACHE_BYTES_WRITE; case 0x14: return rocksdb::Tickers::BLOOM_FILTER_USEFUL; case 0x15: return rocksdb::Tickers::PERSISTENT_CACHE_HIT; case 0x16: return rocksdb::Tickers::PERSISTENT_CACHE_MISS; case 0x17: return rocksdb::Tickers::SIM_BLOCK_CACHE_HIT; case 0x18: return rocksdb::Tickers::SIM_BLOCK_CACHE_MISS; case 0x19: return rocksdb::Tickers::MEMTABLE_HIT; case 0x1A: return rocksdb::Tickers::MEMTABLE_MISS; case 0x1B: return rocksdb::Tickers::GET_HIT_L0; case 0x1C: return rocksdb::Tickers::GET_HIT_L1; case 0x1D: return rocksdb::Tickers::GET_HIT_L2_AND_UP; case 0x1E: return rocksdb::Tickers::COMPACTION_KEY_DROP_NEWER_ENTRY; case 0x1F: return rocksdb::Tickers::COMPACTION_KEY_DROP_OBSOLETE; case 0x20: return rocksdb::Tickers::COMPACTION_KEY_DROP_RANGE_DEL; case 0x21: return rocksdb::Tickers::COMPACTION_KEY_DROP_USER; case 0x22: return rocksdb::Tickers::COMPACTION_RANGE_DEL_DROP_OBSOLETE; case 0x23: return rocksdb::Tickers::NUMBER_KEYS_WRITTEN; case 0x24: return rocksdb::Tickers::NUMBER_KEYS_READ; case 0x25: return rocksdb::Tickers::NUMBER_KEYS_UPDATED; case 0x26: return rocksdb::Tickers::BYTES_WRITTEN; case 0x27: return rocksdb::Tickers::BYTES_READ; case 0x28: return rocksdb::Tickers::NUMBER_DB_SEEK; case 0x29: return rocksdb::Tickers::NUMBER_DB_NEXT; case 0x2A: return rocksdb::Tickers::NUMBER_DB_PREV; case 0x2B: return rocksdb::Tickers::NUMBER_DB_SEEK_FOUND; case 0x2C: return rocksdb::Tickers::NUMBER_DB_NEXT_FOUND; case 0x2D: return rocksdb::Tickers::NUMBER_DB_PREV_FOUND; case 0x2E: return rocksdb::Tickers::ITER_BYTES_READ; case 0x2F: return rocksdb::Tickers::NO_FILE_CLOSES; case 0x30: return rocksdb::Tickers::NO_FILE_OPENS; case 0x31: return rocksdb::Tickers::NO_FILE_ERRORS; case 0x32: return rocksdb::Tickers::STALL_L0_SLOWDOWN_MICROS; case 0x33: return rocksdb::Tickers::STALL_MEMTABLE_COMPACTION_MICROS; case 0x34: return rocksdb::Tickers::STALL_L0_NUM_FILES_MICROS; case 0x35: return rocksdb::Tickers::STALL_MICROS; case 0x36: return rocksdb::Tickers::DB_MUTEX_WAIT_MICROS; case 0x37: return rocksdb::Tickers::RATE_LIMIT_DELAY_MILLIS; case 0x38: return rocksdb::Tickers::NO_ITERATORS; case 0x39: return rocksdb::Tickers::NUMBER_MULTIGET_CALLS; case 0x3A: return rocksdb::Tickers::NUMBER_MULTIGET_KEYS_READ; case 0x3B: return rocksdb::Tickers::NUMBER_MULTIGET_BYTES_READ; case 0x3C: return rocksdb::Tickers::NUMBER_FILTERED_DELETES; case 0x3D: return rocksdb::Tickers::NUMBER_MERGE_FAILURES; case 0x3E: return rocksdb::Tickers::BLOOM_FILTER_PREFIX_CHECKED; case 0x3F: return rocksdb::Tickers::BLOOM_FILTER_PREFIX_USEFUL; case 0x40: return rocksdb::Tickers::NUMBER_OF_RESEEKS_IN_ITERATION; case 0x41: return rocksdb::Tickers::GET_UPDATES_SINCE_CALLS; case 0x42: return rocksdb::Tickers::BLOCK_CACHE_COMPRESSED_MISS; case 0x43: return rocksdb::Tickers::BLOCK_CACHE_COMPRESSED_HIT; case 0x44: return rocksdb::Tickers::BLOCK_CACHE_COMPRESSED_ADD; case 0x45: return rocksdb::Tickers::BLOCK_CACHE_COMPRESSED_ADD_FAILURES; case 0x46: return rocksdb::Tickers::WAL_FILE_SYNCED; case 0x47: return rocksdb::Tickers::WAL_FILE_BYTES; case 0x48: return rocksdb::Tickers::WRITE_DONE_BY_SELF; case 0x49: return rocksdb::Tickers::WRITE_DONE_BY_OTHER; case 0x4A: return rocksdb::Tickers::WRITE_TIMEDOUT; case 0x4B: return rocksdb::Tickers::WRITE_WITH_WAL; case 0x4C: return rocksdb::Tickers::COMPACT_READ_BYTES; case 0x4D: return rocksdb::Tickers::COMPACT_WRITE_BYTES; case 0x4E: return rocksdb::Tickers::FLUSH_WRITE_BYTES; case 0x4F: return rocksdb::Tickers::NUMBER_DIRECT_LOAD_TABLE_PROPERTIES; case 0x50: return rocksdb::Tickers::NUMBER_SUPERVERSION_ACQUIRES; case 0x51: return rocksdb::Tickers::NUMBER_SUPERVERSION_RELEASES; case 0x52: return rocksdb::Tickers::NUMBER_SUPERVERSION_CLEANUPS; case 0x53: return rocksdb::Tickers::NUMBER_BLOCK_COMPRESSED; case 0x54: return rocksdb::Tickers::NUMBER_BLOCK_DECOMPRESSED; case 0x55: return rocksdb::Tickers::NUMBER_BLOCK_NOT_COMPRESSED; case 0x56: return rocksdb::Tickers::MERGE_OPERATION_TOTAL_TIME; case 0x57: return rocksdb::Tickers::FILTER_OPERATION_TOTAL_TIME; case 0x58: return rocksdb::Tickers::ROW_CACHE_HIT; case 0x59: return rocksdb::Tickers::ROW_CACHE_MISS; case 0x5A: return rocksdb::Tickers::READ_AMP_ESTIMATE_USEFUL_BYTES; case 0x5B: return rocksdb::Tickers::READ_AMP_TOTAL_READ_BYTES; case 0x5C: return rocksdb::Tickers::NUMBER_RATE_LIMITER_DRAINS; case 0x5D: return rocksdb::Tickers::NUMBER_ITER_SKIP; case 0x5E: return rocksdb::Tickers::NUMBER_MULTIGET_KEYS_FOUND; case 0x5F: return rocksdb::Tickers::TICKER_ENUM_MAX; default: // undefined/default return rocksdb::Tickers::BLOCK_CACHE_MISS; } } }; // The portal class for org.rocksdb.HistogramType class HistogramTypeJni { public: // Returns the equivalent org.rocksdb.HistogramType for the provided // C++ rocksdb::Histograms enum static jbyte toJavaHistogramsType( const rocksdb::Histograms& histograms) { switch(histograms) { case rocksdb::Histograms::DB_GET: return 0x0; case rocksdb::Histograms::DB_WRITE: return 0x1; case rocksdb::Histograms::COMPACTION_TIME: return 0x2; case rocksdb::Histograms::SUBCOMPACTION_SETUP_TIME: return 0x3; case rocksdb::Histograms::TABLE_SYNC_MICROS: return 0x4; case rocksdb::Histograms::COMPACTION_OUTFILE_SYNC_MICROS: return 0x5; case rocksdb::Histograms::WAL_FILE_SYNC_MICROS: return 0x6; case rocksdb::Histograms::MANIFEST_FILE_SYNC_MICROS: return 0x7; case rocksdb::Histograms::TABLE_OPEN_IO_MICROS: return 0x8; case rocksdb::Histograms::DB_MULTIGET: return 0x9; case rocksdb::Histograms::READ_BLOCK_COMPACTION_MICROS: return 0xA; case rocksdb::Histograms::READ_BLOCK_GET_MICROS: return 0xB; case rocksdb::Histograms::WRITE_RAW_BLOCK_MICROS: return 0xC; case rocksdb::Histograms::STALL_L0_SLOWDOWN_COUNT: return 0xD; case rocksdb::Histograms::STALL_MEMTABLE_COMPACTION_COUNT: return 0xE; case rocksdb::Histograms::STALL_L0_NUM_FILES_COUNT: return 0xF; case rocksdb::Histograms::HARD_RATE_LIMIT_DELAY_COUNT: return 0x10; case rocksdb::Histograms::SOFT_RATE_LIMIT_DELAY_COUNT: return 0x11; case rocksdb::Histograms::NUM_FILES_IN_SINGLE_COMPACTION: return 0x12; case rocksdb::Histograms::DB_SEEK: return 0x13; case rocksdb::Histograms::WRITE_STALL: return 0x14; case rocksdb::Histograms::SST_READ_MICROS: return 0x15; case rocksdb::Histograms::NUM_SUBCOMPACTIONS_SCHEDULED: return 0x16; case rocksdb::Histograms::BYTES_PER_READ: return 0x17; case rocksdb::Histograms::BYTES_PER_WRITE: return 0x18; case rocksdb::Histograms::BYTES_PER_MULTIGET: return 0x19; case rocksdb::Histograms::BYTES_COMPRESSED: return 0x1A; case rocksdb::Histograms::BYTES_DECOMPRESSED: return 0x1B; case rocksdb::Histograms::COMPRESSION_TIMES_NANOS: return 0x1C; case rocksdb::Histograms::DECOMPRESSION_TIMES_NANOS: return 0x1D; case rocksdb::Histograms::READ_NUM_MERGE_OPERANDS: return 0x1E; case rocksdb::Histograms::FLUSH_TIME: return 0x1F; case rocksdb::Histograms::HISTOGRAM_ENUM_MAX: return 0x20; default: // undefined/default return 0x0; } } // Returns the equivalent C++ rocksdb::Histograms enum for the // provided Java org.rocksdb.HistogramsType static rocksdb::Histograms toCppHistograms(jbyte jhistograms_type) { switch(jhistograms_type) { case 0x0: return rocksdb::Histograms::DB_GET; case 0x1: return rocksdb::Histograms::DB_WRITE; case 0x2: return rocksdb::Histograms::COMPACTION_TIME; case 0x3: return rocksdb::Histograms::SUBCOMPACTION_SETUP_TIME; case 0x4: return rocksdb::Histograms::TABLE_SYNC_MICROS; case 0x5: return rocksdb::Histograms::COMPACTION_OUTFILE_SYNC_MICROS; case 0x6: return rocksdb::Histograms::WAL_FILE_SYNC_MICROS; case 0x7: return rocksdb::Histograms::MANIFEST_FILE_SYNC_MICROS; case 0x8: return rocksdb::Histograms::TABLE_OPEN_IO_MICROS; case 0x9: return rocksdb::Histograms::DB_MULTIGET; case 0xA: return rocksdb::Histograms::READ_BLOCK_COMPACTION_MICROS; case 0xB: return rocksdb::Histograms::READ_BLOCK_GET_MICROS; case 0xC: return rocksdb::Histograms::WRITE_RAW_BLOCK_MICROS; case 0xD: return rocksdb::Histograms::STALL_L0_SLOWDOWN_COUNT; case 0xE: return rocksdb::Histograms::STALL_MEMTABLE_COMPACTION_COUNT; case 0xF: return rocksdb::Histograms::STALL_L0_NUM_FILES_COUNT; case 0x10: return rocksdb::Histograms::HARD_RATE_LIMIT_DELAY_COUNT; case 0x11: return rocksdb::Histograms::SOFT_RATE_LIMIT_DELAY_COUNT; case 0x12: return rocksdb::Histograms::NUM_FILES_IN_SINGLE_COMPACTION; case 0x13: return rocksdb::Histograms::DB_SEEK; case 0x14: return rocksdb::Histograms::WRITE_STALL; case 0x15: return rocksdb::Histograms::SST_READ_MICROS; case 0x16: return rocksdb::Histograms::NUM_SUBCOMPACTIONS_SCHEDULED; case 0x17: return rocksdb::Histograms::BYTES_PER_READ; case 0x18: return rocksdb::Histograms::BYTES_PER_WRITE; case 0x19: return rocksdb::Histograms::BYTES_PER_MULTIGET; case 0x1A: return rocksdb::Histograms::BYTES_COMPRESSED; case 0x1B: return rocksdb::Histograms::BYTES_DECOMPRESSED; case 0x1C: return rocksdb::Histograms::COMPRESSION_TIMES_NANOS; case 0x1D: return rocksdb::Histograms::DECOMPRESSION_TIMES_NANOS; case 0x1E: return rocksdb::Histograms::READ_NUM_MERGE_OPERANDS; case 0x1F: return rocksdb::Histograms::FLUSH_TIME; case 0x20: return rocksdb::Histograms::HISTOGRAM_ENUM_MAX; default: // undefined/default return rocksdb::Histograms::DB_GET; } } }; // The portal class for org.rocksdb.StatsLevel class StatsLevelJni { public: // Returns the equivalent org.rocksdb.StatsLevel for the provided // C++ rocksdb::StatsLevel enum static jbyte toJavaStatsLevel( const rocksdb::StatsLevel& stats_level) { switch(stats_level) { case rocksdb::StatsLevel::kExceptDetailedTimers: return 0x0; case rocksdb::StatsLevel::kExceptTimeForMutex: return 0x1; case rocksdb::StatsLevel::kAll: return 0x2; default: // undefined/default return 0x0; } } // Returns the equivalent C++ rocksdb::StatsLevel enum for the // provided Java org.rocksdb.StatsLevel static rocksdb::StatsLevel toCppStatsLevel(jbyte jstats_level) { switch(jstats_level) { case 0x0: return rocksdb::StatsLevel::kExceptDetailedTimers; case 0x1: return rocksdb::StatsLevel::kExceptTimeForMutex; case 0x2: return rocksdb::StatsLevel::kAll; default: // undefined/default return rocksdb::StatsLevel::kExceptDetailedTimers; } } }; // The portal class for org.rocksdb.RateLimiterMode class RateLimiterModeJni { public: // Returns the equivalent org.rocksdb.RateLimiterMode for the provided // C++ rocksdb::RateLimiter::Mode enum static jbyte toJavaRateLimiterMode( const rocksdb::RateLimiter::Mode& rate_limiter_mode) { switch(rate_limiter_mode) { case rocksdb::RateLimiter::Mode::kReadsOnly: return 0x0; case rocksdb::RateLimiter::Mode::kWritesOnly: return 0x1; case rocksdb::RateLimiter::Mode::kAllIo: return 0x2; default: // undefined/default return 0x1; } } // Returns the equivalent C++ rocksdb::RateLimiter::Mode enum for the // provided Java org.rocksdb.RateLimiterMode static rocksdb::RateLimiter::Mode toCppRateLimiterMode(jbyte jrate_limiter_mode) { switch(jrate_limiter_mode) { case 0x0: return rocksdb::RateLimiter::Mode::kReadsOnly; case 0x1: return rocksdb::RateLimiter::Mode::kWritesOnly; case 0x2: return rocksdb::RateLimiter::Mode::kAllIo; default: // undefined/default return rocksdb::RateLimiter::Mode::kWritesOnly; } } }; // The portal class for org.rocksdb.Transaction class TransactionJni : public JavaClass { public: /** * Get the Java Class org.rocksdb.Transaction * * @param env A pointer to the Java environment * * @return The Java Class or nullptr if one of the * ClassFormatError, ClassCircularityError, NoClassDefFoundError, * OutOfMemoryError or ExceptionInInitializerError exceptions is thrown */ static jclass getJClass(JNIEnv* env) { return JavaClass::getJClass(env, "org/rocksdb/Transaction"); } /** * Create a new Java org.rocksdb.Transaction.WaitingTransactions object * * @param env A pointer to the Java environment * @param jtransaction A Java org.rocksdb.Transaction object * @param column_family_id The id of the column family * @param key The key * @param transaction_ids The transaction ids * * @return A reference to a Java * org.rocksdb.Transaction.WaitingTransactions object, * or nullptr if an an exception occurs */ static jobject newWaitingTransactions(JNIEnv* env, jobject jtransaction, const uint32_t column_family_id, const std::string &key, const std::vector &transaction_ids) { jclass jclazz = getJClass(env); if(jclazz == nullptr) { // exception occurred accessing class return nullptr; } jmethodID mid = env->GetMethodID( jclazz, "newWaitingTransactions", "(JLjava/lang/String;[J)Lorg/rocksdb/Transaction$WaitingTransactions;"); if(mid == nullptr) { // exception thrown: NoSuchMethodException or OutOfMemoryError return nullptr; } jstring jkey = env->NewStringUTF(key.c_str()); if(jkey == nullptr) { // exception thrown: OutOfMemoryError return nullptr; } const size_t len = transaction_ids.size(); jlongArray jtransaction_ids = env->NewLongArray(static_cast(len)); if(jtransaction_ids == nullptr) { // exception thrown: OutOfMemoryError env->DeleteLocalRef(jkey); return nullptr; } jlong *body = env->GetLongArrayElements(jtransaction_ids, nullptr); if(body == nullptr) { // exception thrown: OutOfMemoryError env->DeleteLocalRef(jkey); env->DeleteLocalRef(jtransaction_ids); return nullptr; } for(size_t i = 0; i < len; ++i) { body[i] = static_cast(transaction_ids[i]); } env->ReleaseLongArrayElements(jtransaction_ids, body, 0); jobject jwaiting_transactions = env->CallObjectMethod(jtransaction, mid, static_cast(column_family_id), jkey, jtransaction_ids); if(env->ExceptionCheck()) { // exception thrown: InstantiationException or OutOfMemoryError env->DeleteLocalRef(jkey); env->DeleteLocalRef(jtransaction_ids); return nullptr; } return jwaiting_transactions; } }; // The portal class for org.rocksdb.TransactionDB class TransactionDBJni : public JavaClass { public: /** * Get the Java Class org.rocksdb.TransactionDB * * @param env A pointer to the Java environment * * @return The Java Class or nullptr if one of the * ClassFormatError, ClassCircularityError, NoClassDefFoundError, * OutOfMemoryError or ExceptionInInitializerError exceptions is thrown */ static jclass getJClass(JNIEnv* env) { return JavaClass::getJClass(env, "org/rocksdb/TransactionDB"); } /** * Create a new Java org.rocksdb.TransactionDB.DeadlockInfo object * * @param env A pointer to the Java environment * @param jtransaction A Java org.rocksdb.Transaction object * @param column_family_id The id of the column family * @param key The key * @param transaction_ids The transaction ids * * @return A reference to a Java * org.rocksdb.Transaction.WaitingTransactions object, * or nullptr if an an exception occurs */ static jobject newDeadlockInfo(JNIEnv* env, jobject jtransaction_db, const rocksdb::TransactionID transaction_id, const uint32_t column_family_id, const std::string &waiting_key, const bool exclusive) { jclass jclazz = getJClass(env); if(jclazz == nullptr) { // exception occurred accessing class return nullptr; } jmethodID mid = env->GetMethodID( jclazz, "newDeadlockInfo", "(JJLjava/lang/String;Z)Lorg/rocksdb/TransactionDB$DeadlockInfo;"); if(mid == nullptr) { // exception thrown: NoSuchMethodException or OutOfMemoryError return nullptr; } jstring jwaiting_key = env->NewStringUTF(waiting_key.c_str()); if(jwaiting_key == nullptr) { // exception thrown: OutOfMemoryError return nullptr; } // resolve the column family id to a ColumnFamilyHandle jobject jdeadlock_info = env->CallObjectMethod(jtransaction_db, mid, transaction_id, static_cast(column_family_id), jwaiting_key, exclusive); if(env->ExceptionCheck()) { // exception thrown: InstantiationException or OutOfMemoryError env->DeleteLocalRef(jwaiting_key); return nullptr; } return jdeadlock_info; } }; // The portal class for org.rocksdb.TxnDBWritePolicy class TxnDBWritePolicyJni { public: // Returns the equivalent org.rocksdb.TxnDBWritePolicy for the provided // C++ rocksdb::TxnDBWritePolicy enum static jbyte toJavaTxnDBWritePolicy( const rocksdb::TxnDBWritePolicy& txndb_write_policy) { switch(txndb_write_policy) { case rocksdb::TxnDBWritePolicy::WRITE_COMMITTED: return 0x0; case rocksdb::TxnDBWritePolicy::WRITE_PREPARED: return 0x1; case rocksdb::TxnDBWritePolicy::WRITE_UNPREPARED: return 0x2; default: return 0x7F; // undefined } } // Returns the equivalent C++ rocksdb::TxnDBWritePolicy enum for the // provided Java org.rocksdb.TxnDBWritePolicy static rocksdb::TxnDBWritePolicy toCppTxnDBWritePolicy( jbyte jtxndb_write_policy) { switch(jtxndb_write_policy) { case 0x0: return rocksdb::TxnDBWritePolicy::WRITE_COMMITTED; case 0x1: return rocksdb::TxnDBWritePolicy::WRITE_PREPARED; case 0x2: return rocksdb::TxnDBWritePolicy::WRITE_UNPREPARED; default: // undefined/default return rocksdb::TxnDBWritePolicy::WRITE_COMMITTED; } } }; // The portal class for org.rocksdb.TransactionDB.KeyLockInfo class KeyLockInfoJni : public JavaClass { public: /** * Get the Java Class org.rocksdb.TransactionDB.KeyLockInfo * * @param env A pointer to the Java environment * * @return The Java Class or nullptr if one of the * ClassFormatError, ClassCircularityError, NoClassDefFoundError, * OutOfMemoryError or ExceptionInInitializerError exceptions is thrown */ static jclass getJClass(JNIEnv* env) { return JavaClass::getJClass(env, "org/rocksdb/TransactionDB$KeyLockInfo"); } /** * Create a new Java org.rocksdb.TransactionDB.KeyLockInfo object * with the same properties as the provided C++ rocksdb::KeyLockInfo object * * @param env A pointer to the Java environment * @param key_lock_info The rocksdb::KeyLockInfo object * * @return A reference to a Java * org.rocksdb.TransactionDB.KeyLockInfo object, * or nullptr if an an exception occurs */ static jobject construct(JNIEnv* env, const rocksdb::KeyLockInfo& key_lock_info) { jclass jclazz = getJClass(env); if(jclazz == nullptr) { // exception occurred accessing class return nullptr; } jmethodID mid = env->GetMethodID( jclazz, "", "(Ljava/lang/String;[JZ)V"); if (mid == nullptr) { // exception thrown: NoSuchMethodException or OutOfMemoryError return nullptr; } jstring jkey = env->NewStringUTF(key_lock_info.key.c_str()); if (jkey == nullptr) { // exception thrown: OutOfMemoryError return nullptr; } const jsize jtransaction_ids_len = static_cast(key_lock_info.ids.size()); jlongArray jtransactions_ids = env->NewLongArray(jtransaction_ids_len); if (jtransactions_ids == nullptr) { // exception thrown: OutOfMemoryError env->DeleteLocalRef(jkey); return nullptr; } const jobject jkey_lock_info = env->NewObject(jclazz, mid, jkey, jtransactions_ids, key_lock_info.exclusive); if(jkey_lock_info == nullptr) { // exception thrown: InstantiationException or OutOfMemoryError env->DeleteLocalRef(jtransactions_ids); env->DeleteLocalRef(jkey); return nullptr; } return jkey_lock_info; } }; // The portal class for org.rocksdb.TransactionDB.DeadlockInfo class DeadlockInfoJni : public JavaClass { public: /** * Get the Java Class org.rocksdb.TransactionDB.DeadlockInfo * * @param env A pointer to the Java environment * * @return The Java Class or nullptr if one of the * ClassFormatError, ClassCircularityError, NoClassDefFoundError, * OutOfMemoryError or ExceptionInInitializerError exceptions is thrown */ static jclass getJClass(JNIEnv* env) { return JavaClass::getJClass(env,"org/rocksdb/TransactionDB$DeadlockInfo"); } }; // The portal class for org.rocksdb.TransactionDB.DeadlockPath class DeadlockPathJni : public JavaClass { public: /** * Get the Java Class org.rocksdb.TransactionDB.DeadlockPath * * @param env A pointer to the Java environment * * @return The Java Class or nullptr if one of the * ClassFormatError, ClassCircularityError, NoClassDefFoundError, * OutOfMemoryError or ExceptionInInitializerError exceptions is thrown */ static jclass getJClass(JNIEnv* env) { return JavaClass::getJClass(env, "org/rocksdb/TransactionDB$DeadlockPath"); } /** * Create a new Java org.rocksdb.TransactionDB.DeadlockPath object * * @param env A pointer to the Java environment * * @return A reference to a Java * org.rocksdb.TransactionDB.DeadlockPath object, * or nullptr if an an exception occurs */ static jobject construct(JNIEnv* env, const jobjectArray jdeadlock_infos, const bool limit_exceeded) { jclass jclazz = getJClass(env); if(jclazz == nullptr) { // exception occurred accessing class return nullptr; } jmethodID mid = env->GetMethodID( jclazz, "", "([LDeadlockInfo;Z)V"); if (mid == nullptr) { // exception thrown: NoSuchMethodException or OutOfMemoryError return nullptr; } const jobject jdeadlock_path = env->NewObject(jclazz, mid, jdeadlock_infos, limit_exceeded); if(jdeadlock_path == nullptr) { // exception thrown: InstantiationException or OutOfMemoryError return nullptr; } return jdeadlock_path; } }; // various utility functions for working with RocksDB and JNI class JniUtil { public: /** * Obtains a reference to the JNIEnv from * the JVM * * If the current thread is not attached to the JavaVM * then it will be attached so as to retrieve the JNIEnv * * If a thread is attached, it must later be manually * released by calling JavaVM::DetachCurrentThread. * This can be handled by always matching calls to this * function with calls to {@link JniUtil::releaseJniEnv(JavaVM*, jboolean)} * * @param jvm (IN) A pointer to the JavaVM instance * @param attached (OUT) A pointer to a boolean which * will be set to JNI_TRUE if we had to attach the thread * * @return A pointer to the JNIEnv or nullptr if a fatal error * occurs and the JNIEnv cannot be retrieved */ static JNIEnv* getJniEnv(JavaVM* jvm, jboolean* attached) { assert(jvm != nullptr); JNIEnv *env; const jint env_rs = jvm->GetEnv(reinterpret_cast(&env), JNI_VERSION_1_2); if(env_rs == JNI_OK) { // current thread is already attached, return the JNIEnv *attached = JNI_FALSE; return env; } else if(env_rs == JNI_EDETACHED) { // current thread is not attached, attempt to attach const jint rs_attach = jvm->AttachCurrentThread(reinterpret_cast(&env), NULL); if(rs_attach == JNI_OK) { *attached = JNI_TRUE; return env; } else { // error, could not attach the thread std::cerr << "JniUtil::getJinEnv - Fatal: could not attach current thread to JVM!" << std::endl; return nullptr; } } else if(env_rs == JNI_EVERSION) { // error, JDK does not support JNI_VERSION_1_2+ std::cerr << "JniUtil::getJinEnv - Fatal: JDK does not support JNI_VERSION_1_2" << std::endl; return nullptr; } else { std::cerr << "JniUtil::getJinEnv - Fatal: Unknown error: env_rs=" << env_rs << std::endl; return nullptr; } } /** * Counterpart to {@link JniUtil::getJniEnv(JavaVM*, jboolean*)} * * Detachess the current thread from the JVM if it was previously * attached * * @param jvm (IN) A pointer to the JavaVM instance * @param attached (IN) JNI_TRUE if we previously had to attach the thread * to the JavaVM to get the JNIEnv */ static void releaseJniEnv(JavaVM* jvm, jboolean& attached) { assert(jvm != nullptr); if(attached == JNI_TRUE) { const jint rs_detach = jvm->DetachCurrentThread(); assert(rs_detach == JNI_OK); if(rs_detach != JNI_OK) { std::cerr << "JniUtil::getJinEnv - Warn: Unable to detach current thread from JVM!" << std::endl; } } } /** * Copies a Java String[] to a C++ std::vector * * @param env (IN) A pointer to the java environment * @param jss (IN) The Java String array to copy * @param has_exception (OUT) will be set to JNI_TRUE * if an OutOfMemoryError or ArrayIndexOutOfBoundsException * exception occurs * * @return A std::vector containing copies of the Java strings */ static std::vector copyStrings(JNIEnv* env, jobjectArray jss, jboolean* has_exception) { return rocksdb::JniUtil::copyStrings(env, jss, env->GetArrayLength(jss), has_exception); } /** * Copies a Java String[] to a C++ std::vector * * @param env (IN) A pointer to the java environment * @param jss (IN) The Java String array to copy * @param jss_len (IN) The length of the Java String array to copy * @param has_exception (OUT) will be set to JNI_TRUE * if an OutOfMemoryError or ArrayIndexOutOfBoundsException * exception occurs * * @return A std::vector containing copies of the Java strings */ static std::vector copyStrings(JNIEnv* env, jobjectArray jss, const jsize jss_len, jboolean* has_exception) { std::vector strs; for (jsize i = 0; i < jss_len; i++) { jobject js = env->GetObjectArrayElement(jss, i); if(env->ExceptionCheck()) { // exception thrown: ArrayIndexOutOfBoundsException *has_exception = JNI_TRUE; return strs; } jstring jstr = static_cast(js); const char* str = env->GetStringUTFChars(jstr, nullptr); if(str == nullptr) { // exception thrown: OutOfMemoryError env->DeleteLocalRef(js); *has_exception = JNI_TRUE; return strs; } strs.push_back(std::string(str)); env->ReleaseStringUTFChars(jstr, str); env->DeleteLocalRef(js); } *has_exception = JNI_FALSE; return strs; } /** * Copies a jstring to a C-style null-terminated byte string * and releases the original jstring * * The jstring is copied as UTF-8 * * If an exception occurs, then JNIEnv::ExceptionCheck() * will have been called * * @param env (IN) A pointer to the java environment * @param js (IN) The java string to copy * @param has_exception (OUT) will be set to JNI_TRUE * if an OutOfMemoryError exception occurs * * @return A pointer to the copied string, or a * nullptr if has_exception == JNI_TRUE */ static std::unique_ptr copyString(JNIEnv* env, jstring js, jboolean* has_exception) { const char *utf = env->GetStringUTFChars(js, nullptr); if(utf == nullptr) { // exception thrown: OutOfMemoryError env->ExceptionCheck(); *has_exception = JNI_TRUE; return nullptr; } else if(env->ExceptionCheck()) { // exception thrown env->ReleaseStringUTFChars(js, utf); *has_exception = JNI_TRUE; return nullptr; } const jsize utf_len = env->GetStringUTFLength(js); std::unique_ptr str(new char[utf_len + 1]); // Note: + 1 is needed for the c_str null terminator std::strcpy(str.get(), utf); env->ReleaseStringUTFChars(js, utf); *has_exception = JNI_FALSE; return str; } /** * Copies a jstring to a std::string * and releases the original jstring * * If an exception occurs, then JNIEnv::ExceptionCheck() * will have been called * * @param env (IN) A pointer to the java environment * @param js (IN) The java string to copy * @param has_exception (OUT) will be set to JNI_TRUE * if an OutOfMemoryError exception occurs * * @return A std:string copy of the jstring, or an * empty std::string if has_exception == JNI_TRUE */ static std::string copyStdString(JNIEnv* env, jstring js, jboolean* has_exception) { const char *utf = env->GetStringUTFChars(js, nullptr); if(utf == nullptr) { // exception thrown: OutOfMemoryError env->ExceptionCheck(); *has_exception = JNI_TRUE; return std::string(); } else if(env->ExceptionCheck()) { // exception thrown env->ReleaseStringUTFChars(js, utf); *has_exception = JNI_TRUE; return std::string(); } std::string name(utf); env->ReleaseStringUTFChars(js, utf); *has_exception = JNI_FALSE; return name; } /** * Copies bytes from a std::string to a jByteArray * * @param env A pointer to the java environment * @param bytes The bytes to copy * * @return the Java byte[] or nullptr if an exception occurs * * @throws RocksDBException thrown * if memory size to copy exceeds general java specific array size limitation. */ static jbyteArray copyBytes(JNIEnv* env, std::string bytes) { return createJavaByteArrayWithSizeCheck(env, bytes.c_str(), bytes.size()); } /** * Given a Java byte[][] which is an array of java.lang.Strings * where each String is a byte[], the passed function `string_fn` * will be called on each String, the result is the collected by * calling the passed function `collector_fn` * * @param env (IN) A pointer to the java environment * @param jbyte_strings (IN) A Java array of Strings expressed as bytes * @param string_fn (IN) A transform function to call for each String * @param collector_fn (IN) A collector which is called for the result * of each `string_fn` * @param has_exception (OUT) will be set to JNI_TRUE * if an ArrayIndexOutOfBoundsException or OutOfMemoryError * exception occurs */ template static void byteStrings(JNIEnv* env, jobjectArray jbyte_strings, std::function string_fn, std::function collector_fn, jboolean *has_exception) { const jsize jlen = env->GetArrayLength(jbyte_strings); for(jsize i = 0; i < jlen; i++) { jobject jbyte_string_obj = env->GetObjectArrayElement(jbyte_strings, i); if(env->ExceptionCheck()) { // exception thrown: ArrayIndexOutOfBoundsException *has_exception = JNI_TRUE; // signal error return; } jbyteArray jbyte_string_ary = reinterpret_cast(jbyte_string_obj); T result = byteString(env, jbyte_string_ary, string_fn, has_exception); env->DeleteLocalRef(jbyte_string_obj); if(*has_exception == JNI_TRUE) { // exception thrown: OutOfMemoryError return; } collector_fn(i, result); } *has_exception = JNI_FALSE; } /** * Given a Java String which is expressed as a Java Byte Array byte[], * the passed function `string_fn` will be called on the String * and the result returned * * @param env (IN) A pointer to the java environment * @param jbyte_string_ary (IN) A Java String expressed in bytes * @param string_fn (IN) A transform function to call on the String * @param has_exception (OUT) will be set to JNI_TRUE * if an OutOfMemoryError exception occurs */ template static T byteString(JNIEnv* env, jbyteArray jbyte_string_ary, std::function string_fn, jboolean* has_exception) { const jsize jbyte_string_len = env->GetArrayLength(jbyte_string_ary); return byteString(env, jbyte_string_ary, jbyte_string_len, string_fn, has_exception); } /** * Given a Java String which is expressed as a Java Byte Array byte[], * the passed function `string_fn` will be called on the String * and the result returned * * @param env (IN) A pointer to the java environment * @param jbyte_string_ary (IN) A Java String expressed in bytes * @param jbyte_string_len (IN) The length of the Java String * expressed in bytes * @param string_fn (IN) A transform function to call on the String * @param has_exception (OUT) will be set to JNI_TRUE * if an OutOfMemoryError exception occurs */ template static T byteString(JNIEnv* env, jbyteArray jbyte_string_ary, const jsize jbyte_string_len, std::function string_fn, jboolean* has_exception) { jbyte* jbyte_string = env->GetByteArrayElements(jbyte_string_ary, nullptr); if(jbyte_string == nullptr) { // exception thrown: OutOfMemoryError *has_exception = JNI_TRUE; return nullptr; // signal error } T result = string_fn(reinterpret_cast(jbyte_string), jbyte_string_len); env->ReleaseByteArrayElements(jbyte_string_ary, jbyte_string, JNI_ABORT); *has_exception = JNI_FALSE; return result; } /** * Converts a std::vector to a Java byte[][] where each Java String * is expressed as a Java Byte Array byte[]. * * @param env A pointer to the java environment * @param strings A vector of Strings * * @return A Java array of Strings expressed as bytes */ static jobjectArray stringsBytes(JNIEnv* env, std::vector strings) { jclass jcls_ba = ByteJni::getArrayJClass(env); if(jcls_ba == nullptr) { // exception occurred return nullptr; } const jsize len = static_cast(strings.size()); jobjectArray jbyte_strings = env->NewObjectArray(len, jcls_ba, nullptr); if(jbyte_strings == nullptr) { // exception thrown: OutOfMemoryError return nullptr; } for (jsize i = 0; i < len; i++) { std::string *str = &strings[i]; const jsize str_len = static_cast(str->size()); jbyteArray jbyte_string_ary = env->NewByteArray(str_len); if(jbyte_string_ary == nullptr) { // exception thrown: OutOfMemoryError env->DeleteLocalRef(jbyte_strings); return nullptr; } env->SetByteArrayRegion( jbyte_string_ary, 0, str_len, const_cast(reinterpret_cast(str->c_str()))); if(env->ExceptionCheck()) { // exception thrown: ArrayIndexOutOfBoundsException env->DeleteLocalRef(jbyte_string_ary); env->DeleteLocalRef(jbyte_strings); return nullptr; } env->SetObjectArrayElement(jbyte_strings, i, jbyte_string_ary); if(env->ExceptionCheck()) { // exception thrown: ArrayIndexOutOfBoundsException // or ArrayStoreException env->DeleteLocalRef(jbyte_string_ary); env->DeleteLocalRef(jbyte_strings); return nullptr; } env->DeleteLocalRef(jbyte_string_ary); } return jbyte_strings; } /** * Copies bytes to a new jByteArray with the check of java array size limitation. * * @param bytes pointer to memory to copy to a new jByteArray * @param size number of bytes to copy * * @return the Java byte[] or nullptr if an exception occurs * * @throws RocksDBException thrown * if memory size to copy exceeds general java array size limitation to avoid overflow. */ static jbyteArray createJavaByteArrayWithSizeCheck(JNIEnv* env, const char* bytes, const size_t size) { // Limitation for java array size is vm specific // In general it cannot exceed Integer.MAX_VALUE (2^31 - 1) // Current HotSpot VM limitation for array size is Integer.MAX_VALUE - 5 (2^31 - 1 - 5) // It means that the next call to env->NewByteArray can still end with // OutOfMemoryError("Requested array size exceeds VM limit") coming from VM static const size_t MAX_JARRAY_SIZE = (static_cast(1)) << 31; if(size > MAX_JARRAY_SIZE) { rocksdb::RocksDBExceptionJni::ThrowNew(env, "Requested array size exceeds VM limit"); return nullptr; } const jsize jlen = static_cast(size); jbyteArray jbytes = env->NewByteArray(jlen); if(jbytes == nullptr) { // exception thrown: OutOfMemoryError return nullptr; } env->SetByteArrayRegion(jbytes, 0, jlen, const_cast(reinterpret_cast(bytes))); if(env->ExceptionCheck()) { // exception thrown: ArrayIndexOutOfBoundsException env->DeleteLocalRef(jbytes); return nullptr; } return jbytes; } /** * Copies bytes from a rocksdb::Slice to a jByteArray * * @param env A pointer to the java environment * @param bytes The bytes to copy * * @return the Java byte[] or nullptr if an exception occurs * * @throws RocksDBException thrown * if memory size to copy exceeds general java specific array size limitation. */ static jbyteArray copyBytes(JNIEnv* env, const Slice& bytes) { return createJavaByteArrayWithSizeCheck(env, bytes.data(), bytes.size()); } /* * Helper for operations on a key and value * for example WriteBatch->Put * * TODO(AR) could be used for RocksDB->Put etc. */ static std::unique_ptr kv_op( std::function op, JNIEnv* env, jobject /*jobj*/, jbyteArray jkey, jint jkey_len, jbyteArray jvalue, jint jvalue_len) { jbyte* key = env->GetByteArrayElements(jkey, nullptr); if(env->ExceptionCheck()) { // exception thrown: OutOfMemoryError return nullptr; } jbyte* value = env->GetByteArrayElements(jvalue, nullptr); if(env->ExceptionCheck()) { // exception thrown: OutOfMemoryError if(key != nullptr) { env->ReleaseByteArrayElements(jkey, key, JNI_ABORT); } return nullptr; } rocksdb::Slice key_slice(reinterpret_cast(key), jkey_len); rocksdb::Slice value_slice(reinterpret_cast(value), jvalue_len); auto status = op(key_slice, value_slice); if(value != nullptr) { env->ReleaseByteArrayElements(jvalue, value, JNI_ABORT); } if(key != nullptr) { env->ReleaseByteArrayElements(jkey, key, JNI_ABORT); } return std::unique_ptr(new rocksdb::Status(status)); } /* * Helper for operations on a key * for example WriteBatch->Delete * * TODO(AR) could be used for RocksDB->Delete etc. */ static std::unique_ptr k_op( std::function op, JNIEnv* env, jobject /*jobj*/, jbyteArray jkey, jint jkey_len) { jbyte* key = env->GetByteArrayElements(jkey, nullptr); if(env->ExceptionCheck()) { // exception thrown: OutOfMemoryError return nullptr; } rocksdb::Slice key_slice(reinterpret_cast(key), jkey_len); auto status = op(key_slice); if(key != nullptr) { env->ReleaseByteArrayElements(jkey, key, JNI_ABORT); } return std::unique_ptr(new rocksdb::Status(status)); } /* * Helper for operations on a value * for example WriteBatchWithIndex->GetFromBatch */ static jbyteArray v_op( std::function op, JNIEnv* env, jbyteArray jkey, jint jkey_len) { jbyte* key = env->GetByteArrayElements(jkey, nullptr); if(env->ExceptionCheck()) { // exception thrown: OutOfMemoryError return nullptr; } rocksdb::Slice key_slice(reinterpret_cast(key), jkey_len); std::string value; rocksdb::Status s = op(key_slice, &value); if(key != nullptr) { env->ReleaseByteArrayElements(jkey, key, JNI_ABORT); } if (s.IsNotFound()) { return nullptr; } if (s.ok()) { jbyteArray jret_value = env->NewByteArray(static_cast(value.size())); if(jret_value == nullptr) { // exception thrown: OutOfMemoryError return nullptr; } env->SetByteArrayRegion(jret_value, 0, static_cast(value.size()), const_cast(reinterpret_cast(value.c_str()))); if(env->ExceptionCheck()) { // exception thrown: ArrayIndexOutOfBoundsException if(jret_value != nullptr) { env->DeleteLocalRef(jret_value); } return nullptr; } return jret_value; } rocksdb::RocksDBExceptionJni::ThrowNew(env, s); return nullptr; } }; class ColumnFamilyDescriptorJni : public JavaClass { public: /** * Get the Java Class org.rocksdb.ColumnFamilyDescriptor * * @param env A pointer to the Java environment * * @return The Java Class or nullptr if one of the * ClassFormatError, ClassCircularityError, NoClassDefFoundError, * OutOfMemoryError or ExceptionInInitializerError exceptions is thrown */ static jclass getJClass(JNIEnv* env) { return JavaClass::getJClass(env, "org/rocksdb/ColumnFamilyDescriptor"); } /** * Create a new Java org.rocksdb.ColumnFamilyDescriptor object with the same * properties as the provided C++ rocksdb::ColumnFamilyDescriptor object * * @param env A pointer to the Java environment * @param cfd A pointer to rocksdb::ColumnFamilyDescriptor object * * @return A reference to a Java org.rocksdb.ColumnFamilyDescriptor object, or * nullptr if an an exception occurs */ static jobject construct(JNIEnv* env, ColumnFamilyDescriptor* cfd) { jbyteArray jcf_name = JniUtil::copyBytes(env, cfd->name); jobject cfopts = ColumnFamilyOptionsJni::construct(env, &(cfd->options)); jclass jclazz = getJClass(env); if (jclazz == nullptr) { // exception occurred accessing class return nullptr; } jmethodID mid = env->GetMethodID(jclazz, "", "([BLorg/rocksdb/ColumnFamilyOptions;)V"); if (mid == nullptr) { // exception thrown: NoSuchMethodException or OutOfMemoryError env->DeleteLocalRef(jcf_name); return nullptr; } jobject jcfd = env->NewObject(jclazz, mid, jcf_name, cfopts); if (env->ExceptionCheck()) { env->DeleteLocalRef(jcf_name); return nullptr; } return jcfd; } /** * Get the Java Method: ColumnFamilyDescriptor#columnFamilyName * * @param env A pointer to the Java environment * * @return The Java Method ID or nullptr if the class or method id could not * be retieved */ static jmethodID getColumnFamilyNameMethod(JNIEnv* env) { jclass jclazz = getJClass(env); if (jclazz == nullptr) { // exception occurred accessing class return nullptr; } static jmethodID mid = env->GetMethodID(jclazz, "columnFamilyName", "()[B"); assert(mid != nullptr); return mid; } /** * Get the Java Method: ColumnFamilyDescriptor#columnFamilyOptions * * @param env A pointer to the Java environment * * @return The Java Method ID or nullptr if the class or method id could not * be retieved */ static jmethodID getColumnFamilyOptionsMethod(JNIEnv* env) { jclass jclazz = getJClass(env); if (jclazz == nullptr) { // exception occurred accessing class return nullptr; } static jmethodID mid = env->GetMethodID( jclazz, "columnFamilyOptions", "()Lorg/rocksdb/ColumnFamilyOptions;"); assert(mid != nullptr); return mid; } }; class MapJni : public JavaClass { public: /** * Get the Java Class java.util.Map * * @param env A pointer to the Java environment * * @return The Java Class or nullptr if one of the * ClassFormatError, ClassCircularityError, NoClassDefFoundError, * OutOfMemoryError or ExceptionInInitializerError exceptions is thrown */ static jclass getClass(JNIEnv* env) { return JavaClass::getJClass(env, "java/util/Map"); } /** * Get the Java Method: Map#put * * @param env A pointer to the Java environment * * @return The Java Method ID or nullptr if the class or method id could not * be retieved */ static jmethodID getMapPutMethodId(JNIEnv* env) { jclass jlist_clazz = getClass(env); if(jlist_clazz == nullptr) { // exception occurred accessing class return nullptr; } static jmethodID mid = env->GetMethodID(jlist_clazz, "put", "(Ljava/lang/Object;Ljava/lang/Object;)Ljava/lang/Object;"); assert(mid != nullptr); return mid; } }; class HashMapJni : public JavaClass { public: /** * Get the Java Class java.util.HashMap * * @param env A pointer to the Java environment * * @return The Java Class or nullptr if one of the * ClassFormatError, ClassCircularityError, NoClassDefFoundError, * OutOfMemoryError or ExceptionInInitializerError exceptions is thrown */ static jclass getJClass(JNIEnv* env) { return JavaClass::getJClass(env, "java/util/HashMap"); } /** * Create a new Java java.util.HashMap object. * * @param env A pointer to the Java environment * * @return A reference to a Java java.util.HashMap object, or * nullptr if an an exception occurs */ static jobject construct(JNIEnv* env, const uint32_t initial_capacity = 16) { jclass jclazz = getJClass(env); if (jclazz == nullptr) { // exception occurred accessing class return nullptr; } jmethodID mid = env->GetMethodID(jclazz, "", "(I)V"); if (mid == nullptr) { // exception thrown: NoSuchMethodException or OutOfMemoryError return nullptr; } jobject jhash_map = env->NewObject(jclazz, mid, static_cast(initial_capacity)); if (env->ExceptionCheck()) { return nullptr; } return jhash_map; } /** * A function which maps a std::pair to a std::pair * * @return Either a pointer to a std::pair, or nullptr * if an error occurs during the mapping */ template using FnMapKV = std::function> (const std::pair&)>; // template ::value_type, std::pair>::value, int32_t>::type = 0> // static void putAll(JNIEnv* env, const jobject jhash_map, I iterator, const FnMapKV &fn_map_kv) { /** * Returns true if it succeeds, false if an error occurs */ template static bool putAll(JNIEnv* env, const jobject jhash_map, iterator_type iterator, iterator_type end, const FnMapKV &fn_map_kv) { const jmethodID jmid_put = rocksdb::MapJni::getMapPutMethodId(env); if (jmid_put == nullptr) { return false; } for (auto it = iterator; it != end; ++it) { const std::unique_ptr> result = fn_map_kv(*it); if (result == nullptr) { // an error occurred during fn_map_kv return false; } env->CallObjectMethod(jhash_map, jmid_put, result->first, result->second); if (env->ExceptionCheck()) { // exception occurred env->DeleteLocalRef(result->second); env->DeleteLocalRef(result->first); return false; } // release local references env->DeleteLocalRef(result->second); env->DeleteLocalRef(result->first); } return true; } }; class LongJni : public JavaClass { public: /** * Get the Java Class java.lang.Long * * @param env A pointer to the Java environment * * @return The Java Class or nullptr if one of the * ClassFormatError, ClassCircularityError, NoClassDefFoundError, * OutOfMemoryError or ExceptionInInitializerError exceptions is thrown */ static jclass getJClass(JNIEnv* env) { return JavaClass::getJClass(env, "java/lang/Long"); } static jobject valueOf(JNIEnv* env, jlong jprimitive_long) { jclass jclazz = getJClass(env); if (jclazz == nullptr) { // exception occurred accessing class return nullptr; } jmethodID mid = env->GetStaticMethodID(jclazz, "valueOf", "(J)Ljava/lang/Long;"); if (mid == nullptr) { // exception thrown: NoSuchMethodException or OutOfMemoryError return nullptr; } const jobject jlong_obj = env->CallStaticObjectMethod(jclazz, mid, jprimitive_long); if (env->ExceptionCheck()) { // exception occurred return nullptr; } return jlong_obj; } }; } // namespace rocksdb #endif // JAVA_ROCKSJNI_PORTAL_H_ rocksdb-5.17.2/java/rocksjni/ratelimiterjni.cc000066400000000000000000000102611337235545400213440ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file implements the "bridge" between Java and C++ for RateLimiter. #include "include/org_rocksdb_RateLimiter.h" #include "rocksdb/rate_limiter.h" #include "rocksjni/portal.h" /* * Class: org_rocksdb_RateLimiter * Method: newRateLimiterHandle * Signature: (JJIBZ)J */ jlong Java_org_rocksdb_RateLimiter_newRateLimiterHandle( JNIEnv* /*env*/, jclass /*jclazz*/, jlong jrate_bytes_per_second, jlong jrefill_period_micros, jint jfairness, jbyte jrate_limiter_mode, jboolean jauto_tune) { auto rate_limiter_mode = rocksdb::RateLimiterModeJni::toCppRateLimiterMode(jrate_limiter_mode); auto* sptr_rate_limiter = new std::shared_ptr(rocksdb::NewGenericRateLimiter( static_cast(jrate_bytes_per_second), static_cast(jrefill_period_micros), static_cast(jfairness), rate_limiter_mode, jauto_tune)); return reinterpret_cast(sptr_rate_limiter); } /* * Class: org_rocksdb_RateLimiter * Method: disposeInternal * Signature: (J)V */ void Java_org_rocksdb_RateLimiter_disposeInternal(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* handle = reinterpret_cast*>(jhandle); delete handle; // delete std::shared_ptr } /* * Class: org_rocksdb_RateLimiter * Method: setBytesPerSecond * Signature: (JJ)V */ void Java_org_rocksdb_RateLimiter_setBytesPerSecond(JNIEnv* /*env*/, jobject /*jobj*/, jlong handle, jlong jbytes_per_second) { reinterpret_cast*>(handle) ->get() ->SetBytesPerSecond(jbytes_per_second); } /* * Class: org_rocksdb_RateLimiter * Method: getBytesPerSecond * Signature: (J)J */ jlong Java_org_rocksdb_RateLimiter_getBytesPerSecond(JNIEnv* /*env*/, jobject /*jobj*/, jlong handle) { return reinterpret_cast*>(handle) ->get() ->GetBytesPerSecond(); } /* * Class: org_rocksdb_RateLimiter * Method: request * Signature: (JJ)V */ void Java_org_rocksdb_RateLimiter_request(JNIEnv* /*env*/, jobject /*jobj*/, jlong handle, jlong jbytes) { reinterpret_cast*>(handle) ->get() ->Request(jbytes, rocksdb::Env::IO_TOTAL); } /* * Class: org_rocksdb_RateLimiter * Method: getSingleBurstBytes * Signature: (J)J */ jlong Java_org_rocksdb_RateLimiter_getSingleBurstBytes(JNIEnv* /*env*/, jobject /*jobj*/, jlong handle) { return reinterpret_cast*>(handle) ->get() ->GetSingleBurstBytes(); } /* * Class: org_rocksdb_RateLimiter * Method: getTotalBytesThrough * Signature: (J)J */ jlong Java_org_rocksdb_RateLimiter_getTotalBytesThrough(JNIEnv* /*env*/, jobject /*jobj*/, jlong handle) { return reinterpret_cast*>(handle) ->get() ->GetTotalBytesThrough(); } /* * Class: org_rocksdb_RateLimiter * Method: getTotalRequests * Signature: (J)J */ jlong Java_org_rocksdb_RateLimiter_getTotalRequests(JNIEnv* /*env*/, jobject /*jobj*/, jlong handle) { return reinterpret_cast*>(handle) ->get() ->GetTotalRequests(); } rocksdb-5.17.2/java/rocksjni/remove_emptyvalue_compactionfilterjni.cc000066400000000000000000000016011337235545400262130ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include #include "include/org_rocksdb_RemoveEmptyValueCompactionFilter.h" #include "utilities/compaction_filters/remove_emptyvalue_compactionfilter.h" /* * Class: org_rocksdb_RemoveEmptyValueCompactionFilter * Method: createNewRemoveEmptyValueCompactionFilter0 * Signature: ()J */ jlong Java_org_rocksdb_RemoveEmptyValueCompactionFilter_createNewRemoveEmptyValueCompactionFilter0( JNIEnv* /*env*/, jclass /*jcls*/) { auto* compaction_filter = new rocksdb::RemoveEmptyValueCompactionFilter(); // set the native handle to our native compaction filter return reinterpret_cast(compaction_filter); } rocksdb-5.17.2/java/rocksjni/restorejni.cc000066400000000000000000000024631337235545400205130ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file implements the "bridge" between Java and C++ and enables // calling C++ rocksdb::RestoreOptions methods // from Java side. #include #include #include #include #include "include/org_rocksdb_RestoreOptions.h" #include "rocksdb/utilities/backupable_db.h" #include "rocksjni/portal.h" /* * Class: org_rocksdb_RestoreOptions * Method: newRestoreOptions * Signature: (Z)J */ jlong Java_org_rocksdb_RestoreOptions_newRestoreOptions( JNIEnv* /*env*/, jclass /*jcls*/, jboolean keep_log_files) { auto* ropt = new rocksdb::RestoreOptions(keep_log_files); return reinterpret_cast(ropt); } /* * Class: org_rocksdb_RestoreOptions * Method: disposeInternal * Signature: (J)V */ void Java_org_rocksdb_RestoreOptions_disposeInternal(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* ropt = reinterpret_cast(jhandle); assert(ropt); delete ropt; } rocksdb-5.17.2/java/rocksjni/rocks_callback_object.cc000066400000000000000000000025001337235545400226020ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file implements the "bridge" between Java and C++ for // JNI Callbacks from C++ to sub-classes or org.rocksdb.RocksCallbackObject #include #include "include/org_rocksdb_RocksCallbackObject.h" #include "jnicallback.h" /* * Class: org_rocksdb_RocksCallbackObject * Method: disposeInternal * Signature: (J)V */ void Java_org_rocksdb_RocksCallbackObject_disposeInternal(JNIEnv* /*env*/, jobject /*jobj*/, jlong handle) { // TODO(AR) is deleting from the super class JniCallback OK, or must we delete // the subclass? Example hierarchies: // 1) Comparator -> BaseComparatorJniCallback + JniCallback -> // DirectComparatorJniCallback 2) Comparator -> BaseComparatorJniCallback + // JniCallback -> ComparatorJniCallback // I think this is okay, as Comparator and JniCallback both have virtual // destructors... delete reinterpret_cast(handle); // @lint-ignore TXT4 T25377293 Grandfathered in }rocksdb-5.17.2/java/rocksjni/rocksdb_exception_test.cc000066400000000000000000000050571337235545400230750ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include #include "include/org_rocksdb_RocksDBExceptionTest.h" #include "rocksdb/slice.h" #include "rocksdb/status.h" #include "rocksjni/portal.h" /* * Class: org_rocksdb_RocksDBExceptionTest * Method: raiseException * Signature: ()V */ void Java_org_rocksdb_RocksDBExceptionTest_raiseException(JNIEnv* env, jobject /*jobj*/) { rocksdb::RocksDBExceptionJni::ThrowNew(env, std::string("test message")); } /* * Class: org_rocksdb_RocksDBExceptionTest * Method: raiseExceptionWithStatusCode * Signature: ()V */ void Java_org_rocksdb_RocksDBExceptionTest_raiseExceptionWithStatusCode( JNIEnv* env, jobject /*jobj*/) { rocksdb::RocksDBExceptionJni::ThrowNew(env, "test message", rocksdb::Status::NotSupported()); } /* * Class: org_rocksdb_RocksDBExceptionTest * Method: raiseExceptionNoMsgWithStatusCode * Signature: ()V */ void Java_org_rocksdb_RocksDBExceptionTest_raiseExceptionNoMsgWithStatusCode( JNIEnv* env, jobject /*jobj*/) { rocksdb::RocksDBExceptionJni::ThrowNew(env, rocksdb::Status::NotSupported()); } /* * Class: org_rocksdb_RocksDBExceptionTest * Method: raiseExceptionWithStatusCodeSubCode * Signature: ()V */ void Java_org_rocksdb_RocksDBExceptionTest_raiseExceptionWithStatusCodeSubCode( JNIEnv* env, jobject /*jobj*/) { rocksdb::RocksDBExceptionJni::ThrowNew( env, "test message", rocksdb::Status::TimedOut(rocksdb::Status::SubCode::kLockTimeout)); } /* * Class: org_rocksdb_RocksDBExceptionTest * Method: raiseExceptionNoMsgWithStatusCodeSubCode * Signature: ()V */ void Java_org_rocksdb_RocksDBExceptionTest_raiseExceptionNoMsgWithStatusCodeSubCode( JNIEnv* env, jobject /*jobj*/) { rocksdb::RocksDBExceptionJni::ThrowNew( env, rocksdb::Status::TimedOut(rocksdb::Status::SubCode::kLockTimeout)); } /* * Class: org_rocksdb_RocksDBExceptionTest * Method: raiseExceptionWithStatusCodeState * Signature: ()V */ void Java_org_rocksdb_RocksDBExceptionTest_raiseExceptionWithStatusCodeState( JNIEnv* env, jobject /*jobj*/) { rocksdb::Slice state("test state"); rocksdb::RocksDBExceptionJni::ThrowNew(env, "test message", rocksdb::Status::NotSupported(state)); } rocksdb-5.17.2/java/rocksjni/rocksjni.cc000066400000000000000000002420601337235545400201500ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file implements the "bridge" between Java and C++ and enables // calling c++ rocksdb::DB methods from Java side. #include #include #include #include #include #include #include #include #include #include "include/org_rocksdb_RocksDB.h" #include "rocksdb/cache.h" #include "rocksdb/db.h" #include "rocksdb/options.h" #include "rocksdb/types.h" #include "rocksjni/portal.h" #ifdef min #undef min #endif ////////////////////////////////////////////////////////////////////////////// // rocksdb::DB::Open jlong rocksdb_open_helper( JNIEnv* env, jlong jopt_handle, jstring jdb_path, std::function open_fn) { const char* db_path = env->GetStringUTFChars(jdb_path, nullptr); if (db_path == nullptr) { // exception thrown: OutOfMemoryError return 0; } auto* opt = reinterpret_cast(jopt_handle); rocksdb::DB* db = nullptr; rocksdb::Status s = open_fn(*opt, db_path, &db); env->ReleaseStringUTFChars(jdb_path, db_path); if (s.ok()) { return reinterpret_cast(db); } else { rocksdb::RocksDBExceptionJni::ThrowNew(env, s); return 0; } } /* * Class: org_rocksdb_RocksDB * Method: open * Signature: (JLjava/lang/String;)J */ jlong Java_org_rocksdb_RocksDB_open__JLjava_lang_String_2(JNIEnv* env, jclass /*jcls*/, jlong jopt_handle, jstring jdb_path) { return rocksdb_open_helper( env, jopt_handle, jdb_path, (rocksdb::Status(*)(const rocksdb::Options&, const std::string&, rocksdb::DB**)) & rocksdb::DB::Open); } /* * Class: org_rocksdb_RocksDB * Method: openROnly * Signature: (JLjava/lang/String;)J */ jlong Java_org_rocksdb_RocksDB_openROnly__JLjava_lang_String_2( JNIEnv* env, jclass /*jcls*/, jlong jopt_handle, jstring jdb_path) { return rocksdb_open_helper(env, jopt_handle, jdb_path, [](const rocksdb::Options& options, const std::string& db_path, rocksdb::DB** db) { return rocksdb::DB::OpenForReadOnly(options, db_path, db); }); } jlongArray rocksdb_open_helper( JNIEnv* env, jlong jopt_handle, jstring jdb_path, jobjectArray jcolumn_names, jlongArray jcolumn_options, std::function&, std::vector*, rocksdb::DB**)> open_fn) { const char* db_path = env->GetStringUTFChars(jdb_path, nullptr); if (db_path == nullptr) { // exception thrown: OutOfMemoryError return nullptr; } const jsize len_cols = env->GetArrayLength(jcolumn_names); jlong* jco = env->GetLongArrayElements(jcolumn_options, nullptr); if (jco == nullptr) { // exception thrown: OutOfMemoryError env->ReleaseStringUTFChars(jdb_path, db_path); return nullptr; } std::vector column_families; jboolean has_exception = JNI_FALSE; rocksdb::JniUtil::byteStrings( env, jcolumn_names, [](const char* str_data, const size_t str_len) { return std::string(str_data, str_len); }, [&jco, &column_families](size_t idx, std::string cf_name) { rocksdb::ColumnFamilyOptions* cf_options = reinterpret_cast(jco[idx]); column_families.push_back( rocksdb::ColumnFamilyDescriptor(cf_name, *cf_options)); }, &has_exception); env->ReleaseLongArrayElements(jcolumn_options, jco, JNI_ABORT); if (has_exception == JNI_TRUE) { // exception occurred env->ReleaseStringUTFChars(jdb_path, db_path); return nullptr; } auto* opt = reinterpret_cast(jopt_handle); std::vector handles; rocksdb::DB* db = nullptr; rocksdb::Status s = open_fn(*opt, db_path, column_families, &handles, &db); // we have now finished with db_path env->ReleaseStringUTFChars(jdb_path, db_path); // check if open operation was successful if (s.ok()) { const jsize resultsLen = 1 + len_cols; // db handle + column family handles std::unique_ptr results = std::unique_ptr(new jlong[resultsLen]); results[0] = reinterpret_cast(db); for (int i = 1; i <= len_cols; i++) { results[i] = reinterpret_cast(handles[i - 1]); } jlongArray jresults = env->NewLongArray(resultsLen); if (jresults == nullptr) { // exception thrown: OutOfMemoryError return nullptr; } env->SetLongArrayRegion(jresults, 0, resultsLen, results.get()); if (env->ExceptionCheck()) { // exception thrown: ArrayIndexOutOfBoundsException env->DeleteLocalRef(jresults); return nullptr; } return jresults; } else { rocksdb::RocksDBExceptionJni::ThrowNew(env, s); return nullptr; } } /* * Class: org_rocksdb_RocksDB * Method: openROnly * Signature: (JLjava/lang/String;[[B[J)[J */ jlongArray Java_org_rocksdb_RocksDB_openROnly__JLjava_lang_String_2_3_3B_3J( JNIEnv* env, jclass /*jcls*/, jlong jopt_handle, jstring jdb_path, jobjectArray jcolumn_names, jlongArray jcolumn_options) { return rocksdb_open_helper( env, jopt_handle, jdb_path, jcolumn_names, jcolumn_options, [](const rocksdb::DBOptions& options, const std::string& db_path, const std::vector& column_families, std::vector* handles, rocksdb::DB** db) { return rocksdb::DB::OpenForReadOnly(options, db_path, column_families, handles, db); }); } /* * Class: org_rocksdb_RocksDB * Method: open * Signature: (JLjava/lang/String;[[B[J)[J */ jlongArray Java_org_rocksdb_RocksDB_open__JLjava_lang_String_2_3_3B_3J( JNIEnv* env, jclass /*jcls*/, jlong jopt_handle, jstring jdb_path, jobjectArray jcolumn_names, jlongArray jcolumn_options) { return rocksdb_open_helper( env, jopt_handle, jdb_path, jcolumn_names, jcolumn_options, (rocksdb::Status(*)(const rocksdb::DBOptions&, const std::string&, const std::vector&, std::vector*, rocksdb::DB**)) & rocksdb::DB::Open); } ////////////////////////////////////////////////////////////////////////////// // rocksdb::DB::ListColumnFamilies /* * Class: org_rocksdb_RocksDB * Method: listColumnFamilies * Signature: (JLjava/lang/String;)[[B */ jobjectArray Java_org_rocksdb_RocksDB_listColumnFamilies(JNIEnv* env, jclass /*jclazz*/, jlong jopt_handle, jstring jdb_path) { std::vector column_family_names; const char* db_path = env->GetStringUTFChars(jdb_path, nullptr); if (db_path == nullptr) { // exception thrown: OutOfMemoryError return nullptr; } auto* opt = reinterpret_cast(jopt_handle); rocksdb::Status s = rocksdb::DB::ListColumnFamilies(*opt, db_path, &column_family_names); env->ReleaseStringUTFChars(jdb_path, db_path); jobjectArray jcolumn_family_names = rocksdb::JniUtil::stringsBytes(env, column_family_names); return jcolumn_family_names; } ////////////////////////////////////////////////////////////////////////////// // rocksdb::DB::Put /** * @return true if the put succeeded, false if a Java Exception was thrown */ bool rocksdb_put_helper(JNIEnv* env, rocksdb::DB* db, const rocksdb::WriteOptions& write_options, rocksdb::ColumnFamilyHandle* cf_handle, jbyteArray jkey, jint jkey_off, jint jkey_len, jbyteArray jval, jint jval_off, jint jval_len) { jbyte* key = new jbyte[jkey_len]; env->GetByteArrayRegion(jkey, jkey_off, jkey_len, key); if (env->ExceptionCheck()) { // exception thrown: ArrayIndexOutOfBoundsException delete[] key; return false; } jbyte* value = new jbyte[jval_len]; env->GetByteArrayRegion(jval, jval_off, jval_len, value); if (env->ExceptionCheck()) { // exception thrown: ArrayIndexOutOfBoundsException delete[] value; delete[] key; return false; } rocksdb::Slice key_slice(reinterpret_cast(key), jkey_len); rocksdb::Slice value_slice(reinterpret_cast(value), jval_len); rocksdb::Status s; if (cf_handle != nullptr) { s = db->Put(write_options, cf_handle, key_slice, value_slice); } else { // backwards compatibility s = db->Put(write_options, key_slice, value_slice); } // cleanup delete[] value; delete[] key; if (s.ok()) { return true; } else { rocksdb::RocksDBExceptionJni::ThrowNew(env, s); return false; } } /* * Class: org_rocksdb_RocksDB * Method: put * Signature: (J[BII[BII)V */ void Java_org_rocksdb_RocksDB_put__J_3BII_3BII(JNIEnv* env, jobject /*jdb*/, jlong jdb_handle, jbyteArray jkey, jint jkey_off, jint jkey_len, jbyteArray jval, jint jval_off, jint jval_len) { auto* db = reinterpret_cast(jdb_handle); static const rocksdb::WriteOptions default_write_options = rocksdb::WriteOptions(); rocksdb_put_helper(env, db, default_write_options, nullptr, jkey, jkey_off, jkey_len, jval, jval_off, jval_len); } /* * Class: org_rocksdb_RocksDB * Method: put * Signature: (J[BII[BIIJ)V */ void Java_org_rocksdb_RocksDB_put__J_3BII_3BIIJ(JNIEnv* env, jobject /*jdb*/, jlong jdb_handle, jbyteArray jkey, jint jkey_off, jint jkey_len, jbyteArray jval, jint jval_off, jint jval_len, jlong jcf_handle) { auto* db = reinterpret_cast(jdb_handle); static const rocksdb::WriteOptions default_write_options = rocksdb::WriteOptions(); auto* cf_handle = reinterpret_cast(jcf_handle); if (cf_handle != nullptr) { rocksdb_put_helper(env, db, default_write_options, cf_handle, jkey, jkey_off, jkey_len, jval, jval_off, jval_len); } else { rocksdb::RocksDBExceptionJni::ThrowNew( env, rocksdb::Status::InvalidArgument("Invalid ColumnFamilyHandle.")); } } /* * Class: org_rocksdb_RocksDB * Method: put * Signature: (JJ[BII[BII)V */ void Java_org_rocksdb_RocksDB_put__JJ_3BII_3BII(JNIEnv* env, jobject /*jdb*/, jlong jdb_handle, jlong jwrite_options_handle, jbyteArray jkey, jint jkey_off, jint jkey_len, jbyteArray jval, jint jval_off, jint jval_len) { auto* db = reinterpret_cast(jdb_handle); auto* write_options = reinterpret_cast(jwrite_options_handle); rocksdb_put_helper(env, db, *write_options, nullptr, jkey, jkey_off, jkey_len, jval, jval_off, jval_len); } /* * Class: org_rocksdb_RocksDB * Method: put * Signature: (JJ[BII[BIIJ)V */ void Java_org_rocksdb_RocksDB_put__JJ_3BII_3BIIJ( JNIEnv* env, jobject /*jdb*/, jlong jdb_handle, jlong jwrite_options_handle, jbyteArray jkey, jint jkey_off, jint jkey_len, jbyteArray jval, jint jval_off, jint jval_len, jlong jcf_handle) { auto* db = reinterpret_cast(jdb_handle); auto* write_options = reinterpret_cast(jwrite_options_handle); auto* cf_handle = reinterpret_cast(jcf_handle); if (cf_handle != nullptr) { rocksdb_put_helper(env, db, *write_options, cf_handle, jkey, jkey_off, jkey_len, jval, jval_off, jval_len); } else { rocksdb::RocksDBExceptionJni::ThrowNew( env, rocksdb::Status::InvalidArgument("Invalid ColumnFamilyHandle.")); } } ////////////////////////////////////////////////////////////////////////////// // rocksdb::DB::Write /* * Class: org_rocksdb_RocksDB * Method: write0 * Signature: (JJJ)V */ void Java_org_rocksdb_RocksDB_write0(JNIEnv* env, jobject /*jdb*/, jlong jdb_handle, jlong jwrite_options_handle, jlong jwb_handle) { auto* db = reinterpret_cast(jdb_handle); auto* write_options = reinterpret_cast(jwrite_options_handle); auto* wb = reinterpret_cast(jwb_handle); rocksdb::Status s = db->Write(*write_options, wb); if (!s.ok()) { rocksdb::RocksDBExceptionJni::ThrowNew(env, s); } } /* * Class: org_rocksdb_RocksDB * Method: write1 * Signature: (JJJ)V */ void Java_org_rocksdb_RocksDB_write1(JNIEnv* env, jobject /*jdb*/, jlong jdb_handle, jlong jwrite_options_handle, jlong jwbwi_handle) { auto* db = reinterpret_cast(jdb_handle); auto* write_options = reinterpret_cast(jwrite_options_handle); auto* wbwi = reinterpret_cast(jwbwi_handle); auto* wb = wbwi->GetWriteBatch(); rocksdb::Status s = db->Write(*write_options, wb); if (!s.ok()) { rocksdb::RocksDBExceptionJni::ThrowNew(env, s); } } ////////////////////////////////////////////////////////////////////////////// // rocksdb::DB::KeyMayExist jboolean key_may_exist_helper(JNIEnv* env, rocksdb::DB* db, const rocksdb::ReadOptions& read_opt, rocksdb::ColumnFamilyHandle* cf_handle, jbyteArray jkey, jint jkey_off, jint jkey_len, jobject jstring_builder, bool* has_exception) { jbyte* key = new jbyte[jkey_len]; env->GetByteArrayRegion(jkey, jkey_off, jkey_len, key); if (env->ExceptionCheck()) { // exception thrown: ArrayIndexOutOfBoundsException delete[] key; *has_exception = true; return false; } rocksdb::Slice key_slice(reinterpret_cast(key), jkey_len); std::string value; bool value_found = false; bool keyMayExist; if (cf_handle != nullptr) { keyMayExist = db->KeyMayExist(read_opt, cf_handle, key_slice, &value, &value_found); } else { keyMayExist = db->KeyMayExist(read_opt, key_slice, &value, &value_found); } // cleanup delete[] key; // extract the value if (value_found && !value.empty()) { jobject jresult_string_builder = rocksdb::StringBuilderJni::append(env, jstring_builder, value.c_str()); if (jresult_string_builder == nullptr) { *has_exception = true; return false; } } *has_exception = false; return static_cast(keyMayExist); } /* * Class: org_rocksdb_RocksDB * Method: keyMayExist * Signature: (J[BIILjava/lang/StringBuilder;)Z */ jboolean Java_org_rocksdb_RocksDB_keyMayExist__J_3BIILjava_lang_StringBuilder_2( JNIEnv* env, jobject /*jdb*/, jlong jdb_handle, jbyteArray jkey, jint jkey_off, jint jkey_len, jobject jstring_builder) { auto* db = reinterpret_cast(jdb_handle); bool has_exception = false; return key_may_exist_helper(env, db, rocksdb::ReadOptions(), nullptr, jkey, jkey_off, jkey_len, jstring_builder, &has_exception); } /* * Class: org_rocksdb_RocksDB * Method: keyMayExist * Signature: (J[BIIJLjava/lang/StringBuilder;)Z */ jboolean Java_org_rocksdb_RocksDB_keyMayExist__J_3BIIJLjava_lang_StringBuilder_2( JNIEnv* env, jobject /*jdb*/, jlong jdb_handle, jbyteArray jkey, jint jkey_off, jint jkey_len, jlong jcf_handle, jobject jstring_builder) { auto* db = reinterpret_cast(jdb_handle); auto* cf_handle = reinterpret_cast(jcf_handle); if (cf_handle != nullptr) { bool has_exception = false; return key_may_exist_helper(env, db, rocksdb::ReadOptions(), cf_handle, jkey, jkey_off, jkey_len, jstring_builder, &has_exception); } else { rocksdb::RocksDBExceptionJni::ThrowNew( env, rocksdb::Status::InvalidArgument("Invalid ColumnFamilyHandle.")); return true; } } /* * Class: org_rocksdb_RocksDB * Method: keyMayExist * Signature: (JJ[BIILjava/lang/StringBuilder;)Z */ jboolean Java_org_rocksdb_RocksDB_keyMayExist__JJ_3BIILjava_lang_StringBuilder_2( JNIEnv* env, jobject /*jdb*/, jlong jdb_handle, jlong jread_options_handle, jbyteArray jkey, jint jkey_off, jint jkey_len, jobject jstring_builder) { auto* db = reinterpret_cast(jdb_handle); auto& read_options = *reinterpret_cast(jread_options_handle); bool has_exception = false; return key_may_exist_helper(env, db, read_options, nullptr, jkey, jkey_off, jkey_len, jstring_builder, &has_exception); } /* * Class: org_rocksdb_RocksDB * Method: keyMayExist * Signature: (JJ[BIIJLjava/lang/StringBuilder;)Z */ jboolean Java_org_rocksdb_RocksDB_keyMayExist__JJ_3BIIJLjava_lang_StringBuilder_2( JNIEnv* env, jobject /*jdb*/, jlong jdb_handle, jlong jread_options_handle, jbyteArray jkey, jint jkey_off, jint jkey_len, jlong jcf_handle, jobject jstring_builder) { auto* db = reinterpret_cast(jdb_handle); auto& read_options = *reinterpret_cast(jread_options_handle); auto* cf_handle = reinterpret_cast(jcf_handle); if (cf_handle != nullptr) { bool has_exception = false; return key_may_exist_helper(env, db, read_options, cf_handle, jkey, jkey_off, jkey_len, jstring_builder, &has_exception); } else { rocksdb::RocksDBExceptionJni::ThrowNew( env, rocksdb::Status::InvalidArgument("Invalid ColumnFamilyHandle.")); return true; } } ////////////////////////////////////////////////////////////////////////////// // rocksdb::DB::Get jbyteArray rocksdb_get_helper(JNIEnv* env, rocksdb::DB* db, const rocksdb::ReadOptions& read_opt, rocksdb::ColumnFamilyHandle* column_family_handle, jbyteArray jkey, jint jkey_off, jint jkey_len) { jbyte* key = new jbyte[jkey_len]; env->GetByteArrayRegion(jkey, jkey_off, jkey_len, key); if (env->ExceptionCheck()) { // exception thrown: ArrayIndexOutOfBoundsException delete[] key; return nullptr; } rocksdb::Slice key_slice(reinterpret_cast(key), jkey_len); std::string value; rocksdb::Status s; if (column_family_handle != nullptr) { s = db->Get(read_opt, column_family_handle, key_slice, &value); } else { // backwards compatibility s = db->Get(read_opt, key_slice, &value); } // cleanup delete[] key; if (s.IsNotFound()) { return nullptr; } if (s.ok()) { jbyteArray jret_value = rocksdb::JniUtil::copyBytes(env, value); if (jret_value == nullptr) { // exception occurred return nullptr; } return jret_value; } rocksdb::RocksDBExceptionJni::ThrowNew(env, s); return nullptr; } /* * Class: org_rocksdb_RocksDB * Method: get * Signature: (J[BII)[B */ jbyteArray Java_org_rocksdb_RocksDB_get__J_3BII(JNIEnv* env, jobject /*jdb*/, jlong jdb_handle, jbyteArray jkey, jint jkey_off, jint jkey_len) { return rocksdb_get_helper(env, reinterpret_cast(jdb_handle), rocksdb::ReadOptions(), nullptr, jkey, jkey_off, jkey_len); } /* * Class: org_rocksdb_RocksDB * Method: get * Signature: (J[BIIJ)[B */ jbyteArray Java_org_rocksdb_RocksDB_get__J_3BIIJ(JNIEnv* env, jobject /*jdb*/, jlong jdb_handle, jbyteArray jkey, jint jkey_off, jint jkey_len, jlong jcf_handle) { auto db_handle = reinterpret_cast(jdb_handle); auto cf_handle = reinterpret_cast(jcf_handle); if (cf_handle != nullptr) { return rocksdb_get_helper(env, db_handle, rocksdb::ReadOptions(), cf_handle, jkey, jkey_off, jkey_len); } else { rocksdb::RocksDBExceptionJni::ThrowNew( env, rocksdb::Status::InvalidArgument("Invalid ColumnFamilyHandle.")); return nullptr; } } /* * Class: org_rocksdb_RocksDB * Method: get * Signature: (JJ[BII)[B */ jbyteArray Java_org_rocksdb_RocksDB_get__JJ_3BII(JNIEnv* env, jobject /*jdb*/, jlong jdb_handle, jlong jropt_handle, jbyteArray jkey, jint jkey_off, jint jkey_len) { return rocksdb_get_helper( env, reinterpret_cast(jdb_handle), *reinterpret_cast(jropt_handle), nullptr, jkey, jkey_off, jkey_len); } /* * Class: org_rocksdb_RocksDB * Method: get * Signature: (JJ[BIIJ)[B */ jbyteArray Java_org_rocksdb_RocksDB_get__JJ_3BIIJ( JNIEnv* env, jobject /*jdb*/, jlong jdb_handle, jlong jropt_handle, jbyteArray jkey, jint jkey_off, jint jkey_len, jlong jcf_handle) { auto* db_handle = reinterpret_cast(jdb_handle); auto& ro_opt = *reinterpret_cast(jropt_handle); auto* cf_handle = reinterpret_cast(jcf_handle); if (cf_handle != nullptr) { return rocksdb_get_helper(env, db_handle, ro_opt, cf_handle, jkey, jkey_off, jkey_len); } else { rocksdb::RocksDBExceptionJni::ThrowNew( env, rocksdb::Status::InvalidArgument("Invalid ColumnFamilyHandle.")); return nullptr; } } jint rocksdb_get_helper(JNIEnv* env, rocksdb::DB* db, const rocksdb::ReadOptions& read_options, rocksdb::ColumnFamilyHandle* column_family_handle, jbyteArray jkey, jint jkey_off, jint jkey_len, jbyteArray jval, jint jval_off, jint jval_len, bool* has_exception) { static const int kNotFound = -1; static const int kStatusError = -2; jbyte* key = new jbyte[jkey_len]; env->GetByteArrayRegion(jkey, jkey_off, jkey_len, key); if (env->ExceptionCheck()) { // exception thrown: OutOfMemoryError delete[] key; *has_exception = true; return kStatusError; } rocksdb::Slice key_slice(reinterpret_cast(key), jkey_len); // TODO(yhchiang): we might save one memory allocation here by adding // a DB::Get() function which takes preallocated jbyte* as input. std::string cvalue; rocksdb::Status s; if (column_family_handle != nullptr) { s = db->Get(read_options, column_family_handle, key_slice, &cvalue); } else { // backwards compatibility s = db->Get(read_options, key_slice, &cvalue); } // cleanup delete[] key; if (s.IsNotFound()) { *has_exception = false; return kNotFound; } else if (!s.ok()) { *has_exception = true; // Here since we are throwing a Java exception from c++ side. // As a result, c++ does not know calling this function will in fact // throwing an exception. As a result, the execution flow will // not stop here, and codes after this throw will still be // executed. rocksdb::RocksDBExceptionJni::ThrowNew(env, s); // Return a dummy const value to avoid compilation error, although // java side might not have a chance to get the return value :) return kStatusError; } const jint cvalue_len = static_cast(cvalue.size()); const jint length = std::min(jval_len, cvalue_len); env->SetByteArrayRegion( jval, jval_off, length, const_cast(reinterpret_cast(cvalue.c_str()))); if (env->ExceptionCheck()) { // exception thrown: OutOfMemoryError *has_exception = true; return kStatusError; } *has_exception = false; return cvalue_len; } inline void multi_get_helper_release_keys( JNIEnv* env, std::vector>& keys_to_free) { auto end = keys_to_free.end(); for (auto it = keys_to_free.begin(); it != end; ++it) { delete[] it->first; env->DeleteLocalRef(it->second); } keys_to_free.clear(); } /** * cf multi get * * @return byte[][] of values or nullptr if an exception occurs */ jobjectArray multi_get_helper(JNIEnv* env, jobject /*jdb*/, rocksdb::DB* db, const rocksdb::ReadOptions& rOpt, jobjectArray jkeys, jintArray jkey_offs, jintArray jkey_lens, jlongArray jcolumn_family_handles) { std::vector cf_handles; if (jcolumn_family_handles != nullptr) { const jsize len_cols = env->GetArrayLength(jcolumn_family_handles); jlong* jcfh = env->GetLongArrayElements(jcolumn_family_handles, nullptr); if (jcfh == nullptr) { // exception thrown: OutOfMemoryError return nullptr; } for (jsize i = 0; i < len_cols; i++) { auto* cf_handle = reinterpret_cast(jcfh[i]); cf_handles.push_back(cf_handle); } env->ReleaseLongArrayElements(jcolumn_family_handles, jcfh, JNI_ABORT); } const jsize len_keys = env->GetArrayLength(jkeys); if (env->EnsureLocalCapacity(len_keys) != 0) { // exception thrown: OutOfMemoryError return nullptr; } jint* jkey_off = env->GetIntArrayElements(jkey_offs, nullptr); if (jkey_off == nullptr) { // exception thrown: OutOfMemoryError return nullptr; } jint* jkey_len = env->GetIntArrayElements(jkey_lens, nullptr); if (jkey_len == nullptr) { // exception thrown: OutOfMemoryError env->ReleaseIntArrayElements(jkey_offs, jkey_off, JNI_ABORT); return nullptr; } std::vector keys; std::vector> keys_to_free; for (jsize i = 0; i < len_keys; i++) { jobject jkey = env->GetObjectArrayElement(jkeys, i); if (env->ExceptionCheck()) { // exception thrown: ArrayIndexOutOfBoundsException env->ReleaseIntArrayElements(jkey_lens, jkey_len, JNI_ABORT); env->ReleaseIntArrayElements(jkey_offs, jkey_off, JNI_ABORT); multi_get_helper_release_keys(env, keys_to_free); return nullptr; } jbyteArray jkey_ba = reinterpret_cast(jkey); const jint len_key = jkey_len[i]; jbyte* key = new jbyte[len_key]; env->GetByteArrayRegion(jkey_ba, jkey_off[i], len_key, key); if (env->ExceptionCheck()) { // exception thrown: ArrayIndexOutOfBoundsException delete[] key; env->DeleteLocalRef(jkey); env->ReleaseIntArrayElements(jkey_lens, jkey_len, JNI_ABORT); env->ReleaseIntArrayElements(jkey_offs, jkey_off, JNI_ABORT); multi_get_helper_release_keys(env, keys_to_free); return nullptr; } rocksdb::Slice key_slice(reinterpret_cast(key), len_key); keys.push_back(key_slice); keys_to_free.push_back(std::pair(key, jkey)); } // cleanup jkey_off and jken_len env->ReleaseIntArrayElements(jkey_lens, jkey_len, JNI_ABORT); env->ReleaseIntArrayElements(jkey_offs, jkey_off, JNI_ABORT); std::vector values; std::vector s; if (cf_handles.size() == 0) { s = db->MultiGet(rOpt, keys, &values); } else { s = db->MultiGet(rOpt, cf_handles, keys, &values); } // free up allocated byte arrays multi_get_helper_release_keys(env, keys_to_free); // prepare the results jobjectArray jresults = rocksdb::ByteJni::new2dByteArray(env, static_cast(s.size())); if (jresults == nullptr) { // exception occurred return nullptr; } // TODO(AR) it is not clear to me why EnsureLocalCapacity is needed for the // loop as we cleanup references with env->DeleteLocalRef(jentry_value); if (env->EnsureLocalCapacity(static_cast(s.size())) != 0) { // exception thrown: OutOfMemoryError return nullptr; } // add to the jresults for (std::vector::size_type i = 0; i != s.size(); i++) { if (s[i].ok()) { std::string* value = &values[i]; const jsize jvalue_len = static_cast(value->size()); jbyteArray jentry_value = env->NewByteArray(jvalue_len); if (jentry_value == nullptr) { // exception thrown: OutOfMemoryError return nullptr; } env->SetByteArrayRegion( jentry_value, 0, static_cast(jvalue_len), const_cast(reinterpret_cast(value->c_str()))); if (env->ExceptionCheck()) { // exception thrown: ArrayIndexOutOfBoundsException env->DeleteLocalRef(jentry_value); return nullptr; } env->SetObjectArrayElement(jresults, static_cast(i), jentry_value); if (env->ExceptionCheck()) { // exception thrown: ArrayIndexOutOfBoundsException env->DeleteLocalRef(jentry_value); return nullptr; } env->DeleteLocalRef(jentry_value); } } return jresults; } /* * Class: org_rocksdb_RocksDB * Method: multiGet * Signature: (J[[B[I[I)[[B */ jobjectArray Java_org_rocksdb_RocksDB_multiGet__J_3_3B_3I_3I( JNIEnv* env, jobject jdb, jlong jdb_handle, jobjectArray jkeys, jintArray jkey_offs, jintArray jkey_lens) { return multi_get_helper(env, jdb, reinterpret_cast(jdb_handle), rocksdb::ReadOptions(), jkeys, jkey_offs, jkey_lens, nullptr); } /* * Class: org_rocksdb_RocksDB * Method: multiGet * Signature: (J[[B[I[I[J)[[B */ jobjectArray Java_org_rocksdb_RocksDB_multiGet__J_3_3B_3I_3I_3J( JNIEnv* env, jobject jdb, jlong jdb_handle, jobjectArray jkeys, jintArray jkey_offs, jintArray jkey_lens, jlongArray jcolumn_family_handles) { return multi_get_helper(env, jdb, reinterpret_cast(jdb_handle), rocksdb::ReadOptions(), jkeys, jkey_offs, jkey_lens, jcolumn_family_handles); } /* * Class: org_rocksdb_RocksDB * Method: multiGet * Signature: (JJ[[B[I[I)[[B */ jobjectArray Java_org_rocksdb_RocksDB_multiGet__JJ_3_3B_3I_3I( JNIEnv* env, jobject jdb, jlong jdb_handle, jlong jropt_handle, jobjectArray jkeys, jintArray jkey_offs, jintArray jkey_lens) { return multi_get_helper( env, jdb, reinterpret_cast(jdb_handle), *reinterpret_cast(jropt_handle), jkeys, jkey_offs, jkey_lens, nullptr); } /* * Class: org_rocksdb_RocksDB * Method: multiGet * Signature: (JJ[[B[I[I[J)[[B */ jobjectArray Java_org_rocksdb_RocksDB_multiGet__JJ_3_3B_3I_3I_3J( JNIEnv* env, jobject jdb, jlong jdb_handle, jlong jropt_handle, jobjectArray jkeys, jintArray jkey_offs, jintArray jkey_lens, jlongArray jcolumn_family_handles) { return multi_get_helper( env, jdb, reinterpret_cast(jdb_handle), *reinterpret_cast(jropt_handle), jkeys, jkey_offs, jkey_lens, jcolumn_family_handles); } /* * Class: org_rocksdb_RocksDB * Method: get * Signature: (J[BII[BII)I */ jint Java_org_rocksdb_RocksDB_get__J_3BII_3BII(JNIEnv* env, jobject /*jdb*/, jlong jdb_handle, jbyteArray jkey, jint jkey_off, jint jkey_len, jbyteArray jval, jint jval_off, jint jval_len) { bool has_exception = false; return rocksdb_get_helper(env, reinterpret_cast(jdb_handle), rocksdb::ReadOptions(), nullptr, jkey, jkey_off, jkey_len, jval, jval_off, jval_len, &has_exception); } /* * Class: org_rocksdb_RocksDB * Method: get * Signature: (J[BII[BIIJ)I */ jint Java_org_rocksdb_RocksDB_get__J_3BII_3BIIJ(JNIEnv* env, jobject /*jdb*/, jlong jdb_handle, jbyteArray jkey, jint jkey_off, jint jkey_len, jbyteArray jval, jint jval_off, jint jval_len, jlong jcf_handle) { auto* db_handle = reinterpret_cast(jdb_handle); auto* cf_handle = reinterpret_cast(jcf_handle); if (cf_handle != nullptr) { bool has_exception = false; return rocksdb_get_helper(env, db_handle, rocksdb::ReadOptions(), cf_handle, jkey, jkey_off, jkey_len, jval, jval_off, jval_len, &has_exception); } else { rocksdb::RocksDBExceptionJni::ThrowNew( env, rocksdb::Status::InvalidArgument("Invalid ColumnFamilyHandle.")); // will never be evaluated return 0; } } /* * Class: org_rocksdb_RocksDB * Method: get * Signature: (JJ[BII[BII)I */ jint Java_org_rocksdb_RocksDB_get__JJ_3BII_3BII(JNIEnv* env, jobject /*jdb*/, jlong jdb_handle, jlong jropt_handle, jbyteArray jkey, jint jkey_off, jint jkey_len, jbyteArray jval, jint jval_off, jint jval_len) { bool has_exception = false; return rocksdb_get_helper( env, reinterpret_cast(jdb_handle), *reinterpret_cast(jropt_handle), nullptr, jkey, jkey_off, jkey_len, jval, jval_off, jval_len, &has_exception); } /* * Class: org_rocksdb_RocksDB * Method: get * Signature: (JJ[BII[BIIJ)I */ jint Java_org_rocksdb_RocksDB_get__JJ_3BII_3BIIJ( JNIEnv* env, jobject /*jdb*/, jlong jdb_handle, jlong jropt_handle, jbyteArray jkey, jint jkey_off, jint jkey_len, jbyteArray jval, jint jval_off, jint jval_len, jlong jcf_handle) { auto* db_handle = reinterpret_cast(jdb_handle); auto& ro_opt = *reinterpret_cast(jropt_handle); auto* cf_handle = reinterpret_cast(jcf_handle); if (cf_handle != nullptr) { bool has_exception = false; return rocksdb_get_helper(env, db_handle, ro_opt, cf_handle, jkey, jkey_off, jkey_len, jval, jval_off, jval_len, &has_exception); } else { rocksdb::RocksDBExceptionJni::ThrowNew( env, rocksdb::Status::InvalidArgument("Invalid ColumnFamilyHandle.")); // will never be evaluated return 0; } } ////////////////////////////////////////////////////////////////////////////// // rocksdb::DB::Delete() /** * @return true if the delete succeeded, false if a Java Exception was thrown */ bool rocksdb_delete_helper(JNIEnv* env, rocksdb::DB* db, const rocksdb::WriteOptions& write_options, rocksdb::ColumnFamilyHandle* cf_handle, jbyteArray jkey, jint jkey_off, jint jkey_len) { jbyte* key = new jbyte[jkey_len]; env->GetByteArrayRegion(jkey, jkey_off, jkey_len, key); if (env->ExceptionCheck()) { // exception thrown: ArrayIndexOutOfBoundsException delete[] key; return false; } rocksdb::Slice key_slice(reinterpret_cast(key), jkey_len); rocksdb::Status s; if (cf_handle != nullptr) { s = db->Delete(write_options, cf_handle, key_slice); } else { // backwards compatibility s = db->Delete(write_options, key_slice); } // cleanup delete[] key; if (s.ok()) { return true; } rocksdb::RocksDBExceptionJni::ThrowNew(env, s); return false; } /* * Class: org_rocksdb_RocksDB * Method: delete * Signature: (J[BII)V */ void Java_org_rocksdb_RocksDB_delete__J_3BII(JNIEnv* env, jobject /*jdb*/, jlong jdb_handle, jbyteArray jkey, jint jkey_off, jint jkey_len) { auto* db = reinterpret_cast(jdb_handle); static const rocksdb::WriteOptions default_write_options = rocksdb::WriteOptions(); rocksdb_delete_helper(env, db, default_write_options, nullptr, jkey, jkey_off, jkey_len); } /* * Class: org_rocksdb_RocksDB * Method: delete * Signature: (J[BIIJ)V */ void Java_org_rocksdb_RocksDB_delete__J_3BIIJ(JNIEnv* env, jobject /*jdb*/, jlong jdb_handle, jbyteArray jkey, jint jkey_off, jint jkey_len, jlong jcf_handle) { auto* db = reinterpret_cast(jdb_handle); static const rocksdb::WriteOptions default_write_options = rocksdb::WriteOptions(); auto* cf_handle = reinterpret_cast(jcf_handle); if (cf_handle != nullptr) { rocksdb_delete_helper(env, db, default_write_options, cf_handle, jkey, jkey_off, jkey_len); } else { rocksdb::RocksDBExceptionJni::ThrowNew( env, rocksdb::Status::InvalidArgument("Invalid ColumnFamilyHandle.")); } } /* * Class: org_rocksdb_RocksDB * Method: delete * Signature: (JJ[BII)V */ void Java_org_rocksdb_RocksDB_delete__JJ_3BII(JNIEnv* env, jobject /*jdb*/, jlong jdb_handle, jlong jwrite_options, jbyteArray jkey, jint jkey_off, jint jkey_len) { auto* db = reinterpret_cast(jdb_handle); auto* write_options = reinterpret_cast(jwrite_options); rocksdb_delete_helper(env, db, *write_options, nullptr, jkey, jkey_off, jkey_len); } /* * Class: org_rocksdb_RocksDB * Method: delete * Signature: (JJ[BIIJ)V */ void Java_org_rocksdb_RocksDB_delete__JJ_3BIIJ( JNIEnv* env, jobject /*jdb*/, jlong jdb_handle, jlong jwrite_options, jbyteArray jkey, jint jkey_off, jint jkey_len, jlong jcf_handle) { auto* db = reinterpret_cast(jdb_handle); auto* write_options = reinterpret_cast(jwrite_options); auto* cf_handle = reinterpret_cast(jcf_handle); if (cf_handle != nullptr) { rocksdb_delete_helper(env, db, *write_options, cf_handle, jkey, jkey_off, jkey_len); } else { rocksdb::RocksDBExceptionJni::ThrowNew( env, rocksdb::Status::InvalidArgument("Invalid ColumnFamilyHandle.")); } } ////////////////////////////////////////////////////////////////////////////// // rocksdb::DB::SingleDelete() /** * @return true if the single delete succeeded, false if a Java Exception * was thrown */ bool rocksdb_single_delete_helper(JNIEnv* env, rocksdb::DB* db, const rocksdb::WriteOptions& write_options, rocksdb::ColumnFamilyHandle* cf_handle, jbyteArray jkey, jint jkey_len) { jbyte* key = env->GetByteArrayElements(jkey, nullptr); if (key == nullptr) { // exception thrown: OutOfMemoryError return false; } rocksdb::Slice key_slice(reinterpret_cast(key), jkey_len); rocksdb::Status s; if (cf_handle != nullptr) { s = db->SingleDelete(write_options, cf_handle, key_slice); } else { // backwards compatibility s = db->SingleDelete(write_options, key_slice); } // trigger java unref on key and value. // by passing JNI_ABORT, it will simply release the reference without // copying the result back to the java byte array. env->ReleaseByteArrayElements(jkey, key, JNI_ABORT); if (s.ok()) { return true; } rocksdb::RocksDBExceptionJni::ThrowNew(env, s); return false; } /* * Class: org_rocksdb_RocksDB * Method: singleDelete * Signature: (J[BI)V */ void Java_org_rocksdb_RocksDB_singleDelete__J_3BI(JNIEnv* env, jobject /*jdb*/, jlong jdb_handle, jbyteArray jkey, jint jkey_len) { auto* db = reinterpret_cast(jdb_handle); static const rocksdb::WriteOptions default_write_options = rocksdb::WriteOptions(); rocksdb_single_delete_helper(env, db, default_write_options, nullptr, jkey, jkey_len); } /* * Class: org_rocksdb_RocksDB * Method: singleDelete * Signature: (J[BIJ)V */ void Java_org_rocksdb_RocksDB_singleDelete__J_3BIJ(JNIEnv* env, jobject /*jdb*/, jlong jdb_handle, jbyteArray jkey, jint jkey_len, jlong jcf_handle) { auto* db = reinterpret_cast(jdb_handle); static const rocksdb::WriteOptions default_write_options = rocksdb::WriteOptions(); auto* cf_handle = reinterpret_cast(jcf_handle); if (cf_handle != nullptr) { rocksdb_single_delete_helper(env, db, default_write_options, cf_handle, jkey, jkey_len); } else { rocksdb::RocksDBExceptionJni::ThrowNew( env, rocksdb::Status::InvalidArgument("Invalid ColumnFamilyHandle.")); } } /* * Class: org_rocksdb_RocksDB * Method: singleDelete * Signature: (JJ[BIJ)V */ void Java_org_rocksdb_RocksDB_singleDelete__JJ_3BI(JNIEnv* env, jobject /*jdb*/, jlong jdb_handle, jlong jwrite_options, jbyteArray jkey, jint jkey_len) { auto* db = reinterpret_cast(jdb_handle); auto* write_options = reinterpret_cast(jwrite_options); rocksdb_single_delete_helper(env, db, *write_options, nullptr, jkey, jkey_len); } /* * Class: org_rocksdb_RocksDB * Method: singleDelete * Signature: (JJ[BIJ)V */ void Java_org_rocksdb_RocksDB_singleDelete__JJ_3BIJ( JNIEnv* env, jobject /*jdb*/, jlong jdb_handle, jlong jwrite_options, jbyteArray jkey, jint jkey_len, jlong jcf_handle) { auto* db = reinterpret_cast(jdb_handle); auto* write_options = reinterpret_cast(jwrite_options); auto* cf_handle = reinterpret_cast(jcf_handle); if (cf_handle != nullptr) { rocksdb_single_delete_helper(env, db, *write_options, cf_handle, jkey, jkey_len); } else { rocksdb::RocksDBExceptionJni::ThrowNew( env, rocksdb::Status::InvalidArgument("Invalid ColumnFamilyHandle.")); } } ////////////////////////////////////////////////////////////////////////////// // rocksdb::DB::DeleteRange() /** * @return true if the delete range succeeded, false if a Java Exception * was thrown */ bool rocksdb_delete_range_helper(JNIEnv* env, rocksdb::DB* db, const rocksdb::WriteOptions& write_options, rocksdb::ColumnFamilyHandle* cf_handle, jbyteArray jbegin_key, jint jbegin_key_off, jint jbegin_key_len, jbyteArray jend_key, jint jend_key_off, jint jend_key_len) { jbyte* begin_key = new jbyte[jbegin_key_len]; env->GetByteArrayRegion(jbegin_key, jbegin_key_off, jbegin_key_len, begin_key); if (env->ExceptionCheck()) { // exception thrown: ArrayIndexOutOfBoundsException delete[] begin_key; return false; } rocksdb::Slice begin_key_slice(reinterpret_cast(begin_key), jbegin_key_len); jbyte* end_key = new jbyte[jend_key_len]; env->GetByteArrayRegion(jend_key, jend_key_off, jend_key_len, end_key); if (env->ExceptionCheck()) { // exception thrown: ArrayIndexOutOfBoundsException delete[] begin_key; delete[] end_key; return false; } rocksdb::Slice end_key_slice(reinterpret_cast(end_key), jend_key_len); rocksdb::Status s = db->DeleteRange(write_options, cf_handle, begin_key_slice, end_key_slice); // cleanup delete[] begin_key; delete[] end_key; if (s.ok()) { return true; } rocksdb::RocksDBExceptionJni::ThrowNew(env, s); return false; } /* * Class: org_rocksdb_RocksDB * Method: deleteRange * Signature: (J[BII[BII)V */ void Java_org_rocksdb_RocksDB_deleteRange__J_3BII_3BII( JNIEnv* env, jobject /*jdb*/, jlong jdb_handle, jbyteArray jbegin_key, jint jbegin_key_off, jint jbegin_key_len, jbyteArray jend_key, jint jend_key_off, jint jend_key_len) { auto* db = reinterpret_cast(jdb_handle); static const rocksdb::WriteOptions default_write_options = rocksdb::WriteOptions(); rocksdb_delete_range_helper(env, db, default_write_options, nullptr, jbegin_key, jbegin_key_off, jbegin_key_len, jend_key, jend_key_off, jend_key_len); } /* * Class: org_rocksdb_RocksDB * Method: deleteRange * Signature: (J[BII[BIIJ)V */ void Java_org_rocksdb_RocksDB_deleteRange__J_3BII_3BIIJ( JNIEnv* env, jobject /*jdb*/, jlong jdb_handle, jbyteArray jbegin_key, jint jbegin_key_off, jint jbegin_key_len, jbyteArray jend_key, jint jend_key_off, jint jend_key_len, jlong jcf_handle) { auto* db = reinterpret_cast(jdb_handle); static const rocksdb::WriteOptions default_write_options = rocksdb::WriteOptions(); auto* cf_handle = reinterpret_cast(jcf_handle); if (cf_handle != nullptr) { rocksdb_delete_range_helper(env, db, default_write_options, cf_handle, jbegin_key, jbegin_key_off, jbegin_key_len, jend_key, jend_key_off, jend_key_len); } else { rocksdb::RocksDBExceptionJni::ThrowNew( env, rocksdb::Status::InvalidArgument("Invalid ColumnFamilyHandle.")); } } /* * Class: org_rocksdb_RocksDB * Method: deleteRange * Signature: (JJ[BII[BII)V */ void Java_org_rocksdb_RocksDB_deleteRange__JJ_3BII_3BII( JNIEnv* env, jobject /*jdb*/, jlong jdb_handle, jlong jwrite_options, jbyteArray jbegin_key, jint jbegin_key_off, jint jbegin_key_len, jbyteArray jend_key, jint jend_key_off, jint jend_key_len) { auto* db = reinterpret_cast(jdb_handle); auto* write_options = reinterpret_cast(jwrite_options); rocksdb_delete_range_helper(env, db, *write_options, nullptr, jbegin_key, jbegin_key_off, jbegin_key_len, jend_key, jend_key_off, jend_key_len); } /* * Class: org_rocksdb_RocksDB * Method: deleteRange * Signature: (JJ[BII[BIIJ)V */ void Java_org_rocksdb_RocksDB_deleteRange__JJ_3BII_3BIIJ( JNIEnv* env, jobject /*jdb*/, jlong jdb_handle, jlong jwrite_options, jbyteArray jbegin_key, jint jbegin_key_off, jint jbegin_key_len, jbyteArray jend_key, jint jend_key_off, jint jend_key_len, jlong jcf_handle) { auto* db = reinterpret_cast(jdb_handle); auto* write_options = reinterpret_cast(jwrite_options); auto* cf_handle = reinterpret_cast(jcf_handle); if (cf_handle != nullptr) { rocksdb_delete_range_helper(env, db, *write_options, cf_handle, jbegin_key, jbegin_key_off, jbegin_key_len, jend_key, jend_key_off, jend_key_len); } else { rocksdb::RocksDBExceptionJni::ThrowNew( env, rocksdb::Status::InvalidArgument("Invalid ColumnFamilyHandle.")); } } ////////////////////////////////////////////////////////////////////////////// // rocksdb::DB::Merge /** * @return true if the merge succeeded, false if a Java Exception was thrown */ bool rocksdb_merge_helper(JNIEnv* env, rocksdb::DB* db, const rocksdb::WriteOptions& write_options, rocksdb::ColumnFamilyHandle* cf_handle, jbyteArray jkey, jint jkey_off, jint jkey_len, jbyteArray jval, jint jval_off, jint jval_len) { jbyte* key = new jbyte[jkey_len]; env->GetByteArrayRegion(jkey, jkey_off, jkey_len, key); if (env->ExceptionCheck()) { // exception thrown: ArrayIndexOutOfBoundsException delete[] key; return false; } rocksdb::Slice key_slice(reinterpret_cast(key), jkey_len); jbyte* value = new jbyte[jval_len]; env->GetByteArrayRegion(jval, jval_off, jval_len, value); if (env->ExceptionCheck()) { // exception thrown: ArrayIndexOutOfBoundsException delete[] value; delete[] key; return false; } rocksdb::Slice value_slice(reinterpret_cast(value), jval_len); rocksdb::Status s; if (cf_handle != nullptr) { s = db->Merge(write_options, cf_handle, key_slice, value_slice); } else { s = db->Merge(write_options, key_slice, value_slice); } // cleanup delete[] value; delete[] key; if (s.ok()) { return true; } rocksdb::RocksDBExceptionJni::ThrowNew(env, s); return false; } /* * Class: org_rocksdb_RocksDB * Method: merge * Signature: (J[BII[BII)V */ void Java_org_rocksdb_RocksDB_merge__J_3BII_3BII(JNIEnv* env, jobject /*jdb*/, jlong jdb_handle, jbyteArray jkey, jint jkey_off, jint jkey_len, jbyteArray jval, jint jval_off, jint jval_len) { auto* db = reinterpret_cast(jdb_handle); static const rocksdb::WriteOptions default_write_options = rocksdb::WriteOptions(); rocksdb_merge_helper(env, db, default_write_options, nullptr, jkey, jkey_off, jkey_len, jval, jval_off, jval_len); } /* * Class: org_rocksdb_RocksDB * Method: merge * Signature: (J[BII[BIIJ)V */ void Java_org_rocksdb_RocksDB_merge__J_3BII_3BIIJ( JNIEnv* env, jobject /*jdb*/, jlong jdb_handle, jbyteArray jkey, jint jkey_off, jint jkey_len, jbyteArray jval, jint jval_off, jint jval_len, jlong jcf_handle) { auto* db = reinterpret_cast(jdb_handle); static const rocksdb::WriteOptions default_write_options = rocksdb::WriteOptions(); auto* cf_handle = reinterpret_cast(jcf_handle); if (cf_handle != nullptr) { rocksdb_merge_helper(env, db, default_write_options, cf_handle, jkey, jkey_off, jkey_len, jval, jval_off, jval_len); } else { rocksdb::RocksDBExceptionJni::ThrowNew( env, rocksdb::Status::InvalidArgument("Invalid ColumnFamilyHandle.")); } } /* * Class: org_rocksdb_RocksDB * Method: merge * Signature: (JJ[BII[BII)V */ void Java_org_rocksdb_RocksDB_merge__JJ_3BII_3BII( JNIEnv* env, jobject /*jdb*/, jlong jdb_handle, jlong jwrite_options_handle, jbyteArray jkey, jint jkey_off, jint jkey_len, jbyteArray jval, jint jval_off, jint jval_len) { auto* db = reinterpret_cast(jdb_handle); auto* write_options = reinterpret_cast(jwrite_options_handle); rocksdb_merge_helper(env, db, *write_options, nullptr, jkey, jkey_off, jkey_len, jval, jval_off, jval_len); } /* * Class: org_rocksdb_RocksDB * Method: merge * Signature: (JJ[BII[BIIJ)V */ void Java_org_rocksdb_RocksDB_merge__JJ_3BII_3BIIJ( JNIEnv* env, jobject /*jdb*/, jlong jdb_handle, jlong jwrite_options_handle, jbyteArray jkey, jint jkey_off, jint jkey_len, jbyteArray jval, jint jval_off, jint jval_len, jlong jcf_handle) { auto* db = reinterpret_cast(jdb_handle); auto* write_options = reinterpret_cast(jwrite_options_handle); auto* cf_handle = reinterpret_cast(jcf_handle); if (cf_handle != nullptr) { rocksdb_merge_helper(env, db, *write_options, cf_handle, jkey, jkey_off, jkey_len, jval, jval_off, jval_len); } else { rocksdb::RocksDBExceptionJni::ThrowNew( env, rocksdb::Status::InvalidArgument("Invalid ColumnFamilyHandle.")); } } ////////////////////////////////////////////////////////////////////////////// // rocksdb::DB::~DB() /* * Class: org_rocksdb_RocksDB * Method: disposeInternal * Signature: (J)V */ void Java_org_rocksdb_RocksDB_disposeInternal(JNIEnv* /*env*/, jobject /*java_db*/, jlong jhandle) { auto* db = reinterpret_cast(jhandle); assert(db != nullptr); delete db; } jlong rocksdb_iterator_helper(rocksdb::DB* db, rocksdb::ReadOptions read_options, rocksdb::ColumnFamilyHandle* cf_handle) { rocksdb::Iterator* iterator = nullptr; if (cf_handle != nullptr) { iterator = db->NewIterator(read_options, cf_handle); } else { iterator = db->NewIterator(read_options); } return reinterpret_cast(iterator); } /* * Class: org_rocksdb_RocksDB * Method: iterator * Signature: (J)J */ jlong Java_org_rocksdb_RocksDB_iterator__J(JNIEnv* /*env*/, jobject /*jdb*/, jlong db_handle) { auto* db = reinterpret_cast(db_handle); return rocksdb_iterator_helper(db, rocksdb::ReadOptions(), nullptr); } /* * Class: org_rocksdb_RocksDB * Method: iterator * Signature: (JJ)J */ jlong Java_org_rocksdb_RocksDB_iterator__JJ(JNIEnv* /*env*/, jobject /*jdb*/, jlong db_handle, jlong jread_options_handle) { auto* db = reinterpret_cast(db_handle); auto& read_options = *reinterpret_cast(jread_options_handle); return rocksdb_iterator_helper(db, read_options, nullptr); } /* * Class: org_rocksdb_RocksDB * Method: iteratorCF * Signature: (JJ)J */ jlong Java_org_rocksdb_RocksDB_iteratorCF__JJ(JNIEnv* /*env*/, jobject /*jdb*/, jlong db_handle, jlong jcf_handle) { auto* db = reinterpret_cast(db_handle); auto* cf_handle = reinterpret_cast(jcf_handle); return rocksdb_iterator_helper(db, rocksdb::ReadOptions(), cf_handle); } /* * Class: org_rocksdb_RocksDB * Method: iteratorCF * Signature: (JJJ)J */ jlong Java_org_rocksdb_RocksDB_iteratorCF__JJJ(JNIEnv* /*env*/, jobject /*jdb*/, jlong db_handle, jlong jcf_handle, jlong jread_options_handle) { auto* db = reinterpret_cast(db_handle); auto* cf_handle = reinterpret_cast(jcf_handle); auto& read_options = *reinterpret_cast(jread_options_handle); return rocksdb_iterator_helper(db, read_options, cf_handle); } /* * Class: org_rocksdb_RocksDB * Method: iterators * Signature: (J[JJ)[J */ jlongArray Java_org_rocksdb_RocksDB_iterators(JNIEnv* env, jobject /*jdb*/, jlong db_handle, jlongArray jcolumn_family_handles, jlong jread_options_handle) { auto* db = reinterpret_cast(db_handle); auto& read_options = *reinterpret_cast(jread_options_handle); std::vector cf_handles; if (jcolumn_family_handles != nullptr) { const jsize len_cols = env->GetArrayLength(jcolumn_family_handles); jlong* jcfh = env->GetLongArrayElements(jcolumn_family_handles, nullptr); if (jcfh == nullptr) { // exception thrown: OutOfMemoryError return nullptr; } for (jsize i = 0; i < len_cols; i++) { auto* cf_handle = reinterpret_cast(jcfh[i]); cf_handles.push_back(cf_handle); } env->ReleaseLongArrayElements(jcolumn_family_handles, jcfh, JNI_ABORT); } std::vector iterators; rocksdb::Status s = db->NewIterators(read_options, cf_handles, &iterators); if (s.ok()) { jlongArray jLongArray = env->NewLongArray(static_cast(iterators.size())); if (jLongArray == nullptr) { // exception thrown: OutOfMemoryError return nullptr; } for (std::vector::size_type i = 0; i < iterators.size(); i++) { env->SetLongArrayRegion( jLongArray, static_cast(i), 1, const_cast(reinterpret_cast(&iterators[i]))); if (env->ExceptionCheck()) { // exception thrown: ArrayIndexOutOfBoundsException env->DeleteLocalRef(jLongArray); return nullptr; } } return jLongArray; } else { rocksdb::RocksDBExceptionJni::ThrowNew(env, s); return nullptr; } } /* * Class: org_rocksdb_RocksDB * Method: getDefaultColumnFamily * Signature: (J)J */ jlong Java_org_rocksdb_RocksDB_getDefaultColumnFamily(JNIEnv* /*env*/, jobject /*jobj*/, jlong jdb_handle) { auto* db_handle = reinterpret_cast(jdb_handle); auto* cf_handle = db_handle->DefaultColumnFamily(); return reinterpret_cast(cf_handle); } /* * Class: org_rocksdb_RocksDB * Method: createColumnFamily * Signature: (J[BJ)J */ jlong Java_org_rocksdb_RocksDB_createColumnFamily(JNIEnv* env, jobject /*jdb*/, jlong jdb_handle, jbyteArray jcolumn_name, jlong jcolumn_options) { rocksdb::ColumnFamilyHandle* handle; jboolean has_exception = JNI_FALSE; std::string column_name = rocksdb::JniUtil::byteString( env, jcolumn_name, [](const char* str, const size_t len) { return std::string(str, len); }, &has_exception); if (has_exception == JNI_TRUE) { // exception occurred return 0; } auto* db_handle = reinterpret_cast(jdb_handle); auto* cfOptions = reinterpret_cast(jcolumn_options); rocksdb::Status s = db_handle->CreateColumnFamily(*cfOptions, column_name, &handle); if (s.ok()) { return reinterpret_cast(handle); } rocksdb::RocksDBExceptionJni::ThrowNew(env, s); return 0; } /* * Class: org_rocksdb_RocksDB * Method: dropColumnFamily * Signature: (JJ)V; */ void Java_org_rocksdb_RocksDB_dropColumnFamily(JNIEnv* env, jobject /*jdb*/, jlong jdb_handle, jlong jcf_handle) { auto* cf_handle = reinterpret_cast(jcf_handle); auto* db_handle = reinterpret_cast(jdb_handle); rocksdb::Status s = db_handle->DropColumnFamily(cf_handle); if (!s.ok()) { rocksdb::RocksDBExceptionJni::ThrowNew(env, s); } } /* * Method: getSnapshot * Signature: (J)J */ jlong Java_org_rocksdb_RocksDB_getSnapshot(JNIEnv* /*env*/, jobject /*jdb*/, jlong db_handle) { auto* db = reinterpret_cast(db_handle); const rocksdb::Snapshot* snapshot = db->GetSnapshot(); return reinterpret_cast(snapshot); } /* * Method: releaseSnapshot * Signature: (JJ)V */ void Java_org_rocksdb_RocksDB_releaseSnapshot(JNIEnv* /*env*/, jobject /*jdb*/, jlong db_handle, jlong snapshot_handle) { auto* db = reinterpret_cast(db_handle); auto* snapshot = reinterpret_cast(snapshot_handle); db->ReleaseSnapshot(snapshot); } /* * Class: org_rocksdb_RocksDB * Method: getProperty0 * Signature: (JLjava/lang/String;I)Ljava/lang/String; */ jstring Java_org_rocksdb_RocksDB_getProperty0__JLjava_lang_String_2I( JNIEnv* env, jobject /*jdb*/, jlong db_handle, jstring jproperty, jint jproperty_len) { const char* property = env->GetStringUTFChars(jproperty, nullptr); if (property == nullptr) { // exception thrown: OutOfMemoryError return nullptr; } rocksdb::Slice property_slice(property, jproperty_len); auto* db = reinterpret_cast(db_handle); std::string property_value; bool retCode = db->GetProperty(property_slice, &property_value); env->ReleaseStringUTFChars(jproperty, property); if (retCode) { return env->NewStringUTF(property_value.c_str()); } rocksdb::RocksDBExceptionJni::ThrowNew(env, rocksdb::Status::NotFound()); return nullptr; } /* * Class: org_rocksdb_RocksDB * Method: getProperty0 * Signature: (JJLjava/lang/String;I)Ljava/lang/String; */ jstring Java_org_rocksdb_RocksDB_getProperty0__JJLjava_lang_String_2I( JNIEnv* env, jobject /*jdb*/, jlong db_handle, jlong jcf_handle, jstring jproperty, jint jproperty_len) { const char* property = env->GetStringUTFChars(jproperty, nullptr); if (property == nullptr) { // exception thrown: OutOfMemoryError return nullptr; } rocksdb::Slice property_slice(property, jproperty_len); auto* db = reinterpret_cast(db_handle); auto* cf_handle = reinterpret_cast(jcf_handle); std::string property_value; bool retCode = db->GetProperty(cf_handle, property_slice, &property_value); env->ReleaseStringUTFChars(jproperty, property); if (retCode) { return env->NewStringUTF(property_value.c_str()); } rocksdb::RocksDBExceptionJni::ThrowNew(env, rocksdb::Status::NotFound()); return nullptr; } /* * Class: org_rocksdb_RocksDB * Method: getLongProperty * Signature: (JLjava/lang/String;I)L; */ jlong Java_org_rocksdb_RocksDB_getLongProperty__JLjava_lang_String_2I( JNIEnv* env, jobject /*jdb*/, jlong db_handle, jstring jproperty, jint jproperty_len) { const char* property = env->GetStringUTFChars(jproperty, nullptr); if (property == nullptr) { // exception thrown: OutOfMemoryError return 0; } rocksdb::Slice property_slice(property, jproperty_len); auto* db = reinterpret_cast(db_handle); uint64_t property_value = 0; bool retCode = db->GetIntProperty(property_slice, &property_value); env->ReleaseStringUTFChars(jproperty, property); if (retCode) { return property_value; } rocksdb::RocksDBExceptionJni::ThrowNew(env, rocksdb::Status::NotFound()); return 0; } /* * Class: org_rocksdb_RocksDB * Method: getLongProperty * Signature: (JJLjava/lang/String;I)L; */ jlong Java_org_rocksdb_RocksDB_getLongProperty__JJLjava_lang_String_2I( JNIEnv* env, jobject /*jdb*/, jlong db_handle, jlong jcf_handle, jstring jproperty, jint jproperty_len) { const char* property = env->GetStringUTFChars(jproperty, nullptr); if (property == nullptr) { // exception thrown: OutOfMemoryError return 0; } rocksdb::Slice property_slice(property, jproperty_len); auto* db = reinterpret_cast(db_handle); auto* cf_handle = reinterpret_cast(jcf_handle); uint64_t property_value; bool retCode = db->GetIntProperty(cf_handle, property_slice, &property_value); env->ReleaseStringUTFChars(jproperty, property); if (retCode) { return property_value; } rocksdb::RocksDBExceptionJni::ThrowNew(env, rocksdb::Status::NotFound()); return 0; } /* * Class: org_rocksdb_RocksDB * Method: getAggregatedLongProperty * Signature: (JLjava/lang/String;I)J */ jlong Java_org_rocksdb_RocksDB_getAggregatedLongProperty( JNIEnv* env, jobject, jlong db_handle, jstring jproperty, jint jproperty_len) { const char* property = env->GetStringUTFChars(jproperty, nullptr); if (property == nullptr) { return 0; } rocksdb::Slice property_slice(property, jproperty_len); auto* db = reinterpret_cast(db_handle); uint64_t property_value = 0; bool retCode = db->GetAggregatedIntProperty(property_slice, &property_value); env->ReleaseStringUTFChars(jproperty, property); if (retCode) { return property_value; } rocksdb::RocksDBExceptionJni::ThrowNew(env, rocksdb::Status::NotFound()); return 0; } ////////////////////////////////////////////////////////////////////////////// // rocksdb::DB::Flush void rocksdb_flush_helper(JNIEnv* env, rocksdb::DB* db, const rocksdb::FlushOptions& flush_options, rocksdb::ColumnFamilyHandle* column_family_handle) { rocksdb::Status s; if (column_family_handle != nullptr) { s = db->Flush(flush_options, column_family_handle); } else { s = db->Flush(flush_options); } if (!s.ok()) { rocksdb::RocksDBExceptionJni::ThrowNew(env, s); } } /* * Class: org_rocksdb_RocksDB * Method: flush * Signature: (JJ)V */ void Java_org_rocksdb_RocksDB_flush__JJ(JNIEnv* env, jobject /*jdb*/, jlong jdb_handle, jlong jflush_options) { auto* db = reinterpret_cast(jdb_handle); auto* flush_options = reinterpret_cast(jflush_options); rocksdb_flush_helper(env, db, *flush_options, nullptr); } /* * Class: org_rocksdb_RocksDB * Method: flush * Signature: (JJJ)V */ void Java_org_rocksdb_RocksDB_flush__JJJ(JNIEnv* env, jobject /*jdb*/, jlong jdb_handle, jlong jflush_options, jlong jcf_handle) { auto* db = reinterpret_cast(jdb_handle); auto* flush_options = reinterpret_cast(jflush_options); auto* cf_handle = reinterpret_cast(jcf_handle); rocksdb_flush_helper(env, db, *flush_options, cf_handle); } ////////////////////////////////////////////////////////////////////////////// // rocksdb::DB::CompactRange - Full void rocksdb_compactrange_helper(JNIEnv* env, rocksdb::DB* db, rocksdb::ColumnFamilyHandle* cf_handle, jboolean jreduce_level, jint jtarget_level, jint jtarget_path_id) { rocksdb::Status s; rocksdb::CompactRangeOptions compact_options; compact_options.change_level = jreduce_level; compact_options.target_level = jtarget_level; compact_options.target_path_id = static_cast(jtarget_path_id); if (cf_handle != nullptr) { s = db->CompactRange(compact_options, cf_handle, nullptr, nullptr); } else { // backwards compatibility s = db->CompactRange(compact_options, nullptr, nullptr); } if (s.ok()) { return; } rocksdb::RocksDBExceptionJni::ThrowNew(env, s); } /* * Class: org_rocksdb_RocksDB * Method: compactRange0 * Signature: (JZII)V */ void Java_org_rocksdb_RocksDB_compactRange0__JZII(JNIEnv* env, jobject /*jdb*/, jlong jdb_handle, jboolean jreduce_level, jint jtarget_level, jint jtarget_path_id) { auto* db = reinterpret_cast(jdb_handle); rocksdb_compactrange_helper(env, db, nullptr, jreduce_level, jtarget_level, jtarget_path_id); } /* * Class: org_rocksdb_RocksDB * Method: compactRange * Signature: (JZIIJ)V */ void Java_org_rocksdb_RocksDB_compactRange__JZIIJ( JNIEnv* env, jobject /*jdb*/, jlong jdb_handle, jboolean jreduce_level, jint jtarget_level, jint jtarget_path_id, jlong jcf_handle) { auto* db = reinterpret_cast(jdb_handle); auto* cf_handle = reinterpret_cast(jcf_handle); rocksdb_compactrange_helper(env, db, cf_handle, jreduce_level, jtarget_level, jtarget_path_id); } ////////////////////////////////////////////////////////////////////////////// // rocksdb::DB::CompactRange - Range /** * @return true if the compact range succeeded, false if a Java Exception * was thrown */ bool rocksdb_compactrange_helper(JNIEnv* env, rocksdb::DB* db, rocksdb::ColumnFamilyHandle* cf_handle, jbyteArray jbegin, jint jbegin_len, jbyteArray jend, jint jend_len, const rocksdb::CompactRangeOptions& compact_options) { jbyte* begin = env->GetByteArrayElements(jbegin, nullptr); if (begin == nullptr) { // exception thrown: OutOfMemoryError return false; } jbyte* end = env->GetByteArrayElements(jend, nullptr); if (end == nullptr) { // exception thrown: OutOfMemoryError env->ReleaseByteArrayElements(jbegin, begin, JNI_ABORT); return false; } const rocksdb::Slice begin_slice(reinterpret_cast(begin), jbegin_len); const rocksdb::Slice end_slice(reinterpret_cast(end), jend_len); rocksdb::Status s; if (cf_handle != nullptr) { s = db->CompactRange(compact_options, cf_handle, &begin_slice, &end_slice); } else { // backwards compatibility s = db->CompactRange(compact_options, &begin_slice, &end_slice); } env->ReleaseByteArrayElements(jend, end, JNI_ABORT); env->ReleaseByteArrayElements(jbegin, begin, JNI_ABORT); if (s.ok()) { return true; } rocksdb::RocksDBExceptionJni::ThrowNew(env, s); return false; } /** * @return true if the compact range succeeded, false if a Java Exception * was thrown */ bool rocksdb_compactrange_helper(JNIEnv* env, rocksdb::DB* db, rocksdb::ColumnFamilyHandle* cf_handle, jbyteArray jbegin, jint jbegin_len, jbyteArray jend, jint jend_len, jboolean jreduce_level, jint jtarget_level, jint jtarget_path_id) { rocksdb::CompactRangeOptions compact_options; compact_options.change_level = jreduce_level; compact_options.target_level = jtarget_level; compact_options.target_path_id = static_cast(jtarget_path_id); return rocksdb_compactrange_helper(env, db, cf_handle, jbegin, jbegin_len, jend, jend_len, compact_options); } /* * Class: org_rocksdb_RocksDB * Method: compactRange0 * Signature: (J[BI[BIZII)V */ void Java_org_rocksdb_RocksDB_compactRange0__J_3BI_3BIZII( JNIEnv* env, jobject /*jdb*/, jlong jdb_handle, jbyteArray jbegin, jint jbegin_len, jbyteArray jend, jint jend_len, jboolean jreduce_level, jint jtarget_level, jint jtarget_path_id) { auto* db = reinterpret_cast(jdb_handle); rocksdb_compactrange_helper(env, db, nullptr, jbegin, jbegin_len, jend, jend_len, jreduce_level, jtarget_level, jtarget_path_id); } /* * Class: org_rocksdb_RocksDB * Method: compactRange * Signature: (JJ[BI[BIZII)V */ void Java_org_rocksdb_RocksDB_compactRange__J_3BI_3BIZIIJ( JNIEnv* env, jobject /*jdb*/, jlong jdb_handle, jbyteArray jbegin, jint jbegin_len, jbyteArray jend, jint jend_len, jboolean jreduce_level, jint jtarget_level, jint jtarget_path_id, jlong jcf_handle) { auto* db = reinterpret_cast(jdb_handle); auto* cf_handle = reinterpret_cast(jcf_handle); rocksdb_compactrange_helper(env, db, cf_handle, jbegin, jbegin_len, jend, jend_len, jreduce_level, jtarget_level, jtarget_path_id); } void Java_org_rocksdb_RocksDB_compactRange__J_3BI_3BIJJ( JNIEnv* env, jobject /*jdb*/, jlong jdb_handle, jbyteArray jbegin, jint jbegin_len, jbyteArray jend, jint jend_len, jlong jcompact_options_handle, jlong jcf_handle) { auto* db = reinterpret_cast(jdb_handle); auto* cf_handle = reinterpret_cast(jcf_handle); auto* compact_options = reinterpret_cast(jcompact_options_handle); rocksdb_compactrange_helper(env, db, cf_handle, jbegin, jbegin_len, jend, jend_len, *compact_options); } ////////////////////////////////////////////////////////////////////////////// // rocksdb::DB::PauseBackgroundWork /* * Class: org_rocksdb_RocksDB * Method: pauseBackgroundWork * Signature: (J)V */ void Java_org_rocksdb_RocksDB_pauseBackgroundWork(JNIEnv* env, jobject /*jobj*/, jlong jdb_handle) { auto* db = reinterpret_cast(jdb_handle); auto s = db->PauseBackgroundWork(); if (!s.ok()) { rocksdb::RocksDBExceptionJni::ThrowNew(env, s); } } ////////////////////////////////////////////////////////////////////////////// // rocksdb::DB::ContinueBackgroundWork /* * Class: org_rocksdb_RocksDB * Method: continueBackgroundWork * Signature: (J)V */ void Java_org_rocksdb_RocksDB_continueBackgroundWork(JNIEnv* env, jobject /*jobj*/, jlong jdb_handle) { auto* db = reinterpret_cast(jdb_handle); auto s = db->ContinueBackgroundWork(); if (!s.ok()) { rocksdb::RocksDBExceptionJni::ThrowNew(env, s); } } ////////////////////////////////////////////////////////////////////////////// // rocksdb::DB::GetLatestSequenceNumber /* * Class: org_rocksdb_RocksDB * Method: getLatestSequenceNumber * Signature: (J)V */ jlong Java_org_rocksdb_RocksDB_getLatestSequenceNumber(JNIEnv* /*env*/, jobject /*jdb*/, jlong jdb_handle) { auto* db = reinterpret_cast(jdb_handle); return db->GetLatestSequenceNumber(); } ////////////////////////////////////////////////////////////////////////////// // rocksdb::DB enable/disable file deletions /* * Class: org_rocksdb_RocksDB * Method: enableFileDeletions * Signature: (J)V */ void Java_org_rocksdb_RocksDB_disableFileDeletions(JNIEnv* env, jobject /*jdb*/, jlong jdb_handle) { auto* db = reinterpret_cast(jdb_handle); rocksdb::Status s = db->DisableFileDeletions(); if (!s.ok()) { rocksdb::RocksDBExceptionJni::ThrowNew(env, s); } } /* * Class: org_rocksdb_RocksDB * Method: enableFileDeletions * Signature: (JZ)V */ void Java_org_rocksdb_RocksDB_enableFileDeletions(JNIEnv* env, jobject /*jdb*/, jlong jdb_handle, jboolean jforce) { auto* db = reinterpret_cast(jdb_handle); rocksdb::Status s = db->EnableFileDeletions(jforce); if (!s.ok()) { rocksdb::RocksDBExceptionJni::ThrowNew(env, s); } } ////////////////////////////////////////////////////////////////////////////// // rocksdb::DB::GetUpdatesSince /* * Class: org_rocksdb_RocksDB * Method: getUpdatesSince * Signature: (JJ)J */ jlong Java_org_rocksdb_RocksDB_getUpdatesSince(JNIEnv* env, jobject /*jdb*/, jlong jdb_handle, jlong jsequence_number) { auto* db = reinterpret_cast(jdb_handle); rocksdb::SequenceNumber sequence_number = static_cast(jsequence_number); std::unique_ptr iter; rocksdb::Status s = db->GetUpdatesSince(sequence_number, &iter); if (s.ok()) { return reinterpret_cast(iter.release()); } rocksdb::RocksDBExceptionJni::ThrowNew(env, s); return 0; } /* * Class: org_rocksdb_RocksDB * Method: setOptions * Signature: (JJ[Ljava/lang/String;[Ljava/lang/String;)V */ void Java_org_rocksdb_RocksDB_setOptions(JNIEnv* env, jobject /*jdb*/, jlong jdb_handle, jlong jcf_handle, jobjectArray jkeys, jobjectArray jvalues) { const jsize len = env->GetArrayLength(jkeys); assert(len == env->GetArrayLength(jvalues)); std::unordered_map options_map; for (jsize i = 0; i < len; i++) { jobject jobj_key = env->GetObjectArrayElement(jkeys, i); if (env->ExceptionCheck()) { // exception thrown: ArrayIndexOutOfBoundsException return; } jobject jobj_value = env->GetObjectArrayElement(jvalues, i); if (env->ExceptionCheck()) { // exception thrown: ArrayIndexOutOfBoundsException env->DeleteLocalRef(jobj_key); return; } jstring jkey = reinterpret_cast(jobj_key); jstring jval = reinterpret_cast(jobj_value); const char* key = env->GetStringUTFChars(jkey, nullptr); if (key == nullptr) { // exception thrown: OutOfMemoryError env->DeleteLocalRef(jobj_value); env->DeleteLocalRef(jobj_key); return; } const char* value = env->GetStringUTFChars(jval, nullptr); if (value == nullptr) { // exception thrown: OutOfMemoryError env->ReleaseStringUTFChars(jkey, key); env->DeleteLocalRef(jobj_value); env->DeleteLocalRef(jobj_key); return; } std::string s_key(key); std::string s_value(value); options_map[s_key] = s_value; env->ReleaseStringUTFChars(jkey, key); env->ReleaseStringUTFChars(jval, value); env->DeleteLocalRef(jobj_key); env->DeleteLocalRef(jobj_value); } auto* db = reinterpret_cast(jdb_handle); auto* cf_handle = reinterpret_cast(jcf_handle); db->SetOptions(cf_handle, options_map); } ////////////////////////////////////////////////////////////////////////////// // rocksdb::DB::IngestExternalFile /* * Class: org_rocksdb_RocksDB * Method: ingestExternalFile * Signature: (JJ[Ljava/lang/String;IJ)V */ void Java_org_rocksdb_RocksDB_ingestExternalFile( JNIEnv* env, jobject /*jdb*/, jlong jdb_handle, jlong jcf_handle, jobjectArray jfile_path_list, jint jfile_path_list_len, jlong jingest_external_file_options_handle) { jboolean has_exception = JNI_FALSE; std::vector file_path_list = rocksdb::JniUtil::copyStrings( env, jfile_path_list, jfile_path_list_len, &has_exception); if (has_exception == JNI_TRUE) { // exception occurred return; } auto* db = reinterpret_cast(jdb_handle); auto* column_family = reinterpret_cast(jcf_handle); auto* ifo = reinterpret_cast( jingest_external_file_options_handle); rocksdb::Status s = db->IngestExternalFile(column_family, file_path_list, *ifo); if (!s.ok()) { rocksdb::RocksDBExceptionJni::ThrowNew(env, s); } } /* * Class: org_rocksdb_RocksDB * Method: destroyDB * Signature: (Ljava/lang/String;J)V */ void Java_org_rocksdb_RocksDB_destroyDB(JNIEnv* env, jclass /*jcls*/, jstring jdb_path, jlong joptions_handle) { const char* db_path = env->GetStringUTFChars(jdb_path, nullptr); if (db_path == nullptr) { // exception thrown: OutOfMemoryError return; } auto* options = reinterpret_cast(joptions_handle); if (options == nullptr) { rocksdb::RocksDBExceptionJni::ThrowNew( env, rocksdb::Status::InvalidArgument("Invalid Options.")); } rocksdb::Status s = rocksdb::DestroyDB(db_path, *options); env->ReleaseStringUTFChars(jdb_path, db_path); if (!s.ok()) { rocksdb::RocksDBExceptionJni::ThrowNew(env, s); } } rocksdb-5.17.2/java/rocksjni/slice.cc000066400000000000000000000263761337235545400174370ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file implements the "bridge" between Java and C++ for // rocksdb::Slice. #include #include #include #include #include "include/org_rocksdb_AbstractSlice.h" #include "include/org_rocksdb_DirectSlice.h" #include "include/org_rocksdb_Slice.h" #include "rocksdb/slice.h" #include "rocksjni/portal.h" // /* * Class: org_rocksdb_Slice * Method: createNewSlice0 * Signature: ([BI)J */ jlong Java_org_rocksdb_Slice_createNewSlice0(JNIEnv* env, jclass /*jcls*/, jbyteArray data, jint offset) { const jsize dataSize = env->GetArrayLength(data); const int len = dataSize - offset; // NOTE: buf will be deleted in the Java_org_rocksdb_Slice_disposeInternalBuf // method jbyte* buf = new jbyte[len]; env->GetByteArrayRegion(data, offset, len, buf); if (env->ExceptionCheck()) { // exception thrown: ArrayIndexOutOfBoundsException return 0; } const auto* slice = new rocksdb::Slice((const char*)buf, len); return reinterpret_cast(slice); } /* * Class: org_rocksdb_Slice * Method: createNewSlice1 * Signature: ([B)J */ jlong Java_org_rocksdb_Slice_createNewSlice1(JNIEnv* env, jclass /*jcls*/, jbyteArray data) { jbyte* ptrData = env->GetByteArrayElements(data, nullptr); if (ptrData == nullptr) { // exception thrown: OutOfMemoryError return 0; } const int len = env->GetArrayLength(data) + 1; // NOTE: buf will be deleted in the Java_org_rocksdb_Slice_disposeInternalBuf // method char* buf = new char[len]; memcpy(buf, ptrData, len - 1); buf[len - 1] = '\0'; const auto* slice = new rocksdb::Slice(buf, len - 1); env->ReleaseByteArrayElements(data, ptrData, JNI_ABORT); return reinterpret_cast(slice); } /* * Class: org_rocksdb_Slice * Method: data0 * Signature: (J)[B */ jbyteArray Java_org_rocksdb_Slice_data0(JNIEnv* env, jobject /*jobj*/, jlong handle) { const auto* slice = reinterpret_cast(handle); const jsize len = static_cast(slice->size()); const jbyteArray data = env->NewByteArray(len); if (data == nullptr) { // exception thrown: OutOfMemoryError return nullptr; } env->SetByteArrayRegion( data, 0, len, const_cast(reinterpret_cast(slice->data()))); if (env->ExceptionCheck()) { // exception thrown: ArrayIndexOutOfBoundsException env->DeleteLocalRef(data); return nullptr; } return data; } /* * Class: org_rocksdb_Slice * Method: clear0 * Signature: (JZJ)V */ void Java_org_rocksdb_Slice_clear0(JNIEnv* /*env*/, jobject /*jobj*/, jlong handle, jboolean shouldRelease, jlong internalBufferOffset) { auto* slice = reinterpret_cast(handle); if (shouldRelease == JNI_TRUE) { const char* buf = slice->data_ - internalBufferOffset; delete[] buf; } slice->clear(); } /* * Class: org_rocksdb_Slice * Method: removePrefix0 * Signature: (JI)V */ void Java_org_rocksdb_Slice_removePrefix0(JNIEnv* /*env*/, jobject /*jobj*/, jlong handle, jint length) { auto* slice = reinterpret_cast(handle); slice->remove_prefix(length); } /* * Class: org_rocksdb_Slice * Method: disposeInternalBuf * Signature: (JJ)V */ void Java_org_rocksdb_Slice_disposeInternalBuf(JNIEnv* /*env*/, jobject /*jobj*/, jlong handle, jlong internalBufferOffset) { const auto* slice = reinterpret_cast(handle); const char* buf = slice->data_ - internalBufferOffset; delete[] buf; } // // (data_addr); const auto* slice = new rocksdb::Slice(ptrData, length); return reinterpret_cast(slice); } /* * Class: org_rocksdb_DirectSlice * Method: createNewDirectSlice1 * Signature: (Ljava/nio/ByteBuffer;)J */ jlong Java_org_rocksdb_DirectSlice_createNewDirectSlice1(JNIEnv* env, jclass /*jcls*/, jobject data) { void* data_addr = env->GetDirectBufferAddress(data); if (data_addr == nullptr) { // error: memory region is undefined, given object is not a direct // java.nio.Buffer, or JNI access to direct buffers is not supported by JVM rocksdb::IllegalArgumentExceptionJni::ThrowNew( env, rocksdb::Status::InvalidArgument("Could not access DirectBuffer")); return 0; } const auto* ptrData = reinterpret_cast(data_addr); const auto* slice = new rocksdb::Slice(ptrData); return reinterpret_cast(slice); } /* * Class: org_rocksdb_DirectSlice * Method: data0 * Signature: (J)Ljava/lang/Object; */ jobject Java_org_rocksdb_DirectSlice_data0(JNIEnv* env, jobject /*jobj*/, jlong handle) { const auto* slice = reinterpret_cast(handle); return env->NewDirectByteBuffer(const_cast(slice->data()), slice->size()); } /* * Class: org_rocksdb_DirectSlice * Method: get0 * Signature: (JI)B */ jbyte Java_org_rocksdb_DirectSlice_get0(JNIEnv* /*env*/, jobject /*jobj*/, jlong handle, jint offset) { const auto* slice = reinterpret_cast(handle); return (*slice)[offset]; } /* * Class: org_rocksdb_DirectSlice * Method: clear0 * Signature: (JZJ)V */ void Java_org_rocksdb_DirectSlice_clear0(JNIEnv* /*env*/, jobject /*jobj*/, jlong handle, jboolean shouldRelease, jlong internalBufferOffset) { auto* slice = reinterpret_cast(handle); if (shouldRelease == JNI_TRUE) { const char* buf = slice->data_ - internalBufferOffset; delete[] buf; } slice->clear(); } /* * Class: org_rocksdb_DirectSlice * Method: removePrefix0 * Signature: (JI)V */ void Java_org_rocksdb_DirectSlice_removePrefix0(JNIEnv* /*env*/, jobject /*jobj*/, jlong handle, jint length) { auto* slice = reinterpret_cast(handle); slice->remove_prefix(length); } /* * Class: org_rocksdb_DirectSlice * Method: disposeInternalBuf * Signature: (JJ)V */ void Java_org_rocksdb_DirectSlice_disposeInternalBuf( JNIEnv* /*env*/, jobject /*jobj*/, jlong handle, jlong internalBufferOffset) { const auto* slice = reinterpret_cast(handle); const char* buf = slice->data_ - internalBufferOffset; delete[] buf; } // rocksdb-5.17.2/java/rocksjni/snapshot.cc000066400000000000000000000016021337235545400201600ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file implements the "bridge" between Java and C++. #include #include #include #include "include/org_rocksdb_Snapshot.h" #include "rocksdb/db.h" #include "rocksjni/portal.h" /* * Class: org_rocksdb_Snapshot * Method: getSequenceNumber * Signature: (J)J */ jlong Java_org_rocksdb_Snapshot_getSequenceNumber(JNIEnv* /*env*/, jobject /*jobj*/, jlong jsnapshot_handle) { auto* snapshot = reinterpret_cast(jsnapshot_handle); return snapshot->GetSequenceNumber(); } rocksdb-5.17.2/java/rocksjni/sst_file_manager.cc000066400000000000000000000202671337235545400216330ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file implements the "bridge" between Java and C++ and enables // calling C++ rocksdb::SstFileManager methods // from Java side. #include #include #include "include/org_rocksdb_SstFileManager.h" #include "rocksdb/sst_file_manager.h" #include "rocksjni/portal.h" /* * Class: org_rocksdb_SstFileManager * Method: newSstFileManager * Signature: (JJJDJ)J */ jlong Java_org_rocksdb_SstFileManager_newSstFileManager( JNIEnv* jnienv, jclass /*jcls*/, jlong jenv_handle, jlong jlogger_handle, jlong jrate_bytes, jdouble jmax_trash_db_ratio, jlong jmax_delete_chunk_bytes) { auto* env = reinterpret_cast(jenv_handle); rocksdb::Status s; rocksdb::SstFileManager* sst_file_manager = nullptr; if (jlogger_handle != 0) { auto* sptr_logger = reinterpret_cast*>(jlogger_handle); sst_file_manager = rocksdb::NewSstFileManager( env, *sptr_logger, "", jrate_bytes, true, &s, jmax_trash_db_ratio, jmax_delete_chunk_bytes); } else { sst_file_manager = rocksdb::NewSstFileManager(env, nullptr, "", jrate_bytes, true, &s, jmax_trash_db_ratio, jmax_delete_chunk_bytes); } if (!s.ok()) { if (sst_file_manager != nullptr) { delete sst_file_manager; } rocksdb::RocksDBExceptionJni::ThrowNew(jnienv, s); } auto* sptr_sst_file_manager = new std::shared_ptr(sst_file_manager); return reinterpret_cast(sptr_sst_file_manager); } /* * Class: org_rocksdb_SstFileManager * Method: setMaxAllowedSpaceUsage * Signature: (JJ)V */ void Java_org_rocksdb_SstFileManager_setMaxAllowedSpaceUsage( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jmax_allowed_space) { auto* sptr_sst_file_manager = reinterpret_cast*>(jhandle); sptr_sst_file_manager->get()->SetMaxAllowedSpaceUsage(jmax_allowed_space); } /* * Class: org_rocksdb_SstFileManager * Method: setCompactionBufferSize * Signature: (JJ)V */ void Java_org_rocksdb_SstFileManager_setCompactionBufferSize( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jcompaction_buffer_size) { auto* sptr_sst_file_manager = reinterpret_cast*>(jhandle); sptr_sst_file_manager->get()->SetCompactionBufferSize( jcompaction_buffer_size); } /* * Class: org_rocksdb_SstFileManager * Method: isMaxAllowedSpaceReached * Signature: (J)Z */ jboolean Java_org_rocksdb_SstFileManager_isMaxAllowedSpaceReached( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* sptr_sst_file_manager = reinterpret_cast*>(jhandle); return sptr_sst_file_manager->get()->IsMaxAllowedSpaceReached(); } /* * Class: org_rocksdb_SstFileManager * Method: isMaxAllowedSpaceReachedIncludingCompactions * Signature: (J)Z */ jboolean Java_org_rocksdb_SstFileManager_isMaxAllowedSpaceReachedIncludingCompactions( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* sptr_sst_file_manager = reinterpret_cast*>(jhandle); return sptr_sst_file_manager->get() ->IsMaxAllowedSpaceReachedIncludingCompactions(); } /* * Class: org_rocksdb_SstFileManager * Method: getTotalSize * Signature: (J)J */ jlong Java_org_rocksdb_SstFileManager_getTotalSize(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* sptr_sst_file_manager = reinterpret_cast*>(jhandle); return sptr_sst_file_manager->get()->GetTotalSize(); } /* * Class: org_rocksdb_SstFileManager * Method: getTrackedFiles * Signature: (J)Ljava/util/Map; */ jobject Java_org_rocksdb_SstFileManager_getTrackedFiles(JNIEnv* env, jobject /*jobj*/, jlong jhandle) { auto* sptr_sst_file_manager = reinterpret_cast*>(jhandle); auto tracked_files = sptr_sst_file_manager->get()->GetTrackedFiles(); const jobject jtracked_files = rocksdb::HashMapJni::construct( env, static_cast(tracked_files.size())); if (jtracked_files == nullptr) { // exception occurred return nullptr; } const rocksdb::HashMapJni::FnMapKV fn_map_kv = [env](const std::pair& pair) { const jstring jtracked_file_path = env->NewStringUTF(pair.first.c_str()); if (jtracked_file_path == nullptr) { // an error occurred return std::unique_ptr>(nullptr); } const jobject jtracked_file_size = rocksdb::LongJni::valueOf(env, pair.second); if (jtracked_file_size == nullptr) { // an error occurred return std::unique_ptr>(nullptr); } return std::unique_ptr>( new std::pair(jtracked_file_path, jtracked_file_size)); }; if (!rocksdb::HashMapJni::putAll(env, jtracked_files, tracked_files.begin(), tracked_files.end(), fn_map_kv)) { // exception occcurred return nullptr; } return jtracked_files; } /* * Class: org_rocksdb_SstFileManager * Method: getDeleteRateBytesPerSecond * Signature: (J)J */ jlong Java_org_rocksdb_SstFileManager_getDeleteRateBytesPerSecond( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* sptr_sst_file_manager = reinterpret_cast*>(jhandle); return sptr_sst_file_manager->get()->GetDeleteRateBytesPerSecond(); } /* * Class: org_rocksdb_SstFileManager * Method: setDeleteRateBytesPerSecond * Signature: (JJ)V */ void Java_org_rocksdb_SstFileManager_setDeleteRateBytesPerSecond( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jdelete_rate) { auto* sptr_sst_file_manager = reinterpret_cast*>(jhandle); sptr_sst_file_manager->get()->SetDeleteRateBytesPerSecond(jdelete_rate); } /* * Class: org_rocksdb_SstFileManager * Method: getMaxTrashDBRatio * Signature: (J)D */ jdouble Java_org_rocksdb_SstFileManager_getMaxTrashDBRatio(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* sptr_sst_file_manager = reinterpret_cast*>(jhandle); return sptr_sst_file_manager->get()->GetMaxTrashDBRatio(); } /* * Class: org_rocksdb_SstFileManager * Method: setMaxTrashDBRatio * Signature: (JD)V */ void Java_org_rocksdb_SstFileManager_setMaxTrashDBRatio(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jdouble jratio) { auto* sptr_sst_file_manager = reinterpret_cast*>(jhandle); sptr_sst_file_manager->get()->SetMaxTrashDBRatio(jratio); } /* * Class: org_rocksdb_SstFileManager * Method: disposeInternal * Signature: (J)V */ void Java_org_rocksdb_SstFileManager_disposeInternal(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* sptr_sst_file_manager = reinterpret_cast*>(jhandle); delete sptr_sst_file_manager; } rocksdb-5.17.2/java/rocksjni/sst_file_writerjni.cc000066400000000000000000000217011337235545400222300ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file implements the "bridge" between Java and C++ and enables // calling C++ rocksdb::SstFileWriter methods // from Java side. #include #include #include "include/org_rocksdb_SstFileWriter.h" #include "rocksdb/comparator.h" #include "rocksdb/env.h" #include "rocksdb/options.h" #include "rocksdb/sst_file_writer.h" #include "rocksjni/portal.h" /* * Class: org_rocksdb_SstFileWriter * Method: newSstFileWriter * Signature: (JJJB)J */ jlong Java_org_rocksdb_SstFileWriter_newSstFileWriter__JJJB( JNIEnv * /*env*/, jclass /*jcls*/, jlong jenvoptions, jlong joptions, jlong jcomparator_handle, jbyte jcomparator_type) { rocksdb::Comparator *comparator = nullptr; switch (jcomparator_type) { // JAVA_COMPARATOR case 0x0: comparator = reinterpret_cast( jcomparator_handle); break; // JAVA_DIRECT_COMPARATOR case 0x1: comparator = reinterpret_cast( jcomparator_handle); break; // JAVA_NATIVE_COMPARATOR_WRAPPER case 0x2: comparator = reinterpret_cast(jcomparator_handle); break; } auto *env_options = reinterpret_cast(jenvoptions); auto *options = reinterpret_cast(joptions); rocksdb::SstFileWriter *sst_file_writer = new rocksdb::SstFileWriter(*env_options, *options, comparator); return reinterpret_cast(sst_file_writer); } /* * Class: org_rocksdb_SstFileWriter * Method: newSstFileWriter * Signature: (JJ)J */ jlong Java_org_rocksdb_SstFileWriter_newSstFileWriter__JJ(JNIEnv * /*env*/, jclass /*jcls*/, jlong jenvoptions, jlong joptions) { auto *env_options = reinterpret_cast(jenvoptions); auto *options = reinterpret_cast(joptions); rocksdb::SstFileWriter *sst_file_writer = new rocksdb::SstFileWriter(*env_options, *options); return reinterpret_cast(sst_file_writer); } /* * Class: org_rocksdb_SstFileWriter * Method: open * Signature: (JLjava/lang/String;)V */ void Java_org_rocksdb_SstFileWriter_open(JNIEnv *env, jobject /*jobj*/, jlong jhandle, jstring jfile_path) { const char *file_path = env->GetStringUTFChars(jfile_path, nullptr); if (file_path == nullptr) { // exception thrown: OutOfMemoryError return; } rocksdb::Status s = reinterpret_cast(jhandle)->Open(file_path); env->ReleaseStringUTFChars(jfile_path, file_path); if (!s.ok()) { rocksdb::RocksDBExceptionJni::ThrowNew(env, s); } } /* * Class: org_rocksdb_SstFileWriter * Method: put * Signature: (JJJ)V */ void Java_org_rocksdb_SstFileWriter_put__JJJ(JNIEnv *env, jobject /*jobj*/, jlong jhandle, jlong jkey_handle, jlong jvalue_handle) { auto *key_slice = reinterpret_cast(jkey_handle); auto *value_slice = reinterpret_cast(jvalue_handle); rocksdb::Status s = reinterpret_cast(jhandle)->Put( *key_slice, *value_slice); if (!s.ok()) { rocksdb::RocksDBExceptionJni::ThrowNew(env, s); } } /* * Class: org_rocksdb_SstFileWriter * Method: put * Signature: (JJJ)V */ void Java_org_rocksdb_SstFileWriter_put__J_3B_3B(JNIEnv *env, jobject /*jobj*/, jlong jhandle, jbyteArray jkey, jbyteArray jval) { jbyte *key = env->GetByteArrayElements(jkey, nullptr); if (key == nullptr) { // exception thrown: OutOfMemoryError return; } rocksdb::Slice key_slice(reinterpret_cast(key), env->GetArrayLength(jkey)); jbyte *value = env->GetByteArrayElements(jval, nullptr); if (value == nullptr) { // exception thrown: OutOfMemoryError env->ReleaseByteArrayElements(jkey, key, JNI_ABORT); return; } rocksdb::Slice value_slice(reinterpret_cast(value), env->GetArrayLength(jval)); rocksdb::Status s = reinterpret_cast(jhandle)->Put( key_slice, value_slice); env->ReleaseByteArrayElements(jkey, key, JNI_ABORT); env->ReleaseByteArrayElements(jval, value, JNI_ABORT); if (!s.ok()) { rocksdb::RocksDBExceptionJni::ThrowNew(env, s); } } /* * Class: org_rocksdb_SstFileWriter * Method: merge * Signature: (JJJ)V */ void Java_org_rocksdb_SstFileWriter_merge__JJJ(JNIEnv *env, jobject /*jobj*/, jlong jhandle, jlong jkey_handle, jlong jvalue_handle) { auto *key_slice = reinterpret_cast(jkey_handle); auto *value_slice = reinterpret_cast(jvalue_handle); rocksdb::Status s = reinterpret_cast(jhandle)->Merge(*key_slice, *value_slice); if (!s.ok()) { rocksdb::RocksDBExceptionJni::ThrowNew(env, s); } } /* * Class: org_rocksdb_SstFileWriter * Method: merge * Signature: (J[B[B)V */ void Java_org_rocksdb_SstFileWriter_merge__J_3B_3B(JNIEnv *env, jobject /*jobj*/, jlong jhandle, jbyteArray jkey, jbyteArray jval) { jbyte *key = env->GetByteArrayElements(jkey, nullptr); if (key == nullptr) { // exception thrown: OutOfMemoryError return; } rocksdb::Slice key_slice(reinterpret_cast(key), env->GetArrayLength(jkey)); jbyte *value = env->GetByteArrayElements(jval, nullptr); if (value == nullptr) { // exception thrown: OutOfMemoryError env->ReleaseByteArrayElements(jkey, key, JNI_ABORT); return; } rocksdb::Slice value_slice(reinterpret_cast(value), env->GetArrayLength(jval)); rocksdb::Status s = reinterpret_cast(jhandle)->Merge(key_slice, value_slice); env->ReleaseByteArrayElements(jkey, key, JNI_ABORT); env->ReleaseByteArrayElements(jval, value, JNI_ABORT); if (!s.ok()) { rocksdb::RocksDBExceptionJni::ThrowNew(env, s); } } /* * Class: org_rocksdb_SstFileWriter * Method: delete * Signature: (JJJ)V */ void Java_org_rocksdb_SstFileWriter_delete__J_3B(JNIEnv *env, jobject /*jobj*/, jlong jhandle, jbyteArray jkey) { jbyte *key = env->GetByteArrayElements(jkey, nullptr); if (key == nullptr) { // exception thrown: OutOfMemoryError return; } rocksdb::Slice key_slice(reinterpret_cast(key), env->GetArrayLength(jkey)); rocksdb::Status s = reinterpret_cast(jhandle)->Delete(key_slice); env->ReleaseByteArrayElements(jkey, key, JNI_ABORT); if (!s.ok()) { rocksdb::RocksDBExceptionJni::ThrowNew(env, s); } } /* * Class: org_rocksdb_SstFileWriter * Method: delete * Signature: (JJJ)V */ void Java_org_rocksdb_SstFileWriter_delete__JJ(JNIEnv *env, jobject /*jobj*/, jlong jhandle, jlong jkey_handle) { auto *key_slice = reinterpret_cast(jkey_handle); rocksdb::Status s = reinterpret_cast(jhandle)->Delete(*key_slice); if (!s.ok()) { rocksdb::RocksDBExceptionJni::ThrowNew(env, s); } } /* * Class: org_rocksdb_SstFileWriter * Method: finish * Signature: (J)V */ void Java_org_rocksdb_SstFileWriter_finish(JNIEnv *env, jobject /*jobj*/, jlong jhandle) { rocksdb::Status s = reinterpret_cast(jhandle)->Finish(); if (!s.ok()) { rocksdb::RocksDBExceptionJni::ThrowNew(env, s); } } /* * Class: org_rocksdb_SstFileWriter * Method: disposeInternal * Signature: (J)V */ void Java_org_rocksdb_SstFileWriter_disposeInternal(JNIEnv * /*env*/, jobject /*jobj*/, jlong jhandle) { delete reinterpret_cast(jhandle); } rocksdb-5.17.2/java/rocksjni/statistics.cc000066400000000000000000000213061337235545400205160ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file implements the "bridge" between Java and C++ and enables // calling c++ rocksdb::Statistics methods from Java side. #include #include #include #include "include/org_rocksdb_Statistics.h" #include "rocksdb/statistics.h" #include "rocksjni/portal.h" #include "rocksjni/statisticsjni.h" /* * Class: org_rocksdb_Statistics * Method: newStatistics * Signature: ()J */ jlong Java_org_rocksdb_Statistics_newStatistics__(JNIEnv* env, jclass jcls) { return Java_org_rocksdb_Statistics_newStatistics___3BJ(env, jcls, nullptr, 0); } /* * Class: org_rocksdb_Statistics * Method: newStatistics * Signature: (J)J */ jlong Java_org_rocksdb_Statistics_newStatistics__J( JNIEnv* env, jclass jcls, jlong jother_statistics_handle) { return Java_org_rocksdb_Statistics_newStatistics___3BJ( env, jcls, nullptr, jother_statistics_handle); } /* * Class: org_rocksdb_Statistics * Method: newStatistics * Signature: ([B)J */ jlong Java_org_rocksdb_Statistics_newStatistics___3B(JNIEnv* env, jclass jcls, jbyteArray jhistograms) { return Java_org_rocksdb_Statistics_newStatistics___3BJ(env, jcls, jhistograms, 0); } /* * Class: org_rocksdb_Statistics * Method: newStatistics * Signature: ([BJ)J */ jlong Java_org_rocksdb_Statistics_newStatistics___3BJ( JNIEnv* env, jclass /*jcls*/, jbyteArray jhistograms, jlong jother_statistics_handle) { std::shared_ptr* pSptr_other_statistics = nullptr; if (jother_statistics_handle > 0) { pSptr_other_statistics = reinterpret_cast*>( jother_statistics_handle); } std::set histograms; if (jhistograms != nullptr) { const jsize len = env->GetArrayLength(jhistograms); if (len > 0) { jbyte* jhistogram = env->GetByteArrayElements(jhistograms, nullptr); if (jhistogram == nullptr) { // exception thrown: OutOfMemoryError return 0; } for (jsize i = 0; i < len; i++) { const rocksdb::Histograms histogram = rocksdb::HistogramTypeJni::toCppHistograms(jhistogram[i]); histograms.emplace(histogram); } env->ReleaseByteArrayElements(jhistograms, jhistogram, JNI_ABORT); } } std::shared_ptr sptr_other_statistics = nullptr; if (pSptr_other_statistics != nullptr) { sptr_other_statistics = *pSptr_other_statistics; } auto* pSptr_statistics = new std::shared_ptr( new rocksdb::StatisticsJni(sptr_other_statistics, histograms)); return reinterpret_cast(pSptr_statistics); } /* * Class: org_rocksdb_Statistics * Method: disposeInternal * Signature: (J)V */ void Java_org_rocksdb_Statistics_disposeInternal(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { if (jhandle > 0) { auto* pSptr_statistics = reinterpret_cast*>(jhandle); delete pSptr_statistics; } } /* * Class: org_rocksdb_Statistics * Method: statsLevel * Signature: (J)B */ jbyte Java_org_rocksdb_Statistics_statsLevel(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* pSptr_statistics = reinterpret_cast*>(jhandle); assert(pSptr_statistics != nullptr); return rocksdb::StatsLevelJni::toJavaStatsLevel( pSptr_statistics->get()->stats_level_); } /* * Class: org_rocksdb_Statistics * Method: setStatsLevel * Signature: (JB)V */ void Java_org_rocksdb_Statistics_setStatsLevel(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jbyte jstats_level) { auto* pSptr_statistics = reinterpret_cast*>(jhandle); assert(pSptr_statistics != nullptr); auto stats_level = rocksdb::StatsLevelJni::toCppStatsLevel(jstats_level); pSptr_statistics->get()->stats_level_ = stats_level; } /* * Class: org_rocksdb_Statistics * Method: getTickerCount * Signature: (JB)J */ jlong Java_org_rocksdb_Statistics_getTickerCount(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jbyte jticker_type) { auto* pSptr_statistics = reinterpret_cast*>(jhandle); assert(pSptr_statistics != nullptr); auto ticker = rocksdb::TickerTypeJni::toCppTickers(jticker_type); return pSptr_statistics->get()->getTickerCount(ticker); } /* * Class: org_rocksdb_Statistics * Method: getAndResetTickerCount * Signature: (JB)J */ jlong Java_org_rocksdb_Statistics_getAndResetTickerCount(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jbyte jticker_type) { auto* pSptr_statistics = reinterpret_cast*>(jhandle); assert(pSptr_statistics != nullptr); auto ticker = rocksdb::TickerTypeJni::toCppTickers(jticker_type); return pSptr_statistics->get()->getAndResetTickerCount(ticker); } /* * Class: org_rocksdb_Statistics * Method: getHistogramData * Signature: (JB)Lorg/rocksdb/HistogramData; */ jobject Java_org_rocksdb_Statistics_getHistogramData(JNIEnv* env, jobject /*jobj*/, jlong jhandle, jbyte jhistogram_type) { auto* pSptr_statistics = reinterpret_cast*>(jhandle); assert(pSptr_statistics != nullptr); rocksdb::HistogramData data; // TODO(AR) perhaps better to construct a Java Object Wrapper that // uses ptr to C++ `new HistogramData` auto histogram = rocksdb::HistogramTypeJni::toCppHistograms(jhistogram_type); pSptr_statistics->get()->histogramData( static_cast(histogram), &data); jclass jclazz = rocksdb::HistogramDataJni::getJClass(env); if (jclazz == nullptr) { // exception occurred accessing class return nullptr; } jmethodID mid = rocksdb::HistogramDataJni::getConstructorMethodId(env); if (mid == nullptr) { // exception occurred accessing method return nullptr; } return env->NewObject(jclazz, mid, data.median, data.percentile95, data.percentile99, data.average, data.standard_deviation); } /* * Class: org_rocksdb_Statistics * Method: getHistogramString * Signature: (JB)Ljava/lang/String; */ jstring Java_org_rocksdb_Statistics_getHistogramString(JNIEnv* env, jobject /*jobj*/, jlong jhandle, jbyte jhistogram_type) { auto* pSptr_statistics = reinterpret_cast*>(jhandle); assert(pSptr_statistics != nullptr); auto histogram = rocksdb::HistogramTypeJni::toCppHistograms(jhistogram_type); auto str = pSptr_statistics->get()->getHistogramString(histogram); return env->NewStringUTF(str.c_str()); } /* * Class: org_rocksdb_Statistics * Method: reset * Signature: (J)V */ void Java_org_rocksdb_Statistics_reset(JNIEnv* env, jobject /*jobj*/, jlong jhandle) { auto* pSptr_statistics = reinterpret_cast*>(jhandle); assert(pSptr_statistics != nullptr); rocksdb::Status s = pSptr_statistics->get()->Reset(); if (!s.ok()) { rocksdb::RocksDBExceptionJni::ThrowNew(env, s); } } /* * Class: org_rocksdb_Statistics * Method: toString * Signature: (J)Ljava/lang/String; */ jstring Java_org_rocksdb_Statistics_toString(JNIEnv* env, jobject /*jobj*/, jlong jhandle) { auto* pSptr_statistics = reinterpret_cast*>(jhandle); assert(pSptr_statistics != nullptr); auto str = pSptr_statistics->get()->ToString(); return env->NewStringUTF(str.c_str()); } rocksdb-5.17.2/java/rocksjni/statisticsjni.cc000066400000000000000000000020061337235545400212130ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file implements the callback "bridge" between Java and C++ for // rocksdb::Statistics #include "rocksjni/statisticsjni.h" namespace rocksdb { StatisticsJni::StatisticsJni(std::shared_ptr stats) : StatisticsImpl(stats, false), m_ignore_histograms() { } StatisticsJni::StatisticsJni(std::shared_ptr stats, const std::set ignore_histograms) : StatisticsImpl(stats, false), m_ignore_histograms(ignore_histograms) { } bool StatisticsJni::HistEnabledForType(uint32_t type) const { if (type >= HISTOGRAM_ENUM_MAX) { return false; } if (m_ignore_histograms.count(type) > 0) { return false; } return true; } // @lint-ignore TXT4 T25377293 Grandfathered in };rocksdb-5.17.2/java/rocksjni/statisticsjni.h000066400000000000000000000020331337235545400210550ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file implements the callback "bridge" between Java and C++ for // rocksdb::Statistics #ifndef JAVA_ROCKSJNI_STATISTICSJNI_H_ #define JAVA_ROCKSJNI_STATISTICSJNI_H_ #include #include #include #include "rocksdb/statistics.h" #include "monitoring/statistics.h" namespace rocksdb { class StatisticsJni : public StatisticsImpl { public: StatisticsJni(std::shared_ptr stats); StatisticsJni(std::shared_ptr stats, const std::set ignore_histograms); virtual bool HistEnabledForType(uint32_t type) const override; private: const std::set m_ignore_histograms; }; } // namespace rocksdb // @lint-ignore TXT4 T25377293 Grandfathered in #endif // JAVA_ROCKSJNI_STATISTICSJNI_H_rocksdb-5.17.2/java/rocksjni/table.cc000066400000000000000000000101441337235545400174110ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file implements the "bridge" between Java and C++ for rocksdb::Options. #include "rocksdb/table.h" #include #include "include/org_rocksdb_BlockBasedTableConfig.h" #include "include/org_rocksdb_PlainTableConfig.h" #include "rocksdb/cache.h" #include "rocksdb/filter_policy.h" /* * Class: org_rocksdb_PlainTableConfig * Method: newTableFactoryHandle * Signature: (IIDIIBZZ)J */ jlong Java_org_rocksdb_PlainTableConfig_newTableFactoryHandle( JNIEnv * /*env*/, jobject /*jobj*/, jint jkey_size, jint jbloom_bits_per_key, jdouble jhash_table_ratio, jint jindex_sparseness, jint jhuge_page_tlb_size, jbyte jencoding_type, jboolean jfull_scan_mode, jboolean jstore_index_in_file) { rocksdb::PlainTableOptions options = rocksdb::PlainTableOptions(); options.user_key_len = jkey_size; options.bloom_bits_per_key = jbloom_bits_per_key; options.hash_table_ratio = jhash_table_ratio; options.index_sparseness = jindex_sparseness; options.huge_page_tlb_size = jhuge_page_tlb_size; options.encoding_type = static_cast(jencoding_type); options.full_scan_mode = jfull_scan_mode; options.store_index_in_file = jstore_index_in_file; return reinterpret_cast(rocksdb::NewPlainTableFactory(options)); } /* * Class: org_rocksdb_BlockBasedTableConfig * Method: newTableFactoryHandle * Signature: (ZJIJJIIZIZZZJIBBI)J */ jlong Java_org_rocksdb_BlockBasedTableConfig_newTableFactoryHandle( JNIEnv * /*env*/, jobject /*jobj*/, jboolean no_block_cache, jlong block_cache_size, jint block_cache_num_shardbits, jlong jblock_cache, jlong block_size, jint block_size_deviation, jint block_restart_interval, jboolean whole_key_filtering, jlong jfilter_policy, jboolean cache_index_and_filter_blocks, jboolean pin_l0_filter_and_index_blocks_in_cache, jboolean hash_index_allow_collision, jlong block_cache_compressed_size, jint block_cache_compressd_num_shard_bits, jbyte jchecksum_type, jbyte jindex_type, jint jformat_version) { rocksdb::BlockBasedTableOptions options; options.no_block_cache = no_block_cache; if (!no_block_cache) { if (jblock_cache > 0) { std::shared_ptr *pCache = reinterpret_cast *>(jblock_cache); options.block_cache = *pCache; } else if (block_cache_size > 0) { if (block_cache_num_shardbits > 0) { options.block_cache = rocksdb::NewLRUCache(block_cache_size, block_cache_num_shardbits); } else { options.block_cache = rocksdb::NewLRUCache(block_cache_size); } } } options.block_size = block_size; options.block_size_deviation = block_size_deviation; options.block_restart_interval = block_restart_interval; options.whole_key_filtering = whole_key_filtering; if (jfilter_policy > 0) { std::shared_ptr *pFilterPolicy = reinterpret_cast *>( jfilter_policy); options.filter_policy = *pFilterPolicy; } options.cache_index_and_filter_blocks = cache_index_and_filter_blocks; options.pin_l0_filter_and_index_blocks_in_cache = pin_l0_filter_and_index_blocks_in_cache; options.hash_index_allow_collision = hash_index_allow_collision; if (block_cache_compressed_size > 0) { if (block_cache_compressd_num_shard_bits > 0) { options.block_cache = rocksdb::NewLRUCache( block_cache_compressed_size, block_cache_compressd_num_shard_bits); } else { options.block_cache = rocksdb::NewLRUCache(block_cache_compressed_size); } } options.checksum = static_cast(jchecksum_type); options.index_type = static_cast(jindex_type); options.format_version = jformat_version; return reinterpret_cast(rocksdb::NewBlockBasedTableFactory(options)); } rocksdb-5.17.2/java/rocksjni/transaction.cc000066400000000000000000001627101337235545400206560ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file implements the "bridge" between Java and C++ // for rocksdb::Transaction. #include #include #include "include/org_rocksdb_Transaction.h" #include "rocksdb/utilities/transaction.h" #include "rocksjni/portal.h" using namespace std::placeholders; #if defined(_MSC_VER) #pragma warning(push) #pragma warning(disable : 4503) // identifier' : decorated name length // exceeded, name was truncated #endif /* * Class: org_rocksdb_Transaction * Method: setSnapshot * Signature: (J)V */ void Java_org_rocksdb_Transaction_setSnapshot(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* txn = reinterpret_cast(jhandle); txn->SetSnapshot(); } /* * Class: org_rocksdb_Transaction * Method: setSnapshotOnNextOperation * Signature: (J)V */ void Java_org_rocksdb_Transaction_setSnapshotOnNextOperation__J( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* txn = reinterpret_cast(jhandle); txn->SetSnapshotOnNextOperation(nullptr); } /* * Class: org_rocksdb_Transaction * Method: setSnapshotOnNextOperation * Signature: (JJ)V */ void Java_org_rocksdb_Transaction_setSnapshotOnNextOperation__JJ( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jtxn_notifier_handle) { auto* txn = reinterpret_cast(jhandle); auto* txn_notifier = reinterpret_cast*>( jtxn_notifier_handle); txn->SetSnapshotOnNextOperation(*txn_notifier); } /* * Class: org_rocksdb_Transaction * Method: getSnapshot * Signature: (J)J */ jlong Java_org_rocksdb_Transaction_getSnapshot(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* txn = reinterpret_cast(jhandle); const rocksdb::Snapshot* snapshot = txn->GetSnapshot(); return reinterpret_cast(snapshot); } /* * Class: org_rocksdb_Transaction * Method: clearSnapshot * Signature: (J)V */ void Java_org_rocksdb_Transaction_clearSnapshot(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* txn = reinterpret_cast(jhandle); txn->ClearSnapshot(); } /* * Class: org_rocksdb_Transaction * Method: prepare * Signature: (J)V */ void Java_org_rocksdb_Transaction_prepare(JNIEnv* env, jobject /*jobj*/, jlong jhandle) { auto* txn = reinterpret_cast(jhandle); rocksdb::Status s = txn->Prepare(); if (!s.ok()) { rocksdb::RocksDBExceptionJni::ThrowNew(env, s); } } /* * Class: org_rocksdb_Transaction * Method: commit * Signature: (J)V */ void Java_org_rocksdb_Transaction_commit(JNIEnv* env, jobject /*jobj*/, jlong jhandle) { auto* txn = reinterpret_cast(jhandle); rocksdb::Status s = txn->Commit(); if (!s.ok()) { rocksdb::RocksDBExceptionJni::ThrowNew(env, s); } } /* * Class: org_rocksdb_Transaction * Method: rollback * Signature: (J)V */ void Java_org_rocksdb_Transaction_rollback(JNIEnv* env, jobject /*jobj*/, jlong jhandle) { auto* txn = reinterpret_cast(jhandle); rocksdb::Status s = txn->Rollback(); if (!s.ok()) { rocksdb::RocksDBExceptionJni::ThrowNew(env, s); } } /* * Class: org_rocksdb_Transaction * Method: setSavePoint * Signature: (J)V */ void Java_org_rocksdb_Transaction_setSavePoint(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* txn = reinterpret_cast(jhandle); txn->SetSavePoint(); } /* * Class: org_rocksdb_Transaction * Method: rollbackToSavePoint * Signature: (J)V */ void Java_org_rocksdb_Transaction_rollbackToSavePoint(JNIEnv* env, jobject /*jobj*/, jlong jhandle) { auto* txn = reinterpret_cast(jhandle); rocksdb::Status s = txn->RollbackToSavePoint(); if (!s.ok()) { rocksdb::RocksDBExceptionJni::ThrowNew(env, s); } } typedef std::function FnGet; // TODO(AR) consider refactoring to share this between here and rocksjni.cc jbyteArray txn_get_helper(JNIEnv* env, const FnGet& fn_get, const jlong& jread_options_handle, const jbyteArray& jkey, const jint& jkey_part_len) { jbyte* key = env->GetByteArrayElements(jkey, nullptr); if (key == nullptr) { // exception thrown: OutOfMemoryError return nullptr; } rocksdb::Slice key_slice(reinterpret_cast(key), jkey_part_len); auto* read_options = reinterpret_cast(jread_options_handle); std::string value; rocksdb::Status s = fn_get(*read_options, key_slice, &value); // trigger java unref on key. // by passing JNI_ABORT, it will simply release the reference without // copying the result back to the java byte array. env->ReleaseByteArrayElements(jkey, key, JNI_ABORT); if (s.IsNotFound()) { return nullptr; } if (s.ok()) { jbyteArray jret_value = env->NewByteArray(static_cast(value.size())); if (jret_value == nullptr) { // exception thrown: OutOfMemoryError return nullptr; } env->SetByteArrayRegion(jret_value, 0, static_cast(value.size()), const_cast(reinterpret_cast(value.c_str()))); if (env->ExceptionCheck()) { // exception thrown: ArrayIndexOutOfBoundsException return nullptr; } return jret_value; } rocksdb::RocksDBExceptionJni::ThrowNew(env, s); return nullptr; } /* * Class: org_rocksdb_Transaction * Method: get * Signature: (JJ[BIJ)[B */ jbyteArray Java_org_rocksdb_Transaction_get__JJ_3BIJ( JNIEnv* env, jobject /*jobj*/, jlong jhandle, jlong jread_options_handle, jbyteArray jkey, jint jkey_part_len, jlong jcolumn_family_handle) { auto* txn = reinterpret_cast(jhandle); auto* column_family_handle = reinterpret_cast(jcolumn_family_handle); FnGet fn_get = std::bind(&rocksdb::Transaction::Get, txn, _1, column_family_handle, _2, _3); return txn_get_helper(env, fn_get, jread_options_handle, jkey, jkey_part_len); } /* * Class: org_rocksdb_Transaction * Method: get * Signature: (JJ[BI)[B */ jbyteArray Java_org_rocksdb_Transaction_get__JJ_3BI( JNIEnv* env, jobject /*jobj*/, jlong jhandle, jlong jread_options_handle, jbyteArray jkey, jint jkey_part_len) { auto* txn = reinterpret_cast(jhandle); FnGet fn_get = std::bind( &rocksdb::Transaction::Get, txn, _1, _2, _3); return txn_get_helper(env, fn_get, jread_options_handle, jkey, jkey_part_len); } // TODO(AR) consider refactoring to share this between here and rocksjni.cc // used by txn_multi_get_helper below std::vector txn_column_families_helper( JNIEnv* env, jlongArray jcolumn_family_handles, bool* has_exception) { std::vector cf_handles; if (jcolumn_family_handles != nullptr) { const jsize len_cols = env->GetArrayLength(jcolumn_family_handles); if (len_cols > 0) { if (env->EnsureLocalCapacity(len_cols) != 0) { // out of memory *has_exception = JNI_TRUE; return std::vector(); } jlong* jcfh = env->GetLongArrayElements(jcolumn_family_handles, nullptr); if (jcfh == nullptr) { // exception thrown: OutOfMemoryError *has_exception = JNI_TRUE; return std::vector(); } for (int i = 0; i < len_cols; i++) { auto* cf_handle = reinterpret_cast(jcfh[i]); cf_handles.push_back(cf_handle); } env->ReleaseLongArrayElements(jcolumn_family_handles, jcfh, JNI_ABORT); } } return cf_handles; } typedef std::function( const rocksdb::ReadOptions&, const std::vector&, std::vector*)> FnMultiGet; void free_parts( JNIEnv* env, std::vector>& parts_to_free) { for (auto& value : parts_to_free) { jobject jk; jbyteArray jk_ba; jbyte* jk_val; std::tie(jk_ba, jk_val, jk) = value; env->ReleaseByteArrayElements(jk_ba, jk_val, JNI_ABORT); env->DeleteLocalRef(jk); } } // TODO(AR) consider refactoring to share this between here and rocksjni.cc // cf multi get jobjectArray txn_multi_get_helper(JNIEnv* env, const FnMultiGet& fn_multi_get, const jlong& jread_options_handle, const jobjectArray& jkey_parts) { const jsize len_key_parts = env->GetArrayLength(jkey_parts); if (env->EnsureLocalCapacity(len_key_parts) != 0) { // out of memory return nullptr; } std::vector key_parts; std::vector> key_parts_to_free; for (int i = 0; i < len_key_parts; i++) { const jobject jk = env->GetObjectArrayElement(jkey_parts, i); if (env->ExceptionCheck()) { // exception thrown: ArrayIndexOutOfBoundsException free_parts(env, key_parts_to_free); return nullptr; } jbyteArray jk_ba = reinterpret_cast(jk); const jsize len_key = env->GetArrayLength(jk_ba); if (env->EnsureLocalCapacity(len_key) != 0) { // out of memory env->DeleteLocalRef(jk); free_parts(env, key_parts_to_free); return nullptr; } jbyte* jk_val = env->GetByteArrayElements(jk_ba, nullptr); if (jk_val == nullptr) { // exception thrown: OutOfMemoryError env->DeleteLocalRef(jk); free_parts(env, key_parts_to_free); return nullptr; } rocksdb::Slice key_slice(reinterpret_cast(jk_val), len_key); key_parts.push_back(key_slice); key_parts_to_free.push_back(std::make_tuple(jk_ba, jk_val, jk)); } auto* read_options = reinterpret_cast(jread_options_handle); std::vector value_parts; std::vector s = fn_multi_get(*read_options, key_parts, &value_parts); // free up allocated byte arrays free_parts(env, key_parts_to_free); // prepare the results const jclass jcls_ba = env->FindClass("[B"); jobjectArray jresults = env->NewObjectArray(static_cast(s.size()), jcls_ba, nullptr); if (jresults == nullptr) { // exception thrown: OutOfMemoryError return nullptr; } // add to the jresults for (std::vector::size_type i = 0; i != s.size(); i++) { if (s[i].ok()) { jbyteArray jentry_value = env->NewByteArray(static_cast(value_parts[i].size())); if (jentry_value == nullptr) { // exception thrown: OutOfMemoryError return nullptr; } env->SetByteArrayRegion( jentry_value, 0, static_cast(value_parts[i].size()), const_cast(reinterpret_cast(value_parts[i].c_str()))); if (env->ExceptionCheck()) { // exception thrown: ArrayIndexOutOfBoundsException env->DeleteLocalRef(jentry_value); return nullptr; } env->SetObjectArrayElement(jresults, static_cast(i), jentry_value); env->DeleteLocalRef(jentry_value); } } return jresults; } /* * Class: org_rocksdb_Transaction * Method: multiGet * Signature: (JJ[[B[J)[[B */ jobjectArray Java_org_rocksdb_Transaction_multiGet__JJ_3_3B_3J( JNIEnv* env, jobject /*jobj*/, jlong jhandle, jlong jread_options_handle, jobjectArray jkey_parts, jlongArray jcolumn_family_handles) { bool has_exception = false; const std::vector column_family_handles = txn_column_families_helper(env, jcolumn_family_handles, &has_exception); if (has_exception) { // exception thrown: OutOfMemoryError return nullptr; } auto* txn = reinterpret_cast(jhandle); FnMultiGet fn_multi_get = std::bind (rocksdb::Transaction::*)( const rocksdb::ReadOptions&, const std::vector&, const std::vector&, std::vector*)>( &rocksdb::Transaction::MultiGet, txn, _1, column_family_handles, _2, _3); return txn_multi_get_helper(env, fn_multi_get, jread_options_handle, jkey_parts); } /* * Class: org_rocksdb_Transaction * Method: multiGet * Signature: (JJ[[B)[[B */ jobjectArray Java_org_rocksdb_Transaction_multiGet__JJ_3_3B( JNIEnv* env, jobject /*jobj*/, jlong jhandle, jlong jread_options_handle, jobjectArray jkey_parts) { auto* txn = reinterpret_cast(jhandle); FnMultiGet fn_multi_get = std::bind (rocksdb::Transaction::*)( const rocksdb::ReadOptions&, const std::vector&, std::vector*)>(&rocksdb::Transaction::MultiGet, txn, _1, _2, _3); return txn_multi_get_helper(env, fn_multi_get, jread_options_handle, jkey_parts); } /* * Class: org_rocksdb_Transaction * Method: getForUpdate * Signature: (JJ[BIJZ)[B */ jbyteArray Java_org_rocksdb_Transaction_getForUpdate__JJ_3BIJZ( JNIEnv* env, jobject /*jobj*/, jlong jhandle, jlong jread_options_handle, jbyteArray jkey, jint jkey_part_len, jlong jcolumn_family_handle, jboolean jexclusive) { auto* column_family_handle = reinterpret_cast(jcolumn_family_handle); auto* txn = reinterpret_cast(jhandle); FnGet fn_get_for_update = std::bind( &rocksdb::Transaction::GetForUpdate, txn, _1, column_family_handle, _2, _3, jexclusive); return txn_get_helper(env, fn_get_for_update, jread_options_handle, jkey, jkey_part_len); } /* * Class: org_rocksdb_Transaction * Method: getForUpdate * Signature: (JJ[BIZ)[B */ jbyteArray Java_org_rocksdb_Transaction_getForUpdate__JJ_3BIZ( JNIEnv* env, jobject /*jobj*/, jlong jhandle, jlong jread_options_handle, jbyteArray jkey, jint jkey_part_len, jboolean jexclusive) { auto* txn = reinterpret_cast(jhandle); FnGet fn_get_for_update = std::bind( &rocksdb::Transaction::GetForUpdate, txn, _1, _2, _3, jexclusive); return txn_get_helper(env, fn_get_for_update, jread_options_handle, jkey, jkey_part_len); } /* * Class: org_rocksdb_Transaction * Method: multiGetForUpdate * Signature: (JJ[[B[J)[[B */ jobjectArray Java_org_rocksdb_Transaction_multiGetForUpdate__JJ_3_3B_3J( JNIEnv* env, jobject /*jobj*/, jlong jhandle, jlong jread_options_handle, jobjectArray jkey_parts, jlongArray jcolumn_family_handles) { bool has_exception = false; const std::vector column_family_handles = txn_column_families_helper(env, jcolumn_family_handles, &has_exception); if (has_exception) { // exception thrown: OutOfMemoryError return nullptr; } auto* txn = reinterpret_cast(jhandle); FnMultiGet fn_multi_get_for_update = std::bind (rocksdb::Transaction::*)( const rocksdb::ReadOptions&, const std::vector&, const std::vector&, std::vector*)>( &rocksdb::Transaction::MultiGetForUpdate, txn, _1, column_family_handles, _2, _3); return txn_multi_get_helper(env, fn_multi_get_for_update, jread_options_handle, jkey_parts); } /* * Class: org_rocksdb_Transaction * Method: multiGetForUpdate * Signature: (JJ[[B)[[B */ jobjectArray Java_org_rocksdb_Transaction_multiGetForUpdate__JJ_3_3B( JNIEnv* env, jobject /*jobj*/, jlong jhandle, jlong jread_options_handle, jobjectArray jkey_parts) { auto* txn = reinterpret_cast(jhandle); FnMultiGet fn_multi_get_for_update = std::bind (rocksdb::Transaction::*)( const rocksdb::ReadOptions&, const std::vector&, std::vector*)>(&rocksdb::Transaction::MultiGetForUpdate, txn, _1, _2, _3); return txn_multi_get_helper(env, fn_multi_get_for_update, jread_options_handle, jkey_parts); } /* * Class: org_rocksdb_Transaction * Method: getIterator * Signature: (JJ)J */ jlong Java_org_rocksdb_Transaction_getIterator__JJ(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jread_options_handle) { auto* txn = reinterpret_cast(jhandle); auto* read_options = reinterpret_cast(jread_options_handle); return reinterpret_cast(txn->GetIterator(*read_options)); } /* * Class: org_rocksdb_Transaction * Method: getIterator * Signature: (JJJ)J */ jlong Java_org_rocksdb_Transaction_getIterator__JJJ( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jread_options_handle, jlong jcolumn_family_handle) { auto* txn = reinterpret_cast(jhandle); auto* read_options = reinterpret_cast(jread_options_handle); auto* column_family_handle = reinterpret_cast(jcolumn_family_handle); return reinterpret_cast( txn->GetIterator(*read_options, column_family_handle)); } typedef std::function FnWriteKV; // TODO(AR) consider refactoring to share this between here and rocksjni.cc void txn_write_kv_helper(JNIEnv* env, const FnWriteKV& fn_write_kv, const jbyteArray& jkey, const jint& jkey_part_len, const jbyteArray& jval, const jint& jval_len) { jbyte* key = env->GetByteArrayElements(jkey, nullptr); if (key == nullptr) { // exception thrown: OutOfMemoryError return; } jbyte* value = env->GetByteArrayElements(jval, nullptr); if (value == nullptr) { // exception thrown: OutOfMemoryError env->ReleaseByteArrayElements(jkey, key, JNI_ABORT); return; } rocksdb::Slice key_slice(reinterpret_cast(key), jkey_part_len); rocksdb::Slice value_slice(reinterpret_cast(value), jval_len); rocksdb::Status s = fn_write_kv(key_slice, value_slice); // trigger java unref on key. // by passing JNI_ABORT, it will simply release the reference without // copying the result back to the java byte array. env->ReleaseByteArrayElements(jval, value, JNI_ABORT); env->ReleaseByteArrayElements(jkey, key, JNI_ABORT); if (s.ok()) { return; } rocksdb::RocksDBExceptionJni::ThrowNew(env, s); } /* * Class: org_rocksdb_Transaction * Method: put * Signature: (J[BI[BIJ)V */ void Java_org_rocksdb_Transaction_put__J_3BI_3BIJ( JNIEnv* env, jobject /*jobj*/, jlong jhandle, jbyteArray jkey, jint jkey_part_len, jbyteArray jval, jint jval_len, jlong jcolumn_family_handle) { auto* txn = reinterpret_cast(jhandle); auto* column_family_handle = reinterpret_cast(jcolumn_family_handle); FnWriteKV fn_put = std::bind(&rocksdb::Transaction::Put, txn, column_family_handle, _1, _2); txn_write_kv_helper(env, fn_put, jkey, jkey_part_len, jval, jval_len); } /* * Class: org_rocksdb_Transaction * Method: put * Signature: (J[BI[BI)V */ void Java_org_rocksdb_Transaction_put__J_3BI_3BI(JNIEnv* env, jobject /*jobj*/, jlong jhandle, jbyteArray jkey, jint jkey_part_len, jbyteArray jval, jint jval_len) { auto* txn = reinterpret_cast(jhandle); FnWriteKV fn_put = std::bind(&rocksdb::Transaction::Put, txn, _1, _2); txn_write_kv_helper(env, fn_put, jkey, jkey_part_len, jval, jval_len); } typedef std::function FnWriteKVParts; // TODO(AR) consider refactoring to share this between here and rocksjni.cc void txn_write_kv_parts_helper(JNIEnv* env, const FnWriteKVParts& fn_write_kv_parts, const jobjectArray& jkey_parts, const jint& jkey_parts_len, const jobjectArray& jvalue_parts, const jint& jvalue_parts_len) { #ifndef DEBUG (void) jvalue_parts_len; #else assert(jkey_parts_len == jvalue_parts_len); #endif auto key_parts = std::vector(); auto value_parts = std::vector(); auto jparts_to_free = std::vector>(); // convert java key_parts/value_parts byte[][] to Slice(s) for (jsize i = 0; i < jkey_parts_len; ++i) { const jobject jobj_key_part = env->GetObjectArrayElement(jkey_parts, i); if (env->ExceptionCheck()) { // exception thrown: ArrayIndexOutOfBoundsException free_parts(env, jparts_to_free); return; } const jobject jobj_value_part = env->GetObjectArrayElement(jvalue_parts, i); if (env->ExceptionCheck()) { // exception thrown: ArrayIndexOutOfBoundsException env->DeleteLocalRef(jobj_key_part); free_parts(env, jparts_to_free); return; } const jbyteArray jba_key_part = reinterpret_cast(jobj_key_part); const jsize jkey_part_len = env->GetArrayLength(jba_key_part); if (env->EnsureLocalCapacity(jkey_part_len) != 0) { // out of memory env->DeleteLocalRef(jobj_value_part); env->DeleteLocalRef(jobj_key_part); free_parts(env, jparts_to_free); return; } jbyte* jkey_part = env->GetByteArrayElements(jba_key_part, nullptr); if (jkey_part == nullptr) { // exception thrown: OutOfMemoryError env->DeleteLocalRef(jobj_value_part); env->DeleteLocalRef(jobj_key_part); free_parts(env, jparts_to_free); return; } const jbyteArray jba_value_part = reinterpret_cast(jobj_value_part); const jsize jvalue_part_len = env->GetArrayLength(jba_value_part); if (env->EnsureLocalCapacity(jvalue_part_len) != 0) { // out of memory env->DeleteLocalRef(jobj_value_part); env->DeleteLocalRef(jobj_key_part); free_parts(env, jparts_to_free); return; } jbyte* jvalue_part = env->GetByteArrayElements(jba_value_part, nullptr); if (jvalue_part == nullptr) { // exception thrown: OutOfMemoryError env->ReleaseByteArrayElements(jba_value_part, jvalue_part, JNI_ABORT); env->DeleteLocalRef(jobj_value_part); env->DeleteLocalRef(jobj_key_part); free_parts(env, jparts_to_free); return; } jparts_to_free.push_back( std::make_tuple(jba_key_part, jkey_part, jobj_key_part)); jparts_to_free.push_back( std::make_tuple(jba_value_part, jvalue_part, jobj_value_part)); key_parts.push_back( rocksdb::Slice(reinterpret_cast(jkey_part), jkey_part_len)); value_parts.push_back( rocksdb::Slice(reinterpret_cast(jvalue_part), jvalue_part_len)); } // call the write_multi function rocksdb::Status s = fn_write_kv_parts( rocksdb::SliceParts(key_parts.data(), (int)key_parts.size()), rocksdb::SliceParts(value_parts.data(), (int)value_parts.size())); // cleanup temporary memory free_parts(env, jparts_to_free); // return if (s.ok()) { return; } rocksdb::RocksDBExceptionJni::ThrowNew(env, s); } /* * Class: org_rocksdb_Transaction * Method: put * Signature: (J[[BI[[BIJ)V */ void Java_org_rocksdb_Transaction_put__J_3_3BI_3_3BIJ( JNIEnv* env, jobject /*jobj*/, jlong jhandle, jobjectArray jkey_parts, jint jkey_parts_len, jobjectArray jvalue_parts, jint jvalue_parts_len, jlong jcolumn_family_handle) { auto* txn = reinterpret_cast(jhandle); auto* column_family_handle = reinterpret_cast(jcolumn_family_handle); FnWriteKVParts fn_put_parts = std::bind(&rocksdb::Transaction::Put, txn, column_family_handle, _1, _2); txn_write_kv_parts_helper(env, fn_put_parts, jkey_parts, jkey_parts_len, jvalue_parts, jvalue_parts_len); } /* * Class: org_rocksdb_Transaction * Method: put * Signature: (J[[BI[[BI)V */ void Java_org_rocksdb_Transaction_put__J_3_3BI_3_3BI( JNIEnv* env, jobject /*jobj*/, jlong jhandle, jobjectArray jkey_parts, jint jkey_parts_len, jobjectArray jvalue_parts, jint jvalue_parts_len) { auto* txn = reinterpret_cast(jhandle); FnWriteKVParts fn_put_parts = std::bind( &rocksdb::Transaction::Put, txn, _1, _2); txn_write_kv_parts_helper(env, fn_put_parts, jkey_parts, jkey_parts_len, jvalue_parts, jvalue_parts_len); } /* * Class: org_rocksdb_Transaction * Method: merge * Signature: (J[BI[BIJ)V */ void Java_org_rocksdb_Transaction_merge__J_3BI_3BIJ( JNIEnv* env, jobject /*jobj*/, jlong jhandle, jbyteArray jkey, jint jkey_part_len, jbyteArray jval, jint jval_len, jlong jcolumn_family_handle) { auto* txn = reinterpret_cast(jhandle); auto* column_family_handle = reinterpret_cast(jcolumn_family_handle); FnWriteKV fn_merge = std::bind(&rocksdb::Transaction::Merge, txn, column_family_handle, _1, _2); txn_write_kv_helper(env, fn_merge, jkey, jkey_part_len, jval, jval_len); } /* * Class: org_rocksdb_Transaction * Method: merge * Signature: (J[BI[BI)V */ void Java_org_rocksdb_Transaction_merge__J_3BI_3BI( JNIEnv* env, jobject /*jobj*/, jlong jhandle, jbyteArray jkey, jint jkey_part_len, jbyteArray jval, jint jval_len) { auto* txn = reinterpret_cast(jhandle); FnWriteKV fn_merge = std::bind( &rocksdb::Transaction::Merge, txn, _1, _2); txn_write_kv_helper(env, fn_merge, jkey, jkey_part_len, jval, jval_len); } typedef std::function FnWriteK; // TODO(AR) consider refactoring to share this between here and rocksjni.cc void txn_write_k_helper(JNIEnv* env, const FnWriteK& fn_write_k, const jbyteArray& jkey, const jint& jkey_part_len) { jbyte* key = env->GetByteArrayElements(jkey, nullptr); if (key == nullptr) { // exception thrown: OutOfMemoryError return; } rocksdb::Slice key_slice(reinterpret_cast(key), jkey_part_len); rocksdb::Status s = fn_write_k(key_slice); // trigger java unref on key. // by passing JNI_ABORT, it will simply release the reference without // copying the result back to the java byte array. env->ReleaseByteArrayElements(jkey, key, JNI_ABORT); if (s.ok()) { return; } rocksdb::RocksDBExceptionJni::ThrowNew(env, s); } /* * Class: org_rocksdb_Transaction * Method: delete * Signature: (J[BIJ)V */ void Java_org_rocksdb_Transaction_delete__J_3BIJ(JNIEnv* env, jobject /*jobj*/, jlong jhandle, jbyteArray jkey, jint jkey_part_len, jlong jcolumn_family_handle) { auto* txn = reinterpret_cast(jhandle); auto* column_family_handle = reinterpret_cast(jcolumn_family_handle); FnWriteK fn_delete = std::bind( &rocksdb::Transaction::Delete, txn, column_family_handle, _1); txn_write_k_helper(env, fn_delete, jkey, jkey_part_len); } /* * Class: org_rocksdb_Transaction * Method: delete * Signature: (J[BI)V */ void Java_org_rocksdb_Transaction_delete__J_3BI(JNIEnv* env, jobject /*jobj*/, jlong jhandle, jbyteArray jkey, jint jkey_part_len) { auto* txn = reinterpret_cast(jhandle); FnWriteK fn_delete = std::bind(&rocksdb::Transaction::Delete, txn, _1); txn_write_k_helper(env, fn_delete, jkey, jkey_part_len); } typedef std::function FnWriteKParts; // TODO(AR) consider refactoring to share this between here and rocksjni.cc void txn_write_k_parts_helper(JNIEnv* env, const FnWriteKParts& fn_write_k_parts, const jobjectArray& jkey_parts, const jint& jkey_parts_len) { std::vector key_parts; std::vector> jkey_parts_to_free; // convert java key_parts byte[][] to Slice(s) for (jint i = 0; i < jkey_parts_len; ++i) { const jobject jobj_key_part = env->GetObjectArrayElement(jkey_parts, i); if (env->ExceptionCheck()) { // exception thrown: ArrayIndexOutOfBoundsException free_parts(env, jkey_parts_to_free); return; } const jbyteArray jba_key_part = reinterpret_cast(jobj_key_part); const jsize jkey_part_len = env->GetArrayLength(jba_key_part); if (env->EnsureLocalCapacity(jkey_part_len) != 0) { // out of memory env->DeleteLocalRef(jobj_key_part); free_parts(env, jkey_parts_to_free); return; } jbyte* jkey_part = env->GetByteArrayElements(jba_key_part, nullptr); if (jkey_part == nullptr) { // exception thrown: OutOfMemoryError env->DeleteLocalRef(jobj_key_part); free_parts(env, jkey_parts_to_free); return; } jkey_parts_to_free.push_back(std::tuple( jba_key_part, jkey_part, jobj_key_part)); key_parts.push_back( rocksdb::Slice(reinterpret_cast(jkey_part), jkey_part_len)); } // call the write_multi function rocksdb::Status s = fn_write_k_parts( rocksdb::SliceParts(key_parts.data(), (int)key_parts.size())); // cleanup temporary memory free_parts(env, jkey_parts_to_free); // return if (s.ok()) { return; } rocksdb::RocksDBExceptionJni::ThrowNew(env, s); } /* * Class: org_rocksdb_Transaction * Method: delete * Signature: (J[[BIJ)V */ void Java_org_rocksdb_Transaction_delete__J_3_3BIJ( JNIEnv* env, jobject /*jobj*/, jlong jhandle, jobjectArray jkey_parts, jint jkey_parts_len, jlong jcolumn_family_handle) { auto* txn = reinterpret_cast(jhandle); auto* column_family_handle = reinterpret_cast(jcolumn_family_handle); FnWriteKParts fn_delete_parts = std::bind( &rocksdb::Transaction::Delete, txn, column_family_handle, _1); txn_write_k_parts_helper(env, fn_delete_parts, jkey_parts, jkey_parts_len); } /* * Class: org_rocksdb_Transaction * Method: delete * Signature: (J[[BI)V */ void Java_org_rocksdb_Transaction_delete__J_3_3BI(JNIEnv* env, jobject /*jobj*/, jlong jhandle, jobjectArray jkey_parts, jint jkey_parts_len) { auto* txn = reinterpret_cast(jhandle); FnWriteKParts fn_delete_parts = std::bind(&rocksdb::Transaction::Delete, txn, _1); txn_write_k_parts_helper(env, fn_delete_parts, jkey_parts, jkey_parts_len); } /* * Class: org_rocksdb_Transaction * Method: singleDelete * Signature: (J[BIJ)V */ void Java_org_rocksdb_Transaction_singleDelete__J_3BIJ( JNIEnv* env, jobject /*jobj*/, jlong jhandle, jbyteArray jkey, jint jkey_part_len, jlong jcolumn_family_handle) { auto* txn = reinterpret_cast(jhandle); auto* column_family_handle = reinterpret_cast(jcolumn_family_handle); FnWriteK fn_single_delete = std::bind( &rocksdb::Transaction::SingleDelete, txn, column_family_handle, _1); txn_write_k_helper(env, fn_single_delete, jkey, jkey_part_len); } /* * Class: org_rocksdb_Transaction * Method: singleDelete * Signature: (J[BI)V */ void Java_org_rocksdb_Transaction_singleDelete__J_3BI(JNIEnv* env, jobject /*jobj*/, jlong jhandle, jbyteArray jkey, jint jkey_part_len) { auto* txn = reinterpret_cast(jhandle); FnWriteK fn_single_delete = std::bind(&rocksdb::Transaction::SingleDelete, txn, _1); txn_write_k_helper(env, fn_single_delete, jkey, jkey_part_len); } /* * Class: org_rocksdb_Transaction * Method: singleDelete * Signature: (J[[BIJ)V */ void Java_org_rocksdb_Transaction_singleDelete__J_3_3BIJ( JNIEnv* env, jobject /*jobj*/, jlong jhandle, jobjectArray jkey_parts, jint jkey_parts_len, jlong jcolumn_family_handle) { auto* txn = reinterpret_cast(jhandle); auto* column_family_handle = reinterpret_cast(jcolumn_family_handle); FnWriteKParts fn_single_delete_parts = std::bind( &rocksdb::Transaction::SingleDelete, txn, column_family_handle, _1); txn_write_k_parts_helper(env, fn_single_delete_parts, jkey_parts, jkey_parts_len); } /* * Class: org_rocksdb_Transaction * Method: singleDelete * Signature: (J[[BI)V */ void Java_org_rocksdb_Transaction_singleDelete__J_3_3BI(JNIEnv* env, jobject /*jobj*/, jlong jhandle, jobjectArray jkey_parts, jint jkey_parts_len) { auto* txn = reinterpret_cast(jhandle); FnWriteKParts fn_single_delete_parts = std::bind( &rocksdb::Transaction::SingleDelete, txn, _1); txn_write_k_parts_helper(env, fn_single_delete_parts, jkey_parts, jkey_parts_len); } /* * Class: org_rocksdb_Transaction * Method: putUntracked * Signature: (J[BI[BIJ)V */ void Java_org_rocksdb_Transaction_putUntracked__J_3BI_3BIJ( JNIEnv* env, jobject /*jobj*/, jlong jhandle, jbyteArray jkey, jint jkey_part_len, jbyteArray jval, jint jval_len, jlong jcolumn_family_handle) { auto* txn = reinterpret_cast(jhandle); auto* column_family_handle = reinterpret_cast(jcolumn_family_handle); FnWriteKV fn_put_untracked = std::bind( &rocksdb::Transaction::PutUntracked, txn, column_family_handle, _1, _2); txn_write_kv_helper(env, fn_put_untracked, jkey, jkey_part_len, jval, jval_len); } /* * Class: org_rocksdb_Transaction * Method: putUntracked * Signature: (J[BI[BI)V */ void Java_org_rocksdb_Transaction_putUntracked__J_3BI_3BI( JNIEnv* env, jobject /*jobj*/, jlong jhandle, jbyteArray jkey, jint jkey_part_len, jbyteArray jval, jint jval_len) { auto* txn = reinterpret_cast(jhandle); FnWriteKV fn_put_untracked = std::bind( &rocksdb::Transaction::PutUntracked, txn, _1, _2); txn_write_kv_helper(env, fn_put_untracked, jkey, jkey_part_len, jval, jval_len); } /* * Class: org_rocksdb_Transaction * Method: putUntracked * Signature: (J[[BI[[BIJ)V */ void Java_org_rocksdb_Transaction_putUntracked__J_3_3BI_3_3BIJ( JNIEnv* env, jobject /*jobj*/, jlong jhandle, jobjectArray jkey_parts, jint jkey_parts_len, jobjectArray jvalue_parts, jint jvalue_parts_len, jlong jcolumn_family_handle) { auto* txn = reinterpret_cast(jhandle); auto* column_family_handle = reinterpret_cast(jcolumn_family_handle); FnWriteKVParts fn_put_parts_untracked = std::bind(&rocksdb::Transaction::PutUntracked, txn, column_family_handle, _1, _2); txn_write_kv_parts_helper(env, fn_put_parts_untracked, jkey_parts, jkey_parts_len, jvalue_parts, jvalue_parts_len); } /* * Class: org_rocksdb_Transaction * Method: putUntracked * Signature: (J[[BI[[BI)V */ void Java_org_rocksdb_Transaction_putUntracked__J_3_3BI_3_3BI( JNIEnv* env, jobject /*jobj*/, jlong jhandle, jobjectArray jkey_parts, jint jkey_parts_len, jobjectArray jvalue_parts, jint jvalue_parts_len) { auto* txn = reinterpret_cast(jhandle); FnWriteKVParts fn_put_parts_untracked = std::bind( &rocksdb::Transaction::PutUntracked, txn, _1, _2); txn_write_kv_parts_helper(env, fn_put_parts_untracked, jkey_parts, jkey_parts_len, jvalue_parts, jvalue_parts_len); } /* * Class: org_rocksdb_Transaction * Method: mergeUntracked * Signature: (J[BI[BIJ)V */ void Java_org_rocksdb_Transaction_mergeUntracked__J_3BI_3BIJ( JNIEnv* env, jobject /*jobj*/, jlong jhandle, jbyteArray jkey, jint jkey_part_len, jbyteArray jval, jint jval_len, jlong jcolumn_family_handle) { auto* txn = reinterpret_cast(jhandle); auto* column_family_handle = reinterpret_cast(jcolumn_family_handle); FnWriteKV fn_merge_untracked = std::bind( &rocksdb::Transaction::MergeUntracked, txn, column_family_handle, _1, _2); txn_write_kv_helper(env, fn_merge_untracked, jkey, jkey_part_len, jval, jval_len); } /* * Class: org_rocksdb_Transaction * Method: mergeUntracked * Signature: (J[BI[BI)V */ void Java_org_rocksdb_Transaction_mergeUntracked__J_3BI_3BI( JNIEnv* env, jobject /*jobj*/, jlong jhandle, jbyteArray jkey, jint jkey_part_len, jbyteArray jval, jint jval_len) { auto* txn = reinterpret_cast(jhandle); FnWriteKV fn_merge_untracked = std::bind( &rocksdb::Transaction::MergeUntracked, txn, _1, _2); txn_write_kv_helper(env, fn_merge_untracked, jkey, jkey_part_len, jval, jval_len); } /* * Class: org_rocksdb_Transaction * Method: deleteUntracked * Signature: (J[BIJ)V */ void Java_org_rocksdb_Transaction_deleteUntracked__J_3BIJ( JNIEnv* env, jobject /*jobj*/, jlong jhandle, jbyteArray jkey, jint jkey_part_len, jlong jcolumn_family_handle) { auto* txn = reinterpret_cast(jhandle); auto* column_family_handle = reinterpret_cast(jcolumn_family_handle); FnWriteK fn_delete_untracked = std::bind( &rocksdb::Transaction::DeleteUntracked, txn, column_family_handle, _1); txn_write_k_helper(env, fn_delete_untracked, jkey, jkey_part_len); } /* * Class: org_rocksdb_Transaction * Method: deleteUntracked * Signature: (J[BI)V */ void Java_org_rocksdb_Transaction_deleteUntracked__J_3BI(JNIEnv* env, jobject /*jobj*/, jlong jhandle, jbyteArray jkey, jint jkey_part_len) { auto* txn = reinterpret_cast(jhandle); FnWriteK fn_delete_untracked = std::bind( &rocksdb::Transaction::DeleteUntracked, txn, _1); txn_write_k_helper(env, fn_delete_untracked, jkey, jkey_part_len); } /* * Class: org_rocksdb_Transaction * Method: deleteUntracked * Signature: (J[[BIJ)V */ void Java_org_rocksdb_Transaction_deleteUntracked__J_3_3BIJ( JNIEnv* env, jobject /*jobj*/, jlong jhandle, jobjectArray jkey_parts, jint jkey_parts_len, jlong jcolumn_family_handle) { auto* txn = reinterpret_cast(jhandle); auto* column_family_handle = reinterpret_cast(jcolumn_family_handle); FnWriteKParts fn_delete_untracked_parts = std::bind( &rocksdb::Transaction::DeleteUntracked, txn, column_family_handle, _1); txn_write_k_parts_helper(env, fn_delete_untracked_parts, jkey_parts, jkey_parts_len); } /* * Class: org_rocksdb_Transaction * Method: deleteUntracked * Signature: (J[[BI)V */ void Java_org_rocksdb_Transaction_deleteUntracked__J_3_3BI( JNIEnv* env, jobject /*jobj*/, jlong jhandle, jobjectArray jkey_parts, jint jkey_parts_len) { auto* txn = reinterpret_cast(jhandle); FnWriteKParts fn_delete_untracked_parts = std::bind( &rocksdb::Transaction::DeleteUntracked, txn, _1); txn_write_k_parts_helper(env, fn_delete_untracked_parts, jkey_parts, jkey_parts_len); } /* * Class: org_rocksdb_Transaction * Method: putLogData * Signature: (J[BI)V */ void Java_org_rocksdb_Transaction_putLogData(JNIEnv* env, jobject /*jobj*/, jlong jhandle, jbyteArray jkey, jint jkey_part_len) { auto* txn = reinterpret_cast(jhandle); jbyte* key = env->GetByteArrayElements(jkey, nullptr); if (key == nullptr) { // exception thrown: OutOfMemoryError return; } rocksdb::Slice key_slice(reinterpret_cast(key), jkey_part_len); txn->PutLogData(key_slice); // trigger java unref on key. // by passing JNI_ABORT, it will simply release the reference without // copying the result back to the java byte array. env->ReleaseByteArrayElements(jkey, key, JNI_ABORT); } /* * Class: org_rocksdb_Transaction * Method: disableIndexing * Signature: (J)V */ void Java_org_rocksdb_Transaction_disableIndexing(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* txn = reinterpret_cast(jhandle); txn->DisableIndexing(); } /* * Class: org_rocksdb_Transaction * Method: enableIndexing * Signature: (J)V */ void Java_org_rocksdb_Transaction_enableIndexing(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* txn = reinterpret_cast(jhandle); txn->EnableIndexing(); } /* * Class: org_rocksdb_Transaction * Method: getNumKeys * Signature: (J)J */ jlong Java_org_rocksdb_Transaction_getNumKeys(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* txn = reinterpret_cast(jhandle); return txn->GetNumKeys(); } /* * Class: org_rocksdb_Transaction * Method: getNumPuts * Signature: (J)J */ jlong Java_org_rocksdb_Transaction_getNumPuts(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* txn = reinterpret_cast(jhandle); return txn->GetNumPuts(); } /* * Class: org_rocksdb_Transaction * Method: getNumDeletes * Signature: (J)J */ jlong Java_org_rocksdb_Transaction_getNumDeletes(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* txn = reinterpret_cast(jhandle); return txn->GetNumDeletes(); } /* * Class: org_rocksdb_Transaction * Method: getNumMerges * Signature: (J)J */ jlong Java_org_rocksdb_Transaction_getNumMerges(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* txn = reinterpret_cast(jhandle); return txn->GetNumMerges(); } /* * Class: org_rocksdb_Transaction * Method: getElapsedTime * Signature: (J)J */ jlong Java_org_rocksdb_Transaction_getElapsedTime(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* txn = reinterpret_cast(jhandle); return txn->GetElapsedTime(); } /* * Class: org_rocksdb_Transaction * Method: getWriteBatch * Signature: (J)J */ jlong Java_org_rocksdb_Transaction_getWriteBatch(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* txn = reinterpret_cast(jhandle); return reinterpret_cast(txn->GetWriteBatch()); } /* * Class: org_rocksdb_Transaction * Method: setLockTimeout * Signature: (JJ)V */ void Java_org_rocksdb_Transaction_setLockTimeout(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jlock_timeout) { auto* txn = reinterpret_cast(jhandle); txn->SetLockTimeout(jlock_timeout); } /* * Class: org_rocksdb_Transaction * Method: getWriteOptions * Signature: (J)J */ jlong Java_org_rocksdb_Transaction_getWriteOptions(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* txn = reinterpret_cast(jhandle); return reinterpret_cast(txn->GetWriteOptions()); } /* * Class: org_rocksdb_Transaction * Method: setWriteOptions * Signature: (JJ)V */ void Java_org_rocksdb_Transaction_setWriteOptions(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jwrite_options_handle) { auto* txn = reinterpret_cast(jhandle); auto* write_options = reinterpret_cast(jwrite_options_handle); txn->SetWriteOptions(*write_options); } /* * Class: org_rocksdb_Transaction * Method: undo * Signature: (J[BIJ)V */ void Java_org_rocksdb_Transaction_undoGetForUpdate__J_3BIJ( JNIEnv* env, jobject /*jobj*/, jlong jhandle, jbyteArray jkey, jint jkey_part_len, jlong jcolumn_family_handle) { auto* txn = reinterpret_cast(jhandle); auto* column_family_handle = reinterpret_cast(jcolumn_family_handle); jbyte* key = env->GetByteArrayElements(jkey, nullptr); if (key == nullptr) { // exception thrown: OutOfMemoryError return; } rocksdb::Slice key_slice(reinterpret_cast(key), jkey_part_len); txn->UndoGetForUpdate(column_family_handle, key_slice); env->ReleaseByteArrayElements(jkey, key, JNI_ABORT); } /* * Class: org_rocksdb_Transaction * Method: undoGetForUpdate * Signature: (J[BI)V */ void Java_org_rocksdb_Transaction_undoGetForUpdate__J_3BI(JNIEnv* env, jobject /*jobj*/, jlong jhandle, jbyteArray jkey, jint jkey_part_len) { auto* txn = reinterpret_cast(jhandle); jbyte* key = env->GetByteArrayElements(jkey, nullptr); if (key == nullptr) { // exception thrown: OutOfMemoryError return; } rocksdb::Slice key_slice(reinterpret_cast(key), jkey_part_len); txn->UndoGetForUpdate(key_slice); env->ReleaseByteArrayElements(jkey, key, JNI_ABORT); } /* * Class: org_rocksdb_Transaction * Method: rebuildFromWriteBatch * Signature: (JJ)V */ void Java_org_rocksdb_Transaction_rebuildFromWriteBatch( JNIEnv* env, jobject /*jobj*/, jlong jhandle, jlong jwrite_batch_handle) { auto* txn = reinterpret_cast(jhandle); auto* write_batch = reinterpret_cast(jwrite_batch_handle); rocksdb::Status s = txn->RebuildFromWriteBatch(write_batch); if (!s.ok()) { rocksdb::RocksDBExceptionJni::ThrowNew(env, s); } } /* * Class: org_rocksdb_Transaction * Method: getCommitTimeWriteBatch * Signature: (J)J */ jlong Java_org_rocksdb_Transaction_getCommitTimeWriteBatch(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* txn = reinterpret_cast(jhandle); return reinterpret_cast(txn->GetCommitTimeWriteBatch()); } /* * Class: org_rocksdb_Transaction * Method: setLogNumber * Signature: (JJ)V */ void Java_org_rocksdb_Transaction_setLogNumber(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jlog_number) { auto* txn = reinterpret_cast(jhandle); txn->SetLogNumber(jlog_number); } /* * Class: org_rocksdb_Transaction * Method: getLogNumber * Signature: (J)J */ jlong Java_org_rocksdb_Transaction_getLogNumber(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* txn = reinterpret_cast(jhandle); return txn->GetLogNumber(); } /* * Class: org_rocksdb_Transaction * Method: setName * Signature: (JLjava/lang/String;)V */ void Java_org_rocksdb_Transaction_setName(JNIEnv* env, jobject /*jobj*/, jlong jhandle, jstring jname) { auto* txn = reinterpret_cast(jhandle); const char* name = env->GetStringUTFChars(jname, nullptr); if (name == nullptr) { // exception thrown: OutOfMemoryError return; } rocksdb::Status s = txn->SetName(name); env->ReleaseStringUTFChars(jname, name); if (!s.ok()) { rocksdb::RocksDBExceptionJni::ThrowNew(env, s); } } /* * Class: org_rocksdb_Transaction * Method: getName * Signature: (J)Ljava/lang/String; */ jstring Java_org_rocksdb_Transaction_getName(JNIEnv* env, jobject /*jobj*/, jlong jhandle) { auto* txn = reinterpret_cast(jhandle); rocksdb::TransactionName name = txn->GetName(); return env->NewStringUTF(name.data()); } /* * Class: org_rocksdb_Transaction * Method: getID * Signature: (J)J */ jlong Java_org_rocksdb_Transaction_getID(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* txn = reinterpret_cast(jhandle); rocksdb::TransactionID id = txn->GetID(); return static_cast(id); } /* * Class: org_rocksdb_Transaction * Method: isDeadlockDetect * Signature: (J)Z */ jboolean Java_org_rocksdb_Transaction_isDeadlockDetect(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* txn = reinterpret_cast(jhandle); return static_cast(txn->IsDeadlockDetect()); } /* * Class: org_rocksdb_Transaction * Method: getWaitingTxns * Signature: (J)Lorg/rocksdb/Transaction/WaitingTransactions; */ jobject Java_org_rocksdb_Transaction_getWaitingTxns(JNIEnv* env, jobject jtransaction_obj, jlong jhandle) { auto* txn = reinterpret_cast(jhandle); uint32_t column_family_id; std::string key; std::vector waiting_txns = txn->GetWaitingTxns(&column_family_id, &key); jobject jwaiting_txns = rocksdb::TransactionJni::newWaitingTransactions( env, jtransaction_obj, column_family_id, key, waiting_txns); return jwaiting_txns; } /* * Class: org_rocksdb_Transaction * Method: getState * Signature: (J)B */ jbyte Java_org_rocksdb_Transaction_getState(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* txn = reinterpret_cast(jhandle); rocksdb::Transaction::TransactionState txn_status = txn->GetState(); switch (txn_status) { case rocksdb::Transaction::TransactionState::STARTED: return 0x0; case rocksdb::Transaction::TransactionState::AWAITING_PREPARE: return 0x1; case rocksdb::Transaction::TransactionState::PREPARED: return 0x2; case rocksdb::Transaction::TransactionState::AWAITING_COMMIT: return 0x3; case rocksdb::Transaction::TransactionState::COMMITED: return 0x4; case rocksdb::Transaction::TransactionState::AWAITING_ROLLBACK: return 0x5; case rocksdb::Transaction::TransactionState::ROLLEDBACK: return 0x6; case rocksdb::Transaction::TransactionState::LOCKS_STOLEN: return 0x7; } assert(false); return static_cast(-1); } /* * Class: org_rocksdb_Transaction * Method: getId * Signature: (J)J */ jlong Java_org_rocksdb_Transaction_getId(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* txn = reinterpret_cast(jhandle); uint64_t id = txn->GetId(); return static_cast(id); } /* * Class: org_rocksdb_Transaction * Method: disposeInternal * Signature: (J)V */ void Java_org_rocksdb_Transaction_disposeInternal(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { delete reinterpret_cast(jhandle); } rocksdb-5.17.2/java/rocksjni/transaction_db.cc000066400000000000000000000376501337235545400213270ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file implements the "bridge" between Java and C++ // for rocksdb::TransactionDB. #include #include #include #include #include "include/org_rocksdb_TransactionDB.h" #include "rocksdb/options.h" #include "rocksdb/utilities/transaction.h" #include "rocksdb/utilities/transaction_db.h" #include "rocksjni/portal.h" /* * Class: org_rocksdb_TransactionDB * Method: open * Signature: (JJLjava/lang/String;)J */ jlong Java_org_rocksdb_TransactionDB_open__JJLjava_lang_String_2( JNIEnv* env, jclass /*jcls*/, jlong joptions_handle, jlong jtxn_db_options_handle, jstring jdb_path) { auto* options = reinterpret_cast(joptions_handle); auto* txn_db_options = reinterpret_cast(jtxn_db_options_handle); rocksdb::TransactionDB* tdb = nullptr; const char* db_path = env->GetStringUTFChars(jdb_path, nullptr); if (db_path == nullptr) { // exception thrown: OutOfMemoryError return 0; } rocksdb::Status s = rocksdb::TransactionDB::Open(*options, *txn_db_options, db_path, &tdb); env->ReleaseStringUTFChars(jdb_path, db_path); if (s.ok()) { return reinterpret_cast(tdb); } else { rocksdb::RocksDBExceptionJni::ThrowNew(env, s); return 0; } } /* * Class: org_rocksdb_TransactionDB * Method: open * Signature: (JJLjava/lang/String;[[B[J)[J */ jlongArray Java_org_rocksdb_TransactionDB_open__JJLjava_lang_String_2_3_3B_3J( JNIEnv* env, jclass /*jcls*/, jlong jdb_options_handle, jlong jtxn_db_options_handle, jstring jdb_path, jobjectArray jcolumn_names, jlongArray jcolumn_options_handles) { const char* db_path = env->GetStringUTFChars(jdb_path, nullptr); if (db_path == nullptr) { // exception thrown: OutOfMemoryError return nullptr; } const jsize len_cols = env->GetArrayLength(jcolumn_names); if (env->EnsureLocalCapacity(len_cols) != 0) { // out of memory env->ReleaseStringUTFChars(jdb_path, db_path); return nullptr; } jlong* jco = env->GetLongArrayElements(jcolumn_options_handles, nullptr); if (jco == nullptr) { // exception thrown: OutOfMemoryError env->ReleaseStringUTFChars(jdb_path, db_path); return nullptr; } std::vector column_families; for (int i = 0; i < len_cols; i++) { const jobject jcn = env->GetObjectArrayElement(jcolumn_names, i); if (env->ExceptionCheck()) { // exception thrown: ArrayIndexOutOfBoundsException env->ReleaseLongArrayElements(jcolumn_options_handles, jco, JNI_ABORT); env->ReleaseStringUTFChars(jdb_path, db_path); return nullptr; } const jbyteArray jcn_ba = reinterpret_cast(jcn); jbyte* jcf_name = env->GetByteArrayElements(jcn_ba, nullptr); if (jcf_name == nullptr) { // exception thrown: OutOfMemoryError env->DeleteLocalRef(jcn); env->ReleaseLongArrayElements(jcolumn_options_handles, jco, JNI_ABORT); env->ReleaseStringUTFChars(jdb_path, db_path); return nullptr; } const int jcf_name_len = env->GetArrayLength(jcn_ba); if (env->EnsureLocalCapacity(jcf_name_len) != 0) { // out of memory env->ReleaseByteArrayElements(jcn_ba, jcf_name, JNI_ABORT); env->DeleteLocalRef(jcn); env->ReleaseLongArrayElements(jcolumn_options_handles, jco, JNI_ABORT); env->ReleaseStringUTFChars(jdb_path, db_path); return nullptr; } const std::string cf_name(reinterpret_cast(jcf_name), jcf_name_len); const rocksdb::ColumnFamilyOptions* cf_options = reinterpret_cast(jco[i]); column_families.push_back( rocksdb::ColumnFamilyDescriptor(cf_name, *cf_options)); env->ReleaseByteArrayElements(jcn_ba, jcf_name, JNI_ABORT); env->DeleteLocalRef(jcn); } env->ReleaseLongArrayElements(jcolumn_options_handles, jco, JNI_ABORT); auto* db_options = reinterpret_cast(jdb_options_handle); auto* txn_db_options = reinterpret_cast(jtxn_db_options_handle); std::vector handles; rocksdb::TransactionDB* tdb = nullptr; const rocksdb::Status s = rocksdb::TransactionDB::Open( *db_options, *txn_db_options, db_path, column_families, &handles, &tdb); // check if open operation was successful if (s.ok()) { const jsize resultsLen = 1 + len_cols; // db handle + column family handles std::unique_ptr results = std::unique_ptr(new jlong[resultsLen]); results[0] = reinterpret_cast(tdb); for (int i = 1; i <= len_cols; i++) { results[i] = reinterpret_cast(handles[i - 1]); } jlongArray jresults = env->NewLongArray(resultsLen); if (jresults == nullptr) { // exception thrown: OutOfMemoryError return nullptr; } env->SetLongArrayRegion(jresults, 0, resultsLen, results.get()); if (env->ExceptionCheck()) { // exception thrown: ArrayIndexOutOfBoundsException env->DeleteLocalRef(jresults); return nullptr; } return jresults; } else { rocksdb::RocksDBExceptionJni::ThrowNew(env, s); return nullptr; } } /* * Class: org_rocksdb_TransactionDB * Method: beginTransaction * Signature: (JJ)J */ jlong Java_org_rocksdb_TransactionDB_beginTransaction__JJ( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jwrite_options_handle) { auto* txn_db = reinterpret_cast(jhandle); auto* write_options = reinterpret_cast(jwrite_options_handle); rocksdb::Transaction* txn = txn_db->BeginTransaction(*write_options); return reinterpret_cast(txn); } /* * Class: org_rocksdb_TransactionDB * Method: beginTransaction * Signature: (JJJ)J */ jlong Java_org_rocksdb_TransactionDB_beginTransaction__JJJ( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jwrite_options_handle, jlong jtxn_options_handle) { auto* txn_db = reinterpret_cast(jhandle); auto* write_options = reinterpret_cast(jwrite_options_handle); auto* txn_options = reinterpret_cast(jtxn_options_handle); rocksdb::Transaction* txn = txn_db->BeginTransaction(*write_options, *txn_options); return reinterpret_cast(txn); } /* * Class: org_rocksdb_TransactionDB * Method: beginTransaction_withOld * Signature: (JJJ)J */ jlong Java_org_rocksdb_TransactionDB_beginTransaction_1withOld__JJJ( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jwrite_options_handle, jlong jold_txn_handle) { auto* txn_db = reinterpret_cast(jhandle); auto* write_options = reinterpret_cast(jwrite_options_handle); auto* old_txn = reinterpret_cast(jold_txn_handle); rocksdb::TransactionOptions txn_options; rocksdb::Transaction* txn = txn_db->BeginTransaction(*write_options, txn_options, old_txn); // RocksJava relies on the assumption that // we do not allocate a new Transaction object // when providing an old_txn assert(txn == old_txn); return reinterpret_cast(txn); } /* * Class: org_rocksdb_TransactionDB * Method: beginTransaction_withOld * Signature: (JJJJ)J */ jlong Java_org_rocksdb_TransactionDB_beginTransaction_1withOld__JJJJ( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jwrite_options_handle, jlong jtxn_options_handle, jlong jold_txn_handle) { auto* txn_db = reinterpret_cast(jhandle); auto* write_options = reinterpret_cast(jwrite_options_handle); auto* txn_options = reinterpret_cast(jtxn_options_handle); auto* old_txn = reinterpret_cast(jold_txn_handle); rocksdb::Transaction* txn = txn_db->BeginTransaction(*write_options, *txn_options, old_txn); // RocksJava relies on the assumption that // we do not allocate a new Transaction object // when providing an old_txn assert(txn == old_txn); return reinterpret_cast(txn); } /* * Class: org_rocksdb_TransactionDB * Method: getTransactionByName * Signature: (JLjava/lang/String;)J */ jlong Java_org_rocksdb_TransactionDB_getTransactionByName(JNIEnv* env, jobject /*jobj*/, jlong jhandle, jstring jname) { auto* txn_db = reinterpret_cast(jhandle); const char* name = env->GetStringUTFChars(jname, nullptr); if (name == nullptr) { // exception thrown: OutOfMemoryError return 0; } rocksdb::Transaction* txn = txn_db->GetTransactionByName(name); env->ReleaseStringUTFChars(jname, name); return reinterpret_cast(txn); } /* * Class: org_rocksdb_TransactionDB * Method: getAllPreparedTransactions * Signature: (J)[J */ jlongArray Java_org_rocksdb_TransactionDB_getAllPreparedTransactions( JNIEnv* env, jobject /*jobj*/, jlong jhandle) { auto* txn_db = reinterpret_cast(jhandle); std::vector txns; txn_db->GetAllPreparedTransactions(&txns); const size_t size = txns.size(); assert(size < UINT32_MAX); // does it fit in a jint? const jsize len = static_cast(size); std::vector tmp(len); for (jsize i = 0; i < len; ++i) { tmp[i] = reinterpret_cast(txns[i]); } jlongArray jtxns = env->NewLongArray(len); if (jtxns == nullptr) { // exception thrown: OutOfMemoryError return nullptr; } env->SetLongArrayRegion(jtxns, 0, len, tmp.data()); if (env->ExceptionCheck()) { // exception thrown: ArrayIndexOutOfBoundsException env->DeleteLocalRef(jtxns); return nullptr; } return jtxns; } /* * Class: org_rocksdb_TransactionDB * Method: getLockStatusData * Signature: (J)Ljava/util/Map; */ jobject Java_org_rocksdb_TransactionDB_getLockStatusData(JNIEnv* env, jobject /*jobj*/, jlong jhandle) { auto* txn_db = reinterpret_cast(jhandle); const std::unordered_multimap lock_status_data = txn_db->GetLockStatusData(); const jobject jlock_status_data = rocksdb::HashMapJni::construct( env, static_cast(lock_status_data.size())); if (jlock_status_data == nullptr) { // exception occurred return nullptr; } const rocksdb::HashMapJni::FnMapKV fn_map_kv = [env]( const std::pair& pair) { const jobject jlong_column_family_id = rocksdb::LongJni::valueOf(env, pair.first); if (jlong_column_family_id == nullptr) { // an error occurred return std::unique_ptr>(nullptr); } const jobject jkey_lock_info = rocksdb::KeyLockInfoJni::construct(env, pair.second); if (jkey_lock_info == nullptr) { // an error occurred return std::unique_ptr>(nullptr); } return std::unique_ptr>( new std::pair(jlong_column_family_id, jkey_lock_info)); }; if (!rocksdb::HashMapJni::putAll(env, jlock_status_data, lock_status_data.begin(), lock_status_data.end(), fn_map_kv)) { // exception occcurred return nullptr; } return jlock_status_data; } /* * Class: org_rocksdb_TransactionDB * Method: getDeadlockInfoBuffer * Signature: (J)[Lorg/rocksdb/TransactionDB/DeadlockPath; */ jobjectArray Java_org_rocksdb_TransactionDB_getDeadlockInfoBuffer( JNIEnv* env, jobject jobj, jlong jhandle) { auto* txn_db = reinterpret_cast(jhandle); const std::vector deadlock_info_buffer = txn_db->GetDeadlockInfoBuffer(); const jsize deadlock_info_buffer_len = static_cast(deadlock_info_buffer.size()); jobjectArray jdeadlock_info_buffer = env->NewObjectArray(deadlock_info_buffer_len, rocksdb::DeadlockPathJni::getJClass(env), nullptr); if (jdeadlock_info_buffer == nullptr) { // exception thrown: OutOfMemoryError return nullptr; } jsize jdeadlock_info_buffer_offset = 0; auto buf_end = deadlock_info_buffer.end(); for (auto buf_it = deadlock_info_buffer.begin(); buf_it != buf_end; ++buf_it) { const rocksdb::DeadlockPath deadlock_path = *buf_it; const std::vector deadlock_infos = deadlock_path.path; const jsize deadlock_infos_len = static_cast(deadlock_info_buffer.size()); jobjectArray jdeadlock_infos = env->NewObjectArray( deadlock_infos_len, rocksdb::DeadlockInfoJni::getJClass(env), nullptr); if (jdeadlock_infos == nullptr) { // exception thrown: OutOfMemoryError env->DeleteLocalRef(jdeadlock_info_buffer); return nullptr; } jsize jdeadlock_infos_offset = 0; auto infos_end = deadlock_infos.end(); for (auto infos_it = deadlock_infos.begin(); infos_it != infos_end; ++infos_it) { const rocksdb::DeadlockInfo deadlock_info = *infos_it; const jobject jdeadlock_info = rocksdb::TransactionDBJni::newDeadlockInfo( env, jobj, deadlock_info.m_txn_id, deadlock_info.m_cf_id, deadlock_info.m_waiting_key, deadlock_info.m_exclusive); if (jdeadlock_info == nullptr) { // exception occcurred env->DeleteLocalRef(jdeadlock_info_buffer); return nullptr; } env->SetObjectArrayElement(jdeadlock_infos, jdeadlock_infos_offset++, jdeadlock_info); if (env->ExceptionCheck()) { // exception thrown: ArrayIndexOutOfBoundsException or // ArrayStoreException env->DeleteLocalRef(jdeadlock_info); env->DeleteLocalRef(jdeadlock_info_buffer); return nullptr; } } const jobject jdeadlock_path = rocksdb::DeadlockPathJni::construct( env, jdeadlock_infos, deadlock_path.limit_exceeded); if (jdeadlock_path == nullptr) { // exception occcurred env->DeleteLocalRef(jdeadlock_info_buffer); return nullptr; } env->SetObjectArrayElement(jdeadlock_info_buffer, jdeadlock_info_buffer_offset++, jdeadlock_path); if (env->ExceptionCheck()) { // exception thrown: ArrayIndexOutOfBoundsException or ArrayStoreException env->DeleteLocalRef(jdeadlock_path); env->DeleteLocalRef(jdeadlock_info_buffer); return nullptr; } } return jdeadlock_info_buffer; } /* * Class: org_rocksdb_TransactionDB * Method: setDeadlockInfoBufferSize * Signature: (JI)V */ void Java_org_rocksdb_TransactionDB_setDeadlockInfoBufferSize( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jint jdeadlock_info_buffer_size) { auto* txn_db = reinterpret_cast(jhandle); txn_db->SetDeadlockInfoBufferSize(jdeadlock_info_buffer_size); } /* * Class: org_rocksdb_TransactionDB * Method: disposeInternal * Signature: (J)V */ void Java_org_rocksdb_TransactionDB_disposeInternal(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { delete reinterpret_cast(jhandle); } rocksdb-5.17.2/java/rocksjni/transaction_db_options.cc000066400000000000000000000127261337235545400230770ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file implements the "bridge" between Java and C++ // for rocksdb::TransactionDBOptions. #include #include "include/org_rocksdb_TransactionDBOptions.h" #include "rocksdb/utilities/transaction_db.h" #include "rocksjni/portal.h" /* * Class: org_rocksdb_TransactionDBOptions * Method: newTransactionDBOptions * Signature: ()J */ jlong Java_org_rocksdb_TransactionDBOptions_newTransactionDBOptions( JNIEnv* /*env*/, jclass /*jcls*/) { rocksdb::TransactionDBOptions* opts = new rocksdb::TransactionDBOptions(); return reinterpret_cast(opts); } /* * Class: org_rocksdb_TransactionDBOptions * Method: getMaxNumLocks * Signature: (J)J */ jlong Java_org_rocksdb_TransactionDBOptions_getMaxNumLocks(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opts = reinterpret_cast(jhandle); return opts->max_num_locks; } /* * Class: org_rocksdb_TransactionDBOptions * Method: setMaxNumLocks * Signature: (JJ)V */ void Java_org_rocksdb_TransactionDBOptions_setMaxNumLocks( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jmax_num_locks) { auto* opts = reinterpret_cast(jhandle); opts->max_num_locks = jmax_num_locks; } /* * Class: org_rocksdb_TransactionDBOptions * Method: getNumStripes * Signature: (J)J */ jlong Java_org_rocksdb_TransactionDBOptions_getNumStripes(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opts = reinterpret_cast(jhandle); return opts->num_stripes; } /* * Class: org_rocksdb_TransactionDBOptions * Method: setNumStripes * Signature: (JJ)V */ void Java_org_rocksdb_TransactionDBOptions_setNumStripes(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jnum_stripes) { auto* opts = reinterpret_cast(jhandle); opts->num_stripes = jnum_stripes; } /* * Class: org_rocksdb_TransactionDBOptions * Method: getTransactionLockTimeout * Signature: (J)J */ jlong Java_org_rocksdb_TransactionDBOptions_getTransactionLockTimeout( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opts = reinterpret_cast(jhandle); return opts->transaction_lock_timeout; } /* * Class: org_rocksdb_TransactionDBOptions * Method: setTransactionLockTimeout * Signature: (JJ)V */ void Java_org_rocksdb_TransactionDBOptions_setTransactionLockTimeout( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jtransaction_lock_timeout) { auto* opts = reinterpret_cast(jhandle); opts->transaction_lock_timeout = jtransaction_lock_timeout; } /* * Class: org_rocksdb_TransactionDBOptions * Method: getDefaultLockTimeout * Signature: (J)J */ jlong Java_org_rocksdb_TransactionDBOptions_getDefaultLockTimeout( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opts = reinterpret_cast(jhandle); return opts->default_lock_timeout; } /* * Class: org_rocksdb_TransactionDBOptions * Method: setDefaultLockTimeout * Signature: (JJ)V */ void Java_org_rocksdb_TransactionDBOptions_setDefaultLockTimeout( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jdefault_lock_timeout) { auto* opts = reinterpret_cast(jhandle); opts->default_lock_timeout = jdefault_lock_timeout; } /* * Class: org_rocksdb_TransactionDBOptions * Method: getWritePolicy * Signature: (J)B */ jbyte Java_org_rocksdb_TransactionDBOptions_getWritePolicy(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opts = reinterpret_cast(jhandle); return rocksdb::TxnDBWritePolicyJni::toJavaTxnDBWritePolicy( opts->write_policy); } /* * Class: org_rocksdb_TransactionDBOptions * Method: setWritePolicy * Signature: (JB)V */ void Java_org_rocksdb_TransactionDBOptions_setWritePolicy(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jbyte jwrite_policy) { auto* opts = reinterpret_cast(jhandle); opts->write_policy = rocksdb::TxnDBWritePolicyJni::toCppTxnDBWritePolicy(jwrite_policy); } /* * Class: org_rocksdb_TransactionDBOptions * Method: disposeInternal * Signature: (J)V */ void Java_org_rocksdb_TransactionDBOptions_disposeInternal(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { delete reinterpret_cast(jhandle); } rocksdb-5.17.2/java/rocksjni/transaction_log.cc000066400000000000000000000053201337235545400215100ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file implements the "bridge" between Java and C++ and enables // calling c++ rocksdb::Iterator methods from Java side. #include #include #include #include "include/org_rocksdb_TransactionLogIterator.h" #include "rocksdb/transaction_log.h" #include "rocksjni/portal.h" /* * Class: org_rocksdb_TransactionLogIterator * Method: disposeInternal * Signature: (J)V */ void Java_org_rocksdb_TransactionLogIterator_disposeInternal(JNIEnv* /*env*/, jobject /*jobj*/, jlong handle) { delete reinterpret_cast(handle); } /* * Class: org_rocksdb_TransactionLogIterator * Method: isValid * Signature: (J)Z */ jboolean Java_org_rocksdb_TransactionLogIterator_isValid(JNIEnv* /*env*/, jobject /*jobj*/, jlong handle) { return reinterpret_cast(handle)->Valid(); } /* * Class: org_rocksdb_TransactionLogIterator * Method: next * Signature: (J)V */ void Java_org_rocksdb_TransactionLogIterator_next(JNIEnv* /*env*/, jobject /*jobj*/, jlong handle) { reinterpret_cast(handle)->Next(); } /* * Class: org_rocksdb_TransactionLogIterator * Method: status * Signature: (J)V */ void Java_org_rocksdb_TransactionLogIterator_status(JNIEnv* env, jobject /*jobj*/, jlong handle) { rocksdb::Status s = reinterpret_cast(handle)->status(); if (!s.ok()) { rocksdb::RocksDBExceptionJni::ThrowNew(env, s); } } /* * Class: org_rocksdb_TransactionLogIterator * Method: getBatch * Signature: (J)Lorg/rocksdb/TransactionLogIterator$BatchResult */ jobject Java_org_rocksdb_TransactionLogIterator_getBatch(JNIEnv* env, jobject /*jobj*/, jlong handle) { rocksdb::BatchResult batch_result = reinterpret_cast(handle)->GetBatch(); return rocksdb::BatchResultJni::construct(env, batch_result); } rocksdb-5.17.2/java/rocksjni/transaction_notifier.cc000066400000000000000000000030431337235545400225460ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file implements the "bridge" between Java and C++ // for rocksdb::TransactionNotifier. #include #include "include/org_rocksdb_AbstractTransactionNotifier.h" #include "rocksjni/transaction_notifier_jnicallback.h" /* * Class: org_rocksdb_AbstractTransactionNotifier * Method: createNewTransactionNotifier * Signature: ()J */ jlong Java_org_rocksdb_AbstractTransactionNotifier_createNewTransactionNotifier( JNIEnv* env, jobject jobj) { auto* transaction_notifier = new rocksdb::TransactionNotifierJniCallback(env, jobj); auto* sptr_transaction_notifier = new std::shared_ptr( transaction_notifier); return reinterpret_cast(sptr_transaction_notifier); } /* * Class: org_rocksdb_AbstractTransactionNotifier * Method: disposeInternal * Signature: (J)V */ void Java_org_rocksdb_AbstractTransactionNotifier_disposeInternal( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { // TODO(AR) refactor to use JniCallback::JniCallback // when https://github.com/facebook/rocksdb/pull/1241/ is merged std::shared_ptr* handle = reinterpret_cast< std::shared_ptr*>(jhandle); delete handle; } rocksdb-5.17.2/java/rocksjni/transaction_notifier_jnicallback.cc000066400000000000000000000025111337235545400250620ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file implements the callback "bridge" between Java and C++ for // rocksdb::TransactionNotifier. #include "rocksjni/transaction_notifier_jnicallback.h" #include "rocksjni/portal.h" namespace rocksdb { TransactionNotifierJniCallback::TransactionNotifierJniCallback(JNIEnv* env, jobject jtransaction_notifier) : JniCallback(env, jtransaction_notifier) { // we cache the method id for the JNI callback m_jsnapshot_created_methodID = AbstractTransactionNotifierJni::getSnapshotCreatedMethodId(env); } void TransactionNotifierJniCallback::SnapshotCreated( const Snapshot* newSnapshot) { jboolean attached_thread = JNI_FALSE; JNIEnv* env = getJniEnv(&attached_thread); assert(env != nullptr); env->CallVoidMethod(m_jcallback_obj, m_jsnapshot_created_methodID, reinterpret_cast(newSnapshot)); if(env->ExceptionCheck()) { // exception thrown from CallVoidMethod env->ExceptionDescribe(); // print out exception to stderr releaseJniEnv(attached_thread); return; } releaseJniEnv(attached_thread); } } // namespace rocksdb rocksdb-5.17.2/java/rocksjni/transaction_notifier_jnicallback.h000066400000000000000000000027421337235545400247320ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file implements the callback "bridge" between Java and C++ for // rocksdb::TransactionNotifier. #ifndef JAVA_ROCKSJNI_TRANSACTION_NOTIFIER_JNICALLBACK_H_ #define JAVA_ROCKSJNI_TRANSACTION_NOTIFIER_JNICALLBACK_H_ #include #include "rocksdb/utilities/transaction.h" #include "rocksjni/jnicallback.h" namespace rocksdb { /** * This class acts as a bridge between C++ * and Java. The methods in this class will be * called back from the RocksDB TransactionDB or OptimisticTransactionDB (C++), * we then callback to the appropriate Java method * this enables TransactionNotifier to be implemented in Java. * * Unlike RocksJava's Comparator JNI Callback, we do not attempt * to reduce Java object allocations by caching the Snapshot object * presented to the callback. This could be revisited in future * if performance is lacking. */ class TransactionNotifierJniCallback: public JniCallback, public TransactionNotifier { public: TransactionNotifierJniCallback(JNIEnv* env, jobject jtransaction_notifier); virtual void SnapshotCreated(const Snapshot* newSnapshot); private: jmethodID m_jsnapshot_created_methodID; }; } // namespace rocksdb #endif // JAVA_ROCKSJNI_TRANSACTION_NOTIFIER_JNICALLBACK_H_ rocksdb-5.17.2/java/rocksjni/transaction_options.cc000066400000000000000000000141111337235545400224200ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file implements the "bridge" between Java and C++ // for rocksdb::TransactionOptions. #include #include "include/org_rocksdb_TransactionOptions.h" #include "rocksdb/utilities/transaction_db.h" /* * Class: org_rocksdb_TransactionOptions * Method: newTransactionOptions * Signature: ()J */ jlong Java_org_rocksdb_TransactionOptions_newTransactionOptions( JNIEnv* /*env*/, jclass /*jcls*/) { auto* opts = new rocksdb::TransactionOptions(); return reinterpret_cast(opts); } /* * Class: org_rocksdb_TransactionOptions * Method: isSetSnapshot * Signature: (J)Z */ jboolean Java_org_rocksdb_TransactionOptions_isSetSnapshot(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opts = reinterpret_cast(jhandle); return opts->set_snapshot; } /* * Class: org_rocksdb_TransactionOptions * Method: setSetSnapshot * Signature: (JZ)V */ void Java_org_rocksdb_TransactionOptions_setSetSnapshot( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean jset_snapshot) { auto* opts = reinterpret_cast(jhandle); opts->set_snapshot = jset_snapshot; } /* * Class: org_rocksdb_TransactionOptions * Method: isDeadlockDetect * Signature: (J)Z */ jboolean Java_org_rocksdb_TransactionOptions_isDeadlockDetect(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opts = reinterpret_cast(jhandle); return opts->deadlock_detect; } /* * Class: org_rocksdb_TransactionOptions * Method: setDeadlockDetect * Signature: (JZ)V */ void Java_org_rocksdb_TransactionOptions_setDeadlockDetect( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jboolean jdeadlock_detect) { auto* opts = reinterpret_cast(jhandle); opts->deadlock_detect = jdeadlock_detect; } /* * Class: org_rocksdb_TransactionOptions * Method: getLockTimeout * Signature: (J)J */ jlong Java_org_rocksdb_TransactionOptions_getLockTimeout(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opts = reinterpret_cast(jhandle); return opts->lock_timeout; } /* * Class: org_rocksdb_TransactionOptions * Method: setLockTimeout * Signature: (JJ)V */ void Java_org_rocksdb_TransactionOptions_setLockTimeout(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jlock_timeout) { auto* opts = reinterpret_cast(jhandle); opts->lock_timeout = jlock_timeout; } /* * Class: org_rocksdb_TransactionOptions * Method: getExpiration * Signature: (J)J */ jlong Java_org_rocksdb_TransactionOptions_getExpiration(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opts = reinterpret_cast(jhandle); return opts->expiration; } /* * Class: org_rocksdb_TransactionOptions * Method: setExpiration * Signature: (JJ)V */ void Java_org_rocksdb_TransactionOptions_setExpiration(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jexpiration) { auto* opts = reinterpret_cast(jhandle); opts->expiration = jexpiration; } /* * Class: org_rocksdb_TransactionOptions * Method: getDeadlockDetectDepth * Signature: (J)J */ jlong Java_org_rocksdb_TransactionOptions_getDeadlockDetectDepth( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opts = reinterpret_cast(jhandle); return opts->deadlock_detect_depth; } /* * Class: org_rocksdb_TransactionOptions * Method: setDeadlockDetectDepth * Signature: (JJ)V */ void Java_org_rocksdb_TransactionOptions_setDeadlockDetectDepth( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jdeadlock_detect_depth) { auto* opts = reinterpret_cast(jhandle); opts->deadlock_detect_depth = jdeadlock_detect_depth; } /* * Class: org_rocksdb_TransactionOptions * Method: getMaxWriteBatchSize * Signature: (J)J */ jlong Java_org_rocksdb_TransactionOptions_getMaxWriteBatchSize(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { auto* opts = reinterpret_cast(jhandle); return opts->max_write_batch_size; } /* * Class: org_rocksdb_TransactionOptions * Method: setMaxWriteBatchSize * Signature: (JJ)V */ void Java_org_rocksdb_TransactionOptions_setMaxWriteBatchSize( JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle, jlong jmax_write_batch_size) { auto* opts = reinterpret_cast(jhandle); opts->max_write_batch_size = jmax_write_batch_size; } /* * Class: org_rocksdb_TransactionOptions * Method: disposeInternal * Signature: (J)V */ void Java_org_rocksdb_TransactionOptions_disposeInternal(JNIEnv* /*env*/, jobject /*jobj*/, jlong jhandle) { delete reinterpret_cast(jhandle); } rocksdb-5.17.2/java/rocksjni/ttl.cc000066400000000000000000000135761337235545400171410ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file implements the "bridge" between Java and C++ and enables // calling c++ rocksdb::TtlDB methods. // from Java side. #include #include #include #include #include #include #include "include/org_rocksdb_TtlDB.h" #include "rocksdb/utilities/db_ttl.h" #include "rocksjni/portal.h" /* * Class: org_rocksdb_TtlDB * Method: open * Signature: (JLjava/lang/String;IZ)J */ jlong Java_org_rocksdb_TtlDB_open(JNIEnv* env, jclass /*jcls*/, jlong joptions_handle, jstring jdb_path, jint jttl, jboolean jread_only) { const char* db_path = env->GetStringUTFChars(jdb_path, nullptr); if (db_path == nullptr) { // exception thrown: OutOfMemoryError return 0; } auto* opt = reinterpret_cast(joptions_handle); rocksdb::DBWithTTL* db = nullptr; rocksdb::Status s = rocksdb::DBWithTTL::Open(*opt, db_path, &db, jttl, jread_only); env->ReleaseStringUTFChars(jdb_path, db_path); // as TTLDB extends RocksDB on the java side, we can reuse // the RocksDB portal here. if (s.ok()) { return reinterpret_cast(db); } else { rocksdb::RocksDBExceptionJni::ThrowNew(env, s); return 0; } } /* * Class: org_rocksdb_TtlDB * Method: openCF * Signature: (JLjava/lang/String;[[B[J[IZ)[J */ jlongArray Java_org_rocksdb_TtlDB_openCF(JNIEnv* env, jclass /*jcls*/, jlong jopt_handle, jstring jdb_path, jobjectArray jcolumn_names, jlongArray jcolumn_options, jintArray jttls, jboolean jread_only) { const char* db_path = env->GetStringUTFChars(jdb_path, nullptr); if (db_path == nullptr) { // exception thrown: OutOfMemoryError return 0; } const jsize len_cols = env->GetArrayLength(jcolumn_names); jlong* jco = env->GetLongArrayElements(jcolumn_options, nullptr); if (jco == nullptr) { // exception thrown: OutOfMemoryError env->ReleaseStringUTFChars(jdb_path, db_path); return nullptr; } std::vector column_families; jboolean has_exception = JNI_FALSE; rocksdb::JniUtil::byteStrings( env, jcolumn_names, [](const char* str_data, const size_t str_len) { return std::string(str_data, str_len); }, [&jco, &column_families](size_t idx, std::string cf_name) { rocksdb::ColumnFamilyOptions* cf_options = reinterpret_cast(jco[idx]); column_families.push_back( rocksdb::ColumnFamilyDescriptor(cf_name, *cf_options)); }, &has_exception); env->ReleaseLongArrayElements(jcolumn_options, jco, JNI_ABORT); if (has_exception == JNI_TRUE) { // exception occurred env->ReleaseStringUTFChars(jdb_path, db_path); return nullptr; } std::vector ttl_values; jint* jttlv = env->GetIntArrayElements(jttls, nullptr); if (jttlv == nullptr) { // exception thrown: OutOfMemoryError env->ReleaseStringUTFChars(jdb_path, db_path); return nullptr; } const jsize len_ttls = env->GetArrayLength(jttls); for (jsize i = 0; i < len_ttls; i++) { ttl_values.push_back(jttlv[i]); } env->ReleaseIntArrayElements(jttls, jttlv, JNI_ABORT); auto* opt = reinterpret_cast(jopt_handle); std::vector handles; rocksdb::DBWithTTL* db = nullptr; rocksdb::Status s = rocksdb::DBWithTTL::Open( *opt, db_path, column_families, &handles, &db, ttl_values, jread_only); // we have now finished with db_path env->ReleaseStringUTFChars(jdb_path, db_path); // check if open operation was successful if (s.ok()) { const jsize resultsLen = 1 + len_cols; // db handle + column family handles std::unique_ptr results = std::unique_ptr(new jlong[resultsLen]); results[0] = reinterpret_cast(db); for (int i = 1; i <= len_cols; i++) { results[i] = reinterpret_cast(handles[i - 1]); } jlongArray jresults = env->NewLongArray(resultsLen); if (jresults == nullptr) { // exception thrown: OutOfMemoryError return nullptr; } env->SetLongArrayRegion(jresults, 0, resultsLen, results.get()); if (env->ExceptionCheck()) { // exception thrown: ArrayIndexOutOfBoundsException env->DeleteLocalRef(jresults); return nullptr; } return jresults; } else { rocksdb::RocksDBExceptionJni::ThrowNew(env, s); return NULL; } } /* * Class: org_rocksdb_TtlDB * Method: createColumnFamilyWithTtl * Signature: (JLorg/rocksdb/ColumnFamilyDescriptor;[BJI)J; */ jlong Java_org_rocksdb_TtlDB_createColumnFamilyWithTtl( JNIEnv* env, jobject /*jobj*/, jlong jdb_handle, jbyteArray jcolumn_name, jlong jcolumn_options, jint jttl) { jbyte* cfname = env->GetByteArrayElements(jcolumn_name, nullptr); if (cfname == nullptr) { // exception thrown: OutOfMemoryError return 0; } const jsize len = env->GetArrayLength(jcolumn_name); auto* cfOptions = reinterpret_cast(jcolumn_options); auto* db_handle = reinterpret_cast(jdb_handle); rocksdb::ColumnFamilyHandle* handle; rocksdb::Status s = db_handle->CreateColumnFamilyWithTtl( *cfOptions, std::string(reinterpret_cast(cfname), len), &handle, jttl); env->ReleaseByteArrayElements(jcolumn_name, cfname, 0); if (s.ok()) { return reinterpret_cast(handle); } rocksdb::RocksDBExceptionJni::ThrowNew(env, s); return 0; } rocksdb-5.17.2/java/rocksjni/write_batch.cc000066400000000000000000000472661337235545400206340ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file implements the "bridge" between Java and C++ and enables // calling c++ rocksdb::WriteBatch methods from Java side. #include #include "db/memtable.h" #include "db/write_batch_internal.h" #include "include/org_rocksdb_WriteBatch.h" #include "include/org_rocksdb_WriteBatch_Handler.h" #include "rocksdb/db.h" #include "rocksdb/env.h" #include "rocksdb/memtablerep.h" #include "rocksdb/status.h" #include "rocksdb/write_batch.h" #include "rocksdb/write_buffer_manager.h" #include "rocksjni/portal.h" #include "rocksjni/writebatchhandlerjnicallback.h" #include "table/scoped_arena_iterator.h" #include "util/logging.h" /* * Class: org_rocksdb_WriteBatch * Method: newWriteBatch * Signature: (I)J */ jlong Java_org_rocksdb_WriteBatch_newWriteBatch__I(JNIEnv* /*env*/, jclass /*jcls*/, jint jreserved_bytes) { auto* wb = new rocksdb::WriteBatch(static_cast(jreserved_bytes)); return reinterpret_cast(wb); } /* * Class: org_rocksdb_WriteBatch * Method: newWriteBatch * Signature: ([BI)J */ jlong Java_org_rocksdb_WriteBatch_newWriteBatch___3BI(JNIEnv* env, jclass /*jcls*/, jbyteArray jserialized, jint jserialized_length) { jboolean has_exception = JNI_FALSE; std::string serialized = rocksdb::JniUtil::byteString( env, jserialized, jserialized_length, [](const char* str, const size_t len) { return std::string(str, len); }, &has_exception); if (has_exception == JNI_TRUE) { // exception occurred return 0; } auto* wb = new rocksdb::WriteBatch(serialized); return reinterpret_cast(wb); } /* * Class: org_rocksdb_WriteBatch * Method: count0 * Signature: (J)I */ jint Java_org_rocksdb_WriteBatch_count0(JNIEnv* /*env*/, jobject /*jobj*/, jlong jwb_handle) { auto* wb = reinterpret_cast(jwb_handle); assert(wb != nullptr); return static_cast(wb->Count()); } /* * Class: org_rocksdb_WriteBatch * Method: clear0 * Signature: (J)V */ void Java_org_rocksdb_WriteBatch_clear0(JNIEnv* /*env*/, jobject /*jobj*/, jlong jwb_handle) { auto* wb = reinterpret_cast(jwb_handle); assert(wb != nullptr); wb->Clear(); } /* * Class: org_rocksdb_WriteBatch * Method: setSavePoint0 * Signature: (J)V */ void Java_org_rocksdb_WriteBatch_setSavePoint0(JNIEnv* /*env*/, jobject /*jobj*/, jlong jwb_handle) { auto* wb = reinterpret_cast(jwb_handle); assert(wb != nullptr); wb->SetSavePoint(); } /* * Class: org_rocksdb_WriteBatch * Method: rollbackToSavePoint0 * Signature: (J)V */ void Java_org_rocksdb_WriteBatch_rollbackToSavePoint0(JNIEnv* env, jobject /*jobj*/, jlong jwb_handle) { auto* wb = reinterpret_cast(jwb_handle); assert(wb != nullptr); auto s = wb->RollbackToSavePoint(); if (s.ok()) { return; } rocksdb::RocksDBExceptionJni::ThrowNew(env, s); } /* * Class: org_rocksdb_WriteBatch * Method: popSavePoint * Signature: (J)V */ void Java_org_rocksdb_WriteBatch_popSavePoint(JNIEnv* env, jobject /*jobj*/, jlong jwb_handle) { auto* wb = reinterpret_cast(jwb_handle); assert(wb != nullptr); auto s = wb->PopSavePoint(); if (s.ok()) { return; } rocksdb::RocksDBExceptionJni::ThrowNew(env, s); } /* * Class: org_rocksdb_WriteBatch * Method: setMaxBytes * Signature: (JJ)V */ void Java_org_rocksdb_WriteBatch_setMaxBytes(JNIEnv* /*env*/, jobject /*jobj*/, jlong jwb_handle, jlong jmax_bytes) { auto* wb = reinterpret_cast(jwb_handle); assert(wb != nullptr); wb->SetMaxBytes(static_cast(jmax_bytes)); } /* * Class: org_rocksdb_WriteBatch * Method: put * Signature: (J[BI[BI)V */ void Java_org_rocksdb_WriteBatch_put__J_3BI_3BI(JNIEnv* env, jobject jobj, jlong jwb_handle, jbyteArray jkey, jint jkey_len, jbyteArray jentry_value, jint jentry_value_len) { auto* wb = reinterpret_cast(jwb_handle); assert(wb != nullptr); auto put = [&wb](rocksdb::Slice key, rocksdb::Slice value) { return wb->Put(key, value); }; std::unique_ptr status = rocksdb::JniUtil::kv_op( put, env, jobj, jkey, jkey_len, jentry_value, jentry_value_len); if (status != nullptr && !status->ok()) { rocksdb::RocksDBExceptionJni::ThrowNew(env, status); } } /* * Class: org_rocksdb_WriteBatch * Method: put * Signature: (J[BI[BIJ)V */ void Java_org_rocksdb_WriteBatch_put__J_3BI_3BIJ( JNIEnv* env, jobject jobj, jlong jwb_handle, jbyteArray jkey, jint jkey_len, jbyteArray jentry_value, jint jentry_value_len, jlong jcf_handle) { auto* wb = reinterpret_cast(jwb_handle); assert(wb != nullptr); auto* cf_handle = reinterpret_cast(jcf_handle); assert(cf_handle != nullptr); auto put = [&wb, &cf_handle](rocksdb::Slice key, rocksdb::Slice value) { return wb->Put(cf_handle, key, value); }; std::unique_ptr status = rocksdb::JniUtil::kv_op( put, env, jobj, jkey, jkey_len, jentry_value, jentry_value_len); if (status != nullptr && !status->ok()) { rocksdb::RocksDBExceptionJni::ThrowNew(env, status); } } /* * Class: org_rocksdb_WriteBatch * Method: merge * Signature: (J[BI[BI)V */ void Java_org_rocksdb_WriteBatch_merge__J_3BI_3BI( JNIEnv* env, jobject jobj, jlong jwb_handle, jbyteArray jkey, jint jkey_len, jbyteArray jentry_value, jint jentry_value_len) { auto* wb = reinterpret_cast(jwb_handle); assert(wb != nullptr); auto merge = [&wb](rocksdb::Slice key, rocksdb::Slice value) { return wb->Merge(key, value); }; std::unique_ptr status = rocksdb::JniUtil::kv_op( merge, env, jobj, jkey, jkey_len, jentry_value, jentry_value_len); if (status != nullptr && !status->ok()) { rocksdb::RocksDBExceptionJni::ThrowNew(env, status); } } /* * Class: org_rocksdb_WriteBatch * Method: merge * Signature: (J[BI[BIJ)V */ void Java_org_rocksdb_WriteBatch_merge__J_3BI_3BIJ( JNIEnv* env, jobject jobj, jlong jwb_handle, jbyteArray jkey, jint jkey_len, jbyteArray jentry_value, jint jentry_value_len, jlong jcf_handle) { auto* wb = reinterpret_cast(jwb_handle); assert(wb != nullptr); auto* cf_handle = reinterpret_cast(jcf_handle); assert(cf_handle != nullptr); auto merge = [&wb, &cf_handle](rocksdb::Slice key, rocksdb::Slice value) { return wb->Merge(cf_handle, key, value); }; std::unique_ptr status = rocksdb::JniUtil::kv_op( merge, env, jobj, jkey, jkey_len, jentry_value, jentry_value_len); if (status != nullptr && !status->ok()) { rocksdb::RocksDBExceptionJni::ThrowNew(env, status); } } /* * Class: org_rocksdb_WriteBatch * Method: delete * Signature: (J[BI)V */ void Java_org_rocksdb_WriteBatch_delete__J_3BI(JNIEnv* env, jobject jobj, jlong jwb_handle, jbyteArray jkey, jint jkey_len) { auto* wb = reinterpret_cast(jwb_handle); assert(wb != nullptr); auto remove = [&wb](rocksdb::Slice key) { return wb->Delete(key); }; std::unique_ptr status = rocksdb::JniUtil::k_op(remove, env, jobj, jkey, jkey_len); if (status != nullptr && !status->ok()) { rocksdb::RocksDBExceptionJni::ThrowNew(env, status); } } /* * Class: org_rocksdb_WriteBatch * Method: delete * Signature: (J[BIJ)V */ void Java_org_rocksdb_WriteBatch_delete__J_3BIJ(JNIEnv* env, jobject jobj, jlong jwb_handle, jbyteArray jkey, jint jkey_len, jlong jcf_handle) { auto* wb = reinterpret_cast(jwb_handle); assert(wb != nullptr); auto* cf_handle = reinterpret_cast(jcf_handle); assert(cf_handle != nullptr); auto remove = [&wb, &cf_handle](rocksdb::Slice key) { return wb->Delete(cf_handle, key); }; std::unique_ptr status = rocksdb::JniUtil::k_op(remove, env, jobj, jkey, jkey_len); if (status != nullptr && !status->ok()) { rocksdb::RocksDBExceptionJni::ThrowNew(env, status); } } /* * Class: org_rocksdb_WriteBatch * Method: singleDelete * Signature: (J[BI)V */ void Java_org_rocksdb_WriteBatch_singleDelete__J_3BI(JNIEnv* env, jobject jobj, jlong jwb_handle, jbyteArray jkey, jint jkey_len) { auto* wb = reinterpret_cast(jwb_handle); assert(wb != nullptr); auto single_delete = [&wb](rocksdb::Slice key) { return wb->SingleDelete(key); }; std::unique_ptr status = rocksdb::JniUtil::k_op(single_delete, env, jobj, jkey, jkey_len); if (status != nullptr && !status->ok()) { rocksdb::RocksDBExceptionJni::ThrowNew(env, status); } } /* * Class: org_rocksdb_WriteBatch * Method: singleDelete * Signature: (J[BIJ)V */ void Java_org_rocksdb_WriteBatch_singleDelete__J_3BIJ(JNIEnv* env, jobject jobj, jlong jwb_handle, jbyteArray jkey, jint jkey_len, jlong jcf_handle) { auto* wb = reinterpret_cast(jwb_handle); assert(wb != nullptr); auto* cf_handle = reinterpret_cast(jcf_handle); assert(cf_handle != nullptr); auto single_delete = [&wb, &cf_handle](rocksdb::Slice key) { return wb->SingleDelete(cf_handle, key); }; std::unique_ptr status = rocksdb::JniUtil::k_op(single_delete, env, jobj, jkey, jkey_len); if (status != nullptr && !status->ok()) { rocksdb::RocksDBExceptionJni::ThrowNew(env, status); } } /* * Class: org_rocksdb_WriteBatch * Method: deleteRange * Signature: (J[BI[BI)V */ void Java_org_rocksdb_WriteBatch_deleteRange__J_3BI_3BI( JNIEnv* env, jobject jobj, jlong jwb_handle, jbyteArray jbegin_key, jint jbegin_key_len, jbyteArray jend_key, jint jend_key_len) { auto* wb = reinterpret_cast(jwb_handle); assert(wb != nullptr); auto deleteRange = [&wb](rocksdb::Slice beginKey, rocksdb::Slice endKey) { return wb->DeleteRange(beginKey, endKey); }; std::unique_ptr status = rocksdb::JniUtil::kv_op(deleteRange, env, jobj, jbegin_key, jbegin_key_len, jend_key, jend_key_len); if (status != nullptr && !status->ok()) { rocksdb::RocksDBExceptionJni::ThrowNew(env, status); } } /* * Class: org_rocksdb_WriteBatch * Method: deleteRange * Signature: (J[BI[BIJ)V */ void Java_org_rocksdb_WriteBatch_deleteRange__J_3BI_3BIJ( JNIEnv* env, jobject jobj, jlong jwb_handle, jbyteArray jbegin_key, jint jbegin_key_len, jbyteArray jend_key, jint jend_key_len, jlong jcf_handle) { auto* wb = reinterpret_cast(jwb_handle); assert(wb != nullptr); auto* cf_handle = reinterpret_cast(jcf_handle); assert(cf_handle != nullptr); auto deleteRange = [&wb, &cf_handle](rocksdb::Slice beginKey, rocksdb::Slice endKey) { return wb->DeleteRange(cf_handle, beginKey, endKey); }; std::unique_ptr status = rocksdb::JniUtil::kv_op(deleteRange, env, jobj, jbegin_key, jbegin_key_len, jend_key, jend_key_len); if (status != nullptr && !status->ok()) { rocksdb::RocksDBExceptionJni::ThrowNew(env, status); } } /* * Class: org_rocksdb_WriteBatch * Method: putLogData * Signature: (J[BI)V */ void Java_org_rocksdb_WriteBatch_putLogData(JNIEnv* env, jobject jobj, jlong jwb_handle, jbyteArray jblob, jint jblob_len) { auto* wb = reinterpret_cast(jwb_handle); assert(wb != nullptr); auto putLogData = [&wb](rocksdb::Slice blob) { return wb->PutLogData(blob); }; std::unique_ptr status = rocksdb::JniUtil::k_op(putLogData, env, jobj, jblob, jblob_len); if (status != nullptr && !status->ok()) { rocksdb::RocksDBExceptionJni::ThrowNew(env, status); } } /* * Class: org_rocksdb_WriteBatch * Method: iterate * Signature: (JJ)V */ void Java_org_rocksdb_WriteBatch_iterate(JNIEnv* env, jobject /*jobj*/, jlong jwb_handle, jlong handlerHandle) { auto* wb = reinterpret_cast(jwb_handle); assert(wb != nullptr); rocksdb::Status s = wb->Iterate( reinterpret_cast(handlerHandle)); if (s.ok()) { return; } rocksdb::RocksDBExceptionJni::ThrowNew(env, s); } /* * Class: org_rocksdb_WriteBatch * Method: data * Signature: (J)[B */ jbyteArray Java_org_rocksdb_WriteBatch_data(JNIEnv* env, jobject /*jobj*/, jlong jwb_handle) { auto* wb = reinterpret_cast(jwb_handle); assert(wb != nullptr); auto data = wb->Data(); return rocksdb::JniUtil::copyBytes(env, data); } /* * Class: org_rocksdb_WriteBatch * Method: getDataSize * Signature: (J)J */ jlong Java_org_rocksdb_WriteBatch_getDataSize(JNIEnv* /*env*/, jobject /*jobj*/, jlong jwb_handle) { auto* wb = reinterpret_cast(jwb_handle); assert(wb != nullptr); auto data_size = wb->GetDataSize(); return static_cast(data_size); } /* * Class: org_rocksdb_WriteBatch * Method: hasPut * Signature: (J)Z */ jboolean Java_org_rocksdb_WriteBatch_hasPut(JNIEnv* /*env*/, jobject /*jobj*/, jlong jwb_handle) { auto* wb = reinterpret_cast(jwb_handle); assert(wb != nullptr); return wb->HasPut(); } /* * Class: org_rocksdb_WriteBatch * Method: hasDelete * Signature: (J)Z */ jboolean Java_org_rocksdb_WriteBatch_hasDelete(JNIEnv* /*env*/, jobject /*jobj*/, jlong jwb_handle) { auto* wb = reinterpret_cast(jwb_handle); assert(wb != nullptr); return wb->HasDelete(); } /* * Class: org_rocksdb_WriteBatch * Method: hasSingleDelete * Signature: (J)Z */ JNIEXPORT jboolean JNICALL Java_org_rocksdb_WriteBatch_hasSingleDelete( JNIEnv* /*env*/, jobject /*jobj*/, jlong jwb_handle) { auto* wb = reinterpret_cast(jwb_handle); assert(wb != nullptr); return wb->HasSingleDelete(); } /* * Class: org_rocksdb_WriteBatch * Method: hasDeleteRange * Signature: (J)Z */ JNIEXPORT jboolean JNICALL Java_org_rocksdb_WriteBatch_hasDeleteRange( JNIEnv* /*env*/, jobject /*jobj*/, jlong jwb_handle) { auto* wb = reinterpret_cast(jwb_handle); assert(wb != nullptr); return wb->HasDeleteRange(); } /* * Class: org_rocksdb_WriteBatch * Method: hasMerge * Signature: (J)Z */ JNIEXPORT jboolean JNICALL Java_org_rocksdb_WriteBatch_hasMerge( JNIEnv* /*env*/, jobject /*jobj*/, jlong jwb_handle) { auto* wb = reinterpret_cast(jwb_handle); assert(wb != nullptr); return wb->HasMerge(); } /* * Class: org_rocksdb_WriteBatch * Method: hasBeginPrepare * Signature: (J)Z */ JNIEXPORT jboolean JNICALL Java_org_rocksdb_WriteBatch_hasBeginPrepare( JNIEnv* /*env*/, jobject /*jobj*/, jlong jwb_handle) { auto* wb = reinterpret_cast(jwb_handle); assert(wb != nullptr); return wb->HasBeginPrepare(); } /* * Class: org_rocksdb_WriteBatch * Method: hasEndPrepare * Signature: (J)Z */ JNIEXPORT jboolean JNICALL Java_org_rocksdb_WriteBatch_hasEndPrepare( JNIEnv* /*env*/, jobject /*jobj*/, jlong jwb_handle) { auto* wb = reinterpret_cast(jwb_handle); assert(wb != nullptr); return wb->HasEndPrepare(); } /* * Class: org_rocksdb_WriteBatch * Method: hasCommit * Signature: (J)Z */ JNIEXPORT jboolean JNICALL Java_org_rocksdb_WriteBatch_hasCommit( JNIEnv* /*env*/, jobject /*jobj*/, jlong jwb_handle) { auto* wb = reinterpret_cast(jwb_handle); assert(wb != nullptr); return wb->HasCommit(); } /* * Class: org_rocksdb_WriteBatch * Method: hasRollback * Signature: (J)Z */ JNIEXPORT jboolean JNICALL Java_org_rocksdb_WriteBatch_hasRollback( JNIEnv* /*env*/, jobject /*jobj*/, jlong jwb_handle) { auto* wb = reinterpret_cast(jwb_handle); assert(wb != nullptr); return wb->HasRollback(); } /* * Class: org_rocksdb_WriteBatch * Method: markWalTerminationPoint * Signature: (J)V */ void Java_org_rocksdb_WriteBatch_markWalTerminationPoint(JNIEnv* /*env*/, jobject /*jobj*/, jlong jwb_handle) { auto* wb = reinterpret_cast(jwb_handle); assert(wb != nullptr); wb->MarkWalTerminationPoint(); } /* * Class: org_rocksdb_WriteBatch * Method: getWalTerminationPoint * Signature: (J)Lorg/rocksdb/WriteBatch/SavePoint; */ jobject Java_org_rocksdb_WriteBatch_getWalTerminationPoint(JNIEnv* env, jobject /*jobj*/, jlong jwb_handle) { auto* wb = reinterpret_cast(jwb_handle); assert(wb != nullptr); auto save_point = wb->GetWalTerminationPoint(); return rocksdb::WriteBatchSavePointJni::construct(env, save_point); } /* * Class: org_rocksdb_WriteBatch * Method: disposeInternal * Signature: (J)V */ void Java_org_rocksdb_WriteBatch_disposeInternal(JNIEnv* /*env*/, jobject /*jobj*/, jlong handle) { auto* wb = reinterpret_cast(handle); assert(wb != nullptr); delete wb; } /* * Class: org_rocksdb_WriteBatch_Handler * Method: createNewHandler0 * Signature: ()J */ jlong Java_org_rocksdb_WriteBatch_00024Handler_createNewHandler0(JNIEnv* env, jobject jobj) { auto* wbjnic = new rocksdb::WriteBatchHandlerJniCallback(env, jobj); return reinterpret_cast(wbjnic); } rocksdb-5.17.2/java/rocksjni/write_batch_test.cc000066400000000000000000000150411337235545400216550ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file implements the "bridge" between Java and C++ and enables // calling c++ rocksdb::WriteBatch methods testing from Java side. #include #include "db/memtable.h" #include "db/write_batch_internal.h" #include "include/org_rocksdb_WriteBatch.h" #include "include/org_rocksdb_WriteBatchTest.h" #include "include/org_rocksdb_WriteBatchTestInternalHelper.h" #include "include/org_rocksdb_WriteBatch_Handler.h" #include "options/cf_options.h" #include "rocksdb/db.h" #include "rocksdb/env.h" #include "rocksdb/memtablerep.h" #include "rocksdb/status.h" #include "rocksdb/write_batch.h" #include "rocksdb/write_buffer_manager.h" #include "rocksjni/portal.h" #include "table/scoped_arena_iterator.h" #include "util/string_util.h" #include "util/testharness.h" /* * Class: org_rocksdb_WriteBatchTest * Method: getContents * Signature: (J)[B */ jbyteArray Java_org_rocksdb_WriteBatchTest_getContents(JNIEnv* env, jclass /*jclazz*/, jlong jwb_handle) { auto* b = reinterpret_cast(jwb_handle); assert(b != nullptr); // todo: Currently the following code is directly copied from // db/write_bench_test.cc. It could be implemented in java once // all the necessary components can be accessed via jni api. rocksdb::InternalKeyComparator cmp(rocksdb::BytewiseComparator()); auto factory = std::make_shared(); rocksdb::Options options; rocksdb::WriteBufferManager wb(options.db_write_buffer_size); options.memtable_factory = factory; rocksdb::MemTable* mem = new rocksdb::MemTable( cmp, rocksdb::ImmutableCFOptions(options), rocksdb::MutableCFOptions(options), &wb, rocksdb::kMaxSequenceNumber, 0 /* column_family_id */); mem->Ref(); std::string state; rocksdb::ColumnFamilyMemTablesDefault cf_mems_default(mem); rocksdb::Status s = rocksdb::WriteBatchInternal::InsertInto(b, &cf_mems_default, nullptr); int count = 0; rocksdb::Arena arena; rocksdb::ScopedArenaIterator iter( mem->NewIterator(rocksdb::ReadOptions(), &arena)); for (iter->SeekToFirst(); iter->Valid(); iter->Next()) { rocksdb::ParsedInternalKey ikey; ikey.clear(); bool parsed = rocksdb::ParseInternalKey(iter->key(), &ikey); if (!parsed) { assert(parsed); } switch (ikey.type) { case rocksdb::kTypeValue: state.append("Put("); state.append(ikey.user_key.ToString()); state.append(", "); state.append(iter->value().ToString()); state.append(")"); count++; break; case rocksdb::kTypeMerge: state.append("Merge("); state.append(ikey.user_key.ToString()); state.append(", "); state.append(iter->value().ToString()); state.append(")"); count++; break; case rocksdb::kTypeDeletion: state.append("Delete("); state.append(ikey.user_key.ToString()); state.append(")"); count++; break; case rocksdb::kTypeSingleDeletion: state.append("SingleDelete("); state.append(ikey.user_key.ToString()); state.append(")"); count++; break; case rocksdb::kTypeRangeDeletion: state.append("DeleteRange("); state.append(ikey.user_key.ToString()); state.append(", "); state.append(iter->value().ToString()); state.append(")"); count++; break; case rocksdb::kTypeLogData: state.append("LogData("); state.append(ikey.user_key.ToString()); state.append(")"); count++; break; default: assert(false); state.append("Err:Expected("); state.append(std::to_string(ikey.type)); state.append(")"); count++; break; } state.append("@"); state.append(rocksdb::NumberToString(ikey.sequence)); } if (!s.ok()) { state.append(s.ToString()); } else if (rocksdb::WriteBatchInternal::Count(b) != count) { state.append("Err:CountMismatch(expected="); state.append(std::to_string(rocksdb::WriteBatchInternal::Count(b))); state.append(", actual="); state.append(std::to_string(count)); state.append(")"); } delete mem->Unref(); jbyteArray jstate = env->NewByteArray(static_cast(state.size())); if (jstate == nullptr) { // exception thrown: OutOfMemoryError return nullptr; } env->SetByteArrayRegion( jstate, 0, static_cast(state.size()), const_cast(reinterpret_cast(state.c_str()))); if (env->ExceptionCheck()) { // exception thrown: ArrayIndexOutOfBoundsException env->DeleteLocalRef(jstate); return nullptr; } return jstate; } /* * Class: org_rocksdb_WriteBatchTestInternalHelper * Method: setSequence * Signature: (JJ)V */ void Java_org_rocksdb_WriteBatchTestInternalHelper_setSequence( JNIEnv* /*env*/, jclass /*jclazz*/, jlong jwb_handle, jlong jsn) { auto* wb = reinterpret_cast(jwb_handle); assert(wb != nullptr); rocksdb::WriteBatchInternal::SetSequence( wb, static_cast(jsn)); } /* * Class: org_rocksdb_WriteBatchTestInternalHelper * Method: sequence * Signature: (J)J */ jlong Java_org_rocksdb_WriteBatchTestInternalHelper_sequence(JNIEnv* /*env*/, jclass /*jclazz*/, jlong jwb_handle) { auto* wb = reinterpret_cast(jwb_handle); assert(wb != nullptr); return static_cast(rocksdb::WriteBatchInternal::Sequence(wb)); } /* * Class: org_rocksdb_WriteBatchTestInternalHelper * Method: append * Signature: (JJ)V */ void Java_org_rocksdb_WriteBatchTestInternalHelper_append(JNIEnv* /*env*/, jclass /*jclazz*/, jlong jwb_handle_1, jlong jwb_handle_2) { auto* wb1 = reinterpret_cast(jwb_handle_1); assert(wb1 != nullptr); auto* wb2 = reinterpret_cast(jwb_handle_2); assert(wb2 != nullptr); rocksdb::WriteBatchInternal::Append(wb1, wb2); } rocksdb-5.17.2/java/rocksjni/write_batch_with_index.cc000066400000000000000000000641511337235545400230460ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file implements the "bridge" between Java and C++ and enables // calling c++ rocksdb::WriteBatchWithIndex methods from Java side. #include "rocksdb/utilities/write_batch_with_index.h" #include "include/org_rocksdb_WBWIRocksIterator.h" #include "include/org_rocksdb_WriteBatchWithIndex.h" #include "rocksdb/comparator.h" #include "rocksjni/portal.h" /* * Class: org_rocksdb_WriteBatchWithIndex * Method: newWriteBatchWithIndex * Signature: ()J */ jlong Java_org_rocksdb_WriteBatchWithIndex_newWriteBatchWithIndex__( JNIEnv* /*env*/, jclass /*jcls*/) { auto* wbwi = new rocksdb::WriteBatchWithIndex(); return reinterpret_cast(wbwi); } /* * Class: org_rocksdb_WriteBatchWithIndex * Method: newWriteBatchWithIndex * Signature: (Z)J */ jlong Java_org_rocksdb_WriteBatchWithIndex_newWriteBatchWithIndex__Z( JNIEnv* /*env*/, jclass /*jcls*/, jboolean joverwrite_key) { auto* wbwi = new rocksdb::WriteBatchWithIndex( rocksdb::BytewiseComparator(), 0, static_cast(joverwrite_key)); return reinterpret_cast(wbwi); } /* * Class: org_rocksdb_WriteBatchWithIndex * Method: newWriteBatchWithIndex * Signature: (JBIZ)J */ jlong Java_org_rocksdb_WriteBatchWithIndex_newWriteBatchWithIndex__JBIZ( JNIEnv* /*env*/, jclass /*jcls*/, jlong jfallback_index_comparator_handle, jbyte jcomparator_type, jint jreserved_bytes, jboolean joverwrite_key) { rocksdb::Comparator* fallback_comparator = nullptr; switch (jcomparator_type) { // JAVA_COMPARATOR case 0x0: fallback_comparator = reinterpret_cast( jfallback_index_comparator_handle); break; // JAVA_DIRECT_COMPARATOR case 0x1: fallback_comparator = reinterpret_cast( jfallback_index_comparator_handle); break; // JAVA_NATIVE_COMPARATOR_WRAPPER case 0x2: fallback_comparator = reinterpret_cast( jfallback_index_comparator_handle); break; } auto* wbwi = new rocksdb::WriteBatchWithIndex( fallback_comparator, static_cast(jreserved_bytes), static_cast(joverwrite_key)); return reinterpret_cast(wbwi); } /* * Class: org_rocksdb_WriteBatchWithIndex * Method: count0 * Signature: (J)I */ jint Java_org_rocksdb_WriteBatchWithIndex_count0(JNIEnv* /*env*/, jobject /*jobj*/, jlong jwbwi_handle) { auto* wbwi = reinterpret_cast(jwbwi_handle); assert(wbwi != nullptr); return static_cast(wbwi->GetWriteBatch()->Count()); } /* * Class: org_rocksdb_WriteBatchWithIndex * Method: put * Signature: (J[BI[BI)V */ void Java_org_rocksdb_WriteBatchWithIndex_put__J_3BI_3BI( JNIEnv* env, jobject jobj, jlong jwbwi_handle, jbyteArray jkey, jint jkey_len, jbyteArray jentry_value, jint jentry_value_len) { auto* wbwi = reinterpret_cast(jwbwi_handle); assert(wbwi != nullptr); auto put = [&wbwi](rocksdb::Slice key, rocksdb::Slice value) { return wbwi->Put(key, value); }; std::unique_ptr status = rocksdb::JniUtil::kv_op( put, env, jobj, jkey, jkey_len, jentry_value, jentry_value_len); if (status != nullptr && !status->ok()) { rocksdb::RocksDBExceptionJni::ThrowNew(env, status); } } /* * Class: org_rocksdb_WriteBatchWithIndex * Method: put * Signature: (J[BI[BIJ)V */ void Java_org_rocksdb_WriteBatchWithIndex_put__J_3BI_3BIJ( JNIEnv* env, jobject jobj, jlong jwbwi_handle, jbyteArray jkey, jint jkey_len, jbyteArray jentry_value, jint jentry_value_len, jlong jcf_handle) { auto* wbwi = reinterpret_cast(jwbwi_handle); assert(wbwi != nullptr); auto* cf_handle = reinterpret_cast(jcf_handle); assert(cf_handle != nullptr); auto put = [&wbwi, &cf_handle](rocksdb::Slice key, rocksdb::Slice value) { return wbwi->Put(cf_handle, key, value); }; std::unique_ptr status = rocksdb::JniUtil::kv_op( put, env, jobj, jkey, jkey_len, jentry_value, jentry_value_len); if (status != nullptr && !status->ok()) { rocksdb::RocksDBExceptionJni::ThrowNew(env, status); } } /* * Class: org_rocksdb_WriteBatchWithIndex * Method: merge * Signature: (J[BI[BI)V */ void Java_org_rocksdb_WriteBatchWithIndex_merge__J_3BI_3BI( JNIEnv* env, jobject jobj, jlong jwbwi_handle, jbyteArray jkey, jint jkey_len, jbyteArray jentry_value, jint jentry_value_len) { auto* wbwi = reinterpret_cast(jwbwi_handle); assert(wbwi != nullptr); auto merge = [&wbwi](rocksdb::Slice key, rocksdb::Slice value) { return wbwi->Merge(key, value); }; std::unique_ptr status = rocksdb::JniUtil::kv_op( merge, env, jobj, jkey, jkey_len, jentry_value, jentry_value_len); if (status != nullptr && !status->ok()) { rocksdb::RocksDBExceptionJni::ThrowNew(env, status); } } /* * Class: org_rocksdb_WriteBatchWithIndex * Method: merge * Signature: (J[BI[BIJ)V */ void Java_org_rocksdb_WriteBatchWithIndex_merge__J_3BI_3BIJ( JNIEnv* env, jobject jobj, jlong jwbwi_handle, jbyteArray jkey, jint jkey_len, jbyteArray jentry_value, jint jentry_value_len, jlong jcf_handle) { auto* wbwi = reinterpret_cast(jwbwi_handle); assert(wbwi != nullptr); auto* cf_handle = reinterpret_cast(jcf_handle); assert(cf_handle != nullptr); auto merge = [&wbwi, &cf_handle](rocksdb::Slice key, rocksdb::Slice value) { return wbwi->Merge(cf_handle, key, value); }; std::unique_ptr status = rocksdb::JniUtil::kv_op( merge, env, jobj, jkey, jkey_len, jentry_value, jentry_value_len); if (status != nullptr && !status->ok()) { rocksdb::RocksDBExceptionJni::ThrowNew(env, status); } } /* * Class: org_rocksdb_WriteBatchWithIndex * Method: delete * Signature: (J[BI)V */ void Java_org_rocksdb_WriteBatchWithIndex_delete__J_3BI(JNIEnv* env, jobject jobj, jlong jwbwi_handle, jbyteArray jkey, jint jkey_len) { auto* wbwi = reinterpret_cast(jwbwi_handle); assert(wbwi != nullptr); auto remove = [&wbwi](rocksdb::Slice key) { return wbwi->Delete(key); }; std::unique_ptr status = rocksdb::JniUtil::k_op(remove, env, jobj, jkey, jkey_len); if (status != nullptr && !status->ok()) { rocksdb::RocksDBExceptionJni::ThrowNew(env, status); } } /* * Class: org_rocksdb_WriteBatchWithIndex * Method: delete * Signature: (J[BIJ)V */ void Java_org_rocksdb_WriteBatchWithIndex_delete__J_3BIJ( JNIEnv* env, jobject jobj, jlong jwbwi_handle, jbyteArray jkey, jint jkey_len, jlong jcf_handle) { auto* wbwi = reinterpret_cast(jwbwi_handle); assert(wbwi != nullptr); auto* cf_handle = reinterpret_cast(jcf_handle); assert(cf_handle != nullptr); auto remove = [&wbwi, &cf_handle](rocksdb::Slice key) { return wbwi->Delete(cf_handle, key); }; std::unique_ptr status = rocksdb::JniUtil::k_op(remove, env, jobj, jkey, jkey_len); if (status != nullptr && !status->ok()) { rocksdb::RocksDBExceptionJni::ThrowNew(env, status); } } /* * Class: org_rocksdb_WriteBatchWithIndex * Method: singleDelete * Signature: (J[BI)V */ void Java_org_rocksdb_WriteBatchWithIndex_singleDelete__J_3BI( JNIEnv* env, jobject jobj, jlong jwbwi_handle, jbyteArray jkey, jint jkey_len) { auto* wbwi = reinterpret_cast(jwbwi_handle); assert(wbwi != nullptr); auto single_delete = [&wbwi](rocksdb::Slice key) { return wbwi->SingleDelete(key); }; std::unique_ptr status = rocksdb::JniUtil::k_op(single_delete, env, jobj, jkey, jkey_len); if (status != nullptr && !status->ok()) { rocksdb::RocksDBExceptionJni::ThrowNew(env, status); } } /* * Class: org_rocksdb_WriteBatchWithIndex * Method: singleDelete * Signature: (J[BIJ)V */ void Java_org_rocksdb_WriteBatchWithIndex_singleDelete__J_3BIJ( JNIEnv* env, jobject jobj, jlong jwbwi_handle, jbyteArray jkey, jint jkey_len, jlong jcf_handle) { auto* wbwi = reinterpret_cast(jwbwi_handle); assert(wbwi != nullptr); auto* cf_handle = reinterpret_cast(jcf_handle); assert(cf_handle != nullptr); auto single_delete = [&wbwi, &cf_handle](rocksdb::Slice key) { return wbwi->SingleDelete(cf_handle, key); }; std::unique_ptr status = rocksdb::JniUtil::k_op(single_delete, env, jobj, jkey, jkey_len); if (status != nullptr && !status->ok()) { rocksdb::RocksDBExceptionJni::ThrowNew(env, status); } } /* * Class: org_rocksdb_WriteBatchWithIndex * Method: deleteRange * Signature: (J[BI[BI)V */ void Java_org_rocksdb_WriteBatchWithIndex_deleteRange__J_3BI_3BI( JNIEnv* env, jobject jobj, jlong jwbwi_handle, jbyteArray jbegin_key, jint jbegin_key_len, jbyteArray jend_key, jint jend_key_len) { auto* wbwi = reinterpret_cast(jwbwi_handle); assert(wbwi != nullptr); auto deleteRange = [&wbwi](rocksdb::Slice beginKey, rocksdb::Slice endKey) { return wbwi->DeleteRange(beginKey, endKey); }; std::unique_ptr status = rocksdb::JniUtil::kv_op(deleteRange, env, jobj, jbegin_key, jbegin_key_len, jend_key, jend_key_len); if (status != nullptr && !status->ok()) { rocksdb::RocksDBExceptionJni::ThrowNew(env, status); } } /* * Class: org_rocksdb_WriteBatchWithIndex * Method: deleteRange * Signature: (J[BI[BIJ)V */ void Java_org_rocksdb_WriteBatchWithIndex_deleteRange__J_3BI_3BIJ( JNIEnv* env, jobject jobj, jlong jwbwi_handle, jbyteArray jbegin_key, jint jbegin_key_len, jbyteArray jend_key, jint jend_key_len, jlong jcf_handle) { auto* wbwi = reinterpret_cast(jwbwi_handle); assert(wbwi != nullptr); auto* cf_handle = reinterpret_cast(jcf_handle); assert(cf_handle != nullptr); auto deleteRange = [&wbwi, &cf_handle](rocksdb::Slice beginKey, rocksdb::Slice endKey) { return wbwi->DeleteRange(cf_handle, beginKey, endKey); }; std::unique_ptr status = rocksdb::JniUtil::kv_op(deleteRange, env, jobj, jbegin_key, jbegin_key_len, jend_key, jend_key_len); if (status != nullptr && !status->ok()) { rocksdb::RocksDBExceptionJni::ThrowNew(env, status); } } /* * Class: org_rocksdb_WriteBatchWithIndex * Method: putLogData * Signature: (J[BI)V */ void Java_org_rocksdb_WriteBatchWithIndex_putLogData(JNIEnv* env, jobject jobj, jlong jwbwi_handle, jbyteArray jblob, jint jblob_len) { auto* wbwi = reinterpret_cast(jwbwi_handle); assert(wbwi != nullptr); auto putLogData = [&wbwi](rocksdb::Slice blob) { return wbwi->PutLogData(blob); }; std::unique_ptr status = rocksdb::JniUtil::k_op(putLogData, env, jobj, jblob, jblob_len); if (status != nullptr && !status->ok()) { rocksdb::RocksDBExceptionJni::ThrowNew(env, status); } } /* * Class: org_rocksdb_WriteBatchWithIndex * Method: clear * Signature: (J)V */ void Java_org_rocksdb_WriteBatchWithIndex_clear0(JNIEnv* /*env*/, jobject /*jobj*/, jlong jwbwi_handle) { auto* wbwi = reinterpret_cast(jwbwi_handle); assert(wbwi != nullptr); wbwi->Clear(); } /* * Class: org_rocksdb_WriteBatchWithIndex * Method: setSavePoint0 * Signature: (J)V */ void Java_org_rocksdb_WriteBatchWithIndex_setSavePoint0(JNIEnv* /*env*/, jobject /*jobj*/, jlong jwbwi_handle) { auto* wbwi = reinterpret_cast(jwbwi_handle); assert(wbwi != nullptr); wbwi->SetSavePoint(); } /* * Class: org_rocksdb_WriteBatchWithIndex * Method: rollbackToSavePoint0 * Signature: (J)V */ void Java_org_rocksdb_WriteBatchWithIndex_rollbackToSavePoint0( JNIEnv* env, jobject /*jobj*/, jlong jwbwi_handle) { auto* wbwi = reinterpret_cast(jwbwi_handle); assert(wbwi != nullptr); auto s = wbwi->RollbackToSavePoint(); if (s.ok()) { return; } rocksdb::RocksDBExceptionJni::ThrowNew(env, s); } /* * Class: org_rocksdb_WriteBatchWithIndex * Method: popSavePoint * Signature: (J)V */ void Java_org_rocksdb_WriteBatchWithIndex_popSavePoint(JNIEnv* env, jobject /*jobj*/, jlong jwbwi_handle) { auto* wbwi = reinterpret_cast(jwbwi_handle); assert(wbwi != nullptr); auto s = wbwi->PopSavePoint(); if (s.ok()) { return; } rocksdb::RocksDBExceptionJni::ThrowNew(env, s); } /* * Class: org_rocksdb_WriteBatchWithIndex * Method: setMaxBytes * Signature: (JJ)V */ void Java_org_rocksdb_WriteBatchWithIndex_setMaxBytes(JNIEnv* /*env*/, jobject /*jobj*/, jlong jwbwi_handle, jlong jmax_bytes) { auto* wbwi = reinterpret_cast(jwbwi_handle); assert(wbwi != nullptr); wbwi->SetMaxBytes(static_cast(jmax_bytes)); } /* * Class: org_rocksdb_WriteBatchWithIndex * Method: getWriteBatch * Signature: (J)Lorg/rocksdb/WriteBatch; */ jobject Java_org_rocksdb_WriteBatchWithIndex_getWriteBatch(JNIEnv* env, jobject /*jobj*/, jlong jwbwi_handle) { auto* wbwi = reinterpret_cast(jwbwi_handle); assert(wbwi != nullptr); auto* wb = wbwi->GetWriteBatch(); // TODO(AR) is the `wb` object owned by us? return rocksdb::WriteBatchJni::construct(env, wb); } /* * Class: org_rocksdb_WriteBatchWithIndex * Method: iterator0 * Signature: (J)J */ jlong Java_org_rocksdb_WriteBatchWithIndex_iterator0(JNIEnv* /*env*/, jobject /*jobj*/, jlong jwbwi_handle) { auto* wbwi = reinterpret_cast(jwbwi_handle); auto* wbwi_iterator = wbwi->NewIterator(); return reinterpret_cast(wbwi_iterator); } /* * Class: org_rocksdb_WriteBatchWithIndex * Method: iterator1 * Signature: (JJ)J */ jlong Java_org_rocksdb_WriteBatchWithIndex_iterator1(JNIEnv* /*env*/, jobject /*jobj*/, jlong jwbwi_handle, jlong jcf_handle) { auto* wbwi = reinterpret_cast(jwbwi_handle); auto* cf_handle = reinterpret_cast(jcf_handle); auto* wbwi_iterator = wbwi->NewIterator(cf_handle); return reinterpret_cast(wbwi_iterator); } /* * Class: org_rocksdb_WriteBatchWithIndex * Method: iteratorWithBase * Signature: (JJJ)J */ jlong Java_org_rocksdb_WriteBatchWithIndex_iteratorWithBase(JNIEnv* /*env*/, jobject /*jobj*/, jlong jwbwi_handle, jlong jcf_handle, jlong jbi_handle) { auto* wbwi = reinterpret_cast(jwbwi_handle); auto* cf_handle = reinterpret_cast(jcf_handle); auto* base_iterator = reinterpret_cast(jbi_handle); auto* iterator = wbwi->NewIteratorWithBase(cf_handle, base_iterator); return reinterpret_cast(iterator); } /* * Class: org_rocksdb_WriteBatchWithIndex * Method: getFromBatch * Signature: (JJ[BI)[B */ jbyteArray JNICALL Java_org_rocksdb_WriteBatchWithIndex_getFromBatch__JJ_3BI( JNIEnv* env, jobject /*jobj*/, jlong jwbwi_handle, jlong jdbopt_handle, jbyteArray jkey, jint jkey_len) { auto* wbwi = reinterpret_cast(jwbwi_handle); auto* dbopt = reinterpret_cast(jdbopt_handle); auto getter = [&wbwi, &dbopt](const rocksdb::Slice& key, std::string* value) { return wbwi->GetFromBatch(*dbopt, key, value); }; return rocksdb::JniUtil::v_op(getter, env, jkey, jkey_len); } /* * Class: org_rocksdb_WriteBatchWithIndex * Method: getFromBatch * Signature: (JJ[BIJ)[B */ jbyteArray Java_org_rocksdb_WriteBatchWithIndex_getFromBatch__JJ_3BIJ( JNIEnv* env, jobject /*jobj*/, jlong jwbwi_handle, jlong jdbopt_handle, jbyteArray jkey, jint jkey_len, jlong jcf_handle) { auto* wbwi = reinterpret_cast(jwbwi_handle); auto* dbopt = reinterpret_cast(jdbopt_handle); auto* cf_handle = reinterpret_cast(jcf_handle); auto getter = [&wbwi, &cf_handle, &dbopt](const rocksdb::Slice& key, std::string* value) { return wbwi->GetFromBatch(cf_handle, *dbopt, key, value); }; return rocksdb::JniUtil::v_op(getter, env, jkey, jkey_len); } /* * Class: org_rocksdb_WriteBatchWithIndex * Method: getFromBatchAndDB * Signature: (JJJ[BI)[B */ jbyteArray Java_org_rocksdb_WriteBatchWithIndex_getFromBatchAndDB__JJJ_3BI( JNIEnv* env, jobject /*jobj*/, jlong jwbwi_handle, jlong jdb_handle, jlong jreadopt_handle, jbyteArray jkey, jint jkey_len) { auto* wbwi = reinterpret_cast(jwbwi_handle); auto* db = reinterpret_cast(jdb_handle); auto* readopt = reinterpret_cast(jreadopt_handle); auto getter = [&wbwi, &db, &readopt](const rocksdb::Slice& key, std::string* value) { return wbwi->GetFromBatchAndDB(db, *readopt, key, value); }; return rocksdb::JniUtil::v_op(getter, env, jkey, jkey_len); } /* * Class: org_rocksdb_WriteBatchWithIndex * Method: getFromBatchAndDB * Signature: (JJJ[BIJ)[B */ jbyteArray Java_org_rocksdb_WriteBatchWithIndex_getFromBatchAndDB__JJJ_3BIJ( JNIEnv* env, jobject /*jobj*/, jlong jwbwi_handle, jlong jdb_handle, jlong jreadopt_handle, jbyteArray jkey, jint jkey_len, jlong jcf_handle) { auto* wbwi = reinterpret_cast(jwbwi_handle); auto* db = reinterpret_cast(jdb_handle); auto* readopt = reinterpret_cast(jreadopt_handle); auto* cf_handle = reinterpret_cast(jcf_handle); auto getter = [&wbwi, &db, &cf_handle, &readopt](const rocksdb::Slice& key, std::string* value) { return wbwi->GetFromBatchAndDB(db, *readopt, cf_handle, key, value); }; return rocksdb::JniUtil::v_op(getter, env, jkey, jkey_len); } /* * Class: org_rocksdb_WriteBatchWithIndex * Method: disposeInternal * Signature: (J)V */ void Java_org_rocksdb_WriteBatchWithIndex_disposeInternal(JNIEnv* /*env*/, jobject /*jobj*/, jlong handle) { auto* wbwi = reinterpret_cast(handle); assert(wbwi != nullptr); delete wbwi; } /* WBWIRocksIterator below */ /* * Class: org_rocksdb_WBWIRocksIterator * Method: disposeInternal * Signature: (J)V */ void Java_org_rocksdb_WBWIRocksIterator_disposeInternal(JNIEnv* /*env*/, jobject /*jobj*/, jlong handle) { auto* it = reinterpret_cast(handle); assert(it != nullptr); delete it; } /* * Class: org_rocksdb_WBWIRocksIterator * Method: isValid0 * Signature: (J)Z */ jboolean Java_org_rocksdb_WBWIRocksIterator_isValid0(JNIEnv* /*env*/, jobject /*jobj*/, jlong handle) { return reinterpret_cast(handle)->Valid(); } /* * Class: org_rocksdb_WBWIRocksIterator * Method: seekToFirst0 * Signature: (J)V */ void Java_org_rocksdb_WBWIRocksIterator_seekToFirst0(JNIEnv* /*env*/, jobject /*jobj*/, jlong handle) { reinterpret_cast(handle)->SeekToFirst(); } /* * Class: org_rocksdb_WBWIRocksIterator * Method: seekToLast0 * Signature: (J)V */ void Java_org_rocksdb_WBWIRocksIterator_seekToLast0(JNIEnv* /*env*/, jobject /*jobj*/, jlong handle) { reinterpret_cast(handle)->SeekToLast(); } /* * Class: org_rocksdb_WBWIRocksIterator * Method: next0 * Signature: (J)V */ void Java_org_rocksdb_WBWIRocksIterator_next0(JNIEnv* /*env*/, jobject /*jobj*/, jlong handle) { reinterpret_cast(handle)->Next(); } /* * Class: org_rocksdb_WBWIRocksIterator * Method: prev0 * Signature: (J)V */ void Java_org_rocksdb_WBWIRocksIterator_prev0(JNIEnv* /*env*/, jobject /*jobj*/, jlong handle) { reinterpret_cast(handle)->Prev(); } /* * Class: org_rocksdb_WBWIRocksIterator * Method: seek0 * Signature: (J[BI)V */ void Java_org_rocksdb_WBWIRocksIterator_seek0(JNIEnv* env, jobject /*jobj*/, jlong handle, jbyteArray jtarget, jint jtarget_len) { auto* it = reinterpret_cast(handle); jbyte* target = env->GetByteArrayElements(jtarget, nullptr); if (target == nullptr) { // exception thrown: OutOfMemoryError return; } rocksdb::Slice target_slice(reinterpret_cast(target), jtarget_len); it->Seek(target_slice); env->ReleaseByteArrayElements(jtarget, target, JNI_ABORT); } /* * Class: org_rocksdb_WBWIRocksIterator * Method: seekForPrev0 * Signature: (J[BI)V */ void Java_org_rocksdb_WBWIRocksIterator_seekForPrev0(JNIEnv* env, jobject /*jobj*/, jlong handle, jbyteArray jtarget, jint jtarget_len) { auto* it = reinterpret_cast(handle); jbyte* target = env->GetByteArrayElements(jtarget, nullptr); if (target == nullptr) { // exception thrown: OutOfMemoryError return; } rocksdb::Slice target_slice(reinterpret_cast(target), jtarget_len); it->SeekForPrev(target_slice); env->ReleaseByteArrayElements(jtarget, target, JNI_ABORT); } /* * Class: org_rocksdb_WBWIRocksIterator * Method: status0 * Signature: (J)V */ void Java_org_rocksdb_WBWIRocksIterator_status0(JNIEnv* env, jobject /*jobj*/, jlong handle) { auto* it = reinterpret_cast(handle); rocksdb::Status s = it->status(); if (s.ok()) { return; } rocksdb::RocksDBExceptionJni::ThrowNew(env, s); } /* * Class: org_rocksdb_WBWIRocksIterator * Method: entry1 * Signature: (J)[J */ jlongArray Java_org_rocksdb_WBWIRocksIterator_entry1(JNIEnv* env, jobject /*jobj*/, jlong handle) { auto* it = reinterpret_cast(handle); const rocksdb::WriteEntry& we = it->Entry(); jlong results[3]; // set the type of the write entry results[0] = rocksdb::WriteTypeJni::toJavaWriteType(we.type); // NOTE: key_slice and value_slice will be freed by // org.rocksdb.DirectSlice#close auto* key_slice = new rocksdb::Slice(we.key.data(), we.key.size()); results[1] = reinterpret_cast(key_slice); if (we.type == rocksdb::kDeleteRecord || we.type == rocksdb::kSingleDeleteRecord || we.type == rocksdb::kLogDataRecord) { // set native handle of value slice to null if no value available results[2] = 0; } else { auto* value_slice = new rocksdb::Slice(we.value.data(), we.value.size()); results[2] = reinterpret_cast(value_slice); } jlongArray jresults = env->NewLongArray(3); if (jresults == nullptr) { // exception thrown: OutOfMemoryError if (results[2] != 0) { auto* value_slice = reinterpret_cast(results[2]); delete value_slice; } delete key_slice; return nullptr; } env->SetLongArrayRegion(jresults, 0, 3, results); if (env->ExceptionCheck()) { // exception thrown: ArrayIndexOutOfBoundsException env->DeleteLocalRef(jresults); if (results[2] != 0) { auto* value_slice = reinterpret_cast(results[2]); delete value_slice; } delete key_slice; return nullptr; } return jresults; } rocksdb-5.17.2/java/rocksjni/writebatchhandlerjnicallback.cc000066400000000000000000000361601337235545400242000ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file implements the callback "bridge" between Java and C++ for // rocksdb::Comparator. #include "rocksjni/writebatchhandlerjnicallback.h" #include "rocksjni/portal.h" namespace rocksdb { WriteBatchHandlerJniCallback::WriteBatchHandlerJniCallback( JNIEnv* env, jobject jWriteBatchHandler) : JniCallback(env, jWriteBatchHandler), m_env(env) { m_jPutCfMethodId = WriteBatchHandlerJni::getPutCfMethodId(env); if(m_jPutCfMethodId == nullptr) { // exception thrown return; } m_jPutMethodId = WriteBatchHandlerJni::getPutMethodId(env); if(m_jPutMethodId == nullptr) { // exception thrown return; } m_jMergeCfMethodId = WriteBatchHandlerJni::getMergeCfMethodId(env); if(m_jMergeCfMethodId == nullptr) { // exception thrown return; } m_jMergeMethodId = WriteBatchHandlerJni::getMergeMethodId(env); if(m_jMergeMethodId == nullptr) { // exception thrown return; } m_jDeleteCfMethodId = WriteBatchHandlerJni::getDeleteCfMethodId(env); if(m_jDeleteCfMethodId == nullptr) { // exception thrown return; } m_jDeleteMethodId = WriteBatchHandlerJni::getDeleteMethodId(env); if(m_jDeleteMethodId == nullptr) { // exception thrown return; } m_jSingleDeleteCfMethodId = WriteBatchHandlerJni::getSingleDeleteCfMethodId(env); if(m_jSingleDeleteCfMethodId == nullptr) { // exception thrown return; } m_jSingleDeleteMethodId = WriteBatchHandlerJni::getSingleDeleteMethodId(env); if(m_jSingleDeleteMethodId == nullptr) { // exception thrown return; } m_jDeleteRangeCfMethodId = WriteBatchHandlerJni::getDeleteRangeCfMethodId(env); if (m_jDeleteRangeCfMethodId == nullptr) { // exception thrown return; } m_jDeleteRangeMethodId = WriteBatchHandlerJni::getDeleteRangeMethodId(env); if (m_jDeleteRangeMethodId == nullptr) { // exception thrown return; } m_jLogDataMethodId = WriteBatchHandlerJni::getLogDataMethodId(env); if(m_jLogDataMethodId == nullptr) { // exception thrown return; } m_jPutBlobIndexCfMethodId = WriteBatchHandlerJni::getPutBlobIndexCfMethodId(env); if(m_jPutBlobIndexCfMethodId == nullptr) { // exception thrown return; } m_jMarkBeginPrepareMethodId = WriteBatchHandlerJni::getMarkBeginPrepareMethodId(env); if(m_jMarkBeginPrepareMethodId == nullptr) { // exception thrown return; } m_jMarkEndPrepareMethodId = WriteBatchHandlerJni::getMarkEndPrepareMethodId(env); if(m_jMarkEndPrepareMethodId == nullptr) { // exception thrown return; } m_jMarkNoopMethodId = WriteBatchHandlerJni::getMarkNoopMethodId(env); if(m_jMarkNoopMethodId == nullptr) { // exception thrown return; } m_jMarkRollbackMethodId = WriteBatchHandlerJni::getMarkRollbackMethodId(env); if(m_jMarkRollbackMethodId == nullptr) { // exception thrown return; } m_jMarkCommitMethodId = WriteBatchHandlerJni::getMarkCommitMethodId(env); if(m_jMarkCommitMethodId == nullptr) { // exception thrown return; } m_jContinueMethodId = WriteBatchHandlerJni::getContinueMethodId(env); if(m_jContinueMethodId == nullptr) { // exception thrown return; } } rocksdb::Status WriteBatchHandlerJniCallback::PutCF(uint32_t column_family_id, const Slice& key, const Slice& value) { auto put = [this, column_family_id] ( jbyteArray j_key, jbyteArray j_value) { m_env->CallVoidMethod( m_jcallback_obj, m_jPutCfMethodId, static_cast(column_family_id), j_key, j_value); }; auto status = WriteBatchHandlerJniCallback::kv_op(key, value, put); if(status == nullptr) { return rocksdb::Status::OK(); // TODO(AR) what to do if there is an Exception but we don't know the rocksdb::Status? } else { return rocksdb::Status(*status); } } void WriteBatchHandlerJniCallback::Put(const Slice& key, const Slice& value) { auto put = [this] ( jbyteArray j_key, jbyteArray j_value) { m_env->CallVoidMethod( m_jcallback_obj, m_jPutMethodId, j_key, j_value); }; WriteBatchHandlerJniCallback::kv_op(key, value, put); } rocksdb::Status WriteBatchHandlerJniCallback::MergeCF(uint32_t column_family_id, const Slice& key, const Slice& value) { auto merge = [this, column_family_id] ( jbyteArray j_key, jbyteArray j_value) { m_env->CallVoidMethod( m_jcallback_obj, m_jMergeCfMethodId, static_cast(column_family_id), j_key, j_value); }; auto status = WriteBatchHandlerJniCallback::kv_op(key, value, merge); if(status == nullptr) { return rocksdb::Status::OK(); // TODO(AR) what to do if there is an Exception but we don't know the rocksdb::Status? } else { return rocksdb::Status(*status); } } void WriteBatchHandlerJniCallback::Merge(const Slice& key, const Slice& value) { auto merge = [this] ( jbyteArray j_key, jbyteArray j_value) { m_env->CallVoidMethod( m_jcallback_obj, m_jMergeMethodId, j_key, j_value); }; WriteBatchHandlerJniCallback::kv_op(key, value, merge); } rocksdb::Status WriteBatchHandlerJniCallback::DeleteCF(uint32_t column_family_id, const Slice& key) { auto remove = [this, column_family_id] (jbyteArray j_key) { m_env->CallVoidMethod( m_jcallback_obj, m_jDeleteCfMethodId, static_cast(column_family_id), j_key); }; auto status = WriteBatchHandlerJniCallback::k_op(key, remove); if(status == nullptr) { return rocksdb::Status::OK(); // TODO(AR) what to do if there is an Exception but we don't know the rocksdb::Status? } else { return rocksdb::Status(*status); } } void WriteBatchHandlerJniCallback::Delete(const Slice& key) { auto remove = [this] (jbyteArray j_key) { m_env->CallVoidMethod( m_jcallback_obj, m_jDeleteMethodId, j_key); }; WriteBatchHandlerJniCallback::k_op(key, remove); } rocksdb::Status WriteBatchHandlerJniCallback::SingleDeleteCF(uint32_t column_family_id, const Slice& key) { auto singleDelete = [this, column_family_id] (jbyteArray j_key) { m_env->CallVoidMethod( m_jcallback_obj, m_jSingleDeleteCfMethodId, static_cast(column_family_id), j_key); }; auto status = WriteBatchHandlerJniCallback::k_op(key, singleDelete); if(status == nullptr) { return rocksdb::Status::OK(); // TODO(AR) what to do if there is an Exception but we don't know the rocksdb::Status? } else { return rocksdb::Status(*status); } } void WriteBatchHandlerJniCallback::SingleDelete(const Slice& key) { auto singleDelete = [this] (jbyteArray j_key) { m_env->CallVoidMethod( m_jcallback_obj, m_jSingleDeleteMethodId, j_key); }; WriteBatchHandlerJniCallback::k_op(key, singleDelete); } rocksdb::Status WriteBatchHandlerJniCallback::DeleteRangeCF(uint32_t column_family_id, const Slice& beginKey, const Slice& endKey) { auto deleteRange = [this, column_family_id] ( jbyteArray j_beginKey, jbyteArray j_endKey) { m_env->CallVoidMethod( m_jcallback_obj, m_jDeleteRangeCfMethodId, static_cast(column_family_id), j_beginKey, j_endKey); }; auto status = WriteBatchHandlerJniCallback::kv_op(beginKey, endKey, deleteRange); if(status == nullptr) { return rocksdb::Status::OK(); // TODO(AR) what to do if there is an Exception but we don't know the rocksdb::Status? } else { return rocksdb::Status(*status); } } void WriteBatchHandlerJniCallback::DeleteRange(const Slice& beginKey, const Slice& endKey) { auto deleteRange = [this] ( jbyteArray j_beginKey, jbyteArray j_endKey) { m_env->CallVoidMethod( m_jcallback_obj, m_jDeleteRangeMethodId, j_beginKey, j_endKey); }; WriteBatchHandlerJniCallback::kv_op(beginKey, endKey, deleteRange); } void WriteBatchHandlerJniCallback::LogData(const Slice& blob) { auto logData = [this] (jbyteArray j_blob) { m_env->CallVoidMethod( m_jcallback_obj, m_jLogDataMethodId, j_blob); }; WriteBatchHandlerJniCallback::k_op(blob, logData); } rocksdb::Status WriteBatchHandlerJniCallback::PutBlobIndexCF(uint32_t column_family_id, const Slice& key, const Slice& value) { auto putBlobIndex = [this, column_family_id] ( jbyteArray j_key, jbyteArray j_value) { m_env->CallVoidMethod( m_jcallback_obj, m_jPutBlobIndexCfMethodId, static_cast(column_family_id), j_key, j_value); }; auto status = WriteBatchHandlerJniCallback::kv_op(key, value, putBlobIndex); if(status == nullptr) { return rocksdb::Status::OK(); // TODO(AR) what to do if there is an Exception but we don't know the rocksdb::Status? } else { return rocksdb::Status(*status); } } rocksdb::Status WriteBatchHandlerJniCallback::MarkBeginPrepare(bool unprepare) { #ifndef DEBUG (void) unprepare; #else assert(!unprepare); #endif m_env->CallVoidMethod(m_jcallback_obj, m_jMarkBeginPrepareMethodId); // check for Exception, in-particular RocksDBException if (m_env->ExceptionCheck()) { // exception thrown jthrowable exception = m_env->ExceptionOccurred(); std::unique_ptr status = rocksdb::RocksDBExceptionJni::toCppStatus(m_env, exception); if (status == nullptr) { // unkown status or exception occurred extracting status m_env->ExceptionDescribe(); return rocksdb::Status::OK(); // TODO(AR) probably need a better error code here } else { m_env->ExceptionClear(); // clear the exception, as we have extracted the status return rocksdb::Status(*status); } } return rocksdb::Status::OK(); } rocksdb::Status WriteBatchHandlerJniCallback::MarkEndPrepare(const Slice& xid) { auto markEndPrepare = [this] ( jbyteArray j_xid) { m_env->CallVoidMethod( m_jcallback_obj, m_jMarkEndPrepareMethodId, j_xid); }; auto status = WriteBatchHandlerJniCallback::k_op(xid, markEndPrepare); if(status == nullptr) { return rocksdb::Status::OK(); // TODO(AR) what to do if there is an Exception but we don't know the rocksdb::Status? } else { return rocksdb::Status(*status); } } rocksdb::Status WriteBatchHandlerJniCallback::MarkNoop(bool empty_batch) { m_env->CallVoidMethod(m_jcallback_obj, m_jMarkNoopMethodId, static_cast(empty_batch)); // check for Exception, in-particular RocksDBException if (m_env->ExceptionCheck()) { // exception thrown jthrowable exception = m_env->ExceptionOccurred(); std::unique_ptr status = rocksdb::RocksDBExceptionJni::toCppStatus(m_env, exception); if (status == nullptr) { // unkown status or exception occurred extracting status m_env->ExceptionDescribe(); return rocksdb::Status::OK(); // TODO(AR) probably need a better error code here } else { m_env->ExceptionClear(); // clear the exception, as we have extracted the status return rocksdb::Status(*status); } } return rocksdb::Status::OK(); } rocksdb::Status WriteBatchHandlerJniCallback::MarkRollback(const Slice& xid) { auto markRollback = [this] ( jbyteArray j_xid) { m_env->CallVoidMethod( m_jcallback_obj, m_jMarkRollbackMethodId, j_xid); }; auto status = WriteBatchHandlerJniCallback::k_op(xid, markRollback); if(status == nullptr) { return rocksdb::Status::OK(); // TODO(AR) what to do if there is an Exception but we don't know the rocksdb::Status? } else { return rocksdb::Status(*status); } } rocksdb::Status WriteBatchHandlerJniCallback::MarkCommit(const Slice& xid) { auto markCommit = [this] ( jbyteArray j_xid) { m_env->CallVoidMethod( m_jcallback_obj, m_jMarkCommitMethodId, j_xid); }; auto status = WriteBatchHandlerJniCallback::k_op(xid, markCommit); if(status == nullptr) { return rocksdb::Status::OK(); // TODO(AR) what to do if there is an Exception but we don't know the rocksdb::Status? } else { return rocksdb::Status(*status); } } bool WriteBatchHandlerJniCallback::Continue() { jboolean jContinue = m_env->CallBooleanMethod( m_jcallback_obj, m_jContinueMethodId); if(m_env->ExceptionCheck()) { // exception thrown m_env->ExceptionDescribe(); } return static_cast(jContinue == JNI_TRUE); } std::unique_ptr WriteBatchHandlerJniCallback::kv_op(const Slice& key, const Slice& value, std::function kvFn) { const jbyteArray j_key = JniUtil::copyBytes(m_env, key); if (j_key == nullptr) { // exception thrown if (m_env->ExceptionCheck()) { m_env->ExceptionDescribe(); } return nullptr; } const jbyteArray j_value = JniUtil::copyBytes(m_env, value); if (j_value == nullptr) { // exception thrown if (m_env->ExceptionCheck()) { m_env->ExceptionDescribe(); } if (j_key != nullptr) { m_env->DeleteLocalRef(j_key); } return nullptr; } kvFn(j_key, j_value); // check for Exception, in-particular RocksDBException if (m_env->ExceptionCheck()) { if (j_value != nullptr) { m_env->DeleteLocalRef(j_value); } if (j_key != nullptr) { m_env->DeleteLocalRef(j_key); } // exception thrown jthrowable exception = m_env->ExceptionOccurred(); std::unique_ptr status = rocksdb::RocksDBExceptionJni::toCppStatus(m_env, exception); if (status == nullptr) { // unkown status or exception occurred extracting status m_env->ExceptionDescribe(); return nullptr; } else { m_env->ExceptionClear(); // clear the exception, as we have extracted the status return status; } } if (j_value != nullptr) { m_env->DeleteLocalRef(j_value); } if (j_key != nullptr) { m_env->DeleteLocalRef(j_key); } // all OK return std::unique_ptr(new rocksdb::Status(rocksdb::Status::OK())); } std::unique_ptr WriteBatchHandlerJniCallback::k_op(const Slice& key, std::function kFn) { const jbyteArray j_key = JniUtil::copyBytes(m_env, key); if (j_key == nullptr) { // exception thrown if (m_env->ExceptionCheck()) { m_env->ExceptionDescribe(); } return nullptr; } kFn(j_key); // check for Exception, in-particular RocksDBException if (m_env->ExceptionCheck()) { if (j_key != nullptr) { m_env->DeleteLocalRef(j_key); } // exception thrown jthrowable exception = m_env->ExceptionOccurred(); std::unique_ptr status = rocksdb::RocksDBExceptionJni::toCppStatus(m_env, exception); if (status == nullptr) { // unkown status or exception occurred extracting status m_env->ExceptionDescribe(); return nullptr; } else { m_env->ExceptionClear(); // clear the exception, as we have extracted the status return status; } } if (j_key != nullptr) { m_env->DeleteLocalRef(j_key); } // all OK return std::unique_ptr(new rocksdb::Status(rocksdb::Status::OK())); } } // namespace rocksdb rocksdb-5.17.2/java/rocksjni/writebatchhandlerjnicallback.h000066400000000000000000000064061337235545400240420ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // This file implements the callback "bridge" between Java and C++ for // rocksdb::WriteBatch::Handler. #ifndef JAVA_ROCKSJNI_WRITEBATCHHANDLERJNICALLBACK_H_ #define JAVA_ROCKSJNI_WRITEBATCHHANDLERJNICALLBACK_H_ #include #include #include #include "rocksjni/jnicallback.h" #include "rocksdb/write_batch.h" namespace rocksdb { /** * This class acts as a bridge between C++ * and Java. The methods in this class will be * called back from the RocksDB storage engine (C++) * which calls the appropriate Java method. * This enables Write Batch Handlers to be implemented in Java. */ class WriteBatchHandlerJniCallback : public JniCallback, public WriteBatch::Handler { public: WriteBatchHandlerJniCallback( JNIEnv* env, jobject jWriteBackHandler); Status PutCF(uint32_t column_family_id, const Slice& key, const Slice& value); void Put(const Slice& key, const Slice& value); Status MergeCF(uint32_t column_family_id, const Slice& key, const Slice& value); void Merge(const Slice& key, const Slice& value); Status DeleteCF(uint32_t column_family_id, const Slice& key); void Delete(const Slice& key); Status SingleDeleteCF(uint32_t column_family_id, const Slice& key); void SingleDelete(const Slice& key); Status DeleteRangeCF(uint32_t column_family_id, const Slice& beginKey, const Slice& endKey); void DeleteRange(const Slice& beginKey, const Slice& endKey); void LogData(const Slice& blob); Status PutBlobIndexCF(uint32_t column_family_id, const Slice& key, const Slice& value); Status MarkBeginPrepare(bool); Status MarkEndPrepare(const Slice& xid); Status MarkNoop(bool empty_batch); Status MarkRollback(const Slice& xid); Status MarkCommit(const Slice& xid); bool Continue(); private: JNIEnv* m_env; jmethodID m_jPutCfMethodId; jmethodID m_jPutMethodId; jmethodID m_jMergeCfMethodId; jmethodID m_jMergeMethodId; jmethodID m_jDeleteCfMethodId; jmethodID m_jDeleteMethodId; jmethodID m_jSingleDeleteCfMethodId; jmethodID m_jSingleDeleteMethodId; jmethodID m_jDeleteRangeCfMethodId; jmethodID m_jDeleteRangeMethodId; jmethodID m_jLogDataMethodId; jmethodID m_jPutBlobIndexCfMethodId; jmethodID m_jMarkBeginPrepareMethodId; jmethodID m_jMarkEndPrepareMethodId; jmethodID m_jMarkNoopMethodId; jmethodID m_jMarkRollbackMethodId; jmethodID m_jMarkCommitMethodId; jmethodID m_jContinueMethodId; /** * @return A pointer to a rocksdb::Status or nullptr if an unexpected exception occurred */ std::unique_ptr kv_op(const Slice& key, const Slice& value, std::function kvFn); /** * @return A pointer to a rocksdb::Status or nullptr if an unexpected exception occurred */ std::unique_ptr k_op(const Slice& key, std::function kFn); }; } // namespace rocksdb #endif // JAVA_ROCKSJNI_WRITEBATCHHANDLERJNICALLBACK_H_ rocksdb-5.17.2/java/samples/000077500000000000000000000000001337235545400156355ustar00rootroot00000000000000rocksdb-5.17.2/java/samples/src/000077500000000000000000000000001337235545400164245ustar00rootroot00000000000000rocksdb-5.17.2/java/samples/src/main/000077500000000000000000000000001337235545400173505ustar00rootroot00000000000000rocksdb-5.17.2/java/samples/src/main/java/000077500000000000000000000000001337235545400202715ustar00rootroot00000000000000rocksdb-5.17.2/java/samples/src/main/java/OptimisticTransactionSample.java000066400000000000000000000144241337235545400266350ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). import org.rocksdb.*; import static java.nio.charset.StandardCharsets.UTF_8; /** * Demonstrates using Transactions on an OptimisticTransactionDB with * varying isolation guarantees */ public class OptimisticTransactionSample { private static final String dbPath = "/tmp/rocksdb_optimistic_transaction_example"; public static final void main(final String args[]) throws RocksDBException { try(final Options options = new Options() .setCreateIfMissing(true); final OptimisticTransactionDB txnDb = OptimisticTransactionDB.open(options, dbPath)) { try (final WriteOptions writeOptions = new WriteOptions(); final ReadOptions readOptions = new ReadOptions()) { //////////////////////////////////////////////////////// // // Simple OptimisticTransaction Example ("Read Committed") // //////////////////////////////////////////////////////// readCommitted(txnDb, writeOptions, readOptions); //////////////////////////////////////////////////////// // // "Repeatable Read" (Snapshot Isolation) Example // -- Using a single Snapshot // //////////////////////////////////////////////////////// repeatableRead(txnDb, writeOptions, readOptions); //////////////////////////////////////////////////////// // // "Read Committed" (Monotonic Atomic Views) Example // --Using multiple Snapshots // //////////////////////////////////////////////////////// readCommitted_monotonicAtomicViews(txnDb, writeOptions, readOptions); } } } /** * Demonstrates "Read Committed" isolation */ private static void readCommitted(final OptimisticTransactionDB txnDb, final WriteOptions writeOptions, final ReadOptions readOptions) throws RocksDBException { final byte key1[] = "abc".getBytes(UTF_8); final byte value1[] = "def".getBytes(UTF_8); final byte key2[] = "xyz".getBytes(UTF_8); final byte value2[] = "zzz".getBytes(UTF_8); // Start a transaction try(final Transaction txn = txnDb.beginTransaction(writeOptions)) { // Read a key in this transaction byte[] value = txn.get(readOptions, key1); assert(value == null); // Write a key in this transaction txn.put(key1, value1); // Read a key OUTSIDE this transaction. Does not affect txn. value = txnDb.get(readOptions, key1); assert(value == null); // Write a key OUTSIDE of this transaction. // Does not affect txn since this is an unrelated key. // If we wrote key 'abc' here, the transaction would fail to commit. txnDb.put(writeOptions, key2, value2); // Commit transaction txn.commit(); } } /** * Demonstrates "Repeatable Read" (Snapshot Isolation) isolation */ private static void repeatableRead(final OptimisticTransactionDB txnDb, final WriteOptions writeOptions, final ReadOptions readOptions) throws RocksDBException { final byte key1[] = "ghi".getBytes(UTF_8); final byte value1[] = "jkl".getBytes(UTF_8); // Set a snapshot at start of transaction by setting setSnapshot(true) try(final OptimisticTransactionOptions txnOptions = new OptimisticTransactionOptions().setSetSnapshot(true); final Transaction txn = txnDb.beginTransaction(writeOptions, txnOptions)) { final Snapshot snapshot = txn.getSnapshot(); // Write a key OUTSIDE of transaction txnDb.put(writeOptions, key1, value1); // Read a key using the snapshot. readOptions.setSnapshot(snapshot); final byte[] value = txn.getForUpdate(readOptions, key1, true); assert(value == value1); try { // Attempt to commit transaction txn.commit(); throw new IllegalStateException(); } catch(final RocksDBException e) { // Transaction could not commit since the write outside of the txn // conflicted with the read! assert(e.getStatus().getCode() == Status.Code.Busy); } txn.rollback(); } finally { // Clear snapshot from read options since it is no longer valid readOptions.setSnapshot(null); } } /** * Demonstrates "Read Committed" (Monotonic Atomic Views) isolation * * In this example, we set the snapshot multiple times. This is probably * only necessary if you have very strict isolation requirements to * implement. */ private static void readCommitted_monotonicAtomicViews( final OptimisticTransactionDB txnDb, final WriteOptions writeOptions, final ReadOptions readOptions) throws RocksDBException { final byte keyX[] = "x".getBytes(UTF_8); final byte valueX[] = "x".getBytes(UTF_8); final byte keyY[] = "y".getBytes(UTF_8); final byte valueY[] = "y".getBytes(UTF_8); try (final OptimisticTransactionOptions txnOptions = new OptimisticTransactionOptions().setSetSnapshot(true); final Transaction txn = txnDb.beginTransaction(writeOptions, txnOptions)) { // Do some reads and writes to key "x" Snapshot snapshot = txnDb.getSnapshot(); readOptions.setSnapshot(snapshot); byte[] value = txn.get(readOptions, keyX); txn.put(valueX, valueX); // Do a write outside of the transaction to key "y" txnDb.put(writeOptions, keyY, valueY); // Set a new snapshot in the transaction txn.setSnapshot(); snapshot = txnDb.getSnapshot(); readOptions.setSnapshot(snapshot); // Do some reads and writes to key "y" // Since the snapshot was advanced, the write done outside of the // transaction does not conflict. value = txn.getForUpdate(readOptions, keyY, true); txn.put(keyY, valueY); // Commit. Since the snapshot was advanced, the write done outside of the // transaction does not prevent this transaction from Committing. txn.commit(); } finally { // Clear snapshot from read options since it is no longer valid readOptions.setSnapshot(null); } } } rocksdb-5.17.2/java/samples/src/main/java/RocksDBColumnFamilySample.java000066400000000000000000000051761337235545400261160ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). import org.rocksdb.*; import java.util.ArrayList; import java.util.List; public class RocksDBColumnFamilySample { static { RocksDB.loadLibrary(); } public static void main(final String[] args) throws RocksDBException { if (args.length < 1) { System.out.println( "usage: RocksDBColumnFamilySample db_path"); System.exit(-1); } final String db_path = args[0]; System.out.println("RocksDBColumnFamilySample"); try(final Options options = new Options().setCreateIfMissing(true); final RocksDB db = RocksDB.open(options, db_path)) { assert(db != null); // create column family try(final ColumnFamilyHandle columnFamilyHandle = db.createColumnFamily( new ColumnFamilyDescriptor("new_cf".getBytes(), new ColumnFamilyOptions()))) { assert (columnFamilyHandle != null); } } // open DB with two column families final List columnFamilyDescriptors = new ArrayList<>(); // have to open default column family columnFamilyDescriptors.add(new ColumnFamilyDescriptor( RocksDB.DEFAULT_COLUMN_FAMILY, new ColumnFamilyOptions())); // open the new one, too columnFamilyDescriptors.add(new ColumnFamilyDescriptor( "new_cf".getBytes(), new ColumnFamilyOptions())); final List columnFamilyHandles = new ArrayList<>(); try(final DBOptions options = new DBOptions(); final RocksDB db = RocksDB.open(options, db_path, columnFamilyDescriptors, columnFamilyHandles)) { assert(db != null); try { // put and get from non-default column family db.put(columnFamilyHandles.get(0), new WriteOptions(), "key".getBytes(), "value".getBytes()); // atomic write try (final WriteBatch wb = new WriteBatch()) { wb.put(columnFamilyHandles.get(0), "key2".getBytes(), "value2".getBytes()); wb.put(columnFamilyHandles.get(1), "key3".getBytes(), "value3".getBytes()); wb.remove(columnFamilyHandles.get(0), "key".getBytes()); db.write(new WriteOptions(), wb); } // drop column family db.dropColumnFamily(columnFamilyHandles.get(1)); } finally { for (final ColumnFamilyHandle handle : columnFamilyHandles) { handle.close(); } } } } } rocksdb-5.17.2/java/samples/src/main/java/RocksDBSample.java000066400000000000000000000263551337235545400236000ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). import java.lang.IllegalArgumentException; import java.util.Arrays; import java.util.List; import java.util.Map; import java.util.ArrayList; import org.rocksdb.*; import org.rocksdb.util.SizeUnit; public class RocksDBSample { static { RocksDB.loadLibrary(); } public static void main(final String[] args) { if (args.length < 1) { System.out.println("usage: RocksDBSample db_path"); System.exit(-1); } final String db_path = args[0]; final String db_path_not_found = db_path + "_not_found"; System.out.println("RocksDBSample"); try (final Options options = new Options(); final Filter bloomFilter = new BloomFilter(10); final ReadOptions readOptions = new ReadOptions() .setFillCache(false); final Statistics stats = new Statistics(); final RateLimiter rateLimiter = new RateLimiter(10000000,10000, 10)) { try (final RocksDB db = RocksDB.open(options, db_path_not_found)) { assert (false); } catch (final RocksDBException e) { System.out.format("Caught the expected exception -- %s\n", e); } try { options.setCreateIfMissing(true) .setStatistics(stats) .setWriteBufferSize(8 * SizeUnit.KB) .setMaxWriteBufferNumber(3) .setMaxBackgroundCompactions(10) .setCompressionType(CompressionType.SNAPPY_COMPRESSION) .setCompactionStyle(CompactionStyle.UNIVERSAL); } catch (final IllegalArgumentException e) { assert (false); } assert (options.createIfMissing() == true); assert (options.writeBufferSize() == 8 * SizeUnit.KB); assert (options.maxWriteBufferNumber() == 3); assert (options.maxBackgroundCompactions() == 10); assert (options.compressionType() == CompressionType.SNAPPY_COMPRESSION); assert (options.compactionStyle() == CompactionStyle.UNIVERSAL); assert (options.memTableFactoryName().equals("SkipListFactory")); options.setMemTableConfig( new HashSkipListMemTableConfig() .setHeight(4) .setBranchingFactor(4) .setBucketCount(2000000)); assert (options.memTableFactoryName().equals("HashSkipListRepFactory")); options.setMemTableConfig( new HashLinkedListMemTableConfig() .setBucketCount(100000)); assert (options.memTableFactoryName().equals("HashLinkedListRepFactory")); options.setMemTableConfig( new VectorMemTableConfig().setReservedSize(10000)); assert (options.memTableFactoryName().equals("VectorRepFactory")); options.setMemTableConfig(new SkipListMemTableConfig()); assert (options.memTableFactoryName().equals("SkipListFactory")); options.setTableFormatConfig(new PlainTableConfig()); // Plain-Table requires mmap read options.setAllowMmapReads(true); assert (options.tableFactoryName().equals("PlainTable")); options.setRateLimiter(rateLimiter); final BlockBasedTableConfig table_options = new BlockBasedTableConfig(); table_options.setBlockCacheSize(64 * SizeUnit.KB) .setFilter(bloomFilter) .setCacheNumShardBits(6) .setBlockSizeDeviation(5) .setBlockRestartInterval(10) .setCacheIndexAndFilterBlocks(true) .setHashIndexAllowCollision(false) .setBlockCacheCompressedSize(64 * SizeUnit.KB) .setBlockCacheCompressedNumShardBits(10); assert (table_options.blockCacheSize() == 64 * SizeUnit.KB); assert (table_options.cacheNumShardBits() == 6); assert (table_options.blockSizeDeviation() == 5); assert (table_options.blockRestartInterval() == 10); assert (table_options.cacheIndexAndFilterBlocks() == true); assert (table_options.hashIndexAllowCollision() == false); assert (table_options.blockCacheCompressedSize() == 64 * SizeUnit.KB); assert (table_options.blockCacheCompressedNumShardBits() == 10); options.setTableFormatConfig(table_options); assert (options.tableFactoryName().equals("BlockBasedTable")); try (final RocksDB db = RocksDB.open(options, db_path)) { db.put("hello".getBytes(), "world".getBytes()); final byte[] value = db.get("hello".getBytes()); assert ("world".equals(new String(value))); final String str = db.getProperty("rocksdb.stats"); assert (str != null && !str.equals("")); } catch (final RocksDBException e) { System.out.format("[ERROR] caught the unexpected exception -- %s\n", e); assert (false); } try (final RocksDB db = RocksDB.open(options, db_path)) { db.put("hello".getBytes(), "world".getBytes()); byte[] value = db.get("hello".getBytes()); System.out.format("Get('hello') = %s\n", new String(value)); for (int i = 1; i <= 9; ++i) { for (int j = 1; j <= 9; ++j) { db.put(String.format("%dx%d", i, j).getBytes(), String.format("%d", i * j).getBytes()); } } for (int i = 1; i <= 9; ++i) { for (int j = 1; j <= 9; ++j) { System.out.format("%s ", new String(db.get( String.format("%dx%d", i, j).getBytes()))); } System.out.println(""); } // write batch test try (final WriteOptions writeOpt = new WriteOptions()) { for (int i = 10; i <= 19; ++i) { try (final WriteBatch batch = new WriteBatch()) { for (int j = 10; j <= 19; ++j) { batch.put(String.format("%dx%d", i, j).getBytes(), String.format("%d", i * j).getBytes()); } db.write(writeOpt, batch); } } } for (int i = 10; i <= 19; ++i) { for (int j = 10; j <= 19; ++j) { assert (new String( db.get(String.format("%dx%d", i, j).getBytes())).equals( String.format("%d", i * j))); System.out.format("%s ", new String(db.get( String.format("%dx%d", i, j).getBytes()))); } System.out.println(""); } value = db.get("1x1".getBytes()); assert (value != null); value = db.get("world".getBytes()); assert (value == null); value = db.get(readOptions, "world".getBytes()); assert (value == null); final byte[] testKey = "asdf".getBytes(); final byte[] testValue = "asdfghjkl;'?> insufficientArray.length); len = db.get("asdfjkl;".getBytes(), enoughArray); assert (len == RocksDB.NOT_FOUND); len = db.get(testKey, enoughArray); assert (len == testValue.length); len = db.get(readOptions, testKey, insufficientArray); assert (len > insufficientArray.length); len = db.get(readOptions, "asdfjkl;".getBytes(), enoughArray); assert (len == RocksDB.NOT_FOUND); len = db.get(readOptions, testKey, enoughArray); assert (len == testValue.length); db.remove(testKey); len = db.get(testKey, enoughArray); assert (len == RocksDB.NOT_FOUND); // repeat the test with WriteOptions try (final WriteOptions writeOpts = new WriteOptions()) { writeOpts.setSync(true); writeOpts.setDisableWAL(true); db.put(writeOpts, testKey, testValue); len = db.get(testKey, enoughArray); assert (len == testValue.length); assert (new String(testValue).equals( new String(enoughArray, 0, len))); } try { for (final TickerType statsType : TickerType.values()) { if (statsType != TickerType.TICKER_ENUM_MAX) { stats.getTickerCount(statsType); } } System.out.println("getTickerCount() passed."); } catch (final Exception e) { System.out.println("Failed in call to getTickerCount()"); assert (false); //Should never reach here. } try { for (final HistogramType histogramType : HistogramType.values()) { if (histogramType != HistogramType.HISTOGRAM_ENUM_MAX) { HistogramData data = stats.getHistogramData(histogramType); } } System.out.println("getHistogramData() passed."); } catch (final Exception e) { System.out.println("Failed in call to getHistogramData()"); assert (false); //Should never reach here. } try (final RocksIterator iterator = db.newIterator()) { boolean seekToFirstPassed = false; for (iterator.seekToFirst(); iterator.isValid(); iterator.next()) { iterator.status(); assert (iterator.key() != null); assert (iterator.value() != null); seekToFirstPassed = true; } if (seekToFirstPassed) { System.out.println("iterator seekToFirst tests passed."); } boolean seekToLastPassed = false; for (iterator.seekToLast(); iterator.isValid(); iterator.prev()) { iterator.status(); assert (iterator.key() != null); assert (iterator.value() != null); seekToLastPassed = true; } if (seekToLastPassed) { System.out.println("iterator seekToLastPassed tests passed."); } iterator.seekToFirst(); iterator.seek(iterator.key()); assert (iterator.key() != null); assert (iterator.value() != null); System.out.println("iterator seek test passed."); } System.out.println("iterator tests passed."); final List keys = new ArrayList<>(); try (final RocksIterator iterator = db.newIterator()) { for (iterator.seekToLast(); iterator.isValid(); iterator.prev()) { keys.add(iterator.key()); } } Map values = db.multiGet(keys); assert (values.size() == keys.size()); for (final byte[] value1 : values.values()) { assert (value1 != null); } values = db.multiGet(new ReadOptions(), keys); assert (values.size() == keys.size()); for (final byte[] value1 : values.values()) { assert (value1 != null); } } catch (final RocksDBException e) { System.err.println(e); } } } } rocksdb-5.17.2/java/samples/src/main/java/TransactionSample.java000066400000000000000000000141761337235545400245740ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). import org.rocksdb.*; import static java.nio.charset.StandardCharsets.UTF_8; /** * Demonstrates using Transactions on a TransactionDB with * varying isolation guarantees */ public class TransactionSample { private static final String dbPath = "/tmp/rocksdb_transaction_example"; public static final void main(final String args[]) throws RocksDBException { try(final Options options = new Options() .setCreateIfMissing(true); final TransactionDBOptions txnDbOptions = new TransactionDBOptions(); final TransactionDB txnDb = TransactionDB.open(options, txnDbOptions, dbPath)) { try (final WriteOptions writeOptions = new WriteOptions(); final ReadOptions readOptions = new ReadOptions()) { //////////////////////////////////////////////////////// // // Simple Transaction Example ("Read Committed") // //////////////////////////////////////////////////////// readCommitted(txnDb, writeOptions, readOptions); //////////////////////////////////////////////////////// // // "Repeatable Read" (Snapshot Isolation) Example // -- Using a single Snapshot // //////////////////////////////////////////////////////// repeatableRead(txnDb, writeOptions, readOptions); //////////////////////////////////////////////////////// // // "Read Committed" (Monotonic Atomic Views) Example // --Using multiple Snapshots // //////////////////////////////////////////////////////// readCommitted_monotonicAtomicViews(txnDb, writeOptions, readOptions); } } } /** * Demonstrates "Read Committed" isolation */ private static void readCommitted(final TransactionDB txnDb, final WriteOptions writeOptions, final ReadOptions readOptions) throws RocksDBException { final byte key1[] = "abc".getBytes(UTF_8); final byte value1[] = "def".getBytes(UTF_8); final byte key2[] = "xyz".getBytes(UTF_8); final byte value2[] = "zzz".getBytes(UTF_8); // Start a transaction try(final Transaction txn = txnDb.beginTransaction(writeOptions)) { // Read a key in this transaction byte[] value = txn.get(readOptions, key1); assert(value == null); // Write a key in this transaction txn.put(key1, value1); // Read a key OUTSIDE this transaction. Does not affect txn. value = txnDb.get(readOptions, key1); assert(value == null); // Write a key OUTSIDE of this transaction. // Does not affect txn since this is an unrelated key. // If we wrote key 'abc' here, the transaction would fail to commit. txnDb.put(writeOptions, key2, value2); // Commit transaction txn.commit(); } } /** * Demonstrates "Repeatable Read" (Snapshot Isolation) isolation */ private static void repeatableRead(final TransactionDB txnDb, final WriteOptions writeOptions, final ReadOptions readOptions) throws RocksDBException { final byte key1[] = "ghi".getBytes(UTF_8); final byte value1[] = "jkl".getBytes(UTF_8); // Set a snapshot at start of transaction by setting setSnapshot(true) try(final TransactionOptions txnOptions = new TransactionOptions() .setSetSnapshot(true); final Transaction txn = txnDb.beginTransaction(writeOptions, txnOptions)) { final Snapshot snapshot = txn.getSnapshot(); // Write a key OUTSIDE of transaction txnDb.put(writeOptions, key1, value1); // Attempt to read a key using the snapshot. This will fail since // the previous write outside this txn conflicts with this read. readOptions.setSnapshot(snapshot); try { final byte[] value = txn.getForUpdate(readOptions, key1, true); throw new IllegalStateException(); } catch(final RocksDBException e) { assert(e.getStatus().getCode() == Status.Code.Busy); } txn.rollback(); } finally { // Clear snapshot from read options since it is no longer valid readOptions.setSnapshot(null); } } /** * Demonstrates "Read Committed" (Monotonic Atomic Views) isolation * * In this example, we set the snapshot multiple times. This is probably * only necessary if you have very strict isolation requirements to * implement. */ private static void readCommitted_monotonicAtomicViews( final TransactionDB txnDb, final WriteOptions writeOptions, final ReadOptions readOptions) throws RocksDBException { final byte keyX[] = "x".getBytes(UTF_8); final byte valueX[] = "x".getBytes(UTF_8); final byte keyY[] = "y".getBytes(UTF_8); final byte valueY[] = "y".getBytes(UTF_8); try (final TransactionOptions txnOptions = new TransactionOptions() .setSetSnapshot(true); final Transaction txn = txnDb.beginTransaction(writeOptions, txnOptions)) { // Do some reads and writes to key "x" Snapshot snapshot = txnDb.getSnapshot(); readOptions.setSnapshot(snapshot); byte[] value = txn.get(readOptions, keyX); txn.put(valueX, valueX); // Do a write outside of the transaction to key "y" txnDb.put(writeOptions, keyY, valueY); // Set a new snapshot in the transaction txn.setSnapshot(); txn.setSavePoint(); snapshot = txnDb.getSnapshot(); readOptions.setSnapshot(snapshot); // Do some reads and writes to key "y" // Since the snapshot was advanced, the write done outside of the // transaction does not conflict. value = txn.getForUpdate(readOptions, keyY, true); txn.put(keyY, valueY); // Decide we want to revert the last write from this transaction. txn.rollbackToSavePoint(); // Commit. txn.commit(); } finally { // Clear snapshot from read options since it is no longer valid readOptions.setSnapshot(null); } } } rocksdb-5.17.2/java/src/000077500000000000000000000000001337235545400147605ustar00rootroot00000000000000rocksdb-5.17.2/java/src/main/000077500000000000000000000000001337235545400157045ustar00rootroot00000000000000rocksdb-5.17.2/java/src/main/java/000077500000000000000000000000001337235545400166255ustar00rootroot00000000000000rocksdb-5.17.2/java/src/main/java/org/000077500000000000000000000000001337235545400174145ustar00rootroot00000000000000rocksdb-5.17.2/java/src/main/java/org/rocksdb/000077500000000000000000000000001337235545400210435ustar00rootroot00000000000000rocksdb-5.17.2/java/src/main/java/org/rocksdb/AbstractCompactionFilter.java000066400000000000000000000034041337235545400266350ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * A CompactionFilter allows an application to modify/delete a key-value at * the time of compaction. * * At present we just permit an overriding Java class to wrap a C++ * implementation */ public abstract class AbstractCompactionFilter> extends RocksObject { public static class Context { private final boolean fullCompaction; private final boolean manualCompaction; public Context(final boolean fullCompaction, final boolean manualCompaction) { this.fullCompaction = fullCompaction; this.manualCompaction = manualCompaction; } /** * Does this compaction run include all data files * * @return true if this is a full compaction run */ public boolean isFullCompaction() { return fullCompaction; } /** * Is this compaction requested by the client, * or is it occurring as an automatic compaction process * * @return true if the compaction was initiated by the client */ public boolean isManualCompaction() { return manualCompaction; } } protected AbstractCompactionFilter(final long nativeHandle) { super(nativeHandle); } /** * Deletes underlying C++ compaction pointer. * * Note that this function should be called only after all * RocksDB instances referencing the compaction filter are closed. * Otherwise an undefined behavior will occur. */ @Override protected final native void disposeInternal(final long handle); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/AbstractCompactionFilterFactory.java000066400000000000000000000046631337235545400301750ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * Each compaction will create a new {@link AbstractCompactionFilter} * allowing the application to know about different compactions * * @param The concrete type of the compaction filter */ public abstract class AbstractCompactionFilterFactory> extends RocksCallbackObject { public AbstractCompactionFilterFactory() { super(null); } @Override protected long initializeNative(final long... nativeParameterHandles) { return createNewCompactionFilterFactory0(); } /** * Called from JNI, see compaction_filter_factory_jnicallback.cc * * @param fullCompaction {@link AbstractCompactionFilter.Context#fullCompaction} * @param manualCompaction {@link AbstractCompactionFilter.Context#manualCompaction} * * @return native handle of the CompactionFilter */ private long createCompactionFilter(final boolean fullCompaction, final boolean manualCompaction) { final T filter = createCompactionFilter( new AbstractCompactionFilter.Context(fullCompaction, manualCompaction)); // CompactionFilterFactory::CreateCompactionFilter returns a std::unique_ptr // which therefore has ownership of the underlying native object filter.disOwnNativeHandle(); return filter.nativeHandle_; } /** * Create a new compaction filter * * @param context The context describing the need for a new compaction filter * * @return A new instance of {@link AbstractCompactionFilter} */ public abstract T createCompactionFilter( final AbstractCompactionFilter.Context context); /** * A name which identifies this compaction filter * * The name will be printed to the LOG file on start up for diagnosis */ public abstract String name(); /** * We override {@link RocksCallbackObject#disposeInternal()} * as disposing of a rocksdb::AbstractCompactionFilterFactory requires * a slightly different approach as it is a std::shared_ptr */ @Override protected void disposeInternal() { disposeInternal(nativeHandle_); } private native long createNewCompactionFilterFactory0(); private native void disposeInternal(final long handle); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/AbstractComparator.java000066400000000000000000000056661337235545400255160ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * Comparators are used by RocksDB to determine * the ordering of keys. * * This class is package private, implementers * should extend either of the public abstract classes: * @see org.rocksdb.Comparator * @see org.rocksdb.DirectComparator */ public abstract class AbstractComparator> extends RocksCallbackObject { protected AbstractComparator() { super(); } protected AbstractComparator(final ComparatorOptions copt) { super(copt.nativeHandle_); } /** * Get the type of this comparator. * * Used for determining the correct C++ cast in native code. * * @return The type of the comparator. */ abstract ComparatorType getComparatorType(); /** * The name of the comparator. Used to check for comparator * mismatches (i.e., a DB created with one comparator is * accessed using a different comparator). * * A new name should be used whenever * the comparator implementation changes in a way that will cause * the relative ordering of any two keys to change. * * Names starting with "rocksdb." are reserved and should not be used. * * @return The name of this comparator implementation */ public abstract String name(); /** * Three-way key comparison * * @param a Slice access to first key * @param b Slice access to second key * * @return Should return either: * 1) < 0 if "a" < "b" * 2) == 0 if "a" == "b" * 3) > 0 if "a" > "b" */ public abstract int compare(final T a, final T b); /** *

    Used to reduce the space requirements * for internal data structures like index blocks.

    * *

    If start < limit, you may return a new start which is a * shorter string in [start, limit).

    * *

    Simple comparator implementations may return null if they * wish to use start unchanged. i.e., an implementation of * this method that does nothing is correct.

    * * @param start String * @param limit of type T * * @return a shorter start, or null */ public String findShortestSeparator(final String start, final T limit) { return null; } /** *

    Used to reduce the space requirements * for internal data structures like index blocks.

    * *

    You may return a new short key (key1) where * key1 ≥ key.

    * *

    Simple comparator implementations may return null if they * wish to leave the key unchanged. i.e., an implementation of * this method that does nothing is correct.

    * * @param key String * * @return a shorter key, or null */ public String findShortSuccessor(final String key) { return null; } } rocksdb-5.17.2/java/src/main/java/org/rocksdb/AbstractImmutableNativeReference.java000066400000000000000000000041341337235545400303010ustar00rootroot00000000000000// Copyright (c) 2016, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import java.util.concurrent.atomic.AtomicBoolean; /** * Offers functionality for implementations of * {@link AbstractNativeReference} which have an immutable reference to the * underlying native C++ object */ //@ThreadSafe public abstract class AbstractImmutableNativeReference extends AbstractNativeReference { /** * A flag indicating whether the current {@code AbstractNativeReference} is * responsible to free the underlying C++ object */ private final AtomicBoolean owningHandle_; protected AbstractImmutableNativeReference(final boolean owningHandle) { this.owningHandle_ = new AtomicBoolean(owningHandle); } @Override public boolean isOwningHandle() { return owningHandle_.get(); } /** * Releases this {@code AbstractNativeReference} from the responsibility of * freeing the underlying native C++ object *

    * This will prevent the object from attempting to delete the underlying * native object in its finalizer. This must be used when another object * takes over ownership of the native object or both will attempt to delete * the underlying object when garbage collected. *

    * When {@code disOwnNativeHandle()} is called, {@code dispose()} will * subsequently take no action. As a result, incorrect use of this function * may cause a memory leak. *

    * * @see #dispose() */ protected final void disOwnNativeHandle() { owningHandle_.set(false); } @Override public void close() { if (owningHandle_.compareAndSet(true, false)) { disposeInternal(); } } /** * The helper function of {@link AbstractImmutableNativeReference#dispose()} * which all subclasses of {@code AbstractImmutableNativeReference} must * implement to release their underlying native C++ objects. */ protected abstract void disposeInternal(); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/AbstractNativeReference.java000066400000000000000000000051751337235545400264470ustar00rootroot00000000000000// Copyright (c) 2016, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * AbstractNativeReference is the base-class of all RocksDB classes that have * a pointer to a native C++ {@code rocksdb} object. *

    * AbstractNativeReference has the {@link AbstractNativeReference#dispose()} * method, which frees its associated C++ object.

    *

    * This function should be called manually, however, if required it will be * called automatically during the regular Java GC process via * {@link AbstractNativeReference#finalize()}.

    *

    * Note - Java can only see the long member variable (which is the C++ pointer * value to the native object), as such it does not know the real size of the * object and therefore may assign a low GC priority for it; So it is strongly * suggested that you manually dispose of objects when you are finished with * them.

    */ public abstract class AbstractNativeReference implements AutoCloseable { /** * Returns true if we are responsible for freeing the underlying C++ object * * @return true if we are responsible to free the C++ object * @see #dispose() */ protected abstract boolean isOwningHandle(); /** * Frees the underlying C++ object *

    * It is strong recommended that the developer calls this after they * have finished using the object.

    *

    * Note, that once an instance of {@link AbstractNativeReference} has been * disposed, calling any of its functions will lead to undefined * behavior.

    */ @Override public abstract void close(); /** * @deprecated Instead use {@link AbstractNativeReference#close()} */ @Deprecated public final void dispose() { close(); } /** * Simply calls {@link AbstractNativeReference#dispose()} to free * any underlying C++ object reference which has not yet been manually * released. * * @deprecated You should not rely on GC of Rocks objects, and instead should * either call {@link AbstractNativeReference#close()} manually or make * use of some sort of ARM (Automatic Resource Management) such as * Java 7's     try-with-resources * statement */ @Override @Deprecated protected void finalize() throws Throwable { if(isOwningHandle()) { //TODO(AR) log a warning message... developer should have called close() } dispose(); super.finalize(); } } rocksdb-5.17.2/java/src/main/java/org/rocksdb/AbstractRocksIterator.java000066400000000000000000000062301337235545400261660ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * Base class implementation for Rocks Iterators * in the Java API * *

    Multiple threads can invoke const methods on an RocksIterator without * external synchronization, but if any of the threads may call a * non-const method, all threads accessing the same RocksIterator must use * external synchronization.

    * * @param

    The type of the Parent Object from which the Rocks Iterator was * created. This is used by disposeInternal to avoid double-free * issues with the underlying C++ object. * @see org.rocksdb.RocksObject */ public abstract class AbstractRocksIterator

    extends RocksObject implements RocksIteratorInterface { final P parent_; protected AbstractRocksIterator(final P parent, final long nativeHandle) { super(nativeHandle); // parent must point to a valid RocksDB instance. assert (parent != null); // RocksIterator must hold a reference to the related parent instance // to guarantee that while a GC cycle starts RocksIterator instances // are freed prior to parent instances. parent_ = parent; } @Override public boolean isValid() { assert (isOwningHandle()); return isValid0(nativeHandle_); } @Override public void seekToFirst() { assert (isOwningHandle()); seekToFirst0(nativeHandle_); } @Override public void seekToLast() { assert (isOwningHandle()); seekToLast0(nativeHandle_); } @Override public void seek(byte[] target) { assert (isOwningHandle()); seek0(nativeHandle_, target, target.length); } @Override public void seekForPrev(byte[] target) { assert (isOwningHandle()); seekForPrev0(nativeHandle_, target, target.length); } @Override public void next() { assert (isOwningHandle()); next0(nativeHandle_); } @Override public void prev() { assert (isOwningHandle()); prev0(nativeHandle_); } @Override public void status() throws RocksDBException { assert (isOwningHandle()); status0(nativeHandle_); } /** *

    Deletes underlying C++ iterator pointer.

    * *

    Note: the underlying handle can only be safely deleted if the parent * instance related to a certain RocksIterator is still valid and initialized. * Therefore {@code disposeInternal()} checks if the parent is initialized * before freeing the native handle.

    */ @Override protected void disposeInternal() { if (parent_.isOwningHandle()) { disposeInternal(nativeHandle_); } } abstract boolean isValid0(long handle); abstract void seekToFirst0(long handle); abstract void seekToLast0(long handle); abstract void next0(long handle); abstract void prev0(long handle); abstract void seek0(long handle, byte[] target, int targetLen); abstract void seekForPrev0(long handle, byte[] target, int targetLen); abstract void status0(long handle) throws RocksDBException; } rocksdb-5.17.2/java/src/main/java/org/rocksdb/AbstractSlice.java000066400000000000000000000120351337235545400244320ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * Slices are used by RocksDB to provide * efficient access to keys and values. * * This class is package private, implementers * should extend either of the public abstract classes: * @see org.rocksdb.Slice * @see org.rocksdb.DirectSlice * * Regards the lifecycle of Java Slices in RocksDB: * At present when you configure a Comparator from Java, it creates an * instance of a C++ BaseComparatorJniCallback subclass and * passes that to RocksDB as the comparator. That subclass of * BaseComparatorJniCallback creates the Java * @see org.rocksdb.AbstractSlice subclass Objects. When you dispose * the Java @see org.rocksdb.AbstractComparator subclass, it disposes the * C++ BaseComparatorJniCallback subclass, which in turn destroys the * Java @see org.rocksdb.AbstractSlice subclass Objects. */ public abstract class AbstractSlice extends RocksMutableObject { protected AbstractSlice() { super(); } protected AbstractSlice(final long nativeHandle) { super(nativeHandle); } /** * Returns the data of the slice. * * @return The slice data. Note, the type of access is * determined by the subclass * @see org.rocksdb.AbstractSlice#data0(long) */ public T data() { return data0(getNativeHandle()); } /** * Access to the data is provided by the * subtype as it needs to handle the * generic typing. * * @param handle The address of the underlying * native object. * * @return Java typed access to the data. */ protected abstract T data0(long handle); /** * Drops the specified {@code n} * number of bytes from the start * of the backing slice * * @param n The number of bytes to drop */ public abstract void removePrefix(final int n); /** * Clears the backing slice */ public abstract void clear(); /** * Return the length (in bytes) of the data. * * @return The length in bytes. */ public int size() { return size0(getNativeHandle()); } /** * Return true if the length of the * data is zero. * * @return true if there is no data, false otherwise. */ public boolean empty() { return empty0(getNativeHandle()); } /** * Creates a string representation of the data * * @param hex When true, the representation * will be encoded in hexadecimal. * * @return The string representation of the data. */ public String toString(final boolean hex) { return toString0(getNativeHandle(), hex); } @Override public String toString() { return toString(false); } /** * Three-way key comparison * * @param other A slice to compare against * * @return Should return either: * 1) < 0 if this < other * 2) == 0 if this == other * 3) > 0 if this > other */ public int compare(final AbstractSlice other) { assert (other != null); if(!isOwningHandle()) { return other.isOwningHandle() ? -1 : 0; } else { if(!other.isOwningHandle()) { return 1; } else { return compare0(getNativeHandle(), other.getNativeHandle()); } } } @Override public int hashCode() { return toString().hashCode(); } /** * If other is a slice object, then * we defer to {@link #compare(AbstractSlice) compare} * to check equality, otherwise we return false. * * @param other Object to test for equality * * @return true when {@code this.compare(other) == 0}, * false otherwise. */ @Override public boolean equals(final Object other) { if (other != null && other instanceof AbstractSlice) { return compare((AbstractSlice)other) == 0; } else { return false; } } /** * Determines whether this slice starts with * another slice * * @param prefix Another slice which may of may not * be a prefix of this slice. * * @return true when this slice starts with the * {@code prefix} slice */ public boolean startsWith(final AbstractSlice prefix) { if (prefix != null) { return startsWith0(getNativeHandle(), prefix.getNativeHandle()); } else { return false; } } protected native static long createNewSliceFromString(final String str); private native int size0(long handle); private native boolean empty0(long handle); private native String toString0(long handle, boolean hex); private native int compare0(long handle, long otherHandle); private native boolean startsWith0(long handle, long otherHandle); /** * Deletes underlying C++ slice pointer. * Note that this function should be called only after all * RocksDB instances referencing the slice are closed. * Otherwise an undefined behavior will occur. */ @Override protected final native void disposeInternal(final long handle); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/AbstractTransactionNotifier.java000066400000000000000000000031311337235545400273550ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * Provides notification to the caller of SetSnapshotOnNextOperation when * the actual snapshot gets created */ public abstract class AbstractTransactionNotifier extends RocksCallbackObject { protected AbstractTransactionNotifier() { super(); } /** * Implement this method to receive notification when a snapshot is * requested via {@link Transaction#setSnapshotOnNextOperation()}. * * @param newSnapshot the snapshot that has been created. */ public abstract void snapshotCreated(final Snapshot newSnapshot); /** * This is intentionally private as it is the callback hook * from JNI */ private void snapshotCreated(final long snapshotHandle) { snapshotCreated(new Snapshot(snapshotHandle)); } @Override protected long initializeNative(final long... nativeParameterHandles) { return createNewTransactionNotifier(); } private native long createNewTransactionNotifier(); /** * Deletes underlying C++ TransactionNotifier pointer. * * Note that this function should be called only after all * Transactions referencing the comparator are closed. * Otherwise an undefined behavior will occur. */ @Override protected void disposeInternal() { disposeInternal(nativeHandle_); } protected final native void disposeInternal(final long handle); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/AbstractWriteBatch.java000066400000000000000000000126431337235545400254340ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; public abstract class AbstractWriteBatch extends RocksObject implements WriteBatchInterface { protected AbstractWriteBatch(final long nativeHandle) { super(nativeHandle); } @Override public int count() { return count0(nativeHandle_); } @Override public void put(byte[] key, byte[] value) throws RocksDBException { put(nativeHandle_, key, key.length, value, value.length); } @Override public void put(ColumnFamilyHandle columnFamilyHandle, byte[] key, byte[] value) throws RocksDBException { put(nativeHandle_, key, key.length, value, value.length, columnFamilyHandle.nativeHandle_); } @Override public void merge(byte[] key, byte[] value) throws RocksDBException { merge(nativeHandle_, key, key.length, value, value.length); } @Override public void merge(ColumnFamilyHandle columnFamilyHandle, byte[] key, byte[] value) throws RocksDBException { merge(nativeHandle_, key, key.length, value, value.length, columnFamilyHandle.nativeHandle_); } @Override @Deprecated public void remove(byte[] key) throws RocksDBException { delete(nativeHandle_, key, key.length); } @Override @Deprecated public void remove(ColumnFamilyHandle columnFamilyHandle, byte[] key) throws RocksDBException { delete(nativeHandle_, key, key.length, columnFamilyHandle.nativeHandle_); } @Override public void delete(byte[] key) throws RocksDBException { delete(nativeHandle_, key, key.length); } @Override public void delete(ColumnFamilyHandle columnFamilyHandle, byte[] key) throws RocksDBException { delete(nativeHandle_, key, key.length, columnFamilyHandle.nativeHandle_); } @Override public void singleDelete(byte[] key) throws RocksDBException { singleDelete(nativeHandle_, key, key.length); } @Override public void singleDelete(ColumnFamilyHandle columnFamilyHandle, byte[] key) throws RocksDBException { singleDelete(nativeHandle_, key, key.length, columnFamilyHandle.nativeHandle_); } @Override public void deleteRange(byte[] beginKey, byte[] endKey) throws RocksDBException { deleteRange(nativeHandle_, beginKey, beginKey.length, endKey, endKey.length); } @Override public void deleteRange(ColumnFamilyHandle columnFamilyHandle, byte[] beginKey, byte[] endKey) throws RocksDBException { deleteRange(nativeHandle_, beginKey, beginKey.length, endKey, endKey.length, columnFamilyHandle.nativeHandle_); } @Override public void putLogData(byte[] blob) throws RocksDBException { putLogData(nativeHandle_, blob, blob.length); } @Override public void clear() { clear0(nativeHandle_); } @Override public void setSavePoint() { setSavePoint0(nativeHandle_); } @Override public void rollbackToSavePoint() throws RocksDBException { rollbackToSavePoint0(nativeHandle_); } @Override public void popSavePoint() throws RocksDBException { popSavePoint(nativeHandle_); } @Override public void setMaxBytes(final long maxBytes) { setMaxBytes(nativeHandle_, maxBytes); } @Override public WriteBatch getWriteBatch() { return getWriteBatch(nativeHandle_); } abstract int count0(final long handle); abstract void put(final long handle, final byte[] key, final int keyLen, final byte[] value, final int valueLen) throws RocksDBException; abstract void put(final long handle, final byte[] key, final int keyLen, final byte[] value, final int valueLen, final long cfHandle) throws RocksDBException; abstract void merge(final long handle, final byte[] key, final int keyLen, final byte[] value, final int valueLen) throws RocksDBException; abstract void merge(final long handle, final byte[] key, final int keyLen, final byte[] value, final int valueLen, final long cfHandle) throws RocksDBException; abstract void delete(final long handle, final byte[] key, final int keyLen) throws RocksDBException; abstract void delete(final long handle, final byte[] key, final int keyLen, final long cfHandle) throws RocksDBException; abstract void singleDelete(final long handle, final byte[] key, final int keyLen) throws RocksDBException; abstract void singleDelete(final long handle, final byte[] key, final int keyLen, final long cfHandle) throws RocksDBException; abstract void deleteRange(final long handle, final byte[] beginKey, final int beginKeyLen, final byte[] endKey, final int endKeyLen) throws RocksDBException; abstract void deleteRange(final long handle, final byte[] beginKey, final int beginKeyLen, final byte[] endKey, final int endKeyLen, final long cfHandle) throws RocksDBException; abstract void putLogData(final long handle, final byte[] blob, final int blobLen) throws RocksDBException; abstract void clear0(final long handle); abstract void setSavePoint0(final long handle); abstract void rollbackToSavePoint0(final long handle); abstract void popSavePoint(final long handle) throws RocksDBException; abstract void setMaxBytes(final long handle, long maxBytes); abstract WriteBatch getWriteBatch(final long handle); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/AccessHint.java000066400000000000000000000025011337235545400237300ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * File access pattern once a compaction has started */ public enum AccessHint { NONE((byte)0x0), NORMAL((byte)0x1), SEQUENTIAL((byte)0x2), WILLNEED((byte)0x3); private final byte value; AccessHint(final byte value) { this.value = value; } /** *

    Returns the byte value of the enumerations value.

    * * @return byte representation */ public byte getValue() { return value; } /** *

    Get the AccessHint enumeration value by * passing the byte identifier to this method.

    * * @param byteIdentifier of AccessHint. * * @return AccessHint instance. * * @throws IllegalArgumentException if the access hint for the byteIdentifier * cannot be found */ public static AccessHint getAccessHint(final byte byteIdentifier) { for (final AccessHint accessHint : AccessHint.values()) { if (accessHint.getValue() == byteIdentifier) { return accessHint; } } throw new IllegalArgumentException( "Illegal value provided for AccessHint."); } } rocksdb-5.17.2/java/src/main/java/org/rocksdb/AdvancedColumnFamilyOptionsInterface.java000066400000000000000000000421411337235545400311320ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import java.util.List; /** * Advanced Column Family Options which are not * mutable (i.e. present in {@link AdvancedMutableColumnFamilyOptionsInterface} * * Taken from include/rocksdb/advanced_options.h */ public interface AdvancedColumnFamilyOptionsInterface { /** * The minimum number of write buffers that will be merged together * before writing to storage. If set to 1, then * all write buffers are flushed to L0 as individual files and this increases * read amplification because a get request has to check in all of these * files. Also, an in-memory merge may result in writing lesser * data to storage if there are duplicate records in each of these * individual write buffers. Default: 1 * * @param minWriteBufferNumberToMerge the minimum number of write buffers * that will be merged together. * @return the reference to the current options. */ T setMinWriteBufferNumberToMerge( int minWriteBufferNumberToMerge); /** * The minimum number of write buffers that will be merged together * before writing to storage. If set to 1, then * all write buffers are flushed to L0 as individual files and this increases * read amplification because a get request has to check in all of these * files. Also, an in-memory merge may result in writing lesser * data to storage if there are duplicate records in each of these * individual write buffers. Default: 1 * * @return the minimum number of write buffers that will be merged together. */ int minWriteBufferNumberToMerge(); /** * The total maximum number of write buffers to maintain in memory including * copies of buffers that have already been flushed. Unlike * {@link AdvancedMutableColumnFamilyOptionsInterface#maxWriteBufferNumber()}, * this parameter does not affect flushing. * This controls the minimum amount of write history that will be available * in memory for conflict checking when Transactions are used. * * When using an OptimisticTransactionDB: * If this value is too low, some transactions may fail at commit time due * to not being able to determine whether there were any write conflicts. * * When using a TransactionDB: * If Transaction::SetSnapshot is used, TransactionDB will read either * in-memory write buffers or SST files to do write-conflict checking. * Increasing this value can reduce the number of reads to SST files * done for conflict detection. * * Setting this value to 0 will cause write buffers to be freed immediately * after they are flushed. * If this value is set to -1, * {@link AdvancedMutableColumnFamilyOptionsInterface#maxWriteBufferNumber()} * will be used. * * Default: * If using a TransactionDB/OptimisticTransactionDB, the default value will * be set to the value of * {@link AdvancedMutableColumnFamilyOptionsInterface#maxWriteBufferNumber()} * if it is not explicitly set by the user. Otherwise, the default is 0. * * @param maxWriteBufferNumberToMaintain The maximum number of write * buffers to maintain * * @return the reference to the current options. */ T setMaxWriteBufferNumberToMaintain( int maxWriteBufferNumberToMaintain); /** * The total maximum number of write buffers to maintain in memory including * copies of buffers that have already been flushed. * * @return maxWriteBufferNumberToMaintain The maximum number of write buffers * to maintain */ int maxWriteBufferNumberToMaintain(); /** * Allows thread-safe inplace updates. * If inplace_callback function is not set, * Put(key, new_value) will update inplace the existing_value iff * * key exists in current memtable * * new sizeof(new_value) ≤ sizeof(existing_value) * * existing_value for that key is a put i.e. kTypeValue * If inplace_callback function is set, check doc for inplace_callback. * Default: false. * * @param inplaceUpdateSupport true if thread-safe inplace updates * are allowed. * @return the reference to the current options. */ T setInplaceUpdateSupport( boolean inplaceUpdateSupport); /** * Allows thread-safe inplace updates. * If inplace_callback function is not set, * Put(key, new_value) will update inplace the existing_value iff * * key exists in current memtable * * new sizeof(new_value) ≤ sizeof(existing_value) * * existing_value for that key is a put i.e. kTypeValue * If inplace_callback function is set, check doc for inplace_callback. * Default: false. * * @return true if thread-safe inplace updates are allowed. */ boolean inplaceUpdateSupport(); /** * Control locality of bloom filter probes to improve cache miss rate. * This option only applies to memtable prefix bloom and plaintable * prefix bloom. It essentially limits the max number of cache lines each * bloom filter check can touch. * This optimization is turned off when set to 0. The number should never * be greater than number of probes. This option can boost performance * for in-memory workload but should use with care since it can cause * higher false positive rate. * Default: 0 * * @param bloomLocality the level of locality of bloom-filter probes. * @return the reference to the current options. */ T setBloomLocality(int bloomLocality); /** * Control locality of bloom filter probes to improve cache miss rate. * This option only applies to memtable prefix bloom and plaintable * prefix bloom. It essentially limits the max number of cache lines each * bloom filter check can touch. * This optimization is turned off when set to 0. The number should never * be greater than number of probes. This option can boost performance * for in-memory workload but should use with care since it can cause * higher false positive rate. * Default: 0 * * @return the level of locality of bloom-filter probes. * @see #setBloomLocality(int) */ int bloomLocality(); /** *

    Different levels can have different compression * policies. There are cases where most lower levels * would like to use quick compression algorithms while * the higher levels (which have more data) use * compression algorithms that have better compression * but could be slower. This array, if non-empty, should * have an entry for each level of the database; * these override the value specified in the previous * field 'compression'.

    * * NOTICE *

    If {@code level_compaction_dynamic_level_bytes=true}, * {@code compression_per_level[0]} still determines {@code L0}, * but other elements of the array are based on base level * (the level {@code L0} files are merged to), and may not * match the level users see from info log for metadata. *

    *

    If {@code L0} files are merged to {@code level - n}, * then, for {@code i>0}, {@code compression_per_level[i]} * determines compaction type for level {@code n+i-1}.

    * * Example *

    For example, if we have 5 levels, and we determine to * merge {@code L0} data to {@code L4} (which means {@code L1..L3} * will be empty), then the new files go to {@code L4} uses * compression type {@code compression_per_level[1]}.

    * *

    If now {@code L0} is merged to {@code L2}. Data goes to * {@code L2} will be compressed according to * {@code compression_per_level[1]}, {@code L3} using * {@code compression_per_level[2]}and {@code L4} using * {@code compression_per_level[3]}. Compaction for each * level can change when data grows.

    * *

    Default: empty

    * * @param compressionLevels list of * {@link org.rocksdb.CompressionType} instances. * * @return the reference to the current options. */ T setCompressionPerLevel( List compressionLevels); /** *

    Return the currently set {@link org.rocksdb.CompressionType} * per instances.

    * *

    See: {@link #setCompressionPerLevel(java.util.List)}

    * * @return list of {@link org.rocksdb.CompressionType} * instances. */ List compressionPerLevel(); /** * Set the number of levels for this database * If level-styled compaction is used, then this number determines * the total number of levels. * * @param numLevels the number of levels. * @return the reference to the current options. */ T setNumLevels(int numLevels); /** * If level-styled compaction is used, then this number determines * the total number of levels. * * @return the number of levels. */ int numLevels(); /** *

    If {@code true}, RocksDB will pick target size of each level * dynamically. We will pick a base level b >= 1. L0 will be * directly merged into level b, instead of always into level 1. * Level 1 to b-1 need to be empty. We try to pick b and its target * size so that

    * *
      *
    1. target size is in the range of * (max_bytes_for_level_base / max_bytes_for_level_multiplier, * max_bytes_for_level_base]
      2. *
    2. target size of the last level (level num_levels-1) equals to extra size * of the level.
      3. *
    * *

    At the same time max_bytes_for_level_multiplier and * max_bytes_for_level_multiplier_additional are still satisfied.

    * *

    With this option on, from an empty DB, we make last level the base * level, which means merging L0 data into the last level, until it exceeds * max_bytes_for_level_base. And then we make the second last level to be * base level, to start to merge L0 data to second last level, with its * target size to be {@code 1/max_bytes_for_level_multiplier} of the last * levels extra size. After the data accumulates more so that we need to * move the base level to the third last one, and so on.

    * *

    Example

    *

    For example, assume {@code max_bytes_for_level_multiplier=10}, * {@code num_levels=6}, and {@code max_bytes_for_level_base=10MB}.

    * *

    Target sizes of level 1 to 5 starts with:

    * {@code [- - - - 10MB]} *

    with base level is level. Target sizes of level 1 to 4 are not applicable * because they will not be used. * Until the size of Level 5 grows to more than 10MB, say 11MB, we make * base target to level 4 and now the targets looks like:

    * {@code [- - - 1.1MB 11MB]} *

    While data are accumulated, size targets are tuned based on actual data * of level 5. When level 5 has 50MB of data, the target is like:

    * {@code [- - - 5MB 50MB]} *

    Until level 5's actual size is more than 100MB, say 101MB. Now if we * keep level 4 to be the base level, its target size needs to be 10.1MB, * which doesn't satisfy the target size range. So now we make level 3 * the target size and the target sizes of the levels look like:

    * {@code [- - 1.01MB 10.1MB 101MB]} *

    In the same way, while level 5 further grows, all levels' targets grow, * like

    * {@code [- - 5MB 50MB 500MB]} *

    Until level 5 exceeds 1000MB and becomes 1001MB, we make level 2 the * base level and make levels' target sizes like this:

    * {@code [- 1.001MB 10.01MB 100.1MB 1001MB]} *

    and go on...

    * *

    By doing it, we give {@code max_bytes_for_level_multiplier} a priority * against {@code max_bytes_for_level_base}, for a more predictable LSM tree * shape. It is useful to limit worse case space amplification.

    * *

    {@code max_bytes_for_level_multiplier_additional} is ignored with * this flag on.

    * *

    Turning this feature on or off for an existing DB can cause unexpected * LSM tree structure so it's not recommended.

    * *

    Caution: this option is experimental

    * *

    Default: false

    * * @param enableLevelCompactionDynamicLevelBytes boolean value indicating * if {@code LevelCompactionDynamicLevelBytes} shall be enabled. * @return the reference to the current options. */ @Experimental("Turning this feature on or off for an existing DB can cause" + "unexpected LSM tree structure so it's not recommended") T setLevelCompactionDynamicLevelBytes( boolean enableLevelCompactionDynamicLevelBytes); /** *

    Return if {@code LevelCompactionDynamicLevelBytes} is enabled. *

    * *

    For further information see * {@link #setLevelCompactionDynamicLevelBytes(boolean)}

    * * @return boolean value indicating if * {@code levelCompactionDynamicLevelBytes} is enabled. */ @Experimental("Caution: this option is experimental") boolean levelCompactionDynamicLevelBytes(); /** * Maximum size of each compaction (not guarantee) * * @param maxCompactionBytes the compaction size limit * @return the reference to the current options. */ T setMaxCompactionBytes( long maxCompactionBytes); /** * Control maximum size of each compaction (not guaranteed) * * @return compaction size threshold */ long maxCompactionBytes(); /** * Set compaction style for DB. * * Default: LEVEL. * * @param compactionStyle Compaction style. * @return the reference to the current options. */ ColumnFamilyOptionsInterface setCompactionStyle( CompactionStyle compactionStyle); /** * Compaction style for DB. * * @return Compaction style. */ CompactionStyle compactionStyle(); /** * If level {@link #compactionStyle()} == {@link CompactionStyle#LEVEL}, * for each level, which files are prioritized to be picked to compact. * * Default: {@link CompactionPriority#ByCompensatedSize} * * @param compactionPriority The compaction priority * * @return the reference to the current options. */ T setCompactionPriority( CompactionPriority compactionPriority); /** * Get the Compaction priority if level compaction * is used for all levels * * @return The compaction priority */ CompactionPriority compactionPriority(); /** * Set the options needed to support Universal Style compactions * * @param compactionOptionsUniversal The Universal Style compaction options * * @return the reference to the current options. */ T setCompactionOptionsUniversal( CompactionOptionsUniversal compactionOptionsUniversal); /** * The options needed to support Universal Style compactions * * @return The Universal Style compaction options */ CompactionOptionsUniversal compactionOptionsUniversal(); /** * The options for FIFO compaction style * * @param compactionOptionsFIFO The FIFO compaction options * * @return the reference to the current options. */ T setCompactionOptionsFIFO( CompactionOptionsFIFO compactionOptionsFIFO); /** * The options for FIFO compaction style * * @return The FIFO compaction options */ CompactionOptionsFIFO compactionOptionsFIFO(); /** *

    This flag specifies that the implementation should optimize the filters * mainly for cases where keys are found rather than also optimize for keys * missed. This would be used in cases where the application knows that * there are very few misses or the performance in the case of misses is not * important.

    * *

    For now, this flag allows us to not store filters for the last level i.e * the largest level which contains data of the LSM store. For keys which * are hits, the filters in this level are not useful because we will search * for the data anyway.

    * *

    NOTE: the filters in other levels are still useful * even for key hit because they tell us whether to look in that level or go * to the higher level.

    * *

    Default: false

    * * @param optimizeFiltersForHits boolean value indicating if this flag is set. * @return the reference to the current options. */ T setOptimizeFiltersForHits( boolean optimizeFiltersForHits); /** *

    Returns the current state of the {@code optimize_filters_for_hits} * setting.

    * * @return boolean value indicating if the flag * {@code optimize_filters_for_hits} was set. */ boolean optimizeFiltersForHits(); /** * In debug mode, RocksDB run consistency checks on the LSM every time the LSM * change (Flush, Compaction, AddFile). These checks are disabled in release * mode, use this option to enable them in release mode as well. * * Default: false * * @param forceConsistencyChecks true to force consistency checks * * @return the reference to the current options. */ T setForceConsistencyChecks( boolean forceConsistencyChecks); /** * In debug mode, RocksDB run consistency checks on the LSM every time the LSM * change (Flush, Compaction, AddFile). These checks are disabled in release * mode. * * @return true if consistency checks are enforced */ boolean forceConsistencyChecks(); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/AdvancedMutableColumnFamilyOptionsInterface.java000066400000000000000000000340071337235545400324460ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * Advanced Column Family Options which are mutable * * Taken from include/rocksdb/advanced_options.h * and MutableCFOptions in util/cf_options.h */ public interface AdvancedMutableColumnFamilyOptionsInterface { /** * The maximum number of write buffers that are built up in memory. * The default is 2, so that when 1 write buffer is being flushed to * storage, new writes can continue to the other write buffer. * Default: 2 * * @param maxWriteBufferNumber maximum number of write buffers. * @return the instance of the current options. */ T setMaxWriteBufferNumber( int maxWriteBufferNumber); /** * Returns maximum number of write buffers. * * @return maximum number of write buffers. * @see #setMaxWriteBufferNumber(int) */ int maxWriteBufferNumber(); /** * Number of locks used for inplace update * Default: 10000, if inplace_update_support = true, else 0. * * @param inplaceUpdateNumLocks the number of locks used for * inplace updates. * @return the reference to the current options. * @throws java.lang.IllegalArgumentException thrown on 32-Bit platforms * while overflowing the underlying platform specific value. */ T setInplaceUpdateNumLocks( long inplaceUpdateNumLocks); /** * Number of locks used for inplace update * Default: 10000, if inplace_update_support = true, else 0. * * @return the number of locks used for inplace update. */ long inplaceUpdateNumLocks(); /** * if prefix_extractor is set and memtable_prefix_bloom_size_ratio is not 0, * create prefix bloom for memtable with the size of * write_buffer_size * memtable_prefix_bloom_size_ratio. * If it is larger than 0.25, it is santinized to 0.25. * * Default: 0 (disable) * * @param memtablePrefixBloomSizeRatio The ratio * @return the reference to the current options. */ T setMemtablePrefixBloomSizeRatio( double memtablePrefixBloomSizeRatio); /** * if prefix_extractor is set and memtable_prefix_bloom_size_ratio is not 0, * create prefix bloom for memtable with the size of * write_buffer_size * memtable_prefix_bloom_size_ratio. * If it is larger than 0.25, it is santinized to 0.25. * * Default: 0 (disable) * * @return the ratio */ double memtablePrefixBloomSizeRatio(); /** * Page size for huge page TLB for bloom in memtable. If ≤ 0, not allocate * from huge page TLB but from malloc. * Need to reserve huge pages for it to be allocated. For example: * sysctl -w vm.nr_hugepages=20 * See linux doc Documentation/vm/hugetlbpage.txt * * @param memtableHugePageSize The page size of the huge * page tlb * @return the reference to the current options. */ T setMemtableHugePageSize( long memtableHugePageSize); /** * Page size for huge page TLB for bloom in memtable. If ≤ 0, not allocate * from huge page TLB but from malloc. * Need to reserve huge pages for it to be allocated. For example: * sysctl -w vm.nr_hugepages=20 * See linux doc Documentation/vm/hugetlbpage.txt * * @return The page size of the huge page tlb */ long memtableHugePageSize(); /** * The size of one block in arena memory allocation. * If ≤ 0, a proper value is automatically calculated (usually 1/10 of * writer_buffer_size). * * There are two additional restriction of the specified size: * (1) size should be in the range of [4096, 2 << 30] and * (2) be the multiple of the CPU word (which helps with the memory * alignment). * * We'll automatically check and adjust the size number to make sure it * conforms to the restrictions. * Default: 0 * * @param arenaBlockSize the size of an arena block * @return the reference to the current options. * @throws java.lang.IllegalArgumentException thrown on 32-Bit platforms * while overflowing the underlying platform specific value. */ T setArenaBlockSize(long arenaBlockSize); /** * The size of one block in arena memory allocation. * If ≤ 0, a proper value is automatically calculated (usually 1/10 of * writer_buffer_size). * * There are two additional restriction of the specified size: * (1) size should be in the range of [4096, 2 << 30] and * (2) be the multiple of the CPU word (which helps with the memory * alignment). * * We'll automatically check and adjust the size number to make sure it * conforms to the restrictions. * Default: 0 * * @return the size of an arena block */ long arenaBlockSize(); /** * Soft limit on number of level-0 files. We start slowing down writes at this * point. A value < 0 means that no writing slow down will be triggered by * number of files in level-0. * * @param level0SlowdownWritesTrigger The soft limit on the number of * level-0 files * @return the reference to the current options. */ T setLevel0SlowdownWritesTrigger( int level0SlowdownWritesTrigger); /** * Soft limit on number of level-0 files. We start slowing down writes at this * point. A value < 0 means that no writing slow down will be triggered by * number of files in level-0. * * @return The soft limit on the number of * level-0 files */ int level0SlowdownWritesTrigger(); /** * Maximum number of level-0 files. We stop writes at this point. * * @param level0StopWritesTrigger The maximum number of level-0 files * @return the reference to the current options. */ T setLevel0StopWritesTrigger( int level0StopWritesTrigger); /** * Maximum number of level-0 files. We stop writes at this point. * * @return The maximum number of level-0 files */ int level0StopWritesTrigger(); /** * The target file size for compaction. * This targetFileSizeBase determines a level-1 file size. * Target file size for level L can be calculated by * targetFileSizeBase * (targetFileSizeMultiplier ^ (L-1)) * For example, if targetFileSizeBase is 2MB and * target_file_size_multiplier is 10, then each file on level-1 will * be 2MB, and each file on level 2 will be 20MB, * and each file on level-3 will be 200MB. * by default targetFileSizeBase is 2MB. * * @param targetFileSizeBase the target size of a level-0 file. * @return the reference to the current options. * * @see #setTargetFileSizeMultiplier(int) */ T setTargetFileSizeBase( long targetFileSizeBase); /** * The target file size for compaction. * This targetFileSizeBase determines a level-1 file size. * Target file size for level L can be calculated by * targetFileSizeBase * (targetFileSizeMultiplier ^ (L-1)) * For example, if targetFileSizeBase is 2MB and * target_file_size_multiplier is 10, then each file on level-1 will * be 2MB, and each file on level 2 will be 20MB, * and each file on level-3 will be 200MB. * by default targetFileSizeBase is 2MB. * * @return the target size of a level-0 file. * * @see #targetFileSizeMultiplier() */ long targetFileSizeBase(); /** * targetFileSizeMultiplier defines the size ratio between a * level-L file and level-(L+1) file. * By default target_file_size_multiplier is 1, meaning * files in different levels have the same target. * * @param multiplier the size ratio between a level-(L+1) file * and level-L file. * @return the reference to the current options. */ T setTargetFileSizeMultiplier( int multiplier); /** * targetFileSizeMultiplier defines the size ratio between a * level-(L+1) file and level-L file. * By default targetFileSizeMultiplier is 1, meaning * files in different levels have the same target. * * @return the size ratio between a level-(L+1) file and level-L file. */ int targetFileSizeMultiplier(); /** * The ratio between the total size of level-(L+1) files and the total * size of level-L files for all L. * DEFAULT: 10 * * @param multiplier the ratio between the total size of level-(L+1) * files and the total size of level-L files for all L. * @return the reference to the current options. * * See {@link MutableColumnFamilyOptionsInterface#setMaxBytesForLevelBase(long)} */ T setMaxBytesForLevelMultiplier(double multiplier); /** * The ratio between the total size of level-(L+1) files and the total * size of level-L files for all L. * DEFAULT: 10 * * @return the ratio between the total size of level-(L+1) files and * the total size of level-L files for all L. * * See {@link MutableColumnFamilyOptionsInterface#maxBytesForLevelBase()} */ double maxBytesForLevelMultiplier(); /** * Different max-size multipliers for different levels. * These are multiplied by max_bytes_for_level_multiplier to arrive * at the max-size of each level. * * Default: 1 * * @param maxBytesForLevelMultiplierAdditional The max-size multipliers * for each level * @return the reference to the current options. */ T setMaxBytesForLevelMultiplierAdditional( int[] maxBytesForLevelMultiplierAdditional); /** * Different max-size multipliers for different levels. * These are multiplied by max_bytes_for_level_multiplier to arrive * at the max-size of each level. * * Default: 1 * * @return The max-size multipliers for each level */ int[] maxBytesForLevelMultiplierAdditional(); /** * All writes will be slowed down to at least delayed_write_rate if estimated * bytes needed to be compaction exceed this threshold. * * Default: 64GB * * @param softPendingCompactionBytesLimit The soft limit to impose on * compaction * @return the reference to the current options. */ T setSoftPendingCompactionBytesLimit( long softPendingCompactionBytesLimit); /** * All writes will be slowed down to at least delayed_write_rate if estimated * bytes needed to be compaction exceed this threshold. * * Default: 64GB * * @return The soft limit to impose on compaction */ long softPendingCompactionBytesLimit(); /** * All writes are stopped if estimated bytes needed to be compaction exceed * this threshold. * * Default: 256GB * * @param hardPendingCompactionBytesLimit The hard limit to impose on * compaction * @return the reference to the current options. */ T setHardPendingCompactionBytesLimit( long hardPendingCompactionBytesLimit); /** * All writes are stopped if estimated bytes needed to be compaction exceed * this threshold. * * Default: 256GB * * @return The hard limit to impose on compaction */ long hardPendingCompactionBytesLimit(); /** * An iteration->Next() sequentially skips over keys with the same * user-key unless this option is set. This number specifies the number * of keys (with the same userkey) that will be sequentially * skipped before a reseek is issued. * Default: 8 * * @param maxSequentialSkipInIterations the number of keys could * be skipped in a iteration. * @return the reference to the current options. */ T setMaxSequentialSkipInIterations( long maxSequentialSkipInIterations); /** * An iteration->Next() sequentially skips over keys with the same * user-key unless this option is set. This number specifies the number * of keys (with the same userkey) that will be sequentially * skipped before a reseek is issued. * Default: 8 * * @return the number of keys could be skipped in a iteration. */ long maxSequentialSkipInIterations(); /** * Maximum number of successive merge operations on a key in the memtable. * * When a merge operation is added to the memtable and the maximum number of * successive merges is reached, the value of the key will be calculated and * inserted into the memtable instead of the merge operation. This will * ensure that there are never more than max_successive_merges merge * operations in the memtable. * * Default: 0 (disabled) * * @param maxSuccessiveMerges the maximum number of successive merges. * @return the reference to the current options. * @throws java.lang.IllegalArgumentException thrown on 32-Bit platforms * while overflowing the underlying platform specific value. */ T setMaxSuccessiveMerges( long maxSuccessiveMerges); /** * Maximum number of successive merge operations on a key in the memtable. * * When a merge operation is added to the memtable and the maximum number of * successive merges is reached, the value of the key will be calculated and * inserted into the memtable instead of the merge operation. This will * ensure that there are never more than max_successive_merges merge * operations in the memtable. * * Default: 0 (disabled) * * @return the maximum number of successive merges. */ long maxSuccessiveMerges(); /** * After writing every SST file, reopen it and read all the keys. * * Default: false * * @param paranoidFileChecks true to enable paranoid file checks * @return the reference to the current options. */ T setParanoidFileChecks( boolean paranoidFileChecks); /** * After writing every SST file, reopen it and read all the keys. * * Default: false * * @return true if paranoid file checks are enabled */ boolean paranoidFileChecks(); /** * Measure IO stats in compactions and flushes, if true. * * Default: false * * @param reportBgIoStats true to enable reporting * @return the reference to the current options. */ T setReportBgIoStats( boolean reportBgIoStats); /** * Determine whether IO stats in compactions and flushes are being measured * * @return true if reporting is enabled */ boolean reportBgIoStats(); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/BackupEngine.java000066400000000000000000000231001337235545400242350ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import java.util.List; /** * BackupEngine allows you to backup * and restore the database * * Be aware, that `new BackupEngine` takes time proportional to the amount * of backups. So if you have a slow filesystem to backup (like HDFS) * and you have a lot of backups then restoring can take some time. * That's why we recommend to limit the number of backups. * Also we recommend to keep BackupEngine alive and not to recreate it every * time you need to do a backup. */ public class BackupEngine extends RocksObject implements AutoCloseable { protected BackupEngine(final long nativeHandle) { super(nativeHandle); } /** * Opens a new Backup Engine * * @param env The environment that the backup engine should operate within * @param options Any options for the backup engine * * @return A new BackupEngine instance * @throws RocksDBException thrown if the backup engine could not be opened */ public static BackupEngine open(final Env env, final BackupableDBOptions options) throws RocksDBException { return new BackupEngine(open(env.nativeHandle_, options.nativeHandle_)); } /** * Captures the state of the database in the latest backup * * Just a convenience for {@link #createNewBackup(RocksDB, boolean)} with * the flushBeforeBackup parameter set to false * * @param db The database to backup * * Note - This method is not thread safe * * @throws RocksDBException thrown if a new backup could not be created */ public void createNewBackup(final RocksDB db) throws RocksDBException { createNewBackup(db, false); } /** * Captures the state of the database in the latest backup * * @param db The database to backup * @param flushBeforeBackup When true, the Backup Engine will first issue a * memtable flush and only then copy the DB files to * the backup directory. Doing so will prevent log * files from being copied to the backup directory * (since flush will delete them). * When false, the Backup Engine will not issue a * flush before starting the backup. In that case, * the backup will also include log files * corresponding to live memtables. The backup will * always be consistent with the current state of the * database regardless of the flushBeforeBackup * parameter. * * Note - This method is not thread safe * * @throws RocksDBException thrown if a new backup could not be created */ public void createNewBackup( final RocksDB db, final boolean flushBeforeBackup) throws RocksDBException { assert (isOwningHandle()); createNewBackup(nativeHandle_, db.nativeHandle_, flushBeforeBackup); } /** * Captures the state of the database in the latest backup along with * application specific metadata. * * @param db The database to backup * @param metadata Application metadata * @param flushBeforeBackup When true, the Backup Engine will first issue a * memtable flush and only then copy the DB files to * the backup directory. Doing so will prevent log * files from being copied to the backup directory * (since flush will delete them). * When false, the Backup Engine will not issue a * flush before starting the backup. In that case, * the backup will also include log files * corresponding to live memtables. The backup will * always be consistent with the current state of the * database regardless of the flushBeforeBackup * parameter. * * Note - This method is not thread safe * * @throws RocksDBException thrown if a new backup could not be created */ public void createNewBackupWithMetadata(final RocksDB db, final String metadata, final boolean flushBeforeBackup) throws RocksDBException { assert (isOwningHandle()); createNewBackupWithMetadata(nativeHandle_, db.nativeHandle_, metadata, flushBeforeBackup); } /** * Gets information about the available * backups * * @return A list of information about each available backup */ public List getBackupInfo() { assert (isOwningHandle()); return getBackupInfo(nativeHandle_); } /** *

    Returns a list of corrupted backup ids. If there * is no corrupted backup the method will return an * empty list.

    * * @return array of backup ids as int ids. */ public int[] getCorruptedBackups() { assert(isOwningHandle()); return getCorruptedBackups(nativeHandle_); } /** *

    Will delete all the files we don't need anymore. It will * do the full scan of the files/ directory and delete all the * files that are not referenced.

    * * @throws RocksDBException thrown if error happens in underlying * native library. */ public void garbageCollect() throws RocksDBException { assert(isOwningHandle()); garbageCollect(nativeHandle_); } /** * Deletes old backups, keeping just the latest numBackupsToKeep * * @param numBackupsToKeep The latest n backups to keep * * @throws RocksDBException thrown if the old backups could not be deleted */ public void purgeOldBackups( final int numBackupsToKeep) throws RocksDBException { assert (isOwningHandle()); purgeOldBackups(nativeHandle_, numBackupsToKeep); } /** * Deletes a backup * * @param backupId The id of the backup to delete * * @throws RocksDBException thrown if the backup could not be deleted */ public void deleteBackup(final int backupId) throws RocksDBException { assert (isOwningHandle()); deleteBackup(nativeHandle_, backupId); } /** * Restore the database from a backup * * IMPORTANT: if options.share_table_files == true and you restore the DB * from some backup that is not the latest, and you start creating new * backups from the new DB, they will probably fail! * * Example: Let's say you have backups 1, 2, 3, 4, 5 and you restore 3. * If you add new data to the DB and try creating a new backup now, the * database will diverge from backups 4 and 5 and the new backup will fail. * If you want to create new backup, you will first have to delete backups 4 * and 5. * * @param backupId The id of the backup to restore * @param dbDir The directory to restore the backup to, i.e. where your * database is * @param walDir The location of the log files for your database, * often the same as dbDir * @param restoreOptions Options for controlling the restore * * @throws RocksDBException thrown if the database could not be restored */ public void restoreDbFromBackup( final int backupId, final String dbDir, final String walDir, final RestoreOptions restoreOptions) throws RocksDBException { assert (isOwningHandle()); restoreDbFromBackup(nativeHandle_, backupId, dbDir, walDir, restoreOptions.nativeHandle_); } /** * Restore the database from the latest backup * * @param dbDir The directory to restore the backup to, i.e. where your * database is * @param walDir The location of the log files for your database, often the * same as dbDir * @param restoreOptions Options for controlling the restore * * @throws RocksDBException thrown if the database could not be restored */ public void restoreDbFromLatestBackup( final String dbDir, final String walDir, final RestoreOptions restoreOptions) throws RocksDBException { assert (isOwningHandle()); restoreDbFromLatestBackup(nativeHandle_, dbDir, walDir, restoreOptions.nativeHandle_); } private native static long open(final long env, final long backupableDbOptions) throws RocksDBException; private native void createNewBackup(final long handle, final long dbHandle, final boolean flushBeforeBackup) throws RocksDBException; private native void createNewBackupWithMetadata(final long handle, final long dbHandle, final String metadata, final boolean flushBeforeBackup) throws RocksDBException; private native List getBackupInfo(final long handle); private native int[] getCorruptedBackups(final long handle); private native void garbageCollect(final long handle) throws RocksDBException; private native void purgeOldBackups(final long handle, final int numBackupsToKeep) throws RocksDBException; private native void deleteBackup(final long handle, final int backupId) throws RocksDBException; private native void restoreDbFromBackup(final long handle, final int backupId, final String dbDir, final String walDir, final long restoreOptionsHandle) throws RocksDBException; private native void restoreDbFromLatestBackup(final long handle, final String dbDir, final String walDir, final long restoreOptionsHandle) throws RocksDBException; @Override protected final native void disposeInternal(final long handle); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/BackupInfo.java000066400000000000000000000032361337235545400237330ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * Instances of this class describe a Backup made by * {@link org.rocksdb.BackupEngine}. */ public class BackupInfo { /** * Package private constructor used to create instances * of BackupInfo by {@link org.rocksdb.BackupEngine} * * @param backupId id of backup * @param timestamp timestamp of backup * @param size size of backup * @param numberFiles number of files related to this backup. */ BackupInfo(final int backupId, final long timestamp, final long size, final int numberFiles, final String app_metadata) { backupId_ = backupId; timestamp_ = timestamp; size_ = size; numberFiles_ = numberFiles; app_metadata_ = app_metadata; } /** * * @return the backup id. */ public int backupId() { return backupId_; } /** * * @return the timestamp of the backup. */ public long timestamp() { return timestamp_; } /** * * @return the size of the backup */ public long size() { return size_; } /** * * @return the number of files of this backup. */ public int numberFiles() { return numberFiles_; } /** * * @return the associated application metadata, or null */ public String appMetadata() { return app_metadata_; } private int backupId_; private long timestamp_; private long size_; private int numberFiles_; private String app_metadata_; } rocksdb-5.17.2/java/src/main/java/org/rocksdb/BackupableDBOptions.java000066400000000000000000000354371337235545400255350ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import java.io.File; /** *

    BackupableDBOptions to control the behavior of a backupable database. * It will be used during the creation of a {@link org.rocksdb.BackupEngine}. *

    *

    Note that dispose() must be called before an Options instance * become out-of-scope to release the allocated memory in c++.

    * * @see org.rocksdb.BackupEngine */ public class BackupableDBOptions extends RocksObject { private Env backupEnv = null; private Logger infoLog = null; private RateLimiter backupRateLimiter = null; private RateLimiter restoreRateLimiter = null; /** *

    BackupableDBOptions constructor.

    * * @param path Where to keep the backup files. Has to be different than db * name. Best to set this to {@code db name_ + "/backups"} * @throws java.lang.IllegalArgumentException if illegal path is used. */ public BackupableDBOptions(final String path) { super(newBackupableDBOptions(ensureWritableFile(path))); } private static String ensureWritableFile(final String path) { final File backupPath = path == null ? null : new File(path); if (backupPath == null || !backupPath.isDirectory() || !backupPath.canWrite()) { throw new IllegalArgumentException("Illegal path provided."); } else { return path; } } /** *

    Returns the path to the BackupableDB directory.

    * * @return the path to the BackupableDB directory. */ public String backupDir() { assert(isOwningHandle()); return backupDir(nativeHandle_); } /** * Backup Env object. It will be used for backup file I/O. If it's * null, backups will be written out using DBs Env. Otherwise * backup's I/O will be performed using this object. * * If you want to have backups on HDFS, use HDFS Env here! * * Default: null * * @param env The environment to use * @return instance of current BackupableDBOptions. */ public BackupableDBOptions setBackupEnv(final Env env) { assert(isOwningHandle()); setBackupEnv(nativeHandle_, env.nativeHandle_); this.backupEnv = env; return this; } /** * Backup Env object. It will be used for backup file I/O. If it's * null, backups will be written out using DBs Env. Otherwise * backup's I/O will be performed using this object. * * If you want to have backups on HDFS, use HDFS Env here! * * Default: null * * @return The environment in use */ public Env backupEnv() { return this.backupEnv; } /** *

    Share table files between backups.

    * * @param shareTableFiles If {@code share_table_files == true}, backup will * assume that table files with same name have the same contents. This * enables incremental backups and avoids unnecessary data copies. If * {@code share_table_files == false}, each backup will be on its own and * will not share any data with other backups. * *

    Default: true

    * * @return instance of current BackupableDBOptions. */ public BackupableDBOptions setShareTableFiles(final boolean shareTableFiles) { assert(isOwningHandle()); setShareTableFiles(nativeHandle_, shareTableFiles); return this; } /** *

    Share table files between backups.

    * * @return boolean value indicating if SST files will be shared between * backups. */ public boolean shareTableFiles() { assert(isOwningHandle()); return shareTableFiles(nativeHandle_); } /** * Set the logger to use for Backup info and error messages * * @param logger The logger to use for the backup * @return instance of current BackupableDBOptions. */ public BackupableDBOptions setInfoLog(final Logger logger) { assert(isOwningHandle()); setInfoLog(nativeHandle_, logger.nativeHandle_); this.infoLog = logger; return this; } /** * Set the logger to use for Backup info and error messages * * Default: null * * @return The logger in use for the backup */ public Logger infoLog() { return this.infoLog; } /** *

    Set synchronous backups.

    * * @param sync If {@code sync == true}, we can guarantee you'll get consistent * backup even on a machine crash/reboot. Backup process is slower with sync * enabled. If {@code sync == false}, we don't guarantee anything on machine * reboot. However, chances are some of the backups are consistent. * *

    Default: true

    * * @return instance of current BackupableDBOptions. */ public BackupableDBOptions setSync(final boolean sync) { assert(isOwningHandle()); setSync(nativeHandle_, sync); return this; } /** *

    Are synchronous backups activated.

    * * @return boolean value if synchronous backups are configured. */ public boolean sync() { assert(isOwningHandle()); return sync(nativeHandle_); } /** *

    Set if old data will be destroyed.

    * * @param destroyOldData If true, it will delete whatever backups there are * already. * *

    Default: false

    * * @return instance of current BackupableDBOptions. */ public BackupableDBOptions setDestroyOldData(final boolean destroyOldData) { assert(isOwningHandle()); setDestroyOldData(nativeHandle_, destroyOldData); return this; } /** *

    Returns if old data will be destroyed will performing new backups.

    * * @return boolean value indicating if old data will be destroyed. */ public boolean destroyOldData() { assert(isOwningHandle()); return destroyOldData(nativeHandle_); } /** *

    Set if log files shall be persisted.

    * * @param backupLogFiles If false, we won't backup log files. This option can * be useful for backing up in-memory databases where log file are * persisted, but table files are in memory. * *

    Default: true

    * * @return instance of current BackupableDBOptions. */ public BackupableDBOptions setBackupLogFiles(final boolean backupLogFiles) { assert(isOwningHandle()); setBackupLogFiles(nativeHandle_, backupLogFiles); return this; } /** *

    Return information if log files shall be persisted.

    * * @return boolean value indicating if log files will be persisted. */ public boolean backupLogFiles() { assert(isOwningHandle()); return backupLogFiles(nativeHandle_); } /** *

    Set backup rate limit.

    * * @param backupRateLimit Max bytes that can be transferred in a second during * backup. If 0 or negative, then go as fast as you can. * *

    Default: 0

    * * @return instance of current BackupableDBOptions. */ public BackupableDBOptions setBackupRateLimit(long backupRateLimit) { assert(isOwningHandle()); backupRateLimit = (backupRateLimit <= 0) ? 0 : backupRateLimit; setBackupRateLimit(nativeHandle_, backupRateLimit); return this; } /** *

    Return backup rate limit which described the max bytes that can be * transferred in a second during backup.

    * * @return numerical value describing the backup transfer limit in bytes per * second. */ public long backupRateLimit() { assert(isOwningHandle()); return backupRateLimit(nativeHandle_); } /** * Backup rate limiter. Used to control transfer speed for backup. If this is * not null, {@link #backupRateLimit()} is ignored. * * Default: null * * @param backupRateLimiter The rate limiter to use for the backup * @return instance of current BackupableDBOptions. */ public BackupableDBOptions setBackupRateLimiter(final RateLimiter backupRateLimiter) { assert(isOwningHandle()); setBackupRateLimiter(nativeHandle_, backupRateLimiter.nativeHandle_); this.backupRateLimiter = backupRateLimiter; return this; } /** * Backup rate limiter. Used to control transfer speed for backup. If this is * not null, {@link #backupRateLimit()} is ignored. * * Default: null * * @return The rate limiter in use for the backup */ public RateLimiter backupRateLimiter() { assert(isOwningHandle()); return this.backupRateLimiter; } /** *

    Set restore rate limit.

    * * @param restoreRateLimit Max bytes that can be transferred in a second * during restore. If 0 or negative, then go as fast as you can. * *

    Default: 0

    * * @return instance of current BackupableDBOptions. */ public BackupableDBOptions setRestoreRateLimit(long restoreRateLimit) { assert(isOwningHandle()); restoreRateLimit = (restoreRateLimit <= 0) ? 0 : restoreRateLimit; setRestoreRateLimit(nativeHandle_, restoreRateLimit); return this; } /** *

    Return restore rate limit which described the max bytes that can be * transferred in a second during restore.

    * * @return numerical value describing the restore transfer limit in bytes per * second. */ public long restoreRateLimit() { assert(isOwningHandle()); return restoreRateLimit(nativeHandle_); } /** * Restore rate limiter. Used to control transfer speed during restore. If * this is not null, {@link #restoreRateLimit()} is ignored. * * Default: null * * @param restoreRateLimiter The rate limiter to use during restore * @return instance of current BackupableDBOptions. */ public BackupableDBOptions setRestoreRateLimiter(final RateLimiter restoreRateLimiter) { assert(isOwningHandle()); setRestoreRateLimiter(nativeHandle_, restoreRateLimiter.nativeHandle_); this.restoreRateLimiter = restoreRateLimiter; return this; } /** * Restore rate limiter. Used to control transfer speed during restore. If * this is not null, {@link #restoreRateLimit()} is ignored. * * Default: null * * @return The rate limiter in use during restore */ public RateLimiter restoreRateLimiter() { assert(isOwningHandle()); return this.restoreRateLimiter; } /** *

    Only used if share_table_files is set to true. If true, will consider * that backups can come from different databases, hence a sst is not uniquely * identified by its name, but by the triple (file name, crc32, file length) *

    * * @param shareFilesWithChecksum boolean value indicating if SST files are * stored using the triple (file name, crc32, file length) and not its name. * *

    Note: this is an experimental option, and you'll need to set it manually * turn it on only if you know what you're doing*

    * *

    Default: false

    * * @return instance of current BackupableDBOptions. */ public BackupableDBOptions setShareFilesWithChecksum( final boolean shareFilesWithChecksum) { assert(isOwningHandle()); setShareFilesWithChecksum(nativeHandle_, shareFilesWithChecksum); return this; } /** *

    Return of share files with checksum is active.

    * * @return boolean value indicating if share files with checksum * is active. */ public boolean shareFilesWithChecksum() { assert(isOwningHandle()); return shareFilesWithChecksum(nativeHandle_); } /** * Up to this many background threads will copy files for * {@link BackupEngine#createNewBackup(RocksDB, boolean)} and * {@link BackupEngine#restoreDbFromBackup(int, String, String, RestoreOptions)} * * Default: 1 * * @param maxBackgroundOperations The maximum number of background threads * @return instance of current BackupableDBOptions. */ public BackupableDBOptions setMaxBackgroundOperations( final int maxBackgroundOperations) { assert(isOwningHandle()); setMaxBackgroundOperations(nativeHandle_, maxBackgroundOperations); return this; } /** * Up to this many background threads will copy files for * {@link BackupEngine#createNewBackup(RocksDB, boolean)} and * {@link BackupEngine#restoreDbFromBackup(int, String, String, RestoreOptions)} * * Default: 1 * * @return The maximum number of background threads */ public int maxBackgroundOperations() { assert(isOwningHandle()); return maxBackgroundOperations(nativeHandle_); } /** * During backup user can get callback every time next * {@link #callbackTriggerIntervalSize()} bytes being copied. * * Default: 4194304 * * @param callbackTriggerIntervalSize The interval size for the * callback trigger * @return instance of current BackupableDBOptions. */ public BackupableDBOptions setCallbackTriggerIntervalSize( final long callbackTriggerIntervalSize) { assert(isOwningHandle()); setCallbackTriggerIntervalSize(nativeHandle_, callbackTriggerIntervalSize); return this; } /** * During backup user can get callback every time next * {@link #callbackTriggerIntervalSize()} bytes being copied. * * Default: 4194304 * * @return The interval size for the callback trigger */ public long callbackTriggerIntervalSize() { assert(isOwningHandle()); return callbackTriggerIntervalSize(nativeHandle_); } private native static long newBackupableDBOptions(final String path); private native String backupDir(long handle); private native void setBackupEnv(final long handle, final long envHandle); private native void setShareTableFiles(long handle, boolean flag); private native boolean shareTableFiles(long handle); private native void setInfoLog(final long handle, final long infoLogHandle); private native void setSync(long handle, boolean flag); private native boolean sync(long handle); private native void setDestroyOldData(long handle, boolean flag); private native boolean destroyOldData(long handle); private native void setBackupLogFiles(long handle, boolean flag); private native boolean backupLogFiles(long handle); private native void setBackupRateLimit(long handle, long rateLimit); private native long backupRateLimit(long handle); private native void setBackupRateLimiter(long handle, long rateLimiterHandle); private native void setRestoreRateLimit(long handle, long rateLimit); private native long restoreRateLimit(long handle); private native void setRestoreRateLimiter(final long handle, final long rateLimiterHandle); private native void setShareFilesWithChecksum(long handle, boolean flag); private native boolean shareFilesWithChecksum(long handle); private native void setMaxBackgroundOperations(final long handle, final int maxBackgroundOperations); private native int maxBackgroundOperations(final long handle); private native void setCallbackTriggerIntervalSize(final long handle, long callbackTriggerIntervalSize); private native long callbackTriggerIntervalSize(final long handle); @Override protected final native void disposeInternal(final long handle); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/BlockBasedTableConfig.java000066400000000000000000000356261337235545400260110ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * The config for plain table sst format. * * BlockBasedTable is a RocksDB's default SST file format. */ public class BlockBasedTableConfig extends TableFormatConfig { public BlockBasedTableConfig() { noBlockCache_ = false; blockCacheSize_ = 8 * 1024 * 1024; blockCacheNumShardBits_ = 0; blockCache_ = null; blockSize_ = 4 * 1024; blockSizeDeviation_ = 10; blockRestartInterval_ = 16; wholeKeyFiltering_ = true; filter_ = null; cacheIndexAndFilterBlocks_ = false; pinL0FilterAndIndexBlocksInCache_ = false; hashIndexAllowCollision_ = true; blockCacheCompressedSize_ = 0; blockCacheCompressedNumShardBits_ = 0; checksumType_ = ChecksumType.kCRC32c; indexType_ = IndexType.kBinarySearch; formatVersion_ = 0; } /** * Disable block cache. If this is set to true, * then no block cache should be used, and the block_cache should * point to a {@code nullptr} object. * Default: false * * @param noBlockCache if use block cache * @return the reference to the current config. */ public BlockBasedTableConfig setNoBlockCache(final boolean noBlockCache) { noBlockCache_ = noBlockCache; return this; } /** * @return if block cache is disabled */ public boolean noBlockCache() { return noBlockCache_; } /** * Set the amount of cache in bytes that will be used by RocksDB. * If cacheSize is non-positive, then cache will not be used. * DEFAULT: 8M * * @param blockCacheSize block cache size in bytes * @return the reference to the current config. */ public BlockBasedTableConfig setBlockCacheSize(final long blockCacheSize) { blockCacheSize_ = blockCacheSize; return this; } /** * @return block cache size in bytes */ public long blockCacheSize() { return blockCacheSize_; } /** * Use the specified cache for blocks. * When not null this take precedence even if the user sets a block cache size. * * {@link org.rocksdb.Cache} should not be disposed before options instances * using this cache is disposed. * * {@link org.rocksdb.Cache} instance can be re-used in multiple options * instances. * * @param cache {@link org.rocksdb.Cache} Cache java instance (e.g. LRUCache). * @return the reference to the current config. */ public BlockBasedTableConfig setBlockCache(final Cache cache) { blockCache_ = cache; return this; } /** * Controls the number of shards for the block cache. * This is applied only if cacheSize is set to non-negative. * * @param blockCacheNumShardBits the number of shard bits. The resulting * number of shards would be 2 ^ numShardBits. Any negative * number means use default settings." * @return the reference to the current option. */ public BlockBasedTableConfig setCacheNumShardBits( final int blockCacheNumShardBits) { blockCacheNumShardBits_ = blockCacheNumShardBits; return this; } /** * Returns the number of shard bits used in the block cache. * The resulting number of shards would be 2 ^ (returned value). * Any negative number means use default settings. * * @return the number of shard bits used in the block cache. */ public int cacheNumShardBits() { return blockCacheNumShardBits_; } /** * Approximate size of user data packed per block. Note that the * block size specified here corresponds to uncompressed data. The * actual size of the unit read from disk may be smaller if * compression is enabled. This parameter can be changed dynamically. * Default: 4K * * @param blockSize block size in bytes * @return the reference to the current config. */ public BlockBasedTableConfig setBlockSize(final long blockSize) { blockSize_ = blockSize; return this; } /** * @return block size in bytes */ public long blockSize() { return blockSize_; } /** * This is used to close a block before it reaches the configured * 'block_size'. If the percentage of free space in the current block is less * than this specified number and adding a new record to the block will * exceed the configured block size, then this block will be closed and the * new record will be written to the next block. * Default is 10. * * @param blockSizeDeviation the deviation to block size allowed * @return the reference to the current config. */ public BlockBasedTableConfig setBlockSizeDeviation( final int blockSizeDeviation) { blockSizeDeviation_ = blockSizeDeviation; return this; } /** * @return the hash table ratio. */ public int blockSizeDeviation() { return blockSizeDeviation_; } /** * Set block restart interval * * @param restartInterval block restart interval. * @return the reference to the current config. */ public BlockBasedTableConfig setBlockRestartInterval( final int restartInterval) { blockRestartInterval_ = restartInterval; return this; } /** * @return block restart interval */ public int blockRestartInterval() { return blockRestartInterval_; } /** * If true, place whole keys in the filter (not just prefixes). * This must generally be true for gets to be efficient. * Default: true * * @param wholeKeyFiltering if enable whole key filtering * @return the reference to the current config. */ public BlockBasedTableConfig setWholeKeyFiltering( final boolean wholeKeyFiltering) { wholeKeyFiltering_ = wholeKeyFiltering; return this; } /** * @return if whole key filtering is enabled */ public boolean wholeKeyFiltering() { return wholeKeyFiltering_; } /** * Use the specified filter policy to reduce disk reads. * * {@link org.rocksdb.Filter} should not be disposed before options instances * using this filter is disposed. If {@link Filter#dispose()} function is not * called, then filter object will be GC'd automatically. * * {@link org.rocksdb.Filter} instance can be re-used in multiple options * instances. * * @param filter {@link org.rocksdb.Filter} Filter Policy java instance. * @return the reference to the current config. */ public BlockBasedTableConfig setFilter( final Filter filter) { filter_ = filter; return this; } /** * Indicating if we'd put index/filter blocks to the block cache. If not specified, each "table reader" object will pre-load index/filter block during table initialization. * * @return if index and filter blocks should be put in block cache. */ public boolean cacheIndexAndFilterBlocks() { return cacheIndexAndFilterBlocks_; } /** * Indicating if we'd put index/filter blocks to the block cache. If not specified, each "table reader" object will pre-load index/filter block during table initialization. * * @param cacheIndexAndFilterBlocks and filter blocks should be put in block cache. * @return the reference to the current config. */ public BlockBasedTableConfig setCacheIndexAndFilterBlocks( final boolean cacheIndexAndFilterBlocks) { cacheIndexAndFilterBlocks_ = cacheIndexAndFilterBlocks; return this; } /** * Indicating if we'd like to pin L0 index/filter blocks to the block cache. If not specified, defaults to false. * * @return if L0 index and filter blocks should be pinned to the block cache. */ public boolean pinL0FilterAndIndexBlocksInCache() { return pinL0FilterAndIndexBlocksInCache_; } /** * Indicating if we'd like to pin L0 index/filter blocks to the block cache. If not specified, defaults to false. * * @param pinL0FilterAndIndexBlocksInCache pin blocks in block cache * @return the reference to the current config. */ public BlockBasedTableConfig setPinL0FilterAndIndexBlocksInCache( final boolean pinL0FilterAndIndexBlocksInCache) { pinL0FilterAndIndexBlocksInCache_ = pinL0FilterAndIndexBlocksInCache; return this; } /** * Influence the behavior when kHashSearch is used. if false, stores a precise prefix to block range mapping if true, does not store prefix and allows prefix hash collision (less memory consumption) * * @return if hash collisions should be allowed. */ public boolean hashIndexAllowCollision() { return hashIndexAllowCollision_; } /** * Influence the behavior when kHashSearch is used. if false, stores a precise prefix to block range mapping if true, does not store prefix and allows prefix hash collision (less memory consumption) * * @param hashIndexAllowCollision points out if hash collisions should be allowed. * @return the reference to the current config. */ public BlockBasedTableConfig setHashIndexAllowCollision( final boolean hashIndexAllowCollision) { hashIndexAllowCollision_ = hashIndexAllowCollision; return this; } /** * Size of compressed block cache. If 0, then block_cache_compressed is set * to null. * * @return size of compressed block cache. */ public long blockCacheCompressedSize() { return blockCacheCompressedSize_; } /** * Size of compressed block cache. If 0, then block_cache_compressed is set * to null. * * @param blockCacheCompressedSize of compressed block cache. * @return the reference to the current config. */ public BlockBasedTableConfig setBlockCacheCompressedSize( final long blockCacheCompressedSize) { blockCacheCompressedSize_ = blockCacheCompressedSize; return this; } /** * Controls the number of shards for the block compressed cache. * This is applied only if blockCompressedCacheSize is set to non-negative. * * @return numShardBits the number of shard bits. The resulting * number of shards would be 2 ^ numShardBits. Any negative * number means use default settings. */ public int blockCacheCompressedNumShardBits() { return blockCacheCompressedNumShardBits_; } /** * Controls the number of shards for the block compressed cache. * This is applied only if blockCompressedCacheSize is set to non-negative. * * @param blockCacheCompressedNumShardBits the number of shard bits. The resulting * number of shards would be 2 ^ numShardBits. Any negative * number means use default settings." * @return the reference to the current option. */ public BlockBasedTableConfig setBlockCacheCompressedNumShardBits( final int blockCacheCompressedNumShardBits) { blockCacheCompressedNumShardBits_ = blockCacheCompressedNumShardBits; return this; } /** * Sets the checksum type to be used with this table. * * @param checksumType {@link org.rocksdb.ChecksumType} value. * @return the reference to the current option. */ public BlockBasedTableConfig setChecksumType( final ChecksumType checksumType) { checksumType_ = checksumType; return this; } /** * * @return the currently set checksum type */ public ChecksumType checksumType() { return checksumType_; } /** * Sets the index type to used with this table. * * @param indexType {@link org.rocksdb.IndexType} value * @return the reference to the current option. */ public BlockBasedTableConfig setIndexType( final IndexType indexType) { indexType_ = indexType; return this; } /** * * @return the currently set index type */ public IndexType indexType() { return indexType_; } /** *

    We currently have three versions:

    * *
      *
    • 0 - This version is currently written * out by all RocksDB's versions by default. Can be read by really old * RocksDB's. Doesn't support changing checksum (default is CRC32).
      • *
    • 1 - Can be read by RocksDB's versions since 3.0. * Supports non-default checksum, like xxHash. It is written by RocksDB when * BlockBasedTableOptions::checksum is something other than kCRC32c. (version * 0 is silently upconverted)
      • *
    • 2 - Can be read by RocksDB's versions since 3.10. * Changes the way we encode compressed blocks with LZ4, BZip2 and Zlib * compression. If you don't plan to run RocksDB before version 3.10, * you should probably use this.
      • *
    *

    This option only affects newly written tables. When reading existing * tables, the information about version is read from the footer.

    * * @param formatVersion integer representing the version to be used. * @return the reference to the current option. */ public BlockBasedTableConfig setFormatVersion( final int formatVersion) { assert(formatVersion >= 0 && formatVersion <= 2); formatVersion_ = formatVersion; return this; } /** * * @return the currently configured format version. * See also: {@link #setFormatVersion(int)}. */ public int formatVersion() { return formatVersion_; } @Override protected long newTableFactoryHandle() { long filterHandle = 0; if (filter_ != null) { filterHandle = filter_.nativeHandle_; } long blockCacheHandle = 0; if (blockCache_ != null) { blockCacheHandle = blockCache_.nativeHandle_; } return newTableFactoryHandle(noBlockCache_, blockCacheSize_, blockCacheNumShardBits_, blockCacheHandle, blockSize_, blockSizeDeviation_, blockRestartInterval_, wholeKeyFiltering_, filterHandle, cacheIndexAndFilterBlocks_, pinL0FilterAndIndexBlocksInCache_, hashIndexAllowCollision_, blockCacheCompressedSize_, blockCacheCompressedNumShardBits_, checksumType_.getValue(), indexType_.getValue(), formatVersion_); } private native long newTableFactoryHandle(boolean noBlockCache, long blockCacheSize, int blockCacheNumShardBits, long blockCacheHandle, long blockSize, int blockSizeDeviation, int blockRestartInterval, boolean wholeKeyFiltering, long filterPolicyHandle, boolean cacheIndexAndFilterBlocks, boolean pinL0FilterAndIndexBlocksInCache, boolean hashIndexAllowCollision, long blockCacheCompressedSize, int blockCacheCompressedNumShardBits, byte checkSumType, byte indexType, int formatVersion); private boolean cacheIndexAndFilterBlocks_; private boolean pinL0FilterAndIndexBlocksInCache_; private IndexType indexType_; private boolean hashIndexAllowCollision_; private ChecksumType checksumType_; private boolean noBlockCache_; private long blockSize_; private long blockCacheSize_; private int blockCacheNumShardBits_; private Cache blockCache_; private long blockCacheCompressedSize_; private int blockCacheCompressedNumShardBits_; private int blockSizeDeviation_; private int blockRestartInterval_; private Filter filter_; private boolean wholeKeyFiltering_; private int formatVersion_; } rocksdb-5.17.2/java/src/main/java/org/rocksdb/BloomFilter.java000066400000000000000000000051501337235545400241250ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * Bloom filter policy that uses a bloom filter with approximately * the specified number of bits per key. * *

    * Note: if you are using a custom comparator that ignores some parts * of the keys being compared, you must not use this {@code BloomFilter} * and must provide your own FilterPolicy that also ignores the * corresponding parts of the keys. For example, if the comparator * ignores trailing spaces, it would be incorrect to use a * FilterPolicy (like {@code BloomFilter}) that does not ignore * trailing spaces in keys.

    */ public class BloomFilter extends Filter { private static final int DEFAULT_BITS_PER_KEY = 10; private static final boolean DEFAULT_MODE = true; /** * BloomFilter constructor * *

    * Callers must delete the result after any database that is using the * result has been closed.

    */ public BloomFilter() { this(DEFAULT_BITS_PER_KEY, DEFAULT_MODE); } /** * BloomFilter constructor * *

    * bits_per_key: bits per key in bloom filter. A good value for bits_per_key * is 10, which yields a filter with ~ 1% false positive rate. *

    *

    * Callers must delete the result after any database that is using the * result has been closed.

    * * @param bitsPerKey number of bits to use */ public BloomFilter(final int bitsPerKey) { this(bitsPerKey, DEFAULT_MODE); } /** * BloomFilter constructor * *

    * bits_per_key: bits per key in bloom filter. A good value for bits_per_key * is 10, which yields a filter with ~ 1% false positive rate. *

    default bits_per_key: 10

    * *

    use_block_based_builder: use block based filter rather than full filter. * If you want to builder full filter, it needs to be set to false. *

    *

    default mode: block based filter

    *

    * Callers must delete the result after any database that is using the * result has been closed.

    * * @param bitsPerKey number of bits to use * @param useBlockBasedMode use block based mode or full filter mode */ public BloomFilter(final int bitsPerKey, final boolean useBlockBasedMode) { super(createNewBloomFilter(bitsPerKey, useBlockBasedMode)); } private native static long createNewBloomFilter(final int bitsKeyKey, final boolean useBlockBasedMode); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/BuiltinComparator.java000066400000000000000000000011361337235545400253450ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * Builtin RocksDB comparators * *
      *
    1. BYTEWISE_COMPARATOR - Sorts all keys in ascending bytewise * order.
      2. *
    2. REVERSE_BYTEWISE_COMPARATOR - Sorts all keys in descending bytewise * order
      3. *
    */ public enum BuiltinComparator { BYTEWISE_COMPARATOR, REVERSE_BYTEWISE_COMPARATOR } rocksdb-5.17.2/java/src/main/java/org/rocksdb/Cache.java000066400000000000000000000006331337235545400227130ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; public abstract class Cache extends RocksObject { protected Cache(final long nativeHandle) { super(nativeHandle); } } rocksdb-5.17.2/java/src/main/java/org/rocksdb/CassandraCompactionFilter.java000066400000000000000000000014141337235545400267700ustar00rootroot00000000000000// Copyright (c) 2017-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * Just a Java wrapper around CassandraCompactionFilter implemented in C++ */ public class CassandraCompactionFilter extends AbstractCompactionFilter { public CassandraCompactionFilter(boolean purgeTtlOnExpiration, int gcGracePeriodInSeconds) { super(createNewCassandraCompactionFilter0(purgeTtlOnExpiration, gcGracePeriodInSeconds)); } private native static long createNewCassandraCompactionFilter0( boolean purgeTtlOnExpiration, int gcGracePeriodInSeconds); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/CassandraValueMergeOperator.java000066400000000000000000000017371337235545400273060ustar00rootroot00000000000000// Copyright (c) 2017-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * CassandraValueMergeOperator is a merge operator that merges two cassandra wide column * values. */ public class CassandraValueMergeOperator extends MergeOperator { public CassandraValueMergeOperator(int gcGracePeriodInSeconds) { super(newSharedCassandraValueMergeOperator(gcGracePeriodInSeconds, 0)); } public CassandraValueMergeOperator(int gcGracePeriodInSeconds, int operandsLimit) { super(newSharedCassandraValueMergeOperator(gcGracePeriodInSeconds, operandsLimit)); } private native static long newSharedCassandraValueMergeOperator( int gcGracePeriodInSeconds, int limit); @Override protected final native void disposeInternal(final long handle); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/Checkpoint.java000066400000000000000000000042531337235545400240010ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * Provides Checkpoint functionality. Checkpoints * provide persistent snapshots of RocksDB databases. */ public class Checkpoint extends RocksObject { /** * Creates a Checkpoint object to be used for creating open-able * snapshots. * * @param db {@link RocksDB} instance. * @return a Checkpoint instance. * * @throws java.lang.IllegalArgumentException if {@link RocksDB} * instance is null. * @throws java.lang.IllegalStateException if {@link RocksDB} * instance is not initialized. */ public static Checkpoint create(final RocksDB db) { if (db == null) { throw new IllegalArgumentException( "RocksDB instance shall not be null."); } else if (!db.isOwningHandle()) { throw new IllegalStateException( "RocksDB instance must be initialized."); } Checkpoint checkpoint = new Checkpoint(db); return checkpoint; } /** *

    Builds an open-able snapshot of RocksDB on the same disk, which * accepts an output directory on the same disk, and under the directory * (1) hard-linked SST files pointing to existing live SST files * (2) a copied manifest files and other files

    * * @param checkpointPath path to the folder where the snapshot is going * to be stored. * @throws RocksDBException thrown if an error occurs within the native * part of the library. */ public void createCheckpoint(final String checkpointPath) throws RocksDBException { createCheckpoint(nativeHandle_, checkpointPath); } private Checkpoint(final RocksDB db) { super(newCheckpoint(db.nativeHandle_)); this.db_ = db; } private final RocksDB db_; private static native long newCheckpoint(long dbHandle); @Override protected final native void disposeInternal(final long handle); private native void createCheckpoint(long handle, String checkpointPath) throws RocksDBException; } rocksdb-5.17.2/java/src/main/java/org/rocksdb/ChecksumType.java000066400000000000000000000014261337235545400243150ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * Checksum types used in conjunction with BlockBasedTable. */ public enum ChecksumType { /** * Not implemented yet. */ kNoChecksum((byte) 0), /** * CRC32 Checksum */ kCRC32c((byte) 1), /** * XX Hash */ kxxHash((byte) 2); /** * Returns the byte value of the enumerations value * * @return byte representation */ public byte getValue() { return value_; } private ChecksumType(byte value) { value_ = value; } private final byte value_; } rocksdb-5.17.2/java/src/main/java/org/rocksdb/ClockCache.java000066400000000000000000000045241337235545400236720ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * Similar to {@link LRUCache}, but based on the CLOCK algorithm with * better concurrent performance in some cases */ public class ClockCache extends Cache { /** * Create a new cache with a fixed size capacity. * * @param capacity The fixed size capacity of the cache */ public ClockCache(final long capacity) { super(newClockCache(capacity, -1, false)); } /** * Create a new cache with a fixed size capacity. The cache is sharded * to 2^numShardBits shards, by hash of the key. The total capacity * is divided and evenly assigned to each shard. * numShardBits = -1 means it is automatically determined: every shard * will be at least 512KB and number of shard bits will not exceed 6. * * @param capacity The fixed size capacity of the cache * @param numShardBits The cache is sharded to 2^numShardBits shards, * by hash of the key */ public ClockCache(final long capacity, final int numShardBits) { super(newClockCache(capacity, numShardBits, false)); } /** * Create a new cache with a fixed size capacity. The cache is sharded * to 2^numShardBits shards, by hash of the key. The total capacity * is divided and evenly assigned to each shard. If strictCapacityLimit * is set, insert to the cache will fail when cache is full. * numShardBits = -1 means it is automatically determined: every shard * will be at least 512KB and number of shard bits will not exceed 6. * * @param capacity The fixed size capacity of the cache * @param numShardBits The cache is sharded to 2^numShardBits shards, * by hash of the key * @param strictCapacityLimit insert to the cache will fail when cache is full */ public ClockCache(final long capacity, final int numShardBits, final boolean strictCapacityLimit) { super(newClockCache(capacity, numShardBits, strictCapacityLimit)); } private native static long newClockCache(final long capacity, final int numShardBits, final boolean strictCapacityLimit); @Override protected final native void disposeInternal(final long handle); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/ColumnFamilyDescriptor.java000066400000000000000000000054151337235545400263510ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import java.util.Arrays; /** *

    Describes a column family with a * name and respective Options.

    */ public class ColumnFamilyDescriptor { /** *

    Creates a new Column Family using a name and default * options,

    * * @param columnFamilyName name of column family. * @since 3.10.0 */ public ColumnFamilyDescriptor(final byte[] columnFamilyName) { this(columnFamilyName, new ColumnFamilyOptions()); } /** *

    Creates a new Column Family using a name and custom * options.

    * * @param columnFamilyName name of column family. * @param columnFamilyOptions options to be used with * column family. * @since 3.10.0 */ public ColumnFamilyDescriptor(final byte[] columnFamilyName, final ColumnFamilyOptions columnFamilyOptions) { columnFamilyName_ = columnFamilyName; columnFamilyOptions_ = columnFamilyOptions; } /** * Retrieve name of column family. * * @return column family name. * @since 3.10.0 */ public byte[] getName() { return columnFamilyName_; } /** * Retrieve name of column family. * * @return column family name. * @since 3.10.0 * * @deprecated Use {@link #getName()} instead. */ @Deprecated public byte[] columnFamilyName() { return getName(); } /** * Retrieve assigned options instance. * * @return Options instance assigned to this instance. */ public ColumnFamilyOptions getOptions() { return columnFamilyOptions_; } /** * Retrieve assigned options instance. * * @return Options instance assigned to this instance. * * @deprecated Use {@link #getOptions()} instead. */ @Deprecated public ColumnFamilyOptions columnFamilyOptions() { return getOptions(); } @Override public boolean equals(final Object o) { if (this == o) { return true; } if (o == null || getClass() != o.getClass()) { return false; } final ColumnFamilyDescriptor that = (ColumnFamilyDescriptor) o; return Arrays.equals(columnFamilyName_, that.columnFamilyName_) && columnFamilyOptions_.nativeHandle_ == that.columnFamilyOptions_.nativeHandle_; } @Override public int hashCode() { int result = (int) (columnFamilyOptions_.nativeHandle_ ^ (columnFamilyOptions_.nativeHandle_ >>> 32)); result = 31 * result + Arrays.hashCode(columnFamilyName_); return result; } private final byte[] columnFamilyName_; private final ColumnFamilyOptions columnFamilyOptions_; } rocksdb-5.17.2/java/src/main/java/org/rocksdb/ColumnFamilyHandle.java000066400000000000000000000071501337235545400254240ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import java.util.Arrays; import java.util.Objects; /** * ColumnFamilyHandle class to hold handles to underlying rocksdb * ColumnFamily Pointers. */ public class ColumnFamilyHandle extends RocksObject { ColumnFamilyHandle(final RocksDB rocksDB, final long nativeHandle) { super(nativeHandle); // rocksDB must point to a valid RocksDB instance; assert(rocksDB != null); // ColumnFamilyHandle must hold a reference to the related RocksDB instance // to guarantee that while a GC cycle starts ColumnFamilyHandle instances // are freed prior to RocksDB instances. this.rocksDB_ = rocksDB; } /** * Gets the name of the Column Family. * * @return The name of the Column Family. * * @throws RocksDBException if an error occurs whilst retrieving the name. */ public byte[] getName() throws RocksDBException { return getName(nativeHandle_); } /** * Gets the ID of the Column Family. * * @return the ID of the Column Family. */ public int getID() { return getID(nativeHandle_); } /** * Gets the up-to-date descriptor of the column family * associated with this handle. Since it fills "*desc" with the up-to-date * information, this call might internally lock and release DB mutex to * access the up-to-date CF options. In addition, all the pointer-typed * options cannot be referenced any longer than the original options exist. * * Note that this function is not supported in RocksDBLite. * * @return the up-to-date descriptor. * * @throws RocksDBException if an error occurs whilst retrieving the * descriptor. */ public ColumnFamilyDescriptor getDescriptor() throws RocksDBException { assert(isOwningHandle()); return getDescriptor(nativeHandle_); } @Override public boolean equals(final Object o) { if (this == o) { return true; } if (o == null || getClass() != o.getClass()) { return false; } final ColumnFamilyHandle that = (ColumnFamilyHandle) o; try { return rocksDB_.nativeHandle_ == that.rocksDB_.nativeHandle_ && getID() == that.getID() && Arrays.equals(getName(), that.getName()); } catch (RocksDBException e) { throw new RuntimeException("Cannot compare column family handles", e); } } @Override public int hashCode() { try { return Objects.hash(getName(), getID(), rocksDB_.nativeHandle_); } catch (RocksDBException e) { throw new RuntimeException("Cannot calculate hash code of column family handle", e); } } /** *

    Deletes underlying C++ iterator pointer.

    * *

    Note: the underlying handle can only be safely deleted if the RocksDB * instance related to a certain ColumnFamilyHandle is still valid and * initialized. Therefore {@code disposeInternal()} checks if the RocksDB is * initialized before freeing the native handle.

    */ @Override protected void disposeInternal() { if(rocksDB_.isOwningHandle()) { disposeInternal(nativeHandle_); } } private native byte[] getName(final long handle) throws RocksDBException; private native int getID(final long handle); private native ColumnFamilyDescriptor getDescriptor(final long handle) throws RocksDBException; @Override protected final native void disposeInternal(final long handle); private final RocksDB rocksDB_; } rocksdb-5.17.2/java/src/main/java/org/rocksdb/ColumnFamilyOptions.java000066400000000000000000000773541337235545400257010ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import java.util.ArrayList; import java.util.List; import java.util.Properties; /** * ColumnFamilyOptions to control the behavior of a database. It will be used * during the creation of a {@link org.rocksdb.RocksDB} (i.e., RocksDB.open()). * * If {@link #dispose()} function is not called, then it will be GC'd * automatically and native resources will be released as part of the process. */ public class ColumnFamilyOptions extends RocksObject implements ColumnFamilyOptionsInterface, MutableColumnFamilyOptionsInterface { static { RocksDB.loadLibrary(); } /** * Construct ColumnFamilyOptions. * * This constructor will create (by allocating a block of memory) * an {@code rocksdb::ColumnFamilyOptions} in the c++ side. */ public ColumnFamilyOptions() { super(newColumnFamilyOptions()); } /** * Copy constructor for ColumnFamilyOptions. * * NOTE: This does a shallow copy, which means comparator, merge_operator, compaction_filter, * compaction_filter_factory and other pointers will be cloned! * * @param other The ColumnFamilyOptions to copy. */ public ColumnFamilyOptions(ColumnFamilyOptions other) { super(copyColumnFamilyOptions(other.nativeHandle_)); this.memTableConfig_ = other.memTableConfig_; this.tableFormatConfig_ = other.tableFormatConfig_; this.comparator_ = other.comparator_; this.compactionFilter_ = other.compactionFilter_; this.compactionFilterFactory_ = other.compactionFilterFactory_; this.compactionOptionsUniversal_ = other.compactionOptionsUniversal_; this.compactionOptionsFIFO_ = other.compactionOptionsFIFO_; this.compressionOptions_ = other.compressionOptions_; } /** *

    Constructor to be used by * {@link #getColumnFamilyOptionsFromProps(java.util.Properties)}, * {@link ColumnFamilyDescriptor#columnFamilyOptions()} * and also called via JNI.

    * * @param handle native handle to ColumnFamilyOptions instance. */ ColumnFamilyOptions(final long handle) { super(handle); } /** *

    Method to get a options instance by using pre-configured * property values. If one or many values are undefined in * the context of RocksDB the method will return a null * value.

    * *

    Note: Property keys can be derived from * getter methods within the options class. Example: the method * {@code writeBufferSize()} has a property key: * {@code write_buffer_size}.

    * * @param properties {@link java.util.Properties} instance. * * @return {@link org.rocksdb.ColumnFamilyOptions instance} * or null. * * @throws java.lang.IllegalArgumentException if null or empty * {@link Properties} instance is passed to the method call. */ public static ColumnFamilyOptions getColumnFamilyOptionsFromProps( final Properties properties) { if (properties == null || properties.size() == 0) { throw new IllegalArgumentException( "Properties value must contain at least one value."); } ColumnFamilyOptions columnFamilyOptions = null; StringBuilder stringBuilder = new StringBuilder(); for (final String name : properties.stringPropertyNames()){ stringBuilder.append(name); stringBuilder.append("="); stringBuilder.append(properties.getProperty(name)); stringBuilder.append(";"); } long handle = getColumnFamilyOptionsFromProps( stringBuilder.toString()); if (handle != 0){ columnFamilyOptions = new ColumnFamilyOptions(handle); } return columnFamilyOptions; } @Override public ColumnFamilyOptions optimizeForSmallDb() { optimizeForSmallDb(nativeHandle_); return this; } @Override public ColumnFamilyOptions optimizeForPointLookup( final long blockCacheSizeMb) { optimizeForPointLookup(nativeHandle_, blockCacheSizeMb); return this; } @Override public ColumnFamilyOptions optimizeLevelStyleCompaction() { optimizeLevelStyleCompaction(nativeHandle_, DEFAULT_COMPACTION_MEMTABLE_MEMORY_BUDGET); return this; } @Override public ColumnFamilyOptions optimizeLevelStyleCompaction( final long memtableMemoryBudget) { optimizeLevelStyleCompaction(nativeHandle_, memtableMemoryBudget); return this; } @Override public ColumnFamilyOptions optimizeUniversalStyleCompaction() { optimizeUniversalStyleCompaction(nativeHandle_, DEFAULT_COMPACTION_MEMTABLE_MEMORY_BUDGET); return this; } @Override public ColumnFamilyOptions optimizeUniversalStyleCompaction( final long memtableMemoryBudget) { optimizeUniversalStyleCompaction(nativeHandle_, memtableMemoryBudget); return this; } @Override public ColumnFamilyOptions setComparator( final BuiltinComparator builtinComparator) { assert(isOwningHandle()); setComparatorHandle(nativeHandle_, builtinComparator.ordinal()); return this; } @Override public ColumnFamilyOptions setComparator( final AbstractComparator> comparator) { assert (isOwningHandle()); setComparatorHandle(nativeHandle_, comparator.nativeHandle_, comparator.getComparatorType().getValue()); comparator_ = comparator; return this; } @Override public ColumnFamilyOptions setMergeOperatorName(final String name) { assert (isOwningHandle()); if (name == null) { throw new IllegalArgumentException( "Merge operator name must not be null."); } setMergeOperatorName(nativeHandle_, name); return this; } @Override public ColumnFamilyOptions setMergeOperator( final MergeOperator mergeOperator) { setMergeOperator(nativeHandle_, mergeOperator.nativeHandle_); return this; } /** * A single CompactionFilter instance to call into during compaction. * Allows an application to modify/delete a key-value during background * compaction. * * If the client requires a new compaction filter to be used for different * compaction runs, it can specify call * {@link #setCompactionFilterFactory(AbstractCompactionFilterFactory)} * instead. * * The client should specify only set one of the two. * {@link #setCompactionFilter(AbstractCompactionFilter)} takes precedence * over {@link #setCompactionFilterFactory(AbstractCompactionFilterFactory)} * if the client specifies both. */ //TODO(AR) need to set a note on the concurrency of the compaction filter used from this method public ColumnFamilyOptions setCompactionFilter( final AbstractCompactionFilter> compactionFilter) { setCompactionFilterHandle(nativeHandle_, compactionFilter.nativeHandle_); compactionFilter_ = compactionFilter; return this; } /** * This is a factory that provides {@link AbstractCompactionFilter} objects * which allow an application to modify/delete a key-value during background * compaction. * * A new filter will be created on each compaction run. If multithreaded * compaction is being used, each created CompactionFilter will only be used * from a single thread and so does not need to be thread-safe. */ public ColumnFamilyOptions setCompactionFilterFactory(final AbstractCompactionFilterFactory> compactionFilterFactory) { assert (isOwningHandle()); setCompactionFilterFactoryHandle(nativeHandle_, compactionFilterFactory.nativeHandle_); compactionFilterFactory_ = compactionFilterFactory; return this; } @Override public ColumnFamilyOptions setWriteBufferSize(final long writeBufferSize) { assert(isOwningHandle()); setWriteBufferSize(nativeHandle_, writeBufferSize); return this; } @Override public long writeBufferSize() { assert(isOwningHandle()); return writeBufferSize(nativeHandle_); } @Override public ColumnFamilyOptions setMaxWriteBufferNumber( final int maxWriteBufferNumber) { assert(isOwningHandle()); setMaxWriteBufferNumber(nativeHandle_, maxWriteBufferNumber); return this; } @Override public int maxWriteBufferNumber() { assert(isOwningHandle()); return maxWriteBufferNumber(nativeHandle_); } @Override public ColumnFamilyOptions setMinWriteBufferNumberToMerge( final int minWriteBufferNumberToMerge) { setMinWriteBufferNumberToMerge(nativeHandle_, minWriteBufferNumberToMerge); return this; } @Override public int minWriteBufferNumberToMerge() { return minWriteBufferNumberToMerge(nativeHandle_); } @Override public ColumnFamilyOptions useFixedLengthPrefixExtractor(final int n) { assert(isOwningHandle()); useFixedLengthPrefixExtractor(nativeHandle_, n); return this; } @Override public ColumnFamilyOptions useCappedPrefixExtractor(final int n) { assert(isOwningHandle()); useCappedPrefixExtractor(nativeHandle_, n); return this; } @Override public ColumnFamilyOptions setCompressionType( final CompressionType compressionType) { setCompressionType(nativeHandle_, compressionType.getValue()); return this; } @Override public CompressionType compressionType() { return CompressionType.getCompressionType(compressionType(nativeHandle_)); } @Override public ColumnFamilyOptions setCompressionPerLevel( final List compressionLevels) { final byte[] byteCompressionTypes = new byte[ compressionLevels.size()]; for (int i = 0; i < compressionLevels.size(); i++) { byteCompressionTypes[i] = compressionLevels.get(i).getValue(); } setCompressionPerLevel(nativeHandle_, byteCompressionTypes); return this; } @Override public List compressionPerLevel() { final byte[] byteCompressionTypes = compressionPerLevel(nativeHandle_); final List compressionLevels = new ArrayList<>(); for (final Byte byteCompressionType : byteCompressionTypes) { compressionLevels.add(CompressionType.getCompressionType( byteCompressionType)); } return compressionLevels; } @Override public ColumnFamilyOptions setBottommostCompressionType( final CompressionType bottommostCompressionType) { setBottommostCompressionType(nativeHandle_, bottommostCompressionType.getValue()); return this; } @Override public CompressionType bottommostCompressionType() { return CompressionType.getCompressionType( bottommostCompressionType(nativeHandle_)); } @Override public ColumnFamilyOptions setCompressionOptions( final CompressionOptions compressionOptions) { setCompressionOptions(nativeHandle_, compressionOptions.nativeHandle_); this.compressionOptions_ = compressionOptions; return this; } @Override public CompressionOptions compressionOptions() { return this.compressionOptions_; } @Override public ColumnFamilyOptions setNumLevels(final int numLevels) { setNumLevels(nativeHandle_, numLevels); return this; } @Override public int numLevels() { return numLevels(nativeHandle_); } @Override public ColumnFamilyOptions setLevelZeroFileNumCompactionTrigger( final int numFiles) { setLevelZeroFileNumCompactionTrigger( nativeHandle_, numFiles); return this; } @Override public int levelZeroFileNumCompactionTrigger() { return levelZeroFileNumCompactionTrigger(nativeHandle_); } @Override public ColumnFamilyOptions setLevelZeroSlowdownWritesTrigger( final int numFiles) { setLevelZeroSlowdownWritesTrigger(nativeHandle_, numFiles); return this; } @Override public int levelZeroSlowdownWritesTrigger() { return levelZeroSlowdownWritesTrigger(nativeHandle_); } @Override public ColumnFamilyOptions setLevelZeroStopWritesTrigger(final int numFiles) { setLevelZeroStopWritesTrigger(nativeHandle_, numFiles); return this; } @Override public int levelZeroStopWritesTrigger() { return levelZeroStopWritesTrigger(nativeHandle_); } @Override public ColumnFamilyOptions setTargetFileSizeBase( final long targetFileSizeBase) { setTargetFileSizeBase(nativeHandle_, targetFileSizeBase); return this; } @Override public long targetFileSizeBase() { return targetFileSizeBase(nativeHandle_); } @Override public ColumnFamilyOptions setTargetFileSizeMultiplier( final int multiplier) { setTargetFileSizeMultiplier(nativeHandle_, multiplier); return this; } @Override public int targetFileSizeMultiplier() { return targetFileSizeMultiplier(nativeHandle_); } @Override public ColumnFamilyOptions setMaxBytesForLevelBase( final long maxBytesForLevelBase) { setMaxBytesForLevelBase(nativeHandle_, maxBytesForLevelBase); return this; } @Override public long maxBytesForLevelBase() { return maxBytesForLevelBase(nativeHandle_); } @Override public ColumnFamilyOptions setLevelCompactionDynamicLevelBytes( final boolean enableLevelCompactionDynamicLevelBytes) { setLevelCompactionDynamicLevelBytes(nativeHandle_, enableLevelCompactionDynamicLevelBytes); return this; } @Override public boolean levelCompactionDynamicLevelBytes() { return levelCompactionDynamicLevelBytes(nativeHandle_); } @Override public ColumnFamilyOptions setMaxBytesForLevelMultiplier(final double multiplier) { setMaxBytesForLevelMultiplier(nativeHandle_, multiplier); return this; } @Override public double maxBytesForLevelMultiplier() { return maxBytesForLevelMultiplier(nativeHandle_); } @Override public ColumnFamilyOptions setMaxCompactionBytes(final long maxCompactionBytes) { setMaxCompactionBytes(nativeHandle_, maxCompactionBytes); return this; } @Override public long maxCompactionBytes() { return maxCompactionBytes(nativeHandle_); } @Override public ColumnFamilyOptions setArenaBlockSize( final long arenaBlockSize) { setArenaBlockSize(nativeHandle_, arenaBlockSize); return this; } @Override public long arenaBlockSize() { return arenaBlockSize(nativeHandle_); } @Override public ColumnFamilyOptions setDisableAutoCompactions( final boolean disableAutoCompactions) { setDisableAutoCompactions(nativeHandle_, disableAutoCompactions); return this; } @Override public boolean disableAutoCompactions() { return disableAutoCompactions(nativeHandle_); } @Override public ColumnFamilyOptions setCompactionStyle( final CompactionStyle compactionStyle) { setCompactionStyle(nativeHandle_, compactionStyle.getValue()); return this; } @Override public CompactionStyle compactionStyle() { return CompactionStyle.values()[compactionStyle(nativeHandle_)]; } @Override public ColumnFamilyOptions setMaxTableFilesSizeFIFO( final long maxTableFilesSize) { assert(maxTableFilesSize > 0); // unsigned native type assert(isOwningHandle()); setMaxTableFilesSizeFIFO(nativeHandle_, maxTableFilesSize); return this; } @Override public long maxTableFilesSizeFIFO() { return maxTableFilesSizeFIFO(nativeHandle_); } @Override public ColumnFamilyOptions setMaxSequentialSkipInIterations( final long maxSequentialSkipInIterations) { setMaxSequentialSkipInIterations(nativeHandle_, maxSequentialSkipInIterations); return this; } @Override public long maxSequentialSkipInIterations() { return maxSequentialSkipInIterations(nativeHandle_); } @Override public MemTableConfig memTableConfig() { return this.memTableConfig_; } @Override public ColumnFamilyOptions setMemTableConfig( final MemTableConfig memTableConfig) { setMemTableFactory( nativeHandle_, memTableConfig.newMemTableFactoryHandle()); this.memTableConfig_ = memTableConfig; return this; } @Override public String memTableFactoryName() { assert(isOwningHandle()); return memTableFactoryName(nativeHandle_); } @Override public TableFormatConfig tableFormatConfig() { return this.tableFormatConfig_; } @Override public ColumnFamilyOptions setTableFormatConfig( final TableFormatConfig tableFormatConfig) { setTableFactory(nativeHandle_, tableFormatConfig.newTableFactoryHandle()); this.tableFormatConfig_ = tableFormatConfig; return this; } @Override public String tableFactoryName() { assert(isOwningHandle()); return tableFactoryName(nativeHandle_); } @Override public ColumnFamilyOptions setInplaceUpdateSupport( final boolean inplaceUpdateSupport) { setInplaceUpdateSupport(nativeHandle_, inplaceUpdateSupport); return this; } @Override public boolean inplaceUpdateSupport() { return inplaceUpdateSupport(nativeHandle_); } @Override public ColumnFamilyOptions setInplaceUpdateNumLocks( final long inplaceUpdateNumLocks) { setInplaceUpdateNumLocks(nativeHandle_, inplaceUpdateNumLocks); return this; } @Override public long inplaceUpdateNumLocks() { return inplaceUpdateNumLocks(nativeHandle_); } @Override public ColumnFamilyOptions setMemtablePrefixBloomSizeRatio( final double memtablePrefixBloomSizeRatio) { setMemtablePrefixBloomSizeRatio(nativeHandle_, memtablePrefixBloomSizeRatio); return this; } @Override public double memtablePrefixBloomSizeRatio() { return memtablePrefixBloomSizeRatio(nativeHandle_); } @Override public ColumnFamilyOptions setBloomLocality(int bloomLocality) { setBloomLocality(nativeHandle_, bloomLocality); return this; } @Override public int bloomLocality() { return bloomLocality(nativeHandle_); } @Override public ColumnFamilyOptions setMaxSuccessiveMerges( final long maxSuccessiveMerges) { setMaxSuccessiveMerges(nativeHandle_, maxSuccessiveMerges); return this; } @Override public long maxSuccessiveMerges() { return maxSuccessiveMerges(nativeHandle_); } @Override public ColumnFamilyOptions setOptimizeFiltersForHits( final boolean optimizeFiltersForHits) { setOptimizeFiltersForHits(nativeHandle_, optimizeFiltersForHits); return this; } @Override public boolean optimizeFiltersForHits() { return optimizeFiltersForHits(nativeHandle_); } @Override public ColumnFamilyOptions setMemtableHugePageSize( long memtableHugePageSize) { setMemtableHugePageSize(nativeHandle_, memtableHugePageSize); return this; } @Override public long memtableHugePageSize() { return memtableHugePageSize(nativeHandle_); } @Override public ColumnFamilyOptions setSoftPendingCompactionBytesLimit(long softPendingCompactionBytesLimit) { setSoftPendingCompactionBytesLimit(nativeHandle_, softPendingCompactionBytesLimit); return this; } @Override public long softPendingCompactionBytesLimit() { return softPendingCompactionBytesLimit(nativeHandle_); } @Override public ColumnFamilyOptions setHardPendingCompactionBytesLimit(long hardPendingCompactionBytesLimit) { setHardPendingCompactionBytesLimit(nativeHandle_, hardPendingCompactionBytesLimit); return this; } @Override public long hardPendingCompactionBytesLimit() { return hardPendingCompactionBytesLimit(nativeHandle_); } @Override public ColumnFamilyOptions setLevel0FileNumCompactionTrigger(int level0FileNumCompactionTrigger) { setLevel0FileNumCompactionTrigger(nativeHandle_, level0FileNumCompactionTrigger); return this; } @Override public int level0FileNumCompactionTrigger() { return level0FileNumCompactionTrigger(nativeHandle_); } @Override public ColumnFamilyOptions setLevel0SlowdownWritesTrigger(int level0SlowdownWritesTrigger) { setLevel0SlowdownWritesTrigger(nativeHandle_, level0SlowdownWritesTrigger); return this; } @Override public int level0SlowdownWritesTrigger() { return level0SlowdownWritesTrigger(nativeHandle_); } @Override public ColumnFamilyOptions setLevel0StopWritesTrigger(int level0StopWritesTrigger) { setLevel0StopWritesTrigger(nativeHandle_, level0StopWritesTrigger); return this; } @Override public int level0StopWritesTrigger() { return level0StopWritesTrigger(nativeHandle_); } @Override public ColumnFamilyOptions setMaxBytesForLevelMultiplierAdditional(int[] maxBytesForLevelMultiplierAdditional) { setMaxBytesForLevelMultiplierAdditional(nativeHandle_, maxBytesForLevelMultiplierAdditional); return this; } @Override public int[] maxBytesForLevelMultiplierAdditional() { return maxBytesForLevelMultiplierAdditional(nativeHandle_); } @Override public ColumnFamilyOptions setParanoidFileChecks(boolean paranoidFileChecks) { setParanoidFileChecks(nativeHandle_, paranoidFileChecks); return this; } @Override public boolean paranoidFileChecks() { return paranoidFileChecks(nativeHandle_); } @Override public ColumnFamilyOptions setMaxWriteBufferNumberToMaintain( final int maxWriteBufferNumberToMaintain) { setMaxWriteBufferNumberToMaintain( nativeHandle_, maxWriteBufferNumberToMaintain); return this; } @Override public int maxWriteBufferNumberToMaintain() { return maxWriteBufferNumberToMaintain(nativeHandle_); } @Override public ColumnFamilyOptions setCompactionPriority( final CompactionPriority compactionPriority) { setCompactionPriority(nativeHandle_, compactionPriority.getValue()); return this; } @Override public CompactionPriority compactionPriority() { return CompactionPriority.getCompactionPriority( compactionPriority(nativeHandle_)); } @Override public ColumnFamilyOptions setReportBgIoStats(final boolean reportBgIoStats) { setReportBgIoStats(nativeHandle_, reportBgIoStats); return this; } @Override public boolean reportBgIoStats() { return reportBgIoStats(nativeHandle_); } @Override public ColumnFamilyOptions setCompactionOptionsUniversal( final CompactionOptionsUniversal compactionOptionsUniversal) { setCompactionOptionsUniversal(nativeHandle_, compactionOptionsUniversal.nativeHandle_); this.compactionOptionsUniversal_ = compactionOptionsUniversal; return this; } @Override public CompactionOptionsUniversal compactionOptionsUniversal() { return this.compactionOptionsUniversal_; } @Override public ColumnFamilyOptions setCompactionOptionsFIFO(final CompactionOptionsFIFO compactionOptionsFIFO) { setCompactionOptionsFIFO(nativeHandle_, compactionOptionsFIFO.nativeHandle_); this.compactionOptionsFIFO_ = compactionOptionsFIFO; return this; } @Override public CompactionOptionsFIFO compactionOptionsFIFO() { return this.compactionOptionsFIFO_; } @Override public ColumnFamilyOptions setForceConsistencyChecks(final boolean forceConsistencyChecks) { setForceConsistencyChecks(nativeHandle_, forceConsistencyChecks); return this; } @Override public boolean forceConsistencyChecks() { return forceConsistencyChecks(nativeHandle_); } private static native long getColumnFamilyOptionsFromProps( String optString); private static native long newColumnFamilyOptions(); private static native long copyColumnFamilyOptions(long handle); @Override protected final native void disposeInternal(final long handle); private native void optimizeForSmallDb(final long handle); private native void optimizeForPointLookup(long handle, long blockCacheSizeMb); private native void optimizeLevelStyleCompaction(long handle, long memtableMemoryBudget); private native void optimizeUniversalStyleCompaction(long handle, long memtableMemoryBudget); private native void setComparatorHandle(long handle, int builtinComparator); private native void setComparatorHandle(long optHandle, long comparatorHandle, byte comparatorType); private native void setMergeOperatorName(long handle, String name); private native void setMergeOperator(long handle, long mergeOperatorHandle); private native void setCompactionFilterHandle(long handle, long compactionFilterHandle); private native void setCompactionFilterFactoryHandle(long handle, long compactionFilterFactoryHandle); private native void setWriteBufferSize(long handle, long writeBufferSize) throws IllegalArgumentException; private native long writeBufferSize(long handle); private native void setMaxWriteBufferNumber( long handle, int maxWriteBufferNumber); private native int maxWriteBufferNumber(long handle); private native void setMinWriteBufferNumberToMerge( long handle, int minWriteBufferNumberToMerge); private native int minWriteBufferNumberToMerge(long handle); private native void setCompressionType(long handle, byte compressionType); private native byte compressionType(long handle); private native void setCompressionPerLevel(long handle, byte[] compressionLevels); private native byte[] compressionPerLevel(long handle); private native void setBottommostCompressionType(long handle, byte bottommostCompressionType); private native byte bottommostCompressionType(long handle); private native void setCompressionOptions(long handle, long compressionOptionsHandle); private native void useFixedLengthPrefixExtractor( long handle, int prefixLength); private native void useCappedPrefixExtractor( long handle, int prefixLength); private native void setNumLevels( long handle, int numLevels); private native int numLevels(long handle); private native void setLevelZeroFileNumCompactionTrigger( long handle, int numFiles); private native int levelZeroFileNumCompactionTrigger(long handle); private native void setLevelZeroSlowdownWritesTrigger( long handle, int numFiles); private native int levelZeroSlowdownWritesTrigger(long handle); private native void setLevelZeroStopWritesTrigger( long handle, int numFiles); private native int levelZeroStopWritesTrigger(long handle); private native void setTargetFileSizeBase( long handle, long targetFileSizeBase); private native long targetFileSizeBase(long handle); private native void setTargetFileSizeMultiplier( long handle, int multiplier); private native int targetFileSizeMultiplier(long handle); private native void setMaxBytesForLevelBase( long handle, long maxBytesForLevelBase); private native long maxBytesForLevelBase(long handle); private native void setLevelCompactionDynamicLevelBytes( long handle, boolean enableLevelCompactionDynamicLevelBytes); private native boolean levelCompactionDynamicLevelBytes( long handle); private native void setMaxBytesForLevelMultiplier(long handle, double multiplier); private native double maxBytesForLevelMultiplier(long handle); private native void setMaxCompactionBytes(long handle, long maxCompactionBytes); private native long maxCompactionBytes(long handle); private native void setArenaBlockSize( long handle, long arenaBlockSize) throws IllegalArgumentException; private native long arenaBlockSize(long handle); private native void setDisableAutoCompactions( long handle, boolean disableAutoCompactions); private native boolean disableAutoCompactions(long handle); private native void setCompactionStyle(long handle, byte compactionStyle); private native byte compactionStyle(long handle); private native void setMaxTableFilesSizeFIFO( long handle, long max_table_files_size); private native long maxTableFilesSizeFIFO(long handle); private native void setMaxSequentialSkipInIterations( long handle, long maxSequentialSkipInIterations); private native long maxSequentialSkipInIterations(long handle); private native void setMemTableFactory(long handle, long factoryHandle); private native String memTableFactoryName(long handle); private native void setTableFactory(long handle, long factoryHandle); private native String tableFactoryName(long handle); private native void setInplaceUpdateSupport( long handle, boolean inplaceUpdateSupport); private native boolean inplaceUpdateSupport(long handle); private native void setInplaceUpdateNumLocks( long handle, long inplaceUpdateNumLocks) throws IllegalArgumentException; private native long inplaceUpdateNumLocks(long handle); private native void setMemtablePrefixBloomSizeRatio( long handle, double memtablePrefixBloomSizeRatio); private native double memtablePrefixBloomSizeRatio(long handle); private native void setBloomLocality( long handle, int bloomLocality); private native int bloomLocality(long handle); private native void setMaxSuccessiveMerges( long handle, long maxSuccessiveMerges) throws IllegalArgumentException; private native long maxSuccessiveMerges(long handle); private native void setOptimizeFiltersForHits(long handle, boolean optimizeFiltersForHits); private native boolean optimizeFiltersForHits(long handle); private native void setMemtableHugePageSize(long handle, long memtableHugePageSize); private native long memtableHugePageSize(long handle); private native void setSoftPendingCompactionBytesLimit(long handle, long softPendingCompactionBytesLimit); private native long softPendingCompactionBytesLimit(long handle); private native void setHardPendingCompactionBytesLimit(long handle, long hardPendingCompactionBytesLimit); private native long hardPendingCompactionBytesLimit(long handle); private native void setLevel0FileNumCompactionTrigger(long handle, int level0FileNumCompactionTrigger); private native int level0FileNumCompactionTrigger(long handle); private native void setLevel0SlowdownWritesTrigger(long handle, int level0SlowdownWritesTrigger); private native int level0SlowdownWritesTrigger(long handle); private native void setLevel0StopWritesTrigger(long handle, int level0StopWritesTrigger); private native int level0StopWritesTrigger(long handle); private native void setMaxBytesForLevelMultiplierAdditional(long handle, int[] maxBytesForLevelMultiplierAdditional); private native int[] maxBytesForLevelMultiplierAdditional(long handle); private native void setParanoidFileChecks(long handle, boolean paranoidFileChecks); private native boolean paranoidFileChecks(long handle); private native void setMaxWriteBufferNumberToMaintain(final long handle, final int maxWriteBufferNumberToMaintain); private native int maxWriteBufferNumberToMaintain(final long handle); private native void setCompactionPriority(final long handle, final byte compactionPriority); private native byte compactionPriority(final long handle); private native void setReportBgIoStats(final long handle, final boolean reportBgIoStats); private native boolean reportBgIoStats(final long handle); private native void setCompactionOptionsUniversal(final long handle, final long compactionOptionsUniversalHandle); private native void setCompactionOptionsFIFO(final long handle, final long compactionOptionsFIFOHandle); private native void setForceConsistencyChecks(final long handle, final boolean forceConsistencyChecks); private native boolean forceConsistencyChecks(final long handle); // instance variables // NOTE: If you add new member variables, please update the copy constructor above! private MemTableConfig memTableConfig_; private TableFormatConfig tableFormatConfig_; private AbstractComparator> comparator_; private AbstractCompactionFilter> compactionFilter_; AbstractCompactionFilterFactory> compactionFilterFactory_; private CompactionOptionsUniversal compactionOptionsUniversal_; private CompactionOptionsFIFO compactionOptionsFIFO_; private CompressionOptions compressionOptions_; } rocksdb-5.17.2/java/src/main/java/org/rocksdb/ColumnFamilyOptionsInterface.java000066400000000000000000000310161337235545400275030ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; public interface ColumnFamilyOptionsInterface extends AdvancedColumnFamilyOptionsInterface { /** * Use this if your DB is very small (like under 1GB) and you don't want to * spend lots of memory for memtables. * * @return the instance of the current object. */ T optimizeForSmallDb(); /** * Use this if you don't need to keep the data sorted, i.e. you'll never use * an iterator, only Put() and Get() API calls * * @param blockCacheSizeMb Block cache size in MB * @return the instance of the current object. */ T optimizeForPointLookup(long blockCacheSizeMb); /** *

    Default values for some parameters in ColumnFamilyOptions are not * optimized for heavy workloads and big datasets, which means you might * observe write stalls under some conditions. As a starting point for tuning * RocksDB options, use the following for level style compaction.

    * *

    Make sure to also call IncreaseParallelism(), which will provide the * biggest performance gains.

    *

    Note: we might use more memory than memtable_memory_budget during high * write rate period

    * * @return the instance of the current object. */ T optimizeLevelStyleCompaction(); /** *

    Default values for some parameters in ColumnFamilyOptions are not * optimized for heavy workloads and big datasets, which means you might * observe write stalls under some conditions. As a starting point for tuning * RocksDB options, use the following for level style compaction.

    * *

    Make sure to also call IncreaseParallelism(), which will provide the * biggest performance gains.

    *

    Note: we might use more memory than memtable_memory_budget during high * write rate period

    * * @param memtableMemoryBudget memory budget in bytes * @return the instance of the current object. */ T optimizeLevelStyleCompaction( long memtableMemoryBudget); /** *

    Default values for some parameters in ColumnFamilyOptions are not * optimized for heavy workloads and big datasets, which means you might * observe write stalls under some conditions. As a starting point for tuning * RocksDB options, use the following for universal style compaction.

    * *

    Universal style compaction is focused on reducing Write Amplification * Factor for big data sets, but increases Space Amplification.

    * *

    Make sure to also call IncreaseParallelism(), which will provide the * biggest performance gains.

    * *

    Note: we might use more memory than memtable_memory_budget during high * write rate period

    * * @return the instance of the current object. */ T optimizeUniversalStyleCompaction(); /** *

    Default values for some parameters in ColumnFamilyOptions are not * optimized for heavy workloads and big datasets, which means you might * observe write stalls under some conditions. As a starting point for tuning * RocksDB options, use the following for universal style compaction.

    * *

    Universal style compaction is focused on reducing Write Amplification * Factor for big data sets, but increases Space Amplification.

    * *

    Make sure to also call IncreaseParallelism(), which will provide the * biggest performance gains.

    * *

    Note: we might use more memory than memtable_memory_budget during high * write rate period

    * * @param memtableMemoryBudget memory budget in bytes * @return the instance of the current object. */ T optimizeUniversalStyleCompaction( long memtableMemoryBudget); /** * Set {@link BuiltinComparator} to be used with RocksDB. * * Note: Comparator can be set once upon database creation. * * Default: BytewiseComparator. * @param builtinComparator a {@link BuiltinComparator} type. * @return the instance of the current object. */ T setComparator( BuiltinComparator builtinComparator); /** * Use the specified comparator for key ordering. * * Comparator should not be disposed before options instances using this comparator is * disposed. If dispose() function is not called, then comparator object will be * GC'd automatically. * * Comparator instance can be re-used in multiple options instances. * * @param comparator java instance. * @return the instance of the current object. */ T setComparator( AbstractComparator> comparator); /** *

    Set the merge operator to be used for merging two merge operands * of the same key. The merge function is invoked during * compaction and at lookup time, if multiple key/value pairs belonging * to the same key are found in the database.

    * * @param name the name of the merge function, as defined by * the MergeOperators factory (see utilities/MergeOperators.h) * The merge function is specified by name and must be one of the * standard merge operators provided by RocksDB. The available * operators are "put", "uint64add", "stringappend" and "stringappendtest". * @return the instance of the current object. */ T setMergeOperatorName(String name); /** *

    Set the merge operator to be used for merging two different key/value * pairs that share the same key. The merge function is invoked during * compaction and at lookup time, if multiple key/value pairs belonging * to the same key are found in the database.

    * * @param mergeOperator {@link MergeOperator} instance. * @return the instance of the current object. */ T setMergeOperator(MergeOperator mergeOperator); /** * This prefix-extractor uses the first n bytes of a key as its prefix. * * In some hash-based memtable representation such as HashLinkedList * and HashSkipList, prefixes are used to partition the keys into * several buckets. Prefix extractor is used to specify how to * extract the prefix given a key. * * @param n use the first n bytes of a key as its prefix. * @return the reference to the current option. */ T useFixedLengthPrefixExtractor(int n); /** * Same as fixed length prefix extractor, except that when slice is * shorter than the fixed length, it will use the full key. * * @param n use the first n bytes of a key as its prefix. * @return the reference to the current option. */ T useCappedPrefixExtractor(int n); /** * Number of files to trigger level-0 compaction. A value < 0 means that * level-0 compaction will not be triggered by number of files at all. * Default: 4 * * @param numFiles the number of files in level-0 to trigger compaction. * @return the reference to the current option. */ T setLevelZeroFileNumCompactionTrigger( int numFiles); /** * The number of files in level 0 to trigger compaction from level-0 to * level-1. A value < 0 means that level-0 compaction will not be * triggered by number of files at all. * Default: 4 * * @return the number of files in level 0 to trigger compaction. */ int levelZeroFileNumCompactionTrigger(); /** * Soft limit on number of level-0 files. We start slowing down writes at this * point. A value < 0 means that no writing slow down will be triggered by * number of files in level-0. * * @param numFiles soft limit on number of level-0 files. * @return the reference to the current option. */ T setLevelZeroSlowdownWritesTrigger( int numFiles); /** * Soft limit on the number of level-0 files. We start slowing down writes * at this point. A value < 0 means that no writing slow down will be * triggered by number of files in level-0. * * @return the soft limit on the number of level-0 files. */ int levelZeroSlowdownWritesTrigger(); /** * Maximum number of level-0 files. We stop writes at this point. * * @param numFiles the hard limit of the number of level-0 files. * @return the reference to the current option. */ T setLevelZeroStopWritesTrigger(int numFiles); /** * Maximum number of level-0 files. We stop writes at this point. * * @return the hard limit of the number of level-0 file. */ int levelZeroStopWritesTrigger(); /** * The ratio between the total size of level-(L+1) files and the total * size of level-L files for all L. * DEFAULT: 10 * * @param multiplier the ratio between the total size of level-(L+1) * files and the total size of level-L files for all L. * @return the reference to the current option. */ T setMaxBytesForLevelMultiplier( double multiplier); /** * The ratio between the total size of level-(L+1) files and the total * size of level-L files for all L. * DEFAULT: 10 * * @return the ratio between the total size of level-(L+1) files and * the total size of level-L files for all L. */ double maxBytesForLevelMultiplier(); /** * FIFO compaction option. * The oldest table file will be deleted * once the sum of table files reaches this size. * The default value is 1GB (1 * 1024 * 1024 * 1024). * * @param maxTableFilesSize the size limit of the total sum of table files. * @return the instance of the current object. */ T setMaxTableFilesSizeFIFO( long maxTableFilesSize); /** * FIFO compaction option. * The oldest table file will be deleted * once the sum of table files reaches this size. * The default value is 1GB (1 * 1024 * 1024 * 1024). * * @return the size limit of the total sum of table files. */ long maxTableFilesSizeFIFO(); /** * Get the config for mem-table. * * @return the mem-table config. */ MemTableConfig memTableConfig(); /** * Set the config for mem-table. * * @param memTableConfig the mem-table config. * @return the instance of the current object. * @throws java.lang.IllegalArgumentException thrown on 32-Bit platforms * while overflowing the underlying platform specific value. */ T setMemTableConfig(MemTableConfig memTableConfig); /** * Returns the name of the current mem table representation. * Memtable format can be set using setTableFormatConfig. * * @return the name of the currently-used memtable factory. * @see #setTableFormatConfig(org.rocksdb.TableFormatConfig) */ String memTableFactoryName(); /** * Get the config for table format. * * @return the table format config. */ TableFormatConfig tableFormatConfig(); /** * Set the config for table format. * * @param config the table format config. * @return the reference of the current options. */ T setTableFormatConfig(TableFormatConfig config); /** * @return the name of the currently used table factory. */ String tableFactoryName(); /** * Compression algorithm that will be used for the bottommost level that * contain files. If level-compaction is used, this option will only affect * levels after base level. * * Default: {@link CompressionType#DISABLE_COMPRESSION_OPTION} * * @param bottommostCompressionType The compression type to use for the * bottommost level * * @return the reference of the current options. */ T setBottommostCompressionType( final CompressionType bottommostCompressionType); /** * Compression algorithm that will be used for the bottommost level that * contain files. If level-compaction is used, this option will only affect * levels after base level. * * Default: {@link CompressionType#DISABLE_COMPRESSION_OPTION} * * @return The compression type used for the bottommost level */ CompressionType bottommostCompressionType(); /** * Set the different options for compression algorithms * * @param compressionOptions The compression options * * @return the reference of the current options. */ T setCompressionOptions( CompressionOptions compressionOptions); /** * Get the different options for compression algorithms * * @return The compression options */ CompressionOptions compressionOptions(); /** * Default memtable memory budget used with the following methods: * *
      *
    1. {@link #optimizeLevelStyleCompaction()}
      2. *
    2. {@link #optimizeUniversalStyleCompaction()}
      3. *
    */ long DEFAULT_COMPACTION_MEMTABLE_MEMORY_BUDGET = 512 * 1024 * 1024; } rocksdb-5.17.2/java/src/main/java/org/rocksdb/CompactRangeOptions.java000066400000000000000000000201321337235545400256230ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * CompactRangeOptions is used by CompactRange() call. In the documentation of the methods "the compaction" refers to * any compaction that is using this CompactRangeOptions. */ public class CompactRangeOptions extends RocksObject { private final static byte VALUE_kSkip = 0; private final static byte VALUE_kIfHaveCompactionFilter = 1; private final static byte VALUE_kForce = 2; // For level based compaction, we can configure if we want to skip/force bottommost level compaction. // The order of this neum MUST follow the C++ layer. See BottommostLevelCompaction in db/options.h public enum BottommostLevelCompaction { /** * Skip bottommost level compaction */ kSkip((byte)VALUE_kSkip), /** * Only compact bottommost level if there is a compaction filter. This is the default option */ kIfHaveCompactionFilter(VALUE_kIfHaveCompactionFilter), /** * Always compact bottommost level */ kForce(VALUE_kForce); private final byte value; BottommostLevelCompaction(final byte value) { this.value = value; } /** *

    Returns the byte value of the enumerations value.

    * * @return byte representation */ public byte getValue() { return value; } /** * Returns the BottommostLevelCompaction for the given C++ rocks enum value. * @param bottommostLevelCompaction The value of the BottommostLevelCompaction * @return BottommostLevelCompaction instance, or null if none matches */ public static BottommostLevelCompaction fromRocksId(final int bottommostLevelCompaction) { switch (bottommostLevelCompaction) { case VALUE_kSkip: return kSkip; case VALUE_kIfHaveCompactionFilter: return kIfHaveCompactionFilter; case VALUE_kForce: return kForce; default: return null; } } } /** * Construct CompactRangeOptions. */ public CompactRangeOptions() { super(newCompactRangeOptions()); } /** * Returns whether the compaction is exclusive or other compactions may run concurrently at the same time. * * @return true if exclusive, false if concurrent */ public boolean exclusiveManualCompaction() { return exclusiveManualCompaction(nativeHandle_); } /** * Sets whether the compaction is exclusive or other compaction are allowed run concurrently at the same time. * * @param exclusiveCompaction true if compaction should be exclusive * @return This CompactRangeOptions */ public CompactRangeOptions setExclusiveManualCompaction(final boolean exclusiveCompaction) { setExclusiveManualCompaction(nativeHandle_, exclusiveCompaction); return this; } /** * Returns the policy for compacting the bottommost level * @return The BottommostLevelCompaction policy */ public BottommostLevelCompaction bottommostLevelCompaction() { return BottommostLevelCompaction.fromRocksId(bottommostLevelCompaction(nativeHandle_)); } /** * Sets the policy for compacting the bottommost level * * @param bottommostLevelCompaction The policy for compacting the bottommost level * @return This CompactRangeOptions */ public CompactRangeOptions setBottommostLevelCompaction(final BottommostLevelCompaction bottommostLevelCompaction) { setBottommostLevelCompaction(nativeHandle_, bottommostLevelCompaction.getValue()); return this; } /** * Returns whether compacted files will be moved to the minimum level capable of holding the data or given level * (specified non-negative target_level). * @return true, if compacted files will be moved to the minimum level */ public boolean changeLevel() { return changeLevel(nativeHandle_); } /** * Whether compacted files will be moved to the minimum level capable of holding the data or given level * (specified non-negative target_level). * * @param changeLevel If true, compacted files will be moved to the minimum level * @return This CompactRangeOptions */ public CompactRangeOptions setChangeLevel(final boolean changeLevel) { setChangeLevel(nativeHandle_, changeLevel); return this; } /** * If change_level is true and target_level have non-negative value, compacted files will be moved to target_level. * @return The target level for the compacted files */ public int targetLevel() { return targetLevel(nativeHandle_); } /** * If change_level is true and target_level have non-negative value, compacted files will be moved to target_level. * * @param targetLevel target level for the compacted files * @return This CompactRangeOptions */ public CompactRangeOptions setTargetLevel(final int targetLevel) { setTargetLevel(nativeHandle_, targetLevel); return this; } /** * target_path_id for compaction output. Compaction outputs will be placed in options.db_paths[target_path_id]. * * @return target_path_id */ public int targetPathId() { return targetPathId(nativeHandle_); } /** * Compaction outputs will be placed in options.db_paths[target_path_id]. Behavior is undefined if target_path_id is * out of range. * * @param targetPathId target path id * @return This CompactRangeOptions */ public CompactRangeOptions setTargetPathId(final int targetPathId) { setTargetPathId(nativeHandle_, targetPathId); return this; } /** * If true, compaction will execute immediately even if doing so would cause the DB to * enter write stall mode. Otherwise, it'll sleep until load is low enough. * @return true if compaction will execute immediately */ public boolean allowWriteStall() { return allowWriteStall(nativeHandle_); } /** * If true, compaction will execute immediately even if doing so would cause the DB to * enter write stall mode. Otherwise, it'll sleep until load is low enough. * * @return This CompactRangeOptions * @param allowWriteStall true if compaction should execute immediately */ public CompactRangeOptions setAllowWriteStall(final boolean allowWriteStall) { setAllowWriteStall(nativeHandle_, allowWriteStall); return this; } /** * If > 0, it will replace the option in the DBOptions for this compaction * @return number of subcompactions */ public int maxSubcompactions() { return maxSubcompactions(nativeHandle_); } /** * If > 0, it will replace the option in the DBOptions for this compaction * * @param maxSubcompactions number of subcompactions * @return This CompactRangeOptions */ public CompactRangeOptions setMaxSubcompactions(final int maxSubcompactions) { setMaxSubcompactions(nativeHandle_, maxSubcompactions); return this; } private native static long newCompactRangeOptions(); private native boolean exclusiveManualCompaction(final long handle); private native void setExclusiveManualCompaction(final long handle, final boolean exclusive_manual_compaction); private native int bottommostLevelCompaction(final long handle); private native void setBottommostLevelCompaction(final long handle, final int bottommostLevelCompaction); private native boolean changeLevel(final long handle); private native void setChangeLevel(final long handle, final boolean changeLevel); private native int targetLevel(final long handle); private native void setTargetLevel(final long handle, final int targetLevel); private native int targetPathId(final long handle); private native void setTargetPathId(final long handle, final int /* uint32_t */ targetPathId); private native boolean allowWriteStall(final long handle); private native void setAllowWriteStall(final long handle, final boolean allowWriteStall); private native void setMaxSubcompactions(final long handle, final int /* uint32_t */ maxSubcompactions); private native int maxSubcompactions(final long handle); @Override protected final native void disposeInternal(final long handle); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/CompactionOptionsFIFO.java000066400000000000000000000026201337235545400260220ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * Options for FIFO Compaction */ public class CompactionOptionsFIFO extends RocksObject { public CompactionOptionsFIFO() { super(newCompactionOptionsFIFO()); } /** * Once the total sum of table files reaches this, we will delete the oldest * table file * * Default: 1GB * * @param maxTableFilesSize The maximum size of the table files * * @return the reference to the current options. */ public CompactionOptionsFIFO setMaxTableFilesSize( final long maxTableFilesSize) { setMaxTableFilesSize(nativeHandle_, maxTableFilesSize); return this; } /** * Once the total sum of table files reaches this, we will delete the oldest * table file * * Default: 1GB * * @return max table file size in bytes */ public long maxTableFilesSize() { return maxTableFilesSize(nativeHandle_); } private native void setMaxTableFilesSize(long handle, long maxTableFilesSize); private native long maxTableFilesSize(long handle); private native static long newCompactionOptionsFIFO(); @Override protected final native void disposeInternal(final long handle); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/CompactionOptionsUniversal.java000066400000000000000000000225431337235545400272550ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * Options for Universal Compaction */ public class CompactionOptionsUniversal extends RocksObject { public CompactionOptionsUniversal() { super(newCompactionOptionsUniversal()); } /** * Percentage flexibility while comparing file size. If the candidate file(s) * size is 1% smaller than the next file's size, then include next file into * this candidate set. * * Default: 1 * * @param sizeRatio The size ratio to use * * @return the reference to the current options. */ public CompactionOptionsUniversal setSizeRatio(final int sizeRatio) { setSizeRatio(nativeHandle_, sizeRatio); return this; } /** * Percentage flexibility while comparing file size. If the candidate file(s) * size is 1% smaller than the next file's size, then include next file into * this candidate set. * * Default: 1 * * @return The size ratio in use */ public int sizeRatio() { return sizeRatio(nativeHandle_); } /** * The minimum number of files in a single compaction run. * * Default: 2 * * @param minMergeWidth minimum number of files in a single compaction run * * @return the reference to the current options. */ public CompactionOptionsUniversal setMinMergeWidth(final int minMergeWidth) { setMinMergeWidth(nativeHandle_, minMergeWidth); return this; } /** * The minimum number of files in a single compaction run. * * Default: 2 * * @return minimum number of files in a single compaction run */ public int minMergeWidth() { return minMergeWidth(nativeHandle_); } /** * The maximum number of files in a single compaction run. * * Default: {@link Long#MAX_VALUE} * * @param maxMergeWidth maximum number of files in a single compaction run * * @return the reference to the current options. */ public CompactionOptionsUniversal setMaxMergeWidth(final int maxMergeWidth) { setMaxMergeWidth(nativeHandle_, maxMergeWidth); return this; } /** * The maximum number of files in a single compaction run. * * Default: {@link Long#MAX_VALUE} * * @return maximum number of files in a single compaction run */ public int maxMergeWidth() { return maxMergeWidth(nativeHandle_); } /** * The size amplification is defined as the amount (in percentage) of * additional storage needed to store a single byte of data in the database. * For example, a size amplification of 2% means that a database that * contains 100 bytes of user-data may occupy upto 102 bytes of * physical storage. By this definition, a fully compacted database has * a size amplification of 0%. Rocksdb uses the following heuristic * to calculate size amplification: it assumes that all files excluding * the earliest file contribute to the size amplification. * * Default: 200, which means that a 100 byte database could require upto * 300 bytes of storage. * * @param maxSizeAmplificationPercent the amount of additional storage needed * (as a percentage) to store a single byte in the database * * @return the reference to the current options. */ public CompactionOptionsUniversal setMaxSizeAmplificationPercent( final int maxSizeAmplificationPercent) { setMaxSizeAmplificationPercent(nativeHandle_, maxSizeAmplificationPercent); return this; } /** * The size amplification is defined as the amount (in percentage) of * additional storage needed to store a single byte of data in the database. * For example, a size amplification of 2% means that a database that * contains 100 bytes of user-data may occupy upto 102 bytes of * physical storage. By this definition, a fully compacted database has * a size amplification of 0%. Rocksdb uses the following heuristic * to calculate size amplification: it assumes that all files excluding * the earliest file contribute to the size amplification. * * Default: 200, which means that a 100 byte database could require upto * 300 bytes of storage. * * @return the amount of additional storage needed (as a percentage) to store * a single byte in the database */ public int maxSizeAmplificationPercent() { return maxSizeAmplificationPercent(nativeHandle_); } /** * If this option is set to be -1 (the default value), all the output files * will follow compression type specified. * * If this option is not negative, we will try to make sure compressed * size is just above this value. In normal cases, at least this percentage * of data will be compressed. * * When we are compacting to a new file, here is the criteria whether * it needs to be compressed: assuming here are the list of files sorted * by generation time: * A1...An B1...Bm C1...Ct * where A1 is the newest and Ct is the oldest, and we are going to compact * B1...Bm, we calculate the total size of all the files as total_size, as * well as the total size of C1...Ct as total_C, the compaction output file * will be compressed iff * total_C / total_size < this percentage * * Default: -1 * * @param compressionSizePercent percentage of size for compression * * @return the reference to the current options. */ public CompactionOptionsUniversal setCompressionSizePercent( final int compressionSizePercent) { setCompressionSizePercent(nativeHandle_, compressionSizePercent); return this; } /** * If this option is set to be -1 (the default value), all the output files * will follow compression type specified. * * If this option is not negative, we will try to make sure compressed * size is just above this value. In normal cases, at least this percentage * of data will be compressed. * * When we are compacting to a new file, here is the criteria whether * it needs to be compressed: assuming here are the list of files sorted * by generation time: * A1...An B1...Bm C1...Ct * where A1 is the newest and Ct is the oldest, and we are going to compact * B1...Bm, we calculate the total size of all the files as total_size, as * well as the total size of C1...Ct as total_C, the compaction output file * will be compressed iff * total_C / total_size < this percentage * * Default: -1 * * @return percentage of size for compression */ public int compressionSizePercent() { return compressionSizePercent(nativeHandle_); } /** * The algorithm used to stop picking files into a single compaction run * * Default: {@link CompactionStopStyle#CompactionStopStyleTotalSize} * * @param compactionStopStyle The compaction algorithm * * @return the reference to the current options. */ public CompactionOptionsUniversal setStopStyle( final CompactionStopStyle compactionStopStyle) { setStopStyle(nativeHandle_, compactionStopStyle.getValue()); return this; } /** * The algorithm used to stop picking files into a single compaction run * * Default: {@link CompactionStopStyle#CompactionStopStyleTotalSize} * * @return The compaction algorithm */ public CompactionStopStyle stopStyle() { return CompactionStopStyle.getCompactionStopStyle(stopStyle(nativeHandle_)); } /** * Option to optimize the universal multi level compaction by enabling * trivial move for non overlapping files. * * Default: false * * @param allowTrivialMove true if trivial move is allowed * * @return the reference to the current options. */ public CompactionOptionsUniversal setAllowTrivialMove( final boolean allowTrivialMove) { setAllowTrivialMove(nativeHandle_, allowTrivialMove); return this; } /** * Option to optimize the universal multi level compaction by enabling * trivial move for non overlapping files. * * Default: false * * @return true if trivial move is allowed */ public boolean allowTrivialMove() { return allowTrivialMove(nativeHandle_); } private native static long newCompactionOptionsUniversal(); @Override protected final native void disposeInternal(final long handle); private native void setSizeRatio(final long handle, final int sizeRatio); private native int sizeRatio(final long handle); private native void setMinMergeWidth( final long handle, final int minMergeWidth); private native int minMergeWidth(final long handle); private native void setMaxMergeWidth( final long handle, final int maxMergeWidth); private native int maxMergeWidth(final long handle); private native void setMaxSizeAmplificationPercent( final long handle, final int maxSizeAmplificationPercent); private native int maxSizeAmplificationPercent(final long handle); private native void setCompressionSizePercent( final long handle, final int compressionSizePercent); private native int compressionSizePercent(final long handle); private native void setStopStyle( final long handle, final byte stopStyle); private native byte stopStyle(final long handle); private native void setAllowTrivialMove( final long handle, final boolean allowTrivialMove); private native boolean allowTrivialMove(final long handle); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/CompactionPriority.java000066400000000000000000000037651337235545400255570ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * Compaction Priorities */ public enum CompactionPriority { /** * Slightly Prioritize larger files by size compensated by #deletes */ ByCompensatedSize((byte)0x0), /** * First compact files whose data's latest update time is oldest. * Try this if you only update some hot keys in small ranges. */ OldestLargestSeqFirst((byte)0x1), /** * First compact files whose range hasn't been compacted to the next level * for the longest. If your updates are random across the key space, * write amplification is slightly better with this option. */ OldestSmallestSeqFirst((byte)0x2), /** * First compact files whose ratio between overlapping size in next level * and its size is the smallest. It in many cases can optimize write * amplification. */ MinOverlappingRatio((byte)0x3); private final byte value; CompactionPriority(final byte value) { this.value = value; } /** * Returns the byte value of the enumerations value * * @return byte representation */ public byte getValue() { return value; } /** * Get CompactionPriority by byte value. * * @param value byte representation of CompactionPriority. * * @return {@link org.rocksdb.CompactionPriority} instance or null. * @throws java.lang.IllegalArgumentException if an invalid * value is provided. */ public static CompactionPriority getCompactionPriority(final byte value) { for (final CompactionPriority compactionPriority : CompactionPriority.values()) { if (compactionPriority.getValue() == value){ return compactionPriority; } } throw new IllegalArgumentException( "Illegal value provided for CompactionPriority."); } } rocksdb-5.17.2/java/src/main/java/org/rocksdb/CompactionStopStyle.java000066400000000000000000000024101337235545400256660ustar00rootroot00000000000000package org.rocksdb; /** * Algorithm used to make a compaction request stop picking new files * into a single compaction run */ public enum CompactionStopStyle { /** * Pick files of similar size */ CompactionStopStyleSimilarSize((byte)0x0), /** * Total size of picked files > next file */ CompactionStopStyleTotalSize((byte)0x1); private final byte value; CompactionStopStyle(final byte value) { this.value = value; } /** * Returns the byte value of the enumerations value * * @return byte representation */ public byte getValue() { return value; } /** * Get CompactionStopStyle by byte value. * * @param value byte representation of CompactionStopStyle. * * @return {@link org.rocksdb.CompactionStopStyle} instance or null. * @throws java.lang.IllegalArgumentException if an invalid * value is provided. */ public static CompactionStopStyle getCompactionStopStyle(final byte value) { for (final CompactionStopStyle compactionStopStyle : CompactionStopStyle.values()) { if (compactionStopStyle.getValue() == value){ return compactionStopStyle; } } throw new IllegalArgumentException( "Illegal value provided for CompactionStopStyle."); } } rocksdb-5.17.2/java/src/main/java/org/rocksdb/CompactionStyle.java000066400000000000000000000030761337235545400250310ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * Enum CompactionStyle * * RocksDB supports different styles of compaction. Available * compaction styles can be chosen using this enumeration. * *
      *
    1. LEVEL - Level based Compaction style
      2. *
    2. UNIVERSAL - Universal Compaction Style is a * compaction style, targeting the use cases requiring lower write * amplification, trading off read amplification and space * amplification.
      3. *
    3. FIFO - FIFO compaction style is the simplest * compaction strategy. It is suited for keeping event log data with * very low overhead (query log for example). It periodically deletes * the old data, so it's basically a TTL compaction style.
      4. *
    * * @see * Universal Compaction * @see * FIFO Compaction */ public enum CompactionStyle { LEVEL((byte) 0), UNIVERSAL((byte) 1), FIFO((byte) 2); private final byte value_; private CompactionStyle(byte value) { value_ = value; } /** * Returns the byte value of the enumerations value * * @return byte representation */ public byte getValue() { return value_; } } rocksdb-5.17.2/java/src/main/java/org/rocksdb/Comparator.java000066400000000000000000000020441337235545400240150ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * Base class for comparators which will receive * byte[] based access via org.rocksdb.Slice in their * compare method implementation. * * byte[] based slices perform better when small keys * are involved. When using larger keys consider * using @see org.rocksdb.DirectComparator */ public abstract class Comparator extends AbstractComparator { public Comparator(final ComparatorOptions copt) { super(copt); } @Override protected long initializeNative(final long... nativeParameterHandles) { return createNewComparator0(nativeParameterHandles[0]); } @Override final ComparatorType getComparatorType() { return ComparatorType.JAVA_COMPARATOR; } private native long createNewComparator0(final long comparatorOptionsHandle); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/ComparatorOptions.java000066400000000000000000000032461337235545400253760ustar00rootroot00000000000000package org.rocksdb; /** * This class controls the behaviour * of Java implementations of * AbstractComparator * * Note that dispose() must be called before a ComparatorOptions * instance becomes out-of-scope to release the allocated memory in C++. */ public class ComparatorOptions extends RocksObject { public ComparatorOptions() { super(newComparatorOptions()); } /** * Use adaptive mutex, which spins in the user space before resorting * to kernel. This could reduce context switch when the mutex is not * heavily contended. However, if the mutex is hot, we could end up * wasting spin time. * Default: false * * @return true if adaptive mutex is used. */ public boolean useAdaptiveMutex() { assert(isOwningHandle()); return useAdaptiveMutex(nativeHandle_); } /** * Use adaptive mutex, which spins in the user space before resorting * to kernel. This could reduce context switch when the mutex is not * heavily contended. However, if the mutex is hot, we could end up * wasting spin time. * Default: false * * @param useAdaptiveMutex true if adaptive mutex is used. * @return the reference to the current comparator options. */ public ComparatorOptions setUseAdaptiveMutex(final boolean useAdaptiveMutex) { assert (isOwningHandle()); setUseAdaptiveMutex(nativeHandle_, useAdaptiveMutex); return this; } private native static long newComparatorOptions(); private native boolean useAdaptiveMutex(final long handle); private native void setUseAdaptiveMutex(final long handle, final boolean useAdaptiveMutex); @Override protected final native void disposeInternal(final long handle); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/ComparatorType.java000066400000000000000000000024771337235545400246710ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; enum ComparatorType { JAVA_COMPARATOR((byte)0x0), JAVA_DIRECT_COMPARATOR((byte)0x1), JAVA_NATIVE_COMPARATOR_WRAPPER((byte)0x2); private final byte value; ComparatorType(final byte value) { this.value = value; } /** *

    Returns the byte value of the enumerations value.

    * * @return byte representation */ byte getValue() { return value; } /** *

    Get the ComparatorType enumeration value by * passing the byte identifier to this method.

    * * @param byteIdentifier of ComparatorType. * * @return ComparatorType instance. * * @throws IllegalArgumentException if the comparator type for the byteIdentifier * cannot be found */ static ComparatorType getComparatorType(final byte byteIdentifier) { for (final ComparatorType comparatorType : ComparatorType.values()) { if (comparatorType.getValue() == byteIdentifier) { return comparatorType; } } throw new IllegalArgumentException( "Illegal value provided for ComparatorType."); } } rocksdb-5.17.2/java/src/main/java/org/rocksdb/CompressionOptions.java000066400000000000000000000052311337235545400255640ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * Options for Compression */ public class CompressionOptions extends RocksObject { public CompressionOptions() { super(newCompressionOptions()); } public CompressionOptions setWindowBits(final int windowBits) { setWindowBits(nativeHandle_, windowBits); return this; } public int windowBits() { return windowBits(nativeHandle_); } public CompressionOptions setLevel(final int level) { setLevel(nativeHandle_, level); return this; } public int level() { return level(nativeHandle_); } public CompressionOptions setStrategy(final int strategy) { setStrategy(nativeHandle_, strategy); return this; } public int strategy() { return strategy(nativeHandle_); } /** * Maximum size of dictionary used to prime the compression library. Currently * this dictionary will be constructed by sampling the first output file in a * subcompaction when the target level is bottommost. This dictionary will be * loaded into the compression library before compressing/uncompressing each * data block of subsequent files in the subcompaction. Effectively, this * improves compression ratios when there are repetitions across data blocks. * * A value of 0 indicates the feature is disabled. * * Default: 0. * * @param maxDictBytes Maximum bytes to use for the dictionary * * @return the reference to the current options */ public CompressionOptions setMaxDictBytes(final int maxDictBytes) { setMaxDictBytes(nativeHandle_, maxDictBytes); return this; } /** * Maximum size of dictionary used to prime the compression library. * * @return The maximum bytes to use for the dictionary */ public int maxDictBytes() { return maxDictBytes(nativeHandle_); } private native static long newCompressionOptions(); @Override protected final native void disposeInternal(final long handle); private native void setWindowBits(final long handle, final int windowBits); private native int windowBits(final long handle); private native void setLevel(final long handle, final int level); private native int level(final long handle); private native void setStrategy(final long handle, final int strategy); private native int strategy(final long handle); private native void setMaxDictBytes(final long handle, final int maxDictBytes); private native int maxDictBytes(final long handle); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/CompressionType.java000066400000000000000000000056331337235545400250600ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * Enum CompressionType * *

    DB contents are stored in a set of blocks, each of which holds a * sequence of key,value pairs. Each block may be compressed before * being stored in a file. The following enum describes which * compression method (if any) is used to compress a block.

    */ public enum CompressionType { NO_COMPRESSION((byte) 0x0, null), SNAPPY_COMPRESSION((byte) 0x1, "snappy"), ZLIB_COMPRESSION((byte) 0x2, "z"), BZLIB2_COMPRESSION((byte) 0x3, "bzip2"), LZ4_COMPRESSION((byte) 0x4, "lz4"), LZ4HC_COMPRESSION((byte) 0x5, "lz4hc"), XPRESS_COMPRESSION((byte) 0x6, "xpress"), ZSTD_COMPRESSION((byte)0x7, "zstd"), DISABLE_COMPRESSION_OPTION((byte)0x7F, null); /** *

    Get the CompressionType enumeration value by * passing the library name to this method.

    * *

    If library cannot be found the enumeration * value {@code NO_COMPRESSION} will be returned.

    * * @param libraryName compression library name. * * @return CompressionType instance. */ public static CompressionType getCompressionType(String libraryName) { if (libraryName != null) { for (CompressionType compressionType : CompressionType.values()) { if (compressionType.getLibraryName() != null && compressionType.getLibraryName().equals(libraryName)) { return compressionType; } } } return CompressionType.NO_COMPRESSION; } /** *

    Get the CompressionType enumeration value by * passing the byte identifier to this method.

    * * @param byteIdentifier of CompressionType. * * @return CompressionType instance. * * @throws IllegalArgumentException If CompressionType cannot be found for the * provided byteIdentifier */ public static CompressionType getCompressionType(byte byteIdentifier) { for (final CompressionType compressionType : CompressionType.values()) { if (compressionType.getValue() == byteIdentifier) { return compressionType; } } throw new IllegalArgumentException( "Illegal value provided for CompressionType."); } /** *

    Returns the byte value of the enumerations value.

    * * @return byte representation */ public byte getValue() { return value_; } /** *

    Returns the library name of the compression type * identified by the enumeration value.

    * * @return library name */ public String getLibraryName() { return libraryName_; } CompressionType(final byte value, final String libraryName) { value_ = value; libraryName_ = libraryName; } private final byte value_; private final String libraryName_; } rocksdb-5.17.2/java/src/main/java/org/rocksdb/DBOptions.java000066400000000000000000001040361337235545400235530ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import java.nio.file.Paths; import java.util.*; /** * DBOptions to control the behavior of a database. It will be used * during the creation of a {@link org.rocksdb.RocksDB} (i.e., RocksDB.open()). * * If {@link #dispose()} function is not called, then it will be GC'd * automatically and native resources will be released as part of the process. */ public class DBOptions extends RocksObject implements DBOptionsInterface { static { RocksDB.loadLibrary(); } /** * Construct DBOptions. * * This constructor will create (by allocating a block of memory) * an {@code rocksdb::DBOptions} in the c++ side. */ public DBOptions() { super(newDBOptions()); numShardBits_ = DEFAULT_NUM_SHARD_BITS; } /** * Copy constructor for DBOptions. * * NOTE: This does a shallow copy, which means env, rate_limiter, sst_file_manager, * info_log and other pointers will be cloned! * * @param other The DBOptions to copy. */ public DBOptions(DBOptions other) { super(copyDBOptions(other.nativeHandle_)); this.env_ = other.env_; this.numShardBits_ = other.numShardBits_; this.rateLimiter_ = other.rateLimiter_; this.rowCache_ = other.rowCache_; } /** *

    Method to get a options instance by using pre-configured * property values. If one or many values are undefined in * the context of RocksDB the method will return a null * value.

    * *

    Note: Property keys can be derived from * getter methods within the options class. Example: the method * {@code allowMmapReads()} has a property key: * {@code allow_mmap_reads}.

    * * @param properties {@link java.util.Properties} instance. * * @return {@link org.rocksdb.DBOptions instance} * or null. * * @throws java.lang.IllegalArgumentException if null or empty * {@link java.util.Properties} instance is passed to the method call. */ public static DBOptions getDBOptionsFromProps( final Properties properties) { if (properties == null || properties.size() == 0) { throw new IllegalArgumentException( "Properties value must contain at least one value."); } DBOptions dbOptions = null; StringBuilder stringBuilder = new StringBuilder(); for (final String name : properties.stringPropertyNames()){ stringBuilder.append(name); stringBuilder.append("="); stringBuilder.append(properties.getProperty(name)); stringBuilder.append(";"); } long handle = getDBOptionsFromProps( stringBuilder.toString()); if (handle != 0){ dbOptions = new DBOptions(handle); } return dbOptions; } @Override public DBOptions optimizeForSmallDb() { optimizeForSmallDb(nativeHandle_); return this; } @Override public DBOptions setIncreaseParallelism( final int totalThreads) { assert(isOwningHandle()); setIncreaseParallelism(nativeHandle_, totalThreads); return this; } @Override public DBOptions setCreateIfMissing(final boolean flag) { assert(isOwningHandle()); setCreateIfMissing(nativeHandle_, flag); return this; } @Override public boolean createIfMissing() { assert(isOwningHandle()); return createIfMissing(nativeHandle_); } @Override public DBOptions setCreateMissingColumnFamilies( final boolean flag) { assert(isOwningHandle()); setCreateMissingColumnFamilies(nativeHandle_, flag); return this; } @Override public boolean createMissingColumnFamilies() { assert(isOwningHandle()); return createMissingColumnFamilies(nativeHandle_); } @Override public DBOptions setEnv(final Env env) { setEnv(nativeHandle_, env.nativeHandle_); this.env_ = env; return this; } @Override public Env getEnv() { return env_; } @Override public DBOptions setErrorIfExists( final boolean errorIfExists) { assert(isOwningHandle()); setErrorIfExists(nativeHandle_, errorIfExists); return this; } @Override public boolean errorIfExists() { assert(isOwningHandle()); return errorIfExists(nativeHandle_); } @Override public DBOptions setParanoidChecks( final boolean paranoidChecks) { assert(isOwningHandle()); setParanoidChecks(nativeHandle_, paranoidChecks); return this; } @Override public boolean paranoidChecks() { assert(isOwningHandle()); return paranoidChecks(nativeHandle_); } @Override public DBOptions setRateLimiter(final RateLimiter rateLimiter) { assert(isOwningHandle()); rateLimiter_ = rateLimiter; setRateLimiter(nativeHandle_, rateLimiter.nativeHandle_); return this; } @Override public DBOptions setSstFileManager(final SstFileManager sstFileManager) { assert(isOwningHandle()); setSstFileManager(nativeHandle_, sstFileManager.nativeHandle_); return this; } @Override public DBOptions setLogger(final Logger logger) { assert(isOwningHandle()); setLogger(nativeHandle_, logger.nativeHandle_); return this; } @Override public DBOptions setInfoLogLevel( final InfoLogLevel infoLogLevel) { assert(isOwningHandle()); setInfoLogLevel(nativeHandle_, infoLogLevel.getValue()); return this; } @Override public InfoLogLevel infoLogLevel() { assert(isOwningHandle()); return InfoLogLevel.getInfoLogLevel( infoLogLevel(nativeHandle_)); } @Override public DBOptions setMaxOpenFiles( final int maxOpenFiles) { assert(isOwningHandle()); setMaxOpenFiles(nativeHandle_, maxOpenFiles); return this; } @Override public int maxOpenFiles() { assert(isOwningHandle()); return maxOpenFiles(nativeHandle_); } @Override public DBOptions setMaxFileOpeningThreads(final int maxFileOpeningThreads) { assert(isOwningHandle()); setMaxFileOpeningThreads(nativeHandle_, maxFileOpeningThreads); return this; } @Override public int maxFileOpeningThreads() { assert(isOwningHandle()); return maxFileOpeningThreads(nativeHandle_); } @Override public DBOptions setMaxTotalWalSize( final long maxTotalWalSize) { assert(isOwningHandle()); setMaxTotalWalSize(nativeHandle_, maxTotalWalSize); return this; } @Override public long maxTotalWalSize() { assert(isOwningHandle()); return maxTotalWalSize(nativeHandle_); } @Override public DBOptions setStatistics(final Statistics statistics) { assert(isOwningHandle()); setStatistics(nativeHandle_, statistics.nativeHandle_); return this; } @Override public Statistics statistics() { assert(isOwningHandle()); final long statisticsNativeHandle = statistics(nativeHandle_); if(statisticsNativeHandle == 0) { return null; } else { return new Statistics(statisticsNativeHandle); } } @Override public DBOptions setUseFsync( final boolean useFsync) { assert(isOwningHandle()); setUseFsync(nativeHandle_, useFsync); return this; } @Override public boolean useFsync() { assert(isOwningHandle()); return useFsync(nativeHandle_); } @Override public DBOptions setDbPaths(final Collection dbPaths) { assert(isOwningHandle()); final int len = dbPaths.size(); final String paths[] = new String[len]; final long targetSizes[] = new long[len]; int i = 0; for(final DbPath dbPath : dbPaths) { paths[i] = dbPath.path.toString(); targetSizes[i] = dbPath.targetSize; i++; } setDbPaths(nativeHandle_, paths, targetSizes); return this; } @Override public List dbPaths() { final int len = (int)dbPathsLen(nativeHandle_); if(len == 0) { return Collections.emptyList(); } else { final String paths[] = new String[len]; final long targetSizes[] = new long[len]; dbPaths(nativeHandle_, paths, targetSizes); final List dbPaths = new ArrayList<>(); for(int i = 0; i < len; i++) { dbPaths.add(new DbPath(Paths.get(paths[i]), targetSizes[i])); } return dbPaths; } } @Override public DBOptions setDbLogDir( final String dbLogDir) { assert(isOwningHandle()); setDbLogDir(nativeHandle_, dbLogDir); return this; } @Override public String dbLogDir() { assert(isOwningHandle()); return dbLogDir(nativeHandle_); } @Override public DBOptions setWalDir( final String walDir) { assert(isOwningHandle()); setWalDir(nativeHandle_, walDir); return this; } @Override public String walDir() { assert(isOwningHandle()); return walDir(nativeHandle_); } @Override public DBOptions setDeleteObsoleteFilesPeriodMicros( final long micros) { assert(isOwningHandle()); setDeleteObsoleteFilesPeriodMicros(nativeHandle_, micros); return this; } @Override public long deleteObsoleteFilesPeriodMicros() { assert(isOwningHandle()); return deleteObsoleteFilesPeriodMicros(nativeHandle_); } @Override public void setBaseBackgroundCompactions( final int baseBackgroundCompactions) { assert(isOwningHandle()); setBaseBackgroundCompactions(nativeHandle_, baseBackgroundCompactions); } @Override public int baseBackgroundCompactions() { assert(isOwningHandle()); return baseBackgroundCompactions(nativeHandle_); } @Override public DBOptions setMaxBackgroundCompactions( final int maxBackgroundCompactions) { assert(isOwningHandle()); setMaxBackgroundCompactions(nativeHandle_, maxBackgroundCompactions); return this; } @Override public int maxBackgroundCompactions() { assert(isOwningHandle()); return maxBackgroundCompactions(nativeHandle_); } @Override public void setMaxSubcompactions(final int maxSubcompactions) { assert(isOwningHandle()); setMaxSubcompactions(nativeHandle_, maxSubcompactions); } @Override public int maxSubcompactions() { assert(isOwningHandle()); return maxSubcompactions(nativeHandle_); } @Override public DBOptions setMaxBackgroundFlushes( final int maxBackgroundFlushes) { assert(isOwningHandle()); setMaxBackgroundFlushes(nativeHandle_, maxBackgroundFlushes); return this; } @Override public int maxBackgroundFlushes() { assert(isOwningHandle()); return maxBackgroundFlushes(nativeHandle_); } @Override public DBOptions setMaxBackgroundJobs(final int maxBackgroundJobs) { assert(isOwningHandle()); setMaxBackgroundJobs(nativeHandle_, maxBackgroundJobs); return this; } @Override public int maxBackgroundJobs() { assert(isOwningHandle()); return maxBackgroundJobs(nativeHandle_); } @Override public DBOptions setMaxLogFileSize(final long maxLogFileSize) { assert(isOwningHandle()); setMaxLogFileSize(nativeHandle_, maxLogFileSize); return this; } @Override public long maxLogFileSize() { assert(isOwningHandle()); return maxLogFileSize(nativeHandle_); } @Override public DBOptions setLogFileTimeToRoll( final long logFileTimeToRoll) { assert(isOwningHandle()); setLogFileTimeToRoll(nativeHandle_, logFileTimeToRoll); return this; } @Override public long logFileTimeToRoll() { assert(isOwningHandle()); return logFileTimeToRoll(nativeHandle_); } @Override public DBOptions setKeepLogFileNum( final long keepLogFileNum) { assert(isOwningHandle()); setKeepLogFileNum(nativeHandle_, keepLogFileNum); return this; } @Override public long keepLogFileNum() { assert(isOwningHandle()); return keepLogFileNum(nativeHandle_); } @Override public DBOptions setRecycleLogFileNum(final long recycleLogFileNum) { assert(isOwningHandle()); setRecycleLogFileNum(nativeHandle_, recycleLogFileNum); return this; } @Override public long recycleLogFileNum() { assert(isOwningHandle()); return recycleLogFileNum(nativeHandle_); } @Override public DBOptions setMaxManifestFileSize( final long maxManifestFileSize) { assert(isOwningHandle()); setMaxManifestFileSize(nativeHandle_, maxManifestFileSize); return this; } @Override public long maxManifestFileSize() { assert(isOwningHandle()); return maxManifestFileSize(nativeHandle_); } @Override public DBOptions setTableCacheNumshardbits( final int tableCacheNumshardbits) { assert(isOwningHandle()); setTableCacheNumshardbits(nativeHandle_, tableCacheNumshardbits); return this; } @Override public int tableCacheNumshardbits() { assert(isOwningHandle()); return tableCacheNumshardbits(nativeHandle_); } @Override public DBOptions setWalTtlSeconds( final long walTtlSeconds) { assert(isOwningHandle()); setWalTtlSeconds(nativeHandle_, walTtlSeconds); return this; } @Override public long walTtlSeconds() { assert(isOwningHandle()); return walTtlSeconds(nativeHandle_); } @Override public DBOptions setWalSizeLimitMB( final long sizeLimitMB) { assert(isOwningHandle()); setWalSizeLimitMB(nativeHandle_, sizeLimitMB); return this; } @Override public long walSizeLimitMB() { assert(isOwningHandle()); return walSizeLimitMB(nativeHandle_); } @Override public DBOptions setManifestPreallocationSize( final long size) { assert(isOwningHandle()); setManifestPreallocationSize(nativeHandle_, size); return this; } @Override public long manifestPreallocationSize() { assert(isOwningHandle()); return manifestPreallocationSize(nativeHandle_); } @Override public DBOptions setUseDirectReads( final boolean useDirectReads) { assert(isOwningHandle()); setUseDirectReads(nativeHandle_, useDirectReads); return this; } @Override public boolean useDirectReads() { assert(isOwningHandle()); return useDirectReads(nativeHandle_); } @Override public DBOptions setUseDirectIoForFlushAndCompaction( final boolean useDirectIoForFlushAndCompaction) { assert(isOwningHandle()); setUseDirectIoForFlushAndCompaction(nativeHandle_, useDirectIoForFlushAndCompaction); return this; } @Override public boolean useDirectIoForFlushAndCompaction() { assert(isOwningHandle()); return useDirectIoForFlushAndCompaction(nativeHandle_); } @Override public DBOptions setAllowFAllocate(final boolean allowFAllocate) { assert(isOwningHandle()); setAllowFAllocate(nativeHandle_, allowFAllocate); return this; } @Override public boolean allowFAllocate() { assert(isOwningHandle()); return allowFAllocate(nativeHandle_); } @Override public DBOptions setAllowMmapReads( final boolean allowMmapReads) { assert(isOwningHandle()); setAllowMmapReads(nativeHandle_, allowMmapReads); return this; } @Override public boolean allowMmapReads() { assert(isOwningHandle()); return allowMmapReads(nativeHandle_); } @Override public DBOptions setAllowMmapWrites( final boolean allowMmapWrites) { assert(isOwningHandle()); setAllowMmapWrites(nativeHandle_, allowMmapWrites); return this; } @Override public boolean allowMmapWrites() { assert(isOwningHandle()); return allowMmapWrites(nativeHandle_); } @Override public DBOptions setIsFdCloseOnExec( final boolean isFdCloseOnExec) { assert(isOwningHandle()); setIsFdCloseOnExec(nativeHandle_, isFdCloseOnExec); return this; } @Override public boolean isFdCloseOnExec() { assert(isOwningHandle()); return isFdCloseOnExec(nativeHandle_); } @Override public DBOptions setStatsDumpPeriodSec( final int statsDumpPeriodSec) { assert(isOwningHandle()); setStatsDumpPeriodSec(nativeHandle_, statsDumpPeriodSec); return this; } @Override public int statsDumpPeriodSec() { assert(isOwningHandle()); return statsDumpPeriodSec(nativeHandle_); } @Override public DBOptions setAdviseRandomOnOpen( final boolean adviseRandomOnOpen) { assert(isOwningHandle()); setAdviseRandomOnOpen(nativeHandle_, adviseRandomOnOpen); return this; } @Override public boolean adviseRandomOnOpen() { return adviseRandomOnOpen(nativeHandle_); } @Override public DBOptions setDbWriteBufferSize(final long dbWriteBufferSize) { assert(isOwningHandle()); setDbWriteBufferSize(nativeHandle_, dbWriteBufferSize); return this; } @Override public long dbWriteBufferSize() { assert(isOwningHandle()); return dbWriteBufferSize(nativeHandle_); } @Override public DBOptions setAccessHintOnCompactionStart(final AccessHint accessHint) { assert(isOwningHandle()); setAccessHintOnCompactionStart(nativeHandle_, accessHint.getValue()); return this; } @Override public AccessHint accessHintOnCompactionStart() { assert(isOwningHandle()); return AccessHint.getAccessHint(accessHintOnCompactionStart(nativeHandle_)); } @Override public DBOptions setNewTableReaderForCompactionInputs( final boolean newTableReaderForCompactionInputs) { assert(isOwningHandle()); setNewTableReaderForCompactionInputs(nativeHandle_, newTableReaderForCompactionInputs); return this; } @Override public boolean newTableReaderForCompactionInputs() { assert(isOwningHandle()); return newTableReaderForCompactionInputs(nativeHandle_); } @Override public DBOptions setCompactionReadaheadSize(final long compactionReadaheadSize) { assert(isOwningHandle()); setCompactionReadaheadSize(nativeHandle_, compactionReadaheadSize); return this; } @Override public long compactionReadaheadSize() { assert(isOwningHandle()); return compactionReadaheadSize(nativeHandle_); } @Override public DBOptions setRandomAccessMaxBufferSize(final long randomAccessMaxBufferSize) { assert(isOwningHandle()); setRandomAccessMaxBufferSize(nativeHandle_, randomAccessMaxBufferSize); return this; } @Override public long randomAccessMaxBufferSize() { assert(isOwningHandle()); return randomAccessMaxBufferSize(nativeHandle_); } @Override public DBOptions setWritableFileMaxBufferSize(final long writableFileMaxBufferSize) { assert(isOwningHandle()); setWritableFileMaxBufferSize(nativeHandle_, writableFileMaxBufferSize); return this; } @Override public long writableFileMaxBufferSize() { assert(isOwningHandle()); return writableFileMaxBufferSize(nativeHandle_); } @Override public DBOptions setUseAdaptiveMutex( final boolean useAdaptiveMutex) { assert(isOwningHandle()); setUseAdaptiveMutex(nativeHandle_, useAdaptiveMutex); return this; } @Override public boolean useAdaptiveMutex() { assert(isOwningHandle()); return useAdaptiveMutex(nativeHandle_); } @Override public DBOptions setBytesPerSync( final long bytesPerSync) { assert(isOwningHandle()); setBytesPerSync(nativeHandle_, bytesPerSync); return this; } @Override public long bytesPerSync() { return bytesPerSync(nativeHandle_); } @Override public DBOptions setWalBytesPerSync(final long walBytesPerSync) { assert(isOwningHandle()); setWalBytesPerSync(nativeHandle_, walBytesPerSync); return this; } @Override public long walBytesPerSync() { assert(isOwningHandle()); return walBytesPerSync(nativeHandle_); } @Override public DBOptions setEnableThreadTracking(final boolean enableThreadTracking) { assert(isOwningHandle()); setEnableThreadTracking(nativeHandle_, enableThreadTracking); return this; } @Override public boolean enableThreadTracking() { assert(isOwningHandle()); return enableThreadTracking(nativeHandle_); } @Override public DBOptions setDelayedWriteRate(final long delayedWriteRate) { assert(isOwningHandle()); setDelayedWriteRate(nativeHandle_, delayedWriteRate); return this; } @Override public long delayedWriteRate(){ return delayedWriteRate(nativeHandle_); } @Override public DBOptions setAllowConcurrentMemtableWrite( final boolean allowConcurrentMemtableWrite) { setAllowConcurrentMemtableWrite(nativeHandle_, allowConcurrentMemtableWrite); return this; } @Override public boolean allowConcurrentMemtableWrite() { return allowConcurrentMemtableWrite(nativeHandle_); } @Override public DBOptions setEnableWriteThreadAdaptiveYield( final boolean enableWriteThreadAdaptiveYield) { setEnableWriteThreadAdaptiveYield(nativeHandle_, enableWriteThreadAdaptiveYield); return this; } @Override public boolean enableWriteThreadAdaptiveYield() { return enableWriteThreadAdaptiveYield(nativeHandle_); } @Override public DBOptions setWriteThreadMaxYieldUsec(final long writeThreadMaxYieldUsec) { setWriteThreadMaxYieldUsec(nativeHandle_, writeThreadMaxYieldUsec); return this; } @Override public long writeThreadMaxYieldUsec() { return writeThreadMaxYieldUsec(nativeHandle_); } @Override public DBOptions setWriteThreadSlowYieldUsec(final long writeThreadSlowYieldUsec) { setWriteThreadSlowYieldUsec(nativeHandle_, writeThreadSlowYieldUsec); return this; } @Override public long writeThreadSlowYieldUsec() { return writeThreadSlowYieldUsec(nativeHandle_); } @Override public DBOptions setSkipStatsUpdateOnDbOpen(final boolean skipStatsUpdateOnDbOpen) { assert(isOwningHandle()); setSkipStatsUpdateOnDbOpen(nativeHandle_, skipStatsUpdateOnDbOpen); return this; } @Override public boolean skipStatsUpdateOnDbOpen() { assert(isOwningHandle()); return skipStatsUpdateOnDbOpen(nativeHandle_); } @Override public DBOptions setWalRecoveryMode(final WALRecoveryMode walRecoveryMode) { assert(isOwningHandle()); setWalRecoveryMode(nativeHandle_, walRecoveryMode.getValue()); return this; } @Override public WALRecoveryMode walRecoveryMode() { assert(isOwningHandle()); return WALRecoveryMode.getWALRecoveryMode(walRecoveryMode(nativeHandle_)); } @Override public DBOptions setAllow2pc(final boolean allow2pc) { assert(isOwningHandle()); setAllow2pc(nativeHandle_, allow2pc); return this; } @Override public boolean allow2pc() { assert(isOwningHandle()); return allow2pc(nativeHandle_); } @Override public DBOptions setRowCache(final Cache rowCache) { assert(isOwningHandle()); setRowCache(nativeHandle_, rowCache.nativeHandle_); this.rowCache_ = rowCache; return this; } @Override public Cache rowCache() { assert(isOwningHandle()); return this.rowCache_; } @Override public DBOptions setFailIfOptionsFileError(final boolean failIfOptionsFileError) { assert(isOwningHandle()); setFailIfOptionsFileError(nativeHandle_, failIfOptionsFileError); return this; } @Override public boolean failIfOptionsFileError() { assert(isOwningHandle()); return failIfOptionsFileError(nativeHandle_); } @Override public DBOptions setDumpMallocStats(final boolean dumpMallocStats) { assert(isOwningHandle()); setDumpMallocStats(nativeHandle_, dumpMallocStats); return this; } @Override public boolean dumpMallocStats() { assert(isOwningHandle()); return dumpMallocStats(nativeHandle_); } @Override public DBOptions setAvoidFlushDuringRecovery(final boolean avoidFlushDuringRecovery) { assert(isOwningHandle()); setAvoidFlushDuringRecovery(nativeHandle_, avoidFlushDuringRecovery); return this; } @Override public boolean avoidFlushDuringRecovery() { assert(isOwningHandle()); return avoidFlushDuringRecovery(nativeHandle_); } @Override public DBOptions setAvoidFlushDuringShutdown(final boolean avoidFlushDuringShutdown) { assert(isOwningHandle()); setAvoidFlushDuringShutdown(nativeHandle_, avoidFlushDuringShutdown); return this; } @Override public boolean avoidFlushDuringShutdown() { assert(isOwningHandle()); return avoidFlushDuringShutdown(nativeHandle_); } static final int DEFAULT_NUM_SHARD_BITS = -1; /** *

    Private constructor to be used by * {@link #getDBOptionsFromProps(java.util.Properties)}

    * * @param nativeHandle native handle to DBOptions instance. */ private DBOptions(final long nativeHandle) { super(nativeHandle); } private static native long getDBOptionsFromProps( String optString); private native static long newDBOptions(); private native static long copyDBOptions(long handle); @Override protected final native void disposeInternal(final long handle); private native void optimizeForSmallDb(final long handle); private native void setIncreaseParallelism(long handle, int totalThreads); private native void setCreateIfMissing(long handle, boolean flag); private native boolean createIfMissing(long handle); private native void setCreateMissingColumnFamilies( long handle, boolean flag); private native boolean createMissingColumnFamilies(long handle); private native void setEnv(long handle, long envHandle); private native void setErrorIfExists(long handle, boolean errorIfExists); private native boolean errorIfExists(long handle); private native void setParanoidChecks( long handle, boolean paranoidChecks); private native boolean paranoidChecks(long handle); private native void setRateLimiter(long handle, long rateLimiterHandle); private native void setSstFileManager(final long handle, final long sstFileManagerHandle); private native void setLogger(long handle, long loggerHandle); private native void setInfoLogLevel(long handle, byte logLevel); private native byte infoLogLevel(long handle); private native void setMaxOpenFiles(long handle, int maxOpenFiles); private native int maxOpenFiles(long handle); private native void setMaxFileOpeningThreads(final long handle, final int maxFileOpeningThreads); private native int maxFileOpeningThreads(final long handle); private native void setMaxTotalWalSize(long handle, long maxTotalWalSize); private native long maxTotalWalSize(long handle); private native void setStatistics(final long handle, final long statisticsHandle); private native long statistics(final long handle); private native boolean useFsync(long handle); private native void setUseFsync(long handle, boolean useFsync); private native void setDbPaths(final long handle, final String[] paths, final long[] targetSizes); private native long dbPathsLen(final long handle); private native void dbPaths(final long handle, final String[] paths, final long[] targetSizes); private native void setDbLogDir(long handle, String dbLogDir); private native String dbLogDir(long handle); private native void setWalDir(long handle, String walDir); private native String walDir(long handle); private native void setDeleteObsoleteFilesPeriodMicros( long handle, long micros); private native long deleteObsoleteFilesPeriodMicros(long handle); private native void setBaseBackgroundCompactions(long handle, int baseBackgroundCompactions); private native int baseBackgroundCompactions(long handle); private native void setMaxBackgroundCompactions( long handle, int maxBackgroundCompactions); private native int maxBackgroundCompactions(long handle); private native void setMaxSubcompactions(long handle, int maxSubcompactions); private native int maxSubcompactions(long handle); private native void setMaxBackgroundFlushes( long handle, int maxBackgroundFlushes); private native int maxBackgroundFlushes(long handle); private native void setMaxBackgroundJobs(long handle, int maxBackgroundJobs); private native int maxBackgroundJobs(long handle); private native void setMaxLogFileSize(long handle, long maxLogFileSize) throws IllegalArgumentException; private native long maxLogFileSize(long handle); private native void setLogFileTimeToRoll( long handle, long logFileTimeToRoll) throws IllegalArgumentException; private native long logFileTimeToRoll(long handle); private native void setKeepLogFileNum(long handle, long keepLogFileNum) throws IllegalArgumentException; private native long keepLogFileNum(long handle); private native void setRecycleLogFileNum(long handle, long recycleLogFileNum); private native long recycleLogFileNum(long handle); private native void setMaxManifestFileSize( long handle, long maxManifestFileSize); private native long maxManifestFileSize(long handle); private native void setTableCacheNumshardbits( long handle, int tableCacheNumshardbits); private native int tableCacheNumshardbits(long handle); private native void setWalTtlSeconds(long handle, long walTtlSeconds); private native long walTtlSeconds(long handle); private native void setWalSizeLimitMB(long handle, long sizeLimitMB); private native long walSizeLimitMB(long handle); private native void setManifestPreallocationSize( long handle, long size) throws IllegalArgumentException; private native long manifestPreallocationSize(long handle); private native void setUseDirectReads(long handle, boolean useDirectReads); private native boolean useDirectReads(long handle); private native void setUseDirectIoForFlushAndCompaction( long handle, boolean useDirectIoForFlushAndCompaction); private native boolean useDirectIoForFlushAndCompaction(long handle); private native void setAllowFAllocate(final long handle, final boolean allowFAllocate); private native boolean allowFAllocate(final long handle); private native void setAllowMmapReads( long handle, boolean allowMmapReads); private native boolean allowMmapReads(long handle); private native void setAllowMmapWrites( long handle, boolean allowMmapWrites); private native boolean allowMmapWrites(long handle); private native void setIsFdCloseOnExec( long handle, boolean isFdCloseOnExec); private native boolean isFdCloseOnExec(long handle); private native void setStatsDumpPeriodSec( long handle, int statsDumpPeriodSec); private native int statsDumpPeriodSec(long handle); private native void setAdviseRandomOnOpen( long handle, boolean adviseRandomOnOpen); private native boolean adviseRandomOnOpen(long handle); private native void setDbWriteBufferSize(final long handle, final long dbWriteBufferSize); private native long dbWriteBufferSize(final long handle); private native void setAccessHintOnCompactionStart(final long handle, final byte accessHintOnCompactionStart); private native byte accessHintOnCompactionStart(final long handle); private native void setNewTableReaderForCompactionInputs(final long handle, final boolean newTableReaderForCompactionInputs); private native boolean newTableReaderForCompactionInputs(final long handle); private native void setCompactionReadaheadSize(final long handle, final long compactionReadaheadSize); private native long compactionReadaheadSize(final long handle); private native void setRandomAccessMaxBufferSize(final long handle, final long randomAccessMaxBufferSize); private native long randomAccessMaxBufferSize(final long handle); private native void setWritableFileMaxBufferSize(final long handle, final long writableFileMaxBufferSize); private native long writableFileMaxBufferSize(final long handle); private native void setUseAdaptiveMutex( long handle, boolean useAdaptiveMutex); private native boolean useAdaptiveMutex(long handle); private native void setBytesPerSync( long handle, long bytesPerSync); private native long bytesPerSync(long handle); private native void setWalBytesPerSync(long handle, long walBytesPerSync); private native long walBytesPerSync(long handle); private native void setEnableThreadTracking(long handle, boolean enableThreadTracking); private native boolean enableThreadTracking(long handle); private native void setDelayedWriteRate(long handle, long delayedWriteRate); private native long delayedWriteRate(long handle); private native void setAllowConcurrentMemtableWrite(long handle, boolean allowConcurrentMemtableWrite); private native boolean allowConcurrentMemtableWrite(long handle); private native void setEnableWriteThreadAdaptiveYield(long handle, boolean enableWriteThreadAdaptiveYield); private native boolean enableWriteThreadAdaptiveYield(long handle); private native void setWriteThreadMaxYieldUsec(long handle, long writeThreadMaxYieldUsec); private native long writeThreadMaxYieldUsec(long handle); private native void setWriteThreadSlowYieldUsec(long handle, long writeThreadSlowYieldUsec); private native long writeThreadSlowYieldUsec(long handle); private native void setSkipStatsUpdateOnDbOpen(final long handle, final boolean skipStatsUpdateOnDbOpen); private native boolean skipStatsUpdateOnDbOpen(final long handle); private native void setWalRecoveryMode(final long handle, final byte walRecoveryMode); private native byte walRecoveryMode(final long handle); private native void setAllow2pc(final long handle, final boolean allow2pc); private native boolean allow2pc(final long handle); private native void setRowCache(final long handle, final long row_cache_handle); private native void setFailIfOptionsFileError(final long handle, final boolean failIfOptionsFileError); private native boolean failIfOptionsFileError(final long handle); private native void setDumpMallocStats(final long handle, final boolean dumpMallocStats); private native boolean dumpMallocStats(final long handle); private native void setAvoidFlushDuringRecovery(final long handle, final boolean avoidFlushDuringRecovery); private native boolean avoidFlushDuringRecovery(final long handle); private native void setAvoidFlushDuringShutdown(final long handle, final boolean avoidFlushDuringShutdown); private native boolean avoidFlushDuringShutdown(final long handle); // instance variables // NOTE: If you add new member variables, please update the copy constructor above! private Env env_; private int numShardBits_; private RateLimiter rateLimiter_; private Cache rowCache_; } rocksdb-5.17.2/java/src/main/java/org/rocksdb/DBOptionsInterface.java000066400000000000000000001531201337235545400253720ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import java.util.Collection; import java.util.List; public interface DBOptionsInterface { /** * Use this if your DB is very small (like under 1GB) and you don't want to * spend lots of memory for memtables. * * @return the instance of the current object. */ T optimizeForSmallDb(); /** * Use the specified object to interact with the environment, * e.g. to read/write files, schedule background work, etc. * Default: {@link Env#getDefault()} * * @param env {@link Env} instance. * @return the instance of the current Options. */ T setEnv(final Env env); /** * Returns the set RocksEnv instance. * * @return {@link RocksEnv} instance set in the options. */ Env getEnv(); /** *

    By default, RocksDB uses only one background thread for flush and * compaction. Calling this function will set it up such that total of * `total_threads` is used.

    * *

    You almost definitely want to call this function if your system is * bottlenecked by RocksDB.

    * * @param totalThreads The total number of threads to be used by RocksDB. * A good value is the number of cores. * * @return the instance of the current Options */ T setIncreaseParallelism(int totalThreads); /** * If this value is set to true, then the database will be created * if it is missing during {@code RocksDB.open()}. * Default: false * * @param flag a flag indicating whether to create a database the * specified database in {@link RocksDB#open(org.rocksdb.Options, String)} operation * is missing. * @return the instance of the current Options * @see RocksDB#open(org.rocksdb.Options, String) */ T setCreateIfMissing(boolean flag); /** * Return true if the create_if_missing flag is set to true. * If true, the database will be created if it is missing. * * @return true if the createIfMissing option is set to true. * @see #setCreateIfMissing(boolean) */ boolean createIfMissing(); /** *

    If true, missing column families will be automatically created

    * *

    Default: false

    * * @param flag a flag indicating if missing column families shall be * created automatically. * @return true if missing column families shall be created automatically * on open. */ T setCreateMissingColumnFamilies(boolean flag); /** * Return true if the create_missing_column_families flag is set * to true. If true column families be created if missing. * * @return true if the createMissingColumnFamilies is set to * true. * @see #setCreateMissingColumnFamilies(boolean) */ boolean createMissingColumnFamilies(); /** * If true, an error will be thrown during RocksDB.open() if the * database already exists. * Default: false * * @param errorIfExists if true, an exception will be thrown * during {@code RocksDB.open()} if the database already exists. * @return the reference to the current option. * @see RocksDB#open(org.rocksdb.Options, String) */ T setErrorIfExists(boolean errorIfExists); /** * If true, an error will be thrown during RocksDB.open() if the * database already exists. * * @return if true, an error is raised when the specified database * already exists before open. */ boolean errorIfExists(); /** * If true, the implementation will do aggressive checking of the * data it is processing and will stop early if it detects any * errors. This may have unforeseen ramifications: for example, a * corruption of one DB entry may cause a large number of entries to * become unreadable or for the entire DB to become unopenable. * If any of the writes to the database fails (Put, Delete, Merge, Write), * the database will switch to read-only mode and fail all other * Write operations. * Default: true * * @param paranoidChecks a flag to indicate whether paranoid-check * is on. * @return the reference to the current option. */ T setParanoidChecks(boolean paranoidChecks); /** * If true, the implementation will do aggressive checking of the * data it is processing and will stop early if it detects any * errors. This may have unforeseen ramifications: for example, a * corruption of one DB entry may cause a large number of entries to * become unreadable or for the entire DB to become unopenable. * If any of the writes to the database fails (Put, Delete, Merge, Write), * the database will switch to read-only mode and fail all other * Write operations. * * @return a boolean indicating whether paranoid-check is on. */ boolean paranoidChecks(); /** * Use to control write rate of flush and compaction. Flush has higher * priority than compaction. Rate limiting is disabled if nullptr. * Default: nullptr * * @param rateLimiter {@link org.rocksdb.RateLimiter} instance. * @return the instance of the current object. * * @since 3.10.0 */ T setRateLimiter(RateLimiter rateLimiter); /** * Use to track SST files and control their file deletion rate. * * Features: * - Throttle the deletion rate of the SST files. * - Keep track the total size of all SST files. * - Set a maximum allowed space limit for SST files that when reached * the DB wont do any further flushes or compactions and will set the * background error. * - Can be shared between multiple dbs. * * Limitations: * - Only track and throttle deletes of SST files in * first db_path (db_name if db_paths is empty). * * @param sstFileManager The SST File Manager for the db. */ T setSstFileManager(SstFileManager sstFileManager); /** *

    Any internal progress/error information generated by * the db will be written to the Logger if it is non-nullptr, * or to a file stored in the same directory as the DB * contents if info_log is nullptr.

    * *

    Default: nullptr

    * * @param logger {@link Logger} instance. * @return the instance of the current object. */ T setLogger(Logger logger); /** *

    Sets the RocksDB log level. Default level is INFO

    * * @param infoLogLevel log level to set. * @return the instance of the current object. */ T setInfoLogLevel(InfoLogLevel infoLogLevel); /** *

    Returns currently set log level.

    * @return {@link org.rocksdb.InfoLogLevel} instance. */ InfoLogLevel infoLogLevel(); /** * Number of open files that can be used by the DB. You may need to * increase this if your database has a large working set. Value -1 means * files opened are always kept open. You can estimate number of files based * on {@code target_file_size_base} and {@code target_file_size_multiplier} * for level-based compaction. For universal-style compaction, you can usually * set it to -1. * Default: 5000 * * @param maxOpenFiles the maximum number of open files. * @return the instance of the current object. */ T setMaxOpenFiles(int maxOpenFiles); /** * Number of open files that can be used by the DB. You may need to * increase this if your database has a large working set. Value -1 means * files opened are always kept open. You can estimate number of files based * on {@code target_file_size_base} and {@code target_file_size_multiplier} * for level-based compaction. For universal-style compaction, you can usually * set it to -1. * * @return the maximum number of open files. */ int maxOpenFiles(); /** * If {@link #maxOpenFiles()} is -1, DB will open all files on DB::Open(). You * can use this option to increase the number of threads used to open the * files. * * Default: 16 * * @param maxFileOpeningThreads the maximum number of threads to use to * open files * * @return the reference to the current options. */ T setMaxFileOpeningThreads(int maxFileOpeningThreads); /** * If {@link #maxOpenFiles()} is -1, DB will open all files on DB::Open(). You * can use this option to increase the number of threads used to open the * files. * * Default: 16 * * @return the maximum number of threads to use to open files */ int maxFileOpeningThreads(); /** *

    Once write-ahead logs exceed this size, we will start forcing the * flush of column families whose memtables are backed by the oldest live * WAL file (i.e. the ones that are causing all the space amplification). *

    *

    If set to 0 (default), we will dynamically choose the WAL size limit to * be [sum of all write_buffer_size * max_write_buffer_number] * 2

    *

    This option takes effect only when there are more than one column family as * otherwise the wal size is dictated by the write_buffer_size.

    *

    Default: 0

    * * @param maxTotalWalSize max total wal size. * @return the instance of the current object. */ T setMaxTotalWalSize(long maxTotalWalSize); /** *

    Returns the max total wal size. Once write-ahead logs exceed this size, * we will start forcing the flush of column families whose memtables are * backed by the oldest live WAL file (i.e. the ones that are causing all * the space amplification).

    * *

    If set to 0 (default), we will dynamically choose the WAL size limit * to be [sum of all write_buffer_size * max_write_buffer_number] * 2 *

    * * @return max total wal size */ long maxTotalWalSize(); /** *

    Sets the statistics object which collects metrics about database operations. * Statistics objects should not be shared between DB instances as * it does not use any locks to prevent concurrent updates.

    * * @param statistics The statistics to set * * @return the instance of the current object. * * @see RocksDB#open(org.rocksdb.Options, String) */ T setStatistics(final Statistics statistics); /** *

    Returns statistics object.

    * * @return the instance of the statistics object or null if there is no * statistics object. * * @see #setStatistics(Statistics) */ Statistics statistics(); /** *

    If true, then every store to stable storage will issue a fsync.

    *

    If false, then every store to stable storage will issue a fdatasync. * This parameter should be set to true while storing data to * filesystem like ext3 that can lose files after a reboot.

    *

    Default: false

    * * @param useFsync a boolean flag to specify whether to use fsync * @return the instance of the current object. */ T setUseFsync(boolean useFsync); /** *

    If true, then every store to stable storage will issue a fsync.

    *

    If false, then every store to stable storage will issue a fdatasync. * This parameter should be set to true while storing data to * filesystem like ext3 that can lose files after a reboot.

    * * @return boolean value indicating if fsync is used. */ boolean useFsync(); /** * A list of paths where SST files can be put into, with its target size. * Newer data is placed into paths specified earlier in the vector while * older data gradually moves to paths specified later in the vector. * * For example, you have a flash device with 10GB allocated for the DB, * as well as a hard drive of 2TB, you should config it to be: * [{"/flash_path", 10GB}, {"/hard_drive", 2TB}] * * The system will try to guarantee data under each path is close to but * not larger than the target size. But current and future file sizes used * by determining where to place a file are based on best-effort estimation, * which means there is a chance that the actual size under the directory * is slightly more than target size under some workloads. User should give * some buffer room for those cases. * * If none of the paths has sufficient room to place a file, the file will * be placed to the last path anyway, despite to the target size. * * Placing newer data to earlier paths is also best-efforts. User should * expect user files to be placed in higher levels in some extreme cases. * * If left empty, only one path will be used, which is db_name passed when * opening the DB. * * Default: empty * * @param dbPaths the paths and target sizes * * @return the reference to the current options */ T setDbPaths(final Collection dbPaths); /** * A list of paths where SST files can be put into, with its target size. * Newer data is placed into paths specified earlier in the vector while * older data gradually moves to paths specified later in the vector. * * For example, you have a flash device with 10GB allocated for the DB, * as well as a hard drive of 2TB, you should config it to be: * [{"/flash_path", 10GB}, {"/hard_drive", 2TB}] * * The system will try to guarantee data under each path is close to but * not larger than the target size. But current and future file sizes used * by determining where to place a file are based on best-effort estimation, * which means there is a chance that the actual size under the directory * is slightly more than target size under some workloads. User should give * some buffer room for those cases. * * If none of the paths has sufficient room to place a file, the file will * be placed to the last path anyway, despite to the target size. * * Placing newer data to earlier paths is also best-efforts. User should * expect user files to be placed in higher levels in some extreme cases. * * If left empty, only one path will be used, which is db_name passed when * opening the DB. * * Default: {@link java.util.Collections#emptyList()} * * @return dbPaths the paths and target sizes */ List dbPaths(); /** * This specifies the info LOG dir. * If it is empty, the log files will be in the same dir as data. * If it is non empty, the log files will be in the specified dir, * and the db data dir's absolute path will be used as the log file * name's prefix. * * @param dbLogDir the path to the info log directory * @return the instance of the current object. */ T setDbLogDir(String dbLogDir); /** * Returns the directory of info log. * * If it is empty, the log files will be in the same dir as data. * If it is non empty, the log files will be in the specified dir, * and the db data dir's absolute path will be used as the log file * name's prefix. * * @return the path to the info log directory */ String dbLogDir(); /** * This specifies the absolute dir path for write-ahead logs (WAL). * If it is empty, the log files will be in the same dir as data, * dbname is used as the data dir by default * If it is non empty, the log files will be in kept the specified dir. * When destroying the db, * all log files in wal_dir and the dir itself is deleted * * @param walDir the path to the write-ahead-log directory. * @return the instance of the current object. */ T setWalDir(String walDir); /** * Returns the path to the write-ahead-logs (WAL) directory. * * If it is empty, the log files will be in the same dir as data, * dbname is used as the data dir by default * If it is non empty, the log files will be in kept the specified dir. * When destroying the db, * all log files in wal_dir and the dir itself is deleted * * @return the path to the write-ahead-logs (WAL) directory. */ String walDir(); /** * The periodicity when obsolete files get deleted. The default * value is 6 hours. The files that get out of scope by compaction * process will still get automatically delete on every compaction, * regardless of this setting * * @param micros the time interval in micros * @return the instance of the current object. */ T setDeleteObsoleteFilesPeriodMicros(long micros); /** * The periodicity when obsolete files get deleted. The default * value is 6 hours. The files that get out of scope by compaction * process will still get automatically delete on every compaction, * regardless of this setting * * @return the time interval in micros when obsolete files will be deleted. */ long deleteObsoleteFilesPeriodMicros(); /** * Suggested number of concurrent background compaction jobs, submitted to * the default LOW priority thread pool. * Default: 1 * * @param baseBackgroundCompactions Suggested number of background compaction * jobs * * @deprecated Use {@link #setMaxBackgroundJobs(int)} */ void setBaseBackgroundCompactions(int baseBackgroundCompactions); /** * Suggested number of concurrent background compaction jobs, submitted to * the default LOW priority thread pool. * Default: 1 * * @return Suggested number of background compaction jobs */ int baseBackgroundCompactions(); /** * Specifies the maximum number of concurrent background compaction jobs, * submitted to the default LOW priority thread pool. * If you're increasing this, also consider increasing number of threads in * LOW priority thread pool. For more information, see * Default: 1 * * @param maxBackgroundCompactions the maximum number of background * compaction jobs. * @return the instance of the current object. * * @see RocksEnv#setBackgroundThreads(int) * @see RocksEnv#setBackgroundThreads(int, int) * @see #maxBackgroundFlushes() */ T setMaxBackgroundCompactions(int maxBackgroundCompactions); /** * Returns the maximum number of concurrent background compaction jobs, * submitted to the default LOW priority thread pool. * When increasing this number, we may also want to consider increasing * number of threads in LOW priority thread pool. * Default: 1 * * @return the maximum number of concurrent background compaction jobs. * @see RocksEnv#setBackgroundThreads(int) * @see RocksEnv#setBackgroundThreads(int, int) * * @deprecated Use {@link #setMaxBackgroundJobs(int)} */ int maxBackgroundCompactions(); /** * This value represents the maximum number of threads that will * concurrently perform a compaction job by breaking it into multiple, * smaller ones that are run simultaneously. * Default: 1 (i.e. no subcompactions) * * @param maxSubcompactions The maximum number of threads that will * concurrently perform a compaction job */ void setMaxSubcompactions(int maxSubcompactions); /** * This value represents the maximum number of threads that will * concurrently perform a compaction job by breaking it into multiple, * smaller ones that are run simultaneously. * Default: 1 (i.e. no subcompactions) * * @return The maximum number of threads that will concurrently perform a * compaction job */ int maxSubcompactions(); /** * Specifies the maximum number of concurrent background flush jobs. * If you're increasing this, also consider increasing number of threads in * HIGH priority thread pool. For more information, see * Default: 1 * * @param maxBackgroundFlushes number of max concurrent flush jobs * @return the instance of the current object. * * @see RocksEnv#setBackgroundThreads(int) * @see RocksEnv#setBackgroundThreads(int, int) * @see #maxBackgroundCompactions() * * @deprecated Use {@link #setMaxBackgroundJobs(int)} */ T setMaxBackgroundFlushes(int maxBackgroundFlushes); /** * Returns the maximum number of concurrent background flush jobs. * If you're increasing this, also consider increasing number of threads in * HIGH priority thread pool. For more information, see * Default: 1 * * @return the maximum number of concurrent background flush jobs. * @see RocksEnv#setBackgroundThreads(int) * @see RocksEnv#setBackgroundThreads(int, int) */ int maxBackgroundFlushes(); /** * Specifies the maximum number of concurrent background jobs (both flushes * and compactions combined). * Default: 2 * * @param maxBackgroundJobs number of max concurrent background jobs * @return the instance of the current object. */ T setMaxBackgroundJobs(int maxBackgroundJobs); /** * Returns the maximum number of concurrent background jobs (both flushes * and compactions combined). * Default: 2 * * @return the maximum number of concurrent background jobs. */ int maxBackgroundJobs(); /** * Specifies the maximum size of a info log file. If the current log file * is larger than `max_log_file_size`, a new info log file will * be created. * If 0, all logs will be written to one log file. * * @param maxLogFileSize the maximum size of a info log file. * @return the instance of the current object. * @throws java.lang.IllegalArgumentException thrown on 32-Bit platforms * while overflowing the underlying platform specific value. */ T setMaxLogFileSize(long maxLogFileSize); /** * Returns the maximum size of a info log file. If the current log file * is larger than this size, a new info log file will be created. * If 0, all logs will be written to one log file. * * @return the maximum size of the info log file. */ long maxLogFileSize(); /** * Specifies the time interval for the info log file to roll (in seconds). * If specified with non-zero value, log file will be rolled * if it has been active longer than `log_file_time_to_roll`. * Default: 0 (disabled) * * @param logFileTimeToRoll the time interval in seconds. * @return the instance of the current object. * @throws java.lang.IllegalArgumentException thrown on 32-Bit platforms * while overflowing the underlying platform specific value. */ T setLogFileTimeToRoll(long logFileTimeToRoll); /** * Returns the time interval for the info log file to roll (in seconds). * If specified with non-zero value, log file will be rolled * if it has been active longer than `log_file_time_to_roll`. * Default: 0 (disabled) * * @return the time interval in seconds. */ long logFileTimeToRoll(); /** * Specifies the maximum number of info log files to be kept. * Default: 1000 * * @param keepLogFileNum the maximum number of info log files to be kept. * @return the instance of the current object. * @throws java.lang.IllegalArgumentException thrown on 32-Bit platforms * while overflowing the underlying platform specific value. */ T setKeepLogFileNum(long keepLogFileNum); /** * Returns the maximum number of info log files to be kept. * Default: 1000 * * @return the maximum number of info log files to be kept. */ long keepLogFileNum(); /** * Recycle log files. * * If non-zero, we will reuse previously written log files for new * logs, overwriting the old data. The value indicates how many * such files we will keep around at any point in time for later * use. * * This is more efficient because the blocks are already * allocated and fdatasync does not need to update the inode after * each write. * * Default: 0 * * @param recycleLogFileNum the number of log files to keep for recycling * * @return the reference to the current options */ T setRecycleLogFileNum(long recycleLogFileNum); /** * Recycle log files. * * If non-zero, we will reuse previously written log files for new * logs, overwriting the old data. The value indicates how many * such files we will keep around at any point in time for later * use. * * This is more efficient because the blocks are already * allocated and fdatasync does not need to update the inode after * each write. * * Default: 0 * * @return the number of log files kept for recycling */ long recycleLogFileNum(); /** * Manifest file is rolled over on reaching this limit. * The older manifest file be deleted. * The default value is MAX_INT so that roll-over does not take place. * * @param maxManifestFileSize the size limit of a manifest file. * @return the instance of the current object. */ T setMaxManifestFileSize(long maxManifestFileSize); /** * Manifest file is rolled over on reaching this limit. * The older manifest file be deleted. * The default value is MAX_INT so that roll-over does not take place. * * @return the size limit of a manifest file. */ long maxManifestFileSize(); /** * Number of shards used for table cache. * * @param tableCacheNumshardbits the number of chards * @return the instance of the current object. */ T setTableCacheNumshardbits(int tableCacheNumshardbits); /** * Number of shards used for table cache. * * @return the number of shards used for table cache. */ int tableCacheNumshardbits(); /** * {@link #walTtlSeconds()} and {@link #walSizeLimitMB()} affect how archived logs * will be deleted. *
      *
    1. If both set to 0, logs will be deleted asap and will not get into * the archive.
      2. *
    2. If WAL_ttl_seconds is 0 and WAL_size_limit_MB is not 0, * WAL files will be checked every 10 min and if total size is greater * then WAL_size_limit_MB, they will be deleted starting with the * earliest until size_limit is met. All empty files will be deleted.
      3. *
    3. If WAL_ttl_seconds is not 0 and WAL_size_limit_MB is 0, then * WAL files will be checked every WAL_ttl_secondsi / 2 and those that * are older than WAL_ttl_seconds will be deleted.
      4. *
    4. If both are not 0, WAL files will be checked every 10 min and both * checks will be performed with ttl being first.
      5. *
    * * @param walTtlSeconds the ttl seconds * @return the instance of the current object. * @see #setWalSizeLimitMB(long) */ T setWalTtlSeconds(long walTtlSeconds); /** * WalTtlSeconds() and walSizeLimitMB() affect how archived logs * will be deleted. *
      *
    1. If both set to 0, logs will be deleted asap and will not get into * the archive.
      2. *
    2. If WAL_ttl_seconds is 0 and WAL_size_limit_MB is not 0, * WAL files will be checked every 10 min and if total size is greater * then WAL_size_limit_MB, they will be deleted starting with the * earliest until size_limit is met. All empty files will be deleted.
      3. *
    3. If WAL_ttl_seconds is not 0 and WAL_size_limit_MB is 0, then * WAL files will be checked every WAL_ttl_secondsi / 2 and those that * are older than WAL_ttl_seconds will be deleted.
      4. *
    4. If both are not 0, WAL files will be checked every 10 min and both * checks will be performed with ttl being first.
      5. *
    * * @return the wal-ttl seconds * @see #walSizeLimitMB() */ long walTtlSeconds(); /** * WalTtlSeconds() and walSizeLimitMB() affect how archived logs * will be deleted. *
      *
    1. If both set to 0, logs will be deleted asap and will not get into * the archive.
      2. *
    2. If WAL_ttl_seconds is 0 and WAL_size_limit_MB is not 0, * WAL files will be checked every 10 min and if total size is greater * then WAL_size_limit_MB, they will be deleted starting with the * earliest until size_limit is met. All empty files will be deleted.
      3. *
    3. If WAL_ttl_seconds is not 0 and WAL_size_limit_MB is 0, then * WAL files will be checked every WAL_ttl_secondsi / 2 and those that * are older than WAL_ttl_seconds will be deleted.
      4. *
    4. If both are not 0, WAL files will be checked every 10 min and both * checks will be performed with ttl being first.
      5. *
    * * @param sizeLimitMB size limit in mega-bytes. * @return the instance of the current object. * @see #setWalSizeLimitMB(long) */ T setWalSizeLimitMB(long sizeLimitMB); /** * {@link #walTtlSeconds()} and {@code #walSizeLimitMB()} affect how archived logs * will be deleted. *
      *
    1. If both set to 0, logs will be deleted asap and will not get into * the archive.
      2. *
    2. If WAL_ttl_seconds is 0 and WAL_size_limit_MB is not 0, * WAL files will be checked every 10 min and if total size is greater * then WAL_size_limit_MB, they will be deleted starting with the * earliest until size_limit is met. All empty files will be deleted.
      3. *
    3. If WAL_ttl_seconds is not 0 and WAL_size_limit_MB is 0, then * WAL files will be checked every WAL_ttl_seconds i / 2 and those that * are older than WAL_ttl_seconds will be deleted.
      4. *
    4. If both are not 0, WAL files will be checked every 10 min and both * checks will be performed with ttl being first.
      5. *
    * @return size limit in mega-bytes. * @see #walSizeLimitMB() */ long walSizeLimitMB(); /** * Number of bytes to preallocate (via fallocate) the manifest * files. Default is 4mb, which is reasonable to reduce random IO * as well as prevent overallocation for mounts that preallocate * large amounts of data (such as xfs's allocsize option). * * @param size the size in byte * @return the instance of the current object. * @throws java.lang.IllegalArgumentException thrown on 32-Bit platforms * while overflowing the underlying platform specific value. */ T setManifestPreallocationSize(long size); /** * Number of bytes to preallocate (via fallocate) the manifest * files. Default is 4mb, which is reasonable to reduce random IO * as well as prevent overallocation for mounts that preallocate * large amounts of data (such as xfs's allocsize option). * * @return size in bytes. */ long manifestPreallocationSize(); /** * Enable the OS to use direct I/O for reading sst tables. * Default: false * * @param useDirectReads if true, then direct read is enabled * @return the instance of the current object. */ T setUseDirectReads(boolean useDirectReads); /** * Enable the OS to use direct I/O for reading sst tables. * Default: false * * @return if true, then direct reads are enabled */ boolean useDirectReads(); /** * Enable the OS to use direct reads and writes in flush and * compaction * Default: false * * @param useDirectIoForFlushAndCompaction if true, then direct * I/O will be enabled for background flush and compactions * @return the instance of the current object. */ T setUseDirectIoForFlushAndCompaction(boolean useDirectIoForFlushAndCompaction); /** * Enable the OS to use direct reads and writes in flush and * compaction * * @return if true, then direct I/O is enabled for flush and * compaction */ boolean useDirectIoForFlushAndCompaction(); /** * Whether fallocate calls are allowed * * @param allowFAllocate false if fallocate() calls are bypassed * * @return the reference to the current options. */ T setAllowFAllocate(boolean allowFAllocate); /** * Whether fallocate calls are allowed * * @return false if fallocate() calls are bypassed */ boolean allowFAllocate(); /** * Allow the OS to mmap file for reading sst tables. * Default: false * * @param allowMmapReads true if mmap reads are allowed. * @return the instance of the current object. */ T setAllowMmapReads(boolean allowMmapReads); /** * Allow the OS to mmap file for reading sst tables. * Default: false * * @return true if mmap reads are allowed. */ boolean allowMmapReads(); /** * Allow the OS to mmap file for writing. Default: false * * @param allowMmapWrites true if mmap writes are allowd. * @return the instance of the current object. */ T setAllowMmapWrites(boolean allowMmapWrites); /** * Allow the OS to mmap file for writing. Default: false * * @return true if mmap writes are allowed. */ boolean allowMmapWrites(); /** * Disable child process inherit open files. Default: true * * @param isFdCloseOnExec true if child process inheriting open * files is disabled. * @return the instance of the current object. */ T setIsFdCloseOnExec(boolean isFdCloseOnExec); /** * Disable child process inherit open files. Default: true * * @return true if child process inheriting open files is disabled. */ boolean isFdCloseOnExec(); /** * if not zero, dump rocksdb.stats to LOG every stats_dump_period_sec * Default: 600 (10 minutes) * * @param statsDumpPeriodSec time interval in seconds. * @return the instance of the current object. */ T setStatsDumpPeriodSec(int statsDumpPeriodSec); /** * If not zero, dump rocksdb.stats to LOG every stats_dump_period_sec * Default: 600 (10 minutes) * * @return time interval in seconds. */ int statsDumpPeriodSec(); /** * If set true, will hint the underlying file system that the file * access pattern is random, when a sst file is opened. * Default: true * * @param adviseRandomOnOpen true if hinting random access is on. * @return the instance of the current object. */ T setAdviseRandomOnOpen(boolean adviseRandomOnOpen); /** * If set true, will hint the underlying file system that the file * access pattern is random, when a sst file is opened. * Default: true * * @return true if hinting random access is on. */ boolean adviseRandomOnOpen(); /** * Amount of data to build up in memtables across all column * families before writing to disk. * * This is distinct from {@link ColumnFamilyOptions#writeBufferSize()}, * which enforces a limit for a single memtable. * * This feature is disabled by default. Specify a non-zero value * to enable it. * * Default: 0 (disabled) * * @param dbWriteBufferSize the size of the write buffer * * @return the reference to the current options. */ T setDbWriteBufferSize(long dbWriteBufferSize); /** * Amount of data to build up in memtables across all column * families before writing to disk. * * This is distinct from {@link ColumnFamilyOptions#writeBufferSize()}, * which enforces a limit for a single memtable. * * This feature is disabled by default. Specify a non-zero value * to enable it. * * Default: 0 (disabled) * * @return the size of the write buffer */ long dbWriteBufferSize(); /** * Specify the file access pattern once a compaction is started. * It will be applied to all input files of a compaction. * * Default: {@link AccessHint#NORMAL} * * @param accessHint The access hint * * @return the reference to the current options. */ T setAccessHintOnCompactionStart(final AccessHint accessHint); /** * Specify the file access pattern once a compaction is started. * It will be applied to all input files of a compaction. * * Default: {@link AccessHint#NORMAL} * * @return The access hint */ AccessHint accessHintOnCompactionStart(); /** * If true, always create a new file descriptor and new table reader * for compaction inputs. Turn this parameter on may introduce extra * memory usage in the table reader, if it allocates extra memory * for indexes. This will allow file descriptor prefetch options * to be set for compaction input files and not to impact file * descriptors for the same file used by user queries. * Suggest to enable {@link BlockBasedTableConfig#cacheIndexAndFilterBlocks()} * for this mode if using block-based table. * * Default: false * * @param newTableReaderForCompactionInputs true if a new file descriptor and * table reader should be created for compaction inputs * * @return the reference to the current options. */ T setNewTableReaderForCompactionInputs( boolean newTableReaderForCompactionInputs); /** * If true, always create a new file descriptor and new table reader * for compaction inputs. Turn this parameter on may introduce extra * memory usage in the table reader, if it allocates extra memory * for indexes. This will allow file descriptor prefetch options * to be set for compaction input files and not to impact file * descriptors for the same file used by user queries. * Suggest to enable {@link BlockBasedTableConfig#cacheIndexAndFilterBlocks()} * for this mode if using block-based table. * * Default: false * * @return true if a new file descriptor and table reader are created for * compaction inputs */ boolean newTableReaderForCompactionInputs(); /** * If non-zero, we perform bigger reads when doing compaction. If you're * running RocksDB on spinning disks, you should set this to at least 2MB. * * That way RocksDB's compaction is doing sequential instead of random reads. * When non-zero, we also force {@link #newTableReaderForCompactionInputs()} * to true. * * Default: 0 * * @param compactionReadaheadSize The compaction read-ahead size * * @return the reference to the current options. */ T setCompactionReadaheadSize(final long compactionReadaheadSize); /** * If non-zero, we perform bigger reads when doing compaction. If you're * running RocksDB on spinning disks, you should set this to at least 2MB. * * That way RocksDB's compaction is doing sequential instead of random reads. * When non-zero, we also force {@link #newTableReaderForCompactionInputs()} * to true. * * Default: 0 * * @return The compaction read-ahead size */ long compactionReadaheadSize(); /** * This is a maximum buffer size that is used by WinMmapReadableFile in * unbuffered disk I/O mode. We need to maintain an aligned buffer for * reads. We allow the buffer to grow until the specified value and then * for bigger requests allocate one shot buffers. In unbuffered mode we * always bypass read-ahead buffer at ReadaheadRandomAccessFile * When read-ahead is required we then make use of * {@link #compactionReadaheadSize()} value and always try to read ahead. * With read-ahead we always pre-allocate buffer to the size instead of * growing it up to a limit. * * This option is currently honored only on Windows * * Default: 1 Mb * * Special value: 0 - means do not maintain per instance buffer. Allocate * per request buffer and avoid locking. * * @param randomAccessMaxBufferSize the maximum size of the random access * buffer * * @return the reference to the current options. */ T setRandomAccessMaxBufferSize(long randomAccessMaxBufferSize); /** * This is a maximum buffer size that is used by WinMmapReadableFile in * unbuffered disk I/O mode. We need to maintain an aligned buffer for * reads. We allow the buffer to grow until the specified value and then * for bigger requests allocate one shot buffers. In unbuffered mode we * always bypass read-ahead buffer at ReadaheadRandomAccessFile * When read-ahead is required we then make use of * {@link #compactionReadaheadSize()} value and always try to read ahead. * With read-ahead we always pre-allocate buffer to the size instead of * growing it up to a limit. * * This option is currently honored only on Windows * * Default: 1 Mb * * Special value: 0 - means do not maintain per instance buffer. Allocate * per request buffer and avoid locking. * * @return the maximum size of the random access buffer */ long randomAccessMaxBufferSize(); /** * This is the maximum buffer size that is used by WritableFileWriter. * On Windows, we need to maintain an aligned buffer for writes. * We allow the buffer to grow until it's size hits the limit. * * Default: 1024 * 1024 (1 MB) * * @param writableFileMaxBufferSize the maximum buffer size * * @return the reference to the current options. */ T setWritableFileMaxBufferSize(long writableFileMaxBufferSize); /** * This is the maximum buffer size that is used by WritableFileWriter. * On Windows, we need to maintain an aligned buffer for writes. * We allow the buffer to grow until it's size hits the limit. * * Default: 1024 * 1024 (1 MB) * * @return the maximum buffer size */ long writableFileMaxBufferSize(); /** * Use adaptive mutex, which spins in the user space before resorting * to kernel. This could reduce context switch when the mutex is not * heavily contended. However, if the mutex is hot, we could end up * wasting spin time. * Default: false * * @param useAdaptiveMutex true if adaptive mutex is used. * @return the instance of the current object. */ T setUseAdaptiveMutex(boolean useAdaptiveMutex); /** * Use adaptive mutex, which spins in the user space before resorting * to kernel. This could reduce context switch when the mutex is not * heavily contended. However, if the mutex is hot, we could end up * wasting spin time. * Default: false * * @return true if adaptive mutex is used. */ boolean useAdaptiveMutex(); /** * Allows OS to incrementally sync files to disk while they are being * written, asynchronously, in the background. * Issue one request for every bytes_per_sync written. 0 turns it off. * Default: 0 * * @param bytesPerSync size in bytes * @return the instance of the current object. */ T setBytesPerSync(long bytesPerSync); /** * Allows OS to incrementally sync files to disk while they are being * written, asynchronously, in the background. * Issue one request for every bytes_per_sync written. 0 turns it off. * Default: 0 * * @return size in bytes */ long bytesPerSync(); /** * Same as {@link #setBytesPerSync(long)} , but applies to WAL files * * Default: 0, turned off * * @param walBytesPerSync size in bytes * @return the instance of the current object. */ T setWalBytesPerSync(long walBytesPerSync); /** * Same as {@link #bytesPerSync()} , but applies to WAL files * * Default: 0, turned off * * @return size in bytes */ long walBytesPerSync(); /** * If true, then the status of the threads involved in this DB will * be tracked and available via GetThreadList() API. * * Default: false * * @param enableThreadTracking true to enable tracking * * @return the reference to the current options. */ T setEnableThreadTracking(boolean enableThreadTracking); /** * If true, then the status of the threads involved in this DB will * be tracked and available via GetThreadList() API. * * Default: false * * @return true if tracking is enabled */ boolean enableThreadTracking(); /** * The limited write rate to DB if * {@link ColumnFamilyOptions#softPendingCompactionBytesLimit()} or * {@link ColumnFamilyOptions#level0SlowdownWritesTrigger()} is triggered, * or we are writing to the last mem table allowed and we allow more than 3 * mem tables. It is calculated using size of user write requests before * compression. RocksDB may decide to slow down more if the compaction still * gets behind further. * * Unit: bytes per second. * * Default: 16MB/s * * @param delayedWriteRate the rate in bytes per second * * @return the reference to the current options. */ T setDelayedWriteRate(long delayedWriteRate); /** * The limited write rate to DB if * {@link ColumnFamilyOptions#softPendingCompactionBytesLimit()} or * {@link ColumnFamilyOptions#level0SlowdownWritesTrigger()} is triggered, * or we are writing to the last mem table allowed and we allow more than 3 * mem tables. It is calculated using size of user write requests before * compression. RocksDB may decide to slow down more if the compaction still * gets behind further. * * Unit: bytes per second. * * Default: 16MB/s * * @return the rate in bytes per second */ long delayedWriteRate(); /** * If true, allow multi-writers to update mem tables in parallel. * Only some memtable factorys support concurrent writes; currently it * is implemented only for SkipListFactory. Concurrent memtable writes * are not compatible with inplace_update_support or filter_deletes. * It is strongly recommended to set * {@link #setEnableWriteThreadAdaptiveYield(boolean)} if you are going to use * this feature. * Default: false * * @param allowConcurrentMemtableWrite true to enable concurrent writes * for the memtable * * @return the reference to the current options. */ T setAllowConcurrentMemtableWrite(boolean allowConcurrentMemtableWrite); /** * If true, allow multi-writers to update mem tables in parallel. * Only some memtable factorys support concurrent writes; currently it * is implemented only for SkipListFactory. Concurrent memtable writes * are not compatible with inplace_update_support or filter_deletes. * It is strongly recommended to set * {@link #setEnableWriteThreadAdaptiveYield(boolean)} if you are going to use * this feature. * Default: false * * @return true if concurrent writes are enabled for the memtable */ boolean allowConcurrentMemtableWrite(); /** * If true, threads synchronizing with the write batch group leader will * wait for up to {@link #writeThreadMaxYieldUsec()} before blocking on a * mutex. This can substantially improve throughput for concurrent workloads, * regardless of whether {@link #allowConcurrentMemtableWrite()} is enabled. * Default: false * * @param enableWriteThreadAdaptiveYield true to enable adaptive yield for the * write threads * * @return the reference to the current options. */ T setEnableWriteThreadAdaptiveYield( boolean enableWriteThreadAdaptiveYield); /** * If true, threads synchronizing with the write batch group leader will * wait for up to {@link #writeThreadMaxYieldUsec()} before blocking on a * mutex. This can substantially improve throughput for concurrent workloads, * regardless of whether {@link #allowConcurrentMemtableWrite()} is enabled. * Default: false * * @return true if adaptive yield is enabled * for the writing threads */ boolean enableWriteThreadAdaptiveYield(); /** * The maximum number of microseconds that a write operation will use * a yielding spin loop to coordinate with other write threads before * blocking on a mutex. (Assuming {@link #writeThreadSlowYieldUsec()} is * set properly) increasing this value is likely to increase RocksDB * throughput at the expense of increased CPU usage. * Default: 100 * * @param writeThreadMaxYieldUsec maximum number of microseconds * * @return the reference to the current options. */ T setWriteThreadMaxYieldUsec(long writeThreadMaxYieldUsec); /** * The maximum number of microseconds that a write operation will use * a yielding spin loop to coordinate with other write threads before * blocking on a mutex. (Assuming {@link #writeThreadSlowYieldUsec()} is * set properly) increasing this value is likely to increase RocksDB * throughput at the expense of increased CPU usage. * Default: 100 * * @return the maximum number of microseconds */ long writeThreadMaxYieldUsec(); /** * The latency in microseconds after which a std::this_thread::yield * call (sched_yield on Linux) is considered to be a signal that * other processes or threads would like to use the current core. * Increasing this makes writer threads more likely to take CPU * by spinning, which will show up as an increase in the number of * involuntary context switches. * Default: 3 * * @param writeThreadSlowYieldUsec the latency in microseconds * * @return the reference to the current options. */ T setWriteThreadSlowYieldUsec(long writeThreadSlowYieldUsec); /** * The latency in microseconds after which a std::this_thread::yield * call (sched_yield on Linux) is considered to be a signal that * other processes or threads would like to use the current core. * Increasing this makes writer threads more likely to take CPU * by spinning, which will show up as an increase in the number of * involuntary context switches. * Default: 3 * * @return writeThreadSlowYieldUsec the latency in microseconds */ long writeThreadSlowYieldUsec(); /** * If true, then DB::Open() will not update the statistics used to optimize * compaction decision by loading table properties from many files. * Turning off this feature will improve DBOpen time especially in * disk environment. * * Default: false * * @param skipStatsUpdateOnDbOpen true if updating stats will be skipped * * @return the reference to the current options. */ T setSkipStatsUpdateOnDbOpen(boolean skipStatsUpdateOnDbOpen); /** * If true, then DB::Open() will not update the statistics used to optimize * compaction decision by loading table properties from many files. * Turning off this feature will improve DBOpen time especially in * disk environment. * * Default: false * * @return true if updating stats will be skipped */ boolean skipStatsUpdateOnDbOpen(); /** * Recovery mode to control the consistency while replaying WAL * * Default: {@link WALRecoveryMode#PointInTimeRecovery} * * @param walRecoveryMode The WAL recover mode * * @return the reference to the current options. */ T setWalRecoveryMode(WALRecoveryMode walRecoveryMode); /** * Recovery mode to control the consistency while replaying WAL * * Default: {@link WALRecoveryMode#PointInTimeRecovery} * * @return The WAL recover mode */ WALRecoveryMode walRecoveryMode(); /** * if set to false then recovery will fail when a prepared * transaction is encountered in the WAL * * Default: false * * @param allow2pc true if two-phase-commit is enabled * * @return the reference to the current options. */ T setAllow2pc(boolean allow2pc); /** * if set to false then recovery will fail when a prepared * transaction is encountered in the WAL * * Default: false * * @return true if two-phase-commit is enabled */ boolean allow2pc(); /** * A global cache for table-level rows. * * Default: null (disabled) * * @param rowCache The global row cache * * @return the reference to the current options. */ T setRowCache(final Cache rowCache); /** * A global cache for table-level rows. * * Default: null (disabled) * * @return The global row cache */ Cache rowCache(); /** * If true, then DB::Open / CreateColumnFamily / DropColumnFamily * / SetOptions will fail if options file is not detected or properly * persisted. * * DEFAULT: false * * @param failIfOptionsFileError true if we should fail if there is an error * in the options file * * @return the reference to the current options. */ T setFailIfOptionsFileError(boolean failIfOptionsFileError); /** * If true, then DB::Open / CreateColumnFamily / DropColumnFamily * / SetOptions will fail if options file is not detected or properly * persisted. * * DEFAULT: false * * @return true if we should fail if there is an error in the options file */ boolean failIfOptionsFileError(); /** * If true, then print malloc stats together with rocksdb.stats * when printing to LOG. * * DEFAULT: false * * @param dumpMallocStats true if malloc stats should be printed to LOG * * @return the reference to the current options. */ T setDumpMallocStats(boolean dumpMallocStats); /** * If true, then print malloc stats together with rocksdb.stats * when printing to LOG. * * DEFAULT: false * * @return true if malloc stats should be printed to LOG */ boolean dumpMallocStats(); /** * By default RocksDB replay WAL logs and flush them on DB open, which may * create very small SST files. If this option is enabled, RocksDB will try * to avoid (but not guarantee not to) flush during recovery. Also, existing * WAL logs will be kept, so that if crash happened before flush, we still * have logs to recover from. * * DEFAULT: false * * @param avoidFlushDuringRecovery true to try to avoid (but not guarantee * not to) flush during recovery * * @return the reference to the current options. */ T setAvoidFlushDuringRecovery(boolean avoidFlushDuringRecovery); /** * By default RocksDB replay WAL logs and flush them on DB open, which may * create very small SST files. If this option is enabled, RocksDB will try * to avoid (but not guarantee not to) flush during recovery. Also, existing * WAL logs will be kept, so that if crash happened before flush, we still * have logs to recover from. * * DEFAULT: false * * @return true to try to avoid (but not guarantee not to) flush during * recovery */ boolean avoidFlushDuringRecovery(); /** * By default RocksDB will flush all memtables on DB close if there are * unpersisted data (i.e. with WAL disabled) The flush can be skip to speedup * DB close. Unpersisted data WILL BE LOST. * * DEFAULT: false * * Dynamically changeable through * {@link RocksDB#setOptions(ColumnFamilyHandle, MutableColumnFamilyOptions)} * API. * * @param avoidFlushDuringShutdown true if we should avoid flush during * shutdown * * @return the reference to the current options. */ T setAvoidFlushDuringShutdown(boolean avoidFlushDuringShutdown); /** * By default RocksDB will flush all memtables on DB close if there are * unpersisted data (i.e. with WAL disabled) The flush can be skip to speedup * DB close. Unpersisted data WILL BE LOST. * * DEFAULT: false * * Dynamically changeable through * {@link RocksDB#setOptions(ColumnFamilyHandle, MutableColumnFamilyOptions)} * API. * * @return true if we should avoid flush during shutdown */ boolean avoidFlushDuringShutdown(); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/DbPath.java000066400000000000000000000021141337235545400230460ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import java.nio.file.Path; /** * Tuple of database path and target size */ public class DbPath { final Path path; final long targetSize; public DbPath(final Path path, final long targetSize) { this.path = path; this.targetSize = targetSize; } @Override public boolean equals(final Object o) { if (this == o) { return true; } if (o == null || getClass() != o.getClass()) { return false; } final DbPath dbPath = (DbPath) o; if (targetSize != dbPath.targetSize) { return false; } return path != null ? path.equals(dbPath.path) : dbPath.path == null; } @Override public int hashCode() { int result = path != null ? path.hashCode() : 0; result = 31 * result + (int) (targetSize ^ (targetSize >>> 32)); return result; } } rocksdb-5.17.2/java/src/main/java/org/rocksdb/DirectComparator.java000066400000000000000000000021311337235545400251450ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * Base class for comparators which will receive * ByteBuffer based access via org.rocksdb.DirectSlice * in their compare method implementation. * * ByteBuffer based slices perform better when large keys * are involved. When using smaller keys consider * using @see org.rocksdb.Comparator */ public abstract class DirectComparator extends AbstractComparator { public DirectComparator(final ComparatorOptions copt) { super(copt); } @Override protected long initializeNative(final long... nativeParameterHandles) { return createNewDirectComparator0(nativeParameterHandles[0]); } @Override final ComparatorType getComparatorType() { return ComparatorType.JAVA_DIRECT_COMPARATOR; } private native long createNewDirectComparator0( final long comparatorOptionsHandle); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/DirectSlice.java000066400000000000000000000076461337235545400241150ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import java.nio.ByteBuffer; /** * Base class for slices which will receive direct * ByteBuffer based access to the underlying data. * * ByteBuffer backed slices typically perform better with * larger keys and values. When using smaller keys and * values consider using @see org.rocksdb.Slice */ public class DirectSlice extends AbstractSlice { public final static DirectSlice NONE = new DirectSlice(); /** * Indicates whether we have to free the memory pointed to by the Slice */ private final boolean internalBuffer; private volatile boolean cleared = false; private volatile long internalBufferOffset = 0; /** * Called from JNI to construct a new Java DirectSlice * without an underlying C++ object set * at creation time. * * Note: You should be aware that it is intentionally marked as * package-private. This is so that developers cannot construct their own * default DirectSlice objects (at present). As developers cannot construct * their own DirectSlice objects through this, they are not creating * underlying C++ DirectSlice objects, and so there is nothing to free * (dispose) from Java. */ DirectSlice() { super(); this.internalBuffer = false; } /** * Constructs a slice * where the data is taken from * a String. * * @param str The string */ public DirectSlice(final String str) { super(createNewSliceFromString(str)); this.internalBuffer = true; } /** * Constructs a slice where the data is * read from the provided * ByteBuffer up to a certain length * * @param data The buffer containing the data * @param length The length of the data to use for the slice */ public DirectSlice(final ByteBuffer data, final int length) { super(createNewDirectSlice0(ensureDirect(data), length)); this.internalBuffer = false; } /** * Constructs a slice where the data is * read from the provided * ByteBuffer * * @param data The bugger containing the data */ public DirectSlice(final ByteBuffer data) { super(createNewDirectSlice1(ensureDirect(data))); this.internalBuffer = false; } private static ByteBuffer ensureDirect(final ByteBuffer data) { if(!data.isDirect()) { throw new IllegalArgumentException("The ByteBuffer must be direct"); } return data; } /** * Retrieves the byte at a specific offset * from the underlying data * * @param offset The (zero-based) offset of the byte to retrieve * * @return the requested byte */ public byte get(final int offset) { return get0(getNativeHandle(), offset); } @Override public void clear() { clear0(getNativeHandle(), !cleared && internalBuffer, internalBufferOffset); cleared = true; } @Override public void removePrefix(final int n) { removePrefix0(getNativeHandle(), n); this.internalBufferOffset += n; } @Override protected void disposeInternal() { final long nativeHandle = getNativeHandle(); if(!cleared && internalBuffer) { disposeInternalBuf(nativeHandle, internalBufferOffset); } disposeInternal(nativeHandle); } private native static long createNewDirectSlice0(final ByteBuffer data, final int length); private native static long createNewDirectSlice1(final ByteBuffer data); @Override protected final native ByteBuffer data0(long handle); private native byte get0(long handle, int offset); private native void clear0(long handle, boolean internalBuffer, long internalBufferOffset); private native void removePrefix0(long handle, int length); private native void disposeInternalBuf(final long handle, long internalBufferOffset); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/EncodingType.java000066400000000000000000000034501337235545400243000ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * EncodingType * *

    The value will determine how to encode keys * when writing to a new SST file.

    * *

    This value will be stored * inside the SST file which will be used when reading from * the file, which makes it possible for users to choose * different encoding type when reopening a DB. Files with * different encoding types can co-exist in the same DB and * can be read.

    */ public enum EncodingType { /** * Always write full keys without any special encoding. */ kPlain((byte) 0), /** *

    Find opportunity to write the same prefix once for multiple rows. * In some cases, when a key follows a previous key with the same prefix, * instead of writing out the full key, it just writes out the size of the * shared prefix, as well as other bytes, to save some bytes.

    * *

    When using this option, the user is required to use the same prefix * extractor to make sure the same prefix will be extracted from the same key. * The Name() value of the prefix extractor will be stored in the file. When * reopening the file, the name of the options.prefix_extractor given will be * bitwise compared to the prefix extractors stored in the file. An error * will be returned if the two don't match.

    */ kPrefix((byte) 1); /** * Returns the byte value of the enumerations value * * @return byte representation */ public byte getValue() { return value_; } private EncodingType(byte value) { value_ = value; } private final byte value_; } rocksdb-5.17.2/java/src/main/java/org/rocksdb/Env.java000066400000000000000000000053131337235545400224400ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * Base class for all Env implementations in RocksDB. */ public abstract class Env extends RocksObject { public static final int FLUSH_POOL = 0; public static final int COMPACTION_POOL = 1; /** *

    Returns the default environment suitable for the current operating * system.

    * *

    The result of {@code getDefault()} is a singleton whose ownership * belongs to rocksdb c++. As a result, the returned RocksEnv will not * have the ownership of its c++ resource, and calling its dispose() * will be no-op.

    * * @return the default {@link org.rocksdb.RocksEnv} instance. */ public static Env getDefault() { return default_env_; } /** *

    Sets the number of background worker threads of the flush pool * for this environment.

    *

    Default number: 1

    * * @param num the number of threads * * @return current {@link RocksEnv} instance. */ public Env setBackgroundThreads(final int num) { return setBackgroundThreads(num, FLUSH_POOL); } /** *

    Sets the number of background worker threads of the specified thread * pool for this environment.

    * * @param num the number of threads * @param poolID the id to specified a thread pool. Should be either * FLUSH_POOL or COMPACTION_POOL. * *

    Default number: 1

    * @return current {@link RocksEnv} instance. */ public Env setBackgroundThreads(final int num, final int poolID) { setBackgroundThreads(nativeHandle_, num, poolID); return this; } /** *

    Returns the length of the queue associated with the specified * thread pool.

    * * @param poolID the id to specified a thread pool. Should be either * FLUSH_POOL or COMPACTION_POOL. * * @return the thread pool queue length. */ public int getThreadPoolQueueLen(final int poolID) { return getThreadPoolQueueLen(nativeHandle_, poolID); } protected Env(final long nativeHandle) { super(nativeHandle); } static { default_env_ = new RocksEnv(getDefaultEnvInternal()); } /** *

    The static default Env. The ownership of its native handle * belongs to rocksdb c++ and is not able to be released on the Java * side.

    */ static Env default_env_; private static native long getDefaultEnvInternal(); private native void setBackgroundThreads( long handle, int num, int priority); private native int getThreadPoolQueueLen(long handle, int poolID); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/EnvOptions.java000066400000000000000000000137701337235545400240220ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; public class EnvOptions extends RocksObject { static { RocksDB.loadLibrary(); } public EnvOptions() { super(newEnvOptions()); } public EnvOptions setUseOsBuffer(final boolean useOsBuffer) { setUseOsBuffer(nativeHandle_, useOsBuffer); return this; } public boolean useOsBuffer() { assert(isOwningHandle()); return useOsBuffer(nativeHandle_); } public EnvOptions setUseMmapReads(final boolean useMmapReads) { setUseMmapReads(nativeHandle_, useMmapReads); return this; } public boolean useMmapReads() { assert(isOwningHandle()); return useMmapReads(nativeHandle_); } public EnvOptions setUseMmapWrites(final boolean useMmapWrites) { setUseMmapWrites(nativeHandle_, useMmapWrites); return this; } public boolean useMmapWrites() { assert(isOwningHandle()); return useMmapWrites(nativeHandle_); } public EnvOptions setUseDirectReads(final boolean useDirectReads) { setUseDirectReads(nativeHandle_, useDirectReads); return this; } public boolean useDirectReads() { assert(isOwningHandle()); return useDirectReads(nativeHandle_); } public EnvOptions setUseDirectWrites(final boolean useDirectWrites) { setUseDirectWrites(nativeHandle_, useDirectWrites); return this; } public boolean useDirectWrites() { assert(isOwningHandle()); return useDirectWrites(nativeHandle_); } public EnvOptions setAllowFallocate(final boolean allowFallocate) { setAllowFallocate(nativeHandle_, allowFallocate); return this; } public boolean allowFallocate() { assert(isOwningHandle()); return allowFallocate(nativeHandle_); } public EnvOptions setSetFdCloexec(final boolean setFdCloexec) { setSetFdCloexec(nativeHandle_, setFdCloexec); return this; } public boolean setFdCloexec() { assert(isOwningHandle()); return setFdCloexec(nativeHandle_); } public EnvOptions setBytesPerSync(final long bytesPerSync) { setBytesPerSync(nativeHandle_, bytesPerSync); return this; } public long bytesPerSync() { assert(isOwningHandle()); return bytesPerSync(nativeHandle_); } public EnvOptions setFallocateWithKeepSize(final boolean fallocateWithKeepSize) { setFallocateWithKeepSize(nativeHandle_, fallocateWithKeepSize); return this; } public boolean fallocateWithKeepSize() { assert(isOwningHandle()); return fallocateWithKeepSize(nativeHandle_); } public EnvOptions setCompactionReadaheadSize(final long compactionReadaheadSize) { setCompactionReadaheadSize(nativeHandle_, compactionReadaheadSize); return this; } public long compactionReadaheadSize() { assert(isOwningHandle()); return compactionReadaheadSize(nativeHandle_); } public EnvOptions setRandomAccessMaxBufferSize(final long randomAccessMaxBufferSize) { setRandomAccessMaxBufferSize(nativeHandle_, randomAccessMaxBufferSize); return this; } public long randomAccessMaxBufferSize() { assert(isOwningHandle()); return randomAccessMaxBufferSize(nativeHandle_); } public EnvOptions setWritableFileMaxBufferSize(final long writableFileMaxBufferSize) { setWritableFileMaxBufferSize(nativeHandle_, writableFileMaxBufferSize); return this; } public long writableFileMaxBufferSize() { assert(isOwningHandle()); return writableFileMaxBufferSize(nativeHandle_); } public EnvOptions setRateLimiter(final RateLimiter rateLimiter) { this.rateLimiter = rateLimiter; setRateLimiter(nativeHandle_, rateLimiter.nativeHandle_); return this; } public RateLimiter rateLimiter() { assert(isOwningHandle()); return rateLimiter; } private native static long newEnvOptions(); @Override protected final native void disposeInternal(final long handle); private native void setUseOsBuffer(final long handle, final boolean useOsBuffer); private native boolean useOsBuffer(final long handle); private native void setUseMmapReads(final long handle, final boolean useMmapReads); private native boolean useMmapReads(final long handle); private native void setUseMmapWrites(final long handle, final boolean useMmapWrites); private native boolean useMmapWrites(final long handle); private native void setUseDirectReads(final long handle, final boolean useDirectReads); private native boolean useDirectReads(final long handle); private native void setUseDirectWrites(final long handle, final boolean useDirectWrites); private native boolean useDirectWrites(final long handle); private native void setAllowFallocate(final long handle, final boolean allowFallocate); private native boolean allowFallocate(final long handle); private native void setSetFdCloexec(final long handle, final boolean setFdCloexec); private native boolean setFdCloexec(final long handle); private native void setBytesPerSync(final long handle, final long bytesPerSync); private native long bytesPerSync(final long handle); private native void setFallocateWithKeepSize( final long handle, final boolean fallocateWithKeepSize); private native boolean fallocateWithKeepSize(final long handle); private native void setCompactionReadaheadSize( final long handle, final long compactionReadaheadSize); private native long compactionReadaheadSize(final long handle); private native void setRandomAccessMaxBufferSize( final long handle, final long randomAccessMaxBufferSize); private native long randomAccessMaxBufferSize(final long handle); private native void setWritableFileMaxBufferSize( final long handle, final long writableFileMaxBufferSize); private native long writableFileMaxBufferSize(final long handle); private native void setRateLimiter(final long handle, final long rateLimiterHandle); private RateLimiter rateLimiter; } rocksdb-5.17.2/java/src/main/java/org/rocksdb/Experimental.java000066400000000000000000000013741337235545400243500ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import java.lang.annotation.ElementType; import java.lang.annotation.Documented; import java.lang.annotation.Retention; import java.lang.annotation.RetentionPolicy; import java.lang.annotation.Target; /** * Marks a feature as experimental, meaning that it is likely * to change or even be removed/re-engineered in the future */ @Documented @Retention(RetentionPolicy.SOURCE) @Target({ElementType.TYPE, ElementType.METHOD}) public @interface Experimental { String value(); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/Filter.java000066400000000000000000000020771337235545400231410ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * Filters are stored in rocksdb and are consulted automatically * by rocksdb to decide whether or not to read some * information from disk. In many cases, a filter can cut down the * number of disk seeks form a handful to a single disk seek per * DB::Get() call. */ public abstract class Filter extends RocksObject { protected Filter(final long nativeHandle) { super(nativeHandle); } /** * Deletes underlying C++ filter pointer. * * Note that this function should be called only after all * RocksDB instances referencing the filter are closed. * Otherwise an undefined behavior will occur. */ @Override protected void disposeInternal() { disposeInternal(nativeHandle_); } @Override protected final native void disposeInternal(final long handle); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/FlushOptions.java000066400000000000000000000023761337235545400243530ustar00rootroot00000000000000package org.rocksdb; /** * FlushOptions to be passed to flush operations of * {@link org.rocksdb.RocksDB}. */ public class FlushOptions extends RocksObject { static { RocksDB.loadLibrary(); } /** * Construct a new instance of FlushOptions. */ public FlushOptions(){ super(newFlushOptions()); } /** * Set if the flush operation shall block until it terminates. * * @param waitForFlush boolean value indicating if the flush * operations waits for termination of the flush process. * * @return instance of current FlushOptions. */ public FlushOptions setWaitForFlush(final boolean waitForFlush) { assert(isOwningHandle()); setWaitForFlush(nativeHandle_, waitForFlush); return this; } /** * Wait for flush to finished. * * @return boolean value indicating if the flush operation * waits for termination of the flush process. */ public boolean waitForFlush() { assert(isOwningHandle()); return waitForFlush(nativeHandle_); } private native static long newFlushOptions(); @Override protected final native void disposeInternal(final long handle); private native void setWaitForFlush(long handle, boolean wait); private native boolean waitForFlush(long handle); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/HashLinkedListMemTableConfig.java000066400000000000000000000126211337235545400273130ustar00rootroot00000000000000package org.rocksdb; /** * The config for hash linked list memtable representation * Such memtable contains a fix-sized array of buckets, where * each bucket points to a sorted singly-linked * list (or null if the bucket is empty). * * Note that since this mem-table representation relies on the * key prefix, it is required to invoke one of the usePrefixExtractor * functions to specify how to extract key prefix given a key. * If proper prefix-extractor is not set, then RocksDB will * use the default memtable representation (SkipList) instead * and post a warning in the LOG. */ public class HashLinkedListMemTableConfig extends MemTableConfig { public static final long DEFAULT_BUCKET_COUNT = 50000; public static final long DEFAULT_HUGE_PAGE_TLB_SIZE = 0; public static final int DEFAULT_BUCKET_ENTRIES_LOG_THRES = 4096; public static final boolean DEFAULT_IF_LOG_BUCKET_DIST_WHEN_FLUSH = true; public static final int DEFAUL_THRESHOLD_USE_SKIPLIST = 256; /** * HashLinkedListMemTableConfig constructor */ public HashLinkedListMemTableConfig() { bucketCount_ = DEFAULT_BUCKET_COUNT; hugePageTlbSize_ = DEFAULT_HUGE_PAGE_TLB_SIZE; bucketEntriesLoggingThreshold_ = DEFAULT_BUCKET_ENTRIES_LOG_THRES; ifLogBucketDistWhenFlush_ = DEFAULT_IF_LOG_BUCKET_DIST_WHEN_FLUSH; thresholdUseSkiplist_ = DEFAUL_THRESHOLD_USE_SKIPLIST; } /** * Set the number of buckets in the fixed-size array used * in the hash linked-list mem-table. * * @param count the number of hash buckets. * @return the reference to the current HashLinkedListMemTableConfig. */ public HashLinkedListMemTableConfig setBucketCount( final long count) { bucketCount_ = count; return this; } /** * Returns the number of buckets that will be used in the memtable * created based on this config. * * @return the number of buckets */ public long bucketCount() { return bucketCount_; } /** *

    Set the size of huge tlb or allocate the hashtable bytes from * malloc if {@code size <= 0}.

    * *

    The user needs to reserve huge pages for it to be allocated, * like: {@code sysctl -w vm.nr_hugepages=20}

    * *

    See linux documentation/vm/hugetlbpage.txt

    * * @param size if set to {@code <= 0} hashtable bytes from malloc * @return the reference to the current HashLinkedListMemTableConfig. */ public HashLinkedListMemTableConfig setHugePageTlbSize( final long size) { hugePageTlbSize_ = size; return this; } /** * Returns the size value of hugePageTlbSize. * * @return the hugePageTlbSize. */ public long hugePageTlbSize() { return hugePageTlbSize_; } /** * If number of entries in one bucket exceeds that setting, log * about it. * * @param threshold - number of entries in a single bucket before * logging starts. * @return the reference to the current HashLinkedListMemTableConfig. */ public HashLinkedListMemTableConfig setBucketEntriesLoggingThreshold(final int threshold) { bucketEntriesLoggingThreshold_ = threshold; return this; } /** * Returns the maximum number of entries in one bucket before * logging starts. * * @return maximum number of entries in one bucket before logging * starts. */ public int bucketEntriesLoggingThreshold() { return bucketEntriesLoggingThreshold_; } /** * If true the distrubition of number of entries will be logged. * * @param logDistribution - boolean parameter indicating if number * of entry distribution shall be logged. * @return the reference to the current HashLinkedListMemTableConfig. */ public HashLinkedListMemTableConfig setIfLogBucketDistWhenFlush(final boolean logDistribution) { ifLogBucketDistWhenFlush_ = logDistribution; return this; } /** * Returns information about logging the distribution of * number of entries on flush. * * @return if distrubtion of number of entries shall be logged. */ public boolean ifLogBucketDistWhenFlush() { return ifLogBucketDistWhenFlush_; } /** * Set maximum number of entries in one bucket. Exceeding this val * leads to a switch from LinkedList to SkipList. * * @param threshold maximum number of entries before SkipList is * used. * @return the reference to the current HashLinkedListMemTableConfig. */ public HashLinkedListMemTableConfig setThresholdUseSkiplist(final int threshold) { thresholdUseSkiplist_ = threshold; return this; } /** * Returns entries per bucket threshold before LinkedList is * replaced by SkipList usage for that bucket. * * @return entries per bucket threshold before SkipList is used. */ public int thresholdUseSkiplist() { return thresholdUseSkiplist_; } @Override protected long newMemTableFactoryHandle() { return newMemTableFactoryHandle(bucketCount_, hugePageTlbSize_, bucketEntriesLoggingThreshold_, ifLogBucketDistWhenFlush_, thresholdUseSkiplist_); } private native long newMemTableFactoryHandle(long bucketCount, long hugePageTlbSize, int bucketEntriesLoggingThreshold, boolean ifLogBucketDistWhenFlush, int thresholdUseSkiplist) throws IllegalArgumentException; private long bucketCount_; private long hugePageTlbSize_; private int bucketEntriesLoggingThreshold_; private boolean ifLogBucketDistWhenFlush_; private int thresholdUseSkiplist_; } rocksdb-5.17.2/java/src/main/java/org/rocksdb/HashSkipListMemTableConfig.java000066400000000000000000000056601337235545400270200ustar00rootroot00000000000000package org.rocksdb; /** * The config for hash skip-list mem-table representation. * Such mem-table representation contains a fix-sized array of * buckets, where each bucket points to a skiplist (or null if the * bucket is empty). * * Note that since this mem-table representation relies on the * key prefix, it is required to invoke one of the usePrefixExtractor * functions to specify how to extract key prefix given a key. * If proper prefix-extractor is not set, then RocksDB will * use the default memtable representation (SkipList) instead * and post a warning in the LOG. */ public class HashSkipListMemTableConfig extends MemTableConfig { public static final int DEFAULT_BUCKET_COUNT = 1000000; public static final int DEFAULT_BRANCHING_FACTOR = 4; public static final int DEFAULT_HEIGHT = 4; /** * HashSkipListMemTableConfig constructor */ public HashSkipListMemTableConfig() { bucketCount_ = DEFAULT_BUCKET_COUNT; branchingFactor_ = DEFAULT_BRANCHING_FACTOR; height_ = DEFAULT_HEIGHT; } /** * Set the number of hash buckets used in the hash skiplist memtable. * Default = 1000000. * * @param count the number of hash buckets used in the hash * skiplist memtable. * @return the reference to the current HashSkipListMemTableConfig. */ public HashSkipListMemTableConfig setBucketCount( final long count) { bucketCount_ = count; return this; } /** * @return the number of hash buckets */ public long bucketCount() { return bucketCount_; } /** * Set the height of the skip list. Default = 4. * * @param height height to set. * * @return the reference to the current HashSkipListMemTableConfig. */ public HashSkipListMemTableConfig setHeight(final int height) { height_ = height; return this; } /** * @return the height of the skip list. */ public int height() { return height_; } /** * Set the branching factor used in the hash skip-list memtable. * This factor controls the probabilistic size ratio between adjacent * links in the skip list. * * @param bf the probabilistic size ratio between adjacent link * lists in the skip list. * @return the reference to the current HashSkipListMemTableConfig. */ public HashSkipListMemTableConfig setBranchingFactor( final int bf) { branchingFactor_ = bf; return this; } /** * @return branching factor, the probabilistic size ratio between * adjacent links in the skip list. */ public int branchingFactor() { return branchingFactor_; } @Override protected long newMemTableFactoryHandle() { return newMemTableFactoryHandle( bucketCount_, height_, branchingFactor_); } private native long newMemTableFactoryHandle( long bucketCount, int height, int branchingFactor) throws IllegalArgumentException; private long bucketCount_; private int branchingFactor_; private int height_; } rocksdb-5.17.2/java/src/main/java/org/rocksdb/HistogramData.java000066400000000000000000000021771337235545400244440ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; public class HistogramData { private final double median_; private final double percentile95_; private final double percentile99_; private final double average_; private final double standardDeviation_; public HistogramData(final double median, final double percentile95, final double percentile99, final double average, final double standardDeviation) { median_ = median; percentile95_ = percentile95; percentile99_ = percentile99; average_ = average; standardDeviation_ = standardDeviation; } public double getMedian() { return median_; } public double getPercentile95() { return percentile95_; } public double getPercentile99() { return percentile99_; } public double getAverage() { return average_; } public double getStandardDeviation() { return standardDeviation_; } } rocksdb-5.17.2/java/src/main/java/org/rocksdb/HistogramType.java000066400000000000000000000037521337235545400245140ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; public enum HistogramType { DB_GET((byte) 0x0), DB_WRITE((byte) 0x1), COMPACTION_TIME((byte) 0x2), SUBCOMPACTION_SETUP_TIME((byte) 0x3), TABLE_SYNC_MICROS((byte) 0x4), COMPACTION_OUTFILE_SYNC_MICROS((byte) 0x5), WAL_FILE_SYNC_MICROS((byte) 0x6), MANIFEST_FILE_SYNC_MICROS((byte) 0x7), /** * TIME SPENT IN IO DURING TABLE OPEN. */ TABLE_OPEN_IO_MICROS((byte) 0x8), DB_MULTIGET((byte) 0x9), READ_BLOCK_COMPACTION_MICROS((byte) 0xA), READ_BLOCK_GET_MICROS((byte) 0xB), WRITE_RAW_BLOCK_MICROS((byte) 0xC), STALL_L0_SLOWDOWN_COUNT((byte) 0xD), STALL_MEMTABLE_COMPACTION_COUNT((byte) 0xE), STALL_L0_NUM_FILES_COUNT((byte) 0xF), HARD_RATE_LIMIT_DELAY_COUNT((byte) 0x10), SOFT_RATE_LIMIT_DELAY_COUNT((byte) 0x11), NUM_FILES_IN_SINGLE_COMPACTION((byte) 0x12), DB_SEEK((byte) 0x13), WRITE_STALL((byte) 0x14), SST_READ_MICROS((byte) 0x15), /** * The number of subcompactions actually scheduled during a compaction. */ NUM_SUBCOMPACTIONS_SCHEDULED((byte) 0x16), /** * Value size distribution in each operation. */ BYTES_PER_READ((byte) 0x17), BYTES_PER_WRITE((byte) 0x18), BYTES_PER_MULTIGET((byte) 0x19), /** * number of bytes compressed. */ BYTES_COMPRESSED((byte) 0x1A), /** * number of bytes decompressed. * * number of bytes is when uncompressed; i.e. before/after respectively */ BYTES_DECOMPRESSED((byte) 0x1B), COMPRESSION_TIMES_NANOS((byte) 0x1C), DECOMPRESSION_TIMES_NANOS((byte) 0x1D), READ_NUM_MERGE_OPERANDS((byte) 0x1E), HISTOGRAM_ENUM_MAX((byte) 0x1F); private final byte value; HistogramType(final byte value) { this.value = value; } public byte getValue() { return value; } } rocksdb-5.17.2/java/src/main/java/org/rocksdb/IndexType.java000066400000000000000000000017731337235545400236270ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * IndexType used in conjunction with BlockBasedTable. */ public enum IndexType { /** * A space efficient index block that is optimized for * binary-search-based index. */ kBinarySearch((byte) 0), /** * The hash index, if enabled, will do the hash lookup when * {@code Options.prefix_extractor} is provided. */ kHashSearch((byte) 1), /** * A two-level index implementation. Both levels are binary search indexes. */ kTwoLevelIndexSearch((byte) 2); /** * Returns the byte value of the enumerations value * * @return byte representation */ public byte getValue() { return value_; } private IndexType(byte value) { value_ = value; } private final byte value_; } rocksdb-5.17.2/java/src/main/java/org/rocksdb/InfoLogLevel.java000066400000000000000000000021011337235545400242250ustar00rootroot00000000000000package org.rocksdb; /** * RocksDB log levels. */ public enum InfoLogLevel { DEBUG_LEVEL((byte)0), INFO_LEVEL((byte)1), WARN_LEVEL((byte)2), ERROR_LEVEL((byte)3), FATAL_LEVEL((byte)4), HEADER_LEVEL((byte)5), NUM_INFO_LOG_LEVELS((byte)6); private final byte value_; private InfoLogLevel(final byte value) { value_ = value; } /** * Returns the byte value of the enumerations value * * @return byte representation */ public byte getValue() { return value_; } /** * Get InfoLogLevel by byte value. * * @param value byte representation of InfoLogLevel. * * @return {@link org.rocksdb.InfoLogLevel} instance. * @throws java.lang.IllegalArgumentException if an invalid * value is provided. */ public static InfoLogLevel getInfoLogLevel(final byte value) { for (final InfoLogLevel infoLogLevel : InfoLogLevel.values()) { if (infoLogLevel.getValue() == value){ return infoLogLevel; } } throw new IllegalArgumentException( "Illegal value provided for InfoLogLevel."); } } rocksdb-5.17.2/java/src/main/java/org/rocksdb/IngestExternalFileOptions.java000066400000000000000000000111311337235545400270130ustar00rootroot00000000000000package org.rocksdb; // Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). import java.util.List; /** * IngestExternalFileOptions is used by {@link RocksDB#ingestExternalFile(ColumnFamilyHandle, List, IngestExternalFileOptions)} */ public class IngestExternalFileOptions extends RocksObject { public IngestExternalFileOptions() { super(newIngestExternalFileOptions()); } /** * @param moveFiles {@link #setMoveFiles(boolean)} * @param snapshotConsistency {@link #setSnapshotConsistency(boolean)} * @param allowGlobalSeqNo {@link #setAllowGlobalSeqNo(boolean)} * @param allowBlockingFlush {@link #setAllowBlockingFlush(boolean)} */ public IngestExternalFileOptions(final boolean moveFiles, final boolean snapshotConsistency, final boolean allowGlobalSeqNo, final boolean allowBlockingFlush) { super(newIngestExternalFileOptions(moveFiles, snapshotConsistency, allowGlobalSeqNo, allowBlockingFlush)); } /** * Can be set to true to move the files instead of copying them. * * @return true if files will be moved */ public boolean moveFiles() { return moveFiles(nativeHandle_); } /** * Can be set to true to move the files instead of copying them. * * @param moveFiles true if files should be moved instead of copied */ public void setMoveFiles(final boolean moveFiles) { setMoveFiles(nativeHandle_, moveFiles); } /** * If set to false, an ingested file keys could appear in existing snapshots * that where created before the file was ingested. * * @return true if snapshot consistency is assured */ public boolean snapshotConsistency() { return snapshotConsistency(nativeHandle_); } /** * If set to false, an ingested file keys could appear in existing snapshots * that where created before the file was ingested. * * @param snapshotConsistency true if snapshot consistency is required */ public void setSnapshotConsistency(final boolean snapshotConsistency) { setSnapshotConsistency(nativeHandle_, snapshotConsistency); } /** * If set to false, {@link RocksDB#ingestExternalFile(ColumnFamilyHandle, List, IngestExternalFileOptions)} * will fail if the file key range overlaps with existing keys or tombstones in the DB. * * @return true if global seq numbers are assured */ public boolean allowGlobalSeqNo() { return allowGlobalSeqNo(nativeHandle_); } /** * If set to false, {@link RocksDB#ingestExternalFile(ColumnFamilyHandle, List, IngestExternalFileOptions)} * will fail if the file key range overlaps with existing keys or tombstones in the DB. * * @param allowGlobalSeqNo true if global seq numbers are required */ public void setAllowGlobalSeqNo(final boolean allowGlobalSeqNo) { setAllowGlobalSeqNo(nativeHandle_, allowGlobalSeqNo); } /** * If set to false and the file key range overlaps with the memtable key range * (memtable flush required), IngestExternalFile will fail. * * @return true if blocking flushes may occur */ public boolean allowBlockingFlush() { return allowBlockingFlush(nativeHandle_); } /** * If set to false and the file key range overlaps with the memtable key range * (memtable flush required), IngestExternalFile will fail. * * @param allowBlockingFlush true if blocking flushes are allowed */ public void setAllowBlockingFlush(final boolean allowBlockingFlush) { setAllowBlockingFlush(nativeHandle_, allowBlockingFlush); } private native static long newIngestExternalFileOptions(); private native static long newIngestExternalFileOptions( final boolean moveFiles, final boolean snapshotConsistency, final boolean allowGlobalSeqNo, final boolean allowBlockingFlush); private native boolean moveFiles(final long handle); private native void setMoveFiles(final long handle, final boolean move_files); private native boolean snapshotConsistency(final long handle); private native void setSnapshotConsistency(final long handle, final boolean snapshotConsistency); private native boolean allowGlobalSeqNo(final long handle); private native void setAllowGlobalSeqNo(final long handle, final boolean allowGloablSeqNo); private native boolean allowBlockingFlush(final long handle); private native void setAllowBlockingFlush(final long handle, final boolean allowBlockingFlush); @Override protected final native void disposeInternal(final long handle); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/LRUCache.java000066400000000000000000000065771337235545400233130ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * Least Recently Used Cache */ public class LRUCache extends Cache { /** * Create a new cache with a fixed size capacity * * @param capacity The fixed size capacity of the cache */ public LRUCache(final long capacity) { this(capacity, -1, false, 0.0); } /** * Create a new cache with a fixed size capacity. The cache is sharded * to 2^numShardBits shards, by hash of the key. The total capacity * is divided and evenly assigned to each shard. * numShardBits = -1 means it is automatically determined: every shard * will be at least 512KB and number of shard bits will not exceed 6. * * @param capacity The fixed size capacity of the cache * @param numShardBits The cache is sharded to 2^numShardBits shards, * by hash of the key */ public LRUCache(final long capacity, final int numShardBits) { super(newLRUCache(capacity, numShardBits, false,0.0)); } /** * Create a new cache with a fixed size capacity. The cache is sharded * to 2^numShardBits shards, by hash of the key. The total capacity * is divided and evenly assigned to each shard. If strictCapacityLimit * is set, insert to the cache will fail when cache is full. * numShardBits = -1 means it is automatically determined: every shard * will be at least 512KB and number of shard bits will not exceed 6. * * @param capacity The fixed size capacity of the cache * @param numShardBits The cache is sharded to 2^numShardBits shards, * by hash of the key * @param strictCapacityLimit insert to the cache will fail when cache is full */ public LRUCache(final long capacity, final int numShardBits, final boolean strictCapacityLimit) { super(newLRUCache(capacity, numShardBits, strictCapacityLimit,0.0)); } /** * Create a new cache with a fixed size capacity. The cache is sharded * to 2^numShardBits shards, by hash of the key. The total capacity * is divided and evenly assigned to each shard. If strictCapacityLimit * is set, insert to the cache will fail when cache is full. User can also * set percentage of the cache reserves for high priority entries via * highPriPoolRatio. * numShardBits = -1 means it is automatically determined: every shard * will be at least 512KB and number of shard bits will not exceed 6. * * @param capacity The fixed size capacity of the cache * @param numShardBits The cache is sharded to 2^numShardBits shards, * by hash of the key * @param strictCapacityLimit insert to the cache will fail when cache is full * @param highPriPoolRatio percentage of the cache reserves for high priority * entries */ public LRUCache(final long capacity, final int numShardBits, final boolean strictCapacityLimit, final double highPriPoolRatio) { super(newLRUCache(capacity, numShardBits, strictCapacityLimit, highPriPoolRatio)); } private native static long newLRUCache(final long capacity, final int numShardBits, final boolean strictCapacityLimit, final double highPriPoolRatio); @Override protected final native void disposeInternal(final long handle); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/Logger.java000066400000000000000000000075051337235545400231340ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** *

    This class provides a custom logger functionality * in Java which wraps {@code RocksDB} logging facilities. *

    * *

    Using this class RocksDB can log with common * Java logging APIs like Log4j or Slf4j without keeping * database logs in the filesystem.

    * * Performance *

    There are certain performance penalties using a Java * {@code Logger} implementation within production code. *

    * *

    * A log level can be set using {@link org.rocksdb.Options} or * {@link Logger#setInfoLogLevel(InfoLogLevel)}. The set log level * influences the underlying native code. Each log message is * checked against the set log level and if the log level is more * verbose as the set log level, native allocations will be made * and data structures are allocated. *

    * *

    Every log message which will be emitted by native code will * trigger expensive native to Java transitions. So the preferred * setting for production use is either * {@link org.rocksdb.InfoLogLevel#ERROR_LEVEL} or * {@link org.rocksdb.InfoLogLevel#FATAL_LEVEL}. *

    */ public abstract class Logger extends RocksCallbackObject { private final static long WITH_OPTIONS = 0; private final static long WITH_DBOPTIONS = 1; /** *

    AbstractLogger constructor.

    * *

    Important: the log level set within * the {@link org.rocksdb.Options} instance will be used as * maximum log level of RocksDB.

    * * @param options {@link org.rocksdb.Options} instance. */ public Logger(final Options options) { super(options.nativeHandle_, WITH_OPTIONS); } /** *

    AbstractLogger constructor.

    * *

    Important: the log level set within * the {@link org.rocksdb.DBOptions} instance will be used * as maximum log level of RocksDB.

    * * @param dboptions {@link org.rocksdb.DBOptions} instance. */ public Logger(final DBOptions dboptions) { super(dboptions.nativeHandle_, WITH_DBOPTIONS); } @Override protected long initializeNative(long... nativeParameterHandles) { if(nativeParameterHandles[1] == WITH_OPTIONS) { return createNewLoggerOptions(nativeParameterHandles[0]); } else if(nativeParameterHandles[1] == WITH_DBOPTIONS) { return createNewLoggerDbOptions(nativeParameterHandles[0]); } else { throw new IllegalArgumentException(); } } /** * Set {@link org.rocksdb.InfoLogLevel} to AbstractLogger. * * @param infoLogLevel {@link org.rocksdb.InfoLogLevel} instance. */ public void setInfoLogLevel(final InfoLogLevel infoLogLevel) { setInfoLogLevel(nativeHandle_, infoLogLevel.getValue()); } /** * Return the loggers log level. * * @return {@link org.rocksdb.InfoLogLevel} instance. */ public InfoLogLevel infoLogLevel() { return InfoLogLevel.getInfoLogLevel( infoLogLevel(nativeHandle_)); } protected abstract void log(InfoLogLevel infoLogLevel, String logMsg); protected native long createNewLoggerOptions( long options); protected native long createNewLoggerDbOptions( long dbOptions); protected native void setInfoLogLevel(long handle, byte infoLogLevel); protected native byte infoLogLevel(long handle); /** * We override {@link RocksCallbackObject#disposeInternal()} * as disposing of a rocksdb::LoggerJniCallback requires * a slightly different approach as it is a std::shared_ptr */ @Override protected void disposeInternal() { disposeInternal(nativeHandle_); } private native void disposeInternal(final long handle); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/MemTableConfig.java000066400000000000000000000021531337235545400245230ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * MemTableConfig is used to config the internal mem-table of a RocksDB. * It is required for each memtable to have one such sub-class to allow * Java developers to use it. * * To make a RocksDB to use a specific MemTable format, its associated * MemTableConfig should be properly set and passed into Options * via Options.setMemTableFactory() and open the db using that Options. * * @see Options */ public abstract class MemTableConfig { /** * This function should only be called by Options.setMemTableConfig(), * which will create a c++ shared-pointer to the c++ MemTableRepFactory * that associated with the Java MemTableConfig. * * @see Options#setMemTableConfig(MemTableConfig) * * @return native handle address to native memory table instance. */ abstract protected long newMemTableFactoryHandle(); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/MergeOperator.java000066400000000000000000000011301337235545400244540ustar00rootroot00000000000000// Copyright (c) 2014, Vlad Balan (vlad.gm@gmail.com). All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * MergeOperator holds an operator to be applied when compacting * two merge operands held under the same key in order to obtain a single * value. */ public abstract class MergeOperator extends RocksObject { protected MergeOperator(final long nativeHandle) { super(nativeHandle); } } rocksdb-5.17.2/java/src/main/java/org/rocksdb/MutableColumnFamilyOptions.java000066400000000000000000000720421337235545400272000ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import java.util.*; public class MutableColumnFamilyOptions { private final static String KEY_VALUE_PAIR_SEPARATOR = ";"; private final static char KEY_VALUE_SEPARATOR = '='; private final static String INT_ARRAY_INT_SEPARATOR = ","; private final String[] keys; private final String[] values; // user must use builder pattern, or parser private MutableColumnFamilyOptions(final String keys[], final String values[]) { this.keys = keys; this.values = values; } String[] getKeys() { return keys; } String[] getValues() { return values; } /** * Creates a builder which allows you * to set MutableColumnFamilyOptions in a fluent * manner * * @return A builder for MutableColumnFamilyOptions */ public static MutableColumnFamilyOptionsBuilder builder() { return new MutableColumnFamilyOptionsBuilder(); } /** * Parses a String representation of MutableColumnFamilyOptions * * The format is: key1=value1;key2=value2;key3=value3 etc * * For int[] values, each int should be separated by a comma, e.g. * * key1=value1;intArrayKey1=1,2,3 * * @param str The string representation of the mutable column family options * * @return A builder for the mutable column family options */ public static MutableColumnFamilyOptionsBuilder parse(final String str) { Objects.requireNonNull(str); final MutableColumnFamilyOptionsBuilder builder = new MutableColumnFamilyOptionsBuilder(); final String options[] = str.trim().split(KEY_VALUE_PAIR_SEPARATOR); for(final String option : options) { final int equalsOffset = option.indexOf(KEY_VALUE_SEPARATOR); if(equalsOffset <= 0) { throw new IllegalArgumentException( "options string has an invalid key=value pair"); } final String key = option.substring(0, equalsOffset); if(key == null || key.isEmpty()) { throw new IllegalArgumentException("options string is invalid"); } final String value = option.substring(equalsOffset + 1); if(value == null || value.isEmpty()) { throw new IllegalArgumentException("options string is invalid"); } builder.fromString(key, value); } return builder; } /** * Returns a string representation * of MutableColumnFamilyOptions which is * suitable for consumption by {@link #parse(String)} * * @return String representation of MutableColumnFamilyOptions */ @Override public String toString() { final StringBuilder buffer = new StringBuilder(); for(int i = 0; i < keys.length; i++) { buffer .append(keys[i]) .append(KEY_VALUE_SEPARATOR) .append(values[i]); if(i + 1 < keys.length) { buffer.append(KEY_VALUE_PAIR_SEPARATOR); } } return buffer.toString(); } public enum ValueType { DOUBLE, LONG, INT, BOOLEAN, INT_ARRAY, ENUM } public enum MemtableOption implements MutableColumnFamilyOptionKey { write_buffer_size(ValueType.LONG), arena_block_size(ValueType.LONG), memtable_prefix_bloom_size_ratio(ValueType.DOUBLE), @Deprecated memtable_prefix_bloom_bits(ValueType.INT), @Deprecated memtable_prefix_bloom_probes(ValueType.INT), memtable_huge_page_size(ValueType.LONG), max_successive_merges(ValueType.LONG), @Deprecated filter_deletes(ValueType.BOOLEAN), max_write_buffer_number(ValueType.INT), inplace_update_num_locks(ValueType.LONG); private final ValueType valueType; MemtableOption(final ValueType valueType) { this.valueType = valueType; } @Override public ValueType getValueType() { return valueType; } } public enum CompactionOption implements MutableColumnFamilyOptionKey { disable_auto_compactions(ValueType.BOOLEAN), @Deprecated soft_rate_limit(ValueType.DOUBLE), soft_pending_compaction_bytes_limit(ValueType.LONG), @Deprecated hard_rate_limit(ValueType.DOUBLE), hard_pending_compaction_bytes_limit(ValueType.LONG), level0_file_num_compaction_trigger(ValueType.INT), level0_slowdown_writes_trigger(ValueType.INT), level0_stop_writes_trigger(ValueType.INT), max_compaction_bytes(ValueType.LONG), target_file_size_base(ValueType.LONG), target_file_size_multiplier(ValueType.INT), max_bytes_for_level_base(ValueType.LONG), max_bytes_for_level_multiplier(ValueType.INT), max_bytes_for_level_multiplier_additional(ValueType.INT_ARRAY); private final ValueType valueType; CompactionOption(final ValueType valueType) { this.valueType = valueType; } @Override public ValueType getValueType() { return valueType; } } public enum MiscOption implements MutableColumnFamilyOptionKey { max_sequential_skip_in_iterations(ValueType.LONG), paranoid_file_checks(ValueType.BOOLEAN), report_bg_io_stats(ValueType.BOOLEAN), compression_type(ValueType.ENUM); private final ValueType valueType; MiscOption(final ValueType valueType) { this.valueType = valueType; } @Override public ValueType getValueType() { return valueType; } } private interface MutableColumnFamilyOptionKey { String name(); ValueType getValueType(); } private static abstract class MutableColumnFamilyOptionValue { protected final T value; MutableColumnFamilyOptionValue(final T value) { this.value = value; } abstract double asDouble() throws NumberFormatException; abstract long asLong() throws NumberFormatException; abstract int asInt() throws NumberFormatException; abstract boolean asBoolean() throws IllegalStateException; abstract int[] asIntArray() throws IllegalStateException; abstract String asString(); abstract T asObject(); } private static class MutableColumnFamilyOptionStringValue extends MutableColumnFamilyOptionValue { MutableColumnFamilyOptionStringValue(final String value) { super(value); } @Override double asDouble() throws NumberFormatException { return Double.parseDouble(value); } @Override long asLong() throws NumberFormatException { return Long.parseLong(value); } @Override int asInt() throws NumberFormatException { return Integer.parseInt(value); } @Override boolean asBoolean() throws IllegalStateException { return Boolean.parseBoolean(value); } @Override int[] asIntArray() throws IllegalStateException { throw new IllegalStateException("String is not applicable as int[]"); } @Override String asString() { return value; } @Override String asObject() { return value; } } private static class MutableColumnFamilyOptionDoubleValue extends MutableColumnFamilyOptionValue { MutableColumnFamilyOptionDoubleValue(final double value) { super(value); } @Override double asDouble() { return value; } @Override long asLong() throws NumberFormatException { return value.longValue(); } @Override int asInt() throws NumberFormatException { if(value > Integer.MAX_VALUE || value < Integer.MIN_VALUE) { throw new NumberFormatException( "double value lies outside the bounds of int"); } return value.intValue(); } @Override boolean asBoolean() throws IllegalStateException { throw new IllegalStateException( "double is not applicable as boolean"); } @Override int[] asIntArray() throws IllegalStateException { if(value > Integer.MAX_VALUE || value < Integer.MIN_VALUE) { throw new NumberFormatException( "double value lies outside the bounds of int"); } return new int[] { value.intValue() }; } @Override String asString() { return Double.toString(value); } @Override Double asObject() { return value; } } private static class MutableColumnFamilyOptionLongValue extends MutableColumnFamilyOptionValue { MutableColumnFamilyOptionLongValue(final long value) { super(value); } @Override double asDouble() { if(value > Double.MAX_VALUE || value < Double.MIN_VALUE) { throw new NumberFormatException( "long value lies outside the bounds of int"); } return value.doubleValue(); } @Override long asLong() throws NumberFormatException { return value; } @Override int asInt() throws NumberFormatException { if(value > Integer.MAX_VALUE || value < Integer.MIN_VALUE) { throw new NumberFormatException( "long value lies outside the bounds of int"); } return value.intValue(); } @Override boolean asBoolean() throws IllegalStateException { throw new IllegalStateException( "long is not applicable as boolean"); } @Override int[] asIntArray() throws IllegalStateException { if(value > Integer.MAX_VALUE || value < Integer.MIN_VALUE) { throw new NumberFormatException( "long value lies outside the bounds of int"); } return new int[] { value.intValue() }; } @Override String asString() { return Long.toString(value); } @Override Long asObject() { return value; } } private static class MutableColumnFamilyOptionIntValue extends MutableColumnFamilyOptionValue { MutableColumnFamilyOptionIntValue(final int value) { super(value); } @Override double asDouble() { if(value > Double.MAX_VALUE || value < Double.MIN_VALUE) { throw new NumberFormatException("int value lies outside the bounds of int"); } return value.doubleValue(); } @Override long asLong() throws NumberFormatException { return value; } @Override int asInt() throws NumberFormatException { return value; } @Override boolean asBoolean() throws IllegalStateException { throw new IllegalStateException("int is not applicable as boolean"); } @Override int[] asIntArray() throws IllegalStateException { return new int[] { value }; } @Override String asString() { return Integer.toString(value); } @Override Integer asObject() { return value; } } private static class MutableColumnFamilyOptionBooleanValue extends MutableColumnFamilyOptionValue { MutableColumnFamilyOptionBooleanValue(final boolean value) { super(value); } @Override double asDouble() { throw new NumberFormatException("boolean is not applicable as double"); } @Override long asLong() throws NumberFormatException { throw new NumberFormatException("boolean is not applicable as Long"); } @Override int asInt() throws NumberFormatException { throw new NumberFormatException("boolean is not applicable as int"); } @Override boolean asBoolean() { return value; } @Override int[] asIntArray() throws IllegalStateException { throw new IllegalStateException("boolean is not applicable as int[]"); } @Override String asString() { return Boolean.toString(value); } @Override Boolean asObject() { return value; } } private static class MutableColumnFamilyOptionIntArrayValue extends MutableColumnFamilyOptionValue { MutableColumnFamilyOptionIntArrayValue(final int[] value) { super(value); } @Override double asDouble() { throw new NumberFormatException("int[] is not applicable as double"); } @Override long asLong() throws NumberFormatException { throw new NumberFormatException("int[] is not applicable as Long"); } @Override int asInt() throws NumberFormatException { throw new NumberFormatException("int[] is not applicable as int"); } @Override boolean asBoolean() { throw new NumberFormatException("int[] is not applicable as boolean"); } @Override int[] asIntArray() throws IllegalStateException { return value; } @Override String asString() { final StringBuilder builder = new StringBuilder(); for(int i = 0; i < value.length; i++) { builder.append(Integer.toString(i)); if(i + 1 < value.length) { builder.append(INT_ARRAY_INT_SEPARATOR); } } return builder.toString(); } @Override int[] asObject() { return value; } } private static class MutableColumnFamilyOptionEnumValue> extends MutableColumnFamilyOptionValue { MutableColumnFamilyOptionEnumValue(final T value) { super(value); } @Override double asDouble() throws NumberFormatException { throw new NumberFormatException("Enum is not applicable as double"); } @Override long asLong() throws NumberFormatException { throw new NumberFormatException("Enum is not applicable as long"); } @Override int asInt() throws NumberFormatException { throw new NumberFormatException("Enum is not applicable as int"); } @Override boolean asBoolean() throws IllegalStateException { throw new NumberFormatException("Enum is not applicable as boolean"); } @Override int[] asIntArray() throws IllegalStateException { throw new NumberFormatException("Enum is not applicable as int[]"); } @Override String asString() { return value.name(); } @Override T asObject() { return value; } } public static class MutableColumnFamilyOptionsBuilder implements MutableColumnFamilyOptionsInterface { private final static Map ALL_KEYS_LOOKUP = new HashMap<>(); static { for(final MutableColumnFamilyOptionKey key : MemtableOption.values()) { ALL_KEYS_LOOKUP.put(key.name(), key); } for(final MutableColumnFamilyOptionKey key : CompactionOption.values()) { ALL_KEYS_LOOKUP.put(key.name(), key); } for(final MutableColumnFamilyOptionKey key : MiscOption.values()) { ALL_KEYS_LOOKUP.put(key.name(), key); } } private final Map> options = new LinkedHashMap<>(); public MutableColumnFamilyOptions build() { final String keys[] = new String[options.size()]; final String values[] = new String[options.size()]; int i = 0; for(final Map.Entry> option : options.entrySet()) { keys[i] = option.getKey().name(); values[i] = option.getValue().asString(); i++; } return new MutableColumnFamilyOptions(keys, values); } private MutableColumnFamilyOptionsBuilder setDouble( final MutableColumnFamilyOptionKey key, final double value) { if(key.getValueType() != ValueType.DOUBLE) { throw new IllegalArgumentException( key + " does not accept a double value"); } options.put(key, new MutableColumnFamilyOptionDoubleValue(value)); return this; } private double getDouble(final MutableColumnFamilyOptionKey key) throws NoSuchElementException, NumberFormatException { final MutableColumnFamilyOptionValue value = options.get(key); if(value == null) { throw new NoSuchElementException(key.name() + " has not been set"); } return value.asDouble(); } private MutableColumnFamilyOptionsBuilder setLong( final MutableColumnFamilyOptionKey key, final long value) { if(key.getValueType() != ValueType.LONG) { throw new IllegalArgumentException( key + " does not accept a long value"); } options.put(key, new MutableColumnFamilyOptionLongValue(value)); return this; } private long getLong(final MutableColumnFamilyOptionKey key) throws NoSuchElementException, NumberFormatException { final MutableColumnFamilyOptionValue value = options.get(key); if(value == null) { throw new NoSuchElementException(key.name() + " has not been set"); } return value.asLong(); } private MutableColumnFamilyOptionsBuilder setInt( final MutableColumnFamilyOptionKey key, final int value) { if(key.getValueType() != ValueType.INT) { throw new IllegalArgumentException( key + " does not accept an integer value"); } options.put(key, new MutableColumnFamilyOptionIntValue(value)); return this; } private int getInt(final MutableColumnFamilyOptionKey key) throws NoSuchElementException, NumberFormatException { final MutableColumnFamilyOptionValue value = options.get(key); if(value == null) { throw new NoSuchElementException(key.name() + " has not been set"); } return value.asInt(); } private MutableColumnFamilyOptionsBuilder setBoolean( final MutableColumnFamilyOptionKey key, final boolean value) { if(key.getValueType() != ValueType.BOOLEAN) { throw new IllegalArgumentException( key + " does not accept a boolean value"); } options.put(key, new MutableColumnFamilyOptionBooleanValue(value)); return this; } private boolean getBoolean(final MutableColumnFamilyOptionKey key) throws NoSuchElementException, NumberFormatException { final MutableColumnFamilyOptionValue value = options.get(key); if(value == null) { throw new NoSuchElementException(key.name() + " has not been set"); } return value.asBoolean(); } private MutableColumnFamilyOptionsBuilder setIntArray( final MutableColumnFamilyOptionKey key, final int[] value) { if(key.getValueType() != ValueType.INT_ARRAY) { throw new IllegalArgumentException( key + " does not accept an int array value"); } options.put(key, new MutableColumnFamilyOptionIntArrayValue(value)); return this; } private int[] getIntArray(final MutableColumnFamilyOptionKey key) throws NoSuchElementException, NumberFormatException { final MutableColumnFamilyOptionValue value = options.get(key); if(value == null) { throw new NoSuchElementException(key.name() + " has not been set"); } return value.asIntArray(); } private > MutableColumnFamilyOptionsBuilder setEnum( final MutableColumnFamilyOptionKey key, final T value) { if(key.getValueType() != ValueType.ENUM) { throw new IllegalArgumentException( key + " does not accept a Enum value"); } options.put(key, new MutableColumnFamilyOptionEnumValue(value)); return this; } private > T getEnum(final MutableColumnFamilyOptionKey key) throws NoSuchElementException, NumberFormatException { final MutableColumnFamilyOptionValue value = options.get(key); if(value == null) { throw new NoSuchElementException(key.name() + " has not been set"); } if(!(value instanceof MutableColumnFamilyOptionEnumValue)) { throw new NoSuchElementException(key.name() + " is not of Enum type"); } return ((MutableColumnFamilyOptionEnumValue)value).asObject(); } public MutableColumnFamilyOptionsBuilder fromString(final String keyStr, final String valueStr) throws IllegalArgumentException { Objects.requireNonNull(keyStr); Objects.requireNonNull(valueStr); final MutableColumnFamilyOptionKey key = ALL_KEYS_LOOKUP.get(keyStr); switch(key.getValueType()) { case DOUBLE: return setDouble(key, Double.parseDouble(valueStr)); case LONG: return setLong(key, Long.parseLong(valueStr)); case INT: return setInt(key, Integer.parseInt(valueStr)); case BOOLEAN: return setBoolean(key, Boolean.parseBoolean(valueStr)); case INT_ARRAY: final String[] strInts = valueStr .trim().split(INT_ARRAY_INT_SEPARATOR); if(strInts == null || strInts.length == 0) { throw new IllegalArgumentException( "int array value is not correctly formatted"); } final int value[] = new int[strInts.length]; int i = 0; for(final String strInt : strInts) { value[i++] = Integer.parseInt(strInt); } return setIntArray(key, value); } throw new IllegalStateException( key + " has unknown value type: " + key.getValueType()); } @Override public MutableColumnFamilyOptionsBuilder setWriteBufferSize( final long writeBufferSize) { return setLong(MemtableOption.write_buffer_size, writeBufferSize); } @Override public long writeBufferSize() { return getLong(MemtableOption.write_buffer_size); } @Override public MutableColumnFamilyOptionsBuilder setArenaBlockSize( final long arenaBlockSize) { return setLong(MemtableOption.arena_block_size, arenaBlockSize); } @Override public long arenaBlockSize() { return getLong(MemtableOption.arena_block_size); } @Override public MutableColumnFamilyOptionsBuilder setMemtablePrefixBloomSizeRatio( final double memtablePrefixBloomSizeRatio) { return setDouble(MemtableOption.memtable_prefix_bloom_size_ratio, memtablePrefixBloomSizeRatio); } @Override public double memtablePrefixBloomSizeRatio() { return getDouble(MemtableOption.memtable_prefix_bloom_size_ratio); } @Override public MutableColumnFamilyOptionsBuilder setMemtableHugePageSize( final long memtableHugePageSize) { return setLong(MemtableOption.memtable_huge_page_size, memtableHugePageSize); } @Override public long memtableHugePageSize() { return getLong(MemtableOption.memtable_huge_page_size); } @Override public MutableColumnFamilyOptionsBuilder setMaxSuccessiveMerges( final long maxSuccessiveMerges) { return setLong(MemtableOption.max_successive_merges, maxSuccessiveMerges); } @Override public long maxSuccessiveMerges() { return getLong(MemtableOption.max_successive_merges); } @Override public MutableColumnFamilyOptionsBuilder setMaxWriteBufferNumber( final int maxWriteBufferNumber) { return setInt(MemtableOption.max_write_buffer_number, maxWriteBufferNumber); } @Override public int maxWriteBufferNumber() { return getInt(MemtableOption.max_write_buffer_number); } @Override public MutableColumnFamilyOptionsBuilder setInplaceUpdateNumLocks( final long inplaceUpdateNumLocks) { return setLong(MemtableOption.inplace_update_num_locks, inplaceUpdateNumLocks); } @Override public long inplaceUpdateNumLocks() { return getLong(MemtableOption.inplace_update_num_locks); } @Override public MutableColumnFamilyOptionsBuilder setDisableAutoCompactions( final boolean disableAutoCompactions) { return setBoolean(CompactionOption.disable_auto_compactions, disableAutoCompactions); } @Override public boolean disableAutoCompactions() { return getBoolean(CompactionOption.disable_auto_compactions); } @Override public MutableColumnFamilyOptionsBuilder setSoftPendingCompactionBytesLimit( final long softPendingCompactionBytesLimit) { return setLong(CompactionOption.soft_pending_compaction_bytes_limit, softPendingCompactionBytesLimit); } @Override public long softPendingCompactionBytesLimit() { return getLong(CompactionOption.soft_pending_compaction_bytes_limit); } @Override public MutableColumnFamilyOptionsBuilder setHardPendingCompactionBytesLimit( final long hardPendingCompactionBytesLimit) { return setLong(CompactionOption.hard_pending_compaction_bytes_limit, hardPendingCompactionBytesLimit); } @Override public long hardPendingCompactionBytesLimit() { return getLong(CompactionOption.hard_pending_compaction_bytes_limit); } @Override public MutableColumnFamilyOptionsBuilder setLevel0FileNumCompactionTrigger( final int level0FileNumCompactionTrigger) { return setInt(CompactionOption.level0_file_num_compaction_trigger, level0FileNumCompactionTrigger); } @Override public int level0FileNumCompactionTrigger() { return getInt(CompactionOption.level0_file_num_compaction_trigger); } @Override public MutableColumnFamilyOptionsBuilder setLevel0SlowdownWritesTrigger( final int level0SlowdownWritesTrigger) { return setInt(CompactionOption.level0_slowdown_writes_trigger, level0SlowdownWritesTrigger); } @Override public int level0SlowdownWritesTrigger() { return getInt(CompactionOption.level0_slowdown_writes_trigger); } @Override public MutableColumnFamilyOptionsBuilder setLevel0StopWritesTrigger( final int level0StopWritesTrigger) { return setInt(CompactionOption.level0_stop_writes_trigger, level0StopWritesTrigger); } @Override public int level0StopWritesTrigger() { return getInt(CompactionOption.level0_stop_writes_trigger); } @Override public MutableColumnFamilyOptionsBuilder setMaxCompactionBytes(final long maxCompactionBytes) { return setLong(CompactionOption.max_compaction_bytes, maxCompactionBytes); } @Override public long maxCompactionBytes() { return getLong(CompactionOption.max_compaction_bytes); } @Override public MutableColumnFamilyOptionsBuilder setTargetFileSizeBase( final long targetFileSizeBase) { return setLong(CompactionOption.target_file_size_base, targetFileSizeBase); } @Override public long targetFileSizeBase() { return getLong(CompactionOption.target_file_size_base); } @Override public MutableColumnFamilyOptionsBuilder setTargetFileSizeMultiplier( final int targetFileSizeMultiplier) { return setInt(CompactionOption.target_file_size_multiplier, targetFileSizeMultiplier); } @Override public int targetFileSizeMultiplier() { return getInt(CompactionOption.target_file_size_multiplier); } @Override public MutableColumnFamilyOptionsBuilder setMaxBytesForLevelBase( final long maxBytesForLevelBase) { return setLong(CompactionOption.max_bytes_for_level_base, maxBytesForLevelBase); } @Override public long maxBytesForLevelBase() { return getLong(CompactionOption.max_bytes_for_level_base); } @Override public MutableColumnFamilyOptionsBuilder setMaxBytesForLevelMultiplier( final double maxBytesForLevelMultiplier) { return setDouble(CompactionOption.max_bytes_for_level_multiplier, maxBytesForLevelMultiplier); } @Override public double maxBytesForLevelMultiplier() { return getDouble(CompactionOption.max_bytes_for_level_multiplier); } @Override public MutableColumnFamilyOptionsBuilder setMaxBytesForLevelMultiplierAdditional( final int[] maxBytesForLevelMultiplierAdditional) { return setIntArray( CompactionOption.max_bytes_for_level_multiplier_additional, maxBytesForLevelMultiplierAdditional); } @Override public int[] maxBytesForLevelMultiplierAdditional() { return getIntArray( CompactionOption.max_bytes_for_level_multiplier_additional); } @Override public MutableColumnFamilyOptionsBuilder setMaxSequentialSkipInIterations( final long maxSequentialSkipInIterations) { return setLong(MiscOption.max_sequential_skip_in_iterations, maxSequentialSkipInIterations); } @Override public long maxSequentialSkipInIterations() { return getLong(MiscOption.max_sequential_skip_in_iterations); } @Override public MutableColumnFamilyOptionsBuilder setParanoidFileChecks( final boolean paranoidFileChecks) { return setBoolean(MiscOption.paranoid_file_checks, paranoidFileChecks); } @Override public boolean paranoidFileChecks() { return getBoolean(MiscOption.paranoid_file_checks); } @Override public MutableColumnFamilyOptionsBuilder setCompressionType( final CompressionType compressionType) { return setEnum(MiscOption.compression_type, compressionType); } @Override public CompressionType compressionType() { return (CompressionType)getEnum(MiscOption.compression_type); } @Override public MutableColumnFamilyOptionsBuilder setReportBgIoStats( final boolean reportBgIoStats) { return setBoolean(MiscOption.report_bg_io_stats, reportBgIoStats); } @Override public boolean reportBgIoStats() { return getBoolean(MiscOption.report_bg_io_stats); } } } rocksdb-5.17.2/java/src/main/java/org/rocksdb/MutableColumnFamilyOptionsInterface.java000066400000000000000000000127511337235545400310220ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; public interface MutableColumnFamilyOptionsInterface extends AdvancedMutableColumnFamilyOptionsInterface { /** * Amount of data to build up in memory (backed by an unsorted log * on disk) before converting to a sorted on-disk file. * * Larger values increase performance, especially during bulk loads. * Up to {@code max_write_buffer_number} write buffers may be held in memory * at the same time, so you may wish to adjust this parameter * to control memory usage. * * Also, a larger write buffer will result in a longer recovery time * the next time the database is opened. * * Default: 4MB * @param writeBufferSize the size of write buffer. * @return the instance of the current object. * @throws java.lang.IllegalArgumentException thrown on 32-Bit platforms * while overflowing the underlying platform specific value. */ MutableColumnFamilyOptionsInterface setWriteBufferSize(long writeBufferSize); /** * Return size of write buffer size. * * @return size of write buffer. * @see #setWriteBufferSize(long) */ long writeBufferSize(); /** * Disable automatic compactions. Manual compactions can still * be issued on this column family * * @param disableAutoCompactions true if auto-compactions are disabled. * @return the reference to the current option. */ MutableColumnFamilyOptionsInterface setDisableAutoCompactions( boolean disableAutoCompactions); /** * Disable automatic compactions. Manual compactions can still * be issued on this column family * * @return true if auto-compactions are disabled. */ boolean disableAutoCompactions(); /** * Number of files to trigger level-0 compaction. A value < 0 means that * level-0 compaction will not be triggered by number of files at all. * * Default: 4 * * @param level0FileNumCompactionTrigger The number of files to trigger * level-0 compaction * @return the reference to the current option. */ MutableColumnFamilyOptionsInterface setLevel0FileNumCompactionTrigger( int level0FileNumCompactionTrigger); /** * Number of files to trigger level-0 compaction. A value < 0 means that * level-0 compaction will not be triggered by number of files at all. * * Default: 4 * * @return The number of files to trigger */ int level0FileNumCompactionTrigger(); /** * We try to limit number of bytes in one compaction to be lower than this * threshold. But it's not guaranteed. * Value 0 will be sanitized. * * @param maxCompactionBytes max bytes in a compaction * @return the reference to the current option. * @see #maxCompactionBytes() */ MutableColumnFamilyOptionsInterface setMaxCompactionBytes(final long maxCompactionBytes); /** * We try to limit number of bytes in one compaction to be lower than this * threshold. But it's not guaranteed. * Value 0 will be sanitized. * * @return the maximum number of bytes in for a compaction. * @see #setMaxCompactionBytes(long) */ long maxCompactionBytes(); /** * The upper-bound of the total size of level-1 files in bytes. * Maximum number of bytes for level L can be calculated as * (maxBytesForLevelBase) * (maxBytesForLevelMultiplier ^ (L-1)) * For example, if maxBytesForLevelBase is 20MB, and if * max_bytes_for_level_multiplier is 10, total data size for level-1 * will be 20MB, total file size for level-2 will be 200MB, * and total file size for level-3 will be 2GB. * by default 'maxBytesForLevelBase' is 10MB. * * @param maxBytesForLevelBase maximum bytes for level base. * * @return the reference to the current option. * * See {@link AdvancedMutableColumnFamilyOptionsInterface#setMaxBytesForLevelMultiplier(double)} */ T setMaxBytesForLevelBase( long maxBytesForLevelBase); /** * The upper-bound of the total size of level-1 files in bytes. * Maximum number of bytes for level L can be calculated as * (maxBytesForLevelBase) * (maxBytesForLevelMultiplier ^ (L-1)) * For example, if maxBytesForLevelBase is 20MB, and if * max_bytes_for_level_multiplier is 10, total data size for level-1 * will be 20MB, total file size for level-2 will be 200MB, * and total file size for level-3 will be 2GB. * by default 'maxBytesForLevelBase' is 10MB. * * @return the upper-bound of the total size of level-1 files * in bytes. * * See {@link AdvancedMutableColumnFamilyOptionsInterface#maxBytesForLevelMultiplier()} */ long maxBytesForLevelBase(); /** * Compress blocks using the specified compression algorithm. This * parameter can be changed dynamically. * * Default: SNAPPY_COMPRESSION, which gives lightweight but fast compression. * * @param compressionType Compression Type. * @return the reference to the current option. */ T setCompressionType( CompressionType compressionType); /** * Compress blocks using the specified compression algorithm. This * parameter can be changed dynamically. * * Default: SNAPPY_COMPRESSION, which gives lightweight but fast compression. * * @return Compression type. */ CompressionType compressionType(); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/NativeComparatorWrapper.java000066400000000000000000000034021337235545400265240ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * A simple abstraction to allow a Java class to wrap a custom comparator * implemented in C++. * * The native comparator must directly extend rocksdb::Comparator. */ public abstract class NativeComparatorWrapper extends AbstractComparator { @Override final ComparatorType getComparatorType() { return ComparatorType.JAVA_NATIVE_COMPARATOR_WRAPPER; } @Override public final String name() { throw new IllegalStateException("This should not be called. " + "Implementation is in Native code"); } @Override public final int compare(final Slice s1, final Slice s2) { throw new IllegalStateException("This should not be called. " + "Implementation is in Native code"); } @Override public final String findShortestSeparator(final String start, final Slice limit) { throw new IllegalStateException("This should not be called. " + "Implementation is in Native code"); } @Override public final String findShortSuccessor(final String key) { throw new IllegalStateException("This should not be called. " + "Implementation is in Native code"); } /** * We override {@link RocksCallbackObject#disposeInternal()} * as disposing of a native rocksd::Comparator extension requires * a slightly different approach as it is not really a RocksCallbackObject */ @Override protected void disposeInternal() { disposeInternal(nativeHandle_); } private native void disposeInternal(final long handle); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/NativeLibraryLoader.java000066400000000000000000000100601337235545400256050ustar00rootroot00000000000000package org.rocksdb; import java.io.*; import java.nio.file.Files; import java.nio.file.StandardCopyOption; import org.rocksdb.util.Environment; /** * This class is used to load the RocksDB shared library from within the jar. * The shared library is extracted to a temp folder and loaded from there. */ public class NativeLibraryLoader { //singleton private static final NativeLibraryLoader instance = new NativeLibraryLoader(); private static boolean initialized = false; private static final String sharedLibraryName = Environment.getSharedLibraryName("rocksdb"); private static final String jniLibraryName = Environment.getJniLibraryName("rocksdb"); private static final String jniLibraryFileName = Environment.getJniLibraryFileName("rocksdb"); private static final String tempFilePrefix = "librocksdbjni"; private static final String tempFileSuffix = Environment.getJniLibraryExtension(); /** * Get a reference to the NativeLibraryLoader * * @return The NativeLibraryLoader */ public static NativeLibraryLoader getInstance() { return instance; } /** * Firstly attempts to load the library from java.library.path, * if that fails then it falls back to extracting * the library from the classpath * {@link org.rocksdb.NativeLibraryLoader#loadLibraryFromJar(java.lang.String)} * * @param tmpDir A temporary directory to use * to copy the native library to when loading from the classpath. * If null, or the empty string, we rely on Java's * {@link java.io.File#createTempFile(String, String)} * function to provide a temporary location. * The temporary file will be registered for deletion * on exit. * * @throws java.io.IOException if a filesystem operation fails. */ public synchronized void loadLibrary(final String tmpDir) throws IOException { try { System.loadLibrary(sharedLibraryName); } catch(final UnsatisfiedLinkError ule1) { try { System.loadLibrary(jniLibraryName); } catch(final UnsatisfiedLinkError ule2) { loadLibraryFromJar(tmpDir); } } } /** * Attempts to extract the native RocksDB library * from the classpath and load it * * @param tmpDir A temporary directory to use * to copy the native library to. If null, * or the empty string, we rely on Java's * {@link java.io.File#createTempFile(String, String)} * function to provide a temporary location. * The temporary file will be registered for deletion * on exit. * * @throws java.io.IOException if a filesystem operation fails. */ void loadLibraryFromJar(final String tmpDir) throws IOException { if (!initialized) { System.load(loadLibraryFromJarToTemp(tmpDir).getAbsolutePath()); initialized = true; } } File loadLibraryFromJarToTemp(final String tmpDir) throws IOException { final File temp; if (tmpDir == null || tmpDir.isEmpty()) { temp = File.createTempFile(tempFilePrefix, tempFileSuffix); } else { temp = new File(tmpDir, jniLibraryFileName); if (temp.exists() && !temp.delete()) { throw new RuntimeException("File: " + temp.getAbsolutePath() + " already exists and cannot be removed."); } if (!temp.createNewFile()) { throw new RuntimeException("File: " + temp.getAbsolutePath() + " could not be created."); } } if (!temp.exists()) { throw new RuntimeException("File " + temp.getAbsolutePath() + " does not exist."); } else { temp.deleteOnExit(); } // attempt to copy the library from the Jar file to the temp destination try (final InputStream is = getClass().getClassLoader(). getResourceAsStream(jniLibraryFileName)) { if (is == null) { throw new RuntimeException(jniLibraryFileName + " was not found inside JAR."); } else { Files.copy(is, temp.toPath(), StandardCopyOption.REPLACE_EXISTING); } } return temp; } /** * Private constructor to disallow instantiation */ private NativeLibraryLoader() { } } rocksdb-5.17.2/java/src/main/java/org/rocksdb/OptimisticTransactionDB.java000066400000000000000000000147511337235545400264560ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import java.util.List; /** * Database with Transaction support. */ public class OptimisticTransactionDB extends RocksDB implements TransactionalDB { /** * Private constructor. * * @param nativeHandle The native handle of the C++ OptimisticTransactionDB * object */ private OptimisticTransactionDB(final long nativeHandle) { super(nativeHandle); } /** * Open an OptimisticTransactionDB similar to * {@link RocksDB#open(Options, String)}. * * @param options {@link org.rocksdb.Options} instance. * @param path the path to the rocksdb. * * @return a {@link OptimisticTransactionDB} instance on success, null if the * specified {@link OptimisticTransactionDB} can not be opened. * * @throws RocksDBException if an error occurs whilst opening the database. */ public static OptimisticTransactionDB open(final Options options, final String path) throws RocksDBException { final OptimisticTransactionDB otdb = new OptimisticTransactionDB(open( options.nativeHandle_, path)); // when non-default Options is used, keeping an Options reference // in RocksDB can prevent Java to GC during the life-time of // the currently-created RocksDB. otdb.storeOptionsInstance(options); return otdb; } /** * Open an OptimisticTransactionDB similar to * {@link RocksDB#open(DBOptions, String, List, List)}. * * @param dbOptions {@link org.rocksdb.DBOptions} instance. * @param path the path to the rocksdb. * @param columnFamilyDescriptors list of column family descriptors * @param columnFamilyHandles will be filled with ColumnFamilyHandle instances * * @return a {@link OptimisticTransactionDB} instance on success, null if the * specified {@link OptimisticTransactionDB} can not be opened. * * @throws RocksDBException if an error occurs whilst opening the database. */ public static OptimisticTransactionDB open(final DBOptions dbOptions, final String path, final List columnFamilyDescriptors, final List columnFamilyHandles) throws RocksDBException { final byte[][] cfNames = new byte[columnFamilyDescriptors.size()][]; final long[] cfOptionHandles = new long[columnFamilyDescriptors.size()]; for (int i = 0; i < columnFamilyDescriptors.size(); i++) { final ColumnFamilyDescriptor cfDescriptor = columnFamilyDescriptors .get(i); cfNames[i] = cfDescriptor.columnFamilyName(); cfOptionHandles[i] = cfDescriptor.columnFamilyOptions().nativeHandle_; } final long[] handles = open(dbOptions.nativeHandle_, path, cfNames, cfOptionHandles); final OptimisticTransactionDB otdb = new OptimisticTransactionDB(handles[0]); // when non-default Options is used, keeping an Options reference // in RocksDB can prevent Java to GC during the life-time of // the currently-created RocksDB. otdb.storeOptionsInstance(dbOptions); for (int i = 1; i < handles.length; i++) { columnFamilyHandles.add(new ColumnFamilyHandle(otdb, handles[i])); } return otdb; } @Override public Transaction beginTransaction(final WriteOptions writeOptions) { return new Transaction(this, beginTransaction(nativeHandle_, writeOptions.nativeHandle_)); } @Override public Transaction beginTransaction(final WriteOptions writeOptions, final OptimisticTransactionOptions optimisticTransactionOptions) { return new Transaction(this, beginTransaction(nativeHandle_, writeOptions.nativeHandle_, optimisticTransactionOptions.nativeHandle_)); } // TODO(AR) consider having beingTransaction(... oldTransaction) set a // reference count inside Transaction, so that we can always call // Transaction#close but the object is only disposed when there are as many // closes as beginTransaction. Makes the try-with-resources paradigm easier for // java developers @Override public Transaction beginTransaction(final WriteOptions writeOptions, final Transaction oldTransaction) { final long jtxn_handle = beginTransaction_withOld(nativeHandle_, writeOptions.nativeHandle_, oldTransaction.nativeHandle_); // RocksJava relies on the assumption that // we do not allocate a new Transaction object // when providing an old_txn assert(jtxn_handle == oldTransaction.nativeHandle_); return oldTransaction; } @Override public Transaction beginTransaction(final WriteOptions writeOptions, final OptimisticTransactionOptions optimisticTransactionOptions, final Transaction oldTransaction) { final long jtxn_handle = beginTransaction_withOld(nativeHandle_, writeOptions.nativeHandle_, optimisticTransactionOptions.nativeHandle_, oldTransaction.nativeHandle_); // RocksJava relies on the assumption that // we do not allocate a new Transaction object // when providing an old_txn assert(jtxn_handle == oldTransaction.nativeHandle_); return oldTransaction; } /** * Get the underlying database that was opened. * * @return The underlying database that was opened. */ public RocksDB getBaseDB() { final RocksDB db = new RocksDB(getBaseDB(nativeHandle_)); db.disOwnNativeHandle(); return db; } protected static native long open(final long optionsHandle, final String path) throws RocksDBException; protected static native long[] open(final long handle, final String path, final byte[][] columnFamilyNames, final long[] columnFamilyOptions); private native long beginTransaction(final long handle, final long writeOptionsHandle); private native long beginTransaction(final long handle, final long writeOptionsHandle, final long optimisticTransactionOptionsHandle); private native long beginTransaction_withOld(final long handle, final long writeOptionsHandle, final long oldTransactionHandle); private native long beginTransaction_withOld(final long handle, final long writeOptionsHandle, final long optimisticTransactionOptionsHandle, final long oldTransactionHandle); private native long getBaseDB(final long handle); @Override protected final native void disposeInternal(final long handle); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/OptimisticTransactionOptions.java000066400000000000000000000033261337235545400276200ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; public class OptimisticTransactionOptions extends RocksObject implements TransactionalOptions { public OptimisticTransactionOptions() { super(newOptimisticTransactionOptions()); } @Override public boolean isSetSnapshot() { assert(isOwningHandle()); return isSetSnapshot(nativeHandle_); } @Override public OptimisticTransactionOptions setSetSnapshot( final boolean setSnapshot) { assert(isOwningHandle()); setSetSnapshot(nativeHandle_, setSnapshot); return this; } /** * Should be set if the DB has a non-default comparator. * See comment in * {@link WriteBatchWithIndex#WriteBatchWithIndex(AbstractComparator, int, boolean)} * constructor. * * @param comparator The comparator to use for the transaction. * * @return this OptimisticTransactionOptions instance */ public OptimisticTransactionOptions setComparator( final AbstractComparator> comparator) { assert(isOwningHandle()); setComparator(nativeHandle_, comparator.nativeHandle_); return this; } private native static long newOptimisticTransactionOptions(); private native boolean isSetSnapshot(final long handle); private native void setSetSnapshot(final long handle, final boolean setSnapshot); private native void setComparator(final long handle, final long comparatorHandle); @Override protected final native void disposeInternal(final long handle); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/Options.java000066400000000000000000001637351337235545400233600ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import java.nio.file.Paths; import java.util.ArrayList; import java.util.Collection; import java.util.Collections; import java.util.List; /** * Options to control the behavior of a database. It will be used * during the creation of a {@link org.rocksdb.RocksDB} (i.e., RocksDB.open()). * * If {@link #dispose()} function is not called, then it will be GC'd * automaticallyand native resources will be released as part of the process. */ public class Options extends RocksObject implements DBOptionsInterface, ColumnFamilyOptionsInterface, MutableColumnFamilyOptionsInterface { static { RocksDB.loadLibrary(); } /** * Construct options for opening a RocksDB. * * This constructor will create (by allocating a block of memory) * an {@code rocksdb::Options} in the c++ side. */ public Options() { super(newOptions()); env_ = Env.getDefault(); } /** * Construct options for opening a RocksDB. Reusing database options * and column family options. * * @param dbOptions {@link org.rocksdb.DBOptions} instance * @param columnFamilyOptions {@link org.rocksdb.ColumnFamilyOptions} * instance */ public Options(final DBOptions dbOptions, final ColumnFamilyOptions columnFamilyOptions) { super(newOptions(dbOptions.nativeHandle_, columnFamilyOptions.nativeHandle_)); env_ = Env.getDefault(); } /** * Copy constructor for ColumnFamilyOptions. * * NOTE: This does a shallow copy, which means comparator, merge_operator * and other pointers will be cloned! * * @param other The Options to copy. */ public Options(Options other) { super(copyOptions(other.nativeHandle_)); this.env_ = other.env_; this.memTableConfig_ = other.memTableConfig_; this.tableFormatConfig_ = other.tableFormatConfig_; this.rateLimiter_ = other.rateLimiter_; this.comparator_ = other.comparator_; this.compactionOptionsUniversal_ = other.compactionOptionsUniversal_; this.compactionOptionsFIFO_ = other.compactionOptionsFIFO_; this.compressionOptions_ = other.compressionOptions_; this.rowCache_ = other.rowCache_; } @Override public Options setIncreaseParallelism(final int totalThreads) { assert(isOwningHandle()); setIncreaseParallelism(nativeHandle_, totalThreads); return this; } @Override public Options setCreateIfMissing(final boolean flag) { assert(isOwningHandle()); setCreateIfMissing(nativeHandle_, flag); return this; } @Override public Options setCreateMissingColumnFamilies(final boolean flag) { assert(isOwningHandle()); setCreateMissingColumnFamilies(nativeHandle_, flag); return this; } @Override public Options setEnv(final Env env) { assert(isOwningHandle()); setEnv(nativeHandle_, env.nativeHandle_); env_ = env; return this; } @Override public Env getEnv() { return env_; } /** *

    Set appropriate parameters for bulk loading. * The reason that this is a function that returns "this" instead of a * constructor is to enable chaining of multiple similar calls in the future. *

    * *

    All data will be in level 0 without any automatic compaction. * It's recommended to manually call CompactRange(NULL, NULL) before reading * from the database, because otherwise the read can be very slow.

    * * @return the instance of the current Options. */ public Options prepareForBulkLoad() { prepareForBulkLoad(nativeHandle_); return this; } @Override public boolean createIfMissing() { assert(isOwningHandle()); return createIfMissing(nativeHandle_); } @Override public boolean createMissingColumnFamilies() { assert(isOwningHandle()); return createMissingColumnFamilies(nativeHandle_); } @Override public Options optimizeForSmallDb() { optimizeForSmallDb(nativeHandle_); return this; } @Override public Options optimizeForPointLookup( long blockCacheSizeMb) { optimizeForPointLookup(nativeHandle_, blockCacheSizeMb); return this; } @Override public Options optimizeLevelStyleCompaction() { optimizeLevelStyleCompaction(nativeHandle_, DEFAULT_COMPACTION_MEMTABLE_MEMORY_BUDGET); return this; } @Override public Options optimizeLevelStyleCompaction( long memtableMemoryBudget) { optimizeLevelStyleCompaction(nativeHandle_, memtableMemoryBudget); return this; } @Override public Options optimizeUniversalStyleCompaction() { optimizeUniversalStyleCompaction(nativeHandle_, DEFAULT_COMPACTION_MEMTABLE_MEMORY_BUDGET); return this; } @Override public Options optimizeUniversalStyleCompaction( final long memtableMemoryBudget) { optimizeUniversalStyleCompaction(nativeHandle_, memtableMemoryBudget); return this; } @Override public Options setComparator(final BuiltinComparator builtinComparator) { assert(isOwningHandle()); setComparatorHandle(nativeHandle_, builtinComparator.ordinal()); return this; } @Override public Options setComparator( final AbstractComparator> comparator) { assert(isOwningHandle()); setComparatorHandle(nativeHandle_, comparator.nativeHandle_, comparator.getComparatorType().getValue()); comparator_ = comparator; return this; } @Override public Options setMergeOperatorName(final String name) { assert(isOwningHandle()); if (name == null) { throw new IllegalArgumentException( "Merge operator name must not be null."); } setMergeOperatorName(nativeHandle_, name); return this; } @Override public Options setMergeOperator(final MergeOperator mergeOperator) { setMergeOperator(nativeHandle_, mergeOperator.nativeHandle_); return this; } @Override public Options setWriteBufferSize(final long writeBufferSize) { assert(isOwningHandle()); setWriteBufferSize(nativeHandle_, writeBufferSize); return this; } @Override public long writeBufferSize() { assert(isOwningHandle()); return writeBufferSize(nativeHandle_); } @Override public Options setMaxWriteBufferNumber(final int maxWriteBufferNumber) { assert(isOwningHandle()); setMaxWriteBufferNumber(nativeHandle_, maxWriteBufferNumber); return this; } @Override public int maxWriteBufferNumber() { assert(isOwningHandle()); return maxWriteBufferNumber(nativeHandle_); } @Override public boolean errorIfExists() { assert(isOwningHandle()); return errorIfExists(nativeHandle_); } @Override public Options setErrorIfExists(final boolean errorIfExists) { assert(isOwningHandle()); setErrorIfExists(nativeHandle_, errorIfExists); return this; } @Override public boolean paranoidChecks() { assert(isOwningHandle()); return paranoidChecks(nativeHandle_); } @Override public Options setParanoidChecks(final boolean paranoidChecks) { assert(isOwningHandle()); setParanoidChecks(nativeHandle_, paranoidChecks); return this; } @Override public int maxOpenFiles() { assert(isOwningHandle()); return maxOpenFiles(nativeHandle_); } @Override public Options setMaxFileOpeningThreads(final int maxFileOpeningThreads) { assert(isOwningHandle()); setMaxFileOpeningThreads(nativeHandle_, maxFileOpeningThreads); return this; } @Override public int maxFileOpeningThreads() { assert(isOwningHandle()); return maxFileOpeningThreads(nativeHandle_); } @Override public Options setMaxTotalWalSize(final long maxTotalWalSize) { assert(isOwningHandle()); setMaxTotalWalSize(nativeHandle_, maxTotalWalSize); return this; } @Override public long maxTotalWalSize() { assert(isOwningHandle()); return maxTotalWalSize(nativeHandle_); } @Override public Options setMaxOpenFiles(final int maxOpenFiles) { assert(isOwningHandle()); setMaxOpenFiles(nativeHandle_, maxOpenFiles); return this; } @Override public boolean useFsync() { assert(isOwningHandle()); return useFsync(nativeHandle_); } @Override public Options setUseFsync(final boolean useFsync) { assert(isOwningHandle()); setUseFsync(nativeHandle_, useFsync); return this; } @Override public Options setDbPaths(final Collection dbPaths) { assert(isOwningHandle()); final int len = dbPaths.size(); final String paths[] = new String[len]; final long targetSizes[] = new long[len]; int i = 0; for(final DbPath dbPath : dbPaths) { paths[i] = dbPath.path.toString(); targetSizes[i] = dbPath.targetSize; i++; } setDbPaths(nativeHandle_, paths, targetSizes); return this; } @Override public List dbPaths() { final int len = (int)dbPathsLen(nativeHandle_); if(len == 0) { return Collections.emptyList(); } else { final String paths[] = new String[len]; final long targetSizes[] = new long[len]; dbPaths(nativeHandle_, paths, targetSizes); final List dbPaths = new ArrayList<>(); for(int i = 0; i < len; i++) { dbPaths.add(new DbPath(Paths.get(paths[i]), targetSizes[i])); } return dbPaths; } } @Override public String dbLogDir() { assert(isOwningHandle()); return dbLogDir(nativeHandle_); } @Override public Options setDbLogDir(final String dbLogDir) { assert(isOwningHandle()); setDbLogDir(nativeHandle_, dbLogDir); return this; } @Override public String walDir() { assert(isOwningHandle()); return walDir(nativeHandle_); } @Override public Options setWalDir(final String walDir) { assert(isOwningHandle()); setWalDir(nativeHandle_, walDir); return this; } @Override public long deleteObsoleteFilesPeriodMicros() { assert(isOwningHandle()); return deleteObsoleteFilesPeriodMicros(nativeHandle_); } @Override public Options setDeleteObsoleteFilesPeriodMicros( final long micros) { assert(isOwningHandle()); setDeleteObsoleteFilesPeriodMicros(nativeHandle_, micros); return this; } @Override public int maxBackgroundCompactions() { assert(isOwningHandle()); return maxBackgroundCompactions(nativeHandle_); } @Override public Options setStatistics(final Statistics statistics) { assert(isOwningHandle()); setStatistics(nativeHandle_, statistics.nativeHandle_); return this; } @Override public Statistics statistics() { assert(isOwningHandle()); final long statisticsNativeHandle = statistics(nativeHandle_); if(statisticsNativeHandle == 0) { return null; } else { return new Statistics(statisticsNativeHandle); } } @Override public void setBaseBackgroundCompactions( final int baseBackgroundCompactions) { assert(isOwningHandle()); setBaseBackgroundCompactions(nativeHandle_, baseBackgroundCompactions); } @Override public int baseBackgroundCompactions() { assert(isOwningHandle()); return baseBackgroundCompactions(nativeHandle_); } @Override public Options setMaxBackgroundCompactions( final int maxBackgroundCompactions) { assert(isOwningHandle()); setMaxBackgroundCompactions(nativeHandle_, maxBackgroundCompactions); return this; } @Override public void setMaxSubcompactions(final int maxSubcompactions) { assert(isOwningHandle()); setMaxSubcompactions(nativeHandle_, maxSubcompactions); } @Override public int maxSubcompactions() { assert(isOwningHandle()); return maxSubcompactions(nativeHandle_); } @Override public int maxBackgroundFlushes() { assert(isOwningHandle()); return maxBackgroundFlushes(nativeHandle_); } @Override public Options setMaxBackgroundFlushes( final int maxBackgroundFlushes) { assert(isOwningHandle()); setMaxBackgroundFlushes(nativeHandle_, maxBackgroundFlushes); return this; } @Override public int maxBackgroundJobs() { assert(isOwningHandle()); return maxBackgroundJobs(nativeHandle_); } @Override public Options setMaxBackgroundJobs(final int maxBackgroundJobs) { assert(isOwningHandle()); setMaxBackgroundJobs(nativeHandle_, maxBackgroundJobs); return this; } @Override public long maxLogFileSize() { assert(isOwningHandle()); return maxLogFileSize(nativeHandle_); } @Override public Options setMaxLogFileSize(final long maxLogFileSize) { assert(isOwningHandle()); setMaxLogFileSize(nativeHandle_, maxLogFileSize); return this; } @Override public long logFileTimeToRoll() { assert(isOwningHandle()); return logFileTimeToRoll(nativeHandle_); } @Override public Options setLogFileTimeToRoll(final long logFileTimeToRoll) { assert(isOwningHandle()); setLogFileTimeToRoll(nativeHandle_, logFileTimeToRoll); return this; } @Override public long keepLogFileNum() { assert(isOwningHandle()); return keepLogFileNum(nativeHandle_); } @Override public Options setKeepLogFileNum(final long keepLogFileNum) { assert(isOwningHandle()); setKeepLogFileNum(nativeHandle_, keepLogFileNum); return this; } @Override public Options setRecycleLogFileNum(final long recycleLogFileNum) { assert(isOwningHandle()); setRecycleLogFileNum(nativeHandle_, recycleLogFileNum); return this; } @Override public long recycleLogFileNum() { assert(isOwningHandle()); return recycleLogFileNum(nativeHandle_); } @Override public long maxManifestFileSize() { assert(isOwningHandle()); return maxManifestFileSize(nativeHandle_); } @Override public Options setMaxManifestFileSize( final long maxManifestFileSize) { assert(isOwningHandle()); setMaxManifestFileSize(nativeHandle_, maxManifestFileSize); return this; } @Override public Options setMaxTableFilesSizeFIFO( final long maxTableFilesSize) { assert(maxTableFilesSize > 0); // unsigned native type assert(isOwningHandle()); setMaxTableFilesSizeFIFO(nativeHandle_, maxTableFilesSize); return this; } @Override public long maxTableFilesSizeFIFO() { return maxTableFilesSizeFIFO(nativeHandle_); } @Override public int tableCacheNumshardbits() { assert(isOwningHandle()); return tableCacheNumshardbits(nativeHandle_); } @Override public Options setTableCacheNumshardbits( final int tableCacheNumshardbits) { assert(isOwningHandle()); setTableCacheNumshardbits(nativeHandle_, tableCacheNumshardbits); return this; } @Override public long walTtlSeconds() { assert(isOwningHandle()); return walTtlSeconds(nativeHandle_); } @Override public Options setWalTtlSeconds(final long walTtlSeconds) { assert(isOwningHandle()); setWalTtlSeconds(nativeHandle_, walTtlSeconds); return this; } @Override public long walSizeLimitMB() { assert(isOwningHandle()); return walSizeLimitMB(nativeHandle_); } @Override public Options setWalSizeLimitMB(final long sizeLimitMB) { assert(isOwningHandle()); setWalSizeLimitMB(nativeHandle_, sizeLimitMB); return this; } @Override public long manifestPreallocationSize() { assert(isOwningHandle()); return manifestPreallocationSize(nativeHandle_); } @Override public Options setManifestPreallocationSize(final long size) { assert(isOwningHandle()); setManifestPreallocationSize(nativeHandle_, size); return this; } @Override public Options setUseDirectReads(final boolean useDirectReads) { assert(isOwningHandle()); setUseDirectReads(nativeHandle_, useDirectReads); return this; } @Override public boolean useDirectReads() { assert(isOwningHandle()); return useDirectReads(nativeHandle_); } @Override public Options setUseDirectIoForFlushAndCompaction( final boolean useDirectIoForFlushAndCompaction) { assert(isOwningHandle()); setUseDirectIoForFlushAndCompaction(nativeHandle_, useDirectIoForFlushAndCompaction); return this; } @Override public boolean useDirectIoForFlushAndCompaction() { assert(isOwningHandle()); return useDirectIoForFlushAndCompaction(nativeHandle_); } @Override public Options setAllowFAllocate(final boolean allowFAllocate) { assert(isOwningHandle()); setAllowFAllocate(nativeHandle_, allowFAllocate); return this; } @Override public boolean allowFAllocate() { assert(isOwningHandle()); return allowFAllocate(nativeHandle_); } @Override public boolean allowMmapReads() { assert(isOwningHandle()); return allowMmapReads(nativeHandle_); } @Override public Options setAllowMmapReads(final boolean allowMmapReads) { assert(isOwningHandle()); setAllowMmapReads(nativeHandle_, allowMmapReads); return this; } @Override public boolean allowMmapWrites() { assert(isOwningHandle()); return allowMmapWrites(nativeHandle_); } @Override public Options setAllowMmapWrites(final boolean allowMmapWrites) { assert(isOwningHandle()); setAllowMmapWrites(nativeHandle_, allowMmapWrites); return this; } @Override public boolean isFdCloseOnExec() { assert(isOwningHandle()); return isFdCloseOnExec(nativeHandle_); } @Override public Options setIsFdCloseOnExec(final boolean isFdCloseOnExec) { assert(isOwningHandle()); setIsFdCloseOnExec(nativeHandle_, isFdCloseOnExec); return this; } @Override public int statsDumpPeriodSec() { assert(isOwningHandle()); return statsDumpPeriodSec(nativeHandle_); } @Override public Options setStatsDumpPeriodSec(final int statsDumpPeriodSec) { assert(isOwningHandle()); setStatsDumpPeriodSec(nativeHandle_, statsDumpPeriodSec); return this; } @Override public boolean adviseRandomOnOpen() { return adviseRandomOnOpen(nativeHandle_); } @Override public Options setAdviseRandomOnOpen(final boolean adviseRandomOnOpen) { assert(isOwningHandle()); setAdviseRandomOnOpen(nativeHandle_, adviseRandomOnOpen); return this; } @Override public Options setDbWriteBufferSize(final long dbWriteBufferSize) { assert(isOwningHandle()); setDbWriteBufferSize(nativeHandle_, dbWriteBufferSize); return this; } @Override public long dbWriteBufferSize() { assert(isOwningHandle()); return dbWriteBufferSize(nativeHandle_); } @Override public Options setAccessHintOnCompactionStart(final AccessHint accessHint) { assert(isOwningHandle()); setAccessHintOnCompactionStart(nativeHandle_, accessHint.getValue()); return this; } @Override public AccessHint accessHintOnCompactionStart() { assert(isOwningHandle()); return AccessHint.getAccessHint(accessHintOnCompactionStart(nativeHandle_)); } @Override public Options setNewTableReaderForCompactionInputs( final boolean newTableReaderForCompactionInputs) { assert(isOwningHandle()); setNewTableReaderForCompactionInputs(nativeHandle_, newTableReaderForCompactionInputs); return this; } @Override public boolean newTableReaderForCompactionInputs() { assert(isOwningHandle()); return newTableReaderForCompactionInputs(nativeHandle_); } @Override public Options setCompactionReadaheadSize(final long compactionReadaheadSize) { assert(isOwningHandle()); setCompactionReadaheadSize(nativeHandle_, compactionReadaheadSize); return this; } @Override public long compactionReadaheadSize() { assert(isOwningHandle()); return compactionReadaheadSize(nativeHandle_); } @Override public Options setRandomAccessMaxBufferSize(final long randomAccessMaxBufferSize) { assert(isOwningHandle()); setRandomAccessMaxBufferSize(nativeHandle_, randomAccessMaxBufferSize); return this; } @Override public long randomAccessMaxBufferSize() { assert(isOwningHandle()); return randomAccessMaxBufferSize(nativeHandle_); } @Override public Options setWritableFileMaxBufferSize(final long writableFileMaxBufferSize) { assert(isOwningHandle()); setWritableFileMaxBufferSize(nativeHandle_, writableFileMaxBufferSize); return this; } @Override public long writableFileMaxBufferSize() { assert(isOwningHandle()); return writableFileMaxBufferSize(nativeHandle_); } @Override public boolean useAdaptiveMutex() { assert(isOwningHandle()); return useAdaptiveMutex(nativeHandle_); } @Override public Options setUseAdaptiveMutex(final boolean useAdaptiveMutex) { assert(isOwningHandle()); setUseAdaptiveMutex(nativeHandle_, useAdaptiveMutex); return this; } @Override public long bytesPerSync() { return bytesPerSync(nativeHandle_); } @Override public Options setBytesPerSync(final long bytesPerSync) { assert(isOwningHandle()); setBytesPerSync(nativeHandle_, bytesPerSync); return this; } @Override public Options setWalBytesPerSync(final long walBytesPerSync) { assert(isOwningHandle()); setWalBytesPerSync(nativeHandle_, walBytesPerSync); return this; } @Override public long walBytesPerSync() { assert(isOwningHandle()); return walBytesPerSync(nativeHandle_); } @Override public Options setEnableThreadTracking(final boolean enableThreadTracking) { assert(isOwningHandle()); setEnableThreadTracking(nativeHandle_, enableThreadTracking); return this; } @Override public boolean enableThreadTracking() { assert(isOwningHandle()); return enableThreadTracking(nativeHandle_); } @Override public Options setDelayedWriteRate(final long delayedWriteRate) { assert(isOwningHandle()); setDelayedWriteRate(nativeHandle_, delayedWriteRate); return this; } @Override public long delayedWriteRate(){ return delayedWriteRate(nativeHandle_); } @Override public Options setAllowConcurrentMemtableWrite( final boolean allowConcurrentMemtableWrite) { setAllowConcurrentMemtableWrite(nativeHandle_, allowConcurrentMemtableWrite); return this; } @Override public boolean allowConcurrentMemtableWrite() { return allowConcurrentMemtableWrite(nativeHandle_); } @Override public Options setEnableWriteThreadAdaptiveYield( final boolean enableWriteThreadAdaptiveYield) { setEnableWriteThreadAdaptiveYield(nativeHandle_, enableWriteThreadAdaptiveYield); return this; } @Override public boolean enableWriteThreadAdaptiveYield() { return enableWriteThreadAdaptiveYield(nativeHandle_); } @Override public Options setWriteThreadMaxYieldUsec(final long writeThreadMaxYieldUsec) { setWriteThreadMaxYieldUsec(nativeHandle_, writeThreadMaxYieldUsec); return this; } @Override public long writeThreadMaxYieldUsec() { return writeThreadMaxYieldUsec(nativeHandle_); } @Override public Options setWriteThreadSlowYieldUsec(final long writeThreadSlowYieldUsec) { setWriteThreadSlowYieldUsec(nativeHandle_, writeThreadSlowYieldUsec); return this; } @Override public long writeThreadSlowYieldUsec() { return writeThreadSlowYieldUsec(nativeHandle_); } @Override public Options setSkipStatsUpdateOnDbOpen(final boolean skipStatsUpdateOnDbOpen) { assert(isOwningHandle()); setSkipStatsUpdateOnDbOpen(nativeHandle_, skipStatsUpdateOnDbOpen); return this; } @Override public boolean skipStatsUpdateOnDbOpen() { assert(isOwningHandle()); return skipStatsUpdateOnDbOpen(nativeHandle_); } @Override public Options setWalRecoveryMode(final WALRecoveryMode walRecoveryMode) { assert(isOwningHandle()); setWalRecoveryMode(nativeHandle_, walRecoveryMode.getValue()); return this; } @Override public WALRecoveryMode walRecoveryMode() { assert(isOwningHandle()); return WALRecoveryMode.getWALRecoveryMode(walRecoveryMode(nativeHandle_)); } @Override public Options setAllow2pc(final boolean allow2pc) { assert(isOwningHandle()); setAllow2pc(nativeHandle_, allow2pc); return this; } @Override public boolean allow2pc() { assert(isOwningHandle()); return allow2pc(nativeHandle_); } @Override public Options setRowCache(final Cache rowCache) { assert(isOwningHandle()); setRowCache(nativeHandle_, rowCache.nativeHandle_); this.rowCache_ = rowCache; return this; } @Override public Cache rowCache() { assert(isOwningHandle()); return this.rowCache_; } @Override public Options setFailIfOptionsFileError(final boolean failIfOptionsFileError) { assert(isOwningHandle()); setFailIfOptionsFileError(nativeHandle_, failIfOptionsFileError); return this; } @Override public boolean failIfOptionsFileError() { assert(isOwningHandle()); return failIfOptionsFileError(nativeHandle_); } @Override public Options setDumpMallocStats(final boolean dumpMallocStats) { assert(isOwningHandle()); setDumpMallocStats(nativeHandle_, dumpMallocStats); return this; } @Override public boolean dumpMallocStats() { assert(isOwningHandle()); return dumpMallocStats(nativeHandle_); } @Override public Options setAvoidFlushDuringRecovery(final boolean avoidFlushDuringRecovery) { assert(isOwningHandle()); setAvoidFlushDuringRecovery(nativeHandle_, avoidFlushDuringRecovery); return this; } @Override public boolean avoidFlushDuringRecovery() { assert(isOwningHandle()); return avoidFlushDuringRecovery(nativeHandle_); } @Override public Options setAvoidFlushDuringShutdown(final boolean avoidFlushDuringShutdown) { assert(isOwningHandle()); setAvoidFlushDuringShutdown(nativeHandle_, avoidFlushDuringShutdown); return this; } @Override public boolean avoidFlushDuringShutdown() { assert(isOwningHandle()); return avoidFlushDuringShutdown(nativeHandle_); } @Override public MemTableConfig memTableConfig() { return this.memTableConfig_; } @Override public Options setMemTableConfig(final MemTableConfig config) { memTableConfig_ = config; setMemTableFactory(nativeHandle_, config.newMemTableFactoryHandle()); return this; } @Override public Options setRateLimiter(final RateLimiter rateLimiter) { assert(isOwningHandle()); rateLimiter_ = rateLimiter; setRateLimiter(nativeHandle_, rateLimiter.nativeHandle_); return this; } @Override public Options setSstFileManager(final SstFileManager sstFileManager) { assert(isOwningHandle()); setSstFileManager(nativeHandle_, sstFileManager.nativeHandle_); return this; } @Override public Options setLogger(final Logger logger) { assert(isOwningHandle()); setLogger(nativeHandle_, logger.nativeHandle_); return this; } @Override public Options setInfoLogLevel(final InfoLogLevel infoLogLevel) { assert(isOwningHandle()); setInfoLogLevel(nativeHandle_, infoLogLevel.getValue()); return this; } @Override public InfoLogLevel infoLogLevel() { assert(isOwningHandle()); return InfoLogLevel.getInfoLogLevel( infoLogLevel(nativeHandle_)); } @Override public String memTableFactoryName() { assert(isOwningHandle()); return memTableFactoryName(nativeHandle_); } @Override public TableFormatConfig tableFormatConfig() { return this.tableFormatConfig_; } @Override public Options setTableFormatConfig(final TableFormatConfig config) { tableFormatConfig_ = config; setTableFactory(nativeHandle_, config.newTableFactoryHandle()); return this; } @Override public String tableFactoryName() { assert(isOwningHandle()); return tableFactoryName(nativeHandle_); } @Override public Options useFixedLengthPrefixExtractor(final int n) { assert(isOwningHandle()); useFixedLengthPrefixExtractor(nativeHandle_, n); return this; } @Override public Options useCappedPrefixExtractor(final int n) { assert(isOwningHandle()); useCappedPrefixExtractor(nativeHandle_, n); return this; } @Override public CompressionType compressionType() { return CompressionType.getCompressionType(compressionType(nativeHandle_)); } @Override public Options setCompressionPerLevel( final List compressionLevels) { final byte[] byteCompressionTypes = new byte[ compressionLevels.size()]; for (int i = 0; i < compressionLevels.size(); i++) { byteCompressionTypes[i] = compressionLevels.get(i).getValue(); } setCompressionPerLevel(nativeHandle_, byteCompressionTypes); return this; } @Override public List compressionPerLevel() { final byte[] byteCompressionTypes = compressionPerLevel(nativeHandle_); final List compressionLevels = new ArrayList<>(); for (final Byte byteCompressionType : byteCompressionTypes) { compressionLevels.add(CompressionType.getCompressionType( byteCompressionType)); } return compressionLevels; } @Override public Options setCompressionType(CompressionType compressionType) { setCompressionType(nativeHandle_, compressionType.getValue()); return this; } @Override public Options setBottommostCompressionType( final CompressionType bottommostCompressionType) { setBottommostCompressionType(nativeHandle_, bottommostCompressionType.getValue()); return this; } @Override public CompressionType bottommostCompressionType() { return CompressionType.getCompressionType( bottommostCompressionType(nativeHandle_)); } @Override public Options setCompressionOptions( final CompressionOptions compressionOptions) { setCompressionOptions(nativeHandle_, compressionOptions.nativeHandle_); this.compressionOptions_ = compressionOptions; return this; } @Override public CompressionOptions compressionOptions() { return this.compressionOptions_; } @Override public CompactionStyle compactionStyle() { return CompactionStyle.values()[compactionStyle(nativeHandle_)]; } @Override public Options setCompactionStyle( final CompactionStyle compactionStyle) { setCompactionStyle(nativeHandle_, compactionStyle.getValue()); return this; } @Override public int numLevels() { return numLevels(nativeHandle_); } @Override public Options setNumLevels(int numLevels) { setNumLevels(nativeHandle_, numLevels); return this; } @Override public int levelZeroFileNumCompactionTrigger() { return levelZeroFileNumCompactionTrigger(nativeHandle_); } @Override public Options setLevelZeroFileNumCompactionTrigger( final int numFiles) { setLevelZeroFileNumCompactionTrigger( nativeHandle_, numFiles); return this; } @Override public int levelZeroSlowdownWritesTrigger() { return levelZeroSlowdownWritesTrigger(nativeHandle_); } @Override public Options setLevelZeroSlowdownWritesTrigger( final int numFiles) { setLevelZeroSlowdownWritesTrigger(nativeHandle_, numFiles); return this; } @Override public int levelZeroStopWritesTrigger() { return levelZeroStopWritesTrigger(nativeHandle_); } @Override public Options setLevelZeroStopWritesTrigger( final int numFiles) { setLevelZeroStopWritesTrigger(nativeHandle_, numFiles); return this; } @Override public long targetFileSizeBase() { return targetFileSizeBase(nativeHandle_); } @Override public Options setTargetFileSizeBase(long targetFileSizeBase) { setTargetFileSizeBase(nativeHandle_, targetFileSizeBase); return this; } @Override public int targetFileSizeMultiplier() { return targetFileSizeMultiplier(nativeHandle_); } @Override public Options setTargetFileSizeMultiplier(int multiplier) { setTargetFileSizeMultiplier(nativeHandle_, multiplier); return this; } @Override public Options setMaxBytesForLevelBase(final long maxBytesForLevelBase) { setMaxBytesForLevelBase(nativeHandle_, maxBytesForLevelBase); return this; } @Override public long maxBytesForLevelBase() { return maxBytesForLevelBase(nativeHandle_); } @Override public Options setLevelCompactionDynamicLevelBytes( final boolean enableLevelCompactionDynamicLevelBytes) { setLevelCompactionDynamicLevelBytes(nativeHandle_, enableLevelCompactionDynamicLevelBytes); return this; } @Override public boolean levelCompactionDynamicLevelBytes() { return levelCompactionDynamicLevelBytes(nativeHandle_); } @Override public double maxBytesForLevelMultiplier() { return maxBytesForLevelMultiplier(nativeHandle_); } @Override public Options setMaxBytesForLevelMultiplier(final double multiplier) { setMaxBytesForLevelMultiplier(nativeHandle_, multiplier); return this; } @Override public long maxCompactionBytes() { return maxCompactionBytes(nativeHandle_); } @Override public Options setMaxCompactionBytes(final long maxCompactionBytes) { setMaxCompactionBytes(nativeHandle_, maxCompactionBytes); return this; } @Override public long arenaBlockSize() { return arenaBlockSize(nativeHandle_); } @Override public Options setArenaBlockSize(final long arenaBlockSize) { setArenaBlockSize(nativeHandle_, arenaBlockSize); return this; } @Override public boolean disableAutoCompactions() { return disableAutoCompactions(nativeHandle_); } @Override public Options setDisableAutoCompactions( final boolean disableAutoCompactions) { setDisableAutoCompactions(nativeHandle_, disableAutoCompactions); return this; } @Override public long maxSequentialSkipInIterations() { return maxSequentialSkipInIterations(nativeHandle_); } @Override public Options setMaxSequentialSkipInIterations( final long maxSequentialSkipInIterations) { setMaxSequentialSkipInIterations(nativeHandle_, maxSequentialSkipInIterations); return this; } @Override public boolean inplaceUpdateSupport() { return inplaceUpdateSupport(nativeHandle_); } @Override public Options setInplaceUpdateSupport( final boolean inplaceUpdateSupport) { setInplaceUpdateSupport(nativeHandle_, inplaceUpdateSupport); return this; } @Override public long inplaceUpdateNumLocks() { return inplaceUpdateNumLocks(nativeHandle_); } @Override public Options setInplaceUpdateNumLocks( final long inplaceUpdateNumLocks) { setInplaceUpdateNumLocks(nativeHandle_, inplaceUpdateNumLocks); return this; } @Override public double memtablePrefixBloomSizeRatio() { return memtablePrefixBloomSizeRatio(nativeHandle_); } @Override public Options setMemtablePrefixBloomSizeRatio(final double memtablePrefixBloomSizeRatio) { setMemtablePrefixBloomSizeRatio(nativeHandle_, memtablePrefixBloomSizeRatio); return this; } @Override public int bloomLocality() { return bloomLocality(nativeHandle_); } @Override public Options setBloomLocality(final int bloomLocality) { setBloomLocality(nativeHandle_, bloomLocality); return this; } @Override public long maxSuccessiveMerges() { return maxSuccessiveMerges(nativeHandle_); } @Override public Options setMaxSuccessiveMerges(long maxSuccessiveMerges) { setMaxSuccessiveMerges(nativeHandle_, maxSuccessiveMerges); return this; } @Override public int minWriteBufferNumberToMerge() { return minWriteBufferNumberToMerge(nativeHandle_); } @Override public Options setMinWriteBufferNumberToMerge( final int minWriteBufferNumberToMerge) { setMinWriteBufferNumberToMerge(nativeHandle_, minWriteBufferNumberToMerge); return this; } @Override public Options setOptimizeFiltersForHits( final boolean optimizeFiltersForHits) { setOptimizeFiltersForHits(nativeHandle_, optimizeFiltersForHits); return this; } @Override public boolean optimizeFiltersForHits() { return optimizeFiltersForHits(nativeHandle_); } @Override public Options setMemtableHugePageSize( long memtableHugePageSize) { setMemtableHugePageSize(nativeHandle_, memtableHugePageSize); return this; } @Override public long memtableHugePageSize() { return memtableHugePageSize(nativeHandle_); } @Override public Options setSoftPendingCompactionBytesLimit(long softPendingCompactionBytesLimit) { setSoftPendingCompactionBytesLimit(nativeHandle_, softPendingCompactionBytesLimit); return this; } @Override public long softPendingCompactionBytesLimit() { return softPendingCompactionBytesLimit(nativeHandle_); } @Override public Options setHardPendingCompactionBytesLimit(long hardPendingCompactionBytesLimit) { setHardPendingCompactionBytesLimit(nativeHandle_, hardPendingCompactionBytesLimit); return this; } @Override public long hardPendingCompactionBytesLimit() { return hardPendingCompactionBytesLimit(nativeHandle_); } @Override public Options setLevel0FileNumCompactionTrigger(int level0FileNumCompactionTrigger) { setLevel0FileNumCompactionTrigger(nativeHandle_, level0FileNumCompactionTrigger); return this; } @Override public int level0FileNumCompactionTrigger() { return level0FileNumCompactionTrigger(nativeHandle_); } @Override public Options setLevel0SlowdownWritesTrigger(int level0SlowdownWritesTrigger) { setLevel0SlowdownWritesTrigger(nativeHandle_, level0SlowdownWritesTrigger); return this; } @Override public int level0SlowdownWritesTrigger() { return level0SlowdownWritesTrigger(nativeHandle_); } @Override public Options setLevel0StopWritesTrigger(int level0StopWritesTrigger) { setLevel0StopWritesTrigger(nativeHandle_, level0StopWritesTrigger); return this; } @Override public int level0StopWritesTrigger() { return level0StopWritesTrigger(nativeHandle_); } @Override public Options setMaxBytesForLevelMultiplierAdditional(int[] maxBytesForLevelMultiplierAdditional) { setMaxBytesForLevelMultiplierAdditional(nativeHandle_, maxBytesForLevelMultiplierAdditional); return this; } @Override public int[] maxBytesForLevelMultiplierAdditional() { return maxBytesForLevelMultiplierAdditional(nativeHandle_); } @Override public Options setParanoidFileChecks(boolean paranoidFileChecks) { setParanoidFileChecks(nativeHandle_, paranoidFileChecks); return this; } @Override public boolean paranoidFileChecks() { return paranoidFileChecks(nativeHandle_); } @Override public Options setMaxWriteBufferNumberToMaintain( final int maxWriteBufferNumberToMaintain) { setMaxWriteBufferNumberToMaintain( nativeHandle_, maxWriteBufferNumberToMaintain); return this; } @Override public int maxWriteBufferNumberToMaintain() { return maxWriteBufferNumberToMaintain(nativeHandle_); } @Override public Options setCompactionPriority( final CompactionPriority compactionPriority) { setCompactionPriority(nativeHandle_, compactionPriority.getValue()); return this; } @Override public CompactionPriority compactionPriority() { return CompactionPriority.getCompactionPriority( compactionPriority(nativeHandle_)); } @Override public Options setReportBgIoStats(final boolean reportBgIoStats) { setReportBgIoStats(nativeHandle_, reportBgIoStats); return this; } @Override public boolean reportBgIoStats() { return reportBgIoStats(nativeHandle_); } @Override public Options setCompactionOptionsUniversal( final CompactionOptionsUniversal compactionOptionsUniversal) { setCompactionOptionsUniversal(nativeHandle_, compactionOptionsUniversal.nativeHandle_); this.compactionOptionsUniversal_ = compactionOptionsUniversal; return this; } @Override public CompactionOptionsUniversal compactionOptionsUniversal() { return this.compactionOptionsUniversal_; } @Override public Options setCompactionOptionsFIFO(final CompactionOptionsFIFO compactionOptionsFIFO) { setCompactionOptionsFIFO(nativeHandle_, compactionOptionsFIFO.nativeHandle_); this.compactionOptionsFIFO_ = compactionOptionsFIFO; return this; } @Override public CompactionOptionsFIFO compactionOptionsFIFO() { return this.compactionOptionsFIFO_; } @Override public Options setForceConsistencyChecks(final boolean forceConsistencyChecks) { setForceConsistencyChecks(nativeHandle_, forceConsistencyChecks); return this; } @Override public boolean forceConsistencyChecks() { return forceConsistencyChecks(nativeHandle_); } private native static long newOptions(); private native static long newOptions(long dbOptHandle, long cfOptHandle); private native static long copyOptions(long handle); @Override protected final native void disposeInternal(final long handle); private native void setEnv(long optHandle, long envHandle); private native void prepareForBulkLoad(long handle); // DB native handles private native void setIncreaseParallelism(long handle, int totalThreads); private native void setCreateIfMissing(long handle, boolean flag); private native boolean createIfMissing(long handle); private native void setCreateMissingColumnFamilies( long handle, boolean flag); private native boolean createMissingColumnFamilies(long handle); private native void setErrorIfExists(long handle, boolean errorIfExists); private native boolean errorIfExists(long handle); private native void setParanoidChecks( long handle, boolean paranoidChecks); private native boolean paranoidChecks(long handle); private native void setRateLimiter(long handle, long rateLimiterHandle); private native void setSstFileManager(final long handle, final long sstFileManagerHandle); private native void setLogger(long handle, long loggerHandle); private native void setInfoLogLevel(long handle, byte logLevel); private native byte infoLogLevel(long handle); private native void setMaxOpenFiles(long handle, int maxOpenFiles); private native int maxOpenFiles(long handle); private native void setMaxTotalWalSize(long handle, long maxTotalWalSize); private native void setMaxFileOpeningThreads(final long handle, final int maxFileOpeningThreads); private native int maxFileOpeningThreads(final long handle); private native long maxTotalWalSize(long handle); private native void setStatistics(final long handle, final long statisticsHandle); private native long statistics(final long handle); private native boolean useFsync(long handle); private native void setUseFsync(long handle, boolean useFsync); private native void setDbPaths(final long handle, final String[] paths, final long[] targetSizes); private native long dbPathsLen(final long handle); private native void dbPaths(final long handle, final String[] paths, final long[] targetSizes); private native void setDbLogDir(long handle, String dbLogDir); private native String dbLogDir(long handle); private native void setWalDir(long handle, String walDir); private native String walDir(long handle); private native void setDeleteObsoleteFilesPeriodMicros( long handle, long micros); private native long deleteObsoleteFilesPeriodMicros(long handle); private native void setBaseBackgroundCompactions(long handle, int baseBackgroundCompactions); private native int baseBackgroundCompactions(long handle); private native void setMaxBackgroundCompactions( long handle, int maxBackgroundCompactions); private native int maxBackgroundCompactions(long handle); private native void setMaxSubcompactions(long handle, int maxSubcompactions); private native int maxSubcompactions(long handle); private native void setMaxBackgroundFlushes( long handle, int maxBackgroundFlushes); private native int maxBackgroundFlushes(long handle); private native void setMaxBackgroundJobs(long handle, int maxMaxBackgroundJobs); private native int maxBackgroundJobs(long handle); private native void setMaxLogFileSize(long handle, long maxLogFileSize) throws IllegalArgumentException; private native long maxLogFileSize(long handle); private native void setLogFileTimeToRoll( long handle, long logFileTimeToRoll) throws IllegalArgumentException; private native long logFileTimeToRoll(long handle); private native void setKeepLogFileNum(long handle, long keepLogFileNum) throws IllegalArgumentException; private native long keepLogFileNum(long handle); private native void setRecycleLogFileNum(long handle, long recycleLogFileNum); private native long recycleLogFileNum(long handle); private native void setMaxManifestFileSize( long handle, long maxManifestFileSize); private native long maxManifestFileSize(long handle); private native void setMaxTableFilesSizeFIFO( long handle, long maxTableFilesSize); private native long maxTableFilesSizeFIFO(long handle); private native void setTableCacheNumshardbits( long handle, int tableCacheNumshardbits); private native int tableCacheNumshardbits(long handle); private native void setWalTtlSeconds(long handle, long walTtlSeconds); private native long walTtlSeconds(long handle); private native void setWalSizeLimitMB(long handle, long sizeLimitMB); private native long walSizeLimitMB(long handle); private native void setManifestPreallocationSize( long handle, long size) throws IllegalArgumentException; private native long manifestPreallocationSize(long handle); private native void setUseDirectReads(long handle, boolean useDirectReads); private native boolean useDirectReads(long handle); private native void setUseDirectIoForFlushAndCompaction( long handle, boolean useDirectIoForFlushAndCompaction); private native boolean useDirectIoForFlushAndCompaction(long handle); private native void setAllowFAllocate(final long handle, final boolean allowFAllocate); private native boolean allowFAllocate(final long handle); private native void setAllowMmapReads( long handle, boolean allowMmapReads); private native boolean allowMmapReads(long handle); private native void setAllowMmapWrites( long handle, boolean allowMmapWrites); private native boolean allowMmapWrites(long handle); private native void setIsFdCloseOnExec( long handle, boolean isFdCloseOnExec); private native boolean isFdCloseOnExec(long handle); private native void setStatsDumpPeriodSec( long handle, int statsDumpPeriodSec); private native int statsDumpPeriodSec(long handle); private native void setAdviseRandomOnOpen( long handle, boolean adviseRandomOnOpen); private native boolean adviseRandomOnOpen(long handle); private native void setDbWriteBufferSize(final long handle, final long dbWriteBufferSize); private native long dbWriteBufferSize(final long handle); private native void setAccessHintOnCompactionStart(final long handle, final byte accessHintOnCompactionStart); private native byte accessHintOnCompactionStart(final long handle); private native void setNewTableReaderForCompactionInputs(final long handle, final boolean newTableReaderForCompactionInputs); private native boolean newTableReaderForCompactionInputs(final long handle); private native void setCompactionReadaheadSize(final long handle, final long compactionReadaheadSize); private native long compactionReadaheadSize(final long handle); private native void setRandomAccessMaxBufferSize(final long handle, final long randomAccessMaxBufferSize); private native long randomAccessMaxBufferSize(final long handle); private native void setWritableFileMaxBufferSize(final long handle, final long writableFileMaxBufferSize); private native long writableFileMaxBufferSize(final long handle); private native void setUseAdaptiveMutex( long handle, boolean useAdaptiveMutex); private native boolean useAdaptiveMutex(long handle); private native void setBytesPerSync( long handle, long bytesPerSync); private native long bytesPerSync(long handle); private native void setWalBytesPerSync(long handle, long walBytesPerSync); private native long walBytesPerSync(long handle); private native void setEnableThreadTracking(long handle, boolean enableThreadTracking); private native boolean enableThreadTracking(long handle); private native void setDelayedWriteRate(long handle, long delayedWriteRate); private native long delayedWriteRate(long handle); private native void setAllowConcurrentMemtableWrite(long handle, boolean allowConcurrentMemtableWrite); private native boolean allowConcurrentMemtableWrite(long handle); private native void setEnableWriteThreadAdaptiveYield(long handle, boolean enableWriteThreadAdaptiveYield); private native boolean enableWriteThreadAdaptiveYield(long handle); private native void setWriteThreadMaxYieldUsec(long handle, long writeThreadMaxYieldUsec); private native long writeThreadMaxYieldUsec(long handle); private native void setWriteThreadSlowYieldUsec(long handle, long writeThreadSlowYieldUsec); private native long writeThreadSlowYieldUsec(long handle); private native void setSkipStatsUpdateOnDbOpen(final long handle, final boolean skipStatsUpdateOnDbOpen); private native boolean skipStatsUpdateOnDbOpen(final long handle); private native void setWalRecoveryMode(final long handle, final byte walRecoveryMode); private native byte walRecoveryMode(final long handle); private native void setAllow2pc(final long handle, final boolean allow2pc); private native boolean allow2pc(final long handle); private native void setRowCache(final long handle, final long row_cache_handle); private native void setFailIfOptionsFileError(final long handle, final boolean failIfOptionsFileError); private native boolean failIfOptionsFileError(final long handle); private native void setDumpMallocStats(final long handle, final boolean dumpMallocStats); private native boolean dumpMallocStats(final long handle); private native void setAvoidFlushDuringRecovery(final long handle, final boolean avoidFlushDuringRecovery); private native boolean avoidFlushDuringRecovery(final long handle); private native void setAvoidFlushDuringShutdown(final long handle, final boolean avoidFlushDuringShutdown); private native boolean avoidFlushDuringShutdown(final long handle); // CF native handles private native void optimizeForSmallDb(final long handle); private native void optimizeForPointLookup(long handle, long blockCacheSizeMb); private native void optimizeLevelStyleCompaction(long handle, long memtableMemoryBudget); private native void optimizeUniversalStyleCompaction(long handle, long memtableMemoryBudget); private native void setComparatorHandle(long handle, int builtinComparator); private native void setComparatorHandle(long optHandle, long comparatorHandle, byte comparatorType); private native void setMergeOperatorName( long handle, String name); private native void setMergeOperator( long handle, long mergeOperatorHandle); private native void setWriteBufferSize(long handle, long writeBufferSize) throws IllegalArgumentException; private native long writeBufferSize(long handle); private native void setMaxWriteBufferNumber( long handle, int maxWriteBufferNumber); private native int maxWriteBufferNumber(long handle); private native void setMinWriteBufferNumberToMerge( long handle, int minWriteBufferNumberToMerge); private native int minWriteBufferNumberToMerge(long handle); private native void setCompressionType(long handle, byte compressionType); private native byte compressionType(long handle); private native void setCompressionPerLevel(long handle, byte[] compressionLevels); private native byte[] compressionPerLevel(long handle); private native void setBottommostCompressionType(long handle, byte bottommostCompressionType); private native byte bottommostCompressionType(long handle); private native void setCompressionOptions(long handle, long compressionOptionsHandle); private native void useFixedLengthPrefixExtractor( long handle, int prefixLength); private native void useCappedPrefixExtractor( long handle, int prefixLength); private native void setNumLevels( long handle, int numLevels); private native int numLevels(long handle); private native void setLevelZeroFileNumCompactionTrigger( long handle, int numFiles); private native int levelZeroFileNumCompactionTrigger(long handle); private native void setLevelZeroSlowdownWritesTrigger( long handle, int numFiles); private native int levelZeroSlowdownWritesTrigger(long handle); private native void setLevelZeroStopWritesTrigger( long handle, int numFiles); private native int levelZeroStopWritesTrigger(long handle); private native void setTargetFileSizeBase( long handle, long targetFileSizeBase); private native long targetFileSizeBase(long handle); private native void setTargetFileSizeMultiplier( long handle, int multiplier); private native int targetFileSizeMultiplier(long handle); private native void setMaxBytesForLevelBase( long handle, long maxBytesForLevelBase); private native long maxBytesForLevelBase(long handle); private native void setLevelCompactionDynamicLevelBytes( long handle, boolean enableLevelCompactionDynamicLevelBytes); private native boolean levelCompactionDynamicLevelBytes( long handle); private native void setMaxBytesForLevelMultiplier(long handle, double multiplier); private native double maxBytesForLevelMultiplier(long handle); private native void setMaxCompactionBytes(long handle, long maxCompactionBytes); private native long maxCompactionBytes(long handle); private native void setArenaBlockSize( long handle, long arenaBlockSize) throws IllegalArgumentException; private native long arenaBlockSize(long handle); private native void setDisableAutoCompactions( long handle, boolean disableAutoCompactions); private native boolean disableAutoCompactions(long handle); private native void setCompactionStyle(long handle, byte compactionStyle); private native byte compactionStyle(long handle); private native void setMaxSequentialSkipInIterations( long handle, long maxSequentialSkipInIterations); private native long maxSequentialSkipInIterations(long handle); private native void setMemTableFactory(long handle, long factoryHandle); private native String memTableFactoryName(long handle); private native void setTableFactory(long handle, long factoryHandle); private native String tableFactoryName(long handle); private native void setInplaceUpdateSupport( long handle, boolean inplaceUpdateSupport); private native boolean inplaceUpdateSupport(long handle); private native void setInplaceUpdateNumLocks( long handle, long inplaceUpdateNumLocks) throws IllegalArgumentException; private native long inplaceUpdateNumLocks(long handle); private native void setMemtablePrefixBloomSizeRatio( long handle, double memtablePrefixBloomSizeRatio); private native double memtablePrefixBloomSizeRatio(long handle); private native void setBloomLocality( long handle, int bloomLocality); private native int bloomLocality(long handle); private native void setMaxSuccessiveMerges( long handle, long maxSuccessiveMerges) throws IllegalArgumentException; private native long maxSuccessiveMerges(long handle); private native void setOptimizeFiltersForHits(long handle, boolean optimizeFiltersForHits); private native boolean optimizeFiltersForHits(long handle); private native void setMemtableHugePageSize(long handle, long memtableHugePageSize); private native long memtableHugePageSize(long handle); private native void setSoftPendingCompactionBytesLimit(long handle, long softPendingCompactionBytesLimit); private native long softPendingCompactionBytesLimit(long handle); private native void setHardPendingCompactionBytesLimit(long handle, long hardPendingCompactionBytesLimit); private native long hardPendingCompactionBytesLimit(long handle); private native void setLevel0FileNumCompactionTrigger(long handle, int level0FileNumCompactionTrigger); private native int level0FileNumCompactionTrigger(long handle); private native void setLevel0SlowdownWritesTrigger(long handle, int level0SlowdownWritesTrigger); private native int level0SlowdownWritesTrigger(long handle); private native void setLevel0StopWritesTrigger(long handle, int level0StopWritesTrigger); private native int level0StopWritesTrigger(long handle); private native void setMaxBytesForLevelMultiplierAdditional(long handle, int[] maxBytesForLevelMultiplierAdditional); private native int[] maxBytesForLevelMultiplierAdditional(long handle); private native void setParanoidFileChecks(long handle, boolean paranoidFileChecks); private native boolean paranoidFileChecks(long handle); private native void setMaxWriteBufferNumberToMaintain(final long handle, final int maxWriteBufferNumberToMaintain); private native int maxWriteBufferNumberToMaintain(final long handle); private native void setCompactionPriority(final long handle, final byte compactionPriority); private native byte compactionPriority(final long handle); private native void setReportBgIoStats(final long handle, final boolean reportBgIoStats); private native boolean reportBgIoStats(final long handle); private native void setCompactionOptionsUniversal(final long handle, final long compactionOptionsUniversalHandle); private native void setCompactionOptionsFIFO(final long handle, final long compactionOptionsFIFOHandle); private native void setForceConsistencyChecks(final long handle, final boolean forceConsistencyChecks); private native boolean forceConsistencyChecks(final long handle); // instance variables // NOTE: If you add new member variables, please update the copy constructor above! private Env env_; private MemTableConfig memTableConfig_; private TableFormatConfig tableFormatConfig_; private RateLimiter rateLimiter_; private AbstractComparator> comparator_; private CompactionOptionsUniversal compactionOptionsUniversal_; private CompactionOptionsFIFO compactionOptionsFIFO_; private CompressionOptions compressionOptions_; private Cache rowCache_; } rocksdb-5.17.2/java/src/main/java/org/rocksdb/OptionsUtil.java000066400000000000000000000136241337235545400242050ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import java.util.ArrayList; import java.util.List; public class OptionsUtil { /** * A static method to construct the DBOptions and ColumnFamilyDescriptors by * loading the latest RocksDB options file stored in the specified rocksdb * database. * * Note that the all the pointer options (except table_factory, which will * be described in more details below) will be initialized with the default * values. Developers can further initialize them after this function call. * Below is an example list of pointer options which will be initialized. * * - env * - memtable_factory * - compaction_filter_factory * - prefix_extractor * - comparator * - merge_operator * - compaction_filter * * For table_factory, this function further supports deserializing * BlockBasedTableFactory and its BlockBasedTableOptions except the * pointer options of BlockBasedTableOptions (flush_block_policy_factory, * block_cache, and block_cache_compressed), which will be initialized with * default values. Developers can further specify these three options by * casting the return value of TableFactoroy::GetOptions() to * BlockBasedTableOptions and making necessary changes. * * @param dbPath the path to the RocksDB. * @param env {@link org.rocksdb.Env} instance. * @param dbOptions {@link org.rocksdb.DBOptions} instance. This will be * filled and returned. * @param cfDescs A list of {@link org.rocksdb.ColumnFamilyDescriptor}'s be * returned. * * @throws RocksDBException thrown if error happens in underlying * native library. */ public static void loadLatestOptions(String dbPath, Env env, DBOptions dbOptions, List cfDescs) throws RocksDBException { loadLatestOptions(dbPath, env, dbOptions, cfDescs, false); } /** * @param dbPath the path to the RocksDB. * @param env {@link org.rocksdb.Env} instance. * @param dbOptions {@link org.rocksdb.DBOptions} instance. This will be * filled and returned. * @param cfDescs A list of {@link org.rocksdb.ColumnFamilyDescriptor}'s be * returned. * @param ignoreUnknownOptions this flag can be set to true if you want to * ignore options that are from a newer version of the db, esentially for * forward compatibility. * * @throws RocksDBException thrown if error happens in underlying * native library. */ public static void loadLatestOptions(String dbPath, Env env, DBOptions dbOptions, List cfDescs, boolean ignoreUnknownOptions) throws RocksDBException { loadLatestOptions( dbPath, env.nativeHandle_, dbOptions.nativeHandle_, cfDescs, ignoreUnknownOptions); } /** * Similar to LoadLatestOptions, this function constructs the DBOptions * and ColumnFamilyDescriptors based on the specified RocksDB Options file. * See LoadLatestOptions above. * * @param optionsFileName the RocksDB options file path. * @param env {@link org.rocksdb.Env} instance. * @param dbOptions {@link org.rocksdb.DBOptions} instance. This will be * filled and returned. * @param cfDescs A list of {@link org.rocksdb.ColumnFamilyDescriptor}'s be * returned. * * @throws RocksDBException thrown if error happens in underlying * native library. */ public static void loadOptionsFromFile(String optionsFileName, Env env, DBOptions dbOptions, List cfDescs) throws RocksDBException { loadOptionsFromFile(optionsFileName, env, dbOptions, cfDescs, false); } /** * @param optionsFileName the RocksDB options file path. * @param env {@link org.rocksdb.Env} instance. * @param dbOptions {@link org.rocksdb.DBOptions} instance. This will be * filled and returned. * @param cfDescs A list of {@link org.rocksdb.ColumnFamilyDescriptor}'s be * returned. * @param ignoreUnknownOptions this flag can be set to true if you want to * ignore options that are from a newer version of the db, esentially for * forward compatibility. * * @throws RocksDBException thrown if error happens in underlying * native library. */ public static void loadOptionsFromFile(String optionsFileName, Env env, DBOptions dbOptions, List cfDescs, boolean ignoreUnknownOptions) throws RocksDBException { loadOptionsFromFile( optionsFileName, env.nativeHandle_, dbOptions.nativeHandle_, cfDescs, ignoreUnknownOptions); } /** * Returns the latest options file name under the specified RocksDB path. * * @param dbPath the path to the RocksDB. * @param env {@link org.rocksdb.Env} instance. * @return the latest options file name under the db path. * * @throws RocksDBException thrown if error happens in underlying * native library. */ public static String getLatestOptionsFileName(String dbPath, Env env) throws RocksDBException { return getLatestOptionsFileName(dbPath, env.nativeHandle_); } /** * Private constructor. * This class has only static methods and shouldn't be instantiated. */ private OptionsUtil() {} // native methods private native static void loadLatestOptions(String dbPath, long envHandle, long dbOptionsHandle, List cfDescs, boolean ignoreUnknownOptions) throws RocksDBException; private native static void loadOptionsFromFile(String optionsFileName, long envHandle, long dbOptionsHandle, List cfDescs, boolean ignoreUnknownOptions) throws RocksDBException; private native static String getLatestOptionsFileName(String dbPath, long envHandle) throws RocksDBException; } rocksdb-5.17.2/java/src/main/java/org/rocksdb/PlainTableConfig.java000066400000000000000000000166531337235545400250620ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * The config for plain table sst format. * *

    PlainTable is a RocksDB's SST file format optimized for low query * latency on pure-memory or really low-latency media.

    * *

    It also support prefix hash feature.

    */ public class PlainTableConfig extends TableFormatConfig { public static final int VARIABLE_LENGTH = 0; public static final int DEFAULT_BLOOM_BITS_PER_KEY = 10; public static final double DEFAULT_HASH_TABLE_RATIO = 0.75; public static final int DEFAULT_INDEX_SPARSENESS = 16; public static final int DEFAULT_HUGE_TLB_SIZE = 0; public static final EncodingType DEFAULT_ENCODING_TYPE = EncodingType.kPlain; public static final boolean DEFAULT_FULL_SCAN_MODE = false; public static final boolean DEFAULT_STORE_INDEX_IN_FILE = false; public PlainTableConfig() { keySize_ = VARIABLE_LENGTH; bloomBitsPerKey_ = DEFAULT_BLOOM_BITS_PER_KEY; hashTableRatio_ = DEFAULT_HASH_TABLE_RATIO; indexSparseness_ = DEFAULT_INDEX_SPARSENESS; hugePageTlbSize_ = DEFAULT_HUGE_TLB_SIZE; encodingType_ = DEFAULT_ENCODING_TYPE; fullScanMode_ = DEFAULT_FULL_SCAN_MODE; storeIndexInFile_ = DEFAULT_STORE_INDEX_IN_FILE; } /** *

    Set the length of the user key. If it is set to be * VARIABLE_LENGTH, then it indicates the user keys are * of variable length.

    * *

    Otherwise,all the keys need to have the same length * in byte.

    * *

    DEFAULT: VARIABLE_LENGTH

    * * @param keySize the length of the user key. * @return the reference to the current config. */ public PlainTableConfig setKeySize(int keySize) { keySize_ = keySize; return this; } /** * @return the specified size of the user key. If VARIABLE_LENGTH, * then it indicates variable-length key. */ public int keySize() { return keySize_; } /** * Set the number of bits per key used by the internal bloom filter * in the plain table sst format. * * @param bitsPerKey the number of bits per key for bloom filer. * @return the reference to the current config. */ public PlainTableConfig setBloomBitsPerKey(int bitsPerKey) { bloomBitsPerKey_ = bitsPerKey; return this; } /** * @return the number of bits per key used for the bloom filter. */ public int bloomBitsPerKey() { return bloomBitsPerKey_; } /** * hashTableRatio is the desired utilization of the hash table used * for prefix hashing. The ideal ratio would be the number of * prefixes / the number of hash buckets. If this value is set to * zero, then hash table will not be used. * * @param ratio the hash table ratio. * @return the reference to the current config. */ public PlainTableConfig setHashTableRatio(double ratio) { hashTableRatio_ = ratio; return this; } /** * @return the hash table ratio. */ public double hashTableRatio() { return hashTableRatio_; } /** * Index sparseness determines the index interval for keys inside the * same prefix. This number is equal to the maximum number of linear * search required after hash and binary search. If it's set to 0, * then each key will be indexed. * * @param sparseness the index sparseness. * @return the reference to the current config. */ public PlainTableConfig setIndexSparseness(int sparseness) { indexSparseness_ = sparseness; return this; } /** * @return the index sparseness. */ public long indexSparseness() { return indexSparseness_; } /** *

    huge_page_tlb_size: if ≤0, allocate hash indexes and blooms * from malloc otherwise from huge page TLB.

    * *

    The user needs to reserve huge pages for it to be allocated, * like: {@code sysctl -w vm.nr_hugepages=20}

    * *

    See linux doc Documentation/vm/hugetlbpage.txt

    * * @param hugePageTlbSize huge page tlb size * @return the reference to the current config. */ public PlainTableConfig setHugePageTlbSize(int hugePageTlbSize) { this.hugePageTlbSize_ = hugePageTlbSize; return this; } /** * Returns the value for huge page tlb size * * @return hugePageTlbSize */ public int hugePageTlbSize() { return hugePageTlbSize_; } /** * Sets the encoding type. * *

    This setting determines how to encode * the keys. See enum {@link EncodingType} for * the choices.

    * *

    The value will determine how to encode keys * when writing to a new SST file. This value will be stored * inside the SST file which will be used when reading from * the file, which makes it possible for users to choose * different encoding type when reopening a DB. Files with * different encoding types can co-exist in the same DB and * can be read.

    * * @param encodingType {@link org.rocksdb.EncodingType} value. * @return the reference to the current config. */ public PlainTableConfig setEncodingType(EncodingType encodingType) { this.encodingType_ = encodingType; return this; } /** * Returns the active EncodingType * * @return currently set encoding type */ public EncodingType encodingType() { return encodingType_; } /** * Set full scan mode, if true the whole file will be read * one record by one without using the index. * * @param fullScanMode boolean value indicating if full * scan mode shall be enabled. * @return the reference to the current config. */ public PlainTableConfig setFullScanMode(boolean fullScanMode) { this.fullScanMode_ = fullScanMode; return this; } /** * Return if full scan mode is active * @return boolean value indicating if the full scan mode is * enabled. */ public boolean fullScanMode() { return fullScanMode_; } /** *

    If set to true: compute plain table index and bloom * filter during file building and store it in file. * When reading file, index will be mmaped instead * of doing recomputation.

    * * @param storeIndexInFile value indicating if index shall * be stored in a file * @return the reference to the current config. */ public PlainTableConfig setStoreIndexInFile(boolean storeIndexInFile) { this.storeIndexInFile_ = storeIndexInFile; return this; } /** * Return a boolean value indicating if index shall be stored * in a file. * * @return currently set value for store index in file. */ public boolean storeIndexInFile() { return storeIndexInFile_; } @Override protected long newTableFactoryHandle() { return newTableFactoryHandle(keySize_, bloomBitsPerKey_, hashTableRatio_, indexSparseness_, hugePageTlbSize_, encodingType_.getValue(), fullScanMode_, storeIndexInFile_); } private native long newTableFactoryHandle( int keySize, int bloomBitsPerKey, double hashTableRatio, int indexSparseness, int hugePageTlbSize, byte encodingType, boolean fullScanMode, boolean storeIndexInFile); private int keySize_; private int bloomBitsPerKey_; private double hashTableRatio_; private int indexSparseness_; private int hugePageTlbSize_; private EncodingType encodingType_; private boolean fullScanMode_; private boolean storeIndexInFile_; } rocksdb-5.17.2/java/src/main/java/org/rocksdb/RateLimiter.java000066400000000000000000000227571337235545400241440ustar00rootroot00000000000000// Copyright (c) 2015, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * RateLimiter, which is used to control write rate of flush and * compaction. * * @since 3.10.0 */ public class RateLimiter extends RocksObject { public static final long DEFAULT_REFILL_PERIOD_MICROS = 100 * 1000; public static final int DEFAULT_FAIRNESS = 10; public static final RateLimiterMode DEFAULT_MODE = RateLimiterMode.WRITES_ONLY; public static final boolean DEFAULT_AUTOTUNE = false; /** * RateLimiter constructor * * @param rateBytesPerSecond this is the only parameter you want to set * most of the time. It controls the total write rate of compaction * and flush in bytes per second. Currently, RocksDB does not enforce * rate limit for anything other than flush and compaction, e.g. write to * WAL. */ public RateLimiter(final long rateBytesPerSecond) { this(rateBytesPerSecond, DEFAULT_REFILL_PERIOD_MICROS, DEFAULT_FAIRNESS, DEFAULT_MODE, DEFAULT_AUTOTUNE); } /** * RateLimiter constructor * * @param rateBytesPerSecond this is the only parameter you want to set * most of the time. It controls the total write rate of compaction * and flush in bytes per second. Currently, RocksDB does not enforce * rate limit for anything other than flush and compaction, e.g. write to * WAL. * @param refillPeriodMicros this controls how often tokens are refilled. For * example, * when rate_bytes_per_sec is set to 10MB/s and refill_period_us is set to * 100ms, then 1MB is refilled every 100ms internally. Larger value can * lead to burstier writes while smaller value introduces more CPU * overhead. The default of 100,000ms should work for most cases. */ public RateLimiter(final long rateBytesPerSecond, final long refillPeriodMicros) { this(rateBytesPerSecond, refillPeriodMicros, DEFAULT_FAIRNESS, DEFAULT_MODE, DEFAULT_AUTOTUNE); } /** * RateLimiter constructor * * @param rateBytesPerSecond this is the only parameter you want to set * most of the time. It controls the total write rate of compaction * and flush in bytes per second. Currently, RocksDB does not enforce * rate limit for anything other than flush and compaction, e.g. write to * WAL. * @param refillPeriodMicros this controls how often tokens are refilled. For * example, * when rate_bytes_per_sec is set to 10MB/s and refill_period_us is set to * 100ms, then 1MB is refilled every 100ms internally. Larger value can * lead to burstier writes while smaller value introduces more CPU * overhead. The default of 100,000ms should work for most cases. * @param fairness RateLimiter accepts high-pri requests and low-pri requests. * A low-pri request is usually blocked in favor of hi-pri request. * Currently, RocksDB assigns low-pri to request from compaction and * high-pri to request from flush. Low-pri requests can get blocked if * flush requests come in continuously. This fairness parameter grants * low-pri requests permission by fairness chance even though high-pri * requests exist to avoid starvation. * You should be good by leaving it at default 10. */ public RateLimiter(final long rateBytesPerSecond, final long refillPeriodMicros, final int fairness) { this(rateBytesPerSecond, refillPeriodMicros, fairness, DEFAULT_MODE, DEFAULT_AUTOTUNE); } /** * RateLimiter constructor * * @param rateBytesPerSecond this is the only parameter you want to set * most of the time. It controls the total write rate of compaction * and flush in bytes per second. Currently, RocksDB does not enforce * rate limit for anything other than flush and compaction, e.g. write to * WAL. * @param refillPeriodMicros this controls how often tokens are refilled. For * example, * when rate_bytes_per_sec is set to 10MB/s and refill_period_us is set to * 100ms, then 1MB is refilled every 100ms internally. Larger value can * lead to burstier writes while smaller value introduces more CPU * overhead. The default of 100,000ms should work for most cases. * @param fairness RateLimiter accepts high-pri requests and low-pri requests. * A low-pri request is usually blocked in favor of hi-pri request. * Currently, RocksDB assigns low-pri to request from compaction and * high-pri to request from flush. Low-pri requests can get blocked if * flush requests come in continuously. This fairness parameter grants * low-pri requests permission by fairness chance even though high-pri * requests exist to avoid starvation. * You should be good by leaving it at default 10. * @param rateLimiterMode indicates which types of operations count against * the limit. */ public RateLimiter(final long rateBytesPerSecond, final long refillPeriodMicros, final int fairness, final RateLimiterMode rateLimiterMode) { this(rateBytesPerSecond, refillPeriodMicros, fairness, rateLimiterMode, DEFAULT_AUTOTUNE); } /** * RateLimiter constructor * * @param rateBytesPerSecond this is the only parameter you want to set * most of the time. It controls the total write rate of compaction * and flush in bytes per second. Currently, RocksDB does not enforce * rate limit for anything other than flush and compaction, e.g. write to * WAL. * @param refillPeriodMicros this controls how often tokens are refilled. For * example, * when rate_bytes_per_sec is set to 10MB/s and refill_period_us is set to * 100ms, then 1MB is refilled every 100ms internally. Larger value can * lead to burstier writes while smaller value introduces more CPU * overhead. The default of 100,000ms should work for most cases. * @param fairness RateLimiter accepts high-pri requests and low-pri requests. * A low-pri request is usually blocked in favor of hi-pri request. * Currently, RocksDB assigns low-pri to request from compaction and * high-pri to request from flush. Low-pri requests can get blocked if * flush requests come in continuously. This fairness parameter grants * low-pri requests permission by fairness chance even though high-pri * requests exist to avoid starvation. * You should be good by leaving it at default 10. * @param rateLimiterMode indicates which types of operations count against * the limit. * @param autoTune Enables dynamic adjustment of rate limit within the range * {@code [rate_bytes_per_sec / 20, rate_bytes_per_sec]}, according to * the recent demand for background I/O. */ public RateLimiter(final long rateBytesPerSecond, final long refillPeriodMicros, final int fairness, final RateLimiterMode rateLimiterMode, final boolean autoTune) { super(newRateLimiterHandle(rateBytesPerSecond, refillPeriodMicros, fairness, rateLimiterMode.getValue(), autoTune)); } /** *

    This API allows user to dynamically change rate limiter's bytes per second. * REQUIRED: bytes_per_second > 0

    * * @param bytesPerSecond bytes per second. */ public void setBytesPerSecond(final long bytesPerSecond) { assert(isOwningHandle()); setBytesPerSecond(nativeHandle_, bytesPerSecond); } /** * Returns the bytes per second. * * @return bytes per second. */ public long getBytesPerSecond() { assert(isOwningHandle()); return getBytesPerSecond(nativeHandle_); } /** *

    Request for token to write bytes. If this request can not be satisfied, * the call is blocked. Caller is responsible to make sure * {@code bytes < GetSingleBurstBytes()}.

    * * @param bytes requested bytes. */ public void request(final long bytes) { assert(isOwningHandle()); request(nativeHandle_, bytes); } /** *

    Max bytes can be granted in a single burst.

    * * @return max bytes can be granted in a single burst. */ public long getSingleBurstBytes() { assert(isOwningHandle()); return getSingleBurstBytes(nativeHandle_); } /** *

    Total bytes that go though rate limiter.

    * * @return total bytes that go though rate limiter. */ public long getTotalBytesThrough() { assert(isOwningHandle()); return getTotalBytesThrough(nativeHandle_); } /** *

    Total # of requests that go though rate limiter.

    * * @return total # of requests that go though rate limiter. */ public long getTotalRequests() { assert(isOwningHandle()); return getTotalRequests(nativeHandle_); } private static native long newRateLimiterHandle(final long rateBytesPerSecond, final long refillPeriodMicros, final int fairness, final byte rateLimiterMode, final boolean autoTune); @Override protected final native void disposeInternal(final long handle); private native void setBytesPerSecond(final long handle, final long bytesPerSecond); private native long getBytesPerSecond(final long handle); private native void request(final long handle, final long bytes); private native long getSingleBurstBytes(final long handle); private native long getTotalBytesThrough(final long handle); private native long getTotalRequests(final long handle); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/RateLimiterMode.java000066400000000000000000000026071337235545400247410ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * Mode for {@link RateLimiter#RateLimiter(long, long, int, RateLimiterMode)}. */ public enum RateLimiterMode { READS_ONLY((byte)0x0), WRITES_ONLY((byte)0x1), ALL_IO((byte)0x2); private final byte value; RateLimiterMode(final byte value) { this.value = value; } /** *

    Returns the byte value of the enumerations value.

    * * @return byte representation */ public byte getValue() { return value; } /** *

    Get the RateLimiterMode enumeration value by * passing the byte identifier to this method.

    * * @param byteIdentifier of RateLimiterMode. * * @return AccessHint instance. * * @throws IllegalArgumentException if the access hint for the byteIdentifier * cannot be found */ public static RateLimiterMode getRateLimiterMode(final byte byteIdentifier) { for (final RateLimiterMode rateLimiterMode : RateLimiterMode.values()) { if (rateLimiterMode.getValue() == byteIdentifier) { return rateLimiterMode; } } throw new IllegalArgumentException( "Illegal value provided for RateLimiterMode."); } } rocksdb-5.17.2/java/src/main/java/org/rocksdb/ReadOptions.java000066400000000000000000000403631337235545400241430ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * The class that controls the get behavior. * * Note that dispose() must be called before an Options instance * become out-of-scope to release the allocated memory in c++. */ public class ReadOptions extends RocksObject { public ReadOptions() { super(newReadOptions()); } /** * Copy constructor. * * NOTE: This does a shallow copy, which means snapshot, iterate_upper_bound * and other pointers will be cloned! * * @param other The ReadOptions to copy. */ public ReadOptions(ReadOptions other) { super(copyReadOptions(other.nativeHandle_)); iterateUpperBoundSlice_ = other.iterateUpperBoundSlice_; } /** * If true, all data read from underlying storage will be * verified against corresponding checksums. * Default: true * * @return true if checksum verification is on. */ public boolean verifyChecksums() { assert(isOwningHandle()); return verifyChecksums(nativeHandle_); } /** * If true, all data read from underlying storage will be * verified against corresponding checksums. * Default: true * * @param verifyChecksums if true, then checksum verification * will be performed on every read. * @return the reference to the current ReadOptions. */ public ReadOptions setVerifyChecksums( final boolean verifyChecksums) { assert(isOwningHandle()); setVerifyChecksums(nativeHandle_, verifyChecksums); return this; } // TODO(yhchiang): this option seems to be block-based table only. // move this to a better place? /** * Fill the cache when loading the block-based sst formated db. * Callers may wish to set this field to false for bulk scans. * Default: true * * @return true if the fill-cache behavior is on. */ public boolean fillCache() { assert(isOwningHandle()); return fillCache(nativeHandle_); } /** * Fill the cache when loading the block-based sst formatted db. * Callers may wish to set this field to false for bulk scans. * Default: true * * @param fillCache if true, then fill-cache behavior will be * performed. * @return the reference to the current ReadOptions. */ public ReadOptions setFillCache(final boolean fillCache) { assert(isOwningHandle()); setFillCache(nativeHandle_, fillCache); return this; } /** * Returns the currently assigned Snapshot instance. * * @return the Snapshot assigned to this instance. If no Snapshot * is assigned null. */ public Snapshot snapshot() { assert(isOwningHandle()); long snapshotHandle = snapshot(nativeHandle_); if (snapshotHandle != 0) { return new Snapshot(snapshotHandle); } return null; } /** *

    If "snapshot" is non-nullptr, read as of the supplied snapshot * (which must belong to the DB that is being read and which must * not have been released). If "snapshot" is nullptr, use an implicit * snapshot of the state at the beginning of this read operation.

    *

    Default: null

    * * @param snapshot {@link Snapshot} instance * @return the reference to the current ReadOptions. */ public ReadOptions setSnapshot(final Snapshot snapshot) { assert(isOwningHandle()); if (snapshot != null) { setSnapshot(nativeHandle_, snapshot.nativeHandle_); } else { setSnapshot(nativeHandle_, 0l); } return this; } /** * Returns the current read tier. * * @return the read tier in use, by default {@link ReadTier#READ_ALL_TIER} */ public ReadTier readTier() { assert(isOwningHandle()); return ReadTier.getReadTier(readTier(nativeHandle_)); } /** * Specify if this read request should process data that ALREADY * resides on a particular cache. If the required data is not * found at the specified cache, then {@link RocksDBException} is thrown. * * @param readTier {@link ReadTier} instance * @return the reference to the current ReadOptions. */ public ReadOptions setReadTier(final ReadTier readTier) { assert(isOwningHandle()); setReadTier(nativeHandle_, readTier.getValue()); return this; } /** * Specify to create a tailing iterator -- a special iterator that has a * view of the complete database (i.e. it can also be used to read newly * added data) and is optimized for sequential reads. It will return records * that were inserted into the database after the creation of the iterator. * Default: false * * Not supported in {@code ROCKSDB_LITE} mode! * * @return true if tailing iterator is enabled. */ public boolean tailing() { assert(isOwningHandle()); return tailing(nativeHandle_); } /** * Specify to create a tailing iterator -- a special iterator that has a * view of the complete database (i.e. it can also be used to read newly * added data) and is optimized for sequential reads. It will return records * that were inserted into the database after the creation of the iterator. * Default: false * Not supported in ROCKSDB_LITE mode! * * @param tailing if true, then tailing iterator will be enabled. * @return the reference to the current ReadOptions. */ public ReadOptions setTailing(final boolean tailing) { assert(isOwningHandle()); setTailing(nativeHandle_, tailing); return this; } /** * Returns whether managed iterators will be used. * * @return the setting of whether managed iterators will be used, by default false */ public boolean managed() { assert(isOwningHandle()); return managed(nativeHandle_); } /** * Specify to create a managed iterator -- a special iterator that * uses less resources by having the ability to free its underlying * resources on request. * * @param managed if true, then managed iterators will be enabled. * @return the reference to the current ReadOptions. */ public ReadOptions setManaged(final boolean managed) { assert(isOwningHandle()); setManaged(nativeHandle_, managed); return this; } /** * Returns whether a total seek order will be used * * @return the setting of whether a total seek order will be used */ public boolean totalOrderSeek() { assert(isOwningHandle()); return totalOrderSeek(nativeHandle_); } /** * Enable a total order seek regardless of index format (e.g. hash index) * used in the table. Some table format (e.g. plain table) may not support * this option. * * @param totalOrderSeek if true, then total order seek will be enabled. * @return the reference to the current ReadOptions. */ public ReadOptions setTotalOrderSeek(final boolean totalOrderSeek) { assert(isOwningHandle()); setTotalOrderSeek(nativeHandle_, totalOrderSeek); return this; } /** * Returns whether the iterator only iterates over the same prefix as the seek * * @return the setting of whether the iterator only iterates over the same * prefix as the seek, default is false */ public boolean prefixSameAsStart() { assert(isOwningHandle()); return prefixSameAsStart(nativeHandle_); } /** * Enforce that the iterator only iterates over the same prefix as the seek. * This option is effective only for prefix seeks, i.e. prefix_extractor is * non-null for the column family and {@link #totalOrderSeek()} is false. * Unlike iterate_upper_bound, {@link #setPrefixSameAsStart(boolean)} only * works within a prefix but in both directions. * * @param prefixSameAsStart if true, then the iterator only iterates over the * same prefix as the seek * @return the reference to the current ReadOptions. */ public ReadOptions setPrefixSameAsStart(final boolean prefixSameAsStart) { assert(isOwningHandle()); setPrefixSameAsStart(nativeHandle_, prefixSameAsStart); return this; } /** * Returns whether the blocks loaded by the iterator will be pinned in memory * * @return the setting of whether the blocks loaded by the iterator will be * pinned in memory */ public boolean pinData() { assert(isOwningHandle()); return pinData(nativeHandle_); } /** * Keep the blocks loaded by the iterator pinned in memory as long as the * iterator is not deleted, If used when reading from tables created with * BlockBasedTableOptions::use_delta_encoding = false, * Iterator's property "rocksdb.iterator.is-key-pinned" is guaranteed to * return 1. * * @param pinData if true, the blocks loaded by the iterator will be pinned * @return the reference to the current ReadOptions. */ public ReadOptions setPinData(final boolean pinData) { assert(isOwningHandle()); setPinData(nativeHandle_, pinData); return this; } /** * If true, when PurgeObsoleteFile is called in CleanupIteratorState, we * schedule a background job in the flush job queue and delete obsolete files * in background. * * Default: false * * @return true when PurgeObsoleteFile is called in CleanupIteratorState */ public boolean backgroundPurgeOnIteratorCleanup() { assert(isOwningHandle()); return backgroundPurgeOnIteratorCleanup(nativeHandle_); } /** * If true, when PurgeObsoleteFile is called in CleanupIteratorState, we * schedule a background job in the flush job queue and delete obsolete files * in background. * * Default: false * * @param backgroundPurgeOnIteratorCleanup true when PurgeObsoleteFile is * called in CleanupIteratorState * @return the reference to the current ReadOptions. */ public ReadOptions setBackgroundPurgeOnIteratorCleanup( final boolean backgroundPurgeOnIteratorCleanup) { assert(isOwningHandle()); setBackgroundPurgeOnIteratorCleanup(nativeHandle_, backgroundPurgeOnIteratorCleanup); return this; } /** * If non-zero, NewIterator will create a new table reader which * performs reads of the given size. Using a large size (> 2MB) can * improve the performance of forward iteration on spinning disks. * * Default: 0 * * @return The readahead size is bytes */ public long readaheadSize() { assert(isOwningHandle()); return readaheadSize(nativeHandle_); } /** * If non-zero, NewIterator will create a new table reader which * performs reads of the given size. Using a large size (> 2MB) can * improve the performance of forward iteration on spinning disks. * * Default: 0 * * @param readaheadSize The readahead size is bytes * @return the reference to the current ReadOptions. */ public ReadOptions setReadaheadSize(final long readaheadSize) { assert(isOwningHandle()); setReadaheadSize(nativeHandle_, readaheadSize); return this; } /** * If true, keys deleted using the DeleteRange() API will be visible to * readers until they are naturally deleted during compaction. This improves * read performance in DBs with many range deletions. * * Default: false * * @return true if keys deleted using the DeleteRange() API will be visible */ public boolean ignoreRangeDeletions() { assert(isOwningHandle()); return ignoreRangeDeletions(nativeHandle_); } /** * If true, keys deleted using the DeleteRange() API will be visible to * readers until they are naturally deleted during compaction. This improves * read performance in DBs with many range deletions. * * Default: false * * @param ignoreRangeDeletions true if keys deleted using the DeleteRange() * API should be visible * @return the reference to the current ReadOptions. */ public ReadOptions setIgnoreRangeDeletions(final boolean ignoreRangeDeletions) { assert(isOwningHandle()); setIgnoreRangeDeletions(nativeHandle_, ignoreRangeDeletions); return this; } /** * Defines the extent upto which the forward iterator can returns entries. * Once the bound is reached, Valid() will be false. iterate_upper_bound * is exclusive ie the bound value is not a valid entry. If * iterator_extractor is not null, the Seek target and iterator_upper_bound * need to have the same prefix. This is because ordering is not guaranteed * outside of prefix domain. There is no lower bound on the iterator. * * Default: nullptr * * @param iterateUpperBound Slice representing the upper bound * @return the reference to the current ReadOptions. */ public ReadOptions setIterateUpperBound(final Slice iterateUpperBound) { assert(isOwningHandle()); if (iterateUpperBound != null) { // Hold onto a reference so it doesn't get garbaged collected out from under us. iterateUpperBoundSlice_ = iterateUpperBound; setIterateUpperBound(nativeHandle_, iterateUpperBoundSlice_.getNativeHandle()); } return this; } /** * Defines the extent upto which the forward iterator can returns entries. * Once the bound is reached, Valid() will be false. iterate_upper_bound * is exclusive ie the bound value is not a valid entry. If * iterator_extractor is not null, the Seek target and iterator_upper_bound * need to have the same prefix. This is because ordering is not guaranteed * outside of prefix domain. There is no lower bound on the iterator. * * Default: nullptr * * @return Slice representing current iterate_upper_bound setting, or null if * one does not exist. */ public Slice iterateUpperBound() { assert(isOwningHandle()); long upperBoundSliceHandle = iterateUpperBound(nativeHandle_); if (upperBoundSliceHandle != 0) { // Disown the new slice - it's owned by the C++ side of the JNI boundary // from the perspective of this method. return new Slice(upperBoundSliceHandle, false); } return null; } // instance variables // NOTE: If you add new member variables, please update the copy constructor above! // // Hold a reference to any iterate upper bound that was set on this object // until we're destroyed or it's overwritten. That way the caller can freely // leave scope without us losing the Java Slice object, which during close() // would also reap its associated rocksdb::Slice native object since it's // possibly (likely) to be an owning handle. protected Slice iterateUpperBoundSlice_; private native static long newReadOptions(); private native static long copyReadOptions(long handle); private native boolean verifyChecksums(long handle); private native void setVerifyChecksums(long handle, boolean verifyChecksums); private native boolean fillCache(long handle); private native void setFillCache(long handle, boolean fillCache); private native long snapshot(long handle); private native void setSnapshot(long handle, long snapshotHandle); private native byte readTier(long handle); private native void setReadTier(long handle, byte readTierValue); private native boolean tailing(long handle); private native void setTailing(long handle, boolean tailing); private native boolean managed(long handle); private native void setManaged(long handle, boolean managed); private native boolean totalOrderSeek(long handle); private native void setTotalOrderSeek(long handle, boolean totalOrderSeek); private native boolean prefixSameAsStart(long handle); private native void setPrefixSameAsStart(long handle, boolean prefixSameAsStart); private native boolean pinData(long handle); private native void setPinData(long handle, boolean pinData); private native boolean backgroundPurgeOnIteratorCleanup(final long handle); private native void setBackgroundPurgeOnIteratorCleanup(final long handle, final boolean backgroundPurgeOnIteratorCleanup); private native long readaheadSize(final long handle); private native void setReadaheadSize(final long handle, final long readaheadSize); private native boolean ignoreRangeDeletions(final long handle); private native void setIgnoreRangeDeletions(final long handle, final boolean ignoreRangeDeletions); private native void setIterateUpperBound(final long handle, final long upperBoundSliceHandle); private native long iterateUpperBound(final long handle); @Override protected final native void disposeInternal(final long handle); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/ReadTier.java000066400000000000000000000023351337235545400234100ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * RocksDB {@link ReadOptions} read tiers. */ public enum ReadTier { READ_ALL_TIER((byte)0), BLOCK_CACHE_TIER((byte)1), PERSISTED_TIER((byte)2), MEMTABLE_TIER((byte)3); private final byte value; ReadTier(final byte value) { this.value = value; } /** * Returns the byte value of the enumerations value * * @return byte representation */ public byte getValue() { return value; } /** * Get ReadTier by byte value. * * @param value byte representation of ReadTier. * * @return {@link org.rocksdb.ReadTier} instance or null. * @throws java.lang.IllegalArgumentException if an invalid * value is provided. */ public static ReadTier getReadTier(final byte value) { for (final ReadTier readTier : ReadTier.values()) { if (readTier.getValue() == value){ return readTier; } } throw new IllegalArgumentException("Illegal value provided for ReadTier."); } } rocksdb-5.17.2/java/src/main/java/org/rocksdb/RemoveEmptyValueCompactionFilter.java000066400000000000000000000012051337235545400303400ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * Just a Java wrapper around EmptyValueCompactionFilter implemented in C++ */ public class RemoveEmptyValueCompactionFilter extends AbstractCompactionFilter { public RemoveEmptyValueCompactionFilter() { super(createNewRemoveEmptyValueCompactionFilter0()); } private native static long createNewRemoveEmptyValueCompactionFilter0(); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/RestoreOptions.java000066400000000000000000000021611337235545400247050ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * RestoreOptions to control the behavior of restore. * * Note that dispose() must be called before this instance become out-of-scope * to release the allocated memory in c++. * */ public class RestoreOptions extends RocksObject { /** * Constructor * * @param keepLogFiles If true, restore won't overwrite the existing log files * in wal_dir. It will also move all log files from archive directory to * wal_dir. Use this option in combination with * BackupableDBOptions::backup_log_files = false for persisting in-memory * databases. * Default: false */ public RestoreOptions(final boolean keepLogFiles) { super(newRestoreOptions(keepLogFiles)); } private native static long newRestoreOptions(boolean keepLogFiles); @Override protected final native void disposeInternal(final long handle); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/RocksCallbackObject.java000066400000000000000000000032211337235545400255310ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * RocksCallbackObject is similar to {@link RocksObject} but varies * in its construction as it is designed for Java objects which have functions * which are called from C++ via JNI. * * RocksCallbackObject is the base-class any RocksDB classes that acts as a * callback from some underlying underlying native C++ {@code rocksdb} object. * * The use of {@code RocksObject} should always be preferred over * {@link RocksCallbackObject} if callbacks are not required. */ public abstract class RocksCallbackObject extends AbstractImmutableNativeReference { protected final long nativeHandle_; protected RocksCallbackObject(final long... nativeParameterHandles) { super(true); this.nativeHandle_ = initializeNative(nativeParameterHandles); } /** * Construct the Native C++ object which will callback * to our object methods * * @param nativeParameterHandles An array of native handles for any parameter * objects that are needed during construction * * @return The native handle of the C++ object which will callback to us */ protected abstract long initializeNative( final long... nativeParameterHandles); /** * Deletes underlying C++ native callback object pointer */ @Override protected void disposeInternal() { disposeInternal(nativeHandle_); } private native void disposeInternal(final long handle); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/RocksDB.java000066400000000000000000003007301337235545400232000ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import java.util.*; import java.io.IOException; import java.util.concurrent.atomic.AtomicInteger; import java.util.concurrent.atomic.AtomicReference; import org.rocksdb.util.Environment; /** * A RocksDB is a persistent ordered map from keys to values. It is safe for * concurrent access from multiple threads without any external synchronization. * All methods of this class could potentially throw RocksDBException, which * indicates sth wrong at the RocksDB library side and the call failed. */ public class RocksDB extends RocksObject { public static final byte[] DEFAULT_COLUMN_FAMILY = "default".getBytes(); public static final int NOT_FOUND = -1; private enum LibraryState { NOT_LOADED, LOADING, LOADED } private static AtomicReference libraryLoaded = new AtomicReference<>(LibraryState.NOT_LOADED); static { RocksDB.loadLibrary(); } /** * Loads the necessary library files. * Calling this method twice will have no effect. * By default the method extracts the shared library for loading at * java.io.tmpdir, however, you can override this temporary location by * setting the environment variable ROCKSDB_SHAREDLIB_DIR. */ public static void loadLibrary() { if (libraryLoaded.get() == LibraryState.LOADED) { return; } if (libraryLoaded.compareAndSet(LibraryState.NOT_LOADED, LibraryState.LOADING)) { final String tmpDir = System.getenv("ROCKSDB_SHAREDLIB_DIR"); // loading possibly necessary libraries. for (final CompressionType compressionType : CompressionType.values()) { try { if (compressionType.getLibraryName() != null) { System.loadLibrary(compressionType.getLibraryName()); } } catch (UnsatisfiedLinkError e) { // since it may be optional, we ignore its loading failure here. } } try { NativeLibraryLoader.getInstance().loadLibrary(tmpDir); } catch (IOException e) { libraryLoaded.set(LibraryState.NOT_LOADED); throw new RuntimeException("Unable to load the RocksDB shared library" + e); } libraryLoaded.set(LibraryState.LOADED); return; } while (libraryLoaded.get() == LibraryState.LOADING) { try { Thread.sleep(10); } catch(final InterruptedException e) { //ignore } } } /** * Tries to load the necessary library files from the given list of * directories. * * @param paths a list of strings where each describes a directory * of a library. */ public static void loadLibrary(final List paths) { if (libraryLoaded.get() == LibraryState.LOADED) { return; } if (libraryLoaded.compareAndSet(LibraryState.NOT_LOADED, LibraryState.LOADING)) { for (final CompressionType compressionType : CompressionType.values()) { if (compressionType.equals(CompressionType.NO_COMPRESSION)) { continue; } for (final String path : paths) { try { System.load(path + "/" + Environment.getSharedLibraryFileName( compressionType.getLibraryName())); break; } catch (UnsatisfiedLinkError e) { // since they are optional, we ignore loading fails. } } } boolean success = false; UnsatisfiedLinkError err = null; for (final String path : paths) { try { System.load(path + "/" + Environment.getJniLibraryFileName("rocksdbjni")); success = true; break; } catch (UnsatisfiedLinkError e) { err = e; } } if (!success) { libraryLoaded.set(LibraryState.NOT_LOADED); throw err; } libraryLoaded.set(LibraryState.LOADED); return; } while (libraryLoaded.get() == LibraryState.LOADING) { try { Thread.sleep(10); } catch(final InterruptedException e) { //ignore } } } /** * The factory constructor of RocksDB that opens a RocksDB instance given * the path to the database using the default options w/ createIfMissing * set to true. * * @param path the path to the rocksdb. * @return a {@link RocksDB} instance on success, null if the specified * {@link RocksDB} can not be opened. * * @throws RocksDBException thrown if error happens in underlying * native library. * @see Options#setCreateIfMissing(boolean) */ public static RocksDB open(final String path) throws RocksDBException { // This allows to use the rocksjni default Options instead of // the c++ one. Options options = new Options(); options.setCreateIfMissing(true); return open(options, path); } /** * The factory constructor of RocksDB that opens a RocksDB instance given * the path to the database using the specified options and db path and a list * of column family names. *

    * If opened in read write mode every existing column family name must be * passed within the list to this method.

    *

    * If opened in read-only mode only a subset of existing column families must * be passed to this method.

    *

    * Options instance *should* not be disposed before all DBs using this options * instance have been closed. If user doesn't call options dispose explicitly, * then this options instance will be GC'd automatically

    *

    * ColumnFamily handles are disposed when the RocksDB instance is disposed. *

    * * @param path the path to the rocksdb. * @param columnFamilyDescriptors list of column family descriptors * @param columnFamilyHandles will be filled with ColumnFamilyHandle instances * on open. * @return a {@link RocksDB} instance on success, null if the specified * {@link RocksDB} can not be opened. * * @throws RocksDBException thrown if error happens in underlying * native library. * @see DBOptions#setCreateIfMissing(boolean) */ public static RocksDB open(final String path, final List columnFamilyDescriptors, final List columnFamilyHandles) throws RocksDBException { // This allows to use the rocksjni default Options instead of // the c++ one. DBOptions options = new DBOptions(); return open(options, path, columnFamilyDescriptors, columnFamilyHandles); } /** * The factory constructor of RocksDB that opens a RocksDB instance given * the path to the database using the specified options and db path. * *

    * Options instance *should* not be disposed before all DBs using this options * instance have been closed. If user doesn't call options dispose explicitly, * then this options instance will be GC'd automatically.

    *

    * Options instance can be re-used to open multiple DBs if DB statistics is * not used. If DB statistics are required, then its recommended to open DB * with new Options instance as underlying native statistics instance does not * use any locks to prevent concurrent updates.

    * * @param options {@link org.rocksdb.Options} instance. * @param path the path to the rocksdb. * @return a {@link RocksDB} instance on success, null if the specified * {@link RocksDB} can not be opened. * * @throws RocksDBException thrown if error happens in underlying * native library. * * @see Options#setCreateIfMissing(boolean) */ public static RocksDB open(final Options options, final String path) throws RocksDBException { // when non-default Options is used, keeping an Options reference // in RocksDB can prevent Java to GC during the life-time of // the currently-created RocksDB. final RocksDB db = new RocksDB(open(options.nativeHandle_, path)); db.storeOptionsInstance(options); return db; } /** * The factory constructor of RocksDB that opens a RocksDB instance given * the path to the database using the specified options and db path and a list * of column family names. *

    * If opened in read write mode every existing column family name must be * passed within the list to this method.

    *

    * If opened in read-only mode only a subset of existing column families must * be passed to this method.

    *

    * Options instance *should* not be disposed before all DBs using this options * instance have been closed. If user doesn't call options dispose explicitly, * then this options instance will be GC'd automatically.

    *

    * Options instance can be re-used to open multiple DBs if DB statistics is * not used. If DB statistics are required, then its recommended to open DB * with new Options instance as underlying native statistics instance does not * use any locks to prevent concurrent updates.

    *

    * ColumnFamily handles are disposed when the RocksDB instance is disposed. *

    * * @param options {@link org.rocksdb.DBOptions} instance. * @param path the path to the rocksdb. * @param columnFamilyDescriptors list of column family descriptors * @param columnFamilyHandles will be filled with ColumnFamilyHandle instances * on open. * @return a {@link RocksDB} instance on success, null if the specified * {@link RocksDB} can not be opened. * * @throws RocksDBException thrown if error happens in underlying * native library. * * @see DBOptions#setCreateIfMissing(boolean) */ public static RocksDB open(final DBOptions options, final String path, final List columnFamilyDescriptors, final List columnFamilyHandles) throws RocksDBException { final byte[][] cfNames = new byte[columnFamilyDescriptors.size()][]; final long[] cfOptionHandles = new long[columnFamilyDescriptors.size()]; for (int i = 0; i < columnFamilyDescriptors.size(); i++) { final ColumnFamilyDescriptor cfDescriptor = columnFamilyDescriptors .get(i); cfNames[i] = cfDescriptor.columnFamilyName(); cfOptionHandles[i] = cfDescriptor.columnFamilyOptions().nativeHandle_; } final long[] handles = open(options.nativeHandle_, path, cfNames, cfOptionHandles); final RocksDB db = new RocksDB(handles[0]); db.storeOptionsInstance(options); for (int i = 1; i < handles.length; i++) { columnFamilyHandles.add(new ColumnFamilyHandle(db, handles[i])); } return db; } /** * The factory constructor of RocksDB that opens a RocksDB instance in * Read-Only mode given the path to the database using the default * options. * * @param path the path to the RocksDB. * @return a {@link RocksDB} instance on success, null if the specified * {@link RocksDB} can not be opened. * * @throws RocksDBException thrown if error happens in underlying * native library. */ public static RocksDB openReadOnly(final String path) throws RocksDBException { // This allows to use the rocksjni default Options instead of // the c++ one. Options options = new Options(); return openReadOnly(options, path); } /** * The factory constructor of RocksDB that opens a RocksDB instance in * Read-Only mode given the path to the database using the default * options. * * @param path the path to the RocksDB. * @param columnFamilyDescriptors list of column family descriptors * @param columnFamilyHandles will be filled with ColumnFamilyHandle instances * on open. * @return a {@link RocksDB} instance on success, null if the specified * {@link RocksDB} can not be opened. * * @throws RocksDBException thrown if error happens in underlying * native library. */ public static RocksDB openReadOnly(final String path, final List columnFamilyDescriptors, final List columnFamilyHandles) throws RocksDBException { // This allows to use the rocksjni default Options instead of // the c++ one. final DBOptions options = new DBOptions(); return openReadOnly(options, path, columnFamilyDescriptors, columnFamilyHandles); } /** * The factory constructor of RocksDB that opens a RocksDB instance in * Read-Only mode given the path to the database using the specified * options and db path. * * Options instance *should* not be disposed before all DBs using this options * instance have been closed. If user doesn't call options dispose explicitly, * then this options instance will be GC'd automatically. * * @param options {@link Options} instance. * @param path the path to the RocksDB. * @return a {@link RocksDB} instance on success, null if the specified * {@link RocksDB} can not be opened. * * @throws RocksDBException thrown if error happens in underlying * native library. */ public static RocksDB openReadOnly(final Options options, final String path) throws RocksDBException { // when non-default Options is used, keeping an Options reference // in RocksDB can prevent Java to GC during the life-time of // the currently-created RocksDB. final RocksDB db = new RocksDB(openROnly(options.nativeHandle_, path)); db.storeOptionsInstance(options); return db; } /** * The factory constructor of RocksDB that opens a RocksDB instance in * Read-Only mode given the path to the database using the specified * options and db path. * *

    This open method allows to open RocksDB using a subset of available * column families

    *

    Options instance *should* not be disposed before all DBs using this * options instance have been closed. If user doesn't call options dispose * explicitly,then this options instance will be GC'd automatically.

    * * @param options {@link DBOptions} instance. * @param path the path to the RocksDB. * @param columnFamilyDescriptors list of column family descriptors * @param columnFamilyHandles will be filled with ColumnFamilyHandle instances * on open. * @return a {@link RocksDB} instance on success, null if the specified * {@link RocksDB} can not be opened. * * @throws RocksDBException thrown if error happens in underlying * native library. */ public static RocksDB openReadOnly(final DBOptions options, final String path, final List columnFamilyDescriptors, final List columnFamilyHandles) throws RocksDBException { // when non-default Options is used, keeping an Options reference // in RocksDB can prevent Java to GC during the life-time of // the currently-created RocksDB. final byte[][] cfNames = new byte[columnFamilyDescriptors.size()][]; final long[] cfOptionHandles = new long[columnFamilyDescriptors.size()]; for (int i = 0; i < columnFamilyDescriptors.size(); i++) { final ColumnFamilyDescriptor cfDescriptor = columnFamilyDescriptors .get(i); cfNames[i] = cfDescriptor.columnFamilyName(); cfOptionHandles[i] = cfDescriptor.columnFamilyOptions().nativeHandle_; } final long[] handles = openROnly(options.nativeHandle_, path, cfNames, cfOptionHandles); final RocksDB db = new RocksDB(handles[0]); db.storeOptionsInstance(options); for (int i = 1; i < handles.length; i++) { columnFamilyHandles.add(new ColumnFamilyHandle(db, handles[i])); } return db; } /** * Static method to determine all available column families for a * rocksdb database identified by path * * @param options Options for opening the database * @param path Absolute path to rocksdb database * @return List<byte[]> List containing the column family names * * @throws RocksDBException thrown if error happens in underlying * native library. */ public static List listColumnFamilies(final Options options, final String path) throws RocksDBException { return Arrays.asList(RocksDB.listColumnFamilies(options.nativeHandle_, path)); } protected void storeOptionsInstance(DBOptionsInterface options) { options_ = options; } /** * Set the database entry for "key" to "value". * * @param key the specified key to be inserted. * @param value the value associated with the specified key. * * @throws RocksDBException thrown if error happens in underlying * native library. */ public void put(final byte[] key, final byte[] value) throws RocksDBException { put(nativeHandle_, key, 0, key.length, value, 0, value.length); } /** * Set the database entry for "key" to "value" in the specified * column family. * * @param columnFamilyHandle {@link org.rocksdb.ColumnFamilyHandle} * instance * @param key the specified key to be inserted. * @param value the value associated with the specified key. * * throws IllegalArgumentException if column family is not present * * @throws RocksDBException thrown if error happens in underlying * native library. */ public void put(final ColumnFamilyHandle columnFamilyHandle, final byte[] key, final byte[] value) throws RocksDBException { put(nativeHandle_, key, 0, key.length, value, 0, value.length, columnFamilyHandle.nativeHandle_); } /** * Set the database entry for "key" to "value". * * @param writeOpts {@link org.rocksdb.WriteOptions} instance. * @param key the specified key to be inserted. * @param value the value associated with the specified key. * * @throws RocksDBException thrown if error happens in underlying * native library. */ public void put(final WriteOptions writeOpts, final byte[] key, final byte[] value) throws RocksDBException { put(nativeHandle_, writeOpts.nativeHandle_, key, 0, key.length, value, 0, value.length); } /** * Set the database entry for "key" to "value" for the specified * column family. * * @param columnFamilyHandle {@link org.rocksdb.ColumnFamilyHandle} * instance * @param writeOpts {@link org.rocksdb.WriteOptions} instance. * @param key the specified key to be inserted. * @param value the value associated with the specified key. * * throws IllegalArgumentException if column family is not present * * @throws RocksDBException thrown if error happens in underlying * native library. * @see IllegalArgumentException */ public void put(final ColumnFamilyHandle columnFamilyHandle, final WriteOptions writeOpts, final byte[] key, final byte[] value) throws RocksDBException { put(nativeHandle_, writeOpts.nativeHandle_, key, 0, key.length, value, 0, value.length, columnFamilyHandle.nativeHandle_); } /** * If the key definitely does not exist in the database, then this method * returns false, else true. * * This check is potentially lighter-weight than invoking DB::Get(). One way * to make this lighter weight is to avoid doing any IOs. * * @param key byte array of a key to search for * @param value StringBuilder instance which is a out parameter if a value is * found in block-cache. * @return boolean value indicating if key does not exist or might exist. */ public boolean keyMayExist(final byte[] key, final StringBuilder value) { return keyMayExist(nativeHandle_, key, 0, key.length, value); } /** * If the key definitely does not exist in the database, then this method * returns false, else true. * * This check is potentially lighter-weight than invoking DB::Get(). One way * to make this lighter weight is to avoid doing any IOs. * * @param columnFamilyHandle {@link ColumnFamilyHandle} instance * @param key byte array of a key to search for * @param value StringBuilder instance which is a out parameter if a value is * found in block-cache. * @return boolean value indicating if key does not exist or might exist. */ public boolean keyMayExist(final ColumnFamilyHandle columnFamilyHandle, final byte[] key, final StringBuilder value) { return keyMayExist(nativeHandle_, key, 0, key.length, columnFamilyHandle.nativeHandle_, value); } /** * If the key definitely does not exist in the database, then this method * returns false, else true. * * This check is potentially lighter-weight than invoking DB::Get(). One way * to make this lighter weight is to avoid doing any IOs. * * @param readOptions {@link ReadOptions} instance * @param key byte array of a key to search for * @param value StringBuilder instance which is a out parameter if a value is * found in block-cache. * @return boolean value indicating if key does not exist or might exist. */ public boolean keyMayExist(final ReadOptions readOptions, final byte[] key, final StringBuilder value) { return keyMayExist(nativeHandle_, readOptions.nativeHandle_, key, 0, key.length, value); } /** * If the key definitely does not exist in the database, then this method * returns false, else true. * * This check is potentially lighter-weight than invoking DB::Get(). One way * to make this lighter weight is to avoid doing any IOs. * * @param readOptions {@link ReadOptions} instance * @param columnFamilyHandle {@link ColumnFamilyHandle} instance * @param key byte array of a key to search for * @param value StringBuilder instance which is a out parameter if a value is * found in block-cache. * @return boolean value indicating if key does not exist or might exist. */ public boolean keyMayExist(final ReadOptions readOptions, final ColumnFamilyHandle columnFamilyHandle, final byte[] key, final StringBuilder value) { return keyMayExist(nativeHandle_, readOptions.nativeHandle_, key, 0, key.length, columnFamilyHandle.nativeHandle_, value); } /** * Apply the specified updates to the database. * * @param writeOpts WriteOptions instance * @param updates WriteBatch instance * * @throws RocksDBException thrown if error happens in underlying * native library. */ public void write(final WriteOptions writeOpts, final WriteBatch updates) throws RocksDBException { write0(nativeHandle_, writeOpts.nativeHandle_, updates.nativeHandle_); } /** * Apply the specified updates to the database. * * @param writeOpts WriteOptions instance * @param updates WriteBatchWithIndex instance * * @throws RocksDBException thrown if error happens in underlying * native library. */ public void write(final WriteOptions writeOpts, final WriteBatchWithIndex updates) throws RocksDBException { write1(nativeHandle_, writeOpts.nativeHandle_, updates.nativeHandle_); } /** * Add merge operand for key/value pair. * * @param key the specified key to be merged. * @param value the value to be merged with the current value for * the specified key. * * @throws RocksDBException thrown if error happens in underlying * native library. */ public void merge(final byte[] key, final byte[] value) throws RocksDBException { merge(nativeHandle_, key, 0, key.length, value, 0, value.length); } /** * Add merge operand for key/value pair in a ColumnFamily. * * @param columnFamilyHandle {@link ColumnFamilyHandle} instance * @param key the specified key to be merged. * @param value the value to be merged with the current value for * the specified key. * * @throws RocksDBException thrown if error happens in underlying * native library. */ public void merge(final ColumnFamilyHandle columnFamilyHandle, final byte[] key, final byte[] value) throws RocksDBException { merge(nativeHandle_, key, 0, key.length, value, 0, value.length, columnFamilyHandle.nativeHandle_); } /** * Add merge operand for key/value pair. * * @param writeOpts {@link WriteOptions} for this write. * @param key the specified key to be merged. * @param value the value to be merged with the current value for * the specified key. * * @throws RocksDBException thrown if error happens in underlying * native library. */ public void merge(final WriteOptions writeOpts, final byte[] key, final byte[] value) throws RocksDBException { merge(nativeHandle_, writeOpts.nativeHandle_, key, 0, key.length, value, 0, value.length); } /** * Add merge operand for key/value pair. * * @param columnFamilyHandle {@link ColumnFamilyHandle} instance * @param writeOpts {@link WriteOptions} for this write. * @param key the specified key to be merged. * @param value the value to be merged with the current value for * the specified key. * * @throws RocksDBException thrown if error happens in underlying * native library. */ public void merge(final ColumnFamilyHandle columnFamilyHandle, final WriteOptions writeOpts, final byte[] key, final byte[] value) throws RocksDBException { merge(nativeHandle_, writeOpts.nativeHandle_, key, 0, key.length, value, 0, value.length, columnFamilyHandle.nativeHandle_); } // TODO(AR) we should improve the #get() API, returning -1 (RocksDB.NOT_FOUND) is not very nice // when we could communicate better status into, also the C++ code show that -2 could be returned /** * Get the value associated with the specified key within column family* * @param key the key to retrieve the value. * @param value the out-value to receive the retrieved value. * @return The size of the actual value that matches the specified * {@code key} in byte. If the return value is greater than the * length of {@code value}, then it indicates that the size of the * input buffer {@code value} is insufficient and partial result will * be returned. RocksDB.NOT_FOUND will be returned if the value not * found. * * @throws RocksDBException thrown if error happens in underlying * native library. */ public int get(final byte[] key, final byte[] value) throws RocksDBException { return get(nativeHandle_, key, 0, key.length, value, 0, value.length); } /** * Get the value associated with the specified key within column family. * * @param columnFamilyHandle {@link org.rocksdb.ColumnFamilyHandle} * instance * @param key the key to retrieve the value. * @param value the out-value to receive the retrieved value. * @return The size of the actual value that matches the specified * {@code key} in byte. If the return value is greater than the * length of {@code value}, then it indicates that the size of the * input buffer {@code value} is insufficient and partial result will * be returned. RocksDB.NOT_FOUND will be returned if the value not * found. * * @throws RocksDBException thrown if error happens in underlying * native library. */ public int get(final ColumnFamilyHandle columnFamilyHandle, final byte[] key, final byte[] value) throws RocksDBException, IllegalArgumentException { return get(nativeHandle_, key, 0, key.length, value, 0, value.length, columnFamilyHandle.nativeHandle_); } /** * Get the value associated with the specified key. * * @param opt {@link org.rocksdb.ReadOptions} instance. * @param key the key to retrieve the value. * @param value the out-value to receive the retrieved value. * @return The size of the actual value that matches the specified * {@code key} in byte. If the return value is greater than the * length of {@code value}, then it indicates that the size of the * input buffer {@code value} is insufficient and partial result will * be returned. RocksDB.NOT_FOUND will be returned if the value not * found. * * @throws RocksDBException thrown if error happens in underlying * native library. */ public int get(final ReadOptions opt, final byte[] key, final byte[] value) throws RocksDBException { return get(nativeHandle_, opt.nativeHandle_, key, 0, key.length, value, 0, value.length); } /** * Get the value associated with the specified key within column family. * * @param columnFamilyHandle {@link org.rocksdb.ColumnFamilyHandle} * instance * @param opt {@link org.rocksdb.ReadOptions} instance. * @param key the key to retrieve the value. * @param value the out-value to receive the retrieved value. * @return The size of the actual value that matches the specified * {@code key} in byte. If the return value is greater than the * length of {@code value}, then it indicates that the size of the * input buffer {@code value} is insufficient and partial result will * be returned. RocksDB.NOT_FOUND will be returned if the value not * found. * * @throws RocksDBException thrown if error happens in underlying * native library. */ public int get(final ColumnFamilyHandle columnFamilyHandle, final ReadOptions opt, final byte[] key, final byte[] value) throws RocksDBException { return get(nativeHandle_, opt.nativeHandle_, key, 0, key.length, value, 0, value.length, columnFamilyHandle.nativeHandle_); } /** * The simplified version of get which returns a new byte array storing * the value associated with the specified input key if any. null will be * returned if the specified key is not found. * * @param key the key retrieve the value. * @return a byte array storing the value associated with the input key if * any. null if it does not find the specified key. * * @throws RocksDBException thrown if error happens in underlying * native library. */ public byte[] get(final byte[] key) throws RocksDBException { return get(nativeHandle_, key, 0, key.length); } /** * The simplified version of get which returns a new byte array storing * the value associated with the specified input key if any. null will be * returned if the specified key is not found. * * @param columnFamilyHandle {@link org.rocksdb.ColumnFamilyHandle} * instance * @param key the key retrieve the value. * @return a byte array storing the value associated with the input key if * any. null if it does not find the specified key. * * @throws RocksDBException thrown if error happens in underlying * native library. */ public byte[] get(final ColumnFamilyHandle columnFamilyHandle, final byte[] key) throws RocksDBException { return get(nativeHandle_, key, 0, key.length, columnFamilyHandle.nativeHandle_); } /** * The simplified version of get which returns a new byte array storing * the value associated with the specified input key if any. null will be * returned if the specified key is not found. * * @param key the key retrieve the value. * @param opt Read options. * @return a byte array storing the value associated with the input key if * any. null if it does not find the specified key. * * @throws RocksDBException thrown if error happens in underlying * native library. */ public byte[] get(final ReadOptions opt, final byte[] key) throws RocksDBException { return get(nativeHandle_, opt.nativeHandle_, key, 0, key.length); } /** * The simplified version of get which returns a new byte array storing * the value associated with the specified input key if any. null will be * returned if the specified key is not found. * * @param columnFamilyHandle {@link org.rocksdb.ColumnFamilyHandle} * instance * @param key the key retrieve the value. * @param opt Read options. * @return a byte array storing the value associated with the input key if * any. null if it does not find the specified key. * * @throws RocksDBException thrown if error happens in underlying * native library. */ public byte[] get(final ColumnFamilyHandle columnFamilyHandle, final ReadOptions opt, final byte[] key) throws RocksDBException { return get(nativeHandle_, opt.nativeHandle_, key, 0, key.length, columnFamilyHandle.nativeHandle_); } /** * Returns a map of keys for which values were found in DB. * * @param keys List of keys for which values need to be retrieved. * @return Map where key of map is the key passed by user and value for map * entry is the corresponding value in DB. * * @throws RocksDBException thrown if error happens in underlying * native library. */ public Map multiGet(final List keys) throws RocksDBException { assert(keys.size() != 0); final byte[][] keysArray = keys.toArray(new byte[keys.size()][]); final int keyOffsets[] = new int[keysArray.length]; final int keyLengths[] = new int[keysArray.length]; for(int i = 0; i < keyLengths.length; i++) { keyLengths[i] = keysArray[i].length; } final byte[][] values = multiGet(nativeHandle_, keysArray, keyOffsets, keyLengths); final Map keyValueMap = new HashMap<>(computeCapacityHint(values.length)); for(int i = 0; i < values.length; i++) { if(values[i] == null) { continue; } keyValueMap.put(keys.get(i), values[i]); } return keyValueMap; } private static int computeCapacityHint(final int estimatedNumberOfItems) { // Default load factor for HashMap is 0.75, so N * 1.5 will be at the load // limit. We add +1 for a buffer. return (int)Math.ceil(estimatedNumberOfItems * 1.5 + 1.0); } /** * Returns a map of keys for which values were found in DB. *

    * Note: Every key needs to have a related column family name in * {@code columnFamilyHandleList}. *

    * * @param columnFamilyHandleList {@link java.util.List} containing * {@link org.rocksdb.ColumnFamilyHandle} instances. * @param keys List of keys for which values need to be retrieved. * @return Map where key of map is the key passed by user and value for map * entry is the corresponding value in DB. * * @throws RocksDBException thrown if error happens in underlying * native library. * @throws IllegalArgumentException thrown if the size of passed keys is not * equal to the amount of passed column family handles. */ public Map multiGet( final List columnFamilyHandleList, final List keys) throws RocksDBException, IllegalArgumentException { assert(keys.size() != 0); // Check if key size equals cfList size. If not a exception must be // thrown. If not a Segmentation fault happens. if (keys.size() != columnFamilyHandleList.size()) { throw new IllegalArgumentException( "For each key there must be a ColumnFamilyHandle."); } final long[] cfHandles = new long[columnFamilyHandleList.size()]; for (int i = 0; i < columnFamilyHandleList.size(); i++) { cfHandles[i] = columnFamilyHandleList.get(i).nativeHandle_; } final byte[][] keysArray = keys.toArray(new byte[keys.size()][]); final int keyOffsets[] = new int[keysArray.length]; final int keyLengths[] = new int[keysArray.length]; for(int i = 0; i < keyLengths.length; i++) { keyLengths[i] = keysArray[i].length; } final byte[][] values = multiGet(nativeHandle_, keysArray, keyOffsets, keyLengths, cfHandles); final Map keyValueMap = new HashMap<>(computeCapacityHint(values.length)); for(int i = 0; i < values.length; i++) { if (values[i] == null) { continue; } keyValueMap.put(keys.get(i), values[i]); } return keyValueMap; } /** * Returns a map of keys for which values were found in DB. * * @param opt Read options. * @param keys of keys for which values need to be retrieved. * @return Map where key of map is the key passed by user and value for map * entry is the corresponding value in DB. * * @throws RocksDBException thrown if error happens in underlying * native library. */ public Map multiGet(final ReadOptions opt, final List keys) throws RocksDBException { assert(keys.size() != 0); final byte[][] keysArray = keys.toArray(new byte[keys.size()][]); final int keyOffsets[] = new int[keysArray.length]; final int keyLengths[] = new int[keysArray.length]; for(int i = 0; i < keyLengths.length; i++) { keyLengths[i] = keysArray[i].length; } final byte[][] values = multiGet(nativeHandle_, opt.nativeHandle_, keysArray, keyOffsets, keyLengths); final Map keyValueMap = new HashMap<>(computeCapacityHint(values.length)); for(int i = 0; i < values.length; i++) { if(values[i] == null) { continue; } keyValueMap.put(keys.get(i), values[i]); } return keyValueMap; } /** * Returns a map of keys for which values were found in DB. *

    * Note: Every key needs to have a related column family name in * {@code columnFamilyHandleList}. *

    * * @param opt Read options. * @param columnFamilyHandleList {@link java.util.List} containing * {@link org.rocksdb.ColumnFamilyHandle} instances. * @param keys of keys for which values need to be retrieved. * @return Map where key of map is the key passed by user and value for map * entry is the corresponding value in DB. * * @throws RocksDBException thrown if error happens in underlying * native library. * @throws IllegalArgumentException thrown if the size of passed keys is not * equal to the amount of passed column family handles. */ public Map multiGet(final ReadOptions opt, final List columnFamilyHandleList, final List keys) throws RocksDBException { assert(keys.size() != 0); // Check if key size equals cfList size. If not a exception must be // thrown. If not a Segmentation fault happens. if (keys.size()!=columnFamilyHandleList.size()){ throw new IllegalArgumentException( "For each key there must be a ColumnFamilyHandle."); } final long[] cfHandles = new long[columnFamilyHandleList.size()]; for (int i = 0; i < columnFamilyHandleList.size(); i++) { cfHandles[i] = columnFamilyHandleList.get(i).nativeHandle_; } final byte[][] keysArray = keys.toArray(new byte[keys.size()][]); final int keyOffsets[] = new int[keysArray.length]; final int keyLengths[] = new int[keysArray.length]; for(int i = 0; i < keyLengths.length; i++) { keyLengths[i] = keysArray[i].length; } final byte[][] values = multiGet(nativeHandle_, opt.nativeHandle_, keysArray, keyOffsets, keyLengths, cfHandles); final Map keyValueMap = new HashMap<>(computeCapacityHint(values.length)); for(int i = 0; i < values.length; i++) { if(values[i] == null) { continue; } keyValueMap.put(keys.get(i), values[i]); } return keyValueMap; } /** * Remove the database entry (if any) for "key". Returns OK on * success, and a non-OK status on error. It is not an error if "key" * did not exist in the database. * * @param key Key to delete within database * * @throws RocksDBException thrown if error happens in underlying * native library. * * @deprecated Use {@link #delete(byte[])} */ @Deprecated public void remove(final byte[] key) throws RocksDBException { delete(key); } /** * Delete the database entry (if any) for "key". Returns OK on * success, and a non-OK status on error. It is not an error if "key" * did not exist in the database. * * @param key Key to delete within database * * @throws RocksDBException thrown if error happens in underlying * native library. */ public void delete(final byte[] key) throws RocksDBException { delete(nativeHandle_, key, 0, key.length); } /** * Remove the database entry (if any) for "key". Returns OK on * success, and a non-OK status on error. It is not an error if "key" * did not exist in the database. * * @param columnFamilyHandle {@link org.rocksdb.ColumnFamilyHandle} * instance * @param key Key to delete within database * * @throws RocksDBException thrown if error happens in underlying * native library. * * @deprecated Use {@link #delete(ColumnFamilyHandle, byte[])} */ @Deprecated public void remove(final ColumnFamilyHandle columnFamilyHandle, final byte[] key) throws RocksDBException { delete(columnFamilyHandle, key); } /** * Delete the database entry (if any) for "key". Returns OK on * success, and a non-OK status on error. It is not an error if "key" * did not exist in the database. * * @param columnFamilyHandle {@link org.rocksdb.ColumnFamilyHandle} * instance * @param key Key to delete within database * * @throws RocksDBException thrown if error happens in underlying * native library. */ public void delete(final ColumnFamilyHandle columnFamilyHandle, final byte[] key) throws RocksDBException { delete(nativeHandle_, key, 0, key.length, columnFamilyHandle.nativeHandle_); } /** * Remove the database entry (if any) for "key". Returns OK on * success, and a non-OK status on error. It is not an error if "key" * did not exist in the database. * * @param writeOpt WriteOptions to be used with delete operation * @param key Key to delete within database * * @throws RocksDBException thrown if error happens in underlying * native library. * * @deprecated Use {@link #delete(WriteOptions, byte[])} */ @Deprecated public void remove(final WriteOptions writeOpt, final byte[] key) throws RocksDBException { delete(writeOpt, key); } /** * Delete the database entry (if any) for "key". Returns OK on * success, and a non-OK status on error. It is not an error if "key" * did not exist in the database. * * @param writeOpt WriteOptions to be used with delete operation * @param key Key to delete within database * * @throws RocksDBException thrown if error happens in underlying * native library. */ public void delete(final WriteOptions writeOpt, final byte[] key) throws RocksDBException { delete(nativeHandle_, writeOpt.nativeHandle_, key, 0, key.length); } /** * Remove the database entry (if any) for "key". Returns OK on * success, and a non-OK status on error. It is not an error if "key" * did not exist in the database. * * @param columnFamilyHandle {@link org.rocksdb.ColumnFamilyHandle} * instance * @param writeOpt WriteOptions to be used with delete operation * @param key Key to delete within database * * @throws RocksDBException thrown if error happens in underlying * native library. * * @deprecated Use {@link #delete(ColumnFamilyHandle, WriteOptions, byte[])} */ @Deprecated public void remove(final ColumnFamilyHandle columnFamilyHandle, final WriteOptions writeOpt, final byte[] key) throws RocksDBException { delete(columnFamilyHandle, writeOpt, key); } /** * Delete the database entry (if any) for "key". Returns OK on * success, and a non-OK status on error. It is not an error if "key" * did not exist in the database. * * @param columnFamilyHandle {@link org.rocksdb.ColumnFamilyHandle} * instance * @param writeOpt WriteOptions to be used with delete operation * @param key Key to delete within database * * @throws RocksDBException thrown if error happens in underlying * native library. */ public void delete(final ColumnFamilyHandle columnFamilyHandle, final WriteOptions writeOpt, final byte[] key) throws RocksDBException { delete(nativeHandle_, writeOpt.nativeHandle_, key, 0, key.length, columnFamilyHandle.nativeHandle_); } /** * Remove the database entry for {@code key}. Requires that the key exists * and was not overwritten. It is not an error if the key did not exist * in the database. * * If a key is overwritten (by calling {@link #put(byte[], byte[])} multiple * times), then the result of calling SingleDelete() on this key is undefined. * SingleDelete() only behaves correctly if there has been only one Put() * for this key since the previous call to SingleDelete() for this key. * * This feature is currently an experimental performance optimization * for a very specific workload. It is up to the caller to ensure that * SingleDelete is only used for a key that is not deleted using Delete() or * written using Merge(). Mixing SingleDelete operations with Deletes and * Merges can result in undefined behavior. * * @param key Key to delete within database * * @throws RocksDBException thrown if error happens in underlying * native library. */ @Experimental("Performance optimization for a very specific workload") public void singleDelete(final byte[] key) throws RocksDBException { singleDelete(nativeHandle_, key, key.length); } /** * Remove the database entry for {@code key}. Requires that the key exists * and was not overwritten. It is not an error if the key did not exist * in the database. * * If a key is overwritten (by calling {@link #put(byte[], byte[])} multiple * times), then the result of calling SingleDelete() on this key is undefined. * SingleDelete() only behaves correctly if there has been only one Put() * for this key since the previous call to SingleDelete() for this key. * * This feature is currently an experimental performance optimization * for a very specific workload. It is up to the caller to ensure that * SingleDelete is only used for a key that is not deleted using Delete() or * written using Merge(). Mixing SingleDelete operations with Deletes and * Merges can result in undefined behavior. * * @param columnFamilyHandle The column family to delete the key from * @param key Key to delete within database * * @throws RocksDBException thrown if error happens in underlying * native library. */ @Experimental("Performance optimization for a very specific workload") public void singleDelete(final ColumnFamilyHandle columnFamilyHandle, final byte[] key) throws RocksDBException { singleDelete(nativeHandle_, key, key.length, columnFamilyHandle.nativeHandle_); } /** * Remove the database entry for {@code key}. Requires that the key exists * and was not overwritten. It is not an error if the key did not exist * in the database. * * If a key is overwritten (by calling {@link #put(byte[], byte[])} multiple * times), then the result of calling SingleDelete() on this key is undefined. * SingleDelete() only behaves correctly if there has been only one Put() * for this key since the previous call to SingleDelete() for this key. * * This feature is currently an experimental performance optimization * for a very specific workload. It is up to the caller to ensure that * SingleDelete is only used for a key that is not deleted using Delete() or * written using Merge(). Mixing SingleDelete operations with Deletes and * Merges can result in undefined behavior. * * Note: consider setting {@link WriteOptions#setSync(boolean)} true. * * @param writeOpt Write options for the delete * @param key Key to delete within database * * @throws RocksDBException thrown if error happens in underlying * native library. */ @Experimental("Performance optimization for a very specific workload") public void singleDelete(final WriteOptions writeOpt, final byte[] key) throws RocksDBException { singleDelete(nativeHandle_, writeOpt.nativeHandle_, key, key.length); } /** * Remove the database entry for {@code key}. Requires that the key exists * and was not overwritten. It is not an error if the key did not exist * in the database. * * If a key is overwritten (by calling {@link #put(byte[], byte[])} multiple * times), then the result of calling SingleDelete() on this key is undefined. * SingleDelete() only behaves correctly if there has been only one Put() * for this key since the previous call to SingleDelete() for this key. * * This feature is currently an experimental performance optimization * for a very specific workload. It is up to the caller to ensure that * SingleDelete is only used for a key that is not deleted using Delete() or * written using Merge(). Mixing SingleDelete operations with Deletes and * Merges can result in undefined behavior. * * Note: consider setting {@link WriteOptions#setSync(boolean)} true. * * @param columnFamilyHandle The column family to delete the key from * @param writeOpt Write options for the delete * @param key Key to delete within database * * @throws RocksDBException thrown if error happens in underlying * native library. */ @Experimental("Performance optimization for a very specific workload") public void singleDelete(final ColumnFamilyHandle columnFamilyHandle, final WriteOptions writeOpt, final byte[] key) throws RocksDBException { singleDelete(nativeHandle_, writeOpt.nativeHandle_, key, key.length, columnFamilyHandle.nativeHandle_); } /** * DB implements can export properties about their state * via this method on a per column family level. * *

    If {@code property} is a valid property understood by this DB * implementation, fills {@code value} with its current value and * returns true. Otherwise returns false.

    * *

    Valid property names include: *

      *
    • "rocksdb.num-files-at-level<N>" - return the number of files at * level <N>, where <N> is an ASCII representation of a level * number (e.g. "0").
      • *
    • "rocksdb.stats" - returns a multi-line string that describes statistics * about the internal operation of the DB.
      • *
    • "rocksdb.sstables" - returns a multi-line string that describes all * of the sstables that make up the db contents.
      • *
    * * @param columnFamilyHandle {@link org.rocksdb.ColumnFamilyHandle} * instance * @param property to be fetched. See above for examples * @return property value * * @throws RocksDBException thrown if error happens in underlying * native library. */ public String getProperty(final ColumnFamilyHandle columnFamilyHandle, final String property) throws RocksDBException { return getProperty0(nativeHandle_, columnFamilyHandle.nativeHandle_, property, property.length()); } /** * Removes the database entries in the range ["beginKey", "endKey"), i.e., * including "beginKey" and excluding "endKey". a non-OK status on error. It * is not an error if no keys exist in the range ["beginKey", "endKey"). * * Delete the database entry (if any) for "key". Returns OK on success, and a * non-OK status on error. It is not an error if "key" did not exist in the * database. * * @param beginKey * First key to delete within database (included) * @param endKey * Last key to delete within database (excluded) * * @throws RocksDBException * thrown if error happens in underlying native library. */ public void deleteRange(final byte[] beginKey, final byte[] endKey) throws RocksDBException { deleteRange(nativeHandle_, beginKey, 0, beginKey.length, endKey, 0, endKey.length); } /** * Removes the database entries in the range ["beginKey", "endKey"), i.e., * including "beginKey" and excluding "endKey". a non-OK status on error. It * is not an error if no keys exist in the range ["beginKey", "endKey"). * * Delete the database entry (if any) for "key". Returns OK on success, and a * non-OK status on error. It is not an error if "key" did not exist in the * database. * * @param columnFamilyHandle * {@link org.rocksdb.ColumnFamilyHandle} instance * @param beginKey * First key to delete within database (included) * @param endKey * Last key to delete within database (excluded) * * @throws RocksDBException * thrown if error happens in underlying native library. */ public void deleteRange(final ColumnFamilyHandle columnFamilyHandle, final byte[] beginKey, final byte[] endKey) throws RocksDBException { deleteRange(nativeHandle_, beginKey, 0, beginKey.length, endKey, 0, endKey.length, columnFamilyHandle.nativeHandle_); } /** * Removes the database entries in the range ["beginKey", "endKey"), i.e., * including "beginKey" and excluding "endKey". a non-OK status on error. It * is not an error if no keys exist in the range ["beginKey", "endKey"). * * Delete the database entry (if any) for "key". Returns OK on success, and a * non-OK status on error. It is not an error if "key" did not exist in the * database. * * @param writeOpt * WriteOptions to be used with delete operation * @param beginKey * First key to delete within database (included) * @param endKey * Last key to delete within database (excluded) * * @throws RocksDBException * thrown if error happens in underlying native library. */ public void deleteRange(final WriteOptions writeOpt, final byte[] beginKey, final byte[] endKey) throws RocksDBException { deleteRange(nativeHandle_, writeOpt.nativeHandle_, beginKey, 0, beginKey.length, endKey, 0, endKey.length); } /** * Removes the database entries in the range ["beginKey", "endKey"), i.e., * including "beginKey" and excluding "endKey". a non-OK status on error. It * is not an error if no keys exist in the range ["beginKey", "endKey"). * * Delete the database entry (if any) for "key". Returns OK on success, and a * non-OK status on error. It is not an error if "key" did not exist in the * database. * * @param columnFamilyHandle {@link org.rocksdb.ColumnFamilyHandle} * instance * @param writeOpt * WriteOptions to be used with delete operation * @param beginKey * First key to delete within database (included) * @param endKey * Last key to delete within database (excluded) * * @throws RocksDBException * thrown if error happens in underlying native library. */ public void deleteRange(final ColumnFamilyHandle columnFamilyHandle, final WriteOptions writeOpt, final byte[] beginKey, final byte[] endKey) throws RocksDBException { deleteRange(nativeHandle_, writeOpt.nativeHandle_, beginKey, 0, beginKey.length, endKey, 0, endKey.length, columnFamilyHandle.nativeHandle_); } /** * DB implementations can export properties about their state * via this method. If "property" is a valid property understood by this * DB implementation, fills "*value" with its current value and returns * true. Otherwise returns false. * *

    Valid property names include: *

      *
    • "rocksdb.num-files-at-level<N>" - return the number of files at * level <N>, where <N> is an ASCII representation of a level * number (e.g. "0").
      • *
    • "rocksdb.stats" - returns a multi-line string that describes statistics * about the internal operation of the DB.
      • *
    • "rocksdb.sstables" - returns a multi-line string that describes all * of the sstables that make up the db contents.
      • *
    * * @param property to be fetched. See above for examples * @return property value * * @throws RocksDBException thrown if error happens in underlying * native library. */ public String getProperty(final String property) throws RocksDBException { return getProperty0(nativeHandle_, property, property.length()); } /** *

    Similar to GetProperty(), but only works for a subset of properties * whose return value is a numerical value. Return the value as long.

    * *

    Note: As the returned property is of type * {@code uint64_t} on C++ side the returning value can be negative * because Java supports in Java 7 only signed long values.

    * *

    Java 7: To mitigate the problem of the non * existent unsigned long tpye, values should be encapsulated using * {@link java.math.BigInteger} to reflect the correct value. The correct * behavior is guaranteed if {@code 2^64} is added to negative values.

    * *

    Java 8: In Java 8 the value should be treated as * unsigned long using provided methods of type {@link Long}.

    * * @param property to be fetched. * * @return numerical property value. * * @throws RocksDBException if an error happens in the underlying native code. */ public long getLongProperty(final String property) throws RocksDBException { return getLongProperty(nativeHandle_, property, property.length()); } /** *

    Similar to GetProperty(), but only works for a subset of properties * whose return value is a numerical value. Return the value as long.

    * *

    Note: As the returned property is of type * {@code uint64_t} on C++ side the returning value can be negative * because Java supports in Java 7 only signed long values.

    * *

    Java 7: To mitigate the problem of the non * existent unsigned long tpye, values should be encapsulated using * {@link java.math.BigInteger} to reflect the correct value. The correct * behavior is guaranteed if {@code 2^64} is added to negative values.

    * *

    Java 8: In Java 8 the value should be treated as * unsigned long using provided methods of type {@link Long}.

    * * @param columnFamilyHandle {@link org.rocksdb.ColumnFamilyHandle} * instance * @param property to be fetched. * * @return numerical property value * * @throws RocksDBException if an error happens in the underlying native code. */ public long getLongProperty(final ColumnFamilyHandle columnFamilyHandle, final String property) throws RocksDBException { return getLongProperty(nativeHandle_, columnFamilyHandle.nativeHandle_, property, property.length()); } /** *

    Return sum of the getLongProperty of all the column families

    * *

    Note: As the returned property is of type * {@code uint64_t} on C++ side the returning value can be negative * because Java supports in Java 7 only signed long values.

    * *

    Java 7: To mitigate the problem of the non * existent unsigned long tpye, values should be encapsulated using * {@link java.math.BigInteger} to reflect the correct value. The correct * behavior is guaranteed if {@code 2^64} is added to negative values.

    * *

    Java 8: In Java 8 the value should be treated as * unsigned long using provided methods of type {@link Long}.

    * * @param property to be fetched. * * @return numerical property value * * @throws RocksDBException if an error happens in the underlying native code. */ public long getAggregatedLongProperty(final String property) throws RocksDBException { return getAggregatedLongProperty(nativeHandle_, property, property.length()); } /** *

    Return a heap-allocated iterator over the contents of the * database. The result of newIterator() is initially invalid * (caller must call one of the Seek methods on the iterator * before using it).

    * *

    Caller should close the iterator when it is no longer needed. * The returned iterator should be closed before this db is closed. *

    * * @return instance of iterator object. */ public RocksIterator newIterator() { return new RocksIterator(this, iterator(nativeHandle_)); } /** *

    Return a heap-allocated iterator over the contents of the * database. The result of newIterator() is initially invalid * (caller must call one of the Seek methods on the iterator * before using it).

    * *

    Caller should close the iterator when it is no longer needed. * The returned iterator should be closed before this db is closed. *

    * * @param readOptions {@link ReadOptions} instance. * @return instance of iterator object. */ public RocksIterator newIterator(final ReadOptions readOptions) { return new RocksIterator(this, iterator(nativeHandle_, readOptions.nativeHandle_)); } /** *

    Return a handle to the current DB state. Iterators created with * this handle will all observe a stable snapshot of the current DB * state. The caller must call ReleaseSnapshot(result) when the * snapshot is no longer needed.

    * *

    nullptr will be returned if the DB fails to take a snapshot or does * not support snapshot.

    * * @return Snapshot {@link Snapshot} instance */ public Snapshot getSnapshot() { long snapshotHandle = getSnapshot(nativeHandle_); if (snapshotHandle != 0) { return new Snapshot(snapshotHandle); } return null; } /** * Release a previously acquired snapshot. The caller must not * use "snapshot" after this call. * * @param snapshot {@link Snapshot} instance */ public void releaseSnapshot(final Snapshot snapshot) { if (snapshot != null) { releaseSnapshot(nativeHandle_, snapshot.nativeHandle_); } } /** *

    Return a heap-allocated iterator over the contents of the * database. The result of newIterator() is initially invalid * (caller must call one of the Seek methods on the iterator * before using it).

    * *

    Caller should close the iterator when it is no longer needed. * The returned iterator should be closed before this db is closed. *

    * * @param columnFamilyHandle {@link org.rocksdb.ColumnFamilyHandle} * instance * @return instance of iterator object. */ public RocksIterator newIterator( final ColumnFamilyHandle columnFamilyHandle) { return new RocksIterator(this, iteratorCF(nativeHandle_, columnFamilyHandle.nativeHandle_)); } /** *

    Return a heap-allocated iterator over the contents of the * database. The result of newIterator() is initially invalid * (caller must call one of the Seek methods on the iterator * before using it).

    * *

    Caller should close the iterator when it is no longer needed. * The returned iterator should be closed before this db is closed. *

    * * @param columnFamilyHandle {@link org.rocksdb.ColumnFamilyHandle} * instance * @param readOptions {@link ReadOptions} instance. * @return instance of iterator object. */ public RocksIterator newIterator(final ColumnFamilyHandle columnFamilyHandle, final ReadOptions readOptions) { return new RocksIterator(this, iteratorCF(nativeHandle_, columnFamilyHandle.nativeHandle_, readOptions.nativeHandle_)); } /** * Returns iterators from a consistent database state across multiple * column families. Iterators are heap allocated and need to be deleted * before the db is deleted * * @param columnFamilyHandleList {@link java.util.List} containing * {@link org.rocksdb.ColumnFamilyHandle} instances. * @return {@link java.util.List} containing {@link org.rocksdb.RocksIterator} * instances * * @throws RocksDBException thrown if error happens in underlying * native library. */ public List newIterators( final List columnFamilyHandleList) throws RocksDBException { return newIterators(columnFamilyHandleList, new ReadOptions()); } /** * Returns iterators from a consistent database state across multiple * column families. Iterators are heap allocated and need to be deleted * before the db is deleted * * @param columnFamilyHandleList {@link java.util.List} containing * {@link org.rocksdb.ColumnFamilyHandle} instances. * @param readOptions {@link ReadOptions} instance. * @return {@link java.util.List} containing {@link org.rocksdb.RocksIterator} * instances * * @throws RocksDBException thrown if error happens in underlying * native library. */ public List newIterators( final List columnFamilyHandleList, final ReadOptions readOptions) throws RocksDBException { final long[] columnFamilyHandles = new long[columnFamilyHandleList.size()]; for (int i = 0; i < columnFamilyHandleList.size(); i++) { columnFamilyHandles[i] = columnFamilyHandleList.get(i).nativeHandle_; } final long[] iteratorRefs = iterators(nativeHandle_, columnFamilyHandles, readOptions.nativeHandle_); final List iterators = new ArrayList<>( columnFamilyHandleList.size()); for (int i=0; iFlush all memory table data.

    * *

    Note: it must be ensured that the FlushOptions instance * is not GC'ed before this method finishes. If the wait parameter is * set to false, flush processing is asynchronous.

    * * @param flushOptions {@link org.rocksdb.FlushOptions} instance. * @throws RocksDBException thrown if an error occurs within the native * part of the library. */ public void flush(final FlushOptions flushOptions) throws RocksDBException { flush(nativeHandle_, flushOptions.nativeHandle_); } /** *

    Flush all memory table data.

    * *

    Note: it must be ensured that the FlushOptions instance * is not GC'ed before this method finishes. If the wait parameter is * set to false, flush processing is asynchronous.

    * * @param flushOptions {@link org.rocksdb.FlushOptions} instance. * @param columnFamilyHandle {@link org.rocksdb.ColumnFamilyHandle} instance. * @throws RocksDBException thrown if an error occurs within the native * part of the library. */ public void flush(final FlushOptions flushOptions, final ColumnFamilyHandle columnFamilyHandle) throws RocksDBException { flush(nativeHandle_, flushOptions.nativeHandle_, columnFamilyHandle.nativeHandle_); } /** *

    Range compaction of database.

    *

    Note: After the database has been compacted, * all data will have been pushed down to the last level containing * any data.

    * *

    See also

    *
      *
    • {@link #compactRange(boolean, int, int)}
      • *
    • {@link #compactRange(byte[], byte[])}
      • *
    • {@link #compactRange(byte[], byte[], boolean, int, int)}
      • *
    * * @throws RocksDBException thrown if an error occurs within the native * part of the library. */ public void compactRange() throws RocksDBException { compactRange0(nativeHandle_, false, -1, 0); } /** *

    Range compaction of database.

    *

    Note: After the database has been compacted, * all data will have been pushed down to the last level containing * any data.

    * *

    See also

    *
      *
    • {@link #compactRange()}
      • *
    • {@link #compactRange(boolean, int, int)}
      • *
    • {@link #compactRange(byte[], byte[], boolean, int, int)}
      • *
    * * @param begin start of key range (included in range) * @param end end of key range (excluded from range) * * @throws RocksDBException thrown if an error occurs within the native * part of the library. */ public void compactRange(final byte[] begin, final byte[] end) throws RocksDBException { compactRange0(nativeHandle_, begin, begin.length, end, end.length, false, -1, 0); } /** *

    Range compaction of database.

    *

    Note: After the database has been compacted, * all data will have been pushed down to the last level containing * any data.

    * *

    Compaction outputs should be placed in options.db_paths * [target_path_id]. Behavior is undefined if target_path_id is * out of range.

    * *

    See also

    *
      *
    • {@link #compactRange()}
      • *
    • {@link #compactRange(byte[], byte[])}
      • *
    • {@link #compactRange(byte[], byte[], boolean, int, int)}
      • *
    * * @deprecated Use {@link #compactRange(ColumnFamilyHandle, byte[], byte[], CompactRangeOptions)} instead * * @param reduce_level reduce level after compaction * @param target_level target level to compact to * @param target_path_id the target path id of output path * * @throws RocksDBException thrown if an error occurs within the native * part of the library. */ @Deprecated public void compactRange(final boolean reduce_level, final int target_level, final int target_path_id) throws RocksDBException { compactRange0(nativeHandle_, reduce_level, target_level, target_path_id); } /** *

    Range compaction of database.

    *

    Note: After the database has been compacted, * all data will have been pushed down to the last level containing * any data.

    * *

    Compaction outputs should be placed in options.db_paths * [target_path_id]. Behavior is undefined if target_path_id is * out of range.

    * *

    See also

    *
      *
    • {@link #compactRange()}
      • *
    • {@link #compactRange(boolean, int, int)}
      • *
    • {@link #compactRange(byte[], byte[])}
      • *
    * * @deprecated Use {@link #compactRange(ColumnFamilyHandle, byte[], byte[], CompactRangeOptions)} instead * * @param begin start of key range (included in range) * @param end end of key range (excluded from range) * @param reduce_level reduce level after compaction * @param target_level target level to compact to * @param target_path_id the target path id of output path * * @throws RocksDBException thrown if an error occurs within the native * part of the library. */ @Deprecated public void compactRange(final byte[] begin, final byte[] end, final boolean reduce_level, final int target_level, final int target_path_id) throws RocksDBException { compactRange0(nativeHandle_, begin, begin.length, end, end.length, reduce_level, target_level, target_path_id); } /** *

    Range compaction of column family.

    *

    Note: After the database has been compacted, * all data will have been pushed down to the last level containing * any data.

    * *

    See also

    *
      *
    • * {@link #compactRange(ColumnFamilyHandle, boolean, int, int)} *
      • *
    • * {@link #compactRange(ColumnFamilyHandle, byte[], byte[])} *
      • *
    • * {@link #compactRange(ColumnFamilyHandle, byte[], byte[], * boolean, int, int)} *
      • *
    * * @param columnFamilyHandle {@link org.rocksdb.ColumnFamilyHandle} * instance. * * @throws RocksDBException thrown if an error occurs within the native * part of the library. */ public void compactRange(final ColumnFamilyHandle columnFamilyHandle) throws RocksDBException { compactRange(nativeHandle_, false, -1, 0, columnFamilyHandle.nativeHandle_); } /** *

    Range compaction of column family.

    *

    Note: After the database has been compacted, * all data will have been pushed down to the last level containing * any data.

    * *

    See also

    *
      *
    • {@link #compactRange(ColumnFamilyHandle)}
      • *
    • * {@link #compactRange(ColumnFamilyHandle, boolean, int, int)} *
      • *
    • * {@link #compactRange(ColumnFamilyHandle, byte[], byte[], * boolean, int, int)} *
      • *
    * * @param columnFamilyHandle {@link org.rocksdb.ColumnFamilyHandle} * instance. * @param begin start of key range (included in range) * @param end end of key range (excluded from range) * * @throws RocksDBException thrown if an error occurs within the native * part of the library. */ public void compactRange(final ColumnFamilyHandle columnFamilyHandle, final byte[] begin, final byte[] end) throws RocksDBException { compactRange(nativeHandle_, begin, begin.length, end, end.length, false, -1, 0, columnFamilyHandle.nativeHandle_); } /** *

    Range compaction of column family.

    *

    Note: After the database has been compacted, * all data will have been pushed down to the last level containing * any data.

    * * @param columnFamilyHandle {@link org.rocksdb.ColumnFamilyHandle} instance. * @param begin start of key range (included in range) * @param end end of key range (excluded from range) * @param compactRangeOptions options for the compaction * * @throws RocksDBException thrown if an error occurs within the native * part of the library. */ public void compactRange(final ColumnFamilyHandle columnFamilyHandle, final byte[] begin, final byte[] end, CompactRangeOptions compactRangeOptions) throws RocksDBException { compactRange(nativeHandle_, begin, begin.length, end, end.length, compactRangeOptions.nativeHandle_, columnFamilyHandle.nativeHandle_); } /** *

    Range compaction of column family.

    *

    Note: After the database has been compacted, * all data will have been pushed down to the last level containing * any data.

    * *

    Compaction outputs should be placed in options.db_paths * [target_path_id]. Behavior is undefined if target_path_id is * out of range.

    * *

    See also

    *
      *
    • {@link #compactRange(ColumnFamilyHandle)}
      • *
    • * {@link #compactRange(ColumnFamilyHandle, byte[], byte[])} *
      • *
    • * {@link #compactRange(ColumnFamilyHandle, byte[], byte[], * boolean, int, int)} *
      • *
    * * @deprecated Use {@link #compactRange(ColumnFamilyHandle, byte[], byte[], CompactRangeOptions)} instead * * @param columnFamilyHandle {@link org.rocksdb.ColumnFamilyHandle} * instance. * @param reduce_level reduce level after compaction * @param target_level target level to compact to * @param target_path_id the target path id of output path * * @throws RocksDBException thrown if an error occurs within the native * part of the library. */ @Deprecated public void compactRange(final ColumnFamilyHandle columnFamilyHandle, final boolean reduce_level, final int target_level, final int target_path_id) throws RocksDBException { compactRange(nativeHandle_, reduce_level, target_level, target_path_id, columnFamilyHandle.nativeHandle_); } /** *

    Range compaction of column family.

    *

    Note: After the database has been compacted, * all data will have been pushed down to the last level containing * any data.

    * *

    Compaction outputs should be placed in options.db_paths * [target_path_id]. Behavior is undefined if target_path_id is * out of range.

    * *

    See also

    *
      *
    • {@link #compactRange(ColumnFamilyHandle)}
      • *
    • * {@link #compactRange(ColumnFamilyHandle, boolean, int, int)} *
      • *
    • * {@link #compactRange(ColumnFamilyHandle, byte[], byte[])} *
      • *
    * * @deprecated Use {@link #compactRange(ColumnFamilyHandle, byte[], byte[], CompactRangeOptions)} instead * * @param columnFamilyHandle {@link org.rocksdb.ColumnFamilyHandle} * instance. * @param begin start of key range (included in range) * @param end end of key range (excluded from range) * @param reduce_level reduce level after compaction * @param target_level target level to compact to * @param target_path_id the target path id of output path * * @throws RocksDBException thrown if an error occurs within the native * part of the library. */ @Deprecated public void compactRange(final ColumnFamilyHandle columnFamilyHandle, final byte[] begin, final byte[] end, final boolean reduce_level, final int target_level, final int target_path_id) throws RocksDBException { compactRange(nativeHandle_, begin, begin.length, end, end.length, reduce_level, target_level, target_path_id, columnFamilyHandle.nativeHandle_); } /** * This function will wait until all currently running background processes * finish. After it returns, no background process will be run until * {@link #continueBackgroundWork()} is called * * @throws RocksDBException If an error occurs when pausing background work */ public void pauseBackgroundWork() throws RocksDBException { pauseBackgroundWork(nativeHandle_); } /** * Resumes backround work which was suspended by * previously calling {@link #pauseBackgroundWork()} * * @throws RocksDBException If an error occurs when resuming background work */ public void continueBackgroundWork() throws RocksDBException { continueBackgroundWork(nativeHandle_); } /** *

    The sequence number of the most recent transaction.

    * * @return sequence number of the most * recent transaction. */ public long getLatestSequenceNumber() { return getLatestSequenceNumber(nativeHandle_); } /** *

    Prevent file deletions. Compactions will continue to occur, * but no obsolete files will be deleted. Calling this multiple * times have the same effect as calling it once.

    * * @throws RocksDBException thrown if operation was not performed * successfully. */ public void disableFileDeletions() throws RocksDBException { disableFileDeletions(nativeHandle_); } /** *

    Allow compactions to delete obsolete files. * If force == true, the call to EnableFileDeletions() * will guarantee that file deletions are enabled after * the call, even if DisableFileDeletions() was called * multiple times before.

    * *

    If force == false, EnableFileDeletions will only * enable file deletion after it's been called at least * as many times as DisableFileDeletions(), enabling * the two methods to be called by two threads * concurrently without synchronization * -- i.e., file deletions will be enabled only after both * threads call EnableFileDeletions()

    * * @param force boolean value described above. * * @throws RocksDBException thrown if operation was not performed * successfully. */ public void enableFileDeletions(final boolean force) throws RocksDBException { enableFileDeletions(nativeHandle_, force); } /** *

    Returns an iterator that is positioned at a write-batch containing * seq_number. If the sequence number is non existent, it returns an iterator * at the first available seq_no after the requested seq_no.

    * *

    Must set WAL_ttl_seconds or WAL_size_limit_MB to large values to * use this api, else the WAL files will get * cleared aggressively and the iterator might keep getting invalid before * an update is read.

    * * @param sequenceNumber sequence number offset * * @return {@link org.rocksdb.TransactionLogIterator} instance. * * @throws org.rocksdb.RocksDBException if iterator cannot be retrieved * from native-side. */ public TransactionLogIterator getUpdatesSince(final long sequenceNumber) throws RocksDBException { return new TransactionLogIterator( getUpdatesSince(nativeHandle_, sequenceNumber)); } public void setOptions(final ColumnFamilyHandle columnFamilyHandle, final MutableColumnFamilyOptions mutableColumnFamilyOptions) throws RocksDBException { setOptions(nativeHandle_, columnFamilyHandle.nativeHandle_, mutableColumnFamilyOptions.getKeys(), mutableColumnFamilyOptions.getValues()); } private long[] toNativeHandleList(final List objectList) { final int len = objectList.size(); final long[] handleList = new long[len]; for (int i = 0; i < len; i++) { handleList[i] = objectList.get(i).nativeHandle_; } return handleList; } /** * ingestExternalFile will load a list of external SST files (1) into the DB * We will try to find the lowest possible level that the file can fit in, and * ingest the file into this level (2). A file that have a key range that * overlap with the memtable key range will require us to Flush the memtable * first before ingesting the file. * * (1) External SST files can be created using {@link SstFileWriter} * (2) We will try to ingest the files to the lowest possible level * even if the file compression doesn't match the level compression * * @param filePathList The list of files to ingest * @param ingestExternalFileOptions the options for the ingestion * * @throws RocksDBException thrown if error happens in underlying * native library. */ public void ingestExternalFile(final List filePathList, final IngestExternalFileOptions ingestExternalFileOptions) throws RocksDBException { ingestExternalFile(nativeHandle_, getDefaultColumnFamily().nativeHandle_, filePathList.toArray(new String[filePathList.size()]), filePathList.size(), ingestExternalFileOptions.nativeHandle_); } /** * ingestExternalFile will load a list of external SST files (1) into the DB * We will try to find the lowest possible level that the file can fit in, and * ingest the file into this level (2). A file that have a key range that * overlap with the memtable key range will require us to Flush the memtable * first before ingesting the file. * * (1) External SST files can be created using {@link SstFileWriter} * (2) We will try to ingest the files to the lowest possible level * even if the file compression doesn't match the level compression * * @param columnFamilyHandle The column family for the ingested files * @param filePathList The list of files to ingest * @param ingestExternalFileOptions the options for the ingestion * * @throws RocksDBException thrown if error happens in underlying * native library. */ public void ingestExternalFile(final ColumnFamilyHandle columnFamilyHandle, final List filePathList, final IngestExternalFileOptions ingestExternalFileOptions) throws RocksDBException { ingestExternalFile(nativeHandle_, columnFamilyHandle.nativeHandle_, filePathList.toArray(new String[filePathList.size()]), filePathList.size(), ingestExternalFileOptions.nativeHandle_); } /** * Static method to destroy the contents of the specified database. * Be very careful using this method. * * @param path the path to the Rocksdb database. * @param options {@link org.rocksdb.Options} instance. * * @throws RocksDBException thrown if error happens in underlying * native library. */ public static void destroyDB(final String path, final Options options) throws RocksDBException { destroyDB(path, options.nativeHandle_); } /** * Private constructor. * * @param nativeHandle The native handle of the C++ RocksDB object */ protected RocksDB(final long nativeHandle) { super(nativeHandle); } // native methods protected native static long open(final long optionsHandle, final String path) throws RocksDBException; /** * @param optionsHandle Native handle pointing to an Options object * @param path The directory path for the database files * @param columnFamilyNames An array of column family names * @param columnFamilyOptions An array of native handles pointing to * ColumnFamilyOptions objects * * @return An array of native handles, [0] is the handle of the RocksDB object * [1..1+n] are handles of the ColumnFamilyReferences * * @throws RocksDBException thrown if the database could not be opened */ protected native static long[] open(final long optionsHandle, final String path, final byte[][] columnFamilyNames, final long[] columnFamilyOptions) throws RocksDBException; protected native static long openROnly(final long optionsHandle, final String path) throws RocksDBException; /** * @param optionsHandle Native handle pointing to an Options object * @param path The directory path for the database files * @param columnFamilyNames An array of column family names * @param columnFamilyOptions An array of native handles pointing to * ColumnFamilyOptions objects * * @return An array of native handles, [0] is the handle of the RocksDB object * [1..1+n] are handles of the ColumnFamilyReferences * * @throws RocksDBException thrown if the database could not be opened */ protected native static long[] openROnly(final long optionsHandle, final String path, final byte[][] columnFamilyNames, final long[] columnFamilyOptions ) throws RocksDBException; protected native static byte[][] listColumnFamilies(long optionsHandle, String path) throws RocksDBException; protected native void put(long handle, byte[] key, int keyOffset, int keyLength, byte[] value, int valueOffset, int valueLength) throws RocksDBException; protected native void put(long handle, byte[] key, int keyOffset, int keyLength, byte[] value, int valueOffset, int valueLength, long cfHandle) throws RocksDBException; protected native void put(long handle, long writeOptHandle, byte[] key, int keyOffset, int keyLength, byte[] value, int valueOffset, int valueLength) throws RocksDBException; protected native void put(long handle, long writeOptHandle, byte[] key, int keyOffset, int keyLength, byte[] value, int valueOffset, int valueLength, long cfHandle) throws RocksDBException; protected native void write0(final long handle, long writeOptHandle, long wbHandle) throws RocksDBException; protected native void write1(final long handle, long writeOptHandle, long wbwiHandle) throws RocksDBException; protected native boolean keyMayExist(final long handle, final byte[] key, final int keyOffset, final int keyLength, final StringBuilder stringBuilder); protected native boolean keyMayExist(final long handle, final byte[] key, final int keyOffset, final int keyLength, final long cfHandle, final StringBuilder stringBuilder); protected native boolean keyMayExist(final long handle, final long optionsHandle, final byte[] key, final int keyOffset, final int keyLength, final StringBuilder stringBuilder); protected native boolean keyMayExist(final long handle, final long optionsHandle, final byte[] key, final int keyOffset, final int keyLength, final long cfHandle, final StringBuilder stringBuilder); protected native void merge(long handle, byte[] key, int keyOffset, int keyLength, byte[] value, int valueOffset, int valueLength) throws RocksDBException; protected native void merge(long handle, byte[] key, int keyOffset, int keyLength, byte[] value, int valueOffset, int valueLength, long cfHandle) throws RocksDBException; protected native void merge(long handle, long writeOptHandle, byte[] key, int keyOffset, int keyLength, byte[] value, int valueOffset, int valueLength) throws RocksDBException; protected native void merge(long handle, long writeOptHandle, byte[] key, int keyOffset, int keyLength, byte[] value, int valueOffset, int valueLength, long cfHandle) throws RocksDBException; protected native int get(long handle, byte[] key, int keyOffset, int keyLength, byte[] value, int valueOffset, int valueLength) throws RocksDBException; protected native int get(long handle, byte[] key, int keyOffset, int keyLength, byte[] value, int valueOffset, int valueLength, long cfHandle) throws RocksDBException; protected native int get(long handle, long readOptHandle, byte[] key, int keyOffset, int keyLength, byte[] value, int valueOffset, int valueLength) throws RocksDBException; protected native int get(long handle, long readOptHandle, byte[] key, int keyOffset, int keyLength, byte[] value, int valueOffset, int valueLength, long cfHandle) throws RocksDBException; protected native byte[][] multiGet(final long dbHandle, final byte[][] keys, final int[] keyOffsets, final int[] keyLengths); protected native byte[][] multiGet(final long dbHandle, final byte[][] keys, final int[] keyOffsets, final int[] keyLengths, final long[] columnFamilyHandles); protected native byte[][] multiGet(final long dbHandle, final long rOptHandle, final byte[][] keys, final int[] keyOffsets, final int[] keyLengths); protected native byte[][] multiGet(final long dbHandle, final long rOptHandle, final byte[][] keys, final int[] keyOffsets, final int[] keyLengths, final long[] columnFamilyHandles); protected native byte[] get(long handle, byte[] key, int keyOffset, int keyLength) throws RocksDBException; protected native byte[] get(long handle, byte[] key, int keyOffset, int keyLength, long cfHandle) throws RocksDBException; protected native byte[] get(long handle, long readOptHandle, byte[] key, int keyOffset, int keyLength) throws RocksDBException; protected native byte[] get(long handle, long readOptHandle, byte[] key, int keyOffset, int keyLength, long cfHandle) throws RocksDBException; protected native void delete(long handle, byte[] key, int keyOffset, int keyLength) throws RocksDBException; protected native void delete(long handle, byte[] key, int keyOffset, int keyLength, long cfHandle) throws RocksDBException; protected native void delete(long handle, long writeOptHandle, byte[] key, int keyOffset, int keyLength) throws RocksDBException; protected native void delete(long handle, long writeOptHandle, byte[] key, int keyOffset, int keyLength, long cfHandle) throws RocksDBException; protected native void singleDelete( long handle, byte[] key, int keyLen) throws RocksDBException; protected native void singleDelete( long handle, byte[] key, int keyLen, long cfHandle) throws RocksDBException; protected native void singleDelete( long handle, long writeOptHandle, byte[] key, int keyLen) throws RocksDBException; protected native void singleDelete( long handle, long writeOptHandle, byte[] key, int keyLen, long cfHandle) throws RocksDBException; protected native void deleteRange(long handle, byte[] beginKey, int beginKeyOffset, int beginKeyLength, byte[] endKey, int endKeyOffset, int endKeyLength) throws RocksDBException; protected native void deleteRange(long handle, byte[] beginKey, int beginKeyOffset, int beginKeyLength, byte[] endKey, int endKeyOffset, int endKeyLength, long cfHandle) throws RocksDBException; protected native void deleteRange(long handle, long writeOptHandle, byte[] beginKey, int beginKeyOffset, int beginKeyLength, byte[] endKey, int endKeyOffset, int endKeyLength) throws RocksDBException; protected native void deleteRange(long handle, long writeOptHandle, byte[] beginKey, int beginKeyOffset, int beginKeyLength, byte[] endKey, int endKeyOffset, int endKeyLength, long cfHandle) throws RocksDBException; protected native String getProperty0(long nativeHandle, String property, int propertyLength) throws RocksDBException; protected native String getProperty0(long nativeHandle, long cfHandle, String property, int propertyLength) throws RocksDBException; protected native long getLongProperty(long nativeHandle, String property, int propertyLength) throws RocksDBException; protected native long getLongProperty(long nativeHandle, long cfHandle, String property, int propertyLength) throws RocksDBException; protected native long getAggregatedLongProperty(long nativeHandle, String property, int propertyLength) throws RocksDBException; protected native long iterator(long handle); protected native long iterator(long handle, long readOptHandle); protected native long iteratorCF(long handle, long cfHandle); protected native long iteratorCF(long handle, long cfHandle, long readOptHandle); protected native long[] iterators(final long handle, final long[] columnFamilyHandles, final long readOptHandle) throws RocksDBException; protected native long getSnapshot(long nativeHandle); protected native void releaseSnapshot( long nativeHandle, long snapshotHandle); @Override protected native void disposeInternal(final long handle); private native long getDefaultColumnFamily(long handle); private native long createColumnFamily(final long handle, final byte[] columnFamilyName, final long columnFamilyOptions) throws RocksDBException; private native void dropColumnFamily(long handle, long cfHandle) throws RocksDBException; private native void flush(long handle, long flushOptHandle) throws RocksDBException; private native void flush(long handle, long flushOptHandle, long cfHandle) throws RocksDBException; private native void compactRange0(long handle, boolean reduce_level, int target_level, int target_path_id) throws RocksDBException; private native void compactRange0(long handle, byte[] begin, int beginLen, byte[] end, int endLen, boolean reduce_level, int target_level, int target_path_id) throws RocksDBException; private native void compactRange(long handle, byte[] begin, int beginLen, byte[] end, int endLen, long compactRangeOptHandle, long cfHandle) throws RocksDBException; private native void compactRange(long handle, boolean reduce_level, int target_level, int target_path_id, long cfHandle) throws RocksDBException; private native void compactRange(long handle, byte[] begin, int beginLen, byte[] end, int endLen, boolean reduce_level, int target_level, int target_path_id, long cfHandle) throws RocksDBException; private native void pauseBackgroundWork(long handle) throws RocksDBException; private native void continueBackgroundWork(long handle) throws RocksDBException; private native long getLatestSequenceNumber(long handle); private native void disableFileDeletions(long handle) throws RocksDBException; private native void enableFileDeletions(long handle, boolean force) throws RocksDBException; private native long getUpdatesSince(long handle, long sequenceNumber) throws RocksDBException; private native void setOptions(long handle, long cfHandle, String[] keys, String[] values) throws RocksDBException; private native void ingestExternalFile(long handle, long cfHandle, String[] filePathList, int filePathListLen, long ingest_external_file_options_handle) throws RocksDBException; private native static void destroyDB(final String path, final long optionsHandle) throws RocksDBException; protected DBOptionsInterface options_; } rocksdb-5.17.2/java/src/main/java/org/rocksdb/RocksDBException.java000066400000000000000000000023171337235545400250570ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * A RocksDBException encapsulates the error of an operation. This exception * type is used to describe an internal error from the c++ rocksdb library. */ public class RocksDBException extends Exception { /* @Nullable */ private final Status status; /** * The private construct used by a set of public static factory method. * * @param msg the specified error message. */ public RocksDBException(final String msg) { this(msg, null); } public RocksDBException(final String msg, final Status status) { super(msg); this.status = status; } public RocksDBException(final Status status) { super(status.getState() != null ? status.getState() : status.getCodeString()); this.status = status; } /** * Get the status returned from RocksDB * * @return The status reported by RocksDB, or null if no status is available */ public Status getStatus() { return status; } } rocksdb-5.17.2/java/src/main/java/org/rocksdb/RocksEnv.java000066400000000000000000000027031337235545400234420ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** *

    A RocksEnv is an interface used by the rocksdb implementation to access * operating system functionality like the filesystem etc.

    * *

    All Env implementations are safe for concurrent access from * multiple threads without any external synchronization.

    */ public class RocksEnv extends Env { /** *

    Package-private constructor that uses the specified native handle * to construct a RocksEnv.

    * *

    Note that the ownership of the input handle * belongs to the caller, and the newly created RocksEnv will not take * the ownership of the input handle. As a result, calling * {@code dispose()} of the created RocksEnv will be no-op.

    */ RocksEnv(final long handle) { super(handle); disOwnNativeHandle(); } /** *

    The helper function of {@link #dispose()} which all subclasses of * {@link RocksObject} must implement to release their associated C++ * resource.

    * *

    Note: this class is used to use the default * RocksEnv with RocksJava. The default env allocation is managed * by C++.

    */ @Override protected final void disposeInternal(final long handle) { } } rocksdb-5.17.2/java/src/main/java/org/rocksdb/RocksIterator.java000066400000000000000000000045251337235545400245070ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** *

    An iterator that yields a sequence of key/value pairs from a source. * Multiple implementations are provided by this library. * In particular, iterators are provided * to access the contents of a Table or a DB.

    * *

    Multiple threads can invoke const methods on an RocksIterator without * external synchronization, but if any of the threads may call a * non-const method, all threads accessing the same RocksIterator must use * external synchronization.

    * * @see org.rocksdb.RocksObject */ public class RocksIterator extends AbstractRocksIterator { protected RocksIterator(RocksDB rocksDB, long nativeHandle) { super(rocksDB, nativeHandle); } /** *

    Return the key for the current entry. The underlying storage for * the returned slice is valid only until the next modification of * the iterator.

    * *

    REQUIRES: {@link #isValid()}

    * * @return key for the current entry. */ public byte[] key() { assert(isOwningHandle()); return key0(nativeHandle_); } /** *

    Return the value for the current entry. The underlying storage for * the returned slice is valid only until the next modification of * the iterator.

    * *

    REQUIRES: !AtEnd() && !AtStart()

    * @return value for the current entry. */ public byte[] value() { assert(isOwningHandle()); return value0(nativeHandle_); } @Override protected final native void disposeInternal(final long handle); @Override final native boolean isValid0(long handle); @Override final native void seekToFirst0(long handle); @Override final native void seekToLast0(long handle); @Override final native void next0(long handle); @Override final native void prev0(long handle); @Override final native void seek0(long handle, byte[] target, int targetLen); @Override final native void seekForPrev0(long handle, byte[] target, int targetLen); @Override final native void status0(long handle) throws RocksDBException; private native byte[] key0(long handle); private native byte[] value0(long handle); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/RocksIteratorInterface.java000066400000000000000000000056451337235545400263340ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** *

    Defines the interface for an Iterator which provides * access to data one entry at a time. Multiple implementations * are provided by this library. In particular, iterators are provided * to access the contents of a DB and Write Batch.

    * *

    Multiple threads can invoke const methods on an RocksIterator without * external synchronization, but if any of the threads may call a * non-const method, all threads accessing the same RocksIterator must use * external synchronization.

    * * @see org.rocksdb.RocksObject */ public interface RocksIteratorInterface { /** *

    An iterator is either positioned at an entry, or * not valid. This method returns true if the iterator is valid.

    * * @return true if iterator is valid. */ boolean isValid(); /** *

    Position at the first entry in the source. The iterator is Valid() * after this call if the source is not empty.

    */ void seekToFirst(); /** *

    Position at the last entry in the source. The iterator is * valid after this call if the source is not empty.

    */ void seekToLast(); /** *

    Position at the first entry in the source whose key is that or * past target.

    * *

    The iterator is valid after this call if the source contains * a key that comes at or past target.

    * * @param target byte array describing a key or a * key prefix to seek for. */ void seek(byte[] target); /** *

    Position at the first entry in the source whose key is that or * before target.

    * *

    The iterator is valid after this call if the source contains * a key that comes at or before target.

    * * @param target byte array describing a key or a * key prefix to seek for. */ void seekForPrev(byte[] target); /** *

    Moves to the next entry in the source. After this call, Valid() is * true if the iterator was not positioned at the last entry in the source.

    * *

    REQUIRES: {@link #isValid()}

    */ void next(); /** *

    Moves to the previous entry in the source. After this call, Valid() is * true if the iterator was not positioned at the first entry in source.

    * *

    REQUIRES: {@link #isValid()}

    */ void prev(); /** *

    If an error has occurred, return it. Else return an ok status. * If non-blocking IO is requested and this operation cannot be * satisfied without doing some IO, then this returns Status::Incomplete().

    * * @throws RocksDBException thrown if error happens in underlying * native library. */ void status() throws RocksDBException; } rocksdb-5.17.2/java/src/main/java/org/rocksdb/RocksMemEnv.java000066400000000000000000000015141337235545400241000ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * RocksDB memory environment. */ public class RocksMemEnv extends Env { /** *

    Creates a new RocksDB environment that stores its data * in memory and delegates all non-file-storage tasks to * base_env. The caller must delete the result when it is * no longer needed.

    * *

    {@code *base_env} must remain live while the result is in use.

    */ public RocksMemEnv() { super(createMemEnv()); } private static native long createMemEnv(); @Override protected final native void disposeInternal(final long handle); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/RocksMutableObject.java000066400000000000000000000051061337235545400254320ustar00rootroot00000000000000// Copyright (c) 2016, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * RocksMutableObject is an implementation of {@link AbstractNativeReference} * whose reference to the underlying native C++ object can change. * *

    The use of {@code RocksMutableObject} should be kept to a minimum, as it * has synchronization overheads and introduces complexity. Instead it is * recommended to use {@link RocksObject} where possible.

    */ public abstract class RocksMutableObject extends AbstractNativeReference { /** * An mutable reference to the value of the C++ pointer pointing to some * underlying native RocksDB C++ object. */ private long nativeHandle_; private boolean owningHandle_; protected RocksMutableObject() { } protected RocksMutableObject(final long nativeHandle) { this.nativeHandle_ = nativeHandle; this.owningHandle_ = true; } /** * Closes the existing handle, and changes the handle to the new handle * * @param newNativeHandle The C++ pointer to the new native object * @param owningNativeHandle true if we own the new native object */ public synchronized void resetNativeHandle(final long newNativeHandle, final boolean owningNativeHandle) { close(); setNativeHandle(newNativeHandle, owningNativeHandle); } /** * Sets the handle (C++ pointer) of the underlying C++ native object * * @param nativeHandle The C++ pointer to the native object * @param owningNativeHandle true if we own the native object */ public synchronized void setNativeHandle(final long nativeHandle, final boolean owningNativeHandle) { this.nativeHandle_ = nativeHandle; this.owningHandle_ = owningNativeHandle; } @Override protected synchronized boolean isOwningHandle() { return this.owningHandle_; } /** * Gets the value of the C++ pointer pointing to the underlying * native C++ object * * @return the pointer value for the native object */ protected synchronized long getNativeHandle() { assert (this.nativeHandle_ != 0); return this.nativeHandle_; } @Override public synchronized final void close() { if (isOwningHandle()) { disposeInternal(); this.owningHandle_ = false; this.nativeHandle_ = 0; } } protected void disposeInternal() { disposeInternal(nativeHandle_); } protected abstract void disposeInternal(final long handle); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/RocksObject.java000066400000000000000000000024271337235545400241230ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * RocksObject is an implementation of {@link AbstractNativeReference} which * has an immutable and therefore thread-safe reference to the underlying * native C++ RocksDB object. *

    * RocksObject is the base-class of almost all RocksDB classes that have a * pointer to some underlying native C++ {@code rocksdb} object.

    *

    * The use of {@code RocksObject} should always be preferred over * {@link RocksMutableObject}.

    */ public abstract class RocksObject extends AbstractImmutableNativeReference { /** * An immutable reference to the value of the C++ pointer pointing to some * underlying native RocksDB C++ object. */ protected final long nativeHandle_; protected RocksObject(final long nativeHandle) { super(true); this.nativeHandle_ = nativeHandle; } /** * Deletes underlying C++ object pointer. */ @Override protected void disposeInternal() { disposeInternal(nativeHandle_); } protected abstract void disposeInternal(final long handle); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/SkipListMemTableConfig.java000066400000000000000000000023221337235545400262040ustar00rootroot00000000000000package org.rocksdb; /** * The config for skip-list memtable representation. */ public class SkipListMemTableConfig extends MemTableConfig { public static final long DEFAULT_LOOKAHEAD = 0; /** * SkipListMemTableConfig constructor */ public SkipListMemTableConfig() { lookahead_ = DEFAULT_LOOKAHEAD; } /** * Sets lookahead for SkipList * * @param lookahead If non-zero, each iterator's seek operation * will start the search from the previously visited record * (doing at most 'lookahead' steps). This is an * optimization for the access pattern including many * seeks with consecutive keys. * @return the current instance of SkipListMemTableConfig */ public SkipListMemTableConfig setLookahead(final long lookahead) { lookahead_ = lookahead; return this; } /** * Returns the currently set lookahead value. * * @return lookahead value */ public long lookahead() { return lookahead_; } @Override protected long newMemTableFactoryHandle() { return newMemTableFactoryHandle0(lookahead_); } private native long newMemTableFactoryHandle0(long lookahead) throws IllegalArgumentException; private long lookahead_; } rocksdb-5.17.2/java/src/main/java/org/rocksdb/Slice.java000066400000000000000000000101221337235545400227410ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** *

    Base class for slices which will receive * byte[] based access to the underlying data.

    * *

    byte[] backed slices typically perform better with * small keys and values. When using larger keys and * values consider using {@link org.rocksdb.DirectSlice}

    */ public class Slice extends AbstractSlice { /** * Indicates whether we have to free the memory pointed to by the Slice */ private volatile boolean cleared; private volatile long internalBufferOffset = 0; /** *

    Called from JNI to construct a new Java Slice * without an underlying C++ object set * at creation time.

    * *

    Note: You should be aware that * {@see org.rocksdb.RocksObject#disOwnNativeHandle()} is intentionally * called from the default Slice constructor, and that it is marked as * private. This is so that developers cannot construct their own default * Slice objects (at present). As developers cannot construct their own * Slice objects through this, they are not creating underlying C++ Slice * objects, and so there is nothing to free (dispose) from Java.

    */ @SuppressWarnings("unused") private Slice() { super(); } /** *

    Package-private Slice constructor which is used to construct * Slice instances from C++ side. As the reference to this * object is also managed from C++ side the handle will be disowned.

    * * @param nativeHandle address of native instance. */ Slice(final long nativeHandle) { this(nativeHandle, false); } /** *

    Package-private Slice constructor which is used to construct * Slice instances using a handle.

    * * @param nativeHandle address of native instance. * @param owningNativeHandle whether to own this reference from the C++ side or not */ Slice(final long nativeHandle, final boolean owningNativeHandle) { super(); setNativeHandle(nativeHandle, owningNativeHandle); } /** *

    Constructs a slice where the data is taken from * a String.

    * * @param str String value. */ public Slice(final String str) { super(createNewSliceFromString(str)); } /** *

    Constructs a slice where the data is a copy of * the byte array from a specific offset.

    * * @param data byte array. * @param offset offset within the byte array. */ public Slice(final byte[] data, final int offset) { super(createNewSlice0(data, offset)); } /** *

    Constructs a slice where the data is a copy of * the byte array.

    * * @param data byte array. */ public Slice(final byte[] data) { super(createNewSlice1(data)); } @Override public void clear() { clear0(getNativeHandle(), !cleared, internalBufferOffset); cleared = true; } @Override public void removePrefix(final int n) { removePrefix0(getNativeHandle(), n); this.internalBufferOffset += n; } /** *

    Deletes underlying C++ slice pointer * and any buffered data.

    * *

    * Note that this function should be called only after all * RocksDB instances referencing the slice are closed. * Otherwise an undefined behavior will occur.

    */ @Override protected void disposeInternal() { final long nativeHandle = getNativeHandle(); if(!cleared) { disposeInternalBuf(nativeHandle, internalBufferOffset); } super.disposeInternal(nativeHandle); } @Override protected final native byte[] data0(long handle); private native static long createNewSlice0(final byte[] data, final int length); private native static long createNewSlice1(final byte[] data); private native void clear0(long handle, boolean internalBuffer, long internalBufferOffset); private native void removePrefix0(long handle, int length); private native void disposeInternalBuf(final long handle, long internalBufferOffset); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/Snapshot.java000066400000000000000000000020501337235545400235020ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * Snapshot of database */ public class Snapshot extends RocksObject { Snapshot(final long nativeHandle) { super(nativeHandle); // The pointer to the snapshot is always released // by the database instance. disOwnNativeHandle(); } /** * Return the associated sequence number; * * @return the associated sequence number of * this snapshot. */ public long getSequenceNumber() { return getSequenceNumber(nativeHandle_); } @Override protected final void disposeInternal(final long handle) { /** * Nothing to release, we never own the pointer for a * Snapshot. The pointer * to the snapshot is released by the database * instance. */ } private native long getSequenceNumber(long handle); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/SstFileManager.java000066400000000000000000000221411337235545400245520ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import java.util.Map; /** * SstFileManager is used to track SST files in the DB and control their * deletion rate. * * All SstFileManager public functions are thread-safe. * * SstFileManager is not extensible. */ //@ThreadSafe public final class SstFileManager extends RocksObject { public static final long RATE_BYTES_PER_SEC_DEFAULT = 0; public static final boolean DELETE_EXISTING_TRASH_DEFAULT = true; public static final double MAX_TRASH_DB_RATION_DEFAULT = 0.25; public static final long BYTES_MAX_DELETE_CHUNK_DEFAULT = 64 * 1024 * 1024; /** * Create a new SstFileManager that can be shared among multiple RocksDB * instances to track SST file and control there deletion rate. * * @param env the environment. */ public SstFileManager(final Env env) throws RocksDBException { this(env, null); } /** * Create a new SstFileManager that can be shared among multiple RocksDB * instances to track SST file and control there deletion rate. * * @param env the environment. * @param logger if not null, the logger will be used to log errors. */ public SstFileManager(final Env env, /*@Nullable*/ final Logger logger) throws RocksDBException { this(env, logger, RATE_BYTES_PER_SEC_DEFAULT); } /** * Create a new SstFileManager that can be shared among multiple RocksDB * instances to track SST file and control there deletion rate. * * @param env the environment. * @param logger if not null, the logger will be used to log errors. * * == Deletion rate limiting specific arguments == * @param rateBytesPerSec how many bytes should be deleted per second, If * this value is set to 1024 (1 Kb / sec) and we deleted a file of size * 4 Kb in 1 second, we will wait for another 3 seconds before we delete * other files, Set to 0 to disable deletion rate limiting. */ public SstFileManager(final Env env, /*@Nullable*/ final Logger logger, final long rateBytesPerSec) throws RocksDBException { this(env, logger, rateBytesPerSec, MAX_TRASH_DB_RATION_DEFAULT); } /** * Create a new SstFileManager that can be shared among multiple RocksDB * instances to track SST file and control there deletion rate. * * @param env the environment. * @param logger if not null, the logger will be used to log errors. * * == Deletion rate limiting specific arguments == * @param rateBytesPerSec how many bytes should be deleted per second, If * this value is set to 1024 (1 Kb / sec) and we deleted a file of size * 4 Kb in 1 second, we will wait for another 3 seconds before we delete * other files, Set to 0 to disable deletion rate limiting. * @param maxTrashDbRatio if the trash size constitutes for more than this * fraction of the total DB size we will start deleting new files passed * to DeleteScheduler immediately. */ public SstFileManager(final Env env, /*@Nullable*/ final Logger logger, final long rateBytesPerSec, final double maxTrashDbRatio) throws RocksDBException { this(env, logger, rateBytesPerSec, maxTrashDbRatio, BYTES_MAX_DELETE_CHUNK_DEFAULT); } /** * Create a new SstFileManager that can be shared among multiple RocksDB * instances to track SST file and control there deletion rate. * * @param env the environment. * @param logger if not null, the logger will be used to log errors. * * == Deletion rate limiting specific arguments == * @param rateBytesPerSec how many bytes should be deleted per second, If * this value is set to 1024 (1 Kb / sec) and we deleted a file of size * 4 Kb in 1 second, we will wait for another 3 seconds before we delete * other files, Set to 0 to disable deletion rate limiting. * @param maxTrashDbRatio if the trash size constitutes for more than this * fraction of the total DB size we will start deleting new files passed * to DeleteScheduler immediately. * @param bytesMaxDeleteChunk if a single file is larger than delete chunk, * ftruncate the file by this size each time, rather than dropping the whole * file. 0 means to always delete the whole file. */ public SstFileManager(final Env env, /*@Nullable*/final Logger logger, final long rateBytesPerSec, final double maxTrashDbRatio, final long bytesMaxDeleteChunk) throws RocksDBException { super(newSstFileManager(env.nativeHandle_, logger != null ? logger.nativeHandle_ : 0, rateBytesPerSec, maxTrashDbRatio, bytesMaxDeleteChunk)); } /** * Update the maximum allowed space that should be used by RocksDB, if * the total size of the SST files exceeds {@code maxAllowedSpace}, writes to * RocksDB will fail. * * Setting {@code maxAllowedSpace} to 0 will disable this feature; * maximum allowed space will be infinite (Default value). * * @param maxAllowedSpace the maximum allowed space that should be used by * RocksDB. */ public void setMaxAllowedSpaceUsage(final long maxAllowedSpace) { setMaxAllowedSpaceUsage(nativeHandle_, maxAllowedSpace); } /** * Set the amount of buffer room each compaction should be able to leave. * In other words, at its maximum disk space consumption, the compaction * should still leave {@code compactionBufferSize} available on the disk so * that other background functions may continue, such as logging and flushing. * * @param compactionBufferSize the amount of buffer room each compaction * should be able to leave. */ public void setCompactionBufferSize(final long compactionBufferSize) { setCompactionBufferSize(nativeHandle_, compactionBufferSize); } /** * Determines if the total size of SST files exceeded the maximum allowed * space usage. * * @return true when the maximum allows space usage has been exceeded. */ public boolean isMaxAllowedSpaceReached() { return isMaxAllowedSpaceReached(nativeHandle_); } /** * Determines if the total size of SST files as well as estimated size * of ongoing compactions exceeds the maximums allowed space usage. * * @return true when the total size of SST files as well as estimated size * of ongoing compactions exceeds the maximums allowed space usage. */ public boolean isMaxAllowedSpaceReachedIncludingCompactions() { return isMaxAllowedSpaceReachedIncludingCompactions(nativeHandle_); } /** * Get the total size of all tracked files. * * @return the total size of all tracked files. */ public long getTotalSize() { return getTotalSize(nativeHandle_); } /** * Gets all tracked files and their corresponding sizes. * * @return a map containing all tracked files and there corresponding sizes. */ public Map getTrackedFiles() { return getTrackedFiles(nativeHandle_); } /** * Gets the delete rate limit. * * @return the delete rate limit (in bytes per second). */ public long getDeleteRateBytesPerSecond() { return getDeleteRateBytesPerSecond(nativeHandle_); } /** * Set the delete rate limit. * * Zero means disable delete rate limiting and delete files immediately. * * @param deleteRate the delete rate limit (in bytes per second). */ public void setDeleteRateBytesPerSecond(final long deleteRate) { setDeleteRateBytesPerSecond(nativeHandle_, deleteRate); } /** * Get the trash/DB size ratio where new files will be deleted immediately. * * @return the trash/DB size ratio. */ public double getMaxTrashDBRatio() { return getMaxTrashDBRatio(nativeHandle_); } /** * Set the trash/DB size ratio where new files will be deleted immediately. * * @param ratio the trash/DB size ratio. */ public void setMaxTrashDBRatio(final double ratio) { setMaxTrashDBRatio(nativeHandle_, ratio); } private native static long newSstFileManager(final long handle, final long logger_handle, final long rateBytesPerSec, final double maxTrashDbRatio, final long bytesMaxDeleteChunk) throws RocksDBException; private native void setMaxAllowedSpaceUsage(final long handle, final long maxAllowedSpace); private native void setCompactionBufferSize(final long handle, final long compactionBufferSize); private native boolean isMaxAllowedSpaceReached(final long handle); private native boolean isMaxAllowedSpaceReachedIncludingCompactions( final long handle); private native long getTotalSize(final long handle); private native Map getTrackedFiles(final long handle); private native long getDeleteRateBytesPerSecond(final long handle); private native void setDeleteRateBytesPerSecond(final long handle, final long deleteRate); private native double getMaxTrashDBRatio(final long handle); private native void setMaxTrashDBRatio(final long handle, final double ratio); @Override protected final native void disposeInternal(final long handle); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/SstFileWriter.java000066400000000000000000000200141337235545400244510ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * SstFileWriter is used to create sst files that can be added to the * database later. All keys in files generated by SstFileWriter will have * sequence number = 0. */ public class SstFileWriter extends RocksObject { static { RocksDB.loadLibrary(); } /** * SstFileWriter Constructor. * * @param envOptions {@link org.rocksdb.EnvOptions} instance. * @param options {@link org.rocksdb.Options} instance. * @param comparator the comparator to specify the ordering of keys. * * @deprecated Use {@link #SstFileWriter(EnvOptions, Options)}. * Passing an explicit comparator is deprecated in lieu of passing the * comparator as part of options. Use the other constructor instead. */ @Deprecated public SstFileWriter(final EnvOptions envOptions, final Options options, final AbstractComparator> comparator) { super(newSstFileWriter( envOptions.nativeHandle_, options.nativeHandle_, comparator.nativeHandle_, comparator.getComparatorType().getValue())); } /** * SstFileWriter Constructor. * * @param envOptions {@link org.rocksdb.EnvOptions} instance. * @param options {@link org.rocksdb.Options} instance. */ public SstFileWriter(final EnvOptions envOptions, final Options options) { super(newSstFileWriter( envOptions.nativeHandle_, options.nativeHandle_)); } /** * Prepare SstFileWriter to write to a file. * * @param filePath the location of file * * @throws RocksDBException thrown if error happens in underlying * native library. */ public void open(final String filePath) throws RocksDBException { open(nativeHandle_, filePath); } /** * Add a Put key with value to currently opened file. * * @param key the specified key to be inserted. * @param value the value associated with the specified key. * * @throws RocksDBException thrown if error happens in underlying * native library. * * @deprecated Use {@link #put(Slice, Slice)} */ @Deprecated public void add(final Slice key, final Slice value) throws RocksDBException { put(nativeHandle_, key.getNativeHandle(), value.getNativeHandle()); } /** * Add a Put key with value to currently opened file. * * @param key the specified key to be inserted. * @param value the value associated with the specified key. * * @throws RocksDBException thrown if error happens in underlying * native library. * * @deprecated Use {@link #put(DirectSlice, DirectSlice)} */ @Deprecated public void add(final DirectSlice key, final DirectSlice value) throws RocksDBException { put(nativeHandle_, key.getNativeHandle(), value.getNativeHandle()); } /** * Add a Put key with value to currently opened file. * * @param key the specified key to be inserted. * @param value the value associated with the specified key. * * @throws RocksDBException thrown if error happens in underlying * native library. */ public void put(final Slice key, final Slice value) throws RocksDBException { put(nativeHandle_, key.getNativeHandle(), value.getNativeHandle()); } /** * Add a Put key with value to currently opened file. * * @param key the specified key to be inserted. * @param value the value associated with the specified key. * * @throws RocksDBException thrown if error happens in underlying * native library. */ public void put(final DirectSlice key, final DirectSlice value) throws RocksDBException { put(nativeHandle_, key.getNativeHandle(), value.getNativeHandle()); } /** * Add a Put key with value to currently opened file. * * @param key the specified key to be inserted. * @param value the value associated with the specified key. * * @throws RocksDBException thrown if error happens in underlying * native library. */ public void put(final byte[] key, final byte[] value) throws RocksDBException { put(nativeHandle_, key, value); } /** * Add a Merge key with value to currently opened file. * * @param key the specified key to be merged. * @param value the value to be merged with the current value for * the specified key. * * @throws RocksDBException thrown if error happens in underlying * native library. */ public void merge(final Slice key, final Slice value) throws RocksDBException { merge(nativeHandle_, key.getNativeHandle(), value.getNativeHandle()); } /** * Add a Merge key with value to currently opened file. * * @param key the specified key to be merged. * @param value the value to be merged with the current value for * the specified key. * * @throws RocksDBException thrown if error happens in underlying * native library. */ public void merge(final byte[] key, final byte[] value) throws RocksDBException { merge(nativeHandle_, key, value); } /** * Add a Merge key with value to currently opened file. * * @param key the specified key to be merged. * @param value the value to be merged with the current value for * the specified key. * * @throws RocksDBException thrown if error happens in underlying * native library. */ public void merge(final DirectSlice key, final DirectSlice value) throws RocksDBException { merge(nativeHandle_, key.getNativeHandle(), value.getNativeHandle()); } /** * Add a deletion key to currently opened file. * * @param key the specified key to be deleted. * * @throws RocksDBException thrown if error happens in underlying * native library. */ public void delete(final Slice key) throws RocksDBException { delete(nativeHandle_, key.getNativeHandle()); } /** * Add a deletion key to currently opened file. * * @param key the specified key to be deleted. * * @throws RocksDBException thrown if error happens in underlying * native library. */ public void delete(final DirectSlice key) throws RocksDBException { delete(nativeHandle_, key.getNativeHandle()); } /** * Add a deletion key to currently opened file. * * @param key the specified key to be deleted. * * @throws RocksDBException thrown if error happens in underlying * native library. */ public void delete(final byte[] key) throws RocksDBException { delete(nativeHandle_, key); } /** * Finish the process and close the sst file. * * @throws RocksDBException thrown if error happens in underlying * native library. */ public void finish() throws RocksDBException { finish(nativeHandle_); } private native static long newSstFileWriter( final long envOptionsHandle, final long optionsHandle, final long userComparatorHandle, final byte comparatorType); private native static long newSstFileWriter(final long envOptionsHandle, final long optionsHandle); private native void open(final long handle, final String filePath) throws RocksDBException; private native void put(final long handle, final long keyHandle, final long valueHandle) throws RocksDBException; private native void put(final long handle, final byte[] key, final byte[] value) throws RocksDBException; private native void merge(final long handle, final long keyHandle, final long valueHandle) throws RocksDBException; private native void merge(final long handle, final byte[] key, final byte[] value) throws RocksDBException; private native void delete(final long handle, final long keyHandle) throws RocksDBException; private native void delete(final long handle, final byte[] key) throws RocksDBException; private native void finish(final long handle) throws RocksDBException; @Override protected final native void disposeInternal(final long handle); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/Statistics.java000066400000000000000000000113011337235545400240340ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import java.util.EnumSet; /** * Statistics to analyze the performance of a db. Pointer for statistics object * is managed by Options class. */ public class Statistics extends RocksObject { public Statistics() { super(newStatistics()); } public Statistics(final Statistics otherStatistics) { super(newStatistics(otherStatistics.nativeHandle_)); } public Statistics(final EnumSet ignoreHistograms) { super(newStatistics(toArrayValues(ignoreHistograms))); } public Statistics(final EnumSet ignoreHistograms, final Statistics otherStatistics) { super(newStatistics(toArrayValues(ignoreHistograms), otherStatistics.nativeHandle_)); } /** * Intentionally package-private. * * Used from {@link DBOptions#statistics()} * * @param existingStatisticsHandle The C++ pointer to an existing statistics object */ Statistics(final long existingStatisticsHandle) { super(existingStatisticsHandle); } private static byte[] toArrayValues(final EnumSet histogramTypes) { final byte[] values = new byte[histogramTypes.size()]; int i = 0; for(final HistogramType histogramType : histogramTypes) { values[i++] = histogramType.getValue(); } return values; } /** * Gets the current stats level. * * @return The stats level. */ public StatsLevel statsLevel() { return StatsLevel.getStatsLevel(statsLevel(nativeHandle_)); } /** * Sets the stats level. * * @param statsLevel The stats level to set. */ public void setStatsLevel(final StatsLevel statsLevel) { setStatsLevel(nativeHandle_, statsLevel.getValue()); } /** * Get the count for a ticker. * * @param tickerType The ticker to get the count for * * @return The count for the ticker */ public long getTickerCount(final TickerType tickerType) { assert(isOwningHandle()); return getTickerCount(nativeHandle_, tickerType.getValue()); } /** * Get the count for a ticker and reset the tickers count. * * @param tickerType The ticker to get the count for * * @return The count for the ticker */ public long getAndResetTickerCount(final TickerType tickerType) { assert(isOwningHandle()); return getAndResetTickerCount(nativeHandle_, tickerType.getValue()); } /** * Gets the histogram data for a particular histogram. * * @param histogramType The histogram to retrieve the data for * * @return The histogram data */ public HistogramData getHistogramData(final HistogramType histogramType) { assert(isOwningHandle()); return getHistogramData(nativeHandle_, histogramType.getValue()); } /** * Gets a string representation of a particular histogram. * * @param histogramType The histogram to retrieve the data for * * @return A string representation of the histogram data */ public String getHistogramString(final HistogramType histogramType) { assert(isOwningHandle()); return getHistogramString(nativeHandle_, histogramType.getValue()); } /** * Resets all ticker and histogram stats. * * @throws RocksDBException if an error occurs when resetting the statistics. */ public void reset() throws RocksDBException { assert(isOwningHandle()); reset(nativeHandle_); } /** * String representation of the statistic object. */ @Override public String toString() { assert(isOwningHandle()); return toString(nativeHandle_); } private native static long newStatistics(); private native static long newStatistics(final long otherStatisticsHandle); private native static long newStatistics(final byte[] ignoreHistograms); private native static long newStatistics(final byte[] ignoreHistograms, final long otherStatisticsHandle); @Override protected final native void disposeInternal(final long handle); private native byte statsLevel(final long handle); private native void setStatsLevel(final long handle, final byte statsLevel); private native long getTickerCount(final long handle, final byte tickerType); private native long getAndResetTickerCount(final long handle, final byte tickerType); private native HistogramData getHistogramData(final long handle, final byte histogramType); private native String getHistogramString(final long handle, final byte histogramType); private native void reset(final long nativeHandle) throws RocksDBException; private native String toString(final long nativeHandle); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/StatisticsCollector.java000066400000000000000000000077701337235545400257220ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import java.util.List; import java.util.concurrent.Executors; import java.util.concurrent.ExecutorService; import java.util.concurrent.TimeUnit; /** *

    Helper class to collect DB statistics periodically at a period specified in * constructor. Callback function (provided in constructor) is called with * every statistics collection.

    * *

    Caller should call start() to start statistics collection. Shutdown() should * be called to stop stats collection and should be called before statistics ( * provided in constructor) reference has been disposed.

    */ public class StatisticsCollector { private final List _statsCollectorInputList; private final ExecutorService _executorService; private final int _statsCollectionInterval; private volatile boolean _isRunning = true; /** * Constructor for statistics collector. * * @param statsCollectorInputList List of statistics collector input. * @param statsCollectionIntervalInMilliSeconds Statistics collection time * period (specified in milliseconds). */ public StatisticsCollector( final List statsCollectorInputList, final int statsCollectionIntervalInMilliSeconds) { _statsCollectorInputList = statsCollectorInputList; _statsCollectionInterval = statsCollectionIntervalInMilliSeconds; _executorService = Executors.newSingleThreadExecutor(); } public void start() { _executorService.submit(collectStatistics()); } /** * Shuts down statistics collector. * * @param shutdownTimeout Time in milli-seconds to wait for shutdown before * killing the collection process. * @throws java.lang.InterruptedException thrown if Threads are interrupted. */ public void shutDown(final int shutdownTimeout) throws InterruptedException { _isRunning = false; _executorService.shutdownNow(); // Wait for collectStatistics runnable to finish so that disposal of // statistics does not cause any exceptions to be thrown. _executorService.awaitTermination(shutdownTimeout, TimeUnit.MILLISECONDS); } private Runnable collectStatistics() { return new Runnable() { @Override public void run() { while (_isRunning) { try { if(Thread.currentThread().isInterrupted()) { break; } for(final StatsCollectorInput statsCollectorInput : _statsCollectorInputList) { Statistics statistics = statsCollectorInput.getStatistics(); StatisticsCollectorCallback statsCallback = statsCollectorInput.getCallback(); // Collect ticker data for(final TickerType ticker : TickerType.values()) { if(ticker != TickerType.TICKER_ENUM_MAX) { final long tickerValue = statistics.getTickerCount(ticker); statsCallback.tickerCallback(ticker, tickerValue); } } // Collect histogram data for(final HistogramType histogramType : HistogramType.values()) { if(histogramType != HistogramType.HISTOGRAM_ENUM_MAX) { final HistogramData histogramData = statistics.getHistogramData(histogramType); statsCallback.histogramCallback(histogramType, histogramData); } } Thread.sleep(_statsCollectionInterval); } } catch (final InterruptedException e) { Thread.currentThread().interrupt(); break; } catch (final Exception e) { throw new RuntimeException("Error while calculating statistics", e); } } } }; } } rocksdb-5.17.2/java/src/main/java/org/rocksdb/StatisticsCollectorCallback.java000066400000000000000000000021441337235545400273250ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * Callback interface provided to StatisticsCollector. * * Thread safety: * StatisticsCollector doesn't make any guarantees about thread safety. * If the same reference of StatisticsCollectorCallback is passed to multiple * StatisticsCollector references, then its the responsibility of the * user to make StatisticsCollectorCallback's implementation thread-safe. * */ public interface StatisticsCollectorCallback { /** * Callback function to get ticker values. * @param tickerType Ticker type. * @param tickerCount Value of ticker type. */ void tickerCallback(TickerType tickerType, long tickerCount); /** * Callback function to get histogram values. * @param histType Histogram type. * @param histData Histogram data. */ void histogramCallback(HistogramType histType, HistogramData histData); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/StatsCollectorInput.java000066400000000000000000000020261337235545400256730ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * Contains all information necessary to collect statistics from one instance * of DB statistics. */ public class StatsCollectorInput { private final Statistics _statistics; private final StatisticsCollectorCallback _statsCallback; /** * Constructor for StatsCollectorInput. * * @param statistics Reference of DB statistics. * @param statsCallback Reference of statistics callback interface. */ public StatsCollectorInput(final Statistics statistics, final StatisticsCollectorCallback statsCallback) { _statistics = statistics; _statsCallback = statsCallback; } public Statistics getStatistics() { return _statistics; } public StatisticsCollectorCallback getCallback() { return _statsCallback; } } rocksdb-5.17.2/java/src/main/java/org/rocksdb/StatsLevel.java000066400000000000000000000034271337235545400240020ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * The level of Statistics to report. */ public enum StatsLevel { /** * Collect all stats except time inside mutex lock AND time spent on * compression. */ EXCEPT_DETAILED_TIMERS((byte) 0x0), /** * Collect all stats except the counters requiring to get time inside the * mutex lock. */ EXCEPT_TIME_FOR_MUTEX((byte) 0x1), /** * Collect all stats, including measuring duration of mutex operations. * * If getting time is expensive on the platform to run, it can * reduce scalability to more threads, especially for writes. */ ALL((byte) 0x2); private final byte value; StatsLevel(final byte value) { this.value = value; } /** *

    Returns the byte value of the enumerations value.

    * * @return byte representation */ public byte getValue() { return value; } /** * Get StatsLevel by byte value. * * @param value byte representation of StatsLevel. * * @return {@link org.rocksdb.StatsLevel} instance. * @throws java.lang.IllegalArgumentException if an invalid * value is provided. */ public static StatsLevel getStatsLevel(final byte value) { for (final StatsLevel statsLevel : StatsLevel.values()) { if (statsLevel.getValue() == value){ return statsLevel; } } throw new IllegalArgumentException( "Illegal value provided for InfoLogLevel."); } } rocksdb-5.17.2/java/src/main/java/org/rocksdb/Status.java000066400000000000000000000071401337235545400231730ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * Represents the status returned by a function call in RocksDB. * * Currently only used with {@link RocksDBException} when the * status is not {@link Code#Ok} */ public class Status { private final Code code; /* @Nullable */ private final SubCode subCode; /* @Nullable */ private final String state; public Status(final Code code, final SubCode subCode, final String state) { this.code = code; this.subCode = subCode; this.state = state; } /** * Intentionally private as this will be called from JNI */ private Status(final byte code, final byte subCode, final String state) { this.code = Code.getCode(code); this.subCode = SubCode.getSubCode(subCode); this.state = state; } public Code getCode() { return code; } public SubCode getSubCode() { return subCode; } public String getState() { return state; } public String getCodeString() { final StringBuilder builder = new StringBuilder() .append(code.name()); if(subCode != null && subCode != SubCode.None) { builder.append("(") .append(subCode.name()) .append(")"); } return builder.toString(); } // should stay in sync with /include/rocksdb/status.h:Code and /java/rocksjni/portal.h:toJavaStatusCode public enum Code { Ok( (byte)0x0), NotFound( (byte)0x1), Corruption( (byte)0x2), NotSupported( (byte)0x3), InvalidArgument( (byte)0x4), IOError( (byte)0x5), MergeInProgress( (byte)0x6), Incomplete( (byte)0x7), ShutdownInProgress( (byte)0x8), TimedOut( (byte)0x9), Aborted( (byte)0xA), Busy( (byte)0xB), Expired( (byte)0xC), TryAgain( (byte)0xD), Undefined( (byte)0x7F); private final byte value; Code(final byte value) { this.value = value; } public static Code getCode(final byte value) { for (final Code code : Code.values()) { if (code.value == value){ return code; } } throw new IllegalArgumentException( "Illegal value provided for Code (" + value + ")."); } /** * Returns the byte value of the enumerations value. * * @return byte representation */ public byte getValue() { return value; } } // should stay in sync with /include/rocksdb/status.h:SubCode and /java/rocksjni/portal.h:toJavaStatusSubCode public enum SubCode { None( (byte)0x0), MutexTimeout( (byte)0x1), LockTimeout( (byte)0x2), LockLimit( (byte)0x3), NoSpace( (byte)0x4), Deadlock( (byte)0x5), StaleFile( (byte)0x6), MemoryLimit( (byte)0x7), Undefined( (byte)0x7F); private final byte value; SubCode(final byte value) { this.value = value; } public static SubCode getSubCode(final byte value) { for (final SubCode subCode : SubCode.values()) { if (subCode.value == value){ return subCode; } } throw new IllegalArgumentException( "Illegal value provided for SubCode (" + value + ")."); } /** * Returns the byte value of the enumerations value. * * @return byte representation */ public byte getValue() { return value; } } } rocksdb-5.17.2/java/src/main/java/org/rocksdb/StringAppendOperator.java000066400000000000000000000013751337235545400260260ustar00rootroot00000000000000// Copyright (c) 2014, Vlad Balan (vlad.gm@gmail.com). All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * StringAppendOperator is a merge operator that concatenates * two strings. */ public class StringAppendOperator extends MergeOperator { public StringAppendOperator() { this(','); } public StringAppendOperator(char delim) { super(newSharedStringAppendOperator(delim)); } private native static long newSharedStringAppendOperator(final char delim); @Override protected final native void disposeInternal(final long handle); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/TableFormatConfig.java000066400000000000000000000016761337235545400252460ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * TableFormatConfig is used to config the internal Table format of a RocksDB. * To make a RocksDB to use a specific Table format, its associated * TableFormatConfig should be properly set and passed into Options via * Options.setTableFormatConfig() and open the db using that Options. */ public abstract class TableFormatConfig { /** *

    This function should only be called by Options.setTableFormatConfig(), * which will create a c++ shared-pointer to the c++ TableFactory * that associated with the Java TableFormatConfig.

    * * @return native handle address to native table instance. */ abstract protected long newTableFactoryHandle(); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/TickerType.java000066400000000000000000000260021337235545400237710ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; public enum TickerType { /** * total block cache misses * * REQUIRES: BLOCK_CACHE_MISS == BLOCK_CACHE_INDEX_MISS + * BLOCK_CACHE_FILTER_MISS + * BLOCK_CACHE_DATA_MISS; */ BLOCK_CACHE_MISS((byte) 0x0), /** * total block cache hit * * REQUIRES: BLOCK_CACHE_HIT == BLOCK_CACHE_INDEX_HIT + * BLOCK_CACHE_FILTER_HIT + * BLOCK_CACHE_DATA_HIT; */ BLOCK_CACHE_HIT((byte) 0x1), BLOCK_CACHE_ADD((byte) 0x2), /** * # of failures when adding blocks to block cache. */ BLOCK_CACHE_ADD_FAILURES((byte) 0x3), /** * # of times cache miss when accessing index block from block cache. */ BLOCK_CACHE_INDEX_MISS((byte) 0x4), /** * # of times cache hit when accessing index block from block cache. */ BLOCK_CACHE_INDEX_HIT((byte) 0x5), /** * # of index blocks added to block cache. */ BLOCK_CACHE_INDEX_ADD((byte) 0x6), /** * # of bytes of index blocks inserted into cache */ BLOCK_CACHE_INDEX_BYTES_INSERT((byte) 0x7), /** * # of bytes of index block erased from cache */ BLOCK_CACHE_INDEX_BYTES_EVICT((byte) 0x8), /** * # of times cache miss when accessing filter block from block cache. */ BLOCK_CACHE_FILTER_MISS((byte) 0x9), /** * # of times cache hit when accessing filter block from block cache. */ BLOCK_CACHE_FILTER_HIT((byte) 0xA), /** * # of filter blocks added to block cache. */ BLOCK_CACHE_FILTER_ADD((byte) 0xB), /** * # of bytes of bloom filter blocks inserted into cache */ BLOCK_CACHE_FILTER_BYTES_INSERT((byte) 0xC), /** * # of bytes of bloom filter block erased from cache */ BLOCK_CACHE_FILTER_BYTES_EVICT((byte) 0xD), /** * # of times cache miss when accessing data block from block cache. */ BLOCK_CACHE_DATA_MISS((byte) 0xE), /** * # of times cache hit when accessing data block from block cache. */ BLOCK_CACHE_DATA_HIT((byte) 0xF), /** * # of data blocks added to block cache. */ BLOCK_CACHE_DATA_ADD((byte) 0x10), /** * # of bytes of data blocks inserted into cache */ BLOCK_CACHE_DATA_BYTES_INSERT((byte) 0x11), /** * # of bytes read from cache. */ BLOCK_CACHE_BYTES_READ((byte) 0x12), /** * # of bytes written into cache. */ BLOCK_CACHE_BYTES_WRITE((byte) 0x13), /** * # of times bloom filter has avoided file reads. */ BLOOM_FILTER_USEFUL((byte) 0x14), /** * # persistent cache hit */ PERSISTENT_CACHE_HIT((byte) 0x15), /** * # persistent cache miss */ PERSISTENT_CACHE_MISS((byte) 0x16), /** * # total simulation block cache hits */ SIM_BLOCK_CACHE_HIT((byte) 0x17), /** * # total simulation block cache misses */ SIM_BLOCK_CACHE_MISS((byte) 0x18), /** * # of memtable hits. */ MEMTABLE_HIT((byte) 0x19), /** * # of memtable misses. */ MEMTABLE_MISS((byte) 0x1A), /** * # of Get() queries served by L0 */ GET_HIT_L0((byte) 0x1B), /** * # of Get() queries served by L1 */ GET_HIT_L1((byte) 0x1C), /** * # of Get() queries served by L2 and up */ GET_HIT_L2_AND_UP((byte) 0x1D), /** * COMPACTION_KEY_DROP_* count the reasons for key drop during compaction * There are 4 reasons currently. */ /** * key was written with a newer value. */ COMPACTION_KEY_DROP_NEWER_ENTRY((byte) 0x1E), /** * Also includes keys dropped for range del. * The key is obsolete. */ COMPACTION_KEY_DROP_OBSOLETE((byte) 0x1F), /** * key was covered by a range tombstone. */ COMPACTION_KEY_DROP_RANGE_DEL((byte) 0x20), /** * User compaction function has dropped the key. */ COMPACTION_KEY_DROP_USER((byte) 0x21), /** * all keys in range were deleted. */ COMPACTION_RANGE_DEL_DROP_OBSOLETE((byte) 0x22), /** * Number of keys written to the database via the Put and Write call's. */ NUMBER_KEYS_WRITTEN((byte) 0x23), /** * Number of Keys read. */ NUMBER_KEYS_READ((byte) 0x24), /** * Number keys updated, if inplace update is enabled */ NUMBER_KEYS_UPDATED((byte) 0x25), /** * The number of uncompressed bytes issued by DB::Put(), DB::Delete(),\ * DB::Merge(), and DB::Write(). */ BYTES_WRITTEN((byte) 0x26), /** * The number of uncompressed bytes read from DB::Get(). It could be * either from memtables, cache, or table files. * * For the number of logical bytes read from DB::MultiGet(), * please use {@link #NUMBER_MULTIGET_BYTES_READ}. */ BYTES_READ((byte) 0x27), /** * The number of calls to seek. */ NUMBER_DB_SEEK((byte) 0x28), /** * The number of calls to next. */ NUMBER_DB_NEXT((byte) 0x29), /** * The number of calls to prev. */ NUMBER_DB_PREV((byte) 0x2A), /** * The number of calls to seek that returned data. */ NUMBER_DB_SEEK_FOUND((byte) 0x2B), /** * The number of calls to next that returned data. */ NUMBER_DB_NEXT_FOUND((byte) 0x2C), /** * The number of calls to prev that returned data. */ NUMBER_DB_PREV_FOUND((byte) 0x2D), /** * The number of uncompressed bytes read from an iterator. * Includes size of key and value. */ ITER_BYTES_READ((byte) 0x2E), NO_FILE_CLOSES((byte) 0x2F), NO_FILE_OPENS((byte) 0x30), NO_FILE_ERRORS((byte) 0x31), /** * Time system had to wait to do LO-L1 compactions. * * @deprecated */ @Deprecated STALL_L0_SLOWDOWN_MICROS((byte) 0x32), /** * Time system had to wait to move memtable to L1. * * @deprecated */ @Deprecated STALL_MEMTABLE_COMPACTION_MICROS((byte) 0x33), /** * write throttle because of too many files in L0. * * @deprecated */ @Deprecated STALL_L0_NUM_FILES_MICROS((byte) 0x34), /** * Writer has to wait for compaction or flush to finish. */ STALL_MICROS((byte) 0x35), /** * The wait time for db mutex. * * Disabled by default. To enable it set stats level to {@link StatsLevel#ALL} */ DB_MUTEX_WAIT_MICROS((byte) 0x36), RATE_LIMIT_DELAY_MILLIS((byte) 0x37), /** * Number of iterators currently open. */ NO_ITERATORS((byte) 0x38), /** * Number of MultiGet calls. */ NUMBER_MULTIGET_CALLS((byte) 0x39), /** * Number of MultiGet keys read. */ NUMBER_MULTIGET_KEYS_READ((byte) 0x3A), /** * Number of MultiGet bytes read. */ NUMBER_MULTIGET_BYTES_READ((byte) 0x3B), /** * Number of deletes records that were not required to be * written to storage because key does not exist. */ NUMBER_FILTERED_DELETES((byte) 0x3C), NUMBER_MERGE_FAILURES((byte) 0x3D), /** * Number of times bloom was checked before creating iterator on a * file, and the number of times the check was useful in avoiding * iterator creation (and thus likely IOPs). */ BLOOM_FILTER_PREFIX_CHECKED((byte) 0x3E), BLOOM_FILTER_PREFIX_USEFUL((byte) 0x3F), /** * Number of times we had to reseek inside an iteration to skip * over large number of keys with same userkey. */ NUMBER_OF_RESEEKS_IN_ITERATION((byte) 0x40), /** * Record the number of calls to {@link RocksDB#getUpdatesSince(long)}. Useful to keep track of * transaction log iterator refreshes. */ GET_UPDATES_SINCE_CALLS((byte) 0x41), /** * Miss in the compressed block cache. */ BLOCK_CACHE_COMPRESSED_MISS((byte) 0x42), /** * Hit in the compressed block cache. */ BLOCK_CACHE_COMPRESSED_HIT((byte) 0x43), /** * Number of blocks added to compressed block cache. */ BLOCK_CACHE_COMPRESSED_ADD((byte) 0x44), /** * Number of failures when adding blocks to compressed block cache. */ BLOCK_CACHE_COMPRESSED_ADD_FAILURES((byte) 0x45), /** * Number of times WAL sync is done. */ WAL_FILE_SYNCED((byte) 0x46), /** * Number of bytes written to WAL. */ WAL_FILE_BYTES((byte) 0x47), /** * Writes can be processed by requesting thread or by the thread at the * head of the writers queue. */ WRITE_DONE_BY_SELF((byte) 0x48), /** * Equivalent to writes done for others. */ WRITE_DONE_BY_OTHER((byte) 0x49), /** * Number of writes ending up with timed-out. */ WRITE_TIMEDOUT((byte) 0x4A), /** * Number of Write calls that request WAL. */ WRITE_WITH_WAL((byte) 0x4B), /** * Bytes read during compaction. */ COMPACT_READ_BYTES((byte) 0x4C), /** * Bytes written during compaction. */ COMPACT_WRITE_BYTES((byte) 0x4D), /** * Bytes written during flush. */ FLUSH_WRITE_BYTES((byte) 0x4E), /** * Number of table's properties loaded directly from file, without creating * table reader object. */ NUMBER_DIRECT_LOAD_TABLE_PROPERTIES((byte) 0x4F), NUMBER_SUPERVERSION_ACQUIRES((byte) 0x50), NUMBER_SUPERVERSION_RELEASES((byte) 0x51), NUMBER_SUPERVERSION_CLEANUPS((byte) 0x52), /** * # of compressions/decompressions executed */ NUMBER_BLOCK_COMPRESSED((byte) 0x53), NUMBER_BLOCK_DECOMPRESSED((byte) 0x54), NUMBER_BLOCK_NOT_COMPRESSED((byte) 0x55), MERGE_OPERATION_TOTAL_TIME((byte) 0x56), FILTER_OPERATION_TOTAL_TIME((byte) 0x57), /** * Row cache. */ ROW_CACHE_HIT((byte) 0x58), ROW_CACHE_MISS((byte) 0x59), /** * Read amplification statistics. * * Read amplification can be calculated using this formula * (READ_AMP_TOTAL_READ_BYTES / READ_AMP_ESTIMATE_USEFUL_BYTES) * * REQUIRES: ReadOptions::read_amp_bytes_per_bit to be enabled */ /** * Estimate of total bytes actually used. */ READ_AMP_ESTIMATE_USEFUL_BYTES((byte) 0x5A), /** * Total size of loaded data blocks. */ READ_AMP_TOTAL_READ_BYTES((byte) 0x5B), /** * Number of refill intervals where rate limiter's bytes are fully consumed. */ NUMBER_RATE_LIMITER_DRAINS((byte) 0x5C), /** * Number of internal skipped during iteration */ NUMBER_ITER_SKIP((byte) 0x5D), /** * Number of MultiGet keys found (vs number requested) */ NUMBER_MULTIGET_KEYS_FOUND((byte) 0x5E), TICKER_ENUM_MAX((byte) 0x5F); private final byte value; TickerType(final byte value) { this.value = value; } public byte getValue() { return value; } } rocksdb-5.17.2/java/src/main/java/org/rocksdb/Transaction.java000066400000000000000000002120121337235545400241710ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import java.util.List; /** * Provides BEGIN/COMMIT/ROLLBACK transactions. * * To use transactions, you must first create either an * {@link OptimisticTransactionDB} or a {@link TransactionDB} * * To create a transaction, use * {@link OptimisticTransactionDB#beginTransaction(org.rocksdb.WriteOptions)} or * {@link TransactionDB#beginTransaction(org.rocksdb.WriteOptions)} * * It is up to the caller to synchronize access to this object. * * See samples/src/main/java/OptimisticTransactionSample.java and * samples/src/main/java/TransactionSample.java for some simple * examples. */ public class Transaction extends RocksObject { private final RocksDB parent; /** * Intentionally package private * as this is called from * {@link OptimisticTransactionDB#beginTransaction(org.rocksdb.WriteOptions)} * or {@link TransactionDB#beginTransaction(org.rocksdb.WriteOptions)} * * @param parent This must be either {@link TransactionDB} or * {@link OptimisticTransactionDB} * @param transactionHandle The native handle to the underlying C++ * transaction object */ Transaction(final RocksDB parent, final long transactionHandle) { super(transactionHandle); this.parent = parent; } /** * If a transaction has a snapshot set, the transaction will ensure that * any keys successfully written(or fetched via {@link #getForUpdate}) have * not been modified outside of this transaction since the time the snapshot * was set. * * If a snapshot has not been set, the transaction guarantees that keys have * not been modified since the time each key was first written (or fetched via * {@link #getForUpdate}). * * Using {@link #setSnapshot()} will provide stricter isolation guarantees * at the expense of potentially more transaction failures due to conflicts * with other writes. * * Calling {@link #setSnapshot()} has no effect on keys written before this * function has been called. * * {@link #setSnapshot()} may be called multiple times if you would like to * change the snapshot used for different operations in this transaction. * * Calling {@link #setSnapshot()} will not affect the version of Data returned * by get(...) methods. See {@link #get} for more details. */ public void setSnapshot() { assert(isOwningHandle()); setSnapshot(nativeHandle_); } /** * Similar to {@link #setSnapshot()}, but will not change the current snapshot * until put/merge/delete/getForUpdate/multiGetForUpdate is called. * By calling this function, the transaction will essentially call * {@link #setSnapshot()} for you right before performing the next * write/getForUpdate. * * Calling {@link #setSnapshotOnNextOperation()} will not affect what * snapshot is returned by {@link #getSnapshot} until the next * write/getForUpdate is executed. * * When the snapshot is created the notifier's snapshotCreated method will * be called so that the caller can get access to the snapshot. * * This is an optimization to reduce the likelihood of conflicts that * could occur in between the time {@link #setSnapshot()} is called and the * first write/getForUpdate operation. i.e. this prevents the following * race-condition: * * txn1->setSnapshot(); * txn2->put("A", ...); * txn2->commit(); * txn1->getForUpdate(opts, "A", ...); * FAIL! */ public void setSnapshotOnNextOperation() { assert(isOwningHandle()); setSnapshotOnNextOperation(nativeHandle_); } /** * Similar to {@link #setSnapshot()}, but will not change the current snapshot * until put/merge/delete/getForUpdate/multiGetForUpdate is called. * By calling this function, the transaction will essentially call * {@link #setSnapshot()} for you right before performing the next * write/getForUpdate. * * Calling {@link #setSnapshotOnNextOperation()} will not affect what * snapshot is returned by {@link #getSnapshot} until the next * write/getForUpdate is executed. * * When the snapshot is created the * {@link AbstractTransactionNotifier#snapshotCreated(Snapshot)} method will * be called so that the caller can get access to the snapshot. * * This is an optimization to reduce the likelihood of conflicts that * could occur in between the time {@link #setSnapshot()} is called and the * first write/getForUpdate operation. i.e. this prevents the following * race-condition: * * txn1->setSnapshot(); * txn2->put("A", ...); * txn2->commit(); * txn1->getForUpdate(opts, "A", ...); * FAIL! * * @param transactionNotifier A handler for receiving snapshot notifications * for the transaction * */ public void setSnapshotOnNextOperation( final AbstractTransactionNotifier transactionNotifier) { assert(isOwningHandle()); setSnapshotOnNextOperation(nativeHandle_, transactionNotifier.nativeHandle_); } /** * Returns the Snapshot created by the last call to {@link #setSnapshot()}. * * REQUIRED: The returned Snapshot is only valid up until the next time * {@link #setSnapshot()}/{@link #setSnapshotOnNextOperation()} is called, * {@link #clearSnapshot()} is called, or the Transaction is deleted. * * @return The snapshot or null if there is no snapshot */ public Snapshot getSnapshot() { assert(isOwningHandle()); final long snapshotNativeHandle = getSnapshot(nativeHandle_); if(snapshotNativeHandle == 0) { return null; } else { final Snapshot snapshot = new Snapshot(snapshotNativeHandle); return snapshot; } } /** * Clears the current snapshot (i.e. no snapshot will be 'set') * * This removes any snapshot that currently exists or is set to be created * on the next update operation ({@link #setSnapshotOnNextOperation()}). * * Calling {@link #clearSnapshot()} has no effect on keys written before this * function has been called. * * If a reference to a snapshot was retrieved via {@link #getSnapshot()}, it * will no longer be valid and should be discarded after a call to * {@link #clearSnapshot()}. */ public void clearSnapshot() { assert(isOwningHandle()); clearSnapshot(nativeHandle_); } /** * Prepare the current transaction for 2PC */ void prepare() throws RocksDBException { //TODO(AR) consider a Java'ish version of this function, which returns an AutoCloseable (commit) assert(isOwningHandle()); prepare(nativeHandle_); } /** * Write all batched keys to the db atomically. * * Returns OK on success. * * May return any error status that could be returned by DB:Write(). * * If this transaction was created by an {@link OptimisticTransactionDB} * Status::Busy() may be returned if the transaction could not guarantee * that there are no write conflicts. Status::TryAgain() may be returned * if the memtable history size is not large enough * (See max_write_buffer_number_to_maintain). * * If this transaction was created by a {@link TransactionDB}, * Status::Expired() may be returned if this transaction has lived for * longer than {@link TransactionOptions#getExpiration()}. * * @throws RocksDBException if an error occurs when committing the transaction */ public void commit() throws RocksDBException { assert(isOwningHandle()); commit(nativeHandle_); } /** * Discard all batched writes in this transaction. * * @throws RocksDBException if an error occurs when rolling back the transaction */ public void rollback() throws RocksDBException { assert(isOwningHandle()); rollback(nativeHandle_); } /** * Records the state of the transaction for future calls to * {@link #rollbackToSavePoint()}. * * May be called multiple times to set multiple save points. * * @throws RocksDBException if an error occurs whilst setting a save point */ public void setSavePoint() throws RocksDBException { assert(isOwningHandle()); setSavePoint(nativeHandle_); } /** * Undo all operations in this transaction (put, merge, delete, putLogData) * since the most recent call to {@link #setSavePoint()} and removes the most * recent {@link #setSavePoint()}. * * If there is no previous call to {@link #setSavePoint()}, * returns Status::NotFound() * * @throws RocksDBException if an error occurs when rolling back to a save point */ public void rollbackToSavePoint() throws RocksDBException { assert(isOwningHandle()); rollbackToSavePoint(nativeHandle_); } /** * This function is similar to * {@link RocksDB#get(ColumnFamilyHandle, ReadOptions, byte[])} except it will * also read pending changes in this transaction. * Currently, this function will return Status::MergeInProgress if the most * recent write to the queried key in this batch is a Merge. * * If {@link ReadOptions#snapshot()} is not set, the current version of the * key will be read. Calling {@link #setSnapshot()} does not affect the * version of the data returned. * * Note that setting {@link ReadOptions#setSnapshot(Snapshot)} will affect * what is read from the DB but will NOT change which keys are read from this * transaction (the keys in this transaction do not yet belong to any snapshot * and will be fetched regardless). * * @param columnFamilyHandle {@link org.rocksdb.ColumnFamilyHandle} instance * @param readOptions Read options. * @param key the key to retrieve the value for. * * @return a byte array storing the value associated with the input key if * any. null if it does not find the specified key. * * @throws RocksDBException thrown if error happens in underlying native * library. */ public byte[] get(final ColumnFamilyHandle columnFamilyHandle, final ReadOptions readOptions, final byte[] key) throws RocksDBException { assert(isOwningHandle()); return get(nativeHandle_, readOptions.nativeHandle_, key, key.length, columnFamilyHandle.nativeHandle_); } /** * This function is similar to * {@link RocksDB#get(ReadOptions, byte[])} except it will * also read pending changes in this transaction. * Currently, this function will return Status::MergeInProgress if the most * recent write to the queried key in this batch is a Merge. * * If {@link ReadOptions#snapshot()} is not set, the current version of the * key will be read. Calling {@link #setSnapshot()} does not affect the * version of the data returned. * * Note that setting {@link ReadOptions#setSnapshot(Snapshot)} will affect * what is read from the DB but will NOT change which keys are read from this * transaction (the keys in this transaction do not yet belong to any snapshot * and will be fetched regardless). * * @param readOptions Read options. * @param key the key to retrieve the value for. * * @return a byte array storing the value associated with the input key if * any. null if it does not find the specified key. * * @throws RocksDBException thrown if error happens in underlying native * library. */ public byte[] get(final ReadOptions readOptions, final byte[] key) throws RocksDBException { assert(isOwningHandle()); return get(nativeHandle_, readOptions.nativeHandle_, key, key.length); } /** * This function is similar to * {@link RocksDB#multiGet(ReadOptions, List, List)} except it will * also read pending changes in this transaction. * Currently, this function will return Status::MergeInProgress if the most * recent write to the queried key in this batch is a Merge. * * If {@link ReadOptions#snapshot()} is not set, the current version of the * key will be read. Calling {@link #setSnapshot()} does not affect the * version of the data returned. * * Note that setting {@link ReadOptions#setSnapshot(Snapshot)} will affect * what is read from the DB but will NOT change which keys are read from this * transaction (the keys in this transaction do not yet belong to any snapshot * and will be fetched regardless). * * @param readOptions Read options. * @param columnFamilyHandles {@link java.util.List} containing * {@link org.rocksdb.ColumnFamilyHandle} instances. * @param keys of keys for which values need to be retrieved. * * @return Array of values, one for each key * * @throws RocksDBException thrown if error happens in underlying * native library. * @throws IllegalArgumentException thrown if the size of passed keys is not * equal to the amount of passed column family handles. */ public byte[][] multiGet(final ReadOptions readOptions, final List columnFamilyHandles, final byte[][] keys) throws RocksDBException { assert(isOwningHandle()); // Check if key size equals cfList size. If not a exception must be // thrown. If not a Segmentation fault happens. if (keys.length != columnFamilyHandles.size()) { throw new IllegalArgumentException( "For each key there must be a ColumnFamilyHandle."); } if(keys.length == 0) { return new byte[0][0]; } final long[] cfHandles = new long[columnFamilyHandles.size()]; for (int i = 0; i < columnFamilyHandles.size(); i++) { cfHandles[i] = columnFamilyHandles.get(i).nativeHandle_; } return multiGet(nativeHandle_, readOptions.nativeHandle_, keys, cfHandles); } /** * This function is similar to * {@link RocksDB#multiGet(ReadOptions, List)} except it will * also read pending changes in this transaction. * Currently, this function will return Status::MergeInProgress if the most * recent write to the queried key in this batch is a Merge. * * If {@link ReadOptions#snapshot()} is not set, the current version of the * key will be read. Calling {@link #setSnapshot()} does not affect the * version of the data returned. * * Note that setting {@link ReadOptions#setSnapshot(Snapshot)} will affect * what is read from the DB but will NOT change which keys are read from this * transaction (the keys in this transaction do not yet belong to any snapshot * and will be fetched regardless). * * @param readOptions Read options.= * {@link org.rocksdb.ColumnFamilyHandle} instances. * @param keys of keys for which values need to be retrieved. * * @return Array of values, one for each key * * @throws RocksDBException thrown if error happens in underlying * native library. */ public byte[][] multiGet(final ReadOptions readOptions, final byte[][] keys) throws RocksDBException { assert(isOwningHandle()); if(keys.length == 0) { return new byte[0][0]; } return multiGet(nativeHandle_, readOptions.nativeHandle_, keys); } /** * Read this key and ensure that this transaction will only * be able to be committed if this key is not written outside this * transaction after it has first been read (or after the snapshot if a * snapshot is set in this transaction). The transaction behavior is the * same regardless of whether the key exists or not. * * Note: Currently, this function will return Status::MergeInProgress * if the most recent write to the queried key in this batch is a Merge. * * The values returned by this function are similar to * {@link RocksDB#get(ColumnFamilyHandle, ReadOptions, byte[])}. * If value==nullptr, then this function will not read any data, but will * still ensure that this key cannot be written to by outside of this * transaction. * * If this transaction was created by an {@link OptimisticTransactionDB}, * {@link #getForUpdate(ReadOptions, ColumnFamilyHandle, byte[], boolean)} * could cause {@link #commit()} to fail. Otherwise, it could return any error * that could be returned by * {@link RocksDB#get(ColumnFamilyHandle, ReadOptions, byte[])}. * * If this transaction was created on a {@link TransactionDB}, an * {@link RocksDBException} may be thrown with an accompanying {@link Status} * when: * {@link Status.Code#Busy} if there is a write conflict, * {@link Status.Code#TimedOut} if a lock could not be acquired, * {@link Status.Code#TryAgain} if the memtable history size is not large * enough. See * {@link ColumnFamilyOptions#maxWriteBufferNumberToMaintain()} * {@link Status.Code#MergeInProgress} if merge operations cannot be * resolved. * * @param readOptions Read options. * @param columnFamilyHandle {@link org.rocksdb.ColumnFamilyHandle} * instance * @param key the key to retrieve the value for. * @param exclusive true if the transaction should have exclusive access to * the key, otherwise false for shared access. * * @return a byte array storing the value associated with the input key if * any. null if it does not find the specified key. * * @throws RocksDBException thrown if error happens in underlying * native library. */ public byte[] getForUpdate(final ReadOptions readOptions, final ColumnFamilyHandle columnFamilyHandle, final byte[] key, final boolean exclusive) throws RocksDBException { assert(isOwningHandle()); return getForUpdate(nativeHandle_, readOptions.nativeHandle_, key, key.length, columnFamilyHandle.nativeHandle_, exclusive); } /** * Read this key and ensure that this transaction will only * be able to be committed if this key is not written outside this * transaction after it has first been read (or after the snapshot if a * snapshot is set in this transaction). The transaction behavior is the * same regardless of whether the key exists or not. * * Note: Currently, this function will return Status::MergeInProgress * if the most recent write to the queried key in this batch is a Merge. * * The values returned by this function are similar to * {@link RocksDB#get(ReadOptions, byte[])}. * If value==nullptr, then this function will not read any data, but will * still ensure that this key cannot be written to by outside of this * transaction. * * If this transaction was created on an {@link OptimisticTransactionDB}, * {@link #getForUpdate(ReadOptions, ColumnFamilyHandle, byte[], boolean)} * could cause {@link #commit()} to fail. Otherwise, it could return any error * that could be returned by * {@link RocksDB#get(ReadOptions, byte[])}. * * If this transaction was created on a {@link TransactionDB}, an * {@link RocksDBException} may be thrown with an accompanying {@link Status} * when: * {@link Status.Code#Busy} if there is a write conflict, * {@link Status.Code#TimedOut} if a lock could not be acquired, * {@link Status.Code#TryAgain} if the memtable history size is not large * enough. See * {@link ColumnFamilyOptions#maxWriteBufferNumberToMaintain()} * {@link Status.Code#MergeInProgress} if merge operations cannot be * resolved. * * @param readOptions Read options. * @param key the key to retrieve the value for. * @param exclusive true if the transaction should have exclusive access to * the key, otherwise false for shared access. * * @return a byte array storing the value associated with the input key if * any. null if it does not find the specified key. * * @throws RocksDBException thrown if error happens in underlying * native library. */ public byte[] getForUpdate(final ReadOptions readOptions, final byte[] key, final boolean exclusive) throws RocksDBException { assert(isOwningHandle()); return getForUpdate(nativeHandle_, readOptions.nativeHandle_, key, key.length, exclusive); } /** * A multi-key version of * {@link #getForUpdate(ReadOptions, ColumnFamilyHandle, byte[], boolean)}. * * * @param readOptions Read options. * @param columnFamilyHandles {@link org.rocksdb.ColumnFamilyHandle} * instances * @param keys the keys to retrieve the values for. * * @return Array of values, one for each key * * @throws RocksDBException thrown if error happens in underlying * native library. */ public byte[][] multiGetForUpdate(final ReadOptions readOptions, final List columnFamilyHandles, final byte[][] keys) throws RocksDBException { assert(isOwningHandle()); // Check if key size equals cfList size. If not a exception must be // thrown. If not a Segmentation fault happens. if (keys.length != columnFamilyHandles.size()){ throw new IllegalArgumentException( "For each key there must be a ColumnFamilyHandle."); } if(keys.length == 0) { return new byte[0][0]; } final long[] cfHandles = new long[columnFamilyHandles.size()]; for (int i = 0; i < columnFamilyHandles.size(); i++) { cfHandles[i] = columnFamilyHandles.get(i).nativeHandle_; } return multiGetForUpdate(nativeHandle_, readOptions.nativeHandle_, keys, cfHandles); } /** * A multi-key version of {@link #getForUpdate(ReadOptions, byte[], boolean)}. * * * @param readOptions Read options. * @param keys the keys to retrieve the values for. * * @return Array of values, one for each key * * @throws RocksDBException thrown if error happens in underlying * native library. */ public byte[][] multiGetForUpdate(final ReadOptions readOptions, final byte[][] keys) throws RocksDBException { assert(isOwningHandle()); if(keys.length == 0) { return new byte[0][0]; } return multiGetForUpdate(nativeHandle_, readOptions.nativeHandle_, keys); } /** * Returns an iterator that will iterate on all keys in the default * column family including both keys in the DB and uncommitted keys in this * transaction. * * Setting {@link ReadOptions#setSnapshot(Snapshot)} will affect what is read * from the DB but will NOT change which keys are read from this transaction * (the keys in this transaction do not yet belong to any snapshot and will be * fetched regardless). * * Caller is responsible for deleting the returned Iterator. * * The returned iterator is only valid until {@link #commit()}, * {@link #rollback()}, or {@link #rollbackToSavePoint()} is called. * * @param readOptions Read options. * * @return instance of iterator object. */ public RocksIterator getIterator(final ReadOptions readOptions) { assert(isOwningHandle()); return new RocksIterator(parent, getIterator(nativeHandle_, readOptions.nativeHandle_)); } /** * Returns an iterator that will iterate on all keys in the default * column family including both keys in the DB and uncommitted keys in this * transaction. * * Setting {@link ReadOptions#setSnapshot(Snapshot)} will affect what is read * from the DB but will NOT change which keys are read from this transaction * (the keys in this transaction do not yet belong to any snapshot and will be * fetched regardless). * * Caller is responsible for calling {@link RocksIterator#close()} on * the returned Iterator. * * The returned iterator is only valid until {@link #commit()}, * {@link #rollback()}, or {@link #rollbackToSavePoint()} is called. * * @param readOptions Read options. * @param columnFamilyHandle {@link org.rocksdb.ColumnFamilyHandle} * instance * * @return instance of iterator object. */ public RocksIterator getIterator(final ReadOptions readOptions, final ColumnFamilyHandle columnFamilyHandle) { assert(isOwningHandle()); return new RocksIterator(parent, getIterator(nativeHandle_, readOptions.nativeHandle_, columnFamilyHandle.nativeHandle_)); } /** * Similar to {@link RocksDB#put(ColumnFamilyHandle, byte[], byte[])}, but * will also perform conflict checking on the keys be written. * * If this Transaction was created on an {@link OptimisticTransactionDB}, * these functions should always succeed. * * If this Transaction was created on a {@link TransactionDB}, an * {@link RocksDBException} may be thrown with an accompanying {@link Status} * when: * {@link Status.Code#Busy} if there is a write conflict, * {@link Status.Code#TimedOut} if a lock could not be acquired, * {@link Status.Code#TryAgain} if the memtable history size is not large * enough. See * {@link ColumnFamilyOptions#maxWriteBufferNumberToMaintain()} * * @param columnFamilyHandle The column family to put the key/value into * @param key the specified key to be inserted. * @param value the value associated with the specified key. * * @throws RocksDBException when one of the TransactionalDB conditions * described above occurs, or in the case of an unexpected error */ public void put(final ColumnFamilyHandle columnFamilyHandle, final byte[] key, final byte[] value) throws RocksDBException { assert(isOwningHandle()); put(nativeHandle_, key, key.length, value, value.length, columnFamilyHandle.nativeHandle_); } /** * Similar to {@link RocksDB#put(byte[], byte[])}, but * will also perform conflict checking on the keys be written. * * If this Transaction was created on an {@link OptimisticTransactionDB}, * these functions should always succeed. * * If this Transaction was created on a {@link TransactionDB}, an * {@link RocksDBException} may be thrown with an accompanying {@link Status} * when: * {@link Status.Code#Busy} if there is a write conflict, * {@link Status.Code#TimedOut} if a lock could not be acquired, * {@link Status.Code#TryAgain} if the memtable history size is not large * enough. See * {@link ColumnFamilyOptions#maxWriteBufferNumberToMaintain()} * * @param key the specified key to be inserted. * @param value the value associated with the specified key. * * @throws RocksDBException when one of the TransactionalDB conditions * described above occurs, or in the case of an unexpected error */ public void put(final byte[] key, final byte[] value) throws RocksDBException { assert(isOwningHandle()); put(nativeHandle_, key, key.length, value, value.length); } //TODO(AR) refactor if we implement org.rocksdb.SliceParts in future /** * Similar to {@link #put(ColumnFamilyHandle, byte[], byte[])} but allows * you to specify the key and value in several parts that will be * concatenated together. * * @param columnFamilyHandle The column family to put the key/value into * @param keyParts the specified key to be inserted. * @param valueParts the value associated with the specified key. * * @throws RocksDBException when one of the TransactionalDB conditions * described above occurs, or in the case of an unexpected error */ public void put(final ColumnFamilyHandle columnFamilyHandle, final byte[][] keyParts, final byte[][] valueParts) throws RocksDBException { assert(isOwningHandle()); put(nativeHandle_, keyParts, keyParts.length, valueParts, valueParts.length, columnFamilyHandle.nativeHandle_); } //TODO(AR) refactor if we implement org.rocksdb.SliceParts in future /** * Similar to {@link #put(byte[], byte[])} but allows * you to specify the key and value in several parts that will be * concatenated together * * @param keyParts the specified key to be inserted. * @param valueParts the value associated with the specified key. * * @throws RocksDBException when one of the TransactionalDB conditions * described above occurs, or in the case of an unexpected error */ public void put(final byte[][] keyParts, final byte[][] valueParts) throws RocksDBException { assert(isOwningHandle()); put(nativeHandle_, keyParts, keyParts.length, valueParts, valueParts.length); } /** * Similar to {@link RocksDB#merge(ColumnFamilyHandle, byte[], byte[])}, but * will also perform conflict checking on the keys be written. * * If this Transaction was created on an {@link OptimisticTransactionDB}, * these functions should always succeed. * * If this Transaction was created on a {@link TransactionDB}, an * {@link RocksDBException} may be thrown with an accompanying {@link Status} * when: * {@link Status.Code#Busy} if there is a write conflict, * {@link Status.Code#TimedOut} if a lock could not be acquired, * {@link Status.Code#TryAgain} if the memtable history size is not large * enough. See * {@link ColumnFamilyOptions#maxWriteBufferNumberToMaintain()} * * @param columnFamilyHandle The column family to merge the key/value into * @param key the specified key to be merged. * @param value the value associated with the specified key. * * @throws RocksDBException when one of the TransactionalDB conditions * described above occurs, or in the case of an unexpected error */ public void merge(final ColumnFamilyHandle columnFamilyHandle, final byte[] key, final byte[] value) throws RocksDBException { assert(isOwningHandle()); merge(nativeHandle_, key, key.length, value, value.length, columnFamilyHandle.nativeHandle_); } /** * Similar to {@link RocksDB#merge(byte[], byte[])}, but * will also perform conflict checking on the keys be written. * * If this Transaction was created on an {@link OptimisticTransactionDB}, * these functions should always succeed. * * If this Transaction was created on a {@link TransactionDB}, an * {@link RocksDBException} may be thrown with an accompanying {@link Status} * when: * {@link Status.Code#Busy} if there is a write conflict, * {@link Status.Code#TimedOut} if a lock could not be acquired, * {@link Status.Code#TryAgain} if the memtable history size is not large * enough. See * {@link ColumnFamilyOptions#maxWriteBufferNumberToMaintain()} * * @param key the specified key to be merged. * @param value the value associated with the specified key. * * @throws RocksDBException when one of the TransactionalDB conditions * described above occurs, or in the case of an unexpected error */ public void merge(final byte[] key, final byte[] value) throws RocksDBException { assert(isOwningHandle()); merge(nativeHandle_, key, key.length, value, value.length); } /** * Similar to {@link RocksDB#delete(ColumnFamilyHandle, byte[])}, but * will also perform conflict checking on the keys be written. * * If this Transaction was created on an {@link OptimisticTransactionDB}, * these functions should always succeed. * * If this Transaction was created on a {@link TransactionDB}, an * {@link RocksDBException} may be thrown with an accompanying {@link Status} * when: * {@link Status.Code#Busy} if there is a write conflict, * {@link Status.Code#TimedOut} if a lock could not be acquired, * {@link Status.Code#TryAgain} if the memtable history size is not large * enough. See * {@link ColumnFamilyOptions#maxWriteBufferNumberToMaintain()} * * @param columnFamilyHandle The column family to delete the key/value from * @param key the specified key to be deleted. * * @throws RocksDBException when one of the TransactionalDB conditions * described above occurs, or in the case of an unexpected error */ public void delete(final ColumnFamilyHandle columnFamilyHandle, final byte[] key) throws RocksDBException { assert(isOwningHandle()); delete(nativeHandle_, key, key.length, columnFamilyHandle.nativeHandle_); } /** * Similar to {@link RocksDB#delete(byte[])}, but * will also perform conflict checking on the keys be written. * * If this Transaction was created on an {@link OptimisticTransactionDB}, * these functions should always succeed. * * If this Transaction was created on a {@link TransactionDB}, an * {@link RocksDBException} may be thrown with an accompanying {@link Status} * when: * {@link Status.Code#Busy} if there is a write conflict, * {@link Status.Code#TimedOut} if a lock could not be acquired, * {@link Status.Code#TryAgain} if the memtable history size is not large * enough. See * {@link ColumnFamilyOptions#maxWriteBufferNumberToMaintain()} * * @param key the specified key to be deleted. * * @throws RocksDBException when one of the TransactionalDB conditions * described above occurs, or in the case of an unexpected error */ public void delete(final byte[] key) throws RocksDBException { assert(isOwningHandle()); delete(nativeHandle_, key, key.length); } //TODO(AR) refactor if we implement org.rocksdb.SliceParts in future /** * Similar to {@link #delete(ColumnFamilyHandle, byte[])} but allows * you to specify the key in several parts that will be * concatenated together. * * @param columnFamilyHandle The column family to delete the key/value from * @param keyParts the specified key to be deleted. * * @throws RocksDBException when one of the TransactionalDB conditions * described above occurs, or in the case of an unexpected error */ public void delete(final ColumnFamilyHandle columnFamilyHandle, final byte[][] keyParts) throws RocksDBException { assert(isOwningHandle()); delete(nativeHandle_, keyParts, keyParts.length, columnFamilyHandle.nativeHandle_); } //TODO(AR) refactor if we implement org.rocksdb.SliceParts in future /** * Similar to {@link #delete(byte[])} but allows * you to specify key the in several parts that will be * concatenated together. * * @param keyParts the specified key to be deleted * * @throws RocksDBException when one of the TransactionalDB conditions * described above occurs, or in the case of an unexpected error */ public void delete(final byte[][] keyParts) throws RocksDBException { assert(isOwningHandle()); delete(nativeHandle_, keyParts, keyParts.length); } /** * Similar to {@link RocksDB#singleDelete(ColumnFamilyHandle, byte[])}, but * will also perform conflict checking on the keys be written. * * If this Transaction was created on an {@link OptimisticTransactionDB}, * these functions should always succeed. * * If this Transaction was created on a {@link TransactionDB}, an * {@link RocksDBException} may be thrown with an accompanying {@link Status} * when: * {@link Status.Code#Busy} if there is a write conflict, * {@link Status.Code#TimedOut} if a lock could not be acquired, * {@link Status.Code#TryAgain} if the memtable history size is not large * enough. See * {@link ColumnFamilyOptions#maxWriteBufferNumberToMaintain()} * * @param columnFamilyHandle The column family to delete the key/value from * @param key the specified key to be deleted. * * @throws RocksDBException when one of the TransactionalDB conditions * described above occurs, or in the case of an unexpected error */ @Experimental("Performance optimization for a very specific workload") public void singleDelete(final ColumnFamilyHandle columnFamilyHandle, final byte[] key) throws RocksDBException { assert(isOwningHandle()); singleDelete(nativeHandle_, key, key.length, columnFamilyHandle.nativeHandle_); } /** * Similar to {@link RocksDB#singleDelete(byte[])}, but * will also perform conflict checking on the keys be written. * * If this Transaction was created on an {@link OptimisticTransactionDB}, * these functions should always succeed. * * If this Transaction was created on a {@link TransactionDB}, an * {@link RocksDBException} may be thrown with an accompanying {@link Status} * when: * {@link Status.Code#Busy} if there is a write conflict, * {@link Status.Code#TimedOut} if a lock could not be acquired, * {@link Status.Code#TryAgain} if the memtable history size is not large * enough. See * {@link ColumnFamilyOptions#maxWriteBufferNumberToMaintain()} * * @param key the specified key to be deleted. * * @throws RocksDBException when one of the TransactionalDB conditions * described above occurs, or in the case of an unexpected error */ @Experimental("Performance optimization for a very specific workload") public void singleDelete(final byte[] key) throws RocksDBException { assert(isOwningHandle()); singleDelete(nativeHandle_, key, key.length); } //TODO(AR) refactor if we implement org.rocksdb.SliceParts in future /** * Similar to {@link #singleDelete(ColumnFamilyHandle, byte[])} but allows * you to specify the key in several parts that will be * concatenated together. * * @param columnFamilyHandle The column family to delete the key/value from * @param keyParts the specified key to be deleted. * * @throws RocksDBException when one of the TransactionalDB conditions * described above occurs, or in the case of an unexpected error */ @Experimental("Performance optimization for a very specific workload") public void singleDelete(final ColumnFamilyHandle columnFamilyHandle, final byte[][] keyParts) throws RocksDBException { assert(isOwningHandle()); singleDelete(nativeHandle_, keyParts, keyParts.length, columnFamilyHandle.nativeHandle_); } //TODO(AR) refactor if we implement org.rocksdb.SliceParts in future /** * Similar to {@link #singleDelete(byte[])} but allows * you to specify the key in several parts that will be * concatenated together. * * @param keyParts the specified key to be deleted. * * @throws RocksDBException when one of the TransactionalDB conditions * described above occurs, or in the case of an unexpected error */ @Experimental("Performance optimization for a very specific workload") public void singleDelete(final byte[][] keyParts) throws RocksDBException { assert(isOwningHandle()); singleDelete(nativeHandle_, keyParts, keyParts.length); } /** * Similar to {@link RocksDB#put(ColumnFamilyHandle, byte[], byte[])}, * but operates on the transactions write batch. This write will only happen * if this transaction gets committed successfully. * * Unlike {@link #put(ColumnFamilyHandle, byte[], byte[])} no conflict * checking will be performed for this key. * * If this Transaction was created on a {@link TransactionDB}, this function * will still acquire locks necessary to make sure this write doesn't cause * conflicts in other transactions; This may cause a {@link RocksDBException} * with associated {@link Status.Code#Busy}. * * @param columnFamilyHandle The column family to put the key/value into * @param key the specified key to be inserted. * @param value the value associated with the specified key. * * @throws RocksDBException when one of the TransactionalDB conditions * described above occurs, or in the case of an unexpected error */ public void putUntracked(final ColumnFamilyHandle columnFamilyHandle, final byte[] key, final byte[] value) throws RocksDBException { assert(isOwningHandle()); putUntracked(nativeHandle_, key, key.length, value, value.length, columnFamilyHandle.nativeHandle_); } /** * Similar to {@link RocksDB#put(byte[], byte[])}, * but operates on the transactions write batch. This write will only happen * if this transaction gets committed successfully. * * Unlike {@link #put(byte[], byte[])} no conflict * checking will be performed for this key. * * If this Transaction was created on a {@link TransactionDB}, this function * will still acquire locks necessary to make sure this write doesn't cause * conflicts in other transactions; This may cause a {@link RocksDBException} * with associated {@link Status.Code#Busy}. * * @param key the specified key to be inserted. * @param value the value associated with the specified key. * * @throws RocksDBException when one of the TransactionalDB conditions * described above occurs, or in the case of an unexpected error */ public void putUntracked(final byte[] key, final byte[] value) throws RocksDBException { assert(isOwningHandle()); putUntracked(nativeHandle_, key, key.length, value, value.length); } //TODO(AR) refactor if we implement org.rocksdb.SliceParts in future /** * Similar to {@link #putUntracked(ColumnFamilyHandle, byte[], byte[])} but * allows you to specify the key and value in several parts that will be * concatenated together. * * @param columnFamilyHandle The column family to put the key/value into * @param keyParts the specified key to be inserted. * @param valueParts the value associated with the specified key. * * @throws RocksDBException when one of the TransactionalDB conditions * described above occurs, or in the case of an unexpected error */ public void putUntracked(final ColumnFamilyHandle columnFamilyHandle, final byte[][] keyParts, final byte[][] valueParts) throws RocksDBException { assert(isOwningHandle()); putUntracked(nativeHandle_, keyParts, keyParts.length, valueParts, valueParts.length, columnFamilyHandle.nativeHandle_); } //TODO(AR) refactor if we implement org.rocksdb.SliceParts in future /** * Similar to {@link #putUntracked(byte[], byte[])} but * allows you to specify the key and value in several parts that will be * concatenated together. * * @param keyParts the specified key to be inserted. * @param valueParts the value associated with the specified key. * * @throws RocksDBException when one of the TransactionalDB conditions * described above occurs, or in the case of an unexpected error */ public void putUntracked(final byte[][] keyParts, final byte[][] valueParts) throws RocksDBException { assert(isOwningHandle()); putUntracked(nativeHandle_, keyParts, keyParts.length, valueParts, valueParts.length); } /** * Similar to {@link RocksDB#merge(ColumnFamilyHandle, byte[], byte[])}, * but operates on the transactions write batch. This write will only happen * if this transaction gets committed successfully. * * Unlike {@link #merge(ColumnFamilyHandle, byte[], byte[])} no conflict * checking will be performed for this key. * * If this Transaction was created on a {@link TransactionDB}, this function * will still acquire locks necessary to make sure this write doesn't cause * conflicts in other transactions; This may cause a {@link RocksDBException} * with associated {@link Status.Code#Busy}. * * @param columnFamilyHandle The column family to merge the key/value into * @param key the specified key to be merged. * @param value the value associated with the specified key. * * @throws RocksDBException when one of the TransactionalDB conditions * described above occurs, or in the case of an unexpected error */ public void mergeUntracked(final ColumnFamilyHandle columnFamilyHandle, final byte[] key, final byte[] value) throws RocksDBException { mergeUntracked(nativeHandle_, key, key.length, value, value.length, columnFamilyHandle.nativeHandle_); } /** * Similar to {@link RocksDB#merge(byte[], byte[])}, * but operates on the transactions write batch. This write will only happen * if this transaction gets committed successfully. * * Unlike {@link #merge(byte[], byte[])} no conflict * checking will be performed for this key. * * If this Transaction was created on a {@link TransactionDB}, this function * will still acquire locks necessary to make sure this write doesn't cause * conflicts in other transactions; This may cause a {@link RocksDBException} * with associated {@link Status.Code#Busy}. * * @param key the specified key to be merged. * @param value the value associated with the specified key. * * @throws RocksDBException when one of the TransactionalDB conditions * described above occurs, or in the case of an unexpected error */ public void mergeUntracked(final byte[] key, final byte[] value) throws RocksDBException { assert(isOwningHandle()); mergeUntracked(nativeHandle_, key, key.length, value, value.length); } /** * Similar to {@link RocksDB#delete(ColumnFamilyHandle, byte[])}, * but operates on the transactions write batch. This write will only happen * if this transaction gets committed successfully. * * Unlike {@link #delete(ColumnFamilyHandle, byte[])} no conflict * checking will be performed for this key. * * If this Transaction was created on a {@link TransactionDB}, this function * will still acquire locks necessary to make sure this write doesn't cause * conflicts in other transactions; This may cause a {@link RocksDBException} * with associated {@link Status.Code#Busy}. * * @param columnFamilyHandle The column family to delete the key/value from * @param key the specified key to be deleted. * * @throws RocksDBException when one of the TransactionalDB conditions * described above occurs, or in the case of an unexpected error */ public void deleteUntracked(final ColumnFamilyHandle columnFamilyHandle, final byte[] key) throws RocksDBException { assert(isOwningHandle()); deleteUntracked(nativeHandle_, key, key.length, columnFamilyHandle.nativeHandle_); } /** * Similar to {@link RocksDB#delete(byte[])}, * but operates on the transactions write batch. This write will only happen * if this transaction gets committed successfully. * * Unlike {@link #delete(byte[])} no conflict * checking will be performed for this key. * * If this Transaction was created on a {@link TransactionDB}, this function * will still acquire locks necessary to make sure this write doesn't cause * conflicts in other transactions; This may cause a {@link RocksDBException} * with associated {@link Status.Code#Busy}. * * @param key the specified key to be deleted. * * @throws RocksDBException when one of the TransactionalDB conditions * described above occurs, or in the case of an unexpected error */ public void deleteUntracked(final byte[] key) throws RocksDBException { assert(isOwningHandle()); deleteUntracked(nativeHandle_, key, key.length); } //TODO(AR) refactor if we implement org.rocksdb.SliceParts in future /** * Similar to {@link #deleteUntracked(ColumnFamilyHandle, byte[])} but allows * you to specify the key in several parts that will be * concatenated together. * * @param columnFamilyHandle The column family to delete the key/value from * @param keyParts the specified key to be deleted. * * @throws RocksDBException when one of the TransactionalDB conditions * described above occurs, or in the case of an unexpected error */ public void deleteUntracked(final ColumnFamilyHandle columnFamilyHandle, final byte[][] keyParts) throws RocksDBException { assert(isOwningHandle()); deleteUntracked(nativeHandle_, keyParts, keyParts.length, columnFamilyHandle.nativeHandle_); } //TODO(AR) refactor if we implement org.rocksdb.SliceParts in future /** * Similar to {@link #deleteUntracked(byte[])} but allows * you to specify the key in several parts that will be * concatenated together. * * @param keyParts the specified key to be deleted. * * @throws RocksDBException when one of the TransactionalDB conditions * described above occurs, or in the case of an unexpected error */ public void deleteUntracked(final byte[][] keyParts) throws RocksDBException { assert(isOwningHandle()); deleteUntracked(nativeHandle_, keyParts, keyParts.length); } /** * Similar to {@link WriteBatch#putLogData(byte[])} * * @param blob binary object to be inserted */ public void putLogData(final byte[] blob) { assert(isOwningHandle()); putLogData(nativeHandle_, blob, blob.length); } /** * By default, all put/merge/delete operations will be indexed in the * transaction so that get/getForUpdate/getIterator can search for these * keys. * * If the caller does not want to fetch the keys about to be written, * they may want to avoid indexing as a performance optimization. * Calling {@link #disableIndexing()} will turn off indexing for all future * put/merge/delete operations until {@link #enableIndexing()} is called. * * If a key is put/merge/deleted after {@link #disableIndexing()} is called * and then is fetched via get/getForUpdate/getIterator, the result of the * fetch is undefined. */ public void disableIndexing() { assert(isOwningHandle()); disableIndexing(nativeHandle_); } /** * Re-enables indexing after a previous call to {@link #disableIndexing()} */ public void enableIndexing() { assert(isOwningHandle()); enableIndexing(nativeHandle_); } /** * Returns the number of distinct Keys being tracked by this transaction. * If this transaction was created by a {@link TransactionDB}, this is the * number of keys that are currently locked by this transaction. * If this transaction was created by an {@link OptimisticTransactionDB}, * this is the number of keys that need to be checked for conflicts at commit * time. * * @return the number of distinct Keys being tracked by this transaction */ public long getNumKeys() { assert(isOwningHandle()); return getNumKeys(nativeHandle_); } /** * Returns the number of puts that have been applied to this * transaction so far. * * @return the number of puts that have been applied to this transaction */ public long getNumPuts() { assert(isOwningHandle()); return getNumPuts(nativeHandle_); } /** * Returns the number of deletes that have been applied to this * transaction so far. * * @return the number of deletes that have been applied to this transaction */ public long getNumDeletes() { assert(isOwningHandle()); return getNumDeletes(nativeHandle_); } /** * Returns the number of merges that have been applied to this * transaction so far. * * @return the number of merges that have been applied to this transaction */ public long getNumMerges() { assert(isOwningHandle()); return getNumMerges(nativeHandle_); } /** * Returns the elapsed time in milliseconds since this Transaction began. * * @return the elapsed time in milliseconds since this transaction began. */ public long getElapsedTime() { assert(isOwningHandle()); return getElapsedTime(nativeHandle_); } /** * Fetch the underlying write batch that contains all pending changes to be * committed. * * Note: You should not write or delete anything from the batch directly and * should only use the functions in the {@link Transaction} class to * write to this transaction. * * @return The write batch */ public WriteBatchWithIndex getWriteBatch() { assert(isOwningHandle()); final WriteBatchWithIndex writeBatchWithIndex = new WriteBatchWithIndex(getWriteBatch(nativeHandle_)); return writeBatchWithIndex; } /** * Change the value of {@link TransactionOptions#getLockTimeout()} * (in milliseconds) for this transaction. * * Has no effect on OptimisticTransactions. * * @param lockTimeout the timeout (in milliseconds) for locks used by this * transaction. */ public void setLockTimeout(final long lockTimeout) { assert(isOwningHandle()); setLockTimeout(nativeHandle_, lockTimeout); } /** * Return the WriteOptions that will be used during {@link #commit()}. * * @return the WriteOptions that will be used */ public WriteOptions getWriteOptions() { assert(isOwningHandle()); final WriteOptions writeOptions = new WriteOptions(getWriteOptions(nativeHandle_)); return writeOptions; } /** * Reset the WriteOptions that will be used during {@link #commit()}. * * @param writeOptions The new WriteOptions */ public void setWriteOptions(final WriteOptions writeOptions) { assert(isOwningHandle()); setWriteOptions(nativeHandle_, writeOptions.nativeHandle_); } /** * If this key was previously fetched in this transaction using * {@link #getForUpdate(ReadOptions, ColumnFamilyHandle, byte[], boolean)}/ * {@link #multiGetForUpdate(ReadOptions, List, byte[][])}, calling * {@link #undoGetForUpdate(ColumnFamilyHandle, byte[])} will tell * the transaction that it no longer needs to do any conflict checking * for this key. * * If a key has been fetched N times via * {@link #getForUpdate(ReadOptions, ColumnFamilyHandle, byte[], boolean)}/ * {@link #multiGetForUpdate(ReadOptions, List, byte[][])}, then * {@link #undoGetForUpdate(ColumnFamilyHandle, byte[])} will only have an * effect if it is also called N times. If this key has been written to in * this transaction, {@link #undoGetForUpdate(ColumnFamilyHandle, byte[])} * will have no effect. * * If {@link #setSavePoint()} has been called after the * {@link #getForUpdate(ReadOptions, ColumnFamilyHandle, byte[], boolean)}, * {@link #undoGetForUpdate(ColumnFamilyHandle, byte[])} will not have any * effect. * * If this Transaction was created by an {@link OptimisticTransactionDB}, * calling {@link #undoGetForUpdate(ColumnFamilyHandle, byte[])} can affect * whether this key is conflict checked at commit time. * If this Transaction was created by a {@link TransactionDB}, * calling {@link #undoGetForUpdate(ColumnFamilyHandle, byte[])} may release * any held locks for this key. * * @param columnFamilyHandle {@link org.rocksdb.ColumnFamilyHandle} * instance * @param key the key to retrieve the value for. */ public void undoGetForUpdate(final ColumnFamilyHandle columnFamilyHandle, final byte[] key) { assert(isOwningHandle()); undoGetForUpdate(nativeHandle_, key, key.length, columnFamilyHandle.nativeHandle_); } /** * If this key was previously fetched in this transaction using * {@link #getForUpdate(ReadOptions, byte[], boolean)}/ * {@link #multiGetForUpdate(ReadOptions, List, byte[][])}, calling * {@link #undoGetForUpdate(byte[])} will tell * the transaction that it no longer needs to do any conflict checking * for this key. * * If a key has been fetched N times via * {@link #getForUpdate(ReadOptions, byte[], boolean)}/ * {@link #multiGetForUpdate(ReadOptions, List, byte[][])}, then * {@link #undoGetForUpdate(byte[])} will only have an * effect if it is also called N times. If this key has been written to in * this transaction, {@link #undoGetForUpdate(byte[])} * will have no effect. * * If {@link #setSavePoint()} has been called after the * {@link #getForUpdate(ReadOptions, byte[], boolean)}, * {@link #undoGetForUpdate(byte[])} will not have any * effect. * * If this Transaction was created by an {@link OptimisticTransactionDB}, * calling {@link #undoGetForUpdate(byte[])} can affect * whether this key is conflict checked at commit time. * If this Transaction was created by a {@link TransactionDB}, * calling {@link #undoGetForUpdate(byte[])} may release * any held locks for this key. * * @param key the key to retrieve the value for. */ public void undoGetForUpdate(final byte[] key) { assert(isOwningHandle()); undoGetForUpdate(nativeHandle_, key, key.length); } /** * Adds the keys from the WriteBatch to the transaction * * @param writeBatch The write batch to read from * * @throws RocksDBException if an error occurs whilst rebuilding from the * write batch. */ public void rebuildFromWriteBatch(final WriteBatch writeBatch) throws RocksDBException { assert(isOwningHandle()); rebuildFromWriteBatch(nativeHandle_, writeBatch.nativeHandle_); } /** * Get the Commit time Write Batch. * * @return the commit time write batch. */ public WriteBatch getCommitTimeWriteBatch() { assert(isOwningHandle()); final WriteBatch writeBatch = new WriteBatch(getCommitTimeWriteBatch(nativeHandle_)); return writeBatch; } /** * Set the log number. * * @param logNumber the log number */ public void setLogNumber(final long logNumber) { assert(isOwningHandle()); setLogNumber(nativeHandle_, logNumber); } /** * Get the log number. * * @return the log number */ public long getLogNumber() { assert(isOwningHandle()); return getLogNumber(nativeHandle_); } /** * Set the name of the transaction. * * @param transactionName the name of the transaction * * @throws RocksDBException if an error occurs when setting the transaction * name. */ public void setName(final String transactionName) throws RocksDBException { assert(isOwningHandle()); setName(nativeHandle_, transactionName); } /** * Get the name of the transaction. * * @return the name of the transaction */ public String getName() { assert(isOwningHandle()); return getName(nativeHandle_); } /** * Get the ID of the transaction. * * @return the ID of the transaction. */ public long getID() { assert(isOwningHandle()); return getID(nativeHandle_); } /** * Determine if a deadlock has been detected. * * @return true if a deadlock has been detected. */ public boolean isDeadlockDetect() { assert(isOwningHandle()); return isDeadlockDetect(nativeHandle_); } /** * Get the list of waiting transactions. * * @return The list of waiting transactions. */ public WaitingTransactions getWaitingTxns() { assert(isOwningHandle()); return getWaitingTxns(nativeHandle_); } /** * Get the execution status of the transaction. * * NOTE: The execution status of an Optimistic Transaction * never changes. This is only useful for non-optimistic transactions! * * @return The execution status of the transaction */ public TransactionState getState() { assert(isOwningHandle()); return TransactionState.getTransactionState( getState(nativeHandle_)); } /** * The globally unique id with which the transaction is identified. This id * might or might not be set depending on the implementation. Similarly the * implementation decides the point in lifetime of a transaction at which it * assigns the id. Although currently it is the case, the id is not guaranteed * to remain the same across restarts. * * @return the transaction id. */ @Experimental("NOTE: Experimental feature") public long getId() { assert(isOwningHandle()); return getId(nativeHandle_); } public enum TransactionState { STARTED((byte)0), AWAITING_PREPARE((byte)1), PREPARED((byte)2), AWAITING_COMMIT((byte)3), COMMITED((byte)4), AWAITING_ROLLBACK((byte)5), ROLLEDBACK((byte)6), LOCKS_STOLEN((byte)7); private final byte value; TransactionState(final byte value) { this.value = value; } /** * Get TransactionState by byte value. * * @param value byte representation of TransactionState. * * @return {@link org.rocksdb.Transaction.TransactionState} instance or null. * @throws java.lang.IllegalArgumentException if an invalid * value is provided. */ public static TransactionState getTransactionState(final byte value) { for (final TransactionState transactionState : TransactionState.values()) { if (transactionState.value == value){ return transactionState; } } throw new IllegalArgumentException( "Illegal value provided for TransactionState."); } } /** * Called from C++ native method {@link #getWaitingTxns(long)} * to construct a WaitingTransactions object. * * @param columnFamilyId The id of the {@link ColumnFamilyHandle} * @param key The key * @param transactionIds The transaction ids * * @return The waiting transactions */ private WaitingTransactions newWaitingTransactions( final long columnFamilyId, final String key, final long[] transactionIds) { return new WaitingTransactions(columnFamilyId, key, transactionIds); } public static class WaitingTransactions { private final long columnFamilyId; private final String key; private final long[] transactionIds; private WaitingTransactions(final long columnFamilyId, final String key, final long[] transactionIds) { this.columnFamilyId = columnFamilyId; this.key = key; this.transactionIds = transactionIds; } /** * Get the Column Family ID. * * @return The column family ID */ public long getColumnFamilyId() { return columnFamilyId; } /** * Get the key on which the transactions are waiting. * * @return The key */ public String getKey() { return key; } /** * Get the IDs of the waiting transactions. * * @return The IDs of the waiting transactions */ public long[] getTransactionIds() { return transactionIds; } } private native void setSnapshot(final long handle); private native void setSnapshotOnNextOperation(final long handle); private native void setSnapshotOnNextOperation(final long handle, final long transactionNotifierHandle); private native long getSnapshot(final long handle); private native void clearSnapshot(final long handle); private native void prepare(final long handle) throws RocksDBException; private native void commit(final long handle) throws RocksDBException; private native void rollback(final long handle) throws RocksDBException; private native void setSavePoint(final long handle) throws RocksDBException; private native void rollbackToSavePoint(final long handle) throws RocksDBException; private native byte[] get(final long handle, final long readOptionsHandle, final byte key[], final int keyLength, final long columnFamilyHandle) throws RocksDBException; private native byte[] get(final long handle, final long readOptionsHandle, final byte key[], final int keyLen) throws RocksDBException; private native byte[][] multiGet(final long handle, final long readOptionsHandle, final byte[][] keys, final long[] columnFamilyHandles) throws RocksDBException; private native byte[][] multiGet(final long handle, final long readOptionsHandle, final byte[][] keys) throws RocksDBException; private native byte[] getForUpdate(final long handle, final long readOptionsHandle, final byte key[], final int keyLength, final long columnFamilyHandle, final boolean exclusive) throws RocksDBException; private native byte[] getForUpdate(final long handle, final long readOptionsHandle, final byte key[], final int keyLen, final boolean exclusive) throws RocksDBException; private native byte[][] multiGetForUpdate(final long handle, final long readOptionsHandle, final byte[][] keys, final long[] columnFamilyHandles) throws RocksDBException; private native byte[][] multiGetForUpdate(final long handle, final long readOptionsHandle, final byte[][] keys) throws RocksDBException; private native long getIterator(final long handle, final long readOptionsHandle); private native long getIterator(final long handle, final long readOptionsHandle, final long columnFamilyHandle); private native void put(final long handle, final byte[] key, final int keyLength, final byte[] value, final int valueLength, final long columnFamilyHandle) throws RocksDBException; private native void put(final long handle, final byte[] key, final int keyLength, final byte[] value, final int valueLength) throws RocksDBException; private native void put(final long handle, final byte[][] keys, final int keysLength, final byte[][] values, final int valuesLength, final long columnFamilyHandle) throws RocksDBException; private native void put(final long handle, final byte[][] keys, final int keysLength, final byte[][] values, final int valuesLength) throws RocksDBException; private native void merge(final long handle, final byte[] key, final int keyLength, final byte[] value, final int valueLength, final long columnFamilyHandle) throws RocksDBException; private native void merge(final long handle, final byte[] key, final int keyLength, final byte[] value, final int valueLength) throws RocksDBException; private native void delete(final long handle, final byte[] key, final int keyLength, final long columnFamilyHandle) throws RocksDBException; private native void delete(final long handle, final byte[] key, final int keyLength) throws RocksDBException; private native void delete(final long handle, final byte[][] keys, final int keysLength, final long columnFamilyHandle) throws RocksDBException; private native void delete(final long handle, final byte[][] keys, final int keysLength) throws RocksDBException; private native void singleDelete(final long handle, final byte[] key, final int keyLength, final long columnFamilyHandle) throws RocksDBException; private native void singleDelete(final long handle, final byte[] key, final int keyLength) throws RocksDBException; private native void singleDelete(final long handle, final byte[][] keys, final int keysLength, final long columnFamilyHandle) throws RocksDBException; private native void singleDelete(final long handle, final byte[][] keys, final int keysLength) throws RocksDBException; private native void putUntracked(final long handle, final byte[] key, final int keyLength, final byte[] value, final int valueLength, final long columnFamilyHandle) throws RocksDBException; private native void putUntracked(final long handle, final byte[] key, final int keyLength, final byte[] value, final int valueLength) throws RocksDBException; private native void putUntracked(final long handle, final byte[][] keys, final int keysLength, final byte[][] values, final int valuesLength, final long columnFamilyHandle) throws RocksDBException; private native void putUntracked(final long handle, final byte[][] keys, final int keysLength, final byte[][] values, final int valuesLength) throws RocksDBException; private native void mergeUntracked(final long handle, final byte[] key, final int keyLength, final byte[] value, final int valueLength, final long columnFamilyHandle) throws RocksDBException; private native void mergeUntracked(final long handle, final byte[] key, final int keyLength, final byte[] value, final int valueLength) throws RocksDBException; private native void deleteUntracked(final long handle, final byte[] key, final int keyLength, final long columnFamilyHandle) throws RocksDBException; private native void deleteUntracked(final long handle, final byte[] key, final int keyLength) throws RocksDBException; private native void deleteUntracked(final long handle, final byte[][] keys, final int keysLength, final long columnFamilyHandle) throws RocksDBException; private native void deleteUntracked(final long handle, final byte[][] keys, final int keysLength) throws RocksDBException; private native void putLogData(final long handle, final byte[] blob, final int blobLength); private native void disableIndexing(final long handle); private native void enableIndexing(final long handle); private native long getNumKeys(final long handle); private native long getNumPuts(final long handle); private native long getNumDeletes(final long handle); private native long getNumMerges(final long handle); private native long getElapsedTime(final long handle); private native long getWriteBatch(final long handle); private native void setLockTimeout(final long handle, final long lockTimeout); private native long getWriteOptions(final long handle); private native void setWriteOptions(final long handle, final long writeOptionsHandle); private native void undoGetForUpdate(final long handle, final byte[] key, final int keyLength, final long columnFamilyHandle); private native void undoGetForUpdate(final long handle, final byte[] key, final int keyLength); private native void rebuildFromWriteBatch(final long handle, final long writeBatchHandle) throws RocksDBException; private native long getCommitTimeWriteBatch(final long handle); private native void setLogNumber(final long handle, final long logNumber); private native long getLogNumber(final long handle); private native void setName(final long handle, final String name) throws RocksDBException; private native String getName(final long handle); private native long getID(final long handle); private native boolean isDeadlockDetect(final long handle); private native WaitingTransactions getWaitingTxns(final long handle); private native byte getState(final long handle); private native long getId(final long handle); @Override protected final native void disposeInternal(final long handle); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/TransactionDB.java000066400000000000000000000265421337235545400244120ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import java.util.ArrayList; import java.util.HashMap; import java.util.List; import java.util.Map; /** * Database with Transaction support */ public class TransactionDB extends RocksDB implements TransactionalDB { private TransactionDBOptions transactionDbOptions_; /** * Private constructor. * * @param nativeHandle The native handle of the C++ TransactionDB object */ private TransactionDB(final long nativeHandle) { super(nativeHandle); } /** * Open a TransactionDB, similar to {@link RocksDB#open(Options, String)}. * * @param options {@link org.rocksdb.Options} instance. * @param transactionDbOptions {@link org.rocksdb.TransactionDBOptions} * instance. * @param path the path to the rocksdb. * * @return a {@link TransactionDB} instance on success, null if the specified * {@link TransactionDB} can not be opened. * * @throws RocksDBException if an error occurs whilst opening the database. */ public static TransactionDB open(final Options options, final TransactionDBOptions transactionDbOptions, final String path) throws RocksDBException { final TransactionDB tdb = new TransactionDB(open(options.nativeHandle_, transactionDbOptions.nativeHandle_, path)); // when non-default Options is used, keeping an Options reference // in RocksDB can prevent Java to GC during the life-time of // the currently-created RocksDB. tdb.storeOptionsInstance(options); tdb.storeTransactionDbOptions(transactionDbOptions); return tdb; } /** * Open a TransactionDB, similar to * {@link RocksDB#open(DBOptions, String, List, List)}. * * @param dbOptions {@link org.rocksdb.DBOptions} instance. * @param transactionDbOptions {@link org.rocksdb.TransactionDBOptions} * instance. * @param path the path to the rocksdb. * @param columnFamilyDescriptors list of column family descriptors * @param columnFamilyHandles will be filled with ColumnFamilyHandle instances * * @return a {@link TransactionDB} instance on success, null if the specified * {@link TransactionDB} can not be opened. * * @throws RocksDBException if an error occurs whilst opening the database. */ public static TransactionDB open(final DBOptions dbOptions, final TransactionDBOptions transactionDbOptions, final String path, final List columnFamilyDescriptors, final List columnFamilyHandles) throws RocksDBException { final byte[][] cfNames = new byte[columnFamilyDescriptors.size()][]; final long[] cfOptionHandles = new long[columnFamilyDescriptors.size()]; for (int i = 0; i < columnFamilyDescriptors.size(); i++) { final ColumnFamilyDescriptor cfDescriptor = columnFamilyDescriptors .get(i); cfNames[i] = cfDescriptor.columnFamilyName(); cfOptionHandles[i] = cfDescriptor.columnFamilyOptions().nativeHandle_; } final long[] handles = open(dbOptions.nativeHandle_, transactionDbOptions.nativeHandle_, path, cfNames, cfOptionHandles); final TransactionDB tdb = new TransactionDB(handles[0]); // when non-default Options is used, keeping an Options reference // in RocksDB can prevent Java to GC during the life-time of // the currently-created RocksDB. tdb.storeOptionsInstance(dbOptions); tdb.storeTransactionDbOptions(transactionDbOptions); for (int i = 1; i < handles.length; i++) { columnFamilyHandles.add(new ColumnFamilyHandle(tdb, handles[i])); } return tdb; } @Override public Transaction beginTransaction(final WriteOptions writeOptions) { return new Transaction(this, beginTransaction(nativeHandle_, writeOptions.nativeHandle_)); } @Override public Transaction beginTransaction(final WriteOptions writeOptions, final TransactionOptions transactionOptions) { return new Transaction(this, beginTransaction(nativeHandle_, writeOptions.nativeHandle_, transactionOptions.nativeHandle_)); } // TODO(AR) consider having beingTransaction(... oldTransaction) set a // reference count inside Transaction, so that we can always call // Transaction#close but the object is only disposed when there are as many // closes as beginTransaction. Makes the try-with-resources paradigm easier for // java developers @Override public Transaction beginTransaction(final WriteOptions writeOptions, final Transaction oldTransaction) { final long jtxnHandle = beginTransaction_withOld(nativeHandle_, writeOptions.nativeHandle_, oldTransaction.nativeHandle_); // RocksJava relies on the assumption that // we do not allocate a new Transaction object // when providing an old_txn assert(jtxnHandle == oldTransaction.nativeHandle_); return oldTransaction; } @Override public Transaction beginTransaction(final WriteOptions writeOptions, final TransactionOptions transactionOptions, final Transaction oldTransaction) { final long jtxn_handle = beginTransaction_withOld(nativeHandle_, writeOptions.nativeHandle_, transactionOptions.nativeHandle_, oldTransaction.nativeHandle_); // RocksJava relies on the assumption that // we do not allocate a new Transaction object // when providing an old_txn assert(jtxn_handle == oldTransaction.nativeHandle_); return oldTransaction; } public Transaction getTransactionByName(final String transactionName) { final long jtxnHandle = getTransactionByName(nativeHandle_, transactionName); if(jtxnHandle == 0) { return null; } final Transaction txn = new Transaction(this, jtxnHandle); // this instance doesn't own the underlying C++ object txn.disOwnNativeHandle(); return txn; } public List getAllPreparedTransactions() { final long[] jtxnHandles = getAllPreparedTransactions(nativeHandle_); final List txns = new ArrayList<>(); for(final long jtxnHandle : jtxnHandles) { final Transaction txn = new Transaction(this, jtxnHandle); // this instance doesn't own the underlying C++ object txn.disOwnNativeHandle(); txns.add(txn); } return txns; } public static class KeyLockInfo { private final String key; private final long[] transactionIDs; private final boolean exclusive; public KeyLockInfo(final String key, final long transactionIDs[], final boolean exclusive) { this.key = key; this.transactionIDs = transactionIDs; this.exclusive = exclusive; } /** * Get the key. * * @return the key */ public String getKey() { return key; } /** * Get the Transaction IDs. * * @return the Transaction IDs. */ public long[] getTransactionIDs() { return transactionIDs; } /** * Get the Lock status. * * @return true if the lock is exclusive, false if the lock is shared. */ public boolean isExclusive() { return exclusive; } } /** * Returns map of all locks held. * * @return a map of all the locks held. */ public Map getLockStatusData() { return getLockStatusData(nativeHandle_); } /** * Called from C++ native method {@link #getDeadlockInfoBuffer(long)} * to construct a DeadlockInfo object. * * @param transactionID The transaction id * @param columnFamilyId The id of the {@link ColumnFamilyHandle} * @param waitingKey the key that we are waiting on * @param exclusive true if the lock is exclusive, false if the lock is shared * * @return The waiting transactions */ private DeadlockInfo newDeadlockInfo( final long transactionID, final long columnFamilyId, final String waitingKey, final boolean exclusive) { return new DeadlockInfo(transactionID, columnFamilyId, waitingKey, exclusive); } public static class DeadlockInfo { private final long transactionID; private final long columnFamilyId; private final String waitingKey; private final boolean exclusive; private DeadlockInfo(final long transactionID, final long columnFamilyId, final String waitingKey, final boolean exclusive) { this.transactionID = transactionID; this.columnFamilyId = columnFamilyId; this.waitingKey = waitingKey; this.exclusive = exclusive; } /** * Get the Transaction ID. * * @return the transaction ID */ public long getTransactionID() { return transactionID; } /** * Get the Column Family ID. * * @return The column family ID */ public long getColumnFamilyId() { return columnFamilyId; } /** * Get the key that we are waiting on. * * @return the key that we are waiting on */ public String getWaitingKey() { return waitingKey; } /** * Get the Lock status. * * @return true if the lock is exclusive, false if the lock is shared. */ public boolean isExclusive() { return exclusive; } } public static class DeadlockPath { final DeadlockInfo[] path; final boolean limitExceeded; public DeadlockPath(final DeadlockInfo[] path, final boolean limitExceeded) { this.path = path; this.limitExceeded = limitExceeded; } public boolean isEmpty() { return path.length == 0 && !limitExceeded; } } public DeadlockPath[] getDeadlockInfoBuffer() { return getDeadlockInfoBuffer(nativeHandle_); } public void setDeadlockInfoBufferSize(final int targetSize) { setDeadlockInfoBufferSize(nativeHandle_, targetSize); } private void storeTransactionDbOptions( final TransactionDBOptions transactionDbOptions) { this.transactionDbOptions_ = transactionDbOptions; } private static native long open(final long optionsHandle, final long transactionDbOptionsHandle, final String path) throws RocksDBException; private static native long[] open(final long dbOptionsHandle, final long transactionDbOptionsHandle, final String path, final byte[][] columnFamilyNames, final long[] columnFamilyOptions); private native long beginTransaction(final long handle, final long writeOptionsHandle); private native long beginTransaction(final long handle, final long writeOptionsHandle, final long transactionOptionsHandle); private native long beginTransaction_withOld(final long handle, final long writeOptionsHandle, final long oldTransactionHandle); private native long beginTransaction_withOld(final long handle, final long writeOptionsHandle, final long transactionOptionsHandle, final long oldTransactionHandle); private native long getTransactionByName(final long handle, final String name); private native long[] getAllPreparedTransactions(final long handle); private native Map getLockStatusData( final long handle); private native DeadlockPath[] getDeadlockInfoBuffer(final long handle); private native void setDeadlockInfoBufferSize(final long handle, final int targetSize); @Override protected final native void disposeInternal(final long handle); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/TransactionDBOptions.java000066400000000000000000000171761337235545400257710ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; public class TransactionDBOptions extends RocksObject { public TransactionDBOptions() { super(newTransactionDBOptions()); } /** * Specifies the maximum number of keys that can be locked at the same time * per column family. * * If the number of locked keys is greater than {@link #getMaxNumLocks()}, * transaction writes (or GetForUpdate) will return an error. * * @return The maximum number of keys that can be locked */ public long getMaxNumLocks() { assert(isOwningHandle()); return getMaxNumLocks(nativeHandle_); } /** * Specifies the maximum number of keys that can be locked at the same time * per column family. * * If the number of locked keys is greater than {@link #getMaxNumLocks()}, * transaction writes (or GetForUpdate) will return an error. * * @param maxNumLocks The maximum number of keys that can be locked; * If this value is not positive, no limit will be enforced. * * @return this TransactionDBOptions instance */ public TransactionDBOptions setMaxNumLocks(final long maxNumLocks) { assert(isOwningHandle()); setMaxNumLocks(nativeHandle_, maxNumLocks); return this; } /** * The number of sub-tables per lock table (per column family) * * @return The number of sub-tables */ public long getNumStripes() { assert(isOwningHandle()); return getNumStripes(nativeHandle_); } /** * Increasing this value will increase the concurrency by dividing the lock * table (per column family) into more sub-tables, each with their own * separate mutex. * * Default: 16 * * @param numStripes The number of sub-tables * * @return this TransactionDBOptions instance */ public TransactionDBOptions setNumStripes(final long numStripes) { assert(isOwningHandle()); setNumStripes(nativeHandle_, numStripes); return this; } /** * The default wait timeout in milliseconds when * a transaction attempts to lock a key if not specified by * {@link TransactionOptions#setLockTimeout(long)} * * If 0, no waiting is done if a lock cannot instantly be acquired. * If negative, there is no timeout. * * @return the default wait timeout in milliseconds */ public long getTransactionLockTimeout() { assert(isOwningHandle()); return getTransactionLockTimeout(nativeHandle_); } /** * If positive, specifies the default wait timeout in milliseconds when * a transaction attempts to lock a key if not specified by * {@link TransactionOptions#setLockTimeout(long)} * * If 0, no waiting is done if a lock cannot instantly be acquired. * If negative, there is no timeout. Not using a timeout is not recommended * as it can lead to deadlocks. Currently, there is no deadlock-detection to * recover from a deadlock. * * Default: 1000 * * @param transactionLockTimeout the default wait timeout in milliseconds * * @return this TransactionDBOptions instance */ public TransactionDBOptions setTransactionLockTimeout( final long transactionLockTimeout) { assert(isOwningHandle()); setTransactionLockTimeout(nativeHandle_, transactionLockTimeout); return this; } /** * The wait timeout in milliseconds when writing a key * OUTSIDE of a transaction (ie by calling {@link RocksDB#put}, * {@link RocksDB#merge}, {@link RocksDB#remove} or {@link RocksDB#write} * directly). * * If 0, no waiting is done if a lock cannot instantly be acquired. * If negative, there is no timeout and will block indefinitely when acquiring * a lock. * * @return the timeout in milliseconds when writing a key OUTSIDE of a * transaction */ public long getDefaultLockTimeout() { assert(isOwningHandle()); return getDefaultLockTimeout(nativeHandle_); } /** * If positive, specifies the wait timeout in milliseconds when writing a key * OUTSIDE of a transaction (ie by calling {@link RocksDB#put}, * {@link RocksDB#merge}, {@link RocksDB#remove} or {@link RocksDB#write} * directly). * * If 0, no waiting is done if a lock cannot instantly be acquired. * If negative, there is no timeout and will block indefinitely when acquiring * a lock. * * Not using a timeout can lead to deadlocks. Currently, there * is no deadlock-detection to recover from a deadlock. While DB writes * cannot deadlock with other DB writes, they can deadlock with a transaction. * A negative timeout should only be used if all transactions have a small * expiration set. * * Default: 1000 * * @param defaultLockTimeout the timeout in milliseconds when writing a key * OUTSIDE of a transaction * @return this TransactionDBOptions instance */ public TransactionDBOptions setDefaultLockTimeout( final long defaultLockTimeout) { assert(isOwningHandle()); setDefaultLockTimeout(nativeHandle_, defaultLockTimeout); return this; } // /** // * If set, the {@link TransactionDB} will use this implementation of a mutex // * and condition variable for all transaction locking instead of the default // * mutex/condvar implementation. // * // * @param transactionDbMutexFactory the mutex factory for the transactions // * // * @return this TransactionDBOptions instance // */ // public TransactionDBOptions setCustomMutexFactory( // final TransactionDBMutexFactory transactionDbMutexFactory) { // // } /** * The policy for when to write the data into the DB. The default policy is to * write only the committed data {@link TxnDBWritePolicy#WRITE_COMMITTED}. * The data could be written before the commit phase. The DB then needs to * provide the mechanisms to tell apart committed from uncommitted data. * * @return The write policy. */ public TxnDBWritePolicy getWritePolicy() { assert(isOwningHandle()); return TxnDBWritePolicy.getTxnDBWritePolicy(getWritePolicy(nativeHandle_)); } /** * The policy for when to write the data into the DB. The default policy is to * write only the committed data {@link TxnDBWritePolicy#WRITE_COMMITTED}. * The data could be written before the commit phase. The DB then needs to * provide the mechanisms to tell apart committed from uncommitted data. * * @param writePolicy The write policy. * * @return this TransactionDBOptions instance */ public TransactionDBOptions setWritePolicy( final TxnDBWritePolicy writePolicy) { assert(isOwningHandle()); setWritePolicy(nativeHandle_, writePolicy.getValue()); return this; } private native static long newTransactionDBOptions(); private native long getMaxNumLocks(final long handle); private native void setMaxNumLocks(final long handle, final long maxNumLocks); private native long getNumStripes(final long handle); private native void setNumStripes(final long handle, final long numStripes); private native long getTransactionLockTimeout(final long handle); private native void setTransactionLockTimeout(final long handle, final long transactionLockTimeout); private native long getDefaultLockTimeout(final long handle); private native void setDefaultLockTimeout(final long handle, final long transactionLockTimeout); private native byte getWritePolicy(final long handle); private native void setWritePolicy(final long handle, final byte writePolicy); @Override protected final native void disposeInternal(final long handle); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/TransactionLogIterator.java000066400000000000000000000060171337235545400263530ustar00rootroot00000000000000package org.rocksdb; /** *

    A TransactionLogIterator is used to iterate over the transactions in a db. * One run of the iterator is continuous, i.e. the iterator will stop at the * beginning of any gap in sequences.

    */ public class TransactionLogIterator extends RocksObject { /** *

    An iterator is either positioned at a WriteBatch * or not valid. This method returns true if the iterator * is valid. Can read data from a valid iterator.

    * * @return true if iterator position is valid. */ public boolean isValid() { return isValid(nativeHandle_); } /** *

    Moves the iterator to the next WriteBatch. * REQUIRES: Valid() to be true.

    */ public void next() { next(nativeHandle_); } /** *

    Throws RocksDBException if something went wrong.

    * * @throws org.rocksdb.RocksDBException if something went * wrong in the underlying C++ code. */ public void status() throws RocksDBException { status(nativeHandle_); } /** *

    If iterator position is valid, return the current * write_batch and the sequence number of the earliest * transaction contained in the batch.

    * *

    ONLY use if Valid() is true and status() is OK.

    * * @return {@link org.rocksdb.TransactionLogIterator.BatchResult} * instance. */ public BatchResult getBatch() { assert(isValid()); return getBatch(nativeHandle_); } /** *

    TransactionLogIterator constructor.

    * * @param nativeHandle address to native address. */ TransactionLogIterator(final long nativeHandle) { super(nativeHandle); } /** *

    BatchResult represents a data structure returned * by a TransactionLogIterator containing a sequence * number and a {@link WriteBatch} instance.

    */ public static final class BatchResult { /** *

    Constructor of BatchResult class.

    * * @param sequenceNumber related to this BatchResult instance. * @param nativeHandle to {@link org.rocksdb.WriteBatch} * native instance. */ public BatchResult(final long sequenceNumber, final long nativeHandle) { sequenceNumber_ = sequenceNumber; writeBatch_ = new WriteBatch(nativeHandle, true); } /** *

    Return sequence number related to this BatchResult.

    * * @return Sequence number. */ public long sequenceNumber() { return sequenceNumber_; } /** *

    Return contained {@link org.rocksdb.WriteBatch} * instance

    * * @return {@link org.rocksdb.WriteBatch} instance. */ public WriteBatch writeBatch() { return writeBatch_; } private final long sequenceNumber_; private final WriteBatch writeBatch_; } @Override protected final native void disposeInternal(final long handle); private native boolean isValid(long handle); private native void next(long handle); private native void status(long handle) throws RocksDBException; private native BatchResult getBatch(long handle); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/TransactionOptions.java000066400000000000000000000142171337235545400255540ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; public class TransactionOptions extends RocksObject implements TransactionalOptions { public TransactionOptions() { super(newTransactionOptions()); } @Override public boolean isSetSnapshot() { assert(isOwningHandle()); return isSetSnapshot(nativeHandle_); } @Override public TransactionOptions setSetSnapshot(final boolean setSnapshot) { assert(isOwningHandle()); setSetSnapshot(nativeHandle_, setSnapshot); return this; } /** * True means that before acquiring locks, this transaction will * check if doing so will cause a deadlock. If so, it will return with * {@link Status.Code#Busy}. The user should retry their transaction. * * @return true if a deadlock is detected. */ public boolean isDeadlockDetect() { assert(isOwningHandle()); return isDeadlockDetect(nativeHandle_); } /** * Setting to true means that before acquiring locks, this transaction will * check if doing so will cause a deadlock. If so, it will return with * {@link Status.Code#Busy}. The user should retry their transaction. * * @param deadlockDetect true if we should detect deadlocks. * * @return this TransactionOptions instance */ public TransactionOptions setDeadlockDetect(final boolean deadlockDetect) { assert(isOwningHandle()); setDeadlockDetect(nativeHandle_, deadlockDetect); return this; } /** * The wait timeout in milliseconds when a transaction attempts to lock a key. * * If 0, no waiting is done if a lock cannot instantly be acquired. * If negative, {@link TransactionDBOptions#getTransactionLockTimeout(long)} * will be used * * @return the lock timeout in milliseconds */ public long getLockTimeout() { assert(isOwningHandle()); return getLockTimeout(nativeHandle_); } /** * If positive, specifies the wait timeout in milliseconds when * a transaction attempts to lock a key. * * If 0, no waiting is done if a lock cannot instantly be acquired. * If negative, {@link TransactionDBOptions#getTransactionLockTimeout(long)} * will be used * * Default: -1 * * @param lockTimeout the lock timeout in milliseconds * * @return this TransactionOptions instance */ public TransactionOptions setLockTimeout(final long lockTimeout) { assert(isOwningHandle()); setLockTimeout(nativeHandle_, lockTimeout); return this; } /** * Expiration duration in milliseconds. * * If non-negative, transactions that last longer than this many milliseconds * will fail to commit. If not set, a forgotten transaction that is never * committed, rolled back, or deleted will never relinquish any locks it * holds. This could prevent keys from being written by other writers. * * @return expiration the expiration duration in milliseconds */ public long getExpiration() { assert(isOwningHandle()); return getExpiration(nativeHandle_); } /** * Expiration duration in milliseconds. * * If non-negative, transactions that last longer than this many milliseconds * will fail to commit. If not set, a forgotten transaction that is never * committed, rolled back, or deleted will never relinquish any locks it * holds. This could prevent keys from being written by other writers. * * Default: -1 * * @param expiration the expiration duration in milliseconds * * @return this TransactionOptions instance */ public TransactionOptions setExpiration(final long expiration) { assert(isOwningHandle()); setExpiration(nativeHandle_, expiration); return this; } /** * Gets the number of traversals to make during deadlock detection. * * @return the number of traversals to make during * deadlock detection */ public long getDeadlockDetectDepth() { return getDeadlockDetectDepth(nativeHandle_); } /** * Sets the number of traversals to make during deadlock detection. * * Default: 50 * * @param deadlockDetectDepth the number of traversals to make during * deadlock detection * * @return this TransactionOptions instance */ public TransactionOptions setDeadlockDetectDepth( final long deadlockDetectDepth) { setDeadlockDetectDepth(nativeHandle_, deadlockDetectDepth); return this; } /** * Get the maximum number of bytes that may be used for the write batch. * * @return the maximum number of bytes, 0 means no limit. */ public long getMaxWriteBatchSize() { return getMaxWriteBatchSize(nativeHandle_); } /** * Set the maximum number of bytes that may be used for the write batch. * * @param maxWriteBatchSize the maximum number of bytes, 0 means no limit. * * @return this TransactionOptions instance */ public TransactionOptions setMaxWriteBatchSize(final long maxWriteBatchSize) { setMaxWriteBatchSize(nativeHandle_, maxWriteBatchSize); return this; } private native static long newTransactionOptions(); private native boolean isSetSnapshot(final long handle); private native void setSetSnapshot(final long handle, final boolean setSnapshot); private native boolean isDeadlockDetect(final long handle); private native void setDeadlockDetect(final long handle, final boolean deadlockDetect); private native long getLockTimeout(final long handle); private native void setLockTimeout(final long handle, final long lockTimeout); private native long getExpiration(final long handle); private native void setExpiration(final long handle, final long expiration); private native long getDeadlockDetectDepth(final long handle); private native void setDeadlockDetectDepth(final long handle, final long deadlockDetectDepth); private native long getMaxWriteBatchSize(final long handle); private native void setMaxWriteBatchSize(final long handle, final long maxWriteBatchSize); @Override protected final native void disposeInternal(final long handle); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/TransactionalDB.java000066400000000000000000000046651337235545400247310ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; interface TransactionalDB extends AutoCloseable { /** * Starts a new Transaction. * * Caller is responsible for calling {@link #close()} on the returned * transaction when it is no longer needed. * * @param writeOptions Any write options for the transaction * @return a new transaction */ Transaction beginTransaction(final WriteOptions writeOptions); /** * Starts a new Transaction. * * Caller is responsible for calling {@link #close()} on the returned * transaction when it is no longer needed. * * @param writeOptions Any write options for the transaction * @param transactionOptions Any options for the transaction * @return a new transaction */ Transaction beginTransaction(final WriteOptions writeOptions, final T transactionOptions); /** * Starts a new Transaction. * * Caller is responsible for calling {@link #close()} on the returned * transaction when it is no longer needed. * * @param writeOptions Any write options for the transaction * @param oldTransaction this Transaction will be reused instead of allocating * a new one. This is an optimization to avoid extra allocations * when repeatedly creating transactions. * @return The oldTransaction which has been reinitialized as a new * transaction */ Transaction beginTransaction(final WriteOptions writeOptions, final Transaction oldTransaction); /** * Starts a new Transaction. * * Caller is responsible for calling {@link #close()} on the returned * transaction when it is no longer needed. * * @param writeOptions Any write options for the transaction * @param transactionOptions Any options for the transaction * @param oldTransaction this Transaction will be reused instead of allocating * a new one. This is an optimization to avoid extra allocations * when repeatedly creating transactions. * @return The oldTransaction which has been reinitialized as a new * transaction */ Transaction beginTransaction(final WriteOptions writeOptions, final T transactionOptions, final Transaction oldTransaction); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/TransactionalOptions.java000066400000000000000000000016271337235545400260720ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; interface TransactionalOptions extends AutoCloseable { /** * True indicates snapshots will be set, just like if * {@link Transaction#setSnapshot()} had been called * * @return whether a snapshot will be set */ boolean isSetSnapshot(); /** * Setting the setSnapshot to true is the same as calling * {@link Transaction#setSnapshot()}. * * Default: false * * @param The type of transactional options. * @param setSnapshot Whether to set a snapshot * * @return this TransactionalOptions instance */ T setSetSnapshot(final boolean setSnapshot); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/TtlDB.java000066400000000000000000000172301337235545400226620ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import java.util.List; /** * Database with TTL support. * *

    Use case

    *

    This API should be used to open the db when key-values inserted are * meant to be removed from the db in a non-strict 'ttl' amount of time * Therefore, this guarantees that key-values inserted will remain in the * db for >= ttl amount of time and the db will make efforts to remove the * key-values as soon as possible after ttl seconds of their insertion. *

    * *

    Behaviour

    *

    TTL is accepted in seconds * (int32_t)Timestamp(creation) is suffixed to values in Put internally * Expired TTL values deleted in compaction only:(Timestamp+ttl<time_now) * Get/Iterator may return expired entries(compaction not run on them yet) * Different TTL may be used during different Opens *

    * *

    Example

    *
      *
    • Open1 at t=0 with ttl=4 and insert k1,k2, close at t=2
      • *
    • Open2 at t=3 with ttl=5. Now k1,k2 should be deleted at t>=5
      • *
    * *

    * read_only=true opens in the usual read-only mode. Compactions will not be * triggered(neither manual nor automatic), so no expired entries removed *

    * *

    Constraints

    *

    Not specifying/passing or non-positive TTL behaves * like TTL = infinity

    * *

    !!!WARNING!!!

    *

    Calling DB::Open directly to re-open a db created by this API will get * corrupt values(timestamp suffixed) and no ttl effect will be there * during the second Open, so use this API consistently to open the db * Be careful when passing ttl with a small positive value because the * whole database may be deleted in a small amount of time.

    */ public class TtlDB extends RocksDB { /** *

    Opens a TtlDB.

    * *

    Database is opened in read-write mode without default TTL.

    * * @param options {@link org.rocksdb.Options} instance. * @param db_path path to database. * * @return TtlDB instance. * * @throws RocksDBException thrown if an error occurs within the native * part of the library. */ public static TtlDB open(final Options options, final String db_path) throws RocksDBException { return open(options, db_path, 0, false); } /** *

    Opens a TtlDB.

    * * @param options {@link org.rocksdb.Options} instance. * @param db_path path to database. * @param ttl time to live for new entries. * @param readOnly boolean value indicating if database if db is * opened read-only. * * @return TtlDB instance. * * @throws RocksDBException thrown if an error occurs within the native * part of the library. */ public static TtlDB open(final Options options, final String db_path, final int ttl, final boolean readOnly) throws RocksDBException { return new TtlDB(open(options.nativeHandle_, db_path, ttl, readOnly)); } /** *

    Opens a TtlDB.

    * * @param options {@link org.rocksdb.Options} instance. * @param db_path path to database. * @param columnFamilyDescriptors list of column family descriptors * @param columnFamilyHandles will be filled with ColumnFamilyHandle instances * on open. * @param ttlValues time to live values per column family handle * @param readOnly boolean value indicating if database if db is * opened read-only. * * @return TtlDB instance. * * @throws RocksDBException thrown if an error occurs within the native * part of the library. * @throws java.lang.IllegalArgumentException when there is not a ttl value * per given column family handle. */ public static TtlDB open(final DBOptions options, final String db_path, final List columnFamilyDescriptors, final List columnFamilyHandles, final List ttlValues, final boolean readOnly) throws RocksDBException { if (columnFamilyDescriptors.size() != ttlValues.size()) { throw new IllegalArgumentException("There must be a ttl value per column" + "family handle."); } final byte[][] cfNames = new byte[columnFamilyDescriptors.size()][]; final long[] cfOptionHandles = new long[columnFamilyDescriptors.size()]; for (int i = 0; i < columnFamilyDescriptors.size(); i++) { final ColumnFamilyDescriptor cfDescriptor = columnFamilyDescriptors.get(i); cfNames[i] = cfDescriptor.columnFamilyName(); cfOptionHandles[i] = cfDescriptor.columnFamilyOptions().nativeHandle_; } final int ttlVals[] = new int[ttlValues.size()]; for(int i = 0; i < ttlValues.size(); i++) { ttlVals[i] = ttlValues.get(i); } final long[] handles = openCF(options.nativeHandle_, db_path, cfNames, cfOptionHandles, ttlVals, readOnly); final TtlDB ttlDB = new TtlDB(handles[0]); for (int i = 1; i < handles.length; i++) { columnFamilyHandles.add(new ColumnFamilyHandle(ttlDB, handles[i])); } return ttlDB; } /** *

    Creates a new ttl based column family with a name defined * in given ColumnFamilyDescriptor and allocates a * ColumnFamilyHandle within an internal structure.

    * *

    The ColumnFamilyHandle is automatically disposed with DB * disposal.

    * * @param columnFamilyDescriptor column family to be created. * @param ttl TTL to set for this column family. * * @return {@link org.rocksdb.ColumnFamilyHandle} instance. * * @throws RocksDBException thrown if error happens in underlying * native library. */ public ColumnFamilyHandle createColumnFamilyWithTtl( final ColumnFamilyDescriptor columnFamilyDescriptor, final int ttl) throws RocksDBException { return new ColumnFamilyHandle(this, createColumnFamilyWithTtl(nativeHandle_, columnFamilyDescriptor.columnFamilyName(), columnFamilyDescriptor.columnFamilyOptions().nativeHandle_, ttl)); } /** *

    Close the TtlDB instance and release resource.

    * *

    Internally, TtlDB owns the {@code rocksdb::DB} pointer * to its associated {@link org.rocksdb.RocksDB}. The release * of that RocksDB pointer is handled in the destructor of the * c++ {@code rocksdb::TtlDB} and should be transparent to * Java developers.

    */ @Override public void close() { super.close(); } /** *

    A protected constructor that will be used in the static * factory method * {@link #open(Options, String, int, boolean)} * and * {@link #open(DBOptions, String, java.util.List, java.util.List, * java.util.List, boolean)}. *

    * * @param nativeHandle The native handle of the C++ TtlDB object */ protected TtlDB(final long nativeHandle) { super(nativeHandle); } @Override protected void finalize() throws Throwable { close(); //TODO(AR) revisit here when implementing AutoCloseable super.finalize(); } private native static long open(final long optionsHandle, final String db_path, final int ttl, final boolean readOnly) throws RocksDBException; private native static long[] openCF(final long optionsHandle, final String db_path, final byte[][] columnFamilyNames, final long[] columnFamilyOptions, final int[] ttlValues, final boolean readOnly) throws RocksDBException; private native long createColumnFamilyWithTtl(final long handle, final byte[] columnFamilyName, final long columnFamilyOptions, int ttl) throws RocksDBException; } rocksdb-5.17.2/java/src/main/java/org/rocksdb/TxnDBWritePolicy.java000066400000000000000000000030571337235545400250650ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * The transaction db write policy. */ public enum TxnDBWritePolicy { /** * Write only the committed data. */ WRITE_COMMITTED((byte)0x00), /** * Write data after the prepare phase of 2pc. */ WRITE_PREPARED((byte)0x1), /** * Write data before the prepare phase of 2pc. */ WRITE_UNPREPARED((byte)0x2); private byte value; TxnDBWritePolicy(final byte value) { this.value = value; } /** *

    Returns the byte value of the enumerations value.

    * * @return byte representation */ public byte getValue() { return value; } /** *

    Get the TxnDBWritePolicy enumeration value by * passing the byte identifier to this method.

    * * @param byteIdentifier of TxnDBWritePolicy. * * @return TxnDBWritePolicy instance. * * @throws IllegalArgumentException If TxnDBWritePolicy cannot be found for * the provided byteIdentifier */ public static TxnDBWritePolicy getTxnDBWritePolicy(final byte byteIdentifier) { for (final TxnDBWritePolicy txnDBWritePolicy : TxnDBWritePolicy.values()) { if (txnDBWritePolicy.getValue() == byteIdentifier) { return txnDBWritePolicy; } } throw new IllegalArgumentException( "Illegal value provided for TxnDBWritePolicy."); } } rocksdb-5.17.2/java/src/main/java/org/rocksdb/VectorMemTableConfig.java000066400000000000000000000021561337235545400257110ustar00rootroot00000000000000package org.rocksdb; /** * The config for vector memtable representation. */ public class VectorMemTableConfig extends MemTableConfig { public static final int DEFAULT_RESERVED_SIZE = 0; /** * VectorMemTableConfig constructor */ public VectorMemTableConfig() { reservedSize_ = DEFAULT_RESERVED_SIZE; } /** * Set the initial size of the vector that will be used * by the memtable created based on this config. * * @param size the initial size of the vector. * @return the reference to the current config. */ public VectorMemTableConfig setReservedSize(final int size) { reservedSize_ = size; return this; } /** * Returns the initial size of the vector used by the memtable * created based on this config. * * @return the initial size of the vector. */ public int reservedSize() { return reservedSize_; } @Override protected long newMemTableFactoryHandle() { return newMemTableFactoryHandle(reservedSize_); } private native long newMemTableFactoryHandle(long reservedSize) throws IllegalArgumentException; private int reservedSize_; } rocksdb-5.17.2/java/src/main/java/org/rocksdb/WALRecoveryMode.java000066400000000000000000000044461337235545400246650ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * The WAL Recover Mode */ public enum WALRecoveryMode { /** * Original levelDB recovery * * We tolerate incomplete record in trailing data on all logs * Use case : This is legacy behavior (default) */ TolerateCorruptedTailRecords((byte)0x00), /** * Recover from clean shutdown * * We don't expect to find any corruption in the WAL * Use case : This is ideal for unit tests and rare applications that * can require high consistency guarantee */ AbsoluteConsistency((byte)0x01), /** * Recover to point-in-time consistency * We stop the WAL playback on discovering WAL inconsistency * Use case : Ideal for systems that have disk controller cache like * hard disk, SSD without super capacitor that store related data */ PointInTimeRecovery((byte)0x02), /** * Recovery after a disaster * We ignore any corruption in the WAL and try to salvage as much data as * possible * Use case : Ideal for last ditch effort to recover data or systems that * operate with low grade unrelated data */ SkipAnyCorruptedRecords((byte)0x03); private byte value; WALRecoveryMode(final byte value) { this.value = value; } /** *

    Returns the byte value of the enumerations value.

    * * @return byte representation */ public byte getValue() { return value; } /** *

    Get the WALRecoveryMode enumeration value by * passing the byte identifier to this method.

    * * @param byteIdentifier of WALRecoveryMode. * * @return WALRecoveryMode instance. * * @throws IllegalArgumentException If WALRecoveryMode cannot be found for the * provided byteIdentifier */ public static WALRecoveryMode getWALRecoveryMode(final byte byteIdentifier) { for (final WALRecoveryMode walRecoveryMode : WALRecoveryMode.values()) { if (walRecoveryMode.getValue() == byteIdentifier) { return walRecoveryMode; } } throw new IllegalArgumentException( "Illegal value provided for WALRecoveryMode."); } } rocksdb-5.17.2/java/src/main/java/org/rocksdb/WBWIRocksIterator.java000066400000000000000000000122561337235545400252000ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; public class WBWIRocksIterator extends AbstractRocksIterator { private final WriteEntry entry = new WriteEntry(); protected WBWIRocksIterator(final WriteBatchWithIndex wbwi, final long nativeHandle) { super(wbwi, nativeHandle); } /** * Get the current entry * * The WriteEntry is only valid * until the iterator is repositioned. * If you want to keep the WriteEntry across iterator * movements, you must make a copy of its data! * * Note - This method is not thread-safe with respect to the WriteEntry * as it performs a non-atomic update across the fields of the WriteEntry * * @return The WriteEntry of the current entry */ public WriteEntry entry() { assert(isOwningHandle()); final long ptrs[] = entry1(nativeHandle_); entry.type = WriteType.fromId((byte)ptrs[0]); entry.key.resetNativeHandle(ptrs[1], ptrs[1] != 0); entry.value.resetNativeHandle(ptrs[2], ptrs[2] != 0); return entry; } @Override protected final native void disposeInternal(final long handle); @Override final native boolean isValid0(long handle); @Override final native void seekToFirst0(long handle); @Override final native void seekToLast0(long handle); @Override final native void next0(long handle); @Override final native void prev0(long handle); @Override final native void seek0(long handle, byte[] target, int targetLen); @Override final native void seekForPrev0(long handle, byte[] target, int targetLen); @Override final native void status0(long handle) throws RocksDBException; private native long[] entry1(final long handle); /** * Enumeration of the Write operation * that created the record in the Write Batch */ public enum WriteType { PUT((byte)0x0), MERGE((byte)0x1), DELETE((byte)0x2), SINGLE_DELETE((byte)0x3), DELETE_RANGE((byte)0x4), LOG((byte)0x5), XID((byte)0x6); final byte id; WriteType(final byte id) { this.id = id; } public static WriteType fromId(final byte id) { for(final WriteType wt : WriteType.values()) { if(id == wt.id) { return wt; } } throw new IllegalArgumentException("No WriteType with id=" + id); } } @Override public void close() { entry.close(); super.close(); } /** * Represents an entry returned by * {@link org.rocksdb.WBWIRocksIterator#entry()} * * It is worth noting that a WriteEntry with * the type {@link org.rocksdb.WBWIRocksIterator.WriteType#DELETE} * or {@link org.rocksdb.WBWIRocksIterator.WriteType#LOG} * will not have a value. */ public static class WriteEntry implements AutoCloseable { WriteType type = null; final DirectSlice key; final DirectSlice value; /** * Intentionally private as this * should only be instantiated in * this manner by the outer WBWIRocksIterator * class; The class members are then modified * by calling {@link org.rocksdb.WBWIRocksIterator#entry()} */ private WriteEntry() { key = new DirectSlice(); value = new DirectSlice(); } public WriteEntry(final WriteType type, final DirectSlice key, final DirectSlice value) { this.type = type; this.key = key; this.value = value; } /** * Returns the type of the Write Entry * * @return the WriteType of the WriteEntry */ public WriteType getType() { return type; } /** * Returns the key of the Write Entry * * @return The slice containing the key * of the WriteEntry */ public DirectSlice getKey() { return key; } /** * Returns the value of the Write Entry * * @return The slice containing the value of * the WriteEntry or null if the WriteEntry has * no value */ public DirectSlice getValue() { if(!value.isOwningHandle()) { return null; //TODO(AR) migrate to JDK8 java.util.Optional#empty() } else { return value; } } /** * Generates a hash code for the Write Entry. NOTE: The hash code is based * on the string representation of the key, so it may not work correctly * with exotic custom comparators. * * @return The hash code for the Write Entry */ @Override public int hashCode() { return (key == null) ? 0 : key.hashCode(); } @Override public boolean equals(final Object other) { if(other == null) { return false; } else if (this == other) { return true; } else if(other instanceof WriteEntry) { final WriteEntry otherWriteEntry = (WriteEntry)other; return type.equals(otherWriteEntry.type) && key.equals(otherWriteEntry.key) && value.equals(otherWriteEntry.value); } else { return false; } } @Override public void close() { value.close(); key.close(); } } } rocksdb-5.17.2/java/src/main/java/org/rocksdb/WriteBatch.java000066400000000000000000000303431337235545400237450ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * WriteBatch holds a collection of updates to apply atomically to a DB. * * The updates are applied in the order in which they are added * to the WriteBatch. For example, the value of "key" will be "v3" * after the following batch is written: * * batch.put("key", "v1"); * batch.remove("key"); * batch.put("key", "v2"); * batch.put("key", "v3"); * * Multiple threads can invoke const methods on a WriteBatch without * external synchronization, but if any of the threads may call a * non-const method, all threads accessing the same WriteBatch must use * external synchronization. */ public class WriteBatch extends AbstractWriteBatch { /** * Constructs a WriteBatch instance. */ public WriteBatch() { this(0); } /** * Constructs a WriteBatch instance with a given size. * * @param reserved_bytes reserved size for WriteBatch */ public WriteBatch(final int reserved_bytes) { super(newWriteBatch(reserved_bytes)); } /** * Constructs a WriteBatch instance from a serialized representation * as returned by {@link #data()}. * * @param serialized the serialized representation. */ public WriteBatch(final byte[] serialized) { super(newWriteBatch(serialized, serialized.length)); } /** * Support for iterating over the contents of a batch. * * @param handler A handler that is called back for each * update present in the batch * * @throws RocksDBException If we cannot iterate over the batch */ public void iterate(final Handler handler) throws RocksDBException { iterate(nativeHandle_, handler.nativeHandle_); } /** * Retrieve the serialized version of this batch. * * @return the serialized representation of this write batch. * * @throws RocksDBException if an error occurs whilst retrieving * the serialized batch data. */ public byte[] data() throws RocksDBException { return data(nativeHandle_); } /** * Retrieve data size of the batch. * * @return the serialized data size of the batch. */ public long getDataSize() { return getDataSize(nativeHandle_); } /** * Returns true if Put will be called during Iterate. * * @return true if Put will be called during Iterate. */ public boolean hasPut() { return hasPut(nativeHandle_); } /** * Returns true if Delete will be called during Iterate. * * @return true if Delete will be called during Iterate. */ public boolean hasDelete() { return hasDelete(nativeHandle_); } /** * Returns true if SingleDelete will be called during Iterate. * * @return true if SingleDelete will be called during Iterate. */ public boolean hasSingleDelete() { return hasSingleDelete(nativeHandle_); } /** * Returns true if DeleteRange will be called during Iterate. * * @return true if DeleteRange will be called during Iterate. */ public boolean hasDeleteRange() { return hasDeleteRange(nativeHandle_); } /** * Returns true if Merge will be called during Iterate. * * @return true if Merge will be called during Iterate. */ public boolean hasMerge() { return hasMerge(nativeHandle_); } /** * Returns true if MarkBeginPrepare will be called during Iterate. * * @return true if MarkBeginPrepare will be called during Iterate. */ public boolean hasBeginPrepare() { return hasBeginPrepare(nativeHandle_); } /** * Returns true if MarkEndPrepare will be called during Iterate. * * @return true if MarkEndPrepare will be called during Iterate. */ public boolean hasEndPrepare() { return hasEndPrepare(nativeHandle_); } /** * Returns true if MarkCommit will be called during Iterate. * * @return true if MarkCommit will be called during Iterate. */ public boolean hasCommit() { return hasCommit(nativeHandle_); } /** * Returns true if MarkRollback will be called during Iterate. * * @return true if MarkRollback will be called during Iterate. */ public boolean hasRollback() { return hasRollback(nativeHandle_); } @Override public WriteBatch getWriteBatch() { return this; } /** * Marks this point in the WriteBatch as the last record to * be inserted into the WAL, provided the WAL is enabled. */ public void markWalTerminationPoint() { markWalTerminationPoint(nativeHandle_); } /** * Gets the WAL termination point. * * See {@link #markWalTerminationPoint()} * * @return the WAL termination point */ public SavePoint getWalTerminationPoint() { return getWalTerminationPoint(nativeHandle_); } @Override WriteBatch getWriteBatch(final long handle) { return this; } /** *

    Private WriteBatch constructor which is used to construct * WriteBatch instances from C++ side. As the reference to this * object is also managed from C++ side the handle will be disowned.

    * * @param nativeHandle address of native instance. */ WriteBatch(final long nativeHandle) { this(nativeHandle, false); } /** *

    Private WriteBatch constructor which is used to construct * WriteBatch instances.

    * * @param nativeHandle address of native instance. * @param owningNativeHandle whether to own this reference from the C++ side or not */ WriteBatch(final long nativeHandle, final boolean owningNativeHandle) { super(nativeHandle); if(!owningNativeHandle) disOwnNativeHandle(); } @Override protected final native void disposeInternal(final long handle); @Override final native int count0(final long handle); @Override final native void put(final long handle, final byte[] key, final int keyLen, final byte[] value, final int valueLen); @Override final native void put(final long handle, final byte[] key, final int keyLen, final byte[] value, final int valueLen, final long cfHandle); @Override final native void merge(final long handle, final byte[] key, final int keyLen, final byte[] value, final int valueLen); @Override final native void merge(final long handle, final byte[] key, final int keyLen, final byte[] value, final int valueLen, final long cfHandle); @Override final native void delete(final long handle, final byte[] key, final int keyLen) throws RocksDBException; @Override final native void delete(final long handle, final byte[] key, final int keyLen, final long cfHandle) throws RocksDBException; @Override final native void singleDelete(final long handle, final byte[] key, final int keyLen) throws RocksDBException; @Override final native void singleDelete(final long handle, final byte[] key, final int keyLen, final long cfHandle) throws RocksDBException; @Override final native void deleteRange(final long handle, final byte[] beginKey, final int beginKeyLen, final byte[] endKey, final int endKeyLen); @Override final native void deleteRange(final long handle, final byte[] beginKey, final int beginKeyLen, final byte[] endKey, final int endKeyLen, final long cfHandle); @Override final native void putLogData(final long handle, final byte[] blob, final int blobLen) throws RocksDBException; @Override final native void clear0(final long handle); @Override final native void setSavePoint0(final long handle); @Override final native void rollbackToSavePoint0(final long handle); @Override final native void popSavePoint(final long handle) throws RocksDBException; @Override final native void setMaxBytes(final long nativeHandle, final long maxBytes); private native static long newWriteBatch(final int reserved_bytes); private native static long newWriteBatch(final byte[] serialized, final int serializedLength); private native void iterate(final long handle, final long handlerHandle) throws RocksDBException; private native byte[] data(final long nativeHandle) throws RocksDBException; private native long getDataSize(final long nativeHandle); private native boolean hasPut(final long nativeHandle); private native boolean hasDelete(final long nativeHandle); private native boolean hasSingleDelete(final long nativeHandle); private native boolean hasDeleteRange(final long nativeHandle); private native boolean hasMerge(final long nativeHandle); private native boolean hasBeginPrepare(final long nativeHandle); private native boolean hasEndPrepare(final long nativeHandle); private native boolean hasCommit(final long nativeHandle); private native boolean hasRollback(final long nativeHandle); private native void markWalTerminationPoint(final long nativeHandle); private native SavePoint getWalTerminationPoint(final long nativeHandle); /** * Handler callback for iterating over the contents of a batch. */ public static abstract class Handler extends RocksCallbackObject { public Handler() { super(null); } @Override protected long initializeNative(final long... nativeParameterHandles) { return createNewHandler0(); } public abstract void put(final int columnFamilyId, final byte[] key, final byte[] value) throws RocksDBException; public abstract void put(final byte[] key, final byte[] value); public abstract void merge(final int columnFamilyId, final byte[] key, final byte[] value) throws RocksDBException; public abstract void merge(final byte[] key, final byte[] value); public abstract void delete(final int columnFamilyId, final byte[] key) throws RocksDBException; public abstract void delete(final byte[] key); public abstract void singleDelete(final int columnFamilyId, final byte[] key) throws RocksDBException; public abstract void singleDelete(final byte[] key); public abstract void deleteRange(final int columnFamilyId, final byte[] beginKey, final byte[] endKey) throws RocksDBException; public abstract void deleteRange(final byte[] beginKey, final byte[] endKey); public abstract void logData(final byte[] blob); public abstract void putBlobIndex(final int columnFamilyId, final byte[] key, final byte[] value) throws RocksDBException; public abstract void markBeginPrepare() throws RocksDBException; public abstract void markEndPrepare(final byte[] xid) throws RocksDBException; public abstract void markNoop(final boolean emptyBatch) throws RocksDBException; public abstract void markRollback(final byte[] xid) throws RocksDBException; public abstract void markCommit(final byte[] xid) throws RocksDBException; /** * shouldContinue is called by the underlying iterator * {@link WriteBatch#iterate(Handler)}. If it returns false, * iteration is halted. Otherwise, it continues * iterating. The default implementation always * returns true. * * @return boolean value indicating if the * iteration is halted. */ public boolean shouldContinue() { return true; } private native long createNewHandler0(); } /** * A structure for describing the save point in the Write Batch. */ public static class SavePoint { private long size; private long count; private long contentFlags; public SavePoint(final long size, final long count, final long contentFlags) { this.size = size; this.count = count; this.contentFlags = contentFlags; } public void clear() { this.size = 0; this.count = 0; this.contentFlags = 0; } /** * Get the size of the serialized representation. * * @return the size of the serialized representation. */ public long getSize() { return size; } /** * Get the number of elements. * * @return the number of elements. */ public long getCount() { return count; } /** * Get the content flags. * * @return the content flags. */ public long getContentFlags() { return contentFlags; } public boolean isCleared() { return (size | count | contentFlags) == 0; } } } rocksdb-5.17.2/java/src/main/java/org/rocksdb/WriteBatchInterface.java000066400000000000000000000224241337235545400255670ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** *

    Defines the interface for a Write Batch which * holds a collection of updates to apply atomically to a DB.

    */ public interface WriteBatchInterface { /** * Returns the number of updates in the batch. * * @return number of items in WriteBatch */ int count(); /** *

    Store the mapping "key->value" in the database.

    * * @param key the specified key to be inserted. * @param value the value associated with the specified key. */ void put(byte[] key, byte[] value) throws RocksDBException; /** *

    Store the mapping "key->value" within given column * family.

    * * @param columnFamilyHandle {@link org.rocksdb.ColumnFamilyHandle} * instance * @param key the specified key to be inserted. * @param value the value associated with the specified key. */ void put(ColumnFamilyHandle columnFamilyHandle, byte[] key, byte[] value) throws RocksDBException; /** *

    Merge "value" with the existing value of "key" in the database. * "key->merge(existing, value)"

    * * @param key the specified key to be merged. * @param value the value to be merged with the current value for * the specified key. */ void merge(byte[] key, byte[] value) throws RocksDBException; /** *

    Merge "value" with the existing value of "key" in given column family. * "key->merge(existing, value)"

    * * @param columnFamilyHandle {@link ColumnFamilyHandle} instance * @param key the specified key to be merged. * @param value the value to be merged with the current value for * the specified key. */ void merge(ColumnFamilyHandle columnFamilyHandle, byte[] key, byte[] value) throws RocksDBException; /** *

    If the database contains a mapping for "key", erase it. Else do nothing.

    * * @param key Key to delete within database * * @deprecated Use {@link #delete(byte[])} */ @Deprecated void remove(byte[] key) throws RocksDBException; /** *

    If column family contains a mapping for "key", erase it. Else do nothing.

    * * @param columnFamilyHandle {@link ColumnFamilyHandle} instance * @param key Key to delete within database * * @deprecated Use {@link #delete(ColumnFamilyHandle, byte[])} */ @Deprecated void remove(ColumnFamilyHandle columnFamilyHandle, byte[] key) throws RocksDBException; /** *

    If the database contains a mapping for "key", erase it. Else do nothing.

    * * @param key Key to delete within database */ void delete(byte[] key) throws RocksDBException; /** *

    If column family contains a mapping for "key", erase it. Else do nothing.

    * * @param columnFamilyHandle {@link ColumnFamilyHandle} instance * @param key Key to delete within database */ void delete(ColumnFamilyHandle columnFamilyHandle, byte[] key) throws RocksDBException; /** * Remove the database entry for {@code key}. Requires that the key exists * and was not overwritten. It is not an error if the key did not exist * in the database. * * If a key is overwritten (by calling {@link #put(byte[], byte[])} multiple * times), then the result of calling SingleDelete() on this key is undefined. * SingleDelete() only behaves correctly if there has been only one Put() * for this key since the previous call to SingleDelete() for this key. * * This feature is currently an experimental performance optimization * for a very specific workload. It is up to the caller to ensure that * SingleDelete is only used for a key that is not deleted using Delete() or * written using Merge(). Mixing SingleDelete operations with Deletes and * Merges can result in undefined behavior. * * @param key Key to delete within database * * @throws RocksDBException thrown if error happens in underlying * native library. */ @Experimental("Performance optimization for a very specific workload") void singleDelete(final byte[] key) throws RocksDBException; /** * Remove the database entry for {@code key}. Requires that the key exists * and was not overwritten. It is not an error if the key did not exist * in the database. * * If a key is overwritten (by calling {@link #put(byte[], byte[])} multiple * times), then the result of calling SingleDelete() on this key is undefined. * SingleDelete() only behaves correctly if there has been only one Put() * for this key since the previous call to SingleDelete() for this key. * * This feature is currently an experimental performance optimization * for a very specific workload. It is up to the caller to ensure that * SingleDelete is only used for a key that is not deleted using Delete() or * written using Merge(). Mixing SingleDelete operations with Deletes and * Merges can result in undefined behavior. * * @param columnFamilyHandle The column family to delete the key from * @param key Key to delete within database * * @throws RocksDBException thrown if error happens in underlying * native library. */ @Experimental("Performance optimization for a very specific workload") void singleDelete(final ColumnFamilyHandle columnFamilyHandle, final byte[] key) throws RocksDBException; /** * Removes the database entries in the range ["beginKey", "endKey"), i.e., * including "beginKey" and excluding "endKey". a non-OK status on error. It * is not an error if no keys exist in the range ["beginKey", "endKey"). * * Delete the database entry (if any) for "key". Returns OK on success, and a * non-OK status on error. It is not an error if "key" did not exist in the * database. * * @param beginKey * First key to delete within database (included) * @param endKey * Last key to delete within database (excluded) */ void deleteRange(byte[] beginKey, byte[] endKey) throws RocksDBException; /** * Removes the database entries in the range ["beginKey", "endKey"), i.e., * including "beginKey" and excluding "endKey". a non-OK status on error. It * is not an error if no keys exist in the range ["beginKey", "endKey"). * * Delete the database entry (if any) for "key". Returns OK on success, and a * non-OK status on error. It is not an error if "key" did not exist in the * database. * * @param columnFamilyHandle {@link ColumnFamilyHandle} instance * @param beginKey * First key to delete within database (included) * @param endKey * Last key to delete within database (excluded) */ void deleteRange(ColumnFamilyHandle columnFamilyHandle, byte[] beginKey, byte[] endKey) throws RocksDBException; /** * Append a blob of arbitrary size to the records in this batch. The blob will * be stored in the transaction log but not in any other file. In particular, * it will not be persisted to the SST files. When iterating over this * WriteBatch, WriteBatch::Handler::LogData will be called with the contents * of the blob as it is encountered. Blobs, puts, deletes, and merges will be * encountered in the same order in thich they were inserted. The blob will * NOT consume sequence number(s) and will NOT increase the count of the batch * * Example application: add timestamps to the transaction log for use in * replication. * * @param blob binary object to be inserted */ void putLogData(byte[] blob) throws RocksDBException; /** * Clear all updates buffered in this batch */ void clear(); /** * Records the state of the batch for future calls to RollbackToSavePoint(). * May be called multiple times to set multiple save points. */ void setSavePoint(); /** * Remove all entries in this batch (Put, Merge, Delete, PutLogData) since * the most recent call to SetSavePoint() and removes the most recent save * point. * * @throws RocksDBException if there is no previous call to SetSavePoint() */ void rollbackToSavePoint() throws RocksDBException; /** * Pop the most recent save point. * * That is to say that it removes the last save point, * which was set by {@link #setSavePoint()}. * * @throws RocksDBException If there is no previous call to * {@link #setSavePoint()}, an exception with * {@link Status.Code#NotFound} will be thrown. */ void popSavePoint() throws RocksDBException; /** * Set the maximum size of the write batch. * * @param maxBytes the maximum size in bytes. */ void setMaxBytes(long maxBytes); /** * Get the underlying Write Batch. * * @return the underlying WriteBatch. */ WriteBatch getWriteBatch(); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/WriteBatchWithIndex.java000066400000000000000000000325171337235545400255760ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * Similar to {@link org.rocksdb.WriteBatch} but with a binary searchable * index built for all the keys inserted. * * Calling put, merge, remove or putLogData calls the same function * as with {@link org.rocksdb.WriteBatch} whilst also building an index. * * A user can call {@link org.rocksdb.WriteBatchWithIndex#newIterator()} to * create an iterator over the write batch or * {@link org.rocksdb.WriteBatchWithIndex#newIteratorWithBase(org.rocksdb.RocksIterator)} * to get an iterator for the database with Read-Your-Own-Writes like capability */ public class WriteBatchWithIndex extends AbstractWriteBatch { /** * Creates a WriteBatchWithIndex where no bytes * are reserved up-front, bytewise comparison is * used for fallback key comparisons, * and duplicate keys operations are retained */ public WriteBatchWithIndex() { super(newWriteBatchWithIndex()); } /** * Creates a WriteBatchWithIndex where no bytes * are reserved up-front, bytewise comparison is * used for fallback key comparisons, and duplicate key * assignment is determined by the constructor argument * * @param overwriteKey if true, overwrite the key in the index when * inserting a duplicate key, in this way an iterator will never * show two entries with the same key. */ public WriteBatchWithIndex(final boolean overwriteKey) { super(newWriteBatchWithIndex(overwriteKey)); } /** * Creates a WriteBatchWithIndex * * @param fallbackIndexComparator We fallback to this comparator * to compare keys within a column family if we cannot determine * the column family and so look up it's comparator. * * @param reservedBytes reserved bytes in underlying WriteBatch * * @param overwriteKey if true, overwrite the key in the index when * inserting a duplicate key, in this way an iterator will never * show two entries with the same key. */ public WriteBatchWithIndex( final AbstractComparator> fallbackIndexComparator, final int reservedBytes, final boolean overwriteKey) { super(newWriteBatchWithIndex(fallbackIndexComparator.nativeHandle_, fallbackIndexComparator.getComparatorType().getValue(), reservedBytes, overwriteKey)); } /** *

    Private WriteBatchWithIndex constructor which is used to construct * WriteBatchWithIndex instances from C++ side. As the reference to this * object is also managed from C++ side the handle will be disowned.

    * * @param nativeHandle address of native instance. */ WriteBatchWithIndex(final long nativeHandle) { super(nativeHandle); disOwnNativeHandle(); } /** * Create an iterator of a column family. User can call * {@link org.rocksdb.RocksIteratorInterface#seek(byte[])} to * search to the next entry of or after a key. Keys will be iterated in the * order given by index_comparator. For multiple updates on the same key, * each update will be returned as a separate entry, in the order of update * time. * * @param columnFamilyHandle The column family to iterate over * @return An iterator for the Write Batch contents, restricted to the column * family */ public WBWIRocksIterator newIterator( final ColumnFamilyHandle columnFamilyHandle) { return new WBWIRocksIterator(this, iterator1(nativeHandle_, columnFamilyHandle.nativeHandle_)); } /** * Create an iterator of the default column family. User can call * {@link org.rocksdb.RocksIteratorInterface#seek(byte[])} to * search to the next entry of or after a key. Keys will be iterated in the * order given by index_comparator. For multiple updates on the same key, * each update will be returned as a separate entry, in the order of update * time. * * @return An iterator for the Write Batch contents */ public WBWIRocksIterator newIterator() { return new WBWIRocksIterator(this, iterator0(nativeHandle_)); } /** * Provides Read-Your-Own-Writes like functionality by * creating a new Iterator that will use {@link org.rocksdb.WBWIRocksIterator} * as a delta and baseIterator as a base * * Updating write batch with the current key of the iterator is not safe. * We strongly recommand users not to do it. It will invalidate the current * key() and value() of the iterator. This invalidation happens even before * the write batch update finishes. The state may recover after Next() is * called. * * @param columnFamilyHandle The column family to iterate over * @param baseIterator The base iterator, * e.g. {@link org.rocksdb.RocksDB#newIterator()} * @return An iterator which shows a view comprised of both the database * point-in-time from baseIterator and modifications made in this write batch. */ public RocksIterator newIteratorWithBase( final ColumnFamilyHandle columnFamilyHandle, final RocksIterator baseIterator) { RocksIterator iterator = new RocksIterator( baseIterator.parent_, iteratorWithBase(nativeHandle_, columnFamilyHandle.nativeHandle_, baseIterator.nativeHandle_)); //when the iterator is deleted it will also delete the baseIterator baseIterator.disOwnNativeHandle(); return iterator; } /** * Provides Read-Your-Own-Writes like functionality by * creating a new Iterator that will use {@link org.rocksdb.WBWIRocksIterator} * as a delta and baseIterator as a base. Operates on the default column * family. * * @param baseIterator The base iterator, * e.g. {@link org.rocksdb.RocksDB#newIterator()} * @return An iterator which shows a view comprised of both the database * point-in-timefrom baseIterator and modifications made in this write batch. */ public RocksIterator newIteratorWithBase(final RocksIterator baseIterator) { return newIteratorWithBase(baseIterator.parent_.getDefaultColumnFamily(), baseIterator); } /** * Similar to {@link RocksDB#get(ColumnFamilyHandle, byte[])} but will only * read the key from this batch. * * @param columnFamilyHandle The column family to retrieve the value from * @param options The database options to use * @param key The key to read the value for * * @return a byte array storing the value associated with the input key if * any. null if it does not find the specified key. * * @throws RocksDBException if the batch does not have enough data to resolve * Merge operations, MergeInProgress status may be returned. */ public byte[] getFromBatch(final ColumnFamilyHandle columnFamilyHandle, final DBOptions options, final byte[] key) throws RocksDBException { return getFromBatch(nativeHandle_, options.nativeHandle_, key, key.length, columnFamilyHandle.nativeHandle_); } /** * Similar to {@link RocksDB#get(byte[])} but will only * read the key from this batch. * * @param options The database options to use * @param key The key to read the value for * * @return a byte array storing the value associated with the input key if * any. null if it does not find the specified key. * * @throws RocksDBException if the batch does not have enough data to resolve * Merge operations, MergeInProgress status may be returned. */ public byte[] getFromBatch(final DBOptions options, final byte[] key) throws RocksDBException { return getFromBatch(nativeHandle_, options.nativeHandle_, key, key.length); } /** * Similar to {@link RocksDB#get(ColumnFamilyHandle, byte[])} but will also * read writes from this batch. * * This function will query both this batch and the DB and then merge * the results using the DB's merge operator (if the batch contains any * merge requests). * * Setting {@link ReadOptions#setSnapshot(long, long)} will affect what is * read from the DB but will NOT change which keys are read from the batch * (the keys in this batch do not yet belong to any snapshot and will be * fetched regardless). * * @param db The Rocks database * @param columnFamilyHandle The column family to retrieve the value from * @param options The read options to use * @param key The key to read the value for * * @return a byte array storing the value associated with the input key if * any. null if it does not find the specified key. * * @throws RocksDBException if the value for the key cannot be read */ public byte[] getFromBatchAndDB(final RocksDB db, final ColumnFamilyHandle columnFamilyHandle, final ReadOptions options, final byte[] key) throws RocksDBException { return getFromBatchAndDB(nativeHandle_, db.nativeHandle_, options.nativeHandle_, key, key.length, columnFamilyHandle.nativeHandle_); } /** * Similar to {@link RocksDB#get(byte[])} but will also * read writes from this batch. * * This function will query both this batch and the DB and then merge * the results using the DB's merge operator (if the batch contains any * merge requests). * * Setting {@link ReadOptions#setSnapshot(long, long)} will affect what is * read from the DB but will NOT change which keys are read from the batch * (the keys in this batch do not yet belong to any snapshot and will be * fetched regardless). * * @param db The Rocks database * @param options The read options to use * @param key The key to read the value for * * @return a byte array storing the value associated with the input key if * any. null if it does not find the specified key. * * @throws RocksDBException if the value for the key cannot be read */ public byte[] getFromBatchAndDB(final RocksDB db, final ReadOptions options, final byte[] key) throws RocksDBException { return getFromBatchAndDB(nativeHandle_, db.nativeHandle_, options.nativeHandle_, key, key.length); } @Override protected final native void disposeInternal(final long handle); @Override final native int count0(final long handle); @Override final native void put(final long handle, final byte[] key, final int keyLen, final byte[] value, final int valueLen); @Override final native void put(final long handle, final byte[] key, final int keyLen, final byte[] value, final int valueLen, final long cfHandle); @Override final native void merge(final long handle, final byte[] key, final int keyLen, final byte[] value, final int valueLen); @Override final native void merge(final long handle, final byte[] key, final int keyLen, final byte[] value, final int valueLen, final long cfHandle); @Override final native void delete(final long handle, final byte[] key, final int keyLen) throws RocksDBException; @Override final native void delete(final long handle, final byte[] key, final int keyLen, final long cfHandle) throws RocksDBException; @Override final native void singleDelete(final long handle, final byte[] key, final int keyLen) throws RocksDBException; @Override final native void singleDelete(final long handle, final byte[] key, final int keyLen, final long cfHandle) throws RocksDBException; @Override final native void deleteRange(final long handle, final byte[] beginKey, final int beginKeyLen, final byte[] endKey, final int endKeyLen); @Override final native void deleteRange(final long handle, final byte[] beginKey, final int beginKeyLen, final byte[] endKey, final int endKeyLen, final long cfHandle); @Override final native void putLogData(final long handle, final byte[] blob, final int blobLen) throws RocksDBException; @Override final native void clear0(final long handle); @Override final native void setSavePoint0(final long handle); @Override final native void rollbackToSavePoint0(final long handle); @Override final native void popSavePoint(final long handle) throws RocksDBException; @Override final native void setMaxBytes(final long nativeHandle, final long maxBytes); @Override final native WriteBatch getWriteBatch(final long handle); private native static long newWriteBatchWithIndex(); private native static long newWriteBatchWithIndex(final boolean overwriteKey); private native static long newWriteBatchWithIndex( final long fallbackIndexComparatorHandle, final byte comparatorType, final int reservedBytes, final boolean overwriteKey); private native long iterator0(final long handle); private native long iterator1(final long handle, final long cfHandle); private native long iteratorWithBase(final long handle, final long baseIteratorHandle, final long cfHandle); private native byte[] getFromBatch(final long handle, final long optHandle, final byte[] key, final int keyLen); private native byte[] getFromBatch(final long handle, final long optHandle, final byte[] key, final int keyLen, final long cfHandle); private native byte[] getFromBatchAndDB(final long handle, final long dbHandle, final long readOptHandle, final byte[] key, final int keyLen); private native byte[] getFromBatchAndDB(final long handle, final long dbHandle, final long readOptHandle, final byte[] key, final int keyLen, final long cfHandle); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/WriteOptions.java000066400000000000000000000140101337235545400243500ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * Options that control write operations. * * Note that developers should call WriteOptions.dispose() to release the * c++ side memory before a WriteOptions instance runs out of scope. */ public class WriteOptions extends RocksObject { /** * Construct WriteOptions instance. */ public WriteOptions() { super(newWriteOptions()); } // TODO(AR) consider ownership WriteOptions(final long nativeHandle) { super(nativeHandle); disOwnNativeHandle(); } /** * Copy constructor for WriteOptions. * * NOTE: This does a shallow copy, which means comparator, merge_operator, compaction_filter, * compaction_filter_factory and other pointers will be cloned! * * @param other The ColumnFamilyOptions to copy. */ public WriteOptions(WriteOptions other) { super(copyWriteOptions(other.nativeHandle_)); } /** * If true, the write will be flushed from the operating system * buffer cache (by calling WritableFile::Sync()) before the write * is considered complete. If this flag is true, writes will be * slower. * * If this flag is false, and the machine crashes, some recent * writes may be lost. Note that if it is just the process that * crashes (i.e., the machine does not reboot), no writes will be * lost even if sync==false. * * In other words, a DB write with sync==false has similar * crash semantics as the "write()" system call. A DB write * with sync==true has similar crash semantics to a "write()" * system call followed by "fdatasync()". * * Default: false * * @param flag a boolean flag to indicate whether a write * should be synchronized. * @return the instance of the current WriteOptions. */ public WriteOptions setSync(final boolean flag) { setSync(nativeHandle_, flag); return this; } /** * If true, the write will be flushed from the operating system * buffer cache (by calling WritableFile::Sync()) before the write * is considered complete. If this flag is true, writes will be * slower. * * If this flag is false, and the machine crashes, some recent * writes may be lost. Note that if it is just the process that * crashes (i.e., the machine does not reboot), no writes will be * lost even if sync==false. * * In other words, a DB write with sync==false has similar * crash semantics as the "write()" system call. A DB write * with sync==true has similar crash semantics to a "write()" * system call followed by "fdatasync()". * * @return boolean value indicating if sync is active. */ public boolean sync() { return sync(nativeHandle_); } /** * If true, writes will not first go to the write ahead log, * and the write may got lost after a crash. * * @param flag a boolean flag to specify whether to disable * write-ahead-log on writes. * @return the instance of the current WriteOptions. */ public WriteOptions setDisableWAL(final boolean flag) { setDisableWAL(nativeHandle_, flag); return this; } /** * If true, writes will not first go to the write ahead log, * and the write may got lost after a crash. * * @return boolean value indicating if WAL is disabled. */ public boolean disableWAL() { return disableWAL(nativeHandle_); } /** * If true and if user is trying to write to column families that don't exist * (they were dropped), ignore the write (don't return an error). If there * are multiple writes in a WriteBatch, other writes will succeed. * * Default: false * * @param ignoreMissingColumnFamilies true to ignore writes to column families * which don't exist * @return the instance of the current WriteOptions. */ public WriteOptions setIgnoreMissingColumnFamilies( final boolean ignoreMissingColumnFamilies) { setIgnoreMissingColumnFamilies(nativeHandle_, ignoreMissingColumnFamilies); return this; } /** * If true and if user is trying to write to column families that don't exist * (they were dropped), ignore the write (don't return an error). If there * are multiple writes in a WriteBatch, other writes will succeed. * * Default: false * * @return true if writes to column families which don't exist are ignored */ public boolean ignoreMissingColumnFamilies() { return ignoreMissingColumnFamilies(nativeHandle_); } /** * If true and we need to wait or sleep for the write request, fails * immediately with {@link Status.Code#Incomplete}. * * @param noSlowdown true to fail write requests if we need to wait or sleep * @return the instance of the current WriteOptions. */ public WriteOptions setNoSlowdown(final boolean noSlowdown) { setNoSlowdown(nativeHandle_, noSlowdown); return this; } /** * If true and we need to wait or sleep for the write request, fails * immediately with {@link Status.Code#Incomplete}. * * @return true when write requests are failed if we need to wait or sleep */ public boolean noSlowdown() { return noSlowdown(nativeHandle_); } private native static long newWriteOptions(); private native static long copyWriteOptions(long handle); private native void setSync(long handle, boolean flag); private native boolean sync(long handle); private native void setDisableWAL(long handle, boolean flag); private native boolean disableWAL(long handle); private native void setIgnoreMissingColumnFamilies(final long handle, final boolean ignoreMissingColumnFamilies); private native boolean ignoreMissingColumnFamilies(final long handle); private native void setNoSlowdown(final long handle, final boolean noSlowdown); private native boolean noSlowdown(final long handle); @Override protected final native void disposeInternal(final long handle); } rocksdb-5.17.2/java/src/main/java/org/rocksdb/util/000077500000000000000000000000001337235545400220205ustar00rootroot00000000000000rocksdb-5.17.2/java/src/main/java/org/rocksdb/util/BytewiseComparator.java000066400000000000000000000053531337235545400265140ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb.util; import org.rocksdb.*; import java.nio.ByteBuffer; /** * This is a Java Native implementation of the C++ * equivalent BytewiseComparatorImpl using {@link Slice} * * The performance of Comparators implemented in Java is always * less than their C++ counterparts due to the bridging overhead, * as such you likely don't want to use this apart from benchmarking * and you most likely instead wanted * {@link org.rocksdb.BuiltinComparator#BYTEWISE_COMPARATOR} */ public class BytewiseComparator extends Comparator { public BytewiseComparator(final ComparatorOptions copt) { super(copt); } @Override public String name() { return "rocksdb.java.BytewiseComparator"; } @Override public int compare(final Slice a, final Slice b) { return compare(a.data(), b.data()); } @Override public String findShortestSeparator(final String start, final Slice limit) { final byte[] startBytes = start.getBytes(); final byte[] limitBytes = limit.data(); // Find length of common prefix final int min_length = Math.min(startBytes.length, limit.size()); int diff_index = 0; while ((diff_index < min_length) && (startBytes[diff_index] == limitBytes[diff_index])) { diff_index++; } if (diff_index >= min_length) { // Do not shorten if one string is a prefix of the other } else { final byte diff_byte = startBytes[diff_index]; if(diff_byte < 0xff && diff_byte + 1 < limitBytes[diff_index]) { final byte shortest[] = new byte[diff_index + 1]; System.arraycopy(startBytes, 0, shortest, 0, diff_index + 1); shortest[diff_index]++; assert(compare(shortest, limitBytes) < 0); return new String(shortest); } } return null; } private static int compare(final byte[] a, final byte[] b) { return ByteBuffer.wrap(a).compareTo(ByteBuffer.wrap(b)); } @Override public String findShortSuccessor(final String key) { final byte[] keyBytes = key.getBytes(); // Find first character that can be incremented final int n = keyBytes.length; for (int i = 0; i < n; i++) { final byte byt = keyBytes[i]; if (byt != 0xff) { final byte shortSuccessor[] = new byte[i + 1]; System.arraycopy(keyBytes, 0, shortSuccessor, 0, i + 1); shortSuccessor[i]++; return new String(shortSuccessor); } } // *key is a run of 0xffs. Leave it alone. return null; } } rocksdb-5.17.2/java/src/main/java/org/rocksdb/util/DirectBytewiseComparator.java000066400000000000000000000052661337235545400276520ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb.util; import org.rocksdb.ComparatorOptions; import org.rocksdb.DirectComparator; import org.rocksdb.DirectSlice; import java.nio.ByteBuffer; /** * This is a Java Native implementation of the C++ * equivalent BytewiseComparatorImpl using {@link DirectSlice} * * The performance of Comparators implemented in Java is always * less than their C++ counterparts due to the bridging overhead, * as such you likely don't want to use this apart from benchmarking * and you most likely instead wanted * {@link org.rocksdb.BuiltinComparator#BYTEWISE_COMPARATOR} */ public class DirectBytewiseComparator extends DirectComparator { public DirectBytewiseComparator(final ComparatorOptions copt) { super(copt); } @Override public String name() { return "rocksdb.java.DirectBytewiseComparator"; } @Override public int compare(final DirectSlice a, final DirectSlice b) { return a.data().compareTo(b.data()); } @Override public String findShortestSeparator(final String start, final DirectSlice limit) { final byte[] startBytes = start.getBytes(); // Find length of common prefix final int min_length = Math.min(startBytes.length, limit.size()); int diff_index = 0; while ((diff_index < min_length) && (startBytes[diff_index] == limit.get(diff_index))) { diff_index++; } if (diff_index >= min_length) { // Do not shorten if one string is a prefix of the other } else { final byte diff_byte = startBytes[diff_index]; if(diff_byte < 0xff && diff_byte + 1 < limit.get(diff_index)) { final byte shortest[] = new byte[diff_index + 1]; System.arraycopy(startBytes, 0, shortest, 0, diff_index + 1); shortest[diff_index]++; assert(ByteBuffer.wrap(shortest).compareTo(limit.data()) < 0); return new String(shortest); } } return null; } @Override public String findShortSuccessor(final String key) { final byte[] keyBytes = key.getBytes(); // Find first character that can be incremented final int n = keyBytes.length; for (int i = 0; i < n; i++) { final byte byt = keyBytes[i]; if (byt != 0xff) { final byte shortSuccessor[] = new byte[i + 1]; System.arraycopy(keyBytes, 0, shortSuccessor, 0, i + 1); shortSuccessor[i]++; return new String(shortSuccessor); } } // *key is a run of 0xffs. Leave it alone. return null; } } rocksdb-5.17.2/java/src/main/java/org/rocksdb/util/Environment.java000066400000000000000000000061371337235545400251760ustar00rootroot00000000000000package org.rocksdb.util; public class Environment { private static String OS = System.getProperty("os.name").toLowerCase(); private static String ARCH = System.getProperty("os.arch").toLowerCase(); public static boolean isPowerPC() { return ARCH.contains("ppc"); } public static boolean isS390x() { return ARCH.contains("s390x"); } public static boolean isWindows() { return (OS.contains("win")); } public static boolean isFreeBSD() { return (OS.contains("freebsd")); } public static boolean isMac() { return (OS.contains("mac")); } public static boolean isAix() { return OS.contains("aix"); } public static boolean isUnix() { return OS.contains("nix") || OS.contains("nux"); } public static boolean isSolaris() { return OS.contains("sunos"); } public static boolean isOpenBSD() { return (OS.contains("openbsd")); } public static boolean is64Bit() { if (ARCH.indexOf("sparcv9") >= 0) { return true; } return (ARCH.indexOf("64") > 0); } public static String getSharedLibraryName(final String name) { return name + "jni"; } public static String getSharedLibraryFileName(final String name) { return appendLibOsSuffix("lib" + getSharedLibraryName(name), true); } public static String getJniLibraryName(final String name) { if (isUnix()) { final String arch = is64Bit() ? "64" : "32"; if(isPowerPC()) { return String.format("%sjni-linux-%s", name, ARCH); } else if(isS390x()) { return String.format("%sjni-linux%s", name, ARCH); } else { return String.format("%sjni-linux%s", name, arch); } } else if (isMac()) { return String.format("%sjni-osx", name); } else if (isFreeBSD()) { return String.format("%sjni-freebsd%s", name, is64Bit() ? "64" : "32"); } else if (isAix() && is64Bit()) { return String.format("%sjni-aix64", name); } else if (isSolaris()) { final String arch = is64Bit() ? "64" : "32"; return String.format("%sjni-solaris%s", name, arch); } else if (isWindows() && is64Bit()) { return String.format("%sjni-win64", name); } else if (isOpenBSD()) { return String.format("%sjni-openbsd%s", name, is64Bit() ? "64" : "32"); } throw new UnsupportedOperationException(String.format("Cannot determine JNI library name for ARCH='%s' OS='%s' name='%s'", ARCH, OS, name)); } public static String getJniLibraryFileName(final String name) { return appendLibOsSuffix("lib" + getJniLibraryName(name), false); } private static String appendLibOsSuffix(final String libraryFileName, final boolean shared) { if (isUnix() || isAix() || isSolaris() || isFreeBSD() || isOpenBSD()) { return libraryFileName + ".so"; } else if (isMac()) { return libraryFileName + (shared ? ".dylib" : ".jnilib"); } else if (isWindows()) { return libraryFileName + ".dll"; } throw new UnsupportedOperationException(); } public static String getJniLibraryExtension() { if (isWindows()) { return ".dll"; } return (isMac()) ? ".jnilib" : ".so"; } } rocksdb-5.17.2/java/src/main/java/org/rocksdb/util/ReverseBytewiseComparator.java000066400000000000000000000022211337235545400300370ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb.util; import org.rocksdb.BuiltinComparator; import org.rocksdb.ComparatorOptions; import org.rocksdb.Slice; /** * This is a Java Native implementation of the C++ * equivalent ReverseBytewiseComparatorImpl using {@link Slice} * * The performance of Comparators implemented in Java is always * less than their C++ counterparts due to the bridging overhead, * as such you likely don't want to use this apart from benchmarking * and you most likely instead wanted * {@link BuiltinComparator#REVERSE_BYTEWISE_COMPARATOR} */ public class ReverseBytewiseComparator extends BytewiseComparator { public ReverseBytewiseComparator(final ComparatorOptions copt) { super(copt); } @Override public String name() { return "rocksdb.java.ReverseBytewiseComparator"; } @Override public int compare(final Slice a, final Slice b) { return -super.compare(a, b); } } rocksdb-5.17.2/java/src/main/java/org/rocksdb/util/SizeUnit.java000066400000000000000000000010371337235545400244360ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb.util; public class SizeUnit { public static final long KB = 1024L; public static final long MB = KB * KB; public static final long GB = KB * MB; public static final long TB = KB * GB; public static final long PB = KB * TB; private SizeUnit() {} } rocksdb-5.17.2/java/src/test/000077500000000000000000000000001337235545400157375ustar00rootroot00000000000000rocksdb-5.17.2/java/src/test/java/000077500000000000000000000000001337235545400166605ustar00rootroot00000000000000rocksdb-5.17.2/java/src/test/java/org/000077500000000000000000000000001337235545400174475ustar00rootroot00000000000000rocksdb-5.17.2/java/src/test/java/org/rocksdb/000077500000000000000000000000001337235545400210765ustar00rootroot00000000000000rocksdb-5.17.2/java/src/test/java/org/rocksdb/AbstractComparatorTest.java000066400000000000000000000146141337235545400264020ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import java.io.IOException; import java.nio.file.*; import java.util.ArrayList; import java.util.Arrays; import java.util.List; import java.util.Random; import static org.assertj.core.api.Assertions.assertThat; import static org.rocksdb.Types.byteToInt; import static org.rocksdb.Types.intToByte; /** * Abstract tests for both Comparator and DirectComparator */ public abstract class AbstractComparatorTest { /** * Get a comparator which will expect Integer keys * and determine an ascending order * * @return An integer ascending order key comparator */ public abstract AbstractComparator getAscendingIntKeyComparator(); /** * Test which stores random keys into the database * using an @see getAscendingIntKeyComparator * it then checks that these keys are read back in * ascending order * * @param db_path A path where we can store database * files temporarily * * @throws java.io.IOException if IO error happens. */ public void testRoundtrip(final Path db_path) throws IOException, RocksDBException { try (final AbstractComparator comparator = getAscendingIntKeyComparator(); final Options opt = new Options() .setCreateIfMissing(true) .setComparator(comparator)) { // store 10,000 random integer keys final int ITERATIONS = 10000; try (final RocksDB db = RocksDB.open(opt, db_path.toString())) { final Random random = new Random(); for (int i = 0; i < ITERATIONS; i++) { final byte key[] = intToByte(random.nextInt()); // does key already exist (avoid duplicates) if (i > 0 && db.get(key) != null) { i--; // generate a different key } else { db.put(key, "value".getBytes()); } } } // re-open db and read from start to end // integer keys should be in ascending // order as defined by SimpleIntComparator try (final RocksDB db = RocksDB.open(opt, db_path.toString()); final RocksIterator it = db.newIterator()) { it.seekToFirst(); int lastKey = Integer.MIN_VALUE; int count = 0; for (it.seekToFirst(); it.isValid(); it.next()) { final int thisKey = byteToInt(it.key()); assertThat(thisKey).isGreaterThan(lastKey); lastKey = thisKey; count++; } assertThat(count).isEqualTo(ITERATIONS); } } } /** * Test which stores random keys into a column family * in the database * using an @see getAscendingIntKeyComparator * it then checks that these keys are read back in * ascending order * * @param db_path A path where we can store database * files temporarily * * @throws java.io.IOException if IO error happens. */ public void testRoundtripCf(final Path db_path) throws IOException, RocksDBException { try(final AbstractComparator comparator = getAscendingIntKeyComparator()) { final List cfDescriptors = Arrays.asList( new ColumnFamilyDescriptor(RocksDB.DEFAULT_COLUMN_FAMILY), new ColumnFamilyDescriptor("new_cf".getBytes(), new ColumnFamilyOptions().setComparator(comparator)) ); final List cfHandles = new ArrayList<>(); try (final DBOptions opt = new DBOptions(). setCreateIfMissing(true). setCreateMissingColumnFamilies(true)) { // store 10,000 random integer keys final int ITERATIONS = 10000; try (final RocksDB db = RocksDB.open(opt, db_path.toString(), cfDescriptors, cfHandles)) { try { assertThat(cfDescriptors.size()).isEqualTo(2); assertThat(cfHandles.size()).isEqualTo(2); final Random random = new Random(); for (int i = 0; i < ITERATIONS; i++) { final byte key[] = intToByte(random.nextInt()); if (i > 0 && db.get(cfHandles.get(1), key) != null) { // does key already exist (avoid duplicates) i--; // generate a different key } else { db.put(cfHandles.get(1), key, "value".getBytes()); } } } finally { for (final ColumnFamilyHandle handle : cfHandles) { handle.close(); } } cfHandles.clear(); } // re-open db and read from start to end // integer keys should be in ascending // order as defined by SimpleIntComparator try (final RocksDB db = RocksDB.open(opt, db_path.toString(), cfDescriptors, cfHandles); final RocksIterator it = db.newIterator(cfHandles.get(1))) { try { assertThat(cfDescriptors.size()).isEqualTo(2); assertThat(cfHandles.size()).isEqualTo(2); it.seekToFirst(); int lastKey = Integer.MIN_VALUE; int count = 0; for (it.seekToFirst(); it.isValid(); it.next()) { final int thisKey = byteToInt(it.key()); assertThat(thisKey).isGreaterThan(lastKey); lastKey = thisKey; count++; } assertThat(count).isEqualTo(ITERATIONS); } finally { for (final ColumnFamilyHandle handle : cfHandles) { handle.close(); } } cfHandles.clear(); } } } } /** * Compares integer keys * so that they are in ascending order * * @param a 4-bytes representing an integer key * @param b 4-bytes representing an integer key * * @return negative if a < b, 0 if a == b, positive otherwise */ protected final int compareIntKeys(final byte[] a, final byte[] b) { final int iA = byteToInt(a); final int iB = byteToInt(b); // protect against int key calculation overflow final double diff = (double)iA - iB; final int result; if (diff < Integer.MIN_VALUE) { result = Integer.MIN_VALUE; } else if(diff > Integer.MAX_VALUE) { result = Integer.MAX_VALUE; } else { result = (int)diff; } return result; } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/AbstractTransactionTest.java000066400000000000000000000740261337235545400265630ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import org.junit.Rule; import org.junit.Test; import org.junit.rules.TemporaryFolder; import java.util.ArrayList; import java.util.Arrays; import java.util.List; import java.util.Random; import static java.nio.charset.StandardCharsets.UTF_8; import static org.assertj.core.api.Assertions.assertThat; import static org.assertj.core.api.Assertions.fail; /** * Base class of {@link TransactionTest} and {@link OptimisticTransactionTest} */ public abstract class AbstractTransactionTest { protected final static byte[] TXN_TEST_COLUMN_FAMILY = "txn_test_cf" .getBytes(); protected static final Random rand = PlatformRandomHelper. getPlatformSpecificRandomFactory(); @Rule public TemporaryFolder dbFolder = new TemporaryFolder(); public abstract DBContainer startDb() throws RocksDBException; @Test public void setSnapshot() throws RocksDBException { try(final DBContainer dbContainer = startDb(); final Transaction txn = dbContainer.beginTransaction()) { txn.setSnapshot(); } } @Test public void setSnapshotOnNextOperation() throws RocksDBException { try(final DBContainer dbContainer = startDb(); final Transaction txn = dbContainer.beginTransaction()) { txn.setSnapshotOnNextOperation(); txn.put("key1".getBytes(), "value1".getBytes()); } } @Test public void setSnapshotOnNextOperation_transactionNotifier() throws RocksDBException { try(final DBContainer dbContainer = startDb(); final Transaction txn = dbContainer.beginTransaction()) { try(final TestTransactionNotifier notifier = new TestTransactionNotifier()) { txn.setSnapshotOnNextOperation(notifier); txn.put("key1".getBytes(), "value1".getBytes()); txn.setSnapshotOnNextOperation(notifier); txn.put("key2".getBytes(), "value2".getBytes()); assertThat(notifier.getCreatedSnapshots().size()).isEqualTo(2); } } } @Test public void getSnapshot() throws RocksDBException { try(final DBContainer dbContainer = startDb(); final Transaction txn = dbContainer.beginTransaction()) { txn.setSnapshot(); final Snapshot snapshot = txn.getSnapshot(); assertThat(snapshot.isOwningHandle()).isFalse(); } } @Test public void getSnapshot_null() throws RocksDBException { try(final DBContainer dbContainer = startDb(); final Transaction txn = dbContainer.beginTransaction()) { final Snapshot snapshot = txn.getSnapshot(); assertThat(snapshot).isNull(); } } @Test public void clearSnapshot() throws RocksDBException { try(final DBContainer dbContainer = startDb(); final Transaction txn = dbContainer.beginTransaction()) { txn.setSnapshot(); txn.clearSnapshot(); } } @Test public void clearSnapshot_none() throws RocksDBException { try(final DBContainer dbContainer = startDb(); final Transaction txn = dbContainer.beginTransaction()) { txn.clearSnapshot(); } } @Test public void commit() throws RocksDBException { final byte k1[] = "rollback-key1".getBytes(UTF_8); final byte v1[] = "rollback-value1".getBytes(UTF_8); try(final DBContainer dbContainer = startDb()) { try(final Transaction txn = dbContainer.beginTransaction()) { txn.put(k1, v1); txn.commit(); } try(final ReadOptions readOptions = new ReadOptions(); final Transaction txn2 = dbContainer.beginTransaction()) { assertThat(txn2.get(readOptions, k1)).isEqualTo(v1); } } } @Test public void rollback() throws RocksDBException { final byte k1[] = "rollback-key1".getBytes(UTF_8); final byte v1[] = "rollback-value1".getBytes(UTF_8); try(final DBContainer dbContainer = startDb()) { try(final Transaction txn = dbContainer.beginTransaction()) { txn.put(k1, v1); txn.rollback(); } try(final ReadOptions readOptions = new ReadOptions(); final Transaction txn2 = dbContainer.beginTransaction()) { assertThat(txn2.get(readOptions, k1)).isNull(); } } } @Test public void savePoint() throws RocksDBException { final byte k1[] = "savePoint-key1".getBytes(UTF_8); final byte v1[] = "savePoint-value1".getBytes(UTF_8); final byte k2[] = "savePoint-key2".getBytes(UTF_8); final byte v2[] = "savePoint-value2".getBytes(UTF_8); try(final DBContainer dbContainer = startDb(); final ReadOptions readOptions = new ReadOptions()) { try(final Transaction txn = dbContainer.beginTransaction()) { txn.put(k1, v1); assertThat(txn.get(readOptions, k1)).isEqualTo(v1); txn.setSavePoint(); txn.put(k2, v2); assertThat(txn.get(readOptions, k1)).isEqualTo(v1); assertThat(txn.get(readOptions, k2)).isEqualTo(v2); txn.rollbackToSavePoint(); assertThat(txn.get(readOptions, k1)).isEqualTo(v1); assertThat(txn.get(readOptions, k2)).isNull(); txn.commit(); } try(final Transaction txn2 = dbContainer.beginTransaction()) { assertThat(txn2.get(readOptions, k1)).isEqualTo(v1); assertThat(txn2.get(readOptions, k2)).isNull(); } } } @Test public void getPut_cf() throws RocksDBException { final byte k1[] = "key1".getBytes(UTF_8); final byte v1[] = "value1".getBytes(UTF_8); try(final DBContainer dbContainer = startDb(); final ReadOptions readOptions = new ReadOptions(); final Transaction txn = dbContainer.beginTransaction()) { final ColumnFamilyHandle testCf = dbContainer.getTestColumnFamily(); assertThat(txn.get(testCf, readOptions, k1)).isNull(); txn.put(testCf, k1, v1); assertThat(txn.get(testCf, readOptions, k1)).isEqualTo(v1); } } @Test public void getPut() throws RocksDBException { final byte k1[] = "key1".getBytes(UTF_8); final byte v1[] = "value1".getBytes(UTF_8); try(final DBContainer dbContainer = startDb(); final ReadOptions readOptions = new ReadOptions(); final Transaction txn = dbContainer.beginTransaction()) { assertThat(txn.get(readOptions, k1)).isNull(); txn.put(k1, v1); assertThat(txn.get(readOptions, k1)).isEqualTo(v1); } } @Test public void multiGetPut_cf() throws RocksDBException { final byte keys[][] = new byte[][] { "key1".getBytes(UTF_8), "key2".getBytes(UTF_8)}; final byte values[][] = new byte[][] { "value1".getBytes(UTF_8), "value2".getBytes(UTF_8)}; try(final DBContainer dbContainer = startDb(); final ReadOptions readOptions = new ReadOptions(); final Transaction txn = dbContainer.beginTransaction()) { final ColumnFamilyHandle testCf = dbContainer.getTestColumnFamily(); final List cfList = Arrays.asList(testCf, testCf); assertThat(txn.multiGet(readOptions, cfList, keys)).isEqualTo(new byte[][] { null, null }); txn.put(testCf, keys[0], values[0]); txn.put(testCf, keys[1], values[1]); assertThat(txn.multiGet(readOptions, cfList, keys)).isEqualTo(values); } } @Test public void multiGetPut() throws RocksDBException { final byte keys[][] = new byte[][] { "key1".getBytes(UTF_8), "key2".getBytes(UTF_8)}; final byte values[][] = new byte[][] { "value1".getBytes(UTF_8), "value2".getBytes(UTF_8)}; try(final DBContainer dbContainer = startDb(); final ReadOptions readOptions = new ReadOptions(); final Transaction txn = dbContainer.beginTransaction()) { assertThat(txn.multiGet(readOptions, keys)).isEqualTo(new byte[][] { null, null }); txn.put(keys[0], values[0]); txn.put(keys[1], values[1]); assertThat(txn.multiGet(readOptions, keys)).isEqualTo(values); } } @Test public void getForUpdate_cf() throws RocksDBException { final byte k1[] = "key1".getBytes(UTF_8); final byte v1[] = "value1".getBytes(UTF_8); try(final DBContainer dbContainer = startDb(); final ReadOptions readOptions = new ReadOptions(); final Transaction txn = dbContainer.beginTransaction()) { final ColumnFamilyHandle testCf = dbContainer.getTestColumnFamily(); assertThat(txn.getForUpdate(readOptions, testCf, k1, true)).isNull(); txn.put(testCf, k1, v1); assertThat(txn.getForUpdate(readOptions, testCf, k1, true)).isEqualTo(v1); } } @Test public void getForUpdate() throws RocksDBException { final byte k1[] = "key1".getBytes(UTF_8); final byte v1[] = "value1".getBytes(UTF_8); try(final DBContainer dbContainer = startDb(); final ReadOptions readOptions = new ReadOptions(); final Transaction txn = dbContainer.beginTransaction()) { assertThat(txn.getForUpdate(readOptions, k1, true)).isNull(); txn.put(k1, v1); assertThat(txn.getForUpdate(readOptions, k1, true)).isEqualTo(v1); } } @Test public void multiGetForUpdate_cf() throws RocksDBException { final byte keys[][] = new byte[][] { "key1".getBytes(UTF_8), "key2".getBytes(UTF_8)}; final byte values[][] = new byte[][] { "value1".getBytes(UTF_8), "value2".getBytes(UTF_8)}; try(final DBContainer dbContainer = startDb(); final ReadOptions readOptions = new ReadOptions(); final Transaction txn = dbContainer.beginTransaction()) { final ColumnFamilyHandle testCf = dbContainer.getTestColumnFamily(); final List cfList = Arrays.asList(testCf, testCf); assertThat(txn.multiGetForUpdate(readOptions, cfList, keys)) .isEqualTo(new byte[][] { null, null }); txn.put(testCf, keys[0], values[0]); txn.put(testCf, keys[1], values[1]); assertThat(txn.multiGetForUpdate(readOptions, cfList, keys)) .isEqualTo(values); } } @Test public void multiGetForUpdate() throws RocksDBException { final byte keys[][] = new byte[][]{ "key1".getBytes(UTF_8), "key2".getBytes(UTF_8)}; final byte values[][] = new byte[][]{ "value1".getBytes(UTF_8), "value2".getBytes(UTF_8)}; try (final DBContainer dbContainer = startDb(); final ReadOptions readOptions = new ReadOptions(); final Transaction txn = dbContainer.beginTransaction()) { assertThat(txn.multiGetForUpdate(readOptions, keys)).isEqualTo(new byte[][]{null, null}); txn.put(keys[0], values[0]); txn.put(keys[1], values[1]); assertThat(txn.multiGetForUpdate(readOptions, keys)).isEqualTo(values); } } @Test public void getIterator() throws RocksDBException { try(final DBContainer dbContainer = startDb(); final ReadOptions readOptions = new ReadOptions(); final Transaction txn = dbContainer.beginTransaction()) { final byte[] k1 = "key1".getBytes(UTF_8); final byte[] v1 = "value1".getBytes(UTF_8); txn.put(k1, v1); try(final RocksIterator iterator = txn.getIterator(readOptions)) { iterator.seek(k1); assertThat(iterator.isValid()).isTrue(); assertThat(iterator.key()).isEqualTo(k1); assertThat(iterator.value()).isEqualTo(v1); } } } @Test public void getIterator_cf() throws RocksDBException { try(final DBContainer dbContainer = startDb(); final ReadOptions readOptions = new ReadOptions(); final Transaction txn = dbContainer.beginTransaction()) { final ColumnFamilyHandle testCf = dbContainer.getTestColumnFamily(); final byte[] k1 = "key1".getBytes(UTF_8); final byte[] v1 = "value1".getBytes(UTF_8); txn.put(testCf, k1, v1); try(final RocksIterator iterator = txn.getIterator(readOptions, testCf)) { iterator.seek(k1); assertThat(iterator.isValid()).isTrue(); assertThat(iterator.key()).isEqualTo(k1); assertThat(iterator.value()).isEqualTo(v1); } } } @Test public void merge_cf() throws RocksDBException { final byte[] k1 = "key1".getBytes(UTF_8); final byte[] v1 = "value1".getBytes(UTF_8); try(final DBContainer dbContainer = startDb(); final Transaction txn = dbContainer.beginTransaction()) { final ColumnFamilyHandle testCf = dbContainer.getTestColumnFamily(); txn.merge(testCf, k1, v1); } } @Test public void merge() throws RocksDBException { final byte[] k1 = "key1".getBytes(UTF_8); final byte[] v1 = "value1".getBytes(UTF_8); try(final DBContainer dbContainer = startDb(); final Transaction txn = dbContainer.beginTransaction()) { txn.merge(k1, v1); } } @Test public void delete_cf() throws RocksDBException { final byte[] k1 = "key1".getBytes(UTF_8); final byte[] v1 = "value1".getBytes(UTF_8); try(final DBContainer dbContainer = startDb(); final ReadOptions readOptions = new ReadOptions(); final Transaction txn = dbContainer.beginTransaction()) { final ColumnFamilyHandle testCf = dbContainer.getTestColumnFamily(); txn.put(testCf, k1, v1); assertThat(txn.get(testCf, readOptions, k1)).isEqualTo(v1); txn.delete(testCf, k1); assertThat(txn.get(testCf, readOptions, k1)).isNull(); } } @Test public void delete() throws RocksDBException { final byte[] k1 = "key1".getBytes(UTF_8); final byte[] v1 = "value1".getBytes(UTF_8); try(final DBContainer dbContainer = startDb(); final ReadOptions readOptions = new ReadOptions(); final Transaction txn = dbContainer.beginTransaction()) { txn.put(k1, v1); assertThat(txn.get(readOptions, k1)).isEqualTo(v1); txn.delete(k1); assertThat(txn.get(readOptions, k1)).isNull(); } } @Test public void delete_parts_cf() throws RocksDBException { final byte keyParts[][] = new byte[][] { "ke".getBytes(UTF_8), "y1".getBytes(UTF_8)}; final byte valueParts[][] = new byte[][] { "val".getBytes(UTF_8), "ue1".getBytes(UTF_8)}; final byte[] key = concat(keyParts); final byte[] value = concat(valueParts); try(final DBContainer dbContainer = startDb(); final ReadOptions readOptions = new ReadOptions(); final Transaction txn = dbContainer.beginTransaction()) { final ColumnFamilyHandle testCf = dbContainer.getTestColumnFamily(); txn.put(testCf, keyParts, valueParts); assertThat(txn.get(testCf, readOptions, key)).isEqualTo(value); txn.delete(testCf, keyParts); assertThat(txn.get(testCf, readOptions, key)) .isNull(); } } @Test public void delete_parts() throws RocksDBException { final byte keyParts[][] = new byte[][] { "ke".getBytes(UTF_8), "y1".getBytes(UTF_8)}; final byte valueParts[][] = new byte[][] { "val".getBytes(UTF_8), "ue1".getBytes(UTF_8)}; final byte[] key = concat(keyParts); final byte[] value = concat(valueParts); try(final DBContainer dbContainer = startDb(); final ReadOptions readOptions = new ReadOptions(); final Transaction txn = dbContainer.beginTransaction()) { txn.put(keyParts, valueParts); assertThat(txn.get(readOptions, key)).isEqualTo(value); txn.delete(keyParts); assertThat(txn.get(readOptions, key)).isNull(); } } @Test public void getPutUntracked_cf() throws RocksDBException { final byte k1[] = "key1".getBytes(UTF_8); final byte v1[] = "value1".getBytes(UTF_8); try(final DBContainer dbContainer = startDb(); final ReadOptions readOptions = new ReadOptions(); final Transaction txn = dbContainer.beginTransaction()) { final ColumnFamilyHandle testCf = dbContainer.getTestColumnFamily(); assertThat(txn.get(testCf, readOptions, k1)).isNull(); txn.putUntracked(testCf, k1, v1); assertThat(txn.get(testCf, readOptions, k1)).isEqualTo(v1); } } @Test public void getPutUntracked() throws RocksDBException { final byte k1[] = "key1".getBytes(UTF_8); final byte v1[] = "value1".getBytes(UTF_8); try(final DBContainer dbContainer = startDb(); final ReadOptions readOptions = new ReadOptions(); final Transaction txn = dbContainer.beginTransaction()) { assertThat(txn.get(readOptions, k1)).isNull(); txn.putUntracked(k1, v1); assertThat(txn.get(readOptions, k1)).isEqualTo(v1); } } @Test public void multiGetPutUntracked_cf() throws RocksDBException { final byte keys[][] = new byte[][] { "key1".getBytes(UTF_8), "key2".getBytes(UTF_8)}; final byte values[][] = new byte[][] { "value1".getBytes(UTF_8), "value2".getBytes(UTF_8)}; try(final DBContainer dbContainer = startDb(); final ReadOptions readOptions = new ReadOptions(); final Transaction txn = dbContainer.beginTransaction()) { final ColumnFamilyHandle testCf = dbContainer.getTestColumnFamily(); final List cfList = Arrays.asList(testCf, testCf); assertThat(txn.multiGet(readOptions, cfList, keys)).isEqualTo(new byte[][] { null, null }); txn.putUntracked(testCf, keys[0], values[0]); txn.putUntracked(testCf, keys[1], values[1]); assertThat(txn.multiGet(readOptions, cfList, keys)).isEqualTo(values); } } @Test public void multiGetPutUntracked() throws RocksDBException { final byte keys[][] = new byte[][] { "key1".getBytes(UTF_8), "key2".getBytes(UTF_8)}; final byte values[][] = new byte[][] { "value1".getBytes(UTF_8), "value2".getBytes(UTF_8)}; try(final DBContainer dbContainer = startDb(); final ReadOptions readOptions = new ReadOptions(); final Transaction txn = dbContainer.beginTransaction()) { assertThat(txn.multiGet(readOptions, keys)).isEqualTo(new byte[][] { null, null }); txn.putUntracked(keys[0], values[0]); txn.putUntracked(keys[1], values[1]); assertThat(txn.multiGet(readOptions, keys)).isEqualTo(values); } } @Test public void mergeUntracked_cf() throws RocksDBException { final byte[] k1 = "key1".getBytes(UTF_8); final byte[] v1 = "value1".getBytes(UTF_8); try(final DBContainer dbContainer = startDb(); final Transaction txn = dbContainer.beginTransaction()) { final ColumnFamilyHandle testCf = dbContainer.getTestColumnFamily(); txn.mergeUntracked(testCf, k1, v1); } } @Test public void mergeUntracked() throws RocksDBException { final byte[] k1 = "key1".getBytes(UTF_8); final byte[] v1 = "value1".getBytes(UTF_8); try(final DBContainer dbContainer = startDb(); final Transaction txn = dbContainer.beginTransaction()) { txn.mergeUntracked(k1, v1); } } @Test public void deleteUntracked_cf() throws RocksDBException { final byte[] k1 = "key1".getBytes(UTF_8); final byte[] v1 = "value1".getBytes(UTF_8); try(final DBContainer dbContainer = startDb(); final ReadOptions readOptions = new ReadOptions(); final Transaction txn = dbContainer.beginTransaction()) { final ColumnFamilyHandle testCf = dbContainer.getTestColumnFamily(); txn.put(testCf, k1, v1); assertThat(txn.get(testCf, readOptions, k1)).isEqualTo(v1); txn.deleteUntracked(testCf, k1); assertThat(txn.get(testCf, readOptions, k1)).isNull(); } } @Test public void deleteUntracked() throws RocksDBException { final byte[] k1 = "key1".getBytes(UTF_8); final byte[] v1 = "value1".getBytes(UTF_8); try(final DBContainer dbContainer = startDb(); final ReadOptions readOptions = new ReadOptions(); final Transaction txn = dbContainer.beginTransaction()) { txn.put(k1, v1); assertThat(txn.get(readOptions, k1)).isEqualTo(v1); txn.deleteUntracked(k1); assertThat(txn.get(readOptions, k1)).isNull(); } } @Test public void deleteUntracked_parts_cf() throws RocksDBException { final byte keyParts[][] = new byte[][] { "ke".getBytes(UTF_8), "y1".getBytes(UTF_8)}; final byte valueParts[][] = new byte[][] { "val".getBytes(UTF_8), "ue1".getBytes(UTF_8)}; final byte[] key = concat(keyParts); final byte[] value = concat(valueParts); try(final DBContainer dbContainer = startDb(); final ReadOptions readOptions = new ReadOptions(); final Transaction txn = dbContainer.beginTransaction()) { final ColumnFamilyHandle testCf = dbContainer.getTestColumnFamily(); txn.put(testCf, keyParts, valueParts); assertThat(txn.get(testCf, readOptions, key)).isEqualTo(value); txn.deleteUntracked(testCf, keyParts); assertThat(txn.get(testCf, readOptions, key)).isNull(); } } @Test public void deleteUntracked_parts() throws RocksDBException { final byte keyParts[][] = new byte[][] { "ke".getBytes(UTF_8), "y1".getBytes(UTF_8)}; final byte valueParts[][] = new byte[][] { "val".getBytes(UTF_8), "ue1".getBytes(UTF_8)}; final byte[] key = concat(keyParts); final byte[] value = concat(valueParts); try(final DBContainer dbContainer = startDb(); final ReadOptions readOptions = new ReadOptions(); final Transaction txn = dbContainer.beginTransaction()) { txn.put(keyParts, valueParts); assertThat(txn.get(readOptions, key)).isEqualTo(value); txn.deleteUntracked(keyParts); assertThat(txn.get(readOptions, key)).isNull(); } } @Test public void putLogData() throws RocksDBException { final byte[] blob = "blobby".getBytes(UTF_8); try(final DBContainer dbContainer = startDb(); final Transaction txn = dbContainer.beginTransaction()) { txn.putLogData(blob); } } @Test public void enabledDisableIndexing() throws RocksDBException { try(final DBContainer dbContainer = startDb(); final Transaction txn = dbContainer.beginTransaction()) { txn.disableIndexing(); txn.enableIndexing(); txn.disableIndexing(); txn.enableIndexing(); } } @Test public void numKeys() throws RocksDBException { final byte k1[] = "key1".getBytes(UTF_8); final byte v1[] = "value1".getBytes(UTF_8); final byte k2[] = "key2".getBytes(UTF_8); final byte v2[] = "value2".getBytes(UTF_8); final byte k3[] = "key3".getBytes(UTF_8); final byte v3[] = "value3".getBytes(UTF_8); try(final DBContainer dbContainer = startDb(); final Transaction txn = dbContainer.beginTransaction()) { final ColumnFamilyHandle testCf = dbContainer.getTestColumnFamily(); txn.put(k1, v1); txn.put(testCf, k2, v2); txn.merge(k3, v3); txn.delete(testCf, k2); assertThat(txn.getNumKeys()).isEqualTo(3); assertThat(txn.getNumPuts()).isEqualTo(2); assertThat(txn.getNumMerges()).isEqualTo(1); assertThat(txn.getNumDeletes()).isEqualTo(1); } } @Test public void elapsedTime() throws RocksDBException, InterruptedException { final long preStartTxnTime = System.currentTimeMillis(); try (final DBContainer dbContainer = startDb(); final Transaction txn = dbContainer.beginTransaction()) { Thread.sleep(2); final long txnElapsedTime = txn.getElapsedTime(); assertThat(txnElapsedTime).isLessThan(System.currentTimeMillis() - preStartTxnTime); assertThat(txnElapsedTime).isGreaterThan(0); } } @Test public void getWriteBatch() throws RocksDBException { final byte k1[] = "key1".getBytes(UTF_8); final byte v1[] = "value1".getBytes(UTF_8); try(final DBContainer dbContainer = startDb(); final Transaction txn = dbContainer.beginTransaction()) { txn.put(k1, v1); final WriteBatchWithIndex writeBatch = txn.getWriteBatch(); assertThat(writeBatch).isNotNull(); assertThat(writeBatch.isOwningHandle()).isFalse(); assertThat(writeBatch.count()).isEqualTo(1); } } @Test public void setLockTimeout() throws RocksDBException { try(final DBContainer dbContainer = startDb(); final Transaction txn = dbContainer.beginTransaction()) { txn.setLockTimeout(1000); } } @Test public void writeOptions() throws RocksDBException { final byte k1[] = "key1".getBytes(UTF_8); final byte v1[] = "value1".getBytes(UTF_8); try(final DBContainer dbContainer = startDb(); final WriteOptions writeOptions = new WriteOptions() .setDisableWAL(true) .setSync(true); final Transaction txn = dbContainer.beginTransaction(writeOptions)) { txn.put(k1, v1); WriteOptions txnWriteOptions = txn.getWriteOptions(); assertThat(txnWriteOptions).isNotNull(); assertThat(txnWriteOptions.isOwningHandle()).isFalse(); assertThat(txnWriteOptions).isNotSameAs(writeOptions); assertThat(txnWriteOptions.disableWAL()).isTrue(); assertThat(txnWriteOptions.sync()).isTrue(); txn.setWriteOptions(txnWriteOptions.setSync(false)); txnWriteOptions = txn.getWriteOptions(); assertThat(txnWriteOptions).isNotNull(); assertThat(txnWriteOptions.isOwningHandle()).isFalse(); assertThat(txnWriteOptions).isNotSameAs(writeOptions); assertThat(txnWriteOptions.disableWAL()).isTrue(); assertThat(txnWriteOptions.sync()).isFalse(); } } @Test public void undoGetForUpdate_cf() throws RocksDBException { final byte k1[] = "key1".getBytes(UTF_8); final byte v1[] = "value1".getBytes(UTF_8); try(final DBContainer dbContainer = startDb(); final ReadOptions readOptions = new ReadOptions(); final Transaction txn = dbContainer.beginTransaction()) { final ColumnFamilyHandle testCf = dbContainer.getTestColumnFamily(); assertThat(txn.getForUpdate(readOptions, testCf, k1, true)).isNull(); txn.put(testCf, k1, v1); assertThat(txn.getForUpdate(readOptions, testCf, k1, true)).isEqualTo(v1); txn.undoGetForUpdate(testCf, k1); } } @Test public void undoGetForUpdate() throws RocksDBException { final byte k1[] = "key1".getBytes(UTF_8); final byte v1[] = "value1".getBytes(UTF_8); try(final DBContainer dbContainer = startDb(); final ReadOptions readOptions = new ReadOptions(); final Transaction txn = dbContainer.beginTransaction()) { assertThat(txn.getForUpdate(readOptions, k1, true)).isNull(); txn.put(k1, v1); assertThat(txn.getForUpdate(readOptions, k1, true)).isEqualTo(v1); txn.undoGetForUpdate(k1); } } @Test public void rebuildFromWriteBatch() throws RocksDBException { final byte k1[] = "key1".getBytes(UTF_8); final byte v1[] = "value1".getBytes(UTF_8); final byte k2[] = "key2".getBytes(UTF_8); final byte v2[] = "value2".getBytes(UTF_8); final byte k3[] = "key3".getBytes(UTF_8); final byte v3[] = "value3".getBytes(UTF_8); try(final DBContainer dbContainer = startDb(); final ReadOptions readOptions = new ReadOptions(); final Transaction txn = dbContainer.beginTransaction()) { txn.put(k1, v1); assertThat(txn.get(readOptions, k1)).isEqualTo(v1); assertThat(txn.getNumKeys()).isEqualTo(1); try(final WriteBatch writeBatch = new WriteBatch()) { writeBatch.put(k2, v2); writeBatch.put(k3, v3); txn.rebuildFromWriteBatch(writeBatch); assertThat(txn.get(readOptions, k1)).isEqualTo(v1); assertThat(txn.get(readOptions, k2)).isEqualTo(v2); assertThat(txn.get(readOptions, k3)).isEqualTo(v3); assertThat(txn.getNumKeys()).isEqualTo(3); } } } @Test public void getCommitTimeWriteBatch() throws RocksDBException { final byte k1[] = "key1".getBytes(UTF_8); final byte v1[] = "value1".getBytes(UTF_8); try(final DBContainer dbContainer = startDb(); final Transaction txn = dbContainer.beginTransaction()) { txn.put(k1, v1); final WriteBatch writeBatch = txn.getCommitTimeWriteBatch(); assertThat(writeBatch).isNotNull(); assertThat(writeBatch.isOwningHandle()).isFalse(); assertThat(writeBatch.count()).isEqualTo(0); } } @Test public void logNumber() throws RocksDBException { try(final DBContainer dbContainer = startDb(); final Transaction txn = dbContainer.beginTransaction()) { assertThat(txn.getLogNumber()).isEqualTo(0); final long logNumber = rand.nextLong(); txn.setLogNumber(logNumber); assertThat(txn.getLogNumber()).isEqualTo(logNumber); } } private static byte[] concat(final byte[][] bufs) { int resultLength = 0; for(final byte[] buf : bufs) { resultLength += buf.length; } final byte[] result = new byte[resultLength]; int resultOffset = 0; for(final byte[] buf : bufs) { final int srcLength = buf.length; System.arraycopy(buf, 0, result, resultOffset, srcLength); resultOffset += srcLength; } return result; } private static class TestTransactionNotifier extends AbstractTransactionNotifier { private final List createdSnapshots = new ArrayList<>(); @Override public void snapshotCreated(final Snapshot newSnapshot) { createdSnapshots.add(newSnapshot); } public List getCreatedSnapshots() { return createdSnapshots; } } protected static abstract class DBContainer implements AutoCloseable { protected final WriteOptions writeOptions; protected final List columnFamilyHandles; protected final ColumnFamilyOptions columnFamilyOptions; protected final DBOptions options; public DBContainer(final WriteOptions writeOptions, final List columnFamilyHandles, final ColumnFamilyOptions columnFamilyOptions, final DBOptions options) { this.writeOptions = writeOptions; this.columnFamilyHandles = columnFamilyHandles; this.columnFamilyOptions = columnFamilyOptions; this.options = options; } public abstract Transaction beginTransaction(); public abstract Transaction beginTransaction( final WriteOptions writeOptions); public ColumnFamilyHandle getTestColumnFamily() { return columnFamilyHandles.get(1); } @Override public abstract void close(); } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/BackupEngineTest.java000066400000000000000000000226421337235545400251420ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import org.junit.ClassRule; import org.junit.Rule; import org.junit.Test; import org.junit.rules.TemporaryFolder; import java.util.List; import java.util.concurrent.ThreadLocalRandom; import static org.assertj.core.api.Assertions.assertThat; public class BackupEngineTest { @ClassRule public static final RocksMemoryResource rocksMemoryResource = new RocksMemoryResource(); @Rule public TemporaryFolder dbFolder = new TemporaryFolder(); @Rule public TemporaryFolder backupFolder = new TemporaryFolder(); @Test public void backupDb() throws RocksDBException { // Open empty database. try(final Options opt = new Options().setCreateIfMissing(true); final RocksDB db = RocksDB.open(opt, dbFolder.getRoot().getAbsolutePath())) { // Fill database with some test values prepareDatabase(db); // Create two backups try(final BackupableDBOptions bopt = new BackupableDBOptions( backupFolder.getRoot().getAbsolutePath()); final BackupEngine be = BackupEngine.open(opt.getEnv(), bopt)) { be.createNewBackup(db, false); be.createNewBackup(db, true); verifyNumberOfValidBackups(be, 2); } } } @Test public void deleteBackup() throws RocksDBException { // Open empty database. try(final Options opt = new Options().setCreateIfMissing(true); final RocksDB db = RocksDB.open(opt, dbFolder.getRoot().getAbsolutePath())) { // Fill database with some test values prepareDatabase(db); // Create two backups try(final BackupableDBOptions bopt = new BackupableDBOptions( backupFolder.getRoot().getAbsolutePath()); final BackupEngine be = BackupEngine.open(opt.getEnv(), bopt)) { be.createNewBackup(db, false); be.createNewBackup(db, true); final List backupInfo = verifyNumberOfValidBackups(be, 2); // Delete the first backup be.deleteBackup(backupInfo.get(0).backupId()); final List newBackupInfo = verifyNumberOfValidBackups(be, 1); // The second backup must remain. assertThat(newBackupInfo.get(0).backupId()). isEqualTo(backupInfo.get(1).backupId()); } } } @Test public void purgeOldBackups() throws RocksDBException { // Open empty database. try(final Options opt = new Options().setCreateIfMissing(true); final RocksDB db = RocksDB.open(opt, dbFolder.getRoot().getAbsolutePath())) { // Fill database with some test values prepareDatabase(db); // Create four backups try(final BackupableDBOptions bopt = new BackupableDBOptions( backupFolder.getRoot().getAbsolutePath()); final BackupEngine be = BackupEngine.open(opt.getEnv(), bopt)) { be.createNewBackup(db, false); be.createNewBackup(db, true); be.createNewBackup(db, true); be.createNewBackup(db, true); final List backupInfo = verifyNumberOfValidBackups(be, 4); // Delete everything except the latest backup be.purgeOldBackups(1); final List newBackupInfo = verifyNumberOfValidBackups(be, 1); // The latest backup must remain. assertThat(newBackupInfo.get(0).backupId()). isEqualTo(backupInfo.get(3).backupId()); } } } @Test public void restoreLatestBackup() throws RocksDBException { try(final Options opt = new Options().setCreateIfMissing(true)) { // Open empty database. RocksDB db = null; try { db = RocksDB.open(opt, dbFolder.getRoot().getAbsolutePath()); // Fill database with some test values prepareDatabase(db); try (final BackupableDBOptions bopt = new BackupableDBOptions( backupFolder.getRoot().getAbsolutePath()); final BackupEngine be = BackupEngine.open(opt.getEnv(), bopt)) { be.createNewBackup(db, true); verifyNumberOfValidBackups(be, 1); db.put("key1".getBytes(), "valueV2".getBytes()); db.put("key2".getBytes(), "valueV2".getBytes()); be.createNewBackup(db, true); verifyNumberOfValidBackups(be, 2); db.put("key1".getBytes(), "valueV3".getBytes()); db.put("key2".getBytes(), "valueV3".getBytes()); assertThat(new String(db.get("key1".getBytes()))).endsWith("V3"); assertThat(new String(db.get("key2".getBytes()))).endsWith("V3"); db.close(); db = null; verifyNumberOfValidBackups(be, 2); // restore db from latest backup try(final RestoreOptions ropts = new RestoreOptions(false)) { be.restoreDbFromLatestBackup(dbFolder.getRoot().getAbsolutePath(), dbFolder.getRoot().getAbsolutePath(), ropts); } // Open database again. db = RocksDB.open(opt, dbFolder.getRoot().getAbsolutePath()); // Values must have suffix V2 because of restoring latest backup. assertThat(new String(db.get("key1".getBytes()))).endsWith("V2"); assertThat(new String(db.get("key2".getBytes()))).endsWith("V2"); } } finally { if(db != null) { db.close(); } } } } @Test public void restoreFromBackup() throws RocksDBException { try(final Options opt = new Options().setCreateIfMissing(true)) { RocksDB db = null; try { // Open empty database. db = RocksDB.open(opt, dbFolder.getRoot().getAbsolutePath()); // Fill database with some test values prepareDatabase(db); try (final BackupableDBOptions bopt = new BackupableDBOptions( backupFolder.getRoot().getAbsolutePath()); final BackupEngine be = BackupEngine.open(opt.getEnv(), bopt)) { be.createNewBackup(db, true); verifyNumberOfValidBackups(be, 1); db.put("key1".getBytes(), "valueV2".getBytes()); db.put("key2".getBytes(), "valueV2".getBytes()); be.createNewBackup(db, true); verifyNumberOfValidBackups(be, 2); db.put("key1".getBytes(), "valueV3".getBytes()); db.put("key2".getBytes(), "valueV3".getBytes()); assertThat(new String(db.get("key1".getBytes()))).endsWith("V3"); assertThat(new String(db.get("key2".getBytes()))).endsWith("V3"); //close the database db.close(); db = null; //restore the backup final List backupInfo = verifyNumberOfValidBackups(be, 2); // restore db from first backup be.restoreDbFromBackup(backupInfo.get(0).backupId(), dbFolder.getRoot().getAbsolutePath(), dbFolder.getRoot().getAbsolutePath(), new RestoreOptions(false)); // Open database again. db = RocksDB.open(opt, dbFolder.getRoot().getAbsolutePath()); // Values must have suffix V2 because of restoring latest backup. assertThat(new String(db.get("key1".getBytes()))).endsWith("V1"); assertThat(new String(db.get("key2".getBytes()))).endsWith("V1"); } } finally { if(db != null) { db.close(); } } } } @Test public void backupDbWithMetadata() throws RocksDBException { // Open empty database. try (final Options opt = new Options().setCreateIfMissing(true); final RocksDB db = RocksDB.open(opt, dbFolder.getRoot().getAbsolutePath())) { // Fill database with some test values prepareDatabase(db); // Create two backups try (final BackupableDBOptions bopt = new BackupableDBOptions(backupFolder.getRoot().getAbsolutePath()); final BackupEngine be = BackupEngine.open(opt.getEnv(), bopt)) { final String metadata = String.valueOf(ThreadLocalRandom.current().nextInt()); be.createNewBackupWithMetadata(db, metadata, true); final List backupInfoList = verifyNumberOfValidBackups(be, 1); assertThat(backupInfoList.get(0).appMetadata()).isEqualTo(metadata); } } } /** * Verify backups. * * @param be {@link BackupEngine} instance. * @param expectedNumberOfBackups numerical value * @throws RocksDBException thrown if an error occurs within the native * part of the library. */ private List verifyNumberOfValidBackups(final BackupEngine be, final int expectedNumberOfBackups) throws RocksDBException { // Verify that backups exist assertThat(be.getCorruptedBackups().length). isEqualTo(0); be.garbageCollect(); final List backupInfo = be.getBackupInfo(); assertThat(backupInfo.size()). isEqualTo(expectedNumberOfBackups); return backupInfo; } /** * Fill database with some test values. * * @param db {@link RocksDB} instance. * @throws RocksDBException thrown if an error occurs within the native * part of the library. */ private void prepareDatabase(final RocksDB db) throws RocksDBException { db.put("key1".getBytes(), "valueV1".getBytes()); db.put("key2".getBytes(), "valueV1".getBytes()); } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/BackupableDBOptionsTest.java000066400000000000000000000242431337235545400264210ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import static org.assertj.core.api.Assertions.assertThat; import java.util.Random; import org.junit.ClassRule; import org.junit.Rule; import org.junit.Test; import org.junit.rules.ExpectedException; public class BackupableDBOptionsTest { private final static String ARBITRARY_PATH = System.getProperty("java.io.tmpdir"); @ClassRule public static final RocksMemoryResource rocksMemoryResource = new RocksMemoryResource(); @Rule public ExpectedException exception = ExpectedException.none(); public static final Random rand = PlatformRandomHelper. getPlatformSpecificRandomFactory(); @Test public void backupDir() { try (final BackupableDBOptions backupableDBOptions = new BackupableDBOptions(ARBITRARY_PATH)) { assertThat(backupableDBOptions.backupDir()). isEqualTo(ARBITRARY_PATH); } } @Test public void env() { try (final BackupableDBOptions backupableDBOptions = new BackupableDBOptions(ARBITRARY_PATH)) { assertThat(backupableDBOptions.backupEnv()). isNull(); try(final Env env = new RocksMemEnv()) { backupableDBOptions.setBackupEnv(env); assertThat(backupableDBOptions.backupEnv()) .isEqualTo(env); } } } @Test public void shareTableFiles() { try (final BackupableDBOptions backupableDBOptions = new BackupableDBOptions(ARBITRARY_PATH)) { final boolean value = rand.nextBoolean(); backupableDBOptions.setShareTableFiles(value); assertThat(backupableDBOptions.shareTableFiles()). isEqualTo(value); } } @Test public void infoLog() { try (final BackupableDBOptions backupableDBOptions = new BackupableDBOptions(ARBITRARY_PATH)) { assertThat(backupableDBOptions.infoLog()). isNull(); try(final Options options = new Options(); final Logger logger = new Logger(options){ @Override protected void log(InfoLogLevel infoLogLevel, String logMsg) { } }) { backupableDBOptions.setInfoLog(logger); assertThat(backupableDBOptions.infoLog()) .isEqualTo(logger); } } } @Test public void sync() { try (final BackupableDBOptions backupableDBOptions = new BackupableDBOptions(ARBITRARY_PATH)) { final boolean value = rand.nextBoolean(); backupableDBOptions.setSync(value); assertThat(backupableDBOptions.sync()).isEqualTo(value); } } @Test public void destroyOldData() { try (final BackupableDBOptions backupableDBOptions = new BackupableDBOptions(ARBITRARY_PATH);) { final boolean value = rand.nextBoolean(); backupableDBOptions.setDestroyOldData(value); assertThat(backupableDBOptions.destroyOldData()). isEqualTo(value); } } @Test public void backupLogFiles() { try (final BackupableDBOptions backupableDBOptions = new BackupableDBOptions(ARBITRARY_PATH)) { final boolean value = rand.nextBoolean(); backupableDBOptions.setBackupLogFiles(value); assertThat(backupableDBOptions.backupLogFiles()). isEqualTo(value); } } @Test public void backupRateLimit() { try (final BackupableDBOptions backupableDBOptions = new BackupableDBOptions(ARBITRARY_PATH)) { final long value = Math.abs(rand.nextLong()); backupableDBOptions.setBackupRateLimit(value); assertThat(backupableDBOptions.backupRateLimit()). isEqualTo(value); // negative will be mapped to 0 backupableDBOptions.setBackupRateLimit(-1); assertThat(backupableDBOptions.backupRateLimit()). isEqualTo(0); } } @Test public void backupRateLimiter() { try (final BackupableDBOptions backupableDBOptions = new BackupableDBOptions(ARBITRARY_PATH)) { assertThat(backupableDBOptions.backupEnv()). isNull(); try(final RateLimiter backupRateLimiter = new RateLimiter(999)) { backupableDBOptions.setBackupRateLimiter(backupRateLimiter); assertThat(backupableDBOptions.backupRateLimiter()) .isEqualTo(backupRateLimiter); } } } @Test public void restoreRateLimit() { try (final BackupableDBOptions backupableDBOptions = new BackupableDBOptions(ARBITRARY_PATH)) { final long value = Math.abs(rand.nextLong()); backupableDBOptions.setRestoreRateLimit(value); assertThat(backupableDBOptions.restoreRateLimit()). isEqualTo(value); // negative will be mapped to 0 backupableDBOptions.setRestoreRateLimit(-1); assertThat(backupableDBOptions.restoreRateLimit()). isEqualTo(0); } } @Test public void restoreRateLimiter() { try (final BackupableDBOptions backupableDBOptions = new BackupableDBOptions(ARBITRARY_PATH)) { assertThat(backupableDBOptions.backupEnv()). isNull(); try(final RateLimiter restoreRateLimiter = new RateLimiter(911)) { backupableDBOptions.setRestoreRateLimiter(restoreRateLimiter); assertThat(backupableDBOptions.restoreRateLimiter()) .isEqualTo(restoreRateLimiter); } } } @Test public void shareFilesWithChecksum() { try (final BackupableDBOptions backupableDBOptions = new BackupableDBOptions(ARBITRARY_PATH)) { boolean value = rand.nextBoolean(); backupableDBOptions.setShareFilesWithChecksum(value); assertThat(backupableDBOptions.shareFilesWithChecksum()). isEqualTo(value); } } @Test public void maxBackgroundOperations() { try (final BackupableDBOptions backupableDBOptions = new BackupableDBOptions(ARBITRARY_PATH)) { final int value = rand.nextInt(); backupableDBOptions.setMaxBackgroundOperations(value); assertThat(backupableDBOptions.maxBackgroundOperations()). isEqualTo(value); } } @Test public void callbackTriggerIntervalSize() { try (final BackupableDBOptions backupableDBOptions = new BackupableDBOptions(ARBITRARY_PATH)) { final long value = rand.nextLong(); backupableDBOptions.setCallbackTriggerIntervalSize(value); assertThat(backupableDBOptions.callbackTriggerIntervalSize()). isEqualTo(value); } } @Test public void failBackupDirIsNull() { exception.expect(IllegalArgumentException.class); try (final BackupableDBOptions opts = new BackupableDBOptions(null)) { //no-op } } @Test public void failBackupDirIfDisposed() { try (final BackupableDBOptions options = setupUninitializedBackupableDBOptions(exception)) { options.backupDir(); } } @Test public void failSetShareTableFilesIfDisposed() { try (final BackupableDBOptions options = setupUninitializedBackupableDBOptions(exception)) { options.setShareTableFiles(true); } } @Test public void failShareTableFilesIfDisposed() { try (BackupableDBOptions options = setupUninitializedBackupableDBOptions(exception)) { options.shareTableFiles(); } } @Test public void failSetSyncIfDisposed() { try (final BackupableDBOptions options = setupUninitializedBackupableDBOptions(exception)) { options.setSync(true); } } @Test public void failSyncIfDisposed() { try (final BackupableDBOptions options = setupUninitializedBackupableDBOptions(exception)) { options.sync(); } } @Test public void failSetDestroyOldDataIfDisposed() { try (final BackupableDBOptions options = setupUninitializedBackupableDBOptions(exception)) { options.setDestroyOldData(true); } } @Test public void failDestroyOldDataIfDisposed() { try (final BackupableDBOptions options = setupUninitializedBackupableDBOptions(exception)) { options.destroyOldData(); } } @Test public void failSetBackupLogFilesIfDisposed() { try (final BackupableDBOptions options = setupUninitializedBackupableDBOptions(exception)) { options.setBackupLogFiles(true); } } @Test public void failBackupLogFilesIfDisposed() { try (final BackupableDBOptions options = setupUninitializedBackupableDBOptions(exception)) { options.backupLogFiles(); } } @Test public void failSetBackupRateLimitIfDisposed() { try (final BackupableDBOptions options = setupUninitializedBackupableDBOptions(exception)) { options.setBackupRateLimit(1); } } @Test public void failBackupRateLimitIfDisposed() { try (final BackupableDBOptions options = setupUninitializedBackupableDBOptions(exception)) { options.backupRateLimit(); } } @Test public void failSetRestoreRateLimitIfDisposed() { try (final BackupableDBOptions options = setupUninitializedBackupableDBOptions(exception)) { options.setRestoreRateLimit(1); } } @Test public void failRestoreRateLimitIfDisposed() { try (final BackupableDBOptions options = setupUninitializedBackupableDBOptions(exception)) { options.restoreRateLimit(); } } @Test public void failSetShareFilesWithChecksumIfDisposed() { try (final BackupableDBOptions options = setupUninitializedBackupableDBOptions(exception)) { options.setShareFilesWithChecksum(true); } } @Test public void failShareFilesWithChecksumIfDisposed() { try (final BackupableDBOptions options = setupUninitializedBackupableDBOptions(exception)) { options.shareFilesWithChecksum(); } } private BackupableDBOptions setupUninitializedBackupableDBOptions( ExpectedException exception) { final BackupableDBOptions backupableDBOptions = new BackupableDBOptions(ARBITRARY_PATH); backupableDBOptions.close(); exception.expect(AssertionError.class); return backupableDBOptions; } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/BlockBasedTableConfigTest.java000066400000000000000000000161511337235545400266740ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import org.junit.ClassRule; import org.junit.Rule; import org.junit.Test; import org.junit.rules.TemporaryFolder; import java.nio.charset.StandardCharsets; import static org.assertj.core.api.Assertions.assertThat; public class BlockBasedTableConfigTest { @ClassRule public static final RocksMemoryResource rocksMemoryResource = new RocksMemoryResource(); @Rule public TemporaryFolder dbFolder = new TemporaryFolder(); @Test public void noBlockCache() { BlockBasedTableConfig blockBasedTableConfig = new BlockBasedTableConfig(); blockBasedTableConfig.setNoBlockCache(true); assertThat(blockBasedTableConfig.noBlockCache()).isTrue(); } @Test public void blockCacheSize() { BlockBasedTableConfig blockBasedTableConfig = new BlockBasedTableConfig(); blockBasedTableConfig.setBlockCacheSize(8 * 1024); assertThat(blockBasedTableConfig.blockCacheSize()). isEqualTo(8 * 1024); } @Test public void sharedBlockCache() throws RocksDBException { try (final Cache cache = new LRUCache(8 * 1024 * 1024); final Statistics statistics = new Statistics()) { for (int shard = 0; shard < 8; shard++) { try (final Options options = new Options() .setCreateIfMissing(true) .setStatistics(statistics) .setTableFormatConfig(new BlockBasedTableConfig().setBlockCache(cache)); final RocksDB db = RocksDB.open(options, dbFolder.getRoot().getAbsolutePath() + "/" + shard)) { final byte[] key = "some-key".getBytes(StandardCharsets.UTF_8); final byte[] value = "some-value".getBytes(StandardCharsets.UTF_8); db.put(key, value); db.flush(new FlushOptions()); db.get(key); assertThat(statistics.getTickerCount(TickerType.BLOCK_CACHE_ADD)).isEqualTo(shard + 1); } } } } @Test public void blockSizeDeviation() { BlockBasedTableConfig blockBasedTableConfig = new BlockBasedTableConfig(); blockBasedTableConfig.setBlockSizeDeviation(12); assertThat(blockBasedTableConfig.blockSizeDeviation()). isEqualTo(12); } @Test public void blockRestartInterval() { BlockBasedTableConfig blockBasedTableConfig = new BlockBasedTableConfig(); blockBasedTableConfig.setBlockRestartInterval(15); assertThat(blockBasedTableConfig.blockRestartInterval()). isEqualTo(15); } @Test public void wholeKeyFiltering() { BlockBasedTableConfig blockBasedTableConfig = new BlockBasedTableConfig(); blockBasedTableConfig.setWholeKeyFiltering(false); assertThat(blockBasedTableConfig.wholeKeyFiltering()). isFalse(); } @Test public void cacheIndexAndFilterBlocks() { BlockBasedTableConfig blockBasedTableConfig = new BlockBasedTableConfig(); blockBasedTableConfig.setCacheIndexAndFilterBlocks(true); assertThat(blockBasedTableConfig.cacheIndexAndFilterBlocks()). isTrue(); } @Test public void hashIndexAllowCollision() { BlockBasedTableConfig blockBasedTableConfig = new BlockBasedTableConfig(); blockBasedTableConfig.setHashIndexAllowCollision(false); assertThat(blockBasedTableConfig.hashIndexAllowCollision()). isFalse(); } @Test public void blockCacheCompressedSize() { BlockBasedTableConfig blockBasedTableConfig = new BlockBasedTableConfig(); blockBasedTableConfig.setBlockCacheCompressedSize(40); assertThat(blockBasedTableConfig.blockCacheCompressedSize()). isEqualTo(40); } @Test public void checksumType() { BlockBasedTableConfig blockBasedTableConfig = new BlockBasedTableConfig(); assertThat(ChecksumType.values().length).isEqualTo(3); assertThat(ChecksumType.valueOf("kxxHash")). isEqualTo(ChecksumType.kxxHash); blockBasedTableConfig.setChecksumType(ChecksumType.kNoChecksum); blockBasedTableConfig.setChecksumType(ChecksumType.kxxHash); assertThat(blockBasedTableConfig.checksumType().equals( ChecksumType.kxxHash)); } @Test public void indexType() { BlockBasedTableConfig blockBasedTableConfig = new BlockBasedTableConfig(); assertThat(IndexType.values().length).isEqualTo(3); blockBasedTableConfig.setIndexType(IndexType.kHashSearch); assertThat(blockBasedTableConfig.indexType().equals( IndexType.kHashSearch)); assertThat(IndexType.valueOf("kBinarySearch")).isNotNull(); blockBasedTableConfig.setIndexType(IndexType.valueOf("kBinarySearch")); assertThat(blockBasedTableConfig.indexType().equals( IndexType.kBinarySearch)); } @Test public void blockCacheCompressedNumShardBits() { BlockBasedTableConfig blockBasedTableConfig = new BlockBasedTableConfig(); blockBasedTableConfig.setBlockCacheCompressedNumShardBits(4); assertThat(blockBasedTableConfig.blockCacheCompressedNumShardBits()). isEqualTo(4); } @Test public void cacheNumShardBits() { BlockBasedTableConfig blockBasedTableConfig = new BlockBasedTableConfig(); blockBasedTableConfig.setCacheNumShardBits(5); assertThat(blockBasedTableConfig.cacheNumShardBits()). isEqualTo(5); } @Test public void blockSize() { BlockBasedTableConfig blockBasedTableConfig = new BlockBasedTableConfig(); blockBasedTableConfig.setBlockSize(10); assertThat(blockBasedTableConfig.blockSize()).isEqualTo(10); } @Test public void blockBasedTableWithFilter() { try(final Options options = new Options() .setTableFormatConfig(new BlockBasedTableConfig() .setFilter(new BloomFilter(10)))) { assertThat(options.tableFactoryName()). isEqualTo("BlockBasedTable"); } } @Test public void blockBasedTableWithoutFilter() { try(final Options options = new Options().setTableFormatConfig( new BlockBasedTableConfig().setFilter(null))) { assertThat(options.tableFactoryName()). isEqualTo("BlockBasedTable"); } } @Test public void blockBasedTableWithBlockCache() { try (final Options options = new Options().setTableFormatConfig( new BlockBasedTableConfig().setBlockCache(new LRUCache(17 * 1024 * 1024)))) { assertThat(options.tableFactoryName()).isEqualTo("BlockBasedTable"); } } @Test public void blockBasedTableFormatVersion() { BlockBasedTableConfig config = new BlockBasedTableConfig(); for (int version=0; version<=2; version++) { config.setFormatVersion(version); assertThat(config.formatVersion()).isEqualTo(version); } } @Test(expected = AssertionError.class) public void blockBasedTableFormatVersionFailNegative() { BlockBasedTableConfig config = new BlockBasedTableConfig(); config.setFormatVersion(-1); } @Test(expected = AssertionError.class) public void blockBasedTableFormatVersionFailIllegalVersion() { BlockBasedTableConfig config = new BlockBasedTableConfig(); config.setFormatVersion(3); } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/CheckPointTest.java000066400000000000000000000047521337235545400246400ustar00rootroot00000000000000package org.rocksdb; import org.junit.ClassRule; import org.junit.Rule; import org.junit.Test; import org.junit.rules.TemporaryFolder; import static org.assertj.core.api.Assertions.assertThat; public class CheckPointTest { @ClassRule public static final RocksMemoryResource rocksMemoryResource = new RocksMemoryResource(); @Rule public TemporaryFolder dbFolder = new TemporaryFolder(); @Rule public TemporaryFolder checkpointFolder = new TemporaryFolder(); @Test public void checkPoint() throws RocksDBException { try (final Options options = new Options(). setCreateIfMissing(true)) { try (final RocksDB db = RocksDB.open(options, dbFolder.getRoot().getAbsolutePath())) { db.put("key".getBytes(), "value".getBytes()); try (final Checkpoint checkpoint = Checkpoint.create(db)) { checkpoint.createCheckpoint(checkpointFolder. getRoot().getAbsolutePath() + "/snapshot1"); db.put("key2".getBytes(), "value2".getBytes()); checkpoint.createCheckpoint(checkpointFolder. getRoot().getAbsolutePath() + "/snapshot2"); } } try (final RocksDB db = RocksDB.open(options, checkpointFolder.getRoot().getAbsolutePath() + "/snapshot1")) { assertThat(new String(db.get("key".getBytes()))). isEqualTo("value"); assertThat(db.get("key2".getBytes())).isNull(); } try (final RocksDB db = RocksDB.open(options, checkpointFolder.getRoot().getAbsolutePath() + "/snapshot2")) { assertThat(new String(db.get("key".getBytes()))). isEqualTo("value"); assertThat(new String(db.get("key2".getBytes()))). isEqualTo("value2"); } } } @Test(expected = IllegalArgumentException.class) public void failIfDbIsNull() { try (final Checkpoint checkpoint = Checkpoint.create(null)) { } } @Test(expected = IllegalStateException.class) public void failIfDbNotInitialized() throws RocksDBException { try (final RocksDB db = RocksDB.open( dbFolder.getRoot().getAbsolutePath())) { db.close(); Checkpoint.create(db); } } @Test(expected = RocksDBException.class) public void failWithIllegalPath() throws RocksDBException { try (final RocksDB db = RocksDB.open(dbFolder.getRoot().getAbsolutePath()); final Checkpoint checkpoint = Checkpoint.create(db)) { checkpoint.createCheckpoint("/Z:///:\\C:\\TZ/-"); } } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/ClockCacheTest.java000066400000000000000000000012271337235545400245620ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import org.junit.Test; public class ClockCacheTest { static { RocksDB.loadLibrary(); } @Test public void newClockCache() { final long capacity = 1000; final int numShardBits = 16; final boolean strictCapacityLimit = true; try(final Cache clockCache = new ClockCache(capacity, numShardBits, strictCapacityLimit)) { //no op } } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/ColumnFamilyOptionsTest.java000066400000000000000000000465551337235545400265730ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import org.junit.ClassRule; import org.junit.Test; import java.util.ArrayList; import java.util.List; import java.util.Properties; import java.util.Random; import static org.assertj.core.api.Assertions.assertThat; public class ColumnFamilyOptionsTest { @ClassRule public static final RocksMemoryResource rocksMemoryResource = new RocksMemoryResource(); public static final Random rand = PlatformRandomHelper. getPlatformSpecificRandomFactory(); @Test public void copyConstructor() { ColumnFamilyOptions origOpts = new ColumnFamilyOptions(); origOpts.setNumLevels(rand.nextInt(8)); origOpts.setTargetFileSizeMultiplier(rand.nextInt(100)); origOpts.setLevel0StopWritesTrigger(rand.nextInt(50)); ColumnFamilyOptions copyOpts = new ColumnFamilyOptions(origOpts); assertThat(origOpts.numLevels()).isEqualTo(copyOpts.numLevels()); assertThat(origOpts.targetFileSizeMultiplier()).isEqualTo(copyOpts.targetFileSizeMultiplier()); assertThat(origOpts.level0StopWritesTrigger()).isEqualTo(copyOpts.level0StopWritesTrigger()); } @Test public void getColumnFamilyOptionsFromProps() { Properties properties = new Properties(); properties.put("write_buffer_size", "112"); properties.put("max_write_buffer_number", "13"); try (final ColumnFamilyOptions opt = ColumnFamilyOptions. getColumnFamilyOptionsFromProps(properties)) { // setup sample properties assertThat(opt).isNotNull(); assertThat(String.valueOf(opt.writeBufferSize())). isEqualTo(properties.get("write_buffer_size")); assertThat(String.valueOf(opt.maxWriteBufferNumber())). isEqualTo(properties.get("max_write_buffer_number")); } } @Test public void failColumnFamilyOptionsFromPropsWithIllegalValue() { // setup sample properties final Properties properties = new Properties(); properties.put("tomato", "1024"); properties.put("burger", "2"); try (final ColumnFamilyOptions opt = ColumnFamilyOptions.getColumnFamilyOptionsFromProps(properties)) { assertThat(opt).isNull(); } } @Test(expected = IllegalArgumentException.class) public void failColumnFamilyOptionsFromPropsWithNullValue() { try (final ColumnFamilyOptions opt = ColumnFamilyOptions.getColumnFamilyOptionsFromProps(null)) { } } @Test(expected = IllegalArgumentException.class) public void failColumnFamilyOptionsFromPropsWithEmptyProps() { try (final ColumnFamilyOptions opt = ColumnFamilyOptions.getColumnFamilyOptionsFromProps( new Properties())) { } } @Test public void writeBufferSize() throws RocksDBException { try (final ColumnFamilyOptions opt = new ColumnFamilyOptions()) { final long longValue = rand.nextLong(); opt.setWriteBufferSize(longValue); assertThat(opt.writeBufferSize()).isEqualTo(longValue); } } @Test public void maxWriteBufferNumber() { try (final ColumnFamilyOptions opt = new ColumnFamilyOptions()) { final int intValue = rand.nextInt(); opt.setMaxWriteBufferNumber(intValue); assertThat(opt.maxWriteBufferNumber()).isEqualTo(intValue); } } @Test public void minWriteBufferNumberToMerge() { try (final ColumnFamilyOptions opt = new ColumnFamilyOptions()) { final int intValue = rand.nextInt(); opt.setMinWriteBufferNumberToMerge(intValue); assertThat(opt.minWriteBufferNumberToMerge()).isEqualTo(intValue); } } @Test public void numLevels() { try (final ColumnFamilyOptions opt = new ColumnFamilyOptions()) { final int intValue = rand.nextInt(); opt.setNumLevels(intValue); assertThat(opt.numLevels()).isEqualTo(intValue); } } @Test public void levelZeroFileNumCompactionTrigger() { try (final ColumnFamilyOptions opt = new ColumnFamilyOptions()) { final int intValue = rand.nextInt(); opt.setLevelZeroFileNumCompactionTrigger(intValue); assertThat(opt.levelZeroFileNumCompactionTrigger()).isEqualTo(intValue); } } @Test public void levelZeroSlowdownWritesTrigger() { try (final ColumnFamilyOptions opt = new ColumnFamilyOptions()) { final int intValue = rand.nextInt(); opt.setLevelZeroSlowdownWritesTrigger(intValue); assertThat(opt.levelZeroSlowdownWritesTrigger()).isEqualTo(intValue); } } @Test public void levelZeroStopWritesTrigger() { try (final ColumnFamilyOptions opt = new ColumnFamilyOptions()) { final int intValue = rand.nextInt(); opt.setLevelZeroStopWritesTrigger(intValue); assertThat(opt.levelZeroStopWritesTrigger()).isEqualTo(intValue); } } @Test public void targetFileSizeBase() { try (final ColumnFamilyOptions opt = new ColumnFamilyOptions()) { final long longValue = rand.nextLong(); opt.setTargetFileSizeBase(longValue); assertThat(opt.targetFileSizeBase()).isEqualTo(longValue); } } @Test public void targetFileSizeMultiplier() { try (final ColumnFamilyOptions opt = new ColumnFamilyOptions()) { final int intValue = rand.nextInt(); opt.setTargetFileSizeMultiplier(intValue); assertThat(opt.targetFileSizeMultiplier()).isEqualTo(intValue); } } @Test public void maxBytesForLevelBase() { try (final ColumnFamilyOptions opt = new ColumnFamilyOptions()) { final long longValue = rand.nextLong(); opt.setMaxBytesForLevelBase(longValue); assertThat(opt.maxBytesForLevelBase()).isEqualTo(longValue); } } @Test public void levelCompactionDynamicLevelBytes() { try (final ColumnFamilyOptions opt = new ColumnFamilyOptions()) { final boolean boolValue = rand.nextBoolean(); opt.setLevelCompactionDynamicLevelBytes(boolValue); assertThat(opt.levelCompactionDynamicLevelBytes()) .isEqualTo(boolValue); } } @Test public void maxBytesForLevelMultiplier() { try (final ColumnFamilyOptions opt = new ColumnFamilyOptions()) { final double doubleValue = rand.nextDouble(); opt.setMaxBytesForLevelMultiplier(doubleValue); assertThat(opt.maxBytesForLevelMultiplier()).isEqualTo(doubleValue); } } @Test public void maxBytesForLevelMultiplierAdditional() { try (final ColumnFamilyOptions opt = new ColumnFamilyOptions()) { final int intValue1 = rand.nextInt(); final int intValue2 = rand.nextInt(); final int[] ints = new int[]{intValue1, intValue2}; opt.setMaxBytesForLevelMultiplierAdditional(ints); assertThat(opt.maxBytesForLevelMultiplierAdditional()).isEqualTo(ints); } } @Test public void maxCompactionBytes() { try (final ColumnFamilyOptions opt = new ColumnFamilyOptions()) { final long longValue = rand.nextLong(); opt.setMaxCompactionBytes(longValue); assertThat(opt.maxCompactionBytes()).isEqualTo(longValue); } } @Test public void softPendingCompactionBytesLimit() { try (final ColumnFamilyOptions opt = new ColumnFamilyOptions()) { final long longValue = rand.nextLong(); opt.setSoftPendingCompactionBytesLimit(longValue); assertThat(opt.softPendingCompactionBytesLimit()).isEqualTo(longValue); } } @Test public void hardPendingCompactionBytesLimit() { try (final ColumnFamilyOptions opt = new ColumnFamilyOptions()) { final long longValue = rand.nextLong(); opt.setHardPendingCompactionBytesLimit(longValue); assertThat(opt.hardPendingCompactionBytesLimit()).isEqualTo(longValue); } } @Test public void level0FileNumCompactionTrigger() { try (final ColumnFamilyOptions opt = new ColumnFamilyOptions()) { final int intValue = rand.nextInt(); opt.setLevel0FileNumCompactionTrigger(intValue); assertThat(opt.level0FileNumCompactionTrigger()).isEqualTo(intValue); } } @Test public void level0SlowdownWritesTrigger() { try (final ColumnFamilyOptions opt = new ColumnFamilyOptions()) { final int intValue = rand.nextInt(); opt.setLevel0SlowdownWritesTrigger(intValue); assertThat(opt.level0SlowdownWritesTrigger()).isEqualTo(intValue); } } @Test public void level0StopWritesTrigger() { try (final ColumnFamilyOptions opt = new ColumnFamilyOptions()) { final int intValue = rand.nextInt(); opt.setLevel0StopWritesTrigger(intValue); assertThat(opt.level0StopWritesTrigger()).isEqualTo(intValue); } } @Test public void arenaBlockSize() throws RocksDBException { try (final ColumnFamilyOptions opt = new ColumnFamilyOptions()) { final long longValue = rand.nextLong(); opt.setArenaBlockSize(longValue); assertThat(opt.arenaBlockSize()).isEqualTo(longValue); } } @Test public void disableAutoCompactions() { try (final ColumnFamilyOptions opt = new ColumnFamilyOptions()) { final boolean boolValue = rand.nextBoolean(); opt.setDisableAutoCompactions(boolValue); assertThat(opt.disableAutoCompactions()).isEqualTo(boolValue); } } @Test public void maxSequentialSkipInIterations() { try (final ColumnFamilyOptions opt = new ColumnFamilyOptions()) { final long longValue = rand.nextLong(); opt.setMaxSequentialSkipInIterations(longValue); assertThat(opt.maxSequentialSkipInIterations()).isEqualTo(longValue); } } @Test public void inplaceUpdateSupport() { try (final ColumnFamilyOptions opt = new ColumnFamilyOptions()) { final boolean boolValue = rand.nextBoolean(); opt.setInplaceUpdateSupport(boolValue); assertThat(opt.inplaceUpdateSupport()).isEqualTo(boolValue); } } @Test public void inplaceUpdateNumLocks() throws RocksDBException { try (final ColumnFamilyOptions opt = new ColumnFamilyOptions()) { final long longValue = rand.nextLong(); opt.setInplaceUpdateNumLocks(longValue); assertThat(opt.inplaceUpdateNumLocks()).isEqualTo(longValue); } } @Test public void memtablePrefixBloomSizeRatio() { try (final ColumnFamilyOptions opt = new ColumnFamilyOptions()) { final double doubleValue = rand.nextDouble(); opt.setMemtablePrefixBloomSizeRatio(doubleValue); assertThat(opt.memtablePrefixBloomSizeRatio()).isEqualTo(doubleValue); } } @Test public void memtableHugePageSize() { try (final ColumnFamilyOptions opt = new ColumnFamilyOptions()) { final long longValue = rand.nextLong(); opt.setMemtableHugePageSize(longValue); assertThat(opt.memtableHugePageSize()).isEqualTo(longValue); } } @Test public void bloomLocality() { try (final ColumnFamilyOptions opt = new ColumnFamilyOptions()) { final int intValue = rand.nextInt(); opt.setBloomLocality(intValue); assertThat(opt.bloomLocality()).isEqualTo(intValue); } } @Test public void maxSuccessiveMerges() throws RocksDBException { try (final ColumnFamilyOptions opt = new ColumnFamilyOptions()) { final long longValue = rand.nextLong(); opt.setMaxSuccessiveMerges(longValue); assertThat(opt.maxSuccessiveMerges()).isEqualTo(longValue); } } @Test public void optimizeFiltersForHits() { try (final ColumnFamilyOptions opt = new ColumnFamilyOptions()) { final boolean aBoolean = rand.nextBoolean(); opt.setOptimizeFiltersForHits(aBoolean); assertThat(opt.optimizeFiltersForHits()).isEqualTo(aBoolean); } } @Test public void memTable() throws RocksDBException { try (final ColumnFamilyOptions opt = new ColumnFamilyOptions()) { opt.setMemTableConfig(new HashLinkedListMemTableConfig()); assertThat(opt.memTableFactoryName()). isEqualTo("HashLinkedListRepFactory"); } } @Test public void comparator() throws RocksDBException { try (final ColumnFamilyOptions opt = new ColumnFamilyOptions()) { opt.setComparator(BuiltinComparator.BYTEWISE_COMPARATOR); } } @Test public void linkageOfPrepMethods() { try (final ColumnFamilyOptions options = new ColumnFamilyOptions()) { options.optimizeUniversalStyleCompaction(); options.optimizeUniversalStyleCompaction(4000); options.optimizeLevelStyleCompaction(); options.optimizeLevelStyleCompaction(3000); options.optimizeForPointLookup(10); options.optimizeForSmallDb(); } } @Test public void shouldSetTestPrefixExtractor() { try (final ColumnFamilyOptions options = new ColumnFamilyOptions()) { options.useFixedLengthPrefixExtractor(100); options.useFixedLengthPrefixExtractor(10); } } @Test public void shouldSetTestCappedPrefixExtractor() { try (final ColumnFamilyOptions options = new ColumnFamilyOptions()) { options.useCappedPrefixExtractor(100); options.useCappedPrefixExtractor(10); } } @Test public void compressionTypes() { try (final ColumnFamilyOptions columnFamilyOptions = new ColumnFamilyOptions()) { for (final CompressionType compressionType : CompressionType.values()) { columnFamilyOptions.setCompressionType(compressionType); assertThat(columnFamilyOptions.compressionType()). isEqualTo(compressionType); assertThat(CompressionType.valueOf("NO_COMPRESSION")). isEqualTo(CompressionType.NO_COMPRESSION); } } } @Test public void compressionPerLevel() { try (final ColumnFamilyOptions columnFamilyOptions = new ColumnFamilyOptions()) { assertThat(columnFamilyOptions.compressionPerLevel()).isEmpty(); List compressionTypeList = new ArrayList<>(); for (int i = 0; i < columnFamilyOptions.numLevels(); i++) { compressionTypeList.add(CompressionType.NO_COMPRESSION); } columnFamilyOptions.setCompressionPerLevel(compressionTypeList); compressionTypeList = columnFamilyOptions.compressionPerLevel(); for (CompressionType compressionType : compressionTypeList) { assertThat(compressionType).isEqualTo( CompressionType.NO_COMPRESSION); } } } @Test public void differentCompressionsPerLevel() { try (final ColumnFamilyOptions columnFamilyOptions = new ColumnFamilyOptions()) { columnFamilyOptions.setNumLevels(3); assertThat(columnFamilyOptions.compressionPerLevel()).isEmpty(); List compressionTypeList = new ArrayList<>(); compressionTypeList.add(CompressionType.BZLIB2_COMPRESSION); compressionTypeList.add(CompressionType.SNAPPY_COMPRESSION); compressionTypeList.add(CompressionType.LZ4_COMPRESSION); columnFamilyOptions.setCompressionPerLevel(compressionTypeList); compressionTypeList = columnFamilyOptions.compressionPerLevel(); assertThat(compressionTypeList.size()).isEqualTo(3); assertThat(compressionTypeList). containsExactly( CompressionType.BZLIB2_COMPRESSION, CompressionType.SNAPPY_COMPRESSION, CompressionType.LZ4_COMPRESSION); } } @Test public void bottommostCompressionType() { try (final ColumnFamilyOptions columnFamilyOptions = new ColumnFamilyOptions()) { assertThat(columnFamilyOptions.bottommostCompressionType()) .isEqualTo(CompressionType.DISABLE_COMPRESSION_OPTION); for (final CompressionType compressionType : CompressionType.values()) { columnFamilyOptions.setBottommostCompressionType(compressionType); assertThat(columnFamilyOptions.bottommostCompressionType()) .isEqualTo(compressionType); } } } @Test public void compressionOptions() { try (final ColumnFamilyOptions columnFamilyOptions = new ColumnFamilyOptions(); final CompressionOptions compressionOptions = new CompressionOptions() .setMaxDictBytes(123)) { columnFamilyOptions.setCompressionOptions(compressionOptions); assertThat(columnFamilyOptions.compressionOptions()) .isEqualTo(compressionOptions); assertThat(columnFamilyOptions.compressionOptions().maxDictBytes()) .isEqualTo(123); } } @Test public void compactionStyles() { try (final ColumnFamilyOptions columnFamilyOptions = new ColumnFamilyOptions()) { for (final CompactionStyle compactionStyle : CompactionStyle.values()) { columnFamilyOptions.setCompactionStyle(compactionStyle); assertThat(columnFamilyOptions.compactionStyle()). isEqualTo(compactionStyle); assertThat(CompactionStyle.valueOf("FIFO")). isEqualTo(CompactionStyle.FIFO); } } } @Test public void maxTableFilesSizeFIFO() { try (final ColumnFamilyOptions opt = new ColumnFamilyOptions()) { long longValue = rand.nextLong(); // Size has to be positive longValue = (longValue < 0) ? -longValue : longValue; longValue = (longValue == 0) ? longValue + 1 : longValue; opt.setMaxTableFilesSizeFIFO(longValue); assertThat(opt.maxTableFilesSizeFIFO()). isEqualTo(longValue); } } @Test public void maxWriteBufferNumberToMaintain() { try (final ColumnFamilyOptions opt = new ColumnFamilyOptions()) { int intValue = rand.nextInt(); // Size has to be positive intValue = (intValue < 0) ? -intValue : intValue; intValue = (intValue == 0) ? intValue + 1 : intValue; opt.setMaxWriteBufferNumberToMaintain(intValue); assertThat(opt.maxWriteBufferNumberToMaintain()). isEqualTo(intValue); } } @Test public void compactionPriorities() { try (final ColumnFamilyOptions opt = new ColumnFamilyOptions()) { for (final CompactionPriority compactionPriority : CompactionPriority.values()) { opt.setCompactionPriority(compactionPriority); assertThat(opt.compactionPriority()). isEqualTo(compactionPriority); } } } @Test public void reportBgIoStats() { try (final ColumnFamilyOptions opt = new ColumnFamilyOptions()) { final boolean booleanValue = true; opt.setReportBgIoStats(booleanValue); assertThat(opt.reportBgIoStats()). isEqualTo(booleanValue); } } @Test public void compactionOptionsUniversal() { try (final ColumnFamilyOptions opt = new ColumnFamilyOptions(); final CompactionOptionsUniversal optUni = new CompactionOptionsUniversal() .setCompressionSizePercent(7)) { opt.setCompactionOptionsUniversal(optUni); assertThat(opt.compactionOptionsUniversal()). isEqualTo(optUni); assertThat(opt.compactionOptionsUniversal().compressionSizePercent()) .isEqualTo(7); } } @Test public void compactionOptionsFIFO() { try (final ColumnFamilyOptions opt = new ColumnFamilyOptions(); final CompactionOptionsFIFO optFifo = new CompactionOptionsFIFO() .setMaxTableFilesSize(2000)) { opt.setCompactionOptionsFIFO(optFifo); assertThat(opt.compactionOptionsFIFO()). isEqualTo(optFifo); assertThat(opt.compactionOptionsFIFO().maxTableFilesSize()) .isEqualTo(2000); } } @Test public void forceConsistencyChecks() { try (final ColumnFamilyOptions opt = new ColumnFamilyOptions()) { final boolean booleanValue = true; opt.setForceConsistencyChecks(booleanValue); assertThat(opt.forceConsistencyChecks()). isEqualTo(booleanValue); } } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/ColumnFamilyTest.java000066400000000000000000000624171337235545400252120ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import java.util.*; import org.junit.ClassRule; import org.junit.Rule; import org.junit.Test; import org.junit.rules.TemporaryFolder; import static java.nio.charset.StandardCharsets.UTF_8; import static org.assertj.core.api.Assertions.assertThat; public class ColumnFamilyTest { @ClassRule public static final RocksMemoryResource rocksMemoryResource = new RocksMemoryResource(); @Rule public TemporaryFolder dbFolder = new TemporaryFolder(); @Test public void columnFamilyDescriptorName() throws RocksDBException { final byte[] cfName = "some_name".getBytes(UTF_8); try(final ColumnFamilyOptions cfOptions = new ColumnFamilyOptions()) { final ColumnFamilyDescriptor cfDescriptor = new ColumnFamilyDescriptor(cfName, cfOptions); assertThat(cfDescriptor.getName()).isEqualTo(cfName); } } @Test public void columnFamilyDescriptorOptions() throws RocksDBException { final byte[] cfName = "some_name".getBytes(UTF_8); try(final ColumnFamilyOptions cfOptions = new ColumnFamilyOptions() .setCompressionType(CompressionType.BZLIB2_COMPRESSION)) { final ColumnFamilyDescriptor cfDescriptor = new ColumnFamilyDescriptor(cfName, cfOptions); assertThat(cfDescriptor.getOptions().compressionType()) .isEqualTo(CompressionType.BZLIB2_COMPRESSION); } } @Test public void listColumnFamilies() throws RocksDBException { try (final Options options = new Options().setCreateIfMissing(true); final RocksDB db = RocksDB.open(options, dbFolder.getRoot().getAbsolutePath())) { // Test listColumnFamilies final List columnFamilyNames = RocksDB.listColumnFamilies(options, dbFolder.getRoot().getAbsolutePath()); assertThat(columnFamilyNames).isNotNull(); assertThat(columnFamilyNames.size()).isGreaterThan(0); assertThat(columnFamilyNames.size()).isEqualTo(1); assertThat(new String(columnFamilyNames.get(0))).isEqualTo("default"); } } @Test public void defaultColumnFamily() throws RocksDBException { try (final Options options = new Options().setCreateIfMissing(true); final RocksDB db = RocksDB.open(options, dbFolder.getRoot().getAbsolutePath())) { final ColumnFamilyHandle cfh = db.getDefaultColumnFamily(); try { assertThat(cfh).isNotNull(); assertThat(cfh.getName()).isEqualTo("default".getBytes(UTF_8)); assertThat(cfh.getID()).isEqualTo(0); final byte[] key = "key".getBytes(); final byte[] value = "value".getBytes(); db.put(cfh, key, value); final byte[] actualValue = db.get(cfh, key); assertThat(cfh).isNotNull(); assertThat(actualValue).isEqualTo(value); } finally { cfh.close(); } } } @Test public void createColumnFamily() throws RocksDBException { final byte[] cfName = "new_cf".getBytes(UTF_8); final ColumnFamilyDescriptor cfDescriptor = new ColumnFamilyDescriptor(cfName, new ColumnFamilyOptions()); try (final Options options = new Options().setCreateIfMissing(true); final RocksDB db = RocksDB.open(options, dbFolder.getRoot().getAbsolutePath())) { final ColumnFamilyHandle columnFamilyHandle = db.createColumnFamily(cfDescriptor); try { assertThat(columnFamilyHandle.getName()).isEqualTo(cfName); assertThat(columnFamilyHandle.getID()).isEqualTo(1); final ColumnFamilyDescriptor latestDescriptor = columnFamilyHandle.getDescriptor(); assertThat(latestDescriptor.getName()).isEqualTo(cfName); final List columnFamilyNames = RocksDB.listColumnFamilies( options, dbFolder.getRoot().getAbsolutePath()); assertThat(columnFamilyNames).isNotNull(); assertThat(columnFamilyNames.size()).isGreaterThan(0); assertThat(columnFamilyNames.size()).isEqualTo(2); assertThat(new String(columnFamilyNames.get(0))).isEqualTo("default"); assertThat(new String(columnFamilyNames.get(1))).isEqualTo("new_cf"); } finally { columnFamilyHandle.close(); } } } @Test public void openWithColumnFamilies() throws RocksDBException { final List cfNames = Arrays.asList( new ColumnFamilyDescriptor(RocksDB.DEFAULT_COLUMN_FAMILY), new ColumnFamilyDescriptor("new_cf".getBytes()) ); final List columnFamilyHandleList = new ArrayList<>(); // Test open database with column family names try (final DBOptions options = new DBOptions() .setCreateIfMissing(true) .setCreateMissingColumnFamilies(true); final RocksDB db = RocksDB.open(options, dbFolder.getRoot().getAbsolutePath(), cfNames, columnFamilyHandleList)) { try { assertThat(columnFamilyHandleList.size()).isEqualTo(2); db.put("dfkey1".getBytes(), "dfvalue".getBytes()); db.put(columnFamilyHandleList.get(0), "dfkey2".getBytes(), "dfvalue".getBytes()); db.put(columnFamilyHandleList.get(1), "newcfkey1".getBytes(), "newcfvalue".getBytes()); String retVal = new String(db.get(columnFamilyHandleList.get(1), "newcfkey1".getBytes())); assertThat(retVal).isEqualTo("newcfvalue"); assertThat((db.get(columnFamilyHandleList.get(1), "dfkey1".getBytes()))).isNull(); db.remove(columnFamilyHandleList.get(1), "newcfkey1".getBytes()); assertThat((db.get(columnFamilyHandleList.get(1), "newcfkey1".getBytes()))).isNull(); db.remove(columnFamilyHandleList.get(0), new WriteOptions(), "dfkey2".getBytes()); assertThat(db.get(columnFamilyHandleList.get(0), new ReadOptions(), "dfkey2".getBytes())).isNull(); } finally { for (final ColumnFamilyHandle columnFamilyHandle : columnFamilyHandleList) { columnFamilyHandle.close(); } } } } @Test public void getWithOutValueAndCf() throws RocksDBException { final List cfDescriptors = Arrays.asList( new ColumnFamilyDescriptor(RocksDB.DEFAULT_COLUMN_FAMILY)); final List columnFamilyHandleList = new ArrayList<>(); // Test open database with column family names try (final DBOptions options = new DBOptions() .setCreateIfMissing(true) .setCreateMissingColumnFamilies(true); final RocksDB db = RocksDB.open(options, dbFolder.getRoot().getAbsolutePath(), cfDescriptors, columnFamilyHandleList)) { try { db.put(columnFamilyHandleList.get(0), new WriteOptions(), "key1".getBytes(), "value".getBytes()); db.put("key2".getBytes(), "12345678".getBytes()); final byte[] outValue = new byte[5]; // not found value int getResult = db.get("keyNotFound".getBytes(), outValue); assertThat(getResult).isEqualTo(RocksDB.NOT_FOUND); // found value which fits in outValue getResult = db.get(columnFamilyHandleList.get(0), "key1".getBytes(), outValue); assertThat(getResult).isNotEqualTo(RocksDB.NOT_FOUND); assertThat(outValue).isEqualTo("value".getBytes()); // found value which fits partially getResult = db.get(columnFamilyHandleList.get(0), new ReadOptions(), "key2".getBytes(), outValue); assertThat(getResult).isNotEqualTo(RocksDB.NOT_FOUND); assertThat(outValue).isEqualTo("12345".getBytes()); } finally { for (final ColumnFamilyHandle columnFamilyHandle : columnFamilyHandleList) { columnFamilyHandle.close(); } } } } @Test public void createWriteDropColumnFamily() throws RocksDBException { final List cfDescriptors = Arrays.asList( new ColumnFamilyDescriptor(RocksDB.DEFAULT_COLUMN_FAMILY), new ColumnFamilyDescriptor("new_cf".getBytes())); final List columnFamilyHandleList = new ArrayList<>(); try (final DBOptions options = new DBOptions() .setCreateIfMissing(true) .setCreateMissingColumnFamilies(true); final RocksDB db = RocksDB.open(options, dbFolder.getRoot().getAbsolutePath(), cfDescriptors, columnFamilyHandleList)) { ColumnFamilyHandle tmpColumnFamilyHandle = null; try { tmpColumnFamilyHandle = db.createColumnFamily( new ColumnFamilyDescriptor("tmpCF".getBytes(), new ColumnFamilyOptions())); db.put(tmpColumnFamilyHandle, "key".getBytes(), "value".getBytes()); db.dropColumnFamily(tmpColumnFamilyHandle); } finally { if (tmpColumnFamilyHandle != null) { tmpColumnFamilyHandle.close(); } for (ColumnFamilyHandle columnFamilyHandle : columnFamilyHandleList) { columnFamilyHandle.close(); } } } } @Test public void writeBatch() throws RocksDBException { try (final StringAppendOperator stringAppendOperator = new StringAppendOperator(); final ColumnFamilyOptions defaultCfOptions = new ColumnFamilyOptions() .setMergeOperator(stringAppendOperator)) { final List cfDescriptors = Arrays.asList( new ColumnFamilyDescriptor(RocksDB.DEFAULT_COLUMN_FAMILY, defaultCfOptions), new ColumnFamilyDescriptor("new_cf".getBytes())); final List columnFamilyHandleList = new ArrayList<>(); try (final DBOptions options = new DBOptions() .setCreateIfMissing(true) .setCreateMissingColumnFamilies(true); final RocksDB db = RocksDB.open(options, dbFolder.getRoot().getAbsolutePath(), cfDescriptors, columnFamilyHandleList); final WriteBatch writeBatch = new WriteBatch(); final WriteOptions writeOpt = new WriteOptions()) { try { writeBatch.put("key".getBytes(), "value".getBytes()); writeBatch.put(db.getDefaultColumnFamily(), "mergeKey".getBytes(), "merge".getBytes()); writeBatch.merge(db.getDefaultColumnFamily(), "mergeKey".getBytes(), "merge".getBytes()); writeBatch.put(columnFamilyHandleList.get(1), "newcfkey".getBytes(), "value".getBytes()); writeBatch.put(columnFamilyHandleList.get(1), "newcfkey2".getBytes(), "value2".getBytes()); writeBatch.remove("xyz".getBytes()); writeBatch.remove(columnFamilyHandleList.get(1), "xyz".getBytes()); db.write(writeOpt, writeBatch); assertThat(db.get(columnFamilyHandleList.get(1), "xyz".getBytes()) == null); assertThat(new String(db.get(columnFamilyHandleList.get(1), "newcfkey".getBytes()))).isEqualTo("value"); assertThat(new String(db.get(columnFamilyHandleList.get(1), "newcfkey2".getBytes()))).isEqualTo("value2"); assertThat(new String(db.get("key".getBytes()))).isEqualTo("value"); // check if key is merged assertThat(new String(db.get(db.getDefaultColumnFamily(), "mergeKey".getBytes()))).isEqualTo("merge,merge"); } finally { for (final ColumnFamilyHandle columnFamilyHandle : columnFamilyHandleList) { columnFamilyHandle.close(); } } } } } @Test public void iteratorOnColumnFamily() throws RocksDBException { final List cfDescriptors = Arrays.asList( new ColumnFamilyDescriptor(RocksDB.DEFAULT_COLUMN_FAMILY), new ColumnFamilyDescriptor("new_cf".getBytes())); final List columnFamilyHandleList = new ArrayList<>(); try (final DBOptions options = new DBOptions() .setCreateIfMissing(true) .setCreateMissingColumnFamilies(true); final RocksDB db = RocksDB.open(options, dbFolder.getRoot().getAbsolutePath(), cfDescriptors, columnFamilyHandleList)) { try { db.put(columnFamilyHandleList.get(1), "newcfkey".getBytes(), "value".getBytes()); db.put(columnFamilyHandleList.get(1), "newcfkey2".getBytes(), "value2".getBytes()); try (final RocksIterator rocksIterator = db.newIterator(columnFamilyHandleList.get(1))) { rocksIterator.seekToFirst(); Map refMap = new HashMap<>(); refMap.put("newcfkey", "value"); refMap.put("newcfkey2", "value2"); int i = 0; while (rocksIterator.isValid()) { i++; assertThat(refMap.get(new String(rocksIterator.key()))). isEqualTo(new String(rocksIterator.value())); rocksIterator.next(); } assertThat(i).isEqualTo(2); } } finally { for (final ColumnFamilyHandle columnFamilyHandle : columnFamilyHandleList) { columnFamilyHandle.close(); } } } } @Test public void multiGet() throws RocksDBException { final List cfDescriptors = Arrays.asList( new ColumnFamilyDescriptor(RocksDB.DEFAULT_COLUMN_FAMILY), new ColumnFamilyDescriptor("new_cf".getBytes())); final List columnFamilyHandleList = new ArrayList<>(); try (final DBOptions options = new DBOptions() .setCreateIfMissing(true) .setCreateMissingColumnFamilies(true); final RocksDB db = RocksDB.open(options, dbFolder.getRoot().getAbsolutePath(), cfDescriptors, columnFamilyHandleList)) { try { db.put(columnFamilyHandleList.get(0), "key".getBytes(), "value".getBytes()); db.put(columnFamilyHandleList.get(1), "newcfkey".getBytes(), "value".getBytes()); final List keys = Arrays.asList(new byte[][]{ "key".getBytes(), "newcfkey".getBytes() }); Map retValues = db.multiGet(columnFamilyHandleList, keys); assertThat(retValues.size()).isEqualTo(2); assertThat(new String(retValues.get(keys.get(0)))) .isEqualTo("value"); assertThat(new String(retValues.get(keys.get(1)))) .isEqualTo("value"); retValues = db.multiGet(new ReadOptions(), columnFamilyHandleList, keys); assertThat(retValues.size()).isEqualTo(2); assertThat(new String(retValues.get(keys.get(0)))) .isEqualTo("value"); assertThat(new String(retValues.get(keys.get(1)))) .isEqualTo("value"); } finally { for (final ColumnFamilyHandle columnFamilyHandle : columnFamilyHandleList) { columnFamilyHandle.close(); } } } } @Test public void properties() throws RocksDBException { final List cfDescriptors = Arrays.asList( new ColumnFamilyDescriptor(RocksDB.DEFAULT_COLUMN_FAMILY), new ColumnFamilyDescriptor("new_cf".getBytes())); final List columnFamilyHandleList = new ArrayList<>(); try (final DBOptions options = new DBOptions() .setCreateIfMissing(true) .setCreateMissingColumnFamilies(true); final RocksDB db = RocksDB.open(options, dbFolder.getRoot().getAbsolutePath(), cfDescriptors, columnFamilyHandleList)) { try { assertThat(db.getProperty("rocksdb.estimate-num-keys")). isNotNull(); assertThat(db.getLongProperty(columnFamilyHandleList.get(0), "rocksdb.estimate-num-keys")).isGreaterThanOrEqualTo(0); assertThat(db.getProperty("rocksdb.stats")).isNotNull(); assertThat(db.getProperty(columnFamilyHandleList.get(0), "rocksdb.sstables")).isNotNull(); assertThat(db.getProperty(columnFamilyHandleList.get(1), "rocksdb.estimate-num-keys")).isNotNull(); assertThat(db.getProperty(columnFamilyHandleList.get(1), "rocksdb.stats")).isNotNull(); assertThat(db.getProperty(columnFamilyHandleList.get(1), "rocksdb.sstables")).isNotNull(); assertThat(db.getAggregatedLongProperty("rocksdb.estimate-num-keys")). isNotNull(); assertThat(db.getAggregatedLongProperty("rocksdb.estimate-num-keys")). isGreaterThanOrEqualTo(0); } finally { for (final ColumnFamilyHandle columnFamilyHandle : columnFamilyHandleList) { columnFamilyHandle.close(); } } } } @Test public void iterators() throws RocksDBException { final List cfDescriptors = Arrays.asList( new ColumnFamilyDescriptor(RocksDB.DEFAULT_COLUMN_FAMILY), new ColumnFamilyDescriptor("new_cf".getBytes())); final List columnFamilyHandleList = new ArrayList<>(); try (final DBOptions options = new DBOptions() .setCreateIfMissing(true) .setCreateMissingColumnFamilies(true); final RocksDB db = RocksDB.open(options, dbFolder.getRoot().getAbsolutePath(), cfDescriptors, columnFamilyHandleList)) { List iterators = null; try { iterators = db.newIterators(columnFamilyHandleList); assertThat(iterators.size()).isEqualTo(2); RocksIterator iter = iterators.get(0); iter.seekToFirst(); final Map defRefMap = new HashMap<>(); defRefMap.put("dfkey1", "dfvalue"); defRefMap.put("key", "value"); while (iter.isValid()) { assertThat(defRefMap.get(new String(iter.key()))). isEqualTo(new String(iter.value())); iter.next(); } // iterate over new_cf key/value pairs final Map cfRefMap = new HashMap<>(); cfRefMap.put("newcfkey", "value"); cfRefMap.put("newcfkey2", "value2"); iter = iterators.get(1); iter.seekToFirst(); while (iter.isValid()) { assertThat(cfRefMap.get(new String(iter.key()))). isEqualTo(new String(iter.value())); iter.next(); } } finally { if (iterators != null) { for (final RocksIterator rocksIterator : iterators) { rocksIterator.close(); } } for (final ColumnFamilyHandle columnFamilyHandle : columnFamilyHandleList) { columnFamilyHandle.close(); } } } } @Test(expected = RocksDBException.class) public void failPutDisposedCF() throws RocksDBException { final List cfDescriptors = Arrays.asList( new ColumnFamilyDescriptor(RocksDB.DEFAULT_COLUMN_FAMILY), new ColumnFamilyDescriptor("new_cf".getBytes())); final List columnFamilyHandleList = new ArrayList<>(); try (final DBOptions options = new DBOptions() .setCreateIfMissing(true); final RocksDB db = RocksDB.open(options, dbFolder.getRoot().getAbsolutePath(), cfDescriptors, columnFamilyHandleList)) { try { db.dropColumnFamily(columnFamilyHandleList.get(1)); db.put(columnFamilyHandleList.get(1), "key".getBytes(), "value".getBytes()); } finally { for (ColumnFamilyHandle columnFamilyHandle : columnFamilyHandleList) { columnFamilyHandle.close(); } } } } @Test(expected = RocksDBException.class) public void failRemoveDisposedCF() throws RocksDBException { final List cfDescriptors = Arrays.asList( new ColumnFamilyDescriptor(RocksDB.DEFAULT_COLUMN_FAMILY), new ColumnFamilyDescriptor("new_cf".getBytes())); final List columnFamilyHandleList = new ArrayList<>(); try (final DBOptions options = new DBOptions() .setCreateIfMissing(true); final RocksDB db = RocksDB.open(options, dbFolder.getRoot().getAbsolutePath(), cfDescriptors, columnFamilyHandleList)) { try { db.dropColumnFamily(columnFamilyHandleList.get(1)); db.remove(columnFamilyHandleList.get(1), "key".getBytes()); } finally { for (final ColumnFamilyHandle columnFamilyHandle : columnFamilyHandleList) { columnFamilyHandle.close(); } } } } @Test(expected = RocksDBException.class) public void failGetDisposedCF() throws RocksDBException { final List cfDescriptors = Arrays.asList( new ColumnFamilyDescriptor(RocksDB.DEFAULT_COLUMN_FAMILY), new ColumnFamilyDescriptor("new_cf".getBytes())); final List columnFamilyHandleList = new ArrayList<>(); try (final DBOptions options = new DBOptions() .setCreateIfMissing(true); final RocksDB db = RocksDB.open(options, dbFolder.getRoot().getAbsolutePath(), cfDescriptors, columnFamilyHandleList)) { try { db.dropColumnFamily(columnFamilyHandleList.get(1)); db.get(columnFamilyHandleList.get(1), "key".getBytes()); } finally { for (final ColumnFamilyHandle columnFamilyHandle : columnFamilyHandleList) { columnFamilyHandle.close(); } } } } @Test(expected = RocksDBException.class) public void failMultiGetWithoutCorrectNumberOfCF() throws RocksDBException { final List cfDescriptors = Arrays.asList( new ColumnFamilyDescriptor(RocksDB.DEFAULT_COLUMN_FAMILY), new ColumnFamilyDescriptor("new_cf".getBytes())); final List columnFamilyHandleList = new ArrayList<>(); try (final DBOptions options = new DBOptions() .setCreateIfMissing(true); final RocksDB db = RocksDB.open(options, dbFolder.getRoot().getAbsolutePath(), cfDescriptors, columnFamilyHandleList)) { try { final List keys = new ArrayList<>(); keys.add("key".getBytes()); keys.add("newcfkey".getBytes()); final List cfCustomList = new ArrayList<>(); db.multiGet(cfCustomList, keys); } finally { for (final ColumnFamilyHandle columnFamilyHandle : columnFamilyHandleList) { columnFamilyHandle.close(); } } } } @Test public void testByteCreateFolumnFamily() throws RocksDBException { try (final Options options = new Options().setCreateIfMissing(true); final RocksDB db = RocksDB.open(options, dbFolder.getRoot().getAbsolutePath()) ) { final byte[] b0 = new byte[]{(byte) 0x00}; final byte[] b1 = new byte[]{(byte) 0x01}; final byte[] b2 = new byte[]{(byte) 0x02}; ColumnFamilyHandle cf1 = null, cf2 = null, cf3 = null; try { cf1 = db.createColumnFamily(new ColumnFamilyDescriptor(b0)); cf2 = db.createColumnFamily(new ColumnFamilyDescriptor(b1)); final List families = RocksDB.listColumnFamilies(options, dbFolder.getRoot().getAbsolutePath()); assertThat(families).contains("default".getBytes(), b0, b1); cf3 = db.createColumnFamily(new ColumnFamilyDescriptor(b2)); } finally { if (cf1 != null) { cf1.close(); } if (cf2 != null) { cf2.close(); } if (cf3 != null) { cf3.close(); } } } } @Test public void testCFNamesWithZeroBytes() throws RocksDBException { ColumnFamilyHandle cf1 = null, cf2 = null; try (final Options options = new Options().setCreateIfMissing(true); final RocksDB db = RocksDB.open(options, dbFolder.getRoot().getAbsolutePath()); ) { try { final byte[] b0 = new byte[]{0, 0}; final byte[] b1 = new byte[]{0, 1}; cf1 = db.createColumnFamily(new ColumnFamilyDescriptor(b0)); cf2 = db.createColumnFamily(new ColumnFamilyDescriptor(b1)); final List families = RocksDB.listColumnFamilies(options, dbFolder.getRoot().getAbsolutePath()); assertThat(families).contains("default".getBytes(), b0, b1); } finally { if (cf1 != null) { cf1.close(); } if (cf2 != null) { cf2.close(); } } } } @Test public void testCFNameSimplifiedChinese() throws RocksDBException { ColumnFamilyHandle columnFamilyHandle = null; try (final Options options = new Options().setCreateIfMissing(true); final RocksDB db = RocksDB.open(options, dbFolder.getRoot().getAbsolutePath()); ) { try { final String simplifiedChinese = "\u7b80\u4f53\u5b57"; columnFamilyHandle = db.createColumnFamily( new ColumnFamilyDescriptor(simplifiedChinese.getBytes())); final List families = RocksDB.listColumnFamilies(options, dbFolder.getRoot().getAbsolutePath()); assertThat(families).contains("default".getBytes(), simplifiedChinese.getBytes()); } finally { if (columnFamilyHandle != null) { columnFamilyHandle.close(); } } } } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/CompactRangeOptionsTest.java000066400000000000000000000060361337235545400265250ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import org.junit.Test; import org.rocksdb.CompactRangeOptions.BottommostLevelCompaction; import static org.assertj.core.api.Assertions.assertThat; public class CompactRangeOptionsTest { static { RocksDB.loadLibrary(); } @Test public void exclusiveManualCompaction() { CompactRangeOptions opt = new CompactRangeOptions(); boolean value = false; opt.setExclusiveManualCompaction(value); assertThat(opt.exclusiveManualCompaction()).isEqualTo(value); value = true; opt.setExclusiveManualCompaction(value); assertThat(opt.exclusiveManualCompaction()).isEqualTo(value); } @Test public void bottommostLevelCompaction() { CompactRangeOptions opt = new CompactRangeOptions(); BottommostLevelCompaction value = BottommostLevelCompaction.kSkip; opt.setBottommostLevelCompaction(value); assertThat(opt.bottommostLevelCompaction()).isEqualTo(value); value = BottommostLevelCompaction.kForce; opt.setBottommostLevelCompaction(value); assertThat(opt.bottommostLevelCompaction()).isEqualTo(value); value = BottommostLevelCompaction.kIfHaveCompactionFilter; opt.setBottommostLevelCompaction(value); assertThat(opt.bottommostLevelCompaction()).isEqualTo(value); } @Test public void changeLevel() { CompactRangeOptions opt = new CompactRangeOptions(); boolean value = false; opt.setChangeLevel(value); assertThat(opt.changeLevel()).isEqualTo(value); value = true; opt.setChangeLevel(value); assertThat(opt.changeLevel()).isEqualTo(value); } @Test public void targetLevel() { CompactRangeOptions opt = new CompactRangeOptions(); int value = 2; opt.setTargetLevel(value); assertThat(opt.targetLevel()).isEqualTo(value); value = 3; opt.setTargetLevel(value); assertThat(opt.targetLevel()).isEqualTo(value); } @Test public void targetPathId() { CompactRangeOptions opt = new CompactRangeOptions(); int value = 2; opt.setTargetPathId(value); assertThat(opt.targetPathId()).isEqualTo(value); value = 3; opt.setTargetPathId(value); assertThat(opt.targetPathId()).isEqualTo(value); } @Test public void allowWriteStall() { CompactRangeOptions opt = new CompactRangeOptions(); boolean value = false; opt.setAllowWriteStall(value); assertThat(opt.allowWriteStall()).isEqualTo(value); value = true; opt.setAllowWriteStall(value); assertThat(opt.allowWriteStall()).isEqualTo(value); } @Test public void maxSubcompactions() { CompactRangeOptions opt = new CompactRangeOptions(); int value = 2; opt.setMaxSubcompactions(value); assertThat(opt.maxSubcompactions()).isEqualTo(value); value = 3; opt.setMaxSubcompactions(value); assertThat(opt.maxSubcompactions()).isEqualTo(value); } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/CompactionFilterFactoryTest.java000066400000000000000000000052351337235545400274000ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import org.junit.Rule; import org.junit.Test; import org.junit.rules.TemporaryFolder; import java.util.ArrayList; import java.util.Arrays; import java.util.List; import static org.assertj.core.api.Assertions.assertThat; public class CompactionFilterFactoryTest { @Rule public TemporaryFolder dbFolder = new TemporaryFolder(); @Test public void columnFamilyOptions_setCompactionFilterFactory() throws RocksDBException { try(final DBOptions options = new DBOptions() .setCreateIfMissing(true) .setCreateMissingColumnFamilies(true); final RemoveEmptyValueCompactionFilterFactory compactionFilterFactory = new RemoveEmptyValueCompactionFilterFactory(); final ColumnFamilyOptions new_cf_opts = new ColumnFamilyOptions() .setCompactionFilterFactory(compactionFilterFactory)) { final List cfNames = Arrays.asList( new ColumnFamilyDescriptor(RocksDB.DEFAULT_COLUMN_FAMILY), new ColumnFamilyDescriptor("new_cf".getBytes(), new_cf_opts)); final List cfHandles = new ArrayList<>(); try (final RocksDB rocksDb = RocksDB.open(options, dbFolder.getRoot().getAbsolutePath(), cfNames, cfHandles); ) { try { final byte[] key1 = "key1".getBytes(); final byte[] key2 = "key2".getBytes(); final byte[] value1 = "value1".getBytes(); final byte[] value2 = new byte[0]; rocksDb.put(cfHandles.get(1), key1, value1); rocksDb.put(cfHandles.get(1), key2, value2); rocksDb.compactRange(cfHandles.get(1)); assertThat(rocksDb.get(cfHandles.get(1), key1)).isEqualTo(value1); assertThat(rocksDb.keyMayExist(cfHandles.get(1), key2, new StringBuilder())).isFalse(); } finally { for (final ColumnFamilyHandle cfHandle : cfHandles) { cfHandle.close(); } } } } } private static class RemoveEmptyValueCompactionFilterFactory extends AbstractCompactionFilterFactory { @Override public RemoveEmptyValueCompactionFilter createCompactionFilter(final AbstractCompactionFilter.Context context) { return new RemoveEmptyValueCompactionFilter(); } @Override public String name() { return "RemoveEmptyValueCompactionFilterFactory"; } } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/CompactionOptionsFIFOTest.java000066400000000000000000000013171337235545400267170ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import org.junit.Test; import static org.assertj.core.api.Assertions.assertThat; public class CompactionOptionsFIFOTest { static { RocksDB.loadLibrary(); } @Test public void maxTableFilesSize() { final long size = 500 * 1024 * 1026; try(final CompactionOptionsFIFO opt = new CompactionOptionsFIFO()) { opt.setMaxTableFilesSize(size); assertThat(opt.maxTableFilesSize()).isEqualTo(size); } } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/CompactionOptionsUniversalTest.java000066400000000000000000000050271337235545400301460ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import org.junit.Test; import static org.assertj.core.api.Assertions.assertThat; public class CompactionOptionsUniversalTest { static { RocksDB.loadLibrary(); } @Test public void sizeRatio() { final int sizeRatio = 4; try(final CompactionOptionsUniversal opt = new CompactionOptionsUniversal()) { opt.setSizeRatio(sizeRatio); assertThat(opt.sizeRatio()).isEqualTo(sizeRatio); } } @Test public void minMergeWidth() { final int minMergeWidth = 3; try(final CompactionOptionsUniversal opt = new CompactionOptionsUniversal()) { opt.setMinMergeWidth(minMergeWidth); assertThat(opt.minMergeWidth()).isEqualTo(minMergeWidth); } } @Test public void maxMergeWidth() { final int maxMergeWidth = Integer.MAX_VALUE - 1234; try(final CompactionOptionsUniversal opt = new CompactionOptionsUniversal()) { opt.setMaxMergeWidth(maxMergeWidth); assertThat(opt.maxMergeWidth()).isEqualTo(maxMergeWidth); } } @Test public void maxSizeAmplificationPercent() { final int maxSizeAmplificationPercent = 150; try(final CompactionOptionsUniversal opt = new CompactionOptionsUniversal()) { opt.setMaxSizeAmplificationPercent(maxSizeAmplificationPercent); assertThat(opt.maxSizeAmplificationPercent()).isEqualTo(maxSizeAmplificationPercent); } } @Test public void compressionSizePercent() { final int compressionSizePercent = 500; try(final CompactionOptionsUniversal opt = new CompactionOptionsUniversal()) { opt.setCompressionSizePercent(compressionSizePercent); assertThat(opt.compressionSizePercent()).isEqualTo(compressionSizePercent); } } @Test public void stopStyle() { final CompactionStopStyle stopStyle = CompactionStopStyle.CompactionStopStyleSimilarSize; try(final CompactionOptionsUniversal opt = new CompactionOptionsUniversal()) { opt.setStopStyle(stopStyle); assertThat(opt.stopStyle()).isEqualTo(stopStyle); } } @Test public void allowTrivialMove() { final boolean allowTrivialMove = true; try(final CompactionOptionsUniversal opt = new CompactionOptionsUniversal()) { opt.setAllowTrivialMove(allowTrivialMove); assertThat(opt.allowTrivialMove()).isEqualTo(allowTrivialMove); } } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/CompactionPriorityTest.java000066400000000000000000000017221337235545400264410ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import org.junit.Test; import static org.assertj.core.api.Assertions.assertThat; public class CompactionPriorityTest { @Test(expected = IllegalArgumentException.class) public void failIfIllegalByteValueProvided() { CompactionPriority.getCompactionPriority((byte) -1); } @Test public void getCompactionPriority() { assertThat(CompactionPriority.getCompactionPriority( CompactionPriority.OldestLargestSeqFirst.getValue())) .isEqualTo(CompactionPriority.OldestLargestSeqFirst); } @Test public void valueOf() { assertThat(CompactionPriority.valueOf("OldestSmallestSeqFirst")). isEqualTo(CompactionPriority.OldestSmallestSeqFirst); } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/CompactionStopStyleTest.java000066400000000000000000000017721337235545400265730ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import org.junit.Test; import static org.assertj.core.api.Assertions.assertThat; public class CompactionStopStyleTest { @Test(expected = IllegalArgumentException.class) public void failIfIllegalByteValueProvided() { CompactionStopStyle.getCompactionStopStyle((byte) -1); } @Test public void getCompactionStopStyle() { assertThat(CompactionStopStyle.getCompactionStopStyle( CompactionStopStyle.CompactionStopStyleTotalSize.getValue())) .isEqualTo(CompactionStopStyle.CompactionStopStyleTotalSize); } @Test public void valueOf() { assertThat(CompactionStopStyle.valueOf("CompactionStopStyleSimilarSize")). isEqualTo(CompactionStopStyle.CompactionStopStyleSimilarSize); } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/ComparatorOptionsTest.java000066400000000000000000000016251337235545400262700ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import org.junit.ClassRule; import org.junit.Test; import static org.assertj.core.api.Assertions.assertThat; public class ComparatorOptionsTest { @ClassRule public static final RocksMemoryResource rocksMemoryResource = new RocksMemoryResource(); @Test public void comparatorOptions() { try(final ComparatorOptions copt = new ComparatorOptions()) { assertThat(copt).isNotNull(); // UseAdaptiveMutex test copt.setUseAdaptiveMutex(true); assertThat(copt.useAdaptiveMutex()).isTrue(); copt.setUseAdaptiveMutex(false); assertThat(copt.useAdaptiveMutex()).isFalse(); } } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/ComparatorTest.java000066400000000000000000000156221337235545400247160ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import org.junit.ClassRule; import org.junit.Rule; import org.junit.Test; import org.junit.rules.TemporaryFolder; import java.io.IOException; import java.nio.file.FileSystems; import static org.assertj.core.api.Assertions.assertThat; public class ComparatorTest { @ClassRule public static final RocksMemoryResource rocksMemoryResource = new RocksMemoryResource(); @Rule public TemporaryFolder dbFolder = new TemporaryFolder(); @Test public void javaComparator() throws IOException, RocksDBException { final AbstractComparatorTest comparatorTest = new AbstractComparatorTest() { @Override public AbstractComparator getAscendingIntKeyComparator() { return new Comparator(new ComparatorOptions()) { @Override public String name() { return "test.AscendingIntKeyComparator"; } @Override public int compare(final Slice a, final Slice b) { return compareIntKeys(a.data(), b.data()); } }; } }; // test the round-tripability of keys written and read with the Comparator comparatorTest.testRoundtrip(FileSystems.getDefault().getPath( dbFolder.getRoot().getAbsolutePath())); } @Test public void javaComparatorCf() throws IOException, RocksDBException { final AbstractComparatorTest comparatorTest = new AbstractComparatorTest() { @Override public AbstractComparator getAscendingIntKeyComparator() { return new Comparator(new ComparatorOptions()) { @Override public String name() { return "test.AscendingIntKeyComparator"; } @Override public int compare(final Slice a, final Slice b) { return compareIntKeys(a.data(), b.data()); } }; } }; // test the round-tripability of keys written and read with the Comparator comparatorTest.testRoundtripCf(FileSystems.getDefault().getPath( dbFolder.getRoot().getAbsolutePath())); } @Test public void builtinForwardComparator() throws RocksDBException { try (final Options options = new Options() .setCreateIfMissing(true) .setComparator(BuiltinComparator.BYTEWISE_COMPARATOR); final RocksDB rocksDb = RocksDB.open(options, dbFolder.getRoot().getAbsolutePath()) ) { rocksDb.put("abc1".getBytes(), "abc1".getBytes()); rocksDb.put("abc2".getBytes(), "abc2".getBytes()); rocksDb.put("abc3".getBytes(), "abc3".getBytes()); try(final RocksIterator rocksIterator = rocksDb.newIterator()) { // Iterate over keys using a iterator rocksIterator.seekToFirst(); assertThat(rocksIterator.isValid()).isTrue(); assertThat(rocksIterator.key()).isEqualTo( "abc1".getBytes()); assertThat(rocksIterator.value()).isEqualTo( "abc1".getBytes()); rocksIterator.next(); assertThat(rocksIterator.isValid()).isTrue(); assertThat(rocksIterator.key()).isEqualTo( "abc2".getBytes()); assertThat(rocksIterator.value()).isEqualTo( "abc2".getBytes()); rocksIterator.next(); assertThat(rocksIterator.isValid()).isTrue(); assertThat(rocksIterator.key()).isEqualTo( "abc3".getBytes()); assertThat(rocksIterator.value()).isEqualTo( "abc3".getBytes()); rocksIterator.next(); assertThat(rocksIterator.isValid()).isFalse(); // Get last one rocksIterator.seekToLast(); assertThat(rocksIterator.isValid()).isTrue(); assertThat(rocksIterator.key()).isEqualTo( "abc3".getBytes()); assertThat(rocksIterator.value()).isEqualTo( "abc3".getBytes()); // Seek for abc rocksIterator.seek("abc".getBytes()); assertThat(rocksIterator.isValid()).isTrue(); assertThat(rocksIterator.key()).isEqualTo( "abc1".getBytes()); assertThat(rocksIterator.value()).isEqualTo( "abc1".getBytes()); } } } @Test public void builtinReverseComparator() throws RocksDBException { try (final Options options = new Options() .setCreateIfMissing(true) .setComparator(BuiltinComparator.REVERSE_BYTEWISE_COMPARATOR); final RocksDB rocksDb = RocksDB.open(options, dbFolder.getRoot().getAbsolutePath()) ) { rocksDb.put("abc1".getBytes(), "abc1".getBytes()); rocksDb.put("abc2".getBytes(), "abc2".getBytes()); rocksDb.put("abc3".getBytes(), "abc3".getBytes()); try (final RocksIterator rocksIterator = rocksDb.newIterator()) { // Iterate over keys using a iterator rocksIterator.seekToFirst(); assertThat(rocksIterator.isValid()).isTrue(); assertThat(rocksIterator.key()).isEqualTo( "abc3".getBytes()); assertThat(rocksIterator.value()).isEqualTo( "abc3".getBytes()); rocksIterator.next(); assertThat(rocksIterator.isValid()).isTrue(); assertThat(rocksIterator.key()).isEqualTo( "abc2".getBytes()); assertThat(rocksIterator.value()).isEqualTo( "abc2".getBytes()); rocksIterator.next(); assertThat(rocksIterator.isValid()).isTrue(); assertThat(rocksIterator.key()).isEqualTo( "abc1".getBytes()); assertThat(rocksIterator.value()).isEqualTo( "abc1".getBytes()); rocksIterator.next(); assertThat(rocksIterator.isValid()).isFalse(); // Get last one rocksIterator.seekToLast(); assertThat(rocksIterator.isValid()).isTrue(); assertThat(rocksIterator.key()).isEqualTo( "abc1".getBytes()); assertThat(rocksIterator.value()).isEqualTo( "abc1".getBytes()); // Will be invalid because abc is after abc1 rocksIterator.seek("abc".getBytes()); assertThat(rocksIterator.isValid()).isFalse(); // Will be abc3 because the next one after abc999 // is abc3 rocksIterator.seek("abc999".getBytes()); assertThat(rocksIterator.key()).isEqualTo( "abc3".getBytes()); assertThat(rocksIterator.value()).isEqualTo( "abc3".getBytes()); } } } @Test public void builtinComparatorEnum(){ assertThat(BuiltinComparator.BYTEWISE_COMPARATOR.ordinal()) .isEqualTo(0); assertThat( BuiltinComparator.REVERSE_BYTEWISE_COMPARATOR.ordinal()) .isEqualTo(1); assertThat(BuiltinComparator.values().length).isEqualTo(2); assertThat(BuiltinComparator.valueOf("BYTEWISE_COMPARATOR")). isEqualTo(BuiltinComparator.BYTEWISE_COMPARATOR); } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/CompressionOptionsTest.java000066400000000000000000000025461337235545400264650ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import org.junit.Test; import static org.assertj.core.api.Assertions.assertThat; public class CompressionOptionsTest { static { RocksDB.loadLibrary(); } @Test public void windowBits() { final int windowBits = 7; try(final CompressionOptions opt = new CompressionOptions()) { opt.setWindowBits(windowBits); assertThat(opt.windowBits()).isEqualTo(windowBits); } } @Test public void level() { final int level = 6; try(final CompressionOptions opt = new CompressionOptions()) { opt.setLevel(level); assertThat(opt.level()).isEqualTo(level); } } @Test public void strategy() { final int strategy = 2; try(final CompressionOptions opt = new CompressionOptions()) { opt.setStrategy(strategy); assertThat(opt.strategy()).isEqualTo(strategy); } } @Test public void maxDictBytes() { final int maxDictBytes = 999; try(final CompressionOptions opt = new CompressionOptions()) { opt.setMaxDictBytes(maxDictBytes); assertThat(opt.maxDictBytes()).isEqualTo(maxDictBytes); } } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/CompressionTypesTest.java000066400000000000000000000011661337235545400261330ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import org.junit.Test; public class CompressionTypesTest { @Test public void getCompressionType() { for (final CompressionType compressionType : CompressionType.values()) { String libraryName = compressionType.getLibraryName(); compressionType.equals(CompressionType.getCompressionType( libraryName)); } } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/DBOptionsTest.java000066400000000000000000000466631337235545400244610ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import org.junit.ClassRule; import org.junit.Test; import java.nio.file.Paths; import java.util.*; import static org.assertj.core.api.Assertions.assertThat; public class DBOptionsTest { @ClassRule public static final RocksMemoryResource rocksMemoryResource = new RocksMemoryResource(); public static final Random rand = PlatformRandomHelper. getPlatformSpecificRandomFactory(); @Test public void copyConstructor() { DBOptions origOpts = new DBOptions(); origOpts.setCreateIfMissing(rand.nextBoolean()); origOpts.setAllow2pc(rand.nextBoolean()); origOpts.setBaseBackgroundCompactions(rand.nextInt(10)); DBOptions copyOpts = new DBOptions(origOpts); assertThat(origOpts.createIfMissing()).isEqualTo(copyOpts.createIfMissing()); assertThat(origOpts.allow2pc()).isEqualTo(copyOpts.allow2pc()); assertThat(origOpts.baseBackgroundCompactions()).isEqualTo( copyOpts.baseBackgroundCompactions()); } @Test public void getDBOptionsFromProps() { // setup sample properties final Properties properties = new Properties(); properties.put("allow_mmap_reads", "true"); properties.put("bytes_per_sync", "13"); try(final DBOptions opt = DBOptions.getDBOptionsFromProps(properties)) { assertThat(opt).isNotNull(); assertThat(String.valueOf(opt.allowMmapReads())). isEqualTo(properties.get("allow_mmap_reads")); assertThat(String.valueOf(opt.bytesPerSync())). isEqualTo(properties.get("bytes_per_sync")); } } @Test public void failDBOptionsFromPropsWithIllegalValue() { // setup sample properties final Properties properties = new Properties(); properties.put("tomato", "1024"); properties.put("burger", "2"); try(final DBOptions opt = DBOptions.getDBOptionsFromProps(properties)) { assertThat(opt).isNull(); } } @Test(expected = IllegalArgumentException.class) public void failDBOptionsFromPropsWithNullValue() { try(final DBOptions opt = DBOptions.getDBOptionsFromProps(null)) { //no-op } } @Test(expected = IllegalArgumentException.class) public void failDBOptionsFromPropsWithEmptyProps() { try(final DBOptions opt = DBOptions.getDBOptionsFromProps( new Properties())) { //no-op } } @Test public void linkageOfPrepMethods() { try (final DBOptions opt = new DBOptions()) { opt.optimizeForSmallDb(); } } @Test public void env() { try (final DBOptions opt = new DBOptions(); final Env env = Env.getDefault()) { opt.setEnv(env); assertThat(opt.getEnv()).isSameAs(env); } } @Test public void setIncreaseParallelism() { try(final DBOptions opt = new DBOptions()) { final int threads = Runtime.getRuntime().availableProcessors() * 2; opt.setIncreaseParallelism(threads); } } @Test public void createIfMissing() { try(final DBOptions opt = new DBOptions()) { final boolean boolValue = rand.nextBoolean(); opt.setCreateIfMissing(boolValue); assertThat(opt.createIfMissing()).isEqualTo(boolValue); } } @Test public void createMissingColumnFamilies() { try(final DBOptions opt = new DBOptions()) { final boolean boolValue = rand.nextBoolean(); opt.setCreateMissingColumnFamilies(boolValue); assertThat(opt.createMissingColumnFamilies()).isEqualTo(boolValue); } } @Test public void errorIfExists() { try(final DBOptions opt = new DBOptions()) { final boolean boolValue = rand.nextBoolean(); opt.setErrorIfExists(boolValue); assertThat(opt.errorIfExists()).isEqualTo(boolValue); } } @Test public void paranoidChecks() { try(final DBOptions opt = new DBOptions()) { final boolean boolValue = rand.nextBoolean(); opt.setParanoidChecks(boolValue); assertThat(opt.paranoidChecks()).isEqualTo(boolValue); } } @Test public void maxTotalWalSize() { try(final DBOptions opt = new DBOptions()) { final long longValue = rand.nextLong(); opt.setMaxTotalWalSize(longValue); assertThat(opt.maxTotalWalSize()).isEqualTo(longValue); } } @Test public void maxOpenFiles() { try(final DBOptions opt = new DBOptions()) { final int intValue = rand.nextInt(); opt.setMaxOpenFiles(intValue); assertThat(opt.maxOpenFiles()).isEqualTo(intValue); } } @Test public void maxFileOpeningThreads() { try(final DBOptions opt = new DBOptions()) { final int intValue = rand.nextInt(); opt.setMaxFileOpeningThreads(intValue); assertThat(opt.maxFileOpeningThreads()).isEqualTo(intValue); } } @Test public void useFsync() { try(final DBOptions opt = new DBOptions()) { final boolean boolValue = rand.nextBoolean(); opt.setUseFsync(boolValue); assertThat(opt.useFsync()).isEqualTo(boolValue); } } @Test public void dbPaths() { final List dbPaths = new ArrayList<>(); dbPaths.add(new DbPath(Paths.get("/a"), 10)); dbPaths.add(new DbPath(Paths.get("/b"), 100)); dbPaths.add(new DbPath(Paths.get("/c"), 1000)); try(final DBOptions opt = new DBOptions()) { assertThat(opt.dbPaths()).isEqualTo(Collections.emptyList()); opt.setDbPaths(dbPaths); assertThat(opt.dbPaths()).isEqualTo(dbPaths); } } @Test public void dbLogDir() { try(final DBOptions opt = new DBOptions()) { final String str = "path/to/DbLogDir"; opt.setDbLogDir(str); assertThat(opt.dbLogDir()).isEqualTo(str); } } @Test public void walDir() { try(final DBOptions opt = new DBOptions()) { final String str = "path/to/WalDir"; opt.setWalDir(str); assertThat(opt.walDir()).isEqualTo(str); } } @Test public void deleteObsoleteFilesPeriodMicros() { try(final DBOptions opt = new DBOptions()) { final long longValue = rand.nextLong(); opt.setDeleteObsoleteFilesPeriodMicros(longValue); assertThat(opt.deleteObsoleteFilesPeriodMicros()).isEqualTo(longValue); } } @Test public void baseBackgroundCompactions() { try (final DBOptions opt = new DBOptions()) { final int intValue = rand.nextInt(); opt.setBaseBackgroundCompactions(intValue); assertThat(opt.baseBackgroundCompactions()). isEqualTo(intValue); } } @Test public void maxBackgroundCompactions() { try(final DBOptions opt = new DBOptions()) { final int intValue = rand.nextInt(); opt.setMaxBackgroundCompactions(intValue); assertThat(opt.maxBackgroundCompactions()).isEqualTo(intValue); } } @Test public void maxSubcompactions() { try (final DBOptions opt = new DBOptions()) { final int intValue = rand.nextInt(); opt.setMaxSubcompactions(intValue); assertThat(opt.maxSubcompactions()). isEqualTo(intValue); } } @Test public void maxBackgroundFlushes() { try(final DBOptions opt = new DBOptions()) { final int intValue = rand.nextInt(); opt.setMaxBackgroundFlushes(intValue); assertThat(opt.maxBackgroundFlushes()).isEqualTo(intValue); } } @Test public void maxBackgroundJobs() { try (final DBOptions opt = new DBOptions()) { final int intValue = rand.nextInt(); opt.setMaxBackgroundJobs(intValue); assertThat(opt.maxBackgroundJobs()).isEqualTo(intValue); } } @Test public void maxLogFileSize() throws RocksDBException { try(final DBOptions opt = new DBOptions()) { final long longValue = rand.nextLong(); opt.setMaxLogFileSize(longValue); assertThat(opt.maxLogFileSize()).isEqualTo(longValue); } } @Test public void logFileTimeToRoll() throws RocksDBException { try(final DBOptions opt = new DBOptions()) { final long longValue = rand.nextLong(); opt.setLogFileTimeToRoll(longValue); assertThat(opt.logFileTimeToRoll()).isEqualTo(longValue); } } @Test public void keepLogFileNum() throws RocksDBException { try(final DBOptions opt = new DBOptions()) { final long longValue = rand.nextLong(); opt.setKeepLogFileNum(longValue); assertThat(opt.keepLogFileNum()).isEqualTo(longValue); } } @Test public void recycleLogFileNum() throws RocksDBException { try(final DBOptions opt = new DBOptions()) { final long longValue = rand.nextLong(); opt.setRecycleLogFileNum(longValue); assertThat(opt.recycleLogFileNum()).isEqualTo(longValue); } } @Test public void maxManifestFileSize() { try(final DBOptions opt = new DBOptions()) { final long longValue = rand.nextLong(); opt.setMaxManifestFileSize(longValue); assertThat(opt.maxManifestFileSize()).isEqualTo(longValue); } } @Test public void tableCacheNumshardbits() { try(final DBOptions opt = new DBOptions()) { final int intValue = rand.nextInt(); opt.setTableCacheNumshardbits(intValue); assertThat(opt.tableCacheNumshardbits()).isEqualTo(intValue); } } @Test public void walSizeLimitMB() { try(final DBOptions opt = new DBOptions()) { final long longValue = rand.nextLong(); opt.setWalSizeLimitMB(longValue); assertThat(opt.walSizeLimitMB()).isEqualTo(longValue); } } @Test public void walTtlSeconds() { try(final DBOptions opt = new DBOptions()) { final long longValue = rand.nextLong(); opt.setWalTtlSeconds(longValue); assertThat(opt.walTtlSeconds()).isEqualTo(longValue); } } @Test public void manifestPreallocationSize() throws RocksDBException { try(final DBOptions opt = new DBOptions()) { final long longValue = rand.nextLong(); opt.setManifestPreallocationSize(longValue); assertThat(opt.manifestPreallocationSize()).isEqualTo(longValue); } } @Test public void useDirectReads() { try(final DBOptions opt = new DBOptions()) { final boolean boolValue = rand.nextBoolean(); opt.setUseDirectReads(boolValue); assertThat(opt.useDirectReads()).isEqualTo(boolValue); } } @Test public void useDirectIoForFlushAndCompaction() { try(final DBOptions opt = new DBOptions()) { final boolean boolValue = rand.nextBoolean(); opt.setUseDirectIoForFlushAndCompaction(boolValue); assertThat(opt.useDirectIoForFlushAndCompaction()).isEqualTo(boolValue); } } @Test public void allowFAllocate() { try(final DBOptions opt = new DBOptions()) { final boolean boolValue = rand.nextBoolean(); opt.setAllowFAllocate(boolValue); assertThat(opt.allowFAllocate()).isEqualTo(boolValue); } } @Test public void allowMmapReads() { try(final DBOptions opt = new DBOptions()) { final boolean boolValue = rand.nextBoolean(); opt.setAllowMmapReads(boolValue); assertThat(opt.allowMmapReads()).isEqualTo(boolValue); } } @Test public void allowMmapWrites() { try(final DBOptions opt = new DBOptions()) { final boolean boolValue = rand.nextBoolean(); opt.setAllowMmapWrites(boolValue); assertThat(opt.allowMmapWrites()).isEqualTo(boolValue); } } @Test public void isFdCloseOnExec() { try(final DBOptions opt = new DBOptions()) { final boolean boolValue = rand.nextBoolean(); opt.setIsFdCloseOnExec(boolValue); assertThat(opt.isFdCloseOnExec()).isEqualTo(boolValue); } } @Test public void statsDumpPeriodSec() { try(final DBOptions opt = new DBOptions()) { final int intValue = rand.nextInt(); opt.setStatsDumpPeriodSec(intValue); assertThat(opt.statsDumpPeriodSec()).isEqualTo(intValue); } } @Test public void adviseRandomOnOpen() { try(final DBOptions opt = new DBOptions()) { final boolean boolValue = rand.nextBoolean(); opt.setAdviseRandomOnOpen(boolValue); assertThat(opt.adviseRandomOnOpen()).isEqualTo(boolValue); } } @Test public void dbWriteBufferSize() { try(final DBOptions opt = new DBOptions()) { final long longValue = rand.nextLong(); opt.setDbWriteBufferSize(longValue); assertThat(opt.dbWriteBufferSize()).isEqualTo(longValue); } } @Test public void accessHintOnCompactionStart() { try(final DBOptions opt = new DBOptions()) { final AccessHint accessHint = AccessHint.SEQUENTIAL; opt.setAccessHintOnCompactionStart(accessHint); assertThat(opt.accessHintOnCompactionStart()).isEqualTo(accessHint); } } @Test public void newTableReaderForCompactionInputs() { try(final DBOptions opt = new DBOptions()) { final boolean boolValue = rand.nextBoolean(); opt.setNewTableReaderForCompactionInputs(boolValue); assertThat(opt.newTableReaderForCompactionInputs()).isEqualTo(boolValue); } } @Test public void compactionReadaheadSize() { try(final DBOptions opt = new DBOptions()) { final long longValue = rand.nextLong(); opt.setCompactionReadaheadSize(longValue); assertThat(opt.compactionReadaheadSize()).isEqualTo(longValue); } } @Test public void randomAccessMaxBufferSize() { try(final DBOptions opt = new DBOptions()) { final long longValue = rand.nextLong(); opt.setRandomAccessMaxBufferSize(longValue); assertThat(opt.randomAccessMaxBufferSize()).isEqualTo(longValue); } } @Test public void writableFileMaxBufferSize() { try(final DBOptions opt = new DBOptions()) { final long longValue = rand.nextLong(); opt.setWritableFileMaxBufferSize(longValue); assertThat(opt.writableFileMaxBufferSize()).isEqualTo(longValue); } } @Test public void useAdaptiveMutex() { try(final DBOptions opt = new DBOptions()) { final boolean boolValue = rand.nextBoolean(); opt.setUseAdaptiveMutex(boolValue); assertThat(opt.useAdaptiveMutex()).isEqualTo(boolValue); } } @Test public void bytesPerSync() { try(final DBOptions opt = new DBOptions()) { final long longValue = rand.nextLong(); opt.setBytesPerSync(longValue); assertThat(opt.bytesPerSync()).isEqualTo(longValue); } } @Test public void walBytesPerSync() { try(final DBOptions opt = new DBOptions()) { final long longValue = rand.nextLong(); opt.setWalBytesPerSync(longValue); assertThat(opt.walBytesPerSync()).isEqualTo(longValue); } } @Test public void enableThreadTracking() { try (final DBOptions opt = new DBOptions()) { final boolean boolValue = rand.nextBoolean(); opt.setEnableThreadTracking(boolValue); assertThat(opt.enableThreadTracking()).isEqualTo(boolValue); } } @Test public void delayedWriteRate() { try(final DBOptions opt = new DBOptions()) { final long longValue = rand.nextLong(); opt.setDelayedWriteRate(longValue); assertThat(opt.delayedWriteRate()).isEqualTo(longValue); } } @Test public void allowConcurrentMemtableWrite() { try (final DBOptions opt = new DBOptions()) { final boolean boolValue = rand.nextBoolean(); opt.setAllowConcurrentMemtableWrite(boolValue); assertThat(opt.allowConcurrentMemtableWrite()).isEqualTo(boolValue); } } @Test public void enableWriteThreadAdaptiveYield() { try (final DBOptions opt = new DBOptions()) { final boolean boolValue = rand.nextBoolean(); opt.setEnableWriteThreadAdaptiveYield(boolValue); assertThat(opt.enableWriteThreadAdaptiveYield()).isEqualTo(boolValue); } } @Test public void writeThreadMaxYieldUsec() { try (final DBOptions opt = new DBOptions()) { final long longValue = rand.nextLong(); opt.setWriteThreadMaxYieldUsec(longValue); assertThat(opt.writeThreadMaxYieldUsec()).isEqualTo(longValue); } } @Test public void writeThreadSlowYieldUsec() { try (final DBOptions opt = new DBOptions()) { final long longValue = rand.nextLong(); opt.setWriteThreadSlowYieldUsec(longValue); assertThat(opt.writeThreadSlowYieldUsec()).isEqualTo(longValue); } } @Test public void skipStatsUpdateOnDbOpen() { try (final DBOptions opt = new DBOptions()) { final boolean boolValue = rand.nextBoolean(); opt.setSkipStatsUpdateOnDbOpen(boolValue); assertThat(opt.skipStatsUpdateOnDbOpen()).isEqualTo(boolValue); } } @Test public void walRecoveryMode() { try (final DBOptions opt = new DBOptions()) { for (final WALRecoveryMode walRecoveryMode : WALRecoveryMode.values()) { opt.setWalRecoveryMode(walRecoveryMode); assertThat(opt.walRecoveryMode()).isEqualTo(walRecoveryMode); } } } @Test public void allow2pc() { try (final DBOptions opt = new DBOptions()) { final boolean boolValue = rand.nextBoolean(); opt.setAllow2pc(boolValue); assertThat(opt.allow2pc()).isEqualTo(boolValue); } } @Test public void rowCache() { try (final DBOptions opt = new DBOptions()) { assertThat(opt.rowCache()).isNull(); try(final Cache lruCache = new LRUCache(1000)) { opt.setRowCache(lruCache); assertThat(opt.rowCache()).isEqualTo(lruCache); } try(final Cache clockCache = new ClockCache(1000)) { opt.setRowCache(clockCache); assertThat(opt.rowCache()).isEqualTo(clockCache); } } } @Test public void failIfOptionsFileError() { try (final DBOptions opt = new DBOptions()) { final boolean boolValue = rand.nextBoolean(); opt.setFailIfOptionsFileError(boolValue); assertThat(opt.failIfOptionsFileError()).isEqualTo(boolValue); } } @Test public void dumpMallocStats() { try (final DBOptions opt = new DBOptions()) { final boolean boolValue = rand.nextBoolean(); opt.setDumpMallocStats(boolValue); assertThat(opt.dumpMallocStats()).isEqualTo(boolValue); } } @Test public void avoidFlushDuringRecovery() { try (final DBOptions opt = new DBOptions()) { final boolean boolValue = rand.nextBoolean(); opt.setAvoidFlushDuringRecovery(boolValue); assertThat(opt.avoidFlushDuringRecovery()).isEqualTo(boolValue); } } @Test public void avoidFlushDuringShutdown() { try (final DBOptions opt = new DBOptions()) { final boolean boolValue = rand.nextBoolean(); opt.setAvoidFlushDuringShutdown(boolValue); assertThat(opt.avoidFlushDuringShutdown()).isEqualTo(boolValue); } } @Test public void rateLimiter() { try(final DBOptions options = new DBOptions(); final DBOptions anotherOptions = new DBOptions(); final RateLimiter rateLimiter = new RateLimiter(1000, 100 * 1000, 1)) { options.setRateLimiter(rateLimiter); // Test with parameter initialization anotherOptions.setRateLimiter( new RateLimiter(1000)); } } @Test public void sstFileManager() throws RocksDBException { try (final DBOptions options = new DBOptions(); final SstFileManager sstFileManager = new SstFileManager(Env.getDefault())) { options.setSstFileManager(sstFileManager); } } @Test public void statistics() { try(final DBOptions options = new DBOptions()) { final Statistics statistics = options.statistics(); assertThat(statistics).isNull(); } try(final Statistics statistics = new Statistics(); final DBOptions options = new DBOptions().setStatistics(statistics); final Statistics stats = options.statistics()) { assertThat(stats).isNotNull(); } } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/DirectComparatorTest.java000066400000000000000000000031151337235545400260430ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import org.junit.ClassRule; import org.junit.Rule; import org.junit.Test; import org.junit.rules.TemporaryFolder; import java.io.IOException; import java.nio.file.FileSystems; public class DirectComparatorTest { @ClassRule public static final RocksMemoryResource rocksMemoryResource = new RocksMemoryResource(); @Rule public TemporaryFolder dbFolder = new TemporaryFolder(); @Test public void directComparator() throws IOException, RocksDBException { final AbstractComparatorTest comparatorTest = new AbstractComparatorTest() { @Override public AbstractComparator getAscendingIntKeyComparator() { return new DirectComparator(new ComparatorOptions()) { @Override public String name() { return "test.AscendingIntKeyDirectComparator"; } @Override public int compare(final DirectSlice a, final DirectSlice b) { final byte ax[] = new byte[4], bx[] = new byte[4]; a.data().get(ax); b.data().get(bx); return compareIntKeys(ax, bx); } }; } }; // test the round-tripability of keys written and read with the DirectComparator comparatorTest.testRoundtrip(FileSystems.getDefault().getPath( dbFolder.getRoot().getAbsolutePath())); } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/DirectSliceTest.java000066400000000000000000000057611337235545400250040ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import org.junit.ClassRule; import org.junit.Test; import java.nio.ByteBuffer; import static org.assertj.core.api.Assertions.assertThat; public class DirectSliceTest { @ClassRule public static final RocksMemoryResource rocksMemoryResource = new RocksMemoryResource(); @Test public void directSlice() { try(final DirectSlice directSlice = new DirectSlice("abc"); final DirectSlice otherSlice = new DirectSlice("abc")) { assertThat(directSlice.toString()).isEqualTo("abc"); // clear first slice directSlice.clear(); assertThat(directSlice.toString()).isEmpty(); // get first char in otherslice assertThat(otherSlice.get(0)).isEqualTo("a".getBytes()[0]); // remove prefix otherSlice.removePrefix(1); assertThat(otherSlice.toString()).isEqualTo("bc"); } } @Test public void directSliceWithByteBuffer() { final byte[] data = "Some text".getBytes(); final ByteBuffer buffer = ByteBuffer.allocateDirect(data.length + 1); buffer.put(data); buffer.put(data.length, (byte)0); try(final DirectSlice directSlice = new DirectSlice(buffer)) { assertThat(directSlice.toString()).isEqualTo("Some text"); } } @Test public void directSliceWithByteBufferAndLength() { final byte[] data = "Some text".getBytes(); final ByteBuffer buffer = ByteBuffer.allocateDirect(data.length); buffer.put(data); try(final DirectSlice directSlice = new DirectSlice(buffer, 4)) { assertThat(directSlice.toString()).isEqualTo("Some"); } } @Test(expected = IllegalArgumentException.class) public void directSliceInitWithoutDirectAllocation() { final byte[] data = "Some text".getBytes(); final ByteBuffer buffer = ByteBuffer.wrap(data); try(final DirectSlice directSlice = new DirectSlice(buffer)) { //no-op } } @Test(expected = IllegalArgumentException.class) public void directSlicePrefixInitWithoutDirectAllocation() { final byte[] data = "Some text".getBytes(); final ByteBuffer buffer = ByteBuffer.wrap(data); try(final DirectSlice directSlice = new DirectSlice(buffer, 4)) { //no-op } } @Test public void directSliceClear() { try(final DirectSlice directSlice = new DirectSlice("abc")) { assertThat(directSlice.toString()).isEqualTo("abc"); directSlice.clear(); assertThat(directSlice.toString()).isEmpty(); directSlice.clear(); // make sure we don't double-free } } @Test public void directSliceRemovePrefix() { try(final DirectSlice directSlice = new DirectSlice("abc")) { assertThat(directSlice.toString()).isEqualTo("abc"); directSlice.removePrefix(1); assertThat(directSlice.toString()).isEqualTo("bc"); } } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/EnvOptionsTest.java000066400000000000000000000102471337235545400247110ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import org.junit.ClassRule; import org.junit.Test; import java.util.Random; import static org.assertj.core.api.Assertions.assertThat; public class EnvOptionsTest { @ClassRule public static final RocksMemoryResource rocksMemoryResource = new RocksMemoryResource(); public static final Random rand = PlatformRandomHelper.getPlatformSpecificRandomFactory(); @Test public void useMmapReads() { try (final EnvOptions envOptions = new EnvOptions()) { final boolean boolValue = rand.nextBoolean(); envOptions.setUseMmapReads(boolValue); assertThat(envOptions.useMmapReads()).isEqualTo(boolValue); } } @Test public void useMmapWrites() { try (final EnvOptions envOptions = new EnvOptions()) { final boolean boolValue = rand.nextBoolean(); envOptions.setUseMmapWrites(boolValue); assertThat(envOptions.useMmapWrites()).isEqualTo(boolValue); } } @Test public void useDirectReads() { try (final EnvOptions envOptions = new EnvOptions()) { final boolean boolValue = rand.nextBoolean(); envOptions.setUseDirectReads(boolValue); assertThat(envOptions.useDirectReads()).isEqualTo(boolValue); } } @Test public void useDirectWrites() { try (final EnvOptions envOptions = new EnvOptions()) { final boolean boolValue = rand.nextBoolean(); envOptions.setUseDirectWrites(boolValue); assertThat(envOptions.useDirectWrites()).isEqualTo(boolValue); } } @Test public void allowFallocate() { try (final EnvOptions envOptions = new EnvOptions()) { final boolean boolValue = rand.nextBoolean(); envOptions.setAllowFallocate(boolValue); assertThat(envOptions.allowFallocate()).isEqualTo(boolValue); } } @Test public void setFdCloexecs() { try (final EnvOptions envOptions = new EnvOptions()) { final boolean boolValue = rand.nextBoolean(); envOptions.setSetFdCloexec(boolValue); assertThat(envOptions.setFdCloexec()).isEqualTo(boolValue); } } @Test public void bytesPerSync() { try (final EnvOptions envOptions = new EnvOptions()) { final long longValue = rand.nextLong(); envOptions.setBytesPerSync(longValue); assertThat(envOptions.bytesPerSync()).isEqualTo(longValue); } } @Test public void fallocateWithKeepSize() { try (final EnvOptions envOptions = new EnvOptions()) { final boolean boolValue = rand.nextBoolean(); envOptions.setFallocateWithKeepSize(boolValue); assertThat(envOptions.fallocateWithKeepSize()).isEqualTo(boolValue); } } @Test public void compactionReadaheadSize() { try (final EnvOptions envOptions = new EnvOptions()) { final int intValue = rand.nextInt(); envOptions.setCompactionReadaheadSize(intValue); assertThat(envOptions.compactionReadaheadSize()).isEqualTo(intValue); } } @Test public void randomAccessMaxBufferSize() { try (final EnvOptions envOptions = new EnvOptions()) { final int intValue = rand.nextInt(); envOptions.setRandomAccessMaxBufferSize(intValue); assertThat(envOptions.randomAccessMaxBufferSize()).isEqualTo(intValue); } } @Test public void writableFileMaxBufferSize() { try (final EnvOptions envOptions = new EnvOptions()) { final int intValue = rand.nextInt(); envOptions.setWritableFileMaxBufferSize(intValue); assertThat(envOptions.writableFileMaxBufferSize()).isEqualTo(intValue); } } @Test public void rateLimiter() { try (final EnvOptions envOptions = new EnvOptions(); final RateLimiter rateLimiter1 = new RateLimiter(1000, 100 * 1000, 1)) { envOptions.setRateLimiter(rateLimiter1); assertThat(envOptions.rateLimiter()).isEqualTo(rateLimiter1); try(final RateLimiter rateLimiter2 = new RateLimiter(1000)) { envOptions.setRateLimiter(rateLimiter2); assertThat(envOptions.rateLimiter()).isEqualTo(rateLimiter2); } } } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/FilterTest.java000066400000000000000000000022141337235545400240250ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import org.junit.ClassRule; import org.junit.Test; public class FilterTest { @ClassRule public static final RocksMemoryResource rocksMemoryResource = new RocksMemoryResource(); @Test public void filter() { // new Bloom filter final BlockBasedTableConfig blockConfig = new BlockBasedTableConfig(); try(final Options options = new Options()) { try(final Filter bloomFilter = new BloomFilter()) { blockConfig.setFilter(bloomFilter); options.setTableFormatConfig(blockConfig); } try(final Filter bloomFilter = new BloomFilter(10)) { blockConfig.setFilter(bloomFilter); options.setTableFormatConfig(blockConfig); } try(final Filter bloomFilter = new BloomFilter(10, false)) { blockConfig.setFilter(bloomFilter); options.setTableFormatConfig(blockConfig); } } } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/FlushTest.java000066400000000000000000000033051337235545400236630ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import org.junit.ClassRule; import org.junit.Rule; import org.junit.Test; import org.junit.rules.TemporaryFolder; import static org.assertj.core.api.Assertions.assertThat; public class FlushTest { @ClassRule public static final RocksMemoryResource rocksMemoryResource = new RocksMemoryResource(); @Rule public TemporaryFolder dbFolder = new TemporaryFolder(); @Test public void flush() throws RocksDBException { try(final Options options = new Options() .setCreateIfMissing(true) .setMaxWriteBufferNumber(10) .setMinWriteBufferNumberToMerge(10); final WriteOptions wOpt = new WriteOptions() .setDisableWAL(true); final FlushOptions flushOptions = new FlushOptions() .setWaitForFlush(true)) { assertThat(flushOptions.waitForFlush()).isTrue(); try(final RocksDB db = RocksDB.open(options, dbFolder.getRoot().getAbsolutePath())) { db.put(wOpt, "key1".getBytes(), "value1".getBytes()); db.put(wOpt, "key2".getBytes(), "value2".getBytes()); db.put(wOpt, "key3".getBytes(), "value3".getBytes()); db.put(wOpt, "key4".getBytes(), "value4".getBytes()); assertThat(db.getProperty("rocksdb.num-entries-active-mem-table")) .isEqualTo("4"); db.flush(flushOptions); assertThat(db.getProperty("rocksdb.num-entries-active-mem-table")) .isEqualTo("0"); } } } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/InfoLogLevelTest.java000066400000000000000000000066151337235545400251360ustar00rootroot00000000000000package org.rocksdb; import org.junit.ClassRule; import org.junit.Rule; import org.junit.Test; import org.junit.rules.TemporaryFolder; import org.rocksdb.util.Environment; import java.io.IOException; import static java.nio.file.Files.readAllBytes; import static java.nio.file.Paths.get; import static org.assertj.core.api.Assertions.assertThat; public class InfoLogLevelTest { @ClassRule public static final RocksMemoryResource rocksMemoryResource = new RocksMemoryResource(); @Rule public TemporaryFolder dbFolder = new TemporaryFolder(); @Test public void testInfoLogLevel() throws RocksDBException, IOException { try (final RocksDB db = RocksDB.open(dbFolder.getRoot().getAbsolutePath())) { db.put("key".getBytes(), "value".getBytes()); assertThat(getLogContentsWithoutHeader()).isNotEmpty(); } } @Test public void testFatalLogLevel() throws RocksDBException, IOException { try (final Options options = new Options(). setCreateIfMissing(true). setInfoLogLevel(InfoLogLevel.FATAL_LEVEL); final RocksDB db = RocksDB.open(options, dbFolder.getRoot().getAbsolutePath())) { assertThat(options.infoLogLevel()). isEqualTo(InfoLogLevel.FATAL_LEVEL); db.put("key".getBytes(), "value".getBytes()); // As InfoLogLevel is set to FATAL_LEVEL, here we expect the log // content to be empty. assertThat(getLogContentsWithoutHeader()).isEmpty(); } } @Test public void testFatalLogLevelWithDBOptions() throws RocksDBException, IOException { try (final DBOptions dbOptions = new DBOptions(). setInfoLogLevel(InfoLogLevel.FATAL_LEVEL); final Options options = new Options(dbOptions, new ColumnFamilyOptions()). setCreateIfMissing(true); final RocksDB db = RocksDB.open(options, dbFolder.getRoot().getAbsolutePath())) { assertThat(dbOptions.infoLogLevel()). isEqualTo(InfoLogLevel.FATAL_LEVEL); assertThat(options.infoLogLevel()). isEqualTo(InfoLogLevel.FATAL_LEVEL); db.put("key".getBytes(), "value".getBytes()); assertThat(getLogContentsWithoutHeader()).isEmpty(); } } @Test(expected = IllegalArgumentException.class) public void failIfIllegalByteValueProvided() { InfoLogLevel.getInfoLogLevel((byte) -1); } @Test public void valueOf() { assertThat(InfoLogLevel.valueOf("DEBUG_LEVEL")). isEqualTo(InfoLogLevel.DEBUG_LEVEL); } /** * Read LOG file contents into String. * * @return LOG file contents as String. * @throws IOException if file is not found. */ private String getLogContentsWithoutHeader() throws IOException { final String separator = Environment.isWindows() ? "\n" : System.getProperty("line.separator"); final String[] lines = new String(readAllBytes(get( dbFolder.getRoot().getAbsolutePath() + "/LOG"))).split(separator); int first_non_header = lines.length; // Identify the last line of the header for (int i = lines.length - 1; i >= 0; --i) { if (lines[i].indexOf("Options.") >= 0 && lines[i].indexOf(':') >= 0) { first_non_header = i + 1; break; } } StringBuilder builder = new StringBuilder(); for (int i = first_non_header; i < lines.length; ++i) { builder.append(lines[i]).append(separator); } return builder.toString(); } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/IngestExternalFileOptionsTest.java000066400000000000000000000057131337235545400277170ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import org.junit.ClassRule; import org.junit.Test; import java.util.Random; import static org.assertj.core.api.Assertions.assertThat; public class IngestExternalFileOptionsTest { @ClassRule public static final RocksMemoryResource rocksMemoryResource = new RocksMemoryResource(); public static final Random rand = PlatformRandomHelper.getPlatformSpecificRandomFactory(); @Test public void createExternalSstFileInfoWithoutParameters() { try (final IngestExternalFileOptions options = new IngestExternalFileOptions()) { assertThat(options).isNotNull(); } } @Test public void createExternalSstFileInfoWithParameters() { final boolean moveFiles = rand.nextBoolean(); final boolean snapshotConsistency = rand.nextBoolean(); final boolean allowGlobalSeqNo = rand.nextBoolean(); final boolean allowBlockingFlush = rand.nextBoolean(); try (final IngestExternalFileOptions options = new IngestExternalFileOptions(moveFiles, snapshotConsistency, allowGlobalSeqNo, allowBlockingFlush)) { assertThat(options).isNotNull(); assertThat(options.moveFiles()).isEqualTo(moveFiles); assertThat(options.snapshotConsistency()).isEqualTo(snapshotConsistency); assertThat(options.allowGlobalSeqNo()).isEqualTo(allowGlobalSeqNo); assertThat(options.allowBlockingFlush()).isEqualTo(allowBlockingFlush); } } @Test public void moveFiles() { try (final IngestExternalFileOptions options = new IngestExternalFileOptions()) { final boolean moveFiles = rand.nextBoolean(); options.setMoveFiles(moveFiles); assertThat(options.moveFiles()).isEqualTo(moveFiles); } } @Test public void snapshotConsistency() { try (final IngestExternalFileOptions options = new IngestExternalFileOptions()) { final boolean snapshotConsistency = rand.nextBoolean(); options.setSnapshotConsistency(snapshotConsistency); assertThat(options.snapshotConsistency()).isEqualTo(snapshotConsistency); } } @Test public void allowGlobalSeqNo() { try (final IngestExternalFileOptions options = new IngestExternalFileOptions()) { final boolean allowGlobalSeqNo = rand.nextBoolean(); options.setAllowGlobalSeqNo(allowGlobalSeqNo); assertThat(options.allowGlobalSeqNo()).isEqualTo(allowGlobalSeqNo); } } @Test public void allowBlockingFlush() { try (final IngestExternalFileOptions options = new IngestExternalFileOptions()) { final boolean allowBlockingFlush = rand.nextBoolean(); options.setAllowBlockingFlush(allowBlockingFlush); assertThat(options.allowBlockingFlush()).isEqualTo(allowBlockingFlush); } } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/KeyMayExistTest.java000066400000000000000000000061331337235545400250200ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import org.junit.ClassRule; import org.junit.Rule; import org.junit.Test; import org.junit.rules.TemporaryFolder; import java.util.ArrayList; import java.util.Arrays; import java.util.List; import static org.assertj.core.api.Assertions.assertThat; public class KeyMayExistTest { @ClassRule public static final RocksMemoryResource rocksMemoryResource = new RocksMemoryResource(); @Rule public TemporaryFolder dbFolder = new TemporaryFolder(); @Test public void keyMayExist() throws RocksDBException { final List cfDescriptors = Arrays.asList( new ColumnFamilyDescriptor(RocksDB.DEFAULT_COLUMN_FAMILY), new ColumnFamilyDescriptor("new_cf".getBytes()) ); final List columnFamilyHandleList = new ArrayList<>(); try (final DBOptions options = new DBOptions() .setCreateIfMissing(true) .setCreateMissingColumnFamilies(true); final RocksDB db = RocksDB.open(options, dbFolder.getRoot().getAbsolutePath(), cfDescriptors, columnFamilyHandleList)) { try { assertThat(columnFamilyHandleList.size()). isEqualTo(2); db.put("key".getBytes(), "value".getBytes()); // Test without column family StringBuilder retValue = new StringBuilder(); boolean exists = db.keyMayExist("key".getBytes(), retValue); assertThat(exists).isTrue(); assertThat(retValue.toString()).isEqualTo("value"); // Test without column family but with readOptions try (final ReadOptions readOptions = new ReadOptions()) { retValue = new StringBuilder(); exists = db.keyMayExist(readOptions, "key".getBytes(), retValue); assertThat(exists).isTrue(); assertThat(retValue.toString()).isEqualTo("value"); } // Test with column family retValue = new StringBuilder(); exists = db.keyMayExist(columnFamilyHandleList.get(0), "key".getBytes(), retValue); assertThat(exists).isTrue(); assertThat(retValue.toString()).isEqualTo("value"); // Test with column family and readOptions try (final ReadOptions readOptions = new ReadOptions()) { retValue = new StringBuilder(); exists = db.keyMayExist(readOptions, columnFamilyHandleList.get(0), "key".getBytes(), retValue); assertThat(exists).isTrue(); assertThat(retValue.toString()).isEqualTo("value"); } // KeyMayExist in CF1 must return false assertThat(db.keyMayExist(columnFamilyHandleList.get(1), "key".getBytes(), retValue)).isFalse(); } finally { for (final ColumnFamilyHandle columnFamilyHandle : columnFamilyHandleList) { columnFamilyHandle.close(); } } } } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/LRUCacheTest.java000066400000000000000000000013101337235545400241620ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import org.junit.Test; public class LRUCacheTest { static { RocksDB.loadLibrary(); } @Test public void newLRUCache() { final long capacity = 1000; final int numShardBits = 16; final boolean strictCapacityLimit = true; final double highPriPoolRatio = 5; try(final Cache lruCache = new LRUCache(capacity, numShardBits, strictCapacityLimit, highPriPoolRatio)) { //no op } } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/LoggerTest.java000066400000000000000000000176531337235545400240340ustar00rootroot00000000000000package org.rocksdb; import org.junit.ClassRule; import org.junit.Rule; import org.junit.Test; import org.junit.rules.TemporaryFolder; import java.util.ArrayList; import java.util.Arrays; import java.util.List; import java.util.concurrent.atomic.AtomicInteger; import static org.assertj.core.api.Assertions.assertThat; public class LoggerTest { @ClassRule public static final RocksMemoryResource rocksMemoryResource = new RocksMemoryResource(); @Rule public TemporaryFolder dbFolder = new TemporaryFolder(); @Test public void customLogger() throws RocksDBException { final AtomicInteger logMessageCounter = new AtomicInteger(); try (final Options options = new Options(). setInfoLogLevel(InfoLogLevel.DEBUG_LEVEL). setCreateIfMissing(true); final Logger logger = new Logger(options) { // Create new logger with max log level passed by options @Override protected void log(InfoLogLevel infoLogLevel, String logMsg) { assertThat(logMsg).isNotNull(); assertThat(logMsg.length()).isGreaterThan(0); logMessageCounter.incrementAndGet(); } } ) { // Set custom logger to options options.setLogger(logger); try (final RocksDB db = RocksDB.open(options, dbFolder.getRoot().getAbsolutePath())) { // there should be more than zero received log messages in // debug level. assertThat(logMessageCounter.get()).isGreaterThan(0); } } } @Test public void warnLogger() throws RocksDBException { final AtomicInteger logMessageCounter = new AtomicInteger(); try (final Options options = new Options(). setInfoLogLevel(InfoLogLevel.WARN_LEVEL). setCreateIfMissing(true); final Logger logger = new Logger(options) { // Create new logger with max log level passed by options @Override protected void log(InfoLogLevel infoLogLevel, String logMsg) { assertThat(logMsg).isNotNull(); assertThat(logMsg.length()).isGreaterThan(0); logMessageCounter.incrementAndGet(); } } ) { // Set custom logger to options options.setLogger(logger); try (final RocksDB db = RocksDB.open(options, dbFolder.getRoot().getAbsolutePath())) { // there should be zero messages // using warn level as log level. assertThat(logMessageCounter.get()).isEqualTo(0); } } } @Test public void fatalLogger() throws RocksDBException { final AtomicInteger logMessageCounter = new AtomicInteger(); try (final Options options = new Options(). setInfoLogLevel(InfoLogLevel.FATAL_LEVEL). setCreateIfMissing(true); final Logger logger = new Logger(options) { // Create new logger with max log level passed by options @Override protected void log(InfoLogLevel infoLogLevel, String logMsg) { assertThat(logMsg).isNotNull(); assertThat(logMsg.length()).isGreaterThan(0); logMessageCounter.incrementAndGet(); } } ) { // Set custom logger to options options.setLogger(logger); try (final RocksDB db = RocksDB.open(options, dbFolder.getRoot().getAbsolutePath())) { // there should be zero messages // using fatal level as log level. assertThat(logMessageCounter.get()).isEqualTo(0); } } } @Test public void dbOptionsLogger() throws RocksDBException { final AtomicInteger logMessageCounter = new AtomicInteger(); try (final DBOptions options = new DBOptions(). setInfoLogLevel(InfoLogLevel.FATAL_LEVEL). setCreateIfMissing(true); final Logger logger = new Logger(options) { // Create new logger with max log level passed by options @Override protected void log(InfoLogLevel infoLogLevel, String logMsg) { assertThat(logMsg).isNotNull(); assertThat(logMsg.length()).isGreaterThan(0); logMessageCounter.incrementAndGet(); } } ) { // Set custom logger to options options.setLogger(logger); final List cfDescriptors = Arrays.asList( new ColumnFamilyDescriptor(RocksDB.DEFAULT_COLUMN_FAMILY)); final List cfHandles = new ArrayList<>(); try (final RocksDB db = RocksDB.open(options, dbFolder.getRoot().getAbsolutePath(), cfDescriptors, cfHandles)) { try { // there should be zero messages // using fatal level as log level. assertThat(logMessageCounter.get()).isEqualTo(0); } finally { for (final ColumnFamilyHandle columnFamilyHandle : cfHandles) { columnFamilyHandle.close(); } } } } } @Test public void setWarnLogLevel() { final AtomicInteger logMessageCounter = new AtomicInteger(); try (final Options options = new Options(). setInfoLogLevel(InfoLogLevel.FATAL_LEVEL). setCreateIfMissing(true); final Logger logger = new Logger(options) { // Create new logger with max log level passed by options @Override protected void log(InfoLogLevel infoLogLevel, String logMsg) { assertThat(logMsg).isNotNull(); assertThat(logMsg.length()).isGreaterThan(0); logMessageCounter.incrementAndGet(); } } ) { assertThat(logger.infoLogLevel()). isEqualTo(InfoLogLevel.FATAL_LEVEL); logger.setInfoLogLevel(InfoLogLevel.WARN_LEVEL); assertThat(logger.infoLogLevel()). isEqualTo(InfoLogLevel.WARN_LEVEL); } } @Test public void setInfoLogLevel() { final AtomicInteger logMessageCounter = new AtomicInteger(); try (final Options options = new Options(). setInfoLogLevel(InfoLogLevel.FATAL_LEVEL). setCreateIfMissing(true); final Logger logger = new Logger(options) { // Create new logger with max log level passed by options @Override protected void log(InfoLogLevel infoLogLevel, String logMsg) { assertThat(logMsg).isNotNull(); assertThat(logMsg.length()).isGreaterThan(0); logMessageCounter.incrementAndGet(); } } ) { assertThat(logger.infoLogLevel()). isEqualTo(InfoLogLevel.FATAL_LEVEL); logger.setInfoLogLevel(InfoLogLevel.DEBUG_LEVEL); assertThat(logger.infoLogLevel()). isEqualTo(InfoLogLevel.DEBUG_LEVEL); } } @Test public void changeLogLevelAtRuntime() throws RocksDBException { final AtomicInteger logMessageCounter = new AtomicInteger(); try (final Options options = new Options(). setInfoLogLevel(InfoLogLevel.FATAL_LEVEL). setCreateIfMissing(true); // Create new logger with max log level passed by options final Logger logger = new Logger(options) { @Override protected void log(InfoLogLevel infoLogLevel, String logMsg) { assertThat(logMsg).isNotNull(); assertThat(logMsg.length()).isGreaterThan(0); logMessageCounter.incrementAndGet(); } } ) { // Set custom logger to options options.setLogger(logger); try (final RocksDB db = RocksDB.open(options, dbFolder.getRoot().getAbsolutePath())) { // there should be zero messages // using fatal level as log level. assertThat(logMessageCounter.get()).isEqualTo(0); // change log level to debug level logger.setInfoLogLevel(InfoLogLevel.DEBUG_LEVEL); db.put("key".getBytes(), "value".getBytes()); db.flush(new FlushOptions().setWaitForFlush(true)); // messages shall be received due to previous actions. assertThat(logMessageCounter.get()).isNotEqualTo(0); } } } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/MemTableTest.java000066400000000000000000000076571337235545400243060ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import org.junit.ClassRule; import org.junit.Test; import static org.assertj.core.api.Assertions.assertThat; public class MemTableTest { @ClassRule public static final RocksMemoryResource rocksMemoryResource = new RocksMemoryResource(); @Test public void hashSkipListMemTable() throws RocksDBException { try(final Options options = new Options()) { // Test HashSkipListMemTableConfig HashSkipListMemTableConfig memTableConfig = new HashSkipListMemTableConfig(); assertThat(memTableConfig.bucketCount()). isEqualTo(1000000); memTableConfig.setBucketCount(2000000); assertThat(memTableConfig.bucketCount()). isEqualTo(2000000); assertThat(memTableConfig.height()). isEqualTo(4); memTableConfig.setHeight(5); assertThat(memTableConfig.height()). isEqualTo(5); assertThat(memTableConfig.branchingFactor()). isEqualTo(4); memTableConfig.setBranchingFactor(6); assertThat(memTableConfig.branchingFactor()). isEqualTo(6); options.setMemTableConfig(memTableConfig); } } @Test public void skipListMemTable() throws RocksDBException { try(final Options options = new Options()) { SkipListMemTableConfig skipMemTableConfig = new SkipListMemTableConfig(); assertThat(skipMemTableConfig.lookahead()). isEqualTo(0); skipMemTableConfig.setLookahead(20); assertThat(skipMemTableConfig.lookahead()). isEqualTo(20); options.setMemTableConfig(skipMemTableConfig); } } @Test public void hashLinkedListMemTable() throws RocksDBException { try(final Options options = new Options()) { HashLinkedListMemTableConfig hashLinkedListMemTableConfig = new HashLinkedListMemTableConfig(); assertThat(hashLinkedListMemTableConfig.bucketCount()). isEqualTo(50000); hashLinkedListMemTableConfig.setBucketCount(100000); assertThat(hashLinkedListMemTableConfig.bucketCount()). isEqualTo(100000); assertThat(hashLinkedListMemTableConfig.hugePageTlbSize()). isEqualTo(0); hashLinkedListMemTableConfig.setHugePageTlbSize(1); assertThat(hashLinkedListMemTableConfig.hugePageTlbSize()). isEqualTo(1); assertThat(hashLinkedListMemTableConfig. bucketEntriesLoggingThreshold()). isEqualTo(4096); hashLinkedListMemTableConfig. setBucketEntriesLoggingThreshold(200); assertThat(hashLinkedListMemTableConfig. bucketEntriesLoggingThreshold()). isEqualTo(200); assertThat(hashLinkedListMemTableConfig. ifLogBucketDistWhenFlush()).isTrue(); hashLinkedListMemTableConfig. setIfLogBucketDistWhenFlush(false); assertThat(hashLinkedListMemTableConfig. ifLogBucketDistWhenFlush()).isFalse(); assertThat(hashLinkedListMemTableConfig. thresholdUseSkiplist()). isEqualTo(256); hashLinkedListMemTableConfig.setThresholdUseSkiplist(29); assertThat(hashLinkedListMemTableConfig. thresholdUseSkiplist()). isEqualTo(29); options.setMemTableConfig(hashLinkedListMemTableConfig); } } @Test public void vectorMemTable() throws RocksDBException { try(final Options options = new Options()) { VectorMemTableConfig vectorMemTableConfig = new VectorMemTableConfig(); assertThat(vectorMemTableConfig.reservedSize()). isEqualTo(0); vectorMemTableConfig.setReservedSize(123); assertThat(vectorMemTableConfig.reservedSize()). isEqualTo(123); options.setMemTableConfig(vectorMemTableConfig); } } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/MergeTest.java000066400000000000000000000205161337235545400236440ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import java.util.Arrays; import java.util.List; import java.util.ArrayList; import org.junit.ClassRule; import org.junit.Rule; import org.junit.Test; import org.junit.rules.TemporaryFolder; import static org.assertj.core.api.Assertions.assertThat; public class MergeTest { @ClassRule public static final RocksMemoryResource rocksMemoryResource = new RocksMemoryResource(); @Rule public TemporaryFolder dbFolder = new TemporaryFolder(); @Test public void stringOption() throws InterruptedException, RocksDBException { try (final Options opt = new Options() .setCreateIfMissing(true) .setMergeOperatorName("stringappend"); final RocksDB db = RocksDB.open(opt, dbFolder.getRoot().getAbsolutePath())) { // writing aa under key db.put("key".getBytes(), "aa".getBytes()); // merge bb under key db.merge("key".getBytes(), "bb".getBytes()); final byte[] value = db.get("key".getBytes()); final String strValue = new String(value); assertThat(strValue).isEqualTo("aa,bb"); } } @Test public void cFStringOption() throws InterruptedException, RocksDBException { try (final ColumnFamilyOptions cfOpt1 = new ColumnFamilyOptions() .setMergeOperatorName("stringappend"); final ColumnFamilyOptions cfOpt2 = new ColumnFamilyOptions() .setMergeOperatorName("stringappend") ) { final List cfDescriptors = Arrays.asList( new ColumnFamilyDescriptor(RocksDB.DEFAULT_COLUMN_FAMILY, cfOpt1), new ColumnFamilyDescriptor(RocksDB.DEFAULT_COLUMN_FAMILY, cfOpt2) ); final List columnFamilyHandleList = new ArrayList<>(); try (final DBOptions opt = new DBOptions() .setCreateIfMissing(true) .setCreateMissingColumnFamilies(true); final RocksDB db = RocksDB.open(opt, dbFolder.getRoot().getAbsolutePath(), cfDescriptors, columnFamilyHandleList)) { try { // writing aa under key db.put(columnFamilyHandleList.get(1), "cfkey".getBytes(), "aa".getBytes()); // merge bb under key db.merge(columnFamilyHandleList.get(1), "cfkey".getBytes(), "bb".getBytes()); byte[] value = db.get(columnFamilyHandleList.get(1), "cfkey".getBytes()); String strValue = new String(value); assertThat(strValue).isEqualTo("aa,bb"); } finally { for (final ColumnFamilyHandle handle : columnFamilyHandleList) { handle.close(); } } } } } @Test public void operatorOption() throws InterruptedException, RocksDBException { try (final StringAppendOperator stringAppendOperator = new StringAppendOperator(); final Options opt = new Options() .setCreateIfMissing(true) .setMergeOperator(stringAppendOperator); final RocksDB db = RocksDB.open(opt, dbFolder.getRoot().getAbsolutePath())) { // Writing aa under key db.put("key".getBytes(), "aa".getBytes()); // Writing bb under key db.merge("key".getBytes(), "bb".getBytes()); final byte[] value = db.get("key".getBytes()); final String strValue = new String(value); assertThat(strValue).isEqualTo("aa,bb"); } } @Test public void cFOperatorOption() throws InterruptedException, RocksDBException { try (final StringAppendOperator stringAppendOperator = new StringAppendOperator(); final ColumnFamilyOptions cfOpt1 = new ColumnFamilyOptions() .setMergeOperator(stringAppendOperator); final ColumnFamilyOptions cfOpt2 = new ColumnFamilyOptions() .setMergeOperator(stringAppendOperator) ) { final List cfDescriptors = Arrays.asList( new ColumnFamilyDescriptor(RocksDB.DEFAULT_COLUMN_FAMILY, cfOpt1), new ColumnFamilyDescriptor("new_cf".getBytes(), cfOpt2) ); final List columnFamilyHandleList = new ArrayList<>(); try (final DBOptions opt = new DBOptions() .setCreateIfMissing(true) .setCreateMissingColumnFamilies(true); final RocksDB db = RocksDB.open(opt, dbFolder.getRoot().getAbsolutePath(), cfDescriptors, columnFamilyHandleList) ) { try { // writing aa under key db.put(columnFamilyHandleList.get(1), "cfkey".getBytes(), "aa".getBytes()); // merge bb under key db.merge(columnFamilyHandleList.get(1), "cfkey".getBytes(), "bb".getBytes()); byte[] value = db.get(columnFamilyHandleList.get(1), "cfkey".getBytes()); String strValue = new String(value); // Test also with createColumnFamily try (final ColumnFamilyOptions cfHandleOpts = new ColumnFamilyOptions() .setMergeOperator(stringAppendOperator); final ColumnFamilyHandle cfHandle = db.createColumnFamily( new ColumnFamilyDescriptor("new_cf2".getBytes(), cfHandleOpts)) ) { // writing xx under cfkey2 db.put(cfHandle, "cfkey2".getBytes(), "xx".getBytes()); // merge yy under cfkey2 db.merge(cfHandle, new WriteOptions(), "cfkey2".getBytes(), "yy".getBytes()); value = db.get(cfHandle, "cfkey2".getBytes()); String strValueTmpCf = new String(value); assertThat(strValue).isEqualTo("aa,bb"); assertThat(strValueTmpCf).isEqualTo("xx,yy"); } } finally { for (final ColumnFamilyHandle columnFamilyHandle : columnFamilyHandleList) { columnFamilyHandle.close(); } } } } } @Test public void operatorGcBehaviour() throws RocksDBException { try (final StringAppendOperator stringAppendOperator = new StringAppendOperator()) { try (final Options opt = new Options() .setCreateIfMissing(true) .setMergeOperator(stringAppendOperator); final RocksDB db = RocksDB.open(opt, dbFolder.getRoot().getAbsolutePath())) { //no-op } // test reuse try (final Options opt = new Options() .setMergeOperator(stringAppendOperator); final RocksDB db = RocksDB.open(opt, dbFolder.getRoot().getAbsolutePath())) { //no-op } // test param init try (final StringAppendOperator stringAppendOperator2 = new StringAppendOperator(); final Options opt = new Options() .setMergeOperator(stringAppendOperator2); final RocksDB db = RocksDB.open(opt, dbFolder.getRoot().getAbsolutePath())) { //no-op } // test replace one with another merge operator instance try (final Options opt = new Options() .setMergeOperator(stringAppendOperator); final StringAppendOperator newStringAppendOperator = new StringAppendOperator()) { opt.setMergeOperator(newStringAppendOperator); try (final RocksDB db = RocksDB.open(opt, dbFolder.getRoot().getAbsolutePath())) { //no-op } } } } @Test public void emptyStringInSetMergeOperatorByName() { try (final Options opt = new Options() .setMergeOperatorName(""); final ColumnFamilyOptions cOpt = new ColumnFamilyOptions() .setMergeOperatorName("")) { //no-op } } @Test(expected = IllegalArgumentException.class) public void nullStringInSetMergeOperatorByNameOptions() { try (final Options opt = new Options()) { opt.setMergeOperatorName(null); } } @Test(expected = IllegalArgumentException.class) public void nullStringInSetMergeOperatorByNameColumnFamilyOptions() { try (final ColumnFamilyOptions opt = new ColumnFamilyOptions()) { opt.setMergeOperatorName(null); } } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/MixedOptionsTest.java000066400000000000000000000037411337235545400252300ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import org.junit.ClassRule; import org.junit.Test; import static org.assertj.core.api.Assertions.assertThat; public class MixedOptionsTest { @ClassRule public static final RocksMemoryResource rocksMemoryResource = new RocksMemoryResource(); @Test public void mixedOptionsTest(){ // Set a table factory and check the names try(final Filter bloomFilter = new BloomFilter(); final ColumnFamilyOptions cfOptions = new ColumnFamilyOptions() .setTableFormatConfig( new BlockBasedTableConfig().setFilter(bloomFilter)) ) { assertThat(cfOptions.tableFactoryName()).isEqualTo( "BlockBasedTable"); cfOptions.setTableFormatConfig(new PlainTableConfig()); assertThat(cfOptions.tableFactoryName()).isEqualTo("PlainTable"); // Initialize a dbOptions object from cf options and // db options try (final DBOptions dbOptions = new DBOptions(); final Options options = new Options(dbOptions, cfOptions)) { assertThat(options.tableFactoryName()).isEqualTo("PlainTable"); // Free instances } } // Test Optimize for statements try(final ColumnFamilyOptions cfOptions = new ColumnFamilyOptions()) { cfOptions.optimizeUniversalStyleCompaction(); cfOptions.optimizeLevelStyleCompaction(); cfOptions.optimizeForPointLookup(1024); try(final Options options = new Options()) { options.optimizeLevelStyleCompaction(); options.optimizeLevelStyleCompaction(400); options.optimizeUniversalStyleCompaction(); options.optimizeUniversalStyleCompaction(400); options.optimizeForPointLookup(1024); options.prepareForBulkLoad(); } } } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/MutableColumnFamilyOptionsTest.java000066400000000000000000000060251337235545400300710ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import org.junit.Test; import org.rocksdb.MutableColumnFamilyOptions.MutableColumnFamilyOptionsBuilder; import java.util.NoSuchElementException; import static org.assertj.core.api.Assertions.assertThat; public class MutableColumnFamilyOptionsTest { @Test public void builder() { final MutableColumnFamilyOptionsBuilder builder = MutableColumnFamilyOptions.builder(); builder .setWriteBufferSize(10) .setInplaceUpdateNumLocks(5) .setDisableAutoCompactions(true) .setParanoidFileChecks(true); assertThat(builder.writeBufferSize()).isEqualTo(10); assertThat(builder.inplaceUpdateNumLocks()).isEqualTo(5); assertThat(builder.disableAutoCompactions()).isEqualTo(true); assertThat(builder.paranoidFileChecks()).isEqualTo(true); } @Test(expected = NoSuchElementException.class) public void builder_getWhenNotSet() { final MutableColumnFamilyOptionsBuilder builder = MutableColumnFamilyOptions.builder(); builder.writeBufferSize(); } @Test public void builder_build() { final MutableColumnFamilyOptions options = MutableColumnFamilyOptions .builder() .setWriteBufferSize(10) .setParanoidFileChecks(true) .build(); assertThat(options.getKeys().length).isEqualTo(2); assertThat(options.getValues().length).isEqualTo(2); assertThat(options.getKeys()[0]) .isEqualTo( MutableColumnFamilyOptions.MemtableOption.write_buffer_size.name()); assertThat(options.getValues()[0]).isEqualTo("10"); assertThat(options.getKeys()[1]) .isEqualTo( MutableColumnFamilyOptions.MiscOption.paranoid_file_checks.name()); assertThat(options.getValues()[1]).isEqualTo("true"); } @Test public void mutableColumnFamilyOptions_toString() { final String str = MutableColumnFamilyOptions .builder() .setWriteBufferSize(10) .setInplaceUpdateNumLocks(5) .setDisableAutoCompactions(true) .setParanoidFileChecks(true) .build() .toString(); assertThat(str).isEqualTo("write_buffer_size=10;inplace_update_num_locks=5;" + "disable_auto_compactions=true;paranoid_file_checks=true"); } @Test public void mutableColumnFamilyOptions_parse() { final String str = "write_buffer_size=10;inplace_update_num_locks=5;" + "disable_auto_compactions=true;paranoid_file_checks=true"; final MutableColumnFamilyOptionsBuilder builder = MutableColumnFamilyOptions.parse(str); assertThat(builder.writeBufferSize()).isEqualTo(10); assertThat(builder.inplaceUpdateNumLocks()).isEqualTo(5); assertThat(builder.disableAutoCompactions()).isEqualTo(true); assertThat(builder.paranoidFileChecks()).isEqualTo(true); } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/NativeComparatorWrapperTest.java000066400000000000000000000054241337235545400274250ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import org.junit.Rule; import org.junit.Test; import org.junit.rules.TemporaryFolder; import java.util.*; import java.util.Comparator; import static org.junit.Assert.assertEquals; public class NativeComparatorWrapperTest { @Rule public TemporaryFolder dbFolder = new TemporaryFolder(); private static final Random random = new Random(); @Test public void rountrip() throws RocksDBException { final String dbPath = dbFolder.getRoot().getAbsolutePath(); final int ITERATIONS = 1_000; final String[] storedKeys = new String[ITERATIONS]; try (final NativeStringComparatorWrapper comparator = new NativeStringComparatorWrapper(); final Options opt = new Options() .setCreateIfMissing(true) .setComparator(comparator)) { // store random integer keys try (final RocksDB db = RocksDB.open(opt, dbPath)) { for (int i = 0; i < ITERATIONS; i++) { final String strKey = randomString(); final byte key[] = strKey.getBytes(); // does key already exist (avoid duplicates) if (i > 0 && db.get(key) != null) { i--; // generate a different key } else { db.put(key, "value".getBytes()); storedKeys[i] = strKey; } } } // sort the stored keys into ascending alpha-numeric order Arrays.sort(storedKeys, new Comparator() { @Override public int compare(final String o1, final String o2) { return o1.compareTo(o2); } }); // re-open db and read from start to end // string keys should be in ascending // order try (final RocksDB db = RocksDB.open(opt, dbPath); final RocksIterator it = db.newIterator()) { int count = 0; for (it.seekToFirst(); it.isValid(); it.next()) { final String strKey = new String(it.key()); assertEquals(storedKeys[count++], strKey); } } } } private String randomString() { final char[] chars = new char[12]; for(int i = 0; i < 12; i++) { final int letterCode = random.nextInt(24); final char letter = (char) (((int) 'a') + letterCode); chars[i] = letter; } return String.copyValueOf(chars); } public static class NativeStringComparatorWrapper extends NativeComparatorWrapper { @Override protected long initializeNative(final long... nativeParameterHandles) { return newStringComparator(); } private native long newStringComparator(); } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/NativeLibraryLoaderTest.java000066400000000000000000000026221337235545400265050ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import org.junit.Rule; import org.junit.Test; import org.junit.rules.TemporaryFolder; import org.rocksdb.util.Environment; import java.io.File; import java.io.IOException; import java.nio.file.*; import static org.assertj.core.api.Assertions.assertThat; public class NativeLibraryLoaderTest { @Rule public TemporaryFolder temporaryFolder = new TemporaryFolder(); @Test public void tempFolder() throws IOException { NativeLibraryLoader.getInstance().loadLibraryFromJarToTemp( temporaryFolder.getRoot().getAbsolutePath()); final Path path = Paths.get(temporaryFolder.getRoot().getAbsolutePath(), Environment.getJniLibraryFileName("rocksdb")); assertThat(Files.exists(path)).isTrue(); assertThat(Files.isReadable(path)).isTrue(); } @Test public void overridesExistingLibrary() throws IOException { File first = NativeLibraryLoader.getInstance().loadLibraryFromJarToTemp( temporaryFolder.getRoot().getAbsolutePath()); NativeLibraryLoader.getInstance().loadLibraryFromJarToTemp( temporaryFolder.getRoot().getAbsolutePath()); assertThat(first.exists()).isTrue(); } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/OptimisticTransactionDBTest.java000066400000000000000000000113071337235545400273430ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import org.junit.Rule; import org.junit.Test; import org.junit.rules.TemporaryFolder; import java.util.ArrayList; import java.util.Arrays; import java.util.List; import static org.assertj.core.api.Assertions.assertThat; public class OptimisticTransactionDBTest { @Rule public TemporaryFolder dbFolder = new TemporaryFolder(); @Test public void open() throws RocksDBException { try (final Options options = new Options().setCreateIfMissing(true); final OptimisticTransactionDB otdb = OptimisticTransactionDB.open(options, dbFolder.getRoot().getAbsolutePath())) { assertThat(otdb).isNotNull(); } } @Test public void open_columnFamilies() throws RocksDBException { try(final DBOptions dbOptions = new DBOptions().setCreateIfMissing(true) .setCreateMissingColumnFamilies(true); final ColumnFamilyOptions myCfOpts = new ColumnFamilyOptions()) { final List columnFamilyDescriptors = Arrays.asList( new ColumnFamilyDescriptor(RocksDB.DEFAULT_COLUMN_FAMILY), new ColumnFamilyDescriptor("myCf".getBytes(), myCfOpts)); final List columnFamilyHandles = new ArrayList<>(); try (final OptimisticTransactionDB otdb = OptimisticTransactionDB.open(dbOptions, dbFolder.getRoot().getAbsolutePath(), columnFamilyDescriptors, columnFamilyHandles)) { try { assertThat(otdb).isNotNull(); } finally { for (final ColumnFamilyHandle handle : columnFamilyHandles) { handle.close(); } } } } } @Test public void beginTransaction() throws RocksDBException { try (final Options options = new Options().setCreateIfMissing(true); final OptimisticTransactionDB otdb = OptimisticTransactionDB.open( options, dbFolder.getRoot().getAbsolutePath()); final WriteOptions writeOptions = new WriteOptions()) { try(final Transaction txn = otdb.beginTransaction(writeOptions)) { assertThat(txn).isNotNull(); } } } @Test public void beginTransaction_transactionOptions() throws RocksDBException { try (final Options options = new Options().setCreateIfMissing(true); final OptimisticTransactionDB otdb = OptimisticTransactionDB.open( options, dbFolder.getRoot().getAbsolutePath()); final WriteOptions writeOptions = new WriteOptions(); final OptimisticTransactionOptions optimisticTxnOptions = new OptimisticTransactionOptions()) { try(final Transaction txn = otdb.beginTransaction(writeOptions, optimisticTxnOptions)) { assertThat(txn).isNotNull(); } } } @Test public void beginTransaction_withOld() throws RocksDBException { try (final Options options = new Options().setCreateIfMissing(true); final OptimisticTransactionDB otdb = OptimisticTransactionDB.open( options, dbFolder.getRoot().getAbsolutePath()); final WriteOptions writeOptions = new WriteOptions()) { try(final Transaction txn = otdb.beginTransaction(writeOptions)) { final Transaction txnReused = otdb.beginTransaction(writeOptions, txn); assertThat(txnReused).isSameAs(txn); } } } @Test public void beginTransaction_withOld_transactionOptions() throws RocksDBException { try (final Options options = new Options().setCreateIfMissing(true); final OptimisticTransactionDB otdb = OptimisticTransactionDB.open( options, dbFolder.getRoot().getAbsolutePath()); final WriteOptions writeOptions = new WriteOptions(); final OptimisticTransactionOptions optimisticTxnOptions = new OptimisticTransactionOptions()) { try(final Transaction txn = otdb.beginTransaction(writeOptions)) { final Transaction txnReused = otdb.beginTransaction(writeOptions, optimisticTxnOptions, txn); assertThat(txnReused).isSameAs(txn); } } } @Test public void baseDB() throws RocksDBException { try (final Options options = new Options().setCreateIfMissing(true); final OptimisticTransactionDB otdb = OptimisticTransactionDB.open(options, dbFolder.getRoot().getAbsolutePath())) { assertThat(otdb).isNotNull(); final RocksDB db = otdb.getBaseDB(); assertThat(db).isNotNull(); assertThat(db.isOwningHandle()).isFalse(); } } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/OptimisticTransactionOptionsTest.java000066400000000000000000000022601337235545400305070ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import org.junit.Test; import org.rocksdb.util.DirectBytewiseComparator; import java.util.Random; import static org.assertj.core.api.Assertions.assertThat; public class OptimisticTransactionOptionsTest { private static final Random rand = PlatformRandomHelper. getPlatformSpecificRandomFactory(); @Test public void setSnapshot() { try (final OptimisticTransactionOptions opt = new OptimisticTransactionOptions()) { final boolean boolValue = rand.nextBoolean(); opt.setSetSnapshot(boolValue); assertThat(opt.isSetSnapshot()).isEqualTo(boolValue); } } @Test public void comparator() { try (final OptimisticTransactionOptions opt = new OptimisticTransactionOptions(); final ComparatorOptions copt = new ComparatorOptions(); final DirectComparator comparator = new DirectBytewiseComparator(copt)) { opt.setComparator(comparator); } } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/OptimisticTransactionTest.java000066400000000000000000000276111337235545400271420ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import org.junit.Test; import java.util.ArrayList; import java.util.Arrays; import java.util.List; import static java.nio.charset.StandardCharsets.UTF_8; import static org.assertj.core.api.Assertions.assertThat; import static org.assertj.core.api.Assertions.fail; public class OptimisticTransactionTest extends AbstractTransactionTest { @Test public void getForUpdate_cf_conflict() throws RocksDBException { final byte k1[] = "key1".getBytes(UTF_8); final byte v1[] = "value1".getBytes(UTF_8); final byte v12[] = "value12".getBytes(UTF_8); try(final DBContainer dbContainer = startDb(); final ReadOptions readOptions = new ReadOptions()) { final ColumnFamilyHandle testCf = dbContainer.getTestColumnFamily(); try(final Transaction txn = dbContainer.beginTransaction()) { txn.put(testCf, k1, v1); assertThat(txn.get(testCf, readOptions, k1)).isEqualTo(v1); txn.commit(); } try(final Transaction txn2 = dbContainer.beginTransaction()) { try(final Transaction txn3 = dbContainer.beginTransaction()) { assertThat(txn3.getForUpdate(readOptions, testCf, k1, true)).isEqualTo(v1); // NOTE: txn2 updates k1, during txn3 txn2.put(testCf, k1, v12); assertThat(txn2.get(testCf, readOptions, k1)).isEqualTo(v12); txn2.commit(); try { txn3.commit(); // should cause an exception! } catch(final RocksDBException e) { assertThat(e.getStatus().getCode()).isSameAs(Status.Code.Busy); return; } } } fail("Expected an exception for put after getForUpdate from conflicting" + "transactions"); } } @Test public void getForUpdate_conflict() throws RocksDBException { final byte k1[] = "key1".getBytes(UTF_8); final byte v1[] = "value1".getBytes(UTF_8); final byte v12[] = "value12".getBytes(UTF_8); try(final DBContainer dbContainer = startDb(); final ReadOptions readOptions = new ReadOptions()) { try(final Transaction txn = dbContainer.beginTransaction()) { txn.put(k1, v1); assertThat(txn.get(readOptions, k1)).isEqualTo(v1); txn.commit(); } try(final Transaction txn2 = dbContainer.beginTransaction()) { try(final Transaction txn3 = dbContainer.beginTransaction()) { assertThat(txn3.getForUpdate(readOptions, k1, true)).isEqualTo(v1); // NOTE: txn2 updates k1, during txn3 txn2.put(k1, v12); assertThat(txn2.get(readOptions, k1)).isEqualTo(v12); txn2.commit(); try { txn3.commit(); // should cause an exception! } catch(final RocksDBException e) { assertThat(e.getStatus().getCode()).isSameAs(Status.Code.Busy); return; } } } fail("Expected an exception for put after getForUpdate from conflicting" + "transactions"); } } @Test public void multiGetForUpdate_cf_conflict() throws RocksDBException { final byte keys[][] = new byte[][] { "key1".getBytes(UTF_8), "key2".getBytes(UTF_8)}; final byte values[][] = new byte[][] { "value1".getBytes(UTF_8), "value2".getBytes(UTF_8)}; final byte[] otherValue = "otherValue".getBytes(UTF_8); try(final DBContainer dbContainer = startDb(); final ReadOptions readOptions = new ReadOptions()) { final ColumnFamilyHandle testCf = dbContainer.getTestColumnFamily(); final List cfList = Arrays.asList(testCf, testCf); try(final Transaction txn = dbContainer.beginTransaction()) { txn.put(testCf, keys[0], values[0]); txn.put(testCf, keys[1], values[1]); assertThat(txn.multiGet(readOptions, cfList, keys)).isEqualTo(values); txn.commit(); } try(final Transaction txn2 = dbContainer.beginTransaction()) { try(final Transaction txn3 = dbContainer.beginTransaction()) { assertThat(txn3.multiGetForUpdate(readOptions, cfList, keys)) .isEqualTo(values); // NOTE: txn2 updates k1, during txn3 txn2.put(testCf, keys[0], otherValue); assertThat(txn2.get(testCf, readOptions, keys[0])) .isEqualTo(otherValue); txn2.commit(); try { txn3.commit(); // should cause an exception! } catch(final RocksDBException e) { assertThat(e.getStatus().getCode()).isSameAs(Status.Code.Busy); return; } } } fail("Expected an exception for put after getForUpdate from conflicting" + "transactions"); } } @Test public void multiGetForUpdate_conflict() throws RocksDBException { final byte keys[][] = new byte[][] { "key1".getBytes(UTF_8), "key2".getBytes(UTF_8)}; final byte values[][] = new byte[][] { "value1".getBytes(UTF_8), "value2".getBytes(UTF_8)}; final byte[] otherValue = "otherValue".getBytes(UTF_8); try(final DBContainer dbContainer = startDb(); final ReadOptions readOptions = new ReadOptions()) { try(final Transaction txn = dbContainer.beginTransaction()) { txn.put(keys[0], values[0]); txn.put(keys[1], values[1]); assertThat(txn.multiGet(readOptions, keys)).isEqualTo(values); txn.commit(); } try(final Transaction txn2 = dbContainer.beginTransaction()) { try(final Transaction txn3 = dbContainer.beginTransaction()) { assertThat(txn3.multiGetForUpdate(readOptions, keys)) .isEqualTo(values); // NOTE: txn2 updates k1, during txn3 txn2.put(keys[0], otherValue); assertThat(txn2.get(readOptions, keys[0])) .isEqualTo(otherValue); txn2.commit(); try { txn3.commit(); // should cause an exception! } catch(final RocksDBException e) { assertThat(e.getStatus().getCode()).isSameAs(Status.Code.Busy); return; } } } fail("Expected an exception for put after getForUpdate from conflicting" + "transactions"); } } @Test public void undoGetForUpdate_cf_conflict() throws RocksDBException { final byte k1[] = "key1".getBytes(UTF_8); final byte v1[] = "value1".getBytes(UTF_8); final byte v12[] = "value12".getBytes(UTF_8); try(final DBContainer dbContainer = startDb(); final ReadOptions readOptions = new ReadOptions()) { final ColumnFamilyHandle testCf = dbContainer.getTestColumnFamily(); try(final Transaction txn = dbContainer.beginTransaction()) { txn.put(testCf, k1, v1); assertThat(txn.get(testCf, readOptions, k1)).isEqualTo(v1); txn.commit(); } try(final Transaction txn2 = dbContainer.beginTransaction()) { try(final Transaction txn3 = dbContainer.beginTransaction()) { assertThat(txn3.getForUpdate(readOptions, testCf, k1, true)).isEqualTo(v1); // undo the getForUpdate txn3.undoGetForUpdate(testCf, k1); // NOTE: txn2 updates k1, during txn3 txn2.put(testCf, k1, v12); assertThat(txn2.get(testCf, readOptions, k1)).isEqualTo(v12); txn2.commit(); // should not cause an exception // because we undid the getForUpdate above! txn3.commit(); } } } } @Test public void undoGetForUpdate_conflict() throws RocksDBException { final byte k1[] = "key1".getBytes(UTF_8); final byte v1[] = "value1".getBytes(UTF_8); final byte v12[] = "value12".getBytes(UTF_8); try(final DBContainer dbContainer = startDb(); final ReadOptions readOptions = new ReadOptions()) { try(final Transaction txn = dbContainer.beginTransaction()) { txn.put(k1, v1); assertThat(txn.get(readOptions, k1)).isEqualTo(v1); txn.commit(); } try(final Transaction txn2 = dbContainer.beginTransaction()) { try(final Transaction txn3 = dbContainer.beginTransaction()) { assertThat(txn3.getForUpdate(readOptions, k1, true)).isEqualTo(v1); // undo the getForUpdate txn3.undoGetForUpdate(k1); // NOTE: txn2 updates k1, during txn3 txn2.put(k1, v12); assertThat(txn2.get(readOptions, k1)).isEqualTo(v12); txn2.commit(); // should not cause an exception // because we undid the getForUpdate above! txn3.commit(); } } } } @Test public void name() throws RocksDBException { try(final DBContainer dbContainer = startDb(); final Transaction txn = dbContainer.beginTransaction()) { assertThat(txn.getName()).isEmpty(); final String name = "my-transaction-" + rand.nextLong(); try { txn.setName(name); } catch(final RocksDBException e) { assertThat(e.getStatus().getCode() == Status.Code.InvalidArgument); return; } fail("Optimistic transactions cannot be named."); } } @Override public OptimisticTransactionDBContainer startDb() throws RocksDBException { final DBOptions options = new DBOptions() .setCreateIfMissing(true) .setCreateMissingColumnFamilies(true); final ColumnFamilyOptions columnFamilyOptions = new ColumnFamilyOptions(); final List columnFamilyDescriptors = Arrays.asList( new ColumnFamilyDescriptor(RocksDB.DEFAULT_COLUMN_FAMILY), new ColumnFamilyDescriptor(TXN_TEST_COLUMN_FAMILY, columnFamilyOptions)); final List columnFamilyHandles = new ArrayList<>(); final OptimisticTransactionDB optimisticTxnDb; try { optimisticTxnDb = OptimisticTransactionDB.open( options, dbFolder.getRoot().getAbsolutePath(), columnFamilyDescriptors, columnFamilyHandles); } catch(final RocksDBException e) { columnFamilyOptions.close(); options.close(); throw e; } final WriteOptions writeOptions = new WriteOptions(); final OptimisticTransactionOptions optimisticTxnOptions = new OptimisticTransactionOptions(); return new OptimisticTransactionDBContainer(optimisticTxnOptions, writeOptions, columnFamilyHandles, optimisticTxnDb, columnFamilyOptions, options); } private static class OptimisticTransactionDBContainer extends DBContainer { private final OptimisticTransactionOptions optimisticTxnOptions; private final OptimisticTransactionDB optimisticTxnDb; public OptimisticTransactionDBContainer( final OptimisticTransactionOptions optimisticTxnOptions, final WriteOptions writeOptions, final List columnFamilyHandles, final OptimisticTransactionDB optimisticTxnDb, final ColumnFamilyOptions columnFamilyOptions, final DBOptions options) { super(writeOptions, columnFamilyHandles, columnFamilyOptions, options); this.optimisticTxnOptions = optimisticTxnOptions; this.optimisticTxnDb = optimisticTxnDb; } @Override public Transaction beginTransaction() { return optimisticTxnDb.beginTransaction(writeOptions, optimisticTxnOptions); } @Override public Transaction beginTransaction(final WriteOptions writeOptions) { return optimisticTxnDb.beginTransaction(writeOptions, optimisticTxnOptions); } @Override public void close() { optimisticTxnOptions.close(); writeOptions.close(); for(final ColumnFamilyHandle columnFamilyHandle : columnFamilyHandles) { columnFamilyHandle.close(); } optimisticTxnDb.close(); options.close(); } } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/OptionsTest.java000066400000000000000000001023241337235545400242360ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import java.nio.file.Paths; import java.util.ArrayList; import java.util.Collections; import java.util.List; import java.util.Random; import org.junit.ClassRule; import org.junit.Test; import static org.assertj.core.api.Assertions.assertThat; public class OptionsTest { @ClassRule public static final RocksMemoryResource rocksMemoryResource = new RocksMemoryResource(); public static final Random rand = PlatformRandomHelper. getPlatformSpecificRandomFactory(); @Test public void copyConstructor() { Options origOpts = new Options(); origOpts.setNumLevels(rand.nextInt(8)); origOpts.setTargetFileSizeMultiplier(rand.nextInt(100)); origOpts.setLevel0StopWritesTrigger(rand.nextInt(50)); Options copyOpts = new Options(origOpts); assertThat(origOpts.numLevels()).isEqualTo(copyOpts.numLevels()); assertThat(origOpts.targetFileSizeMultiplier()).isEqualTo(copyOpts.targetFileSizeMultiplier()); assertThat(origOpts.level0StopWritesTrigger()).isEqualTo(copyOpts.level0StopWritesTrigger()); } @Test public void setIncreaseParallelism() { try (final Options opt = new Options()) { final int threads = Runtime.getRuntime().availableProcessors() * 2; opt.setIncreaseParallelism(threads); } } @Test public void writeBufferSize() throws RocksDBException { try (final Options opt = new Options()) { final long longValue = rand.nextLong(); opt.setWriteBufferSize(longValue); assertThat(opt.writeBufferSize()).isEqualTo(longValue); } } @Test public void maxWriteBufferNumber() { try (final Options opt = new Options()) { final int intValue = rand.nextInt(); opt.setMaxWriteBufferNumber(intValue); assertThat(opt.maxWriteBufferNumber()).isEqualTo(intValue); } } @Test public void minWriteBufferNumberToMerge() { try (final Options opt = new Options()) { final int intValue = rand.nextInt(); opt.setMinWriteBufferNumberToMerge(intValue); assertThat(opt.minWriteBufferNumberToMerge()).isEqualTo(intValue); } } @Test public void numLevels() { try (final Options opt = new Options()) { final int intValue = rand.nextInt(); opt.setNumLevels(intValue); assertThat(opt.numLevels()).isEqualTo(intValue); } } @Test public void levelZeroFileNumCompactionTrigger() { try (final Options opt = new Options()) { final int intValue = rand.nextInt(); opt.setLevelZeroFileNumCompactionTrigger(intValue); assertThat(opt.levelZeroFileNumCompactionTrigger()).isEqualTo(intValue); } } @Test public void levelZeroSlowdownWritesTrigger() { try (final Options opt = new Options()) { final int intValue = rand.nextInt(); opt.setLevelZeroSlowdownWritesTrigger(intValue); assertThat(opt.levelZeroSlowdownWritesTrigger()).isEqualTo(intValue); } } @Test public void levelZeroStopWritesTrigger() { try (final Options opt = new Options()) { final int intValue = rand.nextInt(); opt.setLevelZeroStopWritesTrigger(intValue); assertThat(opt.levelZeroStopWritesTrigger()).isEqualTo(intValue); } } @Test public void targetFileSizeBase() { try (final Options opt = new Options()) { final long longValue = rand.nextLong(); opt.setTargetFileSizeBase(longValue); assertThat(opt.targetFileSizeBase()).isEqualTo(longValue); } } @Test public void targetFileSizeMultiplier() { try (final Options opt = new Options()) { final int intValue = rand.nextInt(); opt.setTargetFileSizeMultiplier(intValue); assertThat(opt.targetFileSizeMultiplier()).isEqualTo(intValue); } } @Test public void maxBytesForLevelBase() { try (final Options opt = new Options()) { final long longValue = rand.nextLong(); opt.setMaxBytesForLevelBase(longValue); assertThat(opt.maxBytesForLevelBase()).isEqualTo(longValue); } } @Test public void levelCompactionDynamicLevelBytes() { try (final Options opt = new Options()) { final boolean boolValue = rand.nextBoolean(); opt.setLevelCompactionDynamicLevelBytes(boolValue); assertThat(opt.levelCompactionDynamicLevelBytes()) .isEqualTo(boolValue); } } @Test public void maxBytesForLevelMultiplier() { try (final Options opt = new Options()) { final double doubleValue = rand.nextDouble(); opt.setMaxBytesForLevelMultiplier(doubleValue); assertThat(opt.maxBytesForLevelMultiplier()).isEqualTo(doubleValue); } } @Test public void maxBytesForLevelMultiplierAdditional() { try (final Options opt = new Options()) { final int intValue1 = rand.nextInt(); final int intValue2 = rand.nextInt(); final int[] ints = new int[]{intValue1, intValue2}; opt.setMaxBytesForLevelMultiplierAdditional(ints); assertThat(opt.maxBytesForLevelMultiplierAdditional()).isEqualTo(ints); } } @Test public void maxCompactionBytes() { try (final Options opt = new Options()) { final long longValue = rand.nextLong(); opt.setMaxCompactionBytes(longValue); assertThat(opt.maxCompactionBytes()).isEqualTo(longValue); } } @Test public void softPendingCompactionBytesLimit() { try (final Options opt = new Options()) { final long longValue = rand.nextLong(); opt.setSoftPendingCompactionBytesLimit(longValue); assertThat(opt.softPendingCompactionBytesLimit()).isEqualTo(longValue); } } @Test public void hardPendingCompactionBytesLimit() { try (final Options opt = new Options()) { final long longValue = rand.nextLong(); opt.setHardPendingCompactionBytesLimit(longValue); assertThat(opt.hardPendingCompactionBytesLimit()).isEqualTo(longValue); } } @Test public void level0FileNumCompactionTrigger() { try (final Options opt = new Options()) { final int intValue = rand.nextInt(); opt.setLevel0FileNumCompactionTrigger(intValue); assertThat(opt.level0FileNumCompactionTrigger()).isEqualTo(intValue); } } @Test public void level0SlowdownWritesTrigger() { try (final Options opt = new Options()) { final int intValue = rand.nextInt(); opt.setLevel0SlowdownWritesTrigger(intValue); assertThat(opt.level0SlowdownWritesTrigger()).isEqualTo(intValue); } } @Test public void level0StopWritesTrigger() { try (final Options opt = new Options()) { final int intValue = rand.nextInt(); opt.setLevel0StopWritesTrigger(intValue); assertThat(opt.level0StopWritesTrigger()).isEqualTo(intValue); } } @Test public void arenaBlockSize() throws RocksDBException { try (final Options opt = new Options()) { final long longValue = rand.nextLong(); opt.setArenaBlockSize(longValue); assertThat(opt.arenaBlockSize()).isEqualTo(longValue); } } @Test public void disableAutoCompactions() { try (final Options opt = new Options()) { final boolean boolValue = rand.nextBoolean(); opt.setDisableAutoCompactions(boolValue); assertThat(opt.disableAutoCompactions()).isEqualTo(boolValue); } } @Test public void maxSequentialSkipInIterations() { try (final Options opt = new Options()) { final long longValue = rand.nextLong(); opt.setMaxSequentialSkipInIterations(longValue); assertThat(opt.maxSequentialSkipInIterations()).isEqualTo(longValue); } } @Test public void inplaceUpdateSupport() { try (final Options opt = new Options()) { final boolean boolValue = rand.nextBoolean(); opt.setInplaceUpdateSupport(boolValue); assertThat(opt.inplaceUpdateSupport()).isEqualTo(boolValue); } } @Test public void inplaceUpdateNumLocks() throws RocksDBException { try (final Options opt = new Options()) { final long longValue = rand.nextLong(); opt.setInplaceUpdateNumLocks(longValue); assertThat(opt.inplaceUpdateNumLocks()).isEqualTo(longValue); } } @Test public void memtablePrefixBloomSizeRatio() { try (final Options opt = new Options()) { final double doubleValue = rand.nextDouble(); opt.setMemtablePrefixBloomSizeRatio(doubleValue); assertThat(opt.memtablePrefixBloomSizeRatio()).isEqualTo(doubleValue); } } @Test public void memtableHugePageSize() { try (final Options opt = new Options()) { final long longValue = rand.nextLong(); opt.setMemtableHugePageSize(longValue); assertThat(opt.memtableHugePageSize()).isEqualTo(longValue); } } @Test public void bloomLocality() { try (final Options opt = new Options()) { final int intValue = rand.nextInt(); opt.setBloomLocality(intValue); assertThat(opt.bloomLocality()).isEqualTo(intValue); } } @Test public void maxSuccessiveMerges() throws RocksDBException { try (final Options opt = new Options()) { final long longValue = rand.nextLong(); opt.setMaxSuccessiveMerges(longValue); assertThat(opt.maxSuccessiveMerges()).isEqualTo(longValue); } } @Test public void optimizeFiltersForHits() { try (final Options opt = new Options()) { final boolean aBoolean = rand.nextBoolean(); opt.setOptimizeFiltersForHits(aBoolean); assertThat(opt.optimizeFiltersForHits()).isEqualTo(aBoolean); } } @Test public void createIfMissing() { try (final Options opt = new Options()) { final boolean boolValue = rand.nextBoolean(); opt.setCreateIfMissing(boolValue); assertThat(opt.createIfMissing()). isEqualTo(boolValue); } } @Test public void createMissingColumnFamilies() { try (final Options opt = new Options()) { final boolean boolValue = rand.nextBoolean(); opt.setCreateMissingColumnFamilies(boolValue); assertThat(opt.createMissingColumnFamilies()). isEqualTo(boolValue); } } @Test public void errorIfExists() { try (final Options opt = new Options()) { final boolean boolValue = rand.nextBoolean(); opt.setErrorIfExists(boolValue); assertThat(opt.errorIfExists()).isEqualTo(boolValue); } } @Test public void paranoidChecks() { try (final Options opt = new Options()) { final boolean boolValue = rand.nextBoolean(); opt.setParanoidChecks(boolValue); assertThat(opt.paranoidChecks()). isEqualTo(boolValue); } } @Test public void maxTotalWalSize() { try (final Options opt = new Options()) { final long longValue = rand.nextLong(); opt.setMaxTotalWalSize(longValue); assertThat(opt.maxTotalWalSize()). isEqualTo(longValue); } } @Test public void maxOpenFiles() { try (final Options opt = new Options()) { final int intValue = rand.nextInt(); opt.setMaxOpenFiles(intValue); assertThat(opt.maxOpenFiles()).isEqualTo(intValue); } } @Test public void maxFileOpeningThreads() { try (final Options opt = new Options()) { final int intValue = rand.nextInt(); opt.setMaxFileOpeningThreads(intValue); assertThat(opt.maxFileOpeningThreads()).isEqualTo(intValue); } } @Test public void useFsync() { try (final Options opt = new Options()) { final boolean boolValue = rand.nextBoolean(); opt.setUseFsync(boolValue); assertThat(opt.useFsync()).isEqualTo(boolValue); } } @Test public void dbPaths() { final List dbPaths = new ArrayList<>(); dbPaths.add(new DbPath(Paths.get("/a"), 10)); dbPaths.add(new DbPath(Paths.get("/b"), 100)); dbPaths.add(new DbPath(Paths.get("/c"), 1000)); try (final Options opt = new Options()) { assertThat(opt.dbPaths()).isEqualTo(Collections.emptyList()); opt.setDbPaths(dbPaths); assertThat(opt.dbPaths()).isEqualTo(dbPaths); } } @Test public void dbLogDir() { try (final Options opt = new Options()) { final String str = "path/to/DbLogDir"; opt.setDbLogDir(str); assertThat(opt.dbLogDir()).isEqualTo(str); } } @Test public void walDir() { try (final Options opt = new Options()) { final String str = "path/to/WalDir"; opt.setWalDir(str); assertThat(opt.walDir()).isEqualTo(str); } } @Test public void deleteObsoleteFilesPeriodMicros() { try (final Options opt = new Options()) { final long longValue = rand.nextLong(); opt.setDeleteObsoleteFilesPeriodMicros(longValue); assertThat(opt.deleteObsoleteFilesPeriodMicros()). isEqualTo(longValue); } } @Test public void baseBackgroundCompactions() { try (final Options opt = new Options()) { final int intValue = rand.nextInt(); opt.setBaseBackgroundCompactions(intValue); assertThat(opt.baseBackgroundCompactions()). isEqualTo(intValue); } } @Test public void maxBackgroundCompactions() { try (final Options opt = new Options()) { final int intValue = rand.nextInt(); opt.setMaxBackgroundCompactions(intValue); assertThat(opt.maxBackgroundCompactions()). isEqualTo(intValue); } } @Test public void maxSubcompactions() { try (final Options opt = new Options()) { final int intValue = rand.nextInt(); opt.setMaxSubcompactions(intValue); assertThat(opt.maxSubcompactions()). isEqualTo(intValue); } } @Test public void maxBackgroundFlushes() { try (final Options opt = new Options()) { final int intValue = rand.nextInt(); opt.setMaxBackgroundFlushes(intValue); assertThat(opt.maxBackgroundFlushes()). isEqualTo(intValue); } } @Test public void maxBackgroundJobs() { try (final Options opt = new Options()) { final int intValue = rand.nextInt(); opt.setMaxBackgroundJobs(intValue); assertThat(opt.maxBackgroundJobs()).isEqualTo(intValue); } } @Test public void maxLogFileSize() throws RocksDBException { try (final Options opt = new Options()) { final long longValue = rand.nextLong(); opt.setMaxLogFileSize(longValue); assertThat(opt.maxLogFileSize()).isEqualTo(longValue); } } @Test public void logFileTimeToRoll() throws RocksDBException { try (final Options opt = new Options()) { final long longValue = rand.nextLong(); opt.setLogFileTimeToRoll(longValue); assertThat(opt.logFileTimeToRoll()). isEqualTo(longValue); } } @Test public void keepLogFileNum() throws RocksDBException { try (final Options opt = new Options()) { final long longValue = rand.nextLong(); opt.setKeepLogFileNum(longValue); assertThat(opt.keepLogFileNum()).isEqualTo(longValue); } } @Test public void recycleLogFileNum() throws RocksDBException { try (final Options opt = new Options()) { final long longValue = rand.nextLong(); opt.setRecycleLogFileNum(longValue); assertThat(opt.recycleLogFileNum()).isEqualTo(longValue); } } @Test public void maxManifestFileSize() { try (final Options opt = new Options()) { final long longValue = rand.nextLong(); opt.setMaxManifestFileSize(longValue); assertThat(opt.maxManifestFileSize()). isEqualTo(longValue); } } @Test public void tableCacheNumshardbits() { try (final Options opt = new Options()) { final int intValue = rand.nextInt(); opt.setTableCacheNumshardbits(intValue); assertThat(opt.tableCacheNumshardbits()). isEqualTo(intValue); } } @Test public void walSizeLimitMB() { try (final Options opt = new Options()) { final long longValue = rand.nextLong(); opt.setWalSizeLimitMB(longValue); assertThat(opt.walSizeLimitMB()).isEqualTo(longValue); } } @Test public void walTtlSeconds() { try (final Options opt = new Options()) { final long longValue = rand.nextLong(); opt.setWalTtlSeconds(longValue); assertThat(opt.walTtlSeconds()).isEqualTo(longValue); } } @Test public void manifestPreallocationSize() throws RocksDBException { try (final Options opt = new Options()) { final long longValue = rand.nextLong(); opt.setManifestPreallocationSize(longValue); assertThat(opt.manifestPreallocationSize()). isEqualTo(longValue); } } @Test public void useDirectReads() { try(final Options opt = new Options()) { final boolean boolValue = rand.nextBoolean(); opt.setUseDirectReads(boolValue); assertThat(opt.useDirectReads()).isEqualTo(boolValue); } } @Test public void useDirectIoForFlushAndCompaction() { try(final Options opt = new Options()) { final boolean boolValue = rand.nextBoolean(); opt.setUseDirectIoForFlushAndCompaction(boolValue); assertThat(opt.useDirectIoForFlushAndCompaction()).isEqualTo(boolValue); } } @Test public void allowFAllocate() { try (final Options opt = new Options()) { final boolean boolValue = rand.nextBoolean(); opt.setAllowFAllocate(boolValue); assertThat(opt.allowFAllocate()).isEqualTo(boolValue); } } @Test public void allowMmapReads() { try (final Options opt = new Options()) { final boolean boolValue = rand.nextBoolean(); opt.setAllowMmapReads(boolValue); assertThat(opt.allowMmapReads()).isEqualTo(boolValue); } } @Test public void allowMmapWrites() { try (final Options opt = new Options()) { final boolean boolValue = rand.nextBoolean(); opt.setAllowMmapWrites(boolValue); assertThat(opt.allowMmapWrites()).isEqualTo(boolValue); } } @Test public void isFdCloseOnExec() { try (final Options opt = new Options()) { final boolean boolValue = rand.nextBoolean(); opt.setIsFdCloseOnExec(boolValue); assertThat(opt.isFdCloseOnExec()).isEqualTo(boolValue); } } @Test public void statsDumpPeriodSec() { try (final Options opt = new Options()) { final int intValue = rand.nextInt(); opt.setStatsDumpPeriodSec(intValue); assertThat(opt.statsDumpPeriodSec()).isEqualTo(intValue); } } @Test public void adviseRandomOnOpen() { try (final Options opt = new Options()) { final boolean boolValue = rand.nextBoolean(); opt.setAdviseRandomOnOpen(boolValue); assertThat(opt.adviseRandomOnOpen()).isEqualTo(boolValue); } } @Test public void dbWriteBufferSize() { try (final Options opt = new Options()) { final long longValue = rand.nextLong(); opt.setDbWriteBufferSize(longValue); assertThat(opt.dbWriteBufferSize()).isEqualTo(longValue); } } @Test public void accessHintOnCompactionStart() { try (final Options opt = new Options()) { final AccessHint accessHint = AccessHint.SEQUENTIAL; opt.setAccessHintOnCompactionStart(accessHint); assertThat(opt.accessHintOnCompactionStart()).isEqualTo(accessHint); } } @Test public void newTableReaderForCompactionInputs() { try (final Options opt = new Options()) { final boolean boolValue = rand.nextBoolean(); opt.setNewTableReaderForCompactionInputs(boolValue); assertThat(opt.newTableReaderForCompactionInputs()).isEqualTo(boolValue); } } @Test public void compactionReadaheadSize() { try (final Options opt = new Options()) { final long longValue = rand.nextLong(); opt.setCompactionReadaheadSize(longValue); assertThat(opt.compactionReadaheadSize()).isEqualTo(longValue); } } @Test public void randomAccessMaxBufferSize() { try (final Options opt = new Options()) { final long longValue = rand.nextLong(); opt.setRandomAccessMaxBufferSize(longValue); assertThat(opt.randomAccessMaxBufferSize()).isEqualTo(longValue); } } @Test public void writableFileMaxBufferSize() { try (final Options opt = new Options()) { final long longValue = rand.nextLong(); opt.setWritableFileMaxBufferSize(longValue); assertThat(opt.writableFileMaxBufferSize()).isEqualTo(longValue); } } @Test public void useAdaptiveMutex() { try (final Options opt = new Options()) { final boolean boolValue = rand.nextBoolean(); opt.setUseAdaptiveMutex(boolValue); assertThat(opt.useAdaptiveMutex()).isEqualTo(boolValue); } } @Test public void bytesPerSync() { try (final Options opt = new Options()) { final long longValue = rand.nextLong(); opt.setBytesPerSync(longValue); assertThat(opt.bytesPerSync()).isEqualTo(longValue); } } @Test public void walBytesPerSync() { try (final Options opt = new Options()) { final long longValue = rand.nextLong(); opt.setWalBytesPerSync(longValue); assertThat(opt.walBytesPerSync()).isEqualTo(longValue); } } @Test public void enableThreadTracking() { try (final Options opt = new Options()) { final boolean boolValue = rand.nextBoolean(); opt.setEnableThreadTracking(boolValue); assertThat(opt.enableThreadTracking()).isEqualTo(boolValue); } } @Test public void delayedWriteRate() { try (final Options opt = new Options()) { final long longValue = rand.nextLong(); opt.setDelayedWriteRate(longValue); assertThat(opt.delayedWriteRate()).isEqualTo(longValue); } } @Test public void allowConcurrentMemtableWrite() { try (final Options opt = new Options()) { final boolean boolValue = rand.nextBoolean(); opt.setAllowConcurrentMemtableWrite(boolValue); assertThat(opt.allowConcurrentMemtableWrite()).isEqualTo(boolValue); } } @Test public void enableWriteThreadAdaptiveYield() { try (final Options opt = new Options()) { final boolean boolValue = rand.nextBoolean(); opt.setEnableWriteThreadAdaptiveYield(boolValue); assertThat(opt.enableWriteThreadAdaptiveYield()).isEqualTo(boolValue); } } @Test public void writeThreadMaxYieldUsec() { try (final Options opt = new Options()) { final long longValue = rand.nextLong(); opt.setWriteThreadMaxYieldUsec(longValue); assertThat(opt.writeThreadMaxYieldUsec()).isEqualTo(longValue); } } @Test public void writeThreadSlowYieldUsec() { try (final Options opt = new Options()) { final long longValue = rand.nextLong(); opt.setWriteThreadSlowYieldUsec(longValue); assertThat(opt.writeThreadSlowYieldUsec()).isEqualTo(longValue); } } @Test public void skipStatsUpdateOnDbOpen() { try (final Options opt = new Options()) { final boolean boolValue = rand.nextBoolean(); opt.setSkipStatsUpdateOnDbOpen(boolValue); assertThat(opt.skipStatsUpdateOnDbOpen()).isEqualTo(boolValue); } } @Test public void walRecoveryMode() { try (final Options opt = new Options()) { for (final WALRecoveryMode walRecoveryMode : WALRecoveryMode.values()) { opt.setWalRecoveryMode(walRecoveryMode); assertThat(opt.walRecoveryMode()).isEqualTo(walRecoveryMode); } } } @Test public void allow2pc() { try (final Options opt = new Options()) { final boolean boolValue = rand.nextBoolean(); opt.setAllow2pc(boolValue); assertThat(opt.allow2pc()).isEqualTo(boolValue); } } @Test public void rowCache() { try (final Options opt = new Options()) { assertThat(opt.rowCache()).isNull(); try(final Cache lruCache = new LRUCache(1000)) { opt.setRowCache(lruCache); assertThat(opt.rowCache()).isEqualTo(lruCache); } try(final Cache clockCache = new ClockCache(1000)) { opt.setRowCache(clockCache); assertThat(opt.rowCache()).isEqualTo(clockCache); } } } @Test public void failIfOptionsFileError() { try (final Options opt = new Options()) { final boolean boolValue = rand.nextBoolean(); opt.setFailIfOptionsFileError(boolValue); assertThat(opt.failIfOptionsFileError()).isEqualTo(boolValue); } } @Test public void dumpMallocStats() { try (final Options opt = new Options()) { final boolean boolValue = rand.nextBoolean(); opt.setDumpMallocStats(boolValue); assertThat(opt.dumpMallocStats()).isEqualTo(boolValue); } } @Test public void avoidFlushDuringRecovery() { try (final Options opt = new Options()) { final boolean boolValue = rand.nextBoolean(); opt.setAvoidFlushDuringRecovery(boolValue); assertThat(opt.avoidFlushDuringRecovery()).isEqualTo(boolValue); } } @Test public void avoidFlushDuringShutdown() { try (final Options opt = new Options()) { final boolean boolValue = rand.nextBoolean(); opt.setAvoidFlushDuringShutdown(boolValue); assertThat(opt.avoidFlushDuringShutdown()).isEqualTo(boolValue); } } @Test public void env() { try (final Options options = new Options(); final Env env = Env.getDefault()) { options.setEnv(env); assertThat(options.getEnv()).isSameAs(env); } } @Test public void linkageOfPrepMethods() { try (final Options options = new Options()) { options.optimizeUniversalStyleCompaction(); options.optimizeUniversalStyleCompaction(4000); options.optimizeLevelStyleCompaction(); options.optimizeLevelStyleCompaction(3000); options.optimizeForPointLookup(10); options.optimizeForSmallDb(); options.prepareForBulkLoad(); } } @Test public void compressionTypes() { try (final Options options = new Options()) { for (final CompressionType compressionType : CompressionType.values()) { options.setCompressionType(compressionType); assertThat(options.compressionType()). isEqualTo(compressionType); assertThat(CompressionType.valueOf("NO_COMPRESSION")). isEqualTo(CompressionType.NO_COMPRESSION); } } } @Test public void compressionPerLevel() { try (final Options options = new Options()) { assertThat(options.compressionPerLevel()).isEmpty(); List compressionTypeList = new ArrayList<>(); for (int i = 0; i < options.numLevels(); i++) { compressionTypeList.add(CompressionType.NO_COMPRESSION); } options.setCompressionPerLevel(compressionTypeList); compressionTypeList = options.compressionPerLevel(); for (final CompressionType compressionType : compressionTypeList) { assertThat(compressionType).isEqualTo( CompressionType.NO_COMPRESSION); } } } @Test public void differentCompressionsPerLevel() { try (final Options options = new Options()) { options.setNumLevels(3); assertThat(options.compressionPerLevel()).isEmpty(); List compressionTypeList = new ArrayList<>(); compressionTypeList.add(CompressionType.BZLIB2_COMPRESSION); compressionTypeList.add(CompressionType.SNAPPY_COMPRESSION); compressionTypeList.add(CompressionType.LZ4_COMPRESSION); options.setCompressionPerLevel(compressionTypeList); compressionTypeList = options.compressionPerLevel(); assertThat(compressionTypeList.size()).isEqualTo(3); assertThat(compressionTypeList). containsExactly( CompressionType.BZLIB2_COMPRESSION, CompressionType.SNAPPY_COMPRESSION, CompressionType.LZ4_COMPRESSION); } } @Test public void bottommostCompressionType() { try (final Options options = new Options()) { assertThat(options.bottommostCompressionType()) .isEqualTo(CompressionType.DISABLE_COMPRESSION_OPTION); for (final CompressionType compressionType : CompressionType.values()) { options.setBottommostCompressionType(compressionType); assertThat(options.bottommostCompressionType()) .isEqualTo(compressionType); } } } @Test public void compressionOptions() { try (final Options options = new Options(); final CompressionOptions compressionOptions = new CompressionOptions() .setMaxDictBytes(123)) { options.setCompressionOptions(compressionOptions); assertThat(options.compressionOptions()) .isEqualTo(compressionOptions); assertThat(options.compressionOptions().maxDictBytes()) .isEqualTo(123); } } @Test public void compactionStyles() { try (final Options options = new Options()) { for (final CompactionStyle compactionStyle : CompactionStyle.values()) { options.setCompactionStyle(compactionStyle); assertThat(options.compactionStyle()). isEqualTo(compactionStyle); assertThat(CompactionStyle.valueOf("FIFO")). isEqualTo(CompactionStyle.FIFO); } } } @Test public void maxTableFilesSizeFIFO() { try (final Options opt = new Options()) { long longValue = rand.nextLong(); // Size has to be positive longValue = (longValue < 0) ? -longValue : longValue; longValue = (longValue == 0) ? longValue + 1 : longValue; opt.setMaxTableFilesSizeFIFO(longValue); assertThat(opt.maxTableFilesSizeFIFO()). isEqualTo(longValue); } } @Test public void rateLimiter() { try (final Options options = new Options(); final Options anotherOptions = new Options(); final RateLimiter rateLimiter = new RateLimiter(1000, 100 * 1000, 1)) { options.setRateLimiter(rateLimiter); // Test with parameter initialization anotherOptions.setRateLimiter( new RateLimiter(1000)); } } @Test public void sstFileManager() throws RocksDBException { try (final Options options = new Options(); final SstFileManager sstFileManager = new SstFileManager(Env.getDefault())) { options.setSstFileManager(sstFileManager); } } @Test public void shouldSetTestPrefixExtractor() { try (final Options options = new Options()) { options.useFixedLengthPrefixExtractor(100); options.useFixedLengthPrefixExtractor(10); } } @Test public void shouldSetTestCappedPrefixExtractor() { try (final Options options = new Options()) { options.useCappedPrefixExtractor(100); options.useCappedPrefixExtractor(10); } } @Test public void shouldTestMemTableFactoryName() throws RocksDBException { try (final Options options = new Options()) { options.setMemTableConfig(new VectorMemTableConfig()); assertThat(options.memTableFactoryName()). isEqualTo("VectorRepFactory"); options.setMemTableConfig( new HashLinkedListMemTableConfig()); assertThat(options.memTableFactoryName()). isEqualTo("HashLinkedListRepFactory"); } } @Test public void statistics() { try(final Options options = new Options()) { final Statistics statistics = options.statistics(); assertThat(statistics).isNull(); } try(final Statistics statistics = new Statistics(); final Options options = new Options().setStatistics(statistics); final Statistics stats = options.statistics()) { assertThat(stats).isNotNull(); } } @Test public void maxWriteBufferNumberToMaintain() { try (final Options options = new Options()) { int intValue = rand.nextInt(); // Size has to be positive intValue = (intValue < 0) ? -intValue : intValue; intValue = (intValue == 0) ? intValue + 1 : intValue; options.setMaxWriteBufferNumberToMaintain(intValue); assertThat(options.maxWriteBufferNumberToMaintain()). isEqualTo(intValue); } } @Test public void compactionPriorities() { try (final Options options = new Options()) { for (final CompactionPriority compactionPriority : CompactionPriority.values()) { options.setCompactionPriority(compactionPriority); assertThat(options.compactionPriority()). isEqualTo(compactionPriority); } } } @Test public void reportBgIoStats() { try (final Options options = new Options()) { final boolean booleanValue = true; options.setReportBgIoStats(booleanValue); assertThat(options.reportBgIoStats()). isEqualTo(booleanValue); } } @Test public void compactionOptionsUniversal() { try (final Options options = new Options(); final CompactionOptionsUniversal optUni = new CompactionOptionsUniversal() .setCompressionSizePercent(7)) { options.setCompactionOptionsUniversal(optUni); assertThat(options.compactionOptionsUniversal()). isEqualTo(optUni); assertThat(options.compactionOptionsUniversal().compressionSizePercent()) .isEqualTo(7); } } @Test public void compactionOptionsFIFO() { try (final Options options = new Options(); final CompactionOptionsFIFO optFifo = new CompactionOptionsFIFO() .setMaxTableFilesSize(2000)) { options.setCompactionOptionsFIFO(optFifo); assertThat(options.compactionOptionsFIFO()). isEqualTo(optFifo); assertThat(options.compactionOptionsFIFO().maxTableFilesSize()) .isEqualTo(2000); } } @Test public void forceConsistencyChecks() { try (final Options options = new Options()) { final boolean booleanValue = true; options.setForceConsistencyChecks(booleanValue); assertThat(options.forceConsistencyChecks()). isEqualTo(booleanValue); } } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/OptionsUtilTest.java000066400000000000000000000130121337235545400250670ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import org.junit.ClassRule; import org.junit.Rule; import org.junit.Test; import org.junit.rules.TemporaryFolder; import java.util.*; import static org.assertj.core.api.Assertions.assertThat; public class OptionsUtilTest { @ClassRule public static final RocksMemoryResource rocksMemoryResource = new RocksMemoryResource(); @Rule public TemporaryFolder dbFolder = new TemporaryFolder(); enum TestAPI { LOAD_LATEST_OPTIONS, LOAD_OPTIONS_FROM_FILE } @Test public void loadLatestOptions() throws RocksDBException { verifyOptions(TestAPI.LOAD_LATEST_OPTIONS); } @Test public void loadOptionsFromFile() throws RocksDBException { verifyOptions(TestAPI.LOAD_OPTIONS_FROM_FILE); } @Test public void getLatestOptionsFileName() throws RocksDBException { final String dbPath = dbFolder.getRoot().getAbsolutePath(); try (final Options options = new Options().setCreateIfMissing(true); final RocksDB db = RocksDB.open(options, dbPath)) { assertThat(db).isNotNull(); } String fName = OptionsUtil.getLatestOptionsFileName(dbPath, Env.getDefault()); assertThat(fName).isNotNull(); assert(fName.startsWith("OPTIONS-") == true); // System.out.println("latest options fileName: " + fName); } private void verifyOptions(TestAPI apiType) throws RocksDBException { final String dbPath = dbFolder.getRoot().getAbsolutePath(); final Options options = new Options() .setCreateIfMissing(true) .setParanoidChecks(false) .setMaxOpenFiles(478) .setDelayedWriteRate(1234567L); final ColumnFamilyOptions baseDefaultCFOpts = new ColumnFamilyOptions(); final byte[] secondCFName = "new_cf".getBytes(); final ColumnFamilyOptions baseSecondCFOpts = new ColumnFamilyOptions() .setWriteBufferSize(70 * 1024) .setMaxWriteBufferNumber(7) .setMaxBytesForLevelBase(53 * 1024 * 1024) .setLevel0FileNumCompactionTrigger(3) .setLevel0SlowdownWritesTrigger(51) .setBottommostCompressionType(CompressionType.ZSTD_COMPRESSION); // Create a database with a new column family try (final RocksDB db = RocksDB.open(options, dbPath)) { assertThat(db).isNotNull(); // create column family try (final ColumnFamilyHandle columnFamilyHandle = db.createColumnFamily(new ColumnFamilyDescriptor(secondCFName, baseSecondCFOpts))) { assert(columnFamilyHandle != null); } } // Read the options back and verify DBOptions dbOptions = new DBOptions(); final List cfDescs = new ArrayList<>(); String path = dbPath; if (apiType == TestAPI.LOAD_LATEST_OPTIONS) { OptionsUtil.loadLatestOptions(path, Env.getDefault(), dbOptions, cfDescs, false); } else if (apiType == TestAPI.LOAD_OPTIONS_FROM_FILE) { path = dbPath + "/" + OptionsUtil.getLatestOptionsFileName(dbPath, Env.getDefault()); OptionsUtil.loadOptionsFromFile(path, Env.getDefault(), dbOptions, cfDescs, false); } assertThat(dbOptions.createIfMissing()).isEqualTo(options.createIfMissing()); assertThat(dbOptions.paranoidChecks()).isEqualTo(options.paranoidChecks()); assertThat(dbOptions.maxOpenFiles()).isEqualTo(options.maxOpenFiles()); assertThat(dbOptions.delayedWriteRate()).isEqualTo(options.delayedWriteRate()); assertThat(cfDescs.size()).isEqualTo(2); assertThat(cfDescs.get(0)).isNotNull(); assertThat(cfDescs.get(1)).isNotNull(); assertThat(cfDescs.get(0).columnFamilyName()).isEqualTo(RocksDB.DEFAULT_COLUMN_FAMILY); assertThat(cfDescs.get(1).columnFamilyName()).isEqualTo(secondCFName); ColumnFamilyOptions defaultCFOpts = cfDescs.get(0).columnFamilyOptions(); assertThat(defaultCFOpts.writeBufferSize()).isEqualTo(baseDefaultCFOpts.writeBufferSize()); assertThat(defaultCFOpts.maxWriteBufferNumber()) .isEqualTo(baseDefaultCFOpts.maxWriteBufferNumber()); assertThat(defaultCFOpts.maxBytesForLevelBase()) .isEqualTo(baseDefaultCFOpts.maxBytesForLevelBase()); assertThat(defaultCFOpts.level0FileNumCompactionTrigger()) .isEqualTo(baseDefaultCFOpts.level0FileNumCompactionTrigger()); assertThat(defaultCFOpts.level0SlowdownWritesTrigger()) .isEqualTo(baseDefaultCFOpts.level0SlowdownWritesTrigger()); assertThat(defaultCFOpts.bottommostCompressionType()) .isEqualTo(baseDefaultCFOpts.bottommostCompressionType()); ColumnFamilyOptions secondCFOpts = cfDescs.get(1).columnFamilyOptions(); assertThat(secondCFOpts.writeBufferSize()).isEqualTo(baseSecondCFOpts.writeBufferSize()); assertThat(secondCFOpts.maxWriteBufferNumber()) .isEqualTo(baseSecondCFOpts.maxWriteBufferNumber()); assertThat(secondCFOpts.maxBytesForLevelBase()) .isEqualTo(baseSecondCFOpts.maxBytesForLevelBase()); assertThat(secondCFOpts.level0FileNumCompactionTrigger()) .isEqualTo(baseSecondCFOpts.level0FileNumCompactionTrigger()); assertThat(secondCFOpts.level0SlowdownWritesTrigger()) .isEqualTo(baseSecondCFOpts.level0SlowdownWritesTrigger()); assertThat(secondCFOpts.bottommostCompressionType()) .isEqualTo(baseSecondCFOpts.bottommostCompressionType()); } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/PlainTableConfigTest.java000066400000000000000000000051411337235545400257430ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import org.junit.ClassRule; import org.junit.Test; import static org.assertj.core.api.Assertions.assertThat; public class PlainTableConfigTest { @ClassRule public static final RocksMemoryResource rocksMemoryResource = new RocksMemoryResource(); @Test public void keySize() { PlainTableConfig plainTableConfig = new PlainTableConfig(); plainTableConfig.setKeySize(5); assertThat(plainTableConfig.keySize()). isEqualTo(5); } @Test public void bloomBitsPerKey() { PlainTableConfig plainTableConfig = new PlainTableConfig(); plainTableConfig.setBloomBitsPerKey(11); assertThat(plainTableConfig.bloomBitsPerKey()). isEqualTo(11); } @Test public void hashTableRatio() { PlainTableConfig plainTableConfig = new PlainTableConfig(); plainTableConfig.setHashTableRatio(0.95); assertThat(plainTableConfig.hashTableRatio()). isEqualTo(0.95); } @Test public void indexSparseness() { PlainTableConfig plainTableConfig = new PlainTableConfig(); plainTableConfig.setIndexSparseness(18); assertThat(plainTableConfig.indexSparseness()). isEqualTo(18); } @Test public void hugePageTlbSize() { PlainTableConfig plainTableConfig = new PlainTableConfig(); plainTableConfig.setHugePageTlbSize(1); assertThat(plainTableConfig.hugePageTlbSize()). isEqualTo(1); } @Test public void encodingType() { PlainTableConfig plainTableConfig = new PlainTableConfig(); plainTableConfig.setEncodingType(EncodingType.kPrefix); assertThat(plainTableConfig.encodingType()).isEqualTo( EncodingType.kPrefix); } @Test public void fullScanMode() { PlainTableConfig plainTableConfig = new PlainTableConfig(); plainTableConfig.setFullScanMode(true); assertThat(plainTableConfig.fullScanMode()).isTrue(); } @Test public void storeIndexInFile() { PlainTableConfig plainTableConfig = new PlainTableConfig(); plainTableConfig.setStoreIndexInFile(true); assertThat(plainTableConfig.storeIndexInFile()). isTrue(); } @Test public void plainTableConfig() { try(final Options opt = new Options()) { final PlainTableConfig plainTableConfig = new PlainTableConfig(); opt.setTableFormatConfig(plainTableConfig); assertThat(opt.tableFactoryName()).isEqualTo("PlainTable"); } } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/PlatformRandomHelper.java000066400000000000000000000032251337235545400260300ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import java.util.Random; /** * Helper class to get the appropriate Random class instance dependent * on the current platform architecture (32bit vs 64bit) */ public class PlatformRandomHelper { /** * Determine if OS is 32-Bit/64-Bit * * @return boolean value indicating if operating system is 64 Bit. */ public static boolean isOs64Bit(){ final boolean is64Bit; if (System.getProperty("os.name").contains("Windows")) { is64Bit = (System.getenv("ProgramFiles(x86)") != null); } else { is64Bit = (System.getProperty("os.arch").contains("64")); } return is64Bit; } /** * Factory to get a platform specific Random instance * * @return {@link java.util.Random} instance. */ public static Random getPlatformSpecificRandomFactory(){ if (isOs64Bit()) { return new Random(); } return new Random32Bit(); } /** * Random32Bit is a class which overrides {@code nextLong} to * provide random numbers which fit in size_t. This workaround * is necessary because there is no unsigned_int < Java 8 */ private static class Random32Bit extends Random { @Override public long nextLong(){ return this.nextInt(Integer.MAX_VALUE); } } /** * Utility class constructor */ private PlatformRandomHelper() { } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/RateLimiterTest.java000066400000000000000000000041401337235545400250210ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import org.junit.ClassRule; import org.junit.Test; import static org.assertj.core.api.Assertions.assertThat; import static org.rocksdb.RateLimiter.*; public class RateLimiterTest { @ClassRule public static final RocksMemoryResource rocksMemoryResource = new RocksMemoryResource(); @Test public void bytesPerSecond() { try(final RateLimiter rateLimiter = new RateLimiter(1000, DEFAULT_REFILL_PERIOD_MICROS, DEFAULT_FAIRNESS, DEFAULT_MODE, DEFAULT_AUTOTUNE)) { assertThat(rateLimiter.getBytesPerSecond()).isGreaterThan(0); rateLimiter.setBytesPerSecond(2000); assertThat(rateLimiter.getBytesPerSecond()).isGreaterThan(0); } } @Test public void getSingleBurstBytes() { try(final RateLimiter rateLimiter = new RateLimiter(1000, DEFAULT_REFILL_PERIOD_MICROS, DEFAULT_FAIRNESS, DEFAULT_MODE, DEFAULT_AUTOTUNE)) { assertThat(rateLimiter.getSingleBurstBytes()).isEqualTo(100); } } @Test public void getTotalBytesThrough() { try(final RateLimiter rateLimiter = new RateLimiter(1000, DEFAULT_REFILL_PERIOD_MICROS, DEFAULT_FAIRNESS, DEFAULT_MODE, DEFAULT_AUTOTUNE)) { assertThat(rateLimiter.getTotalBytesThrough()).isEqualTo(0); } } @Test public void getTotalRequests() { try(final RateLimiter rateLimiter = new RateLimiter(1000, DEFAULT_REFILL_PERIOD_MICROS, DEFAULT_FAIRNESS, DEFAULT_MODE, DEFAULT_AUTOTUNE)) { assertThat(rateLimiter.getTotalRequests()).isEqualTo(0); } } @Test public void autoTune() { try(final RateLimiter rateLimiter = new RateLimiter(1000, DEFAULT_REFILL_PERIOD_MICROS, DEFAULT_FAIRNESS, DEFAULT_MODE, true)) { assertThat(rateLimiter.getBytesPerSecond()).isGreaterThan(0); } } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/ReadOnlyTest.java000066400000000000000000000262221337235545400243220ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import org.junit.ClassRule; import org.junit.Rule; import org.junit.Test; import org.junit.rules.TemporaryFolder; import java.util.ArrayList; import java.util.Arrays; import java.util.List; import static org.assertj.core.api.Assertions.assertThat; public class ReadOnlyTest { @ClassRule public static final RocksMemoryResource rocksMemoryResource = new RocksMemoryResource(); @Rule public TemporaryFolder dbFolder = new TemporaryFolder(); @Test public void readOnlyOpen() throws RocksDBException { try (final Options options = new Options() .setCreateIfMissing(true); final RocksDB db = RocksDB.open(options, dbFolder.getRoot().getAbsolutePath())) { db.put("key".getBytes(), "value".getBytes()); try (final RocksDB db2 = RocksDB.openReadOnly( dbFolder.getRoot().getAbsolutePath())) { assertThat("value"). isEqualTo(new String(db2.get("key".getBytes()))); } } try (final ColumnFamilyOptions cfOpts = new ColumnFamilyOptions()) { final List cfDescriptors = new ArrayList<>(); cfDescriptors.add(new ColumnFamilyDescriptor( RocksDB.DEFAULT_COLUMN_FAMILY, cfOpts)); final List columnFamilyHandleList = new ArrayList<>(); try (final RocksDB db = RocksDB.open(dbFolder.getRoot().getAbsolutePath(), cfDescriptors, columnFamilyHandleList)) { try (final ColumnFamilyOptions newCfOpts = new ColumnFamilyOptions(); final ColumnFamilyOptions newCf2Opts = new ColumnFamilyOptions() ) { columnFamilyHandleList.add(db.createColumnFamily( new ColumnFamilyDescriptor("new_cf".getBytes(), newCfOpts))); columnFamilyHandleList.add(db.createColumnFamily( new ColumnFamilyDescriptor("new_cf2".getBytes(), newCf2Opts))); db.put(columnFamilyHandleList.get(2), "key2".getBytes(), "value2".getBytes()); final List readOnlyColumnFamilyHandleList = new ArrayList<>(); try (final RocksDB db2 = RocksDB.openReadOnly( dbFolder.getRoot().getAbsolutePath(), cfDescriptors, readOnlyColumnFamilyHandleList)) { try (final ColumnFamilyOptions newCfOpts2 = new ColumnFamilyOptions(); final ColumnFamilyOptions newCf2Opts2 = new ColumnFamilyOptions() ) { assertThat(db2.get("key2".getBytes())).isNull(); assertThat(db2.get(readOnlyColumnFamilyHandleList.get(0), "key2".getBytes())). isNull(); cfDescriptors.clear(); cfDescriptors.add( new ColumnFamilyDescriptor(RocksDB.DEFAULT_COLUMN_FAMILY, newCfOpts2)); cfDescriptors.add(new ColumnFamilyDescriptor("new_cf2".getBytes(), newCf2Opts2)); final List readOnlyColumnFamilyHandleList2 = new ArrayList<>(); try (final RocksDB db3 = RocksDB.openReadOnly( dbFolder.getRoot().getAbsolutePath(), cfDescriptors, readOnlyColumnFamilyHandleList2)) { try { assertThat(new String(db3.get( readOnlyColumnFamilyHandleList2.get(1), "key2".getBytes()))).isEqualTo("value2"); } finally { for (final ColumnFamilyHandle columnFamilyHandle : readOnlyColumnFamilyHandleList2) { columnFamilyHandle.close(); } } } } finally { for (final ColumnFamilyHandle columnFamilyHandle : readOnlyColumnFamilyHandleList) { columnFamilyHandle.close(); } } } } finally { for (final ColumnFamilyHandle columnFamilyHandle : columnFamilyHandleList) { columnFamilyHandle.close(); } } } } } @Test(expected = RocksDBException.class) public void failToWriteInReadOnly() throws RocksDBException { try (final Options options = new Options() .setCreateIfMissing(true)) { try (final RocksDB db = RocksDB.open(options, dbFolder.getRoot().getAbsolutePath())) { //no-op } } try (final ColumnFamilyOptions cfOpts = new ColumnFamilyOptions()) { final List cfDescriptors = Arrays.asList( new ColumnFamilyDescriptor(RocksDB.DEFAULT_COLUMN_FAMILY, cfOpts) ); final List readOnlyColumnFamilyHandleList = new ArrayList<>(); try (final RocksDB rDb = RocksDB.openReadOnly( dbFolder.getRoot().getAbsolutePath(), cfDescriptors, readOnlyColumnFamilyHandleList)) { try { // test that put fails in readonly mode rDb.put("key".getBytes(), "value".getBytes()); } finally { for (final ColumnFamilyHandle columnFamilyHandle : readOnlyColumnFamilyHandleList) { columnFamilyHandle.close(); } } } } } @Test(expected = RocksDBException.class) public void failToCFWriteInReadOnly() throws RocksDBException { try (final Options options = new Options().setCreateIfMissing(true); final RocksDB db = RocksDB.open(options, dbFolder.getRoot().getAbsolutePath())) { //no-op } try (final ColumnFamilyOptions cfOpts = new ColumnFamilyOptions()) { final List cfDescriptors = Arrays.asList( new ColumnFamilyDescriptor(RocksDB.DEFAULT_COLUMN_FAMILY, cfOpts) ); final List readOnlyColumnFamilyHandleList = new ArrayList<>(); try (final RocksDB rDb = RocksDB.openReadOnly( dbFolder.getRoot().getAbsolutePath(), cfDescriptors, readOnlyColumnFamilyHandleList)) { try { rDb.put(readOnlyColumnFamilyHandleList.get(0), "key".getBytes(), "value".getBytes()); } finally { for (final ColumnFamilyHandle columnFamilyHandle : readOnlyColumnFamilyHandleList) { columnFamilyHandle.close(); } } } } } @Test(expected = RocksDBException.class) public void failToRemoveInReadOnly() throws RocksDBException { try (final Options options = new Options().setCreateIfMissing(true); final RocksDB db = RocksDB.open(options, dbFolder.getRoot().getAbsolutePath())) { //no-op } try (final ColumnFamilyOptions cfOpts = new ColumnFamilyOptions()) { final List cfDescriptors = Arrays.asList( new ColumnFamilyDescriptor(RocksDB.DEFAULT_COLUMN_FAMILY, cfOpts) ); final List readOnlyColumnFamilyHandleList = new ArrayList<>(); try (final RocksDB rDb = RocksDB.openReadOnly( dbFolder.getRoot().getAbsolutePath(), cfDescriptors, readOnlyColumnFamilyHandleList)) { try { rDb.remove("key".getBytes()); } finally { for (final ColumnFamilyHandle columnFamilyHandle : readOnlyColumnFamilyHandleList) { columnFamilyHandle.close(); } } } } } @Test(expected = RocksDBException.class) public void failToCFRemoveInReadOnly() throws RocksDBException { try (final Options options = new Options().setCreateIfMissing(true); final RocksDB db = RocksDB.open(options, dbFolder.getRoot().getAbsolutePath())) { //no-op } try (final ColumnFamilyOptions cfOpts = new ColumnFamilyOptions()) { final List cfDescriptors = Arrays.asList( new ColumnFamilyDescriptor(RocksDB.DEFAULT_COLUMN_FAMILY, cfOpts) ); final List readOnlyColumnFamilyHandleList = new ArrayList<>(); try (final RocksDB rDb = RocksDB.openReadOnly( dbFolder.getRoot().getAbsolutePath(), cfDescriptors, readOnlyColumnFamilyHandleList)) { try { rDb.remove(readOnlyColumnFamilyHandleList.get(0), "key".getBytes()); } finally { for (final ColumnFamilyHandle columnFamilyHandle : readOnlyColumnFamilyHandleList) { columnFamilyHandle.close(); } } } } } @Test(expected = RocksDBException.class) public void failToWriteBatchReadOnly() throws RocksDBException { try (final Options options = new Options().setCreateIfMissing(true); final RocksDB db = RocksDB.open(options, dbFolder.getRoot().getAbsolutePath())) { //no-op } try (final ColumnFamilyOptions cfOpts = new ColumnFamilyOptions()) { final List cfDescriptors = Arrays.asList( new ColumnFamilyDescriptor(RocksDB.DEFAULT_COLUMN_FAMILY, cfOpts) ); final List readOnlyColumnFamilyHandleList = new ArrayList<>(); try (final RocksDB rDb = RocksDB.openReadOnly( dbFolder.getRoot().getAbsolutePath(), cfDescriptors, readOnlyColumnFamilyHandleList); final WriteBatch wb = new WriteBatch(); final WriteOptions wOpts = new WriteOptions()) { try { wb.put("key".getBytes(), "value".getBytes()); rDb.write(wOpts, wb); } finally { for (final ColumnFamilyHandle columnFamilyHandle : readOnlyColumnFamilyHandleList) { columnFamilyHandle.close(); } } } } } @Test(expected = RocksDBException.class) public void failToCFWriteBatchReadOnly() throws RocksDBException { try (final Options options = new Options().setCreateIfMissing(true); final RocksDB db = RocksDB.open(options, dbFolder.getRoot().getAbsolutePath())) { //no-op } try (final ColumnFamilyOptions cfOpts = new ColumnFamilyOptions()) { final List cfDescriptors = Arrays.asList( new ColumnFamilyDescriptor(RocksDB.DEFAULT_COLUMN_FAMILY, cfOpts) ); final List readOnlyColumnFamilyHandleList = new ArrayList<>(); try (final RocksDB rDb = RocksDB.openReadOnly( dbFolder.getRoot().getAbsolutePath(), cfDescriptors, readOnlyColumnFamilyHandleList); final WriteBatch wb = new WriteBatch(); final WriteOptions wOpts = new WriteOptions()) { try { wb.put(readOnlyColumnFamilyHandleList.get(0), "key".getBytes(), "value".getBytes()); rDb.write(wOpts, wb); } finally { for (final ColumnFamilyHandle columnFamilyHandle : readOnlyColumnFamilyHandleList) { columnFamilyHandle.close(); } } } } } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/ReadOptionsTest.java000066400000000000000000000153661337235545400250430ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import java.util.Arrays; import java.util.Random; import org.junit.ClassRule; import org.junit.Rule; import org.junit.Test; import org.junit.rules.ExpectedException; import static org.assertj.core.api.Assertions.assertThat; public class ReadOptionsTest { @ClassRule public static final RocksMemoryResource rocksMemoryResource = new RocksMemoryResource(); @Rule public ExpectedException exception = ExpectedException.none(); @Test public void verifyChecksum() { try (final ReadOptions opt = new ReadOptions()) { final Random rand = new Random(); final boolean boolValue = rand.nextBoolean(); opt.setVerifyChecksums(boolValue); assertThat(opt.verifyChecksums()).isEqualTo(boolValue); } } @Test public void fillCache() { try (final ReadOptions opt = new ReadOptions()) { final Random rand = new Random(); final boolean boolValue = rand.nextBoolean(); opt.setFillCache(boolValue); assertThat(opt.fillCache()).isEqualTo(boolValue); } } @Test public void tailing() { try (final ReadOptions opt = new ReadOptions()) { final Random rand = new Random(); final boolean boolValue = rand.nextBoolean(); opt.setTailing(boolValue); assertThat(opt.tailing()).isEqualTo(boolValue); } } @Test public void snapshot() { try (final ReadOptions opt = new ReadOptions()) { opt.setSnapshot(null); assertThat(opt.snapshot()).isNull(); } } @Test public void readTier() { try (final ReadOptions opt = new ReadOptions()) { opt.setReadTier(ReadTier.BLOCK_CACHE_TIER); assertThat(opt.readTier()).isEqualTo(ReadTier.BLOCK_CACHE_TIER); } } @Test public void managed() { try (final ReadOptions opt = new ReadOptions()) { opt.setManaged(true); assertThat(opt.managed()).isTrue(); } } @Test public void totalOrderSeek() { try (final ReadOptions opt = new ReadOptions()) { opt.setTotalOrderSeek(true); assertThat(opt.totalOrderSeek()).isTrue(); } } @Test public void prefixSameAsStart() { try (final ReadOptions opt = new ReadOptions()) { opt.setPrefixSameAsStart(true); assertThat(opt.prefixSameAsStart()).isTrue(); } } @Test public void pinData() { try (final ReadOptions opt = new ReadOptions()) { opt.setPinData(true); assertThat(opt.pinData()).isTrue(); } } @Test public void backgroundPurgeOnIteratorCleanup() { try (final ReadOptions opt = new ReadOptions()) { opt.setBackgroundPurgeOnIteratorCleanup(true); assertThat(opt.backgroundPurgeOnIteratorCleanup()).isTrue(); } } @Test public void readaheadSize() { try (final ReadOptions opt = new ReadOptions()) { final Random rand = new Random(); final long longValue = rand.nextLong(); opt.setReadaheadSize(longValue); assertThat(opt.readaheadSize()).isEqualTo(longValue); } } @Test public void ignoreRangeDeletions() { try (final ReadOptions opt = new ReadOptions()) { opt.setIgnoreRangeDeletions(true); assertThat(opt.ignoreRangeDeletions()).isTrue(); } } @Test public void iterateUpperBound() { try (final ReadOptions opt = new ReadOptions()) { Slice upperBound = buildRandomSlice(); opt.setIterateUpperBound(upperBound); assertThat(Arrays.equals(upperBound.data(), opt.iterateUpperBound().data())).isTrue(); } } @Test public void iterateUpperBoundNull() { try (final ReadOptions opt = new ReadOptions()) { assertThat(opt.iterateUpperBound()).isNull(); } } @Test public void copyConstructor() { try (final ReadOptions opt = new ReadOptions()) { opt.setVerifyChecksums(false); opt.setFillCache(false); opt.setIterateUpperBound(buildRandomSlice()); ReadOptions other = new ReadOptions(opt); assertThat(opt.verifyChecksums()).isEqualTo(other.verifyChecksums()); assertThat(opt.fillCache()).isEqualTo(other.fillCache()); assertThat(Arrays.equals(opt.iterateUpperBound().data(), other.iterateUpperBound().data())).isTrue(); } } @Test public void failSetVerifyChecksumUninitialized() { try (final ReadOptions readOptions = setupUninitializedReadOptions(exception)) { readOptions.setVerifyChecksums(true); } } @Test public void failVerifyChecksumUninitialized() { try (final ReadOptions readOptions = setupUninitializedReadOptions(exception)) { readOptions.verifyChecksums(); } } @Test public void failSetFillCacheUninitialized() { try (final ReadOptions readOptions = setupUninitializedReadOptions(exception)) { readOptions.setFillCache(true); } } @Test public void failFillCacheUninitialized() { try (final ReadOptions readOptions = setupUninitializedReadOptions(exception)) { readOptions.fillCache(); } } @Test public void failSetTailingUninitialized() { try (final ReadOptions readOptions = setupUninitializedReadOptions(exception)) { readOptions.setTailing(true); } } @Test public void failTailingUninitialized() { try (final ReadOptions readOptions = setupUninitializedReadOptions(exception)) { readOptions.tailing(); } } @Test public void failSetSnapshotUninitialized() { try (final ReadOptions readOptions = setupUninitializedReadOptions(exception)) { readOptions.setSnapshot(null); } } @Test public void failSnapshotUninitialized() { try (final ReadOptions readOptions = setupUninitializedReadOptions(exception)) { readOptions.snapshot(); } } @Test public void failSetIterateUpperBoundUninitialized() { try (final ReadOptions readOptions = setupUninitializedReadOptions(exception)) { readOptions.setIterateUpperBound(null); } } @Test public void failIterateUpperBoundUninitialized() { try (final ReadOptions readOptions = setupUninitializedReadOptions(exception)) { readOptions.iterateUpperBound(); } } private ReadOptions setupUninitializedReadOptions( ExpectedException exception) { final ReadOptions readOptions = new ReadOptions(); readOptions.close(); exception.expect(AssertionError.class); return readOptions; } private Slice buildRandomSlice() { final Random rand = new Random(); byte[] sliceBytes = new byte[rand.nextInt(100) + 1]; rand.nextBytes(sliceBytes); return new Slice(sliceBytes); } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/RocksDBExceptionTest.java000066400000000000000000000073131337235545400257530ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import org.junit.Test; import org.rocksdb.Status.Code; import org.rocksdb.Status.SubCode; import static org.assertj.core.api.Assertions.assertThat; import static org.junit.Assert.fail; public class RocksDBExceptionTest { @Test public void exception() { try { raiseException(); } catch(final RocksDBException e) { assertThat(e.getStatus()).isNull(); assertThat(e.getMessage()).isEqualTo("test message"); return; } fail(); } @Test public void exceptionWithStatusCode() { try { raiseExceptionWithStatusCode(); } catch(final RocksDBException e) { assertThat(e.getStatus()).isNotNull(); assertThat(e.getStatus().getCode()).isEqualTo(Code.NotSupported); assertThat(e.getStatus().getSubCode()).isEqualTo(SubCode.None); assertThat(e.getStatus().getState()).isNull(); assertThat(e.getMessage()).isEqualTo("test message"); return; } fail(); } @Test public void exceptionNoMsgWithStatusCode() { try { raiseExceptionNoMsgWithStatusCode(); } catch(final RocksDBException e) { assertThat(e.getStatus()).isNotNull(); assertThat(e.getStatus().getCode()).isEqualTo(Code.NotSupported); assertThat(e.getStatus().getSubCode()).isEqualTo(SubCode.None); assertThat(e.getStatus().getState()).isNull(); assertThat(e.getMessage()).isEqualTo(Code.NotSupported.name()); return; } fail(); } @Test public void exceptionWithStatusCodeSubCode() { try { raiseExceptionWithStatusCodeSubCode(); } catch(final RocksDBException e) { assertThat(e.getStatus()).isNotNull(); assertThat(e.getStatus().getCode()).isEqualTo(Code.TimedOut); assertThat(e.getStatus().getSubCode()) .isEqualTo(Status.SubCode.LockTimeout); assertThat(e.getStatus().getState()).isNull(); assertThat(e.getMessage()).isEqualTo("test message"); return; } fail(); } @Test public void exceptionNoMsgWithStatusCodeSubCode() { try { raiseExceptionNoMsgWithStatusCodeSubCode(); } catch(final RocksDBException e) { assertThat(e.getStatus()).isNotNull(); assertThat(e.getStatus().getCode()).isEqualTo(Code.TimedOut); assertThat(e.getStatus().getSubCode()).isEqualTo(SubCode.LockTimeout); assertThat(e.getStatus().getState()).isNull(); assertThat(e.getMessage()).isEqualTo(Code.TimedOut.name() + "(" + SubCode.LockTimeout.name() + ")"); return; } fail(); } @Test public void exceptionWithStatusCodeState() { try { raiseExceptionWithStatusCodeState(); } catch(final RocksDBException e) { assertThat(e.getStatus()).isNotNull(); assertThat(e.getStatus().getCode()).isEqualTo(Code.NotSupported); assertThat(e.getStatus().getSubCode()).isEqualTo(SubCode.None); assertThat(e.getStatus().getState()).isNotNull(); assertThat(e.getMessage()).isEqualTo("test message"); return; } fail(); } private native void raiseException() throws RocksDBException; private native void raiseExceptionWithStatusCode() throws RocksDBException; private native void raiseExceptionNoMsgWithStatusCode() throws RocksDBException; private native void raiseExceptionWithStatusCodeSubCode() throws RocksDBException; private native void raiseExceptionNoMsgWithStatusCodeSubCode() throws RocksDBException; private native void raiseExceptionWithStatusCodeState() throws RocksDBException; } rocksdb-5.17.2/java/src/test/java/org/rocksdb/RocksDBTest.java000066400000000000000000000756071337235545400241070ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import org.junit.Assume; import org.junit.ClassRule; import org.junit.Rule; import org.junit.Test; import org.junit.rules.ExpectedException; import org.junit.rules.TemporaryFolder; import java.util.*; import static org.assertj.core.api.Assertions.assertThat; import static org.junit.Assert.fail; public class RocksDBTest { @ClassRule public static final RocksMemoryResource rocksMemoryResource = new RocksMemoryResource(); @Rule public TemporaryFolder dbFolder = new TemporaryFolder(); public static final Random rand = PlatformRandomHelper. getPlatformSpecificRandomFactory(); @Test public void open() throws RocksDBException { try (final RocksDB db = RocksDB.open(dbFolder.getRoot().getAbsolutePath())) { assertThat(db).isNotNull(); } } @Test public void open_opt() throws RocksDBException { try (final Options opt = new Options().setCreateIfMissing(true); final RocksDB db = RocksDB.open(opt, dbFolder.getRoot().getAbsolutePath())) { assertThat(db).isNotNull(); } } @Test public void openWhenOpen() throws RocksDBException { final String dbPath = dbFolder.getRoot().getAbsolutePath(); try (final RocksDB db1 = RocksDB.open(dbPath)) { try (final RocksDB db2 = RocksDB.open(dbPath)) { fail("Should have thrown an exception when opening the same db twice"); } catch (final RocksDBException e) { assertThat(e.getStatus().getCode()).isEqualTo(Status.Code.IOError); assertThat(e.getStatus().getSubCode()).isEqualTo(Status.SubCode.None); assertThat(e.getStatus().getState()).contains("lock "); } } } @Test public void put() throws RocksDBException { try (final RocksDB db = RocksDB.open(dbFolder.getRoot().getAbsolutePath()); final WriteOptions opt = new WriteOptions()) { db.put("key1".getBytes(), "value".getBytes()); db.put(opt, "key2".getBytes(), "12345678".getBytes()); assertThat(db.get("key1".getBytes())).isEqualTo( "value".getBytes()); assertThat(db.get("key2".getBytes())).isEqualTo( "12345678".getBytes()); } } @Test public void write() throws RocksDBException { try (final StringAppendOperator stringAppendOperator = new StringAppendOperator(); final Options options = new Options() .setMergeOperator(stringAppendOperator) .setCreateIfMissing(true); final RocksDB db = RocksDB.open(options, dbFolder.getRoot().getAbsolutePath()); final WriteOptions opts = new WriteOptions()) { try (final WriteBatch wb1 = new WriteBatch()) { wb1.put("key1".getBytes(), "aa".getBytes()); wb1.merge("key1".getBytes(), "bb".getBytes()); try (final WriteBatch wb2 = new WriteBatch()) { wb2.put("key2".getBytes(), "xx".getBytes()); wb2.merge("key2".getBytes(), "yy".getBytes()); db.write(opts, wb1); db.write(opts, wb2); } } assertThat(db.get("key1".getBytes())).isEqualTo( "aa,bb".getBytes()); assertThat(db.get("key2".getBytes())).isEqualTo( "xx,yy".getBytes()); } } @Test public void getWithOutValue() throws RocksDBException { try (final RocksDB db = RocksDB.open(dbFolder.getRoot().getAbsolutePath())) { db.put("key1".getBytes(), "value".getBytes()); db.put("key2".getBytes(), "12345678".getBytes()); byte[] outValue = new byte[5]; // not found value int getResult = db.get("keyNotFound".getBytes(), outValue); assertThat(getResult).isEqualTo(RocksDB.NOT_FOUND); // found value which fits in outValue getResult = db.get("key1".getBytes(), outValue); assertThat(getResult).isNotEqualTo(RocksDB.NOT_FOUND); assertThat(outValue).isEqualTo("value".getBytes()); // found value which fits partially getResult = db.get("key2".getBytes(), outValue); assertThat(getResult).isNotEqualTo(RocksDB.NOT_FOUND); assertThat(outValue).isEqualTo("12345".getBytes()); } } @Test public void getWithOutValueReadOptions() throws RocksDBException { try (final RocksDB db = RocksDB.open(dbFolder.getRoot().getAbsolutePath()); final ReadOptions rOpt = new ReadOptions()) { db.put("key1".getBytes(), "value".getBytes()); db.put("key2".getBytes(), "12345678".getBytes()); byte[] outValue = new byte[5]; // not found value int getResult = db.get(rOpt, "keyNotFound".getBytes(), outValue); assertThat(getResult).isEqualTo(RocksDB.NOT_FOUND); // found value which fits in outValue getResult = db.get(rOpt, "key1".getBytes(), outValue); assertThat(getResult).isNotEqualTo(RocksDB.NOT_FOUND); assertThat(outValue).isEqualTo("value".getBytes()); // found value which fits partially getResult = db.get(rOpt, "key2".getBytes(), outValue); assertThat(getResult).isNotEqualTo(RocksDB.NOT_FOUND); assertThat(outValue).isEqualTo("12345".getBytes()); } } @Rule public ExpectedException thrown = ExpectedException.none(); @Test public void getOutOfArrayMaxSizeValue() throws RocksDBException { final int numberOfValueSplits = 10; final int splitSize = Integer.MAX_VALUE / numberOfValueSplits; Runtime runtime = Runtime.getRuntime(); long neededMemory = ((long)(splitSize)) * (((long)numberOfValueSplits) + 3); boolean isEnoughMemory = runtime.maxMemory() - runtime.totalMemory() > neededMemory; Assume.assumeTrue(isEnoughMemory); final byte[] valueSplit = new byte[splitSize]; final byte[] key = "key".getBytes(); thrown.expect(RocksDBException.class); thrown.expectMessage("Requested array size exceeds VM limit"); // merge (numberOfValueSplits + 1) valueSplit's to get value size exceeding Integer.MAX_VALUE try (final StringAppendOperator stringAppendOperator = new StringAppendOperator(); final Options opt = new Options() .setCreateIfMissing(true) .setMergeOperator(stringAppendOperator); final RocksDB db = RocksDB.open(opt, dbFolder.getRoot().getAbsolutePath())) { db.put(key, valueSplit); for (int i = 0; i < numberOfValueSplits; i++) { db.merge(key, valueSplit); } db.get(key); } } @Test public void multiGet() throws RocksDBException, InterruptedException { try (final RocksDB db = RocksDB.open(dbFolder.getRoot().getAbsolutePath()); final ReadOptions rOpt = new ReadOptions()) { db.put("key1".getBytes(), "value".getBytes()); db.put("key2".getBytes(), "12345678".getBytes()); List lookupKeys = new ArrayList<>(); lookupKeys.add("key1".getBytes()); lookupKeys.add("key2".getBytes()); Map results = db.multiGet(lookupKeys); assertThat(results).isNotNull(); assertThat(results.values()).isNotNull(); assertThat(results.values()). contains("value".getBytes(), "12345678".getBytes()); // test same method with ReadOptions results = db.multiGet(rOpt, lookupKeys); assertThat(results).isNotNull(); assertThat(results.values()).isNotNull(); assertThat(results.values()). contains("value".getBytes(), "12345678".getBytes()); // remove existing key lookupKeys.remove("key2".getBytes()); // add non existing key lookupKeys.add("key3".getBytes()); results = db.multiGet(lookupKeys); assertThat(results).isNotNull(); assertThat(results.values()).isNotNull(); assertThat(results.values()). contains("value".getBytes()); // test same call with readOptions results = db.multiGet(rOpt, lookupKeys); assertThat(results).isNotNull(); assertThat(results.values()).isNotNull(); assertThat(results.values()). contains("value".getBytes()); } } @Test public void merge() throws RocksDBException { try (final StringAppendOperator stringAppendOperator = new StringAppendOperator(); final Options opt = new Options() .setCreateIfMissing(true) .setMergeOperator(stringAppendOperator); final WriteOptions wOpt = new WriteOptions(); final RocksDB db = RocksDB.open(opt, dbFolder.getRoot().getAbsolutePath()) ) { db.put("key1".getBytes(), "value".getBytes()); assertThat(db.get("key1".getBytes())).isEqualTo( "value".getBytes()); // merge key1 with another value portion db.merge("key1".getBytes(), "value2".getBytes()); assertThat(db.get("key1".getBytes())).isEqualTo( "value,value2".getBytes()); // merge key1 with another value portion db.merge(wOpt, "key1".getBytes(), "value3".getBytes()); assertThat(db.get("key1".getBytes())).isEqualTo( "value,value2,value3".getBytes()); // merge on non existent key shall insert the value db.merge(wOpt, "key2".getBytes(), "xxxx".getBytes()); assertThat(db.get("key2".getBytes())).isEqualTo( "xxxx".getBytes()); } } @Test public void delete() throws RocksDBException { try (final RocksDB db = RocksDB.open(dbFolder.getRoot().getAbsolutePath()); final WriteOptions wOpt = new WriteOptions()) { db.put("key1".getBytes(), "value".getBytes()); db.put("key2".getBytes(), "12345678".getBytes()); assertThat(db.get("key1".getBytes())).isEqualTo( "value".getBytes()); assertThat(db.get("key2".getBytes())).isEqualTo( "12345678".getBytes()); db.delete("key1".getBytes()); db.delete(wOpt, "key2".getBytes()); assertThat(db.get("key1".getBytes())).isNull(); assertThat(db.get("key2".getBytes())).isNull(); } } @Test public void singleDelete() throws RocksDBException { try (final RocksDB db = RocksDB.open(dbFolder.getRoot().getAbsolutePath()); final WriteOptions wOpt = new WriteOptions()) { db.put("key1".getBytes(), "value".getBytes()); db.put("key2".getBytes(), "12345678".getBytes()); assertThat(db.get("key1".getBytes())).isEqualTo( "value".getBytes()); assertThat(db.get("key2".getBytes())).isEqualTo( "12345678".getBytes()); db.singleDelete("key1".getBytes()); db.singleDelete(wOpt, "key2".getBytes()); assertThat(db.get("key1".getBytes())).isNull(); assertThat(db.get("key2".getBytes())).isNull(); } } @Test public void singleDelete_nonExisting() throws RocksDBException { try (final RocksDB db = RocksDB.open(dbFolder.getRoot().getAbsolutePath()); final WriteOptions wOpt = new WriteOptions()) { db.singleDelete("key1".getBytes()); db.singleDelete(wOpt, "key2".getBytes()); assertThat(db.get("key1".getBytes())).isNull(); assertThat(db.get("key2".getBytes())).isNull(); } } @Test public void deleteRange() throws RocksDBException { try (final RocksDB db = RocksDB.open(dbFolder.getRoot().getAbsolutePath()); final WriteOptions wOpt = new WriteOptions()) { db.put("key1".getBytes(), "value".getBytes()); db.put("key2".getBytes(), "12345678".getBytes()); db.put("key3".getBytes(), "abcdefg".getBytes()); db.put("key4".getBytes(), "xyz".getBytes()); assertThat(db.get("key1".getBytes())).isEqualTo("value".getBytes()); assertThat(db.get("key2".getBytes())).isEqualTo("12345678".getBytes()); assertThat(db.get("key3".getBytes())).isEqualTo("abcdefg".getBytes()); assertThat(db.get("key4".getBytes())).isEqualTo("xyz".getBytes()); db.deleteRange("key2".getBytes(), "key4".getBytes()); assertThat(db.get("key1".getBytes())).isEqualTo("value".getBytes()); assertThat(db.get("key2".getBytes())).isNull(); assertThat(db.get("key3".getBytes())).isNull(); assertThat(db.get("key4".getBytes())).isEqualTo("xyz".getBytes()); } } @Test public void getIntProperty() throws RocksDBException { try ( final Options options = new Options() .setCreateIfMissing(true) .setMaxWriteBufferNumber(10) .setMinWriteBufferNumberToMerge(10); final RocksDB db = RocksDB.open(options, dbFolder.getRoot().getAbsolutePath()); final WriteOptions wOpt = new WriteOptions().setDisableWAL(true) ) { db.put(wOpt, "key1".getBytes(), "value1".getBytes()); db.put(wOpt, "key2".getBytes(), "value2".getBytes()); db.put(wOpt, "key3".getBytes(), "value3".getBytes()); db.put(wOpt, "key4".getBytes(), "value4".getBytes()); assertThat(db.getLongProperty("rocksdb.num-entries-active-mem-table")) .isGreaterThan(0); assertThat(db.getLongProperty("rocksdb.cur-size-active-mem-table")) .isGreaterThan(0); } } @Test public void fullCompactRange() throws RocksDBException { try (final Options opt = new Options(). setCreateIfMissing(true). setDisableAutoCompactions(true). setCompactionStyle(CompactionStyle.LEVEL). setNumLevels(4). setWriteBufferSize(100 << 10). setLevelZeroFileNumCompactionTrigger(3). setTargetFileSizeBase(200 << 10). setTargetFileSizeMultiplier(1). setMaxBytesForLevelBase(500 << 10). setMaxBytesForLevelMultiplier(1). setDisableAutoCompactions(false); final RocksDB db = RocksDB.open(opt, dbFolder.getRoot().getAbsolutePath())) { // fill database with key/value pairs byte[] b = new byte[10000]; for (int i = 0; i < 200; i++) { rand.nextBytes(b); db.put((String.valueOf(i)).getBytes(), b); } db.compactRange(); } } @Test public void fullCompactRangeColumnFamily() throws RocksDBException { try ( final DBOptions opt = new DBOptions(). setCreateIfMissing(true). setCreateMissingColumnFamilies(true); final ColumnFamilyOptions new_cf_opts = new ColumnFamilyOptions(). setDisableAutoCompactions(true). setCompactionStyle(CompactionStyle.LEVEL). setNumLevels(4). setWriteBufferSize(100 << 10). setLevelZeroFileNumCompactionTrigger(3). setTargetFileSizeBase(200 << 10). setTargetFileSizeMultiplier(1). setMaxBytesForLevelBase(500 << 10). setMaxBytesForLevelMultiplier(1). setDisableAutoCompactions(false) ) { final List columnFamilyDescriptors = Arrays.asList( new ColumnFamilyDescriptor(RocksDB.DEFAULT_COLUMN_FAMILY), new ColumnFamilyDescriptor("new_cf".getBytes(), new_cf_opts)); // open database final List columnFamilyHandles = new ArrayList<>(); try (final RocksDB db = RocksDB.open(opt, dbFolder.getRoot().getAbsolutePath(), columnFamilyDescriptors, columnFamilyHandles)) { try { // fill database with key/value pairs byte[] b = new byte[10000]; for (int i = 0; i < 200; i++) { rand.nextBytes(b); db.put(columnFamilyHandles.get(1), String.valueOf(i).getBytes(), b); } db.compactRange(columnFamilyHandles.get(1)); } finally { for (final ColumnFamilyHandle handle : columnFamilyHandles) { handle.close(); } } } } } @Test public void compactRangeWithKeys() throws RocksDBException { try (final Options opt = new Options(). setCreateIfMissing(true). setDisableAutoCompactions(true). setCompactionStyle(CompactionStyle.LEVEL). setNumLevels(4). setWriteBufferSize(100 << 10). setLevelZeroFileNumCompactionTrigger(3). setTargetFileSizeBase(200 << 10). setTargetFileSizeMultiplier(1). setMaxBytesForLevelBase(500 << 10). setMaxBytesForLevelMultiplier(1). setDisableAutoCompactions(false); final RocksDB db = RocksDB.open(opt, dbFolder.getRoot().getAbsolutePath())) { // fill database with key/value pairs byte[] b = new byte[10000]; for (int i = 0; i < 200; i++) { rand.nextBytes(b); db.put((String.valueOf(i)).getBytes(), b); } db.compactRange("0".getBytes(), "201".getBytes()); } } @Test public void compactRangeWithKeysReduce() throws RocksDBException { try ( final Options opt = new Options(). setCreateIfMissing(true). setDisableAutoCompactions(true). setCompactionStyle(CompactionStyle.LEVEL). setNumLevels(4). setWriteBufferSize(100 << 10). setLevelZeroFileNumCompactionTrigger(3). setTargetFileSizeBase(200 << 10). setTargetFileSizeMultiplier(1). setMaxBytesForLevelBase(500 << 10). setMaxBytesForLevelMultiplier(1). setDisableAutoCompactions(false); final RocksDB db = RocksDB.open(opt, dbFolder.getRoot().getAbsolutePath())) { // fill database with key/value pairs byte[] b = new byte[10000]; for (int i = 0; i < 200; i++) { rand.nextBytes(b); db.put((String.valueOf(i)).getBytes(), b); } db.flush(new FlushOptions().setWaitForFlush(true)); db.compactRange("0".getBytes(), "201".getBytes(), true, -1, 0); } } @Test public void compactRangeWithKeysColumnFamily() throws RocksDBException { try (final DBOptions opt = new DBOptions(). setCreateIfMissing(true). setCreateMissingColumnFamilies(true); final ColumnFamilyOptions new_cf_opts = new ColumnFamilyOptions(). setDisableAutoCompactions(true). setCompactionStyle(CompactionStyle.LEVEL). setNumLevels(4). setWriteBufferSize(100 << 10). setLevelZeroFileNumCompactionTrigger(3). setTargetFileSizeBase(200 << 10). setTargetFileSizeMultiplier(1). setMaxBytesForLevelBase(500 << 10). setMaxBytesForLevelMultiplier(1). setDisableAutoCompactions(false) ) { final List columnFamilyDescriptors = Arrays.asList( new ColumnFamilyDescriptor(RocksDB.DEFAULT_COLUMN_FAMILY), new ColumnFamilyDescriptor("new_cf".getBytes(), new_cf_opts) ); // open database final List columnFamilyHandles = new ArrayList<>(); try (final RocksDB db = RocksDB.open(opt, dbFolder.getRoot().getAbsolutePath(), columnFamilyDescriptors, columnFamilyHandles)) { try { // fill database with key/value pairs byte[] b = new byte[10000]; for (int i = 0; i < 200; i++) { rand.nextBytes(b); db.put(columnFamilyHandles.get(1), String.valueOf(i).getBytes(), b); } db.compactRange(columnFamilyHandles.get(1), "0".getBytes(), "201".getBytes()); } finally { for (final ColumnFamilyHandle handle : columnFamilyHandles) { handle.close(); } } } } } @Test public void compactRangeWithKeysReduceColumnFamily() throws RocksDBException { try (final DBOptions opt = new DBOptions(). setCreateIfMissing(true). setCreateMissingColumnFamilies(true); final ColumnFamilyOptions new_cf_opts = new ColumnFamilyOptions(). setDisableAutoCompactions(true). setCompactionStyle(CompactionStyle.LEVEL). setNumLevels(4). setWriteBufferSize(100 << 10). setLevelZeroFileNumCompactionTrigger(3). setTargetFileSizeBase(200 << 10). setTargetFileSizeMultiplier(1). setMaxBytesForLevelBase(500 << 10). setMaxBytesForLevelMultiplier(1). setDisableAutoCompactions(false) ) { final List columnFamilyDescriptors = Arrays.asList( new ColumnFamilyDescriptor(RocksDB.DEFAULT_COLUMN_FAMILY), new ColumnFamilyDescriptor("new_cf".getBytes(), new_cf_opts) ); final List columnFamilyHandles = new ArrayList<>(); // open database try (final RocksDB db = RocksDB.open(opt, dbFolder.getRoot().getAbsolutePath(), columnFamilyDescriptors, columnFamilyHandles)) { try { // fill database with key/value pairs byte[] b = new byte[10000]; for (int i = 0; i < 200; i++) { rand.nextBytes(b); db.put(columnFamilyHandles.get(1), String.valueOf(i).getBytes(), b); } db.compactRange(columnFamilyHandles.get(1), "0".getBytes(), "201".getBytes(), true, -1, 0); } finally { for (final ColumnFamilyHandle handle : columnFamilyHandles) { handle.close(); } } } } } @Test public void compactRangeToLevel() throws RocksDBException, InterruptedException { final int NUM_KEYS_PER_L0_FILE = 100; final int KEY_SIZE = 20; final int VALUE_SIZE = 300; final int L0_FILE_SIZE = NUM_KEYS_PER_L0_FILE * (KEY_SIZE + VALUE_SIZE); final int NUM_L0_FILES = 10; final int TEST_SCALE = 5; final int KEY_INTERVAL = 100; try (final Options opt = new Options(). setCreateIfMissing(true). setCompactionStyle(CompactionStyle.LEVEL). setNumLevels(5). // a slightly bigger write buffer than L0 file // so that we can ensure manual flush always // go before background flush happens. setWriteBufferSize(L0_FILE_SIZE * 2). // Disable auto L0 -> L1 compaction setLevelZeroFileNumCompactionTrigger(20). setTargetFileSizeBase(L0_FILE_SIZE * 100). setTargetFileSizeMultiplier(1). // To disable auto compaction setMaxBytesForLevelBase(NUM_L0_FILES * L0_FILE_SIZE * 100). setMaxBytesForLevelMultiplier(2). setDisableAutoCompactions(true); final RocksDB db = RocksDB.open(opt, dbFolder.getRoot().getAbsolutePath()) ) { // fill database with key/value pairs byte[] value = new byte[VALUE_SIZE]; int int_key = 0; for (int round = 0; round < 5; ++round) { int initial_key = int_key; for (int f = 1; f <= NUM_L0_FILES; ++f) { for (int i = 0; i < NUM_KEYS_PER_L0_FILE; ++i) { int_key += KEY_INTERVAL; rand.nextBytes(value); db.put(String.format("%020d", int_key).getBytes(), value); } db.flush(new FlushOptions().setWaitForFlush(true)); // Make sure we do create one more L0 files. assertThat( db.getProperty("rocksdb.num-files-at-level0")). isEqualTo("" + f); } // Compact all L0 files we just created db.compactRange( String.format("%020d", initial_key).getBytes(), String.format("%020d", int_key - 1).getBytes()); // Making sure there isn't any L0 files. assertThat( db.getProperty("rocksdb.num-files-at-level0")). isEqualTo("0"); // Making sure there are some L1 files. // Here we only use != 0 instead of a specific number // as we don't want the test make any assumption on // how compaction works. assertThat( db.getProperty("rocksdb.num-files-at-level1")). isNotEqualTo("0"); // Because we only compacted those keys we issued // in this round, there shouldn't be any L1 -> L2 // compaction. So we expect zero L2 files here. assertThat( db.getProperty("rocksdb.num-files-at-level2")). isEqualTo("0"); } } } @Test public void compactRangeToLevelColumnFamily() throws RocksDBException { final int NUM_KEYS_PER_L0_FILE = 100; final int KEY_SIZE = 20; final int VALUE_SIZE = 300; final int L0_FILE_SIZE = NUM_KEYS_PER_L0_FILE * (KEY_SIZE + VALUE_SIZE); final int NUM_L0_FILES = 10; final int TEST_SCALE = 5; final int KEY_INTERVAL = 100; try (final DBOptions opt = new DBOptions(). setCreateIfMissing(true). setCreateMissingColumnFamilies(true); final ColumnFamilyOptions new_cf_opts = new ColumnFamilyOptions(). setCompactionStyle(CompactionStyle.LEVEL). setNumLevels(5). // a slightly bigger write buffer than L0 file // so that we can ensure manual flush always // go before background flush happens. setWriteBufferSize(L0_FILE_SIZE * 2). // Disable auto L0 -> L1 compaction setLevelZeroFileNumCompactionTrigger(20). setTargetFileSizeBase(L0_FILE_SIZE * 100). setTargetFileSizeMultiplier(1). // To disable auto compaction setMaxBytesForLevelBase(NUM_L0_FILES * L0_FILE_SIZE * 100). setMaxBytesForLevelMultiplier(2). setDisableAutoCompactions(true) ) { final List columnFamilyDescriptors = Arrays.asList( new ColumnFamilyDescriptor(RocksDB.DEFAULT_COLUMN_FAMILY), new ColumnFamilyDescriptor("new_cf".getBytes(), new_cf_opts) ); final List columnFamilyHandles = new ArrayList<>(); // open database try (final RocksDB db = RocksDB.open(opt, dbFolder.getRoot().getAbsolutePath(), columnFamilyDescriptors, columnFamilyHandles)) { try { // fill database with key/value pairs byte[] value = new byte[VALUE_SIZE]; int int_key = 0; for (int round = 0; round < 5; ++round) { int initial_key = int_key; for (int f = 1; f <= NUM_L0_FILES; ++f) { for (int i = 0; i < NUM_KEYS_PER_L0_FILE; ++i) { int_key += KEY_INTERVAL; rand.nextBytes(value); db.put(columnFamilyHandles.get(1), String.format("%020d", int_key).getBytes(), value); } db.flush(new FlushOptions().setWaitForFlush(true), columnFamilyHandles.get(1)); // Make sure we do create one more L0 files. assertThat( db.getProperty(columnFamilyHandles.get(1), "rocksdb.num-files-at-level0")). isEqualTo("" + f); } // Compact all L0 files we just created db.compactRange( columnFamilyHandles.get(1), String.format("%020d", initial_key).getBytes(), String.format("%020d", int_key - 1).getBytes()); // Making sure there isn't any L0 files. assertThat( db.getProperty(columnFamilyHandles.get(1), "rocksdb.num-files-at-level0")). isEqualTo("0"); // Making sure there are some L1 files. // Here we only use != 0 instead of a specific number // as we don't want the test make any assumption on // how compaction works. assertThat( db.getProperty(columnFamilyHandles.get(1), "rocksdb.num-files-at-level1")). isNotEqualTo("0"); // Because we only compacted those keys we issued // in this round, there shouldn't be any L1 -> L2 // compaction. So we expect zero L2 files here. assertThat( db.getProperty(columnFamilyHandles.get(1), "rocksdb.num-files-at-level2")). isEqualTo("0"); } } finally { for (final ColumnFamilyHandle handle : columnFamilyHandles) { handle.close(); } } } } } @Test public void pauseContinueBackgroundWork() throws RocksDBException { try (final Options options = new Options().setCreateIfMissing(true); final RocksDB db = RocksDB.open(options, dbFolder.getRoot().getAbsolutePath()) ) { db.pauseBackgroundWork(); db.continueBackgroundWork(); db.pauseBackgroundWork(); db.continueBackgroundWork(); } } @Test public void enableDisableFileDeletions() throws RocksDBException { try (final Options options = new Options().setCreateIfMissing(true); final RocksDB db = RocksDB.open(options, dbFolder.getRoot().getAbsolutePath()) ) { db.disableFileDeletions(); db.enableFileDeletions(false); db.disableFileDeletions(); db.enableFileDeletions(true); } } @Test public void setOptions() throws RocksDBException { try (final DBOptions options = new DBOptions() .setCreateIfMissing(true) .setCreateMissingColumnFamilies(true); final ColumnFamilyOptions new_cf_opts = new ColumnFamilyOptions() .setWriteBufferSize(4096)) { final List columnFamilyDescriptors = Arrays.asList( new ColumnFamilyDescriptor(RocksDB.DEFAULT_COLUMN_FAMILY), new ColumnFamilyDescriptor("new_cf".getBytes(), new_cf_opts)); // open database final List columnFamilyHandles = new ArrayList<>(); try (final RocksDB db = RocksDB.open(options, dbFolder.getRoot().getAbsolutePath(), columnFamilyDescriptors, columnFamilyHandles)) { try { final MutableColumnFamilyOptions mutableOptions = MutableColumnFamilyOptions.builder() .setWriteBufferSize(2048) .build(); db.setOptions(columnFamilyHandles.get(1), mutableOptions); } finally { for (final ColumnFamilyHandle handle : columnFamilyHandles) { handle.close(); } } } } } @Test public void destroyDB() throws RocksDBException { try (final Options options = new Options().setCreateIfMissing(true)) { String dbPath = dbFolder.getRoot().getAbsolutePath(); try (final RocksDB db = RocksDB.open(options, dbPath)) { db.put("key1".getBytes(), "value".getBytes()); } assertThat(dbFolder.getRoot().exists()).isTrue(); RocksDB.destroyDB(dbPath, options); assertThat(dbFolder.getRoot().exists()).isFalse(); } } @Test(expected = RocksDBException.class) public void destroyDBFailIfOpen() throws RocksDBException { try (final Options options = new Options().setCreateIfMissing(true)) { String dbPath = dbFolder.getRoot().getAbsolutePath(); try (final RocksDB db = RocksDB.open(options, dbPath)) { // Fails as the db is open and locked. RocksDB.destroyDB(dbPath, options); } } } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/RocksEnvTest.java000066400000000000000000000026711337235545400243410ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import org.junit.ClassRule; import org.junit.Test; import static org.assertj.core.api.Assertions.assertThat; public class RocksEnvTest { @ClassRule public static final RocksMemoryResource rocksMemoryResource = new RocksMemoryResource(); @Test public void rocksEnv() { try (final Env rocksEnv = RocksEnv.getDefault()) { rocksEnv.setBackgroundThreads(5); // default rocksenv will always return zero for flush pool // no matter what was set via setBackgroundThreads assertThat(rocksEnv.getThreadPoolQueueLen(RocksEnv.FLUSH_POOL)). isEqualTo(0); rocksEnv.setBackgroundThreads(5, RocksEnv.FLUSH_POOL); // default rocksenv will always return zero for flush pool // no matter what was set via setBackgroundThreads assertThat(rocksEnv.getThreadPoolQueueLen(RocksEnv.FLUSH_POOL)). isEqualTo(0); rocksEnv.setBackgroundThreads(5, RocksEnv.COMPACTION_POOL); // default rocksenv will always return zero for compaction pool // no matter what was set via setBackgroundThreads assertThat(rocksEnv.getThreadPoolQueueLen(RocksEnv.COMPACTION_POOL)). isEqualTo(0); } } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/RocksIteratorTest.java000066400000000000000000000073141337235545400254010ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import org.junit.ClassRule; import org.junit.Rule; import org.junit.Test; import org.junit.rules.TemporaryFolder; import static org.assertj.core.api.Assertions.assertThat; public class RocksIteratorTest { @ClassRule public static final RocksMemoryResource rocksMemoryResource = new RocksMemoryResource(); @Rule public TemporaryFolder dbFolder = new TemporaryFolder(); @Test public void rocksIterator() throws RocksDBException { try (final Options options = new Options() .setCreateIfMissing(true) .setCreateMissingColumnFamilies(true); final RocksDB db = RocksDB.open(options, dbFolder.getRoot().getAbsolutePath())) { db.put("key1".getBytes(), "value1".getBytes()); db.put("key2".getBytes(), "value2".getBytes()); try (final RocksIterator iterator = db.newIterator()) { iterator.seekToFirst(); assertThat(iterator.isValid()).isTrue(); assertThat(iterator.key()).isEqualTo("key1".getBytes()); assertThat(iterator.value()).isEqualTo("value1".getBytes()); iterator.next(); assertThat(iterator.isValid()).isTrue(); assertThat(iterator.key()).isEqualTo("key2".getBytes()); assertThat(iterator.value()).isEqualTo("value2".getBytes()); iterator.next(); assertThat(iterator.isValid()).isFalse(); iterator.seekToLast(); iterator.prev(); assertThat(iterator.isValid()).isTrue(); assertThat(iterator.key()).isEqualTo("key1".getBytes()); assertThat(iterator.value()).isEqualTo("value1".getBytes()); iterator.seekToFirst(); iterator.seekToLast(); assertThat(iterator.isValid()).isTrue(); assertThat(iterator.key()).isEqualTo("key2".getBytes()); assertThat(iterator.value()).isEqualTo("value2".getBytes()); iterator.status(); } try (final RocksIterator iterator = db.newIterator()) { iterator.seek("key0".getBytes()); assertThat(iterator.isValid()).isTrue(); assertThat(iterator.key()).isEqualTo("key1".getBytes()); iterator.seek("key1".getBytes()); assertThat(iterator.isValid()).isTrue(); assertThat(iterator.key()).isEqualTo("key1".getBytes()); iterator.seek("key1.5".getBytes()); assertThat(iterator.isValid()).isTrue(); assertThat(iterator.key()).isEqualTo("key2".getBytes()); iterator.seek("key2".getBytes()); assertThat(iterator.isValid()).isTrue(); assertThat(iterator.key()).isEqualTo("key2".getBytes()); iterator.seek("key3".getBytes()); assertThat(iterator.isValid()).isFalse(); } try (final RocksIterator iterator = db.newIterator()) { iterator.seekForPrev("key0".getBytes()); assertThat(iterator.isValid()).isFalse(); iterator.seekForPrev("key1".getBytes()); assertThat(iterator.isValid()).isTrue(); assertThat(iterator.key()).isEqualTo("key1".getBytes()); iterator.seekForPrev("key1.5".getBytes()); assertThat(iterator.isValid()).isTrue(); assertThat(iterator.key()).isEqualTo("key1".getBytes()); iterator.seekForPrev("key2".getBytes()); assertThat(iterator.isValid()).isTrue(); assertThat(iterator.key()).isEqualTo("key2".getBytes()); iterator.seekForPrev("key3".getBytes()); assertThat(iterator.isValid()).isTrue(); assertThat(iterator.key()).isEqualTo("key2".getBytes()); } } } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/RocksMemEnvTest.java000066400000000000000000000105461337235545400250000ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import org.junit.ClassRule; import org.junit.Rule; import org.junit.Test; import org.junit.rules.TemporaryFolder; import static org.assertj.core.api.Assertions.assertThat; public class RocksMemEnvTest { @ClassRule public static final RocksMemoryResource rocksMemoryResource = new RocksMemoryResource(); @Test public void memEnvFillAndReopen() throws RocksDBException { final byte[][] keys = { "aaa".getBytes(), "bbb".getBytes(), "ccc".getBytes() }; final byte[][] values = { "foo".getBytes(), "bar".getBytes(), "baz".getBytes() }; try (final Env env = new RocksMemEnv(); final Options options = new Options() .setCreateIfMissing(true) .setEnv(env); final FlushOptions flushOptions = new FlushOptions() .setWaitForFlush(true); ) { try (final RocksDB db = RocksDB.open(options, "dir/db")) { // write key/value pairs using MemEnv for (int i = 0; i < keys.length; i++) { db.put(keys[i], values[i]); } // read key/value pairs using MemEnv for (int i = 0; i < keys.length; i++) { assertThat(db.get(keys[i])).isEqualTo(values[i]); } // Check iterator access try (final RocksIterator iterator = db.newIterator()) { iterator.seekToFirst(); for (int i = 0; i < keys.length; i++) { assertThat(iterator.isValid()).isTrue(); assertThat(iterator.key()).isEqualTo(keys[i]); assertThat(iterator.value()).isEqualTo(values[i]); iterator.next(); } // reached end of database assertThat(iterator.isValid()).isFalse(); } // flush db.flush(flushOptions); // read key/value pairs after flush using MemEnv for (int i = 0; i < keys.length; i++) { assertThat(db.get(keys[i])).isEqualTo(values[i]); } } options.setCreateIfMissing(false); // After reopen the values shall still be in the mem env. // as long as the env is not freed. try (final RocksDB db = RocksDB.open(options, "dir/db")) { // read key/value pairs using MemEnv for (int i = 0; i < keys.length; i++) { assertThat(db.get(keys[i])).isEqualTo(values[i]); } } } } @Test public void multipleDatabaseInstances() throws RocksDBException { // db - keys final byte[][] keys = { "aaa".getBytes(), "bbb".getBytes(), "ccc".getBytes() }; // otherDb - keys final byte[][] otherKeys = { "111".getBytes(), "222".getBytes(), "333".getBytes() }; // values final byte[][] values = { "foo".getBytes(), "bar".getBytes(), "baz".getBytes() }; try (final Env env = new RocksMemEnv(); final Options options = new Options() .setCreateIfMissing(true) .setEnv(env); final RocksDB db = RocksDB.open(options, "dir/db"); final RocksDB otherDb = RocksDB.open(options, "dir/otherDb") ) { // write key/value pairs using MemEnv // to db and to otherDb. for (int i = 0; i < keys.length; i++) { db.put(keys[i], values[i]); otherDb.put(otherKeys[i], values[i]); } // verify key/value pairs after flush using MemEnv for (int i = 0; i < keys.length; i++) { // verify db assertThat(db.get(otherKeys[i])).isNull(); assertThat(db.get(keys[i])).isEqualTo(values[i]); // verify otherDb assertThat(otherDb.get(keys[i])).isNull(); assertThat(otherDb.get(otherKeys[i])).isEqualTo(values[i]); } } } @Test(expected = RocksDBException.class) public void createIfMissingFalse() throws RocksDBException { try (final Env env = new RocksMemEnv(); final Options options = new Options() .setCreateIfMissing(false) .setEnv(env); final RocksDB db = RocksDB.open(options, "db/dir")) { // shall throw an exception because db dir does not // exist. } } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/RocksMemoryResource.java000066400000000000000000000006711337235545400257270ustar00rootroot00000000000000package org.rocksdb; import org.junit.rules.ExternalResource; /** * Resource to trigger garbage collection after each test * run. * * @deprecated Will be removed with the implementation of * {@link RocksObject#finalize()} */ @Deprecated public class RocksMemoryResource extends ExternalResource { static { RocksDB.loadLibrary(); } @Override protected void after() { System.gc(); System.runFinalization(); } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/SliceTest.java000066400000000000000000000045331337235545400236450ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import org.junit.ClassRule; import org.junit.Test; import static org.assertj.core.api.Assertions.assertThat; public class SliceTest { @ClassRule public static final RocksMemoryResource rocksMemoryResource = new RocksMemoryResource(); @Test public void slice() { try (final Slice slice = new Slice("testSlice")) { assertThat(slice.empty()).isFalse(); assertThat(slice.size()).isEqualTo(9); assertThat(slice.data()).isEqualTo("testSlice".getBytes()); } try (final Slice otherSlice = new Slice("otherSlice".getBytes())) { assertThat(otherSlice.data()).isEqualTo("otherSlice".getBytes()); } try (final Slice thirdSlice = new Slice("otherSlice".getBytes(), 5)) { assertThat(thirdSlice.data()).isEqualTo("Slice".getBytes()); } } @Test public void sliceClear() { try (final Slice slice = new Slice("abc")) { assertThat(slice.toString()).isEqualTo("abc"); slice.clear(); assertThat(slice.toString()).isEmpty(); slice.clear(); // make sure we don't double-free } } @Test public void sliceRemovePrefix() { try (final Slice slice = new Slice("abc")) { assertThat(slice.toString()).isEqualTo("abc"); slice.removePrefix(1); assertThat(slice.toString()).isEqualTo("bc"); } } @Test public void sliceEquals() { try (final Slice slice = new Slice("abc"); final Slice slice2 = new Slice("abc")) { assertThat(slice.equals(slice2)).isTrue(); assertThat(slice.hashCode() == slice2.hashCode()).isTrue(); } } @Test public void sliceStartWith() { try (final Slice slice = new Slice("matchpoint"); final Slice match = new Slice("mat"); final Slice noMatch = new Slice("nomatch")) { assertThat(slice.startsWith(match)).isTrue(); assertThat(slice.startsWith(noMatch)).isFalse(); } } @Test public void sliceToString() { try (final Slice slice = new Slice("stringTest")) { assertThat(slice.toString()).isEqualTo("stringTest"); assertThat(slice.toString(true)).isNotEqualTo(""); } } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/SnapshotTest.java000066400000000000000000000150031337235545400243770ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import org.junit.ClassRule; import org.junit.Rule; import org.junit.Test; import org.junit.rules.TemporaryFolder; import static org.assertj.core.api.Assertions.assertThat; public class SnapshotTest { @ClassRule public static final RocksMemoryResource rocksMemoryResource = new RocksMemoryResource(); @Rule public TemporaryFolder dbFolder = new TemporaryFolder(); @Test public void snapshots() throws RocksDBException { try (final Options options = new Options().setCreateIfMissing(true); final RocksDB db = RocksDB.open(options, dbFolder.getRoot().getAbsolutePath())) { db.put("key".getBytes(), "value".getBytes()); // Get new Snapshot of database try (final Snapshot snapshot = db.getSnapshot()) { assertThat(snapshot.getSequenceNumber()).isGreaterThan(0); assertThat(snapshot.getSequenceNumber()).isEqualTo(1); try (final ReadOptions readOptions = new ReadOptions()) { // set snapshot in ReadOptions readOptions.setSnapshot(snapshot); // retrieve key value pair assertThat(new String(db.get("key".getBytes()))). isEqualTo("value"); // retrieve key value pair created before // the snapshot was made assertThat(new String(db.get(readOptions, "key".getBytes()))).isEqualTo("value"); // add new key/value pair db.put("newkey".getBytes(), "newvalue".getBytes()); // using no snapshot the latest db entries // will be taken into account assertThat(new String(db.get("newkey".getBytes()))). isEqualTo("newvalue"); // snapshopot was created before newkey assertThat(db.get(readOptions, "newkey".getBytes())). isNull(); // Retrieve snapshot from read options try (final Snapshot sameSnapshot = readOptions.snapshot()) { readOptions.setSnapshot(sameSnapshot); // results must be the same with new Snapshot // instance using the same native pointer assertThat(new String(db.get(readOptions, "key".getBytes()))).isEqualTo("value"); // update key value pair to newvalue db.put("key".getBytes(), "newvalue".getBytes()); // read with previously created snapshot will // read previous version of key value pair assertThat(new String(db.get(readOptions, "key".getBytes()))).isEqualTo("value"); // read for newkey using the snapshot must be // null assertThat(db.get(readOptions, "newkey".getBytes())). isNull(); // setting null to snapshot in ReadOptions leads // to no Snapshot being used. readOptions.setSnapshot(null); assertThat(new String(db.get(readOptions, "newkey".getBytes()))).isEqualTo("newvalue"); // release Snapshot db.releaseSnapshot(snapshot); } } } } } @Test public void iteratorWithSnapshot() throws RocksDBException { try (final Options options = new Options().setCreateIfMissing(true); final RocksDB db = RocksDB.open(options, dbFolder.getRoot().getAbsolutePath())) { db.put("key".getBytes(), "value".getBytes()); // Get new Snapshot of database // set snapshot in ReadOptions try (final Snapshot snapshot = db.getSnapshot(); final ReadOptions readOptions = new ReadOptions().setSnapshot(snapshot)) { db.put("key2".getBytes(), "value2".getBytes()); // iterate over current state of db try (final RocksIterator iterator = db.newIterator()) { iterator.seekToFirst(); assertThat(iterator.isValid()).isTrue(); assertThat(iterator.key()).isEqualTo("key".getBytes()); iterator.next(); assertThat(iterator.isValid()).isTrue(); assertThat(iterator.key()).isEqualTo("key2".getBytes()); iterator.next(); assertThat(iterator.isValid()).isFalse(); } // iterate using a snapshot try (final RocksIterator snapshotIterator = db.newIterator(readOptions)) { snapshotIterator.seekToFirst(); assertThat(snapshotIterator.isValid()).isTrue(); assertThat(snapshotIterator.key()).isEqualTo("key".getBytes()); snapshotIterator.next(); assertThat(snapshotIterator.isValid()).isFalse(); } // release Snapshot db.releaseSnapshot(snapshot); } } } @Test public void iteratorWithSnapshotOnColumnFamily() throws RocksDBException { try (final Options options = new Options() .setCreateIfMissing(true); final RocksDB db = RocksDB.open(options, dbFolder.getRoot().getAbsolutePath())) { db.put("key".getBytes(), "value".getBytes()); // Get new Snapshot of database // set snapshot in ReadOptions try (final Snapshot snapshot = db.getSnapshot(); final ReadOptions readOptions = new ReadOptions() .setSnapshot(snapshot)) { db.put("key2".getBytes(), "value2".getBytes()); // iterate over current state of column family try (final RocksIterator iterator = db.newIterator( db.getDefaultColumnFamily())) { iterator.seekToFirst(); assertThat(iterator.isValid()).isTrue(); assertThat(iterator.key()).isEqualTo("key".getBytes()); iterator.next(); assertThat(iterator.isValid()).isTrue(); assertThat(iterator.key()).isEqualTo("key2".getBytes()); iterator.next(); assertThat(iterator.isValid()).isFalse(); } // iterate using a snapshot on default column family try (final RocksIterator snapshotIterator = db.newIterator( db.getDefaultColumnFamily(), readOptions)) { snapshotIterator.seekToFirst(); assertThat(snapshotIterator.isValid()).isTrue(); assertThat(snapshotIterator.key()).isEqualTo("key".getBytes()); snapshotIterator.next(); assertThat(snapshotIterator.isValid()).isFalse(); // release Snapshot db.releaseSnapshot(snapshot); } } } } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/SstFileManagerTest.java000066400000000000000000000047621337235545400254560ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import org.junit.Test; import java.util.Collections; import static org.assertj.core.api.Assertions.*; public class SstFileManagerTest { @Test public void maxAllowedSpaceUsage() throws RocksDBException { try (final SstFileManager sstFileManager = new SstFileManager(Env.getDefault())) { sstFileManager.setMaxAllowedSpaceUsage(1024 * 1024 * 64); assertThat(sstFileManager.isMaxAllowedSpaceReached()).isFalse(); assertThat(sstFileManager.isMaxAllowedSpaceReachedIncludingCompactions()).isFalse(); } } @Test public void compactionBufferSize() throws RocksDBException { try (final SstFileManager sstFileManager = new SstFileManager(Env.getDefault())) { sstFileManager.setCompactionBufferSize(1024 * 1024 * 10); assertThat(sstFileManager.isMaxAllowedSpaceReachedIncludingCompactions()).isFalse(); } } @Test public void totalSize() throws RocksDBException { try (final SstFileManager sstFileManager = new SstFileManager(Env.getDefault())) { assertThat(sstFileManager.getTotalSize()).isEqualTo(0); } } @Test public void trackedFiles() throws RocksDBException { try (final SstFileManager sstFileManager = new SstFileManager(Env.getDefault())) { assertThat(sstFileManager.getTrackedFiles()).isEqualTo(Collections.emptyMap()); } } @Test public void deleteRateBytesPerSecond() throws RocksDBException { try (final SstFileManager sstFileManager = new SstFileManager(Env.getDefault())) { assertThat(sstFileManager.getDeleteRateBytesPerSecond()).isEqualTo(SstFileManager.RATE_BYTES_PER_SEC_DEFAULT); final long ratePerSecond = 1024 * 1024 * 52; sstFileManager.setDeleteRateBytesPerSecond(ratePerSecond); assertThat(sstFileManager.getDeleteRateBytesPerSecond()).isEqualTo(ratePerSecond); } } @Test public void maxTrashDBRatio() throws RocksDBException { try (final SstFileManager sstFileManager = new SstFileManager(Env.getDefault())) { assertThat(sstFileManager.getMaxTrashDBRatio()).isEqualTo(SstFileManager.MAX_TRASH_DB_RATION_DEFAULT); final double trashRatio = 0.2; sstFileManager.setMaxTrashDBRatio(trashRatio); assertThat(sstFileManager.getMaxTrashDBRatio()).isEqualTo(trashRatio); } } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/SstFileWriterTest.java000066400000000000000000000205561337235545400253570ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import org.junit.ClassRule; import org.junit.Rule; import org.junit.Test; import org.junit.rules.TemporaryFolder; import org.rocksdb.util.BytewiseComparator; import java.io.File; import java.io.IOException; import java.util.ArrayList; import java.util.Arrays; import java.util.List; import static org.assertj.core.api.Assertions.assertThat; import static org.junit.Assert.fail; public class SstFileWriterTest { private static final String SST_FILE_NAME = "test.sst"; private static final String DB_DIRECTORY_NAME = "test_db"; @ClassRule public static final RocksMemoryResource rocksMemoryResource = new RocksMemoryResource(); @Rule public TemporaryFolder parentFolder = new TemporaryFolder(); enum OpType { PUT, PUT_BYTES, MERGE, MERGE_BYTES, DELETE, DELETE_BYTES} class KeyValueWithOp { KeyValueWithOp(String key, String value, OpType opType) { this.key = key; this.value = value; this.opType = opType; } String getKey() { return key; } String getValue() { return value; } OpType getOpType() { return opType; } private String key; private String value; private OpType opType; }; private File newSstFile(final List keyValues, boolean useJavaBytewiseComparator) throws IOException, RocksDBException { final EnvOptions envOptions = new EnvOptions(); final StringAppendOperator stringAppendOperator = new StringAppendOperator(); final Options options = new Options().setMergeOperator(stringAppendOperator); SstFileWriter sstFileWriter = null; ComparatorOptions comparatorOptions = null; BytewiseComparator comparator = null; if (useJavaBytewiseComparator) { comparatorOptions = new ComparatorOptions(); comparator = new BytewiseComparator(comparatorOptions); options.setComparator(comparator); sstFileWriter = new SstFileWriter(envOptions, options, comparator); } else { sstFileWriter = new SstFileWriter(envOptions, options); } final File sstFile = parentFolder.newFile(SST_FILE_NAME); try { sstFileWriter.open(sstFile.getAbsolutePath()); for (KeyValueWithOp keyValue : keyValues) { Slice keySlice = new Slice(keyValue.getKey()); Slice valueSlice = new Slice(keyValue.getValue()); byte[] keyBytes = keyValue.getKey().getBytes(); byte[] valueBytes = keyValue.getValue().getBytes(); switch (keyValue.getOpType()) { case PUT: sstFileWriter.put(keySlice, valueSlice); break; case PUT_BYTES: sstFileWriter.put(keyBytes, valueBytes); break; case MERGE: sstFileWriter.merge(keySlice, valueSlice); break; case MERGE_BYTES: sstFileWriter.merge(keyBytes, valueBytes); break; case DELETE: sstFileWriter.delete(keySlice); break; case DELETE_BYTES: sstFileWriter.delete(keyBytes); break; default: fail("Unsupported op type"); } keySlice.close(); valueSlice.close(); } sstFileWriter.finish(); } finally { assertThat(sstFileWriter).isNotNull(); sstFileWriter.close(); options.close(); envOptions.close(); if (comparatorOptions != null) { comparatorOptions.close(); } if (comparator != null) { comparator.close(); } } return sstFile; } @Test public void generateSstFileWithJavaComparator() throws RocksDBException, IOException { final List keyValues = new ArrayList<>(); keyValues.add(new KeyValueWithOp("key1", "value1", OpType.PUT)); keyValues.add(new KeyValueWithOp("key2", "value2", OpType.PUT)); keyValues.add(new KeyValueWithOp("key3", "value3", OpType.MERGE)); keyValues.add(new KeyValueWithOp("key4", "value4", OpType.MERGE)); keyValues.add(new KeyValueWithOp("key5", "", OpType.DELETE)); newSstFile(keyValues, true); } @Test public void generateSstFileWithNativeComparator() throws RocksDBException, IOException { final List keyValues = new ArrayList<>(); keyValues.add(new KeyValueWithOp("key1", "value1", OpType.PUT)); keyValues.add(new KeyValueWithOp("key2", "value2", OpType.PUT)); keyValues.add(new KeyValueWithOp("key3", "value3", OpType.MERGE)); keyValues.add(new KeyValueWithOp("key4", "value4", OpType.MERGE)); keyValues.add(new KeyValueWithOp("key5", "", OpType.DELETE)); newSstFile(keyValues, false); } @Test public void ingestSstFile() throws RocksDBException, IOException { final List keyValues = new ArrayList<>(); keyValues.add(new KeyValueWithOp("key1", "value1", OpType.PUT)); keyValues.add(new KeyValueWithOp("key2", "value2", OpType.PUT)); keyValues.add(new KeyValueWithOp("key3", "value3", OpType.PUT_BYTES)); keyValues.add(new KeyValueWithOp("key4", "value4", OpType.MERGE)); keyValues.add(new KeyValueWithOp("key5", "value5", OpType.MERGE_BYTES)); keyValues.add(new KeyValueWithOp("key6", "", OpType.DELETE)); keyValues.add(new KeyValueWithOp("key7", "", OpType.DELETE)); final File sstFile = newSstFile(keyValues, false); final File dbFolder = parentFolder.newFolder(DB_DIRECTORY_NAME); try(final StringAppendOperator stringAppendOperator = new StringAppendOperator(); final Options options = new Options() .setCreateIfMissing(true) .setMergeOperator(stringAppendOperator); final RocksDB db = RocksDB.open(options, dbFolder.getAbsolutePath()); final IngestExternalFileOptions ingestExternalFileOptions = new IngestExternalFileOptions()) { db.ingestExternalFile(Arrays.asList(sstFile.getAbsolutePath()), ingestExternalFileOptions); assertThat(db.get("key1".getBytes())).isEqualTo("value1".getBytes()); assertThat(db.get("key2".getBytes())).isEqualTo("value2".getBytes()); assertThat(db.get("key3".getBytes())).isEqualTo("value3".getBytes()); assertThat(db.get("key4".getBytes())).isEqualTo("value4".getBytes()); assertThat(db.get("key5".getBytes())).isEqualTo("value5".getBytes()); assertThat(db.get("key6".getBytes())).isEqualTo(null); assertThat(db.get("key7".getBytes())).isEqualTo(null); } } @Test public void ingestSstFile_cf() throws RocksDBException, IOException { final List keyValues = new ArrayList<>(); keyValues.add(new KeyValueWithOp("key1", "value1", OpType.PUT)); keyValues.add(new KeyValueWithOp("key2", "value2", OpType.PUT)); keyValues.add(new KeyValueWithOp("key3", "value3", OpType.MERGE)); keyValues.add(new KeyValueWithOp("key4", "", OpType.DELETE)); final File sstFile = newSstFile(keyValues, false); final File dbFolder = parentFolder.newFolder(DB_DIRECTORY_NAME); try(final StringAppendOperator stringAppendOperator = new StringAppendOperator(); final Options options = new Options() .setCreateIfMissing(true) .setCreateMissingColumnFamilies(true) .setMergeOperator(stringAppendOperator); final RocksDB db = RocksDB.open(options, dbFolder.getAbsolutePath()); final IngestExternalFileOptions ingestExternalFileOptions = new IngestExternalFileOptions()) { try(final ColumnFamilyOptions cf_opts = new ColumnFamilyOptions() .setMergeOperator(stringAppendOperator); final ColumnFamilyHandle cf_handle = db.createColumnFamily( new ColumnFamilyDescriptor("new_cf".getBytes(), cf_opts))) { db.ingestExternalFile(cf_handle, Arrays.asList(sstFile.getAbsolutePath()), ingestExternalFileOptions); assertThat(db.get(cf_handle, "key1".getBytes())).isEqualTo("value1".getBytes()); assertThat(db.get(cf_handle, "key2".getBytes())).isEqualTo("value2".getBytes()); assertThat(db.get(cf_handle, "key3".getBytes())).isEqualTo("value3".getBytes()); assertThat(db.get(cf_handle, "key4".getBytes())).isEqualTo(null); } } } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/StatisticsCollectorTest.java000066400000000000000000000032451337235545400266060ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import java.util.Collections; import org.junit.ClassRule; import org.junit.Rule; import org.junit.Test; import org.junit.rules.TemporaryFolder; import static org.assertj.core.api.Assertions.assertThat; public class StatisticsCollectorTest { @ClassRule public static final RocksMemoryResource rocksMemoryResource = new RocksMemoryResource(); @Rule public TemporaryFolder dbFolder = new TemporaryFolder(); @Test public void statisticsCollector() throws InterruptedException, RocksDBException { try (final Statistics statistics = new Statistics(); final Options opt = new Options() .setStatistics(statistics) .setCreateIfMissing(true); final RocksDB db = RocksDB.open(opt, dbFolder.getRoot().getAbsolutePath())) { try(final Statistics stats = opt.statistics()) { final StatsCallbackMock callback = new StatsCallbackMock(); final StatsCollectorInput statsInput = new StatsCollectorInput(stats, callback); final StatisticsCollector statsCollector = new StatisticsCollector( Collections.singletonList(statsInput), 100); statsCollector.start(); Thread.sleep(1000); assertThat(callback.tickerCallbackCount).isGreaterThan(0); assertThat(callback.histCallbackCount).isGreaterThan(0); statsCollector.shutDown(1000); } } } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/StatisticsTest.java000066400000000000000000000121511337235545400247330ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import org.junit.ClassRule; import org.junit.Rule; import org.junit.Test; import org.junit.rules.TemporaryFolder; import java.nio.charset.StandardCharsets; import static org.assertj.core.api.Assertions.assertThat; public class StatisticsTest { @ClassRule public static final RocksMemoryResource rocksMemoryResource = new RocksMemoryResource(); @Rule public TemporaryFolder dbFolder = new TemporaryFolder(); @Test public void statsLevel() throws RocksDBException { final Statistics statistics = new Statistics(); statistics.setStatsLevel(StatsLevel.ALL); assertThat(statistics.statsLevel()).isEqualTo(StatsLevel.ALL); } @Test public void getTickerCount() throws RocksDBException { try (final Statistics statistics = new Statistics(); final Options opt = new Options() .setStatistics(statistics) .setCreateIfMissing(true); final RocksDB db = RocksDB.open(opt, dbFolder.getRoot().getAbsolutePath())) { final byte[] key = "some-key".getBytes(StandardCharsets.UTF_8); final byte[] value = "some-value".getBytes(StandardCharsets.UTF_8); db.put(key, value); for(int i = 0; i < 10; i++) { db.get(key); } assertThat(statistics.getTickerCount(TickerType.BYTES_READ)).isGreaterThan(0); } } @Test public void getAndResetTickerCount() throws RocksDBException { try (final Statistics statistics = new Statistics(); final Options opt = new Options() .setStatistics(statistics) .setCreateIfMissing(true); final RocksDB db = RocksDB.open(opt, dbFolder.getRoot().getAbsolutePath())) { final byte[] key = "some-key".getBytes(StandardCharsets.UTF_8); final byte[] value = "some-value".getBytes(StandardCharsets.UTF_8); db.put(key, value); for(int i = 0; i < 10; i++) { db.get(key); } final long read = statistics.getAndResetTickerCount(TickerType.BYTES_READ); assertThat(read).isGreaterThan(0); final long readAfterReset = statistics.getTickerCount(TickerType.BYTES_READ); assertThat(readAfterReset).isLessThan(read); } } @Test public void getHistogramData() throws RocksDBException { try (final Statistics statistics = new Statistics(); final Options opt = new Options() .setStatistics(statistics) .setCreateIfMissing(true); final RocksDB db = RocksDB.open(opt, dbFolder.getRoot().getAbsolutePath())) { final byte[] key = "some-key".getBytes(StandardCharsets.UTF_8); final byte[] value = "some-value".getBytes(StandardCharsets.UTF_8); db.put(key, value); for(int i = 0; i < 10; i++) { db.get(key); } final HistogramData histogramData = statistics.getHistogramData(HistogramType.BYTES_PER_READ); assertThat(histogramData).isNotNull(); assertThat(histogramData.getAverage()).isGreaterThan(0); } } @Test public void getHistogramString() throws RocksDBException { try (final Statistics statistics = new Statistics(); final Options opt = new Options() .setStatistics(statistics) .setCreateIfMissing(true); final RocksDB db = RocksDB.open(opt, dbFolder.getRoot().getAbsolutePath())) { final byte[] key = "some-key".getBytes(StandardCharsets.UTF_8); final byte[] value = "some-value".getBytes(StandardCharsets.UTF_8); for(int i = 0; i < 10; i++) { db.put(key, value); } assertThat(statistics.getHistogramString(HistogramType.BYTES_PER_WRITE)).isNotNull(); } } @Test public void reset() throws RocksDBException { try (final Statistics statistics = new Statistics(); final Options opt = new Options() .setStatistics(statistics) .setCreateIfMissing(true); final RocksDB db = RocksDB.open(opt, dbFolder.getRoot().getAbsolutePath())) { final byte[] key = "some-key".getBytes(StandardCharsets.UTF_8); final byte[] value = "some-value".getBytes(StandardCharsets.UTF_8); db.put(key, value); for(int i = 0; i < 10; i++) { db.get(key); } final long read = statistics.getTickerCount(TickerType.BYTES_READ); assertThat(read).isGreaterThan(0); statistics.reset(); final long readAfterReset = statistics.getTickerCount(TickerType.BYTES_READ); assertThat(readAfterReset).isLessThan(read); } } @Test public void ToString() throws RocksDBException { try (final Statistics statistics = new Statistics(); final Options opt = new Options() .setStatistics(statistics) .setCreateIfMissing(true); final RocksDB db = RocksDB.open(opt, dbFolder.getRoot().getAbsolutePath())) { assertThat(statistics.toString()).isNotNull(); } } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/StatsCallbackMock.java000066400000000000000000000012161337235545400252660ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; public class StatsCallbackMock implements StatisticsCollectorCallback { public int tickerCallbackCount = 0; public int histCallbackCount = 0; public void tickerCallback(TickerType tickerType, long tickerCount) { tickerCallbackCount++; } public void histogramCallback(HistogramType histType, HistogramData histData) { histCallbackCount++; } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/TransactionDBOptionsTest.java000066400000000000000000000036611337235545400266560ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import org.junit.Test; import java.util.Random; import static org.assertj.core.api.Assertions.assertThat; public class TransactionDBOptionsTest { private static final Random rand = PlatformRandomHelper. getPlatformSpecificRandomFactory(); @Test public void maxNumLocks() { try (final TransactionDBOptions opt = new TransactionDBOptions()) { final long longValue = rand.nextLong(); opt.setMaxNumLocks(longValue); assertThat(opt.getMaxNumLocks()).isEqualTo(longValue); } } @Test public void maxNumStripes() { try (final TransactionDBOptions opt = new TransactionDBOptions()) { final long longValue = rand.nextLong(); opt.setNumStripes(longValue); assertThat(opt.getNumStripes()).isEqualTo(longValue); } } @Test public void transactionLockTimeout() { try (final TransactionDBOptions opt = new TransactionDBOptions()) { final long longValue = rand.nextLong(); opt.setTransactionLockTimeout(longValue); assertThat(opt.getTransactionLockTimeout()).isEqualTo(longValue); } } @Test public void defaultLockTimeout() { try (final TransactionDBOptions opt = new TransactionDBOptions()) { final long longValue = rand.nextLong(); opt.setDefaultLockTimeout(longValue); assertThat(opt.getDefaultLockTimeout()).isEqualTo(longValue); } } @Test public void writePolicy() { try (final TransactionDBOptions opt = new TransactionDBOptions()) { final TxnDBWritePolicy writePolicy = TxnDBWritePolicy.WRITE_UNPREPARED; // non-default opt.setWritePolicy(writePolicy); assertThat(opt.getWritePolicy()).isEqualTo(writePolicy); } } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/TransactionDBTest.java000066400000000000000000000157721337235545400253100ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import org.junit.Rule; import org.junit.Test; import org.junit.rules.TemporaryFolder; import java.util.*; import static org.assertj.core.api.Assertions.assertThat; import static java.nio.charset.StandardCharsets.UTF_8; public class TransactionDBTest { @Rule public TemporaryFolder dbFolder = new TemporaryFolder(); @Test public void open() throws RocksDBException { try (final Options options = new Options().setCreateIfMissing(true); final TransactionDBOptions txnDbOptions = new TransactionDBOptions(); final TransactionDB tdb = TransactionDB.open(options, txnDbOptions, dbFolder.getRoot().getAbsolutePath())) { assertThat(tdb).isNotNull(); } } @Test public void open_columnFamilies() throws RocksDBException { try(final DBOptions dbOptions = new DBOptions().setCreateIfMissing(true) .setCreateMissingColumnFamilies(true); final ColumnFamilyOptions myCfOpts = new ColumnFamilyOptions()) { final List columnFamilyDescriptors = Arrays.asList( new ColumnFamilyDescriptor(RocksDB.DEFAULT_COLUMN_FAMILY), new ColumnFamilyDescriptor("myCf".getBytes(), myCfOpts)); final List columnFamilyHandles = new ArrayList<>(); try (final TransactionDBOptions txnDbOptions = new TransactionDBOptions(); final TransactionDB tdb = TransactionDB.open(dbOptions, txnDbOptions, dbFolder.getRoot().getAbsolutePath(), columnFamilyDescriptors, columnFamilyHandles)) { try { assertThat(tdb).isNotNull(); } finally { for (final ColumnFamilyHandle handle : columnFamilyHandles) { handle.close(); } } } } } @Test public void beginTransaction() throws RocksDBException { try (final Options options = new Options().setCreateIfMissing(true); final TransactionDBOptions txnDbOptions = new TransactionDBOptions(); final TransactionDB tdb = TransactionDB.open(options, txnDbOptions, dbFolder.getRoot().getAbsolutePath()); final WriteOptions writeOptions = new WriteOptions()) { try(final Transaction txn = tdb.beginTransaction(writeOptions)) { assertThat(txn).isNotNull(); } } } @Test public void beginTransaction_transactionOptions() throws RocksDBException { try (final Options options = new Options().setCreateIfMissing(true); final TransactionDBOptions txnDbOptions = new TransactionDBOptions(); final TransactionDB tdb = TransactionDB.open(options, txnDbOptions, dbFolder.getRoot().getAbsolutePath()); final WriteOptions writeOptions = new WriteOptions(); final TransactionOptions txnOptions = new TransactionOptions()) { try(final Transaction txn = tdb.beginTransaction(writeOptions, txnOptions)) { assertThat(txn).isNotNull(); } } } @Test public void beginTransaction_withOld() throws RocksDBException { try (final Options options = new Options().setCreateIfMissing(true); final TransactionDBOptions txnDbOptions = new TransactionDBOptions(); final TransactionDB tdb = TransactionDB.open(options, txnDbOptions, dbFolder.getRoot().getAbsolutePath()); final WriteOptions writeOptions = new WriteOptions()) { try(final Transaction txn = tdb.beginTransaction(writeOptions)) { final Transaction txnReused = tdb.beginTransaction(writeOptions, txn); assertThat(txnReused).isSameAs(txn); } } } @Test public void beginTransaction_withOld_transactionOptions() throws RocksDBException { try (final Options options = new Options().setCreateIfMissing(true); final TransactionDBOptions txnDbOptions = new TransactionDBOptions(); final TransactionDB tdb = TransactionDB.open(options, txnDbOptions, dbFolder.getRoot().getAbsolutePath()); final WriteOptions writeOptions = new WriteOptions(); final TransactionOptions txnOptions = new TransactionOptions()) { try(final Transaction txn = tdb.beginTransaction(writeOptions)) { final Transaction txnReused = tdb.beginTransaction(writeOptions, txnOptions, txn); assertThat(txnReused).isSameAs(txn); } } } @Test public void lockStatusData() throws RocksDBException { try (final Options options = new Options().setCreateIfMissing(true); final TransactionDBOptions txnDbOptions = new TransactionDBOptions(); final TransactionDB tdb = TransactionDB.open(options, txnDbOptions, dbFolder.getRoot().getAbsolutePath()); final WriteOptions writeOptions = new WriteOptions(); final ReadOptions readOptions = new ReadOptions()) { try (final Transaction txn = tdb.beginTransaction(writeOptions)) { final byte key[] = "key".getBytes(UTF_8); final byte value[] = "value".getBytes(UTF_8); txn.put(key, value); assertThat(txn.getForUpdate(readOptions, key, true)).isEqualTo(value); final Map lockStatus = tdb.getLockStatusData(); assertThat(lockStatus.size()).isEqualTo(1); final Set> entrySet = lockStatus.entrySet(); final Map.Entry entry = entrySet.iterator().next(); final long columnFamilyId = entry.getKey(); assertThat(columnFamilyId).isEqualTo(0); final TransactionDB.KeyLockInfo keyLockInfo = entry.getValue(); assertThat(keyLockInfo.getKey()).isEqualTo(new String(key, UTF_8)); assertThat(keyLockInfo.getTransactionIDs().length).isEqualTo(1); assertThat(keyLockInfo.getTransactionIDs()[0]).isEqualTo(txn.getId()); assertThat(keyLockInfo.isExclusive()).isTrue(); } } } @Test public void deadlockInfoBuffer() throws RocksDBException { try (final Options options = new Options().setCreateIfMissing(true); final TransactionDBOptions txnDbOptions = new TransactionDBOptions(); final TransactionDB tdb = TransactionDB.open(options, txnDbOptions, dbFolder.getRoot().getAbsolutePath())) { // TODO(AR) can we cause a deadlock so that we can test the output here? assertThat(tdb.getDeadlockInfoBuffer()).isEmpty(); } } @Test public void setDeadlockInfoBufferSize() throws RocksDBException { try (final Options options = new Options().setCreateIfMissing(true); final TransactionDBOptions txnDbOptions = new TransactionDBOptions(); final TransactionDB tdb = TransactionDB.open(options, txnDbOptions, dbFolder.getRoot().getAbsolutePath())) { tdb.setDeadlockInfoBufferSize(123); } } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/TransactionLogIteratorTest.java000066400000000000000000000111141337235545400272400ustar00rootroot00000000000000package org.rocksdb; import org.junit.ClassRule; import org.junit.Rule; import org.junit.Test; import org.junit.rules.TemporaryFolder; import static org.assertj.core.api.Assertions.assertThat; public class TransactionLogIteratorTest { @ClassRule public static final RocksMemoryResource rocksMemoryResource = new RocksMemoryResource(); @Rule public TemporaryFolder dbFolder = new TemporaryFolder(); @Test public void transactionLogIterator() throws RocksDBException { try (final Options options = new Options() .setCreateIfMissing(true); final RocksDB db = RocksDB.open(options, dbFolder.getRoot().getAbsolutePath()); final TransactionLogIterator transactionLogIterator = db.getUpdatesSince(0)) { //no-op } } @Test public void getBatch() throws RocksDBException { final int numberOfPuts = 5; try (final Options options = new Options() .setCreateIfMissing(true) .setWalTtlSeconds(1000) .setWalSizeLimitMB(10); final RocksDB db = RocksDB.open(options, dbFolder.getRoot().getAbsolutePath())) { for (int i = 0; i < numberOfPuts; i++) { db.put(String.valueOf(i).getBytes(), String.valueOf(i).getBytes()); } db.flush(new FlushOptions().setWaitForFlush(true)); // the latest sequence number is 5 because 5 puts // were written beforehand assertThat(db.getLatestSequenceNumber()). isEqualTo(numberOfPuts); // insert 5 writes into a cf try (final ColumnFamilyHandle cfHandle = db.createColumnFamily( new ColumnFamilyDescriptor("new_cf".getBytes()))) { for (int i = 0; i < numberOfPuts; i++) { db.put(cfHandle, String.valueOf(i).getBytes(), String.valueOf(i).getBytes()); } // the latest sequence number is 10 because // (5 + 5) puts were written beforehand assertThat(db.getLatestSequenceNumber()). isEqualTo(numberOfPuts + numberOfPuts); // Get updates since the beginning try (final TransactionLogIterator transactionLogIterator = db.getUpdatesSince(0)) { assertThat(transactionLogIterator.isValid()).isTrue(); transactionLogIterator.status(); // The first sequence number is 1 final TransactionLogIterator.BatchResult batchResult = transactionLogIterator.getBatch(); assertThat(batchResult.sequenceNumber()).isEqualTo(1); } } } } @Test public void transactionLogIteratorStallAtLastRecord() throws RocksDBException { try (final Options options = new Options() .setCreateIfMissing(true) .setWalTtlSeconds(1000) .setWalSizeLimitMB(10); final RocksDB db = RocksDB.open(options, dbFolder.getRoot().getAbsolutePath())) { db.put("key1".getBytes(), "value1".getBytes()); // Get updates since the beginning try (final TransactionLogIterator transactionLogIterator = db.getUpdatesSince(0)) { transactionLogIterator.status(); assertThat(transactionLogIterator.isValid()).isTrue(); transactionLogIterator.next(); assertThat(transactionLogIterator.isValid()).isFalse(); transactionLogIterator.status(); db.put("key2".getBytes(), "value2".getBytes()); transactionLogIterator.next(); transactionLogIterator.status(); assertThat(transactionLogIterator.isValid()).isTrue(); } } } @Test public void transactionLogIteratorCheckAfterRestart() throws RocksDBException { final int numberOfKeys = 2; try (final Options options = new Options() .setCreateIfMissing(true) .setWalTtlSeconds(1000) .setWalSizeLimitMB(10)) { try (final RocksDB db = RocksDB.open(options, dbFolder.getRoot().getAbsolutePath())) { db.put("key1".getBytes(), "value1".getBytes()); db.put("key2".getBytes(), "value2".getBytes()); db.flush(new FlushOptions().setWaitForFlush(true)); } // reopen try (final RocksDB db = RocksDB.open(options, dbFolder.getRoot().getAbsolutePath())) { assertThat(db.getLatestSequenceNumber()).isEqualTo(numberOfKeys); try (final TransactionLogIterator transactionLogIterator = db.getUpdatesSince(0)) { for (int i = 0; i < numberOfKeys; i++) { transactionLogIterator.status(); assertThat(transactionLogIterator.isValid()).isTrue(); transactionLogIterator.next(); } } } } } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/TransactionOptionsTest.java000066400000000000000000000041541337235545400264460ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import org.junit.Test; import java.util.Random; import static org.assertj.core.api.Assertions.assertThat; public class TransactionOptionsTest { private static final Random rand = PlatformRandomHelper. getPlatformSpecificRandomFactory(); @Test public void snapshot() { try (final TransactionOptions opt = new TransactionOptions()) { final boolean boolValue = rand.nextBoolean(); opt.setSetSnapshot(boolValue); assertThat(opt.isSetSnapshot()).isEqualTo(boolValue); } } @Test public void deadlockDetect() { try (final TransactionOptions opt = new TransactionOptions()) { final boolean boolValue = rand.nextBoolean(); opt.setDeadlockDetect(boolValue); assertThat(opt.isDeadlockDetect()).isEqualTo(boolValue); } } @Test public void lockTimeout() { try (final TransactionOptions opt = new TransactionOptions()) { final long longValue = rand.nextLong(); opt.setLockTimeout(longValue); assertThat(opt.getLockTimeout()).isEqualTo(longValue); } } @Test public void expiration() { try (final TransactionOptions opt = new TransactionOptions()) { final long longValue = rand.nextLong(); opt.setExpiration(longValue); assertThat(opt.getExpiration()).isEqualTo(longValue); } } @Test public void deadlockDetectDepth() { try (final TransactionOptions opt = new TransactionOptions()) { final long longValue = rand.nextLong(); opt.setDeadlockDetectDepth(longValue); assertThat(opt.getDeadlockDetectDepth()).isEqualTo(longValue); } } @Test public void maxWriteBatchSize() { try (final TransactionOptions opt = new TransactionOptions()) { final long longValue = rand.nextLong(); opt.setMaxWriteBatchSize(longValue); assertThat(opt.getMaxWriteBatchSize()).isEqualTo(longValue); } } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/TransactionTest.java000066400000000000000000000247531337235545400251010ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import org.junit.Test; import java.util.ArrayList; import java.util.Arrays; import java.util.List; import static java.nio.charset.StandardCharsets.UTF_8; import static org.assertj.core.api.Assertions.assertThat; import static org.assertj.core.api.Assertions.fail; public class TransactionTest extends AbstractTransactionTest { @Test public void getForUpdate_cf_conflict() throws RocksDBException { final byte k1[] = "key1".getBytes(UTF_8); final byte v1[] = "value1".getBytes(UTF_8); final byte v12[] = "value12".getBytes(UTF_8); try(final DBContainer dbContainer = startDb(); final ReadOptions readOptions = new ReadOptions()) { final ColumnFamilyHandle testCf = dbContainer.getTestColumnFamily(); try(final Transaction txn = dbContainer.beginTransaction()) { txn.put(testCf, k1, v1); assertThat(txn.getForUpdate(readOptions, testCf, k1, true)).isEqualTo(v1); txn.commit(); } try(final Transaction txn2 = dbContainer.beginTransaction()) { try(final Transaction txn3 = dbContainer.beginTransaction()) { assertThat(txn3.getForUpdate(readOptions, testCf, k1, true)).isEqualTo(v1); // NOTE: txn2 updates k1, during txn3 try { txn2.put(testCf, k1, v12); // should cause an exception! } catch(final RocksDBException e) { assertThat(e.getStatus().getCode()).isSameAs(Status.Code.TimedOut); return; } } } fail("Expected an exception for put after getForUpdate from conflicting" + "transactions"); } } @Test public void getForUpdate_conflict() throws RocksDBException { final byte k1[] = "key1".getBytes(UTF_8); final byte v1[] = "value1".getBytes(UTF_8); final byte v12[] = "value12".getBytes(UTF_8); try(final DBContainer dbContainer = startDb(); final ReadOptions readOptions = new ReadOptions()) { try(final Transaction txn = dbContainer.beginTransaction()) { txn.put(k1, v1); assertThat(txn.getForUpdate(readOptions, k1, true)).isEqualTo(v1); txn.commit(); } try(final Transaction txn2 = dbContainer.beginTransaction()) { try(final Transaction txn3 = dbContainer.beginTransaction()) { assertThat(txn3.getForUpdate(readOptions, k1, true)).isEqualTo(v1); // NOTE: txn2 updates k1, during txn3 try { txn2.put(k1, v12); // should cause an exception! } catch(final RocksDBException e) { assertThat(e.getStatus().getCode()).isSameAs(Status.Code.TimedOut); return; } } } fail("Expected an exception for put after getForUpdate from conflicting" + "transactions"); } } @Test public void multiGetForUpdate_cf_conflict() throws RocksDBException { final byte keys[][] = new byte[][] { "key1".getBytes(UTF_8), "key2".getBytes(UTF_8)}; final byte values[][] = new byte[][] { "value1".getBytes(UTF_8), "value2".getBytes(UTF_8)}; final byte[] otherValue = "otherValue".getBytes(UTF_8); try(final DBContainer dbContainer = startDb(); final ReadOptions readOptions = new ReadOptions()) { final ColumnFamilyHandle testCf = dbContainer.getTestColumnFamily(); final List cfList = Arrays.asList(testCf, testCf); try(final Transaction txn = dbContainer.beginTransaction()) { txn.put(testCf, keys[0], values[0]); txn.put(testCf, keys[1], values[1]); assertThat(txn.multiGet(readOptions, cfList, keys)).isEqualTo(values); txn.commit(); } try(final Transaction txn2 = dbContainer.beginTransaction()) { try(final Transaction txn3 = dbContainer.beginTransaction()) { assertThat(txn3.multiGetForUpdate(readOptions, cfList, keys)) .isEqualTo(values); // NOTE: txn2 updates k1, during txn3 try { txn2.put(testCf, keys[0], otherValue); // should cause an exception! } catch(final RocksDBException e) { assertThat(e.getStatus().getCode()).isSameAs(Status.Code.TimedOut); return; } } } fail("Expected an exception for put after getForUpdate from conflicting" + "transactions"); } } @Test public void multiGetForUpdate_conflict() throws RocksDBException { final byte keys[][] = new byte[][] { "key1".getBytes(UTF_8), "key2".getBytes(UTF_8)}; final byte values[][] = new byte[][] { "value1".getBytes(UTF_8), "value2".getBytes(UTF_8)}; final byte[] otherValue = "otherValue".getBytes(UTF_8); try(final DBContainer dbContainer = startDb(); final ReadOptions readOptions = new ReadOptions()) { try(final Transaction txn = dbContainer.beginTransaction()) { txn.put(keys[0], values[0]); txn.put(keys[1], values[1]); assertThat(txn.multiGet(readOptions, keys)).isEqualTo(values); txn.commit(); } try(final Transaction txn2 = dbContainer.beginTransaction()) { try(final Transaction txn3 = dbContainer.beginTransaction()) { assertThat(txn3.multiGetForUpdate(readOptions, keys)) .isEqualTo(values); // NOTE: txn2 updates k1, during txn3 try { txn2.put(keys[0], otherValue); // should cause an exception! } catch(final RocksDBException e) { assertThat(e.getStatus().getCode()).isSameAs(Status.Code.TimedOut); return; } } } fail("Expected an exception for put after getForUpdate from conflicting" + "transactions"); } } @Test public void name() throws RocksDBException { try(final DBContainer dbContainer = startDb(); final Transaction txn = dbContainer.beginTransaction()) { assertThat(txn.getName()).isEmpty(); final String name = "my-transaction-" + rand.nextLong(); txn.setName(name); assertThat(txn.getName()).isEqualTo(name); } } @Test public void ID() throws RocksDBException { try(final DBContainer dbContainer = startDb(); final Transaction txn = dbContainer.beginTransaction()) { assertThat(txn.getID()).isGreaterThan(0); } } @Test public void deadlockDetect() throws RocksDBException { try(final DBContainer dbContainer = startDb(); final Transaction txn = dbContainer.beginTransaction()) { assertThat(txn.isDeadlockDetect()).isFalse(); } } @Test public void waitingTxns() throws RocksDBException { try(final DBContainer dbContainer = startDb(); final Transaction txn = dbContainer.beginTransaction()) { assertThat(txn.getWaitingTxns().getTransactionIds().length).isEqualTo(0); } } @Test public void state() throws RocksDBException { try(final DBContainer dbContainer = startDb()) { try(final Transaction txn = dbContainer.beginTransaction()) { assertThat(txn.getState()) .isSameAs(Transaction.TransactionState.STARTED); txn.commit(); assertThat(txn.getState()) .isSameAs(Transaction.TransactionState.COMMITED); } try(final Transaction txn = dbContainer.beginTransaction()) { assertThat(txn.getState()) .isSameAs(Transaction.TransactionState.STARTED); txn.rollback(); assertThat(txn.getState()) .isSameAs(Transaction.TransactionState.STARTED); } } } @Test public void Id() throws RocksDBException { try(final DBContainer dbContainer = startDb(); final Transaction txn = dbContainer.beginTransaction()) { assertThat(txn.getId()).isNotNull(); } } @Override public TransactionDBContainer startDb() throws RocksDBException { final DBOptions options = new DBOptions() .setCreateIfMissing(true) .setCreateMissingColumnFamilies(true); final TransactionDBOptions txnDbOptions = new TransactionDBOptions(); final ColumnFamilyOptions columnFamilyOptions = new ColumnFamilyOptions(); final List columnFamilyDescriptors = Arrays.asList( new ColumnFamilyDescriptor(RocksDB.DEFAULT_COLUMN_FAMILY), new ColumnFamilyDescriptor(TXN_TEST_COLUMN_FAMILY, columnFamilyOptions)); final List columnFamilyHandles = new ArrayList<>(); final TransactionDB txnDb; try { txnDb = TransactionDB.open(options, txnDbOptions, dbFolder.getRoot().getAbsolutePath(), columnFamilyDescriptors, columnFamilyHandles); } catch(final RocksDBException e) { columnFamilyOptions.close(); txnDbOptions.close(); options.close(); throw e; } final WriteOptions writeOptions = new WriteOptions(); final TransactionOptions txnOptions = new TransactionOptions(); return new TransactionDBContainer(txnOptions, writeOptions, columnFamilyHandles, txnDb, txnDbOptions, columnFamilyOptions, options); } private static class TransactionDBContainer extends DBContainer { private final TransactionOptions txnOptions; private final TransactionDB txnDb; private final TransactionDBOptions txnDbOptions; public TransactionDBContainer( final TransactionOptions txnOptions, final WriteOptions writeOptions, final List columnFamilyHandles, final TransactionDB txnDb, final TransactionDBOptions txnDbOptions, final ColumnFamilyOptions columnFamilyOptions, final DBOptions options) { super(writeOptions, columnFamilyHandles, columnFamilyOptions, options); this.txnOptions = txnOptions; this.txnDb = txnDb; this.txnDbOptions = txnDbOptions; } @Override public Transaction beginTransaction() { return txnDb.beginTransaction(writeOptions, txnOptions); } @Override public Transaction beginTransaction(final WriteOptions writeOptions) { return txnDb.beginTransaction(writeOptions, txnOptions); } @Override public void close() { txnOptions.close(); writeOptions.close(); for(final ColumnFamilyHandle columnFamilyHandle : columnFamilyHandles) { columnFamilyHandle.close(); } txnDb.close(); txnDbOptions.close(); options.close(); } } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/TtlDBTest.java000066400000000000000000000101741337235545400235550ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import org.junit.ClassRule; import org.junit.Rule; import org.junit.Test; import org.junit.rules.TemporaryFolder; import java.util.ArrayList; import java.util.Arrays; import java.util.List; import java.util.concurrent.TimeUnit; import static org.assertj.core.api.Assertions.assertThat; public class TtlDBTest { @ClassRule public static final RocksMemoryResource rocksMemoryResource = new RocksMemoryResource(); @Rule public TemporaryFolder dbFolder = new TemporaryFolder(); @Test public void ttlDBOpen() throws RocksDBException, InterruptedException { try (final Options options = new Options().setCreateIfMissing(true).setMaxCompactionBytes(0); final TtlDB ttlDB = TtlDB.open(options, dbFolder.getRoot().getAbsolutePath())) { ttlDB.put("key".getBytes(), "value".getBytes()); assertThat(ttlDB.get("key".getBytes())). isEqualTo("value".getBytes()); assertThat(ttlDB.get("key".getBytes())).isNotNull(); } } @Test public void ttlDBOpenWithTtl() throws RocksDBException, InterruptedException { try (final Options options = new Options().setCreateIfMissing(true).setMaxCompactionBytes(0); final TtlDB ttlDB = TtlDB.open(options, dbFolder.getRoot().getAbsolutePath(), 1, false);) { ttlDB.put("key".getBytes(), "value".getBytes()); assertThat(ttlDB.get("key".getBytes())). isEqualTo("value".getBytes()); TimeUnit.SECONDS.sleep(2); ttlDB.compactRange(); assertThat(ttlDB.get("key".getBytes())).isNull(); } } @Test public void ttlDbOpenWithColumnFamilies() throws RocksDBException, InterruptedException { final List cfNames = Arrays.asList( new ColumnFamilyDescriptor(RocksDB.DEFAULT_COLUMN_FAMILY), new ColumnFamilyDescriptor("new_cf".getBytes()) ); final List ttlValues = Arrays.asList(0, 1); final List columnFamilyHandleList = new ArrayList<>(); try (final DBOptions dbOptions = new DBOptions() .setCreateMissingColumnFamilies(true) .setCreateIfMissing(true); final TtlDB ttlDB = TtlDB.open(dbOptions, dbFolder.getRoot().getAbsolutePath(), cfNames, columnFamilyHandleList, ttlValues, false)) { try { ttlDB.put("key".getBytes(), "value".getBytes()); assertThat(ttlDB.get("key".getBytes())). isEqualTo("value".getBytes()); ttlDB.put(columnFamilyHandleList.get(1), "key".getBytes(), "value".getBytes()); assertThat(ttlDB.get(columnFamilyHandleList.get(1), "key".getBytes())).isEqualTo("value".getBytes()); TimeUnit.SECONDS.sleep(2); ttlDB.compactRange(); ttlDB.compactRange(columnFamilyHandleList.get(1)); assertThat(ttlDB.get("key".getBytes())).isNotNull(); assertThat(ttlDB.get(columnFamilyHandleList.get(1), "key".getBytes())).isNull(); } finally { for (final ColumnFamilyHandle columnFamilyHandle : columnFamilyHandleList) { columnFamilyHandle.close(); } } } } @Test public void createTtlColumnFamily() throws RocksDBException, InterruptedException { try (final Options options = new Options().setCreateIfMissing(true); final TtlDB ttlDB = TtlDB.open(options, dbFolder.getRoot().getAbsolutePath()); final ColumnFamilyHandle columnFamilyHandle = ttlDB.createColumnFamilyWithTtl( new ColumnFamilyDescriptor("new_cf".getBytes()), 1)) { ttlDB.put(columnFamilyHandle, "key".getBytes(), "value".getBytes()); assertThat(ttlDB.get(columnFamilyHandle, "key".getBytes())). isEqualTo("value".getBytes()); TimeUnit.SECONDS.sleep(2); ttlDB.compactRange(columnFamilyHandle); assertThat(ttlDB.get(columnFamilyHandle, "key".getBytes())).isNull(); } } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/Types.java000066400000000000000000000020061337235545400230430ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; /** * Simple type conversion methods * for use in tests */ public class Types { /** * Convert first 4 bytes of a byte array to an int * * @param data The byte array * * @return An integer */ public static int byteToInt(final byte data[]) { return (data[0] & 0xff) | ((data[1] & 0xff) << 8) | ((data[2] & 0xff) << 16) | ((data[3] & 0xff) << 24); } /** * Convert an int to 4 bytes * * @param v The int * * @return A byte array containing 4 bytes */ public static byte[] intToByte(final int v) { return new byte[] { (byte)((v >>> 0) & 0xff), (byte)((v >>> 8) & 0xff), (byte)((v >>> 16) & 0xff), (byte)((v >>> 24) & 0xff) }; } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/WALRecoveryModeTest.java000066400000000000000000000012221337235545400255450ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import org.junit.Test; import static org.assertj.core.api.Assertions.assertThat; public class WALRecoveryModeTest { @Test public void getWALRecoveryMode() { for (final WALRecoveryMode walRecoveryMode : WALRecoveryMode.values()) { assertThat(WALRecoveryMode.getWALRecoveryMode(walRecoveryMode.getValue())) .isEqualTo(walRecoveryMode); } } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/WriteBatchHandlerTest.java000066400000000000000000000045021337235545400261340ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import java.util.Arrays; import java.util.List; import org.junit.ClassRule; import org.junit.Test; import org.rocksdb.util.CapturingWriteBatchHandler; import org.rocksdb.util.CapturingWriteBatchHandler.Event; import static org.assertj.core.api.Assertions.assertThat; import static org.rocksdb.util.CapturingWriteBatchHandler.Action.*; public class WriteBatchHandlerTest { @ClassRule public static final RocksMemoryResource rocksMemoryResource = new RocksMemoryResource(); @Test public void writeBatchHandler() throws RocksDBException { // setup test data final List testEvents = Arrays.asList( new Event(DELETE, "k0".getBytes(), null), new Event(PUT, "k1".getBytes(), "v1".getBytes()), new Event(PUT, "k2".getBytes(), "v2".getBytes()), new Event(PUT, "k3".getBytes(), "v3".getBytes()), new Event(LOG, null, "log1".getBytes()), new Event(MERGE, "k2".getBytes(), "v22".getBytes()), new Event(DELETE, "k3".getBytes(), null) ); // load test data to the write batch try (final WriteBatch batch = new WriteBatch()) { for (final Event testEvent : testEvents) { switch (testEvent.action) { case PUT: batch.put(testEvent.key, testEvent.value); break; case MERGE: batch.merge(testEvent.key, testEvent.value); break; case DELETE: batch.remove(testEvent.key); break; case LOG: batch.putLogData(testEvent.value); break; } } // attempt to read test data back from the WriteBatch by iterating // with a handler try (final CapturingWriteBatchHandler handler = new CapturingWriteBatchHandler()) { batch.iterate(handler); // compare the results to the test data final List actualEvents = handler.getEvents(); assertThat(testEvents.size()).isSameAs(actualEvents.size()); assertThat(testEvents).isEqualTo(actualEvents); } } } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/WriteBatchTest.java000066400000000000000000000371621337235545400246460ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. package org.rocksdb; import org.junit.ClassRule; import org.junit.Rule; import org.junit.Test; import org.junit.rules.TemporaryFolder; import org.rocksdb.util.CapturingWriteBatchHandler; import org.rocksdb.util.CapturingWriteBatchHandler.Event; import org.rocksdb.util.WriteBatchGetter; import static org.assertj.core.api.Assertions.assertThat; import static org.rocksdb.util.CapturingWriteBatchHandler.Action.*; import static java.nio.charset.StandardCharsets.UTF_8; /** * This class mimics the db/write_batch_test.cc * in the c++ rocksdb library. */ public class WriteBatchTest { @ClassRule public static final RocksMemoryResource rocksMemoryResource = new RocksMemoryResource(); @Rule public TemporaryFolder dbFolder = new TemporaryFolder(); @Test public void emptyWriteBatch() { try (final WriteBatch batch = new WriteBatch()) { assertThat(batch.count()).isEqualTo(0); } } @Test public void multipleBatchOperations() throws RocksDBException { final byte[] foo = "foo".getBytes(UTF_8); final byte[] bar = "bar".getBytes(UTF_8); final byte[] box = "box".getBytes(UTF_8); final byte[] baz = "baz".getBytes(UTF_8); final byte[] boo = "boo".getBytes(UTF_8); final byte[] hoo = "hoo".getBytes(UTF_8); final byte[] hello = "hello".getBytes(UTF_8); try (final WriteBatch batch = new WriteBatch()) { batch.put(foo, bar); batch.delete(box); batch.put(baz, boo); batch.merge(baz, hoo); batch.singleDelete(foo); batch.deleteRange(baz, foo); batch.putLogData(hello); try(final CapturingWriteBatchHandler handler = new CapturingWriteBatchHandler()) { batch.iterate(handler); assertThat(handler.getEvents().size()).isEqualTo(7); assertThat(handler.getEvents().get(0)).isEqualTo(new Event(PUT, foo, bar)); assertThat(handler.getEvents().get(1)).isEqualTo(new Event(DELETE, box, null)); assertThat(handler.getEvents().get(2)).isEqualTo(new Event(PUT, baz, boo)); assertThat(handler.getEvents().get(3)).isEqualTo(new Event(MERGE, baz, hoo)); assertThat(handler.getEvents().get(4)).isEqualTo(new Event(SINGLE_DELETE, foo, null)); assertThat(handler.getEvents().get(5)).isEqualTo(new Event(DELETE_RANGE, baz, foo)); assertThat(handler.getEvents().get(6)).isEqualTo(new Event(LOG, null, hello)); } } } @Test public void testAppendOperation() throws RocksDBException { try (final WriteBatch b1 = new WriteBatch(); final WriteBatch b2 = new WriteBatch()) { WriteBatchTestInternalHelper.setSequence(b1, 200); WriteBatchTestInternalHelper.setSequence(b2, 300); WriteBatchTestInternalHelper.append(b1, b2); assertThat(getContents(b1).length).isEqualTo(0); assertThat(b1.count()).isEqualTo(0); b2.put("a".getBytes(UTF_8), "va".getBytes(UTF_8)); WriteBatchTestInternalHelper.append(b1, b2); assertThat("Put(a, va)@200".equals(new String(getContents(b1), UTF_8))); assertThat(b1.count()).isEqualTo(1); b2.clear(); b2.put("b".getBytes(UTF_8), "vb".getBytes(UTF_8)); WriteBatchTestInternalHelper.append(b1, b2); assertThat(("Put(a, va)@200" + "Put(b, vb)@201") .equals(new String(getContents(b1), UTF_8))); assertThat(b1.count()).isEqualTo(2); b2.delete("foo".getBytes(UTF_8)); WriteBatchTestInternalHelper.append(b1, b2); assertThat(("Put(a, va)@200" + "Put(b, vb)@202" + "Put(b, vb)@201" + "Delete(foo)@203") .equals(new String(getContents(b1), UTF_8))); assertThat(b1.count()).isEqualTo(4); } } @Test public void blobOperation() throws RocksDBException { try (final WriteBatch batch = new WriteBatch()) { batch.put("k1".getBytes(UTF_8), "v1".getBytes(UTF_8)); batch.put("k2".getBytes(UTF_8), "v2".getBytes(UTF_8)); batch.put("k3".getBytes(UTF_8), "v3".getBytes(UTF_8)); batch.putLogData("blob1".getBytes(UTF_8)); batch.delete("k2".getBytes(UTF_8)); batch.putLogData("blob2".getBytes(UTF_8)); batch.merge("foo".getBytes(UTF_8), "bar".getBytes(UTF_8)); assertThat(batch.count()).isEqualTo(5); assertThat(("Merge(foo, bar)@4" + "Put(k1, v1)@0" + "Delete(k2)@3" + "Put(k2, v2)@1" + "Put(k3, v3)@2") .equals(new String(getContents(batch), UTF_8))); } } @Test public void savePoints() throws RocksDBException { try (final WriteBatch batch = new WriteBatch()) { batch.put("k1".getBytes(UTF_8), "v1".getBytes(UTF_8)); batch.put("k2".getBytes(UTF_8), "v2".getBytes(UTF_8)); batch.put("k3".getBytes(UTF_8), "v3".getBytes(UTF_8)); assertThat(getFromWriteBatch(batch, "k1")).isEqualTo("v1"); assertThat(getFromWriteBatch(batch, "k2")).isEqualTo("v2"); assertThat(getFromWriteBatch(batch, "k3")).isEqualTo("v3"); batch.setSavePoint(); batch.delete("k2".getBytes(UTF_8)); batch.put("k3".getBytes(UTF_8), "v3-2".getBytes(UTF_8)); assertThat(getFromWriteBatch(batch, "k2")).isNull(); assertThat(getFromWriteBatch(batch, "k3")).isEqualTo("v3-2"); batch.setSavePoint(); batch.put("k3".getBytes(UTF_8), "v3-3".getBytes(UTF_8)); batch.put("k4".getBytes(UTF_8), "v4".getBytes(UTF_8)); assertThat(getFromWriteBatch(batch, "k3")).isEqualTo("v3-3"); assertThat(getFromWriteBatch(batch, "k4")).isEqualTo("v4"); batch.rollbackToSavePoint(); assertThat(getFromWriteBatch(batch, "k2")).isNull(); assertThat(getFromWriteBatch(batch, "k3")).isEqualTo("v3-2"); assertThat(getFromWriteBatch(batch, "k4")).isNull(); batch.rollbackToSavePoint(); assertThat(getFromWriteBatch(batch, "k1")).isEqualTo("v1"); assertThat(getFromWriteBatch(batch, "k2")).isEqualTo("v2"); assertThat(getFromWriteBatch(batch, "k3")).isEqualTo("v3"); assertThat(getFromWriteBatch(batch, "k4")).isNull(); } } @Test public void deleteRange() throws RocksDBException { try (final RocksDB db = RocksDB.open(dbFolder.getRoot().getAbsolutePath()); final WriteOptions wOpt = new WriteOptions()) { db.put("key1".getBytes(), "value".getBytes()); db.put("key2".getBytes(), "12345678".getBytes()); db.put("key3".getBytes(), "abcdefg".getBytes()); db.put("key4".getBytes(), "xyz".getBytes()); assertThat(db.get("key1".getBytes())).isEqualTo("value".getBytes()); assertThat(db.get("key2".getBytes())).isEqualTo("12345678".getBytes()); assertThat(db.get("key3".getBytes())).isEqualTo("abcdefg".getBytes()); assertThat(db.get("key4".getBytes())).isEqualTo("xyz".getBytes()); WriteBatch batch = new WriteBatch(); batch.deleteRange("key2".getBytes(), "key4".getBytes()); db.write(new WriteOptions(), batch); assertThat(db.get("key1".getBytes())).isEqualTo("value".getBytes()); assertThat(db.get("key2".getBytes())).isNull(); assertThat(db.get("key3".getBytes())).isNull(); assertThat(db.get("key4".getBytes())).isEqualTo("xyz".getBytes()); } } @Test public void restorePoints() throws RocksDBException { try (final WriteBatch batch = new WriteBatch()) { batch.put("k1".getBytes(), "v1".getBytes()); batch.put("k2".getBytes(), "v2".getBytes()); batch.setSavePoint(); batch.put("k1".getBytes(), "123456789".getBytes()); batch.delete("k2".getBytes()); batch.rollbackToSavePoint(); try(final CapturingWriteBatchHandler handler = new CapturingWriteBatchHandler()) { batch.iterate(handler); assertThat(handler.getEvents().size()).isEqualTo(2); assertThat(handler.getEvents().get(0)).isEqualTo(new Event(PUT, "k1".getBytes(), "v1".getBytes())); assertThat(handler.getEvents().get(1)).isEqualTo(new Event(PUT, "k2".getBytes(), "v2".getBytes())); } } } @Test(expected = RocksDBException.class) public void restorePoints_withoutSavePoints() throws RocksDBException { try (final WriteBatch batch = new WriteBatch()) { batch.rollbackToSavePoint(); } } @Test(expected = RocksDBException.class) public void restorePoints_withoutSavePoints_nested() throws RocksDBException { try (final WriteBatch batch = new WriteBatch()) { batch.setSavePoint(); batch.rollbackToSavePoint(); // without previous corresponding setSavePoint batch.rollbackToSavePoint(); } } @Test public void popSavePoint() throws RocksDBException { try (final WriteBatch batch = new WriteBatch()) { batch.put("k1".getBytes(), "v1".getBytes()); batch.put("k2".getBytes(), "v2".getBytes()); batch.setSavePoint(); batch.put("k1".getBytes(), "123456789".getBytes()); batch.delete("k2".getBytes()); batch.setSavePoint(); batch.popSavePoint(); batch.rollbackToSavePoint(); try(final CapturingWriteBatchHandler handler = new CapturingWriteBatchHandler()) { batch.iterate(handler); assertThat(handler.getEvents().size()).isEqualTo(2); assertThat(handler.getEvents().get(0)).isEqualTo(new Event(PUT, "k1".getBytes(), "v1".getBytes())); assertThat(handler.getEvents().get(1)).isEqualTo(new Event(PUT, "k2".getBytes(), "v2".getBytes())); } } } @Test(expected = RocksDBException.class) public void popSavePoint_withoutSavePoints() throws RocksDBException { try (final WriteBatch batch = new WriteBatch()) { batch.popSavePoint(); } } @Test(expected = RocksDBException.class) public void popSavePoint_withoutSavePoints_nested() throws RocksDBException { try (final WriteBatch batch = new WriteBatch()) { batch.setSavePoint(); batch.popSavePoint(); // without previous corresponding setSavePoint batch.popSavePoint(); } } @Test public void maxBytes() throws RocksDBException { try (final WriteBatch batch = new WriteBatch()) { batch.setMaxBytes(19); batch.put("k1".getBytes(), "v1".getBytes()); } } @Test(expected = RocksDBException.class) public void maxBytes_over() throws RocksDBException { try (final WriteBatch batch = new WriteBatch()) { batch.setMaxBytes(1); batch.put("k1".getBytes(), "v1".getBytes()); } } @Test public void data() throws RocksDBException { try (final WriteBatch batch1 = new WriteBatch()) { batch1.delete("k0".getBytes()); batch1.put("k1".getBytes(), "v1".getBytes()); batch1.put("k2".getBytes(), "v2".getBytes()); batch1.put("k3".getBytes(), "v3".getBytes()); batch1.putLogData("log1".getBytes()); batch1.merge("k2".getBytes(), "v22".getBytes()); batch1.delete("k3".getBytes()); final byte[] serialized = batch1.data(); try(final WriteBatch batch2 = new WriteBatch(serialized)) { assertThat(batch2.count()).isEqualTo(batch1.count()); try(final CapturingWriteBatchHandler handler1 = new CapturingWriteBatchHandler()) { batch1.iterate(handler1); try (final CapturingWriteBatchHandler handler2 = new CapturingWriteBatchHandler()) { batch2.iterate(handler2); assertThat(handler1.getEvents().equals(handler2.getEvents())).isTrue(); } } } } } @Test public void dataSize() throws RocksDBException { try (final WriteBatch batch = new WriteBatch()) { batch.put("k1".getBytes(), "v1".getBytes()); assertThat(batch.getDataSize()).isEqualTo(19); } } @Test public void hasPut() throws RocksDBException { try (final WriteBatch batch = new WriteBatch()) { assertThat(batch.hasPut()).isFalse(); batch.put("k1".getBytes(), "v1".getBytes()); assertThat(batch.hasPut()).isTrue(); } } @Test public void hasDelete() throws RocksDBException { try (final WriteBatch batch = new WriteBatch()) { assertThat(batch.hasDelete()).isFalse(); batch.delete("k1".getBytes()); assertThat(batch.hasDelete()).isTrue(); } } @Test public void hasSingleDelete() throws RocksDBException { try (final WriteBatch batch = new WriteBatch()) { assertThat(batch.hasSingleDelete()).isFalse(); batch.singleDelete("k1".getBytes()); assertThat(batch.hasSingleDelete()).isTrue(); } } @Test public void hasDeleteRange() throws RocksDBException { try (final WriteBatch batch = new WriteBatch()) { assertThat(batch.hasDeleteRange()).isFalse(); batch.deleteRange("k1".getBytes(), "k2".getBytes()); assertThat(batch.hasDeleteRange()).isTrue(); } } @Test public void hasBeginPrepareRange() throws RocksDBException { try (final WriteBatch batch = new WriteBatch()) { assertThat(batch.hasBeginPrepare()).isFalse(); } } @Test public void hasEndrepareRange() throws RocksDBException { try (final WriteBatch batch = new WriteBatch()) { assertThat(batch.hasEndPrepare()).isFalse(); } } @Test public void hasCommit() throws RocksDBException { try (final WriteBatch batch = new WriteBatch()) { assertThat(batch.hasCommit()).isFalse(); } } @Test public void hasRollback() throws RocksDBException { try (final WriteBatch batch = new WriteBatch()) { assertThat(batch.hasRollback()).isFalse(); } } @Test public void walTerminationPoint() throws RocksDBException { try (final WriteBatch batch = new WriteBatch()) { WriteBatch.SavePoint walTerminationPoint = batch.getWalTerminationPoint(); assertThat(walTerminationPoint.isCleared()).isTrue(); batch.put("k1".getBytes(UTF_8), "v1".getBytes(UTF_8)); batch.markWalTerminationPoint(); walTerminationPoint = batch.getWalTerminationPoint(); assertThat(walTerminationPoint.getSize()).isEqualTo(19); assertThat(walTerminationPoint.getCount()).isEqualTo(1); assertThat(walTerminationPoint.getContentFlags()).isEqualTo(2); } } @Test public void getWriteBatch() { try (final WriteBatch batch = new WriteBatch()) { assertThat(batch.getWriteBatch()).isEqualTo(batch); } } static byte[] getContents(final WriteBatch wb) { return getContents(wb.nativeHandle_); } static String getFromWriteBatch(final WriteBatch wb, final String key) throws RocksDBException { final WriteBatchGetter getter = new WriteBatchGetter(key.getBytes(UTF_8)); wb.iterate(getter); if(getter.getValue() != null) { return new String(getter.getValue(), UTF_8); } else { return null; } } private static native byte[] getContents(final long writeBatchHandle); } /** * Package-private class which provides java api to access * c++ WriteBatchInternal. */ class WriteBatchTestInternalHelper { static void setSequence(final WriteBatch wb, final long sn) { setSequence(wb.nativeHandle_, sn); } static long sequence(final WriteBatch wb) { return sequence(wb.nativeHandle_); } static void append(final WriteBatch wb1, final WriteBatch wb2) { append(wb1.nativeHandle_, wb2.nativeHandle_); } private static native void setSequence(final long writeBatchHandle, final long sn); private static native long sequence(final long writeBatchHandle); private static native void append(final long writeBatchHandle1, final long writeBatchHandle2); } rocksdb-5.17.2/java/src/test/java/org/rocksdb/WriteBatchThreadedTest.java000066400000000000000000000057511337235545400263060ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import org.junit.After; import org.junit.Before; import org.junit.Rule; import org.junit.Test; import org.junit.rules.TemporaryFolder; import org.junit.runner.RunWith; import org.junit.runners.Parameterized; import org.junit.runners.Parameterized.Parameter; import org.junit.runners.Parameterized.Parameters; import java.nio.ByteBuffer; import java.util.*; import java.util.concurrent.*; @RunWith(Parameterized.class) public class WriteBatchThreadedTest { @Parameters(name = "WriteBatchThreadedTest(threadCount={0})") public static Iterable data() { return Arrays.asList(new Integer[]{1, 10, 50, 100}); } @Parameter public int threadCount; @Rule public TemporaryFolder dbFolder = new TemporaryFolder(); RocksDB db; @Before public void setUp() throws Exception { RocksDB.loadLibrary(); final Options options = new Options() .setCreateIfMissing(true) .setIncreaseParallelism(32); db = RocksDB.open(options, dbFolder.getRoot().getAbsolutePath()); assert (db != null); } @After public void tearDown() throws Exception { if (db != null) { db.close(); } } @Test public void threadedWrites() throws InterruptedException, ExecutionException { final List> callables = new ArrayList<>(); for (int i = 0; i < 100; i++) { final int offset = i * 100; callables.add(new Callable() { @Override public Void call() throws RocksDBException { try (final WriteBatch wb = new WriteBatch(); final WriteOptions w_opt = new WriteOptions()) { for (int i = offset; i < offset + 100; i++) { wb.put(ByteBuffer.allocate(4).putInt(i).array(), "parallel rocks test".getBytes()); } db.write(w_opt, wb); } return null; } }); } //submit the callables final ExecutorService executorService = Executors.newFixedThreadPool(threadCount); try { final ExecutorCompletionService completionService = new ExecutorCompletionService<>(executorService); final Set> futures = new HashSet<>(); for (final Callable callable : callables) { futures.add(completionService.submit(callable)); } while (futures.size() > 0) { final Future future = completionService.take(); futures.remove(future); try { future.get(); } catch (final ExecutionException e) { for (final Future f : futures) { f.cancel(true); } throw e; } } } finally { executorService.shutdown(); executorService.awaitTermination(10, TimeUnit.SECONDS); } } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/WriteBatchWithIndexTest.java000066400000000000000000000437551337235545400264770ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. package org.rocksdb; import org.junit.ClassRule; import org.junit.Rule; import org.junit.Test; import org.junit.rules.TemporaryFolder; import java.nio.ByteBuffer; import java.util.Arrays; import static org.assertj.core.api.Assertions.assertThat; import static java.nio.charset.StandardCharsets.UTF_8; public class WriteBatchWithIndexTest { @ClassRule public static final RocksMemoryResource rocksMemoryResource = new RocksMemoryResource(); @Rule public TemporaryFolder dbFolder = new TemporaryFolder(); @Test public void readYourOwnWrites() throws RocksDBException { try (final Options options = new Options().setCreateIfMissing(true); final RocksDB db = RocksDB.open(options, dbFolder.getRoot().getAbsolutePath())) { final byte[] k1 = "key1".getBytes(); final byte[] v1 = "value1".getBytes(); final byte[] k2 = "key2".getBytes(); final byte[] v2 = "value2".getBytes(); db.put(k1, v1); db.put(k2, v2); try (final WriteBatchWithIndex wbwi = new WriteBatchWithIndex(true); final RocksIterator base = db.newIterator(); final RocksIterator it = wbwi.newIteratorWithBase(base)) { it.seek(k1); assertThat(it.isValid()).isTrue(); assertThat(it.key()).isEqualTo(k1); assertThat(it.value()).isEqualTo(v1); it.seek(k2); assertThat(it.isValid()).isTrue(); assertThat(it.key()).isEqualTo(k2); assertThat(it.value()).isEqualTo(v2); //put data to the write batch and make sure we can read it. final byte[] k3 = "key3".getBytes(); final byte[] v3 = "value3".getBytes(); wbwi.put(k3, v3); it.seek(k3); assertThat(it.isValid()).isTrue(); assertThat(it.key()).isEqualTo(k3); assertThat(it.value()).isEqualTo(v3); //update k2 in the write batch and check the value final byte[] v2Other = "otherValue2".getBytes(); wbwi.put(k2, v2Other); it.seek(k2); assertThat(it.isValid()).isTrue(); assertThat(it.key()).isEqualTo(k2); assertThat(it.value()).isEqualTo(v2Other); //delete k1 and make sure we can read back the write wbwi.delete(k1); it.seek(k1); assertThat(it.key()).isNotEqualTo(k1); //reinsert k1 and make sure we see the new value final byte[] v1Other = "otherValue1".getBytes(); wbwi.put(k1, v1Other); it.seek(k1); assertThat(it.isValid()).isTrue(); assertThat(it.key()).isEqualTo(k1); assertThat(it.value()).isEqualTo(v1Other); //single remove k3 and make sure we can read back the write wbwi.singleDelete(k3); it.seek(k3); assertThat(it.isValid()).isEqualTo(false); //reinsert k3 and make sure we see the new value final byte[] v3Other = "otherValue3".getBytes(); wbwi.put(k3, v3Other); it.seek(k3); assertThat(it.isValid()).isTrue(); assertThat(it.key()).isEqualTo(k3); assertThat(it.value()).isEqualTo(v3Other); } } } @Test public void write_writeBatchWithIndex() throws RocksDBException { try (final Options options = new Options().setCreateIfMissing(true); final RocksDB db = RocksDB.open(options, dbFolder.getRoot().getAbsolutePath())) { final byte[] k1 = "key1".getBytes(); final byte[] v1 = "value1".getBytes(); final byte[] k2 = "key2".getBytes(); final byte[] v2 = "value2".getBytes(); try (final WriteBatchWithIndex wbwi = new WriteBatchWithIndex()) { wbwi.put(k1, v1); wbwi.put(k2, v2); db.write(new WriteOptions(), wbwi); } assertThat(db.get(k1)).isEqualTo(v1); assertThat(db.get(k2)).isEqualTo(v2); } } @Test public void iterator() throws RocksDBException { try (final WriteBatchWithIndex wbwi = new WriteBatchWithIndex(true)) { final String k1 = "key1"; final String v1 = "value1"; final String k2 = "key2"; final String v2 = "value2"; final String k3 = "key3"; final String v3 = "value3"; final String k4 = "key4"; final String k5 = "key5"; final String k6 = "key6"; final String k7 = "key7"; final String v8 = "value8"; final byte[] k1b = k1.getBytes(UTF_8); final byte[] v1b = v1.getBytes(UTF_8); final byte[] k2b = k2.getBytes(UTF_8); final byte[] v2b = v2.getBytes(UTF_8); final byte[] k3b = k3.getBytes(UTF_8); final byte[] v3b = v3.getBytes(UTF_8); final byte[] k4b = k4.getBytes(UTF_8); final byte[] k5b = k5.getBytes(UTF_8); final byte[] k6b = k6.getBytes(UTF_8); final byte[] k7b = k7.getBytes(UTF_8); final byte[] v8b = v8.getBytes(UTF_8); // add put records wbwi.put(k1b, v1b); wbwi.put(k2b, v2b); wbwi.put(k3b, v3b); // add a deletion record wbwi.delete(k4b); // add a single deletion record wbwi.singleDelete(k5b); // add a delete range record wbwi.deleteRange(k6b, k7b); // add a log record wbwi.putLogData(v8b); final WBWIRocksIterator.WriteEntry[] expected = { new WBWIRocksIterator.WriteEntry(WBWIRocksIterator.WriteType.PUT, new DirectSlice(k1), new DirectSlice(v1)), new WBWIRocksIterator.WriteEntry(WBWIRocksIterator.WriteType.PUT, new DirectSlice(k2), new DirectSlice(v2)), new WBWIRocksIterator.WriteEntry(WBWIRocksIterator.WriteType.PUT, new DirectSlice(k3), new DirectSlice(v3)), new WBWIRocksIterator.WriteEntry(WBWIRocksIterator.WriteType.DELETE, new DirectSlice(k4), DirectSlice.NONE), new WBWIRocksIterator.WriteEntry(WBWIRocksIterator.WriteType.SINGLE_DELETE, new DirectSlice(k5), DirectSlice.NONE), new WBWIRocksIterator.WriteEntry(WBWIRocksIterator.WriteType.DELETE_RANGE, new DirectSlice(k6), new DirectSlice(k7)), }; try (final WBWIRocksIterator it = wbwi.newIterator()) { //direct access - seek to key offsets final int[] testOffsets = {2, 0, 3, 4, 1, 5}; for (int i = 0; i < testOffsets.length; i++) { final int testOffset = testOffsets[i]; final byte[] key = toArray(expected[testOffset].getKey().data()); it.seek(key); assertThat(it.isValid()).isTrue(); final WBWIRocksIterator.WriteEntry entry = it.entry(); assertThat(entry).isEqualTo(expected[testOffset]); } //forward iterative access int i = 0; for (it.seekToFirst(); it.isValid(); it.next()) { assertThat(it.entry()).isEqualTo(expected[i++]); } //reverse iterative access i = expected.length - 1; for (it.seekToLast(); it.isValid(); it.prev()) { assertThat(it.entry()).isEqualTo(expected[i--]); } } } } @Test public void zeroByteTests() throws RocksDBException { try (final WriteBatchWithIndex wbwi = new WriteBatchWithIndex(true)) { final byte[] zeroByteValue = new byte[]{0, 0}; //add zero byte value wbwi.put(zeroByteValue, zeroByteValue); final ByteBuffer buffer = ByteBuffer.allocateDirect(zeroByteValue.length); buffer.put(zeroByteValue); final WBWIRocksIterator.WriteEntry expected = new WBWIRocksIterator.WriteEntry(WBWIRocksIterator.WriteType.PUT, new DirectSlice(buffer, zeroByteValue.length), new DirectSlice(buffer, zeroByteValue.length)); try (final WBWIRocksIterator it = wbwi.newIterator()) { it.seekToFirst(); final WBWIRocksIterator.WriteEntry actual = it.entry(); assertThat(actual.equals(expected)).isTrue(); assertThat(it.entry().hashCode() == expected.hashCode()).isTrue(); } } } @Test public void savePoints() throws RocksDBException { try (final Options options = new Options().setCreateIfMissing(true); final RocksDB db = RocksDB.open(options, dbFolder.getRoot().getAbsolutePath())) { try (final WriteBatchWithIndex wbwi = new WriteBatchWithIndex(true); final ReadOptions readOptions = new ReadOptions()) { wbwi.put("k1".getBytes(), "v1".getBytes()); wbwi.put("k2".getBytes(), "v2".getBytes()); wbwi.put("k3".getBytes(), "v3".getBytes()); assertThat(getFromWriteBatchWithIndex(db, readOptions, wbwi, "k1")) .isEqualTo("v1"); assertThat(getFromWriteBatchWithIndex(db, readOptions, wbwi, "k2")) .isEqualTo("v2"); assertThat(getFromWriteBatchWithIndex(db, readOptions, wbwi, "k3")) .isEqualTo("v3"); wbwi.setSavePoint(); wbwi.delete("k2".getBytes()); wbwi.put("k3".getBytes(), "v3-2".getBytes()); assertThat(getFromWriteBatchWithIndex(db, readOptions, wbwi, "k2")) .isNull(); assertThat(getFromWriteBatchWithIndex(db, readOptions, wbwi, "k3")) .isEqualTo("v3-2"); wbwi.setSavePoint(); wbwi.put("k3".getBytes(), "v3-3".getBytes()); wbwi.put("k4".getBytes(), "v4".getBytes()); assertThat(getFromWriteBatchWithIndex(db, readOptions, wbwi, "k3")) .isEqualTo("v3-3"); assertThat(getFromWriteBatchWithIndex(db, readOptions, wbwi, "k4")) .isEqualTo("v4"); wbwi.rollbackToSavePoint(); assertThat(getFromWriteBatchWithIndex(db, readOptions, wbwi, "k2")) .isNull(); assertThat(getFromWriteBatchWithIndex(db, readOptions, wbwi, "k3")) .isEqualTo("v3-2"); assertThat(getFromWriteBatchWithIndex(db, readOptions, wbwi, "k4")) .isNull(); wbwi.rollbackToSavePoint(); assertThat(getFromWriteBatchWithIndex(db, readOptions, wbwi, "k1")) .isEqualTo("v1"); assertThat(getFromWriteBatchWithIndex(db, readOptions, wbwi, "k2")) .isEqualTo("v2"); assertThat(getFromWriteBatchWithIndex(db, readOptions, wbwi, "k3")) .isEqualTo("v3"); assertThat(getFromWriteBatchWithIndex(db, readOptions, wbwi, "k4")) .isNull(); } } } @Test public void restorePoints() throws RocksDBException { try (final WriteBatchWithIndex wbwi = new WriteBatchWithIndex()) { wbwi.put("k1".getBytes(UTF_8), "v1".getBytes(UTF_8)); wbwi.put("k2".getBytes(UTF_8), "v2".getBytes(UTF_8)); wbwi.setSavePoint(); wbwi.put("k1".getBytes(UTF_8), "123456789".getBytes(UTF_8)); wbwi.delete("k2".getBytes(UTF_8)); wbwi.rollbackToSavePoint(); try(final DBOptions options = new DBOptions()) { assertThat(wbwi.getFromBatch(options,"k1".getBytes(UTF_8))).isEqualTo("v1".getBytes()); assertThat(wbwi.getFromBatch(options,"k2".getBytes(UTF_8))).isEqualTo("v2".getBytes()); } } } @Test(expected = RocksDBException.class) public void restorePoints_withoutSavePoints() throws RocksDBException { try (final WriteBatchWithIndex wbwi = new WriteBatchWithIndex()) { wbwi.rollbackToSavePoint(); } } @Test(expected = RocksDBException.class) public void restorePoints_withoutSavePoints_nested() throws RocksDBException { try (final WriteBatchWithIndex wbwi = new WriteBatchWithIndex()) { wbwi.setSavePoint(); wbwi.rollbackToSavePoint(); // without previous corresponding setSavePoint wbwi.rollbackToSavePoint(); } } @Test public void popSavePoint() throws RocksDBException { try (final WriteBatchWithIndex wbwi = new WriteBatchWithIndex()) { wbwi.put("k1".getBytes(), "v1".getBytes()); wbwi.put("k2".getBytes(), "v2".getBytes()); wbwi.setSavePoint(); wbwi.put("k1".getBytes(), "123456789".getBytes()); wbwi.delete("k2".getBytes()); wbwi.setSavePoint(); wbwi.popSavePoint(); wbwi.rollbackToSavePoint(); try(final DBOptions options = new DBOptions()) { assertThat(wbwi.getFromBatch(options,"k1".getBytes(UTF_8))).isEqualTo("v1".getBytes()); assertThat(wbwi.getFromBatch(options,"k2".getBytes(UTF_8))).isEqualTo("v2".getBytes()); } } } @Test(expected = RocksDBException.class) public void popSavePoint_withoutSavePoints() throws RocksDBException { try (final WriteBatchWithIndex wbwi = new WriteBatchWithIndex()) { wbwi.popSavePoint(); } } @Test(expected = RocksDBException.class) public void popSavePoint_withoutSavePoints_nested() throws RocksDBException { try (final WriteBatchWithIndex wbwi = new WriteBatchWithIndex()) { wbwi.setSavePoint(); wbwi.popSavePoint(); // without previous corresponding setSavePoint wbwi.popSavePoint(); } } @Test public void maxBytes() throws RocksDBException { try (final WriteBatchWithIndex wbwi = new WriteBatchWithIndex()) { wbwi.setMaxBytes(19); wbwi.put("k1".getBytes(), "v1".getBytes()); } } @Test(expected = RocksDBException.class) public void maxBytes_over() throws RocksDBException { try (final WriteBatchWithIndex wbwi = new WriteBatchWithIndex()) { wbwi.setMaxBytes(1); wbwi.put("k1".getBytes(), "v1".getBytes()); } } @Test public void getWriteBatch() { try (final WriteBatchWithIndex wbwi = new WriteBatchWithIndex()) { final WriteBatch wb = wbwi.getWriteBatch(); assertThat(wb).isNotNull(); assertThat(wb.isOwningHandle()).isFalse(); } } private static String getFromWriteBatchWithIndex(final RocksDB db, final ReadOptions readOptions, final WriteBatchWithIndex wbwi, final String skey) { final byte[] key = skey.getBytes(); try(final RocksIterator baseIterator = db.newIterator(readOptions); final RocksIterator iterator = wbwi.newIteratorWithBase(baseIterator)) { iterator.seek(key); // Arrays.equals(key, iterator.key()) ensures an exact match in Rocks, // instead of a nearest match return iterator.isValid() && Arrays.equals(key, iterator.key()) ? new String(iterator.value()) : null; } } @Test public void getFromBatch() throws RocksDBException { final byte[] k1 = "k1".getBytes(); final byte[] k2 = "k2".getBytes(); final byte[] k3 = "k3".getBytes(); final byte[] k4 = "k4".getBytes(); final byte[] v1 = "v1".getBytes(); final byte[] v2 = "v2".getBytes(); final byte[] v3 = "v3".getBytes(); try (final WriteBatchWithIndex wbwi = new WriteBatchWithIndex(true); final DBOptions dbOptions = new DBOptions()) { wbwi.put(k1, v1); wbwi.put(k2, v2); wbwi.put(k3, v3); assertThat(wbwi.getFromBatch(dbOptions, k1)).isEqualTo(v1); assertThat(wbwi.getFromBatch(dbOptions, k2)).isEqualTo(v2); assertThat(wbwi.getFromBatch(dbOptions, k3)).isEqualTo(v3); assertThat(wbwi.getFromBatch(dbOptions, k4)).isNull(); wbwi.delete(k2); assertThat(wbwi.getFromBatch(dbOptions, k2)).isNull(); } } @Test public void getFromBatchAndDB() throws RocksDBException { final byte[] k1 = "k1".getBytes(); final byte[] k2 = "k2".getBytes(); final byte[] k3 = "k3".getBytes(); final byte[] k4 = "k4".getBytes(); final byte[] v1 = "v1".getBytes(); final byte[] v2 = "v2".getBytes(); final byte[] v3 = "v3".getBytes(); final byte[] v4 = "v4".getBytes(); try (final Options options = new Options().setCreateIfMissing(true); final RocksDB db = RocksDB.open(options, dbFolder.getRoot().getAbsolutePath())) { db.put(k1, v1); db.put(k2, v2); db.put(k4, v4); try (final WriteBatchWithIndex wbwi = new WriteBatchWithIndex(true); final DBOptions dbOptions = new DBOptions(); final ReadOptions readOptions = new ReadOptions()) { assertThat(wbwi.getFromBatch(dbOptions, k1)).isNull(); assertThat(wbwi.getFromBatch(dbOptions, k2)).isNull(); assertThat(wbwi.getFromBatch(dbOptions, k4)).isNull(); wbwi.put(k3, v3); assertThat(wbwi.getFromBatch(dbOptions, k3)).isEqualTo(v3); assertThat(wbwi.getFromBatchAndDB(db, readOptions, k1)).isEqualTo(v1); assertThat(wbwi.getFromBatchAndDB(db, readOptions, k2)).isEqualTo(v2); assertThat(wbwi.getFromBatchAndDB(db, readOptions, k3)).isEqualTo(v3); assertThat(wbwi.getFromBatchAndDB(db, readOptions, k4)).isEqualTo(v4); wbwi.delete(k4); assertThat(wbwi.getFromBatchAndDB(db, readOptions, k4)).isNull(); } } } private byte[] toArray(final ByteBuffer buf) { final byte[] ary = new byte[buf.remaining()]; buf.get(ary); return ary; } @Test public void deleteRange() throws RocksDBException { try (final RocksDB db = RocksDB.open(dbFolder.getRoot().getAbsolutePath()); final WriteOptions wOpt = new WriteOptions()) { db.put("key1".getBytes(), "value".getBytes()); db.put("key2".getBytes(), "12345678".getBytes()); db.put("key3".getBytes(), "abcdefg".getBytes()); db.put("key4".getBytes(), "xyz".getBytes()); assertThat(db.get("key1".getBytes())).isEqualTo("value".getBytes()); assertThat(db.get("key2".getBytes())).isEqualTo("12345678".getBytes()); assertThat(db.get("key3".getBytes())).isEqualTo("abcdefg".getBytes()); assertThat(db.get("key4".getBytes())).isEqualTo("xyz".getBytes()); WriteBatch batch = new WriteBatch(); batch.deleteRange("key2".getBytes(), "key4".getBytes()); db.write(new WriteOptions(), batch); assertThat(db.get("key1".getBytes())).isEqualTo("value".getBytes()); assertThat(db.get("key2".getBytes())).isNull(); assertThat(db.get("key3".getBytes())).isNull(); assertThat(db.get("key4".getBytes())).isEqualTo("xyz".getBytes()); } } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/WriteOptionsTest.java000066400000000000000000000041511337235545400252500ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb; import org.junit.ClassRule; import org.junit.Test; import java.util.Random; import static org.assertj.core.api.Assertions.assertThat; public class WriteOptionsTest { @ClassRule public static final RocksMemoryResource rocksMemoryResource = new RocksMemoryResource(); public static final Random rand = PlatformRandomHelper. getPlatformSpecificRandomFactory(); @Test public void writeOptions() { try (final WriteOptions writeOptions = new WriteOptions()) { writeOptions.setSync(true); assertThat(writeOptions.sync()).isTrue(); writeOptions.setSync(false); assertThat(writeOptions.sync()).isFalse(); writeOptions.setDisableWAL(true); assertThat(writeOptions.disableWAL()).isTrue(); writeOptions.setDisableWAL(false); assertThat(writeOptions.disableWAL()).isFalse(); writeOptions.setIgnoreMissingColumnFamilies(true); assertThat(writeOptions.ignoreMissingColumnFamilies()).isTrue(); writeOptions.setIgnoreMissingColumnFamilies(false); assertThat(writeOptions.ignoreMissingColumnFamilies()).isFalse(); writeOptions.setNoSlowdown(true); assertThat(writeOptions.noSlowdown()).isTrue(); writeOptions.setNoSlowdown(false); assertThat(writeOptions.noSlowdown()).isFalse(); } } @Test public void copyConstructor() { WriteOptions origOpts = new WriteOptions(); origOpts.setDisableWAL(rand.nextBoolean()); origOpts.setIgnoreMissingColumnFamilies(rand.nextBoolean()); origOpts.setSync(rand.nextBoolean()); WriteOptions copyOpts = new WriteOptions(origOpts); assertThat(origOpts.disableWAL()).isEqualTo(copyOpts.disableWAL()); assertThat(origOpts.ignoreMissingColumnFamilies()).isEqualTo( copyOpts.ignoreMissingColumnFamilies()); assertThat(origOpts.sync()).isEqualTo(copyOpts.sync()); } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/test/000077500000000000000000000000001337235545400220555ustar00rootroot00000000000000rocksdb-5.17.2/java/src/test/java/org/rocksdb/test/RocksJunitRunner.java000066400000000000000000000117731337235545400262160ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb.test; import org.junit.internal.JUnitSystem; import org.junit.internal.RealSystem; import org.junit.internal.TextListener; import org.junit.runner.Description; import org.junit.runner.JUnitCore; import org.junit.runner.Result; import org.junit.runner.notification.Failure; import org.rocksdb.RocksDB; import java.io.PrintStream; import java.text.DecimalFormat; import java.text.NumberFormat; import java.util.ArrayList; import java.util.List; import static org.rocksdb.test.RocksJunitRunner.RocksJunitListener.Status.*; /** * Custom Junit Runner to print also Test classes * and executed methods to command prompt. */ public class RocksJunitRunner { /** * Listener which overrides default functionality * to print class and method to system out. */ static class RocksJunitListener extends TextListener { private final static NumberFormat secsFormat = new DecimalFormat("###,###.###"); private final PrintStream writer; private String currentClassName = null; private String currentMethodName = null; private Status currentStatus = null; private long currentTestsStartTime; private int currentTestsCount = 0; private int currentTestsIgnoredCount = 0; private int currentTestsFailureCount = 0; private int currentTestsErrorCount = 0; enum Status { IGNORED, FAILURE, ERROR, OK } /** * RocksJunitListener constructor * * @param system JUnitSystem */ public RocksJunitListener(final JUnitSystem system) { this(system.out()); } public RocksJunitListener(final PrintStream writer) { super(writer); this.writer = writer; } @Override public void testRunStarted(final Description description) { writer.format("Starting RocksJava Tests...%n"); } @Override public void testStarted(final Description description) { if(currentClassName == null || !currentClassName.equals(description.getClassName())) { if(currentClassName != null) { printTestsSummary(); } else { currentTestsStartTime = System.currentTimeMillis(); } writer.format("%nRunning: %s%n", description.getClassName()); currentClassName = description.getClassName(); } currentMethodName = description.getMethodName(); currentStatus = OK; currentTestsCount++; } private void printTestsSummary() { // print summary of last test set writer.format("Tests run: %d, Failures: %d, Errors: %d, Ignored: %d, Time elapsed: %s sec%n", currentTestsCount, currentTestsFailureCount, currentTestsErrorCount, currentTestsIgnoredCount, formatSecs(System.currentTimeMillis() - currentTestsStartTime)); // reset counters currentTestsCount = 0; currentTestsFailureCount = 0; currentTestsErrorCount = 0; currentTestsIgnoredCount = 0; currentTestsStartTime = System.currentTimeMillis(); } private static String formatSecs(final double milliseconds) { final double seconds = milliseconds / 1000; return secsFormat.format(seconds); } @Override public void testFailure(final Failure failure) { if (failure.getException() != null && failure.getException() instanceof AssertionError) { currentStatus = FAILURE; currentTestsFailureCount++; } else { currentStatus = ERROR; currentTestsErrorCount++; } } @Override public void testIgnored(final Description description) { currentStatus = IGNORED; currentTestsIgnoredCount++; } @Override public void testFinished(final Description description) { if(currentStatus == OK) { writer.format("\t%s OK%n",currentMethodName); } else { writer.format(" [%s] %s%n", currentStatus.name(), currentMethodName); } } @Override public void testRunFinished(final Result result) { printTestsSummary(); super.testRunFinished(result); } } /** * Main method to execute tests * * @param args Test classes as String names */ public static void main(final String[] args){ final JUnitCore runner = new JUnitCore(); final JUnitSystem system = new RealSystem(); runner.addListener(new RocksJunitListener(system)); try { final List> classes = new ArrayList<>(); for (final String arg : args) { classes.add(Class.forName(arg)); } final Class[] clazzes = classes.toArray(new Class[classes.size()]); final Result result = runner.run(clazzes); if(!result.wasSuccessful()) { System.exit(-1); } } catch (final ClassNotFoundException e) { e.printStackTrace(); System.exit(-2); } } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/util/000077500000000000000000000000001337235545400220535ustar00rootroot00000000000000rocksdb-5.17.2/java/src/test/java/org/rocksdb/util/BytewiseComparatorTest.java000066400000000000000000000373061337235545400274120ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb.util; import org.junit.Test; import org.rocksdb.*; import org.rocksdb.Comparator; import java.io.IOException; import java.nio.charset.StandardCharsets; import java.nio.file.FileVisitResult; import java.nio.file.Files; import java.nio.file.Path; import java.nio.file.SimpleFileVisitor; import java.nio.file.attribute.BasicFileAttributes; import java.util.*; import static org.junit.Assert.*; /** * This is a direct port of various C++ * tests from db/comparator_db_test.cc * and some code to adapt it to RocksJava */ public class BytewiseComparatorTest { private List source_strings = Arrays.asList("b", "d", "f", "h", "j", "l"); private List interleaving_strings = Arrays.asList("a", "b", "c", "d", "e", "f", "g", "h", "i", "j", "k", "l", "m"); /** * Open the database using the C++ BytewiseComparatorImpl * and test the results against our Java BytewiseComparator */ @Test public void java_vs_cpp_bytewiseComparator() throws IOException, RocksDBException { for(int rand_seed = 301; rand_seed < 306; rand_seed++) { final Path dbDir = Files.createTempDirectory("comparator_db_test"); try(final RocksDB db = openDatabase(dbDir, BuiltinComparator.BYTEWISE_COMPARATOR)) { final Random rnd = new Random(rand_seed); try(final ComparatorOptions copt2 = new ComparatorOptions(); final Comparator comparator2 = new BytewiseComparator(copt2)) { final java.util.Comparator jComparator = toJavaComparator(comparator2); doRandomIterationTest( db, jComparator, rnd, 8, 100, 3 ); } } finally { removeData(dbDir); } } } /** * Open the database using the Java BytewiseComparator * and test the results against another Java BytewiseComparator */ @Test public void java_vs_java_bytewiseComparator() throws IOException, RocksDBException { for(int rand_seed = 301; rand_seed < 306; rand_seed++) { final Path dbDir = Files.createTempDirectory("comparator_db_test"); try(final ComparatorOptions copt = new ComparatorOptions(); final Comparator comparator = new BytewiseComparator(copt); final RocksDB db = openDatabase(dbDir, comparator)) { final Random rnd = new Random(rand_seed); try(final ComparatorOptions copt2 = new ComparatorOptions(); final Comparator comparator2 = new BytewiseComparator(copt2)) { final java.util.Comparator jComparator = toJavaComparator(comparator2); doRandomIterationTest( db, jComparator, rnd, 8, 100, 3 ); } } finally { removeData(dbDir); } } } /** * Open the database using the C++ BytewiseComparatorImpl * and test the results against our Java DirectBytewiseComparator */ @Test public void java_vs_cpp_directBytewiseComparator() throws IOException, RocksDBException { for(int rand_seed = 301; rand_seed < 306; rand_seed++) { final Path dbDir = Files.createTempDirectory("comparator_db_test"); try(final RocksDB db = openDatabase(dbDir, BuiltinComparator.BYTEWISE_COMPARATOR)) { final Random rnd = new Random(rand_seed); try(final ComparatorOptions copt2 = new ComparatorOptions(); final DirectComparator comparator2 = new DirectBytewiseComparator(copt2)) { final java.util.Comparator jComparator = toJavaComparator(comparator2); doRandomIterationTest( db, jComparator, rnd, 8, 100, 3 ); } } finally { removeData(dbDir); } } } /** * Open the database using the Java DirectBytewiseComparator * and test the results against another Java DirectBytewiseComparator */ @Test public void java_vs_java_directBytewiseComparator() throws IOException, RocksDBException { for(int rand_seed = 301; rand_seed < 306; rand_seed++) { final Path dbDir = Files.createTempDirectory("comparator_db_test"); try (final ComparatorOptions copt = new ComparatorOptions(); final DirectComparator comparator = new DirectBytewiseComparator(copt); final RocksDB db = openDatabase(dbDir, comparator)) { final Random rnd = new Random(rand_seed); try(final ComparatorOptions copt2 = new ComparatorOptions(); final DirectComparator comparator2 = new DirectBytewiseComparator(copt2)) { final java.util.Comparator jComparator = toJavaComparator(comparator2); doRandomIterationTest( db, jComparator, rnd, 8, 100, 3 ); } } finally { removeData(dbDir); } } } /** * Open the database using the C++ ReverseBytewiseComparatorImpl * and test the results against our Java ReverseBytewiseComparator */ @Test public void java_vs_cpp_reverseBytewiseComparator() throws IOException, RocksDBException { for(int rand_seed = 301; rand_seed < 306; rand_seed++) { final Path dbDir = Files.createTempDirectory("comparator_db_test"); try(final RocksDB db = openDatabase(dbDir, BuiltinComparator.REVERSE_BYTEWISE_COMPARATOR)) { final Random rnd = new Random(rand_seed); try(final ComparatorOptions copt2 = new ComparatorOptions(); final Comparator comparator2 = new ReverseBytewiseComparator(copt2)) { final java.util.Comparator jComparator = toJavaComparator(comparator2); doRandomIterationTest( db, jComparator, rnd, 8, 100, 3 ); } } finally { removeData(dbDir); } } } /** * Open the database using the Java ReverseBytewiseComparator * and test the results against another Java ReverseBytewiseComparator */ @Test public void java_vs_java_reverseBytewiseComparator() throws IOException, RocksDBException { for(int rand_seed = 301; rand_seed < 306; rand_seed++) { final Path dbDir = Files.createTempDirectory("comparator_db_test"); try (final ComparatorOptions copt = new ComparatorOptions(); final Comparator comparator = new ReverseBytewiseComparator(copt); final RocksDB db = openDatabase(dbDir, comparator)) { final Random rnd = new Random(rand_seed); try(final ComparatorOptions copt2 = new ComparatorOptions(); final Comparator comparator2 = new ReverseBytewiseComparator(copt2)) { final java.util.Comparator jComparator = toJavaComparator(comparator2); doRandomIterationTest( db, jComparator, rnd, 8, 100, 3 ); } } finally { removeData(dbDir); } } } private void doRandomIterationTest( final RocksDB db, final java.util.Comparator javaComparator, final Random rnd, final int num_writes, final int num_iter_ops, final int num_trigger_flush) throws RocksDBException { final TreeMap map = new TreeMap<>(javaComparator); for (int i = 0; i < num_writes; i++) { if (num_trigger_flush > 0 && i != 0 && i % num_trigger_flush == 0) { db.flush(new FlushOptions()); } final int type = rnd.nextInt(2); final int index = rnd.nextInt(source_strings.size()); final String key = source_strings.get(index); switch (type) { case 0: // put map.put(key, key); db.put(new WriteOptions(), bytes(key), bytes(key)); break; case 1: // delete if (map.containsKey(key)) { map.remove(key); } db.remove(new WriteOptions(), bytes(key)); break; default: fail("Should not be able to generate random outside range 1..2"); } } try(final RocksIterator iter = db.newIterator(new ReadOptions())) { final KVIter result_iter = new KVIter(map); boolean is_valid = false; for (int i = 0; i < num_iter_ops; i++) { // Random walk and make sure iter and result_iter returns the // same key and value final int type = rnd.nextInt(7); iter.status(); switch (type) { case 0: // Seek to First iter.seekToFirst(); result_iter.seekToFirst(); break; case 1: // Seek to last iter.seekToLast(); result_iter.seekToLast(); break; case 2: { // Seek to random (existing or non-existing) key final int key_idx = rnd.nextInt(interleaving_strings.size()); final String key = interleaving_strings.get(key_idx); iter.seek(bytes(key)); result_iter.seek(bytes(key)); break; } case 3: { // SeekForPrev to random (existing or non-existing) key final int key_idx = rnd.nextInt(interleaving_strings.size()); final String key = interleaving_strings.get(key_idx); iter.seekForPrev(bytes(key)); result_iter.seekForPrev(bytes(key)); break; } case 4: // Next if (is_valid) { iter.next(); result_iter.next(); } else { continue; } break; case 5: // Prev if (is_valid) { iter.prev(); result_iter.prev(); } else { continue; } break; default: { assert (type == 6); final int key_idx = rnd.nextInt(source_strings.size()); final String key = source_strings.get(key_idx); final byte[] result = db.get(new ReadOptions(), bytes(key)); if (!map.containsKey(key)) { assertNull(result); } else { assertArrayEquals(bytes(map.get(key)), result); } break; } } assertEquals(result_iter.isValid(), iter.isValid()); is_valid = iter.isValid(); if (is_valid) { assertArrayEquals(bytes(result_iter.key()), iter.key()); //note that calling value on a non-valid iterator from the Java API //results in a SIGSEGV assertArrayEquals(bytes(result_iter.value()), iter.value()); } } } } /** * Open the database using a C++ Comparator */ private RocksDB openDatabase( final Path dbDir, final BuiltinComparator cppComparator) throws IOException, RocksDBException { final Options options = new Options() .setCreateIfMissing(true) .setComparator(cppComparator); return RocksDB.open(options, dbDir.toAbsolutePath().toString()); } /** * Open the database using a Java Comparator */ private RocksDB openDatabase( final Path dbDir, final AbstractComparator> javaComparator) throws IOException, RocksDBException { final Options options = new Options() .setCreateIfMissing(true) .setComparator(javaComparator); return RocksDB.open(options, dbDir.toAbsolutePath().toString()); } private void closeDatabase(final RocksDB db) { db.close(); } private void removeData(final Path dbDir) throws IOException { Files.walkFileTree(dbDir, new SimpleFileVisitor() { @Override public FileVisitResult visitFile( final Path file, final BasicFileAttributes attrs) throws IOException { Files.delete(file); return FileVisitResult.CONTINUE; } @Override public FileVisitResult postVisitDirectory( final Path dir, final IOException exc) throws IOException { Files.delete(dir); return FileVisitResult.CONTINUE; } }); } private byte[] bytes(final String s) { return s.getBytes(StandardCharsets.UTF_8); } private java.util.Comparator toJavaComparator( final Comparator rocksComparator) { return new java.util.Comparator() { @Override public int compare(final String s1, final String s2) { return rocksComparator.compare(new Slice(s1), new Slice(s2)); } }; } private java.util.Comparator toJavaComparator( final DirectComparator rocksComparator) { return new java.util.Comparator() { @Override public int compare(final String s1, final String s2) { return rocksComparator.compare(new DirectSlice(s1), new DirectSlice(s2)); } }; } private class KVIter implements RocksIteratorInterface { private final List> entries; private final java.util.Comparator comparator; private int offset = -1; private int lastPrefixMatchIdx = -1; private int lastPrefixMatch = 0; public KVIter(final TreeMap map) { this.entries = new ArrayList<>(); final Iterator> iterator = map.entrySet().iterator(); while(iterator.hasNext()) { entries.add(iterator.next()); } this.comparator = map.comparator(); } @Override public boolean isValid() { return offset > -1 && offset < entries.size(); } @Override public void seekToFirst() { offset = 0; } @Override public void seekToLast() { offset = entries.size() - 1; } @Override public void seek(final byte[] target) { for(offset = 0; offset < entries.size(); offset++) { if(comparator.compare(entries.get(offset).getKey(), (K)new String(target, StandardCharsets.UTF_8)) >= 0) { return; } } } @Override public void seekForPrev(final byte[] target) { for(offset = entries.size()-1; offset >= 0; offset--) { if(comparator.compare(entries.get(offset).getKey(), (K)new String(target, StandardCharsets.UTF_8)) <= 0) { return; } } } /** * Is `a` a prefix of `b` * * @return The length of the matching prefix, or 0 if it is not a prefix */ private int isPrefix(final byte[] a, final byte[] b) { if(b.length >= a.length) { for(int i = 0; i < a.length; i++) { if(a[i] != b[i]) { return i; } } return a.length; } else { return 0; } } @Override public void next() { if(offset < entries.size()) { offset++; } } @Override public void prev() { if(offset >= 0) { offset--; } } @Override public void status() throws RocksDBException { if(offset < 0 || offset >= entries.size()) { throw new RocksDBException("Index out of bounds. Size is: " + entries.size() + ", offset is: " + offset); } } public K key() { if(!isValid()) { if(entries.isEmpty()) { return (K)""; } else if(offset == -1){ return entries.get(0).getKey(); } else if(offset == entries.size()) { return entries.get(offset - 1).getKey(); } else { return (K)""; } } else { return entries.get(offset).getKey(); } } public V value() { if(!isValid()) { return (V)""; } else { return entries.get(offset).getValue(); } } } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/util/CapturingWriteBatchHandler.java000066400000000000000000000113131337235545400301240ustar00rootroot00000000000000package org.rocksdb.util; import org.rocksdb.RocksDBException; import org.rocksdb.WriteBatch; import java.util.ArrayList; import java.util.Arrays; import java.util.List; import java.util.Objects; /** * A simple WriteBatch Handler which adds a record * of each event that it receives to a list */ public class CapturingWriteBatchHandler extends WriteBatch.Handler { private final List events = new ArrayList<>(); /** * Returns a copy of the current events list * * @return a list of the events which have happened upto now */ public List getEvents() { return new ArrayList<>(events); } @Override public void put(final int columnFamilyId, final byte[] key, final byte[] value) { events.add(new Event(Action.PUT, columnFamilyId, key, value)); } @Override public void put(final byte[] key, final byte[] value) { events.add(new Event(Action.PUT, key, value)); } @Override public void merge(final int columnFamilyId, final byte[] key, final byte[] value) { events.add(new Event(Action.MERGE, columnFamilyId, key, value)); } @Override public void merge(final byte[] key, final byte[] value) { events.add(new Event(Action.MERGE, key, value)); } @Override public void delete(final int columnFamilyId, final byte[] key) { events.add(new Event(Action.DELETE, columnFamilyId, key, (byte[])null)); } @Override public void delete(final byte[] key) { events.add(new Event(Action.DELETE, key, (byte[])null)); } @Override public void singleDelete(final int columnFamilyId, final byte[] key) { events.add(new Event(Action.SINGLE_DELETE, columnFamilyId, key, (byte[])null)); } @Override public void singleDelete(final byte[] key) { events.add(new Event(Action.SINGLE_DELETE, key, (byte[])null)); } @Override public void deleteRange(final int columnFamilyId, final byte[] beginKey, final byte[] endKey) { events.add(new Event(Action.DELETE_RANGE, columnFamilyId, beginKey, endKey)); } @Override public void deleteRange(final byte[] beginKey, final byte[] endKey) { events.add(new Event(Action.DELETE_RANGE, beginKey, endKey)); } @Override public void logData(final byte[] blob) { events.add(new Event(Action.LOG, (byte[])null, blob)); } @Override public void putBlobIndex(final int columnFamilyId, final byte[] key, final byte[] value) { events.add(new Event(Action.PUT_BLOB_INDEX, key, value)); } @Override public void markBeginPrepare() throws RocksDBException { events.add(new Event(Action.MARK_BEGIN_PREPARE, (byte[])null, (byte[])null)); } @Override public void markEndPrepare(final byte[] xid) throws RocksDBException { events.add(new Event(Action.MARK_END_PREPARE, (byte[])null, (byte[])null)); } @Override public void markNoop(final boolean emptyBatch) throws RocksDBException { events.add(new Event(Action.MARK_NOOP, (byte[])null, (byte[])null)); } @Override public void markRollback(final byte[] xid) throws RocksDBException { events.add(new Event(Action.MARK_ROLLBACK, (byte[])null, (byte[])null)); } @Override public void markCommit(final byte[] xid) throws RocksDBException { events.add(new Event(Action.MARK_COMMIT, (byte[])null, (byte[])null)); } public static class Event { public final Action action; public final int columnFamilyId; public final byte[] key; public final byte[] value; public Event(final Action action, final byte[] key, final byte[] value) { this(action, 0, key, value); } public Event(final Action action, final int columnFamilyId, final byte[] key, final byte[] value) { this.action = action; this.columnFamilyId = columnFamilyId; this.key = key; this.value = value; } @Override public boolean equals(final Object o) { if (this == o) { return true; } if (o == null || getClass() != o.getClass()) { return false; } final Event event = (Event) o; return columnFamilyId == event.columnFamilyId && action == event.action && ((key == null && event.key == null) || Arrays.equals(key, event.key)) && ((value == null && event.value == null) || Arrays.equals(value, event.value)); } @Override public int hashCode() { return Objects.hash(action, columnFamilyId, key, value); } } /** * Enumeration of Write Batch * event actions */ public enum Action { PUT, MERGE, DELETE, SINGLE_DELETE, DELETE_RANGE, LOG, PUT_BLOB_INDEX, MARK_BEGIN_PREPARE, MARK_END_PREPARE, MARK_NOOP, MARK_COMMIT, MARK_ROLLBACK } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/util/EnvironmentTest.java000066400000000000000000000140051337235545400260620ustar00rootroot00000000000000// Copyright (c) 2014, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb.util; import org.junit.AfterClass; import org.junit.BeforeClass; import org.junit.Test; import java.lang.reflect.Field; import java.lang.reflect.Modifier; import static org.assertj.core.api.Assertions.assertThat; public class EnvironmentTest { private final static String ARCH_FIELD_NAME = "ARCH"; private final static String OS_FIELD_NAME = "OS"; private static String INITIAL_OS; private static String INITIAL_ARCH; @BeforeClass public static void saveState() { INITIAL_ARCH = getEnvironmentClassField(ARCH_FIELD_NAME); INITIAL_OS = getEnvironmentClassField(OS_FIELD_NAME); } @Test public void mac32() { setEnvironmentClassFields("mac", "32"); assertThat(Environment.isWindows()).isFalse(); assertThat(Environment.getJniLibraryExtension()). isEqualTo(".jnilib"); assertThat(Environment.getJniLibraryFileName("rocksdb")). isEqualTo("librocksdbjni-osx.jnilib"); assertThat(Environment.getSharedLibraryFileName("rocksdb")). isEqualTo("librocksdbjni.dylib"); } @Test public void mac64() { setEnvironmentClassFields("mac", "64"); assertThat(Environment.isWindows()).isFalse(); assertThat(Environment.getJniLibraryExtension()). isEqualTo(".jnilib"); assertThat(Environment.getJniLibraryFileName("rocksdb")). isEqualTo("librocksdbjni-osx.jnilib"); assertThat(Environment.getSharedLibraryFileName("rocksdb")). isEqualTo("librocksdbjni.dylib"); } @Test public void nix32() { // Linux setEnvironmentClassFields("Linux", "32"); assertThat(Environment.isWindows()).isFalse(); assertThat(Environment.getJniLibraryExtension()). isEqualTo(".so"); assertThat(Environment.getJniLibraryFileName("rocksdb")). isEqualTo("librocksdbjni-linux32.so"); assertThat(Environment.getSharedLibraryFileName("rocksdb")). isEqualTo("librocksdbjni.so"); // UNIX setEnvironmentClassFields("Unix", "32"); assertThat(Environment.isWindows()).isFalse(); assertThat(Environment.getJniLibraryExtension()). isEqualTo(".so"); assertThat(Environment.getJniLibraryFileName("rocksdb")). isEqualTo("librocksdbjni-linux32.so"); assertThat(Environment.getSharedLibraryFileName("rocksdb")). isEqualTo("librocksdbjni.so"); } @Test(expected = UnsupportedOperationException.class) public void aix32() { // AIX setEnvironmentClassFields("aix", "32"); assertThat(Environment.isWindows()).isFalse(); assertThat(Environment.getJniLibraryExtension()). isEqualTo(".so"); Environment.getJniLibraryFileName("rocksdb"); } @Test public void nix64() { setEnvironmentClassFields("Linux", "x64"); assertThat(Environment.isWindows()).isFalse(); assertThat(Environment.getJniLibraryExtension()). isEqualTo(".so"); assertThat(Environment.getJniLibraryFileName("rocksdb")). isEqualTo("librocksdbjni-linux64.so"); assertThat(Environment.getSharedLibraryFileName("rocksdb")). isEqualTo("librocksdbjni.so"); // UNIX setEnvironmentClassFields("Unix", "x64"); assertThat(Environment.isWindows()).isFalse(); assertThat(Environment.getJniLibraryExtension()). isEqualTo(".so"); assertThat(Environment.getJniLibraryFileName("rocksdb")). isEqualTo("librocksdbjni-linux64.so"); assertThat(Environment.getSharedLibraryFileName("rocksdb")). isEqualTo("librocksdbjni.so"); // AIX setEnvironmentClassFields("aix", "x64"); assertThat(Environment.isWindows()).isFalse(); assertThat(Environment.getJniLibraryExtension()). isEqualTo(".so"); assertThat(Environment.getJniLibraryFileName("rocksdb")). isEqualTo("librocksdbjni-aix64.so"); assertThat(Environment.getSharedLibraryFileName("rocksdb")). isEqualTo("librocksdbjni.so"); } @Test public void detectWindows(){ setEnvironmentClassFields("win", "x64"); assertThat(Environment.isWindows()).isTrue(); } @Test public void win64() { setEnvironmentClassFields("win", "x64"); assertThat(Environment.isWindows()).isTrue(); assertThat(Environment.getJniLibraryExtension()). isEqualTo(".dll"); assertThat(Environment.getJniLibraryFileName("rocksdb")). isEqualTo("librocksdbjni-win64.dll"); assertThat(Environment.getSharedLibraryFileName("rocksdb")). isEqualTo("librocksdbjni.dll"); } private void setEnvironmentClassFields(String osName, String osArch) { setEnvironmentClassField(OS_FIELD_NAME, osName); setEnvironmentClassField(ARCH_FIELD_NAME, osArch); } @AfterClass public static void restoreState() { setEnvironmentClassField(OS_FIELD_NAME, INITIAL_OS); setEnvironmentClassField(ARCH_FIELD_NAME, INITIAL_ARCH); } private static String getEnvironmentClassField(String fieldName) { final Field field; try { field = Environment.class.getDeclaredField(fieldName); field.setAccessible(true); final Field modifiersField = Field.class.getDeclaredField("modifiers"); modifiersField.setAccessible(true); modifiersField.setInt(field, field.getModifiers() & ~Modifier.FINAL); return (String)field.get(null); } catch (NoSuchFieldException | IllegalAccessException e) { throw new RuntimeException(e); } } private static void setEnvironmentClassField(String fieldName, String value) { final Field field; try { field = Environment.class.getDeclaredField(fieldName); field.setAccessible(true); final Field modifiersField = Field.class.getDeclaredField("modifiers"); modifiersField.setAccessible(true); modifiersField.setInt(field, field.getModifiers() & ~Modifier.FINAL); field.set(null, value); } catch (NoSuchFieldException | IllegalAccessException e) { throw new RuntimeException(e); } } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/util/SizeUnitTest.java000066400000000000000000000015501337235545400253310ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). package org.rocksdb.util; import org.junit.Test; import static org.assertj.core.api.Assertions.assertThat; public class SizeUnitTest { public static final long COMPUTATION_UNIT = 1024L; @Test public void sizeUnit() { assertThat(SizeUnit.KB).isEqualTo(COMPUTATION_UNIT); assertThat(SizeUnit.MB).isEqualTo( SizeUnit.KB * COMPUTATION_UNIT); assertThat(SizeUnit.GB).isEqualTo( SizeUnit.MB * COMPUTATION_UNIT); assertThat(SizeUnit.TB).isEqualTo( SizeUnit.GB * COMPUTATION_UNIT); assertThat(SizeUnit.PB).isEqualTo( SizeUnit.TB * COMPUTATION_UNIT); } } rocksdb-5.17.2/java/src/test/java/org/rocksdb/util/WriteBatchGetter.java000066400000000000000000000061461337235545400261340ustar00rootroot00000000000000package org.rocksdb.util; import org.rocksdb.RocksDBException; import org.rocksdb.WriteBatch; import java.util.Arrays; public class WriteBatchGetter extends WriteBatch.Handler { private int columnFamilyId = -1; private final byte[] key; private byte[] value; public WriteBatchGetter(final byte[] key) { this.key = key; } public byte[] getValue() { return value; } @Override public void put(final int columnFamilyId, final byte[] key, final byte[] value) { if(Arrays.equals(this.key, key)) { this.columnFamilyId = columnFamilyId; this.value = value; } } @Override public void put(final byte[] key, final byte[] value) { if(Arrays.equals(this.key, key)) { this.value = value; } } @Override public void merge(final int columnFamilyId, final byte[] key, final byte[] value) { if(Arrays.equals(this.key, key)) { this.columnFamilyId = columnFamilyId; this.value = value; } } @Override public void merge(final byte[] key, final byte[] value) { if(Arrays.equals(this.key, key)) { this.value = value; } } @Override public void delete(final int columnFamilyId, final byte[] key) { if(Arrays.equals(this.key, key)) { this.columnFamilyId = columnFamilyId; this.value = null; } } @Override public void delete(final byte[] key) { if(Arrays.equals(this.key, key)) { this.value = null; } } @Override public void singleDelete(final int columnFamilyId, final byte[] key) { if(Arrays.equals(this.key, key)) { this.columnFamilyId = columnFamilyId; this.value = null; } } @Override public void singleDelete(final byte[] key) { if(Arrays.equals(this.key, key)) { this.value = null; } } @Override public void deleteRange(final int columnFamilyId, final byte[] beginKey, final byte[] endKey) { throw new UnsupportedOperationException(); } @Override public void deleteRange(final byte[] beginKey, final byte[] endKey) { throw new UnsupportedOperationException(); } @Override public void logData(final byte[] blob) { throw new UnsupportedOperationException(); } @Override public void putBlobIndex(final int columnFamilyId, final byte[] key, final byte[] value) { if(Arrays.equals(this.key, key)) { this.columnFamilyId = columnFamilyId; this.value = value; } } @Override public void markBeginPrepare() throws RocksDBException { throw new UnsupportedOperationException(); } @Override public void markEndPrepare(final byte[] xid) throws RocksDBException { throw new UnsupportedOperationException(); } @Override public void markNoop(final boolean emptyBatch) throws RocksDBException { throw new UnsupportedOperationException(); } @Override public void markRollback(final byte[] xid) throws RocksDBException { throw new UnsupportedOperationException(); } @Override public void markCommit(final byte[] xid) throws RocksDBException { throw new UnsupportedOperationException(); } } rocksdb-5.17.2/memtable/000077500000000000000000000000001337235545400150365ustar00rootroot00000000000000rocksdb-5.17.2/memtable/alloc_tracker.cc000066400000000000000000000035641337235545400201620ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include #include "rocksdb/write_buffer_manager.h" #include "util/allocator.h" #include "util/arena.h" namespace rocksdb { AllocTracker::AllocTracker(WriteBufferManager* write_buffer_manager) : write_buffer_manager_(write_buffer_manager), bytes_allocated_(0), done_allocating_(false), freed_(false) {} AllocTracker::~AllocTracker() { FreeMem(); } void AllocTracker::Allocate(size_t bytes) { assert(write_buffer_manager_ != nullptr); if (write_buffer_manager_->enabled()) { bytes_allocated_.fetch_add(bytes, std::memory_order_relaxed); write_buffer_manager_->ReserveMem(bytes); } } void AllocTracker::DoneAllocating() { if (write_buffer_manager_ != nullptr && !done_allocating_) { if (write_buffer_manager_->enabled()) { write_buffer_manager_->ScheduleFreeMem( bytes_allocated_.load(std::memory_order_relaxed)); } else { assert(bytes_allocated_.load(std::memory_order_relaxed) == 0); } done_allocating_ = true; } } void AllocTracker::FreeMem() { if (!done_allocating_) { DoneAllocating(); } if (write_buffer_manager_ != nullptr && !freed_) { if (write_buffer_manager_->enabled()) { write_buffer_manager_->FreeMem( bytes_allocated_.load(std::memory_order_relaxed)); } else { assert(bytes_allocated_.load(std::memory_order_relaxed) == 0); } freed_ = true; } } } // namespace rocksdb rocksdb-5.17.2/memtable/hash_cuckoo_rep.cc000066400000000000000000000614101337235545400205030ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // #ifndef ROCKSDB_LITE #include "memtable/hash_cuckoo_rep.h" #include #include #include #include #include #include #include #include "db/memtable.h" #include "memtable/skiplist.h" #include "memtable/stl_wrappers.h" #include "port/port.h" #include "rocksdb/memtablerep.h" #include "util/murmurhash.h" namespace rocksdb { namespace { // the default maximum size of the cuckoo path searching queue static const int kCuckooPathMaxSearchSteps = 100; struct CuckooStep { static const int kNullStep = -1; // the bucket id in the cuckoo array. int bucket_id_; // index of cuckoo-step array that points to its previous step, // -1 if it the beginning step. int prev_step_id_; // the depth of the current step. unsigned int depth_; CuckooStep() : bucket_id_(-1), prev_step_id_(kNullStep), depth_(1) {} CuckooStep(CuckooStep&& o) = default; CuckooStep& operator=(CuckooStep&& rhs) { bucket_id_ = std::move(rhs.bucket_id_); prev_step_id_ = std::move(rhs.prev_step_id_); depth_ = std::move(rhs.depth_); return *this; } CuckooStep(const CuckooStep&) = delete; CuckooStep& operator=(const CuckooStep&) = delete; CuckooStep(int bucket_id, int prev_step_id, int depth) : bucket_id_(bucket_id), prev_step_id_(prev_step_id), depth_(depth) {} }; class HashCuckooRep : public MemTableRep { public: explicit HashCuckooRep(const MemTableRep::KeyComparator& compare, Allocator* allocator, const size_t bucket_count, const unsigned int hash_func_count, const size_t approximate_entry_size) : MemTableRep(allocator), compare_(compare), allocator_(allocator), bucket_count_(bucket_count), approximate_entry_size_(approximate_entry_size), cuckoo_path_max_depth_(kDefaultCuckooPathMaxDepth), occupied_count_(0), hash_function_count_(hash_func_count), backup_table_(nullptr) { char* mem = reinterpret_cast( allocator_->Allocate(sizeof(std::atomic) * bucket_count_)); cuckoo_array_ = new (mem) std::atomic[bucket_count_]; for (unsigned int bid = 0; bid < bucket_count_; ++bid) { cuckoo_array_[bid].store(nullptr, std::memory_order_relaxed); } cuckoo_path_ = reinterpret_cast( allocator_->Allocate(sizeof(int) * (cuckoo_path_max_depth_ + 1))); is_nearly_full_ = false; } // return false, indicating HashCuckooRep does not support merge operator. virtual bool IsMergeOperatorSupported() const override { return false; } // return false, indicating HashCuckooRep does not support snapshot. virtual bool IsSnapshotSupported() const override { return false; } // Returns true iff an entry that compares equal to key is in the collection. virtual bool Contains(const char* internal_key) const override; virtual ~HashCuckooRep() override {} // Insert the specified key (internal_key) into the mem-table. Assertion // fails if // the current mem-table already contains the specified key. virtual void Insert(KeyHandle handle) override; // This function returns bucket_count_ * approximate_entry_size_ when any // of the followings happen to disallow further write operations: // 1. when the fullness reaches kMaxFullnes. // 2. when the backup_table_ is used. // // otherwise, this function will always return 0. virtual size_t ApproximateMemoryUsage() override { if (is_nearly_full_) { return bucket_count_ * approximate_entry_size_; } return 0; } virtual void Get(const LookupKey& k, void* callback_args, bool (*callback_func)(void* arg, const char* entry)) override; class Iterator : public MemTableRep::Iterator { std::shared_ptr> bucket_; std::vector::const_iterator mutable cit_; const KeyComparator& compare_; std::string tmp_; // For passing to EncodeKey bool mutable sorted_; void DoSort() const; public: explicit Iterator(std::shared_ptr> bucket, const KeyComparator& compare); // Initialize an iterator over the specified collection. // The returned iterator is not valid. // explicit Iterator(const MemTableRep* collection); virtual ~Iterator() override{}; // Returns true iff the iterator is positioned at a valid node. virtual bool Valid() const override; // Returns the key at the current position. // REQUIRES: Valid() virtual const char* key() const override; // Advances to the next position. // REQUIRES: Valid() virtual void Next() override; // Advances to the previous position. // REQUIRES: Valid() virtual void Prev() override; // Advance to the first entry with a key >= target virtual void Seek(const Slice& user_key, const char* memtable_key) override; // Retreat to the last entry with a key <= target virtual void SeekForPrev(const Slice& user_key, const char* memtable_key) override; // Position at the first entry in collection. // Final state of iterator is Valid() iff collection is not empty. virtual void SeekToFirst() override; // Position at the last entry in collection. // Final state of iterator is Valid() iff collection is not empty. virtual void SeekToLast() override; }; struct CuckooStepBuffer { CuckooStepBuffer() : write_index_(0), read_index_(0) {} ~CuckooStepBuffer() {} int write_index_; int read_index_; CuckooStep steps_[kCuckooPathMaxSearchSteps]; CuckooStep& NextWriteBuffer() { return steps_[write_index_++]; } inline const CuckooStep& ReadNext() { return steps_[read_index_++]; } inline bool HasNewWrite() { return write_index_ > read_index_; } inline void reset() { write_index_ = 0; read_index_ = 0; } inline bool IsFull() { return write_index_ >= kCuckooPathMaxSearchSteps; } // returns the number of steps that has been read inline int ReadCount() { return read_index_; } // returns the number of steps that has been written to the buffer. inline int WriteCount() { return write_index_; } }; private: const MemTableRep::KeyComparator& compare_; // the pointer to Allocator to allocate memory, immutable after construction. Allocator* const allocator_; // the number of hash bucket in the hash table. const size_t bucket_count_; // approximate size of each entry const size_t approximate_entry_size_; // the maxinum depth of the cuckoo path. const unsigned int cuckoo_path_max_depth_; // the current number of entries in cuckoo_array_ which has been occupied. size_t occupied_count_; // the current number of hash functions used in the cuckoo hash. unsigned int hash_function_count_; // the backup MemTableRep to handle the case where cuckoo hash cannot find // a vacant bucket for inserting the key of a put request. std::shared_ptr backup_table_; // the array to store pointers, pointing to the actual data. std::atomic* cuckoo_array_; // a buffer to store cuckoo path int* cuckoo_path_; // a boolean flag indicating whether the fullness of bucket array // reaches the point to make the current memtable immutable. bool is_nearly_full_; // the default maximum depth of the cuckoo path. static const unsigned int kDefaultCuckooPathMaxDepth = 10; CuckooStepBuffer step_buffer_; // returns the bucket id assogied to the input slice based on the unsigned int GetHash(const Slice& slice, const int hash_func_id) const { // the seeds used in the Murmur hash to produce different hash functions. static const int kMurmurHashSeeds[HashCuckooRepFactory::kMaxHashCount] = { 545609244, 1769731426, 763324157, 13099088, 592422103, 1899789565, 248369300, 1984183468, 1613664382, 1491157517}; return static_cast( MurmurHash(slice.data(), static_cast(slice.size()), kMurmurHashSeeds[hash_func_id]) % bucket_count_); } // A cuckoo path is a sequence of bucket ids, where each id points to a // location of cuckoo_array_. This path describes the displacement sequence // of entries in order to store the desired data specified by the input user // key. The path starts from one of the locations associated with the // specified user key and ends at a vacant space in the cuckoo array. This // function will update the cuckoo_path. // // @return true if it found a cuckoo path. bool FindCuckooPath(const char* internal_key, const Slice& user_key, int* cuckoo_path, size_t* cuckoo_path_length, int initial_hash_id = 0); // Perform quick insert by checking whether there is a vacant bucket in one // of the possible locations of the input key. If so, then the function will // return true and the key will be stored in that vacant bucket. // // This function is a helper function of FindCuckooPath that discovers the // first possible steps of a cuckoo path. It begins by first computing // the possible locations of the input keys (and stores them in bucket_ids.) // Then, if one of its possible locations is vacant, then the input key will // be stored in that vacant space and the function will return true. // Otherwise, the function will return false indicating a complete search // of cuckoo-path is needed. bool QuickInsert(const char* internal_key, const Slice& user_key, int bucket_ids[], const int initial_hash_id); // Returns the pointer to the internal iterator to the buckets where buckets // are sorted according to the user specified KeyComparator. Note that // any insert after this function call may affect the sorted nature of // the returned iterator. virtual MemTableRep::Iterator* GetIterator(Arena* arena) override { std::vector compact_buckets; for (unsigned int bid = 0; bid < bucket_count_; ++bid) { const char* bucket = cuckoo_array_[bid].load(std::memory_order_relaxed); if (bucket != nullptr) { compact_buckets.push_back(bucket); } } MemTableRep* backup_table = backup_table_.get(); if (backup_table != nullptr) { std::unique_ptr iter(backup_table->GetIterator()); for (iter->SeekToFirst(); iter->Valid(); iter->Next()) { compact_buckets.push_back(iter->key()); } } if (arena == nullptr) { return new Iterator( std::shared_ptr>( new std::vector(std::move(compact_buckets))), compare_); } else { auto mem = arena->AllocateAligned(sizeof(Iterator)); return new (mem) Iterator( std::shared_ptr>( new std::vector(std::move(compact_buckets))), compare_); } } }; void HashCuckooRep::Get(const LookupKey& key, void* callback_args, bool (*callback_func)(void* arg, const char* entry)) { Slice user_key = key.user_key(); for (unsigned int hid = 0; hid < hash_function_count_; ++hid) { const char* bucket = cuckoo_array_[GetHash(user_key, hid)].load(std::memory_order_acquire); if (bucket != nullptr) { Slice bucket_user_key = UserKey(bucket); if (user_key == bucket_user_key) { callback_func(callback_args, bucket); break; } } else { // as Put() always stores at the vacant bucket located by the // hash function with the smallest possible id, when we first // find a vacant bucket in Get(), that means a miss. break; } } MemTableRep* backup_table = backup_table_.get(); if (backup_table != nullptr) { backup_table->Get(key, callback_args, callback_func); } } void HashCuckooRep::Insert(KeyHandle handle) { static const float kMaxFullness = 0.90f; auto* key = static_cast(handle); int initial_hash_id = 0; size_t cuckoo_path_length = 0; auto user_key = UserKey(key); // find cuckoo path if (FindCuckooPath(key, user_key, cuckoo_path_, &cuckoo_path_length, initial_hash_id) == false) { // if true, then we can't find a vacant bucket for this key even we // have used up all the hash functions. Then use a backup memtable to // store such key, which will further make this mem-table become // immutable. if (backup_table_.get() == nullptr) { VectorRepFactory factory(10); backup_table_.reset( factory.CreateMemTableRep(compare_, allocator_, nullptr, nullptr)); is_nearly_full_ = true; } backup_table_->Insert(key); return; } // when reaching this point, means the insert can be done successfully. occupied_count_++; if (occupied_count_ >= bucket_count_ * kMaxFullness) { is_nearly_full_ = true; } // perform kickout process if the length of cuckoo path > 1. if (cuckoo_path_length == 0) return; // the cuckoo path stores the kickout path in reverse order. // so the kickout or displacement is actually performed // in reverse order, which avoids false-negatives on read // by moving each key involved in the cuckoo path to the new // location before replacing it. for (size_t i = 1; i < cuckoo_path_length; ++i) { int kicked_out_bid = cuckoo_path_[i - 1]; int current_bid = cuckoo_path_[i]; // since we only allow one writer at a time, it is safe to do relaxed read. cuckoo_array_[kicked_out_bid] .store(cuckoo_array_[current_bid].load(std::memory_order_relaxed), std::memory_order_release); } int insert_key_bid = cuckoo_path_[cuckoo_path_length - 1]; cuckoo_array_[insert_key_bid].store(key, std::memory_order_release); } bool HashCuckooRep::Contains(const char* internal_key) const { auto user_key = UserKey(internal_key); for (unsigned int hid = 0; hid < hash_function_count_; ++hid) { const char* stored_key = cuckoo_array_[GetHash(user_key, hid)].load(std::memory_order_acquire); if (stored_key != nullptr) { if (compare_(internal_key, stored_key) == 0) { return true; } } } return false; } bool HashCuckooRep::QuickInsert(const char* internal_key, const Slice& user_key, int bucket_ids[], const int initial_hash_id) { int cuckoo_bucket_id = -1; // Below does the followings: // 0. Calculate all possible locations of the input key. // 1. Check if there is a bucket having same user_key as the input does. // 2. If there exists such bucket, then replace this bucket by the newly // insert data and return. This step also performs duplication check. // 3. If no such bucket exists but exists a vacant bucket, then insert the // input data into it. // 4. If step 1 to 3 all fail, then return false. for (unsigned int hid = initial_hash_id; hid < hash_function_count_; ++hid) { bucket_ids[hid] = GetHash(user_key, hid); // since only one PUT is allowed at a time, and this is part of the PUT // operation, so we can safely perform relaxed load. const char* stored_key = cuckoo_array_[bucket_ids[hid]].load(std::memory_order_relaxed); if (stored_key == nullptr) { if (cuckoo_bucket_id == -1) { cuckoo_bucket_id = bucket_ids[hid]; } } else { const auto bucket_user_key = UserKey(stored_key); if (bucket_user_key.compare(user_key) == 0) { cuckoo_bucket_id = bucket_ids[hid]; assert(cuckoo_bucket_id != -1); break; } } } if (cuckoo_bucket_id != -1) { cuckoo_array_[cuckoo_bucket_id].store(const_cast(internal_key), std::memory_order_release); return true; } return false; } // Perform pre-check and find the shortest cuckoo path. A cuckoo path // is a displacement sequence for inserting the specified input key. // // @return true if it successfully found a vacant space or cuckoo-path. // If the return value is true but the length of cuckoo_path is zero, // then it indicates that a vacant bucket or an bucket with matched user // key with the input is found, and a quick insertion is done. bool HashCuckooRep::FindCuckooPath(const char* internal_key, const Slice& user_key, int* cuckoo_path, size_t* cuckoo_path_length, const int initial_hash_id) { int bucket_ids[HashCuckooRepFactory::kMaxHashCount]; *cuckoo_path_length = 0; if (QuickInsert(internal_key, user_key, bucket_ids, initial_hash_id)) { return true; } // If this step is reached, then it means: // 1. no vacant bucket in any of the possible locations of the input key. // 2. none of the possible locations of the input key has the same user // key as the input `internal_key`. // the front and back indices for the step_queue_ step_buffer_.reset(); for (unsigned int hid = initial_hash_id; hid < hash_function_count_; ++hid) { /// CuckooStep& current_step = step_queue_[front_pos++]; CuckooStep& current_step = step_buffer_.NextWriteBuffer(); current_step.bucket_id_ = bucket_ids[hid]; current_step.prev_step_id_ = CuckooStep::kNullStep; current_step.depth_ = 1; } while (step_buffer_.HasNewWrite()) { int step_id = step_buffer_.read_index_; const CuckooStep& step = step_buffer_.ReadNext(); // Since it's a BFS process, then the first step with its depth deeper // than the maximum allowed depth indicates all the remaining steps // in the step buffer queue will all exceed the maximum depth. // Return false immediately indicating we can't find a vacant bucket // for the input key before the maximum allowed depth. if (step.depth_ >= cuckoo_path_max_depth_) { return false; } // again, we can perform no barrier load safely here as the current // thread is the only writer. Slice bucket_user_key = UserKey(cuckoo_array_[step.bucket_id_].load(std::memory_order_relaxed)); if (step.prev_step_id_ != CuckooStep::kNullStep) { if (bucket_user_key == user_key) { // then there is a loop in the current path, stop discovering this path. continue; } } // if the current bucket stores at its nth location, then we only consider // its mth location where m > n. This property makes sure that all reads // will not miss if we do have data associated to the query key. // // The n and m in the above statement is the start_hid and hid in the code. unsigned int start_hid = hash_function_count_; for (unsigned int hid = 0; hid < hash_function_count_; ++hid) { bucket_ids[hid] = GetHash(bucket_user_key, hid); if (step.bucket_id_ == bucket_ids[hid]) { start_hid = hid; } } // must found a bucket which is its current "home". assert(start_hid != hash_function_count_); // explore all possible next steps from the current step. for (unsigned int hid = start_hid + 1; hid < hash_function_count_; ++hid) { CuckooStep& next_step = step_buffer_.NextWriteBuffer(); next_step.bucket_id_ = bucket_ids[hid]; next_step.prev_step_id_ = step_id; next_step.depth_ = step.depth_ + 1; // once a vacant bucket is found, trace back all its previous steps // to generate a cuckoo path. if (cuckoo_array_[next_step.bucket_id_].load(std::memory_order_relaxed) == nullptr) { // store the last step in the cuckoo path. Note that cuckoo_path // stores steps in reverse order. This allows us to move keys along // the cuckoo path by storing each key to the new place first before // removing it from the old place. This property ensures reads will // not missed due to moving keys along the cuckoo path. cuckoo_path[(*cuckoo_path_length)++] = next_step.bucket_id_; int depth; for (depth = step.depth_; depth > 0 && step_id != CuckooStep::kNullStep; depth--) { const CuckooStep& prev_step = step_buffer_.steps_[step_id]; cuckoo_path[(*cuckoo_path_length)++] = prev_step.bucket_id_; step_id = prev_step.prev_step_id_; } assert(depth == 0 && step_id == CuckooStep::kNullStep); return true; } if (step_buffer_.IsFull()) { // if true, then it reaches maxinum number of cuckoo search steps. return false; } } } // tried all possible paths but still not unable to find a cuckoo path // which path leads to a vacant bucket. return false; } HashCuckooRep::Iterator::Iterator( std::shared_ptr> bucket, const KeyComparator& compare) : bucket_(bucket), cit_(bucket_->end()), compare_(compare), sorted_(false) {} void HashCuckooRep::Iterator::DoSort() const { if (!sorted_) { std::sort(bucket_->begin(), bucket_->end(), stl_wrappers::Compare(compare_)); cit_ = bucket_->begin(); sorted_ = true; } } // Returns true iff the iterator is positioned at a valid node. bool HashCuckooRep::Iterator::Valid() const { DoSort(); return cit_ != bucket_->end(); } // Returns the key at the current position. // REQUIRES: Valid() const char* HashCuckooRep::Iterator::key() const { assert(Valid()); return *cit_; } // Advances to the next position. // REQUIRES: Valid() void HashCuckooRep::Iterator::Next() { assert(Valid()); if (cit_ == bucket_->end()) { return; } ++cit_; } // Advances to the previous position. // REQUIRES: Valid() void HashCuckooRep::Iterator::Prev() { assert(Valid()); if (cit_ == bucket_->begin()) { // If you try to go back from the first element, the iterator should be // invalidated. So we set it to past-the-end. This means that you can // treat the container circularly. cit_ = bucket_->end(); } else { --cit_; } } // Advance to the first entry with a key >= target void HashCuckooRep::Iterator::Seek(const Slice& user_key, const char* memtable_key) { DoSort(); // Do binary search to find first value not less than the target const char* encoded_key = (memtable_key != nullptr) ? memtable_key : EncodeKey(&tmp_, user_key); cit_ = std::equal_range(bucket_->begin(), bucket_->end(), encoded_key, [this](const char* a, const char* b) { return compare_(a, b) < 0; }).first; } // Retreat to the last entry with a key <= target void HashCuckooRep::Iterator::SeekForPrev(const Slice& /*user_key*/, const char* /*memtable_key*/) { assert(false); } // Position at the first entry in collection. // Final state of iterator is Valid() iff collection is not empty. void HashCuckooRep::Iterator::SeekToFirst() { DoSort(); cit_ = bucket_->begin(); } // Position at the last entry in collection. // Final state of iterator is Valid() iff collection is not empty. void HashCuckooRep::Iterator::SeekToLast() { DoSort(); cit_ = bucket_->end(); if (bucket_->size() != 0) { --cit_; } } } // anom namespace MemTableRep* HashCuckooRepFactory::CreateMemTableRep( const MemTableRep::KeyComparator& compare, Allocator* allocator, const SliceTransform* /*transform*/, Logger* /*logger*/) { // The estimated average fullness. The write performance of any close hash // degrades as the fullness of the mem-table increases. Setting kFullness // to a value around 0.7 can better avoid write performance degradation while // keeping efficient memory usage. static const float kFullness = 0.7f; size_t pointer_size = sizeof(std::atomic); assert(write_buffer_size_ >= (average_data_size_ + pointer_size)); size_t bucket_count = static_cast( (write_buffer_size_ / (average_data_size_ + pointer_size)) / kFullness + 1); unsigned int hash_function_count = hash_function_count_; if (hash_function_count < 2) { hash_function_count = 2; } if (hash_function_count > kMaxHashCount) { hash_function_count = kMaxHashCount; } return new HashCuckooRep(compare, allocator, bucket_count, hash_function_count, static_cast( (average_data_size_ + pointer_size) / kFullness) ); } MemTableRepFactory* NewHashCuckooRepFactory(size_t write_buffer_size, size_t average_data_size, unsigned int hash_function_count) { return new HashCuckooRepFactory(write_buffer_size, average_data_size, hash_function_count); } } // namespace rocksdb #endif // ROCKSDB_LITE rocksdb-5.17.2/memtable/hash_cuckoo_rep.h000066400000000000000000000031511337235545400203430ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #ifndef ROCKSDB_LITE #include "port/port.h" #include "rocksdb/slice_transform.h" #include "rocksdb/memtablerep.h" namespace rocksdb { class HashCuckooRepFactory : public MemTableRepFactory { public: // maxinum number of hash functions used in the cuckoo hash. static const unsigned int kMaxHashCount = 10; explicit HashCuckooRepFactory(size_t write_buffer_size, size_t average_data_size, unsigned int hash_function_count) : write_buffer_size_(write_buffer_size), average_data_size_(average_data_size), hash_function_count_(hash_function_count) {} virtual ~HashCuckooRepFactory() {} using MemTableRepFactory::CreateMemTableRep; virtual MemTableRep* CreateMemTableRep( const MemTableRep::KeyComparator& compare, Allocator* allocator, const SliceTransform* transform, Logger* logger) override; virtual const char* Name() const override { return "HashCuckooRepFactory"; } private: size_t write_buffer_size_; size_t average_data_size_; const unsigned int hash_function_count_; }; } // namespace rocksdb #endif // ROCKSDB_LITE rocksdb-5.17.2/memtable/hash_linklist_rep.cc000066400000000000000000000723251337235545400210600ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // #ifndef ROCKSDB_LITE #include "memtable/hash_linklist_rep.h" #include #include #include "db/memtable.h" #include "memtable/skiplist.h" #include "monitoring/histogram.h" #include "port/port.h" #include "rocksdb/memtablerep.h" #include "rocksdb/slice.h" #include "rocksdb/slice_transform.h" #include "util/arena.h" #include "util/murmurhash.h" namespace rocksdb { namespace { typedef const char* Key; typedef SkipList MemtableSkipList; typedef std::atomic Pointer; // A data structure used as the header of a link list of a hash bucket. struct BucketHeader { Pointer next; std::atomic num_entries; explicit BucketHeader(void* n, uint32_t count) : next(n), num_entries(count) {} bool IsSkipListBucket() { return next.load(std::memory_order_relaxed) == this; } uint32_t GetNumEntries() const { return num_entries.load(std::memory_order_relaxed); } // REQUIRES: called from single-threaded Insert() void IncNumEntries() { // Only one thread can do write at one time. No need to do atomic // incremental. Update it with relaxed load and store. num_entries.store(GetNumEntries() + 1, std::memory_order_relaxed); } }; // A data structure used as the header of a skip list of a hash bucket. struct SkipListBucketHeader { BucketHeader Counting_header; MemtableSkipList skip_list; explicit SkipListBucketHeader(const MemTableRep::KeyComparator& cmp, Allocator* allocator, uint32_t count) : Counting_header(this, // Pointing to itself to indicate header type. count), skip_list(cmp, allocator) {} }; struct Node { // Accessors/mutators for links. Wrapped in methods so we can // add the appropriate barriers as necessary. Node* Next() { // Use an 'acquire load' so that we observe a fully initialized // version of the returned Node. return next_.load(std::memory_order_acquire); } void SetNext(Node* x) { // Use a 'release store' so that anybody who reads through this // pointer observes a fully initialized version of the inserted node. next_.store(x, std::memory_order_release); } // No-barrier variants that can be safely used in a few locations. Node* NoBarrier_Next() { return next_.load(std::memory_order_relaxed); } void NoBarrier_SetNext(Node* x) { next_.store(x, std::memory_order_relaxed); } // Needed for placement new below which is fine Node() {} private: std::atomic next_; // Prohibit copying due to the below Node(const Node&) = delete; Node& operator=(const Node&) = delete; public: char key[1]; }; // Memory structure of the mem table: // It is a hash table, each bucket points to one entry, a linked list or a // skip list. In order to track total number of records in a bucket to determine // whether should switch to skip list, a header is added just to indicate // number of entries in the bucket. // // // +-----> NULL Case 1. Empty bucket // | // | // | +---> +-------+ // | | | Next +--> NULL // | | +-------+ // +-----+ | | | | Case 2. One Entry in bucket. // | +-+ | | Data | next pointer points to // +-----+ | | | NULL. All other cases // | | | | | next pointer is not NULL. // +-----+ | +-------+ // | +---+ // +-----+ +-> +-------+ +> +-------+ +-> +-------+ // | | | | Next +--+ | Next +--+ | Next +-->NULL // +-----+ | +-------+ +-------+ +-------+ // | +-----+ | Count | | | | | // +-----+ +-------+ | Data | | Data | // | | | | | | // +-----+ Case 3. | | | | // | | A header +-------+ +-------+ // +-----+ points to // | | a linked list. Count indicates total number // +-----+ of rows in this bucket. // | | // +-----+ +-> +-------+ <--+ // | | | | Next +----+ // +-----+ | +-------+ Case 4. A header points to a skip // | +----+ | Count | list and next pointer points to // +-----+ +-------+ itself, to distinguish case 3 or 4. // | | | | Count still is kept to indicates total // +-----+ | Skip +--> of entries in the bucket for debugging // | | | List | Data purpose. // | | | +--> // +-----+ | | // | | +-------+ // +-----+ // // We don't have data race when changing cases because: // (1) When changing from case 2->3, we create a new bucket header, put the // single node there first without changing the original node, and do a // release store when changing the bucket pointer. In that case, a reader // who sees a stale value of the bucket pointer will read this node, while // a reader sees the correct value because of the release store. // (2) When changing case 3->4, a new header is created with skip list points // to the data, before doing an acquire store to change the bucket pointer. // The old header and nodes are never changed, so any reader sees any // of those existing pointers will guarantee to be able to iterate to the // end of the linked list. // (3) Header's next pointer in case 3 might change, but they are never equal // to itself, so no matter a reader sees any stale or newer value, it will // be able to correctly distinguish case 3 and 4. // // The reason that we use case 2 is we want to make the format to be efficient // when the utilization of buckets is relatively low. If we use case 3 for // single entry bucket, we will need to waste 12 bytes for every entry, // which can be significant decrease of memory utilization. class HashLinkListRep : public MemTableRep { public: HashLinkListRep(const MemTableRep::KeyComparator& compare, Allocator* allocator, const SliceTransform* transform, size_t bucket_size, uint32_t threshold_use_skiplist, size_t huge_page_tlb_size, Logger* logger, int bucket_entries_logging_threshold, bool if_log_bucket_dist_when_flash); virtual KeyHandle Allocate(const size_t len, char** buf) override; virtual void Insert(KeyHandle handle) override; virtual bool Contains(const char* key) const override; virtual size_t ApproximateMemoryUsage() override; virtual void Get(const LookupKey& k, void* callback_args, bool (*callback_func)(void* arg, const char* entry)) override; virtual ~HashLinkListRep(); virtual MemTableRep::Iterator* GetIterator(Arena* arena = nullptr) override; virtual MemTableRep::Iterator* GetDynamicPrefixIterator( Arena* arena = nullptr) override; private: friend class DynamicIterator; size_t bucket_size_; // Maps slices (which are transformed user keys) to buckets of keys sharing // the same transform. Pointer* buckets_; const uint32_t threshold_use_skiplist_; // The user-supplied transform whose domain is the user keys. const SliceTransform* transform_; const MemTableRep::KeyComparator& compare_; Logger* logger_; int bucket_entries_logging_threshold_; bool if_log_bucket_dist_when_flash_; bool LinkListContains(Node* head, const Slice& key) const; SkipListBucketHeader* GetSkipListBucketHeader(Pointer* first_next_pointer) const; Node* GetLinkListFirstNode(Pointer* first_next_pointer) const; Slice GetPrefix(const Slice& internal_key) const { return transform_->Transform(ExtractUserKey(internal_key)); } size_t GetHash(const Slice& slice) const { return MurmurHash(slice.data(), static_cast(slice.size()), 0) % bucket_size_; } Pointer* GetBucket(size_t i) const { return static_cast(buckets_[i].load(std::memory_order_acquire)); } Pointer* GetBucket(const Slice& slice) const { return GetBucket(GetHash(slice)); } bool Equal(const Slice& a, const Key& b) const { return (compare_(b, a) == 0); } bool Equal(const Key& a, const Key& b) const { return (compare_(a, b) == 0); } bool KeyIsAfterNode(const Slice& internal_key, const Node* n) const { // nullptr n is considered infinite return (n != nullptr) && (compare_(n->key, internal_key) < 0); } bool KeyIsAfterNode(const Key& key, const Node* n) const { // nullptr n is considered infinite return (n != nullptr) && (compare_(n->key, key) < 0); } bool KeyIsAfterOrAtNode(const Slice& internal_key, const Node* n) const { // nullptr n is considered infinite return (n != nullptr) && (compare_(n->key, internal_key) <= 0); } bool KeyIsAfterOrAtNode(const Key& key, const Node* n) const { // nullptr n is considered infinite return (n != nullptr) && (compare_(n->key, key) <= 0); } Node* FindGreaterOrEqualInBucket(Node* head, const Slice& key) const; Node* FindLessOrEqualInBucket(Node* head, const Slice& key) const; class FullListIterator : public MemTableRep::Iterator { public: explicit FullListIterator(MemtableSkipList* list, Allocator* allocator) : iter_(list), full_list_(list), allocator_(allocator) {} virtual ~FullListIterator() { } // Returns true iff the iterator is positioned at a valid node. virtual bool Valid() const override { return iter_.Valid(); } // Returns the key at the current position. // REQUIRES: Valid() virtual const char* key() const override { assert(Valid()); return iter_.key(); } // Advances to the next position. // REQUIRES: Valid() virtual void Next() override { assert(Valid()); iter_.Next(); } // Advances to the previous position. // REQUIRES: Valid() virtual void Prev() override { assert(Valid()); iter_.Prev(); } // Advance to the first entry with a key >= target virtual void Seek(const Slice& internal_key, const char* memtable_key) override { const char* encoded_key = (memtable_key != nullptr) ? memtable_key : EncodeKey(&tmp_, internal_key); iter_.Seek(encoded_key); } // Retreat to the last entry with a key <= target virtual void SeekForPrev(const Slice& internal_key, const char* memtable_key) override { const char* encoded_key = (memtable_key != nullptr) ? memtable_key : EncodeKey(&tmp_, internal_key); iter_.SeekForPrev(encoded_key); } // Position at the first entry in collection. // Final state of iterator is Valid() iff collection is not empty. virtual void SeekToFirst() override { iter_.SeekToFirst(); } // Position at the last entry in collection. // Final state of iterator is Valid() iff collection is not empty. virtual void SeekToLast() override { iter_.SeekToLast(); } private: MemtableSkipList::Iterator iter_; // To destruct with the iterator. std::unique_ptr full_list_; std::unique_ptr allocator_; std::string tmp_; // For passing to EncodeKey }; class LinkListIterator : public MemTableRep::Iterator { public: explicit LinkListIterator(const HashLinkListRep* const hash_link_list_rep, Node* head) : hash_link_list_rep_(hash_link_list_rep), head_(head), node_(nullptr) {} virtual ~LinkListIterator() {} // Returns true iff the iterator is positioned at a valid node. virtual bool Valid() const override { return node_ != nullptr; } // Returns the key at the current position. // REQUIRES: Valid() virtual const char* key() const override { assert(Valid()); return node_->key; } // Advances to the next position. // REQUIRES: Valid() virtual void Next() override { assert(Valid()); node_ = node_->Next(); } // Advances to the previous position. // REQUIRES: Valid() virtual void Prev() override { // Prefix iterator does not support total order. // We simply set the iterator to invalid state Reset(nullptr); } // Advance to the first entry with a key >= target virtual void Seek(const Slice& internal_key, const char* /*memtable_key*/) override { node_ = hash_link_list_rep_->FindGreaterOrEqualInBucket(head_, internal_key); } // Retreat to the last entry with a key <= target virtual void SeekForPrev(const Slice& /*internal_key*/, const char* /*memtable_key*/) override { // Since we do not support Prev() // We simply do not support SeekForPrev Reset(nullptr); } // Position at the first entry in collection. // Final state of iterator is Valid() iff collection is not empty. virtual void SeekToFirst() override { // Prefix iterator does not support total order. // We simply set the iterator to invalid state Reset(nullptr); } // Position at the last entry in collection. // Final state of iterator is Valid() iff collection is not empty. virtual void SeekToLast() override { // Prefix iterator does not support total order. // We simply set the iterator to invalid state Reset(nullptr); } protected: void Reset(Node* head) { head_ = head; node_ = nullptr; } private: friend class HashLinkListRep; const HashLinkListRep* const hash_link_list_rep_; Node* head_; Node* node_; virtual void SeekToHead() { node_ = head_; } }; class DynamicIterator : public HashLinkListRep::LinkListIterator { public: explicit DynamicIterator(HashLinkListRep& memtable_rep) : HashLinkListRep::LinkListIterator(&memtable_rep, nullptr), memtable_rep_(memtable_rep) {} // Advance to the first entry with a key >= target virtual void Seek(const Slice& k, const char* memtable_key) override { auto transformed = memtable_rep_.GetPrefix(k); auto* bucket = memtable_rep_.GetBucket(transformed); SkipListBucketHeader* skip_list_header = memtable_rep_.GetSkipListBucketHeader(bucket); if (skip_list_header != nullptr) { // The bucket is organized as a skip list if (!skip_list_iter_) { skip_list_iter_.reset( new MemtableSkipList::Iterator(&skip_list_header->skip_list)); } else { skip_list_iter_->SetList(&skip_list_header->skip_list); } if (memtable_key != nullptr) { skip_list_iter_->Seek(memtable_key); } else { IterKey encoded_key; encoded_key.EncodeLengthPrefixedKey(k); skip_list_iter_->Seek(encoded_key.GetUserKey().data()); } } else { // The bucket is organized as a linked list skip_list_iter_.reset(); Reset(memtable_rep_.GetLinkListFirstNode(bucket)); HashLinkListRep::LinkListIterator::Seek(k, memtable_key); } } virtual bool Valid() const override { if (skip_list_iter_) { return skip_list_iter_->Valid(); } return HashLinkListRep::LinkListIterator::Valid(); } virtual const char* key() const override { if (skip_list_iter_) { return skip_list_iter_->key(); } return HashLinkListRep::LinkListIterator::key(); } virtual void Next() override { if (skip_list_iter_) { skip_list_iter_->Next(); } else { HashLinkListRep::LinkListIterator::Next(); } } private: // the underlying memtable const HashLinkListRep& memtable_rep_; std::unique_ptr skip_list_iter_; }; class EmptyIterator : public MemTableRep::Iterator { // This is used when there wasn't a bucket. It is cheaper than // instantiating an empty bucket over which to iterate. public: EmptyIterator() { } virtual bool Valid() const override { return false; } virtual const char* key() const override { assert(false); return nullptr; } virtual void Next() override {} virtual void Prev() override {} virtual void Seek(const Slice& /*user_key*/, const char* /*memtable_key*/) override {} virtual void SeekForPrev(const Slice& /*user_key*/, const char* /*memtable_key*/) override {} virtual void SeekToFirst() override {} virtual void SeekToLast() override {} private: }; }; HashLinkListRep::HashLinkListRep( const MemTableRep::KeyComparator& compare, Allocator* allocator, const SliceTransform* transform, size_t bucket_size, uint32_t threshold_use_skiplist, size_t huge_page_tlb_size, Logger* logger, int bucket_entries_logging_threshold, bool if_log_bucket_dist_when_flash) : MemTableRep(allocator), bucket_size_(bucket_size), // Threshold to use skip list doesn't make sense if less than 3, so we // force it to be minimum of 3 to simplify implementation. threshold_use_skiplist_(std::max(threshold_use_skiplist, 3U)), transform_(transform), compare_(compare), logger_(logger), bucket_entries_logging_threshold_(bucket_entries_logging_threshold), if_log_bucket_dist_when_flash_(if_log_bucket_dist_when_flash) { char* mem = allocator_->AllocateAligned(sizeof(Pointer) * bucket_size, huge_page_tlb_size, logger); buckets_ = new (mem) Pointer[bucket_size]; for (size_t i = 0; i < bucket_size_; ++i) { buckets_[i].store(nullptr, std::memory_order_relaxed); } } HashLinkListRep::~HashLinkListRep() { } KeyHandle HashLinkListRep::Allocate(const size_t len, char** buf) { char* mem = allocator_->AllocateAligned(sizeof(Node) + len); Node* x = new (mem) Node(); *buf = x->key; return static_cast(x); } SkipListBucketHeader* HashLinkListRep::GetSkipListBucketHeader( Pointer* first_next_pointer) const { if (first_next_pointer == nullptr) { return nullptr; } if (first_next_pointer->load(std::memory_order_relaxed) == nullptr) { // Single entry bucket return nullptr; } // Counting header BucketHeader* header = reinterpret_cast(first_next_pointer); if (header->IsSkipListBucket()) { assert(header->GetNumEntries() > threshold_use_skiplist_); auto* skip_list_bucket_header = reinterpret_cast(header); assert(skip_list_bucket_header->Counting_header.next.load( std::memory_order_relaxed) == header); return skip_list_bucket_header; } assert(header->GetNumEntries() <= threshold_use_skiplist_); return nullptr; } Node* HashLinkListRep::GetLinkListFirstNode(Pointer* first_next_pointer) const { if (first_next_pointer == nullptr) { return nullptr; } if (first_next_pointer->load(std::memory_order_relaxed) == nullptr) { // Single entry bucket return reinterpret_cast(first_next_pointer); } // Counting header BucketHeader* header = reinterpret_cast(first_next_pointer); if (!header->IsSkipListBucket()) { assert(header->GetNumEntries() <= threshold_use_skiplist_); return reinterpret_cast( header->next.load(std::memory_order_acquire)); } assert(header->GetNumEntries() > threshold_use_skiplist_); return nullptr; } void HashLinkListRep::Insert(KeyHandle handle) { Node* x = static_cast(handle); assert(!Contains(x->key)); Slice internal_key = GetLengthPrefixedSlice(x->key); auto transformed = GetPrefix(internal_key); auto& bucket = buckets_[GetHash(transformed)]; Pointer* first_next_pointer = static_cast(bucket.load(std::memory_order_relaxed)); if (first_next_pointer == nullptr) { // Case 1. empty bucket // NoBarrier_SetNext() suffices since we will add a barrier when // we publish a pointer to "x" in prev[i]. x->NoBarrier_SetNext(nullptr); bucket.store(x, std::memory_order_release); return; } BucketHeader* header = nullptr; if (first_next_pointer->load(std::memory_order_relaxed) == nullptr) { // Case 2. only one entry in the bucket // Need to convert to a Counting bucket and turn to case 4. Node* first = reinterpret_cast(first_next_pointer); // Need to add a bucket header. // We have to first convert it to a bucket with header before inserting // the new node. Otherwise, we might need to change next pointer of first. // In that case, a reader might sees the next pointer is NULL and wrongly // think the node is a bucket header. auto* mem = allocator_->AllocateAligned(sizeof(BucketHeader)); header = new (mem) BucketHeader(first, 1); bucket.store(header, std::memory_order_release); } else { header = reinterpret_cast(first_next_pointer); if (header->IsSkipListBucket()) { // Case 4. Bucket is already a skip list assert(header->GetNumEntries() > threshold_use_skiplist_); auto* skip_list_bucket_header = reinterpret_cast(header); // Only one thread can execute Insert() at one time. No need to do atomic // incremental. skip_list_bucket_header->Counting_header.IncNumEntries(); skip_list_bucket_header->skip_list.Insert(x->key); return; } } if (bucket_entries_logging_threshold_ > 0 && header->GetNumEntries() == static_cast(bucket_entries_logging_threshold_)) { Info(logger_, "HashLinkedList bucket %" ROCKSDB_PRIszt " has more than %d " "entries. Key to insert: %s", GetHash(transformed), header->GetNumEntries(), GetLengthPrefixedSlice(x->key).ToString(true).c_str()); } if (header->GetNumEntries() == threshold_use_skiplist_) { // Case 3. number of entries reaches the threshold so need to convert to // skip list. LinkListIterator bucket_iter( this, reinterpret_cast( first_next_pointer->load(std::memory_order_relaxed))); auto mem = allocator_->AllocateAligned(sizeof(SkipListBucketHeader)); SkipListBucketHeader* new_skip_list_header = new (mem) SkipListBucketHeader(compare_, allocator_, header->GetNumEntries() + 1); auto& skip_list = new_skip_list_header->skip_list; // Add all current entries to the skip list for (bucket_iter.SeekToHead(); bucket_iter.Valid(); bucket_iter.Next()) { skip_list.Insert(bucket_iter.key()); } // insert the new entry skip_list.Insert(x->key); // Set the bucket bucket.store(new_skip_list_header, std::memory_order_release); } else { // Case 5. Need to insert to the sorted linked list without changing the // header. Node* first = reinterpret_cast(header->next.load(std::memory_order_relaxed)); assert(first != nullptr); // Advance counter unless the bucket needs to be advanced to skip list. // In that case, we need to make sure the previous count never exceeds // threshold_use_skiplist_ to avoid readers to cast to wrong format. header->IncNumEntries(); Node* cur = first; Node* prev = nullptr; while (true) { if (cur == nullptr) { break; } Node* next = cur->Next(); // Make sure the lists are sorted. // If x points to head_ or next points nullptr, it is trivially satisfied. assert((cur == first) || (next == nullptr) || KeyIsAfterNode(next->key, cur)); if (KeyIsAfterNode(internal_key, cur)) { // Keep searching in this list prev = cur; cur = next; } else { break; } } // Our data structure does not allow duplicate insertion assert(cur == nullptr || !Equal(x->key, cur->key)); // NoBarrier_SetNext() suffices since we will add a barrier when // we publish a pointer to "x" in prev[i]. x->NoBarrier_SetNext(cur); if (prev) { prev->SetNext(x); } else { header->next.store(static_cast(x), std::memory_order_release); } } } bool HashLinkListRep::Contains(const char* key) const { Slice internal_key = GetLengthPrefixedSlice(key); auto transformed = GetPrefix(internal_key); auto bucket = GetBucket(transformed); if (bucket == nullptr) { return false; } SkipListBucketHeader* skip_list_header = GetSkipListBucketHeader(bucket); if (skip_list_header != nullptr) { return skip_list_header->skip_list.Contains(key); } else { return LinkListContains(GetLinkListFirstNode(bucket), internal_key); } } size_t HashLinkListRep::ApproximateMemoryUsage() { // Memory is always allocated from the allocator. return 0; } void HashLinkListRep::Get(const LookupKey& k, void* callback_args, bool (*callback_func)(void* arg, const char* entry)) { auto transformed = transform_->Transform(k.user_key()); auto bucket = GetBucket(transformed); auto* skip_list_header = GetSkipListBucketHeader(bucket); if (skip_list_header != nullptr) { // Is a skip list MemtableSkipList::Iterator iter(&skip_list_header->skip_list); for (iter.Seek(k.memtable_key().data()); iter.Valid() && callback_func(callback_args, iter.key()); iter.Next()) { } } else { auto* link_list_head = GetLinkListFirstNode(bucket); if (link_list_head != nullptr) { LinkListIterator iter(this, link_list_head); for (iter.Seek(k.internal_key(), nullptr); iter.Valid() && callback_func(callback_args, iter.key()); iter.Next()) { } } } } MemTableRep::Iterator* HashLinkListRep::GetIterator(Arena* alloc_arena) { // allocate a new arena of similar size to the one currently in use Arena* new_arena = new Arena(allocator_->BlockSize()); auto list = new MemtableSkipList(compare_, new_arena); HistogramImpl keys_per_bucket_hist; for (size_t i = 0; i < bucket_size_; ++i) { int count = 0; auto* bucket = GetBucket(i); if (bucket != nullptr) { auto* skip_list_header = GetSkipListBucketHeader(bucket); if (skip_list_header != nullptr) { // Is a skip list MemtableSkipList::Iterator itr(&skip_list_header->skip_list); for (itr.SeekToFirst(); itr.Valid(); itr.Next()) { list->Insert(itr.key()); count++; } } else { auto* link_list_head = GetLinkListFirstNode(bucket); if (link_list_head != nullptr) { LinkListIterator itr(this, link_list_head); for (itr.SeekToHead(); itr.Valid(); itr.Next()) { list->Insert(itr.key()); count++; } } } } if (if_log_bucket_dist_when_flash_) { keys_per_bucket_hist.Add(count); } } if (if_log_bucket_dist_when_flash_ && logger_ != nullptr) { Info(logger_, "hashLinkedList Entry distribution among buckets: %s", keys_per_bucket_hist.ToString().c_str()); } if (alloc_arena == nullptr) { return new FullListIterator(list, new_arena); } else { auto mem = alloc_arena->AllocateAligned(sizeof(FullListIterator)); return new (mem) FullListIterator(list, new_arena); } } MemTableRep::Iterator* HashLinkListRep::GetDynamicPrefixIterator( Arena* alloc_arena) { if (alloc_arena == nullptr) { return new DynamicIterator(*this); } else { auto mem = alloc_arena->AllocateAligned(sizeof(DynamicIterator)); return new (mem) DynamicIterator(*this); } } bool HashLinkListRep::LinkListContains(Node* head, const Slice& user_key) const { Node* x = FindGreaterOrEqualInBucket(head, user_key); return (x != nullptr && Equal(user_key, x->key)); } Node* HashLinkListRep::FindGreaterOrEqualInBucket(Node* head, const Slice& key) const { Node* x = head; while (true) { if (x == nullptr) { return x; } Node* next = x->Next(); // Make sure the lists are sorted. // If x points to head_ or next points nullptr, it is trivially satisfied. assert((x == head) || (next == nullptr) || KeyIsAfterNode(next->key, x)); if (KeyIsAfterNode(key, x)) { // Keep searching in this list x = next; } else { break; } } return x; } } // anon namespace MemTableRep* HashLinkListRepFactory::CreateMemTableRep( const MemTableRep::KeyComparator& compare, Allocator* allocator, const SliceTransform* transform, Logger* logger) { return new HashLinkListRep(compare, allocator, transform, bucket_count_, threshold_use_skiplist_, huge_page_tlb_size_, logger, bucket_entries_logging_threshold_, if_log_bucket_dist_when_flash_); } MemTableRepFactory* NewHashLinkListRepFactory( size_t bucket_count, size_t huge_page_tlb_size, int bucket_entries_logging_threshold, bool if_log_bucket_dist_when_flash, uint32_t threshold_use_skiplist) { return new HashLinkListRepFactory( bucket_count, threshold_use_skiplist, huge_page_tlb_size, bucket_entries_logging_threshold, if_log_bucket_dist_when_flash); } } // namespace rocksdb #endif // ROCKSDB_LITE rocksdb-5.17.2/memtable/hash_linklist_rep.h000066400000000000000000000035211337235545400207120ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #ifndef ROCKSDB_LITE #include "rocksdb/slice_transform.h" #include "rocksdb/memtablerep.h" namespace rocksdb { class HashLinkListRepFactory : public MemTableRepFactory { public: explicit HashLinkListRepFactory(size_t bucket_count, uint32_t threshold_use_skiplist, size_t huge_page_tlb_size, int bucket_entries_logging_threshold, bool if_log_bucket_dist_when_flash) : bucket_count_(bucket_count), threshold_use_skiplist_(threshold_use_skiplist), huge_page_tlb_size_(huge_page_tlb_size), bucket_entries_logging_threshold_(bucket_entries_logging_threshold), if_log_bucket_dist_when_flash_(if_log_bucket_dist_when_flash) {} virtual ~HashLinkListRepFactory() {} using MemTableRepFactory::CreateMemTableRep; virtual MemTableRep* CreateMemTableRep( const MemTableRep::KeyComparator& compare, Allocator* allocator, const SliceTransform* transform, Logger* logger) override; virtual const char* Name() const override { return "HashLinkListRepFactory"; } private: const size_t bucket_count_; const uint32_t threshold_use_skiplist_; const size_t huge_page_tlb_size_; int bucket_entries_logging_threshold_; bool if_log_bucket_dist_when_flash_; }; } #endif // ROCKSDB_LITE rocksdb-5.17.2/memtable/hash_skiplist_rep.cc000066400000000000000000000262121337235545400210630ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // #ifndef ROCKSDB_LITE #include "memtable/hash_skiplist_rep.h" #include #include "rocksdb/memtablerep.h" #include "util/arena.h" #include "rocksdb/slice.h" #include "rocksdb/slice_transform.h" #include "port/port.h" #include "util/murmurhash.h" #include "db/memtable.h" #include "memtable/skiplist.h" namespace rocksdb { namespace { class HashSkipListRep : public MemTableRep { public: HashSkipListRep(const MemTableRep::KeyComparator& compare, Allocator* allocator, const SliceTransform* transform, size_t bucket_size, int32_t skiplist_height, int32_t skiplist_branching_factor); virtual void Insert(KeyHandle handle) override; virtual bool Contains(const char* key) const override; virtual size_t ApproximateMemoryUsage() override; virtual void Get(const LookupKey& k, void* callback_args, bool (*callback_func)(void* arg, const char* entry)) override; virtual ~HashSkipListRep(); virtual MemTableRep::Iterator* GetIterator(Arena* arena = nullptr) override; virtual MemTableRep::Iterator* GetDynamicPrefixIterator( Arena* arena = nullptr) override; private: friend class DynamicIterator; typedef SkipList Bucket; size_t bucket_size_; const int32_t skiplist_height_; const int32_t skiplist_branching_factor_; // Maps slices (which are transformed user keys) to buckets of keys sharing // the same transform. std::atomic* buckets_; // The user-supplied transform whose domain is the user keys. const SliceTransform* transform_; const MemTableRep::KeyComparator& compare_; // immutable after construction Allocator* const allocator_; inline size_t GetHash(const Slice& slice) const { return MurmurHash(slice.data(), static_cast(slice.size()), 0) % bucket_size_; } inline Bucket* GetBucket(size_t i) const { return buckets_[i].load(std::memory_order_acquire); } inline Bucket* GetBucket(const Slice& slice) const { return GetBucket(GetHash(slice)); } // Get a bucket from buckets_. If the bucket hasn't been initialized yet, // initialize it before returning. Bucket* GetInitializedBucket(const Slice& transformed); class Iterator : public MemTableRep::Iterator { public: explicit Iterator(Bucket* list, bool own_list = true, Arena* arena = nullptr) : list_(list), iter_(list), own_list_(own_list), arena_(arena) {} virtual ~Iterator() { // if we own the list, we should also delete it if (own_list_) { assert(list_ != nullptr); delete list_; } } // Returns true iff the iterator is positioned at a valid node. virtual bool Valid() const override { return list_ != nullptr && iter_.Valid(); } // Returns the key at the current position. // REQUIRES: Valid() virtual const char* key() const override { assert(Valid()); return iter_.key(); } // Advances to the next position. // REQUIRES: Valid() virtual void Next() override { assert(Valid()); iter_.Next(); } // Advances to the previous position. // REQUIRES: Valid() virtual void Prev() override { assert(Valid()); iter_.Prev(); } // Advance to the first entry with a key >= target virtual void Seek(const Slice& internal_key, const char* memtable_key) override { if (list_ != nullptr) { const char* encoded_key = (memtable_key != nullptr) ? memtable_key : EncodeKey(&tmp_, internal_key); iter_.Seek(encoded_key); } } // Retreat to the last entry with a key <= target virtual void SeekForPrev(const Slice& /*internal_key*/, const char* /*memtable_key*/) override { // not supported assert(false); } // Position at the first entry in collection. // Final state of iterator is Valid() iff collection is not empty. virtual void SeekToFirst() override { if (list_ != nullptr) { iter_.SeekToFirst(); } } // Position at the last entry in collection. // Final state of iterator is Valid() iff collection is not empty. virtual void SeekToLast() override { if (list_ != nullptr) { iter_.SeekToLast(); } } protected: void Reset(Bucket* list) { if (own_list_) { assert(list_ != nullptr); delete list_; } list_ = list; iter_.SetList(list); own_list_ = false; } private: // if list_ is nullptr, we should NEVER call any methods on iter_ // if list_ is nullptr, this Iterator is not Valid() Bucket* list_; Bucket::Iterator iter_; // here we track if we own list_. If we own it, we are also // responsible for it's cleaning. This is a poor man's shared_ptr bool own_list_; std::unique_ptr arena_; std::string tmp_; // For passing to EncodeKey }; class DynamicIterator : public HashSkipListRep::Iterator { public: explicit DynamicIterator(const HashSkipListRep& memtable_rep) : HashSkipListRep::Iterator(nullptr, false), memtable_rep_(memtable_rep) {} // Advance to the first entry with a key >= target virtual void Seek(const Slice& k, const char* memtable_key) override { auto transformed = memtable_rep_.transform_->Transform(ExtractUserKey(k)); Reset(memtable_rep_.GetBucket(transformed)); HashSkipListRep::Iterator::Seek(k, memtable_key); } // Position at the first entry in collection. // Final state of iterator is Valid() iff collection is not empty. virtual void SeekToFirst() override { // Prefix iterator does not support total order. // We simply set the iterator to invalid state Reset(nullptr); } // Position at the last entry in collection. // Final state of iterator is Valid() iff collection is not empty. virtual void SeekToLast() override { // Prefix iterator does not support total order. // We simply set the iterator to invalid state Reset(nullptr); } private: // the underlying memtable const HashSkipListRep& memtable_rep_; }; class EmptyIterator : public MemTableRep::Iterator { // This is used when there wasn't a bucket. It is cheaper than // instantiating an empty bucket over which to iterate. public: EmptyIterator() { } virtual bool Valid() const override { return false; } virtual const char* key() const override { assert(false); return nullptr; } virtual void Next() override {} virtual void Prev() override {} virtual void Seek(const Slice& /*internal_key*/, const char* /*memtable_key*/) override {} virtual void SeekForPrev(const Slice& /*internal_key*/, const char* /*memtable_key*/) override {} virtual void SeekToFirst() override {} virtual void SeekToLast() override {} private: }; }; HashSkipListRep::HashSkipListRep(const MemTableRep::KeyComparator& compare, Allocator* allocator, const SliceTransform* transform, size_t bucket_size, int32_t skiplist_height, int32_t skiplist_branching_factor) : MemTableRep(allocator), bucket_size_(bucket_size), skiplist_height_(skiplist_height), skiplist_branching_factor_(skiplist_branching_factor), transform_(transform), compare_(compare), allocator_(allocator) { auto mem = allocator->AllocateAligned( sizeof(std::atomic) * bucket_size); buckets_ = new (mem) std::atomic[bucket_size]; for (size_t i = 0; i < bucket_size_; ++i) { buckets_[i].store(nullptr, std::memory_order_relaxed); } } HashSkipListRep::~HashSkipListRep() { } HashSkipListRep::Bucket* HashSkipListRep::GetInitializedBucket( const Slice& transformed) { size_t hash = GetHash(transformed); auto bucket = GetBucket(hash); if (bucket == nullptr) { auto addr = allocator_->AllocateAligned(sizeof(Bucket)); bucket = new (addr) Bucket(compare_, allocator_, skiplist_height_, skiplist_branching_factor_); buckets_[hash].store(bucket, std::memory_order_release); } return bucket; } void HashSkipListRep::Insert(KeyHandle handle) { auto* key = static_cast(handle); assert(!Contains(key)); auto transformed = transform_->Transform(UserKey(key)); auto bucket = GetInitializedBucket(transformed); bucket->Insert(key); } bool HashSkipListRep::Contains(const char* key) const { auto transformed = transform_->Transform(UserKey(key)); auto bucket = GetBucket(transformed); if (bucket == nullptr) { return false; } return bucket->Contains(key); } size_t HashSkipListRep::ApproximateMemoryUsage() { return 0; } void HashSkipListRep::Get(const LookupKey& k, void* callback_args, bool (*callback_func)(void* arg, const char* entry)) { auto transformed = transform_->Transform(k.user_key()); auto bucket = GetBucket(transformed); if (bucket != nullptr) { Bucket::Iterator iter(bucket); for (iter.Seek(k.memtable_key().data()); iter.Valid() && callback_func(callback_args, iter.key()); iter.Next()) { } } } MemTableRep::Iterator* HashSkipListRep::GetIterator(Arena* arena) { // allocate a new arena of similar size to the one currently in use Arena* new_arena = new Arena(allocator_->BlockSize()); auto list = new Bucket(compare_, new_arena); for (size_t i = 0; i < bucket_size_; ++i) { auto bucket = GetBucket(i); if (bucket != nullptr) { Bucket::Iterator itr(bucket); for (itr.SeekToFirst(); itr.Valid(); itr.Next()) { list->Insert(itr.key()); } } } if (arena == nullptr) { return new Iterator(list, true, new_arena); } else { auto mem = arena->AllocateAligned(sizeof(Iterator)); return new (mem) Iterator(list, true, new_arena); } } MemTableRep::Iterator* HashSkipListRep::GetDynamicPrefixIterator(Arena* arena) { if (arena == nullptr) { return new DynamicIterator(*this); } else { auto mem = arena->AllocateAligned(sizeof(DynamicIterator)); return new (mem) DynamicIterator(*this); } } } // anon namespace MemTableRep* HashSkipListRepFactory::CreateMemTableRep( const MemTableRep::KeyComparator& compare, Allocator* allocator, const SliceTransform* transform, Logger* /*logger*/) { return new HashSkipListRep(compare, allocator, transform, bucket_count_, skiplist_height_, skiplist_branching_factor_); } MemTableRepFactory* NewHashSkipListRepFactory( size_t bucket_count, int32_t skiplist_height, int32_t skiplist_branching_factor) { return new HashSkipListRepFactory(bucket_count, skiplist_height, skiplist_branching_factor); } } // namespace rocksdb #endif // ROCKSDB_LITE rocksdb-5.17.2/memtable/hash_skiplist_rep.h000066400000000000000000000026511337235545400207260ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #ifndef ROCKSDB_LITE #include "rocksdb/slice_transform.h" #include "rocksdb/memtablerep.h" namespace rocksdb { class HashSkipListRepFactory : public MemTableRepFactory { public: explicit HashSkipListRepFactory( size_t bucket_count, int32_t skiplist_height, int32_t skiplist_branching_factor) : bucket_count_(bucket_count), skiplist_height_(skiplist_height), skiplist_branching_factor_(skiplist_branching_factor) { } virtual ~HashSkipListRepFactory() {} using MemTableRepFactory::CreateMemTableRep; virtual MemTableRep* CreateMemTableRep( const MemTableRep::KeyComparator& compare, Allocator* allocator, const SliceTransform* transform, Logger* logger) override; virtual const char* Name() const override { return "HashSkipListRepFactory"; } private: const size_t bucket_count_; const int32_t skiplist_height_; const int32_t skiplist_branching_factor_; }; } #endif // ROCKSDB_LITE rocksdb-5.17.2/memtable/inlineskiplist.h000066400000000000000000001037751337235545400202650ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. Use of // this source code is governed by a BSD-style license that can be found // in the LICENSE file. See the AUTHORS file for names of contributors. // // InlineSkipList is derived from SkipList (skiplist.h), but it optimizes // the memory layout by requiring that the key storage be allocated through // the skip list instance. For the common case of SkipList this saves 1 pointer per skip list node and gives better cache // locality, at the expense of wasted padding from using AllocateAligned // instead of Allocate for the keys. The unused padding will be from // 0 to sizeof(void*)-1 bytes, and the space savings are sizeof(void*) // bytes, so despite the padding the space used is always less than // SkipList. // // Thread safety ------------- // // Writes via Insert require external synchronization, most likely a mutex. // InsertConcurrently can be safely called concurrently with reads and // with other concurrent inserts. Reads require a guarantee that the // InlineSkipList will not be destroyed while the read is in progress. // Apart from that, reads progress without any internal locking or // synchronization. // // Invariants: // // (1) Allocated nodes are never deleted until the InlineSkipList is // destroyed. This is trivially guaranteed by the code since we never // delete any skip list nodes. // // (2) The contents of a Node except for the next/prev pointers are // immutable after the Node has been linked into the InlineSkipList. // Only Insert() modifies the list, and it is careful to initialize a // node and use release-stores to publish the nodes in one or more lists. // // ... prev vs. next pointer ordering ... // #pragma once #include #include #include #include #include #include "port/likely.h" #include "port/port.h" #include "rocksdb/slice.h" #include "util/allocator.h" #include "util/coding.h" #include "util/random.h" namespace rocksdb { template class InlineSkipList { private: struct Node; struct Splice; public: using DecodedKey = \ typename std::remove_reference::type::DecodedType; static const uint16_t kMaxPossibleHeight = 32; // Create a new InlineSkipList object that will use "cmp" for comparing // keys, and will allocate memory using "*allocator". Objects allocated // in the allocator must remain allocated for the lifetime of the // skiplist object. explicit InlineSkipList(Comparator cmp, Allocator* allocator, int32_t max_height = 12, int32_t branching_factor = 4); // Allocates a key and a skip-list node, returning a pointer to the key // portion of the node. This method is thread-safe if the allocator // is thread-safe. char* AllocateKey(size_t key_size); // Allocate a splice using allocator. Splice* AllocateSplice(); // Inserts a key allocated by AllocateKey, after the actual key value // has been filled in. // // REQUIRES: nothing that compares equal to key is currently in the list. // REQUIRES: no concurrent calls to any of inserts. bool Insert(const char* key); // Inserts a key allocated by AllocateKey with a hint of last insert // position in the skip-list. If hint points to nullptr, a new hint will be // populated, which can be used in subsequent calls. // // It can be used to optimize the workload where there are multiple groups // of keys, and each key is likely to insert to a location close to the last // inserted key in the same group. One example is sequential inserts. // // REQUIRES: nothing that compares equal to key is currently in the list. // REQUIRES: no concurrent calls to any of inserts. bool InsertWithHint(const char* key, void** hint); // Like Insert, but external synchronization is not required. bool InsertConcurrently(const char* key); // Inserts a node into the skip list. key must have been allocated by // AllocateKey and then filled in by the caller. If UseCAS is true, // then external synchronization is not required, otherwise this method // may not be called concurrently with any other insertions. // // Regardless of whether UseCAS is true, the splice must be owned // exclusively by the current thread. If allow_partial_splice_fix is // true, then the cost of insertion is amortized O(log D), where D is // the distance from the splice to the inserted key (measured as the // number of intervening nodes). Note that this bound is very good for // sequential insertions! If allow_partial_splice_fix is false then // the existing splice will be ignored unless the current key is being // inserted immediately after the splice. allow_partial_splice_fix == // false has worse running time for the non-sequential case O(log N), // but a better constant factor. template bool Insert(const char* key, Splice* splice, bool allow_partial_splice_fix); // Returns true iff an entry that compares equal to key is in the list. bool Contains(const char* key) const; // Return estimated number of entries smaller than `key`. uint64_t EstimateCount(const char* key) const; // Validate correctness of the skip-list. void TEST_Validate() const; // Iteration over the contents of a skip list class Iterator { public: // Initialize an iterator over the specified list. // The returned iterator is not valid. explicit Iterator(const InlineSkipList* list); // Change the underlying skiplist used for this iterator // This enables us not changing the iterator without deallocating // an old one and then allocating a new one void SetList(const InlineSkipList* list); // Returns true iff the iterator is positioned at a valid node. bool Valid() const; // Returns the key at the current position. // REQUIRES: Valid() const char* key() const; // Advances to the next position. // REQUIRES: Valid() void Next(); // Advances to the previous position. // REQUIRES: Valid() void Prev(); // Advance to the first entry with a key >= target void Seek(const char* target); // Retreat to the last entry with a key <= target void SeekForPrev(const char* target); // Position at the first entry in list. // Final state of iterator is Valid() iff list is not empty. void SeekToFirst(); // Position at the last entry in list. // Final state of iterator is Valid() iff list is not empty. void SeekToLast(); private: const InlineSkipList* list_; Node* node_; // Intentionally copyable }; private: const uint16_t kMaxHeight_; const uint16_t kBranching_; const uint32_t kScaledInverseBranching_; Allocator* const allocator_; // Allocator used for allocations of nodes // Immutable after construction Comparator const compare_; Node* const head_; // Modified only by Insert(). Read racily by readers, but stale // values are ok. std::atomic max_height_; // Height of the entire list // seq_splice_ is a Splice used for insertions in the non-concurrent // case. It caches the prev and next found during the most recent // non-concurrent insertion. Splice* seq_splice_; inline int GetMaxHeight() const { return max_height_.load(std::memory_order_relaxed); } int RandomHeight(); Node* AllocateNode(size_t key_size, int height); bool Equal(const char* a, const char* b) const { return (compare_(a, b) == 0); } bool LessThan(const char* a, const char* b) const { return (compare_(a, b) < 0); } // Return true if key is greater than the data stored in "n". Null n // is considered infinite. n should not be head_. bool KeyIsAfterNode(const char* key, Node* n) const; bool KeyIsAfterNode(const DecodedKey& key, Node* n) const; // Returns the earliest node with a key >= key. // Return nullptr if there is no such node. Node* FindGreaterOrEqual(const char* key) const; // Return the latest node with a key < key. // Return head_ if there is no such node. // Fills prev[level] with pointer to previous node at "level" for every // level in [0..max_height_-1], if prev is non-null. Node* FindLessThan(const char* key, Node** prev = nullptr) const; // Return the latest node with a key < key on bottom_level. Start searching // from root node on the level below top_level. // Fills prev[level] with pointer to previous node at "level" for every // level in [bottom_level..top_level-1], if prev is non-null. Node* FindLessThan(const char* key, Node** prev, Node* root, int top_level, int bottom_level) const; // Return the last node in the list. // Return head_ if list is empty. Node* FindLast() const; // Traverses a single level of the list, setting *out_prev to the last // node before the key and *out_next to the first node after. Assumes // that the key is not present in the skip list. On entry, before should // point to a node that is before the key, and after should point to // a node that is after the key. after should be nullptr if a good after // node isn't conveniently available. template void FindSpliceForLevel(const DecodedKey& key, Node* before, Node* after, int level, Node** out_prev, Node** out_next); // Recomputes Splice levels from highest_level (inclusive) down to // lowest_level (inclusive). void RecomputeSpliceLevels(const DecodedKey& key, Splice* splice, int recompute_level); // No copying allowed InlineSkipList(const InlineSkipList&); InlineSkipList& operator=(const InlineSkipList&); }; // Implementation details follow template struct InlineSkipList::Splice { // The invariant of a Splice is that prev_[i+1].key <= prev_[i].key < // next_[i].key <= next_[i+1].key for all i. That means that if a // key is bracketed by prev_[i] and next_[i] then it is bracketed by // all higher levels. It is _not_ required that prev_[i]->Next(i) == // next_[i] (it probably did at some point in the past, but intervening // or concurrent operations might have inserted nodes in between). int height_ = 0; Node** prev_; Node** next_; }; // The Node data type is more of a pointer into custom-managed memory than // a traditional C++ struct. The key is stored in the bytes immediately // after the struct, and the next_ pointers for nodes with height > 1 are // stored immediately _before_ the struct. This avoids the need to include // any pointer or sizing data, which reduces per-node memory overheads. template struct InlineSkipList::Node { // Stores the height of the node in the memory location normally used for // next_[0]. This is used for passing data from AllocateKey to Insert. void StashHeight(const int height) { assert(sizeof(int) <= sizeof(next_[0])); memcpy(static_cast(&next_[0]), &height, sizeof(int)); } // Retrieves the value passed to StashHeight. Undefined after a call // to SetNext or NoBarrier_SetNext. int UnstashHeight() const { int rv; memcpy(&rv, &next_[0], sizeof(int)); return rv; } const char* Key() const { return reinterpret_cast(&next_[1]); } // Accessors/mutators for links. Wrapped in methods so we can add // the appropriate barriers as necessary, and perform the necessary // addressing trickery for storing links below the Node in memory. Node* Next(int n) { assert(n >= 0); // Use an 'acquire load' so that we observe a fully initialized // version of the returned Node. return ((&next_[0] - n)->load(std::memory_order_acquire)); } void SetNext(int n, Node* x) { assert(n >= 0); // Use a 'release store' so that anybody who reads through this // pointer observes a fully initialized version of the inserted node. (&next_[0] - n)->store(x, std::memory_order_release); } bool CASNext(int n, Node* expected, Node* x) { assert(n >= 0); return (&next_[0] - n)->compare_exchange_strong(expected, x); } // No-barrier variants that can be safely used in a few locations. Node* NoBarrier_Next(int n) { assert(n >= 0); return (&next_[0] - n)->load(std::memory_order_relaxed); } void NoBarrier_SetNext(int n, Node* x) { assert(n >= 0); (&next_[0] - n)->store(x, std::memory_order_relaxed); } // Insert node after prev on specific level. void InsertAfter(Node* prev, int level) { // NoBarrier_SetNext() suffices since we will add a barrier when // we publish a pointer to "this" in prev. NoBarrier_SetNext(level, prev->NoBarrier_Next(level)); prev->SetNext(level, this); } private: // next_[0] is the lowest level link (level 0). Higher levels are // stored _earlier_, so level 1 is at next_[-1]. std::atomic next_[1]; }; template inline InlineSkipList::Iterator::Iterator( const InlineSkipList* list) { SetList(list); } template inline void InlineSkipList::Iterator::SetList( const InlineSkipList* list) { list_ = list; node_ = nullptr; } template inline bool InlineSkipList::Iterator::Valid() const { return node_ != nullptr; } template inline const char* InlineSkipList::Iterator::key() const { assert(Valid()); return node_->Key(); } template inline void InlineSkipList::Iterator::Next() { assert(Valid()); node_ = node_->Next(0); } template inline void InlineSkipList::Iterator::Prev() { // Instead of using explicit "prev" links, we just search for the // last node that falls before key. assert(Valid()); node_ = list_->FindLessThan(node_->Key()); if (node_ == list_->head_) { node_ = nullptr; } } template inline void InlineSkipList::Iterator::Seek(const char* target) { node_ = list_->FindGreaterOrEqual(target); } template inline void InlineSkipList::Iterator::SeekForPrev( const char* target) { Seek(target); if (!Valid()) { SeekToLast(); } while (Valid() && list_->LessThan(target, key())) { Prev(); } } template inline void InlineSkipList::Iterator::SeekToFirst() { node_ = list_->head_->Next(0); } template inline void InlineSkipList::Iterator::SeekToLast() { node_ = list_->FindLast(); if (node_ == list_->head_) { node_ = nullptr; } } template int InlineSkipList::RandomHeight() { auto rnd = Random::GetTLSInstance(); // Increase height with probability 1 in kBranching int height = 1; while (height < kMaxHeight_ && height < kMaxPossibleHeight && rnd->Next() < kScaledInverseBranching_) { height++; } assert(height > 0); assert(height <= kMaxHeight_); assert(height <= kMaxPossibleHeight); return height; } template bool InlineSkipList::KeyIsAfterNode(const char* key, Node* n) const { // nullptr n is considered infinite assert(n != head_); return (n != nullptr) && (compare_(n->Key(), key) < 0); } template bool InlineSkipList::KeyIsAfterNode(const DecodedKey& key, Node* n) const { // nullptr n is considered infinite assert(n != head_); return (n != nullptr) && (compare_(n->Key(), key) < 0); } template typename InlineSkipList::Node* InlineSkipList::FindGreaterOrEqual(const char* key) const { // Note: It looks like we could reduce duplication by implementing // this function as FindLessThan(key)->Next(0), but we wouldn't be able // to exit early on equality and the result wouldn't even be correct. // A concurrent insert might occur after FindLessThan(key) but before // we get a chance to call Next(0). Node* x = head_; int level = GetMaxHeight() - 1; Node* last_bigger = nullptr; const DecodedKey key_decoded = compare_.decode_key(key); while (true) { Node* next = x->Next(level); if (next != nullptr) { PREFETCH(next->Next(level), 0, 1); } // Make sure the lists are sorted assert(x == head_ || next == nullptr || KeyIsAfterNode(next->Key(), x)); // Make sure we haven't overshot during our search assert(x == head_ || KeyIsAfterNode(key_decoded, x)); int cmp = (next == nullptr || next == last_bigger) ? 1 : compare_(next->Key(), key_decoded); if (cmp == 0 || (cmp > 0 && level == 0)) { return next; } else if (cmp < 0) { // Keep searching in this list x = next; } else { // Switch to next list, reuse compare_() result last_bigger = next; level--; } } } template typename InlineSkipList::Node* InlineSkipList::FindLessThan(const char* key, Node** prev) const { return FindLessThan(key, prev, head_, GetMaxHeight(), 0); } template typename InlineSkipList::Node* InlineSkipList::FindLessThan(const char* key, Node** prev, Node* root, int top_level, int bottom_level) const { assert(top_level > bottom_level); int level = top_level - 1; Node* x = root; // KeyIsAfter(key, last_not_after) is definitely false Node* last_not_after = nullptr; const DecodedKey key_decoded = compare_.decode_key(key); while (true) { assert(x != nullptr); Node* next = x->Next(level); if (next != nullptr) { PREFETCH(next->Next(level), 0, 1); } assert(x == head_ || next == nullptr || KeyIsAfterNode(next->Key(), x)); assert(x == head_ || KeyIsAfterNode(key_decoded, x)); if (next != last_not_after && KeyIsAfterNode(key_decoded, next)) { // Keep searching in this list assert(next != nullptr); x = next; } else { if (prev != nullptr) { prev[level] = x; } if (level == bottom_level) { return x; } else { // Switch to next list, reuse KeyIsAfterNode() result last_not_after = next; level--; } } } } template typename InlineSkipList::Node* InlineSkipList::FindLast() const { Node* x = head_; int level = GetMaxHeight() - 1; while (true) { Node* next = x->Next(level); if (next == nullptr) { if (level == 0) { return x; } else { // Switch to next list level--; } } else { x = next; } } } template uint64_t InlineSkipList::EstimateCount(const char* key) const { uint64_t count = 0; Node* x = head_; int level = GetMaxHeight() - 1; const DecodedKey key_decoded = compare_.decode_key(key); while (true) { assert(x == head_ || compare_(x->Key(), key_decoded) < 0); Node* next = x->Next(level); if (next != nullptr) { PREFETCH(next->Next(level), 0, 1); } if (next == nullptr || compare_(next->Key(), key_decoded) >= 0) { if (level == 0) { return count; } else { // Switch to next list count *= kBranching_; level--; } } else { x = next; count++; } } } template InlineSkipList::InlineSkipList(const Comparator cmp, Allocator* allocator, int32_t max_height, int32_t branching_factor) : kMaxHeight_(static_cast(max_height)), kBranching_(static_cast(branching_factor)), kScaledInverseBranching_((Random::kMaxNext + 1) / kBranching_), allocator_(allocator), compare_(cmp), head_(AllocateNode(0, max_height)), max_height_(1), seq_splice_(AllocateSplice()) { assert(max_height > 0 && kMaxHeight_ == static_cast(max_height)); assert(branching_factor > 1 && kBranching_ == static_cast(branching_factor)); assert(kScaledInverseBranching_ > 0); for (int i = 0; i < kMaxHeight_; ++i) { head_->SetNext(i, nullptr); } } template char* InlineSkipList::AllocateKey(size_t key_size) { return const_cast(AllocateNode(key_size, RandomHeight())->Key()); } template typename InlineSkipList::Node* InlineSkipList::AllocateNode(size_t key_size, int height) { auto prefix = sizeof(std::atomic) * (height - 1); // prefix is space for the height - 1 pointers that we store before // the Node instance (next_[-(height - 1) .. -1]). Node starts at // raw + prefix, and holds the bottom-mode (level 0) skip list pointer // next_[0]. key_size is the bytes for the key, which comes just after // the Node. char* raw = allocator_->AllocateAligned(prefix + sizeof(Node) + key_size); Node* x = reinterpret_cast(raw + prefix); // Once we've linked the node into the skip list we don't actually need // to know its height, because we can implicitly use the fact that we // traversed into a node at level h to known that h is a valid level // for that node. We need to convey the height to the Insert step, // however, so that it can perform the proper links. Since we're not // using the pointers at the moment, StashHeight temporarily borrow // storage from next_[0] for that purpose. x->StashHeight(height); return x; } template typename InlineSkipList::Splice* InlineSkipList::AllocateSplice() { // size of prev_ and next_ size_t array_size = sizeof(Node*) * (kMaxHeight_ + 1); char* raw = allocator_->AllocateAligned(sizeof(Splice) + array_size * 2); Splice* splice = reinterpret_cast(raw); splice->height_ = 0; splice->prev_ = reinterpret_cast(raw + sizeof(Splice)); splice->next_ = reinterpret_cast(raw + sizeof(Splice) + array_size); return splice; } template bool InlineSkipList::Insert(const char* key) { return Insert(key, seq_splice_, false); } template bool InlineSkipList::InsertConcurrently(const char* key) { Node* prev[kMaxPossibleHeight]; Node* next[kMaxPossibleHeight]; Splice splice; splice.prev_ = prev; splice.next_ = next; return Insert(key, &splice, false); } template bool InlineSkipList::InsertWithHint(const char* key, void** hint) { assert(hint != nullptr); Splice* splice = reinterpret_cast(*hint); if (splice == nullptr) { splice = AllocateSplice(); *hint = reinterpret_cast(splice); } return Insert(key, splice, true); } template template void InlineSkipList::FindSpliceForLevel(const DecodedKey& key, Node* before, Node* after, int level, Node** out_prev, Node** out_next) { while (true) { Node* next = before->Next(level); if (next != nullptr) { PREFETCH(next->Next(level), 0, 1); } if (prefetch_before == true) { if (next != nullptr && level>0) { PREFETCH(next->Next(level-1), 0, 1); } } assert(before == head_ || next == nullptr || KeyIsAfterNode(next->Key(), before)); assert(before == head_ || KeyIsAfterNode(key, before)); if (next == after || !KeyIsAfterNode(key, next)) { // found it *out_prev = before; *out_next = next; return; } before = next; } } template void InlineSkipList::RecomputeSpliceLevels(const DecodedKey& key, Splice* splice, int recompute_level) { assert(recompute_level > 0); assert(recompute_level <= splice->height_); for (int i = recompute_level - 1; i >= 0; --i) { FindSpliceForLevel(key, splice->prev_[i + 1], splice->next_[i + 1], i, &splice->prev_[i], &splice->next_[i]); } } template template bool InlineSkipList::Insert(const char* key, Splice* splice, bool allow_partial_splice_fix) { Node* x = reinterpret_cast(const_cast(key)) - 1; const DecodedKey key_decoded = compare_.decode_key(key); int height = x->UnstashHeight(); assert(height >= 1 && height <= kMaxHeight_); int max_height = max_height_.load(std::memory_order_relaxed); while (height > max_height) { if (max_height_.compare_exchange_weak(max_height, height)) { // successfully updated it max_height = height; break; } // else retry, possibly exiting the loop because somebody else // increased it } assert(max_height <= kMaxPossibleHeight); int recompute_height = 0; if (splice->height_ < max_height) { // Either splice has never been used or max_height has grown since // last use. We could potentially fix it in the latter case, but // that is tricky. splice->prev_[max_height] = head_; splice->next_[max_height] = nullptr; splice->height_ = max_height; recompute_height = max_height; } else { // Splice is a valid proper-height splice that brackets some // key, but does it bracket this one? We need to validate it and // recompute a portion of the splice (levels 0..recompute_height-1) // that is a superset of all levels that don't bracket the new key. // Several choices are reasonable, because we have to balance the work // saved against the extra comparisons required to validate the Splice. // // One strategy is just to recompute all of orig_splice_height if the // bottom level isn't bracketing. This pessimistically assumes that // we will either get a perfect Splice hit (increasing sequential // inserts) or have no locality. // // Another strategy is to walk up the Splice's levels until we find // a level that brackets the key. This strategy lets the Splice // hint help for other cases: it turns insertion from O(log N) into // O(log D), where D is the number of nodes in between the key that // produced the Splice and the current insert (insertion is aided // whether the new key is before or after the splice). If you have // a way of using a prefix of the key to map directly to the closest // Splice out of O(sqrt(N)) Splices and we make it so that splices // can also be used as hints during read, then we end up with Oshman's // and Shavit's SkipTrie, which has O(log log N) lookup and insertion // (compare to O(log N) for skip list). // // We control the pessimistic strategy with allow_partial_splice_fix. // A good strategy is probably to be pessimistic for seq_splice_, // optimistic if the caller actually went to the work of providing // a Splice. while (recompute_height < max_height) { if (splice->prev_[recompute_height]->Next(recompute_height) != splice->next_[recompute_height]) { // splice isn't tight at this level, there must have been some inserts // to this // location that didn't update the splice. We might only be a little // stale, but if // the splice is very stale it would be O(N) to fix it. We haven't used // up any of // our budget of comparisons, so always move up even if we are // pessimistic about // our chances of success. ++recompute_height; } else if (splice->prev_[recompute_height] != head_ && !KeyIsAfterNode(key_decoded, splice->prev_[recompute_height])) { // key is from before splice if (allow_partial_splice_fix) { // skip all levels with the same node without more comparisons Node* bad = splice->prev_[recompute_height]; while (splice->prev_[recompute_height] == bad) { ++recompute_height; } } else { // we're pessimistic, recompute everything recompute_height = max_height; } } else if (KeyIsAfterNode(key_decoded, splice->next_[recompute_height])) { // key is from after splice if (allow_partial_splice_fix) { Node* bad = splice->next_[recompute_height]; while (splice->next_[recompute_height] == bad) { ++recompute_height; } } else { recompute_height = max_height; } } else { // this level brackets the key, we won! break; } } } assert(recompute_height <= max_height); if (recompute_height > 0) { RecomputeSpliceLevels(key_decoded, splice, recompute_height); } bool splice_is_valid = true; if (UseCAS) { for (int i = 0; i < height; ++i) { while (true) { // Checking for duplicate keys on the level 0 is sufficient if (UNLIKELY(i == 0 && splice->next_[i] != nullptr && compare_(x->Key(), splice->next_[i]->Key()) >= 0)) { // duplicate key return false; } if (UNLIKELY(i == 0 && splice->prev_[i] != head_ && compare_(splice->prev_[i]->Key(), x->Key()) >= 0)) { // duplicate key return false; } assert(splice->next_[i] == nullptr || compare_(x->Key(), splice->next_[i]->Key()) < 0); assert(splice->prev_[i] == head_ || compare_(splice->prev_[i]->Key(), x->Key()) < 0); x->NoBarrier_SetNext(i, splice->next_[i]); if (splice->prev_[i]->CASNext(i, splice->next_[i], x)) { // success break; } // CAS failed, we need to recompute prev and next. It is unlikely // to be helpful to try to use a different level as we redo the // search, because it should be unlikely that lots of nodes have // been inserted between prev[i] and next[i]. No point in using // next[i] as the after hint, because we know it is stale. FindSpliceForLevel(key_decoded, splice->prev_[i], nullptr, i, &splice->prev_[i], &splice->next_[i]); // Since we've narrowed the bracket for level i, we might have // violated the Splice constraint between i and i-1. Make sure // we recompute the whole thing next time. if (i > 0) { splice_is_valid = false; } } } } else { for (int i = 0; i < height; ++i) { if (i >= recompute_height && splice->prev_[i]->Next(i) != splice->next_[i]) { FindSpliceForLevel(key_decoded, splice->prev_[i], nullptr, i, &splice->prev_[i], &splice->next_[i]); } // Checking for duplicate keys on the level 0 is sufficient if (UNLIKELY(i == 0 && splice->next_[i] != nullptr && compare_(x->Key(), splice->next_[i]->Key()) >= 0)) { // duplicate key return false; } if (UNLIKELY(i == 0 && splice->prev_[i] != head_ && compare_(splice->prev_[i]->Key(), x->Key()) >= 0)) { // duplicate key return false; } assert(splice->next_[i] == nullptr || compare_(x->Key(), splice->next_[i]->Key()) < 0); assert(splice->prev_[i] == head_ || compare_(splice->prev_[i]->Key(), x->Key()) < 0); assert(splice->prev_[i]->Next(i) == splice->next_[i]); x->NoBarrier_SetNext(i, splice->next_[i]); splice->prev_[i]->SetNext(i, x); } } if (splice_is_valid) { for (int i = 0; i < height; ++i) { splice->prev_[i] = x; } assert(splice->prev_[splice->height_] == head_); assert(splice->next_[splice->height_] == nullptr); for (int i = 0; i < splice->height_; ++i) { assert(splice->next_[i] == nullptr || compare_(key, splice->next_[i]->Key()) < 0); assert(splice->prev_[i] == head_ || compare_(splice->prev_[i]->Key(), key) <= 0); assert(splice->prev_[i + 1] == splice->prev_[i] || splice->prev_[i + 1] == head_ || compare_(splice->prev_[i + 1]->Key(), splice->prev_[i]->Key()) < 0); assert(splice->next_[i + 1] == splice->next_[i] || splice->next_[i + 1] == nullptr || compare_(splice->next_[i]->Key(), splice->next_[i + 1]->Key()) < 0); } } else { splice->height_ = 0; } return true; } template bool InlineSkipList::Contains(const char* key) const { Node* x = FindGreaterOrEqual(key); if (x != nullptr && Equal(key, x->Key())) { return true; } else { return false; } } template void InlineSkipList::TEST_Validate() const { // Interate over all levels at the same time, and verify nodes appear in // the right order, and nodes appear in upper level also appear in lower // levels. Node* nodes[kMaxPossibleHeight]; int max_height = GetMaxHeight(); assert(max_height > 0); for (int i = 0; i < max_height; i++) { nodes[i] = head_; } while (nodes[0] != nullptr) { Node* l0_next = nodes[0]->Next(0); if (l0_next == nullptr) { break; } assert(nodes[0] == head_ || compare_(nodes[0]->Key(), l0_next->Key()) < 0); nodes[0] = l0_next; int i = 1; while (i < max_height) { Node* next = nodes[i]->Next(i); if (next == nullptr) { break; } auto cmp = compare_(nodes[0]->Key(), next->Key()); assert(cmp <= 0); if (cmp == 0) { assert(next == nodes[0]); nodes[i] = next; } else { break; } i++; } } for (int i = 1; i < max_height; i++) { assert(nodes[i] != nullptr && nodes[i]->Next(i) == nullptr); } } } // namespace rocksdb rocksdb-5.17.2/memtable/inlineskiplist_test.cc000066400000000000000000000422711337235545400214530ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "memtable/inlineskiplist.h" #include #include #include "rocksdb/env.h" #include "util/concurrent_arena.h" #include "util/hash.h" #include "util/random.h" #include "util/testharness.h" namespace rocksdb { // Our test skip list stores 8-byte unsigned integers typedef uint64_t Key; static const char* Encode(const uint64_t* key) { return reinterpret_cast(key); } static Key Decode(const char* key) { Key rv; memcpy(&rv, key, sizeof(Key)); return rv; } struct TestComparator { typedef Key DecodedType; static DecodedType decode_key(const char* b) { return Decode(b); } int operator()(const char* a, const char* b) const { if (Decode(a) < Decode(b)) { return -1; } else if (Decode(a) > Decode(b)) { return +1; } else { return 0; } } int operator()(const char* a, const DecodedType b) const { if (Decode(a) < b) { return -1; } else if (Decode(a) > b) { return +1; } else { return 0; } } }; typedef InlineSkipList TestInlineSkipList; class InlineSkipTest : public testing::Test { public: void Insert(TestInlineSkipList* list, Key key) { char* buf = list->AllocateKey(sizeof(Key)); memcpy(buf, &key, sizeof(Key)); list->Insert(buf); keys_.insert(key); } bool InsertWithHint(TestInlineSkipList* list, Key key, void** hint) { char* buf = list->AllocateKey(sizeof(Key)); memcpy(buf, &key, sizeof(Key)); bool res = list->InsertWithHint(buf, hint); keys_.insert(key); return res; } void Validate(TestInlineSkipList* list) { // Check keys exist. for (Key key : keys_) { ASSERT_TRUE(list->Contains(Encode(&key))); } // Iterate over the list, make sure keys appears in order and no extra // keys exist. TestInlineSkipList::Iterator iter(list); ASSERT_FALSE(iter.Valid()); Key zero = 0; iter.Seek(Encode(&zero)); for (Key key : keys_) { ASSERT_TRUE(iter.Valid()); ASSERT_EQ(key, Decode(iter.key())); iter.Next(); } ASSERT_FALSE(iter.Valid()); // Validate the list is well-formed. list->TEST_Validate(); } private: std::set keys_; }; TEST_F(InlineSkipTest, Empty) { Arena arena; TestComparator cmp; InlineSkipList list(cmp, &arena); Key key = 10; ASSERT_TRUE(!list.Contains(Encode(&key))); InlineSkipList::Iterator iter(&list); ASSERT_TRUE(!iter.Valid()); iter.SeekToFirst(); ASSERT_TRUE(!iter.Valid()); key = 100; iter.Seek(Encode(&key)); ASSERT_TRUE(!iter.Valid()); iter.SeekForPrev(Encode(&key)); ASSERT_TRUE(!iter.Valid()); iter.SeekToLast(); ASSERT_TRUE(!iter.Valid()); } TEST_F(InlineSkipTest, InsertAndLookup) { const int N = 2000; const int R = 5000; Random rnd(1000); std::set keys; ConcurrentArena arena; TestComparator cmp; InlineSkipList list(cmp, &arena); for (int i = 0; i < N; i++) { Key key = rnd.Next() % R; if (keys.insert(key).second) { char* buf = list.AllocateKey(sizeof(Key)); memcpy(buf, &key, sizeof(Key)); list.Insert(buf); } } for (Key i = 0; i < R; i++) { if (list.Contains(Encode(&i))) { ASSERT_EQ(keys.count(i), 1U); } else { ASSERT_EQ(keys.count(i), 0U); } } // Simple iterator tests { InlineSkipList::Iterator iter(&list); ASSERT_TRUE(!iter.Valid()); uint64_t zero = 0; iter.Seek(Encode(&zero)); ASSERT_TRUE(iter.Valid()); ASSERT_EQ(*(keys.begin()), Decode(iter.key())); uint64_t max_key = R - 1; iter.SeekForPrev(Encode(&max_key)); ASSERT_TRUE(iter.Valid()); ASSERT_EQ(*(keys.rbegin()), Decode(iter.key())); iter.SeekToFirst(); ASSERT_TRUE(iter.Valid()); ASSERT_EQ(*(keys.begin()), Decode(iter.key())); iter.SeekToLast(); ASSERT_TRUE(iter.Valid()); ASSERT_EQ(*(keys.rbegin()), Decode(iter.key())); } // Forward iteration test for (Key i = 0; i < R; i++) { InlineSkipList::Iterator iter(&list); iter.Seek(Encode(&i)); // Compare against model iterator std::set::iterator model_iter = keys.lower_bound(i); for (int j = 0; j < 3; j++) { if (model_iter == keys.end()) { ASSERT_TRUE(!iter.Valid()); break; } else { ASSERT_TRUE(iter.Valid()); ASSERT_EQ(*model_iter, Decode(iter.key())); ++model_iter; iter.Next(); } } } // Backward iteration test for (Key i = 0; i < R; i++) { InlineSkipList::Iterator iter(&list); iter.SeekForPrev(Encode(&i)); // Compare against model iterator std::set::iterator model_iter = keys.upper_bound(i); for (int j = 0; j < 3; j++) { if (model_iter == keys.begin()) { ASSERT_TRUE(!iter.Valid()); break; } else { ASSERT_TRUE(iter.Valid()); ASSERT_EQ(*--model_iter, Decode(iter.key())); iter.Prev(); } } } } TEST_F(InlineSkipTest, InsertWithHint_Sequential) { const int N = 100000; Arena arena; TestComparator cmp; TestInlineSkipList list(cmp, &arena); void* hint = nullptr; for (int i = 0; i < N; i++) { Key key = i; InsertWithHint(&list, key, &hint); } Validate(&list); } TEST_F(InlineSkipTest, InsertWithHint_MultipleHints) { const int N = 100000; const int S = 100; Random rnd(534); Arena arena; TestComparator cmp; TestInlineSkipList list(cmp, &arena); void* hints[S]; Key last_key[S]; for (int i = 0; i < S; i++) { hints[i] = nullptr; last_key[i] = 0; } for (int i = 0; i < N; i++) { Key s = rnd.Uniform(S); Key key = (s << 32) + (++last_key[s]); InsertWithHint(&list, key, &hints[s]); } Validate(&list); } TEST_F(InlineSkipTest, InsertWithHint_MultipleHintsRandom) { const int N = 100000; const int S = 100; Random rnd(534); Arena arena; TestComparator cmp; TestInlineSkipList list(cmp, &arena); void* hints[S]; for (int i = 0; i < S; i++) { hints[i] = nullptr; } for (int i = 0; i < N; i++) { Key s = rnd.Uniform(S); Key key = (s << 32) + rnd.Next(); InsertWithHint(&list, key, &hints[s]); } Validate(&list); } TEST_F(InlineSkipTest, InsertWithHint_CompatibleWithInsertWithoutHint) { const int N = 100000; const int S1 = 100; const int S2 = 100; Random rnd(534); Arena arena; TestComparator cmp; TestInlineSkipList list(cmp, &arena); std::unordered_set used; Key with_hint[S1]; Key without_hint[S2]; void* hints[S1]; for (int i = 0; i < S1; i++) { hints[i] = nullptr; while (true) { Key s = rnd.Next(); if (used.insert(s).second) { with_hint[i] = s; break; } } } for (int i = 0; i < S2; i++) { while (true) { Key s = rnd.Next(); if (used.insert(s).second) { without_hint[i] = s; break; } } } for (int i = 0; i < N; i++) { Key s = rnd.Uniform(S1 + S2); if (s < S1) { Key key = (with_hint[s] << 32) + rnd.Next(); InsertWithHint(&list, key, &hints[s]); } else { Key key = (without_hint[s - S1] << 32) + rnd.Next(); Insert(&list, key); } } Validate(&list); } #ifndef ROCKSDB_VALGRIND_RUN // We want to make sure that with a single writer and multiple // concurrent readers (with no synchronization other than when a // reader's iterator is created), the reader always observes all the // data that was present in the skip list when the iterator was // constructor. Because insertions are happening concurrently, we may // also observe new values that were inserted since the iterator was // constructed, but we should never miss any values that were present // at iterator construction time. // // We generate multi-part keys: // // where: // key is in range [0..K-1] // gen is a generation number for key // hash is hash(key,gen) // // The insertion code picks a random key, sets gen to be 1 + the last // generation number inserted for that key, and sets hash to Hash(key,gen). // // At the beginning of a read, we snapshot the last inserted // generation number for each key. We then iterate, including random // calls to Next() and Seek(). For every key we encounter, we // check that it is either expected given the initial snapshot or has // been concurrently added since the iterator started. class ConcurrentTest { public: static const uint32_t K = 8; private: static uint64_t key(Key key) { return (key >> 40); } static uint64_t gen(Key key) { return (key >> 8) & 0xffffffffu; } static uint64_t hash(Key key) { return key & 0xff; } static uint64_t HashNumbers(uint64_t k, uint64_t g) { uint64_t data[2] = {k, g}; return Hash(reinterpret_cast(data), sizeof(data), 0); } static Key MakeKey(uint64_t k, uint64_t g) { assert(sizeof(Key) == sizeof(uint64_t)); assert(k <= K); // We sometimes pass K to seek to the end of the skiplist assert(g <= 0xffffffffu); return ((k << 40) | (g << 8) | (HashNumbers(k, g) & 0xff)); } static bool IsValidKey(Key k) { return hash(k) == (HashNumbers(key(k), gen(k)) & 0xff); } static Key RandomTarget(Random* rnd) { switch (rnd->Next() % 10) { case 0: // Seek to beginning return MakeKey(0, 0); case 1: // Seek to end return MakeKey(K, 0); default: // Seek to middle return MakeKey(rnd->Next() % K, 0); } } // Per-key generation struct State { std::atomic generation[K]; void Set(int k, int v) { generation[k].store(v, std::memory_order_release); } int Get(int k) { return generation[k].load(std::memory_order_acquire); } State() { for (unsigned int k = 0; k < K; k++) { Set(k, 0); } } }; // Current state of the test State current_; ConcurrentArena arena_; // InlineSkipList is not protected by mu_. We just use a single writer // thread to modify it. InlineSkipList list_; public: ConcurrentTest() : list_(TestComparator(), &arena_) {} // REQUIRES: No concurrent calls to WriteStep or ConcurrentWriteStep void WriteStep(Random* rnd) { const uint32_t k = rnd->Next() % K; const int g = current_.Get(k) + 1; const Key new_key = MakeKey(k, g); char* buf = list_.AllocateKey(sizeof(Key)); memcpy(buf, &new_key, sizeof(Key)); list_.Insert(buf); current_.Set(k, g); } // REQUIRES: No concurrent calls for the same k void ConcurrentWriteStep(uint32_t k) { const int g = current_.Get(k) + 1; const Key new_key = MakeKey(k, g); char* buf = list_.AllocateKey(sizeof(Key)); memcpy(buf, &new_key, sizeof(Key)); list_.InsertConcurrently(buf); ASSERT_EQ(g, current_.Get(k) + 1); current_.Set(k, g); } void ReadStep(Random* rnd) { // Remember the initial committed state of the skiplist. State initial_state; for (unsigned int k = 0; k < K; k++) { initial_state.Set(k, current_.Get(k)); } Key pos = RandomTarget(rnd); InlineSkipList::Iterator iter(&list_); iter.Seek(Encode(&pos)); while (true) { Key current; if (!iter.Valid()) { current = MakeKey(K, 0); } else { current = Decode(iter.key()); ASSERT_TRUE(IsValidKey(current)) << current; } ASSERT_LE(pos, current) << "should not go backwards"; // Verify that everything in [pos,current) was not present in // initial_state. while (pos < current) { ASSERT_LT(key(pos), K) << pos; // Note that generation 0 is never inserted, so it is ok if // <*,0,*> is missing. ASSERT_TRUE((gen(pos) == 0U) || (gen(pos) > static_cast(initial_state.Get( static_cast(key(pos)))))) << "key: " << key(pos) << "; gen: " << gen(pos) << "; initgen: " << initial_state.Get(static_cast(key(pos))); // Advance to next key in the valid key space if (key(pos) < key(current)) { pos = MakeKey(key(pos) + 1, 0); } else { pos = MakeKey(key(pos), gen(pos) + 1); } } if (!iter.Valid()) { break; } if (rnd->Next() % 2) { iter.Next(); pos = MakeKey(key(pos), gen(pos) + 1); } else { Key new_target = RandomTarget(rnd); if (new_target > pos) { pos = new_target; iter.Seek(Encode(&new_target)); } } } } }; const uint32_t ConcurrentTest::K; // Simple test that does single-threaded testing of the ConcurrentTest // scaffolding. TEST_F(InlineSkipTest, ConcurrentReadWithoutThreads) { ConcurrentTest test; Random rnd(test::RandomSeed()); for (int i = 0; i < 10000; i++) { test.ReadStep(&rnd); test.WriteStep(&rnd); } } TEST_F(InlineSkipTest, ConcurrentInsertWithoutThreads) { ConcurrentTest test; Random rnd(test::RandomSeed()); for (int i = 0; i < 10000; i++) { test.ReadStep(&rnd); uint32_t base = rnd.Next(); for (int j = 0; j < 4; ++j) { test.ConcurrentWriteStep((base + j) % ConcurrentTest::K); } } } class TestState { public: ConcurrentTest t_; int seed_; std::atomic quit_flag_; std::atomic next_writer_; enum ReaderState { STARTING, RUNNING, DONE }; explicit TestState(int s) : seed_(s), quit_flag_(false), state_(STARTING), pending_writers_(0), state_cv_(&mu_) {} void Wait(ReaderState s) { mu_.Lock(); while (state_ != s) { state_cv_.Wait(); } mu_.Unlock(); } void Change(ReaderState s) { mu_.Lock(); state_ = s; state_cv_.Signal(); mu_.Unlock(); } void AdjustPendingWriters(int delta) { mu_.Lock(); pending_writers_ += delta; if (pending_writers_ == 0) { state_cv_.Signal(); } mu_.Unlock(); } void WaitForPendingWriters() { mu_.Lock(); while (pending_writers_ != 0) { state_cv_.Wait(); } mu_.Unlock(); } private: port::Mutex mu_; ReaderState state_; int pending_writers_; port::CondVar state_cv_; }; static void ConcurrentReader(void* arg) { TestState* state = reinterpret_cast(arg); Random rnd(state->seed_); int64_t reads = 0; state->Change(TestState::RUNNING); while (!state->quit_flag_.load(std::memory_order_acquire)) { state->t_.ReadStep(&rnd); ++reads; } state->Change(TestState::DONE); } static void ConcurrentWriter(void* arg) { TestState* state = reinterpret_cast(arg); uint32_t k = state->next_writer_++ % ConcurrentTest::K; state->t_.ConcurrentWriteStep(k); state->AdjustPendingWriters(-1); } static void RunConcurrentRead(int run) { const int seed = test::RandomSeed() + (run * 100); Random rnd(seed); const int N = 1000; const int kSize = 1000; for (int i = 0; i < N; i++) { if ((i % 100) == 0) { fprintf(stderr, "Run %d of %d\n", i, N); } TestState state(seed + 1); Env::Default()->SetBackgroundThreads(1); Env::Default()->Schedule(ConcurrentReader, &state); state.Wait(TestState::RUNNING); for (int k = 0; k < kSize; ++k) { state.t_.WriteStep(&rnd); } state.quit_flag_.store(true, std::memory_order_release); state.Wait(TestState::DONE); } } static void RunConcurrentInsert(int run, int write_parallelism = 4) { Env::Default()->SetBackgroundThreads(1 + write_parallelism, Env::Priority::LOW); const int seed = test::RandomSeed() + (run * 100); Random rnd(seed); const int N = 1000; const int kSize = 1000; for (int i = 0; i < N; i++) { if ((i % 100) == 0) { fprintf(stderr, "Run %d of %d\n", i, N); } TestState state(seed + 1); Env::Default()->Schedule(ConcurrentReader, &state); state.Wait(TestState::RUNNING); for (int k = 0; k < kSize; k += write_parallelism) { state.next_writer_ = rnd.Next(); state.AdjustPendingWriters(write_parallelism); for (int p = 0; p < write_parallelism; ++p) { Env::Default()->Schedule(ConcurrentWriter, &state); } state.WaitForPendingWriters(); } state.quit_flag_.store(true, std::memory_order_release); state.Wait(TestState::DONE); } } TEST_F(InlineSkipTest, ConcurrentRead1) { RunConcurrentRead(1); } TEST_F(InlineSkipTest, ConcurrentRead2) { RunConcurrentRead(2); } TEST_F(InlineSkipTest, ConcurrentRead3) { RunConcurrentRead(3); } TEST_F(InlineSkipTest, ConcurrentRead4) { RunConcurrentRead(4); } TEST_F(InlineSkipTest, ConcurrentRead5) { RunConcurrentRead(5); } TEST_F(InlineSkipTest, ConcurrentInsert1) { RunConcurrentInsert(1); } TEST_F(InlineSkipTest, ConcurrentInsert2) { RunConcurrentInsert(2); } TEST_F(InlineSkipTest, ConcurrentInsert3) { RunConcurrentInsert(3); } #endif // ROCKSDB_VALGRIND_RUN } // namespace rocksdb int main(int argc, char** argv) { ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/memtable/memtablerep_bench.cc000066400000000000000000000602521337235545400210060ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #ifndef __STDC_FORMAT_MACROS #define __STDC_FORMAT_MACROS #endif #ifndef GFLAGS #include int main() { fprintf(stderr, "Please install gflags to run rocksdb tools\n"); return 1; } #else #include #include #include #include #include #include #include "db/dbformat.h" #include "db/memtable.h" #include "port/port.h" #include "port/stack_trace.h" #include "rocksdb/comparator.h" #include "rocksdb/memtablerep.h" #include "rocksdb/options.h" #include "rocksdb/slice_transform.h" #include "rocksdb/write_buffer_manager.h" #include "util/arena.h" #include "util/gflags_compat.h" #include "util/mutexlock.h" #include "util/stop_watch.h" #include "util/testutil.h" using GFLAGS_NAMESPACE::ParseCommandLineFlags; using GFLAGS_NAMESPACE::RegisterFlagValidator; using GFLAGS_NAMESPACE::SetUsageMessage; DEFINE_string(benchmarks, "fillrandom", "Comma-separated list of benchmarks to run. Options:\n" "\tfillrandom -- write N random values\n" "\tfillseq -- write N values in sequential order\n" "\treadrandom -- read N values in random order\n" "\treadseq -- scan the DB\n" "\treadwrite -- 1 thread writes while N - 1 threads " "do random\n" "\t reads\n" "\tseqreadwrite -- 1 thread writes while N - 1 threads " "do scans\n"); DEFINE_string(memtablerep, "skiplist", "Which implementation of memtablerep to use. See " "include/memtablerep.h for\n" " more details. Options:\n" "\tskiplist -- backed by a skiplist\n" "\tvector -- backed by an std::vector\n" "\thashskiplist -- backed by a hash skip list\n" "\thashlinklist -- backed by a hash linked list\n" "\tcuckoo -- backed by a cuckoo hash table"); DEFINE_int64(bucket_count, 1000000, "bucket_count parameter to pass into NewHashSkiplistRepFactory or " "NewHashLinkListRepFactory"); DEFINE_int32( hashskiplist_height, 4, "skiplist_height parameter to pass into NewHashSkiplistRepFactory"); DEFINE_int32( hashskiplist_branching_factor, 4, "branching_factor parameter to pass into NewHashSkiplistRepFactory"); DEFINE_int32( huge_page_tlb_size, 0, "huge_page_tlb_size parameter to pass into NewHashLinkListRepFactory"); DEFINE_int32(bucket_entries_logging_threshold, 4096, "bucket_entries_logging_threshold parameter to pass into " "NewHashLinkListRepFactory"); DEFINE_bool(if_log_bucket_dist_when_flash, true, "if_log_bucket_dist_when_flash parameter to pass into " "NewHashLinkListRepFactory"); DEFINE_int32( threshold_use_skiplist, 256, "threshold_use_skiplist parameter to pass into NewHashLinkListRepFactory"); DEFINE_int64( write_buffer_size, 256, "write_buffer_size parameter to pass into NewHashCuckooRepFactory"); DEFINE_int64( average_data_size, 64, "average_data_size parameter to pass into NewHashCuckooRepFactory"); DEFINE_int64( hash_function_count, 4, "hash_function_count parameter to pass into NewHashCuckooRepFactory"); DEFINE_int32( num_threads, 1, "Number of concurrent threads to run. If the benchmark includes writes,\n" "then at most one thread will be a writer"); DEFINE_int32(num_operations, 1000000, "Number of operations to do for write and random read benchmarks"); DEFINE_int32(num_scans, 10, "Number of times for each thread to scan the memtablerep for " "sequential read " "benchmarks"); DEFINE_int32(item_size, 100, "Number of bytes each item should be"); DEFINE_int32(prefix_length, 8, "Prefix length to pass into NewFixedPrefixTransform"); /* VectorRep settings */ DEFINE_int64(vectorrep_count, 0, "Number of entries to reserve on VectorRep initialization"); DEFINE_int64(seed, 0, "Seed base for random number generators. " "When 0 it is deterministic."); namespace rocksdb { namespace { struct CallbackVerifyArgs { bool found; LookupKey* key; MemTableRep* table; InternalKeyComparator* comparator; }; } // namespace // Helper for quickly generating random data. class RandomGenerator { private: std::string data_; unsigned int pos_; public: RandomGenerator() { Random rnd(301); auto size = (unsigned)std::max(1048576, FLAGS_item_size); test::RandomString(&rnd, size, &data_); pos_ = 0; } Slice Generate(unsigned int len) { assert(len <= data_.size()); if (pos_ + len > data_.size()) { pos_ = 0; } pos_ += len; return Slice(data_.data() + pos_ - len, len); } }; enum WriteMode { SEQUENTIAL, RANDOM, UNIQUE_RANDOM }; class KeyGenerator { public: KeyGenerator(Random64* rand, WriteMode mode, uint64_t num) : rand_(rand), mode_(mode), num_(num), next_(0) { if (mode_ == UNIQUE_RANDOM) { // NOTE: if memory consumption of this approach becomes a concern, // we can either break it into pieces and only random shuffle a section // each time. Alternatively, use a bit map implementation // (https://reviews.facebook.net/differential/diff/54627/) values_.resize(num_); for (uint64_t i = 0; i < num_; ++i) { values_[i] = i; } std::shuffle( values_.begin(), values_.end(), std::default_random_engine(static_cast(FLAGS_seed))); } } uint64_t Next() { switch (mode_) { case SEQUENTIAL: return next_++; case RANDOM: return rand_->Next() % num_; case UNIQUE_RANDOM: return values_[next_++]; } assert(false); return std::numeric_limits::max(); } private: Random64* rand_; WriteMode mode_; const uint64_t num_; uint64_t next_; std::vector values_; }; class BenchmarkThread { public: explicit BenchmarkThread(MemTableRep* table, KeyGenerator* key_gen, uint64_t* bytes_written, uint64_t* bytes_read, uint64_t* sequence, uint64_t num_ops, uint64_t* read_hits) : table_(table), key_gen_(key_gen), bytes_written_(bytes_written), bytes_read_(bytes_read), sequence_(sequence), num_ops_(num_ops), read_hits_(read_hits) {} virtual void operator()() = 0; virtual ~BenchmarkThread() {} protected: MemTableRep* table_; KeyGenerator* key_gen_; uint64_t* bytes_written_; uint64_t* bytes_read_; uint64_t* sequence_; uint64_t num_ops_; uint64_t* read_hits_; RandomGenerator generator_; }; class FillBenchmarkThread : public BenchmarkThread { public: FillBenchmarkThread(MemTableRep* table, KeyGenerator* key_gen, uint64_t* bytes_written, uint64_t* bytes_read, uint64_t* sequence, uint64_t num_ops, uint64_t* read_hits) : BenchmarkThread(table, key_gen, bytes_written, bytes_read, sequence, num_ops, read_hits) {} void FillOne() { char* buf = nullptr; auto internal_key_size = 16; auto encoded_len = FLAGS_item_size + VarintLength(internal_key_size) + internal_key_size; KeyHandle handle = table_->Allocate(encoded_len, &buf); assert(buf != nullptr); char* p = EncodeVarint32(buf, internal_key_size); auto key = key_gen_->Next(); EncodeFixed64(p, key); p += 8; EncodeFixed64(p, ++(*sequence_)); p += 8; Slice bytes = generator_.Generate(FLAGS_item_size); memcpy(p, bytes.data(), FLAGS_item_size); p += FLAGS_item_size; assert(p == buf + encoded_len); table_->Insert(handle); *bytes_written_ += encoded_len; } void operator()() override { for (unsigned int i = 0; i < num_ops_; ++i) { FillOne(); } } }; class ConcurrentFillBenchmarkThread : public FillBenchmarkThread { public: ConcurrentFillBenchmarkThread(MemTableRep* table, KeyGenerator* key_gen, uint64_t* bytes_written, uint64_t* bytes_read, uint64_t* sequence, uint64_t num_ops, uint64_t* read_hits, std::atomic_int* threads_done) : FillBenchmarkThread(table, key_gen, bytes_written, bytes_read, sequence, num_ops, read_hits) { threads_done_ = threads_done; } void operator()() override { // # of read threads will be total threads - write threads (always 1). Loop // while all reads complete. while ((*threads_done_).load() < (FLAGS_num_threads - 1)) { FillOne(); } } private: std::atomic_int* threads_done_; }; class ReadBenchmarkThread : public BenchmarkThread { public: ReadBenchmarkThread(MemTableRep* table, KeyGenerator* key_gen, uint64_t* bytes_written, uint64_t* bytes_read, uint64_t* sequence, uint64_t num_ops, uint64_t* read_hits) : BenchmarkThread(table, key_gen, bytes_written, bytes_read, sequence, num_ops, read_hits) {} static bool callback(void* arg, const char* entry) { CallbackVerifyArgs* callback_args = static_cast(arg); assert(callback_args != nullptr); uint32_t key_length; const char* key_ptr = GetVarint32Ptr(entry, entry + 5, &key_length); if ((callback_args->comparator) ->user_comparator() ->Equal(Slice(key_ptr, key_length - 8), callback_args->key->user_key())) { callback_args->found = true; } return false; } void ReadOne() { std::string user_key; auto key = key_gen_->Next(); PutFixed64(&user_key, key); LookupKey lookup_key(user_key, *sequence_); InternalKeyComparator internal_key_comp(BytewiseComparator()); CallbackVerifyArgs verify_args; verify_args.found = false; verify_args.key = &lookup_key; verify_args.table = table_; verify_args.comparator = &internal_key_comp; table_->Get(lookup_key, &verify_args, callback); if (verify_args.found) { *bytes_read_ += VarintLength(16) + 16 + FLAGS_item_size; ++*read_hits_; } } void operator()() override { for (unsigned int i = 0; i < num_ops_; ++i) { ReadOne(); } } }; class SeqReadBenchmarkThread : public BenchmarkThread { public: SeqReadBenchmarkThread(MemTableRep* table, KeyGenerator* key_gen, uint64_t* bytes_written, uint64_t* bytes_read, uint64_t* sequence, uint64_t num_ops, uint64_t* read_hits) : BenchmarkThread(table, key_gen, bytes_written, bytes_read, sequence, num_ops, read_hits) {} void ReadOneSeq() { std::unique_ptr iter(table_->GetIterator()); for (iter->SeekToFirst(); iter->Valid(); iter->Next()) { // pretend to read the value *bytes_read_ += VarintLength(16) + 16 + FLAGS_item_size; } ++*read_hits_; } void operator()() override { for (unsigned int i = 0; i < num_ops_; ++i) { { ReadOneSeq(); } } } }; class ConcurrentReadBenchmarkThread : public ReadBenchmarkThread { public: ConcurrentReadBenchmarkThread(MemTableRep* table, KeyGenerator* key_gen, uint64_t* bytes_written, uint64_t* bytes_read, uint64_t* sequence, uint64_t num_ops, uint64_t* read_hits, std::atomic_int* threads_done) : ReadBenchmarkThread(table, key_gen, bytes_written, bytes_read, sequence, num_ops, read_hits) { threads_done_ = threads_done; } void operator()() override { for (unsigned int i = 0; i < num_ops_; ++i) { ReadOne(); } ++*threads_done_; } private: std::atomic_int* threads_done_; }; class SeqConcurrentReadBenchmarkThread : public SeqReadBenchmarkThread { public: SeqConcurrentReadBenchmarkThread(MemTableRep* table, KeyGenerator* key_gen, uint64_t* bytes_written, uint64_t* bytes_read, uint64_t* sequence, uint64_t num_ops, uint64_t* read_hits, std::atomic_int* threads_done) : SeqReadBenchmarkThread(table, key_gen, bytes_written, bytes_read, sequence, num_ops, read_hits) { threads_done_ = threads_done; } void operator()() override { for (unsigned int i = 0; i < num_ops_; ++i) { ReadOneSeq(); } ++*threads_done_; } private: std::atomic_int* threads_done_; }; class Benchmark { public: explicit Benchmark(MemTableRep* table, KeyGenerator* key_gen, uint64_t* sequence, uint32_t num_threads) : table_(table), key_gen_(key_gen), sequence_(sequence), num_threads_(num_threads) {} virtual ~Benchmark() {} virtual void Run() { std::cout << "Number of threads: " << num_threads_ << std::endl; std::vector threads; uint64_t bytes_written = 0; uint64_t bytes_read = 0; uint64_t read_hits = 0; StopWatchNano timer(Env::Default(), true); RunThreads(&threads, &bytes_written, &bytes_read, true, &read_hits); auto elapsed_time = static_cast(timer.ElapsedNanos() / 1000); std::cout << "Elapsed time: " << static_cast(elapsed_time) << " us" << std::endl; if (bytes_written > 0) { auto MiB_written = static_cast(bytes_written) / (1 << 20); auto write_throughput = MiB_written / (elapsed_time / 1000000); std::cout << "Total bytes written: " << MiB_written << " MiB" << std::endl; std::cout << "Write throughput: " << write_throughput << " MiB/s" << std::endl; auto us_per_op = elapsed_time / num_write_ops_per_thread_; std::cout << "write us/op: " << us_per_op << std::endl; } if (bytes_read > 0) { auto MiB_read = static_cast(bytes_read) / (1 << 20); auto read_throughput = MiB_read / (elapsed_time / 1000000); std::cout << "Total bytes read: " << MiB_read << " MiB" << std::endl; std::cout << "Read throughput: " << read_throughput << " MiB/s" << std::endl; auto us_per_op = elapsed_time / num_read_ops_per_thread_; std::cout << "read us/op: " << us_per_op << std::endl; } } virtual void RunThreads(std::vector* threads, uint64_t* bytes_written, uint64_t* bytes_read, bool write, uint64_t* read_hits) = 0; protected: MemTableRep* table_; KeyGenerator* key_gen_; uint64_t* sequence_; uint64_t num_write_ops_per_thread_; uint64_t num_read_ops_per_thread_; const uint32_t num_threads_; }; class FillBenchmark : public Benchmark { public: explicit FillBenchmark(MemTableRep* table, KeyGenerator* key_gen, uint64_t* sequence) : Benchmark(table, key_gen, sequence, 1) { num_write_ops_per_thread_ = FLAGS_num_operations; } void RunThreads(std::vector* /*threads*/, uint64_t* bytes_written, uint64_t* bytes_read, bool /*write*/, uint64_t* read_hits) override { FillBenchmarkThread(table_, key_gen_, bytes_written, bytes_read, sequence_, num_write_ops_per_thread_, read_hits)(); } }; class ReadBenchmark : public Benchmark { public: explicit ReadBenchmark(MemTableRep* table, KeyGenerator* key_gen, uint64_t* sequence) : Benchmark(table, key_gen, sequence, FLAGS_num_threads) { num_read_ops_per_thread_ = FLAGS_num_operations / FLAGS_num_threads; } void RunThreads(std::vector* threads, uint64_t* bytes_written, uint64_t* bytes_read, bool /*write*/, uint64_t* read_hits) override { for (int i = 0; i < FLAGS_num_threads; ++i) { threads->emplace_back( ReadBenchmarkThread(table_, key_gen_, bytes_written, bytes_read, sequence_, num_read_ops_per_thread_, read_hits)); } for (auto& thread : *threads) { thread.join(); } std::cout << "read hit%: " << (static_cast(*read_hits) / FLAGS_num_operations) * 100 << std::endl; } }; class SeqReadBenchmark : public Benchmark { public: explicit SeqReadBenchmark(MemTableRep* table, uint64_t* sequence) : Benchmark(table, nullptr, sequence, FLAGS_num_threads) { num_read_ops_per_thread_ = FLAGS_num_scans; } void RunThreads(std::vector* threads, uint64_t* bytes_written, uint64_t* bytes_read, bool /*write*/, uint64_t* read_hits) override { for (int i = 0; i < FLAGS_num_threads; ++i) { threads->emplace_back(SeqReadBenchmarkThread( table_, key_gen_, bytes_written, bytes_read, sequence_, num_read_ops_per_thread_, read_hits)); } for (auto& thread : *threads) { thread.join(); } } }; template class ReadWriteBenchmark : public Benchmark { public: explicit ReadWriteBenchmark(MemTableRep* table, KeyGenerator* key_gen, uint64_t* sequence) : Benchmark(table, key_gen, sequence, FLAGS_num_threads) { num_read_ops_per_thread_ = FLAGS_num_threads <= 1 ? 0 : (FLAGS_num_operations / (FLAGS_num_threads - 1)); num_write_ops_per_thread_ = FLAGS_num_operations; } void RunThreads(std::vector* threads, uint64_t* bytes_written, uint64_t* bytes_read, bool /*write*/, uint64_t* read_hits) override { std::atomic_int threads_done; threads_done.store(0); threads->emplace_back(ConcurrentFillBenchmarkThread( table_, key_gen_, bytes_written, bytes_read, sequence_, num_write_ops_per_thread_, read_hits, &threads_done)); for (int i = 1; i < FLAGS_num_threads; ++i) { threads->emplace_back( ReadThreadType(table_, key_gen_, bytes_written, bytes_read, sequence_, num_read_ops_per_thread_, read_hits, &threads_done)); } for (auto& thread : *threads) { thread.join(); } } }; } // namespace rocksdb void PrintWarnings() { #if defined(__GNUC__) && !defined(__OPTIMIZE__) fprintf(stdout, "WARNING: Optimization is disabled: benchmarks unnecessarily slow\n"); #endif #ifndef NDEBUG fprintf(stdout, "WARNING: Assertions are enabled; benchmarks unnecessarily slow\n"); #endif } int main(int argc, char** argv) { rocksdb::port::InstallStackTraceHandler(); SetUsageMessage(std::string("\nUSAGE:\n") + std::string(argv[0]) + " [OPTIONS]..."); ParseCommandLineFlags(&argc, &argv, true); PrintWarnings(); rocksdb::Options options; std::unique_ptr factory; if (FLAGS_memtablerep == "skiplist") { factory.reset(new rocksdb::SkipListFactory); #ifndef ROCKSDB_LITE } else if (FLAGS_memtablerep == "vector") { factory.reset(new rocksdb::VectorRepFactory); } else if (FLAGS_memtablerep == "hashskiplist") { factory.reset(rocksdb::NewHashSkipListRepFactory( FLAGS_bucket_count, FLAGS_hashskiplist_height, FLAGS_hashskiplist_branching_factor)); options.prefix_extractor.reset( rocksdb::NewFixedPrefixTransform(FLAGS_prefix_length)); } else if (FLAGS_memtablerep == "hashlinklist") { factory.reset(rocksdb::NewHashLinkListRepFactory( FLAGS_bucket_count, FLAGS_huge_page_tlb_size, FLAGS_bucket_entries_logging_threshold, FLAGS_if_log_bucket_dist_when_flash, FLAGS_threshold_use_skiplist)); options.prefix_extractor.reset( rocksdb::NewFixedPrefixTransform(FLAGS_prefix_length)); } else if (FLAGS_memtablerep == "cuckoo") { factory.reset(rocksdb::NewHashCuckooRepFactory( FLAGS_write_buffer_size, FLAGS_average_data_size, static_cast(FLAGS_hash_function_count))); options.prefix_extractor.reset( rocksdb::NewFixedPrefixTransform(FLAGS_prefix_length)); #endif // ROCKSDB_LITE } else { fprintf(stdout, "Unknown memtablerep: %s\n", FLAGS_memtablerep.c_str()); exit(1); } rocksdb::InternalKeyComparator internal_key_comp( rocksdb::BytewiseComparator()); rocksdb::MemTable::KeyComparator key_comp(internal_key_comp); rocksdb::Arena arena; rocksdb::WriteBufferManager wb(FLAGS_write_buffer_size); uint64_t sequence; auto createMemtableRep = [&] { sequence = 0; return factory->CreateMemTableRep(key_comp, &arena, options.prefix_extractor.get(), options.info_log.get()); }; std::unique_ptr memtablerep; rocksdb::Random64 rng(FLAGS_seed); const char* benchmarks = FLAGS_benchmarks.c_str(); while (benchmarks != nullptr) { std::unique_ptr key_gen; const char* sep = strchr(benchmarks, ','); rocksdb::Slice name; if (sep == nullptr) { name = benchmarks; benchmarks = nullptr; } else { name = rocksdb::Slice(benchmarks, sep - benchmarks); benchmarks = sep + 1; } std::unique_ptr benchmark; if (name == rocksdb::Slice("fillseq")) { memtablerep.reset(createMemtableRep()); key_gen.reset(new rocksdb::KeyGenerator(&rng, rocksdb::SEQUENTIAL, FLAGS_num_operations)); benchmark.reset(new rocksdb::FillBenchmark(memtablerep.get(), key_gen.get(), &sequence)); } else if (name == rocksdb::Slice("fillrandom")) { memtablerep.reset(createMemtableRep()); key_gen.reset(new rocksdb::KeyGenerator(&rng, rocksdb::UNIQUE_RANDOM, FLAGS_num_operations)); benchmark.reset(new rocksdb::FillBenchmark(memtablerep.get(), key_gen.get(), &sequence)); } else if (name == rocksdb::Slice("readrandom")) { key_gen.reset(new rocksdb::KeyGenerator(&rng, rocksdb::RANDOM, FLAGS_num_operations)); benchmark.reset(new rocksdb::ReadBenchmark(memtablerep.get(), key_gen.get(), &sequence)); } else if (name == rocksdb::Slice("readseq")) { key_gen.reset(new rocksdb::KeyGenerator(&rng, rocksdb::SEQUENTIAL, FLAGS_num_operations)); benchmark.reset( new rocksdb::SeqReadBenchmark(memtablerep.get(), &sequence)); } else if (name == rocksdb::Slice("readwrite")) { memtablerep.reset(createMemtableRep()); key_gen.reset(new rocksdb::KeyGenerator(&rng, rocksdb::RANDOM, FLAGS_num_operations)); benchmark.reset(new rocksdb::ReadWriteBenchmark< rocksdb::ConcurrentReadBenchmarkThread>(memtablerep.get(), key_gen.get(), &sequence)); } else if (name == rocksdb::Slice("seqreadwrite")) { memtablerep.reset(createMemtableRep()); key_gen.reset(new rocksdb::KeyGenerator(&rng, rocksdb::RANDOM, FLAGS_num_operations)); benchmark.reset(new rocksdb::ReadWriteBenchmark< rocksdb::SeqConcurrentReadBenchmarkThread>(memtablerep.get(), key_gen.get(), &sequence)); } else { std::cout << "WARNING: skipping unknown benchmark '" << name.ToString() << std::endl; continue; } std::cout << "Running " << name.ToString() << std::endl; benchmark->Run(); } return 0; } #endif // GFLAGS rocksdb-5.17.2/memtable/skiplist.h000066400000000000000000000371661337235545400170660ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. // // Thread safety // ------------- // // Writes require external synchronization, most likely a mutex. // Reads require a guarantee that the SkipList will not be destroyed // while the read is in progress. Apart from that, reads progress // without any internal locking or synchronization. // // Invariants: // // (1) Allocated nodes are never deleted until the SkipList is // destroyed. This is trivially guaranteed by the code since we // never delete any skip list nodes. // // (2) The contents of a Node except for the next/prev pointers are // immutable after the Node has been linked into the SkipList. // Only Insert() modifies the list, and it is careful to initialize // a node and use release-stores to publish the nodes in one or // more lists. // // ... prev vs. next pointer ordering ... // #pragma once #include #include #include #include "port/port.h" #include "util/allocator.h" #include "util/random.h" namespace rocksdb { template class SkipList { private: struct Node; public: // Create a new SkipList object that will use "cmp" for comparing keys, // and will allocate memory using "*allocator". Objects allocated in the // allocator must remain allocated for the lifetime of the skiplist object. explicit SkipList(Comparator cmp, Allocator* allocator, int32_t max_height = 12, int32_t branching_factor = 4); // Insert key into the list. // REQUIRES: nothing that compares equal to key is currently in the list. void Insert(const Key& key); // Returns true iff an entry that compares equal to key is in the list. bool Contains(const Key& key) const; // Return estimated number of entries smaller than `key`. uint64_t EstimateCount(const Key& key) const; // Iteration over the contents of a skip list class Iterator { public: // Initialize an iterator over the specified list. // The returned iterator is not valid. explicit Iterator(const SkipList* list); // Change the underlying skiplist used for this iterator // This enables us not changing the iterator without deallocating // an old one and then allocating a new one void SetList(const SkipList* list); // Returns true iff the iterator is positioned at a valid node. bool Valid() const; // Returns the key at the current position. // REQUIRES: Valid() const Key& key() const; // Advances to the next position. // REQUIRES: Valid() void Next(); // Advances to the previous position. // REQUIRES: Valid() void Prev(); // Advance to the first entry with a key >= target void Seek(const Key& target); // Retreat to the last entry with a key <= target void SeekForPrev(const Key& target); // Position at the first entry in list. // Final state of iterator is Valid() iff list is not empty. void SeekToFirst(); // Position at the last entry in list. // Final state of iterator is Valid() iff list is not empty. void SeekToLast(); private: const SkipList* list_; Node* node_; // Intentionally copyable }; private: const uint16_t kMaxHeight_; const uint16_t kBranching_; const uint32_t kScaledInverseBranching_; // Immutable after construction Comparator const compare_; Allocator* const allocator_; // Allocator used for allocations of nodes Node* const head_; // Modified only by Insert(). Read racily by readers, but stale // values are ok. std::atomic max_height_; // Height of the entire list // Used for optimizing sequential insert patterns. Tricky. prev_[i] for // i up to max_height_ is the predecessor of prev_[0] and prev_height_ // is the height of prev_[0]. prev_[0] can only be equal to head before // insertion, in which case max_height_ and prev_height_ are 1. Node** prev_; int32_t prev_height_; inline int GetMaxHeight() const { return max_height_.load(std::memory_order_relaxed); } Node* NewNode(const Key& key, int height); int RandomHeight(); bool Equal(const Key& a, const Key& b) const { return (compare_(a, b) == 0); } bool LessThan(const Key& a, const Key& b) const { return (compare_(a, b) < 0); } // Return true if key is greater than the data stored in "n" bool KeyIsAfterNode(const Key& key, Node* n) const; // Returns the earliest node with a key >= key. // Return nullptr if there is no such node. Node* FindGreaterOrEqual(const Key& key) const; // Return the latest node with a key < key. // Return head_ if there is no such node. // Fills prev[level] with pointer to previous node at "level" for every // level in [0..max_height_-1], if prev is non-null. Node* FindLessThan(const Key& key, Node** prev = nullptr) const; // Return the last node in the list. // Return head_ if list is empty. Node* FindLast() const; // No copying allowed SkipList(const SkipList&); void operator=(const SkipList&); }; // Implementation details follow template struct SkipList::Node { explicit Node(const Key& k) : key(k) { } Key const key; // Accessors/mutators for links. Wrapped in methods so we can // add the appropriate barriers as necessary. Node* Next(int n) { assert(n >= 0); // Use an 'acquire load' so that we observe a fully initialized // version of the returned Node. return (next_[n].load(std::memory_order_acquire)); } void SetNext(int n, Node* x) { assert(n >= 0); // Use a 'release store' so that anybody who reads through this // pointer observes a fully initialized version of the inserted node. next_[n].store(x, std::memory_order_release); } // No-barrier variants that can be safely used in a few locations. Node* NoBarrier_Next(int n) { assert(n >= 0); return next_[n].load(std::memory_order_relaxed); } void NoBarrier_SetNext(int n, Node* x) { assert(n >= 0); next_[n].store(x, std::memory_order_relaxed); } private: // Array of length equal to the node height. next_[0] is lowest level link. std::atomic next_[1]; }; template typename SkipList::Node* SkipList::NewNode(const Key& key, int height) { char* mem = allocator_->AllocateAligned( sizeof(Node) + sizeof(std::atomic) * (height - 1)); return new (mem) Node(key); } template inline SkipList::Iterator::Iterator(const SkipList* list) { SetList(list); } template inline void SkipList::Iterator::SetList(const SkipList* list) { list_ = list; node_ = nullptr; } template inline bool SkipList::Iterator::Valid() const { return node_ != nullptr; } template inline const Key& SkipList::Iterator::key() const { assert(Valid()); return node_->key; } template inline void SkipList::Iterator::Next() { assert(Valid()); node_ = node_->Next(0); } template inline void SkipList::Iterator::Prev() { // Instead of using explicit "prev" links, we just search for the // last node that falls before key. assert(Valid()); node_ = list_->FindLessThan(node_->key); if (node_ == list_->head_) { node_ = nullptr; } } template inline void SkipList::Iterator::Seek(const Key& target) { node_ = list_->FindGreaterOrEqual(target); } template inline void SkipList::Iterator::SeekForPrev( const Key& target) { Seek(target); if (!Valid()) { SeekToLast(); } while (Valid() && list_->LessThan(target, key())) { Prev(); } } template inline void SkipList::Iterator::SeekToFirst() { node_ = list_->head_->Next(0); } template inline void SkipList::Iterator::SeekToLast() { node_ = list_->FindLast(); if (node_ == list_->head_) { node_ = nullptr; } } template int SkipList::RandomHeight() { auto rnd = Random::GetTLSInstance(); // Increase height with probability 1 in kBranching int height = 1; while (height < kMaxHeight_ && rnd->Next() < kScaledInverseBranching_) { height++; } assert(height > 0); assert(height <= kMaxHeight_); return height; } template bool SkipList::KeyIsAfterNode(const Key& key, Node* n) const { // nullptr n is considered infinite return (n != nullptr) && (compare_(n->key, key) < 0); } template typename SkipList::Node* SkipList:: FindGreaterOrEqual(const Key& key) const { // Note: It looks like we could reduce duplication by implementing // this function as FindLessThan(key)->Next(0), but we wouldn't be able // to exit early on equality and the result wouldn't even be correct. // A concurrent insert might occur after FindLessThan(key) but before // we get a chance to call Next(0). Node* x = head_; int level = GetMaxHeight() - 1; Node* last_bigger = nullptr; while (true) { assert(x != nullptr); Node* next = x->Next(level); // Make sure the lists are sorted assert(x == head_ || next == nullptr || KeyIsAfterNode(next->key, x)); // Make sure we haven't overshot during our search assert(x == head_ || KeyIsAfterNode(key, x)); int cmp = (next == nullptr || next == last_bigger) ? 1 : compare_(next->key, key); if (cmp == 0 || (cmp > 0 && level == 0)) { return next; } else if (cmp < 0) { // Keep searching in this list x = next; } else { // Switch to next list, reuse compare_() result last_bigger = next; level--; } } } template typename SkipList::Node* SkipList::FindLessThan(const Key& key, Node** prev) const { Node* x = head_; int level = GetMaxHeight() - 1; // KeyIsAfter(key, last_not_after) is definitely false Node* last_not_after = nullptr; while (true) { assert(x != nullptr); Node* next = x->Next(level); assert(x == head_ || next == nullptr || KeyIsAfterNode(next->key, x)); assert(x == head_ || KeyIsAfterNode(key, x)); if (next != last_not_after && KeyIsAfterNode(key, next)) { // Keep searching in this list x = next; } else { if (prev != nullptr) { prev[level] = x; } if (level == 0) { return x; } else { // Switch to next list, reuse KeyIUsAfterNode() result last_not_after = next; level--; } } } } template typename SkipList::Node* SkipList::FindLast() const { Node* x = head_; int level = GetMaxHeight() - 1; while (true) { Node* next = x->Next(level); if (next == nullptr) { if (level == 0) { return x; } else { // Switch to next list level--; } } else { x = next; } } } template uint64_t SkipList::EstimateCount(const Key& key) const { uint64_t count = 0; Node* x = head_; int level = GetMaxHeight() - 1; while (true) { assert(x == head_ || compare_(x->key, key) < 0); Node* next = x->Next(level); if (next == nullptr || compare_(next->key, key) >= 0) { if (level == 0) { return count; } else { // Switch to next list count *= kBranching_; level--; } } else { x = next; count++; } } } template SkipList::SkipList(const Comparator cmp, Allocator* allocator, int32_t max_height, int32_t branching_factor) : kMaxHeight_(static_cast(max_height)), kBranching_(static_cast(branching_factor)), kScaledInverseBranching_((Random::kMaxNext + 1) / kBranching_), compare_(cmp), allocator_(allocator), head_(NewNode(0 /* any key will do */, max_height)), max_height_(1), prev_height_(1) { assert(max_height > 0 && kMaxHeight_ == static_cast(max_height)); assert(branching_factor > 0 && kBranching_ == static_cast(branching_factor)); assert(kScaledInverseBranching_ > 0); // Allocate the prev_ Node* array, directly from the passed-in allocator. // prev_ does not need to be freed, as its life cycle is tied up with // the allocator as a whole. prev_ = reinterpret_cast( allocator_->AllocateAligned(sizeof(Node*) * kMaxHeight_)); for (int i = 0; i < kMaxHeight_; i++) { head_->SetNext(i, nullptr); prev_[i] = head_; } } template void SkipList::Insert(const Key& key) { // fast path for sequential insertion if (!KeyIsAfterNode(key, prev_[0]->NoBarrier_Next(0)) && (prev_[0] == head_ || KeyIsAfterNode(key, prev_[0]))) { assert(prev_[0] != head_ || (prev_height_ == 1 && GetMaxHeight() == 1)); // Outside of this method prev_[1..max_height_] is the predecessor // of prev_[0], and prev_height_ refers to prev_[0]. Inside Insert // prev_[0..max_height - 1] is the predecessor of key. Switch from // the external state to the internal for (int i = 1; i < prev_height_; i++) { prev_[i] = prev_[0]; } } else { // TODO(opt): we could use a NoBarrier predecessor search as an // optimization for architectures where memory_order_acquire needs // a synchronization instruction. Doesn't matter on x86 FindLessThan(key, prev_); } // Our data structure does not allow duplicate insertion assert(prev_[0]->Next(0) == nullptr || !Equal(key, prev_[0]->Next(0)->key)); int height = RandomHeight(); if (height > GetMaxHeight()) { for (int i = GetMaxHeight(); i < height; i++) { prev_[i] = head_; } //fprintf(stderr, "Change height from %d to %d\n", max_height_, height); // It is ok to mutate max_height_ without any synchronization // with concurrent readers. A concurrent reader that observes // the new value of max_height_ will see either the old value of // new level pointers from head_ (nullptr), or a new value set in // the loop below. In the former case the reader will // immediately drop to the next level since nullptr sorts after all // keys. In the latter case the reader will use the new node. max_height_.store(height, std::memory_order_relaxed); } Node* x = NewNode(key, height); for (int i = 0; i < height; i++) { // NoBarrier_SetNext() suffices since we will add a barrier when // we publish a pointer to "x" in prev[i]. x->NoBarrier_SetNext(i, prev_[i]->NoBarrier_Next(i)); prev_[i]->SetNext(i, x); } prev_[0] = x; prev_height_ = height; } template bool SkipList::Contains(const Key& key) const { Node* x = FindGreaterOrEqual(key); if (x != nullptr && Equal(key, x->key)) { return true; } else { return false; } } } // namespace rocksdb rocksdb-5.17.2/memtable/skiplist_test.cc000066400000000000000000000243361337235545400202560ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "memtable/skiplist.h" #include #include "rocksdb/env.h" #include "util/arena.h" #include "util/hash.h" #include "util/random.h" #include "util/testharness.h" namespace rocksdb { typedef uint64_t Key; struct TestComparator { int operator()(const Key& a, const Key& b) const { if (a < b) { return -1; } else if (a > b) { return +1; } else { return 0; } } }; class SkipTest : public testing::Test {}; TEST_F(SkipTest, Empty) { Arena arena; TestComparator cmp; SkipList list(cmp, &arena); ASSERT_TRUE(!list.Contains(10)); SkipList::Iterator iter(&list); ASSERT_TRUE(!iter.Valid()); iter.SeekToFirst(); ASSERT_TRUE(!iter.Valid()); iter.Seek(100); ASSERT_TRUE(!iter.Valid()); iter.SeekForPrev(100); ASSERT_TRUE(!iter.Valid()); iter.SeekToLast(); ASSERT_TRUE(!iter.Valid()); } TEST_F(SkipTest, InsertAndLookup) { const int N = 2000; const int R = 5000; Random rnd(1000); std::set keys; Arena arena; TestComparator cmp; SkipList list(cmp, &arena); for (int i = 0; i < N; i++) { Key key = rnd.Next() % R; if (keys.insert(key).second) { list.Insert(key); } } for (int i = 0; i < R; i++) { if (list.Contains(i)) { ASSERT_EQ(keys.count(i), 1U); } else { ASSERT_EQ(keys.count(i), 0U); } } // Simple iterator tests { SkipList::Iterator iter(&list); ASSERT_TRUE(!iter.Valid()); iter.Seek(0); ASSERT_TRUE(iter.Valid()); ASSERT_EQ(*(keys.begin()), iter.key()); iter.SeekForPrev(R - 1); ASSERT_TRUE(iter.Valid()); ASSERT_EQ(*(keys.rbegin()), iter.key()); iter.SeekToFirst(); ASSERT_TRUE(iter.Valid()); ASSERT_EQ(*(keys.begin()), iter.key()); iter.SeekToLast(); ASSERT_TRUE(iter.Valid()); ASSERT_EQ(*(keys.rbegin()), iter.key()); } // Forward iteration test for (int i = 0; i < R; i++) { SkipList::Iterator iter(&list); iter.Seek(i); // Compare against model iterator std::set::iterator model_iter = keys.lower_bound(i); for (int j = 0; j < 3; j++) { if (model_iter == keys.end()) { ASSERT_TRUE(!iter.Valid()); break; } else { ASSERT_TRUE(iter.Valid()); ASSERT_EQ(*model_iter, iter.key()); ++model_iter; iter.Next(); } } } // Backward iteration test for (int i = 0; i < R; i++) { SkipList::Iterator iter(&list); iter.SeekForPrev(i); // Compare against model iterator std::set::iterator model_iter = keys.upper_bound(i); for (int j = 0; j < 3; j++) { if (model_iter == keys.begin()) { ASSERT_TRUE(!iter.Valid()); break; } else { ASSERT_TRUE(iter.Valid()); ASSERT_EQ(*--model_iter, iter.key()); iter.Prev(); } } } } // We want to make sure that with a single writer and multiple // concurrent readers (with no synchronization other than when a // reader's iterator is created), the reader always observes all the // data that was present in the skip list when the iterator was // constructor. Because insertions are happening concurrently, we may // also observe new values that were inserted since the iterator was // constructed, but we should never miss any values that were present // at iterator construction time. // // We generate multi-part keys: // // where: // key is in range [0..K-1] // gen is a generation number for key // hash is hash(key,gen) // // The insertion code picks a random key, sets gen to be 1 + the last // generation number inserted for that key, and sets hash to Hash(key,gen). // // At the beginning of a read, we snapshot the last inserted // generation number for each key. We then iterate, including random // calls to Next() and Seek(). For every key we encounter, we // check that it is either expected given the initial snapshot or has // been concurrently added since the iterator started. class ConcurrentTest { private: static const uint32_t K = 4; static uint64_t key(Key key) { return (key >> 40); } static uint64_t gen(Key key) { return (key >> 8) & 0xffffffffu; } static uint64_t hash(Key key) { return key & 0xff; } static uint64_t HashNumbers(uint64_t k, uint64_t g) { uint64_t data[2] = { k, g }; return Hash(reinterpret_cast(data), sizeof(data), 0); } static Key MakeKey(uint64_t k, uint64_t g) { assert(sizeof(Key) == sizeof(uint64_t)); assert(k <= K); // We sometimes pass K to seek to the end of the skiplist assert(g <= 0xffffffffu); return ((k << 40) | (g << 8) | (HashNumbers(k, g) & 0xff)); } static bool IsValidKey(Key k) { return hash(k) == (HashNumbers(key(k), gen(k)) & 0xff); } static Key RandomTarget(Random* rnd) { switch (rnd->Next() % 10) { case 0: // Seek to beginning return MakeKey(0, 0); case 1: // Seek to end return MakeKey(K, 0); default: // Seek to middle return MakeKey(rnd->Next() % K, 0); } } // Per-key generation struct State { std::atomic generation[K]; void Set(int k, int v) { generation[k].store(v, std::memory_order_release); } int Get(int k) { return generation[k].load(std::memory_order_acquire); } State() { for (unsigned int k = 0; k < K; k++) { Set(k, 0); } } }; // Current state of the test State current_; Arena arena_; // SkipList is not protected by mu_. We just use a single writer // thread to modify it. SkipList list_; public: ConcurrentTest() : list_(TestComparator(), &arena_) {} // REQUIRES: External synchronization void WriteStep(Random* rnd) { const uint32_t k = rnd->Next() % K; const int g = current_.Get(k) + 1; const Key new_key = MakeKey(k, g); list_.Insert(new_key); current_.Set(k, g); } void ReadStep(Random* rnd) { // Remember the initial committed state of the skiplist. State initial_state; for (unsigned int k = 0; k < K; k++) { initial_state.Set(k, current_.Get(k)); } Key pos = RandomTarget(rnd); SkipList::Iterator iter(&list_); iter.Seek(pos); while (true) { Key current; if (!iter.Valid()) { current = MakeKey(K, 0); } else { current = iter.key(); ASSERT_TRUE(IsValidKey(current)) << current; } ASSERT_LE(pos, current) << "should not go backwards"; // Verify that everything in [pos,current) was not present in // initial_state. while (pos < current) { ASSERT_LT(key(pos), K) << pos; // Note that generation 0 is never inserted, so it is ok if // <*,0,*> is missing. ASSERT_TRUE((gen(pos) == 0U) || (gen(pos) > static_cast(initial_state.Get( static_cast(key(pos)))))) << "key: " << key(pos) << "; gen: " << gen(pos) << "; initgen: " << initial_state.Get(static_cast(key(pos))); // Advance to next key in the valid key space if (key(pos) < key(current)) { pos = MakeKey(key(pos) + 1, 0); } else { pos = MakeKey(key(pos), gen(pos) + 1); } } if (!iter.Valid()) { break; } if (rnd->Next() % 2) { iter.Next(); pos = MakeKey(key(pos), gen(pos) + 1); } else { Key new_target = RandomTarget(rnd); if (new_target > pos) { pos = new_target; iter.Seek(new_target); } } } } }; const uint32_t ConcurrentTest::K; // Simple test that does single-threaded testing of the ConcurrentTest // scaffolding. TEST_F(SkipTest, ConcurrentWithoutThreads) { ConcurrentTest test; Random rnd(test::RandomSeed()); for (int i = 0; i < 10000; i++) { test.ReadStep(&rnd); test.WriteStep(&rnd); } } class TestState { public: ConcurrentTest t_; int seed_; std::atomic quit_flag_; enum ReaderState { STARTING, RUNNING, DONE }; explicit TestState(int s) : seed_(s), quit_flag_(false), state_(STARTING), state_cv_(&mu_) {} void Wait(ReaderState s) { mu_.Lock(); while (state_ != s) { state_cv_.Wait(); } mu_.Unlock(); } void Change(ReaderState s) { mu_.Lock(); state_ = s; state_cv_.Signal(); mu_.Unlock(); } private: port::Mutex mu_; ReaderState state_; port::CondVar state_cv_; }; static void ConcurrentReader(void* arg) { TestState* state = reinterpret_cast(arg); Random rnd(state->seed_); int64_t reads = 0; state->Change(TestState::RUNNING); while (!state->quit_flag_.load(std::memory_order_acquire)) { state->t_.ReadStep(&rnd); ++reads; } state->Change(TestState::DONE); } static void RunConcurrent(int run) { const int seed = test::RandomSeed() + (run * 100); Random rnd(seed); const int N = 1000; const int kSize = 1000; for (int i = 0; i < N; i++) { if ((i % 100) == 0) { fprintf(stderr, "Run %d of %d\n", i, N); } TestState state(seed + 1); Env::Default()->SetBackgroundThreads(1); Env::Default()->Schedule(ConcurrentReader, &state); state.Wait(TestState::RUNNING); for (int k = 0; k < kSize; k++) { state.t_.WriteStep(&rnd); } state.quit_flag_.store(true, std::memory_order_release); state.Wait(TestState::DONE); } } TEST_F(SkipTest, Concurrent1) { RunConcurrent(1); } TEST_F(SkipTest, Concurrent2) { RunConcurrent(2); } TEST_F(SkipTest, Concurrent3) { RunConcurrent(3); } TEST_F(SkipTest, Concurrent4) { RunConcurrent(4); } TEST_F(SkipTest, Concurrent5) { RunConcurrent(5); } } // namespace rocksdb int main(int argc, char** argv) { ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/memtable/skiplistrep.cc000066400000000000000000000216711337235545400177250ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // #include "memtable/inlineskiplist.h" #include "db/memtable.h" #include "rocksdb/memtablerep.h" #include "util/arena.h" namespace rocksdb { namespace { class SkipListRep : public MemTableRep { InlineSkipList skip_list_; const MemTableRep::KeyComparator& cmp_; const SliceTransform* transform_; const size_t lookahead_; friend class LookaheadIterator; public: explicit SkipListRep(const MemTableRep::KeyComparator& compare, Allocator* allocator, const SliceTransform* transform, const size_t lookahead) : MemTableRep(allocator), skip_list_(compare, allocator), cmp_(compare), transform_(transform), lookahead_(lookahead) {} virtual KeyHandle Allocate(const size_t len, char** buf) override { *buf = skip_list_.AllocateKey(len); return static_cast(*buf); } // Insert key into the list. // REQUIRES: nothing that compares equal to key is currently in the list. virtual void Insert(KeyHandle handle) override { skip_list_.Insert(static_cast(handle)); } virtual bool InsertKey(KeyHandle handle) override { return skip_list_.Insert(static_cast(handle)); } virtual void InsertWithHint(KeyHandle handle, void** hint) override { skip_list_.InsertWithHint(static_cast(handle), hint); } virtual bool InsertKeyWithHint(KeyHandle handle, void** hint) override { return skip_list_.InsertWithHint(static_cast(handle), hint); } virtual void InsertConcurrently(KeyHandle handle) override { skip_list_.InsertConcurrently(static_cast(handle)); } virtual bool InsertKeyConcurrently(KeyHandle handle) override { return skip_list_.InsertConcurrently(static_cast(handle)); } // Returns true iff an entry that compares equal to key is in the list. virtual bool Contains(const char* key) const override { return skip_list_.Contains(key); } virtual size_t ApproximateMemoryUsage() override { // All memory is allocated through allocator; nothing to report here return 0; } virtual void Get(const LookupKey& k, void* callback_args, bool (*callback_func)(void* arg, const char* entry)) override { SkipListRep::Iterator iter(&skip_list_); Slice dummy_slice; for (iter.Seek(dummy_slice, k.memtable_key().data()); iter.Valid() && callback_func(callback_args, iter.key()); iter.Next()) { } } uint64_t ApproximateNumEntries(const Slice& start_ikey, const Slice& end_ikey) override { std::string tmp; uint64_t start_count = skip_list_.EstimateCount(EncodeKey(&tmp, start_ikey)); uint64_t end_count = skip_list_.EstimateCount(EncodeKey(&tmp, end_ikey)); return (end_count >= start_count) ? (end_count - start_count) : 0; } virtual ~SkipListRep() override { } // Iteration over the contents of a skip list class Iterator : public MemTableRep::Iterator { InlineSkipList::Iterator iter_; public: // Initialize an iterator over the specified list. // The returned iterator is not valid. explicit Iterator( const InlineSkipList* list) : iter_(list) {} virtual ~Iterator() override { } // Returns true iff the iterator is positioned at a valid node. virtual bool Valid() const override { return iter_.Valid(); } // Returns the key at the current position. // REQUIRES: Valid() virtual const char* key() const override { return iter_.key(); } // Advances to the next position. // REQUIRES: Valid() virtual void Next() override { iter_.Next(); } // Advances to the previous position. // REQUIRES: Valid() virtual void Prev() override { iter_.Prev(); } // Advance to the first entry with a key >= target virtual void Seek(const Slice& user_key, const char* memtable_key) override { if (memtable_key != nullptr) { iter_.Seek(memtable_key); } else { iter_.Seek(EncodeKey(&tmp_, user_key)); } } // Retreat to the last entry with a key <= target virtual void SeekForPrev(const Slice& user_key, const char* memtable_key) override { if (memtable_key != nullptr) { iter_.SeekForPrev(memtable_key); } else { iter_.SeekForPrev(EncodeKey(&tmp_, user_key)); } } // Position at the first entry in list. // Final state of iterator is Valid() iff list is not empty. virtual void SeekToFirst() override { iter_.SeekToFirst(); } // Position at the last entry in list. // Final state of iterator is Valid() iff list is not empty. virtual void SeekToLast() override { iter_.SeekToLast(); } protected: std::string tmp_; // For passing to EncodeKey }; // Iterator over the contents of a skip list which also keeps track of the // previously visited node. In Seek(), it examines a few nodes after it // first, falling back to O(log n) search from the head of the list only if // the target key hasn't been found. class LookaheadIterator : public MemTableRep::Iterator { public: explicit LookaheadIterator(const SkipListRep& rep) : rep_(rep), iter_(&rep_.skip_list_), prev_(iter_) {} virtual ~LookaheadIterator() override {} virtual bool Valid() const override { return iter_.Valid(); } virtual const char *key() const override { assert(Valid()); return iter_.key(); } virtual void Next() override { assert(Valid()); bool advance_prev = true; if (prev_.Valid()) { auto k1 = rep_.UserKey(prev_.key()); auto k2 = rep_.UserKey(iter_.key()); if (k1.compare(k2) == 0) { // same user key, don't move prev_ advance_prev = false; } else if (rep_.transform_) { // only advance prev_ if it has the same prefix as iter_ auto t1 = rep_.transform_->Transform(k1); auto t2 = rep_.transform_->Transform(k2); advance_prev = t1.compare(t2) == 0; } } if (advance_prev) { prev_ = iter_; } iter_.Next(); } virtual void Prev() override { assert(Valid()); iter_.Prev(); prev_ = iter_; } virtual void Seek(const Slice& internal_key, const char *memtable_key) override { const char *encoded_key = (memtable_key != nullptr) ? memtable_key : EncodeKey(&tmp_, internal_key); if (prev_.Valid() && rep_.cmp_(encoded_key, prev_.key()) >= 0) { // prev_.key() is smaller or equal to our target key; do a quick // linear search (at most lookahead_ steps) starting from prev_ iter_ = prev_; size_t cur = 0; while (cur++ <= rep_.lookahead_ && iter_.Valid()) { if (rep_.cmp_(encoded_key, iter_.key()) <= 0) { return; } Next(); } } iter_.Seek(encoded_key); prev_ = iter_; } virtual void SeekForPrev(const Slice& internal_key, const char* memtable_key) override { const char* encoded_key = (memtable_key != nullptr) ? memtable_key : EncodeKey(&tmp_, internal_key); iter_.SeekForPrev(encoded_key); prev_ = iter_; } virtual void SeekToFirst() override { iter_.SeekToFirst(); prev_ = iter_; } virtual void SeekToLast() override { iter_.SeekToLast(); prev_ = iter_; } protected: std::string tmp_; // For passing to EncodeKey private: const SkipListRep& rep_; InlineSkipList::Iterator iter_; InlineSkipList::Iterator prev_; }; virtual MemTableRep::Iterator* GetIterator(Arena* arena = nullptr) override { if (lookahead_ > 0) { void *mem = arena ? arena->AllocateAligned(sizeof(SkipListRep::LookaheadIterator)) : operator new(sizeof(SkipListRep::LookaheadIterator)); return new (mem) SkipListRep::LookaheadIterator(*this); } else { void *mem = arena ? arena->AllocateAligned(sizeof(SkipListRep::Iterator)) : operator new(sizeof(SkipListRep::Iterator)); return new (mem) SkipListRep::Iterator(&skip_list_); } } }; } MemTableRep* SkipListFactory::CreateMemTableRep( const MemTableRep::KeyComparator& compare, Allocator* allocator, const SliceTransform* transform, Logger* /*logger*/) { return new SkipListRep(compare, allocator, transform, lookahead_); } } // namespace rocksdb rocksdb-5.17.2/memtable/stl_wrappers.h000066400000000000000000000015651337235545400177430ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #include #include #include "rocksdb/comparator.h" #include "rocksdb/memtablerep.h" #include "rocksdb/slice.h" #include "util/coding.h" #include "util/murmurhash.h" namespace rocksdb { namespace stl_wrappers { class Base { protected: const MemTableRep::KeyComparator& compare_; explicit Base(const MemTableRep::KeyComparator& compare) : compare_(compare) {} }; struct Compare : private Base { explicit Compare(const MemTableRep::KeyComparator& compare) : Base(compare) {} inline bool operator()(const char* a, const char* b) const { return compare_(a, b) < 0; } }; } } rocksdb-5.17.2/memtable/vectorrep.cc000066400000000000000000000217231337235545400173630ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // #ifndef ROCKSDB_LITE #include "rocksdb/memtablerep.h" #include #include #include #include #include #include "util/arena.h" #include "db/memtable.h" #include "memtable/stl_wrappers.h" #include "port/port.h" #include "util/mutexlock.h" namespace rocksdb { namespace { using namespace stl_wrappers; class VectorRep : public MemTableRep { public: VectorRep(const KeyComparator& compare, Allocator* allocator, size_t count); // Insert key into the collection. (The caller will pack key and value into a // single buffer and pass that in as the parameter to Insert) // REQUIRES: nothing that compares equal to key is currently in the // collection. virtual void Insert(KeyHandle handle) override; // Returns true iff an entry that compares equal to key is in the collection. virtual bool Contains(const char* key) const override; virtual void MarkReadOnly() override; virtual size_t ApproximateMemoryUsage() override; virtual void Get(const LookupKey& k, void* callback_args, bool (*callback_func)(void* arg, const char* entry)) override; virtual ~VectorRep() override { } class Iterator : public MemTableRep::Iterator { class VectorRep* vrep_; std::shared_ptr> bucket_; std::vector::const_iterator mutable cit_; const KeyComparator& compare_; std::string tmp_; // For passing to EncodeKey bool mutable sorted_; void DoSort() const; public: explicit Iterator(class VectorRep* vrep, std::shared_ptr> bucket, const KeyComparator& compare); // Initialize an iterator over the specified collection. // The returned iterator is not valid. // explicit Iterator(const MemTableRep* collection); virtual ~Iterator() override { }; // Returns true iff the iterator is positioned at a valid node. virtual bool Valid() const override; // Returns the key at the current position. // REQUIRES: Valid() virtual const char* key() const override; // Advances to the next position. // REQUIRES: Valid() virtual void Next() override; // Advances to the previous position. // REQUIRES: Valid() virtual void Prev() override; // Advance to the first entry with a key >= target virtual void Seek(const Slice& user_key, const char* memtable_key) override; // Advance to the first entry with a key <= target virtual void SeekForPrev(const Slice& user_key, const char* memtable_key) override; // Position at the first entry in collection. // Final state of iterator is Valid() iff collection is not empty. virtual void SeekToFirst() override; // Position at the last entry in collection. // Final state of iterator is Valid() iff collection is not empty. virtual void SeekToLast() override; }; // Return an iterator over the keys in this representation. virtual MemTableRep::Iterator* GetIterator(Arena* arena) override; private: friend class Iterator; typedef std::vector Bucket; std::shared_ptr bucket_; mutable port::RWMutex rwlock_; bool immutable_; bool sorted_; const KeyComparator& compare_; }; void VectorRep::Insert(KeyHandle handle) { auto* key = static_cast(handle); WriteLock l(&rwlock_); assert(!immutable_); bucket_->push_back(key); } // Returns true iff an entry that compares equal to key is in the collection. bool VectorRep::Contains(const char* key) const { ReadLock l(&rwlock_); return std::find(bucket_->begin(), bucket_->end(), key) != bucket_->end(); } void VectorRep::MarkReadOnly() { WriteLock l(&rwlock_); immutable_ = true; } size_t VectorRep::ApproximateMemoryUsage() { return sizeof(bucket_) + sizeof(*bucket_) + bucket_->size() * sizeof( std::remove_reference::type::value_type ); } VectorRep::VectorRep(const KeyComparator& compare, Allocator* allocator, size_t count) : MemTableRep(allocator), bucket_(new Bucket()), immutable_(false), sorted_(false), compare_(compare) { bucket_.get()->reserve(count); } VectorRep::Iterator::Iterator(class VectorRep* vrep, std::shared_ptr> bucket, const KeyComparator& compare) : vrep_(vrep), bucket_(bucket), cit_(bucket_->end()), compare_(compare), sorted_(false) { } void VectorRep::Iterator::DoSort() const { // vrep is non-null means that we are working on an immutable memtable if (!sorted_ && vrep_ != nullptr) { WriteLock l(&vrep_->rwlock_); if (!vrep_->sorted_) { std::sort(bucket_->begin(), bucket_->end(), Compare(compare_)); cit_ = bucket_->begin(); vrep_->sorted_ = true; } sorted_ = true; } if (!sorted_) { std::sort(bucket_->begin(), bucket_->end(), Compare(compare_)); cit_ = bucket_->begin(); sorted_ = true; } assert(sorted_); assert(vrep_ == nullptr || vrep_->sorted_); } // Returns true iff the iterator is positioned at a valid node. bool VectorRep::Iterator::Valid() const { DoSort(); return cit_ != bucket_->end(); } // Returns the key at the current position. // REQUIRES: Valid() const char* VectorRep::Iterator::key() const { assert(sorted_); return *cit_; } // Advances to the next position. // REQUIRES: Valid() void VectorRep::Iterator::Next() { assert(sorted_); if (cit_ == bucket_->end()) { return; } ++cit_; } // Advances to the previous position. // REQUIRES: Valid() void VectorRep::Iterator::Prev() { assert(sorted_); if (cit_ == bucket_->begin()) { // If you try to go back from the first element, the iterator should be // invalidated. So we set it to past-the-end. This means that you can // treat the container circularly. cit_ = bucket_->end(); } else { --cit_; } } // Advance to the first entry with a key >= target void VectorRep::Iterator::Seek(const Slice& user_key, const char* memtable_key) { DoSort(); // Do binary search to find first value not less than the target const char* encoded_key = (memtable_key != nullptr) ? memtable_key : EncodeKey(&tmp_, user_key); cit_ = std::equal_range(bucket_->begin(), bucket_->end(), encoded_key, [this] (const char* a, const char* b) { return compare_(a, b) < 0; }).first; } // Advance to the first entry with a key <= target void VectorRep::Iterator::SeekForPrev(const Slice& /*user_key*/, const char* /*memtable_key*/) { assert(false); } // Position at the first entry in collection. // Final state of iterator is Valid() iff collection is not empty. void VectorRep::Iterator::SeekToFirst() { DoSort(); cit_ = bucket_->begin(); } // Position at the last entry in collection. // Final state of iterator is Valid() iff collection is not empty. void VectorRep::Iterator::SeekToLast() { DoSort(); cit_ = bucket_->end(); if (bucket_->size() != 0) { --cit_; } } void VectorRep::Get(const LookupKey& k, void* callback_args, bool (*callback_func)(void* arg, const char* entry)) { rwlock_.ReadLock(); VectorRep* vector_rep; std::shared_ptr bucket; if (immutable_) { vector_rep = this; } else { vector_rep = nullptr; bucket.reset(new Bucket(*bucket_)); // make a copy } VectorRep::Iterator iter(vector_rep, immutable_ ? bucket_ : bucket, compare_); rwlock_.ReadUnlock(); for (iter.Seek(k.user_key(), k.memtable_key().data()); iter.Valid() && callback_func(callback_args, iter.key()); iter.Next()) { } } MemTableRep::Iterator* VectorRep::GetIterator(Arena* arena) { char* mem = nullptr; if (arena != nullptr) { mem = arena->AllocateAligned(sizeof(Iterator)); } ReadLock l(&rwlock_); // Do not sort here. The sorting would be done the first time // a Seek is performed on the iterator. if (immutable_) { if (arena == nullptr) { return new Iterator(this, bucket_, compare_); } else { return new (mem) Iterator(this, bucket_, compare_); } } else { std::shared_ptr tmp; tmp.reset(new Bucket(*bucket_)); // make a copy if (arena == nullptr) { return new Iterator(nullptr, tmp, compare_); } else { return new (mem) Iterator(nullptr, tmp, compare_); } } } } // anon namespace MemTableRep* VectorRepFactory::CreateMemTableRep( const MemTableRep::KeyComparator& compare, Allocator* allocator, const SliceTransform*, Logger* /*logger*/) { return new VectorRep(compare, allocator, count_); } } // namespace rocksdb #endif // ROCKSDB_LITE rocksdb-5.17.2/memtable/write_buffer_manager.cc000066400000000000000000000114441337235545400215260ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "rocksdb/write_buffer_manager.h" #include #include "util/coding.h" namespace rocksdb { #ifndef ROCKSDB_LITE namespace { const size_t kSizeDummyEntry = 1024 * 1024; // The key will be longer than keys for blocks in SST files so they won't // conflict. const size_t kCacheKeyPrefix = kMaxVarint64Length * 4 + 1; } // namespace struct WriteBufferManager::CacheRep { std::shared_ptr cache_; std::mutex cache_mutex_; std::atomic cache_allocated_size_; // The non-prefix part will be updated according to the ID to use. char cache_key_[kCacheKeyPrefix + kMaxVarint64Length]; uint64_t next_cache_key_id_ = 0; std::vector dummy_handles_; explicit CacheRep(std::shared_ptr cache) : cache_(cache), cache_allocated_size_(0) { memset(cache_key_, 0, kCacheKeyPrefix); size_t pointer_size = sizeof(const void*); assert(pointer_size <= kCacheKeyPrefix); memcpy(cache_key_, static_cast(this), pointer_size); } Slice GetNextCacheKey() { memset(cache_key_ + kCacheKeyPrefix, 0, kMaxVarint64Length); char* end = EncodeVarint64(cache_key_ + kCacheKeyPrefix, next_cache_key_id_++); return Slice(cache_key_, static_cast(end - cache_key_)); } }; #else struct WriteBufferManager::CacheRep {}; #endif // ROCKSDB_LITE WriteBufferManager::WriteBufferManager(size_t _buffer_size, std::shared_ptr cache) : buffer_size_(_buffer_size), mutable_limit_(buffer_size_ * 7 / 8), memory_used_(0), memory_active_(0), cache_rep_(nullptr) { #ifndef ROCKSDB_LITE if (cache) { // Construct the cache key using the pointer to this. cache_rep_.reset(new CacheRep(cache)); } #else (void)cache; #endif // ROCKSDB_LITE } WriteBufferManager::~WriteBufferManager() { #ifndef ROCKSDB_LITE if (cache_rep_) { for (auto* handle : cache_rep_->dummy_handles_) { cache_rep_->cache_->Release(handle, true); } } #endif // ROCKSDB_LITE } // Should only be called from write thread void WriteBufferManager::ReserveMemWithCache(size_t mem) { #ifndef ROCKSDB_LITE assert(cache_rep_ != nullptr); // Use a mutex to protect various data structures. Can be optimzied to a // lock-free solution if it ends up with a performance bottleneck. std::lock_guard lock(cache_rep_->cache_mutex_); size_t new_mem_used = memory_used_.load(std::memory_order_relaxed) + mem; memory_used_.store(new_mem_used, std::memory_order_relaxed); while (new_mem_used > cache_rep_->cache_allocated_size_) { // Expand size by at least 1MB. // Add a dummy record to the cache Cache::Handle* handle; cache_rep_->cache_->Insert(cache_rep_->GetNextCacheKey(), nullptr, kSizeDummyEntry, nullptr, &handle); cache_rep_->dummy_handles_.push_back(handle); cache_rep_->cache_allocated_size_ += kSizeDummyEntry; } #else (void)mem; #endif // ROCKSDB_LITE } void WriteBufferManager::FreeMemWithCache(size_t mem) { #ifndef ROCKSDB_LITE assert(cache_rep_ != nullptr); // Use a mutex to protect various data structures. Can be optimzied to a // lock-free solution if it ends up with a performance bottleneck. std::lock_guard lock(cache_rep_->cache_mutex_); size_t new_mem_used = memory_used_.load(std::memory_order_relaxed) - mem; memory_used_.store(new_mem_used, std::memory_order_relaxed); // Gradually shrink memory costed in the block cache if the actual // usage is less than 3/4 of what we reserve from the block cache. // We do this becausse: // 1. we don't pay the cost of the block cache immediately a memtable is // freed, as block cache insert is expensive; // 2. eventually, if we walk away from a temporary memtable size increase, // we make sure shrink the memory costed in block cache over time. // In this way, we only shrink costed memory showly even there is enough // margin. if (new_mem_used < cache_rep_->cache_allocated_size_ / 4 * 3 && cache_rep_->cache_allocated_size_ - kSizeDummyEntry > new_mem_used) { assert(!cache_rep_->dummy_handles_.empty()); cache_rep_->cache_->Release(cache_rep_->dummy_handles_.back(), true); cache_rep_->dummy_handles_.pop_back(); cache_rep_->cache_allocated_size_ -= kSizeDummyEntry; } #else (void)mem; #endif // ROCKSDB_LITE } } // namespace rocksdb rocksdb-5.17.2/memtable/write_buffer_manager_test.cc000066400000000000000000000122021337235545400225560ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "rocksdb/write_buffer_manager.h" #include "util/testharness.h" namespace rocksdb { class WriteBufferManagerTest : public testing::Test {}; #ifndef ROCKSDB_LITE TEST_F(WriteBufferManagerTest, ShouldFlush) { // A write buffer manager of size 10MB std::unique_ptr wbf( new WriteBufferManager(10 * 1024 * 1024)); wbf->ReserveMem(8 * 1024 * 1024); ASSERT_FALSE(wbf->ShouldFlush()); // 90% of the hard limit will hit the condition wbf->ReserveMem(1 * 1024 * 1024); ASSERT_TRUE(wbf->ShouldFlush()); // Scheduling for freeing will release the condition wbf->ScheduleFreeMem(1 * 1024 * 1024); ASSERT_FALSE(wbf->ShouldFlush()); wbf->ReserveMem(2 * 1024 * 1024); ASSERT_TRUE(wbf->ShouldFlush()); wbf->ScheduleFreeMem(4 * 1024 * 1024); // 11MB total, 6MB mutable. hard limit still hit ASSERT_TRUE(wbf->ShouldFlush()); wbf->ScheduleFreeMem(2 * 1024 * 1024); // 11MB total, 4MB mutable. hard limit stills but won't flush because more // than half data is already being flushed. ASSERT_FALSE(wbf->ShouldFlush()); wbf->ReserveMem(4 * 1024 * 1024); // 15 MB total, 8MB mutable. ASSERT_TRUE(wbf->ShouldFlush()); wbf->FreeMem(7 * 1024 * 1024); // 9MB total, 8MB mutable. ASSERT_FALSE(wbf->ShouldFlush()); } TEST_F(WriteBufferManagerTest, CacheCost) { // 1GB cache std::shared_ptr cache = NewLRUCache(1024 * 1024 * 1024, 4); // A write buffer manager of size 50MB std::unique_ptr wbf( new WriteBufferManager(50 * 1024 * 1024, cache)); // Allocate 1.5MB will allocate 2MB wbf->ReserveMem(1536 * 1024); ASSERT_GE(cache->GetPinnedUsage(), 2 * 1024 * 1024); ASSERT_LT(cache->GetPinnedUsage(), 2 * 1024 * 1024 + 10000); // Allocate another 2MB wbf->ReserveMem(2 * 1024 * 1024); ASSERT_GE(cache->GetPinnedUsage(), 4 * 1024 * 1024); ASSERT_LT(cache->GetPinnedUsage(), 4 * 1024 * 1024 + 10000); // Allocate another 20MB wbf->ReserveMem(20 * 1024 * 1024); ASSERT_GE(cache->GetPinnedUsage(), 24 * 1024 * 1024); ASSERT_LT(cache->GetPinnedUsage(), 24 * 1024 * 1024 + 10000); // Free 2MB will not cause any change in cache cost wbf->FreeMem(2 * 1024 * 1024); ASSERT_GE(cache->GetPinnedUsage(), 24 * 1024 * 1024); ASSERT_LT(cache->GetPinnedUsage(), 24 * 1024 * 1024 + 10000); ASSERT_FALSE(wbf->ShouldFlush()); // Allocate another 30MB wbf->ReserveMem(30 * 1024 * 1024); ASSERT_GE(cache->GetPinnedUsage(), 52 * 1024 * 1024); ASSERT_LT(cache->GetPinnedUsage(), 52 * 1024 * 1024 + 10000); ASSERT_TRUE(wbf->ShouldFlush()); ASSERT_TRUE(wbf->ShouldFlush()); wbf->ScheduleFreeMem(20 * 1024 * 1024); ASSERT_GE(cache->GetPinnedUsage(), 52 * 1024 * 1024); ASSERT_LT(cache->GetPinnedUsage(), 52 * 1024 * 1024 + 10000); // Still need flush as the hard limit hits ASSERT_TRUE(wbf->ShouldFlush()); // Free 20MB will releae 1MB from cache wbf->FreeMem(20 * 1024 * 1024); ASSERT_GE(cache->GetPinnedUsage(), 51 * 1024 * 1024); ASSERT_LT(cache->GetPinnedUsage(), 51 * 1024 * 1024 + 10000); ASSERT_FALSE(wbf->ShouldFlush()); // Every free will release 1MB if still not hit 3/4 wbf->FreeMem(16 * 1024); ASSERT_GE(cache->GetPinnedUsage(), 50 * 1024 * 1024); ASSERT_LT(cache->GetPinnedUsage(), 50 * 1024 * 1024 + 10000); wbf->FreeMem(16 * 1024); ASSERT_GE(cache->GetPinnedUsage(), 49 * 1024 * 1024); ASSERT_LT(cache->GetPinnedUsage(), 49 * 1024 * 1024 + 10000); // Free 2MB will not cause any change in cache cost wbf->ReserveMem(2 * 1024 * 1024); ASSERT_GE(cache->GetPinnedUsage(), 49 * 1024 * 1024); ASSERT_LT(cache->GetPinnedUsage(), 49 * 1024 * 1024 + 10000); wbf->FreeMem(16 * 1024); ASSERT_GE(cache->GetPinnedUsage(), 48 * 1024 * 1024); ASSERT_LT(cache->GetPinnedUsage(), 48 * 1024 * 1024 + 10000); // Destory write buffer manger should free everything wbf.reset(); ASSERT_LT(cache->GetPinnedUsage(), 1024 * 1024); } TEST_F(WriteBufferManagerTest, NoCapCacheCost) { // 1GB cache std::shared_ptr cache = NewLRUCache(1024 * 1024 * 1024, 4); // A write buffer manager of size 256MB std::unique_ptr wbf(new WriteBufferManager(0, cache)); // Allocate 1.5MB will allocate 2MB wbf->ReserveMem(10 * 1024 * 1024); ASSERT_GE(cache->GetPinnedUsage(), 10 * 1024 * 1024); ASSERT_LT(cache->GetPinnedUsage(), 10 * 1024 * 1024 + 10000); ASSERT_FALSE(wbf->ShouldFlush()); wbf->FreeMem(9 * 1024 * 1024); for (int i = 0; i < 10; i++) { wbf->FreeMem(16 * 1024); } ASSERT_GE(cache->GetPinnedUsage(), 1024 * 1024); ASSERT_LT(cache->GetPinnedUsage(), 1024 * 1024 + 10000); } #endif // ROCKSDB_LITE } // namespace rocksdb int main(int argc, char** argv) { ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/monitoring/000077500000000000000000000000001337235545400154355ustar00rootroot00000000000000rocksdb-5.17.2/monitoring/file_read_sample.h000066400000000000000000000014411337235545400210610ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // #pragma once #include "db/version_edit.h" #include "util/random.h" namespace rocksdb { static const uint32_t kFileReadSampleRate = 1024; extern bool should_sample_file_read(); extern void sample_file_read_inc(FileMetaData*); inline bool should_sample_file_read() { return (Random::GetTLSInstance()->Next() % kFileReadSampleRate == 307); } inline void sample_file_read_inc(FileMetaData* meta) { meta->stats.num_reads_sampled.fetch_add(kFileReadSampleRate, std::memory_order_relaxed); } } rocksdb-5.17.2/monitoring/histogram.cc000066400000000000000000000223661337235545400177520ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #ifndef __STDC_FORMAT_MACROS #define __STDC_FORMAT_MACROS #endif #include "monitoring/histogram.h" #include #include #include #include #include "port/port.h" #include "util/cast_util.h" namespace rocksdb { HistogramBucketMapper::HistogramBucketMapper() { // If you change this, you also need to change // size of array buckets_ in HistogramImpl bucketValues_ = {1, 2}; valueIndexMap_ = {{1, 0}, {2, 1}}; double bucket_val = static_cast(bucketValues_.back()); while ((bucket_val = 1.5 * bucket_val) <= static_cast(port::kMaxUint64)) { bucketValues_.push_back(static_cast(bucket_val)); // Extracts two most significant digits to make histogram buckets more // human-readable. E.g., 172 becomes 170. uint64_t pow_of_ten = 1; while (bucketValues_.back() / 10 > 10) { bucketValues_.back() /= 10; pow_of_ten *= 10; } bucketValues_.back() *= pow_of_ten; valueIndexMap_[bucketValues_.back()] = bucketValues_.size() - 1; } maxBucketValue_ = bucketValues_.back(); minBucketValue_ = bucketValues_.front(); } size_t HistogramBucketMapper::IndexForValue(const uint64_t value) const { if (value >= maxBucketValue_) { return bucketValues_.size() - 1; } else if ( value >= minBucketValue_ ) { std::map::const_iterator lowerBound = valueIndexMap_.lower_bound(value); if (lowerBound != valueIndexMap_.end()) { return static_cast(lowerBound->second); } else { return 0; } } else { return 0; } } namespace { const HistogramBucketMapper bucketMapper; } HistogramStat::HistogramStat() : num_buckets_(bucketMapper.BucketCount()) { assert(num_buckets_ == sizeof(buckets_) / sizeof(*buckets_)); Clear(); } void HistogramStat::Clear() { min_.store(bucketMapper.LastValue(), std::memory_order_relaxed); max_.store(0, std::memory_order_relaxed); num_.store(0, std::memory_order_relaxed); sum_.store(0, std::memory_order_relaxed); sum_squares_.store(0, std::memory_order_relaxed); for (unsigned int b = 0; b < num_buckets_; b++) { buckets_[b].store(0, std::memory_order_relaxed); } }; bool HistogramStat::Empty() const { return num() == 0; } void HistogramStat::Add(uint64_t value) { // This function is designed to be lock free, as it's in the critical path // of any operation. Each individual value is atomic and the order of updates // by concurrent threads is tolerable. const size_t index = bucketMapper.IndexForValue(value); assert(index < num_buckets_); buckets_[index].store(buckets_[index].load(std::memory_order_relaxed) + 1, std::memory_order_relaxed); uint64_t old_min = min(); if (value < old_min) { min_.store(value, std::memory_order_relaxed); } uint64_t old_max = max(); if (value > old_max) { max_.store(value, std::memory_order_relaxed); } num_.store(num_.load(std::memory_order_relaxed) + 1, std::memory_order_relaxed); sum_.store(sum_.load(std::memory_order_relaxed) + value, std::memory_order_relaxed); sum_squares_.store( sum_squares_.load(std::memory_order_relaxed) + value * value, std::memory_order_relaxed); } void HistogramStat::Merge(const HistogramStat& other) { // This function needs to be performned with the outer lock acquired // However, atomic operation on every member is still need, since Add() // requires no lock and value update can still happen concurrently uint64_t old_min = min(); uint64_t other_min = other.min(); while (other_min < old_min && !min_.compare_exchange_weak(old_min, other_min)) {} uint64_t old_max = max(); uint64_t other_max = other.max(); while (other_max > old_max && !max_.compare_exchange_weak(old_max, other_max)) {} num_.fetch_add(other.num(), std::memory_order_relaxed); sum_.fetch_add(other.sum(), std::memory_order_relaxed); sum_squares_.fetch_add(other.sum_squares(), std::memory_order_relaxed); for (unsigned int b = 0; b < num_buckets_; b++) { buckets_[b].fetch_add(other.bucket_at(b), std::memory_order_relaxed); } } double HistogramStat::Median() const { return Percentile(50.0); } double HistogramStat::Percentile(double p) const { double threshold = num() * (p / 100.0); uint64_t cumulative_sum = 0; for (unsigned int b = 0; b < num_buckets_; b++) { uint64_t bucket_value = bucket_at(b); cumulative_sum += bucket_value; if (cumulative_sum >= threshold) { // Scale linearly within this bucket uint64_t left_point = (b == 0) ? 0 : bucketMapper.BucketLimit(b-1); uint64_t right_point = bucketMapper.BucketLimit(b); uint64_t left_sum = cumulative_sum - bucket_value; uint64_t right_sum = cumulative_sum; double pos = 0; uint64_t right_left_diff = right_sum - left_sum; if (right_left_diff != 0) { pos = (threshold - left_sum) / right_left_diff; } double r = left_point + (right_point - left_point) * pos; uint64_t cur_min = min(); uint64_t cur_max = max(); if (r < cur_min) r = static_cast(cur_min); if (r > cur_max) r = static_cast(cur_max); return r; } } return static_cast(max()); } double HistogramStat::Average() const { uint64_t cur_num = num(); uint64_t cur_sum = sum(); if (cur_num == 0) return 0; return static_cast(cur_sum) / static_cast(cur_num); } double HistogramStat::StandardDeviation() const { uint64_t cur_num = num(); uint64_t cur_sum = sum(); uint64_t cur_sum_squares = sum_squares(); if (cur_num == 0) return 0; double variance = static_cast(cur_sum_squares * cur_num - cur_sum * cur_sum) / static_cast(cur_num * cur_num); return sqrt(variance); } std::string HistogramStat::ToString() const { uint64_t cur_num = num(); std::string r; char buf[1650]; snprintf(buf, sizeof(buf), "Count: %" PRIu64 " Average: %.4f StdDev: %.2f\n", cur_num, Average(), StandardDeviation()); r.append(buf); snprintf(buf, sizeof(buf), "Min: %" PRIu64 " Median: %.4f Max: %" PRIu64 "\n", (cur_num == 0 ? 0 : min()), Median(), (cur_num == 0 ? 0 : max())); r.append(buf); snprintf(buf, sizeof(buf), "Percentiles: " "P50: %.2f P75: %.2f P99: %.2f P99.9: %.2f P99.99: %.2f\n", Percentile(50), Percentile(75), Percentile(99), Percentile(99.9), Percentile(99.99)); r.append(buf); r.append("------------------------------------------------------\n"); if (cur_num == 0) return r; // all buckets are empty const double mult = 100.0 / cur_num; uint64_t cumulative_sum = 0; for (unsigned int b = 0; b < num_buckets_; b++) { uint64_t bucket_value = bucket_at(b); if (bucket_value <= 0.0) continue; cumulative_sum += bucket_value; snprintf(buf, sizeof(buf), "%c %7" PRIu64 ", %7" PRIu64 " ] %8" PRIu64 " %7.3f%% %7.3f%% ", (b == 0) ? '[' : '(', (b == 0) ? 0 : bucketMapper.BucketLimit(b-1), // left bucketMapper.BucketLimit(b), // right bucket_value, // count (mult * bucket_value), // percentage (mult * cumulative_sum)); // cumulative percentage r.append(buf); // Add hash marks based on percentage; 20 marks for 100%. size_t marks = static_cast(mult * bucket_value / 5 + 0.5); r.append(marks, '#'); r.push_back('\n'); } return r; } void HistogramStat::Data(HistogramData * const data) const { assert(data); data->median = Median(); data->percentile95 = Percentile(95); data->percentile99 = Percentile(99); data->max = static_cast(max()); data->average = Average(); data->standard_deviation = StandardDeviation(); data->count = num(); data->sum = sum(); } void HistogramImpl::Clear() { std::lock_guard lock(mutex_); stats_.Clear(); } bool HistogramImpl::Empty() const { return stats_.Empty(); } void HistogramImpl::Add(uint64_t value) { stats_.Add(value); } void HistogramImpl::Merge(const Histogram& other) { if (strcmp(Name(), other.Name()) == 0) { Merge( *static_cast_with_check(&other)); } } void HistogramImpl::Merge(const HistogramImpl& other) { std::lock_guard lock(mutex_); stats_.Merge(other.stats_); } double HistogramImpl::Median() const { return stats_.Median(); } double HistogramImpl::Percentile(double p) const { return stats_.Percentile(p); } double HistogramImpl::Average() const { return stats_.Average(); } double HistogramImpl::StandardDeviation() const { return stats_.StandardDeviation(); } std::string HistogramImpl::ToString() const { return stats_.ToString(); } void HistogramImpl::Data(HistogramData * const data) const { stats_.Data(data); } } // namespace levedb rocksdb-5.17.2/monitoring/histogram.h000066400000000000000000000106661337235545400176140ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #include "rocksdb/statistics.h" #include #include #include #include #include namespace rocksdb { class HistogramBucketMapper { public: HistogramBucketMapper(); // converts a value to the bucket index. size_t IndexForValue(uint64_t value) const; // number of buckets required. size_t BucketCount() const { return bucketValues_.size(); } uint64_t LastValue() const { return maxBucketValue_; } uint64_t FirstValue() const { return minBucketValue_; } uint64_t BucketLimit(const size_t bucketNumber) const { assert(bucketNumber < BucketCount()); return bucketValues_[bucketNumber]; } private: std::vector bucketValues_; uint64_t maxBucketValue_; uint64_t minBucketValue_; std::map valueIndexMap_; }; struct HistogramStat { HistogramStat(); ~HistogramStat() {} HistogramStat(const HistogramStat&) = delete; HistogramStat& operator=(const HistogramStat&) = delete; void Clear(); bool Empty() const; void Add(uint64_t value); void Merge(const HistogramStat& other); inline uint64_t min() const { return min_.load(std::memory_order_relaxed); } inline uint64_t max() const { return max_.load(std::memory_order_relaxed); } inline uint64_t num() const { return num_.load(std::memory_order_relaxed); } inline uint64_t sum() const { return sum_.load(std::memory_order_relaxed); } inline uint64_t sum_squares() const { return sum_squares_.load(std::memory_order_relaxed); } inline uint64_t bucket_at(size_t b) const { return buckets_[b].load(std::memory_order_relaxed); } double Median() const; double Percentile(double p) const; double Average() const; double StandardDeviation() const; void Data(HistogramData* const data) const; std::string ToString() const; // To be able to use HistogramStat as thread local variable, it // cannot have dynamic allocated member. That's why we're // using manually values from BucketMapper std::atomic_uint_fast64_t min_; std::atomic_uint_fast64_t max_; std::atomic_uint_fast64_t num_; std::atomic_uint_fast64_t sum_; std::atomic_uint_fast64_t sum_squares_; std::atomic_uint_fast64_t buckets_[109]; // 109==BucketMapper::BucketCount() const uint64_t num_buckets_; }; class Histogram { public: Histogram() {} virtual ~Histogram() {}; virtual void Clear() = 0; virtual bool Empty() const = 0; virtual void Add(uint64_t value) = 0; virtual void Merge(const Histogram&) = 0; virtual std::string ToString() const = 0; virtual const char* Name() const = 0; virtual uint64_t min() const = 0; virtual uint64_t max() const = 0; virtual uint64_t num() const = 0; virtual double Median() const = 0; virtual double Percentile(double p) const = 0; virtual double Average() const = 0; virtual double StandardDeviation() const = 0; virtual void Data(HistogramData* const data) const = 0; }; class HistogramImpl : public Histogram { public: HistogramImpl() { Clear(); } HistogramImpl(const HistogramImpl&) = delete; HistogramImpl& operator=(const HistogramImpl&) = delete; virtual void Clear() override; virtual bool Empty() const override; virtual void Add(uint64_t value) override; virtual void Merge(const Histogram& other) override; void Merge(const HistogramImpl& other); virtual std::string ToString() const override; virtual const char* Name() const override { return "HistogramImpl"; } virtual uint64_t min() const override { return stats_.min(); } virtual uint64_t max() const override { return stats_.max(); } virtual uint64_t num() const override { return stats_.num(); } virtual double Median() const override; virtual double Percentile(double p) const override; virtual double Average() const override; virtual double StandardDeviation() const override; virtual void Data(HistogramData* const data) const override; virtual ~HistogramImpl() {} private: HistogramStat stats_; std::mutex mutex_; }; } // namespace rocksdb rocksdb-5.17.2/monitoring/histogram_test.cc000066400000000000000000000161131337235545400210020ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // #include #include "monitoring/histogram.h" #include "monitoring/histogram_windowing.h" #include "util/testharness.h" namespace rocksdb { class HistogramTest : public testing::Test {}; namespace { const double kIota = 0.1; const HistogramBucketMapper bucketMapper; Env* env = Env::Default(); } void PopulateHistogram(Histogram& histogram, uint64_t low, uint64_t high, uint64_t loop = 1) { for (; loop > 0; loop--) { for (uint64_t i = low; i <= high; i++) { histogram.Add(i); } } } void BasicOperation(Histogram& histogram) { PopulateHistogram(histogram, 1, 110, 10); // fill up to bucket [70, 110) HistogramData data; histogram.Data(&data); ASSERT_LE(fabs(histogram.Percentile(100.0) - 110.0), kIota); ASSERT_LE(fabs(data.percentile99 - 108.9), kIota); // 99 * 110 / 100 ASSERT_LE(fabs(data.percentile95 - 104.5), kIota); // 95 * 110 / 100 ASSERT_LE(fabs(data.median - 55.0), kIota); // 50 * 110 / 100 ASSERT_EQ(data.average, 55.5); // (1 + 110) / 2 } void MergeHistogram(Histogram& histogram, Histogram& other) { PopulateHistogram(histogram, 1, 100); PopulateHistogram(other, 101, 250); histogram.Merge(other); HistogramData data; histogram.Data(&data); ASSERT_LE(fabs(histogram.Percentile(100.0) - 250.0), kIota); ASSERT_LE(fabs(data.percentile99 - 247.5), kIota); // 99 * 250 / 100 ASSERT_LE(fabs(data.percentile95 - 237.5), kIota); // 95 * 250 / 100 ASSERT_LE(fabs(data.median - 125.0), kIota); // 50 * 250 / 100 ASSERT_EQ(data.average, 125.5); // (1 + 250) / 2 } void EmptyHistogram(Histogram& histogram) { ASSERT_EQ(histogram.min(), bucketMapper.LastValue()); ASSERT_EQ(histogram.max(), 0); ASSERT_EQ(histogram.num(), 0); ASSERT_EQ(histogram.Median(), 0.0); ASSERT_EQ(histogram.Percentile(85.0), 0.0); ASSERT_EQ(histogram.Average(), 0.0); ASSERT_EQ(histogram.StandardDeviation(), 0.0); } void ClearHistogram(Histogram& histogram) { for (uint64_t i = 1; i <= 100; i++) { histogram.Add(i); } histogram.Clear(); ASSERT_TRUE(histogram.Empty()); ASSERT_EQ(histogram.Median(), 0); ASSERT_EQ(histogram.Percentile(85.0), 0); ASSERT_EQ(histogram.Average(), 0); } TEST_F(HistogramTest, BasicOperation) { HistogramImpl histogram; BasicOperation(histogram); HistogramWindowingImpl histogramWindowing; BasicOperation(histogramWindowing); } TEST_F(HistogramTest, BoundaryValue) { HistogramImpl histogram; // - both should be in [0, 1] bucket because we place values on bucket // boundaries in the lower bucket. // - all points are in [0, 1] bucket, so p50 will be 0.5 // - the test cannot be written with a single point since histogram won't // report percentiles lower than the min or greater than the max. histogram.Add(0); histogram.Add(1); ASSERT_LE(fabs(histogram.Percentile(50.0) - 0.5), kIota); } TEST_F(HistogramTest, MergeHistogram) { HistogramImpl histogram; HistogramImpl other; MergeHistogram(histogram, other); HistogramWindowingImpl histogramWindowing; HistogramWindowingImpl otherWindowing; MergeHistogram(histogramWindowing, otherWindowing); } TEST_F(HistogramTest, EmptyHistogram) { HistogramImpl histogram; EmptyHistogram(histogram); HistogramWindowingImpl histogramWindowing; EmptyHistogram(histogramWindowing); } TEST_F(HistogramTest, ClearHistogram) { HistogramImpl histogram; ClearHistogram(histogram); HistogramWindowingImpl histogramWindowing; ClearHistogram(histogramWindowing); } TEST_F(HistogramTest, HistogramWindowingExpire) { uint64_t num_windows = 3; int micros_per_window = 1000000; uint64_t min_num_per_window = 0; HistogramWindowingImpl histogramWindowing(num_windows, micros_per_window, min_num_per_window); PopulateHistogram(histogramWindowing, 1, 1, 100); env->SleepForMicroseconds(micros_per_window); ASSERT_EQ(histogramWindowing.num(), 100); ASSERT_EQ(histogramWindowing.min(), 1); ASSERT_EQ(histogramWindowing.max(), 1); ASSERT_EQ(histogramWindowing.Average(), 1); PopulateHistogram(histogramWindowing, 2, 2, 100); env->SleepForMicroseconds(micros_per_window); ASSERT_EQ(histogramWindowing.num(), 200); ASSERT_EQ(histogramWindowing.min(), 1); ASSERT_EQ(histogramWindowing.max(), 2); ASSERT_EQ(histogramWindowing.Average(), 1.5); PopulateHistogram(histogramWindowing, 3, 3, 100); env->SleepForMicroseconds(micros_per_window); ASSERT_EQ(histogramWindowing.num(), 300); ASSERT_EQ(histogramWindowing.min(), 1); ASSERT_EQ(histogramWindowing.max(), 3); ASSERT_EQ(histogramWindowing.Average(), 2.0); // dropping oldest window with value 1, remaining 2 ~ 4 PopulateHistogram(histogramWindowing, 4, 4, 100); env->SleepForMicroseconds(micros_per_window); ASSERT_EQ(histogramWindowing.num(), 300); ASSERT_EQ(histogramWindowing.min(), 2); ASSERT_EQ(histogramWindowing.max(), 4); ASSERT_EQ(histogramWindowing.Average(), 3.0); // dropping oldest window with value 2, remaining 3 ~ 5 PopulateHistogram(histogramWindowing, 5, 5, 100); env->SleepForMicroseconds(micros_per_window); ASSERT_EQ(histogramWindowing.num(), 300); ASSERT_EQ(histogramWindowing.min(), 3); ASSERT_EQ(histogramWindowing.max(), 5); ASSERT_EQ(histogramWindowing.Average(), 4.0); } TEST_F(HistogramTest, HistogramWindowingMerge) { uint64_t num_windows = 3; int micros_per_window = 1000000; uint64_t min_num_per_window = 0; HistogramWindowingImpl histogramWindowing(num_windows, micros_per_window, min_num_per_window); HistogramWindowingImpl otherWindowing(num_windows, micros_per_window, min_num_per_window); PopulateHistogram(histogramWindowing, 1, 1, 100); PopulateHistogram(otherWindowing, 1, 1, 100); env->SleepForMicroseconds(micros_per_window); PopulateHistogram(histogramWindowing, 2, 2, 100); PopulateHistogram(otherWindowing, 2, 2, 100); env->SleepForMicroseconds(micros_per_window); PopulateHistogram(histogramWindowing, 3, 3, 100); PopulateHistogram(otherWindowing, 3, 3, 100); env->SleepForMicroseconds(micros_per_window); histogramWindowing.Merge(otherWindowing); ASSERT_EQ(histogramWindowing.num(), 600); ASSERT_EQ(histogramWindowing.min(), 1); ASSERT_EQ(histogramWindowing.max(), 3); ASSERT_EQ(histogramWindowing.Average(), 2.0); // dropping oldest window with value 1, remaining 2 ~ 4 PopulateHistogram(histogramWindowing, 4, 4, 100); env->SleepForMicroseconds(micros_per_window); ASSERT_EQ(histogramWindowing.num(), 500); ASSERT_EQ(histogramWindowing.min(), 2); ASSERT_EQ(histogramWindowing.max(), 4); // dropping oldest window with value 2, remaining 3 ~ 5 PopulateHistogram(histogramWindowing, 5, 5, 100); env->SleepForMicroseconds(micros_per_window); ASSERT_EQ(histogramWindowing.num(), 400); ASSERT_EQ(histogramWindowing.min(), 3); ASSERT_EQ(histogramWindowing.max(), 5); } } // namespace rocksdb int main(int argc, char** argv) { ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/monitoring/histogram_windowing.cc000066400000000000000000000144751337235545400220410ustar00rootroot00000000000000// Copyright (c) 2013, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "monitoring/histogram_windowing.h" #include "monitoring/histogram.h" #include "util/cast_util.h" #include namespace rocksdb { HistogramWindowingImpl::HistogramWindowingImpl() { env_ = Env::Default(); window_stats_.reset(new HistogramStat[static_cast(num_windows_)]); Clear(); } HistogramWindowingImpl::HistogramWindowingImpl( uint64_t num_windows, uint64_t micros_per_window, uint64_t min_num_per_window) : num_windows_(num_windows), micros_per_window_(micros_per_window), min_num_per_window_(min_num_per_window) { env_ = Env::Default(); window_stats_.reset(new HistogramStat[static_cast(num_windows_)]); Clear(); } HistogramWindowingImpl::~HistogramWindowingImpl() { } void HistogramWindowingImpl::Clear() { std::lock_guard lock(mutex_); stats_.Clear(); for (size_t i = 0; i < num_windows_; i++) { window_stats_[i].Clear(); } current_window_.store(0, std::memory_order_relaxed); last_swap_time_.store(env_->NowMicros(), std::memory_order_relaxed); } bool HistogramWindowingImpl::Empty() const { return stats_.Empty(); } // This function is designed to be lock free, as it's in the critical path // of any operation. // Each individual value is atomic, it is just that some samples can go // in the older bucket which is tolerable. void HistogramWindowingImpl::Add(uint64_t value){ TimerTick(); // Parent (global) member update stats_.Add(value); // Current window update window_stats_[static_cast(current_window())].Add(value); } void HistogramWindowingImpl::Merge(const Histogram& other) { if (strcmp(Name(), other.Name()) == 0) { Merge( *static_cast_with_check( &other)); } } void HistogramWindowingImpl::Merge(const HistogramWindowingImpl& other) { std::lock_guard lock(mutex_); stats_.Merge(other.stats_); if (stats_.num_buckets_ != other.stats_.num_buckets_ || micros_per_window_ != other.micros_per_window_) { return; } uint64_t cur_window = current_window(); uint64_t other_cur_window = other.current_window(); // going backwards for alignment for (unsigned int i = 0; i < std::min(num_windows_, other.num_windows_); i++) { uint64_t window_index = (cur_window + num_windows_ - i) % num_windows_; uint64_t other_window_index = (other_cur_window + other.num_windows_ - i) % other.num_windows_; size_t windex = static_cast(window_index); size_t other_windex = static_cast(other_window_index); window_stats_[windex].Merge( other.window_stats_[other_windex]); } } std::string HistogramWindowingImpl::ToString() const { return stats_.ToString(); } double HistogramWindowingImpl::Median() const { return Percentile(50.0); } double HistogramWindowingImpl::Percentile(double p) const { // Retry 3 times in total for (int retry = 0; retry < 3; retry++) { uint64_t start_num = stats_.num(); double result = stats_.Percentile(p); // Detect if swap buckets or Clear() was called during calculation if (stats_.num() >= start_num) { return result; } } return 0.0; } double HistogramWindowingImpl::Average() const { return stats_.Average(); } double HistogramWindowingImpl::StandardDeviation() const { return stats_.StandardDeviation(); } void HistogramWindowingImpl::Data(HistogramData * const data) const { stats_.Data(data); } void HistogramWindowingImpl::TimerTick() { uint64_t curr_time = env_->NowMicros(); size_t curr_window_ = static_cast(current_window()); if (curr_time - last_swap_time() > micros_per_window_ && window_stats_[curr_window_].num() >= min_num_per_window_) { SwapHistoryBucket(); } } void HistogramWindowingImpl::SwapHistoryBucket() { // Threads executing Add() would be competing for this mutex, the first one // who got the metex would take care of the bucket swap, other threads // can skip this. // If mutex is held by Merge() or Clear(), next Add() will take care of the // swap, if needed. if (mutex_.try_lock()) { last_swap_time_.store(env_->NowMicros(), std::memory_order_relaxed); uint64_t curr_window = current_window(); uint64_t next_window = (curr_window == num_windows_ - 1) ? 0 : curr_window + 1; // subtract next buckets from totals and swap to next buckets HistogramStat& stats_to_drop = window_stats_[static_cast(next_window)]; if (!stats_to_drop.Empty()) { for (size_t b = 0; b < stats_.num_buckets_; b++){ stats_.buckets_[b].fetch_sub( stats_to_drop.bucket_at(b), std::memory_order_relaxed); } if (stats_.min() == stats_to_drop.min()) { uint64_t new_min = std::numeric_limits::max(); for (unsigned int i = 0; i < num_windows_; i++) { if (i != next_window) { uint64_t m = window_stats_[i].min(); if (m < new_min) new_min = m; } } stats_.min_.store(new_min, std::memory_order_relaxed); } if (stats_.max() == stats_to_drop.max()) { uint64_t new_max = 0; for (unsigned int i = 0; i < num_windows_; i++) { if (i != next_window) { uint64_t m = window_stats_[i].max(); if (m > new_max) new_max = m; } } stats_.max_.store(new_max, std::memory_order_relaxed); } stats_.num_.fetch_sub(stats_to_drop.num(), std::memory_order_relaxed); stats_.sum_.fetch_sub(stats_to_drop.sum(), std::memory_order_relaxed); stats_.sum_squares_.fetch_sub( stats_to_drop.sum_squares(), std::memory_order_relaxed); stats_to_drop.Clear(); } // advance to next window bucket current_window_.store(next_window, std::memory_order_relaxed); mutex_.unlock(); } } } // namespace rocksdb rocksdb-5.17.2/monitoring/histogram_windowing.h000066400000000000000000000054021337235545400216710ustar00rootroot00000000000000// Copyright (c) 2013, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #include "monitoring/histogram.h" #include "rocksdb/env.h" namespace rocksdb { class HistogramWindowingImpl : public Histogram { public: HistogramWindowingImpl(); HistogramWindowingImpl(uint64_t num_windows, uint64_t micros_per_window, uint64_t min_num_per_window); HistogramWindowingImpl(const HistogramWindowingImpl&) = delete; HistogramWindowingImpl& operator=(const HistogramWindowingImpl&) = delete; ~HistogramWindowingImpl(); virtual void Clear() override; virtual bool Empty() const override; virtual void Add(uint64_t value) override; virtual void Merge(const Histogram& other) override; void Merge(const HistogramWindowingImpl& other); virtual std::string ToString() const override; virtual const char* Name() const override { return "HistogramWindowingImpl"; } virtual uint64_t min() const override { return stats_.min(); } virtual uint64_t max() const override { return stats_.max(); } virtual uint64_t num() const override { return stats_.num(); } virtual double Median() const override; virtual double Percentile(double p) const override; virtual double Average() const override; virtual double StandardDeviation() const override; virtual void Data(HistogramData* const data) const override; private: void TimerTick(); void SwapHistoryBucket(); inline uint64_t current_window() const { return current_window_.load(std::memory_order_relaxed); } inline uint64_t last_swap_time() const{ return last_swap_time_.load(std::memory_order_relaxed); } Env* env_; std::mutex mutex_; // Aggregated stats over windows_stats_, all the computation is done // upon aggregated values HistogramStat stats_; // This is a circular array representing the latest N time-windows. // Each entry stores a time-window of data. Expiration is done // on window-based. std::unique_ptr window_stats_; std::atomic_uint_fast64_t current_window_; std::atomic_uint_fast64_t last_swap_time_; // Following parameters are configuable uint64_t num_windows_ = 5; uint64_t micros_per_window_ = 60000000; // By default, don't care about the number of values in current window // when decide whether to swap windows or not. uint64_t min_num_per_window_ = 0; }; } // namespace rocksdb rocksdb-5.17.2/monitoring/instrumented_mutex.cc000066400000000000000000000037421337235545400217150ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include "monitoring/instrumented_mutex.h" #include "monitoring/perf_context_imp.h" #include "monitoring/thread_status_util.h" #include "util/sync_point.h" namespace rocksdb { namespace { Statistics* stats_for_report(Env* env, Statistics* stats) { if (env != nullptr && stats != nullptr && stats->stats_level_ > kExceptTimeForMutex) { return stats; } else { return nullptr; } } } // namespace void InstrumentedMutex::Lock() { PERF_CONDITIONAL_TIMER_FOR_MUTEX_GUARD( db_mutex_lock_nanos, stats_code_ == DB_MUTEX_WAIT_MICROS, stats_for_report(env_, stats_), stats_code_); LockInternal(); } void InstrumentedMutex::LockInternal() { #ifndef NDEBUG ThreadStatusUtil::TEST_StateDelay(ThreadStatus::STATE_MUTEX_WAIT); #endif mutex_.Lock(); } void InstrumentedCondVar::Wait() { PERF_CONDITIONAL_TIMER_FOR_MUTEX_GUARD( db_condition_wait_nanos, stats_code_ == DB_MUTEX_WAIT_MICROS, stats_for_report(env_, stats_), stats_code_); WaitInternal(); } void InstrumentedCondVar::WaitInternal() { #ifndef NDEBUG ThreadStatusUtil::TEST_StateDelay(ThreadStatus::STATE_MUTEX_WAIT); #endif cond_.Wait(); } bool InstrumentedCondVar::TimedWait(uint64_t abs_time_us) { PERF_CONDITIONAL_TIMER_FOR_MUTEX_GUARD( db_condition_wait_nanos, stats_code_ == DB_MUTEX_WAIT_MICROS, stats_for_report(env_, stats_), stats_code_); return TimedWaitInternal(abs_time_us); } bool InstrumentedCondVar::TimedWaitInternal(uint64_t abs_time_us) { #ifndef NDEBUG ThreadStatusUtil::TEST_StateDelay(ThreadStatus::STATE_MUTEX_WAIT); #endif TEST_SYNC_POINT_CALLBACK("InstrumentedCondVar::TimedWaitInternal", &abs_time_us); return cond_.TimedWait(abs_time_us); } } // namespace rocksdb rocksdb-5.17.2/monitoring/instrumented_mutex.h000066400000000000000000000044511337235545400215550ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #include "monitoring/statistics.h" #include "port/port.h" #include "rocksdb/env.h" #include "rocksdb/statistics.h" #include "rocksdb/thread_status.h" #include "util/stop_watch.h" namespace rocksdb { class InstrumentedCondVar; // A wrapper class for port::Mutex that provides additional layer // for collecting stats and instrumentation. class InstrumentedMutex { public: explicit InstrumentedMutex(bool adaptive = false) : mutex_(adaptive), stats_(nullptr), env_(nullptr), stats_code_(0) {} InstrumentedMutex( Statistics* stats, Env* env, int stats_code, bool adaptive = false) : mutex_(adaptive), stats_(stats), env_(env), stats_code_(stats_code) {} void Lock(); void Unlock() { mutex_.Unlock(); } void AssertHeld() { mutex_.AssertHeld(); } private: void LockInternal(); friend class InstrumentedCondVar; port::Mutex mutex_; Statistics* stats_; Env* env_; int stats_code_; }; // A wrapper class for port::Mutex that provides additional layer // for collecting stats and instrumentation. class InstrumentedMutexLock { public: explicit InstrumentedMutexLock(InstrumentedMutex* mutex) : mutex_(mutex) { mutex_->Lock(); } ~InstrumentedMutexLock() { mutex_->Unlock(); } private: InstrumentedMutex* const mutex_; InstrumentedMutexLock(const InstrumentedMutexLock&) = delete; void operator=(const InstrumentedMutexLock&) = delete; }; class InstrumentedCondVar { public: explicit InstrumentedCondVar(InstrumentedMutex* instrumented_mutex) : cond_(&(instrumented_mutex->mutex_)), stats_(instrumented_mutex->stats_), env_(instrumented_mutex->env_), stats_code_(instrumented_mutex->stats_code_) {} void Wait(); bool TimedWait(uint64_t abs_time_us); void Signal() { cond_.Signal(); } void SignalAll() { cond_.SignalAll(); } private: void WaitInternal(); bool TimedWaitInternal(uint64_t abs_time_us); port::CondVar cond_; Statistics* stats_; Env* env_; int stats_code_; }; } // namespace rocksdb rocksdb-5.17.2/monitoring/iostats_context.cc000066400000000000000000000031271337235545400212010ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include #include "monitoring/iostats_context_imp.h" #include "rocksdb/env.h" namespace rocksdb { #ifdef ROCKSDB_SUPPORT_THREAD_LOCAL __thread IOStatsContext iostats_context; #endif IOStatsContext* get_iostats_context() { #ifdef ROCKSDB_SUPPORT_THREAD_LOCAL return &iostats_context; #else return nullptr; #endif } void IOStatsContext::Reset() { thread_pool_id = Env::Priority::TOTAL; bytes_read = 0; bytes_written = 0; open_nanos = 0; allocate_nanos = 0; write_nanos = 0; read_nanos = 0; range_sync_nanos = 0; prepare_write_nanos = 0; fsync_nanos = 0; logger_nanos = 0; } #define IOSTATS_CONTEXT_OUTPUT(counter) \ if (!exclude_zero_counters || counter > 0) { \ ss << #counter << " = " << counter << ", "; \ } std::string IOStatsContext::ToString(bool exclude_zero_counters) const { std::ostringstream ss; IOSTATS_CONTEXT_OUTPUT(thread_pool_id); IOSTATS_CONTEXT_OUTPUT(bytes_read); IOSTATS_CONTEXT_OUTPUT(bytes_written); IOSTATS_CONTEXT_OUTPUT(open_nanos); IOSTATS_CONTEXT_OUTPUT(allocate_nanos); IOSTATS_CONTEXT_OUTPUT(write_nanos); IOSTATS_CONTEXT_OUTPUT(read_nanos); IOSTATS_CONTEXT_OUTPUT(range_sync_nanos); IOSTATS_CONTEXT_OUTPUT(fsync_nanos); IOSTATS_CONTEXT_OUTPUT(prepare_write_nanos); IOSTATS_CONTEXT_OUTPUT(logger_nanos); return ss.str(); } } // namespace rocksdb rocksdb-5.17.2/monitoring/iostats_context_imp.h000066400000000000000000000033111337235545400217030ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // #pragma once #include "monitoring/perf_step_timer.h" #include "rocksdb/iostats_context.h" #ifdef ROCKSDB_SUPPORT_THREAD_LOCAL namespace rocksdb { extern __thread IOStatsContext iostats_context; } // namespace rocksdb // increment a specific counter by the specified value #define IOSTATS_ADD(metric, value) (iostats_context.metric += value) // Increase metric value only when it is positive #define IOSTATS_ADD_IF_POSITIVE(metric, value) \ if (value > 0) { IOSTATS_ADD(metric, value); } // reset a specific counter to zero #define IOSTATS_RESET(metric) (iostats_context.metric = 0) // reset all counters to zero #define IOSTATS_RESET_ALL() (iostats_context.Reset()) #define IOSTATS_SET_THREAD_POOL_ID(value) \ (iostats_context.thread_pool_id = value) #define IOSTATS_THREAD_POOL_ID() (iostats_context.thread_pool_id) #define IOSTATS(metric) (iostats_context.metric) // Declare and set start time of the timer #define IOSTATS_TIMER_GUARD(metric) \ PerfStepTimer iostats_step_timer_##metric(&(iostats_context.metric)); \ iostats_step_timer_##metric.Start(); #else // ROCKSDB_SUPPORT_THREAD_LOCAL #define IOSTATS_ADD(metric, value) #define IOSTATS_ADD_IF_POSITIVE(metric, value) #define IOSTATS_RESET(metric) #define IOSTATS_RESET_ALL() #define IOSTATS_SET_THREAD_POOL_ID(value) #define IOSTATS_THREAD_POOL_ID() #define IOSTATS(metric) 0 #define IOSTATS_TIMER_GUARD(metric) #endif // ROCKSDB_SUPPORT_THREAD_LOCAL rocksdb-5.17.2/monitoring/iostats_context_test.cc000066400000000000000000000017231337235545400222400ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include "rocksdb/iostats_context.h" #include "util/testharness.h" namespace rocksdb { TEST(IOStatsContextTest, ToString) { get_iostats_context()->Reset(); get_iostats_context()->bytes_read = 12345; std::string zero_included = get_iostats_context()->ToString(); ASSERT_NE(std::string::npos, zero_included.find("= 0")); ASSERT_NE(std::string::npos, zero_included.find("= 12345")); std::string zero_excluded = get_iostats_context()->ToString(true); ASSERT_EQ(std::string::npos, zero_excluded.find("= 0")); ASSERT_NE(std::string::npos, zero_excluded.find("= 12345")); } } // namespace rocksdb int main(int argc, char** argv) { ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/monitoring/perf_context.cc000066400000000000000000000146351337235545400204550ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // #include #include "monitoring/perf_context_imp.h" namespace rocksdb { #if defined(NPERF_CONTEXT) || !defined(ROCKSDB_SUPPORT_THREAD_LOCAL) PerfContext perf_context; #else #if defined(OS_SOLARIS) __thread PerfContext perf_context_; #else __thread PerfContext perf_context; #endif #endif PerfContext* get_perf_context() { #if defined(NPERF_CONTEXT) || !defined(ROCKSDB_SUPPORT_THREAD_LOCAL) return &perf_context; #else #if defined(OS_SOLARIS) return &perf_context_; #else return &perf_context; #endif #endif } void PerfContext::Reset() { #ifndef NPERF_CONTEXT user_key_comparison_count = 0; block_cache_hit_count = 0; block_read_count = 0; block_read_byte = 0; block_read_time = 0; block_checksum_time = 0; block_decompress_time = 0; get_read_bytes = 0; multiget_read_bytes = 0; iter_read_bytes = 0; internal_key_skipped_count = 0; internal_delete_skipped_count = 0; internal_recent_skipped_count = 0; internal_merge_count = 0; write_wal_time = 0; get_snapshot_time = 0; get_from_memtable_time = 0; get_from_memtable_count = 0; get_post_process_time = 0; get_from_output_files_time = 0; seek_on_memtable_time = 0; seek_on_memtable_count = 0; next_on_memtable_count = 0; prev_on_memtable_count = 0; seek_child_seek_time = 0; seek_child_seek_count = 0; seek_min_heap_time = 0; seek_internal_seek_time = 0; find_next_user_entry_time = 0; write_pre_and_post_process_time = 0; write_memtable_time = 0; write_delay_time = 0; write_thread_wait_nanos = 0; write_scheduling_flushes_compactions_time = 0; db_mutex_lock_nanos = 0; db_condition_wait_nanos = 0; merge_operator_time_nanos = 0; read_index_block_nanos = 0; read_filter_block_nanos = 0; new_table_block_iter_nanos = 0; new_table_iterator_nanos = 0; block_seek_nanos = 0; find_table_nanos = 0; bloom_memtable_hit_count = 0; bloom_memtable_miss_count = 0; bloom_sst_hit_count = 0; bloom_sst_miss_count = 0; key_lock_wait_time = 0; key_lock_wait_count = 0; env_new_sequential_file_nanos = 0; env_new_random_access_file_nanos = 0; env_new_writable_file_nanos = 0; env_reuse_writable_file_nanos = 0; env_new_random_rw_file_nanos = 0; env_new_directory_nanos = 0; env_file_exists_nanos = 0; env_get_children_nanos = 0; env_get_children_file_attributes_nanos = 0; env_delete_file_nanos = 0; env_create_dir_nanos = 0; env_create_dir_if_missing_nanos = 0; env_delete_dir_nanos = 0; env_get_file_size_nanos = 0; env_get_file_modification_time_nanos = 0; env_rename_file_nanos = 0; env_link_file_nanos = 0; env_lock_file_nanos = 0; env_unlock_file_nanos = 0; env_new_logger_nanos = 0; #endif } #define PERF_CONTEXT_OUTPUT(counter) \ if (!exclude_zero_counters || (counter > 0)) { \ ss << #counter << " = " << counter << ", "; \ } std::string PerfContext::ToString(bool exclude_zero_counters) const { #ifdef NPERF_CONTEXT return ""; #else std::ostringstream ss; PERF_CONTEXT_OUTPUT(user_key_comparison_count); PERF_CONTEXT_OUTPUT(block_cache_hit_count); PERF_CONTEXT_OUTPUT(block_read_count); PERF_CONTEXT_OUTPUT(block_read_byte); PERF_CONTEXT_OUTPUT(block_read_time); PERF_CONTEXT_OUTPUT(block_checksum_time); PERF_CONTEXT_OUTPUT(block_decompress_time); PERF_CONTEXT_OUTPUT(get_read_bytes); PERF_CONTEXT_OUTPUT(multiget_read_bytes); PERF_CONTEXT_OUTPUT(iter_read_bytes); PERF_CONTEXT_OUTPUT(internal_key_skipped_count); PERF_CONTEXT_OUTPUT(internal_delete_skipped_count); PERF_CONTEXT_OUTPUT(internal_recent_skipped_count); PERF_CONTEXT_OUTPUT(internal_merge_count); PERF_CONTEXT_OUTPUT(write_wal_time); PERF_CONTEXT_OUTPUT(get_snapshot_time); PERF_CONTEXT_OUTPUT(get_from_memtable_time); PERF_CONTEXT_OUTPUT(get_from_memtable_count); PERF_CONTEXT_OUTPUT(get_post_process_time); PERF_CONTEXT_OUTPUT(get_from_output_files_time); PERF_CONTEXT_OUTPUT(seek_on_memtable_time); PERF_CONTEXT_OUTPUT(seek_on_memtable_count); PERF_CONTEXT_OUTPUT(next_on_memtable_count); PERF_CONTEXT_OUTPUT(prev_on_memtable_count); PERF_CONTEXT_OUTPUT(seek_child_seek_time); PERF_CONTEXT_OUTPUT(seek_child_seek_count); PERF_CONTEXT_OUTPUT(seek_min_heap_time); PERF_CONTEXT_OUTPUT(seek_internal_seek_time); PERF_CONTEXT_OUTPUT(find_next_user_entry_time); PERF_CONTEXT_OUTPUT(write_pre_and_post_process_time); PERF_CONTEXT_OUTPUT(write_memtable_time); PERF_CONTEXT_OUTPUT(write_thread_wait_nanos); PERF_CONTEXT_OUTPUT(write_scheduling_flushes_compactions_time); PERF_CONTEXT_OUTPUT(db_mutex_lock_nanos); PERF_CONTEXT_OUTPUT(db_condition_wait_nanos); PERF_CONTEXT_OUTPUT(merge_operator_time_nanos); PERF_CONTEXT_OUTPUT(write_delay_time); PERF_CONTEXT_OUTPUT(read_index_block_nanos); PERF_CONTEXT_OUTPUT(read_filter_block_nanos); PERF_CONTEXT_OUTPUT(new_table_block_iter_nanos); PERF_CONTEXT_OUTPUT(new_table_iterator_nanos); PERF_CONTEXT_OUTPUT(block_seek_nanos); PERF_CONTEXT_OUTPUT(find_table_nanos); PERF_CONTEXT_OUTPUT(bloom_memtable_hit_count); PERF_CONTEXT_OUTPUT(bloom_memtable_miss_count); PERF_CONTEXT_OUTPUT(bloom_sst_hit_count); PERF_CONTEXT_OUTPUT(bloom_sst_miss_count); PERF_CONTEXT_OUTPUT(key_lock_wait_time); PERF_CONTEXT_OUTPUT(key_lock_wait_count); PERF_CONTEXT_OUTPUT(env_new_sequential_file_nanos); PERF_CONTEXT_OUTPUT(env_new_random_access_file_nanos); PERF_CONTEXT_OUTPUT(env_new_writable_file_nanos); PERF_CONTEXT_OUTPUT(env_reuse_writable_file_nanos); PERF_CONTEXT_OUTPUT(env_new_random_rw_file_nanos); PERF_CONTEXT_OUTPUT(env_new_directory_nanos); PERF_CONTEXT_OUTPUT(env_file_exists_nanos); PERF_CONTEXT_OUTPUT(env_get_children_nanos); PERF_CONTEXT_OUTPUT(env_get_children_file_attributes_nanos); PERF_CONTEXT_OUTPUT(env_delete_file_nanos); PERF_CONTEXT_OUTPUT(env_create_dir_nanos); PERF_CONTEXT_OUTPUT(env_create_dir_if_missing_nanos); PERF_CONTEXT_OUTPUT(env_delete_dir_nanos); PERF_CONTEXT_OUTPUT(env_get_file_size_nanos); PERF_CONTEXT_OUTPUT(env_get_file_modification_time_nanos); PERF_CONTEXT_OUTPUT(env_rename_file_nanos); PERF_CONTEXT_OUTPUT(env_link_file_nanos); PERF_CONTEXT_OUTPUT(env_lock_file_nanos); PERF_CONTEXT_OUTPUT(env_unlock_file_nanos); PERF_CONTEXT_OUTPUT(env_new_logger_nanos); return ss.str(); #endif } } rocksdb-5.17.2/monitoring/perf_context_imp.h000066400000000000000000000042161337235545400211560ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // #pragma once #include "monitoring/perf_step_timer.h" #include "rocksdb/perf_context.h" #include "util/stop_watch.h" namespace rocksdb { #if defined(NPERF_CONTEXT) || !defined(ROCKSDB_SUPPORT_THREAD_LOCAL) extern PerfContext perf_context; #else #if defined(OS_SOLARIS) extern __thread PerfContext perf_context_; #define perf_context (*get_perf_context()) #else extern __thread PerfContext perf_context; #endif #endif #if defined(NPERF_CONTEXT) #define PERF_TIMER_GUARD(metric) #define PERF_CONDITIONAL_TIMER_FOR_MUTEX_GUARD(metric, condition) #define PERF_TIMER_MEASURE(metric) #define PERF_TIMER_STOP(metric) #define PERF_TIMER_START(metric) #define PERF_COUNTER_ADD(metric, value) #else // Stop the timer and update the metric #define PERF_TIMER_STOP(metric) perf_step_timer_##metric.Stop(); #define PERF_TIMER_START(metric) perf_step_timer_##metric.Start(); // Declare and set start time of the timer #define PERF_TIMER_GUARD(metric) \ PerfStepTimer perf_step_timer_##metric(&(perf_context.metric)); \ perf_step_timer_##metric.Start(); #define PERF_CONDITIONAL_TIMER_FOR_MUTEX_GUARD(metric, condition, stats, \ ticker_type) \ PerfStepTimer perf_step_timer_##metric(&(perf_context.metric), true, stats, \ ticker_type); \ if (condition) { \ perf_step_timer_##metric.Start(); \ } // Update metric with time elapsed since last START. start time is reset // to current timestamp. #define PERF_TIMER_MEASURE(metric) perf_step_timer_##metric.Measure(); // Increase metric value #define PERF_COUNTER_ADD(metric, value) \ if (perf_level >= PerfLevel::kEnableCount) { \ perf_context.metric += value; \ } #endif } rocksdb-5.17.2/monitoring/perf_level.cc000066400000000000000000000012531337235545400200700ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // #include #include "monitoring/perf_level_imp.h" namespace rocksdb { #ifdef ROCKSDB_SUPPORT_THREAD_LOCAL __thread PerfLevel perf_level = kEnableCount; #else PerfLevel perf_level = kEnableCount; #endif void SetPerfLevel(PerfLevel level) { assert(level > kUninitialized); assert(level < kOutOfBounds); perf_level = level; } PerfLevel GetPerfLevel() { return perf_level; } } // namespace rocksdb rocksdb-5.17.2/monitoring/perf_level_imp.h000066400000000000000000000007601337235545400206010ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // #pragma once #include "rocksdb/perf_level.h" #include "port/port.h" namespace rocksdb { #ifdef ROCKSDB_SUPPORT_THREAD_LOCAL extern __thread PerfLevel perf_level; #else extern PerfLevel perf_level; #endif } // namespace rocksdb rocksdb-5.17.2/monitoring/perf_step_timer.h000066400000000000000000000034031337235545400207750ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // #pragma once #include "monitoring/perf_level_imp.h" #include "rocksdb/env.h" #include "util/stop_watch.h" namespace rocksdb { class PerfStepTimer { public: explicit PerfStepTimer(uint64_t* metric, bool for_mutex = false, Statistics* statistics = nullptr, uint32_t ticker_type = 0) : perf_counter_enabled_( perf_level >= PerfLevel::kEnableTime || (!for_mutex && perf_level >= kEnableTimeExceptForMutex)), env_((perf_counter_enabled_ || statistics != nullptr) ? Env::Default() : nullptr), start_(0), metric_(metric), statistics_(statistics), ticker_type_(ticker_type) {} ~PerfStepTimer() { Stop(); } void Start() { if (perf_counter_enabled_ || statistics_ != nullptr) { start_ = env_->NowNanos(); } } void Measure() { if (start_) { uint64_t now = env_->NowNanos(); *metric_ += now - start_; start_ = now; } } void Stop() { if (start_) { uint64_t duration = env_->NowNanos() - start_; if (perf_counter_enabled_) { *metric_ += duration; } if (statistics_ != nullptr) { RecordTick(statistics_, ticker_type_, duration); } start_ = 0; } } private: const bool perf_counter_enabled_; Env* const env_; uint64_t start_; uint64_t* metric_; Statistics* statistics_; uint32_t ticker_type_; }; } // namespace rocksdb rocksdb-5.17.2/monitoring/statistics.cc000066400000000000000000000143751337235545400201500ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // #include "monitoring/statistics.h" #ifndef __STDC_FORMAT_MACROS #define __STDC_FORMAT_MACROS #endif #include #include "rocksdb/statistics.h" #include "port/likely.h" #include #include namespace rocksdb { std::shared_ptr CreateDBStatistics() { return std::make_shared(nullptr, false); } StatisticsImpl::StatisticsImpl(std::shared_ptr stats, bool enable_internal_stats) : stats_(std::move(stats)), enable_internal_stats_(enable_internal_stats) {} StatisticsImpl::~StatisticsImpl() {} uint64_t StatisticsImpl::getTickerCount(uint32_t tickerType) const { MutexLock lock(&aggregate_lock_); return getTickerCountLocked(tickerType); } uint64_t StatisticsImpl::getTickerCountLocked(uint32_t tickerType) const { assert( enable_internal_stats_ ? tickerType < INTERNAL_TICKER_ENUM_MAX : tickerType < TICKER_ENUM_MAX); uint64_t res = 0; for (size_t core_idx = 0; core_idx < per_core_stats_.Size(); ++core_idx) { res += per_core_stats_.AccessAtCore(core_idx)->tickers_[tickerType]; } return res; } void StatisticsImpl::histogramData(uint32_t histogramType, HistogramData* const data) const { MutexLock lock(&aggregate_lock_); getHistogramImplLocked(histogramType)->Data(data); } std::unique_ptr StatisticsImpl::getHistogramImplLocked( uint32_t histogramType) const { assert( enable_internal_stats_ ? histogramType < INTERNAL_HISTOGRAM_ENUM_MAX : histogramType < HISTOGRAM_ENUM_MAX); std::unique_ptr res_hist(new HistogramImpl()); for (size_t core_idx = 0; core_idx < per_core_stats_.Size(); ++core_idx) { res_hist->Merge( per_core_stats_.AccessAtCore(core_idx)->histograms_[histogramType]); } return res_hist; } std::string StatisticsImpl::getHistogramString(uint32_t histogramType) const { MutexLock lock(&aggregate_lock_); return getHistogramImplLocked(histogramType)->ToString(); } void StatisticsImpl::setTickerCount(uint32_t tickerType, uint64_t count) { { MutexLock lock(&aggregate_lock_); setTickerCountLocked(tickerType, count); } if (stats_ && tickerType < TICKER_ENUM_MAX) { stats_->setTickerCount(tickerType, count); } } void StatisticsImpl::setTickerCountLocked(uint32_t tickerType, uint64_t count) { assert(enable_internal_stats_ ? tickerType < INTERNAL_TICKER_ENUM_MAX : tickerType < TICKER_ENUM_MAX); for (size_t core_idx = 0; core_idx < per_core_stats_.Size(); ++core_idx) { if (core_idx == 0) { per_core_stats_.AccessAtCore(core_idx)->tickers_[tickerType] = count; } else { per_core_stats_.AccessAtCore(core_idx)->tickers_[tickerType] = 0; } } } uint64_t StatisticsImpl::getAndResetTickerCount(uint32_t tickerType) { uint64_t sum = 0; { MutexLock lock(&aggregate_lock_); assert(enable_internal_stats_ ? tickerType < INTERNAL_TICKER_ENUM_MAX : tickerType < TICKER_ENUM_MAX); for (size_t core_idx = 0; core_idx < per_core_stats_.Size(); ++core_idx) { sum += per_core_stats_.AccessAtCore(core_idx)->tickers_[tickerType].exchange( 0, std::memory_order_relaxed); } } if (stats_ && tickerType < TICKER_ENUM_MAX) { stats_->setTickerCount(tickerType, 0); } return sum; } void StatisticsImpl::recordTick(uint32_t tickerType, uint64_t count) { assert( enable_internal_stats_ ? tickerType < INTERNAL_TICKER_ENUM_MAX : tickerType < TICKER_ENUM_MAX); per_core_stats_.Access()->tickers_[tickerType].fetch_add( count, std::memory_order_relaxed); if (stats_ && tickerType < TICKER_ENUM_MAX) { stats_->recordTick(tickerType, count); } } void StatisticsImpl::measureTime(uint32_t histogramType, uint64_t value) { assert( enable_internal_stats_ ? histogramType < INTERNAL_HISTOGRAM_ENUM_MAX : histogramType < HISTOGRAM_ENUM_MAX); per_core_stats_.Access()->histograms_[histogramType].Add(value); if (stats_ && histogramType < HISTOGRAM_ENUM_MAX) { stats_->measureTime(histogramType, value); } } Status StatisticsImpl::Reset() { MutexLock lock(&aggregate_lock_); for (uint32_t i = 0; i < TICKER_ENUM_MAX; ++i) { setTickerCountLocked(i, 0); } for (uint32_t i = 0; i < HISTOGRAM_ENUM_MAX; ++i) { for (size_t core_idx = 0; core_idx < per_core_stats_.Size(); ++core_idx) { per_core_stats_.AccessAtCore(core_idx)->histograms_[i].Clear(); } } return Status::OK(); } namespace { // a buffer size used for temp string buffers const int kTmpStrBufferSize = 200; } // namespace std::string StatisticsImpl::ToString() const { MutexLock lock(&aggregate_lock_); std::string res; res.reserve(20000); for (const auto& t : TickersNameMap) { if (t.first < TICKER_ENUM_MAX || enable_internal_stats_) { char buffer[kTmpStrBufferSize]; snprintf(buffer, kTmpStrBufferSize, "%s COUNT : %" PRIu64 "\n", t.second.c_str(), getTickerCountLocked(t.first)); res.append(buffer); } } for (const auto& h : HistogramsNameMap) { if (h.first < HISTOGRAM_ENUM_MAX || enable_internal_stats_) { char buffer[kTmpStrBufferSize]; HistogramData hData; getHistogramImplLocked(h.first)->Data(&hData); // don't handle failures - buffer should always be big enough and arguments // should be provided correctly int ret = snprintf( buffer, kTmpStrBufferSize, "%s P50 : %f P95 : %f P99 : %f P100 : %f COUNT : %" PRIu64 " SUM : %" PRIu64 "\n", h.second.c_str(), hData.median, hData.percentile95, hData.percentile99, hData.max, hData.count, hData.sum); if (ret < 0 || ret >= kTmpStrBufferSize) { assert(false); continue; } res.append(buffer); } } res.shrink_to_fit(); return res; } bool StatisticsImpl::HistEnabledForType(uint32_t type) const { if (LIKELY(!enable_internal_stats_)) { return type < HISTOGRAM_ENUM_MAX; } return true; } } // namespace rocksdb rocksdb-5.17.2/monitoring/statistics.h000066400000000000000000000104121337235545400177760ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // #pragma once #include "rocksdb/statistics.h" #include #include #include #include "monitoring/histogram.h" #include "port/likely.h" #include "port/port.h" #include "util/core_local.h" #include "util/mutexlock.h" #ifdef __clang__ #define ROCKSDB_FIELD_UNUSED __attribute__((__unused__)) #else #define ROCKSDB_FIELD_UNUSED #endif // __clang__ #ifndef STRINGIFY #define STRINGIFY(x) #x #define TOSTRING(x) STRINGIFY(x) #endif namespace rocksdb { enum TickersInternal : uint32_t { INTERNAL_TICKER_ENUM_START = TICKER_ENUM_MAX, INTERNAL_TICKER_ENUM_MAX }; enum HistogramsInternal : uint32_t { INTERNAL_HISTOGRAM_START = HISTOGRAM_ENUM_MAX, INTERNAL_HISTOGRAM_ENUM_MAX }; class StatisticsImpl : public Statistics { public: StatisticsImpl(std::shared_ptr stats, bool enable_internal_stats); virtual ~StatisticsImpl(); virtual uint64_t getTickerCount(uint32_t ticker_type) const override; virtual void histogramData(uint32_t histogram_type, HistogramData* const data) const override; std::string getHistogramString(uint32_t histogram_type) const override; virtual void setTickerCount(uint32_t ticker_type, uint64_t count) override; virtual uint64_t getAndResetTickerCount(uint32_t ticker_type) override; virtual void recordTick(uint32_t ticker_type, uint64_t count) override; virtual void measureTime(uint32_t histogram_type, uint64_t value) override; virtual Status Reset() override; virtual std::string ToString() const override; virtual bool HistEnabledForType(uint32_t type) const override; private: // If non-nullptr, forwards updates to the object pointed to by `stats_`. std::shared_ptr stats_; // TODO(ajkr): clean this up since there are no internal stats anymore bool enable_internal_stats_; // Synchronizes anything that operates across other cores' local data, // such that operations like Reset() can be performed atomically. mutable port::Mutex aggregate_lock_; // The ticker/histogram data are stored in this structure, which we will store // per-core. It is cache-aligned, so tickers/histograms belonging to different // cores can never share the same cache line. // // Alignment attributes expand to nothing depending on the platform struct ALIGN_AS(CACHE_LINE_SIZE) StatisticsData { std::atomic_uint_fast64_t tickers_[INTERNAL_TICKER_ENUM_MAX] = {{0}}; HistogramImpl histograms_[INTERNAL_HISTOGRAM_ENUM_MAX]; #ifndef HAVE_ALIGNED_NEW char padding[(CACHE_LINE_SIZE - (INTERNAL_TICKER_ENUM_MAX * sizeof(std::atomic_uint_fast64_t) + INTERNAL_HISTOGRAM_ENUM_MAX * sizeof(HistogramImpl)) % CACHE_LINE_SIZE)] ROCKSDB_FIELD_UNUSED; #endif void *operator new(size_t s) { return port::cacheline_aligned_alloc(s); } void *operator new[](size_t s) { return port::cacheline_aligned_alloc(s); } void operator delete(void *p) { port::cacheline_aligned_free(p); } void operator delete[](void *p) { port::cacheline_aligned_free(p); } }; static_assert(sizeof(StatisticsData) % CACHE_LINE_SIZE == 0, "Expected " TOSTRING(CACHE_LINE_SIZE) "-byte aligned"); CoreLocalArray per_core_stats_; uint64_t getTickerCountLocked(uint32_t ticker_type) const; std::unique_ptr getHistogramImplLocked( uint32_t histogram_type) const; void setTickerCountLocked(uint32_t ticker_type, uint64_t count); }; // Utility functions inline void MeasureTime(Statistics* statistics, uint32_t histogram_type, uint64_t value) { if (statistics) { statistics->measureTime(histogram_type, value); } } inline void RecordTick(Statistics* statistics, uint32_t ticker_type, uint64_t count = 1) { if (statistics) { statistics->recordTick(ticker_type, count); } } inline void SetTickerCount(Statistics* statistics, uint32_t ticker_type, uint64_t count) { if (statistics) { statistics->setTickerCount(ticker_type, count); } } } rocksdb-5.17.2/monitoring/statistics_test.cc000066400000000000000000000020211337235545400211700ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // #include "port/stack_trace.h" #include "util/testharness.h" #include "util/testutil.h" #include "rocksdb/statistics.h" namespace rocksdb { class StatisticsTest : public testing::Test {}; // Sanity check to make sure that contents and order of TickersNameMap // match Tickers enum TEST_F(StatisticsTest, Sanity) { EXPECT_EQ(static_cast(Tickers::TICKER_ENUM_MAX), TickersNameMap.size()); for (uint32_t t = 0; t < Tickers::TICKER_ENUM_MAX; t++) { auto pair = TickersNameMap[static_cast(t)]; ASSERT_EQ(pair.first, t) << "Miss match at " << pair.second; } } } // namespace rocksdb int main(int argc, char** argv) { rocksdb::port::InstallStackTraceHandler(); ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/monitoring/thread_status_impl.cc000066400000000000000000000114541337235545400216440ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // #include #include "rocksdb/env.h" #include "rocksdb/thread_status.h" #include "util/string_util.h" #include "util/thread_operation.h" namespace rocksdb { #ifdef ROCKSDB_USING_THREAD_STATUS std::string ThreadStatus::GetThreadTypeName( ThreadStatus::ThreadType thread_type) { switch (thread_type) { case ThreadStatus::ThreadType::HIGH_PRIORITY: return "High Pri"; case ThreadStatus::ThreadType::LOW_PRIORITY: return "Low Pri"; case ThreadStatus::ThreadType::USER: return "User"; case ThreadStatus::ThreadType::BOTTOM_PRIORITY: return "Bottom Pri"; case ThreadStatus::ThreadType::NUM_THREAD_TYPES: assert(false); } return "Unknown"; } const std::string& ThreadStatus::GetOperationName( ThreadStatus::OperationType op_type) { if (op_type < 0 || op_type >= NUM_OP_TYPES) { return global_operation_table[OP_UNKNOWN].name; } return global_operation_table[op_type].name; } const std::string& ThreadStatus::GetOperationStageName( ThreadStatus::OperationStage stage) { if (stage < 0 || stage >= NUM_OP_STAGES) { return global_op_stage_table[STAGE_UNKNOWN].name; } return global_op_stage_table[stage].name; } const std::string& ThreadStatus::GetStateName( ThreadStatus::StateType state_type) { if (state_type < 0 || state_type >= NUM_STATE_TYPES) { return global_state_table[STATE_UNKNOWN].name; } return global_state_table[state_type].name; } const std::string ThreadStatus::MicrosToString(uint64_t micros) { if (micros == 0) { return ""; } const int kBufferLen = 100; char buffer[kBufferLen]; AppendHumanMicros(micros, buffer, kBufferLen, false); return std::string(buffer); } const std::string& ThreadStatus::GetOperationPropertyName( ThreadStatus::OperationType op_type, int i) { static const std::string empty_str = ""; switch (op_type) { case ThreadStatus::OP_COMPACTION: if (i >= NUM_COMPACTION_PROPERTIES) { return empty_str; } return compaction_operation_properties[i].name; case ThreadStatus::OP_FLUSH: if (i >= NUM_FLUSH_PROPERTIES) { return empty_str; } return flush_operation_properties[i].name; default: return empty_str; } } std::map ThreadStatus::InterpretOperationProperties( ThreadStatus::OperationType op_type, const uint64_t* op_properties) { int num_properties; switch (op_type) { case OP_COMPACTION: num_properties = NUM_COMPACTION_PROPERTIES; break; case OP_FLUSH: num_properties = NUM_FLUSH_PROPERTIES; break; default: num_properties = 0; } std::map property_map; for (int i = 0; i < num_properties; ++i) { if (op_type == OP_COMPACTION && i == COMPACTION_INPUT_OUTPUT_LEVEL) { property_map.insert({"BaseInputLevel", op_properties[i] >> 32}); property_map.insert( {"OutputLevel", op_properties[i] % (uint64_t(1) << 32U)}); } else if (op_type == OP_COMPACTION && i == COMPACTION_PROP_FLAGS) { property_map.insert({"IsManual", ((op_properties[i] & 2) >> 1)}); property_map.insert({"IsDeletion", ((op_properties[i] & 4) >> 2)}); property_map.insert({"IsTrivialMove", ((op_properties[i] & 8) >> 3)}); } else { property_map.insert( {GetOperationPropertyName(op_type, i), op_properties[i]}); } } return property_map; } #else std::string ThreadStatus::GetThreadTypeName( ThreadStatus::ThreadType /*thread_type*/) { static std::string dummy_str = ""; return dummy_str; } const std::string& ThreadStatus::GetOperationName( ThreadStatus::OperationType /*op_type*/) { static std::string dummy_str = ""; return dummy_str; } const std::string& ThreadStatus::GetOperationStageName( ThreadStatus::OperationStage /*stage*/) { static std::string dummy_str = ""; return dummy_str; } const std::string& ThreadStatus::GetStateName( ThreadStatus::StateType /*state_type*/) { static std::string dummy_str = ""; return dummy_str; } const std::string ThreadStatus::MicrosToString(uint64_t /*op_elapsed_time*/) { static std::string dummy_str = ""; return dummy_str; } const std::string& ThreadStatus::GetOperationPropertyName( ThreadStatus::OperationType /*op_type*/, int /*i*/) { static std::string dummy_str = ""; return dummy_str; } std::map ThreadStatus::InterpretOperationProperties( ThreadStatus::OperationType /*op_type*/, const uint64_t* /*op_properties*/) { return std::map(); } #endif // ROCKSDB_USING_THREAD_STATUS } // namespace rocksdb rocksdb-5.17.2/monitoring/thread_status_updater.cc000066400000000000000000000260131337235545400223440ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include "monitoring/thread_status_updater.h" #include #include "port/likely.h" #include "rocksdb/env.h" #include "util/mutexlock.h" namespace rocksdb { #ifdef ROCKSDB_USING_THREAD_STATUS __thread ThreadStatusData* ThreadStatusUpdater::thread_status_data_ = nullptr; void ThreadStatusUpdater::RegisterThread(ThreadStatus::ThreadType ttype, uint64_t thread_id) { if (UNLIKELY(thread_status_data_ == nullptr)) { thread_status_data_ = new ThreadStatusData(); thread_status_data_->thread_type = ttype; thread_status_data_->thread_id = thread_id; std::lock_guard lck(thread_list_mutex_); thread_data_set_.insert(thread_status_data_); } ClearThreadOperationProperties(); } void ThreadStatusUpdater::UnregisterThread() { if (thread_status_data_ != nullptr) { std::lock_guard lck(thread_list_mutex_); thread_data_set_.erase(thread_status_data_); delete thread_status_data_; thread_status_data_ = nullptr; } } void ThreadStatusUpdater::ResetThreadStatus() { ClearThreadState(); ClearThreadOperation(); SetColumnFamilyInfoKey(nullptr); } void ThreadStatusUpdater::SetColumnFamilyInfoKey(const void* cf_key) { auto* data = Get(); if (data == nullptr) { return; } // set the tracking flag based on whether cf_key is non-null or not. // If enable_thread_tracking is set to false, the input cf_key // would be nullptr. data->enable_tracking = (cf_key != nullptr); data->cf_key.store(const_cast(cf_key), std::memory_order_relaxed); } const void* ThreadStatusUpdater::GetColumnFamilyInfoKey() { auto* data = GetLocalThreadStatus(); if (data == nullptr) { return nullptr; } return data->cf_key.load(std::memory_order_relaxed); } void ThreadStatusUpdater::SetThreadOperation( const ThreadStatus::OperationType type) { auto* data = GetLocalThreadStatus(); if (data == nullptr) { return; } // NOTE: Our practice here is to set all the thread operation properties // and stage before we set thread operation, and thread operation // will be set in std::memory_order_release. This is to ensure // whenever a thread operation is not OP_UNKNOWN, we will always // have a consistent information on its properties. data->operation_type.store(type, std::memory_order_release); if (type == ThreadStatus::OP_UNKNOWN) { data->operation_stage.store(ThreadStatus::STAGE_UNKNOWN, std::memory_order_relaxed); ClearThreadOperationProperties(); } } void ThreadStatusUpdater::SetThreadOperationProperty(int i, uint64_t value) { auto* data = GetLocalThreadStatus(); if (data == nullptr) { return; } data->op_properties[i].store(value, std::memory_order_relaxed); } void ThreadStatusUpdater::IncreaseThreadOperationProperty(int i, uint64_t delta) { auto* data = GetLocalThreadStatus(); if (data == nullptr) { return; } data->op_properties[i].fetch_add(delta, std::memory_order_relaxed); } void ThreadStatusUpdater::SetOperationStartTime(const uint64_t start_time) { auto* data = GetLocalThreadStatus(); if (data == nullptr) { return; } data->op_start_time.store(start_time, std::memory_order_relaxed); } void ThreadStatusUpdater::ClearThreadOperation() { auto* data = GetLocalThreadStatus(); if (data == nullptr) { return; } data->operation_stage.store(ThreadStatus::STAGE_UNKNOWN, std::memory_order_relaxed); data->operation_type.store(ThreadStatus::OP_UNKNOWN, std::memory_order_relaxed); ClearThreadOperationProperties(); } void ThreadStatusUpdater::ClearThreadOperationProperties() { auto* data = GetLocalThreadStatus(); if (data == nullptr) { return; } for (int i = 0; i < ThreadStatus::kNumOperationProperties; ++i) { data->op_properties[i].store(0, std::memory_order_relaxed); } } ThreadStatus::OperationStage ThreadStatusUpdater::SetThreadOperationStage( ThreadStatus::OperationStage stage) { auto* data = GetLocalThreadStatus(); if (data == nullptr) { return ThreadStatus::STAGE_UNKNOWN; } return data->operation_stage.exchange(stage, std::memory_order_relaxed); } void ThreadStatusUpdater::SetThreadState(const ThreadStatus::StateType type) { auto* data = GetLocalThreadStatus(); if (data == nullptr) { return; } data->state_type.store(type, std::memory_order_relaxed); } void ThreadStatusUpdater::ClearThreadState() { auto* data = GetLocalThreadStatus(); if (data == nullptr) { return; } data->state_type.store(ThreadStatus::STATE_UNKNOWN, std::memory_order_relaxed); } Status ThreadStatusUpdater::GetThreadList( std::vector* thread_list) { thread_list->clear(); std::vector> valid_list; uint64_t now_micros = Env::Default()->NowMicros(); std::lock_guard lck(thread_list_mutex_); for (auto* thread_data : thread_data_set_) { assert(thread_data); auto thread_id = thread_data->thread_id.load(std::memory_order_relaxed); auto thread_type = thread_data->thread_type.load(std::memory_order_relaxed); // Since any change to cf_info_map requires thread_list_mutex, // which is currently held by GetThreadList(), here we can safely // use "memory_order_relaxed" to load the cf_key. auto cf_key = thread_data->cf_key.load(std::memory_order_relaxed); ThreadStatus::OperationType op_type = ThreadStatus::OP_UNKNOWN; ThreadStatus::OperationStage op_stage = ThreadStatus::STAGE_UNKNOWN; ThreadStatus::StateType state_type = ThreadStatus::STATE_UNKNOWN; uint64_t op_elapsed_micros = 0; uint64_t op_props[ThreadStatus::kNumOperationProperties] = {0}; auto iter = cf_info_map_.find(cf_key); if (iter != cf_info_map_.end()) { op_type = thread_data->operation_type.load(std::memory_order_acquire); // display lower-level info only when higher-level info is available. if (op_type != ThreadStatus::OP_UNKNOWN) { op_elapsed_micros = now_micros - thread_data->op_start_time.load( std::memory_order_relaxed); op_stage = thread_data->operation_stage.load(std::memory_order_relaxed); state_type = thread_data->state_type.load(std::memory_order_relaxed); for (int i = 0; i < ThreadStatus::kNumOperationProperties; ++i) { op_props[i] = thread_data->op_properties[i].load(std::memory_order_relaxed); } } } thread_list->emplace_back( thread_id, thread_type, iter != cf_info_map_.end() ? iter->second.db_name : "", iter != cf_info_map_.end() ? iter->second.cf_name : "", op_type, op_elapsed_micros, op_stage, op_props, state_type); } return Status::OK(); } ThreadStatusData* ThreadStatusUpdater::GetLocalThreadStatus() { if (thread_status_data_ == nullptr) { return nullptr; } if (!thread_status_data_->enable_tracking) { assert(thread_status_data_->cf_key.load(std::memory_order_relaxed) == nullptr); return nullptr; } return thread_status_data_; } void ThreadStatusUpdater::NewColumnFamilyInfo(const void* db_key, const std::string& db_name, const void* cf_key, const std::string& cf_name) { // Acquiring same lock as GetThreadList() to guarantee // a consistent view of global column family table (cf_info_map). std::lock_guard lck(thread_list_mutex_); cf_info_map_.emplace(std::piecewise_construct, std::make_tuple(cf_key), std::make_tuple(db_key, db_name, cf_name)); db_key_map_[db_key].insert(cf_key); } void ThreadStatusUpdater::EraseColumnFamilyInfo(const void* cf_key) { // Acquiring same lock as GetThreadList() to guarantee // a consistent view of global column family table (cf_info_map). std::lock_guard lck(thread_list_mutex_); auto cf_pair = cf_info_map_.find(cf_key); if (cf_pair != cf_info_map_.end()) { // Remove its entry from db_key_map_ by the following steps: // 1. Obtain the entry in db_key_map_ whose set contains cf_key // 2. Remove it from the set. ConstantColumnFamilyInfo& cf_info = cf_pair->second; auto db_pair = db_key_map_.find(cf_info.db_key); assert(db_pair != db_key_map_.end()); size_t result __attribute__((__unused__)); result = db_pair->second.erase(cf_key); assert(result); cf_info_map_.erase(cf_pair); } } void ThreadStatusUpdater::EraseDatabaseInfo(const void* db_key) { // Acquiring same lock as GetThreadList() to guarantee // a consistent view of global column family table (cf_info_map). std::lock_guard lck(thread_list_mutex_); auto db_pair = db_key_map_.find(db_key); if (UNLIKELY(db_pair == db_key_map_.end())) { // In some occasional cases such as DB::Open fails, we won't // register ColumnFamilyInfo for a db. return; } for (auto cf_key : db_pair->second) { auto cf_pair = cf_info_map_.find(cf_key); if (cf_pair != cf_info_map_.end()) { cf_info_map_.erase(cf_pair); } } db_key_map_.erase(db_key); } #else void ThreadStatusUpdater::RegisterThread(ThreadStatus::ThreadType /*ttype*/, uint64_t /*thread_id*/) {} void ThreadStatusUpdater::UnregisterThread() {} void ThreadStatusUpdater::ResetThreadStatus() {} void ThreadStatusUpdater::SetColumnFamilyInfoKey(const void* /*cf_key*/) {} void ThreadStatusUpdater::SetThreadOperation( const ThreadStatus::OperationType /*type*/) {} void ThreadStatusUpdater::ClearThreadOperation() {} void ThreadStatusUpdater::SetThreadState( const ThreadStatus::StateType /*type*/) {} void ThreadStatusUpdater::ClearThreadState() {} Status ThreadStatusUpdater::GetThreadList( std::vector* /*thread_list*/) { return Status::NotSupported( "GetThreadList is not supported in the current running environment."); } void ThreadStatusUpdater::NewColumnFamilyInfo(const void* /*db_key*/, const std::string& /*db_name*/, const void* /*cf_key*/, const std::string& /*cf_name*/) {} void ThreadStatusUpdater::EraseColumnFamilyInfo(const void* /*cf_key*/) {} void ThreadStatusUpdater::EraseDatabaseInfo(const void* /*db_key*/) {} void ThreadStatusUpdater::SetThreadOperationProperty(int /*i*/, uint64_t /*value*/) {} void ThreadStatusUpdater::IncreaseThreadOperationProperty(int /*i*/, uint64_t /*delta*/) {} #endif // ROCKSDB_USING_THREAD_STATUS } // namespace rocksdb rocksdb-5.17.2/monitoring/thread_status_updater.h000066400000000000000000000207411337235545400222100ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // The implementation of ThreadStatus. // // Note that we make get and set access to ThreadStatusData lockless. // As a result, ThreadStatusData as a whole is not atomic. However, // we guarantee consistent ThreadStatusData all the time whenever // user call GetThreadList(). This consistency guarantee is done // by having the following constraint in the internal implementation // of set and get order: // // 1. When reset any information in ThreadStatusData, always start from // clearing up the lower-level information first. // 2. When setting any information in ThreadStatusData, always start from // setting the higher-level information. // 3. When returning ThreadStatusData to the user, fields are fetched from // higher-level to lower-level. In addition, where there's a nullptr // in one field, then all fields that has lower-level than that field // should be ignored. // // The high to low level information would be: // thread_id > thread_type > db > cf > operation > state // // This means user might not always get full information, but whenever // returned by the GetThreadList() is guaranteed to be consistent. #pragma once #include #include #include #include #include #include #include #include #include "rocksdb/status.h" #include "rocksdb/thread_status.h" #include "port/port.h" #include "util/thread_operation.h" namespace rocksdb { class ColumnFamilyHandle; // The structure that keeps constant information about a column family. struct ConstantColumnFamilyInfo { #ifdef ROCKSDB_USING_THREAD_STATUS public: ConstantColumnFamilyInfo( const void* _db_key, const std::string& _db_name, const std::string& _cf_name) : db_key(_db_key), db_name(_db_name), cf_name(_cf_name) {} const void* db_key; const std::string db_name; const std::string cf_name; #endif // ROCKSDB_USING_THREAD_STATUS }; // the internal data-structure that is used to reflect the current // status of a thread using a set of atomic pointers. struct ThreadStatusData { #ifdef ROCKSDB_USING_THREAD_STATUS explicit ThreadStatusData() : enable_tracking(false) { thread_id.store(0); thread_type.store(ThreadStatus::USER); cf_key.store(nullptr); operation_type.store(ThreadStatus::OP_UNKNOWN); op_start_time.store(0); state_type.store(ThreadStatus::STATE_UNKNOWN); } // A flag to indicate whether the thread tracking is enabled // in the current thread. This value will be updated based on whether // the associated Options::enable_thread_tracking is set to true // in ThreadStatusUtil::SetColumnFamily(). // // If set to false, then SetThreadOperation and SetThreadState // will be no-op. bool enable_tracking; std::atomic thread_id; std::atomic thread_type; std::atomic cf_key; std::atomic operation_type; std::atomic op_start_time; std::atomic operation_stage; std::atomic op_properties[ThreadStatus::kNumOperationProperties]; std::atomic state_type; #endif // ROCKSDB_USING_THREAD_STATUS }; // The class that stores and updates the status of the current thread // using a thread-local ThreadStatusData. // // In most of the case, you should use ThreadStatusUtil to update // the status of the current thread instead of using ThreadSatusUpdater // directly. // // @see ThreadStatusUtil class ThreadStatusUpdater { public: ThreadStatusUpdater() {} // Releases all ThreadStatusData of all active threads. virtual ~ThreadStatusUpdater() {} // Unregister the current thread. void UnregisterThread(); // Reset the status of the current thread. This includes resetting // ColumnFamilyInfoKey, ThreadOperation, and ThreadState. void ResetThreadStatus(); // Set the id of the current thread. void SetThreadID(uint64_t thread_id); // Register the current thread for tracking. void RegisterThread(ThreadStatus::ThreadType ttype, uint64_t thread_id); // Update the column-family info of the current thread by setting // its thread-local pointer of ThreadStateInfo to the correct entry. void SetColumnFamilyInfoKey(const void* cf_key); // returns the column family info key. const void* GetColumnFamilyInfoKey(); // Update the thread operation of the current thread. void SetThreadOperation(const ThreadStatus::OperationType type); // The start time of the current thread operation. It is in the format // of micro-seconds since some fixed point in time. void SetOperationStartTime(const uint64_t start_time); // Set the "i"th property of the current operation. // // NOTE: Our practice here is to set all the thread operation properties // and stage before we set thread operation, and thread operation // will be set in std::memory_order_release. This is to ensure // whenever a thread operation is not OP_UNKNOWN, we will always // have a consistent information on its properties. void SetThreadOperationProperty( int i, uint64_t value); // Increase the "i"th property of the current operation with // the specified delta. void IncreaseThreadOperationProperty( int i, uint64_t delta); // Update the thread operation stage of the current thread. ThreadStatus::OperationStage SetThreadOperationStage( const ThreadStatus::OperationStage stage); // Clear thread operation of the current thread. void ClearThreadOperation(); // Reset all thread-operation-properties to 0. void ClearThreadOperationProperties(); // Update the thread state of the current thread. void SetThreadState(const ThreadStatus::StateType type); // Clear the thread state of the current thread. void ClearThreadState(); // Obtain the status of all active registered threads. Status GetThreadList( std::vector* thread_list); // Create an entry in the global ColumnFamilyInfo table for the // specified column family. This function should be called only // when the current thread does not hold db_mutex. void NewColumnFamilyInfo( const void* db_key, const std::string& db_name, const void* cf_key, const std::string& cf_name); // Erase all ConstantColumnFamilyInfo that is associated with the // specified db instance. This function should be called only when // the current thread does not hold db_mutex. void EraseDatabaseInfo(const void* db_key); // Erase the ConstantColumnFamilyInfo that is associated with the // specified ColumnFamilyData. This function should be called only // when the current thread does not hold db_mutex. void EraseColumnFamilyInfo(const void* cf_key); // Verifies whether the input ColumnFamilyHandles matches // the information stored in the current cf_info_map. void TEST_VerifyColumnFamilyInfoMap( const std::vector& handles, bool check_exist); protected: #ifdef ROCKSDB_USING_THREAD_STATUS // The thread-local variable for storing thread status. static __thread ThreadStatusData* thread_status_data_; // Returns the pointer to the thread status data only when the // thread status data is non-null and has enable_tracking == true. ThreadStatusData* GetLocalThreadStatus(); // Directly returns the pointer to thread_status_data_ without // checking whether enabling_tracking is true of not. ThreadStatusData* Get() { return thread_status_data_; } // The mutex that protects cf_info_map and db_key_map. std::mutex thread_list_mutex_; // The current status data of all active threads. std::unordered_set thread_data_set_; // A global map that keeps the column family information. It is stored // globally instead of inside DB is to avoid the situation where DB is // closing while GetThreadList function already get the pointer to its // CopnstantColumnFamilyInfo. std::unordered_map cf_info_map_; // A db_key to cf_key map that allows erasing elements in cf_info_map // associated to the same db_key faster. std::unordered_map< const void*, std::unordered_set> db_key_map_; #else static ThreadStatusData* thread_status_data_; #endif // ROCKSDB_USING_THREAD_STATUS }; } // namespace rocksdb rocksdb-5.17.2/monitoring/thread_status_updater_debug.cc000066400000000000000000000024061337235545400235120ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include #include "db/column_family.h" #include "monitoring/thread_status_updater.h" namespace rocksdb { #ifndef NDEBUG #ifdef ROCKSDB_USING_THREAD_STATUS void ThreadStatusUpdater::TEST_VerifyColumnFamilyInfoMap( const std::vector& handles, bool check_exist) { std::unique_lock lock(thread_list_mutex_); if (check_exist) { assert(cf_info_map_.size() == handles.size()); } for (auto* handle : handles) { auto* cfd = reinterpret_cast(handle)->cfd(); auto iter __attribute__((__unused__)) = cf_info_map_.find(cfd); if (check_exist) { assert(iter != cf_info_map_.end()); assert(iter->second.cf_name == cfd->GetName()); } else { assert(iter == cf_info_map_.end()); } } } #else void ThreadStatusUpdater::TEST_VerifyColumnFamilyInfoMap( const std::vector& /*handles*/, bool /*check_exist*/) { } #endif // ROCKSDB_USING_THREAD_STATUS #endif // !NDEBUG } // namespace rocksdb rocksdb-5.17.2/monitoring/thread_status_util.cc000066400000000000000000000161321337235545400216560ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include "monitoring/thread_status_util.h" #include "monitoring/thread_status_updater.h" #include "rocksdb/env.h" namespace rocksdb { #ifdef ROCKSDB_USING_THREAD_STATUS __thread ThreadStatusUpdater* ThreadStatusUtil::thread_updater_local_cache_ = nullptr; __thread bool ThreadStatusUtil::thread_updater_initialized_ = false; void ThreadStatusUtil::RegisterThread(const Env* env, ThreadStatus::ThreadType thread_type) { if (!MaybeInitThreadLocalUpdater(env)) { return; } assert(thread_updater_local_cache_); thread_updater_local_cache_->RegisterThread(thread_type, env->GetThreadID()); } void ThreadStatusUtil::UnregisterThread() { thread_updater_initialized_ = false; if (thread_updater_local_cache_ != nullptr) { thread_updater_local_cache_->UnregisterThread(); thread_updater_local_cache_ = nullptr; } } void ThreadStatusUtil::SetColumnFamily(const ColumnFamilyData* cfd, const Env* env, bool enable_thread_tracking) { if (!MaybeInitThreadLocalUpdater(env)) { return; } assert(thread_updater_local_cache_); if (cfd != nullptr && enable_thread_tracking) { thread_updater_local_cache_->SetColumnFamilyInfoKey(cfd); } else { // When cfd == nullptr or enable_thread_tracking == false, we set // ColumnFamilyInfoKey to nullptr, which makes SetThreadOperation // and SetThreadState become no-op. thread_updater_local_cache_->SetColumnFamilyInfoKey(nullptr); } } void ThreadStatusUtil::SetThreadOperation(ThreadStatus::OperationType op) { if (thread_updater_local_cache_ == nullptr) { // thread_updater_local_cache_ must be set in SetColumnFamily // or other ThreadStatusUtil functions. return; } if (op != ThreadStatus::OP_UNKNOWN) { uint64_t current_time = Env::Default()->NowMicros(); thread_updater_local_cache_->SetOperationStartTime(current_time); } else { // TDOO(yhchiang): we could report the time when we set operation to // OP_UNKNOWN once the whole instrumentation has been done. thread_updater_local_cache_->SetOperationStartTime(0); } thread_updater_local_cache_->SetThreadOperation(op); } ThreadStatus::OperationStage ThreadStatusUtil::SetThreadOperationStage( ThreadStatus::OperationStage stage) { if (thread_updater_local_cache_ == nullptr) { // thread_updater_local_cache_ must be set in SetColumnFamily // or other ThreadStatusUtil functions. return ThreadStatus::STAGE_UNKNOWN; } return thread_updater_local_cache_->SetThreadOperationStage(stage); } void ThreadStatusUtil::SetThreadOperationProperty(int code, uint64_t value) { if (thread_updater_local_cache_ == nullptr) { // thread_updater_local_cache_ must be set in SetColumnFamily // or other ThreadStatusUtil functions. return; } thread_updater_local_cache_->SetThreadOperationProperty(code, value); } void ThreadStatusUtil::IncreaseThreadOperationProperty(int code, uint64_t delta) { if (thread_updater_local_cache_ == nullptr) { // thread_updater_local_cache_ must be set in SetColumnFamily // or other ThreadStatusUtil functions. return; } thread_updater_local_cache_->IncreaseThreadOperationProperty(code, delta); } void ThreadStatusUtil::SetThreadState(ThreadStatus::StateType state) { if (thread_updater_local_cache_ == nullptr) { // thread_updater_local_cache_ must be set in SetColumnFamily // or other ThreadStatusUtil functions. return; } thread_updater_local_cache_->SetThreadState(state); } void ThreadStatusUtil::ResetThreadStatus() { if (thread_updater_local_cache_ == nullptr) { return; } thread_updater_local_cache_->ResetThreadStatus(); } void ThreadStatusUtil::NewColumnFamilyInfo(const DB* db, const ColumnFamilyData* cfd, const std::string& cf_name, const Env* env) { if (!MaybeInitThreadLocalUpdater(env)) { return; } assert(thread_updater_local_cache_); if (thread_updater_local_cache_) { thread_updater_local_cache_->NewColumnFamilyInfo(db, db->GetName(), cfd, cf_name); } } void ThreadStatusUtil::EraseColumnFamilyInfo(const ColumnFamilyData* cfd) { if (thread_updater_local_cache_ == nullptr) { return; } thread_updater_local_cache_->EraseColumnFamilyInfo(cfd); } void ThreadStatusUtil::EraseDatabaseInfo(const DB* db) { ThreadStatusUpdater* thread_updater = db->GetEnv()->GetThreadStatusUpdater(); if (thread_updater == nullptr) { return; } thread_updater->EraseDatabaseInfo(db); } bool ThreadStatusUtil::MaybeInitThreadLocalUpdater(const Env* env) { if (!thread_updater_initialized_ && env != nullptr) { thread_updater_initialized_ = true; thread_updater_local_cache_ = env->GetThreadStatusUpdater(); } return (thread_updater_local_cache_ != nullptr); } AutoThreadOperationStageUpdater::AutoThreadOperationStageUpdater( ThreadStatus::OperationStage stage) { prev_stage_ = ThreadStatusUtil::SetThreadOperationStage(stage); } AutoThreadOperationStageUpdater::~AutoThreadOperationStageUpdater() { ThreadStatusUtil::SetThreadOperationStage(prev_stage_); } #else ThreadStatusUpdater* ThreadStatusUtil::thread_updater_local_cache_ = nullptr; bool ThreadStatusUtil::thread_updater_initialized_ = false; bool ThreadStatusUtil::MaybeInitThreadLocalUpdater(const Env* /*env*/) { return false; } void ThreadStatusUtil::SetColumnFamily(const ColumnFamilyData* /*cfd*/, const Env* /*env*/, bool /*enable_thread_tracking*/) {} void ThreadStatusUtil::SetThreadOperation(ThreadStatus::OperationType /*op*/) {} void ThreadStatusUtil::SetThreadOperationProperty(int /*code*/, uint64_t /*value*/) {} void ThreadStatusUtil::IncreaseThreadOperationProperty(int /*code*/, uint64_t /*delta*/) {} void ThreadStatusUtil::SetThreadState(ThreadStatus::StateType /*state*/) {} void ThreadStatusUtil::NewColumnFamilyInfo(const DB* /*db*/, const ColumnFamilyData* /*cfd*/, const std::string& /*cf_name*/, const Env* /*env*/) {} void ThreadStatusUtil::EraseColumnFamilyInfo(const ColumnFamilyData* /*cfd*/) {} void ThreadStatusUtil::EraseDatabaseInfo(const DB* /*db*/) {} void ThreadStatusUtil::ResetThreadStatus() {} AutoThreadOperationStageUpdater::AutoThreadOperationStageUpdater( ThreadStatus::OperationStage /*stage*/) {} AutoThreadOperationStageUpdater::~AutoThreadOperationStageUpdater() {} #endif // ROCKSDB_USING_THREAD_STATUS } // namespace rocksdb rocksdb-5.17.2/monitoring/thread_status_util.h000066400000000000000000000121161337235545400215160ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #include #include "monitoring/thread_status_updater.h" #include "rocksdb/db.h" #include "rocksdb/env.h" #include "rocksdb/thread_status.h" namespace rocksdb { class ColumnFamilyData; // The static utility class for updating thread-local status. // // The thread-local status is updated via the thread-local cached // pointer thread_updater_local_cache_. During each function call, // when ThreadStatusUtil finds thread_updater_local_cache_ is // left uninitialized (determined by thread_updater_initialized_), // it will tries to initialize it using the return value of // Env::GetThreadStatusUpdater(). When thread_updater_local_cache_ // is initialized by a non-null pointer, each function call will // then update the status of the current thread. Otherwise, // all function calls to ThreadStatusUtil will be no-op. class ThreadStatusUtil { public: // Register the current thread for tracking. static void RegisterThread( const Env* env, ThreadStatus::ThreadType thread_type); // Unregister the current thread. static void UnregisterThread(); // Create an entry in the global ColumnFamilyInfo table for the // specified column family. This function should be called only // when the current thread does not hold db_mutex. static void NewColumnFamilyInfo(const DB* db, const ColumnFamilyData* cfd, const std::string& cf_name, const Env* env); // Erase the ConstantColumnFamilyInfo that is associated with the // specified ColumnFamilyData. This function should be called only // when the current thread does not hold db_mutex. static void EraseColumnFamilyInfo(const ColumnFamilyData* cfd); // Erase all ConstantColumnFamilyInfo that is associated with the // specified db instance. This function should be called only when // the current thread does not hold db_mutex. static void EraseDatabaseInfo(const DB* db); // Update the thread status to indicate the current thread is doing // something related to the specified column family. static void SetColumnFamily(const ColumnFamilyData* cfd, const Env* env, bool enable_thread_tracking); static void SetThreadOperation(ThreadStatus::OperationType type); static ThreadStatus::OperationStage SetThreadOperationStage( ThreadStatus::OperationStage stage); static void SetThreadOperationProperty( int code, uint64_t value); static void IncreaseThreadOperationProperty( int code, uint64_t delta); static void SetThreadState(ThreadStatus::StateType type); static void ResetThreadStatus(); #ifndef NDEBUG static void TEST_SetStateDelay( const ThreadStatus::StateType state, int micro); static void TEST_StateDelay(const ThreadStatus::StateType state); #endif protected: // Initialize the thread-local ThreadStatusUpdater when it finds // the cached value is nullptr. Returns true if it has cached // a non-null pointer. static bool MaybeInitThreadLocalUpdater(const Env* env); #ifdef ROCKSDB_USING_THREAD_STATUS // A boolean flag indicating whether thread_updater_local_cache_ // is initialized. It is set to true when an Env uses any // ThreadStatusUtil functions using the current thread other // than UnregisterThread(). It will be set to false when // UnregisterThread() is called. // // When this variable is set to true, thread_updater_local_cache_ // will not be updated until this variable is again set to false // in UnregisterThread(). static __thread bool thread_updater_initialized_; // The thread-local cached ThreadStatusUpdater that caches the // thread_status_updater_ of the first Env that uses any ThreadStatusUtil // function other than UnregisterThread(). This variable will // be cleared when UnregisterThread() is called. // // When this variable is set to a non-null pointer, then the status // of the current thread will be updated when a function of // ThreadStatusUtil is called. Otherwise, all functions of // ThreadStatusUtil will be no-op. // // When thread_updater_initialized_ is set to true, this variable // will not be updated until this thread_updater_initialized_ is // again set to false in UnregisterThread(). static __thread ThreadStatusUpdater* thread_updater_local_cache_; #else static bool thread_updater_initialized_; static ThreadStatusUpdater* thread_updater_local_cache_; #endif }; // A helper class for updating thread state. It will set the // thread state according to the input parameter in its constructor // and set the thread state to the previous state in its destructor. class AutoThreadOperationStageUpdater { public: explicit AutoThreadOperationStageUpdater( ThreadStatus::OperationStage stage); ~AutoThreadOperationStageUpdater(); #ifdef ROCKSDB_USING_THREAD_STATUS private: ThreadStatus::OperationStage prev_stage_; #endif }; } // namespace rocksdb rocksdb-5.17.2/monitoring/thread_status_util_debug.cc000066400000000000000000000017061337235545400230250ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include #include "monitoring/thread_status_updater.h" #include "monitoring/thread_status_util.h" #include "rocksdb/env.h" namespace rocksdb { #ifndef NDEBUG // the delay for debugging purpose. static std::atomic states_delay[ThreadStatus::NUM_STATE_TYPES]; void ThreadStatusUtil::TEST_SetStateDelay( const ThreadStatus::StateType state, int micro) { states_delay[state].store(micro, std::memory_order_relaxed); } void ThreadStatusUtil::TEST_StateDelay(const ThreadStatus::StateType state) { auto delay = states_delay[state].load(std::memory_order_relaxed); if (delay > 0) { Env::Default()->SleepForMicroseconds(delay); } } #endif // !NDEBUG } // namespace rocksdb rocksdb-5.17.2/options/000077500000000000000000000000001337235545400147435ustar00rootroot00000000000000rocksdb-5.17.2/options/cf_options.cc000066400000000000000000000241141337235545400174170ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include "options/cf_options.h" #ifndef __STDC_FORMAT_MACROS #define __STDC_FORMAT_MACROS #endif #include #include #include #include #include "options/db_options.h" #include "port/port.h" #include "rocksdb/env.h" #include "rocksdb/options.h" namespace rocksdb { ImmutableCFOptions::ImmutableCFOptions(const Options& options) : ImmutableCFOptions(ImmutableDBOptions(options), options) {} ImmutableCFOptions::ImmutableCFOptions(const ImmutableDBOptions& db_options, const ColumnFamilyOptions& cf_options) : compaction_style(cf_options.compaction_style), compaction_pri(cf_options.compaction_pri), user_comparator(cf_options.comparator), internal_comparator(InternalKeyComparator(cf_options.comparator)), merge_operator(cf_options.merge_operator.get()), compaction_filter(cf_options.compaction_filter), compaction_filter_factory(cf_options.compaction_filter_factory.get()), min_write_buffer_number_to_merge( cf_options.min_write_buffer_number_to_merge), max_write_buffer_number_to_maintain( cf_options.max_write_buffer_number_to_maintain), inplace_update_support(cf_options.inplace_update_support), inplace_callback(cf_options.inplace_callback), info_log(db_options.info_log.get()), statistics(db_options.statistics.get()), rate_limiter(db_options.rate_limiter.get()), info_log_level(db_options.info_log_level), env(db_options.env), allow_mmap_reads(db_options.allow_mmap_reads), allow_mmap_writes(db_options.allow_mmap_writes), db_paths(db_options.db_paths), memtable_factory(cf_options.memtable_factory.get()), table_factory(cf_options.table_factory.get()), table_properties_collector_factories( cf_options.table_properties_collector_factories), advise_random_on_open(db_options.advise_random_on_open), bloom_locality(cf_options.bloom_locality), purge_redundant_kvs_while_flush( cf_options.purge_redundant_kvs_while_flush), use_fsync(db_options.use_fsync), compression_per_level(cf_options.compression_per_level), bottommost_compression(cf_options.bottommost_compression), bottommost_compression_opts(cf_options.bottommost_compression_opts), compression_opts(cf_options.compression_opts), level_compaction_dynamic_level_bytes( cf_options.level_compaction_dynamic_level_bytes), access_hint_on_compaction_start( db_options.access_hint_on_compaction_start), new_table_reader_for_compaction_inputs( db_options.new_table_reader_for_compaction_inputs), num_levels(cf_options.num_levels), optimize_filters_for_hits(cf_options.optimize_filters_for_hits), force_consistency_checks(cf_options.force_consistency_checks), allow_ingest_behind(db_options.allow_ingest_behind), preserve_deletes(db_options.preserve_deletes), listeners(db_options.listeners), row_cache(db_options.row_cache), max_subcompactions(db_options.max_subcompactions), memtable_insert_with_hint_prefix_extractor( cf_options.memtable_insert_with_hint_prefix_extractor.get()), cf_paths(cf_options.cf_paths) {} // Multiple two operands. If they overflow, return op1. uint64_t MultiplyCheckOverflow(uint64_t op1, double op2) { if (op1 == 0 || op2 <= 0) { return 0; } if (port::kMaxUint64 / op1 < op2) { return op1; } return static_cast(op1 * op2); } // when level_compaction_dynamic_level_bytes is true and leveled compaction // is used, the base level is not always L1, so precomupted max_file_size can // no longer be used. Recompute file_size_for_level from base level. uint64_t MaxFileSizeForLevel(const MutableCFOptions& cf_options, int level, CompactionStyle compaction_style, int base_level, bool level_compaction_dynamic_level_bytes) { if (!level_compaction_dynamic_level_bytes || level < base_level || compaction_style != kCompactionStyleLevel) { assert(level >= 0); assert(level < (int)cf_options.max_file_size.size()); return cf_options.max_file_size[level]; } else { assert(level >= 0 && base_level >= 0); assert(level - base_level < (int)cf_options.max_file_size.size()); return cf_options.max_file_size[level - base_level]; } } void MutableCFOptions::RefreshDerivedOptions(int num_levels, CompactionStyle compaction_style) { max_file_size.resize(num_levels); for (int i = 0; i < num_levels; ++i) { if (i == 0 && compaction_style == kCompactionStyleUniversal) { max_file_size[i] = ULLONG_MAX; } else if (i > 1) { max_file_size[i] = MultiplyCheckOverflow(max_file_size[i - 1], target_file_size_multiplier); } else { max_file_size[i] = target_file_size_base; } } } void MutableCFOptions::Dump(Logger* log) const { // Memtable related options ROCKS_LOG_INFO(log, " write_buffer_size: %" ROCKSDB_PRIszt, write_buffer_size); ROCKS_LOG_INFO(log, " max_write_buffer_number: %d", max_write_buffer_number); ROCKS_LOG_INFO(log, " arena_block_size: %" ROCKSDB_PRIszt, arena_block_size); ROCKS_LOG_INFO(log, " memtable_prefix_bloom_ratio: %f", memtable_prefix_bloom_size_ratio); ROCKS_LOG_INFO(log, " memtable_huge_page_size: %" ROCKSDB_PRIszt, memtable_huge_page_size); ROCKS_LOG_INFO(log, " max_successive_merges: %" ROCKSDB_PRIszt, max_successive_merges); ROCKS_LOG_INFO(log, " inplace_update_num_locks: %" ROCKSDB_PRIszt, inplace_update_num_locks); ROCKS_LOG_INFO( log, " prefix_extractor: %s", prefix_extractor == nullptr ? "nullptr" : prefix_extractor->Name()); ROCKS_LOG_INFO(log, " disable_auto_compactions: %d", disable_auto_compactions); ROCKS_LOG_INFO(log, " soft_pending_compaction_bytes_limit: %" PRIu64, soft_pending_compaction_bytes_limit); ROCKS_LOG_INFO(log, " hard_pending_compaction_bytes_limit: %" PRIu64, hard_pending_compaction_bytes_limit); ROCKS_LOG_INFO(log, " level0_file_num_compaction_trigger: %d", level0_file_num_compaction_trigger); ROCKS_LOG_INFO(log, " level0_slowdown_writes_trigger: %d", level0_slowdown_writes_trigger); ROCKS_LOG_INFO(log, " level0_stop_writes_trigger: %d", level0_stop_writes_trigger); ROCKS_LOG_INFO(log, " max_compaction_bytes: %" PRIu64, max_compaction_bytes); ROCKS_LOG_INFO(log, " target_file_size_base: %" PRIu64, target_file_size_base); ROCKS_LOG_INFO(log, " target_file_size_multiplier: %d", target_file_size_multiplier); ROCKS_LOG_INFO(log, " max_bytes_for_level_base: %" PRIu64, max_bytes_for_level_base); ROCKS_LOG_INFO(log, " max_bytes_for_level_multiplier: %f", max_bytes_for_level_multiplier); ROCKS_LOG_INFO(log, " ttl: %" PRIu64, ttl); std::string result; char buf[10]; for (const auto m : max_bytes_for_level_multiplier_additional) { snprintf(buf, sizeof(buf), "%d, ", m); result += buf; } if (result.size() >= 2) { result.resize(result.size() - 2); } else { result = ""; } ROCKS_LOG_INFO(log, "max_bytes_for_level_multiplier_additional: %s", result.c_str()); ROCKS_LOG_INFO(log, " max_sequential_skip_in_iterations: %" PRIu64, max_sequential_skip_in_iterations); ROCKS_LOG_INFO(log, " paranoid_file_checks: %d", paranoid_file_checks); ROCKS_LOG_INFO(log, " report_bg_io_stats: %d", report_bg_io_stats); ROCKS_LOG_INFO(log, " compression: %d", static_cast(compression)); // Universal Compaction Options ROCKS_LOG_INFO(log, "compaction_options_universal.size_ratio : %d", compaction_options_universal.size_ratio); ROCKS_LOG_INFO(log, "compaction_options_universal.min_merge_width : %d", compaction_options_universal.min_merge_width); ROCKS_LOG_INFO(log, "compaction_options_universal.max_merge_width : %d", compaction_options_universal.max_merge_width); ROCKS_LOG_INFO( log, "compaction_options_universal.max_size_amplification_percent : %d", compaction_options_universal.max_size_amplification_percent); ROCKS_LOG_INFO(log, "compaction_options_universal.compression_size_percent : %d", compaction_options_universal.compression_size_percent); ROCKS_LOG_INFO(log, "compaction_options_universal.stop_style : %d", compaction_options_universal.stop_style); ROCKS_LOG_INFO( log, "compaction_options_universal.allow_trivial_move : %d", static_cast(compaction_options_universal.allow_trivial_move)); // FIFO Compaction Options ROCKS_LOG_INFO(log, "compaction_options_fifo.max_table_files_size : %" PRIu64, compaction_options_fifo.max_table_files_size); ROCKS_LOG_INFO(log, "compaction_options_fifo.ttl : %" PRIu64, compaction_options_fifo.ttl); ROCKS_LOG_INFO(log, "compaction_options_fifo.allow_compaction : %d", compaction_options_fifo.allow_compaction); } MutableCFOptions::MutableCFOptions(const Options& options) : MutableCFOptions(ColumnFamilyOptions(options)) {} } // namespace rocksdb rocksdb-5.17.2/options/cf_options.h000066400000000000000000000203611337235545400172610ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #include #include #include "db/dbformat.h" #include "options/db_options.h" #include "rocksdb/options.h" #include "util/compression.h" namespace rocksdb { // ImmutableCFOptions is a data struct used by RocksDB internal. It contains a // subset of Options that should not be changed during the entire lifetime // of DB. Raw pointers defined in this struct do not have ownership to the data // they point to. Options contains shared_ptr to these data. struct ImmutableCFOptions { ImmutableCFOptions(); explicit ImmutableCFOptions(const Options& options); ImmutableCFOptions(const ImmutableDBOptions& db_options, const ColumnFamilyOptions& cf_options); CompactionStyle compaction_style; CompactionPri compaction_pri; const Comparator* user_comparator; InternalKeyComparator internal_comparator; MergeOperator* merge_operator; const CompactionFilter* compaction_filter; CompactionFilterFactory* compaction_filter_factory; int min_write_buffer_number_to_merge; int max_write_buffer_number_to_maintain; bool inplace_update_support; UpdateStatus (*inplace_callback)(char* existing_value, uint32_t* existing_value_size, Slice delta_value, std::string* merged_value); Logger* info_log; Statistics* statistics; RateLimiter* rate_limiter; InfoLogLevel info_log_level; Env* env; // Allow the OS to mmap file for reading sst tables. Default: false bool allow_mmap_reads; // Allow the OS to mmap file for writing. Default: false bool allow_mmap_writes; std::vector db_paths; MemTableRepFactory* memtable_factory; TableFactory* table_factory; Options::TablePropertiesCollectorFactories table_properties_collector_factories; bool advise_random_on_open; // This options is required by PlainTableReader. May need to move it // to PlainTableOptions just like bloom_bits_per_key uint32_t bloom_locality; bool purge_redundant_kvs_while_flush; bool use_fsync; std::vector compression_per_level; CompressionType bottommost_compression; CompressionOptions bottommost_compression_opts; CompressionOptions compression_opts; bool level_compaction_dynamic_level_bytes; Options::AccessHint access_hint_on_compaction_start; bool new_table_reader_for_compaction_inputs; int num_levels; bool optimize_filters_for_hits; bool force_consistency_checks; bool allow_ingest_behind; bool preserve_deletes; // A vector of EventListeners which callback functions will be called // when specific RocksDB event happens. std::vector> listeners; std::shared_ptr row_cache; uint32_t max_subcompactions; const SliceTransform* memtable_insert_with_hint_prefix_extractor; std::vector cf_paths; }; struct MutableCFOptions { explicit MutableCFOptions(const ColumnFamilyOptions& options) : write_buffer_size(options.write_buffer_size), max_write_buffer_number(options.max_write_buffer_number), arena_block_size(options.arena_block_size), memtable_prefix_bloom_size_ratio( options.memtable_prefix_bloom_size_ratio), memtable_huge_page_size(options.memtable_huge_page_size), max_successive_merges(options.max_successive_merges), inplace_update_num_locks(options.inplace_update_num_locks), prefix_extractor(options.prefix_extractor), disable_auto_compactions(options.disable_auto_compactions), soft_pending_compaction_bytes_limit( options.soft_pending_compaction_bytes_limit), hard_pending_compaction_bytes_limit( options.hard_pending_compaction_bytes_limit), level0_file_num_compaction_trigger( options.level0_file_num_compaction_trigger), level0_slowdown_writes_trigger(options.level0_slowdown_writes_trigger), level0_stop_writes_trigger(options.level0_stop_writes_trigger), max_compaction_bytes(options.max_compaction_bytes), target_file_size_base(options.target_file_size_base), target_file_size_multiplier(options.target_file_size_multiplier), max_bytes_for_level_base(options.max_bytes_for_level_base), max_bytes_for_level_multiplier(options.max_bytes_for_level_multiplier), ttl(options.ttl), max_bytes_for_level_multiplier_additional( options.max_bytes_for_level_multiplier_additional), compaction_options_fifo(options.compaction_options_fifo), compaction_options_universal(options.compaction_options_universal), max_sequential_skip_in_iterations( options.max_sequential_skip_in_iterations), paranoid_file_checks(options.paranoid_file_checks), report_bg_io_stats(options.report_bg_io_stats), compression(options.compression) { RefreshDerivedOptions(options.num_levels, options.compaction_style); } MutableCFOptions() : write_buffer_size(0), max_write_buffer_number(0), arena_block_size(0), memtable_prefix_bloom_size_ratio(0), memtable_huge_page_size(0), max_successive_merges(0), inplace_update_num_locks(0), prefix_extractor(nullptr), disable_auto_compactions(false), soft_pending_compaction_bytes_limit(0), hard_pending_compaction_bytes_limit(0), level0_file_num_compaction_trigger(0), level0_slowdown_writes_trigger(0), level0_stop_writes_trigger(0), max_compaction_bytes(0), target_file_size_base(0), target_file_size_multiplier(0), max_bytes_for_level_base(0), max_bytes_for_level_multiplier(0), ttl(0), compaction_options_fifo(), max_sequential_skip_in_iterations(0), paranoid_file_checks(false), report_bg_io_stats(false), compression(Snappy_Supported() ? kSnappyCompression : kNoCompression) {} explicit MutableCFOptions(const Options& options); // Must be called after any change to MutableCFOptions void RefreshDerivedOptions(int num_levels, CompactionStyle compaction_style); void RefreshDerivedOptions(const ImmutableCFOptions& ioptions) { RefreshDerivedOptions(ioptions.num_levels, ioptions.compaction_style); } int MaxBytesMultiplerAdditional(int level) const { if (level >= static_cast(max_bytes_for_level_multiplier_additional.size())) { return 1; } return max_bytes_for_level_multiplier_additional[level]; } void Dump(Logger* log) const; // Memtable related options size_t write_buffer_size; int max_write_buffer_number; size_t arena_block_size; double memtable_prefix_bloom_size_ratio; size_t memtable_huge_page_size; size_t max_successive_merges; size_t inplace_update_num_locks; std::shared_ptr prefix_extractor; // Compaction related options bool disable_auto_compactions; uint64_t soft_pending_compaction_bytes_limit; uint64_t hard_pending_compaction_bytes_limit; int level0_file_num_compaction_trigger; int level0_slowdown_writes_trigger; int level0_stop_writes_trigger; uint64_t max_compaction_bytes; uint64_t target_file_size_base; int target_file_size_multiplier; uint64_t max_bytes_for_level_base; double max_bytes_for_level_multiplier; uint64_t ttl; std::vector max_bytes_for_level_multiplier_additional; CompactionOptionsFIFO compaction_options_fifo; CompactionOptionsUniversal compaction_options_universal; // Misc options uint64_t max_sequential_skip_in_iterations; bool paranoid_file_checks; bool report_bg_io_stats; CompressionType compression; // Derived options // Per-level target file size. std::vector max_file_size; }; uint64_t MultiplyCheckOverflow(uint64_t op1, double op2); // Get the max file size in a given level. uint64_t MaxFileSizeForLevel(const MutableCFOptions& cf_options, int level, CompactionStyle compaction_style, int base_level = 1, bool level_compaction_dynamic_level_bytes = false); } // namespace rocksdb rocksdb-5.17.2/options/db_options.cc000066400000000000000000000330351337235545400174160ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include "options/db_options.h" #ifndef __STDC_FORMAT_MACROS #define __STDC_FORMAT_MACROS #endif #include #include "port/port.h" #include "rocksdb/cache.h" #include "rocksdb/env.h" #include "rocksdb/sst_file_manager.h" #include "rocksdb/wal_filter.h" #include "util/logging.h" namespace rocksdb { ImmutableDBOptions::ImmutableDBOptions() : ImmutableDBOptions(Options()) {} ImmutableDBOptions::ImmutableDBOptions(const DBOptions& options) : create_if_missing(options.create_if_missing), create_missing_column_families(options.create_missing_column_families), error_if_exists(options.error_if_exists), paranoid_checks(options.paranoid_checks), env(options.env), rate_limiter(options.rate_limiter), sst_file_manager(options.sst_file_manager), info_log(options.info_log), info_log_level(options.info_log_level), max_file_opening_threads(options.max_file_opening_threads), statistics(options.statistics), use_fsync(options.use_fsync), db_paths(options.db_paths), db_log_dir(options.db_log_dir), wal_dir(options.wal_dir), max_subcompactions(options.max_subcompactions), max_background_flushes(options.max_background_flushes), max_log_file_size(options.max_log_file_size), log_file_time_to_roll(options.log_file_time_to_roll), keep_log_file_num(options.keep_log_file_num), recycle_log_file_num(options.recycle_log_file_num), max_manifest_file_size(options.max_manifest_file_size), table_cache_numshardbits(options.table_cache_numshardbits), wal_ttl_seconds(options.WAL_ttl_seconds), wal_size_limit_mb(options.WAL_size_limit_MB), manifest_preallocation_size(options.manifest_preallocation_size), allow_mmap_reads(options.allow_mmap_reads), allow_mmap_writes(options.allow_mmap_writes), use_direct_reads(options.use_direct_reads), use_direct_io_for_flush_and_compaction( options.use_direct_io_for_flush_and_compaction), allow_fallocate(options.allow_fallocate), is_fd_close_on_exec(options.is_fd_close_on_exec), advise_random_on_open(options.advise_random_on_open), db_write_buffer_size(options.db_write_buffer_size), write_buffer_manager(options.write_buffer_manager), access_hint_on_compaction_start(options.access_hint_on_compaction_start), new_table_reader_for_compaction_inputs( options.new_table_reader_for_compaction_inputs), random_access_max_buffer_size(options.random_access_max_buffer_size), use_adaptive_mutex(options.use_adaptive_mutex), listeners(options.listeners), enable_thread_tracking(options.enable_thread_tracking), enable_pipelined_write(options.enable_pipelined_write), allow_concurrent_memtable_write(options.allow_concurrent_memtable_write), enable_write_thread_adaptive_yield( options.enable_write_thread_adaptive_yield), write_thread_max_yield_usec(options.write_thread_max_yield_usec), write_thread_slow_yield_usec(options.write_thread_slow_yield_usec), skip_stats_update_on_db_open(options.skip_stats_update_on_db_open), wal_recovery_mode(options.wal_recovery_mode), allow_2pc(options.allow_2pc), row_cache(options.row_cache), #ifndef ROCKSDB_LITE wal_filter(options.wal_filter), #endif // ROCKSDB_LITE fail_if_options_file_error(options.fail_if_options_file_error), dump_malloc_stats(options.dump_malloc_stats), avoid_flush_during_recovery(options.avoid_flush_during_recovery), allow_ingest_behind(options.allow_ingest_behind), preserve_deletes(options.preserve_deletes), two_write_queues(options.two_write_queues), manual_wal_flush(options.manual_wal_flush) { } void ImmutableDBOptions::Dump(Logger* log) const { ROCKS_LOG_HEADER(log, " Options.error_if_exists: %d", error_if_exists); ROCKS_LOG_HEADER(log, " Options.create_if_missing: %d", create_if_missing); ROCKS_LOG_HEADER(log, " Options.paranoid_checks: %d", paranoid_checks); ROCKS_LOG_HEADER(log, " Options.env: %p", env); ROCKS_LOG_HEADER(log, " Options.info_log: %p", info_log.get()); ROCKS_LOG_HEADER(log, " Options.max_file_opening_threads: %d", max_file_opening_threads); ROCKS_LOG_HEADER(log, " Options.statistics: %p", statistics.get()); ROCKS_LOG_HEADER(log, " Options.use_fsync: %d", use_fsync); ROCKS_LOG_HEADER( log, " Options.max_log_file_size: %" ROCKSDB_PRIszt, max_log_file_size); ROCKS_LOG_HEADER(log, " Options.max_manifest_file_size: %" PRIu64, max_manifest_file_size); ROCKS_LOG_HEADER( log, " Options.log_file_time_to_roll: %" ROCKSDB_PRIszt, log_file_time_to_roll); ROCKS_LOG_HEADER( log, " Options.keep_log_file_num: %" ROCKSDB_PRIszt, keep_log_file_num); ROCKS_LOG_HEADER( log, " Options.recycle_log_file_num: %" ROCKSDB_PRIszt, recycle_log_file_num); ROCKS_LOG_HEADER(log, " Options.allow_fallocate: %d", allow_fallocate); ROCKS_LOG_HEADER(log, " Options.allow_mmap_reads: %d", allow_mmap_reads); ROCKS_LOG_HEADER(log, " Options.allow_mmap_writes: %d", allow_mmap_writes); ROCKS_LOG_HEADER(log, " Options.use_direct_reads: %d", use_direct_reads); ROCKS_LOG_HEADER(log, " " "Options.use_direct_io_for_flush_and_compaction: %d", use_direct_io_for_flush_and_compaction); ROCKS_LOG_HEADER(log, " Options.create_missing_column_families: %d", create_missing_column_families); ROCKS_LOG_HEADER(log, " Options.db_log_dir: %s", db_log_dir.c_str()); ROCKS_LOG_HEADER(log, " Options.wal_dir: %s", wal_dir.c_str()); ROCKS_LOG_HEADER(log, " Options.table_cache_numshardbits: %d", table_cache_numshardbits); ROCKS_LOG_HEADER(log, " Options.max_subcompactions: %" PRIu32, max_subcompactions); ROCKS_LOG_HEADER(log, " Options.max_background_flushes: %d", max_background_flushes); ROCKS_LOG_HEADER(log, " Options.WAL_ttl_seconds: %" PRIu64, wal_ttl_seconds); ROCKS_LOG_HEADER(log, " Options.WAL_size_limit_MB: %" PRIu64, wal_size_limit_mb); ROCKS_LOG_HEADER( log, " Options.manifest_preallocation_size: %" ROCKSDB_PRIszt, manifest_preallocation_size); ROCKS_LOG_HEADER(log, " Options.is_fd_close_on_exec: %d", is_fd_close_on_exec); ROCKS_LOG_HEADER(log, " Options.advise_random_on_open: %d", advise_random_on_open); ROCKS_LOG_HEADER( log, " Options.db_write_buffer_size: %" ROCKSDB_PRIszt, db_write_buffer_size); ROCKS_LOG_HEADER(log, " Options.write_buffer_manager: %p", write_buffer_manager.get()); ROCKS_LOG_HEADER(log, " Options.access_hint_on_compaction_start: %d", static_cast(access_hint_on_compaction_start)); ROCKS_LOG_HEADER(log, " Options.new_table_reader_for_compaction_inputs: %d", new_table_reader_for_compaction_inputs); ROCKS_LOG_HEADER( log, " Options.random_access_max_buffer_size: %" ROCKSDB_PRIszt, random_access_max_buffer_size); ROCKS_LOG_HEADER(log, " Options.use_adaptive_mutex: %d", use_adaptive_mutex); ROCKS_LOG_HEADER(log, " Options.rate_limiter: %p", rate_limiter.get()); Header( log, " Options.sst_file_manager.rate_bytes_per_sec: %" PRIi64, sst_file_manager ? sst_file_manager->GetDeleteRateBytesPerSecond() : 0); ROCKS_LOG_HEADER(log, " Options.wal_recovery_mode: %d", wal_recovery_mode); ROCKS_LOG_HEADER(log, " Options.enable_thread_tracking: %d", enable_thread_tracking); ROCKS_LOG_HEADER(log, " Options.enable_pipelined_write: %d", enable_pipelined_write); ROCKS_LOG_HEADER(log, " Options.allow_concurrent_memtable_write: %d", allow_concurrent_memtable_write); ROCKS_LOG_HEADER(log, " Options.enable_write_thread_adaptive_yield: %d", enable_write_thread_adaptive_yield); ROCKS_LOG_HEADER(log, " Options.write_thread_max_yield_usec: %" PRIu64, write_thread_max_yield_usec); ROCKS_LOG_HEADER(log, " Options.write_thread_slow_yield_usec: %" PRIu64, write_thread_slow_yield_usec); if (row_cache) { ROCKS_LOG_HEADER( log, " Options.row_cache: %" PRIu64, row_cache->GetCapacity()); } else { ROCKS_LOG_HEADER(log, " Options.row_cache: None"); } #ifndef ROCKSDB_LITE ROCKS_LOG_HEADER(log, " Options.wal_filter: %s", wal_filter ? wal_filter->Name() : "None"); #endif // ROCKDB_LITE ROCKS_LOG_HEADER(log, " Options.avoid_flush_during_recovery: %d", avoid_flush_during_recovery); ROCKS_LOG_HEADER(log, " Options.allow_ingest_behind: %d", allow_ingest_behind); ROCKS_LOG_HEADER(log, " Options.preserve_deletes: %d", preserve_deletes); ROCKS_LOG_HEADER(log, " Options.two_write_queues: %d", two_write_queues); ROCKS_LOG_HEADER(log, " Options.manual_wal_flush: %d", manual_wal_flush); } MutableDBOptions::MutableDBOptions() : max_background_jobs(2), base_background_compactions(-1), max_background_compactions(-1), avoid_flush_during_shutdown(false), writable_file_max_buffer_size(1024 * 1024), delayed_write_rate(2 * 1024U * 1024U), max_total_wal_size(0), delete_obsolete_files_period_micros(6ULL * 60 * 60 * 1000000), stats_dump_period_sec(600), max_open_files(-1), bytes_per_sync(0), wal_bytes_per_sync(0), compaction_readahead_size(0) {} MutableDBOptions::MutableDBOptions(const DBOptions& options) : max_background_jobs(options.max_background_jobs), base_background_compactions(options.base_background_compactions), max_background_compactions(options.max_background_compactions), avoid_flush_during_shutdown(options.avoid_flush_during_shutdown), writable_file_max_buffer_size(options.writable_file_max_buffer_size), delayed_write_rate(options.delayed_write_rate), max_total_wal_size(options.max_total_wal_size), delete_obsolete_files_period_micros( options.delete_obsolete_files_period_micros), stats_dump_period_sec(options.stats_dump_period_sec), max_open_files(options.max_open_files), bytes_per_sync(options.bytes_per_sync), wal_bytes_per_sync(options.wal_bytes_per_sync), compaction_readahead_size(options.compaction_readahead_size) {} void MutableDBOptions::Dump(Logger* log) const { ROCKS_LOG_HEADER(log, " Options.max_background_jobs: %d", max_background_jobs); ROCKS_LOG_HEADER(log, " Options.max_background_compactions: %d", max_background_compactions); ROCKS_LOG_HEADER(log, " Options.avoid_flush_during_shutdown: %d", avoid_flush_during_shutdown); ROCKS_LOG_HEADER( log, " Options.writable_file_max_buffer_size: %" ROCKSDB_PRIszt, writable_file_max_buffer_size); ROCKS_LOG_HEADER(log, " Options.delayed_write_rate : %" PRIu64, delayed_write_rate); ROCKS_LOG_HEADER(log, " Options.max_total_wal_size: %" PRIu64, max_total_wal_size); ROCKS_LOG_HEADER( log, " Options.delete_obsolete_files_period_micros: %" PRIu64, delete_obsolete_files_period_micros); ROCKS_LOG_HEADER(log, " Options.stats_dump_period_sec: %u", stats_dump_period_sec); ROCKS_LOG_HEADER(log, " Options.max_open_files: %d", max_open_files); ROCKS_LOG_HEADER(log, " Options.bytes_per_sync: %" PRIu64, bytes_per_sync); ROCKS_LOG_HEADER(log, " Options.wal_bytes_per_sync: %" PRIu64, wal_bytes_per_sync); ROCKS_LOG_HEADER(log, " Options.compaction_readahead_size: %" ROCKSDB_PRIszt, compaction_readahead_size); } } // namespace rocksdb rocksdb-5.17.2/options/db_options.h000066400000000000000000000061011337235545400172520ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #include #include #include "rocksdb/options.h" namespace rocksdb { struct ImmutableDBOptions { ImmutableDBOptions(); explicit ImmutableDBOptions(const DBOptions& options); void Dump(Logger* log) const; bool create_if_missing; bool create_missing_column_families; bool error_if_exists; bool paranoid_checks; Env* env; std::shared_ptr rate_limiter; std::shared_ptr sst_file_manager; std::shared_ptr info_log; InfoLogLevel info_log_level; int max_file_opening_threads; std::shared_ptr statistics; bool use_fsync; std::vector db_paths; std::string db_log_dir; std::string wal_dir; uint32_t max_subcompactions; int max_background_flushes; size_t max_log_file_size; size_t log_file_time_to_roll; size_t keep_log_file_num; size_t recycle_log_file_num; uint64_t max_manifest_file_size; int table_cache_numshardbits; uint64_t wal_ttl_seconds; uint64_t wal_size_limit_mb; size_t manifest_preallocation_size; bool allow_mmap_reads; bool allow_mmap_writes; bool use_direct_reads; bool use_direct_io_for_flush_and_compaction; bool allow_fallocate; bool is_fd_close_on_exec; bool advise_random_on_open; size_t db_write_buffer_size; std::shared_ptr write_buffer_manager; DBOptions::AccessHint access_hint_on_compaction_start; bool new_table_reader_for_compaction_inputs; size_t random_access_max_buffer_size; bool use_adaptive_mutex; std::vector> listeners; bool enable_thread_tracking; bool enable_pipelined_write; bool allow_concurrent_memtable_write; bool enable_write_thread_adaptive_yield; uint64_t write_thread_max_yield_usec; uint64_t write_thread_slow_yield_usec; bool skip_stats_update_on_db_open; WALRecoveryMode wal_recovery_mode; bool allow_2pc; std::shared_ptr row_cache; #ifndef ROCKSDB_LITE WalFilter* wal_filter; #endif // ROCKSDB_LITE bool fail_if_options_file_error; bool dump_malloc_stats; bool avoid_flush_during_recovery; bool allow_ingest_behind; bool preserve_deletes; bool two_write_queues; bool manual_wal_flush; }; struct MutableDBOptions { MutableDBOptions(); explicit MutableDBOptions(const MutableDBOptions& options) = default; explicit MutableDBOptions(const DBOptions& options); void Dump(Logger* log) const; int max_background_jobs; int base_background_compactions; int max_background_compactions; bool avoid_flush_during_shutdown; size_t writable_file_max_buffer_size; uint64_t delayed_write_rate; uint64_t max_total_wal_size; uint64_t delete_obsolete_files_period_micros; unsigned int stats_dump_period_sec; int max_open_files; uint64_t bytes_per_sync; uint64_t wal_bytes_per_sync; size_t compaction_readahead_size; }; } // namespace rocksdb rocksdb-5.17.2/options/options.cc000066400000000000000000000601051337235545400167470ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "rocksdb/options.h" #ifndef __STDC_FORMAT_MACROS #define __STDC_FORMAT_MACROS #endif #include #include #include "monitoring/statistics.h" #include "options/db_options.h" #include "options/options_helper.h" #include "rocksdb/cache.h" #include "rocksdb/compaction_filter.h" #include "rocksdb/comparator.h" #include "rocksdb/env.h" #include "rocksdb/memtablerep.h" #include "rocksdb/merge_operator.h" #include "rocksdb/slice.h" #include "rocksdb/slice_transform.h" #include "rocksdb/sst_file_manager.h" #include "rocksdb/table.h" #include "rocksdb/table_properties.h" #include "rocksdb/wal_filter.h" #include "table/block_based_table_factory.h" #include "util/compression.h" namespace rocksdb { AdvancedColumnFamilyOptions::AdvancedColumnFamilyOptions() { assert(memtable_factory.get() != nullptr); } AdvancedColumnFamilyOptions::AdvancedColumnFamilyOptions(const Options& options) : max_write_buffer_number(options.max_write_buffer_number), min_write_buffer_number_to_merge( options.min_write_buffer_number_to_merge), max_write_buffer_number_to_maintain( options.max_write_buffer_number_to_maintain), inplace_update_support(options.inplace_update_support), inplace_update_num_locks(options.inplace_update_num_locks), inplace_callback(options.inplace_callback), memtable_prefix_bloom_size_ratio( options.memtable_prefix_bloom_size_ratio), memtable_huge_page_size(options.memtable_huge_page_size), memtable_insert_with_hint_prefix_extractor( options.memtable_insert_with_hint_prefix_extractor), bloom_locality(options.bloom_locality), arena_block_size(options.arena_block_size), compression_per_level(options.compression_per_level), num_levels(options.num_levels), level0_slowdown_writes_trigger(options.level0_slowdown_writes_trigger), level0_stop_writes_trigger(options.level0_stop_writes_trigger), target_file_size_base(options.target_file_size_base), target_file_size_multiplier(options.target_file_size_multiplier), level_compaction_dynamic_level_bytes( options.level_compaction_dynamic_level_bytes), max_bytes_for_level_multiplier(options.max_bytes_for_level_multiplier), max_bytes_for_level_multiplier_additional( options.max_bytes_for_level_multiplier_additional), max_compaction_bytes(options.max_compaction_bytes), soft_pending_compaction_bytes_limit( options.soft_pending_compaction_bytes_limit), hard_pending_compaction_bytes_limit( options.hard_pending_compaction_bytes_limit), compaction_style(options.compaction_style), compaction_pri(options.compaction_pri), compaction_options_universal(options.compaction_options_universal), compaction_options_fifo(options.compaction_options_fifo), max_sequential_skip_in_iterations( options.max_sequential_skip_in_iterations), memtable_factory(options.memtable_factory), table_properties_collector_factories( options.table_properties_collector_factories), max_successive_merges(options.max_successive_merges), optimize_filters_for_hits(options.optimize_filters_for_hits), paranoid_file_checks(options.paranoid_file_checks), force_consistency_checks(options.force_consistency_checks), report_bg_io_stats(options.report_bg_io_stats), ttl(options.ttl) { assert(memtable_factory.get() != nullptr); if (max_bytes_for_level_multiplier_additional.size() < static_cast(num_levels)) { max_bytes_for_level_multiplier_additional.resize(num_levels, 1); } } ColumnFamilyOptions::ColumnFamilyOptions() : compression(Snappy_Supported() ? kSnappyCompression : kNoCompression), table_factory( std::shared_ptr(new BlockBasedTableFactory())) {} ColumnFamilyOptions::ColumnFamilyOptions(const Options& options) : ColumnFamilyOptions(*static_cast(&options)) {} DBOptions::DBOptions() {} DBOptions::DBOptions(const Options& options) : DBOptions(*static_cast(&options)) {} void DBOptions::Dump(Logger* log) const { ImmutableDBOptions(*this).Dump(log); MutableDBOptions(*this).Dump(log); } // DBOptions::Dump void ColumnFamilyOptions::Dump(Logger* log) const { ROCKS_LOG_HEADER(log, " Options.comparator: %s", comparator->Name()); ROCKS_LOG_HEADER(log, " Options.merge_operator: %s", merge_operator ? merge_operator->Name() : "None"); ROCKS_LOG_HEADER(log, " Options.compaction_filter: %s", compaction_filter ? compaction_filter->Name() : "None"); ROCKS_LOG_HEADER( log, " Options.compaction_filter_factory: %s", compaction_filter_factory ? compaction_filter_factory->Name() : "None"); ROCKS_LOG_HEADER(log, " Options.memtable_factory: %s", memtable_factory->Name()); ROCKS_LOG_HEADER(log, " Options.table_factory: %s", table_factory->Name()); ROCKS_LOG_HEADER(log, " table_factory options: %s", table_factory->GetPrintableTableOptions().c_str()); ROCKS_LOG_HEADER(log, " Options.write_buffer_size: %" ROCKSDB_PRIszt, write_buffer_size); ROCKS_LOG_HEADER(log, " Options.max_write_buffer_number: %d", max_write_buffer_number); if (!compression_per_level.empty()) { for (unsigned int i = 0; i < compression_per_level.size(); i++) { ROCKS_LOG_HEADER( log, " Options.compression[%d]: %s", i, CompressionTypeToString(compression_per_level[i]).c_str()); } } else { ROCKS_LOG_HEADER(log, " Options.compression: %s", CompressionTypeToString(compression).c_str()); } ROCKS_LOG_HEADER( log, " Options.bottommost_compression: %s", bottommost_compression == kDisableCompressionOption ? "Disabled" : CompressionTypeToString(bottommost_compression).c_str()); ROCKS_LOG_HEADER( log, " Options.prefix_extractor: %s", prefix_extractor == nullptr ? "nullptr" : prefix_extractor->Name()); ROCKS_LOG_HEADER(log, " Options.memtable_insert_with_hint_prefix_extractor: %s", memtable_insert_with_hint_prefix_extractor == nullptr ? "nullptr" : memtable_insert_with_hint_prefix_extractor->Name()); ROCKS_LOG_HEADER(log, " Options.num_levels: %d", num_levels); ROCKS_LOG_HEADER(log, " Options.min_write_buffer_number_to_merge: %d", min_write_buffer_number_to_merge); ROCKS_LOG_HEADER(log, " Options.max_write_buffer_number_to_maintain: %d", max_write_buffer_number_to_maintain); ROCKS_LOG_HEADER( log, " Options.bottommost_compression_opts.window_bits: %d", bottommost_compression_opts.window_bits); ROCKS_LOG_HEADER( log, " Options.bottommost_compression_opts.level: %d", bottommost_compression_opts.level); ROCKS_LOG_HEADER( log, " Options.bottommost_compression_opts.strategy: %d", bottommost_compression_opts.strategy); ROCKS_LOG_HEADER( log, " Options.bottommost_compression_opts.max_dict_bytes: " "%" ROCKSDB_PRIszt, bottommost_compression_opts.max_dict_bytes); ROCKS_LOG_HEADER( log, " Options.bottommost_compression_opts.zstd_max_train_bytes: " "%" ROCKSDB_PRIszt, bottommost_compression_opts.zstd_max_train_bytes); ROCKS_LOG_HEADER( log, " Options.bottommost_compression_opts.enabled: %s", bottommost_compression_opts.enabled ? "true" : "false"); ROCKS_LOG_HEADER(log, " Options.compression_opts.window_bits: %d", compression_opts.window_bits); ROCKS_LOG_HEADER(log, " Options.compression_opts.level: %d", compression_opts.level); ROCKS_LOG_HEADER(log, " Options.compression_opts.strategy: %d", compression_opts.strategy); ROCKS_LOG_HEADER( log, " Options.compression_opts.max_dict_bytes: %" ROCKSDB_PRIszt, compression_opts.max_dict_bytes); ROCKS_LOG_HEADER(log, " Options.compression_opts.zstd_max_train_bytes: " "%" ROCKSDB_PRIszt, compression_opts.zstd_max_train_bytes); ROCKS_LOG_HEADER(log, " Options.compression_opts.enabled: %s", compression_opts.enabled ? "true" : "false"); ROCKS_LOG_HEADER(log, " Options.level0_file_num_compaction_trigger: %d", level0_file_num_compaction_trigger); ROCKS_LOG_HEADER(log, " Options.level0_slowdown_writes_trigger: %d", level0_slowdown_writes_trigger); ROCKS_LOG_HEADER(log, " Options.level0_stop_writes_trigger: %d", level0_stop_writes_trigger); ROCKS_LOG_HEADER( log, " Options.target_file_size_base: %" PRIu64, target_file_size_base); ROCKS_LOG_HEADER(log, " Options.target_file_size_multiplier: %d", target_file_size_multiplier); ROCKS_LOG_HEADER( log, " Options.max_bytes_for_level_base: %" PRIu64, max_bytes_for_level_base); ROCKS_LOG_HEADER(log, "Options.level_compaction_dynamic_level_bytes: %d", level_compaction_dynamic_level_bytes); ROCKS_LOG_HEADER(log, " Options.max_bytes_for_level_multiplier: %f", max_bytes_for_level_multiplier); for (size_t i = 0; i < max_bytes_for_level_multiplier_additional.size(); i++) { ROCKS_LOG_HEADER( log, "Options.max_bytes_for_level_multiplier_addtl[%" ROCKSDB_PRIszt "]: %d", i, max_bytes_for_level_multiplier_additional[i]); } ROCKS_LOG_HEADER( log, " Options.max_sequential_skip_in_iterations: %" PRIu64, max_sequential_skip_in_iterations); ROCKS_LOG_HEADER( log, " Options.max_compaction_bytes: %" PRIu64, max_compaction_bytes); ROCKS_LOG_HEADER( log, " Options.arena_block_size: %" ROCKSDB_PRIszt, arena_block_size); ROCKS_LOG_HEADER(log, " Options.soft_pending_compaction_bytes_limit: %" PRIu64, soft_pending_compaction_bytes_limit); ROCKS_LOG_HEADER(log, " Options.hard_pending_compaction_bytes_limit: %" PRIu64, hard_pending_compaction_bytes_limit); ROCKS_LOG_HEADER(log, " Options.rate_limit_delay_max_milliseconds: %u", rate_limit_delay_max_milliseconds); ROCKS_LOG_HEADER(log, " Options.disable_auto_compactions: %d", disable_auto_compactions); const auto& it_compaction_style = compaction_style_to_string.find(compaction_style); std::string str_compaction_style; if (it_compaction_style == compaction_style_to_string.end()) { assert(false); str_compaction_style = "unknown_" + std::to_string(compaction_style); } else { str_compaction_style = it_compaction_style->second; } ROCKS_LOG_HEADER(log, " Options.compaction_style: %s", str_compaction_style.c_str()); const auto& it_compaction_pri = compaction_pri_to_string.find(compaction_pri); std::string str_compaction_pri; if (it_compaction_pri == compaction_pri_to_string.end()) { assert(false); str_compaction_pri = "unknown_" + std::to_string(compaction_pri); } else { str_compaction_pri = it_compaction_pri->second; } ROCKS_LOG_HEADER(log, " Options.compaction_pri: %s", str_compaction_pri.c_str()); ROCKS_LOG_HEADER(log, "Options.compaction_options_universal.size_ratio: %u", compaction_options_universal.size_ratio); ROCKS_LOG_HEADER(log, "Options.compaction_options_universal.min_merge_width: %u", compaction_options_universal.min_merge_width); ROCKS_LOG_HEADER(log, "Options.compaction_options_universal.max_merge_width: %u", compaction_options_universal.max_merge_width); ROCKS_LOG_HEADER( log, "Options.compaction_options_universal." "max_size_amplification_percent: %u", compaction_options_universal.max_size_amplification_percent); ROCKS_LOG_HEADER( log, "Options.compaction_options_universal.compression_size_percent: %d", compaction_options_universal.compression_size_percent); const auto& it_compaction_stop_style = compaction_stop_style_to_string.find( compaction_options_universal.stop_style); std::string str_compaction_stop_style; if (it_compaction_stop_style == compaction_stop_style_to_string.end()) { assert(false); str_compaction_stop_style = "unknown_" + std::to_string(compaction_options_universal.stop_style); } else { str_compaction_stop_style = it_compaction_stop_style->second; } ROCKS_LOG_HEADER(log, "Options.compaction_options_universal.stop_style: %s", str_compaction_stop_style.c_str()); ROCKS_LOG_HEADER( log, "Options.compaction_options_fifo.max_table_files_size: %" PRIu64, compaction_options_fifo.max_table_files_size); ROCKS_LOG_HEADER(log, "Options.compaction_options_fifo.allow_compaction: %d", compaction_options_fifo.allow_compaction); ROCKS_LOG_HEADER(log, "Options.compaction_options_fifo.ttl: %" PRIu64, compaction_options_fifo.ttl); std::string collector_names; for (const auto& collector_factory : table_properties_collector_factories) { collector_names.append(collector_factory->Name()); collector_names.append("; "); } ROCKS_LOG_HEADER( log, " Options.table_properties_collectors: %s", collector_names.c_str()); ROCKS_LOG_HEADER(log, " Options.inplace_update_support: %d", inplace_update_support); ROCKS_LOG_HEADER( log, " Options.inplace_update_num_locks: %" ROCKSDB_PRIszt, inplace_update_num_locks); // TODO: easier config for bloom (maybe based on avg key/value size) ROCKS_LOG_HEADER( log, " Options.memtable_prefix_bloom_size_ratio: %f", memtable_prefix_bloom_size_ratio); ROCKS_LOG_HEADER(log, " Options.memtable_huge_page_size: %" ROCKSDB_PRIszt, memtable_huge_page_size); ROCKS_LOG_HEADER(log, " Options.bloom_locality: %d", bloom_locality); ROCKS_LOG_HEADER( log, " Options.max_successive_merges: %" ROCKSDB_PRIszt, max_successive_merges); ROCKS_LOG_HEADER(log, " Options.optimize_filters_for_hits: %d", optimize_filters_for_hits); ROCKS_LOG_HEADER(log, " Options.paranoid_file_checks: %d", paranoid_file_checks); ROCKS_LOG_HEADER(log, " Options.force_consistency_checks: %d", force_consistency_checks); ROCKS_LOG_HEADER(log, " Options.report_bg_io_stats: %d", report_bg_io_stats); ROCKS_LOG_HEADER(log, " Options.ttl: %d", ttl); } // ColumnFamilyOptions::Dump void Options::Dump(Logger* log) const { DBOptions::Dump(log); ColumnFamilyOptions::Dump(log); } // Options::Dump void Options::DumpCFOptions(Logger* log) const { ColumnFamilyOptions::Dump(log); } // Options::DumpCFOptions // // The goal of this method is to create a configuration that // allows an application to write all files into L0 and // then do a single compaction to output all files into L1. Options* Options::PrepareForBulkLoad() { // never slowdown ingest. level0_file_num_compaction_trigger = (1<<30); level0_slowdown_writes_trigger = (1<<30); level0_stop_writes_trigger = (1<<30); soft_pending_compaction_bytes_limit = 0; hard_pending_compaction_bytes_limit = 0; // no auto compactions please. The application should issue a // manual compaction after all data is loaded into L0. disable_auto_compactions = true; // A manual compaction run should pick all files in L0 in // a single compaction run. max_compaction_bytes = (static_cast(1) << 60); // It is better to have only 2 levels, otherwise a manual // compaction would compact at every possible level, thereby // increasing the total time needed for compactions. num_levels = 2; // Need to allow more write buffers to allow more parallism // of flushes. max_write_buffer_number = 6; min_write_buffer_number_to_merge = 1; // When compaction is disabled, more parallel flush threads can // help with write throughput. max_background_flushes = 4; // Prevent a memtable flush to automatically promote files // to L1. This is helpful so that all files that are // input to the manual compaction are all at L0. max_background_compactions = 2; // The compaction would create large files in L1. target_file_size_base = 256 * 1024 * 1024; return this; } Options* Options::OptimizeForSmallDb() { ColumnFamilyOptions::OptimizeForSmallDb(); DBOptions::OptimizeForSmallDb(); return this; } Options* Options::OldDefaults(int rocksdb_major_version, int rocksdb_minor_version) { ColumnFamilyOptions::OldDefaults(rocksdb_major_version, rocksdb_minor_version); DBOptions::OldDefaults(rocksdb_major_version, rocksdb_minor_version); return this; } DBOptions* DBOptions::OldDefaults(int rocksdb_major_version, int rocksdb_minor_version) { if (rocksdb_major_version < 4 || (rocksdb_major_version == 4 && rocksdb_minor_version < 7)) { max_file_opening_threads = 1; table_cache_numshardbits = 4; } if (rocksdb_major_version < 5 || (rocksdb_major_version == 5 && rocksdb_minor_version < 2)) { delayed_write_rate = 2 * 1024U * 1024U; } else if (rocksdb_major_version < 5 || (rocksdb_major_version == 5 && rocksdb_minor_version < 6)) { delayed_write_rate = 16 * 1024U * 1024U; } max_open_files = 5000; wal_recovery_mode = WALRecoveryMode::kTolerateCorruptedTailRecords; return this; } ColumnFamilyOptions* ColumnFamilyOptions::OldDefaults( int rocksdb_major_version, int rocksdb_minor_version) { if (rocksdb_major_version < 4 || (rocksdb_major_version == 4 && rocksdb_minor_version < 7)) { write_buffer_size = 4 << 20; target_file_size_base = 2 * 1048576; max_bytes_for_level_base = 10 * 1048576; soft_pending_compaction_bytes_limit = 0; hard_pending_compaction_bytes_limit = 0; } if (rocksdb_major_version < 5) { level0_stop_writes_trigger = 24; } else if (rocksdb_major_version == 5 && rocksdb_minor_version < 2) { level0_stop_writes_trigger = 30; } compaction_pri = CompactionPri::kByCompensatedSize; return this; } // Optimization functions DBOptions* DBOptions::OptimizeForSmallDb() { max_file_opening_threads = 1; max_open_files = 5000; return this; } ColumnFamilyOptions* ColumnFamilyOptions::OptimizeForSmallDb() { write_buffer_size = 2 << 20; target_file_size_base = 2 * 1048576; max_bytes_for_level_base = 10 * 1048576; soft_pending_compaction_bytes_limit = 256 * 1048576; hard_pending_compaction_bytes_limit = 1073741824ul; return this; } #ifndef ROCKSDB_LITE ColumnFamilyOptions* ColumnFamilyOptions::OptimizeForPointLookup( uint64_t block_cache_size_mb) { prefix_extractor.reset(NewNoopTransform()); BlockBasedTableOptions block_based_options; block_based_options.index_type = BlockBasedTableOptions::kHashSearch; block_based_options.data_block_index_type = BlockBasedTableOptions::kDataBlockBinaryAndHash; block_based_options.data_block_hash_table_util_ratio = 0.75; block_based_options.filter_policy.reset(NewBloomFilterPolicy(10)); block_based_options.block_cache = NewLRUCache(static_cast(block_cache_size_mb * 1024 * 1024)); table_factory.reset(new BlockBasedTableFactory(block_based_options)); memtable_prefix_bloom_size_ratio = 0.02; return this; } ColumnFamilyOptions* ColumnFamilyOptions::OptimizeLevelStyleCompaction( uint64_t memtable_memory_budget) { write_buffer_size = static_cast(memtable_memory_budget / 4); // merge two memtables when flushing to L0 min_write_buffer_number_to_merge = 2; // this means we'll use 50% extra memory in the worst case, but will reduce // write stalls. max_write_buffer_number = 6; // start flushing L0->L1 as soon as possible. each file on level0 is // (memtable_memory_budget / 2). This will flush level 0 when it's bigger than // memtable_memory_budget. level0_file_num_compaction_trigger = 2; // doesn't really matter much, but we don't want to create too many files target_file_size_base = memtable_memory_budget / 8; // make Level1 size equal to Level0 size, so that L0->L1 compactions are fast max_bytes_for_level_base = memtable_memory_budget; // level style compaction compaction_style = kCompactionStyleLevel; // only compress levels >= 2 compression_per_level.resize(num_levels); for (int i = 0; i < num_levels; ++i) { if (i < 2) { compression_per_level[i] = kNoCompression; } else { compression_per_level[i] = kSnappyCompression; } } return this; } ColumnFamilyOptions* ColumnFamilyOptions::OptimizeUniversalStyleCompaction( uint64_t memtable_memory_budget) { write_buffer_size = static_cast(memtable_memory_budget / 4); // merge two memtables when flushing to L0 min_write_buffer_number_to_merge = 2; // this means we'll use 50% extra memory in the worst case, but will reduce // write stalls. max_write_buffer_number = 6; // universal style compaction compaction_style = kCompactionStyleUniversal; compaction_options_universal.compression_size_percent = 80; return this; } DBOptions* DBOptions::IncreaseParallelism(int total_threads) { max_background_jobs = total_threads; env->SetBackgroundThreads(total_threads, Env::LOW); env->SetBackgroundThreads(1, Env::HIGH); return this; } #endif // !ROCKSDB_LITE ReadOptions::ReadOptions() : snapshot(nullptr), iterate_lower_bound(nullptr), iterate_upper_bound(nullptr), readahead_size(0), max_skippable_internal_keys(0), read_tier(kReadAllTier), verify_checksums(true), fill_cache(true), tailing(false), managed(false), total_order_seek(false), prefix_same_as_start(false), pin_data(false), background_purge_on_iterator_cleanup(false), ignore_range_deletions(false), iter_start_seqnum(0) {} ReadOptions::ReadOptions(bool cksum, bool cache) : snapshot(nullptr), iterate_lower_bound(nullptr), iterate_upper_bound(nullptr), readahead_size(0), max_skippable_internal_keys(0), read_tier(kReadAllTier), verify_checksums(cksum), fill_cache(cache), tailing(false), managed(false), total_order_seek(false), prefix_same_as_start(false), pin_data(false), background_purge_on_iterator_cleanup(false), ignore_range_deletions(false), iter_start_seqnum(0) {} } // namespace rocksdb rocksdb-5.17.2/options/options_helper.cc000066400000000000000000002510341337235545400203110ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include "options/options_helper.h" #include #include #include #include #include #include "rocksdb/cache.h" #include "rocksdb/compaction_filter.h" #include "rocksdb/convenience.h" #include "rocksdb/filter_policy.h" #include "rocksdb/memtablerep.h" #include "rocksdb/merge_operator.h" #include "rocksdb/options.h" #include "rocksdb/rate_limiter.h" #include "rocksdb/slice_transform.h" #include "rocksdb/table.h" #include "table/block_based_table_factory.h" #include "table/plain_table_factory.h" #include "util/cast_util.h" #include "util/string_util.h" namespace rocksdb { DBOptions BuildDBOptions(const ImmutableDBOptions& immutable_db_options, const MutableDBOptions& mutable_db_options) { DBOptions options; options.create_if_missing = immutable_db_options.create_if_missing; options.create_missing_column_families = immutable_db_options.create_missing_column_families; options.error_if_exists = immutable_db_options.error_if_exists; options.paranoid_checks = immutable_db_options.paranoid_checks; options.env = immutable_db_options.env; options.rate_limiter = immutable_db_options.rate_limiter; options.sst_file_manager = immutable_db_options.sst_file_manager; options.info_log = immutable_db_options.info_log; options.info_log_level = immutable_db_options.info_log_level; options.max_open_files = mutable_db_options.max_open_files; options.max_file_opening_threads = immutable_db_options.max_file_opening_threads; options.max_total_wal_size = mutable_db_options.max_total_wal_size; options.statistics = immutable_db_options.statistics; options.use_fsync = immutable_db_options.use_fsync; options.db_paths = immutable_db_options.db_paths; options.db_log_dir = immutable_db_options.db_log_dir; options.wal_dir = immutable_db_options.wal_dir; options.delete_obsolete_files_period_micros = mutable_db_options.delete_obsolete_files_period_micros; options.max_background_jobs = mutable_db_options.max_background_jobs; options.base_background_compactions = mutable_db_options.base_background_compactions; options.max_background_compactions = mutable_db_options.max_background_compactions; options.bytes_per_sync = mutable_db_options.bytes_per_sync; options.wal_bytes_per_sync = mutable_db_options.wal_bytes_per_sync; options.max_subcompactions = immutable_db_options.max_subcompactions; options.max_background_flushes = immutable_db_options.max_background_flushes; options.max_log_file_size = immutable_db_options.max_log_file_size; options.log_file_time_to_roll = immutable_db_options.log_file_time_to_roll; options.keep_log_file_num = immutable_db_options.keep_log_file_num; options.recycle_log_file_num = immutable_db_options.recycle_log_file_num; options.max_manifest_file_size = immutable_db_options.max_manifest_file_size; options.table_cache_numshardbits = immutable_db_options.table_cache_numshardbits; options.WAL_ttl_seconds = immutable_db_options.wal_ttl_seconds; options.WAL_size_limit_MB = immutable_db_options.wal_size_limit_mb; options.manifest_preallocation_size = immutable_db_options.manifest_preallocation_size; options.allow_mmap_reads = immutable_db_options.allow_mmap_reads; options.allow_mmap_writes = immutable_db_options.allow_mmap_writes; options.use_direct_reads = immutable_db_options.use_direct_reads; options.use_direct_io_for_flush_and_compaction = immutable_db_options.use_direct_io_for_flush_and_compaction; options.allow_fallocate = immutable_db_options.allow_fallocate; options.is_fd_close_on_exec = immutable_db_options.is_fd_close_on_exec; options.stats_dump_period_sec = mutable_db_options.stats_dump_period_sec; options.advise_random_on_open = immutable_db_options.advise_random_on_open; options.db_write_buffer_size = immutable_db_options.db_write_buffer_size; options.write_buffer_manager = immutable_db_options.write_buffer_manager; options.access_hint_on_compaction_start = immutable_db_options.access_hint_on_compaction_start; options.new_table_reader_for_compaction_inputs = immutable_db_options.new_table_reader_for_compaction_inputs; options.compaction_readahead_size = mutable_db_options.compaction_readahead_size; options.random_access_max_buffer_size = immutable_db_options.random_access_max_buffer_size; options.writable_file_max_buffer_size = mutable_db_options.writable_file_max_buffer_size; options.use_adaptive_mutex = immutable_db_options.use_adaptive_mutex; options.listeners = immutable_db_options.listeners; options.enable_thread_tracking = immutable_db_options.enable_thread_tracking; options.delayed_write_rate = mutable_db_options.delayed_write_rate; options.enable_pipelined_write = immutable_db_options.enable_pipelined_write; options.allow_concurrent_memtable_write = immutable_db_options.allow_concurrent_memtable_write; options.enable_write_thread_adaptive_yield = immutable_db_options.enable_write_thread_adaptive_yield; options.write_thread_max_yield_usec = immutable_db_options.write_thread_max_yield_usec; options.write_thread_slow_yield_usec = immutable_db_options.write_thread_slow_yield_usec; options.skip_stats_update_on_db_open = immutable_db_options.skip_stats_update_on_db_open; options.wal_recovery_mode = immutable_db_options.wal_recovery_mode; options.allow_2pc = immutable_db_options.allow_2pc; options.row_cache = immutable_db_options.row_cache; #ifndef ROCKSDB_LITE options.wal_filter = immutable_db_options.wal_filter; #endif // ROCKSDB_LITE options.fail_if_options_file_error = immutable_db_options.fail_if_options_file_error; options.dump_malloc_stats = immutable_db_options.dump_malloc_stats; options.avoid_flush_during_recovery = immutable_db_options.avoid_flush_during_recovery; options.avoid_flush_during_shutdown = mutable_db_options.avoid_flush_during_shutdown; options.allow_ingest_behind = immutable_db_options.allow_ingest_behind; options.preserve_deletes = immutable_db_options.preserve_deletes; options.two_write_queues = immutable_db_options.two_write_queues; options.manual_wal_flush = immutable_db_options.manual_wal_flush; return options; } ColumnFamilyOptions BuildColumnFamilyOptions( const ColumnFamilyOptions& options, const MutableCFOptions& mutable_cf_options) { ColumnFamilyOptions cf_opts(options); // Memtable related options cf_opts.write_buffer_size = mutable_cf_options.write_buffer_size; cf_opts.max_write_buffer_number = mutable_cf_options.max_write_buffer_number; cf_opts.arena_block_size = mutable_cf_options.arena_block_size; cf_opts.memtable_prefix_bloom_size_ratio = mutable_cf_options.memtable_prefix_bloom_size_ratio; cf_opts.memtable_huge_page_size = mutable_cf_options.memtable_huge_page_size; cf_opts.max_successive_merges = mutable_cf_options.max_successive_merges; cf_opts.inplace_update_num_locks = mutable_cf_options.inplace_update_num_locks; cf_opts.prefix_extractor = mutable_cf_options.prefix_extractor; // Compaction related options cf_opts.disable_auto_compactions = mutable_cf_options.disable_auto_compactions; cf_opts.soft_pending_compaction_bytes_limit = mutable_cf_options.soft_pending_compaction_bytes_limit; cf_opts.hard_pending_compaction_bytes_limit = mutable_cf_options.hard_pending_compaction_bytes_limit; cf_opts.level0_file_num_compaction_trigger = mutable_cf_options.level0_file_num_compaction_trigger; cf_opts.level0_slowdown_writes_trigger = mutable_cf_options.level0_slowdown_writes_trigger; cf_opts.level0_stop_writes_trigger = mutable_cf_options.level0_stop_writes_trigger; cf_opts.max_compaction_bytes = mutable_cf_options.max_compaction_bytes; cf_opts.target_file_size_base = mutable_cf_options.target_file_size_base; cf_opts.target_file_size_multiplier = mutable_cf_options.target_file_size_multiplier; cf_opts.max_bytes_for_level_base = mutable_cf_options.max_bytes_for_level_base; cf_opts.max_bytes_for_level_multiplier = mutable_cf_options.max_bytes_for_level_multiplier; cf_opts.ttl = mutable_cf_options.ttl; cf_opts.max_bytes_for_level_multiplier_additional.clear(); for (auto value : mutable_cf_options.max_bytes_for_level_multiplier_additional) { cf_opts.max_bytes_for_level_multiplier_additional.emplace_back(value); } cf_opts.compaction_options_fifo = mutable_cf_options.compaction_options_fifo; cf_opts.compaction_options_universal = mutable_cf_options.compaction_options_universal; // Misc options cf_opts.max_sequential_skip_in_iterations = mutable_cf_options.max_sequential_skip_in_iterations; cf_opts.paranoid_file_checks = mutable_cf_options.paranoid_file_checks; cf_opts.report_bg_io_stats = mutable_cf_options.report_bg_io_stats; cf_opts.compression = mutable_cf_options.compression; cf_opts.table_factory = options.table_factory; // TODO(yhchiang): find some way to handle the following derived options // * max_file_size return cf_opts; } std::map OptionsHelper::compaction_style_to_string = { {kCompactionStyleLevel, "kCompactionStyleLevel"}, {kCompactionStyleUniversal, "kCompactionStyleUniversal"}, {kCompactionStyleFIFO, "kCompactionStyleFIFO"}, {kCompactionStyleNone, "kCompactionStyleNone"}}; std::map OptionsHelper::compaction_pri_to_string = { {kByCompensatedSize, "kByCompensatedSize"}, {kOldestLargestSeqFirst, "kOldestLargestSeqFirst"}, {kOldestSmallestSeqFirst, "kOldestSmallestSeqFirst"}, {kMinOverlappingRatio, "kMinOverlappingRatio"}}; std::map OptionsHelper::compaction_stop_style_to_string = { {kCompactionStopStyleSimilarSize, "kCompactionStopStyleSimilarSize"}, {kCompactionStopStyleTotalSize, "kCompactionStopStyleTotalSize"}}; std::unordered_map OptionsHelper::checksum_type_string_map = {{"kNoChecksum", kNoChecksum}, {"kCRC32c", kCRC32c}, {"kxxHash", kxxHash}}; std::unordered_map OptionsHelper::compression_type_string_map = { {"kNoCompression", kNoCompression}, {"kSnappyCompression", kSnappyCompression}, {"kZlibCompression", kZlibCompression}, {"kBZip2Compression", kBZip2Compression}, {"kLZ4Compression", kLZ4Compression}, {"kLZ4HCCompression", kLZ4HCCompression}, {"kXpressCompression", kXpressCompression}, {"kZSTD", kZSTD}, {"kZSTDNotFinalCompression", kZSTDNotFinalCompression}, {"kDisableCompressionOption", kDisableCompressionOption}}; #ifndef ROCKSDB_LITE template Status GetStringFromStruct( std::string* opt_string, const T& options, const std::unordered_map type_info, const std::string& delimiter); namespace { template bool ParseEnum(const std::unordered_map& type_map, const std::string& type, T* value) { auto iter = type_map.find(type); if (iter != type_map.end()) { *value = iter->second; return true; } return false; } template bool SerializeEnum(const std::unordered_map& type_map, const T& type, std::string* value) { for (const auto& pair : type_map) { if (pair.second == type) { *value = pair.first; return true; } } return false; } bool SerializeVectorCompressionType(const std::vector& types, std::string* value) { std::stringstream ss; bool result; for (size_t i = 0; i < types.size(); ++i) { if (i > 0) { ss << ':'; } std::string string_type; result = SerializeEnum(compression_type_string_map, types[i], &string_type); if (result == false) { return result; } ss << string_type; } *value = ss.str(); return true; } bool ParseVectorCompressionType( const std::string& value, std::vector* compression_per_level) { compression_per_level->clear(); size_t start = 0; while (start < value.size()) { size_t end = value.find(':', start); bool is_ok; CompressionType type; if (end == std::string::npos) { is_ok = ParseEnum(compression_type_string_map, value.substr(start), &type); if (!is_ok) { return false; } compression_per_level->emplace_back(type); break; } else { is_ok = ParseEnum( compression_type_string_map, value.substr(start, end - start), &type); if (!is_ok) { return false; } compression_per_level->emplace_back(type); start = end + 1; } } return true; } // This is to handle backward compatibility, where compaction_options_fifo // could be assigned a single scalar value, say, like "23", which would be // assigned to max_table_files_size. bool FIFOCompactionOptionsSpecialCase(const std::string& opt_str, CompactionOptionsFIFO* options) { if (opt_str.find("=") != std::string::npos) { // New format. Go do your new parsing using ParseStructOptions. return false; } // Old format. Parse just a single uint64_t value. options->max_table_files_size = ParseUint64(opt_str); return true; } template bool SerializeStruct( const T& options, std::string* value, std::unordered_map type_info_map) { std::string opt_str; Status s = GetStringFromStruct(&opt_str, options, type_info_map, ";"); if (!s.ok()) { return false; } *value = "{" + opt_str + "}"; return true; } template bool ParseSingleStructOption( const std::string& opt_val_str, T* options, std::unordered_map type_info_map) { size_t end = opt_val_str.find('='); std::string key = opt_val_str.substr(0, end); std::string value = opt_val_str.substr(end + 1); auto iter = type_info_map.find(key); if (iter == type_info_map.end()) { return false; } const auto& opt_info = iter->second; return ParseOptionHelper( reinterpret_cast(options) + opt_info.mutable_offset, opt_info.type, value); } template bool ParseStructOptions( const std::string& opt_str, T* options, std::unordered_map type_info_map) { assert(!opt_str.empty()); size_t start = 0; if (opt_str[0] == '{') { start++; } while ((start != std::string::npos) && (start < opt_str.size())) { if (opt_str[start] == '}') { break; } size_t end = opt_str.find(';', start); size_t len = (end == std::string::npos) ? end : end - start; if (!ParseSingleStructOption(opt_str.substr(start, len), options, type_info_map)) { return false; } start = (end == std::string::npos) ? end : end + 1; } return true; } } // anonymouse namespace bool ParseSliceTransformHelper( const std::string& kFixedPrefixName, const std::string& kCappedPrefixName, const std::string& value, std::shared_ptr* slice_transform) { const char* no_op_name = "rocksdb.Noop"; size_t no_op_length = strlen(no_op_name); auto& pe_value = value; if (pe_value.size() > kFixedPrefixName.size() && pe_value.compare(0, kFixedPrefixName.size(), kFixedPrefixName) == 0) { int prefix_length = ParseInt(trim(value.substr(kFixedPrefixName.size()))); slice_transform->reset(NewFixedPrefixTransform(prefix_length)); } else if (pe_value.size() > kCappedPrefixName.size() && pe_value.compare(0, kCappedPrefixName.size(), kCappedPrefixName) == 0) { int prefix_length = ParseInt(trim(pe_value.substr(kCappedPrefixName.size()))); slice_transform->reset(NewCappedPrefixTransform(prefix_length)); } else if (pe_value.size() == no_op_length && pe_value.compare(0, no_op_length, no_op_name) == 0) { const SliceTransform* no_op_transform = NewNoopTransform(); slice_transform->reset(no_op_transform); } else if (value == kNullptrString) { slice_transform->reset(); } else { return false; } return true; } bool ParseSliceTransform( const std::string& value, std::shared_ptr* slice_transform) { // While we normally don't convert the string representation of a // pointer-typed option into its instance, here we do so for backward // compatibility as we allow this action in SetOption(). // TODO(yhchiang): A possible better place for these serialization / // deserialization is inside the class definition of pointer-typed // option itself, but this requires a bigger change of public API. bool result = ParseSliceTransformHelper("fixed:", "capped:", value, slice_transform); if (result) { return result; } result = ParseSliceTransformHelper( "rocksdb.FixedPrefix.", "rocksdb.CappedPrefix.", value, slice_transform); if (result) { return result; } // TODO(yhchiang): we can further support other default // SliceTransforms here. return false; } bool ParseOptionHelper(char* opt_address, const OptionType& opt_type, const std::string& value) { switch (opt_type) { case OptionType::kBoolean: *reinterpret_cast(opt_address) = ParseBoolean("", value); break; case OptionType::kInt: *reinterpret_cast(opt_address) = ParseInt(value); break; case OptionType::kVectorInt: *reinterpret_cast*>(opt_address) = ParseVectorInt(value); break; case OptionType::kUInt: *reinterpret_cast(opt_address) = ParseUint32(value); break; case OptionType::kUInt32T: *reinterpret_cast(opt_address) = ParseUint32(value); break; case OptionType::kUInt64T: PutUnaligned(reinterpret_cast(opt_address), ParseUint64(value)); break; case OptionType::kSizeT: PutUnaligned(reinterpret_cast(opt_address), ParseSizeT(value)); break; case OptionType::kString: *reinterpret_cast(opt_address) = value; break; case OptionType::kDouble: *reinterpret_cast(opt_address) = ParseDouble(value); break; case OptionType::kCompactionStyle: return ParseEnum( compaction_style_string_map, value, reinterpret_cast(opt_address)); case OptionType::kCompactionPri: return ParseEnum( compaction_pri_string_map, value, reinterpret_cast(opt_address)); case OptionType::kCompressionType: return ParseEnum( compression_type_string_map, value, reinterpret_cast(opt_address)); case OptionType::kVectorCompressionType: return ParseVectorCompressionType( value, reinterpret_cast*>(opt_address)); case OptionType::kSliceTransform: return ParseSliceTransform( value, reinterpret_cast*>( opt_address)); case OptionType::kChecksumType: return ParseEnum( checksum_type_string_map, value, reinterpret_cast(opt_address)); case OptionType::kBlockBasedTableIndexType: return ParseEnum( block_base_table_index_type_string_map, value, reinterpret_cast(opt_address)); case OptionType::kBlockBasedTableDataBlockIndexType: return ParseEnum( block_base_table_data_block_index_type_string_map, value, reinterpret_cast( opt_address)); case OptionType::kEncodingType: return ParseEnum( encoding_type_string_map, value, reinterpret_cast(opt_address)); case OptionType::kWALRecoveryMode: return ParseEnum( wal_recovery_mode_string_map, value, reinterpret_cast(opt_address)); case OptionType::kAccessHint: return ParseEnum( access_hint_string_map, value, reinterpret_cast(opt_address)); case OptionType::kInfoLogLevel: return ParseEnum( info_log_level_string_map, value, reinterpret_cast(opt_address)); case OptionType::kCompactionOptionsFIFO: { if (!FIFOCompactionOptionsSpecialCase( value, reinterpret_cast(opt_address))) { return ParseStructOptions( value, reinterpret_cast(opt_address), fifo_compaction_options_type_info); } return true; } case OptionType::kLRUCacheOptions: { return ParseStructOptions(value, reinterpret_cast(opt_address), lru_cache_options_type_info); } case OptionType::kCompactionOptionsUniversal: return ParseStructOptions( value, reinterpret_cast(opt_address), universal_compaction_options_type_info); case OptionType::kCompactionStopStyle: return ParseEnum( compaction_stop_style_string_map, value, reinterpret_cast(opt_address)); default: return false; } return true; } bool SerializeSingleOptionHelper(const char* opt_address, const OptionType opt_type, std::string* value) { assert(value); switch (opt_type) { case OptionType::kBoolean: *value = *(reinterpret_cast(opt_address)) ? "true" : "false"; break; case OptionType::kInt: *value = ToString(*(reinterpret_cast(opt_address))); break; case OptionType::kVectorInt: return SerializeIntVector( *reinterpret_cast*>(opt_address), value); case OptionType::kUInt: *value = ToString(*(reinterpret_cast(opt_address))); break; case OptionType::kUInt32T: *value = ToString(*(reinterpret_cast(opt_address))); break; case OptionType::kUInt64T: { uint64_t v; GetUnaligned(reinterpret_cast(opt_address), &v); *value = ToString(v); } break; case OptionType::kSizeT: { size_t v; GetUnaligned(reinterpret_cast(opt_address), &v); *value = ToString(v); } break; case OptionType::kDouble: *value = ToString(*(reinterpret_cast(opt_address))); break; case OptionType::kString: *value = EscapeOptionString( *(reinterpret_cast(opt_address))); break; case OptionType::kCompactionStyle: return SerializeEnum( compaction_style_string_map, *(reinterpret_cast(opt_address)), value); case OptionType::kCompactionPri: return SerializeEnum( compaction_pri_string_map, *(reinterpret_cast(opt_address)), value); case OptionType::kCompressionType: return SerializeEnum( compression_type_string_map, *(reinterpret_cast(opt_address)), value); case OptionType::kVectorCompressionType: return SerializeVectorCompressionType( *(reinterpret_cast*>(opt_address)), value); break; case OptionType::kSliceTransform: { const auto* slice_transform_ptr = reinterpret_cast*>( opt_address); *value = slice_transform_ptr->get() ? slice_transform_ptr->get()->Name() : kNullptrString; break; } case OptionType::kTableFactory: { const auto* table_factory_ptr = reinterpret_cast*>( opt_address); *value = table_factory_ptr->get() ? table_factory_ptr->get()->Name() : kNullptrString; break; } case OptionType::kComparator: { // it's a const pointer of const Comparator* const auto* ptr = reinterpret_cast(opt_address); // Since the user-specified comparator will be wrapped by // InternalKeyComparator, we should persist the user-specified one // instead of InternalKeyComparator. if (*ptr == nullptr) { *value = kNullptrString; } else { const Comparator* root_comp = (*ptr)->GetRootComparator(); if (root_comp == nullptr) { root_comp = (*ptr); } *value = root_comp->Name(); } break; } case OptionType::kCompactionFilter: { // it's a const pointer of const CompactionFilter* const auto* ptr = reinterpret_cast(opt_address); *value = *ptr ? (*ptr)->Name() : kNullptrString; break; } case OptionType::kCompactionFilterFactory: { const auto* ptr = reinterpret_cast*>( opt_address); *value = ptr->get() ? ptr->get()->Name() : kNullptrString; break; } case OptionType::kMemTableRepFactory: { const auto* ptr = reinterpret_cast*>( opt_address); *value = ptr->get() ? ptr->get()->Name() : kNullptrString; break; } case OptionType::kMergeOperator: { const auto* ptr = reinterpret_cast*>(opt_address); *value = ptr->get() ? ptr->get()->Name() : kNullptrString; break; } case OptionType::kFilterPolicy: { const auto* ptr = reinterpret_cast*>(opt_address); *value = ptr->get() ? ptr->get()->Name() : kNullptrString; break; } case OptionType::kChecksumType: return SerializeEnum( checksum_type_string_map, *reinterpret_cast(opt_address), value); case OptionType::kBlockBasedTableIndexType: return SerializeEnum( block_base_table_index_type_string_map, *reinterpret_cast( opt_address), value); case OptionType::kBlockBasedTableDataBlockIndexType: return SerializeEnum( block_base_table_data_block_index_type_string_map, *reinterpret_cast( opt_address), value); case OptionType::kFlushBlockPolicyFactory: { const auto* ptr = reinterpret_cast*>( opt_address); *value = ptr->get() ? ptr->get()->Name() : kNullptrString; break; } case OptionType::kEncodingType: return SerializeEnum( encoding_type_string_map, *reinterpret_cast(opt_address), value); case OptionType::kWALRecoveryMode: return SerializeEnum( wal_recovery_mode_string_map, *reinterpret_cast(opt_address), value); case OptionType::kAccessHint: return SerializeEnum( access_hint_string_map, *reinterpret_cast(opt_address), value); case OptionType::kInfoLogLevel: return SerializeEnum( info_log_level_string_map, *reinterpret_cast(opt_address), value); case OptionType::kCompactionOptionsFIFO: return SerializeStruct( *reinterpret_cast(opt_address), value, fifo_compaction_options_type_info); case OptionType::kCompactionOptionsUniversal: return SerializeStruct( *reinterpret_cast(opt_address), value, universal_compaction_options_type_info); case OptionType::kCompactionStopStyle: return SerializeEnum( compaction_stop_style_string_map, *reinterpret_cast(opt_address), value); default: return false; } return true; } Status GetMutableOptionsFromStrings( const MutableCFOptions& base_options, const std::unordered_map& options_map, Logger* info_log, MutableCFOptions* new_options) { assert(new_options); *new_options = base_options; for (const auto& o : options_map) { try { auto iter = cf_options_type_info.find(o.first); if (iter == cf_options_type_info.end()) { return Status::InvalidArgument("Unrecognized option: " + o.first); } const auto& opt_info = iter->second; if (!opt_info.is_mutable) { return Status::InvalidArgument("Option not changeable: " + o.first); } if (opt_info.verification == OptionVerificationType::kDeprecated) { // log warning when user tries to set a deprecated option but don't fail // the call for compatibility. ROCKS_LOG_WARN(info_log, "%s is a deprecated option and cannot be set", o.first.c_str()); continue; } bool is_ok = ParseOptionHelper( reinterpret_cast(new_options) + opt_info.mutable_offset, opt_info.type, o.second); if (!is_ok) { return Status::InvalidArgument("Error parsing " + o.first); } } catch (std::exception& e) { return Status::InvalidArgument("Error parsing " + o.first + ":" + std::string(e.what())); } } return Status::OK(); } Status GetMutableDBOptionsFromStrings( const MutableDBOptions& base_options, const std::unordered_map& options_map, MutableDBOptions* new_options) { assert(new_options); *new_options = base_options; for (const auto& o : options_map) { try { auto iter = db_options_type_info.find(o.first); if (iter == db_options_type_info.end()) { return Status::InvalidArgument("Unrecognized option: " + o.first); } const auto& opt_info = iter->second; if (!opt_info.is_mutable) { return Status::InvalidArgument("Option not changeable: " + o.first); } bool is_ok = ParseOptionHelper( reinterpret_cast(new_options) + opt_info.mutable_offset, opt_info.type, o.second); if (!is_ok) { return Status::InvalidArgument("Error parsing " + o.first); } } catch (std::exception& e) { return Status::InvalidArgument("Error parsing " + o.first + ":" + std::string(e.what())); } } return Status::OK(); } Status StringToMap(const std::string& opts_str, std::unordered_map* opts_map) { assert(opts_map); // Example: // opts_str = "write_buffer_size=1024;max_write_buffer_number=2;" // "nested_opt={opt1=1;opt2=2};max_bytes_for_level_base=100" size_t pos = 0; std::string opts = trim(opts_str); while (pos < opts.size()) { size_t eq_pos = opts.find('=', pos); if (eq_pos == std::string::npos) { return Status::InvalidArgument("Mismatched key value pair, '=' expected"); } std::string key = trim(opts.substr(pos, eq_pos - pos)); if (key.empty()) { return Status::InvalidArgument("Empty key found"); } // skip space after '=' and look for '{' for possible nested options pos = eq_pos + 1; while (pos < opts.size() && isspace(opts[pos])) { ++pos; } // Empty value at the end if (pos >= opts.size()) { (*opts_map)[key] = ""; break; } if (opts[pos] == '{') { int count = 1; size_t brace_pos = pos + 1; while (brace_pos < opts.size()) { if (opts[brace_pos] == '{') { ++count; } else if (opts[brace_pos] == '}') { --count; if (count == 0) { break; } } ++brace_pos; } // found the matching closing brace if (count == 0) { (*opts_map)[key] = trim(opts.substr(pos + 1, brace_pos - pos - 1)); // skip all whitespace and move to the next ';' // brace_pos points to the next position after the matching '}' pos = brace_pos + 1; while (pos < opts.size() && isspace(opts[pos])) { ++pos; } if (pos < opts.size() && opts[pos] != ';') { return Status::InvalidArgument( "Unexpected chars after nested options"); } ++pos; } else { return Status::InvalidArgument( "Mismatched curly braces for nested options"); } } else { size_t sc_pos = opts.find(';', pos); if (sc_pos == std::string::npos) { (*opts_map)[key] = trim(opts.substr(pos)); // It either ends with a trailing semi-colon or the last key-value pair break; } else { (*opts_map)[key] = trim(opts.substr(pos, sc_pos - pos)); } pos = sc_pos + 1; } } return Status::OK(); } Status ParseCompressionOptions(const std::string& value, const std::string& name, CompressionOptions& compression_opts) { size_t start = 0; size_t end = value.find(':'); if (end == std::string::npos) { return Status::InvalidArgument("unable to parse the specified CF option " + name); } compression_opts.window_bits = ParseInt(value.substr(start, end - start)); start = end + 1; end = value.find(':', start); if (end == std::string::npos) { return Status::InvalidArgument("unable to parse the specified CF option " + name); } compression_opts.level = ParseInt(value.substr(start, end - start)); start = end + 1; if (start >= value.size()) { return Status::InvalidArgument("unable to parse the specified CF option " + name); } end = value.find(':', start); compression_opts.strategy = ParseInt(value.substr(start, value.size() - start)); // max_dict_bytes is optional for backwards compatibility if (end != std::string::npos) { start = end + 1; if (start >= value.size()) { return Status::InvalidArgument( "unable to parse the specified CF option " + name); } compression_opts.max_dict_bytes = ParseInt(value.substr(start, value.size() - start)); end = value.find(':', start); } // zstd_max_train_bytes is optional for backwards compatibility if (end != std::string::npos) { start = end + 1; if (start >= value.size()) { return Status::InvalidArgument( "unable to parse the specified CF option " + name); } compression_opts.zstd_max_train_bytes = ParseInt(value.substr(start, value.size() - start)); end = value.find(':', start); } // enabled is optional for backwards compatibility if (end != std::string::npos) { start = end + 1; if (start >= value.size()) { return Status::InvalidArgument( "unable to parse the specified CF option " + name); } compression_opts.enabled = ParseBoolean("", value.substr(start, value.size() - start)); } return Status::OK(); } Status ParseColumnFamilyOption(const std::string& name, const std::string& org_value, ColumnFamilyOptions* new_options, bool input_strings_escaped = false) { const std::string& value = input_strings_escaped ? UnescapeOptionString(org_value) : org_value; try { if (name == "block_based_table_factory") { // Nested options BlockBasedTableOptions table_opt, base_table_options; BlockBasedTableFactory* block_based_table_factory = static_cast_with_check( new_options->table_factory.get()); if (block_based_table_factory != nullptr) { base_table_options = block_based_table_factory->table_options(); } Status table_opt_s = GetBlockBasedTableOptionsFromString( base_table_options, value, &table_opt); if (!table_opt_s.ok()) { return Status::InvalidArgument( "unable to parse the specified CF option " + name); } new_options->table_factory.reset(NewBlockBasedTableFactory(table_opt)); } else if (name == "plain_table_factory") { // Nested options PlainTableOptions table_opt, base_table_options; PlainTableFactory* plain_table_factory = static_cast_with_check( new_options->table_factory.get()); if (plain_table_factory != nullptr) { base_table_options = plain_table_factory->table_options(); } Status table_opt_s = GetPlainTableOptionsFromString( base_table_options, value, &table_opt); if (!table_opt_s.ok()) { return Status::InvalidArgument( "unable to parse the specified CF option " + name); } new_options->table_factory.reset(NewPlainTableFactory(table_opt)); } else if (name == "memtable") { std::unique_ptr new_mem_factory; Status mem_factory_s = GetMemTableRepFactoryFromString(value, &new_mem_factory); if (!mem_factory_s.ok()) { return Status::InvalidArgument( "unable to parse the specified CF option " + name); } new_options->memtable_factory.reset(new_mem_factory.release()); } else if (name == "bottommost_compression_opts") { Status s = ParseCompressionOptions( value, name, new_options->bottommost_compression_opts); if (!s.ok()) { return s; } } else if (name == "compression_opts") { Status s = ParseCompressionOptions(value, name, new_options->compression_opts); if (!s.ok()) { return s; } } else { auto iter = cf_options_type_info.find(name); if (iter == cf_options_type_info.end()) { return Status::InvalidArgument( "Unable to parse the specified CF option " + name); } const auto& opt_info = iter->second; if (opt_info.verification != OptionVerificationType::kDeprecated && ParseOptionHelper( reinterpret_cast(new_options) + opt_info.offset, opt_info.type, value)) { return Status::OK(); } switch (opt_info.verification) { case OptionVerificationType::kByName: case OptionVerificationType::kByNameAllowNull: case OptionVerificationType::kByNameAllowFromNull: return Status::NotSupported( "Deserializing the specified CF option " + name + " is not supported"); case OptionVerificationType::kDeprecated: return Status::OK(); default: return Status::InvalidArgument( "Unable to parse the specified CF option " + name); } } } catch (const std::exception&) { return Status::InvalidArgument( "unable to parse the specified option " + name); } return Status::OK(); } template bool SerializeSingleStructOption( std::string* opt_string, const T& options, const std::unordered_map type_info, const std::string& name, const std::string& delimiter) { auto iter = type_info.find(name); if (iter == type_info.end()) { return false; } auto& opt_info = iter->second; const char* opt_address = reinterpret_cast(&options) + opt_info.offset; std::string value; bool result = SerializeSingleOptionHelper(opt_address, opt_info.type, &value); if (result) { *opt_string = name + "=" + value + delimiter; } return result; } template Status GetStringFromStruct( std::string* opt_string, const T& options, const std::unordered_map type_info, const std::string& delimiter) { assert(opt_string); opt_string->clear(); for (auto iter = type_info.begin(); iter != type_info.end(); ++iter) { if (iter->second.verification == OptionVerificationType::kDeprecated) { // If the option is no longer used in rocksdb and marked as deprecated, // we skip it in the serialization. continue; } std::string single_output; bool result = SerializeSingleStructOption( &single_output, options, type_info, iter->first, delimiter); if (result) { opt_string->append(single_output); } else { return Status::InvalidArgument("failed to serialize %s\n", iter->first.c_str()); } assert(result); } return Status::OK(); } Status GetStringFromDBOptions(std::string* opt_string, const DBOptions& db_options, const std::string& delimiter) { return GetStringFromStruct(opt_string, db_options, db_options_type_info, delimiter); } Status GetStringFromColumnFamilyOptions(std::string* opt_string, const ColumnFamilyOptions& cf_options, const std::string& delimiter) { return GetStringFromStruct( opt_string, cf_options, cf_options_type_info, delimiter); } Status GetStringFromCompressionType(std::string* compression_str, CompressionType compression_type) { bool ok = SerializeEnum(compression_type_string_map, compression_type, compression_str); if (ok) { return Status::OK(); } else { return Status::InvalidArgument("Invalid compression types"); } } std::vector GetSupportedCompressions() { std::vector supported_compressions; for (const auto& comp_to_name : compression_type_string_map) { CompressionType t = comp_to_name.second; if (t != kDisableCompressionOption && CompressionTypeSupported(t)) { supported_compressions.push_back(t); } } return supported_compressions; } Status ParseDBOption(const std::string& name, const std::string& org_value, DBOptions* new_options, bool input_strings_escaped = false) { const std::string& value = input_strings_escaped ? UnescapeOptionString(org_value) : org_value; try { if (name == "rate_limiter_bytes_per_sec") { new_options->rate_limiter.reset( NewGenericRateLimiter(static_cast(ParseUint64(value)))); } else { auto iter = db_options_type_info.find(name); if (iter == db_options_type_info.end()) { return Status::InvalidArgument("Unrecognized option DBOptions:", name); } const auto& opt_info = iter->second; if (opt_info.verification != OptionVerificationType::kDeprecated && ParseOptionHelper( reinterpret_cast(new_options) + opt_info.offset, opt_info.type, value)) { return Status::OK(); } switch (opt_info.verification) { case OptionVerificationType::kByName: case OptionVerificationType::kByNameAllowNull: return Status::NotSupported( "Deserializing the specified DB option " + name + " is not supported"); case OptionVerificationType::kDeprecated: return Status::OK(); default: return Status::InvalidArgument( "Unable to parse the specified DB option " + name); } } } catch (const std::exception&) { return Status::InvalidArgument("Unable to parse DBOptions:", name); } return Status::OK(); } Status GetColumnFamilyOptionsFromMap( const ColumnFamilyOptions& base_options, const std::unordered_map& opts_map, ColumnFamilyOptions* new_options, bool input_strings_escaped, bool ignore_unknown_options) { return GetColumnFamilyOptionsFromMapInternal( base_options, opts_map, new_options, input_strings_escaped, nullptr, ignore_unknown_options); } Status GetColumnFamilyOptionsFromMapInternal( const ColumnFamilyOptions& base_options, const std::unordered_map& opts_map, ColumnFamilyOptions* new_options, bool input_strings_escaped, std::vector* unsupported_options_names, bool ignore_unknown_options) { assert(new_options); *new_options = base_options; if (unsupported_options_names) { unsupported_options_names->clear(); } for (const auto& o : opts_map) { auto s = ParseColumnFamilyOption(o.first, o.second, new_options, input_strings_escaped); if (!s.ok()) { if (s.IsNotSupported()) { // If the deserialization of the specified option is not supported // and an output vector of unsupported_options is provided, then // we log the name of the unsupported option and proceed. if (unsupported_options_names != nullptr) { unsupported_options_names->push_back(o.first); } // Note that we still return Status::OK in such case to maintain // the backward compatibility in the old public API defined in // rocksdb/convenience.h } else if (s.IsInvalidArgument() && ignore_unknown_options) { continue; } else { // Restore "new_options" to the default "base_options". *new_options = base_options; return s; } } } return Status::OK(); } Status GetColumnFamilyOptionsFromString( const ColumnFamilyOptions& base_options, const std::string& opts_str, ColumnFamilyOptions* new_options) { std::unordered_map opts_map; Status s = StringToMap(opts_str, &opts_map); if (!s.ok()) { *new_options = base_options; return s; } return GetColumnFamilyOptionsFromMap(base_options, opts_map, new_options); } Status GetDBOptionsFromMap( const DBOptions& base_options, const std::unordered_map& opts_map, DBOptions* new_options, bool input_strings_escaped, bool ignore_unknown_options) { return GetDBOptionsFromMapInternal(base_options, opts_map, new_options, input_strings_escaped, nullptr, ignore_unknown_options); } Status GetDBOptionsFromMapInternal( const DBOptions& base_options, const std::unordered_map& opts_map, DBOptions* new_options, bool input_strings_escaped, std::vector* unsupported_options_names, bool ignore_unknown_options) { assert(new_options); *new_options = base_options; if (unsupported_options_names) { unsupported_options_names->clear(); } for (const auto& o : opts_map) { auto s = ParseDBOption(o.first, o.second, new_options, input_strings_escaped); if (!s.ok()) { if (s.IsNotSupported()) { // If the deserialization of the specified option is not supported // and an output vector of unsupported_options is provided, then // we log the name of the unsupported option and proceed. if (unsupported_options_names != nullptr) { unsupported_options_names->push_back(o.first); } // Note that we still return Status::OK in such case to maintain // the backward compatibility in the old public API defined in // rocksdb/convenience.h } else if (s.IsInvalidArgument() && ignore_unknown_options) { continue; } else { // Restore "new_options" to the default "base_options". *new_options = base_options; return s; } } } return Status::OK(); } Status GetDBOptionsFromString( const DBOptions& base_options, const std::string& opts_str, DBOptions* new_options) { std::unordered_map opts_map; Status s = StringToMap(opts_str, &opts_map); if (!s.ok()) { *new_options = base_options; return s; } return GetDBOptionsFromMap(base_options, opts_map, new_options); } Status GetOptionsFromString(const Options& base_options, const std::string& opts_str, Options* new_options) { std::unordered_map opts_map; Status s = StringToMap(opts_str, &opts_map); if (!s.ok()) { return s; } DBOptions new_db_options(base_options); ColumnFamilyOptions new_cf_options(base_options); for (const auto& o : opts_map) { if (ParseDBOption(o.first, o.second, &new_db_options).ok()) { } else if (ParseColumnFamilyOption( o.first, o.second, &new_cf_options).ok()) { } else { return Status::InvalidArgument("Can't parse option " + o.first); } } *new_options = Options(new_db_options, new_cf_options); return Status::OK(); } Status GetTableFactoryFromMap( const std::string& factory_name, const std::unordered_map& opt_map, std::shared_ptr* table_factory, bool ignore_unknown_options) { Status s; if (factory_name == BlockBasedTableFactory().Name()) { BlockBasedTableOptions bbt_opt; s = GetBlockBasedTableOptionsFromMap(BlockBasedTableOptions(), opt_map, &bbt_opt, true, /* input_strings_escaped */ ignore_unknown_options); if (!s.ok()) { return s; } table_factory->reset(new BlockBasedTableFactory(bbt_opt)); return Status::OK(); } else if (factory_name == PlainTableFactory().Name()) { PlainTableOptions pt_opt; s = GetPlainTableOptionsFromMap(PlainTableOptions(), opt_map, &pt_opt, true, /* input_strings_escaped */ ignore_unknown_options); if (!s.ok()) { return s; } table_factory->reset(new PlainTableFactory(pt_opt)); return Status::OK(); } // Return OK for not supported table factories as TableFactory // Deserialization is optional. table_factory->reset(); return Status::OK(); } std::unordered_map OptionsHelper::db_options_type_info = { /* // not yet supported Env* env; std::shared_ptr row_cache; std::shared_ptr delete_scheduler; std::shared_ptr info_log; std::shared_ptr rate_limiter; std::shared_ptr statistics; std::vector db_paths; std::vector> listeners; */ {"advise_random_on_open", {offsetof(struct DBOptions, advise_random_on_open), OptionType::kBoolean, OptionVerificationType::kNormal, false, 0}}, {"allow_mmap_reads", {offsetof(struct DBOptions, allow_mmap_reads), OptionType::kBoolean, OptionVerificationType::kNormal, false, 0}}, {"allow_fallocate", {offsetof(struct DBOptions, allow_fallocate), OptionType::kBoolean, OptionVerificationType::kNormal, false, 0}}, {"allow_mmap_writes", {offsetof(struct DBOptions, allow_mmap_writes), OptionType::kBoolean, OptionVerificationType::kNormal, false, 0}}, {"use_direct_reads", {offsetof(struct DBOptions, use_direct_reads), OptionType::kBoolean, OptionVerificationType::kNormal, false, 0}}, {"use_direct_writes", {0, OptionType::kBoolean, OptionVerificationType::kDeprecated, false, 0}}, {"use_direct_io_for_flush_and_compaction", {offsetof(struct DBOptions, use_direct_io_for_flush_and_compaction), OptionType::kBoolean, OptionVerificationType::kNormal, false, 0}}, {"allow_2pc", {offsetof(struct DBOptions, allow_2pc), OptionType::kBoolean, OptionVerificationType::kNormal, false, 0}}, {"allow_os_buffer", {0, OptionType::kBoolean, OptionVerificationType::kDeprecated, true, 0}}, {"create_if_missing", {offsetof(struct DBOptions, create_if_missing), OptionType::kBoolean, OptionVerificationType::kNormal, false, 0}}, {"create_missing_column_families", {offsetof(struct DBOptions, create_missing_column_families), OptionType::kBoolean, OptionVerificationType::kNormal, false, 0}}, {"disableDataSync", {0, OptionType::kBoolean, OptionVerificationType::kDeprecated, false, 0}}, {"disable_data_sync", // for compatibility {0, OptionType::kBoolean, OptionVerificationType::kDeprecated, false, 0}}, {"enable_thread_tracking", {offsetof(struct DBOptions, enable_thread_tracking), OptionType::kBoolean, OptionVerificationType::kNormal, false, 0}}, {"error_if_exists", {offsetof(struct DBOptions, error_if_exists), OptionType::kBoolean, OptionVerificationType::kNormal, false, 0}}, {"is_fd_close_on_exec", {offsetof(struct DBOptions, is_fd_close_on_exec), OptionType::kBoolean, OptionVerificationType::kNormal, false, 0}}, {"paranoid_checks", {offsetof(struct DBOptions, paranoid_checks), OptionType::kBoolean, OptionVerificationType::kNormal, false, 0}}, {"skip_log_error_on_recovery", {offsetof(struct DBOptions, skip_log_error_on_recovery), OptionType::kBoolean, OptionVerificationType::kNormal, false, 0}}, {"skip_stats_update_on_db_open", {offsetof(struct DBOptions, skip_stats_update_on_db_open), OptionType::kBoolean, OptionVerificationType::kNormal, false, 0}}, {"new_table_reader_for_compaction_inputs", {offsetof(struct DBOptions, new_table_reader_for_compaction_inputs), OptionType::kBoolean, OptionVerificationType::kNormal, false, 0}}, {"compaction_readahead_size", {offsetof(struct DBOptions, compaction_readahead_size), OptionType::kSizeT, OptionVerificationType::kNormal, true, offsetof(struct MutableDBOptions, compaction_readahead_size)}}, {"random_access_max_buffer_size", {offsetof(struct DBOptions, random_access_max_buffer_size), OptionType::kSizeT, OptionVerificationType::kNormal, false, 0}}, {"use_adaptive_mutex", {offsetof(struct DBOptions, use_adaptive_mutex), OptionType::kBoolean, OptionVerificationType::kNormal, false, 0}}, {"use_fsync", {offsetof(struct DBOptions, use_fsync), OptionType::kBoolean, OptionVerificationType::kNormal, false, 0}}, {"max_background_jobs", {offsetof(struct DBOptions, max_background_jobs), OptionType::kInt, OptionVerificationType::kNormal, true, offsetof(struct MutableDBOptions, max_background_jobs)}}, {"max_background_compactions", {offsetof(struct DBOptions, max_background_compactions), OptionType::kInt, OptionVerificationType::kNormal, true, offsetof(struct MutableDBOptions, max_background_compactions)}}, {"base_background_compactions", {offsetof(struct DBOptions, base_background_compactions), OptionType::kInt, OptionVerificationType::kNormal, true, offsetof(struct MutableDBOptions, base_background_compactions)}}, {"max_background_flushes", {offsetof(struct DBOptions, max_background_flushes), OptionType::kInt, OptionVerificationType::kNormal, false, 0}}, {"max_file_opening_threads", {offsetof(struct DBOptions, max_file_opening_threads), OptionType::kInt, OptionVerificationType::kNormal, false, 0}}, {"max_open_files", {offsetof(struct DBOptions, max_open_files), OptionType::kInt, OptionVerificationType::kNormal, true, offsetof(struct MutableDBOptions, max_open_files)}}, {"table_cache_numshardbits", {offsetof(struct DBOptions, table_cache_numshardbits), OptionType::kInt, OptionVerificationType::kNormal, false, 0}}, {"db_write_buffer_size", {offsetof(struct DBOptions, db_write_buffer_size), OptionType::kSizeT, OptionVerificationType::kNormal, false, 0}}, {"keep_log_file_num", {offsetof(struct DBOptions, keep_log_file_num), OptionType::kSizeT, OptionVerificationType::kNormal, false, 0}}, {"recycle_log_file_num", {offsetof(struct DBOptions, recycle_log_file_num), OptionType::kSizeT, OptionVerificationType::kNormal, false, 0}}, {"log_file_time_to_roll", {offsetof(struct DBOptions, log_file_time_to_roll), OptionType::kSizeT, OptionVerificationType::kNormal, false, 0}}, {"manifest_preallocation_size", {offsetof(struct DBOptions, manifest_preallocation_size), OptionType::kSizeT, OptionVerificationType::kNormal, false, 0}}, {"max_log_file_size", {offsetof(struct DBOptions, max_log_file_size), OptionType::kSizeT, OptionVerificationType::kNormal, false, 0}}, {"db_log_dir", {offsetof(struct DBOptions, db_log_dir), OptionType::kString, OptionVerificationType::kNormal, false, 0}}, {"wal_dir", {offsetof(struct DBOptions, wal_dir), OptionType::kString, OptionVerificationType::kNormal, false, 0}}, {"max_subcompactions", {offsetof(struct DBOptions, max_subcompactions), OptionType::kUInt32T, OptionVerificationType::kNormal, false, 0}}, {"WAL_size_limit_MB", {offsetof(struct DBOptions, WAL_size_limit_MB), OptionType::kUInt64T, OptionVerificationType::kNormal, false, 0}}, {"WAL_ttl_seconds", {offsetof(struct DBOptions, WAL_ttl_seconds), OptionType::kUInt64T, OptionVerificationType::kNormal, false, 0}}, {"bytes_per_sync", {offsetof(struct DBOptions, bytes_per_sync), OptionType::kUInt64T, OptionVerificationType::kNormal, true, offsetof(struct MutableDBOptions, bytes_per_sync)}}, {"delayed_write_rate", {offsetof(struct DBOptions, delayed_write_rate), OptionType::kUInt64T, OptionVerificationType::kNormal, true, offsetof(struct MutableDBOptions, delayed_write_rate)}}, {"delete_obsolete_files_period_micros", {offsetof(struct DBOptions, delete_obsolete_files_period_micros), OptionType::kUInt64T, OptionVerificationType::kNormal, true, offsetof(struct MutableDBOptions, delete_obsolete_files_period_micros)}}, {"max_manifest_file_size", {offsetof(struct DBOptions, max_manifest_file_size), OptionType::kUInt64T, OptionVerificationType::kNormal, false, 0}}, {"max_total_wal_size", {offsetof(struct DBOptions, max_total_wal_size), OptionType::kUInt64T, OptionVerificationType::kNormal, true, offsetof(struct MutableDBOptions, max_total_wal_size)}}, {"wal_bytes_per_sync", {offsetof(struct DBOptions, wal_bytes_per_sync), OptionType::kUInt64T, OptionVerificationType::kNormal, true, offsetof(struct MutableDBOptions, wal_bytes_per_sync)}}, {"stats_dump_period_sec", {offsetof(struct DBOptions, stats_dump_period_sec), OptionType::kUInt, OptionVerificationType::kNormal, true, offsetof(struct MutableDBOptions, stats_dump_period_sec)}}, {"fail_if_options_file_error", {offsetof(struct DBOptions, fail_if_options_file_error), OptionType::kBoolean, OptionVerificationType::kNormal, false, 0}}, {"enable_pipelined_write", {offsetof(struct DBOptions, enable_pipelined_write), OptionType::kBoolean, OptionVerificationType::kNormal, false, 0}}, {"allow_concurrent_memtable_write", {offsetof(struct DBOptions, allow_concurrent_memtable_write), OptionType::kBoolean, OptionVerificationType::kNormal, false, 0}}, {"wal_recovery_mode", {offsetof(struct DBOptions, wal_recovery_mode), OptionType::kWALRecoveryMode, OptionVerificationType::kNormal, false, 0}}, {"enable_write_thread_adaptive_yield", {offsetof(struct DBOptions, enable_write_thread_adaptive_yield), OptionType::kBoolean, OptionVerificationType::kNormal, false, 0}}, {"write_thread_slow_yield_usec", {offsetof(struct DBOptions, write_thread_slow_yield_usec), OptionType::kUInt64T, OptionVerificationType::kNormal, false, 0}}, {"write_thread_max_yield_usec", {offsetof(struct DBOptions, write_thread_max_yield_usec), OptionType::kUInt64T, OptionVerificationType::kNormal, false, 0}}, {"access_hint_on_compaction_start", {offsetof(struct DBOptions, access_hint_on_compaction_start), OptionType::kAccessHint, OptionVerificationType::kNormal, false, 0}}, {"info_log_level", {offsetof(struct DBOptions, info_log_level), OptionType::kInfoLogLevel, OptionVerificationType::kNormal, false, 0}}, {"dump_malloc_stats", {offsetof(struct DBOptions, dump_malloc_stats), OptionType::kBoolean, OptionVerificationType::kNormal, false, 0}}, {"avoid_flush_during_recovery", {offsetof(struct DBOptions, avoid_flush_during_recovery), OptionType::kBoolean, OptionVerificationType::kNormal, false, 0}}, {"avoid_flush_during_shutdown", {offsetof(struct DBOptions, avoid_flush_during_shutdown), OptionType::kBoolean, OptionVerificationType::kNormal, true, offsetof(struct MutableDBOptions, avoid_flush_during_shutdown)}}, {"writable_file_max_buffer_size", {offsetof(struct DBOptions, writable_file_max_buffer_size), OptionType::kSizeT, OptionVerificationType::kNormal, true, offsetof(struct MutableDBOptions, writable_file_max_buffer_size)}}, {"allow_ingest_behind", {offsetof(struct DBOptions, allow_ingest_behind), OptionType::kBoolean, OptionVerificationType::kNormal, false, offsetof(struct ImmutableDBOptions, allow_ingest_behind)}}, {"preserve_deletes", {offsetof(struct DBOptions, preserve_deletes), OptionType::kBoolean, OptionVerificationType::kNormal, false, offsetof(struct ImmutableDBOptions, preserve_deletes)}}, {"concurrent_prepare", // Deprecated by two_write_queues {0, OptionType::kBoolean, OptionVerificationType::kDeprecated, false, 0}}, {"two_write_queues", {offsetof(struct DBOptions, two_write_queues), OptionType::kBoolean, OptionVerificationType::kNormal, false, offsetof(struct ImmutableDBOptions, two_write_queues)}}, {"manual_wal_flush", {offsetof(struct DBOptions, manual_wal_flush), OptionType::kBoolean, OptionVerificationType::kNormal, false, offsetof(struct ImmutableDBOptions, manual_wal_flush)}}, {"seq_per_batch", {0, OptionType::kBoolean, OptionVerificationType::kDeprecated, false, 0}}}; std::unordered_map OptionsHelper::block_base_table_index_type_string_map = { {"kBinarySearch", BlockBasedTableOptions::IndexType::kBinarySearch}, {"kHashSearch", BlockBasedTableOptions::IndexType::kHashSearch}, {"kTwoLevelIndexSearch", BlockBasedTableOptions::IndexType::kTwoLevelIndexSearch}}; std::unordered_map OptionsHelper::block_base_table_data_block_index_type_string_map = { {"kDataBlockBinarySearch", BlockBasedTableOptions::DataBlockIndexType::kDataBlockBinarySearch}, {"kDataBlockBinaryAndHash", BlockBasedTableOptions::DataBlockIndexType::kDataBlockBinaryAndHash}}; std::unordered_map OptionsHelper::encoding_type_string_map = {{"kPlain", kPlain}, {"kPrefix", kPrefix}}; std::unordered_map OptionsHelper::compaction_style_string_map = { {"kCompactionStyleLevel", kCompactionStyleLevel}, {"kCompactionStyleUniversal", kCompactionStyleUniversal}, {"kCompactionStyleFIFO", kCompactionStyleFIFO}, {"kCompactionStyleNone", kCompactionStyleNone}}; std::unordered_map OptionsHelper::compaction_pri_string_map = { {"kByCompensatedSize", kByCompensatedSize}, {"kOldestLargestSeqFirst", kOldestLargestSeqFirst}, {"kOldestSmallestSeqFirst", kOldestSmallestSeqFirst}, {"kMinOverlappingRatio", kMinOverlappingRatio}}; std::unordered_map OptionsHelper::wal_recovery_mode_string_map = { {"kTolerateCorruptedTailRecords", WALRecoveryMode::kTolerateCorruptedTailRecords}, {"kAbsoluteConsistency", WALRecoveryMode::kAbsoluteConsistency}, {"kPointInTimeRecovery", WALRecoveryMode::kPointInTimeRecovery}, {"kSkipAnyCorruptedRecords", WALRecoveryMode::kSkipAnyCorruptedRecords}}; std::unordered_map OptionsHelper::access_hint_string_map = { {"NONE", DBOptions::AccessHint::NONE}, {"NORMAL", DBOptions::AccessHint::NORMAL}, {"SEQUENTIAL", DBOptions::AccessHint::SEQUENTIAL}, {"WILLNEED", DBOptions::AccessHint::WILLNEED}}; std::unordered_map OptionsHelper::info_log_level_string_map = { {"DEBUG_LEVEL", InfoLogLevel::DEBUG_LEVEL}, {"INFO_LEVEL", InfoLogLevel::INFO_LEVEL}, {"WARN_LEVEL", InfoLogLevel::WARN_LEVEL}, {"ERROR_LEVEL", InfoLogLevel::ERROR_LEVEL}, {"FATAL_LEVEL", InfoLogLevel::FATAL_LEVEL}, {"HEADER_LEVEL", InfoLogLevel::HEADER_LEVEL}}; ColumnFamilyOptions OptionsHelper::dummy_cf_options; CompactionOptionsFIFO OptionsHelper::dummy_comp_options; LRUCacheOptions OptionsHelper::dummy_lru_cache_options; CompactionOptionsUniversal OptionsHelper::dummy_comp_options_universal; // offset_of is used to get the offset of a class data member // ex: offset_of(&ColumnFamilyOptions::num_levels) // This call will return the offset of num_levels in ColumnFamilyOptions class // // This is the same as offsetof() but allow us to work with non standard-layout // classes and structures // refs: // http://en.cppreference.com/w/cpp/concept/StandardLayoutType // https://gist.github.com/graphitemaster/494f21190bb2c63c5516 template int offset_of(T1 ColumnFamilyOptions::*member) { return int(size_t(&(OptionsHelper::dummy_cf_options.*member)) - size_t(&OptionsHelper::dummy_cf_options)); } template int offset_of(T1 AdvancedColumnFamilyOptions::*member) { return int(size_t(&(OptionsHelper::dummy_cf_options.*member)) - size_t(&OptionsHelper::dummy_cf_options)); } template int offset_of(T1 CompactionOptionsFIFO::*member) { return int(size_t(&(OptionsHelper::dummy_comp_options.*member)) - size_t(&OptionsHelper::dummy_comp_options)); } template int offset_of(T1 LRUCacheOptions::*member) { return int(size_t(&(OptionsHelper::dummy_lru_cache_options.*member)) - size_t(&OptionsHelper::dummy_lru_cache_options)); } template int offset_of(T1 CompactionOptionsUniversal::*member) { return int(size_t(&(OptionsHelper::dummy_comp_options_universal.*member)) - size_t(&OptionsHelper::dummy_comp_options_universal)); } std::unordered_map OptionsHelper::cf_options_type_info = { /* not yet supported CompressionOptions compression_opts; TablePropertiesCollectorFactories table_properties_collector_factories; typedef std::vector> TablePropertiesCollectorFactories; UpdateStatus (*inplace_callback)(char* existing_value, uint34_t* existing_value_size, Slice delta_value, std::string* merged_value); std::vector cf_paths; */ {"report_bg_io_stats", {offset_of(&ColumnFamilyOptions::report_bg_io_stats), OptionType::kBoolean, OptionVerificationType::kNormal, true, offsetof(struct MutableCFOptions, report_bg_io_stats)}}, {"compaction_measure_io_stats", {0, OptionType::kBoolean, OptionVerificationType::kDeprecated, false, 0}}, {"disable_auto_compactions", {offset_of(&ColumnFamilyOptions::disable_auto_compactions), OptionType::kBoolean, OptionVerificationType::kNormal, true, offsetof(struct MutableCFOptions, disable_auto_compactions)}}, {"filter_deletes", {0, OptionType::kBoolean, OptionVerificationType::kDeprecated, true, 0}}, {"inplace_update_support", {offset_of(&ColumnFamilyOptions::inplace_update_support), OptionType::kBoolean, OptionVerificationType::kNormal, false, 0}}, {"level_compaction_dynamic_level_bytes", {offset_of(&ColumnFamilyOptions::level_compaction_dynamic_level_bytes), OptionType::kBoolean, OptionVerificationType::kNormal, false, 0}}, {"optimize_filters_for_hits", {offset_of(&ColumnFamilyOptions::optimize_filters_for_hits), OptionType::kBoolean, OptionVerificationType::kNormal, false, 0}}, {"paranoid_file_checks", {offset_of(&ColumnFamilyOptions::paranoid_file_checks), OptionType::kBoolean, OptionVerificationType::kNormal, true, offsetof(struct MutableCFOptions, paranoid_file_checks)}}, {"force_consistency_checks", {offset_of(&ColumnFamilyOptions::force_consistency_checks), OptionType::kBoolean, OptionVerificationType::kNormal, false, 0}}, {"purge_redundant_kvs_while_flush", {offset_of(&ColumnFamilyOptions::purge_redundant_kvs_while_flush), OptionType::kBoolean, OptionVerificationType::kDeprecated, false, 0}}, {"verify_checksums_in_compaction", {0, OptionType::kBoolean, OptionVerificationType::kDeprecated, true, 0}}, {"soft_pending_compaction_bytes_limit", {offset_of(&ColumnFamilyOptions::soft_pending_compaction_bytes_limit), OptionType::kUInt64T, OptionVerificationType::kNormal, true, offsetof(struct MutableCFOptions, soft_pending_compaction_bytes_limit)}}, {"hard_pending_compaction_bytes_limit", {offset_of(&ColumnFamilyOptions::hard_pending_compaction_bytes_limit), OptionType::kUInt64T, OptionVerificationType::kNormal, true, offsetof(struct MutableCFOptions, hard_pending_compaction_bytes_limit)}}, {"hard_rate_limit", {0, OptionType::kDouble, OptionVerificationType::kDeprecated, true, 0}}, {"soft_rate_limit", {0, OptionType::kDouble, OptionVerificationType::kDeprecated, true, 0}}, {"max_compaction_bytes", {offset_of(&ColumnFamilyOptions::max_compaction_bytes), OptionType::kUInt64T, OptionVerificationType::kNormal, true, offsetof(struct MutableCFOptions, max_compaction_bytes)}}, {"expanded_compaction_factor", {0, OptionType::kInt, OptionVerificationType::kDeprecated, true, 0}}, {"level0_file_num_compaction_trigger", {offset_of(&ColumnFamilyOptions::level0_file_num_compaction_trigger), OptionType::kInt, OptionVerificationType::kNormal, true, offsetof(struct MutableCFOptions, level0_file_num_compaction_trigger)}}, {"level0_slowdown_writes_trigger", {offset_of(&ColumnFamilyOptions::level0_slowdown_writes_trigger), OptionType::kInt, OptionVerificationType::kNormal, true, offsetof(struct MutableCFOptions, level0_slowdown_writes_trigger)}}, {"level0_stop_writes_trigger", {offset_of(&ColumnFamilyOptions::level0_stop_writes_trigger), OptionType::kInt, OptionVerificationType::kNormal, true, offsetof(struct MutableCFOptions, level0_stop_writes_trigger)}}, {"max_grandparent_overlap_factor", {0, OptionType::kInt, OptionVerificationType::kDeprecated, true, 0}}, {"max_mem_compaction_level", {0, OptionType::kInt, OptionVerificationType::kDeprecated, false, 0}}, {"max_write_buffer_number", {offset_of(&ColumnFamilyOptions::max_write_buffer_number), OptionType::kInt, OptionVerificationType::kNormal, true, offsetof(struct MutableCFOptions, max_write_buffer_number)}}, {"max_write_buffer_number_to_maintain", {offset_of(&ColumnFamilyOptions::max_write_buffer_number_to_maintain), OptionType::kInt, OptionVerificationType::kNormal, false, 0}}, {"min_write_buffer_number_to_merge", {offset_of(&ColumnFamilyOptions::min_write_buffer_number_to_merge), OptionType::kInt, OptionVerificationType::kNormal, false, 0}}, {"num_levels", {offset_of(&ColumnFamilyOptions::num_levels), OptionType::kInt, OptionVerificationType::kNormal, false, 0}}, {"source_compaction_factor", {0, OptionType::kInt, OptionVerificationType::kDeprecated, true, 0}}, {"target_file_size_multiplier", {offset_of(&ColumnFamilyOptions::target_file_size_multiplier), OptionType::kInt, OptionVerificationType::kNormal, true, offsetof(struct MutableCFOptions, target_file_size_multiplier)}}, {"arena_block_size", {offset_of(&ColumnFamilyOptions::arena_block_size), OptionType::kSizeT, OptionVerificationType::kNormal, true, offsetof(struct MutableCFOptions, arena_block_size)}}, {"inplace_update_num_locks", {offset_of(&ColumnFamilyOptions::inplace_update_num_locks), OptionType::kSizeT, OptionVerificationType::kNormal, true, offsetof(struct MutableCFOptions, inplace_update_num_locks)}}, {"max_successive_merges", {offset_of(&ColumnFamilyOptions::max_successive_merges), OptionType::kSizeT, OptionVerificationType::kNormal, true, offsetof(struct MutableCFOptions, max_successive_merges)}}, {"memtable_huge_page_size", {offset_of(&ColumnFamilyOptions::memtable_huge_page_size), OptionType::kSizeT, OptionVerificationType::kNormal, true, offsetof(struct MutableCFOptions, memtable_huge_page_size)}}, {"memtable_prefix_bloom_huge_page_tlb_size", {0, OptionType::kSizeT, OptionVerificationType::kDeprecated, true, 0}}, {"write_buffer_size", {offset_of(&ColumnFamilyOptions::write_buffer_size), OptionType::kSizeT, OptionVerificationType::kNormal, true, offsetof(struct MutableCFOptions, write_buffer_size)}}, {"bloom_locality", {offset_of(&ColumnFamilyOptions::bloom_locality), OptionType::kUInt32T, OptionVerificationType::kNormal, false, 0}}, {"memtable_prefix_bloom_bits", {0, OptionType::kUInt32T, OptionVerificationType::kDeprecated, true, 0}}, {"memtable_prefix_bloom_size_ratio", {offset_of(&ColumnFamilyOptions::memtable_prefix_bloom_size_ratio), OptionType::kDouble, OptionVerificationType::kNormal, true, offsetof(struct MutableCFOptions, memtable_prefix_bloom_size_ratio)}}, {"memtable_prefix_bloom_probes", {0, OptionType::kUInt32T, OptionVerificationType::kDeprecated, true, 0}}, {"min_partial_merge_operands", {0, OptionType::kUInt32T, OptionVerificationType::kDeprecated, true, 0}}, {"max_bytes_for_level_base", {offset_of(&ColumnFamilyOptions::max_bytes_for_level_base), OptionType::kUInt64T, OptionVerificationType::kNormal, true, offsetof(struct MutableCFOptions, max_bytes_for_level_base)}}, {"max_bytes_for_level_multiplier", {offset_of(&ColumnFamilyOptions::max_bytes_for_level_multiplier), OptionType::kDouble, OptionVerificationType::kNormal, true, offsetof(struct MutableCFOptions, max_bytes_for_level_multiplier)}}, {"max_bytes_for_level_multiplier_additional", {offset_of( &ColumnFamilyOptions::max_bytes_for_level_multiplier_additional), OptionType::kVectorInt, OptionVerificationType::kNormal, true, offsetof(struct MutableCFOptions, max_bytes_for_level_multiplier_additional)}}, {"max_sequential_skip_in_iterations", {offset_of(&ColumnFamilyOptions::max_sequential_skip_in_iterations), OptionType::kUInt64T, OptionVerificationType::kNormal, true, offsetof(struct MutableCFOptions, max_sequential_skip_in_iterations)}}, {"target_file_size_base", {offset_of(&ColumnFamilyOptions::target_file_size_base), OptionType::kUInt64T, OptionVerificationType::kNormal, true, offsetof(struct MutableCFOptions, target_file_size_base)}}, {"rate_limit_delay_max_milliseconds", {0, OptionType::kUInt, OptionVerificationType::kDeprecated, false, 0}}, {"compression", {offset_of(&ColumnFamilyOptions::compression), OptionType::kCompressionType, OptionVerificationType::kNormal, true, offsetof(struct MutableCFOptions, compression)}}, {"compression_per_level", {offset_of(&ColumnFamilyOptions::compression_per_level), OptionType::kVectorCompressionType, OptionVerificationType::kNormal, false, 0}}, {"bottommost_compression", {offset_of(&ColumnFamilyOptions::bottommost_compression), OptionType::kCompressionType, OptionVerificationType::kNormal, false, 0}}, {"comparator", {offset_of(&ColumnFamilyOptions::comparator), OptionType::kComparator, OptionVerificationType::kByName, false, 0}}, {"prefix_extractor", {offset_of(&ColumnFamilyOptions::prefix_extractor), OptionType::kSliceTransform, OptionVerificationType::kByNameAllowNull, true, offsetof(struct MutableCFOptions, prefix_extractor)}}, {"memtable_insert_with_hint_prefix_extractor", {offset_of( &ColumnFamilyOptions::memtable_insert_with_hint_prefix_extractor), OptionType::kSliceTransform, OptionVerificationType::kByNameAllowNull, false, 0}}, {"memtable_factory", {offset_of(&ColumnFamilyOptions::memtable_factory), OptionType::kMemTableRepFactory, OptionVerificationType::kByName, false, 0}}, {"table_factory", {offset_of(&ColumnFamilyOptions::table_factory), OptionType::kTableFactory, OptionVerificationType::kByName, false, 0}}, {"compaction_filter", {offset_of(&ColumnFamilyOptions::compaction_filter), OptionType::kCompactionFilter, OptionVerificationType::kByName, false, 0}}, {"compaction_filter_factory", {offset_of(&ColumnFamilyOptions::compaction_filter_factory), OptionType::kCompactionFilterFactory, OptionVerificationType::kByName, false, 0}}, {"merge_operator", {offset_of(&ColumnFamilyOptions::merge_operator), OptionType::kMergeOperator, OptionVerificationType::kByNameAllowFromNull, false, 0}}, {"compaction_style", {offset_of(&ColumnFamilyOptions::compaction_style), OptionType::kCompactionStyle, OptionVerificationType::kNormal, false, 0}}, {"compaction_pri", {offset_of(&ColumnFamilyOptions::compaction_pri), OptionType::kCompactionPri, OptionVerificationType::kNormal, false, 0}}, {"compaction_options_fifo", {offset_of(&ColumnFamilyOptions::compaction_options_fifo), OptionType::kCompactionOptionsFIFO, OptionVerificationType::kNormal, true, offsetof(struct MutableCFOptions, compaction_options_fifo)}}, {"compaction_options_universal", {offset_of(&ColumnFamilyOptions::compaction_options_universal), OptionType::kCompactionOptionsUniversal, OptionVerificationType::kNormal, true, offsetof(struct MutableCFOptions, compaction_options_universal)}}, {"ttl", {offset_of(&ColumnFamilyOptions::ttl), OptionType::kUInt64T, OptionVerificationType::kNormal, true, offsetof(struct MutableCFOptions, ttl)}}}; std::unordered_map OptionsHelper::fifo_compaction_options_type_info = { {"max_table_files_size", {offset_of(&CompactionOptionsFIFO::max_table_files_size), OptionType::kUInt64T, OptionVerificationType::kNormal, true, offsetof(struct CompactionOptionsFIFO, max_table_files_size)}}, {"ttl", {offset_of(&CompactionOptionsFIFO::ttl), OptionType::kUInt64T, OptionVerificationType::kNormal, true, offsetof(struct CompactionOptionsFIFO, ttl)}}, {"allow_compaction", {offset_of(&CompactionOptionsFIFO::allow_compaction), OptionType::kBoolean, OptionVerificationType::kNormal, true, offsetof(struct CompactionOptionsFIFO, allow_compaction)}}}; std::unordered_map OptionsHelper::universal_compaction_options_type_info = { {"size_ratio", {offset_of(&CompactionOptionsUniversal::size_ratio), OptionType::kUInt, OptionVerificationType::kNormal, true, offsetof(class CompactionOptionsUniversal, size_ratio)}}, {"min_merge_width", {offset_of(&CompactionOptionsUniversal::min_merge_width), OptionType::kUInt, OptionVerificationType::kNormal, true, offsetof(class CompactionOptionsUniversal, min_merge_width)}}, {"max_merge_width", {offset_of(&CompactionOptionsUniversal::max_merge_width), OptionType::kUInt, OptionVerificationType::kNormal, true, offsetof(class CompactionOptionsUniversal, max_merge_width)}}, {"max_size_amplification_percent", {offset_of( &CompactionOptionsUniversal::max_size_amplification_percent), OptionType::kUInt, OptionVerificationType::kNormal, true, offsetof(class CompactionOptionsUniversal, max_size_amplification_percent)}}, {"compression_size_percent", {offset_of(&CompactionOptionsUniversal::compression_size_percent), OptionType::kInt, OptionVerificationType::kNormal, true, offsetof(class CompactionOptionsUniversal, compression_size_percent)}}, {"stop_style", {offset_of(&CompactionOptionsUniversal::stop_style), OptionType::kCompactionStopStyle, OptionVerificationType::kNormal, true, offsetof(class CompactionOptionsUniversal, stop_style)}}, {"allow_trivial_move", {offset_of(&CompactionOptionsUniversal::allow_trivial_move), OptionType::kBoolean, OptionVerificationType::kNormal, true, offsetof(class CompactionOptionsUniversal, allow_trivial_move)}}}; std::unordered_map OptionsHelper::compaction_stop_style_string_map = { {"kCompactionStopStyleSimilarSize", kCompactionStopStyleSimilarSize}, {"kCompactionStopStyleTotalSize", kCompactionStopStyleTotalSize}}; std::unordered_map OptionsHelper::lru_cache_options_type_info = { {"capacity", {offset_of(&LRUCacheOptions::capacity), OptionType::kSizeT, OptionVerificationType::kNormal, true, offsetof(struct LRUCacheOptions, capacity)}}, {"num_shard_bits", {offset_of(&LRUCacheOptions::num_shard_bits), OptionType::kInt, OptionVerificationType::kNormal, true, offsetof(struct LRUCacheOptions, num_shard_bits)}}, {"strict_capacity_limit", {offset_of(&LRUCacheOptions::strict_capacity_limit), OptionType::kBoolean, OptionVerificationType::kNormal, true, offsetof(struct LRUCacheOptions, strict_capacity_limit)}}, {"high_pri_pool_ratio", {offset_of(&LRUCacheOptions::high_pri_pool_ratio), OptionType::kDouble, OptionVerificationType::kNormal, true, offsetof(struct LRUCacheOptions, high_pri_pool_ratio)}}}; #endif // !ROCKSDB_LITE } // namespace rocksdb rocksdb-5.17.2/options/options_helper.h000066400000000000000000000212411337235545400201460ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #include #include #include #include #include "options/cf_options.h" #include "options/db_options.h" #include "rocksdb/options.h" #include "rocksdb/status.h" #include "rocksdb/table.h" #include "rocksdb/universal_compaction.h" namespace rocksdb { DBOptions BuildDBOptions(const ImmutableDBOptions& immutable_db_options, const MutableDBOptions& mutable_db_options); ColumnFamilyOptions BuildColumnFamilyOptions( const ColumnFamilyOptions& ioptions, const MutableCFOptions& mutable_cf_options); #ifndef ROCKSDB_LITE Status GetMutableOptionsFromStrings( const MutableCFOptions& base_options, const std::unordered_map& options_map, Logger* info_log, MutableCFOptions* new_options); Status GetMutableDBOptionsFromStrings( const MutableDBOptions& base_options, const std::unordered_map& options_map, MutableDBOptions* new_options); Status GetTableFactoryFromMap( const std::string& factory_name, const std::unordered_map& opt_map, std::shared_ptr* table_factory, bool ignore_unknown_options = false); enum class OptionType { kBoolean, kInt, kVectorInt, kUInt, kUInt32T, kUInt64T, kSizeT, kString, kDouble, kCompactionStyle, kCompactionPri, kSliceTransform, kCompressionType, kVectorCompressionType, kTableFactory, kComparator, kCompactionFilter, kCompactionFilterFactory, kCompactionOptionsFIFO, kCompactionOptionsUniversal, kCompactionStopStyle, kMergeOperator, kMemTableRepFactory, kBlockBasedTableIndexType, kBlockBasedTableDataBlockIndexType, kFilterPolicy, kFlushBlockPolicyFactory, kChecksumType, kEncodingType, kWALRecoveryMode, kAccessHint, kInfoLogLevel, kLRUCacheOptions, kUnknown }; enum class OptionVerificationType { kNormal, kByName, // The option is pointer typed so we can only verify // based on it's name. kByNameAllowNull, // Same as kByName, but it also allows the case // where one of them is a nullptr. kByNameAllowFromNull, // Same as kByName, but it also allows the case // where the old option is nullptr. kDeprecated // The option is no longer used in rocksdb. The RocksDB // OptionsParser will still accept this option if it // happen to exists in some Options file. However, // the parser will not include it in serialization // and verification processes. }; // A struct for storing constant option information such as option name, // option type, and offset. struct OptionTypeInfo { int offset; OptionType type; OptionVerificationType verification; bool is_mutable; int mutable_offset; }; // A helper function that converts "opt_address" to a std::string // based on the specified OptionType. bool SerializeSingleOptionHelper(const char* opt_address, const OptionType opt_type, std::string* value); // In addition to its public version defined in rocksdb/convenience.h, // this further takes an optional output vector "unsupported_options_names", // which stores the name of all the unsupported options specified in "opts_map". Status GetDBOptionsFromMapInternal( const DBOptions& base_options, const std::unordered_map& opts_map, DBOptions* new_options, bool input_strings_escaped, std::vector* unsupported_options_names = nullptr, bool ignore_unknown_options = false); // In addition to its public version defined in rocksdb/convenience.h, // this further takes an optional output vector "unsupported_options_names", // which stores the name of all the unsupported options specified in "opts_map". Status GetColumnFamilyOptionsFromMapInternal( const ColumnFamilyOptions& base_options, const std::unordered_map& opts_map, ColumnFamilyOptions* new_options, bool input_strings_escaped, std::vector* unsupported_options_names = nullptr, bool ignore_unknown_options = false); bool ParseSliceTransform( const std::string& value, std::shared_ptr* slice_transform); extern Status StringToMap( const std::string& opts_str, std::unordered_map* opts_map); extern bool ParseOptionHelper(char* opt_address, const OptionType& opt_type, const std::string& value); #endif // !ROCKSDB_LITE struct OptionsHelper { static std::map compaction_style_to_string; static std::map compaction_pri_to_string; static std::map compaction_stop_style_to_string; static std::unordered_map checksum_type_string_map; static std::unordered_map compression_type_string_map; #ifndef ROCKSDB_LITE static std::unordered_map cf_options_type_info; static std::unordered_map fifo_compaction_options_type_info; static std::unordered_map universal_compaction_options_type_info; static std::unordered_map compaction_stop_style_string_map; static std::unordered_map db_options_type_info; static std::unordered_map lru_cache_options_type_info; static std::unordered_map block_base_table_index_type_string_map; static std::unordered_map block_base_table_data_block_index_type_string_map; static std::unordered_map encoding_type_string_map; static std::unordered_map compaction_style_string_map; static std::unordered_map compaction_pri_string_map; static std::unordered_map wal_recovery_mode_string_map; static std::unordered_map access_hint_string_map; static std::unordered_map info_log_level_string_map; static ColumnFamilyOptions dummy_cf_options; static CompactionOptionsFIFO dummy_comp_options; static LRUCacheOptions dummy_lru_cache_options; static CompactionOptionsUniversal dummy_comp_options_universal; #endif // !ROCKSDB_LITE }; // Some aliasing static auto& compaction_style_to_string = OptionsHelper::compaction_style_to_string; static auto& compaction_pri_to_string = OptionsHelper::compaction_pri_to_string; static auto& compaction_stop_style_to_string = OptionsHelper::compaction_stop_style_to_string; static auto& checksum_type_string_map = OptionsHelper::checksum_type_string_map; #ifndef ROCKSDB_LITE static auto& cf_options_type_info = OptionsHelper::cf_options_type_info; static auto& fifo_compaction_options_type_info = OptionsHelper::fifo_compaction_options_type_info; static auto& universal_compaction_options_type_info = OptionsHelper::universal_compaction_options_type_info; static auto& compaction_stop_style_string_map = OptionsHelper::compaction_stop_style_string_map; static auto& db_options_type_info = OptionsHelper::db_options_type_info; static auto& lru_cache_options_type_info = OptionsHelper::lru_cache_options_type_info; static auto& compression_type_string_map = OptionsHelper::compression_type_string_map; static auto& block_base_table_index_type_string_map = OptionsHelper::block_base_table_index_type_string_map; static auto& block_base_table_data_block_index_type_string_map = OptionsHelper::block_base_table_data_block_index_type_string_map; static auto& encoding_type_string_map = OptionsHelper::encoding_type_string_map; static auto& compaction_style_string_map = OptionsHelper::compaction_style_string_map; static auto& compaction_pri_string_map = OptionsHelper::compaction_pri_string_map; static auto& wal_recovery_mode_string_map = OptionsHelper::wal_recovery_mode_string_map; static auto& access_hint_string_map = OptionsHelper::access_hint_string_map; static auto& info_log_level_string_map = OptionsHelper::info_log_level_string_map; #endif // !ROCKSDB_LITE } // namespace rocksdb rocksdb-5.17.2/options/options_parser.cc000066400000000000000000000723721337235545400203340ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #ifndef ROCKSDB_LITE #include "options/options_parser.h" #include #include #include #include #include #include "options/options_helper.h" #include "rocksdb/convenience.h" #include "rocksdb/db.h" #include "util/cast_util.h" #include "util/file_reader_writer.h" #include "util/string_util.h" #include "util/sync_point.h" #include "port/port.h" namespace rocksdb { static const std::string option_file_header = "# This is a RocksDB option file.\n" "#\n" "# For detailed file format spec, please refer to the example file\n" "# in examples/rocksdb_option_file_example.ini\n" "#\n" "\n"; Status PersistRocksDBOptions(const DBOptions& db_opt, const std::vector& cf_names, const std::vector& cf_opts, const std::string& file_name, Env* env) { TEST_SYNC_POINT("PersistRocksDBOptions:start"); if (cf_names.size() != cf_opts.size()) { return Status::InvalidArgument( "cf_names.size() and cf_opts.size() must be the same"); } std::unique_ptr wf; Status s = env->NewWritableFile(file_name, &wf, EnvOptions()); if (!s.ok()) { return s; } unique_ptr writable; writable.reset(new WritableFileWriter(std::move(wf), file_name, EnvOptions(), nullptr /* statistics */)); std::string options_file_content; writable->Append(option_file_header + "[" + opt_section_titles[kOptionSectionVersion] + "]\n" " rocksdb_version=" + ToString(ROCKSDB_MAJOR) + "." + ToString(ROCKSDB_MINOR) + "." + ToString(ROCKSDB_PATCH) + "\n"); writable->Append(" options_file_version=" + ToString(ROCKSDB_OPTION_FILE_MAJOR) + "." + ToString(ROCKSDB_OPTION_FILE_MINOR) + "\n"); writable->Append("\n[" + opt_section_titles[kOptionSectionDBOptions] + "]\n "); s = GetStringFromDBOptions(&options_file_content, db_opt, "\n "); if (!s.ok()) { writable->Close(); return s; } writable->Append(options_file_content + "\n"); for (size_t i = 0; i < cf_opts.size(); ++i) { // CFOptions section writable->Append("\n[" + opt_section_titles[kOptionSectionCFOptions] + " \"" + EscapeOptionString(cf_names[i]) + "\"]\n "); s = GetStringFromColumnFamilyOptions(&options_file_content, cf_opts[i], "\n "); if (!s.ok()) { writable->Close(); return s; } writable->Append(options_file_content + "\n"); // TableOptions section auto* tf = cf_opts[i].table_factory.get(); if (tf != nullptr) { writable->Append("[" + opt_section_titles[kOptionSectionTableOptions] + tf->Name() + " \"" + EscapeOptionString(cf_names[i]) + "\"]\n "); options_file_content.clear(); s = tf->GetOptionString(&options_file_content, "\n "); if (!s.ok()) { return s; } writable->Append(options_file_content + "\n"); } } writable->Sync(true /* use_fsync */); writable->Close(); return RocksDBOptionsParser::VerifyRocksDBOptionsFromFile( db_opt, cf_names, cf_opts, file_name, env); } RocksDBOptionsParser::RocksDBOptionsParser() { Reset(); } void RocksDBOptionsParser::Reset() { db_opt_ = DBOptions(); db_opt_map_.clear(); cf_names_.clear(); cf_opts_.clear(); cf_opt_maps_.clear(); has_version_section_ = false; has_db_options_ = false; has_default_cf_options_ = false; for (int i = 0; i < 3; ++i) { db_version[i] = 0; opt_file_version[i] = 0; } } bool RocksDBOptionsParser::IsSection(const std::string& line) { if (line.size() < 2) { return false; } if (line[0] != '[' || line[line.size() - 1] != ']') { return false; } return true; } Status RocksDBOptionsParser::ParseSection(OptionSection* section, std::string* title, std::string* argument, const std::string& line, const int line_num) { *section = kOptionSectionUnknown; // A section is of the form [ ""], where // "" is optional. size_t arg_start_pos = line.find("\""); size_t arg_end_pos = line.rfind("\""); // The following if-then check tries to identify whether the input // section has the optional section argument. if (arg_start_pos != std::string::npos && arg_start_pos != arg_end_pos) { *title = TrimAndRemoveComment(line.substr(1, arg_start_pos - 1), true); *argument = UnescapeOptionString( line.substr(arg_start_pos + 1, arg_end_pos - arg_start_pos - 1)); } else { *title = TrimAndRemoveComment(line.substr(1, line.size() - 2), true); *argument = ""; } for (int i = 0; i < kOptionSectionUnknown; ++i) { if (title->find(opt_section_titles[i]) == 0) { if (i == kOptionSectionVersion || i == kOptionSectionDBOptions || i == kOptionSectionCFOptions) { if (title->size() == opt_section_titles[i].size()) { // if true, then it indicats equal *section = static_cast(i); return CheckSection(*section, *argument, line_num); } } else if (i == kOptionSectionTableOptions) { // This type of sections has a sufffix at the end of the // section title if (title->size() > opt_section_titles[i].size()) { *section = static_cast(i); return CheckSection(*section, *argument, line_num); } } } } return Status::InvalidArgument(std::string("Unknown section ") + line); } Status RocksDBOptionsParser::InvalidArgument(const int line_num, const std::string& message) { return Status::InvalidArgument( "[RocksDBOptionsParser Error] ", message + " (at line " + ToString(line_num) + ")"); } Status RocksDBOptionsParser::ParseStatement(std::string* name, std::string* value, const std::string& line, const int line_num) { size_t eq_pos = line.find("="); if (eq_pos == std::string::npos) { return InvalidArgument(line_num, "A valid statement must have a '='."); } *name = TrimAndRemoveComment(line.substr(0, eq_pos), true); *value = TrimAndRemoveComment(line.substr(eq_pos + 1, line.size() - eq_pos - 1)); if (name->empty()) { return InvalidArgument(line_num, "A valid statement must have a variable name."); } return Status::OK(); } Status RocksDBOptionsParser::Parse(const std::string& file_name, Env* env, bool ignore_unknown_options) { Reset(); std::unique_ptr seq_file; Status s = env->NewSequentialFile(file_name, &seq_file, EnvOptions()); if (!s.ok()) { return s; } OptionSection section = kOptionSectionUnknown; std::string title; std::string argument; std::unordered_map opt_map; std::istringstream iss; std::string line; bool has_data = true; // we only support single-lined statement. for (int line_num = 1; ReadOneLine(&iss, seq_file.get(), &line, &has_data, &s); ++line_num) { if (!s.ok()) { return s; } line = TrimAndRemoveComment(line); if (line.empty()) { continue; } if (IsSection(line)) { s = EndSection(section, title, argument, opt_map, ignore_unknown_options); opt_map.clear(); if (!s.ok()) { return s; } // If the option file is not generated by a higher minor version, // there shouldn't be any unknown option. if (ignore_unknown_options && section == kOptionSectionVersion) { if (db_version[0] < ROCKSDB_MAJOR || (db_version[0] == ROCKSDB_MAJOR && db_version[1] <= ROCKSDB_MINOR)) { ignore_unknown_options = false; } } s = ParseSection(§ion, &title, &argument, line, line_num); if (!s.ok()) { return s; } } else { std::string name; std::string value; s = ParseStatement(&name, &value, line, line_num); if (!s.ok()) { return s; } opt_map.insert({name, value}); } } s = EndSection(section, title, argument, opt_map, ignore_unknown_options); opt_map.clear(); if (!s.ok()) { return s; } return ValidityCheck(); } Status RocksDBOptionsParser::CheckSection(const OptionSection section, const std::string& section_arg, const int line_num) { if (section == kOptionSectionDBOptions) { if (has_db_options_) { return InvalidArgument( line_num, "More than one DBOption section found in the option config file"); } has_db_options_ = true; } else if (section == kOptionSectionCFOptions) { bool is_default_cf = (section_arg == kDefaultColumnFamilyName); if (cf_opts_.size() == 0 && !is_default_cf) { return InvalidArgument( line_num, "Default column family must be the first CFOptions section " "in the option config file"); } else if (cf_opts_.size() != 0 && is_default_cf) { return InvalidArgument( line_num, "Default column family must be the first CFOptions section " "in the optio/n config file"); } else if (GetCFOptions(section_arg) != nullptr) { return InvalidArgument( line_num, "Two identical column families found in option config file"); } has_default_cf_options_ |= is_default_cf; } else if (section == kOptionSectionTableOptions) { if (GetCFOptions(section_arg) == nullptr) { return InvalidArgument( line_num, std::string( "Does not find a matched column family name in " "TableOptions section. Column Family Name:") + section_arg); } } else if (section == kOptionSectionVersion) { if (has_version_section_) { return InvalidArgument( line_num, "More than one Version section found in the option config file."); } has_version_section_ = true; } return Status::OK(); } Status RocksDBOptionsParser::ParseVersionNumber(const std::string& ver_name, const std::string& ver_string, const int max_count, int* version) { int version_index = 0; int current_number = 0; int current_digit_count = 0; bool has_dot = false; for (int i = 0; i < max_count; ++i) { version[i] = 0; } const int kBufferSize = 200; char buffer[kBufferSize]; for (size_t i = 0; i < ver_string.size(); ++i) { if (ver_string[i] == '.') { if (version_index >= max_count - 1) { snprintf(buffer, sizeof(buffer) - 1, "A valid %s can only contains at most %d dots.", ver_name.c_str(), max_count - 1); return Status::InvalidArgument(buffer); } if (current_digit_count == 0) { snprintf(buffer, sizeof(buffer) - 1, "A valid %s must have at least one digit before each dot.", ver_name.c_str()); return Status::InvalidArgument(buffer); } version[version_index++] = current_number; current_number = 0; current_digit_count = 0; has_dot = true; } else if (isdigit(ver_string[i])) { current_number = current_number * 10 + (ver_string[i] - '0'); current_digit_count++; } else { snprintf(buffer, sizeof(buffer) - 1, "A valid %s can only contains dots and numbers.", ver_name.c_str()); return Status::InvalidArgument(buffer); } } version[version_index] = current_number; if (has_dot && current_digit_count == 0) { snprintf(buffer, sizeof(buffer) - 1, "A valid %s must have at least one digit after each dot.", ver_name.c_str()); return Status::InvalidArgument(buffer); } return Status::OK(); } Status RocksDBOptionsParser::EndSection( const OptionSection section, const std::string& section_title, const std::string& section_arg, const std::unordered_map& opt_map, bool ignore_unknown_options) { Status s; if (section == kOptionSectionDBOptions) { s = GetDBOptionsFromMap(DBOptions(), opt_map, &db_opt_, true, ignore_unknown_options); if (!s.ok()) { return s; } db_opt_map_ = opt_map; } else if (section == kOptionSectionCFOptions) { // This condition should be ensured earlier in ParseSection // so we make an assertion here. assert(GetCFOptions(section_arg) == nullptr); cf_names_.emplace_back(section_arg); cf_opts_.emplace_back(); s = GetColumnFamilyOptionsFromMap(ColumnFamilyOptions(), opt_map, &cf_opts_.back(), true, ignore_unknown_options); if (!s.ok()) { return s; } // keep the parsed string. cf_opt_maps_.emplace_back(opt_map); } else if (section == kOptionSectionTableOptions) { assert(GetCFOptions(section_arg) != nullptr); auto* cf_opt = GetCFOptionsImpl(section_arg); if (cf_opt == nullptr) { return Status::InvalidArgument( "The specified column family must be defined before the " "TableOptions section:", section_arg); } // Ignore error as table factory deserialization is optional s = GetTableFactoryFromMap( section_title.substr( opt_section_titles[kOptionSectionTableOptions].size()), opt_map, &(cf_opt->table_factory), ignore_unknown_options); if (!s.ok()) { return s; } } else if (section == kOptionSectionVersion) { for (const auto pair : opt_map) { if (pair.first == "rocksdb_version") { s = ParseVersionNumber(pair.first, pair.second, 3, db_version); if (!s.ok()) { return s; } } else if (pair.first == "options_file_version") { s = ParseVersionNumber(pair.first, pair.second, 2, opt_file_version); if (!s.ok()) { return s; } if (opt_file_version[0] < 1) { return Status::InvalidArgument( "A valid options_file_version must be at least 1."); } } } } return Status::OK(); } Status RocksDBOptionsParser::ValidityCheck() { if (!has_db_options_) { return Status::Corruption( "A RocksDB Option file must have a single DBOptions section"); } if (!has_default_cf_options_) { return Status::Corruption( "A RocksDB Option file must have a single CFOptions:default section"); } return Status::OK(); } std::string RocksDBOptionsParser::TrimAndRemoveComment(const std::string& line, bool trim_only) { size_t start = 0; size_t end = line.size(); // we only support "#" style comment if (!trim_only) { size_t search_pos = 0; while (search_pos < line.size()) { size_t comment_pos = line.find('#', search_pos); if (comment_pos == std::string::npos) { break; } if (comment_pos == 0 || line[comment_pos - 1] != '\\') { end = comment_pos; break; } search_pos = comment_pos + 1; } } while (start < end && isspace(line[start]) != 0) { ++start; } // start < end implies end > 0. while (start < end && isspace(line[end - 1]) != 0) { --end; } if (start < end) { return line.substr(start, end - start); } return ""; } namespace { bool AreEqualDoubles(const double a, const double b) { return (fabs(a - b) < 0.00001); } } // namespace bool AreEqualOptions( const char* opt1, const char* opt2, const OptionTypeInfo& type_info, const std::string& opt_name, const std::unordered_map* opt_map) { const char* offset1 = opt1 + type_info.offset; const char* offset2 = opt2 + type_info.offset; switch (type_info.type) { case OptionType::kBoolean: return (*reinterpret_cast(offset1) == *reinterpret_cast(offset2)); case OptionType::kInt: return (*reinterpret_cast(offset1) == *reinterpret_cast(offset2)); case OptionType::kVectorInt: return (*reinterpret_cast*>(offset1) == *reinterpret_cast*>(offset2)); case OptionType::kUInt: return (*reinterpret_cast(offset1) == *reinterpret_cast(offset2)); case OptionType::kUInt32T: return (*reinterpret_cast(offset1) == *reinterpret_cast(offset2)); case OptionType::kUInt64T: { uint64_t v1, v2; GetUnaligned(reinterpret_cast(offset1), &v1); GetUnaligned(reinterpret_cast(offset2), &v2); return (v1 == v2); } case OptionType::kSizeT: { size_t v1, v2; GetUnaligned(reinterpret_cast(offset1), &v1); GetUnaligned(reinterpret_cast(offset2), &v2); return (v1 == v2); } case OptionType::kString: return (*reinterpret_cast(offset1) == *reinterpret_cast(offset2)); case OptionType::kDouble: return AreEqualDoubles(*reinterpret_cast(offset1), *reinterpret_cast(offset2)); case OptionType::kCompactionStyle: return (*reinterpret_cast(offset1) == *reinterpret_cast(offset2)); case OptionType::kCompactionPri: return (*reinterpret_cast(offset1) == *reinterpret_cast(offset2)); case OptionType::kCompressionType: return (*reinterpret_cast(offset1) == *reinterpret_cast(offset2)); case OptionType::kVectorCompressionType: { const auto* vec1 = reinterpret_cast*>(offset1); const auto* vec2 = reinterpret_cast*>(offset2); return (*vec1 == *vec2); } case OptionType::kChecksumType: return (*reinterpret_cast(offset1) == *reinterpret_cast(offset2)); case OptionType::kBlockBasedTableIndexType: return ( *reinterpret_cast( offset1) == *reinterpret_cast(offset2)); case OptionType::kBlockBasedTableDataBlockIndexType: return ( *reinterpret_cast( offset1) == *reinterpret_cast( offset2)); case OptionType::kWALRecoveryMode: return (*reinterpret_cast(offset1) == *reinterpret_cast(offset2)); case OptionType::kAccessHint: return (*reinterpret_cast(offset1) == *reinterpret_cast(offset2)); case OptionType::kInfoLogLevel: return (*reinterpret_cast(offset1) == *reinterpret_cast(offset2)); case OptionType::kCompactionOptionsFIFO: { CompactionOptionsFIFO lhs = *reinterpret_cast(offset1); CompactionOptionsFIFO rhs = *reinterpret_cast(offset2); if (lhs.max_table_files_size == rhs.max_table_files_size && lhs.ttl == rhs.ttl && lhs.allow_compaction == rhs.allow_compaction) { return true; } return false; } case OptionType::kCompactionOptionsUniversal: { CompactionOptionsUniversal lhs = *reinterpret_cast(offset1); CompactionOptionsUniversal rhs = *reinterpret_cast(offset2); if (lhs.size_ratio == rhs.size_ratio && lhs.min_merge_width == rhs.min_merge_width && lhs.max_merge_width == rhs.max_merge_width && lhs.max_size_amplification_percent == rhs.max_size_amplification_percent && lhs.compression_size_percent == rhs.compression_size_percent && lhs.stop_style == rhs.stop_style && lhs.allow_trivial_move == rhs.allow_trivial_move) { return true; } return false; } default: if (type_info.verification == OptionVerificationType::kByName || type_info.verification == OptionVerificationType::kByNameAllowFromNull || type_info.verification == OptionVerificationType::kByNameAllowNull) { std::string value1; bool result = SerializeSingleOptionHelper(offset1, type_info.type, &value1); if (result == false) { return false; } if (opt_map == nullptr) { return true; } auto iter = opt_map->find(opt_name); if (iter == opt_map->end()) { return true; } else { if (type_info.verification == OptionVerificationType::kByNameAllowNull) { if (iter->second == kNullptrString || value1 == kNullptrString) { return true; } } else if (type_info.verification == OptionVerificationType::kByNameAllowFromNull) { if (iter->second == kNullptrString) { return true; } } return (value1 == iter->second); } } return false; } } Status RocksDBOptionsParser::VerifyRocksDBOptionsFromFile( const DBOptions& db_opt, const std::vector& cf_names, const std::vector& cf_opts, const std::string& file_name, Env* env, OptionsSanityCheckLevel sanity_check_level, bool ignore_unknown_options) { RocksDBOptionsParser parser; std::unique_ptr seq_file; Status s = parser.Parse(file_name, env, ignore_unknown_options); if (!s.ok()) { return s; } // Verify DBOptions s = VerifyDBOptions(db_opt, *parser.db_opt(), parser.db_opt_map(), sanity_check_level); if (!s.ok()) { return s; } // Verify ColumnFamily Name if (cf_names.size() != parser.cf_names()->size()) { if (sanity_check_level >= kSanityLevelLooselyCompatible) { return Status::InvalidArgument( "[RocksDBOptionParser Error] The persisted options does not have " "the same number of column family names as the db instance."); } else if (cf_opts.size() > parser.cf_opts()->size()) { return Status::InvalidArgument( "[RocksDBOptionsParser Error]", "The persisted options file has less number of column family " "names than that of the specified one."); } } for (size_t i = 0; i < cf_names.size(); ++i) { if (cf_names[i] != parser.cf_names()->at(i)) { return Status::InvalidArgument( "[RocksDBOptionParser Error] The persisted options and the db" "instance does not have the same name for column family ", ToString(i)); } } // Verify Column Family Options if (cf_opts.size() != parser.cf_opts()->size()) { if (sanity_check_level >= kSanityLevelLooselyCompatible) { return Status::InvalidArgument( "[RocksDBOptionsParser Error]", "The persisted options does not have the same number of " "column families as the db instance."); } else if (cf_opts.size() > parser.cf_opts()->size()) { return Status::InvalidArgument( "[RocksDBOptionsParser Error]", "The persisted options file has less number of column families " "than that of the specified number."); } } for (size_t i = 0; i < cf_opts.size(); ++i) { s = VerifyCFOptions(cf_opts[i], parser.cf_opts()->at(i), &(parser.cf_opt_maps()->at(i)), sanity_check_level); if (!s.ok()) { return s; } s = VerifyTableFactory(cf_opts[i].table_factory.get(), parser.cf_opts()->at(i).table_factory.get(), sanity_check_level); if (!s.ok()) { return s; } } return Status::OK(); } Status RocksDBOptionsParser::VerifyDBOptions( const DBOptions& base_opt, const DBOptions& persisted_opt, const std::unordered_map* /*opt_map*/, OptionsSanityCheckLevel sanity_check_level) { for (auto pair : db_options_type_info) { if (pair.second.verification == OptionVerificationType::kDeprecated) { // We skip checking deprecated variables as they might // contain random values since they might not be initialized continue; } if (DBOptionSanityCheckLevel(pair.first) <= sanity_check_level) { if (!AreEqualOptions(reinterpret_cast(&base_opt), reinterpret_cast(&persisted_opt), pair.second, pair.first, nullptr)) { const size_t kBufferSize = 2048; char buffer[kBufferSize]; std::string base_value; std::string persisted_value; SerializeSingleOptionHelper( reinterpret_cast(&base_opt) + pair.second.offset, pair.second.type, &base_value); SerializeSingleOptionHelper( reinterpret_cast(&persisted_opt) + pair.second.offset, pair.second.type, &persisted_value); snprintf(buffer, sizeof(buffer), "[RocksDBOptionsParser]: " "failed the verification on DBOptions::%s --- " "The specified one is %s while the persisted one is %s.\n", pair.first.c_str(), base_value.c_str(), persisted_value.c_str()); return Status::InvalidArgument(Slice(buffer, strlen(buffer))); } } } return Status::OK(); } Status RocksDBOptionsParser::VerifyCFOptions( const ColumnFamilyOptions& base_opt, const ColumnFamilyOptions& persisted_opt, const std::unordered_map* persisted_opt_map, OptionsSanityCheckLevel sanity_check_level) { for (auto& pair : cf_options_type_info) { if (pair.second.verification == OptionVerificationType::kDeprecated) { // We skip checking deprecated variables as they might // contain random values since they might not be initialized continue; } if (CFOptionSanityCheckLevel(pair.first) <= sanity_check_level) { if (!AreEqualOptions(reinterpret_cast(&base_opt), reinterpret_cast(&persisted_opt), pair.second, pair.first, persisted_opt_map)) { const size_t kBufferSize = 2048; char buffer[kBufferSize]; std::string base_value; std::string persisted_value; SerializeSingleOptionHelper( reinterpret_cast(&base_opt) + pair.second.offset, pair.second.type, &base_value); SerializeSingleOptionHelper( reinterpret_cast(&persisted_opt) + pair.second.offset, pair.second.type, &persisted_value); snprintf(buffer, sizeof(buffer), "[RocksDBOptionsParser]: " "failed the verification on ColumnFamilyOptions::%s --- " "The specified one is %s while the persisted one is %s.\n", pair.first.c_str(), base_value.c_str(), persisted_value.c_str()); return Status::InvalidArgument(Slice(buffer, sizeof(buffer))); } } } return Status::OK(); } Status RocksDBOptionsParser::VerifyTableFactory( const TableFactory* base_tf, const TableFactory* file_tf, OptionsSanityCheckLevel sanity_check_level) { if (base_tf && file_tf) { if (sanity_check_level > kSanityLevelNone && std::string(base_tf->Name()) != std::string(file_tf->Name())) { return Status::Corruption( "[RocksDBOptionsParser]: " "failed the verification on TableFactory->Name()"); } if (base_tf->Name() == BlockBasedTableFactory::kName) { return VerifyBlockBasedTableFactory( static_cast_with_check(base_tf), static_cast_with_check(file_tf), sanity_check_level); } // TODO(yhchiang): add checks for other table factory types } else { // TODO(yhchiang): further support sanity check here } return Status::OK(); } } // namespace rocksdb #endif // !ROCKSDB_LITE rocksdb-5.17.2/options/options_parser.h000066400000000000000000000120761337235545400201710ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #include #include #include #include "options/options_sanity_check.h" #include "rocksdb/env.h" #include "rocksdb/options.h" #include "table/block_based_table_factory.h" namespace rocksdb { #ifndef ROCKSDB_LITE #define ROCKSDB_OPTION_FILE_MAJOR 1 #define ROCKSDB_OPTION_FILE_MINOR 1 enum OptionSection : char { kOptionSectionVersion = 0, kOptionSectionDBOptions, kOptionSectionCFOptions, kOptionSectionTableOptions, kOptionSectionUnknown }; static const std::string opt_section_titles[] = { "Version", "DBOptions", "CFOptions", "TableOptions/", "Unknown"}; Status PersistRocksDBOptions(const DBOptions& db_opt, const std::vector& cf_names, const std::vector& cf_opts, const std::string& file_name, Env* env); extern bool AreEqualOptions( const char* opt1, const char* opt2, const OptionTypeInfo& type_info, const std::string& opt_name, const std::unordered_map* opt_map); class RocksDBOptionsParser { public: explicit RocksDBOptionsParser(); ~RocksDBOptionsParser() {} void Reset(); Status Parse(const std::string& file_name, Env* env, bool ignore_unknown_options = false); static std::string TrimAndRemoveComment(const std::string& line, const bool trim_only = false); const DBOptions* db_opt() const { return &db_opt_; } const std::unordered_map* db_opt_map() const { return &db_opt_map_; } const std::vector* cf_opts() const { return &cf_opts_; } const std::vector* cf_names() const { return &cf_names_; } const std::vector>* cf_opt_maps() const { return &cf_opt_maps_; } const ColumnFamilyOptions* GetCFOptions(const std::string& name) { return GetCFOptionsImpl(name); } size_t NumColumnFamilies() { return cf_opts_.size(); } static Status VerifyRocksDBOptionsFromFile( const DBOptions& db_opt, const std::vector& cf_names, const std::vector& cf_opts, const std::string& file_name, Env* env, OptionsSanityCheckLevel sanity_check_level = kSanityLevelExactMatch, bool ignore_unknown_options = false); static Status VerifyDBOptions( const DBOptions& base_opt, const DBOptions& new_opt, const std::unordered_map* new_opt_map = nullptr, OptionsSanityCheckLevel sanity_check_level = kSanityLevelExactMatch); static Status VerifyCFOptions( const ColumnFamilyOptions& base_opt, const ColumnFamilyOptions& new_opt, const std::unordered_map* new_opt_map = nullptr, OptionsSanityCheckLevel sanity_check_level = kSanityLevelExactMatch); static Status VerifyTableFactory( const TableFactory* base_tf, const TableFactory* file_tf, OptionsSanityCheckLevel sanity_check_level = kSanityLevelExactMatch); static Status ExtraParserCheck(const RocksDBOptionsParser& input_parser); protected: bool IsSection(const std::string& line); Status ParseSection(OptionSection* section, std::string* title, std::string* argument, const std::string& line, const int line_num); Status CheckSection(const OptionSection section, const std::string& section_arg, const int line_num); Status ParseStatement(std::string* name, std::string* value, const std::string& line, const int line_num); Status EndSection(const OptionSection section, const std::string& title, const std::string& section_arg, const std::unordered_map& opt_map, bool ignore_unknown_options); Status ValidityCheck(); Status InvalidArgument(const int line_num, const std::string& message); Status ParseVersionNumber(const std::string& ver_name, const std::string& ver_string, const int max_count, int* version); ColumnFamilyOptions* GetCFOptionsImpl(const std::string& name) { assert(cf_names_.size() == cf_opts_.size()); for (size_t i = 0; i < cf_names_.size(); ++i) { if (cf_names_[i] == name) { return &cf_opts_[i]; } } return nullptr; } private: DBOptions db_opt_; std::unordered_map db_opt_map_; std::vector cf_names_; std::vector cf_opts_; std::vector> cf_opt_maps_; bool has_version_section_; bool has_db_options_; bool has_default_cf_options_; int db_version[3]; int opt_file_version[3]; }; #endif // !ROCKSDB_LITE } // namespace rocksdb rocksdb-5.17.2/options/options_sanity_check.cc000066400000000000000000000022041337235545400214670ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #ifndef ROCKSDB_LITE #include "options/options_sanity_check.h" namespace rocksdb { namespace { OptionsSanityCheckLevel SanityCheckLevelHelper( const std::unordered_map& smap, const std::string& name) { auto iter = smap.find(name); return iter != smap.end() ? iter->second : kSanityLevelExactMatch; } } OptionsSanityCheckLevel DBOptionSanityCheckLevel( const std::string& option_name) { return SanityCheckLevelHelper(sanity_level_db_options, option_name); } OptionsSanityCheckLevel CFOptionSanityCheckLevel( const std::string& option_name) { return SanityCheckLevelHelper(sanity_level_cf_options, option_name); } OptionsSanityCheckLevel BBTOptionSanityCheckLevel( const std::string& option_name) { return SanityCheckLevelHelper(sanity_level_bbt_options, option_name); } } // namespace rocksdb #endif // !ROCKSDB_LITE rocksdb-5.17.2/options/options_sanity_check.h000066400000000000000000000032661337235545400213420ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #include #include #ifndef ROCKSDB_LITE namespace rocksdb { // This enum defines the RocksDB options sanity level. enum OptionsSanityCheckLevel : unsigned char { // Performs no sanity check at all. kSanityLevelNone = 0x00, // Performs minimum check to ensure the RocksDB instance can be // opened without corrupting / mis-interpreting the data. kSanityLevelLooselyCompatible = 0x01, // Perform exact match sanity check. kSanityLevelExactMatch = 0xFF, }; // The sanity check level for DB options static const std::unordered_map sanity_level_db_options {}; // The sanity check level for column-family options static const std::unordered_map sanity_level_cf_options = { {"comparator", kSanityLevelLooselyCompatible}, {"table_factory", kSanityLevelLooselyCompatible}, {"merge_operator", kSanityLevelLooselyCompatible}}; // The sanity check level for block-based table options static const std::unordered_map sanity_level_bbt_options {}; OptionsSanityCheckLevel DBOptionSanityCheckLevel( const std::string& options_name); OptionsSanityCheckLevel CFOptionSanityCheckLevel( const std::string& options_name); OptionsSanityCheckLevel BBTOptionSanityCheckLevel( const std::string& options_name); } // namespace rocksdb #endif // !ROCKSDB_LITE rocksdb-5.17.2/options/options_settable_test.cc000066400000000000000000000512431337235545400216740ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #ifndef __STDC_FORMAT_MACROS #define __STDC_FORMAT_MACROS #endif #include #include "options/options_helper.h" #include "rocksdb/convenience.h" #include "util/testharness.h" #ifndef GFLAGS bool FLAGS_enable_print = false; #else #include "util/gflags_compat.h" using GFLAGS_NAMESPACE::ParseCommandLineFlags; DEFINE_bool(enable_print, false, "Print options generated to console."); #endif // GFLAGS namespace rocksdb { // Verify options are settable from options strings. // We take the approach that depends on compiler behavior that copy constructor // won't touch implicit padding bytes, so that the test is fragile. // As a result, we only run the tests to verify new fields in options are // settable through string on limited platforms as it depends on behavior of // compilers. #ifndef ROCKSDB_LITE #if defined OS_LINUX || defined OS_WIN #ifndef __clang__ class OptionsSettableTest : public testing::Test { public: OptionsSettableTest() {} }; const char kSpecialChar = 'z'; typedef std::vector> OffsetGap; void FillWithSpecialChar(char* start_ptr, size_t total_size, const OffsetGap& blacklist) { size_t offset = 0; for (auto& pair : blacklist) { std::memset(start_ptr + offset, kSpecialChar, pair.first - offset); offset = pair.first + pair.second; } std::memset(start_ptr + offset, kSpecialChar, total_size - offset); } int NumUnsetBytes(char* start_ptr, size_t total_size, const OffsetGap& blacklist) { int total_unset_bytes_base = 0; size_t offset = 0; for (auto& pair : blacklist) { for (char* ptr = start_ptr + offset; ptr < start_ptr + pair.first; ptr++) { if (*ptr == kSpecialChar) { total_unset_bytes_base++; } } offset = pair.first + pair.second; } for (char* ptr = start_ptr + offset; ptr < start_ptr + total_size; ptr++) { if (*ptr == kSpecialChar) { total_unset_bytes_base++; } } return total_unset_bytes_base; } // If the test fails, likely a new option is added to BlockBasedTableOptions // but it cannot be set through GetBlockBasedTableOptionsFromString(), or the // test is not updated accordingly. // After adding an option, we need to make sure it is settable by // GetBlockBasedTableOptionsFromString() and add the option to the input string // passed to the GetBlockBasedTableOptionsFromString() in this test. // If it is a complicated type, you also need to add the field to // kBbtoBlacklist, and maybe add customized verification for it. TEST_F(OptionsSettableTest, BlockBasedTableOptionsAllFieldsSettable) { // Items in the form of . Need to be in ascending order // and not overlapping. Need to updated if new pointer-option is added. const OffsetGap kBbtoBlacklist = { {offsetof(struct BlockBasedTableOptions, flush_block_policy_factory), sizeof(std::shared_ptr)}, {offsetof(struct BlockBasedTableOptions, block_cache), sizeof(std::shared_ptr)}, {offsetof(struct BlockBasedTableOptions, persistent_cache), sizeof(std::shared_ptr)}, {offsetof(struct BlockBasedTableOptions, block_cache_compressed), sizeof(std::shared_ptr)}, {offsetof(struct BlockBasedTableOptions, filter_policy), sizeof(std::shared_ptr)}, }; // In this test, we catch a new option of BlockBasedTableOptions that is not // settable through GetBlockBasedTableOptionsFromString(). // We count padding bytes of the option struct, and assert it to be the same // as unset bytes of an option struct initialized by // GetBlockBasedTableOptionsFromString(). char* bbto_ptr = new char[sizeof(BlockBasedTableOptions)]; // Count padding bytes by setting all bytes in the memory to a special char, // copy a well constructed struct to this memory and see how many special // bytes left. BlockBasedTableOptions* bbto = new (bbto_ptr) BlockBasedTableOptions(); FillWithSpecialChar(bbto_ptr, sizeof(BlockBasedTableOptions), kBbtoBlacklist); // It based on the behavior of compiler that padding bytes are not changed // when copying the struct. It's prone to failure when compiler behavior // changes. We verify there is unset bytes to detect the case. *bbto = BlockBasedTableOptions(); int unset_bytes_base = NumUnsetBytes(bbto_ptr, sizeof(BlockBasedTableOptions), kBbtoBlacklist); ASSERT_GT(unset_bytes_base, 0); bbto->~BlockBasedTableOptions(); // Construct the base option passed into // GetBlockBasedTableOptionsFromString(). bbto = new (bbto_ptr) BlockBasedTableOptions(); FillWithSpecialChar(bbto_ptr, sizeof(BlockBasedTableOptions), kBbtoBlacklist); // This option is not setable: bbto->use_delta_encoding = true; char* new_bbto_ptr = new char[sizeof(BlockBasedTableOptions)]; BlockBasedTableOptions* new_bbto = new (new_bbto_ptr) BlockBasedTableOptions(); FillWithSpecialChar(new_bbto_ptr, sizeof(BlockBasedTableOptions), kBbtoBlacklist); // Need to update the option string if a new option is added. ASSERT_OK(GetBlockBasedTableOptionsFromString( *bbto, "cache_index_and_filter_blocks=1;" "cache_index_and_filter_blocks_with_high_priority=true;" "pin_l0_filter_and_index_blocks_in_cache=1;" "pin_top_level_index_and_filter=1;" "index_type=kHashSearch;" "data_block_index_type=kDataBlockBinaryAndHash;" "data_block_hash_table_util_ratio=0.75;" "checksum=kxxHash;hash_index_allow_collision=1;no_block_cache=1;" "block_cache=1M;block_cache_compressed=1k;block_size=1024;" "block_size_deviation=8;block_restart_interval=4; " "metadata_block_size=1024;" "partition_filters=false;" "index_block_restart_interval=4;" "filter_policy=bloomfilter:4:true;whole_key_filtering=1;" "format_version=1;" "hash_index_allow_collision=false;" "verify_compression=true;read_amp_bytes_per_bit=0;" "enable_index_compression=false;" "block_align=true", new_bbto)); ASSERT_EQ(unset_bytes_base, NumUnsetBytes(new_bbto_ptr, sizeof(BlockBasedTableOptions), kBbtoBlacklist)); ASSERT_TRUE(new_bbto->block_cache.get() != nullptr); ASSERT_TRUE(new_bbto->block_cache_compressed.get() != nullptr); ASSERT_TRUE(new_bbto->filter_policy.get() != nullptr); bbto->~BlockBasedTableOptions(); new_bbto->~BlockBasedTableOptions(); delete[] bbto_ptr; delete[] new_bbto_ptr; } // If the test fails, likely a new option is added to DBOptions // but it cannot be set through GetDBOptionsFromString(), or the test is not // updated accordingly. // After adding an option, we need to make sure it is settable by // GetDBOptionsFromString() and add the option to the input string passed to // DBOptionsFromString()in this test. // If it is a complicated type, you also need to add the field to // kDBOptionsBlacklist, and maybe add customized verification for it. TEST_F(OptionsSettableTest, DBOptionsAllFieldsSettable) { const OffsetGap kDBOptionsBlacklist = { {offsetof(struct DBOptions, env), sizeof(Env*)}, {offsetof(struct DBOptions, rate_limiter), sizeof(std::shared_ptr)}, {offsetof(struct DBOptions, sst_file_manager), sizeof(std::shared_ptr)}, {offsetof(struct DBOptions, info_log), sizeof(std::shared_ptr)}, {offsetof(struct DBOptions, statistics), sizeof(std::shared_ptr)}, {offsetof(struct DBOptions, db_paths), sizeof(std::vector)}, {offsetof(struct DBOptions, db_log_dir), sizeof(std::string)}, {offsetof(struct DBOptions, wal_dir), sizeof(std::string)}, {offsetof(struct DBOptions, write_buffer_manager), sizeof(std::shared_ptr)}, {offsetof(struct DBOptions, listeners), sizeof(std::vector>)}, {offsetof(struct DBOptions, row_cache), sizeof(std::shared_ptr)}, {offsetof(struct DBOptions, wal_filter), sizeof(const WalFilter*)}, }; char* options_ptr = new char[sizeof(DBOptions)]; // Count padding bytes by setting all bytes in the memory to a special char, // copy a well constructed struct to this memory and see how many special // bytes left. DBOptions* options = new (options_ptr) DBOptions(); FillWithSpecialChar(options_ptr, sizeof(DBOptions), kDBOptionsBlacklist); // It based on the behavior of compiler that padding bytes are not changed // when copying the struct. It's prone to failure when compiler behavior // changes. We verify there is unset bytes to detect the case. *options = DBOptions(); int unset_bytes_base = NumUnsetBytes(options_ptr, sizeof(DBOptions), kDBOptionsBlacklist); ASSERT_GT(unset_bytes_base, 0); options->~DBOptions(); options = new (options_ptr) DBOptions(); FillWithSpecialChar(options_ptr, sizeof(DBOptions), kDBOptionsBlacklist); char* new_options_ptr = new char[sizeof(DBOptions)]; DBOptions* new_options = new (new_options_ptr) DBOptions(); FillWithSpecialChar(new_options_ptr, sizeof(DBOptions), kDBOptionsBlacklist); // Need to update the option string if a new option is added. ASSERT_OK( GetDBOptionsFromString(*options, "wal_bytes_per_sync=4295048118;" "delete_obsolete_files_period_micros=4294967758;" "WAL_ttl_seconds=4295008036;" "WAL_size_limit_MB=4295036161;" "wal_dir=path/to/wal_dir;" "db_write_buffer_size=2587;" "max_subcompactions=64330;" "table_cache_numshardbits=28;" "max_open_files=72;" "max_file_opening_threads=35;" "max_background_jobs=8;" "base_background_compactions=3;" "max_background_compactions=33;" "use_fsync=true;" "use_adaptive_mutex=false;" "max_total_wal_size=4295005604;" "compaction_readahead_size=0;" "new_table_reader_for_compaction_inputs=false;" "keep_log_file_num=4890;" "skip_stats_update_on_db_open=false;" "max_manifest_file_size=4295009941;" "db_log_dir=path/to/db_log_dir;" "skip_log_error_on_recovery=true;" "writable_file_max_buffer_size=1048576;" "paranoid_checks=true;" "is_fd_close_on_exec=false;" "bytes_per_sync=4295013613;" "enable_thread_tracking=false;" "recycle_log_file_num=0;" "create_missing_column_families=true;" "log_file_time_to_roll=3097;" "max_background_flushes=35;" "create_if_missing=false;" "error_if_exists=true;" "delayed_write_rate=4294976214;" "manifest_preallocation_size=1222;" "allow_mmap_writes=false;" "stats_dump_period_sec=70127;" "allow_fallocate=true;" "allow_mmap_reads=false;" "use_direct_reads=false;" "use_direct_io_for_flush_and_compaction=false;" "max_log_file_size=4607;" "random_access_max_buffer_size=1048576;" "advise_random_on_open=true;" "fail_if_options_file_error=false;" "enable_pipelined_write=false;" "allow_concurrent_memtable_write=true;" "wal_recovery_mode=kPointInTimeRecovery;" "enable_write_thread_adaptive_yield=true;" "write_thread_slow_yield_usec=5;" "write_thread_max_yield_usec=1000;" "access_hint_on_compaction_start=NONE;" "info_log_level=DEBUG_LEVEL;" "dump_malloc_stats=false;" "allow_2pc=false;" "avoid_flush_during_recovery=false;" "avoid_flush_during_shutdown=false;" "allow_ingest_behind=false;" "preserve_deletes=false;" "concurrent_prepare=false;" "two_write_queues=false;" "manual_wal_flush=false;" "seq_per_batch=false;", new_options)); ASSERT_EQ(unset_bytes_base, NumUnsetBytes(new_options_ptr, sizeof(DBOptions), kDBOptionsBlacklist)); options->~DBOptions(); new_options->~DBOptions(); delete[] options_ptr; delete[] new_options_ptr; } template inline int offset_of(T1 T2::*member) { static T2 obj; return int(size_t(&(obj.*member)) - size_t(&obj)); } // If the test fails, likely a new option is added to ColumnFamilyOptions // but it cannot be set through GetColumnFamilyOptionsFromString(), or the // test is not updated accordingly. // After adding an option, we need to make sure it is settable by // GetColumnFamilyOptionsFromString() and add the option to the input // string passed to GetColumnFamilyOptionsFromString()in this test. // If it is a complicated type, you also need to add the field to // kColumnFamilyOptionsBlacklist, and maybe add customized verification // for it. TEST_F(OptionsSettableTest, ColumnFamilyOptionsAllFieldsSettable) { // options in the blacklist need to appear in the same order as in // ColumnFamilyOptions. const OffsetGap kColumnFamilyOptionsBlacklist = { {offset_of(&ColumnFamilyOptions::inplace_callback), sizeof(UpdateStatus(*)(char*, uint32_t*, Slice, std::string*))}, {offset_of( &ColumnFamilyOptions::memtable_insert_with_hint_prefix_extractor), sizeof(std::shared_ptr)}, {offset_of(&ColumnFamilyOptions::compression_per_level), sizeof(std::vector)}, {offset_of( &ColumnFamilyOptions::max_bytes_for_level_multiplier_additional), sizeof(std::vector)}, {offset_of(&ColumnFamilyOptions::memtable_factory), sizeof(std::shared_ptr)}, {offset_of(&ColumnFamilyOptions::table_properties_collector_factories), sizeof(ColumnFamilyOptions::TablePropertiesCollectorFactories)}, {offset_of(&ColumnFamilyOptions::comparator), sizeof(Comparator*)}, {offset_of(&ColumnFamilyOptions::merge_operator), sizeof(std::shared_ptr)}, {offset_of(&ColumnFamilyOptions::compaction_filter), sizeof(const CompactionFilter*)}, {offset_of(&ColumnFamilyOptions::compaction_filter_factory), sizeof(std::shared_ptr)}, {offset_of(&ColumnFamilyOptions::prefix_extractor), sizeof(std::shared_ptr)}, {offset_of(&ColumnFamilyOptions::table_factory), sizeof(std::shared_ptr)}, {offset_of(&ColumnFamilyOptions::cf_paths), sizeof(std::vector)}, }; char* options_ptr = new char[sizeof(ColumnFamilyOptions)]; // Count padding bytes by setting all bytes in the memory to a special char, // copy a well constructed struct to this memory and see how many special // bytes left. ColumnFamilyOptions* options = new (options_ptr) ColumnFamilyOptions(); FillWithSpecialChar(options_ptr, sizeof(ColumnFamilyOptions), kColumnFamilyOptionsBlacklist); // It based on the behavior of compiler that padding bytes are not changed // when copying the struct. It's prone to failure when compiler behavior // changes. We verify there is unset bytes to detect the case. *options = ColumnFamilyOptions(); // Deprecatd option which is not initialized. Need to set it to avoid // Valgrind error options->max_mem_compaction_level = 0; int unset_bytes_base = NumUnsetBytes(options_ptr, sizeof(ColumnFamilyOptions), kColumnFamilyOptionsBlacklist); ASSERT_GT(unset_bytes_base, 0); options->~ColumnFamilyOptions(); options = new (options_ptr) ColumnFamilyOptions(); FillWithSpecialChar(options_ptr, sizeof(ColumnFamilyOptions), kColumnFamilyOptionsBlacklist); // Following options are not settable through // GetColumnFamilyOptionsFromString(): options->rate_limit_delay_max_milliseconds = 33; options->compaction_options_universal = CompactionOptionsUniversal(); options->compression_opts = CompressionOptions(); options->bottommost_compression_opts = CompressionOptions(); options->hard_rate_limit = 0; options->soft_rate_limit = 0; options->purge_redundant_kvs_while_flush = false; options->max_mem_compaction_level = 0; char* new_options_ptr = new char[sizeof(ColumnFamilyOptions)]; ColumnFamilyOptions* new_options = new (new_options_ptr) ColumnFamilyOptions(); FillWithSpecialChar(new_options_ptr, sizeof(ColumnFamilyOptions), kColumnFamilyOptionsBlacklist); // Need to update the option string if a new option is added. ASSERT_OK(GetColumnFamilyOptionsFromString( *options, "compaction_filter_factory=mpudlojcujCompactionFilterFactory;" "table_factory=PlainTable;" "prefix_extractor=rocksdb.CappedPrefix.13;" "comparator=leveldb.BytewiseComparator;" "compression_per_level=kBZip2Compression:kBZip2Compression:" "kBZip2Compression:kNoCompression:kZlibCompression:kBZip2Compression:" "kSnappyCompression;" "max_bytes_for_level_base=986;" "bloom_locality=8016;" "target_file_size_base=4294976376;" "memtable_huge_page_size=2557;" "max_successive_merges=5497;" "max_sequential_skip_in_iterations=4294971408;" "arena_block_size=1893;" "target_file_size_multiplier=35;" "min_write_buffer_number_to_merge=9;" "max_write_buffer_number=84;" "write_buffer_size=1653;" "max_compaction_bytes=64;" "max_bytes_for_level_multiplier=60;" "memtable_factory=SkipListFactory;" "compression=kNoCompression;" "bottommost_compression=kDisableCompressionOption;" "level0_stop_writes_trigger=33;" "num_levels=99;" "level0_slowdown_writes_trigger=22;" "level0_file_num_compaction_trigger=14;" "compaction_filter=urxcqstuwnCompactionFilter;" "soft_rate_limit=530.615385;" "soft_pending_compaction_bytes_limit=0;" "max_write_buffer_number_to_maintain=84;" "merge_operator=aabcxehazrMergeOperator;" "memtable_prefix_bloom_size_ratio=0.4642;" "memtable_insert_with_hint_prefix_extractor=rocksdb.CappedPrefix.13;" "paranoid_file_checks=true;" "force_consistency_checks=true;" "inplace_update_num_locks=7429;" "optimize_filters_for_hits=false;" "level_compaction_dynamic_level_bytes=false;" "inplace_update_support=false;" "compaction_style=kCompactionStyleFIFO;" "compaction_pri=kMinOverlappingRatio;" "hard_pending_compaction_bytes_limit=0;" "disable_auto_compactions=false;" "report_bg_io_stats=true;" "ttl=60;" "compaction_options_fifo={max_table_files_size=3;ttl=100;allow_" "compaction=false;};", new_options)); ASSERT_EQ(unset_bytes_base, NumUnsetBytes(new_options_ptr, sizeof(ColumnFamilyOptions), kColumnFamilyOptionsBlacklist)); options->~ColumnFamilyOptions(); new_options->~ColumnFamilyOptions(); delete[] options_ptr; delete[] new_options_ptr; } #endif // !__clang__ #endif // OS_LINUX || OS_WIN #endif // !ROCKSDB_LITE } // namespace rocksdb int main(int argc, char** argv) { ::testing::InitGoogleTest(&argc, argv); #ifdef GFLAGS ParseCommandLineFlags(&argc, &argv, true); #endif // GFLAGS return RUN_ALL_TESTS(); } rocksdb-5.17.2/options/options_test.cc000066400000000000000000002253041337235545400200120ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #ifndef __STDC_FORMAT_MACROS #define __STDC_FORMAT_MACROS #endif #include #include #include #include #include "cache/lru_cache.h" #include "cache/sharded_cache.h" #include "options/options_helper.h" #include "options/options_parser.h" #include "options/options_sanity_check.h" #include "rocksdb/cache.h" #include "rocksdb/convenience.h" #include "rocksdb/memtablerep.h" #include "rocksdb/utilities/leveldb_options.h" #include "util/random.h" #include "util/stderr_logger.h" #include "util/string_util.h" #include "util/testharness.h" #include "util/testutil.h" #ifndef GFLAGS bool FLAGS_enable_print = false; #else #include "util/gflags_compat.h" using GFLAGS_NAMESPACE::ParseCommandLineFlags; DEFINE_bool(enable_print, false, "Print options generated to console."); #endif // GFLAGS namespace rocksdb { class OptionsTest : public testing::Test {}; #ifndef ROCKSDB_LITE // GetOptionsFromMap is not supported in ROCKSDB_LITE TEST_F(OptionsTest, GetOptionsFromMapTest) { std::unordered_map cf_options_map = { {"write_buffer_size", "1"}, {"max_write_buffer_number", "2"}, {"min_write_buffer_number_to_merge", "3"}, {"max_write_buffer_number_to_maintain", "99"}, {"compression", "kSnappyCompression"}, {"compression_per_level", "kNoCompression:" "kSnappyCompression:" "kZlibCompression:" "kBZip2Compression:" "kLZ4Compression:" "kLZ4HCCompression:" "kXpressCompression:" "kZSTD:" "kZSTDNotFinalCompression"}, {"bottommost_compression", "kLZ4Compression"}, {"bottommost_compression_opts", "5:6:7:8:9:true"}, {"compression_opts", "4:5:6:7:8:true"}, {"num_levels", "8"}, {"level0_file_num_compaction_trigger", "8"}, {"level0_slowdown_writes_trigger", "9"}, {"level0_stop_writes_trigger", "10"}, {"target_file_size_base", "12"}, {"target_file_size_multiplier", "13"}, {"max_bytes_for_level_base", "14"}, {"level_compaction_dynamic_level_bytes", "true"}, {"max_bytes_for_level_multiplier", "15.0"}, {"max_bytes_for_level_multiplier_additional", "16:17:18"}, {"max_compaction_bytes", "21"}, {"soft_rate_limit", "1.1"}, {"hard_rate_limit", "2.1"}, {"hard_pending_compaction_bytes_limit", "211"}, {"arena_block_size", "22"}, {"disable_auto_compactions", "true"}, {"compaction_style", "kCompactionStyleLevel"}, {"compaction_pri", "kOldestSmallestSeqFirst"}, {"verify_checksums_in_compaction", "false"}, {"compaction_options_fifo", "23"}, {"max_sequential_skip_in_iterations", "24"}, {"inplace_update_support", "true"}, {"report_bg_io_stats", "true"}, {"compaction_measure_io_stats", "false"}, {"inplace_update_num_locks", "25"}, {"memtable_prefix_bloom_size_ratio", "0.26"}, {"memtable_huge_page_size", "28"}, {"bloom_locality", "29"}, {"max_successive_merges", "30"}, {"min_partial_merge_operands", "31"}, {"prefix_extractor", "fixed:31"}, {"optimize_filters_for_hits", "true"}, }; std::unordered_map db_options_map = { {"create_if_missing", "false"}, {"create_missing_column_families", "true"}, {"error_if_exists", "false"}, {"paranoid_checks", "true"}, {"max_open_files", "32"}, {"max_total_wal_size", "33"}, {"use_fsync", "true"}, {"db_log_dir", "/db_log_dir"}, {"wal_dir", "/wal_dir"}, {"delete_obsolete_files_period_micros", "34"}, {"max_background_compactions", "35"}, {"max_background_flushes", "36"}, {"max_log_file_size", "37"}, {"log_file_time_to_roll", "38"}, {"keep_log_file_num", "39"}, {"recycle_log_file_num", "5"}, {"max_manifest_file_size", "40"}, {"table_cache_numshardbits", "41"}, {"WAL_ttl_seconds", "43"}, {"WAL_size_limit_MB", "44"}, {"manifest_preallocation_size", "45"}, {"allow_mmap_reads", "true"}, {"allow_mmap_writes", "false"}, {"use_direct_reads", "false"}, {"use_direct_io_for_flush_and_compaction", "false"}, {"is_fd_close_on_exec", "true"}, {"skip_log_error_on_recovery", "false"}, {"stats_dump_period_sec", "46"}, {"advise_random_on_open", "true"}, {"use_adaptive_mutex", "false"}, {"new_table_reader_for_compaction_inputs", "true"}, {"compaction_readahead_size", "100"}, {"random_access_max_buffer_size", "3145728"}, {"writable_file_max_buffer_size", "314159"}, {"bytes_per_sync", "47"}, {"wal_bytes_per_sync", "48"}, }; ColumnFamilyOptions base_cf_opt; ColumnFamilyOptions new_cf_opt; ASSERT_OK(GetColumnFamilyOptionsFromMap( base_cf_opt, cf_options_map, &new_cf_opt)); ASSERT_EQ(new_cf_opt.write_buffer_size, 1U); ASSERT_EQ(new_cf_opt.max_write_buffer_number, 2); ASSERT_EQ(new_cf_opt.min_write_buffer_number_to_merge, 3); ASSERT_EQ(new_cf_opt.max_write_buffer_number_to_maintain, 99); ASSERT_EQ(new_cf_opt.compression, kSnappyCompression); ASSERT_EQ(new_cf_opt.compression_per_level.size(), 9U); ASSERT_EQ(new_cf_opt.compression_per_level[0], kNoCompression); ASSERT_EQ(new_cf_opt.compression_per_level[1], kSnappyCompression); ASSERT_EQ(new_cf_opt.compression_per_level[2], kZlibCompression); ASSERT_EQ(new_cf_opt.compression_per_level[3], kBZip2Compression); ASSERT_EQ(new_cf_opt.compression_per_level[4], kLZ4Compression); ASSERT_EQ(new_cf_opt.compression_per_level[5], kLZ4HCCompression); ASSERT_EQ(new_cf_opt.compression_per_level[6], kXpressCompression); ASSERT_EQ(new_cf_opt.compression_per_level[7], kZSTD); ASSERT_EQ(new_cf_opt.compression_per_level[8], kZSTDNotFinalCompression); ASSERT_EQ(new_cf_opt.compression_opts.window_bits, 4); ASSERT_EQ(new_cf_opt.compression_opts.level, 5); ASSERT_EQ(new_cf_opt.compression_opts.strategy, 6); ASSERT_EQ(new_cf_opt.compression_opts.max_dict_bytes, 7); ASSERT_EQ(new_cf_opt.compression_opts.zstd_max_train_bytes, 8); ASSERT_EQ(new_cf_opt.compression_opts.enabled, true); ASSERT_EQ(new_cf_opt.bottommost_compression, kLZ4Compression); ASSERT_EQ(new_cf_opt.bottommost_compression_opts.window_bits, 5); ASSERT_EQ(new_cf_opt.bottommost_compression_opts.level, 6); ASSERT_EQ(new_cf_opt.bottommost_compression_opts.strategy, 7); ASSERT_EQ(new_cf_opt.bottommost_compression_opts.max_dict_bytes, 8); ASSERT_EQ(new_cf_opt.bottommost_compression_opts.zstd_max_train_bytes, 9); ASSERT_EQ(new_cf_opt.bottommost_compression_opts.enabled, true); ASSERT_EQ(new_cf_opt.num_levels, 8); ASSERT_EQ(new_cf_opt.level0_file_num_compaction_trigger, 8); ASSERT_EQ(new_cf_opt.level0_slowdown_writes_trigger, 9); ASSERT_EQ(new_cf_opt.level0_stop_writes_trigger, 10); ASSERT_EQ(new_cf_opt.target_file_size_base, static_cast(12)); ASSERT_EQ(new_cf_opt.target_file_size_multiplier, 13); ASSERT_EQ(new_cf_opt.max_bytes_for_level_base, 14U); ASSERT_EQ(new_cf_opt.level_compaction_dynamic_level_bytes, true); ASSERT_EQ(new_cf_opt.max_bytes_for_level_multiplier, 15.0); ASSERT_EQ(new_cf_opt.max_bytes_for_level_multiplier_additional.size(), 3U); ASSERT_EQ(new_cf_opt.max_bytes_for_level_multiplier_additional[0], 16); ASSERT_EQ(new_cf_opt.max_bytes_for_level_multiplier_additional[1], 17); ASSERT_EQ(new_cf_opt.max_bytes_for_level_multiplier_additional[2], 18); ASSERT_EQ(new_cf_opt.max_compaction_bytes, 21); ASSERT_EQ(new_cf_opt.hard_pending_compaction_bytes_limit, 211); ASSERT_EQ(new_cf_opt.arena_block_size, 22U); ASSERT_EQ(new_cf_opt.disable_auto_compactions, true); ASSERT_EQ(new_cf_opt.compaction_style, kCompactionStyleLevel); ASSERT_EQ(new_cf_opt.compaction_pri, kOldestSmallestSeqFirst); ASSERT_EQ(new_cf_opt.compaction_options_fifo.max_table_files_size, static_cast(23)); ASSERT_EQ(new_cf_opt.max_sequential_skip_in_iterations, static_cast(24)); ASSERT_EQ(new_cf_opt.inplace_update_support, true); ASSERT_EQ(new_cf_opt.inplace_update_num_locks, 25U); ASSERT_EQ(new_cf_opt.memtable_prefix_bloom_size_ratio, 0.26); ASSERT_EQ(new_cf_opt.memtable_huge_page_size, 28U); ASSERT_EQ(new_cf_opt.bloom_locality, 29U); ASSERT_EQ(new_cf_opt.max_successive_merges, 30U); ASSERT_TRUE(new_cf_opt.prefix_extractor != nullptr); ASSERT_EQ(new_cf_opt.optimize_filters_for_hits, true); ASSERT_EQ(std::string(new_cf_opt.prefix_extractor->Name()), "rocksdb.FixedPrefix.31"); cf_options_map["write_buffer_size"] = "hello"; ASSERT_NOK(GetColumnFamilyOptionsFromMap( base_cf_opt, cf_options_map, &new_cf_opt)); ASSERT_OK(RocksDBOptionsParser::VerifyCFOptions(base_cf_opt, new_cf_opt)); cf_options_map["write_buffer_size"] = "1"; ASSERT_OK(GetColumnFamilyOptionsFromMap( base_cf_opt, cf_options_map, &new_cf_opt)); cf_options_map["unknown_option"] = "1"; ASSERT_NOK(GetColumnFamilyOptionsFromMap( base_cf_opt, cf_options_map, &new_cf_opt)); ASSERT_OK(RocksDBOptionsParser::VerifyCFOptions(base_cf_opt, new_cf_opt)); ASSERT_OK(GetColumnFamilyOptionsFromMap(base_cf_opt, cf_options_map, &new_cf_opt, false, /* input_strings_escaped */ true /* ignore_unknown_options */)); ASSERT_OK(RocksDBOptionsParser::VerifyCFOptions( base_cf_opt, new_cf_opt, nullptr, /* new_opt_map */ kSanityLevelLooselyCompatible /* from CheckOptionsCompatibility*/)); ASSERT_NOK(RocksDBOptionsParser::VerifyCFOptions( base_cf_opt, new_cf_opt, nullptr, /* new_opt_map */ kSanityLevelExactMatch /* default for VerifyCFOptions */)); DBOptions base_db_opt; DBOptions new_db_opt; ASSERT_OK(GetDBOptionsFromMap(base_db_opt, db_options_map, &new_db_opt)); ASSERT_EQ(new_db_opt.create_if_missing, false); ASSERT_EQ(new_db_opt.create_missing_column_families, true); ASSERT_EQ(new_db_opt.error_if_exists, false); ASSERT_EQ(new_db_opt.paranoid_checks, true); ASSERT_EQ(new_db_opt.max_open_files, 32); ASSERT_EQ(new_db_opt.max_total_wal_size, static_cast(33)); ASSERT_EQ(new_db_opt.use_fsync, true); ASSERT_EQ(new_db_opt.db_log_dir, "/db_log_dir"); ASSERT_EQ(new_db_opt.wal_dir, "/wal_dir"); ASSERT_EQ(new_db_opt.delete_obsolete_files_period_micros, static_cast(34)); ASSERT_EQ(new_db_opt.max_background_compactions, 35); ASSERT_EQ(new_db_opt.max_background_flushes, 36); ASSERT_EQ(new_db_opt.max_log_file_size, 37U); ASSERT_EQ(new_db_opt.log_file_time_to_roll, 38U); ASSERT_EQ(new_db_opt.keep_log_file_num, 39U); ASSERT_EQ(new_db_opt.recycle_log_file_num, 5U); ASSERT_EQ(new_db_opt.max_manifest_file_size, static_cast(40)); ASSERT_EQ(new_db_opt.table_cache_numshardbits, 41); ASSERT_EQ(new_db_opt.WAL_ttl_seconds, static_cast(43)); ASSERT_EQ(new_db_opt.WAL_size_limit_MB, static_cast(44)); ASSERT_EQ(new_db_opt.manifest_preallocation_size, 45U); ASSERT_EQ(new_db_opt.allow_mmap_reads, true); ASSERT_EQ(new_db_opt.allow_mmap_writes, false); ASSERT_EQ(new_db_opt.use_direct_reads, false); ASSERT_EQ(new_db_opt.use_direct_io_for_flush_and_compaction, false); ASSERT_EQ(new_db_opt.is_fd_close_on_exec, true); ASSERT_EQ(new_db_opt.skip_log_error_on_recovery, false); ASSERT_EQ(new_db_opt.stats_dump_period_sec, 46U); ASSERT_EQ(new_db_opt.advise_random_on_open, true); ASSERT_EQ(new_db_opt.use_adaptive_mutex, false); ASSERT_EQ(new_db_opt.new_table_reader_for_compaction_inputs, true); ASSERT_EQ(new_db_opt.compaction_readahead_size, 100); ASSERT_EQ(new_db_opt.random_access_max_buffer_size, 3145728); ASSERT_EQ(new_db_opt.writable_file_max_buffer_size, 314159); ASSERT_EQ(new_db_opt.bytes_per_sync, static_cast(47)); ASSERT_EQ(new_db_opt.wal_bytes_per_sync, static_cast(48)); db_options_map["max_open_files"] = "hello"; ASSERT_NOK(GetDBOptionsFromMap(base_db_opt, db_options_map, &new_db_opt)); ASSERT_OK(RocksDBOptionsParser::VerifyDBOptions(base_db_opt, new_db_opt)); ASSERT_OK(RocksDBOptionsParser::VerifyDBOptions( base_db_opt, new_db_opt, nullptr, /* new_opt_map */ kSanityLevelLooselyCompatible /* from CheckOptionsCompatibility */)); // unknow options should fail parsing without ignore_unknown_options = true db_options_map["unknown_db_option"] = "1"; ASSERT_NOK(GetDBOptionsFromMap(base_db_opt, db_options_map, &new_db_opt)); ASSERT_OK(RocksDBOptionsParser::VerifyDBOptions(base_db_opt, new_db_opt)); ASSERT_OK(GetDBOptionsFromMap(base_db_opt, db_options_map, &new_db_opt, false, /* input_strings_escaped */ true /* ignore_unknown_options */)); ASSERT_OK(RocksDBOptionsParser::VerifyDBOptions( base_db_opt, new_db_opt, nullptr, /* new_opt_map */ kSanityLevelLooselyCompatible /* from CheckOptionsCompatibility */)); ASSERT_NOK(RocksDBOptionsParser::VerifyDBOptions( base_db_opt, new_db_opt, nullptr, /* new_opt_mat */ kSanityLevelExactMatch /* default for VerifyDBOptions */)); } #endif // !ROCKSDB_LITE #ifndef ROCKSDB_LITE // GetColumnFamilyOptionsFromString is not supported in // ROCKSDB_LITE TEST_F(OptionsTest, GetColumnFamilyOptionsFromStringTest) { ColumnFamilyOptions base_cf_opt; ColumnFamilyOptions new_cf_opt; base_cf_opt.table_factory.reset(); ASSERT_OK(GetColumnFamilyOptionsFromString(base_cf_opt, "", &new_cf_opt)); ASSERT_OK(GetColumnFamilyOptionsFromString(base_cf_opt, "write_buffer_size=5", &new_cf_opt)); ASSERT_EQ(new_cf_opt.write_buffer_size, 5U); ASSERT_TRUE(new_cf_opt.table_factory == nullptr); ASSERT_OK(GetColumnFamilyOptionsFromString(base_cf_opt, "write_buffer_size=6;", &new_cf_opt)); ASSERT_EQ(new_cf_opt.write_buffer_size, 6U); ASSERT_OK(GetColumnFamilyOptionsFromString(base_cf_opt, " write_buffer_size = 7 ", &new_cf_opt)); ASSERT_EQ(new_cf_opt.write_buffer_size, 7U); ASSERT_OK(GetColumnFamilyOptionsFromString(base_cf_opt, " write_buffer_size = 8 ; ", &new_cf_opt)); ASSERT_EQ(new_cf_opt.write_buffer_size, 8U); ASSERT_OK(GetColumnFamilyOptionsFromString(base_cf_opt, "write_buffer_size=9;max_write_buffer_number=10", &new_cf_opt)); ASSERT_EQ(new_cf_opt.write_buffer_size, 9U); ASSERT_EQ(new_cf_opt.max_write_buffer_number, 10); ASSERT_OK(GetColumnFamilyOptionsFromString(base_cf_opt, "write_buffer_size=11; max_write_buffer_number = 12 ;", &new_cf_opt)); ASSERT_EQ(new_cf_opt.write_buffer_size, 11U); ASSERT_EQ(new_cf_opt.max_write_buffer_number, 12); // Wrong name "max_write_buffer_number_" ASSERT_NOK(GetColumnFamilyOptionsFromString(base_cf_opt, "write_buffer_size=13;max_write_buffer_number_=14;", &new_cf_opt)); ASSERT_OK(RocksDBOptionsParser::VerifyCFOptions(base_cf_opt, new_cf_opt)); // Wrong key/value pair ASSERT_NOK(GetColumnFamilyOptionsFromString(base_cf_opt, "write_buffer_size=13;max_write_buffer_number;", &new_cf_opt)); ASSERT_OK(RocksDBOptionsParser::VerifyCFOptions(base_cf_opt, new_cf_opt)); // Error Paring value ASSERT_NOK(GetColumnFamilyOptionsFromString(base_cf_opt, "write_buffer_size=13;max_write_buffer_number=;", &new_cf_opt)); ASSERT_OK(RocksDBOptionsParser::VerifyCFOptions(base_cf_opt, new_cf_opt)); // Missing option name ASSERT_NOK(GetColumnFamilyOptionsFromString(base_cf_opt, "write_buffer_size=13; =100;", &new_cf_opt)); ASSERT_OK(RocksDBOptionsParser::VerifyCFOptions(base_cf_opt, new_cf_opt)); const int64_t kilo = 1024UL; const int64_t mega = 1024 * kilo; const int64_t giga = 1024 * mega; const int64_t tera = 1024 * giga; // Units (k) ASSERT_OK(GetColumnFamilyOptionsFromString( base_cf_opt, "max_write_buffer_number=15K", &new_cf_opt)); ASSERT_EQ(new_cf_opt.max_write_buffer_number, 15 * kilo); // Units (m) ASSERT_OK(GetColumnFamilyOptionsFromString(base_cf_opt, "max_write_buffer_number=16m;inplace_update_num_locks=17M", &new_cf_opt)); ASSERT_EQ(new_cf_opt.max_write_buffer_number, 16 * mega); ASSERT_EQ(new_cf_opt.inplace_update_num_locks, 17 * mega); // Units (g) ASSERT_OK(GetColumnFamilyOptionsFromString( base_cf_opt, "write_buffer_size=18g;prefix_extractor=capped:8;" "arena_block_size=19G", &new_cf_opt)); ASSERT_EQ(new_cf_opt.write_buffer_size, 18 * giga); ASSERT_EQ(new_cf_opt.arena_block_size, 19 * giga); ASSERT_TRUE(new_cf_opt.prefix_extractor.get() != nullptr); std::string prefix_name(new_cf_opt.prefix_extractor->Name()); ASSERT_EQ(prefix_name, "rocksdb.CappedPrefix.8"); // Units (t) ASSERT_OK(GetColumnFamilyOptionsFromString(base_cf_opt, "write_buffer_size=20t;arena_block_size=21T", &new_cf_opt)); ASSERT_EQ(new_cf_opt.write_buffer_size, 20 * tera); ASSERT_EQ(new_cf_opt.arena_block_size, 21 * tera); // Nested block based table options // Empty ASSERT_OK(GetColumnFamilyOptionsFromString(base_cf_opt, "write_buffer_size=10;max_write_buffer_number=16;" "block_based_table_factory={};arena_block_size=1024", &new_cf_opt)); ASSERT_TRUE(new_cf_opt.table_factory != nullptr); // Non-empty ASSERT_OK(GetColumnFamilyOptionsFromString(base_cf_opt, "write_buffer_size=10;max_write_buffer_number=16;" "block_based_table_factory={block_cache=1M;block_size=4;};" "arena_block_size=1024", &new_cf_opt)); ASSERT_TRUE(new_cf_opt.table_factory != nullptr); // Last one ASSERT_OK(GetColumnFamilyOptionsFromString(base_cf_opt, "write_buffer_size=10;max_write_buffer_number=16;" "block_based_table_factory={block_cache=1M;block_size=4;}", &new_cf_opt)); ASSERT_TRUE(new_cf_opt.table_factory != nullptr); // Mismatch curly braces ASSERT_NOK(GetColumnFamilyOptionsFromString(base_cf_opt, "write_buffer_size=10;max_write_buffer_number=16;" "block_based_table_factory={{{block_size=4;};" "arena_block_size=1024", &new_cf_opt)); ASSERT_OK(RocksDBOptionsParser::VerifyCFOptions(base_cf_opt, new_cf_opt)); // Unexpected chars after closing curly brace ASSERT_NOK(GetColumnFamilyOptionsFromString(base_cf_opt, "write_buffer_size=10;max_write_buffer_number=16;" "block_based_table_factory={block_size=4;}};" "arena_block_size=1024", &new_cf_opt)); ASSERT_OK(RocksDBOptionsParser::VerifyCFOptions(base_cf_opt, new_cf_opt)); ASSERT_NOK(GetColumnFamilyOptionsFromString(base_cf_opt, "write_buffer_size=10;max_write_buffer_number=16;" "block_based_table_factory={block_size=4;}xdfa;" "arena_block_size=1024", &new_cf_opt)); ASSERT_OK(RocksDBOptionsParser::VerifyCFOptions(base_cf_opt, new_cf_opt)); ASSERT_NOK(GetColumnFamilyOptionsFromString(base_cf_opt, "write_buffer_size=10;max_write_buffer_number=16;" "block_based_table_factory={block_size=4;}xdfa", &new_cf_opt)); ASSERT_OK(RocksDBOptionsParser::VerifyCFOptions(base_cf_opt, new_cf_opt)); // Invalid block based table option ASSERT_NOK(GetColumnFamilyOptionsFromString(base_cf_opt, "write_buffer_size=10;max_write_buffer_number=16;" "block_based_table_factory={xx_block_size=4;}", &new_cf_opt)); ASSERT_OK(RocksDBOptionsParser::VerifyCFOptions(base_cf_opt, new_cf_opt)); ASSERT_OK(GetColumnFamilyOptionsFromString(base_cf_opt, "optimize_filters_for_hits=true", &new_cf_opt)); ASSERT_OK(GetColumnFamilyOptionsFromString(base_cf_opt, "optimize_filters_for_hits=false", &new_cf_opt)); ASSERT_NOK(GetColumnFamilyOptionsFromString(base_cf_opt, "optimize_filters_for_hits=junk", &new_cf_opt)); ASSERT_OK(RocksDBOptionsParser::VerifyCFOptions(base_cf_opt, new_cf_opt)); // Nested plain table options // Empty ASSERT_OK(GetColumnFamilyOptionsFromString(base_cf_opt, "write_buffer_size=10;max_write_buffer_number=16;" "plain_table_factory={};arena_block_size=1024", &new_cf_opt)); ASSERT_TRUE(new_cf_opt.table_factory != nullptr); ASSERT_EQ(std::string(new_cf_opt.table_factory->Name()), "PlainTable"); // Non-empty ASSERT_OK(GetColumnFamilyOptionsFromString(base_cf_opt, "write_buffer_size=10;max_write_buffer_number=16;" "plain_table_factory={user_key_len=66;bloom_bits_per_key=20;};" "arena_block_size=1024", &new_cf_opt)); ASSERT_TRUE(new_cf_opt.table_factory != nullptr); ASSERT_EQ(std::string(new_cf_opt.table_factory->Name()), "PlainTable"); // memtable factory ASSERT_OK(GetColumnFamilyOptionsFromString(base_cf_opt, "write_buffer_size=10;max_write_buffer_number=16;" "memtable=skip_list:10;arena_block_size=1024", &new_cf_opt)); ASSERT_TRUE(new_cf_opt.memtable_factory != nullptr); ASSERT_EQ(std::string(new_cf_opt.memtable_factory->Name()), "SkipListFactory"); } #endif // !ROCKSDB_LITE #ifndef ROCKSDB_LITE // GetBlockBasedTableOptionsFromString is not supported TEST_F(OptionsTest, GetBlockBasedTableOptionsFromString) { BlockBasedTableOptions table_opt; BlockBasedTableOptions new_opt; // make sure default values are overwritten by something else ASSERT_OK(GetBlockBasedTableOptionsFromString(table_opt, "cache_index_and_filter_blocks=1;index_type=kHashSearch;" "checksum=kxxHash;hash_index_allow_collision=1;no_block_cache=1;" "block_cache=1M;block_cache_compressed=1k;block_size=1024;" "block_size_deviation=8;block_restart_interval=4;" "filter_policy=bloomfilter:4:true;whole_key_filtering=1;", &new_opt)); ASSERT_TRUE(new_opt.cache_index_and_filter_blocks); ASSERT_EQ(new_opt.index_type, BlockBasedTableOptions::kHashSearch); ASSERT_EQ(new_opt.checksum, ChecksumType::kxxHash); ASSERT_TRUE(new_opt.hash_index_allow_collision); ASSERT_TRUE(new_opt.no_block_cache); ASSERT_TRUE(new_opt.block_cache != nullptr); ASSERT_EQ(new_opt.block_cache->GetCapacity(), 1024UL*1024UL); ASSERT_TRUE(new_opt.block_cache_compressed != nullptr); ASSERT_EQ(new_opt.block_cache_compressed->GetCapacity(), 1024UL); ASSERT_EQ(new_opt.block_size, 1024UL); ASSERT_EQ(new_opt.block_size_deviation, 8); ASSERT_EQ(new_opt.block_restart_interval, 4); ASSERT_TRUE(new_opt.filter_policy != nullptr); // unknown option ASSERT_NOK(GetBlockBasedTableOptionsFromString(table_opt, "cache_index_and_filter_blocks=1;index_type=kBinarySearch;" "bad_option=1", &new_opt)); ASSERT_EQ(table_opt.cache_index_and_filter_blocks, new_opt.cache_index_and_filter_blocks); ASSERT_EQ(table_opt.index_type, new_opt.index_type); // unrecognized index type ASSERT_NOK(GetBlockBasedTableOptionsFromString(table_opt, "cache_index_and_filter_blocks=1;index_type=kBinarySearchXX", &new_opt)); ASSERT_EQ(table_opt.cache_index_and_filter_blocks, new_opt.cache_index_and_filter_blocks); ASSERT_EQ(table_opt.index_type, new_opt.index_type); // unrecognized checksum type ASSERT_NOK(GetBlockBasedTableOptionsFromString(table_opt, "cache_index_and_filter_blocks=1;checksum=kxxHashXX", &new_opt)); ASSERT_EQ(table_opt.cache_index_and_filter_blocks, new_opt.cache_index_and_filter_blocks); ASSERT_EQ(table_opt.index_type, new_opt.index_type); // unrecognized filter policy name ASSERT_NOK(GetBlockBasedTableOptionsFromString(table_opt, "cache_index_and_filter_blocks=1;" "filter_policy=bloomfilterxx:4:true", &new_opt)); ASSERT_EQ(table_opt.cache_index_and_filter_blocks, new_opt.cache_index_and_filter_blocks); ASSERT_EQ(table_opt.filter_policy, new_opt.filter_policy); // unrecognized filter policy config ASSERT_NOK(GetBlockBasedTableOptionsFromString(table_opt, "cache_index_and_filter_blocks=1;" "filter_policy=bloomfilter:4", &new_opt)); ASSERT_EQ(table_opt.cache_index_and_filter_blocks, new_opt.cache_index_and_filter_blocks); ASSERT_EQ(table_opt.filter_policy, new_opt.filter_policy); // Check block cache options are overwritten when specified // in new format as a struct. ASSERT_OK(GetBlockBasedTableOptionsFromString(table_opt, "block_cache={capacity=1M;num_shard_bits=4;" "strict_capacity_limit=true;high_pri_pool_ratio=0.5;};" "block_cache_compressed={capacity=1M;num_shard_bits=4;" "strict_capacity_limit=true;high_pri_pool_ratio=0.5;}", &new_opt)); ASSERT_TRUE(new_opt.block_cache != nullptr); ASSERT_EQ(new_opt.block_cache->GetCapacity(), 1024UL*1024UL); ASSERT_EQ(std::dynamic_pointer_cast( new_opt.block_cache)->GetNumShardBits(), 4); ASSERT_EQ(new_opt.block_cache->HasStrictCapacityLimit(), true); ASSERT_EQ(std::dynamic_pointer_cast( new_opt.block_cache)->GetHighPriPoolRatio(), 0.5); ASSERT_TRUE(new_opt.block_cache_compressed != nullptr); ASSERT_EQ(new_opt.block_cache_compressed->GetCapacity(), 1024UL*1024UL); ASSERT_EQ(std::dynamic_pointer_cast( new_opt.block_cache_compressed)->GetNumShardBits(), 4); ASSERT_EQ(new_opt.block_cache_compressed->HasStrictCapacityLimit(), true); ASSERT_EQ(std::dynamic_pointer_cast( new_opt.block_cache_compressed)->GetHighPriPoolRatio(), 0.5); // Set only block cache capacity. Check other values are // reset to default values. ASSERT_OK(GetBlockBasedTableOptionsFromString(table_opt, "block_cache={capacity=2M};" "block_cache_compressed={capacity=2M}", &new_opt)); ASSERT_TRUE(new_opt.block_cache != nullptr); ASSERT_EQ(new_opt.block_cache->GetCapacity(), 2*1024UL*1024UL); // Default values ASSERT_EQ(std::dynamic_pointer_cast( new_opt.block_cache)->GetNumShardBits(), GetDefaultCacheShardBits(new_opt.block_cache->GetCapacity())); ASSERT_EQ(new_opt.block_cache->HasStrictCapacityLimit(), false); ASSERT_EQ(std::dynamic_pointer_cast( new_opt.block_cache)->GetHighPriPoolRatio(), 0.0); ASSERT_TRUE(new_opt.block_cache_compressed != nullptr); ASSERT_EQ(new_opt.block_cache_compressed->GetCapacity(), 2*1024UL*1024UL); // Default values ASSERT_EQ(std::dynamic_pointer_cast( new_opt.block_cache_compressed)->GetNumShardBits(), GetDefaultCacheShardBits( new_opt.block_cache_compressed->GetCapacity())); ASSERT_EQ(new_opt.block_cache_compressed->HasStrictCapacityLimit(), false); ASSERT_EQ(std::dynamic_pointer_cast( new_opt.block_cache_compressed)->GetHighPriPoolRatio(), 0.0); // Set couple of block cache options. ASSERT_OK(GetBlockBasedTableOptionsFromString(table_opt, "block_cache={num_shard_bits=5;high_pri_pool_ratio=0.5;};" "block_cache_compressed={num_shard_bits=5;" "high_pri_pool_ratio=0.5;}", &new_opt)); ASSERT_EQ(new_opt.block_cache->GetCapacity(), 0); ASSERT_EQ(std::dynamic_pointer_cast( new_opt.block_cache)->GetNumShardBits(), 5); ASSERT_EQ(new_opt.block_cache->HasStrictCapacityLimit(), false); ASSERT_EQ(std::dynamic_pointer_cast( new_opt.block_cache)->GetHighPriPoolRatio(), 0.5); ASSERT_TRUE(new_opt.block_cache_compressed != nullptr); ASSERT_EQ(new_opt.block_cache_compressed->GetCapacity(), 0); ASSERT_EQ(std::dynamic_pointer_cast( new_opt.block_cache_compressed)->GetNumShardBits(), 5); ASSERT_EQ(new_opt.block_cache_compressed->HasStrictCapacityLimit(), false); ASSERT_EQ(std::dynamic_pointer_cast( new_opt.block_cache_compressed)->GetHighPriPoolRatio(), 0.5); // Set couple of block cache options. ASSERT_OK(GetBlockBasedTableOptionsFromString(table_opt, "block_cache={capacity=1M;num_shard_bits=4;" "strict_capacity_limit=true;};" "block_cache_compressed={capacity=1M;num_shard_bits=4;" "strict_capacity_limit=true;}", &new_opt)); ASSERT_TRUE(new_opt.block_cache != nullptr); ASSERT_EQ(new_opt.block_cache->GetCapacity(), 1024UL*1024UL); ASSERT_EQ(std::dynamic_pointer_cast( new_opt.block_cache)->GetNumShardBits(), 4); ASSERT_EQ(new_opt.block_cache->HasStrictCapacityLimit(), true); ASSERT_EQ(std::dynamic_pointer_cast( new_opt.block_cache)->GetHighPriPoolRatio(), 0.0); ASSERT_TRUE(new_opt.block_cache_compressed != nullptr); ASSERT_EQ(new_opt.block_cache_compressed->GetCapacity(), 1024UL*1024UL); ASSERT_EQ(std::dynamic_pointer_cast( new_opt.block_cache_compressed)->GetNumShardBits(), 4); ASSERT_EQ(new_opt.block_cache_compressed->HasStrictCapacityLimit(), true); ASSERT_EQ(std::dynamic_pointer_cast( new_opt.block_cache_compressed)->GetHighPriPoolRatio(), 0.0); } #endif // !ROCKSDB_LITE #ifndef ROCKSDB_LITE // GetPlainTableOptionsFromString is not supported TEST_F(OptionsTest, GetPlainTableOptionsFromString) { PlainTableOptions table_opt; PlainTableOptions new_opt; // make sure default values are overwritten by something else ASSERT_OK(GetPlainTableOptionsFromString(table_opt, "user_key_len=66;bloom_bits_per_key=20;hash_table_ratio=0.5;" "index_sparseness=8;huge_page_tlb_size=4;encoding_type=kPrefix;" "full_scan_mode=true;store_index_in_file=true", &new_opt)); ASSERT_EQ(new_opt.user_key_len, 66); ASSERT_EQ(new_opt.bloom_bits_per_key, 20); ASSERT_EQ(new_opt.hash_table_ratio, 0.5); ASSERT_EQ(new_opt.index_sparseness, 8); ASSERT_EQ(new_opt.huge_page_tlb_size, 4); ASSERT_EQ(new_opt.encoding_type, EncodingType::kPrefix); ASSERT_TRUE(new_opt.full_scan_mode); ASSERT_TRUE(new_opt.store_index_in_file); // unknown option ASSERT_NOK(GetPlainTableOptionsFromString(table_opt, "user_key_len=66;bloom_bits_per_key=20;hash_table_ratio=0.5;" "bad_option=1", &new_opt)); // unrecognized EncodingType ASSERT_NOK(GetPlainTableOptionsFromString(table_opt, "user_key_len=66;bloom_bits_per_key=20;hash_table_ratio=0.5;" "encoding_type=kPrefixXX", &new_opt)); } #endif // !ROCKSDB_LITE #ifndef ROCKSDB_LITE // GetMemTableRepFactoryFromString is not supported TEST_F(OptionsTest, GetMemTableRepFactoryFromString) { std::unique_ptr new_mem_factory = nullptr; ASSERT_OK(GetMemTableRepFactoryFromString("skip_list", &new_mem_factory)); ASSERT_OK(GetMemTableRepFactoryFromString("skip_list:16", &new_mem_factory)); ASSERT_EQ(std::string(new_mem_factory->Name()), "SkipListFactory"); ASSERT_NOK(GetMemTableRepFactoryFromString("skip_list:16:invalid_opt", &new_mem_factory)); ASSERT_OK(GetMemTableRepFactoryFromString("prefix_hash", &new_mem_factory)); ASSERT_OK(GetMemTableRepFactoryFromString("prefix_hash:1000", &new_mem_factory)); ASSERT_EQ(std::string(new_mem_factory->Name()), "HashSkipListRepFactory"); ASSERT_NOK(GetMemTableRepFactoryFromString("prefix_hash:1000:invalid_opt", &new_mem_factory)); ASSERT_OK(GetMemTableRepFactoryFromString("hash_linkedlist", &new_mem_factory)); ASSERT_OK(GetMemTableRepFactoryFromString("hash_linkedlist:1000", &new_mem_factory)); ASSERT_EQ(std::string(new_mem_factory->Name()), "HashLinkListRepFactory"); ASSERT_NOK(GetMemTableRepFactoryFromString("hash_linkedlist:1000:invalid_opt", &new_mem_factory)); ASSERT_OK(GetMemTableRepFactoryFromString("vector", &new_mem_factory)); ASSERT_OK(GetMemTableRepFactoryFromString("vector:1024", &new_mem_factory)); ASSERT_EQ(std::string(new_mem_factory->Name()), "VectorRepFactory"); ASSERT_NOK(GetMemTableRepFactoryFromString("vector:1024:invalid_opt", &new_mem_factory)); ASSERT_NOK(GetMemTableRepFactoryFromString("cuckoo", &new_mem_factory)); ASSERT_OK(GetMemTableRepFactoryFromString("cuckoo:1024", &new_mem_factory)); ASSERT_EQ(std::string(new_mem_factory->Name()), "HashCuckooRepFactory"); ASSERT_NOK(GetMemTableRepFactoryFromString("bad_factory", &new_mem_factory)); } #endif // !ROCKSDB_LITE #ifndef ROCKSDB_LITE // GetOptionsFromString is not supported in RocksDB Lite TEST_F(OptionsTest, GetOptionsFromStringTest) { Options base_options, new_options; base_options.write_buffer_size = 20; base_options.min_write_buffer_number_to_merge = 15; BlockBasedTableOptions block_based_table_options; block_based_table_options.cache_index_and_filter_blocks = true; base_options.table_factory.reset( NewBlockBasedTableFactory(block_based_table_options)); ASSERT_OK(GetOptionsFromString( base_options, "write_buffer_size=10;max_write_buffer_number=16;" "block_based_table_factory={block_cache=1M;block_size=4;};" "compression_opts=4:5:6;create_if_missing=true;max_open_files=1;" "bottommost_compression_opts=5:6:7;create_if_missing=true;max_open_files=" "1;" "rate_limiter_bytes_per_sec=1024", &new_options)); ASSERT_EQ(new_options.compression_opts.window_bits, 4); ASSERT_EQ(new_options.compression_opts.level, 5); ASSERT_EQ(new_options.compression_opts.strategy, 6); ASSERT_EQ(new_options.compression_opts.max_dict_bytes, 0); ASSERT_EQ(new_options.compression_opts.zstd_max_train_bytes, 0); ASSERT_EQ(new_options.compression_opts.enabled, false); ASSERT_EQ(new_options.bottommost_compression, kDisableCompressionOption); ASSERT_EQ(new_options.bottommost_compression_opts.window_bits, 5); ASSERT_EQ(new_options.bottommost_compression_opts.level, 6); ASSERT_EQ(new_options.bottommost_compression_opts.strategy, 7); ASSERT_EQ(new_options.bottommost_compression_opts.max_dict_bytes, 0); ASSERT_EQ(new_options.bottommost_compression_opts.zstd_max_train_bytes, 0); ASSERT_EQ(new_options.bottommost_compression_opts.enabled, false); ASSERT_EQ(new_options.write_buffer_size, 10U); ASSERT_EQ(new_options.max_write_buffer_number, 16); BlockBasedTableOptions new_block_based_table_options = dynamic_cast(new_options.table_factory.get()) ->table_options(); ASSERT_EQ(new_block_based_table_options.block_cache->GetCapacity(), 1U << 20); ASSERT_EQ(new_block_based_table_options.block_size, 4U); // don't overwrite block based table options ASSERT_TRUE(new_block_based_table_options.cache_index_and_filter_blocks); ASSERT_EQ(new_options.create_if_missing, true); ASSERT_EQ(new_options.max_open_files, 1); ASSERT_TRUE(new_options.rate_limiter.get() != nullptr); } TEST_F(OptionsTest, DBOptionsSerialization) { Options base_options, new_options; Random rnd(301); // Phase 1: Make big change in base_options test::RandomInitDBOptions(&base_options, &rnd); // Phase 2: obtain a string from base_option std::string base_options_file_content; ASSERT_OK(GetStringFromDBOptions(&base_options_file_content, base_options)); // Phase 3: Set new_options from the derived string and expect // new_options == base_options ASSERT_OK(GetDBOptionsFromString(DBOptions(), base_options_file_content, &new_options)); ASSERT_OK(RocksDBOptionsParser::VerifyDBOptions(base_options, new_options)); } TEST_F(OptionsTest, OptionsComposeDecompose) { // build an Options from DBOptions + CFOptions, then decompose it to verify // we get same constituent options. DBOptions base_db_opts; ColumnFamilyOptions base_cf_opts; Random rnd(301); test::RandomInitDBOptions(&base_db_opts, &rnd); test::RandomInitCFOptions(&base_cf_opts, &rnd); Options base_opts(base_db_opts, base_cf_opts); DBOptions new_db_opts(base_opts); ColumnFamilyOptions new_cf_opts(base_opts); ASSERT_OK(RocksDBOptionsParser::VerifyDBOptions(base_db_opts, new_db_opts)); ASSERT_OK(RocksDBOptionsParser::VerifyCFOptions(base_cf_opts, new_cf_opts)); delete new_cf_opts.compaction_filter; } TEST_F(OptionsTest, ColumnFamilyOptionsSerialization) { ColumnFamilyOptions base_opt, new_opt; Random rnd(302); // Phase 1: randomly assign base_opt // custom type options test::RandomInitCFOptions(&base_opt, &rnd); // Phase 2: obtain a string from base_opt std::string base_options_file_content; ASSERT_OK( GetStringFromColumnFamilyOptions(&base_options_file_content, base_opt)); // Phase 3: Set new_opt from the derived string and expect // new_opt == base_opt ASSERT_OK(GetColumnFamilyOptionsFromString( ColumnFamilyOptions(), base_options_file_content, &new_opt)); ASSERT_OK(RocksDBOptionsParser::VerifyCFOptions(base_opt, new_opt)); if (base_opt.compaction_filter) { delete base_opt.compaction_filter; } } #endif // !ROCKSDB_LITE Status StringToMap( const std::string& opts_str, std::unordered_map* opts_map); #ifndef ROCKSDB_LITE // StringToMap is not supported in ROCKSDB_LITE TEST_F(OptionsTest, StringToMapTest) { std::unordered_map opts_map; // Regular options ASSERT_OK(StringToMap("k1=v1;k2=v2;k3=v3", &opts_map)); ASSERT_EQ(opts_map["k1"], "v1"); ASSERT_EQ(opts_map["k2"], "v2"); ASSERT_EQ(opts_map["k3"], "v3"); // Value with '=' opts_map.clear(); ASSERT_OK(StringToMap("k1==v1;k2=v2=;", &opts_map)); ASSERT_EQ(opts_map["k1"], "=v1"); ASSERT_EQ(opts_map["k2"], "v2="); // Overwrriten option opts_map.clear(); ASSERT_OK(StringToMap("k1=v1;k1=v2;k3=v3", &opts_map)); ASSERT_EQ(opts_map["k1"], "v2"); ASSERT_EQ(opts_map["k3"], "v3"); // Empty value opts_map.clear(); ASSERT_OK(StringToMap("k1=v1;k2=;k3=v3;k4=", &opts_map)); ASSERT_EQ(opts_map["k1"], "v1"); ASSERT_TRUE(opts_map.find("k2") != opts_map.end()); ASSERT_EQ(opts_map["k2"], ""); ASSERT_EQ(opts_map["k3"], "v3"); ASSERT_TRUE(opts_map.find("k4") != opts_map.end()); ASSERT_EQ(opts_map["k4"], ""); opts_map.clear(); ASSERT_OK(StringToMap("k1=v1;k2=;k3=v3;k4= ", &opts_map)); ASSERT_EQ(opts_map["k1"], "v1"); ASSERT_TRUE(opts_map.find("k2") != opts_map.end()); ASSERT_EQ(opts_map["k2"], ""); ASSERT_EQ(opts_map["k3"], "v3"); ASSERT_TRUE(opts_map.find("k4") != opts_map.end()); ASSERT_EQ(opts_map["k4"], ""); opts_map.clear(); ASSERT_OK(StringToMap("k1=v1;k2=;k3=", &opts_map)); ASSERT_EQ(opts_map["k1"], "v1"); ASSERT_TRUE(opts_map.find("k2") != opts_map.end()); ASSERT_EQ(opts_map["k2"], ""); ASSERT_TRUE(opts_map.find("k3") != opts_map.end()); ASSERT_EQ(opts_map["k3"], ""); opts_map.clear(); ASSERT_OK(StringToMap("k1=v1;k2=;k3=;", &opts_map)); ASSERT_EQ(opts_map["k1"], "v1"); ASSERT_TRUE(opts_map.find("k2") != opts_map.end()); ASSERT_EQ(opts_map["k2"], ""); ASSERT_TRUE(opts_map.find("k3") != opts_map.end()); ASSERT_EQ(opts_map["k3"], ""); // Regular nested options opts_map.clear(); ASSERT_OK(StringToMap("k1=v1;k2={nk1=nv1;nk2=nv2};k3=v3", &opts_map)); ASSERT_EQ(opts_map["k1"], "v1"); ASSERT_EQ(opts_map["k2"], "nk1=nv1;nk2=nv2"); ASSERT_EQ(opts_map["k3"], "v3"); // Multi-level nested options opts_map.clear(); ASSERT_OK(StringToMap("k1=v1;k2={nk1=nv1;nk2={nnk1=nnk2}};" "k3={nk1={nnk1={nnnk1=nnnv1;nnnk2;nnnv2}}};k4=v4", &opts_map)); ASSERT_EQ(opts_map["k1"], "v1"); ASSERT_EQ(opts_map["k2"], "nk1=nv1;nk2={nnk1=nnk2}"); ASSERT_EQ(opts_map["k3"], "nk1={nnk1={nnnk1=nnnv1;nnnk2;nnnv2}}"); ASSERT_EQ(opts_map["k4"], "v4"); // Garbage inside curly braces opts_map.clear(); ASSERT_OK(StringToMap("k1=v1;k2={dfad=};k3={=};k4=v4", &opts_map)); ASSERT_EQ(opts_map["k1"], "v1"); ASSERT_EQ(opts_map["k2"], "dfad="); ASSERT_EQ(opts_map["k3"], "="); ASSERT_EQ(opts_map["k4"], "v4"); // Empty nested options opts_map.clear(); ASSERT_OK(StringToMap("k1=v1;k2={};", &opts_map)); ASSERT_EQ(opts_map["k1"], "v1"); ASSERT_EQ(opts_map["k2"], ""); opts_map.clear(); ASSERT_OK(StringToMap("k1=v1;k2={{{{}}}{}{}};", &opts_map)); ASSERT_EQ(opts_map["k1"], "v1"); ASSERT_EQ(opts_map["k2"], "{{{}}}{}{}"); // With random spaces opts_map.clear(); ASSERT_OK(StringToMap(" k1 = v1 ; k2= {nk1=nv1; nk2={nnk1=nnk2}} ; " "k3={ { } }; k4= v4 ", &opts_map)); ASSERT_EQ(opts_map["k1"], "v1"); ASSERT_EQ(opts_map["k2"], "nk1=nv1; nk2={nnk1=nnk2}"); ASSERT_EQ(opts_map["k3"], "{ }"); ASSERT_EQ(opts_map["k4"], "v4"); // Empty key ASSERT_NOK(StringToMap("k1=v1;k2=v2;=", &opts_map)); ASSERT_NOK(StringToMap("=v1;k2=v2", &opts_map)); ASSERT_NOK(StringToMap("k1=v1;k2v2;", &opts_map)); ASSERT_NOK(StringToMap("k1=v1;k2=v2;fadfa", &opts_map)); ASSERT_NOK(StringToMap("k1=v1;k2=v2;;", &opts_map)); // Mismatch curly braces ASSERT_NOK(StringToMap("k1=v1;k2={;k3=v3", &opts_map)); ASSERT_NOK(StringToMap("k1=v1;k2={{};k3=v3", &opts_map)); ASSERT_NOK(StringToMap("k1=v1;k2={}};k3=v3", &opts_map)); ASSERT_NOK(StringToMap("k1=v1;k2={{}{}}};k3=v3", &opts_map)); // However this is valid! opts_map.clear(); ASSERT_OK(StringToMap("k1=v1;k2=};k3=v3", &opts_map)); ASSERT_EQ(opts_map["k1"], "v1"); ASSERT_EQ(opts_map["k2"], "}"); ASSERT_EQ(opts_map["k3"], "v3"); // Invalid chars after closing curly brace ASSERT_NOK(StringToMap("k1=v1;k2={{}}{};k3=v3", &opts_map)); ASSERT_NOK(StringToMap("k1=v1;k2={{}}cfda;k3=v3", &opts_map)); ASSERT_NOK(StringToMap("k1=v1;k2={{}} cfda;k3=v3", &opts_map)); ASSERT_NOK(StringToMap("k1=v1;k2={{}} cfda", &opts_map)); ASSERT_NOK(StringToMap("k1=v1;k2={{}}{}", &opts_map)); ASSERT_NOK(StringToMap("k1=v1;k2={{dfdl}adfa}{}", &opts_map)); } #endif // ROCKSDB_LITE #ifndef ROCKSDB_LITE // StringToMap is not supported in ROCKSDB_LITE TEST_F(OptionsTest, StringToMapRandomTest) { std::unordered_map opts_map; // Make sure segfault is not hit by semi-random strings std::vector bases = { "a={aa={};tt={xxx={}}};c=defff", "a={aa={};tt={xxx={}}};c=defff;d={{}yxx{}3{xx}}", "abc={{}{}{}{{{}}}{{}{}{}{}{}{}{}"}; for (std::string base : bases) { for (int rand_seed = 301; rand_seed < 401; rand_seed++) { Random rnd(rand_seed); for (int attempt = 0; attempt < 10; attempt++) { std::string str = base; // Replace random position to space size_t pos = static_cast( rnd.Uniform(static_cast(base.size()))); str[pos] = ' '; Status s = StringToMap(str, &opts_map); ASSERT_TRUE(s.ok() || s.IsInvalidArgument()); opts_map.clear(); } } } // Random Construct a string std::vector chars = {'{', '}', ' ', '=', ';', 'c'}; for (int rand_seed = 301; rand_seed < 1301; rand_seed++) { Random rnd(rand_seed); int len = rnd.Uniform(30); std::string str = ""; for (int attempt = 0; attempt < len; attempt++) { // Add a random character size_t pos = static_cast( rnd.Uniform(static_cast(chars.size()))); str.append(1, chars[pos]); } Status s = StringToMap(str, &opts_map); ASSERT_TRUE(s.ok() || s.IsInvalidArgument()); s = StringToMap("name=" + str, &opts_map); ASSERT_TRUE(s.ok() || s.IsInvalidArgument()); opts_map.clear(); } } TEST_F(OptionsTest, GetStringFromCompressionType) { std::string res; ASSERT_OK(GetStringFromCompressionType(&res, kNoCompression)); ASSERT_EQ(res, "kNoCompression"); ASSERT_OK(GetStringFromCompressionType(&res, kSnappyCompression)); ASSERT_EQ(res, "kSnappyCompression"); ASSERT_OK(GetStringFromCompressionType(&res, kDisableCompressionOption)); ASSERT_EQ(res, "kDisableCompressionOption"); ASSERT_OK(GetStringFromCompressionType(&res, kLZ4Compression)); ASSERT_EQ(res, "kLZ4Compression"); ASSERT_OK(GetStringFromCompressionType(&res, kZlibCompression)); ASSERT_EQ(res, "kZlibCompression"); ASSERT_NOK( GetStringFromCompressionType(&res, static_cast(-10))); } #endif // !ROCKSDB_LITE TEST_F(OptionsTest, ConvertOptionsTest) { LevelDBOptions leveldb_opt; Options converted_opt = ConvertOptions(leveldb_opt); ASSERT_EQ(converted_opt.create_if_missing, leveldb_opt.create_if_missing); ASSERT_EQ(converted_opt.error_if_exists, leveldb_opt.error_if_exists); ASSERT_EQ(converted_opt.paranoid_checks, leveldb_opt.paranoid_checks); ASSERT_EQ(converted_opt.env, leveldb_opt.env); ASSERT_EQ(converted_opt.info_log.get(), leveldb_opt.info_log); ASSERT_EQ(converted_opt.write_buffer_size, leveldb_opt.write_buffer_size); ASSERT_EQ(converted_opt.max_open_files, leveldb_opt.max_open_files); ASSERT_EQ(converted_opt.compression, leveldb_opt.compression); std::shared_ptr tb_guard = converted_opt.table_factory; BlockBasedTableFactory* table_factory = dynamic_cast(converted_opt.table_factory.get()); ASSERT_TRUE(table_factory != nullptr); const BlockBasedTableOptions table_opt = table_factory->table_options(); ASSERT_EQ(table_opt.block_cache->GetCapacity(), 8UL << 20); ASSERT_EQ(table_opt.block_size, leveldb_opt.block_size); ASSERT_EQ(table_opt.block_restart_interval, leveldb_opt.block_restart_interval); ASSERT_EQ(table_opt.filter_policy.get(), leveldb_opt.filter_policy); } #ifndef ROCKSDB_LITE class OptionsParserTest : public testing::Test { public: OptionsParserTest() { env_.reset(new test::StringEnv(Env::Default())); } protected: std::unique_ptr env_; }; TEST_F(OptionsParserTest, Comment) { DBOptions db_opt; db_opt.max_open_files = 12345; db_opt.max_background_flushes = 301; db_opt.max_total_wal_size = 1024; ColumnFamilyOptions cf_opt; std::string options_file_content = "# This is a testing option string.\n" "# Currently we only support \"#\" styled comment.\n" "\n" "[Version]\n" " rocksdb_version=3.14.0\n" " options_file_version=1\n" "[ DBOptions ]\n" " # note that we don't support space around \"=\"\n" " max_open_files=12345;\n" " max_background_flushes=301 # comment after a statement is fine\n" " # max_background_flushes=1000 # this line would be ignored\n" " # max_background_compactions=2000 # so does this one\n" " max_total_wal_size=1024 # keep_log_file_num=1000\n" "[CFOptions \"default\"] # column family must be specified\n" " # in the correct order\n" " # if a section is blank, we will use the default\n"; const std::string kTestFileName = "test-rocksdb-options.ini"; env_->WriteToNewFile(kTestFileName, options_file_content); RocksDBOptionsParser parser; ASSERT_OK(parser.Parse(kTestFileName, env_.get())); ASSERT_OK(RocksDBOptionsParser::VerifyDBOptions(*parser.db_opt(), db_opt)); ASSERT_EQ(parser.NumColumnFamilies(), 1U); ASSERT_OK(RocksDBOptionsParser::VerifyCFOptions( *parser.GetCFOptions("default"), cf_opt)); } TEST_F(OptionsParserTest, ExtraSpace) { std::string options_file_content = "# This is a testing option string.\n" "# Currently we only support \"#\" styled comment.\n" "\n" "[ Version ]\n" " rocksdb_version = 3.14.0 \n" " options_file_version=1 # some comment\n" "[DBOptions ] # some comment\n" "max_open_files=12345 \n" " max_background_flushes = 301 \n" " max_total_wal_size = 1024 # keep_log_file_num=1000\n" " [CFOptions \"default\" ]\n" " # if a section is blank, we will use the default\n"; const std::string kTestFileName = "test-rocksdb-options.ini"; env_->WriteToNewFile(kTestFileName, options_file_content); RocksDBOptionsParser parser; ASSERT_OK(parser.Parse(kTestFileName, env_.get())); } TEST_F(OptionsParserTest, MissingDBOptions) { std::string options_file_content = "# This is a testing option string.\n" "# Currently we only support \"#\" styled comment.\n" "\n" "[Version]\n" " rocksdb_version=3.14.0\n" " options_file_version=1\n" "[CFOptions \"default\"]\n" " # if a section is blank, we will use the default\n"; const std::string kTestFileName = "test-rocksdb-options.ini"; env_->WriteToNewFile(kTestFileName, options_file_content); RocksDBOptionsParser parser; ASSERT_NOK(parser.Parse(kTestFileName, env_.get())); } TEST_F(OptionsParserTest, DoubleDBOptions) { DBOptions db_opt; db_opt.max_open_files = 12345; db_opt.max_background_flushes = 301; db_opt.max_total_wal_size = 1024; ColumnFamilyOptions cf_opt; std::string options_file_content = "# This is a testing option string.\n" "# Currently we only support \"#\" styled comment.\n" "\n" "[Version]\n" " rocksdb_version=3.14.0\n" " options_file_version=1\n" "[DBOptions]\n" " max_open_files=12345\n" " max_background_flushes=301\n" " max_total_wal_size=1024 # keep_log_file_num=1000\n" "[DBOptions]\n" "[CFOptions \"default\"]\n" " # if a section is blank, we will use the default\n"; const std::string kTestFileName = "test-rocksdb-options.ini"; env_->WriteToNewFile(kTestFileName, options_file_content); RocksDBOptionsParser parser; ASSERT_NOK(parser.Parse(kTestFileName, env_.get())); } TEST_F(OptionsParserTest, NoDefaultCFOptions) { DBOptions db_opt; db_opt.max_open_files = 12345; db_opt.max_background_flushes = 301; db_opt.max_total_wal_size = 1024; ColumnFamilyOptions cf_opt; std::string options_file_content = "# This is a testing option string.\n" "# Currently we only support \"#\" styled comment.\n" "\n" "[Version]\n" " rocksdb_version=3.14.0\n" " options_file_version=1\n" "[DBOptions]\n" " max_open_files=12345\n" " max_background_flushes=301\n" " max_total_wal_size=1024 # keep_log_file_num=1000\n" "[CFOptions \"something_else\"]\n" " # if a section is blank, we will use the default\n"; const std::string kTestFileName = "test-rocksdb-options.ini"; env_->WriteToNewFile(kTestFileName, options_file_content); RocksDBOptionsParser parser; ASSERT_NOK(parser.Parse(kTestFileName, env_.get())); } TEST_F(OptionsParserTest, DefaultCFOptionsMustBeTheFirst) { DBOptions db_opt; db_opt.max_open_files = 12345; db_opt.max_background_flushes = 301; db_opt.max_total_wal_size = 1024; ColumnFamilyOptions cf_opt; std::string options_file_content = "# This is a testing option string.\n" "# Currently we only support \"#\" styled comment.\n" "\n" "[Version]\n" " rocksdb_version=3.14.0\n" " options_file_version=1\n" "[DBOptions]\n" " max_open_files=12345\n" " max_background_flushes=301\n" " max_total_wal_size=1024 # keep_log_file_num=1000\n" "[CFOptions \"something_else\"]\n" " # if a section is blank, we will use the default\n" "[CFOptions \"default\"]\n" " # if a section is blank, we will use the default\n"; const std::string kTestFileName = "test-rocksdb-options.ini"; env_->WriteToNewFile(kTestFileName, options_file_content); RocksDBOptionsParser parser; ASSERT_NOK(parser.Parse(kTestFileName, env_.get())); } TEST_F(OptionsParserTest, DuplicateCFOptions) { DBOptions db_opt; db_opt.max_open_files = 12345; db_opt.max_background_flushes = 301; db_opt.max_total_wal_size = 1024; ColumnFamilyOptions cf_opt; std::string options_file_content = "# This is a testing option string.\n" "# Currently we only support \"#\" styled comment.\n" "\n" "[Version]\n" " rocksdb_version=3.14.0\n" " options_file_version=1\n" "[DBOptions]\n" " max_open_files=12345\n" " max_background_flushes=301\n" " max_total_wal_size=1024 # keep_log_file_num=1000\n" "[CFOptions \"default\"]\n" "[CFOptions \"something_else\"]\n" "[CFOptions \"something_else\"]\n"; const std::string kTestFileName = "test-rocksdb-options.ini"; env_->WriteToNewFile(kTestFileName, options_file_content); RocksDBOptionsParser parser; ASSERT_NOK(parser.Parse(kTestFileName, env_.get())); } TEST_F(OptionsParserTest, IgnoreUnknownOptions) { for (int case_id = 0; case_id < 5; case_id++) { DBOptions db_opt; db_opt.max_open_files = 12345; db_opt.max_background_flushes = 301; db_opt.max_total_wal_size = 1024; ColumnFamilyOptions cf_opt; std::string version_string; bool should_ignore = true; if (case_id == 0) { // same version should_ignore = false; version_string = ToString(ROCKSDB_MAJOR) + "." + ToString(ROCKSDB_MINOR) + ".0"; } else if (case_id == 1) { // higher minor version should_ignore = true; version_string = ToString(ROCKSDB_MAJOR) + "." + ToString(ROCKSDB_MINOR + 1) + ".0"; } else if (case_id == 2) { // higher major version. should_ignore = true; version_string = ToString(ROCKSDB_MAJOR + 1) + ".0.0"; } else if (case_id == 3) { // lower minor version #if ROCKSDB_MINOR == 0 continue; #else version_string = ToString(ROCKSDB_MAJOR) + "." + ToString(ROCKSDB_MINOR - 1) + ".0"; should_ignore = false; #endif } else { // lower major version should_ignore = false; version_string = ToString(ROCKSDB_MAJOR - 1) + "." + ToString(ROCKSDB_MINOR) + ".0"; } std::string options_file_content = "# This is a testing option string.\n" "# Currently we only support \"#\" styled comment.\n" "\n" "[Version]\n" " rocksdb_version=" + version_string + "\n" " options_file_version=1\n" "[DBOptions]\n" " max_open_files=12345\n" " max_background_flushes=301\n" " max_total_wal_size=1024 # keep_log_file_num=1000\n" " unknown_db_option1=321\n" " unknown_db_option2=false\n" "[CFOptions \"default\"]\n" " unknown_cf_option1=hello\n" "[CFOptions \"something_else\"]\n" " unknown_cf_option2=world\n" " # if a section is blank, we will use the default\n"; const std::string kTestFileName = "test-rocksdb-options.ini"; env_->DeleteFile(kTestFileName); env_->WriteToNewFile(kTestFileName, options_file_content); RocksDBOptionsParser parser; ASSERT_NOK(parser.Parse(kTestFileName, env_.get())); if (should_ignore) { ASSERT_OK(parser.Parse(kTestFileName, env_.get(), true /* ignore_unknown_options */)); } else { ASSERT_NOK(parser.Parse(kTestFileName, env_.get(), true /* ignore_unknown_options */)); } } } TEST_F(OptionsParserTest, ParseVersion) { DBOptions db_opt; db_opt.max_open_files = 12345; db_opt.max_background_flushes = 301; db_opt.max_total_wal_size = 1024; ColumnFamilyOptions cf_opt; std::string file_template = "# This is a testing option string.\n" "# Currently we only support \"#\" styled comment.\n" "\n" "[Version]\n" " rocksdb_version=3.13.1\n" " options_file_version=%s\n" "[DBOptions]\n" "[CFOptions \"default\"]\n"; const int kLength = 1000; char buffer[kLength]; RocksDBOptionsParser parser; const std::vector invalid_versions = { "a.b.c", "3.2.2b", "3.-12", "3. 1", // only digits and dots are allowed "1.2.3.4", "1.2.3" // can only contains at most one dot. "0", // options_file_version must be at least one "3..2", ".", ".1.2", // must have at least one digit before each dot "1.2.", "1.", "2.34."}; // must have at least one digit after each dot for (auto iv : invalid_versions) { snprintf(buffer, kLength - 1, file_template.c_str(), iv.c_str()); parser.Reset(); env_->WriteToNewFile(iv, buffer); ASSERT_NOK(parser.Parse(iv, env_.get())); } const std::vector valid_versions = { "1.232", "100", "3.12", "1", "12.3 ", " 1.25 "}; for (auto vv : valid_versions) { snprintf(buffer, kLength - 1, file_template.c_str(), vv.c_str()); parser.Reset(); env_->WriteToNewFile(vv, buffer); ASSERT_OK(parser.Parse(vv, env_.get())); } } void VerifyCFPointerTypedOptions( ColumnFamilyOptions* base_cf_opt, const ColumnFamilyOptions* new_cf_opt, const std::unordered_map* new_cf_opt_map) { std::string name_buffer; ASSERT_OK(RocksDBOptionsParser::VerifyCFOptions(*base_cf_opt, *new_cf_opt, new_cf_opt_map)); // change the name of merge operator back-and-forth { auto* merge_operator = dynamic_cast( base_cf_opt->merge_operator.get()); if (merge_operator != nullptr) { name_buffer = merge_operator->Name(); // change the name and expect non-ok status merge_operator->SetName("some-other-name"); ASSERT_NOK(RocksDBOptionsParser::VerifyCFOptions( *base_cf_opt, *new_cf_opt, new_cf_opt_map)); // change the name back and expect ok status merge_operator->SetName(name_buffer); ASSERT_OK(RocksDBOptionsParser::VerifyCFOptions(*base_cf_opt, *new_cf_opt, new_cf_opt_map)); } } // change the name of the compaction filter factory back-and-forth { auto* compaction_filter_factory = dynamic_cast( base_cf_opt->compaction_filter_factory.get()); if (compaction_filter_factory != nullptr) { name_buffer = compaction_filter_factory->Name(); // change the name and expect non-ok status compaction_filter_factory->SetName("some-other-name"); ASSERT_NOK(RocksDBOptionsParser::VerifyCFOptions( *base_cf_opt, *new_cf_opt, new_cf_opt_map)); // change the name back and expect ok status compaction_filter_factory->SetName(name_buffer); ASSERT_OK(RocksDBOptionsParser::VerifyCFOptions(*base_cf_opt, *new_cf_opt, new_cf_opt_map)); } } // test by setting compaction_filter to nullptr { auto* tmp_compaction_filter = base_cf_opt->compaction_filter; if (tmp_compaction_filter != nullptr) { base_cf_opt->compaction_filter = nullptr; // set compaction_filter to nullptr and expect non-ok status ASSERT_NOK(RocksDBOptionsParser::VerifyCFOptions( *base_cf_opt, *new_cf_opt, new_cf_opt_map)); // set the value back and expect ok status base_cf_opt->compaction_filter = tmp_compaction_filter; ASSERT_OK(RocksDBOptionsParser::VerifyCFOptions(*base_cf_opt, *new_cf_opt, new_cf_opt_map)); } } // test by setting table_factory to nullptr { auto tmp_table_factory = base_cf_opt->table_factory; if (tmp_table_factory != nullptr) { base_cf_opt->table_factory.reset(); // set table_factory to nullptr and expect non-ok status ASSERT_NOK(RocksDBOptionsParser::VerifyCFOptions( *base_cf_opt, *new_cf_opt, new_cf_opt_map)); // set the value back and expect ok status base_cf_opt->table_factory = tmp_table_factory; ASSERT_OK(RocksDBOptionsParser::VerifyCFOptions(*base_cf_opt, *new_cf_opt, new_cf_opt_map)); } } // test by setting memtable_factory to nullptr { auto tmp_memtable_factory = base_cf_opt->memtable_factory; if (tmp_memtable_factory != nullptr) { base_cf_opt->memtable_factory.reset(); // set memtable_factory to nullptr and expect non-ok status ASSERT_NOK(RocksDBOptionsParser::VerifyCFOptions( *base_cf_opt, *new_cf_opt, new_cf_opt_map)); // set the value back and expect ok status base_cf_opt->memtable_factory = tmp_memtable_factory; ASSERT_OK(RocksDBOptionsParser::VerifyCFOptions(*base_cf_opt, *new_cf_opt, new_cf_opt_map)); } } } TEST_F(OptionsParserTest, DumpAndParse) { DBOptions base_db_opt; std::vector base_cf_opts; std::vector cf_names = {"default", "cf1", "cf2", "cf3", "c:f:4:4:4" "p\\i\\k\\a\\chu\\\\\\", "###rocksdb#1-testcf#2###"}; const int num_cf = static_cast(cf_names.size()); Random rnd(302); test::RandomInitDBOptions(&base_db_opt, &rnd); base_db_opt.db_log_dir += "/#odd #but #could #happen #path #/\\\\#OMG"; BlockBasedTableOptions special_bbto; special_bbto.cache_index_and_filter_blocks = true; special_bbto.block_size = 999999; for (int c = 0; c < num_cf; ++c) { ColumnFamilyOptions cf_opt; Random cf_rnd(0xFB + c); test::RandomInitCFOptions(&cf_opt, &cf_rnd); if (c < 4) { cf_opt.prefix_extractor.reset(test::RandomSliceTransform(&rnd, c)); } if (c < 3) { cf_opt.table_factory.reset(test::RandomTableFactory(&rnd, c)); } else if (c == 4) { cf_opt.table_factory.reset(NewBlockBasedTableFactory(special_bbto)); } base_cf_opts.emplace_back(cf_opt); } const std::string kOptionsFileName = "test-persisted-options.ini"; ASSERT_OK(PersistRocksDBOptions(base_db_opt, cf_names, base_cf_opts, kOptionsFileName, env_.get())); RocksDBOptionsParser parser; ASSERT_OK(parser.Parse(kOptionsFileName, env_.get())); // Make sure block-based table factory options was deserialized correctly std::shared_ptr ttf = (*parser.cf_opts())[4].table_factory; ASSERT_EQ(BlockBasedTableFactory::kName, std::string(ttf->Name())); const BlockBasedTableOptions& parsed_bbto = static_cast(ttf.get())->table_options(); ASSERT_EQ(special_bbto.block_size, parsed_bbto.block_size); ASSERT_EQ(special_bbto.cache_index_and_filter_blocks, parsed_bbto.cache_index_and_filter_blocks); ASSERT_OK(RocksDBOptionsParser::VerifyRocksDBOptionsFromFile( base_db_opt, cf_names, base_cf_opts, kOptionsFileName, env_.get())); ASSERT_OK( RocksDBOptionsParser::VerifyDBOptions(*parser.db_opt(), base_db_opt)); for (int c = 0; c < num_cf; ++c) { const auto* cf_opt = parser.GetCFOptions(cf_names[c]); ASSERT_NE(cf_opt, nullptr); ASSERT_OK(RocksDBOptionsParser::VerifyCFOptions( base_cf_opts[c], *cf_opt, &(parser.cf_opt_maps()->at(c)))); } // Further verify pointer-typed options for (int c = 0; c < num_cf; ++c) { const auto* cf_opt = parser.GetCFOptions(cf_names[c]); ASSERT_NE(cf_opt, nullptr); VerifyCFPointerTypedOptions(&base_cf_opts[c], cf_opt, &(parser.cf_opt_maps()->at(c))); } ASSERT_EQ(parser.GetCFOptions("does not exist"), nullptr); base_db_opt.max_open_files++; ASSERT_NOK(RocksDBOptionsParser::VerifyRocksDBOptionsFromFile( base_db_opt, cf_names, base_cf_opts, kOptionsFileName, env_.get())); for (int c = 0; c < num_cf; ++c) { if (base_cf_opts[c].compaction_filter) { delete base_cf_opts[c].compaction_filter; } } } TEST_F(OptionsParserTest, DifferentDefault) { const std::string kOptionsFileName = "test-persisted-options.ini"; ColumnFamilyOptions cf_level_opts; cf_level_opts.OptimizeLevelStyleCompaction(); ColumnFamilyOptions cf_univ_opts; cf_univ_opts.OptimizeUniversalStyleCompaction(); ASSERT_OK(PersistRocksDBOptions(DBOptions(), {"default", "universal"}, {cf_level_opts, cf_univ_opts}, kOptionsFileName, env_.get())); RocksDBOptionsParser parser; ASSERT_OK(parser.Parse(kOptionsFileName, env_.get())); { Options old_default_opts; old_default_opts.OldDefaults(); ASSERT_EQ(10 * 1048576, old_default_opts.max_bytes_for_level_base); ASSERT_EQ(5000, old_default_opts.max_open_files); ASSERT_EQ(2 * 1024U * 1024U, old_default_opts.delayed_write_rate); ASSERT_EQ(WALRecoveryMode::kTolerateCorruptedTailRecords, old_default_opts.wal_recovery_mode); } { Options old_default_opts; old_default_opts.OldDefaults(4, 6); ASSERT_EQ(10 * 1048576, old_default_opts.max_bytes_for_level_base); ASSERT_EQ(5000, old_default_opts.max_open_files); } { Options old_default_opts; old_default_opts.OldDefaults(4, 7); ASSERT_NE(10 * 1048576, old_default_opts.max_bytes_for_level_base); ASSERT_NE(4, old_default_opts.table_cache_numshardbits); ASSERT_EQ(5000, old_default_opts.max_open_files); ASSERT_EQ(2 * 1024U * 1024U, old_default_opts.delayed_write_rate); } { ColumnFamilyOptions old_default_cf_opts; old_default_cf_opts.OldDefaults(); ASSERT_EQ(2 * 1048576, old_default_cf_opts.target_file_size_base); ASSERT_EQ(4 << 20, old_default_cf_opts.write_buffer_size); ASSERT_EQ(2 * 1048576, old_default_cf_opts.target_file_size_base); ASSERT_EQ(0, old_default_cf_opts.soft_pending_compaction_bytes_limit); ASSERT_EQ(0, old_default_cf_opts.hard_pending_compaction_bytes_limit); ASSERT_EQ(CompactionPri::kByCompensatedSize, old_default_cf_opts.compaction_pri); } { ColumnFamilyOptions old_default_cf_opts; old_default_cf_opts.OldDefaults(4, 6); ASSERT_EQ(2 * 1048576, old_default_cf_opts.target_file_size_base); ASSERT_EQ(CompactionPri::kByCompensatedSize, old_default_cf_opts.compaction_pri); } { ColumnFamilyOptions old_default_cf_opts; old_default_cf_opts.OldDefaults(4, 7); ASSERT_NE(2 * 1048576, old_default_cf_opts.target_file_size_base); ASSERT_EQ(CompactionPri::kByCompensatedSize, old_default_cf_opts.compaction_pri); } { Options old_default_opts; old_default_opts.OldDefaults(5, 1); ASSERT_EQ(2 * 1024U * 1024U, old_default_opts.delayed_write_rate); } { Options old_default_opts; old_default_opts.OldDefaults(5, 2); ASSERT_EQ(16 * 1024U * 1024U, old_default_opts.delayed_write_rate); } Options small_opts; small_opts.OptimizeForSmallDb(); ASSERT_EQ(2 << 20, small_opts.write_buffer_size); ASSERT_EQ(5000, small_opts.max_open_files); } class OptionsSanityCheckTest : public OptionsParserTest { public: OptionsSanityCheckTest() {} protected: Status SanityCheckCFOptions(const ColumnFamilyOptions& cf_opts, OptionsSanityCheckLevel level) { return RocksDBOptionsParser::VerifyRocksDBOptionsFromFile( DBOptions(), {"default"}, {cf_opts}, kOptionsFileName, env_.get(), level); } Status PersistCFOptions(const ColumnFamilyOptions& cf_opts) { Status s = env_->DeleteFile(kOptionsFileName); if (!s.ok()) { return s; } return PersistRocksDBOptions(DBOptions(), {"default"}, {cf_opts}, kOptionsFileName, env_.get()); } const std::string kOptionsFileName = "OPTIONS"; }; TEST_F(OptionsSanityCheckTest, SanityCheck) { ColumnFamilyOptions opts; Random rnd(301); // default ColumnFamilyOptions { ASSERT_OK(PersistCFOptions(opts)); ASSERT_OK(SanityCheckCFOptions(opts, kSanityLevelExactMatch)); } // prefix_extractor { // Okay to change prefix_extractor form nullptr to non-nullptr ASSERT_EQ(opts.prefix_extractor.get(), nullptr); opts.prefix_extractor.reset(NewCappedPrefixTransform(10)); ASSERT_OK(SanityCheckCFOptions(opts, kSanityLevelLooselyCompatible)); ASSERT_OK(SanityCheckCFOptions(opts, kSanityLevelNone)); // persist the change ASSERT_OK(PersistCFOptions(opts)); ASSERT_OK(SanityCheckCFOptions(opts, kSanityLevelExactMatch)); // use same prefix extractor but with different parameter opts.prefix_extractor.reset(NewCappedPrefixTransform(15)); // expect pass only in kSanityLevelLooselyCompatible ASSERT_NOK(SanityCheckCFOptions(opts, kSanityLevelExactMatch)); ASSERT_OK(SanityCheckCFOptions(opts, kSanityLevelLooselyCompatible)); ASSERT_OK(SanityCheckCFOptions(opts, kSanityLevelNone)); // repeat the test with FixedPrefixTransform opts.prefix_extractor.reset(NewFixedPrefixTransform(10)); ASSERT_NOK(SanityCheckCFOptions(opts, kSanityLevelExactMatch)); ASSERT_OK(SanityCheckCFOptions(opts, kSanityLevelLooselyCompatible)); ASSERT_OK(SanityCheckCFOptions(opts, kSanityLevelNone)); // persist the change of prefix_extractor ASSERT_OK(PersistCFOptions(opts)); ASSERT_OK(SanityCheckCFOptions(opts, kSanityLevelExactMatch)); // use same prefix extractor but with different parameter opts.prefix_extractor.reset(NewFixedPrefixTransform(15)); // expect pass only in kSanityLevelLooselyCompatible ASSERT_NOK(SanityCheckCFOptions(opts, kSanityLevelExactMatch)); ASSERT_OK(SanityCheckCFOptions(opts, kSanityLevelLooselyCompatible)); ASSERT_OK(SanityCheckCFOptions(opts, kSanityLevelNone)); // Change prefix extractor from non-nullptr to nullptr opts.prefix_extractor.reset(); // expect pass as it's safe to change prefix_extractor // from non-null to null ASSERT_OK(SanityCheckCFOptions(opts, kSanityLevelLooselyCompatible)); ASSERT_OK(SanityCheckCFOptions(opts, kSanityLevelNone)); } // persist the change ASSERT_OK(PersistCFOptions(opts)); ASSERT_OK(SanityCheckCFOptions(opts, kSanityLevelExactMatch)); // table_factory { for (int tb = 0; tb <= 2; ++tb) { // change the table factory opts.table_factory.reset(test::RandomTableFactory(&rnd, tb)); ASSERT_NOK(SanityCheckCFOptions(opts, kSanityLevelLooselyCompatible)); ASSERT_OK(SanityCheckCFOptions(opts, kSanityLevelNone)); // persist the change ASSERT_OK(PersistCFOptions(opts)); ASSERT_OK(SanityCheckCFOptions(opts, kSanityLevelExactMatch)); } } // merge_operator { // Test when going from nullptr -> merge operator opts.merge_operator.reset(test::RandomMergeOperator(&rnd)); ASSERT_OK(SanityCheckCFOptions(opts, kSanityLevelLooselyCompatible)); ASSERT_OK(SanityCheckCFOptions(opts, kSanityLevelNone)); // persist the change ASSERT_OK(PersistCFOptions(opts)); ASSERT_OK(SanityCheckCFOptions(opts, kSanityLevelExactMatch)); for (int test = 0; test < 5; ++test) { // change the merge operator opts.merge_operator.reset(test::RandomMergeOperator(&rnd)); ASSERT_NOK(SanityCheckCFOptions(opts, kSanityLevelLooselyCompatible)); ASSERT_OK(SanityCheckCFOptions(opts, kSanityLevelNone)); // persist the change ASSERT_OK(PersistCFOptions(opts)); ASSERT_OK(SanityCheckCFOptions(opts, kSanityLevelExactMatch)); } // Test when going from merge operator -> nullptr opts.merge_operator = nullptr; ASSERT_NOK(SanityCheckCFOptions(opts, kSanityLevelLooselyCompatible)); ASSERT_OK(SanityCheckCFOptions(opts, kSanityLevelNone)); // persist the change ASSERT_OK(PersistCFOptions(opts)); ASSERT_OK(SanityCheckCFOptions(opts, kSanityLevelExactMatch)); } // compaction_filter { for (int test = 0; test < 5; ++test) { // change the compaction filter opts.compaction_filter = test::RandomCompactionFilter(&rnd); ASSERT_NOK(SanityCheckCFOptions(opts, kSanityLevelExactMatch)); ASSERT_OK(SanityCheckCFOptions(opts, kSanityLevelLooselyCompatible)); // persist the change ASSERT_OK(PersistCFOptions(opts)); ASSERT_OK(SanityCheckCFOptions(opts, kSanityLevelExactMatch)); delete opts.compaction_filter; opts.compaction_filter = nullptr; } } // compaction_filter_factory { for (int test = 0; test < 5; ++test) { // change the compaction filter factory opts.compaction_filter_factory.reset( test::RandomCompactionFilterFactory(&rnd)); ASSERT_NOK(SanityCheckCFOptions(opts, kSanityLevelExactMatch)); ASSERT_OK(SanityCheckCFOptions(opts, kSanityLevelLooselyCompatible)); // persist the change ASSERT_OK(PersistCFOptions(opts)); ASSERT_OK(SanityCheckCFOptions(opts, kSanityLevelExactMatch)); } } } namespace { bool IsEscapedString(const std::string& str) { for (size_t i = 0; i < str.size(); ++i) { if (str[i] == '\\') { // since we already handle those two consecutive '\'s in // the next if-then branch, any '\' appear at the end // of an escaped string in such case is not valid. if (i == str.size() - 1) { return false; } if (str[i + 1] == '\\') { // if there're two consecutive '\'s, skip the second one. i++; continue; } switch (str[i + 1]) { case ':': case '\\': case '#': continue; default: // if true, '\' together with str[i + 1] is not a valid escape. if (UnescapeChar(str[i + 1]) == str[i + 1]) { return false; } } } else if (isSpecialChar(str[i]) && (i == 0 || str[i - 1] != '\\')) { return false; } } return true; } } // namespace TEST_F(OptionsParserTest, EscapeOptionString) { ASSERT_EQ(UnescapeOptionString( "This is a test string with \\# \\: and \\\\ escape chars."), "This is a test string with # : and \\ escape chars."); ASSERT_EQ( EscapeOptionString("This is a test string with # : and \\ escape chars."), "This is a test string with \\# \\: and \\\\ escape chars."); std::string readible_chars = "A String like this \"1234567890-=_)(*&^%$#@!ertyuiop[]{POIU" "YTREWQasdfghjkl;':LKJHGFDSAzxcvbnm,.?>" ".h" file that provides the platform specific implementation. See port_posix.h for an example of what must be provided in a platform specific header file. rocksdb-5.17.2/port/dirent.h000066400000000000000000000020151337235545400156700ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. // // See port_example.h for documentation for the following types/functions. #pragma once #ifdef ROCKSDB_PLATFORM_POSIX #include #include #elif defined(OS_WIN) namespace rocksdb { namespace port { struct dirent { char d_name[_MAX_PATH]; /* filename */ }; struct DIR; DIR* opendir(const char* name); dirent* readdir(DIR* dirp); int closedir(DIR* dirp); } // namespace port using port::dirent; using port::DIR; using port::opendir; using port::readdir; using port::closedir; } // namespace rocksdb #endif // OS_WIN rocksdb-5.17.2/port/likely.h000066400000000000000000000012621337235545400156770ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #if defined(__GNUC__) && __GNUC__ >= 4 #define LIKELY(x) (__builtin_expect((x), 1)) #define UNLIKELY(x) (__builtin_expect((x), 0)) #else #define LIKELY(x) (x) #define UNLIKELY(x) (x) #endif rocksdb-5.17.2/port/port.h000066400000000000000000000015021337235545400153670ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #include // Include the appropriate platform specific file below. If you are // porting to a new platform, see "port_example.h" for documentation // of what the new port_.h file must provide. #if defined(ROCKSDB_PLATFORM_POSIX) #include "port/port_posix.h" #elif defined(OS_WIN) #include "port/win/port_win.h" #endif rocksdb-5.17.2/port/port_example.h000066400000000000000000000070251337235545400171100ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. // // This file contains the specification, but not the implementations, // of the types/operations/etc. that should be defined by a platform // specific port_.h file. Use this file as a reference for // how to port this package to a new platform. #pragma once namespace rocksdb { namespace port { // TODO(jorlow): Many of these belong more in the environment class rather than // here. We should try moving them and see if it affects perf. // The following boolean constant must be true on a little-endian machine // and false otherwise. static const bool kLittleEndian = true /* or some other expression */; // ------------------ Threading ------------------- // A Mutex represents an exclusive lock. class Mutex { public: Mutex(); ~Mutex(); // Lock the mutex. Waits until other lockers have exited. // Will deadlock if the mutex is already locked by this thread. void Lock(); // Unlock the mutex. // REQUIRES: This mutex was locked by this thread. void Unlock(); // Optionally crash if this thread does not hold this mutex. // The implementation must be fast, especially if NDEBUG is // defined. The implementation is allowed to skip all checks. void AssertHeld(); }; class CondVar { public: explicit CondVar(Mutex* mu); ~CondVar(); // Atomically release *mu and block on this condition variable until // either a call to SignalAll(), or a call to Signal() that picks // this thread to wakeup. // REQUIRES: this thread holds *mu void Wait(); // If there are some threads waiting, wake up at least one of them. void Signal(); // Wake up all waiting threads. void SignallAll(); }; // Thread-safe initialization. // Used as follows: // static port::OnceType init_control = LEVELDB_ONCE_INIT; // static void Initializer() { ... do something ...; } // ... // port::InitOnce(&init_control, &Initializer); typedef intptr_t OnceType; #define LEVELDB_ONCE_INIT 0 extern void InitOnce(port::OnceType*, void (*initializer)()); // ------------------ Compression ------------------- // Store the snappy compression of "input[0,input_length-1]" in *output. // Returns false if snappy is not supported by this port. extern bool Snappy_Compress(const char* input, size_t input_length, std::string* output); // If input[0,input_length-1] looks like a valid snappy compressed // buffer, store the size of the uncompressed data in *result and // return true. Else return false. extern bool Snappy_GetUncompressedLength(const char* input, size_t length, size_t* result); // Attempt to snappy uncompress input[0,input_length-1] into *output. // Returns true if successful, false if the input is invalid lightweight // compressed data. // // REQUIRES: at least the first "n" bytes of output[] must be writable // where "n" is the result of a successful call to // Snappy_GetUncompressedLength. extern bool Snappy_Uncompress(const char* input_data, size_t input_length, char* output); } // namespace port } // namespace rocksdb rocksdb-5.17.2/port/port_posix.cc000066400000000000000000000127071337235545400167600ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "port/port_posix.h" #include #if defined(__i386__) || defined(__x86_64__) #include #endif #include #include #include #include #include #include #include #include #include #include "util/logging.h" namespace rocksdb { namespace port { static int PthreadCall(const char* label, int result) { if (result != 0 && result != ETIMEDOUT) { fprintf(stderr, "pthread %s: %s\n", label, strerror(result)); abort(); } return result; } Mutex::Mutex(bool adaptive) { (void) adaptive; #ifdef ROCKSDB_PTHREAD_ADAPTIVE_MUTEX if (!adaptive) { PthreadCall("init mutex", pthread_mutex_init(&mu_, nullptr)); } else { pthread_mutexattr_t mutex_attr; PthreadCall("init mutex attr", pthread_mutexattr_init(&mutex_attr)); PthreadCall("set mutex attr", pthread_mutexattr_settype(&mutex_attr, PTHREAD_MUTEX_ADAPTIVE_NP)); PthreadCall("init mutex", pthread_mutex_init(&mu_, &mutex_attr)); PthreadCall("destroy mutex attr", pthread_mutexattr_destroy(&mutex_attr)); } #else PthreadCall("init mutex", pthread_mutex_init(&mu_, nullptr)); #endif // ROCKSDB_PTHREAD_ADAPTIVE_MUTEX } Mutex::~Mutex() { PthreadCall("destroy mutex", pthread_mutex_destroy(&mu_)); } void Mutex::Lock() { PthreadCall("lock", pthread_mutex_lock(&mu_)); #ifndef NDEBUG locked_ = true; #endif } void Mutex::Unlock() { #ifndef NDEBUG locked_ = false; #endif PthreadCall("unlock", pthread_mutex_unlock(&mu_)); } void Mutex::AssertHeld() { #ifndef NDEBUG assert(locked_); #endif } CondVar::CondVar(Mutex* mu) : mu_(mu) { PthreadCall("init cv", pthread_cond_init(&cv_, nullptr)); } CondVar::~CondVar() { PthreadCall("destroy cv", pthread_cond_destroy(&cv_)); } void CondVar::Wait() { #ifndef NDEBUG mu_->locked_ = false; #endif PthreadCall("wait", pthread_cond_wait(&cv_, &mu_->mu_)); #ifndef NDEBUG mu_->locked_ = true; #endif } bool CondVar::TimedWait(uint64_t abs_time_us) { struct timespec ts; ts.tv_sec = static_cast(abs_time_us / 1000000); ts.tv_nsec = static_cast((abs_time_us % 1000000) * 1000); #ifndef NDEBUG mu_->locked_ = false; #endif int err = pthread_cond_timedwait(&cv_, &mu_->mu_, &ts); #ifndef NDEBUG mu_->locked_ = true; #endif if (err == ETIMEDOUT) { return true; } if (err != 0) { PthreadCall("timedwait", err); } return false; } void CondVar::Signal() { PthreadCall("signal", pthread_cond_signal(&cv_)); } void CondVar::SignalAll() { PthreadCall("broadcast", pthread_cond_broadcast(&cv_)); } RWMutex::RWMutex() { PthreadCall("init mutex", pthread_rwlock_init(&mu_, nullptr)); } RWMutex::~RWMutex() { PthreadCall("destroy mutex", pthread_rwlock_destroy(&mu_)); } void RWMutex::ReadLock() { PthreadCall("read lock", pthread_rwlock_rdlock(&mu_)); } void RWMutex::WriteLock() { PthreadCall("write lock", pthread_rwlock_wrlock(&mu_)); } void RWMutex::ReadUnlock() { PthreadCall("read unlock", pthread_rwlock_unlock(&mu_)); } void RWMutex::WriteUnlock() { PthreadCall("write unlock", pthread_rwlock_unlock(&mu_)); } int PhysicalCoreID() { #if defined(ROCKSDB_SCHED_GETCPU_PRESENT) && defined(__x86_64__) && \ (__GNUC__ > 2 || (__GNUC__ == 2 && __GNUC_MINOR__ >= 22)) // sched_getcpu uses VDSO getcpu() syscall since 2.22. I believe Linux offers VDSO // support only on x86_64. This is the fastest/preferred method if available. int cpuno = sched_getcpu(); if (cpuno < 0) { return -1; } return cpuno; #elif defined(__x86_64__) || defined(__i386__) // clang/gcc both provide cpuid.h, which defines __get_cpuid(), for x86_64 and i386. unsigned eax, ebx = 0, ecx, edx; if (!__get_cpuid(1, &eax, &ebx, &ecx, &edx)) { return -1; } return ebx >> 24; #else // give up, the caller can generate a random number or something. return -1; #endif } void InitOnce(OnceType* once, void (*initializer)()) { PthreadCall("once", pthread_once(once, initializer)); } void Crash(const std::string& srcfile, int srcline) { fprintf(stdout, "Crashing at %s:%d\n", srcfile.c_str(), srcline); fflush(stdout); kill(getpid(), SIGTERM); } int GetMaxOpenFiles() { #if defined(RLIMIT_NOFILE) struct rlimit no_files_limit; if (getrlimit(RLIMIT_NOFILE, &no_files_limit) != 0) { return -1; } // protect against overflow if (no_files_limit.rlim_cur >= std::numeric_limits::max()) { return std::numeric_limits::max(); } return static_cast(no_files_limit.rlim_cur); #endif return -1; } void *cacheline_aligned_alloc(size_t size) { #if __GNUC__ < 5 && defined(__SANITIZE_ADDRESS__) return malloc(size); #elif ( _POSIX_C_SOURCE >= 200112L || _XOPEN_SOURCE >= 600 || defined(__APPLE__)) void *m; errno = posix_memalign(&m, CACHE_LINE_SIZE, size); return errno ? nullptr : m; #else return malloc(size); #endif } void cacheline_aligned_free(void *memblock) { free(memblock); } } // namespace port } // namespace rocksdb rocksdb-5.17.2/port/port_posix.h000066400000000000000000000133261337235545400166200ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. // // See port_example.h for documentation for the following types/functions. #pragma once #include // size_t printf formatting named in the manner of C99 standard formatting // strings such as PRIu64 // in fact, we could use that one #define ROCKSDB_PRIszt "zu" #define __declspec(S) #define ROCKSDB_NOEXCEPT noexcept #undef PLATFORM_IS_LITTLE_ENDIAN #if defined(OS_MACOSX) #include #if defined(__DARWIN_LITTLE_ENDIAN) && defined(__DARWIN_BYTE_ORDER) #define PLATFORM_IS_LITTLE_ENDIAN \ (__DARWIN_BYTE_ORDER == __DARWIN_LITTLE_ENDIAN) #endif #elif defined(OS_SOLARIS) #include #ifdef _LITTLE_ENDIAN #define PLATFORM_IS_LITTLE_ENDIAN true #else #define PLATFORM_IS_LITTLE_ENDIAN false #endif #include #elif defined(OS_AIX) #include #include #define PLATFORM_IS_LITTLE_ENDIAN (BYTE_ORDER == LITTLE_ENDIAN) #include #elif defined(OS_FREEBSD) || defined(OS_OPENBSD) || defined(OS_NETBSD) || \ defined(OS_DRAGONFLYBSD) || defined(OS_ANDROID) #include #include #define PLATFORM_IS_LITTLE_ENDIAN (_BYTE_ORDER == _LITTLE_ENDIAN) #else #include #endif #include #include #include #include #include #ifndef PLATFORM_IS_LITTLE_ENDIAN #define PLATFORM_IS_LITTLE_ENDIAN (__BYTE_ORDER == __LITTLE_ENDIAN) #endif #if defined(OS_MACOSX) || defined(OS_SOLARIS) || defined(OS_FREEBSD) ||\ defined(OS_NETBSD) || defined(OS_OPENBSD) || defined(OS_DRAGONFLYBSD) ||\ defined(OS_ANDROID) || defined(CYGWIN) || defined(OS_AIX) // Use fread/fwrite/fflush on platforms without _unlocked variants #define fread_unlocked fread #define fwrite_unlocked fwrite #define fflush_unlocked fflush #endif #if defined(OS_MACOSX) || defined(OS_FREEBSD) ||\ defined(OS_OPENBSD) || defined(OS_DRAGONFLYBSD) // Use fsync() on platforms without fdatasync() #define fdatasync fsync #endif #if defined(OS_ANDROID) && __ANDROID_API__ < 9 // fdatasync() was only introduced in API level 9 on Android. Use fsync() // when targeting older platforms. #define fdatasync fsync #endif namespace rocksdb { namespace port { // For use at db/file_indexer.h kLevelMaxIndex const uint32_t kMaxUint32 = std::numeric_limits::max(); const int kMaxInt32 = std::numeric_limits::max(); const uint64_t kMaxUint64 = std::numeric_limits::max(); const int64_t kMaxInt64 = std::numeric_limits::max(); const size_t kMaxSizet = std::numeric_limits::max(); static const bool kLittleEndian = PLATFORM_IS_LITTLE_ENDIAN; #undef PLATFORM_IS_LITTLE_ENDIAN class CondVar; class Mutex { public: // We want to give users opportunity to default all the mutexes to adaptive if // not specified otherwise. This enables a quick way to conduct various // performance related experiements. // // NB! Support for adaptive mutexes is turned on by definining // ROCKSDB_PTHREAD_ADAPTIVE_MUTEX during the compilation. If you use RocksDB // build environment then this happens automatically; otherwise it's up to the // consumer to define the identifier. #ifdef ROCKSDB_DEFAULT_TO_ADAPTIVE_MUTEX explicit Mutex(bool adaptive = true); #else explicit Mutex(bool adaptive = false); #endif ~Mutex(); void Lock(); void Unlock(); // this will assert if the mutex is not locked // it does NOT verify that mutex is held by a calling thread void AssertHeld(); private: friend class CondVar; pthread_mutex_t mu_; #ifndef NDEBUG bool locked_; #endif // No copying Mutex(const Mutex&); void operator=(const Mutex&); }; class RWMutex { public: RWMutex(); ~RWMutex(); void ReadLock(); void WriteLock(); void ReadUnlock(); void WriteUnlock(); void AssertHeld() { } private: pthread_rwlock_t mu_; // the underlying platform mutex // No copying allowed RWMutex(const RWMutex&); void operator=(const RWMutex&); }; class CondVar { public: explicit CondVar(Mutex* mu); ~CondVar(); void Wait(); // Timed condition wait. Returns true if timeout occurred. bool TimedWait(uint64_t abs_time_us); void Signal(); void SignalAll(); private: pthread_cond_t cv_; Mutex* mu_; }; using Thread = std::thread; static inline void AsmVolatilePause() { #if defined(__i386__) || defined(__x86_64__) asm volatile("pause"); #elif defined(__aarch64__) asm volatile("wfe"); #elif defined(__powerpc64__) asm volatile("or 27,27,27"); #endif // it's okay for other platforms to be no-ops } // Returns -1 if not available on this platform extern int PhysicalCoreID(); typedef pthread_once_t OnceType; #define LEVELDB_ONCE_INIT PTHREAD_ONCE_INIT extern void InitOnce(OnceType* once, void (*initializer)()); #ifndef CACHE_LINE_SIZE #if defined(__s390__) #define CACHE_LINE_SIZE 256U #elif defined(__powerpc__) || defined(__aarch64__) #define CACHE_LINE_SIZE 128U #else #define CACHE_LINE_SIZE 64U #endif #endif extern void *cacheline_aligned_alloc(size_t size); extern void cacheline_aligned_free(void *memblock); #define ALIGN_AS(n) alignas(n) #define PREFETCH(addr, rw, locality) __builtin_prefetch(addr, rw, locality) extern void Crash(const std::string& srcfile, int srcline); extern int GetMaxOpenFiles(); } // namespace port } // namespace rocksdb rocksdb-5.17.2/port/stack_trace.cc000066400000000000000000000067631337235545400170420ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // #include "port/stack_trace.h" #if defined(ROCKSDB_LITE) || !(defined(ROCKSDB_BACKTRACE) || defined(OS_MACOSX)) || \ defined(CYGWIN) || defined(OS_FREEBSD) || defined(OS_SOLARIS) // noop namespace rocksdb { namespace port { void InstallStackTraceHandler() {} void PrintStack(int /*first_frames_to_skip*/) {} } // namespace port } // namespace rocksdb #else #include #include #include #include #include #include #include namespace rocksdb { namespace port { namespace { #if defined(OS_LINUX) || defined(OS_FREEBSD) const char* GetExecutableName() { static char name[1024]; char link[1024]; snprintf(link, sizeof(link), "/proc/%d/exe", getpid()); auto read = readlink(link, name, sizeof(name) - 1); if (-1 == read) { return nullptr; } else { name[read] = 0; return name; } } void PrintStackTraceLine(const char* symbol, void* frame) { static const char* executable = GetExecutableName(); if (symbol) { fprintf(stderr, "%s ", symbol); } if (executable) { // out source to addr2line, for the address translation const int kLineMax = 256; char cmd[kLineMax]; snprintf(cmd, kLineMax, "addr2line %p -e %s -f -C 2>&1", frame, executable); auto f = popen(cmd, "r"); if (f) { char line[kLineMax]; while (fgets(line, sizeof(line), f)) { line[strlen(line) - 1] = 0; // remove newline fprintf(stderr, "%s\t", line); } pclose(f); } } else { fprintf(stderr, " %p", frame); } fprintf(stderr, "\n"); } #elif defined(OS_MACOSX) void PrintStackTraceLine(const char* symbol, void* frame) { static int pid = getpid(); // out source to atos, for the address translation const int kLineMax = 256; char cmd[kLineMax]; snprintf(cmd, kLineMax, "xcrun atos %p -p %d 2>&1", frame, pid); auto f = popen(cmd, "r"); if (f) { char line[kLineMax]; while (fgets(line, sizeof(line), f)) { line[strlen(line) - 1] = 0; // remove newline fprintf(stderr, "%s\t", line); } pclose(f); } else if (symbol) { fprintf(stderr, "%s ", symbol); } fprintf(stderr, "\n"); } #endif } // namespace void PrintStack(int first_frames_to_skip) { const int kMaxFrames = 100; void* frames[kMaxFrames]; auto num_frames = backtrace(frames, kMaxFrames); auto symbols = backtrace_symbols(frames, num_frames); for (int i = first_frames_to_skip; i < num_frames; ++i) { fprintf(stderr, "#%-2d ", i - first_frames_to_skip); PrintStackTraceLine((symbols != nullptr) ? symbols[i] : nullptr, frames[i]); } free(symbols); } static void StackTraceHandler(int sig) { // reset to default handler signal(sig, SIG_DFL); fprintf(stderr, "Received signal %d (%s)\n", sig, strsignal(sig)); // skip the top three signal handler related frames PrintStack(3); // re-signal to default handler (so we still get core dump if needed...) raise(sig); } void InstallStackTraceHandler() { // just use the plain old signal as it's simple and sufficient // for this use case signal(SIGILL, StackTraceHandler); signal(SIGSEGV, StackTraceHandler); signal(SIGBUS, StackTraceHandler); signal(SIGABRT, StackTraceHandler); } } // namespace port } // namespace rocksdb #endif rocksdb-5.17.2/port/stack_trace.h000066400000000000000000000012101337235545400166620ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // #pragma once namespace rocksdb { namespace port { // Install a signal handler to print callstack on the following signals: // SIGILL SIGSEGV SIGBUS SIGABRT // Currently supports linux only. No-op otherwise. void InstallStackTraceHandler(); // Prints stack, skips skip_first_frames frames void PrintStack(int first_frames_to_skip = 0); } // namespace port } // namespace rocksdb rocksdb-5.17.2/port/sys_time.h000066400000000000000000000021761337235545400162470ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. // This file is a portable substitute for sys/time.h which does not exist on // Windows #pragma once #if defined(OS_WIN) && defined(_MSC_VER) #include namespace rocksdb { namespace port { // Avoid including winsock2.h for this definition typedef struct timeval { long tv_sec; long tv_usec; } timeval; void gettimeofday(struct timeval* tv, struct timezone* tz); inline struct tm* localtime_r(const time_t* timep, struct tm* result) { errno_t ret = localtime_s(result, timep); return (ret == 0) ? result : NULL; } } using port::timeval; using port::gettimeofday; using port::localtime_r; } #else #include #include #endif rocksdb-5.17.2/port/util_logger.h000066400000000000000000000014631337235545400167250ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once // Include the appropriate platform specific file below. If you are // porting to a new platform, see "port_example.h" for documentation // of what the new port_.h file must provide. #if defined(ROCKSDB_PLATFORM_POSIX) #include "env/posix_logger.h" #elif defined(OS_WIN) #include "port/win/win_logger.h" #endif rocksdb-5.17.2/port/win/000077500000000000000000000000001337235545400150315ustar00rootroot00000000000000rocksdb-5.17.2/port/win/env_default.cc000066400000000000000000000023601337235545400176350ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include #include #include "port/win/env_win.h" #include "util/compression_context_cache.h" #include "util/sync_point.h" #include "util/thread_local.h" namespace rocksdb { namespace port { // We choose not to destroy the env because joining the threads from the // system loader // which destroys the statics (same as from DLLMain) creates a system loader // dead-lock. // in this manner any remaining threads are terminated OK. namespace { std::once_flag winenv_once_flag; Env* envptr; }; } Env* Env::Default() { using namespace port; ThreadLocalPtr::InitSingletons(); CompressionContextCache::InitSingleton(); INIT_SYNC_POINT_SINGLETONS(); std::call_once(winenv_once_flag, []() { envptr = new WinEnv(); }); return envptr; } } rocksdb-5.17.2/port/win/env_win.cc000066400000000000000000001217551337235545400170200ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "port/win/env_win.h" #include "port/win/win_thread.h" #include #include #include #include #include // _getpid #include // _access #include // _rmdir, _mkdir, _getcwd #include #include #include "rocksdb/env.h" #include "rocksdb/slice.h" #include "port/port.h" #include "port/dirent.h" #include "port/win/win_logger.h" #include "port/win/io_win.h" #include "monitoring/iostats_context_imp.h" #include "monitoring/thread_status_updater.h" #include "monitoring/thread_status_util.h" #include // for uuid generation #include #include #include "strsafe.h" #include namespace rocksdb { ThreadStatusUpdater* CreateThreadStatusUpdater() { return new ThreadStatusUpdater(); } namespace { static const size_t kSectorSize = 512; // Sector size used when physical sector size could not be obtained from device. // RAII helpers for HANDLEs const auto CloseHandleFunc = [](HANDLE h) { ::CloseHandle(h); }; typedef std::unique_ptr UniqueCloseHandlePtr; const auto FindCloseFunc = [](HANDLE h) { ::FindClose(h); }; typedef std::unique_ptr UniqueFindClosePtr; void WinthreadCall(const char* label, std::error_code result) { if (0 != result.value()) { fprintf(stderr, "pthread %s: %s\n", label, strerror(result.value())); abort(); } } } namespace port { WinEnvIO::WinEnvIO(Env* hosted_env) : hosted_env_(hosted_env), page_size_(4 * 1024), allocation_granularity_(page_size_), perf_counter_frequency_(0), GetSystemTimePreciseAsFileTime_(NULL) { SYSTEM_INFO sinfo; GetSystemInfo(&sinfo); page_size_ = sinfo.dwPageSize; allocation_granularity_ = sinfo.dwAllocationGranularity; { LARGE_INTEGER qpf; BOOL ret __attribute__((__unused__)); ret = QueryPerformanceFrequency(&qpf); assert(ret == TRUE); perf_counter_frequency_ = qpf.QuadPart; } HMODULE module = GetModuleHandle("kernel32.dll"); if (module != NULL) { GetSystemTimePreciseAsFileTime_ = (FnGetSystemTimePreciseAsFileTime)GetProcAddress( module, "GetSystemTimePreciseAsFileTime"); } } WinEnvIO::~WinEnvIO() { } Status WinEnvIO::DeleteFile(const std::string& fname) { Status result; BOOL ret = DeleteFileA(fname.c_str()); if(!ret) { auto lastError = GetLastError(); result = IOErrorFromWindowsError("Failed to delete: " + fname, lastError); } return result; } Status WinEnvIO::Truncate(const std::string& fname, size_t size) { Status s; int result = truncate(fname.c_str(), size); if (result != 0) { s = IOError("Failed to truncate: " + fname, errno); } return s; } Status WinEnvIO::GetCurrentTime(int64_t* unix_time) { time_t time = std::time(nullptr); if (time == (time_t)(-1)) { return Status::NotSupported("Failed to get time"); } *unix_time = time; return Status::OK(); } Status WinEnvIO::NewSequentialFile(const std::string& fname, std::unique_ptr* result, const EnvOptions& options) { Status s; result->reset(); // Corruption test needs to rename and delete files of these kind // while they are still open with another handle. For that reason we // allow share_write and delete(allows rename). HANDLE hFile = INVALID_HANDLE_VALUE; DWORD fileFlags = FILE_ATTRIBUTE_READONLY; if (options.use_direct_reads && !options.use_mmap_reads) { fileFlags |= FILE_FLAG_NO_BUFFERING; } { IOSTATS_TIMER_GUARD(open_nanos); hFile = CreateFileA( fname.c_str(), GENERIC_READ, FILE_SHARE_READ | FILE_SHARE_WRITE | FILE_SHARE_DELETE, NULL, OPEN_EXISTING, // Original fopen mode is "rb" fileFlags, NULL); } if (INVALID_HANDLE_VALUE == hFile) { auto lastError = GetLastError(); s = IOErrorFromWindowsError("Failed to open NewSequentialFile" + fname, lastError); } else { result->reset(new WinSequentialFile(fname, hFile, options)); } return s; } Status WinEnvIO::NewRandomAccessFile(const std::string& fname, std::unique_ptr* result, const EnvOptions& options) { result->reset(); Status s; // Open the file for read-only random access // Random access is to disable read-ahead as the system reads too much data DWORD fileFlags = FILE_ATTRIBUTE_READONLY; if (options.use_direct_reads && !options.use_mmap_reads) { fileFlags |= FILE_FLAG_NO_BUFFERING; } else { fileFlags |= FILE_FLAG_RANDOM_ACCESS; } /// Shared access is necessary for corruption test to pass // almost all tests would work with a possible exception of fault_injection HANDLE hFile = 0; { IOSTATS_TIMER_GUARD(open_nanos); hFile = CreateFileA(fname.c_str(), GENERIC_READ, FILE_SHARE_READ | FILE_SHARE_WRITE | FILE_SHARE_DELETE, NULL, OPEN_EXISTING, fileFlags, NULL); } if (INVALID_HANDLE_VALUE == hFile) { auto lastError = GetLastError(); return IOErrorFromWindowsError( "NewRandomAccessFile failed to Create/Open: " + fname, lastError); } UniqueCloseHandlePtr fileGuard(hFile, CloseHandleFunc); // CAUTION! This will map the entire file into the process address space if (options.use_mmap_reads && sizeof(void*) >= 8) { // Use mmap when virtual address-space is plentiful. uint64_t fileSize; s = GetFileSize(fname, &fileSize); if (s.ok()) { // Will not map empty files if (fileSize == 0) { return IOError( "NewRandomAccessFile failed to map empty file: " + fname, EINVAL); } HANDLE hMap = CreateFileMappingA(hFile, NULL, PAGE_READONLY, 0, // Whole file at its present length 0, NULL); // Mapping name if (!hMap) { auto lastError = GetLastError(); return IOErrorFromWindowsError( "Failed to create file mapping for NewRandomAccessFile: " + fname, lastError); } UniqueCloseHandlePtr mapGuard(hMap, CloseHandleFunc); const void* mapped_region = MapViewOfFileEx(hMap, FILE_MAP_READ, 0, // High DWORD of access start 0, // Low DWORD static_cast(fileSize), NULL); // Let the OS choose the mapping if (!mapped_region) { auto lastError = GetLastError(); return IOErrorFromWindowsError( "Failed to MapViewOfFile for NewRandomAccessFile: " + fname, lastError); } result->reset(new WinMmapReadableFile(fname, hFile, hMap, mapped_region, static_cast(fileSize))); mapGuard.release(); fileGuard.release(); } } else { result->reset(new WinRandomAccessFile(fname, hFile, std::max(GetSectorSize(fname), page_size_), options)); fileGuard.release(); } return s; } Status WinEnvIO::OpenWritableFile(const std::string& fname, std::unique_ptr* result, const EnvOptions& options, bool reopen) { const size_t c_BufferCapacity = 64 * 1024; EnvOptions local_options(options); result->reset(); Status s; DWORD fileFlags = FILE_ATTRIBUTE_NORMAL; if (local_options.use_direct_writes && !local_options.use_mmap_writes) { fileFlags = FILE_FLAG_NO_BUFFERING | FILE_FLAG_WRITE_THROUGH; } // Desired access. We are want to write only here but if we want to memory // map // the file then there is no write only mode so we have to create it // Read/Write // However, MapViewOfFile specifies only Write only DWORD desired_access = GENERIC_WRITE; DWORD shared_mode = FILE_SHARE_READ; if (local_options.use_mmap_writes) { desired_access |= GENERIC_READ; } else { // Adding this solely for tests to pass (fault_injection_test, // wal_manager_test). shared_mode |= (FILE_SHARE_WRITE | FILE_SHARE_DELETE); } // This will always truncate the file DWORD creation_disposition = CREATE_ALWAYS; if (reopen) { creation_disposition = OPEN_ALWAYS; } HANDLE hFile = 0; { IOSTATS_TIMER_GUARD(open_nanos); hFile = CreateFileA( fname.c_str(), desired_access, // Access desired shared_mode, NULL, // Security attributes creation_disposition, // Posix env says (reopen) ? (O_CREATE | O_APPEND) : O_CREAT | O_TRUNC fileFlags, // Flags NULL); // Template File } if (INVALID_HANDLE_VALUE == hFile) { auto lastError = GetLastError(); return IOErrorFromWindowsError( "Failed to create a NewWriteableFile: " + fname, lastError); } // We will start writing at the end, appending if (reopen) { LARGE_INTEGER zero_move; zero_move.QuadPart = 0; BOOL ret = SetFilePointerEx(hFile, zero_move, NULL, FILE_END); if (!ret) { auto lastError = GetLastError(); return IOErrorFromWindowsError( "Failed to create a ReopenWritableFile move to the end: " + fname, lastError); } } if (options.use_mmap_writes) { // We usually do not use mmmapping on SSD and thus we pass memory // page_size result->reset(new WinMmapFile(fname, hFile, page_size_, allocation_granularity_, local_options)); } else { // Here we want the buffer allocation to be aligned by the SSD page size // and to be a multiple of it result->reset(new WinWritableFile(fname, hFile, std::max(GetSectorSize(fname), GetPageSize()), c_BufferCapacity, local_options)); } return s; } Status WinEnvIO::NewRandomRWFile(const std::string & fname, std::unique_ptr* result, const EnvOptions & options) { Status s; // Open the file for read-only random access // Random access is to disable read-ahead as the system reads too much data DWORD desired_access = GENERIC_READ | GENERIC_WRITE; DWORD shared_mode = FILE_SHARE_READ | FILE_SHARE_WRITE | FILE_SHARE_DELETE; DWORD creation_disposition = OPEN_EXISTING; // Fail if file does not exist DWORD file_flags = FILE_FLAG_RANDOM_ACCESS; if (options.use_direct_reads && options.use_direct_writes) { file_flags |= FILE_FLAG_NO_BUFFERING; } /// Shared access is necessary for corruption test to pass // almost all tests would work with a possible exception of fault_injection HANDLE hFile = 0; { IOSTATS_TIMER_GUARD(open_nanos); hFile = CreateFileA(fname.c_str(), desired_access, shared_mode, NULL, // Security attributes creation_disposition, file_flags, NULL); } if (INVALID_HANDLE_VALUE == hFile) { auto lastError = GetLastError(); return IOErrorFromWindowsError( "NewRandomRWFile failed to Create/Open: " + fname, lastError); } UniqueCloseHandlePtr fileGuard(hFile, CloseHandleFunc); result->reset(new WinRandomRWFile(fname, hFile, std::max(GetSectorSize(fname), GetPageSize()), options)); fileGuard.release(); return s; } Status WinEnvIO::NewMemoryMappedFileBuffer(const std::string & fname, std::unique_ptr* result) { Status s; result->reset(); DWORD fileFlags = FILE_ATTRIBUTE_READONLY; HANDLE hFile = INVALID_HANDLE_VALUE; { IOSTATS_TIMER_GUARD(open_nanos); hFile = CreateFileA( fname.c_str(), GENERIC_READ | GENERIC_WRITE, FILE_SHARE_READ | FILE_SHARE_WRITE | FILE_SHARE_DELETE, NULL, OPEN_EXISTING, // Open only if it exists fileFlags, NULL); } if (INVALID_HANDLE_VALUE == hFile) { auto lastError = GetLastError(); s = IOErrorFromWindowsError("Failed to open NewMemoryMappedFileBuffer: " + fname, lastError); return s; } UniqueCloseHandlePtr fileGuard(hFile, CloseHandleFunc); uint64_t fileSize = 0; s = GetFileSize(fname, &fileSize); if (!s.ok()) { return s; } // Will not map empty files if (fileSize == 0) { return Status::NotSupported("NewMemoryMappedFileBuffer can not map zero length files: " + fname); } // size_t is 32-bit with 32-bit builds if (fileSize > std::numeric_limits::max()) { return Status::NotSupported( "The specified file size does not fit into 32-bit memory addressing: " + fname); } HANDLE hMap = CreateFileMappingA(hFile, NULL, PAGE_READWRITE, 0, // Whole file at its present length 0, NULL); // Mapping name if (!hMap) { auto lastError = GetLastError(); return IOErrorFromWindowsError( "Failed to create file mapping for NewMemoryMappedFileBuffer: " + fname, lastError); } UniqueCloseHandlePtr mapGuard(hMap, CloseHandleFunc); void* base = MapViewOfFileEx(hMap, FILE_MAP_WRITE, 0, // High DWORD of access start 0, // Low DWORD static_cast(fileSize), NULL); // Let the OS choose the mapping if (!base) { auto lastError = GetLastError(); return IOErrorFromWindowsError( "Failed to MapViewOfFile for NewMemoryMappedFileBuffer: " + fname, lastError); } result->reset(new WinMemoryMappedBuffer(hFile, hMap, base, static_cast(fileSize))); mapGuard.release(); fileGuard.release(); return s; } Status WinEnvIO::NewDirectory(const std::string& name, std::unique_ptr* result) { Status s; // Must be nullptr on failure result->reset(); if (!DirExists(name)) { s = IOErrorFromWindowsError( "open folder: " + name, ERROR_DIRECTORY); return s; } HANDLE handle = INVALID_HANDLE_VALUE; // 0 - for access means read metadata { IOSTATS_TIMER_GUARD(open_nanos); handle = ::CreateFileA(name.c_str(), 0, FILE_SHARE_DELETE | FILE_SHARE_READ | FILE_SHARE_WRITE, NULL, OPEN_EXISTING, FILE_FLAG_BACKUP_SEMANTICS, // make opening folders possible NULL); } if (INVALID_HANDLE_VALUE == handle) { auto lastError = GetLastError(); s = IOErrorFromWindowsError( "open folder: " + name, lastError); return s; } result->reset(new WinDirectory(handle)); return s; } Status WinEnvIO::FileExists(const std::string& fname) { Status s; // TODO: This does not follow symbolic links at this point // which is consistent with _access() impl on windows // but can be added WIN32_FILE_ATTRIBUTE_DATA attrs; if (FALSE == GetFileAttributesExA(fname.c_str(), GetFileExInfoStandard, &attrs)) { auto lastError = GetLastError(); switch (lastError) { case ERROR_ACCESS_DENIED: case ERROR_NOT_FOUND: case ERROR_FILE_NOT_FOUND: case ERROR_PATH_NOT_FOUND: s = Status::NotFound(); break; default: s = IOErrorFromWindowsError("Unexpected error for: " + fname, lastError); break; } } return s; } Status WinEnvIO::GetChildren(const std::string& dir, std::vector* result) { Status status; result->clear(); std::vector output; WIN32_FIND_DATA data; std::string pattern(dir); pattern.append("\\").append("*"); HANDLE handle = ::FindFirstFileExA(pattern.c_str(), FindExInfoBasic, // Do not want alternative name &data, FindExSearchNameMatch, NULL, // lpSearchFilter 0); if (handle == INVALID_HANDLE_VALUE) { auto lastError = GetLastError(); switch (lastError) { case ERROR_NOT_FOUND: case ERROR_ACCESS_DENIED: case ERROR_FILE_NOT_FOUND: case ERROR_PATH_NOT_FOUND: status = Status::NotFound(); break; default: status = IOErrorFromWindowsError( "Failed to GetChhildren for: " + dir, lastError); } return status; } UniqueFindClosePtr fc(handle, FindCloseFunc); if (result->capacity() > 0) { output.reserve(result->capacity()); } // For safety data.cFileName[MAX_PATH - 1] = 0; while (true) { output.emplace_back(data.cFileName); BOOL ret =- ::FindNextFileA(handle, &data); // If the function fails the return value is zero // and non-zero otherwise. Not TRUE or FALSE. if (ret == FALSE) { // Posix does not care why we stopped break; } data.cFileName[MAX_PATH - 1] = 0; } output.swap(*result); return status; } Status WinEnvIO::CreateDir(const std::string& name) { Status result; BOOL ret = CreateDirectoryA(name.c_str(), NULL); if (!ret) { auto lastError = GetLastError(); result = IOErrorFromWindowsError( "Failed to create a directory: " + name, lastError); } return result; } Status WinEnvIO::CreateDirIfMissing(const std::string& name) { Status result; if (DirExists(name)) { return result; } BOOL ret = CreateDirectoryA(name.c_str(), NULL); if (!ret) { auto lastError = GetLastError(); if (lastError != ERROR_ALREADY_EXISTS) { result = IOErrorFromWindowsError( "Failed to create a directory: " + name, lastError); } else { result = Status::IOError(name + ": exists but is not a directory"); } } return result; } Status WinEnvIO::DeleteDir(const std::string& name) { Status result; BOOL ret = RemoveDirectoryA(name.c_str()); if (!ret) { auto lastError = GetLastError(); result = IOErrorFromWindowsError("Failed to remove dir: " + name, lastError); } return result; } Status WinEnvIO::GetFileSize(const std::string& fname, uint64_t* size) { Status s; WIN32_FILE_ATTRIBUTE_DATA attrs; if (GetFileAttributesExA(fname.c_str(), GetFileExInfoStandard, &attrs)) { ULARGE_INTEGER file_size; file_size.HighPart = attrs.nFileSizeHigh; file_size.LowPart = attrs.nFileSizeLow; *size = file_size.QuadPart; } else { auto lastError = GetLastError(); s = IOErrorFromWindowsError("Can not get size for: " + fname, lastError); } return s; } uint64_t WinEnvIO::FileTimeToUnixTime(const FILETIME& ftTime) { const uint64_t c_FileTimePerSecond = 10000000U; // UNIX epoch starts on 1970-01-01T00:00:00Z // Windows FILETIME starts on 1601-01-01T00:00:00Z // Therefore, we need to subtract the below number of seconds from // the seconds that we obtain from FILETIME with an obvious loss of // precision const uint64_t c_SecondBeforeUnixEpoch = 11644473600U; ULARGE_INTEGER li; li.HighPart = ftTime.dwHighDateTime; li.LowPart = ftTime.dwLowDateTime; uint64_t result = (li.QuadPart / c_FileTimePerSecond) - c_SecondBeforeUnixEpoch; return result; } Status WinEnvIO::GetFileModificationTime(const std::string& fname, uint64_t* file_mtime) { Status s; WIN32_FILE_ATTRIBUTE_DATA attrs; if (GetFileAttributesExA(fname.c_str(), GetFileExInfoStandard, &attrs)) { *file_mtime = FileTimeToUnixTime(attrs.ftLastWriteTime); } else { auto lastError = GetLastError(); s = IOErrorFromWindowsError( "Can not get file modification time for: " + fname, lastError); *file_mtime = 0; } return s; } Status WinEnvIO::RenameFile(const std::string& src, const std::string& target) { Status result; // rename() is not capable of replacing the existing file as on Linux // so use OS API directly if (!MoveFileExA(src.c_str(), target.c_str(), MOVEFILE_REPLACE_EXISTING)) { DWORD lastError = GetLastError(); std::string text("Failed to rename: "); text.append(src).append(" to: ").append(target); result = IOErrorFromWindowsError(text, lastError); } return result; } Status WinEnvIO::LinkFile(const std::string& src, const std::string& target) { Status result; if (!CreateHardLinkA(target.c_str(), src.c_str(), NULL)) { DWORD lastError = GetLastError(); if (lastError == ERROR_NOT_SAME_DEVICE) { return Status::NotSupported("No cross FS links allowed"); } std::string text("Failed to link: "); text.append(src).append(" to: ").append(target); result = IOErrorFromWindowsError(text, lastError); } return result; } Status WinEnvIO::NumFileLinks(const std::string& fname, uint64_t* count) { Status s; HANDLE handle = ::CreateFileA( fname.c_str(), 0, FILE_SHARE_DELETE | FILE_SHARE_READ | FILE_SHARE_WRITE, NULL, OPEN_EXISTING, FILE_FLAG_BACKUP_SEMANTICS, NULL); if (INVALID_HANDLE_VALUE == handle) { auto lastError = GetLastError(); s = IOErrorFromWindowsError("NumFileLinks: " + fname, lastError); return s; } UniqueCloseHandlePtr handle_guard(handle, CloseHandleFunc); FILE_STANDARD_INFO standard_info; if (0 != GetFileInformationByHandleEx(handle, FileStandardInfo, &standard_info, sizeof(standard_info))) { *count = standard_info.NumberOfLinks; } else { auto lastError = GetLastError(); s = IOErrorFromWindowsError("GetFileInformationByHandleEx: " + fname, lastError); } return s; } Status WinEnvIO::AreFilesSame(const std::string& first, const std::string& second, bool* res) { // For MinGW builds #if (_WIN32_WINNT == _WIN32_WINNT_VISTA) Status s = Status::NotSupported(); #else assert(res != nullptr); Status s; if (res == nullptr) { s = Status::InvalidArgument("res"); return s; } // 0 - for access means read metadata HANDLE file_1 = ::CreateFileA(first.c_str(), 0, FILE_SHARE_DELETE | FILE_SHARE_READ | FILE_SHARE_WRITE, NULL, OPEN_EXISTING, FILE_FLAG_BACKUP_SEMANTICS, // make opening folders possible NULL); if (INVALID_HANDLE_VALUE == file_1) { auto lastError = GetLastError(); s = IOErrorFromWindowsError( "open file: " + first, lastError); return s; } UniqueCloseHandlePtr g_1(file_1, CloseHandleFunc); HANDLE file_2 = ::CreateFileA(second.c_str(), 0, FILE_SHARE_DELETE | FILE_SHARE_READ | FILE_SHARE_WRITE, NULL, OPEN_EXISTING, FILE_FLAG_BACKUP_SEMANTICS, // make opening folders possible NULL); if (INVALID_HANDLE_VALUE == file_2) { auto lastError = GetLastError(); s = IOErrorFromWindowsError( "open file: " + second, lastError); return s; } UniqueCloseHandlePtr g_2(file_2, CloseHandleFunc); FILE_ID_INFO FileInfo_1; BOOL result = GetFileInformationByHandleEx(file_1, FileIdInfo, &FileInfo_1, sizeof(FileInfo_1)); if (!result) { auto lastError = GetLastError(); s = IOErrorFromWindowsError( "stat file: " + first, lastError); return s; } FILE_ID_INFO FileInfo_2; result = GetFileInformationByHandleEx(file_2, FileIdInfo, &FileInfo_2, sizeof(FileInfo_2)); if (!result) { auto lastError = GetLastError(); s = IOErrorFromWindowsError( "stat file: " + second, lastError); return s; } if (FileInfo_1.VolumeSerialNumber == FileInfo_2.VolumeSerialNumber) { *res = (0 == memcmp(FileInfo_1.FileId.Identifier, FileInfo_2.FileId.Identifier, sizeof(FileInfo_1.FileId.Identifier))); } else { *res = false; } #endif return s; } Status WinEnvIO::LockFile(const std::string& lockFname, FileLock** lock) { assert(lock != nullptr); *lock = NULL; Status result; // No-sharing, this is a LOCK file const DWORD ExclusiveAccessON = 0; // Obtain exclusive access to the LOCK file // Previously, instead of NORMAL attr we set DELETE on close and that worked // well except with fault_injection test that insists on deleting it. HANDLE hFile = 0; { IOSTATS_TIMER_GUARD(open_nanos); hFile = CreateFileA(lockFname.c_str(), (GENERIC_READ | GENERIC_WRITE), ExclusiveAccessON, NULL, CREATE_ALWAYS, FILE_ATTRIBUTE_NORMAL, NULL); } if (INVALID_HANDLE_VALUE == hFile) { auto lastError = GetLastError(); result = IOErrorFromWindowsError( "Failed to create lock file: " + lockFname, lastError); } else { *lock = new WinFileLock(hFile); } return result; } Status WinEnvIO::UnlockFile(FileLock* lock) { Status result; assert(lock != nullptr); delete lock; return result; } Status WinEnvIO::GetTestDirectory(std::string* result) { std::string output; const char* env = getenv("TEST_TMPDIR"); if (env && env[0] != '\0') { output = env; } else { env = getenv("TMP"); if (env && env[0] != '\0') { output = env; } else { output = "c:\\tmp"; } } CreateDir(output); output.append("\\testrocksdb-"); output.append(std::to_string(_getpid())); CreateDir(output); output.swap(*result); return Status::OK(); } Status WinEnvIO::NewLogger(const std::string& fname, std::shared_ptr* result) { Status s; result->reset(); HANDLE hFile = 0; { IOSTATS_TIMER_GUARD(open_nanos); hFile = CreateFileA( fname.c_str(), GENERIC_WRITE, FILE_SHARE_READ | FILE_SHARE_DELETE, // In RocksDb log files are // renamed and deleted before // they are closed. This enables // doing so. NULL, CREATE_ALWAYS, // Original fopen mode is "w" FILE_ATTRIBUTE_NORMAL, NULL); } if (INVALID_HANDLE_VALUE == hFile) { auto lastError = GetLastError(); s = IOErrorFromWindowsError("Failed to open LogFile" + fname, lastError); } else { { // With log files we want to set the true creation time as of now // because the system // for some reason caches the attributes of the previous file that just // been renamed from // this name so auto_roll_logger_test fails FILETIME ft; GetSystemTimeAsFileTime(&ft); // Set creation, last access and last write time to the same value SetFileTime(hFile, &ft, &ft, &ft); } result->reset(new WinLogger(&WinEnvThreads::gettid, hosted_env_, hFile)); } return s; } uint64_t WinEnvIO::NowMicros() { if (GetSystemTimePreciseAsFileTime_ != NULL) { // all std::chrono clocks on windows proved to return // values that may repeat that is not good enough for some uses. const int64_t c_UnixEpochStartTicks = 116444736000000000LL; const int64_t c_FtToMicroSec = 10; // This interface needs to return system time and not // just any microseconds because it is often used as an argument // to TimedWait() on condition variable FILETIME ftSystemTime; GetSystemTimePreciseAsFileTime_(&ftSystemTime); LARGE_INTEGER li; li.LowPart = ftSystemTime.dwLowDateTime; li.HighPart = ftSystemTime.dwHighDateTime; // Subtract unix epoch start li.QuadPart -= c_UnixEpochStartTicks; // Convert to microsecs li.QuadPart /= c_FtToMicroSec; return li.QuadPart; } using namespace std::chrono; return duration_cast(system_clock::now().time_since_epoch()).count(); } uint64_t WinEnvIO::NowNanos() { // all std::chrono clocks on windows have the same resolution that is only // good enough for microseconds but not nanoseconds // On Windows 8 and Windows 2012 Server // GetSystemTimePreciseAsFileTime(¤t_time) can be used LARGE_INTEGER li; QueryPerformanceCounter(&li); // Convert to nanoseconds first to avoid loss of precision // and divide by frequency li.QuadPart *= std::nano::den; li.QuadPart /= perf_counter_frequency_; return li.QuadPart; } Status WinEnvIO::GetHostName(char* name, uint64_t len) { Status s; DWORD nSize = static_cast( std::min(len, std::numeric_limits::max())); if (!::GetComputerNameA(name, &nSize)) { auto lastError = GetLastError(); s = IOErrorFromWindowsError("GetHostName", lastError); } else { name[nSize] = 0; } return s; } Status WinEnvIO::GetAbsolutePath(const std::string& db_path, std::string* output_path) { // Check if we already have an absolute path // For test compatibility we will consider starting slash as an // absolute path if ((!db_path.empty() && (db_path[0] == '\\' || db_path[0] == '/')) || !PathIsRelativeA(db_path.c_str())) { *output_path = db_path; return Status::OK(); } std::string result; result.resize(MAX_PATH); // Hopefully no changes the current directory while we do this // however _getcwd also suffers from the same limitation DWORD len = GetCurrentDirectoryA(MAX_PATH, &result[0]); if (len == 0) { auto lastError = GetLastError(); return IOErrorFromWindowsError("Failed to get current working directory", lastError); } result.resize(len); result.swap(*output_path); return Status::OK(); } std::string WinEnvIO::TimeToString(uint64_t secondsSince1970) { std::string result; const time_t seconds = secondsSince1970; const int maxsize = 64; struct tm t; errno_t ret = localtime_s(&t, &seconds); if (ret) { result = std::to_string(seconds); } else { result.resize(maxsize); char* p = &result[0]; int len = snprintf(p, maxsize, "%04d/%02d/%02d-%02d:%02d:%02d ", t.tm_year + 1900, t.tm_mon + 1, t.tm_mday, t.tm_hour, t.tm_min, t.tm_sec); assert(len > 0); result.resize(len); } return result; } EnvOptions WinEnvIO::OptimizeForLogWrite(const EnvOptions& env_options, const DBOptions& db_options) const { EnvOptions optimized(env_options); // These two the same as default optimizations optimized.bytes_per_sync = db_options.wal_bytes_per_sync; optimized.writable_file_max_buffer_size = db_options.writable_file_max_buffer_size; // This adversely affects %999 on windows optimized.use_mmap_writes = false; // Direct writes will produce a huge perf impact on // Windows. Pre-allocate space for WAL. optimized.use_direct_writes = false; return optimized; } EnvOptions WinEnvIO::OptimizeForManifestWrite( const EnvOptions& env_options) const { EnvOptions optimized(env_options); optimized.use_mmap_writes = false; optimized.use_direct_reads = false; return optimized; } EnvOptions WinEnvIO::OptimizeForManifestRead( const EnvOptions& env_options) const { EnvOptions optimized(env_options); optimized.use_mmap_writes = false; optimized.use_direct_reads = false; return optimized; } // Returns true iff the named directory exists and is a directory. bool WinEnvIO::DirExists(const std::string& dname) { WIN32_FILE_ATTRIBUTE_DATA attrs; if (GetFileAttributesExA(dname.c_str(), GetFileExInfoStandard, &attrs)) { return 0 != (attrs.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY); } return false; } size_t WinEnvIO::GetSectorSize(const std::string& fname) { size_t sector_size = kSectorSize; if (PathIsRelativeA(fname.c_str())) { return sector_size; } // obtain device handle char devicename[7] = "\\\\.\\"; int erresult = strncat_s(devicename, sizeof(devicename), fname.c_str(), 2); if (erresult) { assert(false); return sector_size; } HANDLE hDevice = CreateFile(devicename, 0, 0, nullptr, OPEN_EXISTING, FILE_ATTRIBUTE_NORMAL, nullptr); if (hDevice == INVALID_HANDLE_VALUE) { return sector_size; } STORAGE_PROPERTY_QUERY spropertyquery; spropertyquery.PropertyId = StorageAccessAlignmentProperty; spropertyquery.QueryType = PropertyStandardQuery; BYTE output_buffer[sizeof(STORAGE_ACCESS_ALIGNMENT_DESCRIPTOR)]; DWORD output_bytes = 0; BOOL ret = DeviceIoControl(hDevice, IOCTL_STORAGE_QUERY_PROPERTY, &spropertyquery, sizeof(spropertyquery), output_buffer, sizeof(STORAGE_ACCESS_ALIGNMENT_DESCRIPTOR), &output_bytes, nullptr); if (ret) { sector_size = ((STORAGE_ACCESS_ALIGNMENT_DESCRIPTOR *)output_buffer)->BytesPerLogicalSector; } else { // many devices do not support StorageProcessAlignmentProperty. Any failure here and we // fall back to logical alignment DISK_GEOMETRY_EX geometry = { 0 }; ret = DeviceIoControl(hDevice, IOCTL_DISK_GET_DRIVE_GEOMETRY, nullptr, 0, &geometry, sizeof(geometry), &output_bytes, nullptr); if (ret) { sector_size = geometry.Geometry.BytesPerSector; } } if (hDevice != INVALID_HANDLE_VALUE) { CloseHandle(hDevice); } return sector_size; } //////////////////////////////////////////////////////////////////////// // WinEnvThreads WinEnvThreads::WinEnvThreads(Env* hosted_env) : hosted_env_(hosted_env), thread_pools_(Env::Priority::TOTAL) { for (int pool_id = 0; pool_id < Env::Priority::TOTAL; ++pool_id) { thread_pools_[pool_id].SetThreadPriority( static_cast(pool_id)); // This allows later initializing the thread-local-env of each thread. thread_pools_[pool_id].SetHostEnv(hosted_env); } } WinEnvThreads::~WinEnvThreads() { WaitForJoin(); for (auto& thpool : thread_pools_) { thpool.JoinAllThreads(); } } void WinEnvThreads::Schedule(void(*function)(void*), void* arg, Env::Priority pri, void* tag, void(*unschedFunction)(void* arg)) { assert(pri >= Env::Priority::BOTTOM && pri <= Env::Priority::HIGH); thread_pools_[pri].Schedule(function, arg, tag, unschedFunction); } int WinEnvThreads::UnSchedule(void* arg, Env::Priority pri) { return thread_pools_[pri].UnSchedule(arg); } namespace { struct StartThreadState { void(*user_function)(void*); void* arg; }; void* StartThreadWrapper(void* arg) { std::unique_ptr state( reinterpret_cast(arg)); state->user_function(state->arg); return nullptr; } } void WinEnvThreads::StartThread(void(*function)(void* arg), void* arg) { std::unique_ptr state(new StartThreadState); state->user_function = function; state->arg = arg; try { rocksdb::port::WindowsThread th(&StartThreadWrapper, state.get()); state.release(); std::lock_guard lg(mu_); threads_to_join_.push_back(std::move(th)); } catch (const std::system_error& ex) { WinthreadCall("start thread", ex.code()); } } void WinEnvThreads::WaitForJoin() { for (auto& th : threads_to_join_) { th.join(); } threads_to_join_.clear(); } unsigned int WinEnvThreads::GetThreadPoolQueueLen(Env::Priority pri) const { assert(pri >= Env::Priority::BOTTOM && pri <= Env::Priority::HIGH); return thread_pools_[pri].GetQueueLen(); } uint64_t WinEnvThreads::gettid() { uint64_t thread_id = GetCurrentThreadId(); return thread_id; } uint64_t WinEnvThreads::GetThreadID() const { return gettid(); } void WinEnvThreads::SleepForMicroseconds(int micros) { std::this_thread::sleep_for(std::chrono::microseconds(micros)); } void WinEnvThreads::SetBackgroundThreads(int num, Env::Priority pri) { assert(pri >= Env::Priority::BOTTOM && pri <= Env::Priority::HIGH); thread_pools_[pri].SetBackgroundThreads(num); } int WinEnvThreads::GetBackgroundThreads(Env::Priority pri) { assert(pri >= Env::Priority::BOTTOM && pri <= Env::Priority::HIGH); return thread_pools_[pri].GetBackgroundThreads(); } void WinEnvThreads::IncBackgroundThreadsIfNeeded(int num, Env::Priority pri) { assert(pri >= Env::Priority::BOTTOM && pri <= Env::Priority::HIGH); thread_pools_[pri].IncBackgroundThreadsIfNeeded(num); } ///////////////////////////////////////////////////////////////////////// // WinEnv WinEnv::WinEnv() : winenv_io_(this), winenv_threads_(this) { // Protected member of the base class thread_status_updater_ = CreateThreadStatusUpdater(); } WinEnv::~WinEnv() { // All threads must be joined before the deletion of // thread_status_updater_. delete thread_status_updater_; } Status WinEnv::GetThreadList( std::vector* thread_list) { assert(thread_status_updater_); return thread_status_updater_->GetThreadList(thread_list); } Status WinEnv::DeleteFile(const std::string& fname) { return winenv_io_.DeleteFile(fname); } Status WinEnv::Truncate(const std::string& fname, size_t size) { return winenv_io_.Truncate(fname, size); } Status WinEnv::GetCurrentTime(int64_t* unix_time) { return winenv_io_.GetCurrentTime(unix_time); } Status WinEnv::NewSequentialFile(const std::string& fname, std::unique_ptr* result, const EnvOptions& options) { return winenv_io_.NewSequentialFile(fname, result, options); } Status WinEnv::NewRandomAccessFile(const std::string& fname, std::unique_ptr* result, const EnvOptions& options) { return winenv_io_.NewRandomAccessFile(fname, result, options); } Status WinEnv::NewWritableFile(const std::string& fname, std::unique_ptr* result, const EnvOptions& options) { return winenv_io_.OpenWritableFile(fname, result, options, false); } Status WinEnv::ReopenWritableFile(const std::string& fname, std::unique_ptr* result, const EnvOptions& options) { return winenv_io_.OpenWritableFile(fname, result, options, true); } Status WinEnv::NewRandomRWFile(const std::string & fname, std::unique_ptr* result, const EnvOptions & options) { return winenv_io_.NewRandomRWFile(fname, result, options); } Status WinEnv::NewMemoryMappedFileBuffer(const std::string& fname, std::unique_ptr* result) { return winenv_io_.NewMemoryMappedFileBuffer(fname, result); } Status WinEnv::NewDirectory(const std::string& name, std::unique_ptr* result) { return winenv_io_.NewDirectory(name, result); } Status WinEnv::FileExists(const std::string& fname) { return winenv_io_.FileExists(fname); } Status WinEnv::GetChildren(const std::string& dir, std::vector* result) { return winenv_io_.GetChildren(dir, result); } Status WinEnv::CreateDir(const std::string& name) { return winenv_io_.CreateDir(name); } Status WinEnv::CreateDirIfMissing(const std::string& name) { return winenv_io_.CreateDirIfMissing(name); } Status WinEnv::DeleteDir(const std::string& name) { return winenv_io_.DeleteDir(name); } Status WinEnv::GetFileSize(const std::string& fname, uint64_t* size) { return winenv_io_.GetFileSize(fname, size); } Status WinEnv::GetFileModificationTime(const std::string& fname, uint64_t* file_mtime) { return winenv_io_.GetFileModificationTime(fname, file_mtime); } Status WinEnv::RenameFile(const std::string& src, const std::string& target) { return winenv_io_.RenameFile(src, target); } Status WinEnv::LinkFile(const std::string& src, const std::string& target) { return winenv_io_.LinkFile(src, target); } Status WinEnv::NumFileLinks(const std::string& fname, uint64_t* count) { return winenv_io_.NumFileLinks(fname, count); } Status WinEnv::AreFilesSame(const std::string& first, const std::string& second, bool* res) { return winenv_io_.AreFilesSame(first, second, res); } Status WinEnv::LockFile(const std::string& lockFname, FileLock** lock) { return winenv_io_.LockFile(lockFname, lock); } Status WinEnv::UnlockFile(FileLock* lock) { return winenv_io_.UnlockFile(lock); } Status WinEnv::GetTestDirectory(std::string* result) { return winenv_io_.GetTestDirectory(result); } Status WinEnv::NewLogger(const std::string& fname, std::shared_ptr* result) { return winenv_io_.NewLogger(fname, result); } uint64_t WinEnv::NowMicros() { return winenv_io_.NowMicros(); } uint64_t WinEnv::NowNanos() { return winenv_io_.NowNanos(); } Status WinEnv::GetHostName(char* name, uint64_t len) { return winenv_io_.GetHostName(name, len); } Status WinEnv::GetAbsolutePath(const std::string& db_path, std::string* output_path) { return winenv_io_.GetAbsolutePath(db_path, output_path); } std::string WinEnv::TimeToString(uint64_t secondsSince1970) { return winenv_io_.TimeToString(secondsSince1970); } void WinEnv::Schedule(void(*function)(void*), void* arg, Env::Priority pri, void* tag, void(*unschedFunction)(void* arg)) { return winenv_threads_.Schedule(function, arg, pri, tag, unschedFunction); } int WinEnv::UnSchedule(void* arg, Env::Priority pri) { return winenv_threads_.UnSchedule(arg, pri); } void WinEnv::StartThread(void(*function)(void* arg), void* arg) { return winenv_threads_.StartThread(function, arg); } void WinEnv::WaitForJoin() { return winenv_threads_.WaitForJoin(); } unsigned int WinEnv::GetThreadPoolQueueLen(Env::Priority pri) const { return winenv_threads_.GetThreadPoolQueueLen(pri); } uint64_t WinEnv::GetThreadID() const { return winenv_threads_.GetThreadID(); } void WinEnv::SleepForMicroseconds(int micros) { return winenv_threads_.SleepForMicroseconds(micros); } // Allow increasing the number of worker threads. void WinEnv::SetBackgroundThreads(int num, Env::Priority pri) { return winenv_threads_.SetBackgroundThreads(num, pri); } int WinEnv::GetBackgroundThreads(Env::Priority pri) { return winenv_threads_.GetBackgroundThreads(pri); } void WinEnv::IncBackgroundThreadsIfNeeded(int num, Env::Priority pri) { return winenv_threads_.IncBackgroundThreadsIfNeeded(num, pri); } EnvOptions WinEnv::OptimizeForManifestRead( const EnvOptions& env_options) const { return winenv_io_.OptimizeForManifestRead(env_options); } EnvOptions WinEnv::OptimizeForLogWrite(const EnvOptions& env_options, const DBOptions& db_options) const { return winenv_io_.OptimizeForLogWrite(env_options, db_options); } EnvOptions WinEnv::OptimizeForManifestWrite( const EnvOptions& env_options) const { return winenv_io_.OptimizeForManifestWrite(env_options); } } // namespace port std::string Env::GenerateUniqueId() { std::string result; UUID uuid; UuidCreateSequential(&uuid); RPC_CSTR rpc_str; auto status = UuidToStringA(&uuid, &rpc_str); (void)status; assert(status == RPC_S_OK); result = reinterpret_cast(rpc_str); status = RpcStringFreeA(&rpc_str); assert(status == RPC_S_OK); return result; } } // namespace rocksdb rocksdb-5.17.2/port/win/env_win.h000066400000000000000000000240141337235545400166500ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. // // An Env is an interface used by the rocksdb implementation to access // operating system functionality like the filesystem etc. Callers // may wish to provide a custom Env object when opening a database to // get fine gain control; e.g., to rate limit file system operations. // // All Env implementations are safe for concurrent access from // multiple threads without any external synchronization. #pragma once #include "port/win/win_thread.h" #include #include "util/threadpool_imp.h" #include #include #include #include #include #undef GetCurrentTime #undef DeleteFile #undef GetTickCount namespace rocksdb { namespace port { // Currently not designed for inheritance but rather a replacement class WinEnvThreads { public: explicit WinEnvThreads(Env* hosted_env); ~WinEnvThreads(); WinEnvThreads(const WinEnvThreads&) = delete; WinEnvThreads& operator=(const WinEnvThreads&) = delete; void Schedule(void(*function)(void*), void* arg, Env::Priority pri, void* tag, void(*unschedFunction)(void* arg)); int UnSchedule(void* arg, Env::Priority pri); void StartThread(void(*function)(void* arg), void* arg); void WaitForJoin(); unsigned int GetThreadPoolQueueLen(Env::Priority pri) const; static uint64_t gettid(); uint64_t GetThreadID() const; void SleepForMicroseconds(int micros); // Allow increasing the number of worker threads. void SetBackgroundThreads(int num, Env::Priority pri); int GetBackgroundThreads(Env::Priority pri); void IncBackgroundThreadsIfNeeded(int num, Env::Priority pri); private: Env* hosted_env_; mutable std::mutex mu_; std::vector thread_pools_; std::vector threads_to_join_; }; // Designed for inheritance so can be re-used // but certain parts replaced class WinEnvIO { public: explicit WinEnvIO(Env* hosted_env); virtual ~WinEnvIO(); virtual Status DeleteFile(const std::string& fname); Status Truncate(const std::string& fname, size_t size); virtual Status GetCurrentTime(int64_t* unix_time); virtual Status NewSequentialFile(const std::string& fname, std::unique_ptr* result, const EnvOptions& options); // Helper for NewWritable and ReopenWritableFile virtual Status OpenWritableFile(const std::string& fname, std::unique_ptr* result, const EnvOptions& options, bool reopen); virtual Status NewRandomAccessFile(const std::string& fname, std::unique_ptr* result, const EnvOptions& options); // The returned file will only be accessed by one thread at a time. virtual Status NewRandomRWFile(const std::string& fname, unique_ptr* result, const EnvOptions& options); virtual Status NewMemoryMappedFileBuffer( const std::string& fname, std::unique_ptr* result); virtual Status NewDirectory(const std::string& name, std::unique_ptr* result); virtual Status FileExists(const std::string& fname); virtual Status GetChildren(const std::string& dir, std::vector* result); virtual Status CreateDir(const std::string& name); virtual Status CreateDirIfMissing(const std::string& name); virtual Status DeleteDir(const std::string& name); virtual Status GetFileSize(const std::string& fname, uint64_t* size); static uint64_t FileTimeToUnixTime(const FILETIME& ftTime); virtual Status GetFileModificationTime(const std::string& fname, uint64_t* file_mtime); virtual Status RenameFile(const std::string& src, const std::string& target); virtual Status LinkFile(const std::string& src, const std::string& target); virtual Status NumFileLinks(const std::string& /*fname*/, uint64_t* /*count*/); virtual Status AreFilesSame(const std::string& first, const std::string& second, bool* res); virtual Status LockFile(const std::string& lockFname, FileLock** lock); virtual Status UnlockFile(FileLock* lock); virtual Status GetTestDirectory(std::string* result); virtual Status NewLogger(const std::string& fname, std::shared_ptr* result); virtual uint64_t NowMicros(); virtual uint64_t NowNanos(); virtual Status GetHostName(char* name, uint64_t len); virtual Status GetAbsolutePath(const std::string& db_path, std::string* output_path); virtual std::string TimeToString(uint64_t secondsSince1970); virtual EnvOptions OptimizeForLogWrite(const EnvOptions& env_options, const DBOptions& db_options) const; virtual EnvOptions OptimizeForManifestWrite( const EnvOptions& env_options) const; virtual EnvOptions OptimizeForManifestRead( const EnvOptions& env_options) const; size_t GetPageSize() const { return page_size_; } size_t GetAllocationGranularity() const { return allocation_granularity_; } uint64_t GetPerfCounterFrequency() const { return perf_counter_frequency_; } static size_t GetSectorSize(const std::string& fname); private: // Returns true iff the named directory exists and is a directory. virtual bool DirExists(const std::string& dname); typedef VOID(WINAPI * FnGetSystemTimePreciseAsFileTime)(LPFILETIME); Env* hosted_env_; size_t page_size_; size_t allocation_granularity_; uint64_t perf_counter_frequency_; FnGetSystemTimePreciseAsFileTime GetSystemTimePreciseAsFileTime_; }; class WinEnv : public Env { public: WinEnv(); ~WinEnv(); Status DeleteFile(const std::string& fname) override; Status Truncate(const std::string& fname, size_t size) override; Status GetCurrentTime(int64_t* unix_time) override; Status NewSequentialFile(const std::string& fname, std::unique_ptr* result, const EnvOptions& options) override; Status NewRandomAccessFile(const std::string& fname, std::unique_ptr* result, const EnvOptions& options) override; Status NewWritableFile(const std::string& fname, std::unique_ptr* result, const EnvOptions& options) override; // Create an object that writes to a new file with the specified // name. Deletes any existing file with the same name and creates a // new file. On success, stores a pointer to the new file in // *result and returns OK. On failure stores nullptr in *result and // returns non-OK. // // The returned file will only be accessed by one thread at a time. Status ReopenWritableFile(const std::string& fname, std::unique_ptr* result, const EnvOptions& options) override; // The returned file will only be accessed by one thread at a time. Status NewRandomRWFile(const std::string& fname, std::unique_ptr* result, const EnvOptions& options) override; Status NewMemoryMappedFileBuffer( const std::string& fname, std::unique_ptr* result) override; Status NewDirectory(const std::string& name, std::unique_ptr* result) override; Status FileExists(const std::string& fname) override; Status GetChildren(const std::string& dir, std::vector* result) override; Status CreateDir(const std::string& name) override; Status CreateDirIfMissing(const std::string& name) override; Status DeleteDir(const std::string& name) override; Status GetFileSize(const std::string& fname, uint64_t* size) override; Status GetFileModificationTime(const std::string& fname, uint64_t* file_mtime) override; Status RenameFile(const std::string& src, const std::string& target) override; Status LinkFile(const std::string& src, const std::string& target) override; Status NumFileLinks(const std::string& fname, uint64_t* count) override; Status AreFilesSame(const std::string& first, const std::string& second, bool* res) override; Status LockFile(const std::string& lockFname, FileLock** lock) override; Status UnlockFile(FileLock* lock) override; Status GetTestDirectory(std::string* result) override; Status NewLogger(const std::string& fname, std::shared_ptr* result) override; uint64_t NowMicros() override; uint64_t NowNanos() override; Status GetHostName(char* name, uint64_t len) override; Status GetAbsolutePath(const std::string& db_path, std::string* output_path) override; std::string TimeToString(uint64_t secondsSince1970) override; Status GetThreadList( std::vector* thread_list) override; void Schedule(void(*function)(void*), void* arg, Env::Priority pri, void* tag, void(*unschedFunction)(void* arg)) override; int UnSchedule(void* arg, Env::Priority pri) override; void StartThread(void(*function)(void* arg), void* arg) override; void WaitForJoin(); unsigned int GetThreadPoolQueueLen(Env::Priority pri) const override; uint64_t GetThreadID() const override; void SleepForMicroseconds(int micros) override; // Allow increasing the number of worker threads. void SetBackgroundThreads(int num, Env::Priority pri) override; int GetBackgroundThreads(Env::Priority pri) override; void IncBackgroundThreadsIfNeeded(int num, Env::Priority pri) override; EnvOptions OptimizeForManifestRead( const EnvOptions& env_options) const override; EnvOptions OptimizeForLogWrite(const EnvOptions& env_options, const DBOptions& db_options) const override; EnvOptions OptimizeForManifestWrite( const EnvOptions& env_options) const override; private: WinEnvIO winenv_io_; WinEnvThreads winenv_threads_; }; } // namespace port } // namespace rocksdb rocksdb-5.17.2/port/win/io_win.cc000066400000000000000000000751451337235545400166400ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "port/win/io_win.h" #include "monitoring/iostats_context_imp.h" #include "util/aligned_buffer.h" #include "util/coding.h" #include "util/sync_point.h" namespace rocksdb { namespace port { /* * DirectIOHelper */ namespace { const size_t kSectorSize = 512; inline bool IsPowerOfTwo(const size_t alignment) { return ((alignment) & (alignment - 1)) == 0; } inline bool IsSectorAligned(const size_t off) { return (off & (kSectorSize - 1)) == 0; } inline bool IsAligned(size_t alignment, const void* ptr) { return ((uintptr_t(ptr)) & (alignment - 1)) == 0; } } std::string GetWindowsErrSz(DWORD err) { LPSTR lpMsgBuf; FormatMessageA(FORMAT_MESSAGE_ALLOCATE_BUFFER | FORMAT_MESSAGE_FROM_SYSTEM | FORMAT_MESSAGE_IGNORE_INSERTS, NULL, err, 0, // Default language reinterpret_cast(&lpMsgBuf), 0, NULL); std::string Err = lpMsgBuf; LocalFree(lpMsgBuf); return Err; } // We preserve the original name of this interface to denote the original idea // behind it. // All reads happen by a specified offset and pwrite interface does not change // the position of the file pointer. Judging from the man page and errno it does // execute // lseek atomically to return the position of the file back where it was. // WriteFile() does not // have this capability. Therefore, for both pread and pwrite the pointer is // advanced to the next position // which is fine for writes because they are (should be) sequential. // Because all the reads/writes happen by the specified offset, the caller in // theory should not // rely on the current file offset. Status pwrite(const WinFileData* file_data, const Slice& data, uint64_t offset, size_t& bytes_written) { Status s; bytes_written = 0; size_t num_bytes = data.size(); if (num_bytes > std::numeric_limits::max()) { // May happen in 64-bit builds where size_t is 64-bits but // long is still 32-bit, but that's the API here at the moment return Status::InvalidArgument("num_bytes is too large for a single write: " + file_data->GetName()); } OVERLAPPED overlapped = { 0 }; ULARGE_INTEGER offsetUnion; offsetUnion.QuadPart = offset; overlapped.Offset = offsetUnion.LowPart; overlapped.OffsetHigh = offsetUnion.HighPart; DWORD bytesWritten = 0; if (FALSE == WriteFile(file_data->GetFileHandle(), data.data(), static_cast(num_bytes), &bytesWritten, &overlapped)) { auto lastError = GetLastError(); s = IOErrorFromWindowsError("WriteFile failed: " + file_data->GetName(), lastError); } else { bytes_written = bytesWritten; } return s; } // See comments for pwrite above Status pread(const WinFileData* file_data, char* src, size_t num_bytes, uint64_t offset, size_t& bytes_read) { Status s; bytes_read = 0; if (num_bytes > std::numeric_limits::max()) { return Status::InvalidArgument("num_bytes is too large for a single read: " + file_data->GetName()); } OVERLAPPED overlapped = { 0 }; ULARGE_INTEGER offsetUnion; offsetUnion.QuadPart = offset; overlapped.Offset = offsetUnion.LowPart; overlapped.OffsetHigh = offsetUnion.HighPart; DWORD bytesRead = 0; if (FALSE == ReadFile(file_data->GetFileHandle(), src, static_cast(num_bytes), &bytesRead, &overlapped)) { auto lastError = GetLastError(); // EOF is OK with zero bytes read if (lastError != ERROR_HANDLE_EOF) { s = IOErrorFromWindowsError("ReadFile failed: " + file_data->GetName(), lastError); } } else { bytes_read = bytesRead; } return s; } // SetFileInformationByHandle() is capable of fast pre-allocates. // However, this does not change the file end position unless the file is // truncated and the pre-allocated space is not considered filled with zeros. Status fallocate(const std::string& filename, HANDLE hFile, uint64_t to_size) { Status status; FILE_ALLOCATION_INFO alloc_info; alloc_info.AllocationSize.QuadPart = to_size; if (!SetFileInformationByHandle(hFile, FileAllocationInfo, &alloc_info, sizeof(FILE_ALLOCATION_INFO))) { auto lastError = GetLastError(); status = IOErrorFromWindowsError( "Failed to pre-allocate space: " + filename, lastError); } return status; } Status ftruncate(const std::string& filename, HANDLE hFile, uint64_t toSize) { Status status; FILE_END_OF_FILE_INFO end_of_file; end_of_file.EndOfFile.QuadPart = toSize; if (!SetFileInformationByHandle(hFile, FileEndOfFileInfo, &end_of_file, sizeof(FILE_END_OF_FILE_INFO))) { auto lastError = GetLastError(); status = IOErrorFromWindowsError("Failed to Set end of file: " + filename, lastError); } return status; } size_t GetUniqueIdFromFile(HANDLE hFile, char* id, size_t max_size) { if (max_size < kMaxVarint64Length * 3) { return 0; } #if (_WIN32_WINNT == _WIN32_WINNT_VISTA) // MINGGW as defined by CMake file. // yuslepukhin: I hate the guts of the above macros. // This impl does not guarantee uniqueness everywhere // is reasonably good BY_HANDLE_FILE_INFORMATION FileInfo; BOOL result = GetFileInformationByHandle(hFile, &FileInfo); TEST_SYNC_POINT_CALLBACK("GetUniqueIdFromFile:FS_IOC_GETVERSION", &result); if (!result) { return 0; } char* rid = id; rid = EncodeVarint64(rid, uint64_t(FileInfo.dwVolumeSerialNumber)); rid = EncodeVarint64(rid, uint64_t(FileInfo.nFileIndexHigh)); rid = EncodeVarint64(rid, uint64_t(FileInfo.nFileIndexLow)); assert(rid >= id); return static_cast(rid - id); #else FILE_ID_INFO FileInfo; BOOL result = GetFileInformationByHandleEx(hFile, FileIdInfo, &FileInfo, sizeof(FileInfo)); TEST_SYNC_POINT_CALLBACK("GetUniqueIdFromFile:FS_IOC_GETVERSION", &result); if (!result) { return 0; } static_assert(sizeof(uint64_t) == sizeof(FileInfo.VolumeSerialNumber), "Wrong sizeof expectations"); // FileId.Identifier is an array of 16 BYTEs, we encode them as two uint64_t static_assert(sizeof(uint64_t) * 2 == sizeof(FileInfo.FileId.Identifier), "Wrong sizeof expectations"); char* rid = id; rid = EncodeVarint64(rid, uint64_t(FileInfo.VolumeSerialNumber)); uint64_t* file_id = reinterpret_cast(&FileInfo.FileId.Identifier[0]); rid = EncodeVarint64(rid, *file_id); ++file_id; rid = EncodeVarint64(rid, *file_id); assert(rid >= id); return static_cast(rid - id); #endif } //////////////////////////////////////////////////////////////////////////////////////////////////// // WinMmapReadableFile WinMmapReadableFile::WinMmapReadableFile(const std::string& fileName, HANDLE hFile, HANDLE hMap, const void* mapped_region, size_t length) : WinFileData(fileName, hFile, false /* use_direct_io */), hMap_(hMap), mapped_region_(mapped_region), length_(length) {} WinMmapReadableFile::~WinMmapReadableFile() { BOOL ret __attribute__((__unused__)); ret = ::UnmapViewOfFile(mapped_region_); assert(ret); ret = ::CloseHandle(hMap_); assert(ret); } Status WinMmapReadableFile::Read(uint64_t offset, size_t n, Slice* result, char* scratch) const { Status s; if (offset > length_) { *result = Slice(); return IOError(filename_, EINVAL); } else if (offset + n > length_) { n = length_ - static_cast(offset); } *result = Slice(reinterpret_cast(mapped_region_)+offset, n); return s; } Status WinMmapReadableFile::InvalidateCache(size_t offset, size_t length) { return Status::OK(); } size_t WinMmapReadableFile::GetUniqueId(char* id, size_t max_size) const { return GetUniqueIdFromFile(hFile_, id, max_size); } /////////////////////////////////////////////////////////////////////////////// /// WinMmapFile // Can only truncate or reserve to a sector size aligned if // used on files that are opened with Unbuffered I/O Status WinMmapFile::TruncateFile(uint64_t toSize) { return ftruncate(filename_, hFile_, toSize); } Status WinMmapFile::UnmapCurrentRegion() { Status status; if (mapped_begin_ != nullptr) { if (!::UnmapViewOfFile(mapped_begin_)) { status = IOErrorFromWindowsError( "Failed to unmap file view: " + filename_, GetLastError()); } // Move on to the next portion of the file file_offset_ += view_size_; // UnmapView automatically sends data to disk but not the metadata // which is good and provides some equivalent of fdatasync() on Linux // therefore, we donot need separate flag for metadata mapped_begin_ = nullptr; mapped_end_ = nullptr; dst_ = nullptr; last_sync_ = nullptr; pending_sync_ = false; } return status; } Status WinMmapFile::MapNewRegion() { Status status; assert(mapped_begin_ == nullptr); size_t minDiskSize = static_cast(file_offset_) + view_size_; if (minDiskSize > reserved_size_) { status = Allocate(file_offset_, view_size_); if (!status.ok()) { return status; } } // Need to remap if (hMap_ == NULL || reserved_size_ > mapping_size_) { if (hMap_ != NULL) { // Unmap the previous one BOOL ret __attribute__((__unused__)); ret = ::CloseHandle(hMap_); assert(ret); hMap_ = NULL; } ULARGE_INTEGER mappingSize; mappingSize.QuadPart = reserved_size_; hMap_ = CreateFileMappingA( hFile_, NULL, // Security attributes PAGE_READWRITE, // There is not a write only mode for mapping mappingSize.HighPart, // Enable mapping the whole file but the actual // amount mapped is determined by MapViewOfFile mappingSize.LowPart, NULL); // Mapping name if (NULL == hMap_) { return IOErrorFromWindowsError( "WindowsMmapFile failed to create file mapping for: " + filename_, GetLastError()); } mapping_size_ = reserved_size_; } ULARGE_INTEGER offset; offset.QuadPart = file_offset_; // View must begin at the granularity aligned offset mapped_begin_ = reinterpret_cast( MapViewOfFileEx(hMap_, FILE_MAP_WRITE, offset.HighPart, offset.LowPart, view_size_, NULL)); if (!mapped_begin_) { status = IOErrorFromWindowsError( "WindowsMmapFile failed to map file view: " + filename_, GetLastError()); } else { mapped_end_ = mapped_begin_ + view_size_; dst_ = mapped_begin_; last_sync_ = mapped_begin_; pending_sync_ = false; } return status; } Status WinMmapFile::PreallocateInternal(uint64_t spaceToReserve) { return fallocate(filename_, hFile_, spaceToReserve); } WinMmapFile::WinMmapFile(const std::string& fname, HANDLE hFile, size_t page_size, size_t allocation_granularity, const EnvOptions& options) : WinFileData(fname, hFile, false), hMap_(NULL), page_size_(page_size), allocation_granularity_(allocation_granularity), reserved_size_(0), mapping_size_(0), view_size_(0), mapped_begin_(nullptr), mapped_end_(nullptr), dst_(nullptr), last_sync_(nullptr), file_offset_(0), pending_sync_(false) { // Allocation granularity must be obtained from GetSystemInfo() and must be // a power of two. assert(allocation_granularity > 0); assert((allocation_granularity & (allocation_granularity - 1)) == 0); assert(page_size > 0); assert((page_size & (page_size - 1)) == 0); // Only for memory mapped writes assert(options.use_mmap_writes); // View size must be both the multiple of allocation_granularity AND the // page size and the granularity is usually a multiple of a page size. const size_t viewSize = 32 * 1024; // 32Kb similar to the Windows File Cache in buffered mode view_size_ = Roundup(viewSize, allocation_granularity_); } WinMmapFile::~WinMmapFile() { if (hFile_) { this->Close(); } } Status WinMmapFile::Append(const Slice& data) { const char* src = data.data(); size_t left = data.size(); while (left > 0) { assert(mapped_begin_ <= dst_); size_t avail = mapped_end_ - dst_; if (avail == 0) { Status s = UnmapCurrentRegion(); if (s.ok()) { s = MapNewRegion(); } if (!s.ok()) { return s; } } else { size_t n = std::min(left, avail); memcpy(dst_, src, n); dst_ += n; src += n; left -= n; pending_sync_ = true; } } // Now make sure that the last partial page is padded with zeros if needed size_t bytesToPad = Roundup(size_t(dst_), page_size_) - size_t(dst_); if (bytesToPad > 0) { memset(dst_, 0, bytesToPad); } return Status::OK(); } // Means Close() will properly take care of truncate // and it does not need any additional information Status WinMmapFile::Truncate(uint64_t size) { return Status::OK(); } Status WinMmapFile::Close() { Status s; assert(NULL != hFile_); // We truncate to the precise size so no // uninitialized data at the end. SetEndOfFile // which we use does not write zeros and it is good. uint64_t targetSize = GetFileSize(); if (mapped_begin_ != nullptr) { // Sync before unmapping to make sure everything // is on disk and there is not a lazy writing // so we are deterministic with the tests Sync(); s = UnmapCurrentRegion(); } if (NULL != hMap_) { BOOL ret = ::CloseHandle(hMap_); if (!ret && s.ok()) { auto lastError = GetLastError(); s = IOErrorFromWindowsError( "Failed to Close mapping for file: " + filename_, lastError); } hMap_ = NULL; } if (hFile_ != NULL) { TruncateFile(targetSize); BOOL ret = ::CloseHandle(hFile_); hFile_ = NULL; if (!ret && s.ok()) { auto lastError = GetLastError(); s = IOErrorFromWindowsError( "Failed to close file map handle: " + filename_, lastError); } } return s; } Status WinMmapFile::Flush() { return Status::OK(); } // Flush only data Status WinMmapFile::Sync() { Status s; // Some writes occurred since last sync if (dst_ > last_sync_) { assert(mapped_begin_); assert(dst_); assert(dst_ > mapped_begin_); assert(dst_ < mapped_end_); size_t page_begin = TruncateToPageBoundary(page_size_, last_sync_ - mapped_begin_); size_t page_end = TruncateToPageBoundary(page_size_, dst_ - mapped_begin_ - 1); // Flush only the amount of that is a multiple of pages if (!::FlushViewOfFile(mapped_begin_ + page_begin, (page_end - page_begin) + page_size_)) { s = IOErrorFromWindowsError("Failed to FlushViewOfFile: " + filename_, GetLastError()); } else { last_sync_ = dst_; } } return s; } /** * Flush data as well as metadata to stable storage. */ Status WinMmapFile::Fsync() { Status s = Sync(); // Flush metadata if (s.ok() && pending_sync_) { if (!::FlushFileBuffers(hFile_)) { s = IOErrorFromWindowsError("Failed to FlushFileBuffers: " + filename_, GetLastError()); } pending_sync_ = false; } return s; } /** * Get the size of valid data in the file. This will not match the * size that is returned from the filesystem because we use mmap * to extend file by map_size every time. */ uint64_t WinMmapFile::GetFileSize() { size_t used = dst_ - mapped_begin_; return file_offset_ + used; } Status WinMmapFile::InvalidateCache(size_t offset, size_t length) { return Status::OK(); } Status WinMmapFile::Allocate(uint64_t offset, uint64_t len) { Status status; TEST_KILL_RANDOM("WinMmapFile::Allocate", rocksdb_kill_odds); // Make sure that we reserve an aligned amount of space // since the reservation block size is driven outside so we want // to check if we are ok with reservation here size_t spaceToReserve = Roundup(static_cast(offset + len), view_size_); // Nothing to do if (spaceToReserve <= reserved_size_) { return status; } IOSTATS_TIMER_GUARD(allocate_nanos); status = PreallocateInternal(spaceToReserve); if (status.ok()) { reserved_size_ = spaceToReserve; } return status; } size_t WinMmapFile::GetUniqueId(char* id, size_t max_size) const { return GetUniqueIdFromFile(hFile_, id, max_size); } ////////////////////////////////////////////////////////////////////////////////// // WinSequentialFile WinSequentialFile::WinSequentialFile(const std::string& fname, HANDLE f, const EnvOptions& options) : WinFileData(fname, f, options.use_direct_reads) {} WinSequentialFile::~WinSequentialFile() { assert(hFile_ != INVALID_HANDLE_VALUE); } Status WinSequentialFile::Read(size_t n, Slice* result, char* scratch) { Status s; size_t r = 0; assert(result != nullptr); if (WinFileData::use_direct_io()) { return Status::NotSupported("Read() does not support direct_io"); } // Windows ReadFile API accepts a DWORD. // While it is possible to read in a loop if n is too big // it is an unlikely case. if (n > std::numeric_limits::max()) { return Status::InvalidArgument("n is too big for a single ReadFile: " + filename_); } DWORD bytesToRead = static_cast(n); //cast is safe due to the check above DWORD bytesRead = 0; BOOL ret = ReadFile(hFile_, scratch, bytesToRead, &bytesRead, NULL); if (ret != FALSE) { r = bytesRead; } else { auto lastError = GetLastError(); if (lastError != ERROR_HANDLE_EOF) { s = IOErrorFromWindowsError("ReadFile failed: " + filename_, lastError); } } *result = Slice(scratch, r); return s; } Status WinSequentialFile::PositionedReadInternal(char* src, size_t numBytes, uint64_t offset, size_t& bytes_read) const { return pread(this, src, numBytes, offset, bytes_read); } Status WinSequentialFile::PositionedRead(uint64_t offset, size_t n, Slice* result, char* scratch) { Status s; if (!WinFileData::use_direct_io()) { return Status::NotSupported("This function is only used for direct_io"); } if (!IsSectorAligned(static_cast(offset)) || !IsSectorAligned(n)) { return Status::InvalidArgument( "WinSequentialFile::PositionedRead: offset is not properly aligned"); } size_t bytes_read = 0; // out param s = PositionedReadInternal(scratch, static_cast(n), offset, bytes_read); *result = Slice(scratch, bytes_read); return s; } Status WinSequentialFile::Skip(uint64_t n) { // Can't handle more than signed max as SetFilePointerEx accepts a signed 64-bit // integer. As such it is a highly unlikley case to have n so large. if (n > static_cast(std::numeric_limits::max())) { return Status::InvalidArgument("n is too large for a single SetFilePointerEx() call" + filename_); } LARGE_INTEGER li; li.QuadPart = static_cast(n); //cast is safe due to the check above BOOL ret = SetFilePointerEx(hFile_, li, NULL, FILE_CURRENT); if (ret == FALSE) { auto lastError = GetLastError(); return IOErrorFromWindowsError("Skip SetFilePointerEx():" + filename_, lastError); } return Status::OK(); } Status WinSequentialFile::InvalidateCache(size_t offset, size_t length) { return Status::OK(); } ////////////////////////////////////////////////////////////////////////////////////////////////// /// WinRandomAccessBase inline Status WinRandomAccessImpl::PositionedReadInternal(char* src, size_t numBytes, uint64_t offset, size_t& bytes_read) const { return pread(file_base_, src, numBytes, offset, bytes_read); } inline WinRandomAccessImpl::WinRandomAccessImpl(WinFileData* file_base, size_t alignment, const EnvOptions& options) : file_base_(file_base), alignment_(alignment) { assert(!options.use_mmap_reads); } inline Status WinRandomAccessImpl::ReadImpl(uint64_t offset, size_t n, Slice* result, char* scratch) const { Status s; // Check buffer alignment if (file_base_->use_direct_io()) { if (!IsSectorAligned(static_cast(offset)) || !IsAligned(alignment_, scratch)) { return Status::InvalidArgument( "WinRandomAccessImpl::ReadImpl: offset or scratch is not properly aligned"); } } if (n == 0) { *result = Slice(scratch, 0); return s; } size_t bytes_read = 0; s = PositionedReadInternal(scratch, n, offset, bytes_read); *result = Slice(scratch, bytes_read); return s; } /////////////////////////////////////////////////////////////////////////////////////////////////// /// WinRandomAccessFile WinRandomAccessFile::WinRandomAccessFile(const std::string& fname, HANDLE hFile, size_t alignment, const EnvOptions& options) : WinFileData(fname, hFile, options.use_direct_reads), WinRandomAccessImpl(this, alignment, options) {} WinRandomAccessFile::~WinRandomAccessFile() { } Status WinRandomAccessFile::Read(uint64_t offset, size_t n, Slice* result, char* scratch) const { return ReadImpl(offset, n, result, scratch); } Status WinRandomAccessFile::InvalidateCache(size_t offset, size_t length) { return Status::OK(); } size_t WinRandomAccessFile::GetUniqueId(char* id, size_t max_size) const { return GetUniqueIdFromFile(GetFileHandle(), id, max_size); } size_t WinRandomAccessFile::GetRequiredBufferAlignment() const { return GetAlignment(); } ///////////////////////////////////////////////////////////////////////////// // WinWritableImpl // inline Status WinWritableImpl::PreallocateInternal(uint64_t spaceToReserve) { return fallocate(file_data_->GetName(), file_data_->GetFileHandle(), spaceToReserve); } inline WinWritableImpl::WinWritableImpl(WinFileData* file_data, size_t alignment) : file_data_(file_data), alignment_(alignment), next_write_offset_(0), reservedsize_(0) { // Query current position in case ReopenWritableFile is called // This position is only important for buffered writes // for unbuffered writes we explicitely specify the position. LARGE_INTEGER zero_move; zero_move.QuadPart = 0; // Do not move LARGE_INTEGER pos; pos.QuadPart = 0; BOOL ret = SetFilePointerEx(file_data_->GetFileHandle(), zero_move, &pos, FILE_CURRENT); // Querying no supped to fail if (ret != 0) { next_write_offset_ = pos.QuadPart; } else { assert(false); } } inline Status WinWritableImpl::AppendImpl(const Slice& data) { Status s; if (data.size() > std::numeric_limits::max()) { return Status::InvalidArgument("data is too long for a single write" + file_data_->GetName()); } size_t bytes_written = 0; // out param if (file_data_->use_direct_io()) { // With no offset specified we are appending // to the end of the file assert(IsSectorAligned(next_write_offset_)); if (!IsSectorAligned(data.size()) || !IsAligned(static_cast(GetAlignement()), data.data())) { s = Status::InvalidArgument( "WriteData must be page aligned, size must be sector aligned"); } else { s = pwrite(file_data_, data, next_write_offset_, bytes_written); } } else { DWORD bytesWritten = 0; if (!WriteFile(file_data_->GetFileHandle(), data.data(), static_cast(data.size()), &bytesWritten, NULL)) { auto lastError = GetLastError(); s = IOErrorFromWindowsError( "Failed to WriteFile: " + file_data_->GetName(), lastError); } else { bytes_written = bytesWritten; } } if(s.ok()) { if (bytes_written == data.size()) { // This matters for direct_io cases where // we rely on the fact that next_write_offset_ // is sector aligned next_write_offset_ += bytes_written; } else { s = Status::IOError("Failed to write all bytes: " + file_data_->GetName()); } } return s; } inline Status WinWritableImpl::PositionedAppendImpl(const Slice& data, uint64_t offset) { if(file_data_->use_direct_io()) { if (!IsSectorAligned(static_cast(offset)) || !IsSectorAligned(data.size()) || !IsAligned(static_cast(GetAlignement()), data.data())) { return Status::InvalidArgument( "Data and offset must be page aligned, size must be sector aligned"); } } size_t bytes_written = 0; Status s = pwrite(file_data_, data, offset, bytes_written); if(s.ok()) { if (bytes_written == data.size()) { // For sequential write this would be simple // size extension by data.size() uint64_t write_end = offset + bytes_written; if (write_end >= next_write_offset_) { next_write_offset_ = write_end; } } else { s = Status::IOError("Failed to write all of the requested data: " + file_data_->GetName()); } } return s; } inline Status WinWritableImpl::TruncateImpl(uint64_t size) { // It is tempting to check for the size for sector alignment // but truncation may come at the end and there is not a requirement // for this to be sector aligned so long as we do not attempt to write // after that. The interface docs state that the behavior is undefined // in that case. Status s = ftruncate(file_data_->GetName(), file_data_->GetFileHandle(), size); if (s.ok()) { next_write_offset_ = size; } return s; } inline Status WinWritableImpl::CloseImpl() { Status s; auto hFile = file_data_->GetFileHandle(); assert(INVALID_HANDLE_VALUE != hFile); if (!::FlushFileBuffers(hFile)) { auto lastError = GetLastError(); s = IOErrorFromWindowsError("FlushFileBuffers failed at Close() for: " + file_data_->GetName(), lastError); } if(!file_data_->CloseFile() && s.ok()) { auto lastError = GetLastError(); s = IOErrorFromWindowsError("CloseHandle failed for: " + file_data_->GetName(), lastError); } return s; } inline Status WinWritableImpl::SyncImpl() { Status s; if (!::FlushFileBuffers (file_data_->GetFileHandle())) { auto lastError = GetLastError(); s = IOErrorFromWindowsError( "FlushFileBuffers failed at Sync() for: " + file_data_->GetName(), lastError); } return s; } inline Status WinWritableImpl::AllocateImpl(uint64_t offset, uint64_t len) { Status status; TEST_KILL_RANDOM("WinWritableFile::Allocate", rocksdb_kill_odds); // Make sure that we reserve an aligned amount of space // since the reservation block size is driven outside so we want // to check if we are ok with reservation here size_t spaceToReserve = Roundup(static_cast(offset + len), static_cast(alignment_)); // Nothing to do if (spaceToReserve <= reservedsize_) { return status; } IOSTATS_TIMER_GUARD(allocate_nanos); status = PreallocateInternal(spaceToReserve); if (status.ok()) { reservedsize_ = spaceToReserve; } return status; } //////////////////////////////////////////////////////////////////////////////// /// WinWritableFile WinWritableFile::WinWritableFile(const std::string& fname, HANDLE hFile, size_t alignment, size_t /* capacity */, const EnvOptions& options) : WinFileData(fname, hFile, options.use_direct_writes), WinWritableImpl(this, alignment) { assert(!options.use_mmap_writes); } WinWritableFile::~WinWritableFile() { } // Indicates if the class makes use of direct I/O bool WinWritableFile::use_direct_io() const { return WinFileData::use_direct_io(); } size_t WinWritableFile::GetRequiredBufferAlignment() const { return static_cast(GetAlignement()); } Status WinWritableFile::Append(const Slice& data) { return AppendImpl(data); } Status WinWritableFile::PositionedAppend(const Slice& data, uint64_t offset) { return PositionedAppendImpl(data, offset); } // Need to implement this so the file is truncated correctly // when buffered and unbuffered mode Status WinWritableFile::Truncate(uint64_t size) { return TruncateImpl(size); } Status WinWritableFile::Close() { return CloseImpl(); } // write out the cached data to the OS cache // This is now taken care of the WritableFileWriter Status WinWritableFile::Flush() { return Status::OK(); } Status WinWritableFile::Sync() { return SyncImpl(); } Status WinWritableFile::Fsync() { return SyncImpl(); } bool WinWritableFile::IsSyncThreadSafe() const { return true; } uint64_t WinWritableFile::GetFileSize() { return GetFileNextWriteOffset(); } Status WinWritableFile::Allocate(uint64_t offset, uint64_t len) { return AllocateImpl(offset, len); } size_t WinWritableFile::GetUniqueId(char* id, size_t max_size) const { return GetUniqueIdFromFile(GetFileHandle(), id, max_size); } ///////////////////////////////////////////////////////////////////////// /// WinRandomRWFile WinRandomRWFile::WinRandomRWFile(const std::string& fname, HANDLE hFile, size_t alignment, const EnvOptions& options) : WinFileData(fname, hFile, options.use_direct_reads && options.use_direct_writes), WinRandomAccessImpl(this, alignment, options), WinWritableImpl(this, alignment) {} bool WinRandomRWFile::use_direct_io() const { return WinFileData::use_direct_io(); } size_t WinRandomRWFile::GetRequiredBufferAlignment() const { return static_cast(GetAlignement()); } Status WinRandomRWFile::Write(uint64_t offset, const Slice & data) { return PositionedAppendImpl(data, offset); } Status WinRandomRWFile::Read(uint64_t offset, size_t n, Slice* result, char* scratch) const { return ReadImpl(offset, n, result, scratch); } Status WinRandomRWFile::Flush() { return Status::OK(); } Status WinRandomRWFile::Sync() { return SyncImpl(); } Status WinRandomRWFile::Close() { return CloseImpl(); } ////////////////////////////////////////////////////////////////////////// /// WinMemoryMappedBufer WinMemoryMappedBuffer::~WinMemoryMappedBuffer() { BOOL ret = FALSE; if (base_ != nullptr) { ret = ::UnmapViewOfFile(base_); assert(ret); base_ = nullptr; } if (map_handle_ != NULL && map_handle_ != INVALID_HANDLE_VALUE) { ret = ::CloseHandle(map_handle_); assert(ret); map_handle_ = NULL; } if (file_handle_ != NULL && file_handle_ != INVALID_HANDLE_VALUE) { ret = ::CloseHandle(file_handle_); assert(ret); file_handle_ = NULL; } } ////////////////////////////////////////////////////////////////////////// /// WinDirectory Status WinDirectory::Fsync() { return Status::OK(); } size_t WinDirectory::GetUniqueId(char* id, size_t max_size) const { return GetUniqueIdFromFile(handle_, id, max_size); } ////////////////////////////////////////////////////////////////////////// /// WinFileLock WinFileLock::~WinFileLock() { BOOL ret __attribute__((__unused__)); ret = ::CloseHandle(hFile_); assert(ret); } } } rocksdb-5.17.2/port/win/io_win.h000066400000000000000000000341771337235545400165020ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #include #include #include #include "rocksdb/status.h" #include "rocksdb/env.h" #include "util/aligned_buffer.h" #include namespace rocksdb { namespace port { std::string GetWindowsErrSz(DWORD err); inline Status IOErrorFromWindowsError(const std::string& context, DWORD err) { return ((err == ERROR_HANDLE_DISK_FULL) || (err == ERROR_DISK_FULL)) ? Status::NoSpace(context, GetWindowsErrSz(err)) : Status::IOError(context, GetWindowsErrSz(err)); } inline Status IOErrorFromLastWindowsError(const std::string& context) { return IOErrorFromWindowsError(context, GetLastError()); } inline Status IOError(const std::string& context, int err_number) { return (err_number == ENOSPC) ? Status::NoSpace(context, strerror(err_number)) : Status::IOError(context, strerror(err_number)); } class WinFileData; Status pwrite(const WinFileData* file_data, const Slice& data, uint64_t offset, size_t& bytes_written); Status pread(const WinFileData* file_data, char* src, size_t num_bytes, uint64_t offset, size_t& bytes_read); Status fallocate(const std::string& filename, HANDLE hFile, uint64_t to_size); Status ftruncate(const std::string& filename, HANDLE hFile, uint64_t toSize); size_t GetUniqueIdFromFile(HANDLE hFile, char* id, size_t max_size); class WinFileData { protected: const std::string filename_; HANDLE hFile_; // If ture, the I/O issued would be direct I/O which the buffer // will need to be aligned (not sure there is a guarantee that the buffer // passed in is aligned). const bool use_direct_io_; public: // We want this class be usable both for inheritance (prive // or protected) and for containment so __ctor and __dtor public WinFileData(const std::string& filename, HANDLE hFile, bool direct_io) : filename_(filename), hFile_(hFile), use_direct_io_(direct_io) {} virtual ~WinFileData() { this->CloseFile(); } bool CloseFile() { bool result = true; if (hFile_ != NULL && hFile_ != INVALID_HANDLE_VALUE) { result = ::CloseHandle(hFile_); assert(result); hFile_ = NULL; } return result; } const std::string& GetName() const { return filename_; } HANDLE GetFileHandle() const { return hFile_; } bool use_direct_io() const { return use_direct_io_; } WinFileData(const WinFileData&) = delete; WinFileData& operator=(const WinFileData&) = delete; }; class WinSequentialFile : protected WinFileData, public SequentialFile { // Override for behavior change when creating a custom env virtual Status PositionedReadInternal(char* src, size_t numBytes, uint64_t offset, size_t& bytes_read) const; public: WinSequentialFile(const std::string& fname, HANDLE f, const EnvOptions& options); ~WinSequentialFile(); WinSequentialFile(const WinSequentialFile&) = delete; WinSequentialFile& operator=(const WinSequentialFile&) = delete; virtual Status Read(size_t n, Slice* result, char* scratch) override; virtual Status PositionedRead(uint64_t offset, size_t n, Slice* result, char* scratch) override; virtual Status Skip(uint64_t n) override; virtual Status InvalidateCache(size_t offset, size_t length) override; virtual bool use_direct_io() const override { return WinFileData::use_direct_io(); } }; // mmap() based random-access class WinMmapReadableFile : private WinFileData, public RandomAccessFile { HANDLE hMap_; const void* mapped_region_; const size_t length_; public: // mapped_region_[0,length-1] contains the mmapped contents of the file. WinMmapReadableFile(const std::string& fileName, HANDLE hFile, HANDLE hMap, const void* mapped_region, size_t length); ~WinMmapReadableFile(); WinMmapReadableFile(const WinMmapReadableFile&) = delete; WinMmapReadableFile& operator=(const WinMmapReadableFile&) = delete; virtual Status Read(uint64_t offset, size_t n, Slice* result, char* scratch) const override; virtual Status InvalidateCache(size_t offset, size_t length) override; virtual size_t GetUniqueId(char* id, size_t max_size) const override; }; // We preallocate and use memcpy to append new // data to the file. This is safe since we either properly close the // file before reading from it, or for log files, the reading code // knows enough to skip zero suffixes. class WinMmapFile : private WinFileData, public WritableFile { private: HANDLE hMap_; const size_t page_size_; // We flush the mapping view in page_size // increments. We may decide if this is a memory // page size or SSD page size const size_t allocation_granularity_; // View must start at such a granularity size_t reserved_size_; // Preallocated size size_t mapping_size_; // The max size of the mapping object // we want to guess the final file size to minimize the remapping size_t view_size_; // How much memory to map into a view at a time char* mapped_begin_; // Must begin at the file offset that is aligned with // allocation_granularity_ char* mapped_end_; char* dst_; // Where to write next (in range [mapped_begin_,mapped_end_]) char* last_sync_; // Where have we synced up to uint64_t file_offset_; // Offset of mapped_begin_ in file // Do we have unsynced writes? bool pending_sync_; // Can only truncate or reserve to a sector size aligned if // used on files that are opened with Unbuffered I/O Status TruncateFile(uint64_t toSize); Status UnmapCurrentRegion(); Status MapNewRegion(); virtual Status PreallocateInternal(uint64_t spaceToReserve); public: WinMmapFile(const std::string& fname, HANDLE hFile, size_t page_size, size_t allocation_granularity, const EnvOptions& options); ~WinMmapFile(); WinMmapFile(const WinMmapFile&) = delete; WinMmapFile& operator=(const WinMmapFile&) = delete; virtual Status Append(const Slice& data) override; // Means Close() will properly take care of truncate // and it does not need any additional information virtual Status Truncate(uint64_t size) override; virtual Status Close() override; virtual Status Flush() override; // Flush only data virtual Status Sync() override; /** * Flush data as well as metadata to stable storage. */ virtual Status Fsync() override; /** * Get the size of valid data in the file. This will not match the * size that is returned from the filesystem because we use mmap * to extend file by map_size every time. */ virtual uint64_t GetFileSize() override; virtual Status InvalidateCache(size_t offset, size_t length) override; virtual Status Allocate(uint64_t offset, uint64_t len) override; virtual size_t GetUniqueId(char* id, size_t max_size) const override; }; class WinRandomAccessImpl { protected: WinFileData* file_base_; size_t alignment_; // Override for behavior change when creating a custom env virtual Status PositionedReadInternal(char* src, size_t numBytes, uint64_t offset, size_t& bytes_read) const; WinRandomAccessImpl(WinFileData* file_base, size_t alignment, const EnvOptions& options); virtual ~WinRandomAccessImpl() {} Status ReadImpl(uint64_t offset, size_t n, Slice* result, char* scratch) const; size_t GetAlignment() const { return alignment_; } public: WinRandomAccessImpl(const WinRandomAccessImpl&) = delete; WinRandomAccessImpl& operator=(const WinRandomAccessImpl&) = delete; }; // pread() based random-access class WinRandomAccessFile : private WinFileData, protected WinRandomAccessImpl, // Want to be able to override // PositionedReadInternal public RandomAccessFile { public: WinRandomAccessFile(const std::string& fname, HANDLE hFile, size_t alignment, const EnvOptions& options); ~WinRandomAccessFile(); virtual Status Read(uint64_t offset, size_t n, Slice* result, char* scratch) const override; virtual size_t GetUniqueId(char* id, size_t max_size) const override; virtual bool use_direct_io() const override { return WinFileData::use_direct_io(); } virtual Status InvalidateCache(size_t offset, size_t length) override; virtual size_t GetRequiredBufferAlignment() const override; }; // This is a sequential write class. It has been mimicked (as others) after // the original Posix class. We add support for unbuffered I/O on windows as // well // we utilize the original buffer as an alignment buffer to write directly to // file with no buffering. // No buffering requires that the provided buffer is aligned to the physical // sector size (SSD page size) and // that all SetFilePointer() operations to occur with such an alignment. // We thus always write in sector/page size increments to the drive and leave // the tail for the next write OR for Close() at which point we pad with zeros. // No padding is required for // buffered access. class WinWritableImpl { protected: WinFileData* file_data_; const uint64_t alignment_; uint64_t next_write_offset_; // Needed because Windows does not support O_APPEND uint64_t reservedsize_; // how far we have reserved space virtual Status PreallocateInternal(uint64_t spaceToReserve); WinWritableImpl(WinFileData* file_data, size_t alignment); ~WinWritableImpl() {} uint64_t GetAlignement() const { return alignment_; } Status AppendImpl(const Slice& data); // Requires that the data is aligned as specified by // GetRequiredBufferAlignment() Status PositionedAppendImpl(const Slice& data, uint64_t offset); Status TruncateImpl(uint64_t size); Status CloseImpl(); Status SyncImpl(); uint64_t GetFileNextWriteOffset() { // Double accounting now here with WritableFileWriter // and this size will be wrong when unbuffered access is used // but tests implement their own writable files and do not use // WritableFileWrapper // so we need to squeeze a square peg through // a round hole here. return next_write_offset_; } Status AllocateImpl(uint64_t offset, uint64_t len); public: WinWritableImpl(const WinWritableImpl&) = delete; WinWritableImpl& operator=(const WinWritableImpl&) = delete; }; class WinWritableFile : private WinFileData, protected WinWritableImpl, public WritableFile { public: WinWritableFile(const std::string& fname, HANDLE hFile, size_t alignment, size_t capacity, const EnvOptions& options); ~WinWritableFile(); virtual Status Append(const Slice& data) override; // Requires that the data is aligned as specified by // GetRequiredBufferAlignment() virtual Status PositionedAppend(const Slice& data, uint64_t offset) override; // Need to implement this so the file is truncated correctly // when buffered and unbuffered mode virtual Status Truncate(uint64_t size) override; virtual Status Close() override; // write out the cached data to the OS cache // This is now taken care of the WritableFileWriter virtual Status Flush() override; virtual Status Sync() override; virtual Status Fsync() override; virtual bool IsSyncThreadSafe() const override; // Indicates if the class makes use of direct I/O // Use PositionedAppend virtual bool use_direct_io() const override; virtual size_t GetRequiredBufferAlignment() const override; virtual uint64_t GetFileSize() override; virtual Status Allocate(uint64_t offset, uint64_t len) override; virtual size_t GetUniqueId(char* id, size_t max_size) const override; }; class WinRandomRWFile : private WinFileData, protected WinRandomAccessImpl, protected WinWritableImpl, public RandomRWFile { public: WinRandomRWFile(const std::string& fname, HANDLE hFile, size_t alignment, const EnvOptions& options); ~WinRandomRWFile() {} // Indicates if the class makes use of direct I/O // If false you must pass aligned buffer to Write() virtual bool use_direct_io() const override; // Use the returned alignment value to allocate aligned // buffer for Write() when use_direct_io() returns true virtual size_t GetRequiredBufferAlignment() const override; // Write bytes in `data` at offset `offset`, Returns Status::OK() on success. // Pass aligned buffer when use_direct_io() returns true. virtual Status Write(uint64_t offset, const Slice& data) override; // Read up to `n` bytes starting from offset `offset` and store them in // result, provided `scratch` size should be at least `n`. // Returns Status::OK() on success. virtual Status Read(uint64_t offset, size_t n, Slice* result, char* scratch) const override; virtual Status Flush() override; virtual Status Sync() override; virtual Status Fsync() { return Sync(); } virtual Status Close() override; }; class WinMemoryMappedBuffer : public MemoryMappedFileBuffer { private: HANDLE file_handle_; HANDLE map_handle_; public: WinMemoryMappedBuffer(HANDLE file_handle, HANDLE map_handle, void* base, size_t size) : MemoryMappedFileBuffer(base, size), file_handle_(file_handle), map_handle_(map_handle) {} ~WinMemoryMappedBuffer() override; }; class WinDirectory : public Directory { HANDLE handle_; public: explicit WinDirectory(HANDLE h) noexcept : handle_(h) { assert(handle_ != INVALID_HANDLE_VALUE); } ~WinDirectory() { ::CloseHandle(handle_); } virtual Status Fsync() override; size_t GetUniqueId(char* id, size_t max_size) const override; }; class WinFileLock : public FileLock { public: explicit WinFileLock(HANDLE hFile) : hFile_(hFile) { assert(hFile != NULL); assert(hFile != INVALID_HANDLE_VALUE); } ~WinFileLock(); private: HANDLE hFile_; }; } } rocksdb-5.17.2/port/win/port_win.cc000066400000000000000000000132331337235545400172030ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #if !defined(OS_WIN) && !defined(WIN32) && !defined(_WIN32) #error Windows Specific Code #endif #include "port/win/port_win.h" #include #include "port/dirent.h" #include "port/sys_time.h" #include #include #include #include #include #include #include #include "util/logging.h" namespace rocksdb { namespace port { void gettimeofday(struct timeval* tv, struct timezone* /* tz */) { using namespace std::chrono; microseconds usNow( duration_cast(system_clock::now().time_since_epoch())); seconds secNow(duration_cast(usNow)); tv->tv_sec = static_cast(secNow.count()); tv->tv_usec = static_cast(usNow.count() - duration_cast(secNow).count()); } Mutex::~Mutex() {} CondVar::~CondVar() {} void CondVar::Wait() { // Caller must ensure that mutex is held prior to calling this method std::unique_lock lk(mu_->getLock(), std::adopt_lock); #ifndef NDEBUG mu_->locked_ = false; #endif cv_.wait(lk); #ifndef NDEBUG mu_->locked_ = true; #endif // Release ownership of the lock as we don't want it to be unlocked when // it goes out of scope (as we adopted the lock and didn't lock it ourselves) lk.release(); } bool CondVar::TimedWait(uint64_t abs_time_us) { using namespace std::chrono; // MSVC++ library implements wait_until in terms of wait_for so // we need to convert absolute wait into relative wait. microseconds usAbsTime(abs_time_us); microseconds usNow( duration_cast(system_clock::now().time_since_epoch())); microseconds relTimeUs = (usAbsTime > usNow) ? (usAbsTime - usNow) : microseconds::zero(); // Caller must ensure that mutex is held prior to calling this method std::unique_lock lk(mu_->getLock(), std::adopt_lock); #ifndef NDEBUG mu_->locked_ = false; #endif std::cv_status cvStatus = cv_.wait_for(lk, relTimeUs); #ifndef NDEBUG mu_->locked_ = true; #endif // Release ownership of the lock as we don't want it to be unlocked when // it goes out of scope (as we adopted the lock and didn't lock it ourselves) lk.release(); if (cvStatus == std::cv_status::timeout) { return true; } return false; } void CondVar::Signal() { cv_.notify_one(); } void CondVar::SignalAll() { cv_.notify_all(); } int PhysicalCoreID() { return GetCurrentProcessorNumber(); } void InitOnce(OnceType* once, void (*initializer)()) { std::call_once(once->flag_, initializer); } // Private structure, exposed only by pointer struct DIR { HANDLE handle_; bool firstread_; WIN32_FIND_DATA data_; dirent entry_; DIR() : handle_(INVALID_HANDLE_VALUE), firstread_(true) {} DIR(const DIR&) = delete; DIR& operator=(const DIR&) = delete; ~DIR() { if (INVALID_HANDLE_VALUE != handle_) { ::FindClose(handle_); } } }; DIR* opendir(const char* name) { if (!name || *name == 0) { errno = ENOENT; return nullptr; } std::string pattern(name); pattern.append("\\").append("*"); std::unique_ptr dir(new DIR); dir->handle_ = ::FindFirstFileExA(pattern.c_str(), FindExInfoBasic, // Do not want alternative name &dir->data_, FindExSearchNameMatch, NULL, // lpSearchFilter 0); if (dir->handle_ == INVALID_HANDLE_VALUE) { return nullptr; } strcpy_s(dir->entry_.d_name, sizeof(dir->entry_.d_name), dir->data_.cFileName); return dir.release(); } struct dirent* readdir(DIR* dirp) { if (!dirp || dirp->handle_ == INVALID_HANDLE_VALUE) { errno = EBADF; return nullptr; } if (dirp->firstread_) { dirp->firstread_ = false; return &dirp->entry_; } auto ret = ::FindNextFileA(dirp->handle_, &dirp->data_); if (ret == 0) { return nullptr; } strcpy_s(dirp->entry_.d_name, sizeof(dirp->entry_.d_name), dirp->data_.cFileName); return &dirp->entry_; } int closedir(DIR* dirp) { delete dirp; return 0; } int truncate(const char* path, int64_t len) { if (path == nullptr) { errno = EFAULT; return -1; } if (len < 0) { errno = EINVAL; return -1; } HANDLE hFile = CreateFile(path, GENERIC_READ | GENERIC_WRITE, FILE_SHARE_READ | FILE_SHARE_WRITE | FILE_SHARE_DELETE, NULL, // Security attrs OPEN_EXISTING, // Truncate existing file only FILE_ATTRIBUTE_NORMAL, NULL); if (INVALID_HANDLE_VALUE == hFile) { auto lastError = GetLastError(); if (lastError == ERROR_FILE_NOT_FOUND) { errno = ENOENT; } else if (lastError == ERROR_ACCESS_DENIED) { errno = EACCES; } else { errno = EIO; } return -1; } int result = 0; FILE_END_OF_FILE_INFO end_of_file; end_of_file.EndOfFile.QuadPart = len; if (!SetFileInformationByHandle(hFile, FileEndOfFileInfo, &end_of_file, sizeof(FILE_END_OF_FILE_INFO))) { errno = EIO; result = -1; } CloseHandle(hFile); return result; } void Crash(const std::string& srcfile, int srcline) { fprintf(stdout, "Crashing at %s:%d\n", srcfile.c_str(), srcline); fflush(stdout); abort(); } int GetMaxOpenFiles() { return -1; } } // namespace port } // namespace rocksdb rocksdb-5.17.2/port/win/port_win.h000066400000000000000000000163501337235545400170500ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. // // See port_example.h for documentation for the following types/functions. #pragma once // Always want minimum headers #ifndef WIN32_LEAN_AND_MEAN #define WIN32_LEAN_AND_MEAN #endif // Assume that for everywhere #undef PLATFORM_IS_LITTLE_ENDIAN #define PLATFORM_IS_LITTLE_ENDIAN true #include #include #include #include #include #include #include #include #include #include "port/win/win_thread.h" #include "rocksdb/options.h" #undef min #undef max #undef DeleteFile #undef GetCurrentTime #ifndef strcasecmp #define strcasecmp _stricmp #endif #undef GetCurrentTime #undef DeleteFile #ifndef _SSIZE_T_DEFINED typedef SSIZE_T ssize_t; #endif // size_t printf formatting named in the manner of C99 standard formatting // strings such as PRIu64 // in fact, we could use that one #ifndef ROCKSDB_PRIszt #define ROCKSDB_PRIszt "Iu" #endif #ifdef _MSC_VER #define __attribute__(A) // Thread local storage on Linux // There is thread_local in C++11 #ifndef __thread #define __thread __declspec(thread) #endif #endif #ifndef PLATFORM_IS_LITTLE_ENDIAN #define PLATFORM_IS_LITTLE_ENDIAN (__BYTE_ORDER == __LITTLE_ENDIAN) #endif namespace rocksdb { #define PREFETCH(addr, rw, locality) namespace port { // VS < 2015 #if defined(_MSC_VER) && (_MSC_VER < 1900) // VS 15 has snprintf #define snprintf _snprintf #define ROCKSDB_NOEXCEPT // std::numeric_limits::max() is not constexpr just yet // therefore, use the same limits // For use at db/file_indexer.h kLevelMaxIndex const uint32_t kMaxUint32 = UINT32_MAX; const int kMaxInt32 = INT32_MAX; const int64_t kMaxInt64 = INT64_MAX; const uint64_t kMaxUint64 = UINT64_MAX; #ifdef _WIN64 const size_t kMaxSizet = UINT64_MAX; #else const size_t kMaxSizet = UINT_MAX; #endif #else // VS >= 2015 or MinGW #define ROCKSDB_NOEXCEPT noexcept // For use at db/file_indexer.h kLevelMaxIndex const uint32_t kMaxUint32 = std::numeric_limits::max(); const int kMaxInt32 = std::numeric_limits::max(); const uint64_t kMaxUint64 = std::numeric_limits::max(); const int64_t kMaxInt64 = std::numeric_limits::max(); const size_t kMaxSizet = std::numeric_limits::max(); #endif //_MSC_VER const bool kLittleEndian = true; class CondVar; class Mutex { public: /* implicit */ Mutex(bool adaptive = false) #ifndef NDEBUG : locked_(false) #endif { } ~Mutex(); void Lock() { mutex_.lock(); #ifndef NDEBUG locked_ = true; #endif } void Unlock() { #ifndef NDEBUG locked_ = false; #endif mutex_.unlock(); } // this will assert if the mutex is not locked // it does NOT verify that mutex is held by a calling thread void AssertHeld() { #ifndef NDEBUG assert(locked_); #endif } // Mutex is move only with lock ownership transfer Mutex(const Mutex&) = delete; void operator=(const Mutex&) = delete; private: friend class CondVar; std::mutex& getLock() { return mutex_; } std::mutex mutex_; #ifndef NDEBUG bool locked_; #endif }; class RWMutex { public: RWMutex() { InitializeSRWLock(&srwLock_); } void ReadLock() { AcquireSRWLockShared(&srwLock_); } void WriteLock() { AcquireSRWLockExclusive(&srwLock_); } void ReadUnlock() { ReleaseSRWLockShared(&srwLock_); } void WriteUnlock() { ReleaseSRWLockExclusive(&srwLock_); } // Empty as in POSIX void AssertHeld() {} private: SRWLOCK srwLock_; // No copying allowed RWMutex(const RWMutex&); void operator=(const RWMutex&); }; class CondVar { public: explicit CondVar(Mutex* mu) : mu_(mu) { } ~CondVar(); void Wait(); bool TimedWait(uint64_t expiration_time); void Signal(); void SignalAll(); // Condition var is not copy/move constructible CondVar(const CondVar&) = delete; CondVar& operator=(const CondVar&) = delete; CondVar(CondVar&&) = delete; CondVar& operator=(CondVar&&) = delete; private: std::condition_variable cv_; Mutex* mu_; }; // Wrapper around the platform efficient // or otherwise preferrable implementation using Thread = WindowsThread; // OnceInit type helps emulate // Posix semantics with initialization // adopted in the project struct OnceType { struct Init {}; OnceType() {} OnceType(const Init&) {} OnceType(const OnceType&) = delete; OnceType& operator=(const OnceType&) = delete; std::once_flag flag_; }; #define LEVELDB_ONCE_INIT port::OnceType::Init() extern void InitOnce(OnceType* once, void (*initializer)()); #ifndef CACHE_LINE_SIZE #define CACHE_LINE_SIZE 64U #endif #ifdef ROCKSDB_JEMALLOC // Separate inlines so they can be replaced if needed void* jemalloc_aligned_alloc(size_t size, size_t alignment) ROCKSDB_NOEXCEPT; void jemalloc_aligned_free(void* p) ROCKSDB_NOEXCEPT; #endif inline void *cacheline_aligned_alloc(size_t size) { #ifdef ROCKSDB_JEMALLOC return jemalloc_aligned_alloc(size, CACHE_LINE_SIZE); #else return _aligned_malloc(size, CACHE_LINE_SIZE); #endif } inline void cacheline_aligned_free(void *memblock) { #ifdef ROCKSDB_JEMALLOC jemalloc_aligned_free(memblock); #else _aligned_free(memblock); #endif } // https://gcc.gnu.org/bugzilla/show_bug.cgi?id=52991 for MINGW32 // could not be worked around with by -mno-ms-bitfields #ifndef __MINGW32__ #define ALIGN_AS(n) __declspec(align(n)) #else #define ALIGN_AS(n) #endif static inline void AsmVolatilePause() { #if defined(_M_IX86) || defined(_M_X64) YieldProcessor(); #endif // it would be nice to get "wfe" on ARM here } extern int PhysicalCoreID(); // For Thread Local Storage abstraction typedef DWORD pthread_key_t; inline int pthread_key_create(pthread_key_t* key, void (*destructor)(void*)) { // Not used (void)destructor; pthread_key_t k = TlsAlloc(); if (TLS_OUT_OF_INDEXES == k) { return ENOMEM; } *key = k; return 0; } inline int pthread_key_delete(pthread_key_t key) { if (!TlsFree(key)) { return EINVAL; } return 0; } inline int pthread_setspecific(pthread_key_t key, const void* value) { if (!TlsSetValue(key, const_cast(value))) { return ENOMEM; } return 0; } inline void* pthread_getspecific(pthread_key_t key) { void* result = TlsGetValue(key); if (!result) { if (GetLastError() != ERROR_SUCCESS) { errno = EINVAL; } else { errno = NOERROR; } } return result; } // UNIX equiv although errno numbers will be off // using C-runtime to implement. Note, this does not // feel space with zeros in case the file is extended. int truncate(const char* path, int64_t length); void Crash(const std::string& srcfile, int srcline); extern int GetMaxOpenFiles(); } // namespace port using port::pthread_key_t; using port::pthread_key_create; using port::pthread_key_delete; using port::pthread_setspecific; using port::pthread_getspecific; using port::truncate; } // namespace rocksdb rocksdb-5.17.2/port/win/win_jemalloc.cc000066400000000000000000000037561337235545400200160ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under the BSD-style license found in the // LICENSE file in the root directory of this source tree. An additional grant // of patent rights can be found in the PATENTS file in the same directory. // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #ifndef ROCKSDB_JEMALLOC # error This file can only be part of jemalloc aware build #endif #include #include "jemalloc/jemalloc.h" #include "port/win/port_win.h" #if defined(ZSTD) && defined(ZSTD_STATIC_LINKING_ONLY) #include #if (ZSTD_VERSION_NUMBER >= 500) namespace rocksdb { namespace port { void* JemallocAllocateForZSTD(void* /* opaque */, size_t size) { return je_malloc(size); } void JemallocDeallocateForZSTD(void* /* opaque */, void* address) { je_free(address); } ZSTD_customMem GetJeZstdAllocationOverrides() { return {JemallocAllocateForZSTD, JemallocDeallocateForZSTD, nullptr}; } } // namespace port } // namespace rocksdb #endif // (ZSTD_VERSION_NUMBER >= 500) #endif // defined(ZSTD) defined(ZSTD_STATIC_LINKING_ONLY) // Global operators to be replaced by a linker when this file is // a part of the build namespace rocksdb { namespace port { void* jemalloc_aligned_alloc(size_t size, size_t alignment) ROCKSDB_NOEXCEPT { return je_aligned_alloc(alignment, size); } void jemalloc_aligned_free(void* p) ROCKSDB_NOEXCEPT { je_free(p); } } // namespace port } // namespace rocksdb void* operator new(size_t size) { void* p = je_malloc(size); if (!p) { throw std::bad_alloc(); } return p; } void* operator new[](size_t size) { void* p = je_malloc(size); if (!p) { throw std::bad_alloc(); } return p; } void operator delete(void* p) { if (p) { je_free(p); } } void operator delete[](void* p) { if (p) { je_free(p); } } rocksdb-5.17.2/port/win/win_logger.cc000066400000000000000000000123101337235545400174710ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. // // Logger implementation that can be shared by all environments // where enough posix functionality is available. #include "port/win/win_logger.h" #include "port/win/io_win.h" #include #include #include #include #include #include "rocksdb/env.h" #include "monitoring/iostats_context_imp.h" #include "port/sys_time.h" namespace rocksdb { namespace port { WinLogger::WinLogger(uint64_t (*gettid)(), Env* env, HANDLE file, const InfoLogLevel log_level) : Logger(log_level), file_(file), gettid_(gettid), log_size_(0), last_flush_micros_(0), env_(env), flush_pending_(false) { assert(file_ != NULL); assert(file_ != INVALID_HANDLE_VALUE); } void WinLogger::DebugWriter(const char* str, int len) { assert(file_ != INVALID_HANDLE_VALUE); DWORD bytesWritten = 0; BOOL ret = WriteFile(file_, str, len, &bytesWritten, NULL); if (ret == FALSE) { std::string errSz = GetWindowsErrSz(GetLastError()); fprintf(stderr, errSz.c_str()); } } WinLogger::~WinLogger() { CloseInternal(); } Status WinLogger::CloseImpl() { return CloseInternal(); } Status WinLogger::CloseInternal() { Status s; if (INVALID_HANDLE_VALUE != file_) { BOOL ret = FlushFileBuffers(file_); if (ret == 0) { auto lastError = GetLastError(); s = IOErrorFromWindowsError("Failed to flush LOG on Close() ", lastError); } ret = CloseHandle(file_); // On error the return value is zero if (ret == 0 && s.ok()) { auto lastError = GetLastError(); s = IOErrorFromWindowsError("Failed to flush LOG on Close() ", lastError); } file_ = INVALID_HANDLE_VALUE; closed_ = true; } return s; } void WinLogger::Flush() { assert(file_ != INVALID_HANDLE_VALUE); if (flush_pending_) { flush_pending_ = false; // With Windows API writes go to OS buffers directly so no fflush needed // unlike with C runtime API. We don't flush all the way to disk // for perf reasons. } last_flush_micros_ = env_->NowMicros(); } void WinLogger::Logv(const char* format, va_list ap) { IOSTATS_TIMER_GUARD(logger_nanos); assert(file_ != INVALID_HANDLE_VALUE); const uint64_t thread_id = (*gettid_)(); // We try twice: the first time with a fixed-size stack allocated buffer, // and the second time with a much larger dynamically allocated buffer. char buffer[500]; std::unique_ptr largeBuffer; for (int iter = 0; iter < 2; ++iter) { char* base; int bufsize; if (iter == 0) { bufsize = sizeof(buffer); base = buffer; } else { bufsize = 30000; largeBuffer.reset(new char[bufsize]); base = largeBuffer.get(); } char* p = base; char* limit = base + bufsize; struct timeval now_tv; gettimeofday(&now_tv, nullptr); const time_t seconds = now_tv.tv_sec; struct tm t; localtime_s(&t, &seconds); p += snprintf(p, limit - p, "%04d/%02d/%02d-%02d:%02d:%02d.%06d %llx ", t.tm_year + 1900, t.tm_mon + 1, t.tm_mday, t.tm_hour, t.tm_min, t.tm_sec, static_cast(now_tv.tv_usec), static_cast(thread_id)); // Print the message if (p < limit) { va_list backup_ap; va_copy(backup_ap, ap); int done = vsnprintf(p, limit - p, format, backup_ap); if (done > 0) { p += done; } else { continue; } va_end(backup_ap); } // Truncate to available space if necessary if (p >= limit) { if (iter == 0) { continue; // Try again with larger buffer } else { p = limit - 1; } } // Add newline if necessary if (p == base || p[-1] != '\n') { *p++ = '\n'; } assert(p <= limit); const size_t write_size = p - base; DWORD bytesWritten = 0; BOOL ret = WriteFile(file_, base, static_cast(write_size), &bytesWritten, NULL); if (ret == FALSE) { std::string errSz = GetWindowsErrSz(GetLastError()); fprintf(stderr, errSz.c_str()); } flush_pending_ = true; assert((bytesWritten == write_size) || (ret == FALSE)); if (bytesWritten > 0) { log_size_ += write_size; } uint64_t now_micros = static_cast(now_tv.tv_sec) * 1000000 + now_tv.tv_usec; if (now_micros - last_flush_micros_ >= flush_every_seconds_ * 1000000) { flush_pending_ = false; // With Windows API writes go to OS buffers directly so no fflush needed // unlike with C runtime API. We don't flush all the way to disk // for perf reasons. last_flush_micros_ = now_micros; } break; } } size_t WinLogger::GetLogFileSize() const { return log_size_; } } } // namespace rocksdb rocksdb-5.17.2/port/win/win_logger.h000066400000000000000000000031261337235545400173400ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. // // Logger implementation that can be shared by all environments // where enough posix functionality is available. #pragma once #include #include "rocksdb/env.h" #include #include namespace rocksdb { class Env; namespace port { class WinLogger : public rocksdb::Logger { public: WinLogger(uint64_t (*gettid)(), Env* env, HANDLE file, const InfoLogLevel log_level = InfoLogLevel::ERROR_LEVEL); virtual ~WinLogger(); WinLogger(const WinLogger&) = delete; WinLogger& operator=(const WinLogger&) = delete; void Flush() override; using rocksdb::Logger::Logv; void Logv(const char* format, va_list ap) override; size_t GetLogFileSize() const override; void DebugWriter(const char* str, int len); protected: Status CloseImpl() override; private: HANDLE file_; uint64_t (*gettid_)(); // Return the thread id for the current thread std::atomic_size_t log_size_; std::atomic_uint_fast64_t last_flush_micros_; Env* env_; bool flush_pending_; Status CloseInternal(); const static uint64_t flush_every_seconds_ = 5; }; } } // namespace rocksdb rocksdb-5.17.2/port/win/win_thread.cc000066400000000000000000000103771337235545400174740ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "port/win/win_thread.h" #include #include // __beginthreadex #include #include #include #include namespace rocksdb { namespace port { struct WindowsThread::Data { std::function func_; uintptr_t handle_; Data(std::function&& func) : func_(std::move(func)), handle_(0) { } Data(const Data&) = delete; Data& operator=(const Data&) = delete; static unsigned int __stdcall ThreadProc(void* arg); }; void WindowsThread::Init(std::function&& func) { data_ = std::make_shared(std::move(func)); // We create another instance of shared_ptr to get an additional ref // since we may detach and destroy this instance before the threadproc // may start to run. We choose to allocate this additional ref on the heap // so we do not need to synchronize and allow this thread to proceed std::unique_ptr> th_data(new std::shared_ptr(data_)); data_->handle_ = _beginthreadex(NULL, 0, // stack size &Data::ThreadProc, th_data.get(), 0, // init flag &th_id_); if (data_->handle_ == 0) { throw std::system_error(std::make_error_code( std::errc::resource_unavailable_try_again), "Unable to create a thread"); } th_data.release(); } WindowsThread::WindowsThread() : data_(nullptr), th_id_(0) {} WindowsThread::~WindowsThread() { // Must be joined or detached // before destruction. // This is the same as std::thread if (data_) { if (joinable()) { assert(false); std::terminate(); } data_.reset(); } } WindowsThread::WindowsThread(WindowsThread&& o) noexcept : WindowsThread() { *this = std::move(o); } WindowsThread& WindowsThread::operator=(WindowsThread&& o) noexcept { if (joinable()) { assert(false); std::terminate(); } data_ = std::move(o.data_); // Per spec both instances will have the same id th_id_ = o.th_id_; return *this; } bool WindowsThread::joinable() const { return (data_ && data_->handle_ != 0); } WindowsThread::native_handle_type WindowsThread::native_handle() const { return reinterpret_cast(data_->handle_); } unsigned WindowsThread::hardware_concurrency() { return std::thread::hardware_concurrency(); } void WindowsThread::join() { if (!joinable()) { assert(false); throw std::system_error( std::make_error_code(std::errc::invalid_argument), "Thread is no longer joinable"); } if (GetThreadId(GetCurrentThread()) == th_id_) { assert(false); throw std::system_error( std::make_error_code(std::errc::resource_deadlock_would_occur), "Can not join itself"); } auto ret = WaitForSingleObject(reinterpret_cast(data_->handle_), INFINITE); if (ret != WAIT_OBJECT_0) { auto lastError = GetLastError(); assert(false); throw std::system_error(static_cast(lastError), std::system_category(), "WaitForSingleObjectFailed: thread join"); } BOOL rc; rc = CloseHandle(reinterpret_cast(data_->handle_)); assert(rc != 0); data_->handle_ = 0; } bool WindowsThread::detach() { if (!joinable()) { assert(false); throw std::system_error( std::make_error_code(std::errc::invalid_argument), "Thread is no longer available"); } BOOL ret = CloseHandle(reinterpret_cast(data_->handle_)); data_->handle_ = 0; return (ret != 0); } void WindowsThread::swap(WindowsThread& o) { data_.swap(o.data_); std::swap(th_id_, o.th_id_); } unsigned int __stdcall WindowsThread::Data::ThreadProc(void* arg) { auto ptr = reinterpret_cast*>(arg); std::unique_ptr> data(ptr); (*data)->func_(); return 0; } } // namespace port } // namespace rocksdb rocksdb-5.17.2/port/win/win_thread.h000066400000000000000000000071231337235545400173310ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #include #include #include namespace rocksdb { namespace port { // This class is a replacement for std::thread // 2 reasons we do not like std::thread: // -- is that it dynamically allocates its internals that are automatically // freed when the thread terminates and not on the destruction of the // object. This makes it difficult to control the source of memory // allocation // - This implements Pimpl so we can easily replace the guts of the // object in our private version if necessary. class WindowsThread { struct Data; std::shared_ptr data_; unsigned int th_id_; void Init(std::function&&); public: typedef void* native_handle_type; // Construct with no thread WindowsThread(); // Template constructor // // This templated constructor accomplishes several things // // - Allows the class as whole to be not a template // // - take "universal" references to support both _lvalues and _rvalues // // - because this constructor is a catchall case in many respects it // may prevent us from using both the default __ctor, the move __ctor. // Also it may circumvent copy __ctor deletion. To work around this // we make sure this one has at least one argument and eliminate // it from the overload selection when WindowsThread is the first // argument. // // - construct with Fx(Ax...) with a variable number of types/arguments. // // - Gathers together the callable object with its arguments and constructs // a single callable entity // // - Makes use of std::function to convert it to a specification-template // dependent type that both checks the signature conformance to ensure // that all of the necessary arguments are provided and allows pimpl // implementation. template::type, WindowsThread>::value>::type> explicit WindowsThread(Fn&& fx, Args&&... ax) : WindowsThread() { // Use binder to create a single callable entity auto binder = std::bind(std::forward(fx), std::forward(ax)...); // Use std::function to take advantage of the type erasure // so we can still hide implementation within pimpl // This also makes sure that the binder signature is compliant std::function target = binder; Init(std::move(target)); } ~WindowsThread(); WindowsThread(const WindowsThread&) = delete; WindowsThread& operator=(const WindowsThread&) = delete; WindowsThread(WindowsThread&&) noexcept; WindowsThread& operator=(WindowsThread&&) noexcept; bool joinable() const; unsigned int get_id() const { return th_id_; } native_handle_type native_handle() const; static unsigned hardware_concurrency(); void join(); bool detach(); void swap(WindowsThread&); }; } // namespace port } // namespace rocksdb namespace std { inline void swap(rocksdb::port::WindowsThread& th1, rocksdb::port::WindowsThread& th2) { th1.swap(th2); } } // namespace std rocksdb-5.17.2/port/win/xpress_win.cc000066400000000000000000000132271337235545400175460ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "port/win/xpress_win.h" #include #include #include #include #include #ifdef XPRESS // Put this under ifdef so windows systems w/o this // can still build #include namespace rocksdb { namespace port { namespace xpress { // Helpers namespace { auto CloseCompressorFun = [](void* h) { if (NULL != h) { ::CloseCompressor(reinterpret_cast(h)); } }; auto CloseDecompressorFun = [](void* h) { if (NULL != h) { ::CloseDecompressor(reinterpret_cast(h)); } }; } bool Compress(const char* input, size_t length, std::string* output) { assert(input != nullptr); assert(output != nullptr); if (length == 0) { output->clear(); return true; } COMPRESS_ALLOCATION_ROUTINES* allocRoutinesPtr = nullptr; COMPRESSOR_HANDLE compressor = NULL; BOOL success = CreateCompressor( COMPRESS_ALGORITHM_XPRESS, // Compression Algorithm allocRoutinesPtr, // Optional allocation routine &compressor); // Handle if (!success) { #ifdef _DEBUG std::cerr << "XPRESS: Failed to create Compressor LastError: " << GetLastError() << std::endl; #endif return false; } std::unique_ptr compressorGuard(compressor, CloseCompressorFun); SIZE_T compressedBufferSize = 0; // Query compressed buffer size. success = ::Compress( compressor, // Compressor Handle const_cast(input), // Input buffer length, // Uncompressed data size NULL, // Compressed Buffer 0, // Compressed Buffer size &compressedBufferSize); // Compressed Data size if (!success) { auto lastError = GetLastError(); if (lastError != ERROR_INSUFFICIENT_BUFFER) { #ifdef _DEBUG std::cerr << "XPRESS: Failed to estimate compressed buffer size LastError " << lastError << std::endl; #endif return false; } } assert(compressedBufferSize > 0); std::string result; result.resize(compressedBufferSize); SIZE_T compressedDataSize = 0; // Compress success = ::Compress( compressor, // Compressor Handle const_cast(input), // Input buffer length, // Uncompressed data size &result[0], // Compressed Buffer compressedBufferSize, // Compressed Buffer size &compressedDataSize); // Compressed Data size if (!success) { #ifdef _DEBUG std::cerr << "XPRESS: Failed to compress LastError " << GetLastError() << std::endl; #endif return false; } result.resize(compressedDataSize); output->swap(result); return true; } char* Decompress(const char* input_data, size_t input_length, int* decompress_size) { assert(input_data != nullptr); assert(decompress_size != nullptr); if (input_length == 0) { return nullptr; } COMPRESS_ALLOCATION_ROUTINES* allocRoutinesPtr = nullptr; DECOMPRESSOR_HANDLE decompressor = NULL; BOOL success = CreateDecompressor( COMPRESS_ALGORITHM_XPRESS, // Compression Algorithm allocRoutinesPtr, // Optional allocation routine &decompressor); // Handle if (!success) { #ifdef _DEBUG std::cerr << "XPRESS: Failed to create Decompressor LastError " << GetLastError() << std::endl; #endif return nullptr; } std::unique_ptr compressorGuard(decompressor, CloseDecompressorFun); SIZE_T decompressedBufferSize = 0; success = ::Decompress( decompressor, // Compressor Handle const_cast(input_data), // Compressed data input_length, // Compressed data size NULL, // Buffer set to NULL 0, // Buffer size set to 0 &decompressedBufferSize); // Decompressed Data size if (!success) { auto lastError = GetLastError(); if (lastError != ERROR_INSUFFICIENT_BUFFER) { #ifdef _DEBUG std::cerr << "XPRESS: Failed to estimate decompressed buffer size LastError " << lastError << std::endl; #endif return nullptr; } } assert(decompressedBufferSize > 0); // On Windows we are limited to a 32-bit int for the // output data size argument // so we hopefully never get here if (decompressedBufferSize > std::numeric_limits::max()) { assert(false); return nullptr; } // The callers are deallocating using delete[] // thus we must allocate with new[] std::unique_ptr outputBuffer(new char[decompressedBufferSize]); SIZE_T decompressedDataSize = 0; success = ::Decompress( decompressor, const_cast(input_data), input_length, outputBuffer.get(), decompressedBufferSize, &decompressedDataSize); if (!success) { #ifdef _DEBUG std::cerr << "XPRESS: Failed to decompress LastError " << GetLastError() << std::endl; #endif return nullptr; } *decompress_size = static_cast(decompressedDataSize); // Return the raw buffer to the caller supporting the tradition return outputBuffer.release(); } } } } #endif rocksdb-5.17.2/port/win/xpress_win.h000066400000000000000000000013611337235545400174040ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #include namespace rocksdb { namespace port { namespace xpress { bool Compress(const char* input, size_t length, std::string* output); char* Decompress(const char* input_data, size_t input_length, int* decompress_size); } } } rocksdb-5.17.2/port/xpress.h000066400000000000000000000012571337235545400157360ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once // Xpress on Windows is implemeted using Win API #if defined(ROCKSDB_PLATFORM_POSIX) #error "Xpress compression not implemented" #elif defined(OS_WIN) #include "port/win/xpress_win.h" #endif rocksdb-5.17.2/src.mk000066400000000000000000000741221337235545400143760ustar00rootroot00000000000000# These are the sources from which librocksdb.a is built: LIB_SOURCES = \ cache/clock_cache.cc \ cache/lru_cache.cc \ cache/sharded_cache.cc \ db/builder.cc \ db/c.cc \ db/column_family.cc \ db/compacted_db_impl.cc \ db/compaction.cc \ db/compaction_iterator.cc \ db/compaction_job.cc \ db/compaction_picker.cc \ db/compaction_picker_universal.cc \ db/convenience.cc \ db/db_filesnapshot.cc \ db/db_impl.cc \ db/db_impl_compaction_flush.cc \ db/db_impl_debug.cc \ db/db_impl_experimental.cc \ db/db_impl_files.cc \ db/db_impl_open.cc \ db/db_impl_readonly.cc \ db/db_impl_write.cc \ db/db_info_dumper.cc \ db/db_iter.cc \ db/dbformat.cc \ db/error_handler.cc \ db/event_helpers.cc \ db/experimental.cc \ db/external_sst_file_ingestion_job.cc \ db/file_indexer.cc \ db/flush_job.cc \ db/flush_scheduler.cc \ db/forward_iterator.cc \ db/internal_stats.cc \ db/logs_with_prep_tracker.cc \ db/log_reader.cc \ db/log_writer.cc \ db/malloc_stats.cc \ db/memtable.cc \ db/memtable_list.cc \ db/merge_helper.cc \ db/merge_operator.cc \ db/range_del_aggregator.cc \ db/repair.cc \ db/snapshot_impl.cc \ db/table_cache.cc \ db/table_properties_collector.cc \ db/transaction_log_impl.cc \ db/version_builder.cc \ db/version_edit.cc \ db/version_set.cc \ db/wal_manager.cc \ db/write_batch.cc \ db/write_batch_base.cc \ db/write_controller.cc \ db/write_thread.cc \ env/env.cc \ env/env_chroot.cc \ env/env_encryption.cc \ env/env_hdfs.cc \ env/env_posix.cc \ env/io_posix.cc \ env/mock_env.cc \ memtable/alloc_tracker.cc \ memtable/hash_cuckoo_rep.cc \ memtable/hash_linklist_rep.cc \ memtable/hash_skiplist_rep.cc \ memtable/skiplistrep.cc \ memtable/vectorrep.cc \ memtable/write_buffer_manager.cc \ monitoring/histogram.cc \ monitoring/histogram_windowing.cc \ monitoring/instrumented_mutex.cc \ monitoring/iostats_context.cc \ monitoring/perf_context.cc \ monitoring/perf_level.cc \ monitoring/statistics.cc \ monitoring/thread_status_impl.cc \ monitoring/thread_status_updater.cc \ monitoring/thread_status_updater_debug.cc \ monitoring/thread_status_util.cc \ monitoring/thread_status_util_debug.cc \ options/cf_options.cc \ options/db_options.cc \ options/options.cc \ options/options_helper.cc \ options/options_parser.cc \ options/options_sanity_check.cc \ port/port_posix.cc \ port/stack_trace.cc \ table/adaptive_table_factory.cc \ table/block.cc \ table/block_based_filter_block.cc \ table/block_based_table_builder.cc \ table/block_based_table_factory.cc \ table/block_based_table_reader.cc \ table/block_builder.cc \ table/block_fetcher.cc \ table/block_prefix_index.cc \ table/bloom_block.cc \ table/cuckoo_table_builder.cc \ table/cuckoo_table_factory.cc \ table/cuckoo_table_reader.cc \ table/data_block_hash_index.cc \ table/data_block_footer.cc \ table/flush_block_policy.cc \ table/format.cc \ table/full_filter_block.cc \ table/get_context.cc \ table/index_builder.cc \ table/iterator.cc \ table/merging_iterator.cc \ table/meta_blocks.cc \ table/partitioned_filter_block.cc \ table/persistent_cache_helper.cc \ table/plain_table_builder.cc \ table/plain_table_factory.cc \ table/plain_table_index.cc \ table/plain_table_key_coding.cc \ table/plain_table_reader.cc \ table/sst_file_writer.cc \ table/table_properties.cc \ table/two_level_iterator.cc \ tools/dump/db_dump_tool.cc \ util/arena.cc \ util/auto_roll_logger.cc \ util/bloom.cc \ util/build_version.cc \ util/coding.cc \ util/compaction_job_stats_impl.cc \ util/comparator.cc \ util/compression_context_cache.cc \ util/concurrent_arena.cc \ util/crc32c.cc \ util/delete_scheduler.cc \ util/dynamic_bloom.cc \ util/event_logger.cc \ util/file_reader_writer.cc \ util/file_util.cc \ util/filename.cc \ util/filter_policy.cc \ util/hash.cc \ util/log_buffer.cc \ util/murmurhash.cc \ util/random.cc \ util/rate_limiter.cc \ util/slice.cc \ util/sst_file_manager_impl.cc \ util/status.cc \ util/string_util.cc \ util/sync_point.cc \ util/sync_point_impl.cc \ util/thread_local.cc \ util/threadpool_imp.cc \ util/trace_replay.cc \ util/transaction_test_util.cc \ util/xxhash.cc \ utilities/backupable/backupable_db.cc \ utilities/blob_db/blob_compaction_filter.cc \ utilities/blob_db/blob_db.cc \ utilities/blob_db/blob_db_impl.cc \ utilities/blob_db/blob_db_impl_filesnapshot.cc \ utilities/blob_db/blob_file.cc \ utilities/blob_db/blob_log_format.cc \ utilities/blob_db/blob_log_reader.cc \ utilities/blob_db/blob_log_writer.cc \ utilities/cassandra/cassandra_compaction_filter.cc \ utilities/cassandra/format.cc \ utilities/cassandra/merge_operator.cc \ utilities/checkpoint/checkpoint_impl.cc \ utilities/compaction_filters/remove_emptyvalue_compactionfilter.cc \ utilities/convenience/info_log_finder.cc \ utilities/date_tiered/date_tiered_db_impl.cc \ utilities/debug.cc \ utilities/document/document_db.cc \ utilities/document/json_document.cc \ utilities/document/json_document_builder.cc \ utilities/env_mirror.cc \ utilities/env_timed.cc \ utilities/geodb/geodb_impl.cc \ utilities/leveldb_options/leveldb_options.cc \ utilities/lua/rocks_lua_compaction_filter.cc \ utilities/memory/memory_util.cc \ utilities/merge_operators/max.cc \ utilities/merge_operators/put.cc \ utilities/merge_operators/string_append/stringappend.cc \ utilities/merge_operators/string_append/stringappend2.cc \ utilities/merge_operators/uint64add.cc \ utilities/merge_operators/bytesxor.cc \ utilities/option_change_migration/option_change_migration.cc \ utilities/options/options_util.cc \ utilities/persistent_cache/block_cache_tier.cc \ utilities/persistent_cache/block_cache_tier_file.cc \ utilities/persistent_cache/block_cache_tier_metadata.cc \ utilities/persistent_cache/persistent_cache_tier.cc \ utilities/persistent_cache/volatile_tier_impl.cc \ utilities/redis/redis_lists.cc \ utilities/simulator_cache/sim_cache.cc \ utilities/spatialdb/spatial_db.cc \ utilities/table_properties_collectors/compact_on_deletion_collector.cc \ utilities/trace/file_trace_reader_writer.cc \ utilities/transactions/optimistic_transaction.cc \ utilities/transactions/optimistic_transaction_db_impl.cc \ utilities/transactions/pessimistic_transaction.cc \ utilities/transactions/pessimistic_transaction_db.cc \ utilities/transactions/snapshot_checker.cc \ utilities/transactions/transaction_base.cc \ utilities/transactions/transaction_db_mutex_impl.cc \ utilities/transactions/transaction_lock_mgr.cc \ utilities/transactions/transaction_util.cc \ utilities/transactions/write_prepared_txn.cc \ utilities/transactions/write_prepared_txn_db.cc \ utilities/transactions/write_unprepared_txn.cc \ utilities/transactions/write_unprepared_txn_db.cc \ utilities/ttl/db_ttl_impl.cc \ utilities/write_batch_with_index/write_batch_with_index.cc \ utilities/write_batch_with_index/write_batch_with_index_internal.cc \ ifeq (,$(shell $(CXX) -fsyntax-only -maltivec -xc /dev/null 2>&1)) LIB_SOURCES_ASM =\ util/crc32c_ppc_asm.S LIB_SOURCES_C = \ util/crc32c_ppc.c else LIB_SOURCES_ASM = LIB_SOURCES_C = endif TOOL_LIB_SOURCES = \ tools/ldb_cmd.cc \ tools/ldb_tool.cc \ tools/sst_dump_tool.cc \ utilities/blob_db/blob_dump_tool.cc \ ANALYZER_LIB_SOURCES = \ tools/trace_analyzer_tool.cc \ MOCK_LIB_SOURCES = \ table/mock_table.cc \ util/fault_injection_test_env.cc BENCH_LIB_SOURCES = \ tools/db_bench_tool.cc \ EXP_LIB_SOURCES = \ utilities/col_buf_decoder.cc \ utilities/col_buf_encoder.cc \ utilities/column_aware_encoding_util.cc TEST_LIB_SOURCES = \ db/db_test_util.cc \ util/testharness.cc \ util/testutil.cc \ utilities/cassandra/test_utils.cc \ MAIN_SOURCES = \ cache/cache_bench.cc \ cache/cache_test.cc \ db/column_family_test.cc \ db/compact_files_test.cc \ db/compaction_iterator_test.cc \ db/compaction_job_stats_test.cc \ db/compaction_job_test.cc \ db/compaction_picker_test.cc \ db/comparator_db_test.cc \ db/corruption_test.cc \ db/cuckoo_table_db_test.cc \ db/db_basic_test.cc \ db/db_blob_index_test.cc \ db/db_block_cache_test.cc \ db/db_bloom_filter_test.cc \ db/db_compaction_filter_test.cc \ db/db_compaction_test.cc \ db/db_dynamic_level_test.cc \ db/db_encryption_test.cc \ db/db_flush_test.cc \ db/db_inplace_update_test.cc \ db/db_io_failure_test.cc \ db/db_iter_test.cc \ db/db_iter_stress_test.cc \ db/db_iterator_test.cc \ db/db_log_iter_test.cc \ db/db_memtable_test.cc \ db/db_merge_operator_test.cc \ db/db_options_test.cc \ db/db_properties_test.cc \ db/db_range_del_test.cc \ db/db_sst_test.cc \ db/db_statistics_test.cc \ db/db_table_properties_test.cc \ db/db_tailing_iter_test.cc \ db/db_test.cc \ db/db_test2.cc \ db/db_universal_compaction_test.cc \ db/db_wal_test.cc \ db/db_write_test.cc \ db/dbformat_test.cc \ db/deletefile_test.cc \ db/env_timed_test.cc \ db/error_handler_test.cc \ db/external_sst_file_basic_test.cc \ db/external_sst_file_test.cc \ db/fault_injection_test.cc \ db/file_indexer_test.cc \ db/file_reader_writer_test.cc \ db/filename_test.cc \ db/flush_job_test.cc \ db/hash_table_test.cc \ db/hash_test.cc \ db/heap_test.cc \ db/listener_test.cc \ db/log_test.cc \ db/lru_cache_test.cc \ db/manual_compaction_test.cc \ db/memtable_list_test.cc \ db/merge_helper_test.cc \ db/merge_test.cc \ db/obsolete_files_test.cc \ db/options_settable_test.cc \ db/options_file_test.cc \ db/partitioned_filter_block_test.cc \ db/perf_context_test.cc \ db/persistent_cache_test.cc \ db/plain_table_db_test.cc \ db/prefix_test.cc \ db/redis_test.cc \ db/repair_test.cc \ db/range_del_aggregator_test.cc \ db/range_del_aggregator_bench.cc \ db/table_properties_collector_test.cc \ db/util_merge_operators_test.cc \ db/version_builder_test.cc \ db/version_edit_test.cc \ db/version_set_test.cc \ db/wal_manager_test.cc \ db/write_batch_test.cc \ db/write_callback_test.cc \ db/write_controller_test.cc \ env/env_basic_test.cc \ env/env_test.cc \ env/mock_env_test.cc \ memtable/inlineskiplist_test.cc \ memtable/memtablerep_bench.cc \ memtable/skiplist_test.cc \ memtable/write_buffer_manager_test.cc \ monitoring/histogram_test.cc \ monitoring/iostats_context_test.cc \ monitoring/statistics_test.cc \ options/options_test.cc \ table/block_based_filter_block_test.cc \ table/block_test.cc \ table/cleanable_test.cc \ table/cuckoo_table_builder_test.cc \ table/cuckoo_table_reader_test.cc \ table/data_block_hash_index_test.cc \ table/full_filter_block_test.cc \ table/merger_test.cc \ table/table_reader_bench.cc \ table/table_test.cc \ third-party/gtest-1.7.0/fused-src/gtest/gtest-all.cc \ tools/db_bench.cc \ tools/db_bench_tool_test.cc \ tools/db_sanity_test.cc \ tools/ldb_cmd_test.cc \ tools/reduce_levels_test.cc \ tools/sst_dump_test.cc \ tools/trace_analyzer_test.cc \ util/arena_test.cc \ util/auto_roll_logger_test.cc \ util/autovector_test.cc \ util/bloom_test.cc \ util/coding_test.cc \ util/crc32c_test.cc \ util/dynamic_bloom_test.cc \ util/event_logger_test.cc \ util/filelock_test.cc \ util/log_write_bench.cc \ util/rate_limiter_test.cc \ util/repeatable_thread_test.cc \ util/slice_transform_test.cc \ util/timer_queue_test.cc \ util/thread_list_test.cc \ util/thread_local_test.cc \ utilities/backupable/backupable_db_test.cc \ utilities/blob_db/blob_db_test.cc \ utilities/cassandra/cassandra_format_test.cc \ utilities/cassandra/cassandra_functional_test.cc \ utilities/cassandra/cassandra_row_merge_test.cc \ utilities/cassandra/cassandra_serialize_test.cc \ utilities/checkpoint/checkpoint_test.cc \ utilities/column_aware_encoding_exp.cc \ utilities/column_aware_encoding_test.cc \ utilities/date_tiered/date_tiered_test.cc \ utilities/document/document_db_test.cc \ utilities/document/json_document_test.cc \ utilities/geodb/geodb_test.cc \ utilities/lua/rocks_lua_test.cc \ utilities/memory/memory_test.cc \ utilities/merge_operators/string_append/stringappend_test.cc \ utilities/object_registry_test.cc \ utilities/option_change_migration/option_change_migration_test.cc \ utilities/options/options_util_test.cc \ utilities/redis/redis_lists_test.cc \ utilities/simulator_cache/sim_cache_test.cc \ utilities/spatialdb/spatial_db_test.cc \ utilities/table_properties_collectors/compact_on_deletion_collector_test.cc \ utilities/transactions/optimistic_transaction_test.cc \ utilities/transactions/transaction_test.cc \ utilities/transactions/write_prepared_transaction_test.cc \ utilities/transactions/write_unprepared_transaction_test.cc \ utilities/ttl/ttl_test.cc \ utilities/write_batch_with_index/write_batch_with_index_test.cc \ JNI_NATIVE_SOURCES = \ java/rocksjni/backupenginejni.cc \ java/rocksjni/backupablejni.cc \ java/rocksjni/checkpoint.cc \ java/rocksjni/clock_cache.cc \ java/rocksjni/columnfamilyhandle.cc \ java/rocksjni/compaction_filter.cc \ java/rocksjni/compaction_filter_factory.cc \ java/rocksjni/compaction_filter_factory_jnicallback.cc \ java/rocksjni/compact_range_options.cc \ java/rocksjni/compaction_options_fifo.cc \ java/rocksjni/compaction_options_universal.cc \ java/rocksjni/comparator.cc \ java/rocksjni/comparatorjnicallback.cc \ java/rocksjni/compression_options.cc \ java/rocksjni/env.cc \ java/rocksjni/env_options.cc \ java/rocksjni/ingest_external_file_options.cc \ java/rocksjni/filter.cc \ java/rocksjni/iterator.cc \ java/rocksjni/jnicallback.cc \ java/rocksjni/loggerjnicallback.cc \ java/rocksjni/lru_cache.cc \ java/rocksjni/memtablejni.cc \ java/rocksjni/merge_operator.cc \ java/rocksjni/native_comparator_wrapper_test.cc \ java/rocksjni/optimistic_transaction_db.cc \ java/rocksjni/optimistic_transaction_options.cc \ java/rocksjni/options.cc \ java/rocksjni/options_util.cc \ java/rocksjni/ratelimiterjni.cc \ java/rocksjni/remove_emptyvalue_compactionfilterjni.cc \ java/rocksjni/cassandra_compactionfilterjni.cc \ java/rocksjni/cassandra_value_operator.cc \ java/rocksjni/restorejni.cc \ java/rocksjni/rocks_callback_object.cc \ java/rocksjni/rocksjni.cc \ java/rocksjni/rocksdb_exception_test.cc \ java/rocksjni/slice.cc \ java/rocksjni/snapshot.cc \ java/rocksjni/sst_file_manager.cc \ java/rocksjni/sst_file_writerjni.cc \ java/rocksjni/statistics.cc \ java/rocksjni/statisticsjni.cc \ java/rocksjni/table.cc \ java/rocksjni/transaction.cc \ java/rocksjni/transaction_db.cc \ java/rocksjni/transaction_options.cc \ java/rocksjni/transaction_db_options.cc \ java/rocksjni/transaction_log.cc \ java/rocksjni/transaction_notifier.cc \ java/rocksjni/transaction_notifier_jnicallback.cc \ java/rocksjni/ttl.cc \ java/rocksjni/write_batch.cc \ java/rocksjni/writebatchhandlerjnicallback.cc \ java/rocksjni/write_batch_test.cc \ java/rocksjni/write_batch_with_index.cc rocksdb-5.17.2/table/000077500000000000000000000000001337235545400143375ustar00rootroot00000000000000rocksdb-5.17.2/table/adaptive_table_factory.cc000066400000000000000000000114761337235545400213520ustar00rootroot00000000000000// Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #ifndef ROCKSDB_LITE #include "table/adaptive_table_factory.h" #include "table/table_builder.h" #include "table/format.h" #include "port/port.h" namespace rocksdb { AdaptiveTableFactory::AdaptiveTableFactory( std::shared_ptr table_factory_to_write, std::shared_ptr block_based_table_factory, std::shared_ptr plain_table_factory, std::shared_ptr cuckoo_table_factory) : table_factory_to_write_(table_factory_to_write), block_based_table_factory_(block_based_table_factory), plain_table_factory_(plain_table_factory), cuckoo_table_factory_(cuckoo_table_factory) { if (!plain_table_factory_) { plain_table_factory_.reset(NewPlainTableFactory()); } if (!block_based_table_factory_) { block_based_table_factory_.reset(NewBlockBasedTableFactory()); } if (!cuckoo_table_factory_) { cuckoo_table_factory_.reset(NewCuckooTableFactory()); } if (!table_factory_to_write_) { table_factory_to_write_ = block_based_table_factory_; } } extern const uint64_t kPlainTableMagicNumber; extern const uint64_t kLegacyPlainTableMagicNumber; extern const uint64_t kBlockBasedTableMagicNumber; extern const uint64_t kLegacyBlockBasedTableMagicNumber; extern const uint64_t kCuckooTableMagicNumber; Status AdaptiveTableFactory::NewTableReader( const TableReaderOptions& table_reader_options, unique_ptr&& file, uint64_t file_size, unique_ptr* table, bool /*prefetch_index_and_filter_in_cache*/) const { Footer footer; auto s = ReadFooterFromFile(file.get(), nullptr /* prefetch_buffer */, file_size, &footer); if (!s.ok()) { return s; } if (footer.table_magic_number() == kPlainTableMagicNumber || footer.table_magic_number() == kLegacyPlainTableMagicNumber) { return plain_table_factory_->NewTableReader( table_reader_options, std::move(file), file_size, table); } else if (footer.table_magic_number() == kBlockBasedTableMagicNumber || footer.table_magic_number() == kLegacyBlockBasedTableMagicNumber) { return block_based_table_factory_->NewTableReader( table_reader_options, std::move(file), file_size, table); } else if (footer.table_magic_number() == kCuckooTableMagicNumber) { return cuckoo_table_factory_->NewTableReader( table_reader_options, std::move(file), file_size, table); } else { return Status::NotSupported("Unidentified table format"); } } TableBuilder* AdaptiveTableFactory::NewTableBuilder( const TableBuilderOptions& table_builder_options, uint32_t column_family_id, WritableFileWriter* file) const { return table_factory_to_write_->NewTableBuilder(table_builder_options, column_family_id, file); } std::string AdaptiveTableFactory::GetPrintableTableOptions() const { std::string ret; ret.reserve(20000); const int kBufferSize = 200; char buffer[kBufferSize]; if (table_factory_to_write_) { snprintf(buffer, kBufferSize, " write factory (%s) options:\n%s\n", (table_factory_to_write_->Name() ? table_factory_to_write_->Name() : ""), table_factory_to_write_->GetPrintableTableOptions().c_str()); ret.append(buffer); } if (plain_table_factory_) { snprintf(buffer, kBufferSize, " %s options:\n%s\n", plain_table_factory_->Name() ? plain_table_factory_->Name() : "", plain_table_factory_->GetPrintableTableOptions().c_str()); ret.append(buffer); } if (block_based_table_factory_) { snprintf( buffer, kBufferSize, " %s options:\n%s\n", (block_based_table_factory_->Name() ? block_based_table_factory_->Name() : ""), block_based_table_factory_->GetPrintableTableOptions().c_str()); ret.append(buffer); } if (cuckoo_table_factory_) { snprintf(buffer, kBufferSize, " %s options:\n%s\n", cuckoo_table_factory_->Name() ? cuckoo_table_factory_->Name() : "", cuckoo_table_factory_->GetPrintableTableOptions().c_str()); ret.append(buffer); } return ret; } extern TableFactory* NewAdaptiveTableFactory( std::shared_ptr table_factory_to_write, std::shared_ptr block_based_table_factory, std::shared_ptr plain_table_factory, std::shared_ptr cuckoo_table_factory) { return new AdaptiveTableFactory(table_factory_to_write, block_based_table_factory, plain_table_factory, cuckoo_table_factory); } } // namespace rocksdb #endif // ROCKSDB_LITE rocksdb-5.17.2/table/adaptive_table_factory.h000066400000000000000000000035331337235545400212070ustar00rootroot00000000000000// Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #ifndef ROCKSDB_LITE #include #include "rocksdb/options.h" #include "rocksdb/table.h" namespace rocksdb { struct EnvOptions; using std::unique_ptr; class Status; class RandomAccessFile; class WritableFile; class Table; class TableBuilder; class AdaptiveTableFactory : public TableFactory { public: ~AdaptiveTableFactory() {} explicit AdaptiveTableFactory( std::shared_ptr table_factory_to_write, std::shared_ptr block_based_table_factory, std::shared_ptr plain_table_factory, std::shared_ptr cuckoo_table_factory); const char* Name() const override { return "AdaptiveTableFactory"; } Status NewTableReader( const TableReaderOptions& table_reader_options, unique_ptr&& file, uint64_t file_size, unique_ptr* table, bool prefetch_index_and_filter_in_cache = true) const override; TableBuilder* NewTableBuilder( const TableBuilderOptions& table_builder_options, uint32_t column_family_id, WritableFileWriter* file) const override; // Sanitizes the specified DB Options. Status SanitizeOptions( const DBOptions& /*db_opts*/, const ColumnFamilyOptions& /*cf_opts*/) const override { return Status::OK(); } std::string GetPrintableTableOptions() const override; private: std::shared_ptr table_factory_to_write_; std::shared_ptr block_based_table_factory_; std::shared_ptr plain_table_factory_; std::shared_ptr cuckoo_table_factory_; }; } // namespace rocksdb #endif // ROCKSDB_LITE rocksdb-5.17.2/table/block.cc000066400000000000000000000746541337235545400157600ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. // // Decodes the blocks generated by block_builder.cc. #include "table/block.h" #include #include #include #include #include "monitoring/perf_context_imp.h" #include "port/port.h" #include "port/stack_trace.h" #include "rocksdb/comparator.h" #include "table/block_prefix_index.h" #include "table/data_block_footer.h" #include "table/format.h" #include "util/coding.h" #include "util/logging.h" namespace rocksdb { // Helper routine: decode the next block entry starting at "p", // storing the number of shared key bytes, non_shared key bytes, // and the length of the value in "*shared", "*non_shared", and // "*value_length", respectively. Will not derefence past "limit". // // If any errors are detected, returns nullptr. Otherwise, returns a // pointer to the key delta (just past the three decoded values). struct DecodeEntry { inline const char* operator()(const char* p, const char* limit, uint32_t* shared, uint32_t* non_shared, uint32_t* value_length) { // We need 2 bytes for shared and non_shared size. We also need one more // byte either for value size or the actual value in case of value delta // encoding. assert(limit - p >= 3); *shared = reinterpret_cast(p)[0]; *non_shared = reinterpret_cast(p)[1]; *value_length = reinterpret_cast(p)[2]; if ((*shared | *non_shared | *value_length) < 128) { // Fast path: all three values are encoded in one byte each p += 3; } else { if ((p = GetVarint32Ptr(p, limit, shared)) == nullptr) return nullptr; if ((p = GetVarint32Ptr(p, limit, non_shared)) == nullptr) return nullptr; if ((p = GetVarint32Ptr(p, limit, value_length)) == nullptr) { return nullptr; } } // Using an assert in place of "return null" since we should not pay the // cost of checking for corruption on every single key decoding assert(!(static_cast(limit - p) < (*non_shared + *value_length))); return p; } }; struct DecodeKey { inline const char* operator()(const char* p, const char* limit, uint32_t* shared, uint32_t* non_shared) { uint32_t value_length; return DecodeEntry()(p, limit, shared, non_shared, &value_length); } }; // In format_version 4, which is used by index blocks, the value size is not // encoded before the entry, as the value is known to be the handle with the // known size. struct DecodeKeyV4 { inline const char* operator()(const char* p, const char* limit, uint32_t* shared, uint32_t* non_shared) { // We need 2 bytes for shared and non_shared size. We also need one more // byte either for value size or the actual value in case of value delta // encoding. if (limit - p < 3) return nullptr; *shared = reinterpret_cast(p)[0]; *non_shared = reinterpret_cast(p)[1]; if ((*shared | *non_shared) < 128) { // Fast path: all three values are encoded in one byte each p += 2; } else { if ((p = GetVarint32Ptr(p, limit, shared)) == nullptr) return nullptr; if ((p = GetVarint32Ptr(p, limit, non_shared)) == nullptr) return nullptr; } return p; } }; void DataBlockIter::Next() { assert(Valid()); ParseNextDataKey(); } void IndexBlockIter::Next() { assert(Valid()); ParseNextIndexKey(); } void IndexBlockIter::Prev() { assert(Valid()); // Scan backwards to a restart point before current_ const uint32_t original = current_; while (GetRestartPoint(restart_index_) >= original) { if (restart_index_ == 0) { // No more entries current_ = restarts_; restart_index_ = num_restarts_; return; } restart_index_--; } SeekToRestartPoint(restart_index_); do { if (!ParseNextIndexKey()) { break; } // Loop until end of current entry hits the start of original entry } while (NextEntryOffset() < original); } // Similar to IndexBlockIter::Prev but also caches the prev entries void DataBlockIter::Prev() { assert(Valid()); assert(prev_entries_idx_ == -1 || static_cast(prev_entries_idx_) < prev_entries_.size()); // Check if we can use cached prev_entries_ if (prev_entries_idx_ > 0 && prev_entries_[prev_entries_idx_].offset == current_) { // Read cached CachedPrevEntry prev_entries_idx_--; const CachedPrevEntry& current_prev_entry = prev_entries_[prev_entries_idx_]; const char* key_ptr = nullptr; if (current_prev_entry.key_ptr != nullptr) { // The key is not delta encoded and stored in the data block key_ptr = current_prev_entry.key_ptr; key_pinned_ = true; } else { // The key is delta encoded and stored in prev_entries_keys_buff_ key_ptr = prev_entries_keys_buff_.data() + current_prev_entry.key_offset; key_pinned_ = false; } const Slice current_key(key_ptr, current_prev_entry.key_size); current_ = current_prev_entry.offset; key_.SetKey(current_key, false /* copy */); value_ = current_prev_entry.value; return; } // Clear prev entries cache prev_entries_idx_ = -1; prev_entries_.clear(); prev_entries_keys_buff_.clear(); // Scan backwards to a restart point before current_ const uint32_t original = current_; while (GetRestartPoint(restart_index_) >= original) { if (restart_index_ == 0) { // No more entries current_ = restarts_; restart_index_ = num_restarts_; return; } restart_index_--; } SeekToRestartPoint(restart_index_); do { if (!ParseNextDataKey()) { break; } Slice current_key = key(); if (key_.IsKeyPinned()) { // The key is not delta encoded prev_entries_.emplace_back(current_, current_key.data(), 0, current_key.size(), value()); } else { // The key is delta encoded, cache decoded key in buffer size_t new_key_offset = prev_entries_keys_buff_.size(); prev_entries_keys_buff_.append(current_key.data(), current_key.size()); prev_entries_.emplace_back(current_, nullptr, new_key_offset, current_key.size(), value()); } // Loop until end of current entry hits the start of original entry } while (NextEntryOffset() < original); prev_entries_idx_ = static_cast(prev_entries_.size()) - 1; } void DataBlockIter::Seek(const Slice& target) { Slice seek_key = target; PERF_TIMER_GUARD(block_seek_nanos); if (data_ == nullptr) { // Not init yet return; } uint32_t index = 0; bool ok = BinarySeek(seek_key, 0, num_restarts_ - 1, &index, comparator_); if (!ok) { return; } SeekToRestartPoint(index); // Linear search (within restart block) for first key >= target while (true) { if (!ParseNextDataKey() || Compare(key_, seek_key) >= 0) { return; } } } // Optimized Seek for point lookup for an internal key `target` // target = "seek_user_key @ type | seqno". // // For any type other than kTypeValue, kTypeDeletion, kTypeSingleDeletion, // or kTypeBlobIndex, this function behaves identically as Seek(). // // For any type in kTypeValue, kTypeDeletion, kTypeSingleDeletion, // or kTypeBlobIndex: // // If the return value is FALSE, iter location is undefined, and it means: // 1) there is no key in this block falling into the range: // ["seek_user_key @ type | seqno", "seek_user_key @ kTypeDeletion | 0"], // inclusive; AND // 2) the last key of this block has a greater user_key from seek_user_key // // If the return value is TRUE, iter location has two possibilies: // 1) If iter is valid, it is set to a location as if set by BinarySeek. In // this case, it points to the first key_ with a larger user_key or a // matching user_key with a seqno no greater than the seeking seqno. // 2) If the iter is invalid, it means that either all the user_key is less // than the seek_user_key, or the block ends with a matching user_key but // with a smaller [ type | seqno ] (i.e. a larger seqno, or the same seqno // but larger type). bool DataBlockIter::SeekForGetImpl(const Slice& target) { Slice user_key = ExtractUserKey(target); uint32_t map_offset = restarts_ + num_restarts_ * sizeof(uint32_t); uint8_t entry = data_block_hash_index_->Lookup(data_, map_offset, user_key); if (entry == kCollision) { // HashSeek not effective, falling back Seek(target); return true; } if (entry == kNoEntry) { // Even if we cannot find the user_key in this block, the result may // exist in the next block. Consider this exmpale: // // Block N: [aab@100, ... , app@120] // bounary key: axy@50 (we make minimal assumption about a boundary key) // Block N+1: [axy@10, ... ] // // If seek_key = axy@60, the search will starts from Block N. // Even if the user_key is not found in the hash map, the caller still // have to conntinue searching the next block. // // In this case, we pretend the key is the the last restart interval. // The while-loop below will search the last restart interval for the // key. It will stop at the first key that is larger than the seek_key, // or to the end of the block if no one is larger. entry = static_cast(num_restarts_ - 1); } uint32_t restart_index = entry; // check if the key is in the restart_interval assert(restart_index < num_restarts_); SeekToRestartPoint(restart_index); const char* limit = nullptr; if (restart_index_ + 1 < num_restarts_) { limit = data_ + GetRestartPoint(restart_index_ + 1); } else { limit = data_ + restarts_; } while (true) { // Here we only linear seek the target key inside the restart interval. // If a key does not exist inside a restart interval, we avoid // further searching the block content accross restart interval boundary. // // TODO(fwu): check the left and write boundary of the restart interval // to avoid linear seek a target key that is out of range. if (!ParseNextDataKey(limit) || Compare(key_, target) >= 0) { // we stop at the first potential matching user key. break; } } if (current_ == restarts_) { // Search reaches to the end of the block. There are three possibilites: // 1) there is only one user_key match in the block (otherwise collsion). // the matching user_key resides in the last restart interval, and it // is the last key of the restart interval and of the block as well. // ParseNextDataKey() skiped it as its [ type | seqno ] is smaller. // // 2) The seek_key is not found in the HashIndex Lookup(), i.e. kNoEntry, // AND all existing user_keys in the restart interval are smaller than // seek_user_key. // // 3) The seek_key is a false positive and happens to be hashed to the // last restart interval, AND all existing user_keys in the restart // interval are smaller than seek_user_key. // // The result may exist in the next block each case, so we return true. return true; } if (user_comparator_->Compare(key_.GetUserKey(), user_key) != 0) { // the key is not in this block and cannot be at the next block either. return false; } // Here we are conservative and only support a limited set of cases ValueType value_type = ExtractValueType(key_.GetKey()); if (value_type != ValueType::kTypeValue && value_type != ValueType::kTypeDeletion && value_type != ValueType::kTypeSingleDeletion && value_type != ValueType::kTypeBlobIndex) { Seek(target); return true; } // Result found, and the iter is correctly set. return true; } void IndexBlockIter::Seek(const Slice& target) { Slice seek_key = target; if (!key_includes_seq_) { seek_key = ExtractUserKey(target); } PERF_TIMER_GUARD(block_seek_nanos); if (data_ == nullptr) { // Not init yet return; } uint32_t index = 0; bool ok = false; if (prefix_index_) { ok = PrefixSeek(target, &index); } else if (value_delta_encoded_) { ok = BinarySeek(seek_key, 0, num_restarts_ - 1, &index, comparator_); } else { ok = BinarySeek(seek_key, 0, num_restarts_ - 1, &index, comparator_); } if (!ok) { return; } SeekToRestartPoint(index); // Linear search (within restart block) for first key >= target while (true) { if (!ParseNextIndexKey() || Compare(key_, seek_key) >= 0) { return; } } } void DataBlockIter::SeekForPrev(const Slice& target) { PERF_TIMER_GUARD(block_seek_nanos); Slice seek_key = target; if (data_ == nullptr) { // Not init yet return; } uint32_t index = 0; bool ok = BinarySeek(seek_key, 0, num_restarts_ - 1, &index, comparator_); if (!ok) { return; } SeekToRestartPoint(index); // Linear search (within restart block) for first key >= seek_key while (ParseNextDataKey() && Compare(key_, seek_key) < 0) { } if (!Valid()) { SeekToLast(); } else { while (Valid() && Compare(key_, seek_key) > 0) { Prev(); } } } void DataBlockIter::SeekToFirst() { if (data_ == nullptr) { // Not init yet return; } SeekToRestartPoint(0); ParseNextDataKey(); } void IndexBlockIter::SeekToFirst() { if (data_ == nullptr) { // Not init yet return; } SeekToRestartPoint(0); ParseNextIndexKey(); } void DataBlockIter::SeekToLast() { if (data_ == nullptr) { // Not init yet return; } SeekToRestartPoint(num_restarts_ - 1); while (ParseNextDataKey() && NextEntryOffset() < restarts_) { // Keep skipping } } void IndexBlockIter::SeekToLast() { if (data_ == nullptr) { // Not init yet return; } SeekToRestartPoint(num_restarts_ - 1); while (ParseNextIndexKey() && NextEntryOffset() < restarts_) { // Keep skipping } } template void BlockIter::CorruptionError() { current_ = restarts_; restart_index_ = num_restarts_; status_ = Status::Corruption("bad entry in block"); key_.Clear(); value_.clear(); } bool DataBlockIter::ParseNextDataKey(const char* limit) { current_ = NextEntryOffset(); const char* p = data_ + current_; if (!limit) { limit = data_ + restarts_; // Restarts come right after data } if (p >= limit) { // No more entries to return. Mark as invalid. current_ = restarts_; restart_index_ = num_restarts_; return false; } // Decode next entry uint32_t shared, non_shared, value_length; p = DecodeEntry()(p, limit, &shared, &non_shared, &value_length); if (p == nullptr || key_.Size() < shared) { CorruptionError(); return false; } else { if (shared == 0) { // If this key dont share any bytes with prev key then we dont need // to decode it and can use it's address in the block directly. key_.SetKey(Slice(p, non_shared), false /* copy */); key_pinned_ = true; } else { // This key share `shared` bytes with prev key, we need to decode it key_.TrimAppend(shared, p, non_shared); key_pinned_ = false; } if (global_seqno_ != kDisableGlobalSequenceNumber) { // If we are reading a file with a global sequence number we should // expect that all encoded sequence numbers are zeros and any value // type is kTypeValue, kTypeMerge, kTypeDeletion, or kTypeRangeDeletion. assert(GetInternalKeySeqno(key_.GetInternalKey()) == 0); ValueType value_type = ExtractValueType(key_.GetKey()); assert(value_type == ValueType::kTypeValue || value_type == ValueType::kTypeMerge || value_type == ValueType::kTypeDeletion || value_type == ValueType::kTypeRangeDeletion); if (key_pinned_) { // TODO(tec): Investigate updating the seqno in the loaded block // directly instead of doing a copy and update. // We cannot use the key address in the block directly because // we have a global_seqno_ that will overwrite the encoded one. key_.OwnKey(); key_pinned_ = false; } key_.UpdateInternalKey(global_seqno_, value_type); } value_ = Slice(p + non_shared, value_length); if (shared == 0) { while (restart_index_ + 1 < num_restarts_ && GetRestartPoint(restart_index_ + 1) < current_) { ++restart_index_; } } // else we are in the middle of a restart interval and the restart_index_ // thus has not changed return true; } } bool IndexBlockIter::ParseNextIndexKey() { current_ = NextEntryOffset(); const char* p = data_ + current_; const char* limit = data_ + restarts_; // Restarts come right after data if (p >= limit) { // No more entries to return. Mark as invalid. current_ = restarts_; restart_index_ = num_restarts_; return false; } // Decode next entry uint32_t shared, non_shared, value_length; if (value_delta_encoded_) { p = DecodeKeyV4()(p, limit, &shared, &non_shared); value_length = 0; } else { p = DecodeEntry()(p, limit, &shared, &non_shared, &value_length); } if (p == nullptr || key_.Size() < shared) { CorruptionError(); return false; } if (shared == 0) { // If this key dont share any bytes with prev key then we dont need // to decode it and can use it's address in the block directly. key_.SetKey(Slice(p, non_shared), false /* copy */); key_pinned_ = true; } else { // This key share `shared` bytes with prev key, we need to decode it key_.TrimAppend(shared, p, non_shared); key_pinned_ = false; } value_ = Slice(p + non_shared, value_length); if (shared == 0) { while (restart_index_ + 1 < num_restarts_ && GetRestartPoint(restart_index_ + 1) < current_) { ++restart_index_; } } // else we are in the middle of a restart interval and the restart_index_ // thus has not changed if (value_delta_encoded_) { assert(value_length == 0); DecodeCurrentValue(shared); } return true; } // The format: // restart_point 0: k, v (off, sz), k, v (delta-sz), ..., k, v (delta-sz) // restart_point 1: k, v (off, sz), k, v (delta-sz), ..., k, v (delta-sz) // ... // restart_point n-1: k, v (off, sz), k, v (delta-sz), ..., k, v (delta-sz) // where, k is key, v is value, and its encoding is in parenthesis. // The format of each key is (shared_size, non_shared_size, shared, non_shared) // The format of each value, i.e., block hanlde, is (offset, size) whenever the // shared_size is 0, which included the first entry in each restart point. // Otherwise the format is delta-size = block handle size - size of last block // handle. void IndexBlockIter::DecodeCurrentValue(uint32_t shared) { assert(value_delta_encoded_); const char* limit = data_ + restarts_; if (shared == 0) { uint64_t o, s; const char* newp = GetVarint64Ptr(value_.data(), limit, &o); assert(newp); newp = GetVarint64Ptr(newp, limit, &s); assert(newp); decoded_value_ = BlockHandle(o, s); value_ = Slice(value_.data(), newp - value_.data()); } else { uint64_t next_value_base = decoded_value_.offset() + decoded_value_.size() + kBlockTrailerSize; int64_t delta; const char* newp = GetVarsignedint64Ptr(value_.data(), limit, &delta); decoded_value_ = BlockHandle(next_value_base, decoded_value_.size() + delta); value_ = Slice(value_.data(), newp - value_.data()); } } // Binary search in restart array to find the first restart point that // is either the last restart point with a key less than target, // which means the key of next restart point is larger than target, or // the first restart point with a key = target template template bool BlockIter::BinarySeek(const Slice& target, uint32_t left, uint32_t right, uint32_t* index, const Comparator* comp) { assert(left <= right); while (left < right) { uint32_t mid = (left + right + 1) / 2; uint32_t region_offset = GetRestartPoint(mid); uint32_t shared, non_shared; const char* key_ptr = DecodeKeyFunc()( data_ + region_offset, data_ + restarts_, &shared, &non_shared); if (key_ptr == nullptr || (shared != 0)) { CorruptionError(); return false; } Slice mid_key(key_ptr, non_shared); int cmp = comp->Compare(mid_key, target); if (cmp < 0) { // Key at "mid" is smaller than "target". Therefore all // blocks before "mid" are uninteresting. left = mid; } else if (cmp > 0) { // Key at "mid" is >= "target". Therefore all blocks at or // after "mid" are uninteresting. right = mid - 1; } else { left = right = mid; } } *index = left; return true; } // Compare target key and the block key of the block of `block_index`. // Return -1 if error. int IndexBlockIter::CompareBlockKey(uint32_t block_index, const Slice& target) { uint32_t region_offset = GetRestartPoint(block_index); uint32_t shared, non_shared; const char* key_ptr = value_delta_encoded_ ? DecodeKeyV4()(data_ + region_offset, data_ + restarts_, &shared, &non_shared) : DecodeKey()(data_ + region_offset, data_ + restarts_, &shared, &non_shared); if (key_ptr == nullptr || (shared != 0)) { CorruptionError(); return 1; // Return target is smaller } Slice block_key(key_ptr, non_shared); return Compare(block_key, target); } // Binary search in block_ids to find the first block // with a key >= target bool IndexBlockIter::BinaryBlockIndexSeek(const Slice& target, uint32_t* block_ids, uint32_t left, uint32_t right, uint32_t* index) { assert(left <= right); uint32_t left_bound = left; while (left <= right) { uint32_t mid = (right + left) / 2; int cmp = CompareBlockKey(block_ids[mid], target); if (!status_.ok()) { return false; } if (cmp < 0) { // Key at "target" is larger than "mid". Therefore all // blocks before or at "mid" are uninteresting. left = mid + 1; } else { // Key at "target" is <= "mid". Therefore all blocks // after "mid" are uninteresting. // If there is only one block left, we found it. if (left == right) break; right = mid; } } if (left == right) { // In one of the two following cases: // (1) left is the first one of block_ids // (2) there is a gap of blocks between block of `left` and `left-1`. // we can further distinguish the case of key in the block or key not // existing, by comparing the target key and the key of the previous // block to the left of the block found. if (block_ids[left] > 0 && (left == left_bound || block_ids[left - 1] != block_ids[left] - 1) && CompareBlockKey(block_ids[left] - 1, target) > 0) { current_ = restarts_; return false; } *index = block_ids[left]; return true; } else { assert(left > right); // Mark iterator invalid current_ = restarts_; return false; } } bool IndexBlockIter::PrefixSeek(const Slice& target, uint32_t* index) { assert(prefix_index_); Slice seek_key = target; if (!key_includes_seq_) { seek_key = ExtractUserKey(target); } uint32_t* block_ids = nullptr; uint32_t num_blocks = prefix_index_->GetBlocks(target, &block_ids); if (num_blocks == 0) { current_ = restarts_; return false; } else { return BinaryBlockIndexSeek(seek_key, block_ids, 0, num_blocks - 1, index); } } uint32_t Block::NumRestarts() const { assert(size_ >= 2*sizeof(uint32_t)); uint32_t block_footer = DecodeFixed32(data_ + size_ - sizeof(uint32_t)); uint32_t num_restarts = block_footer; if (size_ > kMaxBlockSizeSupportedByHashIndex) { // In BlockBuilder, we have ensured a block with HashIndex is less than // kMaxBlockSizeSupportedByHashIndex (64KiB). // // Therefore, if we encounter a block with a size > 64KiB, the block // cannot have HashIndex. So the footer will directly interpreted as // num_restarts. // // Such check is for backward compatibility. We can ensure legacy block // with a vary large num_restarts i.e. >= 0x80000000 can be interpreted // correctly as no HashIndex even if the MSB of num_restarts is set. return num_restarts; } BlockBasedTableOptions::DataBlockIndexType index_type; UnPackIndexTypeAndNumRestarts(block_footer, &index_type, &num_restarts); return num_restarts; } BlockBasedTableOptions::DataBlockIndexType Block::IndexType() const { assert(size_ >= 2 * sizeof(uint32_t)); if (size_ > kMaxBlockSizeSupportedByHashIndex) { // The check is for the same reason as that in NumRestarts() return BlockBasedTableOptions::kDataBlockBinarySearch; } uint32_t block_footer = DecodeFixed32(data_ + size_ - sizeof(uint32_t)); uint32_t num_restarts = block_footer; BlockBasedTableOptions::DataBlockIndexType index_type; UnPackIndexTypeAndNumRestarts(block_footer, &index_type, &num_restarts); return index_type; } Block::~Block() { // This sync point can be re-enabled if RocksDB can control the // initialization order of any/all static options created by the user. // TEST_SYNC_POINT("Block::~Block"); } Block::Block(BlockContents&& contents, SequenceNumber _global_seqno, size_t read_amp_bytes_per_bit, Statistics* statistics) : contents_(std::move(contents)), data_(contents_.data.data()), size_(contents_.data.size()), restart_offset_(0), num_restarts_(0), global_seqno_(_global_seqno) { TEST_SYNC_POINT("Block::Block:0"); if (size_ < sizeof(uint32_t)) { size_ = 0; // Error marker } else { // Should only decode restart points for uncompressed blocks if (compression_type() == kNoCompression) { num_restarts_ = NumRestarts(); switch (IndexType()) { case BlockBasedTableOptions::kDataBlockBinarySearch: restart_offset_ = static_cast(size_) - (1 + num_restarts_) * sizeof(uint32_t); if (restart_offset_ > size_ - sizeof(uint32_t)) { // The size is too small for NumRestarts() and therefore // restart_offset_ wrapped around. size_ = 0; } break; case BlockBasedTableOptions::kDataBlockBinaryAndHash: if (size_ < sizeof(uint32_t) /* block footer */ + sizeof(uint16_t) /* NUM_BUCK */) { size_ = 0; break; } uint16_t map_offset; data_block_hash_index_.Initialize( contents.data.data(), static_cast(contents.data.size() - sizeof(uint32_t)), /*chop off NUM_RESTARTS*/ &map_offset); restart_offset_ = map_offset - num_restarts_ * sizeof(uint32_t); if (restart_offset_ > map_offset) { // map_offset is too small for NumRestarts() and // therefore restart_offset_ wrapped around. size_ = 0; break; } break; default: size_ = 0; // Error marker } } } if (read_amp_bytes_per_bit != 0 && statistics && size_ != 0) { read_amp_bitmap_.reset(new BlockReadAmpBitmap( restart_offset_, read_amp_bytes_per_bit, statistics)); } } template <> DataBlockIter* Block::NewIterator(const Comparator* cmp, const Comparator* ucmp, DataBlockIter* iter, Statistics* stats, bool /*total_order_seek*/, bool /*key_includes_seq*/, bool /*value_is_full*/, BlockPrefixIndex* /*prefix_index*/) { DataBlockIter* ret_iter; if (iter != nullptr) { ret_iter = iter; } else { ret_iter = new DataBlockIter; } if (size_ < 2 * sizeof(uint32_t)) { ret_iter->Invalidate(Status::Corruption("bad block contents")); return ret_iter; } if (num_restarts_ == 0) { // Empty block. ret_iter->Invalidate(Status::OK()); return ret_iter; } else { ret_iter->Initialize( cmp, ucmp, data_, restart_offset_, num_restarts_, global_seqno_, read_amp_bitmap_.get(), cachable(), data_block_hash_index_.Valid() ? &data_block_hash_index_ : nullptr); if (read_amp_bitmap_) { if (read_amp_bitmap_->GetStatistics() != stats) { // DB changed the Statistics pointer, we need to notify read_amp_bitmap_ read_amp_bitmap_->SetStatistics(stats); } } } return ret_iter; } template <> IndexBlockIter* Block::NewIterator(const Comparator* cmp, const Comparator* ucmp, IndexBlockIter* iter, Statistics* /*stats*/, bool total_order_seek, bool key_includes_seq, bool value_is_full, BlockPrefixIndex* prefix_index) { IndexBlockIter* ret_iter; if (iter != nullptr) { ret_iter = iter; } else { ret_iter = new IndexBlockIter; } if (size_ < 2 * sizeof(uint32_t)) { ret_iter->Invalidate(Status::Corruption("bad block contents")); return ret_iter; } if (num_restarts_ == 0) { // Empty block. ret_iter->Invalidate(Status::OK()); return ret_iter; } else { BlockPrefixIndex* prefix_index_ptr = total_order_seek ? nullptr : prefix_index; ret_iter->Initialize(cmp, ucmp, data_, restart_offset_, num_restarts_, prefix_index_ptr, key_includes_seq, value_is_full, cachable(), nullptr /* data_block_hash_index */); } return ret_iter; } size_t Block::ApproximateMemoryUsage() const { size_t usage = usable_size(); #ifdef ROCKSDB_MALLOC_USABLE_SIZE usage += malloc_usable_size((void*)this); #else usage += sizeof(*this); #endif // ROCKSDB_MALLOC_USABLE_SIZE if (read_amp_bitmap_) { usage += read_amp_bitmap_->ApproximateMemoryUsage(); } return usage; } } // namespace rocksdb rocksdb-5.17.2/table/block.h000066400000000000000000000451661337235545400156160ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #include #include #include #include #ifdef ROCKSDB_MALLOC_USABLE_SIZE #ifdef OS_FREEBSD #include #else #include #endif #endif #include "db/dbformat.h" #include "db/pinned_iterators_manager.h" #include "format.h" #include "rocksdb/iterator.h" #include "rocksdb/options.h" #include "rocksdb/statistics.h" #include "rocksdb/table.h" #include "table/block_prefix_index.h" #include "table/data_block_hash_index.h" #include "table/internal_iterator.h" #include "util/random.h" #include "util/sync_point.h" namespace rocksdb { struct BlockContents; class Comparator; template class BlockIter; class DataBlockIter; class IndexBlockIter; class BlockPrefixIndex; // BlockReadAmpBitmap is a bitmap that map the rocksdb::Block data bytes to // a bitmap with ratio bytes_per_bit. Whenever we access a range of bytes in // the Block we update the bitmap and increment READ_AMP_ESTIMATE_USEFUL_BYTES. class BlockReadAmpBitmap { public: explicit BlockReadAmpBitmap(size_t block_size, size_t bytes_per_bit, Statistics* statistics) : bitmap_(nullptr), bytes_per_bit_pow_(0), statistics_(statistics), rnd_( Random::GetTLSInstance()->Uniform(static_cast(bytes_per_bit))) { TEST_SYNC_POINT_CALLBACK("BlockReadAmpBitmap:rnd", &rnd_); assert(block_size > 0 && bytes_per_bit > 0); // convert bytes_per_bit to be a power of 2 while (bytes_per_bit >>= 1) { bytes_per_bit_pow_++; } // num_bits_needed = ceil(block_size / bytes_per_bit) size_t num_bits_needed = ((block_size - 1) >> bytes_per_bit_pow_) + 1; assert(num_bits_needed > 0); // bitmap_size = ceil(num_bits_needed / kBitsPerEntry) size_t bitmap_size = (num_bits_needed - 1) / kBitsPerEntry + 1; // Create bitmap and set all the bits to 0 bitmap_ = new std::atomic[bitmap_size](); RecordTick(GetStatistics(), READ_AMP_TOTAL_READ_BYTES, block_size); } ~BlockReadAmpBitmap() { delete[] bitmap_; } void Mark(uint32_t start_offset, uint32_t end_offset) { assert(end_offset >= start_offset); // Index of first bit in mask uint32_t start_bit = (start_offset + (1 << bytes_per_bit_pow_) - rnd_ - 1) >> bytes_per_bit_pow_; // Index of last bit in mask + 1 uint32_t exclusive_end_bit = (end_offset + (1 << bytes_per_bit_pow_) - rnd_) >> bytes_per_bit_pow_; if (start_bit >= exclusive_end_bit) { return; } assert(exclusive_end_bit > 0); if (GetAndSet(start_bit) == 0) { uint32_t new_useful_bytes = (exclusive_end_bit - start_bit) << bytes_per_bit_pow_; RecordTick(GetStatistics(), READ_AMP_ESTIMATE_USEFUL_BYTES, new_useful_bytes); } } Statistics* GetStatistics() { return statistics_.load(std::memory_order_relaxed); } void SetStatistics(Statistics* stats) { statistics_.store(stats); } uint32_t GetBytesPerBit() { return 1 << bytes_per_bit_pow_; } size_t ApproximateMemoryUsage() const { #ifdef ROCKSDB_MALLOC_USABLE_SIZE return malloc_usable_size((void*)this); #endif // ROCKSDB_MALLOC_USABLE_SIZE return sizeof(*this); } private: // Get the current value of bit at `bit_idx` and set it to 1 inline bool GetAndSet(uint32_t bit_idx) { const uint32_t byte_idx = bit_idx / kBitsPerEntry; const uint32_t bit_mask = 1 << (bit_idx % kBitsPerEntry); return bitmap_[byte_idx].fetch_or(bit_mask, std::memory_order_relaxed) & bit_mask; } const uint32_t kBytesPersEntry = sizeof(uint32_t); // 4 bytes const uint32_t kBitsPerEntry = kBytesPersEntry * 8; // 32 bits // Bitmap used to record the bytes that we read, use atomic to protect // against multiple threads updating the same bit std::atomic* bitmap_; // (1 << bytes_per_bit_pow_) is bytes_per_bit. Use power of 2 to optimize // muliplication and division uint8_t bytes_per_bit_pow_; // Pointer to DB Statistics object, Since this bitmap may outlive the DB // this pointer maybe invalid, but the DB will update it to a valid pointer // by using SetStatistics() before calling Mark() std::atomic statistics_; uint32_t rnd_; }; class Block { public: // Initialize the block with the specified contents. explicit Block(BlockContents&& contents, SequenceNumber _global_seqno, size_t read_amp_bytes_per_bit = 0, Statistics* statistics = nullptr); ~Block(); size_t size() const { return size_; } const char* data() const { return data_; } bool cachable() const { return contents_.cachable; } // The additional memory space taken by the block data. size_t usable_size() const { return contents_.usable_size(); } uint32_t NumRestarts() const; BlockBasedTableOptions::DataBlockIndexType IndexType() const; CompressionType compression_type() const { return contents_.compression_type; } // If comparator is InternalKeyComparator, user_comparator is its user // comparator; they are equal otherwise. // // If iter is null, return new Iterator // If iter is not null, update this one and return it as Iterator* // // key_includes_seq, default true, means that the keys are in internal key // format. // value_is_full, default ture, means that no delta encoding is // applied to values. // // NewIterator // Same as above but also updates read_amp_bitmap_ if it is not nullptr. // // NewIterator // If `prefix_index` is not nullptr this block will do hash lookup for the key // prefix. If total_order_seek is true, prefix_index_ is ignored. // // NOTE: for the hash based lookup, if a key prefix doesn't match any key, // the iterator will simply be set as "invalid", rather than returning // the key that is just pass the target key. template TBlockIter* NewIterator( const Comparator* comparator, const Comparator* user_comparator, TBlockIter* iter = nullptr, Statistics* stats = nullptr, bool total_order_seek = true, bool key_includes_seq = true, bool value_is_full = true, BlockPrefixIndex* prefix_index = nullptr); // Report an approximation of how much memory has been used. size_t ApproximateMemoryUsage() const; SequenceNumber global_seqno() const { return global_seqno_; } private: BlockContents contents_; const char* data_; // contents_.data.data() size_t size_; // contents_.data.size() uint32_t restart_offset_; // Offset in data_ of restart array uint32_t num_restarts_; std::unique_ptr read_amp_bitmap_; // All keys in the block will have seqno = global_seqno_, regardless of // the encoded value (kDisableGlobalSequenceNumber means disabled) const SequenceNumber global_seqno_; DataBlockHashIndex data_block_hash_index_; // No copying allowed Block(const Block&) = delete; void operator=(const Block&) = delete; }; template class BlockIter : public InternalIteratorBase { public: void InitializeBase(const Comparator* comparator, const char* data, uint32_t restarts, uint32_t num_restarts, SequenceNumber global_seqno, bool block_contents_pinned) { assert(data_ == nullptr); // Ensure it is called only once assert(num_restarts > 0); // Ensure the param is valid comparator_ = comparator; data_ = data; restarts_ = restarts; num_restarts_ = num_restarts; current_ = restarts_; restart_index_ = num_restarts_; global_seqno_ = global_seqno; block_contents_pinned_ = block_contents_pinned; } // Makes Valid() return false, status() return `s`, and Seek()/Prev()/etc do // nothing. Calls cleanup functions. void InvalidateBase(Status s) { // Assert that the BlockIter is never deleted while Pinning is Enabled. assert(!pinned_iters_mgr_ || (pinned_iters_mgr_ && !pinned_iters_mgr_->PinningEnabled())); data_ = nullptr; current_ = restarts_; status_ = s; // Call cleanup callbacks. Cleanable::Reset(); } virtual bool Valid() const override { return current_ < restarts_; } virtual Status status() const override { return status_; } virtual Slice key() const override { assert(Valid()); return key_.GetKey(); } #ifndef NDEBUG virtual ~BlockIter() { // Assert that the BlockIter is never deleted while Pinning is Enabled. assert(!pinned_iters_mgr_ || (pinned_iters_mgr_ && !pinned_iters_mgr_->PinningEnabled())); } virtual void SetPinnedItersMgr( PinnedIteratorsManager* pinned_iters_mgr) override { pinned_iters_mgr_ = pinned_iters_mgr; } PinnedIteratorsManager* pinned_iters_mgr_ = nullptr; #endif virtual bool IsKeyPinned() const override { return block_contents_pinned_ && key_pinned_; } virtual bool IsValuePinned() const override { return block_contents_pinned_; } size_t TEST_CurrentEntrySize() { return NextEntryOffset() - current_; } uint32_t ValueOffset() const { return static_cast(value_.data() - data_); } protected: // Note: The type could be changed to InternalKeyComparator but we see a weird // performance drop by that. const Comparator* comparator_; const char* data_; // underlying block contents uint32_t num_restarts_; // Number of uint32_t entries in restart array // Index of restart block in which current_ or current_-1 falls uint32_t restart_index_; uint32_t restarts_; // Offset of restart array (list of fixed32) // current_ is offset in data_ of current entry. >= restarts_ if !Valid uint32_t current_; IterKey key_; Slice value_; Status status_; bool key_pinned_; // whether the block data is guaranteed to outlive this iterator bool block_contents_pinned_; SequenceNumber global_seqno_; public: // Return the offset in data_ just past the end of the current entry. inline uint32_t NextEntryOffset() const { // NOTE: We don't support blocks bigger than 2GB return static_cast((value_.data() + value_.size()) - data_); } uint32_t GetRestartPoint(uint32_t index) { assert(index < num_restarts_); return DecodeFixed32(data_ + restarts_ + index * sizeof(uint32_t)); } void SeekToRestartPoint(uint32_t index) { key_.Clear(); restart_index_ = index; // current_ will be fixed by ParseNextKey(); // ParseNextKey() starts at the end of value_, so set value_ accordingly uint32_t offset = GetRestartPoint(index); value_ = Slice(data_ + offset, 0); } void CorruptionError(); template inline bool BinarySeek(const Slice& target, uint32_t left, uint32_t right, uint32_t* index, const Comparator* comp); }; class DataBlockIter final : public BlockIter { public: DataBlockIter() : BlockIter(), read_amp_bitmap_(nullptr), last_bitmap_offset_(0) {} DataBlockIter(const Comparator* comparator, const Comparator* user_comparator, const char* data, uint32_t restarts, uint32_t num_restarts, SequenceNumber global_seqno, BlockReadAmpBitmap* read_amp_bitmap, bool block_contents_pinned, DataBlockHashIndex* data_block_hash_index) : DataBlockIter() { Initialize(comparator, user_comparator, data, restarts, num_restarts, global_seqno, read_amp_bitmap, block_contents_pinned, data_block_hash_index); } void Initialize(const Comparator* comparator, const Comparator* user_comparator, const char* data, uint32_t restarts, uint32_t num_restarts, SequenceNumber global_seqno, BlockReadAmpBitmap* read_amp_bitmap, bool block_contents_pinned, DataBlockHashIndex* data_block_hash_index) { InitializeBase(comparator, data, restarts, num_restarts, global_seqno, block_contents_pinned); user_comparator_ = user_comparator; key_.SetIsUserKey(false); read_amp_bitmap_ = read_amp_bitmap; last_bitmap_offset_ = current_ + 1; data_block_hash_index_ = data_block_hash_index; } virtual Slice value() const override { assert(Valid()); if (read_amp_bitmap_ && current_ < restarts_ && current_ != last_bitmap_offset_) { read_amp_bitmap_->Mark(current_ /* current entry offset */, NextEntryOffset() - 1); last_bitmap_offset_ = current_; } return value_; } virtual void Seek(const Slice& target) override; inline bool SeekForGet(const Slice& target) { if (!data_block_hash_index_) { Seek(target); return true; } return SeekForGetImpl(target); } virtual void SeekForPrev(const Slice& target) override; virtual void Prev() override; virtual void Next() override; virtual void SeekToFirst() override; virtual void SeekToLast() override; void Invalidate(Status s) { InvalidateBase(s); // Clear prev entries cache. prev_entries_keys_buff_.clear(); prev_entries_.clear(); prev_entries_idx_ = -1; } private: // read-amp bitmap BlockReadAmpBitmap* read_amp_bitmap_; // last `current_` value we report to read-amp bitmp mutable uint32_t last_bitmap_offset_; struct CachedPrevEntry { explicit CachedPrevEntry(uint32_t _offset, const char* _key_ptr, size_t _key_offset, size_t _key_size, Slice _value) : offset(_offset), key_ptr(_key_ptr), key_offset(_key_offset), key_size(_key_size), value(_value) {} // offset of entry in block uint32_t offset; // Pointer to key data in block (nullptr if key is delta-encoded) const char* key_ptr; // offset of key in prev_entries_keys_buff_ (0 if key_ptr is not nullptr) size_t key_offset; // size of key size_t key_size; // value slice pointing to data in block Slice value; }; std::string prev_entries_keys_buff_; std::vector prev_entries_; int32_t prev_entries_idx_ = -1; DataBlockHashIndex* data_block_hash_index_; const Comparator* user_comparator_; inline bool ParseNextDataKey(const char* limit = nullptr); inline int Compare(const IterKey& ikey, const Slice& b) const { return comparator_->Compare(ikey.GetInternalKey(), b); } bool SeekForGetImpl(const Slice& target); }; class IndexBlockIter final : public BlockIter { public: IndexBlockIter() : BlockIter(), prefix_index_(nullptr) {} virtual Slice key() const override { assert(Valid()); return key_.GetKey(); } // key_includes_seq, default true, means that the keys are in internal key // format. // value_is_full, default ture, means that no delta encoding is // applied to values. IndexBlockIter(const Comparator* comparator, const Comparator* user_comparator, const char* data, uint32_t restarts, uint32_t num_restarts, BlockPrefixIndex* prefix_index, bool key_includes_seq, bool value_is_full, bool block_contents_pinned) : IndexBlockIter() { Initialize(comparator, user_comparator, data, restarts, num_restarts, prefix_index, key_includes_seq, block_contents_pinned, value_is_full, nullptr /* data_block_hash_index */); } void Initialize(const Comparator* comparator, const Comparator* user_comparator, const char* data, uint32_t restarts, uint32_t num_restarts, BlockPrefixIndex* prefix_index, bool key_includes_seq, bool value_is_full, bool block_contents_pinned, DataBlockHashIndex* /*data_block_hash_index*/) { InitializeBase(key_includes_seq ? comparator : user_comparator, data, restarts, num_restarts, kDisableGlobalSequenceNumber, block_contents_pinned); key_includes_seq_ = key_includes_seq; key_.SetIsUserKey(!key_includes_seq_); prefix_index_ = prefix_index; value_delta_encoded_ = !value_is_full; } virtual BlockHandle value() const override { assert(Valid()); if (value_delta_encoded_) { return decoded_value_; } else { BlockHandle handle; Slice v = value_; Status decode_s __attribute__((__unused__)) = handle.DecodeFrom(&v); assert(decode_s.ok()); return handle; } } virtual void Seek(const Slice& target) override; virtual void SeekForPrev(const Slice&) override { assert(false); current_ = restarts_; restart_index_ = num_restarts_; status_ = Status::InvalidArgument( "RocksDB internal error: should never call SeekForPrev() on index " "blocks"); key_.Clear(); value_.clear(); } virtual void Prev() override; virtual void Next() override; virtual void SeekToFirst() override; virtual void SeekToLast() override; void Invalidate(Status s) { InvalidateBase(s); } private: // Key is in InternalKey format bool key_includes_seq_; bool value_delta_encoded_; BlockPrefixIndex* prefix_index_; // Whether the value is delta encoded. In that case the value is assumed to be // BlockHandle. The first value in each restart interval is the full encoded // BlockHandle; the restart of encoded size part of the BlockHandle. The // offset of delta encoded BlockHandles is computed by adding the size of // previous delta encoded values in the same restart interval to the offset of // the first value in that restart interval. BlockHandle decoded_value_; bool PrefixSeek(const Slice& target, uint32_t* index); bool BinaryBlockIndexSeek(const Slice& target, uint32_t* block_ids, uint32_t left, uint32_t right, uint32_t* index); inline int CompareBlockKey(uint32_t block_index, const Slice& target); inline int Compare(const Slice& a, const Slice& b) const { return comparator_->Compare(a, b); } inline int Compare(const IterKey& ikey, const Slice& b) const { return comparator_->Compare(ikey.GetKey(), b); } inline bool ParseNextIndexKey(); // When value_delta_encoded_ is enabled it decodes the value which is assumed // to be BlockHandle and put it to decoded_value_ inline void DecodeCurrentValue(uint32_t shared); }; } // namespace rocksdb rocksdb-5.17.2/table/block_based_filter_block.cc000066400000000000000000000202301337235545400216120ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2012 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "table/block_based_filter_block.h" #include #include "db/dbformat.h" #include "monitoring/perf_context_imp.h" #include "rocksdb/filter_policy.h" #include "util/coding.h" #include "util/string_util.h" namespace rocksdb { namespace { void AppendItem(std::string* props, const std::string& key, const std::string& value) { char cspace = ' '; std::string value_str(""); size_t i = 0; const size_t dataLength = 64; const size_t tabLength = 2; const size_t offLength = 16; value_str.append(&value[i], std::min(size_t(dataLength), value.size())); i += dataLength; while (i < value.size()) { value_str.append("\n"); value_str.append(offLength, cspace); value_str.append(&value[i], std::min(size_t(dataLength), value.size() - i)); i += dataLength; } std::string result(""); if (key.size() < (offLength - tabLength)) result.append(size_t((offLength - tabLength)) - key.size(), cspace); result.append(key); props->append(result + ": " + value_str + "\n"); } template void AppendItem(std::string* props, const TKey& key, const std::string& value) { std::string key_str = rocksdb::ToString(key); AppendItem(props, key_str, value); } } // namespace // See doc/table_format.txt for an explanation of the filter block format. // Generate new filter every 2KB of data static const size_t kFilterBaseLg = 11; static const size_t kFilterBase = 1 << kFilterBaseLg; BlockBasedFilterBlockBuilder::BlockBasedFilterBlockBuilder( const SliceTransform* prefix_extractor, const BlockBasedTableOptions& table_opt) : policy_(table_opt.filter_policy.get()), prefix_extractor_(prefix_extractor), whole_key_filtering_(table_opt.whole_key_filtering), prev_prefix_start_(0), prev_prefix_size_(0), num_added_(0) { assert(policy_); } void BlockBasedFilterBlockBuilder::StartBlock(uint64_t block_offset) { uint64_t filter_index = (block_offset / kFilterBase); assert(filter_index >= filter_offsets_.size()); while (filter_index > filter_offsets_.size()) { GenerateFilter(); } } void BlockBasedFilterBlockBuilder::Add(const Slice& key) { if (prefix_extractor_ && prefix_extractor_->InDomain(key)) { AddPrefix(key); } if (whole_key_filtering_) { AddKey(key); } } // Add key to filter if needed inline void BlockBasedFilterBlockBuilder::AddKey(const Slice& key) { num_added_++; start_.push_back(entries_.size()); entries_.append(key.data(), key.size()); } // Add prefix to filter if needed inline void BlockBasedFilterBlockBuilder::AddPrefix(const Slice& key) { // get slice for most recently added entry Slice prev; if (prev_prefix_size_ > 0) { prev = Slice(entries_.data() + prev_prefix_start_, prev_prefix_size_); } Slice prefix = prefix_extractor_->Transform(key); // insert prefix only when it's different from the previous prefix. if (prev.size() == 0 || prefix != prev) { prev_prefix_start_ = entries_.size(); prev_prefix_size_ = prefix.size(); AddKey(prefix); } } Slice BlockBasedFilterBlockBuilder::Finish(const BlockHandle& /*tmp*/, Status* status) { // In this impl we ignore BlockHandle *status = Status::OK(); if (!start_.empty()) { GenerateFilter(); } // Append array of per-filter offsets const uint32_t array_offset = static_cast(result_.size()); for (size_t i = 0; i < filter_offsets_.size(); i++) { PutFixed32(&result_, filter_offsets_[i]); } PutFixed32(&result_, array_offset); result_.push_back(kFilterBaseLg); // Save encoding parameter in result return Slice(result_); } void BlockBasedFilterBlockBuilder::GenerateFilter() { const size_t num_entries = start_.size(); if (num_entries == 0) { // Fast path if there are no keys for this filter filter_offsets_.push_back(static_cast(result_.size())); return; } // Make list of keys from flattened key structure start_.push_back(entries_.size()); // Simplify length computation tmp_entries_.resize(num_entries); for (size_t i = 0; i < num_entries; i++) { const char* base = entries_.data() + start_[i]; size_t length = start_[i + 1] - start_[i]; tmp_entries_[i] = Slice(base, length); } // Generate filter for current set of keys and append to result_. filter_offsets_.push_back(static_cast(result_.size())); policy_->CreateFilter(&tmp_entries_[0], static_cast(num_entries), &result_); tmp_entries_.clear(); entries_.clear(); start_.clear(); prev_prefix_start_ = 0; prev_prefix_size_ = 0; } BlockBasedFilterBlockReader::BlockBasedFilterBlockReader( const SliceTransform* prefix_extractor, const BlockBasedTableOptions& table_opt, bool _whole_key_filtering, BlockContents&& contents, Statistics* stats) : FilterBlockReader(contents.data.size(), stats, _whole_key_filtering), policy_(table_opt.filter_policy.get()), prefix_extractor_(prefix_extractor), data_(nullptr), offset_(nullptr), num_(0), base_lg_(0), contents_(std::move(contents)) { assert(policy_); size_t n = contents_.data.size(); if (n < 5) return; // 1 byte for base_lg_ and 4 for start of offset array base_lg_ = contents_.data[n - 1]; uint32_t last_word = DecodeFixed32(contents_.data.data() + n - 5); if (last_word > n - 5) return; data_ = contents_.data.data(); offset_ = data_ + last_word; num_ = (n - 5 - last_word) / 4; } bool BlockBasedFilterBlockReader::KeyMayMatch( const Slice& key, const SliceTransform* /* prefix_extractor */, uint64_t block_offset, const bool /*no_io*/, const Slice* const /*const_ikey_ptr*/) { assert(block_offset != kNotValid); if (!whole_key_filtering_) { return true; } return MayMatch(key, block_offset); } bool BlockBasedFilterBlockReader::PrefixMayMatch( const Slice& prefix, const SliceTransform* /* prefix_extractor */, uint64_t block_offset, const bool /*no_io*/, const Slice* const /*const_ikey_ptr*/) { assert(block_offset != kNotValid); return MayMatch(prefix, block_offset); } bool BlockBasedFilterBlockReader::MayMatch(const Slice& entry, uint64_t block_offset) { uint64_t index = block_offset >> base_lg_; if (index < num_) { uint32_t start = DecodeFixed32(offset_ + index * 4); uint32_t limit = DecodeFixed32(offset_ + index * 4 + 4); if (start <= limit && limit <= (uint32_t)(offset_ - data_)) { Slice filter = Slice(data_ + start, limit - start); bool const may_match = policy_->KeyMayMatch(entry, filter); if (may_match) { PERF_COUNTER_ADD(bloom_sst_hit_count, 1); return true; } else { PERF_COUNTER_ADD(bloom_sst_miss_count, 1); return false; } } else if (start == limit) { // Empty filters do not match any entries return false; } } return true; // Errors are treated as potential matches } size_t BlockBasedFilterBlockReader::ApproximateMemoryUsage() const { return num_ * 4 + 5 + (offset_ - data_); } std::string BlockBasedFilterBlockReader::ToString() const { std::string result; result.reserve(1024); std::string s_bo("Block offset"), s_hd("Hex dump"), s_fb("# filter blocks"); AppendItem(&result, s_fb, rocksdb::ToString(num_)); AppendItem(&result, s_bo, s_hd); for (size_t index = 0; index < num_; index++) { uint32_t start = DecodeFixed32(offset_ + index * 4); uint32_t limit = DecodeFixed32(offset_ + index * 4 + 4); if (start != limit) { result.append(" filter block # " + rocksdb::ToString(index + 1) + "\n"); Slice filter = Slice(data_ + start, limit - start); AppendItem(&result, start, filter.ToString(true)); } } return result; } } // namespace rocksdb rocksdb-5.17.2/table/block_based_filter_block.h000066400000000000000000000112551337235545400214630ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2012 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. // // A filter block is stored near the end of a Table file. It contains // filters (e.g., bloom filters) for all data blocks in the table combined // into a single filter block. #pragma once #include #include #include #include #include #include "rocksdb/options.h" #include "rocksdb/slice.h" #include "rocksdb/slice_transform.h" #include "table/filter_block.h" #include "util/hash.h" namespace rocksdb { // A BlockBasedFilterBlockBuilder is used to construct all of the filters for a // particular Table. It generates a single string which is stored as // a special block in the Table. // // The sequence of calls to BlockBasedFilterBlockBuilder must match the regexp: // (StartBlock Add*)* Finish class BlockBasedFilterBlockBuilder : public FilterBlockBuilder { public: BlockBasedFilterBlockBuilder(const SliceTransform* prefix_extractor, const BlockBasedTableOptions& table_opt); virtual bool IsBlockBased() override { return true; } virtual void StartBlock(uint64_t block_offset) override; virtual void Add(const Slice& key) override; virtual size_t NumAdded() const override { return num_added_; } virtual Slice Finish(const BlockHandle& tmp, Status* status) override; using FilterBlockBuilder::Finish; private: void AddKey(const Slice& key); void AddPrefix(const Slice& key); void GenerateFilter(); // important: all of these might point to invalid addresses // at the time of destruction of this filter block. destructor // should NOT dereference them. const FilterPolicy* policy_; const SliceTransform* prefix_extractor_; bool whole_key_filtering_; size_t prev_prefix_start_; // the position of the last appended prefix // to "entries_". size_t prev_prefix_size_; // the length of the last appended prefix to // "entries_". std::string entries_; // Flattened entry contents std::vector start_; // Starting index in entries_ of each entry std::string result_; // Filter data computed so far std::vector tmp_entries_; // policy_->CreateFilter() argument std::vector filter_offsets_; size_t num_added_; // Number of keys added // No copying allowed BlockBasedFilterBlockBuilder(const BlockBasedFilterBlockBuilder&); void operator=(const BlockBasedFilterBlockBuilder&); }; // A FilterBlockReader is used to parse filter from SST table. // KeyMayMatch and PrefixMayMatch would trigger filter checking class BlockBasedFilterBlockReader : public FilterBlockReader { public: // REQUIRES: "contents" and *policy must stay live while *this is live. BlockBasedFilterBlockReader(const SliceTransform* prefix_extractor, const BlockBasedTableOptions& table_opt, bool whole_key_filtering, BlockContents&& contents, Statistics* statistics); virtual bool IsBlockBased() override { return true; } virtual bool KeyMayMatch( const Slice& key, const SliceTransform* prefix_extractor, uint64_t block_offset = kNotValid, const bool no_io = false, const Slice* const const_ikey_ptr = nullptr) override; virtual bool PrefixMayMatch( const Slice& prefix, const SliceTransform* prefix_extractor, uint64_t block_offset = kNotValid, const bool no_io = false, const Slice* const const_ikey_ptr = nullptr) override; virtual size_t ApproximateMemoryUsage() const override; // convert this object to a human readable form std::string ToString() const override; private: const FilterPolicy* policy_; const SliceTransform* prefix_extractor_; const char* data_; // Pointer to filter data (at block-start) const char* offset_; // Pointer to beginning of offset array (at block-end) size_t num_; // Number of entries in offset array size_t base_lg_; // Encoding parameter (see kFilterBaseLg in .cc file) BlockContents contents_; bool MayMatch(const Slice& entry, uint64_t block_offset); // No copying allowed BlockBasedFilterBlockReader(const BlockBasedFilterBlockReader&); void operator=(const BlockBasedFilterBlockReader&); }; } // namespace rocksdb rocksdb-5.17.2/table/block_based_filter_block_test.cc000066400000000000000000000207571337235545400226670ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2012 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "table/block_based_filter_block.h" #include "rocksdb/filter_policy.h" #include "util/coding.h" #include "util/hash.h" #include "util/string_util.h" #include "util/testharness.h" #include "util/testutil.h" namespace rocksdb { // For testing: emit an array with one hash value per key class TestHashFilter : public FilterPolicy { public: virtual const char* Name() const override { return "TestHashFilter"; } virtual void CreateFilter(const Slice* keys, int n, std::string* dst) const override { for (int i = 0; i < n; i++) { uint32_t h = Hash(keys[i].data(), keys[i].size(), 1); PutFixed32(dst, h); } } virtual bool KeyMayMatch(const Slice& key, const Slice& filter) const override { uint32_t h = Hash(key.data(), key.size(), 1); for (unsigned int i = 0; i + 4 <= filter.size(); i += 4) { if (h == DecodeFixed32(filter.data() + i)) { return true; } } return false; } }; class FilterBlockTest : public testing::Test { public: TestHashFilter policy_; BlockBasedTableOptions table_options_; FilterBlockTest() { table_options_.filter_policy.reset(new TestHashFilter()); } }; TEST_F(FilterBlockTest, EmptyBuilder) { BlockBasedFilterBlockBuilder builder(nullptr, table_options_); BlockContents block(builder.Finish(), false, kNoCompression); ASSERT_EQ("\\x00\\x00\\x00\\x00\\x0b", EscapeString(block.data)); BlockBasedFilterBlockReader reader(nullptr, table_options_, true, std::move(block), nullptr); ASSERT_TRUE(reader.KeyMayMatch("foo", nullptr, uint64_t{0})); ASSERT_TRUE(reader.KeyMayMatch("foo", nullptr, 100000)); } TEST_F(FilterBlockTest, SingleChunk) { BlockBasedFilterBlockBuilder builder(nullptr, table_options_); ASSERT_EQ(0, builder.NumAdded()); builder.StartBlock(100); builder.Add("foo"); builder.Add("bar"); builder.Add("box"); builder.StartBlock(200); builder.Add("box"); builder.StartBlock(300); builder.Add("hello"); ASSERT_EQ(5, builder.NumAdded()); BlockContents block(builder.Finish(), false, kNoCompression); BlockBasedFilterBlockReader reader(nullptr, table_options_, true, std::move(block), nullptr); ASSERT_TRUE(reader.KeyMayMatch("foo", nullptr, 100)); ASSERT_TRUE(reader.KeyMayMatch("bar", nullptr, 100)); ASSERT_TRUE(reader.KeyMayMatch("box", nullptr, 100)); ASSERT_TRUE(reader.KeyMayMatch("hello", nullptr, 100)); ASSERT_TRUE(reader.KeyMayMatch("foo", nullptr, 100)); ASSERT_TRUE(!reader.KeyMayMatch("missing", nullptr, 100)); ASSERT_TRUE(!reader.KeyMayMatch("other", nullptr, 100)); } TEST_F(FilterBlockTest, MultiChunk) { BlockBasedFilterBlockBuilder builder(nullptr, table_options_); // First filter builder.StartBlock(0); builder.Add("foo"); builder.StartBlock(2000); builder.Add("bar"); // Second filter builder.StartBlock(3100); builder.Add("box"); // Third filter is empty // Last filter builder.StartBlock(9000); builder.Add("box"); builder.Add("hello"); BlockContents block(builder.Finish(), false, kNoCompression); BlockBasedFilterBlockReader reader(nullptr, table_options_, true, std::move(block), nullptr); // Check first filter ASSERT_TRUE(reader.KeyMayMatch("foo", nullptr, uint64_t{0})); ASSERT_TRUE(reader.KeyMayMatch("bar", nullptr, 2000)); ASSERT_TRUE(!reader.KeyMayMatch("box", nullptr, uint64_t{0})); ASSERT_TRUE(!reader.KeyMayMatch("hello", nullptr, uint64_t{0})); // Check second filter ASSERT_TRUE(reader.KeyMayMatch("box", nullptr, 3100)); ASSERT_TRUE(!reader.KeyMayMatch("foo", nullptr, 3100)); ASSERT_TRUE(!reader.KeyMayMatch("bar", nullptr, 3100)); ASSERT_TRUE(!reader.KeyMayMatch("hello", nullptr, 3100)); // Check third filter (empty) ASSERT_TRUE(!reader.KeyMayMatch("foo", nullptr, 4100)); ASSERT_TRUE(!reader.KeyMayMatch("bar", nullptr, 4100)); ASSERT_TRUE(!reader.KeyMayMatch("box", nullptr, 4100)); ASSERT_TRUE(!reader.KeyMayMatch("hello", nullptr, 4100)); // Check last filter ASSERT_TRUE(reader.KeyMayMatch("box", nullptr, 9000)); ASSERT_TRUE(reader.KeyMayMatch("hello", nullptr, 9000)); ASSERT_TRUE(!reader.KeyMayMatch("foo", nullptr, 9000)); ASSERT_TRUE(!reader.KeyMayMatch("bar", nullptr, 9000)); } // Test for block based filter block // use new interface in FilterPolicy to create filter builder/reader class BlockBasedFilterBlockTest : public testing::Test { public: BlockBasedTableOptions table_options_; BlockBasedFilterBlockTest() { table_options_.filter_policy.reset(NewBloomFilterPolicy(10)); } ~BlockBasedFilterBlockTest() {} }; TEST_F(BlockBasedFilterBlockTest, BlockBasedEmptyBuilder) { FilterBlockBuilder* builder = new BlockBasedFilterBlockBuilder( nullptr, table_options_); BlockContents block(builder->Finish(), false, kNoCompression); ASSERT_EQ("\\x00\\x00\\x00\\x00\\x0b", EscapeString(block.data)); FilterBlockReader* reader = new BlockBasedFilterBlockReader( nullptr, table_options_, true, std::move(block), nullptr); ASSERT_TRUE(reader->KeyMayMatch("foo", nullptr, uint64_t{0})); ASSERT_TRUE(reader->KeyMayMatch("foo", nullptr, 100000)); delete builder; delete reader; } TEST_F(BlockBasedFilterBlockTest, BlockBasedSingleChunk) { FilterBlockBuilder* builder = new BlockBasedFilterBlockBuilder( nullptr, table_options_); builder->StartBlock(100); builder->Add("foo"); builder->Add("bar"); builder->Add("box"); builder->StartBlock(200); builder->Add("box"); builder->StartBlock(300); builder->Add("hello"); BlockContents block(builder->Finish(), false, kNoCompression); FilterBlockReader* reader = new BlockBasedFilterBlockReader( nullptr, table_options_, true, std::move(block), nullptr); ASSERT_TRUE(reader->KeyMayMatch("foo", nullptr, 100)); ASSERT_TRUE(reader->KeyMayMatch("bar", nullptr, 100)); ASSERT_TRUE(reader->KeyMayMatch("box", nullptr, 100)); ASSERT_TRUE(reader->KeyMayMatch("hello", nullptr, 100)); ASSERT_TRUE(reader->KeyMayMatch("foo", nullptr, 100)); ASSERT_TRUE(!reader->KeyMayMatch("missing", nullptr, 100)); ASSERT_TRUE(!reader->KeyMayMatch("other", nullptr, 100)); delete builder; delete reader; } TEST_F(BlockBasedFilterBlockTest, BlockBasedMultiChunk) { FilterBlockBuilder* builder = new BlockBasedFilterBlockBuilder( nullptr, table_options_); // First filter builder->StartBlock(0); builder->Add("foo"); builder->StartBlock(2000); builder->Add("bar"); // Second filter builder->StartBlock(3100); builder->Add("box"); // Third filter is empty // Last filter builder->StartBlock(9000); builder->Add("box"); builder->Add("hello"); BlockContents block(builder->Finish(), false, kNoCompression); FilterBlockReader* reader = new BlockBasedFilterBlockReader( nullptr, table_options_, true, std::move(block), nullptr); // Check first filter ASSERT_TRUE(reader->KeyMayMatch("foo", nullptr, uint64_t{0})); ASSERT_TRUE(reader->KeyMayMatch("bar", nullptr, 2000)); ASSERT_TRUE(!reader->KeyMayMatch("box", nullptr, uint64_t{0})); ASSERT_TRUE(!reader->KeyMayMatch("hello", nullptr, uint64_t{0})); // Check second filter ASSERT_TRUE(reader->KeyMayMatch("box", nullptr, 3100)); ASSERT_TRUE(!reader->KeyMayMatch("foo", nullptr, 3100)); ASSERT_TRUE(!reader->KeyMayMatch("bar", nullptr, 3100)); ASSERT_TRUE(!reader->KeyMayMatch("hello", nullptr, 3100)); // Check third filter (empty) ASSERT_TRUE(!reader->KeyMayMatch("foo", nullptr, 4100)); ASSERT_TRUE(!reader->KeyMayMatch("bar", nullptr, 4100)); ASSERT_TRUE(!reader->KeyMayMatch("box", nullptr, 4100)); ASSERT_TRUE(!reader->KeyMayMatch("hello", nullptr, 4100)); // Check last filter ASSERT_TRUE(reader->KeyMayMatch("box", nullptr, 9000)); ASSERT_TRUE(reader->KeyMayMatch("hello", nullptr, 9000)); ASSERT_TRUE(!reader->KeyMayMatch("foo", nullptr, 9000)); ASSERT_TRUE(!reader->KeyMayMatch("bar", nullptr, 9000)); delete builder; delete reader; } } // namespace rocksdb int main(int argc, char** argv) { ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/table/block_based_table_builder.cc000066400000000000000000001077021337235545400217620ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "table/block_based_table_builder.h" #include #include #include #include #include #include #include #include #include "db/dbformat.h" #include "rocksdb/cache.h" #include "rocksdb/comparator.h" #include "rocksdb/env.h" #include "rocksdb/filter_policy.h" #include "rocksdb/flush_block_policy.h" #include "rocksdb/merge_operator.h" #include "rocksdb/table.h" #include "table/block.h" #include "table/block_based_filter_block.h" #include "table/block_based_table_factory.h" #include "table/block_based_table_reader.h" #include "table/block_builder.h" #include "table/filter_block.h" #include "table/format.h" #include "table/full_filter_block.h" #include "table/table_builder.h" #include "util/coding.h" #include "util/compression.h" #include "util/crc32c.h" #include "util/stop_watch.h" #include "util/string_util.h" #include "util/xxhash.h" #include "table/index_builder.h" #include "table/partitioned_filter_block.h" namespace rocksdb { extern const std::string kHashIndexPrefixesBlock; extern const std::string kHashIndexPrefixesMetadataBlock; typedef BlockBasedTableOptions::IndexType IndexType; // Without anonymous namespace here, we fail the warning -Wmissing-prototypes namespace { // Create a filter block builder based on its type. FilterBlockBuilder* CreateFilterBlockBuilder( const ImmutableCFOptions& /*opt*/, const MutableCFOptions& mopt, const BlockBasedTableOptions& table_opt, const bool use_delta_encoding_for_index_values, PartitionedIndexBuilder* const p_index_builder) { if (table_opt.filter_policy == nullptr) return nullptr; FilterBitsBuilder* filter_bits_builder = table_opt.filter_policy->GetFilterBitsBuilder(); if (filter_bits_builder == nullptr) { return new BlockBasedFilterBlockBuilder(mopt.prefix_extractor.get(), table_opt); } else { if (table_opt.partition_filters) { assert(p_index_builder != nullptr); // Since after partition cut request from filter builder it takes time // until index builder actully cuts the partition, we take the lower bound // as partition size. assert(table_opt.block_size_deviation <= 100); auto partition_size = static_cast( ((table_opt.metadata_block_size * (100 - table_opt.block_size_deviation)) + 99) / 100); partition_size = std::max(partition_size, static_cast(1)); return new PartitionedFilterBlockBuilder( mopt.prefix_extractor.get(), table_opt.whole_key_filtering, filter_bits_builder, table_opt.index_block_restart_interval, use_delta_encoding_for_index_values, p_index_builder, partition_size); } else { return new FullFilterBlockBuilder(mopt.prefix_extractor.get(), table_opt.whole_key_filtering, filter_bits_builder); } } } bool GoodCompressionRatio(size_t compressed_size, size_t raw_size) { // Check to see if compressed less than 12.5% return compressed_size < raw_size - (raw_size / 8u); } } // namespace // format_version is the block format as defined in include/rocksdb/table.h Slice CompressBlock(const Slice& raw, const CompressionContext& compression_ctx, CompressionType* type, uint32_t format_version, std::string* compressed_output) { *type = compression_ctx.type(); if (compression_ctx.type() == kNoCompression) { return raw; } // Will return compressed block contents if (1) the compression method is // supported in this platform and (2) the compression rate is "good enough". switch (compression_ctx.type()) { case kSnappyCompression: if (Snappy_Compress(compression_ctx, raw.data(), raw.size(), compressed_output) && GoodCompressionRatio(compressed_output->size(), raw.size())) { return *compressed_output; } break; // fall back to no compression. case kZlibCompression: if (Zlib_Compress( compression_ctx, GetCompressFormatForVersion(kZlibCompression, format_version), raw.data(), raw.size(), compressed_output) && GoodCompressionRatio(compressed_output->size(), raw.size())) { return *compressed_output; } break; // fall back to no compression. case kBZip2Compression: if (BZip2_Compress( compression_ctx, GetCompressFormatForVersion(kBZip2Compression, format_version), raw.data(), raw.size(), compressed_output) && GoodCompressionRatio(compressed_output->size(), raw.size())) { return *compressed_output; } break; // fall back to no compression. case kLZ4Compression: if (LZ4_Compress( compression_ctx, GetCompressFormatForVersion(kLZ4Compression, format_version), raw.data(), raw.size(), compressed_output) && GoodCompressionRatio(compressed_output->size(), raw.size())) { return *compressed_output; } break; // fall back to no compression. case kLZ4HCCompression: if (LZ4HC_Compress( compression_ctx, GetCompressFormatForVersion(kLZ4HCCompression, format_version), raw.data(), raw.size(), compressed_output) && GoodCompressionRatio(compressed_output->size(), raw.size())) { return *compressed_output; } break; // fall back to no compression. case kXpressCompression: if (XPRESS_Compress(raw.data(), raw.size(), compressed_output) && GoodCompressionRatio(compressed_output->size(), raw.size())) { return *compressed_output; } break; case kZSTD: case kZSTDNotFinalCompression: if (ZSTD_Compress(compression_ctx, raw.data(), raw.size(), compressed_output) && GoodCompressionRatio(compressed_output->size(), raw.size())) { return *compressed_output; } break; // fall back to no compression. default: {} // Do not recognize this compression type } // Compression method is not supported, or not good compression ratio, so just // fall back to uncompressed form. *type = kNoCompression; return raw; } // kBlockBasedTableMagicNumber was picked by running // echo rocksdb.table.block_based | sha1sum // and taking the leading 64 bits. // Please note that kBlockBasedTableMagicNumber may also be accessed by other // .cc files // for that reason we declare it extern in the header but to get the space // allocated // it must be not extern in one place. const uint64_t kBlockBasedTableMagicNumber = 0x88e241b785f4cff7ull; // We also support reading and writing legacy block based table format (for // backwards compatibility) const uint64_t kLegacyBlockBasedTableMagicNumber = 0xdb4775248b80fb57ull; // A collector that collects properties of interest to block-based table. // For now this class looks heavy-weight since we only write one additional // property. // But in the foreseeable future, we will add more and more properties that are // specific to block-based table. class BlockBasedTableBuilder::BlockBasedTablePropertiesCollector : public IntTblPropCollector { public: explicit BlockBasedTablePropertiesCollector( BlockBasedTableOptions::IndexType index_type, bool whole_key_filtering, bool prefix_filtering) : index_type_(index_type), whole_key_filtering_(whole_key_filtering), prefix_filtering_(prefix_filtering) {} virtual Status InternalAdd(const Slice& /*key*/, const Slice& /*value*/, uint64_t /*file_size*/) override { // Intentionally left blank. Have no interest in collecting stats for // individual key/value pairs. return Status::OK(); } virtual Status Finish(UserCollectedProperties* properties) override { std::string val; PutFixed32(&val, static_cast(index_type_)); properties->insert({BlockBasedTablePropertyNames::kIndexType, val}); properties->insert({BlockBasedTablePropertyNames::kWholeKeyFiltering, whole_key_filtering_ ? kPropTrue : kPropFalse}); properties->insert({BlockBasedTablePropertyNames::kPrefixFiltering, prefix_filtering_ ? kPropTrue : kPropFalse}); return Status::OK(); } // The name of the properties collector can be used for debugging purpose. virtual const char* Name() const override { return "BlockBasedTablePropertiesCollector"; } virtual UserCollectedProperties GetReadableProperties() const override { // Intentionally left blank. return UserCollectedProperties(); } private: BlockBasedTableOptions::IndexType index_type_; bool whole_key_filtering_; bool prefix_filtering_; }; struct BlockBasedTableBuilder::Rep { const ImmutableCFOptions ioptions; const MutableCFOptions moptions; const BlockBasedTableOptions table_options; const InternalKeyComparator& internal_comparator; WritableFileWriter* file; uint64_t offset = 0; Status status; size_t alignment; BlockBuilder data_block; BlockBuilder range_del_block; InternalKeySliceTransform internal_prefix_transform; std::unique_ptr index_builder; PartitionedIndexBuilder* p_index_builder_ = nullptr; std::string last_key; // Compression dictionary or nullptr const std::string* compression_dict; CompressionContext compression_ctx; std::unique_ptr verify_ctx; TableProperties props; bool closed = false; // Either Finish() or Abandon() has been called. const bool use_delta_encoding_for_index_values; std::unique_ptr filter_builder; char compressed_cache_key_prefix[BlockBasedTable::kMaxCacheKeyPrefixSize]; size_t compressed_cache_key_prefix_size; BlockHandle pending_handle; // Handle to add to index block std::string compressed_output; std::unique_ptr flush_block_policy; uint32_t column_family_id; const std::string& column_family_name; uint64_t creation_time = 0; uint64_t oldest_key_time = 0; std::vector> table_properties_collectors; Rep(const ImmutableCFOptions& _ioptions, const MutableCFOptions& _moptions, const BlockBasedTableOptions& table_opt, const InternalKeyComparator& icomparator, const std::vector>* int_tbl_prop_collector_factories, uint32_t _column_family_id, WritableFileWriter* f, const CompressionType _compression_type, const CompressionOptions& _compression_opts, const std::string* _compression_dict, const bool skip_filters, const std::string& _column_family_name, const uint64_t _creation_time, const uint64_t _oldest_key_time) : ioptions(_ioptions), moptions(_moptions), table_options(table_opt), internal_comparator(icomparator), file(f), alignment(table_options.block_align ? std::min(table_options.block_size, kDefaultPageSize) : 0), data_block(table_options.block_restart_interval, table_options.use_delta_encoding, false /* use_value_delta_encoding */, icomparator.user_comparator() ->CanKeysWithDifferentByteContentsBeEqual() ? BlockBasedTableOptions::kDataBlockBinarySearch : table_options.data_block_index_type, table_options.data_block_hash_table_util_ratio), range_del_block(1 /* block_restart_interval */), internal_prefix_transform(_moptions.prefix_extractor.get()), compression_dict(_compression_dict), compression_ctx(_compression_type, _compression_opts), use_delta_encoding_for_index_values(table_opt.format_version >= 4 && !table_opt.block_align), compressed_cache_key_prefix_size(0), flush_block_policy( table_options.flush_block_policy_factory->NewFlushBlockPolicy( table_options, data_block)), column_family_id(_column_family_id), column_family_name(_column_family_name), creation_time(_creation_time), oldest_key_time(_oldest_key_time) { if (table_options.index_type == BlockBasedTableOptions::kTwoLevelIndexSearch) { p_index_builder_ = PartitionedIndexBuilder::CreateIndexBuilder( &internal_comparator, use_delta_encoding_for_index_values, table_options); index_builder.reset(p_index_builder_); } else { index_builder.reset(IndexBuilder::CreateIndexBuilder( table_options.index_type, &internal_comparator, &this->internal_prefix_transform, use_delta_encoding_for_index_values, table_options)); } if (skip_filters) { filter_builder = nullptr; } else { filter_builder.reset(CreateFilterBlockBuilder( _ioptions, _moptions, table_options, use_delta_encoding_for_index_values, p_index_builder_)); } for (auto& collector_factories : *int_tbl_prop_collector_factories) { table_properties_collectors.emplace_back( collector_factories->CreateIntTblPropCollector(column_family_id)); } table_properties_collectors.emplace_back( new BlockBasedTablePropertiesCollector( table_options.index_type, table_options.whole_key_filtering, _moptions.prefix_extractor != nullptr)); if (table_options.verify_compression) { verify_ctx.reset(new UncompressionContext(UncompressionContext::NoCache(), compression_ctx.type())); } } Rep(const Rep&) = delete; Rep& operator=(const Rep&) = delete; ~Rep() {} }; BlockBasedTableBuilder::BlockBasedTableBuilder( const ImmutableCFOptions& ioptions, const MutableCFOptions& moptions, const BlockBasedTableOptions& table_options, const InternalKeyComparator& internal_comparator, const std::vector>* int_tbl_prop_collector_factories, uint32_t column_family_id, WritableFileWriter* file, const CompressionType compression_type, const CompressionOptions& compression_opts, const std::string* compression_dict, const bool skip_filters, const std::string& column_family_name, const uint64_t creation_time, const uint64_t oldest_key_time) { BlockBasedTableOptions sanitized_table_options(table_options); if (sanitized_table_options.format_version == 0 && sanitized_table_options.checksum != kCRC32c) { ROCKS_LOG_WARN( ioptions.info_log, "Silently converting format_version to 1 because checksum is " "non-default"); // silently convert format_version to 1 to keep consistent with current // behavior sanitized_table_options.format_version = 1; } rep_ = new Rep(ioptions, moptions, sanitized_table_options, internal_comparator, int_tbl_prop_collector_factories, column_family_id, file, compression_type, compression_opts, compression_dict, skip_filters, column_family_name, creation_time, oldest_key_time); if (rep_->filter_builder != nullptr) { rep_->filter_builder->StartBlock(0); } if (table_options.block_cache_compressed.get() != nullptr) { BlockBasedTable::GenerateCachePrefix( table_options.block_cache_compressed.get(), file->writable_file(), &rep_->compressed_cache_key_prefix[0], &rep_->compressed_cache_key_prefix_size); } } BlockBasedTableBuilder::~BlockBasedTableBuilder() { assert(rep_->closed); // Catch errors where caller forgot to call Finish() delete rep_; } void BlockBasedTableBuilder::Add(const Slice& key, const Slice& value) { Rep* r = rep_; assert(!r->closed); if (!ok()) return; ValueType value_type = ExtractValueType(key); if (IsValueType(value_type)) { if (r->props.num_entries > 0) { assert(r->internal_comparator.Compare(key, Slice(r->last_key)) > 0); } auto should_flush = r->flush_block_policy->Update(key, value); if (should_flush) { assert(!r->data_block.empty()); Flush(); // Add item to index block. // We do not emit the index entry for a block until we have seen the // first key for the next data block. This allows us to use shorter // keys in the index block. For example, consider a block boundary // between the keys "the quick brown fox" and "the who". We can use // "the r" as the key for the index block entry since it is >= all // entries in the first block and < all entries in subsequent // blocks. if (ok()) { r->index_builder->AddIndexEntry(&r->last_key, &key, r->pending_handle); } } // Note: PartitionedFilterBlockBuilder requires key being added to filter // builder after being added to index builder. if (r->filter_builder != nullptr) { r->filter_builder->Add(ExtractUserKey(key)); } r->last_key.assign(key.data(), key.size()); r->data_block.Add(key, value); r->props.num_entries++; r->props.raw_key_size += key.size(); r->props.raw_value_size += value.size(); r->index_builder->OnKeyAdded(key); NotifyCollectTableCollectorsOnAdd(key, value, r->offset, r->table_properties_collectors, r->ioptions.info_log); } else if (value_type == kTypeRangeDeletion) { r->range_del_block.Add(key, value); ++r->props.num_range_deletions; r->props.raw_key_size += key.size(); r->props.raw_value_size += value.size(); NotifyCollectTableCollectorsOnAdd(key, value, r->offset, r->table_properties_collectors, r->ioptions.info_log); } else { assert(false); } } void BlockBasedTableBuilder::Flush() { Rep* r = rep_; assert(!r->closed); if (!ok()) return; if (r->data_block.empty()) return; WriteBlock(&r->data_block, &r->pending_handle, true /* is_data_block */); if (r->filter_builder != nullptr) { r->filter_builder->StartBlock(r->offset); } r->props.data_size = r->offset; ++r->props.num_data_blocks; } void BlockBasedTableBuilder::WriteBlock(BlockBuilder* block, BlockHandle* handle, bool is_data_block) { WriteBlock(block->Finish(), handle, is_data_block); block->Reset(); } void BlockBasedTableBuilder::WriteBlock(const Slice& raw_block_contents, BlockHandle* handle, bool is_data_block) { // File format contains a sequence of blocks where each block has: // block_data: uint8[n] // type: uint8 // crc: uint32 assert(ok()); Rep* r = rep_; auto type = r->compression_ctx.type(); Slice block_contents; bool abort_compression = false; StopWatchNano timer(r->ioptions.env, ShouldReportDetailedTime(r->ioptions.env, r->ioptions.statistics)); if (raw_block_contents.size() < kCompressionSizeLimit) { Slice compression_dict; if (is_data_block && r->compression_dict && r->compression_dict->size()) { r->compression_ctx.dict() = *r->compression_dict; if (r->table_options.verify_compression) { assert(r->verify_ctx != nullptr); r->verify_ctx->dict() = *r->compression_dict; } } else { // Clear dictionary r->compression_ctx.dict() = Slice(); if (r->table_options.verify_compression) { assert(r->verify_ctx != nullptr); r->verify_ctx->dict() = Slice(); } } block_contents = CompressBlock(raw_block_contents, r->compression_ctx, &type, r->table_options.format_version, &r->compressed_output); // Some of the compression algorithms are known to be unreliable. If // the verify_compression flag is set then try to de-compress the // compressed data and compare to the input. if (type != kNoCompression && r->table_options.verify_compression) { // Retrieve the uncompressed contents into a new buffer BlockContents contents; Status stat = UncompressBlockContentsForCompressionType( *r->verify_ctx, block_contents.data(), block_contents.size(), &contents, r->table_options.format_version, r->ioptions); if (stat.ok()) { bool compressed_ok = contents.data.compare(raw_block_contents) == 0; if (!compressed_ok) { // The result of the compression was invalid. abort. abort_compression = true; ROCKS_LOG_ERROR(r->ioptions.info_log, "Decompressed block did not match raw block"); r->status = Status::Corruption("Decompressed block did not match raw block"); } } else { // Decompression reported an error. abort. r->status = Status::Corruption("Could not decompress"); abort_compression = true; } } } else { // Block is too big to be compressed. abort_compression = true; } // Abort compression if the block is too big, or did not pass // verification. if (abort_compression) { RecordTick(r->ioptions.statistics, NUMBER_BLOCK_NOT_COMPRESSED); type = kNoCompression; block_contents = raw_block_contents; } else if (type != kNoCompression) { if (ShouldReportDetailedTime(r->ioptions.env, r->ioptions.statistics)) { MeasureTime(r->ioptions.statistics, COMPRESSION_TIMES_NANOS, timer.ElapsedNanos()); } MeasureTime(r->ioptions.statistics, BYTES_COMPRESSED, raw_block_contents.size()); RecordTick(r->ioptions.statistics, NUMBER_BLOCK_COMPRESSED); } WriteRawBlock(block_contents, type, handle, is_data_block); r->compressed_output.clear(); } void BlockBasedTableBuilder::WriteRawBlock(const Slice& block_contents, CompressionType type, BlockHandle* handle, bool is_data_block) { Rep* r = rep_; StopWatch sw(r->ioptions.env, r->ioptions.statistics, WRITE_RAW_BLOCK_MICROS); handle->set_offset(r->offset); handle->set_size(block_contents.size()); assert(r->status.ok()); r->status = r->file->Append(block_contents); if (r->status.ok()) { char trailer[kBlockTrailerSize]; trailer[0] = type; char* trailer_without_type = trailer + 1; switch (r->table_options.checksum) { case kNoChecksum: EncodeFixed32(trailer_without_type, 0); break; case kCRC32c: { auto crc = crc32c::Value(block_contents.data(), block_contents.size()); crc = crc32c::Extend(crc, trailer, 1); // Extend to cover block type EncodeFixed32(trailer_without_type, crc32c::Mask(crc)); break; } case kxxHash: { void* xxh = XXH32_init(0); XXH32_update(xxh, block_contents.data(), static_cast(block_contents.size())); XXH32_update(xxh, trailer, 1); // Extend to cover block type EncodeFixed32(trailer_without_type, XXH32_digest(xxh)); break; } } assert(r->status.ok()); r->status = r->file->Append(Slice(trailer, kBlockTrailerSize)); if (r->status.ok()) { r->status = InsertBlockInCache(block_contents, type, handle); } if (r->status.ok()) { r->offset += block_contents.size() + kBlockTrailerSize; if (r->table_options.block_align && is_data_block) { size_t pad_bytes = (r->alignment - ((block_contents.size() + kBlockTrailerSize) & (r->alignment - 1))) & (r->alignment - 1); r->status = r->file->Pad(pad_bytes); if (r->status.ok()) { r->offset += pad_bytes; } } } } } Status BlockBasedTableBuilder::status() const { return rep_->status; } static void DeleteCachedBlock(const Slice& /*key*/, void* value) { Block* block = reinterpret_cast(value); delete block; } // // Make a copy of the block contents and insert into compressed block cache // Status BlockBasedTableBuilder::InsertBlockInCache(const Slice& block_contents, const CompressionType type, const BlockHandle* handle) { Rep* r = rep_; Cache* block_cache_compressed = r->table_options.block_cache_compressed.get(); if (type != kNoCompression && block_cache_compressed != nullptr) { size_t size = block_contents.size(); std::unique_ptr ubuf(new char[size + 1]); memcpy(ubuf.get(), block_contents.data(), size); ubuf[size] = type; BlockContents results(std::move(ubuf), size, true, type); Block* block = new Block(std::move(results), kDisableGlobalSequenceNumber); // make cache key by appending the file offset to the cache prefix id char* end = EncodeVarint64( r->compressed_cache_key_prefix + r->compressed_cache_key_prefix_size, handle->offset()); Slice key(r->compressed_cache_key_prefix, static_cast (end - r->compressed_cache_key_prefix)); // Insert into compressed block cache. block_cache_compressed->Insert(key, block, block->ApproximateMemoryUsage(), &DeleteCachedBlock); // Invalidate OS cache. r->file->InvalidateCache(static_cast(r->offset), size); } return Status::OK(); } void BlockBasedTableBuilder::WriteFilterBlock( MetaIndexBuilder* meta_index_builder) { BlockHandle filter_block_handle; bool empty_filter_block = (rep_->filter_builder == nullptr || rep_->filter_builder->NumAdded() == 0); if (ok() && !empty_filter_block) { Status s = Status::Incomplete(); while (ok() && s.IsIncomplete()) { Slice filter_content = rep_->filter_builder->Finish(filter_block_handle, &s); assert(s.ok() || s.IsIncomplete()); rep_->props.filter_size += filter_content.size(); WriteRawBlock(filter_content, kNoCompression, &filter_block_handle); } } if (ok() && !empty_filter_block) { // Add mapping from ".Name" to location // of filter data. std::string key; if (rep_->filter_builder->IsBlockBased()) { key = BlockBasedTable::kFilterBlockPrefix; } else { key = rep_->table_options.partition_filters ? BlockBasedTable::kPartitionedFilterBlockPrefix : BlockBasedTable::kFullFilterBlockPrefix; } key.append(rep_->table_options.filter_policy->Name()); meta_index_builder->Add(key, filter_block_handle); } } void BlockBasedTableBuilder::WriteIndexBlock( MetaIndexBuilder* meta_index_builder, BlockHandle* index_block_handle) { IndexBuilder::IndexBlocks index_blocks; auto index_builder_status = rep_->index_builder->Finish(&index_blocks); if (index_builder_status.IsIncomplete()) { // We we have more than one index partition then meta_blocks are not // supported for the index. Currently meta_blocks are used only by // HashIndexBuilder which is not multi-partition. assert(index_blocks.meta_blocks.empty()); } else if (ok() && !index_builder_status.ok()) { rep_->status = index_builder_status; } if (ok()) { for (const auto& item : index_blocks.meta_blocks) { BlockHandle block_handle; WriteBlock(item.second, &block_handle, false /* is_data_block */); if (!ok()) { break; } meta_index_builder->Add(item.first, block_handle); } } if (ok()) { if (rep_->table_options.enable_index_compression) { WriteBlock(index_blocks.index_block_contents, index_block_handle, false); } else { WriteRawBlock(index_blocks.index_block_contents, kNoCompression, index_block_handle); } } // If there are more index partitions, finish them and write them out Status s = index_builder_status; while (ok() && s.IsIncomplete()) { s = rep_->index_builder->Finish(&index_blocks, *index_block_handle); if (!s.ok() && !s.IsIncomplete()) { rep_->status = s; return; } if (rep_->table_options.enable_index_compression) { WriteBlock(index_blocks.index_block_contents, index_block_handle, false); } else { WriteRawBlock(index_blocks.index_block_contents, kNoCompression, index_block_handle); } // The last index_block_handle will be for the partition index block } } void BlockBasedTableBuilder::WritePropertiesBlock( MetaIndexBuilder* meta_index_builder) { BlockHandle properties_block_handle; if (ok()) { PropertyBlockBuilder property_block_builder; rep_->props.column_family_id = rep_->column_family_id; rep_->props.column_family_name = rep_->column_family_name; rep_->props.filter_policy_name = rep_->table_options.filter_policy != nullptr ? rep_->table_options.filter_policy->Name() : ""; rep_->props.index_size = rep_->index_builder->IndexSize() + kBlockTrailerSize; rep_->props.comparator_name = rep_->ioptions.user_comparator != nullptr ? rep_->ioptions.user_comparator->Name() : "nullptr"; rep_->props.merge_operator_name = rep_->ioptions.merge_operator != nullptr ? rep_->ioptions.merge_operator->Name() : "nullptr"; rep_->props.compression_name = CompressionTypeToString(rep_->compression_ctx.type()); rep_->props.prefix_extractor_name = rep_->moptions.prefix_extractor != nullptr ? rep_->moptions.prefix_extractor->Name() : "nullptr"; std::string property_collectors_names = "["; for (size_t i = 0; i < rep_->ioptions.table_properties_collector_factories.size(); ++i) { if (i != 0) { property_collectors_names += ","; } property_collectors_names += rep_->ioptions.table_properties_collector_factories[i]->Name(); } property_collectors_names += "]"; rep_->props.property_collectors_names = property_collectors_names; if (rep_->table_options.index_type == BlockBasedTableOptions::kTwoLevelIndexSearch) { assert(rep_->p_index_builder_ != nullptr); rep_->props.index_partitions = rep_->p_index_builder_->NumPartitions(); rep_->props.top_level_index_size = rep_->p_index_builder_->TopLevelIndexSize(rep_->offset); } rep_->props.index_key_is_user_key = !rep_->index_builder->seperator_is_key_plus_seq(); rep_->props.index_value_is_delta_encoded = rep_->use_delta_encoding_for_index_values; rep_->props.creation_time = rep_->creation_time; rep_->props.oldest_key_time = rep_->oldest_key_time; // Add basic properties property_block_builder.AddTableProperty(rep_->props); // Add use collected properties NotifyCollectTableCollectorsOnFinish(rep_->table_properties_collectors, rep_->ioptions.info_log, &property_block_builder); WriteRawBlock(property_block_builder.Finish(), kNoCompression, &properties_block_handle); } if (ok()) { meta_index_builder->Add(kPropertiesBlock, properties_block_handle); } } void BlockBasedTableBuilder::WriteCompressionDictBlock( MetaIndexBuilder* meta_index_builder) { if (rep_->compression_dict && rep_->compression_dict->size()) { BlockHandle compression_dict_block_handle; if (ok()) { WriteRawBlock(*rep_->compression_dict, kNoCompression, &compression_dict_block_handle); } if (ok()) { meta_index_builder->Add(kCompressionDictBlock, compression_dict_block_handle); } } } void BlockBasedTableBuilder::WriteRangeDelBlock( MetaIndexBuilder* meta_index_builder) { if (ok() && !rep_->range_del_block.empty()) { BlockHandle range_del_block_handle; WriteRawBlock(rep_->range_del_block.Finish(), kNoCompression, &range_del_block_handle); meta_index_builder->Add(kRangeDelBlock, range_del_block_handle); } } Status BlockBasedTableBuilder::Finish() { Rep* r = rep_; bool empty_data_block = r->data_block.empty(); Flush(); assert(!r->closed); r->closed = true; // To make sure properties block is able to keep the accurate size of index // block, we will finish writing all index entries first. if (ok() && !empty_data_block) { r->index_builder->AddIndexEntry( &r->last_key, nullptr /* no next data block */, r->pending_handle); } // Write meta blocks and metaindex block with the following order. // 1. [meta block: filter] // 2. [meta block: index] // 3. [meta block: compression dictionary] // 4. [meta block: range deletion tombstone] // 5. [meta block: properties] // 6. [metaindex block] BlockHandle metaindex_block_handle, index_block_handle; MetaIndexBuilder meta_index_builder; WriteFilterBlock(&meta_index_builder); WriteIndexBlock(&meta_index_builder, &index_block_handle); WriteCompressionDictBlock(&meta_index_builder); WriteRangeDelBlock(&meta_index_builder); WritePropertiesBlock(&meta_index_builder); if (ok()) { // flush the meta index block WriteRawBlock(meta_index_builder.Finish(), kNoCompression, &metaindex_block_handle); } // Write footer if (ok()) { // No need to write out new footer if we're using default checksum. // We're writing legacy magic number because we want old versions of RocksDB // be able to read files generated with new release (just in case if // somebody wants to roll back after an upgrade) // TODO(icanadi) at some point in the future, when we're absolutely sure // nobody will roll back to RocksDB 2.x versions, retire the legacy magic // number and always write new table files with new magic number bool legacy = (r->table_options.format_version == 0); // this is guaranteed by BlockBasedTableBuilder's constructor assert(r->table_options.checksum == kCRC32c || r->table_options.format_version != 0); Footer footer(legacy ? kLegacyBlockBasedTableMagicNumber : kBlockBasedTableMagicNumber, r->table_options.format_version); footer.set_metaindex_handle(metaindex_block_handle); footer.set_index_handle(index_block_handle); footer.set_checksum(r->table_options.checksum); std::string footer_encoding; footer.EncodeTo(&footer_encoding); assert(r->status.ok()); r->status = r->file->Append(footer_encoding); if (r->status.ok()) { r->offset += footer_encoding.size(); } } return r->status; } void BlockBasedTableBuilder::Abandon() { Rep* r = rep_; assert(!r->closed); r->closed = true; } uint64_t BlockBasedTableBuilder::NumEntries() const { return rep_->props.num_entries; } uint64_t BlockBasedTableBuilder::FileSize() const { return rep_->offset; } bool BlockBasedTableBuilder::NeedCompact() const { for (const auto& collector : rep_->table_properties_collectors) { if (collector->NeedCompact()) { return true; } } return false; } TableProperties BlockBasedTableBuilder::GetTableProperties() const { TableProperties ret = rep_->props; for (const auto& collector : rep_->table_properties_collectors) { for (const auto& prop : collector->GetReadableProperties()) { ret.readable_properties.insert(prop); } collector->Finish(&ret.user_collected_properties); } return ret; } const std::string BlockBasedTable::kFilterBlockPrefix = "filter."; const std::string BlockBasedTable::kFullFilterBlockPrefix = "fullfilter."; const std::string BlockBasedTable::kPartitionedFilterBlockPrefix = "partitionedfilter."; } // namespace rocksdb rocksdb-5.17.2/table/block_based_table_builder.h000066400000000000000000000126601337235545400216220ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #include #include #include #include #include #include "rocksdb/flush_block_policy.h" #include "rocksdb/listener.h" #include "rocksdb/options.h" #include "rocksdb/status.h" #include "table/meta_blocks.h" #include "table/table_builder.h" #include "util/compression.h" namespace rocksdb { class BlockBuilder; class BlockHandle; class WritableFile; struct BlockBasedTableOptions; extern const uint64_t kBlockBasedTableMagicNumber; extern const uint64_t kLegacyBlockBasedTableMagicNumber; class BlockBasedTableBuilder : public TableBuilder { public: // Create a builder that will store the contents of the table it is // building in *file. Does not close the file. It is up to the // caller to close the file after calling Finish(). // @param compression_dict Data for presetting the compression library's // dictionary, or nullptr. BlockBasedTableBuilder( const ImmutableCFOptions& ioptions, const MutableCFOptions& moptions, const BlockBasedTableOptions& table_options, const InternalKeyComparator& internal_comparator, const std::vector>* int_tbl_prop_collector_factories, uint32_t column_family_id, WritableFileWriter* file, const CompressionType compression_type, const CompressionOptions& compression_opts, const std::string* compression_dict, const bool skip_filters, const std::string& column_family_name, const uint64_t creation_time = 0, const uint64_t oldest_key_time = 0); // REQUIRES: Either Finish() or Abandon() has been called. ~BlockBasedTableBuilder(); // No copying allowed BlockBasedTableBuilder(const BlockBasedTableBuilder&) = delete; BlockBasedTableBuilder& operator=(const BlockBasedTableBuilder&) = delete; // Add key,value to the table being constructed. // REQUIRES: key is after any previously added key according to comparator. // REQUIRES: Finish(), Abandon() have not been called void Add(const Slice& key, const Slice& value) override; // Return non-ok iff some error has been detected. Status status() const override; // Finish building the table. Stops using the file passed to the // constructor after this function returns. // REQUIRES: Finish(), Abandon() have not been called Status Finish() override; // Indicate that the contents of this builder should be abandoned. Stops // using the file passed to the constructor after this function returns. // If the caller is not going to call Finish(), it must call Abandon() // before destroying this builder. // REQUIRES: Finish(), Abandon() have not been called void Abandon() override; // Number of calls to Add() so far. uint64_t NumEntries() const override; // Size of the file generated so far. If invoked after a successful // Finish() call, returns the size of the final generated file. uint64_t FileSize() const override; bool NeedCompact() const override; // Get table properties TableProperties GetTableProperties() const override; private: bool ok() const { return status().ok(); } // Call block's Finish() method // and then write the compressed block contents to file. void WriteBlock(BlockBuilder* block, BlockHandle* handle, bool is_data_block); // Compress and write block content to the file. void WriteBlock(const Slice& block_contents, BlockHandle* handle, bool is_data_block); // Directly write data to the file. void WriteRawBlock(const Slice& data, CompressionType, BlockHandle* handle, bool is_data_block = false); Status InsertBlockInCache(const Slice& block_contents, const CompressionType type, const BlockHandle* handle); void WriteFilterBlock(MetaIndexBuilder* meta_index_builder); void WriteIndexBlock(MetaIndexBuilder* meta_index_builder, BlockHandle* index_block_handle); void WritePropertiesBlock(MetaIndexBuilder* meta_index_builder); void WriteCompressionDictBlock(MetaIndexBuilder* meta_index_builder); void WriteRangeDelBlock(MetaIndexBuilder* meta_index_builder); struct Rep; class BlockBasedTablePropertiesCollectorFactory; class BlockBasedTablePropertiesCollector; Rep* rep_; // Advanced operation: flush any buffered key/value pairs to file. // Can be used to ensure that two adjacent entries never live in // the same data block. Most clients should not need to use this method. // REQUIRES: Finish(), Abandon() have not been called void Flush(); // Some compression libraries fail when the raw size is bigger than int. If // uncompressed size is bigger than kCompressionSizeLimit, don't compress it const uint64_t kCompressionSizeLimit = std::numeric_limits::max(); }; Slice CompressBlock(const Slice& raw, const CompressionContext& compression_ctx, CompressionType* type, uint32_t format_version, std::string* compressed_output); } // namespace rocksdb rocksdb-5.17.2/table/block_based_table_factory.cc000066400000000000000000000602351337235545400220020ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "table/block_based_table_factory.h" #ifndef __STDC_FORMAT_MACROS #define __STDC_FORMAT_MACROS #endif #include #include #include #include #include "options/options_helper.h" #include "port/port.h" #include "rocksdb/cache.h" #include "rocksdb/convenience.h" #include "rocksdb/flush_block_policy.h" #include "table/block_based_table_builder.h" #include "table/block_based_table_reader.h" #include "table/format.h" #include "util/mutexlock.h" #include "util/string_util.h" namespace rocksdb { void TailPrefetchStats::RecordEffectiveSize(size_t len) { MutexLock l(&mutex_); if (num_records_ < kNumTracked) { num_records_++; } records_[next_++] = len; if (next_ == kNumTracked) { next_ = 0; } } size_t TailPrefetchStats::GetSuggestedPrefetchSize() { std::vector sorted; { MutexLock l(&mutex_); if (num_records_ == 0) { return 0; } sorted.assign(records_, records_ + num_records_); } // Of the historic size, we find the maximum one that satisifis the condtiion // that if prefetching all, less than 1/8 will be wasted. std::sort(sorted.begin(), sorted.end()); // Assuming we have 5 data points, and after sorting it looks like this: // // +---+ // +---+ | | // | | | | // | | | | // | | | | // | | | | // +---+ | | | | // | | | | | | // +---+ | | | | | | // | | | | | | | | // +---+ | | | | | | | | // | | | | | | | | | | // | | | | | | | | | | // | | | | | | | | | | // | | | | | | | | | | // | | | | | | | | | | // +---+ +---+ +---+ +---+ +---+ // // and we use every of the value as a candidate, and estimate how much we // wasted, compared to read. For example, when we use the 3rd record // as candiate. This area is what we read: // +---+ // +---+ | | // | | | | // | | | | // | | | | // | | | | // *** *** *** ***+ *** *** *** *** ** // * | | | | | | // +---+ | | | | | * // * | | | | | | | | // +---+ | | | | | | | * // * | | | | X | | | | | // | | | | | | | | | * // * | | | | | | | | | // | | | | | | | | | * // * | | | | | | | | | // *** *** ***-*** ***--*** ***--*** +**** // which is (size of the record) X (number of records). // // While wasted is this area: // +---+ // +---+ | | // | | | | // | | | | // | | | | // | | | | // *** *** *** ****---+ | | | | // * * | | | | | // * *-*** *** | | | | | // * * | | | | | | | // *--** *** | | | | | | | // | | | | | X | | | | | // | | | | | | | | | | // | | | | | | | | | | // | | | | | | | | | | // | | | | | | | | | | // +---+ +---+ +---+ +---+ +---+ // // Which can be calculated iteratively. // The difference between wasted using 4st and 3rd record, will // be following area: // +---+ // +--+ +-+ ++ +-+ +-+ +---+ | | // + xxxxxxxxxxxxxxxxxxxxxxxx | | | | // xxxxxxxxxxxxxxxxxxxxxxxx | | | | // + xxxxxxxxxxxxxxxxxxxxxxxx | | | | // | xxxxxxxxxxxxxxxxxxxxxxxx | | | | // +-+ +-+ +-+ ++ +---+ +--+ | | | // | | | | | | | // +---+ ++ | | | | | | // | | | | | | X | | | // +---+ ++ | | | | | | | | // | | | | | | | | | | // | | | | | | | | | | // | | | | | | | | | | // | | | | | | | | | | // | | | | | | | | | | // +---+ +---+ +---+ +---+ +---+ // // which will be the size difference between 4st and 3rd record, // times 3, which is number of records before the 4st. // Here we assume that all data within the prefetch range will be useful. In // reality, it may not be the case when a partial block is inside the range, // or there are data in the middle that is not read. We ignore those cases // for simplicity. assert(!sorted.empty()); size_t prev_size = sorted[0]; size_t max_qualified_size = sorted[0]; size_t wasted = 0; for (size_t i = 1; i < sorted.size(); i++) { size_t read = sorted[i] * sorted.size(); wasted += (sorted[i] - prev_size) * i; if (wasted <= read / 8) { max_qualified_size = sorted[i]; } prev_size = sorted[i]; } const size_t kMaxPrefetchSize = 512 * 1024; // Never exceed 512KB return std::min(kMaxPrefetchSize, max_qualified_size); } BlockBasedTableFactory::BlockBasedTableFactory( const BlockBasedTableOptions& _table_options) : table_options_(_table_options) { if (table_options_.flush_block_policy_factory == nullptr) { table_options_.flush_block_policy_factory.reset( new FlushBlockBySizePolicyFactory()); } if (table_options_.no_block_cache) { table_options_.block_cache.reset(); } else if (table_options_.block_cache == nullptr) { table_options_.block_cache = NewLRUCache(8 << 20); } if (table_options_.block_size_deviation < 0 || table_options_.block_size_deviation > 100) { table_options_.block_size_deviation = 0; } if (table_options_.block_restart_interval < 1) { table_options_.block_restart_interval = 1; } if (table_options_.index_block_restart_interval < 1) { table_options_.index_block_restart_interval = 1; } if (table_options_.partition_filters && table_options_.index_type != BlockBasedTableOptions::kTwoLevelIndexSearch) { // We do not support partitioned filters without partitioning indexes table_options_.partition_filters = false; } } Status BlockBasedTableFactory::NewTableReader( const TableReaderOptions& table_reader_options, unique_ptr&& file, uint64_t file_size, unique_ptr* table_reader, bool prefetch_index_and_filter_in_cache) const { return BlockBasedTable::Open( table_reader_options.ioptions, table_reader_options.env_options, table_options_, table_reader_options.internal_comparator, std::move(file), file_size, table_reader, table_reader_options.prefix_extractor, prefetch_index_and_filter_in_cache, table_reader_options.skip_filters, table_reader_options.level, table_reader_options.immortal, table_reader_options.largest_seqno, &tail_prefetch_stats_); } TableBuilder* BlockBasedTableFactory::NewTableBuilder( const TableBuilderOptions& table_builder_options, uint32_t column_family_id, WritableFileWriter* file) const { auto table_builder = new BlockBasedTableBuilder( table_builder_options.ioptions, table_builder_options.moptions, table_options_, table_builder_options.internal_comparator, table_builder_options.int_tbl_prop_collector_factories, column_family_id, file, table_builder_options.compression_type, table_builder_options.compression_opts, table_builder_options.compression_dict, table_builder_options.skip_filters, table_builder_options.column_family_name, table_builder_options.creation_time, table_builder_options.oldest_key_time); return table_builder; } Status BlockBasedTableFactory::SanitizeOptions( const DBOptions& /*db_opts*/, const ColumnFamilyOptions& cf_opts) const { if (table_options_.index_type == BlockBasedTableOptions::kHashSearch && cf_opts.prefix_extractor == nullptr) { return Status::InvalidArgument( "Hash index is specified for block-based " "table, but prefix_extractor is not given"); } if (table_options_.cache_index_and_filter_blocks && table_options_.no_block_cache) { return Status::InvalidArgument( "Enable cache_index_and_filter_blocks, " ", but block cache is disabled"); } if (table_options_.pin_l0_filter_and_index_blocks_in_cache && table_options_.no_block_cache) { return Status::InvalidArgument( "Enable pin_l0_filter_and_index_blocks_in_cache, " ", but block cache is disabled"); } if (!BlockBasedTableSupportedVersion(table_options_.format_version)) { return Status::InvalidArgument( "Unsupported BlockBasedTable format_version. Please check " "include/rocksdb/table.h for more info"); } if (table_options_.block_align && (cf_opts.compression != kNoCompression)) { return Status::InvalidArgument( "Enable block_align, but compression " "enabled"); } if (table_options_.block_align && (table_options_.block_size & (table_options_.block_size - 1))) { return Status::InvalidArgument( "Block alignment requested but block size is not a power of 2"); } if (table_options_.data_block_index_type == BlockBasedTableOptions::kDataBlockBinaryAndHash && table_options_.data_block_hash_table_util_ratio <= 0) { return Status::InvalidArgument( "data_block_hash_table_util_ratio should be greater than 0 when " "data_block_index_type is set to kDataBlockBinaryAndHash"); } return Status::OK(); } std::string BlockBasedTableFactory::GetPrintableTableOptions() const { std::string ret; ret.reserve(20000); const int kBufferSize = 200; char buffer[kBufferSize]; snprintf(buffer, kBufferSize, " flush_block_policy_factory: %s (%p)\n", table_options_.flush_block_policy_factory->Name(), static_cast(table_options_.flush_block_policy_factory.get())); ret.append(buffer); snprintf(buffer, kBufferSize, " cache_index_and_filter_blocks: %d\n", table_options_.cache_index_and_filter_blocks); ret.append(buffer); snprintf(buffer, kBufferSize, " cache_index_and_filter_blocks_with_high_priority: %d\n", table_options_.cache_index_and_filter_blocks_with_high_priority); ret.append(buffer); snprintf(buffer, kBufferSize, " pin_l0_filter_and_index_blocks_in_cache: %d\n", table_options_.pin_l0_filter_and_index_blocks_in_cache); ret.append(buffer); snprintf(buffer, kBufferSize, " pin_top_level_index_and_filter: %d\n", table_options_.pin_top_level_index_and_filter); ret.append(buffer); snprintf(buffer, kBufferSize, " index_type: %d\n", table_options_.index_type); ret.append(buffer); snprintf(buffer, kBufferSize, " hash_index_allow_collision: %d\n", table_options_.hash_index_allow_collision); ret.append(buffer); snprintf(buffer, kBufferSize, " checksum: %d\n", table_options_.checksum); ret.append(buffer); snprintf(buffer, kBufferSize, " no_block_cache: %d\n", table_options_.no_block_cache); ret.append(buffer); snprintf(buffer, kBufferSize, " block_cache: %p\n", static_cast(table_options_.block_cache.get())); ret.append(buffer); if (table_options_.block_cache) { const char* block_cache_name = table_options_.block_cache->Name(); if (block_cache_name != nullptr) { snprintf(buffer, kBufferSize, " block_cache_name: %s\n", block_cache_name); ret.append(buffer); } ret.append(" block_cache_options:\n"); ret.append(table_options_.block_cache->GetPrintableOptions()); } snprintf(buffer, kBufferSize, " block_cache_compressed: %p\n", static_cast(table_options_.block_cache_compressed.get())); ret.append(buffer); if (table_options_.block_cache_compressed) { const char* block_cache_compressed_name = table_options_.block_cache_compressed->Name(); if (block_cache_compressed_name != nullptr) { snprintf(buffer, kBufferSize, " block_cache_name: %s\n", block_cache_compressed_name); ret.append(buffer); } ret.append(" block_cache_compressed_options:\n"); ret.append(table_options_.block_cache_compressed->GetPrintableOptions()); } snprintf(buffer, kBufferSize, " persistent_cache: %p\n", static_cast(table_options_.persistent_cache.get())); ret.append(buffer); if (table_options_.persistent_cache) { snprintf(buffer, kBufferSize, " persistent_cache_options:\n"); ret.append(buffer); ret.append(table_options_.persistent_cache->GetPrintableOptions()); } snprintf(buffer, kBufferSize, " block_size: %" ROCKSDB_PRIszt "\n", table_options_.block_size); ret.append(buffer); snprintf(buffer, kBufferSize, " block_size_deviation: %d\n", table_options_.block_size_deviation); ret.append(buffer); snprintf(buffer, kBufferSize, " block_restart_interval: %d\n", table_options_.block_restart_interval); ret.append(buffer); snprintf(buffer, kBufferSize, " index_block_restart_interval: %d\n", table_options_.index_block_restart_interval); ret.append(buffer); snprintf(buffer, kBufferSize, " metadata_block_size: %" PRIu64 "\n", table_options_.metadata_block_size); ret.append(buffer); snprintf(buffer, kBufferSize, " partition_filters: %d\n", table_options_.partition_filters); ret.append(buffer); snprintf(buffer, kBufferSize, " use_delta_encoding: %d\n", table_options_.use_delta_encoding); ret.append(buffer); snprintf(buffer, kBufferSize, " filter_policy: %s\n", table_options_.filter_policy == nullptr ? "nullptr" : table_options_.filter_policy->Name()); ret.append(buffer); snprintf(buffer, kBufferSize, " whole_key_filtering: %d\n", table_options_.whole_key_filtering); ret.append(buffer); snprintf(buffer, kBufferSize, " verify_compression: %d\n", table_options_.verify_compression); ret.append(buffer); snprintf(buffer, kBufferSize, " read_amp_bytes_per_bit: %d\n", table_options_.read_amp_bytes_per_bit); ret.append(buffer); snprintf(buffer, kBufferSize, " format_version: %d\n", table_options_.format_version); ret.append(buffer); snprintf(buffer, kBufferSize, " enable_index_compression: %d\n", table_options_.enable_index_compression); ret.append(buffer); snprintf(buffer, kBufferSize, " block_align: %d\n", table_options_.block_align); ret.append(buffer); return ret; } #ifndef ROCKSDB_LITE namespace { bool SerializeSingleBlockBasedTableOption( std::string* opt_string, const BlockBasedTableOptions& bbt_options, const std::string& name, const std::string& delimiter) { auto iter = block_based_table_type_info.find(name); if (iter == block_based_table_type_info.end()) { return false; } auto& opt_info = iter->second; const char* opt_address = reinterpret_cast(&bbt_options) + opt_info.offset; std::string value; bool result = SerializeSingleOptionHelper(opt_address, opt_info.type, &value); if (result) { *opt_string = name + "=" + value + delimiter; } return result; } } // namespace Status BlockBasedTableFactory::GetOptionString( std::string* opt_string, const std::string& delimiter) const { assert(opt_string); opt_string->clear(); for (auto iter = block_based_table_type_info.begin(); iter != block_based_table_type_info.end(); ++iter) { if (iter->second.verification == OptionVerificationType::kDeprecated) { // If the option is no longer used in rocksdb and marked as deprecated, // we skip it in the serialization. continue; } std::string single_output; bool result = SerializeSingleBlockBasedTableOption( &single_output, table_options_, iter->first, delimiter); assert(result); if (result) { opt_string->append(single_output); } } return Status::OK(); } #else Status BlockBasedTableFactory::GetOptionString( std::string* /*opt_string*/, const std::string& /*delimiter*/) const { return Status::OK(); } #endif // !ROCKSDB_LITE const BlockBasedTableOptions& BlockBasedTableFactory::table_options() const { return table_options_; } #ifndef ROCKSDB_LITE namespace { std::string ParseBlockBasedTableOption(const std::string& name, const std::string& org_value, BlockBasedTableOptions* new_options, bool input_strings_escaped = false, bool ignore_unknown_options = false) { const std::string& value = input_strings_escaped ? UnescapeOptionString(org_value) : org_value; if (!input_strings_escaped) { // if the input string is not escaped, it means this function is // invoked from SetOptions, which takes the old format. if (name == "block_cache" || name == "block_cache_compressed") { // cache options can be specified in the following format // "block_cache={capacity=1M;num_shard_bits=4; // strict_capacity_limit=true;high_pri_pool_ratio=0.5;}" // To support backward compatibility, the following format // is also supported. // "block_cache=1M" std::shared_ptr cache; // block_cache is specified in format block_cache=. if (value.find('=') == std::string::npos) { cache = NewLRUCache(ParseSizeT(value)); } else { LRUCacheOptions cache_opts; if (!ParseOptionHelper(reinterpret_cast(&cache_opts), OptionType::kLRUCacheOptions, value)) { return "Invalid cache options"; } cache = NewLRUCache(cache_opts); } if (name == "block_cache") { new_options->block_cache = cache; } else { new_options->block_cache_compressed = cache; } return ""; } else if (name == "filter_policy") { // Expect the following format // bloomfilter:int:bool const std::string kName = "bloomfilter:"; if (value.compare(0, kName.size(), kName) != 0) { return "Invalid filter policy name"; } size_t pos = value.find(':', kName.size()); if (pos == std::string::npos) { return "Invalid filter policy config, missing bits_per_key"; } int bits_per_key = ParseInt(trim(value.substr(kName.size(), pos - kName.size()))); bool use_block_based_builder = ParseBoolean("use_block_based_builder", trim(value.substr(pos + 1))); new_options->filter_policy.reset( NewBloomFilterPolicy(bits_per_key, use_block_based_builder)); return ""; } } const auto iter = block_based_table_type_info.find(name); if (iter == block_based_table_type_info.end()) { if (ignore_unknown_options) { return ""; } else { return "Unrecognized option"; } } const auto& opt_info = iter->second; if (opt_info.verification != OptionVerificationType::kDeprecated && !ParseOptionHelper(reinterpret_cast(new_options) + opt_info.offset, opt_info.type, value)) { return "Invalid value"; } return ""; } } // namespace Status GetBlockBasedTableOptionsFromString( const BlockBasedTableOptions& table_options, const std::string& opts_str, BlockBasedTableOptions* new_table_options) { std::unordered_map opts_map; Status s = StringToMap(opts_str, &opts_map); if (!s.ok()) { return s; } return GetBlockBasedTableOptionsFromMap(table_options, opts_map, new_table_options); } Status GetBlockBasedTableOptionsFromMap( const BlockBasedTableOptions& table_options, const std::unordered_map& opts_map, BlockBasedTableOptions* new_table_options, bool input_strings_escaped, bool ignore_unknown_options) { assert(new_table_options); *new_table_options = table_options; for (const auto& o : opts_map) { auto error_message = ParseBlockBasedTableOption( o.first, o.second, new_table_options, input_strings_escaped, ignore_unknown_options); if (error_message != "") { const auto iter = block_based_table_type_info.find(o.first); if (iter == block_based_table_type_info.end() || !input_strings_escaped || // !input_strings_escaped indicates // the old API, where everything is // parsable. (iter->second.verification != OptionVerificationType::kByName && iter->second.verification != OptionVerificationType::kByNameAllowNull && iter->second.verification != OptionVerificationType::kByNameAllowFromNull && iter->second.verification != OptionVerificationType::kDeprecated)) { // Restore "new_options" to the default "base_options". *new_table_options = table_options; return Status::InvalidArgument("Can't parse BlockBasedTableOptions:", o.first + " " + error_message); } } } return Status::OK(); } Status VerifyBlockBasedTableFactory( const BlockBasedTableFactory* base_tf, const BlockBasedTableFactory* file_tf, OptionsSanityCheckLevel sanity_check_level) { if ((base_tf != nullptr) != (file_tf != nullptr) && sanity_check_level > kSanityLevelNone) { return Status::Corruption( "[RocksDBOptionsParser]: Inconsistent TableFactory class type"); } if (base_tf == nullptr) { return Status::OK(); } assert(file_tf != nullptr); const auto& base_opt = base_tf->table_options(); const auto& file_opt = file_tf->table_options(); for (auto& pair : block_based_table_type_info) { if (pair.second.verification == OptionVerificationType::kDeprecated) { // We skip checking deprecated variables as they might // contain random values since they might not be initialized continue; } if (BBTOptionSanityCheckLevel(pair.first) <= sanity_check_level) { if (!AreEqualOptions(reinterpret_cast(&base_opt), reinterpret_cast(&file_opt), pair.second, pair.first, nullptr)) { return Status::Corruption( "[RocksDBOptionsParser]: " "failed the verification on BlockBasedTableOptions::", pair.first); } } } return Status::OK(); } #endif // !ROCKSDB_LITE TableFactory* NewBlockBasedTableFactory( const BlockBasedTableOptions& _table_options) { return new BlockBasedTableFactory(_table_options); } const std::string BlockBasedTableFactory::kName = "BlockBasedTable"; const std::string BlockBasedTablePropertyNames::kIndexType = "rocksdb.block.based.table.index.type"; const std::string BlockBasedTablePropertyNames::kWholeKeyFiltering = "rocksdb.block.based.table.whole.key.filtering"; const std::string BlockBasedTablePropertyNames::kPrefixFiltering = "rocksdb.block.based.table.prefix.filtering"; const std::string kHashIndexPrefixesBlock = "rocksdb.hashindex.prefixes"; const std::string kHashIndexPrefixesMetadataBlock = "rocksdb.hashindex.metadata"; const std::string kPropTrue = "1"; const std::string kPropFalse = "0"; } // namespace rocksdb rocksdb-5.17.2/table/block_based_table_factory.h000066400000000000000000000201001337235545400216270ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #include #include #include #include "db/dbformat.h" #include "options/options_helper.h" #include "options/options_parser.h" #include "rocksdb/flush_block_policy.h" #include "rocksdb/table.h" namespace rocksdb { struct EnvOptions; using std::unique_ptr; class BlockBasedTableBuilder; // A class used to track actual bytes written from the tail in the recent SST // file opens, and provide a suggestion for following open. class TailPrefetchStats { public: void RecordEffectiveSize(size_t len); // 0 indicates no information to determine. size_t GetSuggestedPrefetchSize(); private: const static size_t kNumTracked = 32; size_t records_[kNumTracked]; port::Mutex mutex_; size_t next_ = 0; size_t num_records_ = 0; }; class BlockBasedTableFactory : public TableFactory { public: explicit BlockBasedTableFactory( const BlockBasedTableOptions& table_options = BlockBasedTableOptions()); ~BlockBasedTableFactory() {} const char* Name() const override { return kName.c_str(); } Status NewTableReader( const TableReaderOptions& table_reader_options, unique_ptr&& file, uint64_t file_size, unique_ptr* table_reader, bool prefetch_index_and_filter_in_cache = true) const override; TableBuilder* NewTableBuilder( const TableBuilderOptions& table_builder_options, uint32_t column_family_id, WritableFileWriter* file) const override; // Sanitizes the specified DB Options. Status SanitizeOptions(const DBOptions& db_opts, const ColumnFamilyOptions& cf_opts) const override; std::string GetPrintableTableOptions() const override; Status GetOptionString(std::string* opt_string, const std::string& delimiter) const override; const BlockBasedTableOptions& table_options() const; void* GetOptions() override { return &table_options_; } bool IsDeleteRangeSupported() const override { return true; } static const std::string kName; private: BlockBasedTableOptions table_options_; mutable TailPrefetchStats tail_prefetch_stats_; }; extern const std::string kHashIndexPrefixesBlock; extern const std::string kHashIndexPrefixesMetadataBlock; extern const std::string kPropTrue; extern const std::string kPropFalse; #ifndef ROCKSDB_LITE extern Status VerifyBlockBasedTableFactory( const BlockBasedTableFactory* base_tf, const BlockBasedTableFactory* file_tf, OptionsSanityCheckLevel sanity_check_level); static std::unordered_map block_based_table_type_info = { /* currently not supported std::shared_ptr block_cache = nullptr; std::shared_ptr block_cache_compressed = nullptr; */ {"flush_block_policy_factory", {offsetof(struct BlockBasedTableOptions, flush_block_policy_factory), OptionType::kFlushBlockPolicyFactory, OptionVerificationType::kByName, false, 0}}, {"cache_index_and_filter_blocks", {offsetof(struct BlockBasedTableOptions, cache_index_and_filter_blocks), OptionType::kBoolean, OptionVerificationType::kNormal, false, 0}}, {"cache_index_and_filter_blocks_with_high_priority", {offsetof(struct BlockBasedTableOptions, cache_index_and_filter_blocks_with_high_priority), OptionType::kBoolean, OptionVerificationType::kNormal, false, 0}}, {"pin_l0_filter_and_index_blocks_in_cache", {offsetof(struct BlockBasedTableOptions, pin_l0_filter_and_index_blocks_in_cache), OptionType::kBoolean, OptionVerificationType::kNormal, false, 0}}, {"index_type", {offsetof(struct BlockBasedTableOptions, index_type), OptionType::kBlockBasedTableIndexType, OptionVerificationType::kNormal, false, 0}}, {"hash_index_allow_collision", {offsetof(struct BlockBasedTableOptions, hash_index_allow_collision), OptionType::kBoolean, OptionVerificationType::kNormal, false, 0}}, {"data_block_index_type", {offsetof(struct BlockBasedTableOptions, data_block_index_type), OptionType::kBlockBasedTableDataBlockIndexType, OptionVerificationType::kNormal, false, 0}}, {"data_block_hash_table_util_ratio", {offsetof(struct BlockBasedTableOptions, data_block_hash_table_util_ratio), OptionType::kDouble, OptionVerificationType::kNormal, false, 0}}, {"checksum", {offsetof(struct BlockBasedTableOptions, checksum), OptionType::kChecksumType, OptionVerificationType::kNormal, false, 0}}, {"no_block_cache", {offsetof(struct BlockBasedTableOptions, no_block_cache), OptionType::kBoolean, OptionVerificationType::kNormal, false, 0}}, {"block_size", {offsetof(struct BlockBasedTableOptions, block_size), OptionType::kSizeT, OptionVerificationType::kNormal, false, 0}}, {"block_size_deviation", {offsetof(struct BlockBasedTableOptions, block_size_deviation), OptionType::kInt, OptionVerificationType::kNormal, false, 0}}, {"block_restart_interval", {offsetof(struct BlockBasedTableOptions, block_restart_interval), OptionType::kInt, OptionVerificationType::kNormal, false, 0}}, {"index_block_restart_interval", {offsetof(struct BlockBasedTableOptions, index_block_restart_interval), OptionType::kInt, OptionVerificationType::kNormal, false, 0}}, {"index_per_partition", {0, OptionType::kUInt64T, OptionVerificationType::kDeprecated, false, 0}}, {"metadata_block_size", {offsetof(struct BlockBasedTableOptions, metadata_block_size), OptionType::kUInt64T, OptionVerificationType::kNormal, false, 0}}, {"partition_filters", {offsetof(struct BlockBasedTableOptions, partition_filters), OptionType::kBoolean, OptionVerificationType::kNormal, false, 0}}, {"filter_policy", {offsetof(struct BlockBasedTableOptions, filter_policy), OptionType::kFilterPolicy, OptionVerificationType::kByName, false, 0}}, {"whole_key_filtering", {offsetof(struct BlockBasedTableOptions, whole_key_filtering), OptionType::kBoolean, OptionVerificationType::kNormal, false, 0}}, {"skip_table_builder_flush", {0, OptionType::kBoolean, OptionVerificationType::kDeprecated, false, 0}}, {"format_version", {offsetof(struct BlockBasedTableOptions, format_version), OptionType::kUInt32T, OptionVerificationType::kNormal, false, 0}}, {"verify_compression", {offsetof(struct BlockBasedTableOptions, verify_compression), OptionType::kBoolean, OptionVerificationType::kNormal, false, 0}}, {"read_amp_bytes_per_bit", {offsetof(struct BlockBasedTableOptions, read_amp_bytes_per_bit), OptionType::kSizeT, OptionVerificationType::kNormal, false, 0}}, {"enable_index_compression", {offsetof(struct BlockBasedTableOptions, enable_index_compression), OptionType::kBoolean, OptionVerificationType::kNormal, false, 0}}, {"block_align", {offsetof(struct BlockBasedTableOptions, block_align), OptionType::kBoolean, OptionVerificationType::kNormal, false, 0}}, {"pin_top_level_index_and_filter", {offsetof(struct BlockBasedTableOptions, pin_top_level_index_and_filter), OptionType::kBoolean, OptionVerificationType::kNormal, false, 0}}}; #endif // !ROCKSDB_LITE } // namespace rocksdb rocksdb-5.17.2/table/block_based_table_reader.cc000066400000000000000000003530641337235545400216020ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "table/block_based_table_reader.h" #include #include #include #include #include #include #include "db/dbformat.h" #include "db/pinned_iterators_manager.h" #include "rocksdb/cache.h" #include "rocksdb/comparator.h" #include "rocksdb/env.h" #include "rocksdb/filter_policy.h" #include "rocksdb/iterator.h" #include "rocksdb/options.h" #include "rocksdb/statistics.h" #include "rocksdb/table.h" #include "rocksdb/table_properties.h" #include "table/block.h" #include "table/block_based_filter_block.h" #include "table/block_based_table_factory.h" #include "table/block_fetcher.h" #include "table/block_prefix_index.h" #include "table/filter_block.h" #include "table/format.h" #include "table/full_filter_block.h" #include "table/get_context.h" #include "table/internal_iterator.h" #include "table/meta_blocks.h" #include "table/partitioned_filter_block.h" #include "table/persistent_cache_helper.h" #include "table/sst_file_writer_collectors.h" #include "table/two_level_iterator.h" #include "monitoring/perf_context_imp.h" #include "util/coding.h" #include "util/file_reader_writer.h" #include "util/stop_watch.h" #include "util/string_util.h" #include "util/sync_point.h" namespace rocksdb { extern const uint64_t kBlockBasedTableMagicNumber; extern const std::string kHashIndexPrefixesBlock; extern const std::string kHashIndexPrefixesMetadataBlock; using std::unique_ptr; typedef BlockBasedTable::IndexReader IndexReader; BlockBasedTable::~BlockBasedTable() { Close(); delete rep_; } std::atomic BlockBasedTable::next_cache_key_id_(0); namespace { // Read the block identified by "handle" from "file". // The only relevant option is options.verify_checksums for now. // On failure return non-OK. // On success fill *result and return OK - caller owns *result // @param compression_dict Data for presetting the compression library's // dictionary. Status ReadBlockFromFile( RandomAccessFileReader* file, FilePrefetchBuffer* prefetch_buffer, const Footer& footer, const ReadOptions& options, const BlockHandle& handle, std::unique_ptr* result, const ImmutableCFOptions& ioptions, bool do_uncompress, const Slice& compression_dict, const PersistentCacheOptions& cache_options, SequenceNumber global_seqno, size_t read_amp_bytes_per_bit, const bool immortal_file = false) { BlockContents contents; BlockFetcher block_fetcher(file, prefetch_buffer, footer, options, handle, &contents, ioptions, do_uncompress, compression_dict, cache_options, immortal_file); Status s = block_fetcher.ReadBlockContents(); if (s.ok()) { result->reset(new Block(std::move(contents), global_seqno, read_amp_bytes_per_bit, ioptions.statistics)); } return s; } // Delete the resource that is held by the iterator. template void DeleteHeldResource(void* arg, void* /*ignored*/) { delete reinterpret_cast(arg); } // Delete the entry resided in the cache. template void DeleteCachedEntry(const Slice& /*key*/, void* value) { auto entry = reinterpret_cast(value); delete entry; } void DeleteCachedFilterEntry(const Slice& key, void* value); void DeleteCachedIndexEntry(const Slice& key, void* value); // Release the cached entry and decrement its ref count. void ReleaseCachedEntry(void* arg, void* h) { Cache* cache = reinterpret_cast(arg); Cache::Handle* handle = reinterpret_cast(h); cache->Release(handle); } // Release the cached entry and decrement its ref count. void ForceReleaseCachedEntry(void* arg, void* h) { Cache* cache = reinterpret_cast(arg); Cache::Handle* handle = reinterpret_cast(h); cache->Release(handle, true /* force_erase */); } Slice GetCacheKeyFromOffset(const char* cache_key_prefix, size_t cache_key_prefix_size, uint64_t offset, char* cache_key) { assert(cache_key != nullptr); assert(cache_key_prefix_size != 0); assert(cache_key_prefix_size <= BlockBasedTable::kMaxCacheKeyPrefixSize); memcpy(cache_key, cache_key_prefix, cache_key_prefix_size); char* end = EncodeVarint64(cache_key + cache_key_prefix_size, offset); return Slice(cache_key, static_cast(end - cache_key)); } Cache::Handle* GetEntryFromCache(Cache* block_cache, const Slice& key, Tickers block_cache_miss_ticker, Tickers block_cache_hit_ticker, uint64_t* block_cache_miss_stats, uint64_t* block_cache_hit_stats, Statistics* statistics, GetContext* get_context) { auto cache_handle = block_cache->Lookup(key, statistics); if (cache_handle != nullptr) { PERF_COUNTER_ADD(block_cache_hit_count, 1); if (get_context != nullptr) { // overall cache hit get_context->get_context_stats_.num_cache_hit++; // total bytes read from cache get_context->get_context_stats_.num_cache_bytes_read += block_cache->GetUsage(cache_handle); // block-type specific cache hit (*block_cache_hit_stats)++; } else { // overall cache hit RecordTick(statistics, BLOCK_CACHE_HIT); // total bytes read from cache RecordTick(statistics, BLOCK_CACHE_BYTES_READ, block_cache->GetUsage(cache_handle)); RecordTick(statistics, block_cache_hit_ticker); } } else { if (get_context != nullptr) { // overall cache miss get_context->get_context_stats_.num_cache_miss++; // block-type specific cache miss (*block_cache_miss_stats)++; } else { RecordTick(statistics, BLOCK_CACHE_MISS); RecordTick(statistics, block_cache_miss_ticker); } } return cache_handle; } // For hash based index, return true if prefix_extractor and // prefix_extractor_block mismatch, false otherwise. This flag will be used // as total_order_seek via NewIndexIterator bool PrefixExtractorChanged(const TableProperties* table_properties, const SliceTransform* prefix_extractor) { // BlockBasedTableOptions::kHashSearch requires prefix_extractor to be set. // Turn off hash index in prefix_extractor is not set; if prefix_extractor // is set but prefix_extractor_block is not set, also disable hash index if (prefix_extractor == nullptr || table_properties == nullptr || table_properties->prefix_extractor_name.empty()) { return true; } // prefix_extractor and prefix_extractor_block are both non-empty if (table_properties->prefix_extractor_name.compare( prefix_extractor->Name()) != 0) { return true; } else { return false; } } } // namespace // Index that allows binary search lookup in a two-level index structure. class PartitionIndexReader : public IndexReader, public Cleanable { public: // Read the partition index from the file and create an instance for // `PartitionIndexReader`. // On success, index_reader will be populated; otherwise it will remain // unmodified. static Status Create(BlockBasedTable* table, RandomAccessFileReader* file, FilePrefetchBuffer* prefetch_buffer, const Footer& footer, const BlockHandle& index_handle, const ImmutableCFOptions& ioptions, const InternalKeyComparator* icomparator, IndexReader** index_reader, const PersistentCacheOptions& cache_options, const int level, const bool index_key_includes_seq, const bool index_value_is_full) { std::unique_ptr index_block; auto s = ReadBlockFromFile( file, prefetch_buffer, footer, ReadOptions(), index_handle, &index_block, ioptions, true /* decompress */, Slice() /*compression dict*/, cache_options, kDisableGlobalSequenceNumber, 0 /* read_amp_bytes_per_bit */); if (s.ok()) { *index_reader = new PartitionIndexReader( table, icomparator, std::move(index_block), ioptions.statistics, level, index_key_includes_seq, index_value_is_full); } return s; } // return a two-level iterator: first level is on the partition index virtual InternalIteratorBase* NewIterator( IndexBlockIter* /*iter*/ = nullptr, bool /*dont_care*/ = true, bool fill_cache = true) override { Statistics* kNullStats = nullptr; // Filters are already checked before seeking the index if (!partition_map_.empty()) { return NewTwoLevelIterator( new BlockBasedTable::PartitionedIndexIteratorState( table_, &partition_map_, index_key_includes_seq_, index_value_is_full_), index_block_->NewIterator( icomparator_, icomparator_->user_comparator(), nullptr, kNullStats, true, index_key_includes_seq_, index_value_is_full_)); } else { auto ro = ReadOptions(); ro.fill_cache = fill_cache; bool kIsIndex = true; return new BlockBasedTableIterator( table_, ro, *icomparator_, index_block_->NewIterator( icomparator_, icomparator_->user_comparator(), nullptr, kNullStats, true, index_key_includes_seq_, index_value_is_full_), false, true, /* prefix_extractor */ nullptr, kIsIndex, index_key_includes_seq_, index_value_is_full_); } // TODO(myabandeh): Update TwoLevelIterator to be able to make use of // on-stack BlockIter while the state is on heap. Currentlly it assumes // the first level iter is always on heap and will attempt to delete it // in its destructor. } virtual void CacheDependencies(bool pin) override { // Before read partitions, prefetch them to avoid lots of IOs auto rep = table_->rep_; IndexBlockIter biter; BlockHandle handle; Statistics* kNullStats = nullptr; index_block_->NewIterator( icomparator_, icomparator_->user_comparator(), &biter, kNullStats, true, index_key_includes_seq_, index_value_is_full_); // Index partitions are assumed to be consecuitive. Prefetch them all. // Read the first block offset biter.SeekToFirst(); if (!biter.Valid()) { // Empty index. return; } handle = biter.value(); uint64_t prefetch_off = handle.offset(); // Read the last block's offset biter.SeekToLast(); if (!biter.Valid()) { // Empty index. return; } handle = biter.value(); uint64_t last_off = handle.offset() + handle.size() + kBlockTrailerSize; uint64_t prefetch_len = last_off - prefetch_off; std::unique_ptr prefetch_buffer; auto& file = table_->rep_->file; prefetch_buffer.reset(new FilePrefetchBuffer()); Status s = prefetch_buffer->Prefetch(file.get(), prefetch_off, static_cast(prefetch_len)); // After prefetch, read the partitions one by one biter.SeekToFirst(); auto ro = ReadOptions(); Cache* block_cache = rep->table_options.block_cache.get(); for (; biter.Valid(); biter.Next()) { handle = biter.value(); BlockBasedTable::CachableEntry block; Slice compression_dict; if (rep->compression_dict_block) { compression_dict = rep->compression_dict_block->data; } const bool is_index = true; // TODO: Support counter batch update for partitioned index and // filter blocks s = table_->MaybeLoadDataBlockToCache( prefetch_buffer.get(), rep, ro, handle, compression_dict, &block, is_index, nullptr /* get_context */); assert(s.ok() || block.value == nullptr); if (s.ok() && block.value != nullptr) { if (block.cache_handle != nullptr) { if (pin) { partition_map_[handle.offset()] = block; RegisterCleanup(&ReleaseCachedEntry, block_cache, block.cache_handle); } else { block_cache->Release(block.cache_handle); } } else { delete block.value; } } } } virtual size_t size() const override { return index_block_->size(); } virtual size_t usable_size() const override { return index_block_->usable_size(); } virtual size_t ApproximateMemoryUsage() const override { assert(index_block_); size_t usage = index_block_->ApproximateMemoryUsage(); #ifdef ROCKSDB_MALLOC_USABLE_SIZE usage += malloc_usable_size((void*)this); #else usage += sizeof(*this); #endif // ROCKSDB_MALLOC_USABLE_SIZE // TODO(myabandeh): more accurate estimate of partition_map_ mem usage return usage; } private: PartitionIndexReader(BlockBasedTable* table, const InternalKeyComparator* icomparator, std::unique_ptr&& index_block, Statistics* stats, const int /*level*/, const bool index_key_includes_seq, const bool index_value_is_full) : IndexReader(icomparator, stats), table_(table), index_block_(std::move(index_block)), index_key_includes_seq_(index_key_includes_seq), index_value_is_full_(index_value_is_full) { assert(index_block_ != nullptr); } BlockBasedTable* table_; std::unique_ptr index_block_; std::unordered_map> partition_map_; const bool index_key_includes_seq_; const bool index_value_is_full_; }; // Index that allows binary search lookup for the first key of each block. // This class can be viewed as a thin wrapper for `Block` class which already // supports binary search. class BinarySearchIndexReader : public IndexReader { public: // Read index from the file and create an intance for // `BinarySearchIndexReader`. // On success, index_reader will be populated; otherwise it will remain // unmodified. static Status Create(RandomAccessFileReader* file, FilePrefetchBuffer* prefetch_buffer, const Footer& footer, const BlockHandle& index_handle, const ImmutableCFOptions& ioptions, const InternalKeyComparator* icomparator, IndexReader** index_reader, const PersistentCacheOptions& cache_options, const bool index_key_includes_seq, const bool index_value_is_full) { std::unique_ptr index_block; auto s = ReadBlockFromFile( file, prefetch_buffer, footer, ReadOptions(), index_handle, &index_block, ioptions, true /* decompress */, Slice() /*compression dict*/, cache_options, kDisableGlobalSequenceNumber, 0 /* read_amp_bytes_per_bit */); if (s.ok()) { *index_reader = new BinarySearchIndexReader( icomparator, std::move(index_block), ioptions.statistics, index_key_includes_seq, index_value_is_full); } return s; } virtual InternalIteratorBase* NewIterator( IndexBlockIter* iter = nullptr, bool /*dont_care*/ = true, bool /*dont_care*/ = true) override { Statistics* kNullStats = nullptr; return index_block_->NewIterator( icomparator_, icomparator_->user_comparator(), iter, kNullStats, true, index_key_includes_seq_, index_value_is_full_); } virtual size_t size() const override { return index_block_->size(); } virtual size_t usable_size() const override { return index_block_->usable_size(); } virtual size_t ApproximateMemoryUsage() const override { assert(index_block_); size_t usage = index_block_->ApproximateMemoryUsage(); #ifdef ROCKSDB_MALLOC_USABLE_SIZE usage += malloc_usable_size((void*)this); #else usage += sizeof(*this); #endif // ROCKSDB_MALLOC_USABLE_SIZE return usage; } private: BinarySearchIndexReader(const InternalKeyComparator* icomparator, std::unique_ptr&& index_block, Statistics* stats, const bool index_key_includes_seq, const bool index_value_is_full) : IndexReader(icomparator, stats), index_block_(std::move(index_block)), index_key_includes_seq_(index_key_includes_seq), index_value_is_full_(index_value_is_full) { assert(index_block_ != nullptr); } std::unique_ptr index_block_; const bool index_key_includes_seq_; const bool index_value_is_full_; }; // Index that leverages an internal hash table to quicken the lookup for a given // key. class HashIndexReader : public IndexReader { public: static Status Create( const SliceTransform* hash_key_extractor, const Footer& footer, RandomAccessFileReader* file, FilePrefetchBuffer* prefetch_buffer, const ImmutableCFOptions& ioptions, const InternalKeyComparator* icomparator, const BlockHandle& index_handle, InternalIterator* meta_index_iter, IndexReader** index_reader, bool /*hash_index_allow_collision*/, const PersistentCacheOptions& cache_options, const bool index_key_includes_seq, const bool index_value_is_full) { std::unique_ptr index_block; auto s = ReadBlockFromFile( file, prefetch_buffer, footer, ReadOptions(), index_handle, &index_block, ioptions, true /* decompress */, Slice() /*compression dict*/, cache_options, kDisableGlobalSequenceNumber, 0 /* read_amp_bytes_per_bit */); if (!s.ok()) { return s; } // Note, failure to create prefix hash index does not need to be a // hard error. We can still fall back to the original binary search index. // So, Create will succeed regardless, from this point on. auto new_index_reader = new HashIndexReader( icomparator, std::move(index_block), ioptions.statistics, index_key_includes_seq, index_value_is_full); *index_reader = new_index_reader; // Get prefixes block BlockHandle prefixes_handle; s = FindMetaBlock(meta_index_iter, kHashIndexPrefixesBlock, &prefixes_handle); if (!s.ok()) { // TODO: log error return Status::OK(); } // Get index metadata block BlockHandle prefixes_meta_handle; s = FindMetaBlock(meta_index_iter, kHashIndexPrefixesMetadataBlock, &prefixes_meta_handle); if (!s.ok()) { // TODO: log error return Status::OK(); } Slice dummy_comp_dict; // Read contents for the blocks BlockContents prefixes_contents; BlockFetcher prefixes_block_fetcher( file, prefetch_buffer, footer, ReadOptions(), prefixes_handle, &prefixes_contents, ioptions, true /* decompress */, dummy_comp_dict /*compression dict*/, cache_options); s = prefixes_block_fetcher.ReadBlockContents(); if (!s.ok()) { return s; } BlockContents prefixes_meta_contents; BlockFetcher prefixes_meta_block_fetcher( file, prefetch_buffer, footer, ReadOptions(), prefixes_meta_handle, &prefixes_meta_contents, ioptions, true /* decompress */, dummy_comp_dict /*compression dict*/, cache_options); s = prefixes_meta_block_fetcher.ReadBlockContents(); if (!s.ok()) { // TODO: log error return Status::OK(); } BlockPrefixIndex* prefix_index = nullptr; s = BlockPrefixIndex::Create(hash_key_extractor, prefixes_contents.data, prefixes_meta_contents.data, &prefix_index); // TODO: log error if (s.ok()) { new_index_reader->prefix_index_.reset(prefix_index); } return Status::OK(); } virtual InternalIteratorBase* NewIterator( IndexBlockIter* iter = nullptr, bool total_order_seek = true, bool /*dont_care*/ = true) override { Statistics* kNullStats = nullptr; return index_block_->NewIterator( icomparator_, icomparator_->user_comparator(), iter, kNullStats, total_order_seek, index_key_includes_seq_, index_value_is_full_, prefix_index_.get()); } virtual size_t size() const override { return index_block_->size(); } virtual size_t usable_size() const override { return index_block_->usable_size(); } virtual size_t ApproximateMemoryUsage() const override { assert(index_block_); size_t usage = index_block_->ApproximateMemoryUsage(); usage += prefixes_contents_.usable_size(); #ifdef ROCKSDB_MALLOC_USABLE_SIZE usage += malloc_usable_size((void*)this); #else if (prefix_index_) { usage += prefix_index_->ApproximateMemoryUsage(); } usage += sizeof(*this); #endif // ROCKSDB_MALLOC_USABLE_SIZE return usage; } private: HashIndexReader(const InternalKeyComparator* icomparator, std::unique_ptr&& index_block, Statistics* stats, const bool index_key_includes_seq, const bool index_value_is_full) : IndexReader(icomparator, stats), index_block_(std::move(index_block)), index_key_includes_seq_(index_key_includes_seq), index_value_is_full_(index_value_is_full) { assert(index_block_ != nullptr); } ~HashIndexReader() { } std::unique_ptr index_block_; std::unique_ptr prefix_index_; BlockContents prefixes_contents_; const bool index_key_includes_seq_; const bool index_value_is_full_; }; // Helper function to setup the cache key's prefix for the Table. void BlockBasedTable::SetupCacheKeyPrefix(Rep* rep, uint64_t file_size) { assert(kMaxCacheKeyPrefixSize >= 10); rep->cache_key_prefix_size = 0; rep->compressed_cache_key_prefix_size = 0; if (rep->table_options.block_cache != nullptr) { GenerateCachePrefix(rep->table_options.block_cache.get(), rep->file->file(), &rep->cache_key_prefix[0], &rep->cache_key_prefix_size); // Create dummy offset of index reader which is beyond the file size. rep->dummy_index_reader_offset = file_size + rep->table_options.block_cache->NewId(); } if (rep->table_options.persistent_cache != nullptr) { GenerateCachePrefix(/*cache=*/nullptr, rep->file->file(), &rep->persistent_cache_key_prefix[0], &rep->persistent_cache_key_prefix_size); } if (rep->table_options.block_cache_compressed != nullptr) { GenerateCachePrefix(rep->table_options.block_cache_compressed.get(), rep->file->file(), &rep->compressed_cache_key_prefix[0], &rep->compressed_cache_key_prefix_size); } } void BlockBasedTable::GenerateCachePrefix(Cache* cc, RandomAccessFile* file, char* buffer, size_t* size) { // generate an id from the file *size = file->GetUniqueId(buffer, kMaxCacheKeyPrefixSize); // If the prefix wasn't generated or was too long, // create one from the cache. if (cc && *size == 0) { char* end = EncodeVarint64(buffer, cc->NewId()); *size = static_cast(end - buffer); } } void BlockBasedTable::GenerateCachePrefix(Cache* cc, WritableFile* file, char* buffer, size_t* size) { // generate an id from the file *size = file->GetUniqueId(buffer, kMaxCacheKeyPrefixSize); // If the prefix wasn't generated or was too long, // create one from the cache. if (*size == 0) { char* end = EncodeVarint64(buffer, cc->NewId()); *size = static_cast(end - buffer); } } namespace { // Return True if table_properties has `user_prop_name` has a `true` value // or it doesn't contain this property (for backward compatible). bool IsFeatureSupported(const TableProperties& table_properties, const std::string& user_prop_name, Logger* info_log) { auto& props = table_properties.user_collected_properties; auto pos = props.find(user_prop_name); // Older version doesn't have this value set. Skip this check. if (pos != props.end()) { if (pos->second == kPropFalse) { return false; } else if (pos->second != kPropTrue) { ROCKS_LOG_WARN(info_log, "Property %s has invalidate value %s", user_prop_name.c_str(), pos->second.c_str()); } } return true; } // Caller has to ensure seqno is not nullptr. Status GetGlobalSequenceNumber(const TableProperties& table_properties, SequenceNumber largest_seqno, SequenceNumber* seqno) { const auto& props = table_properties.user_collected_properties; const auto version_pos = props.find(ExternalSstFilePropertyNames::kVersion); const auto seqno_pos = props.find(ExternalSstFilePropertyNames::kGlobalSeqno); *seqno = kDisableGlobalSequenceNumber; if (version_pos == props.end()) { if (seqno_pos != props.end()) { std::array msg_buf; // This is not an external sst file, global_seqno is not supported. snprintf( msg_buf.data(), msg_buf.max_size(), "A non-external sst file have global seqno property with value %s", seqno_pos->second.c_str()); return Status::Corruption(msg_buf.data()); } return Status::OK(); } uint32_t version = DecodeFixed32(version_pos->second.c_str()); if (version < 2) { if (seqno_pos != props.end() || version != 1) { std::array msg_buf; // This is a v1 external sst file, global_seqno is not supported. snprintf(msg_buf.data(), msg_buf.max_size(), "An external sst file with version %u have global seqno " "property with value %s", version, seqno_pos->second.c_str()); return Status::Corruption(msg_buf.data()); } return Status::OK(); } // Since we have a plan to deprecate global_seqno, we do not return failure // if seqno_pos == props.end(). We rely on version_pos to detect whether the // SST is external. SequenceNumber global_seqno(0); if (seqno_pos != props.end()) { global_seqno = DecodeFixed64(seqno_pos->second.c_str()); } if (global_seqno != 0 && global_seqno != largest_seqno) { std::array msg_buf; snprintf(msg_buf.data(), msg_buf.max_size(), "An external sst file with version %u have global seqno property " "with value %s, while largest seqno in the file is %llu", version, seqno_pos->second.c_str(), static_cast(largest_seqno)); return Status::Corruption(msg_buf.data()); } global_seqno = largest_seqno; *seqno = largest_seqno; if (global_seqno > kMaxSequenceNumber) { std::array msg_buf; snprintf(msg_buf.data(), msg_buf.max_size(), "An external sst file with version %u have global seqno property " "with value %llu, which is greater than kMaxSequenceNumber", version, static_cast(global_seqno)); return Status::Corruption(msg_buf.data()); } return Status::OK(); } } // namespace Slice BlockBasedTable::GetCacheKey(const char* cache_key_prefix, size_t cache_key_prefix_size, const BlockHandle& handle, char* cache_key) { assert(cache_key != nullptr); assert(cache_key_prefix_size != 0); assert(cache_key_prefix_size <= kMaxCacheKeyPrefixSize); memcpy(cache_key, cache_key_prefix, cache_key_prefix_size); char* end = EncodeVarint64(cache_key + cache_key_prefix_size, handle.offset()); return Slice(cache_key, static_cast(end - cache_key)); } Status BlockBasedTable::Open(const ImmutableCFOptions& ioptions, const EnvOptions& env_options, const BlockBasedTableOptions& table_options, const InternalKeyComparator& internal_comparator, unique_ptr&& file, uint64_t file_size, unique_ptr* table_reader, const SliceTransform* prefix_extractor, const bool prefetch_index_and_filter_in_cache, const bool skip_filters, const int level, const bool immortal_table, const SequenceNumber largest_seqno, TailPrefetchStats* tail_prefetch_stats) { table_reader->reset(); Footer footer; std::unique_ptr prefetch_buffer; // prefetch both index and filters, down to all partitions const bool prefetch_all = prefetch_index_and_filter_in_cache || level == 0; const bool preload_all = !table_options.cache_index_and_filter_blocks; size_t tail_prefetch_size = 0; if (tail_prefetch_stats != nullptr) { // Multiple threads may get a 0 (no history) when running in parallel, // but it will get cleared after the first of them finishes. tail_prefetch_size = tail_prefetch_stats->GetSuggestedPrefetchSize(); } if (tail_prefetch_size == 0) { // Before read footer, readahead backwards to prefetch data. Do more // readahead if we're going to read index/filter. // TODO: This may incorrectly select small readahead in case partitioned // index/filter is enabled and top-level partition pinning is enabled. // That's because we need to issue readahead before we read the properties, // at which point we don't yet know the index type. tail_prefetch_size = prefetch_all || preload_all ? 512 * 1024 : 4 * 1024; } size_t prefetch_off; size_t prefetch_len; if (file_size < tail_prefetch_size) { prefetch_off = 0; prefetch_len = static_cast(file_size); } else { prefetch_off = static_cast(file_size - tail_prefetch_size); prefetch_len = tail_prefetch_size; } TEST_SYNC_POINT_CALLBACK("BlockBasedTable::Open::TailPrefetchLen", &tail_prefetch_size); Status s; // TODO should not have this special logic in the future. if (!file->use_direct_io()) { prefetch_buffer.reset(new FilePrefetchBuffer(nullptr, 0, 0, false, true)); s = file->Prefetch(prefetch_off, prefetch_len); } else { prefetch_buffer.reset(new FilePrefetchBuffer(nullptr, 0, 0, true, true)); s = prefetch_buffer->Prefetch(file.get(), prefetch_off, prefetch_len); } s = ReadFooterFromFile(file.get(), prefetch_buffer.get(), file_size, &footer, kBlockBasedTableMagicNumber); if (!s.ok()) { return s; } if (!BlockBasedTableSupportedVersion(footer.version())) { return Status::Corruption( "Unknown Footer version. Maybe this file was created with newer " "version of RocksDB?"); } // We've successfully read the footer. We are ready to serve requests. // Better not mutate rep_ after the creation. eg. internal_prefix_transform // raw pointer will be used to create HashIndexReader, whose reset may // access a dangling pointer. Rep* rep = new BlockBasedTable::Rep(ioptions, env_options, table_options, internal_comparator, skip_filters, immortal_table); rep->file = std::move(file); rep->footer = footer; rep->index_type = table_options.index_type; rep->hash_index_allow_collision = table_options.hash_index_allow_collision; // We need to wrap data with internal_prefix_transform to make sure it can // handle prefix correctly. rep->internal_prefix_transform.reset( new InternalKeySliceTransform(prefix_extractor)); SetupCacheKeyPrefix(rep, file_size); unique_ptr new_table(new BlockBasedTable(rep)); // page cache options rep->persistent_cache_options = PersistentCacheOptions(rep->table_options.persistent_cache, std::string(rep->persistent_cache_key_prefix, rep->persistent_cache_key_prefix_size), rep->ioptions.statistics); // Read meta index std::unique_ptr meta; std::unique_ptr meta_iter; s = ReadMetaBlock(rep, prefetch_buffer.get(), &meta, &meta_iter); if (!s.ok()) { return s; } // Find filter handle and filter type if (rep->filter_policy) { for (auto filter_type : {Rep::FilterType::kFullFilter, Rep::FilterType::kPartitionedFilter, Rep::FilterType::kBlockFilter}) { std::string prefix; switch (filter_type) { case Rep::FilterType::kFullFilter: prefix = kFullFilterBlockPrefix; break; case Rep::FilterType::kPartitionedFilter: prefix = kPartitionedFilterBlockPrefix; break; case Rep::FilterType::kBlockFilter: prefix = kFilterBlockPrefix; break; default: assert(0); } std::string filter_block_key = prefix; filter_block_key.append(rep->filter_policy->Name()); if (FindMetaBlock(meta_iter.get(), filter_block_key, &rep->filter_handle) .ok()) { rep->filter_type = filter_type; break; } } } // Read the properties bool found_properties_block = true; s = SeekToPropertiesBlock(meta_iter.get(), &found_properties_block); if (!s.ok()) { ROCKS_LOG_WARN(rep->ioptions.info_log, "Error when seeking to properties block from file: %s", s.ToString().c_str()); } else if (found_properties_block) { s = meta_iter->status(); TableProperties* table_properties = nullptr; if (s.ok()) { s = ReadProperties(meta_iter->value(), rep->file.get(), prefetch_buffer.get(), rep->footer, rep->ioptions, &table_properties, false /* compression_type_missing */); } if (!s.ok()) { ROCKS_LOG_WARN(rep->ioptions.info_log, "Encountered error while reading data from properties " "block %s", s.ToString().c_str()); } else { assert(table_properties != nullptr); rep->table_properties.reset(table_properties); rep->blocks_maybe_compressed = rep->table_properties->compression_name != CompressionTypeToString(kNoCompression); } } else { ROCKS_LOG_ERROR(rep->ioptions.info_log, "Cannot find Properties block from file."); } #ifndef ROCKSDB_LITE if (rep->table_properties) { ParseSliceTransform(rep->table_properties->prefix_extractor_name, &(rep->table_prefix_extractor)); } #endif // ROCKSDB_LITE // Read the compression dictionary meta block bool found_compression_dict; BlockHandle compression_dict_handle; s = SeekToCompressionDictBlock(meta_iter.get(), &found_compression_dict, &compression_dict_handle); if (!s.ok()) { ROCKS_LOG_WARN( rep->ioptions.info_log, "Error when seeking to compression dictionary block from file: %s", s.ToString().c_str()); } else if (found_compression_dict && !compression_dict_handle.IsNull()) { // TODO(andrewkr): Add to block cache if cache_index_and_filter_blocks is // true. std::unique_ptr compression_dict_cont{new BlockContents()}; PersistentCacheOptions cache_options; ReadOptions read_options; read_options.verify_checksums = false; BlockFetcher compression_block_fetcher( rep->file.get(), prefetch_buffer.get(), rep->footer, read_options, compression_dict_handle, compression_dict_cont.get(), rep->ioptions, false /* decompress */, Slice() /*compression dict*/, cache_options); s = compression_block_fetcher.ReadBlockContents(); if (!s.ok()) { ROCKS_LOG_WARN( rep->ioptions.info_log, "Encountered error while reading data from compression dictionary " "block %s", s.ToString().c_str()); } else { rep->compression_dict_block = std::move(compression_dict_cont); } } // Read the table properties, if provided. if (rep->table_properties) { rep->whole_key_filtering &= IsFeatureSupported(*(rep->table_properties), BlockBasedTablePropertyNames::kWholeKeyFiltering, rep->ioptions.info_log); rep->prefix_filtering &= IsFeatureSupported( *(rep->table_properties), BlockBasedTablePropertyNames::kPrefixFiltering, rep->ioptions.info_log); s = GetGlobalSequenceNumber(*(rep->table_properties), largest_seqno, &(rep->global_seqno)); if (!s.ok()) { ROCKS_LOG_ERROR(rep->ioptions.info_log, "%s", s.ToString().c_str()); return s; } } // Read the range del meta block bool found_range_del_block; s = SeekToRangeDelBlock(meta_iter.get(), &found_range_del_block, &rep->range_del_handle); if (!s.ok()) { ROCKS_LOG_WARN( rep->ioptions.info_log, "Error when seeking to range delete tombstones block from file: %s", s.ToString().c_str()); } else { if (found_range_del_block && !rep->range_del_handle.IsNull()) { ReadOptions read_options; s = MaybeLoadDataBlockToCache( prefetch_buffer.get(), rep, read_options, rep->range_del_handle, Slice() /* compression_dict */, &rep->range_del_entry, false /* is_index */, nullptr /* get_context */); if (!s.ok()) { ROCKS_LOG_WARN( rep->ioptions.info_log, "Encountered error while reading data from range del block %s", s.ToString().c_str()); } } } bool need_upper_bound_check = PrefixExtractorChanged(rep->table_properties.get(), prefix_extractor); BlockBasedTableOptions::IndexType index_type = new_table->UpdateIndexType(); // prefetch the first level of index const bool prefetch_index = prefetch_all || (table_options.pin_top_level_index_and_filter && index_type == BlockBasedTableOptions::kTwoLevelIndexSearch); // prefetch the first level of filter const bool prefetch_filter = prefetch_all || (table_options.pin_top_level_index_and_filter && rep->filter_type == Rep::FilterType::kPartitionedFilter); // Partition fitlers cannot be enabled without partition indexes assert(!prefetch_filter || prefetch_index); // pin both index and filters, down to all partitions const bool pin_all = rep->table_options.pin_l0_filter_and_index_blocks_in_cache && level == 0; // pin the first level of index const bool pin_index = pin_all || (table_options.pin_top_level_index_and_filter && index_type == BlockBasedTableOptions::kTwoLevelIndexSearch); // pin the first level of filter const bool pin_filter = pin_all || (table_options.pin_top_level_index_and_filter && rep->filter_type == Rep::FilterType::kPartitionedFilter); // pre-fetching of blocks is turned on // Will use block cache for index/filter blocks access // Always prefetch index and filter for level 0 if (table_options.cache_index_and_filter_blocks) { assert(table_options.block_cache != nullptr); if (prefetch_index) { // Hack: Call NewIndexIterator() to implicitly add index to the // block_cache CachableEntry index_entry; // check prefix_extractor match only if hash based index is used bool disable_prefix_seek = rep->index_type == BlockBasedTableOptions::kHashSearch && need_upper_bound_check; unique_ptr> iter( new_table->NewIndexIterator(ReadOptions(), disable_prefix_seek, nullptr, &index_entry)); s = iter->status(); if (s.ok()) { // This is the first call to NewIndexIterator() since we're in Open(). // On success it should give us ownership of the `CachableEntry` by // populating `index_entry`. assert(index_entry.value != nullptr); if (prefetch_all) { index_entry.value->CacheDependencies(pin_all); } if (pin_index) { rep->index_entry = std::move(index_entry); } else { index_entry.Release(table_options.block_cache.get()); } } } if (s.ok() && prefetch_filter) { // Hack: Call GetFilter() to implicitly add filter to the block_cache auto filter_entry = new_table->GetFilter(rep->table_prefix_extractor.get()); if (filter_entry.value != nullptr && prefetch_all) { filter_entry.value->CacheDependencies( pin_all, rep->table_prefix_extractor.get()); } // if pin_filter is true then save it in rep_->filter_entry; it will be // released in the destructor only, hence it will be pinned in the // cache while this reader is alive if (pin_filter) { rep->filter_entry = filter_entry; } else { filter_entry.Release(table_options.block_cache.get()); } } } else { // If we don't use block cache for index/filter blocks access, we'll // pre-load these blocks, which will kept in member variables in Rep // and with a same life-time as this table object. IndexReader* index_reader = nullptr; s = new_table->CreateIndexReader(prefetch_buffer.get(), &index_reader, meta_iter.get(), level); if (s.ok()) { rep->index_reader.reset(index_reader); // The partitions of partitioned index are always stored in cache. They // are hence follow the configuration for pin and prefetch regardless of // the value of cache_index_and_filter_blocks if (prefetch_index_and_filter_in_cache || level == 0) { rep->index_reader->CacheDependencies(pin_all); } // Set filter block if (rep->filter_policy) { const bool is_a_filter_partition = true; auto filter = new_table->ReadFilter( prefetch_buffer.get(), rep->filter_handle, !is_a_filter_partition, rep->table_prefix_extractor.get()); rep->filter.reset(filter); // Refer to the comment above about paritioned indexes always being // cached if (filter && (prefetch_index_and_filter_in_cache || level == 0)) { filter->CacheDependencies(pin_all, rep->table_prefix_extractor.get()); } } } else { delete index_reader; } } if (s.ok()) { assert(prefetch_buffer.get() != nullptr); if (tail_prefetch_stats != nullptr) { assert(prefetch_buffer->min_offset_read() < file_size); tail_prefetch_stats->RecordEffectiveSize( static_cast(file_size) - prefetch_buffer->min_offset_read()); } *table_reader = std::move(new_table); } return s; } void BlockBasedTable::SetupForCompaction() { switch (rep_->ioptions.access_hint_on_compaction_start) { case Options::NONE: break; case Options::NORMAL: rep_->file->file()->Hint(RandomAccessFile::NORMAL); break; case Options::SEQUENTIAL: rep_->file->file()->Hint(RandomAccessFile::SEQUENTIAL); break; case Options::WILLNEED: rep_->file->file()->Hint(RandomAccessFile::WILLNEED); break; default: assert(false); } } std::shared_ptr BlockBasedTable::GetTableProperties() const { return rep_->table_properties; } size_t BlockBasedTable::ApproximateMemoryUsage() const { size_t usage = 0; if (rep_->filter) { usage += rep_->filter->ApproximateMemoryUsage(); } if (rep_->index_reader) { usage += rep_->index_reader->ApproximateMemoryUsage(); } return usage; } // Load the meta-block from the file. On success, return the loaded meta block // and its iterator. Status BlockBasedTable::ReadMetaBlock(Rep* rep, FilePrefetchBuffer* prefetch_buffer, std::unique_ptr* meta_block, std::unique_ptr* iter) { // TODO(sanjay): Skip this if footer.metaindex_handle() size indicates // it is an empty block. std::unique_ptr meta; Status s = ReadBlockFromFile( rep->file.get(), prefetch_buffer, rep->footer, ReadOptions(), rep->footer.metaindex_handle(), &meta, rep->ioptions, true /* decompress */, Slice() /*compression dict*/, rep->persistent_cache_options, kDisableGlobalSequenceNumber, 0 /* read_amp_bytes_per_bit */); if (!s.ok()) { ROCKS_LOG_ERROR(rep->ioptions.info_log, "Encountered error while reading data from properties" " block %s", s.ToString().c_str()); return s; } *meta_block = std::move(meta); // meta block uses bytewise comparator. iter->reset(meta_block->get()->NewIterator( BytewiseComparator(), BytewiseComparator())); return Status::OK(); } Status BlockBasedTable::GetDataBlockFromCache( const Slice& block_cache_key, const Slice& compressed_block_cache_key, Cache* block_cache, Cache* block_cache_compressed, const ImmutableCFOptions& ioptions, const ReadOptions& read_options, BlockBasedTable::CachableEntry* block, uint32_t format_version, const Slice& compression_dict, size_t read_amp_bytes_per_bit, bool is_index, GetContext* get_context) { Status s; Block* compressed_block = nullptr; Cache::Handle* block_cache_compressed_handle = nullptr; Statistics* statistics = ioptions.statistics; // Lookup uncompressed cache first if (block_cache != nullptr) { block->cache_handle = GetEntryFromCache( block_cache, block_cache_key, is_index ? BLOCK_CACHE_INDEX_MISS : BLOCK_CACHE_DATA_MISS, is_index ? BLOCK_CACHE_INDEX_HIT : BLOCK_CACHE_DATA_HIT, get_context ? (is_index ? &get_context->get_context_stats_.num_cache_index_miss : &get_context->get_context_stats_.num_cache_data_miss) : nullptr, get_context ? (is_index ? &get_context->get_context_stats_.num_cache_index_hit : &get_context->get_context_stats_.num_cache_data_hit) : nullptr, statistics, get_context); if (block->cache_handle != nullptr) { block->value = reinterpret_cast(block_cache->Value(block->cache_handle)); return s; } } // If not found, search from the compressed block cache. assert(block->cache_handle == nullptr && block->value == nullptr); if (block_cache_compressed == nullptr) { return s; } assert(!compressed_block_cache_key.empty()); block_cache_compressed_handle = block_cache_compressed->Lookup(compressed_block_cache_key); // if we found in the compressed cache, then uncompress and insert into // uncompressed cache if (block_cache_compressed_handle == nullptr) { RecordTick(statistics, BLOCK_CACHE_COMPRESSED_MISS); return s; } // found compressed block RecordTick(statistics, BLOCK_CACHE_COMPRESSED_HIT); compressed_block = reinterpret_cast( block_cache_compressed->Value(block_cache_compressed_handle)); assert(compressed_block->compression_type() != kNoCompression); // Retrieve the uncompressed contents into a new buffer BlockContents contents; UncompressionContext uncompresssion_ctx(compressed_block->compression_type(), compression_dict); s = UncompressBlockContents(uncompresssion_ctx, compressed_block->data(), compressed_block->size(), &contents, format_version, ioptions); // Insert uncompressed block into block cache if (s.ok()) { block->value = new Block(std::move(contents), compressed_block->global_seqno(), read_amp_bytes_per_bit, statistics); // uncompressed block assert(block->value->compression_type() == kNoCompression); if (block_cache != nullptr && block->value->cachable() && read_options.fill_cache) { size_t charge = block->value->ApproximateMemoryUsage(); s = block_cache->Insert(block_cache_key, block->value, charge, &DeleteCachedEntry, &(block->cache_handle)); block_cache->TEST_mark_as_data_block(block_cache_key, charge); if (s.ok()) { if (get_context != nullptr) { get_context->get_context_stats_.num_cache_add++; get_context->get_context_stats_.num_cache_bytes_write += charge; } else { RecordTick(statistics, BLOCK_CACHE_ADD); RecordTick(statistics, BLOCK_CACHE_BYTES_WRITE, charge); } if (is_index) { if (get_context != nullptr) { get_context->get_context_stats_.num_cache_index_add++; get_context->get_context_stats_.num_cache_index_bytes_insert += charge; } else { RecordTick(statistics, BLOCK_CACHE_INDEX_ADD); RecordTick(statistics, BLOCK_CACHE_INDEX_BYTES_INSERT, charge); } } else { if (get_context != nullptr) { get_context->get_context_stats_.num_cache_data_add++; get_context->get_context_stats_.num_cache_data_bytes_insert += charge; } else { RecordTick(statistics, BLOCK_CACHE_DATA_ADD); RecordTick(statistics, BLOCK_CACHE_DATA_BYTES_INSERT, charge); } } } else { RecordTick(statistics, BLOCK_CACHE_ADD_FAILURES); delete block->value; block->value = nullptr; } } } // Release hold on compressed cache entry block_cache_compressed->Release(block_cache_compressed_handle); return s; } Status BlockBasedTable::PutDataBlockToCache( const Slice& block_cache_key, const Slice& compressed_block_cache_key, Cache* block_cache, Cache* block_cache_compressed, const ReadOptions& /*read_options*/, const ImmutableCFOptions& ioptions, CachableEntry* block, Block* raw_block, uint32_t format_version, const Slice& compression_dict, size_t read_amp_bytes_per_bit, bool is_index, Cache::Priority priority, GetContext* get_context) { assert(raw_block->compression_type() == kNoCompression || block_cache_compressed != nullptr); Status s; // Retrieve the uncompressed contents into a new buffer BlockContents contents; Statistics* statistics = ioptions.statistics; if (raw_block->compression_type() != kNoCompression) { UncompressionContext uncompression_ctx(raw_block->compression_type(), compression_dict); s = UncompressBlockContents(uncompression_ctx, raw_block->data(), raw_block->size(), &contents, format_version, ioptions); } if (!s.ok()) { delete raw_block; return s; } if (raw_block->compression_type() != kNoCompression) { block->value = new Block(std::move(contents), raw_block->global_seqno(), read_amp_bytes_per_bit, statistics); // uncompressed block } else { block->value = raw_block; raw_block = nullptr; } // Insert compressed block into compressed block cache. // Release the hold on the compressed cache entry immediately. if (block_cache_compressed != nullptr && raw_block != nullptr && raw_block->cachable()) { s = block_cache_compressed->Insert(compressed_block_cache_key, raw_block, raw_block->ApproximateMemoryUsage(), &DeleteCachedEntry); if (s.ok()) { // Avoid the following code to delete this cached block. raw_block = nullptr; RecordTick(statistics, BLOCK_CACHE_COMPRESSED_ADD); } else { RecordTick(statistics, BLOCK_CACHE_COMPRESSED_ADD_FAILURES); } } delete raw_block; // insert into uncompressed block cache assert((block->value->compression_type() == kNoCompression)); if (block_cache != nullptr && block->value->cachable()) { size_t charge = block->value->ApproximateMemoryUsage(); s = block_cache->Insert(block_cache_key, block->value, charge, &DeleteCachedEntry, &(block->cache_handle), priority); block_cache->TEST_mark_as_data_block(block_cache_key, charge); if (s.ok()) { assert(block->cache_handle != nullptr); if (get_context != nullptr) { get_context->get_context_stats_.num_cache_add++; get_context->get_context_stats_.num_cache_bytes_write += charge; } else { RecordTick(statistics, BLOCK_CACHE_ADD); RecordTick(statistics, BLOCK_CACHE_BYTES_WRITE, charge); } if (is_index) { if (get_context != nullptr) { get_context->get_context_stats_.num_cache_index_add++; get_context->get_context_stats_.num_cache_index_bytes_insert += charge; } else { RecordTick(statistics, BLOCK_CACHE_INDEX_ADD); RecordTick(statistics, BLOCK_CACHE_INDEX_BYTES_INSERT, charge); } } else { if (get_context != nullptr) { get_context->get_context_stats_.num_cache_data_add++; get_context->get_context_stats_.num_cache_data_bytes_insert += charge; } else { RecordTick(statistics, BLOCK_CACHE_DATA_ADD); RecordTick(statistics, BLOCK_CACHE_DATA_BYTES_INSERT, charge); } } assert(reinterpret_cast( block_cache->Value(block->cache_handle)) == block->value); } else { RecordTick(statistics, BLOCK_CACHE_ADD_FAILURES); delete block->value; block->value = nullptr; } } return s; } FilterBlockReader* BlockBasedTable::ReadFilter( FilePrefetchBuffer* prefetch_buffer, const BlockHandle& filter_handle, const bool is_a_filter_partition, const SliceTransform* prefix_extractor) const { auto& rep = rep_; // TODO: We might want to unify with ReadBlockFromFile() if we start // requiring checksum verification in Table::Open. if (rep->filter_type == Rep::FilterType::kNoFilter) { return nullptr; } BlockContents block; Slice dummy_comp_dict; BlockFetcher block_fetcher(rep->file.get(), prefetch_buffer, rep->footer, ReadOptions(), filter_handle, &block, rep->ioptions, false /* decompress */, dummy_comp_dict, rep->persistent_cache_options); Status s = block_fetcher.ReadBlockContents(); if (!s.ok()) { // Error reading the block return nullptr; } assert(rep->filter_policy); auto filter_type = rep->filter_type; if (rep->filter_type == Rep::FilterType::kPartitionedFilter && is_a_filter_partition) { filter_type = Rep::FilterType::kFullFilter; } switch (filter_type) { case Rep::FilterType::kPartitionedFilter: { return new PartitionedFilterBlockReader( rep->prefix_filtering ? prefix_extractor : nullptr, rep->whole_key_filtering, std::move(block), nullptr, rep->ioptions.statistics, rep->internal_comparator, this, rep_->table_properties == nullptr || rep_->table_properties->index_key_is_user_key == 0, rep_->table_properties == nullptr || rep_->table_properties->index_value_is_delta_encoded == 0); } case Rep::FilterType::kBlockFilter: return new BlockBasedFilterBlockReader( rep->prefix_filtering ? prefix_extractor : nullptr, rep->table_options, rep->whole_key_filtering, std::move(block), rep->ioptions.statistics); case Rep::FilterType::kFullFilter: { auto filter_bits_reader = rep->filter_policy->GetFilterBitsReader(block.data); assert(filter_bits_reader != nullptr); return new FullFilterBlockReader( rep->prefix_filtering ? prefix_extractor : nullptr, rep->whole_key_filtering, std::move(block), filter_bits_reader, rep->ioptions.statistics); } default: // filter_type is either kNoFilter (exited the function at the first if), // or it must be covered in this switch block assert(false); return nullptr; } } BlockBasedTable::CachableEntry BlockBasedTable::GetFilter( const SliceTransform* prefix_extractor, FilePrefetchBuffer* prefetch_buffer, bool no_io, GetContext* get_context) const { const BlockHandle& filter_blk_handle = rep_->filter_handle; const bool is_a_filter_partition = true; return GetFilter(prefetch_buffer, filter_blk_handle, !is_a_filter_partition, no_io, get_context, prefix_extractor); } BlockBasedTable::CachableEntry BlockBasedTable::GetFilter( FilePrefetchBuffer* prefetch_buffer, const BlockHandle& filter_blk_handle, const bool is_a_filter_partition, bool no_io, GetContext* get_context, const SliceTransform* prefix_extractor) const { // If cache_index_and_filter_blocks is false, filter should be pre-populated. // We will return rep_->filter anyway. rep_->filter can be nullptr if filter // read fails at Open() time. We don't want to reload again since it will // most probably fail again. if (!is_a_filter_partition && !rep_->table_options.cache_index_and_filter_blocks) { return {rep_->filter.get(), nullptr /* cache handle */}; } Cache* block_cache = rep_->table_options.block_cache.get(); if (rep_->filter_policy == nullptr /* do not use filter */ || block_cache == nullptr /* no block cache at all */) { return {nullptr /* filter */, nullptr /* cache handle */}; } if (!is_a_filter_partition && rep_->filter_entry.IsSet()) { return rep_->filter_entry; } PERF_TIMER_GUARD(read_filter_block_nanos); // Fetching from the cache char cache_key[kMaxCacheKeyPrefixSize + kMaxVarint64Length]; auto key = GetCacheKey(rep_->cache_key_prefix, rep_->cache_key_prefix_size, filter_blk_handle, cache_key); Statistics* statistics = rep_->ioptions.statistics; auto cache_handle = GetEntryFromCache( block_cache, key, BLOCK_CACHE_FILTER_MISS, BLOCK_CACHE_FILTER_HIT, get_context ? &get_context->get_context_stats_.num_cache_filter_miss : nullptr, get_context ? &get_context->get_context_stats_.num_cache_filter_hit : nullptr, statistics, get_context); FilterBlockReader* filter = nullptr; if (cache_handle != nullptr) { filter = reinterpret_cast( block_cache->Value(cache_handle)); } else if (no_io) { // Do not invoke any io. return CachableEntry(); } else { filter = ReadFilter(prefetch_buffer, filter_blk_handle, is_a_filter_partition, prefix_extractor); if (filter != nullptr) { size_t usage = filter->ApproximateMemoryUsage(); Status s = block_cache->Insert( key, filter, usage, &DeleteCachedFilterEntry, &cache_handle, rep_->table_options.cache_index_and_filter_blocks_with_high_priority ? Cache::Priority::HIGH : Cache::Priority::LOW); if (s.ok()) { if (get_context != nullptr) { get_context->get_context_stats_.num_cache_add++; get_context->get_context_stats_.num_cache_bytes_write += usage; get_context->get_context_stats_.num_cache_filter_add++; get_context->get_context_stats_.num_cache_filter_bytes_insert += usage; } else { RecordTick(statistics, BLOCK_CACHE_ADD); RecordTick(statistics, BLOCK_CACHE_BYTES_WRITE, usage); RecordTick(statistics, BLOCK_CACHE_FILTER_ADD); RecordTick(statistics, BLOCK_CACHE_FILTER_BYTES_INSERT, usage); } } else { RecordTick(statistics, BLOCK_CACHE_ADD_FAILURES); delete filter; return CachableEntry(); } } } return { filter, cache_handle }; } // disable_prefix_seek should be set to true when prefix_extractor found in SST // differs from the one in mutable_cf_options and index type is HashBasedIndex InternalIteratorBase* BlockBasedTable::NewIndexIterator( const ReadOptions& read_options, bool disable_prefix_seek, IndexBlockIter* input_iter, CachableEntry* index_entry, GetContext* get_context) { // index reader has already been pre-populated. if (rep_->index_reader) { return rep_->index_reader->NewIterator( input_iter, read_options.total_order_seek || disable_prefix_seek, read_options.fill_cache); } // we have a pinned index block if (rep_->index_entry.IsSet()) { return rep_->index_entry.value->NewIterator( input_iter, read_options.total_order_seek || disable_prefix_seek, read_options.fill_cache); } PERF_TIMER_GUARD(read_index_block_nanos); const bool no_io = read_options.read_tier == kBlockCacheTier; Cache* block_cache = rep_->table_options.block_cache.get(); char cache_key[kMaxCacheKeyPrefixSize + kMaxVarint64Length]; auto key = GetCacheKeyFromOffset(rep_->cache_key_prefix, rep_->cache_key_prefix_size, rep_->dummy_index_reader_offset, cache_key); Statistics* statistics = rep_->ioptions.statistics; auto cache_handle = GetEntryFromCache( block_cache, key, BLOCK_CACHE_INDEX_MISS, BLOCK_CACHE_INDEX_HIT, get_context ? &get_context->get_context_stats_.num_cache_index_miss : nullptr, get_context ? &get_context->get_context_stats_.num_cache_index_hit : nullptr, statistics, get_context); if (cache_handle == nullptr && no_io) { if (input_iter != nullptr) { input_iter->Invalidate(Status::Incomplete("no blocking io")); return input_iter; } else { return NewErrorInternalIterator( Status::Incomplete("no blocking io")); } } IndexReader* index_reader = nullptr; if (cache_handle != nullptr) { index_reader = reinterpret_cast(block_cache->Value(cache_handle)); } else { // Create index reader and put it in the cache. Status s; TEST_SYNC_POINT("BlockBasedTable::NewIndexIterator::thread2:2"); s = CreateIndexReader(nullptr /* prefetch_buffer */, &index_reader); TEST_SYNC_POINT("BlockBasedTable::NewIndexIterator::thread1:1"); TEST_SYNC_POINT("BlockBasedTable::NewIndexIterator::thread2:3"); TEST_SYNC_POINT("BlockBasedTable::NewIndexIterator::thread1:4"); size_t charge = 0; if (s.ok()) { assert(index_reader != nullptr); charge = index_reader->ApproximateMemoryUsage(); s = block_cache->Insert( key, index_reader, charge, &DeleteCachedIndexEntry, &cache_handle, rep_->table_options.cache_index_and_filter_blocks_with_high_priority ? Cache::Priority::HIGH : Cache::Priority::LOW); } if (s.ok()) { if (get_context != nullptr) { get_context->get_context_stats_.num_cache_add++; get_context->get_context_stats_.num_cache_bytes_write += charge; } else { RecordTick(statistics, BLOCK_CACHE_ADD); RecordTick(statistics, BLOCK_CACHE_BYTES_WRITE, charge); } RecordTick(statistics, BLOCK_CACHE_INDEX_ADD); RecordTick(statistics, BLOCK_CACHE_INDEX_BYTES_INSERT, charge); } else { if (index_reader != nullptr) { delete index_reader; } RecordTick(statistics, BLOCK_CACHE_ADD_FAILURES); // make sure if something goes wrong, index_reader shall remain intact. if (input_iter != nullptr) { input_iter->Invalidate(s); return input_iter; } else { return NewErrorInternalIterator(s); } } } assert(cache_handle); auto* iter = index_reader->NewIterator( input_iter, read_options.total_order_seek || disable_prefix_seek); // the caller would like to take ownership of the index block // don't call RegisterCleanup() in this case, the caller will take care of it if (index_entry != nullptr) { *index_entry = {index_reader, cache_handle}; } else { iter->RegisterCleanup(&ReleaseCachedEntry, block_cache, cache_handle); } return iter; } // Convert an index iterator value (i.e., an encoded BlockHandle) // into an iterator over the contents of the corresponding block. // If input_iter is null, new a iterator // If input_iter is not null, update this iter and return it template TBlockIter* BlockBasedTable::NewDataBlockIterator( Rep* rep, const ReadOptions& ro, const BlockHandle& handle, TBlockIter* input_iter, bool is_index, bool key_includes_seq, bool index_key_is_full, GetContext* get_context, Status s, FilePrefetchBuffer* prefetch_buffer) { PERF_TIMER_GUARD(new_table_block_iter_nanos); const bool no_io = (ro.read_tier == kBlockCacheTier); Cache* block_cache = rep->table_options.block_cache.get(); CachableEntry block; Slice compression_dict; if (s.ok()) { if (rep->compression_dict_block) { compression_dict = rep->compression_dict_block->data; } s = MaybeLoadDataBlockToCache(prefetch_buffer, rep, ro, handle, compression_dict, &block, is_index, get_context); } TBlockIter* iter; if (input_iter != nullptr) { iter = input_iter; } else { iter = new TBlockIter; } // Didn't get any data from block caches. if (s.ok() && block.value == nullptr) { if (no_io) { // Could not read from block_cache and can't do IO iter->Invalidate(Status::Incomplete("no blocking io")); return iter; } std::unique_ptr block_value; { StopWatch sw(rep->ioptions.env, rep->ioptions.statistics, READ_BLOCK_GET_MICROS); s = ReadBlockFromFile( rep->file.get(), prefetch_buffer, rep->footer, ro, handle, &block_value, rep->ioptions, rep->blocks_maybe_compressed, compression_dict, rep->persistent_cache_options, is_index ? kDisableGlobalSequenceNumber : rep->global_seqno, rep->table_options.read_amp_bytes_per_bit, rep->immortal_table); } if (s.ok()) { block.value = block_value.release(); } } if (s.ok()) { assert(block.value != nullptr); const bool kTotalOrderSeek = true; iter = block.value->NewIterator( &rep->internal_comparator, rep->internal_comparator.user_comparator(), iter, rep->ioptions.statistics, kTotalOrderSeek, key_includes_seq, index_key_is_full); if (block.cache_handle != nullptr) { iter->RegisterCleanup(&ReleaseCachedEntry, block_cache, block.cache_handle); } else { if (!ro.fill_cache && rep->cache_key_prefix_size != 0) { // insert a dummy record to block cache to track the memory usage Cache::Handle* cache_handle; // There are two other types of cache keys: 1) SST cache key added in // `MaybeLoadDataBlockToCache` 2) dummy cache key added in // `write_buffer_manager`. Use longer prefix (41 bytes) to differentiate // from SST cache key(31 bytes), and use non-zero prefix to // differentiate from `write_buffer_manager` const size_t kExtraCacheKeyPrefix = kMaxVarint64Length * 4 + 1; char cache_key[kExtraCacheKeyPrefix + kMaxVarint64Length]; // Prefix: use rep->cache_key_prefix padded by 0s memset(cache_key, 0, kExtraCacheKeyPrefix + kMaxVarint64Length); assert(rep->cache_key_prefix_size != 0); assert(rep->cache_key_prefix_size <= kExtraCacheKeyPrefix); memcpy(cache_key, rep->cache_key_prefix, rep->cache_key_prefix_size); char* end = EncodeVarint64(cache_key + kExtraCacheKeyPrefix, next_cache_key_id_++); assert(end - cache_key <= static_cast(kExtraCacheKeyPrefix + kMaxVarint64Length)); Slice unique_key = Slice(cache_key, static_cast(end - cache_key)); s = block_cache->Insert(unique_key, nullptr, block.value->ApproximateMemoryUsage(), nullptr, &cache_handle); if (s.ok()) { if (cache_handle != nullptr) { iter->RegisterCleanup(&ForceReleaseCachedEntry, block_cache, cache_handle); } } } iter->RegisterCleanup(&DeleteHeldResource, block.value, nullptr); } } else { assert(block.value == nullptr); iter->Invalidate(s); } return iter; } Status BlockBasedTable::MaybeLoadDataBlockToCache( FilePrefetchBuffer* prefetch_buffer, Rep* rep, const ReadOptions& ro, const BlockHandle& handle, Slice compression_dict, CachableEntry* block_entry, bool is_index, GetContext* get_context) { assert(block_entry != nullptr); const bool no_io = (ro.read_tier == kBlockCacheTier); Cache* block_cache = rep->table_options.block_cache.get(); Cache* block_cache_compressed = rep->table_options.block_cache_compressed.get(); // If either block cache is enabled, we'll try to read from it. Status s; if (block_cache != nullptr || block_cache_compressed != nullptr) { Statistics* statistics = rep->ioptions.statistics; char cache_key[kMaxCacheKeyPrefixSize + kMaxVarint64Length]; char compressed_cache_key[kMaxCacheKeyPrefixSize + kMaxVarint64Length]; Slice key, /* key to the block cache */ ckey /* key to the compressed block cache */; // create key for block cache if (block_cache != nullptr) { key = GetCacheKey(rep->cache_key_prefix, rep->cache_key_prefix_size, handle, cache_key); } if (block_cache_compressed != nullptr) { ckey = GetCacheKey(rep->compressed_cache_key_prefix, rep->compressed_cache_key_prefix_size, handle, compressed_cache_key); } s = GetDataBlockFromCache( key, ckey, block_cache, block_cache_compressed, rep->ioptions, ro, block_entry, rep->table_options.format_version, compression_dict, rep->table_options.read_amp_bytes_per_bit, is_index, get_context); if (block_entry->value == nullptr && !no_io && ro.fill_cache) { std::unique_ptr raw_block; { StopWatch sw(rep->ioptions.env, statistics, READ_BLOCK_GET_MICROS); s = ReadBlockFromFile( rep->file.get(), prefetch_buffer, rep->footer, ro, handle, &raw_block, rep->ioptions, block_cache_compressed == nullptr && rep->blocks_maybe_compressed, compression_dict, rep->persistent_cache_options, is_index ? kDisableGlobalSequenceNumber : rep->global_seqno, rep->table_options.read_amp_bytes_per_bit, rep->immortal_table); } if (s.ok()) { s = PutDataBlockToCache( key, ckey, block_cache, block_cache_compressed, ro, rep->ioptions, block_entry, raw_block.release(), rep->table_options.format_version, compression_dict, rep->table_options.read_amp_bytes_per_bit, is_index, is_index && rep->table_options .cache_index_and_filter_blocks_with_high_priority ? Cache::Priority::HIGH : Cache::Priority::LOW, get_context); } } } assert(s.ok() || block_entry->value == nullptr); return s; } BlockBasedTable::PartitionedIndexIteratorState::PartitionedIndexIteratorState( BlockBasedTable* table, std::unordered_map>* block_map, bool index_key_includes_seq, bool index_key_is_full) : table_(table), block_map_(block_map), index_key_includes_seq_(index_key_includes_seq), index_key_is_full_(index_key_is_full) {} template const size_t BlockBasedTableIterator::kMaxReadaheadSize = 256 * 1024; InternalIteratorBase* BlockBasedTable::PartitionedIndexIteratorState::NewSecondaryIterator( const BlockHandle& handle) { // Return a block iterator on the index partition auto rep = table_->get_rep(); auto block = block_map_->find(handle.offset()); // This is a possible scenario since block cache might not have had space // for the partition if (block != block_map_->end()) { PERF_COUNTER_ADD(block_cache_hit_count, 1); RecordTick(rep->ioptions.statistics, BLOCK_CACHE_INDEX_HIT); RecordTick(rep->ioptions.statistics, BLOCK_CACHE_HIT); Cache* block_cache = rep->table_options.block_cache.get(); assert(block_cache); RecordTick(rep->ioptions.statistics, BLOCK_CACHE_BYTES_READ, block_cache->GetUsage(block->second.cache_handle)); Statistics* kNullStats = nullptr; return block->second.value->NewIterator( &rep->internal_comparator, rep->internal_comparator.user_comparator(), nullptr, kNullStats, true, index_key_includes_seq_, index_key_is_full_); } // Create an empty iterator return new IndexBlockIter(); } // This will be broken if the user specifies an unusual implementation // of Options.comparator, or if the user specifies an unusual // definition of prefixes in BlockBasedTableOptions.filter_policy. // In particular, we require the following three properties: // // 1) key.starts_with(prefix(key)) // 2) Compare(prefix(key), key) <= 0. // 3) If Compare(key1, key2) <= 0, then Compare(prefix(key1), prefix(key2)) <= 0 // // Otherwise, this method guarantees no I/O will be incurred. // // REQUIRES: this method shouldn't be called while the DB lock is held. bool BlockBasedTable::PrefixMayMatch( const Slice& internal_key, const ReadOptions& read_options, const SliceTransform* options_prefix_extractor, const bool need_upper_bound_check) { if (!rep_->filter_policy) { return true; } const SliceTransform* prefix_extractor; if (rep_->table_prefix_extractor == nullptr) { if (need_upper_bound_check) { return true; } prefix_extractor = options_prefix_extractor; } else { prefix_extractor = rep_->table_prefix_extractor.get(); } auto user_key = ExtractUserKey(internal_key); if (!prefix_extractor->InDomain(user_key)) { return true; } bool may_match = true; Status s; // First, try check with full filter auto filter_entry = GetFilter(prefix_extractor); FilterBlockReader* filter = filter_entry.value; bool filter_checked = true; if (filter != nullptr) { if (!filter->IsBlockBased()) { const Slice* const const_ikey_ptr = &internal_key; may_match = filter->RangeMayExist( read_options.iterate_upper_bound, user_key, prefix_extractor, rep_->internal_comparator.user_comparator(), const_ikey_ptr, &filter_checked, need_upper_bound_check); } else { // if prefix_extractor changed for block based filter, skip filter if (need_upper_bound_check) { if (!rep_->filter_entry.IsSet()) { filter_entry.Release(rep_->table_options.block_cache.get()); } return true; } auto prefix = prefix_extractor->Transform(user_key); InternalKey internal_key_prefix(prefix, kMaxSequenceNumber, kTypeValue); auto internal_prefix = internal_key_prefix.Encode(); // To prevent any io operation in this method, we set `read_tier` to make // sure we always read index or filter only when they have already been // loaded to memory. ReadOptions no_io_read_options; no_io_read_options.read_tier = kBlockCacheTier; // Then, try find it within each block // we already know prefix_extractor and prefix_extractor_name must match // because `CheckPrefixMayMatch` first checks `check_filter_ == true` unique_ptr> iiter( NewIndexIterator(no_io_read_options, /* need_upper_bound_check */ false)); iiter->Seek(internal_prefix); if (!iiter->Valid()) { // we're past end of file // if it's incomplete, it means that we avoided I/O // and we're not really sure that we're past the end // of the file may_match = iiter->status().IsIncomplete(); } else if ((rep_->table_properties && rep_->table_properties->index_key_is_user_key ? iiter->key() : ExtractUserKey(iiter->key())) .starts_with(ExtractUserKey(internal_prefix))) { // we need to check for this subtle case because our only // guarantee is that "the key is a string >= last key in that data // block" according to the doc/table_format.txt spec. // // Suppose iiter->key() starts with the desired prefix; it is not // necessarily the case that the corresponding data block will // contain the prefix, since iiter->key() need not be in the // block. However, the next data block may contain the prefix, so // we return true to play it safe. may_match = true; } else if (filter->IsBlockBased()) { // iiter->key() does NOT start with the desired prefix. Because // Seek() finds the first key that is >= the seek target, this // means that iiter->key() > prefix. Thus, any data blocks coming // after the data block corresponding to iiter->key() cannot // possibly contain the key. Thus, the corresponding data block // is the only on could potentially contain the prefix. BlockHandle handle = iiter->value(); may_match = filter->PrefixMayMatch(prefix, prefix_extractor, handle.offset()); } } } if (filter_checked) { Statistics* statistics = rep_->ioptions.statistics; RecordTick(statistics, BLOOM_FILTER_PREFIX_CHECKED); if (!may_match) { RecordTick(statistics, BLOOM_FILTER_PREFIX_USEFUL); } } // if rep_->filter_entry is not set, we should call Release(); otherwise // don't call, in this case we have a local copy in rep_->filter_entry, // it's pinned to the cache and will be released in the destructor if (!rep_->filter_entry.IsSet()) { filter_entry.Release(rep_->table_options.block_cache.get()); } return may_match; } template void BlockBasedTableIterator::Seek(const Slice& target) { is_out_of_bound_ = false; if (!CheckPrefixMayMatch(target)) { ResetDataIter(); return; } SavePrevIndexValue(); index_iter_->Seek(target); if (!index_iter_->Valid()) { ResetDataIter(); return; } InitDataBlock(); block_iter_.Seek(target); FindKeyForward(); assert( !block_iter_.Valid() || (key_includes_seq_ && icomp_.Compare(target, block_iter_.key()) <= 0) || (!key_includes_seq_ && icomp_.user_comparator()->Compare(ExtractUserKey(target), block_iter_.key()) <= 0)); } template void BlockBasedTableIterator::SeekForPrev( const Slice& target) { is_out_of_bound_ = false; if (!CheckPrefixMayMatch(target)) { ResetDataIter(); return; } SavePrevIndexValue(); // Call Seek() rather than SeekForPrev() in the index block, because the // target data block will likely to contain the position for `target`, the // same as Seek(), rather than than before. // For example, if we have three data blocks, each containing two keys: // [2, 4] [6, 8] [10, 12] // (the keys in the index block would be [4, 8, 12]) // and the user calls SeekForPrev(7), we need to go to the second block, // just like if they call Seek(7). // The only case where the block is difference is when they seek to a position // in the boundary. For example, if they SeekForPrev(5), we should go to the // first block, rather than the second. However, we don't have the information // to distinguish the two unless we read the second block. In this case, we'll // end up with reading two blocks. index_iter_->Seek(target); if (!index_iter_->Valid()) { index_iter_->SeekToLast(); if (!index_iter_->Valid()) { ResetDataIter(); block_iter_points_to_real_block_ = false; return; } } InitDataBlock(); block_iter_.SeekForPrev(target); FindKeyBackward(); assert(!block_iter_.Valid() || icomp_.Compare(target, block_iter_.key()) >= 0); } template void BlockBasedTableIterator::SeekToFirst() { is_out_of_bound_ = false; SavePrevIndexValue(); index_iter_->SeekToFirst(); if (!index_iter_->Valid()) { ResetDataIter(); return; } InitDataBlock(); block_iter_.SeekToFirst(); FindKeyForward(); } template void BlockBasedTableIterator::SeekToLast() { is_out_of_bound_ = false; SavePrevIndexValue(); index_iter_->SeekToLast(); if (!index_iter_->Valid()) { ResetDataIter(); return; } InitDataBlock(); block_iter_.SeekToLast(); FindKeyBackward(); } template void BlockBasedTableIterator::Next() { assert(block_iter_points_to_real_block_); block_iter_.Next(); FindKeyForward(); } template void BlockBasedTableIterator::Prev() { assert(block_iter_points_to_real_block_); block_iter_.Prev(); FindKeyBackward(); } template void BlockBasedTableIterator::InitDataBlock() { BlockHandle data_block_handle = index_iter_->value(); if (!block_iter_points_to_real_block_ || data_block_handle.offset() != prev_index_value_.offset() || // if previous attempt of reading the block missed cache, try again block_iter_.status().IsIncomplete()) { if (block_iter_points_to_real_block_) { ResetDataIter(); } auto* rep = table_->get_rep(); // Automatically prefetch additional data when a range scan (iterator) does // more than 2 sequential IOs. This is enabled only for user reads and when // ReadOptions.readahead_size is 0. if (!for_compaction_ && read_options_.readahead_size == 0) { num_file_reads_++; if (num_file_reads_ > 2) { if (!rep->file->use_direct_io() && (data_block_handle.offset() + static_cast(data_block_handle.size()) + kBlockTrailerSize > readahead_limit_)) { // Buffered I/O // Discarding the return status of Prefetch calls intentionally, as we // can fallback to reading from disk if Prefetch fails. rep->file->Prefetch(data_block_handle.offset(), readahead_size_); readahead_limit_ = static_cast(data_block_handle.offset() + readahead_size_); // Keep exponentially increasing readahead size until // kMaxReadaheadSize. readahead_size_ = std::min(kMaxReadaheadSize, readahead_size_ * 2); } else if (rep->file->use_direct_io() && !prefetch_buffer_) { // Direct I/O // Let FilePrefetchBuffer take care of the readahead. prefetch_buffer_.reset(new FilePrefetchBuffer( rep->file.get(), kInitReadaheadSize, kMaxReadaheadSize)); } } } Status s; BlockBasedTable::NewDataBlockIterator( rep, read_options_, data_block_handle, &block_iter_, is_index_, key_includes_seq_, index_key_is_full_, /* get_context */ nullptr, s, prefetch_buffer_.get()); block_iter_points_to_real_block_ = true; } } template void BlockBasedTableIterator::FindKeyForward() { assert(!is_out_of_bound_); // TODO the while loop inherits from two-level-iterator. We don't know // whether a block can be empty so it can be replaced by an "if". while (!block_iter_.Valid()) { if (!block_iter_.status().ok()) { return; } ResetDataIter(); // We used to check the current index key for upperbound. // It will only save a data reading for a small percentage of use cases, // so for code simplicity, we removed it. We can add it back if there is a // significnat performance regression. index_iter_->Next(); if (index_iter_->Valid()) { InitDataBlock(); block_iter_.SeekToFirst(); } else { return; } } // Check upper bound on the current key bool reached_upper_bound = (read_options_.iterate_upper_bound != nullptr && block_iter_points_to_real_block_ && block_iter_.Valid() && icomp_.user_comparator()->Compare(ExtractUserKey(block_iter_.key()), *read_options_.iterate_upper_bound) >= 0); TEST_SYNC_POINT_CALLBACK( "BlockBasedTable::BlockEntryIteratorState::KeyReachedUpperBound", &reached_upper_bound); if (reached_upper_bound) { is_out_of_bound_ = true; return; } } template void BlockBasedTableIterator::FindKeyBackward() { assert(!is_out_of_bound_); while (!block_iter_.Valid()) { if (!block_iter_.status().ok()) { return; } ResetDataIter(); index_iter_->Prev(); if (index_iter_->Valid()) { InitDataBlock(); block_iter_.SeekToLast(); } else { return; } } // We could have check lower bound here too, but we opt not to do it for // code simplicity. } InternalIterator* BlockBasedTable::NewIterator( const ReadOptions& read_options, const SliceTransform* prefix_extractor, Arena* arena, bool skip_filters, bool for_compaction) { bool need_upper_bound_check = PrefixExtractorChanged(rep_->table_properties.get(), prefix_extractor); const bool kIsNotIndex = false; if (arena == nullptr) { return new BlockBasedTableIterator( this, read_options, rep_->internal_comparator, NewIndexIterator( read_options, need_upper_bound_check && rep_->index_type == BlockBasedTableOptions::kHashSearch), !skip_filters && !read_options.total_order_seek && prefix_extractor != nullptr, need_upper_bound_check, prefix_extractor, kIsNotIndex, true /*key_includes_seq*/, for_compaction); } else { auto* mem = arena->AllocateAligned(sizeof(BlockBasedTableIterator)); return new (mem) BlockBasedTableIterator( this, read_options, rep_->internal_comparator, NewIndexIterator(read_options, need_upper_bound_check), !skip_filters && !read_options.total_order_seek && prefix_extractor != nullptr, need_upper_bound_check, prefix_extractor, kIsNotIndex, true /*key_includes_seq*/, for_compaction); } } InternalIterator* BlockBasedTable::NewRangeTombstoneIterator( const ReadOptions& read_options) { if (rep_->range_del_handle.IsNull()) { // The block didn't exist, nullptr indicates no range tombstones. return nullptr; } if (rep_->range_del_entry.cache_handle != nullptr) { // We have a handle to an uncompressed block cache entry that's held for // this table's lifetime. Increment its refcount before returning an // iterator based on it since the returned iterator may outlive this table // reader. assert(rep_->range_del_entry.value != nullptr); Cache* block_cache = rep_->table_options.block_cache.get(); assert(block_cache != nullptr); if (block_cache->Ref(rep_->range_del_entry.cache_handle)) { auto iter = rep_->range_del_entry.value->NewIterator( &rep_->internal_comparator, rep_->internal_comparator.user_comparator()); iter->RegisterCleanup(&ReleaseCachedEntry, block_cache, rep_->range_del_entry.cache_handle); return iter; } } // The meta-block exists but isn't in uncompressed block cache (maybe // because it is disabled), so go through the full lookup process. return NewDataBlockIterator(rep_, read_options, rep_->range_del_handle); } bool BlockBasedTable::FullFilterKeyMayMatch( const ReadOptions& read_options, FilterBlockReader* filter, const Slice& internal_key, const bool no_io, const SliceTransform* prefix_extractor) const { if (filter == nullptr || filter->IsBlockBased()) { return true; } Slice user_key = ExtractUserKey(internal_key); const Slice* const const_ikey_ptr = &internal_key; bool may_match = true; if (filter->whole_key_filtering()) { may_match = filter->KeyMayMatch(user_key, prefix_extractor, kNotValid, no_io, const_ikey_ptr); } else if (!read_options.total_order_seek && prefix_extractor && rep_->table_properties->prefix_extractor_name.compare( prefix_extractor->Name()) == 0 && prefix_extractor->InDomain(user_key) && !filter->PrefixMayMatch(prefix_extractor->Transform(user_key), prefix_extractor, kNotValid, false, const_ikey_ptr)) { may_match = false; } if (may_match) { RecordTick(rep_->ioptions.statistics, BLOOM_FILTER_FULL_POSITIVE); } return may_match; } Status BlockBasedTable::Get(const ReadOptions& read_options, const Slice& key, GetContext* get_context, const SliceTransform* prefix_extractor, bool skip_filters) { assert(key.size() >= 8); // key must be internal key Status s; const bool no_io = read_options.read_tier == kBlockCacheTier; CachableEntry filter_entry; if (!skip_filters) { filter_entry = GetFilter(prefix_extractor, /*prefetch_buffer*/ nullptr, read_options.read_tier == kBlockCacheTier, get_context); } FilterBlockReader* filter = filter_entry.value; // First check the full filter // If full filter not useful, Then go into each block if (!FullFilterKeyMayMatch(read_options, filter, key, no_io, prefix_extractor)) { RecordTick(rep_->ioptions.statistics, BLOOM_FILTER_USEFUL); } else { IndexBlockIter iiter_on_stack; // if prefix_extractor found in block differs from options, disable // BlockPrefixIndex. Only do this check when index_type is kHashSearch. bool need_upper_bound_check = false; if (rep_->index_type == BlockBasedTableOptions::kHashSearch) { need_upper_bound_check = PrefixExtractorChanged( rep_->table_properties.get(), prefix_extractor); } auto iiter = NewIndexIterator(read_options, need_upper_bound_check, &iiter_on_stack, /* index_entry */ nullptr, get_context); std::unique_ptr> iiter_unique_ptr; if (iiter != &iiter_on_stack) { iiter_unique_ptr.reset(iiter); } bool matched = false; // if such user key mathced a key in SST bool done = false; for (iiter->Seek(key); iiter->Valid() && !done; iiter->Next()) { BlockHandle handle = iiter->value(); bool not_exist_in_filter = filter != nullptr && filter->IsBlockBased() == true && !filter->KeyMayMatch(ExtractUserKey(key), prefix_extractor, handle.offset(), no_io); if (not_exist_in_filter) { // Not found // TODO: think about interaction with Merge. If a user key cannot // cross one data block, we should be fine. RecordTick(rep_->ioptions.statistics, BLOOM_FILTER_USEFUL); break; } else { DataBlockIter biter; NewDataBlockIterator( rep_, read_options, iiter->value(), &biter, false, true /* key_includes_seq */, get_context); if (read_options.read_tier == kBlockCacheTier && biter.status().IsIncomplete()) { // couldn't get block from block_cache // Update Saver.state to Found because we are only looking for // whether we can guarantee the key is not there when "no_io" is set get_context->MarkKeyMayExist(); break; } if (!biter.status().ok()) { s = biter.status(); break; } bool may_exist = biter.SeekForGet(key); if (!may_exist) { // HashSeek cannot find the key this block and the the iter is not // the end of the block, i.e. cannot be in the following blocks // either. In this case, the seek_key cannot be found, so we break // from the top level for-loop. break; } // Call the *saver function on each entry/block until it returns false for (; biter.Valid(); biter.Next()) { ParsedInternalKey parsed_key; if (!ParseInternalKey(biter.key(), &parsed_key)) { s = Status::Corruption(Slice()); } if (!get_context->SaveValue( parsed_key, biter.value(), &matched, biter.IsValuePinned() ? &biter : nullptr)) { done = true; break; } } s = biter.status(); } if (done) { // Avoid the extra Next which is expensive in two-level indexes break; } } if (matched && filter != nullptr && !filter->IsBlockBased()) { RecordTick(rep_->ioptions.statistics, BLOOM_FILTER_FULL_TRUE_POSITIVE); } if (s.ok()) { s = iiter->status(); } } // if rep_->filter_entry is not set, we should call Release(); otherwise // don't call, in this case we have a local copy in rep_->filter_entry, // it's pinned to the cache and will be released in the destructor if (!rep_->filter_entry.IsSet()) { filter_entry.Release(rep_->table_options.block_cache.get()); } return s; } Status BlockBasedTable::Prefetch(const Slice* const begin, const Slice* const end) { auto& comparator = rep_->internal_comparator; auto user_comparator = comparator.user_comparator(); // pre-condition if (begin && end && comparator.Compare(*begin, *end) > 0) { return Status::InvalidArgument(*begin, *end); } IndexBlockIter iiter_on_stack; auto iiter = NewIndexIterator(ReadOptions(), false, &iiter_on_stack); std::unique_ptr> iiter_unique_ptr; if (iiter != &iiter_on_stack) { iiter_unique_ptr = std::unique_ptr>(iiter); } if (!iiter->status().ok()) { // error opening index iterator return iiter->status(); } // indicates if we are on the last page that need to be pre-fetched bool prefetching_boundary_page = false; for (begin ? iiter->Seek(*begin) : iiter->SeekToFirst(); iiter->Valid(); iiter->Next()) { BlockHandle block_handle = iiter->value(); const bool is_user_key = rep_->table_properties && rep_->table_properties->index_key_is_user_key > 0; if (end && ((!is_user_key && comparator.Compare(iiter->key(), *end) >= 0) || (is_user_key && user_comparator->Compare(iiter->key(), ExtractUserKey(*end)) >= 0))) { if (prefetching_boundary_page) { break; } // The index entry represents the last key in the data block. // We should load this page into memory as well, but no more prefetching_boundary_page = true; } // Load the block specified by the block_handle into the block cache DataBlockIter biter; NewDataBlockIterator(rep_, ReadOptions(), block_handle, &biter); if (!biter.status().ok()) { // there was an unexpected error while pre-fetching return biter.status(); } } return Status::OK(); } Status BlockBasedTable::VerifyChecksum() { Status s; // Check Meta blocks std::unique_ptr meta; std::unique_ptr meta_iter; s = ReadMetaBlock(rep_, nullptr /* prefetch buffer */, &meta, &meta_iter); if (s.ok()) { s = VerifyChecksumInBlocks(meta_iter.get()); if (!s.ok()) { return s; } } else { return s; } // Check Data blocks IndexBlockIter iiter_on_stack; InternalIteratorBase* iiter = NewIndexIterator(ReadOptions(), false, &iiter_on_stack); std::unique_ptr> iiter_unique_ptr; if (iiter != &iiter_on_stack) { iiter_unique_ptr = std::unique_ptr>(iiter); } if (!iiter->status().ok()) { // error opening index iterator return iiter->status(); } s = VerifyChecksumInBlocks(iiter); return s; } Status BlockBasedTable::VerifyChecksumInBlocks( InternalIteratorBase* index_iter) { Status s; for (index_iter->SeekToFirst(); index_iter->Valid(); index_iter->Next()) { s = index_iter->status(); if (!s.ok()) { break; } BlockHandle handle = index_iter->value(); BlockContents contents; Slice dummy_comp_dict; BlockFetcher block_fetcher(rep_->file.get(), nullptr /* prefetch buffer */, rep_->footer, ReadOptions(), handle, &contents, rep_->ioptions, false /* decompress */, dummy_comp_dict /*compression dict*/, rep_->persistent_cache_options); s = block_fetcher.ReadBlockContents(); if (!s.ok()) { break; } } return s; } Status BlockBasedTable::VerifyChecksumInBlocks( InternalIteratorBase* index_iter) { Status s; for (index_iter->SeekToFirst(); index_iter->Valid(); index_iter->Next()) { s = index_iter->status(); if (!s.ok()) { break; } BlockHandle handle; Slice input = index_iter->value(); s = handle.DecodeFrom(&input); BlockContents contents; Slice dummy_comp_dict; BlockFetcher block_fetcher(rep_->file.get(), nullptr /* prefetch buffer */, rep_->footer, ReadOptions(), handle, &contents, rep_->ioptions, false /* decompress */, dummy_comp_dict /*compression dict*/, rep_->persistent_cache_options); s = block_fetcher.ReadBlockContents(); if (!s.ok()) { break; } } return s; } bool BlockBasedTable::TEST_KeyInCache(const ReadOptions& options, const Slice& key) { std::unique_ptr> iiter( NewIndexIterator(options)); iiter->Seek(key); assert(iiter->Valid()); CachableEntry block; BlockHandle handle = iiter->value(); Cache* block_cache = rep_->table_options.block_cache.get(); assert(block_cache != nullptr); char cache_key_storage[kMaxCacheKeyPrefixSize + kMaxVarint64Length]; Slice cache_key = GetCacheKey(rep_->cache_key_prefix, rep_->cache_key_prefix_size, handle, cache_key_storage); Slice ckey; Status s; s = GetDataBlockFromCache( cache_key, ckey, block_cache, nullptr, rep_->ioptions, options, &block, rep_->table_options.format_version, rep_->compression_dict_block ? rep_->compression_dict_block->data : Slice(), 0 /* read_amp_bytes_per_bit */); assert(s.ok()); bool in_cache = block.value != nullptr; if (in_cache) { ReleaseCachedEntry(block_cache, block.cache_handle); } return in_cache; } BlockBasedTableOptions::IndexType BlockBasedTable::UpdateIndexType() { // Some old version of block-based tables don't have index type present in // table properties. If that's the case we can safely use the kBinarySearch. BlockBasedTableOptions::IndexType index_type_on_file = BlockBasedTableOptions::kBinarySearch; if (rep_->table_properties) { auto& props = rep_->table_properties->user_collected_properties; auto pos = props.find(BlockBasedTablePropertyNames::kIndexType); if (pos != props.end()) { index_type_on_file = static_cast( DecodeFixed32(pos->second.c_str())); // update index_type with the true type rep_->index_type = index_type_on_file; } } return index_type_on_file; } // REQUIRES: The following fields of rep_ should have already been populated: // 1. file // 2. index_handle, // 3. options // 4. internal_comparator // 5. index_type Status BlockBasedTable::CreateIndexReader( FilePrefetchBuffer* prefetch_buffer, IndexReader** index_reader, InternalIterator* preloaded_meta_index_iter, int level) { auto index_type_on_file = UpdateIndexType(); auto file = rep_->file.get(); const InternalKeyComparator* icomparator = &rep_->internal_comparator; const Footer& footer = rep_->footer; // kHashSearch requires non-empty prefix_extractor but bypass checking // prefix_extractor here since we have no access to MutableCFOptions. // Add need_upper_bound_check flag in BlockBasedTable::NewIndexIterator. // If prefix_extractor does not match prefix_extractor_name from table // properties, turn off Hash Index by setting total_order_seek to true switch (index_type_on_file) { case BlockBasedTableOptions::kTwoLevelIndexSearch: { return PartitionIndexReader::Create( this, file, prefetch_buffer, footer, footer.index_handle(), rep_->ioptions, icomparator, index_reader, rep_->persistent_cache_options, level, rep_->table_properties == nullptr || rep_->table_properties->index_key_is_user_key == 0, rep_->table_properties == nullptr || rep_->table_properties->index_value_is_delta_encoded == 0); } case BlockBasedTableOptions::kBinarySearch: { return BinarySearchIndexReader::Create( file, prefetch_buffer, footer, footer.index_handle(), rep_->ioptions, icomparator, index_reader, rep_->persistent_cache_options, rep_->table_properties == nullptr || rep_->table_properties->index_key_is_user_key == 0, rep_->table_properties == nullptr || rep_->table_properties->index_value_is_delta_encoded == 0); } case BlockBasedTableOptions::kHashSearch: { std::unique_ptr meta_guard; std::unique_ptr meta_iter_guard; auto meta_index_iter = preloaded_meta_index_iter; if (meta_index_iter == nullptr) { auto s = ReadMetaBlock(rep_, prefetch_buffer, &meta_guard, &meta_iter_guard); if (!s.ok()) { // we simply fall back to binary search in case there is any // problem with prefix hash index loading. ROCKS_LOG_WARN(rep_->ioptions.info_log, "Unable to read the metaindex block." " Fall back to binary search index."); return BinarySearchIndexReader::Create( file, prefetch_buffer, footer, footer.index_handle(), rep_->ioptions, icomparator, index_reader, rep_->persistent_cache_options, rep_->table_properties == nullptr || rep_->table_properties->index_key_is_user_key == 0, rep_->table_properties == nullptr || rep_->table_properties->index_value_is_delta_encoded == 0); } meta_index_iter = meta_iter_guard.get(); } return HashIndexReader::Create( rep_->internal_prefix_transform.get(), footer, file, prefetch_buffer, rep_->ioptions, icomparator, footer.index_handle(), meta_index_iter, index_reader, rep_->hash_index_allow_collision, rep_->persistent_cache_options, rep_->table_properties == nullptr || rep_->table_properties->index_key_is_user_key == 0, rep_->table_properties == nullptr || rep_->table_properties->index_value_is_delta_encoded == 0); } default: { std::string error_message = "Unrecognized index type: " + ToString(index_type_on_file); return Status::InvalidArgument(error_message.c_str()); } } } uint64_t BlockBasedTable::ApproximateOffsetOf(const Slice& key) { unique_ptr> index_iter( NewIndexIterator(ReadOptions())); index_iter->Seek(key); uint64_t result; if (index_iter->Valid()) { BlockHandle handle = index_iter->value(); result = handle.offset(); } else { // key is past the last key in the file. If table_properties is not // available, approximate the offset by returning the offset of the // metaindex block (which is right near the end of the file). result = 0; if (rep_->table_properties) { result = rep_->table_properties->data_size; } // table_properties is not present in the table. if (result == 0) { result = rep_->footer.metaindex_handle().offset(); } } return result; } bool BlockBasedTable::TEST_filter_block_preloaded() const { return rep_->filter != nullptr; } bool BlockBasedTable::TEST_index_reader_preloaded() const { return rep_->index_reader != nullptr; } Status BlockBasedTable::GetKVPairsFromDataBlocks( std::vector* kv_pair_blocks) { std::unique_ptr> blockhandles_iter( NewIndexIterator(ReadOptions())); Status s = blockhandles_iter->status(); if (!s.ok()) { // Cannot read Index Block return s; } for (blockhandles_iter->SeekToFirst(); blockhandles_iter->Valid(); blockhandles_iter->Next()) { s = blockhandles_iter->status(); if (!s.ok()) { break; } std::unique_ptr datablock_iter; datablock_iter.reset(NewDataBlockIterator( rep_, ReadOptions(), blockhandles_iter->value())); s = datablock_iter->status(); if (!s.ok()) { // Error reading the block - Skipped continue; } KVPairBlock kv_pair_block; for (datablock_iter->SeekToFirst(); datablock_iter->Valid(); datablock_iter->Next()) { s = datablock_iter->status(); if (!s.ok()) { // Error reading the block - Skipped break; } const Slice& key = datablock_iter->key(); const Slice& value = datablock_iter->value(); std::string key_copy = std::string(key.data(), key.size()); std::string value_copy = std::string(value.data(), value.size()); kv_pair_block.push_back( std::make_pair(std::move(key_copy), std::move(value_copy))); } kv_pair_blocks->push_back(std::move(kv_pair_block)); } return Status::OK(); } Status BlockBasedTable::DumpTable(WritableFile* out_file, const SliceTransform* prefix_extractor) { // Output Footer out_file->Append( "Footer Details:\n" "--------------------------------------\n" " "); out_file->Append(rep_->footer.ToString().c_str()); out_file->Append("\n"); // Output MetaIndex out_file->Append( "Metaindex Details:\n" "--------------------------------------\n"); std::unique_ptr meta; std::unique_ptr meta_iter; Status s = ReadMetaBlock(rep_, nullptr /* prefetch_buffer */, &meta, &meta_iter); if (s.ok()) { for (meta_iter->SeekToFirst(); meta_iter->Valid(); meta_iter->Next()) { s = meta_iter->status(); if (!s.ok()) { return s; } if (meta_iter->key() == rocksdb::kPropertiesBlock) { out_file->Append(" Properties block handle: "); out_file->Append(meta_iter->value().ToString(true).c_str()); out_file->Append("\n"); } else if (meta_iter->key() == rocksdb::kCompressionDictBlock) { out_file->Append(" Compression dictionary block handle: "); out_file->Append(meta_iter->value().ToString(true).c_str()); out_file->Append("\n"); } else if (strstr(meta_iter->key().ToString().c_str(), "filter.rocksdb.") != nullptr) { out_file->Append(" Filter block handle: "); out_file->Append(meta_iter->value().ToString(true).c_str()); out_file->Append("\n"); } else if (meta_iter->key() == rocksdb::kRangeDelBlock) { out_file->Append(" Range deletion block handle: "); out_file->Append(meta_iter->value().ToString(true).c_str()); out_file->Append("\n"); } } out_file->Append("\n"); } else { return s; } // Output TableProperties const rocksdb::TableProperties* table_properties; table_properties = rep_->table_properties.get(); if (table_properties != nullptr) { out_file->Append( "Table Properties:\n" "--------------------------------------\n" " "); out_file->Append(table_properties->ToString("\n ", ": ").c_str()); out_file->Append("\n"); // Output Filter blocks if (!rep_->filter && !table_properties->filter_policy_name.empty()) { // Support only BloomFilter as off now rocksdb::BlockBasedTableOptions table_options; table_options.filter_policy.reset(rocksdb::NewBloomFilterPolicy(1)); if (table_properties->filter_policy_name.compare( table_options.filter_policy->Name()) == 0) { std::string filter_block_key = kFilterBlockPrefix; filter_block_key.append(table_properties->filter_policy_name); BlockHandle handle; if (FindMetaBlock(meta_iter.get(), filter_block_key, &handle).ok()) { BlockContents block; Slice dummy_comp_dict; BlockFetcher block_fetcher( rep_->file.get(), nullptr /* prefetch_buffer */, rep_->footer, ReadOptions(), handle, &block, rep_->ioptions, false /*decompress*/, dummy_comp_dict /*compression dict*/, rep_->persistent_cache_options); s = block_fetcher.ReadBlockContents(); if (!s.ok()) { rep_->filter.reset(new BlockBasedFilterBlockReader( prefix_extractor, table_options, table_options.whole_key_filtering, std::move(block), rep_->ioptions.statistics)); } } } } } if (rep_->filter) { out_file->Append( "Filter Details:\n" "--------------------------------------\n" " "); out_file->Append(rep_->filter->ToString().c_str()); out_file->Append("\n"); } // Output Index block s = DumpIndexBlock(out_file); if (!s.ok()) { return s; } // Output compression dictionary if (rep_->compression_dict_block != nullptr) { auto compression_dict = rep_->compression_dict_block->data; out_file->Append( "Compression Dictionary:\n" "--------------------------------------\n"); out_file->Append(" size (bytes): "); out_file->Append(rocksdb::ToString(compression_dict.size())); out_file->Append("\n\n"); out_file->Append(" HEX "); out_file->Append(compression_dict.ToString(true).c_str()); out_file->Append("\n\n"); } // Output range deletions block auto* range_del_iter = NewRangeTombstoneIterator(ReadOptions()); if (range_del_iter != nullptr) { range_del_iter->SeekToFirst(); if (range_del_iter->Valid()) { out_file->Append( "Range deletions:\n" "--------------------------------------\n" " "); for (; range_del_iter->Valid(); range_del_iter->Next()) { DumpKeyValue(range_del_iter->key(), range_del_iter->value(), out_file); } out_file->Append("\n"); } delete range_del_iter; } // Output Data blocks s = DumpDataBlocks(out_file); return s; } void BlockBasedTable::Close() { if (rep_->closed) { return; } rep_->filter_entry.Release(rep_->table_options.block_cache.get()); rep_->index_entry.Release(rep_->table_options.block_cache.get()); rep_->range_del_entry.Release(rep_->table_options.block_cache.get()); // cleanup index and filter blocks to avoid accessing dangling pointer if (!rep_->table_options.no_block_cache) { char cache_key[kMaxCacheKeyPrefixSize + kMaxVarint64Length]; // Get the filter block key auto key = GetCacheKey(rep_->cache_key_prefix, rep_->cache_key_prefix_size, rep_->filter_handle, cache_key); rep_->table_options.block_cache.get()->Erase(key); // Get the index block key key = GetCacheKeyFromOffset(rep_->cache_key_prefix, rep_->cache_key_prefix_size, rep_->dummy_index_reader_offset, cache_key); rep_->table_options.block_cache.get()->Erase(key); } rep_->closed = true; } Status BlockBasedTable::DumpIndexBlock(WritableFile* out_file) { out_file->Append( "Index Details:\n" "--------------------------------------\n"); std::unique_ptr> blockhandles_iter( NewIndexIterator(ReadOptions())); Status s = blockhandles_iter->status(); if (!s.ok()) { out_file->Append("Can not read Index Block \n\n"); return s; } out_file->Append(" Block key hex dump: Data block handle\n"); out_file->Append(" Block key ascii\n\n"); for (blockhandles_iter->SeekToFirst(); blockhandles_iter->Valid(); blockhandles_iter->Next()) { s = blockhandles_iter->status(); if (!s.ok()) { break; } Slice key = blockhandles_iter->key(); Slice user_key; InternalKey ikey; if (rep_->table_properties && rep_->table_properties->index_key_is_user_key != 0) { user_key = key; } else { ikey.DecodeFrom(key); user_key = ikey.user_key(); } out_file->Append(" HEX "); out_file->Append(user_key.ToString(true).c_str()); out_file->Append(": "); out_file->Append(blockhandles_iter->value().ToString(true).c_str()); out_file->Append("\n"); std::string str_key = user_key.ToString(); std::string res_key(""); char cspace = ' '; for (size_t i = 0; i < str_key.size(); i++) { res_key.append(&str_key[i], 1); res_key.append(1, cspace); } out_file->Append(" ASCII "); out_file->Append(res_key.c_str()); out_file->Append("\n ------\n"); } out_file->Append("\n"); return Status::OK(); } Status BlockBasedTable::DumpDataBlocks(WritableFile* out_file) { std::unique_ptr> blockhandles_iter( NewIndexIterator(ReadOptions())); Status s = blockhandles_iter->status(); if (!s.ok()) { out_file->Append("Can not read Index Block \n\n"); return s; } uint64_t datablock_size_min = std::numeric_limits::max(); uint64_t datablock_size_max = 0; uint64_t datablock_size_sum = 0; size_t block_id = 1; for (blockhandles_iter->SeekToFirst(); blockhandles_iter->Valid(); block_id++, blockhandles_iter->Next()) { s = blockhandles_iter->status(); if (!s.ok()) { break; } BlockHandle bh = blockhandles_iter->value(); uint64_t datablock_size = bh.size(); datablock_size_min = std::min(datablock_size_min, datablock_size); datablock_size_max = std::max(datablock_size_max, datablock_size); datablock_size_sum += datablock_size; out_file->Append("Data Block # "); out_file->Append(rocksdb::ToString(block_id)); out_file->Append(" @ "); out_file->Append(blockhandles_iter->value().ToString(true).c_str()); out_file->Append("\n"); out_file->Append("--------------------------------------\n"); std::unique_ptr datablock_iter; datablock_iter.reset(NewDataBlockIterator( rep_, ReadOptions(), blockhandles_iter->value())); s = datablock_iter->status(); if (!s.ok()) { out_file->Append("Error reading the block - Skipped \n\n"); continue; } for (datablock_iter->SeekToFirst(); datablock_iter->Valid(); datablock_iter->Next()) { s = datablock_iter->status(); if (!s.ok()) { out_file->Append("Error reading the block - Skipped \n"); break; } DumpKeyValue(datablock_iter->key(), datablock_iter->value(), out_file); } out_file->Append("\n"); } uint64_t num_datablocks = block_id - 1; if (num_datablocks) { double datablock_size_avg = static_cast(datablock_size_sum) / num_datablocks; out_file->Append("Data Block Summary:\n"); out_file->Append("--------------------------------------"); out_file->Append("\n # data blocks: "); out_file->Append(rocksdb::ToString(num_datablocks)); out_file->Append("\n min data block size: "); out_file->Append(rocksdb::ToString(datablock_size_min)); out_file->Append("\n max data block size: "); out_file->Append(rocksdb::ToString(datablock_size_max)); out_file->Append("\n avg data block size: "); out_file->Append(rocksdb::ToString(datablock_size_avg)); out_file->Append("\n"); } return Status::OK(); } void BlockBasedTable::DumpKeyValue(const Slice& key, const Slice& value, WritableFile* out_file) { InternalKey ikey; ikey.DecodeFrom(key); out_file->Append(" HEX "); out_file->Append(ikey.user_key().ToString(true).c_str()); out_file->Append(": "); out_file->Append(value.ToString(true).c_str()); out_file->Append("\n"); std::string str_key = ikey.user_key().ToString(); std::string str_value = value.ToString(); std::string res_key(""), res_value(""); char cspace = ' '; for (size_t i = 0; i < str_key.size(); i++) { if (str_key[i] == '\0') { res_key.append("\\0", 2); } else { res_key.append(&str_key[i], 1); } res_key.append(1, cspace); } for (size_t i = 0; i < str_value.size(); i++) { if (str_value[i] == '\0') { res_value.append("\\0", 2); } else { res_value.append(&str_value[i], 1); } res_value.append(1, cspace); } out_file->Append(" ASCII "); out_file->Append(res_key.c_str()); out_file->Append(": "); out_file->Append(res_value.c_str()); out_file->Append("\n ------\n"); } namespace { void DeleteCachedFilterEntry(const Slice& /*key*/, void* value) { FilterBlockReader* filter = reinterpret_cast(value); if (filter->statistics() != nullptr) { RecordTick(filter->statistics(), BLOCK_CACHE_FILTER_BYTES_EVICT, filter->ApproximateMemoryUsage()); } delete filter; } void DeleteCachedIndexEntry(const Slice& /*key*/, void* value) { IndexReader* index_reader = reinterpret_cast(value); if (index_reader->statistics() != nullptr) { RecordTick(index_reader->statistics(), BLOCK_CACHE_INDEX_BYTES_EVICT, index_reader->ApproximateMemoryUsage()); } delete index_reader; } } // anonymous namespace } // namespace rocksdb rocksdb-5.17.2/table/block_based_table_reader.h000066400000000000000000000653721337235545400214460ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #include #include #include #include #include #include #include "options/cf_options.h" #include "rocksdb/options.h" #include "rocksdb/persistent_cache.h" #include "rocksdb/statistics.h" #include "rocksdb/status.h" #include "rocksdb/table.h" #include "table/block.h" #include "table/block_based_table_factory.h" #include "table/filter_block.h" #include "table/format.h" #include "table/persistent_cache_helper.h" #include "table/table_properties_internal.h" #include "table/table_reader.h" #include "table/two_level_iterator.h" #include "util/coding.h" #include "util/file_reader_writer.h" namespace rocksdb { class BlockHandle; class Cache; class FilterBlockReader; class BlockBasedFilterBlockReader; class FullFilterBlockReader; class Footer; class InternalKeyComparator; class Iterator; class RandomAccessFile; class TableCache; class TableReader; class WritableFile; struct BlockBasedTableOptions; struct EnvOptions; struct ReadOptions; class GetContext; using std::unique_ptr; typedef std::vector> KVPairBlock; // A Table is a sorted map from strings to strings. Tables are // immutable and persistent. A Table may be safely accessed from // multiple threads without external synchronization. class BlockBasedTable : public TableReader { public: static const std::string kFilterBlockPrefix; static const std::string kFullFilterBlockPrefix; static const std::string kPartitionedFilterBlockPrefix; // The longest prefix of the cache key used to identify blocks. // For Posix files the unique ID is three varints. static const size_t kMaxCacheKeyPrefixSize = kMaxVarint64Length * 3 + 1; // Attempt to open the table that is stored in bytes [0..file_size) // of "file", and read the metadata entries necessary to allow // retrieving data from the table. // // If successful, returns ok and sets "*table_reader" to the newly opened // table. The client should delete "*table_reader" when no longer needed. // If there was an error while initializing the table, sets "*table_reader" // to nullptr and returns a non-ok status. // // @param file must remain live while this Table is in use. // @param prefetch_index_and_filter_in_cache can be used to disable // prefetching of // index and filter blocks into block cache at startup // @param skip_filters Disables loading/accessing the filter block. Overrides // prefetch_index_and_filter_in_cache, so filter will be skipped if both // are set. static Status Open(const ImmutableCFOptions& ioptions, const EnvOptions& env_options, const BlockBasedTableOptions& table_options, const InternalKeyComparator& internal_key_comparator, unique_ptr&& file, uint64_t file_size, unique_ptr* table_reader, const SliceTransform* prefix_extractor = nullptr, bool prefetch_index_and_filter_in_cache = true, bool skip_filters = false, int level = -1, const bool immortal_table = false, const SequenceNumber largest_seqno = 0, TailPrefetchStats* tail_prefetch_stats = nullptr); bool PrefixMayMatch(const Slice& internal_key, const ReadOptions& read_options, const SliceTransform* options_prefix_extractor, const bool need_upper_bound_check); // Returns a new iterator over the table contents. // The result of NewIterator() is initially invalid (caller must // call one of the Seek methods on the iterator before using it). // @param skip_filters Disables loading/accessing the filter block InternalIterator* NewIterator(const ReadOptions&, const SliceTransform* prefix_extractor, Arena* arena = nullptr, bool skip_filters = false, bool for_compaction = false) override; InternalIterator* NewRangeTombstoneIterator( const ReadOptions& read_options) override; // @param skip_filters Disables loading/accessing the filter block Status Get(const ReadOptions& readOptions, const Slice& key, GetContext* get_context, const SliceTransform* prefix_extractor, bool skip_filters = false) override; // Pre-fetch the disk blocks that correspond to the key range specified by // (kbegin, kend). The call will return error status in the event of // IO or iteration error. Status Prefetch(const Slice* begin, const Slice* end) override; // Given a key, return an approximate byte offset in the file where // the data for that key begins (or would begin if the key were // present in the file). The returned value is in terms of file // bytes, and so includes effects like compression of the underlying data. // E.g., the approximate offset of the last key in the table will // be close to the file length. uint64_t ApproximateOffsetOf(const Slice& key) override; // Returns true if the block for the specified key is in cache. // REQUIRES: key is in this table && block cache enabled bool TEST_KeyInCache(const ReadOptions& options, const Slice& key); // Set up the table for Compaction. Might change some parameters with // posix_fadvise void SetupForCompaction() override; std::shared_ptr GetTableProperties() const override; size_t ApproximateMemoryUsage() const override; // convert SST file to a human readable form Status DumpTable(WritableFile* out_file, const SliceTransform* prefix_extractor = nullptr) override; Status VerifyChecksum() override; void Close() override; ~BlockBasedTable(); bool TEST_filter_block_preloaded() const; bool TEST_index_reader_preloaded() const; // IndexReader is the interface that provide the functionality for index // access. class IndexReader { public: explicit IndexReader(const InternalKeyComparator* icomparator, Statistics* stats) : icomparator_(icomparator), statistics_(stats) {} virtual ~IndexReader() {} // Create an iterator for index access. // If iter is null then a new object is created on heap and the callee will // have the ownership. If a non-null iter is passed in it will be used, and // the returned value is either the same as iter or a new on-heap object // that // wrapps the passed iter. In the latter case the return value would point // to // a different object then iter and the callee has the ownership of the // returned object. virtual InternalIteratorBase* NewIterator( IndexBlockIter* iter = nullptr, bool total_order_seek = true, bool fill_cache = true) = 0; // The size of the index. virtual size_t size() const = 0; // Memory usage of the index block virtual size_t usable_size() const = 0; // return the statistics pointer virtual Statistics* statistics() const { return statistics_; } // Report an approximation of how much memory has been used other than // memory // that was allocated in block cache. virtual size_t ApproximateMemoryUsage() const = 0; virtual void CacheDependencies(bool /* unused */) {} // Prefetch all the blocks referenced by this index to the buffer void PrefetchBlocks(FilePrefetchBuffer* buf); protected: const InternalKeyComparator* icomparator_; private: Statistics* statistics_; }; static Slice GetCacheKey(const char* cache_key_prefix, size_t cache_key_prefix_size, const BlockHandle& handle, char* cache_key); // Retrieve all key value pairs from data blocks in the table. // The key retrieved are internal keys. Status GetKVPairsFromDataBlocks(std::vector* kv_pair_blocks); template struct CachableEntry; struct Rep; Rep* get_rep() { return rep_; } // input_iter: if it is not null, update this one and return it as Iterator template static TBlockIter* NewDataBlockIterator( Rep* rep, const ReadOptions& ro, const Slice& index_value, TBlockIter* input_iter = nullptr, bool is_index = false, bool key_includes_seq = true, bool index_key_is_full = true, GetContext* get_context = nullptr, FilePrefetchBuffer* prefetch_buffer = nullptr); template static TBlockIter* NewDataBlockIterator( Rep* rep, const ReadOptions& ro, const BlockHandle& block_hanlde, TBlockIter* input_iter = nullptr, bool is_index = false, bool key_includes_seq = true, bool index_key_is_full = true, GetContext* get_context = nullptr, Status s = Status(), FilePrefetchBuffer* prefetch_buffer = nullptr); class PartitionedIndexIteratorState; friend class PartitionIndexReader; protected: Rep* rep_; explicit BlockBasedTable(Rep* rep) : rep_(rep) {} private: friend class MockedBlockBasedTable; static std::atomic next_cache_key_id_; // If block cache enabled (compressed or uncompressed), looks for the block // identified by handle in (1) uncompressed cache, (2) compressed cache, and // then (3) file. If found, inserts into the cache(s) that were searched // unsuccessfully (e.g., if found in file, will add to both uncompressed and // compressed caches if they're enabled). // // @param block_entry value is set to the uncompressed block if found. If // in uncompressed block cache, also sets cache_handle to reference that // block. static Status MaybeLoadDataBlockToCache(FilePrefetchBuffer* prefetch_buffer, Rep* rep, const ReadOptions& ro, const BlockHandle& handle, Slice compression_dict, CachableEntry* block_entry, bool is_index = false, GetContext* get_context = nullptr); // For the following two functions: // if `no_io == true`, we will not try to read filter/index from sst file // were they not present in cache yet. CachableEntry GetFilter( const SliceTransform* prefix_extractor = nullptr, FilePrefetchBuffer* prefetch_buffer = nullptr, bool no_io = false, GetContext* get_context = nullptr) const; virtual CachableEntry GetFilter( FilePrefetchBuffer* prefetch_buffer, const BlockHandle& filter_blk_handle, const bool is_a_filter_partition, bool no_io, GetContext* get_context, const SliceTransform* prefix_extractor = nullptr) const; // Get the iterator from the index reader. // If input_iter is not set, return new Iterator // If input_iter is set, update it and return it as Iterator // // Note: ErrorIterator with Status::Incomplete shall be returned if all the // following conditions are met: // 1. We enabled table_options.cache_index_and_filter_blocks. // 2. index is not present in block cache. // 3. We disallowed any io to be performed, that is, read_options == // kBlockCacheTier InternalIteratorBase* NewIndexIterator( const ReadOptions& read_options, bool need_upper_bound_check = false, IndexBlockIter* input_iter = nullptr, CachableEntry* index_entry = nullptr, GetContext* get_context = nullptr); // Read block cache from block caches (if set): block_cache and // block_cache_compressed. // On success, Status::OK with be returned and @block will be populated with // pointer to the block as well as its block handle. // @param compression_dict Data for presetting the compression library's // dictionary. static Status GetDataBlockFromCache( const Slice& block_cache_key, const Slice& compressed_block_cache_key, Cache* block_cache, Cache* block_cache_compressed, const ImmutableCFOptions& ioptions, const ReadOptions& read_options, BlockBasedTable::CachableEntry* block, uint32_t format_version, const Slice& compression_dict, size_t read_amp_bytes_per_bit, bool is_index = false, GetContext* get_context = nullptr); // Put a raw block (maybe compressed) to the corresponding block caches. // This method will perform decompression against raw_block if needed and then // populate the block caches. // On success, Status::OK will be returned; also @block will be populated with // uncompressed block and its cache handle. // // REQUIRES: raw_block is heap-allocated. PutDataBlockToCache() will be // responsible for releasing its memory if error occurs. // @param compression_dict Data for presetting the compression library's // dictionary. static Status PutDataBlockToCache( const Slice& block_cache_key, const Slice& compressed_block_cache_key, Cache* block_cache, Cache* block_cache_compressed, const ReadOptions& read_options, const ImmutableCFOptions& ioptions, CachableEntry* block, Block* raw_block, uint32_t format_version, const Slice& compression_dict, size_t read_amp_bytes_per_bit, bool is_index = false, Cache::Priority pri = Cache::Priority::LOW, GetContext* get_context = nullptr); // Calls (*handle_result)(arg, ...) repeatedly, starting with the entry found // after a call to Seek(key), until handle_result returns false. // May not make such a call if filter policy says that key is not present. friend class TableCache; friend class BlockBasedTableBuilder; void ReadMeta(const Footer& footer); // Figure the index type, update it in rep_, and also return it. BlockBasedTableOptions::IndexType UpdateIndexType(); // Create a index reader based on the index type stored in the table. // Optionally, user can pass a preloaded meta_index_iter for the index that // need to access extra meta blocks for index construction. This parameter // helps avoid re-reading meta index block if caller already created one. Status CreateIndexReader( FilePrefetchBuffer* prefetch_buffer, IndexReader** index_reader, InternalIterator* preloaded_meta_index_iter = nullptr, const int level = -1); bool FullFilterKeyMayMatch( const ReadOptions& read_options, FilterBlockReader* filter, const Slice& user_key, const bool no_io, const SliceTransform* prefix_extractor = nullptr) const; // Read the meta block from sst. static Status ReadMetaBlock(Rep* rep, FilePrefetchBuffer* prefetch_buffer, std::unique_ptr* meta_block, std::unique_ptr* iter); Status VerifyChecksumInBlocks(InternalIteratorBase* index_iter); Status VerifyChecksumInBlocks(InternalIteratorBase* index_iter); // Create the filter from the filter block. virtual FilterBlockReader* ReadFilter( FilePrefetchBuffer* prefetch_buffer, const BlockHandle& filter_handle, const bool is_a_filter_partition, const SliceTransform* prefix_extractor = nullptr) const; static void SetupCacheKeyPrefix(Rep* rep, uint64_t file_size); // Generate a cache key prefix from the file static void GenerateCachePrefix(Cache* cc, RandomAccessFile* file, char* buffer, size_t* size); static void GenerateCachePrefix(Cache* cc, WritableFile* file, char* buffer, size_t* size); // Helper functions for DumpTable() Status DumpIndexBlock(WritableFile* out_file); Status DumpDataBlocks(WritableFile* out_file); void DumpKeyValue(const Slice& key, const Slice& value, WritableFile* out_file); // No copying allowed explicit BlockBasedTable(const TableReader&) = delete; void operator=(const TableReader&) = delete; friend class PartitionedFilterBlockReader; friend class PartitionedFilterBlockTest; }; // Maitaning state of a two-level iteration on a partitioned index structure class BlockBasedTable::PartitionedIndexIteratorState : public TwoLevelIteratorState { public: PartitionedIndexIteratorState( BlockBasedTable* table, std::unordered_map>* block_map, const bool index_key_includes_seq, const bool index_key_is_full); InternalIteratorBase* NewSecondaryIterator( const BlockHandle& index_value) override; private: // Don't own table_ BlockBasedTable* table_; std::unordered_map>* block_map_; bool index_key_includes_seq_; bool index_key_is_full_; }; // CachableEntry represents the entries that *may* be fetched from block cache. // field `value` is the item we want to get. // field `cache_handle` is the cache handle to the block cache. If the value // was not read from cache, `cache_handle` will be nullptr. template struct BlockBasedTable::CachableEntry { CachableEntry(TValue* _value, Cache::Handle* _cache_handle) : value(_value), cache_handle(_cache_handle) {} CachableEntry() : CachableEntry(nullptr, nullptr) {} void Release(Cache* cache, bool force_erase = false) { if (cache_handle) { cache->Release(cache_handle, force_erase); value = nullptr; cache_handle = nullptr; } } bool IsSet() const { return cache_handle != nullptr; } TValue* value = nullptr; // if the entry is from the cache, cache_handle will be populated. Cache::Handle* cache_handle = nullptr; }; struct BlockBasedTable::Rep { Rep(const ImmutableCFOptions& _ioptions, const EnvOptions& _env_options, const BlockBasedTableOptions& _table_opt, const InternalKeyComparator& _internal_comparator, bool skip_filters, const bool _immortal_table) : ioptions(_ioptions), env_options(_env_options), table_options(_table_opt), filter_policy(skip_filters ? nullptr : _table_opt.filter_policy.get()), internal_comparator(_internal_comparator), filter_type(FilterType::kNoFilter), index_type(BlockBasedTableOptions::IndexType::kBinarySearch), hash_index_allow_collision(false), whole_key_filtering(_table_opt.whole_key_filtering), prefix_filtering(true), range_del_handle(BlockHandle::NullBlockHandle()), global_seqno(kDisableGlobalSequenceNumber), immortal_table(_immortal_table) {} const ImmutableCFOptions& ioptions; const EnvOptions& env_options; const BlockBasedTableOptions table_options; const FilterPolicy* const filter_policy; const InternalKeyComparator& internal_comparator; Status status; unique_ptr file; char cache_key_prefix[kMaxCacheKeyPrefixSize]; size_t cache_key_prefix_size = 0; char persistent_cache_key_prefix[kMaxCacheKeyPrefixSize]; size_t persistent_cache_key_prefix_size = 0; char compressed_cache_key_prefix[kMaxCacheKeyPrefixSize]; size_t compressed_cache_key_prefix_size = 0; uint64_t dummy_index_reader_offset = 0; // ID that is unique for the block cache. PersistentCacheOptions persistent_cache_options; // Footer contains the fixed table information Footer footer; // index_reader and filter will be populated and used only when // options.block_cache is nullptr; otherwise we will get the index block via // the block cache. unique_ptr index_reader; unique_ptr filter; enum class FilterType { kNoFilter, kFullFilter, kBlockFilter, kPartitionedFilter, }; FilterType filter_type; BlockHandle filter_handle; std::shared_ptr table_properties; // Block containing the data for the compression dictionary. We take ownership // for the entire block struct, even though we only use its Slice member. This // is easier because the Slice member depends on the continued existence of // another member ("allocation"). std::unique_ptr compression_dict_block; BlockBasedTableOptions::IndexType index_type; bool hash_index_allow_collision; bool whole_key_filtering; bool prefix_filtering; // TODO(kailiu) It is very ugly to use internal key in table, since table // module should not be relying on db module. However to make things easier // and compatible with existing code, we introduce a wrapper that allows // block to extract prefix without knowing if a key is internal or not. unique_ptr internal_prefix_transform; std::shared_ptr table_prefix_extractor; // only used in level 0 files when pin_l0_filter_and_index_blocks_in_cache is // true or in all levels when pin_top_level_index_and_filter is set in // combination with partitioned index/filters: then we do use the LRU cache, // but we always keep the filter & index block's handle checked out here (=we // don't call Release()), plus the parsed out objects the LRU cache will never // push flush them out, hence they're pinned CachableEntry filter_entry; CachableEntry index_entry; // range deletion meta-block is pinned through reader's lifetime when LRU // cache is enabled. CachableEntry range_del_entry; BlockHandle range_del_handle; // If global_seqno is used, all Keys in this file will have the same // seqno with value `global_seqno`. // // A value of kDisableGlobalSequenceNumber means that this feature is disabled // and every key have it's own seqno. SequenceNumber global_seqno; // If false, blocks in this file are definitely all uncompressed. Knowing this // before reading individual blocks enables certain optimizations. bool blocks_maybe_compressed = true; bool closed = false; const bool immortal_table; }; template class BlockBasedTableIterator : public InternalIteratorBase { public: BlockBasedTableIterator(BlockBasedTable* table, const ReadOptions& read_options, const InternalKeyComparator& icomp, InternalIteratorBase* index_iter, bool check_filter, bool need_upper_bound_check, const SliceTransform* prefix_extractor, bool is_index, bool key_includes_seq = true, bool index_key_is_full = true, bool for_compaction = false) : table_(table), read_options_(read_options), icomp_(icomp), index_iter_(index_iter), pinned_iters_mgr_(nullptr), block_iter_points_to_real_block_(false), check_filter_(check_filter), need_upper_bound_check_(need_upper_bound_check), prefix_extractor_(prefix_extractor), is_index_(is_index), key_includes_seq_(key_includes_seq), index_key_is_full_(index_key_is_full), for_compaction_(for_compaction) {} ~BlockBasedTableIterator() { delete index_iter_; } void Seek(const Slice& target) override; void SeekForPrev(const Slice& target) override; void SeekToFirst() override; void SeekToLast() override; void Next() override; void Prev() override; bool Valid() const override { return !is_out_of_bound_ && block_iter_points_to_real_block_ && block_iter_.Valid(); } Slice key() const override { assert(Valid()); return block_iter_.key(); } TValue value() const override { assert(Valid()); return block_iter_.value(); } Status status() const override { if (!index_iter_->status().ok()) { return index_iter_->status(); } else if (block_iter_points_to_real_block_) { return block_iter_.status(); } else { return Status::OK(); } } bool IsOutOfBound() override { return is_out_of_bound_; } void SetPinnedItersMgr(PinnedIteratorsManager* pinned_iters_mgr) override { pinned_iters_mgr_ = pinned_iters_mgr; } bool IsKeyPinned() const override { return pinned_iters_mgr_ && pinned_iters_mgr_->PinningEnabled() && block_iter_points_to_real_block_ && block_iter_.IsKeyPinned(); } bool IsValuePinned() const override { // BlockIter::IsValuePinned() is always true. No need to check return pinned_iters_mgr_ && pinned_iters_mgr_->PinningEnabled() && block_iter_points_to_real_block_; } bool CheckPrefixMayMatch(const Slice& ikey) { if (check_filter_ && !table_->PrefixMayMatch(ikey, read_options_, prefix_extractor_, need_upper_bound_check_)) { // TODO remember the iterator is invalidated because of prefix // match. This can avoid the upper level file iterator to falsely // believe the position is the end of the SST file and move to // the first key of the next file. ResetDataIter(); return false; } return true; } void ResetDataIter() { if (block_iter_points_to_real_block_) { if (pinned_iters_mgr_ != nullptr && pinned_iters_mgr_->PinningEnabled()) { block_iter_.DelegateCleanupsTo(pinned_iters_mgr_); } block_iter_.Invalidate(Status::OK()); block_iter_points_to_real_block_ = false; } } void SavePrevIndexValue() { if (block_iter_points_to_real_block_) { // Reseek. If they end up with the same data block, we shouldn't re-fetch // the same data block. prev_index_value_ = index_iter_->value(); } } void InitDataBlock(); void FindKeyForward(); void FindKeyBackward(); private: BlockBasedTable* table_; const ReadOptions read_options_; const InternalKeyComparator& icomp_; InternalIteratorBase* index_iter_; PinnedIteratorsManager* pinned_iters_mgr_; TBlockIter block_iter_; bool block_iter_points_to_real_block_; bool is_out_of_bound_ = false; bool check_filter_; // TODO(Zhongyi): pick a better name bool need_upper_bound_check_; const SliceTransform* prefix_extractor_; // If the blocks over which we iterate are index blocks bool is_index_; // If the keys in the blocks over which we iterate include 8 byte sequence bool key_includes_seq_; bool index_key_is_full_; // If this iterator is created for compaction bool for_compaction_; BlockHandle prev_index_value_; static const size_t kInitReadaheadSize = 8 * 1024; // Found that 256 KB readahead size provides the best performance, based on // experiments. static const size_t kMaxReadaheadSize; size_t readahead_size_ = kInitReadaheadSize; size_t readahead_limit_ = 0; int num_file_reads_ = 0; std::unique_ptr prefetch_buffer_; }; } // namespace rocksdb rocksdb-5.17.2/table/block_builder.cc000066400000000000000000000160451337235545400174540ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. // // BlockBuilder generates blocks where keys are prefix-compressed: // // When we store a key, we drop the prefix shared with the previous // string. This helps reduce the space requirement significantly. // Furthermore, once every K keys, we do not apply the prefix // compression and store the entire key. We call this a "restart // point". The tail end of the block stores the offsets of all of the // restart points, and can be used to do a binary search when looking // for a particular key. Values are stored as-is (without compression) // immediately following the corresponding key. // // An entry for a particular key-value pair has the form: // shared_bytes: varint32 // unshared_bytes: varint32 // value_length: varint32 // key_delta: char[unshared_bytes] // value: char[value_length] // shared_bytes == 0 for restart points. // // The trailer of the block has the form: // restarts: uint32[num_restarts] // num_restarts: uint32 // restarts[i] contains the offset within the block of the ith restart point. #include "table/block_builder.h" #include #include #include "db/dbformat.h" #include "rocksdb/comparator.h" #include "table/data_block_footer.h" #include "util/coding.h" namespace rocksdb { BlockBuilder::BlockBuilder( int block_restart_interval, bool use_delta_encoding, bool use_value_delta_encoding, BlockBasedTableOptions::DataBlockIndexType index_type, double data_block_hash_table_util_ratio) : block_restart_interval_(block_restart_interval), use_delta_encoding_(use_delta_encoding), use_value_delta_encoding_(use_value_delta_encoding), restarts_(), counter_(0), finished_(false) { switch (index_type) { case BlockBasedTableOptions::kDataBlockBinarySearch: break; case BlockBasedTableOptions::kDataBlockBinaryAndHash: data_block_hash_index_builder_.Initialize( data_block_hash_table_util_ratio); break; default: assert(0); } assert(block_restart_interval_ >= 1); restarts_.push_back(0); // First restart point is at offset 0 estimate_ = sizeof(uint32_t) + sizeof(uint32_t); } void BlockBuilder::Reset() { buffer_.clear(); restarts_.clear(); restarts_.push_back(0); // First restart point is at offset 0 estimate_ = sizeof(uint32_t) + sizeof(uint32_t); counter_ = 0; finished_ = false; last_key_.clear(); if (data_block_hash_index_builder_.Valid()) { data_block_hash_index_builder_.Reset(); } } size_t BlockBuilder::EstimateSizeAfterKV(const Slice& key, const Slice& value) const { size_t estimate = CurrentSizeEstimate(); // Note: this is an imprecise estimate as it accounts for the whole key size // instead of non-shared key size. estimate += key.size(); // In value delta encoding we estimate the value delta size as half the full // value size since only the size field of block handle is encoded. estimate += !use_value_delta_encoding_ || (counter_ >= block_restart_interval_) ? value.size() : value.size() / 2; if (counter_ >= block_restart_interval_) { estimate += sizeof(uint32_t); // a new restart entry. } estimate += sizeof(int32_t); // varint for shared prefix length. // Note: this is an imprecise estimate as we will have to encoded size, one // for shared key and one for non-shared key. estimate += VarintLength(key.size()); // varint for key length. if (!use_value_delta_encoding_ || (counter_ >= block_restart_interval_)) { estimate += VarintLength(value.size()); // varint for value length. } return estimate; } Slice BlockBuilder::Finish() { // Append restart array for (size_t i = 0; i < restarts_.size(); i++) { PutFixed32(&buffer_, restarts_[i]); } uint32_t num_restarts = static_cast(restarts_.size()); BlockBasedTableOptions::DataBlockIndexType index_type = BlockBasedTableOptions::kDataBlockBinarySearch; if (data_block_hash_index_builder_.Valid() && CurrentSizeEstimate() <= kMaxBlockSizeSupportedByHashIndex) { data_block_hash_index_builder_.Finish(buffer_); index_type = BlockBasedTableOptions::kDataBlockBinaryAndHash; } // footer is a packed format of data_block_index_type and num_restarts uint32_t block_footer = PackIndexTypeAndNumRestarts(index_type, num_restarts); PutFixed32(&buffer_, block_footer); finished_ = true; return Slice(buffer_); } void BlockBuilder::Add(const Slice& key, const Slice& value, const Slice* const delta_value) { assert(!finished_); assert(counter_ <= block_restart_interval_); assert(!use_value_delta_encoding_ || delta_value); size_t shared = 0; // number of bytes shared with prev key if (counter_ >= block_restart_interval_) { // Restart compression restarts_.push_back(static_cast(buffer_.size())); estimate_ += sizeof(uint32_t); counter_ = 0; if (use_delta_encoding_) { // Update state last_key_.assign(key.data(), key.size()); } } else if (use_delta_encoding_) { Slice last_key_piece(last_key_); // See how much sharing to do with previous string shared = key.difference_offset(last_key_piece); // Update state // We used to just copy the changed data here, but it appears to be // faster to just copy the whole thing. last_key_.assign(key.data(), key.size()); } const size_t non_shared = key.size() - shared; const size_t curr_size = buffer_.size(); if (use_value_delta_encoding_) { // Add "" to buffer_ PutVarint32Varint32(&buffer_, static_cast(shared), static_cast(non_shared)); } else { // Add "" to buffer_ PutVarint32Varint32Varint32(&buffer_, static_cast(shared), static_cast(non_shared), static_cast(value.size())); } // Add string delta to buffer_ followed by value buffer_.append(key.data() + shared, non_shared); // Use value delta encoding only when the key has shared bytes. This would // simplify the decoding, where it can figure which decoding to use simply by // looking at the shared bytes size. if (shared != 0 && use_value_delta_encoding_) { buffer_.append(delta_value->data(), delta_value->size()); } else { buffer_.append(value.data(), value.size()); } if (data_block_hash_index_builder_.Valid()) { data_block_hash_index_builder_.Add(ExtractUserKey(key), restarts_.size() - 1); } counter_++; estimate_ += buffer_.size() - curr_size; } } // namespace rocksdb rocksdb-5.17.2/table/block_builder.h000066400000000000000000000056671337235545400173260ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #include #include #include "rocksdb/slice.h" #include "rocksdb/table.h" #include "table/data_block_hash_index.h" namespace rocksdb { class BlockBuilder { public: BlockBuilder(const BlockBuilder&) = delete; void operator=(const BlockBuilder&) = delete; explicit BlockBuilder(int block_restart_interval, bool use_delta_encoding = true, bool use_value_delta_encoding = false, BlockBasedTableOptions::DataBlockIndexType index_type = BlockBasedTableOptions::kDataBlockBinarySearch, double data_block_hash_table_util_ratio = 0.75); // Reset the contents as if the BlockBuilder was just constructed. void Reset(); // REQUIRES: Finish() has not been called since the last call to Reset(). // REQUIRES: key is larger than any previously added key void Add(const Slice& key, const Slice& value, const Slice* const delta_value = nullptr); // Finish building the block and return a slice that refers to the // block contents. The returned slice will remain valid for the // lifetime of this builder or until Reset() is called. Slice Finish(); // Returns an estimate of the current (uncompressed) size of the block // we are building. inline size_t CurrentSizeEstimate() const { return estimate_ + (data_block_hash_index_builder_.Valid() ? data_block_hash_index_builder_.EstimateSize() : 0); } // Returns an estimated block size after appending key and value. size_t EstimateSizeAfterKV(const Slice& key, const Slice& value) const; // Return true iff no entries have been added since the last Reset() bool empty() const { return buffer_.empty(); } private: const int block_restart_interval_; // TODO(myabandeh): put it into a separate IndexBlockBuilder const bool use_delta_encoding_; // Refer to BlockIter::DecodeCurrentValue for format of delta encoded values const bool use_value_delta_encoding_; std::string buffer_; // Destination buffer std::vector restarts_; // Restart points size_t estimate_; int counter_; // Number of entries emitted since restart bool finished_; // Has Finish() been called? std::string last_key_; DataBlockHashIndexBuilder data_block_hash_index_builder_; }; } // namespace rocksdb rocksdb-5.17.2/table/block_fetcher.cc000066400000000000000000000202541337235545400174430ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "table/block_fetcher.h" #include #include #include "monitoring/perf_context_imp.h" #include "monitoring/statistics.h" #include "rocksdb/env.h" #include "table/block.h" #include "table/block_based_table_reader.h" #include "table/persistent_cache_helper.h" #include "table/format.h" #include "util/coding.h" #include "util/compression.h" #include "util/crc32c.h" #include "util/file_reader_writer.h" #include "util/logging.h" #include "util/stop_watch.h" #include "util/string_util.h" #include "util/xxhash.h" namespace rocksdb { inline void BlockFetcher::CheckBlockChecksum() { // Check the crc of the type and the block contents if (read_options_.verify_checksums) { const char* data = slice_.data(); // Pointer to where Read put the data PERF_TIMER_GUARD(block_checksum_time); uint32_t value = DecodeFixed32(data + block_size_ + 1); uint32_t actual = 0; switch (footer_.checksum()) { case kNoChecksum: break; case kCRC32c: value = crc32c::Unmask(value); actual = crc32c::Value(data, block_size_ + 1); break; case kxxHash: actual = XXH32(data, static_cast(block_size_) + 1, 0); break; default: status_ = Status::Corruption( "unknown checksum type " + ToString(footer_.checksum()) + " in " + file_->file_name() + " offset " + ToString(handle_.offset()) + " size " + ToString(block_size_)); } if (status_.ok() && actual != value) { status_ = Status::Corruption( "block checksum mismatch: expected " + ToString(actual) + ", got " + ToString(value) + " in " + file_->file_name() + " offset " + ToString(handle_.offset()) + " size " + ToString(block_size_)); } } } inline bool BlockFetcher::TryGetUncompressBlockFromPersistentCache() { if (cache_options_.persistent_cache && !cache_options_.persistent_cache->IsCompressed()) { Status status = PersistentCacheHelper::LookupUncompressedPage( cache_options_, handle_, contents_); if (status.ok()) { // uncompressed page is found for the block handle return true; } else { // uncompressed page is not found if (ioptions_.info_log && !status.IsNotFound()) { assert(!status.ok()); ROCKS_LOG_INFO(ioptions_.info_log, "Error reading from persistent cache. %s", status.ToString().c_str()); } } } return false; } inline bool BlockFetcher::TryGetFromPrefetchBuffer() { if (prefetch_buffer_ != nullptr && prefetch_buffer_->TryReadFromCache( handle_.offset(), static_cast(handle_.size()) + kBlockTrailerSize, &slice_)) { block_size_ = static_cast(handle_.size()); CheckBlockChecksum(); if (!status_.ok()) { return true; } got_from_prefetch_buffer_ = true; used_buf_ = const_cast(slice_.data()); } return got_from_prefetch_buffer_; } inline bool BlockFetcher::TryGetCompressedBlockFromPersistentCache() { if (cache_options_.persistent_cache && cache_options_.persistent_cache->IsCompressed()) { // lookup uncompressed cache mode p-cache status_ = PersistentCacheHelper::LookupRawPage( cache_options_, handle_, &heap_buf_, block_size_ + kBlockTrailerSize); if (status_.ok()) { used_buf_ = heap_buf_.get(); slice_ = Slice(heap_buf_.get(), block_size_); return true; } else if (!status_.IsNotFound() && ioptions_.info_log) { assert(!status_.ok()); ROCKS_LOG_INFO(ioptions_.info_log, "Error reading from persistent cache. %s", status_.ToString().c_str()); } } return false; } inline void BlockFetcher::PrepareBufferForBlockFromFile() { // cache miss read from device if (do_uncompress_ && block_size_ + kBlockTrailerSize < kDefaultStackBufferSize) { // If we've got a small enough hunk of data, read it in to the // trivially allocated stack buffer instead of needing a full malloc() used_buf_ = &stack_buf_[0]; } else { heap_buf_.reset(new char[block_size_ + kBlockTrailerSize]); used_buf_ = heap_buf_.get(); } } inline void BlockFetcher::InsertCompressedBlockToPersistentCacheIfNeeded() { if (status_.ok() && read_options_.fill_cache && cache_options_.persistent_cache && cache_options_.persistent_cache->IsCompressed()) { // insert to raw cache PersistentCacheHelper::InsertRawPage(cache_options_, handle_, used_buf_, block_size_ + kBlockTrailerSize); } } inline void BlockFetcher::InsertUncompressedBlockToPersistentCacheIfNeeded() { if (status_.ok() && !got_from_prefetch_buffer_ && read_options_.fill_cache && cache_options_.persistent_cache && !cache_options_.persistent_cache->IsCompressed()) { // insert to uncompressed cache PersistentCacheHelper::InsertUncompressedPage(cache_options_, handle_, *contents_); } } inline void BlockFetcher::GetBlockContents() { if (slice_.data() != used_buf_) { // the slice content is not the buffer provided *contents_ = BlockContents(Slice(slice_.data(), block_size_), immortal_source_, compression_type); } else { // page can be either uncompressed or compressed, the buffer either stack // or heap provided. Refer to https://github.com/facebook/rocksdb/pull/4096 if (got_from_prefetch_buffer_ || used_buf_ == &stack_buf_[0]) { assert(used_buf_ != heap_buf_.get()); heap_buf_.reset(new char[block_size_ + kBlockTrailerSize]); memcpy(heap_buf_.get(), used_buf_, block_size_ + kBlockTrailerSize); } *contents_ = BlockContents(std::move(heap_buf_), block_size_, true, compression_type); } } Status BlockFetcher::ReadBlockContents() { block_size_ = static_cast(handle_.size()); if (TryGetUncompressBlockFromPersistentCache()) { return Status::OK(); } if (TryGetFromPrefetchBuffer()) { if (!status_.ok()) { return status_; } } else if (!TryGetCompressedBlockFromPersistentCache()) { PrepareBufferForBlockFromFile(); Status s; { PERF_TIMER_GUARD(block_read_time); // Actual file read status_ = file_->Read(handle_.offset(), block_size_ + kBlockTrailerSize, &slice_, used_buf_); } PERF_COUNTER_ADD(block_read_count, 1); PERF_COUNTER_ADD(block_read_byte, block_size_ + kBlockTrailerSize); if (!status_.ok()) { return status_; } if (slice_.size() != block_size_ + kBlockTrailerSize) { return Status::Corruption("truncated block read from " + file_->file_name() + " offset " + ToString(handle_.offset()) + ", expected " + ToString(block_size_ + kBlockTrailerSize) + " bytes, got " + ToString(slice_.size())); } CheckBlockChecksum(); if (status_.ok()) { InsertCompressedBlockToPersistentCacheIfNeeded(); } else { return status_; } } PERF_TIMER_GUARD(block_decompress_time); compression_type = static_cast(slice_.data()[block_size_]); if (do_uncompress_ && compression_type != kNoCompression) { // compressed page, uncompress, update cache UncompressionContext uncompression_ctx(compression_type, compression_dict_); status_ = UncompressBlockContents(uncompression_ctx, slice_.data(), block_size_, contents_, footer_.version(), ioptions_); } else { GetBlockContents(); } InsertUncompressedBlockToPersistentCacheIfNeeded(); return status_; } } // namespace rocksdb rocksdb-5.17.2/table/block_fetcher.h000066400000000000000000000055011337235545400173030ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #include "table/block.h" #include "table/format.h" namespace rocksdb { class BlockFetcher { public: // Read the block identified by "handle" from "file". // The only relevant option is options.verify_checksums for now. // On failure return non-OK. // On success fill *result and return OK - caller owns *result // @param compression_dict Data for presetting the compression library's // dictionary. BlockFetcher(RandomAccessFileReader* file, FilePrefetchBuffer* prefetch_buffer, const Footer& footer, const ReadOptions& read_options, const BlockHandle& handle, BlockContents* contents, const ImmutableCFOptions& ioptions, bool do_uncompress, const Slice& compression_dict, const PersistentCacheOptions& cache_options, const bool immortal_source = false) : file_(file), prefetch_buffer_(prefetch_buffer), footer_(footer), read_options_(read_options), handle_(handle), contents_(contents), ioptions_(ioptions), do_uncompress_(do_uncompress), immortal_source_(immortal_source), compression_dict_(compression_dict), cache_options_(cache_options) {} Status ReadBlockContents(); private: static const uint32_t kDefaultStackBufferSize = 5000; RandomAccessFileReader* file_; FilePrefetchBuffer* prefetch_buffer_; const Footer& footer_; const ReadOptions read_options_; const BlockHandle& handle_; BlockContents* contents_; const ImmutableCFOptions& ioptions_; bool do_uncompress_; const bool immortal_source_; const Slice& compression_dict_; const PersistentCacheOptions& cache_options_; Status status_; Slice slice_; char* used_buf_ = nullptr; size_t block_size_; std::unique_ptr heap_buf_; char stack_buf_[kDefaultStackBufferSize]; bool got_from_prefetch_buffer_ = false; rocksdb::CompressionType compression_type; // return true if found bool TryGetUncompressBlockFromPersistentCache(); // return true if found bool TryGetFromPrefetchBuffer(); bool TryGetCompressedBlockFromPersistentCache(); void PrepareBufferForBlockFromFile(); void GetBlockContents(); void InsertCompressedBlockToPersistentCacheIfNeeded(); void InsertUncompressedBlockToPersistentCacheIfNeeded(); void CheckBlockChecksum(); }; } // namespace rocksdb rocksdb-5.17.2/table/block_prefix_index.cc000066400000000000000000000174171337235545400205160ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include "table/block_prefix_index.h" #include #include "rocksdb/comparator.h" #include "rocksdb/slice.h" #include "rocksdb/slice_transform.h" #include "util/arena.h" #include "util/coding.h" #include "util/hash.h" namespace rocksdb { inline uint32_t Hash(const Slice& s) { return rocksdb::Hash(s.data(), s.size(), 0); } inline uint32_t PrefixToBucket(const Slice& prefix, uint32_t num_buckets) { return Hash(prefix) % num_buckets; } // The prefix block index is simply a bucket array, with each entry pointing to // the blocks that span the prefixes hashed to this bucket. // // To reduce memory footprint, if there is only one block per bucket, the entry // stores the block id directly. If there are more than one blocks per bucket, // because of hash collision or a single prefix spanning multiple blocks, // the entry points to an array of block ids. The block array is an array of // uint32_t's. The first uint32_t indicates the total number of blocks, followed // by the block ids. // // To differentiate the two cases, the high order bit of the entry indicates // whether it is a 'pointer' into a separate block array. // 0x7FFFFFFF is reserved for empty bucket. const uint32_t kNoneBlock = 0x7FFFFFFF; const uint32_t kBlockArrayMask = 0x80000000; inline bool IsNone(uint32_t block_id) { return block_id == kNoneBlock; } inline bool IsBlockId(uint32_t block_id) { return (block_id & kBlockArrayMask) == 0; } inline uint32_t DecodeIndex(uint32_t block_id) { uint32_t index = block_id ^ kBlockArrayMask; assert(index < kBlockArrayMask); return index; } inline uint32_t EncodeIndex(uint32_t index) { assert(index < kBlockArrayMask); return index | kBlockArrayMask; } // temporary storage for prefix information during index building struct PrefixRecord { Slice prefix; uint32_t start_block; uint32_t end_block; uint32_t num_blocks; PrefixRecord* next; }; class BlockPrefixIndex::Builder { public: explicit Builder(const SliceTransform* internal_prefix_extractor) : internal_prefix_extractor_(internal_prefix_extractor) {} void Add(const Slice& key_prefix, uint32_t start_block, uint32_t num_blocks) { PrefixRecord* record = reinterpret_cast( arena_.AllocateAligned(sizeof(PrefixRecord))); record->prefix = key_prefix; record->start_block = start_block; record->end_block = start_block + num_blocks - 1; record->num_blocks = num_blocks; prefixes_.push_back(record); } BlockPrefixIndex* Finish() { // For now, use roughly 1:1 prefix to bucket ratio. uint32_t num_buckets = static_cast(prefixes_.size()) + 1; // Collect prefix records that hash to the same bucket, into a single // linklist. std::vector prefixes_per_bucket(num_buckets, nullptr); std::vector num_blocks_per_bucket(num_buckets, 0); for (PrefixRecord* current : prefixes_) { uint32_t bucket = PrefixToBucket(current->prefix, num_buckets); // merge the prefix block span if the first block of this prefix is // connected to the last block of the previous prefix. PrefixRecord* prev = prefixes_per_bucket[bucket]; if (prev) { assert(current->start_block >= prev->end_block); auto distance = current->start_block - prev->end_block; if (distance <= 1) { prev->end_block = current->end_block; prev->num_blocks = prev->end_block - prev->start_block + 1; num_blocks_per_bucket[bucket] += (current->num_blocks + distance - 1); continue; } } current->next = prev; prefixes_per_bucket[bucket] = current; num_blocks_per_bucket[bucket] += current->num_blocks; } // Calculate the block array buffer size uint32_t total_block_array_entries = 0; for (uint32_t i = 0; i < num_buckets; i++) { uint32_t num_blocks = num_blocks_per_bucket[i]; if (num_blocks > 1) { total_block_array_entries += (num_blocks + 1); } } // Populate the final prefix block index uint32_t* block_array_buffer = new uint32_t[total_block_array_entries]; uint32_t* buckets = new uint32_t[num_buckets]; uint32_t offset = 0; for (uint32_t i = 0; i < num_buckets; i++) { uint32_t num_blocks = num_blocks_per_bucket[i]; if (num_blocks == 0) { assert(prefixes_per_bucket[i] == nullptr); buckets[i] = kNoneBlock; } else if (num_blocks == 1) { assert(prefixes_per_bucket[i] != nullptr); assert(prefixes_per_bucket[i]->next == nullptr); buckets[i] = prefixes_per_bucket[i]->start_block; } else { assert(total_block_array_entries > 0); assert(prefixes_per_bucket[i] != nullptr); buckets[i] = EncodeIndex(offset); block_array_buffer[offset] = num_blocks; uint32_t* last_block = &block_array_buffer[offset + num_blocks]; auto current = prefixes_per_bucket[i]; // populate block ids from largest to smallest while (current != nullptr) { for (uint32_t iter = 0; iter < current->num_blocks; iter++) { *last_block = current->end_block - iter; last_block--; } current = current->next; } assert(last_block == &block_array_buffer[offset]); offset += (num_blocks + 1); } } assert(offset == total_block_array_entries); return new BlockPrefixIndex(internal_prefix_extractor_, num_buckets, buckets, total_block_array_entries, block_array_buffer); } private: const SliceTransform* internal_prefix_extractor_; std::vector prefixes_; Arena arena_; }; Status BlockPrefixIndex::Create(const SliceTransform* internal_prefix_extractor, const Slice& prefixes, const Slice& prefix_meta, BlockPrefixIndex** prefix_index) { uint64_t pos = 0; auto meta_pos = prefix_meta; Status s; Builder builder(internal_prefix_extractor); while (!meta_pos.empty()) { uint32_t prefix_size = 0; uint32_t entry_index = 0; uint32_t num_blocks = 0; if (!GetVarint32(&meta_pos, &prefix_size) || !GetVarint32(&meta_pos, &entry_index) || !GetVarint32(&meta_pos, &num_blocks)) { s = Status::Corruption( "Corrupted prefix meta block: unable to read from it."); break; } if (pos + prefix_size > prefixes.size()) { s = Status::Corruption( "Corrupted prefix meta block: size inconsistency."); break; } Slice prefix(prefixes.data() + pos, prefix_size); builder.Add(prefix, entry_index, num_blocks); pos += prefix_size; } if (s.ok() && pos != prefixes.size()) { s = Status::Corruption("Corrupted prefix meta block"); } if (s.ok()) { *prefix_index = builder.Finish(); } return s; } uint32_t BlockPrefixIndex::GetBlocks(const Slice& key, uint32_t** blocks) { Slice prefix = internal_prefix_extractor_->Transform(key); uint32_t bucket = PrefixToBucket(prefix, num_buckets_); uint32_t block_id = buckets_[bucket]; if (IsNone(block_id)) { return 0; } else if (IsBlockId(block_id)) { *blocks = &buckets_[bucket]; return 1; } else { uint32_t index = DecodeIndex(block_id); assert(index < num_block_array_buffer_entries_); *blocks = &block_array_buffer_[index+1]; uint32_t num_blocks = block_array_buffer_[index]; assert(num_blocks > 1); assert(index + num_blocks < num_block_array_buffer_entries_); return num_blocks; } } } // namespace rocksdb rocksdb-5.17.2/table/block_prefix_index.h000066400000000000000000000043101337235545400203440ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #include #include "rocksdb/status.h" namespace rocksdb { class Comparator; class Iterator; class Slice; class SliceTransform; // Build a hash-based index to speed up the lookup for "index block". // BlockHashIndex accepts a key and, if found, returns its restart index within // that index block. class BlockPrefixIndex { public: // Maps a key to a list of data blocks that could potentially contain // the key, based on the prefix. // Returns the total number of relevant blocks, 0 means the key does // not exist. uint32_t GetBlocks(const Slice& key, uint32_t** blocks); size_t ApproximateMemoryUsage() const { return sizeof(BlockPrefixIndex) + (num_block_array_buffer_entries_ + num_buckets_) * sizeof(uint32_t); } // Create hash index by reading from the metadata blocks. // @params prefixes: a sequence of prefixes. // @params prefix_meta: contains the "metadata" to of the prefixes. static Status Create(const SliceTransform* hash_key_extractor, const Slice& prefixes, const Slice& prefix_meta, BlockPrefixIndex** prefix_index); ~BlockPrefixIndex() { delete[] buckets_; delete[] block_array_buffer_; } private: class Builder; friend Builder; BlockPrefixIndex(const SliceTransform* internal_prefix_extractor, uint32_t num_buckets, uint32_t* buckets, uint32_t num_block_array_buffer_entries, uint32_t* block_array_buffer) : internal_prefix_extractor_(internal_prefix_extractor), num_buckets_(num_buckets), num_block_array_buffer_entries_(num_block_array_buffer_entries), buckets_(buckets), block_array_buffer_(block_array_buffer) {} const SliceTransform* internal_prefix_extractor_; uint32_t num_buckets_; uint32_t num_block_array_buffer_entries_; uint32_t* buckets_; uint32_t* block_array_buffer_; }; } // namespace rocksdb rocksdb-5.17.2/table/block_test.cc000066400000000000000000000512651337235545400170100ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // #include #include #include #include #include #include #include #include "db/dbformat.h" #include "db/write_batch_internal.h" #include "db/memtable.h" #include "rocksdb/db.h" #include "rocksdb/env.h" #include "rocksdb/iterator.h" #include "rocksdb/table.h" #include "rocksdb/slice_transform.h" #include "table/block.h" #include "table/block_builder.h" #include "table/format.h" #include "util/random.h" #include "util/testharness.h" #include "util/testutil.h" namespace rocksdb { static std::string RandomString(Random* rnd, int len) { std::string r; test::RandomString(rnd, len, &r); return r; } std::string GenerateKey(int primary_key, int secondary_key, int padding_size, Random *rnd) { char buf[50]; char *p = &buf[0]; snprintf(buf, sizeof(buf), "%6d%4d", primary_key, secondary_key); std::string k(p); if (padding_size) { k += RandomString(rnd, padding_size); } return k; } // Generate random key value pairs. // The generated key will be sorted. You can tune the parameters to generated // different kinds of test key/value pairs for different scenario. void GenerateRandomKVs(std::vector *keys, std::vector *values, const int from, const int len, const int step = 1, const int padding_size = 0, const int keys_share_prefix = 1) { Random rnd(302); // generate different prefix for (int i = from; i < from + len; i += step) { // generating keys that shares the prefix for (int j = 0; j < keys_share_prefix; ++j) { keys->emplace_back(GenerateKey(i, j, padding_size, &rnd)); // 100 bytes values values->emplace_back(RandomString(&rnd, 100)); } } } // Same as GenerateRandomKVs but the values are BlockHandle void GenerateRandomKBHs(std::vector *keys, std::vector *values, const int from, const int len, const int step = 1, const int padding_size = 0, const int keys_share_prefix = 1) { Random rnd(302); uint64_t offset = 0; // generate different prefix for (int i = from; i < from + len; i += step) { // generate keys that shares the prefix for (int j = 0; j < keys_share_prefix; ++j) { keys->emplace_back(GenerateKey(i, j, padding_size, &rnd)); uint64_t size = rnd.Uniform(1024 * 16); BlockHandle handle(offset, size); offset += size + kBlockTrailerSize; values->emplace_back(handle); } } } class BlockTest : public testing::Test {}; // block test TEST_F(BlockTest, SimpleTest) { Random rnd(301); Options options = Options(); std::unique_ptr ic; ic.reset(new test::PlainInternalKeyComparator(options.comparator)); std::vector keys; std::vector values; BlockBuilder builder(16); int num_records = 100000; GenerateRandomKVs(&keys, &values, 0, num_records); // add a bunch of records to a block for (int i = 0; i < num_records; i++) { builder.Add(keys[i], values[i]); } // read serialized contents of the block Slice rawblock = builder.Finish(); // create block reader BlockContents contents; contents.data = rawblock; contents.cachable = false; Block reader(std::move(contents), kDisableGlobalSequenceNumber); // read contents of block sequentially int count = 0; InternalIterator *iter = reader.NewIterator(options.comparator, options.comparator); for (iter->SeekToFirst();iter->Valid(); count++, iter->Next()) { // read kv from block Slice k = iter->key(); Slice v = iter->value(); // compare with lookaside array ASSERT_EQ(k.ToString().compare(keys[count]), 0); ASSERT_EQ(v.ToString().compare(values[count]), 0); } delete iter; // read block contents randomly iter = reader.NewIterator(options.comparator, options.comparator); for (int i = 0; i < num_records; i++) { // find a random key in the lookaside array int index = rnd.Uniform(num_records); Slice k(keys[index]); // search in block for this key iter->Seek(k); ASSERT_TRUE(iter->Valid()); Slice v = iter->value(); ASSERT_EQ(v.ToString().compare(values[index]), 0); } delete iter; } TEST_F(BlockTest, ValueDeltaEncodingTest) { Random rnd(301); Options options = Options(); std::unique_ptr ic; ic.reset(new test::PlainInternalKeyComparator(options.comparator)); std::vector keys; std::vector values; const bool kUseDeltaEncoding = true; const bool kUseValueDeltaEncoding = true; BlockBuilder builder(16, kUseDeltaEncoding, kUseValueDeltaEncoding); int num_records = 100; GenerateRandomKBHs(&keys, &values, 0, num_records); // add a bunch of records to a block BlockHandle last_encoded_handle; for (int i = 0; i < num_records; i++) { auto block_handle = values[i]; std::string handle_encoding; block_handle.EncodeTo(&handle_encoding); std::string handle_delta_encoding; PutVarsignedint64(&handle_delta_encoding, block_handle.size() - last_encoded_handle.size()); last_encoded_handle = block_handle; const Slice handle_delta_encoding_slice(handle_delta_encoding); builder.Add(keys[i], handle_encoding, &handle_delta_encoding_slice); } // read serialized contents of the block Slice rawblock = builder.Finish(); // create block reader BlockContents contents; contents.data = rawblock; contents.cachable = false; Block reader(std::move(contents), kDisableGlobalSequenceNumber); const bool kTotalOrderSeek = true; const bool kIncludesSeq = true; const bool kValueIsFull = !kUseValueDeltaEncoding; IndexBlockIter *kNullIter = nullptr; Statistics *kNullStats = nullptr; // read contents of block sequentially int count = 0; InternalIteratorBase *iter = reader.NewIterator( options.comparator, options.comparator, kNullIter, kNullStats, kTotalOrderSeek, kIncludesSeq, kValueIsFull); for (iter->SeekToFirst(); iter->Valid(); count++, iter->Next()) { // read kv from block Slice k = iter->key(); BlockHandle handle = iter->value(); // compare with lookaside array ASSERT_EQ(k.ToString().compare(keys[count]), 0); ASSERT_EQ(values[count].offset(), handle.offset()); ASSERT_EQ(values[count].size(), handle.size()); } delete iter; // read block contents randomly iter = reader.NewIterator( options.comparator, options.comparator, kNullIter, kNullStats, kTotalOrderSeek, kIncludesSeq, kValueIsFull); for (int i = 0; i < num_records; i++) { // find a random key in the lookaside array int index = rnd.Uniform(num_records); Slice k(keys[index]); // search in block for this key iter->Seek(k); ASSERT_TRUE(iter->Valid()); BlockHandle handle = iter->value(); ASSERT_EQ(values[index].offset(), handle.offset()); ASSERT_EQ(values[index].size(), handle.size()); } delete iter; } // return the block contents BlockContents GetBlockContents(std::unique_ptr *builder, const std::vector &keys, const std::vector &values, const int /*prefix_group_size*/ = 1) { builder->reset(new BlockBuilder(1 /* restart interval */)); // Add only half of the keys for (size_t i = 0; i < keys.size(); ++i) { (*builder)->Add(keys[i], values[i]); } Slice rawblock = (*builder)->Finish(); BlockContents contents; contents.data = rawblock; contents.cachable = false; return contents; } void CheckBlockContents(BlockContents contents, const int max_key, const std::vector &keys, const std::vector &values) { const size_t prefix_size = 6; // create block reader BlockContents contents_ref(contents.data, contents.cachable, contents.compression_type); Block reader1(std::move(contents), kDisableGlobalSequenceNumber); Block reader2(std::move(contents_ref), kDisableGlobalSequenceNumber); std::unique_ptr prefix_extractor( NewFixedPrefixTransform(prefix_size)); std::unique_ptr regular_iter( reader2.NewIterator(BytewiseComparator(), BytewiseComparator())); // Seek existent keys for (size_t i = 0; i < keys.size(); i++) { regular_iter->Seek(keys[i]); ASSERT_OK(regular_iter->status()); ASSERT_TRUE(regular_iter->Valid()); Slice v = regular_iter->value(); ASSERT_EQ(v.ToString().compare(values[i]), 0); } // Seek non-existent keys. // For hash index, if no key with a given prefix is not found, iterator will // simply be set as invalid; whereas the binary search based iterator will // return the one that is closest. for (int i = 1; i < max_key - 1; i += 2) { auto key = GenerateKey(i, 0, 0, nullptr); regular_iter->Seek(key); ASSERT_TRUE(regular_iter->Valid()); } } // In this test case, no two key share same prefix. TEST_F(BlockTest, SimpleIndexHash) { const int kMaxKey = 100000; std::vector keys; std::vector values; GenerateRandomKVs(&keys, &values, 0 /* first key id */, kMaxKey /* last key id */, 2 /* step */, 8 /* padding size (8 bytes randomly generated suffix) */); std::unique_ptr builder; auto contents = GetBlockContents(&builder, keys, values); CheckBlockContents(std::move(contents), kMaxKey, keys, values); } TEST_F(BlockTest, IndexHashWithSharedPrefix) { const int kMaxKey = 100000; // for each prefix, there will be 5 keys starts with it. const int kPrefixGroup = 5; std::vector keys; std::vector values; // Generate keys with same prefix. GenerateRandomKVs(&keys, &values, 0, // first key id kMaxKey, // last key id 2, // step 10, // padding size, kPrefixGroup); std::unique_ptr builder; auto contents = GetBlockContents(&builder, keys, values, kPrefixGroup); CheckBlockContents(std::move(contents), kMaxKey, keys, values); } // A slow and accurate version of BlockReadAmpBitmap that simply store // all the marked ranges in a set. class BlockReadAmpBitmapSlowAndAccurate { public: void Mark(size_t start_offset, size_t end_offset) { assert(end_offset >= start_offset); marked_ranges_.emplace(end_offset, start_offset); } void ResetCheckSequence() { iter_valid_ = false; } // Return true if any byte in this range was Marked // This does linear search from the previous position. When calling // multiple times, `offset` needs to be incremental to get correct results. // Call ResetCheckSequence() to reset it. bool IsPinMarked(size_t offset) { if (iter_valid_) { // Has existing iterator, try linear search from // the iterator. for (int i = 0; i < 64; i++) { if (offset < iter_->second) { return false; } if (offset <= iter_->first) { return true; } iter_++; if (iter_ == marked_ranges_.end()) { iter_valid_ = false; return false; } } } // Initial call or have linear searched too many times. // Do binary search. iter_ = marked_ranges_.lower_bound( std::make_pair(offset, static_cast(0))); if (iter_ == marked_ranges_.end()) { iter_valid_ = false; return false; } iter_valid_ = true; return offset <= iter_->first && offset >= iter_->second; } private: std::set> marked_ranges_; std::set>::iterator iter_; bool iter_valid_ = false; }; TEST_F(BlockTest, BlockReadAmpBitmap) { uint32_t pin_offset = 0; SyncPoint::GetInstance()->SetCallBack( "BlockReadAmpBitmap:rnd", [&pin_offset](void* arg) { pin_offset = *(static_cast(arg)); }); SyncPoint::GetInstance()->EnableProcessing(); std::vector block_sizes = { 1, // 1 byte 32, // 32 bytes 61, // 61 bytes 64, // 64 bytes 512, // 0.5 KB 1024, // 1 KB 1024 * 4, // 4 KB 1024 * 10, // 10 KB 1024 * 50, // 50 KB 1024 * 1024 * 4, // 5 MB 777, 124653, }; const size_t kBytesPerBit = 64; Random rnd(301); for (size_t block_size : block_sizes) { std::shared_ptr stats = rocksdb::CreateDBStatistics(); BlockReadAmpBitmap read_amp_bitmap(block_size, kBytesPerBit, stats.get()); BlockReadAmpBitmapSlowAndAccurate read_amp_slow_and_accurate; size_t needed_bits = (block_size / kBytesPerBit); if (block_size % kBytesPerBit != 0) { needed_bits++; } ASSERT_EQ(stats->getTickerCount(READ_AMP_TOTAL_READ_BYTES), block_size); // Generate some random entries std::vector random_entry_offsets; for (int i = 0; i < 1000; i++) { random_entry_offsets.push_back(rnd.Next() % block_size); } std::sort(random_entry_offsets.begin(), random_entry_offsets.end()); auto it = std::unique(random_entry_offsets.begin(), random_entry_offsets.end()); random_entry_offsets.resize( std::distance(random_entry_offsets.begin(), it)); std::vector> random_entries; for (size_t i = 0; i < random_entry_offsets.size(); i++) { size_t entry_start = random_entry_offsets[i]; size_t entry_end; if (i + 1 < random_entry_offsets.size()) { entry_end = random_entry_offsets[i + 1] - 1; } else { entry_end = block_size - 1; } random_entries.emplace_back(entry_start, entry_end); } for (size_t i = 0; i < random_entries.size(); i++) { read_amp_slow_and_accurate.ResetCheckSequence(); auto ¤t_entry = random_entries[rnd.Next() % random_entries.size()]; read_amp_bitmap.Mark(static_cast(current_entry.first), static_cast(current_entry.second)); read_amp_slow_and_accurate.Mark(current_entry.first, current_entry.second); size_t total_bits = 0; for (size_t bit_idx = 0; bit_idx < needed_bits; bit_idx++) { total_bits += read_amp_slow_and_accurate.IsPinMarked( bit_idx * kBytesPerBit + pin_offset); } size_t expected_estimate_useful = total_bits * kBytesPerBit; size_t got_estimate_useful = stats->getTickerCount(READ_AMP_ESTIMATE_USEFUL_BYTES); ASSERT_EQ(expected_estimate_useful, got_estimate_useful); } } SyncPoint::GetInstance()->DisableProcessing(); SyncPoint::GetInstance()->ClearAllCallBacks(); } TEST_F(BlockTest, BlockWithReadAmpBitmap) { Random rnd(301); Options options = Options(); std::unique_ptr ic; ic.reset(new test::PlainInternalKeyComparator(options.comparator)); std::vector keys; std::vector values; BlockBuilder builder(16); int num_records = 10000; GenerateRandomKVs(&keys, &values, 0, num_records, 1); // add a bunch of records to a block for (int i = 0; i < num_records; i++) { builder.Add(keys[i], values[i]); } Slice rawblock = builder.Finish(); const size_t kBytesPerBit = 8; // Read the block sequentially using Next() { std::shared_ptr stats = rocksdb::CreateDBStatistics(); // create block reader BlockContents contents; contents.data = rawblock; contents.cachable = true; Block reader(std::move(contents), kDisableGlobalSequenceNumber, kBytesPerBit, stats.get()); // read contents of block sequentially size_t read_bytes = 0; DataBlockIter *iter = static_cast(reader.NewIterator( options.comparator, options.comparator, nullptr, stats.get())); for (iter->SeekToFirst(); iter->Valid(); iter->Next()) { iter->value(); read_bytes += iter->TEST_CurrentEntrySize(); double semi_acc_read_amp = static_cast(read_bytes) / rawblock.size(); double read_amp = static_cast(stats->getTickerCount( READ_AMP_ESTIMATE_USEFUL_BYTES)) / stats->getTickerCount(READ_AMP_TOTAL_READ_BYTES); // Error in read amplification will be less than 1% if we are reading // sequentially double error_pct = fabs(semi_acc_read_amp - read_amp) * 100; EXPECT_LT(error_pct, 1); } delete iter; } // Read the block sequentially using Seek() { std::shared_ptr stats = rocksdb::CreateDBStatistics(); // create block reader BlockContents contents; contents.data = rawblock; contents.cachable = true; Block reader(std::move(contents), kDisableGlobalSequenceNumber, kBytesPerBit, stats.get()); size_t read_bytes = 0; DataBlockIter *iter = static_cast(reader.NewIterator( options.comparator, options.comparator, nullptr, stats.get())); for (int i = 0; i < num_records; i++) { Slice k(keys[i]); // search in block for this key iter->Seek(k); iter->value(); read_bytes += iter->TEST_CurrentEntrySize(); double semi_acc_read_amp = static_cast(read_bytes) / rawblock.size(); double read_amp = static_cast(stats->getTickerCount( READ_AMP_ESTIMATE_USEFUL_BYTES)) / stats->getTickerCount(READ_AMP_TOTAL_READ_BYTES); // Error in read amplification will be less than 1% if we are reading // sequentially double error_pct = fabs(semi_acc_read_amp - read_amp) * 100; EXPECT_LT(error_pct, 1); } delete iter; } // Read the block randomly { std::shared_ptr stats = rocksdb::CreateDBStatistics(); // create block reader BlockContents contents; contents.data = rawblock; contents.cachable = true; Block reader(std::move(contents), kDisableGlobalSequenceNumber, kBytesPerBit, stats.get()); size_t read_bytes = 0; DataBlockIter *iter = static_cast(reader.NewIterator( options.comparator, options.comparator, nullptr, stats.get())); std::unordered_set read_keys; for (int i = 0; i < num_records; i++) { int index = rnd.Uniform(num_records); Slice k(keys[index]); iter->Seek(k); iter->value(); if (read_keys.find(index) == read_keys.end()) { read_keys.insert(index); read_bytes += iter->TEST_CurrentEntrySize(); } double semi_acc_read_amp = static_cast(read_bytes) / rawblock.size(); double read_amp = static_cast(stats->getTickerCount( READ_AMP_ESTIMATE_USEFUL_BYTES)) / stats->getTickerCount(READ_AMP_TOTAL_READ_BYTES); double error_pct = fabs(semi_acc_read_amp - read_amp) * 100; // Error in read amplification will be less than 2% if we are reading // randomly EXPECT_LT(error_pct, 2); } delete iter; } } TEST_F(BlockTest, ReadAmpBitmapPow2) { std::shared_ptr stats = rocksdb::CreateDBStatistics(); ASSERT_EQ(BlockReadAmpBitmap(100, 1, stats.get()).GetBytesPerBit(), 1); ASSERT_EQ(BlockReadAmpBitmap(100, 2, stats.get()).GetBytesPerBit(), 2); ASSERT_EQ(BlockReadAmpBitmap(100, 4, stats.get()).GetBytesPerBit(), 4); ASSERT_EQ(BlockReadAmpBitmap(100, 8, stats.get()).GetBytesPerBit(), 8); ASSERT_EQ(BlockReadAmpBitmap(100, 16, stats.get()).GetBytesPerBit(), 16); ASSERT_EQ(BlockReadAmpBitmap(100, 32, stats.get()).GetBytesPerBit(), 32); ASSERT_EQ(BlockReadAmpBitmap(100, 3, stats.get()).GetBytesPerBit(), 2); ASSERT_EQ(BlockReadAmpBitmap(100, 7, stats.get()).GetBytesPerBit(), 4); ASSERT_EQ(BlockReadAmpBitmap(100, 11, stats.get()).GetBytesPerBit(), 8); ASSERT_EQ(BlockReadAmpBitmap(100, 17, stats.get()).GetBytesPerBit(), 16); ASSERT_EQ(BlockReadAmpBitmap(100, 33, stats.get()).GetBytesPerBit(), 32); ASSERT_EQ(BlockReadAmpBitmap(100, 35, stats.get()).GetBytesPerBit(), 32); } } // namespace rocksdb int main(int argc, char **argv) { ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/table/bloom_block.cc000066400000000000000000000012741337235545400171340ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include "table/bloom_block.h" #include #include "rocksdb/slice.h" #include "util/dynamic_bloom.h" namespace rocksdb { void BloomBlockBuilder::AddKeysHashes(const std::vector& keys_hashes) { for (auto hash : keys_hashes) { bloom_.AddHash(hash); } } Slice BloomBlockBuilder::Finish() { return bloom_.GetRawData(); } const std::string BloomBlockBuilder::kBloomBlock = "kBloomBlock"; } // namespace rocksdb rocksdb-5.17.2/table/bloom_block.h000066400000000000000000000020251337235545400167710ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #include #include #include "util/dynamic_bloom.h" namespace rocksdb { class Logger; class BloomBlockBuilder { public: static const std::string kBloomBlock; explicit BloomBlockBuilder(uint32_t num_probes = 6) : bloom_(num_probes, nullptr) {} void SetTotalBits(Allocator* allocator, uint32_t total_bits, uint32_t locality, size_t huge_page_tlb_size, Logger* logger) { bloom_.SetTotalBits(allocator, total_bits, locality, huge_page_tlb_size, logger); } uint32_t GetNumBlocks() const { return bloom_.GetNumBlocks(); } void AddKeysHashes(const std::vector& keys_hashes); Slice Finish(); private: DynamicBloom bloom_; }; }; // namespace rocksdb rocksdb-5.17.2/table/cleanable_test.cc000066400000000000000000000145351337235545400176230ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include #include "port/port.h" #include "port/stack_trace.h" #include "rocksdb/iostats_context.h" #include "rocksdb/perf_context.h" #include "util/testharness.h" #include "util/testutil.h" namespace rocksdb { class CleanableTest : public testing::Test {}; // Use this to keep track of the cleanups that were actually performed void Multiplier(void* arg1, void* arg2) { int* res = reinterpret_cast(arg1); int* num = reinterpret_cast(arg2); *res *= *num; } // the first Cleanup is on stack and the rest on heap, so test with both cases TEST_F(CleanableTest, Register) { int n2 = 2, n3 = 3; int res = 1; { Cleanable c1; } // ~Cleanable ASSERT_EQ(1, res); res = 1; { Cleanable c1; c1.RegisterCleanup(Multiplier, &res, &n2); // res = 2; } // ~Cleanable ASSERT_EQ(2, res); res = 1; { Cleanable c1; c1.RegisterCleanup(Multiplier, &res, &n2); // res = 2; c1.RegisterCleanup(Multiplier, &res, &n3); // res = 2 * 3; } // ~Cleanable ASSERT_EQ(6, res); // Test the Reset does cleanup res = 1; { Cleanable c1; c1.RegisterCleanup(Multiplier, &res, &n2); // res = 2; c1.RegisterCleanup(Multiplier, &res, &n3); // res = 2 * 3; c1.Reset(); ASSERT_EQ(6, res); } // ~Cleanable ASSERT_EQ(6, res); // Test Clenable is usable after Reset res = 1; { Cleanable c1; c1.RegisterCleanup(Multiplier, &res, &n2); // res = 2; c1.Reset(); ASSERT_EQ(2, res); c1.RegisterCleanup(Multiplier, &res, &n3); // res = 2 * 3; } // ~Cleanable ASSERT_EQ(6, res); } // the first Cleanup is on stack and the rest on heap, // so test all the combinations of them TEST_F(CleanableTest, Delegation) { int n2 = 2, n3 = 3, n5 = 5, n7 = 7; int res = 1; { Cleanable c2; { Cleanable c1; c1.RegisterCleanup(Multiplier, &res, &n2); // res = 2; c1.DelegateCleanupsTo(&c2); } // ~Cleanable ASSERT_EQ(1, res); } // ~Cleanable ASSERT_EQ(2, res); res = 1; { Cleanable c2; { Cleanable c1; c1.DelegateCleanupsTo(&c2); } // ~Cleanable ASSERT_EQ(1, res); } // ~Cleanable ASSERT_EQ(1, res); res = 1; { Cleanable c2; { Cleanable c1; c1.RegisterCleanup(Multiplier, &res, &n2); // res = 2; c1.RegisterCleanup(Multiplier, &res, &n3); // res = 2 * 3; c1.DelegateCleanupsTo(&c2); } // ~Cleanable ASSERT_EQ(1, res); } // ~Cleanable ASSERT_EQ(6, res); res = 1; { Cleanable c2; c2.RegisterCleanup(Multiplier, &res, &n5); // res = 5; { Cleanable c1; c1.RegisterCleanup(Multiplier, &res, &n2); // res = 2; c1.RegisterCleanup(Multiplier, &res, &n3); // res = 2 * 3; c1.DelegateCleanupsTo(&c2); // res = 2 * 3 * 5; } // ~Cleanable ASSERT_EQ(1, res); } // ~Cleanable ASSERT_EQ(30, res); res = 1; { Cleanable c2; c2.RegisterCleanup(Multiplier, &res, &n5); // res = 5; c2.RegisterCleanup(Multiplier, &res, &n7); // res = 5 * 7; { Cleanable c1; c1.RegisterCleanup(Multiplier, &res, &n2); // res = 2; c1.RegisterCleanup(Multiplier, &res, &n3); // res = 2 * 3; c1.DelegateCleanupsTo(&c2); // res = 2 * 3 * 5 * 7; } // ~Cleanable ASSERT_EQ(1, res); } // ~Cleanable ASSERT_EQ(210, res); res = 1; { Cleanable c2; c2.RegisterCleanup(Multiplier, &res, &n5); // res = 5; c2.RegisterCleanup(Multiplier, &res, &n7); // res = 5 * 7; { Cleanable c1; c1.RegisterCleanup(Multiplier, &res, &n2); // res = 2; c1.DelegateCleanupsTo(&c2); // res = 2 * 5 * 7; } // ~Cleanable ASSERT_EQ(1, res); } // ~Cleanable ASSERT_EQ(70, res); res = 1; { Cleanable c2; c2.RegisterCleanup(Multiplier, &res, &n5); // res = 5; c2.RegisterCleanup(Multiplier, &res, &n7); // res = 5 * 7; { Cleanable c1; c1.DelegateCleanupsTo(&c2); // res = 5 * 7; } // ~Cleanable ASSERT_EQ(1, res); } // ~Cleanable ASSERT_EQ(35, res); res = 1; { Cleanable c2; c2.RegisterCleanup(Multiplier, &res, &n5); // res = 5; { Cleanable c1; c1.DelegateCleanupsTo(&c2); // res = 5; } // ~Cleanable ASSERT_EQ(1, res); } // ~Cleanable ASSERT_EQ(5, res); } static void ReleaseStringHeap(void* s, void*) { delete reinterpret_cast(s); } class PinnableSlice4Test : public PinnableSlice { public: void TestStringIsRegistered(std::string* s) { ASSERT_TRUE(cleanup_.function == ReleaseStringHeap); ASSERT_EQ(cleanup_.arg1, s); ASSERT_EQ(cleanup_.arg2, nullptr); ASSERT_EQ(cleanup_.next, nullptr); } }; // Putting the PinnableSlice tests here due to similarity to Cleanable tests TEST_F(CleanableTest, PinnableSlice) { int n2 = 2; int res = 1; const std::string const_str = "123"; { res = 1; PinnableSlice4Test value; Slice slice(const_str); value.PinSlice(slice, Multiplier, &res, &n2); std::string str; str.assign(value.data(), value.size()); ASSERT_EQ(const_str, str); } // ~Cleanable ASSERT_EQ(2, res); { res = 1; PinnableSlice4Test value; Slice slice(const_str); { Cleanable c1; c1.RegisterCleanup(Multiplier, &res, &n2); // res = 2; value.PinSlice(slice, &c1); } // ~Cleanable ASSERT_EQ(1, res); // cleanups must have be delegated to value std::string str; str.assign(value.data(), value.size()); ASSERT_EQ(const_str, str); } // ~Cleanable ASSERT_EQ(2, res); { PinnableSlice4Test value; Slice slice(const_str); value.PinSelf(slice); std::string str; str.assign(value.data(), value.size()); ASSERT_EQ(const_str, str); } { PinnableSlice4Test value; std::string* self_str_ptr = value.GetSelf(); self_str_ptr->assign(const_str); value.PinSelf(); std::string str; str.assign(value.data(), value.size()); ASSERT_EQ(const_str, str); } } } // namespace rocksdb int main(int argc, char** argv) { rocksdb::port::InstallStackTraceHandler(); ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/table/cuckoo_table_builder.cc000066400000000000000000000471441337235545400210200ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #ifndef ROCKSDB_LITE #include "table/cuckoo_table_builder.h" #include #include #include #include #include #include "db/dbformat.h" #include "rocksdb/env.h" #include "rocksdb/table.h" #include "table/block_builder.h" #include "table/cuckoo_table_factory.h" #include "table/format.h" #include "table/meta_blocks.h" #include "util/autovector.h" #include "util/file_reader_writer.h" #include "util/random.h" #include "util/string_util.h" namespace rocksdb { const std::string CuckooTablePropertyNames::kEmptyKey = "rocksdb.cuckoo.bucket.empty.key"; const std::string CuckooTablePropertyNames::kNumHashFunc = "rocksdb.cuckoo.hash.num"; const std::string CuckooTablePropertyNames::kHashTableSize = "rocksdb.cuckoo.hash.size"; const std::string CuckooTablePropertyNames::kValueLength = "rocksdb.cuckoo.value.length"; const std::string CuckooTablePropertyNames::kIsLastLevel = "rocksdb.cuckoo.file.islastlevel"; const std::string CuckooTablePropertyNames::kCuckooBlockSize = "rocksdb.cuckoo.hash.cuckooblocksize"; const std::string CuckooTablePropertyNames::kIdentityAsFirstHash = "rocksdb.cuckoo.hash.identityfirst"; const std::string CuckooTablePropertyNames::kUseModuleHash = "rocksdb.cuckoo.hash.usemodule"; const std::string CuckooTablePropertyNames::kUserKeyLength = "rocksdb.cuckoo.hash.userkeylength"; // Obtained by running echo rocksdb.table.cuckoo | sha1sum extern const uint64_t kCuckooTableMagicNumber = 0x926789d0c5f17873ull; CuckooTableBuilder::CuckooTableBuilder( WritableFileWriter* file, double max_hash_table_ratio, uint32_t max_num_hash_table, uint32_t max_search_depth, const Comparator* user_comparator, uint32_t cuckoo_block_size, bool use_module_hash, bool identity_as_first_hash, uint64_t (*get_slice_hash)(const Slice&, uint32_t, uint64_t), uint32_t column_family_id, const std::string& column_family_name) : num_hash_func_(2), file_(file), max_hash_table_ratio_(max_hash_table_ratio), max_num_hash_func_(max_num_hash_table), max_search_depth_(max_search_depth), cuckoo_block_size_(std::max(1U, cuckoo_block_size)), hash_table_size_(use_module_hash ? 0 : 2), is_last_level_file_(false), has_seen_first_key_(false), has_seen_first_value_(false), key_size_(0), value_size_(0), num_entries_(0), num_values_(0), ucomp_(user_comparator), use_module_hash_(use_module_hash), identity_as_first_hash_(identity_as_first_hash), get_slice_hash_(get_slice_hash), closed_(false) { // Data is in a huge block. properties_.num_data_blocks = 1; properties_.index_size = 0; properties_.filter_size = 0; properties_.column_family_id = column_family_id; properties_.column_family_name = column_family_name; } void CuckooTableBuilder::Add(const Slice& key, const Slice& value) { if (num_entries_ >= kMaxVectorIdx - 1) { status_ = Status::NotSupported("Number of keys in a file must be < 2^32-1"); return; } ParsedInternalKey ikey; if (!ParseInternalKey(key, &ikey)) { status_ = Status::Corruption("Unable to parse key into inernal key."); return; } if (ikey.type != kTypeDeletion && ikey.type != kTypeValue) { status_ = Status::NotSupported("Unsupported key type " + ToString(ikey.type)); return; } // Determine if we can ignore the sequence number and value type from // internal keys by looking at sequence number from first key. We assume // that if first key has a zero sequence number, then all the remaining // keys will have zero seq. no. if (!has_seen_first_key_) { is_last_level_file_ = ikey.sequence == 0; has_seen_first_key_ = true; smallest_user_key_.assign(ikey.user_key.data(), ikey.user_key.size()); largest_user_key_.assign(ikey.user_key.data(), ikey.user_key.size()); key_size_ = is_last_level_file_ ? ikey.user_key.size() : key.size(); } if (key_size_ != (is_last_level_file_ ? ikey.user_key.size() : key.size())) { status_ = Status::NotSupported("all keys have to be the same size"); return; } if (ikey.type == kTypeValue) { if (!has_seen_first_value_) { has_seen_first_value_ = true; value_size_ = value.size(); } if (value_size_ != value.size()) { status_ = Status::NotSupported("all values have to be the same size"); return; } if (is_last_level_file_) { kvs_.append(ikey.user_key.data(), ikey.user_key.size()); } else { kvs_.append(key.data(), key.size()); } kvs_.append(value.data(), value.size()); ++num_values_; } else { if (is_last_level_file_) { deleted_keys_.append(ikey.user_key.data(), ikey.user_key.size()); } else { deleted_keys_.append(key.data(), key.size()); } } ++num_entries_; // In order to fill the empty buckets in the hash table, we identify a // key which is not used so far (unused_user_key). We determine this by // maintaining smallest and largest keys inserted so far in bytewise order // and use them to find a key outside this range in Finish() operation. // Note that this strategy is independent of user comparator used here. if (ikey.user_key.compare(smallest_user_key_) < 0) { smallest_user_key_.assign(ikey.user_key.data(), ikey.user_key.size()); } else if (ikey.user_key.compare(largest_user_key_) > 0) { largest_user_key_.assign(ikey.user_key.data(), ikey.user_key.size()); } if (!use_module_hash_) { if (hash_table_size_ < num_entries_ / max_hash_table_ratio_) { hash_table_size_ *= 2; } } } bool CuckooTableBuilder::IsDeletedKey(uint64_t idx) const { assert(closed_); return idx >= num_values_; } Slice CuckooTableBuilder::GetKey(uint64_t idx) const { assert(closed_); if (IsDeletedKey(idx)) { return Slice(&deleted_keys_[static_cast((idx - num_values_) * key_size_)], static_cast(key_size_)); } return Slice(&kvs_[static_cast(idx * (key_size_ + value_size_))], static_cast(key_size_)); } Slice CuckooTableBuilder::GetUserKey(uint64_t idx) const { assert(closed_); return is_last_level_file_ ? GetKey(idx) : ExtractUserKey(GetKey(idx)); } Slice CuckooTableBuilder::GetValue(uint64_t idx) const { assert(closed_); if (IsDeletedKey(idx)) { static std::string empty_value(static_cast(value_size_), 'a'); return Slice(empty_value); } return Slice(&kvs_[static_cast(idx * (key_size_ + value_size_) + key_size_)], static_cast(value_size_)); } Status CuckooTableBuilder::MakeHashTable(std::vector* buckets) { buckets->resize(static_cast(hash_table_size_ + cuckoo_block_size_ - 1)); uint32_t make_space_for_key_call_id = 0; for (uint32_t vector_idx = 0; vector_idx < num_entries_; vector_idx++) { uint64_t bucket_id = 0; bool bucket_found = false; autovector hash_vals; Slice user_key = GetUserKey(vector_idx); for (uint32_t hash_cnt = 0; hash_cnt < num_hash_func_ && !bucket_found; ++hash_cnt) { uint64_t hash_val = CuckooHash(user_key, hash_cnt, use_module_hash_, hash_table_size_, identity_as_first_hash_, get_slice_hash_); // If there is a collision, check next cuckoo_block_size_ locations for // empty locations. While checking, if we reach end of the hash table, // stop searching and proceed for next hash function. for (uint32_t block_idx = 0; block_idx < cuckoo_block_size_; ++block_idx, ++hash_val) { if ((*buckets)[static_cast(hash_val)].vector_idx == kMaxVectorIdx) { bucket_id = hash_val; bucket_found = true; break; } else { if (ucomp_->Compare(user_key, GetUserKey((*buckets)[static_cast(hash_val)].vector_idx)) == 0) { return Status::NotSupported("Same key is being inserted again."); } hash_vals.push_back(hash_val); } } } while (!bucket_found && !MakeSpaceForKey(hash_vals, ++make_space_for_key_call_id, buckets, &bucket_id)) { // Rehash by increashing number of hash tables. if (num_hash_func_ >= max_num_hash_func_) { return Status::NotSupported("Too many collisions. Unable to hash."); } // We don't really need to rehash the entire table because old hashes are // still valid and we only increased the number of hash functions. uint64_t hash_val = CuckooHash(user_key, num_hash_func_, use_module_hash_, hash_table_size_, identity_as_first_hash_, get_slice_hash_); ++num_hash_func_; for (uint32_t block_idx = 0; block_idx < cuckoo_block_size_; ++block_idx, ++hash_val) { if ((*buckets)[static_cast(hash_val)].vector_idx == kMaxVectorIdx) { bucket_found = true; bucket_id = hash_val; break; } else { hash_vals.push_back(hash_val); } } } (*buckets)[static_cast(bucket_id)].vector_idx = vector_idx; } return Status::OK(); } Status CuckooTableBuilder::Finish() { assert(!closed_); closed_ = true; std::vector buckets; Status s; std::string unused_bucket; if (num_entries_ > 0) { // Calculate the real hash size if module hash is enabled. if (use_module_hash_) { hash_table_size_ = static_cast(num_entries_ / max_hash_table_ratio_); } s = MakeHashTable(&buckets); if (!s.ok()) { return s; } // Determine unused_user_key to fill empty buckets. std::string unused_user_key = smallest_user_key_; int curr_pos = static_cast(unused_user_key.size()) - 1; while (curr_pos >= 0) { --unused_user_key[curr_pos]; if (Slice(unused_user_key).compare(smallest_user_key_) < 0) { break; } --curr_pos; } if (curr_pos < 0) { // Try using the largest key to identify an unused key. unused_user_key = largest_user_key_; curr_pos = static_cast(unused_user_key.size()) - 1; while (curr_pos >= 0) { ++unused_user_key[curr_pos]; if (Slice(unused_user_key).compare(largest_user_key_) > 0) { break; } --curr_pos; } } if (curr_pos < 0) { return Status::Corruption("Unable to find unused key"); } if (is_last_level_file_) { unused_bucket = unused_user_key; } else { ParsedInternalKey ikey(unused_user_key, 0, kTypeValue); AppendInternalKey(&unused_bucket, ikey); } } properties_.num_entries = num_entries_; properties_.fixed_key_len = key_size_; properties_.user_collected_properties[ CuckooTablePropertyNames::kValueLength].assign( reinterpret_cast(&value_size_), sizeof(value_size_)); uint64_t bucket_size = key_size_ + value_size_; unused_bucket.resize(static_cast(bucket_size), 'a'); // Write the table. uint32_t num_added = 0; for (auto& bucket : buckets) { if (bucket.vector_idx == kMaxVectorIdx) { s = file_->Append(Slice(unused_bucket)); } else { ++num_added; s = file_->Append(GetKey(bucket.vector_idx)); if (s.ok()) { if (value_size_ > 0) { s = file_->Append(GetValue(bucket.vector_idx)); } } } if (!s.ok()) { return s; } } assert(num_added == NumEntries()); properties_.raw_key_size = num_added * properties_.fixed_key_len; properties_.raw_value_size = num_added * value_size_; uint64_t offset = buckets.size() * bucket_size; properties_.data_size = offset; unused_bucket.resize(static_cast(properties_.fixed_key_len)); properties_.user_collected_properties[ CuckooTablePropertyNames::kEmptyKey] = unused_bucket; properties_.user_collected_properties[ CuckooTablePropertyNames::kNumHashFunc].assign( reinterpret_cast(&num_hash_func_), sizeof(num_hash_func_)); properties_.user_collected_properties[ CuckooTablePropertyNames::kHashTableSize].assign( reinterpret_cast(&hash_table_size_), sizeof(hash_table_size_)); properties_.user_collected_properties[ CuckooTablePropertyNames::kIsLastLevel].assign( reinterpret_cast(&is_last_level_file_), sizeof(is_last_level_file_)); properties_.user_collected_properties[ CuckooTablePropertyNames::kCuckooBlockSize].assign( reinterpret_cast(&cuckoo_block_size_), sizeof(cuckoo_block_size_)); properties_.user_collected_properties[ CuckooTablePropertyNames::kIdentityAsFirstHash].assign( reinterpret_cast(&identity_as_first_hash_), sizeof(identity_as_first_hash_)); properties_.user_collected_properties[ CuckooTablePropertyNames::kUseModuleHash].assign( reinterpret_cast(&use_module_hash_), sizeof(use_module_hash_)); uint32_t user_key_len = static_cast(smallest_user_key_.size()); properties_.user_collected_properties[ CuckooTablePropertyNames::kUserKeyLength].assign( reinterpret_cast(&user_key_len), sizeof(user_key_len)); // Write meta blocks. MetaIndexBuilder meta_index_builder; PropertyBlockBuilder property_block_builder; property_block_builder.AddTableProperty(properties_); property_block_builder.Add(properties_.user_collected_properties); Slice property_block = property_block_builder.Finish(); BlockHandle property_block_handle; property_block_handle.set_offset(offset); property_block_handle.set_size(property_block.size()); s = file_->Append(property_block); offset += property_block.size(); if (!s.ok()) { return s; } meta_index_builder.Add(kPropertiesBlock, property_block_handle); Slice meta_index_block = meta_index_builder.Finish(); BlockHandle meta_index_block_handle; meta_index_block_handle.set_offset(offset); meta_index_block_handle.set_size(meta_index_block.size()); s = file_->Append(meta_index_block); if (!s.ok()) { return s; } Footer footer(kCuckooTableMagicNumber, 1); footer.set_metaindex_handle(meta_index_block_handle); footer.set_index_handle(BlockHandle::NullBlockHandle()); std::string footer_encoding; footer.EncodeTo(&footer_encoding); s = file_->Append(footer_encoding); return s; } void CuckooTableBuilder::Abandon() { assert(!closed_); closed_ = true; } uint64_t CuckooTableBuilder::NumEntries() const { return num_entries_; } uint64_t CuckooTableBuilder::FileSize() const { if (closed_) { return file_->GetFileSize(); } else if (num_entries_ == 0) { return 0; } if (use_module_hash_) { return static_cast((key_size_ + value_size_) * num_entries_ / max_hash_table_ratio_); } else { // Account for buckets being a power of two. // As elements are added, file size remains constant for a while and // doubles its size. Since compaction algorithm stops adding elements // only after it exceeds the file limit, we account for the extra element // being added here. uint64_t expected_hash_table_size = hash_table_size_; if (expected_hash_table_size < (num_entries_ + 1) / max_hash_table_ratio_) { expected_hash_table_size *= 2; } return (key_size_ + value_size_) * expected_hash_table_size - 1; } } // This method is invoked when there is no place to insert the target key. // It searches for a set of elements that can be moved to accommodate target // key. The search is a BFS graph traversal with first level (hash_vals) // being all the buckets target key could go to. // Then, from each node (curr_node), we find all the buckets that curr_node // could go to. They form the children of curr_node in the tree. // We continue the traversal until we find an empty bucket, in which case, we // move all elements along the path from first level to this empty bucket, to // make space for target key which is inserted at first level (*bucket_id). // If tree depth exceedes max depth, we return false indicating failure. bool CuckooTableBuilder::MakeSpaceForKey( const autovector& hash_vals, const uint32_t make_space_for_key_call_id, std::vector* buckets, uint64_t* bucket_id) { struct CuckooNode { uint64_t bucket_id; uint32_t depth; uint32_t parent_pos; CuckooNode(uint64_t _bucket_id, uint32_t _depth, int _parent_pos) : bucket_id(_bucket_id), depth(_depth), parent_pos(_parent_pos) {} }; // This is BFS search tree that is stored simply as a vector. // Each node stores the index of parent node in the vector. std::vector tree; // We want to identify already visited buckets in the current method call so // that we don't add same buckets again for exploration in the tree. // We do this by maintaining a count of current method call in // make_space_for_key_call_id, which acts as a unique id for this invocation // of the method. We store this number into the nodes that we explore in // current method call. // It is unlikely for the increment operation to overflow because the maximum // no. of times this will be called is <= max_num_hash_func_ + num_entries_. for (uint32_t hash_cnt = 0; hash_cnt < num_hash_func_; ++hash_cnt) { uint64_t bid = hash_vals[hash_cnt]; (*buckets)[static_cast(bid)].make_space_for_key_call_id = make_space_for_key_call_id; tree.push_back(CuckooNode(bid, 0, 0)); } bool null_found = false; uint32_t curr_pos = 0; while (!null_found && curr_pos < tree.size()) { CuckooNode& curr_node = tree[curr_pos]; uint32_t curr_depth = curr_node.depth; if (curr_depth >= max_search_depth_) { break; } CuckooBucket& curr_bucket = (*buckets)[static_cast(curr_node.bucket_id)]; for (uint32_t hash_cnt = 0; hash_cnt < num_hash_func_ && !null_found; ++hash_cnt) { uint64_t child_bucket_id = CuckooHash(GetUserKey(curr_bucket.vector_idx), hash_cnt, use_module_hash_, hash_table_size_, identity_as_first_hash_, get_slice_hash_); // Iterate inside Cuckoo Block. for (uint32_t block_idx = 0; block_idx < cuckoo_block_size_; ++block_idx, ++child_bucket_id) { if ((*buckets)[static_cast(child_bucket_id)].make_space_for_key_call_id == make_space_for_key_call_id) { continue; } (*buckets)[static_cast(child_bucket_id)].make_space_for_key_call_id = make_space_for_key_call_id; tree.push_back(CuckooNode(child_bucket_id, curr_depth + 1, curr_pos)); if ((*buckets)[static_cast(child_bucket_id)].vector_idx == kMaxVectorIdx) { null_found = true; break; } } } ++curr_pos; } if (null_found) { // There is an empty node in tree.back(). Now, traverse the path from this // empty node to top of the tree and at every node in the path, replace // child with the parent. Stop when first level is reached in the tree // (happens when 0 <= bucket_to_replace_pos < num_hash_func_) and return // this location in first level for target key to be inserted. uint32_t bucket_to_replace_pos = static_cast(tree.size()) - 1; while (bucket_to_replace_pos >= num_hash_func_) { CuckooNode& curr_node = tree[bucket_to_replace_pos]; (*buckets)[static_cast(curr_node.bucket_id)] = (*buckets)[static_cast(tree[curr_node.parent_pos].bucket_id)]; bucket_to_replace_pos = curr_node.parent_pos; } *bucket_id = tree[bucket_to_replace_pos].bucket_id; } return null_found; } } // namespace rocksdb #endif // ROCKSDB_LITE rocksdb-5.17.2/table/cuckoo_table_builder.h000066400000000000000000000110651337235545400206530ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #ifndef ROCKSDB_LITE #include #include #include #include #include #include "port/port.h" #include "rocksdb/status.h" #include "table/table_builder.h" #include "rocksdb/table.h" #include "rocksdb/table_properties.h" #include "util/autovector.h" namespace rocksdb { class CuckooTableBuilder: public TableBuilder { public: CuckooTableBuilder(WritableFileWriter* file, double max_hash_table_ratio, uint32_t max_num_hash_func, uint32_t max_search_depth, const Comparator* user_comparator, uint32_t cuckoo_block_size, bool use_module_hash, bool identity_as_first_hash, uint64_t (*get_slice_hash)(const Slice&, uint32_t, uint64_t), uint32_t column_family_id, const std::string& column_family_name); // REQUIRES: Either Finish() or Abandon() has been called. ~CuckooTableBuilder() {} // Add key,value to the table being constructed. // REQUIRES: key is after any previously added key according to comparator. // REQUIRES: Finish(), Abandon() have not been called void Add(const Slice& key, const Slice& value) override; // Return non-ok iff some error has been detected. Status status() const override { return status_; } // Finish building the table. Stops using the file passed to the // constructor after this function returns. // REQUIRES: Finish(), Abandon() have not been called Status Finish() override; // Indicate that the contents of this builder should be abandoned. Stops // using the file passed to the constructor after this function returns. // If the caller is not going to call Finish(), it must call Abandon() // before destroying this builder. // REQUIRES: Finish(), Abandon() have not been called void Abandon() override; // Number of calls to Add() so far. uint64_t NumEntries() const override; // Size of the file generated so far. If invoked after a successful // Finish() call, returns the size of the final generated file. uint64_t FileSize() const override; TableProperties GetTableProperties() const override { return properties_; } private: struct CuckooBucket { CuckooBucket() : vector_idx(kMaxVectorIdx), make_space_for_key_call_id(0) {} uint32_t vector_idx; // This number will not exceed kvs_.size() + max_num_hash_func_. // We assume number of items is <= 2^32. uint32_t make_space_for_key_call_id; }; static const uint32_t kMaxVectorIdx = port::kMaxInt32; bool MakeSpaceForKey(const autovector& hash_vals, const uint32_t call_id, std::vector* buckets, uint64_t* bucket_id); Status MakeHashTable(std::vector* buckets); inline bool IsDeletedKey(uint64_t idx) const; inline Slice GetKey(uint64_t idx) const; inline Slice GetUserKey(uint64_t idx) const; inline Slice GetValue(uint64_t idx) const; uint32_t num_hash_func_; WritableFileWriter* file_; const double max_hash_table_ratio_; const uint32_t max_num_hash_func_; const uint32_t max_search_depth_; const uint32_t cuckoo_block_size_; uint64_t hash_table_size_; bool is_last_level_file_; bool has_seen_first_key_; bool has_seen_first_value_; uint64_t key_size_; uint64_t value_size_; // A list of fixed-size key-value pairs concatenating into a string. // Use GetKey(), GetUserKey(), and GetValue() to retrieve a specific // key / value given an index std::string kvs_; std::string deleted_keys_; // Number of key-value pairs stored in kvs_ + number of deleted keys uint64_t num_entries_; // Number of keys that contain value (non-deletion op) uint64_t num_values_; Status status_; TableProperties properties_; const Comparator* ucomp_; bool use_module_hash_; bool identity_as_first_hash_; uint64_t (*get_slice_hash_)(const Slice& s, uint32_t index, uint64_t max_num_buckets); std::string largest_user_key_ = ""; std::string smallest_user_key_ = ""; bool closed_; // Either Finish() or Abandon() has been called. // No copying allowed CuckooTableBuilder(const CuckooTableBuilder&) = delete; void operator=(const CuckooTableBuilder&) = delete; }; } // namespace rocksdb #endif // ROCKSDB_LITE rocksdb-5.17.2/table/cuckoo_table_builder_test.cc000066400000000000000000000652011337235545400220510ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #ifndef ROCKSDB_LITE #include #include #include #include #include "table/meta_blocks.h" #include "table/cuckoo_table_builder.h" #include "util/file_reader_writer.h" #include "util/testharness.h" #include "util/testutil.h" namespace rocksdb { extern const uint64_t kCuckooTableMagicNumber; namespace { std::unordered_map> hash_map; uint64_t GetSliceHash(const Slice& s, uint32_t index, uint64_t /*max_num_buckets*/) { return hash_map[s.ToString()][index]; } } // namespace class CuckooBuilderTest : public testing::Test { public: CuckooBuilderTest() { env_ = Env::Default(); Options options; options.allow_mmap_reads = true; env_options_ = EnvOptions(options); } void CheckFileContents(const std::vector& keys, const std::vector& values, const std::vector& expected_locations, std::string expected_unused_bucket, uint64_t expected_table_size, uint32_t expected_num_hash_func, bool expected_is_last_level, uint32_t expected_cuckoo_block_size = 1) { // Read file unique_ptr read_file; ASSERT_OK(env_->NewRandomAccessFile(fname, &read_file, env_options_)); uint64_t read_file_size; ASSERT_OK(env_->GetFileSize(fname, &read_file_size)); // @lint-ignore TXT2 T25377293 Grandfathered in Options options; options.allow_mmap_reads = true; ImmutableCFOptions ioptions(options); // Assert Table Properties. TableProperties* props = nullptr; unique_ptr file_reader( new RandomAccessFileReader(std::move(read_file), fname)); ASSERT_OK(ReadTableProperties(file_reader.get(), read_file_size, kCuckooTableMagicNumber, ioptions, &props, true /* compression_type_missing */)); // Check unused bucket. std::string unused_key = props->user_collected_properties[ CuckooTablePropertyNames::kEmptyKey]; ASSERT_EQ(expected_unused_bucket.substr(0, props->fixed_key_len), unused_key); uint64_t value_len_found = *reinterpret_cast(props->user_collected_properties[ CuckooTablePropertyNames::kValueLength].data()); ASSERT_EQ(values.empty() ? 0 : values[0].size(), value_len_found); ASSERT_EQ(props->raw_value_size, values.size()*value_len_found); const uint64_t table_size = *reinterpret_cast(props->user_collected_properties[ CuckooTablePropertyNames::kHashTableSize].data()); ASSERT_EQ(expected_table_size, table_size); const uint32_t num_hash_func_found = *reinterpret_cast(props->user_collected_properties[ CuckooTablePropertyNames::kNumHashFunc].data()); ASSERT_EQ(expected_num_hash_func, num_hash_func_found); const uint32_t cuckoo_block_size = *reinterpret_cast(props->user_collected_properties[ CuckooTablePropertyNames::kCuckooBlockSize].data()); ASSERT_EQ(expected_cuckoo_block_size, cuckoo_block_size); const bool is_last_level_found = *reinterpret_cast(props->user_collected_properties[ CuckooTablePropertyNames::kIsLastLevel].data()); ASSERT_EQ(expected_is_last_level, is_last_level_found); ASSERT_EQ(props->num_entries, keys.size()); ASSERT_EQ(props->fixed_key_len, keys.empty() ? 0 : keys[0].size()); ASSERT_EQ(props->data_size, expected_unused_bucket.size() * (expected_table_size + expected_cuckoo_block_size - 1)); ASSERT_EQ(props->raw_key_size, keys.size()*props->fixed_key_len); ASSERT_EQ(props->column_family_id, 0); ASSERT_EQ(props->column_family_name, kDefaultColumnFamilyName); delete props; // Check contents of the bucket. std::vector keys_found(keys.size(), false); size_t bucket_size = expected_unused_bucket.size(); for (uint32_t i = 0; i < table_size + cuckoo_block_size - 1; ++i) { Slice read_slice; ASSERT_OK(file_reader->Read(i * bucket_size, bucket_size, &read_slice, nullptr)); size_t key_idx = std::find(expected_locations.begin(), expected_locations.end(), i) - expected_locations.begin(); if (key_idx == keys.size()) { // i is not one of the expected locations. Empty bucket. if (read_slice.data() == nullptr) { ASSERT_EQ(0, expected_unused_bucket.size()); } else { ASSERT_EQ(read_slice.compare(expected_unused_bucket), 0); } } else { keys_found[key_idx] = true; ASSERT_EQ(read_slice.compare(keys[key_idx] + values[key_idx]), 0); } } for (auto key_found : keys_found) { // Check that all keys wereReader found. ASSERT_TRUE(key_found); } } std::string GetInternalKey(Slice user_key, bool zero_seqno) { IterKey ikey; ikey.SetInternalKey(user_key, zero_seqno ? 0 : 1000, kTypeValue); return ikey.GetInternalKey().ToString(); } uint64_t NextPowOf2(uint64_t num) { uint64_t n = 2; while (n <= num) { n *= 2; } return n; } uint64_t GetExpectedTableSize(uint64_t num) { return NextPowOf2(static_cast(num / kHashTableRatio)); } Env* env_; EnvOptions env_options_; std::string fname; const double kHashTableRatio = 0.9; }; TEST_F(CuckooBuilderTest, SuccessWithEmptyFile) { unique_ptr writable_file; fname = test::PerThreadDBPath("EmptyFile"); ASSERT_OK(env_->NewWritableFile(fname, &writable_file, env_options_)); unique_ptr file_writer( new WritableFileWriter(std::move(writable_file), fname, EnvOptions())); CuckooTableBuilder builder(file_writer.get(), kHashTableRatio, 4, 100, BytewiseComparator(), 1, false, false, GetSliceHash, 0 /* column_family_id */, kDefaultColumnFamilyName); ASSERT_OK(builder.status()); ASSERT_EQ(0UL, builder.FileSize()); ASSERT_OK(builder.Finish()); ASSERT_OK(file_writer->Close()); CheckFileContents({}, {}, {}, "", 2, 2, false); } TEST_F(CuckooBuilderTest, WriteSuccessNoCollisionFullKey) { uint32_t num_hash_fun = 4; std::vector user_keys = {"key01", "key02", "key03", "key04"}; std::vector values = {"v01", "v02", "v03", "v04"}; // Need to have a temporary variable here as VS compiler does not currently // support operator= with initializer_list as a parameter std::unordered_map> hm = { {user_keys[0], {0, 1, 2, 3}}, {user_keys[1], {1, 2, 3, 4}}, {user_keys[2], {2, 3, 4, 5}}, {user_keys[3], {3, 4, 5, 6}}}; hash_map = std::move(hm); std::vector expected_locations = {0, 1, 2, 3}; std::vector keys; for (auto& user_key : user_keys) { keys.push_back(GetInternalKey(user_key, false)); } uint64_t expected_table_size = GetExpectedTableSize(keys.size()); unique_ptr writable_file; fname = test::PerThreadDBPath("NoCollisionFullKey"); ASSERT_OK(env_->NewWritableFile(fname, &writable_file, env_options_)); unique_ptr file_writer( new WritableFileWriter(std::move(writable_file), fname, EnvOptions())); CuckooTableBuilder builder(file_writer.get(), kHashTableRatio, num_hash_fun, 100, BytewiseComparator(), 1, false, false, GetSliceHash, 0 /* column_family_id */, kDefaultColumnFamilyName); ASSERT_OK(builder.status()); for (uint32_t i = 0; i < user_keys.size(); i++) { builder.Add(Slice(keys[i]), Slice(values[i])); ASSERT_EQ(builder.NumEntries(), i + 1); ASSERT_OK(builder.status()); } size_t bucket_size = keys[0].size() + values[0].size(); ASSERT_EQ(expected_table_size * bucket_size - 1, builder.FileSize()); ASSERT_OK(builder.Finish()); ASSERT_OK(file_writer->Close()); ASSERT_LE(expected_table_size * bucket_size, builder.FileSize()); std::string expected_unused_bucket = GetInternalKey("key00", true); expected_unused_bucket += std::string(values[0].size(), 'a'); CheckFileContents(keys, values, expected_locations, expected_unused_bucket, expected_table_size, 2, false); } TEST_F(CuckooBuilderTest, WriteSuccessWithCollisionFullKey) { uint32_t num_hash_fun = 4; std::vector user_keys = {"key01", "key02", "key03", "key04"}; std::vector values = {"v01", "v02", "v03", "v04"}; // Need to have a temporary variable here as VS compiler does not currently // support operator= with initializer_list as a parameter std::unordered_map> hm = { {user_keys[0], {0, 1, 2, 3}}, {user_keys[1], {0, 1, 2, 3}}, {user_keys[2], {0, 1, 2, 3}}, {user_keys[3], {0, 1, 2, 3}}, }; hash_map = std::move(hm); std::vector expected_locations = {0, 1, 2, 3}; std::vector keys; for (auto& user_key : user_keys) { keys.push_back(GetInternalKey(user_key, false)); } uint64_t expected_table_size = GetExpectedTableSize(keys.size()); unique_ptr writable_file; fname = test::PerThreadDBPath("WithCollisionFullKey"); ASSERT_OK(env_->NewWritableFile(fname, &writable_file, env_options_)); unique_ptr file_writer( new WritableFileWriter(std::move(writable_file), fname, EnvOptions())); CuckooTableBuilder builder(file_writer.get(), kHashTableRatio, num_hash_fun, 100, BytewiseComparator(), 1, false, false, GetSliceHash, 0 /* column_family_id */, kDefaultColumnFamilyName); ASSERT_OK(builder.status()); for (uint32_t i = 0; i < user_keys.size(); i++) { builder.Add(Slice(keys[i]), Slice(values[i])); ASSERT_EQ(builder.NumEntries(), i + 1); ASSERT_OK(builder.status()); } size_t bucket_size = keys[0].size() + values[0].size(); ASSERT_EQ(expected_table_size * bucket_size - 1, builder.FileSize()); ASSERT_OK(builder.Finish()); ASSERT_OK(file_writer->Close()); ASSERT_LE(expected_table_size * bucket_size, builder.FileSize()); std::string expected_unused_bucket = GetInternalKey("key00", true); expected_unused_bucket += std::string(values[0].size(), 'a'); CheckFileContents(keys, values, expected_locations, expected_unused_bucket, expected_table_size, 4, false); } TEST_F(CuckooBuilderTest, WriteSuccessWithCollisionAndCuckooBlock) { uint32_t num_hash_fun = 4; std::vector user_keys = {"key01", "key02", "key03", "key04"}; std::vector values = {"v01", "v02", "v03", "v04"}; // Need to have a temporary variable here as VS compiler does not currently // support operator= with initializer_list as a parameter std::unordered_map> hm = { {user_keys[0], {0, 1, 2, 3}}, {user_keys[1], {0, 1, 2, 3}}, {user_keys[2], {0, 1, 2, 3}}, {user_keys[3], {0, 1, 2, 3}}, }; hash_map = std::move(hm); std::vector expected_locations = {0, 1, 2, 3}; std::vector keys; for (auto& user_key : user_keys) { keys.push_back(GetInternalKey(user_key, false)); } uint64_t expected_table_size = GetExpectedTableSize(keys.size()); unique_ptr writable_file; uint32_t cuckoo_block_size = 2; fname = test::PerThreadDBPath("WithCollisionFullKey2"); ASSERT_OK(env_->NewWritableFile(fname, &writable_file, env_options_)); unique_ptr file_writer( new WritableFileWriter(std::move(writable_file), fname, EnvOptions())); CuckooTableBuilder builder( file_writer.get(), kHashTableRatio, num_hash_fun, 100, BytewiseComparator(), cuckoo_block_size, false, false, GetSliceHash, 0 /* column_family_id */, kDefaultColumnFamilyName); ASSERT_OK(builder.status()); for (uint32_t i = 0; i < user_keys.size(); i++) { builder.Add(Slice(keys[i]), Slice(values[i])); ASSERT_EQ(builder.NumEntries(), i + 1); ASSERT_OK(builder.status()); } size_t bucket_size = keys[0].size() + values[0].size(); ASSERT_EQ(expected_table_size * bucket_size - 1, builder.FileSize()); ASSERT_OK(builder.Finish()); ASSERT_OK(file_writer->Close()); ASSERT_LE(expected_table_size * bucket_size, builder.FileSize()); std::string expected_unused_bucket = GetInternalKey("key00", true); expected_unused_bucket += std::string(values[0].size(), 'a'); CheckFileContents(keys, values, expected_locations, expected_unused_bucket, expected_table_size, 3, false, cuckoo_block_size); } TEST_F(CuckooBuilderTest, WithCollisionPathFullKey) { // Have two hash functions. Insert elements with overlapping hashes. // Finally insert an element with hash value somewhere in the middle // so that it displaces all the elements after that. uint32_t num_hash_fun = 2; std::vector user_keys = {"key01", "key02", "key03", "key04", "key05"}; std::vector values = {"v01", "v02", "v03", "v04", "v05"}; // Need to have a temporary variable here as VS compiler does not currently // support operator= with initializer_list as a parameter std::unordered_map> hm = { {user_keys[0], {0, 1}}, {user_keys[1], {1, 2}}, {user_keys[2], {2, 3}}, {user_keys[3], {3, 4}}, {user_keys[4], {0, 2}}, }; hash_map = std::move(hm); std::vector expected_locations = {0, 1, 3, 4, 2}; std::vector keys; for (auto& user_key : user_keys) { keys.push_back(GetInternalKey(user_key, false)); } uint64_t expected_table_size = GetExpectedTableSize(keys.size()); unique_ptr writable_file; fname = test::PerThreadDBPath("WithCollisionPathFullKey"); ASSERT_OK(env_->NewWritableFile(fname, &writable_file, env_options_)); unique_ptr file_writer( new WritableFileWriter(std::move(writable_file), fname, EnvOptions())); CuckooTableBuilder builder(file_writer.get(), kHashTableRatio, num_hash_fun, 100, BytewiseComparator(), 1, false, false, GetSliceHash, 0 /* column_family_id */, kDefaultColumnFamilyName); ASSERT_OK(builder.status()); for (uint32_t i = 0; i < user_keys.size(); i++) { builder.Add(Slice(keys[i]), Slice(values[i])); ASSERT_EQ(builder.NumEntries(), i + 1); ASSERT_OK(builder.status()); } size_t bucket_size = keys[0].size() + values[0].size(); ASSERT_EQ(expected_table_size * bucket_size - 1, builder.FileSize()); ASSERT_OK(builder.Finish()); ASSERT_OK(file_writer->Close()); ASSERT_LE(expected_table_size * bucket_size, builder.FileSize()); std::string expected_unused_bucket = GetInternalKey("key00", true); expected_unused_bucket += std::string(values[0].size(), 'a'); CheckFileContents(keys, values, expected_locations, expected_unused_bucket, expected_table_size, 2, false); } TEST_F(CuckooBuilderTest, WithCollisionPathFullKeyAndCuckooBlock) { uint32_t num_hash_fun = 2; std::vector user_keys = {"key01", "key02", "key03", "key04", "key05"}; std::vector values = {"v01", "v02", "v03", "v04", "v05"}; // Need to have a temporary variable here as VS compiler does not currently // support operator= with initializer_list as a parameter std::unordered_map> hm = { {user_keys[0], {0, 1}}, {user_keys[1], {1, 2}}, {user_keys[2], {3, 4}}, {user_keys[3], {4, 5}}, {user_keys[4], {0, 3}}, }; hash_map = std::move(hm); std::vector expected_locations = {2, 1, 3, 4, 0}; std::vector keys; for (auto& user_key : user_keys) { keys.push_back(GetInternalKey(user_key, false)); } uint64_t expected_table_size = GetExpectedTableSize(keys.size()); unique_ptr writable_file; fname = test::PerThreadDBPath("WithCollisionPathFullKeyAndCuckooBlock"); ASSERT_OK(env_->NewWritableFile(fname, &writable_file, env_options_)); unique_ptr file_writer( new WritableFileWriter(std::move(writable_file), fname, EnvOptions())); CuckooTableBuilder builder(file_writer.get(), kHashTableRatio, num_hash_fun, 100, BytewiseComparator(), 2, false, false, GetSliceHash, 0 /* column_family_id */, kDefaultColumnFamilyName); ASSERT_OK(builder.status()); for (uint32_t i = 0; i < user_keys.size(); i++) { builder.Add(Slice(keys[i]), Slice(values[i])); ASSERT_EQ(builder.NumEntries(), i + 1); ASSERT_OK(builder.status()); } size_t bucket_size = keys[0].size() + values[0].size(); ASSERT_EQ(expected_table_size * bucket_size - 1, builder.FileSize()); ASSERT_OK(builder.Finish()); ASSERT_OK(file_writer->Close()); ASSERT_LE(expected_table_size * bucket_size, builder.FileSize()); std::string expected_unused_bucket = GetInternalKey("key00", true); expected_unused_bucket += std::string(values[0].size(), 'a'); CheckFileContents(keys, values, expected_locations, expected_unused_bucket, expected_table_size, 2, false, 2); } TEST_F(CuckooBuilderTest, WriteSuccessNoCollisionUserKey) { uint32_t num_hash_fun = 4; std::vector user_keys = {"key01", "key02", "key03", "key04"}; std::vector values = {"v01", "v02", "v03", "v04"}; // Need to have a temporary variable here as VS compiler does not currently // support operator= with initializer_list as a parameter std::unordered_map> hm = { {user_keys[0], {0, 1, 2, 3}}, {user_keys[1], {1, 2, 3, 4}}, {user_keys[2], {2, 3, 4, 5}}, {user_keys[3], {3, 4, 5, 6}}}; hash_map = std::move(hm); std::vector expected_locations = {0, 1, 2, 3}; uint64_t expected_table_size = GetExpectedTableSize(user_keys.size()); unique_ptr writable_file; fname = test::PerThreadDBPath("NoCollisionUserKey"); ASSERT_OK(env_->NewWritableFile(fname, &writable_file, env_options_)); unique_ptr file_writer( new WritableFileWriter(std::move(writable_file), fname, EnvOptions())); CuckooTableBuilder builder(file_writer.get(), kHashTableRatio, num_hash_fun, 100, BytewiseComparator(), 1, false, false, GetSliceHash, 0 /* column_family_id */, kDefaultColumnFamilyName); ASSERT_OK(builder.status()); for (uint32_t i = 0; i < user_keys.size(); i++) { builder.Add(Slice(GetInternalKey(user_keys[i], true)), Slice(values[i])); ASSERT_EQ(builder.NumEntries(), i + 1); ASSERT_OK(builder.status()); } size_t bucket_size = user_keys[0].size() + values[0].size(); ASSERT_EQ(expected_table_size * bucket_size - 1, builder.FileSize()); ASSERT_OK(builder.Finish()); ASSERT_OK(file_writer->Close()); ASSERT_LE(expected_table_size * bucket_size, builder.FileSize()); std::string expected_unused_bucket = "key00"; expected_unused_bucket += std::string(values[0].size(), 'a'); CheckFileContents(user_keys, values, expected_locations, expected_unused_bucket, expected_table_size, 2, true); } TEST_F(CuckooBuilderTest, WriteSuccessWithCollisionUserKey) { uint32_t num_hash_fun = 4; std::vector user_keys = {"key01", "key02", "key03", "key04"}; std::vector values = {"v01", "v02", "v03", "v04"}; // Need to have a temporary variable here as VS compiler does not currently // support operator= with initializer_list as a parameter std::unordered_map> hm = { {user_keys[0], {0, 1, 2, 3}}, {user_keys[1], {0, 1, 2, 3}}, {user_keys[2], {0, 1, 2, 3}}, {user_keys[3], {0, 1, 2, 3}}, }; hash_map = std::move(hm); std::vector expected_locations = {0, 1, 2, 3}; uint64_t expected_table_size = GetExpectedTableSize(user_keys.size()); unique_ptr writable_file; fname = test::PerThreadDBPath("WithCollisionUserKey"); ASSERT_OK(env_->NewWritableFile(fname, &writable_file, env_options_)); unique_ptr file_writer( new WritableFileWriter(std::move(writable_file), fname, EnvOptions())); CuckooTableBuilder builder(file_writer.get(), kHashTableRatio, num_hash_fun, 100, BytewiseComparator(), 1, false, false, GetSliceHash, 0 /* column_family_id */, kDefaultColumnFamilyName); ASSERT_OK(builder.status()); for (uint32_t i = 0; i < user_keys.size(); i++) { builder.Add(Slice(GetInternalKey(user_keys[i], true)), Slice(values[i])); ASSERT_EQ(builder.NumEntries(), i + 1); ASSERT_OK(builder.status()); } size_t bucket_size = user_keys[0].size() + values[0].size(); ASSERT_EQ(expected_table_size * bucket_size - 1, builder.FileSize()); ASSERT_OK(builder.Finish()); ASSERT_OK(file_writer->Close()); ASSERT_LE(expected_table_size * bucket_size, builder.FileSize()); std::string expected_unused_bucket = "key00"; expected_unused_bucket += std::string(values[0].size(), 'a'); CheckFileContents(user_keys, values, expected_locations, expected_unused_bucket, expected_table_size, 4, true); } TEST_F(CuckooBuilderTest, WithCollisionPathUserKey) { uint32_t num_hash_fun = 2; std::vector user_keys = {"key01", "key02", "key03", "key04", "key05"}; std::vector values = {"v01", "v02", "v03", "v04", "v05"}; // Need to have a temporary variable here as VS compiler does not currently // support operator= with initializer_list as a parameter std::unordered_map> hm = { {user_keys[0], {0, 1}}, {user_keys[1], {1, 2}}, {user_keys[2], {2, 3}}, {user_keys[3], {3, 4}}, {user_keys[4], {0, 2}}, }; hash_map = std::move(hm); std::vector expected_locations = {0, 1, 3, 4, 2}; uint64_t expected_table_size = GetExpectedTableSize(user_keys.size()); unique_ptr writable_file; fname = test::PerThreadDBPath("WithCollisionPathUserKey"); ASSERT_OK(env_->NewWritableFile(fname, &writable_file, env_options_)); unique_ptr file_writer( new WritableFileWriter(std::move(writable_file), fname, EnvOptions())); CuckooTableBuilder builder(file_writer.get(), kHashTableRatio, num_hash_fun, 2, BytewiseComparator(), 1, false, false, GetSliceHash, 0 /* column_family_id */, kDefaultColumnFamilyName); ASSERT_OK(builder.status()); for (uint32_t i = 0; i < user_keys.size(); i++) { builder.Add(Slice(GetInternalKey(user_keys[i], true)), Slice(values[i])); ASSERT_EQ(builder.NumEntries(), i + 1); ASSERT_OK(builder.status()); } size_t bucket_size = user_keys[0].size() + values[0].size(); ASSERT_EQ(expected_table_size * bucket_size - 1, builder.FileSize()); ASSERT_OK(builder.Finish()); ASSERT_OK(file_writer->Close()); ASSERT_LE(expected_table_size * bucket_size, builder.FileSize()); std::string expected_unused_bucket = "key00"; expected_unused_bucket += std::string(values[0].size(), 'a'); CheckFileContents(user_keys, values, expected_locations, expected_unused_bucket, expected_table_size, 2, true); } TEST_F(CuckooBuilderTest, FailWhenCollisionPathTooLong) { // Have two hash functions. Insert elements with overlapping hashes. // Finally try inserting an element with hash value somewhere in the middle // and it should fail because the no. of elements to displace is too high. uint32_t num_hash_fun = 2; std::vector user_keys = {"key01", "key02", "key03", "key04", "key05"}; // Need to have a temporary variable here as VS compiler does not currently // support operator= with initializer_list as a parameter std::unordered_map> hm = { {user_keys[0], {0, 1}}, {user_keys[1], {1, 2}}, {user_keys[2], {2, 3}}, {user_keys[3], {3, 4}}, {user_keys[4], {0, 1}}, }; hash_map = std::move(hm); unique_ptr writable_file; fname = test::PerThreadDBPath("WithCollisionPathUserKey"); ASSERT_OK(env_->NewWritableFile(fname, &writable_file, env_options_)); unique_ptr file_writer( new WritableFileWriter(std::move(writable_file), fname, EnvOptions())); CuckooTableBuilder builder(file_writer.get(), kHashTableRatio, num_hash_fun, 2, BytewiseComparator(), 1, false, false, GetSliceHash, 0 /* column_family_id */, kDefaultColumnFamilyName); ASSERT_OK(builder.status()); for (uint32_t i = 0; i < user_keys.size(); i++) { builder.Add(Slice(GetInternalKey(user_keys[i], false)), Slice("value")); ASSERT_EQ(builder.NumEntries(), i + 1); ASSERT_OK(builder.status()); } ASSERT_TRUE(builder.Finish().IsNotSupported()); ASSERT_OK(file_writer->Close()); } TEST_F(CuckooBuilderTest, FailWhenSameKeyInserted) { // Need to have a temporary variable here as VS compiler does not currently // support operator= with initializer_list as a parameter std::unordered_map> hm = { {"repeatedkey", {0, 1, 2, 3}}}; hash_map = std::move(hm); uint32_t num_hash_fun = 4; std::string user_key = "repeatedkey"; unique_ptr writable_file; fname = test::PerThreadDBPath("FailWhenSameKeyInserted"); ASSERT_OK(env_->NewWritableFile(fname, &writable_file, env_options_)); unique_ptr file_writer( new WritableFileWriter(std::move(writable_file), fname, EnvOptions())); CuckooTableBuilder builder(file_writer.get(), kHashTableRatio, num_hash_fun, 100, BytewiseComparator(), 1, false, false, GetSliceHash, 0 /* column_family_id */, kDefaultColumnFamilyName); ASSERT_OK(builder.status()); builder.Add(Slice(GetInternalKey(user_key, false)), Slice("value1")); ASSERT_EQ(builder.NumEntries(), 1u); ASSERT_OK(builder.status()); builder.Add(Slice(GetInternalKey(user_key, true)), Slice("value2")); ASSERT_EQ(builder.NumEntries(), 2u); ASSERT_OK(builder.status()); ASSERT_TRUE(builder.Finish().IsNotSupported()); ASSERT_OK(file_writer->Close()); } } // namespace rocksdb int main(int argc, char** argv) { ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } #else #include int main(int /*argc*/, char** /*argv*/) { fprintf(stderr, "SKIPPED as Cuckoo table is not supported in ROCKSDB_LITE\n"); return 0; } #endif // ROCKSDB_LITE rocksdb-5.17.2/table/cuckoo_table_factory.cc000066400000000000000000000050671337235545400210370ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #ifndef ROCKSDB_LITE #include "table/cuckoo_table_factory.h" #include "db/dbformat.h" #include "table/cuckoo_table_builder.h" #include "table/cuckoo_table_reader.h" namespace rocksdb { Status CuckooTableFactory::NewTableReader( const TableReaderOptions& table_reader_options, unique_ptr&& file, uint64_t file_size, std::unique_ptr* table, bool /*prefetch_index_and_filter_in_cache*/) const { std::unique_ptr new_reader(new CuckooTableReader( table_reader_options.ioptions, std::move(file), file_size, table_reader_options.internal_comparator.user_comparator(), nullptr)); Status s = new_reader->status(); if (s.ok()) { *table = std::move(new_reader); } return s; } TableBuilder* CuckooTableFactory::NewTableBuilder( const TableBuilderOptions& table_builder_options, uint32_t column_family_id, WritableFileWriter* file) const { // Ignore the skipFIlters flag. Does not apply to this file format // // TODO: change builder to take the option struct return new CuckooTableBuilder( file, table_options_.hash_table_ratio, 64, table_options_.max_search_depth, table_builder_options.internal_comparator.user_comparator(), table_options_.cuckoo_block_size, table_options_.use_module_hash, table_options_.identity_as_first_hash, nullptr /* get_slice_hash */, column_family_id, table_builder_options.column_family_name); } std::string CuckooTableFactory::GetPrintableTableOptions() const { std::string ret; ret.reserve(2000); const int kBufferSize = 200; char buffer[kBufferSize]; snprintf(buffer, kBufferSize, " hash_table_ratio: %lf\n", table_options_.hash_table_ratio); ret.append(buffer); snprintf(buffer, kBufferSize, " max_search_depth: %u\n", table_options_.max_search_depth); ret.append(buffer); snprintf(buffer, kBufferSize, " cuckoo_block_size: %u\n", table_options_.cuckoo_block_size); ret.append(buffer); snprintf(buffer, kBufferSize, " identity_as_first_hash: %d\n", table_options_.identity_as_first_hash); ret.append(buffer); return ret; } TableFactory* NewCuckooTableFactory(const CuckooTableOptions& table_options) { return new CuckooTableFactory(table_options); } } // namespace rocksdb #endif // ROCKSDB_LITE rocksdb-5.17.2/table/cuckoo_table_factory.h000066400000000000000000000056371337235545400207040ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #ifndef ROCKSDB_LITE #include #include "rocksdb/table.h" #include "util/murmurhash.h" #include "rocksdb/options.h" namespace rocksdb { const uint32_t kCuckooMurmurSeedMultiplier = 816922183; static inline uint64_t CuckooHash( const Slice& user_key, uint32_t hash_cnt, bool use_module_hash, uint64_t table_size_, bool identity_as_first_hash, uint64_t (*get_slice_hash)(const Slice&, uint32_t, uint64_t)) { #if !defined NDEBUG || defined OS_WIN // This part is used only in unit tests but we have to keep it for Windows // build as we run test in both debug and release modes under Windows. if (get_slice_hash != nullptr) { return get_slice_hash(user_key, hash_cnt, table_size_); } #else (void)get_slice_hash; #endif uint64_t value = 0; if (hash_cnt == 0 && identity_as_first_hash) { value = (*reinterpret_cast(user_key.data())); } else { value = MurmurHash(user_key.data(), static_cast(user_key.size()), kCuckooMurmurSeedMultiplier * hash_cnt); } if (use_module_hash) { return value % table_size_; } else { return value & (table_size_ - 1); } } // Cuckoo Table is designed for applications that require fast point lookups // but not fast range scans. // // Some assumptions: // - Key length and Value length are fixed. // - Does not support Snapshot. // - Does not support Merge operations. // - Does not support prefix bloom filters. class CuckooTableFactory : public TableFactory { public: explicit CuckooTableFactory(const CuckooTableOptions& table_options) : table_options_(table_options) {} ~CuckooTableFactory() {} const char* Name() const override { return "CuckooTable"; } Status NewTableReader( const TableReaderOptions& table_reader_options, unique_ptr&& file, uint64_t file_size, unique_ptr* table, bool prefetch_index_and_filter_in_cache = true) const override; TableBuilder* NewTableBuilder( const TableBuilderOptions& table_builder_options, uint32_t column_family_id, WritableFileWriter* file) const override; // Sanitizes the specified DB Options. Status SanitizeOptions( const DBOptions& /*db_opts*/, const ColumnFamilyOptions& /*cf_opts*/) const override { return Status::OK(); } std::string GetPrintableTableOptions() const override; void* GetOptions() override { return &table_options_; } Status GetOptionString(std::string* /*opt_string*/, const std::string& /*delimiter*/) const override { return Status::OK(); } private: CuckooTableOptions table_options_; }; } // namespace rocksdb #endif // ROCKSDB_LITE rocksdb-5.17.2/table/cuckoo_table_reader.cc000066400000000000000000000332151337235545400206260ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #ifndef ROCKSDB_LITE #include "table/cuckoo_table_reader.h" #include #include #include #include #include #include "rocksdb/iterator.h" #include "rocksdb/table.h" #include "table/internal_iterator.h" #include "table/meta_blocks.h" #include "table/cuckoo_table_factory.h" #include "table/get_context.h" #include "util/arena.h" #include "util/coding.h" namespace rocksdb { namespace { const uint64_t CACHE_LINE_MASK = ~((uint64_t)CACHE_LINE_SIZE - 1); const uint32_t kInvalidIndex = std::numeric_limits::max(); } extern const uint64_t kCuckooTableMagicNumber; CuckooTableReader::CuckooTableReader( const ImmutableCFOptions& ioptions, std::unique_ptr&& file, uint64_t file_size, const Comparator* comparator, uint64_t (*get_slice_hash)(const Slice&, uint32_t, uint64_t)) : file_(std::move(file)), is_last_level_(false), identity_as_first_hash_(false), use_module_hash_(false), num_hash_func_(0), unused_key_(""), key_length_(0), user_key_length_(0), value_length_(0), bucket_length_(0), cuckoo_block_size_(0), cuckoo_block_bytes_minus_one_(0), table_size_(0), ucomp_(comparator), get_slice_hash_(get_slice_hash) { if (!ioptions.allow_mmap_reads) { status_ = Status::InvalidArgument("File is not mmaped"); } TableProperties* props = nullptr; status_ = ReadTableProperties(file_.get(), file_size, kCuckooTableMagicNumber, ioptions, &props, true /* compression_type_missing */); if (!status_.ok()) { return; } table_props_.reset(props); auto& user_props = props->user_collected_properties; auto hash_funs = user_props.find(CuckooTablePropertyNames::kNumHashFunc); if (hash_funs == user_props.end()) { status_ = Status::Corruption("Number of hash functions not found"); return; } num_hash_func_ = *reinterpret_cast(hash_funs->second.data()); auto unused_key = user_props.find(CuckooTablePropertyNames::kEmptyKey); if (unused_key == user_props.end()) { status_ = Status::Corruption("Empty bucket value not found"); return; } unused_key_ = unused_key->second; key_length_ = static_cast(props->fixed_key_len); auto user_key_len = user_props.find(CuckooTablePropertyNames::kUserKeyLength); if (user_key_len == user_props.end()) { status_ = Status::Corruption("User key length not found"); return; } user_key_length_ = *reinterpret_cast( user_key_len->second.data()); auto value_length = user_props.find(CuckooTablePropertyNames::kValueLength); if (value_length == user_props.end()) { status_ = Status::Corruption("Value length not found"); return; } value_length_ = *reinterpret_cast( value_length->second.data()); bucket_length_ = key_length_ + value_length_; auto hash_table_size = user_props.find( CuckooTablePropertyNames::kHashTableSize); if (hash_table_size == user_props.end()) { status_ = Status::Corruption("Hash table size not found"); return; } table_size_ = *reinterpret_cast( hash_table_size->second.data()); auto is_last_level = user_props.find(CuckooTablePropertyNames::kIsLastLevel); if (is_last_level == user_props.end()) { status_ = Status::Corruption("Is last level not found"); return; } is_last_level_ = *reinterpret_cast(is_last_level->second.data()); auto identity_as_first_hash = user_props.find( CuckooTablePropertyNames::kIdentityAsFirstHash); if (identity_as_first_hash == user_props.end()) { status_ = Status::Corruption("identity as first hash not found"); return; } identity_as_first_hash_ = *reinterpret_cast( identity_as_first_hash->second.data()); auto use_module_hash = user_props.find( CuckooTablePropertyNames::kUseModuleHash); if (use_module_hash == user_props.end()) { status_ = Status::Corruption("hash type is not found"); return; } use_module_hash_ = *reinterpret_cast( use_module_hash->second.data()); auto cuckoo_block_size = user_props.find( CuckooTablePropertyNames::kCuckooBlockSize); if (cuckoo_block_size == user_props.end()) { status_ = Status::Corruption("Cuckoo block size not found"); return; } cuckoo_block_size_ = *reinterpret_cast( cuckoo_block_size->second.data()); cuckoo_block_bytes_minus_one_ = cuckoo_block_size_ * bucket_length_ - 1; status_ = file_->Read(0, static_cast(file_size), &file_data_, nullptr); } Status CuckooTableReader::Get(const ReadOptions& /*readOptions*/, const Slice& key, GetContext* get_context, const SliceTransform* /* prefix_extractor */, bool /*skip_filters*/) { assert(key.size() == key_length_ + (is_last_level_ ? 8 : 0)); Slice user_key = ExtractUserKey(key); for (uint32_t hash_cnt = 0; hash_cnt < num_hash_func_; ++hash_cnt) { uint64_t offset = bucket_length_ * CuckooHash( user_key, hash_cnt, use_module_hash_, table_size_, identity_as_first_hash_, get_slice_hash_); const char* bucket = &file_data_.data()[offset]; for (uint32_t block_idx = 0; block_idx < cuckoo_block_size_; ++block_idx, bucket += bucket_length_) { if (ucomp_->Equal(Slice(unused_key_.data(), user_key.size()), Slice(bucket, user_key.size()))) { return Status::OK(); } // Here, we compare only the user key part as we support only one entry // per user key and we don't support snapshot. if (ucomp_->Equal(user_key, Slice(bucket, user_key.size()))) { Slice value(bucket + key_length_, value_length_); if (is_last_level_) { // Sequence number is not stored at the last level, so we will use // kMaxSequenceNumber since it is unknown. This could cause some // transactions to fail to lock a key due to known sequence number. // However, it is expected for anyone to use a CuckooTable in a // TransactionDB. get_context->SaveValue(value, kMaxSequenceNumber); } else { Slice full_key(bucket, key_length_); ParsedInternalKey found_ikey; ParseInternalKey(full_key, &found_ikey); bool dont_care __attribute__((__unused__)); get_context->SaveValue(found_ikey, value, &dont_care); } // We don't support merge operations. So, we return here. return Status::OK(); } } } return Status::OK(); } void CuckooTableReader::Prepare(const Slice& key) { // Prefetch the first Cuckoo Block. Slice user_key = ExtractUserKey(key); uint64_t addr = reinterpret_cast(file_data_.data()) + bucket_length_ * CuckooHash(user_key, 0, use_module_hash_, table_size_, identity_as_first_hash_, nullptr); uint64_t end_addr = addr + cuckoo_block_bytes_minus_one_; for (addr &= CACHE_LINE_MASK; addr < end_addr; addr += CACHE_LINE_SIZE) { PREFETCH(reinterpret_cast(addr), 0, 3); } } class CuckooTableIterator : public InternalIterator { public: explicit CuckooTableIterator(CuckooTableReader* reader); ~CuckooTableIterator() {} bool Valid() const override; void SeekToFirst() override; void SeekToLast() override; void Seek(const Slice& target) override; void SeekForPrev(const Slice& target) override; void Next() override; void Prev() override; Slice key() const override; Slice value() const override; Status status() const override { return Status::OK(); } void InitIfNeeded(); private: struct BucketComparator { BucketComparator(const Slice& file_data, const Comparator* ucomp, uint32_t bucket_len, uint32_t user_key_len, const Slice& target = Slice()) : file_data_(file_data), ucomp_(ucomp), bucket_len_(bucket_len), user_key_len_(user_key_len), target_(target) {} bool operator()(const uint32_t first, const uint32_t second) const { const char* first_bucket = (first == kInvalidIndex) ? target_.data() : &file_data_.data()[first * bucket_len_]; const char* second_bucket = (second == kInvalidIndex) ? target_.data() : &file_data_.data()[second * bucket_len_]; return ucomp_->Compare(Slice(first_bucket, user_key_len_), Slice(second_bucket, user_key_len_)) < 0; } private: const Slice file_data_; const Comparator* ucomp_; const uint32_t bucket_len_; const uint32_t user_key_len_; const Slice target_; }; const BucketComparator bucket_comparator_; void PrepareKVAtCurrIdx(); CuckooTableReader* reader_; bool initialized_; // Contains a map of keys to bucket_id sorted in key order. std::vector sorted_bucket_ids_; // We assume that the number of items can be stored in uint32 (4 Billion). uint32_t curr_key_idx_; Slice curr_value_; IterKey curr_key_; // No copying allowed CuckooTableIterator(const CuckooTableIterator&) = delete; void operator=(const Iterator&) = delete; }; CuckooTableIterator::CuckooTableIterator(CuckooTableReader* reader) : bucket_comparator_(reader->file_data_, reader->ucomp_, reader->bucket_length_, reader->user_key_length_), reader_(reader), initialized_(false), curr_key_idx_(kInvalidIndex) { sorted_bucket_ids_.clear(); curr_value_.clear(); curr_key_.Clear(); } void CuckooTableIterator::InitIfNeeded() { if (initialized_) { return; } sorted_bucket_ids_.reserve(static_cast(reader_->GetTableProperties()->num_entries)); uint64_t num_buckets = reader_->table_size_ + reader_->cuckoo_block_size_ - 1; assert(num_buckets < kInvalidIndex); const char* bucket = reader_->file_data_.data(); for (uint32_t bucket_id = 0; bucket_id < num_buckets; ++bucket_id) { if (Slice(bucket, reader_->key_length_) != Slice(reader_->unused_key_)) { sorted_bucket_ids_.push_back(bucket_id); } bucket += reader_->bucket_length_; } assert(sorted_bucket_ids_.size() == reader_->GetTableProperties()->num_entries); std::sort(sorted_bucket_ids_.begin(), sorted_bucket_ids_.end(), bucket_comparator_); curr_key_idx_ = kInvalidIndex; initialized_ = true; } void CuckooTableIterator::SeekToFirst() { InitIfNeeded(); curr_key_idx_ = 0; PrepareKVAtCurrIdx(); } void CuckooTableIterator::SeekToLast() { InitIfNeeded(); curr_key_idx_ = static_cast(sorted_bucket_ids_.size()) - 1; PrepareKVAtCurrIdx(); } void CuckooTableIterator::Seek(const Slice& target) { InitIfNeeded(); const BucketComparator seek_comparator( reader_->file_data_, reader_->ucomp_, reader_->bucket_length_, reader_->user_key_length_, ExtractUserKey(target)); auto seek_it = std::lower_bound(sorted_bucket_ids_.begin(), sorted_bucket_ids_.end(), kInvalidIndex, seek_comparator); curr_key_idx_ = static_cast(std::distance(sorted_bucket_ids_.begin(), seek_it)); PrepareKVAtCurrIdx(); } void CuckooTableIterator::SeekForPrev(const Slice& /*target*/) { // Not supported assert(false); } bool CuckooTableIterator::Valid() const { return curr_key_idx_ < sorted_bucket_ids_.size(); } void CuckooTableIterator::PrepareKVAtCurrIdx() { if (!Valid()) { curr_value_.clear(); curr_key_.Clear(); return; } uint32_t id = sorted_bucket_ids_[curr_key_idx_]; const char* offset = reader_->file_data_.data() + id * reader_->bucket_length_; if (reader_->is_last_level_) { // Always return internal key. curr_key_.SetInternalKey(Slice(offset, reader_->user_key_length_), 0, kTypeValue); } else { curr_key_.SetInternalKey(Slice(offset, reader_->key_length_)); } curr_value_ = Slice(offset + reader_->key_length_, reader_->value_length_); } void CuckooTableIterator::Next() { if (!Valid()) { curr_value_.clear(); curr_key_.Clear(); return; } ++curr_key_idx_; PrepareKVAtCurrIdx(); } void CuckooTableIterator::Prev() { if (curr_key_idx_ == 0) { curr_key_idx_ = static_cast(sorted_bucket_ids_.size()); } if (!Valid()) { curr_value_.clear(); curr_key_.Clear(); return; } --curr_key_idx_; PrepareKVAtCurrIdx(); } Slice CuckooTableIterator::key() const { assert(Valid()); return curr_key_.GetInternalKey(); } Slice CuckooTableIterator::value() const { assert(Valid()); return curr_value_; } InternalIterator* CuckooTableReader::NewIterator( const ReadOptions& /*read_options*/, const SliceTransform* /* prefix_extractor */, Arena* arena, bool /*skip_filters*/, bool /*for_compaction*/) { if (!status().ok()) { return NewErrorInternalIterator( Status::Corruption("CuckooTableReader status is not okay."), arena); } CuckooTableIterator* iter; if (arena == nullptr) { iter = new CuckooTableIterator(this); } else { auto iter_mem = arena->AllocateAligned(sizeof(CuckooTableIterator)); iter = new (iter_mem) CuckooTableIterator(this); } return iter; } size_t CuckooTableReader::ApproximateMemoryUsage() const { return 0; } } // namespace rocksdb #endif rocksdb-5.17.2/table/cuckoo_table_reader.h000066400000000000000000000057551337235545400205000ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #ifndef ROCKSDB_LITE #include #include #include #include #include "db/dbformat.h" #include "options/cf_options.h" #include "rocksdb/env.h" #include "rocksdb/options.h" #include "table/table_reader.h" #include "util/file_reader_writer.h" namespace rocksdb { class Arena; class TableReader; class CuckooTableReader: public TableReader { public: CuckooTableReader(const ImmutableCFOptions& ioptions, std::unique_ptr&& file, uint64_t file_size, const Comparator* user_comparator, uint64_t (*get_slice_hash)(const Slice&, uint32_t, uint64_t)); ~CuckooTableReader() {} std::shared_ptr GetTableProperties() const override { return table_props_; } Status status() const { return status_; } Status Get(const ReadOptions& readOptions, const Slice& key, GetContext* get_context, const SliceTransform* prefix_extractor, bool skip_filters = false) override; InternalIterator* NewIterator(const ReadOptions&, const SliceTransform* prefix_extractor, Arena* arena = nullptr, bool skip_filters = false, bool for_compaction = false) override; void Prepare(const Slice& target) override; // Report an approximation of how much memory has been used. size_t ApproximateMemoryUsage() const override; // Following methods are not implemented for Cuckoo Table Reader uint64_t ApproximateOffsetOf(const Slice& /*key*/) override { return 0; } void SetupForCompaction() override {} // End of methods not implemented. private: friend class CuckooTableIterator; void LoadAllKeys(std::vector>* key_to_bucket_id); std::unique_ptr file_; Slice file_data_; bool is_last_level_; bool identity_as_first_hash_; bool use_module_hash_; std::shared_ptr table_props_; Status status_; uint32_t num_hash_func_; std::string unused_key_; uint32_t key_length_; uint32_t user_key_length_; uint32_t value_length_; uint32_t bucket_length_; uint32_t cuckoo_block_size_; uint32_t cuckoo_block_bytes_minus_one_; uint64_t table_size_; const Comparator* ucomp_; uint64_t (*get_slice_hash_)(const Slice& s, uint32_t index, uint64_t max_num_buckets); }; } // namespace rocksdb #endif // ROCKSDB_LITE rocksdb-5.17.2/table/cuckoo_table_reader_test.cc000066400000000000000000000473351337235545400216750ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #ifndef ROCKSDB_LITE #ifndef GFLAGS #include int main() { fprintf(stderr, "Please install gflags to run this test... Skipping...\n"); return 0; } #else #ifndef __STDC_FORMAT_MACROS #define __STDC_FORMAT_MACROS #endif #include #include #include #include #include "table/cuckoo_table_builder.h" #include "table/cuckoo_table_factory.h" #include "table/cuckoo_table_reader.h" #include "table/get_context.h" #include "table/meta_blocks.h" #include "util/arena.h" #include "util/gflags_compat.h" #include "util/random.h" #include "util/string_util.h" #include "util/testharness.h" #include "util/testutil.h" using GFLAGS_NAMESPACE::ParseCommandLineFlags; using GFLAGS_NAMESPACE::SetUsageMessage; DEFINE_string(file_dir, "", "Directory where the files will be created" " for benchmark. Added for using tmpfs."); DEFINE_bool(enable_perf, false, "Run Benchmark Tests too."); DEFINE_bool(write, false, "Should write new values to file in performance tests?"); DEFINE_bool(identity_as_first_hash, true, "use identity as first hash"); namespace rocksdb { namespace { const uint32_t kNumHashFunc = 10; // Methods, variables related to Hash functions. std::unordered_map> hash_map; void AddHashLookups(const std::string& s, uint64_t bucket_id, uint32_t num_hash_fun) { std::vector v; for (uint32_t i = 0; i < num_hash_fun; i++) { v.push_back(bucket_id + i); } hash_map[s] = v; } uint64_t GetSliceHash(const Slice& s, uint32_t index, uint64_t /*max_num_buckets*/) { return hash_map[s.ToString()][index]; } } // namespace class CuckooReaderTest : public testing::Test { public: using testing::Test::SetUp; CuckooReaderTest() { options.allow_mmap_reads = true; env = options.env; env_options = EnvOptions(options); } void SetUp(int num) { num_items = num; hash_map.clear(); keys.clear(); keys.resize(num_items); user_keys.clear(); user_keys.resize(num_items); values.clear(); values.resize(num_items); } std::string NumToStr(int64_t i) { return std::string(reinterpret_cast(&i), sizeof(i)); } void CreateCuckooFileAndCheckReader( const Comparator* ucomp = BytewiseComparator()) { std::unique_ptr writable_file; ASSERT_OK(env->NewWritableFile(fname, &writable_file, env_options)); unique_ptr file_writer( new WritableFileWriter(std::move(writable_file), fname, env_options)); CuckooTableBuilder builder( file_writer.get(), 0.9, kNumHashFunc, 100, ucomp, 2, false, false, GetSliceHash, 0 /* column_family_id */, kDefaultColumnFamilyName); ASSERT_OK(builder.status()); for (uint32_t key_idx = 0; key_idx < num_items; ++key_idx) { builder.Add(Slice(keys[key_idx]), Slice(values[key_idx])); ASSERT_OK(builder.status()); ASSERT_EQ(builder.NumEntries(), key_idx + 1); } ASSERT_OK(builder.Finish()); ASSERT_EQ(num_items, builder.NumEntries()); file_size = builder.FileSize(); ASSERT_OK(file_writer->Close()); // Check reader now. std::unique_ptr read_file; ASSERT_OK(env->NewRandomAccessFile(fname, &read_file, env_options)); unique_ptr file_reader( new RandomAccessFileReader(std::move(read_file), fname)); const ImmutableCFOptions ioptions(options); CuckooTableReader reader(ioptions, std::move(file_reader), file_size, ucomp, GetSliceHash); ASSERT_OK(reader.status()); // Assume no merge/deletion for (uint32_t i = 0; i < num_items; ++i) { PinnableSlice value; GetContext get_context(ucomp, nullptr, nullptr, nullptr, GetContext::kNotFound, Slice(user_keys[i]), &value, nullptr, nullptr, nullptr, nullptr); ASSERT_OK( reader.Get(ReadOptions(), Slice(keys[i]), &get_context, nullptr)); ASSERT_STREQ(values[i].c_str(), value.data()); } } void UpdateKeys(bool with_zero_seqno) { for (uint32_t i = 0; i < num_items; i++) { ParsedInternalKey ikey(user_keys[i], with_zero_seqno ? 0 : i + 1000, kTypeValue); keys[i].clear(); AppendInternalKey(&keys[i], ikey); } } void CheckIterator(const Comparator* ucomp = BytewiseComparator()) { std::unique_ptr read_file; ASSERT_OK(env->NewRandomAccessFile(fname, &read_file, env_options)); unique_ptr file_reader( new RandomAccessFileReader(std::move(read_file), fname)); const ImmutableCFOptions ioptions(options); CuckooTableReader reader(ioptions, std::move(file_reader), file_size, ucomp, GetSliceHash); ASSERT_OK(reader.status()); InternalIterator* it = reader.NewIterator(ReadOptions(), nullptr, nullptr, false); ASSERT_OK(it->status()); ASSERT_TRUE(!it->Valid()); it->SeekToFirst(); int cnt = 0; while (it->Valid()) { ASSERT_OK(it->status()); ASSERT_TRUE(Slice(keys[cnt]) == it->key()); ASSERT_TRUE(Slice(values[cnt]) == it->value()); ++cnt; it->Next(); } ASSERT_EQ(static_cast(cnt), num_items); it->SeekToLast(); cnt = static_cast(num_items) - 1; ASSERT_TRUE(it->Valid()); while (it->Valid()) { ASSERT_OK(it->status()); ASSERT_TRUE(Slice(keys[cnt]) == it->key()); ASSERT_TRUE(Slice(values[cnt]) == it->value()); --cnt; it->Prev(); } ASSERT_EQ(cnt, -1); cnt = static_cast(num_items) / 2; it->Seek(keys[cnt]); while (it->Valid()) { ASSERT_OK(it->status()); ASSERT_TRUE(Slice(keys[cnt]) == it->key()); ASSERT_TRUE(Slice(values[cnt]) == it->value()); ++cnt; it->Next(); } ASSERT_EQ(static_cast(cnt), num_items); delete it; Arena arena; it = reader.NewIterator(ReadOptions(), nullptr, &arena); ASSERT_OK(it->status()); ASSERT_TRUE(!it->Valid()); it->Seek(keys[num_items/2]); ASSERT_TRUE(it->Valid()); ASSERT_OK(it->status()); ASSERT_TRUE(keys[num_items/2] == it->key()); ASSERT_TRUE(values[num_items/2] == it->value()); ASSERT_OK(it->status()); it->~InternalIterator(); } std::vector keys; std::vector user_keys; std::vector values; uint64_t num_items; std::string fname; uint64_t file_size; Options options; Env* env; EnvOptions env_options; }; TEST_F(CuckooReaderTest, WhenKeyExists) { SetUp(kNumHashFunc); fname = test::PerThreadDBPath("CuckooReader_WhenKeyExists"); for (uint64_t i = 0; i < num_items; i++) { user_keys[i] = "key" + NumToStr(i); ParsedInternalKey ikey(user_keys[i], i + 1000, kTypeValue); AppendInternalKey(&keys[i], ikey); values[i] = "value" + NumToStr(i); // Give disjoint hash values. AddHashLookups(user_keys[i], i, kNumHashFunc); } CreateCuckooFileAndCheckReader(); // Last level file. UpdateKeys(true); CreateCuckooFileAndCheckReader(); // Test with collision. Make all hash values collide. hash_map.clear(); for (uint32_t i = 0; i < num_items; i++) { AddHashLookups(user_keys[i], 0, kNumHashFunc); } UpdateKeys(false); CreateCuckooFileAndCheckReader(); // Last level file. UpdateKeys(true); CreateCuckooFileAndCheckReader(); } TEST_F(CuckooReaderTest, WhenKeyExistsWithUint64Comparator) { SetUp(kNumHashFunc); fname = test::PerThreadDBPath("CuckooReaderUint64_WhenKeyExists"); for (uint64_t i = 0; i < num_items; i++) { user_keys[i].resize(8); memcpy(&user_keys[i][0], static_cast(&i), 8); ParsedInternalKey ikey(user_keys[i], i + 1000, kTypeValue); AppendInternalKey(&keys[i], ikey); values[i] = "value" + NumToStr(i); // Give disjoint hash values. AddHashLookups(user_keys[i], i, kNumHashFunc); } CreateCuckooFileAndCheckReader(test::Uint64Comparator()); // Last level file. UpdateKeys(true); CreateCuckooFileAndCheckReader(test::Uint64Comparator()); // Test with collision. Make all hash values collide. hash_map.clear(); for (uint32_t i = 0; i < num_items; i++) { AddHashLookups(user_keys[i], 0, kNumHashFunc); } UpdateKeys(false); CreateCuckooFileAndCheckReader(test::Uint64Comparator()); // Last level file. UpdateKeys(true); CreateCuckooFileAndCheckReader(test::Uint64Comparator()); } TEST_F(CuckooReaderTest, CheckIterator) { SetUp(2*kNumHashFunc); fname = test::PerThreadDBPath("CuckooReader_CheckIterator"); for (uint64_t i = 0; i < num_items; i++) { user_keys[i] = "key" + NumToStr(i); ParsedInternalKey ikey(user_keys[i], 1000, kTypeValue); AppendInternalKey(&keys[i], ikey); values[i] = "value" + NumToStr(i); // Give disjoint hash values, in reverse order. AddHashLookups(user_keys[i], num_items-i-1, kNumHashFunc); } CreateCuckooFileAndCheckReader(); CheckIterator(); // Last level file. UpdateKeys(true); CreateCuckooFileAndCheckReader(); CheckIterator(); } TEST_F(CuckooReaderTest, CheckIteratorUint64) { SetUp(2*kNumHashFunc); fname = test::PerThreadDBPath("CuckooReader_CheckIterator"); for (uint64_t i = 0; i < num_items; i++) { user_keys[i].resize(8); memcpy(&user_keys[i][0], static_cast(&i), 8); ParsedInternalKey ikey(user_keys[i], 1000, kTypeValue); AppendInternalKey(&keys[i], ikey); values[i] = "value" + NumToStr(i); // Give disjoint hash values, in reverse order. AddHashLookups(user_keys[i], num_items-i-1, kNumHashFunc); } CreateCuckooFileAndCheckReader(test::Uint64Comparator()); CheckIterator(test::Uint64Comparator()); // Last level file. UpdateKeys(true); CreateCuckooFileAndCheckReader(test::Uint64Comparator()); CheckIterator(test::Uint64Comparator()); } TEST_F(CuckooReaderTest, WhenKeyNotFound) { // Add keys with colliding hash values. SetUp(kNumHashFunc); fname = test::PerThreadDBPath("CuckooReader_WhenKeyNotFound"); for (uint64_t i = 0; i < num_items; i++) { user_keys[i] = "key" + NumToStr(i); ParsedInternalKey ikey(user_keys[i], i + 1000, kTypeValue); AppendInternalKey(&keys[i], ikey); values[i] = "value" + NumToStr(i); // Make all hash values collide. AddHashLookups(user_keys[i], 0, kNumHashFunc); } auto* ucmp = BytewiseComparator(); CreateCuckooFileAndCheckReader(); std::unique_ptr read_file; ASSERT_OK(env->NewRandomAccessFile(fname, &read_file, env_options)); unique_ptr file_reader( new RandomAccessFileReader(std::move(read_file), fname)); const ImmutableCFOptions ioptions(options); CuckooTableReader reader(ioptions, std::move(file_reader), file_size, ucmp, GetSliceHash); ASSERT_OK(reader.status()); // Search for a key with colliding hash values. std::string not_found_user_key = "key" + NumToStr(num_items); std::string not_found_key; AddHashLookups(not_found_user_key, 0, kNumHashFunc); ParsedInternalKey ikey(not_found_user_key, 1000, kTypeValue); AppendInternalKey(¬_found_key, ikey); PinnableSlice value; GetContext get_context(ucmp, nullptr, nullptr, nullptr, GetContext::kNotFound, Slice(not_found_key), &value, nullptr, nullptr, nullptr, nullptr); ASSERT_OK( reader.Get(ReadOptions(), Slice(not_found_key), &get_context, nullptr)); ASSERT_TRUE(value.empty()); ASSERT_OK(reader.status()); // Search for a key with an independent hash value. std::string not_found_user_key2 = "key" + NumToStr(num_items + 1); AddHashLookups(not_found_user_key2, kNumHashFunc, kNumHashFunc); ParsedInternalKey ikey2(not_found_user_key2, 1000, kTypeValue); std::string not_found_key2; AppendInternalKey(¬_found_key2, ikey2); value.Reset(); GetContext get_context2(ucmp, nullptr, nullptr, nullptr, GetContext::kNotFound, Slice(not_found_key2), &value, nullptr, nullptr, nullptr, nullptr); ASSERT_OK( reader.Get(ReadOptions(), Slice(not_found_key2), &get_context2, nullptr)); ASSERT_TRUE(value.empty()); ASSERT_OK(reader.status()); // Test read when key is unused key. std::string unused_key = reader.GetTableProperties()->user_collected_properties.at( CuckooTablePropertyNames::kEmptyKey); // Add hash values that map to empty buckets. AddHashLookups(ExtractUserKey(unused_key).ToString(), kNumHashFunc, kNumHashFunc); value.Reset(); GetContext get_context3(ucmp, nullptr, nullptr, nullptr, GetContext::kNotFound, Slice(unused_key), &value, nullptr, nullptr, nullptr, nullptr); ASSERT_OK( reader.Get(ReadOptions(), Slice(unused_key), &get_context3, nullptr)); ASSERT_TRUE(value.empty()); ASSERT_OK(reader.status()); } // Performance tests namespace { void GetKeys(uint64_t num, std::vector* keys) { keys->clear(); IterKey k; k.SetInternalKey("", 0, kTypeValue); std::string internal_key_suffix = k.GetInternalKey().ToString(); ASSERT_EQ(static_cast(8), internal_key_suffix.size()); for (uint64_t key_idx = 0; key_idx < num; ++key_idx) { uint64_t value = 2 * key_idx; std::string new_key(reinterpret_cast(&value), sizeof(value)); new_key += internal_key_suffix; keys->push_back(new_key); } } std::string GetFileName(uint64_t num) { if (FLAGS_file_dir.empty()) { FLAGS_file_dir = test::TmpDir(); } return test::PerThreadDBPath(FLAGS_file_dir, "cuckoo_read_benchmark") + ToString(num / 1000000) + "Mkeys"; } // Create last level file as we are interested in measuring performance of // last level file only. void WriteFile(const std::vector& keys, const uint64_t num, double hash_ratio) { Options options; options.allow_mmap_reads = true; Env* env = options.env; EnvOptions env_options = EnvOptions(options); std::string fname = GetFileName(num); std::unique_ptr writable_file; ASSERT_OK(env->NewWritableFile(fname, &writable_file, env_options)); unique_ptr file_writer( new WritableFileWriter(std::move(writable_file), fname, env_options)); CuckooTableBuilder builder( file_writer.get(), hash_ratio, 64, 1000, test::Uint64Comparator(), 5, false, FLAGS_identity_as_first_hash, nullptr, 0 /* column_family_id */, kDefaultColumnFamilyName); ASSERT_OK(builder.status()); for (uint64_t key_idx = 0; key_idx < num; ++key_idx) { // Value is just a part of key. builder.Add(Slice(keys[key_idx]), Slice(&keys[key_idx][0], 4)); ASSERT_EQ(builder.NumEntries(), key_idx + 1); ASSERT_OK(builder.status()); } ASSERT_OK(builder.Finish()); ASSERT_EQ(num, builder.NumEntries()); ASSERT_OK(file_writer->Close()); uint64_t file_size; env->GetFileSize(fname, &file_size); std::unique_ptr read_file; ASSERT_OK(env->NewRandomAccessFile(fname, &read_file, env_options)); unique_ptr file_reader( new RandomAccessFileReader(std::move(read_file), fname)); const ImmutableCFOptions ioptions(options); CuckooTableReader reader(ioptions, std::move(file_reader), file_size, test::Uint64Comparator(), nullptr); ASSERT_OK(reader.status()); ReadOptions r_options; PinnableSlice value; // Assume only the fast path is triggered GetContext get_context(nullptr, nullptr, nullptr, nullptr, GetContext::kNotFound, Slice(), &value, nullptr, nullptr, nullptr, nullptr); for (uint64_t i = 0; i < num; ++i) { value.Reset(); value.clear(); ASSERT_OK(reader.Get(r_options, Slice(keys[i]), &get_context, nullptr)); ASSERT_TRUE(Slice(keys[i]) == Slice(&keys[i][0], 4)); } } void ReadKeys(uint64_t num, uint32_t batch_size) { Options options; options.allow_mmap_reads = true; Env* env = options.env; EnvOptions env_options = EnvOptions(options); std::string fname = GetFileName(num); uint64_t file_size; env->GetFileSize(fname, &file_size); std::unique_ptr read_file; ASSERT_OK(env->NewRandomAccessFile(fname, &read_file, env_options)); unique_ptr file_reader( new RandomAccessFileReader(std::move(read_file), fname)); const ImmutableCFOptions ioptions(options); CuckooTableReader reader(ioptions, std::move(file_reader), file_size, test::Uint64Comparator(), nullptr); ASSERT_OK(reader.status()); const UserCollectedProperties user_props = reader.GetTableProperties()->user_collected_properties; const uint32_t num_hash_fun = *reinterpret_cast( user_props.at(CuckooTablePropertyNames::kNumHashFunc).data()); const uint64_t table_size = *reinterpret_cast( user_props.at(CuckooTablePropertyNames::kHashTableSize).data()); fprintf(stderr, "With %" PRIu64 " items, utilization is %.2f%%, number of" " hash functions: %u.\n", num, num * 100.0 / (table_size), num_hash_fun); ReadOptions r_options; std::vector keys; keys.reserve(num); for (uint64_t i = 0; i < num; ++i) { keys.push_back(2 * i); } std::random_shuffle(keys.begin(), keys.end()); PinnableSlice value; // Assume only the fast path is triggered GetContext get_context(nullptr, nullptr, nullptr, nullptr, GetContext::kNotFound, Slice(), &value, nullptr, nullptr, nullptr, nullptr); uint64_t start_time = env->NowMicros(); if (batch_size > 0) { for (uint64_t i = 0; i < num; i += batch_size) { for (uint64_t j = i; j < i+batch_size && j < num; ++j) { reader.Prepare(Slice(reinterpret_cast(&keys[j]), 16)); } for (uint64_t j = i; j < i+batch_size && j < num; ++j) { reader.Get(r_options, Slice(reinterpret_cast(&keys[j]), 16), &get_context, nullptr); } } } else { for (uint64_t i = 0; i < num; i++) { reader.Get(r_options, Slice(reinterpret_cast(&keys[i]), 16), &get_context, nullptr); } } float time_per_op = (env->NowMicros() - start_time) * 1.0f / num; fprintf(stderr, "Time taken per op is %.3fus (%.1f Mqps) with batch size of %u\n", time_per_op, 1.0 / time_per_op, batch_size); } } // namespace. TEST_F(CuckooReaderTest, TestReadPerformance) { if (!FLAGS_enable_perf) { return; } double hash_ratio = 0.95; // These numbers are chosen to have a hash utilization % close to // 0.9, 0.75, 0.6 and 0.5 respectively. // They all create 128 M buckets. std::vector nums = {120*1024*1024, 100*1024*1024, 80*1024*1024, 70*1024*1024}; #ifndef NDEBUG fprintf(stdout, "WARNING: Not compiled with DNDEBUG. Performance tests may be slow.\n"); #endif for (uint64_t num : nums) { if (FLAGS_write || Env::Default()->FileExists(GetFileName(num)).IsNotFound()) { std::vector all_keys; GetKeys(num, &all_keys); WriteFile(all_keys, num, hash_ratio); } ReadKeys(num, 0); ReadKeys(num, 10); ReadKeys(num, 25); ReadKeys(num, 50); ReadKeys(num, 100); fprintf(stderr, "\n"); } } } // namespace rocksdb int main(int argc, char** argv) { if (rocksdb::port::kLittleEndian) { ::testing::InitGoogleTest(&argc, argv); ParseCommandLineFlags(&argc, &argv, true); return RUN_ALL_TESTS(); } else { fprintf(stderr, "SKIPPED as Cuckoo table doesn't support Big Endian\n"); return 0; } } #endif // GFLAGS. #else #include int main(int /*argc*/, char** /*argv*/) { fprintf(stderr, "SKIPPED as Cuckoo table is not supported in ROCKSDB_LITE\n"); return 0; } #endif // ROCKSDB_LITE rocksdb-5.17.2/table/data_block_footer.cc000066400000000000000000000034631337235545400203150ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "data_block_footer.h" #include "rocksdb/table.h" namespace rocksdb { const int kDataBlockIndexTypeBitShift = 31; // 0x7FFFFFFF const uint32_t kMaxNumRestarts = (1u << kDataBlockIndexTypeBitShift) - 1u; // 0x7FFFFFFF const uint32_t kNumRestartsMask = (1u << kDataBlockIndexTypeBitShift) - 1u; uint32_t PackIndexTypeAndNumRestarts( BlockBasedTableOptions::DataBlockIndexType index_type, uint32_t num_restarts) { if (num_restarts > kMaxNumRestarts) { assert(0); // mute travis "unused" warning } uint32_t block_footer = num_restarts; if (index_type == BlockBasedTableOptions::kDataBlockBinaryAndHash) { block_footer |= 1u << kDataBlockIndexTypeBitShift; } else if (index_type != BlockBasedTableOptions::kDataBlockBinarySearch) { assert(0); } return block_footer; } void UnPackIndexTypeAndNumRestarts( uint32_t block_footer, BlockBasedTableOptions::DataBlockIndexType* index_type, uint32_t* num_restarts) { if (index_type) { if (block_footer & 1u << kDataBlockIndexTypeBitShift) { *index_type = BlockBasedTableOptions::kDataBlockBinaryAndHash; } else { *index_type = BlockBasedTableOptions::kDataBlockBinarySearch; } } if (num_restarts) { *num_restarts = block_footer & kNumRestartsMask; assert(*num_restarts <= kMaxNumRestarts); } } } // namespace rocksdb rocksdb-5.17.2/table/data_block_footer.h000066400000000000000000000015201337235545400201470ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #include "rocksdb/table.h" namespace rocksdb { uint32_t PackIndexTypeAndNumRestarts( BlockBasedTableOptions::DataBlockIndexType index_type, uint32_t num_restarts); void UnPackIndexTypeAndNumRestarts( uint32_t block_footer, BlockBasedTableOptions::DataBlockIndexType* index_type, uint32_t* num_restarts); } // namespace rocksdb rocksdb-5.17.2/table/data_block_hash_index.cc000066400000000000000000000061521337235545400211270ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include #include #include "rocksdb/slice.h" #include "table/data_block_hash_index.h" #include "util/coding.h" #include "util/hash.h" namespace rocksdb { void DataBlockHashIndexBuilder::Add(const Slice& key, const size_t restart_index) { assert(Valid()); if (restart_index > kMaxRestartSupportedByHashIndex) { valid_ = false; return; } uint32_t hash_value = GetSliceHash(key); hash_and_restart_pairs_.emplace_back(hash_value, static_cast(restart_index)); estimated_num_buckets_ += bucket_per_key_; } void DataBlockHashIndexBuilder::Finish(std::string& buffer) { assert(Valid()); uint16_t num_buckets = static_cast(estimated_num_buckets_); if (num_buckets == 0) { num_buckets = 1; // sanity check } // The build-in hash cannot well distribute strings when into different // buckets when num_buckets is power of two, resulting in high hash // collision. // We made the num_buckets to be odd to avoid this issue. num_buckets |= 1; std::vector buckets(num_buckets, kNoEntry); // write the restart_index array for (auto& entry : hash_and_restart_pairs_) { uint32_t hash_value = entry.first; uint8_t restart_index = entry.second; uint16_t buck_idx = static_cast(hash_value % num_buckets); if (buckets[buck_idx] == kNoEntry) { buckets[buck_idx] = restart_index; } else if (buckets[buck_idx] != restart_index) { // same bucket cannot store two different restart_index, mark collision buckets[buck_idx] = kCollision; } } for (uint8_t restart_index : buckets) { buffer.append( const_cast(reinterpret_cast(&restart_index)), sizeof(restart_index)); } // write NUM_BUCK PutFixed16(&buffer, num_buckets); assert(buffer.size() <= kMaxBlockSizeSupportedByHashIndex); } void DataBlockHashIndexBuilder::Reset() { estimated_num_buckets_ = 0; valid_ = true; hash_and_restart_pairs_.clear(); } void DataBlockHashIndex::Initialize(const char* data, uint16_t size, uint16_t* map_offset) { assert(size >= sizeof(uint16_t)); // NUM_BUCKETS num_buckets_ = DecodeFixed16(data + size - sizeof(uint16_t)); assert(num_buckets_ > 0); assert(size > num_buckets_ * sizeof(uint8_t)); *map_offset = static_cast(size - sizeof(uint16_t) - num_buckets_ * sizeof(uint8_t)); } uint8_t DataBlockHashIndex::Lookup(const char* data, uint32_t map_offset, const Slice& key) const { uint32_t hash_value = GetSliceHash(key); uint16_t idx = static_cast(hash_value % num_buckets_); const char* bucket_table = data + map_offset; return static_cast(*(bucket_table + idx * sizeof(uint8_t))); } } // namespace rocksdb rocksdb-5.17.2/table/data_block_hash_index.h000066400000000000000000000117021337235545400207660ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #include #include #include "rocksdb/slice.h" namespace rocksdb { // This is an experimental feature aiming to reduce the CPU utilization of // point-lookup within a data-block. It is only used in data blocks, and not // in meta-data blocks or per-table index blocks. // // It only used to support BlockBasedTable::Get(). // // A serialized hash index is appended to the data-block. The new block data // format is as follows: // // DATA_BLOCK: [RI RI RI ... RI RI_IDX HASH_IDX FOOTER] // // RI: Restart Interval (the same as the default data-block format) // RI_IDX: Restart Interval index (the same as the default data-block format) // HASH_IDX: The new data-block hash index feature. // FOOTER: A 32bit block footer, which is the NUM_RESTARTS with the MSB as // the flag indicating if this hash index is in use. Note that // given a data block < 32KB, the MSB is never used. So we can // borrow the MSB as the hash index flag. Therefore, this format is // compatible with the legacy data-blocks with num_restarts < 32768, // as the MSB is 0. // // The format of the data-block hash index is as follows: // // HASH_IDX: [B B B ... B NUM_BUCK] // // B: bucket, an array of restart index. Each buckets is uint8_t. // NUM_BUCK: Number of buckets, which is the length of the bucket array. // // We reserve two special flag: // kNoEntry=255, // kCollision=254. // // Therefore, the max number of restarts this hash index can supoport is 253. // // Buckets are initialized to be kNoEntry. // // When storing a key in the hash index, the key is first hashed to a bucket. // If there the bucket is empty (kNoEntry), the restart index is stored in // the bucket. If there is already a restart index there, we will update the // existing restart index to a collision marker (kCollision). If the // the bucket is already marked as collision, we do not store the restart // index either. // // During query process, a key is first hashed to a bucket. Then we examine if // the buckets store nothing (kNoEntry) or the bucket had a collision // (kCollision). If either of those happens, we get the restart index of // the key and will directly go to the restart interval to search the key. // // Note that we only support blocks with #restart_interval < 254. If a block // has more restart interval than that, hash index will not be create for it. const uint8_t kNoEntry = 255; const uint8_t kCollision = 254; const uint8_t kMaxRestartSupportedByHashIndex = 253; // Because we use uint16_t address, we only support block no more than 64KB const size_t kMaxBlockSizeSupportedByHashIndex = 1u << 16; const double kDefaultUtilRatio = 0.75; class DataBlockHashIndexBuilder { public: DataBlockHashIndexBuilder() : bucket_per_key_(-1 /*uninitialized marker*/), estimated_num_buckets_(0), valid_(false) {} void Initialize(double util_ratio) { if (util_ratio <= 0) { util_ratio = kDefaultUtilRatio; // sanity check } bucket_per_key_ = 1 / util_ratio; valid_ = true; } inline bool Valid() const { return valid_ && bucket_per_key_ > 0; } void Add(const Slice& key, const size_t restart_index); void Finish(std::string& buffer); void Reset(); inline size_t EstimateSize() const { uint16_t estimated_num_buckets = static_cast(estimated_num_buckets_); // Maching the num_buckets number in DataBlockHashIndexBuilder::Finish. estimated_num_buckets |= 1; return sizeof(uint16_t) + static_cast(estimated_num_buckets * sizeof(uint8_t)); } private: double bucket_per_key_; // is the multiplicative inverse of util_ratio_ double estimated_num_buckets_; // Now the only usage for `valid_` is to mark false when the inserted // restart_index is larger than supported. In this case HashIndex is not // appended to the block content. bool valid_; std::vector> hash_and_restart_pairs_; friend class DataBlockHashIndex_DataBlockHashTestSmall_Test; }; class DataBlockHashIndex { public: DataBlockHashIndex() : num_buckets_(0) {} void Initialize(const char* data, uint16_t size, uint16_t* map_offset); uint8_t Lookup(const char* data, uint32_t map_offset, const Slice& key) const; inline bool Valid() { return num_buckets_ != 0; } private: // To make the serialized hash index compact and to save the space overhead, // here all the data fields persisted in the block are in uint16 format. // We find that a uint16 is large enough to index every offset of a 64KiB // block. // So in other words, DataBlockHashIndex does not support block size equal // or greater then 64KiB. uint16_t num_buckets_; }; } // namespace rocksdb rocksdb-5.17.2/table/data_block_hash_index_test.cc000066400000000000000000000570571337235545400222000ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include #include #include #include "rocksdb/slice.h" #include "table/block.h" #include "table/block_based_table_reader.h" #include "table/block_builder.h" #include "table/data_block_hash_index.h" #include "table/get_context.h" #include "util/testharness.h" #include "util/testutil.h" namespace rocksdb { bool SearchForOffset(DataBlockHashIndex& index, const char* data, uint16_t map_offset, const Slice& key, uint8_t& restart_point) { uint8_t entry = index.Lookup(data, map_offset, key); if (entry == kCollision) { return true; } if (entry == kNoEntry) { return false; } return entry == restart_point; } // Random KV generator similer to block_test static std::string RandomString(Random* rnd, int len) { std::string r; test::RandomString(rnd, len, &r); return r; } std::string GenerateKey(int primary_key, int secondary_key, int padding_size, Random* rnd) { char buf[50]; char* p = &buf[0]; snprintf(buf, sizeof(buf), "%6d%4d", primary_key, secondary_key); std::string k(p); if (padding_size) { k += RandomString(rnd, padding_size); } return k; } // Generate random key value pairs. // The generated key will be sorted. You can tune the parameters to generated // different kinds of test key/value pairs for different scenario. void GenerateRandomKVs(std::vector* keys, std::vector* values, const int from, const int len, const int step = 1, const int padding_size = 0, const int keys_share_prefix = 1) { Random rnd(302); // generate different prefix for (int i = from; i < from + len; i += step) { // generating keys that shares the prefix for (int j = 0; j < keys_share_prefix; ++j) { keys->emplace_back(GenerateKey(i, j, padding_size, &rnd)); // 100 bytes values values->emplace_back(RandomString(&rnd, 100)); } } } TEST(DataBlockHashIndex, DataBlockHashTestSmall) { DataBlockHashIndexBuilder builder; builder.Initialize(0.75 /*util_ratio*/); for (int j = 0; j < 5; j++) { for (uint8_t i = 0; i < 2 + j; i++) { std::string key("key" + std::to_string(i)); uint8_t restart_point = i; builder.Add(key, restart_point); } size_t estimated_size = builder.EstimateSize(); std::string buffer("fake"), buffer2; size_t original_size = buffer.size(); estimated_size += original_size; builder.Finish(buffer); ASSERT_EQ(buffer.size(), estimated_size); buffer2 = buffer; // test for the correctness of relative offset Slice s(buffer2); DataBlockHashIndex index; uint16_t map_offset; index.Initialize(s.data(), static_cast(s.size()), &map_offset); // the additional hash map should start at the end of the buffer ASSERT_EQ(original_size, map_offset); for (uint8_t i = 0; i < 2; i++) { std::string key("key" + std::to_string(i)); uint8_t restart_point = i; ASSERT_TRUE( SearchForOffset(index, s.data(), map_offset, key, restart_point)); } builder.Reset(); } } TEST(DataBlockHashIndex, DataBlockHashTest) { // bucket_num = 200, #keys = 100. 50% utilization DataBlockHashIndexBuilder builder; builder.Initialize(0.75 /*util_ratio*/); for (uint8_t i = 0; i < 100; i++) { std::string key("key" + std::to_string(i)); uint8_t restart_point = i; builder.Add(key, restart_point); } size_t estimated_size = builder.EstimateSize(); std::string buffer("fake content"), buffer2; size_t original_size = buffer.size(); estimated_size += original_size; builder.Finish(buffer); ASSERT_EQ(buffer.size(), estimated_size); buffer2 = buffer; // test for the correctness of relative offset Slice s(buffer2); DataBlockHashIndex index; uint16_t map_offset; index.Initialize(s.data(), static_cast(s.size()), &map_offset); // the additional hash map should start at the end of the buffer ASSERT_EQ(original_size, map_offset); for (uint8_t i = 0; i < 100; i++) { std::string key("key" + std::to_string(i)); uint8_t restart_point = i; ASSERT_TRUE( SearchForOffset(index, s.data(), map_offset, key, restart_point)); } } TEST(DataBlockHashIndex, DataBlockHashTestCollision) { // bucket_num = 2. There will be intense hash collisions DataBlockHashIndexBuilder builder; builder.Initialize(0.75 /*util_ratio*/); for (uint8_t i = 0; i < 100; i++) { std::string key("key" + std::to_string(i)); uint8_t restart_point = i; builder.Add(key, restart_point); } size_t estimated_size = builder.EstimateSize(); std::string buffer("some other fake content to take up space"), buffer2; size_t original_size = buffer.size(); estimated_size += original_size; builder.Finish(buffer); ASSERT_EQ(buffer.size(), estimated_size); buffer2 = buffer; // test for the correctness of relative offset Slice s(buffer2); DataBlockHashIndex index; uint16_t map_offset; index.Initialize(s.data(), static_cast(s.size()), &map_offset); // the additional hash map should start at the end of the buffer ASSERT_EQ(original_size, map_offset); for (uint8_t i = 0; i < 100; i++) { std::string key("key" + std::to_string(i)); uint8_t restart_point = i; ASSERT_TRUE( SearchForOffset(index, s.data(), map_offset, key, restart_point)); } } TEST(DataBlockHashIndex, DataBlockHashTestLarge) { DataBlockHashIndexBuilder builder; builder.Initialize(0.75 /*util_ratio*/); std::unordered_map m; for (uint8_t i = 0; i < 100; i++) { if (i % 2) { continue; // leave half of the keys out } std::string key = "key" + std::to_string(i); uint8_t restart_point = i; builder.Add(key, restart_point); m[key] = restart_point; } size_t estimated_size = builder.EstimateSize(); std::string buffer("filling stuff"), buffer2; size_t original_size = buffer.size(); estimated_size += original_size; builder.Finish(buffer); ASSERT_EQ(buffer.size(), estimated_size); buffer2 = buffer; // test for the correctness of relative offset Slice s(buffer2); DataBlockHashIndex index; uint16_t map_offset; index.Initialize(s.data(), static_cast(s.size()), &map_offset); // the additional hash map should start at the end of the buffer ASSERT_EQ(original_size, map_offset); for (uint8_t i = 0; i < 100; i++) { std::string key = "key" + std::to_string(i); uint8_t restart_point = i; if (m.count(key)) { ASSERT_TRUE(m[key] == restart_point); ASSERT_TRUE( SearchForOffset(index, s.data(), map_offset, key, restart_point)); } else { // we allow false positve, so don't test the nonexisting keys. // when false positive happens, the search will continue to the // restart intervals to see if the key really exist. } } } TEST(DataBlockHashIndex, RestartIndexExceedMax) { DataBlockHashIndexBuilder builder; builder.Initialize(0.75 /*util_ratio*/); std::unordered_map m; for (uint8_t i = 0; i <= 253; i++) { std::string key = "key" + std::to_string(i); uint8_t restart_point = i; builder.Add(key, restart_point); } ASSERT_TRUE(builder.Valid()); builder.Reset(); for (uint8_t i = 0; i <= 254; i++) { std::string key = "key" + std::to_string(i); uint8_t restart_point = i; builder.Add(key, restart_point); } ASSERT_FALSE(builder.Valid()); builder.Reset(); ASSERT_TRUE(builder.Valid()); } TEST(DataBlockHashIndex, BlockRestartIndexExceedMax) { Options options = Options(); BlockBuilder builder(1 /* block_restart_interval */, true /* use_delta_encoding */, false /* use_value_delta_encoding */, BlockBasedTableOptions::kDataBlockBinaryAndHash); // #restarts <= 253. HashIndex is valid for (int i = 0; i <= 253; i++) { std::string ukey = "key" + std::to_string(i); InternalKey ikey(ukey, 0, kTypeValue); builder.Add(ikey.Encode().ToString(), "value"); } { // read serialized contents of the block Slice rawblock = builder.Finish(); // create block reader BlockContents contents; contents.data = rawblock; contents.cachable = false; Block reader(std::move(contents), kDisableGlobalSequenceNumber); ASSERT_EQ(reader.IndexType(), BlockBasedTableOptions::kDataBlockBinaryAndHash); } builder.Reset(); // #restarts > 253. HashIndex is not used for (int i = 0; i <= 254; i++) { std::string ukey = "key" + std::to_string(i); InternalKey ikey(ukey, 0, kTypeValue); builder.Add(ikey.Encode().ToString(), "value"); } { // read serialized contents of the block Slice rawblock = builder.Finish(); // create block reader BlockContents contents; contents.data = rawblock; contents.cachable = false; Block reader(std::move(contents), kDisableGlobalSequenceNumber); ASSERT_EQ(reader.IndexType(), BlockBasedTableOptions::kDataBlockBinarySearch); } } TEST(DataBlockHashIndex, BlockSizeExceedMax) { Options options = Options(); std::string ukey(10, 'k'); InternalKey ikey(ukey, 0, kTypeValue); BlockBuilder builder(1 /* block_restart_interval */, false /* use_delta_encoding */, false /* use_value_delta_encoding */, BlockBasedTableOptions::kDataBlockBinaryAndHash); { // insert a large value. The block size plus HashIndex is 65536. std::string value(65502, 'v'); builder.Add(ikey.Encode().ToString(), value); // read serialized contents of the block Slice rawblock = builder.Finish(); ASSERT_LE(rawblock.size(), kMaxBlockSizeSupportedByHashIndex); std::cerr << "block size: " << rawblock.size() << std::endl; // create block reader BlockContents contents; contents.data = rawblock; contents.cachable = false; Block reader(std::move(contents), kDisableGlobalSequenceNumber); ASSERT_EQ(reader.IndexType(), BlockBasedTableOptions::kDataBlockBinaryAndHash); } builder.Reset(); { // insert a large value. The block size plus HashIndex would be 65537. // This excceed the max block size supported by HashIndex (65536). // So when build finishes HashIndex will not be created for the block. std::string value(65503, 'v'); builder.Add(ikey.Encode().ToString(), value); // read serialized contents of the block Slice rawblock = builder.Finish(); ASSERT_LE(rawblock.size(), kMaxBlockSizeSupportedByHashIndex); std::cerr << "block size: " << rawblock.size() << std::endl; // create block reader BlockContents contents; contents.data = rawblock; contents.cachable = false; Block reader(std::move(contents), kDisableGlobalSequenceNumber); // the index type have fallen back to binary when build finish. ASSERT_EQ(reader.IndexType(), BlockBasedTableOptions::kDataBlockBinarySearch); } } TEST(DataBlockHashIndex, BlockTestSingleKey) { Options options = Options(); BlockBuilder builder(16 /* block_restart_interval */, true /* use_delta_encoding */, false /* use_value_delta_encoding */, BlockBasedTableOptions::kDataBlockBinaryAndHash); std::string ukey("gopher"); std::string value("gold"); InternalKey ikey(ukey, 10, kTypeValue); builder.Add(ikey.Encode().ToString(), value /*value*/); // read serialized contents of the block Slice rawblock = builder.Finish(); // create block reader BlockContents contents; contents.data = rawblock; contents.cachable = false; Block reader(std::move(contents), kDisableGlobalSequenceNumber); const InternalKeyComparator icmp(BytewiseComparator()); auto iter = reader.NewIterator(&icmp, icmp.user_comparator()); bool may_exist; // search in block for the key just inserted { InternalKey seek_ikey(ukey, 10, kValueTypeForSeek); may_exist = iter->SeekForGet(seek_ikey.Encode().ToString()); ASSERT_TRUE(may_exist); ASSERT_TRUE(iter->Valid()); ASSERT_EQ( options.comparator->Compare(iter->key(), ikey.Encode().ToString()), 0); ASSERT_EQ(iter->value(), value); } // search in block for the existing ukey, but with higher seqno { InternalKey seek_ikey(ukey, 20, kValueTypeForSeek); // HashIndex should be able to set the iter correctly may_exist = iter->SeekForGet(seek_ikey.Encode().ToString()); ASSERT_TRUE(may_exist); ASSERT_TRUE(iter->Valid()); // user key should match ASSERT_EQ(options.comparator->Compare(ExtractUserKey(iter->key()), ukey), 0); // seek_key seqno number should be greater than that of iter result ASSERT_GT(GetInternalKeySeqno(seek_ikey.Encode()), GetInternalKeySeqno(iter->key())); ASSERT_EQ(iter->value(), value); } // Search in block for the existing ukey, but with lower seqno // in this case, hash can find the only occurrence of the user_key, but // ParseNextDataKey() will skip it as it does not have a older seqno. // In this case, GetForSeek() is effective to locate the user_key, and // iter->Valid() == false indicates that we've reached to the end of // the block and the caller should continue searching the next block. { InternalKey seek_ikey(ukey, 5, kValueTypeForSeek); may_exist = iter->SeekForGet(seek_ikey.Encode().ToString()); ASSERT_TRUE(may_exist); ASSERT_FALSE(iter->Valid()); // should have reached to the end of block } delete iter; } TEST(DataBlockHashIndex, BlockTestLarge) { Random rnd(1019); Options options = Options(); std::vector keys; std::vector values; BlockBuilder builder(16 /* block_restart_interval */, true /* use_delta_encoding */, false /* use_value_delta_encoding */, BlockBasedTableOptions::kDataBlockBinaryAndHash); int num_records = 500; GenerateRandomKVs(&keys, &values, 0, num_records); // Generate keys. Adding a trailing "1" to indicate existent keys. // Later will Seeking for keys with a trailing "0" to test seeking // non-existent keys. for (int i = 0; i < num_records; i++) { std::string ukey(keys[i] + "1" /* existing key marker */); InternalKey ikey(ukey, 0, kTypeValue); builder.Add(ikey.Encode().ToString(), values[i]); } // read serialized contents of the block Slice rawblock = builder.Finish(); // create block reader BlockContents contents; contents.data = rawblock; contents.cachable = false; Block reader(std::move(contents), kDisableGlobalSequenceNumber); const InternalKeyComparator icmp(BytewiseComparator()); // random seek existent keys for (int i = 0; i < num_records; i++) { auto iter = reader.NewIterator(&icmp, icmp.user_comparator()); // find a random key in the lookaside array int index = rnd.Uniform(num_records); std::string ukey(keys[index] + "1" /* existing key marker */); InternalKey ikey(ukey, 0, kTypeValue); // search in block for this key bool may_exist = iter->SeekForGet(ikey.Encode().ToString()); ASSERT_TRUE(may_exist); ASSERT_TRUE(iter->Valid()); ASSERT_EQ(values[index], iter->value()); delete iter; } // random seek non-existent user keys // In this case A), the user_key cannot be found in HashIndex. The key may // exist in the next block. So the iter is set invalidated to tell the // caller to search the next block. This test case belongs to this case A). // // Note that for non-existent keys, there is possibility of false positive, // i.e. the key is still hashed into some restart interval. // Two additional possible outcome: // B) linear seek the restart interval and not found, the iter stops at the // starting of the next restart interval. The key does not exist // anywhere. // C) linear seek the restart interval and not found, the iter stops at the // the end of the block, i.e. restarts_. The key may exist in the next // block. // So these combinations are possible when searching non-existent user_key: // // case# may_exist iter->Valid() // A true false // B false true // C true false for (int i = 0; i < num_records; i++) { auto iter = reader.NewIterator(&icmp, icmp.user_comparator()); // find a random key in the lookaside array int index = rnd.Uniform(num_records); std::string ukey(keys[index] + "0" /* non-existing key marker */); InternalKey ikey(ukey, 0, kTypeValue); // search in block for this key bool may_exist = iter->SeekForGet(ikey.Encode().ToString()); if (!may_exist) { ASSERT_TRUE(iter->Valid()); } if (!iter->Valid()) { ASSERT_TRUE(may_exist); } delete iter; } } // helper routine for DataBlockHashIndex.BlockBoundary void TestBoundary(InternalKey& ik1, std::string& v1, InternalKey& ik2, std::string& v2, InternalKey& seek_ikey, GetContext& get_context, Options& options) { unique_ptr file_writer; unique_ptr file_reader; unique_ptr table_reader; int level_ = -1; std::vector keys; const ImmutableCFOptions ioptions(options); const MutableCFOptions moptions(options); const InternalKeyComparator internal_comparator(options.comparator); EnvOptions soptions; soptions.use_mmap_reads = ioptions.allow_mmap_reads; file_writer.reset( test::GetWritableFileWriter(new test::StringSink(), "" /* don't care */)); unique_ptr builder; std::vector> int_tbl_prop_collector_factories; std::string column_family_name; builder.reset(ioptions.table_factory->NewTableBuilder( TableBuilderOptions(ioptions, moptions, internal_comparator, &int_tbl_prop_collector_factories, options.compression, CompressionOptions(), nullptr /* compression_dict */, false /* skip_filters */, column_family_name, level_), TablePropertiesCollectorFactory::Context::kUnknownColumnFamily, file_writer.get())); builder->Add(ik1.Encode().ToString(), v1); builder->Add(ik2.Encode().ToString(), v2); EXPECT_TRUE(builder->status().ok()); Status s = builder->Finish(); file_writer->Flush(); EXPECT_TRUE(s.ok()) << s.ToString(); EXPECT_EQ(static_cast(file_writer->writable_file()) ->contents() .size(), builder->FileSize()); // Open the table file_reader.reset(test::GetRandomAccessFileReader(new test::StringSource( static_cast(file_writer->writable_file())->contents(), 0 /*uniq_id*/, ioptions.allow_mmap_reads))); const bool kSkipFilters = true; const bool kImmortal = true; ioptions.table_factory->NewTableReader( TableReaderOptions(ioptions, moptions.prefix_extractor.get(), soptions, internal_comparator, !kSkipFilters, !kImmortal, level_), std::move(file_reader), static_cast(file_writer->writable_file()) ->contents() .size(), &table_reader); // Search using Get() ReadOptions ro; ASSERT_OK(table_reader->Get(ro, seek_ikey.Encode().ToString(), &get_context, moptions.prefix_extractor.get())); } TEST(DataBlockHashIndex, BlockBoundary) { BlockBasedTableOptions table_options; table_options.data_block_index_type = BlockBasedTableOptions::kDataBlockBinaryAndHash; table_options.block_restart_interval = 1; table_options.block_size = 4096; Options options; options.comparator = BytewiseComparator(); options.table_factory.reset(NewBlockBasedTableFactory(table_options)); // insert two large k/v pair. Given that the block_size is 4096, one k/v // pair will take up one block. // [ k1/v1 ][ k2/v2 ] // [ Block N ][ Block N+1 ] { // [ "aab"@100 ][ "axy"@10 ] // | Block N ][ Block N+1 ] // seek for "axy"@60 std::string uk1("aab"); InternalKey ik1(uk1, 100, kTypeValue); std::string v1(4100, '1'); // large value std::string uk2("axy"); InternalKey ik2(uk2, 10, kTypeValue); std::string v2(4100, '2'); // large value PinnableSlice value; std::string seek_ukey("axy"); InternalKey seek_ikey(seek_ukey, 60, kTypeValue); GetContext get_context(options.comparator, nullptr, nullptr, nullptr, GetContext::kNotFound, seek_ukey, &value, nullptr, nullptr, nullptr, nullptr); TestBoundary(ik1, v1, ik2, v2, seek_ikey, get_context, options); ASSERT_EQ(get_context.State(), GetContext::kFound); ASSERT_EQ(value, v2); value.Reset(); } { // [ "axy"@100 ][ "axy"@10 ] // | Block N ][ Block N+1 ] // seek for "axy"@60 std::string uk1("axy"); InternalKey ik1(uk1, 100, kTypeValue); std::string v1(4100, '1'); // large value std::string uk2("axy"); InternalKey ik2(uk2, 10, kTypeValue); std::string v2(4100, '2'); // large value PinnableSlice value; std::string seek_ukey("axy"); InternalKey seek_ikey(seek_ukey, 60, kTypeValue); GetContext get_context(options.comparator, nullptr, nullptr, nullptr, GetContext::kNotFound, seek_ukey, &value, nullptr, nullptr, nullptr, nullptr); TestBoundary(ik1, v1, ik2, v2, seek_ikey, get_context, options); ASSERT_EQ(get_context.State(), GetContext::kFound); ASSERT_EQ(value, v2); value.Reset(); } { // [ "axy"@100 ][ "axy"@10 ] // | Block N ][ Block N+1 ] // seek for "axy"@120 std::string uk1("axy"); InternalKey ik1(uk1, 100, kTypeValue); std::string v1(4100, '1'); // large value std::string uk2("axy"); InternalKey ik2(uk2, 10, kTypeValue); std::string v2(4100, '2'); // large value PinnableSlice value; std::string seek_ukey("axy"); InternalKey seek_ikey(seek_ukey, 120, kTypeValue); GetContext get_context(options.comparator, nullptr, nullptr, nullptr, GetContext::kNotFound, seek_ukey, &value, nullptr, nullptr, nullptr, nullptr); TestBoundary(ik1, v1, ik2, v2, seek_ikey, get_context, options); ASSERT_EQ(get_context.State(), GetContext::kFound); ASSERT_EQ(value, v1); value.Reset(); } { // [ "axy"@100 ][ "axy"@10 ] // | Block N ][ Block N+1 ] // seek for "axy"@5 std::string uk1("axy"); InternalKey ik1(uk1, 100, kTypeValue); std::string v1(4100, '1'); // large value std::string uk2("axy"); InternalKey ik2(uk2, 10, kTypeValue); std::string v2(4100, '2'); // large value PinnableSlice value; std::string seek_ukey("axy"); InternalKey seek_ikey(seek_ukey, 5, kTypeValue); GetContext get_context(options.comparator, nullptr, nullptr, nullptr, GetContext::kNotFound, seek_ukey, &value, nullptr, nullptr, nullptr, nullptr); TestBoundary(ik1, v1, ik2, v2, seek_ikey, get_context, options); ASSERT_EQ(get_context.State(), GetContext::kNotFound); value.Reset(); } } } // namespace rocksdb int main(int argc, char** argv) { ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/table/filter_block.h000066400000000000000000000127041337235545400171530ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2012 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. // // A filter block is stored near the end of a Table file. It contains // filters (e.g., bloom filters) for all data blocks in the table combined // into a single filter block. // // It is a base class for BlockBasedFilter and FullFilter. // These two are both used in BlockBasedTable. The first one contain filter // For a part of keys in sst file, the second contain filter for all keys // in sst file. #pragma once #include #include #include #include #include #include "rocksdb/options.h" #include "rocksdb/slice.h" #include "rocksdb/slice_transform.h" #include "rocksdb/table.h" #include "util/hash.h" #include "format.h" namespace rocksdb { const uint64_t kNotValid = ULLONG_MAX; class FilterPolicy; // A FilterBlockBuilder is used to construct all of the filters for a // particular Table. It generates a single string which is stored as // a special block in the Table. // // The sequence of calls to FilterBlockBuilder must match the regexp: // (StartBlock Add*)* Finish // // BlockBased/Full FilterBlock would be called in the same way. class FilterBlockBuilder { public: explicit FilterBlockBuilder() {} virtual ~FilterBlockBuilder() {} virtual bool IsBlockBased() = 0; // If is blockbased filter virtual void StartBlock(uint64_t block_offset) = 0; // Start new block filter virtual void Add(const Slice& key) = 0; // Add a key to current filter virtual size_t NumAdded() const = 0; // Number of keys added Slice Finish() { // Generate Filter const BlockHandle empty_handle; Status dont_care_status; auto ret = Finish(empty_handle, &dont_care_status); assert(dont_care_status.ok()); return ret; } virtual Slice Finish(const BlockHandle& tmp, Status* status) = 0; private: // No copying allowed FilterBlockBuilder(const FilterBlockBuilder&); void operator=(const FilterBlockBuilder&); }; // A FilterBlockReader is used to parse filter from SST table. // KeyMayMatch and PrefixMayMatch would trigger filter checking // // BlockBased/Full FilterBlock would be called in the same way. class FilterBlockReader { public: explicit FilterBlockReader() : whole_key_filtering_(true), size_(0), statistics_(nullptr) {} explicit FilterBlockReader(size_t s, Statistics* stats, bool _whole_key_filtering) : whole_key_filtering_(_whole_key_filtering), size_(s), statistics_(stats) {} virtual ~FilterBlockReader() {} virtual bool IsBlockBased() = 0; // If is blockbased filter /** * If no_io is set, then it returns true if it cannot answer the query without * reading data from disk. This is used in PartitionedFilterBlockReader to * avoid reading partitions that are not in block cache already * * Normally filters are built on only the user keys and the InternalKey is not * needed for a query. The index in PartitionedFilterBlockReader however is * built upon InternalKey and must be provided via const_ikey_ptr when running * queries. */ virtual bool KeyMayMatch(const Slice& key, const SliceTransform* prefix_extractor, uint64_t block_offset = kNotValid, const bool no_io = false, const Slice* const const_ikey_ptr = nullptr) = 0; /** * no_io and const_ikey_ptr here means the same as in KeyMayMatch */ virtual bool PrefixMayMatch(const Slice& prefix, const SliceTransform* prefix_extractor, uint64_t block_offset = kNotValid, const bool no_io = false, const Slice* const const_ikey_ptr = nullptr) = 0; virtual size_t ApproximateMemoryUsage() const = 0; virtual size_t size() const { return size_; } virtual Statistics* statistics() const { return statistics_; } bool whole_key_filtering() const { return whole_key_filtering_; } // convert this object to a human readable form virtual std::string ToString() const { std::string error_msg("Unsupported filter \n"); return error_msg; } virtual void CacheDependencies(bool /*pin*/, const SliceTransform* /*prefix_extractor*/) {} virtual bool RangeMayExist( const Slice* /*iterate_upper_bound*/, const Slice& user_key, const SliceTransform* prefix_extractor, const Comparator* /*comparator*/, const Slice* const const_ikey_ptr, bool* filter_checked, bool /*need_upper_bound_check*/) { *filter_checked = true; Slice prefix = prefix_extractor->Transform(user_key); return PrefixMayMatch(prefix, prefix_extractor, kNotValid, false, const_ikey_ptr); } protected: bool whole_key_filtering_; private: // No copying allowed FilterBlockReader(const FilterBlockReader&); void operator=(const FilterBlockReader&); size_t size_; Statistics* statistics_; int level_ = -1; }; } // namespace rocksdb rocksdb-5.17.2/table/flush_block_policy.cc000066400000000000000000000061721337235545400205260ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include "rocksdb/flush_block_policy.h" #include "rocksdb/options.h" #include "rocksdb/slice.h" #include "table/block_builder.h" #include "table/format.h" #include namespace rocksdb { // Flush block by size class FlushBlockBySizePolicy : public FlushBlockPolicy { public: // @params block_size: Approximate size of user data packed per // block. // @params block_size_deviation: This is used to close a block before it // reaches the configured FlushBlockBySizePolicy(const uint64_t block_size, const uint64_t block_size_deviation, const bool align, const BlockBuilder& data_block_builder) : block_size_(block_size), block_size_deviation_limit_( ((block_size * (100 - block_size_deviation)) + 99) / 100), align_(align), data_block_builder_(data_block_builder) {} virtual bool Update(const Slice& key, const Slice& value) override { // it makes no sense to flush when the data block is empty if (data_block_builder_.empty()) { return false; } auto curr_size = data_block_builder_.CurrentSizeEstimate(); // Do flush if one of the below two conditions is true: // 1) if the current estimated size already exceeds the block size, // 2) block_size_deviation is set and the estimated size after appending // the kv will exceed the block size and the current size is under the // the deviation. return curr_size >= block_size_ || BlockAlmostFull(key, value); } private: bool BlockAlmostFull(const Slice& key, const Slice& value) const { if (block_size_deviation_limit_ == 0) { return false; } const auto curr_size = data_block_builder_.CurrentSizeEstimate(); auto estimated_size_after = data_block_builder_.EstimateSizeAfterKV(key, value); if (align_) { estimated_size_after += kBlockTrailerSize; return estimated_size_after > block_size_; } return estimated_size_after > block_size_ && curr_size > block_size_deviation_limit_; } const uint64_t block_size_; const uint64_t block_size_deviation_limit_; const bool align_; const BlockBuilder& data_block_builder_; }; FlushBlockPolicy* FlushBlockBySizePolicyFactory::NewFlushBlockPolicy( const BlockBasedTableOptions& table_options, const BlockBuilder& data_block_builder) const { return new FlushBlockBySizePolicy( table_options.block_size, table_options.block_size_deviation, table_options.block_align, data_block_builder); } FlushBlockPolicy* FlushBlockBySizePolicyFactory::NewFlushBlockPolicy( const uint64_t size, const int deviation, const BlockBuilder& data_block_builder) { return new FlushBlockBySizePolicy(size, deviation, false, data_block_builder); } } // namespace rocksdb rocksdb-5.17.2/table/format.cc000066400000000000000000000352331337235545400161440ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "table/format.h" #include #include #include "monitoring/perf_context_imp.h" #include "monitoring/statistics.h" #include "rocksdb/env.h" #include "table/block.h" #include "table/block_based_table_reader.h" #include "table/block_fetcher.h" #include "table/persistent_cache_helper.h" #include "util/coding.h" #include "util/compression.h" #include "util/crc32c.h" #include "util/file_reader_writer.h" #include "util/logging.h" #include "util/stop_watch.h" #include "util/string_util.h" #include "util/xxhash.h" namespace rocksdb { extern const uint64_t kLegacyBlockBasedTableMagicNumber; extern const uint64_t kBlockBasedTableMagicNumber; #ifndef ROCKSDB_LITE extern const uint64_t kLegacyPlainTableMagicNumber; extern const uint64_t kPlainTableMagicNumber; #else // ROCKSDB_LITE doesn't have plain table const uint64_t kLegacyPlainTableMagicNumber = 0; const uint64_t kPlainTableMagicNumber = 0; #endif bool ShouldReportDetailedTime(Env* env, Statistics* stats) { return env != nullptr && stats != nullptr && stats->stats_level_ > kExceptDetailedTimers; } void BlockHandle::EncodeTo(std::string* dst) const { // Sanity check that all fields have been set assert(offset_ != ~static_cast(0)); assert(size_ != ~static_cast(0)); PutVarint64Varint64(dst, offset_, size_); } Status BlockHandle::DecodeFrom(Slice* input) { if (GetVarint64(input, &offset_) && GetVarint64(input, &size_)) { return Status::OK(); } else { // reset in case failure after partially decoding offset_ = 0; size_ = 0; return Status::Corruption("bad block handle"); } } Status BlockHandle::DecodeSizeFrom(uint64_t _offset, Slice* input) { if (GetVarint64(input, &size_)) { offset_ = _offset; return Status::OK(); } else { // reset in case failure after partially decoding offset_ = 0; size_ = 0; return Status::Corruption("bad block handle"); } } // Return a string that contains the copy of handle. std::string BlockHandle::ToString(bool hex) const { std::string handle_str; EncodeTo(&handle_str); if (hex) { return Slice(handle_str).ToString(true); } else { return handle_str; } } const BlockHandle BlockHandle::kNullBlockHandle(0, 0); namespace { inline bool IsLegacyFooterFormat(uint64_t magic_number) { return magic_number == kLegacyBlockBasedTableMagicNumber || magic_number == kLegacyPlainTableMagicNumber; } inline uint64_t UpconvertLegacyFooterFormat(uint64_t magic_number) { if (magic_number == kLegacyBlockBasedTableMagicNumber) { return kBlockBasedTableMagicNumber; } if (magic_number == kLegacyPlainTableMagicNumber) { return kPlainTableMagicNumber; } assert(false); return 0; } } // namespace // legacy footer format: // metaindex handle (varint64 offset, varint64 size) // index handle (varint64 offset, varint64 size) // to make the total size 2 * BlockHandle::kMaxEncodedLength // table_magic_number (8 bytes) // new footer format: // checksum type (char, 1 byte) // metaindex handle (varint64 offset, varint64 size) // index handle (varint64 offset, varint64 size) // to make the total size 2 * BlockHandle::kMaxEncodedLength + 1 // footer version (4 bytes) // table_magic_number (8 bytes) void Footer::EncodeTo(std::string* dst) const { assert(HasInitializedTableMagicNumber()); if (IsLegacyFooterFormat(table_magic_number())) { // has to be default checksum with legacy footer assert(checksum_ == kCRC32c); const size_t original_size = dst->size(); metaindex_handle_.EncodeTo(dst); index_handle_.EncodeTo(dst); dst->resize(original_size + 2 * BlockHandle::kMaxEncodedLength); // Padding PutFixed32(dst, static_cast(table_magic_number() & 0xffffffffu)); PutFixed32(dst, static_cast(table_magic_number() >> 32)); assert(dst->size() == original_size + kVersion0EncodedLength); } else { const size_t original_size = dst->size(); dst->push_back(static_cast(checksum_)); metaindex_handle_.EncodeTo(dst); index_handle_.EncodeTo(dst); dst->resize(original_size + kNewVersionsEncodedLength - 12); // Padding PutFixed32(dst, version()); PutFixed32(dst, static_cast(table_magic_number() & 0xffffffffu)); PutFixed32(dst, static_cast(table_magic_number() >> 32)); assert(dst->size() == original_size + kNewVersionsEncodedLength); } } Footer::Footer(uint64_t _table_magic_number, uint32_t _version) : version_(_version), checksum_(kCRC32c), table_magic_number_(_table_magic_number) { // This should be guaranteed by constructor callers assert(!IsLegacyFooterFormat(_table_magic_number) || version_ == 0); } Status Footer::DecodeFrom(Slice* input) { assert(!HasInitializedTableMagicNumber()); assert(input != nullptr); assert(input->size() >= kMinEncodedLength); const char *magic_ptr = input->data() + input->size() - kMagicNumberLengthByte; const uint32_t magic_lo = DecodeFixed32(magic_ptr); const uint32_t magic_hi = DecodeFixed32(magic_ptr + 4); uint64_t magic = ((static_cast(magic_hi) << 32) | (static_cast(magic_lo))); // We check for legacy formats here and silently upconvert them bool legacy = IsLegacyFooterFormat(magic); if (legacy) { magic = UpconvertLegacyFooterFormat(magic); } set_table_magic_number(magic); if (legacy) { // The size is already asserted to be at least kMinEncodedLength // at the beginning of the function input->remove_prefix(input->size() - kVersion0EncodedLength); version_ = 0 /* legacy */; checksum_ = kCRC32c; } else { version_ = DecodeFixed32(magic_ptr - 4); // Footer version 1 and higher will always occupy exactly this many bytes. // It consists of the checksum type, two block handles, padding, // a version number, and a magic number if (input->size() < kNewVersionsEncodedLength) { return Status::Corruption("input is too short to be an sstable"); } else { input->remove_prefix(input->size() - kNewVersionsEncodedLength); } uint32_t chksum; if (!GetVarint32(input, &chksum)) { return Status::Corruption("bad checksum type"); } checksum_ = static_cast(chksum); } Status result = metaindex_handle_.DecodeFrom(input); if (result.ok()) { result = index_handle_.DecodeFrom(input); } if (result.ok()) { // We skip over any leftover data (just padding for now) in "input" const char* end = magic_ptr + kMagicNumberLengthByte; *input = Slice(end, input->data() + input->size() - end); } return result; } std::string Footer::ToString() const { std::string result; result.reserve(1024); bool legacy = IsLegacyFooterFormat(table_magic_number_); if (legacy) { result.append("metaindex handle: " + metaindex_handle_.ToString() + "\n "); result.append("index handle: " + index_handle_.ToString() + "\n "); result.append("table_magic_number: " + rocksdb::ToString(table_magic_number_) + "\n "); } else { result.append("checksum: " + rocksdb::ToString(checksum_) + "\n "); result.append("metaindex handle: " + metaindex_handle_.ToString() + "\n "); result.append("index handle: " + index_handle_.ToString() + "\n "); result.append("footer version: " + rocksdb::ToString(version_) + "\n "); result.append("table_magic_number: " + rocksdb::ToString(table_magic_number_) + "\n "); } return result; } Status ReadFooterFromFile(RandomAccessFileReader* file, FilePrefetchBuffer* prefetch_buffer, uint64_t file_size, Footer* footer, uint64_t enforce_table_magic_number) { if (file_size < Footer::kMinEncodedLength) { return Status::Corruption( "file is too short (" + ToString(file_size) + " bytes) to be an " "sstable: " + file->file_name()); } char footer_space[Footer::kMaxEncodedLength]; Slice footer_input; size_t read_offset = (file_size > Footer::kMaxEncodedLength) ? static_cast(file_size - Footer::kMaxEncodedLength) : 0; Status s; if (prefetch_buffer == nullptr || !prefetch_buffer->TryReadFromCache(read_offset, Footer::kMaxEncodedLength, &footer_input)) { s = file->Read(read_offset, Footer::kMaxEncodedLength, &footer_input, footer_space); if (!s.ok()) return s; } // Check that we actually read the whole footer from the file. It may be // that size isn't correct. if (footer_input.size() < Footer::kMinEncodedLength) { return Status::Corruption( "file is too short (" + ToString(file_size) + " bytes) to be an " "sstable" + file->file_name()); } s = footer->DecodeFrom(&footer_input); if (!s.ok()) { return s; } if (enforce_table_magic_number != 0 && enforce_table_magic_number != footer->table_magic_number()) { return Status::Corruption( "Bad table magic number: expected " + ToString(enforce_table_magic_number) + ", found " + ToString(footer->table_magic_number()) + " in " + file->file_name()); } return Status::OK(); } Status UncompressBlockContentsForCompressionType( const UncompressionContext& uncompression_ctx, const char* data, size_t n, BlockContents* contents, uint32_t format_version, const ImmutableCFOptions& ioptions) { std::unique_ptr ubuf; assert(uncompression_ctx.type() != kNoCompression && "Invalid compression type"); StopWatchNano timer(ioptions.env, ShouldReportDetailedTime(ioptions.env, ioptions.statistics)); int decompress_size = 0; switch (uncompression_ctx.type()) { case kSnappyCompression: { size_t ulength = 0; static char snappy_corrupt_msg[] = "Snappy not supported or corrupted Snappy compressed block contents"; if (!Snappy_GetUncompressedLength(data, n, &ulength)) { return Status::Corruption(snappy_corrupt_msg); } ubuf.reset(new char[ulength]); if (!Snappy_Uncompress(data, n, ubuf.get())) { return Status::Corruption(snappy_corrupt_msg); } *contents = BlockContents(std::move(ubuf), ulength, true, kNoCompression); break; } case kZlibCompression: ubuf.reset(Zlib_Uncompress( uncompression_ctx, data, n, &decompress_size, GetCompressFormatForVersion(kZlibCompression, format_version))); if (!ubuf) { static char zlib_corrupt_msg[] = "Zlib not supported or corrupted Zlib compressed block contents"; return Status::Corruption(zlib_corrupt_msg); } *contents = BlockContents(std::move(ubuf), decompress_size, true, kNoCompression); break; case kBZip2Compression: ubuf.reset(BZip2_Uncompress( data, n, &decompress_size, GetCompressFormatForVersion(kBZip2Compression, format_version))); if (!ubuf) { static char bzip2_corrupt_msg[] = "Bzip2 not supported or corrupted Bzip2 compressed block contents"; return Status::Corruption(bzip2_corrupt_msg); } *contents = BlockContents(std::move(ubuf), decompress_size, true, kNoCompression); break; case kLZ4Compression: ubuf.reset(LZ4_Uncompress( uncompression_ctx, data, n, &decompress_size, GetCompressFormatForVersion(kLZ4Compression, format_version))); if (!ubuf) { static char lz4_corrupt_msg[] = "LZ4 not supported or corrupted LZ4 compressed block contents"; return Status::Corruption(lz4_corrupt_msg); } *contents = BlockContents(std::move(ubuf), decompress_size, true, kNoCompression); break; case kLZ4HCCompression: ubuf.reset(LZ4_Uncompress( uncompression_ctx, data, n, &decompress_size, GetCompressFormatForVersion(kLZ4HCCompression, format_version))); if (!ubuf) { static char lz4hc_corrupt_msg[] = "LZ4HC not supported or corrupted LZ4HC compressed block contents"; return Status::Corruption(lz4hc_corrupt_msg); } *contents = BlockContents(std::move(ubuf), decompress_size, true, kNoCompression); break; case kXpressCompression: ubuf.reset(XPRESS_Uncompress(data, n, &decompress_size)); if (!ubuf) { static char xpress_corrupt_msg[] = "XPRESS not supported or corrupted XPRESS compressed block contents"; return Status::Corruption(xpress_corrupt_msg); } *contents = BlockContents(std::move(ubuf), decompress_size, true, kNoCompression); break; case kZSTD: case kZSTDNotFinalCompression: ubuf.reset(ZSTD_Uncompress(uncompression_ctx, data, n, &decompress_size)); if (!ubuf) { static char zstd_corrupt_msg[] = "ZSTD not supported or corrupted ZSTD compressed block contents"; return Status::Corruption(zstd_corrupt_msg); } *contents = BlockContents(std::move(ubuf), decompress_size, true, kNoCompression); break; default: return Status::Corruption("bad block type"); } if(ShouldReportDetailedTime(ioptions.env, ioptions.statistics)){ MeasureTime(ioptions.statistics, DECOMPRESSION_TIMES_NANOS, timer.ElapsedNanos()); } MeasureTime(ioptions.statistics, BYTES_DECOMPRESSED, contents->data.size()); RecordTick(ioptions.statistics, NUMBER_BLOCK_DECOMPRESSED); return Status::OK(); } // // The 'data' points to the raw block contents that was read in from file. // This method allocates a new heap buffer and the raw block // contents are uncompresed into this buffer. This // buffer is returned via 'result' and it is upto the caller to // free this buffer. // format_version is the block format as defined in include/rocksdb/table.h Status UncompressBlockContents(const UncompressionContext& uncompression_ctx, const char* data, size_t n, BlockContents* contents, uint32_t format_version, const ImmutableCFOptions& ioptions) { assert(data[n] != kNoCompression); assert(data[n] == uncompression_ctx.type()); return UncompressBlockContentsForCompressionType( uncompression_ctx, data, n, contents, format_version, ioptions); } } // namespace rocksdb rocksdb-5.17.2/table/format.h000066400000000000000000000235361337235545400160110ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #include #include #ifdef ROCKSDB_MALLOC_USABLE_SIZE #ifdef OS_FREEBSD #include #else #include #endif #endif #include "rocksdb/options.h" #include "rocksdb/slice.h" #include "rocksdb/status.h" #include "rocksdb/table.h" #include "options/cf_options.h" #include "port/port.h" // noexcept #include "table/persistent_cache_options.h" #include "util/file_reader_writer.h" namespace rocksdb { class RandomAccessFile; struct ReadOptions; extern bool ShouldReportDetailedTime(Env* env, Statistics* stats); // the length of the magic number in bytes. const int kMagicNumberLengthByte = 8; // BlockHandle is a pointer to the extent of a file that stores a data // block or a meta block. class BlockHandle { public: BlockHandle(); BlockHandle(uint64_t offset, uint64_t size); // The offset of the block in the file. uint64_t offset() const { return offset_; } void set_offset(uint64_t _offset) { offset_ = _offset; } // The size of the stored block uint64_t size() const { return size_; } void set_size(uint64_t _size) { size_ = _size; } void EncodeTo(std::string* dst) const; Status DecodeFrom(Slice* input); Status DecodeSizeFrom(uint64_t offset, Slice* input); // Return a string that contains the copy of handle. std::string ToString(bool hex = true) const; // if the block handle's offset and size are both "0", we will view it // as a null block handle that points to no where. bool IsNull() const { return offset_ == 0 && size_ == 0; } static const BlockHandle& NullBlockHandle() { return kNullBlockHandle; } // Maximum encoding length of a BlockHandle enum { kMaxEncodedLength = 10 + 10 }; private: uint64_t offset_; uint64_t size_; static const BlockHandle kNullBlockHandle; }; inline uint32_t GetCompressFormatForVersion( CompressionType compression_type, uint32_t version) { #ifdef NDEBUG (void)compression_type; #endif // snappy is not versioned assert(compression_type != kSnappyCompression && compression_type != kXpressCompression && compression_type != kNoCompression); // As of version 2, we encode compressed block with // compress_format_version == 2. Before that, the version is 1. // DO NOT CHANGE THIS FUNCTION, it affects disk format return version >= 2 ? 2 : 1; } inline bool BlockBasedTableSupportedVersion(uint32_t version) { return version <= 4; } // Footer encapsulates the fixed information stored at the tail // end of every table file. class Footer { public: // Constructs a footer without specifying its table magic number. // In such case, the table magic number of such footer should be // initialized via @ReadFooterFromFile(). // Use this when you plan to load Footer with DecodeFrom(). Never use this // when you plan to EncodeTo. Footer() : Footer(kInvalidTableMagicNumber, 0) {} // Use this constructor when you plan to write out the footer using // EncodeTo(). Never use this constructor with DecodeFrom(). Footer(uint64_t table_magic_number, uint32_t version); // The version of the footer in this file uint32_t version() const { return version_; } // The checksum type used in this file ChecksumType checksum() const { return checksum_; } void set_checksum(const ChecksumType c) { checksum_ = c; } // The block handle for the metaindex block of the table const BlockHandle& metaindex_handle() const { return metaindex_handle_; } void set_metaindex_handle(const BlockHandle& h) { metaindex_handle_ = h; } // The block handle for the index block of the table const BlockHandle& index_handle() const { return index_handle_; } void set_index_handle(const BlockHandle& h) { index_handle_ = h; } uint64_t table_magic_number() const { return table_magic_number_; } void EncodeTo(std::string* dst) const; // Set the current footer based on the input slice. // // REQUIRES: table_magic_number_ is not set (i.e., // HasInitializedTableMagicNumber() is true). The function will initialize the // magic number Status DecodeFrom(Slice* input); // Encoded length of a Footer. Note that the serialization of a Footer will // always occupy at least kMinEncodedLength bytes. If fields are changed // the version number should be incremented and kMaxEncodedLength should be // increased accordingly. enum { // Footer version 0 (legacy) will always occupy exactly this many bytes. // It consists of two block handles, padding, and a magic number. kVersion0EncodedLength = 2 * BlockHandle::kMaxEncodedLength + 8, // Footer of versions 1 and higher will always occupy exactly this many // bytes. It consists of the checksum type, two block handles, padding, // a version number (bigger than 1), and a magic number kNewVersionsEncodedLength = 1 + 2 * BlockHandle::kMaxEncodedLength + 4 + 8, kMinEncodedLength = kVersion0EncodedLength, kMaxEncodedLength = kNewVersionsEncodedLength, }; static const uint64_t kInvalidTableMagicNumber = 0; // convert this object to a human readable form std::string ToString() const; private: // REQUIRES: magic number wasn't initialized. void set_table_magic_number(uint64_t magic_number) { assert(!HasInitializedTableMagicNumber()); table_magic_number_ = magic_number; } // return true if @table_magic_number_ is set to a value different // from @kInvalidTableMagicNumber. bool HasInitializedTableMagicNumber() const { return (table_magic_number_ != kInvalidTableMagicNumber); } uint32_t version_; ChecksumType checksum_; BlockHandle metaindex_handle_; BlockHandle index_handle_; uint64_t table_magic_number_ = 0; }; // Read the footer from file // If enforce_table_magic_number != 0, ReadFooterFromFile() will return // corruption if table_magic number is not equal to enforce_table_magic_number Status ReadFooterFromFile(RandomAccessFileReader* file, FilePrefetchBuffer* prefetch_buffer, uint64_t file_size, Footer* footer, uint64_t enforce_table_magic_number = 0); // 1-byte type + 32-bit crc static const size_t kBlockTrailerSize = 5; struct BlockContents { Slice data; // Actual contents of data bool cachable; // True iff data can be cached CompressionType compression_type; std::unique_ptr allocation; BlockContents() : cachable(false), compression_type(kNoCompression) {} BlockContents(const Slice& _data, bool _cachable, CompressionType _compression_type) : data(_data), cachable(_cachable), compression_type(_compression_type) {} BlockContents(std::unique_ptr&& _data, size_t _size, bool _cachable, CompressionType _compression_type) : data(_data.get(), _size), cachable(_cachable), compression_type(_compression_type), allocation(std::move(_data)) {} // The additional memory space taken by the block data. size_t usable_size() const { if (allocation.get() != nullptr) { #ifdef ROCKSDB_MALLOC_USABLE_SIZE return malloc_usable_size(allocation.get()); #else return data.size(); #endif // ROCKSDB_MALLOC_USABLE_SIZE } else { return 0; // no extra memory is occupied by the data } } BlockContents(BlockContents&& other) ROCKSDB_NOEXCEPT { *this = std::move(other); } BlockContents& operator=(BlockContents&& other) { data = std::move(other.data); cachable = other.cachable; compression_type = other.compression_type; allocation = std::move(other.allocation); return *this; } }; // Read the block identified by "handle" from "file". On failure // return non-OK. On success fill *result and return OK. extern Status ReadBlockContents( RandomAccessFileReader* file, FilePrefetchBuffer* prefetch_buffer, const Footer& footer, const ReadOptions& options, const BlockHandle& handle, BlockContents* contents, const ImmutableCFOptions& ioptions, bool do_uncompress = true, const Slice& compression_dict = Slice(), const PersistentCacheOptions& cache_options = PersistentCacheOptions()); // The 'data' points to the raw block contents read in from file. // This method allocates a new heap buffer and the raw block // contents are uncompresed into this buffer. This buffer is // returned via 'result' and it is upto the caller to // free this buffer. // For description of compress_format_version and possible values, see // util/compression.h extern Status UncompressBlockContents( const UncompressionContext& uncompression_ctx, const char* data, size_t n, BlockContents* contents, uint32_t compress_format_version, const ImmutableCFOptions& ioptions); // This is an extension to UncompressBlockContents that accepts // a specific compression type. This is used by un-wrapped blocks // with no compression header. extern Status UncompressBlockContentsForCompressionType( const UncompressionContext& uncompression_ctx, const char* data, size_t n, BlockContents* contents, uint32_t compress_format_version, const ImmutableCFOptions& ioptions); // Implementation details follow. Clients should ignore, // TODO(andrewkr): we should prefer one way of representing a null/uninitialized // BlockHandle. Currently we use zeros for null and use negation-of-zeros for // uninitialized. inline BlockHandle::BlockHandle() : BlockHandle(~static_cast(0), ~static_cast(0)) {} inline BlockHandle::BlockHandle(uint64_t _offset, uint64_t _size) : offset_(_offset), size_(_size) {} } // namespace rocksdb rocksdb-5.17.2/table/full_filter_bits_builder.h000066400000000000000000000055361337235545400215570ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // Copyright (c) 2012 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #include #include #include #include "rocksdb/filter_policy.h" namespace rocksdb { class Slice; class FullFilterBitsBuilder : public FilterBitsBuilder { public: explicit FullFilterBitsBuilder(const size_t bits_per_key, const size_t num_probes); ~FullFilterBitsBuilder(); virtual void AddKey(const Slice& key) override; // Create a filter that for hashes [0, n-1], the filter is allocated here // When creating filter, it is ensured that // total_bits = num_lines * CACHE_LINE_SIZE * 8 // dst len is >= 5, 1 for num_probes, 4 for num_lines // Then total_bits = (len - 5) * 8, and cache_line_size could be calculated // +----------------------------------------------------------------+ // | filter data with length total_bits/8 | // +----------------------------------------------------------------+ // | | // | ... | // | | // +----------------------------------------------------------------+ // | ... | num_probes : 1 byte | num_lines : 4 bytes | // +----------------------------------------------------------------+ virtual Slice Finish(std::unique_ptr* buf) override; // Calculate num of entries fit into a space. virtual int CalculateNumEntry(const uint32_t space) override; // Calculate space for new filter. This is reverse of CalculateNumEntry. uint32_t CalculateSpace(const int num_entry, uint32_t* total_bits, uint32_t* num_lines); private: friend class FullFilterBlockTest_DuplicateEntries_Test; size_t bits_per_key_; size_t num_probes_; std::vector hash_entries_; // Get totalbits that optimized for cpu cache line uint32_t GetTotalBitsForLocality(uint32_t total_bits); // Reserve space for new filter char* ReserveSpace(const int num_entry, uint32_t* total_bits, uint32_t* num_lines); // Assuming single threaded access to this function. void AddHash(uint32_t h, char* data, uint32_t num_lines, uint32_t total_bits); // No Copy allowed FullFilterBitsBuilder(const FullFilterBitsBuilder&); void operator=(const FullFilterBitsBuilder&); }; } // namespace rocksdb rocksdb-5.17.2/table/full_filter_block.cc000066400000000000000000000167701337235545400203420ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include "table/full_filter_block.h" #ifdef ROCKSDB_MALLOC_USABLE_SIZE #ifdef OS_FREEBSD #include #else #include #endif #endif #include "monitoring/perf_context_imp.h" #include "port/port.h" #include "rocksdb/filter_policy.h" #include "util/coding.h" namespace rocksdb { FullFilterBlockBuilder::FullFilterBlockBuilder( const SliceTransform* prefix_extractor, bool whole_key_filtering, FilterBitsBuilder* filter_bits_builder) : prefix_extractor_(prefix_extractor), whole_key_filtering_(whole_key_filtering), last_whole_key_recorded_(false), last_prefix_recorded_(false), num_added_(0) { assert(filter_bits_builder != nullptr); filter_bits_builder_.reset(filter_bits_builder); } void FullFilterBlockBuilder::Add(const Slice& key) { const bool add_prefix = prefix_extractor_ && prefix_extractor_->InDomain(key); if (whole_key_filtering_) { if (!add_prefix) { AddKey(key); } else { // if both whole_key and prefix are added to bloom then we will have whole // key and prefix addition being interleaved and thus cannot rely on the // bits builder to properly detect the duplicates by comparing with the // last item. Slice last_whole_key = Slice(last_whole_key_str_); if (!last_whole_key_recorded_ || last_whole_key.compare(key) != 0) { AddKey(key); last_whole_key_recorded_ = true; last_whole_key_str_.assign(key.data(), key.size()); } } } if (add_prefix) { AddPrefix(key); } } // Add key to filter if needed inline void FullFilterBlockBuilder::AddKey(const Slice& key) { filter_bits_builder_->AddKey(key); num_added_++; } // Add prefix to filter if needed inline void FullFilterBlockBuilder::AddPrefix(const Slice& key) { Slice prefix = prefix_extractor_->Transform(key); if (whole_key_filtering_) { // if both whole_key and prefix are added to bloom then we will have whole // key and prefix addition being interleaved and thus cannot rely on the // bits builder to properly detect the duplicates by comparing with the last // item. Slice last_prefix = Slice(last_prefix_str_); if (!last_prefix_recorded_ || last_prefix.compare(prefix) != 0) { AddKey(prefix); last_prefix_recorded_ = true; last_prefix_str_.assign(prefix.data(), prefix.size()); } } else { AddKey(prefix); } } void FullFilterBlockBuilder::Reset() { last_whole_key_recorded_ = false; last_prefix_recorded_ = false; } Slice FullFilterBlockBuilder::Finish(const BlockHandle& /*tmp*/, Status* status) { Reset(); // In this impl we ignore BlockHandle *status = Status::OK(); if (num_added_ != 0) { num_added_ = 0; return filter_bits_builder_->Finish(&filter_data_); } return Slice(); } FullFilterBlockReader::FullFilterBlockReader( const SliceTransform* prefix_extractor, bool _whole_key_filtering, const Slice& contents, FilterBitsReader* filter_bits_reader, Statistics* stats) : FilterBlockReader(contents.size(), stats, _whole_key_filtering), prefix_extractor_(prefix_extractor), contents_(contents) { assert(filter_bits_reader != nullptr); filter_bits_reader_.reset(filter_bits_reader); if (prefix_extractor_ != nullptr) { full_length_enabled_ = prefix_extractor_->FullLengthEnabled(&prefix_extractor_full_length_); } } FullFilterBlockReader::FullFilterBlockReader( const SliceTransform* prefix_extractor, bool _whole_key_filtering, BlockContents&& contents, FilterBitsReader* filter_bits_reader, Statistics* stats) : FullFilterBlockReader(prefix_extractor, _whole_key_filtering, contents.data, filter_bits_reader, stats) { block_contents_ = std::move(contents); } bool FullFilterBlockReader::KeyMayMatch( const Slice& key, const SliceTransform* /*prefix_extractor*/, uint64_t block_offset, const bool /*no_io*/, const Slice* const /*const_ikey_ptr*/) { #ifdef NDEBUG (void)block_offset; #endif assert(block_offset == kNotValid); if (!whole_key_filtering_) { return true; } return MayMatch(key); } bool FullFilterBlockReader::PrefixMayMatch( const Slice& prefix, const SliceTransform* /* prefix_extractor */, uint64_t block_offset, const bool /*no_io*/, const Slice* const /*const_ikey_ptr*/) { #ifdef NDEBUG (void)block_offset; #endif assert(block_offset == kNotValid); return MayMatch(prefix); } bool FullFilterBlockReader::MayMatch(const Slice& entry) { if (contents_.size() != 0) { if (filter_bits_reader_->MayMatch(entry)) { PERF_COUNTER_ADD(bloom_sst_hit_count, 1); return true; } else { PERF_COUNTER_ADD(bloom_sst_miss_count, 1); return false; } } return true; // remain the same with block_based filter } size_t FullFilterBlockReader::ApproximateMemoryUsage() const { size_t usage = block_contents_.usable_size(); #ifdef ROCKSDB_MALLOC_USABLE_SIZE usage += malloc_usable_size((void*)this); usage += malloc_usable_size(filter_bits_reader_.get()); #else usage += sizeof(*this); usage += sizeof(*filter_bits_reader_.get()); #endif // ROCKSDB_MALLOC_USABLE_SIZE return usage; } bool FullFilterBlockReader::RangeMayExist(const Slice* iterate_upper_bound, const Slice& user_key, const SliceTransform* prefix_extractor, const Comparator* comparator, const Slice* const const_ikey_ptr, bool* filter_checked, bool need_upper_bound_check) { if (!prefix_extractor || !prefix_extractor->InDomain(user_key)) { *filter_checked = false; return true; } Slice prefix = prefix_extractor->Transform(user_key); if (need_upper_bound_check && !IsFilterCompatible(iterate_upper_bound, prefix, comparator)) { *filter_checked = false; return true; } else { *filter_checked = true; return PrefixMayMatch(prefix, prefix_extractor, kNotValid, false, const_ikey_ptr); } } bool FullFilterBlockReader::IsFilterCompatible( const Slice* iterate_upper_bound, const Slice& prefix, const Comparator* comparator) { // Try to reuse the bloom filter in the SST table if prefix_extractor in // mutable_cf_options has changed. If range [user_key, upper_bound) all // share the same prefix then we may still be able to use the bloom filter. if (iterate_upper_bound != nullptr && prefix_extractor_) { if (!prefix_extractor_->InDomain(*iterate_upper_bound)) { return false; } Slice upper_bound_xform = prefix_extractor_->Transform(*iterate_upper_bound); // first check if user_key and upper_bound all share the same prefix if (!comparator->Equal(prefix, upper_bound_xform)) { // second check if user_key's prefix is the immediate predecessor of // upper_bound and have the same length. If so, we know for sure all // keys in the range [user_key, upper_bound) share the same prefix. // Also need to make sure upper_bound are full length to ensure // correctness if (!full_length_enabled_ || iterate_upper_bound->size() != prefix_extractor_full_length_ || !comparator->IsSameLengthImmediateSuccessor(prefix, *iterate_upper_bound)) { return false; } } return true; } else { return false; } } } // namespace rocksdb rocksdb-5.17.2/table/full_filter_block.h000066400000000000000000000122121337235545400201670ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #include #include #include #include #include #include "rocksdb/options.h" #include "rocksdb/slice.h" #include "rocksdb/slice_transform.h" #include "db/dbformat.h" #include "util/hash.h" #include "table/filter_block.h" namespace rocksdb { class FilterPolicy; class FilterBitsBuilder; class FilterBitsReader; // A FullFilterBlockBuilder is used to construct a full filter for a // particular Table. It generates a single string which is stored as // a special block in the Table. // The format of full filter block is: // +----------------------------------------------------------------+ // | full filter for all keys in sst file | // +----------------------------------------------------------------+ // The full filter can be very large. At the end of it, we put // num_probes: how many hash functions are used in bloom filter // class FullFilterBlockBuilder : public FilterBlockBuilder { public: explicit FullFilterBlockBuilder(const SliceTransform* prefix_extractor, bool whole_key_filtering, FilterBitsBuilder* filter_bits_builder); // bits_builder is created in filter_policy, it should be passed in here // directly. and be deleted here ~FullFilterBlockBuilder() {} virtual bool IsBlockBased() override { return false; } virtual void StartBlock(uint64_t /*block_offset*/) override {} virtual void Add(const Slice& key) override; virtual size_t NumAdded() const override { return num_added_; } virtual Slice Finish(const BlockHandle& tmp, Status* status) override; using FilterBlockBuilder::Finish; protected: virtual void AddKey(const Slice& key); std::unique_ptr filter_bits_builder_; virtual void Reset(); private: // important: all of these might point to invalid addresses // at the time of destruction of this filter block. destructor // should NOT dereference them. const SliceTransform* prefix_extractor_; bool whole_key_filtering_; bool last_whole_key_recorded_; std::string last_whole_key_str_; bool last_prefix_recorded_; std::string last_prefix_str_; uint32_t num_added_; std::unique_ptr filter_data_; void AddPrefix(const Slice& key); // No copying allowed FullFilterBlockBuilder(const FullFilterBlockBuilder&); void operator=(const FullFilterBlockBuilder&); }; // A FilterBlockReader is used to parse filter from SST table. // KeyMayMatch and PrefixMayMatch would trigger filter checking class FullFilterBlockReader : public FilterBlockReader { public: // REQUIRES: "contents" and filter_bits_reader must stay live // while *this is live. explicit FullFilterBlockReader(const SliceTransform* prefix_extractor, bool whole_key_filtering, const Slice& contents, FilterBitsReader* filter_bits_reader, Statistics* statistics); explicit FullFilterBlockReader(const SliceTransform* prefix_extractor, bool whole_key_filtering, BlockContents&& contents, FilterBitsReader* filter_bits_reader, Statistics* statistics); // bits_reader is created in filter_policy, it should be passed in here // directly. and be deleted here ~FullFilterBlockReader() {} virtual bool IsBlockBased() override { return false; } virtual bool KeyMayMatch( const Slice& key, const SliceTransform* prefix_extractor, uint64_t block_offset = kNotValid, const bool no_io = false, const Slice* const const_ikey_ptr = nullptr) override; virtual bool PrefixMayMatch( const Slice& prefix, const SliceTransform* prefix_extractor, uint64_t block_offset = kNotValid, const bool no_io = false, const Slice* const const_ikey_ptr = nullptr) override; virtual size_t ApproximateMemoryUsage() const override; virtual bool RangeMayExist(const Slice* iterate_upper_bound, const Slice& user_key, const SliceTransform* prefix_extractor, const Comparator* comparator, const Slice* const const_ikey_ptr, bool* filter_checked, bool need_upper_bound_check) override; private: const SliceTransform* prefix_extractor_; Slice contents_; std::unique_ptr filter_bits_reader_; BlockContents block_contents_; bool full_length_enabled_; size_t prefix_extractor_full_length_; // No copying allowed FullFilterBlockReader(const FullFilterBlockReader&); bool MayMatch(const Slice& entry); void operator=(const FullFilterBlockReader&); bool IsFilterCompatible(const Slice* iterate_upper_bound, const Slice& prefix, const Comparator* comparator); }; } // namespace rocksdb rocksdb-5.17.2/table/full_filter_block_test.cc000066400000000000000000000161501337235545400213710ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include "table/full_filter_block.h" #include "rocksdb/filter_policy.h" #include "table/full_filter_bits_builder.h" #include "util/coding.h" #include "util/hash.h" #include "util/string_util.h" #include "util/testharness.h" #include "util/testutil.h" namespace rocksdb { class TestFilterBitsBuilder : public FilterBitsBuilder { public: explicit TestFilterBitsBuilder() {} // Add Key to filter virtual void AddKey(const Slice& key) override { hash_entries_.push_back(Hash(key.data(), key.size(), 1)); } // Generate the filter using the keys that are added virtual Slice Finish(std::unique_ptr* buf) override { uint32_t len = static_cast(hash_entries_.size()) * 4; char* data = new char[len]; for (size_t i = 0; i < hash_entries_.size(); i++) { EncodeFixed32(data + i * 4, hash_entries_[i]); } const char* const_data = data; buf->reset(const_data); return Slice(data, len); } private: std::vector hash_entries_; }; class TestFilterBitsReader : public FilterBitsReader { public: explicit TestFilterBitsReader(const Slice& contents) : data_(contents.data()), len_(static_cast(contents.size())) {} virtual bool MayMatch(const Slice& entry) override { uint32_t h = Hash(entry.data(), entry.size(), 1); for (size_t i = 0; i + 4 <= len_; i += 4) { if (h == DecodeFixed32(data_ + i)) { return true; } } return false; } private: const char* data_; uint32_t len_; }; class TestHashFilter : public FilterPolicy { public: virtual const char* Name() const override { return "TestHashFilter"; } virtual void CreateFilter(const Slice* keys, int n, std::string* dst) const override { for (int i = 0; i < n; i++) { uint32_t h = Hash(keys[i].data(), keys[i].size(), 1); PutFixed32(dst, h); } } virtual bool KeyMayMatch(const Slice& key, const Slice& filter) const override { uint32_t h = Hash(key.data(), key.size(), 1); for (unsigned int i = 0; i + 4 <= filter.size(); i += 4) { if (h == DecodeFixed32(filter.data() + i)) { return true; } } return false; } virtual FilterBitsBuilder* GetFilterBitsBuilder() const override { return new TestFilterBitsBuilder(); } virtual FilterBitsReader* GetFilterBitsReader(const Slice& contents) const override { return new TestFilterBitsReader(contents); } }; class PluginFullFilterBlockTest : public testing::Test { public: BlockBasedTableOptions table_options_; PluginFullFilterBlockTest() { table_options_.filter_policy.reset(new TestHashFilter()); } }; TEST_F(PluginFullFilterBlockTest, PluginEmptyBuilder) { FullFilterBlockBuilder builder( nullptr, true, table_options_.filter_policy->GetFilterBitsBuilder()); Slice block = builder.Finish(); ASSERT_EQ("", EscapeString(block)); FullFilterBlockReader reader( nullptr, true, block, table_options_.filter_policy->GetFilterBitsReader(block), nullptr); // Remain same symantic with blockbased filter ASSERT_TRUE(reader.KeyMayMatch("foo", nullptr)); } TEST_F(PluginFullFilterBlockTest, PluginSingleChunk) { FullFilterBlockBuilder builder( nullptr, true, table_options_.filter_policy->GetFilterBitsBuilder()); builder.Add("foo"); builder.Add("bar"); builder.Add("box"); builder.Add("box"); builder.Add("hello"); Slice block = builder.Finish(); FullFilterBlockReader reader( nullptr, true, block, table_options_.filter_policy->GetFilterBitsReader(block), nullptr); ASSERT_TRUE(reader.KeyMayMatch("foo", nullptr)); ASSERT_TRUE(reader.KeyMayMatch("bar", nullptr)); ASSERT_TRUE(reader.KeyMayMatch("box", nullptr)); ASSERT_TRUE(reader.KeyMayMatch("hello", nullptr)); ASSERT_TRUE(reader.KeyMayMatch("foo", nullptr)); ASSERT_TRUE(!reader.KeyMayMatch("missing", nullptr)); ASSERT_TRUE(!reader.KeyMayMatch("other", nullptr)); } class FullFilterBlockTest : public testing::Test { public: BlockBasedTableOptions table_options_; FullFilterBlockTest() { table_options_.filter_policy.reset(NewBloomFilterPolicy(10, false)); } ~FullFilterBlockTest() {} }; TEST_F(FullFilterBlockTest, EmptyBuilder) { FullFilterBlockBuilder builder( nullptr, true, table_options_.filter_policy->GetFilterBitsBuilder()); Slice block = builder.Finish(); ASSERT_EQ("", EscapeString(block)); FullFilterBlockReader reader( nullptr, true, block, table_options_.filter_policy->GetFilterBitsReader(block), nullptr); // Remain same symantic with blockbased filter ASSERT_TRUE(reader.KeyMayMatch("foo", nullptr)); } TEST_F(FullFilterBlockTest, DuplicateEntries) { { // empty prefixes std::unique_ptr prefix_extractor( NewFixedPrefixTransform(0)); auto bits_builder = dynamic_cast( table_options_.filter_policy->GetFilterBitsBuilder()); const bool WHOLE_KEY = true; FullFilterBlockBuilder builder(prefix_extractor.get(), WHOLE_KEY, bits_builder); ASSERT_EQ(0, builder.NumAdded()); builder.Add("key"); // test with empty prefix ASSERT_EQ(2, bits_builder->hash_entries_.size()); } // mix of empty and non-empty std::unique_ptr prefix_extractor( NewFixedPrefixTransform(7)); auto bits_builder = dynamic_cast( table_options_.filter_policy->GetFilterBitsBuilder()); const bool WHOLE_KEY = true; FullFilterBlockBuilder builder(prefix_extractor.get(), WHOLE_KEY, bits_builder); ASSERT_EQ(0, builder.NumAdded()); builder.Add(""); // test with empty key too builder.Add("prefix1key1"); builder.Add("prefix1key1"); builder.Add("prefix1key2"); builder.Add("prefix1key3"); builder.Add("prefix2key4"); // two prefix adn 4 keys ASSERT_EQ(1 + 2 + 4, bits_builder->hash_entries_.size()); } TEST_F(FullFilterBlockTest, SingleChunk) { FullFilterBlockBuilder builder( nullptr, true, table_options_.filter_policy->GetFilterBitsBuilder()); ASSERT_EQ(0, builder.NumAdded()); builder.Add("foo"); builder.Add("bar"); builder.Add("box"); builder.Add("box"); builder.Add("hello"); ASSERT_EQ(5, builder.NumAdded()); Slice block = builder.Finish(); FullFilterBlockReader reader( nullptr, true, block, table_options_.filter_policy->GetFilterBitsReader(block), nullptr); ASSERT_TRUE(reader.KeyMayMatch("foo", nullptr)); ASSERT_TRUE(reader.KeyMayMatch("bar", nullptr)); ASSERT_TRUE(reader.KeyMayMatch("box", nullptr)); ASSERT_TRUE(reader.KeyMayMatch("hello", nullptr)); ASSERT_TRUE(reader.KeyMayMatch("foo", nullptr)); ASSERT_TRUE(!reader.KeyMayMatch("missing", nullptr)); ASSERT_TRUE(!reader.KeyMayMatch("other", nullptr)); } } // namespace rocksdb int main(int argc, char** argv) { ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/table/get_context.cc000066400000000000000000000260431337235545400171760ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include "table/get_context.h" #include "db/merge_helper.h" #include "db/pinned_iterators_manager.h" #include "db/read_callback.h" #include "monitoring/file_read_sample.h" #include "monitoring/perf_context_imp.h" #include "monitoring/statistics.h" #include "rocksdb/env.h" #include "rocksdb/merge_operator.h" #include "rocksdb/statistics.h" namespace rocksdb { namespace { void appendToReplayLog(std::string* replay_log, ValueType type, Slice value) { #ifndef ROCKSDB_LITE if (replay_log) { if (replay_log->empty()) { // Optimization: in the common case of only one operation in the // log, we allocate the exact amount of space needed. replay_log->reserve(1 + VarintLength(value.size()) + value.size()); } replay_log->push_back(type); PutLengthPrefixedSlice(replay_log, value); } #else (void)replay_log; (void)type; (void)value; #endif // ROCKSDB_LITE } } // namespace GetContext::GetContext(const Comparator* ucmp, const MergeOperator* merge_operator, Logger* logger, Statistics* statistics, GetState init_state, const Slice& user_key, PinnableSlice* pinnable_val, bool* value_found, MergeContext* merge_context, RangeDelAggregator* _range_del_agg, Env* env, SequenceNumber* seq, PinnedIteratorsManager* _pinned_iters_mgr, ReadCallback* callback, bool* is_blob_index) : ucmp_(ucmp), merge_operator_(merge_operator), logger_(logger), statistics_(statistics), state_(init_state), user_key_(user_key), pinnable_val_(pinnable_val), value_found_(value_found), merge_context_(merge_context), range_del_agg_(_range_del_agg), env_(env), seq_(seq), replay_log_(nullptr), pinned_iters_mgr_(_pinned_iters_mgr), callback_(callback), is_blob_index_(is_blob_index) { if (seq_) { *seq_ = kMaxSequenceNumber; } sample_ = should_sample_file_read(); } // Called from TableCache::Get and Table::Get when file/block in which // key may exist are not there in TableCache/BlockCache respectively. In this // case we can't guarantee that key does not exist and are not permitted to do // IO to be certain.Set the status=kFound and value_found=false to let the // caller know that key may exist but is not there in memory void GetContext::MarkKeyMayExist() { state_ = kFound; if (value_found_ != nullptr) { *value_found_ = false; } } void GetContext::SaveValue(const Slice& value, SequenceNumber /*seq*/) { assert(state_ == kNotFound); appendToReplayLog(replay_log_, kTypeValue, value); state_ = kFound; if (LIKELY(pinnable_val_ != nullptr)) { pinnable_val_->PinSelf(value); } } void GetContext::ReportCounters() { if (get_context_stats_.num_cache_hit > 0) { RecordTick(statistics_, BLOCK_CACHE_HIT, get_context_stats_.num_cache_hit); } if (get_context_stats_.num_cache_index_hit > 0) { RecordTick(statistics_, BLOCK_CACHE_INDEX_HIT, get_context_stats_.num_cache_index_hit); } if (get_context_stats_.num_cache_data_hit > 0) { RecordTick(statistics_, BLOCK_CACHE_DATA_HIT, get_context_stats_.num_cache_data_hit); } if (get_context_stats_.num_cache_filter_hit > 0) { RecordTick(statistics_, BLOCK_CACHE_FILTER_HIT, get_context_stats_.num_cache_filter_hit); } if (get_context_stats_.num_cache_index_miss > 0) { RecordTick(statistics_, BLOCK_CACHE_INDEX_MISS, get_context_stats_.num_cache_index_miss); } if (get_context_stats_.num_cache_filter_miss > 0) { RecordTick(statistics_, BLOCK_CACHE_FILTER_MISS, get_context_stats_.num_cache_filter_miss); } if (get_context_stats_.num_cache_data_miss > 0) { RecordTick(statistics_, BLOCK_CACHE_DATA_MISS, get_context_stats_.num_cache_data_miss); } if (get_context_stats_.num_cache_bytes_read > 0) { RecordTick(statistics_, BLOCK_CACHE_BYTES_READ, get_context_stats_.num_cache_bytes_read); } if (get_context_stats_.num_cache_miss > 0) { RecordTick(statistics_, BLOCK_CACHE_MISS, get_context_stats_.num_cache_miss); } if (get_context_stats_.num_cache_add > 0) { RecordTick(statistics_, BLOCK_CACHE_ADD, get_context_stats_.num_cache_add); } if (get_context_stats_.num_cache_bytes_write > 0) { RecordTick(statistics_, BLOCK_CACHE_BYTES_WRITE, get_context_stats_.num_cache_bytes_write); } if (get_context_stats_.num_cache_index_add > 0) { RecordTick(statistics_, BLOCK_CACHE_INDEX_ADD, get_context_stats_.num_cache_index_add); } if (get_context_stats_.num_cache_index_bytes_insert > 0) { RecordTick(statistics_, BLOCK_CACHE_INDEX_BYTES_INSERT, get_context_stats_.num_cache_index_bytes_insert); } if (get_context_stats_.num_cache_data_add > 0) { RecordTick(statistics_, BLOCK_CACHE_DATA_ADD, get_context_stats_.num_cache_data_add); } if (get_context_stats_.num_cache_data_bytes_insert > 0) { RecordTick(statistics_, BLOCK_CACHE_DATA_BYTES_INSERT, get_context_stats_.num_cache_data_bytes_insert); } if (get_context_stats_.num_cache_filter_add > 0) { RecordTick(statistics_, BLOCK_CACHE_FILTER_ADD, get_context_stats_.num_cache_filter_add); } if (get_context_stats_.num_cache_filter_bytes_insert > 0) { RecordTick(statistics_, BLOCK_CACHE_FILTER_BYTES_INSERT, get_context_stats_.num_cache_filter_bytes_insert); } } bool GetContext::SaveValue(const ParsedInternalKey& parsed_key, const Slice& value, bool* matched, Cleanable* value_pinner) { assert(matched); assert((state_ != kMerge && parsed_key.type != kTypeMerge) || merge_context_ != nullptr); if (ucmp_->Equal(parsed_key.user_key, user_key_)) { *matched = true; // If the value is not in the snapshot, skip it if (!CheckCallback(parsed_key.sequence)) { return true; // to continue to the next seq } appendToReplayLog(replay_log_, parsed_key.type, value); if (seq_ != nullptr) { // Set the sequence number if it is uninitialized if (*seq_ == kMaxSequenceNumber) { *seq_ = parsed_key.sequence; } } auto type = parsed_key.type; // Key matches. Process it if ((type == kTypeValue || type == kTypeMerge || type == kTypeBlobIndex) && range_del_agg_ != nullptr && range_del_agg_->ShouldDelete(parsed_key)) { type = kTypeRangeDeletion; } switch (type) { case kTypeValue: case kTypeBlobIndex: assert(state_ == kNotFound || state_ == kMerge); if (type == kTypeBlobIndex && is_blob_index_ == nullptr) { // Blob value not supported. Stop. state_ = kBlobIndex; return false; } if (kNotFound == state_) { state_ = kFound; if (LIKELY(pinnable_val_ != nullptr)) { if (LIKELY(value_pinner != nullptr)) { // If the backing resources for the value are provided, pin them pinnable_val_->PinSlice(value, value_pinner); } else { // Otherwise copy the value pinnable_val_->PinSelf(value); } } } else if (kMerge == state_) { assert(merge_operator_ != nullptr); state_ = kFound; if (LIKELY(pinnable_val_ != nullptr)) { Status merge_status = MergeHelper::TimedFullMerge( merge_operator_, user_key_, &value, merge_context_->GetOperands(), pinnable_val_->GetSelf(), logger_, statistics_, env_); pinnable_val_->PinSelf(); if (!merge_status.ok()) { state_ = kCorrupt; } } } if (is_blob_index_ != nullptr) { *is_blob_index_ = (type == kTypeBlobIndex); } return false; case kTypeDeletion: case kTypeSingleDeletion: case kTypeRangeDeletion: // TODO(noetzli): Verify correctness once merge of single-deletes // is supported assert(state_ == kNotFound || state_ == kMerge); if (kNotFound == state_) { state_ = kDeleted; } else if (kMerge == state_) { state_ = kFound; if (LIKELY(pinnable_val_ != nullptr)) { Status merge_status = MergeHelper::TimedFullMerge( merge_operator_, user_key_, nullptr, merge_context_->GetOperands(), pinnable_val_->GetSelf(), logger_, statistics_, env_); pinnable_val_->PinSelf(); if (!merge_status.ok()) { state_ = kCorrupt; } } } return false; case kTypeMerge: assert(state_ == kNotFound || state_ == kMerge); state_ = kMerge; // value_pinner is not set from plain_table_reader.cc for example. if (pinned_iters_mgr() && pinned_iters_mgr()->PinningEnabled() && value_pinner != nullptr) { value_pinner->DelegateCleanupsTo(pinned_iters_mgr()); merge_context_->PushOperand(value, true /*value_pinned*/); } else { merge_context_->PushOperand(value, false); } if (merge_operator_ != nullptr && merge_operator_->ShouldMerge(merge_context_->GetOperandsDirectionBackward())) { state_ = kFound; if (LIKELY(pinnable_val_ != nullptr)) { Status merge_status = MergeHelper::TimedFullMerge( merge_operator_, user_key_, nullptr, merge_context_->GetOperands(), pinnable_val_->GetSelf(), logger_, statistics_, env_); pinnable_val_->PinSelf(); if (!merge_status.ok()) { state_ = kCorrupt; } } return false; } return true; default: assert(false); break; } } // state_ could be Corrupt, merge or notfound return false; } void replayGetContextLog(const Slice& replay_log, const Slice& user_key, GetContext* get_context, Cleanable* value_pinner) { #ifndef ROCKSDB_LITE Slice s = replay_log; while (s.size()) { auto type = static_cast(*s.data()); s.remove_prefix(1); Slice value; bool ret = GetLengthPrefixedSlice(&s, &value); assert(ret); (void)ret; bool dont_care __attribute__((__unused__)); // Since SequenceNumber is not stored and unknown, we will use // kMaxSequenceNumber. get_context->SaveValue( ParsedInternalKey(user_key, kMaxSequenceNumber, type), value, &dont_care, value_pinner); } #else // ROCKSDB_LITE (void)replay_log; (void)user_key; (void)get_context; (void)value_pinner; assert(false); #endif // ROCKSDB_LITE } } // namespace rocksdb rocksdb-5.17.2/table/get_context.h000066400000000000000000000104451337235545400170370ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #include #include "db/merge_context.h" #include "db/range_del_aggregator.h" #include "db/read_callback.h" #include "rocksdb/env.h" #include "rocksdb/statistics.h" #include "rocksdb/types.h" #include "table/block.h" namespace rocksdb { class MergeContext; class PinnedIteratorsManager; struct GetContextStats { uint64_t num_cache_hit = 0; uint64_t num_cache_index_hit = 0; uint64_t num_cache_data_hit = 0; uint64_t num_cache_filter_hit = 0; uint64_t num_cache_index_miss = 0; uint64_t num_cache_filter_miss = 0; uint64_t num_cache_data_miss = 0; uint64_t num_cache_bytes_read = 0; uint64_t num_cache_miss = 0; uint64_t num_cache_add = 0; uint64_t num_cache_bytes_write = 0; uint64_t num_cache_index_add = 0; uint64_t num_cache_index_bytes_insert = 0; uint64_t num_cache_data_add = 0; uint64_t num_cache_data_bytes_insert = 0; uint64_t num_cache_filter_add = 0; uint64_t num_cache_filter_bytes_insert = 0; }; class GetContext { public: enum GetState { kNotFound, kFound, kDeleted, kCorrupt, kMerge, // saver contains the current merge result (the operands) kBlobIndex, }; GetContextStats get_context_stats_; GetContext(const Comparator* ucmp, const MergeOperator* merge_operator, Logger* logger, Statistics* statistics, GetState init_state, const Slice& user_key, PinnableSlice* value, bool* value_found, MergeContext* merge_context, RangeDelAggregator* range_del_agg, Env* env, SequenceNumber* seq = nullptr, PinnedIteratorsManager* _pinned_iters_mgr = nullptr, ReadCallback* callback = nullptr, bool* is_blob_index = nullptr); void MarkKeyMayExist(); // Records this key, value, and any meta-data (such as sequence number and // state) into this GetContext. // // If the parsed_key matches the user key that we are looking for, sets // mathced to true. // // Returns True if more keys need to be read (due to merges) or // False if the complete value has been found. bool SaveValue(const ParsedInternalKey& parsed_key, const Slice& value, bool* matched, Cleanable* value_pinner = nullptr); // Simplified version of the previous function. Should only be used when we // know that the operation is a Put. void SaveValue(const Slice& value, SequenceNumber seq); GetState State() const { return state_; } RangeDelAggregator* range_del_agg() { return range_del_agg_; } PinnedIteratorsManager* pinned_iters_mgr() { return pinned_iters_mgr_; } // If a non-null string is passed, all the SaveValue calls will be // logged into the string. The operations can then be replayed on // another GetContext with replayGetContextLog. void SetReplayLog(std::string* replay_log) { replay_log_ = replay_log; } // Do we need to fetch the SequenceNumber for this key? bool NeedToReadSequence() const { return (seq_ != nullptr); } bool sample() const { return sample_; } bool CheckCallback(SequenceNumber seq) { if (callback_) { return callback_->IsVisible(seq); } return true; } void ReportCounters(); private: const Comparator* ucmp_; const MergeOperator* merge_operator_; // the merge operations encountered; Logger* logger_; Statistics* statistics_; GetState state_; Slice user_key_; PinnableSlice* pinnable_val_; bool* value_found_; // Is value set correctly? Used by KeyMayExist MergeContext* merge_context_; RangeDelAggregator* range_del_agg_; Env* env_; // If a key is found, seq_ will be set to the SequenceNumber of most recent // write to the key or kMaxSequenceNumber if unknown SequenceNumber* seq_; std::string* replay_log_; // Used to temporarily pin blocks when state_ == GetContext::kMerge PinnedIteratorsManager* pinned_iters_mgr_; ReadCallback* callback_; bool sample_; bool* is_blob_index_; }; void replayGetContextLog(const Slice& replay_log, const Slice& user_key, GetContext* get_context, Cleanable* value_pinner = nullptr); } // namespace rocksdb rocksdb-5.17.2/table/index_builder.cc000066400000000000000000000212531337235545400174660ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "table/index_builder.h" #include #include #include #include #include "rocksdb/comparator.h" #include "rocksdb/flush_block_policy.h" #include "table/format.h" #include "table/partitioned_filter_block.h" // Without anonymous namespace here, we fail the warning -Wmissing-prototypes namespace rocksdb { // using namespace rocksdb; // Create a index builder based on its type. IndexBuilder* IndexBuilder::CreateIndexBuilder( BlockBasedTableOptions::IndexType index_type, const InternalKeyComparator* comparator, const InternalKeySliceTransform* int_key_slice_transform, const bool use_value_delta_encoding, const BlockBasedTableOptions& table_opt) { IndexBuilder* result = nullptr; switch (index_type) { case BlockBasedTableOptions::kBinarySearch: { result = new ShortenedIndexBuilder( comparator, table_opt.index_block_restart_interval, table_opt.format_version, use_value_delta_encoding); } break; case BlockBasedTableOptions::kHashSearch: { result = new HashIndexBuilder(comparator, int_key_slice_transform, table_opt.index_block_restart_interval, table_opt.format_version, use_value_delta_encoding); } break; case BlockBasedTableOptions::kTwoLevelIndexSearch: { result = PartitionedIndexBuilder::CreateIndexBuilder( comparator, use_value_delta_encoding, table_opt); } break; default: { assert(!"Do not recognize the index type "); } break; } return result; } PartitionedIndexBuilder* PartitionedIndexBuilder::CreateIndexBuilder( const InternalKeyComparator* comparator, const bool use_value_delta_encoding, const BlockBasedTableOptions& table_opt) { return new PartitionedIndexBuilder(comparator, table_opt, use_value_delta_encoding); } PartitionedIndexBuilder::PartitionedIndexBuilder( const InternalKeyComparator* comparator, const BlockBasedTableOptions& table_opt, const bool use_value_delta_encoding) : IndexBuilder(comparator), index_block_builder_(table_opt.index_block_restart_interval, true /*use_delta_encoding*/, use_value_delta_encoding), index_block_builder_without_seq_(table_opt.index_block_restart_interval, true /*use_delta_encoding*/, use_value_delta_encoding), sub_index_builder_(nullptr), table_opt_(table_opt), // We start by false. After each partition we revise the value based on // what the sub_index_builder has decided. If the feature is disabled // entirely, this will be set to true after switching the first // sub_index_builder. Otherwise, it could be set to true even one of the // sub_index_builders could not safely exclude seq from the keys, then it // wil be enforced on all sub_index_builders on ::Finish. seperator_is_key_plus_seq_(false), use_value_delta_encoding_(use_value_delta_encoding) {} PartitionedIndexBuilder::~PartitionedIndexBuilder() { delete sub_index_builder_; } void PartitionedIndexBuilder::MakeNewSubIndexBuilder() { assert(sub_index_builder_ == nullptr); sub_index_builder_ = new ShortenedIndexBuilder( comparator_, table_opt_.index_block_restart_interval, table_opt_.format_version, use_value_delta_encoding_); flush_policy_.reset(FlushBlockBySizePolicyFactory::NewFlushBlockPolicy( table_opt_.metadata_block_size, table_opt_.block_size_deviation, // Note: this is sub-optimal since sub_index_builder_ could later reset // seperator_is_key_plus_seq_ but the probability of that is low. sub_index_builder_->seperator_is_key_plus_seq_ ? sub_index_builder_->index_block_builder_ : sub_index_builder_->index_block_builder_without_seq_)); partition_cut_requested_ = false; } void PartitionedIndexBuilder::RequestPartitionCut() { partition_cut_requested_ = true; } void PartitionedIndexBuilder::AddIndexEntry( std::string* last_key_in_current_block, const Slice* first_key_in_next_block, const BlockHandle& block_handle) { // Note: to avoid two consecuitive flush in the same method call, we do not // check flush policy when adding the last key if (UNLIKELY(first_key_in_next_block == nullptr)) { // no more keys if (sub_index_builder_ == nullptr) { MakeNewSubIndexBuilder(); } sub_index_builder_->AddIndexEntry(last_key_in_current_block, first_key_in_next_block, block_handle); if (sub_index_builder_->seperator_is_key_plus_seq_) { // then we need to apply it to all sub-index builders seperator_is_key_plus_seq_ = true; } sub_index_last_key_ = std::string(*last_key_in_current_block); entries_.push_back( {sub_index_last_key_, std::unique_ptr(sub_index_builder_)}); sub_index_builder_ = nullptr; cut_filter_block = true; } else { // apply flush policy only to non-empty sub_index_builder_ if (sub_index_builder_ != nullptr) { std::string handle_encoding; block_handle.EncodeTo(&handle_encoding); bool do_flush = partition_cut_requested_ || flush_policy_->Update(*last_key_in_current_block, handle_encoding); if (do_flush) { entries_.push_back( {sub_index_last_key_, std::unique_ptr(sub_index_builder_)}); cut_filter_block = true; sub_index_builder_ = nullptr; } } if (sub_index_builder_ == nullptr) { MakeNewSubIndexBuilder(); } sub_index_builder_->AddIndexEntry(last_key_in_current_block, first_key_in_next_block, block_handle); sub_index_last_key_ = std::string(*last_key_in_current_block); if (sub_index_builder_->seperator_is_key_plus_seq_) { // then we need to apply it to all sub-index builders seperator_is_key_plus_seq_ = true; } } } Status PartitionedIndexBuilder::Finish( IndexBlocks* index_blocks, const BlockHandle& last_partition_block_handle) { if (partition_cnt_ == 0) { partition_cnt_ = entries_.size(); } // It must be set to null after last key is added assert(sub_index_builder_ == nullptr); if (finishing_indexes == true) { Entry& last_entry = entries_.front(); std::string handle_encoding; last_partition_block_handle.EncodeTo(&handle_encoding); std::string handle_delta_encoding; PutVarsignedint64( &handle_delta_encoding, last_partition_block_handle.size() - last_encoded_handle_.size()); last_encoded_handle_ = last_partition_block_handle; const Slice handle_delta_encoding_slice(handle_delta_encoding); index_block_builder_.Add(last_entry.key, handle_encoding, &handle_delta_encoding_slice); if (!seperator_is_key_plus_seq_) { index_block_builder_without_seq_.Add(ExtractUserKey(last_entry.key), handle_encoding, &handle_delta_encoding_slice); } entries_.pop_front(); } // If there is no sub_index left, then return the 2nd level index. if (UNLIKELY(entries_.empty())) { if (seperator_is_key_plus_seq_) { index_blocks->index_block_contents = index_block_builder_.Finish(); } else { index_blocks->index_block_contents = index_block_builder_without_seq_.Finish(); } top_level_index_size_ = index_blocks->index_block_contents.size(); index_size_ += top_level_index_size_; return Status::OK(); } else { // Finish the next partition index in line and Incomplete() to indicate we // expect more calls to Finish Entry& entry = entries_.front(); // Apply the policy to all sub-indexes entry.value->seperator_is_key_plus_seq_ = seperator_is_key_plus_seq_; auto s = entry.value->Finish(index_blocks); index_size_ += index_blocks->index_block_contents.size(); finishing_indexes = true; return s.ok() ? Status::Incomplete() : s; } } size_t PartitionedIndexBuilder::NumPartitions() const { return partition_cnt_; } } // namespace rocksdb rocksdb-5.17.2/table/index_builder.h000066400000000000000000000412401337235545400173260ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #include #include #include #include #include #include "rocksdb/comparator.h" #include "table/block_based_table_factory.h" #include "table/block_builder.h" #include "table/format.h" namespace rocksdb { // The interface for building index. // Instruction for adding a new concrete IndexBuilder: // 1. Create a subclass instantiated from IndexBuilder. // 2. Add a new entry associated with that subclass in TableOptions::IndexType. // 3. Add a create function for the new subclass in CreateIndexBuilder. // Note: we can devise more advanced design to simplify the process for adding // new subclass, which will, on the other hand, increase the code complexity and // catch unwanted attention from readers. Given that we won't add/change // indexes frequently, it makes sense to just embrace a more straightforward // design that just works. class IndexBuilder { public: static IndexBuilder* CreateIndexBuilder( BlockBasedTableOptions::IndexType index_type, const rocksdb::InternalKeyComparator* comparator, const InternalKeySliceTransform* int_key_slice_transform, const bool use_value_delta_encoding, const BlockBasedTableOptions& table_opt); // Index builder will construct a set of blocks which contain: // 1. One primary index block. // 2. (Optional) a set of metablocks that contains the metadata of the // primary index. struct IndexBlocks { Slice index_block_contents; std::unordered_map meta_blocks; }; explicit IndexBuilder(const InternalKeyComparator* comparator) : comparator_(comparator) {} virtual ~IndexBuilder() {} // Add a new index entry to index block. // To allow further optimization, we provide `last_key_in_current_block` and // `first_key_in_next_block`, based on which the specific implementation can // determine the best index key to be used for the index block. // @last_key_in_current_block: this parameter maybe overridden with the value // "substitute key". // @first_key_in_next_block: it will be nullptr if the entry being added is // the last one in the table // // REQUIRES: Finish() has not yet been called. virtual void AddIndexEntry(std::string* last_key_in_current_block, const Slice* first_key_in_next_block, const BlockHandle& block_handle) = 0; // This method will be called whenever a key is added. The subclasses may // override OnKeyAdded() if they need to collect additional information. virtual void OnKeyAdded(const Slice& /*key*/) {} // Inform the index builder that all entries has been written. Block builder // may therefore perform any operation required for block finalization. // // REQUIRES: Finish() has not yet been called. inline Status Finish(IndexBlocks* index_blocks) { // Throw away the changes to last_partition_block_handle. It has no effect // on the first call to Finish anyway. BlockHandle last_partition_block_handle; return Finish(index_blocks, last_partition_block_handle); } // This override of Finish can be utilized to build the 2nd level index in // PartitionIndexBuilder. // // index_blocks will be filled with the resulting index data. If the return // value is Status::InComplete() then it means that the index is partitioned // and the callee should keep calling Finish until Status::OK() is returned. // In that case, last_partition_block_handle is pointer to the block written // with the result of the last call to Finish. This can be utilized to build // the second level index pointing to each block of partitioned indexes. The // last call to Finish() that returns Status::OK() populates index_blocks with // the 2nd level index content. virtual Status Finish(IndexBlocks* index_blocks, const BlockHandle& last_partition_block_handle) = 0; // Get the size for index block. Must be called after ::Finish. virtual size_t IndexSize() const = 0; virtual bool seperator_is_key_plus_seq() { return true; } protected: const InternalKeyComparator* comparator_; // Set after ::Finish is called size_t index_size_ = 0; }; // This index builder builds space-efficient index block. // // Optimizations: // 1. Made block's `block_restart_interval` to be 1, which will avoid linear // search when doing index lookup (can be disabled by setting // index_block_restart_interval). // 2. Shorten the key length for index block. Other than honestly using the // last key in the data block as the index key, we instead find a shortest // substitute key that serves the same function. class ShortenedIndexBuilder : public IndexBuilder { public: explicit ShortenedIndexBuilder(const InternalKeyComparator* comparator, const int index_block_restart_interval, const uint32_t format_version, const bool use_value_delta_encoding) : IndexBuilder(comparator), index_block_builder_(index_block_restart_interval, true /*use_delta_encoding*/, use_value_delta_encoding), index_block_builder_without_seq_(index_block_restart_interval, true /*use_delta_encoding*/, use_value_delta_encoding) { // Making the default true will disable the feature for old versions seperator_is_key_plus_seq_ = (format_version <= 2); } virtual void AddIndexEntry(std::string* last_key_in_current_block, const Slice* first_key_in_next_block, const BlockHandle& block_handle) override { if (first_key_in_next_block != nullptr) { comparator_->FindShortestSeparator(last_key_in_current_block, *first_key_in_next_block); if (!seperator_is_key_plus_seq_ && comparator_->user_comparator()->Compare( ExtractUserKey(*last_key_in_current_block), ExtractUserKey(*first_key_in_next_block)) == 0) { seperator_is_key_plus_seq_ = true; } } else { comparator_->FindShortSuccessor(last_key_in_current_block); } auto sep = Slice(*last_key_in_current_block); std::string handle_encoding; block_handle.EncodeTo(&handle_encoding); std::string handle_delta_encoding; PutVarsignedint64(&handle_delta_encoding, block_handle.size() - last_encoded_handle_.size()); assert(handle_delta_encoding.size() != 0); last_encoded_handle_ = block_handle; const Slice handle_delta_encoding_slice(handle_delta_encoding); index_block_builder_.Add(sep, handle_encoding, &handle_delta_encoding_slice); if (!seperator_is_key_plus_seq_) { index_block_builder_without_seq_.Add(ExtractUserKey(sep), handle_encoding, &handle_delta_encoding_slice); } } using IndexBuilder::Finish; virtual Status Finish( IndexBlocks* index_blocks, const BlockHandle& /*last_partition_block_handle*/) override { if (seperator_is_key_plus_seq_) { index_blocks->index_block_contents = index_block_builder_.Finish(); } else { index_blocks->index_block_contents = index_block_builder_without_seq_.Finish(); } index_size_ = index_blocks->index_block_contents.size(); return Status::OK(); } virtual size_t IndexSize() const override { return index_size_; } virtual bool seperator_is_key_plus_seq() override { return seperator_is_key_plus_seq_; } friend class PartitionedIndexBuilder; private: BlockBuilder index_block_builder_; BlockBuilder index_block_builder_without_seq_; bool seperator_is_key_plus_seq_; BlockHandle last_encoded_handle_; }; // HashIndexBuilder contains a binary-searchable primary index and the // metadata for secondary hash index construction. // The metadata for hash index consists two parts: // - a metablock that compactly contains a sequence of prefixes. All prefixes // are stored consectively without any metadata (like, prefix sizes) being // stored, which is kept in the other metablock. // - a metablock contains the metadata of the prefixes, including prefix size, // restart index and number of block it spans. The format looks like: // // +-----------------+---------------------------+---------------------+ // <=prefix 1 // | length: 4 bytes | restart interval: 4 bytes | num-blocks: 4 bytes | // +-----------------+---------------------------+---------------------+ // <=prefix 2 // | length: 4 bytes | restart interval: 4 bytes | num-blocks: 4 bytes | // +-----------------+---------------------------+---------------------+ // | | // | .... | // | | // +-----------------+---------------------------+---------------------+ // <=prefix n // | length: 4 bytes | restart interval: 4 bytes | num-blocks: 4 bytes | // +-----------------+---------------------------+---------------------+ // // The reason of separating these two metablocks is to enable the efficiently // reuse the first metablock during hash index construction without unnecessary // data copy or small heap allocations for prefixes. class HashIndexBuilder : public IndexBuilder { public: explicit HashIndexBuilder(const InternalKeyComparator* comparator, const SliceTransform* hash_key_extractor, int index_block_restart_interval, int format_version, bool use_value_delta_encoding) : IndexBuilder(comparator), primary_index_builder_(comparator, index_block_restart_interval, format_version, use_value_delta_encoding), hash_key_extractor_(hash_key_extractor) {} virtual void AddIndexEntry(std::string* last_key_in_current_block, const Slice* first_key_in_next_block, const BlockHandle& block_handle) override { ++current_restart_index_; primary_index_builder_.AddIndexEntry(last_key_in_current_block, first_key_in_next_block, block_handle); } virtual void OnKeyAdded(const Slice& key) override { auto key_prefix = hash_key_extractor_->Transform(key); bool is_first_entry = pending_block_num_ == 0; // Keys may share the prefix if (is_first_entry || pending_entry_prefix_ != key_prefix) { if (!is_first_entry) { FlushPendingPrefix(); } // need a hard copy otherwise the underlying data changes all the time. // TODO(kailiu) ToString() is expensive. We may speed up can avoid data // copy. pending_entry_prefix_ = key_prefix.ToString(); pending_block_num_ = 1; pending_entry_index_ = static_cast(current_restart_index_); } else { // entry number increments when keys share the prefix reside in // different data blocks. auto last_restart_index = pending_entry_index_ + pending_block_num_ - 1; assert(last_restart_index <= current_restart_index_); if (last_restart_index != current_restart_index_) { ++pending_block_num_; } } } virtual Status Finish( IndexBlocks* index_blocks, const BlockHandle& last_partition_block_handle) override { if (pending_block_num_ != 0) { FlushPendingPrefix(); } primary_index_builder_.Finish(index_blocks, last_partition_block_handle); index_blocks->meta_blocks.insert( {kHashIndexPrefixesBlock.c_str(), prefix_block_}); index_blocks->meta_blocks.insert( {kHashIndexPrefixesMetadataBlock.c_str(), prefix_meta_block_}); return Status::OK(); } virtual size_t IndexSize() const override { return primary_index_builder_.IndexSize() + prefix_block_.size() + prefix_meta_block_.size(); } virtual bool seperator_is_key_plus_seq() override { return primary_index_builder_.seperator_is_key_plus_seq(); } private: void FlushPendingPrefix() { prefix_block_.append(pending_entry_prefix_.data(), pending_entry_prefix_.size()); PutVarint32Varint32Varint32( &prefix_meta_block_, static_cast(pending_entry_prefix_.size()), pending_entry_index_, pending_block_num_); } ShortenedIndexBuilder primary_index_builder_; const SliceTransform* hash_key_extractor_; // stores a sequence of prefixes std::string prefix_block_; // stores the metadata of prefixes std::string prefix_meta_block_; // The following 3 variables keeps unflushed prefix and its metadata. // The details of block_num and entry_index can be found in // "block_hash_index.{h,cc}" uint32_t pending_block_num_ = 0; uint32_t pending_entry_index_ = 0; std::string pending_entry_prefix_; uint64_t current_restart_index_ = 0; }; /** * IndexBuilder for two-level indexing. Internally it creates a new index for * each partition and Finish then in order when Finish is called on it * continiously until Status::OK() is returned. * * The format on the disk would be I I I I I I IP where I is block containing a * partition of indexes built using ShortenedIndexBuilder and IP is a block * containing a secondary index on the partitions, built using * ShortenedIndexBuilder. */ class PartitionedIndexBuilder : public IndexBuilder { public: static PartitionedIndexBuilder* CreateIndexBuilder( const rocksdb::InternalKeyComparator* comparator, const bool use_value_delta_encoding, const BlockBasedTableOptions& table_opt); explicit PartitionedIndexBuilder(const InternalKeyComparator* comparator, const BlockBasedTableOptions& table_opt, const bool use_value_delta_encoding); virtual ~PartitionedIndexBuilder(); virtual void AddIndexEntry(std::string* last_key_in_current_block, const Slice* first_key_in_next_block, const BlockHandle& block_handle) override; virtual Status Finish( IndexBlocks* index_blocks, const BlockHandle& last_partition_block_handle) override; virtual size_t IndexSize() const override { return index_size_; } size_t TopLevelIndexSize(uint64_t) const { return top_level_index_size_; } size_t NumPartitions() const; inline bool ShouldCutFilterBlock() { // Current policy is to align the partitions of index and filters if (cut_filter_block) { cut_filter_block = false; return true; } return false; } std::string& GetPartitionKey() { return sub_index_last_key_; } // Called when an external entity (such as filter partition builder) request // cutting the next partition void RequestPartitionCut(); virtual bool seperator_is_key_plus_seq() override { return seperator_is_key_plus_seq_; } bool get_use_value_delta_encoding() { return use_value_delta_encoding_; } private: // Set after ::Finish is called size_t top_level_index_size_ = 0; // Set after ::Finish is called size_t partition_cnt_ = 0; void MakeNewSubIndexBuilder(); struct Entry { std::string key; std::unique_ptr value; }; std::list entries_; // list of partitioned indexes and their keys BlockBuilder index_block_builder_; // top-level index builder BlockBuilder index_block_builder_without_seq_; // same for user keys // the active partition index builder ShortenedIndexBuilder* sub_index_builder_; // the last key in the active partition index builder std::string sub_index_last_key_; std::unique_ptr flush_policy_; // true if Finish is called once but not complete yet. bool finishing_indexes = false; const BlockBasedTableOptions& table_opt_; bool seperator_is_key_plus_seq_; bool use_value_delta_encoding_; // true if an external entity (such as filter partition builder) request // cutting the next partition bool partition_cut_requested_ = true; // true if it should cut the next filter partition block bool cut_filter_block = false; BlockHandle last_encoded_handle_; }; } // namespace rocksdb rocksdb-5.17.2/table/internal_iterator.h000066400000000000000000000122711337235545400202400ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // #pragma once #include #include "rocksdb/comparator.h" #include "rocksdb/iterator.h" #include "rocksdb/status.h" #include "table/format.h" namespace rocksdb { class PinnedIteratorsManager; template class InternalIteratorBase : public Cleanable { public: InternalIteratorBase() {} virtual ~InternalIteratorBase() {} // An iterator is either positioned at a key/value pair, or // not valid. This method returns true iff the iterator is valid. // Always returns false if !status().ok(). virtual bool Valid() const = 0; // Position at the first key in the source. The iterator is Valid() // after this call iff the source is not empty. virtual void SeekToFirst() = 0; // Position at the last key in the source. The iterator is // Valid() after this call iff the source is not empty. virtual void SeekToLast() = 0; // Position at the first key in the source that at or past target // The iterator is Valid() after this call iff the source contains // an entry that comes at or past target. // All Seek*() methods clear any error status() that the iterator had prior to // the call; after the seek, status() indicates only the error (if any) that // happened during the seek, not any past errors. virtual void Seek(const Slice& target) = 0; // Position at the first key in the source that at or before target // The iterator is Valid() after this call iff the source contains // an entry that comes at or before target. virtual void SeekForPrev(const Slice& target) = 0; // Moves to the next entry in the source. After this call, Valid() is // true iff the iterator was not positioned at the last entry in the source. // REQUIRES: Valid() virtual void Next() = 0; // Moves to the previous entry in the source. After this call, Valid() is // true iff the iterator was not positioned at the first entry in source. // REQUIRES: Valid() virtual void Prev() = 0; // Return the key for the current entry. The underlying storage for // the returned slice is valid only until the next modification of // the iterator. // REQUIRES: Valid() virtual Slice key() const = 0; // Return the value for the current entry. The underlying storage for // the returned slice is valid only until the next modification of // the iterator. // REQUIRES: Valid() virtual TValue value() const = 0; // If an error has occurred, return it. Else return an ok status. // If non-blocking IO is requested and this operation cannot be // satisfied without doing some IO, then this returns Status::Incomplete(). virtual Status status() const = 0; // True if the iterator is invalidated because it is out of the iterator // upper bound virtual bool IsOutOfBound() { return false; } // Pass the PinnedIteratorsManager to the Iterator, most Iterators dont // communicate with PinnedIteratorsManager so default implementation is no-op // but for Iterators that need to communicate with PinnedIteratorsManager // they will implement this function and use the passed pointer to communicate // with PinnedIteratorsManager. virtual void SetPinnedItersMgr(PinnedIteratorsManager* /*pinned_iters_mgr*/) { } // If true, this means that the Slice returned by key() is valid as long as // PinnedIteratorsManager::ReleasePinnedData is not called and the // Iterator is not deleted. // // IsKeyPinned() is guaranteed to always return true if // - Iterator is created with ReadOptions::pin_data = true // - DB tables were created with BlockBasedTableOptions::use_delta_encoding // set to false. virtual bool IsKeyPinned() const { return false; } // If true, this means that the Slice returned by value() is valid as long as // PinnedIteratorsManager::ReleasePinnedData is not called and the // Iterator is not deleted. virtual bool IsValuePinned() const { return false; } virtual Status GetProperty(std::string /*prop_name*/, std::string* /*prop*/) { return Status::NotSupported(""); } protected: void SeekForPrevImpl(const Slice& target, const Comparator* cmp) { Seek(target); if (!Valid()) { SeekToLast(); } while (Valid() && cmp->Compare(target, key()) < 0) { Prev(); } } private: // No copying allowed InternalIteratorBase(const InternalIteratorBase&) = delete; InternalIteratorBase& operator=(const InternalIteratorBase&) = delete; }; using InternalIterator = InternalIteratorBase; // Return an empty iterator (yields nothing). template extern InternalIteratorBase* NewEmptyInternalIterator(); // Return an empty iterator with the specified status. template extern InternalIteratorBase* NewErrorInternalIterator( const Status& status); // Return an empty iterator with the specified status, allocated arena. template extern InternalIteratorBase* NewErrorInternalIterator( const Status& status, Arena* arena); } // namespace rocksdb rocksdb-5.17.2/table/iter_heap.h000066400000000000000000000023701337235545400164520ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // #pragma once #include "db/dbformat.h" #include "table/iterator_wrapper.h" namespace rocksdb { // When used with std::priority_queue, this comparison functor puts the // iterator with the max/largest key on top. class MaxIteratorComparator { public: MaxIteratorComparator(const InternalKeyComparator* comparator) : comparator_(comparator) {} bool operator()(IteratorWrapper* a, IteratorWrapper* b) const { return comparator_->Compare(a->key(), b->key()) < 0; } private: const InternalKeyComparator* comparator_; }; // When used with std::priority_queue, this comparison functor puts the // iterator with the min/smallest key on top. class MinIteratorComparator { public: MinIteratorComparator(const InternalKeyComparator* comparator) : comparator_(comparator) {} bool operator()(IteratorWrapper* a, IteratorWrapper* b) const { return comparator_->Compare(a->key(), b->key()) > 0; } private: const InternalKeyComparator* comparator_; }; } // namespace rocksdb rocksdb-5.17.2/table/iterator.cc000066400000000000000000000154231337235545400165040ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "rocksdb/iterator.h" #include "table/internal_iterator.h" #include "table/iterator_wrapper.h" #include "util/arena.h" namespace rocksdb { Cleanable::Cleanable() { cleanup_.function = nullptr; cleanup_.next = nullptr; } Cleanable::~Cleanable() { DoCleanup(); } Cleanable::Cleanable(Cleanable&& other) { *this = std::move(other); } Cleanable& Cleanable::operator=(Cleanable&& other) { if (this != &other) { cleanup_ = other.cleanup_; other.cleanup_.function = nullptr; other.cleanup_.next = nullptr; } return *this; } // If the entire linked list was on heap we could have simply add attach one // link list to another. However the head is an embeded object to avoid the cost // of creating objects for most of the use cases when the Cleanable has only one // Cleanup to do. We could put evernything on heap if benchmarks show no // negative impact on performance. // Also we need to iterate on the linked list since there is no pointer to the // tail. We can add the tail pointer but maintainin it might negatively impact // the perforamnce for the common case of one cleanup where tail pointer is not // needed. Again benchmarks could clarify that. // Even without a tail pointer we could iterate on the list, find the tail, and // have only that node updated without the need to insert the Cleanups one by // one. This however would be redundant when the source Cleanable has one or a // few Cleanups which is the case most of the time. // TODO(myabandeh): if the list is too long we should maintain a tail pointer // and have the entire list (minus the head that has to be inserted separately) // merged with the target linked list at once. void Cleanable::DelegateCleanupsTo(Cleanable* other) { assert(other != nullptr); if (cleanup_.function == nullptr) { return; } Cleanup* c = &cleanup_; other->RegisterCleanup(c->function, c->arg1, c->arg2); c = c->next; while (c != nullptr) { Cleanup* next = c->next; other->RegisterCleanup(c); c = next; } cleanup_.function = nullptr; cleanup_.next = nullptr; } void Cleanable::RegisterCleanup(Cleanable::Cleanup* c) { assert(c != nullptr); if (cleanup_.function == nullptr) { cleanup_.function = c->function; cleanup_.arg1 = c->arg1; cleanup_.arg2 = c->arg2; delete c; } else { c->next = cleanup_.next; cleanup_.next = c; } } void Cleanable::RegisterCleanup(CleanupFunction func, void* arg1, void* arg2) { assert(func != nullptr); Cleanup* c; if (cleanup_.function == nullptr) { c = &cleanup_; } else { c = new Cleanup; c->next = cleanup_.next; cleanup_.next = c; } c->function = func; c->arg1 = arg1; c->arg2 = arg2; } Status Iterator::GetProperty(std::string prop_name, std::string* prop) { if (prop == nullptr) { return Status::InvalidArgument("prop is nullptr"); } if (prop_name == "rocksdb.iterator.is-key-pinned") { *prop = "0"; return Status::OK(); } return Status::InvalidArgument("Undentified property."); } namespace { class EmptyIterator : public Iterator { public: explicit EmptyIterator(const Status& s) : status_(s) { } virtual bool Valid() const override { return false; } virtual void Seek(const Slice& /*target*/) override {} virtual void SeekForPrev(const Slice& /*target*/) override {} virtual void SeekToFirst() override {} virtual void SeekToLast() override {} virtual void Next() override { assert(false); } virtual void Prev() override { assert(false); } Slice key() const override { assert(false); return Slice(); } Slice value() const override { assert(false); return Slice(); } virtual Status status() const override { return status_; } private: Status status_; }; template class EmptyInternalIterator : public InternalIteratorBase { public: explicit EmptyInternalIterator(const Status& s) : status_(s) {} virtual bool Valid() const override { return false; } virtual void Seek(const Slice& /*target*/) override {} virtual void SeekForPrev(const Slice& /*target*/) override {} virtual void SeekToFirst() override {} virtual void SeekToLast() override {} virtual void Next() override { assert(false); } virtual void Prev() override { assert(false); } Slice key() const override { assert(false); return Slice(); } TValue value() const override { assert(false); return TValue(); } virtual Status status() const override { return status_; } private: Status status_; }; } // namespace Iterator* NewEmptyIterator() { return new EmptyIterator(Status::OK()); } Iterator* NewErrorIterator(const Status& status) { return new EmptyIterator(status); } template InternalIteratorBase* NewErrorInternalIterator(const Status& status) { return new EmptyInternalIterator(status); } template InternalIteratorBase* NewErrorInternalIterator( const Status& status); template InternalIteratorBase* NewErrorInternalIterator( const Status& status); template InternalIteratorBase* NewErrorInternalIterator(const Status& status, Arena* arena) { if (arena == nullptr) { return NewErrorInternalIterator(status); } else { auto mem = arena->AllocateAligned(sizeof(EmptyIterator)); return new (mem) EmptyInternalIterator(status); } } template InternalIteratorBase* NewErrorInternalIterator( const Status& status, Arena* arena); template InternalIteratorBase* NewErrorInternalIterator( const Status& status, Arena* arena); template InternalIteratorBase* NewEmptyInternalIterator() { return new EmptyInternalIterator(Status::OK()); } template InternalIteratorBase* NewEmptyInternalIterator(); template InternalIteratorBase* NewEmptyInternalIterator(); template InternalIteratorBase* NewEmptyInternalIterator(Arena* arena) { if (arena == nullptr) { return NewEmptyInternalIterator(); } else { auto mem = arena->AllocateAligned(sizeof(EmptyIterator)); return new (mem) EmptyInternalIterator(Status::OK()); } } template InternalIteratorBase* NewEmptyInternalIterator( Arena* arena); template InternalIteratorBase* NewEmptyInternalIterator(Arena* arena); } // namespace rocksdb rocksdb-5.17.2/table/iterator_wrapper.h000066400000000000000000000063471337235545400201130ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #include #include "table/internal_iterator.h" namespace rocksdb { // A internal wrapper class with an interface similar to Iterator that caches // the valid() and key() results for an underlying iterator. // This can help avoid virtual function calls and also gives better // cache locality. template class IteratorWrapperBase { public: IteratorWrapperBase() : iter_(nullptr), valid_(false) {} explicit IteratorWrapperBase(InternalIteratorBase* _iter) : iter_(nullptr) { Set(_iter); } ~IteratorWrapperBase() {} InternalIteratorBase* iter() const { return iter_; } // Set the underlying Iterator to _iter and return // previous underlying Iterator. InternalIteratorBase* Set(InternalIteratorBase* _iter) { InternalIteratorBase* old_iter = iter_; iter_ = _iter; if (iter_ == nullptr) { valid_ = false; } else { Update(); } return old_iter; } void DeleteIter(bool is_arena_mode) { if (iter_) { if (!is_arena_mode) { delete iter_; } else { iter_->~InternalIteratorBase(); } } } // Iterator interface methods bool Valid() const { return valid_; } Slice key() const { assert(Valid()); return key_; } TValue value() const { assert(Valid()); return iter_->value(); } // Methods below require iter() != nullptr Status status() const { assert(iter_); return iter_->status(); } void Next() { assert(iter_); iter_->Next(); Update(); } void Prev() { assert(iter_); iter_->Prev(); Update(); } void Seek(const Slice& k) { assert(iter_); iter_->Seek(k); Update(); } void SeekForPrev(const Slice& k) { assert(iter_); iter_->SeekForPrev(k); Update(); } void SeekToFirst() { assert(iter_); iter_->SeekToFirst(); Update(); } void SeekToLast() { assert(iter_); iter_->SeekToLast(); Update(); } void SetPinnedItersMgr(PinnedIteratorsManager* pinned_iters_mgr) { assert(iter_); iter_->SetPinnedItersMgr(pinned_iters_mgr); } bool IsKeyPinned() const { assert(Valid()); return iter_->IsKeyPinned(); } bool IsValuePinned() const { assert(Valid()); return iter_->IsValuePinned(); } private: void Update() { valid_ = iter_->Valid(); if (valid_) { key_ = iter_->key(); assert(iter_->status().ok()); } } InternalIteratorBase* iter_; bool valid_; Slice key_; }; using IteratorWrapper = IteratorWrapperBase; class Arena; // Return an empty iterator (yields nothing) allocated from arena. template extern InternalIteratorBase* NewEmptyInternalIterator(Arena* arena); } // namespace rocksdb rocksdb-5.17.2/table/merger_test.cc000066400000000000000000000110161337235545400171650ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include #include #include "table/merging_iterator.h" #include "util/testharness.h" #include "util/testutil.h" namespace rocksdb { class MergerTest : public testing::Test { public: MergerTest() : icomp_(BytewiseComparator()), rnd_(3), merging_iterator_(nullptr), single_iterator_(nullptr) {} ~MergerTest() = default; std::vector GenerateStrings(size_t len, int string_len) { std::vector ret; for (size_t i = 0; i < len; ++i) { InternalKey ik(test::RandomHumanReadableString(&rnd_, string_len), 0, ValueType::kTypeValue); ret.push_back(ik.Encode().ToString(false)); } return ret; } void AssertEquivalence() { auto a = merging_iterator_.get(); auto b = single_iterator_.get(); if (!a->Valid()) { ASSERT_TRUE(!b->Valid()); } else { ASSERT_TRUE(b->Valid()); ASSERT_EQ(b->key().ToString(), a->key().ToString()); ASSERT_EQ(b->value().ToString(), a->value().ToString()); } } void SeekToRandom() { InternalKey ik(test::RandomHumanReadableString(&rnd_, 5), 0, ValueType::kTypeValue); Seek(ik.Encode().ToString(false)); } void Seek(std::string target) { merging_iterator_->Seek(target); single_iterator_->Seek(target); } void SeekToFirst() { merging_iterator_->SeekToFirst(); single_iterator_->SeekToFirst(); } void SeekToLast() { merging_iterator_->SeekToLast(); single_iterator_->SeekToLast(); } void Next(int times) { for (int i = 0; i < times && merging_iterator_->Valid(); ++i) { AssertEquivalence(); merging_iterator_->Next(); single_iterator_->Next(); } AssertEquivalence(); } void Prev(int times) { for (int i = 0; i < times && merging_iterator_->Valid(); ++i) { AssertEquivalence(); merging_iterator_->Prev(); single_iterator_->Prev(); } AssertEquivalence(); } void NextAndPrev(int times) { for (int i = 0; i < times && merging_iterator_->Valid(); ++i) { AssertEquivalence(); if (rnd_.OneIn(2)) { merging_iterator_->Prev(); single_iterator_->Prev(); } else { merging_iterator_->Next(); single_iterator_->Next(); } } AssertEquivalence(); } void Generate(size_t num_iterators, size_t strings_per_iterator, int letters_per_string) { std::vector small_iterators; for (size_t i = 0; i < num_iterators; ++i) { auto strings = GenerateStrings(strings_per_iterator, letters_per_string); small_iterators.push_back(new test::VectorIterator(strings)); all_keys_.insert(all_keys_.end(), strings.begin(), strings.end()); } merging_iterator_.reset( NewMergingIterator(&icomp_, &small_iterators[0], static_cast(small_iterators.size()))); single_iterator_.reset(new test::VectorIterator(all_keys_)); } InternalKeyComparator icomp_; Random rnd_; std::unique_ptr merging_iterator_; std::unique_ptr single_iterator_; std::vector all_keys_; }; TEST_F(MergerTest, SeekToRandomNextTest) { Generate(1000, 50, 50); for (int i = 0; i < 10; ++i) { SeekToRandom(); AssertEquivalence(); Next(50000); } } TEST_F(MergerTest, SeekToRandomNextSmallStringsTest) { Generate(1000, 50, 2); for (int i = 0; i < 10; ++i) { SeekToRandom(); AssertEquivalence(); Next(50000); } } TEST_F(MergerTest, SeekToRandomPrevTest) { Generate(1000, 50, 50); for (int i = 0; i < 10; ++i) { SeekToRandom(); AssertEquivalence(); Prev(50000); } } TEST_F(MergerTest, SeekToRandomRandomTest) { Generate(200, 50, 50); for (int i = 0; i < 3; ++i) { SeekToRandom(); AssertEquivalence(); NextAndPrev(5000); } } TEST_F(MergerTest, SeekToFirstTest) { Generate(1000, 50, 50); for (int i = 0; i < 10; ++i) { SeekToFirst(); AssertEquivalence(); Next(50000); } } TEST_F(MergerTest, SeekToLastTest) { Generate(1000, 50, 50); for (int i = 0; i < 10; ++i) { SeekToLast(); AssertEquivalence(); Prev(50000); } } } // namespace rocksdb int main(int argc, char** argv) { ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/table/merging_iterator.cc000066400000000000000000000316301337235545400202120ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "table/merging_iterator.h" #include #include #include "db/dbformat.h" #include "db/pinned_iterators_manager.h" #include "monitoring/perf_context_imp.h" #include "rocksdb/comparator.h" #include "rocksdb/iterator.h" #include "rocksdb/options.h" #include "table/internal_iterator.h" #include "table/iter_heap.h" #include "table/iterator_wrapper.h" #include "util/arena.h" #include "util/autovector.h" #include "util/heap.h" #include "util/stop_watch.h" #include "util/sync_point.h" namespace rocksdb { // Without anonymous namespace here, we fail the warning -Wmissing-prototypes namespace { typedef BinaryHeap MergerMaxIterHeap; typedef BinaryHeap MergerMinIterHeap; } // namespace const size_t kNumIterReserve = 4; class MergingIterator : public InternalIterator { public: MergingIterator(const InternalKeyComparator* comparator, InternalIterator** children, int n, bool is_arena_mode, bool prefix_seek_mode) : is_arena_mode_(is_arena_mode), comparator_(comparator), current_(nullptr), direction_(kForward), minHeap_(comparator_), prefix_seek_mode_(prefix_seek_mode), pinned_iters_mgr_(nullptr) { children_.resize(n); for (int i = 0; i < n; i++) { children_[i].Set(children[i]); } for (auto& child : children_) { if (child.Valid()) { assert(child.status().ok()); minHeap_.push(&child); } else { considerStatus(child.status()); } } current_ = CurrentForward(); } void considerStatus(Status s) { if (!s.ok() && status_.ok()) { status_ = s; } } virtual void AddIterator(InternalIterator* iter) { assert(direction_ == kForward); children_.emplace_back(iter); if (pinned_iters_mgr_) { iter->SetPinnedItersMgr(pinned_iters_mgr_); } auto new_wrapper = children_.back(); if (new_wrapper.Valid()) { assert(new_wrapper.status().ok()); minHeap_.push(&new_wrapper); current_ = CurrentForward(); } else { considerStatus(new_wrapper.status()); } } virtual ~MergingIterator() { for (auto& child : children_) { child.DeleteIter(is_arena_mode_); } } virtual bool Valid() const override { return current_ != nullptr && status_.ok(); } virtual Status status() const override { return status_; } virtual void SeekToFirst() override { ClearHeaps(); status_ = Status::OK(); for (auto& child : children_) { child.SeekToFirst(); if (child.Valid()) { assert(child.status().ok()); minHeap_.push(&child); } else { considerStatus(child.status()); } } direction_ = kForward; current_ = CurrentForward(); } virtual void SeekToLast() override { ClearHeaps(); InitMaxHeap(); status_ = Status::OK(); for (auto& child : children_) { child.SeekToLast(); if (child.Valid()) { assert(child.status().ok()); maxHeap_->push(&child); } else { considerStatus(child.status()); } } direction_ = kReverse; current_ = CurrentReverse(); } virtual void Seek(const Slice& target) override { ClearHeaps(); status_ = Status::OK(); for (auto& child : children_) { { PERF_TIMER_GUARD(seek_child_seek_time); child.Seek(target); } PERF_COUNTER_ADD(seek_child_seek_count, 1); if (child.Valid()) { assert(child.status().ok()); PERF_TIMER_GUARD(seek_min_heap_time); minHeap_.push(&child); } else { considerStatus(child.status()); } } direction_ = kForward; { PERF_TIMER_GUARD(seek_min_heap_time); current_ = CurrentForward(); } } virtual void SeekForPrev(const Slice& target) override { ClearHeaps(); InitMaxHeap(); status_ = Status::OK(); for (auto& child : children_) { { PERF_TIMER_GUARD(seek_child_seek_time); child.SeekForPrev(target); } PERF_COUNTER_ADD(seek_child_seek_count, 1); if (child.Valid()) { assert(child.status().ok()); PERF_TIMER_GUARD(seek_max_heap_time); maxHeap_->push(&child); } else { considerStatus(child.status()); } } direction_ = kReverse; { PERF_TIMER_GUARD(seek_max_heap_time); current_ = CurrentReverse(); } } virtual void Next() override { assert(Valid()); // Ensure that all children are positioned after key(). // If we are moving in the forward direction, it is already // true for all of the non-current children since current_ is // the smallest child and key() == current_->key(). if (direction_ != kForward) { SwitchToForward(); // The loop advanced all non-current children to be > key() so current_ // should still be strictly the smallest key. assert(current_ == CurrentForward()); } // For the heap modifications below to be correct, current_ must be the // current top of the heap. assert(current_ == CurrentForward()); // as the current points to the current record. move the iterator forward. current_->Next(); if (current_->Valid()) { // current is still valid after the Next() call above. Call // replace_top() to restore the heap property. When the same child // iterator yields a sequence of keys, this is cheap. assert(current_->status().ok()); minHeap_.replace_top(current_); } else { // current stopped being valid, remove it from the heap. considerStatus(current_->status()); minHeap_.pop(); } current_ = CurrentForward(); } virtual void Prev() override { assert(Valid()); // Ensure that all children are positioned before key(). // If we are moving in the reverse direction, it is already // true for all of the non-current children since current_ is // the largest child and key() == current_->key(). if (direction_ != kReverse) { // Otherwise, retreat the non-current children. We retreat current_ // just after the if-block. ClearHeaps(); InitMaxHeap(); Slice target = key(); for (auto& child : children_) { if (&child != current_) { child.SeekForPrev(target); TEST_SYNC_POINT_CALLBACK("MergeIterator::Prev:BeforePrev", &child); considerStatus(child.status()); if (child.Valid() && comparator_->Equal(target, child.key())) { child.Prev(); considerStatus(child.status()); } } if (child.Valid()) { assert(child.status().ok()); maxHeap_->push(&child); } } direction_ = kReverse; if (!prefix_seek_mode_) { // Note that we don't do assert(current_ == CurrentReverse()) here // because it is possible to have some keys larger than the seek-key // inserted between Seek() and SeekToLast(), which makes current_ not // equal to CurrentReverse(). current_ = CurrentReverse(); } // The loop advanced all non-current children to be < key() so current_ // should still be strictly the smallest key. assert(current_ == CurrentReverse()); } // For the heap modifications below to be correct, current_ must be the // current top of the heap. assert(current_ == CurrentReverse()); current_->Prev(); if (current_->Valid()) { // current is still valid after the Prev() call above. Call // replace_top() to restore the heap property. When the same child // iterator yields a sequence of keys, this is cheap. assert(current_->status().ok()); maxHeap_->replace_top(current_); } else { // current stopped being valid, remove it from the heap. considerStatus(current_->status()); maxHeap_->pop(); } current_ = CurrentReverse(); } virtual Slice key() const override { assert(Valid()); return current_->key(); } virtual Slice value() const override { assert(Valid()); return current_->value(); } virtual void SetPinnedItersMgr( PinnedIteratorsManager* pinned_iters_mgr) override { pinned_iters_mgr_ = pinned_iters_mgr; for (auto& child : children_) { child.SetPinnedItersMgr(pinned_iters_mgr); } } virtual bool IsKeyPinned() const override { assert(Valid()); return pinned_iters_mgr_ && pinned_iters_mgr_->PinningEnabled() && current_->IsKeyPinned(); } virtual bool IsValuePinned() const override { assert(Valid()); return pinned_iters_mgr_ && pinned_iters_mgr_->PinningEnabled() && current_->IsValuePinned(); } private: // Clears heaps for both directions, used when changing direction or seeking void ClearHeaps(); // Ensures that maxHeap_ is initialized when starting to go in the reverse // direction void InitMaxHeap(); bool is_arena_mode_; const InternalKeyComparator* comparator_; autovector children_; // Cached pointer to child iterator with the current key, or nullptr if no // child iterators are valid. This is the top of minHeap_ or maxHeap_ // depending on the direction. IteratorWrapper* current_; // If any of the children have non-ok status, this is one of them. Status status_; // Which direction is the iterator moving? enum Direction { kForward, kReverse }; Direction direction_; MergerMinIterHeap minHeap_; bool prefix_seek_mode_; // Max heap is used for reverse iteration, which is way less common than // forward. Lazily initialize it to save memory. std::unique_ptr maxHeap_; PinnedIteratorsManager* pinned_iters_mgr_; void SwitchToForward(); IteratorWrapper* CurrentForward() const { assert(direction_ == kForward); return !minHeap_.empty() ? minHeap_.top() : nullptr; } IteratorWrapper* CurrentReverse() const { assert(direction_ == kReverse); assert(maxHeap_); return !maxHeap_->empty() ? maxHeap_->top() : nullptr; } }; void MergingIterator::SwitchToForward() { // Otherwise, advance the non-current children. We advance current_ // just after the if-block. ClearHeaps(); Slice target = key(); for (auto& child : children_) { if (&child != current_) { child.Seek(target); considerStatus(child.status()); if (child.Valid() && comparator_->Equal(target, child.key())) { child.Next(); considerStatus(child.status()); } } if (child.Valid()) { minHeap_.push(&child); } } direction_ = kForward; } void MergingIterator::ClearHeaps() { minHeap_.clear(); if (maxHeap_) { maxHeap_->clear(); } } void MergingIterator::InitMaxHeap() { if (!maxHeap_) { maxHeap_.reset(new MergerMaxIterHeap(comparator_)); } } InternalIterator* NewMergingIterator(const InternalKeyComparator* cmp, InternalIterator** list, int n, Arena* arena, bool prefix_seek_mode) { assert(n >= 0); if (n == 0) { return NewEmptyInternalIterator(arena); } else if (n == 1) { return list[0]; } else { if (arena == nullptr) { return new MergingIterator(cmp, list, n, false, prefix_seek_mode); } else { auto mem = arena->AllocateAligned(sizeof(MergingIterator)); return new (mem) MergingIterator(cmp, list, n, true, prefix_seek_mode); } } } MergeIteratorBuilder::MergeIteratorBuilder( const InternalKeyComparator* comparator, Arena* a, bool prefix_seek_mode) : first_iter(nullptr), use_merging_iter(false), arena(a) { auto mem = arena->AllocateAligned(sizeof(MergingIterator)); merge_iter = new (mem) MergingIterator(comparator, nullptr, 0, true, prefix_seek_mode); } MergeIteratorBuilder::~MergeIteratorBuilder() { if (first_iter != nullptr) { first_iter->~InternalIterator(); } if (merge_iter != nullptr) { merge_iter->~MergingIterator(); } } void MergeIteratorBuilder::AddIterator(InternalIterator* iter) { if (!use_merging_iter && first_iter != nullptr) { merge_iter->AddIterator(first_iter); use_merging_iter = true; first_iter = nullptr; } if (use_merging_iter) { merge_iter->AddIterator(iter); } else { first_iter = iter; } } InternalIterator* MergeIteratorBuilder::Finish() { InternalIterator* ret = nullptr; if (!use_merging_iter) { ret = first_iter; first_iter = nullptr; } else { ret = merge_iter; merge_iter = nullptr; } return ret; } } // namespace rocksdb rocksdb-5.17.2/table/merging_iterator.h000066400000000000000000000041421337235545400200520ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #include "db/dbformat.h" #include "rocksdb/types.h" namespace rocksdb { class Comparator; class Env; class Arena; template class InternalIteratorBase; using InternalIterator = InternalIteratorBase; // Return an iterator that provided the union of the data in // children[0,n-1]. Takes ownership of the child iterators and // will delete them when the result iterator is deleted. // // The result does no duplicate suppression. I.e., if a particular // key is present in K child iterators, it will be yielded K times. // // REQUIRES: n >= 0 extern InternalIterator* NewMergingIterator( const InternalKeyComparator* comparator, InternalIterator** children, int n, Arena* arena = nullptr, bool prefix_seek_mode = false); class MergingIterator; // A builder class to build a merging iterator by adding iterators one by one. class MergeIteratorBuilder { public: // comparator: the comparator used in merging comparator // arena: where the merging iterator needs to be allocated from. explicit MergeIteratorBuilder(const InternalKeyComparator* comparator, Arena* arena, bool prefix_seek_mode = false); ~MergeIteratorBuilder(); // Add iter to the merging iterator. void AddIterator(InternalIterator* iter); // Get arena used to build the merging iterator. It is called one a child // iterator needs to be allocated. Arena* GetArena() { return arena; } // Return the result merging iterator. InternalIterator* Finish(); private: MergingIterator* merge_iter; InternalIterator* first_iter; bool use_merging_iter; Arena* arena; }; } // namespace rocksdb rocksdb-5.17.2/table/meta_blocks.cc000066400000000000000000000424311337235545400171350ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include "table/meta_blocks.h" #include #include #include "db/table_properties_collector.h" #include "rocksdb/table.h" #include "rocksdb/table_properties.h" #include "table/block.h" #include "table/block_fetcher.h" #include "table/format.h" #include "table/internal_iterator.h" #include "table/persistent_cache_helper.h" #include "table/table_properties_internal.h" #include "util/coding.h" #include "util/file_reader_writer.h" namespace rocksdb { MetaIndexBuilder::MetaIndexBuilder() : meta_index_block_(new BlockBuilder(1 /* restart interval */)) {} void MetaIndexBuilder::Add(const std::string& key, const BlockHandle& handle) { std::string handle_encoding; handle.EncodeTo(&handle_encoding); meta_block_handles_.insert({key, handle_encoding}); } Slice MetaIndexBuilder::Finish() { for (const auto& metablock : meta_block_handles_) { meta_index_block_->Add(metablock.first, metablock.second); } return meta_index_block_->Finish(); } // Property block will be read sequentially and cached in a heap located // object, so there's no need for restart points. Thus we set the restart // interval to infinity to save space. PropertyBlockBuilder::PropertyBlockBuilder() : properties_block_( new BlockBuilder(port::kMaxInt32 /* restart interval */)) {} void PropertyBlockBuilder::Add(const std::string& name, const std::string& val) { props_.insert({name, val}); } void PropertyBlockBuilder::Add(const std::string& name, uint64_t val) { assert(props_.find(name) == props_.end()); std::string dst; PutVarint64(&dst, val); Add(name, dst); } void PropertyBlockBuilder::Add( const UserCollectedProperties& user_collected_properties) { for (const auto& prop : user_collected_properties) { Add(prop.first, prop.second); } } void PropertyBlockBuilder::AddTableProperty(const TableProperties& props) { Add(TablePropertiesNames::kRawKeySize, props.raw_key_size); Add(TablePropertiesNames::kRawValueSize, props.raw_value_size); Add(TablePropertiesNames::kDataSize, props.data_size); Add(TablePropertiesNames::kIndexSize, props.index_size); if (props.index_partitions != 0) { Add(TablePropertiesNames::kIndexPartitions, props.index_partitions); Add(TablePropertiesNames::kTopLevelIndexSize, props.top_level_index_size); } Add(TablePropertiesNames::kIndexKeyIsUserKey, props.index_key_is_user_key); Add(TablePropertiesNames::kIndexValueIsDeltaEncoded, props.index_value_is_delta_encoded); Add(TablePropertiesNames::kNumEntries, props.num_entries); Add(TablePropertiesNames::kNumRangeDeletions, props.num_range_deletions); Add(TablePropertiesNames::kNumDataBlocks, props.num_data_blocks); Add(TablePropertiesNames::kFilterSize, props.filter_size); Add(TablePropertiesNames::kFormatVersion, props.format_version); Add(TablePropertiesNames::kFixedKeyLen, props.fixed_key_len); Add(TablePropertiesNames::kColumnFamilyId, props.column_family_id); Add(TablePropertiesNames::kCreationTime, props.creation_time); Add(TablePropertiesNames::kOldestKeyTime, props.oldest_key_time); if (!props.filter_policy_name.empty()) { Add(TablePropertiesNames::kFilterPolicy, props.filter_policy_name); } if (!props.comparator_name.empty()) { Add(TablePropertiesNames::kComparator, props.comparator_name); } if (!props.merge_operator_name.empty()) { Add(TablePropertiesNames::kMergeOperator, props.merge_operator_name); } if (!props.prefix_extractor_name.empty()) { Add(TablePropertiesNames::kPrefixExtractorName, props.prefix_extractor_name); } if (!props.property_collectors_names.empty()) { Add(TablePropertiesNames::kPropertyCollectors, props.property_collectors_names); } if (!props.column_family_name.empty()) { Add(TablePropertiesNames::kColumnFamilyName, props.column_family_name); } if (!props.compression_name.empty()) { Add(TablePropertiesNames::kCompression, props.compression_name); } } Slice PropertyBlockBuilder::Finish() { for (const auto& prop : props_) { properties_block_->Add(prop.first, prop.second); } return properties_block_->Finish(); } void LogPropertiesCollectionError( Logger* info_log, const std::string& method, const std::string& name) { assert(method == "Add" || method == "Finish"); std::string msg = "Encountered error when calling TablePropertiesCollector::" + method + "() with collector name: " + name; ROCKS_LOG_ERROR(info_log, "%s", msg.c_str()); } bool NotifyCollectTableCollectorsOnAdd( const Slice& key, const Slice& value, uint64_t file_size, const std::vector>& collectors, Logger* info_log) { bool all_succeeded = true; for (auto& collector : collectors) { Status s = collector->InternalAdd(key, value, file_size); all_succeeded = all_succeeded && s.ok(); if (!s.ok()) { LogPropertiesCollectionError(info_log, "Add" /* method */, collector->Name()); } } return all_succeeded; } bool NotifyCollectTableCollectorsOnFinish( const std::vector>& collectors, Logger* info_log, PropertyBlockBuilder* builder) { bool all_succeeded = true; for (auto& collector : collectors) { UserCollectedProperties user_collected_properties; Status s = collector->Finish(&user_collected_properties); all_succeeded = all_succeeded && s.ok(); if (!s.ok()) { LogPropertiesCollectionError(info_log, "Finish" /* method */, collector->Name()); } else { builder->Add(user_collected_properties); } } return all_succeeded; } Status ReadProperties(const Slice& handle_value, RandomAccessFileReader* file, FilePrefetchBuffer* prefetch_buffer, const Footer& footer, const ImmutableCFOptions& ioptions, TableProperties** table_properties, bool compression_type_missing) { assert(table_properties); Slice v = handle_value; BlockHandle handle; if (!handle.DecodeFrom(&v).ok()) { return Status::InvalidArgument("Failed to decode properties block handle"); } BlockContents block_contents; ReadOptions read_options; read_options.verify_checksums = false; Status s; Slice compression_dict; PersistentCacheOptions cache_options; BlockFetcher block_fetcher( file, prefetch_buffer, footer, read_options, handle, &block_contents, ioptions, false /* decompress */, compression_dict, cache_options); s = block_fetcher.ReadBlockContents(); // override compression_type when table file is known to contain undefined // value at compression type marker if (compression_type_missing) { block_contents.compression_type = kNoCompression; } if (!s.ok()) { return s; } Block properties_block(std::move(block_contents), kDisableGlobalSequenceNumber); DataBlockIter iter; properties_block.NewIterator(BytewiseComparator(), BytewiseComparator(), &iter); auto new_table_properties = new TableProperties(); // All pre-defined properties of type uint64_t std::unordered_map predefined_uint64_properties = { {TablePropertiesNames::kDataSize, &new_table_properties->data_size}, {TablePropertiesNames::kIndexSize, &new_table_properties->index_size}, {TablePropertiesNames::kIndexPartitions, &new_table_properties->index_partitions}, {TablePropertiesNames::kTopLevelIndexSize, &new_table_properties->top_level_index_size}, {TablePropertiesNames::kIndexKeyIsUserKey, &new_table_properties->index_key_is_user_key}, {TablePropertiesNames::kIndexValueIsDeltaEncoded, &new_table_properties->index_value_is_delta_encoded}, {TablePropertiesNames::kFilterSize, &new_table_properties->filter_size}, {TablePropertiesNames::kRawKeySize, &new_table_properties->raw_key_size}, {TablePropertiesNames::kRawValueSize, &new_table_properties->raw_value_size}, {TablePropertiesNames::kNumDataBlocks, &new_table_properties->num_data_blocks}, {TablePropertiesNames::kNumEntries, &new_table_properties->num_entries}, {TablePropertiesNames::kNumRangeDeletions, &new_table_properties->num_range_deletions}, {TablePropertiesNames::kFormatVersion, &new_table_properties->format_version}, {TablePropertiesNames::kFixedKeyLen, &new_table_properties->fixed_key_len}, {TablePropertiesNames::kColumnFamilyId, &new_table_properties->column_family_id}, {TablePropertiesNames::kCreationTime, &new_table_properties->creation_time}, {TablePropertiesNames::kOldestKeyTime, &new_table_properties->oldest_key_time}, }; std::string last_key; for (iter.SeekToFirst(); iter.Valid(); iter.Next()) { s = iter.status(); if (!s.ok()) { break; } auto key = iter.key().ToString(); // properties block is strictly sorted with no duplicate key. assert(last_key.empty() || BytewiseComparator()->Compare(key, last_key) > 0); last_key = key; auto raw_val = iter.value(); auto pos = predefined_uint64_properties.find(key); new_table_properties->properties_offsets.insert( {key, handle.offset() + iter.ValueOffset()}); if (pos != predefined_uint64_properties.end()) { // handle predefined rocksdb properties uint64_t val; if (!GetVarint64(&raw_val, &val)) { // skip malformed value auto error_msg = "Detect malformed value in properties meta-block:" "\tkey: " + key + "\tval: " + raw_val.ToString(); ROCKS_LOG_ERROR(ioptions.info_log, "%s", error_msg.c_str()); continue; } *(pos->second) = val; } else if (key == TablePropertiesNames::kFilterPolicy) { new_table_properties->filter_policy_name = raw_val.ToString(); } else if (key == TablePropertiesNames::kColumnFamilyName) { new_table_properties->column_family_name = raw_val.ToString(); } else if (key == TablePropertiesNames::kComparator) { new_table_properties->comparator_name = raw_val.ToString(); } else if (key == TablePropertiesNames::kMergeOperator) { new_table_properties->merge_operator_name = raw_val.ToString(); } else if (key == TablePropertiesNames::kPrefixExtractorName) { new_table_properties->prefix_extractor_name = raw_val.ToString(); } else if (key == TablePropertiesNames::kPropertyCollectors) { new_table_properties->property_collectors_names = raw_val.ToString(); } else if (key == TablePropertiesNames::kCompression) { new_table_properties->compression_name = raw_val.ToString(); } else { // handle user-collected properties new_table_properties->user_collected_properties.insert( {key, raw_val.ToString()}); } } if (s.ok()) { *table_properties = new_table_properties; } else { delete new_table_properties; } return s; } Status ReadTableProperties(RandomAccessFileReader* file, uint64_t file_size, uint64_t table_magic_number, const ImmutableCFOptions &ioptions, TableProperties** properties, bool compression_type_missing) { // -- Read metaindex block Footer footer; auto s = ReadFooterFromFile(file, nullptr /* prefetch_buffer */, file_size, &footer, table_magic_number); if (!s.ok()) { return s; } auto metaindex_handle = footer.metaindex_handle(); BlockContents metaindex_contents; ReadOptions read_options; read_options.verify_checksums = false; Slice compression_dict; PersistentCacheOptions cache_options; BlockFetcher block_fetcher( file, nullptr /* prefetch_buffer */, footer, read_options, metaindex_handle, &metaindex_contents, ioptions, false /* decompress */, compression_dict, cache_options); s = block_fetcher.ReadBlockContents(); if (!s.ok()) { return s; } // override compression_type when table file is known to contain undefined // value at compression type marker if (compression_type_missing) { metaindex_contents.compression_type = kNoCompression; } Block metaindex_block(std::move(metaindex_contents), kDisableGlobalSequenceNumber); std::unique_ptr meta_iter( metaindex_block.NewIterator(BytewiseComparator(), BytewiseComparator())); // -- Read property block bool found_properties_block = true; s = SeekToPropertiesBlock(meta_iter.get(), &found_properties_block); if (!s.ok()) { return s; } TableProperties table_properties; if (found_properties_block == true) { s = ReadProperties(meta_iter->value(), file, nullptr /* prefetch_buffer */, footer, ioptions, properties, compression_type_missing); } else { s = Status::NotFound(); } return s; } Status FindMetaBlock(InternalIterator* meta_index_iter, const std::string& meta_block_name, BlockHandle* block_handle) { meta_index_iter->Seek(meta_block_name); if (meta_index_iter->status().ok() && meta_index_iter->Valid() && meta_index_iter->key() == meta_block_name) { Slice v = meta_index_iter->value(); return block_handle->DecodeFrom(&v); } else { return Status::Corruption("Cannot find the meta block", meta_block_name); } } Status FindMetaBlock(RandomAccessFileReader* file, uint64_t file_size, uint64_t table_magic_number, const ImmutableCFOptions &ioptions, const std::string& meta_block_name, BlockHandle* block_handle, bool compression_type_missing) { Footer footer; auto s = ReadFooterFromFile(file, nullptr /* prefetch_buffer */, file_size, &footer, table_magic_number); if (!s.ok()) { return s; } auto metaindex_handle = footer.metaindex_handle(); BlockContents metaindex_contents; ReadOptions read_options; read_options.verify_checksums = false; Slice compression_dict; PersistentCacheOptions cache_options; BlockFetcher block_fetcher( file, nullptr /* prefetch_buffer */, footer, read_options, metaindex_handle, &metaindex_contents, ioptions, false /* do decompression */, compression_dict, cache_options); s = block_fetcher.ReadBlockContents(); if (!s.ok()) { return s; } // override compression_type when table file is known to contain undefined // value at compression type marker if (compression_type_missing) { metaindex_contents.compression_type = kNoCompression; } Block metaindex_block(std::move(metaindex_contents), kDisableGlobalSequenceNumber); std::unique_ptr meta_iter; meta_iter.reset(metaindex_block.NewIterator( BytewiseComparator(), BytewiseComparator())); return FindMetaBlock(meta_iter.get(), meta_block_name, block_handle); } Status ReadMetaBlock(RandomAccessFileReader* file, FilePrefetchBuffer* prefetch_buffer, uint64_t file_size, uint64_t table_magic_number, const ImmutableCFOptions& ioptions, const std::string& meta_block_name, BlockContents* contents, bool compression_type_missing) { Status status; Footer footer; status = ReadFooterFromFile(file, prefetch_buffer, file_size, &footer, table_magic_number); if (!status.ok()) { return status; } // Reading metaindex block auto metaindex_handle = footer.metaindex_handle(); BlockContents metaindex_contents; ReadOptions read_options; read_options.verify_checksums = false; Slice compression_dict; PersistentCacheOptions cache_options; BlockFetcher block_fetcher(file, prefetch_buffer, footer, read_options, metaindex_handle, &metaindex_contents, ioptions, false /* decompress */, compression_dict, cache_options); status = block_fetcher.ReadBlockContents(); if (!status.ok()) { return status; } // override compression_type when table file is known to contain undefined // value at compression type marker if (compression_type_missing) { metaindex_contents.compression_type = kNoCompression; } // Finding metablock Block metaindex_block(std::move(metaindex_contents), kDisableGlobalSequenceNumber); std::unique_ptr meta_iter; meta_iter.reset(metaindex_block.NewIterator( BytewiseComparator(), BytewiseComparator())); BlockHandle block_handle; status = FindMetaBlock(meta_iter.get(), meta_block_name, &block_handle); if (!status.ok()) { return status; } // Reading metablock BlockFetcher block_fetcher2( file, prefetch_buffer, footer, read_options, block_handle, contents, ioptions, false /* decompress */, compression_dict, cache_options); return block_fetcher2.ReadBlockContents(); } } // namespace rocksdb rocksdb-5.17.2/table/meta_blocks.h000066400000000000000000000130041337235545400167710ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #include #include #include #include #include "db/builder.h" #include "db/table_properties_collector.h" #include "util/kv_map.h" #include "rocksdb/comparator.h" #include "rocksdb/options.h" #include "rocksdb/slice.h" #include "table/block_builder.h" #include "table/format.h" namespace rocksdb { class BlockBuilder; class BlockHandle; class Env; class Footer; class Logger; class RandomAccessFile; struct TableProperties; class MetaIndexBuilder { public: MetaIndexBuilder(const MetaIndexBuilder&) = delete; MetaIndexBuilder& operator=(const MetaIndexBuilder&) = delete; MetaIndexBuilder(); void Add(const std::string& key, const BlockHandle& handle); // Write all the added key/value pairs to the block and return the contents // of the block. Slice Finish(); private: // store the sorted key/handle of the metablocks. stl_wrappers::KVMap meta_block_handles_; std::unique_ptr meta_index_block_; }; class PropertyBlockBuilder { public: PropertyBlockBuilder(const PropertyBlockBuilder&) = delete; PropertyBlockBuilder& operator=(const PropertyBlockBuilder&) = delete; PropertyBlockBuilder(); void AddTableProperty(const TableProperties& props); void Add(const std::string& key, uint64_t value); void Add(const std::string& key, const std::string& value); void Add(const UserCollectedProperties& user_collected_properties); // Write all the added entries to the block and return the block contents Slice Finish(); private: std::unique_ptr properties_block_; stl_wrappers::KVMap props_; }; // Were we encounter any error occurs during user-defined statistics collection, // we'll write the warning message to info log. void LogPropertiesCollectionError( Logger* info_log, const std::string& method, const std::string& name); // Utility functions help table builder to trigger batch events for user // defined property collectors. // Return value indicates if there is any error occurred; if error occurred, // the warning message will be logged. // NotifyCollectTableCollectorsOnAdd() triggers the `Add` event for all // property collectors. bool NotifyCollectTableCollectorsOnAdd( const Slice& key, const Slice& value, uint64_t file_size, const std::vector>& collectors, Logger* info_log); // NotifyCollectTableCollectorsOnAdd() triggers the `Finish` event for all // property collectors. The collected properties will be added to `builder`. bool NotifyCollectTableCollectorsOnFinish( const std::vector>& collectors, Logger* info_log, PropertyBlockBuilder* builder); // Read the properties from the table. // @returns a status to indicate if the operation succeeded. On success, // *table_properties will point to a heap-allocated TableProperties // object, otherwise value of `table_properties` will not be modified. Status ReadProperties(const Slice& handle_value, RandomAccessFileReader* file, FilePrefetchBuffer* prefetch_buffer, const Footer& footer, const ImmutableCFOptions& ioptions, TableProperties** table_properties, bool compression_type_missing = false); // Directly read the properties from the properties block of a plain table. // @returns a status to indicate if the operation succeeded. On success, // *table_properties will point to a heap-allocated TableProperties // object, otherwise value of `table_properties` will not be modified. // certain tables do not have compression_type byte setup properly for // uncompressed blocks, caller can request to reset compression type by // passing compression_type_missing = true, the same applies to // `ReadProperties`, `FindMetaBlock`, and `ReadMetaBlock` Status ReadTableProperties(RandomAccessFileReader* file, uint64_t file_size, uint64_t table_magic_number, const ImmutableCFOptions &ioptions, TableProperties** properties, bool compression_type_missing = false); // Find the meta block from the meta index block. Status FindMetaBlock(InternalIterator* meta_index_iter, const std::string& meta_block_name, BlockHandle* block_handle); // Find the meta block Status FindMetaBlock(RandomAccessFileReader* file, uint64_t file_size, uint64_t table_magic_number, const ImmutableCFOptions &ioptions, const std::string& meta_block_name, BlockHandle* block_handle, bool compression_type_missing = false); // Read the specified meta block with name meta_block_name // from `file` and initialize `contents` with contents of this block. // Return Status::OK in case of success. Status ReadMetaBlock(RandomAccessFileReader* file, FilePrefetchBuffer* prefetch_buffer, uint64_t file_size, uint64_t table_magic_number, const ImmutableCFOptions& ioptions, const std::string& meta_block_name, BlockContents* contents, bool compression_type_missing = false); } // namespace rocksdb rocksdb-5.17.2/table/mock_table.cc000066400000000000000000000106501337235545400167500ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include "table/mock_table.h" #include "db/dbformat.h" #include "port/port.h" #include "rocksdb/table_properties.h" #include "table/get_context.h" #include "util/coding.h" #include "util/file_reader_writer.h" namespace rocksdb { namespace mock { namespace { const InternalKeyComparator icmp_(BytewiseComparator()); } // namespace stl_wrappers::KVMap MakeMockFile( std::initializer_list> l) { return stl_wrappers::KVMap(l, stl_wrappers::LessOfComparator(&icmp_)); } InternalIterator* MockTableReader::NewIterator( const ReadOptions&, const SliceTransform* /* prefix_extractor */, Arena* /*arena*/, bool /*skip_filters*/, bool /*for_compaction*/) { return new MockTableIterator(table_); } Status MockTableReader::Get(const ReadOptions&, const Slice& key, GetContext* get_context, const SliceTransform* /*prefix_extractor*/, bool /*skip_filters*/) { std::unique_ptr iter(new MockTableIterator(table_)); for (iter->Seek(key); iter->Valid(); iter->Next()) { ParsedInternalKey parsed_key; if (!ParseInternalKey(iter->key(), &parsed_key)) { return Status::Corruption(Slice()); } bool dont_care __attribute__((__unused__)); if (!get_context->SaveValue(parsed_key, iter->value(), &dont_care)) { break; } } return Status::OK(); } std::shared_ptr MockTableReader::GetTableProperties() const { return std::shared_ptr(new TableProperties()); } MockTableFactory::MockTableFactory() : next_id_(1) {} Status MockTableFactory::NewTableReader( const TableReaderOptions& /*table_reader_options*/, unique_ptr&& file, uint64_t /*file_size*/, unique_ptr* table_reader, bool /*prefetch_index_and_filter_in_cache*/) const { uint32_t id = GetIDFromFile(file.get()); MutexLock lock_guard(&file_system_.mutex); auto it = file_system_.files.find(id); if (it == file_system_.files.end()) { return Status::IOError("Mock file not found"); } table_reader->reset(new MockTableReader(it->second)); return Status::OK(); } TableBuilder* MockTableFactory::NewTableBuilder( const TableBuilderOptions& /*table_builder_options*/, uint32_t /*column_family_id*/, WritableFileWriter* file) const { uint32_t id = GetAndWriteNextID(file); return new MockTableBuilder(id, &file_system_); } Status MockTableFactory::CreateMockTable(Env* env, const std::string& fname, stl_wrappers::KVMap file_contents) { std::unique_ptr file; auto s = env->NewWritableFile(fname, &file, EnvOptions()); if (!s.ok()) { return s; } WritableFileWriter file_writer(std::move(file), fname, EnvOptions()); uint32_t id = GetAndWriteNextID(&file_writer); file_system_.files.insert({id, std::move(file_contents)}); return Status::OK(); } uint32_t MockTableFactory::GetAndWriteNextID(WritableFileWriter* file) const { uint32_t next_id = next_id_.fetch_add(1); char buf[4]; EncodeFixed32(buf, next_id); file->Append(Slice(buf, 4)); return next_id; } uint32_t MockTableFactory::GetIDFromFile(RandomAccessFileReader* file) const { char buf[4]; Slice result; file->Read(0, 4, &result, buf); assert(result.size() == 4); return DecodeFixed32(buf); } void MockTableFactory::AssertSingleFile( const stl_wrappers::KVMap& file_contents) { ASSERT_EQ(file_system_.files.size(), 1U); ASSERT_EQ(file_contents, file_system_.files.begin()->second); } void MockTableFactory::AssertLatestFile( const stl_wrappers::KVMap& file_contents) { ASSERT_GE(file_system_.files.size(), 1U); auto latest = file_system_.files.end(); --latest; if (file_contents != latest->second) { std::cout << "Wrong content! Content of latest file:" << std::endl; for (const auto& kv : latest->second) { ParsedInternalKey ikey; std::string key, value; std::tie(key, value) = kv; ParseInternalKey(Slice(key), &ikey); std::cout << ikey.DebugString(false) << " -> " << value << std::endl; } FAIL(); } } } // namespace mock } // namespace rocksdb rocksdb-5.17.2/table/mock_table.h000066400000000000000000000135201337235545400166110ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #include #include #include #include #include #include #include #include "util/kv_map.h" #include "port/port.h" #include "rocksdb/comparator.h" #include "rocksdb/table.h" #include "table/internal_iterator.h" #include "table/table_builder.h" #include "table/table_reader.h" #include "util/mutexlock.h" #include "util/testharness.h" #include "util/testutil.h" namespace rocksdb { namespace mock { stl_wrappers::KVMap MakeMockFile( std::initializer_list> l = {}); struct MockTableFileSystem { port::Mutex mutex; std::map files; }; class MockTableReader : public TableReader { public: explicit MockTableReader(const stl_wrappers::KVMap& table) : table_(table) {} InternalIterator* NewIterator(const ReadOptions&, const SliceTransform* prefix_extractor, Arena* arena = nullptr, bool skip_filters = false, bool for_compaction = false) override; Status Get(const ReadOptions& readOptions, const Slice& key, GetContext* get_context, const SliceTransform* prefix_extractor, bool skip_filters = false) override; uint64_t ApproximateOffsetOf(const Slice& /*key*/) override { return 0; } virtual size_t ApproximateMemoryUsage() const override { return 0; } void SetupForCompaction() override {} std::shared_ptr GetTableProperties() const override; ~MockTableReader() {} private: const stl_wrappers::KVMap& table_; }; class MockTableIterator : public InternalIterator { public: explicit MockTableIterator(const stl_wrappers::KVMap& table) : table_(table) { itr_ = table_.end(); } bool Valid() const override { return itr_ != table_.end(); } void SeekToFirst() override { itr_ = table_.begin(); } void SeekToLast() override { itr_ = table_.end(); --itr_; } void Seek(const Slice& target) override { std::string str_target(target.data(), target.size()); itr_ = table_.lower_bound(str_target); } void SeekForPrev(const Slice& target) override { std::string str_target(target.data(), target.size()); itr_ = table_.upper_bound(str_target); Prev(); } void Next() override { ++itr_; } void Prev() override { if (itr_ == table_.begin()) { itr_ = table_.end(); } else { --itr_; } } Slice key() const override { return Slice(itr_->first); } Slice value() const override { return Slice(itr_->second); } Status status() const override { return Status::OK(); } private: const stl_wrappers::KVMap& table_; stl_wrappers::KVMap::const_iterator itr_; }; class MockTableBuilder : public TableBuilder { public: MockTableBuilder(uint32_t id, MockTableFileSystem* file_system) : id_(id), file_system_(file_system) { table_ = MakeMockFile({}); } // REQUIRES: Either Finish() or Abandon() has been called. ~MockTableBuilder() {} // Add key,value to the table being constructed. // REQUIRES: key is after any previously added key according to comparator. // REQUIRES: Finish(), Abandon() have not been called void Add(const Slice& key, const Slice& value) override { table_.insert({key.ToString(), value.ToString()}); } // Return non-ok iff some error has been detected. Status status() const override { return Status::OK(); } Status Finish() override { MutexLock lock_guard(&file_system_->mutex); file_system_->files.insert({id_, table_}); return Status::OK(); } void Abandon() override {} uint64_t NumEntries() const override { return table_.size(); } uint64_t FileSize() const override { return table_.size(); } TableProperties GetTableProperties() const override { return TableProperties(); } private: uint32_t id_; MockTableFileSystem* file_system_; stl_wrappers::KVMap table_; }; class MockTableFactory : public TableFactory { public: MockTableFactory(); const char* Name() const override { return "MockTable"; } Status NewTableReader( const TableReaderOptions& table_reader_options, unique_ptr&& file, uint64_t file_size, unique_ptr* table_reader, bool prefetch_index_and_filter_in_cache = true) const override; TableBuilder* NewTableBuilder( const TableBuilderOptions& table_builder_options, uint32_t column_familly_id, WritableFileWriter* file) const override; // This function will directly create mock table instead of going through // MockTableBuilder. file_contents has to have a format of . Those key-value pairs will then be inserted into the mock table. Status CreateMockTable(Env* env, const std::string& fname, stl_wrappers::KVMap file_contents); virtual Status SanitizeOptions( const DBOptions& /*db_opts*/, const ColumnFamilyOptions& /*cf_opts*/) const override { return Status::OK(); } virtual std::string GetPrintableTableOptions() const override { return std::string(); } // This function will assert that only a single file exists and that the // contents are equal to file_contents void AssertSingleFile(const stl_wrappers::KVMap& file_contents); void AssertLatestFile(const stl_wrappers::KVMap& file_contents); private: uint32_t GetAndWriteNextID(WritableFileWriter* file) const; uint32_t GetIDFromFile(RandomAccessFileReader* file) const; mutable MockTableFileSystem file_system_; mutable std::atomic next_id_; }; } // namespace mock } // namespace rocksdb rocksdb-5.17.2/table/partitioned_filter_block.cc000066400000000000000000000317231337235545400217150ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include "table/partitioned_filter_block.h" #ifdef ROCKSDB_MALLOC_USABLE_SIZE #ifdef OS_FREEBSD #include #else #include #endif #endif #include #include "monitoring/perf_context_imp.h" #include "port/port.h" #include "rocksdb/filter_policy.h" #include "table/block.h" #include "table/block_based_table_reader.h" #include "util/coding.h" namespace rocksdb { PartitionedFilterBlockBuilder::PartitionedFilterBlockBuilder( const SliceTransform* prefix_extractor, bool whole_key_filtering, FilterBitsBuilder* filter_bits_builder, int index_block_restart_interval, const bool use_value_delta_encoding, PartitionedIndexBuilder* const p_index_builder, const uint32_t partition_size) : FullFilterBlockBuilder(prefix_extractor, whole_key_filtering, filter_bits_builder), index_on_filter_block_builder_(index_block_restart_interval, true /*use_delta_encoding*/, use_value_delta_encoding), index_on_filter_block_builder_without_seq_(index_block_restart_interval, true /*use_delta_encoding*/, use_value_delta_encoding), p_index_builder_(p_index_builder), filters_in_partition_(0), num_added_(0) { filters_per_partition_ = filter_bits_builder_->CalculateNumEntry(partition_size); } PartitionedFilterBlockBuilder::~PartitionedFilterBlockBuilder() {} void PartitionedFilterBlockBuilder::MaybeCutAFilterBlock() { // Use == to send the request only once if (filters_in_partition_ == filters_per_partition_) { // Currently only index builder is in charge of cutting a partition. We keep // requesting until it is granted. p_index_builder_->RequestPartitionCut(); } if (!p_index_builder_->ShouldCutFilterBlock()) { return; } filter_gc.push_back(std::unique_ptr(nullptr)); Slice filter = filter_bits_builder_->Finish(&filter_gc.back()); std::string& index_key = p_index_builder_->GetPartitionKey(); filters.push_back({index_key, filter}); filters_in_partition_ = 0; Reset(); } void PartitionedFilterBlockBuilder::AddKey(const Slice& key) { MaybeCutAFilterBlock(); filter_bits_builder_->AddKey(key); filters_in_partition_++; num_added_++; } Slice PartitionedFilterBlockBuilder::Finish( const BlockHandle& last_partition_block_handle, Status* status) { if (finishing_filters == true) { // Record the handle of the last written filter block in the index FilterEntry& last_entry = filters.front(); std::string handle_encoding; last_partition_block_handle.EncodeTo(&handle_encoding); std::string handle_delta_encoding; PutVarsignedint64( &handle_delta_encoding, last_partition_block_handle.size() - last_encoded_handle_.size()); last_encoded_handle_ = last_partition_block_handle; const Slice handle_delta_encoding_slice(handle_delta_encoding); index_on_filter_block_builder_.Add(last_entry.key, handle_encoding, &handle_delta_encoding_slice); if (!p_index_builder_->seperator_is_key_plus_seq()) { index_on_filter_block_builder_without_seq_.Add( ExtractUserKey(last_entry.key), handle_encoding, &handle_delta_encoding_slice); } filters.pop_front(); } else { MaybeCutAFilterBlock(); } // If there is no filter partition left, then return the index on filter // partitions if (UNLIKELY(filters.empty())) { *status = Status::OK(); if (finishing_filters) { if (p_index_builder_->seperator_is_key_plus_seq()) { return index_on_filter_block_builder_.Finish(); } else { return index_on_filter_block_builder_without_seq_.Finish(); } } else { // This is the rare case where no key was added to the filter return Slice(); } } else { // Return the next filter partition in line and set Incomplete() status to // indicate we expect more calls to Finish *status = Status::Incomplete(); finishing_filters = true; return filters.front().filter; } } PartitionedFilterBlockReader::PartitionedFilterBlockReader( const SliceTransform* prefix_extractor, bool _whole_key_filtering, BlockContents&& contents, FilterBitsReader* /*filter_bits_reader*/, Statistics* stats, const InternalKeyComparator comparator, const BlockBasedTable* table, const bool index_key_includes_seq, const bool index_value_is_full) : FilterBlockReader(contents.data.size(), stats, _whole_key_filtering), prefix_extractor_(prefix_extractor), comparator_(comparator), table_(table), index_key_includes_seq_(index_key_includes_seq), index_value_is_full_(index_value_is_full) { idx_on_fltr_blk_.reset(new Block(std::move(contents), kDisableGlobalSequenceNumber, 0 /* read_amp_bytes_per_bit */, stats)); } PartitionedFilterBlockReader::~PartitionedFilterBlockReader() { // TODO(myabandeh): if instead of filter object we store only the blocks in // block cache, then we don't have to manually earse them from block cache // here. auto block_cache = table_->rep_->table_options.block_cache.get(); if (UNLIKELY(block_cache == nullptr)) { return; } char cache_key[BlockBasedTable::kMaxCacheKeyPrefixSize + kMaxVarint64Length]; IndexBlockIter biter; BlockHandle handle; Statistics* kNullStats = nullptr; idx_on_fltr_blk_->NewIterator( &comparator_, comparator_.user_comparator(), &biter, kNullStats, true, index_key_includes_seq_, index_value_is_full_); biter.SeekToFirst(); for (; biter.Valid(); biter.Next()) { handle = biter.value(); auto key = BlockBasedTable::GetCacheKey(table_->rep_->cache_key_prefix, table_->rep_->cache_key_prefix_size, handle, cache_key); block_cache->Erase(key); } } bool PartitionedFilterBlockReader::KeyMayMatch( const Slice& key, const SliceTransform* prefix_extractor, uint64_t block_offset, const bool no_io, const Slice* const const_ikey_ptr) { assert(const_ikey_ptr != nullptr); assert(block_offset == kNotValid); if (!whole_key_filtering_) { return true; } if (UNLIKELY(idx_on_fltr_blk_->size() == 0)) { return true; } auto filter_handle = GetFilterPartitionHandle(*const_ikey_ptr); if (UNLIKELY(filter_handle.size() == 0)) { // key is out of range return false; } bool cached = false; auto filter_partition = GetFilterPartition(nullptr /* prefetch_buffer */, filter_handle, no_io, &cached, prefix_extractor); if (UNLIKELY(!filter_partition.value)) { return true; } auto res = filter_partition.value->KeyMayMatch(key, prefix_extractor, block_offset, no_io); if (cached) { return res; } if (LIKELY(filter_partition.IsSet())) { filter_partition.Release(table_->rep_->table_options.block_cache.get()); } else { delete filter_partition.value; } return res; } bool PartitionedFilterBlockReader::PrefixMayMatch( const Slice& prefix, const SliceTransform* prefix_extractor, uint64_t block_offset, const bool no_io, const Slice* const const_ikey_ptr) { #ifdef NDEBUG (void)block_offset; #endif assert(const_ikey_ptr != nullptr); assert(block_offset == kNotValid); if (!prefix_extractor_ && !prefix_extractor) { return true; } if (UNLIKELY(idx_on_fltr_blk_->size() == 0)) { return true; } auto filter_handle = GetFilterPartitionHandle(*const_ikey_ptr); if (UNLIKELY(filter_handle.size() == 0)) { // prefix is out of range return false; } bool cached = false; auto filter_partition = GetFilterPartition(nullptr /* prefetch_buffer */, filter_handle, no_io, &cached, prefix_extractor); if (UNLIKELY(!filter_partition.value)) { return true; } auto res = filter_partition.value->PrefixMayMatch(prefix, prefix_extractor, kNotValid, no_io); if (cached) { return res; } if (LIKELY(filter_partition.IsSet())) { filter_partition.Release(table_->rep_->table_options.block_cache.get()); } else { delete filter_partition.value; } return res; } BlockHandle PartitionedFilterBlockReader::GetFilterPartitionHandle( const Slice& entry) { IndexBlockIter iter; Statistics* kNullStats = nullptr; idx_on_fltr_blk_->NewIterator( &comparator_, comparator_.user_comparator(), &iter, kNullStats, true, index_key_includes_seq_, index_value_is_full_); iter.Seek(entry); if (UNLIKELY(!iter.Valid())) { return BlockHandle(0, 0); } assert(iter.Valid()); BlockHandle fltr_blk_handle = iter.value(); return fltr_blk_handle; } BlockBasedTable::CachableEntry PartitionedFilterBlockReader::GetFilterPartition( FilePrefetchBuffer* prefetch_buffer, BlockHandle& fltr_blk_handle, const bool no_io, bool* cached, const SliceTransform* prefix_extractor) { const bool is_a_filter_partition = true; auto block_cache = table_->rep_->table_options.block_cache.get(); if (LIKELY(block_cache != nullptr)) { if (filter_map_.size() != 0) { auto iter = filter_map_.find(fltr_blk_handle.offset()); // This is a possible scenario since block cache might not have had space // for the partition if (iter != filter_map_.end()) { PERF_COUNTER_ADD(block_cache_hit_count, 1); RecordTick(statistics(), BLOCK_CACHE_FILTER_HIT); RecordTick(statistics(), BLOCK_CACHE_HIT); RecordTick(statistics(), BLOCK_CACHE_BYTES_READ, block_cache->GetUsage(iter->second.cache_handle)); *cached = true; return iter->second; } } return table_->GetFilter(/*prefetch_buffer*/ nullptr, fltr_blk_handle, is_a_filter_partition, no_io, /* get_context */ nullptr, prefix_extractor); } else { auto filter = table_->ReadFilter(prefetch_buffer, fltr_blk_handle, is_a_filter_partition, prefix_extractor); return {filter, nullptr}; } } size_t PartitionedFilterBlockReader::ApproximateMemoryUsage() const { size_t usage = idx_on_fltr_blk_->usable_size(); #ifdef ROCKSDB_MALLOC_USABLE_SIZE usage += malloc_usable_size((void*)this); #else usage += sizeof(*this); #endif // ROCKSDB_MALLOC_USABLE_SIZE return usage; // TODO(myabandeh): better estimation for filter_map_ size } // Release the cached entry and decrement its ref count. void ReleaseFilterCachedEntry(void* arg, void* h) { Cache* cache = reinterpret_cast(arg); Cache::Handle* handle = reinterpret_cast(h); cache->Release(handle); } // TODO(myabandeh): merge this with the same function in IndexReader void PartitionedFilterBlockReader::CacheDependencies( bool pin, const SliceTransform* prefix_extractor) { // Before read partitions, prefetch them to avoid lots of IOs auto rep = table_->rep_; IndexBlockIter biter; Statistics* kNullStats = nullptr; idx_on_fltr_blk_->NewIterator( &comparator_, comparator_.user_comparator(), &biter, kNullStats, true, index_key_includes_seq_, index_value_is_full_); // Index partitions are assumed to be consecuitive. Prefetch them all. // Read the first block offset biter.SeekToFirst(); BlockHandle handle = biter.value(); uint64_t prefetch_off = handle.offset(); // Read the last block's offset biter.SeekToLast(); handle = biter.value(); uint64_t last_off = handle.offset() + handle.size() + kBlockTrailerSize; uint64_t prefetch_len = last_off - prefetch_off; std::unique_ptr prefetch_buffer; auto& file = table_->rep_->file; prefetch_buffer.reset(new FilePrefetchBuffer()); Status s; s = prefetch_buffer->Prefetch(file.get(), prefetch_off, static_cast(prefetch_len)); // After prefetch, read the partitions one by one biter.SeekToFirst(); Cache* block_cache = rep->table_options.block_cache.get(); for (; biter.Valid(); biter.Next()) { handle = biter.value(); const bool no_io = true; const bool is_a_filter_partition = true; auto filter = table_->GetFilter( prefetch_buffer.get(), handle, is_a_filter_partition, !no_io, /* get_context */ nullptr, prefix_extractor); if (LIKELY(filter.IsSet())) { if (pin) { filter_map_[handle.offset()] = std::move(filter); RegisterCleanup(&ReleaseFilterCachedEntry, block_cache, filter.cache_handle); } else { block_cache->Release(filter.cache_handle); } } else { delete filter.value; } } } } // namespace rocksdb rocksdb-5.17.2/table/partitioned_filter_block.h000066400000000000000000000104551337235545400215560ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #include #include #include #include "db/dbformat.h" #include "rocksdb/options.h" #include "rocksdb/slice.h" #include "rocksdb/slice_transform.h" #include "table/block.h" #include "table/block_based_table_reader.h" #include "table/full_filter_block.h" #include "table/index_builder.h" #include "util/autovector.h" namespace rocksdb { class PartitionedFilterBlockBuilder : public FullFilterBlockBuilder { public: explicit PartitionedFilterBlockBuilder( const SliceTransform* prefix_extractor, bool whole_key_filtering, FilterBitsBuilder* filter_bits_builder, int index_block_restart_interval, const bool use_value_delta_encoding, PartitionedIndexBuilder* const p_index_builder, const uint32_t partition_size); virtual ~PartitionedFilterBlockBuilder(); void AddKey(const Slice& key) override; size_t NumAdded() const override { return num_added_; } virtual Slice Finish(const BlockHandle& last_partition_block_handle, Status* status) override; private: // Filter data BlockBuilder index_on_filter_block_builder_; // top-level index builder BlockBuilder index_on_filter_block_builder_without_seq_; // same for user keys struct FilterEntry { std::string key; Slice filter; }; std::list filters; // list of partitioned indexes and their keys std::unique_ptr value; std::vector> filter_gc; bool finishing_filters = false; // true if Finish is called once but not complete yet. // The policy of when cut a filter block and Finish it void MaybeCutAFilterBlock(); // Currently we keep the same number of partitions for filters and indexes. // This would allow for some potentioal optimizations in future. If such // optimizations did not realize we can use different number of partitions and // eliminate p_index_builder_ PartitionedIndexBuilder* const p_index_builder_; // The desired number of filters per partition uint32_t filters_per_partition_; // The current number of filters in the last partition uint32_t filters_in_partition_; // Number of keys added size_t num_added_; BlockHandle last_encoded_handle_; }; class PartitionedFilterBlockReader : public FilterBlockReader, public Cleanable { public: explicit PartitionedFilterBlockReader( const SliceTransform* prefix_extractor, bool whole_key_filtering, BlockContents&& contents, FilterBitsReader* filter_bits_reader, Statistics* stats, const InternalKeyComparator comparator, const BlockBasedTable* table, const bool index_key_includes_seq, const bool index_value_is_full); virtual ~PartitionedFilterBlockReader(); virtual bool IsBlockBased() override { return false; } virtual bool KeyMayMatch( const Slice& key, const SliceTransform* prefix_extractor, uint64_t block_offset = kNotValid, const bool no_io = false, const Slice* const const_ikey_ptr = nullptr) override; virtual bool PrefixMayMatch( const Slice& prefix, const SliceTransform* prefix_extractor, uint64_t block_offset = kNotValid, const bool no_io = false, const Slice* const const_ikey_ptr = nullptr) override; virtual size_t ApproximateMemoryUsage() const override; private: BlockHandle GetFilterPartitionHandle(const Slice& entry); BlockBasedTable::CachableEntry GetFilterPartition( FilePrefetchBuffer* prefetch_buffer, BlockHandle& handle, const bool no_io, bool* cached, const SliceTransform* prefix_extractor = nullptr); virtual void CacheDependencies( bool bin, const SliceTransform* prefix_extractor) override; const SliceTransform* prefix_extractor_; std::unique_ptr idx_on_fltr_blk_; const InternalKeyComparator comparator_; const BlockBasedTable* table_; const bool index_key_includes_seq_; const bool index_value_is_full_; std::unordered_map> filter_map_; }; } // namespace rocksdb rocksdb-5.17.2/table/partitioned_filter_block_test.cc000066400000000000000000000324131337235545400227510ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include #include "rocksdb/filter_policy.h" #include "table/full_filter_bits_builder.h" #include "table/index_builder.h" #include "table/partitioned_filter_block.h" #include "util/coding.h" #include "util/hash.h" #include "util/logging.h" #include "util/testharness.h" #include "util/testutil.h" namespace rocksdb { std::map slices; class MockedBlockBasedTable : public BlockBasedTable { public: explicit MockedBlockBasedTable(Rep* rep) : BlockBasedTable(rep) { // Initialize what Open normally does as much as necessary for the test rep->cache_key_prefix_size = 10; } virtual CachableEntry GetFilter( FilePrefetchBuffer*, const BlockHandle& filter_blk_handle, const bool /* unused */, bool /* unused */, GetContext* /* unused */, const SliceTransform* prefix_extractor) const override { Slice slice = slices[filter_blk_handle.offset()]; auto obj = new FullFilterBlockReader( prefix_extractor, true, BlockContents(slice, false, kNoCompression), rep_->table_options.filter_policy->GetFilterBitsReader(slice), nullptr); return {obj, nullptr}; } virtual FilterBlockReader* ReadFilter( FilePrefetchBuffer*, const BlockHandle& filter_blk_handle, const bool /* unused */, const SliceTransform* prefix_extractor) const override { Slice slice = slices[filter_blk_handle.offset()]; auto obj = new FullFilterBlockReader( prefix_extractor, true, BlockContents(slice, false, kNoCompression), rep_->table_options.filter_policy->GetFilterBitsReader(slice), nullptr); return obj; } }; class PartitionedFilterBlockTest : public testing::Test, virtual public ::testing::WithParamInterface { public: BlockBasedTableOptions table_options_; InternalKeyComparator icomp = InternalKeyComparator(BytewiseComparator()); PartitionedFilterBlockTest() { table_options_.filter_policy.reset(NewBloomFilterPolicy(10, false)); table_options_.no_block_cache = true; // Otherwise BlockBasedTable::Close // will access variable that are not // initialized in our mocked version table_options_.format_version = GetParam(); table_options_.index_block_restart_interval = 3; } std::shared_ptr cache_; ~PartitionedFilterBlockTest() {} const std::string keys[4] = {"afoo", "bar", "box", "hello"}; const std::string missing_keys[2] = {"missing", "other"}; uint64_t MaxIndexSize() { int num_keys = sizeof(keys) / sizeof(*keys); uint64_t max_key_size = 0; for (int i = 1; i < num_keys; i++) { max_key_size = std::max(max_key_size, static_cast(keys[i].size())); } uint64_t max_index_size = num_keys * (max_key_size + 8 /*handle*/); return max_index_size; } uint64_t MaxFilterSize() { uint32_t dont_care1, dont_care2; int num_keys = sizeof(keys) / sizeof(*keys); auto filter_bits_reader = dynamic_cast( table_options_.filter_policy->GetFilterBitsBuilder()); assert(filter_bits_reader); auto partition_size = filter_bits_reader->CalculateSpace(num_keys, &dont_care1, &dont_care2); delete filter_bits_reader; return partition_size + partition_size * table_options_.block_size_deviation / 100; } int last_offset = 10; BlockHandle Write(const Slice& slice) { BlockHandle bh(last_offset + 1, slice.size()); slices[bh.offset()] = slice; last_offset += bh.size(); return bh; } PartitionedIndexBuilder* NewIndexBuilder() { const bool kValueDeltaEncoded = true; return PartitionedIndexBuilder::CreateIndexBuilder( &icomp, !kValueDeltaEncoded, table_options_); } PartitionedFilterBlockBuilder* NewBuilder( PartitionedIndexBuilder* const p_index_builder, const SliceTransform* prefix_extractor = nullptr) { assert(table_options_.block_size_deviation <= 100); auto partition_size = static_cast( ((table_options_.metadata_block_size * (100 - table_options_.block_size_deviation)) + 99) / 100); partition_size = std::max(partition_size, static_cast(1)); const bool kValueDeltaEncoded = true; return new PartitionedFilterBlockBuilder( prefix_extractor, table_options_.whole_key_filtering, table_options_.filter_policy->GetFilterBitsBuilder(), table_options_.index_block_restart_interval, !kValueDeltaEncoded, p_index_builder, partition_size); } std::unique_ptr table; PartitionedFilterBlockReader* NewReader( PartitionedFilterBlockBuilder* builder, PartitionedIndexBuilder* pib, const SliceTransform* prefix_extractor) { BlockHandle bh; Status status; Slice slice; do { slice = builder->Finish(bh, &status); bh = Write(slice); } while (status.IsIncomplete()); const Options options; const ImmutableCFOptions ioptions(options); const MutableCFOptions moptions(options); const EnvOptions env_options; const bool kSkipFilters = true; const bool kImmortal = true; table.reset(new MockedBlockBasedTable( new BlockBasedTable::Rep(ioptions, env_options, table_options_, icomp, !kSkipFilters, !kImmortal))); auto reader = new PartitionedFilterBlockReader( prefix_extractor, true, BlockContents(slice, false, kNoCompression), nullptr, nullptr, icomp, table.get(), pib->seperator_is_key_plus_seq(), !pib->get_use_value_delta_encoding()); return reader; } void VerifyReader(PartitionedFilterBlockBuilder* builder, PartitionedIndexBuilder* pib, bool empty = false, const SliceTransform* prefix_extractor = nullptr) { std::unique_ptr reader( NewReader(builder, pib, prefix_extractor)); // Querying added keys const bool no_io = true; for (auto key : keys) { auto ikey = InternalKey(key, 0, ValueType::kTypeValue); const Slice ikey_slice = Slice(*ikey.rep()); ASSERT_TRUE(reader->KeyMayMatch(key, prefix_extractor, kNotValid, !no_io, &ikey_slice)); } { // querying a key twice auto ikey = InternalKey(keys[0], 0, ValueType::kTypeValue); const Slice ikey_slice = Slice(*ikey.rep()); ASSERT_TRUE(reader->KeyMayMatch(keys[0], prefix_extractor, kNotValid, !no_io, &ikey_slice)); } // querying missing keys for (auto key : missing_keys) { auto ikey = InternalKey(key, 0, ValueType::kTypeValue); const Slice ikey_slice = Slice(*ikey.rep()); if (empty) { ASSERT_TRUE(reader->KeyMayMatch(key, prefix_extractor, kNotValid, !no_io, &ikey_slice)); } else { // assuming a good hash function ASSERT_FALSE(reader->KeyMayMatch(key, prefix_extractor, kNotValid, !no_io, &ikey_slice)); } } } int TestBlockPerKey() { std::unique_ptr pib(NewIndexBuilder()); std::unique_ptr builder( NewBuilder(pib.get())); int i = 0; builder->Add(keys[i]); CutABlock(pib.get(), keys[i], keys[i + 1]); i++; builder->Add(keys[i]); CutABlock(pib.get(), keys[i], keys[i + 1]); i++; builder->Add(keys[i]); builder->Add(keys[i]); CutABlock(pib.get(), keys[i], keys[i + 1]); i++; builder->Add(keys[i]); CutABlock(pib.get(), keys[i]); VerifyReader(builder.get(), pib.get()); return CountNumOfIndexPartitions(pib.get()); } void TestBlockPerTwoKeys(const SliceTransform* prefix_extractor = nullptr) { std::unique_ptr pib(NewIndexBuilder()); std::unique_ptr builder( NewBuilder(pib.get(), prefix_extractor)); int i = 0; builder->Add(keys[i]); i++; builder->Add(keys[i]); CutABlock(pib.get(), keys[i], keys[i + 1]); i++; builder->Add(keys[i]); builder->Add(keys[i]); i++; builder->Add(keys[i]); CutABlock(pib.get(), keys[i]); VerifyReader(builder.get(), pib.get(), prefix_extractor); } void TestBlockPerAllKeys() { std::unique_ptr pib(NewIndexBuilder()); std::unique_ptr builder( NewBuilder(pib.get())); int i = 0; builder->Add(keys[i]); i++; builder->Add(keys[i]); i++; builder->Add(keys[i]); builder->Add(keys[i]); i++; builder->Add(keys[i]); CutABlock(pib.get(), keys[i]); VerifyReader(builder.get(), pib.get()); } void CutABlock(PartitionedIndexBuilder* builder, const std::string& user_key) { // Assuming a block is cut, add an entry to the index std::string key = std::string(*InternalKey(user_key, 0, ValueType::kTypeValue).rep()); BlockHandle dont_care_block_handle(1, 1); builder->AddIndexEntry(&key, nullptr, dont_care_block_handle); } void CutABlock(PartitionedIndexBuilder* builder, const std::string& user_key, const std::string& next_user_key) { // Assuming a block is cut, add an entry to the index std::string key = std::string(*InternalKey(user_key, 0, ValueType::kTypeValue).rep()); std::string next_key = std::string( *InternalKey(next_user_key, 0, ValueType::kTypeValue).rep()); BlockHandle dont_care_block_handle(1, 1); Slice slice = Slice(next_key.data(), next_key.size()); builder->AddIndexEntry(&key, &slice, dont_care_block_handle); } int CountNumOfIndexPartitions(PartitionedIndexBuilder* builder) { IndexBuilder::IndexBlocks dont_care_ib; BlockHandle dont_care_bh(10, 10); Status s; int cnt = 0; do { s = builder->Finish(&dont_care_ib, dont_care_bh); cnt++; } while (s.IsIncomplete()); return cnt - 1; // 1 is 2nd level index } }; INSTANTIATE_TEST_CASE_P(FormatDef, PartitionedFilterBlockTest, testing::Values(test::kDefaultFormatVersion)); INSTANTIATE_TEST_CASE_P(FormatLatest, PartitionedFilterBlockTest, testing::Values(test::kLatestFormatVersion)); TEST_P(PartitionedFilterBlockTest, EmptyBuilder) { std::unique_ptr pib(NewIndexBuilder()); std::unique_ptr builder(NewBuilder(pib.get())); const bool empty = true; VerifyReader(builder.get(), pib.get(), empty); } TEST_P(PartitionedFilterBlockTest, OneBlock) { uint64_t max_index_size = MaxIndexSize(); for (uint64_t i = 1; i < max_index_size + 1; i++) { table_options_.metadata_block_size = i; TestBlockPerAllKeys(); } } TEST_P(PartitionedFilterBlockTest, TwoBlocksPerKey) { uint64_t max_index_size = MaxIndexSize(); for (uint64_t i = 1; i < max_index_size + 1; i++) { table_options_.metadata_block_size = i; TestBlockPerTwoKeys(); } } // This reproduces the bug that a prefix is the same among multiple consecutive // blocks but the bug would add it only to the first block. TEST_P(PartitionedFilterBlockTest, SamePrefixInMultipleBlocks) { // some small number to cause partition cuts table_options_.metadata_block_size = 1; std::unique_ptr prefix_extractor (rocksdb::NewFixedPrefixTransform(1)); std::unique_ptr pib(NewIndexBuilder()); std::unique_ptr builder( NewBuilder(pib.get(), prefix_extractor.get())); const std::string pkeys[3] = {"p-key1", "p-key2", "p-key3"}; builder->Add(pkeys[0]); CutABlock(pib.get(), pkeys[0], pkeys[1]); builder->Add(pkeys[1]); CutABlock(pib.get(), pkeys[1], pkeys[2]); builder->Add(pkeys[2]); CutABlock(pib.get(), pkeys[2]); std::unique_ptr reader( NewReader(builder.get(), pib.get(), prefix_extractor.get())); for (auto key : pkeys) { auto ikey = InternalKey(key, 0, ValueType::kTypeValue); const Slice ikey_slice = Slice(*ikey.rep()); ASSERT_TRUE(reader->PrefixMayMatch(prefix_extractor->Transform(key), prefix_extractor.get(), kNotValid, false /*no_io*/, &ikey_slice)); } } TEST_P(PartitionedFilterBlockTest, OneBlockPerKey) { uint64_t max_index_size = MaxIndexSize(); for (uint64_t i = 1; i < max_index_size + 1; i++) { table_options_.metadata_block_size = i; TestBlockPerKey(); } } TEST_P(PartitionedFilterBlockTest, PartitionCount) { int num_keys = sizeof(keys) / sizeof(*keys); table_options_.metadata_block_size = std::max(MaxIndexSize(), MaxFilterSize()); int partitions = TestBlockPerKey(); ASSERT_EQ(partitions, 1); // A low number ensures cutting a block after each key table_options_.metadata_block_size = 1; partitions = TestBlockPerKey(); ASSERT_EQ(partitions, num_keys - 1 /* last two keys make one flush */); } } // namespace rocksdb int main(int argc, char** argv) { ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/table/persistent_cache_helper.cc000066400000000000000000000105751337235545400215400ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include "table/persistent_cache_helper.h" #include "table/block_based_table_reader.h" #include "table/format.h" namespace rocksdb { void PersistentCacheHelper::InsertRawPage( const PersistentCacheOptions& cache_options, const BlockHandle& handle, const char* data, const size_t size) { assert(cache_options.persistent_cache); assert(cache_options.persistent_cache->IsCompressed()); // construct the page key char cache_key[BlockBasedTable::kMaxCacheKeyPrefixSize + kMaxVarint64Length]; auto key = BlockBasedTable::GetCacheKey(cache_options.key_prefix.c_str(), cache_options.key_prefix.size(), handle, cache_key); // insert content to cache cache_options.persistent_cache->Insert(key, data, size); } void PersistentCacheHelper::InsertUncompressedPage( const PersistentCacheOptions& cache_options, const BlockHandle& handle, const BlockContents& contents) { assert(cache_options.persistent_cache); assert(!cache_options.persistent_cache->IsCompressed()); if (!contents.cachable || contents.compression_type != kNoCompression) { // We shouldn't cache this. Either // (1) content is not cacheable // (2) content is compressed return; } // construct the page key char cache_key[BlockBasedTable::kMaxCacheKeyPrefixSize + kMaxVarint64Length]; auto key = BlockBasedTable::GetCacheKey(cache_options.key_prefix.c_str(), cache_options.key_prefix.size(), handle, cache_key); // insert block contents to page cache cache_options.persistent_cache->Insert(key, contents.data.data(), contents.data.size()); } Status PersistentCacheHelper::LookupRawPage( const PersistentCacheOptions& cache_options, const BlockHandle& handle, std::unique_ptr* raw_data, const size_t raw_data_size) { #ifdef NDEBUG (void)raw_data_size; #endif assert(cache_options.persistent_cache); assert(cache_options.persistent_cache->IsCompressed()); // construct the page key char cache_key[BlockBasedTable::kMaxCacheKeyPrefixSize + kMaxVarint64Length]; auto key = BlockBasedTable::GetCacheKey(cache_options.key_prefix.c_str(), cache_options.key_prefix.size(), handle, cache_key); // Lookup page size_t size; Status s = cache_options.persistent_cache->Lookup(key, raw_data, &size); if (!s.ok()) { // cache miss RecordTick(cache_options.statistics, PERSISTENT_CACHE_MISS); return s; } // cache hit assert(raw_data_size == handle.size() + kBlockTrailerSize); assert(size == raw_data_size); RecordTick(cache_options.statistics, PERSISTENT_CACHE_HIT); return Status::OK(); } Status PersistentCacheHelper::LookupUncompressedPage( const PersistentCacheOptions& cache_options, const BlockHandle& handle, BlockContents* contents) { assert(cache_options.persistent_cache); assert(!cache_options.persistent_cache->IsCompressed()); if (!contents) { // We shouldn't lookup in the cache. Either // (1) Nowhere to store return Status::NotFound(); } // construct the page key char cache_key[BlockBasedTable::kMaxCacheKeyPrefixSize + kMaxVarint64Length]; auto key = BlockBasedTable::GetCacheKey(cache_options.key_prefix.c_str(), cache_options.key_prefix.size(), handle, cache_key); // Lookup page std::unique_ptr data; size_t size; Status s = cache_options.persistent_cache->Lookup(key, &data, &size); if (!s.ok()) { // cache miss RecordTick(cache_options.statistics, PERSISTENT_CACHE_MISS); return s; } // please note we are potentially comparing compressed data size with // uncompressed data size assert(handle.size() <= size); // update stats RecordTick(cache_options.statistics, PERSISTENT_CACHE_HIT); // construct result and return *contents = BlockContents(std::move(data), size, false /*cacheable*/, kNoCompression); return Status::OK(); } } // namespace rocksdb rocksdb-5.17.2/table/persistent_cache_helper.h000066400000000000000000000027771337235545400214070ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #include #include "monitoring/statistics.h" #include "table/format.h" #include "table/persistent_cache_options.h" namespace rocksdb { struct BlockContents; // PersistentCacheHelper // // Encapsulates some of the helper logic for read and writing from the cache class PersistentCacheHelper { public: // insert block into raw page cache static void InsertRawPage(const PersistentCacheOptions& cache_options, const BlockHandle& handle, const char* data, const size_t size); // insert block into uncompressed cache static void InsertUncompressedPage( const PersistentCacheOptions& cache_options, const BlockHandle& handle, const BlockContents& contents); // lookup block from raw page cacge static Status LookupRawPage(const PersistentCacheOptions& cache_options, const BlockHandle& handle, std::unique_ptr* raw_data, const size_t raw_data_size); // lookup block from uncompressed cache static Status LookupUncompressedPage( const PersistentCacheOptions& cache_options, const BlockHandle& handle, BlockContents* contents); }; } // namespace rocksdb rocksdb-5.17.2/table/persistent_cache_options.h000066400000000000000000000020541337235545400216070ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #include #include "monitoring/statistics.h" #include "rocksdb/persistent_cache.h" namespace rocksdb { // PersistentCacheOptions // // This describe the caching behavior for page cache // This is used to pass the context for caching and the cache handle struct PersistentCacheOptions { PersistentCacheOptions() {} explicit PersistentCacheOptions( const std::shared_ptr& _persistent_cache, const std::string _key_prefix, Statistics* const _statistics) : persistent_cache(_persistent_cache), key_prefix(_key_prefix), statistics(_statistics) {} virtual ~PersistentCacheOptions() {} std::shared_ptr persistent_cache; std::string key_prefix; Statistics* statistics = nullptr; }; } // namespace rocksdb rocksdb-5.17.2/table/plain_table_builder.cc000066400000000000000000000227071337235545400206360ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #ifndef ROCKSDB_LITE #include "table/plain_table_builder.h" #include #include #include #include #include "rocksdb/comparator.h" #include "rocksdb/env.h" #include "rocksdb/filter_policy.h" #include "rocksdb/options.h" #include "rocksdb/table.h" #include "table/plain_table_factory.h" #include "db/dbformat.h" #include "table/block_builder.h" #include "table/bloom_block.h" #include "table/plain_table_index.h" #include "table/format.h" #include "table/meta_blocks.h" #include "util/coding.h" #include "util/crc32c.h" #include "util/file_reader_writer.h" #include "util/stop_watch.h" namespace rocksdb { namespace { // a utility that helps writing block content to the file // @offset will advance if @block_contents was successfully written. // @block_handle the block handle this particular block. Status WriteBlock(const Slice& block_contents, WritableFileWriter* file, uint64_t* offset, BlockHandle* block_handle) { block_handle->set_offset(*offset); block_handle->set_size(block_contents.size()); Status s = file->Append(block_contents); if (s.ok()) { *offset += block_contents.size(); } return s; } } // namespace // kPlainTableMagicNumber was picked by running // echo rocksdb.table.plain | sha1sum // and taking the leading 64 bits. extern const uint64_t kPlainTableMagicNumber = 0x8242229663bf9564ull; extern const uint64_t kLegacyPlainTableMagicNumber = 0x4f3418eb7a8f13b8ull; PlainTableBuilder::PlainTableBuilder( const ImmutableCFOptions& ioptions, const MutableCFOptions& moptions, const std::vector>* int_tbl_prop_collector_factories, uint32_t column_family_id, WritableFileWriter* file, uint32_t user_key_len, EncodingType encoding_type, size_t index_sparseness, uint32_t bloom_bits_per_key, const std::string& column_family_name, uint32_t num_probes, size_t huge_page_tlb_size, double hash_table_ratio, bool store_index_in_file) : ioptions_(ioptions), moptions_(moptions), bloom_block_(num_probes), file_(file), bloom_bits_per_key_(bloom_bits_per_key), huge_page_tlb_size_(huge_page_tlb_size), encoder_(encoding_type, user_key_len, moptions.prefix_extractor.get(), index_sparseness), store_index_in_file_(store_index_in_file), prefix_extractor_(moptions.prefix_extractor.get()) { // Build index block and save it in the file if hash_table_ratio > 0 if (store_index_in_file_) { assert(hash_table_ratio > 0 || IsTotalOrderMode()); index_builder_.reset(new PlainTableIndexBuilder( &arena_, ioptions, moptions.prefix_extractor.get(), index_sparseness, hash_table_ratio, huge_page_tlb_size_)); properties_.user_collected_properties [PlainTablePropertyNames::kBloomVersion] = "1"; // For future use } properties_.fixed_key_len = user_key_len; // for plain table, we put all the data in a big chuck. properties_.num_data_blocks = 1; // Fill it later if store_index_in_file_ == true properties_.index_size = 0; properties_.filter_size = 0; // To support roll-back to previous version, now still use version 0 for // plain encoding. properties_.format_version = (encoding_type == kPlain) ? 0 : 1; properties_.column_family_id = column_family_id; properties_.column_family_name = column_family_name; properties_.prefix_extractor_name = moptions_.prefix_extractor != nullptr ? moptions_.prefix_extractor->Name() : "nullptr"; std::string val; PutFixed32(&val, static_cast(encoder_.GetEncodingType())); properties_.user_collected_properties [PlainTablePropertyNames::kEncodingType] = val; for (auto& collector_factories : *int_tbl_prop_collector_factories) { table_properties_collectors_.emplace_back( collector_factories->CreateIntTblPropCollector(column_family_id)); } } PlainTableBuilder::~PlainTableBuilder() { } void PlainTableBuilder::Add(const Slice& key, const Slice& value) { // temp buffer for metadata bytes between key and value. char meta_bytes_buf[6]; size_t meta_bytes_buf_size = 0; ParsedInternalKey internal_key; if (!ParseInternalKey(key, &internal_key)) { assert(false); return; } if (internal_key.type == kTypeRangeDeletion) { status_ = Status::NotSupported("Range deletion unsupported"); return; } // Store key hash if (store_index_in_file_) { if (moptions_.prefix_extractor == nullptr) { keys_or_prefixes_hashes_.push_back(GetSliceHash(internal_key.user_key)); } else { Slice prefix = moptions_.prefix_extractor->Transform(internal_key.user_key); keys_or_prefixes_hashes_.push_back(GetSliceHash(prefix)); } } // Write value assert(offset_ <= std::numeric_limits::max()); auto prev_offset = static_cast(offset_); // Write out the key encoder_.AppendKey(key, file_, &offset_, meta_bytes_buf, &meta_bytes_buf_size); if (SaveIndexInFile()) { index_builder_->AddKeyPrefix(GetPrefix(internal_key), prev_offset); } // Write value length uint32_t value_size = static_cast(value.size()); char* end_ptr = EncodeVarint32(meta_bytes_buf + meta_bytes_buf_size, value_size); assert(end_ptr <= meta_bytes_buf + sizeof(meta_bytes_buf)); meta_bytes_buf_size = end_ptr - meta_bytes_buf; file_->Append(Slice(meta_bytes_buf, meta_bytes_buf_size)); // Write value file_->Append(value); offset_ += value_size + meta_bytes_buf_size; properties_.num_entries++; properties_.raw_key_size += key.size(); properties_.raw_value_size += value.size(); // notify property collectors NotifyCollectTableCollectorsOnAdd( key, value, offset_, table_properties_collectors_, ioptions_.info_log); } Status PlainTableBuilder::status() const { return status_; } Status PlainTableBuilder::Finish() { assert(!closed_); closed_ = true; properties_.data_size = offset_; // Write the following blocks // 1. [meta block: bloom] - optional // 2. [meta block: index] - optional // 3. [meta block: properties] // 4. [metaindex block] // 5. [footer] MetaIndexBuilder meta_index_builer; if (store_index_in_file_ && (properties_.num_entries > 0)) { assert(properties_.num_entries <= std::numeric_limits::max()); Status s; BlockHandle bloom_block_handle; if (bloom_bits_per_key_ > 0) { bloom_block_.SetTotalBits( &arena_, static_cast(properties_.num_entries) * bloom_bits_per_key_, ioptions_.bloom_locality, huge_page_tlb_size_, ioptions_.info_log); PutVarint32(&properties_.user_collected_properties [PlainTablePropertyNames::kNumBloomBlocks], bloom_block_.GetNumBlocks()); bloom_block_.AddKeysHashes(keys_or_prefixes_hashes_); Slice bloom_finish_result = bloom_block_.Finish(); properties_.filter_size = bloom_finish_result.size(); s = WriteBlock(bloom_finish_result, file_, &offset_, &bloom_block_handle); if (!s.ok()) { return s; } meta_index_builer.Add(BloomBlockBuilder::kBloomBlock, bloom_block_handle); } BlockHandle index_block_handle; Slice index_finish_result = index_builder_->Finish(); properties_.index_size = index_finish_result.size(); s = WriteBlock(index_finish_result, file_, &offset_, &index_block_handle); if (!s.ok()) { return s; } meta_index_builer.Add(PlainTableIndexBuilder::kPlainTableIndexBlock, index_block_handle); } // Calculate bloom block size and index block size PropertyBlockBuilder property_block_builder; // -- Add basic properties property_block_builder.AddTableProperty(properties_); property_block_builder.Add(properties_.user_collected_properties); // -- Add user collected properties NotifyCollectTableCollectorsOnFinish(table_properties_collectors_, ioptions_.info_log, &property_block_builder); // -- Write property block BlockHandle property_block_handle; auto s = WriteBlock( property_block_builder.Finish(), file_, &offset_, &property_block_handle ); if (!s.ok()) { return s; } meta_index_builer.Add(kPropertiesBlock, property_block_handle); // -- write metaindex block BlockHandle metaindex_block_handle; s = WriteBlock( meta_index_builer.Finish(), file_, &offset_, &metaindex_block_handle ); if (!s.ok()) { return s; } // Write Footer // no need to write out new footer if we're using default checksum Footer footer(kLegacyPlainTableMagicNumber, 0); footer.set_metaindex_handle(metaindex_block_handle); footer.set_index_handle(BlockHandle::NullBlockHandle()); std::string footer_encoding; footer.EncodeTo(&footer_encoding); s = file_->Append(footer_encoding); if (s.ok()) { offset_ += footer_encoding.size(); } return s; } void PlainTableBuilder::Abandon() { closed_ = true; } uint64_t PlainTableBuilder::NumEntries() const { return properties_.num_entries; } uint64_t PlainTableBuilder::FileSize() const { return offset_; } } // namespace rocksdb #endif // ROCKSDB_LITE rocksdb-5.17.2/table/plain_table_builder.h000066400000000000000000000112121337235545400204650ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #ifndef ROCKSDB_LITE #include #include #include #include "rocksdb/options.h" #include "rocksdb/status.h" #include "rocksdb/table.h" #include "rocksdb/table_properties.h" #include "table/bloom_block.h" #include "table/plain_table_index.h" #include "table/plain_table_key_coding.h" #include "table/table_builder.h" namespace rocksdb { class BlockBuilder; class BlockHandle; class WritableFile; class TableBuilder; class PlainTableBuilder: public TableBuilder { public: // Create a builder that will store the contents of the table it is // building in *file. Does not close the file. It is up to the // caller to close the file after calling Finish(). The output file // will be part of level specified by 'level'. A value of -1 means // that the caller does not know which level the output file will reside. PlainTableBuilder( const ImmutableCFOptions& ioptions, const MutableCFOptions& moptions, const std::vector>* int_tbl_prop_collector_factories, uint32_t column_family_id, WritableFileWriter* file, uint32_t user_key_size, EncodingType encoding_type, size_t index_sparseness, uint32_t bloom_bits_per_key, const std::string& column_family_name, uint32_t num_probes = 6, size_t huge_page_tlb_size = 0, double hash_table_ratio = 0, bool store_index_in_file = false); // REQUIRES: Either Finish() or Abandon() has been called. ~PlainTableBuilder(); // Add key,value to the table being constructed. // REQUIRES: key is after any previously added key according to comparator. // REQUIRES: Finish(), Abandon() have not been called void Add(const Slice& key, const Slice& value) override; // Return non-ok iff some error has been detected. Status status() const override; // Finish building the table. Stops using the file passed to the // constructor after this function returns. // REQUIRES: Finish(), Abandon() have not been called Status Finish() override; // Indicate that the contents of this builder should be abandoned. Stops // using the file passed to the constructor after this function returns. // If the caller is not going to call Finish(), it must call Abandon() // before destroying this builder. // REQUIRES: Finish(), Abandon() have not been called void Abandon() override; // Number of calls to Add() so far. uint64_t NumEntries() const override; // Size of the file generated so far. If invoked after a successful // Finish() call, returns the size of the final generated file. uint64_t FileSize() const override; TableProperties GetTableProperties() const override { return properties_; } bool SaveIndexInFile() const { return store_index_in_file_; } private: Arena arena_; const ImmutableCFOptions& ioptions_; const MutableCFOptions& moptions_; std::vector> table_properties_collectors_; BloomBlockBuilder bloom_block_; std::unique_ptr index_builder_; WritableFileWriter* file_; uint64_t offset_ = 0; uint32_t bloom_bits_per_key_; size_t huge_page_tlb_size_; Status status_; TableProperties properties_; PlainTableKeyEncoder encoder_; bool store_index_in_file_; std::vector keys_or_prefixes_hashes_; bool closed_ = false; // Either Finish() or Abandon() has been called. const SliceTransform* prefix_extractor_; Slice GetPrefix(const Slice& target) const { assert(target.size() >= 8); // target is internal key return GetPrefixFromUserKey(GetUserKey(target)); } Slice GetPrefix(const ParsedInternalKey& target) const { return GetPrefixFromUserKey(target.user_key); } Slice GetUserKey(const Slice& key) const { return Slice(key.data(), key.size() - 8); } Slice GetPrefixFromUserKey(const Slice& user_key) const { if (!IsTotalOrderMode()) { return prefix_extractor_->Transform(user_key); } else { // Use empty slice as prefix if prefix_extractor is not set. // In that case, // it falls back to pure binary search and // total iterator seek is supported. return Slice(); } } bool IsTotalOrderMode() const { return (prefix_extractor_ == nullptr); } // No copying allowed PlainTableBuilder(const PlainTableBuilder&) = delete; void operator=(const PlainTableBuilder&) = delete; }; } // namespace rocksdb #endif // ROCKSDB_LITE rocksdb-5.17.2/table/plain_table_factory.cc000066400000000000000000000216201337235545400206500ustar00rootroot00000000000000// Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #ifndef ROCKSDB_LITE #include "table/plain_table_factory.h" #include #include #include "db/dbformat.h" #include "options/options_helper.h" #include "port/port.h" #include "rocksdb/convenience.h" #include "table/plain_table_builder.h" #include "table/plain_table_reader.h" #include "util/string_util.h" namespace rocksdb { Status PlainTableFactory::NewTableReader( const TableReaderOptions& table_reader_options, unique_ptr&& file, uint64_t file_size, unique_ptr* table, bool /*prefetch_index_and_filter_in_cache*/) const { return PlainTableReader::Open( table_reader_options.ioptions, table_reader_options.env_options, table_reader_options.internal_comparator, std::move(file), file_size, table, table_options_.bloom_bits_per_key, table_options_.hash_table_ratio, table_options_.index_sparseness, table_options_.huge_page_tlb_size, table_options_.full_scan_mode, table_reader_options.prefix_extractor); } TableBuilder* PlainTableFactory::NewTableBuilder( const TableBuilderOptions& table_builder_options, uint32_t column_family_id, WritableFileWriter* file) const { // Ignore the skip_filters flag. PlainTable format is optimized for small // in-memory dbs. The skip_filters optimization is not useful for plain // tables // return new PlainTableBuilder( table_builder_options.ioptions, table_builder_options.moptions, table_builder_options.int_tbl_prop_collector_factories, column_family_id, file, table_options_.user_key_len, table_options_.encoding_type, table_options_.index_sparseness, table_options_.bloom_bits_per_key, table_builder_options.column_family_name, 6, table_options_.huge_page_tlb_size, table_options_.hash_table_ratio, table_options_.store_index_in_file); } std::string PlainTableFactory::GetPrintableTableOptions() const { std::string ret; ret.reserve(20000); const int kBufferSize = 200; char buffer[kBufferSize]; snprintf(buffer, kBufferSize, " user_key_len: %u\n", table_options_.user_key_len); ret.append(buffer); snprintf(buffer, kBufferSize, " bloom_bits_per_key: %d\n", table_options_.bloom_bits_per_key); ret.append(buffer); snprintf(buffer, kBufferSize, " hash_table_ratio: %lf\n", table_options_.hash_table_ratio); ret.append(buffer); snprintf(buffer, kBufferSize, " index_sparseness: %" ROCKSDB_PRIszt "\n", table_options_.index_sparseness); ret.append(buffer); snprintf(buffer, kBufferSize, " huge_page_tlb_size: %" ROCKSDB_PRIszt "\n", table_options_.huge_page_tlb_size); ret.append(buffer); snprintf(buffer, kBufferSize, " encoding_type: %d\n", table_options_.encoding_type); ret.append(buffer); snprintf(buffer, kBufferSize, " full_scan_mode: %d\n", table_options_.full_scan_mode); ret.append(buffer); snprintf(buffer, kBufferSize, " store_index_in_file: %d\n", table_options_.store_index_in_file); ret.append(buffer); return ret; } const PlainTableOptions& PlainTableFactory::table_options() const { return table_options_; } Status GetPlainTableOptionsFromString(const PlainTableOptions& table_options, const std::string& opts_str, PlainTableOptions* new_table_options) { std::unordered_map opts_map; Status s = StringToMap(opts_str, &opts_map); if (!s.ok()) { return s; } return GetPlainTableOptionsFromMap(table_options, opts_map, new_table_options); } Status GetMemTableRepFactoryFromString( const std::string& opts_str, std::unique_ptr* new_mem_factory) { std::vector opts_list = StringSplit(opts_str, ':'); size_t len = opts_list.size(); if (opts_list.empty() || opts_list.size() > 2) { return Status::InvalidArgument("Can't parse memtable_factory option ", opts_str); } MemTableRepFactory* mem_factory = nullptr; if (opts_list[0] == "skip_list") { // Expecting format // skip_list: if (2 == len) { size_t lookahead = ParseSizeT(opts_list[1]); mem_factory = new SkipListFactory(lookahead); } else if (1 == len) { mem_factory = new SkipListFactory(); } } else if (opts_list[0] == "prefix_hash") { // Expecting format // prfix_hash: if (2 == len) { size_t hash_bucket_count = ParseSizeT(opts_list[1]); mem_factory = NewHashSkipListRepFactory(hash_bucket_count); } else if (1 == len) { mem_factory = NewHashSkipListRepFactory(); } } else if (opts_list[0] == "hash_linkedlist") { // Expecting format // hash_linkedlist: if (2 == len) { size_t hash_bucket_count = ParseSizeT(opts_list[1]); mem_factory = NewHashLinkListRepFactory(hash_bucket_count); } else if (1 == len) { mem_factory = NewHashLinkListRepFactory(); } } else if (opts_list[0] == "vector") { // Expecting format // vector: if (2 == len) { size_t count = ParseSizeT(opts_list[1]); mem_factory = new VectorRepFactory(count); } else if (1 == len) { mem_factory = new VectorRepFactory(); } } else if (opts_list[0] == "cuckoo") { // Expecting format // cuckoo: if (2 == len) { size_t write_buffer_size = ParseSizeT(opts_list[1]); mem_factory = NewHashCuckooRepFactory(write_buffer_size); } else if (1 == len) { return Status::InvalidArgument("Can't parse memtable_factory option ", opts_str); } } else { return Status::InvalidArgument("Unrecognized memtable_factory option ", opts_str); } if (mem_factory != nullptr) { new_mem_factory->reset(mem_factory); } return Status::OK(); } std::string ParsePlainTableOptions(const std::string& name, const std::string& org_value, PlainTableOptions* new_options, bool input_strings_escaped = false, bool ignore_unknown_options = false) { const std::string& value = input_strings_escaped ? UnescapeOptionString(org_value) : org_value; const auto iter = plain_table_type_info.find(name); if (iter == plain_table_type_info.end()) { if (ignore_unknown_options) { return ""; } else { return "Unrecognized option"; } } const auto& opt_info = iter->second; if (opt_info.verification != OptionVerificationType::kDeprecated && !ParseOptionHelper(reinterpret_cast(new_options) + opt_info.offset, opt_info.type, value)) { return "Invalid value"; } return ""; } Status GetPlainTableOptionsFromMap( const PlainTableOptions& table_options, const std::unordered_map& opts_map, PlainTableOptions* new_table_options, bool input_strings_escaped, bool /*ignore_unknown_options*/) { assert(new_table_options); *new_table_options = table_options; for (const auto& o : opts_map) { auto error_message = ParsePlainTableOptions( o.first, o.second, new_table_options, input_strings_escaped); if (error_message != "") { const auto iter = plain_table_type_info.find(o.first); if (iter == plain_table_type_info.end() || !input_strings_escaped || // !input_strings_escaped indicates // the old API, where everything is // parsable. (iter->second.verification != OptionVerificationType::kByName && iter->second.verification != OptionVerificationType::kByNameAllowNull && iter->second.verification != OptionVerificationType::kByNameAllowFromNull && iter->second.verification != OptionVerificationType::kDeprecated)) { // Restore "new_options" to the default "base_options". *new_table_options = table_options; return Status::InvalidArgument("Can't parse PlainTableOptions:", o.first + " " + error_message); } } } return Status::OK(); } extern TableFactory* NewPlainTableFactory(const PlainTableOptions& options) { return new PlainTableFactory(options); } const std::string PlainTablePropertyNames::kEncodingType = "rocksdb.plain.table.encoding.type"; const std::string PlainTablePropertyNames::kBloomVersion = "rocksdb.plain.table.bloom.version"; const std::string PlainTablePropertyNames::kNumBloomBlocks = "rocksdb.plain.table.bloom.numblocks"; } // namespace rocksdb #endif // ROCKSDB_LITE rocksdb-5.17.2/table/plain_table_factory.h000066400000000000000000000206501337235545400205140ustar00rootroot00000000000000// Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #ifndef ROCKSDB_LITE #include #include #include #include "options/options_helper.h" #include "rocksdb/options.h" #include "rocksdb/table.h" namespace rocksdb { struct EnvOptions; using std::unique_ptr; class Status; class RandomAccessFile; class WritableFile; class Table; class TableBuilder; // IndexedTable requires fixed length key, configured as a constructor // parameter of the factory class. Output file format: // +-------------+-----------------+ // | version | user_key_length | // +------------++------------+-----------------+ <= key1 offset // | encoded key1 | value_size | | // +------------+-------------+-------------+ | // | value1 | // | | // +--------------------------+-------------+---+ <= key2 offset // | encoded key2 | value_size | | // +------------+-------------+-------------+ | // | value2 | // | | // | ...... | // +-----------------+--------------------------+ // // When the key encoding type is kPlain. Key part is encoded as: // +------------+--------------------+ // | [key_size] | internal key | // +------------+--------------------+ // for the case of user_key_len = kPlainTableVariableLength case, // and simply: // +----------------------+ // | internal key | // +----------------------+ // for user_key_len != kPlainTableVariableLength case. // // If key encoding type is kPrefix. Keys are encoding in this format. // There are three ways to encode a key: // (1) Full Key // +---------------+---------------+-------------------+ // | Full Key Flag | Full Key Size | Full Internal Key | // +---------------+---------------+-------------------+ // which simply encodes a full key // // (2) A key shared the same prefix as the previous key, which is encoded as // format of (1). // +-------------+-------------+-------------+-------------+------------+ // | Prefix Flag | Prefix Size | Suffix Flag | Suffix Size | Key Suffix | // +-------------+-------------+-------------+-------------+------------+ // where key is the suffix part of the key, including the internal bytes. // the actual key will be constructed by concatenating prefix part of the // previous key, with the suffix part of the key here, with sizes given here. // // (3) A key shared the same prefix as the previous key, which is encoded as // the format of (2). // +-----------------+-----------------+------------------------+ // | Key Suffix Flag | Key Suffix Size | Suffix of Internal Key | // +-----------------+-----------------+------------------------+ // The key will be constructed by concatenating previous key's prefix (which is // also a prefix which the last key encoded in the format of (1)) and the // key given here. // // For example, we for following keys (prefix and suffix are separated by // spaces): // 0000 0001 // 0000 00021 // 0000 0002 // 00011 00 // 0002 0001 // Will be encoded like this: // FK 8 00000001 // PF 4 SF 5 00021 // SF 4 0002 // FK 7 0001100 // FK 8 00020001 // (where FK means full key flag, PF means prefix flag and SF means suffix flag) // // All those "key flag + key size" shown above are in this format: // The 8 bits of the first byte: // +----+----+----+----+----+----+----+----+ // | Type | Size | // +----+----+----+----+----+----+----+----+ // Type indicates: full key, prefix, or suffix. // The last 6 bits are for size. If the size bits are not all 1, it means the // size of the key. Otherwise, varint32 is read after this byte. This varint // value + 0x3F (the value of all 1) will be the key size. // // For example, full key with length 16 will be encoded as (binary): // 00 010000 // (00 means full key) // and a prefix with 100 bytes will be encoded as: // 01 111111 00100101 // (63) (37) // (01 means key suffix) // // All the internal keys above (including kPlain and kPrefix) are encoded in // this format: // There are two types: // (1) normal internal key format // +----------- ...... -------------+----+---+---+---+---+---+---+---+ // | user key |type| sequence ID | // +----------- ..... --------------+----+---+---+---+---+---+---+---+ // (2) Special case for keys whose sequence ID is 0 and is value type // +----------- ...... -------------+----+ // | user key |0x80| // +----------- ..... --------------+----+ // To save 7 bytes for the special case where sequence ID = 0. // // class PlainTableFactory : public TableFactory { public: ~PlainTableFactory() {} // user_key_len is the length of the user key. If it is set to be // kPlainTableVariableLength, then it means variable length. Otherwise, all // the keys need to have the fix length of this value. bloom_bits_per_key is // number of bits used for bloom filer per key. hash_table_ratio is // the desired utilization of the hash table used for prefix hashing. // hash_table_ratio = number of prefixes / #buckets in the hash table // hash_table_ratio = 0 means skip hash table but only replying on binary // search. // index_sparseness determines index interval for keys // inside the same prefix. It will be the maximum number of linear search // required after hash and binary search. // index_sparseness = 0 means index for every key. // huge_page_tlb_size determines whether to allocate hash indexes from huge // page TLB and the page size if allocating from there. See comments of // Arena::AllocateAligned() for details. explicit PlainTableFactory( const PlainTableOptions& _table_options = PlainTableOptions()) : table_options_(_table_options) {} const char* Name() const override { return "PlainTable"; } Status NewTableReader(const TableReaderOptions& table_reader_options, unique_ptr&& file, uint64_t file_size, unique_ptr* table, bool prefetch_index_and_filter_in_cache) const override; TableBuilder* NewTableBuilder( const TableBuilderOptions& table_builder_options, uint32_t column_family_id, WritableFileWriter* file) const override; std::string GetPrintableTableOptions() const override; const PlainTableOptions& table_options() const; static const char kValueTypeSeqId0 = char(~0); // Sanitizes the specified DB Options. Status SanitizeOptions( const DBOptions& /*db_opts*/, const ColumnFamilyOptions& /*cf_opts*/) const override { return Status::OK(); } void* GetOptions() override { return &table_options_; } Status GetOptionString(std::string* /*opt_string*/, const std::string& /*delimiter*/) const override { return Status::OK(); } private: PlainTableOptions table_options_; }; static std::unordered_map plain_table_type_info = { {"user_key_len", {offsetof(struct PlainTableOptions, user_key_len), OptionType::kUInt32T, OptionVerificationType::kNormal, false, 0}}, {"bloom_bits_per_key", {offsetof(struct PlainTableOptions, bloom_bits_per_key), OptionType::kInt, OptionVerificationType::kNormal, false, 0}}, {"hash_table_ratio", {offsetof(struct PlainTableOptions, hash_table_ratio), OptionType::kDouble, OptionVerificationType::kNormal, false, 0}}, {"index_sparseness", {offsetof(struct PlainTableOptions, index_sparseness), OptionType::kSizeT, OptionVerificationType::kNormal, false, 0}}, {"huge_page_tlb_size", {offsetof(struct PlainTableOptions, huge_page_tlb_size), OptionType::kSizeT, OptionVerificationType::kNormal, false, 0}}, {"encoding_type", {offsetof(struct PlainTableOptions, encoding_type), OptionType::kEncodingType, OptionVerificationType::kByName, false, 0}}, {"full_scan_mode", {offsetof(struct PlainTableOptions, full_scan_mode), OptionType::kBoolean, OptionVerificationType::kNormal, false, 0}}, {"store_index_in_file", {offsetof(struct PlainTableOptions, store_index_in_file), OptionType::kBoolean, OptionVerificationType::kNormal, false, 0}}}; } // namespace rocksdb #endif // ROCKSDB_LITE rocksdb-5.17.2/table/plain_table_index.cc000066400000000000000000000165171337235545400203210ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #ifndef ROCKSDB_LITE #ifndef __STDC_FORMAT_MACROS #define __STDC_FORMAT_MACROS #endif #include #include "table/plain_table_index.h" #include "util/coding.h" #include "util/hash.h" namespace rocksdb { namespace { inline uint32_t GetBucketIdFromHash(uint32_t hash, uint32_t num_buckets) { assert(num_buckets > 0); return hash % num_buckets; } } Status PlainTableIndex::InitFromRawData(Slice data) { if (!GetVarint32(&data, &index_size_)) { return Status::Corruption("Couldn't read the index size!"); } assert(index_size_ > 0); if (!GetVarint32(&data, &num_prefixes_)) { return Status::Corruption("Couldn't read the index size!"); } sub_index_size_ = static_cast(data.size()) - index_size_ * kOffsetLen; char* index_data_begin = const_cast(data.data()); index_ = reinterpret_cast(index_data_begin); sub_index_ = reinterpret_cast(index_ + index_size_); return Status::OK(); } PlainTableIndex::IndexSearchResult PlainTableIndex::GetOffset( uint32_t prefix_hash, uint32_t* bucket_value) const { int bucket = GetBucketIdFromHash(prefix_hash, index_size_); GetUnaligned(index_ + bucket, bucket_value); if ((*bucket_value & kSubIndexMask) == kSubIndexMask) { *bucket_value ^= kSubIndexMask; return kSubindex; } if (*bucket_value >= kMaxFileSize) { return kNoPrefixForBucket; } else { // point directly to the file return kDirectToFile; } } void PlainTableIndexBuilder::IndexRecordList::AddRecord(uint32_t hash, uint32_t offset) { if (num_records_in_current_group_ == kNumRecordsPerGroup) { current_group_ = AllocateNewGroup(); num_records_in_current_group_ = 0; } auto& new_record = current_group_[num_records_in_current_group_++]; new_record.hash = hash; new_record.offset = offset; new_record.next = nullptr; } void PlainTableIndexBuilder::AddKeyPrefix(Slice key_prefix_slice, uint32_t key_offset) { if (is_first_record_ || prev_key_prefix_ != key_prefix_slice.ToString()) { ++num_prefixes_; if (!is_first_record_) { keys_per_prefix_hist_.Add(num_keys_per_prefix_); } num_keys_per_prefix_ = 0; prev_key_prefix_ = key_prefix_slice.ToString(); prev_key_prefix_hash_ = GetSliceHash(key_prefix_slice); due_index_ = true; } if (due_index_) { // Add an index key for every kIndexIntervalForSamePrefixKeys keys record_list_.AddRecord(prev_key_prefix_hash_, key_offset); due_index_ = false; } num_keys_per_prefix_++; if (index_sparseness_ == 0 || num_keys_per_prefix_ % index_sparseness_ == 0) { due_index_ = true; } is_first_record_ = false; } Slice PlainTableIndexBuilder::Finish() { AllocateIndex(); std::vector hash_to_offsets(index_size_, nullptr); std::vector entries_per_bucket(index_size_, 0); BucketizeIndexes(&hash_to_offsets, &entries_per_bucket); keys_per_prefix_hist_.Add(num_keys_per_prefix_); ROCKS_LOG_INFO(ioptions_.info_log, "Number of Keys per prefix Histogram: %s", keys_per_prefix_hist_.ToString().c_str()); // From the temp data structure, populate indexes. return FillIndexes(hash_to_offsets, entries_per_bucket); } void PlainTableIndexBuilder::AllocateIndex() { if (prefix_extractor_ == nullptr || hash_table_ratio_ <= 0) { // Fall back to pure binary search if the user fails to specify a prefix // extractor. index_size_ = 1; } else { double hash_table_size_multipier = 1.0 / hash_table_ratio_; index_size_ = static_cast(num_prefixes_ * hash_table_size_multipier) + 1; assert(index_size_ > 0); } } void PlainTableIndexBuilder::BucketizeIndexes( std::vector* hash_to_offsets, std::vector* entries_per_bucket) { bool first = true; uint32_t prev_hash = 0; size_t num_records = record_list_.GetNumRecords(); for (size_t i = 0; i < num_records; i++) { IndexRecord* index_record = record_list_.At(i); uint32_t cur_hash = index_record->hash; if (first || prev_hash != cur_hash) { prev_hash = cur_hash; first = false; } uint32_t bucket = GetBucketIdFromHash(cur_hash, index_size_); IndexRecord* prev_bucket_head = (*hash_to_offsets)[bucket]; index_record->next = prev_bucket_head; (*hash_to_offsets)[bucket] = index_record; (*entries_per_bucket)[bucket]++; } sub_index_size_ = 0; for (auto entry_count : *entries_per_bucket) { if (entry_count <= 1) { continue; } // Only buckets with more than 1 entry will have subindex. sub_index_size_ += VarintLength(entry_count); // total bytes needed to store these entries' in-file offsets. sub_index_size_ += entry_count * PlainTableIndex::kOffsetLen; } } Slice PlainTableIndexBuilder::FillIndexes( const std::vector& hash_to_offsets, const std::vector& entries_per_bucket) { ROCKS_LOG_DEBUG(ioptions_.info_log, "Reserving %" PRIu32 " bytes for plain table's sub_index", sub_index_size_); auto total_allocate_size = GetTotalSize(); char* allocated = arena_->AllocateAligned( total_allocate_size, huge_page_tlb_size_, ioptions_.info_log); auto temp_ptr = EncodeVarint32(allocated, index_size_); uint32_t* index = reinterpret_cast(EncodeVarint32(temp_ptr, num_prefixes_)); char* sub_index = reinterpret_cast(index + index_size_); uint32_t sub_index_offset = 0; for (uint32_t i = 0; i < index_size_; i++) { uint32_t num_keys_for_bucket = entries_per_bucket[i]; switch (num_keys_for_bucket) { case 0: // No key for bucket PutUnaligned(index + i, (uint32_t)PlainTableIndex::kMaxFileSize); break; case 1: // point directly to the file offset PutUnaligned(index + i, hash_to_offsets[i]->offset); break; default: // point to second level indexes. PutUnaligned(index + i, sub_index_offset | PlainTableIndex::kSubIndexMask); char* prev_ptr = &sub_index[sub_index_offset]; char* cur_ptr = EncodeVarint32(prev_ptr, num_keys_for_bucket); sub_index_offset += static_cast(cur_ptr - prev_ptr); char* sub_index_pos = &sub_index[sub_index_offset]; IndexRecord* record = hash_to_offsets[i]; int j; for (j = num_keys_for_bucket - 1; j >= 0 && record; j--, record = record->next) { EncodeFixed32(sub_index_pos + j * sizeof(uint32_t), record->offset); } assert(j == -1 && record == nullptr); sub_index_offset += PlainTableIndex::kOffsetLen * num_keys_for_bucket; assert(sub_index_offset <= sub_index_size_); break; } } assert(sub_index_offset == sub_index_size_); ROCKS_LOG_DEBUG(ioptions_.info_log, "hash table size: %d, suffix_map length %" ROCKSDB_PRIszt, index_size_, sub_index_size_); return Slice(allocated, GetTotalSize()); } const std::string PlainTableIndexBuilder::kPlainTableIndexBlock = "PlainTableIndexBlock"; }; // namespace rocksdb #endif // ROCKSDB_LITE rocksdb-5.17.2/table/plain_table_index.h000066400000000000000000000162601337235545400201560ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #ifndef ROCKSDB_LITE #include #include #include "db/dbformat.h" #include "monitoring/histogram.h" #include "options/cf_options.h" #include "rocksdb/options.h" #include "util/arena.h" #include "util/hash.h" #include "util/murmurhash.h" namespace rocksdb { // PlainTableIndex contains buckets size of index_size_, each is a // 32-bit integer. The lower 31 bits contain an offset value (explained below) // and the first bit of the integer indicates type of the offset. // // +--------------+------------------------------------------------------+ // | Flag (1 bit) | Offset to binary search buffer or file (31 bits) + // +--------------+------------------------------------------------------+ // // Explanation for the "flag bit": // // 0 indicates that the bucket contains only one prefix (no conflict when // hashing this prefix), whose first row starts from this offset of the // file. // 1 indicates that the bucket contains more than one prefixes, or there // are too many rows for one prefix so we need a binary search for it. In // this case, the offset indicates the offset of sub_index_ holding the // binary search indexes of keys for those rows. Those binary search indexes // are organized in this way: // // The first 4 bytes, indicate how many indexes (N) are stored after it. After // it, there are N 32-bit integers, each points of an offset of the file, // which // points to starting of a row. Those offsets need to be guaranteed to be in // ascending order so the keys they are pointing to are also in ascending // order // to make sure we can use them to do binary searches. Below is visual // presentation of a bucket. // // // number_of_records: varint32 // record 1 file offset: fixedint32 // record 2 file offset: fixedint32 // .... // record N file offset: fixedint32 // class PlainTableIndex { public: enum IndexSearchResult { kNoPrefixForBucket = 0, kDirectToFile = 1, kSubindex = 2 }; explicit PlainTableIndex(Slice data) { InitFromRawData(data); } PlainTableIndex() : index_size_(0), sub_index_size_(0), num_prefixes_(0), index_(nullptr), sub_index_(nullptr) {} IndexSearchResult GetOffset(uint32_t prefix_hash, uint32_t* bucket_value) const; Status InitFromRawData(Slice data); const char* GetSubIndexBasePtrAndUpperBound(uint32_t offset, uint32_t* upper_bound) const { const char* index_ptr = &sub_index_[offset]; return GetVarint32Ptr(index_ptr, index_ptr + 4, upper_bound); } uint32_t GetIndexSize() const { return index_size_; } uint32_t GetSubIndexSize() const { return sub_index_size_; } uint32_t GetNumPrefixes() const { return num_prefixes_; } static const uint64_t kMaxFileSize = (1u << 31) - 1; static const uint32_t kSubIndexMask = 0x80000000; static const size_t kOffsetLen = sizeof(uint32_t); private: uint32_t index_size_; uint32_t sub_index_size_; uint32_t num_prefixes_; uint32_t* index_; char* sub_index_; }; // PlainTableIndexBuilder is used to create plain table index. // After calling Finish(), it returns Slice, which is usually // used either to initialize PlainTableIndex or // to save index to sst file. // For more details about the index, please refer to: // https://github.com/facebook/rocksdb/wiki/PlainTable-Format // #wiki-in-memory-index-format class PlainTableIndexBuilder { public: PlainTableIndexBuilder(Arena* arena, const ImmutableCFOptions& ioptions, const SliceTransform* prefix_extractor, size_t index_sparseness, double hash_table_ratio, size_t huge_page_tlb_size) : arena_(arena), ioptions_(ioptions), record_list_(kRecordsPerGroup), is_first_record_(true), due_index_(false), num_prefixes_(0), num_keys_per_prefix_(0), prev_key_prefix_hash_(0), index_sparseness_(index_sparseness), index_size_(0), sub_index_size_(0), prefix_extractor_(prefix_extractor), hash_table_ratio_(hash_table_ratio), huge_page_tlb_size_(huge_page_tlb_size) {} void AddKeyPrefix(Slice key_prefix_slice, uint32_t key_offset); Slice Finish(); uint32_t GetTotalSize() const { return VarintLength(index_size_) + VarintLength(num_prefixes_) + PlainTableIndex::kOffsetLen * index_size_ + sub_index_size_; } static const std::string kPlainTableIndexBlock; private: struct IndexRecord { uint32_t hash; // hash of the prefix uint32_t offset; // offset of a row IndexRecord* next; }; // Helper class to track all the index records class IndexRecordList { public: explicit IndexRecordList(size_t num_records_per_group) : kNumRecordsPerGroup(num_records_per_group), current_group_(nullptr), num_records_in_current_group_(num_records_per_group) {} ~IndexRecordList() { for (size_t i = 0; i < groups_.size(); i++) { delete[] groups_[i]; } } void AddRecord(uint32_t hash, uint32_t offset); size_t GetNumRecords() const { return (groups_.size() - 1) * kNumRecordsPerGroup + num_records_in_current_group_; } IndexRecord* At(size_t index) { return &(groups_[index / kNumRecordsPerGroup] [index % kNumRecordsPerGroup]); } private: IndexRecord* AllocateNewGroup() { IndexRecord* result = new IndexRecord[kNumRecordsPerGroup]; groups_.push_back(result); return result; } // Each group in `groups_` contains fix-sized records (determined by // kNumRecordsPerGroup). Which can help us minimize the cost if resizing // occurs. const size_t kNumRecordsPerGroup; IndexRecord* current_group_; // List of arrays allocated std::vector groups_; size_t num_records_in_current_group_; }; void AllocateIndex(); // Internal helper function to bucket index record list to hash buckets. void BucketizeIndexes(std::vector* hash_to_offsets, std::vector* entries_per_bucket); // Internal helper class to fill the indexes and bloom filters to internal // data structures. Slice FillIndexes(const std::vector& hash_to_offsets, const std::vector& entries_per_bucket); Arena* arena_; const ImmutableCFOptions ioptions_; HistogramImpl keys_per_prefix_hist_; IndexRecordList record_list_; bool is_first_record_; bool due_index_; uint32_t num_prefixes_; uint32_t num_keys_per_prefix_; uint32_t prev_key_prefix_hash_; size_t index_sparseness_; uint32_t index_size_; uint32_t sub_index_size_; const SliceTransform* prefix_extractor_; double hash_table_ratio_; size_t huge_page_tlb_size_; std::string prev_key_prefix_; static const size_t kRecordsPerGroup = 256; }; }; // namespace rocksdb #endif // ROCKSDB_LITE rocksdb-5.17.2/table/plain_table_key_coding.cc000066400000000000000000000425671337235545400213310ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #ifndef ROCKSDB_LITE #include "table/plain_table_key_coding.h" #include #include #include "db/dbformat.h" #include "table/plain_table_reader.h" #include "table/plain_table_factory.h" #include "util/file_reader_writer.h" namespace rocksdb { enum PlainTableEntryType : unsigned char { kFullKey = 0, kPrefixFromPreviousKey = 1, kKeySuffix = 2, }; namespace { // Control byte: // First two bits indicate type of entry // Other bytes are inlined sizes. If all bits are 1 (0x03F), overflow bytes // are used. key_size-0x3F will be encoded as a variint32 after this bytes. const unsigned char kSizeInlineLimit = 0x3F; // Return 0 for error size_t EncodeSize(PlainTableEntryType type, uint32_t key_size, char* out_buffer) { out_buffer[0] = type << 6; if (key_size < static_cast(kSizeInlineLimit)) { // size inlined out_buffer[0] |= static_cast(key_size); return 1; } else { out_buffer[0] |= kSizeInlineLimit; char* ptr = EncodeVarint32(out_buffer + 1, key_size - kSizeInlineLimit); return ptr - out_buffer; } } } // namespace // Fill bytes_read with number of bytes read. inline Status PlainTableKeyDecoder::DecodeSize(uint32_t start_offset, PlainTableEntryType* entry_type, uint32_t* key_size, uint32_t* bytes_read) { Slice next_byte_slice; bool success = file_reader_.Read(start_offset, 1, &next_byte_slice); if (!success) { return file_reader_.status(); } *entry_type = static_cast( (static_cast(next_byte_slice[0]) & ~kSizeInlineLimit) >> 6); char inline_key_size = next_byte_slice[0] & kSizeInlineLimit; if (inline_key_size < kSizeInlineLimit) { *key_size = inline_key_size; *bytes_read = 1; return Status::OK(); } else { uint32_t extra_size; uint32_t tmp_bytes_read; success = file_reader_.ReadVarint32(start_offset + 1, &extra_size, &tmp_bytes_read); if (!success) { return file_reader_.status(); } assert(tmp_bytes_read > 0); *key_size = kSizeInlineLimit + extra_size; *bytes_read = tmp_bytes_read + 1; return Status::OK(); } } Status PlainTableKeyEncoder::AppendKey(const Slice& key, WritableFileWriter* file, uint64_t* offset, char* meta_bytes_buf, size_t* meta_bytes_buf_size) { ParsedInternalKey parsed_key; if (!ParseInternalKey(key, &parsed_key)) { return Status::Corruption(Slice()); } Slice key_to_write = key; // Portion of internal key to write out. uint32_t user_key_size = static_cast(key.size() - 8); if (encoding_type_ == kPlain) { if (fixed_user_key_len_ == kPlainTableVariableLength) { // Write key length char key_size_buf[5]; // tmp buffer for key size as varint32 char* ptr = EncodeVarint32(key_size_buf, user_key_size); assert(ptr <= key_size_buf + sizeof(key_size_buf)); auto len = ptr - key_size_buf; Status s = file->Append(Slice(key_size_buf, len)); if (!s.ok()) { return s; } *offset += len; } } else { assert(encoding_type_ == kPrefix); char size_bytes[12]; size_t size_bytes_pos = 0; Slice prefix = prefix_extractor_->Transform(Slice(key.data(), user_key_size)); if (key_count_for_prefix_ == 0 || prefix != pre_prefix_.GetUserKey() || key_count_for_prefix_ % index_sparseness_ == 0) { key_count_for_prefix_ = 1; pre_prefix_.SetUserKey(prefix); size_bytes_pos += EncodeSize(kFullKey, user_key_size, size_bytes); Status s = file->Append(Slice(size_bytes, size_bytes_pos)); if (!s.ok()) { return s; } *offset += size_bytes_pos; } else { key_count_for_prefix_++; if (key_count_for_prefix_ == 2) { // For second key within a prefix, need to encode prefix length size_bytes_pos += EncodeSize(kPrefixFromPreviousKey, static_cast(pre_prefix_.GetUserKey().size()), size_bytes + size_bytes_pos); } uint32_t prefix_len = static_cast(pre_prefix_.GetUserKey().size()); size_bytes_pos += EncodeSize(kKeySuffix, user_key_size - prefix_len, size_bytes + size_bytes_pos); Status s = file->Append(Slice(size_bytes, size_bytes_pos)); if (!s.ok()) { return s; } *offset += size_bytes_pos; key_to_write = Slice(key.data() + prefix_len, key.size() - prefix_len); } } // Encode full key // For value size as varint32 (up to 5 bytes). // If the row is of value type with seqId 0, flush the special flag together // in this buffer to safe one file append call, which takes 1 byte. if (parsed_key.sequence == 0 && parsed_key.type == kTypeValue) { Status s = file->Append(Slice(key_to_write.data(), key_to_write.size() - 8)); if (!s.ok()) { return s; } *offset += key_to_write.size() - 8; meta_bytes_buf[*meta_bytes_buf_size] = PlainTableFactory::kValueTypeSeqId0; *meta_bytes_buf_size += 1; } else { file->Append(key_to_write); *offset += key_to_write.size(); } return Status::OK(); } Slice PlainTableFileReader::GetFromBuffer(Buffer* buffer, uint32_t file_offset, uint32_t len) { assert(file_offset + len <= file_info_->data_end_offset); return Slice(buffer->buf.get() + (file_offset - buffer->buf_start_offset), len); } bool PlainTableFileReader::ReadNonMmap(uint32_t file_offset, uint32_t len, Slice* out) { const uint32_t kPrefetchSize = 256u; // Try to read from buffers. for (uint32_t i = 0; i < num_buf_; i++) { Buffer* buffer = buffers_[num_buf_ - 1 - i].get(); if (file_offset >= buffer->buf_start_offset && file_offset + len <= buffer->buf_start_offset + buffer->buf_len) { *out = GetFromBuffer(buffer, file_offset, len); return true; } } Buffer* new_buffer; // Data needed is not in any of the buffer. Allocate a new buffer. if (num_buf_ < buffers_.size()) { // Add a new buffer new_buffer = new Buffer(); buffers_[num_buf_++].reset(new_buffer); } else { // Now simply replace the last buffer. Can improve the placement policy // if needed. new_buffer = buffers_[num_buf_ - 1].get(); } assert(file_offset + len <= file_info_->data_end_offset); uint32_t size_to_read = std::min(file_info_->data_end_offset - file_offset, std::max(kPrefetchSize, len)); if (size_to_read > new_buffer->buf_capacity) { new_buffer->buf.reset(new char[size_to_read]); new_buffer->buf_capacity = size_to_read; new_buffer->buf_len = 0; } Slice read_result; Status s = file_info_->file->Read(file_offset, size_to_read, &read_result, new_buffer->buf.get()); if (!s.ok()) { status_ = s; return false; } new_buffer->buf_start_offset = file_offset; new_buffer->buf_len = size_to_read; *out = GetFromBuffer(new_buffer, file_offset, len); return true; } inline bool PlainTableFileReader::ReadVarint32(uint32_t offset, uint32_t* out, uint32_t* bytes_read) { if (file_info_->is_mmap_mode) { const char* start = file_info_->file_data.data() + offset; const char* limit = file_info_->file_data.data() + file_info_->data_end_offset; const char* key_ptr = GetVarint32Ptr(start, limit, out); assert(key_ptr != nullptr); *bytes_read = static_cast(key_ptr - start); return true; } else { return ReadVarint32NonMmap(offset, out, bytes_read); } } bool PlainTableFileReader::ReadVarint32NonMmap(uint32_t offset, uint32_t* out, uint32_t* bytes_read) { const char* start; const char* limit; const uint32_t kMaxVarInt32Size = 6u; uint32_t bytes_to_read = std::min(file_info_->data_end_offset - offset, kMaxVarInt32Size); Slice bytes; if (!Read(offset, bytes_to_read, &bytes)) { return false; } start = bytes.data(); limit = bytes.data() + bytes.size(); const char* key_ptr = GetVarint32Ptr(start, limit, out); *bytes_read = (key_ptr != nullptr) ? static_cast(key_ptr - start) : 0; return true; } Status PlainTableKeyDecoder::ReadInternalKey( uint32_t file_offset, uint32_t user_key_size, ParsedInternalKey* parsed_key, uint32_t* bytes_read, bool* internal_key_valid, Slice* internal_key) { Slice tmp_slice; bool success = file_reader_.Read(file_offset, user_key_size + 1, &tmp_slice); if (!success) { return file_reader_.status(); } if (tmp_slice[user_key_size] == PlainTableFactory::kValueTypeSeqId0) { // Special encoding for the row with seqID=0 parsed_key->user_key = Slice(tmp_slice.data(), user_key_size); parsed_key->sequence = 0; parsed_key->type = kTypeValue; *bytes_read += user_key_size + 1; *internal_key_valid = false; } else { success = file_reader_.Read(file_offset, user_key_size + 8, internal_key); if (!success) { return file_reader_.status(); } *internal_key_valid = true; if (!ParseInternalKey(*internal_key, parsed_key)) { return Status::Corruption( Slice("Incorrect value type found when reading the next key")); } *bytes_read += user_key_size + 8; } return Status::OK(); } Status PlainTableKeyDecoder::NextPlainEncodingKey(uint32_t start_offset, ParsedInternalKey* parsed_key, Slice* internal_key, uint32_t* bytes_read, bool* /*seekable*/) { uint32_t user_key_size = 0; Status s; if (fixed_user_key_len_ != kPlainTableVariableLength) { user_key_size = fixed_user_key_len_; } else { uint32_t tmp_size = 0; uint32_t tmp_read; bool success = file_reader_.ReadVarint32(start_offset, &tmp_size, &tmp_read); if (!success) { return file_reader_.status(); } assert(tmp_read > 0); user_key_size = tmp_size; *bytes_read = tmp_read; } // dummy initial value to avoid compiler complain bool decoded_internal_key_valid = true; Slice decoded_internal_key; s = ReadInternalKey(start_offset + *bytes_read, user_key_size, parsed_key, bytes_read, &decoded_internal_key_valid, &decoded_internal_key); if (!s.ok()) { return s; } if (!file_reader_.file_info()->is_mmap_mode) { cur_key_.SetInternalKey(*parsed_key); parsed_key->user_key = Slice(cur_key_.GetInternalKey().data(), user_key_size); if (internal_key != nullptr) { *internal_key = cur_key_.GetInternalKey(); } } else if (internal_key != nullptr) { if (decoded_internal_key_valid) { *internal_key = decoded_internal_key; } else { // Need to copy out the internal key cur_key_.SetInternalKey(*parsed_key); *internal_key = cur_key_.GetInternalKey(); } } return Status::OK(); } Status PlainTableKeyDecoder::NextPrefixEncodingKey( uint32_t start_offset, ParsedInternalKey* parsed_key, Slice* internal_key, uint32_t* bytes_read, bool* seekable) { PlainTableEntryType entry_type; bool expect_suffix = false; Status s; do { uint32_t size = 0; // dummy initial value to avoid compiler complain bool decoded_internal_key_valid = true; uint32_t my_bytes_read = 0; s = DecodeSize(start_offset + *bytes_read, &entry_type, &size, &my_bytes_read); if (!s.ok()) { return s; } if (my_bytes_read == 0) { return Status::Corruption("Unexpected EOF when reading size of the key"); } *bytes_read += my_bytes_read; switch (entry_type) { case kFullKey: { expect_suffix = false; Slice decoded_internal_key; s = ReadInternalKey(start_offset + *bytes_read, size, parsed_key, bytes_read, &decoded_internal_key_valid, &decoded_internal_key); if (!s.ok()) { return s; } if (!file_reader_.file_info()->is_mmap_mode || (internal_key != nullptr && !decoded_internal_key_valid)) { // In non-mmap mode, always need to make a copy of keys returned to // users, because after reading value for the key, the key might // be invalid. cur_key_.SetInternalKey(*parsed_key); saved_user_key_ = cur_key_.GetUserKey(); if (!file_reader_.file_info()->is_mmap_mode) { parsed_key->user_key = Slice(cur_key_.GetInternalKey().data(), size); } if (internal_key != nullptr) { *internal_key = cur_key_.GetInternalKey(); } } else { if (internal_key != nullptr) { *internal_key = decoded_internal_key; } saved_user_key_ = parsed_key->user_key; } break; } case kPrefixFromPreviousKey: { if (seekable != nullptr) { *seekable = false; } prefix_len_ = size; assert(prefix_extractor_ == nullptr || prefix_extractor_->Transform(saved_user_key_).size() == prefix_len_); // Need read another size flag for suffix expect_suffix = true; break; } case kKeySuffix: { expect_suffix = false; if (seekable != nullptr) { *seekable = false; } Slice tmp_slice; s = ReadInternalKey(start_offset + *bytes_read, size, parsed_key, bytes_read, &decoded_internal_key_valid, &tmp_slice); if (!s.ok()) { return s; } if (!file_reader_.file_info()->is_mmap_mode) { // In non-mmap mode, we need to make a copy of keys returned to // users, because after reading value for the key, the key might // be invalid. // saved_user_key_ points to cur_key_. We are making a copy of // the prefix part to another string, and construct the current // key from the prefix part and the suffix part back to cur_key_. std::string tmp = Slice(saved_user_key_.data(), prefix_len_).ToString(); cur_key_.Reserve(prefix_len_ + size); cur_key_.SetInternalKey(tmp, *parsed_key); parsed_key->user_key = Slice(cur_key_.GetInternalKey().data(), prefix_len_ + size); saved_user_key_ = cur_key_.GetUserKey(); } else { cur_key_.Reserve(prefix_len_ + size); cur_key_.SetInternalKey(Slice(saved_user_key_.data(), prefix_len_), *parsed_key); } parsed_key->user_key = cur_key_.GetUserKey(); if (internal_key != nullptr) { *internal_key = cur_key_.GetInternalKey(); } break; } default: return Status::Corruption("Un-identified size flag."); } } while (expect_suffix); // Another round if suffix is expected. return Status::OK(); } Status PlainTableKeyDecoder::NextKey(uint32_t start_offset, ParsedInternalKey* parsed_key, Slice* internal_key, Slice* value, uint32_t* bytes_read, bool* seekable) { assert(value != nullptr); Status s = NextKeyNoValue(start_offset, parsed_key, internal_key, bytes_read, seekable); if (s.ok()) { assert(bytes_read != nullptr); uint32_t value_size; uint32_t value_size_bytes; bool success = file_reader_.ReadVarint32(start_offset + *bytes_read, &value_size, &value_size_bytes); if (!success) { return file_reader_.status(); } if (value_size_bytes == 0) { return Status::Corruption( "Unexpected EOF when reading the next value's size."); } *bytes_read += value_size_bytes; success = file_reader_.Read(start_offset + *bytes_read, value_size, value); if (!success) { return file_reader_.status(); } *bytes_read += value_size; } return s; } Status PlainTableKeyDecoder::NextKeyNoValue(uint32_t start_offset, ParsedInternalKey* parsed_key, Slice* internal_key, uint32_t* bytes_read, bool* seekable) { *bytes_read = 0; if (seekable != nullptr) { *seekable = true; } Status s; if (encoding_type_ == kPlain) { return NextPlainEncodingKey(start_offset, parsed_key, internal_key, bytes_read, seekable); } else { assert(encoding_type_ == kPrefix); return NextPrefixEncodingKey(start_offset, parsed_key, internal_key, bytes_read, seekable); } } } // namespace rocksdb #endif // ROCKSDB_LIT rocksdb-5.17.2/table/plain_table_key_coding.h000066400000000000000000000165771337235545400211750ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #ifndef ROCKSDB_LITE #include #include "rocksdb/slice.h" #include "db/dbformat.h" #include "table/plain_table_reader.h" namespace rocksdb { class WritableFile; struct ParsedInternalKey; struct PlainTableReaderFileInfo; enum PlainTableEntryType : unsigned char; // Helper class to write out a key to an output file // Actual data format of the key is documented in plain_table_factory.h class PlainTableKeyEncoder { public: explicit PlainTableKeyEncoder(EncodingType encoding_type, uint32_t user_key_len, const SliceTransform* prefix_extractor, size_t index_sparseness) : encoding_type_((prefix_extractor != nullptr) ? encoding_type : kPlain), fixed_user_key_len_(user_key_len), prefix_extractor_(prefix_extractor), index_sparseness_((index_sparseness > 1) ? index_sparseness : 1), key_count_for_prefix_(0) {} // key: the key to write out, in the format of internal key. // file: the output file to write out // offset: offset in the file. Needs to be updated after appending bytes // for the key // meta_bytes_buf: buffer for extra meta bytes // meta_bytes_buf_size: offset to append extra meta bytes. Will be updated // if meta_bytes_buf is updated. Status AppendKey(const Slice& key, WritableFileWriter* file, uint64_t* offset, char* meta_bytes_buf, size_t* meta_bytes_buf_size); // Return actual encoding type to be picked EncodingType GetEncodingType() { return encoding_type_; } private: EncodingType encoding_type_; uint32_t fixed_user_key_len_; const SliceTransform* prefix_extractor_; const size_t index_sparseness_; size_t key_count_for_prefix_; IterKey pre_prefix_; }; class PlainTableFileReader { public: explicit PlainTableFileReader(const PlainTableReaderFileInfo* _file_info) : file_info_(_file_info), num_buf_(0) {} // In mmaped mode, the results point to mmaped area of the file, which // means it is always valid before closing the file. // In non-mmap mode, the results point to an internal buffer. If the caller // makes another read call, the results may not be valid. So callers should // make a copy when needed. // In order to save read calls to files, we keep two internal buffers: // the first read and the most recent read. This is efficient because it // columns these two common use cases: // (1) hash index only identify one location, we read the key to verify // the location, and read key and value if it is the right location. // (2) after hash index checking, we identify two locations (because of // hash bucket conflicts), we binary search the two location to see // which one is what we need and start to read from the location. // These two most common use cases will be covered by the two buffers // so that we don't need to re-read the same location. // Currently we keep a fixed size buffer. If a read doesn't exactly fit // the buffer, we replace the second buffer with the location user reads. // // If return false, status code is stored in status_. bool Read(uint32_t file_offset, uint32_t len, Slice* out) { if (file_info_->is_mmap_mode) { assert(file_offset + len <= file_info_->data_end_offset); *out = Slice(file_info_->file_data.data() + file_offset, len); return true; } else { return ReadNonMmap(file_offset, len, out); } } // If return false, status code is stored in status_. bool ReadNonMmap(uint32_t file_offset, uint32_t len, Slice* output); // *bytes_read = 0 means eof. false means failure and status is saved // in status_. Not directly returning Status to save copying status // object to map previous performance of mmap mode. inline bool ReadVarint32(uint32_t offset, uint32_t* output, uint32_t* bytes_read); bool ReadVarint32NonMmap(uint32_t offset, uint32_t* output, uint32_t* bytes_read); Status status() const { return status_; } const PlainTableReaderFileInfo* file_info() { return file_info_; } private: const PlainTableReaderFileInfo* file_info_; struct Buffer { Buffer() : buf_start_offset(0), buf_len(0), buf_capacity(0) {} std::unique_ptr buf; uint32_t buf_start_offset; uint32_t buf_len; uint32_t buf_capacity; }; // Keep buffers for two recent reads. std::array, 2> buffers_; uint32_t num_buf_; Status status_; Slice GetFromBuffer(Buffer* buf, uint32_t file_offset, uint32_t len); }; // A helper class to decode keys from input buffer // Actual data format of the key is documented in plain_table_factory.h class PlainTableKeyDecoder { public: explicit PlainTableKeyDecoder(const PlainTableReaderFileInfo* file_info, EncodingType encoding_type, uint32_t user_key_len, const SliceTransform* prefix_extractor) : file_reader_(file_info), encoding_type_(encoding_type), prefix_len_(0), fixed_user_key_len_(user_key_len), prefix_extractor_(prefix_extractor), in_prefix_(false) {} // Find the next key. // start: char array where the key starts. // limit: boundary of the char array // parsed_key: the output of the result key // internal_key: if not null, fill with the output of the result key in // un-parsed format // bytes_read: how many bytes read from start. Output // seekable: whether key can be read from this place. Used when building // indexes. Output. Status NextKey(uint32_t start_offset, ParsedInternalKey* parsed_key, Slice* internal_key, Slice* value, uint32_t* bytes_read, bool* seekable = nullptr); Status NextKeyNoValue(uint32_t start_offset, ParsedInternalKey* parsed_key, Slice* internal_key, uint32_t* bytes_read, bool* seekable = nullptr); PlainTableFileReader file_reader_; EncodingType encoding_type_; uint32_t prefix_len_; uint32_t fixed_user_key_len_; Slice saved_user_key_; IterKey cur_key_; const SliceTransform* prefix_extractor_; bool in_prefix_; private: Status NextPlainEncodingKey(uint32_t start_offset, ParsedInternalKey* parsed_key, Slice* internal_key, uint32_t* bytes_read, bool* seekable = nullptr); Status NextPrefixEncodingKey(uint32_t start_offset, ParsedInternalKey* parsed_key, Slice* internal_key, uint32_t* bytes_read, bool* seekable = nullptr); Status ReadInternalKey(uint32_t file_offset, uint32_t user_key_size, ParsedInternalKey* parsed_key, uint32_t* bytes_read, bool* internal_key_valid, Slice* internal_key); inline Status DecodeSize(uint32_t start_offset, PlainTableEntryType* entry_type, uint32_t* key_size, uint32_t* bytes_read); }; } // namespace rocksdb #endif // ROCKSDB_LITE rocksdb-5.17.2/table/plain_table_reader.cc000066400000000000000000000607111337235545400204470ustar00rootroot00000000000000// Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #ifndef ROCKSDB_LITE #include "table/plain_table_reader.h" #include #include #include "db/dbformat.h" #include "rocksdb/cache.h" #include "rocksdb/comparator.h" #include "rocksdb/env.h" #include "rocksdb/filter_policy.h" #include "rocksdb/options.h" #include "rocksdb/statistics.h" #include "table/block.h" #include "table/bloom_block.h" #include "table/filter_block.h" #include "table/format.h" #include "table/internal_iterator.h" #include "table/meta_blocks.h" #include "table/two_level_iterator.h" #include "table/plain_table_factory.h" #include "table/plain_table_key_coding.h" #include "table/get_context.h" #include "monitoring/histogram.h" #include "monitoring/perf_context_imp.h" #include "util/arena.h" #include "util/coding.h" #include "util/dynamic_bloom.h" #include "util/hash.h" #include "util/murmurhash.h" #include "util/stop_watch.h" #include "util/string_util.h" namespace rocksdb { namespace { // Safely getting a uint32_t element from a char array, where, starting from // `base`, every 4 bytes are considered as an fixed 32 bit integer. inline uint32_t GetFixed32Element(const char* base, size_t offset) { return DecodeFixed32(base + offset * sizeof(uint32_t)); } } // namespace // Iterator to iterate IndexedTable class PlainTableIterator : public InternalIterator { public: explicit PlainTableIterator(PlainTableReader* table, bool use_prefix_seek); ~PlainTableIterator(); bool Valid() const override; void SeekToFirst() override; void SeekToLast() override; void Seek(const Slice& target) override; void SeekForPrev(const Slice& target) override; void Next() override; void Prev() override; Slice key() const override; Slice value() const override; Status status() const override; private: PlainTableReader* table_; PlainTableKeyDecoder decoder_; bool use_prefix_seek_; uint32_t offset_; uint32_t next_offset_; Slice key_; Slice value_; Status status_; // No copying allowed PlainTableIterator(const PlainTableIterator&) = delete; void operator=(const Iterator&) = delete; }; extern const uint64_t kPlainTableMagicNumber; PlainTableReader::PlainTableReader(const ImmutableCFOptions& ioptions, unique_ptr&& file, const EnvOptions& storage_options, const InternalKeyComparator& icomparator, EncodingType encoding_type, uint64_t file_size, const TableProperties* table_properties, const SliceTransform* prefix_extractor) : internal_comparator_(icomparator), encoding_type_(encoding_type), full_scan_mode_(false), user_key_len_(static_cast(table_properties->fixed_key_len)), prefix_extractor_(prefix_extractor), enable_bloom_(false), bloom_(6, nullptr), file_info_(std::move(file), storage_options, static_cast(table_properties->data_size)), ioptions_(ioptions), file_size_(file_size), table_properties_(nullptr) {} PlainTableReader::~PlainTableReader() { } Status PlainTableReader::Open( const ImmutableCFOptions& ioptions, const EnvOptions& env_options, const InternalKeyComparator& internal_comparator, unique_ptr&& file, uint64_t file_size, unique_ptr* table_reader, const int bloom_bits_per_key, double hash_table_ratio, size_t index_sparseness, size_t huge_page_tlb_size, bool full_scan_mode, const SliceTransform* prefix_extractor) { if (file_size > PlainTableIndex::kMaxFileSize) { return Status::NotSupported("File is too large for PlainTableReader!"); } TableProperties* props = nullptr; auto s = ReadTableProperties(file.get(), file_size, kPlainTableMagicNumber, ioptions, &props, true /* compression_type_missing */); if (!s.ok()) { return s; } assert(hash_table_ratio >= 0.0); auto& user_props = props->user_collected_properties; auto prefix_extractor_in_file = props->prefix_extractor_name; if (!full_scan_mode && !prefix_extractor_in_file.empty() /* old version sst file*/ && prefix_extractor_in_file != "nullptr") { if (!prefix_extractor) { return Status::InvalidArgument( "Prefix extractor is missing when opening a PlainTable built " "using a prefix extractor"); } else if (prefix_extractor_in_file.compare(prefix_extractor->Name()) != 0) { return Status::InvalidArgument( "Prefix extractor given doesn't match the one used to build " "PlainTable"); } } EncodingType encoding_type = kPlain; auto encoding_type_prop = user_props.find(PlainTablePropertyNames::kEncodingType); if (encoding_type_prop != user_props.end()) { encoding_type = static_cast( DecodeFixed32(encoding_type_prop->second.c_str())); } std::unique_ptr new_reader(new PlainTableReader( ioptions, std::move(file), env_options, internal_comparator, encoding_type, file_size, props, prefix_extractor)); s = new_reader->MmapDataIfNeeded(); if (!s.ok()) { return s; } if (!full_scan_mode) { s = new_reader->PopulateIndex(props, bloom_bits_per_key, hash_table_ratio, index_sparseness, huge_page_tlb_size); if (!s.ok()) { return s; } } else { // Flag to indicate it is a full scan mode so that none of the indexes // can be used. new_reader->full_scan_mode_ = true; } *table_reader = std::move(new_reader); return s; } void PlainTableReader::SetupForCompaction() { } InternalIterator* PlainTableReader::NewIterator( const ReadOptions& options, const SliceTransform* /* prefix_extractor */, Arena* arena, bool /*skip_filters*/, bool /*for_compaction*/) { bool use_prefix_seek = !IsTotalOrderMode() && !options.total_order_seek; if (arena == nullptr) { return new PlainTableIterator(this, use_prefix_seek); } else { auto mem = arena->AllocateAligned(sizeof(PlainTableIterator)); return new (mem) PlainTableIterator(this, use_prefix_seek); } } Status PlainTableReader::PopulateIndexRecordList( PlainTableIndexBuilder* index_builder, vector* prefix_hashes) { Slice prev_key_prefix_slice; std::string prev_key_prefix_buf; uint32_t pos = data_start_offset_; bool is_first_record = true; Slice key_prefix_slice; PlainTableKeyDecoder decoder(&file_info_, encoding_type_, user_key_len_, prefix_extractor_); while (pos < file_info_.data_end_offset) { uint32_t key_offset = pos; ParsedInternalKey key; Slice value_slice; bool seekable = false; Status s = Next(&decoder, &pos, &key, nullptr, &value_slice, &seekable); if (!s.ok()) { return s; } key_prefix_slice = GetPrefix(key); if (enable_bloom_) { bloom_.AddHash(GetSliceHash(key.user_key)); } else { if (is_first_record || prev_key_prefix_slice != key_prefix_slice) { if (!is_first_record) { prefix_hashes->push_back(GetSliceHash(prev_key_prefix_slice)); } if (file_info_.is_mmap_mode) { prev_key_prefix_slice = key_prefix_slice; } else { prev_key_prefix_buf = key_prefix_slice.ToString(); prev_key_prefix_slice = prev_key_prefix_buf; } } } index_builder->AddKeyPrefix(GetPrefix(key), key_offset); if (!seekable && is_first_record) { return Status::Corruption("Key for a prefix is not seekable"); } is_first_record = false; } prefix_hashes->push_back(GetSliceHash(key_prefix_slice)); auto s = index_.InitFromRawData(index_builder->Finish()); return s; } void PlainTableReader::AllocateAndFillBloom(int bloom_bits_per_key, int num_prefixes, size_t huge_page_tlb_size, vector* prefix_hashes) { if (!IsTotalOrderMode()) { uint32_t bloom_total_bits = num_prefixes * bloom_bits_per_key; if (bloom_total_bits > 0) { enable_bloom_ = true; bloom_.SetTotalBits(&arena_, bloom_total_bits, ioptions_.bloom_locality, huge_page_tlb_size, ioptions_.info_log); FillBloom(prefix_hashes); } } } void PlainTableReader::FillBloom(vector* prefix_hashes) { assert(bloom_.IsInitialized()); for (auto prefix_hash : *prefix_hashes) { bloom_.AddHash(prefix_hash); } } Status PlainTableReader::MmapDataIfNeeded() { if (file_info_.is_mmap_mode) { // Get mmapped memory. return file_info_.file->Read(0, static_cast(file_size_), &file_info_.file_data, nullptr); } return Status::OK(); } Status PlainTableReader::PopulateIndex(TableProperties* props, int bloom_bits_per_key, double hash_table_ratio, size_t index_sparseness, size_t huge_page_tlb_size) { assert(props != nullptr); table_properties_.reset(props); BlockContents index_block_contents; Status s = ReadMetaBlock(file_info_.file.get(), nullptr /* prefetch_buffer */, file_size_, kPlainTableMagicNumber, ioptions_, PlainTableIndexBuilder::kPlainTableIndexBlock, &index_block_contents, true /* compression_type_missing */); bool index_in_file = s.ok(); BlockContents bloom_block_contents; bool bloom_in_file = false; // We only need to read the bloom block if index block is in file. if (index_in_file) { s = ReadMetaBlock(file_info_.file.get(), nullptr /* prefetch_buffer */, file_size_, kPlainTableMagicNumber, ioptions_, BloomBlockBuilder::kBloomBlock, &bloom_block_contents, true /* compression_type_missing */); bloom_in_file = s.ok() && bloom_block_contents.data.size() > 0; } Slice* bloom_block; if (bloom_in_file) { // If bloom_block_contents.allocation is not empty (which will be the case // for non-mmap mode), it holds the alloated memory for the bloom block. // It needs to be kept alive to keep `bloom_block` valid. bloom_block_alloc_ = std::move(bloom_block_contents.allocation); bloom_block = &bloom_block_contents.data; } else { bloom_block = nullptr; } Slice* index_block; if (index_in_file) { // If index_block_contents.allocation is not empty (which will be the case // for non-mmap mode), it holds the alloated memory for the index block. // It needs to be kept alive to keep `index_block` valid. index_block_alloc_ = std::move(index_block_contents.allocation); index_block = &index_block_contents.data; } else { index_block = nullptr; } if ((prefix_extractor_ == nullptr) && (hash_table_ratio != 0)) { // moptions.prefix_extractor is requried for a hash-based look-up. return Status::NotSupported( "PlainTable requires a prefix extractor enable prefix hash mode."); } // First, read the whole file, for every kIndexIntervalForSamePrefixKeys rows // for a prefix (starting from the first one), generate a record of (hash, // offset) and append it to IndexRecordList, which is a data structure created // to store them. if (!index_in_file) { // Allocate bloom filter here for total order mode. if (IsTotalOrderMode()) { uint32_t num_bloom_bits = static_cast(table_properties_->num_entries) * bloom_bits_per_key; if (num_bloom_bits > 0) { enable_bloom_ = true; bloom_.SetTotalBits(&arena_, num_bloom_bits, ioptions_.bloom_locality, huge_page_tlb_size, ioptions_.info_log); } } } else if (bloom_in_file) { enable_bloom_ = true; auto num_blocks_property = props->user_collected_properties.find( PlainTablePropertyNames::kNumBloomBlocks); uint32_t num_blocks = 0; if (num_blocks_property != props->user_collected_properties.end()) { Slice temp_slice(num_blocks_property->second); if (!GetVarint32(&temp_slice, &num_blocks)) { num_blocks = 0; } } // cast away const qualifier, because bloom_ won't be changed bloom_.SetRawData( const_cast( reinterpret_cast(bloom_block->data())), static_cast(bloom_block->size()) * 8, num_blocks); } else { // Index in file but no bloom in file. Disable bloom filter in this case. enable_bloom_ = false; bloom_bits_per_key = 0; } PlainTableIndexBuilder index_builder(&arena_, ioptions_, prefix_extractor_, index_sparseness, hash_table_ratio, huge_page_tlb_size); std::vector prefix_hashes; if (!index_in_file) { s = PopulateIndexRecordList(&index_builder, &prefix_hashes); if (!s.ok()) { return s; } } else { s = index_.InitFromRawData(*index_block); if (!s.ok()) { return s; } } if (!index_in_file) { // Calculated bloom filter size and allocate memory for // bloom filter based on the number of prefixes, then fill it. AllocateAndFillBloom(bloom_bits_per_key, index_.GetNumPrefixes(), huge_page_tlb_size, &prefix_hashes); } // Fill two table properties. if (!index_in_file) { props->user_collected_properties["plain_table_hash_table_size"] = ToString(index_.GetIndexSize() * PlainTableIndex::kOffsetLen); props->user_collected_properties["plain_table_sub_index_size"] = ToString(index_.GetSubIndexSize()); } else { props->user_collected_properties["plain_table_hash_table_size"] = ToString(0); props->user_collected_properties["plain_table_sub_index_size"] = ToString(0); } return Status::OK(); } Status PlainTableReader::GetOffset(PlainTableKeyDecoder* decoder, const Slice& target, const Slice& prefix, uint32_t prefix_hash, bool& prefix_matched, uint32_t* offset) const { prefix_matched = false; uint32_t prefix_index_offset; auto res = index_.GetOffset(prefix_hash, &prefix_index_offset); if (res == PlainTableIndex::kNoPrefixForBucket) { *offset = file_info_.data_end_offset; return Status::OK(); } else if (res == PlainTableIndex::kDirectToFile) { *offset = prefix_index_offset; return Status::OK(); } // point to sub-index, need to do a binary search uint32_t upper_bound; const char* base_ptr = index_.GetSubIndexBasePtrAndUpperBound(prefix_index_offset, &upper_bound); uint32_t low = 0; uint32_t high = upper_bound; ParsedInternalKey mid_key; ParsedInternalKey parsed_target; if (!ParseInternalKey(target, &parsed_target)) { return Status::Corruption(Slice()); } // The key is between [low, high). Do a binary search between it. while (high - low > 1) { uint32_t mid = (high + low) / 2; uint32_t file_offset = GetFixed32Element(base_ptr, mid); uint32_t tmp; Status s = decoder->NextKeyNoValue(file_offset, &mid_key, nullptr, &tmp); if (!s.ok()) { return s; } int cmp_result = internal_comparator_.Compare(mid_key, parsed_target); if (cmp_result < 0) { low = mid; } else { if (cmp_result == 0) { // Happen to have found the exact key or target is smaller than the // first key after base_offset. prefix_matched = true; *offset = file_offset; return Status::OK(); } else { high = mid; } } } // Both of the key at the position low or low+1 could share the same // prefix as target. We need to rule out one of them to avoid to go // to the wrong prefix. ParsedInternalKey low_key; uint32_t tmp; uint32_t low_key_offset = GetFixed32Element(base_ptr, low); Status s = decoder->NextKeyNoValue(low_key_offset, &low_key, nullptr, &tmp); if (!s.ok()) { return s; } if (GetPrefix(low_key) == prefix) { prefix_matched = true; *offset = low_key_offset; } else if (low + 1 < upper_bound) { // There is possible a next prefix, return it prefix_matched = false; *offset = GetFixed32Element(base_ptr, low + 1); } else { // target is larger than a key of the last prefix in this bucket // but with a different prefix. Key does not exist. *offset = file_info_.data_end_offset; } return Status::OK(); } bool PlainTableReader::MatchBloom(uint32_t hash) const { if (!enable_bloom_) { return true; } if (bloom_.MayContainHash(hash)) { PERF_COUNTER_ADD(bloom_sst_hit_count, 1); return true; } else { PERF_COUNTER_ADD(bloom_sst_miss_count, 1); return false; } } Status PlainTableReader::Next(PlainTableKeyDecoder* decoder, uint32_t* offset, ParsedInternalKey* parsed_key, Slice* internal_key, Slice* value, bool* seekable) const { if (*offset == file_info_.data_end_offset) { *offset = file_info_.data_end_offset; return Status::OK(); } if (*offset > file_info_.data_end_offset) { return Status::Corruption("Offset is out of file size"); } uint32_t bytes_read; Status s = decoder->NextKey(*offset, parsed_key, internal_key, value, &bytes_read, seekable); if (!s.ok()) { return s; } *offset = *offset + bytes_read; return Status::OK(); } void PlainTableReader::Prepare(const Slice& target) { if (enable_bloom_) { uint32_t prefix_hash = GetSliceHash(GetPrefix(target)); bloom_.Prefetch(prefix_hash); } } Status PlainTableReader::Get(const ReadOptions& /*ro*/, const Slice& target, GetContext* get_context, const SliceTransform* /* prefix_extractor */, bool /*skip_filters*/) { // Check bloom filter first. Slice prefix_slice; uint32_t prefix_hash; if (IsTotalOrderMode()) { if (full_scan_mode_) { status_ = Status::InvalidArgument("Get() is not allowed in full scan mode."); } // Match whole user key for bloom filter check. if (!MatchBloom(GetSliceHash(GetUserKey(target)))) { return Status::OK(); } // in total order mode, there is only one bucket 0, and we always use empty // prefix. prefix_slice = Slice(); prefix_hash = 0; } else { prefix_slice = GetPrefix(target); prefix_hash = GetSliceHash(prefix_slice); if (!MatchBloom(prefix_hash)) { return Status::OK(); } } uint32_t offset; bool prefix_match; PlainTableKeyDecoder decoder(&file_info_, encoding_type_, user_key_len_, prefix_extractor_); Status s = GetOffset(&decoder, target, prefix_slice, prefix_hash, prefix_match, &offset); if (!s.ok()) { return s; } ParsedInternalKey found_key; ParsedInternalKey parsed_target; if (!ParseInternalKey(target, &parsed_target)) { return Status::Corruption(Slice()); } Slice found_value; while (offset < file_info_.data_end_offset) { s = Next(&decoder, &offset, &found_key, nullptr, &found_value); if (!s.ok()) { return s; } if (!prefix_match) { // Need to verify prefix for the first key found if it is not yet // checked. if (GetPrefix(found_key) != prefix_slice) { return Status::OK(); } prefix_match = true; } // TODO(ljin): since we know the key comparison result here, // can we enable the fast path? if (internal_comparator_.Compare(found_key, parsed_target) >= 0) { bool dont_care __attribute__((__unused__)); if (!get_context->SaveValue(found_key, found_value, &dont_care)) { break; } } } return Status::OK(); } uint64_t PlainTableReader::ApproximateOffsetOf(const Slice& /*key*/) { return 0; } PlainTableIterator::PlainTableIterator(PlainTableReader* table, bool use_prefix_seek) : table_(table), decoder_(&table_->file_info_, table_->encoding_type_, table_->user_key_len_, table_->prefix_extractor_), use_prefix_seek_(use_prefix_seek) { next_offset_ = offset_ = table_->file_info_.data_end_offset; } PlainTableIterator::~PlainTableIterator() { } bool PlainTableIterator::Valid() const { return offset_ < table_->file_info_.data_end_offset && offset_ >= table_->data_start_offset_; } void PlainTableIterator::SeekToFirst() { status_ = Status::OK(); next_offset_ = table_->data_start_offset_; if (next_offset_ >= table_->file_info_.data_end_offset) { next_offset_ = offset_ = table_->file_info_.data_end_offset; } else { Next(); } } void PlainTableIterator::SeekToLast() { assert(false); status_ = Status::NotSupported("SeekToLast() is not supported in PlainTable"); next_offset_ = offset_ = table_->file_info_.data_end_offset; } void PlainTableIterator::Seek(const Slice& target) { if (use_prefix_seek_ != !table_->IsTotalOrderMode()) { // This check is done here instead of NewIterator() to permit creating an // iterator with total_order_seek = true even if we won't be able to Seek() // it. This is needed for compaction: it creates iterator with // total_order_seek = true but usually never does Seek() on it, // only SeekToFirst(). status_ = Status::InvalidArgument( "total_order_seek not implemented for PlainTable."); offset_ = next_offset_ = table_->file_info_.data_end_offset; return; } // If the user doesn't set prefix seek option and we are not able to do a // total Seek(). assert failure. if (table_->IsTotalOrderMode()) { if (table_->full_scan_mode_) { status_ = Status::InvalidArgument("Seek() is not allowed in full scan mode."); offset_ = next_offset_ = table_->file_info_.data_end_offset; return; } else if (table_->GetIndexSize() > 1) { assert(false); status_ = Status::NotSupported( "PlainTable cannot issue non-prefix seek unless in total order " "mode."); offset_ = next_offset_ = table_->file_info_.data_end_offset; return; } } Slice prefix_slice = table_->GetPrefix(target); uint32_t prefix_hash = 0; // Bloom filter is ignored in total-order mode. if (!table_->IsTotalOrderMode()) { prefix_hash = GetSliceHash(prefix_slice); if (!table_->MatchBloom(prefix_hash)) { status_ = Status::OK(); offset_ = next_offset_ = table_->file_info_.data_end_offset; return; } } bool prefix_match; status_ = table_->GetOffset(&decoder_, target, prefix_slice, prefix_hash, prefix_match, &next_offset_); if (!status_.ok()) { offset_ = next_offset_ = table_->file_info_.data_end_offset; return; } if (next_offset_ < table_->file_info_.data_end_offset) { for (Next(); status_.ok() && Valid(); Next()) { if (!prefix_match) { // Need to verify the first key's prefix if (table_->GetPrefix(key()) != prefix_slice) { offset_ = next_offset_ = table_->file_info_.data_end_offset; break; } prefix_match = true; } if (table_->internal_comparator_.Compare(key(), target) >= 0) { break; } } } else { offset_ = table_->file_info_.data_end_offset; } } void PlainTableIterator::SeekForPrev(const Slice& /*target*/) { assert(false); status_ = Status::NotSupported("SeekForPrev() is not supported in PlainTable"); offset_ = next_offset_ = table_->file_info_.data_end_offset; } void PlainTableIterator::Next() { offset_ = next_offset_; if (offset_ < table_->file_info_.data_end_offset) { Slice tmp_slice; ParsedInternalKey parsed_key; status_ = table_->Next(&decoder_, &next_offset_, &parsed_key, &key_, &value_); if (!status_.ok()) { offset_ = next_offset_ = table_->file_info_.data_end_offset; } } } void PlainTableIterator::Prev() { assert(false); } Slice PlainTableIterator::key() const { assert(Valid()); return key_; } Slice PlainTableIterator::value() const { assert(Valid()); return value_; } Status PlainTableIterator::status() const { return status_; } } // namespace rocksdb #endif // ROCKSDB_LITE rocksdb-5.17.2/table/plain_table_reader.h000066400000000000000000000205351337235545400203110ustar00rootroot00000000000000// Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #ifndef ROCKSDB_LITE #include #include #include #include #include #include "db/dbformat.h" #include "rocksdb/env.h" #include "rocksdb/iterator.h" #include "rocksdb/slice_transform.h" #include "rocksdb/table.h" #include "rocksdb/table_properties.h" #include "table/table_reader.h" #include "table/plain_table_factory.h" #include "table/plain_table_index.h" #include "util/arena.h" #include "util/dynamic_bloom.h" #include "util/file_reader_writer.h" namespace rocksdb { class Block; struct BlockContents; class BlockHandle; class Footer; struct Options; class RandomAccessFile; struct ReadOptions; class TableCache; class TableReader; class InternalKeyComparator; class PlainTableKeyDecoder; class GetContext; using std::unique_ptr; using std::unordered_map; using std::vector; extern const uint32_t kPlainTableVariableLength; struct PlainTableReaderFileInfo { bool is_mmap_mode; Slice file_data; uint32_t data_end_offset; unique_ptr file; PlainTableReaderFileInfo(unique_ptr&& _file, const EnvOptions& storage_options, uint32_t _data_size_offset) : is_mmap_mode(storage_options.use_mmap_reads), data_end_offset(_data_size_offset), file(std::move(_file)) {} }; // Based on following output file format shown in plain_table_factory.h // When opening the output file, IndexedTableReader creates a hash table // from key prefixes to offset of the output file. IndexedTable will decide // whether it points to the data offset of the first key with the key prefix // or the offset of it. If there are too many keys share this prefix, it will // create a binary search-able index from the suffix to offset on disk. // // The implementation of IndexedTableReader requires output file is mmaped class PlainTableReader: public TableReader { public: static Status Open(const ImmutableCFOptions& ioptions, const EnvOptions& env_options, const InternalKeyComparator& internal_comparator, unique_ptr&& file, uint64_t file_size, unique_ptr* table, const int bloom_bits_per_key, double hash_table_ratio, size_t index_sparseness, size_t huge_page_tlb_size, bool full_scan_mode, const SliceTransform* prefix_extractor = nullptr); InternalIterator* NewIterator(const ReadOptions&, const SliceTransform* prefix_extractor, Arena* arena = nullptr, bool skip_filters = false, bool for_compaction = false) override; void Prepare(const Slice& target) override; Status Get(const ReadOptions& readOptions, const Slice& key, GetContext* get_context, const SliceTransform* prefix_extractor, bool skip_filters = false) override; uint64_t ApproximateOffsetOf(const Slice& key) override; uint32_t GetIndexSize() const { return index_.GetIndexSize(); } void SetupForCompaction() override; std::shared_ptr GetTableProperties() const override { return table_properties_; } virtual size_t ApproximateMemoryUsage() const override { return arena_.MemoryAllocatedBytes(); } PlainTableReader(const ImmutableCFOptions& ioptions, unique_ptr&& file, const EnvOptions& env_options, const InternalKeyComparator& internal_comparator, EncodingType encoding_type, uint64_t file_size, const TableProperties* table_properties, const SliceTransform* prefix_extractor); virtual ~PlainTableReader(); protected: // Check bloom filter to see whether it might contain this prefix. // The hash of the prefix is given, since it can be reused for index lookup // too. virtual bool MatchBloom(uint32_t hash) const; // PopulateIndex() builds index of keys. It must be called before any query // to the table. // // props: the table properties object that need to be stored. Ownership of // the object will be passed. // Status PopulateIndex(TableProperties* props, int bloom_bits_per_key, double hash_table_ratio, size_t index_sparseness, size_t huge_page_tlb_size); Status MmapDataIfNeeded(); private: const InternalKeyComparator internal_comparator_; EncodingType encoding_type_; // represents plain table's current status. Status status_; PlainTableIndex index_; bool full_scan_mode_; // data_start_offset_ and data_end_offset_ defines the range of the // sst file that stores data. const uint32_t data_start_offset_ = 0; const uint32_t user_key_len_; const SliceTransform* prefix_extractor_; static const size_t kNumInternalBytes = 8; // Bloom filter is used to rule out non-existent key bool enable_bloom_; DynamicBloom bloom_; PlainTableReaderFileInfo file_info_; Arena arena_; std::unique_ptr index_block_alloc_; std::unique_ptr bloom_block_alloc_; const ImmutableCFOptions& ioptions_; uint64_t file_size_; std::shared_ptr table_properties_; bool IsFixedLength() const { return user_key_len_ != kPlainTableVariableLength; } size_t GetFixedInternalKeyLength() const { return user_key_len_ + kNumInternalBytes; } Slice GetPrefix(const Slice& target) const { assert(target.size() >= 8); // target is internal key return GetPrefixFromUserKey(GetUserKey(target)); } Slice GetPrefix(const ParsedInternalKey& target) const { return GetPrefixFromUserKey(target.user_key); } Slice GetUserKey(const Slice& key) const { return Slice(key.data(), key.size() - 8); } Slice GetPrefixFromUserKey(const Slice& user_key) const { if (!IsTotalOrderMode()) { return prefix_extractor_->Transform(user_key); } else { // Use empty slice as prefix if prefix_extractor is not set. // In that case, // it falls back to pure binary search and // total iterator seek is supported. return Slice(); } } friend class TableCache; friend class PlainTableIterator; // Internal helper function to generate an IndexRecordList object from all // the rows, which contains index records as a list. // If bloom_ is not null, all the keys' full-key hash will be added to the // bloom filter. Status PopulateIndexRecordList(PlainTableIndexBuilder* index_builder, vector* prefix_hashes); // Internal helper function to allocate memory for bloom filter and fill it void AllocateAndFillBloom(int bloom_bits_per_key, int num_prefixes, size_t huge_page_tlb_size, vector* prefix_hashes); void FillBloom(vector* prefix_hashes); // Read the key and value at `offset` to parameters for keys, the and // `seekable`. // On success, `offset` will be updated as the offset for the next key. // `parsed_key` will be key in parsed format. // if `internal_key` is not empty, it will be filled with key with slice // format. // if `seekable` is not null, it will return whether we can directly read // data using this offset. Status Next(PlainTableKeyDecoder* decoder, uint32_t* offset, ParsedInternalKey* parsed_key, Slice* internal_key, Slice* value, bool* seekable = nullptr) const; // Get file offset for key target. // return value prefix_matched is set to true if the offset is confirmed // for a key with the same prefix as target. Status GetOffset(PlainTableKeyDecoder* decoder, const Slice& target, const Slice& prefix, uint32_t prefix_hash, bool& prefix_matched, uint32_t* offset) const; bool IsTotalOrderMode() const { return (prefix_extractor_ == nullptr); } // No copying allowed explicit PlainTableReader(const TableReader&) = delete; void operator=(const TableReader&) = delete; }; } // namespace rocksdb #endif // ROCKSDB_LITE rocksdb-5.17.2/table/scoped_arena_iterator.h000066400000000000000000000031351337235545400210460ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #include "table/internal_iterator.h" #include "port/port.h" namespace rocksdb { class ScopedArenaIterator { void reset(InternalIterator* iter) ROCKSDB_NOEXCEPT { if (iter_ != nullptr) { iter_->~InternalIterator(); } iter_ = iter; } public: explicit ScopedArenaIterator(InternalIterator* iter = nullptr) : iter_(iter) {} ScopedArenaIterator(const ScopedArenaIterator&) = delete; ScopedArenaIterator& operator=(const ScopedArenaIterator&) = delete; ScopedArenaIterator(ScopedArenaIterator&& o) ROCKSDB_NOEXCEPT { iter_ = o.iter_; o.iter_ = nullptr; } ScopedArenaIterator& operator=(ScopedArenaIterator&& o) ROCKSDB_NOEXCEPT { reset(o.iter_); o.iter_ = nullptr; return *this; } InternalIterator* operator->() { return iter_; } InternalIterator* get() { return iter_; } void set(InternalIterator* iter) { reset(iter); } InternalIterator* release() { assert(iter_ != nullptr); auto* res = iter_; iter_ = nullptr; return res; } ~ScopedArenaIterator() { reset(nullptr); } private: InternalIterator* iter_; }; } // namespace rocksdb rocksdb-5.17.2/table/sst_file_writer.cc000066400000000000000000000253601337235545400200600ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include "rocksdb/sst_file_writer.h" #include #include "db/dbformat.h" #include "rocksdb/table.h" #include "table/block_based_table_builder.h" #include "table/sst_file_writer_collectors.h" #include "util/file_reader_writer.h" #include "util/sync_point.h" namespace rocksdb { const std::string ExternalSstFilePropertyNames::kVersion = "rocksdb.external_sst_file.version"; const std::string ExternalSstFilePropertyNames::kGlobalSeqno = "rocksdb.external_sst_file.global_seqno"; #ifndef ROCKSDB_LITE const size_t kFadviseTrigger = 1024 * 1024; // 1MB struct SstFileWriter::Rep { Rep(const EnvOptions& _env_options, const Options& options, Env::IOPriority _io_priority, const Comparator* _user_comparator, ColumnFamilyHandle* _cfh, bool _invalidate_page_cache, bool _skip_filters) : env_options(_env_options), ioptions(options), mutable_cf_options(options), io_priority(_io_priority), internal_comparator(_user_comparator), cfh(_cfh), invalidate_page_cache(_invalidate_page_cache), last_fadvise_size(0), skip_filters(_skip_filters) {} std::unique_ptr file_writer; std::unique_ptr builder; EnvOptions env_options; ImmutableCFOptions ioptions; MutableCFOptions mutable_cf_options; Env::IOPriority io_priority; InternalKeyComparator internal_comparator; ExternalSstFileInfo file_info; InternalKey ikey; std::string column_family_name; ColumnFamilyHandle* cfh; // If true, We will give the OS a hint that this file pages is not needed // every time we write 1MB to the file. bool invalidate_page_cache; // The size of the file during the last time we called Fadvise to remove // cached pages from page cache. uint64_t last_fadvise_size; bool skip_filters; Status Add(const Slice& user_key, const Slice& value, const ValueType value_type) { if (!builder) { return Status::InvalidArgument("File is not opened"); } if (file_info.num_entries == 0) { file_info.smallest_key.assign(user_key.data(), user_key.size()); } else { if (internal_comparator.user_comparator()->Compare( user_key, file_info.largest_key) <= 0) { // Make sure that keys are added in order return Status::InvalidArgument("Keys must be added in order"); } } // TODO(tec) : For external SST files we could omit the seqno and type. switch (value_type) { case ValueType::kTypeValue: ikey.Set(user_key, 0 /* Sequence Number */, ValueType::kTypeValue /* Put */); break; case ValueType::kTypeMerge: ikey.Set(user_key, 0 /* Sequence Number */, ValueType::kTypeMerge /* Merge */); break; case ValueType::kTypeDeletion: ikey.Set(user_key, 0 /* Sequence Number */, ValueType::kTypeDeletion /* Delete */); break; default: return Status::InvalidArgument("Value type is not supported"); } builder->Add(ikey.Encode(), value); // update file info file_info.num_entries++; file_info.largest_key.assign(user_key.data(), user_key.size()); file_info.file_size = builder->FileSize(); InvalidatePageCache(false /* closing */); return Status::OK(); } Status DeleteRange(const Slice& begin_key, const Slice& end_key) { if (!builder) { return Status::InvalidArgument("File is not opened"); } RangeTombstone tombstone(begin_key, end_key, 0 /* Sequence Number */); if (file_info.num_range_del_entries == 0) { file_info.smallest_range_del_key.assign(tombstone.start_key_.data(), tombstone.start_key_.size()); file_info.largest_range_del_key.assign(tombstone.end_key_.data(), tombstone.end_key_.size()); } else { if (internal_comparator.user_comparator()->Compare( tombstone.start_key_, file_info.smallest_range_del_key) < 0) { file_info.smallest_range_del_key.assign(tombstone.start_key_.data(), tombstone.start_key_.size()); } if (internal_comparator.user_comparator()->Compare( tombstone.end_key_, file_info.largest_range_del_key) > 0) { file_info.largest_range_del_key.assign(tombstone.end_key_.data(), tombstone.end_key_.size()); } } auto ikey_and_end_key = tombstone.Serialize(); builder->Add(ikey_and_end_key.first.Encode(), ikey_and_end_key.second); // update file info file_info.num_range_del_entries++; file_info.file_size = builder->FileSize(); InvalidatePageCache(false /* closing */); return Status::OK(); } void InvalidatePageCache(bool closing) { if (invalidate_page_cache == false) { // Fadvise disabled return; } uint64_t bytes_since_last_fadvise = builder->FileSize() - last_fadvise_size; if (bytes_since_last_fadvise > kFadviseTrigger || closing) { TEST_SYNC_POINT_CALLBACK("SstFileWriter::Rep::InvalidatePageCache", &(bytes_since_last_fadvise)); // Tell the OS that we dont need this file in page cache file_writer->InvalidateCache(0, 0); last_fadvise_size = builder->FileSize(); } } }; SstFileWriter::SstFileWriter(const EnvOptions& env_options, const Options& options, const Comparator* user_comparator, ColumnFamilyHandle* column_family, bool invalidate_page_cache, Env::IOPriority io_priority, bool skip_filters) : rep_(new Rep(env_options, options, io_priority, user_comparator, column_family, invalidate_page_cache, skip_filters)) { rep_->file_info.file_size = 0; } SstFileWriter::~SstFileWriter() { if (rep_->builder) { // User did not call Finish() or Finish() failed, we need to // abandon the builder. rep_->builder->Abandon(); } } Status SstFileWriter::Open(const std::string& file_path) { Rep* r = rep_.get(); Status s; std::unique_ptr sst_file; s = r->ioptions.env->NewWritableFile(file_path, &sst_file, r->env_options); if (!s.ok()) { return s; } sst_file->SetIOPriority(r->io_priority); CompressionType compression_type; CompressionOptions compression_opts; if (r->ioptions.bottommost_compression != kDisableCompressionOption) { compression_type = r->ioptions.bottommost_compression; if (r->ioptions.bottommost_compression_opts.enabled) { compression_opts = r->ioptions.bottommost_compression_opts; } else { compression_opts = r->ioptions.compression_opts; } } else if (!r->ioptions.compression_per_level.empty()) { // Use the compression of the last level if we have per level compression compression_type = *(r->ioptions.compression_per_level.rbegin()); compression_opts = r->ioptions.compression_opts; } else { compression_type = r->mutable_cf_options.compression; compression_opts = r->ioptions.compression_opts; } std::vector> int_tbl_prop_collector_factories; // SstFileWriter properties collector to add SstFileWriter version. int_tbl_prop_collector_factories.emplace_back( new SstFileWriterPropertiesCollectorFactory(2 /* version */, 0 /* global_seqno*/)); // User collector factories auto user_collector_factories = r->ioptions.table_properties_collector_factories; for (size_t i = 0; i < user_collector_factories.size(); i++) { int_tbl_prop_collector_factories.emplace_back( new UserKeyTablePropertiesCollectorFactory( user_collector_factories[i])); } int unknown_level = -1; uint32_t cf_id; if (r->cfh != nullptr) { // user explicitly specified that this file will be ingested into cfh, // we can persist this information in the file. cf_id = r->cfh->GetID(); r->column_family_name = r->cfh->GetName(); } else { r->column_family_name = ""; cf_id = TablePropertiesCollectorFactory::Context::kUnknownColumnFamily; } TableBuilderOptions table_builder_options( r->ioptions, r->mutable_cf_options, r->internal_comparator, &int_tbl_prop_collector_factories, compression_type, compression_opts, nullptr /* compression_dict */, r->skip_filters, r->column_family_name, unknown_level); r->file_writer.reset( new WritableFileWriter(std::move(sst_file), file_path, r->env_options)); // TODO(tec) : If table_factory is using compressed block cache, we will // be adding the external sst file blocks into it, which is wasteful. r->builder.reset(r->ioptions.table_factory->NewTableBuilder( table_builder_options, cf_id, r->file_writer.get())); r->file_info = ExternalSstFileInfo(); r->file_info.file_path = file_path; r->file_info.version = 2; return s; } Status SstFileWriter::Add(const Slice& user_key, const Slice& value) { return rep_->Add(user_key, value, ValueType::kTypeValue); } Status SstFileWriter::Put(const Slice& user_key, const Slice& value) { return rep_->Add(user_key, value, ValueType::kTypeValue); } Status SstFileWriter::Merge(const Slice& user_key, const Slice& value) { return rep_->Add(user_key, value, ValueType::kTypeMerge); } Status SstFileWriter::Delete(const Slice& user_key) { return rep_->Add(user_key, Slice(), ValueType::kTypeDeletion); } Status SstFileWriter::DeleteRange(const Slice& begin_key, const Slice& end_key) { return rep_->DeleteRange(begin_key, end_key); } Status SstFileWriter::Finish(ExternalSstFileInfo* file_info) { Rep* r = rep_.get(); if (!r->builder) { return Status::InvalidArgument("File is not opened"); } if (r->file_info.num_entries == 0 && r->file_info.num_range_del_entries == 0) { return Status::InvalidArgument("Cannot create sst file with no entries"); } Status s = r->builder->Finish(); r->file_info.file_size = r->builder->FileSize(); if (s.ok()) { s = r->file_writer->Sync(r->ioptions.use_fsync); r->InvalidatePageCache(true /* closing */); if (s.ok()) { s = r->file_writer->Close(); } } if (!s.ok()) { r->ioptions.env->DeleteFile(r->file_info.file_path); } if (file_info != nullptr) { *file_info = r->file_info; } r->builder.reset(); return s; } uint64_t SstFileWriter::FileSize() { return rep_->file_info.file_size; } #endif // !ROCKSDB_LITE } // namespace rocksdb rocksdb-5.17.2/table/sst_file_writer_collectors.h000066400000000000000000000053771337235545400221610ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #include #include "rocksdb/types.h" #include "util/string_util.h" namespace rocksdb { // Table Properties that are specific to tables created by SstFileWriter. struct ExternalSstFilePropertyNames { // value of this property is a fixed uint32 number. static const std::string kVersion; // value of this property is a fixed uint64 number. static const std::string kGlobalSeqno; }; // PropertiesCollector used to add properties specific to tables // generated by SstFileWriter class SstFileWriterPropertiesCollector : public IntTblPropCollector { public: explicit SstFileWriterPropertiesCollector(int32_t version, SequenceNumber global_seqno) : version_(version), global_seqno_(global_seqno) {} virtual Status InternalAdd(const Slice& /*key*/, const Slice& /*value*/, uint64_t /*file_size*/) override { // Intentionally left blank. Have no interest in collecting stats for // individual key/value pairs. return Status::OK(); } virtual Status Finish(UserCollectedProperties* properties) override { // File version std::string version_val; PutFixed32(&version_val, static_cast(version_)); properties->insert({ExternalSstFilePropertyNames::kVersion, version_val}); // Global Sequence number std::string seqno_val; PutFixed64(&seqno_val, static_cast(global_seqno_)); properties->insert({ExternalSstFilePropertyNames::kGlobalSeqno, seqno_val}); return Status::OK(); } virtual const char* Name() const override { return "SstFileWriterPropertiesCollector"; } virtual UserCollectedProperties GetReadableProperties() const override { return {{ExternalSstFilePropertyNames::kVersion, ToString(version_)}}; } private: int32_t version_; SequenceNumber global_seqno_; }; class SstFileWriterPropertiesCollectorFactory : public IntTblPropCollectorFactory { public: explicit SstFileWriterPropertiesCollectorFactory(int32_t version, SequenceNumber global_seqno) : version_(version), global_seqno_(global_seqno) {} virtual IntTblPropCollector* CreateIntTblPropCollector( uint32_t /*column_family_id*/) override { return new SstFileWriterPropertiesCollector(version_, global_seqno_); } virtual const char* Name() const override { return "SstFileWriterPropertiesCollector"; } private: int32_t version_; SequenceNumber global_seqno_; }; } // namespace rocksdb rocksdb-5.17.2/table/table_builder.h000066400000000000000000000140671337235545400173150ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #include #include #include #include #include "db/dbformat.h" #include "db/table_properties_collector.h" #include "options/cf_options.h" #include "rocksdb/options.h" #include "rocksdb/table_properties.h" #include "util/file_reader_writer.h" namespace rocksdb { class Slice; class Status; struct TableReaderOptions { // @param skip_filters Disables loading/accessing the filter block TableReaderOptions(const ImmutableCFOptions& _ioptions, const SliceTransform* _prefix_extractor, const EnvOptions& _env_options, const InternalKeyComparator& _internal_comparator, bool _skip_filters = false, bool _immortal = false, int _level = -1) : TableReaderOptions(_ioptions, _prefix_extractor, _env_options, _internal_comparator, _skip_filters, _immortal, _level, 0 /* _largest_seqno */) {} // @param skip_filters Disables loading/accessing the filter block TableReaderOptions(const ImmutableCFOptions& _ioptions, const SliceTransform* _prefix_extractor, const EnvOptions& _env_options, const InternalKeyComparator& _internal_comparator, bool _skip_filters, bool _immortal, int _level, SequenceNumber _largest_seqno) : ioptions(_ioptions), prefix_extractor(_prefix_extractor), env_options(_env_options), internal_comparator(_internal_comparator), skip_filters(_skip_filters), immortal(_immortal), level(_level), largest_seqno(_largest_seqno) {} const ImmutableCFOptions& ioptions; const SliceTransform* prefix_extractor; const EnvOptions& env_options; const InternalKeyComparator& internal_comparator; // This is only used for BlockBasedTable (reader) bool skip_filters; // Whether the table will be valid as long as the DB is open bool immortal; // what level this table/file is on, -1 for "not set, don't know" int level; // largest seqno in the table SequenceNumber largest_seqno; }; struct TableBuilderOptions { TableBuilderOptions( const ImmutableCFOptions& _ioptions, const MutableCFOptions& _moptions, const InternalKeyComparator& _internal_comparator, const std::vector>* _int_tbl_prop_collector_factories, CompressionType _compression_type, const CompressionOptions& _compression_opts, const std::string* _compression_dict, bool _skip_filters, const std::string& _column_family_name, int _level, const uint64_t _creation_time = 0, const int64_t _oldest_key_time = 0) : ioptions(_ioptions), moptions(_moptions), internal_comparator(_internal_comparator), int_tbl_prop_collector_factories(_int_tbl_prop_collector_factories), compression_type(_compression_type), compression_opts(_compression_opts), compression_dict(_compression_dict), skip_filters(_skip_filters), column_family_name(_column_family_name), level(_level), creation_time(_creation_time), oldest_key_time(_oldest_key_time) {} const ImmutableCFOptions& ioptions; const MutableCFOptions& moptions; const InternalKeyComparator& internal_comparator; const std::vector>* int_tbl_prop_collector_factories; CompressionType compression_type; const CompressionOptions& compression_opts; // Data for presetting the compression library's dictionary, or nullptr. const std::string* compression_dict; bool skip_filters; // only used by BlockBasedTableBuilder const std::string& column_family_name; int level; // what level this table/file is on, -1 for "not set, don't know" const uint64_t creation_time; const int64_t oldest_key_time; }; // TableBuilder provides the interface used to build a Table // (an immutable and sorted map from keys to values). // // Multiple threads can invoke const methods on a TableBuilder without // external synchronization, but if any of the threads may call a // non-const method, all threads accessing the same TableBuilder must use // external synchronization. class TableBuilder { public: // REQUIRES: Either Finish() or Abandon() has been called. virtual ~TableBuilder() {} // Add key,value to the table being constructed. // REQUIRES: key is after any previously added key according to comparator. // REQUIRES: Finish(), Abandon() have not been called virtual void Add(const Slice& key, const Slice& value) = 0; // Return non-ok iff some error has been detected. virtual Status status() const = 0; // Finish building the table. // REQUIRES: Finish(), Abandon() have not been called virtual Status Finish() = 0; // Indicate that the contents of this builder should be abandoned. // If the caller is not going to call Finish(), it must call Abandon() // before destroying this builder. // REQUIRES: Finish(), Abandon() have not been called virtual void Abandon() = 0; // Number of calls to Add() so far. virtual uint64_t NumEntries() const = 0; // Size of the file generated so far. If invoked after a successful // Finish() call, returns the size of the final generated file. virtual uint64_t FileSize() const = 0; // If the user defined table properties collector suggest the file to // be further compacted. virtual bool NeedCompact() const { return false; } // Returns table properties virtual TableProperties GetTableProperties() const = 0; }; } // namespace rocksdb rocksdb-5.17.2/table/table_properties.cc000066400000000000000000000230531337235545400202140ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include "rocksdb/table_properties.h" #include "port/port.h" #include "rocksdb/env.h" #include "rocksdb/iterator.h" #include "table/block.h" #include "table/internal_iterator.h" #include "table/table_properties_internal.h" #include "util/string_util.h" namespace rocksdb { const uint32_t TablePropertiesCollectorFactory::Context::kUnknownColumnFamily = port::kMaxInt32; namespace { void AppendProperty( std::string& props, const std::string& key, const std::string& value, const std::string& prop_delim, const std::string& kv_delim) { props.append(key); props.append(kv_delim); props.append(value); props.append(prop_delim); } template void AppendProperty( std::string& props, const std::string& key, const TValue& value, const std::string& prop_delim, const std::string& kv_delim) { AppendProperty( props, key, ToString(value), prop_delim, kv_delim ); } // Seek to the specified meta block. // Return true if it successfully seeks to that block. Status SeekToMetaBlock(InternalIterator* meta_iter, const std::string& block_name, bool* is_found, BlockHandle* block_handle = nullptr) { if (block_handle != nullptr) { *block_handle = BlockHandle::NullBlockHandle(); } *is_found = true; meta_iter->Seek(block_name); if (meta_iter->status().ok()) { if (meta_iter->Valid() && meta_iter->key() == block_name) { *is_found = true; if (block_handle) { Slice v = meta_iter->value(); return block_handle->DecodeFrom(&v); } } else { *is_found = false; return Status::OK(); } } return meta_iter->status(); } } std::string TableProperties::ToString( const std::string& prop_delim, const std::string& kv_delim) const { std::string result; result.reserve(1024); // Basic Info AppendProperty(result, "# data blocks", num_data_blocks, prop_delim, kv_delim); AppendProperty(result, "# entries", num_entries, prop_delim, kv_delim); AppendProperty(result, "# range deletions", num_range_deletions, prop_delim, kv_delim); AppendProperty(result, "raw key size", raw_key_size, prop_delim, kv_delim); AppendProperty(result, "raw average key size", num_entries != 0 ? 1.0 * raw_key_size / num_entries : 0.0, prop_delim, kv_delim); AppendProperty(result, "raw value size", raw_value_size, prop_delim, kv_delim); AppendProperty(result, "raw average value size", num_entries != 0 ? 1.0 * raw_value_size / num_entries : 0.0, prop_delim, kv_delim); AppendProperty(result, "data block size", data_size, prop_delim, kv_delim); char index_block_size_str[80]; snprintf(index_block_size_str, sizeof(index_block_size_str), "index block size (user-key? %d, delta-value? %d)", static_cast(index_key_is_user_key), static_cast(index_value_is_delta_encoded)); AppendProperty(result, index_block_size_str, index_size, prop_delim, kv_delim); if (index_partitions != 0) { AppendProperty(result, "# index partitions", index_partitions, prop_delim, kv_delim); AppendProperty(result, "top-level index size", top_level_index_size, prop_delim, kv_delim); } AppendProperty(result, "filter block size", filter_size, prop_delim, kv_delim); AppendProperty(result, "(estimated) table size", data_size + index_size + filter_size, prop_delim, kv_delim); AppendProperty( result, "filter policy name", filter_policy_name.empty() ? std::string("N/A") : filter_policy_name, prop_delim, kv_delim); AppendProperty(result, "prefix extractor name", prefix_extractor_name.empty() ? std::string("N/A") : prefix_extractor_name, prop_delim, kv_delim); AppendProperty(result, "column family ID", column_family_id == rocksdb::TablePropertiesCollectorFactory:: Context::kUnknownColumnFamily ? std::string("N/A") : rocksdb::ToString(column_family_id), prop_delim, kv_delim); AppendProperty( result, "column family name", column_family_name.empty() ? std::string("N/A") : column_family_name, prop_delim, kv_delim); AppendProperty(result, "comparator name", comparator_name.empty() ? std::string("N/A") : comparator_name, prop_delim, kv_delim); AppendProperty( result, "merge operator name", merge_operator_name.empty() ? std::string("N/A") : merge_operator_name, prop_delim, kv_delim); AppendProperty(result, "property collectors names", property_collectors_names.empty() ? std::string("N/A") : property_collectors_names, prop_delim, kv_delim); AppendProperty( result, "SST file compression algo", compression_name.empty() ? std::string("N/A") : compression_name, prop_delim, kv_delim); AppendProperty(result, "creation time", creation_time, prop_delim, kv_delim); AppendProperty(result, "time stamp of earliest key", oldest_key_time, prop_delim, kv_delim); return result; } void TableProperties::Add(const TableProperties& tp) { data_size += tp.data_size; index_size += tp.index_size; index_partitions += tp.index_partitions; top_level_index_size += tp.top_level_index_size; index_key_is_user_key += tp.index_key_is_user_key; index_value_is_delta_encoded += tp.index_value_is_delta_encoded; filter_size += tp.filter_size; raw_key_size += tp.raw_key_size; raw_value_size += tp.raw_value_size; num_data_blocks += tp.num_data_blocks; num_entries += tp.num_entries; num_range_deletions += tp.num_range_deletions; } const std::string TablePropertiesNames::kDataSize = "rocksdb.data.size"; const std::string TablePropertiesNames::kIndexSize = "rocksdb.index.size"; const std::string TablePropertiesNames::kIndexPartitions = "rocksdb.index.partitions"; const std::string TablePropertiesNames::kTopLevelIndexSize = "rocksdb.top-level.index.size"; const std::string TablePropertiesNames::kIndexKeyIsUserKey = "rocksdb.index.key.is.user.key"; const std::string TablePropertiesNames::kIndexValueIsDeltaEncoded = "rocksdb.index.value.is.delta.encoded"; const std::string TablePropertiesNames::kFilterSize = "rocksdb.filter.size"; const std::string TablePropertiesNames::kRawKeySize = "rocksdb.raw.key.size"; const std::string TablePropertiesNames::kRawValueSize = "rocksdb.raw.value.size"; const std::string TablePropertiesNames::kNumDataBlocks = "rocksdb.num.data.blocks"; const std::string TablePropertiesNames::kNumEntries = "rocksdb.num.entries"; const std::string TablePropertiesNames::kNumRangeDeletions = "rocksdb.num.range-deletions"; const std::string TablePropertiesNames::kFilterPolicy = "rocksdb.filter.policy"; const std::string TablePropertiesNames::kFormatVersion = "rocksdb.format.version"; const std::string TablePropertiesNames::kFixedKeyLen = "rocksdb.fixed.key.length"; const std::string TablePropertiesNames::kColumnFamilyId = "rocksdb.column.family.id"; const std::string TablePropertiesNames::kColumnFamilyName = "rocksdb.column.family.name"; const std::string TablePropertiesNames::kComparator = "rocksdb.comparator"; const std::string TablePropertiesNames::kMergeOperator = "rocksdb.merge.operator"; const std::string TablePropertiesNames::kPrefixExtractorName = "rocksdb.prefix.extractor.name"; const std::string TablePropertiesNames::kPropertyCollectors = "rocksdb.property.collectors"; const std::string TablePropertiesNames::kCompression = "rocksdb.compression"; const std::string TablePropertiesNames::kCreationTime = "rocksdb.creation.time"; const std::string TablePropertiesNames::kOldestKeyTime = "rocksdb.oldest.key.time"; extern const std::string kPropertiesBlock = "rocksdb.properties"; // Old property block name for backward compatibility extern const std::string kPropertiesBlockOldName = "rocksdb.stats"; extern const std::string kCompressionDictBlock = "rocksdb.compression_dict"; extern const std::string kRangeDelBlock = "rocksdb.range_del"; // Seek to the properties block. // Return true if it successfully seeks to the properties block. Status SeekToPropertiesBlock(InternalIterator* meta_iter, bool* is_found) { Status status = SeekToMetaBlock(meta_iter, kPropertiesBlock, is_found); if (!*is_found && status.ok()) { status = SeekToMetaBlock(meta_iter, kPropertiesBlockOldName, is_found); } return status; } // Seek to the compression dictionary block. // Return true if it successfully seeks to that block. Status SeekToCompressionDictBlock(InternalIterator* meta_iter, bool* is_found, BlockHandle* block_handle) { return SeekToMetaBlock(meta_iter, kCompressionDictBlock, is_found, block_handle); } Status SeekToRangeDelBlock(InternalIterator* meta_iter, bool* is_found, BlockHandle* block_handle = nullptr) { return SeekToMetaBlock(meta_iter, kRangeDelBlock, is_found, block_handle); } } // namespace rocksdb rocksdb-5.17.2/table/table_properties_internal.h000066400000000000000000000020521337235545400217460ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #include "rocksdb/status.h" #include "rocksdb/iterator.h" namespace rocksdb { class BlockHandle; // Seek to the properties block. // If it successfully seeks to the properties block, "is_found" will be // set to true. Status SeekToPropertiesBlock(InternalIterator* meta_iter, bool* is_found); // Seek to the compression dictionary block. // If it successfully seeks to the properties block, "is_found" will be // set to true. Status SeekToCompressionDictBlock(InternalIterator* meta_iter, bool* is_found, BlockHandle* block_handle); // TODO(andrewkr) should not put all meta block in table_properties.h/cc Status SeekToRangeDelBlock(InternalIterator* meta_iter, bool* is_found, BlockHandle* block_handle); } // namespace rocksdb rocksdb-5.17.2/table/table_reader.h000066400000000000000000000112141337235545400171200ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #include #include "rocksdb/slice_transform.h" #include "table/internal_iterator.h" namespace rocksdb { class Iterator; struct ParsedInternalKey; class Slice; class Arena; struct ReadOptions; struct TableProperties; class GetContext; // A Table is a sorted map from strings to strings. Tables are // immutable and persistent. A Table may be safely accessed from // multiple threads without external synchronization. class TableReader { public: virtual ~TableReader() {} // Returns a new iterator over the table contents. // The result of NewIterator() is initially invalid (caller must // call one of the Seek methods on the iterator before using it). // arena: If not null, the arena needs to be used to allocate the Iterator. // When destroying the iterator, the caller will not call "delete" // but Iterator::~Iterator() directly. The destructor needs to destroy // all the states but those allocated in arena. // skip_filters: disables checking the bloom filters even if they exist. This // option is effective only for block-based table format. virtual InternalIterator* NewIterator(const ReadOptions&, const SliceTransform* prefix_extractor, Arena* arena = nullptr, bool skip_filters = false, bool for_compaction = false) = 0; virtual InternalIterator* NewRangeTombstoneIterator( const ReadOptions& /*read_options*/) { return nullptr; } // Given a key, return an approximate byte offset in the file where // the data for that key begins (or would begin if the key were // present in the file). The returned value is in terms of file // bytes, and so includes effects like compression of the underlying data. // E.g., the approximate offset of the last key in the table will // be close to the file length. virtual uint64_t ApproximateOffsetOf(const Slice& key) = 0; // Set up the table for Compaction. Might change some parameters with // posix_fadvise virtual void SetupForCompaction() = 0; virtual std::shared_ptr GetTableProperties() const = 0; // Prepare work that can be done before the real Get() virtual void Prepare(const Slice& /*target*/) {} // Report an approximation of how much memory has been used. virtual size_t ApproximateMemoryUsage() const = 0; // Calls get_context->SaveValue() repeatedly, starting with // the entry found after a call to Seek(key), until it returns false. // May not make such a call if filter policy says that key is not present. // // get_context->MarkKeyMayExist needs to be called when it is configured to be // memory only and the key is not found in the block cache. // // readOptions is the options for the read // key is the key to search for // skip_filters: disables checking the bloom filters even if they exist. This // option is effective only for block-based table format. virtual Status Get(const ReadOptions& readOptions, const Slice& key, GetContext* get_context, const SliceTransform* prefix_extractor, bool skip_filters = false) = 0; // Prefetch data corresponding to a give range of keys // Typically this functionality is required for table implementations that // persists the data on a non volatile storage medium like disk/SSD virtual Status Prefetch(const Slice* begin = nullptr, const Slice* end = nullptr) { (void) begin; (void) end; // Default implementation is NOOP. // The child class should implement functionality when applicable return Status::OK(); } // convert db file to a human readable form virtual Status DumpTable(WritableFile* /*out_file*/, const SliceTransform* /*prefix_extractor*/) { return Status::NotSupported("DumpTable() not supported"); } // check whether there is corruption in this db file virtual Status VerifyChecksum() { return Status::NotSupported("VerifyChecksum() not supported"); } virtual void Close() {} }; } // namespace rocksdb rocksdb-5.17.2/table/table_reader_bench.cc000066400000000000000000000306361337235545400204260ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #ifndef GFLAGS #include int main() { fprintf(stderr, "Please install gflags to run rocksdb tools\n"); return 1; } #else #include "db/db_impl.h" #include "db/dbformat.h" #include "monitoring/histogram.h" #include "rocksdb/db.h" #include "rocksdb/slice_transform.h" #include "rocksdb/table.h" #include "table/block_based_table_factory.h" #include "table/get_context.h" #include "table/internal_iterator.h" #include "table/plain_table_factory.h" #include "table/table_builder.h" #include "util/file_reader_writer.h" #include "util/gflags_compat.h" #include "util/testharness.h" #include "util/testutil.h" using GFLAGS_NAMESPACE::ParseCommandLineFlags; using GFLAGS_NAMESPACE::SetUsageMessage; namespace rocksdb { namespace { // Make a key that i determines the first 4 characters and j determines the // last 4 characters. static std::string MakeKey(int i, int j, bool through_db) { char buf[100]; snprintf(buf, sizeof(buf), "%04d__key___%04d", i, j); if (through_db) { return std::string(buf); } // If we directly query table, which operates on internal keys // instead of user keys, we need to add 8 bytes of internal // information (row type etc) to user key to make an internal // key. InternalKey key(std::string(buf), 0, ValueType::kTypeValue); return key.Encode().ToString(); } uint64_t Now(Env* env, bool measured_by_nanosecond) { return measured_by_nanosecond ? env->NowNanos() : env->NowMicros(); } } // namespace // A very simple benchmark that. // Create a table with roughly numKey1 * numKey2 keys, // where there are numKey1 prefixes of the key, each has numKey2 number of // distinguished key, differing in the suffix part. // If if_query_empty_keys = false, query the existing keys numKey1 * numKey2 // times randomly. // If if_query_empty_keys = true, query numKey1 * numKey2 random empty keys. // Print out the total time. // If through_db=true, a full DB will be created and queries will be against // it. Otherwise, operations will be directly through table level. // // If for_terator=true, instead of just query one key each time, it queries // a range sharing the same prefix. namespace { void TableReaderBenchmark(Options& opts, EnvOptions& env_options, ReadOptions& read_options, int num_keys1, int num_keys2, int num_iter, int /*prefix_len*/, bool if_query_empty_keys, bool for_iterator, bool through_db, bool measured_by_nanosecond) { rocksdb::InternalKeyComparator ikc(opts.comparator); std::string file_name = test::PerThreadDBPath("rocksdb_table_reader_benchmark"); std::string dbname = test::PerThreadDBPath("rocksdb_table_reader_bench_db"); WriteOptions wo; Env* env = Env::Default(); TableBuilder* tb = nullptr; DB* db = nullptr; Status s; const ImmutableCFOptions ioptions(opts); const ColumnFamilyOptions cfo(opts); const MutableCFOptions moptions(cfo); unique_ptr file_writer; if (!through_db) { unique_ptr file; env->NewWritableFile(file_name, &file, env_options); std::vector > int_tbl_prop_collector_factories; file_writer.reset( new WritableFileWriter(std::move(file), file_name, env_options)); int unknown_level = -1; tb = opts.table_factory->NewTableBuilder( TableBuilderOptions( ioptions, moptions, ikc, &int_tbl_prop_collector_factories, CompressionType::kNoCompression, CompressionOptions(), nullptr /* compression_dict */, false /* skip_filters */, kDefaultColumnFamilyName, unknown_level), 0 /* column_family_id */, file_writer.get()); } else { s = DB::Open(opts, dbname, &db); ASSERT_OK(s); ASSERT_TRUE(db != nullptr); } // Populate slightly more than 1M keys for (int i = 0; i < num_keys1; i++) { for (int j = 0; j < num_keys2; j++) { std::string key = MakeKey(i * 2, j, through_db); if (!through_db) { tb->Add(key, key); } else { db->Put(wo, key, key); } } } if (!through_db) { tb->Finish(); file_writer->Close(); } else { db->Flush(FlushOptions()); } unique_ptr table_reader; if (!through_db) { unique_ptr raf; s = env->NewRandomAccessFile(file_name, &raf, env_options); if (!s.ok()) { fprintf(stderr, "Create File Error: %s\n", s.ToString().c_str()); exit(1); } uint64_t file_size; env->GetFileSize(file_name, &file_size); unique_ptr file_reader( new RandomAccessFileReader(std::move(raf), file_name)); s = opts.table_factory->NewTableReader( TableReaderOptions(ioptions, moptions.prefix_extractor.get(), env_options, ikc), std::move(file_reader), file_size, &table_reader); if (!s.ok()) { fprintf(stderr, "Open Table Error: %s\n", s.ToString().c_str()); exit(1); } } Random rnd(301); std::string result; HistogramImpl hist; for (int it = 0; it < num_iter; it++) { for (int i = 0; i < num_keys1; i++) { for (int j = 0; j < num_keys2; j++) { int r1 = rnd.Uniform(num_keys1) * 2; int r2 = rnd.Uniform(num_keys2); if (if_query_empty_keys) { r1++; r2 = num_keys2 * 2 - r2; } if (!for_iterator) { // Query one existing key; std::string key = MakeKey(r1, r2, through_db); uint64_t start_time = Now(env, measured_by_nanosecond); if (!through_db) { PinnableSlice value; MergeContext merge_context; RangeDelAggregator range_del_agg(ikc, {} /* snapshots */); GetContext get_context(ioptions.user_comparator, ioptions.merge_operator, ioptions.info_log, ioptions.statistics, GetContext::kNotFound, Slice(key), &value, nullptr, &merge_context, &range_del_agg, env); s = table_reader->Get(read_options, key, &get_context, nullptr); } else { s = db->Get(read_options, key, &result); } hist.Add(Now(env, measured_by_nanosecond) - start_time); } else { int r2_len; if (if_query_empty_keys) { r2_len = 0; } else { r2_len = rnd.Uniform(num_keys2) + 1; if (r2_len + r2 > num_keys2) { r2_len = num_keys2 - r2; } } std::string start_key = MakeKey(r1, r2, through_db); std::string end_key = MakeKey(r1, r2 + r2_len, through_db); uint64_t total_time = 0; uint64_t start_time = Now(env, measured_by_nanosecond); Iterator* iter = nullptr; InternalIterator* iiter = nullptr; if (!through_db) { iiter = table_reader->NewIterator(read_options, nullptr); } else { iter = db->NewIterator(read_options); } int count = 0; for (through_db ? iter->Seek(start_key) : iiter->Seek(start_key); through_db ? iter->Valid() : iiter->Valid(); through_db ? iter->Next() : iiter->Next()) { if (if_query_empty_keys) { break; } // verify key; total_time += Now(env, measured_by_nanosecond) - start_time; assert(Slice(MakeKey(r1, r2 + count, through_db)) == (through_db ? iter->key() : iiter->key())); start_time = Now(env, measured_by_nanosecond); if (++count >= r2_len) { break; } } if (count != r2_len) { fprintf( stderr, "Iterator cannot iterate expected number of entries. " "Expected %d but got %d\n", r2_len, count); assert(false); } delete iter; total_time += Now(env, measured_by_nanosecond) - start_time; hist.Add(total_time); } } } } fprintf( stderr, "===================================================" "====================================================\n" "InMemoryTableSimpleBenchmark: %20s num_key1: %5d " "num_key2: %5d %10s\n" "===================================================" "====================================================" "\nHistogram (unit: %s): \n%s", opts.table_factory->Name(), num_keys1, num_keys2, for_iterator ? "iterator" : (if_query_empty_keys ? "empty" : "non_empty"), measured_by_nanosecond ? "nanosecond" : "microsecond", hist.ToString().c_str()); if (!through_db) { env->DeleteFile(file_name); } else { delete db; db = nullptr; DestroyDB(dbname, opts); } } } // namespace } // namespace rocksdb DEFINE_bool(query_empty, false, "query non-existing keys instead of existing " "ones."); DEFINE_int32(num_keys1, 4096, "number of distinguish prefix of keys"); DEFINE_int32(num_keys2, 512, "number of distinguish keys for each prefix"); DEFINE_int32(iter, 3, "query non-existing keys instead of existing ones"); DEFINE_int32(prefix_len, 16, "Prefix length used for iterators and indexes"); DEFINE_bool(iterator, false, "For test iterator"); DEFINE_bool(through_db, false, "If enable, a DB instance will be created and " "the query will be against DB. Otherwise, will be directly against " "a table reader."); DEFINE_bool(mmap_read, true, "Whether use mmap read"); DEFINE_string(table_factory, "block_based", "Table factory to use: `block_based` (default), `plain_table` or " "`cuckoo_hash`."); DEFINE_string(time_unit, "microsecond", "The time unit used for measuring performance. User can specify " "`microsecond` (default) or `nanosecond`"); int main(int argc, char** argv) { SetUsageMessage(std::string("\nUSAGE:\n") + std::string(argv[0]) + " [OPTIONS]..."); ParseCommandLineFlags(&argc, &argv, true); std::shared_ptr tf; rocksdb::Options options; if (FLAGS_prefix_len < 16) { options.prefix_extractor.reset(rocksdb::NewFixedPrefixTransform( FLAGS_prefix_len)); } rocksdb::ReadOptions ro; rocksdb::EnvOptions env_options; options.create_if_missing = true; options.compression = rocksdb::CompressionType::kNoCompression; if (FLAGS_table_factory == "cuckoo_hash") { #ifndef ROCKSDB_LITE options.allow_mmap_reads = FLAGS_mmap_read; env_options.use_mmap_reads = FLAGS_mmap_read; rocksdb::CuckooTableOptions table_options; table_options.hash_table_ratio = 0.75; tf.reset(rocksdb::NewCuckooTableFactory(table_options)); #else fprintf(stderr, "Plain table is not supported in lite mode\n"); exit(1); #endif // ROCKSDB_LITE } else if (FLAGS_table_factory == "plain_table") { #ifndef ROCKSDB_LITE options.allow_mmap_reads = FLAGS_mmap_read; env_options.use_mmap_reads = FLAGS_mmap_read; rocksdb::PlainTableOptions plain_table_options; plain_table_options.user_key_len = 16; plain_table_options.bloom_bits_per_key = (FLAGS_prefix_len == 16) ? 0 : 8; plain_table_options.hash_table_ratio = 0.75; tf.reset(new rocksdb::PlainTableFactory(plain_table_options)); options.prefix_extractor.reset(rocksdb::NewFixedPrefixTransform( FLAGS_prefix_len)); #else fprintf(stderr, "Cuckoo table is not supported in lite mode\n"); exit(1); #endif // ROCKSDB_LITE } else if (FLAGS_table_factory == "block_based") { tf.reset(new rocksdb::BlockBasedTableFactory()); } else { fprintf(stderr, "Invalid table type %s\n", FLAGS_table_factory.c_str()); } if (tf) { // if user provides invalid options, just fall back to microsecond. bool measured_by_nanosecond = FLAGS_time_unit == "nanosecond"; options.table_factory = tf; rocksdb::TableReaderBenchmark(options, env_options, ro, FLAGS_num_keys1, FLAGS_num_keys2, FLAGS_iter, FLAGS_prefix_len, FLAGS_query_empty, FLAGS_iterator, FLAGS_through_db, measured_by_nanosecond); } else { return 1; } return 0; } #endif // GFLAGS rocksdb-5.17.2/table/table_test.cc000066400000000000000000004173411337235545400170060ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include #include #include #include #include #include #include #include "cache/lru_cache.h" #include "db/dbformat.h" #include "db/memtable.h" #include "db/write_batch_internal.h" #include "memtable/stl_wrappers.h" #include "monitoring/statistics.h" #include "port/port.h" #include "rocksdb/cache.h" #include "rocksdb/db.h" #include "rocksdb/env.h" #include "rocksdb/iterator.h" #include "rocksdb/memtablerep.h" #include "rocksdb/perf_context.h" #include "rocksdb/slice_transform.h" #include "rocksdb/statistics.h" #include "rocksdb/write_buffer_manager.h" #include "table/block.h" #include "table/block_based_table_builder.h" #include "table/block_based_table_factory.h" #include "table/block_based_table_reader.h" #include "table/block_builder.h" #include "table/block_fetcher.h" #include "table/format.h" #include "table/get_context.h" #include "table/internal_iterator.h" #include "table/meta_blocks.h" #include "table/plain_table_factory.h" #include "table/scoped_arena_iterator.h" #include "table/sst_file_writer_collectors.h" #include "util/compression.h" #include "util/random.h" #include "util/string_util.h" #include "util/sync_point.h" #include "util/testharness.h" #include "util/testutil.h" #include "utilities/merge_operators.h" namespace rocksdb { extern const uint64_t kLegacyBlockBasedTableMagicNumber; extern const uint64_t kLegacyPlainTableMagicNumber; extern const uint64_t kBlockBasedTableMagicNumber; extern const uint64_t kPlainTableMagicNumber; namespace { // DummyPropertiesCollector used to test BlockBasedTableProperties class DummyPropertiesCollector : public TablePropertiesCollector { public: const char* Name() const { return ""; } Status Finish(UserCollectedProperties* /*properties*/) { return Status::OK(); } Status Add(const Slice& /*user_key*/, const Slice& /*value*/) { return Status::OK(); } virtual UserCollectedProperties GetReadableProperties() const { return UserCollectedProperties{}; } }; class DummyPropertiesCollectorFactory1 : public TablePropertiesCollectorFactory { public: virtual TablePropertiesCollector* CreateTablePropertiesCollector( TablePropertiesCollectorFactory::Context /*context*/) { return new DummyPropertiesCollector(); } const char* Name() const { return "DummyPropertiesCollector1"; } }; class DummyPropertiesCollectorFactory2 : public TablePropertiesCollectorFactory { public: virtual TablePropertiesCollector* CreateTablePropertiesCollector( TablePropertiesCollectorFactory::Context /*context*/) { return new DummyPropertiesCollector(); } const char* Name() const { return "DummyPropertiesCollector2"; } }; // Return reverse of "key". // Used to test non-lexicographic comparators. std::string Reverse(const Slice& key) { auto rev = key.ToString(); std::reverse(rev.begin(), rev.end()); return rev; } class ReverseKeyComparator : public Comparator { public: virtual const char* Name() const override { return "rocksdb.ReverseBytewiseComparator"; } virtual int Compare(const Slice& a, const Slice& b) const override { return BytewiseComparator()->Compare(Reverse(a), Reverse(b)); } virtual void FindShortestSeparator(std::string* start, const Slice& limit) const override { std::string s = Reverse(*start); std::string l = Reverse(limit); BytewiseComparator()->FindShortestSeparator(&s, l); *start = Reverse(s); } virtual void FindShortSuccessor(std::string* key) const override { std::string s = Reverse(*key); BytewiseComparator()->FindShortSuccessor(&s); *key = Reverse(s); } }; ReverseKeyComparator reverse_key_comparator; void Increment(const Comparator* cmp, std::string* key) { if (cmp == BytewiseComparator()) { key->push_back('\0'); } else { assert(cmp == &reverse_key_comparator); std::string rev = Reverse(*key); rev.push_back('\0'); *key = Reverse(rev); } } } // namespace // Helper class for tests to unify the interface between // BlockBuilder/TableBuilder and Block/Table. class Constructor { public: explicit Constructor(const Comparator* cmp) : data_(stl_wrappers::LessOfComparator(cmp)) {} virtual ~Constructor() { } void Add(const std::string& key, const Slice& value) { data_[key] = value.ToString(); } // Finish constructing the data structure with all the keys that have // been added so far. Returns the keys in sorted order in "*keys" // and stores the key/value pairs in "*kvmap" void Finish(const Options& options, const ImmutableCFOptions& ioptions, const MutableCFOptions& moptions, const BlockBasedTableOptions& table_options, const InternalKeyComparator& internal_comparator, std::vector* keys, stl_wrappers::KVMap* kvmap) { last_internal_key_ = &internal_comparator; *kvmap = data_; keys->clear(); for (const auto& kv : data_) { keys->push_back(kv.first); } data_.clear(); Status s = FinishImpl(options, ioptions, moptions, table_options, internal_comparator, *kvmap); ASSERT_TRUE(s.ok()) << s.ToString(); } // Construct the data structure from the data in "data" virtual Status FinishImpl(const Options& options, const ImmutableCFOptions& ioptions, const MutableCFOptions& moptions, const BlockBasedTableOptions& table_options, const InternalKeyComparator& internal_comparator, const stl_wrappers::KVMap& data) = 0; virtual InternalIterator* NewIterator( const SliceTransform* prefix_extractor = nullptr) const = 0; virtual const stl_wrappers::KVMap& data() { return data_; } virtual bool IsArenaMode() const { return false; } virtual DB* db() const { return nullptr; } // Overridden in DBConstructor virtual bool AnywayDeleteIterator() const { return false; } protected: const InternalKeyComparator* last_internal_key_; private: stl_wrappers::KVMap data_; }; class BlockConstructor: public Constructor { public: explicit BlockConstructor(const Comparator* cmp) : Constructor(cmp), comparator_(cmp), block_(nullptr) { } ~BlockConstructor() { delete block_; } virtual Status FinishImpl( const Options& /*options*/, const ImmutableCFOptions& /*ioptions*/, const MutableCFOptions& /*moptions*/, const BlockBasedTableOptions& table_options, const InternalKeyComparator& /*internal_comparator*/, const stl_wrappers::KVMap& kv_map) override { delete block_; block_ = nullptr; BlockBuilder builder(table_options.block_restart_interval); for (const auto kv : kv_map) { builder.Add(kv.first, kv.second); } // Open the block data_ = builder.Finish().ToString(); BlockContents contents; contents.data = data_; contents.cachable = false; block_ = new Block(std::move(contents), kDisableGlobalSequenceNumber); return Status::OK(); } virtual InternalIterator* NewIterator( const SliceTransform* /*prefix_extractor*/) const override { return block_->NewIterator(comparator_, comparator_); } private: const Comparator* comparator_; std::string data_; Block* block_; BlockConstructor(); }; // A helper class that converts internal format keys into user keys class KeyConvertingIterator : public InternalIterator { public: explicit KeyConvertingIterator(InternalIterator* iter, bool arena_mode = false) : iter_(iter), arena_mode_(arena_mode) {} virtual ~KeyConvertingIterator() { if (arena_mode_) { iter_->~InternalIterator(); } else { delete iter_; } } virtual bool Valid() const override { return iter_->Valid() && status_.ok(); } virtual void Seek(const Slice& target) override { ParsedInternalKey ikey(target, kMaxSequenceNumber, kTypeValue); std::string encoded; AppendInternalKey(&encoded, ikey); iter_->Seek(encoded); } virtual void SeekForPrev(const Slice& target) override { ParsedInternalKey ikey(target, kMaxSequenceNumber, kTypeValue); std::string encoded; AppendInternalKey(&encoded, ikey); iter_->SeekForPrev(encoded); } virtual void SeekToFirst() override { iter_->SeekToFirst(); } virtual void SeekToLast() override { iter_->SeekToLast(); } virtual void Next() override { iter_->Next(); } virtual void Prev() override { iter_->Prev(); } virtual Slice key() const override { assert(Valid()); ParsedInternalKey parsed_key; if (!ParseInternalKey(iter_->key(), &parsed_key)) { status_ = Status::Corruption("malformed internal key"); return Slice("corrupted key"); } return parsed_key.user_key; } virtual Slice value() const override { return iter_->value(); } virtual Status status() const override { return status_.ok() ? iter_->status() : status_; } private: mutable Status status_; InternalIterator* iter_; bool arena_mode_; // No copying allowed KeyConvertingIterator(const KeyConvertingIterator&); void operator=(const KeyConvertingIterator&); }; class TableConstructor: public Constructor { public: explicit TableConstructor(const Comparator* cmp, bool convert_to_internal_key = false, int level = -1) : Constructor(cmp), convert_to_internal_key_(convert_to_internal_key), level_(level) {} ~TableConstructor() { Reset(); } virtual Status FinishImpl(const Options& options, const ImmutableCFOptions& ioptions, const MutableCFOptions& moptions, const BlockBasedTableOptions& /*table_options*/, const InternalKeyComparator& internal_comparator, const stl_wrappers::KVMap& kv_map) override { Reset(); soptions.use_mmap_reads = ioptions.allow_mmap_reads; file_writer_.reset(test::GetWritableFileWriter(new test::StringSink(), "" /* don't care */)); unique_ptr builder; std::vector> int_tbl_prop_collector_factories; std::string column_family_name; builder.reset(ioptions.table_factory->NewTableBuilder( TableBuilderOptions( ioptions, moptions, internal_comparator, &int_tbl_prop_collector_factories, options.compression, CompressionOptions(), nullptr /* compression_dict */, false /* skip_filters */, column_family_name, level_), TablePropertiesCollectorFactory::Context::kUnknownColumnFamily, file_writer_.get())); for (const auto kv : kv_map) { if (convert_to_internal_key_) { ParsedInternalKey ikey(kv.first, kMaxSequenceNumber, kTypeValue); std::string encoded; AppendInternalKey(&encoded, ikey); builder->Add(encoded, kv.second); } else { builder->Add(kv.first, kv.second); } EXPECT_TRUE(builder->status().ok()); } Status s = builder->Finish(); file_writer_->Flush(); EXPECT_TRUE(s.ok()) << s.ToString(); EXPECT_EQ(TEST_GetSink()->contents().size(), builder->FileSize()); // Open the table uniq_id_ = cur_uniq_id_++; file_reader_.reset(test::GetRandomAccessFileReader(new test::StringSource( TEST_GetSink()->contents(), uniq_id_, ioptions.allow_mmap_reads))); const bool kSkipFilters = true; const bool kImmortal = true; return ioptions.table_factory->NewTableReader( TableReaderOptions(ioptions, moptions.prefix_extractor.get(), soptions, internal_comparator, !kSkipFilters, !kImmortal, level_), std::move(file_reader_), TEST_GetSink()->contents().size(), &table_reader_); } virtual InternalIterator* NewIterator( const SliceTransform* prefix_extractor) const override { ReadOptions ro; InternalIterator* iter = table_reader_->NewIterator(ro, prefix_extractor); if (convert_to_internal_key_) { return new KeyConvertingIterator(iter); } else { return iter; } } uint64_t ApproximateOffsetOf(const Slice& key) const { if (convert_to_internal_key_) { InternalKey ikey(key, kMaxSequenceNumber, kTypeValue); const Slice skey = ikey.Encode(); return table_reader_->ApproximateOffsetOf(skey); } return table_reader_->ApproximateOffsetOf(key); } virtual Status Reopen(const ImmutableCFOptions& ioptions, const MutableCFOptions& moptions) { file_reader_.reset(test::GetRandomAccessFileReader(new test::StringSource( TEST_GetSink()->contents(), uniq_id_, ioptions.allow_mmap_reads))); return ioptions.table_factory->NewTableReader( TableReaderOptions(ioptions, moptions.prefix_extractor.get(), soptions, *last_internal_key_), std::move(file_reader_), TEST_GetSink()->contents().size(), &table_reader_); } virtual TableReader* GetTableReader() { return table_reader_.get(); } virtual bool AnywayDeleteIterator() const override { return convert_to_internal_key_; } void ResetTableReader() { table_reader_.reset(); } bool ConvertToInternalKey() { return convert_to_internal_key_; } test::StringSink* TEST_GetSink() { return static_cast(file_writer_->writable_file()); } private: void Reset() { uniq_id_ = 0; table_reader_.reset(); file_writer_.reset(); file_reader_.reset(); } uint64_t uniq_id_; unique_ptr file_writer_; unique_ptr file_reader_; unique_ptr table_reader_; bool convert_to_internal_key_; int level_; TableConstructor(); static uint64_t cur_uniq_id_; EnvOptions soptions; }; uint64_t TableConstructor::cur_uniq_id_ = 1; class MemTableConstructor: public Constructor { public: explicit MemTableConstructor(const Comparator* cmp, WriteBufferManager* wb) : Constructor(cmp), internal_comparator_(cmp), write_buffer_manager_(wb), table_factory_(new SkipListFactory) { options_.memtable_factory = table_factory_; ImmutableCFOptions ioptions(options_); memtable_ = new MemTable(internal_comparator_, ioptions, MutableCFOptions(options_), wb, kMaxSequenceNumber, 0 /* column_family_id */); memtable_->Ref(); } ~MemTableConstructor() { delete memtable_->Unref(); } virtual Status FinishImpl( const Options&, const ImmutableCFOptions& ioptions, const MutableCFOptions& /*moptions*/, const BlockBasedTableOptions& /*table_options*/, const InternalKeyComparator& /*internal_comparator*/, const stl_wrappers::KVMap& kv_map) override { delete memtable_->Unref(); ImmutableCFOptions mem_ioptions(ioptions); memtable_ = new MemTable(internal_comparator_, mem_ioptions, MutableCFOptions(options_), write_buffer_manager_, kMaxSequenceNumber, 0 /* column_family_id */); memtable_->Ref(); int seq = 1; for (const auto kv : kv_map) { memtable_->Add(seq, kTypeValue, kv.first, kv.second); seq++; } return Status::OK(); } virtual InternalIterator* NewIterator( const SliceTransform* /*prefix_extractor*/) const override { return new KeyConvertingIterator( memtable_->NewIterator(ReadOptions(), &arena_), true); } virtual bool AnywayDeleteIterator() const override { return true; } virtual bool IsArenaMode() const override { return true; } private: mutable Arena arena_; InternalKeyComparator internal_comparator_; Options options_; WriteBufferManager* write_buffer_manager_; MemTable* memtable_; std::shared_ptr table_factory_; }; class InternalIteratorFromIterator : public InternalIterator { public: explicit InternalIteratorFromIterator(Iterator* it) : it_(it) {} virtual bool Valid() const override { return it_->Valid(); } virtual void Seek(const Slice& target) override { it_->Seek(target); } virtual void SeekForPrev(const Slice& target) override { it_->SeekForPrev(target); } virtual void SeekToFirst() override { it_->SeekToFirst(); } virtual void SeekToLast() override { it_->SeekToLast(); } virtual void Next() override { it_->Next(); } virtual void Prev() override { it_->Prev(); } Slice key() const override { return it_->key(); } Slice value() const override { return it_->value(); } virtual Status status() const override { return it_->status(); } private: unique_ptr it_; }; class DBConstructor: public Constructor { public: explicit DBConstructor(const Comparator* cmp) : Constructor(cmp), comparator_(cmp) { db_ = nullptr; NewDB(); } ~DBConstructor() { delete db_; } virtual Status FinishImpl( const Options& /*options*/, const ImmutableCFOptions& /*ioptions*/, const MutableCFOptions& /*moptions*/, const BlockBasedTableOptions& /*table_options*/, const InternalKeyComparator& /*internal_comparator*/, const stl_wrappers::KVMap& kv_map) override { delete db_; db_ = nullptr; NewDB(); for (const auto kv : kv_map) { WriteBatch batch; batch.Put(kv.first, kv.second); EXPECT_TRUE(db_->Write(WriteOptions(), &batch).ok()); } return Status::OK(); } virtual InternalIterator* NewIterator( const SliceTransform* /*prefix_extractor*/) const override { return new InternalIteratorFromIterator(db_->NewIterator(ReadOptions())); } virtual DB* db() const override { return db_; } private: void NewDB() { std::string name = test::PerThreadDBPath("table_testdb"); Options options; options.comparator = comparator_; Status status = DestroyDB(name, options); ASSERT_TRUE(status.ok()) << status.ToString(); options.create_if_missing = true; options.error_if_exists = true; options.write_buffer_size = 10000; // Something small to force merging status = DB::Open(options, name, &db_); ASSERT_TRUE(status.ok()) << status.ToString(); } const Comparator* comparator_; DB* db_; }; enum TestType { BLOCK_BASED_TABLE_TEST, #ifndef ROCKSDB_LITE PLAIN_TABLE_SEMI_FIXED_PREFIX, PLAIN_TABLE_FULL_STR_PREFIX, PLAIN_TABLE_TOTAL_ORDER, #endif // !ROCKSDB_LITE BLOCK_TEST, MEMTABLE_TEST, DB_TEST }; struct TestArgs { TestType type; bool reverse_compare; int restart_interval; CompressionType compression; uint32_t format_version; bool use_mmap; }; static std::vector GenerateArgList() { std::vector test_args; std::vector test_types = { BLOCK_BASED_TABLE_TEST, #ifndef ROCKSDB_LITE PLAIN_TABLE_SEMI_FIXED_PREFIX, PLAIN_TABLE_FULL_STR_PREFIX, PLAIN_TABLE_TOTAL_ORDER, #endif // !ROCKSDB_LITE BLOCK_TEST, MEMTABLE_TEST, DB_TEST}; std::vector reverse_compare_types = {false, true}; std::vector restart_intervals = {16, 1, 1024}; // Only add compression if it is supported std::vector> compression_types; compression_types.emplace_back(kNoCompression, false); if (Snappy_Supported()) { compression_types.emplace_back(kSnappyCompression, false); } if (Zlib_Supported()) { compression_types.emplace_back(kZlibCompression, false); compression_types.emplace_back(kZlibCompression, true); } if (BZip2_Supported()) { compression_types.emplace_back(kBZip2Compression, false); compression_types.emplace_back(kBZip2Compression, true); } if (LZ4_Supported()) { compression_types.emplace_back(kLZ4Compression, false); compression_types.emplace_back(kLZ4Compression, true); compression_types.emplace_back(kLZ4HCCompression, false); compression_types.emplace_back(kLZ4HCCompression, true); } if (XPRESS_Supported()) { compression_types.emplace_back(kXpressCompression, false); compression_types.emplace_back(kXpressCompression, true); } if (ZSTD_Supported()) { compression_types.emplace_back(kZSTD, false); compression_types.emplace_back(kZSTD, true); } for (auto test_type : test_types) { for (auto reverse_compare : reverse_compare_types) { #ifndef ROCKSDB_LITE if (test_type == PLAIN_TABLE_SEMI_FIXED_PREFIX || test_type == PLAIN_TABLE_FULL_STR_PREFIX || test_type == PLAIN_TABLE_TOTAL_ORDER) { // Plain table doesn't use restart index or compression. TestArgs one_arg; one_arg.type = test_type; one_arg.reverse_compare = reverse_compare; one_arg.restart_interval = restart_intervals[0]; one_arg.compression = compression_types[0].first; one_arg.use_mmap = true; test_args.push_back(one_arg); one_arg.use_mmap = false; test_args.push_back(one_arg); continue; } #endif // !ROCKSDB_LITE for (auto restart_interval : restart_intervals) { for (auto compression_type : compression_types) { TestArgs one_arg; one_arg.type = test_type; one_arg.reverse_compare = reverse_compare; one_arg.restart_interval = restart_interval; one_arg.compression = compression_type.first; one_arg.format_version = compression_type.second ? 2 : 1; one_arg.use_mmap = false; test_args.push_back(one_arg); } } } } return test_args; } // In order to make all tests run for plain table format, including // those operating on empty keys, create a new prefix transformer which // return fixed prefix if the slice is not shorter than the prefix length, // and the full slice if it is shorter. class FixedOrLessPrefixTransform : public SliceTransform { private: const size_t prefix_len_; public: explicit FixedOrLessPrefixTransform(size_t prefix_len) : prefix_len_(prefix_len) { } virtual const char* Name() const override { return "rocksdb.FixedPrefix"; } virtual Slice Transform(const Slice& src) const override { assert(InDomain(src)); if (src.size() < prefix_len_) { return src; } return Slice(src.data(), prefix_len_); } virtual bool InDomain(const Slice& /*src*/) const override { return true; } virtual bool InRange(const Slice& dst) const override { return (dst.size() <= prefix_len_); } virtual bool FullLengthEnabled(size_t* /*len*/) const override { return false; } }; class HarnessTest : public testing::Test { public: HarnessTest() : ioptions_(options_), moptions_(options_), constructor_(nullptr), write_buffer_(options_.db_write_buffer_size) {} void Init(const TestArgs& args) { delete constructor_; constructor_ = nullptr; options_ = Options(); options_.compression = args.compression; // Use shorter block size for tests to exercise block boundary // conditions more. if (args.reverse_compare) { options_.comparator = &reverse_key_comparator; } internal_comparator_.reset( new test::PlainInternalKeyComparator(options_.comparator)); support_prev_ = true; only_support_prefix_seek_ = false; options_.allow_mmap_reads = args.use_mmap; switch (args.type) { case BLOCK_BASED_TABLE_TEST: table_options_.flush_block_policy_factory.reset( new FlushBlockBySizePolicyFactory()); table_options_.block_size = 256; table_options_.block_restart_interval = args.restart_interval; table_options_.index_block_restart_interval = args.restart_interval; table_options_.format_version = args.format_version; options_.table_factory.reset( new BlockBasedTableFactory(table_options_)); constructor_ = new TableConstructor( options_.comparator, true /* convert_to_internal_key_ */); internal_comparator_.reset( new InternalKeyComparator(options_.comparator)); break; // Plain table is not supported in ROCKSDB_LITE #ifndef ROCKSDB_LITE case PLAIN_TABLE_SEMI_FIXED_PREFIX: support_prev_ = false; only_support_prefix_seek_ = true; options_.prefix_extractor.reset(new FixedOrLessPrefixTransform(2)); options_.table_factory.reset(NewPlainTableFactory()); constructor_ = new TableConstructor( options_.comparator, true /* convert_to_internal_key_ */); internal_comparator_.reset( new InternalKeyComparator(options_.comparator)); break; case PLAIN_TABLE_FULL_STR_PREFIX: support_prev_ = false; only_support_prefix_seek_ = true; options_.prefix_extractor.reset(NewNoopTransform()); options_.table_factory.reset(NewPlainTableFactory()); constructor_ = new TableConstructor( options_.comparator, true /* convert_to_internal_key_ */); internal_comparator_.reset( new InternalKeyComparator(options_.comparator)); break; case PLAIN_TABLE_TOTAL_ORDER: support_prev_ = false; only_support_prefix_seek_ = false; options_.prefix_extractor = nullptr; { PlainTableOptions plain_table_options; plain_table_options.user_key_len = kPlainTableVariableLength; plain_table_options.bloom_bits_per_key = 0; plain_table_options.hash_table_ratio = 0; options_.table_factory.reset( NewPlainTableFactory(plain_table_options)); } constructor_ = new TableConstructor( options_.comparator, true /* convert_to_internal_key_ */); internal_comparator_.reset( new InternalKeyComparator(options_.comparator)); break; #endif // !ROCKSDB_LITE case BLOCK_TEST: table_options_.block_size = 256; options_.table_factory.reset( new BlockBasedTableFactory(table_options_)); constructor_ = new BlockConstructor(options_.comparator); break; case MEMTABLE_TEST: table_options_.block_size = 256; options_.table_factory.reset( new BlockBasedTableFactory(table_options_)); constructor_ = new MemTableConstructor(options_.comparator, &write_buffer_); break; case DB_TEST: table_options_.block_size = 256; options_.table_factory.reset( new BlockBasedTableFactory(table_options_)); constructor_ = new DBConstructor(options_.comparator); break; } ioptions_ = ImmutableCFOptions(options_); moptions_ = MutableCFOptions(options_); } ~HarnessTest() { delete constructor_; } void Add(const std::string& key, const std::string& value) { constructor_->Add(key, value); } void Test(Random* rnd) { std::vector keys; stl_wrappers::KVMap data; constructor_->Finish(options_, ioptions_, moptions_, table_options_, *internal_comparator_, &keys, &data); TestForwardScan(keys, data); if (support_prev_) { TestBackwardScan(keys, data); } TestRandomAccess(rnd, keys, data); } void TestForwardScan(const std::vector& /*keys*/, const stl_wrappers::KVMap& data) { InternalIterator* iter = constructor_->NewIterator(); ASSERT_TRUE(!iter->Valid()); iter->SeekToFirst(); for (stl_wrappers::KVMap::const_iterator model_iter = data.begin(); model_iter != data.end(); ++model_iter) { ASSERT_EQ(ToString(data, model_iter), ToString(iter)); iter->Next(); } ASSERT_TRUE(!iter->Valid()); if (constructor_->IsArenaMode() && !constructor_->AnywayDeleteIterator()) { iter->~InternalIterator(); } else { delete iter; } } void TestBackwardScan(const std::vector& /*keys*/, const stl_wrappers::KVMap& data) { InternalIterator* iter = constructor_->NewIterator(); ASSERT_TRUE(!iter->Valid()); iter->SeekToLast(); for (stl_wrappers::KVMap::const_reverse_iterator model_iter = data.rbegin(); model_iter != data.rend(); ++model_iter) { ASSERT_EQ(ToString(data, model_iter), ToString(iter)); iter->Prev(); } ASSERT_TRUE(!iter->Valid()); if (constructor_->IsArenaMode() && !constructor_->AnywayDeleteIterator()) { iter->~InternalIterator(); } else { delete iter; } } void TestRandomAccess(Random* rnd, const std::vector& keys, const stl_wrappers::KVMap& data) { static const bool kVerbose = false; InternalIterator* iter = constructor_->NewIterator(); ASSERT_TRUE(!iter->Valid()); stl_wrappers::KVMap::const_iterator model_iter = data.begin(); if (kVerbose) fprintf(stderr, "---\n"); for (int i = 0; i < 200; i++) { const int toss = rnd->Uniform(support_prev_ ? 5 : 3); switch (toss) { case 0: { if (iter->Valid()) { if (kVerbose) fprintf(stderr, "Next\n"); iter->Next(); ++model_iter; ASSERT_EQ(ToString(data, model_iter), ToString(iter)); } break; } case 1: { if (kVerbose) fprintf(stderr, "SeekToFirst\n"); iter->SeekToFirst(); model_iter = data.begin(); ASSERT_EQ(ToString(data, model_iter), ToString(iter)); break; } case 2: { std::string key = PickRandomKey(rnd, keys); model_iter = data.lower_bound(key); if (kVerbose) fprintf(stderr, "Seek '%s'\n", EscapeString(key).c_str()); iter->Seek(Slice(key)); ASSERT_EQ(ToString(data, model_iter), ToString(iter)); break; } case 3: { if (iter->Valid()) { if (kVerbose) fprintf(stderr, "Prev\n"); iter->Prev(); if (model_iter == data.begin()) { model_iter = data.end(); // Wrap around to invalid value } else { --model_iter; } ASSERT_EQ(ToString(data, model_iter), ToString(iter)); } break; } case 4: { if (kVerbose) fprintf(stderr, "SeekToLast\n"); iter->SeekToLast(); if (keys.empty()) { model_iter = data.end(); } else { std::string last = data.rbegin()->first; model_iter = data.lower_bound(last); } ASSERT_EQ(ToString(data, model_iter), ToString(iter)); break; } } } if (constructor_->IsArenaMode() && !constructor_->AnywayDeleteIterator()) { iter->~InternalIterator(); } else { delete iter; } } std::string ToString(const stl_wrappers::KVMap& data, const stl_wrappers::KVMap::const_iterator& it) { if (it == data.end()) { return "END"; } else { return "'" + it->first + "->" + it->second + "'"; } } std::string ToString(const stl_wrappers::KVMap& data, const stl_wrappers::KVMap::const_reverse_iterator& it) { if (it == data.rend()) { return "END"; } else { return "'" + it->first + "->" + it->second + "'"; } } std::string ToString(const InternalIterator* it) { if (!it->Valid()) { return "END"; } else { return "'" + it->key().ToString() + "->" + it->value().ToString() + "'"; } } std::string PickRandomKey(Random* rnd, const std::vector& keys) { if (keys.empty()) { return "foo"; } else { const int index = rnd->Uniform(static_cast(keys.size())); std::string result = keys[index]; switch (rnd->Uniform(support_prev_ ? 3 : 1)) { case 0: // Return an existing key break; case 1: { // Attempt to return something smaller than an existing key if (result.size() > 0 && result[result.size() - 1] > '\0' && (!only_support_prefix_seek_ || options_.prefix_extractor->Transform(result).size() < result.size())) { result[result.size() - 1]--; } break; } case 2: { // Return something larger than an existing key Increment(options_.comparator, &result); break; } } return result; } } // Returns nullptr if not running against a DB DB* db() const { return constructor_->db(); } void RandomizedHarnessTest(size_t part, size_t total) { std::vector args = GenerateArgList(); assert(part); assert(part <= total); for (size_t i = 0; i < args.size(); i++) { if ((i % total) + 1 != part) { continue; } Init(args[i]); Random rnd(test::RandomSeed() + 5); for (int num_entries = 0; num_entries < 2000; num_entries += (num_entries < 50 ? 1 : 200)) { for (int e = 0; e < num_entries; e++) { std::string v; Add(test::RandomKey(&rnd, rnd.Skewed(4)), test::RandomString(&rnd, rnd.Skewed(5), &v).ToString()); } Test(&rnd); } } } private: Options options_ = Options(); ImmutableCFOptions ioptions_; MutableCFOptions moptions_; BlockBasedTableOptions table_options_ = BlockBasedTableOptions(); Constructor* constructor_; WriteBufferManager write_buffer_; bool support_prev_; bool only_support_prefix_seek_; shared_ptr internal_comparator_; }; static bool Between(uint64_t val, uint64_t low, uint64_t high) { bool result = (val >= low) && (val <= high); if (!result) { fprintf(stderr, "Value %llu is not in range [%llu, %llu]\n", (unsigned long long)(val), (unsigned long long)(low), (unsigned long long)(high)); } return result; } // Tests against all kinds of tables class TableTest : public testing::Test { public: const InternalKeyComparator& GetPlainInternalComparator( const Comparator* comp) { if (!plain_internal_comparator) { plain_internal_comparator.reset( new test::PlainInternalKeyComparator(comp)); } return *plain_internal_comparator; } void IndexTest(BlockBasedTableOptions table_options); private: std::unique_ptr plain_internal_comparator; }; class GeneralTableTest : public TableTest {}; class BlockBasedTableTest : public TableTest, virtual public ::testing::WithParamInterface { public: BlockBasedTableTest() : format_(GetParam()) {} BlockBasedTableOptions GetBlockBasedTableOptions() { BlockBasedTableOptions options; options.format_version = format_; return options; } protected: uint64_t IndexUncompressedHelper(bool indexCompress); private: uint32_t format_; }; class PlainTableTest : public TableTest {}; class TablePropertyTest : public testing::Test {}; class BBTTailPrefetchTest : public TableTest {}; INSTANTIATE_TEST_CASE_P(FormatDef, BlockBasedTableTest, testing::Values(test::kDefaultFormatVersion)); INSTANTIATE_TEST_CASE_P(FormatLatest, BlockBasedTableTest, testing::Values(test::kLatestFormatVersion)); // This test serves as the living tutorial for the prefix scan of user collected // properties. TEST_F(TablePropertyTest, PrefixScanTest) { UserCollectedProperties props{{"num.111.1", "1"}, {"num.111.2", "2"}, {"num.111.3", "3"}, {"num.333.1", "1"}, {"num.333.2", "2"}, {"num.333.3", "3"}, {"num.555.1", "1"}, {"num.555.2", "2"}, {"num.555.3", "3"}, }; // prefixes that exist for (const std::string& prefix : {"num.111", "num.333", "num.555"}) { int num = 0; for (auto pos = props.lower_bound(prefix); pos != props.end() && pos->first.compare(0, prefix.size(), prefix) == 0; ++pos) { ++num; auto key = prefix + "." + ToString(num); ASSERT_EQ(key, pos->first); ASSERT_EQ(ToString(num), pos->second); } ASSERT_EQ(3, num); } // prefixes that don't exist for (const std::string& prefix : {"num.000", "num.222", "num.444", "num.666"}) { auto pos = props.lower_bound(prefix); ASSERT_TRUE(pos == props.end() || pos->first.compare(0, prefix.size(), prefix) != 0); } } // This test include all the basic checks except those for index size and block // size, which will be conducted in separated unit tests. TEST_P(BlockBasedTableTest, BasicBlockBasedTableProperties) { TableConstructor c(BytewiseComparator(), true /* convert_to_internal_key_ */); c.Add("a1", "val1"); c.Add("b2", "val2"); c.Add("c3", "val3"); c.Add("d4", "val4"); c.Add("e5", "val5"); c.Add("f6", "val6"); c.Add("g7", "val7"); c.Add("h8", "val8"); c.Add("j9", "val9"); uint64_t diff_internal_user_bytes = 9 * 8; // 8 is seq size, 9 k-v totally std::vector keys; stl_wrappers::KVMap kvmap; Options options; options.compression = kNoCompression; options.statistics = CreateDBStatistics(); options.statistics->stats_level_ = StatsLevel::kAll; BlockBasedTableOptions table_options = GetBlockBasedTableOptions(); table_options.block_restart_interval = 1; options.table_factory.reset(NewBlockBasedTableFactory(table_options)); ImmutableCFOptions ioptions(options); MutableCFOptions moptions(options); ioptions.statistics = options.statistics.get(); c.Finish(options, ioptions, moptions, table_options, GetPlainInternalComparator(options.comparator), &keys, &kvmap); ASSERT_EQ(options.statistics->getTickerCount(NUMBER_BLOCK_NOT_COMPRESSED), 0); auto& props = *c.GetTableReader()->GetTableProperties(); ASSERT_EQ(kvmap.size(), props.num_entries); auto raw_key_size = kvmap.size() * 2ul; auto raw_value_size = kvmap.size() * 4ul; ASSERT_EQ(raw_key_size + diff_internal_user_bytes, props.raw_key_size); ASSERT_EQ(raw_value_size, props.raw_value_size); ASSERT_EQ(1ul, props.num_data_blocks); ASSERT_EQ("", props.filter_policy_name); // no filter policy is used // Verify data size. BlockBuilder block_builder(1); for (const auto& item : kvmap) { block_builder.Add(item.first, item.second); } Slice content = block_builder.Finish(); ASSERT_EQ(content.size() + kBlockTrailerSize + diff_internal_user_bytes, props.data_size); c.ResetTableReader(); } #ifdef SNAPPY uint64_t BlockBasedTableTest::IndexUncompressedHelper(bool compressed) { TableConstructor c(BytewiseComparator(), true /* convert_to_internal_key_ */); constexpr size_t kNumKeys = 10000; for (size_t k = 0; k < kNumKeys; ++k) { c.Add("key" + ToString(k), "val" + ToString(k)); } std::vector keys; stl_wrappers::KVMap kvmap; Options options; options.compression = kSnappyCompression; options.statistics = CreateDBStatistics(); options.statistics->stats_level_ = StatsLevel::kAll; BlockBasedTableOptions table_options = GetBlockBasedTableOptions(); table_options.block_restart_interval = 1; table_options.enable_index_compression = compressed; options.table_factory.reset(NewBlockBasedTableFactory(table_options)); ImmutableCFOptions ioptions(options); MutableCFOptions moptions(options); ioptions.statistics = options.statistics.get(); c.Finish(options, ioptions, moptions, table_options, GetPlainInternalComparator(options.comparator), &keys, &kvmap); c.ResetTableReader(); return options.statistics->getTickerCount(NUMBER_BLOCK_COMPRESSED); } TEST_P(BlockBasedTableTest, IndexUncompressed) { uint64_t tbl1_compressed_cnt = IndexUncompressedHelper(true); uint64_t tbl2_compressed_cnt = IndexUncompressedHelper(false); // tbl1_compressed_cnt should include 1 index block EXPECT_EQ(tbl2_compressed_cnt + 1, tbl1_compressed_cnt); } #endif // SNAPPY TEST_P(BlockBasedTableTest, BlockBasedTableProperties2) { TableConstructor c(&reverse_key_comparator); std::vector keys; stl_wrappers::KVMap kvmap; { Options options; options.compression = CompressionType::kNoCompression; BlockBasedTableOptions table_options = GetBlockBasedTableOptions(); options.table_factory.reset(NewBlockBasedTableFactory(table_options)); const ImmutableCFOptions ioptions(options); const MutableCFOptions moptions(options); c.Finish(options, ioptions, moptions, table_options, GetPlainInternalComparator(options.comparator), &keys, &kvmap); auto& props = *c.GetTableReader()->GetTableProperties(); // Default comparator ASSERT_EQ("leveldb.BytewiseComparator", props.comparator_name); // No merge operator ASSERT_EQ("nullptr", props.merge_operator_name); // No prefix extractor ASSERT_EQ("nullptr", props.prefix_extractor_name); // No property collectors ASSERT_EQ("[]", props.property_collectors_names); // No filter policy is used ASSERT_EQ("", props.filter_policy_name); // Compression type == that set: ASSERT_EQ("NoCompression", props.compression_name); c.ResetTableReader(); } { Options options; BlockBasedTableOptions table_options = GetBlockBasedTableOptions(); options.table_factory.reset(NewBlockBasedTableFactory(table_options)); options.comparator = &reverse_key_comparator; options.merge_operator = MergeOperators::CreateUInt64AddOperator(); options.prefix_extractor.reset(NewNoopTransform()); options.table_properties_collector_factories.emplace_back( new DummyPropertiesCollectorFactory1()); options.table_properties_collector_factories.emplace_back( new DummyPropertiesCollectorFactory2()); const ImmutableCFOptions ioptions(options); const MutableCFOptions moptions(options); c.Finish(options, ioptions, moptions, table_options, GetPlainInternalComparator(options.comparator), &keys, &kvmap); auto& props = *c.GetTableReader()->GetTableProperties(); ASSERT_EQ("rocksdb.ReverseBytewiseComparator", props.comparator_name); ASSERT_EQ("UInt64AddOperator", props.merge_operator_name); ASSERT_EQ("rocksdb.Noop", props.prefix_extractor_name); ASSERT_EQ("[DummyPropertiesCollector1,DummyPropertiesCollector2]", props.property_collectors_names); ASSERT_EQ("", props.filter_policy_name); // no filter policy is used c.ResetTableReader(); } } TEST_P(BlockBasedTableTest, RangeDelBlock) { TableConstructor c(BytewiseComparator()); std::vector keys = {"1pika", "2chu"}; std::vector vals = {"p", "c"}; for (int i = 0; i < 2; i++) { RangeTombstone t(keys[i], vals[i], i); std::pair p = t.Serialize(); c.Add(p.first.Encode().ToString(), p.second); } std::vector sorted_keys; stl_wrappers::KVMap kvmap; Options options; options.compression = kNoCompression; BlockBasedTableOptions table_options = GetBlockBasedTableOptions(); table_options.block_restart_interval = 1; options.table_factory.reset(NewBlockBasedTableFactory(table_options)); const ImmutableCFOptions ioptions(options); const MutableCFOptions moptions(options); std::unique_ptr internal_cmp( new InternalKeyComparator(options.comparator)); c.Finish(options, ioptions, moptions, table_options, *internal_cmp, &sorted_keys, &kvmap); for (int j = 0; j < 2; ++j) { std::unique_ptr iter( c.GetTableReader()->NewRangeTombstoneIterator(ReadOptions())); if (j > 0) { // For second iteration, delete the table reader object and verify the // iterator can still access its metablock's range tombstones. c.ResetTableReader(); } ASSERT_FALSE(iter->Valid()); iter->SeekToFirst(); ASSERT_TRUE(iter->Valid()); for (int i = 0; i < 2; i++) { ASSERT_TRUE(iter->Valid()); ParsedInternalKey parsed_key; ASSERT_TRUE(ParseInternalKey(iter->key(), &parsed_key)); RangeTombstone t(parsed_key, iter->value()); ASSERT_EQ(t.start_key_, keys[i]); ASSERT_EQ(t.end_key_, vals[i]); ASSERT_EQ(t.seq_, i); iter->Next(); } ASSERT_TRUE(!iter->Valid()); } } TEST_P(BlockBasedTableTest, FilterPolicyNameProperties) { TableConstructor c(BytewiseComparator(), true /* convert_to_internal_key_ */); c.Add("a1", "val1"); std::vector keys; stl_wrappers::KVMap kvmap; BlockBasedTableOptions table_options = GetBlockBasedTableOptions(); table_options.filter_policy.reset(NewBloomFilterPolicy(10)); Options options; options.table_factory.reset(NewBlockBasedTableFactory(table_options)); const ImmutableCFOptions ioptions(options); const MutableCFOptions moptions(options); c.Finish(options, ioptions, moptions, table_options, GetPlainInternalComparator(options.comparator), &keys, &kvmap); auto& props = *c.GetTableReader()->GetTableProperties(); ASSERT_EQ("rocksdb.BuiltinBloomFilter", props.filter_policy_name); c.ResetTableReader(); } // // BlockBasedTableTest::PrefetchTest // void AssertKeysInCache(BlockBasedTable* table_reader, const std::vector& keys_in_cache, const std::vector& keys_not_in_cache, bool convert = false) { if (convert) { for (auto key : keys_in_cache) { InternalKey ikey(key, kMaxSequenceNumber, kTypeValue); ASSERT_TRUE(table_reader->TEST_KeyInCache(ReadOptions(), ikey.Encode())); } for (auto key : keys_not_in_cache) { InternalKey ikey(key, kMaxSequenceNumber, kTypeValue); ASSERT_TRUE(!table_reader->TEST_KeyInCache(ReadOptions(), ikey.Encode())); } } else { for (auto key : keys_in_cache) { ASSERT_TRUE(table_reader->TEST_KeyInCache(ReadOptions(), key)); } for (auto key : keys_not_in_cache) { ASSERT_TRUE(!table_reader->TEST_KeyInCache(ReadOptions(), key)); } } } void PrefetchRange(TableConstructor* c, Options* opt, BlockBasedTableOptions* table_options, const char* key_begin, const char* key_end, const std::vector& keys_in_cache, const std::vector& keys_not_in_cache, const Status expected_status = Status::OK()) { // reset the cache and reopen the table table_options->block_cache = NewLRUCache(16 * 1024 * 1024, 4); opt->table_factory.reset(NewBlockBasedTableFactory(*table_options)); const ImmutableCFOptions ioptions2(*opt); const MutableCFOptions moptions(*opt); ASSERT_OK(c->Reopen(ioptions2, moptions)); // prefetch auto* table_reader = dynamic_cast(c->GetTableReader()); Status s; unique_ptr begin, end; unique_ptr i_begin, i_end; if (key_begin != nullptr) { if (c->ConvertToInternalKey()) { i_begin.reset(new InternalKey(key_begin, kMaxSequenceNumber, kTypeValue)); begin.reset(new Slice(i_begin->Encode())); } else { begin.reset(new Slice(key_begin)); } } if (key_end != nullptr) { if (c->ConvertToInternalKey()) { i_end.reset(new InternalKey(key_end, kMaxSequenceNumber, kTypeValue)); end.reset(new Slice(i_end->Encode())); } else { end.reset(new Slice(key_end)); } } s = table_reader->Prefetch(begin.get(), end.get()); ASSERT_TRUE(s.code() == expected_status.code()); // assert our expectation in cache warmup AssertKeysInCache(table_reader, keys_in_cache, keys_not_in_cache, c->ConvertToInternalKey()); c->ResetTableReader(); } TEST_P(BlockBasedTableTest, PrefetchTest) { // The purpose of this test is to test the prefetching operation built into // BlockBasedTable. Options opt; unique_ptr ikc; ikc.reset(new test::PlainInternalKeyComparator(opt.comparator)); opt.compression = kNoCompression; BlockBasedTableOptions table_options = GetBlockBasedTableOptions(); table_options.block_size = 1024; // big enough so we don't ever lose cached values. table_options.block_cache = NewLRUCache(16 * 1024 * 1024, 4); opt.table_factory.reset(NewBlockBasedTableFactory(table_options)); TableConstructor c(BytewiseComparator(), true /* convert_to_internal_key_ */); c.Add("k01", "hello"); c.Add("k02", "hello2"); c.Add("k03", std::string(10000, 'x')); c.Add("k04", std::string(200000, 'x')); c.Add("k05", std::string(300000, 'x')); c.Add("k06", "hello3"); c.Add("k07", std::string(100000, 'x')); std::vector keys; stl_wrappers::KVMap kvmap; const ImmutableCFOptions ioptions(opt); const MutableCFOptions moptions(opt); c.Finish(opt, ioptions, moptions, table_options, *ikc, &keys, &kvmap); c.ResetTableReader(); // We get the following data spread : // // Data block Index // ======================== // [ k01 k02 k03 ] k03 // [ k04 ] k04 // [ k05 ] k05 // [ k06 k07 ] k07 // Simple PrefetchRange(&c, &opt, &table_options, /*key_range=*/"k01", "k05", /*keys_in_cache=*/{"k01", "k02", "k03", "k04", "k05"}, /*keys_not_in_cache=*/{"k06", "k07"}); PrefetchRange(&c, &opt, &table_options, "k01", "k01", {"k01", "k02", "k03"}, {"k04", "k05", "k06", "k07"}); // odd PrefetchRange(&c, &opt, &table_options, "a", "z", {"k01", "k02", "k03", "k04", "k05", "k06", "k07"}, {}); PrefetchRange(&c, &opt, &table_options, "k00", "k00", {"k01", "k02", "k03"}, {"k04", "k05", "k06", "k07"}); // Edge cases PrefetchRange(&c, &opt, &table_options, "k00", "k06", {"k01", "k02", "k03", "k04", "k05", "k06", "k07"}, {}); PrefetchRange(&c, &opt, &table_options, "k00", "zzz", {"k01", "k02", "k03", "k04", "k05", "k06", "k07"}, {}); // null keys PrefetchRange(&c, &opt, &table_options, nullptr, nullptr, {"k01", "k02", "k03", "k04", "k05", "k06", "k07"}, {}); PrefetchRange(&c, &opt, &table_options, "k04", nullptr, {"k04", "k05", "k06", "k07"}, {"k01", "k02", "k03"}); PrefetchRange(&c, &opt, &table_options, nullptr, "k05", {"k01", "k02", "k03", "k04", "k05"}, {"k06", "k07"}); // invalid PrefetchRange(&c, &opt, &table_options, "k06", "k00", {}, {}, Status::InvalidArgument(Slice("k06 "), Slice("k07"))); c.ResetTableReader(); } TEST_P(BlockBasedTableTest, TotalOrderSeekOnHashIndex) { BlockBasedTableOptions table_options = GetBlockBasedTableOptions(); for (int i = 0; i < 4; ++i) { Options options; // Make each key/value an individual block table_options.block_size = 64; switch (i) { case 0: // Binary search index table_options.index_type = BlockBasedTableOptions::kBinarySearch; options.table_factory.reset(new BlockBasedTableFactory(table_options)); break; case 1: // Hash search index table_options.index_type = BlockBasedTableOptions::kHashSearch; options.table_factory.reset(new BlockBasedTableFactory(table_options)); options.prefix_extractor.reset(NewFixedPrefixTransform(4)); break; case 2: // Hash search index with hash_index_allow_collision table_options.index_type = BlockBasedTableOptions::kHashSearch; table_options.hash_index_allow_collision = true; options.table_factory.reset(new BlockBasedTableFactory(table_options)); options.prefix_extractor.reset(NewFixedPrefixTransform(4)); break; case 3: // Hash search index with filter policy table_options.index_type = BlockBasedTableOptions::kHashSearch; table_options.filter_policy.reset(NewBloomFilterPolicy(10)); options.table_factory.reset(new BlockBasedTableFactory(table_options)); options.prefix_extractor.reset(NewFixedPrefixTransform(4)); break; case 4: default: // Binary search index table_options.index_type = BlockBasedTableOptions::kTwoLevelIndexSearch; options.table_factory.reset(new BlockBasedTableFactory(table_options)); break; } TableConstructor c(BytewiseComparator(), true /* convert_to_internal_key_ */); c.Add("aaaa1", std::string('a', 56)); c.Add("bbaa1", std::string('a', 56)); c.Add("cccc1", std::string('a', 56)); c.Add("bbbb1", std::string('a', 56)); c.Add("baaa1", std::string('a', 56)); c.Add("abbb1", std::string('a', 56)); c.Add("cccc2", std::string('a', 56)); std::vector keys; stl_wrappers::KVMap kvmap; const ImmutableCFOptions ioptions(options); const MutableCFOptions moptions(options); c.Finish(options, ioptions, moptions, table_options, GetPlainInternalComparator(options.comparator), &keys, &kvmap); auto props = c.GetTableReader()->GetTableProperties(); ASSERT_EQ(7u, props->num_data_blocks); auto* reader = c.GetTableReader(); ReadOptions ro; ro.total_order_seek = true; std::unique_ptr iter( reader->NewIterator(ro, moptions.prefix_extractor.get())); iter->Seek(InternalKey("b", 0, kTypeValue).Encode()); ASSERT_OK(iter->status()); ASSERT_TRUE(iter->Valid()); ASSERT_EQ("baaa1", ExtractUserKey(iter->key()).ToString()); iter->Next(); ASSERT_OK(iter->status()); ASSERT_TRUE(iter->Valid()); ASSERT_EQ("bbaa1", ExtractUserKey(iter->key()).ToString()); iter->Seek(InternalKey("bb", 0, kTypeValue).Encode()); ASSERT_OK(iter->status()); ASSERT_TRUE(iter->Valid()); ASSERT_EQ("bbaa1", ExtractUserKey(iter->key()).ToString()); iter->Next(); ASSERT_OK(iter->status()); ASSERT_TRUE(iter->Valid()); ASSERT_EQ("bbbb1", ExtractUserKey(iter->key()).ToString()); iter->Seek(InternalKey("bbb", 0, kTypeValue).Encode()); ASSERT_OK(iter->status()); ASSERT_TRUE(iter->Valid()); ASSERT_EQ("bbbb1", ExtractUserKey(iter->key()).ToString()); iter->Next(); ASSERT_OK(iter->status()); ASSERT_TRUE(iter->Valid()); ASSERT_EQ("cccc1", ExtractUserKey(iter->key()).ToString()); } } TEST_P(BlockBasedTableTest, NoopTransformSeek) { BlockBasedTableOptions table_options = GetBlockBasedTableOptions(); table_options.filter_policy.reset(NewBloomFilterPolicy(10)); Options options; options.comparator = BytewiseComparator(); options.table_factory.reset(new BlockBasedTableFactory(table_options)); options.prefix_extractor.reset(NewNoopTransform()); TableConstructor c(options.comparator); // To tickle the PrefixMayMatch bug it is important that the // user-key is a single byte so that the index key exactly matches // the user-key. InternalKey key("a", 1, kTypeValue); c.Add(key.Encode().ToString(), "b"); std::vector keys; stl_wrappers::KVMap kvmap; const ImmutableCFOptions ioptions(options); const MutableCFOptions moptions(options); const InternalKeyComparator internal_comparator(options.comparator); c.Finish(options, ioptions, moptions, table_options, internal_comparator, &keys, &kvmap); auto* reader = c.GetTableReader(); for (int i = 0; i < 2; ++i) { ReadOptions ro; ro.total_order_seek = (i == 0); std::unique_ptr iter( reader->NewIterator(ro, moptions.prefix_extractor.get())); iter->Seek(key.Encode()); ASSERT_OK(iter->status()); ASSERT_TRUE(iter->Valid()); ASSERT_EQ("a", ExtractUserKey(iter->key()).ToString()); } } TEST_P(BlockBasedTableTest, SkipPrefixBloomFilter) { // if DB is opened with a prefix extractor of a different name, // prefix bloom is skipped when read the file BlockBasedTableOptions table_options = GetBlockBasedTableOptions(); table_options.filter_policy.reset(NewBloomFilterPolicy(2)); table_options.whole_key_filtering = false; Options options; options.comparator = BytewiseComparator(); options.table_factory.reset(new BlockBasedTableFactory(table_options)); options.prefix_extractor.reset(NewFixedPrefixTransform(1)); TableConstructor c(options.comparator); InternalKey key("abcdefghijk", 1, kTypeValue); c.Add(key.Encode().ToString(), "test"); std::vector keys; stl_wrappers::KVMap kvmap; const ImmutableCFOptions ioptions(options); const MutableCFOptions moptions(options); const InternalKeyComparator internal_comparator(options.comparator); c.Finish(options, ioptions, moptions, table_options, internal_comparator, &keys, &kvmap); // TODO(Zhongyi): update test to use MutableCFOptions options.prefix_extractor.reset(NewFixedPrefixTransform(9)); const ImmutableCFOptions new_ioptions(options); const MutableCFOptions new_moptions(options); c.Reopen(new_ioptions, new_moptions); auto reader = c.GetTableReader(); std::unique_ptr db_iter( reader->NewIterator(ReadOptions(), new_moptions.prefix_extractor.get())); // Test point lookup // only one kv for (auto& kv : kvmap) { db_iter->Seek(kv.first); ASSERT_TRUE(db_iter->Valid()); ASSERT_OK(db_iter->status()); ASSERT_EQ(db_iter->key(), kv.first); ASSERT_EQ(db_iter->value(), kv.second); } } static std::string RandomString(Random* rnd, int len) { std::string r; test::RandomString(rnd, len, &r); return r; } void AddInternalKey(TableConstructor* c, const std::string& prefix, int /*suffix_len*/ = 800) { static Random rnd(1023); InternalKey k(prefix + RandomString(&rnd, 800), 0, kTypeValue); c->Add(k.Encode().ToString(), "v"); } void TableTest::IndexTest(BlockBasedTableOptions table_options) { TableConstructor c(BytewiseComparator()); // keys with prefix length 3, make sure the key/value is big enough to fill // one block AddInternalKey(&c, "0015"); AddInternalKey(&c, "0035"); AddInternalKey(&c, "0054"); AddInternalKey(&c, "0055"); AddInternalKey(&c, "0056"); AddInternalKey(&c, "0057"); AddInternalKey(&c, "0058"); AddInternalKey(&c, "0075"); AddInternalKey(&c, "0076"); AddInternalKey(&c, "0095"); std::vector keys; stl_wrappers::KVMap kvmap; Options options; options.prefix_extractor.reset(NewFixedPrefixTransform(3)); table_options.block_size = 1700; table_options.block_cache = NewLRUCache(1024, 4); options.table_factory.reset(NewBlockBasedTableFactory(table_options)); std::unique_ptr comparator( new InternalKeyComparator(BytewiseComparator())); const ImmutableCFOptions ioptions(options); const MutableCFOptions moptions(options); c.Finish(options, ioptions, moptions, table_options, *comparator, &keys, &kvmap); auto reader = c.GetTableReader(); auto props = reader->GetTableProperties(); ASSERT_EQ(5u, props->num_data_blocks); // TODO(Zhongyi): update test to use MutableCFOptions std::unique_ptr index_iter( reader->NewIterator(ReadOptions(), moptions.prefix_extractor.get())); // -- Find keys do not exist, but have common prefix. std::vector prefixes = {"001", "003", "005", "007", "009"}; std::vector lower_bound = {keys[0], keys[1], keys[2], keys[7], keys[9], }; // find the lower bound of the prefix for (size_t i = 0; i < prefixes.size(); ++i) { index_iter->Seek(InternalKey(prefixes[i], 0, kTypeValue).Encode()); ASSERT_OK(index_iter->status()); ASSERT_TRUE(index_iter->Valid()); // seek the first element in the block ASSERT_EQ(lower_bound[i], index_iter->key().ToString()); ASSERT_EQ("v", index_iter->value().ToString()); } // find the upper bound of prefixes std::vector upper_bound = {keys[1], keys[2], keys[7], keys[9], }; // find existing keys for (const auto& item : kvmap) { auto ukey = ExtractUserKey(item.first).ToString(); index_iter->Seek(ukey); // ASSERT_OK(regular_iter->status()); ASSERT_OK(index_iter->status()); // ASSERT_TRUE(regular_iter->Valid()); ASSERT_TRUE(index_iter->Valid()); ASSERT_EQ(item.first, index_iter->key().ToString()); ASSERT_EQ(item.second, index_iter->value().ToString()); } for (size_t i = 0; i < prefixes.size(); ++i) { // the key is greater than any existing keys. auto key = prefixes[i] + "9"; index_iter->Seek(InternalKey(key, 0, kTypeValue).Encode()); ASSERT_OK(index_iter->status()); if (i == prefixes.size() - 1) { // last key ASSERT_TRUE(!index_iter->Valid()); } else { ASSERT_TRUE(index_iter->Valid()); // seek the first element in the block ASSERT_EQ(upper_bound[i], index_iter->key().ToString()); ASSERT_EQ("v", index_iter->value().ToString()); } } // find keys with prefix that don't match any of the existing prefixes. std::vector non_exist_prefixes = {"002", "004", "006", "008"}; for (const auto& prefix : non_exist_prefixes) { index_iter->Seek(InternalKey(prefix, 0, kTypeValue).Encode()); // regular_iter->Seek(prefix); ASSERT_OK(index_iter->status()); // Seek to non-existing prefixes should yield either invalid, or a // key with prefix greater than the target. if (index_iter->Valid()) { Slice ukey = ExtractUserKey(index_iter->key()); Slice ukey_prefix = options.prefix_extractor->Transform(ukey); ASSERT_TRUE(BytewiseComparator()->Compare(prefix, ukey_prefix) < 0); } } c.ResetTableReader(); } TEST_P(BlockBasedTableTest, BinaryIndexTest) { BlockBasedTableOptions table_options = GetBlockBasedTableOptions(); table_options.index_type = BlockBasedTableOptions::kBinarySearch; IndexTest(table_options); } TEST_P(BlockBasedTableTest, HashIndexTest) { BlockBasedTableOptions table_options = GetBlockBasedTableOptions(); table_options.index_type = BlockBasedTableOptions::kHashSearch; IndexTest(table_options); } TEST_P(BlockBasedTableTest, PartitionIndexTest) { const int max_index_keys = 5; const int est_max_index_key_value_size = 32; const int est_max_index_size = max_index_keys * est_max_index_key_value_size; for (int i = 1; i <= est_max_index_size + 1; i++) { BlockBasedTableOptions table_options = GetBlockBasedTableOptions(); table_options.index_type = BlockBasedTableOptions::kTwoLevelIndexSearch; table_options.metadata_block_size = i; IndexTest(table_options); } } // It's very hard to figure out the index block size of a block accurately. // To make sure we get the index size, we just make sure as key number // grows, the filter block size also grows. TEST_P(BlockBasedTableTest, IndexSizeStat) { uint64_t last_index_size = 0; // we need to use random keys since the pure human readable texts // may be well compressed, resulting insignifcant change of index // block size. Random rnd(test::RandomSeed()); std::vector keys; for (int i = 0; i < 100; ++i) { keys.push_back(RandomString(&rnd, 10000)); } // Each time we load one more key to the table. the table index block // size is expected to be larger than last time's. for (size_t i = 1; i < keys.size(); ++i) { TableConstructor c(BytewiseComparator(), true /* convert_to_internal_key_ */); for (size_t j = 0; j < i; ++j) { c.Add(keys[j], "val"); } std::vector ks; stl_wrappers::KVMap kvmap; Options options; options.compression = kNoCompression; BlockBasedTableOptions table_options = GetBlockBasedTableOptions(); table_options.block_restart_interval = 1; options.table_factory.reset(NewBlockBasedTableFactory(table_options)); const ImmutableCFOptions ioptions(options); const MutableCFOptions moptions(options); c.Finish(options, ioptions, moptions, table_options, GetPlainInternalComparator(options.comparator), &ks, &kvmap); auto index_size = c.GetTableReader()->GetTableProperties()->index_size; ASSERT_GT(index_size, last_index_size); last_index_size = index_size; c.ResetTableReader(); } } TEST_P(BlockBasedTableTest, NumBlockStat) { Random rnd(test::RandomSeed()); TableConstructor c(BytewiseComparator(), true /* convert_to_internal_key_ */); Options options; options.compression = kNoCompression; BlockBasedTableOptions table_options = GetBlockBasedTableOptions(); table_options.block_restart_interval = 1; table_options.block_size = 1000; options.table_factory.reset(NewBlockBasedTableFactory(table_options)); for (int i = 0; i < 10; ++i) { // the key/val are slightly smaller than block size, so that each block // holds roughly one key/value pair. c.Add(RandomString(&rnd, 900), "val"); } std::vector ks; stl_wrappers::KVMap kvmap; const ImmutableCFOptions ioptions(options); const MutableCFOptions moptions(options); c.Finish(options, ioptions, moptions, table_options, GetPlainInternalComparator(options.comparator), &ks, &kvmap); ASSERT_EQ(kvmap.size(), c.GetTableReader()->GetTableProperties()->num_data_blocks); c.ResetTableReader(); } // A simple tool that takes the snapshot of block cache statistics. class BlockCachePropertiesSnapshot { public: explicit BlockCachePropertiesSnapshot(Statistics* statistics) { block_cache_miss = statistics->getTickerCount(BLOCK_CACHE_MISS); block_cache_hit = statistics->getTickerCount(BLOCK_CACHE_HIT); index_block_cache_miss = statistics->getTickerCount(BLOCK_CACHE_INDEX_MISS); index_block_cache_hit = statistics->getTickerCount(BLOCK_CACHE_INDEX_HIT); data_block_cache_miss = statistics->getTickerCount(BLOCK_CACHE_DATA_MISS); data_block_cache_hit = statistics->getTickerCount(BLOCK_CACHE_DATA_HIT); filter_block_cache_miss = statistics->getTickerCount(BLOCK_CACHE_FILTER_MISS); filter_block_cache_hit = statistics->getTickerCount(BLOCK_CACHE_FILTER_HIT); block_cache_bytes_read = statistics->getTickerCount(BLOCK_CACHE_BYTES_READ); block_cache_bytes_write = statistics->getTickerCount(BLOCK_CACHE_BYTES_WRITE); } void AssertIndexBlockStat(int64_t expected_index_block_cache_miss, int64_t expected_index_block_cache_hit) { ASSERT_EQ(expected_index_block_cache_miss, index_block_cache_miss); ASSERT_EQ(expected_index_block_cache_hit, index_block_cache_hit); } void AssertFilterBlockStat(int64_t expected_filter_block_cache_miss, int64_t expected_filter_block_cache_hit) { ASSERT_EQ(expected_filter_block_cache_miss, filter_block_cache_miss); ASSERT_EQ(expected_filter_block_cache_hit, filter_block_cache_hit); } // Check if the fetched props matches the expected ones. // TODO(kailiu) Use this only when you disabled filter policy! void AssertEqual(int64_t expected_index_block_cache_miss, int64_t expected_index_block_cache_hit, int64_t expected_data_block_cache_miss, int64_t expected_data_block_cache_hit) const { ASSERT_EQ(expected_index_block_cache_miss, index_block_cache_miss); ASSERT_EQ(expected_index_block_cache_hit, index_block_cache_hit); ASSERT_EQ(expected_data_block_cache_miss, data_block_cache_miss); ASSERT_EQ(expected_data_block_cache_hit, data_block_cache_hit); ASSERT_EQ(expected_index_block_cache_miss + expected_data_block_cache_miss, block_cache_miss); ASSERT_EQ(expected_index_block_cache_hit + expected_data_block_cache_hit, block_cache_hit); } int64_t GetCacheBytesRead() { return block_cache_bytes_read; } int64_t GetCacheBytesWrite() { return block_cache_bytes_write; } private: int64_t block_cache_miss = 0; int64_t block_cache_hit = 0; int64_t index_block_cache_miss = 0; int64_t index_block_cache_hit = 0; int64_t data_block_cache_miss = 0; int64_t data_block_cache_hit = 0; int64_t filter_block_cache_miss = 0; int64_t filter_block_cache_hit = 0; int64_t block_cache_bytes_read = 0; int64_t block_cache_bytes_write = 0; }; // Make sure, by default, index/filter blocks were pre-loaded (meaning we won't // use block cache to store them). TEST_P(BlockBasedTableTest, BlockCacheDisabledTest) { Options options; options.create_if_missing = true; options.statistics = CreateDBStatistics(); BlockBasedTableOptions table_options = GetBlockBasedTableOptions(); table_options.block_cache = NewLRUCache(1024, 4); table_options.filter_policy.reset(NewBloomFilterPolicy(10)); options.table_factory.reset(new BlockBasedTableFactory(table_options)); std::vector keys; stl_wrappers::KVMap kvmap; TableConstructor c(BytewiseComparator(), true /* convert_to_internal_key_ */); c.Add("key", "value"); const ImmutableCFOptions ioptions(options); const MutableCFOptions moptions(options); c.Finish(options, ioptions, moptions, table_options, GetPlainInternalComparator(options.comparator), &keys, &kvmap); // preloading filter/index blocks is enabled. auto reader = dynamic_cast(c.GetTableReader()); ASSERT_TRUE(reader->TEST_filter_block_preloaded()); ASSERT_TRUE(reader->TEST_index_reader_preloaded()); { // nothing happens in the beginning BlockCachePropertiesSnapshot props(options.statistics.get()); props.AssertIndexBlockStat(0, 0); props.AssertFilterBlockStat(0, 0); } { GetContext get_context(options.comparator, nullptr, nullptr, nullptr, GetContext::kNotFound, Slice(), nullptr, nullptr, nullptr, nullptr, nullptr); // a hack that just to trigger BlockBasedTable::GetFilter. reader->Get(ReadOptions(), "non-exist-key", &get_context, moptions.prefix_extractor.get()); BlockCachePropertiesSnapshot props(options.statistics.get()); props.AssertIndexBlockStat(0, 0); props.AssertFilterBlockStat(0, 0); } } // Due to the difficulities of the intersaction between statistics, this test // only tests the case when "index block is put to block cache" TEST_P(BlockBasedTableTest, FilterBlockInBlockCache) { // -- Table construction Options options; options.create_if_missing = true; options.statistics = CreateDBStatistics(); // Enable the cache for index/filter blocks BlockBasedTableOptions table_options = GetBlockBasedTableOptions(); table_options.block_cache = NewLRUCache(2048, 2); table_options.cache_index_and_filter_blocks = true; options.table_factory.reset(new BlockBasedTableFactory(table_options)); std::vector keys; stl_wrappers::KVMap kvmap; TableConstructor c(BytewiseComparator(), true /* convert_to_internal_key_ */); c.Add("key", "value"); const ImmutableCFOptions ioptions(options); const MutableCFOptions moptions(options); c.Finish(options, ioptions, moptions, table_options, GetPlainInternalComparator(options.comparator), &keys, &kvmap); // preloading filter/index blocks is prohibited. auto* reader = dynamic_cast(c.GetTableReader()); ASSERT_TRUE(!reader->TEST_filter_block_preloaded()); ASSERT_TRUE(!reader->TEST_index_reader_preloaded()); // -- PART 1: Open with regular block cache. // Since block_cache is disabled, no cache activities will be involved. unique_ptr iter; int64_t last_cache_bytes_read = 0; // At first, no block will be accessed. { BlockCachePropertiesSnapshot props(options.statistics.get()); // index will be added to block cache. props.AssertEqual(1, // index block miss 0, 0, 0); ASSERT_EQ(props.GetCacheBytesRead(), 0); ASSERT_EQ(props.GetCacheBytesWrite(), table_options.block_cache->GetUsage()); last_cache_bytes_read = props.GetCacheBytesRead(); } // Only index block will be accessed { iter.reset(c.NewIterator(moptions.prefix_extractor.get())); BlockCachePropertiesSnapshot props(options.statistics.get()); // NOTE: to help better highlight the "detla" of each ticker, I use // + to indicate the increment of changed // value; other numbers remain the same. props.AssertEqual(1, 0 + 1, // index block hit 0, 0); // Cache hit, bytes read from cache should increase ASSERT_GT(props.GetCacheBytesRead(), last_cache_bytes_read); ASSERT_EQ(props.GetCacheBytesWrite(), table_options.block_cache->GetUsage()); last_cache_bytes_read = props.GetCacheBytesRead(); } // Only data block will be accessed { iter->SeekToFirst(); BlockCachePropertiesSnapshot props(options.statistics.get()); props.AssertEqual(1, 1, 0 + 1, // data block miss 0); // Cache miss, Bytes read from cache should not change ASSERT_EQ(props.GetCacheBytesRead(), last_cache_bytes_read); ASSERT_EQ(props.GetCacheBytesWrite(), table_options.block_cache->GetUsage()); last_cache_bytes_read = props.GetCacheBytesRead(); } // Data block will be in cache { iter.reset(c.NewIterator(moptions.prefix_extractor.get())); iter->SeekToFirst(); BlockCachePropertiesSnapshot props(options.statistics.get()); props.AssertEqual(1, 1 + 1, /* index block hit */ 1, 0 + 1 /* data block hit */); // Cache hit, bytes read from cache should increase ASSERT_GT(props.GetCacheBytesRead(), last_cache_bytes_read); ASSERT_EQ(props.GetCacheBytesWrite(), table_options.block_cache->GetUsage()); } // release the iterator so that the block cache can reset correctly. iter.reset(); c.ResetTableReader(); // -- PART 2: Open with very small block cache // In this test, no block will ever get hit since the block cache is // too small to fit even one entry. table_options.block_cache = NewLRUCache(1, 4); options.statistics = CreateDBStatistics(); options.table_factory.reset(new BlockBasedTableFactory(table_options)); const ImmutableCFOptions ioptions2(options); const MutableCFOptions moptions2(options); c.Reopen(ioptions2, moptions2); { BlockCachePropertiesSnapshot props(options.statistics.get()); props.AssertEqual(1, // index block miss 0, 0, 0); // Cache miss, Bytes read from cache should not change ASSERT_EQ(props.GetCacheBytesRead(), 0); } { // Both index and data block get accessed. // It first cache index block then data block. But since the cache size // is only 1, index block will be purged after data block is inserted. iter.reset(c.NewIterator(moptions2.prefix_extractor.get())); BlockCachePropertiesSnapshot props(options.statistics.get()); props.AssertEqual(1 + 1, // index block miss 0, 0, // data block miss 0); // Cache hit, bytes read from cache should increase ASSERT_EQ(props.GetCacheBytesRead(), 0); } { // SeekToFirst() accesses data block. With similar reason, we expect data // block's cache miss. iter->SeekToFirst(); BlockCachePropertiesSnapshot props(options.statistics.get()); props.AssertEqual(2, 0, 0 + 1, // data block miss 0); // Cache miss, Bytes read from cache should not change ASSERT_EQ(props.GetCacheBytesRead(), 0); } iter.reset(); c.ResetTableReader(); // -- PART 3: Open table with bloom filter enabled but not in SST file table_options.block_cache = NewLRUCache(4096, 4); table_options.cache_index_and_filter_blocks = false; options.table_factory.reset(NewBlockBasedTableFactory(table_options)); TableConstructor c3(BytewiseComparator()); std::string user_key = "k01"; InternalKey internal_key(user_key, 0, kTypeValue); c3.Add(internal_key.Encode().ToString(), "hello"); ImmutableCFOptions ioptions3(options); MutableCFOptions moptions3(options); // Generate table without filter policy c3.Finish(options, ioptions3, moptions3, table_options, GetPlainInternalComparator(options.comparator), &keys, &kvmap); c3.ResetTableReader(); // Open table with filter policy table_options.filter_policy.reset(NewBloomFilterPolicy(1)); options.table_factory.reset(new BlockBasedTableFactory(table_options)); options.statistics = CreateDBStatistics(); ImmutableCFOptions ioptions4(options); MutableCFOptions moptions4(options); ASSERT_OK(c3.Reopen(ioptions4, moptions4)); reader = dynamic_cast(c3.GetTableReader()); ASSERT_TRUE(!reader->TEST_filter_block_preloaded()); PinnableSlice value; GetContext get_context(options.comparator, nullptr, nullptr, nullptr, GetContext::kNotFound, user_key, &value, nullptr, nullptr, nullptr, nullptr); ASSERT_OK(reader->Get(ReadOptions(), internal_key.Encode(), &get_context, moptions4.prefix_extractor.get())); ASSERT_STREQ(value.data(), "hello"); BlockCachePropertiesSnapshot props(options.statistics.get()); props.AssertFilterBlockStat(0, 0); c3.ResetTableReader(); } void ValidateBlockSizeDeviation(int value, int expected) { BlockBasedTableOptions table_options; table_options.block_size_deviation = value; BlockBasedTableFactory* factory = new BlockBasedTableFactory(table_options); const BlockBasedTableOptions* normalized_table_options = (const BlockBasedTableOptions*)factory->GetOptions(); ASSERT_EQ(normalized_table_options->block_size_deviation, expected); delete factory; } void ValidateBlockRestartInterval(int value, int expected) { BlockBasedTableOptions table_options; table_options.block_restart_interval = value; BlockBasedTableFactory* factory = new BlockBasedTableFactory(table_options); const BlockBasedTableOptions* normalized_table_options = (const BlockBasedTableOptions*)factory->GetOptions(); ASSERT_EQ(normalized_table_options->block_restart_interval, expected); delete factory; } TEST_P(BlockBasedTableTest, InvalidOptions) { // invalid values for block_size_deviation (<0 or >100) are silently set to 0 ValidateBlockSizeDeviation(-10, 0); ValidateBlockSizeDeviation(-1, 0); ValidateBlockSizeDeviation(0, 0); ValidateBlockSizeDeviation(1, 1); ValidateBlockSizeDeviation(99, 99); ValidateBlockSizeDeviation(100, 100); ValidateBlockSizeDeviation(101, 0); ValidateBlockSizeDeviation(1000, 0); // invalid values for block_restart_interval (<1) are silently set to 1 ValidateBlockRestartInterval(-10, 1); ValidateBlockRestartInterval(-1, 1); ValidateBlockRestartInterval(0, 1); ValidateBlockRestartInterval(1, 1); ValidateBlockRestartInterval(2, 2); ValidateBlockRestartInterval(1000, 1000); } TEST_P(BlockBasedTableTest, BlockReadCountTest) { // bloom_filter_type = 0 -- block-based filter // bloom_filter_type = 0 -- full filter for (int bloom_filter_type = 0; bloom_filter_type < 2; ++bloom_filter_type) { for (int index_and_filter_in_cache = 0; index_and_filter_in_cache < 2; ++index_and_filter_in_cache) { Options options; options.create_if_missing = true; BlockBasedTableOptions table_options = GetBlockBasedTableOptions(); table_options.block_cache = NewLRUCache(1, 0); table_options.cache_index_and_filter_blocks = index_and_filter_in_cache; table_options.filter_policy.reset( NewBloomFilterPolicy(10, bloom_filter_type == 0)); options.table_factory.reset(new BlockBasedTableFactory(table_options)); std::vector keys; stl_wrappers::KVMap kvmap; TableConstructor c(BytewiseComparator()); std::string user_key = "k04"; InternalKey internal_key(user_key, 0, kTypeValue); std::string encoded_key = internal_key.Encode().ToString(); c.Add(encoded_key, "hello"); ImmutableCFOptions ioptions(options); MutableCFOptions moptions(options); // Generate table with filter policy c.Finish(options, ioptions, moptions, table_options, GetPlainInternalComparator(options.comparator), &keys, &kvmap); auto reader = c.GetTableReader(); PinnableSlice value; GetContext get_context(options.comparator, nullptr, nullptr, nullptr, GetContext::kNotFound, user_key, &value, nullptr, nullptr, nullptr, nullptr); get_perf_context()->Reset(); ASSERT_OK(reader->Get(ReadOptions(), encoded_key, &get_context, moptions.prefix_extractor.get())); if (index_and_filter_in_cache) { // data, index and filter block ASSERT_EQ(get_perf_context()->block_read_count, 3); } else { // just the data block ASSERT_EQ(get_perf_context()->block_read_count, 1); } ASSERT_EQ(get_context.State(), GetContext::kFound); ASSERT_STREQ(value.data(), "hello"); // Get non-existing key user_key = "does-not-exist"; internal_key = InternalKey(user_key, 0, kTypeValue); encoded_key = internal_key.Encode().ToString(); value.Reset(); get_context = GetContext(options.comparator, nullptr, nullptr, nullptr, GetContext::kNotFound, user_key, &value, nullptr, nullptr, nullptr, nullptr); get_perf_context()->Reset(); ASSERT_OK(reader->Get(ReadOptions(), encoded_key, &get_context, moptions.prefix_extractor.get())); ASSERT_EQ(get_context.State(), GetContext::kNotFound); if (index_and_filter_in_cache) { if (bloom_filter_type == 0) { // with block-based, we read index and then the filter ASSERT_EQ(get_perf_context()->block_read_count, 2); } else { // with full-filter, we read filter first and then we stop ASSERT_EQ(get_perf_context()->block_read_count, 1); } } else { // filter is already in memory and it figures out that the key doesn't // exist ASSERT_EQ(get_perf_context()->block_read_count, 0); } } } } // A wrapper around LRICache that also keeps track of data blocks (in contrast // with the objects) in the cache. The class is very simple and can be used only // for trivial tests. class MockCache : public LRUCache { public: MockCache(size_t capacity, int num_shard_bits, bool strict_capacity_limit, double high_pri_pool_ratio) : LRUCache(capacity, num_shard_bits, strict_capacity_limit, high_pri_pool_ratio) {} virtual Status Insert(const Slice& key, void* value, size_t charge, void (*deleter)(const Slice& key, void* value), Handle** handle = nullptr, Priority priority = Priority::LOW) override { // Replace the deleter with our own so that we keep track of data blocks // erased from the cache deleters_[key.ToString()] = deleter; return ShardedCache::Insert(key, value, charge, &MockDeleter, handle, priority); } // This is called by the application right after inserting a data block virtual void TEST_mark_as_data_block(const Slice& key, size_t charge) override { marked_data_in_cache_[key.ToString()] = charge; marked_size_ += charge; } using DeleterFunc = void (*)(const Slice& key, void* value); static std::map deleters_; static std::map marked_data_in_cache_; static size_t marked_size_; static void MockDeleter(const Slice& key, void* value) { // If the item was marked for being data block, decrease its usage from the // total data block usage of the cache if (marked_data_in_cache_.find(key.ToString()) != marked_data_in_cache_.end()) { marked_size_ -= marked_data_in_cache_[key.ToString()]; } // Then call the origianl deleter assert(deleters_.find(key.ToString()) != deleters_.end()); auto deleter = deleters_[key.ToString()]; deleter(key, value); } }; size_t MockCache::marked_size_ = 0; std::map MockCache::deleters_; std::map MockCache::marked_data_in_cache_; // Block cache can contain raw data blocks as well as general objects. If an // object depends on the table to be live, it then must be destructed before the // table is closed. This test makes sure that the only items remains in the // cache after the table is closed are raw data blocks. TEST_P(BlockBasedTableTest, NoObjectInCacheAfterTableClose) { for (int level: {-1, 0, 1, 10}) { for (auto index_type : {BlockBasedTableOptions::IndexType::kBinarySearch, BlockBasedTableOptions::IndexType::kTwoLevelIndexSearch}) { for (bool block_based_filter : {true, false}) { for (bool partition_filter : {true, false}) { if (partition_filter && (block_based_filter || index_type != BlockBasedTableOptions::IndexType::kTwoLevelIndexSearch)) { continue; } for (bool index_and_filter_in_cache : {true, false}) { for (bool pin_l0 : {true, false}) { for (bool pin_top_level : {true, false}) { if (pin_l0 && !index_and_filter_in_cache) { continue; } // Create a table Options opt; unique_ptr ikc; ikc.reset(new test::PlainInternalKeyComparator(opt.comparator)); opt.compression = kNoCompression; BlockBasedTableOptions table_options = GetBlockBasedTableOptions(); table_options.block_size = 1024; table_options.index_type = BlockBasedTableOptions::IndexType::kTwoLevelIndexSearch; table_options.pin_l0_filter_and_index_blocks_in_cache = pin_l0; table_options.pin_top_level_index_and_filter = pin_top_level; table_options.partition_filters = partition_filter; table_options.cache_index_and_filter_blocks = index_and_filter_in_cache; // big enough so we don't ever lose cached values. table_options.block_cache = std::shared_ptr( new MockCache(16 * 1024 * 1024, 4, false, 0.0)); table_options.filter_policy.reset( rocksdb::NewBloomFilterPolicy(10, block_based_filter)); opt.table_factory.reset(NewBlockBasedTableFactory(table_options)); bool convert_to_internal_key = false; TableConstructor c(BytewiseComparator(), convert_to_internal_key, level); std::string user_key = "k01"; std::string key = InternalKey(user_key, 0, kTypeValue).Encode().ToString(); c.Add(key, "hello"); std::vector keys; stl_wrappers::KVMap kvmap; const ImmutableCFOptions ioptions(opt); const MutableCFOptions moptions(opt); c.Finish(opt, ioptions, moptions, table_options, *ikc, &keys, &kvmap); // Doing a read to make index/filter loaded into the cache auto table_reader = dynamic_cast(c.GetTableReader()); PinnableSlice value; GetContext get_context(opt.comparator, nullptr, nullptr, nullptr, GetContext::kNotFound, user_key, &value, nullptr, nullptr, nullptr, nullptr); InternalKey ikey(user_key, 0, kTypeValue); auto s = table_reader->Get(ReadOptions(), key, &get_context, moptions.prefix_extractor.get()); ASSERT_EQ(get_context.State(), GetContext::kFound); ASSERT_STREQ(value.data(), "hello"); // Close the table c.ResetTableReader(); auto usage = table_options.block_cache->GetUsage(); auto pinned_usage = table_options.block_cache->GetPinnedUsage(); // The only usage must be for marked data blocks ASSERT_EQ(usage, MockCache::marked_size_); // There must be some pinned data since PinnableSlice has not // released them yet ASSERT_GT(pinned_usage, 0); // Release pinnable slice reousrces value.Reset(); pinned_usage = table_options.block_cache->GetPinnedUsage(); ASSERT_EQ(pinned_usage, 0); } } } } } } } // level } TEST_P(BlockBasedTableTest, BlockCacheLeak) { // Check that when we reopen a table we don't lose access to blocks already // in the cache. This test checks whether the Table actually makes use of the // unique ID from the file. Options opt; unique_ptr ikc; ikc.reset(new test::PlainInternalKeyComparator(opt.comparator)); opt.compression = kNoCompression; BlockBasedTableOptions table_options = GetBlockBasedTableOptions(); table_options.block_size = 1024; // big enough so we don't ever lose cached values. table_options.block_cache = NewLRUCache(16 * 1024 * 1024, 4); opt.table_factory.reset(NewBlockBasedTableFactory(table_options)); TableConstructor c(BytewiseComparator(), true /* convert_to_internal_key_ */); c.Add("k01", "hello"); c.Add("k02", "hello2"); c.Add("k03", std::string(10000, 'x')); c.Add("k04", std::string(200000, 'x')); c.Add("k05", std::string(300000, 'x')); c.Add("k06", "hello3"); c.Add("k07", std::string(100000, 'x')); std::vector keys; stl_wrappers::KVMap kvmap; const ImmutableCFOptions ioptions(opt); const MutableCFOptions moptions(opt); c.Finish(opt, ioptions, moptions, table_options, *ikc, &keys, &kvmap); unique_ptr iter( c.NewIterator(moptions.prefix_extractor.get())); iter->SeekToFirst(); while (iter->Valid()) { iter->key(); iter->value(); iter->Next(); } ASSERT_OK(iter->status()); iter.reset(); const ImmutableCFOptions ioptions1(opt); const MutableCFOptions moptions1(opt); ASSERT_OK(c.Reopen(ioptions1, moptions1)); auto table_reader = dynamic_cast(c.GetTableReader()); for (const std::string& key : keys) { InternalKey ikey(key, kMaxSequenceNumber, kTypeValue); ASSERT_TRUE(table_reader->TEST_KeyInCache(ReadOptions(), ikey.Encode())); } c.ResetTableReader(); // rerun with different block cache table_options.block_cache = NewLRUCache(16 * 1024 * 1024, 4); opt.table_factory.reset(NewBlockBasedTableFactory(table_options)); const ImmutableCFOptions ioptions2(opt); const MutableCFOptions moptions2(opt); ASSERT_OK(c.Reopen(ioptions2, moptions2)); table_reader = dynamic_cast(c.GetTableReader()); for (const std::string& key : keys) { InternalKey ikey(key, kMaxSequenceNumber, kTypeValue); ASSERT_TRUE(!table_reader->TEST_KeyInCache(ReadOptions(), ikey.Encode())); } c.ResetTableReader(); } TEST_P(BlockBasedTableTest, NewIndexIteratorLeak) { // A regression test to avoid data race described in // https://github.com/facebook/rocksdb/issues/1267 TableConstructor c(BytewiseComparator(), true /* convert_to_internal_key_ */); std::vector keys; stl_wrappers::KVMap kvmap; c.Add("a1", "val1"); Options options; options.prefix_extractor.reset(NewFixedPrefixTransform(1)); BlockBasedTableOptions table_options = GetBlockBasedTableOptions(); table_options.index_type = BlockBasedTableOptions::kHashSearch; table_options.cache_index_and_filter_blocks = true; table_options.block_cache = NewLRUCache(0); options.table_factory.reset(NewBlockBasedTableFactory(table_options)); const ImmutableCFOptions ioptions(options); const MutableCFOptions moptions(options); c.Finish(options, ioptions, moptions, table_options, GetPlainInternalComparator(options.comparator), &keys, &kvmap); rocksdb::SyncPoint::GetInstance()->LoadDependencyAndMarkers( { {"BlockBasedTable::NewIndexIterator::thread1:1", "BlockBasedTable::NewIndexIterator::thread2:2"}, {"BlockBasedTable::NewIndexIterator::thread2:3", "BlockBasedTable::NewIndexIterator::thread1:4"}, }, { {"BlockBasedTableTest::NewIndexIteratorLeak:Thread1Marker", "BlockBasedTable::NewIndexIterator::thread1:1"}, {"BlockBasedTableTest::NewIndexIteratorLeak:Thread1Marker", "BlockBasedTable::NewIndexIterator::thread1:4"}, {"BlockBasedTableTest::NewIndexIteratorLeak:Thread2Marker", "BlockBasedTable::NewIndexIterator::thread2:2"}, {"BlockBasedTableTest::NewIndexIteratorLeak:Thread2Marker", "BlockBasedTable::NewIndexIterator::thread2:3"}, }); rocksdb::SyncPoint::GetInstance()->EnableProcessing(); ReadOptions ro; auto* reader = c.GetTableReader(); std::function func1 = [&]() { TEST_SYNC_POINT("BlockBasedTableTest::NewIndexIteratorLeak:Thread1Marker"); // TODO(Zhongyi): update test to use MutableCFOptions std::unique_ptr iter( reader->NewIterator(ro, moptions.prefix_extractor.get())); iter->Seek(InternalKey("a1", 0, kTypeValue).Encode()); }; std::function func2 = [&]() { TEST_SYNC_POINT("BlockBasedTableTest::NewIndexIteratorLeak:Thread2Marker"); std::unique_ptr iter( reader->NewIterator(ro, moptions.prefix_extractor.get())); }; auto thread1 = port::Thread(func1); auto thread2 = port::Thread(func2); thread1.join(); thread2.join(); rocksdb::SyncPoint::GetInstance()->DisableProcessing(); c.ResetTableReader(); } // Plain table is not supported in ROCKSDB_LITE #ifndef ROCKSDB_LITE TEST_F(PlainTableTest, BasicPlainTableProperties) { PlainTableOptions plain_table_options; plain_table_options.user_key_len = 8; plain_table_options.bloom_bits_per_key = 8; plain_table_options.hash_table_ratio = 0; PlainTableFactory factory(plain_table_options); test::StringSink sink; unique_ptr file_writer( test::GetWritableFileWriter(new test::StringSink(), "" /* don't care */)); Options options; const ImmutableCFOptions ioptions(options); const MutableCFOptions moptions(options); InternalKeyComparator ikc(options.comparator); std::vector> int_tbl_prop_collector_factories; std::string column_family_name; int unknown_level = -1; std::unique_ptr builder(factory.NewTableBuilder( TableBuilderOptions( ioptions, moptions, ikc, &int_tbl_prop_collector_factories, kNoCompression, CompressionOptions(), nullptr /* compression_dict */, false /* skip_filters */, column_family_name, unknown_level), TablePropertiesCollectorFactory::Context::kUnknownColumnFamily, file_writer.get())); for (char c = 'a'; c <= 'z'; ++c) { std::string key(8, c); key.append("\1 "); // PlainTable expects internal key structure std::string value(28, c + 42); builder->Add(key, value); } ASSERT_OK(builder->Finish()); file_writer->Flush(); test::StringSink* ss = static_cast(file_writer->writable_file()); unique_ptr file_reader( test::GetRandomAccessFileReader( new test::StringSource(ss->contents(), 72242, true))); TableProperties* props = nullptr; auto s = ReadTableProperties(file_reader.get(), ss->contents().size(), kPlainTableMagicNumber, ioptions, &props, true /* compression_type_missing */); std::unique_ptr props_guard(props); ASSERT_OK(s); ASSERT_EQ(0ul, props->index_size); ASSERT_EQ(0ul, props->filter_size); ASSERT_EQ(16ul * 26, props->raw_key_size); ASSERT_EQ(28ul * 26, props->raw_value_size); ASSERT_EQ(26ul, props->num_entries); ASSERT_EQ(1ul, props->num_data_blocks); } #endif // !ROCKSDB_LITE TEST_F(GeneralTableTest, ApproximateOffsetOfPlain) { TableConstructor c(BytewiseComparator(), true /* convert_to_internal_key_ */); c.Add("k01", "hello"); c.Add("k02", "hello2"); c.Add("k03", std::string(10000, 'x')); c.Add("k04", std::string(200000, 'x')); c.Add("k05", std::string(300000, 'x')); c.Add("k06", "hello3"); c.Add("k07", std::string(100000, 'x')); std::vector keys; stl_wrappers::KVMap kvmap; Options options; test::PlainInternalKeyComparator internal_comparator(options.comparator); options.compression = kNoCompression; BlockBasedTableOptions table_options; table_options.block_size = 1024; const ImmutableCFOptions ioptions(options); const MutableCFOptions moptions(options); c.Finish(options, ioptions, moptions, table_options, internal_comparator, &keys, &kvmap); ASSERT_TRUE(Between(c.ApproximateOffsetOf("abc"), 0, 0)); ASSERT_TRUE(Between(c.ApproximateOffsetOf("k01"), 0, 0)); ASSERT_TRUE(Between(c.ApproximateOffsetOf("k01a"), 0, 0)); ASSERT_TRUE(Between(c.ApproximateOffsetOf("k02"), 0, 0)); ASSERT_TRUE(Between(c.ApproximateOffsetOf("k03"), 0, 0)); ASSERT_TRUE(Between(c.ApproximateOffsetOf("k04"), 10000, 11000)); // k04 and k05 will be in two consecutive blocks, the index is // an arbitrary slice between k04 and k05, either before or after k04a ASSERT_TRUE(Between(c.ApproximateOffsetOf("k04a"), 10000, 211000)); ASSERT_TRUE(Between(c.ApproximateOffsetOf("k05"), 210000, 211000)); ASSERT_TRUE(Between(c.ApproximateOffsetOf("k06"), 510000, 511000)); ASSERT_TRUE(Between(c.ApproximateOffsetOf("k07"), 510000, 511000)); ASSERT_TRUE(Between(c.ApproximateOffsetOf("xyz"), 610000, 612000)); c.ResetTableReader(); } static void DoCompressionTest(CompressionType comp) { Random rnd(301); TableConstructor c(BytewiseComparator(), true /* convert_to_internal_key_ */); std::string tmp; c.Add("k01", "hello"); c.Add("k02", test::CompressibleString(&rnd, 0.25, 10000, &tmp)); c.Add("k03", "hello3"); c.Add("k04", test::CompressibleString(&rnd, 0.25, 10000, &tmp)); std::vector keys; stl_wrappers::KVMap kvmap; Options options; test::PlainInternalKeyComparator ikc(options.comparator); options.compression = comp; BlockBasedTableOptions table_options; table_options.block_size = 1024; const ImmutableCFOptions ioptions(options); const MutableCFOptions moptions(options); c.Finish(options, ioptions, moptions, table_options, ikc, &keys, &kvmap); ASSERT_TRUE(Between(c.ApproximateOffsetOf("abc"), 0, 0)); ASSERT_TRUE(Between(c.ApproximateOffsetOf("k01"), 0, 0)); ASSERT_TRUE(Between(c.ApproximateOffsetOf("k02"), 0, 0)); ASSERT_TRUE(Between(c.ApproximateOffsetOf("k03"), 2000, 3000)); ASSERT_TRUE(Between(c.ApproximateOffsetOf("k04"), 2000, 3000)); ASSERT_TRUE(Between(c.ApproximateOffsetOf("xyz"), 4000, 6100)); c.ResetTableReader(); } TEST_F(GeneralTableTest, ApproximateOffsetOfCompressed) { std::vector compression_state; if (!Snappy_Supported()) { fprintf(stderr, "skipping snappy compression tests\n"); } else { compression_state.push_back(kSnappyCompression); } if (!Zlib_Supported()) { fprintf(stderr, "skipping zlib compression tests\n"); } else { compression_state.push_back(kZlibCompression); } // TODO(kailiu) DoCompressionTest() doesn't work with BZip2. /* if (!BZip2_Supported()) { fprintf(stderr, "skipping bzip2 compression tests\n"); } else { compression_state.push_back(kBZip2Compression); } */ if (!LZ4_Supported()) { fprintf(stderr, "skipping lz4 and lz4hc compression tests\n"); } else { compression_state.push_back(kLZ4Compression); compression_state.push_back(kLZ4HCCompression); } if (!XPRESS_Supported()) { fprintf(stderr, "skipping xpress and xpress compression tests\n"); } else { compression_state.push_back(kXpressCompression); } for (auto state : compression_state) { DoCompressionTest(state); } } // RandomizedHarnessTest is very slow for certain combination of arguments // Split into 8 pieces to reduce the time individual tests take. TEST_F(HarnessTest, Randomized1) { // part 1 out of 8 const size_t part = 1; const size_t total = 8; RandomizedHarnessTest(part, total); } TEST_F(HarnessTest, Randomized2) { // part 2 out of 8 const size_t part = 2; const size_t total = 8; RandomizedHarnessTest(part, total); } TEST_F(HarnessTest, Randomized3) { // part 3 out of 8 const size_t part = 3; const size_t total = 8; RandomizedHarnessTest(part, total); } TEST_F(HarnessTest, Randomized4) { // part 4 out of 8 const size_t part = 4; const size_t total = 8; RandomizedHarnessTest(part, total); } TEST_F(HarnessTest, Randomized5) { // part 5 out of 8 const size_t part = 5; const size_t total = 8; RandomizedHarnessTest(part, total); } TEST_F(HarnessTest, Randomized6) { // part 6 out of 8 const size_t part = 6; const size_t total = 8; RandomizedHarnessTest(part, total); } TEST_F(HarnessTest, Randomized7) { // part 7 out of 8 const size_t part = 7; const size_t total = 8; RandomizedHarnessTest(part, total); } TEST_F(HarnessTest, Randomized8) { // part 8 out of 8 const size_t part = 8; const size_t total = 8; RandomizedHarnessTest(part, total); } #ifndef ROCKSDB_LITE TEST_F(HarnessTest, RandomizedLongDB) { Random rnd(test::RandomSeed()); TestArgs args = {DB_TEST, false, 16, kNoCompression, 0, false}; Init(args); int num_entries = 100000; for (int e = 0; e < num_entries; e++) { std::string v; Add(test::RandomKey(&rnd, rnd.Skewed(4)), test::RandomString(&rnd, rnd.Skewed(5), &v).ToString()); } Test(&rnd); // We must have created enough data to force merging int files = 0; for (int level = 0; level < db()->NumberLevels(); level++) { std::string value; char name[100]; snprintf(name, sizeof(name), "rocksdb.num-files-at-level%d", level); ASSERT_TRUE(db()->GetProperty(name, &value)); files += atoi(value.c_str()); } ASSERT_GT(files, 0); } #endif // ROCKSDB_LITE class MemTableTest : public testing::Test {}; TEST_F(MemTableTest, Simple) { InternalKeyComparator cmp(BytewiseComparator()); auto table_factory = std::make_shared(); Options options; options.memtable_factory = table_factory; ImmutableCFOptions ioptions(options); WriteBufferManager wb(options.db_write_buffer_size); MemTable* memtable = new MemTable(cmp, ioptions, MutableCFOptions(options), &wb, kMaxSequenceNumber, 0 /* column_family_id */); memtable->Ref(); WriteBatch batch; WriteBatchInternal::SetSequence(&batch, 100); batch.Put(std::string("k1"), std::string("v1")); batch.Put(std::string("k2"), std::string("v2")); batch.Put(std::string("k3"), std::string("v3")); batch.Put(std::string("largekey"), std::string("vlarge")); batch.DeleteRange(std::string("chi"), std::string("xigua")); batch.DeleteRange(std::string("begin"), std::string("end")); ColumnFamilyMemTablesDefault cf_mems_default(memtable); ASSERT_TRUE( WriteBatchInternal::InsertInto(&batch, &cf_mems_default, nullptr).ok()); for (int i = 0; i < 2; ++i) { Arena arena; ScopedArenaIterator arena_iter_guard; std::unique_ptr iter_guard; InternalIterator* iter; if (i == 0) { iter = memtable->NewIterator(ReadOptions(), &arena); arena_iter_guard.set(iter); } else { iter = memtable->NewRangeTombstoneIterator(ReadOptions()); iter_guard.reset(iter); } if (iter == nullptr) { continue; } iter->SeekToFirst(); while (iter->Valid()) { fprintf(stderr, "key: '%s' -> '%s'\n", iter->key().ToString().c_str(), iter->value().ToString().c_str()); iter->Next(); } } delete memtable->Unref(); } // Test the empty key TEST_F(HarnessTest, SimpleEmptyKey) { auto args = GenerateArgList(); for (const auto& arg : args) { Init(arg); Random rnd(test::RandomSeed() + 1); Add("", "v"); Test(&rnd); } } TEST_F(HarnessTest, SimpleSingle) { auto args = GenerateArgList(); for (const auto& arg : args) { Init(arg); Random rnd(test::RandomSeed() + 2); Add("abc", "v"); Test(&rnd); } } TEST_F(HarnessTest, SimpleMulti) { auto args = GenerateArgList(); for (const auto& arg : args) { Init(arg); Random rnd(test::RandomSeed() + 3); Add("abc", "v"); Add("abcd", "v"); Add("ac", "v2"); Test(&rnd); } } TEST_F(HarnessTest, SimpleSpecialKey) { auto args = GenerateArgList(); for (const auto& arg : args) { Init(arg); Random rnd(test::RandomSeed() + 4); Add("\xff\xff", "v3"); Test(&rnd); } } TEST_F(HarnessTest, FooterTests) { { // upconvert legacy block based std::string encoded; Footer footer(kLegacyBlockBasedTableMagicNumber, 0); BlockHandle meta_index(10, 5), index(20, 15); footer.set_metaindex_handle(meta_index); footer.set_index_handle(index); footer.EncodeTo(&encoded); Footer decoded_footer; Slice encoded_slice(encoded); decoded_footer.DecodeFrom(&encoded_slice); ASSERT_EQ(decoded_footer.table_magic_number(), kBlockBasedTableMagicNumber); ASSERT_EQ(decoded_footer.checksum(), kCRC32c); ASSERT_EQ(decoded_footer.metaindex_handle().offset(), meta_index.offset()); ASSERT_EQ(decoded_footer.metaindex_handle().size(), meta_index.size()); ASSERT_EQ(decoded_footer.index_handle().offset(), index.offset()); ASSERT_EQ(decoded_footer.index_handle().size(), index.size()); ASSERT_EQ(decoded_footer.version(), 0U); } { // xxhash block based std::string encoded; Footer footer(kBlockBasedTableMagicNumber, 1); BlockHandle meta_index(10, 5), index(20, 15); footer.set_metaindex_handle(meta_index); footer.set_index_handle(index); footer.set_checksum(kxxHash); footer.EncodeTo(&encoded); Footer decoded_footer; Slice encoded_slice(encoded); decoded_footer.DecodeFrom(&encoded_slice); ASSERT_EQ(decoded_footer.table_magic_number(), kBlockBasedTableMagicNumber); ASSERT_EQ(decoded_footer.checksum(), kxxHash); ASSERT_EQ(decoded_footer.metaindex_handle().offset(), meta_index.offset()); ASSERT_EQ(decoded_footer.metaindex_handle().size(), meta_index.size()); ASSERT_EQ(decoded_footer.index_handle().offset(), index.offset()); ASSERT_EQ(decoded_footer.index_handle().size(), index.size()); ASSERT_EQ(decoded_footer.version(), 1U); } // Plain table is not supported in ROCKSDB_LITE #ifndef ROCKSDB_LITE { // upconvert legacy plain table std::string encoded; Footer footer(kLegacyPlainTableMagicNumber, 0); BlockHandle meta_index(10, 5), index(20, 15); footer.set_metaindex_handle(meta_index); footer.set_index_handle(index); footer.EncodeTo(&encoded); Footer decoded_footer; Slice encoded_slice(encoded); decoded_footer.DecodeFrom(&encoded_slice); ASSERT_EQ(decoded_footer.table_magic_number(), kPlainTableMagicNumber); ASSERT_EQ(decoded_footer.checksum(), kCRC32c); ASSERT_EQ(decoded_footer.metaindex_handle().offset(), meta_index.offset()); ASSERT_EQ(decoded_footer.metaindex_handle().size(), meta_index.size()); ASSERT_EQ(decoded_footer.index_handle().offset(), index.offset()); ASSERT_EQ(decoded_footer.index_handle().size(), index.size()); ASSERT_EQ(decoded_footer.version(), 0U); } { // xxhash block based std::string encoded; Footer footer(kPlainTableMagicNumber, 1); BlockHandle meta_index(10, 5), index(20, 15); footer.set_metaindex_handle(meta_index); footer.set_index_handle(index); footer.set_checksum(kxxHash); footer.EncodeTo(&encoded); Footer decoded_footer; Slice encoded_slice(encoded); decoded_footer.DecodeFrom(&encoded_slice); ASSERT_EQ(decoded_footer.table_magic_number(), kPlainTableMagicNumber); ASSERT_EQ(decoded_footer.checksum(), kxxHash); ASSERT_EQ(decoded_footer.metaindex_handle().offset(), meta_index.offset()); ASSERT_EQ(decoded_footer.metaindex_handle().size(), meta_index.size()); ASSERT_EQ(decoded_footer.index_handle().offset(), index.offset()); ASSERT_EQ(decoded_footer.index_handle().size(), index.size()); ASSERT_EQ(decoded_footer.version(), 1U); } #endif // !ROCKSDB_LITE { // version == 2 std::string encoded; Footer footer(kBlockBasedTableMagicNumber, 2); BlockHandle meta_index(10, 5), index(20, 15); footer.set_metaindex_handle(meta_index); footer.set_index_handle(index); footer.EncodeTo(&encoded); Footer decoded_footer; Slice encoded_slice(encoded); decoded_footer.DecodeFrom(&encoded_slice); ASSERT_EQ(decoded_footer.table_magic_number(), kBlockBasedTableMagicNumber); ASSERT_EQ(decoded_footer.checksum(), kCRC32c); ASSERT_EQ(decoded_footer.metaindex_handle().offset(), meta_index.offset()); ASSERT_EQ(decoded_footer.metaindex_handle().size(), meta_index.size()); ASSERT_EQ(decoded_footer.index_handle().offset(), index.offset()); ASSERT_EQ(decoded_footer.index_handle().size(), index.size()); ASSERT_EQ(decoded_footer.version(), 2U); } } class IndexBlockRestartIntervalTest : public TableTest, public ::testing::WithParamInterface> { public: static std::vector> GetRestartValues() { return {{-1, false}, {0, false}, {1, false}, {8, false}, {16, false}, {32, false}, {-1, true}, {0, true}, {1, true}, {8, true}, {16, true}, {32, true}}; } }; INSTANTIATE_TEST_CASE_P( IndexBlockRestartIntervalTest, IndexBlockRestartIntervalTest, ::testing::ValuesIn(IndexBlockRestartIntervalTest::GetRestartValues())); TEST_P(IndexBlockRestartIntervalTest, IndexBlockRestartInterval) { const int kKeysInTable = 10000; const int kKeySize = 100; const int kValSize = 500; const int index_block_restart_interval = std::get<0>(GetParam()); const bool value_delta_encoding = std::get<1>(GetParam()); Options options; BlockBasedTableOptions table_options; table_options.block_size = 64; // small block size to get big index block table_options.index_block_restart_interval = index_block_restart_interval; if (value_delta_encoding) { table_options.format_version = 4; } options.table_factory.reset(new BlockBasedTableFactory(table_options)); TableConstructor c(BytewiseComparator()); static Random rnd(301); for (int i = 0; i < kKeysInTable; i++) { InternalKey k(RandomString(&rnd, kKeySize), 0, kTypeValue); c.Add(k.Encode().ToString(), RandomString(&rnd, kValSize)); } std::vector keys; stl_wrappers::KVMap kvmap; std::unique_ptr comparator( new InternalKeyComparator(BytewiseComparator())); const ImmutableCFOptions ioptions(options); const MutableCFOptions moptions(options); c.Finish(options, ioptions, moptions, table_options, *comparator, &keys, &kvmap); auto reader = c.GetTableReader(); std::unique_ptr db_iter( reader->NewIterator(ReadOptions(), moptions.prefix_extractor.get())); // Test point lookup for (auto& kv : kvmap) { db_iter->Seek(kv.first); ASSERT_TRUE(db_iter->Valid()); ASSERT_OK(db_iter->status()); ASSERT_EQ(db_iter->key(), kv.first); ASSERT_EQ(db_iter->value(), kv.second); } // Test iterating auto kv_iter = kvmap.begin(); for (db_iter->SeekToFirst(); db_iter->Valid(); db_iter->Next()) { ASSERT_EQ(db_iter->key(), kv_iter->first); ASSERT_EQ(db_iter->value(), kv_iter->second); kv_iter++; } ASSERT_EQ(kv_iter, kvmap.end()); c.ResetTableReader(); } class PrefixTest : public testing::Test { public: PrefixTest() : testing::Test() {} ~PrefixTest() {} }; namespace { // A simple PrefixExtractor that only works for test PrefixAndWholeKeyTest class TestPrefixExtractor : public rocksdb::SliceTransform { public: ~TestPrefixExtractor() override{}; const char* Name() const override { return "TestPrefixExtractor"; } rocksdb::Slice Transform(const rocksdb::Slice& src) const override { assert(IsValid(src)); return rocksdb::Slice(src.data(), 3); } bool InDomain(const rocksdb::Slice& src) const override { assert(IsValid(src)); return true; } bool InRange(const rocksdb::Slice& /*dst*/) const override { return true; } bool IsValid(const rocksdb::Slice& src) const { if (src.size() != 4) { return false; } if (src[0] != '[') { return false; } if (src[1] < '0' || src[1] > '9') { return false; } if (src[2] != ']') { return false; } if (src[3] < '0' || src[3] > '9') { return false; } return true; } }; } // namespace TEST_F(PrefixTest, PrefixAndWholeKeyTest) { rocksdb::Options options; options.compaction_style = rocksdb::kCompactionStyleUniversal; options.num_levels = 20; options.create_if_missing = true; options.optimize_filters_for_hits = false; options.target_file_size_base = 268435456; options.prefix_extractor = std::make_shared(); rocksdb::BlockBasedTableOptions bbto; bbto.filter_policy.reset(rocksdb::NewBloomFilterPolicy(10)); bbto.block_size = 262144; bbto.whole_key_filtering = true; const std::string kDBPath = test::PerThreadDBPath("table_prefix_test"); options.table_factory.reset(NewBlockBasedTableFactory(bbto)); DestroyDB(kDBPath, options); rocksdb::DB* db; ASSERT_OK(rocksdb::DB::Open(options, kDBPath, &db)); // Create a bunch of keys with 10 filters. for (int i = 0; i < 10; i++) { std::string prefix = "[" + std::to_string(i) + "]"; for (int j = 0; j < 10; j++) { std::string key = prefix + std::to_string(j); db->Put(rocksdb::WriteOptions(), key, "1"); } } // Trigger compaction. db->CompactRange(CompactRangeOptions(), nullptr, nullptr); delete db; // In the second round, turn whole_key_filtering off and expect // rocksdb still works. } /* * Disable TableWithGlobalSeqno since RocksDB does not store global_seqno in * the SST file any more. Instead, RocksDB deduces global_seqno from the * MANIFEST while reading from an SST. Therefore, it's not possible to test the * functionality of global_seqno in a single, isolated unit test without the * involvement of Version, VersionSet, etc. */ TEST_P(BlockBasedTableTest, DISABLED_TableWithGlobalSeqno) { BlockBasedTableOptions bbto = GetBlockBasedTableOptions(); test::StringSink* sink = new test::StringSink(); unique_ptr file_writer( test::GetWritableFileWriter(sink, "" /* don't care */)); Options options; options.table_factory.reset(NewBlockBasedTableFactory(bbto)); const ImmutableCFOptions ioptions(options); const MutableCFOptions moptions(options); InternalKeyComparator ikc(options.comparator); std::vector> int_tbl_prop_collector_factories; int_tbl_prop_collector_factories.emplace_back( new SstFileWriterPropertiesCollectorFactory(2 /* version */, 0 /* global_seqno*/)); std::string column_family_name; std::unique_ptr builder(options.table_factory->NewTableBuilder( TableBuilderOptions(ioptions, moptions, ikc, &int_tbl_prop_collector_factories, kNoCompression, CompressionOptions(), nullptr /* compression_dict */, false /* skip_filters */, column_family_name, -1), TablePropertiesCollectorFactory::Context::kUnknownColumnFamily, file_writer.get())); for (char c = 'a'; c <= 'z'; ++c) { std::string key(8, c); std::string value = key; InternalKey ik(key, 0, kTypeValue); builder->Add(ik.Encode(), value); } ASSERT_OK(builder->Finish()); file_writer->Flush(); test::RandomRWStringSink ss_rw(sink); uint32_t version; uint64_t global_seqno; uint64_t global_seqno_offset; // Helper function to get version, global_seqno, global_seqno_offset std::function GetVersionAndGlobalSeqno = [&]() { unique_ptr file_reader( test::GetRandomAccessFileReader( new test::StringSource(ss_rw.contents(), 73342, true))); TableProperties* props = nullptr; ASSERT_OK(ReadTableProperties(file_reader.get(), ss_rw.contents().size(), kBlockBasedTableMagicNumber, ioptions, &props, true /* compression_type_missing */)); UserCollectedProperties user_props = props->user_collected_properties; version = DecodeFixed32( user_props[ExternalSstFilePropertyNames::kVersion].c_str()); global_seqno = DecodeFixed64( user_props[ExternalSstFilePropertyNames::kGlobalSeqno].c_str()); global_seqno_offset = props->properties_offsets[ExternalSstFilePropertyNames::kGlobalSeqno]; delete props; }; // Helper function to update the value of the global seqno in the file std::function SetGlobalSeqno = [&](uint64_t val) { std::string new_global_seqno; PutFixed64(&new_global_seqno, val); ASSERT_OK(ss_rw.Write(global_seqno_offset, new_global_seqno)); }; // Helper function to get the contents of the table InternalIterator unique_ptr table_reader; std::function GetTableInternalIter = [&]() { unique_ptr file_reader( test::GetRandomAccessFileReader( new test::StringSource(ss_rw.contents(), 73342, true))); options.table_factory->NewTableReader( TableReaderOptions(ioptions, moptions.prefix_extractor.get(), EnvOptions(), ikc), std::move(file_reader), ss_rw.contents().size(), &table_reader); return table_reader->NewIterator(ReadOptions(), moptions.prefix_extractor.get()); }; GetVersionAndGlobalSeqno(); ASSERT_EQ(2, version); ASSERT_EQ(0, global_seqno); InternalIterator* iter = GetTableInternalIter(); char current_c = 'a'; for (iter->SeekToFirst(); iter->Valid(); iter->Next()) { ParsedInternalKey pik; ASSERT_TRUE(ParseInternalKey(iter->key(), &pik)); ASSERT_EQ(pik.type, ValueType::kTypeValue); ASSERT_EQ(pik.sequence, 0); ASSERT_EQ(pik.user_key, iter->value()); ASSERT_EQ(pik.user_key.ToString(), std::string(8, current_c)); current_c++; } ASSERT_EQ(current_c, 'z' + 1); delete iter; // Update global sequence number to 10 SetGlobalSeqno(10); GetVersionAndGlobalSeqno(); ASSERT_EQ(2, version); ASSERT_EQ(10, global_seqno); iter = GetTableInternalIter(); current_c = 'a'; for (iter->SeekToFirst(); iter->Valid(); iter->Next()) { ParsedInternalKey pik; ASSERT_TRUE(ParseInternalKey(iter->key(), &pik)); ASSERT_EQ(pik.type, ValueType::kTypeValue); ASSERT_EQ(pik.sequence, 10); ASSERT_EQ(pik.user_key, iter->value()); ASSERT_EQ(pik.user_key.ToString(), std::string(8, current_c)); current_c++; } ASSERT_EQ(current_c, 'z' + 1); // Verify Seek for (char c = 'a'; c <= 'z'; c++) { std::string k = std::string(8, c); InternalKey ik(k, 10, kValueTypeForSeek); iter->Seek(ik.Encode()); ASSERT_TRUE(iter->Valid()); ParsedInternalKey pik; ASSERT_TRUE(ParseInternalKey(iter->key(), &pik)); ASSERT_EQ(pik.type, ValueType::kTypeValue); ASSERT_EQ(pik.sequence, 10); ASSERT_EQ(pik.user_key.ToString(), k); ASSERT_EQ(iter->value().ToString(), k); } delete iter; // Update global sequence number to 3 SetGlobalSeqno(3); GetVersionAndGlobalSeqno(); ASSERT_EQ(2, version); ASSERT_EQ(3, global_seqno); iter = GetTableInternalIter(); current_c = 'a'; for (iter->SeekToFirst(); iter->Valid(); iter->Next()) { ParsedInternalKey pik; ASSERT_TRUE(ParseInternalKey(iter->key(), &pik)); ASSERT_EQ(pik.type, ValueType::kTypeValue); ASSERT_EQ(pik.sequence, 3); ASSERT_EQ(pik.user_key, iter->value()); ASSERT_EQ(pik.user_key.ToString(), std::string(8, current_c)); current_c++; } ASSERT_EQ(current_c, 'z' + 1); // Verify Seek for (char c = 'a'; c <= 'z'; c++) { std::string k = std::string(8, c); // seqno=4 is less than 3 so we still should get our key InternalKey ik(k, 4, kValueTypeForSeek); iter->Seek(ik.Encode()); ASSERT_TRUE(iter->Valid()); ParsedInternalKey pik; ASSERT_TRUE(ParseInternalKey(iter->key(), &pik)); ASSERT_EQ(pik.type, ValueType::kTypeValue); ASSERT_EQ(pik.sequence, 3); ASSERT_EQ(pik.user_key.ToString(), k); ASSERT_EQ(iter->value().ToString(), k); } delete iter; } TEST_P(BlockBasedTableTest, BlockAlignTest) { BlockBasedTableOptions bbto = GetBlockBasedTableOptions(); bbto.block_align = true; test::StringSink* sink = new test::StringSink(); unique_ptr file_writer( test::GetWritableFileWriter(sink, "" /* don't care */)); Options options; options.compression = kNoCompression; options.table_factory.reset(NewBlockBasedTableFactory(bbto)); const ImmutableCFOptions ioptions(options); const MutableCFOptions moptions(options); InternalKeyComparator ikc(options.comparator); std::vector> int_tbl_prop_collector_factories; std::string column_family_name; std::unique_ptr builder(options.table_factory->NewTableBuilder( TableBuilderOptions(ioptions, moptions, ikc, &int_tbl_prop_collector_factories, kNoCompression, CompressionOptions(), nullptr /* compression_dict */, false /* skip_filters */, column_family_name, -1), TablePropertiesCollectorFactory::Context::kUnknownColumnFamily, file_writer.get())); for (int i = 1; i <= 10000; ++i) { std::ostringstream ostr; ostr << std::setfill('0') << std::setw(5) << i; std::string key = ostr.str(); std::string value = "val"; InternalKey ik(key, 0, kTypeValue); builder->Add(ik.Encode(), value); } ASSERT_OK(builder->Finish()); file_writer->Flush(); test::RandomRWStringSink ss_rw(sink); unique_ptr file_reader( test::GetRandomAccessFileReader( new test::StringSource(ss_rw.contents(), 73342, true))); // Helper function to get version, global_seqno, global_seqno_offset std::function VerifyBlockAlignment = [&]() { TableProperties* props = nullptr; ASSERT_OK(ReadTableProperties(file_reader.get(), ss_rw.contents().size(), kBlockBasedTableMagicNumber, ioptions, &props, true /* compression_type_missing */)); uint64_t data_block_size = props->data_size / props->num_data_blocks; ASSERT_EQ(data_block_size, 4096); ASSERT_EQ(props->data_size, data_block_size * props->num_data_blocks); delete props; }; VerifyBlockAlignment(); // The below block of code verifies that we can read back the keys. Set // block_align to false when creating the reader to ensure we can flip between // the two modes without any issues std::unique_ptr table_reader; bbto.block_align = false; Options options2; options2.table_factory.reset(NewBlockBasedTableFactory(bbto)); ImmutableCFOptions ioptions2(options2); const MutableCFOptions moptions2(options2); ASSERT_OK(ioptions.table_factory->NewTableReader( TableReaderOptions(ioptions2, moptions2.prefix_extractor.get(), EnvOptions(), GetPlainInternalComparator(options2.comparator)), std::move(file_reader), ss_rw.contents().size(), &table_reader)); std::unique_ptr db_iter(table_reader->NewIterator( ReadOptions(), moptions2.prefix_extractor.get())); int expected_key = 1; for (db_iter->SeekToFirst(); db_iter->Valid(); db_iter->Next()) { std::ostringstream ostr; ostr << std::setfill('0') << std::setw(5) << expected_key++; std::string key = ostr.str(); std::string value = "val"; ASSERT_OK(db_iter->status()); ASSERT_EQ(ExtractUserKey(db_iter->key()).ToString(), key); ASSERT_EQ(db_iter->value().ToString(), value); } expected_key--; ASSERT_EQ(expected_key, 10000); table_reader.reset(); } TEST_P(BlockBasedTableTest, PropertiesBlockRestartPointTest) { BlockBasedTableOptions bbto = GetBlockBasedTableOptions(); bbto.block_align = true; test::StringSink* sink = new test::StringSink(); unique_ptr file_writer( test::GetWritableFileWriter(sink, "" /* don't care */)); Options options; options.compression = kNoCompression; options.table_factory.reset(NewBlockBasedTableFactory(bbto)); const ImmutableCFOptions ioptions(options); const MutableCFOptions moptions(options); InternalKeyComparator ikc(options.comparator); std::vector> int_tbl_prop_collector_factories; std::string column_family_name; std::unique_ptr builder(options.table_factory->NewTableBuilder( TableBuilderOptions(ioptions, moptions, ikc, &int_tbl_prop_collector_factories, kNoCompression, CompressionOptions(), nullptr /* compression_dict */, false /* skip_filters */, column_family_name, -1), TablePropertiesCollectorFactory::Context::kUnknownColumnFamily, file_writer.get())); for (int i = 1; i <= 10000; ++i) { std::ostringstream ostr; ostr << std::setfill('0') << std::setw(5) << i; std::string key = ostr.str(); std::string value = "val"; InternalKey ik(key, 0, kTypeValue); builder->Add(ik.Encode(), value); } ASSERT_OK(builder->Finish()); file_writer->Flush(); test::RandomRWStringSink ss_rw(sink); unique_ptr file_reader( test::GetRandomAccessFileReader( new test::StringSource(ss_rw.contents(), 73342, true))); { RandomAccessFileReader* file = file_reader.get(); uint64_t file_size = ss_rw.contents().size(); Footer footer; ASSERT_OK(ReadFooterFromFile(file, nullptr /* prefetch_buffer */, file_size, &footer, kBlockBasedTableMagicNumber)); auto BlockFetchHelper = [&](const BlockHandle& handle, BlockContents* contents) { ReadOptions read_options; read_options.verify_checksums = false; Slice compression_dict; PersistentCacheOptions cache_options; BlockFetcher block_fetcher(file, nullptr /* prefetch_buffer */, footer, read_options, handle, contents, ioptions, false /* decompress */, compression_dict, cache_options); ASSERT_OK(block_fetcher.ReadBlockContents()); }; // -- Read metaindex block auto metaindex_handle = footer.metaindex_handle(); BlockContents metaindex_contents; BlockFetchHelper(metaindex_handle, &metaindex_contents); Block metaindex_block(std::move(metaindex_contents), kDisableGlobalSequenceNumber); std::unique_ptr meta_iter( metaindex_block.NewIterator(BytewiseComparator(), BytewiseComparator())); bool found_properties_block = true; ASSERT_OK(SeekToPropertiesBlock(meta_iter.get(), &found_properties_block)); ASSERT_TRUE(found_properties_block); // -- Read properties block Slice v = meta_iter->value(); BlockHandle properties_handle; ASSERT_OK(properties_handle.DecodeFrom(&v)); BlockContents properties_contents; BlockFetchHelper(properties_handle, &properties_contents); Block properties_block(std::move(properties_contents), kDisableGlobalSequenceNumber); ASSERT_EQ(properties_block.NumRestarts(), 1); } } TEST_P(BlockBasedTableTest, PropertiesMetaBlockLast) { // The properties meta-block should come at the end since we always need to // read it when opening a file, unlike index/filter/other meta-blocks, which // are sometimes read depending on the user's configuration. This ordering // allows us to do a small readahead on the end of the file to read properties // and meta-index blocks with one I/O. TableConstructor c(BytewiseComparator(), true /* convert_to_internal_key_ */); c.Add("a1", "val1"); c.Add("b2", "val2"); c.Add("c3", "val3"); c.Add("d4", "val4"); c.Add("e5", "val5"); c.Add("f6", "val6"); c.Add("g7", "val7"); c.Add("h8", "val8"); c.Add("j9", "val9"); // write an SST file Options options; BlockBasedTableOptions table_options = GetBlockBasedTableOptions(); table_options.filter_policy.reset(NewBloomFilterPolicy( 8 /* bits_per_key */, false /* use_block_based_filter */)); options.table_factory.reset(NewBlockBasedTableFactory(table_options)); ImmutableCFOptions ioptions(options); MutableCFOptions moptions(options); std::vector keys; stl_wrappers::KVMap kvmap; c.Finish(options, ioptions, moptions, table_options, GetPlainInternalComparator(options.comparator), &keys, &kvmap); // get file reader test::StringSink* table_sink = c.TEST_GetSink(); std::unique_ptr table_reader{ test::GetRandomAccessFileReader( new test::StringSource(table_sink->contents(), 0 /* unique_id */, false /* allow_mmap_reads */))}; size_t table_size = table_sink->contents().size(); // read footer Footer footer; ASSERT_OK(ReadFooterFromFile(table_reader.get(), nullptr /* prefetch_buffer */, table_size, &footer, kBlockBasedTableMagicNumber)); // read metaindex auto metaindex_handle = footer.metaindex_handle(); BlockContents metaindex_contents; Slice compression_dict; PersistentCacheOptions pcache_opts; BlockFetcher block_fetcher( table_reader.get(), nullptr /* prefetch_buffer */, footer, ReadOptions(), metaindex_handle, &metaindex_contents, ioptions, false /* decompress */, compression_dict, pcache_opts); ASSERT_OK(block_fetcher.ReadBlockContents()); Block metaindex_block(std::move(metaindex_contents), kDisableGlobalSequenceNumber); // verify properties block comes last std::unique_ptr metaindex_iter{ metaindex_block.NewIterator(options.comparator, options.comparator)}; uint64_t max_offset = 0; std::string key_at_max_offset; for (metaindex_iter->SeekToFirst(); metaindex_iter->Valid(); metaindex_iter->Next()) { BlockHandle handle; Slice value = metaindex_iter->value(); ASSERT_OK(handle.DecodeFrom(&value)); if (handle.offset() > max_offset) { max_offset = handle.offset(); key_at_max_offset = metaindex_iter->key().ToString(); } } ASSERT_EQ(kPropertiesBlock, key_at_max_offset); // index handle is stored in footer rather than metaindex block, so need // separate logic to verify it comes before properties block. ASSERT_GT(max_offset, footer.index_handle().offset()); c.ResetTableReader(); } TEST_P(BlockBasedTableTest, BadOptions) { rocksdb::Options options; options.compression = kNoCompression; BlockBasedTableOptions bbto = GetBlockBasedTableOptions(); bbto.block_size = 4000; bbto.block_align = true; const std::string kDBPath = test::PerThreadDBPath("block_based_table_bad_options_test"); options.table_factory.reset(NewBlockBasedTableFactory(bbto)); DestroyDB(kDBPath, options); rocksdb::DB* db; ASSERT_NOK(rocksdb::DB::Open(options, kDBPath, &db)); bbto.block_size = 4096; options.compression = kSnappyCompression; options.table_factory.reset(NewBlockBasedTableFactory(bbto)); ASSERT_NOK(rocksdb::DB::Open(options, kDBPath, &db)); } TEST_F(BBTTailPrefetchTest, TestTailPrefetchStats) { TailPrefetchStats tpstats; ASSERT_EQ(0, tpstats.GetSuggestedPrefetchSize()); tpstats.RecordEffectiveSize(size_t{1000}); tpstats.RecordEffectiveSize(size_t{1005}); tpstats.RecordEffectiveSize(size_t{1002}); ASSERT_EQ(1005, tpstats.GetSuggestedPrefetchSize()); // One single super large value shouldn't influence much tpstats.RecordEffectiveSize(size_t{1002000}); tpstats.RecordEffectiveSize(size_t{999}); ASSERT_LE(1005, tpstats.GetSuggestedPrefetchSize()); ASSERT_GT(1200, tpstats.GetSuggestedPrefetchSize()); // Only history of 32 is kept for (int i = 0; i < 32; i++) { tpstats.RecordEffectiveSize(size_t{100}); } ASSERT_EQ(100, tpstats.GetSuggestedPrefetchSize()); // 16 large values and 16 small values. The result should be closer // to the small value as the algorithm. for (int i = 0; i < 16; i++) { tpstats.RecordEffectiveSize(size_t{1000}); } tpstats.RecordEffectiveSize(size_t{10}); tpstats.RecordEffectiveSize(size_t{20}); for (int i = 0; i < 6; i++) { tpstats.RecordEffectiveSize(size_t{100}); } ASSERT_LE(80, tpstats.GetSuggestedPrefetchSize()); ASSERT_GT(200, tpstats.GetSuggestedPrefetchSize()); } TEST_F(BBTTailPrefetchTest, FilePrefetchBufferMinOffset) { TailPrefetchStats tpstats; FilePrefetchBuffer buffer(nullptr, 0, 0, false, true); buffer.TryReadFromCache(500, 10, nullptr); buffer.TryReadFromCache(480, 10, nullptr); buffer.TryReadFromCache(490, 10, nullptr); ASSERT_EQ(480, buffer.min_offset_read()); } TEST_P(BlockBasedTableTest, DataBlockHashIndex) { const int kNumKeys = 500; const int kKeySize = 8; const int kValSize = 40; BlockBasedTableOptions table_options = GetBlockBasedTableOptions(); table_options.data_block_index_type = BlockBasedTableOptions::kDataBlockBinaryAndHash; Options options; options.comparator = BytewiseComparator(); options.table_factory.reset(new BlockBasedTableFactory(table_options)); TableConstructor c(options.comparator); static Random rnd(1048); for (int i = 0; i < kNumKeys; i++) { // padding one "0" to mark existent keys. std::string random_key(RandomString(&rnd, kKeySize - 1) + "1"); InternalKey k(random_key, 0, kTypeValue); c.Add(k.Encode().ToString(), RandomString(&rnd, kValSize)); } std::vector keys; stl_wrappers::KVMap kvmap; const ImmutableCFOptions ioptions(options); const MutableCFOptions moptions(options); const InternalKeyComparator internal_comparator(options.comparator); c.Finish(options, ioptions, moptions, table_options, internal_comparator, &keys, &kvmap); auto reader = c.GetTableReader(); std::unique_ptr seek_iter; seek_iter.reset( reader->NewIterator(ReadOptions(), moptions.prefix_extractor.get())); for (int i = 0; i < 2; ++i) { ReadOptions ro; // for every kv, we seek using two method: Get() and Seek() // Get() will use the SuffixIndexHash in Block. For non-existent key it // will invalidate the iterator // Seek() will use the default BinarySeek() in Block. So for non-existent // key it will land at the closest key that is large than target. // Search for existent keys for (auto& kv : kvmap) { if (i == 0) { // Search using Seek() seek_iter->Seek(kv.first); ASSERT_OK(seek_iter->status()); ASSERT_TRUE(seek_iter->Valid()); ASSERT_EQ(seek_iter->key(), kv.first); ASSERT_EQ(seek_iter->value(), kv.second); } else { // Search using Get() PinnableSlice value; std::string user_key = ExtractUserKey(kv.first).ToString(); GetContext get_context(options.comparator, nullptr, nullptr, nullptr, GetContext::kNotFound, user_key, &value, nullptr, nullptr, nullptr, nullptr); ASSERT_OK(reader->Get(ro, kv.first, &get_context, moptions.prefix_extractor.get())); ASSERT_EQ(get_context.State(), GetContext::kFound); ASSERT_EQ(value, Slice(kv.second)); value.Reset(); } } // Search for non-existent keys for (auto& kv : kvmap) { std::string user_key = ExtractUserKey(kv.first).ToString(); user_key.back() = '0'; // make it non-existent key InternalKey internal_key(user_key, 0, kTypeValue); std::string encoded_key = internal_key.Encode().ToString(); if (i == 0) { // Search using Seek() seek_iter->Seek(encoded_key); ASSERT_OK(seek_iter->status()); if (seek_iter->Valid()) { ASSERT_TRUE(BytewiseComparator()->Compare( user_key, ExtractUserKey(seek_iter->key())) < 0); } } else { // Search using Get() PinnableSlice value; GetContext get_context(options.comparator, nullptr, nullptr, nullptr, GetContext::kNotFound, user_key, &value, nullptr, nullptr, nullptr, nullptr); ASSERT_OK(reader->Get(ro, encoded_key, &get_context, moptions.prefix_extractor.get())); ASSERT_EQ(get_context.State(), GetContext::kNotFound); value.Reset(); } } } } } // namespace rocksdb int main(int argc, char** argv) { ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } rocksdb-5.17.2/table/two_level_iterator.cc000066400000000000000000000146261337235545400205700ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "table/two_level_iterator.h" #include "db/pinned_iterators_manager.h" #include "rocksdb/options.h" #include "rocksdb/table.h" #include "table/block.h" #include "table/format.h" #include "util/arena.h" namespace rocksdb { namespace { class TwoLevelIndexIterator : public InternalIteratorBase { public: explicit TwoLevelIndexIterator( TwoLevelIteratorState* state, InternalIteratorBase* first_level_iter); virtual ~TwoLevelIndexIterator() { first_level_iter_.DeleteIter(false /* is_arena_mode */); second_level_iter_.DeleteIter(false /* is_arena_mode */); delete state_; } virtual void Seek(const Slice& target) override; virtual void SeekForPrev(const Slice& target) override; virtual void SeekToFirst() override; virtual void SeekToLast() override; virtual void Next() override; virtual void Prev() override; virtual bool Valid() const override { return second_level_iter_.Valid(); } virtual Slice key() const override { assert(Valid()); return second_level_iter_.key(); } virtual BlockHandle value() const override { assert(Valid()); return second_level_iter_.value(); } virtual Status status() const override { if (!first_level_iter_.status().ok()) { assert(second_level_iter_.iter() == nullptr); return first_level_iter_.status(); } else if (second_level_iter_.iter() != nullptr && !second_level_iter_.status().ok()) { return second_level_iter_.status(); } else { return status_; } } virtual void SetPinnedItersMgr( PinnedIteratorsManager* /*pinned_iters_mgr*/) override {} virtual bool IsKeyPinned() const override { return false; } virtual bool IsValuePinned() const override { return false; } private: void SaveError(const Status& s) { if (status_.ok() && !s.ok()) status_ = s; } void SkipEmptyDataBlocksForward(); void SkipEmptyDataBlocksBackward(); void SetSecondLevelIterator(InternalIteratorBase* iter); void InitDataBlock(); TwoLevelIteratorState* state_; IteratorWrapperBase first_level_iter_; IteratorWrapperBase second_level_iter_; // May be nullptr Status status_; // If second_level_iter is non-nullptr, then "data_block_handle_" holds the // "index_value" passed to block_function_ to create the second_level_iter. BlockHandle data_block_handle_; }; TwoLevelIndexIterator::TwoLevelIndexIterator( TwoLevelIteratorState* state, InternalIteratorBase* first_level_iter) : state_(state), first_level_iter_(first_level_iter) {} void TwoLevelIndexIterator::Seek(const Slice& target) { first_level_iter_.Seek(target); InitDataBlock(); if (second_level_iter_.iter() != nullptr) { second_level_iter_.Seek(target); } SkipEmptyDataBlocksForward(); } void TwoLevelIndexIterator::SeekForPrev(const Slice& target) { first_level_iter_.Seek(target); InitDataBlock(); if (second_level_iter_.iter() != nullptr) { second_level_iter_.SeekForPrev(target); } if (!Valid()) { if (!first_level_iter_.Valid() && first_level_iter_.status().ok()) { first_level_iter_.SeekToLast(); InitDataBlock(); if (second_level_iter_.iter() != nullptr) { second_level_iter_.SeekForPrev(target); } } SkipEmptyDataBlocksBackward(); } } void TwoLevelIndexIterator::SeekToFirst() { first_level_iter_.SeekToFirst(); InitDataBlock(); if (second_level_iter_.iter() != nullptr) { second_level_iter_.SeekToFirst(); } SkipEmptyDataBlocksForward(); } void TwoLevelIndexIterator::SeekToLast() { first_level_iter_.SeekToLast(); InitDataBlock(); if (second_level_iter_.iter() != nullptr) { second_level_iter_.SeekToLast(); } SkipEmptyDataBlocksBackward(); } void TwoLevelIndexIterator::Next() { assert(Valid()); second_level_iter_.Next(); SkipEmptyDataBlocksForward(); } void TwoLevelIndexIterator::Prev() { assert(Valid()); second_level_iter_.Prev(); SkipEmptyDataBlocksBackward(); } void TwoLevelIndexIterator::SkipEmptyDataBlocksForward() { while (second_level_iter_.iter() == nullptr || (!second_level_iter_.Valid() && second_level_iter_.status().ok())) { // Move to next block if (!first_level_iter_.Valid()) { SetSecondLevelIterator(nullptr); return; } first_level_iter_.Next(); InitDataBlock(); if (second_level_iter_.iter() != nullptr) { second_level_iter_.SeekToFirst(); } } } void TwoLevelIndexIterator::SkipEmptyDataBlocksBackward() { while (second_level_iter_.iter() == nullptr || (!second_level_iter_.Valid() && second_level_iter_.status().ok())) { // Move to next block if (!first_level_iter_.Valid()) { SetSecondLevelIterator(nullptr); return; } first_level_iter_.Prev(); InitDataBlock(); if (second_level_iter_.iter() != nullptr) { second_level_iter_.SeekToLast(); } } } void TwoLevelIndexIterator::SetSecondLevelIterator( InternalIteratorBase* iter) { InternalIteratorBase* old_iter = second_level_iter_.Set(iter); delete old_iter; } void TwoLevelIndexIterator::InitDataBlock() { if (!first_level_iter_.Valid()) { SetSecondLevelIterator(nullptr); } else { BlockHandle handle = first_level_iter_.value(); if (second_level_iter_.iter() != nullptr && !second_level_iter_.status().IsIncomplete() && handle.offset() == data_block_handle_.offset()) { // second_level_iter is already constructed with this iterator, so // no need to change anything } else { InternalIteratorBase* iter = state_->NewSecondaryIterator(handle); data_block_handle_ = handle; SetSecondLevelIterator(iter); } } } } // namespace InternalIteratorBase* NewTwoLevelIterator( TwoLevelIteratorState* state, InternalIteratorBase* first_level_iter) { return new TwoLevelIndexIterator(state, first_level_iter); } } // namespace rocksdb rocksdb-5.17.2/table/two_level_iterator.h000066400000000000000000000032621337235545400204240ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #include "rocksdb/iterator.h" #include "rocksdb/env.h" #include "table/iterator_wrapper.h" namespace rocksdb { struct ReadOptions; class InternalKeyComparator; // TwoLevelIteratorState expects iterators are not created using the arena struct TwoLevelIteratorState { TwoLevelIteratorState() {} virtual ~TwoLevelIteratorState() {} virtual InternalIteratorBase* NewSecondaryIterator( const BlockHandle& handle) = 0; }; // Return a new two level iterator. A two-level iterator contains an // index iterator whose values point to a sequence of blocks where // each block is itself a sequence of key,value pairs. The returned // two-level iterator yields the concatenation of all key/value pairs // in the sequence of blocks. Takes ownership of "index_iter" and // will delete it when no longer needed. // // Uses a supplied function to convert an index_iter value into // an iterator over the contents of the corresponding block. // Note: this function expects first_level_iter was not created using the arena extern InternalIteratorBase* NewTwoLevelIterator( TwoLevelIteratorState* state, InternalIteratorBase* first_level_iter); } // namespace rocksdb rocksdb-5.17.2/third-party/000077500000000000000000000000001337235545400155175ustar00rootroot00000000000000rocksdb-5.17.2/third-party/fbson/000077500000000000000000000000001337235545400166265ustar00rootroot00000000000000rocksdb-5.17.2/third-party/fbson/COMMIT.md000066400000000000000000000005071337235545400201420ustar00rootroot00000000000000fbson commit: https://github.com/facebook/mysql-5.6/commit/55ef9ff25c934659a70b4094e9b406c48e9dd43d # TODO. * Had to convert zero sized array to [1] sized arrays due to the fact that MS Compiler complains about it not being standard. At some point need to contribute this change back to MySql where this code was taken from. rocksdb-5.17.2/third-party/fbson/FbsonDocument.h000066400000000000000000000561541337235545400215600ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). /* * This header defines FbsonDocument, FbsonKeyValue, and various value classes * which are derived from FbsonValue, and a forward iterator for container * values - essentially everything that is related to FBSON binary data * structures. * * Implementation notes: * * None of the classes in this header file can be instantiated directly (i.e. * you cannot create a FbsonKeyValue or FbsonValue object - all constructors * are declared non-public). We use the classes as wrappers on the packed FBSON * bytes (serialized), and cast the classes (types) to the underlying packed * byte array. * * For the same reason, we cannot define any FBSON value class to be virtual, * since we never call constructors, and will not instantiate vtbl and vptrs. * * Therefore, the classes are defined as packed structures (i.e. no data * alignment and padding), and the private member variables of the classes are * defined precisely in the same order as the FBSON spec. This ensures we * access the packed FBSON bytes correctly. * * The packed structures are highly optimized for in-place operations with low * overhead. The reads (and in-place writes) are performed directly on packed * bytes. There is no memory allocation at all at runtime. * * For updates/writes of values that will expand the original FBSON size, the * write will fail, and the caller needs to handle buffer increase. * * ** Iterator ** * Both ObjectVal class and ArrayVal class have iterator type that you can use * to declare an iterator on a container object to go through the key-value * pairs or value list. The iterator has both non-const and const types. * * Note: iterators are forward direction only. * * ** Query ** * Querying into containers is through the member functions find (for key/value * pairs) and get (for array elements), and is in streaming style. We don't * need to read/scan the whole FBSON packed bytes in order to return results. * Once the key/index is found, we will stop search. You can use text to query * both objects and array (for array, text will be converted to integer index), * and use index to retrieve from array. Array index is 0-based. * * ** External dictionary ** * During query processing, you can also pass a callback function, so the * search will first try to check if the key string exists in the dictionary. * If so, search will be based on the id instead of the key string. * * @author Tian Xia */ #pragma once #include #include #include namespace fbson { #pragma pack(push, 1) #define FBSON_VER 1 // forward declaration class FbsonValue; class ObjectVal; /* * FbsonDocument is the main object that accesses and queries FBSON packed * bytes. NOTE: FbsonDocument only allows object container as the top level * FBSON value. However, you can use the static method "createValue" to get any * FbsonValue object from the packed bytes. * * FbsonDocument object also dereferences to an object container value * (ObjectVal) once FBSON is loaded. * * ** Load ** * FbsonDocument is usable after loading packed bytes (memory location) into * the object. We only need the header and first few bytes of the payload after * header to verify the FBSON. * * Note: creating an FbsonDocument (through createDocument) does not allocate * any memory. The document object is an efficient wrapper on the packed bytes * which is accessed directly. * * ** Query ** * Query is through dereferencing into ObjectVal. */ class FbsonDocument { public: // create an FbsonDocument object from FBSON packed bytes static FbsonDocument* createDocument(const char* pb, uint32_t size); // create an FbsonValue from FBSON packed bytes static FbsonValue* createValue(const char* pb, uint32_t size); uint8_t version() { return header_.ver_; } FbsonValue* getValue() { return ((FbsonValue*)payload_); } ObjectVal* operator->() { return ((ObjectVal*)payload_); } const ObjectVal* operator->() const { return ((const ObjectVal*)payload_); } private: /* * FbsonHeader class defines FBSON header (internal to FbsonDocument). * * Currently it only contains version information (1-byte). We may expand the * header to include checksum of the FBSON binary for more security. */ struct FbsonHeader { uint8_t ver_; } header_; char payload_[1]; FbsonDocument(); FbsonDocument(const FbsonDocument&) = delete; FbsonDocument& operator=(const FbsonDocument&) = delete; }; /* * FbsonFwdIteratorT implements FBSON's iterator template. * * Note: it is an FORWARD iterator only due to the design of FBSON format. */ template class FbsonFwdIteratorT { typedef Iter_Type iterator; typedef typename std::iterator_traits::pointer pointer; typedef typename std::iterator_traits::reference reference; public: explicit FbsonFwdIteratorT(const iterator& i) : current_(i) {} // allow non-const to const iterator conversion (same container type) template FbsonFwdIteratorT(const FbsonFwdIteratorT& rhs) : current_(rhs.base()) {} bool operator==(const FbsonFwdIteratorT& rhs) const { return (current_ == rhs.current_); } bool operator!=(const FbsonFwdIteratorT& rhs) const { return !operator==(rhs); } bool operator<(const FbsonFwdIteratorT& rhs) const { return (current_ < rhs.current_); } bool operator>(const FbsonFwdIteratorT& rhs) const { return !operator<(rhs); } FbsonFwdIteratorT& operator++() { current_ = (iterator)(((char*)current_) + current_->numPackedBytes()); return *this; } FbsonFwdIteratorT operator++(int) { auto tmp = *this; current_ = (iterator)(((char*)current_) + current_->numPackedBytes()); return tmp; } explicit operator pointer() { return current_; } reference operator*() const { return *current_; } pointer operator->() const { return current_; } iterator base() const { return current_; } private: iterator current_; }; typedef int (*hDictInsert)(const char* key, unsigned len); typedef int (*hDictFind)(const char* key, unsigned len); /* * FbsonType defines 10 primitive types and 2 container types, as described * below. * * primitive_value ::= * 0x00 //null value (0 byte) * | 0x01 //boolean true (0 byte) * | 0x02 //boolean false (0 byte) * | 0x03 int8 //char/int8 (1 byte) * | 0x04 int16 //int16 (2 bytes) * | 0x05 int32 //int32 (4 bytes) * | 0x06 int64 //int64 (8 bytes) * | 0x07 double //floating point (8 bytes) * | 0x08 string //variable length string * | 0x09 binary //variable length binary * * container ::= * 0x0A int32 key_value_list //object, int32 is the total bytes of the object * | 0x0B int32 value_list //array, int32 is the total bytes of the array */ enum class FbsonType : char { T_Null = 0x00, T_True = 0x01, T_False = 0x02, T_Int8 = 0x03, T_Int16 = 0x04, T_Int32 = 0x05, T_Int64 = 0x06, T_Double = 0x07, T_String = 0x08, T_Binary = 0x09, T_Object = 0x0A, T_Array = 0x0B, NUM_TYPES, }; typedef std::underlying_type::type FbsonTypeUnder; /* * FbsonKeyValue class defines FBSON key type, as described below. * * key ::= * 0x00 int8 //1-byte dictionary id * | int8 (byte*) //int8 (>0) is the size of the key string * * value ::= primitive_value | container * * FbsonKeyValue can be either an id mapping to the key string in an external * dictionary, or it is the original key string. Whether to read an id or a * string is decided by the first byte (size_). * * Note: a key object must be followed by a value object. Therefore, a key * object implicitly refers to a key-value pair, and you can get the value * object right after the key object. The function numPackedBytes hence * indicates the total size of the key-value pair, so that we will be able go * to next pair from the key. * * ** Dictionary size ** * By default, the dictionary size is 255 (1-byte). Users can define * "USE_LARGE_DICT" to increase the dictionary size to 655535 (2-byte). */ class FbsonKeyValue { public: #ifdef USE_LARGE_DICT static const int sMaxKeyId = 65535; typedef uint16_t keyid_type; #else static const int sMaxKeyId = 255; typedef uint8_t keyid_type; #endif // #ifdef USE_LARGE_DICT static const uint8_t sMaxKeyLen = 64; // size of the key. 0 indicates it is stored as id uint8_t klen() const { return size_; } // get the key string. Note the string may not be null terminated. const char* getKeyStr() const { return key_.str_; } keyid_type getKeyId() const { return key_.id_; } unsigned int keyPackedBytes() const { return size_ ? (sizeof(size_) + size_) : (sizeof(size_) + sizeof(keyid_type)); } FbsonValue* value() const { return (FbsonValue*)(((char*)this) + keyPackedBytes()); } // size of the total packed bytes (key+value) unsigned int numPackedBytes() const; private: uint8_t size_; union key_ { keyid_type id_; char str_[1]; } key_; FbsonKeyValue(); }; /* * FbsonValue is the base class of all FBSON types. It contains only one member * variable - type info, which can be retrieved by member functions is[Type]() * or type(). */ class FbsonValue { public: static const uint32_t sMaxValueLen = 1 << 24; // 16M bool isNull() const { return (type_ == FbsonType::T_Null); } bool isTrue() const { return (type_ == FbsonType::T_True); } bool isFalse() const { return (type_ == FbsonType::T_False); } bool isInt8() const { return (type_ == FbsonType::T_Int8); } bool isInt16() const { return (type_ == FbsonType::T_Int16); } bool isInt32() const { return (type_ == FbsonType::T_Int32); } bool isInt64() const { return (type_ == FbsonType::T_Int64); } bool isDouble() const { return (type_ == FbsonType::T_Double); } bool isString() const { return (type_ == FbsonType::T_String); } bool isBinary() const { return (type_ == FbsonType::T_Binary); } bool isObject() const { return (type_ == FbsonType::T_Object); } bool isArray() const { return (type_ == FbsonType::T_Array); } FbsonType type() const { return type_; } // size of the total packed bytes unsigned int numPackedBytes() const; // size of the value in bytes unsigned int size() const; // get the raw byte array of the value const char* getValuePtr() const; // find the FBSON value by a key path string (null terminated) FbsonValue* findPath(const char* key_path, const char* delim = ".", hDictFind handler = nullptr) { return findPath(key_path, (unsigned int)strlen(key_path), delim, handler); } // find the FBSON value by a key path string (with length) FbsonValue* findPath(const char* key_path, unsigned int len, const char* delim, hDictFind handler); protected: FbsonType type_; // type info FbsonValue(); }; /* * NumerValT is the template class (derived from FbsonValue) of all number * types (integers and double). */ template class NumberValT : public FbsonValue { public: T val() const { return num_; } unsigned int numPackedBytes() const { return sizeof(FbsonValue) + sizeof(T); } // catch all unknow specialization of the template class bool setVal(T /*value*/) { return false; } private: T num_; NumberValT(); }; typedef NumberValT Int8Val; // override setVal for Int8Val template <> inline bool Int8Val::setVal(int8_t value) { if (!isInt8()) { return false; } num_ = value; return true; } typedef NumberValT Int16Val; // override setVal for Int16Val template <> inline bool Int16Val::setVal(int16_t value) { if (!isInt16()) { return false; } num_ = value; return true; } typedef NumberValT Int32Val; // override setVal for Int32Val template <> inline bool Int32Val::setVal(int32_t value) { if (!isInt32()) { return false; } num_ = value; return true; } typedef NumberValT Int64Val; // override setVal for Int64Val template <> inline bool Int64Val::setVal(int64_t value) { if (!isInt64()) { return false; } num_ = value; return true; } typedef NumberValT DoubleVal; // override setVal for DoubleVal template <> inline bool DoubleVal::setVal(double value) { if (!isDouble()) { return false; } num_ = value; return true; } /* * BlobVal is the base class (derived from FbsonValue) for string and binary * types. The size_ indicates the total bytes of the payload_. */ class BlobVal : public FbsonValue { public: // size of the blob payload only unsigned int getBlobLen() const { return size_; } // return the blob as byte array const char* getBlob() const { return payload_; } // size of the total packed bytes unsigned int numPackedBytes() const { return sizeof(FbsonValue) + sizeof(size_) + size_; } protected: uint32_t size_; char payload_[1]; // set new blob bytes bool internalSetVal(const char* blob, uint32_t blobSize) { // if we cannot fit the new blob, fail the operation if (blobSize > size_) { return false; } memcpy(payload_, blob, blobSize); // Set the reset of the bytes to 0. Note we cannot change the size_ of the // current payload, as all values are packed. memset(payload_ + blobSize, 0, size_ - blobSize); return true; } BlobVal(); private: // Disable as this class can only be allocated dynamically BlobVal(const BlobVal&) = delete; BlobVal& operator=(const BlobVal&) = delete; }; /* * Binary type */ class BinaryVal : public BlobVal { public: bool setVal(const char* blob, uint32_t blobSize) { if (!isBinary()) { return false; } return internalSetVal(blob, blobSize); } private: BinaryVal(); }; /* * String type * Note: FBSON string may not be a c-string (NULL-terminated) */ class StringVal : public BlobVal { public: bool setVal(const char* str, uint32_t blobSize) { if (!isString()) { return false; } return internalSetVal(str, blobSize); } private: StringVal(); }; /* * ContainerVal is the base class (derived from FbsonValue) for object and * array types. The size_ indicates the total bytes of the payload_. */ class ContainerVal : public FbsonValue { public: // size of the container payload only unsigned int getContainerSize() const { return size_; } // return the container payload as byte array const char* getPayload() const { return payload_; } // size of the total packed bytes unsigned int numPackedBytes() const { return sizeof(FbsonValue) + sizeof(size_) + size_; } protected: uint32_t size_; char payload_[1]; ContainerVal(); ContainerVal(const ContainerVal&) = delete; ContainerVal& operator=(const ContainerVal&) = delete; }; /* * Object type */ class ObjectVal : public ContainerVal { public: // find the FBSON value by a key string (null terminated) FbsonValue* find(const char* key, hDictFind handler = nullptr) const { if (!key) return nullptr; return find(key, (unsigned int)strlen(key), handler); } // find the FBSON value by a key string (with length) FbsonValue* find(const char* key, unsigned int klen, hDictFind handler = nullptr) const { if (!key || !klen) return nullptr; int key_id = -1; if (handler && (key_id = handler(key, klen)) >= 0) { return find(key_id); } return internalFind(key, klen); } // find the FBSON value by a key dictionary ID FbsonValue* find(int key_id) const { if (key_id < 0 || key_id > FbsonKeyValue::sMaxKeyId) return nullptr; const char* pch = payload_; const char* fence = payload_ + size_; while (pch < fence) { FbsonKeyValue* pkey = (FbsonKeyValue*)(pch); if (!pkey->klen() && key_id == pkey->getKeyId()) { return pkey->value(); } pch += pkey->numPackedBytes(); } assert(pch == fence); return nullptr; } typedef FbsonKeyValue value_type; typedef value_type* pointer; typedef const value_type* const_pointer; typedef FbsonFwdIteratorT iterator; typedef FbsonFwdIteratorT const_iterator; iterator begin() { return iterator((pointer)payload_); } const_iterator begin() const { return const_iterator((pointer)payload_); } iterator end() { return iterator((pointer)(payload_ + size_)); } const_iterator end() const { return const_iterator((pointer)(payload_ + size_)); } private: FbsonValue* internalFind(const char* key, unsigned int klen) const { const char* pch = payload_; const char* fence = payload_ + size_; while (pch < fence) { FbsonKeyValue* pkey = (FbsonKeyValue*)(pch); if (klen == pkey->klen() && strncmp(key, pkey->getKeyStr(), klen) == 0) { return pkey->value(); } pch += pkey->numPackedBytes(); } assert(pch == fence); return nullptr; } private: ObjectVal(); }; /* * Array type */ class ArrayVal : public ContainerVal { public: // get the FBSON value at index FbsonValue* get(int idx) const { if (idx < 0) return nullptr; const char* pch = payload_; const char* fence = payload_ + size_; while (pch < fence && idx-- > 0) pch += ((FbsonValue*)pch)->numPackedBytes(); if (idx == -1) return (FbsonValue*)pch; else { assert(pch == fence); return nullptr; } } // Get number of elements in array unsigned int numElem() const { const char* pch = payload_; const char* fence = payload_ + size_; unsigned int num = 0; while (pch < fence) { ++num; pch += ((FbsonValue*)pch)->numPackedBytes(); } assert(pch == fence); return num; } typedef FbsonValue value_type; typedef value_type* pointer; typedef const value_type* const_pointer; typedef FbsonFwdIteratorT iterator; typedef FbsonFwdIteratorT const_iterator; iterator begin() { return iterator((pointer)payload_); } const_iterator begin() const { return const_iterator((pointer)payload_); } iterator end() { return iterator((pointer)(payload_ + size_)); } const_iterator end() const { return const_iterator((pointer)(payload_ + size_)); } private: ArrayVal(); }; inline FbsonDocument* FbsonDocument::createDocument(const char* pb, uint32_t size) { if (!pb || size < sizeof(FbsonHeader) + sizeof(FbsonValue)) { return nullptr; } FbsonDocument* doc = (FbsonDocument*)pb; if (doc->header_.ver_ != FBSON_VER) { return nullptr; } FbsonValue* val = (FbsonValue*)doc->payload_; if (!val->isObject() || size != sizeof(FbsonHeader) + val->numPackedBytes()) { return nullptr; } return doc; } inline FbsonValue* FbsonDocument::createValue(const char* pb, uint32_t size) { if (!pb || size < sizeof(FbsonHeader) + sizeof(FbsonValue)) { return nullptr; } FbsonDocument* doc = (FbsonDocument*)pb; if (doc->header_.ver_ != FBSON_VER) { return nullptr; } FbsonValue* val = (FbsonValue*)doc->payload_; if (size != sizeof(FbsonHeader) + val->numPackedBytes()) { return nullptr; } return val; } inline unsigned int FbsonKeyValue::numPackedBytes() const { unsigned int ks = keyPackedBytes(); FbsonValue* val = (FbsonValue*)(((char*)this) + ks); return ks + val->numPackedBytes(); } // Poor man's "virtual" function FbsonValue::numPackedBytes inline unsigned int FbsonValue::numPackedBytes() const { switch (type_) { case FbsonType::T_Null: case FbsonType::T_True: case FbsonType::T_False: { return sizeof(type_); } case FbsonType::T_Int8: { return sizeof(type_) + sizeof(int8_t); } case FbsonType::T_Int16: { return sizeof(type_) + sizeof(int16_t); } case FbsonType::T_Int32: { return sizeof(type_) + sizeof(int32_t); } case FbsonType::T_Int64: { return sizeof(type_) + sizeof(int64_t); } case FbsonType::T_Double: { return sizeof(type_) + sizeof(double); } case FbsonType::T_String: case FbsonType::T_Binary: { return ((BlobVal*)(this))->numPackedBytes(); } case FbsonType::T_Object: case FbsonType::T_Array: { return ((ContainerVal*)(this))->numPackedBytes(); } default: return 0; } } inline unsigned int FbsonValue::size() const { switch (type_) { case FbsonType::T_Int8: { return sizeof(int8_t); } case FbsonType::T_Int16: { return sizeof(int16_t); } case FbsonType::T_Int32: { return sizeof(int32_t); } case FbsonType::T_Int64: { return sizeof(int64_t); } case FbsonType::T_Double: { return sizeof(double); } case FbsonType::T_String: case FbsonType::T_Binary: { return ((BlobVal*)(this))->getBlobLen(); } case FbsonType::T_Object: case FbsonType::T_Array: { return ((ContainerVal*)(this))->getContainerSize(); } case FbsonType::T_Null: case FbsonType::T_True: case FbsonType::T_False: default: return 0; } } inline const char* FbsonValue::getValuePtr() const { switch (type_) { case FbsonType::T_Int8: case FbsonType::T_Int16: case FbsonType::T_Int32: case FbsonType::T_Int64: case FbsonType::T_Double: return ((char*)this) + sizeof(FbsonType); case FbsonType::T_String: case FbsonType::T_Binary: return ((BlobVal*)(this))->getBlob(); case FbsonType::T_Object: case FbsonType::T_Array: return ((ContainerVal*)(this))->getPayload(); case FbsonType::T_Null: case FbsonType::T_True: case FbsonType::T_False: default: return nullptr; } } inline FbsonValue* FbsonValue::findPath(const char* key_path, unsigned int kp_len, const char* delim = ".", hDictFind handler = nullptr) { if (!key_path || !kp_len) return nullptr; if (!delim) delim = "."; // default delimiter FbsonValue* pval = this; const char* fence = key_path + kp_len; char idx_buf[21]; // buffer to parse array index (integer value) while (pval && key_path < fence) { const char* key = key_path; unsigned int klen = 0; // find the current key for (; key_path != fence && *key_path != *delim; ++key_path, ++klen) ; if (!klen) return nullptr; switch (pval->type_) { case FbsonType::T_Object: { pval = ((ObjectVal*)pval)->find(key, klen, handler); break; } case FbsonType::T_Array: { // parse string into an integer (array index) if (klen >= sizeof(idx_buf)) return nullptr; memcpy(idx_buf, key, klen); idx_buf[klen] = 0; char* end = nullptr; int index = (int)strtol(idx_buf, &end, 10); if (end && !*end) pval = ((fbson::ArrayVal*)pval)->get(index); else // incorrect index string return nullptr; break; } default: return nullptr; } // skip the delimiter if (key_path < fence) { ++key_path; if (key_path == fence) // we have a trailing delimiter at the end return nullptr; } } return pval; } #pragma pack(pop) } // namespace fbson rocksdb-5.17.2/third-party/fbson/FbsonJsonParser.h000066400000000000000000000432371337235545400220660ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). /* * This file defines FbsonJsonParserT (template) and FbsonJsonParser. * * FbsonJsonParserT is a template class which implements a JSON parser. * FbsonJsonParserT parses JSON text, and serialize it to FBSON binary format * by using FbsonWriterT object. By default, FbsonJsonParserT creates a new * FbsonWriterT object with an output stream object. However, you can also * pass in your FbsonWriterT or any stream object that implements some basic * interface of std::ostream (see FbsonStream.h). * * FbsonJsonParser specializes FbsonJsonParserT with FbsonOutStream type (see * FbsonStream.h). So unless you want to provide own a different output stream * type, use FbsonJsonParser object. * * ** Parsing JSON ** * FbsonJsonParserT parses JSON string, and directly serializes into FBSON * packed bytes. There are three ways to parse a JSON string: (1) using * c-string, (2) using string with len, (3) using std::istream object. You can * use custome streambuf to redirect output. FbsonOutBuffer is a streambuf used * internally if the input is raw character buffer. * * You can reuse an FbsonJsonParserT object to parse/serialize multiple JSON * strings, and the previous FBSON will be overwritten. * * If parsing fails (returned false), the error code will be set to one of * FbsonErrType, and can be retrieved by calling getErrorCode(). * * ** External dictionary ** * During parsing a JSON string, you can pass a callback function to map a key * string to an id, and store the dictionary id in FBSON to save space. The * purpose of using an external dictionary is more towards a collection of * documents (which has common keys) rather than a single document, so that * space saving will be significant. * * ** Endianness ** * Note: FBSON serialization doesn't assume endianness of the server. However * you will need to ensure that the endianness at the reader side is the same * as that at the writer side (if they are on different machines). Otherwise, * proper conversion is needed when a number value is returned to the * caller/writer. * * @author Tian Xia */ #pragma once #include #include #include "FbsonDocument.h" #include "FbsonWriter.h" namespace fbson { const char* const kJsonDelim = " ,]}\t\r\n"; const char* const kWhiteSpace = " \t\n\r"; /* * Error codes */ enum class FbsonErrType { E_NONE = 0, E_INVALID_VER, E_EMPTY_STR, E_OUTPUT_FAIL, E_INVALID_DOCU, E_INVALID_VALUE, E_INVALID_KEY, E_INVALID_STR, E_INVALID_OBJ, E_INVALID_ARR, E_INVALID_HEX, E_INVALID_OCTAL, E_INVALID_DECIMAL, E_INVALID_EXPONENT, E_HEX_OVERFLOW, E_OCTAL_OVERFLOW, E_DECIMAL_OVERFLOW, E_DOUBLE_OVERFLOW, E_EXPONENT_OVERFLOW, }; /* * Template FbsonJsonParserT */ template class FbsonJsonParserT { public: FbsonJsonParserT() : err_(FbsonErrType::E_NONE) {} explicit FbsonJsonParserT(OS_TYPE& os) : writer_(os), err_(FbsonErrType::E_NONE) {} // parse a UTF-8 JSON string bool parse(const std::string& str, hDictInsert handler = nullptr) { return parse(str.c_str(), (unsigned int)str.size(), handler); } // parse a UTF-8 JSON c-style string (NULL terminated) bool parse(const char* c_str, hDictInsert handler = nullptr) { return parse(c_str, (unsigned int)strlen(c_str), handler); } // parse a UTF-8 JSON string with length bool parse(const char* pch, unsigned int len, hDictInsert handler = nullptr) { if (!pch || len == 0) { err_ = FbsonErrType::E_EMPTY_STR; return false; } FbsonInBuffer sb(pch, len); std::istream in(&sb); return parse(in, handler); } // parse UTF-8 JSON text from an input stream bool parse(std::istream& in, hDictInsert handler = nullptr) { bool res = false; // reset output stream writer_.reset(); trim(in); if (in.peek() == '{') { in.ignore(); res = parseObject(in, handler); } else if (in.peek() == '[') { in.ignore(); res = parseArray(in, handler); } else { err_ = FbsonErrType::E_INVALID_DOCU; } trim(in); if (res && !in.eof()) { err_ = FbsonErrType::E_INVALID_DOCU; return false; } return res; } FbsonWriterT& getWriter() { return writer_; } FbsonErrType getErrorCode() { return err_; } // clear error code void clearErr() { err_ = FbsonErrType::E_NONE; } private: // parse a JSON object (comma-separated list of key-value pairs) bool parseObject(std::istream& in, hDictInsert handler) { if (!writer_.writeStartObject()) { err_ = FbsonErrType::E_OUTPUT_FAIL; return false; } trim(in); if (in.peek() == '}') { in.ignore(); // empty object if (!writer_.writeEndObject()) { err_ = FbsonErrType::E_OUTPUT_FAIL; return false; } return true; } while (in.good()) { if (in.get() != '"') { err_ = FbsonErrType::E_INVALID_KEY; return false; } if (!parseKVPair(in, handler)) { return false; } trim(in); char ch = in.get(); if (ch == '}') { // end of the object if (!writer_.writeEndObject()) { err_ = FbsonErrType::E_OUTPUT_FAIL; return false; } return true; } else if (ch != ',') { err_ = FbsonErrType::E_INVALID_OBJ; return false; } trim(in); } err_ = FbsonErrType::E_INVALID_OBJ; return false; } // parse a JSON array (comma-separated list of values) bool parseArray(std::istream& in, hDictInsert handler) { if (!writer_.writeStartArray()) { err_ = FbsonErrType::E_OUTPUT_FAIL; return false; } trim(in); if (in.peek() == ']') { in.ignore(); // empty array if (!writer_.writeEndArray()) { err_ = FbsonErrType::E_OUTPUT_FAIL; return false; } return true; } while (in.good()) { if (!parseValue(in, handler)) { return false; } trim(in); char ch = in.get(); if (ch == ']') { // end of the array if (!writer_.writeEndArray()) { err_ = FbsonErrType::E_OUTPUT_FAIL; return false; } return true; } else if (ch != ',') { err_ = FbsonErrType::E_INVALID_ARR; return false; } trim(in); } err_ = FbsonErrType::E_INVALID_ARR; return false; } // parse a key-value pair, separated by ":" bool parseKVPair(std::istream& in, hDictInsert handler) { if (parseKey(in, handler) && parseValue(in, handler)) { return true; } return false; } // parse a key (must be string) bool parseKey(std::istream& in, hDictInsert handler) { char key[FbsonKeyValue::sMaxKeyLen]; int i = 0; while (in.good() && in.peek() != '"' && i < FbsonKeyValue::sMaxKeyLen) { key[i++] = in.get(); } if (!in.good() || in.peek() != '"' || i == 0) { err_ = FbsonErrType::E_INVALID_KEY; return false; } in.ignore(); // discard '"' int key_id = -1; if (handler) { key_id = handler(key, i); } if (key_id < 0) { writer_.writeKey(key, i); } else { writer_.writeKey(key_id); } trim(in); if (in.get() != ':') { err_ = FbsonErrType::E_INVALID_OBJ; return false; } return true; } // parse a value bool parseValue(std::istream& in, hDictInsert handler) { bool res = false; trim(in); switch (in.peek()) { case 'N': case 'n': { in.ignore(); res = parseNull(in); break; } case 'T': case 't': { in.ignore(); res = parseTrue(in); break; } case 'F': case 'f': { in.ignore(); res = parseFalse(in); break; } case '"': { in.ignore(); res = parseString(in); break; } case '{': { in.ignore(); res = parseObject(in, handler); break; } case '[': { in.ignore(); res = parseArray(in, handler); break; } default: { res = parseNumber(in); break; } } return res; } // parse NULL value bool parseNull(std::istream& in) { if (tolower(in.get()) == 'u' && tolower(in.get()) == 'l' && tolower(in.get()) == 'l') { writer_.writeNull(); return true; } err_ = FbsonErrType::E_INVALID_VALUE; return false; } // parse TRUE value bool parseTrue(std::istream& in) { if (tolower(in.get()) == 'r' && tolower(in.get()) == 'u' && tolower(in.get()) == 'e') { writer_.writeBool(true); return true; } err_ = FbsonErrType::E_INVALID_VALUE; return false; } // parse FALSE value bool parseFalse(std::istream& in) { if (tolower(in.get()) == 'a' && tolower(in.get()) == 'l' && tolower(in.get()) == 's' && tolower(in.get()) == 'e') { writer_.writeBool(false); return true; } err_ = FbsonErrType::E_INVALID_VALUE; return false; } // parse a string bool parseString(std::istream& in) { if (!writer_.writeStartString()) { err_ = FbsonErrType::E_OUTPUT_FAIL; return false; } bool escaped = false; char buffer[4096]; // write 4KB at a time int nread = 0; while (in.good()) { char ch = in.get(); if (ch != '"' || escaped) { buffer[nread++] = ch; if (nread == 4096) { // flush buffer if (!writer_.writeString(buffer, nread)) { err_ = FbsonErrType::E_OUTPUT_FAIL; return false; } nread = 0; } // set/reset escape if (ch == '\\' || escaped) { escaped = !escaped; } } else { // write all remaining bytes in the buffer if (nread > 0) { if (!writer_.writeString(buffer, nread)) { err_ = FbsonErrType::E_OUTPUT_FAIL; return false; } } // end writing string if (!writer_.writeEndString()) { err_ = FbsonErrType::E_OUTPUT_FAIL; return false; } return true; } } err_ = FbsonErrType::E_INVALID_STR; return false; } // parse a number // Number format can be hex, octal, or decimal (including float). // Only decimal can have (+/-) sign prefix. bool parseNumber(std::istream& in) { bool ret = false; switch (in.peek()) { case '0': { in.ignore(); if (in.peek() == 'x' || in.peek() == 'X') { in.ignore(); ret = parseHex(in); } else if (in.peek() == '.') { in.ignore(); ret = parseDouble(in, 0, 0, 1); } else { ret = parseOctal(in); } break; } case '-': { in.ignore(); ret = parseDecimal(in, -1); break; } case '+': in.ignore(); #if defined(__clang__) [[clang::fallthrough]]; #elif defined(__GNUC__) && __GNUC__ >= 7 [[gnu::fallthrough]]; #endif default: ret = parseDecimal(in, 1); break; } return ret; } // parse a number in hex format bool parseHex(std::istream& in) { uint64_t val = 0; int num_digits = 0; char ch = tolower(in.peek()); while (in.good() && !strchr(kJsonDelim, ch) && (++num_digits) <= 16) { if (ch >= '0' && ch <= '9') { val = (val << 4) + (ch - '0'); } else if (ch >= 'a' && ch <= 'f') { val = (val << 4) + (ch - 'a' + 10); } else { // unrecognized hex digit err_ = FbsonErrType::E_INVALID_HEX; return false; } in.ignore(); ch = tolower(in.peek()); } int size = 0; if (num_digits <= 2) { size = writer_.writeInt8((int8_t)val); } else if (num_digits <= 4) { size = writer_.writeInt16((int16_t)val); } else if (num_digits <= 8) { size = writer_.writeInt32((int32_t)val); } else if (num_digits <= 16) { size = writer_.writeInt64(val); } else { err_ = FbsonErrType::E_HEX_OVERFLOW; return false; } if (size == 0) { err_ = FbsonErrType::E_OUTPUT_FAIL; return false; } return true; } // parse a number in octal format bool parseOctal(std::istream& in) { int64_t val = 0; char ch = in.peek(); while (in.good() && !strchr(kJsonDelim, ch)) { if (ch >= '0' && ch <= '7') { val = val * 8 + (ch - '0'); } else { err_ = FbsonErrType::E_INVALID_OCTAL; return false; } // check if the number overflows if (val < 0) { err_ = FbsonErrType::E_OCTAL_OVERFLOW; return false; } in.ignore(); ch = in.peek(); } int size = 0; if (val <= std::numeric_limits::max()) { size = writer_.writeInt8((int8_t)val); } else if (val <= std::numeric_limits::max()) { size = writer_.writeInt16((int16_t)val); } else if (val <= std::numeric_limits::max()) { size = writer_.writeInt32((int32_t)val); } else { // val <= INT64_MAX size = writer_.writeInt64(val); } if (size == 0) { err_ = FbsonErrType::E_OUTPUT_FAIL; return false; } return true; } // parse a number in decimal (including float) bool parseDecimal(std::istream& in, int sign) { int64_t val = 0; int precision = 0; char ch = 0; while (in.good() && (ch = in.peek()) == '0') in.ignore(); while (in.good() && !strchr(kJsonDelim, ch)) { if (ch >= '0' && ch <= '9') { val = val * 10 + (ch - '0'); ++precision; } else if (ch == '.') { // note we don't pop out '.' return parseDouble(in, static_cast(val), precision, sign); } else { err_ = FbsonErrType::E_INVALID_DECIMAL; return false; } in.ignore(); // if the number overflows int64_t, first parse it as double iff we see a // decimal point later. Otherwise, will treat it as overflow if (val < 0 && val > std::numeric_limits::min()) { return parseDouble(in, static_cast(val), precision, sign); } ch = in.peek(); } if (sign < 0) { val = -val; } int size = 0; if (val >= std::numeric_limits::min() && val <= std::numeric_limits::max()) { size = writer_.writeInt8((int8_t)val); } else if (val >= std::numeric_limits::min() && val <= std::numeric_limits::max()) { size = writer_.writeInt16((int16_t)val); } else if (val >= std::numeric_limits::min() && val <= std::numeric_limits::max()) { size = writer_.writeInt32((int32_t)val); } else { // val <= INT64_MAX size = writer_.writeInt64(val); } if (size == 0) { err_ = FbsonErrType::E_OUTPUT_FAIL; return false; } return true; } // parse IEEE745 double precision: // Significand precision length - 15 // Maximum exponent value - 308 // // "If a decimal string with at most 15 significant digits is converted to // IEEE 754 double precision representation and then converted back to a // string with the same number of significant digits, then the final string // should match the original" bool parseDouble(std::istream& in, double val, int precision, int sign) { int integ = precision; int frac = 0; bool is_frac = false; char ch = in.peek(); if (ch == '.') { is_frac = true; in.ignore(); ch = in.peek(); } int exp = 0; while (in.good() && !strchr(kJsonDelim, ch)) { if (ch >= '0' && ch <= '9') { if (precision < 15) { val = val * 10 + (ch - '0'); if (is_frac) { ++frac; } else { ++integ; } ++precision; } else if (!is_frac) { ++exp; } } else if (ch == 'e' || ch == 'E') { in.ignore(); int exp2; if (!parseExponent(in, exp2)) { return false; } exp += exp2; // check if exponent overflows if (exp > 308 || exp < -308) { err_ = FbsonErrType::E_EXPONENT_OVERFLOW; return false; } is_frac = true; break; } in.ignore(); ch = in.peek(); } if (!is_frac) { err_ = FbsonErrType::E_DECIMAL_OVERFLOW; return false; } val *= std::pow(10, exp - frac); if (std::isnan(val) || std::isinf(val)) { err_ = FbsonErrType::E_DOUBLE_OVERFLOW; return false; } if (sign < 0) { val = -val; } if (writer_.writeDouble(val) == 0) { err_ = FbsonErrType::E_OUTPUT_FAIL; return false; } return true; } // parse the exponent part of a double number bool parseExponent(std::istream& in, int& exp) { bool neg = false; char ch = in.peek(); if (ch == '+') { in.ignore(); ch = in.peek(); } else if (ch == '-') { neg = true; in.ignore(); ch = in.peek(); } exp = 0; while (in.good() && !strchr(kJsonDelim, ch)) { if (ch >= '0' && ch <= '9') { exp = exp * 10 + (ch - '0'); } else { err_ = FbsonErrType::E_INVALID_EXPONENT; return false; } if (exp > 308) { err_ = FbsonErrType::E_EXPONENT_OVERFLOW; return false; } in.ignore(); ch = in.peek(); } if (neg) { exp = -exp; } return true; } void trim(std::istream& in) { while (in.good() && strchr(kWhiteSpace, in.peek())) { in.ignore(); } } private: FbsonWriterT writer_; FbsonErrType err_; }; typedef FbsonJsonParserT FbsonJsonParser; } // namespace fbson rocksdb-5.17.2/third-party/fbson/FbsonStream.h000066400000000000000000000104621337235545400212250ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). /* * This header file defines FbsonInBuffer and FbsonOutStream classes. * * ** Input Buffer ** * FbsonInBuffer is a customer input buffer to wrap raw character buffer. Its * object instances are used to create std::istream objects interally. * * ** Output Stream ** * FbsonOutStream is a custom output stream classes, to contain the FBSON * serialized binary. The class is conveniently used to specialize templates of * FbsonParser and FbsonWriter. * * @author Tian Xia */ #pragma once #ifndef __STDC_FORMAT_MACROS #define __STDC_FORMAT_MACROS #endif #if defined OS_WIN && !defined snprintf #define snprintf _snprintf #endif #include #include namespace fbson { // lengths includes sign #define MAX_INT_DIGITS 11 #define MAX_INT64_DIGITS 20 #define MAX_DOUBLE_DIGITS 23 // 1(sign)+16(significant)+1(decimal)+5(exponent) /* * FBSON's implementation of input buffer */ class FbsonInBuffer : public std::streambuf { public: FbsonInBuffer(const char* str, uint32_t len) { // this is read buffer and the str will not be changed // so we use const_cast (ugly!) to remove constness char* pch(const_cast(str)); setg(pch, pch, pch + len); } }; /* * FBSON's implementation of output stream. * * This is a wrapper of a char buffer. By default, the buffer capacity is 1024 * bytes. We will double the buffer if realloc is needed for writes. */ class FbsonOutStream : public std::ostream { public: explicit FbsonOutStream(uint32_t capacity = 1024) : std::ostream(nullptr), head_(nullptr), size_(0), capacity_(capacity), alloc_(true) { if (capacity_ == 0) { capacity_ = 1024; } head_ = (char*)malloc(capacity_); } FbsonOutStream(char* buffer, uint32_t capacity) : std::ostream(nullptr), head_(buffer), size_(0), capacity_(capacity), alloc_(false) { assert(buffer && capacity_ > 0); } ~FbsonOutStream() { if (alloc_) { free(head_); } } void put(char c) { write(&c, 1); } void write(const char* c_str) { write(c_str, (uint32_t)strlen(c_str)); } void write(const char* bytes, uint32_t len) { if (len == 0) return; if (size_ + len > capacity_) { realloc(len); } memcpy(head_ + size_, bytes, len); size_ += len; } // write the integer to string void write(int i) { // snprintf automatically adds a NULL, so we need one more char if (size_ + MAX_INT_DIGITS + 1 > capacity_) { realloc(MAX_INT_DIGITS + 1); } int len = snprintf(head_ + size_, MAX_INT_DIGITS + 1, "%d", i); assert(len > 0); size_ += len; } // write the 64bit integer to string void write(int64_t l) { // snprintf automatically adds a NULL, so we need one more char if (size_ + MAX_INT64_DIGITS + 1 > capacity_) { realloc(MAX_INT64_DIGITS + 1); } int len = snprintf(head_ + size_, MAX_INT64_DIGITS + 1, "%" PRIi64, l); assert(len > 0); size_ += len; } // write the double to string void write(double d) { // snprintf automatically adds a NULL, so we need one more char if (size_ + MAX_DOUBLE_DIGITS + 1 > capacity_) { realloc(MAX_DOUBLE_DIGITS + 1); } int len = snprintf(head_ + size_, MAX_DOUBLE_DIGITS + 1, "%.15g", d); assert(len > 0); size_ += len; } pos_type tellp() const { return size_; } void seekp(pos_type pos) { size_ = (uint32_t)pos; } const char* getBuffer() const { return head_; } pos_type getSize() const { return tellp(); } private: void realloc(uint32_t len) { assert(capacity_ > 0); capacity_ *= 2; while (capacity_ < size_ + len) { capacity_ *= 2; } if (alloc_) { char* new_buf = (char*)::realloc(head_, capacity_); assert(new_buf); head_ = new_buf; } else { char* new_buf = (char*)::malloc(capacity_); assert(new_buf); memcpy(new_buf, head_, size_); head_ = new_buf; alloc_ = true; } } private: char* head_; uint32_t size_; uint32_t capacity_; bool alloc_; }; } // namespace fbson rocksdb-5.17.2/third-party/fbson/FbsonUtil.h000066400000000000000000000063421337235545400207110ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). /* * This header file defines miscellaneous utility classes. * * @author Tian Xia */ #pragma once #include #include "FbsonDocument.h" namespace fbson { #define OUT_BUF_SIZE 1024 /* * FbsonToJson converts an FbsonValue object to a JSON string. */ class FbsonToJson { public: FbsonToJson() : os_(buffer_, OUT_BUF_SIZE) {} // get json string const char* json(const FbsonValue* pval) { os_.clear(); os_.seekp(0); if (pval) { intern_json(pval); } os_.put(0); return os_.getBuffer(); } private: // recursively convert FbsonValue void intern_json(const FbsonValue* val) { switch (val->type()) { case FbsonType::T_Null: { os_.write("null", 4); break; } case FbsonType::T_True: { os_.write("true", 4); break; } case FbsonType::T_False: { os_.write("false", 5); break; } case FbsonType::T_Int8: { os_.write(((Int8Val*)val)->val()); break; } case FbsonType::T_Int16: { os_.write(((Int16Val*)val)->val()); break; } case FbsonType::T_Int32: { os_.write(((Int32Val*)val)->val()); break; } case FbsonType::T_Int64: { os_.write(((Int64Val*)val)->val()); break; } case FbsonType::T_Double: { os_.write(((DoubleVal*)val)->val()); break; } case FbsonType::T_String: { os_.put('"'); os_.write(((StringVal*)val)->getBlob(), ((StringVal*)val)->getBlobLen()); os_.put('"'); break; } case FbsonType::T_Binary: { os_.write("\"", 9); os_.write(((BinaryVal*)val)->getBlob(), ((BinaryVal*)val)->getBlobLen()); os_.write("\"", 9); break; } case FbsonType::T_Object: { object_to_json((ObjectVal*)val); break; } case FbsonType::T_Array: { array_to_json((ArrayVal*)val); break; } default: break; } } // convert object void object_to_json(const ObjectVal* val) { os_.put('{'); auto iter = val->begin(); auto iter_fence = val->end(); while (iter < iter_fence) { // write key if (iter->klen()) { os_.put('"'); os_.write(iter->getKeyStr(), iter->klen()); os_.put('"'); } else { os_.write(iter->getKeyId()); } os_.put(':'); // convert value intern_json(iter->value()); ++iter; if (iter != iter_fence) { os_.put(','); } } assert(iter == iter_fence); os_.put('}'); } // convert array to json void array_to_json(const ArrayVal* val) { os_.put('['); auto iter = val->begin(); auto iter_fence = val->end(); while (iter != iter_fence) { // convert value intern_json((const FbsonValue*)iter); ++iter; if (iter != iter_fence) { os_.put(','); } } assert(iter == iter_fence); os_.put(']'); } private: FbsonOutStream os_; char buffer_[OUT_BUF_SIZE]; }; } // namespace fbson rocksdb-5.17.2/third-party/fbson/FbsonWriter.h000066400000000000000000000246321337235545400212520ustar00rootroot00000000000000// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). /* * This file defines FbsonWriterT (template) and FbsonWriter. * * FbsonWriterT is a template class which implements an FBSON serializer. * Users call various write functions of FbsonWriterT object to write values * directly to FBSON packed bytes. All write functions of value or key return * the number of bytes written to FBSON, or 0 if there is an error. To write an * object, an array, or a string, you must call writeStart[..] before writing * values or key, and call writeEnd[..] after finishing at the end. * * By default, an FbsonWriterT object creates an output stream buffer. * Alternatively, you can also pass any output stream object to a writer, as * long as the stream object implements some basic functions of std::ostream * (such as FbsonOutStream, see FbsonStream.h). * * FbsonWriter specializes FbsonWriterT with FbsonOutStream type (see * FbsonStream.h). So unless you want to provide own a different output stream * type, use FbsonParser object. * * @author Tian Xia */ #pragma once #include #include "FbsonDocument.h" #include "FbsonStream.h" // conversion' conversion from 'type1' to 'type2', possible loss of data // Can not restore at the header end as the warnings are emitted at the point of // template instantiation #if defined(_MSC_VER) #pragma warning(disable : 4244) #endif namespace fbson { template class FbsonWriterT { public: FbsonWriterT() : alloc_(true), hasHdr_(false), kvState_(WS_Value), str_pos_(0) { os_ = new OS_TYPE(); } explicit FbsonWriterT(OS_TYPE& os) : os_(&os), alloc_(false), hasHdr_(false), kvState_(WS_Value), str_pos_(0) {} ~FbsonWriterT() { if (alloc_) { delete os_; } } void reset() { os_->clear(); os_->seekp(0); hasHdr_ = false; kvState_ = WS_Value; for (; !stack_.empty(); stack_.pop()) ; } // write a key string (or key id if an external dict is provided) uint32_t writeKey(const char* key, uint8_t len, hDictInsert handler = nullptr) { if (len && !stack_.empty() && verifyKeyState()) { int key_id = -1; if (handler) { key_id = handler(key, len); } uint32_t size = sizeof(uint8_t); if (key_id < 0) { os_->put(len); os_->write(key, len); size += len; } else if (key_id <= FbsonKeyValue::sMaxKeyId) { FbsonKeyValue::keyid_type idx = key_id; os_->put(0); os_->write((char*)&idx, sizeof(FbsonKeyValue::keyid_type)); size += sizeof(FbsonKeyValue::keyid_type); } else { // key id overflow assert(0); return 0; } kvState_ = WS_Key; return size; } return 0; } // write a key id uint32_t writeKey(FbsonKeyValue::keyid_type idx) { if (!stack_.empty() && verifyKeyState()) { os_->put(0); os_->write((char*)&idx, sizeof(FbsonKeyValue::keyid_type)); kvState_ = WS_Key; return sizeof(uint8_t) + sizeof(FbsonKeyValue::keyid_type); } return 0; } uint32_t writeNull() { if (!stack_.empty() && verifyValueState()) { os_->put((FbsonTypeUnder)FbsonType::T_Null); kvState_ = WS_Value; return sizeof(FbsonValue); } return 0; } uint32_t writeBool(bool b) { if (!stack_.empty() && verifyValueState()) { if (b) { os_->put((FbsonTypeUnder)FbsonType::T_True); } else { os_->put((FbsonTypeUnder)FbsonType::T_False); } kvState_ = WS_Value; return sizeof(FbsonValue); } return 0; } uint32_t writeInt8(int8_t v) { if (!stack_.empty() && verifyValueState()) { os_->put((FbsonTypeUnder)FbsonType::T_Int8); os_->put(v); kvState_ = WS_Value; return sizeof(Int8Val); } return 0; } uint32_t writeInt16(int16_t v) { if (!stack_.empty() && verifyValueState()) { os_->put((FbsonTypeUnder)FbsonType::T_Int16); os_->write((char*)&v, sizeof(int16_t)); kvState_ = WS_Value; return sizeof(Int16Val); } return 0; } uint32_t writeInt32(int32_t v) { if (!stack_.empty() && verifyValueState()) { os_->put((FbsonTypeUnder)FbsonType::T_Int32); os_->write((char*)&v, sizeof(int32_t)); kvState_ = WS_Value; return sizeof(Int32Val); } return 0; } uint32_t writeInt64(int64_t v) { if (!stack_.empty() && verifyValueState()) { os_->put((FbsonTypeUnder)FbsonType::T_Int64); os_->write((char*)&v, sizeof(int64_t)); kvState_ = WS_Value; return sizeof(Int64Val); } return 0; } uint32_t writeDouble(double v) { if (!stack_.empty() && verifyValueState()) { os_->put((FbsonTypeUnder)FbsonType::T_Double); os_->write((char*)&v, sizeof(double)); kvState_ = WS_Value; return sizeof(DoubleVal); } return 0; } // must call writeStartString before writing a string val bool writeStartString() { if (!stack_.empty() && verifyValueState()) { os_->put((FbsonTypeUnder)FbsonType::T_String); str_pos_ = os_->tellp(); // fill the size bytes with 0 for now uint32_t size = 0; os_->write((char*)&size, sizeof(uint32_t)); kvState_ = WS_String; return true; } return false; } // finish writing a string val bool writeEndString() { if (kvState_ == WS_String) { std::streampos cur_pos = os_->tellp(); int32_t size = (int32_t)(cur_pos - str_pos_ - sizeof(uint32_t)); assert(size >= 0); os_->seekp(str_pos_); os_->write((char*)&size, sizeof(uint32_t)); os_->seekp(cur_pos); kvState_ = WS_Value; return true; } return false; } uint32_t writeString(const char* str, uint32_t len) { if (kvState_ == WS_String) { os_->write(str, len); return len; } return 0; } uint32_t writeString(char ch) { if (kvState_ == WS_String) { os_->put(ch); return 1; } return 0; } // must call writeStartBinary before writing a binary val bool writeStartBinary() { if (!stack_.empty() && verifyValueState()) { os_->put((FbsonTypeUnder)FbsonType::T_Binary); str_pos_ = os_->tellp(); // fill the size bytes with 0 for now uint32_t size = 0; os_->write((char*)&size, sizeof(uint32_t)); kvState_ = WS_Binary; return true; } return false; } // finish writing a binary val bool writeEndBinary() { if (kvState_ == WS_Binary) { std::streampos cur_pos = os_->tellp(); int32_t size = (int32_t)(cur_pos - str_pos_ - sizeof(uint32_t)); assert(size >= 0); os_->seekp(str_pos_); os_->write((char*)&size, sizeof(uint32_t)); os_->seekp(cur_pos); kvState_ = WS_Value; return true; } return false; } uint32_t writeBinary(const char* bin, uint32_t len) { if (kvState_ == WS_Binary) { os_->write(bin, len); return len; } return 0; } // must call writeStartObject before writing an object val bool writeStartObject() { if (stack_.empty() || verifyValueState()) { if (stack_.empty()) { // if this is a new FBSON, write the header if (!hasHdr_) { writeHeader(); } else return false; } os_->put((FbsonTypeUnder)FbsonType::T_Object); // save the size position stack_.push(WriteInfo({WS_Object, os_->tellp()})); // fill the size bytes with 0 for now uint32_t size = 0; os_->write((char*)&size, sizeof(uint32_t)); kvState_ = WS_Value; return true; } return false; } // finish writing an object val bool writeEndObject() { if (!stack_.empty() && stack_.top().state == WS_Object && kvState_ == WS_Value) { WriteInfo& ci = stack_.top(); std::streampos cur_pos = os_->tellp(); int32_t size = (int32_t)(cur_pos - ci.sz_pos - sizeof(uint32_t)); assert(size >= 0); os_->seekp(ci.sz_pos); os_->write((char*)&size, sizeof(uint32_t)); os_->seekp(cur_pos); stack_.pop(); return true; } return false; } // must call writeStartArray before writing an array val bool writeStartArray() { if (stack_.empty() || verifyValueState()) { if (stack_.empty()) { // if this is a new FBSON, write the header if (!hasHdr_) { writeHeader(); } else return false; } os_->put((FbsonTypeUnder)FbsonType::T_Array); // save the size position stack_.push(WriteInfo({WS_Array, os_->tellp()})); // fill the size bytes with 0 for now uint32_t size = 0; os_->write((char*)&size, sizeof(uint32_t)); kvState_ = WS_Value; return true; } return false; } // finish writing an array val bool writeEndArray() { if (!stack_.empty() && stack_.top().state == WS_Array && kvState_ == WS_Value) { WriteInfo& ci = stack_.top(); std::streampos cur_pos = os_->tellp(); int32_t size = (int32_t)(cur_pos - ci.sz_pos - sizeof(uint32_t)); assert(size >= 0); os_->seekp(ci.sz_pos); os_->write((char*)&size, sizeof(uint32_t)); os_->seekp(cur_pos); stack_.pop(); return true; } return false; } OS_TYPE* getOutput() { return os_; } private: // verify we are in the right state before writing a value bool verifyValueState() { assert(!stack_.empty()); return (stack_.top().state == WS_Object && kvState_ == WS_Key) || (stack_.top().state == WS_Array && kvState_ == WS_Value); } // verify we are in the right state before writing a key bool verifyKeyState() { assert(!stack_.empty()); return stack_.top().state == WS_Object && kvState_ == WS_Value; } void writeHeader() { os_->put(FBSON_VER); hasHdr_ = true; } private: enum WriteState { WS_NONE, WS_Array, WS_Object, WS_Key, WS_Value, WS_String, WS_Binary, }; struct WriteInfo { WriteState state; std::streampos sz_pos; }; private: OS_TYPE* os_; bool alloc_; bool hasHdr_; WriteState kvState_; // key or value state std::streampos str_pos_; std::stack stack_; }; typedef FbsonWriterT FbsonWriter; } // namespace fbson rocksdb-5.17.2/third-party/gtest-1.7.0/000077500000000000000000000000001337235545400173065ustar00rootroot00000000000000rocksdb-5.17.2/third-party/gtest-1.7.0/fused-src/000077500000000000000000000000001337235545400212015ustar00rootroot00000000000000rocksdb-5.17.2/third-party/gtest-1.7.0/fused-src/gtest/000077500000000000000000000000001337235545400223275ustar00rootroot00000000000000rocksdb-5.17.2/third-party/gtest-1.7.0/fused-src/gtest/CMakeLists.txt000066400000000000000000000000401337235545400250610ustar00rootroot00000000000000add_library(gtest gtest-all.cc) rocksdb-5.17.2/third-party/gtest-1.7.0/fused-src/gtest/gtest-all.cc000066400000000000000000013403571337235545400245470ustar00rootroot00000000000000// Copyright 2008, Google Inc. // All rights reserved. // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following disclaimer // in the documentation and/or other materials provided with the // distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived from // this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // // Author: mheule@google.com (Markus Heule) // // Google C++ Testing Framework (Google Test) // // Sometimes it's desirable to build Google Test by compiling a single file. // This file serves this purpose. // Suppress clang analyzer warnings. #ifndef __clang_analyzer__ // This line ensures that gtest.h can be compiled on its own, even // when it's fused. #include "gtest/gtest.h" // The following lines pull in the real gtest *.cc files. // Copyright 2005, Google Inc. // All rights reserved. // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following disclaimer // in the documentation and/or other materials provided with the // distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived from // this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // // Author: wan@google.com (Zhanyong Wan) // // The Google C++ Testing Framework (Google Test) // Copyright 2007, Google Inc. // All rights reserved. // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following disclaimer // in the documentation and/or other materials provided with the // distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived from // this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // // Author: wan@google.com (Zhanyong Wan) // // Utilities for testing Google Test itself and code that uses Google Test // (e.g. frameworks built on top of Google Test). #ifndef GTEST_INCLUDE_GTEST_GTEST_SPI_H_ #define GTEST_INCLUDE_GTEST_GTEST_SPI_H_ namespace testing { // This helper class can be used to mock out Google Test failure reporting // so that we can test Google Test or code that builds on Google Test. // // An object of this class appends a TestPartResult object to the // TestPartResultArray object given in the constructor whenever a Google Test // failure is reported. It can either intercept only failures that are // generated in the same thread that created this object or it can intercept // all generated failures. The scope of this mock object can be controlled with // the second argument to the two arguments constructor. class GTEST_API_ ScopedFakeTestPartResultReporter : public TestPartResultReporterInterface { public: // The two possible mocking modes of this object. enum InterceptMode { INTERCEPT_ONLY_CURRENT_THREAD, // Intercepts only thread local failures. INTERCEPT_ALL_THREADS // Intercepts all failures. }; // The c'tor sets this object as the test part result reporter used // by Google Test. The 'result' parameter specifies where to report the // results. This reporter will only catch failures generated in the current // thread. DEPRECATED explicit ScopedFakeTestPartResultReporter(TestPartResultArray* result); // Same as above, but you can choose the interception scope of this object. ScopedFakeTestPartResultReporter(InterceptMode intercept_mode, TestPartResultArray* result); // The d'tor restores the previous test part result reporter. virtual ~ScopedFakeTestPartResultReporter(); // Appends the TestPartResult object to the TestPartResultArray // received in the constructor. // // This method is from the TestPartResultReporterInterface // interface. virtual void ReportTestPartResult(const TestPartResult& result); private: void Init(); const InterceptMode intercept_mode_; TestPartResultReporterInterface* old_reporter_; TestPartResultArray* const result_; GTEST_DISALLOW_COPY_AND_ASSIGN_(ScopedFakeTestPartResultReporter); }; namespace internal { // A helper class for implementing EXPECT_FATAL_FAILURE() and // EXPECT_NONFATAL_FAILURE(). Its destructor verifies that the given // TestPartResultArray contains exactly one failure that has the given // type and contains the given substring. If that's not the case, a // non-fatal failure will be generated. class GTEST_API_ SingleFailureChecker { public: // The constructor remembers the arguments. SingleFailureChecker(const TestPartResultArray* results, TestPartResult::Type type, const string& substr); ~SingleFailureChecker(); private: const TestPartResultArray* const results_; const TestPartResult::Type type_; const string substr_; GTEST_DISALLOW_COPY_AND_ASSIGN_(SingleFailureChecker); }; } // namespace internal } // namespace testing // A set of macros for testing Google Test assertions or code that's expected // to generate Google Test fatal failures. It verifies that the given // statement will cause exactly one fatal Google Test failure with 'substr' // being part of the failure message. // // There are two different versions of this macro. EXPECT_FATAL_FAILURE only // affects and considers failures generated in the current thread and // EXPECT_FATAL_FAILURE_ON_ALL_THREADS does the same but for all threads. // // The verification of the assertion is done correctly even when the statement // throws an exception or aborts the current function. // // Known restrictions: // - 'statement' cannot reference local non-static variables or // non-static members of the current object. // - 'statement' cannot return a value. // - You cannot stream a failure message to this macro. // // Note that even though the implementations of the following two // macros are much alike, we cannot refactor them to use a common // helper macro, due to some peculiarity in how the preprocessor // works. The AcceptsMacroThatExpandsToUnprotectedComma test in // gtest_unittest.cc will fail to compile if we do that. #define EXPECT_FATAL_FAILURE(statement, substr) \ do { \ class GTestExpectFatalFailureHelper {\ public:\ static void Execute() { statement; }\ };\ ::testing::TestPartResultArray gtest_failures;\ ::testing::internal::SingleFailureChecker gtest_checker(\ >est_failures, ::testing::TestPartResult::kFatalFailure, (substr));\ {\ ::testing::ScopedFakeTestPartResultReporter gtest_reporter(\ ::testing::ScopedFakeTestPartResultReporter:: \ INTERCEPT_ONLY_CURRENT_THREAD, >est_failures);\ GTestExpectFatalFailureHelper::Execute();\ }\ } while (::testing::internal::AlwaysFalse()) #define EXPECT_FATAL_FAILURE_ON_ALL_THREADS(statement, substr) \ do { \ class GTestExpectFatalFailureHelper {\ public:\ static void Execute() { statement; }\ };\ ::testing::TestPartResultArray gtest_failures;\ ::testing::internal::SingleFailureChecker gtest_checker(\ >est_failures, ::testing::TestPartResult::kFatalFailure, (substr));\ {\ ::testing::ScopedFakeTestPartResultReporter gtest_reporter(\ ::testing::ScopedFakeTestPartResultReporter:: \ INTERCEPT_ALL_THREADS, >est_failures);\ GTestExpectFatalFailureHelper::Execute();\ }\ } while (::testing::internal::AlwaysFalse()) // A macro for testing Google Test assertions or code that's expected to // generate Google Test non-fatal failures. It asserts that the given // statement will cause exactly one non-fatal Google Test failure with 'substr' // being part of the failure message. // // There are two different versions of this macro. EXPECT_NONFATAL_FAILURE only // affects and considers failures generated in the current thread and // EXPECT_NONFATAL_FAILURE_ON_ALL_THREADS does the same but for all threads. // // 'statement' is allowed to reference local variables and members of // the current object. // // The verification of the assertion is done correctly even when the statement // throws an exception or aborts the current function. // // Known restrictions: // - You cannot stream a failure message to this macro. // // Note that even though the implementations of the following two // macros are much alike, we cannot refactor them to use a common // helper macro, due to some peculiarity in how the preprocessor // works. If we do that, the code won't compile when the user gives // EXPECT_NONFATAL_FAILURE() a statement that contains a macro that // expands to code containing an unprotected comma. The // AcceptsMacroThatExpandsToUnprotectedComma test in gtest_unittest.cc // catches that. // // For the same reason, we have to write // if (::testing::internal::AlwaysTrue()) { statement; } // instead of // GTEST_SUPPRESS_UNREACHABLE_CODE_WARNING_BELOW_(statement) // to avoid an MSVC warning on unreachable code. #define EXPECT_NONFATAL_FAILURE(statement, substr) \ do {\ ::testing::TestPartResultArray gtest_failures;\ ::testing::internal::SingleFailureChecker gtest_checker(\ >est_failures, ::testing::TestPartResult::kNonFatalFailure, \ (substr));\ {\ ::testing::ScopedFakeTestPartResultReporter gtest_reporter(\ ::testing::ScopedFakeTestPartResultReporter:: \ INTERCEPT_ONLY_CURRENT_THREAD, >est_failures);\ if (::testing::internal::AlwaysTrue()) { statement; }\ }\ } while (::testing::internal::AlwaysFalse()) #define EXPECT_NONFATAL_FAILURE_ON_ALL_THREADS(statement, substr) \ do {\ ::testing::TestPartResultArray gtest_failures;\ ::testing::internal::SingleFailureChecker gtest_checker(\ >est_failures, ::testing::TestPartResult::kNonFatalFailure, \ (substr));\ {\ ::testing::ScopedFakeTestPartResultReporter gtest_reporter(\ ::testing::ScopedFakeTestPartResultReporter::INTERCEPT_ALL_THREADS, \ >est_failures);\ if (::testing::internal::AlwaysTrue()) { statement; }\ }\ } while (::testing::internal::AlwaysFalse()) #endif // GTEST_INCLUDE_GTEST_GTEST_SPI_H_ #include #include #include #include #include #include #include #include #include #include #include #include #include #include // NOLINT #include #include #if GTEST_OS_LINUX // TODO(kenton@google.com): Use autoconf to detect availability of // gettimeofday(). # define GTEST_HAS_GETTIMEOFDAY_ 1 # include // NOLINT # include // NOLINT # include // NOLINT // Declares vsnprintf(). This header is not available on Windows. # include // NOLINT # include // NOLINT # include // NOLINT # include // NOLINT # include #elif GTEST_OS_SYMBIAN # define GTEST_HAS_GETTIMEOFDAY_ 1 # include // NOLINT #elif GTEST_OS_ZOS # define GTEST_HAS_GETTIMEOFDAY_ 1 # include // NOLINT // On z/OS we additionally need strings.h for strcasecmp. # include // NOLINT #elif GTEST_OS_WINDOWS_MOBILE // We are on Windows CE. # include // NOLINT # undef min #elif GTEST_OS_WINDOWS // We are on Windows proper. # include // NOLINT # include // NOLINT # include // NOLINT # include // NOLINT # if GTEST_OS_WINDOWS_MINGW // MinGW has gettimeofday() but not _ftime64(). // TODO(kenton@google.com): Use autoconf to detect availability of // gettimeofday(). // TODO(kenton@google.com): There are other ways to get the time on // Windows, like GetTickCount() or GetSystemTimeAsFileTime(). MinGW // supports these. consider using them instead. # define GTEST_HAS_GETTIMEOFDAY_ 1 # include // NOLINT # endif // GTEST_OS_WINDOWS_MINGW // cpplint thinks that the header is already included, so we want to // silence it. # include // NOLINT # undef min #else // Assume other platforms have gettimeofday(). // TODO(kenton@google.com): Use autoconf to detect availability of // gettimeofday(). # define GTEST_HAS_GETTIMEOFDAY_ 1 // cpplint thinks that the header is already included, so we want to // silence it. # include // NOLINT # include // NOLINT #endif // GTEST_OS_LINUX #if GTEST_HAS_EXCEPTIONS # include #endif #if GTEST_CAN_STREAM_RESULTS_ # include // NOLINT # include // NOLINT # include // NOLINT # include // NOLINT #endif // Indicates that this translation unit is part of Google Test's // implementation. It must come before gtest-internal-inl.h is // included, or there will be a compiler error. This trick is to // prevent a user from accidentally including gtest-internal-inl.h in // his code. #define GTEST_IMPLEMENTATION_ 1 // Copyright 2005, Google Inc. // All rights reserved. // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following disclaimer // in the documentation and/or other materials provided with the // distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived from // this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // Utility functions and classes used by the Google C++ testing framework. // // Author: wan@google.com (Zhanyong Wan) // // This file contains purely Google Test's internal implementation. Please // DO NOT #INCLUDE IT IN A USER PROGRAM. #ifndef GTEST_SRC_GTEST_INTERNAL_INL_H_ #define GTEST_SRC_GTEST_INTERNAL_INL_H_ // GTEST_IMPLEMENTATION_ is defined to 1 iff the current translation unit is // part of Google Test's implementation; otherwise it's undefined. #if !GTEST_IMPLEMENTATION_ // If this file is included from the user's code, just say no. # error "gtest-internal-inl.h is part of Google Test's internal implementation." # error "It must not be included except by Google Test itself." #endif // GTEST_IMPLEMENTATION_ #ifndef _WIN32_WCE # include #endif // !_WIN32_WCE #include #include // For strtoll/_strtoul64/malloc/free. #include // For memmove. #include #include #include #if GTEST_CAN_STREAM_RESULTS_ # include // NOLINT # include // NOLINT #endif #if GTEST_OS_WINDOWS # include // NOLINT #endif // GTEST_OS_WINDOWS namespace testing { // Declares the flags. // // We don't want the users to modify this flag in the code, but want // Google Test's own unit tests to be able to access it. Therefore we // declare it here as opposed to in gtest.h. GTEST_DECLARE_bool_(death_test_use_fork); namespace internal { // The value of GetTestTypeId() as seen from within the Google Test // library. This is solely for testing GetTestTypeId(). GTEST_API_ extern const TypeId kTestTypeIdInGoogleTest; // Names of the flags (needed for parsing Google Test flags). const char kAlsoRunDisabledTestsFlag[] = "also_run_disabled_tests"; const char kBreakOnFailureFlag[] = "break_on_failure"; const char kCatchExceptionsFlag[] = "catch_exceptions"; const char kColorFlag[] = "color"; const char kFilterFlag[] = "filter"; const char kListTestsFlag[] = "list_tests"; const char kOutputFlag[] = "output"; const char kPrintTimeFlag[] = "print_time"; const char kRandomSeedFlag[] = "random_seed"; const char kRepeatFlag[] = "repeat"; const char kShuffleFlag[] = "shuffle"; const char kStackTraceDepthFlag[] = "stack_trace_depth"; const char kStreamResultToFlag[] = "stream_result_to"; const char kThrowOnFailureFlag[] = "throw_on_failure"; // A valid random seed must be in [1, kMaxRandomSeed]. const int kMaxRandomSeed = 99999; // g_help_flag is true iff the --help flag or an equivalent form is // specified on the command line. GTEST_API_ extern bool g_help_flag; // Returns the current time in milliseconds. GTEST_API_ TimeInMillis GetTimeInMillis(); // Returns true iff Google Test should use colors in the output. GTEST_API_ bool ShouldUseColor(bool stdout_is_tty); // Formats the given time in milliseconds as seconds. GTEST_API_ std::string FormatTimeInMillisAsSeconds(TimeInMillis ms); // Converts the given time in milliseconds to a date string in the ISO 8601 // format, without the timezone information. N.B.: due to the use the // non-reentrant localtime() function, this function is not thread safe. Do // not use it in any code that can be called from multiple threads. GTEST_API_ std::string FormatEpochTimeInMillisAsIso8601(TimeInMillis ms); // Parses a string for an Int32 flag, in the form of "--flag=value". // // On success, stores the value of the flag in *value, and returns // true. On failure, returns false without changing *value. GTEST_API_ bool ParseInt32Flag( const char* str, const char* flag, Int32* value); // Returns a random seed in range [1, kMaxRandomSeed] based on the // given --gtest_random_seed flag value. inline int GetRandomSeedFromFlag(Int32 random_seed_flag) { const unsigned int raw_seed = (random_seed_flag == 0) ? static_cast(GetTimeInMillis()) : static_cast(random_seed_flag); // Normalizes the actual seed to range [1, kMaxRandomSeed] such that // it's easy to type. const int normalized_seed = static_cast((raw_seed - 1U) % static_cast(kMaxRandomSeed)) + 1; return normalized_seed; } // Returns the first valid random seed after 'seed'. The behavior is // undefined if 'seed' is invalid. The seed after kMaxRandomSeed is // considered to be 1. inline int GetNextRandomSeed(int seed) { GTEST_CHECK_(1 <= seed && seed <= kMaxRandomSeed) << "Invalid random seed " << seed << " - must be in [1, " << kMaxRandomSeed << "]."; const int next_seed = seed + 1; return (next_seed > kMaxRandomSeed) ? 1 : next_seed; } // This class saves the values of all Google Test flags in its c'tor, and // restores them in its d'tor. class GTestFlagSaver { public: // The c'tor. GTestFlagSaver() { also_run_disabled_tests_ = GTEST_FLAG(also_run_disabled_tests); break_on_failure_ = GTEST_FLAG(break_on_failure); catch_exceptions_ = GTEST_FLAG(catch_exceptions); color_ = GTEST_FLAG(color); death_test_style_ = GTEST_FLAG(death_test_style); death_test_use_fork_ = GTEST_FLAG(death_test_use_fork); filter_ = GTEST_FLAG(filter); internal_run_death_test_ = GTEST_FLAG(internal_run_death_test); list_tests_ = GTEST_FLAG(list_tests); output_ = GTEST_FLAG(output); print_time_ = GTEST_FLAG(print_time); random_seed_ = GTEST_FLAG(random_seed); repeat_ = GTEST_FLAG(repeat); shuffle_ = GTEST_FLAG(shuffle); stack_trace_depth_ = GTEST_FLAG(stack_trace_depth); stream_result_to_ = GTEST_FLAG(stream_result_to); throw_on_failure_ = GTEST_FLAG(throw_on_failure); } // The d'tor is not virtual. DO NOT INHERIT FROM THIS CLASS. ~GTestFlagSaver() { GTEST_FLAG(also_run_disabled_tests) = also_run_disabled_tests_; GTEST_FLAG(break_on_failure) = break_on_failure_; GTEST_FLAG(catch_exceptions) = catch_exceptions_; GTEST_FLAG(color) = color_; GTEST_FLAG(death_test_style) = death_test_style_; GTEST_FLAG(death_test_use_fork) = death_test_use_fork_; GTEST_FLAG(filter) = filter_; GTEST_FLAG(internal_run_death_test) = internal_run_death_test_; GTEST_FLAG(list_tests) = list_tests_; GTEST_FLAG(output) = output_; GTEST_FLAG(print_time) = print_time_; GTEST_FLAG(random_seed) = random_seed_; GTEST_FLAG(repeat) = repeat_; GTEST_FLAG(shuffle) = shuffle_; GTEST_FLAG(stack_trace_depth) = stack_trace_depth_; GTEST_FLAG(stream_result_to) = stream_result_to_; GTEST_FLAG(throw_on_failure) = throw_on_failure_; } private: // Fields for saving the original values of flags. bool also_run_disabled_tests_; bool break_on_failure_; bool catch_exceptions_; std::string color_; std::string death_test_style_; bool death_test_use_fork_; std::string filter_; std::string internal_run_death_test_; bool list_tests_; std::string output_; bool print_time_; internal::Int32 random_seed_; internal::Int32 repeat_; bool shuffle_; internal::Int32 stack_trace_depth_; std::string stream_result_to_; bool throw_on_failure_; } GTEST_ATTRIBUTE_UNUSED_; // Converts a Unicode code point to a narrow string in UTF-8 encoding. // code_point parameter is of type UInt32 because wchar_t may not be // wide enough to contain a code point. // If the code_point is not a valid Unicode code point // (i.e. outside of Unicode range U+0 to U+10FFFF) it will be converted // to "(Invalid Unicode 0xXXXXXXXX)". GTEST_API_ std::string CodePointToUtf8(UInt32 code_point); // Converts a wide string to a narrow string in UTF-8 encoding. // The wide string is assumed to have the following encoding: // UTF-16 if sizeof(wchar_t) == 2 (on Windows, Cygwin, Symbian OS) // UTF-32 if sizeof(wchar_t) == 4 (on Linux) // Parameter str points to a null-terminated wide string. // Parameter num_chars may additionally limit the number // of wchar_t characters processed. -1 is used when the entire string // should be processed. // If the string contains code points that are not valid Unicode code points // (i.e. outside of Unicode range U+0 to U+10FFFF) they will be output // as '(Invalid Unicode 0xXXXXXXXX)'. If the string is in UTF16 encoding // and contains invalid UTF-16 surrogate pairs, values in those pairs // will be encoded as individual Unicode characters from Basic Normal Plane. GTEST_API_ std::string WideStringToUtf8(const wchar_t* str, int num_chars); // Reads the GTEST_SHARD_STATUS_FILE environment variable, and creates the file // if the variable is present. If a file already exists at this location, this // function will write over it. If the variable is present, but the file cannot // be created, prints an error and exits. void WriteToShardStatusFileIfNeeded(); // Checks whether sharding is enabled by examining the relevant // environment variable values. If the variables are present, // but inconsistent (e.g., shard_index >= total_shards), prints // an error and exits. If in_subprocess_for_death_test, sharding is // disabled because it must only be applied to the original test // process. Otherwise, we could filter out death tests we intended to execute. GTEST_API_ bool ShouldShard(const char* total_shards_str, const char* shard_index_str, bool in_subprocess_for_death_test); // Parses the environment variable var as an Int32. If it is unset, // returns default_val. If it is not an Int32, prints an error and // aborts. GTEST_API_ Int32 Int32FromEnvOrDie(const char* env_var, Int32 default_val); // Given the total number of shards, the shard index, and the test id, // returns true iff the test should be run on this shard. The test id is // some arbitrary but unique non-negative integer assigned to each test // method. Assumes that 0 <= shard_index < total_shards. GTEST_API_ bool ShouldRunTestOnShard( int total_shards, int shard_index, int test_id); // STL container utilities. // Returns the number of elements in the given container that satisfy // the given predicate. template inline int CountIf(const Container& c, Predicate predicate) { // Implemented as an explicit loop since std::count_if() in libCstd on // Solaris has a non-standard signature. int count = 0; for (typename Container::const_iterator it = c.begin(); it != c.end(); ++it) { if (predicate(*it)) ++count; } return count; } // Applies a function/functor to each element in the container. template void ForEach(const Container& c, Functor functor) { std::for_each(c.begin(), c.end(), functor); } // Returns the i-th element of the vector, or default_value if i is not // in range [0, v.size()). template inline E GetElementOr(const std::vector& v, int i, E default_value) { return (i < 0 || i >= static_cast(v.size())) ? default_value : v[i]; } // Performs an in-place shuffle of a range of the vector's elements. // 'begin' and 'end' are element indices as an STL-style range; // i.e. [begin, end) are shuffled, where 'end' == size() means to // shuffle to the end of the vector. template void ShuffleRange(internal::Random* random, int begin, int end, std::vector* v) { const int size = static_cast(v->size()); GTEST_CHECK_(0 <= begin && begin <= size) << "Invalid shuffle range start " << begin << ": must be in range [0, " << size << "]."; GTEST_CHECK_(begin <= end && end <= size) << "Invalid shuffle range finish " << end << ": must be in range [" << begin << ", " << size << "]."; // Fisher-Yates shuffle, from // http://en.wikipedia.org/wiki/Fisher-Yates_shuffle for (int range_width = end - begin; range_width >= 2; range_width--) { const int last_in_range = begin + range_width - 1; const int selected = begin + random->Generate(range_width); std::swap((*v)[selected], (*v)[last_in_range]); } } // Performs an in-place shuffle of the vector's elements. template inline void Shuffle(internal::Random* random, std::vector* v) { ShuffleRange(random, 0, static_cast(v->size()), v); } // A function for deleting an object. Handy for being used as a // functor. template static void Delete(T* x) { delete x; } // A predicate that checks the key of a TestProperty against a known key. // // TestPropertyKeyIs is copyable. class TestPropertyKeyIs { public: // Constructor. // // TestPropertyKeyIs has NO default constructor. explicit TestPropertyKeyIs(const std::string& key) : key_(key) {} // Returns true iff the test name of test property matches on key_. bool operator()(const TestProperty& test_property) const { return test_property.key() == key_; } private: std::string key_; }; // Class UnitTestOptions. // // This class contains functions for processing options the user // specifies when running the tests. It has only static members. // // In most cases, the user can specify an option using either an // environment variable or a command line flag. E.g. you can set the // test filter using either GTEST_FILTER or --gtest_filter. If both // the variable and the flag are present, the latter overrides the // former. class GTEST_API_ UnitTestOptions { public: // Functions for processing the gtest_output flag. // Returns the output format, or "" for normal printed output. static std::string GetOutputFormat(); // Returns the absolute path of the requested output file, or the // default (test_detail.xml in the original working directory) if // none was explicitly specified. static std::string GetAbsolutePathToOutputFile(); // Functions for processing the gtest_filter flag. // Returns true iff the wildcard pattern matches the string. The // first ':' or '\0' character in pattern marks the end of it. // // This recursive algorithm isn't very efficient, but is clear and // works well enough for matching test names, which are short. static bool PatternMatchesString(const char *pattern, const char *str); // Returns true iff the user-specified filter matches the test case // name and the test name. static bool FilterMatchesTest(const std::string &test_case_name, const std::string &test_name); #if GTEST_OS_WINDOWS // Function for supporting the gtest_catch_exception flag. // Returns EXCEPTION_EXECUTE_HANDLER if Google Test should handle the // given SEH exception, or EXCEPTION_CONTINUE_SEARCH otherwise. // This function is useful as an __except condition. static int GTestShouldProcessSEH(DWORD exception_code); #endif // GTEST_OS_WINDOWS // Returns true if "name" matches the ':' separated list of glob-style // filters in "filter". static bool MatchesFilter(const std::string& name, const char* filter); }; // Returns the current application's name, removing directory path if that // is present. Used by UnitTestOptions::GetOutputFile. GTEST_API_ FilePath GetCurrentExecutableName(); // The role interface for getting the OS stack trace as a string. class OsStackTraceGetterInterface { public: OsStackTraceGetterInterface() {} virtual ~OsStackTraceGetterInterface() {} // Returns the current OS stack trace as an std::string. Parameters: // // max_depth - the maximum number of stack frames to be included // in the trace. // skip_count - the number of top frames to be skipped; doesn't count // against max_depth. virtual string CurrentStackTrace(int max_depth, int skip_count) = 0; // UponLeavingGTest() should be called immediately before Google Test calls // user code. It saves some information about the current stack that // CurrentStackTrace() will use to find and hide Google Test stack frames. virtual void UponLeavingGTest() = 0; private: GTEST_DISALLOW_COPY_AND_ASSIGN_(OsStackTraceGetterInterface); }; // A working implementation of the OsStackTraceGetterInterface interface. class OsStackTraceGetter : public OsStackTraceGetterInterface { public: OsStackTraceGetter() : caller_frame_(NULL) {} virtual string CurrentStackTrace(int max_depth, int skip_count) GTEST_LOCK_EXCLUDED_(mutex_); virtual void UponLeavingGTest() GTEST_LOCK_EXCLUDED_(mutex_); // This string is inserted in place of stack frames that are part of // Google Test's implementation. static const char* const kElidedFramesMarker; private: Mutex mutex_; // protects all internal state // We save the stack frame below the frame that calls user code. // We do this because the address of the frame immediately below // the user code changes between the call to UponLeavingGTest() // and any calls to CurrentStackTrace() from within the user code. void* caller_frame_; GTEST_DISALLOW_COPY_AND_ASSIGN_(OsStackTraceGetter); }; // Information about a Google Test trace point. struct TraceInfo { const char* file; int line; std::string message; }; // This is the default global test part result reporter used in UnitTestImpl. // This class should only be used by UnitTestImpl. class DefaultGlobalTestPartResultReporter : public TestPartResultReporterInterface { public: explicit DefaultGlobalTestPartResultReporter(UnitTestImpl* unit_test); // Implements the TestPartResultReporterInterface. Reports the test part // result in the current test. virtual void ReportTestPartResult(const TestPartResult& result); private: UnitTestImpl* const unit_test_; GTEST_DISALLOW_COPY_AND_ASSIGN_(DefaultGlobalTestPartResultReporter); }; // This is the default per thread test part result reporter used in // UnitTestImpl. This class should only be used by UnitTestImpl. class DefaultPerThreadTestPartResultReporter : public TestPartResultReporterInterface { public: explicit DefaultPerThreadTestPartResultReporter(UnitTestImpl* unit_test); // Implements the TestPartResultReporterInterface. The implementation just // delegates to the current global test part result reporter of *unit_test_. virtual void ReportTestPartResult(const TestPartResult& result); private: UnitTestImpl* const unit_test_; GTEST_DISALLOW_COPY_AND_ASSIGN_(DefaultPerThreadTestPartResultReporter); }; // The private implementation of the UnitTest class. We don't protect // the methods under a mutex, as this class is not accessible by a // user and the UnitTest class that delegates work to this class does // proper locking. class GTEST_API_ UnitTestImpl { public: explicit UnitTestImpl(UnitTest* parent); virtual ~UnitTestImpl(); // There are two different ways to register your own TestPartResultReporter. // You can register your own repoter to listen either only for test results // from the current thread or for results from all threads. // By default, each per-thread test result repoter just passes a new // TestPartResult to the global test result reporter, which registers the // test part result for the currently running test. // Returns the global test part result reporter. TestPartResultReporterInterface* GetGlobalTestPartResultReporter(); // Sets the global test part result reporter. void SetGlobalTestPartResultReporter( TestPartResultReporterInterface* reporter); // Returns the test part result reporter for the current thread. TestPartResultReporterInterface* GetTestPartResultReporterForCurrentThread(); // Sets the test part result reporter for the current thread. void SetTestPartResultReporterForCurrentThread( TestPartResultReporterInterface* reporter); // Gets the number of successful test cases. int successful_test_case_count() const; // Gets the number of failed test cases. int failed_test_case_count() const; // Gets the number of all test cases. int total_test_case_count() const; // Gets the number of all test cases that contain at least one test // that should run. int test_case_to_run_count() const; // Gets the number of successful tests. int successful_test_count() const; // Gets the number of failed tests. int failed_test_count() const; // Gets the number of disabled tests that will be reported in the XML report. int reportable_disabled_test_count() const; // Gets the number of disabled tests. int disabled_test_count() const; // Gets the number of tests to be printed in the XML report. int reportable_test_count() const; // Gets the number of all tests. int total_test_count() const; // Gets the number of tests that should run. int test_to_run_count() const; // Gets the time of the test program start, in ms from the start of the // UNIX epoch. TimeInMillis start_timestamp() const { return start_timestamp_; } // Gets the elapsed time, in milliseconds. TimeInMillis elapsed_time() const { return elapsed_time_; } // Returns true iff the unit test passed (i.e. all test cases passed). bool Passed() const { return !Failed(); } // Returns true iff the unit test failed (i.e. some test case failed // or something outside of all tests failed). bool Failed() const { return failed_test_case_count() > 0 || ad_hoc_test_result()->Failed(); } // Gets the i-th test case among all the test cases. i can range from 0 to // total_test_case_count() - 1. If i is not in that range, returns NULL. const TestCase* GetTestCase(int i) const { const int index = GetElementOr(test_case_indices_, i, -1); return index < 0 ? NULL : test_cases_[i]; } // Gets the i-th test case among all the test cases. i can range from 0 to // total_test_case_count() - 1. If i is not in that range, returns NULL. TestCase* GetMutableTestCase(int i) { const int index = GetElementOr(test_case_indices_, i, -1); return index < 0 ? NULL : test_cases_[index]; } // Provides access to the event listener list. TestEventListeners* listeners() { return &listeners_; } // Returns the TestResult for the test that's currently running, or // the TestResult for the ad hoc test if no test is running. TestResult* current_test_result(); // Returns the TestResult for the ad hoc test. const TestResult* ad_hoc_test_result() const { return &ad_hoc_test_result_; } // Sets the OS stack trace getter. // // Does nothing if the input and the current OS stack trace getter // are the same; otherwise, deletes the old getter and makes the // input the current getter. void set_os_stack_trace_getter(OsStackTraceGetterInterface* getter); // Returns the current OS stack trace getter if it is not NULL; // otherwise, creates an OsStackTraceGetter, makes it the current // getter, and returns it. OsStackTraceGetterInterface* os_stack_trace_getter(); // Returns the current OS stack trace as an std::string. // // The maximum number of stack frames to be included is specified by // the gtest_stack_trace_depth flag. The skip_count parameter // specifies the number of top frames to be skipped, which doesn't // count against the number of frames to be included. // // For example, if Foo() calls Bar(), which in turn calls // CurrentOsStackTraceExceptTop(1), Foo() will be included in the // trace but Bar() and CurrentOsStackTraceExceptTop() won't. std::string CurrentOsStackTraceExceptTop(int skip_count) GTEST_NO_INLINE_; // Finds and returns a TestCase with the given name. If one doesn't // exist, creates one and returns it. // // Arguments: // // test_case_name: name of the test case // type_param: the name of the test's type parameter, or NULL if // this is not a typed or a type-parameterized test. // set_up_tc: pointer to the function that sets up the test case // tear_down_tc: pointer to the function that tears down the test case TestCase* GetTestCase(const char* test_case_name, const char* type_param, Test::SetUpTestCaseFunc set_up_tc, Test::TearDownTestCaseFunc tear_down_tc); // Adds a TestInfo to the unit test. // // Arguments: // // set_up_tc: pointer to the function that sets up the test case // tear_down_tc: pointer to the function that tears down the test case // test_info: the TestInfo object void AddTestInfo(Test::SetUpTestCaseFunc set_up_tc, Test::TearDownTestCaseFunc tear_down_tc, TestInfo* test_info) { // In order to support thread-safe death tests, we need to // remember the original working directory when the test program // was first invoked. We cannot do this in RUN_ALL_TESTS(), as // the user may have changed the current directory before calling // RUN_ALL_TESTS(). Therefore we capture the current directory in // AddTestInfo(), which is called to register a TEST or TEST_F // before main() is reached. if (original_working_dir_.IsEmpty()) { original_working_dir_.Set(FilePath::GetCurrentDir()); GTEST_CHECK_(!original_working_dir_.IsEmpty()) << "Failed to get the current working directory."; } GetTestCase(test_info->test_case_name(), test_info->type_param(), set_up_tc, tear_down_tc)->AddTestInfo(test_info); } #if GTEST_HAS_PARAM_TEST // Returns ParameterizedTestCaseRegistry object used to keep track of // value-parameterized tests and instantiate and register them. internal::ParameterizedTestCaseRegistry& parameterized_test_registry() { return parameterized_test_registry_; } #endif // GTEST_HAS_PARAM_TEST // Sets the TestCase object for the test that's currently running. void set_current_test_case(TestCase* a_current_test_case) { current_test_case_ = a_current_test_case; } // Sets the TestInfo object for the test that's currently running. If // current_test_info is NULL, the assertion results will be stored in // ad_hoc_test_result_. void set_current_test_info(TestInfo* a_current_test_info) { current_test_info_ = a_current_test_info; } // Registers all parameterized tests defined using TEST_P and // INSTANTIATE_TEST_CASE_P, creating regular tests for each test/parameter // combination. This method can be called more then once; it has guards // protecting from registering the tests more then once. If // value-parameterized tests are disabled, RegisterParameterizedTests is // present but does nothing. void RegisterParameterizedTests(); // Runs all tests in this UnitTest object, prints the result, and // returns true if all tests are successful. If any exception is // thrown during a test, this test is considered to be failed, but // the rest of the tests will still be run. bool RunAllTests(); // Clears the results of all tests, except the ad hoc tests. void ClearNonAdHocTestResult() { ForEach(test_cases_, TestCase::ClearTestCaseResult); } // Clears the results of ad-hoc test assertions. void ClearAdHocTestResult() { ad_hoc_test_result_.Clear(); } // Adds a TestProperty to the current TestResult object when invoked in a // context of a test or a test case, or to the global property set. If the // result already contains a property with the same key, the value will be // updated. void RecordProperty(const TestProperty& test_property); enum ReactionToSharding { HONOR_SHARDING_PROTOCOL, IGNORE_SHARDING_PROTOCOL }; // Matches the full name of each test against the user-specified // filter to decide whether the test should run, then records the // result in each TestCase and TestInfo object. // If shard_tests == HONOR_SHARDING_PROTOCOL, further filters tests // based on sharding variables in the environment. // Returns the number of tests that should run. int FilterTests(ReactionToSharding shard_tests); // Prints the names of the tests matching the user-specified filter flag. void ListTestsMatchingFilter(); const TestCase* current_test_case() const { return current_test_case_; } TestInfo* current_test_info() { return current_test_info_; } const TestInfo* current_test_info() const { return current_test_info_; } // Returns the vector of environments that need to be set-up/torn-down // before/after the tests are run. std::vector& environments() { return environments_; } // Getters for the per-thread Google Test trace stack. std::vector& gtest_trace_stack() { return *(gtest_trace_stack_.pointer()); } const std::vector& gtest_trace_stack() const { return gtest_trace_stack_.get(); } #if GTEST_HAS_DEATH_TEST void InitDeathTestSubprocessControlInfo() { internal_run_death_test_flag_.reset(ParseInternalRunDeathTestFlag()); } // Returns a pointer to the parsed --gtest_internal_run_death_test // flag, or NULL if that flag was not specified. // This information is useful only in a death test child process. // Must not be called before a call to InitGoogleTest. const InternalRunDeathTestFlag* internal_run_death_test_flag() const { return internal_run_death_test_flag_.get(); } // Returns a pointer to the current death test factory. internal::DeathTestFactory* death_test_factory() { return death_test_factory_.get(); } void SuppressTestEventsIfInSubprocess(); friend class ReplaceDeathTestFactory; #endif // GTEST_HAS_DEATH_TEST // Initializes the event listener performing XML output as specified by // UnitTestOptions. Must not be called before InitGoogleTest. void ConfigureXmlOutput(); #if GTEST_CAN_STREAM_RESULTS_ // Initializes the event listener for streaming test results to a socket. // Must not be called before InitGoogleTest. void ConfigureStreamingOutput(); #endif // Performs initialization dependent upon flag values obtained in // ParseGoogleTestFlagsOnly. Is called from InitGoogleTest after the call to // ParseGoogleTestFlagsOnly. In case a user neglects to call InitGoogleTest // this function is also called from RunAllTests. Since this function can be // called more than once, it has to be idempotent. void PostFlagParsingInit(); // Gets the random seed used at the start of the current test iteration. int random_seed() const { return random_seed_; } // Gets the random number generator. internal::Random* random() { return &random_; } // Shuffles all test cases, and the tests within each test case, // making sure that death tests are still run first. void ShuffleTests(); // Restores the test cases and tests to their order before the first shuffle. void UnshuffleTests(); // Returns the value of GTEST_FLAG(catch_exceptions) at the moment // UnitTest::Run() starts. bool catch_exceptions() const { return catch_exceptions_; } private: friend class ::testing::UnitTest; // Used by UnitTest::Run() to capture the state of // GTEST_FLAG(catch_exceptions) at the moment it starts. void set_catch_exceptions(bool value) { catch_exceptions_ = value; } // The UnitTest object that owns this implementation object. UnitTest* const parent_; // The working directory when the first TEST() or TEST_F() was // executed. internal::FilePath original_working_dir_; // The default test part result reporters. DefaultGlobalTestPartResultReporter default_global_test_part_result_reporter_; DefaultPerThreadTestPartResultReporter default_per_thread_test_part_result_reporter_; // Points to (but doesn't own) the global test part result reporter. TestPartResultReporterInterface* global_test_part_result_repoter_; // Protects read and write access to global_test_part_result_reporter_. internal::Mutex global_test_part_result_reporter_mutex_; // Points to (but doesn't own) the per-thread test part result reporter. internal::ThreadLocal per_thread_test_part_result_reporter_; // The vector of environments that need to be set-up/torn-down // before/after the tests are run. std::vector environments_; // The vector of TestCases in their original order. It owns the // elements in the vector. std::vector test_cases_; // Provides a level of indirection for the test case list to allow // easy shuffling and restoring the test case order. The i-th // element of this vector is the index of the i-th test case in the // shuffled order. std::vector test_case_indices_; #if GTEST_HAS_PARAM_TEST // ParameterizedTestRegistry object used to register value-parameterized // tests. internal::ParameterizedTestCaseRegistry parameterized_test_registry_; // Indicates whether RegisterParameterizedTests() has been called already. bool parameterized_tests_registered_; #endif // GTEST_HAS_PARAM_TEST // Index of the last death test case registered. Initially -1. int last_death_test_case_; // This points to the TestCase for the currently running test. It // changes as Google Test goes through one test case after another. // When no test is running, this is set to NULL and Google Test // stores assertion results in ad_hoc_test_result_. Initially NULL. TestCase* current_test_case_; // This points to the TestInfo for the currently running test. It // changes as Google Test goes through one test after another. When // no test is running, this is set to NULL and Google Test stores // assertion results in ad_hoc_test_result_. Initially NULL. TestInfo* current_test_info_; // Normally, a user only writes assertions inside a TEST or TEST_F, // or inside a function called by a TEST or TEST_F. Since Google // Test keeps track of which test is current running, it can // associate such an assertion with the test it belongs to. // // If an assertion is encountered when no TEST or TEST_F is running, // Google Test attributes the assertion result to an imaginary "ad hoc" // test, and records the result in ad_hoc_test_result_. TestResult ad_hoc_test_result_; // The list of event listeners that can be used to track events inside // Google Test. TestEventListeners listeners_; // The OS stack trace getter. Will be deleted when the UnitTest // object is destructed. By default, an OsStackTraceGetter is used, // but the user can set this field to use a custom getter if that is // desired. OsStackTraceGetterInterface* os_stack_trace_getter_; // True iff PostFlagParsingInit() has been called. bool post_flag_parse_init_performed_; // The random number seed used at the beginning of the test run. int random_seed_; // Our random number generator. internal::Random random_; // The time of the test program start, in ms from the start of the // UNIX epoch. TimeInMillis start_timestamp_; // How long the test took to run, in milliseconds. TimeInMillis elapsed_time_; #if GTEST_HAS_DEATH_TEST // The decomposed components of the gtest_internal_run_death_test flag, // parsed when RUN_ALL_TESTS is called. internal::scoped_ptr internal_run_death_test_flag_; internal::scoped_ptr death_test_factory_; #endif // GTEST_HAS_DEATH_TEST // A per-thread stack of traces created by the SCOPED_TRACE() macro. internal::ThreadLocal > gtest_trace_stack_; // The value of GTEST_FLAG(catch_exceptions) at the moment RunAllTests() // starts. bool catch_exceptions_; GTEST_DISALLOW_COPY_AND_ASSIGN_(UnitTestImpl); }; // class UnitTestImpl // Convenience function for accessing the global UnitTest // implementation object. inline UnitTestImpl* GetUnitTestImpl() { return UnitTest::GetInstance()->impl(); } #if GTEST_USES_SIMPLE_RE // Internal helper functions for implementing the simple regular // expression matcher. GTEST_API_ bool IsInSet(char ch, const char* str); GTEST_API_ bool IsAsciiDigit(char ch); GTEST_API_ bool IsAsciiPunct(char ch); GTEST_API_ bool IsRepeat(char ch); GTEST_API_ bool IsAsciiWhiteSpace(char ch); GTEST_API_ bool IsAsciiWordChar(char ch); GTEST_API_ bool IsValidEscape(char ch); GTEST_API_ bool AtomMatchesChar(bool escaped, char pattern, char ch); GTEST_API_ bool ValidateRegex(const char* regex); GTEST_API_ bool MatchRegexAtHead(const char* regex, const char* str); GTEST_API_ bool MatchRepetitionAndRegexAtHead( bool escaped, char ch, char repeat, const char* regex, const char* str); GTEST_API_ bool MatchRegexAnywhere(const char* regex, const char* str); #endif // GTEST_USES_SIMPLE_RE // Parses the command line for Google Test flags, without initializing // other parts of Google Test. GTEST_API_ void ParseGoogleTestFlagsOnly(int* argc, char** argv); GTEST_API_ void ParseGoogleTestFlagsOnly(int* argc, wchar_t** argv); #if GTEST_HAS_DEATH_TEST // Returns the message describing the last system error, regardless of the // platform. GTEST_API_ std::string GetLastErrnoDescription(); // Attempts to parse a string into a positive integer pointed to by the // number parameter. Returns true if that is possible. // GTEST_HAS_DEATH_TEST implies that we have ::std::string, so we can use // it here. template bool ParseNaturalNumber(const ::std::string& str, Integer* number) { // Fail fast if the given string does not begin with a digit; // this bypasses strtoXXX's "optional leading whitespace and plus // or minus sign" semantics, which are undesirable here. if (str.empty() || !IsDigit(str[0])) { return false; } errno = 0; char* end; // BiggestConvertible is the largest integer type that system-provided // string-to-number conversion routines can return. # if GTEST_OS_WINDOWS && !defined(__GNUC__) // MSVC and C++ Builder define __int64 instead of the standard long long. typedef unsigned __int64 BiggestConvertible; const BiggestConvertible parsed = _strtoui64(str.c_str(), &end, 10); # else typedef unsigned long long BiggestConvertible; // NOLINT const BiggestConvertible parsed = strtoull(str.c_str(), &end, 10); # endif // GTEST_OS_WINDOWS && !defined(__GNUC__) const bool parse_success = *end == '\0' && errno == 0; // TODO(vladl@google.com): Convert this to compile time assertion when it is // available. GTEST_CHECK_(sizeof(Integer) <= sizeof(parsed)); const Integer result = static_cast(parsed); if (parse_success && static_cast(result) == parsed) { *number = result; return true; } return false; } #endif // GTEST_HAS_DEATH_TEST // TestResult contains some private methods that should be hidden from // Google Test user but are required for testing. This class allow our tests // to access them. // // This class is supplied only for the purpose of testing Google Test's own // constructs. Do not use it in user tests, either directly or indirectly. class TestResultAccessor { public: static void RecordProperty(TestResult* test_result, const std::string& xml_element, const TestProperty& property) { test_result->RecordProperty(xml_element, property); } static void ClearTestPartResults(TestResult* test_result) { test_result->ClearTestPartResults(); } static const std::vector& test_part_results( const TestResult& test_result) { return test_result.test_part_results(); } }; #if GTEST_CAN_STREAM_RESULTS_ // Streams test results to the given port on the given host machine. class StreamingListener : public EmptyTestEventListener { public: // Abstract base class for writing strings to a socket. class AbstractSocketWriter { public: virtual ~AbstractSocketWriter() {} // Sends a string to the socket. virtual void Send(const string& message) = 0; // Closes the socket. virtual void CloseConnection() {} // Sends a string and a newline to the socket. void SendLn(const string& message) { Send(message + "\n"); } }; // Concrete class for actually writing strings to a socket. class SocketWriter : public AbstractSocketWriter { public: SocketWriter(const string& host, const string& port) : sockfd_(-1), host_name_(host), port_num_(port) { MakeConnection(); } virtual ~SocketWriter() { if (sockfd_ != -1) CloseConnection(); } // Sends a string to the socket. virtual void Send(const string& message) { GTEST_CHECK_(sockfd_ != -1) << "Send() can be called only when there is a connection."; const int len = static_cast(message.length()); if (write(sockfd_, message.c_str(), len) != len) { GTEST_LOG_(WARNING) << "stream_result_to: failed to stream to " << host_name_ << ":" << port_num_; } } private: // Creates a client socket and connects to the server. void MakeConnection(); // Closes the socket. void CloseConnection() { GTEST_CHECK_(sockfd_ != -1) << "CloseConnection() can be called only when there is a connection."; close(sockfd_); sockfd_ = -1; } int sockfd_; // socket file descriptor const string host_name_; const string port_num_; GTEST_DISALLOW_COPY_AND_ASSIGN_(SocketWriter); }; // class SocketWriter // Escapes '=', '&', '%', and '\n' characters in str as "%xx". static string UrlEncode(const char* str); StreamingListener(const string& host, const string& port) : socket_writer_(new SocketWriter(host, port)) { Start(); } explicit StreamingListener(AbstractSocketWriter* socket_writer) : socket_writer_(socket_writer) { Start(); } void OnTestProgramStart(const UnitTest& /* unit_test */) { SendLn("event=TestProgramStart"); } void OnTestProgramEnd(const UnitTest& unit_test) { // Note that Google Test current only report elapsed time for each // test iteration, not for the entire test program. SendLn("event=TestProgramEnd&passed=" + FormatBool(unit_test.Passed())); // Notify the streaming server to stop. socket_writer_->CloseConnection(); } void OnTestIterationStart(const UnitTest& /* unit_test */, int iteration) { SendLn("event=TestIterationStart&iteration=" + StreamableToString(iteration)); } void OnTestIterationEnd(const UnitTest& unit_test, int /* iteration */) { SendLn("event=TestIterationEnd&passed=" + FormatBool(unit_test.Passed()) + "&elapsed_time=" + StreamableToString(unit_test.elapsed_time()) + "ms"); } void OnTestCaseStart(const TestCase& test_case) { SendLn(std::string("event=TestCaseStart&name=") + test_case.name()); } void OnTestCaseEnd(const TestCase& test_case) { SendLn("event=TestCaseEnd&passed=" + FormatBool(test_case.Passed()) + "&elapsed_time=" + StreamableToString(test_case.elapsed_time()) + "ms"); } void OnTestStart(const TestInfo& test_info) { SendLn(std::string("event=TestStart&name=") + test_info.name()); } void OnTestEnd(const TestInfo& test_info) { SendLn("event=TestEnd&passed=" + FormatBool((test_info.result())->Passed()) + "&elapsed_time=" + StreamableToString((test_info.result())->elapsed_time()) + "ms"); } void OnTestPartResult(const TestPartResult& test_part_result) { const char* file_name = test_part_result.file_name(); if (file_name == NULL) file_name = ""; SendLn("event=TestPartResult&file=" + UrlEncode(file_name) + "&line=" + StreamableToString(test_part_result.line_number()) + "&message=" + UrlEncode(test_part_result.message())); } private: // Sends the given message and a newline to the socket. void SendLn(const string& message) { socket_writer_->SendLn(message); } // Called at the start of streaming to notify the receiver what // protocol we are using. void Start() { SendLn("gtest_streaming_protocol_version=1.0"); } string FormatBool(bool value) { return value ? "1" : "0"; } const scoped_ptr socket_writer_; GTEST_DISALLOW_COPY_AND_ASSIGN_(StreamingListener); }; // class StreamingListener #endif // GTEST_CAN_STREAM_RESULTS_ } // namespace internal } // namespace testing #endif // GTEST_SRC_GTEST_INTERNAL_INL_H_ #undef GTEST_IMPLEMENTATION_ #if GTEST_OS_WINDOWS # define vsnprintf _vsnprintf #endif // GTEST_OS_WINDOWS namespace testing { using internal::CountIf; using internal::ForEach; using internal::GetElementOr; using internal::Shuffle; // Constants. // A test whose test case name or test name matches this filter is // disabled and not run. static const char kDisableTestFilter[] = "DISABLED_*:*/DISABLED_*"; // A test case whose name matches this filter is considered a death // test case and will be run before test cases whose name doesn't // match this filter. static const char kDeathTestCaseFilter[] = "*DeathTest:*DeathTest/*"; // A test filter that matches everything. static const char kUniversalFilter[] = "*"; // The default output file for XML output. static const char kDefaultOutputFile[] = "test_detail.xml"; // The environment variable name for the test shard index. static const char kTestShardIndex[] = "GTEST_SHARD_INDEX"; // The environment variable name for the total number of test shards. static const char kTestTotalShards[] = "GTEST_TOTAL_SHARDS"; // The environment variable name for the test shard status file. static const char kTestShardStatusFile[] = "GTEST_SHARD_STATUS_FILE"; namespace internal { // The text used in failure messages to indicate the start of the // stack trace. const char kStackTraceMarker[] = "\nStack trace:\n"; // g_help_flag is true iff the --help flag or an equivalent form is // specified on the command line. bool g_help_flag = false; } // namespace internal static const char* GetDefaultFilter() { return kUniversalFilter; } GTEST_DEFINE_bool_( also_run_disabled_tests, internal::BoolFromGTestEnv("also_run_disabled_tests", false), "Run disabled tests too, in addition to the tests normally being run."); GTEST_DEFINE_bool_( break_on_failure, internal::BoolFromGTestEnv("break_on_failure", false), "True iff a failed assertion should be a debugger break-point."); GTEST_DEFINE_bool_( catch_exceptions, internal::BoolFromGTestEnv("catch_exceptions", true), "True iff " GTEST_NAME_ " should catch exceptions and treat them as test failures."); GTEST_DEFINE_string_( color, internal::StringFromGTestEnv("color", "auto"), "Whether to use colors in the output. Valid values: yes, no, " "and auto. 'auto' means to use colors if the output is " "being sent to a terminal and the TERM environment variable " "is set to a terminal type that supports colors."); GTEST_DEFINE_string_( filter, internal::StringFromGTestEnv("filter", GetDefaultFilter()), "A colon-separated list of glob (not regex) patterns " "for filtering the tests to run, optionally followed by a " "'-' and a : separated list of negative patterns (tests to " "exclude). A test is run if it matches one of the positive " "patterns and does not match any of the negative patterns."); GTEST_DEFINE_bool_(list_tests, false, "List all tests without running them."); GTEST_DEFINE_string_( output, internal::StringFromGTestEnv("output", ""), "A format (currently must be \"xml\"), optionally followed " "by a colon and an output file name or directory. A directory " "is indicated by a trailing pathname separator. " "Examples: \"xml:filename.xml\", \"xml::directoryname/\". " "If a directory is specified, output files will be created " "within that directory, with file-names based on the test " "executable's name and, if necessary, made unique by adding " "digits."); GTEST_DEFINE_bool_( print_time, internal::BoolFromGTestEnv("print_time", true), "True iff " GTEST_NAME_ " should display elapsed time in text output."); GTEST_DEFINE_int32_( random_seed, internal::Int32FromGTestEnv("random_seed", 0), "Random number seed to use when shuffling test orders. Must be in range " "[1, 99999], or 0 to use a seed based on the current time."); GTEST_DEFINE_int32_( repeat, internal::Int32FromGTestEnv("repeat", 1), "How many times to repeat each test. Specify a negative number " "for repeating forever. Useful for shaking out flaky tests."); GTEST_DEFINE_bool_( show_internal_stack_frames, false, "True iff " GTEST_NAME_ " should include internal stack frames when " "printing test failure stack traces."); GTEST_DEFINE_bool_( shuffle, internal::BoolFromGTestEnv("shuffle", false), "True iff " GTEST_NAME_ " should randomize tests' order on every run."); GTEST_DEFINE_int32_( stack_trace_depth, internal::Int32FromGTestEnv("stack_trace_depth", kMaxStackTraceDepth), "The maximum number of stack frames to print when an " "assertion fails. The valid range is 0 through 100, inclusive."); GTEST_DEFINE_string_( stream_result_to, internal::StringFromGTestEnv("stream_result_to", ""), "This flag specifies the host name and the port number on which to stream " "test results. Example: \"localhost:555\". The flag is effective only on " "Linux."); GTEST_DEFINE_bool_( throw_on_failure, internal::BoolFromGTestEnv("throw_on_failure", false), "When this flag is specified, a failed assertion will throw an exception " "if exceptions are enabled or exit the program with a non-zero code " "otherwise."); namespace internal { // Generates a random number from [0, range), using a Linear // Congruential Generator (LCG). Crashes if 'range' is 0 or greater // than kMaxRange. UInt32 Random::Generate(UInt32 range) { // These constants are the same as are used in glibc's rand(3). state_ = (1103515245U*state_ + 12345U) % kMaxRange; GTEST_CHECK_(range > 0) << "Cannot generate a number in the range [0, 0)."; GTEST_CHECK_(range <= kMaxRange) << "Generation of a number in [0, " << range << ") was requested, " << "but this can only generate numbers in [0, " << kMaxRange << ")."; // Converting via modulus introduces a bit of downward bias, but // it's simple, and a linear congruential generator isn't too good // to begin with. return state_ % range; } // GTestIsInitialized() returns true iff the user has initialized // Google Test. Useful for catching the user mistake of not initializing // Google Test before calling RUN_ALL_TESTS(). // // A user must call testing::InitGoogleTest() to initialize Google // Test. g_init_gtest_count is set to the number of times // InitGoogleTest() has been called. We don't protect this variable // under a mutex as it is only accessed in the main thread. GTEST_API_ int g_init_gtest_count = 0; static bool GTestIsInitialized() { return g_init_gtest_count != 0; } // Iterates over a vector of TestCases, keeping a running sum of the // results of calling a given int-returning method on each. // Returns the sum. static int SumOverTestCaseList(const std::vector& case_list, int (TestCase::*method)() const) { int sum = 0; for (size_t i = 0; i < case_list.size(); i++) { sum += (case_list[i]->*method)(); } return sum; } // Returns true iff the test case passed. static bool TestCasePassed(const TestCase* test_case) { return test_case->should_run() && test_case->Passed(); } // Returns true iff the test case failed. static bool TestCaseFailed(const TestCase* test_case) { return test_case->should_run() && test_case->Failed(); } // Returns true iff test_case contains at least one test that should // run. static bool ShouldRunTestCase(const TestCase* test_case) { return test_case->should_run(); } // AssertHelper constructor. AssertHelper::AssertHelper(TestPartResult::Type type, const char* file, int line, const char* message) : data_(new AssertHelperData(type, file, line, message)) { } AssertHelper::~AssertHelper() { delete data_; } // Message assignment, for assertion streaming support. void AssertHelper::operator=(const Message& message) const { UnitTest::GetInstance()-> AddTestPartResult(data_->type, data_->file, data_->line, AppendUserMessage(data_->message, message), UnitTest::GetInstance()->impl() ->CurrentOsStackTraceExceptTop(1) // Skips the stack frame for this function itself. ); // NOLINT } // Mutex for linked pointers. GTEST_API_ GTEST_DEFINE_STATIC_MUTEX_(g_linked_ptr_mutex); // Application pathname gotten in InitGoogleTest. std::string g_executable_path; // Returns the current application's name, removing directory path if that // is present. FilePath GetCurrentExecutableName() { FilePath result; #if GTEST_OS_WINDOWS result.Set(FilePath(g_executable_path).RemoveExtension("exe")); #else result.Set(FilePath(g_executable_path)); #endif // GTEST_OS_WINDOWS return result.RemoveDirectoryName(); } // Functions for processing the gtest_output flag. // Returns the output format, or "" for normal printed output. std::string UnitTestOptions::GetOutputFormat() { const char* const gtest_output_flag = GTEST_FLAG(output).c_str(); if (gtest_output_flag == NULL) return std::string(""); const char* const colon = strchr(gtest_output_flag, ':'); return (colon == NULL) ? std::string(gtest_output_flag) : std::string(gtest_output_flag, colon - gtest_output_flag); } // Returns the name of the requested output file, or the default if none // was explicitly specified. std::string UnitTestOptions::GetAbsolutePathToOutputFile() { const char* const gtest_output_flag = GTEST_FLAG(output).c_str(); if (gtest_output_flag == NULL) return ""; const char* const colon = strchr(gtest_output_flag, ':'); if (colon == NULL) return internal::FilePath::ConcatPaths( internal::FilePath( UnitTest::GetInstance()->original_working_dir()), internal::FilePath(kDefaultOutputFile)).string(); internal::FilePath output_name(colon + 1); if (!output_name.IsAbsolutePath()) // TODO(wan@google.com): on Windows \some\path is not an absolute // path (as its meaning depends on the current drive), yet the // following logic for turning it into an absolute path is wrong. // Fix it. output_name = internal::FilePath::ConcatPaths( internal::FilePath(UnitTest::GetInstance()->original_working_dir()), internal::FilePath(colon + 1)); if (!output_name.IsDirectory()) return output_name.string(); internal::FilePath result(internal::FilePath::GenerateUniqueFileName( output_name, internal::GetCurrentExecutableName(), GetOutputFormat().c_str())); return result.string(); } // Returns true iff the wildcard pattern matches the string. The // first ':' or '\0' character in pattern marks the end of it. // // This recursive algorithm isn't very efficient, but is clear and // works well enough for matching test names, which are short. bool UnitTestOptions::PatternMatchesString(const char *pattern, const char *str) { switch (*pattern) { case '\0': case ':': // Either ':' or '\0' marks the end of the pattern. return *str == '\0'; case '?': // Matches any single character. return *str != '\0' && PatternMatchesString(pattern + 1, str + 1); case '*': // Matches any string (possibly empty) of characters. return (*str != '\0' && PatternMatchesString(pattern, str + 1)) || PatternMatchesString(pattern + 1, str); default: // Non-special character. Matches itself. return *pattern == *str && PatternMatchesString(pattern + 1, str + 1); } } bool UnitTestOptions::MatchesFilter( const std::string& name, const char* filter) { const char *cur_pattern = filter; for (;;) { if (PatternMatchesString(cur_pattern, name.c_str())) { return true; } // Finds the next pattern in the filter. cur_pattern = strchr(cur_pattern, ':'); // Returns if no more pattern can be found. if (cur_pattern == NULL) { return false; } // Skips the pattern separater (the ':' character). cur_pattern++; } } // Returns true iff the user-specified filter matches the test case // name and the test name. bool UnitTestOptions::FilterMatchesTest(const std::string &test_case_name, const std::string &test_name) { const std::string& full_name = test_case_name + "." + test_name.c_str(); // Split --gtest_filter at '-', if there is one, to separate into // positive filter and negative filter portions const char* const p = GTEST_FLAG(filter).c_str(); const char* const dash = strchr(p, '-'); std::string positive; std::string negative; if (dash == NULL) { positive = GTEST_FLAG(filter).c_str(); // Whole string is a positive filter negative = ""; } else { positive = std::string(p, dash); // Everything up to the dash negative = std::string(dash + 1); // Everything after the dash if (positive.empty()) { // Treat '-test1' as the same as '*-test1' positive = kUniversalFilter; } } // A filter is a colon-separated list of patterns. It matches a // test if any pattern in it matches the test. return (MatchesFilter(full_name, positive.c_str()) && !MatchesFilter(full_name, negative.c_str())); } #if GTEST_HAS_SEH // Returns EXCEPTION_EXECUTE_HANDLER if Google Test should handle the // given SEH exception, or EXCEPTION_CONTINUE_SEARCH otherwise. // This function is useful as an __except condition. int UnitTestOptions::GTestShouldProcessSEH(DWORD exception_code) { // Google Test should handle a SEH exception if: // 1. the user wants it to, AND // 2. this is not a breakpoint exception, AND // 3. this is not a C++ exception (VC++ implements them via SEH, // apparently). // // SEH exception code for C++ exceptions. // (see http://support.microsoft.com/kb/185294 for more information). const DWORD kCxxExceptionCode = 0xe06d7363; bool should_handle = true; if (!GTEST_FLAG(catch_exceptions)) should_handle = false; else if (exception_code == EXCEPTION_BREAKPOINT) should_handle = false; else if (exception_code == kCxxExceptionCode) should_handle = false; return should_handle ? EXCEPTION_EXECUTE_HANDLER : EXCEPTION_CONTINUE_SEARCH; } #endif // GTEST_HAS_SEH } // namespace internal // The c'tor sets this object as the test part result reporter used by // Google Test. The 'result' parameter specifies where to report the // results. Intercepts only failures from the current thread. ScopedFakeTestPartResultReporter::ScopedFakeTestPartResultReporter( TestPartResultArray* result) : intercept_mode_(INTERCEPT_ONLY_CURRENT_THREAD), result_(result) { Init(); } // The c'tor sets this object as the test part result reporter used by // Google Test. The 'result' parameter specifies where to report the // results. ScopedFakeTestPartResultReporter::ScopedFakeTestPartResultReporter( InterceptMode intercept_mode, TestPartResultArray* result) : intercept_mode_(intercept_mode), result_(result) { Init(); } void ScopedFakeTestPartResultReporter::Init() { internal::UnitTestImpl* const impl = internal::GetUnitTestImpl(); if (intercept_mode_ == INTERCEPT_ALL_THREADS) { old_reporter_ = impl->GetGlobalTestPartResultReporter(); impl->SetGlobalTestPartResultReporter(this); } else { old_reporter_ = impl->GetTestPartResultReporterForCurrentThread(); impl->SetTestPartResultReporterForCurrentThread(this); } } // The d'tor restores the test part result reporter used by Google Test // before. ScopedFakeTestPartResultReporter::~ScopedFakeTestPartResultReporter() { internal::UnitTestImpl* const impl = internal::GetUnitTestImpl(); if (intercept_mode_ == INTERCEPT_ALL_THREADS) { impl->SetGlobalTestPartResultReporter(old_reporter_); } else { impl->SetTestPartResultReporterForCurrentThread(old_reporter_); } } // Increments the test part result count and remembers the result. // This method is from the TestPartResultReporterInterface interface. void ScopedFakeTestPartResultReporter::ReportTestPartResult( const TestPartResult& result) { result_->Append(result); } namespace internal { // Returns the type ID of ::testing::Test. We should always call this // instead of GetTypeId< ::testing::Test>() to get the type ID of // testing::Test. This is to work around a suspected linker bug when // using Google Test as a framework on Mac OS X. The bug causes // GetTypeId< ::testing::Test>() to return different values depending // on whether the call is from the Google Test framework itself or // from user test code. GetTestTypeId() is guaranteed to always // return the same value, as it always calls GetTypeId<>() from the // gtest.cc, which is within the Google Test framework. TypeId GetTestTypeId() { return GetTypeId(); } // The value of GetTestTypeId() as seen from within the Google Test // library. This is solely for testing GetTestTypeId(). extern const TypeId kTestTypeIdInGoogleTest = GetTestTypeId(); // This predicate-formatter checks that 'results' contains a test part // failure of the given type and that the failure message contains the // given substring. AssertionResult HasOneFailure(const char* /* results_expr */, const char* /* type_expr */, const char* /* substr_expr */, const TestPartResultArray& results, TestPartResult::Type type, const string& substr) { const std::string expected(type == TestPartResult::kFatalFailure ? "1 fatal failure" : "1 non-fatal failure"); Message msg; if (results.size() != 1) { msg << "Expected: " << expected << "\n" << " Actual: " << results.size() << " failures"; for (int i = 0; i < results.size(); i++) { msg << "\n" << results.GetTestPartResult(i); } return AssertionFailure() << msg; } const TestPartResult& r = results.GetTestPartResult(0); if (r.type() != type) { return AssertionFailure() << "Expected: " << expected << "\n" << " Actual:\n" << r; } if (strstr(r.message(), substr.c_str()) == NULL) { return AssertionFailure() << "Expected: " << expected << " containing \"" << substr << "\"\n" << " Actual:\n" << r; } return AssertionSuccess(); } // The constructor of SingleFailureChecker remembers where to look up // test part results, what type of failure we expect, and what // substring the failure message should contain. SingleFailureChecker:: SingleFailureChecker( const TestPartResultArray* results, TestPartResult::Type type, const string& substr) : results_(results), type_(type), substr_(substr) {} // The destructor of SingleFailureChecker verifies that the given // TestPartResultArray contains exactly one failure that has the given // type and contains the given substring. If that's not the case, a // non-fatal failure will be generated. SingleFailureChecker::~SingleFailureChecker() { EXPECT_PRED_FORMAT3(HasOneFailure, *results_, type_, substr_); } DefaultGlobalTestPartResultReporter::DefaultGlobalTestPartResultReporter( UnitTestImpl* unit_test) : unit_test_(unit_test) {} void DefaultGlobalTestPartResultReporter::ReportTestPartResult( const TestPartResult& result) { unit_test_->current_test_result()->AddTestPartResult(result); unit_test_->listeners()->repeater()->OnTestPartResult(result); } DefaultPerThreadTestPartResultReporter::DefaultPerThreadTestPartResultReporter( UnitTestImpl* unit_test) : unit_test_(unit_test) {} void DefaultPerThreadTestPartResultReporter::ReportTestPartResult( const TestPartResult& result) { unit_test_->GetGlobalTestPartResultReporter()->ReportTestPartResult(result); } // Returns the global test part result reporter. TestPartResultReporterInterface* UnitTestImpl::GetGlobalTestPartResultReporter() { internal::MutexLock lock(&global_test_part_result_reporter_mutex_); return global_test_part_result_repoter_; } // Sets the global test part result reporter. void UnitTestImpl::SetGlobalTestPartResultReporter( TestPartResultReporterInterface* reporter) { internal::MutexLock lock(&global_test_part_result_reporter_mutex_); global_test_part_result_repoter_ = reporter; } // Returns the test part result reporter for the current thread. TestPartResultReporterInterface* UnitTestImpl::GetTestPartResultReporterForCurrentThread() { return per_thread_test_part_result_reporter_.get(); } // Sets the test part result reporter for the current thread. void UnitTestImpl::SetTestPartResultReporterForCurrentThread( TestPartResultReporterInterface* reporter) { per_thread_test_part_result_reporter_.set(reporter); } // Gets the number of successful test cases. int UnitTestImpl::successful_test_case_count() const { return CountIf(test_cases_, TestCasePassed); } // Gets the number of failed test cases. int UnitTestImpl::failed_test_case_count() const { return CountIf(test_cases_, TestCaseFailed); } // Gets the number of all test cases. int UnitTestImpl::total_test_case_count() const { return static_cast(test_cases_.size()); } // Gets the number of all test cases that contain at least one test // that should run. int UnitTestImpl::test_case_to_run_count() const { return CountIf(test_cases_, ShouldRunTestCase); } // Gets the number of successful tests. int UnitTestImpl::successful_test_count() const { return SumOverTestCaseList(test_cases_, &TestCase::successful_test_count); } // Gets the number of failed tests. int UnitTestImpl::failed_test_count() const { return SumOverTestCaseList(test_cases_, &TestCase::failed_test_count); } // Gets the number of disabled tests that will be reported in the XML report. int UnitTestImpl::reportable_disabled_test_count() const { return SumOverTestCaseList(test_cases_, &TestCase::reportable_disabled_test_count); } // Gets the number of disabled tests. int UnitTestImpl::disabled_test_count() const { return SumOverTestCaseList(test_cases_, &TestCase::disabled_test_count); } // Gets the number of tests to be printed in the XML report. int UnitTestImpl::reportable_test_count() const { return SumOverTestCaseList(test_cases_, &TestCase::reportable_test_count); } // Gets the number of all tests. int UnitTestImpl::total_test_count() const { return SumOverTestCaseList(test_cases_, &TestCase::total_test_count); } // Gets the number of tests that should run. int UnitTestImpl::test_to_run_count() const { return SumOverTestCaseList(test_cases_, &TestCase::test_to_run_count); } // Returns the current OS stack trace as an std::string. // // The maximum number of stack frames to be included is specified by // the gtest_stack_trace_depth flag. The skip_count parameter // specifies the number of top frames to be skipped, which doesn't // count against the number of frames to be included. // // For example, if Foo() calls Bar(), which in turn calls // CurrentOsStackTraceExceptTop(1), Foo() will be included in the // trace but Bar() and CurrentOsStackTraceExceptTop() won't. std::string UnitTestImpl::CurrentOsStackTraceExceptTop(int skip_count) { (void)skip_count; return ""; } // Returns the current time in milliseconds. TimeInMillis GetTimeInMillis() { #if GTEST_OS_WINDOWS_MOBILE || defined(__BORLANDC__) // Difference between 1970-01-01 and 1601-01-01 in milliseconds. // http://analogous.blogspot.com/2005/04/epoch.html const TimeInMillis kJavaEpochToWinFileTimeDelta = static_cast(116444736UL) * 100000UL; const DWORD kTenthMicrosInMilliSecond = 10000; SYSTEMTIME now_systime; FILETIME now_filetime; ULARGE_INTEGER now_int64; // TODO(kenton@google.com): Shouldn't this just use // GetSystemTimeAsFileTime()? GetSystemTime(&now_systime); if (SystemTimeToFileTime(&now_systime, &now_filetime)) { now_int64.LowPart = now_filetime.dwLowDateTime; now_int64.HighPart = now_filetime.dwHighDateTime; now_int64.QuadPart = (now_int64.QuadPart / kTenthMicrosInMilliSecond) - kJavaEpochToWinFileTimeDelta; return now_int64.QuadPart; } return 0; #elif GTEST_OS_WINDOWS && !GTEST_HAS_GETTIMEOFDAY_ __timeb64 now; // MSVC 8 deprecates _ftime64(), so we want to suppress warning 4996 // (deprecated function) there. // TODO(kenton@google.com): Use GetTickCount()? Or use // SystemTimeToFileTime() GTEST_DISABLE_MSC_WARNINGS_PUSH_(4996) _ftime64(&now); GTEST_DISABLE_MSC_WARNINGS_POP_() return static_cast(now.time) * 1000 + now.millitm; #elif GTEST_HAS_GETTIMEOFDAY_ struct timeval now; gettimeofday(&now, NULL); return static_cast(now.tv_sec) * 1000 + now.tv_usec / 1000; #else # error "Don't know how to get the current time on your system." #endif } // Utilities // class String. #if GTEST_OS_WINDOWS_MOBILE // Creates a UTF-16 wide string from the given ANSI string, allocating // memory using new. The caller is responsible for deleting the return // value using delete[]. Returns the wide string, or NULL if the // input is NULL. LPCWSTR String::AnsiToUtf16(const char* ansi) { if (!ansi) return NULL; const int length = strlen(ansi); const int unicode_length = MultiByteToWideChar(CP_ACP, 0, ansi, length, NULL, 0); WCHAR* unicode = new WCHAR[unicode_length + 1]; MultiByteToWideChar(CP_ACP, 0, ansi, length, unicode, unicode_length); unicode[unicode_length] = 0; return unicode; } // Creates an ANSI string from the given wide string, allocating // memory using new. The caller is responsible for deleting the return // value using delete[]. Returns the ANSI string, or NULL if the // input is NULL. const char* String::Utf16ToAnsi(LPCWSTR utf16_str) { if (!utf16_str) return NULL; const int ansi_length = WideCharToMultiByte(CP_ACP, 0, utf16_str, -1, NULL, 0, NULL, NULL); char* ansi = new char[ansi_length + 1]; WideCharToMultiByte(CP_ACP, 0, utf16_str, -1, ansi, ansi_length, NULL, NULL); ansi[ansi_length] = 0; return ansi; } #endif // GTEST_OS_WINDOWS_MOBILE // Compares two C strings. Returns true iff they have the same content. // // Unlike strcmp(), this function can handle NULL argument(s). A NULL // C string is considered different to any non-NULL C string, // including the empty string. bool String::CStringEquals(const char * lhs, const char * rhs) { if ( lhs == NULL ) return rhs == NULL; if ( rhs == NULL ) return false; return strcmp(lhs, rhs) == 0; } #if GTEST_HAS_STD_WSTRING || GTEST_HAS_GLOBAL_WSTRING // Converts an array of wide chars to a narrow string using the UTF-8 // encoding, and streams the result to the given Message object. static void StreamWideCharsToMessage(const wchar_t* wstr, size_t length, Message* msg) { for (size_t i = 0; i != length; ) { // NOLINT if (wstr[i] != L'\0') { *msg << WideStringToUtf8(wstr + i, static_cast(length - i)); while (i != length && wstr[i] != L'\0') i++; } else { *msg << '\0'; i++; } } } #endif // GTEST_HAS_STD_WSTRING || GTEST_HAS_GLOBAL_WSTRING } // namespace internal // Constructs an empty Message. // We allocate the stringstream separately because otherwise each use of // ASSERT/EXPECT in a procedure adds over 200 bytes to the procedure's // stack frame leading to huge stack frames in some cases; gcc does not reuse // the stack space. Message::Message() : ss_(new ::std::stringstream) { // By default, we want there to be enough precision when printing // a double to a Message. *ss_ << std::setprecision(std::numeric_limits::digits10 + 2); } // These two overloads allow streaming a wide C string to a Message // using the UTF-8 encoding. Message& Message::operator <<(const wchar_t* wide_c_str) { return *this << internal::String::ShowWideCString(wide_c_str); } Message& Message::operator <<(wchar_t* wide_c_str) { return *this << internal::String::ShowWideCString(wide_c_str); } #if GTEST_HAS_STD_WSTRING // Converts the given wide string to a narrow string using the UTF-8 // encoding, and streams the result to this Message object. Message& Message::operator <<(const ::std::wstring& wstr) { internal::StreamWideCharsToMessage(wstr.c_str(), wstr.length(), this); return *this; } #endif // GTEST_HAS_STD_WSTRING #if GTEST_HAS_GLOBAL_WSTRING // Converts the given wide string to a narrow string using the UTF-8 // encoding, and streams the result to this Message object. Message& Message::operator <<(const ::wstring& wstr) { internal::StreamWideCharsToMessage(wstr.c_str(), wstr.length(), this); return *this; } #endif // GTEST_HAS_GLOBAL_WSTRING // Gets the text streamed to this object so far as an std::string. // Each '\0' character in the buffer is replaced with "\\0". std::string Message::GetString() const { return internal::StringStreamToString(ss_.get()); } // AssertionResult constructors. // Used in EXPECT_TRUE/FALSE(assertion_result). AssertionResult::AssertionResult(const AssertionResult& other) : success_(other.success_), message_(other.message_.get() != NULL ? new ::std::string(*other.message_) : static_cast< ::std::string*>(NULL)) { } // Swaps two AssertionResults. void AssertionResult::swap(AssertionResult& other) { using std::swap; swap(success_, other.success_); swap(message_, other.message_); } // Returns the assertion's negation. Used with EXPECT/ASSERT_FALSE. AssertionResult AssertionResult::operator!() const { AssertionResult negation(!success_); if (message_.get() != NULL) negation << *message_; return negation; } // Makes a successful assertion result. AssertionResult AssertionSuccess() { return AssertionResult(true); } // Makes a failed assertion result. AssertionResult AssertionFailure() { return AssertionResult(false); } // Makes a failed assertion result with the given failure message. // Deprecated; use AssertionFailure() << message. AssertionResult AssertionFailure(const Message& message) { return AssertionFailure() << message; } namespace internal { namespace edit_distance { std::vector CalculateOptimalEdits(const std::vector& left, const std::vector& right) { std::vector > costs( left.size() + 1, std::vector(right.size() + 1)); std::vector > best_move( left.size() + 1, std::vector(right.size() + 1)); // Populate for empty right. for (size_t l_i = 0; l_i < costs.size(); ++l_i) { costs[l_i][0] = static_cast(l_i); best_move[l_i][0] = kRemove; } // Populate for empty left. for (size_t r_i = 1; r_i < costs[0].size(); ++r_i) { costs[0][r_i] = static_cast(r_i); best_move[0][r_i] = kAdd; } for (size_t l_i = 0; l_i < left.size(); ++l_i) { for (size_t r_i = 0; r_i < right.size(); ++r_i) { if (left[l_i] == right[r_i]) { // Found a match. Consume it. costs[l_i + 1][r_i + 1] = costs[l_i][r_i]; best_move[l_i + 1][r_i + 1] = kMatch; continue; } const double add = costs[l_i + 1][r_i]; const double remove = costs[l_i][r_i + 1]; const double replace = costs[l_i][r_i]; if (add < remove && add < replace) { costs[l_i + 1][r_i + 1] = add + 1; best_move[l_i + 1][r_i + 1] = kAdd; } else if (remove < add && remove < replace) { costs[l_i + 1][r_i + 1] = remove + 1; best_move[l_i + 1][r_i + 1] = kRemove; } else { // We make replace a little more expensive than add/remove to lower // their priority. costs[l_i + 1][r_i + 1] = replace + 1.00001; best_move[l_i + 1][r_i + 1] = kReplace; } } } // Reconstruct the best path. We do it in reverse order. std::vector best_path; for (size_t l_i = left.size(), r_i = right.size(); l_i > 0 || r_i > 0;) { EditType move = best_move[l_i][r_i]; best_path.push_back(move); l_i -= move != kAdd; r_i -= move != kRemove; } std::reverse(best_path.begin(), best_path.end()); return best_path; } namespace { // Helper class to convert string into ids with deduplication. class InternalStrings { public: size_t GetId(const std::string& str) { IdMap::iterator it = ids_.find(str); if (it != ids_.end()) return it->second; size_t id = ids_.size(); return ids_[str] = id; } private: typedef std::map IdMap; IdMap ids_; }; } // namespace std::vector CalculateOptimalEdits( const std::vector& left, const std::vector& right) { std::vector left_ids, right_ids; { InternalStrings intern_table; for (size_t i = 0; i < left.size(); ++i) { left_ids.push_back(intern_table.GetId(left[i])); } for (size_t i = 0; i < right.size(); ++i) { right_ids.push_back(intern_table.GetId(right[i])); } } return CalculateOptimalEdits(left_ids, right_ids); } namespace { // Helper class that holds the state for one hunk and prints it out to the // stream. // It reorders adds/removes when possible to group all removes before all // adds. It also adds the hunk header before printint into the stream. class Hunk { public: Hunk(size_t left_start, size_t right_start) : left_start_(left_start), right_start_(right_start), adds_(), removes_(), common_() {} void PushLine(char edit, const char* line) { switch (edit) { case ' ': ++common_; FlushEdits(); hunk_.push_back(std::make_pair(' ', line)); break; case '-': ++removes_; hunk_removes_.push_back(std::make_pair('-', line)); break; case '+': ++adds_; hunk_adds_.push_back(std::make_pair('+', line)); break; } } void PrintTo(std::ostream* os) { PrintHeader(os); FlushEdits(); for (std::list >::const_iterator it = hunk_.begin(); it != hunk_.end(); ++it) { *os << it->first << it->second << "\n"; } } bool has_edits() const { return adds_ || removes_; } private: void FlushEdits() { hunk_.splice(hunk_.end(), hunk_removes_); hunk_.splice(hunk_.end(), hunk_adds_); } // Print a unified diff header for one hunk. // The format is // "@@ -, +, @@" // where the left/right parts are omitted if unnecessary. void PrintHeader(std::ostream* ss) const { *ss << "@@ "; if (removes_) { *ss << "-" << left_start_ << "," << (removes_ + common_); } if (removes_ && adds_) { *ss << " "; } if (adds_) { *ss << "+" << right_start_ << "," << (adds_ + common_); } *ss << " @@\n"; } size_t left_start_, right_start_; size_t adds_, removes_, common_; std::list > hunk_, hunk_adds_, hunk_removes_; }; } // namespace // Create a list of diff hunks in Unified diff format. // Each hunk has a header generated by PrintHeader above plus a body with // lines prefixed with ' ' for no change, '-' for deletion and '+' for // addition. // 'context' represents the desired unchanged prefix/suffix around the diff. // If two hunks are close enough that their contexts overlap, then they are // joined into one hunk. std::string CreateUnifiedDiff(const std::vector& left, const std::vector& right, size_t context) { const std::vector edits = CalculateOptimalEdits(left, right); size_t l_i = 0, r_i = 0, edit_i = 0; std::stringstream ss; while (edit_i < edits.size()) { // Find first edit. while (edit_i < edits.size() && edits[edit_i] == kMatch) { ++l_i; ++r_i; ++edit_i; } // Find the first line to include in the hunk. const size_t prefix_context = std::min(l_i, context); Hunk hunk(l_i - prefix_context + 1, r_i - prefix_context + 1); for (size_t i = prefix_context; i > 0; --i) { hunk.PushLine(' ', left[l_i - i].c_str()); } // Iterate the edits until we found enough suffix for the hunk or the input // is over. size_t n_suffix = 0; for (; edit_i < edits.size(); ++edit_i) { if (n_suffix >= context) { // Continue only if the next hunk is very close. std::vector::const_iterator it = edits.begin() + edit_i; while (it != edits.end() && *it == kMatch) ++it; if (it == edits.end() || (it - edits.begin()) - edit_i >= context) { // There is no next edit or it is too far away. break; } } EditType edit = edits[edit_i]; // Reset count when a non match is found. n_suffix = edit == kMatch ? n_suffix + 1 : 0; if (edit == kMatch || edit == kRemove || edit == kReplace) { hunk.PushLine(edit == kMatch ? ' ' : '-', left[l_i].c_str()); } if (edit == kAdd || edit == kReplace) { hunk.PushLine('+', right[r_i].c_str()); } // Advance indices, depending on edit type. l_i += edit != kAdd; r_i += edit != kRemove; } if (!hunk.has_edits()) { // We are done. We don't want this hunk. break; } hunk.PrintTo(&ss); } return ss.str(); } } // namespace edit_distance namespace { // The string representation of the values received in EqFailure() are already // escaped. Split them on escaped '\n' boundaries. Leave all other escaped // characters the same. std::vector SplitEscapedString(const std::string& str) { std::vector lines; size_t start = 0, end = str.size(); if (end > 2 && str[0] == '"' && str[end - 1] == '"') { ++start; --end; } bool escaped = false; for (size_t i = start; i + 1 < end; ++i) { if (escaped) { escaped = false; if (str[i] == 'n') { lines.push_back(str.substr(start, i - start - 1)); start = i + 1; } } else { escaped = str[i] == '\\'; } } lines.push_back(str.substr(start, end - start)); return lines; } } // namespace // Constructs and returns the message for an equality assertion // (e.g. ASSERT_EQ, EXPECT_STREQ, etc) failure. // // The first four parameters are the expressions used in the assertion // and their values, as strings. For example, for ASSERT_EQ(foo, bar) // where foo is 5 and bar is 6, we have: // // expected_expression: "foo" // actual_expression: "bar" // expected_value: "5" // actual_value: "6" // // The ignoring_case parameter is true iff the assertion is a // *_STRCASEEQ*. When it's true, the string " (ignoring case)" will // be inserted into the message. AssertionResult EqFailure(const char* expected_expression, const char* actual_expression, const std::string& expected_value, const std::string& actual_value, bool ignoring_case) { Message msg; msg << "Value of: " << actual_expression; if (actual_value != actual_expression) { msg << "\n Actual: " << actual_value; } msg << "\nExpected: " << expected_expression; if (ignoring_case) { msg << " (ignoring case)"; } if (expected_value != expected_expression) { msg << "\nWhich is: " << expected_value; } if (!expected_value.empty() && !actual_value.empty()) { const std::vector expected_lines = SplitEscapedString(expected_value); const std::vector actual_lines = SplitEscapedString(actual_value); if (expected_lines.size() > 1 || actual_lines.size() > 1) { msg << "\nWith diff:\n" << edit_distance::CreateUnifiedDiff(expected_lines, actual_lines); } } return AssertionFailure() << msg; } // Constructs a failure message for Boolean assertions such as EXPECT_TRUE. std::string GetBoolAssertionFailureMessage( const AssertionResult& assertion_result, const char* expression_text, const char* actual_predicate_value, const char* expected_predicate_value) { const char* actual_message = assertion_result.message(); Message msg; msg << "Value of: " << expression_text << "\n Actual: " << actual_predicate_value; if (actual_message[0] != '\0') msg << " (" << actual_message << ")"; msg << "\nExpected: " << expected_predicate_value; return msg.GetString(); } // Helper function for implementing ASSERT_NEAR. AssertionResult DoubleNearPredFormat(const char* expr1, const char* expr2, const char* abs_error_expr, double val1, double val2, double abs_error) { const double diff = fabs(val1 - val2); if (diff <= abs_error) return AssertionSuccess(); // TODO(wan): do not print the value of an expression if it's // already a literal. return AssertionFailure() << "The difference between " << expr1 << " and " << expr2 << " is " << diff << ", which exceeds " << abs_error_expr << ", where\n" << expr1 << " evaluates to " << val1 << ",\n" << expr2 << " evaluates to " << val2 << ", and\n" << abs_error_expr << " evaluates to " << abs_error << "."; } // Helper template for implementing FloatLE() and DoubleLE(). template AssertionResult FloatingPointLE(const char* expr1, const char* expr2, RawType val1, RawType val2) { // Returns success if val1 is less than val2, if (val1 < val2) { return AssertionSuccess(); } // or if val1 is almost equal to val2. const FloatingPoint lhs(val1), rhs(val2); if (lhs.AlmostEquals(rhs)) { return AssertionSuccess(); } // Note that the above two checks will both fail if either val1 or // val2 is NaN, as the IEEE floating-point standard requires that // any predicate involving a NaN must return false. ::std::stringstream val1_ss; val1_ss << std::setprecision(std::numeric_limits::digits10 + 2) << val1; ::std::stringstream val2_ss; val2_ss << std::setprecision(std::numeric_limits::digits10 + 2) << val2; return AssertionFailure() << "Expected: (" << expr1 << ") <= (" << expr2 << ")\n" << " Actual: " << StringStreamToString(&val1_ss) << " vs " << StringStreamToString(&val2_ss); } } // namespace internal // Asserts that val1 is less than, or almost equal to, val2. Fails // otherwise. In particular, it fails if either val1 or val2 is NaN. AssertionResult FloatLE(const char* expr1, const char* expr2, float val1, float val2) { return internal::FloatingPointLE(expr1, expr2, val1, val2); } // Asserts that val1 is less than, or almost equal to, val2. Fails // otherwise. In particular, it fails if either val1 or val2 is NaN. AssertionResult DoubleLE(const char* expr1, const char* expr2, double val1, double val2) { return internal::FloatingPointLE(expr1, expr2, val1, val2); } namespace internal { // The helper function for {ASSERT|EXPECT}_EQ with int or enum // arguments. AssertionResult CmpHelperEQ(const char* expected_expression, const char* actual_expression, BiggestInt expected, BiggestInt actual) { if (expected == actual) { return AssertionSuccess(); } return EqFailure(expected_expression, actual_expression, FormatForComparisonFailureMessage(expected, actual), FormatForComparisonFailureMessage(actual, expected), false); } // A macro for implementing the helper functions needed to implement // ASSERT_?? and EXPECT_?? with integer or enum arguments. It is here // just to avoid copy-and-paste of similar code. #define GTEST_IMPL_CMP_HELPER_(op_name, op)\ AssertionResult CmpHelper##op_name(const char* expr1, const char* expr2, \ BiggestInt val1, BiggestInt val2) {\ if (val1 op val2) {\ return AssertionSuccess();\ } else {\ return AssertionFailure() \ << "Expected: (" << expr1 << ") " #op " (" << expr2\ << "), actual: " << FormatForComparisonFailureMessage(val1, val2)\ << " vs " << FormatForComparisonFailureMessage(val2, val1);\ }\ } // Implements the helper function for {ASSERT|EXPECT}_NE with int or // enum arguments. GTEST_IMPL_CMP_HELPER_(NE, !=) // Implements the helper function for {ASSERT|EXPECT}_LE with int or // enum arguments. GTEST_IMPL_CMP_HELPER_(LE, <=) // Implements the helper function for {ASSERT|EXPECT}_LT with int or // enum arguments. GTEST_IMPL_CMP_HELPER_(LT, < ) // Implements the helper function for {ASSERT|EXPECT}_GE with int or // enum arguments. GTEST_IMPL_CMP_HELPER_(GE, >=) // Implements the helper function for {ASSERT|EXPECT}_GT with int or // enum arguments. GTEST_IMPL_CMP_HELPER_(GT, > ) #undef GTEST_IMPL_CMP_HELPER_ // The helper function for {ASSERT|EXPECT}_STREQ. AssertionResult CmpHelperSTREQ(const char* expected_expression, const char* actual_expression, const char* expected, const char* actual) { if (String::CStringEquals(expected, actual)) { return AssertionSuccess(); } return EqFailure(expected_expression, actual_expression, PrintToString(expected), PrintToString(actual), false); } // The helper function for {ASSERT|EXPECT}_STRCASEEQ. AssertionResult CmpHelperSTRCASEEQ(const char* expected_expression, const char* actual_expression, const char* expected, const char* actual) { if (String::CaseInsensitiveCStringEquals(expected, actual)) { return AssertionSuccess(); } return EqFailure(expected_expression, actual_expression, PrintToString(expected), PrintToString(actual), true); } // The helper function for {ASSERT|EXPECT}_STRNE. AssertionResult CmpHelperSTRNE(const char* s1_expression, const char* s2_expression, const char* s1, const char* s2) { if (!String::CStringEquals(s1, s2)) { return AssertionSuccess(); } else { return AssertionFailure() << "Expected: (" << s1_expression << ") != (" << s2_expression << "), actual: \"" << s1 << "\" vs \"" << s2 << "\""; } } // The helper function for {ASSERT|EXPECT}_STRCASENE. AssertionResult CmpHelperSTRCASENE(const char* s1_expression, const char* s2_expression, const char* s1, const char* s2) { if (!String::CaseInsensitiveCStringEquals(s1, s2)) { return AssertionSuccess(); } else { return AssertionFailure() << "Expected: (" << s1_expression << ") != (" << s2_expression << ") (ignoring case), actual: \"" << s1 << "\" vs \"" << s2 << "\""; } } } // namespace internal namespace { // Helper functions for implementing IsSubString() and IsNotSubstring(). // This group of overloaded functions return true iff needle is a // substring of haystack. NULL is considered a substring of itself // only. bool IsSubstringPred(const char* needle, const char* haystack) { if (needle == NULL || haystack == NULL) return needle == haystack; return strstr(haystack, needle) != NULL; } bool IsSubstringPred(const wchar_t* needle, const wchar_t* haystack) { if (needle == NULL || haystack == NULL) return needle == haystack; return wcsstr(haystack, needle) != NULL; } // StringType here can be either ::std::string or ::std::wstring. template bool IsSubstringPred(const StringType& needle, const StringType& haystack) { return haystack.find(needle) != StringType::npos; } // This function implements either IsSubstring() or IsNotSubstring(), // depending on the value of the expected_to_be_substring parameter. // StringType here can be const char*, const wchar_t*, ::std::string, // or ::std::wstring. template AssertionResult IsSubstringImpl( bool expected_to_be_substring, const char* needle_expr, const char* haystack_expr, const StringType& needle, const StringType& haystack) { if (IsSubstringPred(needle, haystack) == expected_to_be_substring) return AssertionSuccess(); const bool is_wide_string = sizeof(needle[0]) > 1; const char* const begin_string_quote = is_wide_string ? "L\"" : "\""; return AssertionFailure() << "Value of: " << needle_expr << "\n" << " Actual: " << begin_string_quote << needle << "\"\n" << "Expected: " << (expected_to_be_substring ? "" : "not ") << "a substring of " << haystack_expr << "\n" << "Which is: " << begin_string_quote << haystack << "\""; } } // namespace // IsSubstring() and IsNotSubstring() check whether needle is a // substring of haystack (NULL is considered a substring of itself // only), and return an appropriate error message when they fail. AssertionResult IsSubstring( const char* needle_expr, const char* haystack_expr, const char* needle, const char* haystack) { return IsSubstringImpl(true, needle_expr, haystack_expr, needle, haystack); } AssertionResult IsSubstring( const char* needle_expr, const char* haystack_expr, const wchar_t* needle, const wchar_t* haystack) { return IsSubstringImpl(true, needle_expr, haystack_expr, needle, haystack); } AssertionResult IsNotSubstring( const char* needle_expr, const char* haystack_expr, const char* needle, const char* haystack) { return IsSubstringImpl(false, needle_expr, haystack_expr, needle, haystack); } AssertionResult IsNotSubstring( const char* needle_expr, const char* haystack_expr, const wchar_t* needle, const wchar_t* haystack) { return IsSubstringImpl(false, needle_expr, haystack_expr, needle, haystack); } AssertionResult IsSubstring( const char* needle_expr, const char* haystack_expr, const ::std::string& needle, const ::std::string& haystack) { return IsSubstringImpl(true, needle_expr, haystack_expr, needle, haystack); } AssertionResult IsNotSubstring( const char* needle_expr, const char* haystack_expr, const ::std::string& needle, const ::std::string& haystack) { return IsSubstringImpl(false, needle_expr, haystack_expr, needle, haystack); } #if GTEST_HAS_STD_WSTRING AssertionResult IsSubstring( const char* needle_expr, const char* haystack_expr, const ::std::wstring& needle, const ::std::wstring& haystack) { return IsSubstringImpl(true, needle_expr, haystack_expr, needle, haystack); } AssertionResult IsNotSubstring( const char* needle_expr, const char* haystack_expr, const ::std::wstring& needle, const ::std::wstring& haystack) { return IsSubstringImpl(false, needle_expr, haystack_expr, needle, haystack); } #endif // GTEST_HAS_STD_WSTRING namespace internal { #if GTEST_OS_WINDOWS namespace { // Helper function for IsHRESULT{SuccessFailure} predicates AssertionResult HRESULTFailureHelper(const char* expr, const char* expected, long hr) { // NOLINT # if GTEST_OS_WINDOWS_MOBILE // Windows CE doesn't support FormatMessage. const char error_text[] = ""; # else // Looks up the human-readable system message for the HRESULT code // and since we're not passing any params to FormatMessage, we don't // want inserts expanded. const DWORD kFlags = FORMAT_MESSAGE_FROM_SYSTEM | FORMAT_MESSAGE_IGNORE_INSERTS; const DWORD kBufSize = 4096; // Gets the system's human readable message string for this HRESULT. char error_text[kBufSize] = { '\0' }; DWORD message_length = ::FormatMessageA(kFlags, 0, // no source, we're asking system hr, // the error 0, // no line width restrictions error_text, // output buffer kBufSize, // buf size NULL); // no arguments for inserts // Trims tailing white space (FormatMessage leaves a trailing CR-LF) for (; message_length && IsSpace(error_text[message_length - 1]); --message_length) { error_text[message_length - 1] = '\0'; } # endif // GTEST_OS_WINDOWS_MOBILE const std::string error_hex("0x" + String::FormatHexInt(hr)); return ::testing::AssertionFailure() << "Expected: " << expr << " " << expected << ".\n" << " Actual: " << error_hex << " " << error_text << "\n"; } } // namespace AssertionResult IsHRESULTSuccess(const char* expr, long hr) { // NOLINT if (SUCCEEDED(hr)) { return AssertionSuccess(); } return HRESULTFailureHelper(expr, "succeeds", hr); } AssertionResult IsHRESULTFailure(const char* expr, long hr) { // NOLINT if (FAILED(hr)) { return AssertionSuccess(); } return HRESULTFailureHelper(expr, "fails", hr); } #endif // GTEST_OS_WINDOWS // Utility functions for encoding Unicode text (wide strings) in // UTF-8. // A Unicode code-point can have upto 21 bits, and is encoded in UTF-8 // like this: // // Code-point length Encoding // 0 - 7 bits 0xxxxxxx // 8 - 11 bits 110xxxxx 10xxxxxx // 12 - 16 bits 1110xxxx 10xxxxxx 10xxxxxx // 17 - 21 bits 11110xxx 10xxxxxx 10xxxxxx 10xxxxxx // The maximum code-point a one-byte UTF-8 sequence can represent. const UInt32 kMaxCodePoint1 = (static_cast(1) << 7) - 1; // The maximum code-point a two-byte UTF-8 sequence can represent. const UInt32 kMaxCodePoint2 = (static_cast(1) << (5 + 6)) - 1; // The maximum code-point a three-byte UTF-8 sequence can represent. const UInt32 kMaxCodePoint3 = (static_cast(1) << (4 + 2*6)) - 1; // The maximum code-point a four-byte UTF-8 sequence can represent. const UInt32 kMaxCodePoint4 = (static_cast(1) << (3 + 3*6)) - 1; // Chops off the n lowest bits from a bit pattern. Returns the n // lowest bits. As a side effect, the original bit pattern will be // shifted to the right by n bits. inline UInt32 ChopLowBits(UInt32* bits, int n) { const UInt32 low_bits = *bits & ((static_cast(1) << n) - 1); *bits >>= n; return low_bits; } // Converts a Unicode code point to a narrow string in UTF-8 encoding. // code_point parameter is of type UInt32 because wchar_t may not be // wide enough to contain a code point. // If the code_point is not a valid Unicode code point // (i.e. outside of Unicode range U+0 to U+10FFFF) it will be converted // to "(Invalid Unicode 0xXXXXXXXX)". std::string CodePointToUtf8(UInt32 code_point) { if (code_point > kMaxCodePoint4) { return "(Invalid Unicode 0x" + String::FormatHexInt(code_point) + ")"; } char str[5]; // Big enough for the largest valid code point. if (code_point <= kMaxCodePoint1) { str[1] = '\0'; str[0] = static_cast(code_point); // 0xxxxxxx } else if (code_point <= kMaxCodePoint2) { str[2] = '\0'; str[1] = static_cast(0x80 | ChopLowBits(&code_point, 6)); // 10xxxxxx str[0] = static_cast(0xC0 | code_point); // 110xxxxx } else if (code_point <= kMaxCodePoint3) { str[3] = '\0'; str[2] = static_cast(0x80 | ChopLowBits(&code_point, 6)); // 10xxxxxx str[1] = static_cast(0x80 | ChopLowBits(&code_point, 6)); // 10xxxxxx str[0] = static_cast(0xE0 | code_point); // 1110xxxx } else { // code_point <= kMaxCodePoint4 str[4] = '\0'; str[3] = static_cast(0x80 | ChopLowBits(&code_point, 6)); // 10xxxxxx str[2] = static_cast(0x80 | ChopLowBits(&code_point, 6)); // 10xxxxxx str[1] = static_cast(0x80 | ChopLowBits(&code_point, 6)); // 10xxxxxx str[0] = static_cast(0xF0 | code_point); // 11110xxx } return str; } // The following two functions only make sense if the system // uses UTF-16 for wide string encoding. All supported systems // with 16 bit wchar_t (Windows, Cygwin, Symbian OS) do use UTF-16. // Determines if the arguments constitute UTF-16 surrogate pair // and thus should be combined into a single Unicode code point // using CreateCodePointFromUtf16SurrogatePair. inline bool IsUtf16SurrogatePair(wchar_t first, wchar_t second) { return sizeof(wchar_t) == 2 && (first & 0xFC00) == 0xD800 && (second & 0xFC00) == 0xDC00; } // Creates a Unicode code point from UTF16 surrogate pair. inline UInt32 CreateCodePointFromUtf16SurrogatePair(wchar_t first, wchar_t second) { const UInt32 mask = (1 << 10) - 1; return (sizeof(wchar_t) == 2) ? (((first & mask) << 10) | (second & mask)) + 0x10000 : // This function should not be called when the condition is // false, but we provide a sensible default in case it is. static_cast(first); } // Converts a wide string to a narrow string in UTF-8 encoding. // The wide string is assumed to have the following encoding: // UTF-16 if sizeof(wchar_t) == 2 (on Windows, Cygwin, Symbian OS) // UTF-32 if sizeof(wchar_t) == 4 (on Linux) // Parameter str points to a null-terminated wide string. // Parameter num_chars may additionally limit the number // of wchar_t characters processed. -1 is used when the entire string // should be processed. // If the string contains code points that are not valid Unicode code points // (i.e. outside of Unicode range U+0 to U+10FFFF) they will be output // as '(Invalid Unicode 0xXXXXXXXX)'. If the string is in UTF16 encoding // and contains invalid UTF-16 surrogate pairs, values in those pairs // will be encoded as individual Unicode characters from Basic Normal Plane. std::string WideStringToUtf8(const wchar_t* str, int num_chars) { if (num_chars == -1) num_chars = static_cast(wcslen(str)); ::std::stringstream stream; for (int i = 0; i < num_chars; ++i) { UInt32 unicode_code_point; if (str[i] == L'\0') { break; } else if (i + 1 < num_chars && IsUtf16SurrogatePair(str[i], str[i + 1])) { unicode_code_point = CreateCodePointFromUtf16SurrogatePair(str[i], str[i + 1]); i++; } else { unicode_code_point = static_cast(str[i]); } stream << CodePointToUtf8(unicode_code_point); } return StringStreamToString(&stream); } // Converts a wide C string to an std::string using the UTF-8 encoding. // NULL will be converted to "(null)". std::string String::ShowWideCString(const wchar_t * wide_c_str) { if (wide_c_str == NULL) return "(null)"; return internal::WideStringToUtf8(wide_c_str, -1); } // Compares two wide C strings. Returns true iff they have the same // content. // // Unlike wcscmp(), this function can handle NULL argument(s). A NULL // C string is considered different to any non-NULL C string, // including the empty string. bool String::WideCStringEquals(const wchar_t * lhs, const wchar_t * rhs) { if (lhs == NULL) return rhs == NULL; if (rhs == NULL) return false; return wcscmp(lhs, rhs) == 0; } // Helper function for *_STREQ on wide strings. AssertionResult CmpHelperSTREQ(const char* expected_expression, const char* actual_expression, const wchar_t* expected, const wchar_t* actual) { if (String::WideCStringEquals(expected, actual)) { return AssertionSuccess(); } return EqFailure(expected_expression, actual_expression, PrintToString(expected), PrintToString(actual), false); } // Helper function for *_STRNE on wide strings. AssertionResult CmpHelperSTRNE(const char* s1_expression, const char* s2_expression, const wchar_t* s1, const wchar_t* s2) { if (!String::WideCStringEquals(s1, s2)) { return AssertionSuccess(); } return AssertionFailure() << "Expected: (" << s1_expression << ") != (" << s2_expression << "), actual: " << PrintToString(s1) << " vs " << PrintToString(s2); } // Compares two C strings, ignoring case. Returns true iff they have // the same content. // // Unlike strcasecmp(), this function can handle NULL argument(s). A // NULL C string is considered different to any non-NULL C string, // including the empty string. bool String::CaseInsensitiveCStringEquals(const char * lhs, const char * rhs) { if (lhs == NULL) return rhs == NULL; if (rhs == NULL) return false; return posix::StrCaseCmp(lhs, rhs) == 0; } // Compares two wide C strings, ignoring case. Returns true iff they // have the same content. // // Unlike wcscasecmp(), this function can handle NULL argument(s). // A NULL C string is considered different to any non-NULL wide C string, // including the empty string. // NB: The implementations on different platforms slightly differ. // On windows, this method uses _wcsicmp which compares according to LC_CTYPE // environment variable. On GNU platform this method uses wcscasecmp // which compares according to LC_CTYPE category of the current locale. // On MacOS X, it uses towlower, which also uses LC_CTYPE category of the // current locale. bool String::CaseInsensitiveWideCStringEquals(const wchar_t* lhs, const wchar_t* rhs) { if (lhs == NULL) return rhs == NULL; if (rhs == NULL) return false; #if GTEST_OS_WINDOWS return _wcsicmp(lhs, rhs) == 0; #elif GTEST_OS_LINUX && !GTEST_OS_LINUX_ANDROID return wcscasecmp(lhs, rhs) == 0; #else // Android, Mac OS X and Cygwin don't define wcscasecmp. // Other unknown OSes may not define it either. wint_t left, right; do { left = towlower(*lhs++); right = towlower(*rhs++); } while (left && left == right); return left == right; #endif // OS selector } // Returns true iff str ends with the given suffix, ignoring case. // Any string is considered to end with an empty suffix. bool String::EndsWithCaseInsensitive( const std::string& str, const std::string& suffix) { const size_t str_len = str.length(); const size_t suffix_len = suffix.length(); return (str_len >= suffix_len) && CaseInsensitiveCStringEquals(str.c_str() + str_len - suffix_len, suffix.c_str()); } // Formats an int value as "%02d". std::string String::FormatIntWidth2(int value) { std::stringstream ss; ss << std::setfill('0') << std::setw(2) << value; return ss.str(); } // Formats an int value as "%X". std::string String::FormatHexInt(int value) { std::stringstream ss; ss << std::hex << std::uppercase << value; return ss.str(); } // Formats a byte as "%02X". std::string String::FormatByte(unsigned char value) { std::stringstream ss; ss << std::setfill('0') << std::setw(2) << std::hex << std::uppercase << static_cast(value); return ss.str(); } // Converts the buffer in a stringstream to an std::string, converting NUL // bytes to "\\0" along the way. std::string StringStreamToString(::std::stringstream* ss) { const ::std::string& str = ss->str(); const char* const start = str.c_str(); const char* const end = start + str.length(); std::string result; result.reserve(2 * (end - start)); for (const char* ch = start; ch != end; ++ch) { if (*ch == '\0') { result += "\\0"; // Replaces NUL with "\\0"; } else { result += *ch; } } return result; } // Appends the user-supplied message to the Google-Test-generated message. std::string AppendUserMessage(const std::string& gtest_msg, const Message& user_msg) { // Appends the user message if it's non-empty. const std::string user_msg_string = user_msg.GetString(); if (user_msg_string.empty()) { return gtest_msg; } return gtest_msg + "\n" + user_msg_string; } } // namespace internal // class TestResult // Creates an empty TestResult. TestResult::TestResult() : death_test_count_(0), elapsed_time_(0) { } // D'tor. TestResult::~TestResult() { } // Returns the i-th test part result among all the results. i can // range from 0 to total_part_count() - 1. If i is not in that range, // aborts the program. const TestPartResult& TestResult::GetTestPartResult(int i) const { if (i < 0 || i >= total_part_count()) internal::posix::Abort(); return test_part_results_.at(i); } // Returns the i-th test property. i can range from 0 to // test_property_count() - 1. If i is not in that range, aborts the // program. const TestProperty& TestResult::GetTestProperty(int i) const { if (i < 0 || i >= test_property_count()) internal::posix::Abort(); return test_properties_.at(i); } // Clears the test part results. void TestResult::ClearTestPartResults() { test_part_results_.clear(); } // Adds a test part result to the list. void TestResult::AddTestPartResult(const TestPartResult& test_part_result) { test_part_results_.push_back(test_part_result); } // Adds a test property to the list. If a property with the same key as the // supplied property is already represented, the value of this test_property // replaces the old value for that key. void TestResult::RecordProperty(const std::string& xml_element, const TestProperty& test_property) { if (!ValidateTestProperty(xml_element, test_property)) { return; } internal::MutexLock lock(&test_properites_mutex_); const std::vector::iterator property_with_matching_key = std::find_if(test_properties_.begin(), test_properties_.end(), internal::TestPropertyKeyIs(test_property.key())); if (property_with_matching_key == test_properties_.end()) { test_properties_.push_back(test_property); return; } property_with_matching_key->SetValue(test_property.value()); } // The list of reserved attributes used in the element of XML // output. static const char* const kReservedTestSuitesAttributes[] = { "disabled", "errors", "failures", "name", "random_seed", "tests", "time", "timestamp" }; // The list of reserved attributes used in the element of XML // output. static const char* const kReservedTestSuiteAttributes[] = { "disabled", "errors", "failures", "name", "tests", "time" }; // The list of reserved attributes used in the element of XML output. static const char* const kReservedTestCaseAttributes[] = { "classname", "name", "status", "time", "type_param", "value_param" }; template std::vector ArrayAsVector(const char* const (&array)[kSize]) { return std::vector(array, array + kSize); } static std::vector GetReservedAttributesForElement( const std::string& xml_element) { if (xml_element == "testsuites") { return ArrayAsVector(kReservedTestSuitesAttributes); } else if (xml_element == "testsuite") { return ArrayAsVector(kReservedTestSuiteAttributes); } else if (xml_element == "testcase") { return ArrayAsVector(kReservedTestCaseAttributes); } else { GTEST_CHECK_(false) << "Unrecognized xml_element provided: " << xml_element; } // This code is unreachable but some compilers may not realizes that. return std::vector(); } static std::string FormatWordList(const std::vector& words) { Message word_list; for (size_t i = 0; i < words.size(); ++i) { if (i > 0 && words.size() > 2) { word_list << ", "; } if (i == words.size() - 1) { word_list << "and "; } word_list << "'" << words[i] << "'"; } return word_list.GetString(); } bool ValidateTestPropertyName(const std::string& property_name, const std::vector& reserved_names) { if (std::find(reserved_names.begin(), reserved_names.end(), property_name) != reserved_names.end()) { ADD_FAILURE() << "Reserved key used in RecordProperty(): " << property_name << " (" << FormatWordList(reserved_names) << " are reserved by " << GTEST_NAME_ << ")"; return false; } return true; } // Adds a failure if the key is a reserved attribute of the element named // xml_element. Returns true if the property is valid. bool TestResult::ValidateTestProperty(const std::string& xml_element, const TestProperty& test_property) { return ValidateTestPropertyName(test_property.key(), GetReservedAttributesForElement(xml_element)); } // Clears the object. void TestResult::Clear() { test_part_results_.clear(); test_properties_.clear(); death_test_count_ = 0; elapsed_time_ = 0; } // Returns true iff the test failed. bool TestResult::Failed() const { for (int i = 0; i < total_part_count(); ++i) { if (GetTestPartResult(i).failed()) return true; } return false; } // Returns true iff the test part fatally failed. static bool TestPartFatallyFailed(const TestPartResult& result) { return result.fatally_failed(); } // Returns true iff the test fatally failed. bool TestResult::HasFatalFailure() const { return CountIf(test_part_results_, TestPartFatallyFailed) > 0; } // Returns true iff the test part non-fatally failed. static bool TestPartNonfatallyFailed(const TestPartResult& result) { return result.nonfatally_failed(); } // Returns true iff the test has a non-fatal failure. bool TestResult::HasNonfatalFailure() const { return CountIf(test_part_results_, TestPartNonfatallyFailed) > 0; } // Gets the number of all test parts. This is the sum of the number // of successful test parts and the number of failed test parts. int TestResult::total_part_count() const { return static_cast(test_part_results_.size()); } // Returns the number of the test properties. int TestResult::test_property_count() const { return static_cast(test_properties_.size()); } // class Test // Creates a Test object. // The c'tor saves the values of all Google Test flags. Test::Test() : gtest_flag_saver_(new internal::GTestFlagSaver) { } // The d'tor restores the values of all Google Test flags. Test::~Test() { delete gtest_flag_saver_; } // Sets up the test fixture. // // A sub-class may override this. void Test::SetUp() { } // Tears down the test fixture. // // A sub-class may override this. void Test::TearDown() { } // Allows user supplied key value pairs to be recorded for later output. void Test::RecordProperty(const std::string& key, const std::string& value) { UnitTest::GetInstance()->RecordProperty(key, value); } // Allows user supplied key value pairs to be recorded for later output. void Test::RecordProperty(const std::string& key, int value) { Message value_message; value_message << value; RecordProperty(key, value_message.GetString().c_str()); } namespace internal { void ReportFailureInUnknownLocation(TestPartResult::Type result_type, const std::string& message) { // This function is a friend of UnitTest and as such has access to // AddTestPartResult. UnitTest::GetInstance()->AddTestPartResult( result_type, NULL, // No info about the source file where the exception occurred. -1, // We have no info on which line caused the exception. message, ""); // No stack trace, either. } } // namespace internal // Google Test requires all tests in the same test case to use the same test // fixture class. This function checks if the current test has the // same fixture class as the first test in the current test case. If // yes, it returns true; otherwise it generates a Google Test failure and // returns false. bool Test::HasSameFixtureClass() { internal::UnitTestImpl* const impl = internal::GetUnitTestImpl(); const TestCase* const test_case = impl->current_test_case(); // Info about the first test in the current test case. const TestInfo* const first_test_info = test_case->test_info_list()[0]; const internal::TypeId first_fixture_id = first_test_info->fixture_class_id_; const char* const first_test_name = first_test_info->name(); // Info about the current test. const TestInfo* const this_test_info = impl->current_test_info(); const internal::TypeId this_fixture_id = this_test_info->fixture_class_id_; const char* const this_test_name = this_test_info->name(); if (this_fixture_id != first_fixture_id) { // Is the first test defined using TEST? const bool first_is_TEST = first_fixture_id == internal::GetTestTypeId(); // Is this test defined using TEST? const bool this_is_TEST = this_fixture_id == internal::GetTestTypeId(); if (first_is_TEST || this_is_TEST) { // Both TEST and TEST_F appear in same test case, which is incorrect. // Tell the user how to fix this. // Gets the name of the TEST and the name of the TEST_F. Note // that first_is_TEST and this_is_TEST cannot both be true, as // the fixture IDs are different for the two tests. const char* const TEST_name = first_is_TEST ? first_test_name : this_test_name; const char* const TEST_F_name = first_is_TEST ? this_test_name : first_test_name; ADD_FAILURE() << "All tests in the same test case must use the same test fixture\n" << "class, so mixing TEST_F and TEST in the same test case is\n" << "illegal. In test case " << this_test_info->test_case_name() << ",\n" << "test " << TEST_F_name << " is defined using TEST_F but\n" << "test " << TEST_name << " is defined using TEST. You probably\n" << "want to change the TEST to TEST_F or move it to another test\n" << "case."; } else { // Two fixture classes with the same name appear in two different // namespaces, which is not allowed. Tell the user how to fix this. ADD_FAILURE() << "All tests in the same test case must use the same test fixture\n" << "class. However, in test case " << this_test_info->test_case_name() << ",\n" << "you defined test " << first_test_name << " and test " << this_test_name << "\n" << "using two different test fixture classes. This can happen if\n" << "the two classes are from different namespaces or translation\n" << "units and have the same name. You should probably rename one\n" << "of the classes to put the tests into different test cases."; } return false; } return true; } #if GTEST_HAS_SEH // Adds an "exception thrown" fatal failure to the current test. This // function returns its result via an output parameter pointer because VC++ // prohibits creation of objects with destructors on stack in functions // using __try (see error C2712). static std::string* FormatSehExceptionMessage(DWORD exception_code, const char* location) { Message message; message << "SEH exception with code 0x" << std::setbase(16) << exception_code << std::setbase(10) << " thrown in " << location << "."; return new std::string(message.GetString()); } #endif // GTEST_HAS_SEH namespace internal { #if GTEST_HAS_EXCEPTIONS // Adds an "exception thrown" fatal failure to the current test. static std::string FormatCxxExceptionMessage(const char* description, const char* location) { Message message; if (description != NULL) { message << "C++ exception with description \"" << description << "\""; } else { message << "Unknown C++ exception"; } message << " thrown in " << location << "."; return message.GetString(); } static std::string PrintTestPartResultToString( const TestPartResult& test_part_result); GoogleTestFailureException::GoogleTestFailureException( const TestPartResult& failure) : ::std::runtime_error(PrintTestPartResultToString(failure).c_str()) {} #endif // GTEST_HAS_EXCEPTIONS // We put these helper functions in the internal namespace as IBM's xlC // compiler rejects the code if they were declared static. // Runs the given method and handles SEH exceptions it throws, when // SEH is supported; returns the 0-value for type Result in case of an // SEH exception. (Microsoft compilers cannot handle SEH and C++ // exceptions in the same function. Therefore, we provide a separate // wrapper function for handling SEH exceptions.) template Result HandleSehExceptionsInMethodIfSupported( T* object, Result (T::*method)(), const char* location) { #if GTEST_HAS_SEH __try { return (object->*method)(); } __except (internal::UnitTestOptions::GTestShouldProcessSEH( // NOLINT GetExceptionCode())) { // We create the exception message on the heap because VC++ prohibits // creation of objects with destructors on stack in functions using __try // (see error C2712). std::string* exception_message = FormatSehExceptionMessage( GetExceptionCode(), location); internal::ReportFailureInUnknownLocation(TestPartResult::kFatalFailure, *exception_message); delete exception_message; return static_cast(0); } #else (void)location; return (object->*method)(); #endif // GTEST_HAS_SEH } // Runs the given method and catches and reports C++ and/or SEH-style // exceptions, if they are supported; returns the 0-value for type // Result in case of an SEH exception. template Result HandleExceptionsInMethodIfSupported( T* object, Result (T::*method)(), const char* location) { // NOTE: The user code can affect the way in which Google Test handles // exceptions by setting GTEST_FLAG(catch_exceptions), but only before // RUN_ALL_TESTS() starts. It is technically possible to check the flag // after the exception is caught and either report or re-throw the // exception based on the flag's value: // // try { // // Perform the test method. // } catch (...) { // if (GTEST_FLAG(catch_exceptions)) // // Report the exception as failure. // else // throw; // Re-throws the original exception. // } // // However, the purpose of this flag is to allow the program to drop into // the debugger when the exception is thrown. On most platforms, once the // control enters the catch block, the exception origin information is // lost and the debugger will stop the program at the point of the // re-throw in this function -- instead of at the point of the original // throw statement in the code under test. For this reason, we perform // the check early, sacrificing the ability to affect Google Test's // exception handling in the method where the exception is thrown. if (internal::GetUnitTestImpl()->catch_exceptions()) { #if GTEST_HAS_EXCEPTIONS try { return HandleSehExceptionsInMethodIfSupported(object, method, location); } catch (const internal::GoogleTestFailureException&) { // NOLINT // This exception type can only be thrown by a failed Google // Test assertion with the intention of letting another testing // framework catch it. Therefore we just re-throw it. throw; } catch (const std::exception& e) { // NOLINT internal::ReportFailureInUnknownLocation( TestPartResult::kFatalFailure, FormatCxxExceptionMessage(e.what(), location)); } catch (...) { // NOLINT internal::ReportFailureInUnknownLocation( TestPartResult::kFatalFailure, FormatCxxExceptionMessage(NULL, location)); } return static_cast(0); #else return HandleSehExceptionsInMethodIfSupported(object, method, location); #endif // GTEST_HAS_EXCEPTIONS } else { return (object->*method)(); } } } // namespace internal // Runs the test and updates the test result. void Test::Run() { if (!HasSameFixtureClass()) return; internal::UnitTestImpl* const impl = internal::GetUnitTestImpl(); impl->os_stack_trace_getter()->UponLeavingGTest(); internal::HandleExceptionsInMethodIfSupported(this, &Test::SetUp, "SetUp()"); // We will run the test only if SetUp() was successful. if (!HasFatalFailure()) { impl->os_stack_trace_getter()->UponLeavingGTest(); internal::HandleExceptionsInMethodIfSupported( this, &Test::TestBody, "the test body"); } // However, we want to clean up as much as possible. Hence we will // always call TearDown(), even if SetUp() or the test body has // failed. impl->os_stack_trace_getter()->UponLeavingGTest(); internal::HandleExceptionsInMethodIfSupported( this, &Test::TearDown, "TearDown()"); } // Returns true iff the current test has a fatal failure. bool Test::HasFatalFailure() { return internal::GetUnitTestImpl()->current_test_result()->HasFatalFailure(); } // Returns true iff the current test has a non-fatal failure. bool Test::HasNonfatalFailure() { return internal::GetUnitTestImpl()->current_test_result()-> HasNonfatalFailure(); } // class TestInfo // Constructs a TestInfo object. It assumes ownership of the test factory // object. TestInfo::TestInfo(const std::string& a_test_case_name, const std::string& a_name, const char* a_type_param, const char* a_value_param, internal::TypeId fixture_class_id, internal::TestFactoryBase* factory) : test_case_name_(a_test_case_name), name_(a_name), type_param_(a_type_param ? new std::string(a_type_param) : NULL), value_param_(a_value_param ? new std::string(a_value_param) : NULL), fixture_class_id_(fixture_class_id), should_run_(false), is_disabled_(false), matches_filter_(false), factory_(factory), result_() {} // Destructs a TestInfo object. TestInfo::~TestInfo() { delete factory_; } namespace internal { // Creates a new TestInfo object and registers it with Google Test; // returns the created object. // // Arguments: // // test_case_name: name of the test case // name: name of the test // type_param: the name of the test's type parameter, or NULL if // this is not a typed or a type-parameterized test. // value_param: text representation of the test's value parameter, // or NULL if this is not a value-parameterized test. // fixture_class_id: ID of the test fixture class // set_up_tc: pointer to the function that sets up the test case // tear_down_tc: pointer to the function that tears down the test case // factory: pointer to the factory that creates a test object. // The newly created TestInfo instance will assume // ownership of the factory object. TestInfo* MakeAndRegisterTestInfo( const char* test_case_name, const char* name, const char* type_param, const char* value_param, TypeId fixture_class_id, SetUpTestCaseFunc set_up_tc, TearDownTestCaseFunc tear_down_tc, TestFactoryBase* factory) { TestInfo* const test_info = new TestInfo(test_case_name, name, type_param, value_param, fixture_class_id, factory); GetUnitTestImpl()->AddTestInfo(set_up_tc, tear_down_tc, test_info); return test_info; } #if GTEST_HAS_PARAM_TEST void ReportInvalidTestCaseType(const char* test_case_name, const char* file, int line) { Message errors; errors << "Attempted redefinition of test case " << test_case_name << ".\n" << "All tests in the same test case must use the same test fixture\n" << "class. However, in test case " << test_case_name << ", you tried\n" << "to define a test using a fixture class different from the one\n" << "used earlier. This can happen if the two fixture classes are\n" << "from different namespaces and have the same name. You should\n" << "probably rename one of the classes to put the tests into different\n" << "test cases."; fprintf(stderr, "%s %s", FormatFileLocation(file, line).c_str(), errors.GetString().c_str()); } #endif // GTEST_HAS_PARAM_TEST } // namespace internal namespace { // A predicate that checks the test name of a TestInfo against a known // value. // // This is used for implementation of the TestCase class only. We put // it in the anonymous namespace to prevent polluting the outer // namespace. // // TestNameIs is copyable. class TestNameIs { public: // Constructor. // // TestNameIs has NO default constructor. explicit TestNameIs(const char* name) : name_(name) {} // Returns true iff the test name of test_info matches name_. bool operator()(const TestInfo * test_info) const { return test_info && test_info->name() == name_; } private: std::string name_; }; } // namespace namespace internal { // This method expands all parameterized tests registered with macros TEST_P // and INSTANTIATE_TEST_CASE_P into regular tests and registers those. // This will be done just once during the program runtime. void UnitTestImpl::RegisterParameterizedTests() { #if GTEST_HAS_PARAM_TEST if (!parameterized_tests_registered_) { parameterized_test_registry_.RegisterTests(); parameterized_tests_registered_ = true; } #endif } } // namespace internal // Creates the test object, runs it, records its result, and then // deletes it. void TestInfo::Run() { if (!should_run_) return; // Tells UnitTest where to store test result. internal::UnitTestImpl* const impl = internal::GetUnitTestImpl(); impl->set_current_test_info(this); TestEventListener* repeater = UnitTest::GetInstance()->listeners().repeater(); // Notifies the unit test event listeners that a test is about to start. repeater->OnTestStart(*this); const TimeInMillis start = internal::GetTimeInMillis(); impl->os_stack_trace_getter()->UponLeavingGTest(); // Creates the test object. Test* const test = internal::HandleExceptionsInMethodIfSupported( factory_, &internal::TestFactoryBase::CreateTest, "the test fixture's constructor"); // Runs the test only if the test object was created and its // constructor didn't generate a fatal failure. if ((test != NULL) && !Test::HasFatalFailure()) { // This doesn't throw as all user code that can throw are wrapped into // exception handling code. test->Run(); } // Deletes the test object. impl->os_stack_trace_getter()->UponLeavingGTest(); internal::HandleExceptionsInMethodIfSupported( test, &Test::DeleteSelf_, "the test fixture's destructor"); result_.set_elapsed_time(internal::GetTimeInMillis() - start); // Notifies the unit test event listener that a test has just finished. repeater->OnTestEnd(*this); // Tells UnitTest to stop associating assertion results to this // test. impl->set_current_test_info(NULL); } // class TestCase // Gets the number of successful tests in this test case. int TestCase::successful_test_count() const { return CountIf(test_info_list_, TestPassed); } // Gets the number of failed tests in this test case. int TestCase::failed_test_count() const { return CountIf(test_info_list_, TestFailed); } // Gets the number of disabled tests that will be reported in the XML report. int TestCase::reportable_disabled_test_count() const { return CountIf(test_info_list_, TestReportableDisabled); } // Gets the number of disabled tests in this test case. int TestCase::disabled_test_count() const { return CountIf(test_info_list_, TestDisabled); } // Gets the number of tests to be printed in the XML report. int TestCase::reportable_test_count() const { return CountIf(test_info_list_, TestReportable); } // Get the number of tests in this test case that should run. int TestCase::test_to_run_count() const { return CountIf(test_info_list_, ShouldRunTest); } // Gets the number of all tests. int TestCase::total_test_count() const { return static_cast(test_info_list_.size()); } // Creates a TestCase with the given name. // // Arguments: // // name: name of the test case // a_type_param: the name of the test case's type parameter, or NULL if // this is not a typed or a type-parameterized test case. // set_up_tc: pointer to the function that sets up the test case // tear_down_tc: pointer to the function that tears down the test case TestCase::TestCase(const char* a_name, const char* a_type_param, Test::SetUpTestCaseFunc set_up_tc, Test::TearDownTestCaseFunc tear_down_tc) : name_(a_name), type_param_(a_type_param ? new std::string(a_type_param) : NULL), set_up_tc_(set_up_tc), tear_down_tc_(tear_down_tc), should_run_(false), elapsed_time_(0) { } // Destructor of TestCase. TestCase::~TestCase() { // Deletes every Test in the collection. ForEach(test_info_list_, internal::Delete); } // Returns the i-th test among all the tests. i can range from 0 to // total_test_count() - 1. If i is not in that range, returns NULL. const TestInfo* TestCase::GetTestInfo(int i) const { const int index = GetElementOr(test_indices_, i, -1); return index < 0 ? NULL : test_info_list_[index]; } // Returns the i-th test among all the tests. i can range from 0 to // total_test_count() - 1. If i is not in that range, returns NULL. TestInfo* TestCase::GetMutableTestInfo(int i) { const int index = GetElementOr(test_indices_, i, -1); return index < 0 ? NULL : test_info_list_[index]; } // Adds a test to this test case. Will delete the test upon // destruction of the TestCase object. void TestCase::AddTestInfo(TestInfo * test_info) { test_info_list_.push_back(test_info); test_indices_.push_back(static_cast(test_indices_.size())); } // Runs every test in this TestCase. void TestCase::Run() { if (!should_run_) return; internal::UnitTestImpl* const impl = internal::GetUnitTestImpl(); impl->set_current_test_case(this); TestEventListener* repeater = UnitTest::GetInstance()->listeners().repeater(); repeater->OnTestCaseStart(*this); impl->os_stack_trace_getter()->UponLeavingGTest(); internal::HandleExceptionsInMethodIfSupported( this, &TestCase::RunSetUpTestCase, "SetUpTestCase()"); const internal::TimeInMillis start = internal::GetTimeInMillis(); for (int i = 0; i < total_test_count(); i++) { GetMutableTestInfo(i)->Run(); } elapsed_time_ = internal::GetTimeInMillis() - start; impl->os_stack_trace_getter()->UponLeavingGTest(); internal::HandleExceptionsInMethodIfSupported( this, &TestCase::RunTearDownTestCase, "TearDownTestCase()"); repeater->OnTestCaseEnd(*this); impl->set_current_test_case(NULL); } // Clears the results of all tests in this test case. void TestCase::ClearResult() { ad_hoc_test_result_.Clear(); ForEach(test_info_list_, TestInfo::ClearTestResult); } // Shuffles the tests in this test case. void TestCase::ShuffleTests(internal::Random* random) { Shuffle(random, &test_indices_); } // Restores the test order to before the first shuffle. void TestCase::UnshuffleTests() { for (size_t i = 0; i < test_indices_.size(); i++) { test_indices_[i] = static_cast(i); } } // Formats a countable noun. Depending on its quantity, either the // singular form or the plural form is used. e.g. // // FormatCountableNoun(1, "formula", "formuli") returns "1 formula". // FormatCountableNoun(5, "book", "books") returns "5 books". static std::string FormatCountableNoun(int count, const char * singular_form, const char * plural_form) { return internal::StreamableToString(count) + " " + (count == 1 ? singular_form : plural_form); } // Formats the count of tests. static std::string FormatTestCount(int test_count) { return FormatCountableNoun(test_count, "test", "tests"); } // Formats the count of test cases. static std::string FormatTestCaseCount(int test_case_count) { return FormatCountableNoun(test_case_count, "test case", "test cases"); } // Converts a TestPartResult::Type enum to human-friendly string // representation. Both kNonFatalFailure and kFatalFailure are translated // to "Failure", as the user usually doesn't care about the difference // between the two when viewing the test result. static const char * TestPartResultTypeToString(TestPartResult::Type type) { switch (type) { case TestPartResult::kSuccess: return "Success"; case TestPartResult::kNonFatalFailure: case TestPartResult::kFatalFailure: #ifdef _MSC_VER return "error: "; #else return "Failure\n"; #endif default: return "Unknown result type"; } } namespace internal { // Prints a TestPartResult to an std::string. static std::string PrintTestPartResultToString( const TestPartResult& test_part_result) { return (Message() << internal::FormatFileLocation(test_part_result.file_name(), test_part_result.line_number()) << " " << TestPartResultTypeToString(test_part_result.type()) << test_part_result.message()).GetString(); } // Prints a TestPartResult. static void PrintTestPartResult(const TestPartResult& test_part_result) { const std::string& result = PrintTestPartResultToString(test_part_result); printf("%s\n", result.c_str()); fflush(stdout); // If the test program runs in Visual Studio or a debugger, the // following statements add the test part result message to the Output // window such that the user can double-click on it to jump to the // corresponding source code location; otherwise they do nothing. #if GTEST_OS_WINDOWS && !GTEST_OS_WINDOWS_MOBILE // We don't call OutputDebugString*() on Windows Mobile, as printing // to stdout is done by OutputDebugString() there already - we don't // want the same message printed twice. ::OutputDebugStringA(result.c_str()); ::OutputDebugStringA("\n"); #endif } // class PrettyUnitTestResultPrinter enum GTestColor { COLOR_DEFAULT, COLOR_RED, COLOR_GREEN, COLOR_YELLOW }; #if GTEST_OS_WINDOWS && !GTEST_OS_WINDOWS_MOBILE && \ !GTEST_OS_WINDOWS_PHONE && !GTEST_OS_WINDOWS_RT // Returns the character attribute for the given color. WORD GetColorAttribute(GTestColor color) { switch (color) { case COLOR_RED: return FOREGROUND_RED; case COLOR_GREEN: return FOREGROUND_GREEN; case COLOR_YELLOW: return FOREGROUND_RED | FOREGROUND_GREEN; default: return 0; } } #else // Returns the ANSI color code for the given color. COLOR_DEFAULT is // an invalid input. const char* GetAnsiColorCode(GTestColor color) { switch (color) { case COLOR_RED: return "1"; case COLOR_GREEN: return "2"; case COLOR_YELLOW: return "3"; default: return NULL; }; } #endif // GTEST_OS_WINDOWS && !GTEST_OS_WINDOWS_MOBILE // Returns true iff Google Test should use colors in the output. bool ShouldUseColor(bool stdout_is_tty) { const char* const gtest_color = GTEST_FLAG(color).c_str(); if (String::CaseInsensitiveCStringEquals(gtest_color, "auto")) { #if GTEST_OS_WINDOWS // On Windows the TERM variable is usually not set, but the // console there does support colors. return stdout_is_tty; #else // On non-Windows platforms, we rely on the TERM variable. const char* const term = posix::GetEnv("TERM"); const bool term_supports_color = String::CStringEquals(term, "xterm") || String::CStringEquals(term, "xterm-color") || String::CStringEquals(term, "xterm-256color") || String::CStringEquals(term, "screen") || String::CStringEquals(term, "screen-256color") || String::CStringEquals(term, "linux") || String::CStringEquals(term, "cygwin"); return stdout_is_tty && term_supports_color; #endif // GTEST_OS_WINDOWS } return String::CaseInsensitiveCStringEquals(gtest_color, "yes") || String::CaseInsensitiveCStringEquals(gtest_color, "true") || String::CaseInsensitiveCStringEquals(gtest_color, "t") || String::CStringEquals(gtest_color, "1"); // We take "yes", "true", "t", and "1" as meaning "yes". If the // value is neither one of these nor "auto", we treat it as "no" to // be conservative. } // Helpers for printing colored strings to stdout. Note that on Windows, we // cannot simply emit special characters and have the terminal change colors. // This routine must actually emit the characters rather than return a string // that would be colored when printed, as can be done on Linux. void ColoredPrintf(GTestColor color, const char* fmt, ...) { va_list args; va_start(args, fmt); #if GTEST_OS_WINDOWS_MOBILE || GTEST_OS_SYMBIAN || GTEST_OS_ZOS || \ GTEST_OS_IOS || GTEST_OS_WINDOWS_PHONE || GTEST_OS_WINDOWS_RT const bool use_color = AlwaysFalse(); #else static const bool in_color_mode = ShouldUseColor(posix::IsATTY(posix::FileNo(stdout)) != 0); const bool use_color = in_color_mode && (color != COLOR_DEFAULT); #endif // GTEST_OS_WINDOWS_MOBILE || GTEST_OS_SYMBIAN || GTEST_OS_ZOS // The '!= 0' comparison is necessary to satisfy MSVC 7.1. if (!use_color) { vprintf(fmt, args); va_end(args); return; } #if GTEST_OS_WINDOWS && !GTEST_OS_WINDOWS_MOBILE && \ !GTEST_OS_WINDOWS_PHONE && !GTEST_OS_WINDOWS_RT const HANDLE stdout_handle = GetStdHandle(STD_OUTPUT_HANDLE); // Gets the current text color. CONSOLE_SCREEN_BUFFER_INFO buffer_info; GetConsoleScreenBufferInfo(stdout_handle, &buffer_info); const WORD old_color_attrs = buffer_info.wAttributes; // We need to flush the stream buffers into the console before each // SetConsoleTextAttribute call lest it affect the text that is already // printed but has not yet reached the console. fflush(stdout); SetConsoleTextAttribute(stdout_handle, GetColorAttribute(color) | FOREGROUND_INTENSITY); vprintf(fmt, args); fflush(stdout); // Restores the text color. SetConsoleTextAttribute(stdout_handle, old_color_attrs); #else printf("\033[0;3%sm", GetAnsiColorCode(color)); vprintf(fmt, args); printf("\033[m"); // Resets the terminal to default. #endif // GTEST_OS_WINDOWS && !GTEST_OS_WINDOWS_MOBILE va_end(args); } // Text printed in Google Test's text output and --gunit_list_tests // output to label the type parameter and value parameter for a test. static const char kTypeParamLabel[] = "TypeParam"; static const char kValueParamLabel[] = "GetParam()"; void PrintFullTestCommentIfPresent(const TestInfo& test_info) { const char* const type_param = test_info.type_param(); const char* const value_param = test_info.value_param(); if (type_param != NULL || value_param != NULL) { printf(", where "); if (type_param != NULL) { printf("%s = %s", kTypeParamLabel, type_param); if (value_param != NULL) printf(" and "); } if (value_param != NULL) { printf("%s = %s", kValueParamLabel, value_param); } } } // This class implements the TestEventListener interface. // // Class PrettyUnitTestResultPrinter is copyable. class PrettyUnitTestResultPrinter : public TestEventListener { public: PrettyUnitTestResultPrinter() {} static void PrintTestName(const char * test_case, const char * test) { printf("%s.%s", test_case, test); } // The following methods override what's in the TestEventListener class. virtual void OnTestProgramStart(const UnitTest& /*unit_test*/) {} virtual void OnTestIterationStart(const UnitTest& unit_test, int iteration); virtual void OnEnvironmentsSetUpStart(const UnitTest& unit_test); virtual void OnEnvironmentsSetUpEnd(const UnitTest& /*unit_test*/) {} virtual void OnTestCaseStart(const TestCase& test_case); virtual void OnTestStart(const TestInfo& test_info); virtual void OnTestPartResult(const TestPartResult& result); virtual void OnTestEnd(const TestInfo& test_info); virtual void OnTestCaseEnd(const TestCase& test_case); virtual void OnEnvironmentsTearDownStart(const UnitTest& unit_test); virtual void OnEnvironmentsTearDownEnd(const UnitTest& /*unit_test*/) {} virtual void OnTestIterationEnd(const UnitTest& unit_test, int iteration); virtual void OnTestProgramEnd(const UnitTest& /*unit_test*/) {} private: static void PrintFailedTests(const UnitTest& unit_test); }; // Fired before each iteration of tests starts. void PrettyUnitTestResultPrinter::OnTestIterationStart( const UnitTest& unit_test, int iteration) { if (GTEST_FLAG(repeat) != 1) printf("\nRepeating all tests (iteration %d) . . .\n\n", iteration + 1); const char* const filter = GTEST_FLAG(filter).c_str(); // Prints the filter if it's not *. This reminds the user that some // tests may be skipped. if (!String::CStringEquals(filter, kUniversalFilter)) { ColoredPrintf(COLOR_YELLOW, "Note: %s filter = %s\n", GTEST_NAME_, filter); } if (internal::ShouldShard(kTestTotalShards, kTestShardIndex, false)) { const Int32 shard_index = Int32FromEnvOrDie(kTestShardIndex, -1); ColoredPrintf(COLOR_YELLOW, "Note: This is test shard %d of %s.\n", static_cast(shard_index) + 1, internal::posix::GetEnv(kTestTotalShards)); } if (GTEST_FLAG(shuffle)) { ColoredPrintf(COLOR_YELLOW, "Note: Randomizing tests' orders with a seed of %d .\n", unit_test.random_seed()); } ColoredPrintf(COLOR_GREEN, "[==========] "); printf("Running %s from %s.\n", FormatTestCount(unit_test.test_to_run_count()).c_str(), FormatTestCaseCount(unit_test.test_case_to_run_count()).c_str()); fflush(stdout); } void PrettyUnitTestResultPrinter::OnEnvironmentsSetUpStart( const UnitTest& /*unit_test*/) { ColoredPrintf(COLOR_GREEN, "[----------] "); printf("Global test environment set-up.\n"); fflush(stdout); } void PrettyUnitTestResultPrinter::OnTestCaseStart(const TestCase& test_case) { const std::string counts = FormatCountableNoun(test_case.test_to_run_count(), "test", "tests"); ColoredPrintf(COLOR_GREEN, "[----------] "); printf("%s from %s", counts.c_str(), test_case.name()); if (test_case.type_param() == NULL) { printf("\n"); } else { printf(", where %s = %s\n", kTypeParamLabel, test_case.type_param()); } fflush(stdout); } void PrettyUnitTestResultPrinter::OnTestStart(const TestInfo& test_info) { ColoredPrintf(COLOR_GREEN, "[ RUN ] "); PrintTestName(test_info.test_case_name(), test_info.name()); printf("\n"); fflush(stdout); } // Called after an assertion failure. void PrettyUnitTestResultPrinter::OnTestPartResult( const TestPartResult& result) { // If the test part succeeded, we don't need to do anything. if (result.type() == TestPartResult::kSuccess) return; // Print failure message from the assertion (e.g. expected this and got that). PrintTestPartResult(result); fflush(stdout); } void PrettyUnitTestResultPrinter::OnTestEnd(const TestInfo& test_info) { if (test_info.result()->Passed()) { ColoredPrintf(COLOR_GREEN, "[ OK ] "); } else { ColoredPrintf(COLOR_RED, "[ FAILED ] "); } PrintTestName(test_info.test_case_name(), test_info.name()); if (test_info.result()->Failed()) PrintFullTestCommentIfPresent(test_info); if (GTEST_FLAG(print_time)) { printf(" (%s ms)\n", internal::StreamableToString( test_info.result()->elapsed_time()).c_str()); } else { printf("\n"); } fflush(stdout); } void PrettyUnitTestResultPrinter::OnTestCaseEnd(const TestCase& test_case) { if (!GTEST_FLAG(print_time)) return; const std::string counts = FormatCountableNoun(test_case.test_to_run_count(), "test", "tests"); ColoredPrintf(COLOR_GREEN, "[----------] "); printf("%s from %s (%s ms total)\n\n", counts.c_str(), test_case.name(), internal::StreamableToString(test_case.elapsed_time()).c_str()); fflush(stdout); } void PrettyUnitTestResultPrinter::OnEnvironmentsTearDownStart( const UnitTest& /*unit_test*/) { ColoredPrintf(COLOR_GREEN, "[----------] "); printf("Global test environment tear-down\n"); fflush(stdout); } // Internal helper for printing the list of failed tests. void PrettyUnitTestResultPrinter::PrintFailedTests(const UnitTest& unit_test) { const int failed_test_count = unit_test.failed_test_count(); if (failed_test_count == 0) { return; } for (int i = 0; i < unit_test.total_test_case_count(); ++i) { const TestCase& test_case = *unit_test.GetTestCase(i); if (!test_case.should_run() || (test_case.failed_test_count() == 0)) { continue; } for (int j = 0; j < test_case.total_test_count(); ++j) { const TestInfo& test_info = *test_case.GetTestInfo(j); if (!test_info.should_run() || test_info.result()->Passed()) { continue; } ColoredPrintf(COLOR_RED, "[ FAILED ] "); printf("%s.%s", test_case.name(), test_info.name()); PrintFullTestCommentIfPresent(test_info); printf("\n"); } } } void PrettyUnitTestResultPrinter::OnTestIterationEnd(const UnitTest& unit_test, int /*iteration*/) { ColoredPrintf(COLOR_GREEN, "[==========] "); printf("%s from %s ran.", FormatTestCount(unit_test.test_to_run_count()).c_str(), FormatTestCaseCount(unit_test.test_case_to_run_count()).c_str()); if (GTEST_FLAG(print_time)) { printf(" (%s ms total)", internal::StreamableToString(unit_test.elapsed_time()).c_str()); } printf("\n"); ColoredPrintf(COLOR_GREEN, "[ PASSED ] "); printf("%s.\n", FormatTestCount(unit_test.successful_test_count()).c_str()); int num_failures = unit_test.failed_test_count(); if (!unit_test.Passed()) { const int failed_test_count = unit_test.failed_test_count(); ColoredPrintf(COLOR_RED, "[ FAILED ] "); printf("%s, listed below:\n", FormatTestCount(failed_test_count).c_str()); PrintFailedTests(unit_test); printf("\n%2d FAILED %s\n", num_failures, num_failures == 1 ? "TEST" : "TESTS"); } int num_disabled = unit_test.reportable_disabled_test_count(); if (num_disabled && !GTEST_FLAG(also_run_disabled_tests)) { if (!num_failures) { printf("\n"); // Add a spacer if no FAILURE banner is displayed. } ColoredPrintf(COLOR_YELLOW, " YOU HAVE %d DISABLED %s\n\n", num_disabled, num_disabled == 1 ? "TEST" : "TESTS"); } // Ensure that Google Test output is printed before, e.g., heapchecker output. fflush(stdout); } // End PrettyUnitTestResultPrinter // class TestEventRepeater // // This class forwards events to other event listeners. class TestEventRepeater : public TestEventListener { public: TestEventRepeater() : forwarding_enabled_(true) {} virtual ~TestEventRepeater(); void Append(TestEventListener *listener); TestEventListener* Release(TestEventListener* listener); // Controls whether events will be forwarded to listeners_. Set to false // in death test child processes. bool forwarding_enabled() const { return forwarding_enabled_; } void set_forwarding_enabled(bool enable) { forwarding_enabled_ = enable; } virtual void OnTestProgramStart(const UnitTest& unit_test); virtual void OnTestIterationStart(const UnitTest& unit_test, int iteration); virtual void OnEnvironmentsSetUpStart(const UnitTest& unit_test); virtual void OnEnvironmentsSetUpEnd(const UnitTest& unit_test); virtual void OnTestCaseStart(const TestCase& test_case); virtual void OnTestStart(const TestInfo& test_info); virtual void OnTestPartResult(const TestPartResult& result); virtual void OnTestEnd(const TestInfo& test_info); virtual void OnTestCaseEnd(const TestCase& test_case); virtual void OnEnvironmentsTearDownStart(const UnitTest& unit_test); virtual void OnEnvironmentsTearDownEnd(const UnitTest& unit_test); virtual void OnTestIterationEnd(const UnitTest& unit_test, int iteration); virtual void OnTestProgramEnd(const UnitTest& unit_test); private: // Controls whether events will be forwarded to listeners_. Set to false // in death test child processes. bool forwarding_enabled_; // The list of listeners that receive events. std::vector listeners_; GTEST_DISALLOW_COPY_AND_ASSIGN_(TestEventRepeater); }; TestEventRepeater::~TestEventRepeater() { ForEach(listeners_, Delete); } void TestEventRepeater::Append(TestEventListener *listener) { listeners_.push_back(listener); } // TODO(vladl@google.com): Factor the search functionality into Vector::Find. TestEventListener* TestEventRepeater::Release(TestEventListener *listener) { for (size_t i = 0; i < listeners_.size(); ++i) { if (listeners_[i] == listener) { listeners_.erase(listeners_.begin() + i); return listener; } } return NULL; } // Since most methods are very similar, use macros to reduce boilerplate. // This defines a member that forwards the call to all listeners. #define GTEST_REPEATER_METHOD_(Name, Type) \ void TestEventRepeater::Name(const Type& parameter) { \ if (forwarding_enabled_) { \ for (size_t i = 0; i < listeners_.size(); i++) { \ listeners_[i]->Name(parameter); \ } \ } \ } // This defines a member that forwards the call to all listeners in reverse // order. #define GTEST_REVERSE_REPEATER_METHOD_(Name, Type) \ void TestEventRepeater::Name(const Type& parameter) { \ if (forwarding_enabled_) { \ for (int i = static_cast(listeners_.size()) - 1; i >= 0; i--) { \ listeners_[i]->Name(parameter); \ } \ } \ } GTEST_REPEATER_METHOD_(OnTestProgramStart, UnitTest) GTEST_REPEATER_METHOD_(OnEnvironmentsSetUpStart, UnitTest) GTEST_REPEATER_METHOD_(OnTestCaseStart, TestCase) GTEST_REPEATER_METHOD_(OnTestStart, TestInfo) GTEST_REPEATER_METHOD_(OnTestPartResult, TestPartResult) GTEST_REPEATER_METHOD_(OnEnvironmentsTearDownStart, UnitTest) GTEST_REVERSE_REPEATER_METHOD_(OnEnvironmentsSetUpEnd, UnitTest) GTEST_REVERSE_REPEATER_METHOD_(OnEnvironmentsTearDownEnd, UnitTest) GTEST_REVERSE_REPEATER_METHOD_(OnTestEnd, TestInfo) GTEST_REVERSE_REPEATER_METHOD_(OnTestCaseEnd, TestCase) GTEST_REVERSE_REPEATER_METHOD_(OnTestProgramEnd, UnitTest) #undef GTEST_REPEATER_METHOD_ #undef GTEST_REVERSE_REPEATER_METHOD_ void TestEventRepeater::OnTestIterationStart(const UnitTest& unit_test, int iteration) { if (forwarding_enabled_) { for (size_t i = 0; i < listeners_.size(); i++) { listeners_[i]->OnTestIterationStart(unit_test, iteration); } } } void TestEventRepeater::OnTestIterationEnd(const UnitTest& unit_test, int iteration) { if (forwarding_enabled_) { for (int i = static_cast(listeners_.size()) - 1; i >= 0; i--) { listeners_[i]->OnTestIterationEnd(unit_test, iteration); } } } // End TestEventRepeater // This class generates an XML output file. class XmlUnitTestResultPrinter : public EmptyTestEventListener { public: explicit XmlUnitTestResultPrinter(const char* output_file); virtual void OnTestIterationEnd(const UnitTest& unit_test, int iteration); private: // Is c a whitespace character that is normalized to a space character // when it appears in an XML attribute value? static bool IsNormalizableWhitespace(char c) { return c == 0x9 || c == 0xA || c == 0xD; } // May c appear in a well-formed XML document? static bool IsValidXmlCharacter(char c) { return IsNormalizableWhitespace(c) || c >= 0x20; } // Returns an XML-escaped copy of the input string str. If // is_attribute is true, the text is meant to appear as an attribute // value, and normalizable whitespace is preserved by replacing it // with character references. static std::string EscapeXml(const std::string& str, bool is_attribute); // Returns the given string with all characters invalid in XML removed. static std::string RemoveInvalidXmlCharacters(const std::string& str); // Convenience wrapper around EscapeXml when str is an attribute value. static std::string EscapeXmlAttribute(const std::string& str) { return EscapeXml(str, true); } // Convenience wrapper around EscapeXml when str is not an attribute value. static std::string EscapeXmlText(const char* str) { return EscapeXml(str, false); } // Verifies that the given attribute belongs to the given element and // streams the attribute as XML. static void OutputXmlAttribute(std::ostream* stream, const std::string& element_name, const std::string& name, const std::string& value); // Streams an XML CDATA section, escaping invalid CDATA sequences as needed. static void OutputXmlCDataSection(::std::ostream* stream, const char* data); // Streams an XML representation of a TestInfo object. static void OutputXmlTestInfo(::std::ostream* stream, const char* test_case_name, const TestInfo& test_info); // Prints an XML representation of a TestCase object static void PrintXmlTestCase(::std::ostream* stream, const TestCase& test_case); // Prints an XML summary of unit_test to output stream out. static void PrintXmlUnitTest(::std::ostream* stream, const UnitTest& unit_test); // Produces a string representing the test properties in a result as space // delimited XML attributes based on the property key="value" pairs. // When the std::string is not empty, it includes a space at the beginning, // to delimit this attribute from prior attributes. static std::string TestPropertiesAsXmlAttributes(const TestResult& result); // The output file. const std::string output_file_; GTEST_DISALLOW_COPY_AND_ASSIGN_(XmlUnitTestResultPrinter); }; // Creates a new XmlUnitTestResultPrinter. XmlUnitTestResultPrinter::XmlUnitTestResultPrinter(const char* output_file) : output_file_(output_file) { if (output_file_.c_str() == NULL || output_file_.empty()) { fprintf(stderr, "XML output file may not be null\n"); fflush(stderr); exit(EXIT_FAILURE); } } // Called after the unit test ends. void XmlUnitTestResultPrinter::OnTestIterationEnd(const UnitTest& unit_test, int /*iteration*/) { FILE* xmlout = NULL; FilePath output_file(output_file_); FilePath output_dir(output_file.RemoveFileName()); if (output_dir.CreateDirectoriesRecursively()) { xmlout = posix::FOpen(output_file_.c_str(), "w"); } if (xmlout == NULL) { // TODO(wan): report the reason of the failure. // // We don't do it for now as: // // 1. There is no urgent need for it. // 2. It's a bit involved to make the errno variable thread-safe on // all three operating systems (Linux, Windows, and Mac OS). // 3. To interpret the meaning of errno in a thread-safe way, // we need the strerror_r() function, which is not available on // Windows. fprintf(stderr, "Unable to open file \"%s\"\n", output_file_.c_str()); fflush(stderr); exit(EXIT_FAILURE); } std::stringstream stream; PrintXmlUnitTest(&stream, unit_test); fprintf(xmlout, "%s", StringStreamToString(&stream).c_str()); fclose(xmlout); } // Returns an XML-escaped copy of the input string str. If is_attribute // is true, the text is meant to appear as an attribute value, and // normalizable whitespace is preserved by replacing it with character // references. // // Invalid XML characters in str, if any, are stripped from the output. // It is expected that most, if not all, of the text processed by this // module will consist of ordinary English text. // If this module is ever modified to produce version 1.1 XML output, // most invalid characters can be retained using character references. // TODO(wan): It might be nice to have a minimally invasive, human-readable // escaping scheme for invalid characters, rather than dropping them. std::string XmlUnitTestResultPrinter::EscapeXml( const std::string& str, bool is_attribute) { Message m; for (size_t i = 0; i < str.size(); ++i) { const char ch = str[i]; switch (ch) { case '<': m << "<"; break; case '>': m << ">"; break; case '&': m << "&"; break; case '\'': if (is_attribute) m << "'"; else m << '\''; break; case '"': if (is_attribute) m << """; else m << '"'; break; default: if (IsValidXmlCharacter(ch)) { if (is_attribute && IsNormalizableWhitespace(ch)) m << "&#x" << String::FormatByte(static_cast(ch)) << ";"; else m << ch; } break; } } return m.GetString(); } // Returns the given string with all characters invalid in XML removed. // Currently invalid characters are dropped from the string. An // alternative is to replace them with certain characters such as . or ?. std::string XmlUnitTestResultPrinter::RemoveInvalidXmlCharacters( const std::string& str) { std::string output; output.reserve(str.size()); for (std::string::const_iterator it = str.begin(); it != str.end(); ++it) if (IsValidXmlCharacter(*it)) output.push_back(*it); return output; } // The following routines generate an XML representation of a UnitTest // object. // // This is how Google Test concepts map to the DTD: // // <-- corresponds to a UnitTest object // <-- corresponds to a TestCase object // <-- corresponds to a TestInfo object // ... // ... // ... // <-- individual assertion failures // // // // Formats the given time in milliseconds as seconds. std::string FormatTimeInMillisAsSeconds(TimeInMillis ms) { ::std::stringstream ss; ss << ms/1000.0; return ss.str(); } static bool PortableLocaltime(time_t seconds, struct tm* out) { #if defined(_MSC_VER) return localtime_s(out, &seconds) == 0; #elif defined(__MINGW32__) || defined(__MINGW64__) // MINGW provides neither localtime_r nor localtime_s, but uses // Windows' localtime(), which has a thread-local tm buffer. struct tm* tm_ptr = localtime(&seconds); // NOLINT if (tm_ptr == NULL) return false; *out = *tm_ptr; return true; #else return localtime_r(&seconds, out) != NULL; #endif } // Converts the given epoch time in milliseconds to a date string in the ISO // 8601 format, without the timezone information. std::string FormatEpochTimeInMillisAsIso8601(TimeInMillis ms) { struct tm time_struct; if (!PortableLocaltime(static_cast(ms / 1000), &time_struct)) return ""; // YYYY-MM-DDThh:mm:ss return StreamableToString(time_struct.tm_year + 1900) + "-" + String::FormatIntWidth2(time_struct.tm_mon + 1) + "-" + String::FormatIntWidth2(time_struct.tm_mday) + "T" + String::FormatIntWidth2(time_struct.tm_hour) + ":" + String::FormatIntWidth2(time_struct.tm_min) + ":" + String::FormatIntWidth2(time_struct.tm_sec); } // Streams an XML CDATA section, escaping invalid CDATA sequences as needed. void XmlUnitTestResultPrinter::OutputXmlCDataSection(::std::ostream* stream, const char* data) { const char* segment = data; *stream << ""); if (next_segment != NULL) { stream->write( segment, static_cast(next_segment - segment)); *stream << "]]>]]>"); } else { *stream << segment; break; } } *stream << "]]>"; } void XmlUnitTestResultPrinter::OutputXmlAttribute( std::ostream* stream, const std::string& element_name, const std::string& name, const std::string& value) { const std::vector& allowed_names = GetReservedAttributesForElement(element_name); GTEST_CHECK_(std::find(allowed_names.begin(), allowed_names.end(), name) != allowed_names.end()) << "Attribute " << name << " is not allowed for element <" << element_name << ">."; *stream << " " << name << "=\"" << EscapeXmlAttribute(value) << "\""; } // Prints an XML representation of a TestInfo object. // TODO(wan): There is also value in printing properties with the plain printer. void XmlUnitTestResultPrinter::OutputXmlTestInfo(::std::ostream* stream, const char* test_case_name, const TestInfo& test_info) { const TestResult& result = *test_info.result(); const std::string kTestcase = "testcase"; *stream << " \n"; } const string location = internal::FormatCompilerIndependentFileLocation( part.file_name(), part.line_number()); const string summary = location + "\n" + part.summary(); *stream << " "; const string detail = location + "\n" + part.message(); OutputXmlCDataSection(stream, RemoveInvalidXmlCharacters(detail).c_str()); *stream << "\n"; } } if (failures == 0) *stream << " />\n"; else *stream << " \n"; } // Prints an XML representation of a TestCase object void XmlUnitTestResultPrinter::PrintXmlTestCase(std::ostream* stream, const TestCase& test_case) { const std::string kTestsuite = "testsuite"; *stream << " <" << kTestsuite; OutputXmlAttribute(stream, kTestsuite, "name", test_case.name()); OutputXmlAttribute(stream, kTestsuite, "tests", StreamableToString(test_case.reportable_test_count())); OutputXmlAttribute(stream, kTestsuite, "failures", StreamableToString(test_case.failed_test_count())); OutputXmlAttribute( stream, kTestsuite, "disabled", StreamableToString(test_case.reportable_disabled_test_count())); OutputXmlAttribute(stream, kTestsuite, "errors", "0"); OutputXmlAttribute(stream, kTestsuite, "time", FormatTimeInMillisAsSeconds(test_case.elapsed_time())); *stream << TestPropertiesAsXmlAttributes(test_case.ad_hoc_test_result()) << ">\n"; for (int i = 0; i < test_case.total_test_count(); ++i) { if (test_case.GetTestInfo(i)->is_reportable()) OutputXmlTestInfo(stream, test_case.name(), *test_case.GetTestInfo(i)); } *stream << " \n"; } // Prints an XML summary of unit_test to output stream out. void XmlUnitTestResultPrinter::PrintXmlUnitTest(std::ostream* stream, const UnitTest& unit_test) { const std::string kTestsuites = "testsuites"; *stream << "\n"; *stream << "<" << kTestsuites; OutputXmlAttribute(stream, kTestsuites, "tests", StreamableToString(unit_test.reportable_test_count())); OutputXmlAttribute(stream, kTestsuites, "failures", StreamableToString(unit_test.failed_test_count())); OutputXmlAttribute( stream, kTestsuites, "disabled", StreamableToString(unit_test.reportable_disabled_test_count())); OutputXmlAttribute(stream, kTestsuites, "errors", "0"); OutputXmlAttribute( stream, kTestsuites, "timestamp", FormatEpochTimeInMillisAsIso8601(unit_test.start_timestamp())); OutputXmlAttribute(stream, kTestsuites, "time", FormatTimeInMillisAsSeconds(unit_test.elapsed_time())); if (GTEST_FLAG(shuffle)) { OutputXmlAttribute(stream, kTestsuites, "random_seed", StreamableToString(unit_test.random_seed())); } *stream << TestPropertiesAsXmlAttributes(unit_test.ad_hoc_test_result()); OutputXmlAttribute(stream, kTestsuites, "name", "AllTests"); *stream << ">\n"; for (int i = 0; i < unit_test.total_test_case_count(); ++i) { if (unit_test.GetTestCase(i)->reportable_test_count() > 0) PrintXmlTestCase(stream, *unit_test.GetTestCase(i)); } *stream << "\n"; } // Produces a string representing the test properties in a result as space // delimited XML attributes based on the property key="value" pairs. std::string XmlUnitTestResultPrinter::TestPropertiesAsXmlAttributes( const TestResult& result) { Message attributes; for (int i = 0; i < result.test_property_count(); ++i) { const TestProperty& property = result.GetTestProperty(i); attributes << " " << property.key() << "=" << "\"" << EscapeXmlAttribute(property.value()) << "\""; } return attributes.GetString(); } // End XmlUnitTestResultPrinter #if GTEST_CAN_STREAM_RESULTS_ // Checks if str contains '=', '&', '%' or '\n' characters. If yes, // replaces them by "%xx" where xx is their hexadecimal value. For // example, replaces "=" with "%3D". This algorithm is O(strlen(str)) // in both time and space -- important as the input str may contain an // arbitrarily long test failure message and stack trace. string StreamingListener::UrlEncode(const char* str) { string result; result.reserve(strlen(str) + 1); for (char ch = *str; ch != '\0'; ch = *++str) { switch (ch) { case '%': case '=': case '&': case '\n': result.append("%" + String::FormatByte(static_cast(ch))); break; default: result.push_back(ch); break; } } return result; } void StreamingListener::SocketWriter::MakeConnection() { GTEST_CHECK_(sockfd_ == -1) << "MakeConnection() can't be called when there is already a connection."; addrinfo hints; memset(&hints, 0, sizeof(hints)); hints.ai_family = AF_UNSPEC; // To allow both IPv4 and IPv6 addresses. hints.ai_socktype = SOCK_STREAM; addrinfo* servinfo = NULL; // Use the getaddrinfo() to get a linked list of IP addresses for // the given host name. const int error_num = getaddrinfo( host_name_.c_str(), port_num_.c_str(), &hints, &servinfo); if (error_num != 0) { GTEST_LOG_(WARNING) << "stream_result_to: getaddrinfo() failed: " << gai_strerror(error_num); } // Loop through all the results and connect to the first we can. for (addrinfo* cur_addr = servinfo; sockfd_ == -1 && cur_addr != NULL; cur_addr = cur_addr->ai_next) { sockfd_ = socket( cur_addr->ai_family, cur_addr->ai_socktype, cur_addr->ai_protocol); if (sockfd_ != -1) { // Connect the client socket to the server socket. if (connect(sockfd_, cur_addr->ai_addr, cur_addr->ai_addrlen) == -1) { close(sockfd_); sockfd_ = -1; } } } freeaddrinfo(servinfo); // all done with this structure if (sockfd_ == -1) { GTEST_LOG_(WARNING) << "stream_result_to: failed to connect to " << host_name_ << ":" << port_num_; } } // End of class Streaming Listener #endif // GTEST_CAN_STREAM_RESULTS__ // Class ScopedTrace // Pushes the given source file location and message onto a per-thread // trace stack maintained by Google Test. ScopedTrace::ScopedTrace(const char* file, int line, const Message& message) GTEST_LOCK_EXCLUDED_(&UnitTest::mutex_) { TraceInfo trace; trace.file = file; trace.line = line; trace.message = message.GetString(); UnitTest::GetInstance()->PushGTestTrace(trace); } // Pops the info pushed by the c'tor. ScopedTrace::~ScopedTrace() GTEST_LOCK_EXCLUDED_(&UnitTest::mutex_) { UnitTest::GetInstance()->PopGTestTrace(); } // class OsStackTraceGetter // Returns the current OS stack trace as an std::string. Parameters: // // max_depth - the maximum number of stack frames to be included // in the trace. // skip_count - the number of top frames to be skipped; doesn't count // against max_depth. // string OsStackTraceGetter::CurrentStackTrace(int /* max_depth */, int /* skip_count */) GTEST_LOCK_EXCLUDED_(mutex_) { return ""; } void OsStackTraceGetter::UponLeavingGTest() GTEST_LOCK_EXCLUDED_(mutex_) { } const char* const OsStackTraceGetter::kElidedFramesMarker = "... " GTEST_NAME_ " internal frames ..."; // A helper class that creates the premature-exit file in its // constructor and deletes the file in its destructor. class ScopedPrematureExitFile { public: explicit ScopedPrematureExitFile(const char* premature_exit_filepath) : premature_exit_filepath_(premature_exit_filepath) { // If a path to the premature-exit file is specified... if (premature_exit_filepath != NULL && *premature_exit_filepath != '\0') { // create the file with a single "0" character in it. I/O // errors are ignored as there's nothing better we can do and we // don't want to fail the test because of this. FILE* pfile = posix::FOpen(premature_exit_filepath, "w"); fwrite("0", 1, 1, pfile); fclose(pfile); } } ~ScopedPrematureExitFile() { if (premature_exit_filepath_ != NULL && *premature_exit_filepath_ != '\0') { remove(premature_exit_filepath_); } } private: const char* const premature_exit_filepath_; GTEST_DISALLOW_COPY_AND_ASSIGN_(ScopedPrematureExitFile); }; } // namespace internal // class TestEventListeners TestEventListeners::TestEventListeners() : repeater_(new internal::TestEventRepeater()), default_result_printer_(NULL), default_xml_generator_(NULL) { } TestEventListeners::~TestEventListeners() { delete repeater_; } // Returns the standard listener responsible for the default console // output. Can be removed from the listeners list to shut down default // console output. Note that removing this object from the listener list // with Release transfers its ownership to the user. void TestEventListeners::Append(TestEventListener* listener) { repeater_->Append(listener); } // Removes the given event listener from the list and returns it. It then // becomes the caller's responsibility to delete the listener. Returns // NULL if the listener is not found in the list. TestEventListener* TestEventListeners::Release(TestEventListener* listener) { if (listener == default_result_printer_) default_result_printer_ = NULL; else if (listener == default_xml_generator_) default_xml_generator_ = NULL; return repeater_->Release(listener); } // Returns repeater that broadcasts the TestEventListener events to all // subscribers. TestEventListener* TestEventListeners::repeater() { return repeater_; } // Sets the default_result_printer attribute to the provided listener. // The listener is also added to the listener list and previous // default_result_printer is removed from it and deleted. The listener can // also be NULL in which case it will not be added to the list. Does // nothing if the previous and the current listener objects are the same. void TestEventListeners::SetDefaultResultPrinter(TestEventListener* listener) { if (default_result_printer_ != listener) { // It is an error to pass this method a listener that is already in the // list. delete Release(default_result_printer_); default_result_printer_ = listener; if (listener != NULL) Append(listener); } } // Sets the default_xml_generator attribute to the provided listener. The // listener is also added to the listener list and previous // default_xml_generator is removed from it and deleted. The listener can // also be NULL in which case it will not be added to the list. Does // nothing if the previous and the current listener objects are the same. void TestEventListeners::SetDefaultXmlGenerator(TestEventListener* listener) { if (default_xml_generator_ != listener) { // It is an error to pass this method a listener that is already in the // list. delete Release(default_xml_generator_); default_xml_generator_ = listener; if (listener != NULL) Append(listener); } } // Controls whether events will be forwarded by the repeater to the // listeners in the list. bool TestEventListeners::EventForwardingEnabled() const { return repeater_->forwarding_enabled(); } void TestEventListeners::SuppressEventForwarding() { repeater_->set_forwarding_enabled(false); } // class UnitTest // Gets the singleton UnitTest object. The first time this method is // called, a UnitTest object is constructed and returned. Consecutive // calls will return the same object. // // We don't protect this under mutex_ as a user is not supposed to // call this before main() starts, from which point on the return // value will never change. UnitTest* UnitTest::GetInstance() { // When compiled with MSVC 7.1 in optimized mode, destroying the // UnitTest object upon exiting the program messes up the exit code, // causing successful tests to appear failed. We have to use a // different implementation in this case to bypass the compiler bug. // This implementation makes the compiler happy, at the cost of // leaking the UnitTest object. // CodeGear C++Builder insists on a public destructor for the // default implementation. Use this implementation to keep good OO // design with private destructor. #if (_MSC_VER == 1310 && !defined(_DEBUG)) || defined(__BORLANDC__) static UnitTest* const instance = new UnitTest; return instance; #else static UnitTest instance; return &instance; #endif // (_MSC_VER == 1310 && !defined(_DEBUG)) || defined(__BORLANDC__) } // Gets the number of successful test cases. int UnitTest::successful_test_case_count() const { return impl()->successful_test_case_count(); } // Gets the number of failed test cases. int UnitTest::failed_test_case_count() const { return impl()->failed_test_case_count(); } // Gets the number of all test cases. int UnitTest::total_test_case_count() const { return impl()->total_test_case_count(); } // Gets the number of all test cases that contain at least one test // that should run. int UnitTest::test_case_to_run_count() const { return impl()->test_case_to_run_count(); } // Gets the number of successful tests. int UnitTest::successful_test_count() const { return impl()->successful_test_count(); } // Gets the number of failed tests. int UnitTest::failed_test_count() const { return impl()->failed_test_count(); } // Gets the number of disabled tests that will be reported in the XML report. int UnitTest::reportable_disabled_test_count() const { return impl()->reportable_disabled_test_count(); } // Gets the number of disabled tests. int UnitTest::disabled_test_count() const { return impl()->disabled_test_count(); } // Gets the number of tests to be printed in the XML report. int UnitTest::reportable_test_count() const { return impl()->reportable_test_count(); } // Gets the number of all tests. int UnitTest::total_test_count() const { return impl()->total_test_count(); } // Gets the number of tests that should run. int UnitTest::test_to_run_count() const { return impl()->test_to_run_count(); } // Gets the time of the test program start, in ms from the start of the // UNIX epoch. internal::TimeInMillis UnitTest::start_timestamp() const { return impl()->start_timestamp(); } // Gets the elapsed time, in milliseconds. internal::TimeInMillis UnitTest::elapsed_time() const { return impl()->elapsed_time(); } // Returns true iff the unit test passed (i.e. all test cases passed). bool UnitTest::Passed() const { return impl()->Passed(); } // Returns true iff the unit test failed (i.e. some test case failed // or something outside of all tests failed). bool UnitTest::Failed() const { return impl()->Failed(); } // Gets the i-th test case among all the test cases. i can range from 0 to // total_test_case_count() - 1. If i is not in that range, returns NULL. const TestCase* UnitTest::GetTestCase(int i) const { return impl()->GetTestCase(i); } // Returns the TestResult containing information on test failures and // properties logged outside of individual test cases. const TestResult& UnitTest::ad_hoc_test_result() const { return *impl()->ad_hoc_test_result(); } // Gets the i-th test case among all the test cases. i can range from 0 to // total_test_case_count() - 1. If i is not in that range, returns NULL. TestCase* UnitTest::GetMutableTestCase(int i) { return impl()->GetMutableTestCase(i); } // Returns the list of event listeners that can be used to track events // inside Google Test. TestEventListeners& UnitTest::listeners() { return *impl()->listeners(); } // Registers and returns a global test environment. When a test // program is run, all global test environments will be set-up in the // order they were registered. After all tests in the program have // finished, all global test environments will be torn-down in the // *reverse* order they were registered. // // The UnitTest object takes ownership of the given environment. // // We don't protect this under mutex_, as we only support calling it // from the main thread. Environment* UnitTest::AddEnvironment(Environment* env) { if (env == NULL) { return NULL; } impl_->environments().push_back(env); return env; } // Adds a TestPartResult to the current TestResult object. All Google Test // assertion macros (e.g. ASSERT_TRUE, EXPECT_EQ, etc) eventually call // this to report their results. The user code should use the // assertion macros instead of calling this directly. void UnitTest::AddTestPartResult( TestPartResult::Type result_type, const char* file_name, int line_number, const std::string& message, const std::string& os_stack_trace) GTEST_LOCK_EXCLUDED_(mutex_) { Message msg; msg << message; internal::MutexLock lock(&mutex_); if (impl_->gtest_trace_stack().size() > 0) { msg << "\n" << GTEST_NAME_ << " trace:"; for (int i = static_cast(impl_->gtest_trace_stack().size()); i > 0; --i) { const internal::TraceInfo& trace = impl_->gtest_trace_stack()[i - 1]; msg << "\n" << internal::FormatFileLocation(trace.file, trace.line) << " " << trace.message; } } if (os_stack_trace.c_str() != NULL && !os_stack_trace.empty()) { msg << internal::kStackTraceMarker << os_stack_trace; } const TestPartResult result = TestPartResult(result_type, file_name, line_number, msg.GetString().c_str()); impl_->GetTestPartResultReporterForCurrentThread()-> ReportTestPartResult(result); if (result_type != TestPartResult::kSuccess) { // gtest_break_on_failure takes precedence over // gtest_throw_on_failure. This allows a user to set the latter // in the code (perhaps in order to use Google Test assertions // with another testing framework) and specify the former on the // command line for debugging. if (GTEST_FLAG(break_on_failure)) { #if GTEST_OS_WINDOWS && !GTEST_OS_WINDOWS_PHONE && !GTEST_OS_WINDOWS_RT // Using DebugBreak on Windows allows gtest to still break into a debugger // when a failure happens and both the --gtest_break_on_failure and // the --gtest_catch_exceptions flags are specified. DebugBreak(); #else // Dereference NULL through a volatile pointer to prevent the compiler // from removing. We use this rather than abort() or __builtin_trap() for // portability: Symbian doesn't implement abort() well, and some debuggers // don't correctly trap abort(). *static_cast(NULL) = 1; #endif // GTEST_OS_WINDOWS } else if (GTEST_FLAG(throw_on_failure)) { #if GTEST_HAS_EXCEPTIONS throw internal::GoogleTestFailureException(result); #else // We cannot call abort() as it generates a pop-up in debug mode // that cannot be suppressed in VC 7.1 or below. exit(1); #endif } } } // Adds a TestProperty to the current TestResult object when invoked from // inside a test, to current TestCase's ad_hoc_test_result_ when invoked // from SetUpTestCase or TearDownTestCase, or to the global property set // when invoked elsewhere. If the result already contains a property with // the same key, the value will be updated. void UnitTest::RecordProperty(const std::string& key, const std::string& value) { impl_->RecordProperty(TestProperty(key, value)); } // Runs all tests in this UnitTest object and prints the result. // Returns 0 if successful, or 1 otherwise. // // We don't protect this under mutex_, as we only support calling it // from the main thread. int UnitTest::Run() { const bool in_death_test_child_process = internal::GTEST_FLAG(internal_run_death_test).length() > 0; // Google Test implements this protocol for catching that a test // program exits before returning control to Google Test: // // 1. Upon start, Google Test creates a file whose absolute path // is specified by the environment variable // TEST_PREMATURE_EXIT_FILE. // 2. When Google Test has finished its work, it deletes the file. // // This allows a test runner to set TEST_PREMATURE_EXIT_FILE before // running a Google-Test-based test program and check the existence // of the file at the end of the test execution to see if it has // exited prematurely. // If we are in the child process of a death test, don't // create/delete the premature exit file, as doing so is unnecessary // and will confuse the parent process. Otherwise, create/delete // the file upon entering/leaving this function. If the program // somehow exits before this function has a chance to return, the // premature-exit file will be left undeleted, causing a test runner // that understands the premature-exit-file protocol to report the // test as having failed. const internal::ScopedPrematureExitFile premature_exit_file( in_death_test_child_process ? NULL : internal::posix::GetEnv("TEST_PREMATURE_EXIT_FILE")); // Captures the value of GTEST_FLAG(catch_exceptions). This value will be // used for the duration of the program. impl()->set_catch_exceptions(GTEST_FLAG(catch_exceptions)); #if GTEST_HAS_SEH // Either the user wants Google Test to catch exceptions thrown by the // tests or this is executing in the context of death test child // process. In either case the user does not want to see pop-up dialogs // about crashes - they are expected. if (impl()->catch_exceptions() || in_death_test_child_process) { # if !GTEST_OS_WINDOWS_MOBILE && !GTEST_OS_WINDOWS_PHONE && !GTEST_OS_WINDOWS_RT // SetErrorMode doesn't exist on CE. SetErrorMode(SEM_FAILCRITICALERRORS | SEM_NOALIGNMENTFAULTEXCEPT | SEM_NOGPFAULTERRORBOX | SEM_NOOPENFILEERRORBOX); # endif // !GTEST_OS_WINDOWS_MOBILE # if (defined(_MSC_VER) || GTEST_OS_WINDOWS_MINGW) && !GTEST_OS_WINDOWS_MOBILE // Death test children can be terminated with _abort(). On Windows, // _abort() can show a dialog with a warning message. This forces the // abort message to go to stderr instead. _set_error_mode(_OUT_TO_STDERR); # endif # if _MSC_VER >= 1400 && !GTEST_OS_WINDOWS_MOBILE // In the debug version, Visual Studio pops up a separate dialog // offering a choice to debug the aborted program. We need to suppress // this dialog or it will pop up for every EXPECT/ASSERT_DEATH statement // executed. Google Test will notify the user of any unexpected // failure via stderr. // // VC++ doesn't define _set_abort_behavior() prior to the version 8.0. // Users of prior VC versions shall suffer the agony and pain of // clicking through the countless debug dialogs. // TODO(vladl@google.com): find a way to suppress the abort dialog() in the // debug mode when compiled with VC 7.1 or lower. if (!GTEST_FLAG(break_on_failure)) _set_abort_behavior( 0x0, // Clear the following flags: _WRITE_ABORT_MSG | _CALL_REPORTFAULT); // pop-up window, core dump. # endif } #endif // GTEST_HAS_SEH return internal::HandleExceptionsInMethodIfSupported( impl(), &internal::UnitTestImpl::RunAllTests, "auxiliary test code (environments or event listeners)") ? 0 : 1; } // Returns the working directory when the first TEST() or TEST_F() was // executed. const char* UnitTest::original_working_dir() const { return impl_->original_working_dir_.c_str(); } // Returns the TestCase object for the test that's currently running, // or NULL if no test is running. const TestCase* UnitTest::current_test_case() const GTEST_LOCK_EXCLUDED_(mutex_) { internal::MutexLock lock(&mutex_); return impl_->current_test_case(); } // Returns the TestInfo object for the test that's currently running, // or NULL if no test is running. const TestInfo* UnitTest::current_test_info() const GTEST_LOCK_EXCLUDED_(mutex_) { internal::MutexLock lock(&mutex_); return impl_->current_test_info(); } // Returns the random seed used at the start of the current test run. int UnitTest::random_seed() const { return impl_->random_seed(); } #if GTEST_HAS_PARAM_TEST // Returns ParameterizedTestCaseRegistry object used to keep track of // value-parameterized tests and instantiate and register them. internal::ParameterizedTestCaseRegistry& UnitTest::parameterized_test_registry() GTEST_LOCK_EXCLUDED_(mutex_) { return impl_->parameterized_test_registry(); } #endif // GTEST_HAS_PARAM_TEST // Creates an empty UnitTest. UnitTest::UnitTest() { impl_ = new internal::UnitTestImpl(this); } // Destructor of UnitTest. UnitTest::~UnitTest() { delete impl_; } // Pushes a trace defined by SCOPED_TRACE() on to the per-thread // Google Test trace stack. void UnitTest::PushGTestTrace(const internal::TraceInfo& trace) GTEST_LOCK_EXCLUDED_(mutex_) { internal::MutexLock lock(&mutex_); impl_->gtest_trace_stack().push_back(trace); } // Pops a trace from the per-thread Google Test trace stack. void UnitTest::PopGTestTrace() GTEST_LOCK_EXCLUDED_(mutex_) { internal::MutexLock lock(&mutex_); impl_->gtest_trace_stack().pop_back(); } namespace internal { UnitTestImpl::UnitTestImpl(UnitTest* parent) : parent_(parent), GTEST_DISABLE_MSC_WARNINGS_PUSH_(4355 /* using this in initializer */) default_global_test_part_result_reporter_(this), default_per_thread_test_part_result_reporter_(this), GTEST_DISABLE_MSC_WARNINGS_POP_() global_test_part_result_repoter_( &default_global_test_part_result_reporter_), per_thread_test_part_result_reporter_( &default_per_thread_test_part_result_reporter_), #if GTEST_HAS_PARAM_TEST parameterized_test_registry_(), parameterized_tests_registered_(false), #endif // GTEST_HAS_PARAM_TEST last_death_test_case_(-1), current_test_case_(NULL), current_test_info_(NULL), ad_hoc_test_result_(), os_stack_trace_getter_(NULL), post_flag_parse_init_performed_(false), random_seed_(0), // Will be overridden by the flag before first use. random_(0), // Will be reseeded before first use. start_timestamp_(0), elapsed_time_(0), #if GTEST_HAS_DEATH_TEST death_test_factory_(new DefaultDeathTestFactory), #endif // Will be overridden by the flag before first use. catch_exceptions_(false) { listeners()->SetDefaultResultPrinter(new PrettyUnitTestResultPrinter); } UnitTestImpl::~UnitTestImpl() { // Deletes every TestCase. ForEach(test_cases_, internal::Delete); // Deletes every Environment. ForEach(environments_, internal::Delete); delete os_stack_trace_getter_; } // Adds a TestProperty to the current TestResult object when invoked in a // context of a test, to current test case's ad_hoc_test_result when invoke // from SetUpTestCase/TearDownTestCase, or to the global property set // otherwise. If the result already contains a property with the same key, // the value will be updated. void UnitTestImpl::RecordProperty(const TestProperty& test_property) { std::string xml_element; TestResult* test_result; // TestResult appropriate for property recording. if (current_test_info_ != NULL) { xml_element = "testcase"; test_result = &(current_test_info_->result_); } else if (current_test_case_ != NULL) { xml_element = "testsuite"; test_result = &(current_test_case_->ad_hoc_test_result_); } else { xml_element = "testsuites"; test_result = &ad_hoc_test_result_; } test_result->RecordProperty(xml_element, test_property); } #if GTEST_HAS_DEATH_TEST // Disables event forwarding if the control is currently in a death test // subprocess. Must not be called before InitGoogleTest. void UnitTestImpl::SuppressTestEventsIfInSubprocess() { if (internal_run_death_test_flag_.get() != NULL) listeners()->SuppressEventForwarding(); } #endif // GTEST_HAS_DEATH_TEST // Initializes event listeners performing XML output as specified by // UnitTestOptions. Must not be called before InitGoogleTest. void UnitTestImpl::ConfigureXmlOutput() { const std::string& output_format = UnitTestOptions::GetOutputFormat(); if (output_format == "xml") { listeners()->SetDefaultXmlGenerator(new XmlUnitTestResultPrinter( UnitTestOptions::GetAbsolutePathToOutputFile().c_str())); } else if (output_format != "") { printf("WARNING: unrecognized output format \"%s\" ignored.\n", output_format.c_str()); fflush(stdout); } } #if GTEST_CAN_STREAM_RESULTS_ // Initializes event listeners for streaming test results in string form. // Must not be called before InitGoogleTest. void UnitTestImpl::ConfigureStreamingOutput() { const std::string& target = GTEST_FLAG(stream_result_to); if (!target.empty()) { const size_t pos = target.find(':'); if (pos != std::string::npos) { listeners()->Append(new StreamingListener(target.substr(0, pos), target.substr(pos+1))); } else { printf("WARNING: unrecognized streaming target \"%s\" ignored.\n", target.c_str()); fflush(stdout); } } } #endif // GTEST_CAN_STREAM_RESULTS_ // Performs initialization dependent upon flag values obtained in // ParseGoogleTestFlagsOnly. Is called from InitGoogleTest after the call to // ParseGoogleTestFlagsOnly. In case a user neglects to call InitGoogleTest // this function is also called from RunAllTests. Since this function can be // called more than once, it has to be idempotent. void UnitTestImpl::PostFlagParsingInit() { // Ensures that this function does not execute more than once. if (!post_flag_parse_init_performed_) { post_flag_parse_init_performed_ = true; #if GTEST_HAS_DEATH_TEST InitDeathTestSubprocessControlInfo(); SuppressTestEventsIfInSubprocess(); #endif // GTEST_HAS_DEATH_TEST // Registers parameterized tests. This makes parameterized tests // available to the UnitTest reflection API without running // RUN_ALL_TESTS. RegisterParameterizedTests(); // Configures listeners for XML output. This makes it possible for users // to shut down the default XML output before invoking RUN_ALL_TESTS. ConfigureXmlOutput(); #if GTEST_CAN_STREAM_RESULTS_ // Configures listeners for streaming test results to the specified server. ConfigureStreamingOutput(); #endif // GTEST_CAN_STREAM_RESULTS_ } } // A predicate that checks the name of a TestCase against a known // value. // // This is used for implementation of the UnitTest class only. We put // it in the anonymous namespace to prevent polluting the outer // namespace. // // TestCaseNameIs is copyable. class TestCaseNameIs { public: // Constructor. explicit TestCaseNameIs(const std::string& name) : name_(name) {} // Returns true iff the name of test_case matches name_. bool operator()(const TestCase* test_case) const { return test_case != NULL && strcmp(test_case->name(), name_.c_str()) == 0; } private: std::string name_; }; // Finds and returns a TestCase with the given name. If one doesn't // exist, creates one and returns it. It's the CALLER'S // RESPONSIBILITY to ensure that this function is only called WHEN THE // TESTS ARE NOT SHUFFLED. // // Arguments: // // test_case_name: name of the test case // type_param: the name of the test case's type parameter, or NULL if // this is not a typed or a type-parameterized test case. // set_up_tc: pointer to the function that sets up the test case // tear_down_tc: pointer to the function that tears down the test case TestCase* UnitTestImpl::GetTestCase(const char* test_case_name, const char* type_param, Test::SetUpTestCaseFunc set_up_tc, Test::TearDownTestCaseFunc tear_down_tc) { // Can we find a TestCase with the given name? const std::vector::const_iterator test_case = std::find_if(test_cases_.begin(), test_cases_.end(), TestCaseNameIs(test_case_name)); if (test_case != test_cases_.end()) return *test_case; // No. Let's create one. TestCase* const new_test_case = new TestCase(test_case_name, type_param, set_up_tc, tear_down_tc); // Is this a death test case? if (internal::UnitTestOptions::MatchesFilter(test_case_name, kDeathTestCaseFilter)) { // Yes. Inserts the test case after the last death test case // defined so far. This only works when the test cases haven't // been shuffled. Otherwise we may end up running a death test // after a non-death test. ++last_death_test_case_; test_cases_.insert(test_cases_.begin() + last_death_test_case_, new_test_case); } else { // No. Appends to the end of the list. test_cases_.push_back(new_test_case); } test_case_indices_.push_back(static_cast(test_case_indices_.size())); return new_test_case; } // Helpers for setting up / tearing down the given environment. They // are for use in the ForEach() function. static void SetUpEnvironment(Environment* env) { env->SetUp(); } static void TearDownEnvironment(Environment* env) { env->TearDown(); } // Runs all tests in this UnitTest object, prints the result, and // returns true if all tests are successful. If any exception is // thrown during a test, the test is considered to be failed, but the // rest of the tests will still be run. // // When parameterized tests are enabled, it expands and registers // parameterized tests first in RegisterParameterizedTests(). // All other functions called from RunAllTests() may safely assume that // parameterized tests are ready to be counted and run. bool UnitTestImpl::RunAllTests() { // Makes sure InitGoogleTest() was called. if (!GTestIsInitialized()) { printf("%s", "\nThis test program did NOT call ::testing::InitGoogleTest " "before calling RUN_ALL_TESTS(). Please fix it.\n"); return false; } // Do not run any test if the --help flag was specified. if (g_help_flag) return true; // Repeats the call to the post-flag parsing initialization in case the // user didn't call InitGoogleTest. PostFlagParsingInit(); // Even if sharding is not on, test runners may want to use the // GTEST_SHARD_STATUS_FILE to query whether the test supports the sharding // protocol. internal::WriteToShardStatusFileIfNeeded(); // True iff we are in a subprocess for running a thread-safe-style // death test. bool in_subprocess_for_death_test = false; #if GTEST_HAS_DEATH_TEST in_subprocess_for_death_test = (internal_run_death_test_flag_.get() != NULL); #endif // GTEST_HAS_DEATH_TEST const bool should_shard = ShouldShard(kTestTotalShards, kTestShardIndex, in_subprocess_for_death_test); // Compares the full test names with the filter to decide which // tests to run. const bool has_tests_to_run = FilterTests(should_shard ? HONOR_SHARDING_PROTOCOL : IGNORE_SHARDING_PROTOCOL) > 0; // Lists the tests and exits if the --gtest_list_tests flag was specified. if (GTEST_FLAG(list_tests)) { // This must be called *after* FilterTests() has been called. ListTestsMatchingFilter(); return true; } random_seed_ = GTEST_FLAG(shuffle) ? GetRandomSeedFromFlag(GTEST_FLAG(random_seed)) : 0; // True iff at least one test has failed. bool failed = false; TestEventListener* repeater = listeners()->repeater(); start_timestamp_ = GetTimeInMillis(); repeater->OnTestProgramStart(*parent_); // How many times to repeat the tests? We don't want to repeat them // when we are inside the subprocess of a death test. const int repeat = in_subprocess_for_death_test ? 1 : GTEST_FLAG(repeat); // Repeats forever if the repeat count is negative. const bool forever = repeat < 0; for (int i = 0; forever || i != repeat; i++) { // We want to preserve failures generated by ad-hoc test // assertions executed before RUN_ALL_TESTS(). ClearNonAdHocTestResult(); const TimeInMillis start = GetTimeInMillis(); // Shuffles test cases and tests if requested. if (has_tests_to_run && GTEST_FLAG(shuffle)) { random()->Reseed(random_seed_); // This should be done before calling OnTestIterationStart(), // such that a test event listener can see the actual test order // in the event. ShuffleTests(); } // Tells the unit test event listeners that the tests are about to start. repeater->OnTestIterationStart(*parent_, i); // Runs each test case if there is at least one test to run. if (has_tests_to_run) { // Sets up all environments beforehand. repeater->OnEnvironmentsSetUpStart(*parent_); ForEach(environments_, SetUpEnvironment); repeater->OnEnvironmentsSetUpEnd(*parent_); // Runs the tests only if there was no fatal failure during global // set-up. if (!Test::HasFatalFailure()) { for (int test_index = 0; test_index < total_test_case_count(); test_index++) { GetMutableTestCase(test_index)->Run(); } } // Tears down all environments in reverse order afterwards. repeater->OnEnvironmentsTearDownStart(*parent_); std::for_each(environments_.rbegin(), environments_.rend(), TearDownEnvironment); repeater->OnEnvironmentsTearDownEnd(*parent_); } elapsed_time_ = GetTimeInMillis() - start; // Tells the unit test event listener that the tests have just finished. repeater->OnTestIterationEnd(*parent_, i); // Gets the result and clears it. if (!Passed()) { failed = true; } // Restores the original test order after the iteration. This // allows the user to quickly repro a failure that happens in the // N-th iteration without repeating the first (N - 1) iterations. // This is not enclosed in "if (GTEST_FLAG(shuffle)) { ... }", in // case the user somehow changes the value of the flag somewhere // (it's always safe to unshuffle the tests). UnshuffleTests(); if (GTEST_FLAG(shuffle)) { // Picks a new random seed for each iteration. random_seed_ = GetNextRandomSeed(random_seed_); } } repeater->OnTestProgramEnd(*parent_); return !failed; } // Reads the GTEST_SHARD_STATUS_FILE environment variable, and creates the file // if the variable is present. If a file already exists at this location, this // function will write over it. If the variable is present, but the file cannot // be created, prints an error and exits. void WriteToShardStatusFileIfNeeded() { const char* const test_shard_file = posix::GetEnv(kTestShardStatusFile); if (test_shard_file != NULL) { FILE* const file = posix::FOpen(test_shard_file, "w"); if (file == NULL) { ColoredPrintf(COLOR_RED, "Could not write to the test shard status file \"%s\" " "specified by the %s environment variable.\n", test_shard_file, kTestShardStatusFile); fflush(stdout); exit(EXIT_FAILURE); } fclose(file); } } // Checks whether sharding is enabled by examining the relevant // environment variable values. If the variables are present, // but inconsistent (i.e., shard_index >= total_shards), prints // an error and exits. If in_subprocess_for_death_test, sharding is // disabled because it must only be applied to the original test // process. Otherwise, we could filter out death tests we intended to execute. bool ShouldShard(const char* total_shards_env, const char* shard_index_env, bool in_subprocess_for_death_test) { if (in_subprocess_for_death_test) { return false; } const Int32 total_shards = Int32FromEnvOrDie(total_shards_env, -1); const Int32 shard_index = Int32FromEnvOrDie(shard_index_env, -1); if (total_shards == -1 && shard_index == -1) { return false; } else if (total_shards == -1 && shard_index != -1) { const Message msg = Message() << "Invalid environment variables: you have " << kTestShardIndex << " = " << shard_index << ", but have left " << kTestTotalShards << " unset.\n"; ColoredPrintf(COLOR_RED, msg.GetString().c_str()); fflush(stdout); exit(EXIT_FAILURE); } else if (total_shards != -1 && shard_index == -1) { const Message msg = Message() << "Invalid environment variables: you have " << kTestTotalShards << " = " << total_shards << ", but have left " << kTestShardIndex << " unset.\n"; ColoredPrintf(COLOR_RED, msg.GetString().c_str()); fflush(stdout); exit(EXIT_FAILURE); } else if (shard_index < 0 || shard_index >= total_shards) { const Message msg = Message() << "Invalid environment variables: we require 0 <= " << kTestShardIndex << " < " << kTestTotalShards << ", but you have " << kTestShardIndex << "=" << shard_index << ", " << kTestTotalShards << "=" << total_shards << ".\n"; ColoredPrintf(COLOR_RED, msg.GetString().c_str()); fflush(stdout); exit(EXIT_FAILURE); } return total_shards > 1; } // Parses the environment variable var as an Int32. If it is unset, // returns default_val. If it is not an Int32, prints an error // and aborts. Int32 Int32FromEnvOrDie(const char* var, Int32 default_val) { const char* str_val = posix::GetEnv(var); if (str_val == NULL) { return default_val; } Int32 result; if (!ParseInt32(Message() << "The value of environment variable " << var, str_val, &result)) { exit(EXIT_FAILURE); } return result; } // Given the total number of shards, the shard index, and the test id, // returns true iff the test should be run on this shard. The test id is // some arbitrary but unique non-negative integer assigned to each test // method. Assumes that 0 <= shard_index < total_shards. bool ShouldRunTestOnShard(int total_shards, int shard_index, int test_id) { return (test_id % total_shards) == shard_index; } // Compares the name of each test with the user-specified filter to // decide whether the test should be run, then records the result in // each TestCase and TestInfo object. // If shard_tests == true, further filters tests based on sharding // variables in the environment - see // http://code.google.com/p/googletest/wiki/GoogleTestAdvancedGuide. // Returns the number of tests that should run. int UnitTestImpl::FilterTests(ReactionToSharding shard_tests) { const Int32 total_shards = shard_tests == HONOR_SHARDING_PROTOCOL ? Int32FromEnvOrDie(kTestTotalShards, -1) : -1; const Int32 shard_index = shard_tests == HONOR_SHARDING_PROTOCOL ? Int32FromEnvOrDie(kTestShardIndex, -1) : -1; // num_runnable_tests are the number of tests that will // run across all shards (i.e., match filter and are not disabled). // num_selected_tests are the number of tests to be run on // this shard. int num_runnable_tests = 0; int num_selected_tests = 0; for (size_t i = 0; i < test_cases_.size(); i++) { TestCase* const test_case = test_cases_[i]; const std::string &test_case_name = test_case->name(); test_case->set_should_run(false); for (size_t j = 0; j < test_case->test_info_list().size(); j++) { TestInfo* const test_info = test_case->test_info_list()[j]; const std::string test_name(test_info->name()); // A test is disabled if test case name or test name matches // kDisableTestFilter. const bool is_disabled = internal::UnitTestOptions::MatchesFilter(test_case_name, kDisableTestFilter) || internal::UnitTestOptions::MatchesFilter(test_name, kDisableTestFilter); test_info->is_disabled_ = is_disabled; const bool matches_filter = internal::UnitTestOptions::FilterMatchesTest(test_case_name, test_name); test_info->matches_filter_ = matches_filter; const bool is_runnable = (GTEST_FLAG(also_run_disabled_tests) || !is_disabled) && matches_filter; const bool is_selected = is_runnable && (shard_tests == IGNORE_SHARDING_PROTOCOL || ShouldRunTestOnShard(total_shards, shard_index, num_runnable_tests)); num_runnable_tests += is_runnable; num_selected_tests += is_selected; test_info->should_run_ = is_selected; test_case->set_should_run(test_case->should_run() || is_selected); } } return num_selected_tests; } // Prints the given C-string on a single line by replacing all '\n' // characters with string "\\n". If the output takes more than // max_length characters, only prints the first max_length characters // and "...". static void PrintOnOneLine(const char* str, int max_length) { if (str != NULL) { for (int i = 0; *str != '\0'; ++str) { if (i >= max_length) { printf("..."); break; } if (*str == '\n') { printf("\\n"); i += 2; } else { printf("%c", *str); ++i; } } } } // Prints the names of the tests matching the user-specified filter flag. void UnitTestImpl::ListTestsMatchingFilter() { // Print at most this many characters for each type/value parameter. const int kMaxParamLength = 250; for (size_t i = 0; i < test_cases_.size(); i++) { const TestCase* const test_case = test_cases_[i]; bool printed_test_case_name = false; for (size_t j = 0; j < test_case->test_info_list().size(); j++) { const TestInfo* const test_info = test_case->test_info_list()[j]; if (test_info->matches_filter_) { if (!printed_test_case_name) { printed_test_case_name = true; printf("%s.", test_case->name()); if (test_case->type_param() != NULL) { printf(" # %s = ", kTypeParamLabel); // We print the type parameter on a single line to make // the output easy to parse by a program. PrintOnOneLine(test_case->type_param(), kMaxParamLength); } printf("\n"); } printf(" %s", test_info->name()); if (test_info->value_param() != NULL) { printf(" # %s = ", kValueParamLabel); // We print the value parameter on a single line to make the // output easy to parse by a program. PrintOnOneLine(test_info->value_param(), kMaxParamLength); } printf("\n"); } } } fflush(stdout); } // Sets the OS stack trace getter. // // Does nothing if the input and the current OS stack trace getter are // the same; otherwise, deletes the old getter and makes the input the // current getter. void UnitTestImpl::set_os_stack_trace_getter( OsStackTraceGetterInterface* getter) { if (os_stack_trace_getter_ != getter) { delete os_stack_trace_getter_; os_stack_trace_getter_ = getter; } } // Returns the current OS stack trace getter if it is not NULL; // otherwise, creates an OsStackTraceGetter, makes it the current // getter, and returns it. OsStackTraceGetterInterface* UnitTestImpl::os_stack_trace_getter() { if (os_stack_trace_getter_ == NULL) { os_stack_trace_getter_ = new OsStackTraceGetter; } return os_stack_trace_getter_; } // Returns the TestResult for the test that's currently running, or // the TestResult for the ad hoc test if no test is running. TestResult* UnitTestImpl::current_test_result() { return current_test_info_ ? &(current_test_info_->result_) : &ad_hoc_test_result_; } // Shuffles all test cases, and the tests within each test case, // making sure that death tests are still run first. void UnitTestImpl::ShuffleTests() { // Shuffles the death test cases. ShuffleRange(random(), 0, last_death_test_case_ + 1, &test_case_indices_); // Shuffles the non-death test cases. ShuffleRange(random(), last_death_test_case_ + 1, static_cast(test_cases_.size()), &test_case_indices_); // Shuffles the tests inside each test case. for (size_t i = 0; i < test_cases_.size(); i++) { test_cases_[i]->ShuffleTests(random()); } } // Restores the test cases and tests to their order before the first shuffle. void UnitTestImpl::UnshuffleTests() { for (size_t i = 0; i < test_cases_.size(); i++) { // Unshuffles the tests in each test case. test_cases_[i]->UnshuffleTests(); // Resets the index of each test case. test_case_indices_[i] = static_cast(i); } } // Returns the current OS stack trace as an std::string. // // The maximum number of stack frames to be included is specified by // the gtest_stack_trace_depth flag. The skip_count parameter // specifies the number of top frames to be skipped, which doesn't // count against the number of frames to be included. // // For example, if Foo() calls Bar(), which in turn calls // GetCurrentOsStackTraceExceptTop(..., 1), Foo() will be included in // the trace but Bar() and GetCurrentOsStackTraceExceptTop() won't. std::string GetCurrentOsStackTraceExceptTop(UnitTest* /*unit_test*/, int skip_count) { // We pass skip_count + 1 to skip this wrapper function in addition // to what the user really wants to skip. return GetUnitTestImpl()->CurrentOsStackTraceExceptTop(skip_count + 1); } // Used by the GTEST_SUPPRESS_UNREACHABLE_CODE_WARNING_BELOW_ macro to // suppress unreachable code warnings. namespace { class ClassUniqueToAlwaysTrue {}; } bool IsTrue(bool condition) { return condition; } bool AlwaysTrue() { #if GTEST_HAS_EXCEPTIONS // This condition is always false so AlwaysTrue() never actually throws, // but it makes the compiler think that it may throw. if (IsTrue(false)) throw ClassUniqueToAlwaysTrue(); #endif // GTEST_HAS_EXCEPTIONS return true; } // If *pstr starts with the given prefix, modifies *pstr to be right // past the prefix and returns true; otherwise leaves *pstr unchanged // and returns false. None of pstr, *pstr, and prefix can be NULL. bool SkipPrefix(const char* prefix, const char** pstr) { const size_t prefix_len = strlen(prefix); if (strncmp(*pstr, prefix, prefix_len) == 0) { *pstr += prefix_len; return true; } return false; } // Parses a string as a command line flag. The string should have // the format "--flag=value". When def_optional is true, the "=value" // part can be omitted. // // Returns the value of the flag, or NULL if the parsing failed. const char* ParseFlagValue(const char* str, const char* flag, bool def_optional) { // str and flag must not be NULL. if (str == NULL || flag == NULL) return NULL; // The flag must start with "--" followed by GTEST_FLAG_PREFIX_. const std::string flag_str = std::string("--") + GTEST_FLAG_PREFIX_ + flag; const size_t flag_len = flag_str.length(); if (strncmp(str, flag_str.c_str(), flag_len) != 0) return NULL; // Skips the flag name. const char* flag_end = str + flag_len; // When def_optional is true, it's OK to not have a "=value" part. if (def_optional && (flag_end[0] == '\0')) { return flag_end; } // If def_optional is true and there are more characters after the // flag name, or if def_optional is false, there must be a '=' after // the flag name. if (flag_end[0] != '=') return NULL; // Returns the string after "=". return flag_end + 1; } // Parses a string for a bool flag, in the form of either // "--flag=value" or "--flag". // // In the former case, the value is taken as true as long as it does // not start with '0', 'f', or 'F'. // // In the latter case, the value is taken as true. // // On success, stores the value of the flag in *value, and returns // true. On failure, returns false without changing *value. bool ParseBoolFlag(const char* str, const char* flag, bool* value) { // Gets the value of the flag as a string. const char* const value_str = ParseFlagValue(str, flag, true); // Aborts if the parsing failed. if (value_str == NULL) return false; // Converts the string value to a bool. *value = !(*value_str == '0' || *value_str == 'f' || *value_str == 'F'); return true; } // Parses a string for an Int32 flag, in the form of // "--flag=value". // // On success, stores the value of the flag in *value, and returns // true. On failure, returns false without changing *value. bool ParseInt32Flag(const char* str, const char* flag, Int32* value) { // Gets the value of the flag as a string. const char* const value_str = ParseFlagValue(str, flag, false); // Aborts if the parsing failed. if (value_str == NULL) return false; // Sets *value to the value of the flag. return ParseInt32(Message() << "The value of flag --" << flag, value_str, value); } // Parses a string for a string flag, in the form of // "--flag=value". // // On success, stores the value of the flag in *value, and returns // true. On failure, returns false without changing *value. bool ParseStringFlag(const char* str, const char* flag, std::string* value) { // Gets the value of the flag as a string. const char* const value_str = ParseFlagValue(str, flag, false); // Aborts if the parsing failed. if (value_str == NULL) return false; // Sets *value to the value of the flag. *value = value_str; return true; } // Determines whether a string has a prefix that Google Test uses for its // flags, i.e., starts with GTEST_FLAG_PREFIX_ or GTEST_FLAG_PREFIX_DASH_. // If Google Test detects that a command line flag has its prefix but is not // recognized, it will print its help message. Flags starting with // GTEST_INTERNAL_PREFIX_ followed by "internal_" are considered Google Test // internal flags and do not trigger the help message. static bool HasGoogleTestFlagPrefix(const char* str) { return (SkipPrefix("--", &str) || SkipPrefix("-", &str) || SkipPrefix("/", &str)) && !SkipPrefix(GTEST_FLAG_PREFIX_ "internal_", &str) && (SkipPrefix(GTEST_FLAG_PREFIX_, &str) || SkipPrefix(GTEST_FLAG_PREFIX_DASH_, &str)); } // Prints a string containing code-encoded text. The following escape // sequences can be used in the string to control the text color: // // @@ prints a single '@' character. // @R changes the color to red. // @G changes the color to green. // @Y changes the color to yellow. // @D changes to the default terminal text color. // // TODO(wan@google.com): Write tests for this once we add stdout // capturing to Google Test. static void PrintColorEncoded(const char* str) { GTestColor color = COLOR_DEFAULT; // The current color. // Conceptually, we split the string into segments divided by escape // sequences. Then we print one segment at a time. At the end of // each iteration, the str pointer advances to the beginning of the // next segment. for (;;) { const char* p = strchr(str, '@'); if (p == NULL) { ColoredPrintf(color, "%s", str); return; } ColoredPrintf(color, "%s", std::string(str, p).c_str()); const char ch = p[1]; str = p + 2; if (ch == '@') { ColoredPrintf(color, "@"); } else if (ch == 'D') { color = COLOR_DEFAULT; } else if (ch == 'R') { color = COLOR_RED; } else if (ch == 'G') { color = COLOR_GREEN; } else if (ch == 'Y') { color = COLOR_YELLOW; } else { --str; } } } static const char kColorEncodedHelpMessage[] = "This program contains tests written using " GTEST_NAME_ ". You can use the\n" "following command line flags to control its behavior:\n" "\n" "Test Selection:\n" " @G--" GTEST_FLAG_PREFIX_ "list_tests@D\n" " List the names of all tests instead of running them. The name of\n" " TEST(Foo, Bar) is \"Foo.Bar\".\n" " @G--" GTEST_FLAG_PREFIX_ "filter=@YPOSTIVE_PATTERNS" "[@G-@YNEGATIVE_PATTERNS]@D\n" " Run only the tests whose name matches one of the positive patterns but\n" " none of the negative patterns. '?' matches any single character; '*'\n" " matches any substring; ':' separates two patterns.\n" " @G--" GTEST_FLAG_PREFIX_ "also_run_disabled_tests@D\n" " Run all disabled tests too.\n" "\n" "Test Execution:\n" " @G--" GTEST_FLAG_PREFIX_ "repeat=@Y[COUNT]@D\n" " Run the tests repeatedly; use a negative count to repeat forever.\n" " @G--" GTEST_FLAG_PREFIX_ "shuffle@D\n" " Randomize tests' orders on every iteration.\n" " @G--" GTEST_FLAG_PREFIX_ "random_seed=@Y[NUMBER]@D\n" " Random number seed to use for shuffling test orders (between 1 and\n" " 99999, or 0 to use a seed based on the current time).\n" "\n" "Test Output:\n" " @G--" GTEST_FLAG_PREFIX_ "color=@Y(@Gyes@Y|@Gno@Y|@Gauto@Y)@D\n" " Enable/disable colored output. The default is @Gauto@D.\n" " -@G-" GTEST_FLAG_PREFIX_ "print_time=0@D\n" " Don't print the elapsed time of each test.\n" " @G--" GTEST_FLAG_PREFIX_ "output=xml@Y[@G:@YDIRECTORY_PATH@G" GTEST_PATH_SEP_ "@Y|@G:@YFILE_PATH]@D\n" " Generate an XML report in the given directory or with the given file\n" " name. @YFILE_PATH@D defaults to @Gtest_details.xml@D.\n" #if GTEST_CAN_STREAM_RESULTS_ " @G--" GTEST_FLAG_PREFIX_ "stream_result_to=@YHOST@G:@YPORT@D\n" " Stream test results to the given server.\n" #endif // GTEST_CAN_STREAM_RESULTS_ "\n" "Assertion Behavior:\n" #if GTEST_HAS_DEATH_TEST && !GTEST_OS_WINDOWS " @G--" GTEST_FLAG_PREFIX_ "death_test_style=@Y(@Gfast@Y|@Gthreadsafe@Y)@D\n" " Set the default death test style.\n" #endif // GTEST_HAS_DEATH_TEST && !GTEST_OS_WINDOWS " @G--" GTEST_FLAG_PREFIX_ "break_on_failure@D\n" " Turn assertion failures into debugger break-points.\n" " @G--" GTEST_FLAG_PREFIX_ "throw_on_failure@D\n" " Turn assertion failures into C++ exceptions.\n" " @G--" GTEST_FLAG_PREFIX_ "catch_exceptions=0@D\n" " Do not report exceptions as test failures. Instead, allow them\n" " to crash the program or throw a pop-up (on Windows).\n" "\n" "Except for @G--" GTEST_FLAG_PREFIX_ "list_tests@D, you can alternatively set " "the corresponding\n" "environment variable of a flag (all letters in upper-case). For example, to\n" "disable colored text output, you can either specify @G--" GTEST_FLAG_PREFIX_ "color=no@D or set\n" "the @G" GTEST_FLAG_PREFIX_UPPER_ "COLOR@D environment variable to @Gno@D.\n" "\n" "For more information, please read the " GTEST_NAME_ " documentation at\n" "@G" GTEST_PROJECT_URL_ "@D. If you find a bug in " GTEST_NAME_ "\n" "(not one in your own code or tests), please report it to\n" "@G<" GTEST_DEV_EMAIL_ ">@D.\n"; // Parses the command line for Google Test flags, without initializing // other parts of Google Test. The type parameter CharType can be // instantiated to either char or wchar_t. template void ParseGoogleTestFlagsOnlyImpl(int* argc, CharType** argv) { for (int i = 1; i < *argc; i++) { const std::string arg_string = StreamableToString(argv[i]); const char* const arg = arg_string.c_str(); using internal::ParseBoolFlag; using internal::ParseInt32Flag; using internal::ParseStringFlag; // Do we see a Google Test flag? if (ParseBoolFlag(arg, kAlsoRunDisabledTestsFlag, >EST_FLAG(also_run_disabled_tests)) || ParseBoolFlag(arg, kBreakOnFailureFlag, >EST_FLAG(break_on_failure)) || ParseBoolFlag(arg, kCatchExceptionsFlag, >EST_FLAG(catch_exceptions)) || ParseStringFlag(arg, kColorFlag, >EST_FLAG(color)) || ParseStringFlag(arg, kDeathTestStyleFlag, >EST_FLAG(death_test_style)) || ParseBoolFlag(arg, kDeathTestUseFork, >EST_FLAG(death_test_use_fork)) || ParseStringFlag(arg, kFilterFlag, >EST_FLAG(filter)) || ParseStringFlag(arg, kInternalRunDeathTestFlag, >EST_FLAG(internal_run_death_test)) || ParseBoolFlag(arg, kListTestsFlag, >EST_FLAG(list_tests)) || ParseStringFlag(arg, kOutputFlag, >EST_FLAG(output)) || ParseBoolFlag(arg, kPrintTimeFlag, >EST_FLAG(print_time)) || ParseInt32Flag(arg, kRandomSeedFlag, >EST_FLAG(random_seed)) || ParseInt32Flag(arg, kRepeatFlag, >EST_FLAG(repeat)) || ParseBoolFlag(arg, kShuffleFlag, >EST_FLAG(shuffle)) || ParseInt32Flag(arg, kStackTraceDepthFlag, >EST_FLAG(stack_trace_depth)) || ParseStringFlag(arg, kStreamResultToFlag, >EST_FLAG(stream_result_to)) || ParseBoolFlag(arg, kThrowOnFailureFlag, >EST_FLAG(throw_on_failure)) ) { // Yes. Shift the remainder of the argv list left by one. Note // that argv has (*argc + 1) elements, the last one always being // NULL. The following loop moves the trailing NULL element as // well. for (int j = i; j != *argc; j++) { argv[j] = argv[j + 1]; } // Decrements the argument count. (*argc)--; // We also need to decrement the iterator as we just removed // an element. i--; } else if (arg_string == "--help" || arg_string == "-h" || arg_string == "-?" || arg_string == "/?" || HasGoogleTestFlagPrefix(arg)) { // Both help flag and unrecognized Google Test flags (excluding // internal ones) trigger help display. g_help_flag = true; } } if (g_help_flag) { // We print the help here instead of in RUN_ALL_TESTS(), as the // latter may not be called at all if the user is using Google // Test with another testing framework. PrintColorEncoded(kColorEncodedHelpMessage); } } // Parses the command line for Google Test flags, without initializing // other parts of Google Test. void ParseGoogleTestFlagsOnly(int* argc, char** argv) { ParseGoogleTestFlagsOnlyImpl(argc, argv); } void ParseGoogleTestFlagsOnly(int* argc, wchar_t** argv) { ParseGoogleTestFlagsOnlyImpl(argc, argv); } // The internal implementation of InitGoogleTest(). // // The type parameter CharType can be instantiated to either char or // wchar_t. template void InitGoogleTestImpl(int* argc, CharType** argv) { g_init_gtest_count++; // We don't want to run the initialization code twice. if (g_init_gtest_count != 1) return; if (*argc <= 0) return; internal::g_executable_path = internal::StreamableToString(argv[0]); #if GTEST_HAS_DEATH_TEST g_argvs.clear(); for (int i = 0; i != *argc; i++) { g_argvs.push_back(StreamableToString(argv[i])); } #endif // GTEST_HAS_DEATH_TEST ParseGoogleTestFlagsOnly(argc, argv); GetUnitTestImpl()->PostFlagParsingInit(); } } // namespace internal // Initializes Google Test. This must be called before calling // RUN_ALL_TESTS(). In particular, it parses a command line for the // flags that Google Test recognizes. Whenever a Google Test flag is // seen, it is removed from argv, and *argc is decremented. // // No value is returned. Instead, the Google Test flag variables are // updated. // // Calling the function for the second time has no user-visible effect. void InitGoogleTest(int* argc, char** argv) { internal::InitGoogleTestImpl(argc, argv); } // This overloaded version can be used in Windows programs compiled in // UNICODE mode. void InitGoogleTest(int* argc, wchar_t** argv) { internal::InitGoogleTestImpl(argc, argv); } } // namespace testing // Copyright 2005, Google Inc. // All rights reserved. // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following disclaimer // in the documentation and/or other materials provided with the // distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived from // this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // // Author: wan@google.com (Zhanyong Wan), vladl@google.com (Vlad Losev) // // This file implements death tests. #if GTEST_HAS_DEATH_TEST # if GTEST_OS_MAC # include # endif // GTEST_OS_MAC # include # include # include # if GTEST_OS_LINUX # include # endif // GTEST_OS_LINUX # include # if GTEST_OS_WINDOWS # include # else # include # include # endif // GTEST_OS_WINDOWS # if GTEST_OS_QNX # include # endif // GTEST_OS_QNX #endif // GTEST_HAS_DEATH_TEST // Indicates that this translation unit is part of Google Test's // implementation. It must come before gtest-internal-inl.h is // included, or there will be a compiler error. This trick exists to // prevent the accidental inclusion of gtest-internal-inl.h in the // user's code. #define GTEST_IMPLEMENTATION_ 1 #undef GTEST_IMPLEMENTATION_ namespace testing { // Constants. // The default death test style. static const char kDefaultDeathTestStyle[] = "fast"; GTEST_DEFINE_string_( death_test_style, internal::StringFromGTestEnv("death_test_style", kDefaultDeathTestStyle), "Indicates how to run a death test in a forked child process: " "\"threadsafe\" (child process re-executes the test binary " "from the beginning, running only the specific death test) or " "\"fast\" (child process runs the death test immediately " "after forking)."); GTEST_DEFINE_bool_( death_test_use_fork, internal::BoolFromGTestEnv("death_test_use_fork", false), "Instructs to use fork()/_exit() instead of clone() in death tests. " "Ignored and always uses fork() on POSIX systems where clone() is not " "implemented. Useful when running under valgrind or similar tools if " "those do not support clone(). Valgrind 3.3.1 will just fail if " "it sees an unsupported combination of clone() flags. " "It is not recommended to use this flag w/o valgrind though it will " "work in 99% of the cases. Once valgrind is fixed, this flag will " "most likely be removed."); namespace internal { GTEST_DEFINE_string_( internal_run_death_test, "", "Indicates the file, line number, temporal index of " "the single death test to run, and a file descriptor to " "which a success code may be sent, all separated by " "the '|' characters. This flag is specified if and only if the current " "process is a sub-process launched for running a thread-safe " "death test. FOR INTERNAL USE ONLY."); } // namespace internal #if GTEST_HAS_DEATH_TEST namespace internal { // Valid only for fast death tests. Indicates the code is running in the // child process of a fast style death test. static bool g_in_fast_death_test_child = false; // Returns a Boolean value indicating whether the caller is currently // executing in the context of the death test child process. Tools such as // Valgrind heap checkers may need this to modify their behavior in death // tests. IMPORTANT: This is an internal utility. Using it may break the // implementation of death tests. User code MUST NOT use it. bool InDeathTestChild() { # if GTEST_OS_WINDOWS // On Windows, death tests are thread-safe regardless of the value of the // death_test_style flag. return !GTEST_FLAG(internal_run_death_test).empty(); # else if (GTEST_FLAG(death_test_style) == "threadsafe") return !GTEST_FLAG(internal_run_death_test).empty(); else return g_in_fast_death_test_child; #endif } } // namespace internal // ExitedWithCode constructor. ExitedWithCode::ExitedWithCode(int exit_code) : exit_code_(exit_code) { } // ExitedWithCode function-call operator. bool ExitedWithCode::operator()(int exit_status) const { # if GTEST_OS_WINDOWS return exit_status == exit_code_; # else return WIFEXITED(exit_status) && WEXITSTATUS(exit_status) == exit_code_; # endif // GTEST_OS_WINDOWS } # if !GTEST_OS_WINDOWS // KilledBySignal constructor. KilledBySignal::KilledBySignal(int signum) : signum_(signum) { } // KilledBySignal function-call operator. bool KilledBySignal::operator()(int exit_status) const { return WIFSIGNALED(exit_status) && WTERMSIG(exit_status) == signum_; } # endif // !GTEST_OS_WINDOWS namespace internal { // Utilities needed for death tests. // Generates a textual description of a given exit code, in the format // specified by wait(2). static std::string ExitSummary(int exit_code) { Message m; # if GTEST_OS_WINDOWS m << "Exited with exit status " << exit_code; # else if (WIFEXITED(exit_code)) { m << "Exited with exit status " << WEXITSTATUS(exit_code); } else if (WIFSIGNALED(exit_code)) { m << "Terminated by signal " << WTERMSIG(exit_code); } # ifdef WCOREDUMP if (WCOREDUMP(exit_code)) { m << " (core dumped)"; } # endif # endif // GTEST_OS_WINDOWS return m.GetString(); } // Returns true if exit_status describes a process that was terminated // by a signal, or exited normally with a nonzero exit code. bool ExitedUnsuccessfully(int exit_status) { return !ExitedWithCode(0)(exit_status); } # if !GTEST_OS_WINDOWS // Generates a textual failure message when a death test finds more than // one thread running, or cannot determine the number of threads, prior // to executing the given statement. It is the responsibility of the // caller not to pass a thread_count of 1. static std::string DeathTestThreadWarning(size_t thread_count) { Message msg; msg << "Death tests use fork(), which is unsafe particularly" << " in a threaded context. For this test, " << GTEST_NAME_ << " "; if (thread_count == 0) msg << "couldn't detect the number of threads."; else msg << "detected " << thread_count << " threads."; return msg.GetString(); } # endif // !GTEST_OS_WINDOWS // Flag characters for reporting a death test that did not die. static const char kDeathTestLived = 'L'; static const char kDeathTestReturned = 'R'; static const char kDeathTestThrew = 'T'; static const char kDeathTestInternalError = 'I'; // An enumeration describing all of the possible ways that a death test can // conclude. DIED means that the process died while executing the test // code; LIVED means that process lived beyond the end of the test code; // RETURNED means that the test statement attempted to execute a return // statement, which is not allowed; THREW means that the test statement // returned control by throwing an exception. IN_PROGRESS means the test // has not yet concluded. // TODO(vladl@google.com): Unify names and possibly values for // AbortReason, DeathTestOutcome, and flag characters above. enum DeathTestOutcome { IN_PROGRESS, DIED, LIVED, RETURNED, THREW }; // Routine for aborting the program which is safe to call from an // exec-style death test child process, in which case the error // message is propagated back to the parent process. Otherwise, the // message is simply printed to stderr. In either case, the program // then exits with status 1. void DeathTestAbort(const std::string& message) { // On a POSIX system, this function may be called from a threadsafe-style // death test child process, which operates on a very small stack. Use // the heap for any additional non-minuscule memory requirements. const InternalRunDeathTestFlag* const flag = GetUnitTestImpl()->internal_run_death_test_flag(); if (flag != NULL) { FILE* parent = posix::FDOpen(flag->write_fd(), "w"); fputc(kDeathTestInternalError, parent); fprintf(parent, "%s", message.c_str()); fflush(parent); _exit(1); } else { fprintf(stderr, "%s", message.c_str()); fflush(stderr); posix::Abort(); } } // A replacement for CHECK that calls DeathTestAbort if the assertion // fails. # define GTEST_DEATH_TEST_CHECK_(expression) \ do { \ if (!::testing::internal::IsTrue(expression)) { \ DeathTestAbort( \ ::std::string("CHECK failed: File ") + __FILE__ + ", line " \ + ::testing::internal::StreamableToString(__LINE__) + ": " \ + #expression); \ } \ } while (::testing::internal::AlwaysFalse()) // This macro is similar to GTEST_DEATH_TEST_CHECK_, but it is meant for // evaluating any system call that fulfills two conditions: it must return // -1 on failure, and set errno to EINTR when it is interrupted and // should be tried again. The macro expands to a loop that repeatedly // evaluates the expression as long as it evaluates to -1 and sets // errno to EINTR. If the expression evaluates to -1 but errno is // something other than EINTR, DeathTestAbort is called. # define GTEST_DEATH_TEST_CHECK_SYSCALL_(expression) \ do { \ int gtest_retval; \ do { \ gtest_retval = (expression); \ } while (gtest_retval == -1 && errno == EINTR); \ if (gtest_retval == -1) { \ DeathTestAbort( \ ::std::string("CHECK failed: File ") + __FILE__ + ", line " \ + ::testing::internal::StreamableToString(__LINE__) + ": " \ + #expression + " != -1"); \ } \ } while (::testing::internal::AlwaysFalse()) // Returns the message describing the last system error in errno. std::string GetLastErrnoDescription() { return errno == 0 ? "" : posix::StrError(errno); } // This is called from a death test parent process to read a failure // message from the death test child process and log it with the FATAL // severity. On Windows, the message is read from a pipe handle. On other // platforms, it is read from a file descriptor. static void FailFromInternalError(int fd) { Message error; char buffer[256]; int num_read; do { while ((num_read = posix::Read(fd, buffer, 255)) > 0) { buffer[num_read] = '\0'; error << buffer; } } while (num_read == -1 && errno == EINTR); if (num_read == 0) { GTEST_LOG_(FATAL) << error.GetString(); } else { const int last_error = errno; GTEST_LOG_(FATAL) << "Error while reading death test internal: " << GetLastErrnoDescription() << " [" << last_error << "]"; } } // Death test constructor. Increments the running death test count // for the current test. DeathTest::DeathTest() { TestInfo* const info = GetUnitTestImpl()->current_test_info(); if (info == NULL) { DeathTestAbort("Cannot run a death test outside of a TEST or " "TEST_F construct"); } } // Creates and returns a death test by dispatching to the current // death test factory. bool DeathTest::Create(const char* statement, const RE* regex, const char* file, int line, DeathTest** test) { return GetUnitTestImpl()->death_test_factory()->Create( statement, regex, file, line, test); } const char* DeathTest::LastMessage() { return last_death_test_message_.c_str(); } void DeathTest::set_last_death_test_message(const std::string& message) { last_death_test_message_ = message; } std::string DeathTest::last_death_test_message_; // Provides cross platform implementation for some death functionality. class DeathTestImpl : public DeathTest { protected: DeathTestImpl(const char* a_statement, const RE* a_regex) : statement_(a_statement), regex_(a_regex), spawned_(false), status_(-1), outcome_(IN_PROGRESS), read_fd_(-1), write_fd_(-1) {} // read_fd_ is expected to be closed and cleared by a derived class. ~DeathTestImpl() { GTEST_DEATH_TEST_CHECK_(read_fd_ == -1); } void Abort(AbortReason reason); virtual bool Passed(bool status_ok); const char* statement() const { return statement_; } const RE* regex() const { return regex_; } bool spawned() const { return spawned_; } void set_spawned(bool is_spawned) { spawned_ = is_spawned; } int status() const { return status_; } void set_status(int a_status) { status_ = a_status; } DeathTestOutcome outcome() const { return outcome_; } void set_outcome(DeathTestOutcome an_outcome) { outcome_ = an_outcome; } int read_fd() const { return read_fd_; } void set_read_fd(int fd) { read_fd_ = fd; } int write_fd() const { return write_fd_; } void set_write_fd(int fd) { write_fd_ = fd; } // Called in the parent process only. Reads the result code of the death // test child process via a pipe, interprets it to set the outcome_ // member, and closes read_fd_. Outputs diagnostics and terminates in // case of unexpected codes. void ReadAndInterpretStatusByte(); private: // The textual content of the code this object is testing. This class // doesn't own this string and should not attempt to delete it. const char* const statement_; // The regular expression which test output must match. DeathTestImpl // doesn't own this object and should not attempt to delete it. const RE* const regex_; // True if the death test child process has been successfully spawned. bool spawned_; // The exit status of the child process. int status_; // How the death test concluded. DeathTestOutcome outcome_; // Descriptor to the read end of the pipe to the child process. It is // always -1 in the child process. The child keeps its write end of the // pipe in write_fd_. int read_fd_; // Descriptor to the child's write end of the pipe to the parent process. // It is always -1 in the parent process. The parent keeps its end of the // pipe in read_fd_. int write_fd_; }; // Called in the parent process only. Reads the result code of the death // test child process via a pipe, interprets it to set the outcome_ // member, and closes read_fd_. Outputs diagnostics and terminates in // case of unexpected codes. void DeathTestImpl::ReadAndInterpretStatusByte() { char flag; int bytes_read; // The read() here blocks until data is available (signifying the // failure of the death test) or until the pipe is closed (signifying // its success), so it's okay to call this in the parent before // the child process has exited. do { bytes_read = posix::Read(read_fd(), &flag, 1); } while (bytes_read == -1 && errno == EINTR); if (bytes_read == 0) { set_outcome(DIED); } else if (bytes_read == 1) { switch (flag) { case kDeathTestReturned: set_outcome(RETURNED); break; case kDeathTestThrew: set_outcome(THREW); break; case kDeathTestLived: set_outcome(LIVED); break; case kDeathTestInternalError: FailFromInternalError(read_fd()); // Does not return. break; default: GTEST_LOG_(FATAL) << "Death test child process reported " << "unexpected status byte (" << static_cast(flag) << ")"; } } else { GTEST_LOG_(FATAL) << "Read from death test child process failed: " << GetLastErrnoDescription(); } GTEST_DEATH_TEST_CHECK_SYSCALL_(posix::Close(read_fd())); set_read_fd(-1); } // Signals that the death test code which should have exited, didn't. // Should be called only in a death test child process. // Writes a status byte to the child's status file descriptor, then // calls _exit(1). void DeathTestImpl::Abort(AbortReason reason) { // The parent process considers the death test to be a failure if // it finds any data in our pipe. So, here we write a single flag byte // to the pipe, then exit. const char status_ch = reason == TEST_DID_NOT_DIE ? kDeathTestLived : reason == TEST_THREW_EXCEPTION ? kDeathTestThrew : kDeathTestReturned; GTEST_DEATH_TEST_CHECK_SYSCALL_(posix::Write(write_fd(), &status_ch, 1)); // We are leaking the descriptor here because on some platforms (i.e., // when built as Windows DLL), destructors of global objects will still // run after calling _exit(). On such systems, write_fd_ will be // indirectly closed from the destructor of UnitTestImpl, causing double // close if it is also closed here. On debug configurations, double close // may assert. As there are no in-process buffers to flush here, we are // relying on the OS to close the descriptor after the process terminates // when the destructors are not run. _exit(1); // Exits w/o any normal exit hooks (we were supposed to crash) } // Returns an indented copy of stderr output for a death test. // This makes distinguishing death test output lines from regular log lines // much easier. static ::std::string FormatDeathTestOutput(const ::std::string& output) { ::std::string ret; for (size_t at = 0; ; ) { const size_t line_end = output.find('\n', at); ret += "[ DEATH ] "; if (line_end == ::std::string::npos) { ret += output.substr(at); break; } ret += output.substr(at, line_end + 1 - at); at = line_end + 1; } return ret; } // Assesses the success or failure of a death test, using both private // members which have previously been set, and one argument: // // Private data members: // outcome: An enumeration describing how the death test // concluded: DIED, LIVED, THREW, or RETURNED. The death test // fails in the latter three cases. // status: The exit status of the child process. On *nix, it is in the // in the format specified by wait(2). On Windows, this is the // value supplied to the ExitProcess() API or a numeric code // of the exception that terminated the program. // regex: A regular expression object to be applied to // the test's captured standard error output; the death test // fails if it does not match. // // Argument: // status_ok: true if exit_status is acceptable in the context of // this particular death test, which fails if it is false // // Returns true iff all of the above conditions are met. Otherwise, the // first failing condition, in the order given above, is the one that is // reported. Also sets the last death test message string. bool DeathTestImpl::Passed(bool status_ok) { if (!spawned()) return false; const std::string error_message = GetCapturedStderr(); bool success = false; Message buffer; buffer << "Death test: " << statement() << "\n"; switch (outcome()) { case LIVED: buffer << " Result: failed to die.\n" << " Error msg:\n" << FormatDeathTestOutput(error_message); break; case THREW: buffer << " Result: threw an exception.\n" << " Error msg:\n" << FormatDeathTestOutput(error_message); break; case RETURNED: buffer << " Result: illegal return in test statement.\n" << " Error msg:\n" << FormatDeathTestOutput(error_message); break; case DIED: if (status_ok) { const bool matched = RE::PartialMatch(error_message.c_str(), *regex()); if (matched) { success = true; } else { buffer << " Result: died but not with expected error.\n" << " Expected: " << regex()->pattern() << "\n" << "Actual msg:\n" << FormatDeathTestOutput(error_message); } } else { buffer << " Result: died but not with expected exit code:\n" << " " << ExitSummary(status()) << "\n" << "Actual msg:\n" << FormatDeathTestOutput(error_message); } break; case IN_PROGRESS: default: GTEST_LOG_(FATAL) << "DeathTest::Passed somehow called before conclusion of test"; } DeathTest::set_last_death_test_message(buffer.GetString()); return success; } # if GTEST_OS_WINDOWS // WindowsDeathTest implements death tests on Windows. Due to the // specifics of starting new processes on Windows, death tests there are // always threadsafe, and Google Test considers the // --gtest_death_test_style=fast setting to be equivalent to // --gtest_death_test_style=threadsafe there. // // A few implementation notes: Like the Linux version, the Windows // implementation uses pipes for child-to-parent communication. But due to // the specifics of pipes on Windows, some extra steps are required: // // 1. The parent creates a communication pipe and stores handles to both // ends of it. // 2. The parent starts the child and provides it with the information // necessary to acquire the handle to the write end of the pipe. // 3. The child acquires the write end of the pipe and signals the parent // using a Windows event. // 4. Now the parent can release the write end of the pipe on its side. If // this is done before step 3, the object's reference count goes down to // 0 and it is destroyed, preventing the child from acquiring it. The // parent now has to release it, or read operations on the read end of // the pipe will not return when the child terminates. // 5. The parent reads child's output through the pipe (outcome code and // any possible error messages) from the pipe, and its stderr and then // determines whether to fail the test. // // Note: to distinguish Win32 API calls from the local method and function // calls, the former are explicitly resolved in the global namespace. // class WindowsDeathTest : public DeathTestImpl { public: WindowsDeathTest(const char* a_statement, const RE* a_regex, const char* file, int line) : DeathTestImpl(a_statement, a_regex), file_(file), line_(line) {} // All of these virtual functions are inherited from DeathTest. virtual int Wait(); virtual TestRole AssumeRole(); private: // The name of the file in which the death test is located. const char* const file_; // The line number on which the death test is located. const int line_; // Handle to the write end of the pipe to the child process. AutoHandle write_handle_; // Child process handle. AutoHandle child_handle_; // Event the child process uses to signal the parent that it has // acquired the handle to the write end of the pipe. After seeing this // event the parent can release its own handles to make sure its // ReadFile() calls return when the child terminates. AutoHandle event_handle_; }; // Waits for the child in a death test to exit, returning its exit // status, or 0 if no child process exists. As a side effect, sets the // outcome data member. int WindowsDeathTest::Wait() { if (!spawned()) return 0; // Wait until the child either signals that it has acquired the write end // of the pipe or it dies. const HANDLE wait_handles[2] = { child_handle_.Get(), event_handle_.Get() }; switch (::WaitForMultipleObjects(2, wait_handles, FALSE, // Waits for any of the handles. INFINITE)) { case WAIT_OBJECT_0: case WAIT_OBJECT_0 + 1: break; default: GTEST_DEATH_TEST_CHECK_(false); // Should not get here. } // The child has acquired the write end of the pipe or exited. // We release the handle on our side and continue. write_handle_.Reset(); event_handle_.Reset(); ReadAndInterpretStatusByte(); // Waits for the child process to exit if it haven't already. This // returns immediately if the child has already exited, regardless of // whether previous calls to WaitForMultipleObjects synchronized on this // handle or not. GTEST_DEATH_TEST_CHECK_( WAIT_OBJECT_0 == ::WaitForSingleObject(child_handle_.Get(), INFINITE)); DWORD status_code; GTEST_DEATH_TEST_CHECK_( ::GetExitCodeProcess(child_handle_.Get(), &status_code) != FALSE); child_handle_.Reset(); set_status(static_cast(status_code)); return status(); } // The AssumeRole process for a Windows death test. It creates a child // process with the same executable as the current process to run the // death test. The child process is given the --gtest_filter and // --gtest_internal_run_death_test flags such that it knows to run the // current death test only. DeathTest::TestRole WindowsDeathTest::AssumeRole() { const UnitTestImpl* const impl = GetUnitTestImpl(); const InternalRunDeathTestFlag* const flag = impl->internal_run_death_test_flag(); const TestInfo* const info = impl->current_test_info(); const int death_test_index = info->result()->death_test_count(); if (flag != NULL) { // ParseInternalRunDeathTestFlag() has performed all the necessary // processing. set_write_fd(flag->write_fd()); return EXECUTE_TEST; } // WindowsDeathTest uses an anonymous pipe to communicate results of // a death test. SECURITY_ATTRIBUTES handles_are_inheritable = { sizeof(SECURITY_ATTRIBUTES), NULL, TRUE }; HANDLE read_handle, write_handle; GTEST_DEATH_TEST_CHECK_( ::CreatePipe(&read_handle, &write_handle, &handles_are_inheritable, 0) // Default buffer size. != FALSE); set_read_fd(::_open_osfhandle(reinterpret_cast(read_handle), O_RDONLY)); write_handle_.Reset(write_handle); event_handle_.Reset(::CreateEvent( &handles_are_inheritable, TRUE, // The event will automatically reset to non-signaled state. FALSE, // The initial state is non-signalled. NULL)); // The even is unnamed. GTEST_DEATH_TEST_CHECK_(event_handle_.Get() != NULL); const std::string filter_flag = std::string("--") + GTEST_FLAG_PREFIX_ + kFilterFlag + "=" + info->test_case_name() + "." + info->name(); const std::string internal_flag = std::string("--") + GTEST_FLAG_PREFIX_ + kInternalRunDeathTestFlag + "=" + file_ + "|" + StreamableToString(line_) + "|" + StreamableToString(death_test_index) + "|" + StreamableToString(static_cast(::GetCurrentProcessId())) + // size_t has the same width as pointers on both 32-bit and 64-bit // Windows platforms. // See http://msdn.microsoft.com/en-us/library/tcxf1dw6.aspx. "|" + StreamableToString(reinterpret_cast(write_handle)) + "|" + StreamableToString(reinterpret_cast(event_handle_.Get())); char executable_path[_MAX_PATH + 1]; // NOLINT GTEST_DEATH_TEST_CHECK_( _MAX_PATH + 1 != ::GetModuleFileNameA(NULL, executable_path, _MAX_PATH)); std::string command_line = std::string(::GetCommandLineA()) + " " + filter_flag + " \"" + internal_flag + "\""; DeathTest::set_last_death_test_message(""); CaptureStderr(); // Flush the log buffers since the log streams are shared with the child. FlushInfoLog(); // The child process will share the standard handles with the parent. STARTUPINFOA startup_info; memset(&startup_info, 0, sizeof(STARTUPINFO)); startup_info.dwFlags = STARTF_USESTDHANDLES; startup_info.hStdInput = ::GetStdHandle(STD_INPUT_HANDLE); startup_info.hStdOutput = ::GetStdHandle(STD_OUTPUT_HANDLE); startup_info.hStdError = ::GetStdHandle(STD_ERROR_HANDLE); PROCESS_INFORMATION process_info; GTEST_DEATH_TEST_CHECK_(::CreateProcessA( executable_path, const_cast(command_line.c_str()), NULL, // Retuned process handle is not inheritable. NULL, // Retuned thread handle is not inheritable. TRUE, // Child inherits all inheritable handles (for write_handle_). 0x0, // Default creation flags. NULL, // Inherit the parent's environment. UnitTest::GetInstance()->original_working_dir(), &startup_info, &process_info) != FALSE); child_handle_.Reset(process_info.hProcess); ::CloseHandle(process_info.hThread); set_spawned(true); return OVERSEE_TEST; } # else // We are not on Windows. // ForkingDeathTest provides implementations for most of the abstract // methods of the DeathTest interface. Only the AssumeRole method is // left undefined. class ForkingDeathTest : public DeathTestImpl { public: ForkingDeathTest(const char* statement, const RE* regex); // All of these virtual functions are inherited from DeathTest. virtual int Wait(); protected: void set_child_pid(pid_t child_pid) { child_pid_ = child_pid; } private: // PID of child process during death test; 0 in the child process itself. pid_t child_pid_; }; // Constructs a ForkingDeathTest. ForkingDeathTest::ForkingDeathTest(const char* a_statement, const RE* a_regex) : DeathTestImpl(a_statement, a_regex), child_pid_(-1) {} // Waits for the child in a death test to exit, returning its exit // status, or 0 if no child process exists. As a side effect, sets the // outcome data member. int ForkingDeathTest::Wait() { if (!spawned()) return 0; ReadAndInterpretStatusByte(); int status_value; GTEST_DEATH_TEST_CHECK_SYSCALL_(waitpid(child_pid_, &status_value, 0)); set_status(status_value); return status_value; } // A concrete death test class that forks, then immediately runs the test // in the child process. class NoExecDeathTest : public ForkingDeathTest { public: NoExecDeathTest(const char* a_statement, const RE* a_regex) : ForkingDeathTest(a_statement, a_regex) { } virtual TestRole AssumeRole(); }; // The AssumeRole process for a fork-and-run death test. It implements a // straightforward fork, with a simple pipe to transmit the status byte. DeathTest::TestRole NoExecDeathTest::AssumeRole() { const size_t thread_count = GetThreadCount(); if (thread_count != 1) { GTEST_LOG_(WARNING) << DeathTestThreadWarning(thread_count); } int pipe_fd[2]; GTEST_DEATH_TEST_CHECK_(pipe(pipe_fd) != -1); DeathTest::set_last_death_test_message(""); CaptureStderr(); // When we fork the process below, the log file buffers are copied, but the // file descriptors are shared. We flush all log files here so that closing // the file descriptors in the child process doesn't throw off the // synchronization between descriptors and buffers in the parent process. // This is as close to the fork as possible to avoid a race condition in case // there are multiple threads running before the death test, and another // thread writes to the log file. FlushInfoLog(); const pid_t child_pid = fork(); GTEST_DEATH_TEST_CHECK_(child_pid != -1); set_child_pid(child_pid); if (child_pid == 0) { GTEST_DEATH_TEST_CHECK_SYSCALL_(close(pipe_fd[0])); set_write_fd(pipe_fd[1]); // Redirects all logging to stderr in the child process to prevent // concurrent writes to the log files. We capture stderr in the parent // process and append the child process' output to a log. LogToStderr(); // Event forwarding to the listeners of event listener API mush be shut // down in death test subprocesses. GetUnitTestImpl()->listeners()->SuppressEventForwarding(); g_in_fast_death_test_child = true; return EXECUTE_TEST; } else { GTEST_DEATH_TEST_CHECK_SYSCALL_(close(pipe_fd[1])); set_read_fd(pipe_fd[0]); set_spawned(true); return OVERSEE_TEST; } } // A concrete death test class that forks and re-executes the main // program from the beginning, with command-line flags set that cause // only this specific death test to be run. class ExecDeathTest : public ForkingDeathTest { public: ExecDeathTest(const char* a_statement, const RE* a_regex, const char* file, int line) : ForkingDeathTest(a_statement, a_regex), file_(file), line_(line) { } virtual TestRole AssumeRole(); private: static ::std::vector GetArgvsForDeathTestChildProcess() { ::std::vector args = GetInjectableArgvs(); return args; } // The name of the file in which the death test is located. const char* const file_; // The line number on which the death test is located. const int line_; }; // Utility class for accumulating command-line arguments. class Arguments { public: Arguments() { args_.push_back(NULL); } ~Arguments() { for (std::vector::iterator i = args_.begin(); i != args_.end(); ++i) { free(*i); } } void AddArgument(const char* argument) { args_.insert(args_.end() - 1, posix::StrDup(argument)); } template void AddArguments(const ::std::vector& arguments) { for (typename ::std::vector::const_iterator i = arguments.begin(); i != arguments.end(); ++i) { args_.insert(args_.end() - 1, posix::StrDup(i->c_str())); } } char* const* Argv() { return &args_[0]; } private: std::vector args_; }; // A struct that encompasses the arguments to the child process of a // threadsafe-style death test process. struct ExecDeathTestArgs { char* const* argv; // Command-line arguments for the child's call to exec int close_fd; // File descriptor to close; the read end of a pipe }; # if GTEST_OS_MAC inline char** GetEnviron() { // When Google Test is built as a framework on MacOS X, the environ variable // is unavailable. Apple's documentation (man environ) recommends using // _NSGetEnviron() instead. return *_NSGetEnviron(); } # else // Some POSIX platforms expect you to declare environ. extern "C" makes // it reside in the global namespace. extern "C" char** environ; inline char** GetEnviron() { return environ; } # endif // GTEST_OS_MAC # if !GTEST_OS_QNX // The main function for a threadsafe-style death test child process. // This function is called in a clone()-ed process and thus must avoid // any potentially unsafe operations like malloc or libc functions. static int ExecDeathTestChildMain(void* child_arg) { ExecDeathTestArgs* const args = static_cast(child_arg); GTEST_DEATH_TEST_CHECK_SYSCALL_(close(args->close_fd)); // We need to execute the test program in the same environment where // it was originally invoked. Therefore we change to the original // working directory first. const char* const original_dir = UnitTest::GetInstance()->original_working_dir(); // We can safely call chdir() as it's a direct system call. if (chdir(original_dir) != 0) { DeathTestAbort(std::string("chdir(\"") + original_dir + "\") failed: " + GetLastErrnoDescription()); return EXIT_FAILURE; } // We can safely call execve() as it's a direct system call. We // cannot use execvp() as it's a libc function and thus potentially // unsafe. Since execve() doesn't search the PATH, the user must // invoke the test program via a valid path that contains at least // one path separator. execve(args->argv[0], args->argv, GetEnviron()); DeathTestAbort(std::string("execve(") + args->argv[0] + ", ...) in " + original_dir + " failed: " + GetLastErrnoDescription()); return EXIT_FAILURE; } # endif // !GTEST_OS_QNX // Two utility routines that together determine the direction the stack // grows. // This could be accomplished more elegantly by a single recursive // function, but we want to guard against the unlikely possibility of // a smart compiler optimizing the recursion away. // // GTEST_NO_INLINE_ is required to prevent GCC 4.6 from inlining // StackLowerThanAddress into StackGrowsDown, which then doesn't give // correct answer. void StackLowerThanAddress(const void* ptr, bool* result) GTEST_NO_INLINE_; void StackLowerThanAddress(const void* ptr, bool* result) { int dummy; *result = (&dummy < ptr); } // Make sure AddressSanitizer does not tamper with the stack here. GTEST_ATTRIBUTE_NO_SANITIZE_ADDRESS_ bool StackGrowsDown() { int dummy; bool result; StackLowerThanAddress(&dummy, &result); return result; } // Spawns a child process with the same executable as the current process in // a thread-safe manner and instructs it to run the death test. The // implementation uses fork(2) + exec. On systems where clone(2) is // available, it is used instead, being slightly more thread-safe. On QNX, // fork supports only single-threaded environments, so this function uses // spawn(2) there instead. The function dies with an error message if // anything goes wrong. static pid_t ExecDeathTestSpawnChild(char* const* argv, int close_fd) { ExecDeathTestArgs args = { argv, close_fd }; pid_t child_pid = -1; # if GTEST_OS_QNX // Obtains the current directory and sets it to be closed in the child // process. const int cwd_fd = open(".", O_RDONLY); GTEST_DEATH_TEST_CHECK_(cwd_fd != -1); GTEST_DEATH_TEST_CHECK_SYSCALL_(fcntl(cwd_fd, F_SETFD, FD_CLOEXEC)); // We need to execute the test program in the same environment where // it was originally invoked. Therefore we change to the original // working directory first. const char* const original_dir = UnitTest::GetInstance()->original_working_dir(); // We can safely call chdir() as it's a direct system call. if (chdir(original_dir) != 0) { DeathTestAbort(std::string("chdir(\"") + original_dir + "\") failed: " + GetLastErrnoDescription()); return EXIT_FAILURE; } int fd_flags; // Set close_fd to be closed after spawn. GTEST_DEATH_TEST_CHECK_SYSCALL_(fd_flags = fcntl(close_fd, F_GETFD)); GTEST_DEATH_TEST_CHECK_SYSCALL_(fcntl(close_fd, F_SETFD, fd_flags | FD_CLOEXEC)); struct inheritance inherit = {0}; // spawn is a system call. child_pid = spawn(args.argv[0], 0, NULL, &inherit, args.argv, GetEnviron()); // Restores the current working directory. GTEST_DEATH_TEST_CHECK_(fchdir(cwd_fd) != -1); GTEST_DEATH_TEST_CHECK_SYSCALL_(close(cwd_fd)); # else // GTEST_OS_QNX # if GTEST_OS_LINUX // When a SIGPROF signal is received while fork() or clone() are executing, // the process may hang. To avoid this, we ignore SIGPROF here and re-enable // it after the call to fork()/clone() is complete. struct sigaction saved_sigprof_action; struct sigaction ignore_sigprof_action; memset(&ignore_sigprof_action, 0, sizeof(ignore_sigprof_action)); sigemptyset(&ignore_sigprof_action.sa_mask); ignore_sigprof_action.sa_handler = SIG_IGN; GTEST_DEATH_TEST_CHECK_SYSCALL_(sigaction( SIGPROF, &ignore_sigprof_action, &saved_sigprof_action)); # endif // GTEST_OS_LINUX # if GTEST_HAS_CLONE const bool use_fork = GTEST_FLAG(death_test_use_fork); if (!use_fork) { static const bool stack_grows_down = StackGrowsDown(); const size_t stack_size = getpagesize(); // MMAP_ANONYMOUS is not defined on Mac, so we use MAP_ANON instead. void* const stack = mmap(NULL, stack_size, PROT_READ | PROT_WRITE, MAP_ANON | MAP_PRIVATE, -1, 0); GTEST_DEATH_TEST_CHECK_(stack != MAP_FAILED); // Maximum stack alignment in bytes: For a downward-growing stack, this // amount is subtracted from size of the stack space to get an address // that is within the stack space and is aligned on all systems we care // about. As far as I know there is no ABI with stack alignment greater // than 64. We assume stack and stack_size already have alignment of // kMaxStackAlignment. const size_t kMaxStackAlignment = 64; void* const stack_top = static_cast(stack) + (stack_grows_down ? stack_size - kMaxStackAlignment : 0); GTEST_DEATH_TEST_CHECK_(stack_size > kMaxStackAlignment && reinterpret_cast(stack_top) % kMaxStackAlignment == 0); child_pid = clone(&ExecDeathTestChildMain, stack_top, SIGCHLD, &args); GTEST_DEATH_TEST_CHECK_(munmap(stack, stack_size) != -1); } # else const bool use_fork = true; # endif // GTEST_HAS_CLONE if (use_fork && (child_pid = fork()) == 0) { ExecDeathTestChildMain(&args); _exit(0); } # endif // GTEST_OS_QNX # if GTEST_OS_LINUX GTEST_DEATH_TEST_CHECK_SYSCALL_( sigaction(SIGPROF, &saved_sigprof_action, NULL)); # endif // GTEST_OS_LINUX GTEST_DEATH_TEST_CHECK_(child_pid != -1); return child_pid; } // The AssumeRole process for a fork-and-exec death test. It re-executes the // main program from the beginning, setting the --gtest_filter // and --gtest_internal_run_death_test flags to cause only the current // death test to be re-run. DeathTest::TestRole ExecDeathTest::AssumeRole() { const UnitTestImpl* const impl = GetUnitTestImpl(); const InternalRunDeathTestFlag* const flag = impl->internal_run_death_test_flag(); const TestInfo* const info = impl->current_test_info(); const int death_test_index = info->result()->death_test_count(); if (flag != NULL) { set_write_fd(flag->write_fd()); return EXECUTE_TEST; } int pipe_fd[2]; GTEST_DEATH_TEST_CHECK_(pipe(pipe_fd) != -1); // Clear the close-on-exec flag on the write end of the pipe, lest // it be closed when the child process does an exec: GTEST_DEATH_TEST_CHECK_(fcntl(pipe_fd[1], F_SETFD, 0) != -1); const std::string filter_flag = std::string("--") + GTEST_FLAG_PREFIX_ + kFilterFlag + "=" + info->test_case_name() + "." + info->name(); const std::string internal_flag = std::string("--") + GTEST_FLAG_PREFIX_ + kInternalRunDeathTestFlag + "=" + file_ + "|" + StreamableToString(line_) + "|" + StreamableToString(death_test_index) + "|" + StreamableToString(pipe_fd[1]); Arguments args; args.AddArguments(GetArgvsForDeathTestChildProcess()); args.AddArgument(filter_flag.c_str()); args.AddArgument(internal_flag.c_str()); DeathTest::set_last_death_test_message(""); CaptureStderr(); // See the comment in NoExecDeathTest::AssumeRole for why the next line // is necessary. FlushInfoLog(); const pid_t child_pid = ExecDeathTestSpawnChild(args.Argv(), pipe_fd[0]); GTEST_DEATH_TEST_CHECK_SYSCALL_(close(pipe_fd[1])); set_child_pid(child_pid); set_read_fd(pipe_fd[0]); set_spawned(true); return OVERSEE_TEST; } # endif // !GTEST_OS_WINDOWS // Creates a concrete DeathTest-derived class that depends on the // --gtest_death_test_style flag, and sets the pointer pointed to // by the "test" argument to its address. If the test should be // skipped, sets that pointer to NULL. Returns true, unless the // flag is set to an invalid value. bool DefaultDeathTestFactory::Create(const char* statement, const RE* regex, const char* file, int line, DeathTest** test) { UnitTestImpl* const impl = GetUnitTestImpl(); const InternalRunDeathTestFlag* const flag = impl->internal_run_death_test_flag(); const int death_test_index = impl->current_test_info() ->increment_death_test_count(); if (flag != NULL) { if (death_test_index > flag->index()) { DeathTest::set_last_death_test_message( "Death test count (" + StreamableToString(death_test_index) + ") somehow exceeded expected maximum (" + StreamableToString(flag->index()) + ")"); return false; } if (!(flag->file() == file && flag->line() == line && flag->index() == death_test_index)) { *test = NULL; return true; } } # if GTEST_OS_WINDOWS if (GTEST_FLAG(death_test_style) == "threadsafe" || GTEST_FLAG(death_test_style) == "fast") { *test = new WindowsDeathTest(statement, regex, file, line); } # else if (GTEST_FLAG(death_test_style) == "threadsafe") { *test = new ExecDeathTest(statement, regex, file, line); } else if (GTEST_FLAG(death_test_style) == "fast") { *test = new NoExecDeathTest(statement, regex); } # endif // GTEST_OS_WINDOWS else { // NOLINT - this is more readable than unbalanced brackets inside #if. DeathTest::set_last_death_test_message( "Unknown death test style \"" + GTEST_FLAG(death_test_style) + "\" encountered"); return false; } return true; } // Splits a given string on a given delimiter, populating a given // vector with the fields. GTEST_HAS_DEATH_TEST implies that we have // ::std::string, so we can use it here. static void SplitString(const ::std::string& str, char delimiter, ::std::vector< ::std::string>* dest) { ::std::vector< ::std::string> parsed; ::std::string::size_type pos = 0; while (::testing::internal::AlwaysTrue()) { const ::std::string::size_type colon = str.find(delimiter, pos); if (colon == ::std::string::npos) { parsed.push_back(str.substr(pos)); break; } else { parsed.push_back(str.substr(pos, colon - pos)); pos = colon + 1; } } dest->swap(parsed); } # if GTEST_OS_WINDOWS // Recreates the pipe and event handles from the provided parameters, // signals the event, and returns a file descriptor wrapped around the pipe // handle. This function is called in the child process only. int GetStatusFileDescriptor(unsigned int parent_process_id, size_t write_handle_as_size_t, size_t event_handle_as_size_t) { AutoHandle parent_process_handle(::OpenProcess(PROCESS_DUP_HANDLE, FALSE, // Non-inheritable. parent_process_id)); if (parent_process_handle.Get() == INVALID_HANDLE_VALUE) { DeathTestAbort("Unable to open parent process " + StreamableToString(parent_process_id)); } // TODO(vladl@google.com): Replace the following check with a // compile-time assertion when available. GTEST_CHECK_(sizeof(HANDLE) <= sizeof(size_t)); const HANDLE write_handle = reinterpret_cast(write_handle_as_size_t); HANDLE dup_write_handle; // The newly initialized handle is accessible only in in the parent // process. To obtain one accessible within the child, we need to use // DuplicateHandle. if (!::DuplicateHandle(parent_process_handle.Get(), write_handle, ::GetCurrentProcess(), &dup_write_handle, 0x0, // Requested privileges ignored since // DUPLICATE_SAME_ACCESS is used. FALSE, // Request non-inheritable handler. DUPLICATE_SAME_ACCESS)) { DeathTestAbort("Unable to duplicate the pipe handle " + StreamableToString(write_handle_as_size_t) + " from the parent process " + StreamableToString(parent_process_id)); } const HANDLE event_handle = reinterpret_cast(event_handle_as_size_t); HANDLE dup_event_handle; if (!::DuplicateHandle(parent_process_handle.Get(), event_handle, ::GetCurrentProcess(), &dup_event_handle, 0x0, FALSE, DUPLICATE_SAME_ACCESS)) { DeathTestAbort("Unable to duplicate the event handle " + StreamableToString(event_handle_as_size_t) + " from the parent process " + StreamableToString(parent_process_id)); } const int write_fd = ::_open_osfhandle(reinterpret_cast(dup_write_handle), O_APPEND); if (write_fd == -1) { DeathTestAbort("Unable to convert pipe handle " + StreamableToString(write_handle_as_size_t) + " to a file descriptor"); } // Signals the parent that the write end of the pipe has been acquired // so the parent can release its own write end. ::SetEvent(dup_event_handle); return write_fd; } # endif // GTEST_OS_WINDOWS // Returns a newly created InternalRunDeathTestFlag object with fields // initialized from the GTEST_FLAG(internal_run_death_test) flag if // the flag is specified; otherwise returns NULL. InternalRunDeathTestFlag* ParseInternalRunDeathTestFlag() { if (GTEST_FLAG(internal_run_death_test) == "") return NULL; // GTEST_HAS_DEATH_TEST implies that we have ::std::string, so we // can use it here. int line = -1; int index = -1; ::std::vector< ::std::string> fields; SplitString(GTEST_FLAG(internal_run_death_test).c_str(), '|', &fields); int write_fd = -1; # if GTEST_OS_WINDOWS unsigned int parent_process_id = 0; size_t write_handle_as_size_t = 0; size_t event_handle_as_size_t = 0; if (fields.size() != 6 || !ParseNaturalNumber(fields[1], &line) || !ParseNaturalNumber(fields[2], &index) || !ParseNaturalNumber(fields[3], &parent_process_id) || !ParseNaturalNumber(fields[4], &write_handle_as_size_t) || !ParseNaturalNumber(fields[5], &event_handle_as_size_t)) { DeathTestAbort("Bad --gtest_internal_run_death_test flag: " + GTEST_FLAG(internal_run_death_test)); } write_fd = GetStatusFileDescriptor(parent_process_id, write_handle_as_size_t, event_handle_as_size_t); # else if (fields.size() != 4 || !ParseNaturalNumber(fields[1], &line) || !ParseNaturalNumber(fields[2], &index) || !ParseNaturalNumber(fields[3], &write_fd)) { DeathTestAbort("Bad --gtest_internal_run_death_test flag: " + GTEST_FLAG(internal_run_death_test)); } # endif // GTEST_OS_WINDOWS return new InternalRunDeathTestFlag(fields[0], line, index, write_fd); } } // namespace internal #endif // GTEST_HAS_DEATH_TEST } // namespace testing // Copyright 2008, Google Inc. // All rights reserved. // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following disclaimer // in the documentation and/or other materials provided with the // distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived from // this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // // Authors: keith.ray@gmail.com (Keith Ray) #include #if GTEST_OS_WINDOWS_MOBILE # include #elif GTEST_OS_WINDOWS # include # include #elif GTEST_OS_SYMBIAN // Symbian OpenC has PATH_MAX in sys/syslimits.h # include #else # include # include // Some Linux distributions define PATH_MAX here. #endif // GTEST_OS_WINDOWS_MOBILE #if GTEST_OS_WINDOWS # define GTEST_PATH_MAX_ _MAX_PATH #elif defined(PATH_MAX) # define GTEST_PATH_MAX_ PATH_MAX #elif defined(_XOPEN_PATH_MAX) # define GTEST_PATH_MAX_ _XOPEN_PATH_MAX #else # define GTEST_PATH_MAX_ _POSIX_PATH_MAX #endif // GTEST_OS_WINDOWS namespace testing { namespace internal { #if GTEST_OS_WINDOWS // On Windows, '\\' is the standard path separator, but many tools and the // Windows API also accept '/' as an alternate path separator. Unless otherwise // noted, a file path can contain either kind of path separators, or a mixture // of them. const char kPathSeparator = '\\'; const char kAlternatePathSeparator = '/'; const char kAlternatePathSeparatorString[] = "/"; # if GTEST_OS_WINDOWS_MOBILE // Windows CE doesn't have a current directory. You should not use // the current directory in tests on Windows CE, but this at least // provides a reasonable fallback. const char kCurrentDirectoryString[] = "\\"; // Windows CE doesn't define INVALID_FILE_ATTRIBUTES const DWORD kInvalidFileAttributes = 0xffffffff; # else const char kCurrentDirectoryString[] = ".\\"; # endif // GTEST_OS_WINDOWS_MOBILE #else const char kPathSeparator = '/'; const char kCurrentDirectoryString[] = "./"; #endif // GTEST_OS_WINDOWS // Returns whether the given character is a valid path separator. static bool IsPathSeparator(char c) { #if GTEST_HAS_ALT_PATH_SEP_ return (c == kPathSeparator) || (c == kAlternatePathSeparator); #else return c == kPathSeparator; #endif } // Returns the current working directory, or "" if unsuccessful. FilePath FilePath::GetCurrentDir() { #if GTEST_OS_WINDOWS_MOBILE || GTEST_OS_WINDOWS_PHONE || GTEST_OS_WINDOWS_RT // Windows CE doesn't have a current directory, so we just return // something reasonable. return FilePath(kCurrentDirectoryString); #elif GTEST_OS_WINDOWS char cwd[GTEST_PATH_MAX_ + 1] = { '\0' }; return FilePath(_getcwd(cwd, sizeof(cwd)) == NULL ? "" : cwd); #else char cwd[GTEST_PATH_MAX_ + 1] = { '\0' }; char* result = getcwd(cwd, sizeof(cwd)); # if GTEST_OS_NACL // getcwd will likely fail in NaCl due to the sandbox, so return something // reasonable. The user may have provided a shim implementation for getcwd, // however, so fallback only when failure is detected. return FilePath(result == NULL ? kCurrentDirectoryString : cwd); # endif // GTEST_OS_NACL return FilePath(result == NULL ? "" : cwd); #endif // GTEST_OS_WINDOWS_MOBILE } // Returns a copy of the FilePath with the case-insensitive extension removed. // Example: FilePath("dir/file.exe").RemoveExtension("EXE") returns // FilePath("dir/file"). If a case-insensitive extension is not // found, returns a copy of the original FilePath. FilePath FilePath::RemoveExtension(const char* extension) const { const std::string dot_extension = std::string(".") + extension; if (String::EndsWithCaseInsensitive(pathname_, dot_extension)) { return FilePath(pathname_.substr( 0, pathname_.length() - dot_extension.length())); } return *this; } // Returns a pointer to the last occurrence of a valid path separator in // the FilePath. On Windows, for example, both '/' and '\' are valid path // separators. Returns NULL if no path separator was found. const char* FilePath::FindLastPathSeparator() const { const char* const last_sep = strrchr(c_str(), kPathSeparator); #if GTEST_HAS_ALT_PATH_SEP_ const char* const last_alt_sep = strrchr(c_str(), kAlternatePathSeparator); // Comparing two pointers of which only one is NULL is undefined. if (last_alt_sep != NULL && (last_sep == NULL || last_alt_sep > last_sep)) { return last_alt_sep; } #endif return last_sep; } // Returns a copy of the FilePath with the directory part removed. // Example: FilePath("path/to/file").RemoveDirectoryName() returns // FilePath("file"). If there is no directory part ("just_a_file"), it returns // the FilePath unmodified. If there is no file part ("just_a_dir/") it // returns an empty FilePath (""). // On Windows platform, '\' is the path separator, otherwise it is '/'. FilePath FilePath::RemoveDirectoryName() const { const char* const last_sep = FindLastPathSeparator(); return last_sep ? FilePath(last_sep + 1) : *this; } // RemoveFileName returns the directory path with the filename removed. // Example: FilePath("path/to/file").RemoveFileName() returns "path/to/". // If the FilePath is "a_file" or "/a_file", RemoveFileName returns // FilePath("./") or, on Windows, FilePath(".\\"). If the filepath does // not have a file, like "just/a/dir/", it returns the FilePath unmodified. // On Windows platform, '\' is the path separator, otherwise it is '/'. FilePath FilePath::RemoveFileName() const { const char* const last_sep = FindLastPathSeparator(); std::string dir; if (last_sep) { dir = std::string(c_str(), last_sep + 1 - c_str()); } else { dir = kCurrentDirectoryString; } return FilePath(dir); } // Helper functions for naming files in a directory for xml output. // Given directory = "dir", base_name = "test", number = 0, // extension = "xml", returns "dir/test.xml". If number is greater // than zero (e.g., 12), returns "dir/test_12.xml". // On Windows platform, uses \ as the separator rather than /. FilePath FilePath::MakeFileName(const FilePath& directory, const FilePath& base_name, int number, const char* extension) { std::string file; if (number == 0) { file = base_name.string() + "." + extension; } else { file = base_name.string() + "_" + StreamableToString(number) + "." + extension; } return ConcatPaths(directory, FilePath(file)); } // Given directory = "dir", relative_path = "test.xml", returns "dir/test.xml". // On Windows, uses \ as the separator rather than /. FilePath FilePath::ConcatPaths(const FilePath& directory, const FilePath& relative_path) { if (directory.IsEmpty()) return relative_path; const FilePath dir(directory.RemoveTrailingPathSeparator()); return FilePath(dir.string() + kPathSeparator + relative_path.string()); } // Returns true if pathname describes something findable in the file-system, // either a file, directory, or whatever. bool FilePath::FileOrDirectoryExists() const { #if GTEST_OS_WINDOWS_MOBILE LPCWSTR unicode = String::AnsiToUtf16(pathname_.c_str()); const DWORD attributes = GetFileAttributes(unicode); delete [] unicode; return attributes != kInvalidFileAttributes; #else posix::StatStruct file_stat; return posix::Stat(pathname_.c_str(), &file_stat) == 0; #endif // GTEST_OS_WINDOWS_MOBILE } // Returns true if pathname describes a directory in the file-system // that exists. bool FilePath::DirectoryExists() const { bool result = false; #if GTEST_OS_WINDOWS // Don't strip off trailing separator if path is a root directory on // Windows (like "C:\\"). const FilePath& path(IsRootDirectory() ? *this : RemoveTrailingPathSeparator()); #else const FilePath& path(*this); #endif #if GTEST_OS_WINDOWS_MOBILE LPCWSTR unicode = String::AnsiToUtf16(path.c_str()); const DWORD attributes = GetFileAttributes(unicode); delete [] unicode; if ((attributes != kInvalidFileAttributes) && (attributes & FILE_ATTRIBUTE_DIRECTORY)) { result = true; } #else posix::StatStruct file_stat; result = posix::Stat(path.c_str(), &file_stat) == 0 && posix::IsDir(file_stat); #endif // GTEST_OS_WINDOWS_MOBILE return result; } // Returns true if pathname describes a root directory. (Windows has one // root directory per disk drive.) bool FilePath::IsRootDirectory() const { #if GTEST_OS_WINDOWS // TODO(wan@google.com): on Windows a network share like // \\server\share can be a root directory, although it cannot be the // current directory. Handle this properly. return pathname_.length() == 3 && IsAbsolutePath(); #else return pathname_.length() == 1 && IsPathSeparator(pathname_.c_str()[0]); #endif } // Returns true if pathname describes an absolute path. bool FilePath::IsAbsolutePath() const { const char* const name = pathname_.c_str(); #if GTEST_OS_WINDOWS return pathname_.length() >= 3 && ((name[0] >= 'a' && name[0] <= 'z') || (name[0] >= 'A' && name[0] <= 'Z')) && name[1] == ':' && IsPathSeparator(name[2]); #else return IsPathSeparator(name[0]); #endif } // Returns a pathname for a file that does not currently exist. The pathname // will be directory/base_name.extension or // directory/base_name_.extension if directory/base_name.extension // already exists. The number will be incremented until a pathname is found // that does not already exist. // Examples: 'dir/foo_test.xml' or 'dir/foo_test_1.xml'. // There could be a race condition if two or more processes are calling this // function at the same time -- they could both pick the same filename. FilePath FilePath::GenerateUniqueFileName(const FilePath& directory, const FilePath& base_name, const char* extension) { FilePath full_pathname; int number = 0; do { full_pathname.Set(MakeFileName(directory, base_name, number++, extension)); } while (full_pathname.FileOrDirectoryExists()); return full_pathname; } // Returns true if FilePath ends with a path separator, which indicates that // it is intended to represent a directory. Returns false otherwise. // This does NOT check that a directory (or file) actually exists. bool FilePath::IsDirectory() const { return !pathname_.empty() && IsPathSeparator(pathname_.c_str()[pathname_.length() - 1]); } // Create directories so that path exists. Returns true if successful or if // the directories already exist; returns false if unable to create directories // for any reason. bool FilePath::CreateDirectoriesRecursively() const { if (!this->IsDirectory()) { return false; } if (pathname_.length() == 0 || this->DirectoryExists()) { return true; } const FilePath parent(this->RemoveTrailingPathSeparator().RemoveFileName()); return parent.CreateDirectoriesRecursively() && this->CreateFolder(); } // Create the directory so that path exists. Returns true if successful or // if the directory already exists; returns false if unable to create the // directory for any reason, including if the parent directory does not // exist. Not named "CreateDirectory" because that's a macro on Windows. bool FilePath::CreateFolder() const { #if GTEST_OS_WINDOWS_MOBILE FilePath removed_sep(this->RemoveTrailingPathSeparator()); LPCWSTR unicode = String::AnsiToUtf16(removed_sep.c_str()); int result = CreateDirectory(unicode, NULL) ? 0 : -1; delete [] unicode; #elif GTEST_OS_WINDOWS int result = _mkdir(pathname_.c_str()); #else int result = mkdir(pathname_.c_str(), 0777); #endif // GTEST_OS_WINDOWS_MOBILE if (result == -1) { return this->DirectoryExists(); // An error is OK if the directory exists. } return true; // No error. } // If input name has a trailing separator character, remove it and return the // name, otherwise return the name string unmodified. // On Windows platform, uses \ as the separator, other platforms use /. FilePath FilePath::RemoveTrailingPathSeparator() const { return IsDirectory() ? FilePath(pathname_.substr(0, pathname_.length() - 1)) : *this; } // Removes any redundant separators that might be in the pathname. // For example, "bar///foo" becomes "bar/foo". Does not eliminate other // redundancies that might be in a pathname involving "." or "..". // TODO(wan@google.com): handle Windows network shares (e.g. \\server\share). void FilePath::Normalize() { if (pathname_.c_str() == NULL) { pathname_ = ""; return; } const char* src = pathname_.c_str(); char* const dest = new char[pathname_.length() + 1]; char* dest_ptr = dest; memset(dest_ptr, 0, pathname_.length() + 1); while (*src != '\0') { *dest_ptr = *src; if (!IsPathSeparator(*src)) { src++; } else { #if GTEST_HAS_ALT_PATH_SEP_ if (*dest_ptr == kAlternatePathSeparator) { *dest_ptr = kPathSeparator; } #endif while (IsPathSeparator(*src)) src++; } dest_ptr++; } *dest_ptr = '\0'; pathname_ = dest; delete[] dest; } } // namespace internal } // namespace testing // Copyright 2008, Google Inc. // All rights reserved. // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following disclaimer // in the documentation and/or other materials provided with the // distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived from // this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // // Author: wan@google.com (Zhanyong Wan) #include #include #include #include #if GTEST_OS_WINDOWS # include # include # include # include // Used in ThreadLocal. #else # include #endif // GTEST_OS_WINDOWS #if GTEST_OS_MAC # include # include # include #endif // GTEST_OS_MAC #if GTEST_OS_QNX # include # include # include #endif // GTEST_OS_QNX // Indicates that this translation unit is part of Google Test's // implementation. It must come before gtest-internal-inl.h is // included, or there will be a compiler error. This trick exists to // prevent the accidental inclusion of gtest-internal-inl.h in the // user's code. #define GTEST_IMPLEMENTATION_ 1 #undef GTEST_IMPLEMENTATION_ namespace testing { namespace internal { #if defined(_MSC_VER) || defined(__BORLANDC__) // MSVC and C++Builder do not provide a definition of STDERR_FILENO. const int kStdOutFileno = 1; const int kStdErrFileno = 2; #else const int kStdOutFileno = STDOUT_FILENO; const int kStdErrFileno = STDERR_FILENO; #endif // _MSC_VER #if GTEST_OS_MAC // Returns the number of threads running in the process, or 0 to indicate that // we cannot detect it. size_t GetThreadCount() { const task_t task = mach_task_self(); mach_msg_type_number_t thread_count; thread_act_array_t thread_list; const kern_return_t status = task_threads(task, &thread_list, &thread_count); if (status == KERN_SUCCESS) { // task_threads allocates resources in thread_list and we need to free them // to avoid leaks. vm_deallocate(task, reinterpret_cast(thread_list), sizeof(thread_t) * thread_count); return static_cast(thread_count); } else { return 0; } } #elif GTEST_OS_QNX // Returns the number of threads running in the process, or 0 to indicate that // we cannot detect it. size_t GetThreadCount() { const int fd = open("/proc/self/as", O_RDONLY); if (fd < 0) { return 0; } procfs_info process_info; const int status = devctl(fd, DCMD_PROC_INFO, &process_info, sizeof(process_info), NULL); close(fd); if (status == EOK) { return static_cast(process_info.num_threads); } else { return 0; } } #else size_t GetThreadCount() { // There's no portable way to detect the number of threads, so we just // return 0 to indicate that we cannot detect it. return 0; } #endif // GTEST_OS_MAC #if GTEST_IS_THREADSAFE && GTEST_OS_WINDOWS void SleepMilliseconds(int n) { ::Sleep(n); } AutoHandle::AutoHandle() : handle_(INVALID_HANDLE_VALUE) {} AutoHandle::AutoHandle(Handle handle) : handle_(handle) {} AutoHandle::~AutoHandle() { Reset(); } AutoHandle::Handle AutoHandle::Get() const { return handle_; } void AutoHandle::Reset() { Reset(INVALID_HANDLE_VALUE); } void AutoHandle::Reset(HANDLE handle) { // Resetting with the same handle we already own is invalid. if (handle_ != handle) { if (IsCloseable()) { ::CloseHandle(handle_); } handle_ = handle; } else { GTEST_CHECK_(!IsCloseable()) << "Resetting a valid handle to itself is likely a programmer error " "and thus not allowed."; } } bool AutoHandle::IsCloseable() const { // Different Windows APIs may use either of these values to represent an // invalid handle. return handle_ != NULL && handle_ != INVALID_HANDLE_VALUE; } Notification::Notification() : event_(::CreateEvent(NULL, // Default security attributes. TRUE, // Do not reset automatically. FALSE, // Initially unset. NULL)) { // Anonymous event. GTEST_CHECK_(event_.Get() != NULL); } void Notification::Notify() { GTEST_CHECK_(::SetEvent(event_.Get()) != FALSE); } void Notification::WaitForNotification() { GTEST_CHECK_( ::WaitForSingleObject(event_.Get(), INFINITE) == WAIT_OBJECT_0); } Mutex::Mutex() : owner_thread_id_(0), type_(kDynamic), critical_section_init_phase_(0), critical_section_(new CRITICAL_SECTION) { ::InitializeCriticalSection(critical_section_); } Mutex::~Mutex() { // Static mutexes are leaked intentionally. It is not thread-safe to try // to clean them up. // TODO(yukawa): Switch to Slim Reader/Writer (SRW) Locks, which requires // nothing to clean it up but is available only on Vista and later. // http://msdn.microsoft.com/en-us/library/windows/desktop/aa904937.aspx if (type_ == kDynamic) { ::DeleteCriticalSection(critical_section_); delete critical_section_; critical_section_ = NULL; } } void Mutex::Lock() { ThreadSafeLazyInit(); ::EnterCriticalSection(critical_section_); owner_thread_id_ = ::GetCurrentThreadId(); } void Mutex::Unlock() { ThreadSafeLazyInit(); // We don't protect writing to owner_thread_id_ here, as it's the // caller's responsibility to ensure that the current thread holds the // mutex when this is called. owner_thread_id_ = 0; ::LeaveCriticalSection(critical_section_); } // Does nothing if the current thread holds the mutex. Otherwise, crashes // with high probability. void Mutex::AssertHeld() { ThreadSafeLazyInit(); GTEST_CHECK_(owner_thread_id_ == ::GetCurrentThreadId()) << "The current thread is not holding the mutex @" << this; } // Initializes owner_thread_id_ and critical_section_ in static mutexes. void Mutex::ThreadSafeLazyInit() { // Dynamic mutexes are initialized in the constructor. if (type_ == kStatic) { switch ( ::InterlockedCompareExchange(&critical_section_init_phase_, 1L, 0L)) { case 0: // If critical_section_init_phase_ was 0 before the exchange, we // are the first to test it and need to perform the initialization. owner_thread_id_ = 0; critical_section_ = new CRITICAL_SECTION; ::InitializeCriticalSection(critical_section_); // Updates the critical_section_init_phase_ to 2 to signal // initialization complete. GTEST_CHECK_(::InterlockedCompareExchange( &critical_section_init_phase_, 2L, 1L) == 1L); break; case 1: // Somebody else is already initializing the mutex; spin until they // are done. while (::InterlockedCompareExchange(&critical_section_init_phase_, 2L, 2L) != 2L) { // Possibly yields the rest of the thread's time slice to other // threads. ::Sleep(0); } break; case 2: break; // The mutex is already initialized and ready for use. default: GTEST_CHECK_(false) << "Unexpected value of critical_section_init_phase_ " << "while initializing a static mutex."; } } } namespace { class ThreadWithParamSupport : public ThreadWithParamBase { public: static HANDLE CreateThread(Runnable* runnable, Notification* thread_can_start) { ThreadMainParam* param = new ThreadMainParam(runnable, thread_can_start); DWORD thread_id; // TODO(yukawa): Consider to use _beginthreadex instead. HANDLE thread_handle = ::CreateThread( NULL, // Default security. 0, // Default stack size. &ThreadWithParamSupport::ThreadMain, param, // Parameter to ThreadMainStatic 0x0, // Default creation flags. &thread_id); // Need a valid pointer for the call to work under Win98. GTEST_CHECK_(thread_handle != NULL) << "CreateThread failed with error " << ::GetLastError() << "."; if (thread_handle == NULL) { delete param; } return thread_handle; } private: struct ThreadMainParam { ThreadMainParam(Runnable* runnable, Notification* thread_can_start) : runnable_(runnable), thread_can_start_(thread_can_start) { } scoped_ptr runnable_; // Does not own. Notification* thread_can_start_; }; static DWORD WINAPI ThreadMain(void* ptr) { // Transfers ownership. scoped_ptr param(static_cast(ptr)); if (param->thread_can_start_ != NULL) param->thread_can_start_->WaitForNotification(); param->runnable_->Run(); return 0; } // Prohibit instantiation. ThreadWithParamSupport(); GTEST_DISALLOW_COPY_AND_ASSIGN_(ThreadWithParamSupport); }; } // namespace ThreadWithParamBase::ThreadWithParamBase(Runnable *runnable, Notification* thread_can_start) : thread_(ThreadWithParamSupport::CreateThread(runnable, thread_can_start)) { } ThreadWithParamBase::~ThreadWithParamBase() { Join(); } void ThreadWithParamBase::Join() { GTEST_CHECK_(::WaitForSingleObject(thread_.Get(), INFINITE) == WAIT_OBJECT_0) << "Failed to join the thread with error " << ::GetLastError() << "."; } // Maps a thread to a set of ThreadIdToThreadLocals that have values // instantiated on that thread and notifies them when the thread exits. A // ThreadLocal instance is expected to persist until all threads it has // values on have terminated. class ThreadLocalRegistryImpl { public: // Registers thread_local_instance as having value on the current thread. // Returns a value that can be used to identify the thread from other threads. static ThreadLocalValueHolderBase* GetValueOnCurrentThread( const ThreadLocalBase* thread_local_instance) { DWORD current_thread = ::GetCurrentThreadId(); MutexLock lock(&mutex_); ThreadIdToThreadLocals* const thread_to_thread_locals = GetThreadLocalsMapLocked(); ThreadIdToThreadLocals::iterator thread_local_pos = thread_to_thread_locals->find(current_thread); if (thread_local_pos == thread_to_thread_locals->end()) { thread_local_pos = thread_to_thread_locals->insert( std::make_pair(current_thread, ThreadLocalValues())).first; StartWatcherThreadFor(current_thread); } ThreadLocalValues& thread_local_values = thread_local_pos->second; ThreadLocalValues::iterator value_pos = thread_local_values.find(thread_local_instance); if (value_pos == thread_local_values.end()) { value_pos = thread_local_values .insert(std::make_pair( thread_local_instance, linked_ptr( thread_local_instance->NewValueForCurrentThread()))) .first; } return value_pos->second.get(); } static void OnThreadLocalDestroyed( const ThreadLocalBase* thread_local_instance) { std::vector > value_holders; // Clean up the ThreadLocalValues data structure while holding the lock, but // defer the destruction of the ThreadLocalValueHolderBases. { MutexLock lock(&mutex_); ThreadIdToThreadLocals* const thread_to_thread_locals = GetThreadLocalsMapLocked(); for (ThreadIdToThreadLocals::iterator it = thread_to_thread_locals->begin(); it != thread_to_thread_locals->end(); ++it) { ThreadLocalValues& thread_local_values = it->second; ThreadLocalValues::iterator value_pos = thread_local_values.find(thread_local_instance); if (value_pos != thread_local_values.end()) { value_holders.push_back(value_pos->second); thread_local_values.erase(value_pos); // This 'if' can only be successful at most once, so theoretically we // could break out of the loop here, but we don't bother doing so. } } } // Outside the lock, let the destructor for 'value_holders' deallocate the // ThreadLocalValueHolderBases. } static void OnThreadExit(DWORD thread_id) { GTEST_CHECK_(thread_id != 0) << ::GetLastError(); std::vector > value_holders; // Clean up the ThreadIdToThreadLocals data structure while holding the // lock, but defer the destruction of the ThreadLocalValueHolderBases. { MutexLock lock(&mutex_); ThreadIdToThreadLocals* const thread_to_thread_locals = GetThreadLocalsMapLocked(); ThreadIdToThreadLocals::iterator thread_local_pos = thread_to_thread_locals->find(thread_id); if (thread_local_pos != thread_to_thread_locals->end()) { ThreadLocalValues& thread_local_values = thread_local_pos->second; for (ThreadLocalValues::iterator value_pos = thread_local_values.begin(); value_pos != thread_local_values.end(); ++value_pos) { value_holders.push_back(value_pos->second); } thread_to_thread_locals->erase(thread_local_pos); } } // Outside the lock, let the destructor for 'value_holders' deallocate the // ThreadLocalValueHolderBases. } private: // In a particular thread, maps a ThreadLocal object to its value. typedef std::map > ThreadLocalValues; // Stores all ThreadIdToThreadLocals having values in a thread, indexed by // thread's ID. typedef std::map ThreadIdToThreadLocals; // Holds the thread id and thread handle that we pass from // StartWatcherThreadFor to WatcherThreadFunc. typedef std::pair ThreadIdAndHandle; static void StartWatcherThreadFor(DWORD thread_id) { // The returned handle will be kept in thread_map and closed by // watcher_thread in WatcherThreadFunc. HANDLE thread = ::OpenThread(SYNCHRONIZE | THREAD_QUERY_INFORMATION, FALSE, thread_id); GTEST_CHECK_(thread != NULL); // We need to to pass a valid thread ID pointer into CreateThread for it // to work correctly under Win98. DWORD watcher_thread_id; HANDLE watcher_thread = ::CreateThread( NULL, // Default security. 0, // Default stack size &ThreadLocalRegistryImpl::WatcherThreadFunc, reinterpret_cast(new ThreadIdAndHandle(thread_id, thread)), CREATE_SUSPENDED, &watcher_thread_id); GTEST_CHECK_(watcher_thread != NULL); // Give the watcher thread the same priority as ours to avoid being // blocked by it. ::SetThreadPriority(watcher_thread, ::GetThreadPriority(::GetCurrentThread())); ::ResumeThread(watcher_thread); ::CloseHandle(watcher_thread); } // Monitors exit from a given thread and notifies those // ThreadIdToThreadLocals about thread termination. static DWORD WINAPI WatcherThreadFunc(LPVOID param) { const ThreadIdAndHandle* tah = reinterpret_cast(param); GTEST_CHECK_( ::WaitForSingleObject(tah->second, INFINITE) == WAIT_OBJECT_0); OnThreadExit(tah->first); ::CloseHandle(tah->second); delete tah; return 0; } // Returns map of thread local instances. static ThreadIdToThreadLocals* GetThreadLocalsMapLocked() { mutex_.AssertHeld(); static ThreadIdToThreadLocals* map = new ThreadIdToThreadLocals; return map; } // Protects access to GetThreadLocalsMapLocked() and its return value. static Mutex mutex_; // Protects access to GetThreadMapLocked() and its return value. static Mutex thread_map_mutex_; }; Mutex ThreadLocalRegistryImpl::mutex_(Mutex::kStaticMutex); Mutex ThreadLocalRegistryImpl::thread_map_mutex_(Mutex::kStaticMutex); ThreadLocalValueHolderBase* ThreadLocalRegistry::GetValueOnCurrentThread( const ThreadLocalBase* thread_local_instance) { return ThreadLocalRegistryImpl::GetValueOnCurrentThread( thread_local_instance); } void ThreadLocalRegistry::OnThreadLocalDestroyed( const ThreadLocalBase* thread_local_instance) { ThreadLocalRegistryImpl::OnThreadLocalDestroyed(thread_local_instance); } #endif // GTEST_IS_THREADSAFE && GTEST_OS_WINDOWS #if GTEST_USES_POSIX_RE // Implements RE. Currently only needed for death tests. RE::~RE() { if (is_valid_) { // regfree'ing an invalid regex might crash because the content // of the regex is undefined. Since the regex's are essentially // the same, one cannot be valid (or invalid) without the other // being so too. regfree(&partial_regex_); regfree(&full_regex_); } free(const_cast(pattern_)); } // Returns true iff regular expression re matches the entire str. bool RE::FullMatch(const char* str, const RE& re) { if (!re.is_valid_) return false; regmatch_t match; return regexec(&re.full_regex_, str, 1, &match, 0) == 0; } // Returns true iff regular expression re matches a substring of str // (including str itself). bool RE::PartialMatch(const char* str, const RE& re) { if (!re.is_valid_) return false; regmatch_t match; return regexec(&re.partial_regex_, str, 1, &match, 0) == 0; } // Initializes an RE from its string representation. void RE::Init(const char* regex) { pattern_ = posix::StrDup(regex); // Reserves enough bytes to hold the regular expression used for a // full match. const size_t full_regex_len = strlen(regex) + 10; char* const full_pattern = new char[full_regex_len]; snprintf(full_pattern, full_regex_len, "^(%s)$", regex); is_valid_ = regcomp(&full_regex_, full_pattern, REG_EXTENDED) == 0; // We want to call regcomp(&partial_regex_, ...) even if the // previous expression returns false. Otherwise partial_regex_ may // not be properly initialized can may cause trouble when it's // freed. // // Some implementation of POSIX regex (e.g. on at least some // versions of Cygwin) doesn't accept the empty string as a valid // regex. We change it to an equivalent form "()" to be safe. if (is_valid_) { const char* const partial_regex = (*regex == '\0') ? "()" : regex; is_valid_ = regcomp(&partial_regex_, partial_regex, REG_EXTENDED) == 0; } EXPECT_TRUE(is_valid_) << "Regular expression \"" << regex << "\" is not a valid POSIX Extended regular expression."; delete[] full_pattern; } #elif GTEST_USES_SIMPLE_RE // Returns true iff ch appears anywhere in str (excluding the // terminating '\0' character). bool IsInSet(char ch, const char* str) { return ch != '\0' && strchr(str, ch) != NULL; } // Returns true iff ch belongs to the given classification. Unlike // similar functions in , these aren't affected by the // current locale. bool IsAsciiDigit(char ch) { return '0' <= ch && ch <= '9'; } bool IsAsciiPunct(char ch) { return IsInSet(ch, "^-!\"#$%&'()*+,./:;<=>?@[\\]_`{|}~"); } bool IsRepeat(char ch) { return IsInSet(ch, "?*+"); } bool IsAsciiWhiteSpace(char ch) { return IsInSet(ch, " \f\n\r\t\v"); } bool IsAsciiWordChar(char ch) { return ('a' <= ch && ch <= 'z') || ('A' <= ch && ch <= 'Z') || ('0' <= ch && ch <= '9') || ch == '_'; } // Returns true iff "\\c" is a supported escape sequence. bool IsValidEscape(char c) { return (IsAsciiPunct(c) || IsInSet(c, "dDfnrsStvwW")); } // Returns true iff the given atom (specified by escaped and pattern) // matches ch. The result is undefined if the atom is invalid. bool AtomMatchesChar(bool escaped, char pattern_char, char ch) { if (escaped) { // "\\p" where p is pattern_char. switch (pattern_char) { case 'd': return IsAsciiDigit(ch); case 'D': return !IsAsciiDigit(ch); case 'f': return ch == '\f'; case 'n': return ch == '\n'; case 'r': return ch == '\r'; case 's': return IsAsciiWhiteSpace(ch); case 'S': return !IsAsciiWhiteSpace(ch); case 't': return ch == '\t'; case 'v': return ch == '\v'; case 'w': return IsAsciiWordChar(ch); case 'W': return !IsAsciiWordChar(ch); } return IsAsciiPunct(pattern_char) && pattern_char == ch; } return (pattern_char == '.' && ch != '\n') || pattern_char == ch; } // Helper function used by ValidateRegex() to format error messages. std::string FormatRegexSyntaxError(const char* regex, int index) { return (Message() << "Syntax error at index " << index << " in simple regular expression \"" << regex << "\": ").GetString(); } // Generates non-fatal failures and returns false if regex is invalid; // otherwise returns true. bool ValidateRegex(const char* regex) { if (regex == NULL) { // TODO(wan@google.com): fix the source file location in the // assertion failures to match where the regex is used in user // code. ADD_FAILURE() << "NULL is not a valid simple regular expression."; return false; } bool is_valid = true; // True iff ?, *, or + can follow the previous atom. bool prev_repeatable = false; for (int i = 0; regex[i]; i++) { if (regex[i] == '\\') { // An escape sequence i++; if (regex[i] == '\0') { ADD_FAILURE() << FormatRegexSyntaxError(regex, i - 1) << "'\\' cannot appear at the end."; return false; } if (!IsValidEscape(regex[i])) { ADD_FAILURE() << FormatRegexSyntaxError(regex, i - 1) << "invalid escape sequence \"\\" << regex[i] << "\"."; is_valid = false; } prev_repeatable = true; } else { // Not an escape sequence. const char ch = regex[i]; if (ch == '^' && i > 0) { ADD_FAILURE() << FormatRegexSyntaxError(regex, i) << "'^' can only appear at the beginning."; is_valid = false; } else if (ch == '$' && regex[i + 1] != '\0') { ADD_FAILURE() << FormatRegexSyntaxError(regex, i) << "'$' can only appear at the end."; is_valid = false; } else if (IsInSet(ch, "()[]{}|")) { ADD_FAILURE() << FormatRegexSyntaxError(regex, i) << "'" << ch << "' is unsupported."; is_valid = false; } else if (IsRepeat(ch) && !prev_repeatable) { ADD_FAILURE() << FormatRegexSyntaxError(regex, i) << "'" << ch << "' can only follow a repeatable token."; is_valid = false; } prev_repeatable = !IsInSet(ch, "^$?*+"); } } return is_valid; } // Matches a repeated regex atom followed by a valid simple regular // expression. The regex atom is defined as c if escaped is false, // or \c otherwise. repeat is the repetition meta character (?, *, // or +). The behavior is undefined if str contains too many // characters to be indexable by size_t, in which case the test will // probably time out anyway. We are fine with this limitation as // std::string has it too. bool MatchRepetitionAndRegexAtHead( bool escaped, char c, char repeat, const char* regex, const char* str) { const size_t min_count = (repeat == '+') ? 1 : 0; const size_t max_count = (repeat == '?') ? 1 : static_cast(-1) - 1; // We cannot call numeric_limits::max() as it conflicts with the // max() macro on Windows. for (size_t i = 0; i <= max_count; ++i) { // We know that the atom matches each of the first i characters in str. if (i >= min_count && MatchRegexAtHead(regex, str + i)) { // We have enough matches at the head, and the tail matches too. // Since we only care about *whether* the pattern matches str // (as opposed to *how* it matches), there is no need to find a // greedy match. return true; } if (str[i] == '\0' || !AtomMatchesChar(escaped, c, str[i])) return false; } return false; } // Returns true iff regex matches a prefix of str. regex must be a // valid simple regular expression and not start with "^", or the // result is undefined. bool MatchRegexAtHead(const char* regex, const char* str) { if (*regex == '\0') // An empty regex matches a prefix of anything. return true; // "$" only matches the end of a string. Note that regex being // valid guarantees that there's nothing after "$" in it. if (*regex == '$') return *str == '\0'; // Is the first thing in regex an escape sequence? const bool escaped = *regex == '\\'; if (escaped) ++regex; if (IsRepeat(regex[1])) { // MatchRepetitionAndRegexAtHead() calls MatchRegexAtHead(), so // here's an indirect recursion. It terminates as the regex gets // shorter in each recursion. return MatchRepetitionAndRegexAtHead( escaped, regex[0], regex[1], regex + 2, str); } else { // regex isn't empty, isn't "$", and doesn't start with a // repetition. We match the first atom of regex with the first // character of str and recurse. return (*str != '\0') && AtomMatchesChar(escaped, *regex, *str) && MatchRegexAtHead(regex + 1, str + 1); } } // Returns true iff regex matches any substring of str. regex must be // a valid simple regular expression, or the result is undefined. // // The algorithm is recursive, but the recursion depth doesn't exceed // the regex length, so we won't need to worry about running out of // stack space normally. In rare cases the time complexity can be // exponential with respect to the regex length + the string length, // but usually it's must faster (often close to linear). bool MatchRegexAnywhere(const char* regex, const char* str) { if (regex == NULL || str == NULL) return false; if (*regex == '^') return MatchRegexAtHead(regex + 1, str); // A successful match can be anywhere in str. do { if (MatchRegexAtHead(regex, str)) return true; } while (*str++ != '\0'); return false; } // Implements the RE class. RE::~RE() { free(const_cast(pattern_)); free(const_cast(full_pattern_)); } // Returns true iff regular expression re matches the entire str. bool RE::FullMatch(const char* str, const RE& re) { return re.is_valid_ && MatchRegexAnywhere(re.full_pattern_, str); } // Returns true iff regular expression re matches a substring of str // (including str itself). bool RE::PartialMatch(const char* str, const RE& re) { return re.is_valid_ && MatchRegexAnywhere(re.pattern_, str); } // Initializes an RE from its string representation. void RE::Init(const char* regex) { pattern_ = full_pattern_ = NULL; if (regex != NULL) { pattern_ = posix::StrDup(regex); } is_valid_ = ValidateRegex(regex); if (!is_valid_) { // No need to calculate the full pattern when the regex is invalid. return; } const size_t len = strlen(regex); // Reserves enough bytes to hold the regular expression used for a // full match: we need space to prepend a '^', append a '$', and // terminate the string with '\0'. char* buffer = static_cast(malloc(len + 3)); full_pattern_ = buffer; if (*regex != '^') *buffer++ = '^'; // Makes sure full_pattern_ starts with '^'. // We don't use snprintf or strncpy, as they trigger a warning when // compiled with VC++ 8.0. memcpy(buffer, regex, len); buffer += len; if (len == 0 || regex[len - 1] != '$') *buffer++ = '$'; // Makes sure full_pattern_ ends with '$'. *buffer = '\0'; } #endif // GTEST_USES_POSIX_RE const char kUnknownFile[] = "unknown file"; // Formats a source file path and a line number as they would appear // in an error message from the compiler used to compile this code. GTEST_API_ ::std::string FormatFileLocation(const char* file, int line) { const std::string file_name(file == NULL ? kUnknownFile : file); if (line < 0) { return file_name + ":"; } #ifdef _MSC_VER return file_name + "(" + StreamableToString(line) + "):"; #else return file_name + ":" + StreamableToString(line) + ":"; #endif // _MSC_VER } // Formats a file location for compiler-independent XML output. // Although this function is not platform dependent, we put it next to // FormatFileLocation in order to contrast the two functions. // Note that FormatCompilerIndependentFileLocation() does NOT append colon // to the file location it produces, unlike FormatFileLocation(). GTEST_API_ ::std::string FormatCompilerIndependentFileLocation( const char* file, int line) { const std::string file_name(file == NULL ? kUnknownFile : file); if (line < 0) return file_name; else return file_name + ":" + StreamableToString(line); } GTestLog::GTestLog(GTestLogSeverity severity, const char* file, int line) : severity_(severity) { const char* const marker = severity == GTEST_INFO ? "[ INFO ]" : severity == GTEST_WARNING ? "[WARNING]" : severity == GTEST_ERROR ? "[ ERROR ]" : "[ FATAL ]"; GetStream() << ::std::endl << marker << " " << FormatFileLocation(file, line).c_str() << ": "; } // Flushes the buffers and, if severity is GTEST_FATAL, aborts the program. GTestLog::~GTestLog() { GetStream() << ::std::endl; if (severity_ == GTEST_FATAL) { fflush(stderr); posix::Abort(); } } // Disable Microsoft deprecation warnings for POSIX functions called from // this class (creat, dup, dup2, and close) GTEST_DISABLE_MSC_WARNINGS_PUSH_(4996) #if GTEST_HAS_STREAM_REDIRECTION // Object that captures an output stream (stdout/stderr). class CapturedStream { public: // The ctor redirects the stream to a temporary file. explicit CapturedStream(int fd) : fd_(fd), uncaptured_fd_(dup(fd)) { # if GTEST_OS_WINDOWS char temp_dir_path[MAX_PATH + 1] = { '\0' }; // NOLINT char temp_file_path[MAX_PATH + 1] = { '\0' }; // NOLINT ::GetTempPathA(sizeof(temp_dir_path), temp_dir_path); const UINT success = ::GetTempFileNameA(temp_dir_path, "gtest_redir", 0, // Generate unique file name. temp_file_path); GTEST_CHECK_(success != 0) << "Unable to create a temporary file in " << temp_dir_path; const int captured_fd = creat(temp_file_path, _S_IREAD | _S_IWRITE); GTEST_CHECK_(captured_fd != -1) << "Unable to open temporary file " << temp_file_path; filename_ = temp_file_path; # else // There's no guarantee that a test has write access to the current // directory, so we create the temporary file in the /tmp directory // instead. We use /tmp on most systems, and /sdcard on Android. // That's because Android doesn't have /tmp. # if GTEST_OS_LINUX_ANDROID // Note: Android applications are expected to call the framework's // Context.getExternalStorageDirectory() method through JNI to get // the location of the world-writable SD Card directory. However, // this requires a Context handle, which cannot be retrieved // globally from native code. Doing so also precludes running the // code as part of a regular standalone executable, which doesn't // run in a Dalvik process (e.g. when running it through 'adb shell'). // // The location /sdcard is directly accessible from native code // and is the only location (unofficially) supported by the Android // team. It's generally a symlink to the real SD Card mount point // which can be /mnt/sdcard, /mnt/sdcard0, /system/media/sdcard, or // other OEM-customized locations. Never rely on these, and always // use /sdcard. char name_template[] = "/sdcard/gtest_captured_stream.XXXXXX"; # else char name_template[] = "/tmp/captured_stream.XXXXXX"; # endif // GTEST_OS_LINUX_ANDROID const int captured_fd = mkstemp(name_template); filename_ = name_template; # endif // GTEST_OS_WINDOWS fflush(NULL); dup2(captured_fd, fd_); close(captured_fd); } ~CapturedStream() { remove(filename_.c_str()); } std::string GetCapturedString() { if (uncaptured_fd_ != -1) { // Restores the original stream. fflush(NULL); dup2(uncaptured_fd_, fd_); close(uncaptured_fd_); uncaptured_fd_ = -1; } FILE* const file = posix::FOpen(filename_.c_str(), "r"); const std::string content = ReadEntireFile(file); posix::FClose(file); return content; } private: // Reads the entire content of a file as an std::string. static std::string ReadEntireFile(FILE* file); // Returns the size (in bytes) of a file. static size_t GetFileSize(FILE* file); const int fd_; // A stream to capture. int uncaptured_fd_; // Name of the temporary file holding the stderr output. ::std::string filename_; GTEST_DISALLOW_COPY_AND_ASSIGN_(CapturedStream); }; // Returns the size (in bytes) of a file. size_t CapturedStream::GetFileSize(FILE* file) { fseek(file, 0, SEEK_END); return static_cast(ftell(file)); } // Reads the entire content of a file as a string. std::string CapturedStream::ReadEntireFile(FILE* file) { const size_t file_size = GetFileSize(file); char* const buffer = new char[file_size]; size_t bytes_last_read = 0; // # of bytes read in the last fread() size_t bytes_read = 0; // # of bytes read so far fseek(file, 0, SEEK_SET); // Keeps reading the file until we cannot read further or the // pre-determined file size is reached. do { bytes_last_read = fread(buffer+bytes_read, 1, file_size-bytes_read, file); bytes_read += bytes_last_read; } while (bytes_last_read > 0 && bytes_read < file_size); const std::string content(buffer, bytes_read); delete[] buffer; return content; } GTEST_DISABLE_MSC_WARNINGS_POP_() static CapturedStream* g_captured_stderr = NULL; static CapturedStream* g_captured_stdout = NULL; // Starts capturing an output stream (stdout/stderr). void CaptureStream(int fd, const char* stream_name, CapturedStream** stream) { if (*stream != NULL) { GTEST_LOG_(FATAL) << "Only one " << stream_name << " capturer can exist at a time."; } *stream = new CapturedStream(fd); } // Stops capturing the output stream and returns the captured string. std::string GetCapturedStream(CapturedStream** captured_stream) { const std::string content = (*captured_stream)->GetCapturedString(); delete *captured_stream; *captured_stream = NULL; return content; } // Starts capturing stdout. void CaptureStdout() { CaptureStream(kStdOutFileno, "stdout", &g_captured_stdout); } // Starts capturing stderr. void CaptureStderr() { CaptureStream(kStdErrFileno, "stderr", &g_captured_stderr); } // Stops capturing stdout and returns the captured string. std::string GetCapturedStdout() { return GetCapturedStream(&g_captured_stdout); } // Stops capturing stderr and returns the captured string. std::string GetCapturedStderr() { return GetCapturedStream(&g_captured_stderr); } #endif // GTEST_HAS_STREAM_REDIRECTION #if GTEST_HAS_DEATH_TEST // A copy of all command line arguments. Set by InitGoogleTest(). ::std::vector g_argvs; static const ::std::vector* g_injected_test_argvs = NULL; // Owned. void SetInjectableArgvs(const ::std::vector* argvs) { if (g_injected_test_argvs != argvs) delete g_injected_test_argvs; g_injected_test_argvs = argvs; } const ::std::vector& GetInjectableArgvs() { if (g_injected_test_argvs != NULL) { return *g_injected_test_argvs; } return g_argvs; } #endif // GTEST_HAS_DEATH_TEST #if GTEST_OS_WINDOWS_MOBILE namespace posix { void Abort() { DebugBreak(); TerminateProcess(GetCurrentProcess(), 1); } } // namespace posix #endif // GTEST_OS_WINDOWS_MOBILE // Returns the name of the environment variable corresponding to the // given flag. For example, FlagToEnvVar("foo") will return // "GTEST_FOO" in the open-source version. static std::string FlagToEnvVar(const char* flag) { const std::string full_flag = (Message() << GTEST_FLAG_PREFIX_ << flag).GetString(); Message env_var; for (size_t i = 0; i != full_flag.length(); i++) { env_var << ToUpper(full_flag.c_str()[i]); } return env_var.GetString(); } // Parses 'str' for a 32-bit signed integer. If successful, writes // the result to *value and returns true; otherwise leaves *value // unchanged and returns false. bool ParseInt32(const Message& src_text, const char* str, Int32* value) { // Parses the environment variable as a decimal integer. char* end = NULL; const long long_value = strtol(str, &end, 10); // NOLINT // Has strtol() consumed all characters in the string? if (*end != '\0') { // No - an invalid character was encountered. Message msg; msg << "WARNING: " << src_text << " is expected to be a 32-bit integer, but actually" << " has value \"" << str << "\".\n"; printf("%s", msg.GetString().c_str()); fflush(stdout); return false; } // Is the parsed value in the range of an Int32? const Int32 result = static_cast(long_value); if (long_value == LONG_MAX || long_value == LONG_MIN || // The parsed value overflows as a long. (strtol() returns // LONG_MAX or LONG_MIN when the input overflows.) result != long_value // The parsed value overflows as an Int32. ) { Message msg; msg << "WARNING: " << src_text << " is expected to be a 32-bit integer, but actually" << " has value " << str << ", which overflows.\n"; printf("%s", msg.GetString().c_str()); fflush(stdout); return false; } *value = result; return true; } // Reads and returns the Boolean environment variable corresponding to // the given flag; if it's not set, returns default_value. // // The value is considered true iff it's not "0". bool BoolFromGTestEnv(const char* flag, bool default_value) { const std::string env_var = FlagToEnvVar(flag); const char* const string_value = posix::GetEnv(env_var.c_str()); return string_value == NULL ? default_value : strcmp(string_value, "0") != 0; } // Reads and returns a 32-bit integer stored in the environment // variable corresponding to the given flag; if it isn't set or // doesn't represent a valid 32-bit integer, returns default_value. Int32 Int32FromGTestEnv(const char* flag, Int32 default_value) { const std::string env_var = FlagToEnvVar(flag); const char* const string_value = posix::GetEnv(env_var.c_str()); if (string_value == NULL) { // The environment variable is not set. return default_value; } Int32 result = default_value; if (!ParseInt32(Message() << "Environment variable " << env_var, string_value, &result)) { printf("The default value %s is used.\n", (Message() << default_value).GetString().c_str()); fflush(stdout); return default_value; } return result; } // Reads and returns the string environment variable corresponding to // the given flag; if it's not set, returns default_value. const char* StringFromGTestEnv(const char* flag, const char* default_value) { const std::string env_var = FlagToEnvVar(flag); const char* const value = posix::GetEnv(env_var.c_str()); return value == NULL ? default_value : value; } } // namespace internal } // namespace testing // Copyright 2007, Google Inc. // All rights reserved. // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following disclaimer // in the documentation and/or other materials provided with the // distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived from // this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // // Author: wan@google.com (Zhanyong Wan) // Google Test - The Google C++ Testing Framework // // This file implements a universal value printer that can print a // value of any type T: // // void ::testing::internal::UniversalPrinter::Print(value, ostream_ptr); // // It uses the << operator when possible, and prints the bytes in the // object otherwise. A user can override its behavior for a class // type Foo by defining either operator<<(::std::ostream&, const Foo&) // or void PrintTo(const Foo&, ::std::ostream*) in the namespace that // defines Foo. #include #include #include #include // NOLINT #include namespace testing { namespace { using ::std::ostream; // Prints a segment of bytes in the given object. GTEST_ATTRIBUTE_NO_SANITIZE_MEMORY_ GTEST_ATTRIBUTE_NO_SANITIZE_ADDRESS_ GTEST_ATTRIBUTE_NO_SANITIZE_THREAD_ void PrintByteSegmentInObjectTo(const unsigned char* obj_bytes, size_t start, size_t count, ostream* os) { char text[5] = ""; for (size_t i = 0; i != count; i++) { const size_t j = start + i; if (i != 0) { // Organizes the bytes into groups of 2 for easy parsing by // human. if ((j % 2) == 0) *os << ' '; else *os << '-'; } GTEST_SNPRINTF_(text, sizeof(text), "%02X", obj_bytes[j]); *os << text; } } // Prints the bytes in the given value to the given ostream. void PrintBytesInObjectToImpl(const unsigned char* obj_bytes, size_t count, ostream* os) { // Tells the user how big the object is. *os << count << "-byte object <"; const size_t kThreshold = 132; const size_t kChunkSize = 64; // If the object size is bigger than kThreshold, we'll have to omit // some details by printing only the first and the last kChunkSize // bytes. // TODO(wan): let the user control the threshold using a flag. if (count < kThreshold) { PrintByteSegmentInObjectTo(obj_bytes, 0, count, os); } else { PrintByteSegmentInObjectTo(obj_bytes, 0, kChunkSize, os); *os << " ... "; // Rounds up to 2-byte boundary. const size_t resume_pos = (count - kChunkSize + 1)/2*2; PrintByteSegmentInObjectTo(obj_bytes, resume_pos, count - resume_pos, os); } *os << ">"; } } // namespace namespace internal2 { // Delegates to PrintBytesInObjectToImpl() to print the bytes in the // given object. The delegation simplifies the implementation, which // uses the << operator and thus is easier done outside of the // ::testing::internal namespace, which contains a << operator that // sometimes conflicts with the one in STL. void PrintBytesInObjectTo(const unsigned char* obj_bytes, size_t count, ostream* os) { PrintBytesInObjectToImpl(obj_bytes, count, os); } } // namespace internal2 namespace internal { // Depending on the value of a char (or wchar_t), we print it in one // of three formats: // - as is if it's a printable ASCII (e.g. 'a', '2', ' '), // - as a hexidecimal escape sequence (e.g. '\x7F'), or // - as a special escape sequence (e.g. '\r', '\n'). enum CharFormat { kAsIs, kHexEscape, kSpecialEscape }; // Returns true if c is a printable ASCII character. We test the // value of c directly instead of calling isprint(), which is buggy on // Windows Mobile. inline bool IsPrintableAscii(wchar_t c) { return 0x20 <= c && c <= 0x7E; } // Prints a wide or narrow char c as a character literal without the // quotes, escaping it when necessary; returns how c was formatted. // The template argument UnsignedChar is the unsigned version of Char, // which is the type of c. template static CharFormat PrintAsCharLiteralTo(Char c, ostream* os) { switch (static_cast(c)) { case L'\0': *os << "\\0"; break; case L'\'': *os << "\\'"; break; case L'\\': *os << "\\\\"; break; case L'\a': *os << "\\a"; break; case L'\b': *os << "\\b"; break; case L'\f': *os << "\\f"; break; case L'\n': *os << "\\n"; break; case L'\r': *os << "\\r"; break; case L'\t': *os << "\\t"; break; case L'\v': *os << "\\v"; break; default: if (IsPrintableAscii(c)) { *os << static_cast(c); return kAsIs; } else { *os << "\\x" + String::FormatHexInt(static_cast(c)); return kHexEscape; } } return kSpecialEscape; } // Prints a wchar_t c as if it's part of a string literal, escaping it when // necessary; returns how c was formatted. static CharFormat PrintAsStringLiteralTo(wchar_t c, ostream* os) { switch (c) { case L'\'': *os << "'"; return kAsIs; case L'"': *os << "\\\""; return kSpecialEscape; default: return PrintAsCharLiteralTo(c, os); } } // Prints a char c as if it's part of a string literal, escaping it when // necessary; returns how c was formatted. static CharFormat PrintAsStringLiteralTo(char c, ostream* os) { return PrintAsStringLiteralTo( static_cast(static_cast(c)), os); } // Prints a wide or narrow character c and its code. '\0' is printed // as "'\\0'", other unprintable characters are also properly escaped // using the standard C++ escape sequence. The template argument // UnsignedChar is the unsigned version of Char, which is the type of c. template void PrintCharAndCodeTo(Char c, ostream* os) { // First, print c as a literal in the most readable form we can find. *os << ((sizeof(c) > 1) ? "L'" : "'"); const CharFormat format = PrintAsCharLiteralTo(c, os); *os << "'"; // To aid user debugging, we also print c's code in decimal, unless // it's 0 (in which case c was printed as '\\0', making the code // obvious). if (c == 0) return; *os << " (" << static_cast(c); // For more convenience, we print c's code again in hexidecimal, // unless c was already printed in the form '\x##' or the code is in // [1, 9]. if (format == kHexEscape || (1 <= c && c <= 9)) { // Do nothing. } else { *os << ", 0x" << String::FormatHexInt(static_cast(c)); } *os << ")"; } void PrintTo(unsigned char c, ::std::ostream* os) { PrintCharAndCodeTo(c, os); } void PrintTo(signed char c, ::std::ostream* os) { PrintCharAndCodeTo(c, os); } // Prints a wchar_t as a symbol if it is printable or as its internal // code otherwise and also as its code. L'\0' is printed as "L'\\0'". void PrintTo(wchar_t wc, ostream* os) { PrintCharAndCodeTo(wc, os); } // Prints the given array of characters to the ostream. CharType must be either // char or wchar_t. // The array starts at begin, the length is len, it may include '\0' characters // and may not be NUL-terminated. template GTEST_ATTRIBUTE_NO_SANITIZE_MEMORY_ GTEST_ATTRIBUTE_NO_SANITIZE_ADDRESS_ GTEST_ATTRIBUTE_NO_SANITIZE_THREAD_ static void PrintCharsAsStringTo( const CharType* begin, size_t len, ostream* os) { const char* const kQuoteBegin = sizeof(CharType) == 1 ? "\"" : "L\""; *os << kQuoteBegin; bool is_previous_hex = false; for (size_t index = 0; index < len; ++index) { const CharType cur = begin[index]; if (is_previous_hex && IsXDigit(cur)) { // Previous character is of '\x..' form and this character can be // interpreted as another hexadecimal digit in its number. Break string to // disambiguate. *os << "\" " << kQuoteBegin; } is_previous_hex = PrintAsStringLiteralTo(cur, os) == kHexEscape; } *os << "\""; } // Prints a (const) char/wchar_t array of 'len' elements, starting at address // 'begin'. CharType must be either char or wchar_t. template GTEST_ATTRIBUTE_NO_SANITIZE_MEMORY_ GTEST_ATTRIBUTE_NO_SANITIZE_ADDRESS_ GTEST_ATTRIBUTE_NO_SANITIZE_THREAD_ static void UniversalPrintCharArray( const CharType* begin, size_t len, ostream* os) { // The code // const char kFoo[] = "foo"; // generates an array of 4, not 3, elements, with the last one being '\0'. // // Therefore when printing a char array, we don't print the last element if // it's '\0', such that the output matches the string literal as it's // written in the source code. if (len > 0 && begin[len - 1] == '\0') { PrintCharsAsStringTo(begin, len - 1, os); return; } // If, however, the last element in the array is not '\0', e.g. // const char kFoo[] = { 'f', 'o', 'o' }; // we must print the entire array. We also print a message to indicate // that the array is not NUL-terminated. PrintCharsAsStringTo(begin, len, os); *os << " (no terminating NUL)"; } // Prints a (const) char array of 'len' elements, starting at address 'begin'. void UniversalPrintArray(const char* begin, size_t len, ostream* os) { UniversalPrintCharArray(begin, len, os); } // Prints a (const) wchar_t array of 'len' elements, starting at address // 'begin'. void UniversalPrintArray(const wchar_t* begin, size_t len, ostream* os) { UniversalPrintCharArray(begin, len, os); } // Prints the given C string to the ostream. void PrintTo(const char* s, ostream* os) { if (s == NULL) { *os << "NULL"; } else { *os << ImplicitCast_(s) << " pointing to "; PrintCharsAsStringTo(s, strlen(s), os); } } // MSVC compiler can be configured to define whar_t as a typedef // of unsigned short. Defining an overload for const wchar_t* in that case // would cause pointers to unsigned shorts be printed as wide strings, // possibly accessing more memory than intended and causing invalid // memory accesses. MSVC defines _NATIVE_WCHAR_T_DEFINED symbol when // wchar_t is implemented as a native type. #if !defined(_MSC_VER) || defined(_NATIVE_WCHAR_T_DEFINED) // Prints the given wide C string to the ostream. void PrintTo(const wchar_t* s, ostream* os) { if (s == NULL) { *os << "NULL"; } else { *os << ImplicitCast_(s) << " pointing to "; PrintCharsAsStringTo(s, std::wcslen(s), os); } } #endif // wchar_t is native // Prints a ::string object. #if GTEST_HAS_GLOBAL_STRING void PrintStringTo(const ::string& s, ostream* os) { PrintCharsAsStringTo(s.data(), s.size(), os); } #endif // GTEST_HAS_GLOBAL_STRING void PrintStringTo(const ::std::string& s, ostream* os) { PrintCharsAsStringTo(s.data(), s.size(), os); } // Prints a ::wstring object. #if GTEST_HAS_GLOBAL_WSTRING void PrintWideStringTo(const ::wstring& s, ostream* os) { PrintCharsAsStringTo(s.data(), s.size(), os); } #endif // GTEST_HAS_GLOBAL_WSTRING #if GTEST_HAS_STD_WSTRING void PrintWideStringTo(const ::std::wstring& s, ostream* os) { PrintCharsAsStringTo(s.data(), s.size(), os); } #endif // GTEST_HAS_STD_WSTRING } // namespace internal } // namespace testing // Copyright 2008, Google Inc. // All rights reserved. // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following disclaimer // in the documentation and/or other materials provided with the // distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived from // this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // // Author: mheule@google.com (Markus Heule) // // The Google C++ Testing Framework (Google Test) // Indicates that this translation unit is part of Google Test's // implementation. It must come before gtest-internal-inl.h is // included, or there will be a compiler error. This trick exists to // prevent the accidental inclusion of gtest-internal-inl.h in the // user's code. #define GTEST_IMPLEMENTATION_ 1 #undef GTEST_IMPLEMENTATION_ namespace testing { using internal::GetUnitTestImpl; // Gets the summary of the failure message by omitting the stack trace // in it. std::string TestPartResult::ExtractSummary(const char* message) { const char* const stack_trace = strstr(message, internal::kStackTraceMarker); return stack_trace == NULL ? message : std::string(message, stack_trace); } // Prints a TestPartResult object. std::ostream& operator<<(std::ostream& os, const TestPartResult& result) { return os << result.file_name() << ":" << result.line_number() << ": " << (result.type() == TestPartResult::kSuccess ? "Success" : result.type() == TestPartResult::kFatalFailure ? "Fatal failure" : "Non-fatal failure") << ":\n" << result.message() << std::endl; } // Appends a TestPartResult to the array. void TestPartResultArray::Append(const TestPartResult& result) { array_.push_back(result); } // Returns the TestPartResult at the given index (0-based). const TestPartResult& TestPartResultArray::GetTestPartResult(int index) const { if (index < 0 || index >= size()) { printf("\nInvalid index (%d) into TestPartResultArray.\n", index); internal::posix::Abort(); } return array_[index]; } // Returns the number of TestPartResult objects in the array. int TestPartResultArray::size() const { return static_cast(array_.size()); } namespace internal { HasNewFatalFailureHelper::HasNewFatalFailureHelper() : has_new_fatal_failure_(false), original_reporter_(GetUnitTestImpl()-> GetTestPartResultReporterForCurrentThread()) { GetUnitTestImpl()->SetTestPartResultReporterForCurrentThread(this); } HasNewFatalFailureHelper::~HasNewFatalFailureHelper() { GetUnitTestImpl()->SetTestPartResultReporterForCurrentThread( original_reporter_); } void HasNewFatalFailureHelper::ReportTestPartResult( const TestPartResult& result) { if (result.fatally_failed()) has_new_fatal_failure_ = true; original_reporter_->ReportTestPartResult(result); } } // namespace internal } // namespace testing // Copyright 2008 Google Inc. // All Rights Reserved. // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following disclaimer // in the documentation and/or other materials provided with the // distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived from // this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // // Author: wan@google.com (Zhanyong Wan) namespace testing { namespace internal { #if GTEST_HAS_TYPED_TEST_P // Skips to the first non-space char in str. Returns an empty string if str // contains only whitespace characters. static const char* SkipSpaces(const char* str) { while (IsSpace(*str)) str++; return str; } static std::vector SplitIntoTestNames(const char* src) { std::vector name_vec; src = SkipSpaces(src); for (; src != NULL; src = SkipComma(src)) { name_vec.push_back(StripTrailingSpaces(GetPrefixUntilComma(src))); } return name_vec; } // Verifies that registered_tests match the test names in // defined_test_names_; returns registered_tests if successful, or // aborts the program otherwise. const char* TypedTestCasePState::VerifyRegisteredTestNames( const char* file, int line, const char* registered_tests) { typedef ::std::set::const_iterator DefinedTestIter; registered_ = true; std::vector name_vec = SplitIntoTestNames(registered_tests); Message errors; std::set tests; for (std::vector::const_iterator name_it = name_vec.begin(); name_it != name_vec.end(); ++name_it) { const std::string& name = *name_it; if (tests.count(name) != 0) { errors << "Test " << name << " is listed more than once.\n"; continue; } bool found = false; for (DefinedTestIter it = defined_test_names_.begin(); it != defined_test_names_.end(); ++it) { if (name == *it) { found = true; break; } } if (found) { tests.insert(name); } else { errors << "No test named " << name << " can be found in this test case.\n"; } } for (DefinedTestIter it = defined_test_names_.begin(); it != defined_test_names_.end(); ++it) { if (tests.count(*it) == 0) { errors << "You forgot to list test " << *it << ".\n"; } } const std::string& errors_str = errors.GetString(); if (errors_str != "") { fprintf(stderr, "%s %s", FormatFileLocation(file, line).c_str(), errors_str.c_str()); fflush(stderr); posix::Abort(); } return registered_tests; } #endif // GTEST_HAS_TYPED_TEST_P } // namespace internal } // namespace testing #endif // __clang_analyzer__ rocksdb-5.17.2/third-party/gtest-1.7.0/fused-src/gtest/gtest.h000066400000000000000000032034071337235545400236370ustar00rootroot00000000000000// Copyright 2005, Google Inc. // All rights reserved. // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following disclaimer // in the documentation and/or other materials provided with the // distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived from // this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // // Author: wan@google.com (Zhanyong Wan) // // The Google C++ Testing Framework (Google Test) // // This header file defines the public API for Google Test. It should be // included by any test program that uses Google Test. // // IMPORTANT NOTE: Due to limitation of the C++ language, we have to // leave some internal implementation details in this header file. // They are clearly marked by comments like this: // // // INTERNAL IMPLEMENTATION - DO NOT USE IN A USER PROGRAM. // // Such code is NOT meant to be used by a user directly, and is subject // to CHANGE WITHOUT NOTICE. Therefore DO NOT DEPEND ON IT in a user // program! // // Acknowledgment: Google Test borrowed the idea of automatic test // registration from Barthelemy Dagenais' (barthelemy@prologique.com) // easyUnit framework. #ifndef GTEST_INCLUDE_GTEST_GTEST_H_ #define GTEST_INCLUDE_GTEST_GTEST_H_ #include #include #include // Copyright 2005, Google Inc. // All rights reserved. // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following disclaimer // in the documentation and/or other materials provided with the // distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived from // this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // // Authors: wan@google.com (Zhanyong Wan), eefacm@gmail.com (Sean Mcafee) // // The Google C++ Testing Framework (Google Test) // // This header file declares functions and macros used internally by // Google Test. They are subject to change without notice. #ifndef GTEST_INCLUDE_GTEST_INTERNAL_GTEST_INTERNAL_H_ #define GTEST_INCLUDE_GTEST_INTERNAL_GTEST_INTERNAL_H_ // Copyright 2005, Google Inc. // All rights reserved. // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following disclaimer // in the documentation and/or other materials provided with the // distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived from // this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // // Authors: wan@google.com (Zhanyong Wan) // // Low-level types and utilities for porting Google Test to various // platforms. All macros ending with _ and symbols defined in an // internal namespace are subject to change without notice. Code // outside Google Test MUST NOT USE THEM DIRECTLY. Macros that don't // end with _ are part of Google Test's public API and can be used by // code outside Google Test. // // This file is fundamental to Google Test. All other Google Test source // files are expected to #include this. Therefore, it cannot #include // any other Google Test header. #ifndef GTEST_INCLUDE_GTEST_INTERNAL_GTEST_PORT_H_ #define GTEST_INCLUDE_GTEST_INTERNAL_GTEST_PORT_H_ // Environment-describing macros // ----------------------------- // // Google Test can be used in many different environments. Macros in // this section tell Google Test what kind of environment it is being // used in, such that Google Test can provide environment-specific // features and implementations. // // Google Test tries to automatically detect the properties of its // environment, so users usually don't need to worry about these // macros. However, the automatic detection is not perfect. // Sometimes it's necessary for a user to define some of the following // macros in the build script to override Google Test's decisions. // // If the user doesn't define a macro in the list, Google Test will // provide a default definition. After this header is #included, all // macros in this list will be defined to either 1 or 0. // // Notes to maintainers: // - Each macro here is a user-tweakable knob; do not grow the list // lightly. // - Use #if to key off these macros. Don't use #ifdef or "#if // defined(...)", which will not work as these macros are ALWAYS // defined. // // GTEST_HAS_CLONE - Define it to 1/0 to indicate that clone(2) // is/isn't available. // GTEST_HAS_EXCEPTIONS - Define it to 1/0 to indicate that exceptions // are enabled. // GTEST_HAS_GLOBAL_STRING - Define it to 1/0 to indicate that ::string // is/isn't available (some systems define // ::string, which is different to std::string). // GTEST_HAS_GLOBAL_WSTRING - Define it to 1/0 to indicate that ::string // is/isn't available (some systems define // ::wstring, which is different to std::wstring). // GTEST_HAS_POSIX_RE - Define it to 1/0 to indicate that POSIX regular // expressions are/aren't available. // GTEST_HAS_PTHREAD - Define it to 1/0 to indicate that // is/isn't available. // GTEST_HAS_RTTI - Define it to 1/0 to indicate that RTTI is/isn't // enabled. // GTEST_HAS_STD_WSTRING - Define it to 1/0 to indicate that // std::wstring does/doesn't work (Google Test can // be used where std::wstring is unavailable). // GTEST_HAS_TR1_TUPLE - Define it to 1/0 to indicate tr1::tuple // is/isn't available. // GTEST_HAS_SEH - Define it to 1/0 to indicate whether the // compiler supports Microsoft's "Structured // Exception Handling". // GTEST_HAS_STREAM_REDIRECTION // - Define it to 1/0 to indicate whether the // platform supports I/O stream redirection using // dup() and dup2(). // GTEST_USE_OWN_TR1_TUPLE - Define it to 1/0 to indicate whether Google // Test's own tr1 tuple implementation should be // used. Unused when the user sets // GTEST_HAS_TR1_TUPLE to 0. // GTEST_LANG_CXX11 - Define it to 1/0 to indicate that Google Test // is building in C++11/C++98 mode. // GTEST_LINKED_AS_SHARED_LIBRARY // - Define to 1 when compiling tests that use // Google Test as a shared library (known as // DLL on Windows). // GTEST_CREATE_SHARED_LIBRARY // - Define to 1 when compiling Google Test itself // as a shared library. // Platform-indicating macros // -------------------------- // // Macros indicating the platform on which Google Test is being used // (a macro is defined to 1 if compiled on the given platform; // otherwise UNDEFINED -- it's never defined to 0.). Google Test // defines these macros automatically. Code outside Google Test MUST // NOT define them. // // GTEST_OS_AIX - IBM AIX // GTEST_OS_CYGWIN - Cygwin // GTEST_OS_FREEBSD - FreeBSD // GTEST_OS_HPUX - HP-UX // GTEST_OS_LINUX - Linux // GTEST_OS_LINUX_ANDROID - Google Android // GTEST_OS_MAC - Mac OS X // GTEST_OS_IOS - iOS // GTEST_OS_NACL - Google Native Client (NaCl) // GTEST_OS_OPENBSD - OpenBSD // GTEST_OS_QNX - QNX // GTEST_OS_SOLARIS - Sun Solaris // GTEST_OS_SYMBIAN - Symbian // GTEST_OS_WINDOWS - Windows (Desktop, MinGW, or Mobile) // GTEST_OS_WINDOWS_DESKTOP - Windows Desktop // GTEST_OS_WINDOWS_MINGW - MinGW // GTEST_OS_WINDOWS_MOBILE - Windows Mobile // GTEST_OS_WINDOWS_PHONE - Windows Phone // GTEST_OS_WINDOWS_RT - Windows Store App/WinRT // GTEST_OS_ZOS - z/OS // // Among the platforms, Cygwin, Linux, Max OS X, and Windows have the // most stable support. Since core members of the Google Test project // don't have access to other platforms, support for them may be less // stable. If you notice any problems on your platform, please notify // googletestframework@googlegroups.com (patches for fixing them are // even more welcome!). // // It is possible that none of the GTEST_OS_* macros are defined. // Feature-indicating macros // ------------------------- // // Macros indicating which Google Test features are available (a macro // is defined to 1 if the corresponding feature is supported; // otherwise UNDEFINED -- it's never defined to 0.). Google Test // defines these macros automatically. Code outside Google Test MUST // NOT define them. // // These macros are public so that portable tests can be written. // Such tests typically surround code using a feature with an #if // which controls that code. For example: // // #if GTEST_HAS_DEATH_TEST // EXPECT_DEATH(DoSomethingDeadly()); // #endif // // GTEST_HAS_COMBINE - the Combine() function (for value-parameterized // tests) // GTEST_HAS_DEATH_TEST - death tests // GTEST_HAS_PARAM_TEST - value-parameterized tests // GTEST_HAS_TYPED_TEST - typed tests // GTEST_HAS_TYPED_TEST_P - type-parameterized tests // GTEST_IS_THREADSAFE - Google Test is thread-safe. // GTEST_USES_POSIX_RE - enhanced POSIX regex is used. Do not confuse with // GTEST_HAS_POSIX_RE (see above) which users can // define themselves. // GTEST_USES_SIMPLE_RE - our own simple regex is used; // the above two are mutually exclusive. // GTEST_CAN_COMPARE_NULL - accepts untyped NULL in EXPECT_EQ(). // Misc public macros // ------------------ // // GTEST_FLAG(flag_name) - references the variable corresponding to // the given Google Test flag. // Internal utilities // ------------------ // // The following macros and utilities are for Google Test's INTERNAL // use only. Code outside Google Test MUST NOT USE THEM DIRECTLY. // // Macros for basic C++ coding: // GTEST_AMBIGUOUS_ELSE_BLOCKER_ - for disabling a gcc warning. // GTEST_ATTRIBUTE_UNUSED_ - declares that a class' instances or a // variable don't have to be used. // GTEST_DISALLOW_ASSIGN_ - disables operator=. // GTEST_DISALLOW_COPY_AND_ASSIGN_ - disables copy ctor and operator=. // GTEST_MUST_USE_RESULT_ - declares that a function's result must be used. // GTEST_INTENTIONAL_CONST_COND_PUSH_ - start code section where MSVC C4127 is // suppressed (constant conditional). // GTEST_INTENTIONAL_CONST_COND_POP_ - finish code section where MSVC C4127 // is suppressed. // // C++11 feature wrappers: // // testing::internal::move - portability wrapper for std::move. // // Synchronization: // Mutex, MutexLock, ThreadLocal, GetThreadCount() // - synchronization primitives. // // Template meta programming: // is_pointer - as in TR1; needed on Symbian and IBM XL C/C++ only. // IteratorTraits - partial implementation of std::iterator_traits, which // is not available in libCstd when compiled with Sun C++. // // Smart pointers: // scoped_ptr - as in TR2. // // Regular expressions: // RE - a simple regular expression class using the POSIX // Extended Regular Expression syntax on UNIX-like // platforms, or a reduced regular exception syntax on // other platforms, including Windows. // // Logging: // GTEST_LOG_() - logs messages at the specified severity level. // LogToStderr() - directs all log messages to stderr. // FlushInfoLog() - flushes informational log messages. // // Stdout and stderr capturing: // CaptureStdout() - starts capturing stdout. // GetCapturedStdout() - stops capturing stdout and returns the captured // string. // CaptureStderr() - starts capturing stderr. // GetCapturedStderr() - stops capturing stderr and returns the captured // string. // // Integer types: // TypeWithSize - maps an integer to a int type. // Int32, UInt32, Int64, UInt64, TimeInMillis // - integers of known sizes. // BiggestInt - the biggest signed integer type. // // Command-line utilities: // GTEST_DECLARE_*() - declares a flag. // GTEST_DEFINE_*() - defines a flag. // GetInjectableArgvs() - returns the command line as a vector of strings. // // Environment variable utilities: // GetEnv() - gets the value of an environment variable. // BoolFromGTestEnv() - parses a bool environment variable. // Int32FromGTestEnv() - parses an Int32 environment variable. // StringFromGTestEnv() - parses a string environment variable. #include // for isspace, etc #include // for ptrdiff_t #include #include #include #ifndef _WIN32_WCE # include # include #endif // !_WIN32_WCE #if defined __APPLE__ # include # include #endif #include // NOLINT #include // NOLINT #include // NOLINT #include // NOLINT #include #define GTEST_DEV_EMAIL_ "googletestframework@@googlegroups.com" #define GTEST_FLAG_PREFIX_ "gtest_" #define GTEST_FLAG_PREFIX_DASH_ "gtest-" #define GTEST_FLAG_PREFIX_UPPER_ "GTEST_" #define GTEST_NAME_ "Google Test" #define GTEST_PROJECT_URL_ "http://code.google.com/p/googletest/" // Determines the version of gcc that is used to compile this. #ifdef __GNUC__ // 40302 means version 4.3.2. # define GTEST_GCC_VER_ \ (__GNUC__*10000 + __GNUC_MINOR__*100 + __GNUC_PATCHLEVEL__) #endif // __GNUC__ // Determines the platform on which Google Test is compiled. #ifdef __CYGWIN__ # define GTEST_OS_CYGWIN 1 #elif defined __SYMBIAN32__ # define GTEST_OS_SYMBIAN 1 #elif defined _WIN32 # define GTEST_OS_WINDOWS 1 # ifdef _WIN32_WCE # define GTEST_OS_WINDOWS_MOBILE 1 # elif defined(__MINGW__) || defined(__MINGW32__) # define GTEST_OS_WINDOWS_MINGW 1 # elif defined(WINAPI_FAMILY) # include # if WINAPI_FAMILY_PARTITION(WINAPI_PARTITION_DESKTOP) # define GTEST_OS_WINDOWS_DESKTOP 1 # elif WINAPI_FAMILY_PARTITION(WINAPI_PARTITION_PHONE_APP) # define GTEST_OS_WINDOWS_PHONE 1 # elif WINAPI_FAMILY_PARTITION(WINAPI_PARTITION_APP) # define GTEST_OS_WINDOWS_RT 1 # else // WINAPI_FAMILY defined but no known partition matched. // Default to desktop. # define GTEST_OS_WINDOWS_DESKTOP 1 # endif # else # define GTEST_OS_WINDOWS_DESKTOP 1 # endif // _WIN32_WCE #elif defined __APPLE__ # define GTEST_OS_MAC 1 # if TARGET_OS_IPHONE # define GTEST_OS_IOS 1 # endif #elif defined __FreeBSD__ # define GTEST_OS_FREEBSD 1 #elif defined __linux__ # define GTEST_OS_LINUX 1 # if defined __ANDROID__ # define GTEST_OS_LINUX_ANDROID 1 # endif #elif defined __MVS__ # define GTEST_OS_ZOS 1 #elif defined(__sun) && defined(__SVR4) # define GTEST_OS_SOLARIS 1 #elif defined(_AIX) # define GTEST_OS_AIX 1 #elif defined(__hpux) # define GTEST_OS_HPUX 1 #elif defined __native_client__ # define GTEST_OS_NACL 1 #elif defined __OpenBSD__ # define GTEST_OS_OPENBSD 1 #elif defined __QNX__ # define GTEST_OS_QNX 1 #endif // __CYGWIN__ // Macros for disabling Microsoft Visual C++ warnings. // // GTEST_DISABLE_MSC_WARNINGS_PUSH_(4800 4385) // /* code that triggers warnings C4800 and C4385 */ // GTEST_DISABLE_MSC_WARNINGS_POP_() #if _MSC_VER >= 1500 # define GTEST_DISABLE_MSC_WARNINGS_PUSH_(warnings) \ __pragma(warning(push)) \ __pragma(warning(disable: warnings)) # define GTEST_DISABLE_MSC_WARNINGS_POP_() \ __pragma(warning(pop)) #else // Older versions of MSVC don't have __pragma. # define GTEST_DISABLE_MSC_WARNINGS_PUSH_(warnings) # define GTEST_DISABLE_MSC_WARNINGS_POP_() #endif #ifndef GTEST_LANG_CXX11 // gcc and clang define __GXX_EXPERIMENTAL_CXX0X__ when // -std={c,gnu}++{0x,11} is passed. The C++11 standard specifies a // value for __cplusplus, and recent versions of clang, gcc, and // probably other compilers set that too in C++11 mode. # if __GXX_EXPERIMENTAL_CXX0X__ || __cplusplus >= 201103L // Compiling in at least C++11 mode. # define GTEST_LANG_CXX11 1 # else # define GTEST_LANG_CXX11 0 # endif #endif // Distinct from C++11 language support, some environments don't provide // proper C++11 library support. Notably, it's possible to build in // C++11 mode when targeting Mac OS X 10.6, which has an old libstdc++ // with no C++11 support. // // libstdc++ has sufficient C++11 support as of GCC 4.6.0, __GLIBCXX__ // 20110325, but maintenance releases in the 4.4 and 4.5 series followed // this date, so check for those versions by their date stamps. // https://gcc.gnu.org/onlinedocs/libstdc++/manual/abi.html#abi.versioning #if GTEST_LANG_CXX11 && \ (!defined(__GLIBCXX__) || ( \ __GLIBCXX__ >= 20110325ul && /* GCC >= 4.6.0 */ \ /* Blacklist of patch releases of older branches: */ \ __GLIBCXX__ != 20110416ul && /* GCC 4.4.6 */ \ __GLIBCXX__ != 20120313ul && /* GCC 4.4.7 */ \ __GLIBCXX__ != 20110428ul && /* GCC 4.5.3 */ \ __GLIBCXX__ != 20120702ul)) /* GCC 4.5.4 */ # define GTEST_STDLIB_CXX11 1 #endif // Only use C++11 library features if the library provides them. #if GTEST_STDLIB_CXX11 # define GTEST_HAS_STD_BEGIN_AND_END_ 1 # define GTEST_HAS_STD_FORWARD_LIST_ 1 # define GTEST_HAS_STD_FUNCTION_ 1 # define GTEST_HAS_STD_INITIALIZER_LIST_ 1 # define GTEST_HAS_STD_MOVE_ 1 # define GTEST_HAS_STD_UNIQUE_PTR_ 1 #endif // C++11 specifies that provides std::tuple. // Some platforms still might not have it, however. #if GTEST_LANG_CXX11 # define GTEST_HAS_STD_TUPLE_ 1 # if defined(__clang__) // Inspired by http://clang.llvm.org/docs/LanguageExtensions.html#__has_include # if defined(__has_include) && !__has_include() # undef GTEST_HAS_STD_TUPLE_ # endif # elif defined(_MSC_VER) // Inspired by boost/config/stdlib/dinkumware.hpp # if defined(_CPPLIB_VER) && _CPPLIB_VER < 520 # undef GTEST_HAS_STD_TUPLE_ # endif # elif defined(__GLIBCXX__) // Inspired by boost/config/stdlib/libstdcpp3.hpp, // http://gcc.gnu.org/gcc-4.2/changes.html and // http://gcc.gnu.org/onlinedocs/libstdc++/manual/bk01pt01ch01.html#manual.intro.status.standard.200x # if __GNUC__ < 4 || (__GNUC__ == 4 && __GNUC_MINOR__ < 2) # undef GTEST_HAS_STD_TUPLE_ # endif # endif #endif // Brings in definitions for functions used in the testing::internal::posix // namespace (read, write, close, chdir, isatty, stat). We do not currently // use them on Windows Mobile. #if GTEST_OS_WINDOWS # if !GTEST_OS_WINDOWS_MOBILE # include # include # endif // In order to avoid having to include , use forward declaration // assuming CRITICAL_SECTION is a typedef of _RTL_CRITICAL_SECTION. // This assumption is verified by // WindowsTypesTest.CRITICAL_SECTIONIs_RTL_CRITICAL_SECTION. struct _RTL_CRITICAL_SECTION; #else // This assumes that non-Windows OSes provide unistd.h. For OSes where this // is not the case, we need to include headers that provide the functions // mentioned above. # include # include #endif // GTEST_OS_WINDOWS #if GTEST_OS_LINUX_ANDROID // Used to define __ANDROID_API__ matching the target NDK API level. # include // NOLINT #endif // Defines this to true iff Google Test can use POSIX regular expressions. #ifndef GTEST_HAS_POSIX_RE # if GTEST_OS_LINUX_ANDROID // On Android, is only available starting with Gingerbread. # define GTEST_HAS_POSIX_RE (__ANDROID_API__ >= 9) # else # define GTEST_HAS_POSIX_RE (!GTEST_OS_WINDOWS) # endif #endif #if GTEST_HAS_POSIX_RE // On some platforms, needs someone to define size_t, and // won't compile otherwise. We can #include it here as we already // included , which is guaranteed to define size_t through // . # include // NOLINT # define GTEST_USES_POSIX_RE 1 #elif GTEST_OS_WINDOWS // is not available on Windows. Use our own simple regex // implementation instead. # define GTEST_USES_SIMPLE_RE 1 #else // may not be available on this platform. Use our own // simple regex implementation instead. # define GTEST_USES_SIMPLE_RE 1 #endif // GTEST_HAS_POSIX_RE #ifndef GTEST_HAS_EXCEPTIONS // The user didn't tell us whether exceptions are enabled, so we need // to figure it out. # if defined(_MSC_VER) || defined(__BORLANDC__) // MSVC's and C++Builder's implementations of the STL use the _HAS_EXCEPTIONS // macro to enable exceptions, so we'll do the same. // Assumes that exceptions are enabled by default. # ifndef _HAS_EXCEPTIONS # define _HAS_EXCEPTIONS 1 # endif // _HAS_EXCEPTIONS # define GTEST_HAS_EXCEPTIONS _HAS_EXCEPTIONS # elif defined(__clang__) // clang defines __EXCEPTIONS iff exceptions are enabled before clang 220714, // but iff cleanups are enabled after that. In Obj-C++ files, there can be // cleanups for ObjC exceptions which also need cleanups, even if C++ exceptions // are disabled. clang has __has_feature(cxx_exceptions) which checks for C++ // exceptions starting at clang r206352, but which checked for cleanups prior to // that. To reliably check for C++ exception availability with clang, check for // __EXCEPTIONS && __has_feature(cxx_exceptions). # define GTEST_HAS_EXCEPTIONS (__EXCEPTIONS && __has_feature(cxx_exceptions)) # elif defined(__GNUC__) && __EXCEPTIONS // gcc defines __EXCEPTIONS to 1 iff exceptions are enabled. # define GTEST_HAS_EXCEPTIONS 1 # elif defined(__SUNPRO_CC) // Sun Pro CC supports exceptions. However, there is no compile-time way of // detecting whether they are enabled or not. Therefore, we assume that // they are enabled unless the user tells us otherwise. # define GTEST_HAS_EXCEPTIONS 1 # elif defined(__IBMCPP__) && __EXCEPTIONS // xlC defines __EXCEPTIONS to 1 iff exceptions are enabled. # define GTEST_HAS_EXCEPTIONS 1 # elif defined(__HP_aCC) // Exception handling is in effect by default in HP aCC compiler. It has to // be turned of by +noeh compiler option if desired. # define GTEST_HAS_EXCEPTIONS 1 # else // For other compilers, we assume exceptions are disabled to be // conservative. # define GTEST_HAS_EXCEPTIONS 0 # endif // defined(_MSC_VER) || defined(__BORLANDC__) #endif // GTEST_HAS_EXCEPTIONS #if !defined(GTEST_HAS_STD_STRING) // Even though we don't use this macro any longer, we keep it in case // some clients still depend on it. # define GTEST_HAS_STD_STRING 1 #elif !GTEST_HAS_STD_STRING // The user told us that ::std::string isn't available. # error "Google Test cannot be used where ::std::string isn't available." #endif // !defined(GTEST_HAS_STD_STRING) #ifndef GTEST_HAS_GLOBAL_STRING // The user didn't tell us whether ::string is available, so we need // to figure it out. # define GTEST_HAS_GLOBAL_STRING 0 #endif // GTEST_HAS_GLOBAL_STRING #ifndef GTEST_HAS_STD_WSTRING // The user didn't tell us whether ::std::wstring is available, so we need // to figure it out. // TODO(wan@google.com): uses autoconf to detect whether ::std::wstring // is available. // Cygwin 1.7 and below doesn't support ::std::wstring. // Solaris' libc++ doesn't support it either. Android has // no support for it at least as recent as Froyo (2.2). # define GTEST_HAS_STD_WSTRING \ (!(GTEST_OS_LINUX_ANDROID || GTEST_OS_CYGWIN || GTEST_OS_SOLARIS)) #endif // GTEST_HAS_STD_WSTRING #ifndef GTEST_HAS_GLOBAL_WSTRING // The user didn't tell us whether ::wstring is available, so we need // to figure it out. # define GTEST_HAS_GLOBAL_WSTRING \ (GTEST_HAS_STD_WSTRING && GTEST_HAS_GLOBAL_STRING) #endif // GTEST_HAS_GLOBAL_WSTRING // Determines whether RTTI is available. #ifndef GTEST_HAS_RTTI // The user didn't tell us whether RTTI is enabled, so we need to // figure it out. # ifdef _MSC_VER # ifdef _CPPRTTI // MSVC defines this macro iff RTTI is enabled. # define GTEST_HAS_RTTI 1 # else # define GTEST_HAS_RTTI 0 # endif // Starting with version 4.3.2, gcc defines __GXX_RTTI iff RTTI is enabled. # elif defined(__GNUC__) && (GTEST_GCC_VER_ >= 40302) # ifdef __GXX_RTTI // When building against STLport with the Android NDK and with // -frtti -fno-exceptions, the build fails at link time with undefined // references to __cxa_bad_typeid. Note sure if STL or toolchain bug, // so disable RTTI when detected. # if GTEST_OS_LINUX_ANDROID && defined(_STLPORT_MAJOR) && \ !defined(__EXCEPTIONS) # define GTEST_HAS_RTTI 0 # else # define GTEST_HAS_RTTI 1 # endif // GTEST_OS_LINUX_ANDROID && __STLPORT_MAJOR && !__EXCEPTIONS # else # define GTEST_HAS_RTTI 0 # endif // __GXX_RTTI // Clang defines __GXX_RTTI starting with version 3.0, but its manual recommends // using has_feature instead. has_feature(cxx_rtti) is supported since 2.7, the // first version with C++ support. # elif defined(__clang__) # define GTEST_HAS_RTTI __has_feature(cxx_rtti) // Starting with version 9.0 IBM Visual Age defines __RTTI_ALL__ to 1 if // both the typeid and dynamic_cast features are present. # elif defined(__IBMCPP__) && (__IBMCPP__ >= 900) # ifdef __RTTI_ALL__ # define GTEST_HAS_RTTI 1 # else # define GTEST_HAS_RTTI 0 # endif # else // For all other compilers, we assume RTTI is enabled. # define GTEST_HAS_RTTI 1 # endif // _MSC_VER #endif // GTEST_HAS_RTTI // It's this header's responsibility to #include when RTTI // is enabled. #if GTEST_HAS_RTTI # include #endif // Determines whether Google Test can use the pthreads library. #ifndef GTEST_HAS_PTHREAD // The user didn't tell us explicitly, so we make reasonable assumptions about // which platforms have pthreads support. // // To disable threading support in Google Test, add -DGTEST_HAS_PTHREAD=0 // to your compiler flags. # define GTEST_HAS_PTHREAD (GTEST_OS_LINUX || GTEST_OS_MAC || GTEST_OS_HPUX \ || GTEST_OS_QNX || GTEST_OS_FREEBSD || GTEST_OS_NACL) #endif // GTEST_HAS_PTHREAD #if GTEST_HAS_PTHREAD // gtest-port.h guarantees to #include when GTEST_HAS_PTHREAD is // true. # include // NOLINT // For timespec and nanosleep, used below. # include // NOLINT #endif // Determines whether Google Test can use tr1/tuple. You can define // this macro to 0 to prevent Google Test from using tuple (any // feature depending on tuple with be disabled in this mode). #ifndef GTEST_HAS_TR1_TUPLE # if GTEST_OS_LINUX_ANDROID && defined(_STLPORT_MAJOR) // STLport, provided with the Android NDK, has neither or . # define GTEST_HAS_TR1_TUPLE 0 # else // The user didn't tell us not to do it, so we assume it's OK. # define GTEST_HAS_TR1_TUPLE 1 # endif #endif // GTEST_HAS_TR1_TUPLE // Determines whether Google Test's own tr1 tuple implementation // should be used. #ifndef GTEST_USE_OWN_TR1_TUPLE // The user didn't tell us, so we need to figure it out. // We use our own TR1 tuple if we aren't sure the user has an // implementation of it already. At this time, libstdc++ 4.0.0+ and // MSVC 2010 are the only mainstream standard libraries that come // with a TR1 tuple implementation. NVIDIA's CUDA NVCC compiler // pretends to be GCC by defining __GNUC__ and friends, but cannot // compile GCC's tuple implementation. MSVC 2008 (9.0) provides TR1 // tuple in a 323 MB Feature Pack download, which we cannot assume the // user has. QNX's QCC compiler is a modified GCC but it doesn't // support TR1 tuple. libc++ only provides std::tuple, in C++11 mode, // and it can be used with some compilers that define __GNUC__. # if (defined(__GNUC__) && !defined(__CUDACC__) && (GTEST_GCC_VER_ >= 40000) \ && !GTEST_OS_QNX && !defined(_LIBCPP_VERSION)) || _MSC_VER >= 1600 # define GTEST_ENV_HAS_TR1_TUPLE_ 1 # endif // C++11 specifies that provides std::tuple. Use that if gtest is used // in C++11 mode and libstdc++ isn't very old (binaries targeting OS X 10.6 // can build with clang but need to use gcc4.2's libstdc++). # if GTEST_LANG_CXX11 && (!defined(__GLIBCXX__) || __GLIBCXX__ > 20110325) # define GTEST_ENV_HAS_STD_TUPLE_ 1 # endif # if GTEST_ENV_HAS_TR1_TUPLE_ || GTEST_ENV_HAS_STD_TUPLE_ # define GTEST_USE_OWN_TR1_TUPLE 0 # else # define GTEST_USE_OWN_TR1_TUPLE 1 # endif #endif // GTEST_USE_OWN_TR1_TUPLE // To avoid conditional compilation everywhere, we make it // gtest-port.h's responsibility to #include the header implementing // tuple. #if GTEST_HAS_STD_TUPLE_ # include // IWYU pragma: export # define GTEST_TUPLE_NAMESPACE_ ::std #endif // GTEST_HAS_STD_TUPLE_ // We include tr1::tuple even if std::tuple is available to define printers for // them. #if GTEST_HAS_TR1_TUPLE # ifndef GTEST_TUPLE_NAMESPACE_ # define GTEST_TUPLE_NAMESPACE_ ::std::tr1 # endif // GTEST_TUPLE_NAMESPACE_ # if GTEST_USE_OWN_TR1_TUPLE // This file was GENERATED by command: // pump.py gtest-tuple.h.pump // DO NOT EDIT BY HAND!!! // Copyright 2009 Google Inc. // All Rights Reserved. // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following disclaimer // in the documentation and/or other materials provided with the // distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived from // this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // // Author: wan@google.com (Zhanyong Wan) // Implements a subset of TR1 tuple needed by Google Test and Google Mock. #ifndef GTEST_INCLUDE_GTEST_INTERNAL_GTEST_TUPLE_H_ #define GTEST_INCLUDE_GTEST_INTERNAL_GTEST_TUPLE_H_ #include // For ::std::pair. // The compiler used in Symbian has a bug that prevents us from declaring the // tuple template as a friend (it complains that tuple is redefined). This // hack bypasses the bug by declaring the members that should otherwise be // private as public. // Sun Studio versions < 12 also have the above bug. #if defined(__SYMBIAN32__) || (defined(__SUNPRO_CC) && __SUNPRO_CC < 0x590) # define GTEST_DECLARE_TUPLE_AS_FRIEND_ public: #else # define GTEST_DECLARE_TUPLE_AS_FRIEND_ \ template friend class tuple; \ private: #endif // Visual Studio 2010, 2012, and 2013 define symbols in std::tr1 that conflict // with our own definitions. Therefore using our own tuple does not work on // those compilers. #if defined(_MSC_VER) && _MSC_VER >= 1600 /* 1600 is Visual Studio 2010 */ # error "gtest's tuple doesn't compile on Visual Studio 2010 or later. \ GTEST_USE_OWN_TR1_TUPLE must be set to 0 on those compilers." #endif // GTEST_n_TUPLE_(T) is the type of an n-tuple. #define GTEST_0_TUPLE_(T) tuple<> #define GTEST_1_TUPLE_(T) tuple #define GTEST_2_TUPLE_(T) tuple #define GTEST_3_TUPLE_(T) tuple #define GTEST_4_TUPLE_(T) tuple #define GTEST_5_TUPLE_(T) tuple #define GTEST_6_TUPLE_(T) tuple #define GTEST_7_TUPLE_(T) tuple #define GTEST_8_TUPLE_(T) tuple #define GTEST_9_TUPLE_(T) tuple #define GTEST_10_TUPLE_(T) tuple // GTEST_n_TYPENAMES_(T) declares a list of n typenames. #define GTEST_0_TYPENAMES_(T) #define GTEST_1_TYPENAMES_(T) typename T##0 #define GTEST_2_TYPENAMES_(T) typename T##0, typename T##1 #define GTEST_3_TYPENAMES_(T) typename T##0, typename T##1, typename T##2 #define GTEST_4_TYPENAMES_(T) typename T##0, typename T##1, typename T##2, \ typename T##3 #define GTEST_5_TYPENAMES_(T) typename T##0, typename T##1, typename T##2, \ typename T##3, typename T##4 #define GTEST_6_TYPENAMES_(T) typename T##0, typename T##1, typename T##2, \ typename T##3, typename T##4, typename T##5 #define GTEST_7_TYPENAMES_(T) typename T##0, typename T##1, typename T##2, \ typename T##3, typename T##4, typename T##5, typename T##6 #define GTEST_8_TYPENAMES_(T) typename T##0, typename T##1, typename T##2, \ typename T##3, typename T##4, typename T##5, typename T##6, typename T##7 #define GTEST_9_TYPENAMES_(T) typename T##0, typename T##1, typename T##2, \ typename T##3, typename T##4, typename T##5, typename T##6, \ typename T##7, typename T##8 #define GTEST_10_TYPENAMES_(T) typename T##0, typename T##1, typename T##2, \ typename T##3, typename T##4, typename T##5, typename T##6, \ typename T##7, typename T##8, typename T##9 // In theory, defining stuff in the ::std namespace is undefined // behavior. We can do this as we are playing the role of a standard // library vendor. namespace std { namespace tr1 { template class tuple; // Anything in namespace gtest_internal is Google Test's INTERNAL // IMPLEMENTATION DETAIL and MUST NOT BE USED DIRECTLY in user code. namespace gtest_internal { // ByRef::type is T if T is a reference; otherwise it's const T&. template struct ByRef { typedef const T& type; }; // NOLINT template struct ByRef { typedef T& type; }; // NOLINT // A handy wrapper for ByRef. #define GTEST_BY_REF_(T) typename ::std::tr1::gtest_internal::ByRef::type // AddRef::type is T if T is a reference; otherwise it's T&. This // is the same as tr1::add_reference::type. template struct AddRef { typedef T& type; }; // NOLINT template struct AddRef { typedef T& type; }; // NOLINT // A handy wrapper for AddRef. #define GTEST_ADD_REF_(T) typename ::std::tr1::gtest_internal::AddRef::type // A helper for implementing get(). template class Get; // A helper for implementing tuple_element. kIndexValid is true // iff k < the number of fields in tuple type T. template struct TupleElement; template struct TupleElement { typedef T0 type; }; template struct TupleElement { typedef T1 type; }; template struct TupleElement { typedef T2 type; }; template struct TupleElement { typedef T3 type; }; template struct TupleElement { typedef T4 type; }; template struct TupleElement { typedef T5 type; }; template struct TupleElement { typedef T6 type; }; template struct TupleElement { typedef T7 type; }; template struct TupleElement { typedef T8 type; }; template struct TupleElement { typedef T9 type; }; } // namespace gtest_internal template <> class tuple<> { public: tuple() {} tuple(const tuple& /* t */) {} tuple& operator=(const tuple& /* t */) { return *this; } }; template class GTEST_1_TUPLE_(T) { public: template friend class gtest_internal::Get; tuple() : f0_() {} explicit tuple(GTEST_BY_REF_(T0) f0) : f0_(f0) {} tuple(const tuple& t) : f0_(t.f0_) {} template tuple(const GTEST_1_TUPLE_(U)& t) : f0_(t.f0_) {} tuple& operator=(const tuple& t) { return CopyFrom(t); } template tuple& operator=(const GTEST_1_TUPLE_(U)& t) { return CopyFrom(t); } GTEST_DECLARE_TUPLE_AS_FRIEND_ template tuple& CopyFrom(const GTEST_1_TUPLE_(U)& t) { f0_ = t.f0_; return *this; } T0 f0_; }; template class GTEST_2_TUPLE_(T) { public: template friend class gtest_internal::Get; tuple() : f0_(), f1_() {} explicit tuple(GTEST_BY_REF_(T0) f0, GTEST_BY_REF_(T1) f1) : f0_(f0), f1_(f1) {} tuple(const tuple& t) : f0_(t.f0_), f1_(t.f1_) {} template tuple(const GTEST_2_TUPLE_(U)& t) : f0_(t.f0_), f1_(t.f1_) {} template tuple(const ::std::pair& p) : f0_(p.first), f1_(p.second) {} tuple& operator=(const tuple& t) { return CopyFrom(t); } template tuple& operator=(const GTEST_2_TUPLE_(U)& t) { return CopyFrom(t); } template tuple& operator=(const ::std::pair& p) { f0_ = p.first; f1_ = p.second; return *this; } GTEST_DECLARE_TUPLE_AS_FRIEND_ template tuple& CopyFrom(const GTEST_2_TUPLE_(U)& t) { f0_ = t.f0_; f1_ = t.f1_; return *this; } T0 f0_; T1 f1_; }; template class GTEST_3_TUPLE_(T) { public: template friend class gtest_internal::Get; tuple() : f0_(), f1_(), f2_() {} explicit tuple(GTEST_BY_REF_(T0) f0, GTEST_BY_REF_(T1) f1, GTEST_BY_REF_(T2) f2) : f0_(f0), f1_(f1), f2_(f2) {} tuple(const tuple& t) : f0_(t.f0_), f1_(t.f1_), f2_(t.f2_) {} template tuple(const GTEST_3_TUPLE_(U)& t) : f0_(t.f0_), f1_(t.f1_), f2_(t.f2_) {} tuple& operator=(const tuple& t) { return CopyFrom(t); } template tuple& operator=(const GTEST_3_TUPLE_(U)& t) { return CopyFrom(t); } GTEST_DECLARE_TUPLE_AS_FRIEND_ template tuple& CopyFrom(const GTEST_3_TUPLE_(U)& t) { f0_ = t.f0_; f1_ = t.f1_; f2_ = t.f2_; return *this; } T0 f0_; T1 f1_; T2 f2_; }; template class GTEST_4_TUPLE_(T) { public: template friend class gtest_internal::Get; tuple() : f0_(), f1_(), f2_(), f3_() {} explicit tuple(GTEST_BY_REF_(T0) f0, GTEST_BY_REF_(T1) f1, GTEST_BY_REF_(T2) f2, GTEST_BY_REF_(T3) f3) : f0_(f0), f1_(f1), f2_(f2), f3_(f3) {} tuple(const tuple& t) : f0_(t.f0_), f1_(t.f1_), f2_(t.f2_), f3_(t.f3_) {} template tuple(const GTEST_4_TUPLE_(U)& t) : f0_(t.f0_), f1_(t.f1_), f2_(t.f2_), f3_(t.f3_) {} tuple& operator=(const tuple& t) { return CopyFrom(t); } template tuple& operator=(const GTEST_4_TUPLE_(U)& t) { return CopyFrom(t); } GTEST_DECLARE_TUPLE_AS_FRIEND_ template tuple& CopyFrom(const GTEST_4_TUPLE_(U)& t) { f0_ = t.f0_; f1_ = t.f1_; f2_ = t.f2_; f3_ = t.f3_; return *this; } T0 f0_; T1 f1_; T2 f2_; T3 f3_; }; template class GTEST_5_TUPLE_(T) { public: template friend class gtest_internal::Get; tuple() : f0_(), f1_(), f2_(), f3_(), f4_() {} explicit tuple(GTEST_BY_REF_(T0) f0, GTEST_BY_REF_(T1) f1, GTEST_BY_REF_(T2) f2, GTEST_BY_REF_(T3) f3, GTEST_BY_REF_(T4) f4) : f0_(f0), f1_(f1), f2_(f2), f3_(f3), f4_(f4) {} tuple(const tuple& t) : f0_(t.f0_), f1_(t.f1_), f2_(t.f2_), f3_(t.f3_), f4_(t.f4_) {} template tuple(const GTEST_5_TUPLE_(U)& t) : f0_(t.f0_), f1_(t.f1_), f2_(t.f2_), f3_(t.f3_), f4_(t.f4_) {} tuple& operator=(const tuple& t) { return CopyFrom(t); } template tuple& operator=(const GTEST_5_TUPLE_(U)& t) { return CopyFrom(t); } GTEST_DECLARE_TUPLE_AS_FRIEND_ template tuple& CopyFrom(const GTEST_5_TUPLE_(U)& t) { f0_ = t.f0_; f1_ = t.f1_; f2_ = t.f2_; f3_ = t.f3_; f4_ = t.f4_; return *this; } T0 f0_; T1 f1_; T2 f2_; T3 f3_; T4 f4_; }; template class GTEST_6_TUPLE_(T) { public: template friend class gtest_internal::Get; tuple() : f0_(), f1_(), f2_(), f3_(), f4_(), f5_() {} explicit tuple(GTEST_BY_REF_(T0) f0, GTEST_BY_REF_(T1) f1, GTEST_BY_REF_(T2) f2, GTEST_BY_REF_(T3) f3, GTEST_BY_REF_(T4) f4, GTEST_BY_REF_(T5) f5) : f0_(f0), f1_(f1), f2_(f2), f3_(f3), f4_(f4), f5_(f5) {} tuple(const tuple& t) : f0_(t.f0_), f1_(t.f1_), f2_(t.f2_), f3_(t.f3_), f4_(t.f4_), f5_(t.f5_) {} template tuple(const GTEST_6_TUPLE_(U)& t) : f0_(t.f0_), f1_(t.f1_), f2_(t.f2_), f3_(t.f3_), f4_(t.f4_), f5_(t.f5_) {} tuple& operator=(const tuple& t) { return CopyFrom(t); } template tuple& operator=(const GTEST_6_TUPLE_(U)& t) { return CopyFrom(t); } GTEST_DECLARE_TUPLE_AS_FRIEND_ template tuple& CopyFrom(const GTEST_6_TUPLE_(U)& t) { f0_ = t.f0_; f1_ = t.f1_; f2_ = t.f2_; f3_ = t.f3_; f4_ = t.f4_; f5_ = t.f5_; return *this; } T0 f0_; T1 f1_; T2 f2_; T3 f3_; T4 f4_; T5 f5_; }; template class GTEST_7_TUPLE_(T) { public: template friend class gtest_internal::Get; tuple() : f0_(), f1_(), f2_(), f3_(), f4_(), f5_(), f6_() {} explicit tuple(GTEST_BY_REF_(T0) f0, GTEST_BY_REF_(T1) f1, GTEST_BY_REF_(T2) f2, GTEST_BY_REF_(T3) f3, GTEST_BY_REF_(T4) f4, GTEST_BY_REF_(T5) f5, GTEST_BY_REF_(T6) f6) : f0_(f0), f1_(f1), f2_(f2), f3_(f3), f4_(f4), f5_(f5), f6_(f6) {} tuple(const tuple& t) : f0_(t.f0_), f1_(t.f1_), f2_(t.f2_), f3_(t.f3_), f4_(t.f4_), f5_(t.f5_), f6_(t.f6_) {} template tuple(const GTEST_7_TUPLE_(U)& t) : f0_(t.f0_), f1_(t.f1_), f2_(t.f2_), f3_(t.f3_), f4_(t.f4_), f5_(t.f5_), f6_(t.f6_) {} tuple& operator=(const tuple& t) { return CopyFrom(t); } template tuple& operator=(const GTEST_7_TUPLE_(U)& t) { return CopyFrom(t); } GTEST_DECLARE_TUPLE_AS_FRIEND_ template tuple& CopyFrom(const GTEST_7_TUPLE_(U)& t) { f0_ = t.f0_; f1_ = t.f1_; f2_ = t.f2_; f3_ = t.f3_; f4_ = t.f4_; f5_ = t.f5_; f6_ = t.f6_; return *this; } T0 f0_; T1 f1_; T2 f2_; T3 f3_; T4 f4_; T5 f5_; T6 f6_; }; template class GTEST_8_TUPLE_(T) { public: template friend class gtest_internal::Get; tuple() : f0_(), f1_(), f2_(), f3_(), f4_(), f5_(), f6_(), f7_() {} explicit tuple(GTEST_BY_REF_(T0) f0, GTEST_BY_REF_(T1) f1, GTEST_BY_REF_(T2) f2, GTEST_BY_REF_(T3) f3, GTEST_BY_REF_(T4) f4, GTEST_BY_REF_(T5) f5, GTEST_BY_REF_(T6) f6, GTEST_BY_REF_(T7) f7) : f0_(f0), f1_(f1), f2_(f2), f3_(f3), f4_(f4), f5_(f5), f6_(f6), f7_(f7) {} tuple(const tuple& t) : f0_(t.f0_), f1_(t.f1_), f2_(t.f2_), f3_(t.f3_), f4_(t.f4_), f5_(t.f5_), f6_(t.f6_), f7_(t.f7_) {} template tuple(const GTEST_8_TUPLE_(U)& t) : f0_(t.f0_), f1_(t.f1_), f2_(t.f2_), f3_(t.f3_), f4_(t.f4_), f5_(t.f5_), f6_(t.f6_), f7_(t.f7_) {} tuple& operator=(const tuple& t) { return CopyFrom(t); } template tuple& operator=(const GTEST_8_TUPLE_(U)& t) { return CopyFrom(t); } GTEST_DECLARE_TUPLE_AS_FRIEND_ template tuple& CopyFrom(const GTEST_8_TUPLE_(U)& t) { f0_ = t.f0_; f1_ = t.f1_; f2_ = t.f2_; f3_ = t.f3_; f4_ = t.f4_; f5_ = t.f5_; f6_ = t.f6_; f7_ = t.f7_; return *this; } T0 f0_; T1 f1_; T2 f2_; T3 f3_; T4 f4_; T5 f5_; T6 f6_; T7 f7_; }; template class GTEST_9_TUPLE_(T) { public: template friend class gtest_internal::Get; tuple() : f0_(), f1_(), f2_(), f3_(), f4_(), f5_(), f6_(), f7_(), f8_() {} explicit tuple(GTEST_BY_REF_(T0) f0, GTEST_BY_REF_(T1) f1, GTEST_BY_REF_(T2) f2, GTEST_BY_REF_(T3) f3, GTEST_BY_REF_(T4) f4, GTEST_BY_REF_(T5) f5, GTEST_BY_REF_(T6) f6, GTEST_BY_REF_(T7) f7, GTEST_BY_REF_(T8) f8) : f0_(f0), f1_(f1), f2_(f2), f3_(f3), f4_(f4), f5_(f5), f6_(f6), f7_(f7), f8_(f8) {} tuple(const tuple& t) : f0_(t.f0_), f1_(t.f1_), f2_(t.f2_), f3_(t.f3_), f4_(t.f4_), f5_(t.f5_), f6_(t.f6_), f7_(t.f7_), f8_(t.f8_) {} template tuple(const GTEST_9_TUPLE_(U)& t) : f0_(t.f0_), f1_(t.f1_), f2_(t.f2_), f3_(t.f3_), f4_(t.f4_), f5_(t.f5_), f6_(t.f6_), f7_(t.f7_), f8_(t.f8_) {} tuple& operator=(const tuple& t) { return CopyFrom(t); } template tuple& operator=(const GTEST_9_TUPLE_(U)& t) { return CopyFrom(t); } GTEST_DECLARE_TUPLE_AS_FRIEND_ template tuple& CopyFrom(const GTEST_9_TUPLE_(U)& t) { f0_ = t.f0_; f1_ = t.f1_; f2_ = t.f2_; f3_ = t.f3_; f4_ = t.f4_; f5_ = t.f5_; f6_ = t.f6_; f7_ = t.f7_; f8_ = t.f8_; return *this; } T0 f0_; T1 f1_; T2 f2_; T3 f3_; T4 f4_; T5 f5_; T6 f6_; T7 f7_; T8 f8_; }; template class tuple { public: template friend class gtest_internal::Get; tuple() : f0_(), f1_(), f2_(), f3_(), f4_(), f5_(), f6_(), f7_(), f8_(), f9_() {} explicit tuple(GTEST_BY_REF_(T0) f0, GTEST_BY_REF_(T1) f1, GTEST_BY_REF_(T2) f2, GTEST_BY_REF_(T3) f3, GTEST_BY_REF_(T4) f4, GTEST_BY_REF_(T5) f5, GTEST_BY_REF_(T6) f6, GTEST_BY_REF_(T7) f7, GTEST_BY_REF_(T8) f8, GTEST_BY_REF_(T9) f9) : f0_(f0), f1_(f1), f2_(f2), f3_(f3), f4_(f4), f5_(f5), f6_(f6), f7_(f7), f8_(f8), f9_(f9) {} tuple(const tuple& t) : f0_(t.f0_), f1_(t.f1_), f2_(t.f2_), f3_(t.f3_), f4_(t.f4_), f5_(t.f5_), f6_(t.f6_), f7_(t.f7_), f8_(t.f8_), f9_(t.f9_) {} template tuple(const GTEST_10_TUPLE_(U)& t) : f0_(t.f0_), f1_(t.f1_), f2_(t.f2_), f3_(t.f3_), f4_(t.f4_), f5_(t.f5_), f6_(t.f6_), f7_(t.f7_), f8_(t.f8_), f9_(t.f9_) {} tuple& operator=(const tuple& t) { return CopyFrom(t); } template tuple& operator=(const GTEST_10_TUPLE_(U)& t) { return CopyFrom(t); } GTEST_DECLARE_TUPLE_AS_FRIEND_ template tuple& CopyFrom(const GTEST_10_TUPLE_(U)& t) { f0_ = t.f0_; f1_ = t.f1_; f2_ = t.f2_; f3_ = t.f3_; f4_ = t.f4_; f5_ = t.f5_; f6_ = t.f6_; f7_ = t.f7_; f8_ = t.f8_; f9_ = t.f9_; return *this; } T0 f0_; T1 f1_; T2 f2_; T3 f3_; T4 f4_; T5 f5_; T6 f6_; T7 f7_; T8 f8_; T9 f9_; }; // 6.1.3.2 Tuple creation functions. // Known limitations: we don't support passing an // std::tr1::reference_wrapper to make_tuple(). And we don't // implement tie(). inline tuple<> make_tuple() { return tuple<>(); } template inline GTEST_1_TUPLE_(T) make_tuple(const T0& f0) { return GTEST_1_TUPLE_(T)(f0); } template inline GTEST_2_TUPLE_(T) make_tuple(const T0& f0, const T1& f1) { return GTEST_2_TUPLE_(T)(f0, f1); } template inline GTEST_3_TUPLE_(T) make_tuple(const T0& f0, const T1& f1, const T2& f2) { return GTEST_3_TUPLE_(T)(f0, f1, f2); } template inline GTEST_4_TUPLE_(T) make_tuple(const T0& f0, const T1& f1, const T2& f2, const T3& f3) { return GTEST_4_TUPLE_(T)(f0, f1, f2, f3); } template inline GTEST_5_TUPLE_(T) make_tuple(const T0& f0, const T1& f1, const T2& f2, const T3& f3, const T4& f4) { return GTEST_5_TUPLE_(T)(f0, f1, f2, f3, f4); } template inline GTEST_6_TUPLE_(T) make_tuple(const T0& f0, const T1& f1, const T2& f2, const T3& f3, const T4& f4, const T5& f5) { return GTEST_6_TUPLE_(T)(f0, f1, f2, f3, f4, f5); } template inline GTEST_7_TUPLE_(T) make_tuple(const T0& f0, const T1& f1, const T2& f2, const T3& f3, const T4& f4, const T5& f5, const T6& f6) { return GTEST_7_TUPLE_(T)(f0, f1, f2, f3, f4, f5, f6); } template inline GTEST_8_TUPLE_(T) make_tuple(const T0& f0, const T1& f1, const T2& f2, const T3& f3, const T4& f4, const T5& f5, const T6& f6, const T7& f7) { return GTEST_8_TUPLE_(T)(f0, f1, f2, f3, f4, f5, f6, f7); } template inline GTEST_9_TUPLE_(T) make_tuple(const T0& f0, const T1& f1, const T2& f2, const T3& f3, const T4& f4, const T5& f5, const T6& f6, const T7& f7, const T8& f8) { return GTEST_9_TUPLE_(T)(f0, f1, f2, f3, f4, f5, f6, f7, f8); } template inline GTEST_10_TUPLE_(T) make_tuple(const T0& f0, const T1& f1, const T2& f2, const T3& f3, const T4& f4, const T5& f5, const T6& f6, const T7& f7, const T8& f8, const T9& f9) { return GTEST_10_TUPLE_(T)(f0, f1, f2, f3, f4, f5, f6, f7, f8, f9); } // 6.1.3.3 Tuple helper classes. template struct tuple_size; template struct tuple_size { static const int value = 0; }; template struct tuple_size { static const int value = 1; }; template struct tuple_size { static const int value = 2; }; template struct tuple_size { static const int value = 3; }; template struct tuple_size { static const int value = 4; }; template struct tuple_size { static const int value = 5; }; template struct tuple_size { static const int value = 6; }; template struct tuple_size { static const int value = 7; }; template struct tuple_size { static const int value = 8; }; template struct tuple_size { static const int value = 9; }; template struct tuple_size { static const int value = 10; }; template struct tuple_element { typedef typename gtest_internal::TupleElement< k < (tuple_size::value), k, Tuple>::type type; }; #define GTEST_TUPLE_ELEMENT_(k, Tuple) typename tuple_element::type // 6.1.3.4 Element access. namespace gtest_internal { template <> class Get<0> { public: template static GTEST_ADD_REF_(GTEST_TUPLE_ELEMENT_(0, Tuple)) Field(Tuple& t) { return t.f0_; } // NOLINT template static GTEST_BY_REF_(GTEST_TUPLE_ELEMENT_(0, Tuple)) ConstField(const Tuple& t) { return t.f0_; } }; template <> class Get<1> { public: template static GTEST_ADD_REF_(GTEST_TUPLE_ELEMENT_(1, Tuple)) Field(Tuple& t) { return t.f1_; } // NOLINT template static GTEST_BY_REF_(GTEST_TUPLE_ELEMENT_(1, Tuple)) ConstField(const Tuple& t) { return t.f1_; } }; template <> class Get<2> { public: template static GTEST_ADD_REF_(GTEST_TUPLE_ELEMENT_(2, Tuple)) Field(Tuple& t) { return t.f2_; } // NOLINT template static GTEST_BY_REF_(GTEST_TUPLE_ELEMENT_(2, Tuple)) ConstField(const Tuple& t) { return t.f2_; } }; template <> class Get<3> { public: template static GTEST_ADD_REF_(GTEST_TUPLE_ELEMENT_(3, Tuple)) Field(Tuple& t) { return t.f3_; } // NOLINT template static GTEST_BY_REF_(GTEST_TUPLE_ELEMENT_(3, Tuple)) ConstField(const Tuple& t) { return t.f3_; } }; template <> class Get<4> { public: template static GTEST_ADD_REF_(GTEST_TUPLE_ELEMENT_(4, Tuple)) Field(Tuple& t) { return t.f4_; } // NOLINT template static GTEST_BY_REF_(GTEST_TUPLE_ELEMENT_(4, Tuple)) ConstField(const Tuple& t) { return t.f4_; } }; template <> class Get<5> { public: template static GTEST_ADD_REF_(GTEST_TUPLE_ELEMENT_(5, Tuple)) Field(Tuple& t) { return t.f5_; } // NOLINT template static GTEST_BY_REF_(GTEST_TUPLE_ELEMENT_(5, Tuple)) ConstField(const Tuple& t) { return t.f5_; } }; template <> class Get<6> { public: template static GTEST_ADD_REF_(GTEST_TUPLE_ELEMENT_(6, Tuple)) Field(Tuple& t) { return t.f6_; } // NOLINT template static GTEST_BY_REF_(GTEST_TUPLE_ELEMENT_(6, Tuple)) ConstField(const Tuple& t) { return t.f6_; } }; template <> class Get<7> { public: template static GTEST_ADD_REF_(GTEST_TUPLE_ELEMENT_(7, Tuple)) Field(Tuple& t) { return t.f7_; } // NOLINT template static GTEST_BY_REF_(GTEST_TUPLE_ELEMENT_(7, Tuple)) ConstField(const Tuple& t) { return t.f7_; } }; template <> class Get<8> { public: template static GTEST_ADD_REF_(GTEST_TUPLE_ELEMENT_(8, Tuple)) Field(Tuple& t) { return t.f8_; } // NOLINT template static GTEST_BY_REF_(GTEST_TUPLE_ELEMENT_(8, Tuple)) ConstField(const Tuple& t) { return t.f8_; } }; template <> class Get<9> { public: template static GTEST_ADD_REF_(GTEST_TUPLE_ELEMENT_(9, Tuple)) Field(Tuple& t) { return t.f9_; } // NOLINT template static GTEST_BY_REF_(GTEST_TUPLE_ELEMENT_(9, Tuple)) ConstField(const Tuple& t) { return t.f9_; } }; } // namespace gtest_internal template GTEST_ADD_REF_(GTEST_TUPLE_ELEMENT_(k, GTEST_10_TUPLE_(T))) get(GTEST_10_TUPLE_(T)& t) { return gtest_internal::Get::Field(t); } template GTEST_BY_REF_(GTEST_TUPLE_ELEMENT_(k, GTEST_10_TUPLE_(T))) get(const GTEST_10_TUPLE_(T)& t) { return gtest_internal::Get::ConstField(t); } // 6.1.3.5 Relational operators // We only implement == and !=, as we don't have a need for the rest yet. namespace gtest_internal { // SameSizeTuplePrefixComparator::Eq(t1, t2) returns true if the // first k fields of t1 equals the first k fields of t2. // SameSizeTuplePrefixComparator(k1, k2) would be a compiler error if // k1 != k2. template struct SameSizeTuplePrefixComparator; template <> struct SameSizeTuplePrefixComparator<0, 0> { template static bool Eq(const Tuple1& /* t1 */, const Tuple2& /* t2 */) { return true; } }; template struct SameSizeTuplePrefixComparator { template static bool Eq(const Tuple1& t1, const Tuple2& t2) { return SameSizeTuplePrefixComparator::Eq(t1, t2) && ::std::tr1::get(t1) == ::std::tr1::get(t2); } }; } // namespace gtest_internal template inline bool operator==(const GTEST_10_TUPLE_(T)& t, const GTEST_10_TUPLE_(U)& u) { return gtest_internal::SameSizeTuplePrefixComparator< tuple_size::value, tuple_size::value>::Eq(t, u); } template inline bool operator!=(const GTEST_10_TUPLE_(T)& t, const GTEST_10_TUPLE_(U)& u) { return !(t == u); } // 6.1.4 Pairs. // Unimplemented. } // namespace tr1 } // namespace std #undef GTEST_0_TUPLE_ #undef GTEST_1_TUPLE_ #undef GTEST_2_TUPLE_ #undef GTEST_3_TUPLE_ #undef GTEST_4_TUPLE_ #undef GTEST_5_TUPLE_ #undef GTEST_6_TUPLE_ #undef GTEST_7_TUPLE_ #undef GTEST_8_TUPLE_ #undef GTEST_9_TUPLE_ #undef GTEST_10_TUPLE_ #undef GTEST_0_TYPENAMES_ #undef GTEST_1_TYPENAMES_ #undef GTEST_2_TYPENAMES_ #undef GTEST_3_TYPENAMES_ #undef GTEST_4_TYPENAMES_ #undef GTEST_5_TYPENAMES_ #undef GTEST_6_TYPENAMES_ #undef GTEST_7_TYPENAMES_ #undef GTEST_8_TYPENAMES_ #undef GTEST_9_TYPENAMES_ #undef GTEST_10_TYPENAMES_ #undef GTEST_DECLARE_TUPLE_AS_FRIEND_ #undef GTEST_BY_REF_ #undef GTEST_ADD_REF_ #undef GTEST_TUPLE_ELEMENT_ #endif // GTEST_INCLUDE_GTEST_INTERNAL_GTEST_TUPLE_H_ # elif GTEST_ENV_HAS_STD_TUPLE_ # include // C++11 puts its tuple into the ::std namespace rather than // ::std::tr1. gtest expects tuple to live in ::std::tr1, so put it there. // This causes undefined behavior, but supported compilers react in // the way we intend. namespace std { namespace tr1 { using ::std::get; using ::std::make_tuple; using ::std::tuple; using ::std::tuple_element; using ::std::tuple_size; } } # elif GTEST_OS_SYMBIAN // On Symbian, BOOST_HAS_TR1_TUPLE causes Boost's TR1 tuple library to // use STLport's tuple implementation, which unfortunately doesn't // work as the copy of STLport distributed with Symbian is incomplete. // By making sure BOOST_HAS_TR1_TUPLE is undefined, we force Boost to // use its own tuple implementation. # ifdef BOOST_HAS_TR1_TUPLE # undef BOOST_HAS_TR1_TUPLE # endif // BOOST_HAS_TR1_TUPLE // This prevents , which defines // BOOST_HAS_TR1_TUPLE, from being #included by Boost's . # define BOOST_TR1_DETAIL_CONFIG_HPP_INCLUDED # include // IWYU pragma: export // NOLINT # elif defined(__GNUC__) && (GTEST_GCC_VER_ >= 40000) // GCC 4.0+ implements tr1/tuple in the header. This does // not conform to the TR1 spec, which requires the header to be . # if !GTEST_HAS_RTTI && GTEST_GCC_VER_ < 40302 // Until version 4.3.2, gcc has a bug that causes , // which is #included by , to not compile when RTTI is // disabled. _TR1_FUNCTIONAL is the header guard for // . Hence the following #define is a hack to prevent // from being included. # define _TR1_FUNCTIONAL 1 # include # undef _TR1_FUNCTIONAL // Allows the user to #include // if he chooses to. # else # include // NOLINT # endif // !GTEST_HAS_RTTI && GTEST_GCC_VER_ < 40302 # else // If the compiler is not GCC 4.0+, we assume the user is using a // spec-conforming TR1 implementation. # include // IWYU pragma: export // NOLINT # endif // GTEST_USE_OWN_TR1_TUPLE #endif // GTEST_HAS_TR1_TUPLE // Determines whether clone(2) is supported. // Usually it will only be available on Linux, excluding // Linux on the Itanium architecture. // Also see http://linux.die.net/man/2/clone. #ifndef GTEST_HAS_CLONE // The user didn't tell us, so we need to figure it out. # if GTEST_OS_LINUX && !defined(__ia64__) # if GTEST_OS_LINUX_ANDROID // On Android, clone() is only available on ARM starting with Gingerbread. # if defined(__arm__) && __ANDROID_API__ >= 9 # define GTEST_HAS_CLONE 1 # else # define GTEST_HAS_CLONE 0 # endif # else # define GTEST_HAS_CLONE 1 # endif # else # define GTEST_HAS_CLONE 0 # endif // GTEST_OS_LINUX && !defined(__ia64__) #endif // GTEST_HAS_CLONE // Determines whether to support stream redirection. This is used to test // output correctness and to implement death tests. #ifndef GTEST_HAS_STREAM_REDIRECTION // By default, we assume that stream redirection is supported on all // platforms except known mobile ones. # if GTEST_OS_WINDOWS_MOBILE || GTEST_OS_SYMBIAN || \ GTEST_OS_WINDOWS_PHONE || GTEST_OS_WINDOWS_RT # define GTEST_HAS_STREAM_REDIRECTION 0 # else # define GTEST_HAS_STREAM_REDIRECTION 1 # endif // !GTEST_OS_WINDOWS_MOBILE && !GTEST_OS_SYMBIAN #endif // GTEST_HAS_STREAM_REDIRECTION // Determines whether to support death tests. // Google Test does not support death tests for VC 7.1 and earlier as // abort() in a VC 7.1 application compiled as GUI in debug config // pops up a dialog window that cannot be suppressed programmatically. #if (GTEST_OS_LINUX || GTEST_OS_CYGWIN || GTEST_OS_SOLARIS || \ (GTEST_OS_MAC && !GTEST_OS_IOS) || \ (GTEST_OS_WINDOWS_DESKTOP && _MSC_VER >= 1400) || \ GTEST_OS_WINDOWS_MINGW || GTEST_OS_AIX || GTEST_OS_HPUX || \ GTEST_OS_OPENBSD || GTEST_OS_QNX || GTEST_OS_FREEBSD) # define GTEST_HAS_DEATH_TEST 1 # include // NOLINT #endif // We don't support MSVC 7.1 with exceptions disabled now. Therefore // all the compilers we care about are adequate for supporting // value-parameterized tests. #define GTEST_HAS_PARAM_TEST 1 // Determines whether to support type-driven tests. // Typed tests need and variadic macros, which GCC, VC++ 8.0, // Sun Pro CC, IBM Visual Age, and HP aCC support. #if defined(__GNUC__) || (_MSC_VER >= 1400) || defined(__SUNPRO_CC) || \ defined(__IBMCPP__) || defined(__HP_aCC) # define GTEST_HAS_TYPED_TEST 1 # define GTEST_HAS_TYPED_TEST_P 1 #endif // Determines whether to support Combine(). This only makes sense when // value-parameterized tests are enabled. The implementation doesn't // work on Sun Studio since it doesn't understand templated conversion // operators. #if GTEST_HAS_PARAM_TEST && GTEST_HAS_TR1_TUPLE && !defined(__SUNPRO_CC) # define GTEST_HAS_COMBINE 1 #endif // Determines whether the system compiler uses UTF-16 for encoding wide strings. #define GTEST_WIDE_STRING_USES_UTF16_ \ (GTEST_OS_WINDOWS || GTEST_OS_CYGWIN || GTEST_OS_SYMBIAN || GTEST_OS_AIX) // Determines whether test results can be streamed to a socket. #if GTEST_OS_LINUX # define GTEST_CAN_STREAM_RESULTS_ 1 #endif // Defines some utility macros. // The GNU compiler emits a warning if nested "if" statements are followed by // an "else" statement and braces are not used to explicitly disambiguate the // "else" binding. This leads to problems with code like: // // if (gate) // ASSERT_*(condition) << "Some message"; // // The "switch (0) case 0:" idiom is used to suppress this. #ifdef __INTEL_COMPILER # define GTEST_AMBIGUOUS_ELSE_BLOCKER_ #else # define GTEST_AMBIGUOUS_ELSE_BLOCKER_ switch (0) case 0: default: // NOLINT #endif // Use this annotation at the end of a struct/class definition to // prevent the compiler from optimizing away instances that are never // used. This is useful when all interesting logic happens inside the // c'tor and / or d'tor. Example: // // struct Foo { // Foo() { ... } // } GTEST_ATTRIBUTE_UNUSED_; // // Also use it after a variable or parameter declaration to tell the // compiler the variable/parameter does not have to be used. #if defined(__GNUC__) && !defined(COMPILER_ICC) # define GTEST_ATTRIBUTE_UNUSED_ __attribute__ ((unused)) #elif defined(__clang__) # if __has_attribute(unused) # define GTEST_ATTRIBUTE_UNUSED_ __attribute__ ((unused)) # endif #endif #ifndef GTEST_ATTRIBUTE_UNUSED_ # define GTEST_ATTRIBUTE_UNUSED_ #endif // A macro to disallow operator= // This should be used in the private: declarations for a class. #define GTEST_DISALLOW_ASSIGN_(type)\ void operator=(type const &) // A macro to disallow copy constructor and operator= // This should be used in the private: declarations for a class. #define GTEST_DISALLOW_COPY_AND_ASSIGN_(type)\ type(type const &);\ GTEST_DISALLOW_ASSIGN_(type) // Tell the compiler to warn about unused return values for functions declared // with this macro. The macro should be used on function declarations // following the argument list: // // Sprocket* AllocateSprocket() GTEST_MUST_USE_RESULT_; #if defined(__GNUC__) && (GTEST_GCC_VER_ >= 30400) && !defined(COMPILER_ICC) # define GTEST_MUST_USE_RESULT_ __attribute__ ((warn_unused_result)) #else # define GTEST_MUST_USE_RESULT_ #endif // __GNUC__ && (GTEST_GCC_VER_ >= 30400) && !COMPILER_ICC // MS C++ compiler emits warning when a conditional expression is compile time // constant. In some contexts this warning is false positive and needs to be // suppressed. Use the following two macros in such cases: // // GTEST_INTENTIONAL_CONST_COND_PUSH_() // while (true) { // GTEST_INTENTIONAL_CONST_COND_POP_() // } # define GTEST_INTENTIONAL_CONST_COND_PUSH_() \ GTEST_DISABLE_MSC_WARNINGS_PUSH_(4127) # define GTEST_INTENTIONAL_CONST_COND_POP_() \ GTEST_DISABLE_MSC_WARNINGS_POP_() // Determine whether the compiler supports Microsoft's Structured Exception // Handling. This is supported by several Windows compilers but generally // does not exist on any other system. #ifndef GTEST_HAS_SEH // The user didn't tell us, so we need to figure it out. # if defined(_MSC_VER) || defined(__BORLANDC__) // These two compilers are known to support SEH. # define GTEST_HAS_SEH 1 # else // Assume no SEH. # define GTEST_HAS_SEH 0 # endif #define GTEST_IS_THREADSAFE \ (0 \ || (GTEST_OS_WINDOWS && !GTEST_OS_WINDOWS_PHONE && !GTEST_OS_WINDOWS_RT) \ || GTEST_HAS_PTHREAD) #endif // GTEST_HAS_SEH #ifdef _MSC_VER # if GTEST_LINKED_AS_SHARED_LIBRARY # define GTEST_API_ __declspec(dllimport) # elif GTEST_CREATE_SHARED_LIBRARY # define GTEST_API_ __declspec(dllexport) # endif #endif // _MSC_VER #ifndef GTEST_API_ # define GTEST_API_ #endif #ifdef __GNUC__ // Ask the compiler to never inline a given function. # define GTEST_NO_INLINE_ __attribute__((noinline)) #else # define GTEST_NO_INLINE_ #endif // _LIBCPP_VERSION is defined by the libc++ library from the LLVM project. #if defined(__GLIBCXX__) || defined(_LIBCPP_VERSION) # define GTEST_HAS_CXXABI_H_ 1 #else # define GTEST_HAS_CXXABI_H_ 0 #endif // A function level attribute to disable checking for use of uninitialized // memory when built with MemorySanitizer. #if defined(__clang__) # if __has_feature(memory_sanitizer) # define GTEST_ATTRIBUTE_NO_SANITIZE_MEMORY_ \ __attribute__((no_sanitize_memory)) # else # define GTEST_ATTRIBUTE_NO_SANITIZE_MEMORY_ # endif // __has_feature(memory_sanitizer) #else # define GTEST_ATTRIBUTE_NO_SANITIZE_MEMORY_ #endif // __clang__ // A function level attribute to disable AddressSanitizer instrumentation. #if defined(__clang__) # if __has_feature(address_sanitizer) # define GTEST_ATTRIBUTE_NO_SANITIZE_ADDRESS_ \ __attribute__((no_sanitize_address)) # else # define GTEST_ATTRIBUTE_NO_SANITIZE_ADDRESS_ # endif // __has_feature(address_sanitizer) #else # define GTEST_ATTRIBUTE_NO_SANITIZE_ADDRESS_ #endif // __clang__ // A function level attribute to disable ThreadSanitizer instrumentation. #if defined(__clang__) # if __has_feature(thread_sanitizer) # define GTEST_ATTRIBUTE_NO_SANITIZE_THREAD_ \ __attribute__((no_sanitize_thread)) # else # define GTEST_ATTRIBUTE_NO_SANITIZE_THREAD_ # endif // __has_feature(thread_sanitizer) #else # define GTEST_ATTRIBUTE_NO_SANITIZE_THREAD_ #endif // __clang__ namespace testing { class Message; #if defined(GTEST_TUPLE_NAMESPACE_) // Import tuple and friends into the ::testing namespace. // It is part of our interface, having them in ::testing allows us to change // their types as needed. using GTEST_TUPLE_NAMESPACE_::get; using GTEST_TUPLE_NAMESPACE_::make_tuple; using GTEST_TUPLE_NAMESPACE_::tuple; using GTEST_TUPLE_NAMESPACE_::tuple_size; using GTEST_TUPLE_NAMESPACE_::tuple_element; #endif // defined(GTEST_TUPLE_NAMESPACE_) namespace internal { // A secret type that Google Test users don't know about. It has no // definition on purpose. Therefore it's impossible to create a // Secret object, which is what we want. class Secret; // The GTEST_COMPILE_ASSERT_ macro can be used to verify that a compile time // expression is true. For example, you could use it to verify the // size of a static array: // // GTEST_COMPILE_ASSERT_(GTEST_ARRAY_SIZE_(names) == NUM_NAMES, // names_incorrect_size); // // or to make sure a struct is smaller than a certain size: // // GTEST_COMPILE_ASSERT_(sizeof(foo) < 128, foo_too_large); // // The second argument to the macro is the name of the variable. If // the expression is false, most compilers will issue a warning/error // containing the name of the variable. #if GTEST_LANG_CXX11 # define GTEST_COMPILE_ASSERT_(expr, msg) static_assert(expr, #msg) #else // !GTEST_LANG_CXX11 template struct CompileAssert { }; # define GTEST_COMPILE_ASSERT_(expr, msg) \ typedef ::testing::internal::CompileAssert<(static_cast(expr))> \ msg[static_cast(expr) ? 1 : -1] GTEST_ATTRIBUTE_UNUSED_ #endif // !GTEST_LANG_CXX11 // Implementation details of GTEST_COMPILE_ASSERT_: // // (In C++11, we simply use static_assert instead of the following) // // - GTEST_COMPILE_ASSERT_ works by defining an array type that has -1 // elements (and thus is invalid) when the expression is false. // // - The simpler definition // // #define GTEST_COMPILE_ASSERT_(expr, msg) typedef char msg[(expr) ? 1 : -1] // // does not work, as gcc supports variable-length arrays whose sizes // are determined at run-time (this is gcc's extension and not part // of the C++ standard). As a result, gcc fails to reject the // following code with the simple definition: // // int foo; // GTEST_COMPILE_ASSERT_(foo, msg); // not supposed to compile as foo is // // not a compile-time constant. // // - By using the type CompileAssert<(bool(expr))>, we ensures that // expr is a compile-time constant. (Template arguments must be // determined at compile-time.) // // - The outter parentheses in CompileAssert<(bool(expr))> are necessary // to work around a bug in gcc 3.4.4 and 4.0.1. If we had written // // CompileAssert // // instead, these compilers will refuse to compile // // GTEST_COMPILE_ASSERT_(5 > 0, some_message); // // (They seem to think the ">" in "5 > 0" marks the end of the // template argument list.) // // - The array size is (bool(expr) ? 1 : -1), instead of simply // // ((expr) ? 1 : -1). // // This is to avoid running into a bug in MS VC 7.1, which // causes ((0.0) ? 1 : -1) to incorrectly evaluate to 1. // StaticAssertTypeEqHelper is used by StaticAssertTypeEq defined in gtest.h. // // This template is declared, but intentionally undefined. template struct StaticAssertTypeEqHelper; template struct StaticAssertTypeEqHelper { enum { value = true }; }; // Evaluates to the number of elements in 'array'. #define GTEST_ARRAY_SIZE_(array) (sizeof(array) / sizeof(array[0])) #if GTEST_HAS_GLOBAL_STRING typedef ::string string; #else typedef ::std::string string; #endif // GTEST_HAS_GLOBAL_STRING #if GTEST_HAS_GLOBAL_WSTRING typedef ::wstring wstring; #elif GTEST_HAS_STD_WSTRING typedef ::std::wstring wstring; #endif // GTEST_HAS_GLOBAL_WSTRING // A helper for suppressing warnings on constant condition. It just // returns 'condition'. GTEST_API_ bool IsTrue(bool condition); // Defines scoped_ptr. // This implementation of scoped_ptr is PARTIAL - it only contains // enough stuff to satisfy Google Test's need. template class scoped_ptr { public: typedef T element_type; explicit scoped_ptr(T* p = NULL) : ptr_(p) {} ~scoped_ptr() { reset(); } T& operator*() const { return *ptr_; } T* operator->() const { return ptr_; } T* get() const { return ptr_; } T* release() { T* const ptr = ptr_; ptr_ = NULL; return ptr; } void reset(T* p = NULL) { if (p != ptr_) { if (IsTrue(sizeof(T) > 0)) { // Makes sure T is a complete type. delete ptr_; } ptr_ = p; } } friend void swap(scoped_ptr& a, scoped_ptr& b) { using std::swap; swap(a.ptr_, b.ptr_); } private: T* ptr_; GTEST_DISALLOW_COPY_AND_ASSIGN_(scoped_ptr); }; // Defines RE. // A simple C++ wrapper for . It uses the POSIX Extended // Regular Expression syntax. class GTEST_API_ RE { public: // A copy constructor is required by the Standard to initialize object // references from r-values. RE(const RE& other) { Init(other.pattern()); } // Constructs an RE from a string. RE(const ::std::string& regex) { Init(regex.c_str()); } // NOLINT #if GTEST_HAS_GLOBAL_STRING RE(const ::string& regex) { Init(regex.c_str()); } // NOLINT #endif // GTEST_HAS_GLOBAL_STRING RE(const char* regex) { Init(regex); } // NOLINT ~RE(); // Returns the string representation of the regex. const char* pattern() const { return pattern_; } // FullMatch(str, re) returns true iff regular expression re matches // the entire str. // PartialMatch(str, re) returns true iff regular expression re // matches a substring of str (including str itself). // // TODO(wan@google.com): make FullMatch() and PartialMatch() work // when str contains NUL characters. static bool FullMatch(const ::std::string& str, const RE& re) { return FullMatch(str.c_str(), re); } static bool PartialMatch(const ::std::string& str, const RE& re) { return PartialMatch(str.c_str(), re); } #if GTEST_HAS_GLOBAL_STRING static bool FullMatch(const ::string& str, const RE& re) { return FullMatch(str.c_str(), re); } static bool PartialMatch(const ::string& str, const RE& re) { return PartialMatch(str.c_str(), re); } #endif // GTEST_HAS_GLOBAL_STRING static bool FullMatch(const char* str, const RE& re); static bool PartialMatch(const char* str, const RE& re); private: void Init(const char* regex); // We use a const char* instead of an std::string, as Google Test used to be // used where std::string is not available. TODO(wan@google.com): change to // std::string. const char* pattern_; bool is_valid_; #if GTEST_USES_POSIX_RE regex_t full_regex_; // For FullMatch(). regex_t partial_regex_; // For PartialMatch(). #else // GTEST_USES_SIMPLE_RE const char* full_pattern_; // For FullMatch(); #endif GTEST_DISALLOW_ASSIGN_(RE); }; // Formats a source file path and a line number as they would appear // in an error message from the compiler used to compile this code. GTEST_API_ ::std::string FormatFileLocation(const char* file, int line); // Formats a file location for compiler-independent XML output. // Although this function is not platform dependent, we put it next to // FormatFileLocation in order to contrast the two functions. GTEST_API_ ::std::string FormatCompilerIndependentFileLocation(const char* file, int line); // Defines logging utilities: // GTEST_LOG_(severity) - logs messages at the specified severity level. The // message itself is streamed into the macro. // LogToStderr() - directs all log messages to stderr. // FlushInfoLog() - flushes informational log messages. enum GTestLogSeverity { GTEST_INFO, GTEST_WARNING, GTEST_ERROR, GTEST_FATAL }; // Formats log entry severity, provides a stream object for streaming the // log message, and terminates the message with a newline when going out of // scope. class GTEST_API_ GTestLog { public: GTestLog(GTestLogSeverity severity, const char* file, int line); // Flushes the buffers and, if severity is GTEST_FATAL, aborts the program. ~GTestLog(); ::std::ostream& GetStream() { return ::std::cerr; } private: const GTestLogSeverity severity_; GTEST_DISALLOW_COPY_AND_ASSIGN_(GTestLog); }; #define GTEST_LOG_(severity) \ ::testing::internal::GTestLog(::testing::internal::GTEST_##severity, \ __FILE__, __LINE__).GetStream() inline void LogToStderr() {} inline void FlushInfoLog() { fflush(NULL); } // INTERNAL IMPLEMENTATION - DO NOT USE. // // GTEST_CHECK_ is an all-mode assert. It aborts the program if the condition // is not satisfied. // Synopsys: // GTEST_CHECK_(boolean_condition); // or // GTEST_CHECK_(boolean_condition) << "Additional message"; // // This checks the condition and if the condition is not satisfied // it prints message about the condition violation, including the // condition itself, plus additional message streamed into it, if any, // and then it aborts the program. It aborts the program irrespective of // whether it is built in the debug mode or not. #define GTEST_CHECK_(condition) \ GTEST_AMBIGUOUS_ELSE_BLOCKER_ \ if (::testing::internal::IsTrue(condition)) \ ; \ else \ GTEST_LOG_(FATAL) << "Condition " #condition " failed. " // An all-mode assert to verify that the given POSIX-style function // call returns 0 (indicating success). Known limitation: this // doesn't expand to a balanced 'if' statement, so enclose the macro // in {} if you need to use it as the only statement in an 'if' // branch. #define GTEST_CHECK_POSIX_SUCCESS_(posix_call) \ if (const int gtest_error = (posix_call)) \ GTEST_LOG_(FATAL) << #posix_call << "failed with error " \ << gtest_error #if GTEST_HAS_STD_MOVE_ using std::move; #else // GTEST_HAS_STD_MOVE_ template const T& move(const T& t) { return t; } #endif // GTEST_HAS_STD_MOVE_ // INTERNAL IMPLEMENTATION - DO NOT USE IN USER CODE. // // Use ImplicitCast_ as a safe version of static_cast for upcasting in // the type hierarchy (e.g. casting a Foo* to a SuperclassOfFoo* or a // const Foo*). When you use ImplicitCast_, the compiler checks that // the cast is safe. Such explicit ImplicitCast_s are necessary in // surprisingly many situations where C++ demands an exact type match // instead of an argument type convertable to a target type. // // The syntax for using ImplicitCast_ is the same as for static_cast: // // ImplicitCast_(expr) // // ImplicitCast_ would have been part of the C++ standard library, // but the proposal was submitted too late. It will probably make // its way into the language in the future. // // This relatively ugly name is intentional. It prevents clashes with // similar functions users may have (e.g., implicit_cast). The internal // namespace alone is not enough because the function can be found by ADL. template inline To ImplicitCast_(To x) { return ::testing::internal::move(x); } // When you upcast (that is, cast a pointer from type Foo to type // SuperclassOfFoo), it's fine to use ImplicitCast_<>, since upcasts // always succeed. When you downcast (that is, cast a pointer from // type Foo to type SubclassOfFoo), static_cast<> isn't safe, because // how do you know the pointer is really of type SubclassOfFoo? It // could be a bare Foo, or of type DifferentSubclassOfFoo. Thus, // when you downcast, you should use this macro. In debug mode, we // use dynamic_cast<> to double-check the downcast is legal (we die // if it's not). In normal mode, we do the efficient static_cast<> // instead. Thus, it's important to test in debug mode to make sure // the cast is legal! // This is the only place in the code we should use dynamic_cast<>. // In particular, you SHOULDN'T be using dynamic_cast<> in order to // do RTTI (eg code like this: // if (dynamic_cast(foo)) HandleASubclass1Object(foo); // if (dynamic_cast(foo)) HandleASubclass2Object(foo); // You should design the code some other way not to need this. // // This relatively ugly name is intentional. It prevents clashes with // similar functions users may have (e.g., down_cast). The internal // namespace alone is not enough because the function can be found by ADL. template // use like this: DownCast_(foo); inline To DownCast_(From* f) { // so we only accept pointers // Ensures that To is a sub-type of From *. This test is here only // for compile-time type checking, and has no overhead in an // optimized build at run-time, as it will be optimized away // completely. GTEST_INTENTIONAL_CONST_COND_PUSH_() if (false) { GTEST_INTENTIONAL_CONST_COND_POP_() const To to = NULL; ::testing::internal::ImplicitCast_(to); } #if GTEST_HAS_RTTI // RTTI: debug mode only! GTEST_CHECK_(f == NULL || dynamic_cast(f) != NULL); #endif return static_cast(f); } // Downcasts the pointer of type Base to Derived. // Derived must be a subclass of Base. The parameter MUST // point to a class of type Derived, not any subclass of it. // When RTTI is available, the function performs a runtime // check to enforce this. template Derived* CheckedDowncastToActualType(Base* base) { #if GTEST_HAS_RTTI GTEST_CHECK_(typeid(*base) == typeid(Derived)); return dynamic_cast(base); // NOLINT #else return static_cast(base); // Poor man's downcast. #endif } #if GTEST_HAS_STREAM_REDIRECTION // Defines the stderr capturer: // CaptureStdout - starts capturing stdout. // GetCapturedStdout - stops capturing stdout and returns the captured string. // CaptureStderr - starts capturing stderr. // GetCapturedStderr - stops capturing stderr and returns the captured string. // GTEST_API_ void CaptureStdout(); GTEST_API_ std::string GetCapturedStdout(); GTEST_API_ void CaptureStderr(); GTEST_API_ std::string GetCapturedStderr(); #endif // GTEST_HAS_STREAM_REDIRECTION #if GTEST_HAS_DEATH_TEST const ::std::vector& GetInjectableArgvs(); void SetInjectableArgvs(const ::std::vector* new_argvs); // A copy of all command line arguments. Set by InitGoogleTest(). extern ::std::vector g_argvs; #endif // GTEST_HAS_DEATH_TEST // Defines synchronization primitives. #if GTEST_IS_THREADSAFE # if GTEST_HAS_PTHREAD // Sleeps for (roughly) n milliseconds. This function is only for testing // Google Test's own constructs. Don't use it in user tests, either // directly or indirectly. inline void SleepMilliseconds(int n) { const timespec time = { 0, // 0 seconds. n * 1000L * 1000L, // And n ms. }; nanosleep(&time, NULL); } # endif // GTEST_HAS_PTHREAD # if 0 // OS detection # elif GTEST_HAS_PTHREAD // Allows a controller thread to pause execution of newly created // threads until notified. Instances of this class must be created // and destroyed in the controller thread. // // This class is only for testing Google Test's own constructs. Do not // use it in user tests, either directly or indirectly. class Notification { public: Notification() : notified_(false) { GTEST_CHECK_POSIX_SUCCESS_(pthread_mutex_init(&mutex_, NULL)); } ~Notification() { pthread_mutex_destroy(&mutex_); } // Notifies all threads created with this notification to start. Must // be called from the controller thread. void Notify() { pthread_mutex_lock(&mutex_); notified_ = true; pthread_mutex_unlock(&mutex_); } // Blocks until the controller thread notifies. Must be called from a test // thread. void WaitForNotification() { for (;;) { pthread_mutex_lock(&mutex_); const bool notified = notified_; pthread_mutex_unlock(&mutex_); if (notified) break; SleepMilliseconds(10); } } private: pthread_mutex_t mutex_; bool notified_; GTEST_DISALLOW_COPY_AND_ASSIGN_(Notification); }; # elif GTEST_OS_WINDOWS && !GTEST_OS_WINDOWS_PHONE && !GTEST_OS_WINDOWS_RT GTEST_API_ void SleepMilliseconds(int n); // Provides leak-safe Windows kernel handle ownership. // Used in death tests and in threading support. class GTEST_API_ AutoHandle { public: // Assume that Win32 HANDLE type is equivalent to void*. Doing so allows us to // avoid including in this header file. Including is // undesirable because it defines a lot of symbols and macros that tend to // conflict with client code. This assumption is verified by // WindowsTypesTest.HANDLEIsVoidStar. typedef void* Handle; AutoHandle(); explicit AutoHandle(Handle handle); ~AutoHandle(); Handle Get() const; void Reset(); void Reset(Handle handle); private: // Returns true iff the handle is a valid handle object that can be closed. bool IsCloseable() const; Handle handle_; GTEST_DISALLOW_COPY_AND_ASSIGN_(AutoHandle); }; // Allows a controller thread to pause execution of newly created // threads until notified. Instances of this class must be created // and destroyed in the controller thread. // // This class is only for testing Google Test's own constructs. Do not // use it in user tests, either directly or indirectly. class GTEST_API_ Notification { public: Notification(); void Notify(); void WaitForNotification(); private: AutoHandle event_; GTEST_DISALLOW_COPY_AND_ASSIGN_(Notification); }; # endif // OS detection // On MinGW, we can have both GTEST_OS_WINDOWS and GTEST_HAS_PTHREAD // defined, but we don't want to use MinGW's pthreads implementation, which // has conformance problems with some versions of the POSIX standard. # if GTEST_HAS_PTHREAD && !GTEST_OS_WINDOWS_MINGW // As a C-function, ThreadFuncWithCLinkage cannot be templated itself. // Consequently, it cannot select a correct instantiation of ThreadWithParam // in order to call its Run(). Introducing ThreadWithParamBase as a // non-templated base class for ThreadWithParam allows us to bypass this // problem. class ThreadWithParamBase { public: virtual ~ThreadWithParamBase() {} virtual void Run() = 0; }; // pthread_create() accepts a pointer to a function type with the C linkage. // According to the Standard (7.5/1), function types with different linkages // are different even if they are otherwise identical. Some compilers (for // example, SunStudio) treat them as different types. Since class methods // cannot be defined with C-linkage we need to define a free C-function to // pass into pthread_create(). extern "C" inline void* ThreadFuncWithCLinkage(void* thread) { static_cast(thread)->Run(); return NULL; } // Helper class for testing Google Test's multi-threading constructs. // To use it, write: // // void ThreadFunc(int param) { /* Do things with param */ } // Notification thread_can_start; // ... // // The thread_can_start parameter is optional; you can supply NULL. // ThreadWithParam thread(&ThreadFunc, 5, &thread_can_start); // thread_can_start.Notify(); // // These classes are only for testing Google Test's own constructs. Do // not use them in user tests, either directly or indirectly. template class ThreadWithParam : public ThreadWithParamBase { public: typedef void UserThreadFunc(T); ThreadWithParam(UserThreadFunc* func, T param, Notification* thread_can_start) : func_(func), param_(param), thread_can_start_(thread_can_start), finished_(false) { ThreadWithParamBase* const base = this; // The thread can be created only after all fields except thread_ // have been initialized. GTEST_CHECK_POSIX_SUCCESS_( pthread_create(&thread_, 0, &ThreadFuncWithCLinkage, base)); } ~ThreadWithParam() { Join(); } void Join() { if (!finished_) { GTEST_CHECK_POSIX_SUCCESS_(pthread_join(thread_, 0)); finished_ = true; } } virtual void Run() { if (thread_can_start_ != NULL) thread_can_start_->WaitForNotification(); func_(param_); } private: UserThreadFunc* const func_; // User-supplied thread function. const T param_; // User-supplied parameter to the thread function. // When non-NULL, used to block execution until the controller thread // notifies. Notification* const thread_can_start_; bool finished_; // true iff we know that the thread function has finished. pthread_t thread_; // The native thread object. GTEST_DISALLOW_COPY_AND_ASSIGN_(ThreadWithParam); }; # endif // GTEST_HAS_PTHREAD && !GTEST_OS_WINDOWS_MINGW # if 0 // OS detection # elif GTEST_OS_WINDOWS && !GTEST_OS_WINDOWS_PHONE && !GTEST_OS_WINDOWS_RT // Mutex implements mutex on Windows platforms. It is used in conjunction // with class MutexLock: // // Mutex mutex; // ... // MutexLock lock(&mutex); // Acquires the mutex and releases it at the // // end of the current scope. // // A static Mutex *must* be defined or declared using one of the following // macros: // GTEST_DEFINE_STATIC_MUTEX_(g_some_mutex); // GTEST_DECLARE_STATIC_MUTEX_(g_some_mutex); // // (A non-static Mutex is defined/declared in the usual way). class GTEST_API_ Mutex { public: enum MutexType { kStatic = 0, kDynamic = 1 }; // We rely on kStaticMutex being 0 as it is to what the linker initializes // type_ in static mutexes. critical_section_ will be initialized lazily // in ThreadSafeLazyInit(). enum StaticConstructorSelector { kStaticMutex = 0 }; // This constructor intentionally does nothing. It relies on type_ being // statically initialized to 0 (effectively setting it to kStatic) and on // ThreadSafeLazyInit() to lazily initialize the rest of the members. explicit Mutex(StaticConstructorSelector /*dummy*/) {} Mutex(); ~Mutex(); void Lock(); void Unlock(); // Does nothing if the current thread holds the mutex. Otherwise, crashes // with high probability. void AssertHeld(); private: // Initializes owner_thread_id_ and critical_section_ in static mutexes. void ThreadSafeLazyInit(); // Per http://blogs.msdn.com/b/oldnewthing/archive/2004/02/23/78395.aspx, // we assume that 0 is an invalid value for thread IDs. unsigned int owner_thread_id_; // For static mutexes, we rely on these members being initialized to zeros // by the linker. MutexType type_; long critical_section_init_phase_; // NOLINT _RTL_CRITICAL_SECTION* critical_section_; GTEST_DISALLOW_COPY_AND_ASSIGN_(Mutex); }; # define GTEST_DECLARE_STATIC_MUTEX_(mutex) \ extern ::testing::internal::Mutex mutex # define GTEST_DEFINE_STATIC_MUTEX_(mutex) \ ::testing::internal::Mutex mutex(::testing::internal::Mutex::kStaticMutex) // We cannot name this class MutexLock because the ctor declaration would // conflict with a macro named MutexLock, which is defined on some // platforms. That macro is used as a defensive measure to prevent against // inadvertent misuses of MutexLock like "MutexLock(&mu)" rather than // "MutexLock l(&mu)". Hence the typedef trick below. class GTestMutexLock { public: explicit GTestMutexLock(Mutex* mutex) : mutex_(mutex) { mutex_->Lock(); } ~GTestMutexLock() { mutex_->Unlock(); } private: Mutex* const mutex_; GTEST_DISALLOW_COPY_AND_ASSIGN_(GTestMutexLock); }; typedef GTestMutexLock MutexLock; // Base class for ValueHolder. Allows a caller to hold and delete a value // without knowing its type. class ThreadLocalValueHolderBase { public: virtual ~ThreadLocalValueHolderBase() {} }; // Provides a way for a thread to send notifications to a ThreadLocal // regardless of its parameter type. class ThreadLocalBase { public: // Creates a new ValueHolder object holding a default value passed to // this ThreadLocal's constructor and returns it. It is the caller's // responsibility not to call this when the ThreadLocal instance already // has a value on the current thread. virtual ThreadLocalValueHolderBase* NewValueForCurrentThread() const = 0; protected: ThreadLocalBase() {} virtual ~ThreadLocalBase() {} private: GTEST_DISALLOW_COPY_AND_ASSIGN_(ThreadLocalBase); }; // Maps a thread to a set of ThreadLocals that have values instantiated on that // thread and notifies them when the thread exits. A ThreadLocal instance is // expected to persist until all threads it has values on have terminated. class GTEST_API_ ThreadLocalRegistry { public: // Registers thread_local_instance as having value on the current thread. // Returns a value that can be used to identify the thread from other threads. static ThreadLocalValueHolderBase* GetValueOnCurrentThread( const ThreadLocalBase* thread_local_instance); // Invoked when a ThreadLocal instance is destroyed. static void OnThreadLocalDestroyed( const ThreadLocalBase* thread_local_instance); }; class GTEST_API_ ThreadWithParamBase { public: void Join(); protected: class Runnable { public: virtual ~Runnable() {} virtual void Run() = 0; }; ThreadWithParamBase(Runnable *runnable, Notification* thread_can_start); virtual ~ThreadWithParamBase(); private: AutoHandle thread_; }; // Helper class for testing Google Test's multi-threading constructs. template class ThreadWithParam : public ThreadWithParamBase { public: typedef void UserThreadFunc(T); ThreadWithParam(UserThreadFunc* func, T param, Notification* thread_can_start) : ThreadWithParamBase(new RunnableImpl(func, param), thread_can_start) { } virtual ~ThreadWithParam() {} private: class RunnableImpl : public Runnable { public: RunnableImpl(UserThreadFunc* func, T param) : func_(func), param_(param) { } virtual ~RunnableImpl() {} virtual void Run() { func_(param_); } private: UserThreadFunc* const func_; const T param_; GTEST_DISALLOW_COPY_AND_ASSIGN_(RunnableImpl); }; GTEST_DISALLOW_COPY_AND_ASSIGN_(ThreadWithParam); }; // Implements thread-local storage on Windows systems. // // // Thread 1 // ThreadLocal tl(100); // 100 is the default value for each thread. // // // Thread 2 // tl.set(150); // Changes the value for thread 2 only. // EXPECT_EQ(150, tl.get()); // // // Thread 1 // EXPECT_EQ(100, tl.get()); // In thread 1, tl has the original value. // tl.set(200); // EXPECT_EQ(200, tl.get()); // // The template type argument T must have a public copy constructor. // In addition, the default ThreadLocal constructor requires T to have // a public default constructor. // // The users of a TheadLocal instance have to make sure that all but one // threads (including the main one) using that instance have exited before // destroying it. Otherwise, the per-thread objects managed for them by the // ThreadLocal instance are not guaranteed to be destroyed on all platforms. // // Google Test only uses global ThreadLocal objects. That means they // will die after main() has returned. Therefore, no per-thread // object managed by Google Test will be leaked as long as all threads // using Google Test have exited when main() returns. template class ThreadLocal : public ThreadLocalBase { public: ThreadLocal() : default_() {} explicit ThreadLocal(const T& value) : default_(value) {} ~ThreadLocal() { ThreadLocalRegistry::OnThreadLocalDestroyed(this); } T* pointer() { return GetOrCreateValue(); } const T* pointer() const { return GetOrCreateValue(); } const T& get() const { return *pointer(); } void set(const T& value) { *pointer() = value; } private: // Holds a value of T. Can be deleted via its base class without the caller // knowing the type of T. class ValueHolder : public ThreadLocalValueHolderBase { public: explicit ValueHolder(const T& value) : value_(value) {} T* pointer() { return &value_; } private: T value_; GTEST_DISALLOW_COPY_AND_ASSIGN_(ValueHolder); }; T* GetOrCreateValue() const { return static_cast( ThreadLocalRegistry::GetValueOnCurrentThread(this))->pointer(); } virtual ThreadLocalValueHolderBase* NewValueForCurrentThread() const { return new ValueHolder(default_); } const T default_; // The default value for each thread. GTEST_DISALLOW_COPY_AND_ASSIGN_(ThreadLocal); }; # elif GTEST_HAS_PTHREAD // MutexBase and Mutex implement mutex on pthreads-based platforms. class MutexBase { public: // Acquires this mutex. void Lock() { GTEST_CHECK_POSIX_SUCCESS_(pthread_mutex_lock(&mutex_)); owner_ = pthread_self(); has_owner_ = true; } // Releases this mutex. void Unlock() { // Since the lock is being released the owner_ field should no longer be // considered valid. We don't protect writing to has_owner_ here, as it's // the caller's responsibility to ensure that the current thread holds the // mutex when this is called. has_owner_ = false; GTEST_CHECK_POSIX_SUCCESS_(pthread_mutex_unlock(&mutex_)); } // Does nothing if the current thread holds the mutex. Otherwise, crashes // with high probability. void AssertHeld() const { GTEST_CHECK_(has_owner_ && pthread_equal(owner_, pthread_self())) << "The current thread is not holding the mutex @" << this; } // A static mutex may be used before main() is entered. It may even // be used before the dynamic initialization stage. Therefore we // must be able to initialize a static mutex object at link time. // This means MutexBase has to be a POD and its member variables // have to be public. public: pthread_mutex_t mutex_; // The underlying pthread mutex. // has_owner_ indicates whether the owner_ field below contains a valid thread // ID and is therefore safe to inspect (e.g., to use in pthread_equal()). All // accesses to the owner_ field should be protected by a check of this field. // An alternative might be to memset() owner_ to all zeros, but there's no // guarantee that a zero'd pthread_t is necessarily invalid or even different // from pthread_self(). bool has_owner_; pthread_t owner_; // The thread holding the mutex. }; // Forward-declares a static mutex. # define GTEST_DECLARE_STATIC_MUTEX_(mutex) \ extern ::testing::internal::MutexBase mutex // Defines and statically (i.e. at link time) initializes a static mutex. // The initialization list here does not explicitly initialize each field, // instead relying on default initialization for the unspecified fields. In // particular, the owner_ field (a pthread_t) is not explicitly initialized. // This allows initialization to work whether pthread_t is a scalar or struct. // The flag -Wmissing-field-initializers must not be specified for this to work. # define GTEST_DEFINE_STATIC_MUTEX_(mutex) \ ::testing::internal::MutexBase mutex = { PTHREAD_MUTEX_INITIALIZER, false } // The Mutex class can only be used for mutexes created at runtime. It // shares its API with MutexBase otherwise. class Mutex : public MutexBase { public: Mutex() { GTEST_CHECK_POSIX_SUCCESS_(pthread_mutex_init(&mutex_, NULL)); has_owner_ = false; } ~Mutex() { GTEST_CHECK_POSIX_SUCCESS_(pthread_mutex_destroy(&mutex_)); } private: GTEST_DISALLOW_COPY_AND_ASSIGN_(Mutex); }; // We cannot name this class MutexLock because the ctor declaration would // conflict with a macro named MutexLock, which is defined on some // platforms. That macro is used as a defensive measure to prevent against // inadvertent misuses of MutexLock like "MutexLock(&mu)" rather than // "MutexLock l(&mu)". Hence the typedef trick below. class GTestMutexLock { public: explicit GTestMutexLock(MutexBase* mutex) : mutex_(mutex) { mutex_->Lock(); } ~GTestMutexLock() { mutex_->Unlock(); } private: MutexBase* const mutex_; GTEST_DISALLOW_COPY_AND_ASSIGN_(GTestMutexLock); }; typedef GTestMutexLock MutexLock; // Helpers for ThreadLocal. // pthread_key_create() requires DeleteThreadLocalValue() to have // C-linkage. Therefore it cannot be templatized to access // ThreadLocal. Hence the need for class // ThreadLocalValueHolderBase. class ThreadLocalValueHolderBase { public: virtual ~ThreadLocalValueHolderBase() {} }; // Called by pthread to delete thread-local data stored by // pthread_setspecific(). extern "C" inline void DeleteThreadLocalValue(void* value_holder) { delete static_cast(value_holder); } // Implements thread-local storage on pthreads-based systems. template class ThreadLocal { public: ThreadLocal() : key_(CreateKey()), default_() {} explicit ThreadLocal(const T& value) : key_(CreateKey()), default_(value) {} ~ThreadLocal() { // Destroys the managed object for the current thread, if any. DeleteThreadLocalValue(pthread_getspecific(key_)); // Releases resources associated with the key. This will *not* // delete managed objects for other threads. GTEST_CHECK_POSIX_SUCCESS_(pthread_key_delete(key_)); } T* pointer() { return GetOrCreateValue(); } const T* pointer() const { return GetOrCreateValue(); } const T& get() const { return *pointer(); } void set(const T& value) { *pointer() = value; } private: // Holds a value of type T. class ValueHolder : public ThreadLocalValueHolderBase { public: explicit ValueHolder(const T& value) : value_(value) {} T* pointer() { return &value_; } private: T value_; GTEST_DISALLOW_COPY_AND_ASSIGN_(ValueHolder); }; static pthread_key_t CreateKey() { pthread_key_t key; // When a thread exits, DeleteThreadLocalValue() will be called on // the object managed for that thread. GTEST_CHECK_POSIX_SUCCESS_( pthread_key_create(&key, &DeleteThreadLocalValue)); return key; } T* GetOrCreateValue() const { ThreadLocalValueHolderBase* const holder = static_cast(pthread_getspecific(key_)); if (holder != NULL) { return CheckedDowncastToActualType(holder)->pointer(); } ValueHolder* const new_holder = new ValueHolder(default_); ThreadLocalValueHolderBase* const holder_base = new_holder; GTEST_CHECK_POSIX_SUCCESS_(pthread_setspecific(key_, holder_base)); return new_holder->pointer(); } // A key pthreads uses for looking up per-thread values. const pthread_key_t key_; const T default_; // The default value for each thread. GTEST_DISALLOW_COPY_AND_ASSIGN_(ThreadLocal); }; # endif // OS detection #else // GTEST_IS_THREADSAFE // A dummy implementation of synchronization primitives (mutex, lock, // and thread-local variable). Necessary for compiling Google Test where // mutex is not supported - using Google Test in multiple threads is not // supported on such platforms. class Mutex { public: Mutex() {} void Lock() {} void Unlock() {} void AssertHeld() const {} }; # define GTEST_DECLARE_STATIC_MUTEX_(mutex) \ extern ::testing::internal::Mutex mutex # define GTEST_DEFINE_STATIC_MUTEX_(mutex) ::testing::internal::Mutex mutex // We cannot name this class MutexLock because the ctor declaration would // conflict with a macro named MutexLock, which is defined on some // platforms. That macro is used as a defensive measure to prevent against // inadvertent misuses of MutexLock like "MutexLock(&mu)" rather than // "MutexLock l(&mu)". Hence the typedef trick below. class GTestMutexLock { public: explicit GTestMutexLock(Mutex*) {} // NOLINT }; typedef GTestMutexLock MutexLock; template class ThreadLocal { public: ThreadLocal() : value_() {} explicit ThreadLocal(const T& value) : value_(value) {} T* pointer() { return &value_; } const T* pointer() const { return &value_; } const T& get() const { return value_; } void set(const T& value) { value_ = value; } private: T value_; }; #endif // GTEST_IS_THREADSAFE // Returns the number of threads running in the process, or 0 to indicate that // we cannot detect it. GTEST_API_ size_t GetThreadCount(); // Passing non-POD classes through ellipsis (...) crashes the ARM // compiler and generates a warning in Sun Studio. The Nokia Symbian // and the IBM XL C/C++ compiler try to instantiate a copy constructor // for objects passed through ellipsis (...), failing for uncopyable // objects. We define this to ensure that only POD is passed through // ellipsis on these systems. #if defined(__SYMBIAN32__) || defined(__IBMCPP__) || defined(__SUNPRO_CC) // We lose support for NULL detection where the compiler doesn't like // passing non-POD classes through ellipsis (...). # define GTEST_ELLIPSIS_NEEDS_POD_ 1 #else # define GTEST_CAN_COMPARE_NULL 1 #endif // The Nokia Symbian and IBM XL C/C++ compilers cannot decide between // const T& and const T* in a function template. These compilers // _can_ decide between class template specializations for T and T*, // so a tr1::type_traits-like is_pointer works. #if defined(__SYMBIAN32__) || defined(__IBMCPP__) # define GTEST_NEEDS_IS_POINTER_ 1 #endif template struct bool_constant { typedef bool_constant type; static const bool value = bool_value; }; template const bool bool_constant::value; typedef bool_constant false_type; typedef bool_constant true_type; template struct is_pointer : public false_type {}; template struct is_pointer : public true_type {}; template struct IteratorTraits { typedef typename Iterator::value_type value_type; }; template struct IteratorTraits { typedef T value_type; }; template struct IteratorTraits { typedef T value_type; }; #if GTEST_OS_WINDOWS # define GTEST_PATH_SEP_ "\\" # define GTEST_HAS_ALT_PATH_SEP_ 1 // The biggest signed integer type the compiler supports. typedef __int64 BiggestInt; #else # define GTEST_PATH_SEP_ "/" # define GTEST_HAS_ALT_PATH_SEP_ 0 typedef long long BiggestInt; // NOLINT #endif // GTEST_OS_WINDOWS // Utilities for char. // isspace(int ch) and friends accept an unsigned char or EOF. char // may be signed, depending on the compiler (or compiler flags). // Therefore we need to cast a char to unsigned char before calling // isspace(), etc. inline bool IsAlpha(char ch) { return isalpha(static_cast(ch)) != 0; } inline bool IsAlNum(char ch) { return isalnum(static_cast(ch)) != 0; } inline bool IsDigit(char ch) { return isdigit(static_cast(ch)) != 0; } inline bool IsLower(char ch) { return islower(static_cast(ch)) != 0; } inline bool IsSpace(char ch) { return isspace(static_cast(ch)) != 0; } inline bool IsUpper(char ch) { return isupper(static_cast(ch)) != 0; } inline bool IsXDigit(char ch) { return isxdigit(static_cast(ch)) != 0; } inline bool IsXDigit(wchar_t ch) { const unsigned char low_byte = static_cast(ch); return ch == low_byte && isxdigit(low_byte) != 0; } inline char ToLower(char ch) { return static_cast(tolower(static_cast(ch))); } inline char ToUpper(char ch) { return static_cast(toupper(static_cast(ch))); } inline std::string StripTrailingSpaces(std::string str) { std::string::iterator it = str.end(); while (it != str.begin() && IsSpace(*--it)) it = str.erase(it); return str; } // The testing::internal::posix namespace holds wrappers for common // POSIX functions. These wrappers hide the differences between // Windows/MSVC and POSIX systems. Since some compilers define these // standard functions as macros, the wrapper cannot have the same name // as the wrapped function. namespace posix { // Functions with a different name on Windows. #if GTEST_OS_WINDOWS typedef struct _stat StatStruct; # ifdef __BORLANDC__ inline int IsATTY(int fd) { return isatty(fd); } inline int StrCaseCmp(const char* s1, const char* s2) { return stricmp(s1, s2); } inline char* StrDup(const char* src) { return strdup(src); } # else // !__BORLANDC__ # if GTEST_OS_WINDOWS_MOBILE inline int IsATTY(int /* fd */) { return 0; } # else inline int IsATTY(int fd) { return _isatty(fd); } # endif // GTEST_OS_WINDOWS_MOBILE inline int StrCaseCmp(const char* s1, const char* s2) { return _stricmp(s1, s2); } inline char* StrDup(const char* src) { return _strdup(src); } # endif // __BORLANDC__ # if GTEST_OS_WINDOWS_MOBILE inline int FileNo(FILE* file) { return reinterpret_cast(_fileno(file)); } // Stat(), RmDir(), and IsDir() are not needed on Windows CE at this // time and thus not defined there. # else inline int FileNo(FILE* file) { return _fileno(file); } inline int Stat(const char* path, StatStruct* buf) { return _stat(path, buf); } inline int RmDir(const char* dir) { return _rmdir(dir); } inline bool IsDir(const StatStruct& st) { return (_S_IFDIR & st.st_mode) != 0; } # endif // GTEST_OS_WINDOWS_MOBILE #else typedef struct stat StatStruct; inline int FileNo(FILE* file) { return fileno(file); } inline int IsATTY(int fd) { return isatty(fd); } inline int Stat(const char* path, StatStruct* buf) { return stat(path, buf); } inline int StrCaseCmp(const char* s1, const char* s2) { return strcasecmp(s1, s2); } inline char* StrDup(const char* src) { return strdup(src); } inline int RmDir(const char* dir) { return rmdir(dir); } inline bool IsDir(const StatStruct& st) { return S_ISDIR(st.st_mode); } #endif // GTEST_OS_WINDOWS // Functions deprecated by MSVC 8.0. GTEST_DISABLE_MSC_WARNINGS_PUSH_(4996 /* deprecated function */) // ChDir(), FReopen(), FDOpen(), Read(), Write(), Close(), and // StrError() aren't needed on Windows CE at this time and thus not // defined there. #if !GTEST_OS_WINDOWS_MOBILE && !GTEST_OS_WINDOWS_PHONE && !GTEST_OS_WINDOWS_RT inline int ChDir(const char* dir) { return chdir(dir); } #endif inline FILE* FOpen(const char* path, const char* mode) { return fopen(path, mode); } #if !GTEST_OS_WINDOWS_MOBILE inline FILE *FReopen(const char* path, const char* mode, FILE* stream) { return freopen(path, mode, stream); } inline FILE* FDOpen(int fd, const char* mode) { return fdopen(fd, mode); } #endif inline int FClose(FILE* fp) { return fclose(fp); } #if !GTEST_OS_WINDOWS_MOBILE inline int Read(int fd, void* buf, unsigned int count) { return static_cast(read(fd, buf, count)); } inline int Write(int fd, const void* buf, unsigned int count) { return static_cast(write(fd, buf, count)); } inline int Close(int fd) { return close(fd); } inline const char* StrError(int errnum) { return strerror(errnum); } #endif inline const char* GetEnv(const char* name) { #if GTEST_OS_WINDOWS_MOBILE || GTEST_OS_WINDOWS_PHONE | GTEST_OS_WINDOWS_RT // We are on Windows CE, which has no environment variables. static_cast(name); // To prevent 'unused argument' warning. return NULL; #elif defined(__BORLANDC__) || defined(__SunOS_5_8) || defined(__SunOS_5_9) // Environment variables which we programmatically clear will be set to the // empty string rather than unset (NULL). Handle that case. const char* const env = getenv(name); return (env != NULL && env[0] != '\0') ? env : NULL; #else return getenv(name); #endif } GTEST_DISABLE_MSC_WARNINGS_POP_() #if GTEST_OS_WINDOWS_MOBILE // Windows CE has no C library. The abort() function is used in // several places in Google Test. This implementation provides a reasonable // imitation of standard behaviour. void Abort(); #else inline void Abort() { abort(); } #endif // GTEST_OS_WINDOWS_MOBILE } // namespace posix // MSVC "deprecates" snprintf and issues warnings wherever it is used. In // order to avoid these warnings, we need to use _snprintf or _snprintf_s on // MSVC-based platforms. We map the GTEST_SNPRINTF_ macro to the appropriate // function in order to achieve that. We use macro definition here because // snprintf is a variadic function. #if _MSC_VER >= 1400 && !GTEST_OS_WINDOWS_MOBILE // MSVC 2005 and above support variadic macros. # define GTEST_SNPRINTF_(buffer, size, format, ...) \ _snprintf_s(buffer, size, size, format, __VA_ARGS__) #elif defined(_MSC_VER) // Windows CE does not define _snprintf_s and MSVC prior to 2005 doesn't // complain about _snprintf. # define GTEST_SNPRINTF_ _snprintf #else # define GTEST_SNPRINTF_ snprintf #endif // The maximum number a BiggestInt can represent. This definition // works no matter BiggestInt is represented in one's complement or // two's complement. // // We cannot rely on numeric_limits in STL, as __int64 and long long // are not part of standard C++ and numeric_limits doesn't need to be // defined for them. const BiggestInt kMaxBiggestInt = ~(static_cast(1) << (8*sizeof(BiggestInt) - 1)); // This template class serves as a compile-time function from size to // type. It maps a size in bytes to a primitive type with that // size. e.g. // // TypeWithSize<4>::UInt // // is typedef-ed to be unsigned int (unsigned integer made up of 4 // bytes). // // Such functionality should belong to STL, but I cannot find it // there. // // Google Test uses this class in the implementation of floating-point // comparison. // // For now it only handles UInt (unsigned int) as that's all Google Test // needs. Other types can be easily added in the future if need // arises. template class TypeWithSize { public: // This prevents the user from using TypeWithSize with incorrect // values of N. typedef void UInt; }; // The specialization for size 4. template <> class TypeWithSize<4> { public: // unsigned int has size 4 in both gcc and MSVC. // // As base/basictypes.h doesn't compile on Windows, we cannot use // uint32, uint64, and etc here. typedef int Int; typedef unsigned int UInt; }; // The specialization for size 8. template <> class TypeWithSize<8> { public: #if GTEST_OS_WINDOWS typedef __int64 Int; typedef unsigned __int64 UInt; #else typedef long long Int; // NOLINT typedef unsigned long long UInt; // NOLINT #endif // GTEST_OS_WINDOWS }; // Integer types of known sizes. typedef TypeWithSize<4>::Int Int32; typedef TypeWithSize<4>::UInt UInt32; typedef TypeWithSize<8>::Int Int64; typedef TypeWithSize<8>::UInt UInt64; typedef TypeWithSize<8>::Int TimeInMillis; // Represents time in milliseconds. // Utilities for command line flags and environment variables. // Macro for referencing flags. #define GTEST_FLAG(name) FLAGS_gtest_##name // Macros for declaring flags. #define GTEST_DECLARE_bool_(name) GTEST_API_ extern bool GTEST_FLAG(name) #define GTEST_DECLARE_int32_(name) \ GTEST_API_ extern ::testing::internal::Int32 GTEST_FLAG(name) #define GTEST_DECLARE_string_(name) \ GTEST_API_ extern ::std::string GTEST_FLAG(name) // Macros for defining flags. #define GTEST_DEFINE_bool_(name, default_val, doc) \ GTEST_API_ bool GTEST_FLAG(name) = (default_val) #define GTEST_DEFINE_int32_(name, default_val, doc) \ GTEST_API_ ::testing::internal::Int32 GTEST_FLAG(name) = (default_val) #define GTEST_DEFINE_string_(name, default_val, doc) \ GTEST_API_ ::std::string GTEST_FLAG(name) = (default_val) // Thread annotations #define GTEST_EXCLUSIVE_LOCK_REQUIRED_(locks) #define GTEST_LOCK_EXCLUDED_(locks) // Parses 'str' for a 32-bit signed integer. If successful, writes the result // to *value and returns true; otherwise leaves *value unchanged and returns // false. // TODO(chandlerc): Find a better way to refactor flag and environment parsing // out of both gtest-port.cc and gtest.cc to avoid exporting this utility // function. bool ParseInt32(const Message& src_text, const char* str, Int32* value); // Parses a bool/Int32/string from the environment variable // corresponding to the given Google Test flag. bool BoolFromGTestEnv(const char* flag, bool default_val); GTEST_API_ Int32 Int32FromGTestEnv(const char* flag, Int32 default_val); const char* StringFromGTestEnv(const char* flag, const char* default_val); } // namespace internal } // namespace testing #endif // GTEST_INCLUDE_GTEST_INTERNAL_GTEST_PORT_H_ #if GTEST_OS_LINUX # include # include # include # include #endif // GTEST_OS_LINUX #if GTEST_HAS_EXCEPTIONS # include #endif #include #include #include #include #include #include #include #include // Copyright 2005, Google Inc. // All rights reserved. // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following disclaimer // in the documentation and/or other materials provided with the // distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived from // this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // // Author: wan@google.com (Zhanyong Wan) // // The Google C++ Testing Framework (Google Test) // // This header file defines the Message class. // // IMPORTANT NOTE: Due to limitation of the C++ language, we have to // leave some internal implementation details in this header file. // They are clearly marked by comments like this: // // // INTERNAL IMPLEMENTATION - DO NOT USE IN A USER PROGRAM. // // Such code is NOT meant to be used by a user directly, and is subject // to CHANGE WITHOUT NOTICE. Therefore DO NOT DEPEND ON IT in a user // program! #ifndef GTEST_INCLUDE_GTEST_GTEST_MESSAGE_H_ #define GTEST_INCLUDE_GTEST_GTEST_MESSAGE_H_ #include // Ensures that there is at least one operator<< in the global namespace. // See Message& operator<<(...) below for why. void operator<<(const testing::internal::Secret&, int); namespace testing { // The Message class works like an ostream repeater. // // Typical usage: // // 1. You stream a bunch of values to a Message object. // It will remember the text in a stringstream. // 2. Then you stream the Message object to an ostream. // This causes the text in the Message to be streamed // to the ostream. // // For example; // // testing::Message foo; // foo << 1 << " != " << 2; // std::cout << foo; // // will print "1 != 2". // // Message is not intended to be inherited from. In particular, its // destructor is not virtual. // // Note that stringstream behaves differently in gcc and in MSVC. You // can stream a NULL char pointer to it in the former, but not in the // latter (it causes an access violation if you do). The Message // class hides this difference by treating a NULL char pointer as // "(null)". class GTEST_API_ Message { private: // The type of basic IO manipulators (endl, ends, and flush) for // narrow streams. typedef std::ostream& (*BasicNarrowIoManip)(std::ostream&); public: // Constructs an empty Message. Message(); // Copy constructor. Message(const Message& msg) : ss_(new ::std::stringstream) { // NOLINT *ss_ << msg.GetString(); } // Constructs a Message from a C-string. explicit Message(const char* str) : ss_(new ::std::stringstream) { *ss_ << str; } #if GTEST_OS_SYMBIAN // Streams a value (either a pointer or not) to this object. template inline Message& operator <<(const T& value) { StreamHelper(typename internal::is_pointer::type(), value); return *this; } #else // Streams a non-pointer value to this object. template inline Message& operator <<(const T& val) { // Some libraries overload << for STL containers. These // overloads are defined in the global namespace instead of ::std. // // C++'s symbol lookup rule (i.e. Koenig lookup) says that these // overloads are visible in either the std namespace or the global // namespace, but not other namespaces, including the testing // namespace which Google Test's Message class is in. // // To allow STL containers (and other types that has a << operator // defined in the global namespace) to be used in Google Test // assertions, testing::Message must access the custom << operator // from the global namespace. With this using declaration, // overloads of << defined in the global namespace and those // visible via Koenig lookup are both exposed in this function. using ::operator <<; *ss_ << val; return *this; } // Streams a pointer value to this object. // // This function is an overload of the previous one. When you // stream a pointer to a Message, this definition will be used as it // is more specialized. (The C++ Standard, section // [temp.func.order].) If you stream a non-pointer, then the // previous definition will be used. // // The reason for this overload is that streaming a NULL pointer to // ostream is undefined behavior. Depending on the compiler, you // may get "0", "(nil)", "(null)", or an access violation. To // ensure consistent result across compilers, we always treat NULL // as "(null)". template inline Message& operator <<(T* const& pointer) { // NOLINT if (pointer == NULL) { *ss_ << "(null)"; } else { *ss_ << pointer; } return *this; } #endif // GTEST_OS_SYMBIAN // Since the basic IO manipulators are overloaded for both narrow // and wide streams, we have to provide this specialized definition // of operator <<, even though its body is the same as the // templatized version above. Without this definition, streaming // endl or other basic IO manipulators to Message will confuse the // compiler. Message& operator <<(BasicNarrowIoManip val) { *ss_ << val; return *this; } // Instead of 1/0, we want to see true/false for bool values. Message& operator <<(bool b) { return *this << (b ? "true" : "false"); } // These two overloads allow streaming a wide C string to a Message // using the UTF-8 encoding. Message& operator <<(const wchar_t* wide_c_str); Message& operator <<(wchar_t* wide_c_str); #if GTEST_HAS_STD_WSTRING // Converts the given wide string to a narrow string using the UTF-8 // encoding, and streams the result to this Message object. Message& operator <<(const ::std::wstring& wstr); #endif // GTEST_HAS_STD_WSTRING #if GTEST_HAS_GLOBAL_WSTRING // Converts the given wide string to a narrow string using the UTF-8 // encoding, and streams the result to this Message object. Message& operator <<(const ::wstring& wstr); #endif // GTEST_HAS_GLOBAL_WSTRING // Gets the text streamed to this object so far as an std::string. // Each '\0' character in the buffer is replaced with "\\0". // // INTERNAL IMPLEMENTATION - DO NOT USE IN A USER PROGRAM. std::string GetString() const; private: #if GTEST_OS_SYMBIAN // These are needed as the Nokia Symbian Compiler cannot decide between // const T& and const T* in a function template. The Nokia compiler _can_ // decide between class template specializations for T and T*, so a // tr1::type_traits-like is_pointer works, and we can overload on that. template inline void StreamHelper(internal::true_type /*is_pointer*/, T* pointer) { if (pointer == NULL) { *ss_ << "(null)"; } else { *ss_ << pointer; } } template inline void StreamHelper(internal::false_type /*is_pointer*/, const T& value) { // See the comments in Message& operator <<(const T&) above for why // we need this using statement. using ::operator <<; *ss_ << value; } #endif // GTEST_OS_SYMBIAN // We'll hold the text streamed to this object here. const internal::scoped_ptr< ::std::stringstream> ss_; // We declare (but don't implement) this to prevent the compiler // from implementing the assignment operator. void operator=(const Message&); }; // Streams a Message to an ostream. inline std::ostream& operator <<(std::ostream& os, const Message& sb) { return os << sb.GetString(); } namespace internal { // Converts a streamable value to an std::string. A NULL pointer is // converted to "(null)". When the input value is a ::string, // ::std::string, ::wstring, or ::std::wstring object, each NUL // character in it is replaced with "\\0". template std::string StreamableToString(const T& streamable) { return (Message() << streamable).GetString(); } } // namespace internal } // namespace testing #endif // GTEST_INCLUDE_GTEST_GTEST_MESSAGE_H_ // Copyright 2005, Google Inc. // All rights reserved. // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following disclaimer // in the documentation and/or other materials provided with the // distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived from // this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // // Authors: wan@google.com (Zhanyong Wan), eefacm@gmail.com (Sean Mcafee) // // The Google C++ Testing Framework (Google Test) // // This header file declares the String class and functions used internally by // Google Test. They are subject to change without notice. They should not used // by code external to Google Test. // // This header file is #included by . // It should not be #included by other files. #ifndef GTEST_INCLUDE_GTEST_INTERNAL_GTEST_STRING_H_ #define GTEST_INCLUDE_GTEST_INTERNAL_GTEST_STRING_H_ #ifdef __BORLANDC__ // string.h is not guaranteed to provide strcpy on C++ Builder. # include #endif #include #include namespace testing { namespace internal { // String - an abstract class holding static string utilities. class GTEST_API_ String { public: // Static utility methods // Clones a 0-terminated C string, allocating memory using new. The // caller is responsible for deleting the return value using // delete[]. Returns the cloned string, or NULL if the input is // NULL. // // This is different from strdup() in string.h, which allocates // memory using malloc(). static const char* CloneCString(const char* c_str); #if GTEST_OS_WINDOWS_MOBILE // Windows CE does not have the 'ANSI' versions of Win32 APIs. To be // able to pass strings to Win32 APIs on CE we need to convert them // to 'Unicode', UTF-16. // Creates a UTF-16 wide string from the given ANSI string, allocating // memory using new. The caller is responsible for deleting the return // value using delete[]. Returns the wide string, or NULL if the // input is NULL. // // The wide string is created using the ANSI codepage (CP_ACP) to // match the behaviour of the ANSI versions of Win32 calls and the // C runtime. static LPCWSTR AnsiToUtf16(const char* c_str); // Creates an ANSI string from the given wide string, allocating // memory using new. The caller is responsible for deleting the return // value using delete[]. Returns the ANSI string, or NULL if the // input is NULL. // // The returned string is created using the ANSI codepage (CP_ACP) to // match the behaviour of the ANSI versions of Win32 calls and the // C runtime. static const char* Utf16ToAnsi(LPCWSTR utf16_str); #endif // Compares two C strings. Returns true iff they have the same content. // // Unlike strcmp(), this function can handle NULL argument(s). A // NULL C string is considered different to any non-NULL C string, // including the empty string. static bool CStringEquals(const char* lhs, const char* rhs); // Converts a wide C string to a String using the UTF-8 encoding. // NULL will be converted to "(null)". If an error occurred during // the conversion, "(failed to convert from wide string)" is // returned. static std::string ShowWideCString(const wchar_t* wide_c_str); // Compares two wide C strings. Returns true iff they have the same // content. // // Unlike wcscmp(), this function can handle NULL argument(s). A // NULL C string is considered different to any non-NULL C string, // including the empty string. static bool WideCStringEquals(const wchar_t* lhs, const wchar_t* rhs); // Compares two C strings, ignoring case. Returns true iff they // have the same content. // // Unlike strcasecmp(), this function can handle NULL argument(s). // A NULL C string is considered different to any non-NULL C string, // including the empty string. static bool CaseInsensitiveCStringEquals(const char* lhs, const char* rhs); // Compares two wide C strings, ignoring case. Returns true iff they // have the same content. // // Unlike wcscasecmp(), this function can handle NULL argument(s). // A NULL C string is considered different to any non-NULL wide C string, // including the empty string. // NB: The implementations on different platforms slightly differ. // On windows, this method uses _wcsicmp which compares according to LC_CTYPE // environment variable. On GNU platform this method uses wcscasecmp // which compares according to LC_CTYPE category of the current locale. // On MacOS X, it uses towlower, which also uses LC_CTYPE category of the // current locale. static bool CaseInsensitiveWideCStringEquals(const wchar_t* lhs, const wchar_t* rhs); // Returns true iff the given string ends with the given suffix, ignoring // case. Any string is considered to end with an empty suffix. static bool EndsWithCaseInsensitive( const std::string& str, const std::string& suffix); // Formats an int value as "%02d". static std::string FormatIntWidth2(int value); // "%02d" for width == 2 // Formats an int value as "%X". static std::string FormatHexInt(int value); // Formats a byte as "%02X". static std::string FormatByte(unsigned char value); private: String(); // Not meant to be instantiated. }; // class String // Gets the content of the stringstream's buffer as an std::string. Each '\0' // character in the buffer is replaced with "\\0". GTEST_API_ std::string StringStreamToString(::std::stringstream* stream); } // namespace internal } // namespace testing #endif // GTEST_INCLUDE_GTEST_INTERNAL_GTEST_STRING_H_ // Copyright 2008, Google Inc. // All rights reserved. // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following disclaimer // in the documentation and/or other materials provided with the // distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived from // this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // // Author: keith.ray@gmail.com (Keith Ray) // // Google Test filepath utilities // // This header file declares classes and functions used internally by // Google Test. They are subject to change without notice. // // This file is #included in . // Do not include this header file separately! #ifndef GTEST_INCLUDE_GTEST_INTERNAL_GTEST_FILEPATH_H_ #define GTEST_INCLUDE_GTEST_INTERNAL_GTEST_FILEPATH_H_ namespace testing { namespace internal { // FilePath - a class for file and directory pathname manipulation which // handles platform-specific conventions (like the pathname separator). // Used for helper functions for naming files in a directory for xml output. // Except for Set methods, all methods are const or static, which provides an // "immutable value object" -- useful for peace of mind. // A FilePath with a value ending in a path separator ("like/this/") represents // a directory, otherwise it is assumed to represent a file. In either case, // it may or may not represent an actual file or directory in the file system. // Names are NOT checked for syntax correctness -- no checking for illegal // characters, malformed paths, etc. class GTEST_API_ FilePath { public: FilePath() : pathname_("") { } FilePath(const FilePath& rhs) : pathname_(rhs.pathname_) { } explicit FilePath(const std::string& pathname) : pathname_(pathname) { Normalize(); } FilePath& operator=(const FilePath& rhs) { Set(rhs); return *this; } void Set(const FilePath& rhs) { pathname_ = rhs.pathname_; } const std::string& string() const { return pathname_; } const char* c_str() const { return pathname_.c_str(); } // Returns the current working directory, or "" if unsuccessful. static FilePath GetCurrentDir(); // Given directory = "dir", base_name = "test", number = 0, // extension = "xml", returns "dir/test.xml". If number is greater // than zero (e.g., 12), returns "dir/test_12.xml". // On Windows platform, uses \ as the separator rather than /. static FilePath MakeFileName(const FilePath& directory, const FilePath& base_name, int number, const char* extension); // Given directory = "dir", relative_path = "test.xml", // returns "dir/test.xml". // On Windows, uses \ as the separator rather than /. static FilePath ConcatPaths(const FilePath& directory, const FilePath& relative_path); // Returns a pathname for a file that does not currently exist. The pathname // will be directory/base_name.extension or // directory/base_name_.extension if directory/base_name.extension // already exists. The number will be incremented until a pathname is found // that does not already exist. // Examples: 'dir/foo_test.xml' or 'dir/foo_test_1.xml'. // There could be a race condition if two or more processes are calling this // function at the same time -- they could both pick the same filename. static FilePath GenerateUniqueFileName(const FilePath& directory, const FilePath& base_name, const char* extension); // Returns true iff the path is "". bool IsEmpty() const { return pathname_.empty(); } // If input name has a trailing separator character, removes it and returns // the name, otherwise return the name string unmodified. // On Windows platform, uses \ as the separator, other platforms use /. FilePath RemoveTrailingPathSeparator() const; // Returns a copy of the FilePath with the directory part removed. // Example: FilePath("path/to/file").RemoveDirectoryName() returns // FilePath("file"). If there is no directory part ("just_a_file"), it returns // the FilePath unmodified. If there is no file part ("just_a_dir/") it // returns an empty FilePath (""). // On Windows platform, '\' is the path separator, otherwise it is '/'. FilePath RemoveDirectoryName() const; // RemoveFileName returns the directory path with the filename removed. // Example: FilePath("path/to/file").RemoveFileName() returns "path/to/". // If the FilePath is "a_file" or "/a_file", RemoveFileName returns // FilePath("./") or, on Windows, FilePath(".\\"). If the filepath does // not have a file, like "just/a/dir/", it returns the FilePath unmodified. // On Windows platform, '\' is the path separator, otherwise it is '/'. FilePath RemoveFileName() const; // Returns a copy of the FilePath with the case-insensitive extension removed. // Example: FilePath("dir/file.exe").RemoveExtension("EXE") returns // FilePath("dir/file"). If a case-insensitive extension is not // found, returns a copy of the original FilePath. FilePath RemoveExtension(const char* extension) const; // Creates directories so that path exists. Returns true if successful or if // the directories already exist; returns false if unable to create // directories for any reason. Will also return false if the FilePath does // not represent a directory (that is, it doesn't end with a path separator). bool CreateDirectoriesRecursively() const; // Create the directory so that path exists. Returns true if successful or // if the directory already exists; returns false if unable to create the // directory for any reason, including if the parent directory does not // exist. Not named "CreateDirectory" because that's a macro on Windows. bool CreateFolder() const; // Returns true if FilePath describes something in the file-system, // either a file, directory, or whatever, and that something exists. bool FileOrDirectoryExists() const; // Returns true if pathname describes a directory in the file-system // that exists. bool DirectoryExists() const; // Returns true if FilePath ends with a path separator, which indicates that // it is intended to represent a directory. Returns false otherwise. // This does NOT check that a directory (or file) actually exists. bool IsDirectory() const; // Returns true if pathname describes a root directory. (Windows has one // root directory per disk drive.) bool IsRootDirectory() const; // Returns true if pathname describes an absolute path. bool IsAbsolutePath() const; private: // Replaces multiple consecutive separators with a single separator. // For example, "bar///foo" becomes "bar/foo". Does not eliminate other // redundancies that might be in a pathname involving "." or "..". // // A pathname with multiple consecutive separators may occur either through // user error or as a result of some scripts or APIs that generate a pathname // with a trailing separator. On other platforms the same API or script // may NOT generate a pathname with a trailing "/". Then elsewhere that // pathname may have another "/" and pathname components added to it, // without checking for the separator already being there. // The script language and operating system may allow paths like "foo//bar" // but some of the functions in FilePath will not handle that correctly. In // particular, RemoveTrailingPathSeparator() only removes one separator, and // it is called in CreateDirectoriesRecursively() assuming that it will change // a pathname from directory syntax (trailing separator) to filename syntax. // // On Windows this method also replaces the alternate path separator '/' with // the primary path separator '\\', so that for example "bar\\/\\foo" becomes // "bar\\foo". void Normalize(); // Returns a pointer to the last occurence of a valid path separator in // the FilePath. On Windows, for example, both '/' and '\' are valid path // separators. Returns NULL if no path separator was found. const char* FindLastPathSeparator() const; std::string pathname_; }; // class FilePath } // namespace internal } // namespace testing #endif // GTEST_INCLUDE_GTEST_INTERNAL_GTEST_FILEPATH_H_ // This file was GENERATED by command: // pump.py gtest-type-util.h.pump // DO NOT EDIT BY HAND!!! // Copyright 2008 Google Inc. // All Rights Reserved. // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following disclaimer // in the documentation and/or other materials provided with the // distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived from // this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // // Author: wan@google.com (Zhanyong Wan) // Type utilities needed for implementing typed and type-parameterized // tests. This file is generated by a SCRIPT. DO NOT EDIT BY HAND! // // Currently we support at most 50 types in a list, and at most 50 // type-parameterized tests in one type-parameterized test case. // Please contact googletestframework@googlegroups.com if you need // more. #ifndef GTEST_INCLUDE_GTEST_INTERNAL_GTEST_TYPE_UTIL_H_ #define GTEST_INCLUDE_GTEST_INTERNAL_GTEST_TYPE_UTIL_H_ // #ifdef __GNUC__ is too general here. It is possible to use gcc without using // libstdc++ (which is where cxxabi.h comes from). # if GTEST_HAS_CXXABI_H_ # include # elif defined(__HP_aCC) # include # endif // GTEST_HASH_CXXABI_H_ namespace testing { namespace internal { // GetTypeName() returns a human-readable name of type T. // NB: This function is also used in Google Mock, so don't move it inside of // the typed-test-only section below. template std::string GetTypeName() { # if GTEST_HAS_RTTI const char* const name = typeid(T).name(); # if GTEST_HAS_CXXABI_H_ || defined(__HP_aCC) int status = 0; // gcc's implementation of typeid(T).name() mangles the type name, // so we have to demangle it. # if GTEST_HAS_CXXABI_H_ using abi::__cxa_demangle; # endif // GTEST_HAS_CXXABI_H_ char* const readable_name = __cxa_demangle(name, 0, 0, &status); const std::string name_str(status == 0 ? readable_name : name); free(readable_name); return name_str; # else return name; # endif // GTEST_HAS_CXXABI_H_ || __HP_aCC # else return ""; # endif // GTEST_HAS_RTTI } #if GTEST_HAS_TYPED_TEST || GTEST_HAS_TYPED_TEST_P // AssertyTypeEq::type is defined iff T1 and T2 are the same // type. This can be used as a compile-time assertion to ensure that // two types are equal. template struct AssertTypeEq; template struct AssertTypeEq { typedef bool type; }; // A unique type used as the default value for the arguments of class // template Types. This allows us to simulate variadic templates // (e.g. Types, Type, and etc), which C++ doesn't // support directly. struct None {}; // The following family of struct and struct templates are used to // represent type lists. In particular, TypesN // represents a type list with N types (T1, T2, ..., and TN) in it. // Except for Types0, every struct in the family has two member types: // Head for the first type in the list, and Tail for the rest of the // list. // The empty type list. struct Types0 {}; // Type lists of length 1, 2, 3, and so on. template struct Types1 { typedef T1 Head; typedef Types0 Tail; }; template struct Types2 { typedef T1 Head; typedef Types1 Tail; }; template struct Types3 { typedef T1 Head; typedef Types2 Tail; }; template struct Types4 { typedef T1 Head; typedef Types3 Tail; }; template struct Types5 { typedef T1 Head; typedef Types4 Tail; }; template struct Types6 { typedef T1 Head; typedef Types5 Tail; }; template struct Types7 { typedef T1 Head; typedef Types6 Tail; }; template struct Types8 { typedef T1 Head; typedef Types7 Tail; }; template struct Types9 { typedef T1 Head; typedef Types8 Tail; }; template struct Types10 { typedef T1 Head; typedef Types9 Tail; }; template struct Types11 { typedef T1 Head; typedef Types10 Tail; }; template struct Types12 { typedef T1 Head; typedef Types11 Tail; }; template struct Types13 { typedef T1 Head; typedef Types12 Tail; }; template struct Types14 { typedef T1 Head; typedef Types13 Tail; }; template struct Types15 { typedef T1 Head; typedef Types14 Tail; }; template struct Types16 { typedef T1 Head; typedef Types15 Tail; }; template struct Types17 { typedef T1 Head; typedef Types16 Tail; }; template struct Types18 { typedef T1 Head; typedef Types17 Tail; }; template struct Types19 { typedef T1 Head; typedef Types18 Tail; }; template struct Types20 { typedef T1 Head; typedef Types19 Tail; }; template struct Types21 { typedef T1 Head; typedef Types20 Tail; }; template struct Types22 { typedef T1 Head; typedef Types21 Tail; }; template struct Types23 { typedef T1 Head; typedef Types22 Tail; }; template struct Types24 { typedef T1 Head; typedef Types23 Tail; }; template struct Types25 { typedef T1 Head; typedef Types24 Tail; }; template struct Types26 { typedef T1 Head; typedef Types25 Tail; }; template struct Types27 { typedef T1 Head; typedef Types26 Tail; }; template struct Types28 { typedef T1 Head; typedef Types27 Tail; }; template struct Types29 { typedef T1 Head; typedef Types28 Tail; }; template struct Types30 { typedef T1 Head; typedef Types29 Tail; }; template struct Types31 { typedef T1 Head; typedef Types30 Tail; }; template struct Types32 { typedef T1 Head; typedef Types31 Tail; }; template struct Types33 { typedef T1 Head; typedef Types32 Tail; }; template struct Types34 { typedef T1 Head; typedef Types33 Tail; }; template struct Types35 { typedef T1 Head; typedef Types34 Tail; }; template struct Types36 { typedef T1 Head; typedef Types35 Tail; }; template struct Types37 { typedef T1 Head; typedef Types36 Tail; }; template struct Types38 { typedef T1 Head; typedef Types37 Tail; }; template struct Types39 { typedef T1 Head; typedef Types38 Tail; }; template struct Types40 { typedef T1 Head; typedef Types39 Tail; }; template struct Types41 { typedef T1 Head; typedef Types40 Tail; }; template struct Types42 { typedef T1 Head; typedef Types41 Tail; }; template struct Types43 { typedef T1 Head; typedef Types42 Tail; }; template struct Types44 { typedef T1 Head; typedef Types43 Tail; }; template struct Types45 { typedef T1 Head; typedef Types44 Tail; }; template struct Types46 { typedef T1 Head; typedef Types45 Tail; }; template struct Types47 { typedef T1 Head; typedef Types46 Tail; }; template struct Types48 { typedef T1 Head; typedef Types47 Tail; }; template struct Types49 { typedef T1 Head; typedef Types48 Tail; }; template struct Types50 { typedef T1 Head; typedef Types49 Tail; }; } // namespace internal // We don't want to require the users to write TypesN<...> directly, // as that would require them to count the length. Types<...> is much // easier to write, but generates horrible messages when there is a // compiler error, as gcc insists on printing out each template // argument, even if it has the default value (this means Types // will appear as Types in the compiler // errors). // // Our solution is to combine the best part of the two approaches: a // user would write Types, and Google Test will translate // that to TypesN internally to make error messages // readable. The translation is done by the 'type' member of the // Types template. template struct Types { typedef internal::Types50 type; }; template <> struct Types { typedef internal::Types0 type; }; template struct Types { typedef internal::Types1 type; }; template struct Types { typedef internal::Types2 type; }; template struct Types { typedef internal::Types3 type; }; template struct Types { typedef internal::Types4 type; }; template struct Types { typedef internal::Types5 type; }; template struct Types { typedef internal::Types6 type; }; template struct Types { typedef internal::Types7 type; }; template struct Types { typedef internal::Types8 type; }; template struct Types { typedef internal::Types9 type; }; template struct Types { typedef internal::Types10 type; }; template struct Types { typedef internal::Types11 type; }; template struct Types { typedef internal::Types12 type; }; template struct Types { typedef internal::Types13 type; }; template struct Types { typedef internal::Types14 type; }; template struct Types { typedef internal::Types15 type; }; template struct Types { typedef internal::Types16 type; }; template struct Types { typedef internal::Types17 type; }; template struct Types { typedef internal::Types18 type; }; template struct Types { typedef internal::Types19 type; }; template struct Types { typedef internal::Types20 type; }; template struct Types { typedef internal::Types21 type; }; template struct Types { typedef internal::Types22 type; }; template struct Types { typedef internal::Types23 type; }; template struct Types { typedef internal::Types24 type; }; template struct Types { typedef internal::Types25 type; }; template struct Types { typedef internal::Types26 type; }; template struct Types { typedef internal::Types27 type; }; template struct Types { typedef internal::Types28 type; }; template struct Types { typedef internal::Types29 type; }; template struct Types { typedef internal::Types30 type; }; template struct Types { typedef internal::Types31 type; }; template struct Types { typedef internal::Types32 type; }; template struct Types { typedef internal::Types33 type; }; template struct Types { typedef internal::Types34 type; }; template struct Types { typedef internal::Types35 type; }; template struct Types { typedef internal::Types36 type; }; template struct Types { typedef internal::Types37 type; }; template struct Types { typedef internal::Types38 type; }; template struct Types { typedef internal::Types39 type; }; template struct Types { typedef internal::Types40 type; }; template struct Types { typedef internal::Types41 type; }; template struct Types { typedef internal::Types42 type; }; template struct Types { typedef internal::Types43 type; }; template struct Types { typedef internal::Types44 type; }; template struct Types { typedef internal::Types45 type; }; template struct Types { typedef internal::Types46 type; }; template struct Types { typedef internal::Types47 type; }; template struct Types { typedef internal::Types48 type; }; template struct Types { typedef internal::Types49 type; }; namespace internal { # define GTEST_TEMPLATE_ template class // The template "selector" struct TemplateSel is used to // represent Tmpl, which must be a class template with one type // parameter, as a type. TemplateSel::Bind::type is defined // as the type Tmpl. This allows us to actually instantiate the // template "selected" by TemplateSel. // // This trick is necessary for simulating typedef for class templates, // which C++ doesn't support directly. template struct TemplateSel { template struct Bind { typedef Tmpl type; }; }; # define GTEST_BIND_(TmplSel, T) \ TmplSel::template Bind::type // A unique struct template used as the default value for the // arguments of class template Templates. This allows us to simulate // variadic templates (e.g. Templates, Templates, // and etc), which C++ doesn't support directly. template struct NoneT {}; // The following family of struct and struct templates are used to // represent template lists. In particular, TemplatesN represents a list of N templates (T1, T2, ..., and TN). Except // for Templates0, every struct in the family has two member types: // Head for the selector of the first template in the list, and Tail // for the rest of the list. // The empty template list. struct Templates0 {}; // Template lists of length 1, 2, 3, and so on. template struct Templates1 { typedef TemplateSel Head; typedef Templates0 Tail; }; template struct Templates2 { typedef TemplateSel Head; typedef Templates1 Tail; }; template struct Templates3 { typedef TemplateSel Head; typedef Templates2 Tail; }; template struct Templates4 { typedef TemplateSel Head; typedef Templates3 Tail; }; template struct Templates5 { typedef TemplateSel Head; typedef Templates4 Tail; }; template struct Templates6 { typedef TemplateSel Head; typedef Templates5 Tail; }; template struct Templates7 { typedef TemplateSel Head; typedef Templates6 Tail; }; template struct Templates8 { typedef TemplateSel Head; typedef Templates7 Tail; }; template struct Templates9 { typedef TemplateSel Head; typedef Templates8 Tail; }; template struct Templates10 { typedef TemplateSel Head; typedef Templates9 Tail; }; template struct Templates11 { typedef TemplateSel Head; typedef Templates10 Tail; }; template struct Templates12 { typedef TemplateSel Head; typedef Templates11 Tail; }; template struct Templates13 { typedef TemplateSel Head; typedef Templates12 Tail; }; template struct Templates14 { typedef TemplateSel Head; typedef Templates13 Tail; }; template struct Templates15 { typedef TemplateSel Head; typedef Templates14 Tail; }; template struct Templates16 { typedef TemplateSel Head; typedef Templates15 Tail; }; template struct Templates17 { typedef TemplateSel Head; typedef Templates16 Tail; }; template struct Templates18 { typedef TemplateSel Head; typedef Templates17 Tail; }; template struct Templates19 { typedef TemplateSel Head; typedef Templates18 Tail; }; template struct Templates20 { typedef TemplateSel Head; typedef Templates19 Tail; }; template struct Templates21 { typedef TemplateSel Head; typedef Templates20 Tail; }; template struct Templates22 { typedef TemplateSel Head; typedef Templates21 Tail; }; template struct Templates23 { typedef TemplateSel Head; typedef Templates22 Tail; }; template struct Templates24 { typedef TemplateSel Head; typedef Templates23 Tail; }; template struct Templates25 { typedef TemplateSel Head; typedef Templates24 Tail; }; template struct Templates26 { typedef TemplateSel Head; typedef Templates25 Tail; }; template struct Templates27 { typedef TemplateSel Head; typedef Templates26 Tail; }; template struct Templates28 { typedef TemplateSel Head; typedef Templates27 Tail; }; template struct Templates29 { typedef TemplateSel Head; typedef Templates28 Tail; }; template struct Templates30 { typedef TemplateSel Head; typedef Templates29 Tail; }; template struct Templates31 { typedef TemplateSel Head; typedef Templates30 Tail; }; template struct Templates32 { typedef TemplateSel Head; typedef Templates31 Tail; }; template struct Templates33 { typedef TemplateSel Head; typedef Templates32 Tail; }; template struct Templates34 { typedef TemplateSel Head; typedef Templates33 Tail; }; template struct Templates35 { typedef TemplateSel Head; typedef Templates34 Tail; }; template struct Templates36 { typedef TemplateSel Head; typedef Templates35 Tail; }; template struct Templates37 { typedef TemplateSel Head; typedef Templates36 Tail; }; template struct Templates38 { typedef TemplateSel Head; typedef Templates37 Tail; }; template struct Templates39 { typedef TemplateSel Head; typedef Templates38 Tail; }; template struct Templates40 { typedef TemplateSel Head; typedef Templates39 Tail; }; template struct Templates41 { typedef TemplateSel Head; typedef Templates40 Tail; }; template struct Templates42 { typedef TemplateSel Head; typedef Templates41 Tail; }; template struct Templates43 { typedef TemplateSel Head; typedef Templates42 Tail; }; template struct Templates44 { typedef TemplateSel Head; typedef Templates43 Tail; }; template struct Templates45 { typedef TemplateSel Head; typedef Templates44 Tail; }; template struct Templates46 { typedef TemplateSel Head; typedef Templates45 Tail; }; template struct Templates47 { typedef TemplateSel Head; typedef Templates46 Tail; }; template struct Templates48 { typedef TemplateSel Head; typedef Templates47 Tail; }; template struct Templates49 { typedef TemplateSel Head; typedef Templates48 Tail; }; template struct Templates50 { typedef TemplateSel Head; typedef Templates49 Tail; }; // We don't want to require the users to write TemplatesN<...> directly, // as that would require them to count the length. Templates<...> is much // easier to write, but generates horrible messages when there is a // compiler error, as gcc insists on printing out each template // argument, even if it has the default value (this means Templates // will appear as Templates in the compiler // errors). // // Our solution is to combine the best part of the two approaches: a // user would write Templates, and Google Test will translate // that to TemplatesN internally to make error messages // readable. The translation is done by the 'type' member of the // Templates template. template struct Templates { typedef Templates50 type; }; template <> struct Templates { typedef Templates0 type; }; template struct Templates { typedef Templates1 type; }; template struct Templates { typedef Templates2 type; }; template struct Templates { typedef Templates3 type; }; template struct Templates { typedef Templates4 type; }; template struct Templates { typedef Templates5 type; }; template struct Templates { typedef Templates6 type; }; template struct Templates { typedef Templates7 type; }; template struct Templates { typedef Templates8 type; }; template struct Templates { typedef Templates9 type; }; template struct Templates { typedef Templates10 type; }; template struct Templates { typedef Templates11 type; }; template struct Templates { typedef Templates12 type; }; template struct Templates { typedef Templates13 type; }; template struct Templates { typedef Templates14 type; }; template struct Templates { typedef Templates15 type; }; template struct Templates { typedef Templates16 type; }; template struct Templates { typedef Templates17 type; }; template struct Templates { typedef Templates18 type; }; template struct Templates { typedef Templates19 type; }; template struct Templates { typedef Templates20 type; }; template struct Templates { typedef Templates21 type; }; template struct Templates { typedef Templates22 type; }; template struct Templates { typedef Templates23 type; }; template struct Templates { typedef Templates24 type; }; template struct Templates { typedef Templates25 type; }; template struct Templates { typedef Templates26 type; }; template struct Templates { typedef Templates27 type; }; template struct Templates { typedef Templates28 type; }; template struct Templates { typedef Templates29 type; }; template struct Templates { typedef Templates30 type; }; template struct Templates { typedef Templates31 type; }; template struct Templates { typedef Templates32 type; }; template struct Templates { typedef Templates33 type; }; template struct Templates { typedef Templates34 type; }; template struct Templates { typedef Templates35 type; }; template struct Templates { typedef Templates36 type; }; template struct Templates { typedef Templates37 type; }; template struct Templates { typedef Templates38 type; }; template struct Templates { typedef Templates39 type; }; template struct Templates { typedef Templates40 type; }; template struct Templates { typedef Templates41 type; }; template struct Templates { typedef Templates42 type; }; template struct Templates { typedef Templates43 type; }; template struct Templates { typedef Templates44 type; }; template struct Templates { typedef Templates45 type; }; template struct Templates { typedef Templates46 type; }; template struct Templates { typedef Templates47 type; }; template struct Templates { typedef Templates48 type; }; template struct Templates { typedef Templates49 type; }; // The TypeList template makes it possible to use either a single type // or a Types<...> list in TYPED_TEST_CASE() and // INSTANTIATE_TYPED_TEST_CASE_P(). template struct TypeList { typedef Types1 type; }; template struct TypeList > { typedef typename Types::type type; }; #endif // GTEST_HAS_TYPED_TEST || GTEST_HAS_TYPED_TEST_P } // namespace internal } // namespace testing #endif // GTEST_INCLUDE_GTEST_INTERNAL_GTEST_TYPE_UTIL_H_ // Due to C++ preprocessor weirdness, we need double indirection to // concatenate two tokens when one of them is __LINE__. Writing // // foo ## __LINE__ // // will result in the token foo__LINE__, instead of foo followed by // the current line number. For more details, see // http://www.parashift.com/c++-faq-lite/misc-technical-issues.html#faq-39.6 #define GTEST_CONCAT_TOKEN_(foo, bar) GTEST_CONCAT_TOKEN_IMPL_(foo, bar) #define GTEST_CONCAT_TOKEN_IMPL_(foo, bar) foo ## bar class ProtocolMessage; namespace proto2 { class Message; } namespace testing { // Forward declarations. class AssertionResult; // Result of an assertion. class Message; // Represents a failure message. class Test; // Represents a test. class TestInfo; // Information about a test. class TestPartResult; // Result of a test part. class UnitTest; // A collection of test cases. template ::std::string PrintToString(const T& value); namespace internal { struct TraceInfo; // Information about a trace point. class ScopedTrace; // Implements scoped trace. class TestInfoImpl; // Opaque implementation of TestInfo class UnitTestImpl; // Opaque implementation of UnitTest // How many times InitGoogleTest() has been called. GTEST_API_ extern int g_init_gtest_count; // The text used in failure messages to indicate the start of the // stack trace. GTEST_API_ extern const char kStackTraceMarker[]; // Two overloaded helpers for checking at compile time whether an // expression is a null pointer literal (i.e. NULL or any 0-valued // compile-time integral constant). Their return values have // different sizes, so we can use sizeof() to test which version is // picked by the compiler. These helpers have no implementations, as // we only need their signatures. // // Given IsNullLiteralHelper(x), the compiler will pick the first // version if x can be implicitly converted to Secret*, and pick the // second version otherwise. Since Secret is a secret and incomplete // type, the only expression a user can write that has type Secret* is // a null pointer literal. Therefore, we know that x is a null // pointer literal if and only if the first version is picked by the // compiler. char IsNullLiteralHelper(Secret* p); char (&IsNullLiteralHelper(...))[2]; // NOLINT // A compile-time bool constant that is true if and only if x is a // null pointer literal (i.e. NULL or any 0-valued compile-time // integral constant). #ifdef GTEST_ELLIPSIS_NEEDS_POD_ // We lose support for NULL detection where the compiler doesn't like // passing non-POD classes through ellipsis (...). # define GTEST_IS_NULL_LITERAL_(x) false #else # define GTEST_IS_NULL_LITERAL_(x) \ (sizeof(::testing::internal::IsNullLiteralHelper(x)) == 1) #endif // GTEST_ELLIPSIS_NEEDS_POD_ // Appends the user-supplied message to the Google-Test-generated message. GTEST_API_ std::string AppendUserMessage( const std::string& gtest_msg, const Message& user_msg); #if GTEST_HAS_EXCEPTIONS // This exception is thrown by (and only by) a failed Google Test // assertion when GTEST_FLAG(throw_on_failure) is true (if exceptions // are enabled). We derive it from std::runtime_error, which is for // errors presumably detectable only at run time. Since // std::runtime_error inherits from std::exception, many testing // frameworks know how to extract and print the message inside it. class GTEST_API_ GoogleTestFailureException : public ::std::runtime_error { public: explicit GoogleTestFailureException(const TestPartResult& failure); }; #endif // GTEST_HAS_EXCEPTIONS // A helper class for creating scoped traces in user programs. class GTEST_API_ ScopedTrace { public: // The c'tor pushes the given source file location and message onto // a trace stack maintained by Google Test. ScopedTrace(const char* file, int line, const Message& message); // The d'tor pops the info pushed by the c'tor. // // Note that the d'tor is not virtual in order to be efficient. // Don't inherit from ScopedTrace! ~ScopedTrace(); private: GTEST_DISALLOW_COPY_AND_ASSIGN_(ScopedTrace); } GTEST_ATTRIBUTE_UNUSED_; // A ScopedTrace object does its job in its // c'tor and d'tor. Therefore it doesn't // need to be used otherwise. namespace edit_distance { // Returns the optimal edits to go from 'left' to 'right'. // All edits cost the same, with replace having lower priority than // add/remove. // Simple implementation of the Wagner-Fischer algorithm. // See http://en.wikipedia.org/wiki/Wagner-Fischer_algorithm enum EditType { kMatch, kAdd, kRemove, kReplace }; GTEST_API_ std::vector CalculateOptimalEdits( const std::vector& left, const std::vector& right); // Same as above, but the input is represented as strings. GTEST_API_ std::vector CalculateOptimalEdits( const std::vector& left, const std::vector& right); // Create a diff of the input strings in Unified diff format. GTEST_API_ std::string CreateUnifiedDiff(const std::vector& left, const std::vector& right, size_t context = 2); } // namespace edit_distance // Calculate the diff between 'left' and 'right' and return it in unified diff // format. // If not null, stores in 'total_line_count' the total number of lines found // in left + right. GTEST_API_ std::string DiffStrings(const std::string& left, const std::string& right, size_t* total_line_count); // Constructs and returns the message for an equality assertion // (e.g. ASSERT_EQ, EXPECT_STREQ, etc) failure. // // The first four parameters are the expressions used in the assertion // and their values, as strings. For example, for ASSERT_EQ(foo, bar) // where foo is 5 and bar is 6, we have: // // expected_expression: "foo" // actual_expression: "bar" // expected_value: "5" // actual_value: "6" // // The ignoring_case parameter is true iff the assertion is a // *_STRCASEEQ*. When it's true, the string " (ignoring case)" will // be inserted into the message. GTEST_API_ AssertionResult EqFailure(const char* expected_expression, const char* actual_expression, const std::string& expected_value, const std::string& actual_value, bool ignoring_case); // Constructs a failure message for Boolean assertions such as EXPECT_TRUE. GTEST_API_ std::string GetBoolAssertionFailureMessage( const AssertionResult& assertion_result, const char* expression_text, const char* actual_predicate_value, const char* expected_predicate_value); // This template class represents an IEEE floating-point number // (either single-precision or double-precision, depending on the // template parameters). // // The purpose of this class is to do more sophisticated number // comparison. (Due to round-off error, etc, it's very unlikely that // two floating-points will be equal exactly. Hence a naive // comparison by the == operation often doesn't work.) // // Format of IEEE floating-point: // // The most-significant bit being the leftmost, an IEEE // floating-point looks like // // sign_bit exponent_bits fraction_bits // // Here, sign_bit is a single bit that designates the sign of the // number. // // For float, there are 8 exponent bits and 23 fraction bits. // // For double, there are 11 exponent bits and 52 fraction bits. // // More details can be found at // http://en.wikipedia.org/wiki/IEEE_floating-point_standard. // // Template parameter: // // RawType: the raw floating-point type (either float or double) template class FloatingPoint { public: // Defines the unsigned integer type that has the same size as the // floating point number. typedef typename TypeWithSize::UInt Bits; // Constants. // # of bits in a number. static const size_t kBitCount = 8*sizeof(RawType); // # of fraction bits in a number. static const size_t kFractionBitCount = std::numeric_limits::digits - 1; // # of exponent bits in a number. static const size_t kExponentBitCount = kBitCount - 1 - kFractionBitCount; // The mask for the sign bit. static const Bits kSignBitMask = static_cast(1) << (kBitCount - 1); // The mask for the fraction bits. static const Bits kFractionBitMask = ~static_cast(0) >> (kExponentBitCount + 1); // The mask for the exponent bits. static const Bits kExponentBitMask = ~(kSignBitMask | kFractionBitMask); // How many ULP's (Units in the Last Place) we want to tolerate when // comparing two numbers. The larger the value, the more error we // allow. A 0 value means that two numbers must be exactly the same // to be considered equal. // // The maximum error of a single floating-point operation is 0.5 // units in the last place. On Intel CPU's, all floating-point // calculations are done with 80-bit precision, while double has 64 // bits. Therefore, 4 should be enough for ordinary use. // // See the following article for more details on ULP: // http://randomascii.wordpress.com/2012/02/25/comparing-floating-point-numbers-2012-edition/ static const size_t kMaxUlps = 4; // Constructs a FloatingPoint from a raw floating-point number. // // On an Intel CPU, passing a non-normalized NAN (Not a Number) // around may change its bits, although the new value is guaranteed // to be also a NAN. Therefore, don't expect this constructor to // preserve the bits in x when x is a NAN. explicit FloatingPoint(const RawType& x) { u_.value_ = x; } // Static methods // Reinterprets a bit pattern as a floating-point number. // // This function is needed to test the AlmostEquals() method. static RawType ReinterpretBits(const Bits bits) { FloatingPoint fp(0); fp.u_.bits_ = bits; return fp.u_.value_; } // Returns the floating-point number that represent positive infinity. static RawType Infinity() { return ReinterpretBits(kExponentBitMask); } // Returns the maximum representable finite floating-point number. static RawType Max(); // Non-static methods // Returns the bits that represents this number. const Bits &bits() const { return u_.bits_; } // Returns the exponent bits of this number. Bits exponent_bits() const { return kExponentBitMask & u_.bits_; } // Returns the fraction bits of this number. Bits fraction_bits() const { return kFractionBitMask & u_.bits_; } // Returns the sign bit of this number. Bits sign_bit() const { return kSignBitMask & u_.bits_; } // Returns true iff this is NAN (not a number). bool is_nan() const { // It's a NAN if the exponent bits are all ones and the fraction // bits are not entirely zeros. return (exponent_bits() == kExponentBitMask) && (fraction_bits() != 0); } // Returns true iff this number is at most kMaxUlps ULP's away from // rhs. In particular, this function: // // - returns false if either number is (or both are) NAN. // - treats really large numbers as almost equal to infinity. // - thinks +0.0 and -0.0 are 0 DLP's apart. bool AlmostEquals(const FloatingPoint& rhs) const { // The IEEE standard says that any comparison operation involving // a NAN must return false. if (is_nan() || rhs.is_nan()) return false; return DistanceBetweenSignAndMagnitudeNumbers(u_.bits_, rhs.u_.bits_) <= kMaxUlps; } private: // The data type used to store the actual floating-point number. union FloatingPointUnion { RawType value_; // The raw floating-point number. Bits bits_; // The bits that represent the number. }; // Converts an integer from the sign-and-magnitude representation to // the biased representation. More precisely, let N be 2 to the // power of (kBitCount - 1), an integer x is represented by the // unsigned number x + N. // // For instance, // // -N + 1 (the most negative number representable using // sign-and-magnitude) is represented by 1; // 0 is represented by N; and // N - 1 (the biggest number representable using // sign-and-magnitude) is represented by 2N - 1. // // Read http://en.wikipedia.org/wiki/Signed_number_representations // for more details on signed number representations. static Bits SignAndMagnitudeToBiased(const Bits &sam) { if (kSignBitMask & sam) { // sam represents a negative number. return ~sam + 1; } else { // sam represents a positive number. return kSignBitMask | sam; } } // Given two numbers in the sign-and-magnitude representation, // returns the distance between them as an unsigned number. static Bits DistanceBetweenSignAndMagnitudeNumbers(const Bits &sam1, const Bits &sam2) { const Bits biased1 = SignAndMagnitudeToBiased(sam1); const Bits biased2 = SignAndMagnitudeToBiased(sam2); return (biased1 >= biased2) ? (biased1 - biased2) : (biased2 - biased1); } FloatingPointUnion u_; }; // We cannot use std::numeric_limits::max() as it clashes with the max() // macro defined by . template <> inline float FloatingPoint::Max() { return FLT_MAX; } template <> inline double FloatingPoint::Max() { return DBL_MAX; } // Typedefs the instances of the FloatingPoint template class that we // care to use. typedef FloatingPoint Float; typedef FloatingPoint Double; // In order to catch the mistake of putting tests that use different // test fixture classes in the same test case, we need to assign // unique IDs to fixture classes and compare them. The TypeId type is // used to hold such IDs. The user should treat TypeId as an opaque // type: the only operation allowed on TypeId values is to compare // them for equality using the == operator. typedef const void* TypeId; template class TypeIdHelper { public: // dummy_ must not have a const type. Otherwise an overly eager // compiler (e.g. MSVC 7.1 & 8.0) may try to merge // TypeIdHelper::dummy_ for different Ts as an "optimization". static bool dummy_; }; template bool TypeIdHelper::dummy_ = false; // GetTypeId() returns the ID of type T. Different values will be // returned for different types. Calling the function twice with the // same type argument is guaranteed to return the same ID. template TypeId GetTypeId() { // The compiler is required to allocate a different // TypeIdHelper::dummy_ variable for each T used to instantiate // the template. Therefore, the address of dummy_ is guaranteed to // be unique. return &(TypeIdHelper::dummy_); } // Returns the type ID of ::testing::Test. Always call this instead // of GetTypeId< ::testing::Test>() to get the type ID of // ::testing::Test, as the latter may give the wrong result due to a // suspected linker bug when compiling Google Test as a Mac OS X // framework. GTEST_API_ TypeId GetTestTypeId(); // Defines the abstract factory interface that creates instances // of a Test object. class TestFactoryBase { public: virtual ~TestFactoryBase() {} // Creates a test instance to run. The instance is both created and destroyed // within TestInfoImpl::Run() virtual Test* CreateTest() = 0; protected: TestFactoryBase() {} private: GTEST_DISALLOW_COPY_AND_ASSIGN_(TestFactoryBase); }; // This class provides implementation of TeastFactoryBase interface. // It is used in TEST and TEST_F macros. template class TestFactoryImpl : public TestFactoryBase { public: virtual Test* CreateTest() { return new TestClass; } }; #if GTEST_OS_WINDOWS // Predicate-formatters for implementing the HRESULT checking macros // {ASSERT|EXPECT}_HRESULT_{SUCCEEDED|FAILED} // We pass a long instead of HRESULT to avoid causing an // include dependency for the HRESULT type. GTEST_API_ AssertionResult IsHRESULTSuccess(const char* expr, long hr); // NOLINT GTEST_API_ AssertionResult IsHRESULTFailure(const char* expr, long hr); // NOLINT #endif // GTEST_OS_WINDOWS // Types of SetUpTestCase() and TearDownTestCase() functions. typedef void (*SetUpTestCaseFunc)(); typedef void (*TearDownTestCaseFunc)(); // Creates a new TestInfo object and registers it with Google Test; // returns the created object. // // Arguments: // // test_case_name: name of the test case // name: name of the test // type_param the name of the test's type parameter, or NULL if // this is not a typed or a type-parameterized test. // value_param text representation of the test's value parameter, // or NULL if this is not a type-parameterized test. // fixture_class_id: ID of the test fixture class // set_up_tc: pointer to the function that sets up the test case // tear_down_tc: pointer to the function that tears down the test case // factory: pointer to the factory that creates a test object. // The newly created TestInfo instance will assume // ownership of the factory object. GTEST_API_ TestInfo* MakeAndRegisterTestInfo( const char* test_case_name, const char* name, const char* type_param, const char* value_param, TypeId fixture_class_id, SetUpTestCaseFunc set_up_tc, TearDownTestCaseFunc tear_down_tc, TestFactoryBase* factory); // If *pstr starts with the given prefix, modifies *pstr to be right // past the prefix and returns true; otherwise leaves *pstr unchanged // and returns false. None of pstr, *pstr, and prefix can be NULL. GTEST_API_ bool SkipPrefix(const char* prefix, const char** pstr); #if GTEST_HAS_TYPED_TEST || GTEST_HAS_TYPED_TEST_P // State of the definition of a type-parameterized test case. class GTEST_API_ TypedTestCasePState { public: TypedTestCasePState() : registered_(false) {} // Adds the given test name to defined_test_names_ and return true // if the test case hasn't been registered; otherwise aborts the // program. bool AddTestName(const char* file, int line, const char* case_name, const char* test_name) { if (registered_) { fprintf(stderr, "%s Test %s must be defined before " "REGISTER_TYPED_TEST_CASE_P(%s, ...).\n", FormatFileLocation(file, line).c_str(), test_name, case_name); fflush(stderr); posix::Abort(); } defined_test_names_.insert(test_name); return true; } // Verifies that registered_tests match the test names in // defined_test_names_; returns registered_tests if successful, or // aborts the program otherwise. const char* VerifyRegisteredTestNames( const char* file, int line, const char* registered_tests); private: bool registered_; ::std::set defined_test_names_; }; // Skips to the first non-space char after the first comma in 'str'; // returns NULL if no comma is found in 'str'. inline const char* SkipComma(const char* str) { const char* comma = strchr(str, ','); if (comma == NULL) { return NULL; } while (IsSpace(*(++comma))) {} return comma; } // Returns the prefix of 'str' before the first comma in it; returns // the entire string if it contains no comma. inline std::string GetPrefixUntilComma(const char* str) { const char* comma = strchr(str, ','); return comma == NULL ? str : std::string(str, comma); } // TypeParameterizedTest::Register() // registers a list of type-parameterized tests with Google Test. The // return value is insignificant - we just need to return something // such that we can call this function in a namespace scope. // // Implementation note: The GTEST_TEMPLATE_ macro declares a template // template parameter. It's defined in gtest-type-util.h. template class TypeParameterizedTest { public: // 'index' is the index of the test in the type list 'Types' // specified in INSTANTIATE_TYPED_TEST_CASE_P(Prefix, TestCase, // Types). Valid values for 'index' are [0, N - 1] where N is the // length of Types. static bool Register(const char* prefix, const char* case_name, const char* test_names, int index) { typedef typename Types::Head Type; typedef Fixture FixtureClass; typedef typename GTEST_BIND_(TestSel, Type) TestClass; // First, registers the first type-parameterized test in the type // list. MakeAndRegisterTestInfo( (std::string(prefix) + (prefix[0] == '\0' ? "" : "/") + case_name + "/" + StreamableToString(index)).c_str(), StripTrailingSpaces(GetPrefixUntilComma(test_names)).c_str(), GetTypeName().c_str(), NULL, // No value parameter. GetTypeId(), TestClass::SetUpTestCase, TestClass::TearDownTestCase, new TestFactoryImpl); // Next, recurses (at compile time) with the tail of the type list. return TypeParameterizedTest ::Register(prefix, case_name, test_names, index + 1); } }; // The base case for the compile time recursion. template class TypeParameterizedTest { public: static bool Register(const char* /*prefix*/, const char* /*case_name*/, const char* /*test_names*/, int /*index*/) { return true; } }; // TypeParameterizedTestCase::Register() // registers *all combinations* of 'Tests' and 'Types' with Google // Test. The return value is insignificant - we just need to return // something such that we can call this function in a namespace scope. template class TypeParameterizedTestCase { public: static bool Register(const char* prefix, const char* case_name, const char* test_names) { typedef typename Tests::Head Head; // First, register the first test in 'Test' for each type in 'Types'. TypeParameterizedTest::Register( prefix, case_name, test_names, 0); // Next, recurses (at compile time) with the tail of the test list. return TypeParameterizedTestCase ::Register(prefix, case_name, SkipComma(test_names)); } }; // The base case for the compile time recursion. template class TypeParameterizedTestCase { public: static bool Register(const char* /*prefix*/, const char* /*case_name*/, const char* /*test_names*/) { return true; } }; #endif // GTEST_HAS_TYPED_TEST || GTEST_HAS_TYPED_TEST_P // Returns the current OS stack trace as an std::string. // // The maximum number of stack frames to be included is specified by // the gtest_stack_trace_depth flag. The skip_count parameter // specifies the number of top frames to be skipped, which doesn't // count against the number of frames to be included. // // For example, if Foo() calls Bar(), which in turn calls // GetCurrentOsStackTraceExceptTop(..., 1), Foo() will be included in // the trace but Bar() and GetCurrentOsStackTraceExceptTop() won't. GTEST_API_ std::string GetCurrentOsStackTraceExceptTop( UnitTest* unit_test, int skip_count); // Helpers for suppressing warnings on unreachable code or constant // condition. // Always returns true. GTEST_API_ bool AlwaysTrue(); // Always returns false. inline bool AlwaysFalse() { return !AlwaysTrue(); } // Helper for suppressing false warning from Clang on a const char* // variable declared in a conditional expression always being NULL in // the else branch. struct GTEST_API_ ConstCharPtr { ConstCharPtr(const char* str) : value(str) {} operator bool() const { return true; } const char* value; }; // A simple Linear Congruential Generator for generating random // numbers with a uniform distribution. Unlike rand() and srand(), it // doesn't use global state (and therefore can't interfere with user // code). Unlike rand_r(), it's portable. An LCG isn't very random, // but it's good enough for our purposes. class GTEST_API_ Random { public: static const UInt32 kMaxRange = 1u << 31; explicit Random(UInt32 seed) : state_(seed) {} void Reseed(UInt32 seed) { state_ = seed; } // Generates a random number from [0, range). Crashes if 'range' is // 0 or greater than kMaxRange. UInt32 Generate(UInt32 range); private: UInt32 state_; GTEST_DISALLOW_COPY_AND_ASSIGN_(Random); }; // Defining a variable of type CompileAssertTypesEqual will cause a // compiler error iff T1 and T2 are different types. template struct CompileAssertTypesEqual; template struct CompileAssertTypesEqual { }; // Removes the reference from a type if it is a reference type, // otherwise leaves it unchanged. This is the same as // tr1::remove_reference, which is not widely available yet. template struct RemoveReference { typedef T type; }; // NOLINT template struct RemoveReference { typedef T type; }; // NOLINT // A handy wrapper around RemoveReference that works when the argument // T depends on template parameters. #define GTEST_REMOVE_REFERENCE_(T) \ typename ::testing::internal::RemoveReference::type // Removes const from a type if it is a const type, otherwise leaves // it unchanged. This is the same as tr1::remove_const, which is not // widely available yet. template struct RemoveConst { typedef T type; }; // NOLINT template struct RemoveConst { typedef T type; }; // NOLINT // MSVC 8.0, Sun C++, and IBM XL C++ have a bug which causes the above // definition to fail to remove the const in 'const int[3]' and 'const // char[3][4]'. The following specialization works around the bug. template struct RemoveConst { typedef typename RemoveConst::type type[N]; }; #if defined(_MSC_VER) && _MSC_VER < 1400 // This is the only specialization that allows VC++ 7.1 to remove const in // 'const int[3] and 'const int[3][4]'. However, it causes trouble with GCC // and thus needs to be conditionally compiled. template struct RemoveConst { typedef typename RemoveConst::type type[N]; }; #endif // A handy wrapper around RemoveConst that works when the argument // T depends on template parameters. #define GTEST_REMOVE_CONST_(T) \ typename ::testing::internal::RemoveConst::type // Turns const U&, U&, const U, and U all into U. #define GTEST_REMOVE_REFERENCE_AND_CONST_(T) \ GTEST_REMOVE_CONST_(GTEST_REMOVE_REFERENCE_(T)) // Adds reference to a type if it is not a reference type, // otherwise leaves it unchanged. This is the same as // tr1::add_reference, which is not widely available yet. template struct AddReference { typedef T& type; }; // NOLINT template struct AddReference { typedef T& type; }; // NOLINT // A handy wrapper around AddReference that works when the argument T // depends on template parameters. #define GTEST_ADD_REFERENCE_(T) \ typename ::testing::internal::AddReference::type // Adds a reference to const on top of T as necessary. For example, // it transforms // // char ==> const char& // const char ==> const char& // char& ==> const char& // const char& ==> const char& // // The argument T must depend on some template parameters. #define GTEST_REFERENCE_TO_CONST_(T) \ GTEST_ADD_REFERENCE_(const GTEST_REMOVE_REFERENCE_(T)) // ImplicitlyConvertible::value is a compile-time bool // constant that's true iff type From can be implicitly converted to // type To. template class ImplicitlyConvertible { private: // We need the following helper functions only for their types. // They have no implementations. // MakeFrom() is an expression whose type is From. We cannot simply // use From(), as the type From may not have a public default // constructor. static typename AddReference::type MakeFrom(); // These two functions are overloaded. Given an expression // Helper(x), the compiler will pick the first version if x can be // implicitly converted to type To; otherwise it will pick the // second version. // // The first version returns a value of size 1, and the second // version returns a value of size 2. Therefore, by checking the // size of Helper(x), which can be done at compile time, we can tell // which version of Helper() is used, and hence whether x can be // implicitly converted to type To. static char Helper(To); static char (&Helper(...))[2]; // NOLINT // We have to put the 'public' section after the 'private' section, // or MSVC refuses to compile the code. public: #if defined(__BORLANDC__) // C++Builder cannot use member overload resolution during template // instantiation. The simplest workaround is to use its C++0x type traits // functions (C++Builder 2009 and above only). static const bool value = __is_convertible(From, To); #else // MSVC warns about implicitly converting from double to int for // possible loss of data, so we need to temporarily disable the // warning. GTEST_DISABLE_MSC_WARNINGS_PUSH_(4244) static const bool value = sizeof(Helper(ImplicitlyConvertible::MakeFrom())) == 1; GTEST_DISABLE_MSC_WARNINGS_POP_() #endif // __BORLANDC__ }; template const bool ImplicitlyConvertible::value; // IsAProtocolMessage::value is a compile-time bool constant that's // true iff T is type ProtocolMessage, proto2::Message, or a subclass // of those. template struct IsAProtocolMessage : public bool_constant< ImplicitlyConvertible::value || ImplicitlyConvertible::value> { }; // When the compiler sees expression IsContainerTest(0), if C is an // STL-style container class, the first overload of IsContainerTest // will be viable (since both C::iterator* and C::const_iterator* are // valid types and NULL can be implicitly converted to them). It will // be picked over the second overload as 'int' is a perfect match for // the type of argument 0. If C::iterator or C::const_iterator is not // a valid type, the first overload is not viable, and the second // overload will be picked. Therefore, we can determine whether C is // a container class by checking the type of IsContainerTest(0). // The value of the expression is insignificant. // // Note that we look for both C::iterator and C::const_iterator. The // reason is that C++ injects the name of a class as a member of the // class itself (e.g. you can refer to class iterator as either // 'iterator' or 'iterator::iterator'). If we look for C::iterator // only, for example, we would mistakenly think that a class named // iterator is an STL container. // // Also note that the simpler approach of overloading // IsContainerTest(typename C::const_iterator*) and // IsContainerTest(...) doesn't work with Visual Age C++ and Sun C++. typedef int IsContainer; template IsContainer IsContainerTest(int /* dummy */, typename C::iterator* /* it */ = NULL, typename C::const_iterator* /* const_it */ = NULL) { return 0; } typedef char IsNotContainer; template IsNotContainer IsContainerTest(long /* dummy */) { return '\0'; } // EnableIf::type is void when 'Cond' is true, and // undefined when 'Cond' is false. To use SFINAE to make a function // overload only apply when a particular expression is true, add // "typename EnableIf::type* = 0" as the last parameter. template struct EnableIf; template<> struct EnableIf { typedef void type; }; // NOLINT // Utilities for native arrays. // ArrayEq() compares two k-dimensional native arrays using the // elements' operator==, where k can be any integer >= 0. When k is // 0, ArrayEq() degenerates into comparing a single pair of values. template bool ArrayEq(const T* lhs, size_t size, const U* rhs); // This generic version is used when k is 0. template inline bool ArrayEq(const T& lhs, const U& rhs) { return lhs == rhs; } // This overload is used when k >= 1. template inline bool ArrayEq(const T(&lhs)[N], const U(&rhs)[N]) { return internal::ArrayEq(lhs, N, rhs); } // This helper reduces code bloat. If we instead put its logic inside // the previous ArrayEq() function, arrays with different sizes would // lead to different copies of the template code. template bool ArrayEq(const T* lhs, size_t size, const U* rhs) { for (size_t i = 0; i != size; i++) { if (!internal::ArrayEq(lhs[i], rhs[i])) return false; } return true; } // Finds the first element in the iterator range [begin, end) that // equals elem. Element may be a native array type itself. template Iter ArrayAwareFind(Iter begin, Iter end, const Element& elem) { for (Iter it = begin; it != end; ++it) { if (internal::ArrayEq(*it, elem)) return it; } return end; } // CopyArray() copies a k-dimensional native array using the elements' // operator=, where k can be any integer >= 0. When k is 0, // CopyArray() degenerates into copying a single value. template void CopyArray(const T* from, size_t size, U* to); // This generic version is used when k is 0. template inline void CopyArray(const T& from, U* to) { *to = from; } // This overload is used when k >= 1. template inline void CopyArray(const T(&from)[N], U(*to)[N]) { internal::CopyArray(from, N, *to); } // This helper reduces code bloat. If we instead put its logic inside // the previous CopyArray() function, arrays with different sizes // would lead to different copies of the template code. template void CopyArray(const T* from, size_t size, U* to) { for (size_t i = 0; i != size; i++) { internal::CopyArray(from[i], to + i); } } // The relation between an NativeArray object (see below) and the // native array it represents. // We use 2 different structs to allow non-copyable types to be used, as long // as RelationToSourceReference() is passed. struct RelationToSourceReference {}; struct RelationToSourceCopy {}; // Adapts a native array to a read-only STL-style container. Instead // of the complete STL container concept, this adaptor only implements // members useful for Google Mock's container matchers. New members // should be added as needed. To simplify the implementation, we only // support Element being a raw type (i.e. having no top-level const or // reference modifier). It's the client's responsibility to satisfy // this requirement. Element can be an array type itself (hence // multi-dimensional arrays are supported). template class NativeArray { public: // STL-style container typedefs. typedef Element value_type; typedef Element* iterator; typedef const Element* const_iterator; // Constructs from a native array. References the source. NativeArray(const Element* array, size_t count, RelationToSourceReference) { InitRef(array, count); } // Constructs from a native array. Copies the source. NativeArray(const Element* array, size_t count, RelationToSourceCopy) { InitCopy(array, count); } // Copy constructor. NativeArray(const NativeArray& rhs) { (this->*rhs.clone_)(rhs.array_, rhs.size_); } ~NativeArray() { if (clone_ != &NativeArray::InitRef) delete[] array_; } // STL-style container methods. size_t size() const { return size_; } const_iterator begin() const { return array_; } const_iterator end() const { return array_ + size_; } bool operator==(const NativeArray& rhs) const { return size() == rhs.size() && ArrayEq(begin(), size(), rhs.begin()); } private: enum { kCheckTypeIsNotConstOrAReference = StaticAssertTypeEqHelper< Element, GTEST_REMOVE_REFERENCE_AND_CONST_(Element)>::value, }; // Initializes this object with a copy of the input. void InitCopy(const Element* array, size_t a_size) { Element* const copy = new Element[a_size]; CopyArray(array, a_size, copy); array_ = copy; size_ = a_size; clone_ = &NativeArray::InitCopy; } // Initializes this object with a reference of the input. void InitRef(const Element* array, size_t a_size) { array_ = array; size_ = a_size; clone_ = &NativeArray::InitRef; } const Element* array_; size_t size_; void (NativeArray::*clone_)(const Element*, size_t); GTEST_DISALLOW_ASSIGN_(NativeArray); }; } // namespace internal } // namespace testing #define GTEST_MESSAGE_AT_(file, line, message, result_type) \ ::testing::internal::AssertHelper(result_type, file, line, message) \ = ::testing::Message() #define GTEST_MESSAGE_(message, result_type) \ GTEST_MESSAGE_AT_(__FILE__, __LINE__, message, result_type) #define GTEST_FATAL_FAILURE_(message) \ return GTEST_MESSAGE_(message, ::testing::TestPartResult::kFatalFailure) #define GTEST_NONFATAL_FAILURE_(message) \ GTEST_MESSAGE_(message, ::testing::TestPartResult::kNonFatalFailure) #define GTEST_SUCCESS_(message) \ GTEST_MESSAGE_(message, ::testing::TestPartResult::kSuccess) // Suppresses MSVC warnings 4072 (unreachable code) for the code following // statement if it returns or throws (or doesn't return or throw in some // situations). #define GTEST_SUPPRESS_UNREACHABLE_CODE_WARNING_BELOW_(statement) \ if (::testing::internal::AlwaysTrue()) { statement; } #define GTEST_TEST_THROW_(statement, expected_exception, fail) \ GTEST_AMBIGUOUS_ELSE_BLOCKER_ \ if (::testing::internal::ConstCharPtr gtest_msg = "") { \ bool gtest_caught_expected = false; \ try { \ GTEST_SUPPRESS_UNREACHABLE_CODE_WARNING_BELOW_(statement); \ } \ catch (expected_exception const&) { \ gtest_caught_expected = true; \ } \ catch (...) { \ gtest_msg.value = \ "Expected: " #statement " throws an exception of type " \ #expected_exception ".\n Actual: it throws a different type."; \ goto GTEST_CONCAT_TOKEN_(gtest_label_testthrow_, __LINE__); \ } \ if (!gtest_caught_expected) { \ gtest_msg.value = \ "Expected: " #statement " throws an exception of type " \ #expected_exception ".\n Actual: it throws nothing."; \ goto GTEST_CONCAT_TOKEN_(gtest_label_testthrow_, __LINE__); \ } \ } else \ GTEST_CONCAT_TOKEN_(gtest_label_testthrow_, __LINE__): \ fail(gtest_msg.value) #define GTEST_TEST_NO_THROW_(statement, fail) \ GTEST_AMBIGUOUS_ELSE_BLOCKER_ \ if (::testing::internal::AlwaysTrue()) { \ try { \ GTEST_SUPPRESS_UNREACHABLE_CODE_WARNING_BELOW_(statement); \ } \ catch (...) { \ goto GTEST_CONCAT_TOKEN_(gtest_label_testnothrow_, __LINE__); \ } \ } else \ GTEST_CONCAT_TOKEN_(gtest_label_testnothrow_, __LINE__): \ fail("Expected: " #statement " doesn't throw an exception.\n" \ " Actual: it throws.") #define GTEST_TEST_ANY_THROW_(statement, fail) \ GTEST_AMBIGUOUS_ELSE_BLOCKER_ \ if (::testing::internal::AlwaysTrue()) { \ bool gtest_caught_any = false; \ try { \ GTEST_SUPPRESS_UNREACHABLE_CODE_WARNING_BELOW_(statement); \ } \ catch (...) { \ gtest_caught_any = true; \ } \ if (!gtest_caught_any) { \ goto GTEST_CONCAT_TOKEN_(gtest_label_testanythrow_, __LINE__); \ } \ } else \ GTEST_CONCAT_TOKEN_(gtest_label_testanythrow_, __LINE__): \ fail("Expected: " #statement " throws an exception.\n" \ " Actual: it doesn't.") // Implements Boolean test assertions such as EXPECT_TRUE. expression can be // either a boolean expression or an AssertionResult. text is a textual // represenation of expression as it was passed into the EXPECT_TRUE. #define GTEST_TEST_BOOLEAN_(expression, text, actual, expected, fail) \ GTEST_AMBIGUOUS_ELSE_BLOCKER_ \ if (const ::testing::AssertionResult gtest_ar_ = \ ::testing::AssertionResult(expression)) \ ; \ else \ fail(::testing::internal::GetBoolAssertionFailureMessage(\ gtest_ar_, text, #actual, #expected).c_str()) #define GTEST_TEST_NO_FATAL_FAILURE_(statement, fail) \ GTEST_AMBIGUOUS_ELSE_BLOCKER_ \ if (::testing::internal::AlwaysTrue()) { \ ::testing::internal::HasNewFatalFailureHelper gtest_fatal_failure_checker; \ GTEST_SUPPRESS_UNREACHABLE_CODE_WARNING_BELOW_(statement); \ if (gtest_fatal_failure_checker.has_new_fatal_failure()) { \ goto GTEST_CONCAT_TOKEN_(gtest_label_testnofatal_, __LINE__); \ } \ } else \ GTEST_CONCAT_TOKEN_(gtest_label_testnofatal_, __LINE__): \ fail("Expected: " #statement " doesn't generate new fatal " \ "failures in the current thread.\n" \ " Actual: it does.") // Expands to the name of the class that implements the given test. #define GTEST_TEST_CLASS_NAME_(test_case_name, test_name) \ test_case_name##_##test_name##_Test // Helper macro for defining tests. #define GTEST_TEST_(test_case_name, test_name, parent_class, parent_id)\ class GTEST_TEST_CLASS_NAME_(test_case_name, test_name) : public parent_class {\ public:\ GTEST_TEST_CLASS_NAME_(test_case_name, test_name)() {}\ private:\ virtual void TestBody();\ static ::testing::TestInfo* const test_info_ GTEST_ATTRIBUTE_UNUSED_;\ GTEST_DISALLOW_COPY_AND_ASSIGN_(\ GTEST_TEST_CLASS_NAME_(test_case_name, test_name));\ };\ \ ::testing::TestInfo* const GTEST_TEST_CLASS_NAME_(test_case_name, test_name)\ ::test_info_ =\ ::testing::internal::MakeAndRegisterTestInfo(\ #test_case_name, #test_name, NULL, NULL, \ (parent_id), \ parent_class::SetUpTestCase, \ parent_class::TearDownTestCase, \ new ::testing::internal::TestFactoryImpl<\ GTEST_TEST_CLASS_NAME_(test_case_name, test_name)>);\ void GTEST_TEST_CLASS_NAME_(test_case_name, test_name)::TestBody() #endif // GTEST_INCLUDE_GTEST_INTERNAL_GTEST_INTERNAL_H_ // Copyright 2005, Google Inc. // All rights reserved. // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following disclaimer // in the documentation and/or other materials provided with the // distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived from // this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // // Author: wan@google.com (Zhanyong Wan) // // The Google C++ Testing Framework (Google Test) // // This header file defines the public API for death tests. It is // #included by gtest.h so a user doesn't need to include this // directly. #ifndef GTEST_INCLUDE_GTEST_GTEST_DEATH_TEST_H_ #define GTEST_INCLUDE_GTEST_GTEST_DEATH_TEST_H_ // Copyright 2005, Google Inc. // All rights reserved. // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following disclaimer // in the documentation and/or other materials provided with the // distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived from // this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // // Authors: wan@google.com (Zhanyong Wan), eefacm@gmail.com (Sean Mcafee) // // The Google C++ Testing Framework (Google Test) // // This header file defines internal utilities needed for implementing // death tests. They are subject to change without notice. #ifndef GTEST_INCLUDE_GTEST_INTERNAL_GTEST_DEATH_TEST_INTERNAL_H_ #define GTEST_INCLUDE_GTEST_INTERNAL_GTEST_DEATH_TEST_INTERNAL_H_ #include namespace testing { namespace internal { GTEST_DECLARE_string_(internal_run_death_test); // Names of the flags (needed for parsing Google Test flags). const char kDeathTestStyleFlag[] = "death_test_style"; const char kDeathTestUseFork[] = "death_test_use_fork"; const char kInternalRunDeathTestFlag[] = "internal_run_death_test"; #if GTEST_HAS_DEATH_TEST // DeathTest is a class that hides much of the complexity of the // GTEST_DEATH_TEST_ macro. It is abstract; its static Create method // returns a concrete class that depends on the prevailing death test // style, as defined by the --gtest_death_test_style and/or // --gtest_internal_run_death_test flags. // In describing the results of death tests, these terms are used with // the corresponding definitions: // // exit status: The integer exit information in the format specified // by wait(2) // exit code: The integer code passed to exit(3), _exit(2), or // returned from main() class GTEST_API_ DeathTest { public: // Create returns false if there was an error determining the // appropriate action to take for the current death test; for example, // if the gtest_death_test_style flag is set to an invalid value. // The LastMessage method will return a more detailed message in that // case. Otherwise, the DeathTest pointer pointed to by the "test" // argument is set. If the death test should be skipped, the pointer // is set to NULL; otherwise, it is set to the address of a new concrete // DeathTest object that controls the execution of the current test. static bool Create(const char* statement, const RE* regex, const char* file, int line, DeathTest** test); DeathTest(); virtual ~DeathTest() { } // A helper class that aborts a death test when it's deleted. class ReturnSentinel { public: explicit ReturnSentinel(DeathTest* test) : test_(test) { } ~ReturnSentinel() { test_->Abort(TEST_ENCOUNTERED_RETURN_STATEMENT); } private: DeathTest* const test_; GTEST_DISALLOW_COPY_AND_ASSIGN_(ReturnSentinel); } GTEST_ATTRIBUTE_UNUSED_; // An enumeration of possible roles that may be taken when a death // test is encountered. EXECUTE means that the death test logic should // be executed immediately. OVERSEE means that the program should prepare // the appropriate environment for a child process to execute the death // test, then wait for it to complete. enum TestRole { OVERSEE_TEST, EXECUTE_TEST }; // An enumeration of the three reasons that a test might be aborted. enum AbortReason { TEST_ENCOUNTERED_RETURN_STATEMENT, TEST_THREW_EXCEPTION, TEST_DID_NOT_DIE }; // Assumes one of the above roles. virtual TestRole AssumeRole() = 0; // Waits for the death test to finish and returns its status. virtual int Wait() = 0; // Returns true if the death test passed; that is, the test process // exited during the test, its exit status matches a user-supplied // predicate, and its stderr output matches a user-supplied regular // expression. // The user-supplied predicate may be a macro expression rather // than a function pointer or functor, or else Wait and Passed could // be combined. virtual bool Passed(bool exit_status_ok) = 0; // Signals that the death test did not die as expected. virtual void Abort(AbortReason reason) = 0; // Returns a human-readable outcome message regarding the outcome of // the last death test. static const char* LastMessage(); static void set_last_death_test_message(const std::string& message); private: // A string containing a description of the outcome of the last death test. static std::string last_death_test_message_; GTEST_DISALLOW_COPY_AND_ASSIGN_(DeathTest); }; // Factory interface for death tests. May be mocked out for testing. class DeathTestFactory { public: virtual ~DeathTestFactory() { } virtual bool Create(const char* statement, const RE* regex, const char* file, int line, DeathTest** test) = 0; }; // A concrete DeathTestFactory implementation for normal use. class DefaultDeathTestFactory : public DeathTestFactory { public: virtual bool Create(const char* statement, const RE* regex, const char* file, int line, DeathTest** test); }; // Returns true if exit_status describes a process that was terminated // by a signal, or exited normally with a nonzero exit code. GTEST_API_ bool ExitedUnsuccessfully(int exit_status); // Traps C++ exceptions escaping statement and reports them as test // failures. Note that trapping SEH exceptions is not implemented here. # if GTEST_HAS_EXCEPTIONS # define GTEST_EXECUTE_DEATH_TEST_STATEMENT_(statement, death_test) \ try { \ GTEST_SUPPRESS_UNREACHABLE_CODE_WARNING_BELOW_(statement); \ } catch (const ::std::exception& gtest_exception) { \ fprintf(\ stderr, \ "\n%s: Caught std::exception-derived exception escaping the " \ "death test statement. Exception message: %s\n", \ ::testing::internal::FormatFileLocation(__FILE__, __LINE__).c_str(), \ gtest_exception.what()); \ fflush(stderr); \ death_test->Abort(::testing::internal::DeathTest::TEST_THREW_EXCEPTION); \ } catch (...) { \ death_test->Abort(::testing::internal::DeathTest::TEST_THREW_EXCEPTION); \ } # else # define GTEST_EXECUTE_DEATH_TEST_STATEMENT_(statement, death_test) \ GTEST_SUPPRESS_UNREACHABLE_CODE_WARNING_BELOW_(statement) # endif // This macro is for implementing ASSERT_DEATH*, EXPECT_DEATH*, // ASSERT_EXIT*, and EXPECT_EXIT*. # define GTEST_DEATH_TEST_(statement, predicate, regex, fail) \ GTEST_AMBIGUOUS_ELSE_BLOCKER_ \ if (::testing::internal::AlwaysTrue()) { \ const ::testing::internal::RE& gtest_regex = (regex); \ ::testing::internal::DeathTest* gtest_dt; \ if (!::testing::internal::DeathTest::Create(#statement, >est_regex, \ __FILE__, __LINE__, >est_dt)) { \ goto GTEST_CONCAT_TOKEN_(gtest_label_, __LINE__); \ } \ if (gtest_dt != NULL) { \ ::testing::internal::scoped_ptr< ::testing::internal::DeathTest> \ gtest_dt_ptr(gtest_dt); \ switch (gtest_dt->AssumeRole()) { \ case ::testing::internal::DeathTest::OVERSEE_TEST: \ if (!gtest_dt->Passed(predicate(gtest_dt->Wait()))) { \ goto GTEST_CONCAT_TOKEN_(gtest_label_, __LINE__); \ } \ break; \ case ::testing::internal::DeathTest::EXECUTE_TEST: { \ ::testing::internal::DeathTest::ReturnSentinel \ gtest_sentinel(gtest_dt); \ GTEST_EXECUTE_DEATH_TEST_STATEMENT_(statement, gtest_dt); \ gtest_dt->Abort(::testing::internal::DeathTest::TEST_DID_NOT_DIE); \ break; \ } \ default: \ break; \ } \ } \ } else \ GTEST_CONCAT_TOKEN_(gtest_label_, __LINE__): \ fail(::testing::internal::DeathTest::LastMessage()) // The symbol "fail" here expands to something into which a message // can be streamed. // This macro is for implementing ASSERT/EXPECT_DEBUG_DEATH when compiled in // NDEBUG mode. In this case we need the statements to be executed, the regex is // ignored, and the macro must accept a streamed message even though the message // is never printed. # define GTEST_EXECUTE_STATEMENT_(statement, regex) \ GTEST_AMBIGUOUS_ELSE_BLOCKER_ \ if (::testing::internal::AlwaysTrue()) { \ GTEST_SUPPRESS_UNREACHABLE_CODE_WARNING_BELOW_(statement); \ } else \ ::testing::Message() // A class representing the parsed contents of the // --gtest_internal_run_death_test flag, as it existed when // RUN_ALL_TESTS was called. class InternalRunDeathTestFlag { public: InternalRunDeathTestFlag(const std::string& a_file, int a_line, int an_index, int a_write_fd) : file_(a_file), line_(a_line), index_(an_index), write_fd_(a_write_fd) {} ~InternalRunDeathTestFlag() { if (write_fd_ >= 0) posix::Close(write_fd_); } const std::string& file() const { return file_; } int line() const { return line_; } int index() const { return index_; } int write_fd() const { return write_fd_; } private: std::string file_; int line_; int index_; int write_fd_; GTEST_DISALLOW_COPY_AND_ASSIGN_(InternalRunDeathTestFlag); }; // Returns a newly created InternalRunDeathTestFlag object with fields // initialized from the GTEST_FLAG(internal_run_death_test) flag if // the flag is specified; otherwise returns NULL. InternalRunDeathTestFlag* ParseInternalRunDeathTestFlag(); #else // GTEST_HAS_DEATH_TEST // This macro is used for implementing macros such as // EXPECT_DEATH_IF_SUPPORTED and ASSERT_DEATH_IF_SUPPORTED on systems where // death tests are not supported. Those macros must compile on such systems // iff EXPECT_DEATH and ASSERT_DEATH compile with the same parameters on // systems that support death tests. This allows one to write such a macro // on a system that does not support death tests and be sure that it will // compile on a death-test supporting system. // // Parameters: // statement - A statement that a macro such as EXPECT_DEATH would test // for program termination. This macro has to make sure this // statement is compiled but not executed, to ensure that // EXPECT_DEATH_IF_SUPPORTED compiles with a certain // parameter iff EXPECT_DEATH compiles with it. // regex - A regex that a macro such as EXPECT_DEATH would use to test // the output of statement. This parameter has to be // compiled but not evaluated by this macro, to ensure that // this macro only accepts expressions that a macro such as // EXPECT_DEATH would accept. // terminator - Must be an empty statement for EXPECT_DEATH_IF_SUPPORTED // and a return statement for ASSERT_DEATH_IF_SUPPORTED. // This ensures that ASSERT_DEATH_IF_SUPPORTED will not // compile inside functions where ASSERT_DEATH doesn't // compile. // // The branch that has an always false condition is used to ensure that // statement and regex are compiled (and thus syntactically correct) but // never executed. The unreachable code macro protects the terminator // statement from generating an 'unreachable code' warning in case // statement unconditionally returns or throws. The Message constructor at // the end allows the syntax of streaming additional messages into the // macro, for compilational compatibility with EXPECT_DEATH/ASSERT_DEATH. # define GTEST_UNSUPPORTED_DEATH_TEST_(statement, regex, terminator) \ GTEST_AMBIGUOUS_ELSE_BLOCKER_ \ if (::testing::internal::AlwaysTrue()) { \ GTEST_LOG_(WARNING) \ << "Death tests are not supported on this platform.\n" \ << "Statement '" #statement "' cannot be verified."; \ } else if (::testing::internal::AlwaysFalse()) { \ ::testing::internal::RE::PartialMatch(".*", (regex)); \ GTEST_SUPPRESS_UNREACHABLE_CODE_WARNING_BELOW_(statement); \ terminator; \ } else \ ::testing::Message() #endif // GTEST_HAS_DEATH_TEST } // namespace internal } // namespace testing #endif // GTEST_INCLUDE_GTEST_INTERNAL_GTEST_DEATH_TEST_INTERNAL_H_ namespace testing { // This flag controls the style of death tests. Valid values are "threadsafe", // meaning that the death test child process will re-execute the test binary // from the start, running only a single death test, or "fast", // meaning that the child process will execute the test logic immediately // after forking. GTEST_DECLARE_string_(death_test_style); #if GTEST_HAS_DEATH_TEST namespace internal { // Returns a Boolean value indicating whether the caller is currently // executing in the context of the death test child process. Tools such as // Valgrind heap checkers may need this to modify their behavior in death // tests. IMPORTANT: This is an internal utility. Using it may break the // implementation of death tests. User code MUST NOT use it. GTEST_API_ bool InDeathTestChild(); } // namespace internal // The following macros are useful for writing death tests. // Here's what happens when an ASSERT_DEATH* or EXPECT_DEATH* is // executed: // // 1. It generates a warning if there is more than one active // thread. This is because it's safe to fork() or clone() only // when there is a single thread. // // 2. The parent process clone()s a sub-process and runs the death // test in it; the sub-process exits with code 0 at the end of the // death test, if it hasn't exited already. // // 3. The parent process waits for the sub-process to terminate. // // 4. The parent process checks the exit code and error message of // the sub-process. // // Examples: // // ASSERT_DEATH(server.SendMessage(56, "Hello"), "Invalid port number"); // for (int i = 0; i < 5; i++) { // EXPECT_DEATH(server.ProcessRequest(i), // "Invalid request .* in ProcessRequest()") // << "Failed to die on request " << i; // } // // ASSERT_EXIT(server.ExitNow(), ::testing::ExitedWithCode(0), "Exiting"); // // bool KilledBySIGHUP(int exit_code) { // return WIFSIGNALED(exit_code) && WTERMSIG(exit_code) == SIGHUP; // } // // ASSERT_EXIT(client.HangUpServer(), KilledBySIGHUP, "Hanging up!"); // // On the regular expressions used in death tests: // // On POSIX-compliant systems (*nix), we use the library, // which uses the POSIX extended regex syntax. // // On other platforms (e.g. Windows), we only support a simple regex // syntax implemented as part of Google Test. This limited // implementation should be enough most of the time when writing // death tests; though it lacks many features you can find in PCRE // or POSIX extended regex syntax. For example, we don't support // union ("x|y"), grouping ("(xy)"), brackets ("[xy]"), and // repetition count ("x{5,7}"), among others. // // Below is the syntax that we do support. We chose it to be a // subset of both PCRE and POSIX extended regex, so it's easy to // learn wherever you come from. In the following: 'A' denotes a // literal character, period (.), or a single \\ escape sequence; // 'x' and 'y' denote regular expressions; 'm' and 'n' are for // natural numbers. // // c matches any literal character c // \\d matches any decimal digit // \\D matches any character that's not a decimal digit // \\f matches \f // \\n matches \n // \\r matches \r // \\s matches any ASCII whitespace, including \n // \\S matches any character that's not a whitespace // \\t matches \t // \\v matches \v // \\w matches any letter, _, or decimal digit // \\W matches any character that \\w doesn't match // \\c matches any literal character c, which must be a punctuation // . matches any single character except \n // A? matches 0 or 1 occurrences of A // A* matches 0 or many occurrences of A // A+ matches 1 or many occurrences of A // ^ matches the beginning of a string (not that of each line) // $ matches the end of a string (not that of each line) // xy matches x followed by y // // If you accidentally use PCRE or POSIX extended regex features // not implemented by us, you will get a run-time failure. In that // case, please try to rewrite your regular expression within the // above syntax. // // This implementation is *not* meant to be as highly tuned or robust // as a compiled regex library, but should perform well enough for a // death test, which already incurs significant overhead by launching // a child process. // // Known caveats: // // A "threadsafe" style death test obtains the path to the test // program from argv[0] and re-executes it in the sub-process. For // simplicity, the current implementation doesn't search the PATH // when launching the sub-process. This means that the user must // invoke the test program via a path that contains at least one // path separator (e.g. path/to/foo_test and // /absolute/path/to/bar_test are fine, but foo_test is not). This // is rarely a problem as people usually don't put the test binary // directory in PATH. // // TODO(wan@google.com): make thread-safe death tests search the PATH. // Asserts that a given statement causes the program to exit, with an // integer exit status that satisfies predicate, and emitting error output // that matches regex. # define ASSERT_EXIT(statement, predicate, regex) \ GTEST_DEATH_TEST_(statement, predicate, regex, GTEST_FATAL_FAILURE_) // Like ASSERT_EXIT, but continues on to successive tests in the // test case, if any: # define EXPECT_EXIT(statement, predicate, regex) \ GTEST_DEATH_TEST_(statement, predicate, regex, GTEST_NONFATAL_FAILURE_) // Asserts that a given statement causes the program to exit, either by // explicitly exiting with a nonzero exit code or being killed by a // signal, and emitting error output that matches regex. # define ASSERT_DEATH(statement, regex) \ ASSERT_EXIT(statement, ::testing::internal::ExitedUnsuccessfully, regex) // Like ASSERT_DEATH, but continues on to successive tests in the // test case, if any: # define EXPECT_DEATH(statement, regex) \ EXPECT_EXIT(statement, ::testing::internal::ExitedUnsuccessfully, regex) // Two predicate classes that can be used in {ASSERT,EXPECT}_EXIT*: // Tests that an exit code describes a normal exit with a given exit code. class GTEST_API_ ExitedWithCode { public: explicit ExitedWithCode(int exit_code); bool operator()(int exit_status) const; private: // No implementation - assignment is unsupported. void operator=(const ExitedWithCode& other); const int exit_code_; }; # if !GTEST_OS_WINDOWS // Tests that an exit code describes an exit due to termination by a // given signal. class GTEST_API_ KilledBySignal { public: explicit KilledBySignal(int signum); bool operator()(int exit_status) const; private: const int signum_; }; # endif // !GTEST_OS_WINDOWS // EXPECT_DEBUG_DEATH asserts that the given statements die in debug mode. // The death testing framework causes this to have interesting semantics, // since the sideeffects of the call are only visible in opt mode, and not // in debug mode. // // In practice, this can be used to test functions that utilize the // LOG(DFATAL) macro using the following style: // // int DieInDebugOr12(int* sideeffect) { // if (sideeffect) { // *sideeffect = 12; // } // LOG(DFATAL) << "death"; // return 12; // } // // TEST(TestCase, TestDieOr12WorksInDgbAndOpt) { // int sideeffect = 0; // // Only asserts in dbg. // EXPECT_DEBUG_DEATH(DieInDebugOr12(&sideeffect), "death"); // // #ifdef NDEBUG // // opt-mode has sideeffect visible. // EXPECT_EQ(12, sideeffect); // #else // // dbg-mode no visible sideeffect. // EXPECT_EQ(0, sideeffect); // #endif // } // // This will assert that DieInDebugReturn12InOpt() crashes in debug // mode, usually due to a DCHECK or LOG(DFATAL), but returns the // appropriate fallback value (12 in this case) in opt mode. If you // need to test that a function has appropriate side-effects in opt // mode, include assertions against the side-effects. A general // pattern for this is: // // EXPECT_DEBUG_DEATH({ // // Side-effects here will have an effect after this statement in // // opt mode, but none in debug mode. // EXPECT_EQ(12, DieInDebugOr12(&sideeffect)); // }, "death"); // # ifdef NDEBUG # define EXPECT_DEBUG_DEATH(statement, regex) \ GTEST_EXECUTE_STATEMENT_(statement, regex) # define ASSERT_DEBUG_DEATH(statement, regex) \ GTEST_EXECUTE_STATEMENT_(statement, regex) # else # define EXPECT_DEBUG_DEATH(statement, regex) \ EXPECT_DEATH(statement, regex) # define ASSERT_DEBUG_DEATH(statement, regex) \ ASSERT_DEATH(statement, regex) # endif // NDEBUG for EXPECT_DEBUG_DEATH #endif // GTEST_HAS_DEATH_TEST // EXPECT_DEATH_IF_SUPPORTED(statement, regex) and // ASSERT_DEATH_IF_SUPPORTED(statement, regex) expand to real death tests if // death tests are supported; otherwise they just issue a warning. This is // useful when you are combining death test assertions with normal test // assertions in one test. #if GTEST_HAS_DEATH_TEST # define EXPECT_DEATH_IF_SUPPORTED(statement, regex) \ EXPECT_DEATH(statement, regex) # define ASSERT_DEATH_IF_SUPPORTED(statement, regex) \ ASSERT_DEATH(statement, regex) #else # define EXPECT_DEATH_IF_SUPPORTED(statement, regex) \ GTEST_UNSUPPORTED_DEATH_TEST_(statement, regex, ) # define ASSERT_DEATH_IF_SUPPORTED(statement, regex) \ GTEST_UNSUPPORTED_DEATH_TEST_(statement, regex, return) #endif } // namespace testing #endif // GTEST_INCLUDE_GTEST_GTEST_DEATH_TEST_H_ // This file was GENERATED by command: // pump.py gtest-param-test.h.pump // DO NOT EDIT BY HAND!!! // Copyright 2008, Google Inc. // All rights reserved. // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following disclaimer // in the documentation and/or other materials provided with the // distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived from // this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // // Authors: vladl@google.com (Vlad Losev) // // Macros and functions for implementing parameterized tests // in Google C++ Testing Framework (Google Test) // // This file is generated by a SCRIPT. DO NOT EDIT BY HAND! // #ifndef GTEST_INCLUDE_GTEST_GTEST_PARAM_TEST_H_ #define GTEST_INCLUDE_GTEST_GTEST_PARAM_TEST_H_ // Value-parameterized tests allow you to test your code with different // parameters without writing multiple copies of the same test. // // Here is how you use value-parameterized tests: #if 0 // To write value-parameterized tests, first you should define a fixture // class. It is usually derived from testing::TestWithParam (see below for // another inheritance scheme that's sometimes useful in more complicated // class hierarchies), where the type of your parameter values. // TestWithParam is itself derived from testing::Test. T can be any // copyable type. If it's a raw pointer, you are responsible for managing the // lifespan of the pointed values. class FooTest : public ::testing::TestWithParam { // You can implement all the usual class fixture members here. }; // Then, use the TEST_P macro to define as many parameterized tests // for this fixture as you want. The _P suffix is for "parameterized" // or "pattern", whichever you prefer to think. TEST_P(FooTest, DoesBlah) { // Inside a test, access the test parameter with the GetParam() method // of the TestWithParam class: EXPECT_TRUE(foo.Blah(GetParam())); ... } TEST_P(FooTest, HasBlahBlah) { ... } // Finally, you can use INSTANTIATE_TEST_CASE_P to instantiate the test // case with any set of parameters you want. Google Test defines a number // of functions for generating test parameters. They return what we call // (surprise!) parameter generators. Here is a summary of them, which // are all in the testing namespace: // // // Range(begin, end [, step]) - Yields values {begin, begin+step, // begin+step+step, ...}. The values do not // include end. step defaults to 1. // Values(v1, v2, ..., vN) - Yields values {v1, v2, ..., vN}. // ValuesIn(container) - Yields values from a C-style array, an STL // ValuesIn(begin,end) container, or an iterator range [begin, end). // Bool() - Yields sequence {false, true}. // Combine(g1, g2, ..., gN) - Yields all combinations (the Cartesian product // for the math savvy) of the values generated // by the N generators. // // For more details, see comments at the definitions of these functions below // in this file. // // The following statement will instantiate tests from the FooTest test case // each with parameter values "meeny", "miny", and "moe". INSTANTIATE_TEST_CASE_P(InstantiationName, FooTest, Values("meeny", "miny", "moe")); // To distinguish different instances of the pattern, (yes, you // can instantiate it more then once) the first argument to the // INSTANTIATE_TEST_CASE_P macro is a prefix that will be added to the // actual test case name. Remember to pick unique prefixes for different // instantiations. The tests from the instantiation above will have // these names: // // * InstantiationName/FooTest.DoesBlah/0 for "meeny" // * InstantiationName/FooTest.DoesBlah/1 for "miny" // * InstantiationName/FooTest.DoesBlah/2 for "moe" // * InstantiationName/FooTest.HasBlahBlah/0 for "meeny" // * InstantiationName/FooTest.HasBlahBlah/1 for "miny" // * InstantiationName/FooTest.HasBlahBlah/2 for "moe" // // You can use these names in --gtest_filter. // // This statement will instantiate all tests from FooTest again, each // with parameter values "cat" and "dog": const char* pets[] = {"cat", "dog"}; INSTANTIATE_TEST_CASE_P(AnotherInstantiationName, FooTest, ValuesIn(pets)); // The tests from the instantiation above will have these names: // // * AnotherInstantiationName/FooTest.DoesBlah/0 for "cat" // * AnotherInstantiationName/FooTest.DoesBlah/1 for "dog" // * AnotherInstantiationName/FooTest.HasBlahBlah/0 for "cat" // * AnotherInstantiationName/FooTest.HasBlahBlah/1 for "dog" // // Please note that INSTANTIATE_TEST_CASE_P will instantiate all tests // in the given test case, whether their definitions come before or // AFTER the INSTANTIATE_TEST_CASE_P statement. // // Please also note that generator expressions (including parameters to the // generators) are evaluated in InitGoogleTest(), after main() has started. // This allows the user on one hand, to adjust generator parameters in order // to dynamically determine a set of tests to run and on the other hand, // give the user a chance to inspect the generated tests with Google Test // reflection API before RUN_ALL_TESTS() is executed. // // You can see samples/sample7_unittest.cc and samples/sample8_unittest.cc // for more examples. // // In the future, we plan to publish the API for defining new parameter // generators. But for now this interface remains part of the internal // implementation and is subject to change. // // // A parameterized test fixture must be derived from testing::Test and from // testing::WithParamInterface, where T is the type of the parameter // values. Inheriting from TestWithParam satisfies that requirement because // TestWithParam inherits from both Test and WithParamInterface. In more // complicated hierarchies, however, it is occasionally useful to inherit // separately from Test and WithParamInterface. For example: class BaseTest : public ::testing::Test { // You can inherit all the usual members for a non-parameterized test // fixture here. }; class DerivedTest : public BaseTest, public ::testing::WithParamInterface { // The usual test fixture members go here too. }; TEST_F(BaseTest, HasFoo) { // This is an ordinary non-parameterized test. } TEST_P(DerivedTest, DoesBlah) { // GetParam works just the same here as if you inherit from TestWithParam. EXPECT_TRUE(foo.Blah(GetParam())); } #endif // 0 #if !GTEST_OS_SYMBIAN # include #endif // scripts/fuse_gtest.py depends on gtest's own header being #included // *unconditionally*. Therefore these #includes cannot be moved // inside #if GTEST_HAS_PARAM_TEST. // Copyright 2008 Google Inc. // All Rights Reserved. // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following disclaimer // in the documentation and/or other materials provided with the // distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived from // this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // // Author: vladl@google.com (Vlad Losev) // Type and function utilities for implementing parameterized tests. #ifndef GTEST_INCLUDE_GTEST_INTERNAL_GTEST_PARAM_UTIL_H_ #define GTEST_INCLUDE_GTEST_INTERNAL_GTEST_PARAM_UTIL_H_ #include #include #include // scripts/fuse_gtest.py depends on gtest's own header being #included // *unconditionally*. Therefore these #includes cannot be moved // inside #if GTEST_HAS_PARAM_TEST. // Copyright 2003 Google Inc. // All rights reserved. // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following disclaimer // in the documentation and/or other materials provided with the // distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived from // this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // // Authors: Dan Egnor (egnor@google.com) // // A "smart" pointer type with reference tracking. Every pointer to a // particular object is kept on a circular linked list. When the last pointer // to an object is destroyed or reassigned, the object is deleted. // // Used properly, this deletes the object when the last reference goes away. // There are several caveats: // - Like all reference counting schemes, cycles lead to leaks. // - Each smart pointer is actually two pointers (8 bytes instead of 4). // - Every time a pointer is assigned, the entire list of pointers to that // object is traversed. This class is therefore NOT SUITABLE when there // will often be more than two or three pointers to a particular object. // - References are only tracked as long as linked_ptr<> objects are copied. // If a linked_ptr<> is converted to a raw pointer and back, BAD THINGS // will happen (double deletion). // // A good use of this class is storing object references in STL containers. // You can safely put linked_ptr<> in a vector<>. // Other uses may not be as good. // // Note: If you use an incomplete type with linked_ptr<>, the class // *containing* linked_ptr<> must have a constructor and destructor (even // if they do nothing!). // // Bill Gibbons suggested we use something like this. // // Thread Safety: // Unlike other linked_ptr implementations, in this implementation // a linked_ptr object is thread-safe in the sense that: // - it's safe to copy linked_ptr objects concurrently, // - it's safe to copy *from* a linked_ptr and read its underlying // raw pointer (e.g. via get()) concurrently, and // - it's safe to write to two linked_ptrs that point to the same // shared object concurrently. // TODO(wan@google.com): rename this to safe_linked_ptr to avoid // confusion with normal linked_ptr. #ifndef GTEST_INCLUDE_GTEST_INTERNAL_GTEST_LINKED_PTR_H_ #define GTEST_INCLUDE_GTEST_INTERNAL_GTEST_LINKED_PTR_H_ #include #include namespace testing { namespace internal { // Protects copying of all linked_ptr objects. GTEST_API_ GTEST_DECLARE_STATIC_MUTEX_(g_linked_ptr_mutex); // This is used internally by all instances of linked_ptr<>. It needs to be // a non-template class because different types of linked_ptr<> can refer to // the same object (linked_ptr(obj) vs linked_ptr(obj)). // So, it needs to be possible for different types of linked_ptr to participate // in the same circular linked list, so we need a single class type here. // // DO NOT USE THIS CLASS DIRECTLY YOURSELF. Use linked_ptr. class linked_ptr_internal { public: // Create a new circle that includes only this instance. void join_new() { next_ = this; } // Many linked_ptr operations may change p.link_ for some linked_ptr // variable p in the same circle as this object. Therefore we need // to prevent two such operations from occurring concurrently. // // Note that different types of linked_ptr objects can coexist in a // circle (e.g. linked_ptr, linked_ptr, and // linked_ptr). Therefore we must use a single mutex to // protect all linked_ptr objects. This can create serious // contention in production code, but is acceptable in a testing // framework. // Join an existing circle. void join(linked_ptr_internal const* ptr) GTEST_LOCK_EXCLUDED_(g_linked_ptr_mutex) { MutexLock lock(&g_linked_ptr_mutex); linked_ptr_internal const* p = ptr; while (p->next_ != ptr) { assert(p->next_ != this && "Trying to join() a linked ring we are already in. " "Is GMock thread safety enabled?"); p = p->next_; } p->next_ = this; next_ = ptr; } // Leave whatever circle we're part of. Returns true if we were the // last member of the circle. Once this is done, you can join() another. bool depart() GTEST_LOCK_EXCLUDED_(g_linked_ptr_mutex) { MutexLock lock(&g_linked_ptr_mutex); if (next_ == this) return true; linked_ptr_internal const* p = next_; while (p->next_ != this) { assert(p->next_ != next_ && "Trying to depart() a linked ring we are not in. " "Is GMock thread safety enabled?"); p = p->next_; } p->next_ = next_; return false; } private: mutable linked_ptr_internal const* next_; }; template class linked_ptr { public: typedef T element_type; // Take over ownership of a raw pointer. This should happen as soon as // possible after the object is created. explicit linked_ptr(T* ptr = NULL) { capture(ptr); } ~linked_ptr() { depart(); } // Copy an existing linked_ptr<>, adding ourselves to the list of references. template linked_ptr(linked_ptr const& ptr) { copy(&ptr); } linked_ptr(linked_ptr const& ptr) { // NOLINT assert(&ptr != this); copy(&ptr); } // Assignment releases the old value and acquires the new. template linked_ptr& operator=(linked_ptr const& ptr) { depart(); copy(&ptr); return *this; } linked_ptr& operator=(linked_ptr const& ptr) { if (&ptr != this) { depart(); copy(&ptr); } return *this; } // Smart pointer members. void reset(T* ptr = NULL) { depart(); capture(ptr); } T* get() const { return value_; } T* operator->() const { return value_; } T& operator*() const { return *value_; } bool operator==(T* p) const { return value_ == p; } bool operator!=(T* p) const { return value_ != p; } template bool operator==(linked_ptr const& ptr) const { return value_ == ptr.get(); } template bool operator!=(linked_ptr const& ptr) const { return value_ != ptr.get(); } private: template friend class linked_ptr; T* value_; linked_ptr_internal link_; void depart() { if (link_.depart()) delete value_; } void capture(T* ptr) { value_ = ptr; link_.join_new(); } template void copy(linked_ptr const* ptr) { value_ = ptr->get(); if (value_) link_.join(&ptr->link_); else link_.join_new(); } }; template inline bool operator==(T* ptr, const linked_ptr& x) { return ptr == x.get(); } template inline bool operator!=(T* ptr, const linked_ptr& x) { return ptr != x.get(); } // A function to convert T* into linked_ptr // Doing e.g. make_linked_ptr(new FooBarBaz(arg)) is a shorter notation // for linked_ptr >(new FooBarBaz(arg)) template linked_ptr make_linked_ptr(T* ptr) { return linked_ptr(ptr); } } // namespace internal } // namespace testing #endif // GTEST_INCLUDE_GTEST_INTERNAL_GTEST_LINKED_PTR_H_ // Copyright 2007, Google Inc. // All rights reserved. // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following disclaimer // in the documentation and/or other materials provided with the // distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived from // this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // // Author: wan@google.com (Zhanyong Wan) // Google Test - The Google C++ Testing Framework // // This file implements a universal value printer that can print a // value of any type T: // // void ::testing::internal::UniversalPrinter::Print(value, ostream_ptr); // // A user can teach this function how to print a class type T by // defining either operator<<() or PrintTo() in the namespace that // defines T. More specifically, the FIRST defined function in the // following list will be used (assuming T is defined in namespace // foo): // // 1. foo::PrintTo(const T&, ostream*) // 2. operator<<(ostream&, const T&) defined in either foo or the // global namespace. // // If none of the above is defined, it will print the debug string of // the value if it is a protocol buffer, or print the raw bytes in the // value otherwise. // // To aid debugging: when T is a reference type, the address of the // value is also printed; when T is a (const) char pointer, both the // pointer value and the NUL-terminated string it points to are // printed. // // We also provide some convenient wrappers: // // // Prints a value to a string. For a (const or not) char // // pointer, the NUL-terminated string (but not the pointer) is // // printed. // std::string ::testing::PrintToString(const T& value); // // // Prints a value tersely: for a reference type, the referenced // // value (but not the address) is printed; for a (const or not) char // // pointer, the NUL-terminated string (but not the pointer) is // // printed. // void ::testing::internal::UniversalTersePrint(const T& value, ostream*); // // // Prints value using the type inferred by the compiler. The difference // // from UniversalTersePrint() is that this function prints both the // // pointer and the NUL-terminated string for a (const or not) char pointer. // void ::testing::internal::UniversalPrint(const T& value, ostream*); // // // Prints the fields of a tuple tersely to a string vector, one // // element for each field. Tuple support must be enabled in // // gtest-port.h. // std::vector UniversalTersePrintTupleFieldsToStrings( // const Tuple& value); // // Known limitation: // // The print primitives print the elements of an STL-style container // using the compiler-inferred type of *iter where iter is a // const_iterator of the container. When const_iterator is an input // iterator but not a forward iterator, this inferred type may not // match value_type, and the print output may be incorrect. In // practice, this is rarely a problem as for most containers // const_iterator is a forward iterator. We'll fix this if there's an // actual need for it. Note that this fix cannot rely on value_type // being defined as many user-defined container types don't have // value_type. #ifndef GTEST_INCLUDE_GTEST_GTEST_PRINTERS_H_ #define GTEST_INCLUDE_GTEST_GTEST_PRINTERS_H_ #include // NOLINT #include #include #include #include #if GTEST_HAS_STD_TUPLE_ # include #endif namespace testing { // Definitions in the 'internal' and 'internal2' name spaces are // subject to change without notice. DO NOT USE THEM IN USER CODE! namespace internal2 { // Prints the given number of bytes in the given object to the given // ostream. GTEST_API_ void PrintBytesInObjectTo(const unsigned char* obj_bytes, size_t count, ::std::ostream* os); // For selecting which printer to use when a given type has neither << // nor PrintTo(). enum TypeKind { kProtobuf, // a protobuf type kConvertibleToInteger, // a type implicitly convertible to BiggestInt // (e.g. a named or unnamed enum type) kOtherType // anything else }; // TypeWithoutFormatter::PrintValue(value, os) is called // by the universal printer to print a value of type T when neither // operator<< nor PrintTo() is defined for T, where kTypeKind is the // "kind" of T as defined by enum TypeKind. template class TypeWithoutFormatter { public: // This default version is called when kTypeKind is kOtherType. static void PrintValue(const T& value, ::std::ostream* os) { PrintBytesInObjectTo(reinterpret_cast(&value), sizeof(value), os); } }; // We print a protobuf using its ShortDebugString() when the string // doesn't exceed this many characters; otherwise we print it using // DebugString() for better readability. const size_t kProtobufOneLinerMaxLength = 50; template class TypeWithoutFormatter { public: static void PrintValue(const T& value, ::std::ostream* os) { const ::testing::internal::string short_str = value.ShortDebugString(); const ::testing::internal::string pretty_str = short_str.length() <= kProtobufOneLinerMaxLength ? short_str : ("\n" + value.DebugString()); *os << ("<" + pretty_str + ">"); } }; template class TypeWithoutFormatter { public: // Since T has no << operator or PrintTo() but can be implicitly // converted to BiggestInt, we print it as a BiggestInt. // // Most likely T is an enum type (either named or unnamed), in which // case printing it as an integer is the desired behavior. In case // T is not an enum, printing it as an integer is the best we can do // given that it has no user-defined printer. static void PrintValue(const T& value, ::std::ostream* os) { const internal::BiggestInt kBigInt = value; *os << kBigInt; } }; // Prints the given value to the given ostream. If the value is a // protocol message, its debug string is printed; if it's an enum or // of a type implicitly convertible to BiggestInt, it's printed as an // integer; otherwise the bytes in the value are printed. This is // what UniversalPrinter::Print() does when it knows nothing about // type T and T has neither << operator nor PrintTo(). // // A user can override this behavior for a class type Foo by defining // a << operator in the namespace where Foo is defined. // // We put this operator in namespace 'internal2' instead of 'internal' // to simplify the implementation, as much code in 'internal' needs to // use << in STL, which would conflict with our own << were it defined // in 'internal'. // // Note that this operator<< takes a generic std::basic_ostream type instead of the more restricted std::ostream. If // we define it to take an std::ostream instead, we'll get an // "ambiguous overloads" compiler error when trying to print a type // Foo that supports streaming to std::basic_ostream, as the compiler cannot tell whether // operator<<(std::ostream&, const T&) or // operator<<(std::basic_stream, const Foo&) is more // specific. template ::std::basic_ostream& operator<<( ::std::basic_ostream& os, const T& x) { TypeWithoutFormatter::value ? kProtobuf : internal::ImplicitlyConvertible::value ? kConvertibleToInteger : kOtherType)>::PrintValue(x, &os); return os; } } // namespace internal2 } // namespace testing // This namespace MUST NOT BE NESTED IN ::testing, or the name look-up // magic needed for implementing UniversalPrinter won't work. namespace testing_internal { // Used to print a value that is not an STL-style container when the // user doesn't define PrintTo() for it. template void DefaultPrintNonContainerTo(const T& value, ::std::ostream* os) { // With the following statement, during unqualified name lookup, // testing::internal2::operator<< appears as if it was declared in // the nearest enclosing namespace that contains both // ::testing_internal and ::testing::internal2, i.e. the global // namespace. For more details, refer to the C++ Standard section // 7.3.4-1 [namespace.udir]. This allows us to fall back onto // testing::internal2::operator<< in case T doesn't come with a << // operator. // // We cannot write 'using ::testing::internal2::operator<<;', which // gcc 3.3 fails to compile due to a compiler bug. using namespace ::testing::internal2; // NOLINT // Assuming T is defined in namespace foo, in the next statement, // the compiler will consider all of: // // 1. foo::operator<< (thanks to Koenig look-up), // 2. ::operator<< (as the current namespace is enclosed in ::), // 3. testing::internal2::operator<< (thanks to the using statement above). // // The operator<< whose type matches T best will be picked. // // We deliberately allow #2 to be a candidate, as sometimes it's // impossible to define #1 (e.g. when foo is ::std, defining // anything in it is undefined behavior unless you are a compiler // vendor.). *os << value; } } // namespace testing_internal namespace testing { namespace internal { // UniversalPrinter::Print(value, ostream_ptr) prints the given // value to the given ostream. The caller must ensure that // 'ostream_ptr' is not NULL, or the behavior is undefined. // // We define UniversalPrinter as a class template (as opposed to a // function template), as we need to partially specialize it for // reference types, which cannot be done with function templates. template class UniversalPrinter; template void UniversalPrint(const T& value, ::std::ostream* os); // Used to print an STL-style container when the user doesn't define // a PrintTo() for it. template void DefaultPrintTo(IsContainer /* dummy */, false_type /* is not a pointer */, const C& container, ::std::ostream* os) { const size_t kMaxCount = 32; // The maximum number of elements to print. *os << '{'; size_t count = 0; for (typename C::const_iterator it = container.begin(); it != container.end(); ++it, ++count) { if (count > 0) { *os << ','; if (count == kMaxCount) { // Enough has been printed. *os << " ..."; break; } } *os << ' '; // We cannot call PrintTo(*it, os) here as PrintTo() doesn't // handle *it being a native array. internal::UniversalPrint(*it, os); } if (count > 0) { *os << ' '; } *os << '}'; } // Used to print a pointer that is neither a char pointer nor a member // pointer, when the user doesn't define PrintTo() for it. (A member // variable pointer or member function pointer doesn't really point to // a location in the address space. Their representation is // implementation-defined. Therefore they will be printed as raw // bytes.) template void DefaultPrintTo(IsNotContainer /* dummy */, true_type /* is a pointer */, T* p, ::std::ostream* os) { if (p == NULL) { *os << "NULL"; } else { // C++ doesn't allow casting from a function pointer to any object // pointer. // // IsTrue() silences warnings: "Condition is always true", // "unreachable code". if (IsTrue(ImplicitlyConvertible::value)) { // T is not a function type. We just call << to print p, // relying on ADL to pick up user-defined << for their pointer // types, if any. *os << p; } else { // T is a function type, so '*os << p' doesn't do what we want // (it just prints p as bool). We want to print p as a const // void*. However, we cannot cast it to const void* directly, // even using reinterpret_cast, as earlier versions of gcc // (e.g. 3.4.5) cannot compile the cast when p is a function // pointer. Casting to UInt64 first solves the problem. *os << reinterpret_cast( reinterpret_cast(p)); } } } // Used to print a non-container, non-pointer value when the user // doesn't define PrintTo() for it. template void DefaultPrintTo(IsNotContainer /* dummy */, false_type /* is not a pointer */, const T& value, ::std::ostream* os) { ::testing_internal::DefaultPrintNonContainerTo(value, os); } // Prints the given value using the << operator if it has one; // otherwise prints the bytes in it. This is what // UniversalPrinter::Print() does when PrintTo() is not specialized // or overloaded for type T. // // A user can override this behavior for a class type Foo by defining // an overload of PrintTo() in the namespace where Foo is defined. We // give the user this option as sometimes defining a << operator for // Foo is not desirable (e.g. the coding style may prevent doing it, // or there is already a << operator but it doesn't do what the user // wants). template void PrintTo(const T& value, ::std::ostream* os) { // DefaultPrintTo() is overloaded. The type of its first two // arguments determine which version will be picked. If T is an // STL-style container, the version for container will be called; if // T is a pointer, the pointer version will be called; otherwise the // generic version will be called. // // Note that we check for container types here, prior to we check // for protocol message types in our operator<<. The rationale is: // // For protocol messages, we want to give people a chance to // override Google Mock's format by defining a PrintTo() or // operator<<. For STL containers, other formats can be // incompatible with Google Mock's format for the container // elements; therefore we check for container types here to ensure // that our format is used. // // The second argument of DefaultPrintTo() is needed to bypass a bug // in Symbian's C++ compiler that prevents it from picking the right // overload between: // // PrintTo(const T& x, ...); // PrintTo(T* x, ...); DefaultPrintTo(IsContainerTest(0), is_pointer(), value, os); } // The following list of PrintTo() overloads tells // UniversalPrinter::Print() how to print standard types (built-in // types, strings, plain arrays, and pointers). // Overloads for various char types. GTEST_API_ void PrintTo(unsigned char c, ::std::ostream* os); GTEST_API_ void PrintTo(signed char c, ::std::ostream* os); inline void PrintTo(char c, ::std::ostream* os) { // When printing a plain char, we always treat it as unsigned. This // way, the output won't be affected by whether the compiler thinks // char is signed or not. PrintTo(static_cast(c), os); } // Overloads for other simple built-in types. inline void PrintTo(bool x, ::std::ostream* os) { *os << (x ? "true" : "false"); } // Overload for wchar_t type. // Prints a wchar_t as a symbol if it is printable or as its internal // code otherwise and also as its decimal code (except for L'\0'). // The L'\0' char is printed as "L'\\0'". The decimal code is printed // as signed integer when wchar_t is implemented by the compiler // as a signed type and is printed as an unsigned integer when wchar_t // is implemented as an unsigned type. GTEST_API_ void PrintTo(wchar_t wc, ::std::ostream* os); // Overloads for C strings. GTEST_API_ void PrintTo(const char* s, ::std::ostream* os); inline void PrintTo(char* s, ::std::ostream* os) { PrintTo(ImplicitCast_(s), os); } // signed/unsigned char is often used for representing binary data, so // we print pointers to it as void* to be safe. inline void PrintTo(const signed char* s, ::std::ostream* os) { PrintTo(ImplicitCast_(s), os); } inline void PrintTo(signed char* s, ::std::ostream* os) { PrintTo(ImplicitCast_(s), os); } inline void PrintTo(const unsigned char* s, ::std::ostream* os) { PrintTo(ImplicitCast_(s), os); } inline void PrintTo(unsigned char* s, ::std::ostream* os) { PrintTo(ImplicitCast_(s), os); } // MSVC can be configured to define wchar_t as a typedef of unsigned // short. It defines _NATIVE_WCHAR_T_DEFINED when wchar_t is a native // type. When wchar_t is a typedef, defining an overload for const // wchar_t* would cause unsigned short* be printed as a wide string, // possibly causing invalid memory accesses. #if !defined(_MSC_VER) || defined(_NATIVE_WCHAR_T_DEFINED) // Overloads for wide C strings GTEST_API_ void PrintTo(const wchar_t* s, ::std::ostream* os); inline void PrintTo(wchar_t* s, ::std::ostream* os) { PrintTo(ImplicitCast_(s), os); } #endif // Overload for C arrays. Multi-dimensional arrays are printed // properly. // Prints the given number of elements in an array, without printing // the curly braces. template void PrintRawArrayTo(const T a[], size_t count, ::std::ostream* os) { UniversalPrint(a[0], os); for (size_t i = 1; i != count; i++) { *os << ", "; UniversalPrint(a[i], os); } } // Overloads for ::string and ::std::string. #if GTEST_HAS_GLOBAL_STRING GTEST_API_ void PrintStringTo(const ::string&s, ::std::ostream* os); inline void PrintTo(const ::string& s, ::std::ostream* os) { PrintStringTo(s, os); } #endif // GTEST_HAS_GLOBAL_STRING GTEST_API_ void PrintStringTo(const ::std::string&s, ::std::ostream* os); inline void PrintTo(const ::std::string& s, ::std::ostream* os) { PrintStringTo(s, os); } // Overloads for ::wstring and ::std::wstring. #if GTEST_HAS_GLOBAL_WSTRING GTEST_API_ void PrintWideStringTo(const ::wstring&s, ::std::ostream* os); inline void PrintTo(const ::wstring& s, ::std::ostream* os) { PrintWideStringTo(s, os); } #endif // GTEST_HAS_GLOBAL_WSTRING #if GTEST_HAS_STD_WSTRING GTEST_API_ void PrintWideStringTo(const ::std::wstring&s, ::std::ostream* os); inline void PrintTo(const ::std::wstring& s, ::std::ostream* os) { PrintWideStringTo(s, os); } #endif // GTEST_HAS_STD_WSTRING #if GTEST_HAS_TR1_TUPLE || GTEST_HAS_STD_TUPLE_ // Helper function for printing a tuple. T must be instantiated with // a tuple type. template void PrintTupleTo(const T& t, ::std::ostream* os); #endif // GTEST_HAS_TR1_TUPLE || GTEST_HAS_STD_TUPLE_ #if GTEST_HAS_TR1_TUPLE // Overload for ::std::tr1::tuple. Needed for printing function arguments, // which are packed as tuples. // Overloaded PrintTo() for tuples of various arities. We support // tuples of up-to 10 fields. The following implementation works // regardless of whether tr1::tuple is implemented using the // non-standard variadic template feature or not. inline void PrintTo(const ::std::tr1::tuple<>& t, ::std::ostream* os) { PrintTupleTo(t, os); } template void PrintTo(const ::std::tr1::tuple& t, ::std::ostream* os) { PrintTupleTo(t, os); } template void PrintTo(const ::std::tr1::tuple& t, ::std::ostream* os) { PrintTupleTo(t, os); } template void PrintTo(const ::std::tr1::tuple& t, ::std::ostream* os) { PrintTupleTo(t, os); } template void PrintTo(const ::std::tr1::tuple& t, ::std::ostream* os) { PrintTupleTo(t, os); } template void PrintTo(const ::std::tr1::tuple& t, ::std::ostream* os) { PrintTupleTo(t, os); } template void PrintTo(const ::std::tr1::tuple& t, ::std::ostream* os) { PrintTupleTo(t, os); } template void PrintTo(const ::std::tr1::tuple& t, ::std::ostream* os) { PrintTupleTo(t, os); } template void PrintTo(const ::std::tr1::tuple& t, ::std::ostream* os) { PrintTupleTo(t, os); } template void PrintTo(const ::std::tr1::tuple& t, ::std::ostream* os) { PrintTupleTo(t, os); } template void PrintTo( const ::std::tr1::tuple& t, ::std::ostream* os) { PrintTupleTo(t, os); } #endif // GTEST_HAS_TR1_TUPLE #if GTEST_HAS_STD_TUPLE_ template void PrintTo(const ::std::tuple& t, ::std::ostream* os) { PrintTupleTo(t, os); } #endif // GTEST_HAS_STD_TUPLE_ // Overload for std::pair. template void PrintTo(const ::std::pair& value, ::std::ostream* os) { *os << '('; // We cannot use UniversalPrint(value.first, os) here, as T1 may be // a reference type. The same for printing value.second. UniversalPrinter::Print(value.first, os); *os << ", "; UniversalPrinter::Print(value.second, os); *os << ')'; } // Implements printing a non-reference type T by letting the compiler // pick the right overload of PrintTo() for T. template class UniversalPrinter { public: // MSVC warns about adding const to a function type, so we want to // disable the warning. GTEST_DISABLE_MSC_WARNINGS_PUSH_(4180) // Note: we deliberately don't call this PrintTo(), as that name // conflicts with ::testing::internal::PrintTo in the body of the // function. static void Print(const T& value, ::std::ostream* os) { // By default, ::testing::internal::PrintTo() is used for printing // the value. // // Thanks to Koenig look-up, if T is a class and has its own // PrintTo() function defined in its namespace, that function will // be visible here. Since it is more specific than the generic ones // in ::testing::internal, it will be picked by the compiler in the // following statement - exactly what we want. PrintTo(value, os); } GTEST_DISABLE_MSC_WARNINGS_POP_() }; // UniversalPrintArray(begin, len, os) prints an array of 'len' // elements, starting at address 'begin'. template void UniversalPrintArray(const T* begin, size_t len, ::std::ostream* os) { if (len == 0) { *os << "{}"; } else { *os << "{ "; const size_t kThreshold = 18; const size_t kChunkSize = 8; // If the array has more than kThreshold elements, we'll have to // omit some details by printing only the first and the last // kChunkSize elements. // TODO(wan@google.com): let the user control the threshold using a flag. if (len <= kThreshold) { PrintRawArrayTo(begin, len, os); } else { PrintRawArrayTo(begin, kChunkSize, os); *os << ", ..., "; PrintRawArrayTo(begin + len - kChunkSize, kChunkSize, os); } *os << " }"; } } // This overload prints a (const) char array compactly. GTEST_API_ void UniversalPrintArray( const char* begin, size_t len, ::std::ostream* os); // This overload prints a (const) wchar_t array compactly. GTEST_API_ void UniversalPrintArray( const wchar_t* begin, size_t len, ::std::ostream* os); // Implements printing an array type T[N]. template class UniversalPrinter { public: // Prints the given array, omitting some elements when there are too // many. static void Print(const T (&a)[N], ::std::ostream* os) { UniversalPrintArray(a, N, os); } }; // Implements printing a reference type T&. template class UniversalPrinter { public: // MSVC warns about adding const to a function type, so we want to // disable the warning. GTEST_DISABLE_MSC_WARNINGS_PUSH_(4180) static void Print(const T& value, ::std::ostream* os) { // Prints the address of the value. We use reinterpret_cast here // as static_cast doesn't compile when T is a function type. *os << "@" << reinterpret_cast(&value) << " "; // Then prints the value itself. UniversalPrint(value, os); } GTEST_DISABLE_MSC_WARNINGS_POP_() }; // Prints a value tersely: for a reference type, the referenced value // (but not the address) is printed; for a (const) char pointer, the // NUL-terminated string (but not the pointer) is printed. template class UniversalTersePrinter { public: static void Print(const T& value, ::std::ostream* os) { UniversalPrint(value, os); } }; template class UniversalTersePrinter { public: static void Print(const T& value, ::std::ostream* os) { UniversalPrint(value, os); } }; template class UniversalTersePrinter { public: static void Print(const T (&value)[N], ::std::ostream* os) { UniversalPrinter::Print(value, os); } }; template <> class UniversalTersePrinter { public: static void Print(const char* str, ::std::ostream* os) { if (str == NULL) { *os << "NULL"; } else { UniversalPrint(string(str), os); } } }; template <> class UniversalTersePrinter { public: static void Print(char* str, ::std::ostream* os) { UniversalTersePrinter::Print(str, os); } }; #if GTEST_HAS_STD_WSTRING template <> class UniversalTersePrinter { public: static void Print(const wchar_t* str, ::std::ostream* os) { if (str == NULL) { *os << "NULL"; } else { UniversalPrint(::std::wstring(str), os); } } }; #endif template <> class UniversalTersePrinter { public: static void Print(wchar_t* str, ::std::ostream* os) { UniversalTersePrinter::Print(str, os); } }; template void UniversalTersePrint(const T& value, ::std::ostream* os) { UniversalTersePrinter::Print(value, os); } // Prints a value using the type inferred by the compiler. The // difference between this and UniversalTersePrint() is that for a // (const) char pointer, this prints both the pointer and the // NUL-terminated string. template void UniversalPrint(const T& value, ::std::ostream* os) { // A workarond for the bug in VC++ 7.1 that prevents us from instantiating // UniversalPrinter with T directly. typedef T T1; UniversalPrinter::Print(value, os); } typedef ::std::vector Strings; // TuplePolicy must provide: // - tuple_size // size of tuple TupleT. // - get(const TupleT& t) // static function extracting element I of tuple TupleT. // - tuple_element::type // type of element I of tuple TupleT. template struct TuplePolicy; #if GTEST_HAS_TR1_TUPLE template struct TuplePolicy { typedef TupleT Tuple; static const size_t tuple_size = ::std::tr1::tuple_size::value; template struct tuple_element : ::std::tr1::tuple_element {}; template static typename AddReference< const typename ::std::tr1::tuple_element::type>::type get( const Tuple& tuple) { return ::std::tr1::get(tuple); } }; template const size_t TuplePolicy::tuple_size; #endif // GTEST_HAS_TR1_TUPLE #if GTEST_HAS_STD_TUPLE_ template struct TuplePolicy< ::std::tuple > { typedef ::std::tuple Tuple; static const size_t tuple_size = ::std::tuple_size::value; template struct tuple_element : ::std::tuple_element {}; template static const typename ::std::tuple_element::type& get( const Tuple& tuple) { return ::std::get(tuple); } }; template const size_t TuplePolicy< ::std::tuple >::tuple_size; #endif // GTEST_HAS_STD_TUPLE_ #if GTEST_HAS_TR1_TUPLE || GTEST_HAS_STD_TUPLE_ // This helper template allows PrintTo() for tuples and // UniversalTersePrintTupleFieldsToStrings() to be defined by // induction on the number of tuple fields. The idea is that // TuplePrefixPrinter::PrintPrefixTo(t, os) prints the first N // fields in tuple t, and can be defined in terms of // TuplePrefixPrinter. // // The inductive case. template struct TuplePrefixPrinter { // Prints the first N fields of a tuple. template static void PrintPrefixTo(const Tuple& t, ::std::ostream* os) { TuplePrefixPrinter::PrintPrefixTo(t, os); GTEST_INTENTIONAL_CONST_COND_PUSH_() if (N > 1) { GTEST_INTENTIONAL_CONST_COND_POP_() *os << ", "; } UniversalPrinter< typename TuplePolicy::template tuple_element::type> ::Print(TuplePolicy::template get(t), os); } // Tersely prints the first N fields of a tuple to a string vector, // one element for each field. template static void TersePrintPrefixToStrings(const Tuple& t, Strings* strings) { TuplePrefixPrinter::TersePrintPrefixToStrings(t, strings); ::std::stringstream ss; UniversalTersePrint(TuplePolicy::template get(t), &ss); strings->push_back(ss.str()); } }; // Base case. template <> struct TuplePrefixPrinter<0> { template static void PrintPrefixTo(const Tuple&, ::std::ostream*) {} template static void TersePrintPrefixToStrings(const Tuple&, Strings*) {} }; // Helper function for printing a tuple. // Tuple must be either std::tr1::tuple or std::tuple type. template void PrintTupleTo(const Tuple& t, ::std::ostream* os) { *os << "("; TuplePrefixPrinter::tuple_size>::PrintPrefixTo(t, os); *os << ")"; } // Prints the fields of a tuple tersely to a string vector, one // element for each field. See the comment before // UniversalTersePrint() for how we define "tersely". template Strings UniversalTersePrintTupleFieldsToStrings(const Tuple& value) { Strings result; TuplePrefixPrinter::tuple_size>:: TersePrintPrefixToStrings(value, &result); return result; } #endif // GTEST_HAS_TR1_TUPLE || GTEST_HAS_STD_TUPLE_ } // namespace internal template ::std::string PrintToString(const T& value) { ::std::stringstream ss; internal::UniversalTersePrinter::Print(value, &ss); return ss.str(); } } // namespace testing #endif // GTEST_INCLUDE_GTEST_GTEST_PRINTERS_H_ #if GTEST_HAS_PARAM_TEST namespace testing { namespace internal { // INTERNAL IMPLEMENTATION - DO NOT USE IN USER CODE. // // Outputs a message explaining invalid registration of different // fixture class for the same test case. This may happen when // TEST_P macro is used to define two tests with the same name // but in different namespaces. GTEST_API_ void ReportInvalidTestCaseType(const char* test_case_name, const char* file, int line); template class ParamGeneratorInterface; template class ParamGenerator; // Interface for iterating over elements provided by an implementation // of ParamGeneratorInterface. template class ParamIteratorInterface { public: virtual ~ParamIteratorInterface() {} // A pointer to the base generator instance. // Used only for the purposes of iterator comparison // to make sure that two iterators belong to the same generator. virtual const ParamGeneratorInterface* BaseGenerator() const = 0; // Advances iterator to point to the next element // provided by the generator. The caller is responsible // for not calling Advance() on an iterator equal to // BaseGenerator()->End(). virtual void Advance() = 0; // Clones the iterator object. Used for implementing copy semantics // of ParamIterator. virtual ParamIteratorInterface* Clone() const = 0; // Dereferences the current iterator and provides (read-only) access // to the pointed value. It is the caller's responsibility not to call // Current() on an iterator equal to BaseGenerator()->End(). // Used for implementing ParamGenerator::operator*(). virtual const T* Current() const = 0; // Determines whether the given iterator and other point to the same // element in the sequence generated by the generator. // Used for implementing ParamGenerator::operator==(). virtual bool Equals(const ParamIteratorInterface& other) const = 0; }; // Class iterating over elements provided by an implementation of // ParamGeneratorInterface. It wraps ParamIteratorInterface // and implements the const forward iterator concept. template class ParamIterator { public: typedef T value_type; typedef const T& reference; typedef ptrdiff_t difference_type; // ParamIterator assumes ownership of the impl_ pointer. ParamIterator(const ParamIterator& other) : impl_(other.impl_->Clone()) {} ParamIterator& operator=(const ParamIterator& other) { if (this != &other) impl_.reset(other.impl_->Clone()); return *this; } const T& operator*() const { return *impl_->Current(); } const T* operator->() const { return impl_->Current(); } // Prefix version of operator++. ParamIterator& operator++() { impl_->Advance(); return *this; } // Postfix version of operator++. ParamIterator operator++(int /*unused*/) { ParamIteratorInterface* clone = impl_->Clone(); impl_->Advance(); return ParamIterator(clone); } bool operator==(const ParamIterator& other) const { return impl_.get() == other.impl_.get() || impl_->Equals(*other.impl_); } bool operator!=(const ParamIterator& other) const { return !(*this == other); } private: friend class ParamGenerator; explicit ParamIterator(ParamIteratorInterface* impl) : impl_(impl) {} scoped_ptr > impl_; }; // ParamGeneratorInterface is the binary interface to access generators // defined in other translation units. template class ParamGeneratorInterface { public: typedef T ParamType; virtual ~ParamGeneratorInterface() {} // Generator interface definition virtual ParamIteratorInterface* Begin() const = 0; virtual ParamIteratorInterface* End() const = 0; }; // Wraps ParamGeneratorInterface and provides general generator syntax // compatible with the STL Container concept. // This class implements copy initialization semantics and the contained // ParamGeneratorInterface instance is shared among all copies // of the original object. This is possible because that instance is immutable. template class ParamGenerator { public: typedef ParamIterator iterator; explicit ParamGenerator(ParamGeneratorInterface* impl) : impl_(impl) {} ParamGenerator(const ParamGenerator& other) : impl_(other.impl_) {} ParamGenerator& operator=(const ParamGenerator& other) { impl_ = other.impl_; return *this; } iterator begin() const { return iterator(impl_->Begin()); } iterator end() const { return iterator(impl_->End()); } private: linked_ptr > impl_; }; // Generates values from a range of two comparable values. Can be used to // generate sequences of user-defined types that implement operator+() and // operator<(). // This class is used in the Range() function. template class RangeGenerator : public ParamGeneratorInterface { public: RangeGenerator(T begin, T end, IncrementT step) : begin_(begin), end_(end), step_(step), end_index_(CalculateEndIndex(begin, end, step)) {} virtual ~RangeGenerator() {} virtual ParamIteratorInterface* Begin() const { return new Iterator(this, begin_, 0, step_); } virtual ParamIteratorInterface* End() const { return new Iterator(this, end_, end_index_, step_); } private: class Iterator : public ParamIteratorInterface { public: Iterator(const ParamGeneratorInterface* base, T value, int index, IncrementT step) : base_(base), value_(value), index_(index), step_(step) {} virtual ~Iterator() {} virtual const ParamGeneratorInterface* BaseGenerator() const { return base_; } virtual void Advance() { value_ = value_ + step_; index_++; } virtual ParamIteratorInterface* Clone() const { return new Iterator(*this); } virtual const T* Current() const { return &value_; } virtual bool Equals(const ParamIteratorInterface& other) const { // Having the same base generator guarantees that the other // iterator is of the same type and we can downcast. GTEST_CHECK_(BaseGenerator() == other.BaseGenerator()) << "The program attempted to compare iterators " << "from different generators." << std::endl; const int other_index = CheckedDowncastToActualType(&other)->index_; return index_ == other_index; } private: Iterator(const Iterator& other) : ParamIteratorInterface(), base_(other.base_), value_(other.value_), index_(other.index_), step_(other.step_) {} // No implementation - assignment is unsupported. void operator=(const Iterator& other); const ParamGeneratorInterface* const base_; T value_; int index_; const IncrementT step_; }; // class RangeGenerator::Iterator static int CalculateEndIndex(const T& begin, const T& end, const IncrementT& step) { int end_index = 0; for (T i = begin; i < end; i = i + step) end_index++; return end_index; } // No implementation - assignment is unsupported. void operator=(const RangeGenerator& other); const T begin_; const T end_; const IncrementT step_; // The index for the end() iterator. All the elements in the generated // sequence are indexed (0-based) to aid iterator comparison. const int end_index_; }; // class RangeGenerator // Generates values from a pair of STL-style iterators. Used in the // ValuesIn() function. The elements are copied from the source range // since the source can be located on the stack, and the generator // is likely to persist beyond that stack frame. template class ValuesInIteratorRangeGenerator : public ParamGeneratorInterface { public: template ValuesInIteratorRangeGenerator(ForwardIterator begin, ForwardIterator end) : container_(begin, end) {} virtual ~ValuesInIteratorRangeGenerator() {} virtual ParamIteratorInterface* Begin() const { return new Iterator(this, container_.begin()); } virtual ParamIteratorInterface* End() const { return new Iterator(this, container_.end()); } private: typedef typename ::std::vector ContainerType; class Iterator : public ParamIteratorInterface { public: Iterator(const ParamGeneratorInterface* base, typename ContainerType::const_iterator iterator) : base_(base), iterator_(iterator) {} virtual ~Iterator() {} virtual const ParamGeneratorInterface* BaseGenerator() const { return base_; } virtual void Advance() { ++iterator_; value_.reset(); } virtual ParamIteratorInterface* Clone() const { return new Iterator(*this); } // We need to use cached value referenced by iterator_ because *iterator_ // can return a temporary object (and of type other then T), so just // having "return &*iterator_;" doesn't work. // value_ is updated here and not in Advance() because Advance() // can advance iterator_ beyond the end of the range, and we cannot // detect that fact. The client code, on the other hand, is // responsible for not calling Current() on an out-of-range iterator. virtual const T* Current() const { if (value_.get() == NULL) value_.reset(new T(*iterator_)); return value_.get(); } virtual bool Equals(const ParamIteratorInterface& other) const { // Having the same base generator guarantees that the other // iterator is of the same type and we can downcast. GTEST_CHECK_(BaseGenerator() == other.BaseGenerator()) << "The program attempted to compare iterators " << "from different generators." << std::endl; return iterator_ == CheckedDowncastToActualType(&other)->iterator_; } private: Iterator(const Iterator& other) // The explicit constructor call suppresses a false warning // emitted by gcc when supplied with the -Wextra option. : ParamIteratorInterface(), base_(other.base_), iterator_(other.iterator_) {} const ParamGeneratorInterface* const base_; typename ContainerType::const_iterator iterator_; // A cached value of *iterator_. We keep it here to allow access by // pointer in the wrapping iterator's operator->(). // value_ needs to be mutable to be accessed in Current(). // Use of scoped_ptr helps manage cached value's lifetime, // which is bound by the lifespan of the iterator itself. mutable scoped_ptr value_; }; // class ValuesInIteratorRangeGenerator::Iterator // No implementation - assignment is unsupported. void operator=(const ValuesInIteratorRangeGenerator& other); const ContainerType container_; }; // class ValuesInIteratorRangeGenerator // INTERNAL IMPLEMENTATION - DO NOT USE IN USER CODE. // // Stores a parameter value and later creates tests parameterized with that // value. template class ParameterizedTestFactory : public TestFactoryBase { public: typedef typename TestClass::ParamType ParamType; explicit ParameterizedTestFactory(ParamType parameter) : parameter_(parameter) {} virtual Test* CreateTest() { TestClass::SetParam(¶meter_); return new TestClass(); } private: const ParamType parameter_; GTEST_DISALLOW_COPY_AND_ASSIGN_(ParameterizedTestFactory); }; // INTERNAL IMPLEMENTATION - DO NOT USE IN USER CODE. // // TestMetaFactoryBase is a base class for meta-factories that create // test factories for passing into MakeAndRegisterTestInfo function. template class TestMetaFactoryBase { public: virtual ~TestMetaFactoryBase() {} virtual TestFactoryBase* CreateTestFactory(ParamType parameter) = 0; }; // INTERNAL IMPLEMENTATION - DO NOT USE IN USER CODE. // // TestMetaFactory creates test factories for passing into // MakeAndRegisterTestInfo function. Since MakeAndRegisterTestInfo receives // ownership of test factory pointer, same factory object cannot be passed // into that method twice. But ParameterizedTestCaseInfo is going to call // it for each Test/Parameter value combination. Thus it needs meta factory // creator class. template class TestMetaFactory : public TestMetaFactoryBase { public: typedef typename TestCase::ParamType ParamType; TestMetaFactory() {} virtual TestFactoryBase* CreateTestFactory(ParamType parameter) { return new ParameterizedTestFactory(parameter); } private: GTEST_DISALLOW_COPY_AND_ASSIGN_(TestMetaFactory); }; // INTERNAL IMPLEMENTATION - DO NOT USE IN USER CODE. // // ParameterizedTestCaseInfoBase is a generic interface // to ParameterizedTestCaseInfo classes. ParameterizedTestCaseInfoBase // accumulates test information provided by TEST_P macro invocations // and generators provided by INSTANTIATE_TEST_CASE_P macro invocations // and uses that information to register all resulting test instances // in RegisterTests method. The ParameterizeTestCaseRegistry class holds // a collection of pointers to the ParameterizedTestCaseInfo objects // and calls RegisterTests() on each of them when asked. class ParameterizedTestCaseInfoBase { public: virtual ~ParameterizedTestCaseInfoBase() {} // Base part of test case name for display purposes. virtual const string& GetTestCaseName() const = 0; // Test case id to verify identity. virtual TypeId GetTestCaseTypeId() const = 0; // UnitTest class invokes this method to register tests in this // test case right before running them in RUN_ALL_TESTS macro. // This method should not be called more then once on any single // instance of a ParameterizedTestCaseInfoBase derived class. virtual void RegisterTests() = 0; protected: ParameterizedTestCaseInfoBase() {} private: GTEST_DISALLOW_COPY_AND_ASSIGN_(ParameterizedTestCaseInfoBase); }; // INTERNAL IMPLEMENTATION - DO NOT USE IN USER CODE. // // ParameterizedTestCaseInfo accumulates tests obtained from TEST_P // macro invocations for a particular test case and generators // obtained from INSTANTIATE_TEST_CASE_P macro invocations for that // test case. It registers tests with all values generated by all // generators when asked. template class ParameterizedTestCaseInfo : public ParameterizedTestCaseInfoBase { public: // ParamType and GeneratorCreationFunc are private types but are required // for declarations of public methods AddTestPattern() and // AddTestCaseInstantiation(). typedef typename TestCase::ParamType ParamType; // A function that returns an instance of appropriate generator type. typedef ParamGenerator(GeneratorCreationFunc)(); explicit ParameterizedTestCaseInfo(const char* name) : test_case_name_(name) {} // Test case base name for display purposes. virtual const string& GetTestCaseName() const { return test_case_name_; } // Test case id to verify identity. virtual TypeId GetTestCaseTypeId() const { return GetTypeId(); } // TEST_P macro uses AddTestPattern() to record information // about a single test in a LocalTestInfo structure. // test_case_name is the base name of the test case (without invocation // prefix). test_base_name is the name of an individual test without // parameter index. For the test SequenceA/FooTest.DoBar/1 FooTest is // test case base name and DoBar is test base name. void AddTestPattern(const char* test_case_name, const char* test_base_name, TestMetaFactoryBase* meta_factory) { tests_.push_back(linked_ptr(new TestInfo(test_case_name, test_base_name, meta_factory))); } // INSTANTIATE_TEST_CASE_P macro uses AddGenerator() to record information // about a generator. int AddTestCaseInstantiation(const string& instantiation_name, GeneratorCreationFunc* func, const char* /* file */, int /* line */) { instantiations_.push_back(::std::make_pair(instantiation_name, func)); return 0; // Return value used only to run this method in namespace scope. } // UnitTest class invokes this method to register tests in this test case // test cases right before running tests in RUN_ALL_TESTS macro. // This method should not be called more then once on any single // instance of a ParameterizedTestCaseInfoBase derived class. // UnitTest has a guard to prevent from calling this method more then once. virtual void RegisterTests() { for (typename TestInfoContainer::iterator test_it = tests_.begin(); test_it != tests_.end(); ++test_it) { linked_ptr test_info = *test_it; for (typename InstantiationContainer::iterator gen_it = instantiations_.begin(); gen_it != instantiations_.end(); ++gen_it) { const string& instantiation_name = gen_it->first; ParamGenerator generator((*gen_it->second)()); string test_case_name; if ( !instantiation_name.empty() ) test_case_name = instantiation_name + "/"; test_case_name += test_info->test_case_base_name; int i = 0; for (typename ParamGenerator::iterator param_it = generator.begin(); param_it != generator.end(); ++param_it, ++i) { Message test_name_stream; test_name_stream << test_info->test_base_name << "/" << i; MakeAndRegisterTestInfo( test_case_name.c_str(), test_name_stream.GetString().c_str(), NULL, // No type parameter. PrintToString(*param_it).c_str(), GetTestCaseTypeId(), TestCase::SetUpTestCase, TestCase::TearDownTestCase, test_info->test_meta_factory->CreateTestFactory(*param_it)); } // for param_it } // for gen_it } // for test_it } // RegisterTests private: // LocalTestInfo structure keeps information about a single test registered // with TEST_P macro. struct TestInfo { TestInfo(const char* a_test_case_base_name, const char* a_test_base_name, TestMetaFactoryBase* a_test_meta_factory) : test_case_base_name(a_test_case_base_name), test_base_name(a_test_base_name), test_meta_factory(a_test_meta_factory) {} const string test_case_base_name; const string test_base_name; const scoped_ptr > test_meta_factory; }; typedef ::std::vector > TestInfoContainer; // Keeps pairs of // received from INSTANTIATE_TEST_CASE_P macros. typedef ::std::vector > InstantiationContainer; const string test_case_name_; TestInfoContainer tests_; InstantiationContainer instantiations_; GTEST_DISALLOW_COPY_AND_ASSIGN_(ParameterizedTestCaseInfo); }; // class ParameterizedTestCaseInfo // INTERNAL IMPLEMENTATION - DO NOT USE IN USER CODE. // // ParameterizedTestCaseRegistry contains a map of ParameterizedTestCaseInfoBase // classes accessed by test case names. TEST_P and INSTANTIATE_TEST_CASE_P // macros use it to locate their corresponding ParameterizedTestCaseInfo // descriptors. class ParameterizedTestCaseRegistry { public: ParameterizedTestCaseRegistry() {} ~ParameterizedTestCaseRegistry() { for (TestCaseInfoContainer::iterator it = test_case_infos_.begin(); it != test_case_infos_.end(); ++it) { delete *it; } } // Looks up or creates and returns a structure containing information about // tests and instantiations of a particular test case. template ParameterizedTestCaseInfo* GetTestCasePatternHolder( const char* test_case_name, const char* file, int line) { ParameterizedTestCaseInfo* typed_test_info = NULL; for (TestCaseInfoContainer::iterator it = test_case_infos_.begin(); it != test_case_infos_.end(); ++it) { if ((*it)->GetTestCaseName() == test_case_name) { if ((*it)->GetTestCaseTypeId() != GetTypeId()) { // Complain about incorrect usage of Google Test facilities // and terminate the program since we cannot guaranty correct // test case setup and tear-down in this case. ReportInvalidTestCaseType(test_case_name, file, line); posix::Abort(); } else { // At this point we are sure that the object we found is of the same // type we are looking for, so we downcast it to that type // without further checks. typed_test_info = CheckedDowncastToActualType< ParameterizedTestCaseInfo >(*it); } break; } } if (typed_test_info == NULL) { typed_test_info = new ParameterizedTestCaseInfo(test_case_name); test_case_infos_.push_back(typed_test_info); } return typed_test_info; } void RegisterTests() { for (TestCaseInfoContainer::iterator it = test_case_infos_.begin(); it != test_case_infos_.end(); ++it) { (*it)->RegisterTests(); } } private: typedef ::std::vector TestCaseInfoContainer; TestCaseInfoContainer test_case_infos_; GTEST_DISALLOW_COPY_AND_ASSIGN_(ParameterizedTestCaseRegistry); }; } // namespace internal } // namespace testing #endif // GTEST_HAS_PARAM_TEST #endif // GTEST_INCLUDE_GTEST_INTERNAL_GTEST_PARAM_UTIL_H_ // This file was GENERATED by command: // pump.py gtest-param-util-generated.h.pump // DO NOT EDIT BY HAND!!! // Copyright 2008 Google Inc. // All Rights Reserved. // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following disclaimer // in the documentation and/or other materials provided with the // distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived from // this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // // Author: vladl@google.com (Vlad Losev) // Type and function utilities for implementing parameterized tests. // This file is generated by a SCRIPT. DO NOT EDIT BY HAND! // // Currently Google Test supports at most 50 arguments in Values, // and at most 10 arguments in Combine. Please contact // googletestframework@googlegroups.com if you need more. // Please note that the number of arguments to Combine is limited // by the maximum arity of the implementation of tuple which is // currently set at 10. #ifndef GTEST_INCLUDE_GTEST_INTERNAL_GTEST_PARAM_UTIL_GENERATED_H_ #define GTEST_INCLUDE_GTEST_INTERNAL_GTEST_PARAM_UTIL_GENERATED_H_ // scripts/fuse_gtest.py depends on gtest's own header being #included // *unconditionally*. Therefore these #includes cannot be moved // inside #if GTEST_HAS_PARAM_TEST. #if GTEST_HAS_PARAM_TEST namespace testing { // Forward declarations of ValuesIn(), which is implemented in // include/gtest/gtest-param-test.h. template internal::ParamGenerator< typename ::testing::internal::IteratorTraits::value_type> ValuesIn(ForwardIterator begin, ForwardIterator end); template internal::ParamGenerator ValuesIn(const T (&array)[N]); template internal::ParamGenerator ValuesIn( const Container& container); namespace internal { // Used in the Values() function to provide polymorphic capabilities. template class ValueArray1 { public: explicit ValueArray1(T1 v1) : v1_(v1) {} template operator ParamGenerator() const { return ValuesIn(&v1_, &v1_ + 1); } private: // No implementation - assignment is unsupported. void operator=(const ValueArray1& other); const T1 v1_; }; template class ValueArray2 { public: ValueArray2(T1 v1, T2 v2) : v1_(v1), v2_(v2) {} template operator ParamGenerator() const { const T array[] = {static_cast(v1_), static_cast(v2_)}; return ValuesIn(array); } private: // No implementation - assignment is unsupported. void operator=(const ValueArray2& other); const T1 v1_; const T2 v2_; }; template class ValueArray3 { public: ValueArray3(T1 v1, T2 v2, T3 v3) : v1_(v1), v2_(v2), v3_(v3) {} template operator ParamGenerator() const { const T array[] = {static_cast(v1_), static_cast(v2_), static_cast(v3_)}; return ValuesIn(array); } private: // No implementation - assignment is unsupported. void operator=(const ValueArray3& other); const T1 v1_; const T2 v2_; const T3 v3_; }; template class ValueArray4 { public: ValueArray4(T1 v1, T2 v2, T3 v3, T4 v4) : v1_(v1), v2_(v2), v3_(v3), v4_(v4) {} template operator ParamGenerator() const { const T array[] = {static_cast(v1_), static_cast(v2_), static_cast(v3_), static_cast(v4_)}; return ValuesIn(array); } private: // No implementation - assignment is unsupported. void operator=(const ValueArray4& other); const T1 v1_; const T2 v2_; const T3 v3_; const T4 v4_; }; template class ValueArray5 { public: ValueArray5(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5) : v1_(v1), v2_(v2), v3_(v3), v4_(v4), v5_(v5) {} template operator ParamGenerator() const { const T array[] = {static_cast(v1_), static_cast(v2_), static_cast(v3_), static_cast(v4_), static_cast(v5_)}; return ValuesIn(array); } private: // No implementation - assignment is unsupported. void operator=(const ValueArray5& other); const T1 v1_; const T2 v2_; const T3 v3_; const T4 v4_; const T5 v5_; }; template class ValueArray6 { public: ValueArray6(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6) : v1_(v1), v2_(v2), v3_(v3), v4_(v4), v5_(v5), v6_(v6) {} template operator ParamGenerator() const { const T array[] = {static_cast(v1_), static_cast(v2_), static_cast(v3_), static_cast(v4_), static_cast(v5_), static_cast(v6_)}; return ValuesIn(array); } private: // No implementation - assignment is unsupported. void operator=(const ValueArray6& other); const T1 v1_; const T2 v2_; const T3 v3_; const T4 v4_; const T5 v5_; const T6 v6_; }; template class ValueArray7 { public: ValueArray7(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7) : v1_(v1), v2_(v2), v3_(v3), v4_(v4), v5_(v5), v6_(v6), v7_(v7) {} template operator ParamGenerator() const { const T array[] = {static_cast(v1_), static_cast(v2_), static_cast(v3_), static_cast(v4_), static_cast(v5_), static_cast(v6_), static_cast(v7_)}; return ValuesIn(array); } private: // No implementation - assignment is unsupported. void operator=(const ValueArray7& other); const T1 v1_; const T2 v2_; const T3 v3_; const T4 v4_; const T5 v5_; const T6 v6_; const T7 v7_; }; template class ValueArray8 { public: ValueArray8(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8) : v1_(v1), v2_(v2), v3_(v3), v4_(v4), v5_(v5), v6_(v6), v7_(v7), v8_(v8) {} template operator ParamGenerator() const { const T array[] = {static_cast(v1_), static_cast(v2_), static_cast(v3_), static_cast(v4_), static_cast(v5_), static_cast(v6_), static_cast(v7_), static_cast(v8_)}; return ValuesIn(array); } private: // No implementation - assignment is unsupported. void operator=(const ValueArray8& other); const T1 v1_; const T2 v2_; const T3 v3_; const T4 v4_; const T5 v5_; const T6 v6_; const T7 v7_; const T8 v8_; }; template class ValueArray9 { public: ValueArray9(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9) : v1_(v1), v2_(v2), v3_(v3), v4_(v4), v5_(v5), v6_(v6), v7_(v7), v8_(v8), v9_(v9) {} template operator ParamGenerator() const { const T array[] = {static_cast(v1_), static_cast(v2_), static_cast(v3_), static_cast(v4_), static_cast(v5_), static_cast(v6_), static_cast(v7_), static_cast(v8_), static_cast(v9_)}; return ValuesIn(array); } private: // No implementation - assignment is unsupported. void operator=(const ValueArray9& other); const T1 v1_; const T2 v2_; const T3 v3_; const T4 v4_; const T5 v5_; const T6 v6_; const T7 v7_; const T8 v8_; const T9 v9_; }; template class ValueArray10 { public: ValueArray10(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10) : v1_(v1), v2_(v2), v3_(v3), v4_(v4), v5_(v5), v6_(v6), v7_(v7), v8_(v8), v9_(v9), v10_(v10) {} template operator ParamGenerator() const { const T array[] = {static_cast(v1_), static_cast(v2_), static_cast(v3_), static_cast(v4_), static_cast(v5_), static_cast(v6_), static_cast(v7_), static_cast(v8_), static_cast(v9_), static_cast(v10_)}; return ValuesIn(array); } private: // No implementation - assignment is unsupported. void operator=(const ValueArray10& other); const T1 v1_; const T2 v2_; const T3 v3_; const T4 v4_; const T5 v5_; const T6 v6_; const T7 v7_; const T8 v8_; const T9 v9_; const T10 v10_; }; template class ValueArray11 { public: ValueArray11(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11) : v1_(v1), v2_(v2), v3_(v3), v4_(v4), v5_(v5), v6_(v6), v7_(v7), v8_(v8), v9_(v9), v10_(v10), v11_(v11) {} template operator ParamGenerator() const { const T array[] = {static_cast(v1_), static_cast(v2_), static_cast(v3_), static_cast(v4_), static_cast(v5_), static_cast(v6_), static_cast(v7_), static_cast(v8_), static_cast(v9_), static_cast(v10_), static_cast(v11_)}; return ValuesIn(array); } private: // No implementation - assignment is unsupported. void operator=(const ValueArray11& other); const T1 v1_; const T2 v2_; const T3 v3_; const T4 v4_; const T5 v5_; const T6 v6_; const T7 v7_; const T8 v8_; const T9 v9_; const T10 v10_; const T11 v11_; }; template class ValueArray12 { public: ValueArray12(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12) : v1_(v1), v2_(v2), v3_(v3), v4_(v4), v5_(v5), v6_(v6), v7_(v7), v8_(v8), v9_(v9), v10_(v10), v11_(v11), v12_(v12) {} template operator ParamGenerator() const { const T array[] = {static_cast(v1_), static_cast(v2_), static_cast(v3_), static_cast(v4_), static_cast(v5_), static_cast(v6_), static_cast(v7_), static_cast(v8_), static_cast(v9_), static_cast(v10_), static_cast(v11_), static_cast(v12_)}; return ValuesIn(array); } private: // No implementation - assignment is unsupported. void operator=(const ValueArray12& other); const T1 v1_; const T2 v2_; const T3 v3_; const T4 v4_; const T5 v5_; const T6 v6_; const T7 v7_; const T8 v8_; const T9 v9_; const T10 v10_; const T11 v11_; const T12 v12_; }; template class ValueArray13 { public: ValueArray13(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13) : v1_(v1), v2_(v2), v3_(v3), v4_(v4), v5_(v5), v6_(v6), v7_(v7), v8_(v8), v9_(v9), v10_(v10), v11_(v11), v12_(v12), v13_(v13) {} template operator ParamGenerator() const { const T array[] = {static_cast(v1_), static_cast(v2_), static_cast(v3_), static_cast(v4_), static_cast(v5_), static_cast(v6_), static_cast(v7_), static_cast(v8_), static_cast(v9_), static_cast(v10_), static_cast(v11_), static_cast(v12_), static_cast(v13_)}; return ValuesIn(array); } private: // No implementation - assignment is unsupported. void operator=(const ValueArray13& other); const T1 v1_; const T2 v2_; const T3 v3_; const T4 v4_; const T5 v5_; const T6 v6_; const T7 v7_; const T8 v8_; const T9 v9_; const T10 v10_; const T11 v11_; const T12 v12_; const T13 v13_; }; template class ValueArray14 { public: ValueArray14(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14) : v1_(v1), v2_(v2), v3_(v3), v4_(v4), v5_(v5), v6_(v6), v7_(v7), v8_(v8), v9_(v9), v10_(v10), v11_(v11), v12_(v12), v13_(v13), v14_(v14) {} template operator ParamGenerator() const { const T array[] = {static_cast(v1_), static_cast(v2_), static_cast(v3_), static_cast(v4_), static_cast(v5_), static_cast(v6_), static_cast(v7_), static_cast(v8_), static_cast(v9_), static_cast(v10_), static_cast(v11_), static_cast(v12_), static_cast(v13_), static_cast(v14_)}; return ValuesIn(array); } private: // No implementation - assignment is unsupported. void operator=(const ValueArray14& other); const T1 v1_; const T2 v2_; const T3 v3_; const T4 v4_; const T5 v5_; const T6 v6_; const T7 v7_; const T8 v8_; const T9 v9_; const T10 v10_; const T11 v11_; const T12 v12_; const T13 v13_; const T14 v14_; }; template class ValueArray15 { public: ValueArray15(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15) : v1_(v1), v2_(v2), v3_(v3), v4_(v4), v5_(v5), v6_(v6), v7_(v7), v8_(v8), v9_(v9), v10_(v10), v11_(v11), v12_(v12), v13_(v13), v14_(v14), v15_(v15) {} template operator ParamGenerator() const { const T array[] = {static_cast(v1_), static_cast(v2_), static_cast(v3_), static_cast(v4_), static_cast(v5_), static_cast(v6_), static_cast(v7_), static_cast(v8_), static_cast(v9_), static_cast(v10_), static_cast(v11_), static_cast(v12_), static_cast(v13_), static_cast(v14_), static_cast(v15_)}; return ValuesIn(array); } private: // No implementation - assignment is unsupported. void operator=(const ValueArray15& other); const T1 v1_; const T2 v2_; const T3 v3_; const T4 v4_; const T5 v5_; const T6 v6_; const T7 v7_; const T8 v8_; const T9 v9_; const T10 v10_; const T11 v11_; const T12 v12_; const T13 v13_; const T14 v14_; const T15 v15_; }; template class ValueArray16 { public: ValueArray16(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16) : v1_(v1), v2_(v2), v3_(v3), v4_(v4), v5_(v5), v6_(v6), v7_(v7), v8_(v8), v9_(v9), v10_(v10), v11_(v11), v12_(v12), v13_(v13), v14_(v14), v15_(v15), v16_(v16) {} template operator ParamGenerator() const { const T array[] = {static_cast(v1_), static_cast(v2_), static_cast(v3_), static_cast(v4_), static_cast(v5_), static_cast(v6_), static_cast(v7_), static_cast(v8_), static_cast(v9_), static_cast(v10_), static_cast(v11_), static_cast(v12_), static_cast(v13_), static_cast(v14_), static_cast(v15_), static_cast(v16_)}; return ValuesIn(array); } private: // No implementation - assignment is unsupported. void operator=(const ValueArray16& other); const T1 v1_; const T2 v2_; const T3 v3_; const T4 v4_; const T5 v5_; const T6 v6_; const T7 v7_; const T8 v8_; const T9 v9_; const T10 v10_; const T11 v11_; const T12 v12_; const T13 v13_; const T14 v14_; const T15 v15_; const T16 v16_; }; template class ValueArray17 { public: ValueArray17(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17) : v1_(v1), v2_(v2), v3_(v3), v4_(v4), v5_(v5), v6_(v6), v7_(v7), v8_(v8), v9_(v9), v10_(v10), v11_(v11), v12_(v12), v13_(v13), v14_(v14), v15_(v15), v16_(v16), v17_(v17) {} template operator ParamGenerator() const { const T array[] = {static_cast(v1_), static_cast(v2_), static_cast(v3_), static_cast(v4_), static_cast(v5_), static_cast(v6_), static_cast(v7_), static_cast(v8_), static_cast(v9_), static_cast(v10_), static_cast(v11_), static_cast(v12_), static_cast(v13_), static_cast(v14_), static_cast(v15_), static_cast(v16_), static_cast(v17_)}; return ValuesIn(array); } private: // No implementation - assignment is unsupported. void operator=(const ValueArray17& other); const T1 v1_; const T2 v2_; const T3 v3_; const T4 v4_; const T5 v5_; const T6 v6_; const T7 v7_; const T8 v8_; const T9 v9_; const T10 v10_; const T11 v11_; const T12 v12_; const T13 v13_; const T14 v14_; const T15 v15_; const T16 v16_; const T17 v17_; }; template class ValueArray18 { public: ValueArray18(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18) : v1_(v1), v2_(v2), v3_(v3), v4_(v4), v5_(v5), v6_(v6), v7_(v7), v8_(v8), v9_(v9), v10_(v10), v11_(v11), v12_(v12), v13_(v13), v14_(v14), v15_(v15), v16_(v16), v17_(v17), v18_(v18) {} template operator ParamGenerator() const { const T array[] = {static_cast(v1_), static_cast(v2_), static_cast(v3_), static_cast(v4_), static_cast(v5_), static_cast(v6_), static_cast(v7_), static_cast(v8_), static_cast(v9_), static_cast(v10_), static_cast(v11_), static_cast(v12_), static_cast(v13_), static_cast(v14_), static_cast(v15_), static_cast(v16_), static_cast(v17_), static_cast(v18_)}; return ValuesIn(array); } private: // No implementation - assignment is unsupported. void operator=(const ValueArray18& other); const T1 v1_; const T2 v2_; const T3 v3_; const T4 v4_; const T5 v5_; const T6 v6_; const T7 v7_; const T8 v8_; const T9 v9_; const T10 v10_; const T11 v11_; const T12 v12_; const T13 v13_; const T14 v14_; const T15 v15_; const T16 v16_; const T17 v17_; const T18 v18_; }; template class ValueArray19 { public: ValueArray19(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19) : v1_(v1), v2_(v2), v3_(v3), v4_(v4), v5_(v5), v6_(v6), v7_(v7), v8_(v8), v9_(v9), v10_(v10), v11_(v11), v12_(v12), v13_(v13), v14_(v14), v15_(v15), v16_(v16), v17_(v17), v18_(v18), v19_(v19) {} template operator ParamGenerator() const { const T array[] = {static_cast(v1_), static_cast(v2_), static_cast(v3_), static_cast(v4_), static_cast(v5_), static_cast(v6_), static_cast(v7_), static_cast(v8_), static_cast(v9_), static_cast(v10_), static_cast(v11_), static_cast(v12_), static_cast(v13_), static_cast(v14_), static_cast(v15_), static_cast(v16_), static_cast(v17_), static_cast(v18_), static_cast(v19_)}; return ValuesIn(array); } private: // No implementation - assignment is unsupported. void operator=(const ValueArray19& other); const T1 v1_; const T2 v2_; const T3 v3_; const T4 v4_; const T5 v5_; const T6 v6_; const T7 v7_; const T8 v8_; const T9 v9_; const T10 v10_; const T11 v11_; const T12 v12_; const T13 v13_; const T14 v14_; const T15 v15_; const T16 v16_; const T17 v17_; const T18 v18_; const T19 v19_; }; template class ValueArray20 { public: ValueArray20(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20) : v1_(v1), v2_(v2), v3_(v3), v4_(v4), v5_(v5), v6_(v6), v7_(v7), v8_(v8), v9_(v9), v10_(v10), v11_(v11), v12_(v12), v13_(v13), v14_(v14), v15_(v15), v16_(v16), v17_(v17), v18_(v18), v19_(v19), v20_(v20) {} template operator ParamGenerator() const { const T array[] = {static_cast(v1_), static_cast(v2_), static_cast(v3_), static_cast(v4_), static_cast(v5_), static_cast(v6_), static_cast(v7_), static_cast(v8_), static_cast(v9_), static_cast(v10_), static_cast(v11_), static_cast(v12_), static_cast(v13_), static_cast(v14_), static_cast(v15_), static_cast(v16_), static_cast(v17_), static_cast(v18_), static_cast(v19_), static_cast(v20_)}; return ValuesIn(array); } private: // No implementation - assignment is unsupported. void operator=(const ValueArray20& other); const T1 v1_; const T2 v2_; const T3 v3_; const T4 v4_; const T5 v5_; const T6 v6_; const T7 v7_; const T8 v8_; const T9 v9_; const T10 v10_; const T11 v11_; const T12 v12_; const T13 v13_; const T14 v14_; const T15 v15_; const T16 v16_; const T17 v17_; const T18 v18_; const T19 v19_; const T20 v20_; }; template class ValueArray21 { public: ValueArray21(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21) : v1_(v1), v2_(v2), v3_(v3), v4_(v4), v5_(v5), v6_(v6), v7_(v7), v8_(v8), v9_(v9), v10_(v10), v11_(v11), v12_(v12), v13_(v13), v14_(v14), v15_(v15), v16_(v16), v17_(v17), v18_(v18), v19_(v19), v20_(v20), v21_(v21) {} template operator ParamGenerator() const { const T array[] = {static_cast(v1_), static_cast(v2_), static_cast(v3_), static_cast(v4_), static_cast(v5_), static_cast(v6_), static_cast(v7_), static_cast(v8_), static_cast(v9_), static_cast(v10_), static_cast(v11_), static_cast(v12_), static_cast(v13_), static_cast(v14_), static_cast(v15_), static_cast(v16_), static_cast(v17_), static_cast(v18_), static_cast(v19_), static_cast(v20_), static_cast(v21_)}; return ValuesIn(array); } private: // No implementation - assignment is unsupported. void operator=(const ValueArray21& other); const T1 v1_; const T2 v2_; const T3 v3_; const T4 v4_; const T5 v5_; const T6 v6_; const T7 v7_; const T8 v8_; const T9 v9_; const T10 v10_; const T11 v11_; const T12 v12_; const T13 v13_; const T14 v14_; const T15 v15_; const T16 v16_; const T17 v17_; const T18 v18_; const T19 v19_; const T20 v20_; const T21 v21_; }; template class ValueArray22 { public: ValueArray22(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21, T22 v22) : v1_(v1), v2_(v2), v3_(v3), v4_(v4), v5_(v5), v6_(v6), v7_(v7), v8_(v8), v9_(v9), v10_(v10), v11_(v11), v12_(v12), v13_(v13), v14_(v14), v15_(v15), v16_(v16), v17_(v17), v18_(v18), v19_(v19), v20_(v20), v21_(v21), v22_(v22) {} template operator ParamGenerator() const { const T array[] = {static_cast(v1_), static_cast(v2_), static_cast(v3_), static_cast(v4_), static_cast(v5_), static_cast(v6_), static_cast(v7_), static_cast(v8_), static_cast(v9_), static_cast(v10_), static_cast(v11_), static_cast(v12_), static_cast(v13_), static_cast(v14_), static_cast(v15_), static_cast(v16_), static_cast(v17_), static_cast(v18_), static_cast(v19_), static_cast(v20_), static_cast(v21_), static_cast(v22_)}; return ValuesIn(array); } private: // No implementation - assignment is unsupported. void operator=(const ValueArray22& other); const T1 v1_; const T2 v2_; const T3 v3_; const T4 v4_; const T5 v5_; const T6 v6_; const T7 v7_; const T8 v8_; const T9 v9_; const T10 v10_; const T11 v11_; const T12 v12_; const T13 v13_; const T14 v14_; const T15 v15_; const T16 v16_; const T17 v17_; const T18 v18_; const T19 v19_; const T20 v20_; const T21 v21_; const T22 v22_; }; template class ValueArray23 { public: ValueArray23(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21, T22 v22, T23 v23) : v1_(v1), v2_(v2), v3_(v3), v4_(v4), v5_(v5), v6_(v6), v7_(v7), v8_(v8), v9_(v9), v10_(v10), v11_(v11), v12_(v12), v13_(v13), v14_(v14), v15_(v15), v16_(v16), v17_(v17), v18_(v18), v19_(v19), v20_(v20), v21_(v21), v22_(v22), v23_(v23) {} template operator ParamGenerator() const { const T array[] = {static_cast(v1_), static_cast(v2_), static_cast(v3_), static_cast(v4_), static_cast(v5_), static_cast(v6_), static_cast(v7_), static_cast(v8_), static_cast(v9_), static_cast(v10_), static_cast(v11_), static_cast(v12_), static_cast(v13_), static_cast(v14_), static_cast(v15_), static_cast(v16_), static_cast(v17_), static_cast(v18_), static_cast(v19_), static_cast(v20_), static_cast(v21_), static_cast(v22_), static_cast(v23_)}; return ValuesIn(array); } private: // No implementation - assignment is unsupported. void operator=(const ValueArray23& other); const T1 v1_; const T2 v2_; const T3 v3_; const T4 v4_; const T5 v5_; const T6 v6_; const T7 v7_; const T8 v8_; const T9 v9_; const T10 v10_; const T11 v11_; const T12 v12_; const T13 v13_; const T14 v14_; const T15 v15_; const T16 v16_; const T17 v17_; const T18 v18_; const T19 v19_; const T20 v20_; const T21 v21_; const T22 v22_; const T23 v23_; }; template class ValueArray24 { public: ValueArray24(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21, T22 v22, T23 v23, T24 v24) : v1_(v1), v2_(v2), v3_(v3), v4_(v4), v5_(v5), v6_(v6), v7_(v7), v8_(v8), v9_(v9), v10_(v10), v11_(v11), v12_(v12), v13_(v13), v14_(v14), v15_(v15), v16_(v16), v17_(v17), v18_(v18), v19_(v19), v20_(v20), v21_(v21), v22_(v22), v23_(v23), v24_(v24) {} template operator ParamGenerator() const { const T array[] = {static_cast(v1_), static_cast(v2_), static_cast(v3_), static_cast(v4_), static_cast(v5_), static_cast(v6_), static_cast(v7_), static_cast(v8_), static_cast(v9_), static_cast(v10_), static_cast(v11_), static_cast(v12_), static_cast(v13_), static_cast(v14_), static_cast(v15_), static_cast(v16_), static_cast(v17_), static_cast(v18_), static_cast(v19_), static_cast(v20_), static_cast(v21_), static_cast(v22_), static_cast(v23_), static_cast(v24_)}; return ValuesIn(array); } private: // No implementation - assignment is unsupported. void operator=(const ValueArray24& other); const T1 v1_; const T2 v2_; const T3 v3_; const T4 v4_; const T5 v5_; const T6 v6_; const T7 v7_; const T8 v8_; const T9 v9_; const T10 v10_; const T11 v11_; const T12 v12_; const T13 v13_; const T14 v14_; const T15 v15_; const T16 v16_; const T17 v17_; const T18 v18_; const T19 v19_; const T20 v20_; const T21 v21_; const T22 v22_; const T23 v23_; const T24 v24_; }; template class ValueArray25 { public: ValueArray25(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21, T22 v22, T23 v23, T24 v24, T25 v25) : v1_(v1), v2_(v2), v3_(v3), v4_(v4), v5_(v5), v6_(v6), v7_(v7), v8_(v8), v9_(v9), v10_(v10), v11_(v11), v12_(v12), v13_(v13), v14_(v14), v15_(v15), v16_(v16), v17_(v17), v18_(v18), v19_(v19), v20_(v20), v21_(v21), v22_(v22), v23_(v23), v24_(v24), v25_(v25) {} template operator ParamGenerator() const { const T array[] = {static_cast(v1_), static_cast(v2_), static_cast(v3_), static_cast(v4_), static_cast(v5_), static_cast(v6_), static_cast(v7_), static_cast(v8_), static_cast(v9_), static_cast(v10_), static_cast(v11_), static_cast(v12_), static_cast(v13_), static_cast(v14_), static_cast(v15_), static_cast(v16_), static_cast(v17_), static_cast(v18_), static_cast(v19_), static_cast(v20_), static_cast(v21_), static_cast(v22_), static_cast(v23_), static_cast(v24_), static_cast(v25_)}; return ValuesIn(array); } private: // No implementation - assignment is unsupported. void operator=(const ValueArray25& other); const T1 v1_; const T2 v2_; const T3 v3_; const T4 v4_; const T5 v5_; const T6 v6_; const T7 v7_; const T8 v8_; const T9 v9_; const T10 v10_; const T11 v11_; const T12 v12_; const T13 v13_; const T14 v14_; const T15 v15_; const T16 v16_; const T17 v17_; const T18 v18_; const T19 v19_; const T20 v20_; const T21 v21_; const T22 v22_; const T23 v23_; const T24 v24_; const T25 v25_; }; template class ValueArray26 { public: ValueArray26(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21, T22 v22, T23 v23, T24 v24, T25 v25, T26 v26) : v1_(v1), v2_(v2), v3_(v3), v4_(v4), v5_(v5), v6_(v6), v7_(v7), v8_(v8), v9_(v9), v10_(v10), v11_(v11), v12_(v12), v13_(v13), v14_(v14), v15_(v15), v16_(v16), v17_(v17), v18_(v18), v19_(v19), v20_(v20), v21_(v21), v22_(v22), v23_(v23), v24_(v24), v25_(v25), v26_(v26) {} template operator ParamGenerator() const { const T array[] = {static_cast(v1_), static_cast(v2_), static_cast(v3_), static_cast(v4_), static_cast(v5_), static_cast(v6_), static_cast(v7_), static_cast(v8_), static_cast(v9_), static_cast(v10_), static_cast(v11_), static_cast(v12_), static_cast(v13_), static_cast(v14_), static_cast(v15_), static_cast(v16_), static_cast(v17_), static_cast(v18_), static_cast(v19_), static_cast(v20_), static_cast(v21_), static_cast(v22_), static_cast(v23_), static_cast(v24_), static_cast(v25_), static_cast(v26_)}; return ValuesIn(array); } private: // No implementation - assignment is unsupported. void operator=(const ValueArray26& other); const T1 v1_; const T2 v2_; const T3 v3_; const T4 v4_; const T5 v5_; const T6 v6_; const T7 v7_; const T8 v8_; const T9 v9_; const T10 v10_; const T11 v11_; const T12 v12_; const T13 v13_; const T14 v14_; const T15 v15_; const T16 v16_; const T17 v17_; const T18 v18_; const T19 v19_; const T20 v20_; const T21 v21_; const T22 v22_; const T23 v23_; const T24 v24_; const T25 v25_; const T26 v26_; }; template class ValueArray27 { public: ValueArray27(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21, T22 v22, T23 v23, T24 v24, T25 v25, T26 v26, T27 v27) : v1_(v1), v2_(v2), v3_(v3), v4_(v4), v5_(v5), v6_(v6), v7_(v7), v8_(v8), v9_(v9), v10_(v10), v11_(v11), v12_(v12), v13_(v13), v14_(v14), v15_(v15), v16_(v16), v17_(v17), v18_(v18), v19_(v19), v20_(v20), v21_(v21), v22_(v22), v23_(v23), v24_(v24), v25_(v25), v26_(v26), v27_(v27) {} template operator ParamGenerator() const { const T array[] = {static_cast(v1_), static_cast(v2_), static_cast(v3_), static_cast(v4_), static_cast(v5_), static_cast(v6_), static_cast(v7_), static_cast(v8_), static_cast(v9_), static_cast(v10_), static_cast(v11_), static_cast(v12_), static_cast(v13_), static_cast(v14_), static_cast(v15_), static_cast(v16_), static_cast(v17_), static_cast(v18_), static_cast(v19_), static_cast(v20_), static_cast(v21_), static_cast(v22_), static_cast(v23_), static_cast(v24_), static_cast(v25_), static_cast(v26_), static_cast(v27_)}; return ValuesIn(array); } private: // No implementation - assignment is unsupported. void operator=(const ValueArray27& other); const T1 v1_; const T2 v2_; const T3 v3_; const T4 v4_; const T5 v5_; const T6 v6_; const T7 v7_; const T8 v8_; const T9 v9_; const T10 v10_; const T11 v11_; const T12 v12_; const T13 v13_; const T14 v14_; const T15 v15_; const T16 v16_; const T17 v17_; const T18 v18_; const T19 v19_; const T20 v20_; const T21 v21_; const T22 v22_; const T23 v23_; const T24 v24_; const T25 v25_; const T26 v26_; const T27 v27_; }; template class ValueArray28 { public: ValueArray28(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21, T22 v22, T23 v23, T24 v24, T25 v25, T26 v26, T27 v27, T28 v28) : v1_(v1), v2_(v2), v3_(v3), v4_(v4), v5_(v5), v6_(v6), v7_(v7), v8_(v8), v9_(v9), v10_(v10), v11_(v11), v12_(v12), v13_(v13), v14_(v14), v15_(v15), v16_(v16), v17_(v17), v18_(v18), v19_(v19), v20_(v20), v21_(v21), v22_(v22), v23_(v23), v24_(v24), v25_(v25), v26_(v26), v27_(v27), v28_(v28) {} template operator ParamGenerator() const { const T array[] = {static_cast(v1_), static_cast(v2_), static_cast(v3_), static_cast(v4_), static_cast(v5_), static_cast(v6_), static_cast(v7_), static_cast(v8_), static_cast(v9_), static_cast(v10_), static_cast(v11_), static_cast(v12_), static_cast(v13_), static_cast(v14_), static_cast(v15_), static_cast(v16_), static_cast(v17_), static_cast(v18_), static_cast(v19_), static_cast(v20_), static_cast(v21_), static_cast(v22_), static_cast(v23_), static_cast(v24_), static_cast(v25_), static_cast(v26_), static_cast(v27_), static_cast(v28_)}; return ValuesIn(array); } private: // No implementation - assignment is unsupported. void operator=(const ValueArray28& other); const T1 v1_; const T2 v2_; const T3 v3_; const T4 v4_; const T5 v5_; const T6 v6_; const T7 v7_; const T8 v8_; const T9 v9_; const T10 v10_; const T11 v11_; const T12 v12_; const T13 v13_; const T14 v14_; const T15 v15_; const T16 v16_; const T17 v17_; const T18 v18_; const T19 v19_; const T20 v20_; const T21 v21_; const T22 v22_; const T23 v23_; const T24 v24_; const T25 v25_; const T26 v26_; const T27 v27_; const T28 v28_; }; template class ValueArray29 { public: ValueArray29(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21, T22 v22, T23 v23, T24 v24, T25 v25, T26 v26, T27 v27, T28 v28, T29 v29) : v1_(v1), v2_(v2), v3_(v3), v4_(v4), v5_(v5), v6_(v6), v7_(v7), v8_(v8), v9_(v9), v10_(v10), v11_(v11), v12_(v12), v13_(v13), v14_(v14), v15_(v15), v16_(v16), v17_(v17), v18_(v18), v19_(v19), v20_(v20), v21_(v21), v22_(v22), v23_(v23), v24_(v24), v25_(v25), v26_(v26), v27_(v27), v28_(v28), v29_(v29) {} template operator ParamGenerator() const { const T array[] = {static_cast(v1_), static_cast(v2_), static_cast(v3_), static_cast(v4_), static_cast(v5_), static_cast(v6_), static_cast(v7_), static_cast(v8_), static_cast(v9_), static_cast(v10_), static_cast(v11_), static_cast(v12_), static_cast(v13_), static_cast(v14_), static_cast(v15_), static_cast(v16_), static_cast(v17_), static_cast(v18_), static_cast(v19_), static_cast(v20_), static_cast(v21_), static_cast(v22_), static_cast(v23_), static_cast(v24_), static_cast(v25_), static_cast(v26_), static_cast(v27_), static_cast(v28_), static_cast(v29_)}; return ValuesIn(array); } private: // No implementation - assignment is unsupported. void operator=(const ValueArray29& other); const T1 v1_; const T2 v2_; const T3 v3_; const T4 v4_; const T5 v5_; const T6 v6_; const T7 v7_; const T8 v8_; const T9 v9_; const T10 v10_; const T11 v11_; const T12 v12_; const T13 v13_; const T14 v14_; const T15 v15_; const T16 v16_; const T17 v17_; const T18 v18_; const T19 v19_; const T20 v20_; const T21 v21_; const T22 v22_; const T23 v23_; const T24 v24_; const T25 v25_; const T26 v26_; const T27 v27_; const T28 v28_; const T29 v29_; }; template class ValueArray30 { public: ValueArray30(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21, T22 v22, T23 v23, T24 v24, T25 v25, T26 v26, T27 v27, T28 v28, T29 v29, T30 v30) : v1_(v1), v2_(v2), v3_(v3), v4_(v4), v5_(v5), v6_(v6), v7_(v7), v8_(v8), v9_(v9), v10_(v10), v11_(v11), v12_(v12), v13_(v13), v14_(v14), v15_(v15), v16_(v16), v17_(v17), v18_(v18), v19_(v19), v20_(v20), v21_(v21), v22_(v22), v23_(v23), v24_(v24), v25_(v25), v26_(v26), v27_(v27), v28_(v28), v29_(v29), v30_(v30) {} template operator ParamGenerator() const { const T array[] = {static_cast(v1_), static_cast(v2_), static_cast(v3_), static_cast(v4_), static_cast(v5_), static_cast(v6_), static_cast(v7_), static_cast(v8_), static_cast(v9_), static_cast(v10_), static_cast(v11_), static_cast(v12_), static_cast(v13_), static_cast(v14_), static_cast(v15_), static_cast(v16_), static_cast(v17_), static_cast(v18_), static_cast(v19_), static_cast(v20_), static_cast(v21_), static_cast(v22_), static_cast(v23_), static_cast(v24_), static_cast(v25_), static_cast(v26_), static_cast(v27_), static_cast(v28_), static_cast(v29_), static_cast(v30_)}; return ValuesIn(array); } private: // No implementation - assignment is unsupported. void operator=(const ValueArray30& other); const T1 v1_; const T2 v2_; const T3 v3_; const T4 v4_; const T5 v5_; const T6 v6_; const T7 v7_; const T8 v8_; const T9 v9_; const T10 v10_; const T11 v11_; const T12 v12_; const T13 v13_; const T14 v14_; const T15 v15_; const T16 v16_; const T17 v17_; const T18 v18_; const T19 v19_; const T20 v20_; const T21 v21_; const T22 v22_; const T23 v23_; const T24 v24_; const T25 v25_; const T26 v26_; const T27 v27_; const T28 v28_; const T29 v29_; const T30 v30_; }; template class ValueArray31 { public: ValueArray31(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21, T22 v22, T23 v23, T24 v24, T25 v25, T26 v26, T27 v27, T28 v28, T29 v29, T30 v30, T31 v31) : v1_(v1), v2_(v2), v3_(v3), v4_(v4), v5_(v5), v6_(v6), v7_(v7), v8_(v8), v9_(v9), v10_(v10), v11_(v11), v12_(v12), v13_(v13), v14_(v14), v15_(v15), v16_(v16), v17_(v17), v18_(v18), v19_(v19), v20_(v20), v21_(v21), v22_(v22), v23_(v23), v24_(v24), v25_(v25), v26_(v26), v27_(v27), v28_(v28), v29_(v29), v30_(v30), v31_(v31) {} template operator ParamGenerator() const { const T array[] = {static_cast(v1_), static_cast(v2_), static_cast(v3_), static_cast(v4_), static_cast(v5_), static_cast(v6_), static_cast(v7_), static_cast(v8_), static_cast(v9_), static_cast(v10_), static_cast(v11_), static_cast(v12_), static_cast(v13_), static_cast(v14_), static_cast(v15_), static_cast(v16_), static_cast(v17_), static_cast(v18_), static_cast(v19_), static_cast(v20_), static_cast(v21_), static_cast(v22_), static_cast(v23_), static_cast(v24_), static_cast(v25_), static_cast(v26_), static_cast(v27_), static_cast(v28_), static_cast(v29_), static_cast(v30_), static_cast(v31_)}; return ValuesIn(array); } private: // No implementation - assignment is unsupported. void operator=(const ValueArray31& other); const T1 v1_; const T2 v2_; const T3 v3_; const T4 v4_; const T5 v5_; const T6 v6_; const T7 v7_; const T8 v8_; const T9 v9_; const T10 v10_; const T11 v11_; const T12 v12_; const T13 v13_; const T14 v14_; const T15 v15_; const T16 v16_; const T17 v17_; const T18 v18_; const T19 v19_; const T20 v20_; const T21 v21_; const T22 v22_; const T23 v23_; const T24 v24_; const T25 v25_; const T26 v26_; const T27 v27_; const T28 v28_; const T29 v29_; const T30 v30_; const T31 v31_; }; template class ValueArray32 { public: ValueArray32(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21, T22 v22, T23 v23, T24 v24, T25 v25, T26 v26, T27 v27, T28 v28, T29 v29, T30 v30, T31 v31, T32 v32) : v1_(v1), v2_(v2), v3_(v3), v4_(v4), v5_(v5), v6_(v6), v7_(v7), v8_(v8), v9_(v9), v10_(v10), v11_(v11), v12_(v12), v13_(v13), v14_(v14), v15_(v15), v16_(v16), v17_(v17), v18_(v18), v19_(v19), v20_(v20), v21_(v21), v22_(v22), v23_(v23), v24_(v24), v25_(v25), v26_(v26), v27_(v27), v28_(v28), v29_(v29), v30_(v30), v31_(v31), v32_(v32) {} template operator ParamGenerator() const { const T array[] = {static_cast(v1_), static_cast(v2_), static_cast(v3_), static_cast(v4_), static_cast(v5_), static_cast(v6_), static_cast(v7_), static_cast(v8_), static_cast(v9_), static_cast(v10_), static_cast(v11_), static_cast(v12_), static_cast(v13_), static_cast(v14_), static_cast(v15_), static_cast(v16_), static_cast(v17_), static_cast(v18_), static_cast(v19_), static_cast(v20_), static_cast(v21_), static_cast(v22_), static_cast(v23_), static_cast(v24_), static_cast(v25_), static_cast(v26_), static_cast(v27_), static_cast(v28_), static_cast(v29_), static_cast(v30_), static_cast(v31_), static_cast(v32_)}; return ValuesIn(array); } private: // No implementation - assignment is unsupported. void operator=(const ValueArray32& other); const T1 v1_; const T2 v2_; const T3 v3_; const T4 v4_; const T5 v5_; const T6 v6_; const T7 v7_; const T8 v8_; const T9 v9_; const T10 v10_; const T11 v11_; const T12 v12_; const T13 v13_; const T14 v14_; const T15 v15_; const T16 v16_; const T17 v17_; const T18 v18_; const T19 v19_; const T20 v20_; const T21 v21_; const T22 v22_; const T23 v23_; const T24 v24_; const T25 v25_; const T26 v26_; const T27 v27_; const T28 v28_; const T29 v29_; const T30 v30_; const T31 v31_; const T32 v32_; }; template class ValueArray33 { public: ValueArray33(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21, T22 v22, T23 v23, T24 v24, T25 v25, T26 v26, T27 v27, T28 v28, T29 v29, T30 v30, T31 v31, T32 v32, T33 v33) : v1_(v1), v2_(v2), v3_(v3), v4_(v4), v5_(v5), v6_(v6), v7_(v7), v8_(v8), v9_(v9), v10_(v10), v11_(v11), v12_(v12), v13_(v13), v14_(v14), v15_(v15), v16_(v16), v17_(v17), v18_(v18), v19_(v19), v20_(v20), v21_(v21), v22_(v22), v23_(v23), v24_(v24), v25_(v25), v26_(v26), v27_(v27), v28_(v28), v29_(v29), v30_(v30), v31_(v31), v32_(v32), v33_(v33) {} template operator ParamGenerator() const { const T array[] = {static_cast(v1_), static_cast(v2_), static_cast(v3_), static_cast(v4_), static_cast(v5_), static_cast(v6_), static_cast(v7_), static_cast(v8_), static_cast(v9_), static_cast(v10_), static_cast(v11_), static_cast(v12_), static_cast(v13_), static_cast(v14_), static_cast(v15_), static_cast(v16_), static_cast(v17_), static_cast(v18_), static_cast(v19_), static_cast(v20_), static_cast(v21_), static_cast(v22_), static_cast(v23_), static_cast(v24_), static_cast(v25_), static_cast(v26_), static_cast(v27_), static_cast(v28_), static_cast(v29_), static_cast(v30_), static_cast(v31_), static_cast(v32_), static_cast(v33_)}; return ValuesIn(array); } private: // No implementation - assignment is unsupported. void operator=(const ValueArray33& other); const T1 v1_; const T2 v2_; const T3 v3_; const T4 v4_; const T5 v5_; const T6 v6_; const T7 v7_; const T8 v8_; const T9 v9_; const T10 v10_; const T11 v11_; const T12 v12_; const T13 v13_; const T14 v14_; const T15 v15_; const T16 v16_; const T17 v17_; const T18 v18_; const T19 v19_; const T20 v20_; const T21 v21_; const T22 v22_; const T23 v23_; const T24 v24_; const T25 v25_; const T26 v26_; const T27 v27_; const T28 v28_; const T29 v29_; const T30 v30_; const T31 v31_; const T32 v32_; const T33 v33_; }; template class ValueArray34 { public: ValueArray34(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21, T22 v22, T23 v23, T24 v24, T25 v25, T26 v26, T27 v27, T28 v28, T29 v29, T30 v30, T31 v31, T32 v32, T33 v33, T34 v34) : v1_(v1), v2_(v2), v3_(v3), v4_(v4), v5_(v5), v6_(v6), v7_(v7), v8_(v8), v9_(v9), v10_(v10), v11_(v11), v12_(v12), v13_(v13), v14_(v14), v15_(v15), v16_(v16), v17_(v17), v18_(v18), v19_(v19), v20_(v20), v21_(v21), v22_(v22), v23_(v23), v24_(v24), v25_(v25), v26_(v26), v27_(v27), v28_(v28), v29_(v29), v30_(v30), v31_(v31), v32_(v32), v33_(v33), v34_(v34) {} template operator ParamGenerator() const { const T array[] = {static_cast(v1_), static_cast(v2_), static_cast(v3_), static_cast(v4_), static_cast(v5_), static_cast(v6_), static_cast(v7_), static_cast(v8_), static_cast(v9_), static_cast(v10_), static_cast(v11_), static_cast(v12_), static_cast(v13_), static_cast(v14_), static_cast(v15_), static_cast(v16_), static_cast(v17_), static_cast(v18_), static_cast(v19_), static_cast(v20_), static_cast(v21_), static_cast(v22_), static_cast(v23_), static_cast(v24_), static_cast(v25_), static_cast(v26_), static_cast(v27_), static_cast(v28_), static_cast(v29_), static_cast(v30_), static_cast(v31_), static_cast(v32_), static_cast(v33_), static_cast(v34_)}; return ValuesIn(array); } private: // No implementation - assignment is unsupported. void operator=(const ValueArray34& other); const T1 v1_; const T2 v2_; const T3 v3_; const T4 v4_; const T5 v5_; const T6 v6_; const T7 v7_; const T8 v8_; const T9 v9_; const T10 v10_; const T11 v11_; const T12 v12_; const T13 v13_; const T14 v14_; const T15 v15_; const T16 v16_; const T17 v17_; const T18 v18_; const T19 v19_; const T20 v20_; const T21 v21_; const T22 v22_; const T23 v23_; const T24 v24_; const T25 v25_; const T26 v26_; const T27 v27_; const T28 v28_; const T29 v29_; const T30 v30_; const T31 v31_; const T32 v32_; const T33 v33_; const T34 v34_; }; template class ValueArray35 { public: ValueArray35(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21, T22 v22, T23 v23, T24 v24, T25 v25, T26 v26, T27 v27, T28 v28, T29 v29, T30 v30, T31 v31, T32 v32, T33 v33, T34 v34, T35 v35) : v1_(v1), v2_(v2), v3_(v3), v4_(v4), v5_(v5), v6_(v6), v7_(v7), v8_(v8), v9_(v9), v10_(v10), v11_(v11), v12_(v12), v13_(v13), v14_(v14), v15_(v15), v16_(v16), v17_(v17), v18_(v18), v19_(v19), v20_(v20), v21_(v21), v22_(v22), v23_(v23), v24_(v24), v25_(v25), v26_(v26), v27_(v27), v28_(v28), v29_(v29), v30_(v30), v31_(v31), v32_(v32), v33_(v33), v34_(v34), v35_(v35) {} template operator ParamGenerator() const { const T array[] = {static_cast(v1_), static_cast(v2_), static_cast(v3_), static_cast(v4_), static_cast(v5_), static_cast(v6_), static_cast(v7_), static_cast(v8_), static_cast(v9_), static_cast(v10_), static_cast(v11_), static_cast(v12_), static_cast(v13_), static_cast(v14_), static_cast(v15_), static_cast(v16_), static_cast(v17_), static_cast(v18_), static_cast(v19_), static_cast(v20_), static_cast(v21_), static_cast(v22_), static_cast(v23_), static_cast(v24_), static_cast(v25_), static_cast(v26_), static_cast(v27_), static_cast(v28_), static_cast(v29_), static_cast(v30_), static_cast(v31_), static_cast(v32_), static_cast(v33_), static_cast(v34_), static_cast(v35_)}; return ValuesIn(array); } private: // No implementation - assignment is unsupported. void operator=(const ValueArray35& other); const T1 v1_; const T2 v2_; const T3 v3_; const T4 v4_; const T5 v5_; const T6 v6_; const T7 v7_; const T8 v8_; const T9 v9_; const T10 v10_; const T11 v11_; const T12 v12_; const T13 v13_; const T14 v14_; const T15 v15_; const T16 v16_; const T17 v17_; const T18 v18_; const T19 v19_; const T20 v20_; const T21 v21_; const T22 v22_; const T23 v23_; const T24 v24_; const T25 v25_; const T26 v26_; const T27 v27_; const T28 v28_; const T29 v29_; const T30 v30_; const T31 v31_; const T32 v32_; const T33 v33_; const T34 v34_; const T35 v35_; }; template class ValueArray36 { public: ValueArray36(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21, T22 v22, T23 v23, T24 v24, T25 v25, T26 v26, T27 v27, T28 v28, T29 v29, T30 v30, T31 v31, T32 v32, T33 v33, T34 v34, T35 v35, T36 v36) : v1_(v1), v2_(v2), v3_(v3), v4_(v4), v5_(v5), v6_(v6), v7_(v7), v8_(v8), v9_(v9), v10_(v10), v11_(v11), v12_(v12), v13_(v13), v14_(v14), v15_(v15), v16_(v16), v17_(v17), v18_(v18), v19_(v19), v20_(v20), v21_(v21), v22_(v22), v23_(v23), v24_(v24), v25_(v25), v26_(v26), v27_(v27), v28_(v28), v29_(v29), v30_(v30), v31_(v31), v32_(v32), v33_(v33), v34_(v34), v35_(v35), v36_(v36) {} template operator ParamGenerator() const { const T array[] = {static_cast(v1_), static_cast(v2_), static_cast(v3_), static_cast(v4_), static_cast(v5_), static_cast(v6_), static_cast(v7_), static_cast(v8_), static_cast(v9_), static_cast(v10_), static_cast(v11_), static_cast(v12_), static_cast(v13_), static_cast(v14_), static_cast(v15_), static_cast(v16_), static_cast(v17_), static_cast(v18_), static_cast(v19_), static_cast(v20_), static_cast(v21_), static_cast(v22_), static_cast(v23_), static_cast(v24_), static_cast(v25_), static_cast(v26_), static_cast(v27_), static_cast(v28_), static_cast(v29_), static_cast(v30_), static_cast(v31_), static_cast(v32_), static_cast(v33_), static_cast(v34_), static_cast(v35_), static_cast(v36_)}; return ValuesIn(array); } private: // No implementation - assignment is unsupported. void operator=(const ValueArray36& other); const T1 v1_; const T2 v2_; const T3 v3_; const T4 v4_; const T5 v5_; const T6 v6_; const T7 v7_; const T8 v8_; const T9 v9_; const T10 v10_; const T11 v11_; const T12 v12_; const T13 v13_; const T14 v14_; const T15 v15_; const T16 v16_; const T17 v17_; const T18 v18_; const T19 v19_; const T20 v20_; const T21 v21_; const T22 v22_; const T23 v23_; const T24 v24_; const T25 v25_; const T26 v26_; const T27 v27_; const T28 v28_; const T29 v29_; const T30 v30_; const T31 v31_; const T32 v32_; const T33 v33_; const T34 v34_; const T35 v35_; const T36 v36_; }; template class ValueArray37 { public: ValueArray37(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21, T22 v22, T23 v23, T24 v24, T25 v25, T26 v26, T27 v27, T28 v28, T29 v29, T30 v30, T31 v31, T32 v32, T33 v33, T34 v34, T35 v35, T36 v36, T37 v37) : v1_(v1), v2_(v2), v3_(v3), v4_(v4), v5_(v5), v6_(v6), v7_(v7), v8_(v8), v9_(v9), v10_(v10), v11_(v11), v12_(v12), v13_(v13), v14_(v14), v15_(v15), v16_(v16), v17_(v17), v18_(v18), v19_(v19), v20_(v20), v21_(v21), v22_(v22), v23_(v23), v24_(v24), v25_(v25), v26_(v26), v27_(v27), v28_(v28), v29_(v29), v30_(v30), v31_(v31), v32_(v32), v33_(v33), v34_(v34), v35_(v35), v36_(v36), v37_(v37) {} template operator ParamGenerator() const { const T array[] = {static_cast(v1_), static_cast(v2_), static_cast(v3_), static_cast(v4_), static_cast(v5_), static_cast(v6_), static_cast(v7_), static_cast(v8_), static_cast(v9_), static_cast(v10_), static_cast(v11_), static_cast(v12_), static_cast(v13_), static_cast(v14_), static_cast(v15_), static_cast(v16_), static_cast(v17_), static_cast(v18_), static_cast(v19_), static_cast(v20_), static_cast(v21_), static_cast(v22_), static_cast(v23_), static_cast(v24_), static_cast(v25_), static_cast(v26_), static_cast(v27_), static_cast(v28_), static_cast(v29_), static_cast(v30_), static_cast(v31_), static_cast(v32_), static_cast(v33_), static_cast(v34_), static_cast(v35_), static_cast(v36_), static_cast(v37_)}; return ValuesIn(array); } private: // No implementation - assignment is unsupported. void operator=(const ValueArray37& other); const T1 v1_; const T2 v2_; const T3 v3_; const T4 v4_; const T5 v5_; const T6 v6_; const T7 v7_; const T8 v8_; const T9 v9_; const T10 v10_; const T11 v11_; const T12 v12_; const T13 v13_; const T14 v14_; const T15 v15_; const T16 v16_; const T17 v17_; const T18 v18_; const T19 v19_; const T20 v20_; const T21 v21_; const T22 v22_; const T23 v23_; const T24 v24_; const T25 v25_; const T26 v26_; const T27 v27_; const T28 v28_; const T29 v29_; const T30 v30_; const T31 v31_; const T32 v32_; const T33 v33_; const T34 v34_; const T35 v35_; const T36 v36_; const T37 v37_; }; template class ValueArray38 { public: ValueArray38(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21, T22 v22, T23 v23, T24 v24, T25 v25, T26 v26, T27 v27, T28 v28, T29 v29, T30 v30, T31 v31, T32 v32, T33 v33, T34 v34, T35 v35, T36 v36, T37 v37, T38 v38) : v1_(v1), v2_(v2), v3_(v3), v4_(v4), v5_(v5), v6_(v6), v7_(v7), v8_(v8), v9_(v9), v10_(v10), v11_(v11), v12_(v12), v13_(v13), v14_(v14), v15_(v15), v16_(v16), v17_(v17), v18_(v18), v19_(v19), v20_(v20), v21_(v21), v22_(v22), v23_(v23), v24_(v24), v25_(v25), v26_(v26), v27_(v27), v28_(v28), v29_(v29), v30_(v30), v31_(v31), v32_(v32), v33_(v33), v34_(v34), v35_(v35), v36_(v36), v37_(v37), v38_(v38) {} template operator ParamGenerator() const { const T array[] = {static_cast(v1_), static_cast(v2_), static_cast(v3_), static_cast(v4_), static_cast(v5_), static_cast(v6_), static_cast(v7_), static_cast(v8_), static_cast(v9_), static_cast(v10_), static_cast(v11_), static_cast(v12_), static_cast(v13_), static_cast(v14_), static_cast(v15_), static_cast(v16_), static_cast(v17_), static_cast(v18_), static_cast(v19_), static_cast(v20_), static_cast(v21_), static_cast(v22_), static_cast(v23_), static_cast(v24_), static_cast(v25_), static_cast(v26_), static_cast(v27_), static_cast(v28_), static_cast(v29_), static_cast(v30_), static_cast(v31_), static_cast(v32_), static_cast(v33_), static_cast(v34_), static_cast(v35_), static_cast(v36_), static_cast(v37_), static_cast(v38_)}; return ValuesIn(array); } private: // No implementation - assignment is unsupported. void operator=(const ValueArray38& other); const T1 v1_; const T2 v2_; const T3 v3_; const T4 v4_; const T5 v5_; const T6 v6_; const T7 v7_; const T8 v8_; const T9 v9_; const T10 v10_; const T11 v11_; const T12 v12_; const T13 v13_; const T14 v14_; const T15 v15_; const T16 v16_; const T17 v17_; const T18 v18_; const T19 v19_; const T20 v20_; const T21 v21_; const T22 v22_; const T23 v23_; const T24 v24_; const T25 v25_; const T26 v26_; const T27 v27_; const T28 v28_; const T29 v29_; const T30 v30_; const T31 v31_; const T32 v32_; const T33 v33_; const T34 v34_; const T35 v35_; const T36 v36_; const T37 v37_; const T38 v38_; }; template class ValueArray39 { public: ValueArray39(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21, T22 v22, T23 v23, T24 v24, T25 v25, T26 v26, T27 v27, T28 v28, T29 v29, T30 v30, T31 v31, T32 v32, T33 v33, T34 v34, T35 v35, T36 v36, T37 v37, T38 v38, T39 v39) : v1_(v1), v2_(v2), v3_(v3), v4_(v4), v5_(v5), v6_(v6), v7_(v7), v8_(v8), v9_(v9), v10_(v10), v11_(v11), v12_(v12), v13_(v13), v14_(v14), v15_(v15), v16_(v16), v17_(v17), v18_(v18), v19_(v19), v20_(v20), v21_(v21), v22_(v22), v23_(v23), v24_(v24), v25_(v25), v26_(v26), v27_(v27), v28_(v28), v29_(v29), v30_(v30), v31_(v31), v32_(v32), v33_(v33), v34_(v34), v35_(v35), v36_(v36), v37_(v37), v38_(v38), v39_(v39) {} template operator ParamGenerator() const { const T array[] = {static_cast(v1_), static_cast(v2_), static_cast(v3_), static_cast(v4_), static_cast(v5_), static_cast(v6_), static_cast(v7_), static_cast(v8_), static_cast(v9_), static_cast(v10_), static_cast(v11_), static_cast(v12_), static_cast(v13_), static_cast(v14_), static_cast(v15_), static_cast(v16_), static_cast(v17_), static_cast(v18_), static_cast(v19_), static_cast(v20_), static_cast(v21_), static_cast(v22_), static_cast(v23_), static_cast(v24_), static_cast(v25_), static_cast(v26_), static_cast(v27_), static_cast(v28_), static_cast(v29_), static_cast(v30_), static_cast(v31_), static_cast(v32_), static_cast(v33_), static_cast(v34_), static_cast(v35_), static_cast(v36_), static_cast(v37_), static_cast(v38_), static_cast(v39_)}; return ValuesIn(array); } private: // No implementation - assignment is unsupported. void operator=(const ValueArray39& other); const T1 v1_; const T2 v2_; const T3 v3_; const T4 v4_; const T5 v5_; const T6 v6_; const T7 v7_; const T8 v8_; const T9 v9_; const T10 v10_; const T11 v11_; const T12 v12_; const T13 v13_; const T14 v14_; const T15 v15_; const T16 v16_; const T17 v17_; const T18 v18_; const T19 v19_; const T20 v20_; const T21 v21_; const T22 v22_; const T23 v23_; const T24 v24_; const T25 v25_; const T26 v26_; const T27 v27_; const T28 v28_; const T29 v29_; const T30 v30_; const T31 v31_; const T32 v32_; const T33 v33_; const T34 v34_; const T35 v35_; const T36 v36_; const T37 v37_; const T38 v38_; const T39 v39_; }; template class ValueArray40 { public: ValueArray40(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21, T22 v22, T23 v23, T24 v24, T25 v25, T26 v26, T27 v27, T28 v28, T29 v29, T30 v30, T31 v31, T32 v32, T33 v33, T34 v34, T35 v35, T36 v36, T37 v37, T38 v38, T39 v39, T40 v40) : v1_(v1), v2_(v2), v3_(v3), v4_(v4), v5_(v5), v6_(v6), v7_(v7), v8_(v8), v9_(v9), v10_(v10), v11_(v11), v12_(v12), v13_(v13), v14_(v14), v15_(v15), v16_(v16), v17_(v17), v18_(v18), v19_(v19), v20_(v20), v21_(v21), v22_(v22), v23_(v23), v24_(v24), v25_(v25), v26_(v26), v27_(v27), v28_(v28), v29_(v29), v30_(v30), v31_(v31), v32_(v32), v33_(v33), v34_(v34), v35_(v35), v36_(v36), v37_(v37), v38_(v38), v39_(v39), v40_(v40) {} template operator ParamGenerator() const { const T array[] = {static_cast(v1_), static_cast(v2_), static_cast(v3_), static_cast(v4_), static_cast(v5_), static_cast(v6_), static_cast(v7_), static_cast(v8_), static_cast(v9_), static_cast(v10_), static_cast(v11_), static_cast(v12_), static_cast(v13_), static_cast(v14_), static_cast(v15_), static_cast(v16_), static_cast(v17_), static_cast(v18_), static_cast(v19_), static_cast(v20_), static_cast(v21_), static_cast(v22_), static_cast(v23_), static_cast(v24_), static_cast(v25_), static_cast(v26_), static_cast(v27_), static_cast(v28_), static_cast(v29_), static_cast(v30_), static_cast(v31_), static_cast(v32_), static_cast(v33_), static_cast(v34_), static_cast(v35_), static_cast(v36_), static_cast(v37_), static_cast(v38_), static_cast(v39_), static_cast(v40_)}; return ValuesIn(array); } private: // No implementation - assignment is unsupported. void operator=(const ValueArray40& other); const T1 v1_; const T2 v2_; const T3 v3_; const T4 v4_; const T5 v5_; const T6 v6_; const T7 v7_; const T8 v8_; const T9 v9_; const T10 v10_; const T11 v11_; const T12 v12_; const T13 v13_; const T14 v14_; const T15 v15_; const T16 v16_; const T17 v17_; const T18 v18_; const T19 v19_; const T20 v20_; const T21 v21_; const T22 v22_; const T23 v23_; const T24 v24_; const T25 v25_; const T26 v26_; const T27 v27_; const T28 v28_; const T29 v29_; const T30 v30_; const T31 v31_; const T32 v32_; const T33 v33_; const T34 v34_; const T35 v35_; const T36 v36_; const T37 v37_; const T38 v38_; const T39 v39_; const T40 v40_; }; template class ValueArray41 { public: ValueArray41(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21, T22 v22, T23 v23, T24 v24, T25 v25, T26 v26, T27 v27, T28 v28, T29 v29, T30 v30, T31 v31, T32 v32, T33 v33, T34 v34, T35 v35, T36 v36, T37 v37, T38 v38, T39 v39, T40 v40, T41 v41) : v1_(v1), v2_(v2), v3_(v3), v4_(v4), v5_(v5), v6_(v6), v7_(v7), v8_(v8), v9_(v9), v10_(v10), v11_(v11), v12_(v12), v13_(v13), v14_(v14), v15_(v15), v16_(v16), v17_(v17), v18_(v18), v19_(v19), v20_(v20), v21_(v21), v22_(v22), v23_(v23), v24_(v24), v25_(v25), v26_(v26), v27_(v27), v28_(v28), v29_(v29), v30_(v30), v31_(v31), v32_(v32), v33_(v33), v34_(v34), v35_(v35), v36_(v36), v37_(v37), v38_(v38), v39_(v39), v40_(v40), v41_(v41) {} template operator ParamGenerator() const { const T array[] = {static_cast(v1_), static_cast(v2_), static_cast(v3_), static_cast(v4_), static_cast(v5_), static_cast(v6_), static_cast(v7_), static_cast(v8_), static_cast(v9_), static_cast(v10_), static_cast(v11_), static_cast(v12_), static_cast(v13_), static_cast(v14_), static_cast(v15_), static_cast(v16_), static_cast(v17_), static_cast(v18_), static_cast(v19_), static_cast(v20_), static_cast(v21_), static_cast(v22_), static_cast(v23_), static_cast(v24_), static_cast(v25_), static_cast(v26_), static_cast(v27_), static_cast(v28_), static_cast(v29_), static_cast(v30_), static_cast(v31_), static_cast(v32_), static_cast(v33_), static_cast(v34_), static_cast(v35_), static_cast(v36_), static_cast(v37_), static_cast(v38_), static_cast(v39_), static_cast(v40_), static_cast(v41_)}; return ValuesIn(array); } private: // No implementation - assignment is unsupported. void operator=(const ValueArray41& other); const T1 v1_; const T2 v2_; const T3 v3_; const T4 v4_; const T5 v5_; const T6 v6_; const T7 v7_; const T8 v8_; const T9 v9_; const T10 v10_; const T11 v11_; const T12 v12_; const T13 v13_; const T14 v14_; const T15 v15_; const T16 v16_; const T17 v17_; const T18 v18_; const T19 v19_; const T20 v20_; const T21 v21_; const T22 v22_; const T23 v23_; const T24 v24_; const T25 v25_; const T26 v26_; const T27 v27_; const T28 v28_; const T29 v29_; const T30 v30_; const T31 v31_; const T32 v32_; const T33 v33_; const T34 v34_; const T35 v35_; const T36 v36_; const T37 v37_; const T38 v38_; const T39 v39_; const T40 v40_; const T41 v41_; }; template class ValueArray42 { public: ValueArray42(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21, T22 v22, T23 v23, T24 v24, T25 v25, T26 v26, T27 v27, T28 v28, T29 v29, T30 v30, T31 v31, T32 v32, T33 v33, T34 v34, T35 v35, T36 v36, T37 v37, T38 v38, T39 v39, T40 v40, T41 v41, T42 v42) : v1_(v1), v2_(v2), v3_(v3), v4_(v4), v5_(v5), v6_(v6), v7_(v7), v8_(v8), v9_(v9), v10_(v10), v11_(v11), v12_(v12), v13_(v13), v14_(v14), v15_(v15), v16_(v16), v17_(v17), v18_(v18), v19_(v19), v20_(v20), v21_(v21), v22_(v22), v23_(v23), v24_(v24), v25_(v25), v26_(v26), v27_(v27), v28_(v28), v29_(v29), v30_(v30), v31_(v31), v32_(v32), v33_(v33), v34_(v34), v35_(v35), v36_(v36), v37_(v37), v38_(v38), v39_(v39), v40_(v40), v41_(v41), v42_(v42) {} template operator ParamGenerator() const { const T array[] = {static_cast(v1_), static_cast(v2_), static_cast(v3_), static_cast(v4_), static_cast(v5_), static_cast(v6_), static_cast(v7_), static_cast(v8_), static_cast(v9_), static_cast(v10_), static_cast(v11_), static_cast(v12_), static_cast(v13_), static_cast(v14_), static_cast(v15_), static_cast(v16_), static_cast(v17_), static_cast(v18_), static_cast(v19_), static_cast(v20_), static_cast(v21_), static_cast(v22_), static_cast(v23_), static_cast(v24_), static_cast(v25_), static_cast(v26_), static_cast(v27_), static_cast(v28_), static_cast(v29_), static_cast(v30_), static_cast(v31_), static_cast(v32_), static_cast(v33_), static_cast(v34_), static_cast(v35_), static_cast(v36_), static_cast(v37_), static_cast(v38_), static_cast(v39_), static_cast(v40_), static_cast(v41_), static_cast(v42_)}; return ValuesIn(array); } private: // No implementation - assignment is unsupported. void operator=(const ValueArray42& other); const T1 v1_; const T2 v2_; const T3 v3_; const T4 v4_; const T5 v5_; const T6 v6_; const T7 v7_; const T8 v8_; const T9 v9_; const T10 v10_; const T11 v11_; const T12 v12_; const T13 v13_; const T14 v14_; const T15 v15_; const T16 v16_; const T17 v17_; const T18 v18_; const T19 v19_; const T20 v20_; const T21 v21_; const T22 v22_; const T23 v23_; const T24 v24_; const T25 v25_; const T26 v26_; const T27 v27_; const T28 v28_; const T29 v29_; const T30 v30_; const T31 v31_; const T32 v32_; const T33 v33_; const T34 v34_; const T35 v35_; const T36 v36_; const T37 v37_; const T38 v38_; const T39 v39_; const T40 v40_; const T41 v41_; const T42 v42_; }; template class ValueArray43 { public: ValueArray43(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21, T22 v22, T23 v23, T24 v24, T25 v25, T26 v26, T27 v27, T28 v28, T29 v29, T30 v30, T31 v31, T32 v32, T33 v33, T34 v34, T35 v35, T36 v36, T37 v37, T38 v38, T39 v39, T40 v40, T41 v41, T42 v42, T43 v43) : v1_(v1), v2_(v2), v3_(v3), v4_(v4), v5_(v5), v6_(v6), v7_(v7), v8_(v8), v9_(v9), v10_(v10), v11_(v11), v12_(v12), v13_(v13), v14_(v14), v15_(v15), v16_(v16), v17_(v17), v18_(v18), v19_(v19), v20_(v20), v21_(v21), v22_(v22), v23_(v23), v24_(v24), v25_(v25), v26_(v26), v27_(v27), v28_(v28), v29_(v29), v30_(v30), v31_(v31), v32_(v32), v33_(v33), v34_(v34), v35_(v35), v36_(v36), v37_(v37), v38_(v38), v39_(v39), v40_(v40), v41_(v41), v42_(v42), v43_(v43) {} template operator ParamGenerator() const { const T array[] = {static_cast(v1_), static_cast(v2_), static_cast(v3_), static_cast(v4_), static_cast(v5_), static_cast(v6_), static_cast(v7_), static_cast(v8_), static_cast(v9_), static_cast(v10_), static_cast(v11_), static_cast(v12_), static_cast(v13_), static_cast(v14_), static_cast(v15_), static_cast(v16_), static_cast(v17_), static_cast(v18_), static_cast(v19_), static_cast(v20_), static_cast(v21_), static_cast(v22_), static_cast(v23_), static_cast(v24_), static_cast(v25_), static_cast(v26_), static_cast(v27_), static_cast(v28_), static_cast(v29_), static_cast(v30_), static_cast(v31_), static_cast(v32_), static_cast(v33_), static_cast(v34_), static_cast(v35_), static_cast(v36_), static_cast(v37_), static_cast(v38_), static_cast(v39_), static_cast(v40_), static_cast(v41_), static_cast(v42_), static_cast(v43_)}; return ValuesIn(array); } private: // No implementation - assignment is unsupported. void operator=(const ValueArray43& other); const T1 v1_; const T2 v2_; const T3 v3_; const T4 v4_; const T5 v5_; const T6 v6_; const T7 v7_; const T8 v8_; const T9 v9_; const T10 v10_; const T11 v11_; const T12 v12_; const T13 v13_; const T14 v14_; const T15 v15_; const T16 v16_; const T17 v17_; const T18 v18_; const T19 v19_; const T20 v20_; const T21 v21_; const T22 v22_; const T23 v23_; const T24 v24_; const T25 v25_; const T26 v26_; const T27 v27_; const T28 v28_; const T29 v29_; const T30 v30_; const T31 v31_; const T32 v32_; const T33 v33_; const T34 v34_; const T35 v35_; const T36 v36_; const T37 v37_; const T38 v38_; const T39 v39_; const T40 v40_; const T41 v41_; const T42 v42_; const T43 v43_; }; template class ValueArray44 { public: ValueArray44(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21, T22 v22, T23 v23, T24 v24, T25 v25, T26 v26, T27 v27, T28 v28, T29 v29, T30 v30, T31 v31, T32 v32, T33 v33, T34 v34, T35 v35, T36 v36, T37 v37, T38 v38, T39 v39, T40 v40, T41 v41, T42 v42, T43 v43, T44 v44) : v1_(v1), v2_(v2), v3_(v3), v4_(v4), v5_(v5), v6_(v6), v7_(v7), v8_(v8), v9_(v9), v10_(v10), v11_(v11), v12_(v12), v13_(v13), v14_(v14), v15_(v15), v16_(v16), v17_(v17), v18_(v18), v19_(v19), v20_(v20), v21_(v21), v22_(v22), v23_(v23), v24_(v24), v25_(v25), v26_(v26), v27_(v27), v28_(v28), v29_(v29), v30_(v30), v31_(v31), v32_(v32), v33_(v33), v34_(v34), v35_(v35), v36_(v36), v37_(v37), v38_(v38), v39_(v39), v40_(v40), v41_(v41), v42_(v42), v43_(v43), v44_(v44) {} template operator ParamGenerator() const { const T array[] = {static_cast(v1_), static_cast(v2_), static_cast(v3_), static_cast(v4_), static_cast(v5_), static_cast(v6_), static_cast(v7_), static_cast(v8_), static_cast(v9_), static_cast(v10_), static_cast(v11_), static_cast(v12_), static_cast(v13_), static_cast(v14_), static_cast(v15_), static_cast(v16_), static_cast(v17_), static_cast(v18_), static_cast(v19_), static_cast(v20_), static_cast(v21_), static_cast(v22_), static_cast(v23_), static_cast(v24_), static_cast(v25_), static_cast(v26_), static_cast(v27_), static_cast(v28_), static_cast(v29_), static_cast(v30_), static_cast(v31_), static_cast(v32_), static_cast(v33_), static_cast(v34_), static_cast(v35_), static_cast(v36_), static_cast(v37_), static_cast(v38_), static_cast(v39_), static_cast(v40_), static_cast(v41_), static_cast(v42_), static_cast(v43_), static_cast(v44_)}; return ValuesIn(array); } private: // No implementation - assignment is unsupported. void operator=(const ValueArray44& other); const T1 v1_; const T2 v2_; const T3 v3_; const T4 v4_; const T5 v5_; const T6 v6_; const T7 v7_; const T8 v8_; const T9 v9_; const T10 v10_; const T11 v11_; const T12 v12_; const T13 v13_; const T14 v14_; const T15 v15_; const T16 v16_; const T17 v17_; const T18 v18_; const T19 v19_; const T20 v20_; const T21 v21_; const T22 v22_; const T23 v23_; const T24 v24_; const T25 v25_; const T26 v26_; const T27 v27_; const T28 v28_; const T29 v29_; const T30 v30_; const T31 v31_; const T32 v32_; const T33 v33_; const T34 v34_; const T35 v35_; const T36 v36_; const T37 v37_; const T38 v38_; const T39 v39_; const T40 v40_; const T41 v41_; const T42 v42_; const T43 v43_; const T44 v44_; }; template class ValueArray45 { public: ValueArray45(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21, T22 v22, T23 v23, T24 v24, T25 v25, T26 v26, T27 v27, T28 v28, T29 v29, T30 v30, T31 v31, T32 v32, T33 v33, T34 v34, T35 v35, T36 v36, T37 v37, T38 v38, T39 v39, T40 v40, T41 v41, T42 v42, T43 v43, T44 v44, T45 v45) : v1_(v1), v2_(v2), v3_(v3), v4_(v4), v5_(v5), v6_(v6), v7_(v7), v8_(v8), v9_(v9), v10_(v10), v11_(v11), v12_(v12), v13_(v13), v14_(v14), v15_(v15), v16_(v16), v17_(v17), v18_(v18), v19_(v19), v20_(v20), v21_(v21), v22_(v22), v23_(v23), v24_(v24), v25_(v25), v26_(v26), v27_(v27), v28_(v28), v29_(v29), v30_(v30), v31_(v31), v32_(v32), v33_(v33), v34_(v34), v35_(v35), v36_(v36), v37_(v37), v38_(v38), v39_(v39), v40_(v40), v41_(v41), v42_(v42), v43_(v43), v44_(v44), v45_(v45) {} template operator ParamGenerator() const { const T array[] = {static_cast(v1_), static_cast(v2_), static_cast(v3_), static_cast(v4_), static_cast(v5_), static_cast(v6_), static_cast(v7_), static_cast(v8_), static_cast(v9_), static_cast(v10_), static_cast(v11_), static_cast(v12_), static_cast(v13_), static_cast(v14_), static_cast(v15_), static_cast(v16_), static_cast(v17_), static_cast(v18_), static_cast(v19_), static_cast(v20_), static_cast(v21_), static_cast(v22_), static_cast(v23_), static_cast(v24_), static_cast(v25_), static_cast(v26_), static_cast(v27_), static_cast(v28_), static_cast(v29_), static_cast(v30_), static_cast(v31_), static_cast(v32_), static_cast(v33_), static_cast(v34_), static_cast(v35_), static_cast(v36_), static_cast(v37_), static_cast(v38_), static_cast(v39_), static_cast(v40_), static_cast(v41_), static_cast(v42_), static_cast(v43_), static_cast(v44_), static_cast(v45_)}; return ValuesIn(array); } private: // No implementation - assignment is unsupported. void operator=(const ValueArray45& other); const T1 v1_; const T2 v2_; const T3 v3_; const T4 v4_; const T5 v5_; const T6 v6_; const T7 v7_; const T8 v8_; const T9 v9_; const T10 v10_; const T11 v11_; const T12 v12_; const T13 v13_; const T14 v14_; const T15 v15_; const T16 v16_; const T17 v17_; const T18 v18_; const T19 v19_; const T20 v20_; const T21 v21_; const T22 v22_; const T23 v23_; const T24 v24_; const T25 v25_; const T26 v26_; const T27 v27_; const T28 v28_; const T29 v29_; const T30 v30_; const T31 v31_; const T32 v32_; const T33 v33_; const T34 v34_; const T35 v35_; const T36 v36_; const T37 v37_; const T38 v38_; const T39 v39_; const T40 v40_; const T41 v41_; const T42 v42_; const T43 v43_; const T44 v44_; const T45 v45_; }; template class ValueArray46 { public: ValueArray46(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21, T22 v22, T23 v23, T24 v24, T25 v25, T26 v26, T27 v27, T28 v28, T29 v29, T30 v30, T31 v31, T32 v32, T33 v33, T34 v34, T35 v35, T36 v36, T37 v37, T38 v38, T39 v39, T40 v40, T41 v41, T42 v42, T43 v43, T44 v44, T45 v45, T46 v46) : v1_(v1), v2_(v2), v3_(v3), v4_(v4), v5_(v5), v6_(v6), v7_(v7), v8_(v8), v9_(v9), v10_(v10), v11_(v11), v12_(v12), v13_(v13), v14_(v14), v15_(v15), v16_(v16), v17_(v17), v18_(v18), v19_(v19), v20_(v20), v21_(v21), v22_(v22), v23_(v23), v24_(v24), v25_(v25), v26_(v26), v27_(v27), v28_(v28), v29_(v29), v30_(v30), v31_(v31), v32_(v32), v33_(v33), v34_(v34), v35_(v35), v36_(v36), v37_(v37), v38_(v38), v39_(v39), v40_(v40), v41_(v41), v42_(v42), v43_(v43), v44_(v44), v45_(v45), v46_(v46) {} template operator ParamGenerator() const { const T array[] = {static_cast(v1_), static_cast(v2_), static_cast(v3_), static_cast(v4_), static_cast(v5_), static_cast(v6_), static_cast(v7_), static_cast(v8_), static_cast(v9_), static_cast(v10_), static_cast(v11_), static_cast(v12_), static_cast(v13_), static_cast(v14_), static_cast(v15_), static_cast(v16_), static_cast(v17_), static_cast(v18_), static_cast(v19_), static_cast(v20_), static_cast(v21_), static_cast(v22_), static_cast(v23_), static_cast(v24_), static_cast(v25_), static_cast(v26_), static_cast(v27_), static_cast(v28_), static_cast(v29_), static_cast(v30_), static_cast(v31_), static_cast(v32_), static_cast(v33_), static_cast(v34_), static_cast(v35_), static_cast(v36_), static_cast(v37_), static_cast(v38_), static_cast(v39_), static_cast(v40_), static_cast(v41_), static_cast(v42_), static_cast(v43_), static_cast(v44_), static_cast(v45_), static_cast(v46_)}; return ValuesIn(array); } private: // No implementation - assignment is unsupported. void operator=(const ValueArray46& other); const T1 v1_; const T2 v2_; const T3 v3_; const T4 v4_; const T5 v5_; const T6 v6_; const T7 v7_; const T8 v8_; const T9 v9_; const T10 v10_; const T11 v11_; const T12 v12_; const T13 v13_; const T14 v14_; const T15 v15_; const T16 v16_; const T17 v17_; const T18 v18_; const T19 v19_; const T20 v20_; const T21 v21_; const T22 v22_; const T23 v23_; const T24 v24_; const T25 v25_; const T26 v26_; const T27 v27_; const T28 v28_; const T29 v29_; const T30 v30_; const T31 v31_; const T32 v32_; const T33 v33_; const T34 v34_; const T35 v35_; const T36 v36_; const T37 v37_; const T38 v38_; const T39 v39_; const T40 v40_; const T41 v41_; const T42 v42_; const T43 v43_; const T44 v44_; const T45 v45_; const T46 v46_; }; template class ValueArray47 { public: ValueArray47(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21, T22 v22, T23 v23, T24 v24, T25 v25, T26 v26, T27 v27, T28 v28, T29 v29, T30 v30, T31 v31, T32 v32, T33 v33, T34 v34, T35 v35, T36 v36, T37 v37, T38 v38, T39 v39, T40 v40, T41 v41, T42 v42, T43 v43, T44 v44, T45 v45, T46 v46, T47 v47) : v1_(v1), v2_(v2), v3_(v3), v4_(v4), v5_(v5), v6_(v6), v7_(v7), v8_(v8), v9_(v9), v10_(v10), v11_(v11), v12_(v12), v13_(v13), v14_(v14), v15_(v15), v16_(v16), v17_(v17), v18_(v18), v19_(v19), v20_(v20), v21_(v21), v22_(v22), v23_(v23), v24_(v24), v25_(v25), v26_(v26), v27_(v27), v28_(v28), v29_(v29), v30_(v30), v31_(v31), v32_(v32), v33_(v33), v34_(v34), v35_(v35), v36_(v36), v37_(v37), v38_(v38), v39_(v39), v40_(v40), v41_(v41), v42_(v42), v43_(v43), v44_(v44), v45_(v45), v46_(v46), v47_(v47) {} template operator ParamGenerator() const { const T array[] = {static_cast(v1_), static_cast(v2_), static_cast(v3_), static_cast(v4_), static_cast(v5_), static_cast(v6_), static_cast(v7_), static_cast(v8_), static_cast(v9_), static_cast(v10_), static_cast(v11_), static_cast(v12_), static_cast(v13_), static_cast(v14_), static_cast(v15_), static_cast(v16_), static_cast(v17_), static_cast(v18_), static_cast(v19_), static_cast(v20_), static_cast(v21_), static_cast(v22_), static_cast(v23_), static_cast(v24_), static_cast(v25_), static_cast(v26_), static_cast(v27_), static_cast(v28_), static_cast(v29_), static_cast(v30_), static_cast(v31_), static_cast(v32_), static_cast(v33_), static_cast(v34_), static_cast(v35_), static_cast(v36_), static_cast(v37_), static_cast(v38_), static_cast(v39_), static_cast(v40_), static_cast(v41_), static_cast(v42_), static_cast(v43_), static_cast(v44_), static_cast(v45_), static_cast(v46_), static_cast(v47_)}; return ValuesIn(array); } private: // No implementation - assignment is unsupported. void operator=(const ValueArray47& other); const T1 v1_; const T2 v2_; const T3 v3_; const T4 v4_; const T5 v5_; const T6 v6_; const T7 v7_; const T8 v8_; const T9 v9_; const T10 v10_; const T11 v11_; const T12 v12_; const T13 v13_; const T14 v14_; const T15 v15_; const T16 v16_; const T17 v17_; const T18 v18_; const T19 v19_; const T20 v20_; const T21 v21_; const T22 v22_; const T23 v23_; const T24 v24_; const T25 v25_; const T26 v26_; const T27 v27_; const T28 v28_; const T29 v29_; const T30 v30_; const T31 v31_; const T32 v32_; const T33 v33_; const T34 v34_; const T35 v35_; const T36 v36_; const T37 v37_; const T38 v38_; const T39 v39_; const T40 v40_; const T41 v41_; const T42 v42_; const T43 v43_; const T44 v44_; const T45 v45_; const T46 v46_; const T47 v47_; }; template class ValueArray48 { public: ValueArray48(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21, T22 v22, T23 v23, T24 v24, T25 v25, T26 v26, T27 v27, T28 v28, T29 v29, T30 v30, T31 v31, T32 v32, T33 v33, T34 v34, T35 v35, T36 v36, T37 v37, T38 v38, T39 v39, T40 v40, T41 v41, T42 v42, T43 v43, T44 v44, T45 v45, T46 v46, T47 v47, T48 v48) : v1_(v1), v2_(v2), v3_(v3), v4_(v4), v5_(v5), v6_(v6), v7_(v7), v8_(v8), v9_(v9), v10_(v10), v11_(v11), v12_(v12), v13_(v13), v14_(v14), v15_(v15), v16_(v16), v17_(v17), v18_(v18), v19_(v19), v20_(v20), v21_(v21), v22_(v22), v23_(v23), v24_(v24), v25_(v25), v26_(v26), v27_(v27), v28_(v28), v29_(v29), v30_(v30), v31_(v31), v32_(v32), v33_(v33), v34_(v34), v35_(v35), v36_(v36), v37_(v37), v38_(v38), v39_(v39), v40_(v40), v41_(v41), v42_(v42), v43_(v43), v44_(v44), v45_(v45), v46_(v46), v47_(v47), v48_(v48) {} template operator ParamGenerator() const { const T array[] = {static_cast(v1_), static_cast(v2_), static_cast(v3_), static_cast(v4_), static_cast(v5_), static_cast(v6_), static_cast(v7_), static_cast(v8_), static_cast(v9_), static_cast(v10_), static_cast(v11_), static_cast(v12_), static_cast(v13_), static_cast(v14_), static_cast(v15_), static_cast(v16_), static_cast(v17_), static_cast(v18_), static_cast(v19_), static_cast(v20_), static_cast(v21_), static_cast(v22_), static_cast(v23_), static_cast(v24_), static_cast(v25_), static_cast(v26_), static_cast(v27_), static_cast(v28_), static_cast(v29_), static_cast(v30_), static_cast(v31_), static_cast(v32_), static_cast(v33_), static_cast(v34_), static_cast(v35_), static_cast(v36_), static_cast(v37_), static_cast(v38_), static_cast(v39_), static_cast(v40_), static_cast(v41_), static_cast(v42_), static_cast(v43_), static_cast(v44_), static_cast(v45_), static_cast(v46_), static_cast(v47_), static_cast(v48_)}; return ValuesIn(array); } private: // No implementation - assignment is unsupported. void operator=(const ValueArray48& other); const T1 v1_; const T2 v2_; const T3 v3_; const T4 v4_; const T5 v5_; const T6 v6_; const T7 v7_; const T8 v8_; const T9 v9_; const T10 v10_; const T11 v11_; const T12 v12_; const T13 v13_; const T14 v14_; const T15 v15_; const T16 v16_; const T17 v17_; const T18 v18_; const T19 v19_; const T20 v20_; const T21 v21_; const T22 v22_; const T23 v23_; const T24 v24_; const T25 v25_; const T26 v26_; const T27 v27_; const T28 v28_; const T29 v29_; const T30 v30_; const T31 v31_; const T32 v32_; const T33 v33_; const T34 v34_; const T35 v35_; const T36 v36_; const T37 v37_; const T38 v38_; const T39 v39_; const T40 v40_; const T41 v41_; const T42 v42_; const T43 v43_; const T44 v44_; const T45 v45_; const T46 v46_; const T47 v47_; const T48 v48_; }; template class ValueArray49 { public: ValueArray49(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21, T22 v22, T23 v23, T24 v24, T25 v25, T26 v26, T27 v27, T28 v28, T29 v29, T30 v30, T31 v31, T32 v32, T33 v33, T34 v34, T35 v35, T36 v36, T37 v37, T38 v38, T39 v39, T40 v40, T41 v41, T42 v42, T43 v43, T44 v44, T45 v45, T46 v46, T47 v47, T48 v48, T49 v49) : v1_(v1), v2_(v2), v3_(v3), v4_(v4), v5_(v5), v6_(v6), v7_(v7), v8_(v8), v9_(v9), v10_(v10), v11_(v11), v12_(v12), v13_(v13), v14_(v14), v15_(v15), v16_(v16), v17_(v17), v18_(v18), v19_(v19), v20_(v20), v21_(v21), v22_(v22), v23_(v23), v24_(v24), v25_(v25), v26_(v26), v27_(v27), v28_(v28), v29_(v29), v30_(v30), v31_(v31), v32_(v32), v33_(v33), v34_(v34), v35_(v35), v36_(v36), v37_(v37), v38_(v38), v39_(v39), v40_(v40), v41_(v41), v42_(v42), v43_(v43), v44_(v44), v45_(v45), v46_(v46), v47_(v47), v48_(v48), v49_(v49) {} template operator ParamGenerator() const { const T array[] = {static_cast(v1_), static_cast(v2_), static_cast(v3_), static_cast(v4_), static_cast(v5_), static_cast(v6_), static_cast(v7_), static_cast(v8_), static_cast(v9_), static_cast(v10_), static_cast(v11_), static_cast(v12_), static_cast(v13_), static_cast(v14_), static_cast(v15_), static_cast(v16_), static_cast(v17_), static_cast(v18_), static_cast(v19_), static_cast(v20_), static_cast(v21_), static_cast(v22_), static_cast(v23_), static_cast(v24_), static_cast(v25_), static_cast(v26_), static_cast(v27_), static_cast(v28_), static_cast(v29_), static_cast(v30_), static_cast(v31_), static_cast(v32_), static_cast(v33_), static_cast(v34_), static_cast(v35_), static_cast(v36_), static_cast(v37_), static_cast(v38_), static_cast(v39_), static_cast(v40_), static_cast(v41_), static_cast(v42_), static_cast(v43_), static_cast(v44_), static_cast(v45_), static_cast(v46_), static_cast(v47_), static_cast(v48_), static_cast(v49_)}; return ValuesIn(array); } private: // No implementation - assignment is unsupported. void operator=(const ValueArray49& other); const T1 v1_; const T2 v2_; const T3 v3_; const T4 v4_; const T5 v5_; const T6 v6_; const T7 v7_; const T8 v8_; const T9 v9_; const T10 v10_; const T11 v11_; const T12 v12_; const T13 v13_; const T14 v14_; const T15 v15_; const T16 v16_; const T17 v17_; const T18 v18_; const T19 v19_; const T20 v20_; const T21 v21_; const T22 v22_; const T23 v23_; const T24 v24_; const T25 v25_; const T26 v26_; const T27 v27_; const T28 v28_; const T29 v29_; const T30 v30_; const T31 v31_; const T32 v32_; const T33 v33_; const T34 v34_; const T35 v35_; const T36 v36_; const T37 v37_; const T38 v38_; const T39 v39_; const T40 v40_; const T41 v41_; const T42 v42_; const T43 v43_; const T44 v44_; const T45 v45_; const T46 v46_; const T47 v47_; const T48 v48_; const T49 v49_; }; template class ValueArray50 { public: ValueArray50(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21, T22 v22, T23 v23, T24 v24, T25 v25, T26 v26, T27 v27, T28 v28, T29 v29, T30 v30, T31 v31, T32 v32, T33 v33, T34 v34, T35 v35, T36 v36, T37 v37, T38 v38, T39 v39, T40 v40, T41 v41, T42 v42, T43 v43, T44 v44, T45 v45, T46 v46, T47 v47, T48 v48, T49 v49, T50 v50) : v1_(v1), v2_(v2), v3_(v3), v4_(v4), v5_(v5), v6_(v6), v7_(v7), v8_(v8), v9_(v9), v10_(v10), v11_(v11), v12_(v12), v13_(v13), v14_(v14), v15_(v15), v16_(v16), v17_(v17), v18_(v18), v19_(v19), v20_(v20), v21_(v21), v22_(v22), v23_(v23), v24_(v24), v25_(v25), v26_(v26), v27_(v27), v28_(v28), v29_(v29), v30_(v30), v31_(v31), v32_(v32), v33_(v33), v34_(v34), v35_(v35), v36_(v36), v37_(v37), v38_(v38), v39_(v39), v40_(v40), v41_(v41), v42_(v42), v43_(v43), v44_(v44), v45_(v45), v46_(v46), v47_(v47), v48_(v48), v49_(v49), v50_(v50) {} template operator ParamGenerator() const { const T array[] = {static_cast(v1_), static_cast(v2_), static_cast(v3_), static_cast(v4_), static_cast(v5_), static_cast(v6_), static_cast(v7_), static_cast(v8_), static_cast(v9_), static_cast(v10_), static_cast(v11_), static_cast(v12_), static_cast(v13_), static_cast(v14_), static_cast(v15_), static_cast(v16_), static_cast(v17_), static_cast(v18_), static_cast(v19_), static_cast(v20_), static_cast(v21_), static_cast(v22_), static_cast(v23_), static_cast(v24_), static_cast(v25_), static_cast(v26_), static_cast(v27_), static_cast(v28_), static_cast(v29_), static_cast(v30_), static_cast(v31_), static_cast(v32_), static_cast(v33_), static_cast(v34_), static_cast(v35_), static_cast(v36_), static_cast(v37_), static_cast(v38_), static_cast(v39_), static_cast(v40_), static_cast(v41_), static_cast(v42_), static_cast(v43_), static_cast(v44_), static_cast(v45_), static_cast(v46_), static_cast(v47_), static_cast(v48_), static_cast(v49_), static_cast(v50_)}; return ValuesIn(array); } private: // No implementation - assignment is unsupported. void operator=(const ValueArray50& other); const T1 v1_; const T2 v2_; const T3 v3_; const T4 v4_; const T5 v5_; const T6 v6_; const T7 v7_; const T8 v8_; const T9 v9_; const T10 v10_; const T11 v11_; const T12 v12_; const T13 v13_; const T14 v14_; const T15 v15_; const T16 v16_; const T17 v17_; const T18 v18_; const T19 v19_; const T20 v20_; const T21 v21_; const T22 v22_; const T23 v23_; const T24 v24_; const T25 v25_; const T26 v26_; const T27 v27_; const T28 v28_; const T29 v29_; const T30 v30_; const T31 v31_; const T32 v32_; const T33 v33_; const T34 v34_; const T35 v35_; const T36 v36_; const T37 v37_; const T38 v38_; const T39 v39_; const T40 v40_; const T41 v41_; const T42 v42_; const T43 v43_; const T44 v44_; const T45 v45_; const T46 v46_; const T47 v47_; const T48 v48_; const T49 v49_; const T50 v50_; }; # if GTEST_HAS_COMBINE // INTERNAL IMPLEMENTATION - DO NOT USE IN USER CODE. // // Generates values from the Cartesian product of values produced // by the argument generators. // template class CartesianProductGenerator2 : public ParamGeneratorInterface< ::testing::tuple > { public: typedef ::testing::tuple ParamType; CartesianProductGenerator2(const ParamGenerator& g1, const ParamGenerator& g2) : g1_(g1), g2_(g2) {} virtual ~CartesianProductGenerator2() {} virtual ParamIteratorInterface* Begin() const { return new Iterator(this, g1_, g1_.begin(), g2_, g2_.begin()); } virtual ParamIteratorInterface* End() const { return new Iterator(this, g1_, g1_.end(), g2_, g2_.end()); } private: class Iterator : public ParamIteratorInterface { public: Iterator(const ParamGeneratorInterface* base, const ParamGenerator& g1, const typename ParamGenerator::iterator& current1, const ParamGenerator& g2, const typename ParamGenerator::iterator& current2) : base_(base), begin1_(g1.begin()), end1_(g1.end()), current1_(current1), begin2_(g2.begin()), end2_(g2.end()), current2_(current2) { ComputeCurrentValue(); } virtual ~Iterator() {} virtual const ParamGeneratorInterface* BaseGenerator() const { return base_; } // Advance should not be called on beyond-of-range iterators // so no component iterators must be beyond end of range, either. virtual void Advance() { assert(!AtEnd()); ++current2_; if (current2_ == end2_) { current2_ = begin2_; ++current1_; } ComputeCurrentValue(); } virtual ParamIteratorInterface* Clone() const { return new Iterator(*this); } virtual const ParamType* Current() const { return ¤t_value_; } virtual bool Equals(const ParamIteratorInterface& other) const { // Having the same base generator guarantees that the other // iterator is of the same type and we can downcast. GTEST_CHECK_(BaseGenerator() == other.BaseGenerator()) << "The program attempted to compare iterators " << "from different generators." << std::endl; const Iterator* typed_other = CheckedDowncastToActualType(&other); // We must report iterators equal if they both point beyond their // respective ranges. That can happen in a variety of fashions, // so we have to consult AtEnd(). return (AtEnd() && typed_other->AtEnd()) || ( current1_ == typed_other->current1_ && current2_ == typed_other->current2_); } private: Iterator(const Iterator& other) : base_(other.base_), begin1_(other.begin1_), end1_(other.end1_), current1_(other.current1_), begin2_(other.begin2_), end2_(other.end2_), current2_(other.current2_) { ComputeCurrentValue(); } void ComputeCurrentValue() { if (!AtEnd()) current_value_ = ParamType(*current1_, *current2_); } bool AtEnd() const { // We must report iterator past the end of the range when either of the // component iterators has reached the end of its range. return current1_ == end1_ || current2_ == end2_; } // No implementation - assignment is unsupported. void operator=(const Iterator& other); const ParamGeneratorInterface* const base_; // begin[i]_ and end[i]_ define the i-th range that Iterator traverses. // current[i]_ is the actual traversing iterator. const typename ParamGenerator::iterator begin1_; const typename ParamGenerator::iterator end1_; typename ParamGenerator::iterator current1_; const typename ParamGenerator::iterator begin2_; const typename ParamGenerator::iterator end2_; typename ParamGenerator::iterator current2_; ParamType current_value_; }; // class CartesianProductGenerator2::Iterator // No implementation - assignment is unsupported. void operator=(const CartesianProductGenerator2& other); const ParamGenerator g1_; const ParamGenerator g2_; }; // class CartesianProductGenerator2 template class CartesianProductGenerator3 : public ParamGeneratorInterface< ::testing::tuple > { public: typedef ::testing::tuple ParamType; CartesianProductGenerator3(const ParamGenerator& g1, const ParamGenerator& g2, const ParamGenerator& g3) : g1_(g1), g2_(g2), g3_(g3) {} virtual ~CartesianProductGenerator3() {} virtual ParamIteratorInterface* Begin() const { return new Iterator(this, g1_, g1_.begin(), g2_, g2_.begin(), g3_, g3_.begin()); } virtual ParamIteratorInterface* End() const { return new Iterator(this, g1_, g1_.end(), g2_, g2_.end(), g3_, g3_.end()); } private: class Iterator : public ParamIteratorInterface { public: Iterator(const ParamGeneratorInterface* base, const ParamGenerator& g1, const typename ParamGenerator::iterator& current1, const ParamGenerator& g2, const typename ParamGenerator::iterator& current2, const ParamGenerator& g3, const typename ParamGenerator::iterator& current3) : base_(base), begin1_(g1.begin()), end1_(g1.end()), current1_(current1), begin2_(g2.begin()), end2_(g2.end()), current2_(current2), begin3_(g3.begin()), end3_(g3.end()), current3_(current3) { ComputeCurrentValue(); } virtual ~Iterator() {} virtual const ParamGeneratorInterface* BaseGenerator() const { return base_; } // Advance should not be called on beyond-of-range iterators // so no component iterators must be beyond end of range, either. virtual void Advance() { assert(!AtEnd()); ++current3_; if (current3_ == end3_) { current3_ = begin3_; ++current2_; } if (current2_ == end2_) { current2_ = begin2_; ++current1_; } ComputeCurrentValue(); } virtual ParamIteratorInterface* Clone() const { return new Iterator(*this); } virtual const ParamType* Current() const { return ¤t_value_; } virtual bool Equals(const ParamIteratorInterface& other) const { // Having the same base generator guarantees that the other // iterator is of the same type and we can downcast. GTEST_CHECK_(BaseGenerator() == other.BaseGenerator()) << "The program attempted to compare iterators " << "from different generators." << std::endl; const Iterator* typed_other = CheckedDowncastToActualType(&other); // We must report iterators equal if they both point beyond their // respective ranges. That can happen in a variety of fashions, // so we have to consult AtEnd(). return (AtEnd() && typed_other->AtEnd()) || ( current1_ == typed_other->current1_ && current2_ == typed_other->current2_ && current3_ == typed_other->current3_); } private: Iterator(const Iterator& other) : base_(other.base_), begin1_(other.begin1_), end1_(other.end1_), current1_(other.current1_), begin2_(other.begin2_), end2_(other.end2_), current2_(other.current2_), begin3_(other.begin3_), end3_(other.end3_), current3_(other.current3_) { ComputeCurrentValue(); } void ComputeCurrentValue() { if (!AtEnd()) current_value_ = ParamType(*current1_, *current2_, *current3_); } bool AtEnd() const { // We must report iterator past the end of the range when either of the // component iterators has reached the end of its range. return current1_ == end1_ || current2_ == end2_ || current3_ == end3_; } // No implementation - assignment is unsupported. void operator=(const Iterator& other); const ParamGeneratorInterface* const base_; // begin[i]_ and end[i]_ define the i-th range that Iterator traverses. // current[i]_ is the actual traversing iterator. const typename ParamGenerator::iterator begin1_; const typename ParamGenerator::iterator end1_; typename ParamGenerator::iterator current1_; const typename ParamGenerator::iterator begin2_; const typename ParamGenerator::iterator end2_; typename ParamGenerator::iterator current2_; const typename ParamGenerator::iterator begin3_; const typename ParamGenerator::iterator end3_; typename ParamGenerator::iterator current3_; ParamType current_value_; }; // class CartesianProductGenerator3::Iterator // No implementation - assignment is unsupported. void operator=(const CartesianProductGenerator3& other); const ParamGenerator g1_; const ParamGenerator g2_; const ParamGenerator g3_; }; // class CartesianProductGenerator3 template class CartesianProductGenerator4 : public ParamGeneratorInterface< ::testing::tuple > { public: typedef ::testing::tuple ParamType; CartesianProductGenerator4(const ParamGenerator& g1, const ParamGenerator& g2, const ParamGenerator& g3, const ParamGenerator& g4) : g1_(g1), g2_(g2), g3_(g3), g4_(g4) {} virtual ~CartesianProductGenerator4() {} virtual ParamIteratorInterface* Begin() const { return new Iterator(this, g1_, g1_.begin(), g2_, g2_.begin(), g3_, g3_.begin(), g4_, g4_.begin()); } virtual ParamIteratorInterface* End() const { return new Iterator(this, g1_, g1_.end(), g2_, g2_.end(), g3_, g3_.end(), g4_, g4_.end()); } private: class Iterator : public ParamIteratorInterface { public: Iterator(const ParamGeneratorInterface* base, const ParamGenerator& g1, const typename ParamGenerator::iterator& current1, const ParamGenerator& g2, const typename ParamGenerator::iterator& current2, const ParamGenerator& g3, const typename ParamGenerator::iterator& current3, const ParamGenerator& g4, const typename ParamGenerator::iterator& current4) : base_(base), begin1_(g1.begin()), end1_(g1.end()), current1_(current1), begin2_(g2.begin()), end2_(g2.end()), current2_(current2), begin3_(g3.begin()), end3_(g3.end()), current3_(current3), begin4_(g4.begin()), end4_(g4.end()), current4_(current4) { ComputeCurrentValue(); } virtual ~Iterator() {} virtual const ParamGeneratorInterface* BaseGenerator() const { return base_; } // Advance should not be called on beyond-of-range iterators // so no component iterators must be beyond end of range, either. virtual void Advance() { assert(!AtEnd()); ++current4_; if (current4_ == end4_) { current4_ = begin4_; ++current3_; } if (current3_ == end3_) { current3_ = begin3_; ++current2_; } if (current2_ == end2_) { current2_ = begin2_; ++current1_; } ComputeCurrentValue(); } virtual ParamIteratorInterface* Clone() const { return new Iterator(*this); } virtual const ParamType* Current() const { return ¤t_value_; } virtual bool Equals(const ParamIteratorInterface& other) const { // Having the same base generator guarantees that the other // iterator is of the same type and we can downcast. GTEST_CHECK_(BaseGenerator() == other.BaseGenerator()) << "The program attempted to compare iterators " << "from different generators." << std::endl; const Iterator* typed_other = CheckedDowncastToActualType(&other); // We must report iterators equal if they both point beyond their // respective ranges. That can happen in a variety of fashions, // so we have to consult AtEnd(). return (AtEnd() && typed_other->AtEnd()) || ( current1_ == typed_other->current1_ && current2_ == typed_other->current2_ && current3_ == typed_other->current3_ && current4_ == typed_other->current4_); } private: Iterator(const Iterator& other) : base_(other.base_), begin1_(other.begin1_), end1_(other.end1_), current1_(other.current1_), begin2_(other.begin2_), end2_(other.end2_), current2_(other.current2_), begin3_(other.begin3_), end3_(other.end3_), current3_(other.current3_), begin4_(other.begin4_), end4_(other.end4_), current4_(other.current4_) { ComputeCurrentValue(); } void ComputeCurrentValue() { if (!AtEnd()) current_value_ = ParamType(*current1_, *current2_, *current3_, *current4_); } bool AtEnd() const { // We must report iterator past the end of the range when either of the // component iterators has reached the end of its range. return current1_ == end1_ || current2_ == end2_ || current3_ == end3_ || current4_ == end4_; } // No implementation - assignment is unsupported. void operator=(const Iterator& other); const ParamGeneratorInterface* const base_; // begin[i]_ and end[i]_ define the i-th range that Iterator traverses. // current[i]_ is the actual traversing iterator. const typename ParamGenerator::iterator begin1_; const typename ParamGenerator::iterator end1_; typename ParamGenerator::iterator current1_; const typename ParamGenerator::iterator begin2_; const typename ParamGenerator::iterator end2_; typename ParamGenerator::iterator current2_; const typename ParamGenerator::iterator begin3_; const typename ParamGenerator::iterator end3_; typename ParamGenerator::iterator current3_; const typename ParamGenerator::iterator begin4_; const typename ParamGenerator::iterator end4_; typename ParamGenerator::iterator current4_; ParamType current_value_; }; // class CartesianProductGenerator4::Iterator // No implementation - assignment is unsupported. void operator=(const CartesianProductGenerator4& other); const ParamGenerator g1_; const ParamGenerator g2_; const ParamGenerator g3_; const ParamGenerator g4_; }; // class CartesianProductGenerator4 template class CartesianProductGenerator5 : public ParamGeneratorInterface< ::testing::tuple > { public: typedef ::testing::tuple ParamType; CartesianProductGenerator5(const ParamGenerator& g1, const ParamGenerator& g2, const ParamGenerator& g3, const ParamGenerator& g4, const ParamGenerator& g5) : g1_(g1), g2_(g2), g3_(g3), g4_(g4), g5_(g5) {} virtual ~CartesianProductGenerator5() {} virtual ParamIteratorInterface* Begin() const { return new Iterator(this, g1_, g1_.begin(), g2_, g2_.begin(), g3_, g3_.begin(), g4_, g4_.begin(), g5_, g5_.begin()); } virtual ParamIteratorInterface* End() const { return new Iterator(this, g1_, g1_.end(), g2_, g2_.end(), g3_, g3_.end(), g4_, g4_.end(), g5_, g5_.end()); } private: class Iterator : public ParamIteratorInterface { public: Iterator(const ParamGeneratorInterface* base, const ParamGenerator& g1, const typename ParamGenerator::iterator& current1, const ParamGenerator& g2, const typename ParamGenerator::iterator& current2, const ParamGenerator& g3, const typename ParamGenerator::iterator& current3, const ParamGenerator& g4, const typename ParamGenerator::iterator& current4, const ParamGenerator& g5, const typename ParamGenerator::iterator& current5) : base_(base), begin1_(g1.begin()), end1_(g1.end()), current1_(current1), begin2_(g2.begin()), end2_(g2.end()), current2_(current2), begin3_(g3.begin()), end3_(g3.end()), current3_(current3), begin4_(g4.begin()), end4_(g4.end()), current4_(current4), begin5_(g5.begin()), end5_(g5.end()), current5_(current5) { ComputeCurrentValue(); } virtual ~Iterator() {} virtual const ParamGeneratorInterface* BaseGenerator() const { return base_; } // Advance should not be called on beyond-of-range iterators // so no component iterators must be beyond end of range, either. virtual void Advance() { assert(!AtEnd()); ++current5_; if (current5_ == end5_) { current5_ = begin5_; ++current4_; } if (current4_ == end4_) { current4_ = begin4_; ++current3_; } if (current3_ == end3_) { current3_ = begin3_; ++current2_; } if (current2_ == end2_) { current2_ = begin2_; ++current1_; } ComputeCurrentValue(); } virtual ParamIteratorInterface* Clone() const { return new Iterator(*this); } virtual const ParamType* Current() const { return ¤t_value_; } virtual bool Equals(const ParamIteratorInterface& other) const { // Having the same base generator guarantees that the other // iterator is of the same type and we can downcast. GTEST_CHECK_(BaseGenerator() == other.BaseGenerator()) << "The program attempted to compare iterators " << "from different generators." << std::endl; const Iterator* typed_other = CheckedDowncastToActualType(&other); // We must report iterators equal if they both point beyond their // respective ranges. That can happen in a variety of fashions, // so we have to consult AtEnd(). return (AtEnd() && typed_other->AtEnd()) || ( current1_ == typed_other->current1_ && current2_ == typed_other->current2_ && current3_ == typed_other->current3_ && current4_ == typed_other->current4_ && current5_ == typed_other->current5_); } private: Iterator(const Iterator& other) : base_(other.base_), begin1_(other.begin1_), end1_(other.end1_), current1_(other.current1_), begin2_(other.begin2_), end2_(other.end2_), current2_(other.current2_), begin3_(other.begin3_), end3_(other.end3_), current3_(other.current3_), begin4_(other.begin4_), end4_(other.end4_), current4_(other.current4_), begin5_(other.begin5_), end5_(other.end5_), current5_(other.current5_) { ComputeCurrentValue(); } void ComputeCurrentValue() { if (!AtEnd()) current_value_ = ParamType(*current1_, *current2_, *current3_, *current4_, *current5_); } bool AtEnd() const { // We must report iterator past the end of the range when either of the // component iterators has reached the end of its range. return current1_ == end1_ || current2_ == end2_ || current3_ == end3_ || current4_ == end4_ || current5_ == end5_; } // No implementation - assignment is unsupported. void operator=(const Iterator& other); const ParamGeneratorInterface* const base_; // begin[i]_ and end[i]_ define the i-th range that Iterator traverses. // current[i]_ is the actual traversing iterator. const typename ParamGenerator::iterator begin1_; const typename ParamGenerator::iterator end1_; typename ParamGenerator::iterator current1_; const typename ParamGenerator::iterator begin2_; const typename ParamGenerator::iterator end2_; typename ParamGenerator::iterator current2_; const typename ParamGenerator::iterator begin3_; const typename ParamGenerator::iterator end3_; typename ParamGenerator::iterator current3_; const typename ParamGenerator::iterator begin4_; const typename ParamGenerator::iterator end4_; typename ParamGenerator::iterator current4_; const typename ParamGenerator::iterator begin5_; const typename ParamGenerator::iterator end5_; typename ParamGenerator::iterator current5_; ParamType current_value_; }; // class CartesianProductGenerator5::Iterator // No implementation - assignment is unsupported. void operator=(const CartesianProductGenerator5& other); const ParamGenerator g1_; const ParamGenerator g2_; const ParamGenerator g3_; const ParamGenerator g4_; const ParamGenerator g5_; }; // class CartesianProductGenerator5 template class CartesianProductGenerator6 : public ParamGeneratorInterface< ::testing::tuple > { public: typedef ::testing::tuple ParamType; CartesianProductGenerator6(const ParamGenerator& g1, const ParamGenerator& g2, const ParamGenerator& g3, const ParamGenerator& g4, const ParamGenerator& g5, const ParamGenerator& g6) : g1_(g1), g2_(g2), g3_(g3), g4_(g4), g5_(g5), g6_(g6) {} virtual ~CartesianProductGenerator6() {} virtual ParamIteratorInterface* Begin() const { return new Iterator(this, g1_, g1_.begin(), g2_, g2_.begin(), g3_, g3_.begin(), g4_, g4_.begin(), g5_, g5_.begin(), g6_, g6_.begin()); } virtual ParamIteratorInterface* End() const { return new Iterator(this, g1_, g1_.end(), g2_, g2_.end(), g3_, g3_.end(), g4_, g4_.end(), g5_, g5_.end(), g6_, g6_.end()); } private: class Iterator : public ParamIteratorInterface { public: Iterator(const ParamGeneratorInterface* base, const ParamGenerator& g1, const typename ParamGenerator::iterator& current1, const ParamGenerator& g2, const typename ParamGenerator::iterator& current2, const ParamGenerator& g3, const typename ParamGenerator::iterator& current3, const ParamGenerator& g4, const typename ParamGenerator::iterator& current4, const ParamGenerator& g5, const typename ParamGenerator::iterator& current5, const ParamGenerator& g6, const typename ParamGenerator::iterator& current6) : base_(base), begin1_(g1.begin()), end1_(g1.end()), current1_(current1), begin2_(g2.begin()), end2_(g2.end()), current2_(current2), begin3_(g3.begin()), end3_(g3.end()), current3_(current3), begin4_(g4.begin()), end4_(g4.end()), current4_(current4), begin5_(g5.begin()), end5_(g5.end()), current5_(current5), begin6_(g6.begin()), end6_(g6.end()), current6_(current6) { ComputeCurrentValue(); } virtual ~Iterator() {} virtual const ParamGeneratorInterface* BaseGenerator() const { return base_; } // Advance should not be called on beyond-of-range iterators // so no component iterators must be beyond end of range, either. virtual void Advance() { assert(!AtEnd()); ++current6_; if (current6_ == end6_) { current6_ = begin6_; ++current5_; } if (current5_ == end5_) { current5_ = begin5_; ++current4_; } if (current4_ == end4_) { current4_ = begin4_; ++current3_; } if (current3_ == end3_) { current3_ = begin3_; ++current2_; } if (current2_ == end2_) { current2_ = begin2_; ++current1_; } ComputeCurrentValue(); } virtual ParamIteratorInterface* Clone() const { return new Iterator(*this); } virtual const ParamType* Current() const { return ¤t_value_; } virtual bool Equals(const ParamIteratorInterface& other) const { // Having the same base generator guarantees that the other // iterator is of the same type and we can downcast. GTEST_CHECK_(BaseGenerator() == other.BaseGenerator()) << "The program attempted to compare iterators " << "from different generators." << std::endl; const Iterator* typed_other = CheckedDowncastToActualType(&other); // We must report iterators equal if they both point beyond their // respective ranges. That can happen in a variety of fashions, // so we have to consult AtEnd(). return (AtEnd() && typed_other->AtEnd()) || ( current1_ == typed_other->current1_ && current2_ == typed_other->current2_ && current3_ == typed_other->current3_ && current4_ == typed_other->current4_ && current5_ == typed_other->current5_ && current6_ == typed_other->current6_); } private: Iterator(const Iterator& other) : base_(other.base_), begin1_(other.begin1_), end1_(other.end1_), current1_(other.current1_), begin2_(other.begin2_), end2_(other.end2_), current2_(other.current2_), begin3_(other.begin3_), end3_(other.end3_), current3_(other.current3_), begin4_(other.begin4_), end4_(other.end4_), current4_(other.current4_), begin5_(other.begin5_), end5_(other.end5_), current5_(other.current5_), begin6_(other.begin6_), end6_(other.end6_), current6_(other.current6_) { ComputeCurrentValue(); } void ComputeCurrentValue() { if (!AtEnd()) current_value_ = ParamType(*current1_, *current2_, *current3_, *current4_, *current5_, *current6_); } bool AtEnd() const { // We must report iterator past the end of the range when either of the // component iterators has reached the end of its range. return current1_ == end1_ || current2_ == end2_ || current3_ == end3_ || current4_ == end4_ || current5_ == end5_ || current6_ == end6_; } // No implementation - assignment is unsupported. void operator=(const Iterator& other); const ParamGeneratorInterface* const base_; // begin[i]_ and end[i]_ define the i-th range that Iterator traverses. // current[i]_ is the actual traversing iterator. const typename ParamGenerator::iterator begin1_; const typename ParamGenerator::iterator end1_; typename ParamGenerator::iterator current1_; const typename ParamGenerator::iterator begin2_; const typename ParamGenerator::iterator end2_; typename ParamGenerator::iterator current2_; const typename ParamGenerator::iterator begin3_; const typename ParamGenerator::iterator end3_; typename ParamGenerator::iterator current3_; const typename ParamGenerator::iterator begin4_; const typename ParamGenerator::iterator end4_; typename ParamGenerator::iterator current4_; const typename ParamGenerator::iterator begin5_; const typename ParamGenerator::iterator end5_; typename ParamGenerator::iterator current5_; const typename ParamGenerator::iterator begin6_; const typename ParamGenerator::iterator end6_; typename ParamGenerator::iterator current6_; ParamType current_value_; }; // class CartesianProductGenerator6::Iterator // No implementation - assignment is unsupported. void operator=(const CartesianProductGenerator6& other); const ParamGenerator g1_; const ParamGenerator g2_; const ParamGenerator g3_; const ParamGenerator g4_; const ParamGenerator g5_; const ParamGenerator g6_; }; // class CartesianProductGenerator6 template class CartesianProductGenerator7 : public ParamGeneratorInterface< ::testing::tuple > { public: typedef ::testing::tuple ParamType; CartesianProductGenerator7(const ParamGenerator& g1, const ParamGenerator& g2, const ParamGenerator& g3, const ParamGenerator& g4, const ParamGenerator& g5, const ParamGenerator& g6, const ParamGenerator& g7) : g1_(g1), g2_(g2), g3_(g3), g4_(g4), g5_(g5), g6_(g6), g7_(g7) {} virtual ~CartesianProductGenerator7() {} virtual ParamIteratorInterface* Begin() const { return new Iterator(this, g1_, g1_.begin(), g2_, g2_.begin(), g3_, g3_.begin(), g4_, g4_.begin(), g5_, g5_.begin(), g6_, g6_.begin(), g7_, g7_.begin()); } virtual ParamIteratorInterface* End() const { return new Iterator(this, g1_, g1_.end(), g2_, g2_.end(), g3_, g3_.end(), g4_, g4_.end(), g5_, g5_.end(), g6_, g6_.end(), g7_, g7_.end()); } private: class Iterator : public ParamIteratorInterface { public: Iterator(const ParamGeneratorInterface* base, const ParamGenerator& g1, const typename ParamGenerator::iterator& current1, const ParamGenerator& g2, const typename ParamGenerator::iterator& current2, const ParamGenerator& g3, const typename ParamGenerator::iterator& current3, const ParamGenerator& g4, const typename ParamGenerator::iterator& current4, const ParamGenerator& g5, const typename ParamGenerator::iterator& current5, const ParamGenerator& g6, const typename ParamGenerator::iterator& current6, const ParamGenerator& g7, const typename ParamGenerator::iterator& current7) : base_(base), begin1_(g1.begin()), end1_(g1.end()), current1_(current1), begin2_(g2.begin()), end2_(g2.end()), current2_(current2), begin3_(g3.begin()), end3_(g3.end()), current3_(current3), begin4_(g4.begin()), end4_(g4.end()), current4_(current4), begin5_(g5.begin()), end5_(g5.end()), current5_(current5), begin6_(g6.begin()), end6_(g6.end()), current6_(current6), begin7_(g7.begin()), end7_(g7.end()), current7_(current7) { ComputeCurrentValue(); } virtual ~Iterator() {} virtual const ParamGeneratorInterface* BaseGenerator() const { return base_; } // Advance should not be called on beyond-of-range iterators // so no component iterators must be beyond end of range, either. virtual void Advance() { assert(!AtEnd()); ++current7_; if (current7_ == end7_) { current7_ = begin7_; ++current6_; } if (current6_ == end6_) { current6_ = begin6_; ++current5_; } if (current5_ == end5_) { current5_ = begin5_; ++current4_; } if (current4_ == end4_) { current4_ = begin4_; ++current3_; } if (current3_ == end3_) { current3_ = begin3_; ++current2_; } if (current2_ == end2_) { current2_ = begin2_; ++current1_; } ComputeCurrentValue(); } virtual ParamIteratorInterface* Clone() const { return new Iterator(*this); } virtual const ParamType* Current() const { return ¤t_value_; } virtual bool Equals(const ParamIteratorInterface& other) const { // Having the same base generator guarantees that the other // iterator is of the same type and we can downcast. GTEST_CHECK_(BaseGenerator() == other.BaseGenerator()) << "The program attempted to compare iterators " << "from different generators." << std::endl; const Iterator* typed_other = CheckedDowncastToActualType(&other); // We must report iterators equal if they both point beyond their // respective ranges. That can happen in a variety of fashions, // so we have to consult AtEnd(). return (AtEnd() && typed_other->AtEnd()) || ( current1_ == typed_other->current1_ && current2_ == typed_other->current2_ && current3_ == typed_other->current3_ && current4_ == typed_other->current4_ && current5_ == typed_other->current5_ && current6_ == typed_other->current6_ && current7_ == typed_other->current7_); } private: Iterator(const Iterator& other) : base_(other.base_), begin1_(other.begin1_), end1_(other.end1_), current1_(other.current1_), begin2_(other.begin2_), end2_(other.end2_), current2_(other.current2_), begin3_(other.begin3_), end3_(other.end3_), current3_(other.current3_), begin4_(other.begin4_), end4_(other.end4_), current4_(other.current4_), begin5_(other.begin5_), end5_(other.end5_), current5_(other.current5_), begin6_(other.begin6_), end6_(other.end6_), current6_(other.current6_), begin7_(other.begin7_), end7_(other.end7_), current7_(other.current7_) { ComputeCurrentValue(); } void ComputeCurrentValue() { if (!AtEnd()) current_value_ = ParamType(*current1_, *current2_, *current3_, *current4_, *current5_, *current6_, *current7_); } bool AtEnd() const { // We must report iterator past the end of the range when either of the // component iterators has reached the end of its range. return current1_ == end1_ || current2_ == end2_ || current3_ == end3_ || current4_ == end4_ || current5_ == end5_ || current6_ == end6_ || current7_ == end7_; } // No implementation - assignment is unsupported. void operator=(const Iterator& other); const ParamGeneratorInterface* const base_; // begin[i]_ and end[i]_ define the i-th range that Iterator traverses. // current[i]_ is the actual traversing iterator. const typename ParamGenerator::iterator begin1_; const typename ParamGenerator::iterator end1_; typename ParamGenerator::iterator current1_; const typename ParamGenerator::iterator begin2_; const typename ParamGenerator::iterator end2_; typename ParamGenerator::iterator current2_; const typename ParamGenerator::iterator begin3_; const typename ParamGenerator::iterator end3_; typename ParamGenerator::iterator current3_; const typename ParamGenerator::iterator begin4_; const typename ParamGenerator::iterator end4_; typename ParamGenerator::iterator current4_; const typename ParamGenerator::iterator begin5_; const typename ParamGenerator::iterator end5_; typename ParamGenerator::iterator current5_; const typename ParamGenerator::iterator begin6_; const typename ParamGenerator::iterator end6_; typename ParamGenerator::iterator current6_; const typename ParamGenerator::iterator begin7_; const typename ParamGenerator::iterator end7_; typename ParamGenerator::iterator current7_; ParamType current_value_; }; // class CartesianProductGenerator7::Iterator // No implementation - assignment is unsupported. void operator=(const CartesianProductGenerator7& other); const ParamGenerator g1_; const ParamGenerator g2_; const ParamGenerator g3_; const ParamGenerator g4_; const ParamGenerator g5_; const ParamGenerator g6_; const ParamGenerator g7_; }; // class CartesianProductGenerator7 template class CartesianProductGenerator8 : public ParamGeneratorInterface< ::testing::tuple > { public: typedef ::testing::tuple ParamType; CartesianProductGenerator8(const ParamGenerator& g1, const ParamGenerator& g2, const ParamGenerator& g3, const ParamGenerator& g4, const ParamGenerator& g5, const ParamGenerator& g6, const ParamGenerator& g7, const ParamGenerator& g8) : g1_(g1), g2_(g2), g3_(g3), g4_(g4), g5_(g5), g6_(g6), g7_(g7), g8_(g8) {} virtual ~CartesianProductGenerator8() {} virtual ParamIteratorInterface* Begin() const { return new Iterator(this, g1_, g1_.begin(), g2_, g2_.begin(), g3_, g3_.begin(), g4_, g4_.begin(), g5_, g5_.begin(), g6_, g6_.begin(), g7_, g7_.begin(), g8_, g8_.begin()); } virtual ParamIteratorInterface* End() const { return new Iterator(this, g1_, g1_.end(), g2_, g2_.end(), g3_, g3_.end(), g4_, g4_.end(), g5_, g5_.end(), g6_, g6_.end(), g7_, g7_.end(), g8_, g8_.end()); } private: class Iterator : public ParamIteratorInterface { public: Iterator(const ParamGeneratorInterface* base, const ParamGenerator& g1, const typename ParamGenerator::iterator& current1, const ParamGenerator& g2, const typename ParamGenerator::iterator& current2, const ParamGenerator& g3, const typename ParamGenerator::iterator& current3, const ParamGenerator& g4, const typename ParamGenerator::iterator& current4, const ParamGenerator& g5, const typename ParamGenerator::iterator& current5, const ParamGenerator& g6, const typename ParamGenerator::iterator& current6, const ParamGenerator& g7, const typename ParamGenerator::iterator& current7, const ParamGenerator& g8, const typename ParamGenerator::iterator& current8) : base_(base), begin1_(g1.begin()), end1_(g1.end()), current1_(current1), begin2_(g2.begin()), end2_(g2.end()), current2_(current2), begin3_(g3.begin()), end3_(g3.end()), current3_(current3), begin4_(g4.begin()), end4_(g4.end()), current4_(current4), begin5_(g5.begin()), end5_(g5.end()), current5_(current5), begin6_(g6.begin()), end6_(g6.end()), current6_(current6), begin7_(g7.begin()), end7_(g7.end()), current7_(current7), begin8_(g8.begin()), end8_(g8.end()), current8_(current8) { ComputeCurrentValue(); } virtual ~Iterator() {} virtual const ParamGeneratorInterface* BaseGenerator() const { return base_; } // Advance should not be called on beyond-of-range iterators // so no component iterators must be beyond end of range, either. virtual void Advance() { assert(!AtEnd()); ++current8_; if (current8_ == end8_) { current8_ = begin8_; ++current7_; } if (current7_ == end7_) { current7_ = begin7_; ++current6_; } if (current6_ == end6_) { current6_ = begin6_; ++current5_; } if (current5_ == end5_) { current5_ = begin5_; ++current4_; } if (current4_ == end4_) { current4_ = begin4_; ++current3_; } if (current3_ == end3_) { current3_ = begin3_; ++current2_; } if (current2_ == end2_) { current2_ = begin2_; ++current1_; } ComputeCurrentValue(); } virtual ParamIteratorInterface* Clone() const { return new Iterator(*this); } virtual const ParamType* Current() const { return ¤t_value_; } virtual bool Equals(const ParamIteratorInterface& other) const { // Having the same base generator guarantees that the other // iterator is of the same type and we can downcast. GTEST_CHECK_(BaseGenerator() == other.BaseGenerator()) << "The program attempted to compare iterators " << "from different generators." << std::endl; const Iterator* typed_other = CheckedDowncastToActualType(&other); // We must report iterators equal if they both point beyond their // respective ranges. That can happen in a variety of fashions, // so we have to consult AtEnd(). return (AtEnd() && typed_other->AtEnd()) || ( current1_ == typed_other->current1_ && current2_ == typed_other->current2_ && current3_ == typed_other->current3_ && current4_ == typed_other->current4_ && current5_ == typed_other->current5_ && current6_ == typed_other->current6_ && current7_ == typed_other->current7_ && current8_ == typed_other->current8_); } private: Iterator(const Iterator& other) : base_(other.base_), begin1_(other.begin1_), end1_(other.end1_), current1_(other.current1_), begin2_(other.begin2_), end2_(other.end2_), current2_(other.current2_), begin3_(other.begin3_), end3_(other.end3_), current3_(other.current3_), begin4_(other.begin4_), end4_(other.end4_), current4_(other.current4_), begin5_(other.begin5_), end5_(other.end5_), current5_(other.current5_), begin6_(other.begin6_), end6_(other.end6_), current6_(other.current6_), begin7_(other.begin7_), end7_(other.end7_), current7_(other.current7_), begin8_(other.begin8_), end8_(other.end8_), current8_(other.current8_) { ComputeCurrentValue(); } void ComputeCurrentValue() { if (!AtEnd()) current_value_ = ParamType(*current1_, *current2_, *current3_, *current4_, *current5_, *current6_, *current7_, *current8_); } bool AtEnd() const { // We must report iterator past the end of the range when either of the // component iterators has reached the end of its range. return current1_ == end1_ || current2_ == end2_ || current3_ == end3_ || current4_ == end4_ || current5_ == end5_ || current6_ == end6_ || current7_ == end7_ || current8_ == end8_; } // No implementation - assignment is unsupported. void operator=(const Iterator& other); const ParamGeneratorInterface* const base_; // begin[i]_ and end[i]_ define the i-th range that Iterator traverses. // current[i]_ is the actual traversing iterator. const typename ParamGenerator::iterator begin1_; const typename ParamGenerator::iterator end1_; typename ParamGenerator::iterator current1_; const typename ParamGenerator::iterator begin2_; const typename ParamGenerator::iterator end2_; typename ParamGenerator::iterator current2_; const typename ParamGenerator::iterator begin3_; const typename ParamGenerator::iterator end3_; typename ParamGenerator::iterator current3_; const typename ParamGenerator::iterator begin4_; const typename ParamGenerator::iterator end4_; typename ParamGenerator::iterator current4_; const typename ParamGenerator::iterator begin5_; const typename ParamGenerator::iterator end5_; typename ParamGenerator::iterator current5_; const typename ParamGenerator::iterator begin6_; const typename ParamGenerator::iterator end6_; typename ParamGenerator::iterator current6_; const typename ParamGenerator::iterator begin7_; const typename ParamGenerator::iterator end7_; typename ParamGenerator::iterator current7_; const typename ParamGenerator::iterator begin8_; const typename ParamGenerator::iterator end8_; typename ParamGenerator::iterator current8_; ParamType current_value_; }; // class CartesianProductGenerator8::Iterator // No implementation - assignment is unsupported. void operator=(const CartesianProductGenerator8& other); const ParamGenerator g1_; const ParamGenerator g2_; const ParamGenerator g3_; const ParamGenerator g4_; const ParamGenerator g5_; const ParamGenerator g6_; const ParamGenerator g7_; const ParamGenerator g8_; }; // class CartesianProductGenerator8 template class CartesianProductGenerator9 : public ParamGeneratorInterface< ::testing::tuple > { public: typedef ::testing::tuple ParamType; CartesianProductGenerator9(const ParamGenerator& g1, const ParamGenerator& g2, const ParamGenerator& g3, const ParamGenerator& g4, const ParamGenerator& g5, const ParamGenerator& g6, const ParamGenerator& g7, const ParamGenerator& g8, const ParamGenerator& g9) : g1_(g1), g2_(g2), g3_(g3), g4_(g4), g5_(g5), g6_(g6), g7_(g7), g8_(g8), g9_(g9) {} virtual ~CartesianProductGenerator9() {} virtual ParamIteratorInterface* Begin() const { return new Iterator(this, g1_, g1_.begin(), g2_, g2_.begin(), g3_, g3_.begin(), g4_, g4_.begin(), g5_, g5_.begin(), g6_, g6_.begin(), g7_, g7_.begin(), g8_, g8_.begin(), g9_, g9_.begin()); } virtual ParamIteratorInterface* End() const { return new Iterator(this, g1_, g1_.end(), g2_, g2_.end(), g3_, g3_.end(), g4_, g4_.end(), g5_, g5_.end(), g6_, g6_.end(), g7_, g7_.end(), g8_, g8_.end(), g9_, g9_.end()); } private: class Iterator : public ParamIteratorInterface { public: Iterator(const ParamGeneratorInterface* base, const ParamGenerator& g1, const typename ParamGenerator::iterator& current1, const ParamGenerator& g2, const typename ParamGenerator::iterator& current2, const ParamGenerator& g3, const typename ParamGenerator::iterator& current3, const ParamGenerator& g4, const typename ParamGenerator::iterator& current4, const ParamGenerator& g5, const typename ParamGenerator::iterator& current5, const ParamGenerator& g6, const typename ParamGenerator::iterator& current6, const ParamGenerator& g7, const typename ParamGenerator::iterator& current7, const ParamGenerator& g8, const typename ParamGenerator::iterator& current8, const ParamGenerator& g9, const typename ParamGenerator::iterator& current9) : base_(base), begin1_(g1.begin()), end1_(g1.end()), current1_(current1), begin2_(g2.begin()), end2_(g2.end()), current2_(current2), begin3_(g3.begin()), end3_(g3.end()), current3_(current3), begin4_(g4.begin()), end4_(g4.end()), current4_(current4), begin5_(g5.begin()), end5_(g5.end()), current5_(current5), begin6_(g6.begin()), end6_(g6.end()), current6_(current6), begin7_(g7.begin()), end7_(g7.end()), current7_(current7), begin8_(g8.begin()), end8_(g8.end()), current8_(current8), begin9_(g9.begin()), end9_(g9.end()), current9_(current9) { ComputeCurrentValue(); } virtual ~Iterator() {} virtual const ParamGeneratorInterface* BaseGenerator() const { return base_; } // Advance should not be called on beyond-of-range iterators // so no component iterators must be beyond end of range, either. virtual void Advance() { assert(!AtEnd()); ++current9_; if (current9_ == end9_) { current9_ = begin9_; ++current8_; } if (current8_ == end8_) { current8_ = begin8_; ++current7_; } if (current7_ == end7_) { current7_ = begin7_; ++current6_; } if (current6_ == end6_) { current6_ = begin6_; ++current5_; } if (current5_ == end5_) { current5_ = begin5_; ++current4_; } if (current4_ == end4_) { current4_ = begin4_; ++current3_; } if (current3_ == end3_) { current3_ = begin3_; ++current2_; } if (current2_ == end2_) { current2_ = begin2_; ++current1_; } ComputeCurrentValue(); } virtual ParamIteratorInterface* Clone() const { return new Iterator(*this); } virtual const ParamType* Current() const { return ¤t_value_; } virtual bool Equals(const ParamIteratorInterface& other) const { // Having the same base generator guarantees that the other // iterator is of the same type and we can downcast. GTEST_CHECK_(BaseGenerator() == other.BaseGenerator()) << "The program attempted to compare iterators " << "from different generators." << std::endl; const Iterator* typed_other = CheckedDowncastToActualType(&other); // We must report iterators equal if they both point beyond their // respective ranges. That can happen in a variety of fashions, // so we have to consult AtEnd(). return (AtEnd() && typed_other->AtEnd()) || ( current1_ == typed_other->current1_ && current2_ == typed_other->current2_ && current3_ == typed_other->current3_ && current4_ == typed_other->current4_ && current5_ == typed_other->current5_ && current6_ == typed_other->current6_ && current7_ == typed_other->current7_ && current8_ == typed_other->current8_ && current9_ == typed_other->current9_); } private: Iterator(const Iterator& other) : base_(other.base_), begin1_(other.begin1_), end1_(other.end1_), current1_(other.current1_), begin2_(other.begin2_), end2_(other.end2_), current2_(other.current2_), begin3_(other.begin3_), end3_(other.end3_), current3_(other.current3_), begin4_(other.begin4_), end4_(other.end4_), current4_(other.current4_), begin5_(other.begin5_), end5_(other.end5_), current5_(other.current5_), begin6_(other.begin6_), end6_(other.end6_), current6_(other.current6_), begin7_(other.begin7_), end7_(other.end7_), current7_(other.current7_), begin8_(other.begin8_), end8_(other.end8_), current8_(other.current8_), begin9_(other.begin9_), end9_(other.end9_), current9_(other.current9_) { ComputeCurrentValue(); } void ComputeCurrentValue() { if (!AtEnd()) current_value_ = ParamType(*current1_, *current2_, *current3_, *current4_, *current5_, *current6_, *current7_, *current8_, *current9_); } bool AtEnd() const { // We must report iterator past the end of the range when either of the // component iterators has reached the end of its range. return current1_ == end1_ || current2_ == end2_ || current3_ == end3_ || current4_ == end4_ || current5_ == end5_ || current6_ == end6_ || current7_ == end7_ || current8_ == end8_ || current9_ == end9_; } // No implementation - assignment is unsupported. void operator=(const Iterator& other); const ParamGeneratorInterface* const base_; // begin[i]_ and end[i]_ define the i-th range that Iterator traverses. // current[i]_ is the actual traversing iterator. const typename ParamGenerator::iterator begin1_; const typename ParamGenerator::iterator end1_; typename ParamGenerator::iterator current1_; const typename ParamGenerator::iterator begin2_; const typename ParamGenerator::iterator end2_; typename ParamGenerator::iterator current2_; const typename ParamGenerator::iterator begin3_; const typename ParamGenerator::iterator end3_; typename ParamGenerator::iterator current3_; const typename ParamGenerator::iterator begin4_; const typename ParamGenerator::iterator end4_; typename ParamGenerator::iterator current4_; const typename ParamGenerator::iterator begin5_; const typename ParamGenerator::iterator end5_; typename ParamGenerator::iterator current5_; const typename ParamGenerator::iterator begin6_; const typename ParamGenerator::iterator end6_; typename ParamGenerator::iterator current6_; const typename ParamGenerator::iterator begin7_; const typename ParamGenerator::iterator end7_; typename ParamGenerator::iterator current7_; const typename ParamGenerator::iterator begin8_; const typename ParamGenerator::iterator end8_; typename ParamGenerator::iterator current8_; const typename ParamGenerator::iterator begin9_; const typename ParamGenerator::iterator end9_; typename ParamGenerator::iterator current9_; ParamType current_value_; }; // class CartesianProductGenerator9::Iterator // No implementation - assignment is unsupported. void operator=(const CartesianProductGenerator9& other); const ParamGenerator g1_; const ParamGenerator g2_; const ParamGenerator g3_; const ParamGenerator g4_; const ParamGenerator g5_; const ParamGenerator g6_; const ParamGenerator g7_; const ParamGenerator g8_; const ParamGenerator g9_; }; // class CartesianProductGenerator9 template class CartesianProductGenerator10 : public ParamGeneratorInterface< ::testing::tuple > { public: typedef ::testing::tuple ParamType; CartesianProductGenerator10(const ParamGenerator& g1, const ParamGenerator& g2, const ParamGenerator& g3, const ParamGenerator& g4, const ParamGenerator& g5, const ParamGenerator& g6, const ParamGenerator& g7, const ParamGenerator& g8, const ParamGenerator& g9, const ParamGenerator& g10) : g1_(g1), g2_(g2), g3_(g3), g4_(g4), g5_(g5), g6_(g6), g7_(g7), g8_(g8), g9_(g9), g10_(g10) {} virtual ~CartesianProductGenerator10() {} virtual ParamIteratorInterface* Begin() const { return new Iterator(this, g1_, g1_.begin(), g2_, g2_.begin(), g3_, g3_.begin(), g4_, g4_.begin(), g5_, g5_.begin(), g6_, g6_.begin(), g7_, g7_.begin(), g8_, g8_.begin(), g9_, g9_.begin(), g10_, g10_.begin()); } virtual ParamIteratorInterface* End() const { return new Iterator(this, g1_, g1_.end(), g2_, g2_.end(), g3_, g3_.end(), g4_, g4_.end(), g5_, g5_.end(), g6_, g6_.end(), g7_, g7_.end(), g8_, g8_.end(), g9_, g9_.end(), g10_, g10_.end()); } private: class Iterator : public ParamIteratorInterface { public: Iterator(const ParamGeneratorInterface* base, const ParamGenerator& g1, const typename ParamGenerator::iterator& current1, const ParamGenerator& g2, const typename ParamGenerator::iterator& current2, const ParamGenerator& g3, const typename ParamGenerator::iterator& current3, const ParamGenerator& g4, const typename ParamGenerator::iterator& current4, const ParamGenerator& g5, const typename ParamGenerator::iterator& current5, const ParamGenerator& g6, const typename ParamGenerator::iterator& current6, const ParamGenerator& g7, const typename ParamGenerator::iterator& current7, const ParamGenerator& g8, const typename ParamGenerator::iterator& current8, const ParamGenerator& g9, const typename ParamGenerator::iterator& current9, const ParamGenerator& g10, const typename ParamGenerator::iterator& current10) : base_(base), begin1_(g1.begin()), end1_(g1.end()), current1_(current1), begin2_(g2.begin()), end2_(g2.end()), current2_(current2), begin3_(g3.begin()), end3_(g3.end()), current3_(current3), begin4_(g4.begin()), end4_(g4.end()), current4_(current4), begin5_(g5.begin()), end5_(g5.end()), current5_(current5), begin6_(g6.begin()), end6_(g6.end()), current6_(current6), begin7_(g7.begin()), end7_(g7.end()), current7_(current7), begin8_(g8.begin()), end8_(g8.end()), current8_(current8), begin9_(g9.begin()), end9_(g9.end()), current9_(current9), begin10_(g10.begin()), end10_(g10.end()), current10_(current10) { ComputeCurrentValue(); } virtual ~Iterator() {} virtual const ParamGeneratorInterface* BaseGenerator() const { return base_; } // Advance should not be called on beyond-of-range iterators // so no component iterators must be beyond end of range, either. virtual void Advance() { assert(!AtEnd()); ++current10_; if (current10_ == end10_) { current10_ = begin10_; ++current9_; } if (current9_ == end9_) { current9_ = begin9_; ++current8_; } if (current8_ == end8_) { current8_ = begin8_; ++current7_; } if (current7_ == end7_) { current7_ = begin7_; ++current6_; } if (current6_ == end6_) { current6_ = begin6_; ++current5_; } if (current5_ == end5_) { current5_ = begin5_; ++current4_; } if (current4_ == end4_) { current4_ = begin4_; ++current3_; } if (current3_ == end3_) { current3_ = begin3_; ++current2_; } if (current2_ == end2_) { current2_ = begin2_; ++current1_; } ComputeCurrentValue(); } virtual ParamIteratorInterface* Clone() const { return new Iterator(*this); } virtual const ParamType* Current() const { return ¤t_value_; } virtual bool Equals(const ParamIteratorInterface& other) const { // Having the same base generator guarantees that the other // iterator is of the same type and we can downcast. GTEST_CHECK_(BaseGenerator() == other.BaseGenerator()) << "The program attempted to compare iterators " << "from different generators." << std::endl; const Iterator* typed_other = CheckedDowncastToActualType(&other); // We must report iterators equal if they both point beyond their // respective ranges. That can happen in a variety of fashions, // so we have to consult AtEnd(). return (AtEnd() && typed_other->AtEnd()) || ( current1_ == typed_other->current1_ && current2_ == typed_other->current2_ && current3_ == typed_other->current3_ && current4_ == typed_other->current4_ && current5_ == typed_other->current5_ && current6_ == typed_other->current6_ && current7_ == typed_other->current7_ && current8_ == typed_other->current8_ && current9_ == typed_other->current9_ && current10_ == typed_other->current10_); } private: Iterator(const Iterator& other) : base_(other.base_), begin1_(other.begin1_), end1_(other.end1_), current1_(other.current1_), begin2_(other.begin2_), end2_(other.end2_), current2_(other.current2_), begin3_(other.begin3_), end3_(other.end3_), current3_(other.current3_), begin4_(other.begin4_), end4_(other.end4_), current4_(other.current4_), begin5_(other.begin5_), end5_(other.end5_), current5_(other.current5_), begin6_(other.begin6_), end6_(other.end6_), current6_(other.current6_), begin7_(other.begin7_), end7_(other.end7_), current7_(other.current7_), begin8_(other.begin8_), end8_(other.end8_), current8_(other.current8_), begin9_(other.begin9_), end9_(other.end9_), current9_(other.current9_), begin10_(other.begin10_), end10_(other.end10_), current10_(other.current10_) { ComputeCurrentValue(); } void ComputeCurrentValue() { if (!AtEnd()) current_value_ = ParamType(*current1_, *current2_, *current3_, *current4_, *current5_, *current6_, *current7_, *current8_, *current9_, *current10_); } bool AtEnd() const { // We must report iterator past the end of the range when either of the // component iterators has reached the end of its range. return current1_ == end1_ || current2_ == end2_ || current3_ == end3_ || current4_ == end4_ || current5_ == end5_ || current6_ == end6_ || current7_ == end7_ || current8_ == end8_ || current9_ == end9_ || current10_ == end10_; } // No implementation - assignment is unsupported. void operator=(const Iterator& other); const ParamGeneratorInterface* const base_; // begin[i]_ and end[i]_ define the i-th range that Iterator traverses. // current[i]_ is the actual traversing iterator. const typename ParamGenerator::iterator begin1_; const typename ParamGenerator::iterator end1_; typename ParamGenerator::iterator current1_; const typename ParamGenerator::iterator begin2_; const typename ParamGenerator::iterator end2_; typename ParamGenerator::iterator current2_; const typename ParamGenerator::iterator begin3_; const typename ParamGenerator::iterator end3_; typename ParamGenerator::iterator current3_; const typename ParamGenerator::iterator begin4_; const typename ParamGenerator::iterator end4_; typename ParamGenerator::iterator current4_; const typename ParamGenerator::iterator begin5_; const typename ParamGenerator::iterator end5_; typename ParamGenerator::iterator current5_; const typename ParamGenerator::iterator begin6_; const typename ParamGenerator::iterator end6_; typename ParamGenerator::iterator current6_; const typename ParamGenerator::iterator begin7_; const typename ParamGenerator::iterator end7_; typename ParamGenerator::iterator current7_; const typename ParamGenerator::iterator begin8_; const typename ParamGenerator::iterator end8_; typename ParamGenerator::iterator current8_; const typename ParamGenerator::iterator begin9_; const typename ParamGenerator::iterator end9_; typename ParamGenerator::iterator current9_; const typename ParamGenerator::iterator begin10_; const typename ParamGenerator::iterator end10_; typename ParamGenerator::iterator current10_; ParamType current_value_; }; // class CartesianProductGenerator10::Iterator // No implementation - assignment is unsupported. void operator=(const CartesianProductGenerator10& other); const ParamGenerator g1_; const ParamGenerator g2_; const ParamGenerator g3_; const ParamGenerator g4_; const ParamGenerator g5_; const ParamGenerator g6_; const ParamGenerator g7_; const ParamGenerator g8_; const ParamGenerator g9_; const ParamGenerator g10_; }; // class CartesianProductGenerator10 // INTERNAL IMPLEMENTATION - DO NOT USE IN USER CODE. // // Helper classes providing Combine() with polymorphic features. They allow // casting CartesianProductGeneratorN to ParamGenerator if T is // convertible to U. // template class CartesianProductHolder2 { public: CartesianProductHolder2(const Generator1& g1, const Generator2& g2) : g1_(g1), g2_(g2) {} template operator ParamGenerator< ::testing::tuple >() const { return ParamGenerator< ::testing::tuple >( new CartesianProductGenerator2( static_cast >(g1_), static_cast >(g2_))); } private: // No implementation - assignment is unsupported. void operator=(const CartesianProductHolder2& other); const Generator1 g1_; const Generator2 g2_; }; // class CartesianProductHolder2 template class CartesianProductHolder3 { public: CartesianProductHolder3(const Generator1& g1, const Generator2& g2, const Generator3& g3) : g1_(g1), g2_(g2), g3_(g3) {} template operator ParamGenerator< ::testing::tuple >() const { return ParamGenerator< ::testing::tuple >( new CartesianProductGenerator3( static_cast >(g1_), static_cast >(g2_), static_cast >(g3_))); } private: // No implementation - assignment is unsupported. void operator=(const CartesianProductHolder3& other); const Generator1 g1_; const Generator2 g2_; const Generator3 g3_; }; // class CartesianProductHolder3 template class CartesianProductHolder4 { public: CartesianProductHolder4(const Generator1& g1, const Generator2& g2, const Generator3& g3, const Generator4& g4) : g1_(g1), g2_(g2), g3_(g3), g4_(g4) {} template operator ParamGenerator< ::testing::tuple >() const { return ParamGenerator< ::testing::tuple >( new CartesianProductGenerator4( static_cast >(g1_), static_cast >(g2_), static_cast >(g3_), static_cast >(g4_))); } private: // No implementation - assignment is unsupported. void operator=(const CartesianProductHolder4& other); const Generator1 g1_; const Generator2 g2_; const Generator3 g3_; const Generator4 g4_; }; // class CartesianProductHolder4 template class CartesianProductHolder5 { public: CartesianProductHolder5(const Generator1& g1, const Generator2& g2, const Generator3& g3, const Generator4& g4, const Generator5& g5) : g1_(g1), g2_(g2), g3_(g3), g4_(g4), g5_(g5) {} template operator ParamGenerator< ::testing::tuple >() const { return ParamGenerator< ::testing::tuple >( new CartesianProductGenerator5( static_cast >(g1_), static_cast >(g2_), static_cast >(g3_), static_cast >(g4_), static_cast >(g5_))); } private: // No implementation - assignment is unsupported. void operator=(const CartesianProductHolder5& other); const Generator1 g1_; const Generator2 g2_; const Generator3 g3_; const Generator4 g4_; const Generator5 g5_; }; // class CartesianProductHolder5 template class CartesianProductHolder6 { public: CartesianProductHolder6(const Generator1& g1, const Generator2& g2, const Generator3& g3, const Generator4& g4, const Generator5& g5, const Generator6& g6) : g1_(g1), g2_(g2), g3_(g3), g4_(g4), g5_(g5), g6_(g6) {} template operator ParamGenerator< ::testing::tuple >() const { return ParamGenerator< ::testing::tuple >( new CartesianProductGenerator6( static_cast >(g1_), static_cast >(g2_), static_cast >(g3_), static_cast >(g4_), static_cast >(g5_), static_cast >(g6_))); } private: // No implementation - assignment is unsupported. void operator=(const CartesianProductHolder6& other); const Generator1 g1_; const Generator2 g2_; const Generator3 g3_; const Generator4 g4_; const Generator5 g5_; const Generator6 g6_; }; // class CartesianProductHolder6 template class CartesianProductHolder7 { public: CartesianProductHolder7(const Generator1& g1, const Generator2& g2, const Generator3& g3, const Generator4& g4, const Generator5& g5, const Generator6& g6, const Generator7& g7) : g1_(g1), g2_(g2), g3_(g3), g4_(g4), g5_(g5), g6_(g6), g7_(g7) {} template operator ParamGenerator< ::testing::tuple >() const { return ParamGenerator< ::testing::tuple >( new CartesianProductGenerator7( static_cast >(g1_), static_cast >(g2_), static_cast >(g3_), static_cast >(g4_), static_cast >(g5_), static_cast >(g6_), static_cast >(g7_))); } private: // No implementation - assignment is unsupported. void operator=(const CartesianProductHolder7& other); const Generator1 g1_; const Generator2 g2_; const Generator3 g3_; const Generator4 g4_; const Generator5 g5_; const Generator6 g6_; const Generator7 g7_; }; // class CartesianProductHolder7 template class CartesianProductHolder8 { public: CartesianProductHolder8(const Generator1& g1, const Generator2& g2, const Generator3& g3, const Generator4& g4, const Generator5& g5, const Generator6& g6, const Generator7& g7, const Generator8& g8) : g1_(g1), g2_(g2), g3_(g3), g4_(g4), g5_(g5), g6_(g6), g7_(g7), g8_(g8) {} template operator ParamGenerator< ::testing::tuple >() const { return ParamGenerator< ::testing::tuple >( new CartesianProductGenerator8( static_cast >(g1_), static_cast >(g2_), static_cast >(g3_), static_cast >(g4_), static_cast >(g5_), static_cast >(g6_), static_cast >(g7_), static_cast >(g8_))); } private: // No implementation - assignment is unsupported. void operator=(const CartesianProductHolder8& other); const Generator1 g1_; const Generator2 g2_; const Generator3 g3_; const Generator4 g4_; const Generator5 g5_; const Generator6 g6_; const Generator7 g7_; const Generator8 g8_; }; // class CartesianProductHolder8 template class CartesianProductHolder9 { public: CartesianProductHolder9(const Generator1& g1, const Generator2& g2, const Generator3& g3, const Generator4& g4, const Generator5& g5, const Generator6& g6, const Generator7& g7, const Generator8& g8, const Generator9& g9) : g1_(g1), g2_(g2), g3_(g3), g4_(g4), g5_(g5), g6_(g6), g7_(g7), g8_(g8), g9_(g9) {} template operator ParamGenerator< ::testing::tuple >() const { return ParamGenerator< ::testing::tuple >( new CartesianProductGenerator9( static_cast >(g1_), static_cast >(g2_), static_cast >(g3_), static_cast >(g4_), static_cast >(g5_), static_cast >(g6_), static_cast >(g7_), static_cast >(g8_), static_cast >(g9_))); } private: // No implementation - assignment is unsupported. void operator=(const CartesianProductHolder9& other); const Generator1 g1_; const Generator2 g2_; const Generator3 g3_; const Generator4 g4_; const Generator5 g5_; const Generator6 g6_; const Generator7 g7_; const Generator8 g8_; const Generator9 g9_; }; // class CartesianProductHolder9 template class CartesianProductHolder10 { public: CartesianProductHolder10(const Generator1& g1, const Generator2& g2, const Generator3& g3, const Generator4& g4, const Generator5& g5, const Generator6& g6, const Generator7& g7, const Generator8& g8, const Generator9& g9, const Generator10& g10) : g1_(g1), g2_(g2), g3_(g3), g4_(g4), g5_(g5), g6_(g6), g7_(g7), g8_(g8), g9_(g9), g10_(g10) {} template operator ParamGenerator< ::testing::tuple >() const { return ParamGenerator< ::testing::tuple >( new CartesianProductGenerator10( static_cast >(g1_), static_cast >(g2_), static_cast >(g3_), static_cast >(g4_), static_cast >(g5_), static_cast >(g6_), static_cast >(g7_), static_cast >(g8_), static_cast >(g9_), static_cast >(g10_))); } private: // No implementation - assignment is unsupported. void operator=(const CartesianProductHolder10& other); const Generator1 g1_; const Generator2 g2_; const Generator3 g3_; const Generator4 g4_; const Generator5 g5_; const Generator6 g6_; const Generator7 g7_; const Generator8 g8_; const Generator9 g9_; const Generator10 g10_; }; // class CartesianProductHolder10 # endif // GTEST_HAS_COMBINE } // namespace internal } // namespace testing #endif // GTEST_HAS_PARAM_TEST #endif // GTEST_INCLUDE_GTEST_INTERNAL_GTEST_PARAM_UTIL_GENERATED_H_ #if GTEST_HAS_PARAM_TEST namespace testing { // Functions producing parameter generators. // // Google Test uses these generators to produce parameters for value- // parameterized tests. When a parameterized test case is instantiated // with a particular generator, Google Test creates and runs tests // for each element in the sequence produced by the generator. // // In the following sample, tests from test case FooTest are instantiated // each three times with parameter values 3, 5, and 8: // // class FooTest : public TestWithParam { ... }; // // TEST_P(FooTest, TestThis) { // } // TEST_P(FooTest, TestThat) { // } // INSTANTIATE_TEST_CASE_P(TestSequence, FooTest, Values(3, 5, 8)); // // Range() returns generators providing sequences of values in a range. // // Synopsis: // Range(start, end) // - returns a generator producing a sequence of values {start, start+1, // start+2, ..., }. // Range(start, end, step) // - returns a generator producing a sequence of values {start, start+step, // start+step+step, ..., }. // Notes: // * The generated sequences never include end. For example, Range(1, 5) // returns a generator producing a sequence {1, 2, 3, 4}. Range(1, 9, 2) // returns a generator producing {1, 3, 5, 7}. // * start and end must have the same type. That type may be any integral or // floating-point type or a user defined type satisfying these conditions: // * It must be assignable (have operator=() defined). // * It must have operator+() (operator+(int-compatible type) for // two-operand version). // * It must have operator<() defined. // Elements in the resulting sequences will also have that type. // * Condition start < end must be satisfied in order for resulting sequences // to contain any elements. // template internal::ParamGenerator Range(T start, T end, IncrementT step) { return internal::ParamGenerator( new internal::RangeGenerator(start, end, step)); } template internal::ParamGenerator Range(T start, T end) { return Range(start, end, 1); } // ValuesIn() function allows generation of tests with parameters coming from // a container. // // Synopsis: // ValuesIn(const T (&array)[N]) // - returns a generator producing sequences with elements from // a C-style array. // ValuesIn(const Container& container) // - returns a generator producing sequences with elements from // an STL-style container. // ValuesIn(Iterator begin, Iterator end) // - returns a generator producing sequences with elements from // a range [begin, end) defined by a pair of STL-style iterators. These // iterators can also be plain C pointers. // // Please note that ValuesIn copies the values from the containers // passed in and keeps them to generate tests in RUN_ALL_TESTS(). // // Examples: // // This instantiates tests from test case StringTest // each with C-string values of "foo", "bar", and "baz": // // const char* strings[] = {"foo", "bar", "baz"}; // INSTANTIATE_TEST_CASE_P(StringSequence, SrtingTest, ValuesIn(strings)); // // This instantiates tests from test case StlStringTest // each with STL strings with values "a" and "b": // // ::std::vector< ::std::string> GetParameterStrings() { // ::std::vector< ::std::string> v; // v.push_back("a"); // v.push_back("b"); // return v; // } // // INSTANTIATE_TEST_CASE_P(CharSequence, // StlStringTest, // ValuesIn(GetParameterStrings())); // // // This will also instantiate tests from CharTest // each with parameter values 'a' and 'b': // // ::std::list GetParameterChars() { // ::std::list list; // list.push_back('a'); // list.push_back('b'); // return list; // } // ::std::list l = GetParameterChars(); // INSTANTIATE_TEST_CASE_P(CharSequence2, // CharTest, // ValuesIn(l.begin(), l.end())); // template internal::ParamGenerator< typename ::testing::internal::IteratorTraits::value_type> ValuesIn(ForwardIterator begin, ForwardIterator end) { typedef typename ::testing::internal::IteratorTraits ::value_type ParamType; return internal::ParamGenerator( new internal::ValuesInIteratorRangeGenerator(begin, end)); } template internal::ParamGenerator ValuesIn(const T (&array)[N]) { return ValuesIn(array, array + N); } template internal::ParamGenerator ValuesIn( const Container& container) { return ValuesIn(container.begin(), container.end()); } // Values() allows generating tests from explicitly specified list of // parameters. // // Synopsis: // Values(T v1, T v2, ..., T vN) // - returns a generator producing sequences with elements v1, v2, ..., vN. // // For example, this instantiates tests from test case BarTest each // with values "one", "two", and "three": // // INSTANTIATE_TEST_CASE_P(NumSequence, BarTest, Values("one", "two", "three")); // // This instantiates tests from test case BazTest each with values 1, 2, 3.5. // The exact type of values will depend on the type of parameter in BazTest. // // INSTANTIATE_TEST_CASE_P(FloatingNumbers, BazTest, Values(1, 2, 3.5)); // // Currently, Values() supports from 1 to 50 parameters. // template internal::ValueArray1 Values(T1 v1) { return internal::ValueArray1(v1); } template internal::ValueArray2 Values(T1 v1, T2 v2) { return internal::ValueArray2(v1, v2); } template internal::ValueArray3 Values(T1 v1, T2 v2, T3 v3) { return internal::ValueArray3(v1, v2, v3); } template internal::ValueArray4 Values(T1 v1, T2 v2, T3 v3, T4 v4) { return internal::ValueArray4(v1, v2, v3, v4); } template internal::ValueArray5 Values(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5) { return internal::ValueArray5(v1, v2, v3, v4, v5); } template internal::ValueArray6 Values(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6) { return internal::ValueArray6(v1, v2, v3, v4, v5, v6); } template internal::ValueArray7 Values(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7) { return internal::ValueArray7(v1, v2, v3, v4, v5, v6, v7); } template internal::ValueArray8 Values(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8) { return internal::ValueArray8(v1, v2, v3, v4, v5, v6, v7, v8); } template internal::ValueArray9 Values(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9) { return internal::ValueArray9(v1, v2, v3, v4, v5, v6, v7, v8, v9); } template internal::ValueArray10 Values(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10) { return internal::ValueArray10(v1, v2, v3, v4, v5, v6, v7, v8, v9, v10); } template internal::ValueArray11 Values(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11) { return internal::ValueArray11(v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11); } template internal::ValueArray12 Values(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12) { return internal::ValueArray12(v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11, v12); } template internal::ValueArray13 Values(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13) { return internal::ValueArray13(v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11, v12, v13); } template internal::ValueArray14 Values(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14) { return internal::ValueArray14(v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11, v12, v13, v14); } template internal::ValueArray15 Values(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15) { return internal::ValueArray15(v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11, v12, v13, v14, v15); } template internal::ValueArray16 Values(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16) { return internal::ValueArray16(v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11, v12, v13, v14, v15, v16); } template internal::ValueArray17 Values(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17) { return internal::ValueArray17(v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11, v12, v13, v14, v15, v16, v17); } template internal::ValueArray18 Values(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18) { return internal::ValueArray18(v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11, v12, v13, v14, v15, v16, v17, v18); } template internal::ValueArray19 Values(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19) { return internal::ValueArray19(v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11, v12, v13, v14, v15, v16, v17, v18, v19); } template internal::ValueArray20 Values(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20) { return internal::ValueArray20(v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11, v12, v13, v14, v15, v16, v17, v18, v19, v20); } template internal::ValueArray21 Values(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21) { return internal::ValueArray21(v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11, v12, v13, v14, v15, v16, v17, v18, v19, v20, v21); } template internal::ValueArray22 Values(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21, T22 v22) { return internal::ValueArray22(v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11, v12, v13, v14, v15, v16, v17, v18, v19, v20, v21, v22); } template internal::ValueArray23 Values(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21, T22 v22, T23 v23) { return internal::ValueArray23(v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11, v12, v13, v14, v15, v16, v17, v18, v19, v20, v21, v22, v23); } template internal::ValueArray24 Values(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21, T22 v22, T23 v23, T24 v24) { return internal::ValueArray24(v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11, v12, v13, v14, v15, v16, v17, v18, v19, v20, v21, v22, v23, v24); } template internal::ValueArray25 Values(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21, T22 v22, T23 v23, T24 v24, T25 v25) { return internal::ValueArray25(v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11, v12, v13, v14, v15, v16, v17, v18, v19, v20, v21, v22, v23, v24, v25); } template internal::ValueArray26 Values(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21, T22 v22, T23 v23, T24 v24, T25 v25, T26 v26) { return internal::ValueArray26(v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11, v12, v13, v14, v15, v16, v17, v18, v19, v20, v21, v22, v23, v24, v25, v26); } template internal::ValueArray27 Values(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21, T22 v22, T23 v23, T24 v24, T25 v25, T26 v26, T27 v27) { return internal::ValueArray27(v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11, v12, v13, v14, v15, v16, v17, v18, v19, v20, v21, v22, v23, v24, v25, v26, v27); } template internal::ValueArray28 Values(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21, T22 v22, T23 v23, T24 v24, T25 v25, T26 v26, T27 v27, T28 v28) { return internal::ValueArray28(v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11, v12, v13, v14, v15, v16, v17, v18, v19, v20, v21, v22, v23, v24, v25, v26, v27, v28); } template internal::ValueArray29 Values(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21, T22 v22, T23 v23, T24 v24, T25 v25, T26 v26, T27 v27, T28 v28, T29 v29) { return internal::ValueArray29(v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11, v12, v13, v14, v15, v16, v17, v18, v19, v20, v21, v22, v23, v24, v25, v26, v27, v28, v29); } template internal::ValueArray30 Values(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21, T22 v22, T23 v23, T24 v24, T25 v25, T26 v26, T27 v27, T28 v28, T29 v29, T30 v30) { return internal::ValueArray30(v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11, v12, v13, v14, v15, v16, v17, v18, v19, v20, v21, v22, v23, v24, v25, v26, v27, v28, v29, v30); } template internal::ValueArray31 Values(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21, T22 v22, T23 v23, T24 v24, T25 v25, T26 v26, T27 v27, T28 v28, T29 v29, T30 v30, T31 v31) { return internal::ValueArray31(v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11, v12, v13, v14, v15, v16, v17, v18, v19, v20, v21, v22, v23, v24, v25, v26, v27, v28, v29, v30, v31); } template internal::ValueArray32 Values(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21, T22 v22, T23 v23, T24 v24, T25 v25, T26 v26, T27 v27, T28 v28, T29 v29, T30 v30, T31 v31, T32 v32) { return internal::ValueArray32(v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11, v12, v13, v14, v15, v16, v17, v18, v19, v20, v21, v22, v23, v24, v25, v26, v27, v28, v29, v30, v31, v32); } template internal::ValueArray33 Values(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21, T22 v22, T23 v23, T24 v24, T25 v25, T26 v26, T27 v27, T28 v28, T29 v29, T30 v30, T31 v31, T32 v32, T33 v33) { return internal::ValueArray33(v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11, v12, v13, v14, v15, v16, v17, v18, v19, v20, v21, v22, v23, v24, v25, v26, v27, v28, v29, v30, v31, v32, v33); } template internal::ValueArray34 Values(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21, T22 v22, T23 v23, T24 v24, T25 v25, T26 v26, T27 v27, T28 v28, T29 v29, T30 v30, T31 v31, T32 v32, T33 v33, T34 v34) { return internal::ValueArray34(v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11, v12, v13, v14, v15, v16, v17, v18, v19, v20, v21, v22, v23, v24, v25, v26, v27, v28, v29, v30, v31, v32, v33, v34); } template internal::ValueArray35 Values(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21, T22 v22, T23 v23, T24 v24, T25 v25, T26 v26, T27 v27, T28 v28, T29 v29, T30 v30, T31 v31, T32 v32, T33 v33, T34 v34, T35 v35) { return internal::ValueArray35(v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11, v12, v13, v14, v15, v16, v17, v18, v19, v20, v21, v22, v23, v24, v25, v26, v27, v28, v29, v30, v31, v32, v33, v34, v35); } template internal::ValueArray36 Values(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21, T22 v22, T23 v23, T24 v24, T25 v25, T26 v26, T27 v27, T28 v28, T29 v29, T30 v30, T31 v31, T32 v32, T33 v33, T34 v34, T35 v35, T36 v36) { return internal::ValueArray36(v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11, v12, v13, v14, v15, v16, v17, v18, v19, v20, v21, v22, v23, v24, v25, v26, v27, v28, v29, v30, v31, v32, v33, v34, v35, v36); } template internal::ValueArray37 Values(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21, T22 v22, T23 v23, T24 v24, T25 v25, T26 v26, T27 v27, T28 v28, T29 v29, T30 v30, T31 v31, T32 v32, T33 v33, T34 v34, T35 v35, T36 v36, T37 v37) { return internal::ValueArray37(v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11, v12, v13, v14, v15, v16, v17, v18, v19, v20, v21, v22, v23, v24, v25, v26, v27, v28, v29, v30, v31, v32, v33, v34, v35, v36, v37); } template internal::ValueArray38 Values(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21, T22 v22, T23 v23, T24 v24, T25 v25, T26 v26, T27 v27, T28 v28, T29 v29, T30 v30, T31 v31, T32 v32, T33 v33, T34 v34, T35 v35, T36 v36, T37 v37, T38 v38) { return internal::ValueArray38(v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11, v12, v13, v14, v15, v16, v17, v18, v19, v20, v21, v22, v23, v24, v25, v26, v27, v28, v29, v30, v31, v32, v33, v34, v35, v36, v37, v38); } template internal::ValueArray39 Values(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21, T22 v22, T23 v23, T24 v24, T25 v25, T26 v26, T27 v27, T28 v28, T29 v29, T30 v30, T31 v31, T32 v32, T33 v33, T34 v34, T35 v35, T36 v36, T37 v37, T38 v38, T39 v39) { return internal::ValueArray39(v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11, v12, v13, v14, v15, v16, v17, v18, v19, v20, v21, v22, v23, v24, v25, v26, v27, v28, v29, v30, v31, v32, v33, v34, v35, v36, v37, v38, v39); } template internal::ValueArray40 Values(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21, T22 v22, T23 v23, T24 v24, T25 v25, T26 v26, T27 v27, T28 v28, T29 v29, T30 v30, T31 v31, T32 v32, T33 v33, T34 v34, T35 v35, T36 v36, T37 v37, T38 v38, T39 v39, T40 v40) { return internal::ValueArray40(v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11, v12, v13, v14, v15, v16, v17, v18, v19, v20, v21, v22, v23, v24, v25, v26, v27, v28, v29, v30, v31, v32, v33, v34, v35, v36, v37, v38, v39, v40); } template internal::ValueArray41 Values(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21, T22 v22, T23 v23, T24 v24, T25 v25, T26 v26, T27 v27, T28 v28, T29 v29, T30 v30, T31 v31, T32 v32, T33 v33, T34 v34, T35 v35, T36 v36, T37 v37, T38 v38, T39 v39, T40 v40, T41 v41) { return internal::ValueArray41(v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11, v12, v13, v14, v15, v16, v17, v18, v19, v20, v21, v22, v23, v24, v25, v26, v27, v28, v29, v30, v31, v32, v33, v34, v35, v36, v37, v38, v39, v40, v41); } template internal::ValueArray42 Values(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21, T22 v22, T23 v23, T24 v24, T25 v25, T26 v26, T27 v27, T28 v28, T29 v29, T30 v30, T31 v31, T32 v32, T33 v33, T34 v34, T35 v35, T36 v36, T37 v37, T38 v38, T39 v39, T40 v40, T41 v41, T42 v42) { return internal::ValueArray42(v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11, v12, v13, v14, v15, v16, v17, v18, v19, v20, v21, v22, v23, v24, v25, v26, v27, v28, v29, v30, v31, v32, v33, v34, v35, v36, v37, v38, v39, v40, v41, v42); } template internal::ValueArray43 Values(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21, T22 v22, T23 v23, T24 v24, T25 v25, T26 v26, T27 v27, T28 v28, T29 v29, T30 v30, T31 v31, T32 v32, T33 v33, T34 v34, T35 v35, T36 v36, T37 v37, T38 v38, T39 v39, T40 v40, T41 v41, T42 v42, T43 v43) { return internal::ValueArray43(v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11, v12, v13, v14, v15, v16, v17, v18, v19, v20, v21, v22, v23, v24, v25, v26, v27, v28, v29, v30, v31, v32, v33, v34, v35, v36, v37, v38, v39, v40, v41, v42, v43); } template internal::ValueArray44 Values(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21, T22 v22, T23 v23, T24 v24, T25 v25, T26 v26, T27 v27, T28 v28, T29 v29, T30 v30, T31 v31, T32 v32, T33 v33, T34 v34, T35 v35, T36 v36, T37 v37, T38 v38, T39 v39, T40 v40, T41 v41, T42 v42, T43 v43, T44 v44) { return internal::ValueArray44(v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11, v12, v13, v14, v15, v16, v17, v18, v19, v20, v21, v22, v23, v24, v25, v26, v27, v28, v29, v30, v31, v32, v33, v34, v35, v36, v37, v38, v39, v40, v41, v42, v43, v44); } template internal::ValueArray45 Values(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21, T22 v22, T23 v23, T24 v24, T25 v25, T26 v26, T27 v27, T28 v28, T29 v29, T30 v30, T31 v31, T32 v32, T33 v33, T34 v34, T35 v35, T36 v36, T37 v37, T38 v38, T39 v39, T40 v40, T41 v41, T42 v42, T43 v43, T44 v44, T45 v45) { return internal::ValueArray45(v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11, v12, v13, v14, v15, v16, v17, v18, v19, v20, v21, v22, v23, v24, v25, v26, v27, v28, v29, v30, v31, v32, v33, v34, v35, v36, v37, v38, v39, v40, v41, v42, v43, v44, v45); } template internal::ValueArray46 Values(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21, T22 v22, T23 v23, T24 v24, T25 v25, T26 v26, T27 v27, T28 v28, T29 v29, T30 v30, T31 v31, T32 v32, T33 v33, T34 v34, T35 v35, T36 v36, T37 v37, T38 v38, T39 v39, T40 v40, T41 v41, T42 v42, T43 v43, T44 v44, T45 v45, T46 v46) { return internal::ValueArray46(v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11, v12, v13, v14, v15, v16, v17, v18, v19, v20, v21, v22, v23, v24, v25, v26, v27, v28, v29, v30, v31, v32, v33, v34, v35, v36, v37, v38, v39, v40, v41, v42, v43, v44, v45, v46); } template internal::ValueArray47 Values(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21, T22 v22, T23 v23, T24 v24, T25 v25, T26 v26, T27 v27, T28 v28, T29 v29, T30 v30, T31 v31, T32 v32, T33 v33, T34 v34, T35 v35, T36 v36, T37 v37, T38 v38, T39 v39, T40 v40, T41 v41, T42 v42, T43 v43, T44 v44, T45 v45, T46 v46, T47 v47) { return internal::ValueArray47(v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11, v12, v13, v14, v15, v16, v17, v18, v19, v20, v21, v22, v23, v24, v25, v26, v27, v28, v29, v30, v31, v32, v33, v34, v35, v36, v37, v38, v39, v40, v41, v42, v43, v44, v45, v46, v47); } template internal::ValueArray48 Values(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21, T22 v22, T23 v23, T24 v24, T25 v25, T26 v26, T27 v27, T28 v28, T29 v29, T30 v30, T31 v31, T32 v32, T33 v33, T34 v34, T35 v35, T36 v36, T37 v37, T38 v38, T39 v39, T40 v40, T41 v41, T42 v42, T43 v43, T44 v44, T45 v45, T46 v46, T47 v47, T48 v48) { return internal::ValueArray48(v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11, v12, v13, v14, v15, v16, v17, v18, v19, v20, v21, v22, v23, v24, v25, v26, v27, v28, v29, v30, v31, v32, v33, v34, v35, v36, v37, v38, v39, v40, v41, v42, v43, v44, v45, v46, v47, v48); } template internal::ValueArray49 Values(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21, T22 v22, T23 v23, T24 v24, T25 v25, T26 v26, T27 v27, T28 v28, T29 v29, T30 v30, T31 v31, T32 v32, T33 v33, T34 v34, T35 v35, T36 v36, T37 v37, T38 v38, T39 v39, T40 v40, T41 v41, T42 v42, T43 v43, T44 v44, T45 v45, T46 v46, T47 v47, T48 v48, T49 v49) { return internal::ValueArray49(v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11, v12, v13, v14, v15, v16, v17, v18, v19, v20, v21, v22, v23, v24, v25, v26, v27, v28, v29, v30, v31, v32, v33, v34, v35, v36, v37, v38, v39, v40, v41, v42, v43, v44, v45, v46, v47, v48, v49); } template internal::ValueArray50 Values(T1 v1, T2 v2, T3 v3, T4 v4, T5 v5, T6 v6, T7 v7, T8 v8, T9 v9, T10 v10, T11 v11, T12 v12, T13 v13, T14 v14, T15 v15, T16 v16, T17 v17, T18 v18, T19 v19, T20 v20, T21 v21, T22 v22, T23 v23, T24 v24, T25 v25, T26 v26, T27 v27, T28 v28, T29 v29, T30 v30, T31 v31, T32 v32, T33 v33, T34 v34, T35 v35, T36 v36, T37 v37, T38 v38, T39 v39, T40 v40, T41 v41, T42 v42, T43 v43, T44 v44, T45 v45, T46 v46, T47 v47, T48 v48, T49 v49, T50 v50) { return internal::ValueArray50(v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11, v12, v13, v14, v15, v16, v17, v18, v19, v20, v21, v22, v23, v24, v25, v26, v27, v28, v29, v30, v31, v32, v33, v34, v35, v36, v37, v38, v39, v40, v41, v42, v43, v44, v45, v46, v47, v48, v49, v50); } // Bool() allows generating tests with parameters in a set of (false, true). // // Synopsis: // Bool() // - returns a generator producing sequences with elements {false, true}. // // It is useful when testing code that depends on Boolean flags. Combinations // of multiple flags can be tested when several Bool()'s are combined using // Combine() function. // // In the following example all tests in the test case FlagDependentTest // will be instantiated twice with parameters false and true. // // class FlagDependentTest : public testing::TestWithParam { // virtual void SetUp() { // external_flag = GetParam(); // } // } // INSTANTIATE_TEST_CASE_P(BoolSequence, FlagDependentTest, Bool()); // inline internal::ParamGenerator Bool() { return Values(false, true); } # if GTEST_HAS_COMBINE // Combine() allows the user to combine two or more sequences to produce // values of a Cartesian product of those sequences' elements. // // Synopsis: // Combine(gen1, gen2, ..., genN) // - returns a generator producing sequences with elements coming from // the Cartesian product of elements from the sequences generated by // gen1, gen2, ..., genN. The sequence elements will have a type of // tuple where T1, T2, ..., TN are the types // of elements from sequences produces by gen1, gen2, ..., genN. // // Combine can have up to 10 arguments. This number is currently limited // by the maximum number of elements in the tuple implementation used by Google // Test. // // Example: // // This will instantiate tests in test case AnimalTest each one with // the parameter values tuple("cat", BLACK), tuple("cat", WHITE), // tuple("dog", BLACK), and tuple("dog", WHITE): // // enum Color { BLACK, GRAY, WHITE }; // class AnimalTest // : public testing::TestWithParam > {...}; // // TEST_P(AnimalTest, AnimalLooksNice) {...} // // INSTANTIATE_TEST_CASE_P(AnimalVariations, AnimalTest, // Combine(Values("cat", "dog"), // Values(BLACK, WHITE))); // // This will instantiate tests in FlagDependentTest with all variations of two // Boolean flags: // // class FlagDependentTest // : public testing::TestWithParam > { // virtual void SetUp() { // // Assigns external_flag_1 and external_flag_2 values from the tuple. // tie(external_flag_1, external_flag_2) = GetParam(); // } // }; // // TEST_P(FlagDependentTest, TestFeature1) { // // Test your code using external_flag_1 and external_flag_2 here. // } // INSTANTIATE_TEST_CASE_P(TwoBoolSequence, FlagDependentTest, // Combine(Bool(), Bool())); // template internal::CartesianProductHolder2 Combine( const Generator1& g1, const Generator2& g2) { return internal::CartesianProductHolder2( g1, g2); } template internal::CartesianProductHolder3 Combine( const Generator1& g1, const Generator2& g2, const Generator3& g3) { return internal::CartesianProductHolder3( g1, g2, g3); } template internal::CartesianProductHolder4 Combine( const Generator1& g1, const Generator2& g2, const Generator3& g3, const Generator4& g4) { return internal::CartesianProductHolder4( g1, g2, g3, g4); } template internal::CartesianProductHolder5 Combine( const Generator1& g1, const Generator2& g2, const Generator3& g3, const Generator4& g4, const Generator5& g5) { return internal::CartesianProductHolder5( g1, g2, g3, g4, g5); } template internal::CartesianProductHolder6 Combine( const Generator1& g1, const Generator2& g2, const Generator3& g3, const Generator4& g4, const Generator5& g5, const Generator6& g6) { return internal::CartesianProductHolder6( g1, g2, g3, g4, g5, g6); } template internal::CartesianProductHolder7 Combine( const Generator1& g1, const Generator2& g2, const Generator3& g3, const Generator4& g4, const Generator5& g5, const Generator6& g6, const Generator7& g7) { return internal::CartesianProductHolder7( g1, g2, g3, g4, g5, g6, g7); } template internal::CartesianProductHolder8 Combine( const Generator1& g1, const Generator2& g2, const Generator3& g3, const Generator4& g4, const Generator5& g5, const Generator6& g6, const Generator7& g7, const Generator8& g8) { return internal::CartesianProductHolder8( g1, g2, g3, g4, g5, g6, g7, g8); } template internal::CartesianProductHolder9 Combine( const Generator1& g1, const Generator2& g2, const Generator3& g3, const Generator4& g4, const Generator5& g5, const Generator6& g6, const Generator7& g7, const Generator8& g8, const Generator9& g9) { return internal::CartesianProductHolder9( g1, g2, g3, g4, g5, g6, g7, g8, g9); } template internal::CartesianProductHolder10 Combine( const Generator1& g1, const Generator2& g2, const Generator3& g3, const Generator4& g4, const Generator5& g5, const Generator6& g6, const Generator7& g7, const Generator8& g8, const Generator9& g9, const Generator10& g10) { return internal::CartesianProductHolder10( g1, g2, g3, g4, g5, g6, g7, g8, g9, g10); } # endif // GTEST_HAS_COMBINE # define TEST_P(test_case_name, test_name) \ class GTEST_TEST_CLASS_NAME_(test_case_name, test_name) \ : public test_case_name { \ public: \ GTEST_TEST_CLASS_NAME_(test_case_name, test_name)() {} \ virtual void TestBody(); \ private: \ static int AddToRegistry() { \ ::testing::UnitTest::GetInstance()->parameterized_test_registry(). \ GetTestCasePatternHolder(\ #test_case_name, __FILE__, __LINE__)->AddTestPattern(\ #test_case_name, \ #test_name, \ new ::testing::internal::TestMetaFactory< \ GTEST_TEST_CLASS_NAME_(test_case_name, test_name)>()); \ return 0; \ } \ static int gtest_registering_dummy_ GTEST_ATTRIBUTE_UNUSED_; \ GTEST_DISALLOW_COPY_AND_ASSIGN_(\ GTEST_TEST_CLASS_NAME_(test_case_name, test_name)); \ }; \ int GTEST_TEST_CLASS_NAME_(test_case_name, \ test_name)::gtest_registering_dummy_ = \ GTEST_TEST_CLASS_NAME_(test_case_name, test_name)::AddToRegistry(); \ void GTEST_TEST_CLASS_NAME_(test_case_name, test_name)::TestBody() # define INSTANTIATE_TEST_CASE_P(prefix, test_case_name, generator) \ ::testing::internal::ParamGenerator \ gtest_##prefix##test_case_name##_EvalGenerator_() { return generator; } \ int gtest_##prefix##test_case_name##_dummy_ = \ ::testing::UnitTest::GetInstance()->parameterized_test_registry(). \ GetTestCasePatternHolder(\ #test_case_name, __FILE__, __LINE__)->AddTestCaseInstantiation(\ #prefix, \ >est_##prefix##test_case_name##_EvalGenerator_, \ __FILE__, __LINE__) } // namespace testing #endif // GTEST_HAS_PARAM_TEST #endif // GTEST_INCLUDE_GTEST_GTEST_PARAM_TEST_H_ // Copyright 2006, Google Inc. // All rights reserved. // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following disclaimer // in the documentation and/or other materials provided with the // distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived from // this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // // Author: wan@google.com (Zhanyong Wan) // // Google C++ Testing Framework definitions useful in production code. #ifndef GTEST_INCLUDE_GTEST_GTEST_PROD_H_ #define GTEST_INCLUDE_GTEST_GTEST_PROD_H_ // When you need to test the private or protected members of a class, // use the FRIEND_TEST macro to declare your tests as friends of the // class. For example: // // class MyClass { // private: // void MyMethod(); // FRIEND_TEST(MyClassTest, MyMethod); // }; // // class MyClassTest : public testing::Test { // // ... // }; // // TEST_F(MyClassTest, MyMethod) { // // Can call MyClass::MyMethod() here. // } #define FRIEND_TEST(test_case_name, test_name)\ friend class test_case_name##_##test_name##_Test #endif // GTEST_INCLUDE_GTEST_GTEST_PROD_H_ // Copyright 2008, Google Inc. // All rights reserved. // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following disclaimer // in the documentation and/or other materials provided with the // distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived from // this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // // Author: mheule@google.com (Markus Heule) // #ifndef GTEST_INCLUDE_GTEST_GTEST_TEST_PART_H_ #define GTEST_INCLUDE_GTEST_GTEST_TEST_PART_H_ #include #include namespace testing { // A copyable object representing the result of a test part (i.e. an // assertion or an explicit FAIL(), ADD_FAILURE(), or SUCCESS()). // // Don't inherit from TestPartResult as its destructor is not virtual. class GTEST_API_ TestPartResult { public: // The possible outcomes of a test part (i.e. an assertion or an // explicit SUCCEED(), FAIL(), or ADD_FAILURE()). enum Type { kSuccess, // Succeeded. kNonFatalFailure, // Failed but the test can continue. kFatalFailure // Failed and the test should be terminated. }; // C'tor. TestPartResult does NOT have a default constructor. // Always use this constructor (with parameters) to create a // TestPartResult object. TestPartResult(Type a_type, const char* a_file_name, int a_line_number, const char* a_message) : type_(a_type), file_name_(a_file_name == NULL ? "" : a_file_name), line_number_(a_line_number), summary_(ExtractSummary(a_message)), message_(a_message) { } // Gets the outcome of the test part. Type type() const { return type_; } // Gets the name of the source file where the test part took place, or // NULL if it's unknown. const char* file_name() const { return file_name_.empty() ? NULL : file_name_.c_str(); } // Gets the line in the source file where the test part took place, // or -1 if it's unknown. int line_number() const { return line_number_; } // Gets the summary of the failure message. const char* summary() const { return summary_.c_str(); } // Gets the message associated with the test part. const char* message() const { return message_.c_str(); } // Returns true iff the test part passed. bool passed() const { return type_ == kSuccess; } // Returns true iff the test part failed. bool failed() const { return type_ != kSuccess; } // Returns true iff the test part non-fatally failed. bool nonfatally_failed() const { return type_ == kNonFatalFailure; } // Returns true iff the test part fatally failed. bool fatally_failed() const { return type_ == kFatalFailure; } private: Type type_; // Gets the summary of the failure message by omitting the stack // trace in it. static std::string ExtractSummary(const char* message); // The name of the source file where the test part took place, or // "" if the source file is unknown. std::string file_name_; // The line in the source file where the test part took place, or -1 // if the line number is unknown. int line_number_; std::string summary_; // The test failure summary. std::string message_; // The test failure message. }; // Prints a TestPartResult object. std::ostream& operator<<(std::ostream& os, const TestPartResult& result); // An array of TestPartResult objects. // // Don't inherit from TestPartResultArray as its destructor is not // virtual. class GTEST_API_ TestPartResultArray { public: TestPartResultArray() {} // Appends the given TestPartResult to the array. void Append(const TestPartResult& result); // Returns the TestPartResult at the given index (0-based). const TestPartResult& GetTestPartResult(int index) const; // Returns the number of TestPartResult objects in the array. int size() const; private: std::vector array_; GTEST_DISALLOW_COPY_AND_ASSIGN_(TestPartResultArray); }; // This interface knows how to report a test part result. class TestPartResultReporterInterface { public: virtual ~TestPartResultReporterInterface() {} virtual void ReportTestPartResult(const TestPartResult& result) = 0; }; namespace internal { // This helper class is used by {ASSERT|EXPECT}_NO_FATAL_FAILURE to check if a // statement generates new fatal failures. To do so it registers itself as the // current test part result reporter. Besides checking if fatal failures were // reported, it only delegates the reporting to the former result reporter. // The original result reporter is restored in the destructor. // INTERNAL IMPLEMENTATION - DO NOT USE IN A USER PROGRAM. class GTEST_API_ HasNewFatalFailureHelper : public TestPartResultReporterInterface { public: HasNewFatalFailureHelper(); virtual ~HasNewFatalFailureHelper(); virtual void ReportTestPartResult(const TestPartResult& result); bool has_new_fatal_failure() const { return has_new_fatal_failure_; } private: bool has_new_fatal_failure_; TestPartResultReporterInterface* original_reporter_; GTEST_DISALLOW_COPY_AND_ASSIGN_(HasNewFatalFailureHelper); }; } // namespace internal } // namespace testing #endif // GTEST_INCLUDE_GTEST_GTEST_TEST_PART_H_ // Copyright 2008 Google Inc. // All Rights Reserved. // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following disclaimer // in the documentation and/or other materials provided with the // distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived from // this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // // Author: wan@google.com (Zhanyong Wan) #ifndef GTEST_INCLUDE_GTEST_GTEST_TYPED_TEST_H_ #define GTEST_INCLUDE_GTEST_GTEST_TYPED_TEST_H_ // This header implements typed tests and type-parameterized tests. // Typed (aka type-driven) tests repeat the same test for types in a // list. You must know which types you want to test with when writing // typed tests. Here's how you do it: #if 0 // First, define a fixture class template. It should be parameterized // by a type. Remember to derive it from testing::Test. template class FooTest : public testing::Test { public: ... typedef std::list List; static T shared_; T value_; }; // Next, associate a list of types with the test case, which will be // repeated for each type in the list. The typedef is necessary for // the macro to parse correctly. typedef testing::Types MyTypes; TYPED_TEST_CASE(FooTest, MyTypes); // If the type list contains only one type, you can write that type // directly without Types<...>: // TYPED_TEST_CASE(FooTest, int); // Then, use TYPED_TEST() instead of TEST_F() to define as many typed // tests for this test case as you want. TYPED_TEST(FooTest, DoesBlah) { // Inside a test, refer to TypeParam to get the type parameter. // Since we are inside a derived class template, C++ requires use to // visit the members of FooTest via 'this'. TypeParam n = this->value_; // To visit static members of the fixture, add the TestFixture:: // prefix. n += TestFixture::shared_; // To refer to typedefs in the fixture, add the "typename // TestFixture::" prefix. typename TestFixture::List values; values.push_back(n); ... } TYPED_TEST(FooTest, HasPropertyA) { ... } #endif // 0 // Type-parameterized tests are abstract test patterns parameterized // by a type. Compared with typed tests, type-parameterized tests // allow you to define the test pattern without knowing what the type // parameters are. The defined pattern can be instantiated with // different types any number of times, in any number of translation // units. // // If you are designing an interface or concept, you can define a // suite of type-parameterized tests to verify properties that any // valid implementation of the interface/concept should have. Then, // each implementation can easily instantiate the test suite to verify // that it conforms to the requirements, without having to write // similar tests repeatedly. Here's an example: #if 0 // First, define a fixture class template. It should be parameterized // by a type. Remember to derive it from testing::Test. template class FooTest : public testing::Test { ... }; // Next, declare that you will define a type-parameterized test case // (the _P suffix is for "parameterized" or "pattern", whichever you // prefer): TYPED_TEST_CASE_P(FooTest); // Then, use TYPED_TEST_P() to define as many type-parameterized tests // for this type-parameterized test case as you want. TYPED_TEST_P(FooTest, DoesBlah) { // Inside a test, refer to TypeParam to get the type parameter. TypeParam n = 0; ... } TYPED_TEST_P(FooTest, HasPropertyA) { ... } // Now the tricky part: you need to register all test patterns before // you can instantiate them. The first argument of the macro is the // test case name; the rest are the names of the tests in this test // case. REGISTER_TYPED_TEST_CASE_P(FooTest, DoesBlah, HasPropertyA); // Finally, you are free to instantiate the pattern with the types you // want. If you put the above code in a header file, you can #include // it in multiple C++ source files and instantiate it multiple times. // // To distinguish different instances of the pattern, the first // argument to the INSTANTIATE_* macro is a prefix that will be added // to the actual test case name. Remember to pick unique prefixes for // different instances. typedef testing::Types MyTypes; INSTANTIATE_TYPED_TEST_CASE_P(My, FooTest, MyTypes); // If the type list contains only one type, you can write that type // directly without Types<...>: // INSTANTIATE_TYPED_TEST_CASE_P(My, FooTest, int); #endif // 0 // Implements typed tests. #if GTEST_HAS_TYPED_TEST // INTERNAL IMPLEMENTATION - DO NOT USE IN USER CODE. // // Expands to the name of the typedef for the type parameters of the // given test case. # define GTEST_TYPE_PARAMS_(TestCaseName) gtest_type_params_##TestCaseName##_ // The 'Types' template argument below must have spaces around it // since some compilers may choke on '>>' when passing a template // instance (e.g. Types) # define TYPED_TEST_CASE(CaseName, Types) \ typedef ::testing::internal::TypeList< Types >::type \ GTEST_TYPE_PARAMS_(CaseName) # define TYPED_TEST(CaseName, TestName) \ template \ class GTEST_TEST_CLASS_NAME_(CaseName, TestName) \ : public CaseName { \ private: \ typedef CaseName TestFixture; \ typedef gtest_TypeParam_ TypeParam; \ virtual void TestBody(); \ }; \ bool gtest_##CaseName##_##TestName##_registered_ GTEST_ATTRIBUTE_UNUSED_ = \ ::testing::internal::TypeParameterizedTest< \ CaseName, \ ::testing::internal::TemplateSel< \ GTEST_TEST_CLASS_NAME_(CaseName, TestName)>, \ GTEST_TYPE_PARAMS_(CaseName)>::Register(\ "", #CaseName, #TestName, 0); \ template \ void GTEST_TEST_CLASS_NAME_(CaseName, TestName)::TestBody() #endif // GTEST_HAS_TYPED_TEST // Implements type-parameterized tests. #if GTEST_HAS_TYPED_TEST_P // INTERNAL IMPLEMENTATION - DO NOT USE IN USER CODE. // // Expands to the namespace name that the type-parameterized tests for // the given type-parameterized test case are defined in. The exact // name of the namespace is subject to change without notice. # define GTEST_CASE_NAMESPACE_(TestCaseName) \ gtest_case_##TestCaseName##_ // INTERNAL IMPLEMENTATION - DO NOT USE IN USER CODE. // // Expands to the name of the variable used to remember the names of // the defined tests in the given test case. # define GTEST_TYPED_TEST_CASE_P_STATE_(TestCaseName) \ gtest_typed_test_case_p_state_##TestCaseName##_ // INTERNAL IMPLEMENTATION - DO NOT USE IN USER CODE DIRECTLY. // // Expands to the name of the variable used to remember the names of // the registered tests in the given test case. # define GTEST_REGISTERED_TEST_NAMES_(TestCaseName) \ gtest_registered_test_names_##TestCaseName##_ // The variables defined in the type-parameterized test macros are // static as typically these macros are used in a .h file that can be // #included in multiple translation units linked together. # define TYPED_TEST_CASE_P(CaseName) \ static ::testing::internal::TypedTestCasePState \ GTEST_TYPED_TEST_CASE_P_STATE_(CaseName) # define TYPED_TEST_P(CaseName, TestName) \ namespace GTEST_CASE_NAMESPACE_(CaseName) { \ template \ class TestName : public CaseName { \ private: \ typedef CaseName TestFixture; \ typedef gtest_TypeParam_ TypeParam; \ virtual void TestBody(); \ }; \ static bool gtest_##TestName##_defined_ GTEST_ATTRIBUTE_UNUSED_ = \ GTEST_TYPED_TEST_CASE_P_STATE_(CaseName).AddTestName(\ __FILE__, __LINE__, #CaseName, #TestName); \ } \ template \ void GTEST_CASE_NAMESPACE_(CaseName)::TestName::TestBody() # define REGISTER_TYPED_TEST_CASE_P(CaseName, ...) \ namespace GTEST_CASE_NAMESPACE_(CaseName) { \ typedef ::testing::internal::Templates<__VA_ARGS__>::type gtest_AllTests_; \ } \ static const char* const GTEST_REGISTERED_TEST_NAMES_(CaseName) = \ GTEST_TYPED_TEST_CASE_P_STATE_(CaseName).VerifyRegisteredTestNames(\ __FILE__, __LINE__, #__VA_ARGS__) // The 'Types' template argument below must have spaces around it // since some compilers may choke on '>>' when passing a template // instance (e.g. Types) # define INSTANTIATE_TYPED_TEST_CASE_P(Prefix, CaseName, Types) \ bool gtest_##Prefix##_##CaseName GTEST_ATTRIBUTE_UNUSED_ = \ ::testing::internal::TypeParameterizedTestCase::type>::Register(\ #Prefix, #CaseName, GTEST_REGISTERED_TEST_NAMES_(CaseName)) #endif // GTEST_HAS_TYPED_TEST_P #endif // GTEST_INCLUDE_GTEST_GTEST_TYPED_TEST_H_ // Depending on the platform, different string classes are available. // On Linux, in addition to ::std::string, Google also makes use of // class ::string, which has the same interface as ::std::string, but // has a different implementation. // // You can define GTEST_HAS_GLOBAL_STRING to 1 to indicate that // ::string is available AND is a distinct type to ::std::string, or // define it to 0 to indicate otherwise. // // If ::std::string and ::string are the same class on your platform // due to aliasing, you should define GTEST_HAS_GLOBAL_STRING to 0. // // If you do not define GTEST_HAS_GLOBAL_STRING, it is defined // heuristically. namespace testing { // Declares the flags. // This flag temporary enables the disabled tests. GTEST_DECLARE_bool_(also_run_disabled_tests); // This flag brings the debugger on an assertion failure. GTEST_DECLARE_bool_(break_on_failure); // This flag controls whether Google Test catches all test-thrown exceptions // and logs them as failures. GTEST_DECLARE_bool_(catch_exceptions); // This flag enables using colors in terminal output. Available values are // "yes" to enable colors, "no" (disable colors), or "auto" (the default) // to let Google Test decide. GTEST_DECLARE_string_(color); // This flag sets up the filter to select by name using a glob pattern // the tests to run. If the filter is not given all tests are executed. GTEST_DECLARE_string_(filter); // This flag causes the Google Test to list tests. None of the tests listed // are actually run if the flag is provided. GTEST_DECLARE_bool_(list_tests); // This flag controls whether Google Test emits a detailed XML report to a file // in addition to its normal textual output. GTEST_DECLARE_string_(output); // This flags control whether Google Test prints the elapsed time for each // test. GTEST_DECLARE_bool_(print_time); // This flag specifies the random number seed. GTEST_DECLARE_int32_(random_seed); // This flag sets how many times the tests are repeated. The default value // is 1. If the value is -1 the tests are repeating forever. GTEST_DECLARE_int32_(repeat); // This flag controls whether Google Test includes Google Test internal // stack frames in failure stack traces. GTEST_DECLARE_bool_(show_internal_stack_frames); // When this flag is specified, tests' order is randomized on every iteration. GTEST_DECLARE_bool_(shuffle); // This flag specifies the maximum number of stack frames to be // printed in a failure message. GTEST_DECLARE_int32_(stack_trace_depth); // When this flag is specified, a failed assertion will throw an // exception if exceptions are enabled, or exit the program with a // non-zero code otherwise. GTEST_DECLARE_bool_(throw_on_failure); // When this flag is set with a "host:port" string, on supported // platforms test results are streamed to the specified port on // the specified host machine. GTEST_DECLARE_string_(stream_result_to); // The upper limit for valid stack trace depths. const int kMaxStackTraceDepth = 100; namespace internal { class AssertHelper; class DefaultGlobalTestPartResultReporter; class ExecDeathTest; class NoExecDeathTest; class FinalSuccessChecker; class GTestFlagSaver; class StreamingListenerTest; class TestResultAccessor; class TestEventListenersAccessor; class TestEventRepeater; class UnitTestRecordPropertyTestHelper; class WindowsDeathTest; class UnitTestImpl* GetUnitTestImpl(); void ReportFailureInUnknownLocation(TestPartResult::Type result_type, const std::string& message); } // namespace internal // The friend relationship of some of these classes is cyclic. // If we don't forward declare them the compiler might confuse the classes // in friendship clauses with same named classes on the scope. class Test; class TestCase; class TestInfo; class UnitTest; // A class for indicating whether an assertion was successful. When // the assertion wasn't successful, the AssertionResult object // remembers a non-empty message that describes how it failed. // // To create an instance of this class, use one of the factory functions // (AssertionSuccess() and AssertionFailure()). // // This class is useful for two purposes: // 1. Defining predicate functions to be used with Boolean test assertions // EXPECT_TRUE/EXPECT_FALSE and their ASSERT_ counterparts // 2. Defining predicate-format functions to be // used with predicate assertions (ASSERT_PRED_FORMAT*, etc). // // For example, if you define IsEven predicate: // // testing::AssertionResult IsEven(int n) { // if ((n % 2) == 0) // return testing::AssertionSuccess(); // else // return testing::AssertionFailure() << n << " is odd"; // } // // Then the failed expectation EXPECT_TRUE(IsEven(Fib(5))) // will print the message // // Value of: IsEven(Fib(5)) // Actual: false (5 is odd) // Expected: true // // instead of a more opaque // // Value of: IsEven(Fib(5)) // Actual: false // Expected: true // // in case IsEven is a simple Boolean predicate. // // If you expect your predicate to be reused and want to support informative // messages in EXPECT_FALSE and ASSERT_FALSE (negative assertions show up // about half as often as positive ones in our tests), supply messages for // both success and failure cases: // // testing::AssertionResult IsEven(int n) { // if ((n % 2) == 0) // return testing::AssertionSuccess() << n << " is even"; // else // return testing::AssertionFailure() << n << " is odd"; // } // // Then a statement EXPECT_FALSE(IsEven(Fib(6))) will print // // Value of: IsEven(Fib(6)) // Actual: true (8 is even) // Expected: false // // NB: Predicates that support negative Boolean assertions have reduced // performance in positive ones so be careful not to use them in tests // that have lots (tens of thousands) of positive Boolean assertions. // // To use this class with EXPECT_PRED_FORMAT assertions such as: // // // Verifies that Foo() returns an even number. // EXPECT_PRED_FORMAT1(IsEven, Foo()); // // you need to define: // // testing::AssertionResult IsEven(const char* expr, int n) { // if ((n % 2) == 0) // return testing::AssertionSuccess(); // else // return testing::AssertionFailure() // << "Expected: " << expr << " is even\n Actual: it's " << n; // } // // If Foo() returns 5, you will see the following message: // // Expected: Foo() is even // Actual: it's 5 // class GTEST_API_ AssertionResult { public: // Copy constructor. // Used in EXPECT_TRUE/FALSE(assertion_result). AssertionResult(const AssertionResult& other); GTEST_DISABLE_MSC_WARNINGS_PUSH_(4800 /* forcing value to bool */) // Used in the EXPECT_TRUE/FALSE(bool_expression). // // T must be contextually convertible to bool. // // The second parameter prevents this overload from being considered if // the argument is implicitly convertible to AssertionResult. In that case // we want AssertionResult's copy constructor to be used. template explicit AssertionResult( const T& success, typename internal::EnableIf< !internal::ImplicitlyConvertible::value>::type* /*enabler*/ = NULL) : success_(success) {} GTEST_DISABLE_MSC_WARNINGS_POP_() // Assignment operator. AssertionResult& operator=(AssertionResult other) { swap(other); return *this; } // Returns true iff the assertion succeeded. operator bool() const { return success_; } // NOLINT // Returns the assertion's negation. Used with EXPECT/ASSERT_FALSE. AssertionResult operator!() const; // Returns the text streamed into this AssertionResult. Test assertions // use it when they fail (i.e., the predicate's outcome doesn't match the // assertion's expectation). When nothing has been streamed into the // object, returns an empty string. const char* message() const { return message_.get() != NULL ? message_->c_str() : ""; } // TODO(vladl@google.com): Remove this after making sure no clients use it. // Deprecated; please use message() instead. const char* failure_message() const { return message(); } // Streams a custom failure message into this object. template AssertionResult& operator<<(const T& value) { AppendMessage(Message() << value); return *this; } // Allows streaming basic output manipulators such as endl or flush into // this object. AssertionResult& operator<<( ::std::ostream& (*basic_manipulator)(::std::ostream& stream)) { AppendMessage(Message() << basic_manipulator); return *this; } private: // Appends the contents of message to message_. void AppendMessage(const Message& a_message) { if (message_.get() == NULL) message_.reset(new ::std::string); message_->append(a_message.GetString().c_str()); } // Swap the contents of this AssertionResult with other. void swap(AssertionResult& other); // Stores result of the assertion predicate. bool success_; // Stores the message describing the condition in case the expectation // construct is not satisfied with the predicate's outcome. // Referenced via a pointer to avoid taking too much stack frame space // with test assertions. internal::scoped_ptr< ::std::string> message_; }; // Makes a successful assertion result. GTEST_API_ AssertionResult AssertionSuccess(); // Makes a failed assertion result. GTEST_API_ AssertionResult AssertionFailure(); // Makes a failed assertion result with the given failure message. // Deprecated; use AssertionFailure() << msg. GTEST_API_ AssertionResult AssertionFailure(const Message& msg); // The abstract class that all tests inherit from. // // In Google Test, a unit test program contains one or many TestCases, and // each TestCase contains one or many Tests. // // When you define a test using the TEST macro, you don't need to // explicitly derive from Test - the TEST macro automatically does // this for you. // // The only time you derive from Test is when defining a test fixture // to be used a TEST_F. For example: // // class FooTest : public testing::Test { // protected: // void SetUp() override { ... } // void TearDown() override { ... } // ... // }; // // TEST_F(FooTest, Bar) { ... } // TEST_F(FooTest, Baz) { ... } // // Test is not copyable. class GTEST_API_ Test { public: friend class TestInfo; // Defines types for pointers to functions that set up and tear down // a test case. typedef internal::SetUpTestCaseFunc SetUpTestCaseFunc; typedef internal::TearDownTestCaseFunc TearDownTestCaseFunc; // The d'tor is virtual as we intend to inherit from Test. virtual ~Test(); // Sets up the stuff shared by all tests in this test case. // // Google Test will call Foo::SetUpTestCase() before running the first // test in test case Foo. Hence a sub-class can define its own // SetUpTestCase() method to shadow the one defined in the super // class. static void SetUpTestCase() {} // Tears down the stuff shared by all tests in this test case. // // Google Test will call Foo::TearDownTestCase() after running the last // test in test case Foo. Hence a sub-class can define its own // TearDownTestCase() method to shadow the one defined in the super // class. static void TearDownTestCase() {} // Returns true iff the current test has a fatal failure. static bool HasFatalFailure(); // Returns true iff the current test has a non-fatal failure. static bool HasNonfatalFailure(); // Returns true iff the current test has a (either fatal or // non-fatal) failure. static bool HasFailure() { return HasFatalFailure() || HasNonfatalFailure(); } // Logs a property for the current test, test case, or for the entire // invocation of the test program when used outside of the context of a // test case. Only the last value for a given key is remembered. These // are public static so they can be called from utility functions that are // not members of the test fixture. Calls to RecordProperty made during // lifespan of the test (from the moment its constructor starts to the // moment its destructor finishes) will be output in XML as attributes of // the element. Properties recorded from fixture's // SetUpTestCase or TearDownTestCase are logged as attributes of the // corresponding element. Calls to RecordProperty made in the // global context (before or after invocation of RUN_ALL_TESTS and from // SetUp/TearDown method of Environment objects registered with Google // Test) will be output as attributes of the element. static void RecordProperty(const std::string& key, const std::string& value); static void RecordProperty(const std::string& key, int value); protected: // Creates a Test object. Test(); // Sets up the test fixture. virtual void SetUp(); // Tears down the test fixture. virtual void TearDown(); private: // Returns true iff the current test has the same fixture class as // the first test in the current test case. static bool HasSameFixtureClass(); // Runs the test after the test fixture has been set up. // // A sub-class must implement this to define the test logic. // // DO NOT OVERRIDE THIS FUNCTION DIRECTLY IN A USER PROGRAM. // Instead, use the TEST or TEST_F macro. virtual void TestBody() = 0; // Sets up, executes, and tears down the test. void Run(); // Deletes self. We deliberately pick an unusual name for this // internal method to avoid clashing with names used in user TESTs. void DeleteSelf_() { delete this; } // Uses a GTestFlagSaver to save and restore all Google Test flags. const internal::GTestFlagSaver* const gtest_flag_saver_; // Often a user misspells SetUp() as Setup() and spends a long time // wondering why it is never called by Google Test. The declaration of // the following method is solely for catching such an error at // compile time: // // - The return type is deliberately chosen to be not void, so it // will be a conflict if void Setup() is declared in the user's // test fixture. // // - This method is private, so it will be another compiler error // if the method is called from the user's test fixture. // // DO NOT OVERRIDE THIS FUNCTION. // // If you see an error about overriding the following function or // about it being private, you have mis-spelled SetUp() as Setup(). struct Setup_should_be_spelled_SetUp {}; virtual Setup_should_be_spelled_SetUp* Setup() { return NULL; } // We disallow copying Tests. GTEST_DISALLOW_COPY_AND_ASSIGN_(Test); }; typedef internal::TimeInMillis TimeInMillis; // A copyable object representing a user specified test property which can be // output as a key/value string pair. // // Don't inherit from TestProperty as its destructor is not virtual. class TestProperty { public: // C'tor. TestProperty does NOT have a default constructor. // Always use this constructor (with parameters) to create a // TestProperty object. TestProperty(const std::string& a_key, const std::string& a_value) : key_(a_key), value_(a_value) { } // Gets the user supplied key. const char* key() const { return key_.c_str(); } // Gets the user supplied value. const char* value() const { return value_.c_str(); } // Sets a new value, overriding the one supplied in the constructor. void SetValue(const std::string& new_value) { value_ = new_value; } private: // The key supplied by the user. std::string key_; // The value supplied by the user. std::string value_; }; // The result of a single Test. This includes a list of // TestPartResults, a list of TestProperties, a count of how many // death tests there are in the Test, and how much time it took to run // the Test. // // TestResult is not copyable. class GTEST_API_ TestResult { public: // Creates an empty TestResult. TestResult(); // D'tor. Do not inherit from TestResult. ~TestResult(); // Gets the number of all test parts. This is the sum of the number // of successful test parts and the number of failed test parts. int total_part_count() const; // Returns the number of the test properties. int test_property_count() const; // Returns true iff the test passed (i.e. no test part failed). bool Passed() const { return !Failed(); } // Returns true iff the test failed. bool Failed() const; // Returns true iff the test fatally failed. bool HasFatalFailure() const; // Returns true iff the test has a non-fatal failure. bool HasNonfatalFailure() const; // Returns the elapsed time, in milliseconds. TimeInMillis elapsed_time() const { return elapsed_time_; } // Returns the i-th test part result among all the results. i can range // from 0 to test_property_count() - 1. If i is not in that range, aborts // the program. const TestPartResult& GetTestPartResult(int i) const; // Returns the i-th test property. i can range from 0 to // test_property_count() - 1. If i is not in that range, aborts the // program. const TestProperty& GetTestProperty(int i) const; private: friend class TestInfo; friend class TestCase; friend class UnitTest; friend class internal::DefaultGlobalTestPartResultReporter; friend class internal::ExecDeathTest; friend class internal::TestResultAccessor; friend class internal::UnitTestImpl; friend class internal::WindowsDeathTest; // Gets the vector of TestPartResults. const std::vector& test_part_results() const { return test_part_results_; } // Gets the vector of TestProperties. const std::vector& test_properties() const { return test_properties_; } // Sets the elapsed time. void set_elapsed_time(TimeInMillis elapsed) { elapsed_time_ = elapsed; } // Adds a test property to the list. The property is validated and may add // a non-fatal failure if invalid (e.g., if it conflicts with reserved // key names). If a property is already recorded for the same key, the // value will be updated, rather than storing multiple values for the same // key. xml_element specifies the element for which the property is being // recorded and is used for validation. void RecordProperty(const std::string& xml_element, const TestProperty& test_property); // Adds a failure if the key is a reserved attribute of Google Test // testcase tags. Returns true if the property is valid. // TODO(russr): Validate attribute names are legal and human readable. static bool ValidateTestProperty(const std::string& xml_element, const TestProperty& test_property); // Adds a test part result to the list. void AddTestPartResult(const TestPartResult& test_part_result); // Returns the death test count. int death_test_count() const { return death_test_count_; } // Increments the death test count, returning the new count. int increment_death_test_count() { return ++death_test_count_; } // Clears the test part results. void ClearTestPartResults(); // Clears the object. void Clear(); // Protects mutable state of the property vector and of owned // properties, whose values may be updated. internal::Mutex test_properites_mutex_; // The vector of TestPartResults std::vector test_part_results_; // The vector of TestProperties std::vector test_properties_; // Running count of death tests. int death_test_count_; // The elapsed time, in milliseconds. TimeInMillis elapsed_time_; // We disallow copying TestResult. GTEST_DISALLOW_COPY_AND_ASSIGN_(TestResult); }; // class TestResult // A TestInfo object stores the following information about a test: // // Test case name // Test name // Whether the test should be run // A function pointer that creates the test object when invoked // Test result // // The constructor of TestInfo registers itself with the UnitTest // singleton such that the RUN_ALL_TESTS() macro knows which tests to // run. class GTEST_API_ TestInfo { public: // Destructs a TestInfo object. This function is not virtual, so // don't inherit from TestInfo. ~TestInfo(); // Returns the test case name. const char* test_case_name() const { return test_case_name_.c_str(); } // Returns the test name. const char* name() const { return name_.c_str(); } // Returns the name of the parameter type, or NULL if this is not a typed // or a type-parameterized test. const char* type_param() const { if (type_param_.get() != NULL) return type_param_->c_str(); return NULL; } // Returns the text representation of the value parameter, or NULL if this // is not a value-parameterized test. const char* value_param() const { if (value_param_.get() != NULL) return value_param_->c_str(); return NULL; } // Returns true if this test should run, that is if the test is not // disabled (or it is disabled but the also_run_disabled_tests flag has // been specified) and its full name matches the user-specified filter. // // Google Test allows the user to filter the tests by their full names. // The full name of a test Bar in test case Foo is defined as // "Foo.Bar". Only the tests that match the filter will run. // // A filter is a colon-separated list of glob (not regex) patterns, // optionally followed by a '-' and a colon-separated list of // negative patterns (tests to exclude). A test is run if it // matches one of the positive patterns and does not match any of // the negative patterns. // // For example, *A*:Foo.* is a filter that matches any string that // contains the character 'A' or starts with "Foo.". bool should_run() const { return should_run_; } // Returns true iff this test will appear in the XML report. bool is_reportable() const { // For now, the XML report includes all tests matching the filter. // In the future, we may trim tests that are excluded because of // sharding. return matches_filter_; } // Returns the result of the test. const TestResult* result() const { return &result_; } private: #if GTEST_HAS_DEATH_TEST friend class internal::DefaultDeathTestFactory; #endif // GTEST_HAS_DEATH_TEST friend class Test; friend class TestCase; friend class internal::UnitTestImpl; friend class internal::StreamingListenerTest; friend TestInfo* internal::MakeAndRegisterTestInfo( const char* test_case_name, const char* name, const char* type_param, const char* value_param, internal::TypeId fixture_class_id, Test::SetUpTestCaseFunc set_up_tc, Test::TearDownTestCaseFunc tear_down_tc, internal::TestFactoryBase* factory); // Constructs a TestInfo object. The newly constructed instance assumes // ownership of the factory object. TestInfo(const std::string& test_case_name, const std::string& name, const char* a_type_param, // NULL if not a type-parameterized test const char* a_value_param, // NULL if not a value-parameterized test internal::TypeId fixture_class_id, internal::TestFactoryBase* factory); // Increments the number of death tests encountered in this test so // far. int increment_death_test_count() { return result_.increment_death_test_count(); } // Creates the test object, runs it, records its result, and then // deletes it. void Run(); static void ClearTestResult(TestInfo* test_info) { test_info->result_.Clear(); } // These fields are immutable properties of the test. const std::string test_case_name_; // Test case name const std::string name_; // Test name // Name of the parameter type, or NULL if this is not a typed or a // type-parameterized test. const internal::scoped_ptr type_param_; // Text representation of the value parameter, or NULL if this is not a // value-parameterized test. const internal::scoped_ptr value_param_; const internal::TypeId fixture_class_id_; // ID of the test fixture class bool should_run_; // True iff this test should run bool is_disabled_; // True iff this test is disabled bool matches_filter_; // True if this test matches the // user-specified filter. internal::TestFactoryBase* const factory_; // The factory that creates // the test object // This field is mutable and needs to be reset before running the // test for the second time. TestResult result_; GTEST_DISALLOW_COPY_AND_ASSIGN_(TestInfo); }; // A test case, which consists of a vector of TestInfos. // // TestCase is not copyable. class GTEST_API_ TestCase { public: // Creates a TestCase with the given name. // // TestCase does NOT have a default constructor. Always use this // constructor to create a TestCase object. // // Arguments: // // name: name of the test case // a_type_param: the name of the test's type parameter, or NULL if // this is not a type-parameterized test. // set_up_tc: pointer to the function that sets up the test case // tear_down_tc: pointer to the function that tears down the test case TestCase(const char* name, const char* a_type_param, Test::SetUpTestCaseFunc set_up_tc, Test::TearDownTestCaseFunc tear_down_tc); // Destructor of TestCase. virtual ~TestCase(); // Gets the name of the TestCase. const char* name() const { return name_.c_str(); } // Returns the name of the parameter type, or NULL if this is not a // type-parameterized test case. const char* type_param() const { if (type_param_.get() != NULL) return type_param_->c_str(); return NULL; } // Returns true if any test in this test case should run. bool should_run() const { return should_run_; } // Gets the number of successful tests in this test case. int successful_test_count() const; // Gets the number of failed tests in this test case. int failed_test_count() const; // Gets the number of disabled tests that will be reported in the XML report. int reportable_disabled_test_count() const; // Gets the number of disabled tests in this test case. int disabled_test_count() const; // Gets the number of tests to be printed in the XML report. int reportable_test_count() const; // Get the number of tests in this test case that should run. int test_to_run_count() const; // Gets the number of all tests in this test case. int total_test_count() const; // Returns true iff the test case passed. bool Passed() const { return !Failed(); } // Returns true iff the test case failed. bool Failed() const { return failed_test_count() > 0; } // Returns the elapsed time, in milliseconds. TimeInMillis elapsed_time() const { return elapsed_time_; } // Returns the i-th test among all the tests. i can range from 0 to // total_test_count() - 1. If i is not in that range, returns NULL. const TestInfo* GetTestInfo(int i) const; // Returns the TestResult that holds test properties recorded during // execution of SetUpTestCase and TearDownTestCase. const TestResult& ad_hoc_test_result() const { return ad_hoc_test_result_; } private: friend class Test; friend class internal::UnitTestImpl; // Gets the (mutable) vector of TestInfos in this TestCase. std::vector& test_info_list() { return test_info_list_; } // Gets the (immutable) vector of TestInfos in this TestCase. const std::vector& test_info_list() const { return test_info_list_; } // Returns the i-th test among all the tests. i can range from 0 to // total_test_count() - 1. If i is not in that range, returns NULL. TestInfo* GetMutableTestInfo(int i); // Sets the should_run member. void set_should_run(bool should) { should_run_ = should; } // Adds a TestInfo to this test case. Will delete the TestInfo upon // destruction of the TestCase object. void AddTestInfo(TestInfo * test_info); // Clears the results of all tests in this test case. void ClearResult(); // Clears the results of all tests in the given test case. static void ClearTestCaseResult(TestCase* test_case) { test_case->ClearResult(); } // Runs every test in this TestCase. void Run(); // Runs SetUpTestCase() for this TestCase. This wrapper is needed // for catching exceptions thrown from SetUpTestCase(). void RunSetUpTestCase() { (*set_up_tc_)(); } // Runs TearDownTestCase() for this TestCase. This wrapper is // needed for catching exceptions thrown from TearDownTestCase(). void RunTearDownTestCase() { (*tear_down_tc_)(); } // Returns true iff test passed. static bool TestPassed(const TestInfo* test_info) { return test_info->should_run() && test_info->result()->Passed(); } // Returns true iff test failed. static bool TestFailed(const TestInfo* test_info) { return test_info->should_run() && test_info->result()->Failed(); } // Returns true iff the test is disabled and will be reported in the XML // report. static bool TestReportableDisabled(const TestInfo* test_info) { return test_info->is_reportable() && test_info->is_disabled_; } // Returns true iff test is disabled. static bool TestDisabled(const TestInfo* test_info) { return test_info->is_disabled_; } // Returns true iff this test will appear in the XML report. static bool TestReportable(const TestInfo* test_info) { return test_info->is_reportable(); } // Returns true if the given test should run. static bool ShouldRunTest(const TestInfo* test_info) { return test_info->should_run(); } // Shuffles the tests in this test case. void ShuffleTests(internal::Random* random); // Restores the test order to before the first shuffle. void UnshuffleTests(); // Name of the test case. std::string name_; // Name of the parameter type, or NULL if this is not a typed or a // type-parameterized test. const internal::scoped_ptr type_param_; // The vector of TestInfos in their original order. It owns the // elements in the vector. std::vector test_info_list_; // Provides a level of indirection for the test list to allow easy // shuffling and restoring the test order. The i-th element in this // vector is the index of the i-th test in the shuffled test list. std::vector test_indices_; // Pointer to the function that sets up the test case. Test::SetUpTestCaseFunc set_up_tc_; // Pointer to the function that tears down the test case. Test::TearDownTestCaseFunc tear_down_tc_; // True iff any test in this test case should run. bool should_run_; // Elapsed time, in milliseconds. TimeInMillis elapsed_time_; // Holds test properties recorded during execution of SetUpTestCase and // TearDownTestCase. TestResult ad_hoc_test_result_; // We disallow copying TestCases. GTEST_DISALLOW_COPY_AND_ASSIGN_(TestCase); }; // An Environment object is capable of setting up and tearing down an // environment. You should subclass this to define your own // environment(s). // // An Environment object does the set-up and tear-down in virtual // methods SetUp() and TearDown() instead of the constructor and the // destructor, as: // // 1. You cannot safely throw from a destructor. This is a problem // as in some cases Google Test is used where exceptions are enabled, and // we may want to implement ASSERT_* using exceptions where they are // available. // 2. You cannot use ASSERT_* directly in a constructor or // destructor. class Environment { public: // The d'tor is virtual as we need to subclass Environment. virtual ~Environment() {} // Override this to define how to set up the environment. virtual void SetUp() {} // Override this to define how to tear down the environment. virtual void TearDown() {} private: // If you see an error about overriding the following function or // about it being private, you have mis-spelled SetUp() as Setup(). struct Setup_should_be_spelled_SetUp {}; virtual Setup_should_be_spelled_SetUp* Setup() { return NULL; } }; // The interface for tracing execution of tests. The methods are organized in // the order the corresponding events are fired. class TestEventListener { public: virtual ~TestEventListener() {} // Fired before any test activity starts. virtual void OnTestProgramStart(const UnitTest& unit_test) = 0; // Fired before each iteration of tests starts. There may be more than // one iteration if GTEST_FLAG(repeat) is set. iteration is the iteration // index, starting from 0. virtual void OnTestIterationStart(const UnitTest& unit_test, int iteration) = 0; // Fired before environment set-up for each iteration of tests starts. virtual void OnEnvironmentsSetUpStart(const UnitTest& unit_test) = 0; // Fired after environment set-up for each iteration of tests ends. virtual void OnEnvironmentsSetUpEnd(const UnitTest& unit_test) = 0; // Fired before the test case starts. virtual void OnTestCaseStart(const TestCase& test_case) = 0; // Fired before the test starts. virtual void OnTestStart(const TestInfo& test_info) = 0; // Fired after a failed assertion or a SUCCEED() invocation. virtual void OnTestPartResult(const TestPartResult& test_part_result) = 0; // Fired after the test ends. virtual void OnTestEnd(const TestInfo& test_info) = 0; // Fired after the test case ends. virtual void OnTestCaseEnd(const TestCase& test_case) = 0; // Fired before environment tear-down for each iteration of tests starts. virtual void OnEnvironmentsTearDownStart(const UnitTest& unit_test) = 0; // Fired after environment tear-down for each iteration of tests ends. virtual void OnEnvironmentsTearDownEnd(const UnitTest& unit_test) = 0; // Fired after each iteration of tests finishes. virtual void OnTestIterationEnd(const UnitTest& unit_test, int iteration) = 0; // Fired after all test activities have ended. virtual void OnTestProgramEnd(const UnitTest& unit_test) = 0; }; // The convenience class for users who need to override just one or two // methods and are not concerned that a possible change to a signature of // the methods they override will not be caught during the build. For // comments about each method please see the definition of TestEventListener // above. class EmptyTestEventListener : public TestEventListener { public: virtual void OnTestProgramStart(const UnitTest& /*unit_test*/) {} virtual void OnTestIterationStart(const UnitTest& /*unit_test*/, int /*iteration*/) {} virtual void OnEnvironmentsSetUpStart(const UnitTest& /*unit_test*/) {} virtual void OnEnvironmentsSetUpEnd(const UnitTest& /*unit_test*/) {} virtual void OnTestCaseStart(const TestCase& /*test_case*/) {} virtual void OnTestStart(const TestInfo& /*test_info*/) {} virtual void OnTestPartResult(const TestPartResult& /*test_part_result*/) {} virtual void OnTestEnd(const TestInfo& /*test_info*/) {} virtual void OnTestCaseEnd(const TestCase& /*test_case*/) {} virtual void OnEnvironmentsTearDownStart(const UnitTest& /*unit_test*/) {} virtual void OnEnvironmentsTearDownEnd(const UnitTest& /*unit_test*/) {} virtual void OnTestIterationEnd(const UnitTest& /*unit_test*/, int /*iteration*/) {} virtual void OnTestProgramEnd(const UnitTest& /*unit_test*/) {} }; // TestEventListeners lets users add listeners to track events in Google Test. class GTEST_API_ TestEventListeners { public: TestEventListeners(); ~TestEventListeners(); // Appends an event listener to the end of the list. Google Test assumes // the ownership of the listener (i.e. it will delete the listener when // the test program finishes). void Append(TestEventListener* listener); // Removes the given event listener from the list and returns it. It then // becomes the caller's responsibility to delete the listener. Returns // NULL if the listener is not found in the list. TestEventListener* Release(TestEventListener* listener); // Returns the standard listener responsible for the default console // output. Can be removed from the listeners list to shut down default // console output. Note that removing this object from the listener list // with Release transfers its ownership to the caller and makes this // function return NULL the next time. TestEventListener* default_result_printer() const { return default_result_printer_; } // Returns the standard listener responsible for the default XML output // controlled by the --gtest_output=xml flag. Can be removed from the // listeners list by users who want to shut down the default XML output // controlled by this flag and substitute it with custom one. Note that // removing this object from the listener list with Release transfers its // ownership to the caller and makes this function return NULL the next // time. TestEventListener* default_xml_generator() const { return default_xml_generator_; } private: friend class TestCase; friend class TestInfo; friend class internal::DefaultGlobalTestPartResultReporter; friend class internal::NoExecDeathTest; friend class internal::TestEventListenersAccessor; friend class internal::UnitTestImpl; // Returns repeater that broadcasts the TestEventListener events to all // subscribers. TestEventListener* repeater(); // Sets the default_result_printer attribute to the provided listener. // The listener is also added to the listener list and previous // default_result_printer is removed from it and deleted. The listener can // also be NULL in which case it will not be added to the list. Does // nothing if the previous and the current listener objects are the same. void SetDefaultResultPrinter(TestEventListener* listener); // Sets the default_xml_generator attribute to the provided listener. The // listener is also added to the listener list and previous // default_xml_generator is removed from it and deleted. The listener can // also be NULL in which case it will not be added to the list. Does // nothing if the previous and the current listener objects are the same. void SetDefaultXmlGenerator(TestEventListener* listener); // Controls whether events will be forwarded by the repeater to the // listeners in the list. bool EventForwardingEnabled() const; void SuppressEventForwarding(); // The actual list of listeners. internal::TestEventRepeater* repeater_; // Listener responsible for the standard result output. TestEventListener* default_result_printer_; // Listener responsible for the creation of the XML output file. TestEventListener* default_xml_generator_; // We disallow copying TestEventListeners. GTEST_DISALLOW_COPY_AND_ASSIGN_(TestEventListeners); }; // A UnitTest consists of a vector of TestCases. // // This is a singleton class. The only instance of UnitTest is // created when UnitTest::GetInstance() is first called. This // instance is never deleted. // // UnitTest is not copyable. // // This class is thread-safe as long as the methods are called // according to their specification. class GTEST_API_ UnitTest { public: // Gets the singleton UnitTest object. The first time this method // is called, a UnitTest object is constructed and returned. // Consecutive calls will return the same object. static UnitTest* GetInstance(); // Runs all tests in this UnitTest object and prints the result. // Returns 0 if successful, or 1 otherwise. // // This method can only be called from the main thread. // // INTERNAL IMPLEMENTATION - DO NOT USE IN A USER PROGRAM. int Run() GTEST_MUST_USE_RESULT_; // Returns the working directory when the first TEST() or TEST_F() // was executed. The UnitTest object owns the string. const char* original_working_dir() const; // Returns the TestCase object for the test that's currently running, // or NULL if no test is running. const TestCase* current_test_case() const GTEST_LOCK_EXCLUDED_(mutex_); // Returns the TestInfo object for the test that's currently running, // or NULL if no test is running. const TestInfo* current_test_info() const GTEST_LOCK_EXCLUDED_(mutex_); // Returns the random seed used at the start of the current test run. int random_seed() const; #if GTEST_HAS_PARAM_TEST // Returns the ParameterizedTestCaseRegistry object used to keep track of // value-parameterized tests and instantiate and register them. // // INTERNAL IMPLEMENTATION - DO NOT USE IN A USER PROGRAM. internal::ParameterizedTestCaseRegistry& parameterized_test_registry() GTEST_LOCK_EXCLUDED_(mutex_); #endif // GTEST_HAS_PARAM_TEST // Gets the number of successful test cases. int successful_test_case_count() const; // Gets the number of failed test cases. int failed_test_case_count() const; // Gets the number of all test cases. int total_test_case_count() const; // Gets the number of all test cases that contain at least one test // that should run. int test_case_to_run_count() const; // Gets the number of successful tests. int successful_test_count() const; // Gets the number of failed tests. int failed_test_count() const; // Gets the number of disabled tests that will be reported in the XML report. int reportable_disabled_test_count() const; // Gets the number of disabled tests. int disabled_test_count() const; // Gets the number of tests to be printed in the XML report. int reportable_test_count() const; // Gets the number of all tests. int total_test_count() const; // Gets the number of tests that should run. int test_to_run_count() const; // Gets the time of the test program start, in ms from the start of the // UNIX epoch. TimeInMillis start_timestamp() const; // Gets the elapsed time, in milliseconds. TimeInMillis elapsed_time() const; // Returns true iff the unit test passed (i.e. all test cases passed). bool Passed() const; // Returns true iff the unit test failed (i.e. some test case failed // or something outside of all tests failed). bool Failed() const; // Gets the i-th test case among all the test cases. i can range from 0 to // total_test_case_count() - 1. If i is not in that range, returns NULL. const TestCase* GetTestCase(int i) const; // Returns the TestResult containing information on test failures and // properties logged outside of individual test cases. const TestResult& ad_hoc_test_result() const; // Returns the list of event listeners that can be used to track events // inside Google Test. TestEventListeners& listeners(); private: // Registers and returns a global test environment. When a test // program is run, all global test environments will be set-up in // the order they were registered. After all tests in the program // have finished, all global test environments will be torn-down in // the *reverse* order they were registered. // // The UnitTest object takes ownership of the given environment. // // This method can only be called from the main thread. Environment* AddEnvironment(Environment* env); // Adds a TestPartResult to the current TestResult object. All // Google Test assertion macros (e.g. ASSERT_TRUE, EXPECT_EQ, etc) // eventually call this to report their results. The user code // should use the assertion macros instead of calling this directly. void AddTestPartResult(TestPartResult::Type result_type, const char* file_name, int line_number, const std::string& message, const std::string& os_stack_trace) GTEST_LOCK_EXCLUDED_(mutex_); // Adds a TestProperty to the current TestResult object when invoked from // inside a test, to current TestCase's ad_hoc_test_result_ when invoked // from SetUpTestCase or TearDownTestCase, or to the global property set // when invoked elsewhere. If the result already contains a property with // the same key, the value will be updated. void RecordProperty(const std::string& key, const std::string& value); // Gets the i-th test case among all the test cases. i can range from 0 to // total_test_case_count() - 1. If i is not in that range, returns NULL. TestCase* GetMutableTestCase(int i); // Accessors for the implementation object. internal::UnitTestImpl* impl() { return impl_; } const internal::UnitTestImpl* impl() const { return impl_; } // These classes and funcions are friends as they need to access private // members of UnitTest. friend class Test; friend class internal::AssertHelper; friend class internal::ScopedTrace; friend class internal::StreamingListenerTest; friend class internal::UnitTestRecordPropertyTestHelper; friend Environment* AddGlobalTestEnvironment(Environment* env); friend internal::UnitTestImpl* internal::GetUnitTestImpl(); friend void internal::ReportFailureInUnknownLocation( TestPartResult::Type result_type, const std::string& message); // Creates an empty UnitTest. UnitTest(); // D'tor virtual ~UnitTest(); // Pushes a trace defined by SCOPED_TRACE() on to the per-thread // Google Test trace stack. void PushGTestTrace(const internal::TraceInfo& trace) GTEST_LOCK_EXCLUDED_(mutex_); // Pops a trace from the per-thread Google Test trace stack. void PopGTestTrace() GTEST_LOCK_EXCLUDED_(mutex_); // Protects mutable state in *impl_. This is mutable as some const // methods need to lock it too. mutable internal::Mutex mutex_; // Opaque implementation object. This field is never changed once // the object is constructed. We don't mark it as const here, as // doing so will cause a warning in the constructor of UnitTest. // Mutable state in *impl_ is protected by mutex_. internal::UnitTestImpl* impl_; // We disallow copying UnitTest. GTEST_DISALLOW_COPY_AND_ASSIGN_(UnitTest); }; // A convenient wrapper for adding an environment for the test // program. // // You should call this before RUN_ALL_TESTS() is called, probably in // main(). If you use gtest_main, you need to call this before main() // starts for it to take effect. For example, you can define a global // variable like this: // // testing::Environment* const foo_env = // testing::AddGlobalTestEnvironment(new FooEnvironment); // // However, we strongly recommend you to write your own main() and // call AddGlobalTestEnvironment() there, as relying on initialization // of global variables makes the code harder to read and may cause // problems when you register multiple environments from different // translation units and the environments have dependencies among them // (remember that the compiler doesn't guarantee the order in which // global variables from different translation units are initialized). inline Environment* AddGlobalTestEnvironment(Environment* env) { return UnitTest::GetInstance()->AddEnvironment(env); } // Initializes Google Test. This must be called before calling // RUN_ALL_TESTS(). In particular, it parses a command line for the // flags that Google Test recognizes. Whenever a Google Test flag is // seen, it is removed from argv, and *argc is decremented. // // No value is returned. Instead, the Google Test flag variables are // updated. // // Calling the function for the second time has no user-visible effect. GTEST_API_ void InitGoogleTest(int* argc, char** argv); // This overloaded version can be used in Windows programs compiled in // UNICODE mode. GTEST_API_ void InitGoogleTest(int* argc, wchar_t** argv); namespace internal { // FormatForComparison::Format(value) formats a // value of type ToPrint that is an operand of a comparison assertion // (e.g. ASSERT_EQ). OtherOperand is the type of the other operand in // the comparison, and is used to help determine the best way to // format the value. In particular, when the value is a C string // (char pointer) and the other operand is an STL string object, we // want to format the C string as a string, since we know it is // compared by value with the string object. If the value is a char // pointer but the other operand is not an STL string object, we don't // know whether the pointer is supposed to point to a NUL-terminated // string, and thus want to print it as a pointer to be safe. // // INTERNAL IMPLEMENTATION - DO NOT USE IN A USER PROGRAM. // The default case. template class FormatForComparison { public: static ::std::string Format(const ToPrint& value) { return ::testing::PrintToString(value); } }; // Array. template class FormatForComparison { public: static ::std::string Format(const ToPrint* value) { return FormatForComparison::Format(value); } }; // By default, print C string as pointers to be safe, as we don't know // whether they actually point to a NUL-terminated string. #define GTEST_IMPL_FORMAT_C_STRING_AS_POINTER_(CharType) \ template \ class FormatForComparison { \ public: \ static ::std::string Format(CharType* value) { \ return ::testing::PrintToString(static_cast(value)); \ } \ } GTEST_IMPL_FORMAT_C_STRING_AS_POINTER_(char); GTEST_IMPL_FORMAT_C_STRING_AS_POINTER_(const char); GTEST_IMPL_FORMAT_C_STRING_AS_POINTER_(wchar_t); GTEST_IMPL_FORMAT_C_STRING_AS_POINTER_(const wchar_t); #undef GTEST_IMPL_FORMAT_C_STRING_AS_POINTER_ // If a C string is compared with an STL string object, we know it's meant // to point to a NUL-terminated string, and thus can print it as a string. #define GTEST_IMPL_FORMAT_C_STRING_AS_STRING_(CharType, OtherStringType) \ template <> \ class FormatForComparison { \ public: \ static ::std::string Format(CharType* value) { \ return ::testing::PrintToString(value); \ } \ } GTEST_IMPL_FORMAT_C_STRING_AS_STRING_(char, ::std::string); GTEST_IMPL_FORMAT_C_STRING_AS_STRING_(const char, ::std::string); #if GTEST_HAS_GLOBAL_STRING GTEST_IMPL_FORMAT_C_STRING_AS_STRING_(char, ::string); GTEST_IMPL_FORMAT_C_STRING_AS_STRING_(const char, ::string); #endif #if GTEST_HAS_GLOBAL_WSTRING GTEST_IMPL_FORMAT_C_STRING_AS_STRING_(wchar_t, ::wstring); GTEST_IMPL_FORMAT_C_STRING_AS_STRING_(const wchar_t, ::wstring); #endif #if GTEST_HAS_STD_WSTRING GTEST_IMPL_FORMAT_C_STRING_AS_STRING_(wchar_t, ::std::wstring); GTEST_IMPL_FORMAT_C_STRING_AS_STRING_(const wchar_t, ::std::wstring); #endif #undef GTEST_IMPL_FORMAT_C_STRING_AS_STRING_ // Formats a comparison assertion (e.g. ASSERT_EQ, EXPECT_LT, and etc) // operand to be used in a failure message. The type (but not value) // of the other operand may affect the format. This allows us to // print a char* as a raw pointer when it is compared against another // char* or void*, and print it as a C string when it is compared // against an std::string object, for example. // // INTERNAL IMPLEMENTATION - DO NOT USE IN A USER PROGRAM. template std::string FormatForComparisonFailureMessage( const T1& value, const T2& /* other_operand */) { return FormatForComparison::Format(value); } // Separate the error generating code from the code path to reduce the stack // frame size of CmpHelperEQ. This helps reduce the overhead of some sanitizers // when calling EXPECT_* in a tight loop. template AssertionResult CmpHelperEQFailure(const char* expected_expression, const char* actual_expression, const T1& expected, const T2& actual) { return EqFailure(expected_expression, actual_expression, FormatForComparisonFailureMessage(expected, actual), FormatForComparisonFailureMessage(actual, expected), false); } // The helper function for {ASSERT|EXPECT}_EQ. template AssertionResult CmpHelperEQ(const char* expected_expression, const char* actual_expression, const T1& expected, const T2& actual) { GTEST_DISABLE_MSC_WARNINGS_PUSH_(4389 /* signed/unsigned mismatch */) if (expected == actual) { return AssertionSuccess(); } GTEST_DISABLE_MSC_WARNINGS_POP_() return CmpHelperEQFailure(expected_expression, actual_expression, expected, actual); } // With this overloaded version, we allow anonymous enums to be used // in {ASSERT|EXPECT}_EQ when compiled with gcc 4, as anonymous enums // can be implicitly cast to BiggestInt. GTEST_API_ AssertionResult CmpHelperEQ(const char* expected_expression, const char* actual_expression, BiggestInt expected, BiggestInt actual); // The helper class for {ASSERT|EXPECT}_EQ. The template argument // lhs_is_null_literal is true iff the first argument to ASSERT_EQ() // is a null pointer literal. The following default implementation is // for lhs_is_null_literal being false. template class EqHelper { public: // This templatized version is for the general case. template static AssertionResult Compare(const char* expected_expression, const char* actual_expression, const T1& expected, const T2& actual) { return CmpHelperEQ(expected_expression, actual_expression, expected, actual); } // With this overloaded version, we allow anonymous enums to be used // in {ASSERT|EXPECT}_EQ when compiled with gcc 4, as anonymous // enums can be implicitly cast to BiggestInt. // // Even though its body looks the same as the above version, we // cannot merge the two, as it will make anonymous enums unhappy. static AssertionResult Compare(const char* expected_expression, const char* actual_expression, BiggestInt expected, BiggestInt actual) { return CmpHelperEQ(expected_expression, actual_expression, expected, actual); } }; // This specialization is used when the first argument to ASSERT_EQ() // is a null pointer literal, like NULL, false, or 0. template <> class EqHelper { public: // We define two overloaded versions of Compare(). The first // version will be picked when the second argument to ASSERT_EQ() is // NOT a pointer, e.g. ASSERT_EQ(0, AnIntFunction()) or // EXPECT_EQ(false, a_bool). template static AssertionResult Compare( const char* expected_expression, const char* actual_expression, const T1& expected, const T2& actual, // The following line prevents this overload from being considered if T2 // is not a pointer type. We need this because ASSERT_EQ(NULL, my_ptr) // expands to Compare("", "", NULL, my_ptr), which requires a conversion // to match the Secret* in the other overload, which would otherwise make // this template match better. typename EnableIf::value>::type* = 0) { return CmpHelperEQ(expected_expression, actual_expression, expected, actual); } // This version will be picked when the second argument to ASSERT_EQ() is a // pointer, e.g. ASSERT_EQ(NULL, a_pointer). template static AssertionResult Compare( const char* expected_expression, const char* actual_expression, // We used to have a second template parameter instead of Secret*. That // template parameter would deduce to 'long', making this a better match // than the first overload even without the first overload's EnableIf. // Unfortunately, gcc with -Wconversion-null warns when "passing NULL to // non-pointer argument" (even a deduced integral argument), so the old // implementation caused warnings in user code. Secret* /* expected (NULL) */, T* actual) { // We already know that 'expected' is a null pointer. return CmpHelperEQ(expected_expression, actual_expression, static_cast(NULL), actual); } }; // Separate the error generating code from the code path to reduce the stack // frame size of CmpHelperOP. This helps reduce the overhead of some sanitizers // when calling EXPECT_OP in a tight loop. template AssertionResult CmpHelperOpFailure(const char* expr1, const char* expr2, const T1& val1, const T2& val2, const char* op) { return AssertionFailure() << "Expected: (" << expr1 << ") " << op << " (" << expr2 << "), actual: " << FormatForComparisonFailureMessage(val1, val2) << " vs " << FormatForComparisonFailureMessage(val2, val1); } // A macro for implementing the helper functions needed to implement // ASSERT_?? and EXPECT_??. It is here just to avoid copy-and-paste // of similar code. // // For each templatized helper function, we also define an overloaded // version for BiggestInt in order to reduce code bloat and allow // anonymous enums to be used with {ASSERT|EXPECT}_?? when compiled // with gcc 4. // // INTERNAL IMPLEMENTATION - DO NOT USE IN A USER PROGRAM. #define GTEST_IMPL_CMP_HELPER_(op_name, op)\ template \ AssertionResult CmpHelper##op_name(const char* expr1, const char* expr2, \ const T1& val1, const T2& val2) {\ if (val1 op val2) {\ return AssertionSuccess();\ } else {\ return CmpHelperOpFailure(expr1, expr2, val1, val2, #op);\ }\ }\ GTEST_API_ AssertionResult CmpHelper##op_name(\ const char* expr1, const char* expr2, BiggestInt val1, BiggestInt val2) // INTERNAL IMPLEMENTATION - DO NOT USE IN A USER PROGRAM. // Implements the helper function for {ASSERT|EXPECT}_NE GTEST_IMPL_CMP_HELPER_(NE, !=); // Implements the helper function for {ASSERT|EXPECT}_LE GTEST_IMPL_CMP_HELPER_(LE, <=); // Implements the helper function for {ASSERT|EXPECT}_LT GTEST_IMPL_CMP_HELPER_(LT, <); // Implements the helper function for {ASSERT|EXPECT}_GE GTEST_IMPL_CMP_HELPER_(GE, >=); // Implements the helper function for {ASSERT|EXPECT}_GT GTEST_IMPL_CMP_HELPER_(GT, >); #undef GTEST_IMPL_CMP_HELPER_ // The helper function for {ASSERT|EXPECT}_STREQ. // // INTERNAL IMPLEMENTATION - DO NOT USE IN A USER PROGRAM. GTEST_API_ AssertionResult CmpHelperSTREQ(const char* expected_expression, const char* actual_expression, const char* expected, const char* actual); // The helper function for {ASSERT|EXPECT}_STRCASEEQ. // // INTERNAL IMPLEMENTATION - DO NOT USE IN A USER PROGRAM. GTEST_API_ AssertionResult CmpHelperSTRCASEEQ(const char* expected_expression, const char* actual_expression, const char* expected, const char* actual); // The helper function for {ASSERT|EXPECT}_STRNE. // // INTERNAL IMPLEMENTATION - DO NOT USE IN A USER PROGRAM. GTEST_API_ AssertionResult CmpHelperSTRNE(const char* s1_expression, const char* s2_expression, const char* s1, const char* s2); // The helper function for {ASSERT|EXPECT}_STRCASENE. // // INTERNAL IMPLEMENTATION - DO NOT USE IN A USER PROGRAM. GTEST_API_ AssertionResult CmpHelperSTRCASENE(const char* s1_expression, const char* s2_expression, const char* s1, const char* s2); // Helper function for *_STREQ on wide strings. // // INTERNAL IMPLEMENTATION - DO NOT USE IN A USER PROGRAM. GTEST_API_ AssertionResult CmpHelperSTREQ(const char* expected_expression, const char* actual_expression, const wchar_t* expected, const wchar_t* actual); // Helper function for *_STRNE on wide strings. // // INTERNAL IMPLEMENTATION - DO NOT USE IN A USER PROGRAM. GTEST_API_ AssertionResult CmpHelperSTRNE(const char* s1_expression, const char* s2_expression, const wchar_t* s1, const wchar_t* s2); } // namespace internal // IsSubstring() and IsNotSubstring() are intended to be used as the // first argument to {EXPECT,ASSERT}_PRED_FORMAT2(), not by // themselves. They check whether needle is a substring of haystack // (NULL is considered a substring of itself only), and return an // appropriate error message when they fail. // // The {needle,haystack}_expr arguments are the stringified // expressions that generated the two real arguments. GTEST_API_ AssertionResult IsSubstring( const char* needle_expr, const char* haystack_expr, const char* needle, const char* haystack); GTEST_API_ AssertionResult IsSubstring( const char* needle_expr, const char* haystack_expr, const wchar_t* needle, const wchar_t* haystack); GTEST_API_ AssertionResult IsNotSubstring( const char* needle_expr, const char* haystack_expr, const char* needle, const char* haystack); GTEST_API_ AssertionResult IsNotSubstring( const char* needle_expr, const char* haystack_expr, const wchar_t* needle, const wchar_t* haystack); GTEST_API_ AssertionResult IsSubstring( const char* needle_expr, const char* haystack_expr, const ::std::string& needle, const ::std::string& haystack); GTEST_API_ AssertionResult IsNotSubstring( const char* needle_expr, const char* haystack_expr, const ::std::string& needle, const ::std::string& haystack); #if GTEST_HAS_STD_WSTRING GTEST_API_ AssertionResult IsSubstring( const char* needle_expr, const char* haystack_expr, const ::std::wstring& needle, const ::std::wstring& haystack); GTEST_API_ AssertionResult IsNotSubstring( const char* needle_expr, const char* haystack_expr, const ::std::wstring& needle, const ::std::wstring& haystack); #endif // GTEST_HAS_STD_WSTRING namespace internal { // Helper template function for comparing floating-points. // // Template parameter: // // RawType: the raw floating-point type (either float or double) // // INTERNAL IMPLEMENTATION - DO NOT USE IN A USER PROGRAM. template AssertionResult CmpHelperFloatingPointEQ(const char* expected_expression, const char* actual_expression, RawType expected, RawType actual) { const FloatingPoint lhs(expected), rhs(actual); if (lhs.AlmostEquals(rhs)) { return AssertionSuccess(); } ::std::stringstream expected_ss; expected_ss << std::setprecision(std::numeric_limits::digits10 + 2) << expected; ::std::stringstream actual_ss; actual_ss << std::setprecision(std::numeric_limits::digits10 + 2) << actual; return EqFailure(expected_expression, actual_expression, StringStreamToString(&expected_ss), StringStreamToString(&actual_ss), false); } // Helper function for implementing ASSERT_NEAR. // // INTERNAL IMPLEMENTATION - DO NOT USE IN A USER PROGRAM. GTEST_API_ AssertionResult DoubleNearPredFormat(const char* expr1, const char* expr2, const char* abs_error_expr, double val1, double val2, double abs_error); // INTERNAL IMPLEMENTATION - DO NOT USE IN USER CODE. // A class that enables one to stream messages to assertion macros class GTEST_API_ AssertHelper { public: // Constructor. AssertHelper(TestPartResult::Type type, const char* file, int line, const char* message); ~AssertHelper(); // Message assignment is a semantic trick to enable assertion // streaming; see the GTEST_MESSAGE_ macro below. void operator=(const Message& message) const; private: // We put our data in a struct so that the size of the AssertHelper class can // be as small as possible. This is important because gcc is incapable of // re-using stack space even for temporary variables, so every EXPECT_EQ // reserves stack space for another AssertHelper. struct AssertHelperData { AssertHelperData(TestPartResult::Type t, const char* srcfile, int line_num, const char* msg) : type(t), file(srcfile), line(line_num), message(msg) { } TestPartResult::Type const type; const char* const file; int const line; std::string const message; private: GTEST_DISALLOW_COPY_AND_ASSIGN_(AssertHelperData); }; AssertHelperData* const data_; GTEST_DISALLOW_COPY_AND_ASSIGN_(AssertHelper); }; } // namespace internal #if GTEST_HAS_PARAM_TEST // The pure interface class that all value-parameterized tests inherit from. // A value-parameterized class must inherit from both ::testing::Test and // ::testing::WithParamInterface. In most cases that just means inheriting // from ::testing::TestWithParam, but more complicated test hierarchies // may need to inherit from Test and WithParamInterface at different levels. // // This interface has support for accessing the test parameter value via // the GetParam() method. // // Use it with one of the parameter generator defining functions, like Range(), // Values(), ValuesIn(), Bool(), and Combine(). // // class FooTest : public ::testing::TestWithParam { // protected: // FooTest() { // // Can use GetParam() here. // } // virtual ~FooTest() { // // Can use GetParam() here. // } // virtual void SetUp() { // // Can use GetParam() here. // } // virtual void TearDown { // // Can use GetParam() here. // } // }; // TEST_P(FooTest, DoesBar) { // // Can use GetParam() method here. // Foo foo; // ASSERT_TRUE(foo.DoesBar(GetParam())); // } // INSTANTIATE_TEST_CASE_P(OneToTenRange, FooTest, ::testing::Range(1, 10)); template class WithParamInterface { public: typedef T ParamType; virtual ~WithParamInterface() {} // The current parameter value. Is also available in the test fixture's // constructor. This member function is non-static, even though it only // references static data, to reduce the opportunity for incorrect uses // like writing 'WithParamInterface::GetParam()' for a test that // uses a fixture whose parameter type is int. const ParamType& GetParam() const { GTEST_CHECK_(parameter_ != NULL) << "GetParam() can only be called inside a value-parameterized test " << "-- did you intend to write TEST_P instead of TEST_F?"; return *parameter_; } private: // Sets parameter value. The caller is responsible for making sure the value // remains alive and unchanged throughout the current test. static void SetParam(const ParamType* parameter) { parameter_ = parameter; } // Static value used for accessing parameter during a test lifetime. static const ParamType* parameter_; // TestClass must be a subclass of WithParamInterface and Test. template friend class internal::ParameterizedTestFactory; }; template const T* WithParamInterface::parameter_ = NULL; // Most value-parameterized classes can ignore the existence of // WithParamInterface, and can just inherit from ::testing::TestWithParam. template class TestWithParam : public Test, public WithParamInterface { }; #endif // GTEST_HAS_PARAM_TEST // Macros for indicating success/failure in test code. // ADD_FAILURE unconditionally adds a failure to the current test. // SUCCEED generates a success - it doesn't automatically make the // current test successful, as a test is only successful when it has // no failure. // // EXPECT_* verifies that a certain condition is satisfied. If not, // it behaves like ADD_FAILURE. In particular: // // EXPECT_TRUE verifies that a Boolean condition is true. // EXPECT_FALSE verifies that a Boolean condition is false. // // FAIL and ASSERT_* are similar to ADD_FAILURE and EXPECT_*, except // that they will also abort the current function on failure. People // usually want the fail-fast behavior of FAIL and ASSERT_*, but those // writing data-driven tests often find themselves using ADD_FAILURE // and EXPECT_* more. // Generates a nonfatal failure with a generic message. #define ADD_FAILURE() GTEST_NONFATAL_FAILURE_("Failed") // Generates a nonfatal failure at the given source file location with // a generic message. #define ADD_FAILURE_AT(file, line) \ GTEST_MESSAGE_AT_(file, line, "Failed", \ ::testing::TestPartResult::kNonFatalFailure) // Generates a fatal failure with a generic message. #define GTEST_FAIL() GTEST_FATAL_FAILURE_("Failed") // Define this macro to 1 to omit the definition of FAIL(), which is a // generic name and clashes with some other libraries. #if !GTEST_DONT_DEFINE_FAIL # define FAIL() GTEST_FAIL() #endif // Generates a success with a generic message. #define GTEST_SUCCEED() GTEST_SUCCESS_("Succeeded") // Define this macro to 1 to omit the definition of SUCCEED(), which // is a generic name and clashes with some other libraries. #if !GTEST_DONT_DEFINE_SUCCEED # define SUCCEED() GTEST_SUCCEED() #endif // Macros for testing exceptions. // // * {ASSERT|EXPECT}_THROW(statement, expected_exception): // Tests that the statement throws the expected exception. // * {ASSERT|EXPECT}_NO_THROW(statement): // Tests that the statement doesn't throw any exception. // * {ASSERT|EXPECT}_ANY_THROW(statement): // Tests that the statement throws an exception. #define EXPECT_THROW(statement, expected_exception) \ GTEST_TEST_THROW_(statement, expected_exception, GTEST_NONFATAL_FAILURE_) #define EXPECT_NO_THROW(statement) \ GTEST_TEST_NO_THROW_(statement, GTEST_NONFATAL_FAILURE_) #define EXPECT_ANY_THROW(statement) \ GTEST_TEST_ANY_THROW_(statement, GTEST_NONFATAL_FAILURE_) #define ASSERT_THROW(statement, expected_exception) \ GTEST_TEST_THROW_(statement, expected_exception, GTEST_FATAL_FAILURE_) #define ASSERT_NO_THROW(statement) \ GTEST_TEST_NO_THROW_(statement, GTEST_FATAL_FAILURE_) #define ASSERT_ANY_THROW(statement) \ GTEST_TEST_ANY_THROW_(statement, GTEST_FATAL_FAILURE_) // Boolean assertions. Condition can be either a Boolean expression or an // AssertionResult. For more information on how to use AssertionResult with // these macros see comments on that class. #define EXPECT_TRUE(condition) \ GTEST_TEST_BOOLEAN_(condition, #condition, false, true, \ GTEST_NONFATAL_FAILURE_) #define EXPECT_FALSE(condition) \ GTEST_TEST_BOOLEAN_(!(condition), #condition, true, false, \ GTEST_NONFATAL_FAILURE_) #define ASSERT_TRUE(condition) \ GTEST_TEST_BOOLEAN_(condition, #condition, false, true, \ GTEST_FATAL_FAILURE_) #define ASSERT_FALSE(condition) \ GTEST_TEST_BOOLEAN_(!(condition), #condition, true, false, \ GTEST_FATAL_FAILURE_) // Includes the auto-generated header that implements a family of // generic predicate assertion macros. // Copyright 2006, Google Inc. // All rights reserved. // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following disclaimer // in the documentation and/or other materials provided with the // distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived from // this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // This file is AUTOMATICALLY GENERATED on 10/31/2011 by command // 'gen_gtest_pred_impl.py 5'. DO NOT EDIT BY HAND! // // Implements a family of generic predicate assertion macros. #ifndef GTEST_INCLUDE_GTEST_GTEST_PRED_IMPL_H_ #define GTEST_INCLUDE_GTEST_GTEST_PRED_IMPL_H_ // Makes sure this header is not included before gtest.h. #ifndef GTEST_INCLUDE_GTEST_GTEST_H_ # error Do not include gtest_pred_impl.h directly. Include gtest.h instead. #endif // GTEST_INCLUDE_GTEST_GTEST_H_ // This header implements a family of generic predicate assertion // macros: // // ASSERT_PRED_FORMAT1(pred_format, v1) // ASSERT_PRED_FORMAT2(pred_format, v1, v2) // ... // // where pred_format is a function or functor that takes n (in the // case of ASSERT_PRED_FORMATn) values and their source expression // text, and returns a testing::AssertionResult. See the definition // of ASSERT_EQ in gtest.h for an example. // // If you don't care about formatting, you can use the more // restrictive version: // // ASSERT_PRED1(pred, v1) // ASSERT_PRED2(pred, v1, v2) // ... // // where pred is an n-ary function or functor that returns bool, // and the values v1, v2, ..., must support the << operator for // streaming to std::ostream. // // We also define the EXPECT_* variations. // // For now we only support predicates whose arity is at most 5. // Please email googletestframework@googlegroups.com if you need // support for higher arities. // GTEST_ASSERT_ is the basic statement to which all of the assertions // in this file reduce. Don't use this in your code. #define GTEST_ASSERT_(expression, on_failure) \ GTEST_AMBIGUOUS_ELSE_BLOCKER_ \ if (const ::testing::AssertionResult gtest_ar = (expression)) \ ; \ else \ on_failure(gtest_ar.failure_message()) // Helper function for implementing {EXPECT|ASSERT}_PRED1. Don't use // this in your code. template AssertionResult AssertPred1Helper(const char* pred_text, const char* e1, Pred pred, const T1& v1) { if (pred(v1)) return AssertionSuccess(); return AssertionFailure() << pred_text << "(" << e1 << ") evaluates to false, where" << "\n" << e1 << " evaluates to " << v1; } // Internal macro for implementing {EXPECT|ASSERT}_PRED_FORMAT1. // Don't use this in your code. #define GTEST_PRED_FORMAT1_(pred_format, v1, on_failure)\ GTEST_ASSERT_(pred_format(#v1, v1), \ on_failure) // Internal macro for implementing {EXPECT|ASSERT}_PRED1. Don't use // this in your code. #define GTEST_PRED1_(pred, v1, on_failure)\ GTEST_ASSERT_(::testing::AssertPred1Helper(#pred, \ #v1, \ pred, \ v1), on_failure) // Unary predicate assertion macros. #define EXPECT_PRED_FORMAT1(pred_format, v1) \ GTEST_PRED_FORMAT1_(pred_format, v1, GTEST_NONFATAL_FAILURE_) #define EXPECT_PRED1(pred, v1) \ GTEST_PRED1_(pred, v1, GTEST_NONFATAL_FAILURE_) #define ASSERT_PRED_FORMAT1(pred_format, v1) \ GTEST_PRED_FORMAT1_(pred_format, v1, GTEST_FATAL_FAILURE_) #define ASSERT_PRED1(pred, v1) \ GTEST_PRED1_(pred, v1, GTEST_FATAL_FAILURE_) // Helper function for implementing {EXPECT|ASSERT}_PRED2. Don't use // this in your code. template AssertionResult AssertPred2Helper(const char* pred_text, const char* e1, const char* e2, Pred pred, const T1& v1, const T2& v2) { if (pred(v1, v2)) return AssertionSuccess(); return AssertionFailure() << pred_text << "(" << e1 << ", " << e2 << ") evaluates to false, where" << "\n" << e1 << " evaluates to " << v1 << "\n" << e2 << " evaluates to " << v2; } // Internal macro for implementing {EXPECT|ASSERT}_PRED_FORMAT2. // Don't use this in your code. #define GTEST_PRED_FORMAT2_(pred_format, v1, v2, on_failure)\ GTEST_ASSERT_(pred_format(#v1, #v2, v1, v2), \ on_failure) // Internal macro for implementing {EXPECT|ASSERT}_PRED2. Don't use // this in your code. #define GTEST_PRED2_(pred, v1, v2, on_failure)\ GTEST_ASSERT_(::testing::AssertPred2Helper(#pred, \ #v1, \ #v2, \ pred, \ v1, \ v2), on_failure) // Binary predicate assertion macros. #define EXPECT_PRED_FORMAT2(pred_format, v1, v2) \ GTEST_PRED_FORMAT2_(pred_format, v1, v2, GTEST_NONFATAL_FAILURE_) #define EXPECT_PRED2(pred, v1, v2) \ GTEST_PRED2_(pred, v1, v2, GTEST_NONFATAL_FAILURE_) #define ASSERT_PRED_FORMAT2(pred_format, v1, v2) \ GTEST_PRED_FORMAT2_(pred_format, v1, v2, GTEST_FATAL_FAILURE_) #define ASSERT_PRED2(pred, v1, v2) \ GTEST_PRED2_(pred, v1, v2, GTEST_FATAL_FAILURE_) // Helper function for implementing {EXPECT|ASSERT}_PRED3. Don't use // this in your code. template AssertionResult AssertPred3Helper(const char* pred_text, const char* e1, const char* e2, const char* e3, Pred pred, const T1& v1, const T2& v2, const T3& v3) { if (pred(v1, v2, v3)) return AssertionSuccess(); return AssertionFailure() << pred_text << "(" << e1 << ", " << e2 << ", " << e3 << ") evaluates to false, where" << "\n" << e1 << " evaluates to " << v1 << "\n" << e2 << " evaluates to " << v2 << "\n" << e3 << " evaluates to " << v3; } // Internal macro for implementing {EXPECT|ASSERT}_PRED_FORMAT3. // Don't use this in your code. #define GTEST_PRED_FORMAT3_(pred_format, v1, v2, v3, on_failure)\ GTEST_ASSERT_(pred_format(#v1, #v2, #v3, v1, v2, v3), \ on_failure) // Internal macro for implementing {EXPECT|ASSERT}_PRED3. Don't use // this in your code. #define GTEST_PRED3_(pred, v1, v2, v3, on_failure)\ GTEST_ASSERT_(::testing::AssertPred3Helper(#pred, \ #v1, \ #v2, \ #v3, \ pred, \ v1, \ v2, \ v3), on_failure) // Ternary predicate assertion macros. #define EXPECT_PRED_FORMAT3(pred_format, v1, v2, v3) \ GTEST_PRED_FORMAT3_(pred_format, v1, v2, v3, GTEST_NONFATAL_FAILURE_) #define EXPECT_PRED3(pred, v1, v2, v3) \ GTEST_PRED3_(pred, v1, v2, v3, GTEST_NONFATAL_FAILURE_) #define ASSERT_PRED_FORMAT3(pred_format, v1, v2, v3) \ GTEST_PRED_FORMAT3_(pred_format, v1, v2, v3, GTEST_FATAL_FAILURE_) #define ASSERT_PRED3(pred, v1, v2, v3) \ GTEST_PRED3_(pred, v1, v2, v3, GTEST_FATAL_FAILURE_) // Helper function for implementing {EXPECT|ASSERT}_PRED4. Don't use // this in your code. template AssertionResult AssertPred4Helper(const char* pred_text, const char* e1, const char* e2, const char* e3, const char* e4, Pred pred, const T1& v1, const T2& v2, const T3& v3, const T4& v4) { if (pred(v1, v2, v3, v4)) return AssertionSuccess(); return AssertionFailure() << pred_text << "(" << e1 << ", " << e2 << ", " << e3 << ", " << e4 << ") evaluates to false, where" << "\n" << e1 << " evaluates to " << v1 << "\n" << e2 << " evaluates to " << v2 << "\n" << e3 << " evaluates to " << v3 << "\n" << e4 << " evaluates to " << v4; } // Internal macro for implementing {EXPECT|ASSERT}_PRED_FORMAT4. // Don't use this in your code. #define GTEST_PRED_FORMAT4_(pred_format, v1, v2, v3, v4, on_failure)\ GTEST_ASSERT_(pred_format(#v1, #v2, #v3, #v4, v1, v2, v3, v4), \ on_failure) // Internal macro for implementing {EXPECT|ASSERT}_PRED4. Don't use // this in your code. #define GTEST_PRED4_(pred, v1, v2, v3, v4, on_failure)\ GTEST_ASSERT_(::testing::AssertPred4Helper(#pred, \ #v1, \ #v2, \ #v3, \ #v4, \ pred, \ v1, \ v2, \ v3, \ v4), on_failure) // 4-ary predicate assertion macros. #define EXPECT_PRED_FORMAT4(pred_format, v1, v2, v3, v4) \ GTEST_PRED_FORMAT4_(pred_format, v1, v2, v3, v4, GTEST_NONFATAL_FAILURE_) #define EXPECT_PRED4(pred, v1, v2, v3, v4) \ GTEST_PRED4_(pred, v1, v2, v3, v4, GTEST_NONFATAL_FAILURE_) #define ASSERT_PRED_FORMAT4(pred_format, v1, v2, v3, v4) \ GTEST_PRED_FORMAT4_(pred_format, v1, v2, v3, v4, GTEST_FATAL_FAILURE_) #define ASSERT_PRED4(pred, v1, v2, v3, v4) \ GTEST_PRED4_(pred, v1, v2, v3, v4, GTEST_FATAL_FAILURE_) // Helper function for implementing {EXPECT|ASSERT}_PRED5. Don't use // this in your code. template AssertionResult AssertPred5Helper(const char* pred_text, const char* e1, const char* e2, const char* e3, const char* e4, const char* e5, Pred pred, const T1& v1, const T2& v2, const T3& v3, const T4& v4, const T5& v5) { if (pred(v1, v2, v3, v4, v5)) return AssertionSuccess(); return AssertionFailure() << pred_text << "(" << e1 << ", " << e2 << ", " << e3 << ", " << e4 << ", " << e5 << ") evaluates to false, where" << "\n" << e1 << " evaluates to " << v1 << "\n" << e2 << " evaluates to " << v2 << "\n" << e3 << " evaluates to " << v3 << "\n" << e4 << " evaluates to " << v4 << "\n" << e5 << " evaluates to " << v5; } // Internal macro for implementing {EXPECT|ASSERT}_PRED_FORMAT5. // Don't use this in your code. #define GTEST_PRED_FORMAT5_(pred_format, v1, v2, v3, v4, v5, on_failure)\ GTEST_ASSERT_(pred_format(#v1, #v2, #v3, #v4, #v5, v1, v2, v3, v4, v5), \ on_failure) // Internal macro for implementing {EXPECT|ASSERT}_PRED5. Don't use // this in your code. #define GTEST_PRED5_(pred, v1, v2, v3, v4, v5, on_failure)\ GTEST_ASSERT_(::testing::AssertPred5Helper(#pred, \ #v1, \ #v2, \ #v3, \ #v4, \ #v5, \ pred, \ v1, \ v2, \ v3, \ v4, \ v5), on_failure) // 5-ary predicate assertion macros. #define EXPECT_PRED_FORMAT5(pred_format, v1, v2, v3, v4, v5) \ GTEST_PRED_FORMAT5_(pred_format, v1, v2, v3, v4, v5, GTEST_NONFATAL_FAILURE_) #define EXPECT_PRED5(pred, v1, v2, v3, v4, v5) \ GTEST_PRED5_(pred, v1, v2, v3, v4, v5, GTEST_NONFATAL_FAILURE_) #define ASSERT_PRED_FORMAT5(pred_format, v1, v2, v3, v4, v5) \ GTEST_PRED_FORMAT5_(pred_format, v1, v2, v3, v4, v5, GTEST_FATAL_FAILURE_) #define ASSERT_PRED5(pred, v1, v2, v3, v4, v5) \ GTEST_PRED5_(pred, v1, v2, v3, v4, v5, GTEST_FATAL_FAILURE_) #endif // GTEST_INCLUDE_GTEST_GTEST_PRED_IMPL_H_ // Macros for testing equalities and inequalities. // // * {ASSERT|EXPECT}_EQ(expected, actual): Tests that expected == actual // * {ASSERT|EXPECT}_NE(v1, v2): Tests that v1 != v2 // * {ASSERT|EXPECT}_LT(v1, v2): Tests that v1 < v2 // * {ASSERT|EXPECT}_LE(v1, v2): Tests that v1 <= v2 // * {ASSERT|EXPECT}_GT(v1, v2): Tests that v1 > v2 // * {ASSERT|EXPECT}_GE(v1, v2): Tests that v1 >= v2 // // When they are not, Google Test prints both the tested expressions and // their actual values. The values must be compatible built-in types, // or you will get a compiler error. By "compatible" we mean that the // values can be compared by the respective operator. // // Note: // // 1. It is possible to make a user-defined type work with // {ASSERT|EXPECT}_??(), but that requires overloading the // comparison operators and is thus discouraged by the Google C++ // Usage Guide. Therefore, you are advised to use the // {ASSERT|EXPECT}_TRUE() macro to assert that two objects are // equal. // // 2. The {ASSERT|EXPECT}_??() macros do pointer comparisons on // pointers (in particular, C strings). Therefore, if you use it // with two C strings, you are testing how their locations in memory // are related, not how their content is related. To compare two C // strings by content, use {ASSERT|EXPECT}_STR*(). // // 3. {ASSERT|EXPECT}_EQ(expected, actual) is preferred to // {ASSERT|EXPECT}_TRUE(expected == actual), as the former tells you // what the actual value is when it fails, and similarly for the // other comparisons. // // 4. Do not depend on the order in which {ASSERT|EXPECT}_??() // evaluate their arguments, which is undefined. // // 5. These macros evaluate their arguments exactly once. // // Examples: // // EXPECT_NE(5, Foo()); // EXPECT_EQ(NULL, a_pointer); // ASSERT_LT(i, array_size); // ASSERT_GT(records.size(), 0) << "There is no record left."; #define EXPECT_EQ(expected, actual) \ EXPECT_PRED_FORMAT2(::testing::internal:: \ EqHelper::Compare, \ expected, actual) #define EXPECT_NE(expected, actual) \ EXPECT_PRED_FORMAT2(::testing::internal::CmpHelperNE, expected, actual) #define EXPECT_LE(val1, val2) \ EXPECT_PRED_FORMAT2(::testing::internal::CmpHelperLE, val1, val2) #define EXPECT_LT(val1, val2) \ EXPECT_PRED_FORMAT2(::testing::internal::CmpHelperLT, val1, val2) #define EXPECT_GE(val1, val2) \ EXPECT_PRED_FORMAT2(::testing::internal::CmpHelperGE, val1, val2) #define EXPECT_GT(val1, val2) \ EXPECT_PRED_FORMAT2(::testing::internal::CmpHelperGT, val1, val2) #define GTEST_ASSERT_EQ(expected, actual) \ ASSERT_PRED_FORMAT2(::testing::internal:: \ EqHelper::Compare, \ expected, actual) #define GTEST_ASSERT_NE(val1, val2) \ ASSERT_PRED_FORMAT2(::testing::internal::CmpHelperNE, val1, val2) #define GTEST_ASSERT_LE(val1, val2) \ ASSERT_PRED_FORMAT2(::testing::internal::CmpHelperLE, val1, val2) #define GTEST_ASSERT_LT(val1, val2) \ ASSERT_PRED_FORMAT2(::testing::internal::CmpHelperLT, val1, val2) #define GTEST_ASSERT_GE(val1, val2) \ ASSERT_PRED_FORMAT2(::testing::internal::CmpHelperGE, val1, val2) #define GTEST_ASSERT_GT(val1, val2) \ ASSERT_PRED_FORMAT2(::testing::internal::CmpHelperGT, val1, val2) // Define macro GTEST_DONT_DEFINE_ASSERT_XY to 1 to omit the definition of // ASSERT_XY(), which clashes with some users' own code. #if !GTEST_DONT_DEFINE_ASSERT_EQ # define ASSERT_EQ(val1, val2) GTEST_ASSERT_EQ(val1, val2) #endif #if !GTEST_DONT_DEFINE_ASSERT_NE # define ASSERT_NE(val1, val2) GTEST_ASSERT_NE(val1, val2) #endif #if !GTEST_DONT_DEFINE_ASSERT_LE # define ASSERT_LE(val1, val2) GTEST_ASSERT_LE(val1, val2) #endif #if !GTEST_DONT_DEFINE_ASSERT_LT # define ASSERT_LT(val1, val2) GTEST_ASSERT_LT(val1, val2) #endif #if !GTEST_DONT_DEFINE_ASSERT_GE # define ASSERT_GE(val1, val2) GTEST_ASSERT_GE(val1, val2) #endif #if !GTEST_DONT_DEFINE_ASSERT_GT # define ASSERT_GT(val1, val2) GTEST_ASSERT_GT(val1, val2) #endif // C-string Comparisons. All tests treat NULL and any non-NULL string // as different. Two NULLs are equal. // // * {ASSERT|EXPECT}_STREQ(s1, s2): Tests that s1 == s2 // * {ASSERT|EXPECT}_STRNE(s1, s2): Tests that s1 != s2 // * {ASSERT|EXPECT}_STRCASEEQ(s1, s2): Tests that s1 == s2, ignoring case // * {ASSERT|EXPECT}_STRCASENE(s1, s2): Tests that s1 != s2, ignoring case // // For wide or narrow string objects, you can use the // {ASSERT|EXPECT}_??() macros. // // Don't depend on the order in which the arguments are evaluated, // which is undefined. // // These macros evaluate their arguments exactly once. #define EXPECT_STREQ(expected, actual) \ EXPECT_PRED_FORMAT2(::testing::internal::CmpHelperSTREQ, expected, actual) #define EXPECT_STRNE(s1, s2) \ EXPECT_PRED_FORMAT2(::testing::internal::CmpHelperSTRNE, s1, s2) #define EXPECT_STRCASEEQ(expected, actual) \ EXPECT_PRED_FORMAT2(::testing::internal::CmpHelperSTRCASEEQ, expected, actual) #define EXPECT_STRCASENE(s1, s2)\ EXPECT_PRED_FORMAT2(::testing::internal::CmpHelperSTRCASENE, s1, s2) #define ASSERT_STREQ(expected, actual) \ ASSERT_PRED_FORMAT2(::testing::internal::CmpHelperSTREQ, expected, actual) #define ASSERT_STRNE(s1, s2) \ ASSERT_PRED_FORMAT2(::testing::internal::CmpHelperSTRNE, s1, s2) #define ASSERT_STRCASEEQ(expected, actual) \ ASSERT_PRED_FORMAT2(::testing::internal::CmpHelperSTRCASEEQ, expected, actual) #define ASSERT_STRCASENE(s1, s2)\ ASSERT_PRED_FORMAT2(::testing::internal::CmpHelperSTRCASENE, s1, s2) // Macros for comparing floating-point numbers. // // * {ASSERT|EXPECT}_FLOAT_EQ(expected, actual): // Tests that two float values are almost equal. // * {ASSERT|EXPECT}_DOUBLE_EQ(expected, actual): // Tests that two double values are almost equal. // * {ASSERT|EXPECT}_NEAR(v1, v2, abs_error): // Tests that v1 and v2 are within the given distance to each other. // // Google Test uses ULP-based comparison to automatically pick a default // error bound that is appropriate for the operands. See the // FloatingPoint template class in gtest-internal.h if you are // interested in the implementation details. #define EXPECT_FLOAT_EQ(expected, actual)\ EXPECT_PRED_FORMAT2(::testing::internal::CmpHelperFloatingPointEQ, \ expected, actual) #define EXPECT_DOUBLE_EQ(expected, actual)\ EXPECT_PRED_FORMAT2(::testing::internal::CmpHelperFloatingPointEQ, \ expected, actual) #define ASSERT_FLOAT_EQ(expected, actual)\ ASSERT_PRED_FORMAT2(::testing::internal::CmpHelperFloatingPointEQ, \ expected, actual) #define ASSERT_DOUBLE_EQ(expected, actual)\ ASSERT_PRED_FORMAT2(::testing::internal::CmpHelperFloatingPointEQ, \ expected, actual) #define EXPECT_NEAR(val1, val2, abs_error)\ EXPECT_PRED_FORMAT3(::testing::internal::DoubleNearPredFormat, \ val1, val2, abs_error) #define ASSERT_NEAR(val1, val2, abs_error)\ ASSERT_PRED_FORMAT3(::testing::internal::DoubleNearPredFormat, \ val1, val2, abs_error) // These predicate format functions work on floating-point values, and // can be used in {ASSERT|EXPECT}_PRED_FORMAT2*(), e.g. // // EXPECT_PRED_FORMAT2(testing::DoubleLE, Foo(), 5.0); // Asserts that val1 is less than, or almost equal to, val2. Fails // otherwise. In particular, it fails if either val1 or val2 is NaN. GTEST_API_ AssertionResult FloatLE(const char* expr1, const char* expr2, float val1, float val2); GTEST_API_ AssertionResult DoubleLE(const char* expr1, const char* expr2, double val1, double val2); #if GTEST_OS_WINDOWS // Macros that test for HRESULT failure and success, these are only useful // on Windows, and rely on Windows SDK macros and APIs to compile. // // * {ASSERT|EXPECT}_HRESULT_{SUCCEEDED|FAILED}(expr) // // When expr unexpectedly fails or succeeds, Google Test prints the // expected result and the actual result with both a human-readable // string representation of the error, if available, as well as the // hex result code. # define EXPECT_HRESULT_SUCCEEDED(expr) \ EXPECT_PRED_FORMAT1(::testing::internal::IsHRESULTSuccess, (expr)) # define ASSERT_HRESULT_SUCCEEDED(expr) \ ASSERT_PRED_FORMAT1(::testing::internal::IsHRESULTSuccess, (expr)) # define EXPECT_HRESULT_FAILED(expr) \ EXPECT_PRED_FORMAT1(::testing::internal::IsHRESULTFailure, (expr)) # define ASSERT_HRESULT_FAILED(expr) \ ASSERT_PRED_FORMAT1(::testing::internal::IsHRESULTFailure, (expr)) #endif // GTEST_OS_WINDOWS // Macros that execute statement and check that it doesn't generate new fatal // failures in the current thread. // // * {ASSERT|EXPECT}_NO_FATAL_FAILURE(statement); // // Examples: // // EXPECT_NO_FATAL_FAILURE(Process()); // ASSERT_NO_FATAL_FAILURE(Process()) << "Process() failed"; // #define ASSERT_NO_FATAL_FAILURE(statement) \ GTEST_TEST_NO_FATAL_FAILURE_(statement, GTEST_FATAL_FAILURE_) #define EXPECT_NO_FATAL_FAILURE(statement) \ GTEST_TEST_NO_FATAL_FAILURE_(statement, GTEST_NONFATAL_FAILURE_) // Causes a trace (including the source file path, the current line // number, and the given message) to be included in every test failure // message generated by code in the current scope. The effect is // undone when the control leaves the current scope. // // The message argument can be anything streamable to std::ostream. // // In the implementation, we include the current line number as part // of the dummy variable name, thus allowing multiple SCOPED_TRACE()s // to appear in the same block - as long as they are on different // lines. #define SCOPED_TRACE(message) \ ::testing::internal::ScopedTrace GTEST_CONCAT_TOKEN_(gtest_trace_, __LINE__)(\ __FILE__, __LINE__, ::testing::Message() << (message)) // Compile-time assertion for type equality. // StaticAssertTypeEq() compiles iff type1 and type2 are // the same type. The value it returns is not interesting. // // Instead of making StaticAssertTypeEq a class template, we make it a // function template that invokes a helper class template. This // prevents a user from misusing StaticAssertTypeEq by // defining objects of that type. // // CAVEAT: // // When used inside a method of a class template, // StaticAssertTypeEq() is effective ONLY IF the method is // instantiated. For example, given: // // template class Foo { // public: // void Bar() { testing::StaticAssertTypeEq(); } // }; // // the code: // // void Test1() { Foo foo; } // // will NOT generate a compiler error, as Foo::Bar() is never // actually instantiated. Instead, you need: // // void Test2() { Foo foo; foo.Bar(); } // // to cause a compiler error. template bool StaticAssertTypeEq() { (void)internal::StaticAssertTypeEqHelper(); return true; } // Defines a test. // // The first parameter is the name of the test case, and the second // parameter is the name of the test within the test case. // // The convention is to end the test case name with "Test". For // example, a test case for the Foo class can be named FooTest. // // Test code should appear between braces after an invocation of // this macro. Example: // // TEST(FooTest, InitializesCorrectly) { // Foo foo; // EXPECT_TRUE(foo.StatusIsOK()); // } // Note that we call GetTestTypeId() instead of GetTypeId< // ::testing::Test>() here to get the type ID of testing::Test. This // is to work around a suspected linker bug when using Google Test as // a framework on Mac OS X. The bug causes GetTypeId< // ::testing::Test>() to return different values depending on whether // the call is from the Google Test framework itself or from user test // code. GetTestTypeId() is guaranteed to always return the same // value, as it always calls GetTypeId<>() from the Google Test // framework. #define GTEST_TEST(test_case_name, test_name)\ GTEST_TEST_(test_case_name, test_name, \ ::testing::Test, ::testing::internal::GetTestTypeId()) // Define this macro to 1 to omit the definition of TEST(), which // is a generic name and clashes with some other libraries. #if !GTEST_DONT_DEFINE_TEST # define TEST(test_case_name, test_name) GTEST_TEST(test_case_name, test_name) #endif // Defines a test that uses a test fixture. // // The first parameter is the name of the test fixture class, which // also doubles as the test case name. The second parameter is the // name of the test within the test case. // // A test fixture class must be declared earlier. The user should put // his test code between braces after using this macro. Example: // // class FooTest : public testing::Test { // protected: // virtual void SetUp() { b_.AddElement(3); } // // Foo a_; // Foo b_; // }; // // TEST_F(FooTest, InitializesCorrectly) { // EXPECT_TRUE(a_.StatusIsOK()); // } // // TEST_F(FooTest, ReturnsElementCountCorrectly) { // EXPECT_EQ(0, a_.size()); // EXPECT_EQ(1, b_.size()); // } #define TEST_F(test_fixture, test_name)\ GTEST_TEST_(test_fixture, test_name, test_fixture, \ ::testing::internal::GetTypeId()) } // namespace testing // Use this function in main() to run all tests. It returns 0 if all // tests are successful, or 1 otherwise. // // RUN_ALL_TESTS() should be invoked after the command line has been // parsed by InitGoogleTest(). // // This function was formerly a macro; thus, it is in the global // namespace and has an all-caps name. int RUN_ALL_TESTS() GTEST_MUST_USE_RESULT_; inline int RUN_ALL_TESTS() { return ::testing::UnitTest::GetInstance()->Run(); } #endif // GTEST_INCLUDE_GTEST_GTEST_H_ rocksdb-5.17.2/thirdparty.inc000066400000000000000000000173721337235545400161470ustar00rootroot00000000000000# Edit definitions below to specify paths to include files and libraries of all 3rd party libraries # TODO: Make this work with find_package and/or get rid of it # # This example assumes all the libraries locate in directories under THIRDPARTY_HOME environment variable # Set environment variable THIRDPARTY_HOME to point to your third party libraries home (Unix style dir separators) # or change the paths below to reflect where the libraries actually reside # set (THIRDPARTY_LIBS "") # Initialization, don't touch # # Defaults # set(GFLAGS_HOME $ENV{THIRDPARTY_HOME}/Gflags.Library) set(GFLAGS_INCLUDE ${GFLAGS_HOME}/build/native/include) set(GFLAGS_LIB_DEBUG ${GFLAGS_HOME}/lib/native/debug/amd64/gflags.lib) set(GFLAGS_LIB_RELEASE ${GFLAGS_HOME}/lib/native/retail/amd64/gflags.lib) # ================================================== GFLAGS ================================================== # For compatibility if (GFLAGS) set(WITH_GFLAGS ON) endif () if (WITH_GFLAGS) message(STATUS "GFLAGS library is enabled") if(DEFINED ENV{GFLAGS_INCLUDE}) set(GFLAGS_INCLUDE $ENV{GFLAGS_INCLUDE}) endif() if(DEFINED ENV{GFLAGS_LIB_DEBUG}) set(GFLAGS_LIB_DEBUG $ENV{GFLAGS_LIB_DEBUG}) endif() if(DEFINED ENV{GFLAGS_LIB_RELEASE}) set(GFLAGS_LIB_RELEASE $ENV{GFLAGS_LIB_RELEASE}) endif() set(GFLAGS_CXX_FLAGS -DGFLAGS=gflags) set(GFLAGS_LIBS debug ${GFLAGS_LIB_DEBUG} optimized ${GFLAGS_LIB_RELEASE}) add_definitions(${GFLAGS_CXX_FLAGS}) include_directories(${GFLAGS_INCLUDE}) set (THIRDPARTY_LIBS ${THIRDPARTY_LIBS} ${GFLAGS_LIBS}) else () message(STATUS "GFLAGS library is disabled") endif () # ================================================== SNAPPY ================================================== # # Edit these 4 lines to define paths to Snappy # set(SNAPPY_HOME $ENV{THIRDPARTY_HOME}/Snappy.Library) set(SNAPPY_INCLUDE ${SNAPPY_HOME}/build/native/inc/inc) set(SNAPPY_LIB_DEBUG ${SNAPPY_HOME}/lib/native/debug/amd64/snappy.lib) set(SNAPPY_LIB_RELEASE ${SNAPPY_HOME}/lib/native/retail/amd64/snappy.lib) # For compatibility if(SNAPPY) set(WITH_SNAPPY ON) endif () if (WITH_SNAPPY) message(STATUS "SNAPPY library is enabled") if(DEFINED ENV{SNAPPY_INCLUDE}) set(SNAPPY_INCLUDE $ENV{SNAPPY_INCLUDE}) endif() if(DEFINED ENV{SNAPPY_LIB_DEBUG}) set(SNAPPY_LIB_DEBUG $ENV{SNAPPY_LIB_DEBUG}) endif() if(DEFINED ENV{SNAPPY_LIB_RELEASE}) set(SNAPPY_LIB_RELEASE $ENV{SNAPPY_LIB_RELEASE}) endif() set(SNAPPY_CXX_FLAGS -DSNAPPY) set(SNAPPY_LIBS debug ${SNAPPY_LIB_DEBUG} optimized ${SNAPPY_LIB_RELEASE}) add_definitions(${SNAPPY_CXX_FLAGS}) include_directories(${SNAPPY_INCLUDE}) set (THIRDPARTY_LIBS ${THIRDPARTY_LIBS} ${SNAPPY_LIBS}) else () message(STATUS "SNAPPY library is disabled") endif () # ================================================== LZ4 ================================================== # # Edit these 4 lines to define paths to LZ4 # set(LZ4_HOME $ENV{THIRDPARTY_HOME}/LZ4.Library) set(LZ4_INCLUDE ${LZ4_HOME}/build/native/inc/inc) set(LZ4_LIB_DEBUG ${LZ4_HOME}/lib/native/debug/amd64/lz4.lib) set(LZ4_LIB_RELEASE ${LZ4_HOME}/lib/native/retail/amd64/lz4.lib) # For compatibility if (LZ4) set(WITH_LZ4 ON) endif () if (WITH_LZ4) message(STATUS "LZ4 library is enabled") if(DEFINED ENV{LZ4_INCLUDE}) set(LZ4_INCLUDE $ENV{LZ4_INCLUDE}) endif() if(DEFINED ENV{LZ4_LIB_DEBUG}) set(LZ4_LIB_DEBUG $ENV{LZ4_LIB_DEBUG}) endif() if(DEFINED ENV{LZ4_LIB_RELEASE}) set(LZ4_LIB_RELEASE $ENV{LZ4_LIB_RELEASE}) endif() set(LZ4_CXX_FLAGS -DLZ4) set(LZ4_LIBS debug ${LZ4_LIB_DEBUG} optimized ${LZ4_LIB_RELEASE}) add_definitions(${LZ4_CXX_FLAGS}) include_directories(${LZ4_INCLUDE}) set (THIRDPARTY_LIBS ${THIRDPARTY_LIBS} ${LZ4_LIBS}) else () message(STATUS "LZ4 library is disabled") endif () # ================================================== ZLIB ================================================== # # Edit these 4 lines to define paths to ZLIB # set(ZLIB_HOME $ENV{THIRDPARTY_HOME}/ZLIB.Library) set(ZLIB_INCLUDE ${ZLIB_HOME}/build/native/inc/inc) set(ZLIB_LIB_DEBUG ${ZLIB_HOME}/lib/native/debug/amd64/zlib.lib) set(ZLIB_LIB_RELEASE ${ZLIB_HOME}/lib/native/retail/amd64/zlib.lib) # For compatibilty if (ZLIB) set(WITH_ZLIB ON) endif () if (WITH_ZLIB) message(STATUS "ZLIB library is enabled") if(DEFINED ENV{ZLIB_INCLUDE}) set(ZLIB_INCLUDE $ENV{ZLIB_INCLUDE}) endif() if(DEFINED ENV{ZLIB_LIB_DEBUG}) set(ZLIB_LIB_DEBUG $ENV{ZLIB_LIB_DEBUG}) endif() if(DEFINED ENV{ZLIB_LIB_RELEASE}) set(ZLIB_LIB_RELEASE $ENV{ZLIB_LIB_RELEASE}) endif() set(ZLIB_CXX_FLAGS -DZLIB) set(ZLIB_LIBS debug ${ZLIB_LIB_DEBUG} optimized ${ZLIB_LIB_RELEASE}) add_definitions(${ZLIB_CXX_FLAGS}) include_directories(${ZLIB_INCLUDE}) set (THIRDPARTY_LIBS ${THIRDPARTY_LIBS} ${ZLIB_LIBS}) else () message(STATUS "ZLIB library is disabled") endif () # ================================================== XPRESS ================================================== # This makes use of built-in Windows API, no additional includes, links to a system lib # For compatibilty if (XPRESS) set(WITH_XPRESS ON) endif () if (WITH_XPRESS) message(STATUS "XPRESS is enabled") add_definitions(-DXPRESS) # We are using the implementation provided by the system set (SYSTEM_LIBS ${SYSTEM_LIBS} Cabinet.lib) else () message(STATUS "XPRESS is disabled") endif () # ================================================== ZSTD ================================================== # # Edit these 4 lines to define paths to ZSTD # set(ZSTD_HOME $ENV{THIRDPARTY_HOME}/ZSTD.Library) set(ZSTD_INCLUDE ${ZSTD_HOME}/build/native/inc) set(ZSTD_LIB_DEBUG ${ZSTD_HOME}/lib/native/debug/amd64/libzstd_static.lib) set(ZSTD_LIB_RELEASE ${ZSTD_HOME}/lib/native/retail/amd64/libzstd_static.lib) # For compatibility if (ZSTD) set(WITH_ZSTD ON) endif () if (WITH_ZSTD) message(STATUS "ZSTD library is enabled") if(DEFINED ENV{ZSTD_INCLUDE}) set(ZSTD_INCLUDE $ENV{ZSTD_INCLUDE}) endif() if(DEFINED ENV{ZSTD_LIB_DEBUG}) set(ZSTD_LIB_DEBUG $ENV{ZSTD_LIB_DEBUG}) endif() if(DEFINED ENV{ZSTD_LIB_RELEASE}) set(ZSTD_LIB_RELEASE $ENV{ZSTD_LIB_RELEASE}) endif() # ZSTD_STATIC_LINKING_ONLY only allows us to create an allocation functions override # When jemalloc is in use set(ZSTD_LIBS debug ${ZSTD_LIB_DEBUG} optimized ${ZSTD_LIB_RELEASE}) add_definitions(-DZSTD -DZSTD_STATIC_LINKING_ONLY) include_directories(${ZSTD_INCLUDE}) set (THIRDPARTY_LIBS ${THIRDPARTY_LIBS} ${ZSTD_LIBS}) else () message(STATUS "ZSTD library is disabled") endif () # # Edit these 4 lines to define paths to Jemalloc # set(JEMALLOC_HOME $ENV{THIRDPARTY_HOME}/Jemalloc.Library) set(JEMALLOC_INCLUDE ${JEMALLOC_HOME}/build/native/inc) set(JEMALLOC_LIB_DEBUG ${JEMALLOC_HOME}/lib/native/debug/amd64/jemalloc.lib) set(JEMALLOC_LIB_RELEASE ${JEMALLOC_HOME}/lib/native/retail/amd64/jemalloc.lib) # ================================================== JEMALLOC ================================================== if(JEMALLOC) set(WITH_JEMALLOC ON) endif() if (WITH_JEMALLOC) message(STATUS "JEMALLOC library is enabled") set(JEMALLOC_CXX_FLAGS "-DROCKSDB_JEMALLOC -DJEMALLOC_EXPORT= ") if(DEFINED ENV{JEMALLOC_INCLUDE}) set(JEMALLOC_INCLUDE $ENV{JEMALLOC_INCLUDE}) endif() if(DEFINED ENV{JEMALLOC_LIB_DEBUG}) set(JEMALLOC_LIB_DEBUG $ENV{JEMALLOC_LIB_DEBUG}) endif() if(DEFINED ENV{JEMALLOC_LIB_RELEASE}) set(JEMALLOC_LIB_RELEASE $ENV{JEMALLOC_LIB_RELEASE}) endif() set(JEMALLOC_LIBS debug ${JEMALLOC_LIB_DEBUG} optimized ${JEMALLOC_LIB_RELEASE}) add_definitions(${JEMALLOC_CXX_FLAGS}) include_directories(${JEMALLOC_INCLUDE}) set (THIRDPARTY_LIBS ${THIRDPARTY_LIBS} ${JEMALLOC_LIBS}) set (ARTIFACT_SUFFIX "_je") else () set (ARTIFACT_SUFFIX "") message(STATUS "JEMALLOC library is disabled") endif () rocksdb-5.17.2/tools/000077500000000000000000000000001337235545400144105ustar00rootroot00000000000000rocksdb-5.17.2/tools/CMakeLists.txt000066400000000000000000000010401337235545400171430ustar00rootroot00000000000000set(TOOLS sst_dump.cc db_sanity_test.cc db_stress.cc write_stress.cc ldb.cc db_repl_stress.cc dump/rocksdb_dump.cc dump/rocksdb_undump.cc) foreach(src ${TOOLS}) get_filename_component(exename ${src} NAME_WE) add_executable(${exename}${ARTIFACT_SUFFIX} ${src}) target_link_libraries(${exename}${ARTIFACT_SUFFIX} ${LIBS}) list(APPEND tool_deps ${exename}) endforeach() add_custom_target(tools DEPENDS ${tool_deps}) add_custom_target(ldb_tests COMMAND python ${CMAKE_CURRENT_SOURCE_DIR}/ldb_tests.py DEPENDS ldb) rocksdb-5.17.2/tools/Dockerfile000066400000000000000000000001211337235545400163740ustar00rootroot00000000000000FROM buildpack-deps:wheezy ADD ./ldb /rocksdb/tools/ldb CMD /rocksdb/tools/ldb rocksdb-5.17.2/tools/advisor/000077500000000000000000000000001337235545400160575ustar00rootroot00000000000000rocksdb-5.17.2/tools/advisor/README.md000066400000000000000000000107211337235545400173370ustar00rootroot00000000000000# Rocksdb Tuning Advisor ## Motivation The performance of Rocksdb is contingent on its tuning. However, because of the complexity of its underlying technology and a large number of configurable parameters, a good configuration is sometimes hard to obtain. The aim of the python command-line tool, Rocksdb Advisor, is to automate the process of suggesting improvements in the configuration based on advice from Rocksdb experts. ## Overview Experts share their wisdom as rules comprising of conditions and suggestions in the INI format (refer [rules.ini](https://github.com/facebook/rocksdb/blob/master/tools/advisor/advisor/rules.ini)). Users provide the Rocksdb configuration that they want to improve upon (as the familiar Rocksdb OPTIONS file — [example](https://github.com/facebook/rocksdb/blob/master/examples/rocksdb_option_file_example.ini)) and the path of the file which contains Rocksdb logs and statistics. The [Advisor](https://github.com/facebook/rocksdb/blob/master/tools/advisor/advisor/rule_parser_example.py) creates appropriate DataSource objects (for Rocksdb [logs](https://github.com/facebook/rocksdb/blob/master/tools/advisor/advisor/db_log_parser.py), [options](https://github.com/facebook/rocksdb/blob/master/tools/advisor/advisor/db_options_parser.py), [statistics](https://github.com/facebook/rocksdb/blob/master/tools/advisor/advisor/db_stats_fetcher.py) etc.) and provides them to the [Rules Engine](https://github.com/facebook/rocksdb/blob/master/tools/advisor/advisor/rule_parser.py). The Rules uses rules from experts to parse data-sources and trigger appropriate rules. The Advisor's output gives information about which rules were triggered, why they were triggered and what each of them suggests. Each suggestion provided by a triggered rule advises some action on a Rocksdb configuration option, for example, increase CFOptions.write_buffer_size, set bloom_bits to 2 etc. ## Usage ### Prerequisites The tool needs the following to run: * python3 ### Running the tool An example command to run the tool: ```shell cd rocksdb/tools/advisor python3 -m advisor.rule_parser_example --rules_spec=advisor/rules.ini --rocksdb_options=test/input_files/OPTIONS-000005 --log_files_path_prefix=test/input_files/LOG-0 --stats_dump_period_sec=20 ``` ### Command-line arguments Most important amongst all the input that the Advisor needs, are the rules spec and starting Rocksdb configuration. The configuration is provided as the familiar Rocksdb Options file (refer [example](https://github.com/facebook/rocksdb/blob/master/examples/rocksdb_option_file_example.ini)). The Rules spec is written in the INI format (more details in [rules.ini](https://github.com/facebook/rocksdb/blob/master/tools/advisor/advisor/rules.ini)). In brief, a Rule is made of conditions and is triggered when all its constituent conditions are triggered. When triggered, a Rule suggests changes (increase/decrease/set to a suggested value) to certain Rocksdb options that aim to improve Rocksdb performance. Every Condition has a 'source' i.e. the data source that would be checked for triggering that condition. For example, a log Condition (with 'source=LOG') is triggered if a particular 'regex' is found in the Rocksdb LOG files. As of now the Rules Engine supports 3 types of Conditions (and consequently data-sources): LOG, OPTIONS, TIME_SERIES. The TIME_SERIES data can be sourced from the Rocksdb [statistics](https://github.com/facebook/rocksdb/blob/master/include/rocksdb/statistics.h) or [perf context](https://github.com/facebook/rocksdb/blob/master/include/rocksdb/perf_context.h). For more information about the remaining command-line arguments, run: ```shell cd rocksdb/tools/advisor python3 -m advisor.rule_parser_example --help ``` ### Sample output Here, a Rocksdb log-based rule has been triggered: ```shell Rule: stall-too-many-memtables LogCondition: stall-too-many-memtables regex: Stopping writes because we have \d+ immutable memtables \(waiting for flush\), max_write_buffer_number is set to \d+ Suggestion: inc-bg-flush option : DBOptions.max_background_flushes action : increase suggested_values : ['2'] Suggestion: inc-write-buffer option : CFOptions.max_write_buffer_number action : increase scope: col_fam: {'default'} ``` ## Running the tests Tests for the code have been added to the [test/](https://github.com/facebook/rocksdb/tree/master/tools/advisor/test) directory. For example, to run the unit tests for db_log_parser.py: ```shell cd rocksdb/tools/advisor python3 -m unittest -v test.test_db_log_parser ``` rocksdb-5.17.2/tools/advisor/advisor/000077500000000000000000000000001337235545400175265ustar00rootroot00000000000000rocksdb-5.17.2/tools/advisor/advisor/__init__.py000066400000000000000000000000001337235545400216250ustar00rootroot00000000000000rocksdb-5.17.2/tools/advisor/advisor/bench_runner.py000066400000000000000000000027711337235545400225570ustar00rootroot00000000000000# Copyright (c) 2011-present, Facebook, Inc. All rights reserved. # This source code is licensed under both the GPLv2 (found in the # COPYING file in the root directory) and Apache 2.0 License # (found in the LICENSE.Apache file in the root directory). from abc import ABC, abstractmethod import re class BenchmarkRunner(ABC): @staticmethod @abstractmethod def is_metric_better(new_metric, old_metric): pass @abstractmethod def run_experiment(self): # should return a list of DataSource objects pass @staticmethod def get_info_log_file_name(log_dir, db_path): # Example: DB Path = /dev/shm and OPTIONS file has option # db_log_dir=/tmp/rocks/, then the name of the log file will be # 'dev_shm_LOG' and its location will be /tmp/rocks. If db_log_dir is # not specified in the OPTIONS file, then the location of the log file # will be /dev/shm and the name of the file will be 'LOG' file_name = '' if log_dir: # refer GetInfoLogPrefix() in rocksdb/util/filename.cc # example db_path: /dev/shm/dbbench file_name = db_path[1:] # to ignore the leading '/' character to_be_replaced = re.compile('[^0-9a-zA-Z\-_\.]') for character in to_be_replaced.findall(db_path): file_name = file_name.replace(character, '_') if not file_name.endswith('_'): file_name += '_' file_name += 'LOG' return file_name rocksdb-5.17.2/tools/advisor/advisor/config_optimizer_example.py000066400000000000000000000123771337235545400251740ustar00rootroot00000000000000# Copyright (c) 2011-present, Facebook, Inc. All rights reserved. # This source code is licensed under both the GPLv2 (found in the # COPYING file in the root directory) and Apache 2.0 License # (found in the LICENSE.Apache file in the root directory). import argparse from advisor.db_config_optimizer import ConfigOptimizer from advisor.db_log_parser import NO_COL_FAMILY from advisor.db_options_parser import DatabaseOptions from advisor.rule_parser import RulesSpec CONFIG_OPT_NUM_ITER = 10 def main(args): # initialise the RulesSpec parser rule_spec_parser = RulesSpec(args.rules_spec) # initialise the benchmark runner bench_runner_module = __import__( args.benchrunner_module, fromlist=[args.benchrunner_class] ) bench_runner_class = getattr(bench_runner_module, args.benchrunner_class) ods_args = {} if args.ods_client and args.ods_entity: ods_args['client_script'] = args.ods_client ods_args['entity'] = args.ods_entity if args.ods_key_prefix: ods_args['key_prefix'] = args.ods_key_prefix db_bench_runner = bench_runner_class(args.benchrunner_pos_args, ods_args) # initialise the database configuration db_options = DatabaseOptions(args.rocksdb_options, args.misc_options) # set the frequency at which stats are dumped in the LOG file and the # location of the LOG file. db_log_dump_settings = { "DBOptions.stats_dump_period_sec": { NO_COL_FAMILY: args.stats_dump_period_sec } } db_options.update_options(db_log_dump_settings) # initialise the configuration optimizer config_optimizer = ConfigOptimizer( db_bench_runner, db_options, rule_spec_parser, args.base_db_path ) # run the optimiser to improve the database configuration for given # benchmarks, with the help of expert-specified rules final_db_options = config_optimizer.run() # generate the final rocksdb options file print( 'Final configuration in: ' + final_db_options.generate_options_config('final') ) print( 'Final miscellaneous options: ' + repr(final_db_options.get_misc_options()) ) if __name__ == '__main__': ''' An example run of this tool from the command-line would look like: python3 -m advisor.config_optimizer_example --base_db_path=/tmp/rocksdbtest-155919/dbbench --rocksdb_options=temp/OPTIONS_boot.tmp --misc_options bloom_bits=2 --rules_spec=advisor/rules.ini --stats_dump_period_sec=20 --benchrunner_module=advisor.db_bench_runner --benchrunner_class=DBBenchRunner --benchrunner_pos_args ./../../db_bench readwhilewriting use_existing_db=true duration=90 ''' parser = argparse.ArgumentParser(description='This script is used for\ searching for a better database configuration') parser.add_argument( '--rocksdb_options', required=True, type=str, help='path of the starting Rocksdb OPTIONS file' ) # these are options that are column-family agnostic and are not yet # supported by the Rocksdb Options file: eg. bloom_bits=2 parser.add_argument( '--misc_options', nargs='*', help='whitespace-separated list of options that are not supported ' + 'by the Rocksdb OPTIONS file, given in the ' + '= format eg. "bloom_bits=2 ' + 'rate_limiter_bytes_per_sec=128000000"') parser.add_argument( '--base_db_path', required=True, type=str, help='path for the Rocksdb database' ) parser.add_argument( '--rules_spec', required=True, type=str, help='path of the file containing the expert-specified Rules' ) parser.add_argument( '--stats_dump_period_sec', required=True, type=int, help='the frequency (in seconds) at which STATISTICS are printed to ' + 'the Rocksdb LOG file' ) # ODS arguments parser.add_argument( '--ods_client', type=str, help='the ODS client binary' ) parser.add_argument( '--ods_entity', type=str, help='the servers for which the ODS stats need to be fetched' ) parser.add_argument( '--ods_key_prefix', type=str, help='the prefix that needs to be attached to the keys of time ' + 'series to be fetched from ODS' ) # benchrunner_module example: advisor.db_benchmark_client parser.add_argument( '--benchrunner_module', required=True, type=str, help='the module containing the BenchmarkRunner class to be used by ' + 'the Optimizer, example: advisor.db_bench_runner' ) # benchrunner_class example: DBBenchRunner parser.add_argument( '--benchrunner_class', required=True, type=str, help='the name of the BenchmarkRunner class to be used by the ' + 'Optimizer, should be present in the module provided in the ' + 'benchrunner_module argument, example: DBBenchRunner' ) parser.add_argument( '--benchrunner_pos_args', nargs='*', help='whitespace-separated positional arguments that are passed on ' + 'to the constructor of the BenchmarkRunner class provided in the ' + 'benchrunner_class argument, example: "use_existing_db=true ' + 'duration=900"' ) args = parser.parse_args() main(args) rocksdb-5.17.2/tools/advisor/advisor/db_bench_runner.py000066400000000000000000000246661337235545400232330ustar00rootroot00000000000000# Copyright (c) 2011-present, Facebook, Inc. All rights reserved. # This source code is licensed under both the GPLv2 (found in the # COPYING file in the root directory) and Apache 2.0 License # (found in the LICENSE.Apache file in the root directory). from advisor.bench_runner import BenchmarkRunner from advisor.db_log_parser import DataSource, DatabaseLogs, NO_COL_FAMILY from advisor.db_stats_fetcher import ( LogStatsParser, OdsStatsFetcher, DatabasePerfContext ) import shutil import subprocess import time ''' NOTE: This is not thread-safe, because the output file is simply overwritten. ''' class DBBenchRunner(BenchmarkRunner): OUTPUT_FILE = "temp/dbbench_out.tmp" ERROR_FILE = "temp/dbbench_err.tmp" DB_PATH = "DB path" THROUGHPUT = "ops/sec" PERF_CON = " PERF_CONTEXT:" @staticmethod def is_metric_better(new_metric, old_metric): # for db_bench 'throughput' is the metric returned by run_experiment return new_metric >= old_metric @staticmethod def get_opt_args_str(misc_options_dict): # given a dictionary of options and their values, return a string # that can be appended as command-line arguments optional_args_str = "" for option_name, option_value in misc_options_dict.items(): if option_value: optional_args_str += ( " --" + option_name + "=" + str(option_value) ) return optional_args_str def __init__(self, positional_args, ods_args=None): # parse positional_args list appropriately self.db_bench_binary = positional_args[0] self.benchmark = positional_args[1] self.db_bench_args = None if len(positional_args) > 2: # options list with each option given as "